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
BMS003_00001	963			hypothetical protein	GTGAATAATTATTATCCATTTGGATTATTGCATAATTATACAGCTACAACACAGAATGCTTATCAGTATAAGTACAATGGTAAGGAGCTTCAGGAAAGTGGAATGTATGATTATGGGGTGAGGATGTATATGCCTGATTTGGGAAGATGGGGAGTACACGATCCTTTAAGTGAATTACAATTTGCTTACAGTTCATATTCATATGTTTATGGAAACAATGACCCAACTGGAATGATTGGAGAGGAAGATCCACCAAAGAAGGGTTCTACTCCTGATAATCCTATTGATATTGGTGAAATTAAGCTGACAAAAAATGTAAGTGATTCTAAGCTATCATTTATGGGAATCCAAAGTTTAAGTGCTTATCATGGTTCTCAGGATAGATTAGCTTTTGGTATCAGAAATAGTAAAGCAGCTCTTGCCACAGAAAAATTTGAAAGAAACCTGGCTTTCACTATGGGAACTTTCCTAATGGGAGGAAGTAATCTTGCTGCTTCAGCAGGATGGGCAACTTTTGATGCAGTAGTTGATTATCAAGATGAGGAAACCCAAGAAGCTGTGGGAGCAATACAATTGGCGGCGGTATTATTTCAACTAAAAAAAGGAAATATAAGTGGAATAAAAAAATTAGCTGATGATATTGTTGAGCAAGGTTTTTCGTTAAATAAGCATGGTGAGCTAACTAATGGAGTATATACAGTGTCGCAAGGAGCTATGAACAGGCATGTTTTTGCTGGTGTATATGGTAAAAGTCTTTTTTATCGAACAGTTGACGCTAATGTTGCTGTATTAAAAGCAGCGCAATATGCCGATGAAGCAGGTTTGTGGATTGGTAATAAAGCAAAGGTAACAGTTACTAATACAAATATTGGTGTATTAGCAAATGGAAAACACACAAATGTTATTAATGTTTATAGAAAACCTAATGGTACCGTTCATGGTTCTCCGGGTTCAATGAGATAA	MNNYYPFGLLHNYTATTQNAYQYKYNGKELQESGMYDYGVRMYMPDLGRWGVHDPLSELQFAYSSYSYVYGNNDPTGMIGEEDPPKKGSTPDNPIDIGEIKLTKNVSDSKLSFMGIQSLSAYHGSQDRLAFGIRNSKAALATEKFERNLAFTMGTFLMGGSNLAASAGWATFDAVVDYQDEETQEAVGAIQLAAVLFQLKKGNISGIKKLADDIVEQGFSLNKHGELTNGVYTVSQGAMNRHVFAGVYGKSLFYRTVDANVAVLKAAQYADEAGLWIGNKAKVTVTNTNIGVLANGKHTNVINVYRKPNGTVHGSPGSMR				NA	NA	NA	NA	NA
BMS003_00002	399			hypothetical protein	ATGGAAGATATTACCGATAAAATTAAAAGTGCTTTATTATATGATGGAAATTGGAAGTTTTCTGATTTTTATCTTAATGTTGAATTATTAAAAAATATTGACATTCAAATTTCTTTTTGGGAAGATGAAGAAAATTGGGCAACTTTATTAATCTATAATAGAGTTATAGGTTATTTATGGAAAGAATACCCTCTTTTAATTATTGAGAAAAACTATCAAAATATTATCGAATTAAATAAAAATCAATTTCCATTTTTGTGTACAATTATTGTTGAAAATTTGGATGATAAGAATTTAAAATTAGATTATAATAGATTGAAAAATCAATTATCAGATTGGGAAATTAATTATAGTATTTTTTCAGCAAATGACCTATGGTTCAATACAAATAGTATTTGA	MEDITDKIKSALLYDGNWKFSDFYLNVELLKNIDIQISFWEDEENWATLLIYNRVIGYLWKEYPLLIIEKNYQNIIELNKNQFPFLCTIIVENLDDKNLKLDYNRLKNQLSDWEINYSIFSANDLWFNTNSI				NA	NA	NA	NA	NA
BMS003_00003	1179			hypothetical protein	ATGATTAATTTTTTAACCAAAAGTTTATCCCTTGAGATTGTTAACTTTTTAAGTTTCTTTAAGAGAAAAGAAATTCCTCAGAAATCATTCAGTAAGAGCGCTTTCGTACAAGCACGTAAAAAAATAAAACCTGAGGTCTTTAGCTATCTGAATGAAAAACTGACCGAAGAATTTTACACTGACAATAGCACAGTAAAAACAAAATTTTCAGGAAAACGAATTTTGTCAGTAGACGGCTCCCGATTAACTCTTCCCAGAACAAGGGAATTGGAAAAAATCTATGGTAGAACGAAAAATCAAACAGAGACTTATATTATTCAGGGAAAAGCTTGTGTTTTGTACGATGTTCTGAATAAGATAGGTATTGGTGGTGTTTTGTCTTCTGTTGATACTGACGAACGCATTCAGGCAAAACAGCTTTTGGGATACTGCAGGAAAGGAGATTTGATCATTTATGACAGGGGTTTTGCATCTTTCGATTTTATGTATGAACACAAGGAAAAACAATTAGACTTTGTAATGCGGATGCGGTTGGATTTTAGTCTGGTTGTGAGAGATTTTGTAGCTGGCGGTCAAGATTCACAAGTCCTGGTCATGCAGCCTGGCAAAAACACAAATTTACAAGGAAAAACCTATGACAAAGACACTTCCTTGATAGTAAGATTACTTAGGATTGTTTTACCGGGAGGAGAGATCGAAGTTTTGGCAACCTCTCTTGAGGATGAAATCCAATACAAGAATGAAATCTTTAAAGATCTCTACTTTGAAAGATGGAAAATAGAAACGTACTATGACGAGCTTACAAATAAACTTAAAATAGAAGAATTTTCGGGTTATTCTAATCAAAGCATATTGCAGGATTTTTATGCTACATTGTTGGTAAGTAATATTCAAAGTCTTATTGTAGAGGAGATTAATGAAGAATTGCAAGAGAAAAAAGATACCAAAAAATATCGTTACAAAGTAAACACTTCATTATCCTATGGTTTTTTGAAAGACAGAATTATAGGTCTGCTTTTTTCCAACTCTGATATGAACAAGGCAATAGAGGAATTAAAAACTCTTTTCAAAGCGCATTTAATTCCTATAAGACCTCAAAGATCAATCAAAAGAAATATAGGAAAATATAGAGCTAGGGCTAAACCTATAGTCTCTAAAAATCAAAAAGATACATTGTGA	MINFLTKSLSLEIVNFLSFFKRKEIPQKSFSKSAFVQARKKIKPEVFSYLNEKLTEEFYTDNSTVKTKFSGKRILSVDGSRLTLPRTRELEKIYGRTKNQTETYIIQGKACVLYDVLNKIGIGGVLSSVDTDERIQAKQLLGYCRKGDLIIYDRGFASFDFMYEHKEKQLDFVMRMRLDFSLVVRDFVAGGQDSQVLVMQPGKNTNLQGKTYDKDTSLIVRLLRIVLPGGEIEVLATSLEDEIQYKNEIFKDLYFERWKIETYYDELTNKLKIEEFSGYSNQSILQDFYATLLVSNIQSLIVEEINEELQEKKDTKKYRYKVNTSLSYGFLKDRIIGLLFSNSDMNKAIEELKTLFKAHLIPIRPQRSIKRNIGKYRARAKPIVSKNQKDTL				NA	NA	NA	NA	NA
BMS003_00004	345			hypothetical protein	ATGAAAATAAATTTACCAGATAAACTGTATTATTCTATAGGAGAAGTAGCGAAAGCATTCGATGTAAATACTTCATTAATACGTTACTGGGAACAGGAATTCCCTATCATCAAACCTAAAAAAAACAGAAAAGGTAACCGATATTTCACTCCTGAAGATATCAAAAACCTTCAGATGATCTACCATCTGGTAAAAGAAAAAGGATATACTCTGGACGGAGCCCGCATTGCTTTGACCACCAACAGTAAAATTTCTGAAACAATTACCCTCATCGACAGACTGGAATTTGTAAAAGCTGAGCTCATCAAGCTTAAAGAGTCTTTAGGAGAAAGAGATGGCGAATAA	MKINLPDKLYYSIGEVAKAFDVNTSLIRYWEQEFPIIKPKKNRKGNRYFTPEDIKNLQMIYHLVKEKGYTLDGARIALTTNSKISETITLIDRLEFVKAELIKLKESLGERDGE				NA	NA	NA	NA	NA
BMS003_00005	2682			hypothetical protein	ATGAAACGTTATTTCTTTATTTTCTCACTGATGATCCCTTTTCTGGGGTTTTCACAGTGGACAAGAACTGAGGTCAGGTCTCAGAAAGTTAAAAAATCACAGGAAAAATTAGAGTTTTCTGGGTTGTATACGTTAAATACGGATCAGCTTAAGCAAACATTAAAAGATGCTCCGGTACGTTTTTCAAGCGAAAAAGGAGTGATTATTTCCCTTCCGTCAGCCAATGGAAAGCTTGAAAAATTCCAGGTATGGGAATATTCCAATATGGCTCCTGAATTACAGGCAAAATTTCCGGATATCAGATCTTACGTAGGAACAGGTTTGGAAGACCCATCGGTGTATGTAAGATTCAGTCTTTCTCCGGTCGGTTTCTCATCCATGACAACAAGATCCGGAATTTCAGAGTTTATCGAACCCTATACCGAAGACAGATCTGTATACGCAGTTTTTGATTCCAATGCAAGAAGAGGACAGGATAAAGAACCTTTTGAGTGTCTTACACCCACCAGGCCGGAAATCAAAAATGCTGAAAAAAAAAACGGTACCGTAAATAAAAAAACAGCAGGTTTTAATGTGTTCAGACTTGCCATTACCTGTACAGCTGAATATGCAGAATATCACCTTACAGCAGCGGGAACACCCTCAGGAGCAACAGAAGCCCAAAAGAAAGCTGTTGTTTTAGCAGCAATGAACACTACATTGACCCGTCTGAACGGTGTTTTTGAAAAAGACCTCTCTCTTCATTTTAATCTGGTAGCGAATAATGATGCTGTTATTTTTGTAAGTACAACATCACCTGGTTACCCTTATACGGCATCAGATGAACAAAACCAGGAAGGGCAGACAACAATTACCAACCTTATTGGTGCCGCCAATTATGATATGGGACATATTTTTGACCGTGAAGACGGAAACGGATATGCCCCCGGAGATATCTGTAATGATGCCACTAAAGCAATGGGGTGGACTGCCAGCAATTATCCTGAAGGAGATAATTTTGACATCGACTATGTTGCTCATGAAATGGGGCATCAGTTAGGAGCTAATCATACCTTCAGCTATAGTACGGCATCTGGTAATCTGGCATCACTGGTGGAGCCGGGAAGTGGTTCTACCATTATGGCTTATACCGGAATTACAAGTAACTATGATGTACAGTTTAATTCCAATGATTATTTTCATGGGTTTAGTGTACAGGAAATTAAAACAAATATAAACAGCGTAGCCTGCGGGGCGAATACTCCTTTTGCAGATCCGGCTCCATCTGTCAGTGCTGGTGCTGATTATGTGATTCCAAAATCTACAGCATTTGTACTTCAAGGAACTTCCACAGATGCGAATACCTCTTCCTATACCTATACATGGGAGCAAATGGATTCGGGATCATCCCAGACAGGAAATAATTCTATTCCTTATCTGAATAAACCAAGTGGTCCTACATTCAGATCTATAAGTCCCGTAACCACTCCGGTAAGATATTTCCCCGATTTCAATAAAGTATTAGCAGGTGTTCTTACCACAAAATGGGAAACCGTTTCAGGAGTAGGAAGAAATCTTAATTTTGCACTGACGGTAAGAAACAACAGCATTGCAGCTCCTCAAACCAGTAAGGATGCGATGATGATCACTGTAAATAATGCTTCCGGACCATTTAAAGTTACTGCTCCGGCATTTGGGCAGTCTGCAAGTTCAGGGTCAACAATAAATGTTACCTGGGATGTAGCCAACACAACACAAGCGCCTGTAAGTACAGCTAATGTAAATATTAAACTGTCTACAGACGGAGGGCAGACATTTACTATAGTAGCAGCCAATACGCCTAACGACGGAAGTGAGCAGGTTACAATTCCGGCAGGATCTACAGCTACGAATGCCTATATTTTGGTAGAAGCTGTAGGAAATATCTACTATGCGGTAAGCCCGAGTTTTGTTATCGATTATACAGTGGAAGGAGAAAACTGTACTACCTATACTTATGGAGGGCCTGCTGTAACCATTACAGATGGTCCCGGAGGAAATGCTGCTATTGCATCGCCTATAGTTTCAGCACCTATGACGGTCAATAATCCTGGTATTATCACAAAAATTAAAGTAACCCCATCCGTAACCCATACTTATGTGAGTGATGTTTCATTAGGAATAGAAGGGCCTCTGGGAACATCAGCCCTTATCTGGAACAGGCAGTGCGGGTCTCAGGATAATATAACAGCAACATTCAGTGATACCGGAAATACCGTTGCTTGTGCTACTCCTATTCAGGGGGAAGTAAAATCTAATGAGTCATTAGGTATTTTTGTAGGACATCCTGCACAGGGACAGTGGAAATTATTTGCTTCAGATAATTATACAGGCGATATCGGAACCATCAATGGATGGACGCTTCAGGTATGTACCCGCCAGACTCAGTCTTTAGGTATTAAAGAATCAAACTCTCCATTGGCAGATGATATTAAGATCTACCCTAATCCAAGTGATGGTAACTTTTTTATTAAATCTCAGAATATAAAAGGAGATGTGAAAGTAAATATGTTTGATGCCAGCGGAAGATTAGTCTATTCTTCGGCGTATAAGAGTGAAGGGAATAATACCAAAGAGTTTAATGTAAATGTATCTAAAGGGATATATGTGATCAGCATCAGCTCTTCAAAAGGGGTTTACAACAGCAAGCTTGTCATTAAATAA	MKRYFFIFSLMIPFLGFSQWTRTEVRSQKVKKSQEKLEFSGLYTLNTDQLKQTLKDAPVRFSSEKGVIISLPSANGKLEKFQVWEYSNMAPELQAKFPDIRSYVGTGLEDPSVYVRFSLSPVGFSSMTTRSGISEFIEPYTEDRSVYAVFDSNARRGQDKEPFECLTPTRPEIKNAEKKNGTVNKKTAGFNVFRLAITCTAEYAEYHLTAAGTPSGATEAQKKAVVLAAMNTTLTRLNGVFEKDLSLHFNLVANNDAVIFVSTTSPGYPYTASDEQNQEGQTTITNLIGAANYDMGHIFDREDGNGYAPGDICNDATKAMGWTASNYPEGDNFDIDYVAHEMGHQLGANHTFSYSTASGNLASLVEPGSGSTIMAYTGITSNYDVQFNSNDYFHGFSVQEIKTNINSVACGANTPFADPAPSVSAGADYVIPKSTAFVLQGTSTDANTSSYTYTWEQMDSGSSQTGNNSIPYLNKPSGPTFRSISPVTTPVRYFPDFNKVLAGVLTTKWETVSGVGRNLNFALTVRNNSIAAPQTSKDAMMITVNNASGPFKVTAPAFGQSASSGSTINVTWDVANTTQAPVSTANVNIKLSTDGGQTFTIVAANTPNDGSEQVTIPAGSTATNAYILVEAVGNIYYAVSPSFVIDYTVEGENCTTYTYGGPAVTITDGPGGNAAIASPIVSAPMTVNNPGIITKIKVTPSVTHTYVSDVSLGIEGPLGTSALIWNRQCGSQDNITATFSDTGNTVACATPIQGEVKSNESLGIFVGHPAQGQWKLFASDNYTGDIGTINGWTLQVCTRQTQSLGIKESNSPLADDIKIYPNPSDGNFFIKSQNIKGDVKVNMFDASGRLVYSSAYKSEGNNTKEFNVNVSKGIYVISISSSKGVYNSKLVIK				NA	NA	NA	NA	NA
BMS003_00006	885	btr	COG0614	HTH-type transcriptional activator Btr	ATGATGAATCCGATCTCAGTTCTTCATATCAATCTTTTCCAGGCAGGTAAAAATACATCAGATTTTTATTTTAATACCATGAAGAAACATTTGGTAGTAGGACATCGTCATATTGAAAAGCCTCACAGACATGATTTCTACGTGGCTGTTCTTTTTACCAAAGGAACGGGTGTACATGAAATAGATTTTCAGAAATATAATGTTTCGGAAGGGAGCCTTTTCTTTTTATCACCGGGGCAGATTCACAGCTGGGAACTTTCCGAAGATATAGAAGGATATATTTTCTTTTGCTCACAGGAGTTTTATGAAATGCATTATGTGAATCAGAAACTAAGAAATTTTCCCTTTTTCGGATCCGTATCTTTTCCAAGAAAACTTCAATTGGATGCTCAGGAACTAAAAAAAAATATTGCTTTATTTCAGGAGTTGGGGAAAGAGCATCATGCTAAAAACATCATGAAAGAAGGGCTGATTTTATCATTAATGTCTCAGATCTTTATCAATGCCACCCGCTTATTTTCCAAAGATTTAAATACAATGGATTCCGCTGCCGGGCTTTCGTATTTTAAACACTATCAGGATTTTGAAAATCTGATTGAAGAGCACTTTGCAGAGCATAAATCAATTACTTATTATGCTTCTCTGATGGGGATTTCCTCTAAACATTTAAACAGGATTGTACAGACAGTTGTTCAGAAAACGGCTACAGATGTCATTACAGAAAGAGTAGTACTGGAGGCTAAAAGAATGTTGATGTACCTTGATGAAAGCCTTGTGGAAATTGCTTTCCGTTTAGGATATGAAGAATATTCCTACTTTGTAAGAGTATTCCGGAAAAGCTCCGGAATGACTCCTACTCAGTTTATGAGGAAATATAAGGCTTGA	MMNPISVLHINLFQAGKNTSDFYFNTMKKHLVVGHRHIEKPHRHDFYVAVLFTKGTGVHEIDFQKYNVSEGSLFFLSPGQIHSWELSEDIEGYIFFCSQEFYEMHYVNQKLRNFPFFGSVSFPRKLQLDAQELKKNIALFQELGKEHHAKNIMKEGLILSLMSQIFINATRLFSKDLNTMDSAAGLSYFKHYQDFENLIEEHFAEHKSITYYASLMGISSKHLNRIVQTVVQKTATDVITERVVLEAKRMLMYLDESLVEIAFRLGYEEYSYFVRVFRKSSGMTPTQFMRKYKA				NA	NA	NA	NA	NA
BMS003_00007	1443			hypothetical protein	ATGAGCGCAGAATCCAACAATATCAAATCTTTGGAAATTGAAAATGAAGATTTCAGAAATTCAGTAGGAACGATGGATGAAACCGGAAAAAGGAAGTGGATTTTCCCTCGAAAACCCAAAGGAAAATATACCAACTACAGAAATTACACCAGCTACCTTCTTCTTGCCTTATTTTTCGGGCTGCCATTTGTAAAGATCAACAATAATCCTTTTCTACTGATCAATGTCATCGACAGGAAATTCTTTATTCTCGGACAGCCGTTTTACCTTCAGGATTTTTTCATCCTTGCTCTGGGAGCGGTAACATCTGTAATCTTTGTCATGCTCTTTACCGTAGTTTTCGGAAGAATATTCTGTGGCTGGCTATGCCCTCAGACTCTTTTTATGGAAATGGTTTTCCGGAAAATAGAATACTGGATTGAAGGAGACAGAAATAAACAAATGAAACTCGACAGACAGGAATGGGATGCAGAAAAAATCCGAAAAAGACTGACGAAATGGTCTGTTTTCCTTTTAATTTCATTGATCATCTCCCACTTCATGTTCATGTATATTGTAGGATATGAAGAGGTTTTCCGTATTATGAGTGAAGGACCAGGAGGAAACTCCCTAAAATTTACAGCCATGATCTTTTTCACCCTGACTTTCTATTTTGTTTTTGCATGGCTTCGTGAGCAGGTCTGCACACTGGTTTGCCCATACGGAAGACTTCAAGGGGTATTGATTGATAAGCAAACCATCAATGTATATTATGATTTTAAAAGAGGAGAAGGCCGAGCAAAATGGAGAAACAATGAAGACAGAAAAGCTGCAGGAAAAGGAGATTGTATTGATTGTAACCAATGCGTTGTAGTATGTCCTACAGGAATTGATATCCGAAACGGACAGCAGCTGGAATGTGTAAACTGTACAGCATGTATAGATGCATGTGATGAAGTGATGGAAAAAGTAGGCTTACCTAAAGGCCTGGTACGTTATGCTACAGAAGCAGAAATTGAAAATCAGGACAAATTCCGGTTTACTCCAAGAATGAAAGCTACAACCGTCATCCTGGCATTGCTTATAGGATTCCTTGGATTCTTAATGTACGACCGTGGTTCTATGGAAGCGAAATTCATAAAACCGGCTGGTTCTACTTTTTTTGTCAAAGACGGCAAAATCACCAATACTTTTATTTACACCCTTCTGAATAAATCTAATGAAAAGAAAACCCTTTTCATTAAAGTTATCACTCCCAAAAAGGCTGAAATTACTTATTTCGGTTCTGAAAAAATCATATTAAAAGGAGACCAGATCCTGAAAGGGAATATTAATATTTCCTTTCCTGAAGAAGAGATCAAATTCTCAAAACAAAATATGGTGATTGGAGTTTTTGACGAAAAAGGAAAACTGGTAGACTCGTTTGAAACGACTTTTGAAGGACCATTTAAGTTAGCTTTGTAG	MSAESNNIKSLEIENEDFRNSVGTMDETGKRKWIFPRKPKGKYTNYRNYTSYLLLALFFGLPFVKINNNPFLLINVIDRKFFILGQPFYLQDFFILALGAVTSVIFVMLFTVVFGRIFCGWLCPQTLFMEMVFRKIEYWIEGDRNKQMKLDRQEWDAEKIRKRLTKWSVFLLISLIISHFMFMYIVGYEEVFRIMSEGPGGNSLKFTAMIFFTLTFYFVFAWLREQVCTLVCPYGRLQGVLIDKQTINVYYDFKRGEGRAKWRNNEDRKAAGKGDCIDCNQCVVVCPTGIDIRNGQQLECVNCTACIDACDEVMEKVGLPKGLVRYATEAEIENQDKFRFTPRMKATTVILALLIGFLGFLMYDRGSMEAKFIKPAGSTFFVKDGKITNTFIYTLLNKSNEKKTLFIKVITPKKAEITYFGSEKIILKGDQILKGNINISFPEEEIKFSKQNMVIGVFDEKGKLVDSFETTFEGPFKLAL				NA	NA	NA	NA	NA
BMS003_00008	894	gnl		Gluconolactonase	ATGAAGAATATCTTTAGAATAAGTATGATTGGTTTGGTTTTCGCATTGGTAAACTGTCAATCAGTAAATTATAGTAAAATGTTTTATGAAGGAGTACAGCCGGAAATGGTTTCCGACAAGTTCAGTTTCACAGAAGGACCATCAGCAGATAAAGAAGGGAATGTTTACTTTACAGATCAGCCTAATGATAAGATTTATTATTGGGACTGGAAAAGCAATAAGGTGATAGAGTTTTTGGATAAAACAGGAAGAGCAAACGGCACACACTTCGACAAAGACGGATATCTGATTACCTGTTCTGATGATCAGGGAGAAATCTGGAAAATTTCAAAGGATAAAAAAGTAGAAGTTCTGCTTAAAGGTTTTGAAGGAAAAAGGCTGAACGGTCCCAATGATGTCTGGAATGATGAAGACGGAGGAATGTACTTTACAGACCCATTGTATGAAAGAGATTACTGGGTTGGTTTTAAACAGGAAATCCAGAATAGAAGTCTTTATTACAGAGATAAAACAGGAAAAGTTACCCACCTTGATACTTTCACTCAGCCTAACGGAATTGTAGGAAGTGAAAAATTAAAGAAATTATATATTTCTGATATTGACGCCGGAAAAACCTATGTTTATGATATATTGGGTAATGGAAAGCTGTCTGAGAAAAAACTGTTCTGTGAAATGGGCTCAGATGGAATGGAGTTGGATAAGCACGGAAATCTTTATCTGACAGGAAATGGTGTACATGTTTTTAACCGTTTTGGAAAAAAGATCTATCATATTTCTATCCCTGAAAAATGGACGTCCAATGTAGCTTTTGGCGGAAAAAACAATAATATACTTTTCATTACCGCTTCAAAATCTGTGTATACTTTCCCTACAAGGGTTAGAGGGATTAAATAA	MKNIFRISMIGLVFALVNCQSVNYSKMFYEGVQPEMVSDKFSFTEGPSADKEGNVYFTDQPNDKIYYWDWKSNKVIEFLDKTGRANGTHFDKDGYLITCSDDQGEIWKISKDKKVEVLLKGFEGKRLNGPNDVWNDEDGGMYFTDPLYERDYWVGFKQEIQNRSLYYRDKTGKVTHLDTFTQPNGIVGSEKLKKLYISDIDAGKTYVYDILGNGKLSEKKLFCEMGSDGMELDKHGNLYLTGNGVHVFNRFGKKIYHISIPEKWTSNVAFGGKNNNILFITASKSVYTFPTRVRGIK	PGPT0001285_2202	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
BMS003_00009	1308	dbpA_1	COG0513	ATP-dependent RNA helicase DbpA	ATGGAATTACAACCGATTTATCAAAAGCTGCAGATTCAGGATATGAATCAGATGCAGAAATCCGCTTATAAAGCATCTGAAAACAATACAGACATTGTTTTACTATCTCCTACAGGATCAGGGAAAACGCTTGCCTTTTTATTTCCGGTTCTTCGGAACCTGAAAAAAAATGTTCAGGGAGTTCAGGCGTTGATATTGGTTCCTGCCAGAGAACTGGCTTTACAGATTGAACAGGTTTTTAAAGCAATGGGAACAGATTTTAAGGTATCTGTATGCTATGGCGGACATGATAAAAAAATAGAGGTCAATAATTTAATTGAAGCTCCGGCTGTACTCATCGGAACTCCGGGAAGAGTTGTTTACCACCTAAGAAATAACAATTTTGATCCGAAAACAATTAAAACTTTAGTTCTTGATGAATTCGACAAGGCTTTAGAACTGGGCTTTCAGGATGACATGGAATTTATTTCCAATTCCTTAAAAGGGCTTTCCCAAAGAATTTTAACTTCTGCAACAGCAATGGATGAAATTCCGGCTTTTACAGGTTTAAAAGATGAAAAAGTAATCAGTTTCCTTAAAGAAAATGATGTAAAACCAGATCTTCAGCTGAGAAAAGTAATGACTATTCCTGAGGAAAAGCTGGATACACTTTTCAATCTGGTTTGTAAAATCGGAAACAAGAGAACTTTGATCTTCTGTAACCACCGTGAAGCTGTAGACCGTATCTCCGAACTTCTTAACCAAATGGGAATCGACAGAGAAACCTTCCATGGCGGTATGGAACAGGACGAAAGAGAACGTGCTTTGCTAAAATTCAGAAATGATTCCGCAAGAATTCTTATTACAACAGATCTGGCTGCCCGCGGCCTTGATATTCCTGAGGTAGAATCTATTGTTCATTACCAGCTTCCTCCCAAAGAAGATGCCTTCATCCACAGAAACGGACGTACCGCAAGAATGAATGCCAAAGGCTTTGTATATCTGATTATGACTGAGGAGGAAAACTTTCCGTTCATTAAAAATAATACTCCTGAAGAAAGTGTTGCCGGATTTACTAAAGTTCCACAAAAAACACCTTTCCAGACGGTTTACATCAGCGCAGGAAAAAAAGATAAAGTGAACAAAGTGGATATTGTAGGATATCTGCTAAAAAAAGGAGAACTGCAAAAAGAAGATGTAGGAATTATCGAAGTAAAAGACACTACATCCTATGTTGCCGTTTCCAGAAATAAAGTGAATGCTCTTTTAAGAAAACTTCAGAACGAAAAACTGAAAGGAAAGAAAGTAAAAATGGAGGTTGCTTATTAA	MELQPIYQKLQIQDMNQMQKSAYKASENNTDIVLLSPTGSGKTLAFLFPVLRNLKKNVQGVQALILVPARELALQIEQVFKAMGTDFKVSVCYGGHDKKIEVNNLIEAPAVLIGTPGRVVYHLRNNNFDPKTIKTLVLDEFDKALELGFQDDMEFISNSLKGLSQRILTSATAMDEIPAFTGLKDEKVISFLKENDVKPDLQLRKVMTIPEEKLDTLFNLVCKIGNKRTLIFCNHREAVDRISELLNQMGIDRETFHGGMEQDERERALLKFRNDSARILITTDLAARGLDIPEVESIVHYQLPPKEDAFIHRNGRTARMNAKGFVYLIMTEEENFPFIKNNTPEESVAGFTKVPQKTPFQTVYISAGKKDKVNKVDIVGYLLKKGELQKEDVGIIEVKDTTSYVAVSRNKVNALLRKLQNEKLKGKKVKMEVAY				NA	NA	NA	NA	NA
BMS003_00010	1791	rpsA	COG0539	30S ribosomal protein S1	ATGTCAAAAGAGACAAATTCAGCAGAGGTTTTATTAAACCAAAACGTAGCACCAGAACAATTTGATTGGGATTCATTCGAATCAGGTCTTGATGCAGATGCGAGAAAAGAAAAAAGCGATTTAGAAGAAATCTACAACGGATCTTTAAACAACCTAGACGATAATGACGTTTTAGTTGGTAAAGTTGTAAGATTAACTGACAAAGAAGCTATCGTAGACATCAACTTCAAATCTGAAGGTGTGATCTCTCTAAACGAATTCCGTTACAACCAAGGCCTAAAAGTAGGTGATGAGGTAGAAGTAATGGTTGACAAGAGAGAAGACAAAACTGGACAATTACAATTATCTCACAGAAAAGCTAGAACGCTTAAAGCTTGGGATAAAGTAAACGAACTTCACGAAACTGGAGAAATTGTTAACGGTTTTGTTAAATCTAGAACTAAAGGTGGTATGATCGTTGACGTTCACGGAATCGAAGCATTCTTACCTGGTTCTCAAATTGACGTTAAGCCAATTAAAGATTACGATCAGTTCGTAGGAAAAACTATGGAGTTCAAAGTTGTGAAAATCAACCCTGAGTTCAAAAACGTAGTGGTATCTCACAAAGCATTGATCGAAGCAGATATCGAAGGTCAGAAAAAAGAAATCATCGCTCAGCTTGAAAAAGGTCAGGTTCTTGAAGGTACTGTTAAGAACATCACTTCTTACGGTGTATTCATTGACTTAGGAGGTGTAGATGGATTGATCCACATTACAGACCTTTCTTGGTCTAGAGTGAACCACCCATCTGAAATCCTGGAGGACGGACAGACTGTGAAAGTTGTAATCCTTGATTTCGATGATGAGAAAACAAGAATCCAATTAGGTATGAAGCAATTAGAAGCTCATCCTTGGGATGCTCTTTCTGCTGACCTTAAAGTAGGTGACAAAGTAAAAGGAAAAGTAGTAGTTCTTGCTGACTATGGTGCATTCGTAGAAATTGCTCCAGGTGTAGAAGGATTAATCCACGTTTCTGAAATGTCTTGGTCTACTCACTTAAGATCTGCCGGAGATTTTGTAAAAGTAGGTGATGAAGTAGAAGCTGAAGTATTAACTTTAGACAGAGAAGAAAGAAAAATTTCTCTTGGTATCAAGCAATTGTCTAAAGATCCATGGGAAAACATCGAAGCTAAGTATCCGGTAGGATCTCAGCATGTAGGAACTGTAAGAAACTTCACTAACTTTGGTGTATTCGTAGAGTTAGAAGAAGGTATTGACGGATTAATCTACATCTCTGATCTTTCTTGGACTAAGAAAATCAAGCACCCATCTGAGTTCTGCGCAGTAGGTGATAAATTAGACGTTGTAGTTCTTGAATTAGATATCCAAGCTAGAAGATTATCTCTAGGTCACAAGCAATTGACTGAAAACCCATGGGATAAATTCGAAACTAAATATGCTGAAGGAACTATCCACGCTGGTAAAGCTGTAGAAGTTCACGATAAAGGAGCTTCTGTTCAATTCGAAGATGCTGAAGTAGAAGCATTCTGCCCTTCAAGATTATTAGAGAAAGAAGATGGATCTAAAATCAAAAAAGGTGAAGATGCTCAGTTCAAAGTAATCGAATTCAACAAAGAATTCAAGAGAGTAGTAGTATCTCACACAGGTATCTTCAGAGACGAAGAGAAGAAAAACGTAAAAGAAGCTTCTTCTAGAAACGTAGCTTCTTCTTCTAACAACGAAGAAAGATCTACTCTTGGAGACATCGATGCATTAGCAGAGTTGAAAAGAAAAATGGAAGAAGGTAAATAA	MSKETNSAEVLLNQNVAPEQFDWDSFESGLDADARKEKSDLEEIYNGSLNNLDDNDVLVGKVVRLTDKEAIVDINFKSEGVISLNEFRYNQGLKVGDEVEVMVDKREDKTGQLQLSHRKARTLKAWDKVNELHETGEIVNGFVKSRTKGGMIVDVHGIEAFLPGSQIDVKPIKDYDQFVGKTMEFKVVKINPEFKNVVVSHKALIEADIEGQKKEIIAQLEKGQVLEGTVKNITSYGVFIDLGGVDGLIHITDLSWSRVNHPSEILEDGQTVKVVILDFDDEKTRIQLGMKQLEAHPWDALSADLKVGDKVKGKVVVLADYGAFVEIAPGVEGLIHVSEMSWSTHLRSAGDFVKVGDEVEAEVLTLDREERKISLGIKQLSKDPWENIEAKYPVGSQHVGTVRNFTNFGVFVELEEGIDGLIYISDLSWTKKIKHPSEFCAVGDKLDVVVLELDIQARRLSLGHKQLTENPWDKFETKYAEGTIHAGKAVEVHDKGASVQFEDAEVEAFCPSRLLEKEDGSKIKKGEDAQFKVIEFNKEFKRVVVSHTGIFRDEEKKNVKEASSRNVASSSNNEERSTLGDIDALAELKRKMEEGK				NA	NA	NA	NA	NA
BMS003_00011	2631			hypothetical protein	ATGAAAAATAAAGCTCTACCTCTTTTGTTTGCAGTATTTTCTGCATTTCCAACCGTATTGTTTGGACAAGATAATGAAAAATTGATTAAAGATTATATTTCTCAAAATAAGATTAGGGAATATAAGAAGTCTGATCTTAACAATATCATTATTGATAATGTAGATCCTTCAAAATCACTGAACGGTAACGTTGTGAAATTTTTACAGACCTATAATGGCTTACCAATATACAGCTCTGTAGGAACAGCATTAATTAAAGACAACAAAATTGTTTATTACACAGATAATTTTGTGAAAGATTATACTGCATCTACATCTGGTACAGCTGTTATTAATAAAGGTACAGCACTTCAAAAAATTGCAGAAGATCTTAAAAATCCTGATATTGCCAATTTTACGATTCTGGAATATCTTGAAAAAACTCAGAAAAAATCTACCTCTGCCAATCAAAGACTGGTATATACGAACGATGAGAACGGAAATCTTCGTCTGGCATATGAGTATATCTTAATGGAGCCAAAATCTCCGAATTACTGGAATATTTTAGTAGATGCGAACAATGGGAATATCCTGATGAAAAATAACCTGACGGTATCTTGTAATTTCCATCATGATGCCTATAGCTCAGATGCGGATTATAGCCATGCTGATCATTTTGAGAATACATTAGCAGGACCTCAGAACAGTATCGTACAAAACAATATTCCTTTCCTTTTGCCGGATAATGCATCTTATAATGTATTTCCATTGCCTATTGAAGCGCCTACTTTTGGTTCAAGATCAATTATTACCAATCCATGGCTTCTGAATGCTTCTCCTGAAGGATGGCACTCTGACGGTACTAATCATTATACTATTACAAGAGGAAATAATGTTTTTGCTTATGAGGATGCTGCCGGAACAGCTTTAACGGCACCTGATTATCTTACAGGAGCTCCGGCTGATGGAGGCGCTACAAGAAATTTTGATTTCCCTTTTAACATCAATGAAACACCATTGAACAACAGGAATGCTGCTATTACCAATTTATTTTATCTGAACAATAGAATTCATGATGTGTTCTATCAGTTCGGGTTTACAGAAACCGGAAGAAATTTTCAGCAGAACAATTTTGGAAATGGAGCTGTAGGGGCAGATGATGACTCTGTATATGCAGAAGCTCAGGATGGAAGCGGATTAAATAATGCCAATTTCTCTTCACCACCGGAAGGTTATAATGGAAAAATGCAGATGTATCTTTGGTCTCCGGTTGGAAGAGTATTTTATTATAATGCACCAAGTGCCGCAATTTCCCGTACACCGGGAGCCGGAACTGCTCAGTTTGGTAACCCTTTACCTATGAACGGAATAACCGGAGATGTAGCACTATCTCCGGTTTTAGACGGATGTACGGCTCTGCCTGCAAGTTCACTTGTTGATAAAATAGGACTGGTTGAGAGAGGAACATGTGCTTTCGCAATAAAAGTGAAAAATCTTCAGGATGCAGGTGCTAAAGCAGCTATTGTATATAATAACGCAGCAAATGGCGCTACTATAGGAAATATGGCAGGAAATGATCCTACTATTACTATTTCTTCAGTGCTTATTAACAATGCAGAAGGAGAATATATCAAAACTCAGCTTACTGCAAGTACAACCGTGAATGTTACCCTAAAAGGAAATATGACTCCTGATGGAAGTTTTGATAACGGAATCGTAACCCATGAATATGGGCATGGAATATCAAATAGAATGACCGGTACAGGATATAACTGTCTGAATTCAGGGGTTAGCAAAGAGCAGATGGGAGAAGGATGGTCTGATTTCTTTGCCTTAATGCTTACAAACAAAGCAGGAGATAATGCTACAGTGGCAAGAGGTACAGGTACCTATGCATTGGGGCAGGCAATTACAGGTGCTGGTATCAGACCTGCAAAATATTCAACAAACCTTGCTGTTAACGGATTTACCTATGGAGATACCAACGGAATGGAATACAACAACGGAACGGCAATAGTTCCGGATGTACACTCTATTGGTTTTGTATGGGCAACAATGCTATGGGATCTTCACTGGAAATATGTTGAAAAGTATGGATACTCTTCAGATGTATTATCTTCAACACCTAACGGAAGCACAAAAGTATTACAACTTGTAACAGACGCCCTGAAACTTCAAGGATGTAACCCTAGCTTTATTGACGGAAGAAATGCAATATTGGCTGCAGAGCTGGCAACTACACAAGGTCAGGATAAATGTATGATCTGGGGAGTTTTTGCAAGAAGAGGTCTGGGAGTGAGTGCTTCGGCTGGAGTTAAGAATAACATTAATGACCAGGTTCAGGACTTCAACGTGCCGGAAGAATGTGCATTATTGGGTACTAATGAAGTAAACAGTAGTAAAAACAAAGATATTTCTATCTATCCAAACCCGGCTAAAGATGAGTTCTATATCAAATTCCCAAGTAATACTTTAGGGAAGGTAAGTGTAGAGCTGTATGACATGTCCGGTAAGCTGGTTTCTTCTGAAGATAAAATTTCACCGGATGCTAAGAAAGCAATCTCTACAAGCAATTTGACCAACGGAACTTATATGGTTAAAATCAAAGGACTTGGTTTCGAAGCTTCTTCAAAAGTAATGGTTAAAAAATAA	MKNKALPLLFAVFSAFPTVLFGQDNEKLIKDYISQNKIREYKKSDLNNIIIDNVDPSKSLNGNVVKFLQTYNGLPIYSSVGTALIKDNKIVYYTDNFVKDYTASTSGTAVINKGTALQKIAEDLKNPDIANFTILEYLEKTQKKSTSANQRLVYTNDENGNLRLAYEYILMEPKSPNYWNILVDANNGNILMKNNLTVSCNFHHDAYSSDADYSHADHFENTLAGPQNSIVQNNIPFLLPDNASYNVFPLPIEAPTFGSRSIITNPWLLNASPEGWHSDGTNHYTITRGNNVFAYEDAAGTALTAPDYLTGAPADGGATRNFDFPFNINETPLNNRNAAITNLFYLNNRIHDVFYQFGFTETGRNFQQNNFGNGAVGADDDSVYAEAQDGSGLNNANFSSPPEGYNGKMQMYLWSPVGRVFYYNAPSAAISRTPGAGTAQFGNPLPMNGITGDVALSPVLDGCTALPASSLVDKIGLVERGTCAFAIKVKNLQDAGAKAAIVYNNAANGATIGNMAGNDPTITISSVLINNAEGEYIKTQLTASTTVNVTLKGNMTPDGSFDNGIVTHEYGHGISNRMTGTGYNCLNSGVSKEQMGEGWSDFFALMLTNKAGDNATVARGTGTYALGQAITGAGIRPAKYSTNLAVNGFTYGDTNGMEYNNGTAIVPDVHSIGFVWATMLWDLHWKYVEKYGYSSDVLSSTPNGSTKVLQLVTDALKLQGCNPSFIDGRNAILAAELATTQGQDKCMIWGVFARRGLGVSASAGVKNNINDQVQDFNVPEECALLGTNEVNSSKNKDISIYPNPAKDEFYIKFPSNTLGKVSVELYDMSGKLVSSEDKISPDAKKAISTSNLTNGTYMVKIKGLGFEASSKVMVKK				NA	NA	NA	NA	NA
BMS003_00012	978			hypothetical protein	ATGAAGAAGAAAAATATACTAAAAGGTGTTTTATTTGTAGGGATTGGAGCTAGTATATACGGTATGTTGGCCACTTTTGTGAAAATGGCTTATCATGATGGCTTTACAACTTCAGAAGTAACTACCTCTCAATTCGTATTAGGTTTGACGGGACTTTTGATCCTTAATTTTATTCAGACTCTAACCTCAAAACAGAAATTATCGCGGCCAAGCTCTAAAGAAGTAAGAATGCTGCTGCTTGCAGGAACTTCTTTAGGAGGAACAAGCTTATTCTATTATATTGCAGTACAGTATATCAATGTTTCCATTGCTATTGTACTGTTGATGCAGTCTGTATGGTTCAGTGTCGTAGTAGAGAGCATTATTACAAAAAAACTGCCTAATGCAAGAAAAGTAGTTTCTGTGGTGATTGTGCTGCTGGGGACAGTTCTGGCAACAAATCTTATTAATATGGAAATAGAGCTGGACTGGCACGGGGTATTCTGGGGTCTGATGGCAGCTGCTTCATATACCTTGACGATGTTCACCTCTAATACACTTGCTACCCATCTTCCGGTTTTCAGAAAGAGTATTATTATGCTGGCGGGTGGTTCAATGGTAGTCTTTGCCTTTTTATTCTTTGCTCAGATAGGACCGATGTATTTTGACGGTTTAAAATCATTATACTTAAATTTTACAGAAAATACGGAGCATATTCACTCATTTAATTATTCAATATTCCTGACGTATGGATTTGTACTTGCCCTGTTTGGAACCATCATCCCTCCGATTTTATTCAATGTTGGATTTCCAAATGCTGGATTGGGATTAGGAAGTATTGTTTCGTCACTGGAACTTCCGGTTTCCGTAACAATGGCTTTTGTTTTATTGGGAGAGAAAGTATTTCTCATCCAATGGGTTGGGATTGTGCTTATTCTTTTTGCTATCGTTCTGATGAATTTACCCTTCAAGAAAGAAAAAGAAATTTCAATGGCATAG	MKKKNILKGVLFVGIGASIYGMLATFVKMAYHDGFTTSEVTTSQFVLGLTGLLILNFIQTLTSKQKLSRPSSKEVRMLLLAGTSLGGTSLFYYIAVQYINVSIAIVLLMQSVWFSVVVESIITKKLPNARKVVSVVIVLLGTVLATNLINMEIELDWHGVFWGLMAAASYTLTMFTSNTLATHLPVFRKSIIMLAGGSMVVFAFLFFAQIGPMYFDGLKSLYLNFTENTEHIHSFNYSIFLTYGFVLALFGTIIPPILFNVGFPNAGLGLGSIVSSLELPVSVTMAFVLLGEKVFLIQWVGIVLILFAIVLMNLPFKKEKEISMA				NA	NA	NA	NA	NA
BMS003_00013	993	todF		2-hydroxy-6-oxo-2,4-heptadienoate hydrolase	ATGAAACATTTCAGAAATATAATGACCGCTTTTACTTTGGTGGTCTCCGGTTTTACGTTTTCACAGGTAAAACCTCTGGATGCAATGCTGTCTGATTATCAATATCCTTACGAAGTTCATTTTCTTAATCTTAAATCTCAGGGTGAAGATCTGAAAATGGCCTATATGGATGTACAGCCCCAAAAAACCAATGGAAAAACAATCATGCTTCTTCACGGGAAAAATTTTAATGGTGCTTATTGGGAAAGAACTGCGAAAGACTTGTCTGATAAAGGATTCAGAGTGGTGATTCCCGATCAGATAGGATTTGGAAAATCTTCAAAACCTCATGCATACCAGTTTTCTTTTTCACAGCTGGCAGAGAATACCAAAGGAATTCTTGATGAACTCAAAATTGATAAAGTAATAGTACTGGGACACTCAATGGGAGGTATGGTGGCGACCAGATTTACCTTGTTATATCCTGAAAAAGTAGAGAAACTGATTCTTGAAAACCCGATTGGACTGGAAGATTATAAGACTTTCGCAGCTTATCAGACCATTGATCAGGCTTATCAGTCCGAACTTAAAAATACAGCCGAAACTTATAAAAATTATCAGCTGAAATTCTATTATGACAACAAATGGAAAGAAGAATATCAGCCATGGCTTGACTTAATTGCAGGGTGGACGCTTCATAAAGATTATCCACAAGTTGCCTGGGATGCGGCGCTTACCTCAGATATGATTTACAATCAGCCTGTTTGCTATGAATTTAAAAACATTAAAGTTCCTACATTGCTTATCATTGGTACAAGAGACAGAACGGCAATAGGAAAGGATAGAGCACCCAAAGAACTTCAGCCTAAAATGGGGCAGTATCAGGAATTGGGAAAGAAAACCCAGCGTGAAATTGCCGGTTCAAAGCTTGTAGAAATTGAAAACGTAGGGCATCTTCCCCATATTGAAGTCTATCCAAAATTCATGGAAGCCCTGTATAATTTTATACAATAA	MKHFRNIMTAFTLVVSGFTFSQVKPLDAMLSDYQYPYEVHFLNLKSQGEDLKMAYMDVQPQKTNGKTIMLLHGKNFNGAYWERTAKDLSDKGFRVVIPDQIGFGKSSKPHAYQFSFSQLAENTKGILDELKIDKVIVLGHSMGGMVATRFTLLYPEKVEKLILENPIGLEDYKTFAAYQTIDQAYQSELKNTAETYKNYQLKFYYDNKWKEEYQPWLDLIAGWTLHKDYPQVAWDAALTSDMIYNQPVCYEFKNIKVPTLLIIGTRDRTAIGKDRAPKELQPKMGQYQELGKKTQREIAGSKLVEIENVGHLPHIEVYPKFMEALYNFIQ	PGPT0024360_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0024360-PLB-K13333	NA	NA
BMS003_00014	1143	ydhC_1		Inner membrane transport protein YdhC	ATGAAAAAGACAAATCCAATATGGCTGCTGACCTTGCTTGTAATGCTTCCGCAGTTTATAGAAACCATTTACAGTCCTGTCTTGCCAATGGTTCAGGAGAAGTTCGGAGTGAGGGAAGAATCTGTAACATTAACGATCAGCTTATATTTTATAGCATTTGCTTTGGGAGTGACATTCTGGGGAATACAATGTGACAGAATCGGAAGAAAAAAATCACTGGAATATGGTCTCATTACCTATGGAGCCGGAGCTTTGACAGCCGTTTTTGCTCCCACTTTTATCGTTTTTCTTACAGCCAGAATTATTTCTGCATTTGGAATTTCTGTAGGTTCCATTGTAACACAGACCATTTTAAGAGACAGCTACGATAAAGACCATCTCAGTAAAGTATTTTCCTGGATCGGAATTGGTTTATCCATAAGTCCAGTGGTGGGAATGATTACCGGTTCGCTACTAGCTTCTTCCATTGGACATCAGGGTGTTTTTATTACTTTATGCATACTGGCCATACTATTCTTTATTCTTTCGAGGCAAAAAATTACTGAAACCCATCAATCCCGAAAGAAAATCAATACGGGAACTTTGACAAACCTGTTTAAGCGAATGATTCAGGATAGGGAGATCATCAAATGCTGTTTATTAATCATGAGCTTTAATGTGCTTTTATTTTCATACTATTCACTGGCTCCGTTTATCTTTAAAGAATATCATTACTCTTCGTATGCATTCGGATACAGCAGTATCATATTGGCAGCTGGAACATTTGCCGGAGCAAAGCTCAACAGATTCTTGTTATTGAGAAACATACAGCCTAAACTTTTAGTTCAAGCCAGTACATTTACAGCATTCATTGCCTCTGTTTTCGTGTGGATGCTGACCGGTTCGGGAATTTATTTTTTAATCCCCTACTTTTTTATTGTGATGGCATTCAGTACCGCAATCCCTAATATTCTGAGTACAGCACTTATTAATTATAAAAACGAAACAGGAAGCGCTGGAGCTTTATTGGGACTCATTTATTATGTTCTGATAGGTTCAGGATTAATAAGTATTGGTTTTATACAAAACCTGGGAATTTCGTGTGTGTTGTTTTCTGGAATTGGCGTTGGTACCCTACTGCTATTTGGGTATAAAAAGAATTGA	MKKTNPIWLLTLLVMLPQFIETIYSPVLPMVQEKFGVREESVTLTISLYFIAFALGVTFWGIQCDRIGRKKSLEYGLITYGAGALTAVFAPTFIVFLTARIISAFGISVGSIVTQTILRDSYDKDHLSKVFSWIGIGLSISPVVGMITGSLLASSIGHQGVFITLCILAILFFILSRQKITETHQSRKKINTGTLTNLFKRMIQDREIIKCCLLIMSFNVLLFSYYSLAPFIFKEYHYSSYAFGYSSIILAAGTFAGAKLNRFLLLRNIQPKLLVQASTFTAFIASVFVWMLTGSGIYFLIPYFFIVMAFSTAIPNILSTALINYKNETGSAGALLGLIYYVLIGSGLISIGFIQNLGISCVLFSGIGVGTLLLFGYKKN				NA	NA	NA	NA	NA
BMS003_00015	783	nimR_1		HTH-type transcriptional regulator NimR	ATGGCTGTATTGAAGCAAAATGAAGTATTTGATGCCGATTCTATTCATGAAAAAGTAATAGGAATCGCCTCAGATCTGGTACTGCATGATTCTGGCTTTCATTTTCATAAAACGAAAACTCAGTTATTGTATGCACCATCAGGCTGTATGACAGTTACTACTTCAGACAGGCAATTGGTGCTTCCTCCATTTCGAATGCTTTGGATTCCTGCGAATGAAGTTCATCGTGTGAATTTCCGGAATATTGTAGCTTACAGATCCATTTATTTTGATGAAAGTTATGCAGGGAAATATATCAATACCGGCCTTAAGGTCTTATATGTAAACCCTTTACTGAAGGAAATTATAGAAAGAATTTGTTTTTGGGAATGGTCTGATCTTAAAAGTAATCACACCCATCTTTTAAAAGTATTCTGGGATGAAATACAAAGTGCTCCGGAAGAGAAGCTGGAACTGAAAATGCCACAGGACTGGCGTTTTAAGAAAATTGCAGAGGAGTGGACTCTGCGTAATTCTATGCCTCCCATGTTGAAAGATCTTGCAGCAAGGACAGGAGCCGTGGCGAAAACCATCAGCCGTATTTTTAAAAAAGAAACAGCACTCTCTTATCAGGACTGGAGACAGCAATGGAGGTTACAACGTTCAATTGAACTATTGGTGGAAGGCAATTCAATAGGAGAGGTGTCTCACATCCTGGATTTCTCTTCGGACAGTGCTTTTATTGAGTTTTTCAAAAAGCACACAGGATTCACTCCTTTACAGTACCTTTTGAAAAATGAGTAA	MAVLKQNEVFDADSIHEKVIGIASDLVLHDSGFHFHKTKTQLLYAPSGCMTVTTSDRQLVLPPFRMLWIPANEVHRVNFRNIVAYRSIYFDESYAGKYINTGLKVLYVNPLLKEIIERICFWEWSDLKSNHTHLLKVFWDEIQSAPEEKLELKMPQDWRFKKIAEEWTLRNSMPPMLKDLAARTGAVAKTISRIFKKETALSYQDWRQQWRLQRSIELLVEGNSIGEVSHILDFSSDSAFIEFFKKHTGFTPLQYLLKNE				NA	NA	NA	NA	NA
BMS003_00016	444			hypothetical protein	ATGAACAATTATACTAATACAATTGAACTCAAGGCCGCAACAGAGAAGATCTATAACGCACTTACTGATCAGATTCCTCTCTGGTGGTCTGAGCTGTTTACCGGAGCATCAGCACAGGTTGGAGATGTATTTACGGTAAGATTTGGAGACAATATTCACAAGAGCATACGAATAAAAGAATCAATACCGGATTCAAGAATGATATGGTTTGTTGAAGACTCCCTGATTGCTCTTCCTGAATTAAAAAATCAGACAGAATGGATAGGGACGAGCATTGTCTGGGAAATGGAACAAAAGGCAAACAGCAGTTTGCTTCAGCTTACTCATGTGGGGTTGAATCCGGATGTAGAATGTTATGATATTTGTTCAGGTGGCTGGAATCAGTTTATTGGAAGCCTGAAACTCTTTCTGGAAACTGGAAGCGGAACTCCGTATAAGAAATAA	MNNYTNTIELKAATEKIYNALTDQIPLWWSELFTGASAQVGDVFTVRFGDNIHKSIRIKESIPDSRMIWFVEDSLIALPELKNQTEWIGTSIVWEMEQKANSSLLQLTHVGLNPDVECYDICSGGWNQFIGSLKLFLETGSGTPYKK				NA	NA	NA	NA	NA
BMS003_00017	357	rplS		50S ribosomal protein L19	ATGGATTTATTAAAGTACGTACAAGACAAGTACATTGCGAAAAAAGAATTCCCTGAATTCAAAGCAGGTGATACAATTACTGTGTATTACGAAATTAAAGAAGGACAAAAGACTAGAACTCAGTTCTTCAAAGGAACAGTTATCCAATTAAGAGGTACTGGTTCTACAAAAACTTTCACTATCAGAAAAATGAGTGGTGATGTAGGTGTAGAAAGAGTATTCCCTATTAACATGCCTGCACTTCAGAAGATCGAGGTTGACAGAAGAGGTAGAGTTAGAAGAGCTAGAATTTACTACTTCAGAGACCTTAGAGGTAAAAAAGCAAGAATCAAAGACGCTGCTTACAAGAAGAAATAA	MDLLKYVQDKYIAKKEFPEFKAGDTITVYYEIKEGQKTRTQFFKGTVIQLRGTGSTKTFTIRKMSGDVGVERVFPINMPALQKIEVDRRGRVRRARIYYFRDLRGKKARIKDAAYKKK				NA	NA	NA	NA	NA
BMS003_00018	2739			hypothetical protein	ATGAAACATTATTTCTTCTTTTTTTGTTTCGCGGTCCAGATGGCTTTCGGGCAGGCTTTGTATCCTTATTTACAAAACCCAACTCCAAGCTCTATGATCGTCAATTGGAAAACAGCCTCCAATAATGAAACAACAGTGATCTACGGAGATTCGCCTACAAACCTTAATGTAACGGTAACAGGAACCACCAATATCTTCTCAGATACCGGATACAACAACAATTATTATTATCACACGGCAAAGATTAACAACCTGCAGCCAAATACCAAGTATTATTACAAAATAAAAACAGGAACAAGTGAGTCTGCTATTTATAATTTCAGAACACTTCCTTTACCCGGGCAACCTGTAACAGCCAATGGAAAGATTCGTTTCCTTATCATGGGAGACAACCAGATCAAAGCGGAACCAAGATATGATACGCTTACTTTGAATGCTTATAAAAAATTGAAAGAAAAGTTCGGTGCAACTTCCGATCCTTCTGATAATATTGCGCTTACCTTCATGGTGGGTGATCAGGTAGACGTAGGAACTTTGGATCACTATGAGAATGTTCACTTTAAAAAGAACATCAAATTATCCCCTTATCTGCCCATTCAGACAACGGTAGGAAACCATGAGACCTATGGAACGATGGGAATGAATTCTTACTATGCTCACTTTTATATTGATGAAATCAGTTATAAAGGAATAAGCTCAGGAAACGAAAATTATTATGCTCAGCAGGCAGGTAATGTATTGTTTATAAGTTTAAGTTCAGAACATACCGGATCAGCACAGCAGACTTGGCTTCAGCAGGTCTTAACAGCTGCTAACAATGATTCTACCGTAGACTGGATCATTTCTTTAAGCCACAGACCTTACCAGGCAGAGCAGTATGTAGGAGATATTTCTACATGGGTAAGAGAAAATGCGGTACCGCTTTTGGTAACTTCAGATAAATACCTGATGCATGTAGGGGCTCACCATCACCTGTATCACAGAGGACAGCTTAAAAATACACCAACTTATCAGATCATTTCAGGAGGTACAGCTTGGGATCAGTACTGGGGAATGTCTAATGAACAGGATTTTGATGATGTTCAGAAAACATTAACAGACTGGACGTACCAGATTGTGGAAGTAGATGTTCCTACAGGAAAAGTGGATATTGAATGTTATTCTATAGGAGGCATTTACAATAAGAAAAATAATGTGCTTGTAGATTCTTTCCACAGATATAAAAATCAGCCTAAGCCTGCAAAACCATCTGTTACAAATACTTTTACAGGTCCAATTACTTTACCGCTCACGTTGAATGGAAGTGCATTCTCATCTTCAAACGGAGAACTTTTAAATACTACACAATTCCTGATCAGTAAGGCTGCGAATTTTTCAGTCATTGAAAAAGAATTCTACCGCGATTTTGAAAACTGGTTCGGAAAAGACGGAAACGGAACTCCGGATAAAACCAAAAACCTGAATGATGGGGTAGACATCACAAAAGCAACACTGGCAGCGAACTCTATTCCAAATGGAATTTATTACGTAAAAACACGTTACAGAGACAGAAACCTTGAGTGGAGTGAATGGAGTGATGTGAAGCAGTTCGAGATTACAGGAAGTGTAGTTTCAAATCCTACATTTACATTAAATAAAACAGAATATGCCCAGAATGAAGCTATCACAGCTACATTTAGTGGTGGTCCCGGAAATCAGCAGGACTGGGTAGGGATCTATAAGAAAGGACAAACTCCCGCTTCTACAACTTCTCAAGGATATATTTATACAAATGGGCAGACTGCAGGAACAGTCACCTTCAATAATGGTTTGGCAATTAAAGGTCAGTATTTTGCCGGATTCTTTGCCAATGGAGGTTATACGGAAATCACTCCAAGAAAAAATTTCTACGTAGGCCCGAAAGTACAGCTTCAGACTACTGCTGATACCTATCCGGTAGGAGGAACGGTTGTTATCAATTTTACAGACGGCCCGAATCTGCAGAAAGACTGGATCGGAATTTATAAAATGGGACAGACTCCGGGAACGACTGCTTCTATCAAATGGAGCTATGTAAATGCAGCCTCGGGAACTCTTAATTTCACAGGGCTTCCAAAAGGATATTATTATGCACAGTATTTATTGGAAGACGGATATAACGGAATTGGGGAGAAGGTATTCTTTAAAGTAGGGGATATCGTTACCGATCTTTGGATCAACAAACCTGTCTATACTTTGGGTGAAAATATTACGGCTTCCTGGACAGATTCTCCGGGAATTATCAAAGATTGGCTGGGAATCTATCCTCAAAGTGTTCAGACTCCGGATGATAATTTTGTTTCTTACACCTATTTTGACGGAGTAACTCAGGGAACAAAAACCATTCAGGGAACGGCAGTGCCTGCCACTCCGGGTAATTATTATATGGTCATGTTTACCAATGATTCCTATACGGAAGTTTCCAATAGGGTACAGTTTCAGGTAGCTTCCCCTACTTTGGGAACGGCAGAAACAAGAAGCACAGAGAAAAATGTAGTGTTGTATCCAAACCCAACCAAACCGGGACAGCCTACTTTTATTAAAAGTGATTACCCGATTGAAAAAATTGAATTGGTCTCAGCTTCAGGAGAACTGCTTTATGTATCGAAAAATATCAATAACCAGCGTTTCTCTCTGGTGAATGAAAATCTTCCGGCAGGTGTTTATTTTGTAAAAGTACACGGAAGAAAATTATTTACTTTAAAACTGATTATTCAGTAA	MKHYFFFFCFAVQMAFGQALYPYLQNPTPSSMIVNWKTASNNETTVIYGDSPTNLNVTVTGTTNIFSDTGYNNNYYYHTAKINNLQPNTKYYYKIKTGTSESAIYNFRTLPLPGQPVTANGKIRFLIMGDNQIKAEPRYDTLTLNAYKKLKEKFGATSDPSDNIALTFMVGDQVDVGTLDHYENVHFKKNIKLSPYLPIQTTVGNHETYGTMGMNSYYAHFYIDEISYKGISSGNENYYAQQAGNVLFISLSSEHTGSAQQTWLQQVLTAANNDSTVDWIISLSHRPYQAEQYVGDISTWVRENAVPLLVTSDKYLMHVGAHHHLYHRGQLKNTPTYQIISGGTAWDQYWGMSNEQDFDDVQKTLTDWTYQIVEVDVPTGKVDIECYSIGGIYNKKNNVLVDSFHRYKNQPKPAKPSVTNTFTGPITLPLTLNGSAFSSSNGELLNTTQFLISKAANFSVIEKEFYRDFENWFGKDGNGTPDKTKNLNDGVDITKATLAANSIPNGIYYVKTRYRDRNLEWSEWSDVKQFEITGSVVSNPTFTLNKTEYAQNEAITATFSGGPGNQQDWVGIYKKGQTPASTTSQGYIYTNGQTAGTVTFNNGLAIKGQYFAGFFANGGYTEITPRKNFYVGPKVQLQTTADTYPVGGTVVINFTDGPNLQKDWIGIYKMGQTPGTTASIKWSYVNAASGTLNFTGLPKGYYYAQYLLEDGYNGIGEKVFFKVGDIVTDLWINKPVYTLGENITASWTDSPGIIKDWLGIYPQSVQTPDDNFVSYTYFDGVTQGTKTIQGTAVPATPGNYYMVMFTNDSYTEVSNRVQFQVASPTLGTAETRSTEKNVVLYPNPTKPGQPTFIKSDYPIEKIELVSASGELLYVSKNINNQRFSLVNENLPAGVYFVKVHGRKLFTLKLIIQ				NA	NA	NA	NA	NA
BMS003_00019	702	scoA	COG1788	Succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGATAGATAAAAGAGTAAAAAATGCAAAGGAGGCCATCGAAGGCATTAATGATGGAATGACCCTGATGCTTGGCGGATTCGGACTTTGCGGAATCCCGGAAAACTCAATTAATGCTTTGGTAGAAAGTGATGTGAAAGATCTTACCTGTATTTCAAACAATGCAGGAGTAGATGATTTCGGATTAGGATTGCTGCTTCACAAAAGACAGATTAAGAAAATGATCTCTTCGTATGTAGGAGAAAATGCTGAGTTTGAAAGACAGATGCTTTCCGGTGAACTGGATGTAGAACTTACTCCACAAGGGACTTTAGCAGAAAAATGCAGAGCTGCTCAGGCTGGAATTCCTGCTTTTTATACCCCTGCAGGTTATGGAACGGAAGTAGCAGAAGGAAAAGAAGTAAAAGAGTTCAAGGGAAAACCTCACATTCTGGAACATGCTTATGATGCAGACTTTTCTATTGTAAAAGCTTGGAAAGGTGATCATGCAGGAAACCTTATTTTCAAGGGATCTGCAAGAAACTTCAACCATCCGATGGCGGGTGCTGCAAAAATTACCATTGCTGAAGTAGAAGAACTGGTGGAACCTGGCCAATTAGATCCAAACGAAATTCACATTCCGGGAATCATGATTCAGAGAATTTTCCAGGGAGAAAAATTTGAAAAAAGAATTGAGCAGAGAACAGTGAGAGCTAAAGAATAA	MIDKRVKNAKEAIEGINDGMTLMLGGFGLCGIPENSINALVESDVKDLTCISNNAGVDDFGLGLLLHKRQIKKMISSYVGENAEFERQMLSGELDVELTPQGTLAEKCRAAQAGIPAFYTPAGYGTEVAEGKEVKEFKGKPHILEHAYDADFSIVKAWKGDHAGNLIFKGSARNFNHPMAGAAKITIAEVEELVEPGQLDPNEIHIPGIMIQRIFQGEKFEKRIEQRTVRAKE	PGPT0008325_1366	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
BMS003_00020	1803		COG1132	Putative multidrug export ATP-binding/permease protein	ATGAAAATACTTTTTAGATACCTTAAACCTTATCAGTGGCTGATAATTATCTCTTTATTTTTGGCTACAGTGAACCAGGTTTTTTCTTTATTTGCCCCGGCTATCACAGGAAACATCCTTGATCAGCTGGTTACCCACCCTAACTTTTTTGATAAAGAAAAGCTATTGCCCAGAAACCTGAATGAATATTTATATGGAAGCTCAGTATACCATGGGGCTTTTTACTTTTTGGGGCTTCTGATCGGAACTGCAATGGTGAGCCGAATTGCCAAGGCTTTTCAGGATTATGTGGTAAGCGTGATTACCCAAAAATTCGGTGCGAAAATCTTTACGGATGGTTTAAAACATTCCATGGCATTACCTTATCAGGAATTCGAAGATCAGAGAAGCGGTGAAACGCTGTCTATTTTAACGAAAGTAAGAGAAGATACTGTAAAATTCATCACGAATTTCATCAATATTTTCTTCGGAATTCTGGTGAGTATTATTTTCGTTTCGGTGTATGCGATTCGTCTGCATTGGTCTATTATGCCTGTTTATATCTGTGGAATTTTCTTTATTGCTATTGTTACCAATTTATTGAGCAAGAGAATCAAAGTTATCCAGAAAAATATTGTAACAGAAACAACTGCCTTAGCCGGAAGTACTACAGAAAGTCTTAGAAATATTGAGATTGTTAAAAGTTTAGGATTGACCAATCAGGAAGTGATCCGTTTAAATAATAATACATATAAAATCCTTGGCCTTGAGCTGAGAAAAGTGAAAAGCATCCGTTCTTTAAGTTTTATCCAGGGAACAATGGTTAATTTCCTTCAGCAGATGATTACACTGACTTTATTGTATTTAATATTTAAAAATATTGTTACTCCAGGCCAGTACTTGTCTTTGATGTTTTATGGTTTCTTTATTTTCGGGCCCATGCAGGAAATCGGGAATATTATTATTTCTTACCGTGAAGCAGAGGCATCTCTTCAGAATTTTGACCGTCTGATGAAAAAAGAAGTGGAAGAGAAACCTCTTCATCCTAAAAAAATCGGAGCGATTGAAGAACTGGAATTCAAACACGTTTCTTTCAAACATCAGACGGCTCAGTATAAAGCTTTAAATAATATTTCTTTTGATCTCAAAAACGGTGAAACCATTGCCTTTGTAGGCCCGAGTGGTTCCGGAAAAAGTACTTTGGTAAAACTATTGGTAGGATTGTACAGACCTCAGGAAGGAAACATTTTTTATAATGGAATTAATGGAAAGGAATTTGATTTTGATGAACTGAGAAATCAGATTGGTTTTGTAACACAGGATACTCAATTATTTGCAGGAACTATTAAAGAAAACCTTCTCTTCGTTAATCCTTCCGCTACCGAAGAGGAGTTGGCAGTCGCTTTACAGAAATCAAGCTGTACGGCATTATTGGAAAGAGCAGAAAAAGGAATAGAAACGGTTATTGGAGAAGGTGGTTTGAAACTGAGCGGCGGAGAAAAGCAAAGAATTGCCATTGCAAGAGCTCTTCTTAGAAAACCTCACCTATTAATTTTTGATGAAGCTACGTCTGCACTGGACAGTATTACCGAAGAAGAAATTACCACGACCATCAAAGATATTTCGAAGGAAAGAGAACAGATTACCGTGCTGATTGCACACCGTTTAAGTACGATCATGCATGCAGACAAAATTTATGTTCTTGAACGCGGACAGGTGGTAGAAACAGGTTCCCACGCTAATCTTATTGACGAAAAAGGACTTTACTACGCTATGTGGAGACAACAGATCGGAGAAAGAAAAACTCTTACTCCTCAAGCATAA	MKILFRYLKPYQWLIIISLFLATVNQVFSLFAPAITGNILDQLVTHPNFFDKEKLLPRNLNEYLYGSSVYHGAFYFLGLLIGTAMVSRIAKAFQDYVVSVITQKFGAKIFTDGLKHSMALPYQEFEDQRSGETLSILTKVREDTVKFITNFINIFFGILVSIIFVSVYAIRLHWSIMPVYICGIFFIAIVTNLLSKRIKVIQKNIVTETTALAGSTTESLRNIEIVKSLGLTNQEVIRLNNNTYKILGLELRKVKSIRSLSFIQGTMVNFLQQMITLTLLYLIFKNIVTPGQYLSLMFYGFFIFGPMQEIGNIIISYREAEASLQNFDRLMKKEVEEKPLHPKKIGAIEELEFKHVSFKHQTAQYKALNNISFDLKNGETIAFVGPSGSGKSTLVKLLVGLYRPQEGNIFYNGINGKEFDFDELRNQIGFVTQDTQLFAGTIKENLLFVNPSATEEELAVALQKSSCTALLERAEKGIETVIGEGGLKLSGGEKQRIAIARALLRKPHLLIFDEATSALDSITEEEITTTIKDISKEREQITVLIAHRLSTIMHADKIYVLERGQVVETGSHANLIDEKGLYYAMWRQQIGERKTLTPQA				NA	NA	NA	NA	NA
BMS003_00021	654	scoB	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGCTTACAAAAGAACAAATTGCCAAAAGAATTTCAAAAGAACTGAAAGATCGTTATTATGTAAACCTGGGAATCGGGATTCCTACTTTGGTTGCCAACTATGTTCCGGAAGGGATTTCCGTAGAATTCCAGAGTGAGAACGGAGTTTTGGGGATGGGGCCTTTCCCTTTCGAAGGAGAAGAAGATGCAGATATCATCAATGCCGGAAAACAAACCATTACTATCTTGGAAGGAGGTTCATTCTTTGATTCTGCCTTTAGTTTTGGGATGATTCGTGGTCAGAAAGTAGACCTTACCATCCTTGGTGCCATGGAAGTTTCAGAAAACGGAGATATTGCCAACTGGAAAATTCCGGGAAAAATGGTGAAAGGAATGGGAGGAGCAATGGATCTTGTGGCTTCCGCAGAAAATATTATCGTTGCTATGATGCACGTAAACAAAGCAGGAGAAAGCAAAATCCTTAAAAAATGTACACTTCCTTTAACGGGTGTAAACTGTGTGAAAAAAGTAGTTACTGAATTAGCTGTTCTGGATGTAACTCCGGCAGGATTCAAACTGGTAGAAAGAGCACCGGGTGTTTCAGTAGAAGATATTATTAAAGCAACAGAAGCAGATCTGATTATTGAAGGAGAAATTCCTGAAATGCAGTTCTGA	MLTKEQIAKRISKELKDRYYVNLGIGIPTLVANYVPEGISVEFQSENGVLGMGPFPFEGEEDADIINAGKQTITILEGGSFFDSAFSFGMIRGQKVDLTILGAMEVSENGDIANWKIPGKMVKGMGGAMDLVASAENIIVAMMHVNKAGESKILKKCTLPLTGVNCVKKVVTELAVLDVTPAGFKLVERAPGVSVEDIIKATEADLIIEGEIPEMQF	PGPT0008330_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
BMS003_00022	819			hypothetical protein	ATGAAAAAAAGCATTTTTGTGACCGCCGGACTATTCTTTTCAATGTCTGCACAGGCACAGCTTCTAGATATCATAAAATCTGCAGTTAAAGACAAAACGGGTGTAGATCTTAATGTTCCGGTAAAAAATAATGGTTCCACAGTTTCTACACAAACTACGACCCCAACTTCCGGACAGTCTAATCATTCATCAGCCAATCTTGGAAACCTTACTTCTACCCAGATTTCTTCAGGTTTAAAAGAGGCTTTAAGCATGGGAGTAACGGATGGTGTAAAAAAACTGGGTGTAACAGACGGTTTCTTCAAAAATGAAGCGGTAAAGATTTTAATGCCTGAAAAGTTAAGAAAAATTGATACCACTTTACGTTCCATTGGTATGGGAAGTCTTGCTGATGAAGGAGTAAAACTATTGAACAGAGCCGCTGAAGATGCCGTAACAGAAGCTGCTCCTATCTTCGCGAATGCCATCACTTCCATGACAATTACGGATGCCAAAAATATTTTATTAGGCAATAATAATGCTGCAACAAGCTATCTGCAGGGAAAAACCCAGACTCAGCTTTTCAATGCTTTTCAGCCTAAAGTAAAGGCTTCTTTAGGAAAAGTGGGTGCTGATACACTTTGGAAAAACCTTATTTCAAAATATAATACATTTACCGGACAGGCTGTTACCACAGATCTTAATGAATATGTTACCACAGAAACCATTAATGGGGTGTTCAAAATGGTTGCAGATAAAGAAAGTGGGATCAGAAATACGCCTGCTATGAGAACTACCAGCATTTTACAGAAGGTGTTTGGGGCTGCGGATGGGAAATAG	MKKSIFVTAGLFFSMSAQAQLLDIIKSAVKDKTGVDLNVPVKNNGSTVSTQTTTPTSGQSNHSSANLGNLTSTQISSGLKEALSMGVTDGVKKLGVTDGFFKNEAVKILMPEKLRKIDTTLRSIGMGSLADEGVKLLNRAAEDAVTEAAPIFANAITSMTITDAKNILLGNNNAATSYLQGKTQTQLFNAFQPKVKASLGKVGADTLWKNLISKYNTFTGQAVTTDLNEYVTTETINGVFKMVADKESGIRNTPAMRTTSILQKVFGAADGK				NA	NA	NA	NA	NA
BMS003_00023	2262			hypothetical protein	ATGATACGGACTTTTTTAGCATTGTTTATACTGATTTCAAACGTAATTCTTGCCCAAAATACATTAAATATAATTCCTTATCCACAAAAAGTTGAACTTTTACAGGGAGAATTTGCAATCCCGGATACTTTTGTATTAAGTGGTGATCTGCCGGAAGAGGAGACAGGATATTTTAAAAAAAGAATAGGTTCTCAGTTAAACTTTCGGTATGCTAAGAAGGGTAATATTCATTTGACTAATTCTATAATCTCTCCGACTTCGGGGACAGATGCAGAACAGAAAAAAGAATATTATTCATTAGAAATTTCTCCAAAGCAGATTCATATTAAATCTTATACCAAACAGGGATATTTTCTGGCGCTGCAAACTTTAATTCAGGTTATTGATCAGTATAAGGATAGTAAGAAAATTCCGGCAATGAAAATTGAAGATCAGCCCAAGTTTGCATGGAGAGGAATGCATCTGGATGTTTGCCGTCATTTCTTCACAGTGGATGAGGTGAAAAAGTACATAGACTATCTGGCGATGTACAAGCTGAATACGTTTCACTGGCATTTAACGGATGATCAGGGATGGAGAATTGAAATCAAAAAATATCCGAAACTTACTCAGATTGGCTCAAAACGTAAGGAATCCATGATTGGGGCTTATGTAGACAATAAGTTTGATGGTACACCTTATGGTCCTTATTTTTATACACAGGAACAGATAAAAGATGTAGTAAAATACGCTCAGGACAGACACATTACTGTTGTTCCGGAAATTGAAATGCCGGGGCATGCATTGGCAGCTTTATCAGCATATCCTGAACTGGCATGTACCAAAGGATCTTTTGAACCTGCTACAAAATGGGGCGTTTTTGATGATGTTTTCTGCCCGAAAGATGAAACATTTACCTTTCTGGAAAACGTTCTGGATGAAGTAATCCAATTGTTCCCTTCCAAATACATTCATATTGGTGGTGACGAGTGCCCGAAAACAAGATGGAAAGAATGTAAACACTGTCAGGAATTAATTAAAAAAAATAATTTAAAAGATGAGCACGGCTCACAAAGCTATTTTATTCATAGAATTGAAAAATATGTCAACGGTAAAGGTAGAAAGATCATCGGCTGGGATGAAATATTAGAAGGCGGATTGGCTCCGAATGCAGCTGTAATGAGCTGGACGGGCGTGAACGGAGGTATTGAAGCCGCAAAATCAAAACACTTTGCTGTAATGACACCAGGTGCATACTGCTATTTTGACCACTATCAGGGAGAACCGCAGTCTGAACCCAATGCCTTTGGTGGATTTACCCCTTTAGAAAAAGTTTACTCTTACAACCCCATTCCTTCCGAACTGAATGCAGAGCAGTCCAAATACATTATGGGAGTTCAGGCAAATCTTTGGACAGAATATATTTTAGATTTTAAACACGTAGAATACATGATCTTCCCCAGATTAATGGCACTTTCTGAAGTGGGATGGGGAACTTCTGATCCTAAAAAATATAAAGAATTTGAAAACAGGGTGATCTCTCAGTTTAAAGTGCTGGATAATATGAAAGTGAACTATGCAAAGAGTATTTATAACATCACCGGAAAAGTAATTCCTTCCAATGATGGAATTGCTTACGAACTGTCAACGTCACAGAATTCAAACGGTATAAGATATACTTTGGATGGAACCAATCCATCTATCAATTCTAAAACCTATCAGCATGCAATTCAAATTCCCAATTCTTTAACAATTAAATCAGCTTATTTTGAAGACGGTCAATTAAAGAGTGCCATATCTGCACAGGAGTTTACTGTTTCAAAAACGACCGGAAAAACGATAACCCTTGAGCAGCAGCCCAGTGAGAATTACTCTTTTGGAGGTGCTTTTACATTGGTAGACGGTATTATCGGGAATGTAAAACAGCTGGGTAAAACATGGCTGGGTTTCCAGGGAAAAGATGTTGTGGCAACCATAGATCTGGGTAAGAAAACTGTTTTCACAGAGGTGTATTTCAATACCCTTGAGAATAAAGGAAGCTGGATTCATCTGGCTAAATCTGCAAAGATTTTTGTTTCCGATGATAATACGGATTTTAAACTGATCAGAGAAATCGGGAGCGCAGAAATTCAAAATGCTAATGGAAAAATCAAAGTGAATGTAGGAACGCAGGATACAAAATACCTGAAAGTGGTTATTGAAAATGCAGGTATTATTCCGGCAGGAAATCCCGGAGCAGATTCCAAAGCATGGTTGTTTGTTGATGAAATTGGCGTAAATTAG	MIRTFLALFILISNVILAQNTLNIIPYPQKVELLQGEFAIPDTFVLSGDLPEEETGYFKKRIGSQLNFRYAKKGNIHLTNSIISPTSGTDAEQKKEYYSLEISPKQIHIKSYTKQGYFLALQTLIQVIDQYKDSKKIPAMKIEDQPKFAWRGMHLDVCRHFFTVDEVKKYIDYLAMYKLNTFHWHLTDDQGWRIEIKKYPKLTQIGSKRKESMIGAYVDNKFDGTPYGPYFYTQEQIKDVVKYAQDRHITVVPEIEMPGHALAALSAYPELACTKGSFEPATKWGVFDDVFCPKDETFTFLENVLDEVIQLFPSKYIHIGGDECPKTRWKECKHCQELIKKNNLKDEHGSQSYFIHRIEKYVNGKGRKIIGWDEILEGGLAPNAAVMSWTGVNGGIEAAKSKHFAVMTPGAYCYFDHYQGEPQSEPNAFGGFTPLEKVYSYNPIPSELNAEQSKYIMGVQANLWTEYILDFKHVEYMIFPRLMALSEVGWGTSDPKKYKEFENRVISQFKVLDNMKVNYAKSIYNITGKVIPSNDGIAYELSTSQNSNGIRYTLDGTNPSINSKTYQHAIQIPNSLTIKSAYFEDGQLKSAISAQEFTVSKTTGKTITLEQQPSENYSFGGAFTLVDGIIGNVKQLGKTWLGFQGKDVVATIDLGKKTVFTEVYFNTLENKGSWIHLAKSAKIFVSDDNTDFKLIREIGSAEIQNANGKIKVNVGTQDTKYLKVVIENAGIIPAGNPGADSKAWLFVDEIGVN	PGPT0012150_1280	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
BMS003_00024	642			hypothetical protein	ATGCAGGATAACACCATACTTTCTTCCGAATTCTCATCATCACCCGATCTGGTAGAAAAGCTGTATCAGTATGGTACAACGAAAAATTATCATGAGGGAGATGTTATTTTAGATGAAAATGCTTCCATCCGTTCCATTCCTATTGTGATGAAGGGAATGCTGAAAGTCATCAGGACTGAAGAAGACGGGCGTGAGATTTTATTATACTATATTAAAGCCGGAGAAAGCTGTATAATGTCTTTTCTGGGTGGGATGCACAATGAAAAAAGTATCGTAAAAGCTGAGATAGAAGAAGATGCAGAAATCCTTTTCTTACCTTTAGACAAAGTATCTTTATTCATTAAAGAACATCCGGAATGGCTGGACTATATCTTCAGACTGTATCATAAAAGATTTGAAGAGCTGCTGGATATCATCAATGCTATTGCTTTCAAAAAAGTAGATGAACGACTGCTCAACCTGCTCCAGAAAAAATCCGGGCTCACCGGGGCTGAAACCATTCATACCACCCACGAGCAGCTTGCAAATGAGCTGGGAACCGCAAGAGTAGTGGTGTCCAGACTCCTGAAACAGCTGGAAGAAGACGGGAAACTGAAGCTGGGAAGAAATAAAATTACCCTTCTGAAATCTCTAAATTCATAA	MQDNTILSSEFSSSPDLVEKLYQYGTTKNYHEGDVILDENASIRSIPIVMKGMLKVIRTEEDGREILLYYIKAGESCIMSFLGGMHNEKSIVKAEIEEDAEILFLPLDKVSLFIKEHPEWLDYIFRLYHKRFEELLDIINAIAFKKVDERLLNLLQKKSGLTGAETIHTTHEQLANELGTARVVVSRLLKQLEEDGKLKLGRNKITLLKSLNS	PGPT0000515_2575	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_00025	795			hypothetical protein	ATGGAAATTATAGGATATGCAGCAGCAGTTTTAATAGGGATCTCTCTTGGTTTAATCGGAGGAGGAGGAAGCATTCTCACCGTTCCCGTTCTTGTTTATCTTTTCGGAATTGATGCTTTTATGGCCACGGAATATTCCCTCTTTGTAGTGGGAATAAGCAGCCTGGTAGGGTCTGTGTCATATTTTAAAAAAGGGCTGGTCAATTTTAGGATGGCATTGGTATTTGGAATCCCTTCAGTGATTTCCATATTTCTCACCAGAATATATCTTCTTCCTTTAATTCCTGATGAGGTACTGAAAATACAGAACTTTACGATCACCAGAAATATATTTTTGCTACTGATTTTTGCAGGCTTAATGATTCTGGCTTCTTATAAAATGATAAGAAAAAACACTTCGGAAAAACCCTCAGAATATCAGGTGGATAAGAATGGTTCTTTTCTGGCAGCAGGACAGGGCTCAATAGTAGGAGTTTTGACAGGATTGGTAGGAGCCGGAGGTGGTTTTATGATCATTCCTGCATTAGTCAACCTTTTAAAAATTCCGATGAAAATTGCGATAGGAACATCTTTAGTCATCATTTCTCTCAATTCTCTGATCGGTTTTTTATCATCTGTAAATCACATGGAAATACAATGGAAACTTCTGACGTCTATCACAGCCATTGCCGTTGCAGGAATTATAATAGGTTCACAACTATCAAAAAAAATAGATGGCAAAAAACTGAAACCTGCATTTGGATGGTTTATCCTGATGATGGGTGTTTATATTATTGCCAAAGAAATTTTCCTTTAA	MEIIGYAAAVLIGISLGLIGGGGSILTVPVLVYLFGIDAFMATEYSLFVVGISSLVGSVSYFKKGLVNFRMALVFGIPSVISIFLTRIYLLPLIPDEVLKIQNFTITRNIFLLLIFAGLMILASYKMIRKNTSEKPSEYQVDKNGSFLAAGQGSIVGVLTGLVGAGGGFMIIPALVNLLKIPMKIAIGTSLVIISLNSLIGFLSSVNHMEIQWKLLTSITAIAVAGIIIGSQLSKKIDGKKLKPAFGWFILMMGVYIIAKEIFL				NA	NA	NA	NA	NA
BMS003_00026	1422	gloB_1		Hydroxyacylglutathione hydrolase	ATGAAAATAGAACAGATTTATACAGGATGCCTTGCACAGGGGGCTTACTATATCACGTCAGCCGGAGAAGCTGCGATTATTGATCCTTTAAGAGAAACACAGCCTTACATCAGCAGACTGAAAGAAGACGGAGTTCAATTGAAATATATTTTTGAAACTCATTTTCATGCAGATTTCGTCAGCGGACATCTTGATTTAAGCCATAAAACCGGAGCTCCAGTTGTTTACGGTCCCACAGCCAGTCCTGAATTTGAAGCGATCATTGCAAAAGATGAGCAGATATTTGACCTGGGAAATATTAAAATCAAAGTTCTTCATACACCAGGACATACACTTGAAAGTTCATGTTATCTGCTGATCGACGAAAATGGAATTGAAAAAGTACTTTTCAGTGGCGATACTTTATTCCTCGGAGATGTAGGACGTCCCGATCTGGCACAGAAAGGAGCCAATATGACCAAGGAAGAACTGGCAGGACTTTTATATGATAGTTTATATCGTAAAATTTTACCTTTAAATAATGATATCATCATCTATCCGGCTCACGGTGCCGGTTCTGCCTGTGGTAAAAATATGCAGAAAGAAACAGTAGATACATTGGGAAATCAAAAAAGAACCAATTATGCCCTGAATCAAAAGGACAGACAGAGCTTTATAAAAGAAGTAACAGACGGGCTTTTACCTCCACCAGCATATTTCGGGATGAATGTCATGATGAATAAAAAAGGATACAGCAGTTTCGAGGAAGTTCTCTCACAAGGTTTGCACGCACTTTCGCCTAAAGAGTTTGAAGAAATTGCGGACGCTTCCGGAGCTTTAATTTTAGATGTAAGAACCAGTAGTGAATTTGCCGGAAATTTTATTCCGAATTCCATCAATATAGGACTGGATGGTGATTTTGCCCCTTGGGTAGGAGCTTTGGTTGCTGATGTAAATCAACCTATTCTTCTGGTCGCTGAAAAAGGAACAGAAGAAGAAGCTGTAACCCGATTGAGCAGGGTAGGATTCGATCATATCTTAGGCTTTTTGGAAGGTGGTTTCGAAGCCTGGGAAAAGAGCGGAAAAGAAACAGACTTTGTAAATCGTATCTCTGCTAAGCAGTTTGAAGCTGAAATAAAAGAAAAAGAAGCAAAAATTATAGATATAAGAAAAGAAAGTGAGTACAATGCGGAACATATTCACGAAGCATACAGCAAACCTTTGGCATATATCAATGACTGGATTCATAGTATAAACCCGGAGGAGCATTTCTACATGCACTGTGGAAGCGGATACAGAAGTACAATGGCTGCAAGTATCCTTCAGGCAAGAGGATATAGGAATTTTTCAGAAATTGAAGGAGGTTTTAAAGCAATTGCATCTACAGGAGTTCAGAAAAGTGATTTTGTGTGCCAGACTAAAATTTTAAATAAATTAGATTAA	MKIEQIYTGCLAQGAYYITSAGEAAIIDPLRETQPYISRLKEDGVQLKYIFETHFHADFVSGHLDLSHKTGAPVVYGPTASPEFEAIIAKDEQIFDLGNIKIKVLHTPGHTLESSCYLLIDENGIEKVLFSGDTLFLGDVGRPDLAQKGANMTKEELAGLLYDSLYRKILPLNNDIIIYPAHGAGSACGKNMQKETVDTLGNQKRTNYALNQKDRQSFIKEVTDGLLPPPAYFGMNVMMNKKGYSSFEEVLSQGLHALSPKEFEEIADASGALILDVRTSSEFAGNFIPNSINIGLDGDFAPWVGALVADVNQPILLVAEKGTEEEAVTRLSRVGFDHILGFLEGGFEAWEKSGKETDFVNRISAKQFEAEIKEKEAKIIDIRKESEYNAEHIHEAYSKPLAYINDWIHSINPEEHFYMHCGSGYRSTMAASILQARGYRNFSEIEGGFKAIASTGVQKSDFVCQTKILNKLD	PGPT0001770_205	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS003_00027	564			hypothetical protein	ATGTTGGAAATTATAAAAGACCCCTGGCCATGGTATATTGCCGGTCCGTTGATTGGGCTTACCGTTCCTGCTTTATTGATTATGGGAAATAAATCCTTTGGGATCAGTTCCTCACTAAGACATGTCTGCGCTGCCTGTATACCAGGCAATGTGAATTTTTTCAAATACGACTGGAAAAAAGAAGCCTGGAATTTATTTTTTGTGTCGGGTATTTTCTTCGGAGGAATGATTGCTTCACAATTTTTGCTGAACCCCAATGGAATAACAGTAAATCCCGATCTGAAAACAGAGCTGGCTGGCTACGGAATTACAGACTACAGTAATCTGGTTCCGGTACAGTTGATGAATTTTGAAAGTTTATTAACCCTGAGAGGGCTGATTACAATGGTTGCAGGAGGGTTCCTTGTGGGCTTCGGGACAAGATATGCGGGCGGATGCACCAGCGGACATGCTATCATGGGACTTTCTAATCTGCAGTGGCCTTCATTGGTAGCAACAGTCTGTTTTATGATAGGTGGTTTTTTTATGGCGAATATCATTCTGCCAATCATCCTTTCCTTATAA	MLEIIKDPWPWYIAGPLIGLTVPALLIMGNKSFGISSSLRHVCAACIPGNVNFFKYDWKKEAWNLFFVSGIFFGGMIASQFLLNPNGITVNPDLKTELAGYGITDYSNLVPVQLMNFESLLTLRGLITMVAGGFLVGFGTRYAGGCTSGHAIMGLSNLQWPSLVATVCFMIGGFFMANIILPIILSL				NA	NA	NA	NA	NA
BMS003_00028	489			hypothetical protein	ATGATAAAAGAAAAAGAACAGGATATACGCCATCAGGATGCTGTTTGTGTCAACGAAAGTACCCTTACTCATCAATGGTATCACAATCTGAAATACCTTGCTGCTGGAATTATTTTTGGAATTATTTTTGTGAAAGCAGAGGTGATCAGCTGGTTCAGGATACAGGAAATGTTTCGTCTGCAGTCTTTCCATATGTATGGTATTATTGGAAGTGCTGTATTGGTCGGAATGATTTCAGTTTGGCTGATAAAAAAATTCAATATAAAAACGATCTACGGTGAACCCATTACACTTACTCCTAAGAAATTTAATAAAGGTCAGATCTATGGCGGATTGATATTTGGCTTTGGATGGGCTATTACAGGAGCCTGCCCAGGACCTCTTTTTGCTCAGATCGGAACCGGAGCTTTAGCAGTATCCGTAACTCTTTTGAGTGCTATTGCAGGGACTTGGGTGTATGGATACTTCAGAGATCAGTTACCGCATTAG	MIKEKEQDIRHQDAVCVNESTLTHQWYHNLKYLAAGIIFGIIFVKAEVISWFRIQEMFRLQSFHMYGIIGSAVLVGMISVWLIKKFNIKTIYGEPITLTPKKFNKGQIYGGLIFGFGWAITGACPGPLFAQIGTGALAVSVTLLSAIAGTWVYGYFRDQLPH				NA	NA	NA	NA	NA
BMS003_00029	993			N(4)-(Beta-N-acetylglucosaminyl)-L-asparaginase	ATGCAAAGTAGACGAAACTTTATAAAAAAAACCGCTGCAGCTTCTCTTGCACTTGCTGTAAACCCATTAGACTTAATGGCGAAAGATACTCCCGAAAATACTAAAACGATCAACAAGCCCATTGTACTTTCCACCTGGAATTTCGGATTGAAGGCCAACGAAGAAGCCTGGACAATCCTTGGAAAAGGAGGAAAAGCTTTAGATGCAGTAGAAAAAGGAGTACGTATTGTAGAATTAGATCCAAAAGAAAGAAGTGTAGGATACGGAGGCCGTCCGGACAGAGATGGAAGAGTAACATTGGATGCCTGCATTATGGATGAAAATTATAATATCGGCTCCGTTGCATGTCTGGAACATGTTAAAAACCCAATTTCCGTTGCCAGAGCTGTAATGGAAAAAACACCCCATGTGATGCTGGTAGGAGATGGAGCATTGCAGTTTGCCCTTTCCCAGGGATTTAAAAAAGAAAGCCTTCTCACCCCCGAATCAGAAAAAGAATGGAAAGAATGGTTAAAAACCAGCCAGTATAAACCTGTTGCCAATATTGAAAACCATGATACCATAGGGATGATTGCTCTGGATGCTCAGGGAAACCTTTCCGGTGCCTGCACAACCAGCGGGATGGCTTTCAAAATGCATGGAAGAGTAGGAGACTCCCCGATTATAGGAGCAGGTCTGTTTGTAGATAATGAGGTAGGCGCTGCTACAGCAACAGGTCATGGTGAAGAAGTGATAAGAACCGTAGGGACACATCTTGTGGTTGAATTGATGAGACAAGGCAGAAATCCACAGGAAGCCTGTAAAGAAGCCGTTGAAAGAATCGTAAAAATTACTCAGCGAAGAAATAAAAATTTAAAAGATATTCAGGTAGGCTTTATCGCCATCAATAAACAGGGAGAATATGGATCTTACTGTATTCAGGACGGCTTCAATTTTGCCGTTTACGATCAGAAAGGAAACCGTCTGGAGAAACCGGAATTTGCTTTAAAATAA	MQSRRNFIKKTAAASLALAVNPLDLMAKDTPENTKTINKPIVLSTWNFGLKANEEAWTILGKGGKALDAVEKGVRIVELDPKERSVGYGGRPDRDGRVTLDACIMDENYNIGSVACLEHVKNPISVARAVMEKTPHVMLVGDGALQFALSQGFKKESLLTPESEKEWKEWLKTSQYKPVANIENHDTIGMIALDAQGNLSGACTTSGMAFKMHGRVGDSPIIGAGLFVDNEVGAATATGHGEEVIRTVGTHLVVELMRQGRNPQEACKEAVERIVKITQRRNKNLKDIQVGFIAINKQGEYGSYCIQDGFNFAVYDQKGNRLEKPEFALK	PGPT0018780_606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCAN|GLYCAN_BREAKDOWN,PGPT0018780-aspG-K01444	NA	NA
BMS003_00030	555			hypothetical protein	ATGAAAAGAACAATCATCGTTTCTTTATTTATGATTATCGCCTGTAAAGAAGAAAAGAAGGAGGTTAAAACATTCATGGAACCACAGCCAGCAGAAGAGAAAATGGTTCAGAATAATCAATCCAATGAAGCAGAAGATGCAAAAAAGTGGTTGGAAAAAAGCATTGTCGATTATTTTAAAGCTGATATCGGAAACGGAGAAAAGAATTTGCAGAAGATCACCACCAAAGACTATTTTGATTATAAAACCGATGCCATGAATGTTGATCTGGATGTAGACGGAAGCCTTACTGAAAAAGAATTTCAGGATAAATGGAAATCTAAATTTGATACCAGTAAAGCAGGAATTGGTATAGGATTTTTCATTCCTGCGCAGGATTGGATCAATATTGAAGTGGAAAGCTGTGATTTAAAATCCACTTCCGAAGATGAATATGTCTTCAATGTTGTGGTAAGAGATGATGGCTTTAAAGCTTATTATCCCTCTGTTGTAAAAGTAGTAAAACAAAACGGTTCTTTTCTCATTGCAGATGTTTTGCAGGATGAGCCGAAGTAG	MKRTIIVSLFMIIACKEEKKEVKTFMEPQPAEEKMVQNNQSNEAEDAKKWLEKSIVDYFKADIGNGEKNLQKITTKDYFDYKTDAMNVDLDVDGSLTEKEFQDKWKSKFDTSKAGIGIGFFIPAQDWINIEVESCDLKSTSEDEYVFNVVVRDDGFKAYYPSVVKVVKQNGSFLIADVLQDEPK				NA	NA	NA	NA	NA
BMS003_00031	663	cutC	COG3142	Copper homeostasis protein CutC	ATGTCAAAAATAGAAATAGCTTGTTTTAATCCTGAATCAGCCGTATTTGCGTTTGAAAACGGAGCAGACAGAATAGAATTATGTGATGGTCTCAGTGAAGGTGGTACCACTCCGGACTTTGAAGTAATGAAGAAACTTCGTGAAAAAATTACGATCCCGATTTTTGTGATGGTTCGTCCCAGAGGCGGAGATTTCACCTATTCCGATTCAGAATTTGAACAGATGAAAAATGATCTGAATCATTTAAAATCCTTACATGCAGACGGTTTTGTATTCGGAATTCTGGATGAAAATGATGAGGTTAATGTAGAGCAGAATAAAGCTTTAGTAGAACTGGCAGCGCCACTTCCATGTACTTTCCACCGTGCTTTTGACCGTGCTGCAAGTCTGGAAGAGTCTTTAGAAAAAGTAATTGGATGCGGATTTACAACCATCCTTACTTCCGGCCAGAAACCGAATGTATCCGAAGGCAAAGAAAACCTTAAAAAACTGGTTGAACTTTCCAATGGAAGAATAGAAATTCTTGTTGGAGGAGGACTTCGTTCATCCAATATCGAAGAAATAAGAGCTGTTACCAATGCTAATTATTTCCACTCTTCAGCGATTACTGATGGTGGTGCTTTTGCTAATCCGGATGAAGTAGTAGCGTTGAAGAGTAAATAA	MSKIEIACFNPESAVFAFENGADRIELCDGLSEGGTTPDFEVMKKLREKITIPIFVMVRPRGGDFTYSDSEFEQMKNDLNHLKSLHADGFVFGILDENDEVNVEQNKALVELAAPLPCTFHRAFDRAASLEESLEKVIGCGFTTILTSGQKPNVSEGKENLKKLVELSNGRIEILVGGGLRSSNIEEIRAVTNANYFHSSAITDGGAFANPDEVVALKSK	PGPT0004085_1820	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
BMS003_00032	387			hypothetical protein	ATGACAGAAAACGAATTATCCTACAAAATAATAGGAGCTGCTATAGAAGTACATAAAAACTTAGGAGTTGGCCTTTTAGAAAATGCATATGAAACCGCTTTAGCTTATGAATTAAAGATGTTGGGGCTGAATATTAAGCAACAACTACCTTTACCTTTAAAGTATAAAGAAGTATATATAGAAAATGCATTCAGACTTGATTTGATTGTAGAAGATAAAGTTATTGTAGAAGTGAAATCTGTATTGGAGTTACATCCTATTTTTCACTCACAAGTATTGACATATCTGAAACAGACTAATATAAAATTGGGATTGCTTATTAATTTTAATAATGAACTTATTAAATATGGAATCCATAGAATTGTAAACAAAATTATTGATGAATAG	MTENELSYKIIGAAIEVHKNLGVGLLENAYETALAYELKMLGLNIKQQLPLPLKYKEVYIENAFRLDLIVEDKVIVEVKSVLELHPIFHSQVLTYLKQTNIKLGLLINFNNELIKYGIHRIVNKIIDE	PGPT0003765_191	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
BMS003_00033	2469	lacZ		Beta-galactosidase	ATGAATAGAACGATCCTTTTTGCTTTCCTTTTCACACAGAATATCCTTTCCGCACAGTTTTCCCAAAGAAACTTATCTTCAGAGAACTGGCAGTTCAGAAATTCAAAAGACCAAAATTGGCTTCCTGCGAAAGTTCCGGGAACCGTTCATCTGGATTTGATGAATAACAAGATTATCCCGGATCCTTACAAAGATGAAAATGAAAAAAAAGTACAATGGATAGAAAATGAAGACTGGGATTATCAGACTACATTTACGGTTTCTTCCGAAGAATTGAAGAATGACAATATTGATCTTGTTTTTAATGGACTGGATACATTTTCAGAAATTTATCTTAATGGTAAACTATTGAAGAAAACCGATAATATGTTCCGTAAATGGGATGTTCCTGTAAAACAATATCTGAAAGCAGGACAGAATACAGTTCAGATTAAATTTAAATCTGCAGTAAATACCGGAAAGGAATTAGCGAAAAAAGTTCCGTTCACCATGCCGGAATCTCCAAGAAGCTTTGTGAGAAAAGCACAATACCAGTTTGGATGGGATTGGGGACCAAGACTGGTCACAGCGGGAATCTGGAAAGACGTTCAGCTGGAATTCTGGAATAATGCCAAAATTATTACCATTAAAGACATTCAGAACACATCTGATAAGGGCGTAAATGACTTATATTTTGACATAGAAATTTATGCTCAAAATGCCGGAAATTATACCTTGGAACTTAATAAAATTCACCAAAAAATATCCTTAAAGAAAGGACTCAATACAATATCTGTTCCTTACGAAACAAGAGGAATGAAGCTCTGGCAGCCTAACGGACGTGGTGAAGCTAACCTTTATGATTTTGAAGTAAAACTTTCAAAAGATCAGAAGAATATTGATGCTAAAAATATCAGAATAGGGCTAAGAACAGTTGAATTAATTCAGGAAAAGGACGAAAAAGGAAAATCATTTTACTTCAAAATCAATGGGCAGCCATTGTATATCAAAGGAACCAACTGGATTCCGGGAGACAGCTTTTCACCGAGAATGACCAGGGAGAAATACCGGAAACTGATCAATGATGCCAAAGCTGCCAATATGAATATGATCCGTATCTGGGGTGGAGGAATTTATGAAGATGATGAATTTTATAAAGCCTGTGATGAGAACGGAATTTTAGTATGGCAGGATTTTATGTTTGCAGGAAGTTTTTATCCGGCAGATGAAGCATTTTTAAACAATGTAAAAGAAGAAGTAAAAGATCAGGTCAACAGGCTTCAGAATCATCCGTCAATAGCTTTGTGGTGTGGGAATAATGAAATTGATGAAGCCATTGTCAACTGGGGATATCAGAAGCAGTTCAAATACTCAAAAAATGACTCCTTGCAGGTTTGGAAAGACTATAAAAAGCTGTTTCATGAAGTAATTCCTAATGCATTGGCAGAAAACCTGAAGTCTGATAAAAATATATACTGGCCAAGTTCTCCATCCATCGGTTGGGGACATAAAGAAAGCCTTACAGAAGGAGATTCCCATTACTGGGGTGTTTGGTGGGGAGAACAACCCTTCGAAATTTATAACGAAAAAGTAGGACGTTTCATGTCTGAATATGGTTTTCAGGGCACACCCACTCTCGAAACCACAAAATCCATGTTTTCAGGAACTCCGGATTTAAACCTTCAGAATCCAACCATTAAAGCTCACGAGAAACATGCACGTGGCTGGGATATTATCAATGAATATCTGAAACGGGATTATAAAATCCCGACCGATTTTGTGCAGTACAATTACGTTTCACAACTGTTGCAGGCAAGAGGAATGAAGATCGCCATTGAAGCTCACCGCCGTGCAAAACCCTATAATATGGGAACTTTGTACTGGCAGCTCAATGATTGTTGGCCGGTGGTTTCCTGGTCATCCATAGATTATCTGGGAAATTGGAAAGCTTTCCATTATCAGGCGAAAAGAAGCTTTGAACCTGTATTGATATCAGTAGCCGAGACCGATAAAAGTTATGACGTTTATCTGATCAGTGATTTATTGAAGGAACTTAAAACAGACATAAATTTTGAATTAATAGATTTTAAAGGAAAAACACTTTGGAAAGCCAGCCAGTCAGAAATTATCAATGCCGATGTAAGCAAGAAAATTAGAAGCATCAGTAAATCGGAGCTTGCTCAGTTTGATTTATCCGAAGCTGTTTTAAAAATCAGTTCTGATAAAGATTCAAAATTCGAAAATCTGTTCTTTTTTAATAAGCCTAAAGAGTTAAAACTTTCAAAACCGGAAATTAAAATAAGAAAGATTTCATCCACTGAAATTGAAATATCAACAGATGTTTTAGCAAAAGATGTTTATCTGATTGGAAATACTCATTTCAGTGATAACTTCTTTGATCTGTTACCGGGAGCTACAAAAAGGATTATCCTTTCAAAGCCTTTGGTGAAAATTGAAATAATGAGTCTTTGGGACGTGATAAAGGAGTAA	MNRTILFAFLFTQNILSAQFSQRNLSSENWQFRNSKDQNWLPAKVPGTVHLDLMNNKIIPDPYKDENEKKVQWIENEDWDYQTTFTVSSEELKNDNIDLVFNGLDTFSEIYLNGKLLKKTDNMFRKWDVPVKQYLKAGQNTVQIKFKSAVNTGKELAKKVPFTMPESPRSFVRKAQYQFGWDWGPRLVTAGIWKDVQLEFWNNAKIITIKDIQNTSDKGVNDLYFDIEIYAQNAGNYTLELNKIHQKISLKKGLNTISVPYETRGMKLWQPNGRGEANLYDFEVKLSKDQKNIDAKNIRIGLRTVELIQEKDEKGKSFYFKINGQPLYIKGTNWIPGDSFSPRMTREKYRKLINDAKAANMNMIRIWGGGIYEDDEFYKACDENGILVWQDFMFAGSFYPADEAFLNNVKEEVKDQVNRLQNHPSIALWCGNNEIDEAIVNWGYQKQFKYSKNDSLQVWKDYKKLFHEVIPNALAENLKSDKNIYWPSSPSIGWGHKESLTEGDSHYWGVWWGEQPFEIYNEKVGRFMSEYGFQGTPTLETTKSMFSGTPDLNLQNPTIKAHEKHARGWDIINEYLKRDYKIPTDFVQYNYVSQLLQARGMKIAIEAHRRAKPYNMGTLYWQLNDCWPVVSWSSIDYLGNWKAFHYQAKRSFEPVLISVAETDKSYDVYLISDLLKELKTDINFELIDFKGKTLWKASQSEIINADVSKKIRSISKSELAQFDLSEAVLKISSDKDSKFENLFFFNKPKELKLSKPEIKIRKISSTEIEISTDVLAKDVYLIGNTHFSDNFFDLLPGATKRIILSKPLVKIEIMSLWDVIKE	PGPT0018765_1088	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
BMS003_00034	909			hypothetical protein	ATGGTAAATTTTGTTCTGATTGCAGTGTGTATCATTGCAGGAATGATATTCAAAGCAACAAAATCTATCCACCCCGATGCTCACAAAGGTATCAACACCTGGATTCTTTATCTTGCTCTTCCGGCAGTTTCTTTTAAATATCTGCCTAAAGTAAAATGGACAGCAGAAATGCTGTTCCCAATTGCAGCCACGTTTTTAATTGCCGTGTTCTGCTTTTTCTTTATGATGCTGTACAGTAAGAGCAGGGGATATTCAAGACGCTCCAGAAGTACTTTAGAACTGGCAAGTGGCTATAGTAATACTTCATTCATCGGGTTTCCATTAATCAGTGCTTTTTATGGAGAAGGATTGTTGAGTATTGCCATTATCTGTGACCAGACGATGTTTTTTTCCCTTTCCACCCTCGGAATTATTGCGGCAGTAAAAGGAGGGAGCAAATCAGGAAAAGTAAGTGCAGTTTTCATTTTAAAAAGACTCGTTACATTTCCCCCATTAATAGGATGTATTTCTGCTTTGGTATTGTCGCAGTTTATAGACTTTACAGCTGCAGAACCATTTTTTGATAAATTGGCAGCCACCGTAAGTCCATTAGCCTTATTTTCGGTTGGACTACAATTAAAATTCAACGGATGGAAAAAGCTGATCCCTCAGATGTCCATGTCTATGCTTTACAAACTAATTCTGGCACCGGCAATTGTTCTGGGAATAGCTTTGTTATTCGGAATAAAAGGAGATGTAGCCAAAATTACAGTCTTTGAAGCAGCAATGCCAACACTTGTTACTTCAAGTATCATTGCAGAACAGTTCAGACTGAATACAAAACTGACCAACCTGATCATCGGAGTCAGTATTATTGTCGGATTTTTTACGTCTGCATTCTGGTATCAGATTACGGAACTTCTTTTTTAA	MVNFVLIAVCIIAGMIFKATKSIHPDAHKGINTWILYLALPAVSFKYLPKVKWTAEMLFPIAATFLIAVFCFFFMMLYSKSRGYSRRSRSTLELASGYSNTSFIGFPLISAFYGEGLLSIAIICDQTMFFSLSTLGIIAAVKGGSKSGKVSAVFILKRLVTFPPLIGCISALVLSQFIDFTAAEPFFDKLAATVSPLALFSVGLQLKFNGWKKLIPQMSMSMLYKLILAPAIVLGIALLFGIKGDVAKITVFEAAMPTLVTSSIIAEQFRLNTKLTNLIIGVSIIVGFFTSAFWYQITELLF	PGPT0007208_5526	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
BMS003_00035	2379	priA		primosomal protein N'	ATGATGTCCGAAATCCAACCTGGAATGCGTGTTCTTGTACCCTTTGGAGGCAAGAAAATCTATACAGGAATTGTTTTTGAACTTCATGATAATGCTCCGGAAAATTTTGTAGCAAAAGAAATCATCAGTATGCTTGATGATCAGCCGATTATGCCTGAAGAGCAGATTGATTTCTGGAACTGGCTGTCGGAGTATTACATGTGCAATCTTGGGGAGATTTACAGGTTTTCGTTTCCTTCCTCATTAAAACTGGAAAGTGAAACCTATTTAAAACTAAAACCAGGTGCGGCTGTTGATTTCGAAAACCTGGATGTCAACGAAATGTACCTGATTCAGGCATTGGAAGTACGGCAGCTGATTAACCTGACGGATATTGAAGCTTTCATTCCCAAAAAAGATATTATCAAAACCATCAATTCCCTGATTGATCTTCAGTATATTGAAATTGATGAGAAAATTGCTGAGAAATACAAAGCGAAAGAAGTAGCTTATGTAAGAATTAATGATGAGGTTTTGGCCAATCAGAACCTTACGGATGTTCTTTTGAAGCTGAACAGAGCCCAAAAGCAGAAAGATCTGTTTCTTCTTATTTTAGAAAAACAGACAGAAAATCCTGATATTCCTGTTAAAAAATCTGAACTCTTTGAAGATGGCTATTTCGGAAGTTCACATTTAAAACCTTTGGAAGACAAAGGTCTTGTGGAGGAATACTATATGCAAAAAGACAGAATTGAAAGTTATGAAGGAGAAATTGAGGAGCTTGAAGAACTTTCCGAGCAGCAGAAAACTGCAAAATCTGAAATTGATGAAGCCTTTGAAGAAGGGAAGAATGTTCTGCTTCATGGAGTTACTTCATCAGGAAAAACCCATATTTATTTAGAGAAAATTGAAGAATGTATCAGTGAAGGGAAAAATGTTCTGTTTTTACTTCCTGAAATTTCTCTGACGAAACAGATTACCCAAAGATTAGAAAAAAAATACGGGAGACAACTTGGTTTTTATCATCAAAAGCTAACGGATTTTGAAAGAGTAGAAATCTGGAGAAGAATAAGACAAAATGATGTCCGTATTCTGATCGGAACGCGTAATGCCTTGTTTTTGCCTTATCACAATCTGGGACTTATTGTGGTGGATGAAGAGCATGATTCTGCATACAGGCCAAGAGAAGTATCCCCCTATTTCAATGCTAAGGATGCTTCATTGGTGCTTGGCGGACTTTATCATGCAGGAGTCATCTTAGGATCCGCAACACCATCTGTTGAAAGCTATTACAGAGCCCGAAAAGATAAAATGAAATATGTTTTCCTGAATAAAAGATTCGGAAACGTTAATCTGCCGGAATACGAGCTGATCAATTTTAAAGAAGCCCAGGAATCTAAAAAGGTTTCAGGCAATTTTTCTTTAAGGCTGATTGAGGAGATTAAAAAAACGGTGGATGAAAAAAATCAGGCCATTGTTCTGCACAATCGTCGTGGTTATGCCAATGTAATCGAATGTGAGAGCTGTGGTTATGTGAATTACTGTTCCAATTGTGATGTGGTAATGACTTATCACAAGGCTGCCAATGAAATGAAGTGCCACTATTGCGGACAGAAAGCTTCCAAACCGAGAACCTGCCCGAAATGCAACTCCGAAAAGCTGAACGAAAGAGGAGTAGGAGTAGAGCAGATTCATGAGGAAGTCTCCAAGCTGTTCCCTGAAAATGAAGTGGACAGAATGGATGTAGACTCCATGCGTAAGAAATTTGCTTACGAAAAACTGTATGAAAAAATTGAAGATGGAGAAACAGACATCATCGTAGGAACACAGATGATTTCCAAAGGGCTGGATTTTGACCATATCGAACTCGTAACTATTCCCAAAGCAGATTCCTTATTATATGTACAGGATTTCAGGGCTGAAGAAAGAGCCTATCAACTGATTACACAGGTTTCAGGAAGAGCAGGGAGAGTTTCCGGAAAAGGAAAAATTCTGATTCAGACCTATAATCCTGAACATTCTGTATTTCAGCTGATCAAGATGAATAATCCTGCTAAAATCTATAAATATATCCTTACAGAACGCCAGAAATTCCATTATCCGCCTTTTACGAAGCTTATTATGATTGAAATGAAGCATAGAAGAGAAGATAAAGTAGACCGTGCTTCTCAGTTTTTGGGTTCTATCCTCAGAAAATACCTTCCGGAAGATTGTGTTTTAGGTCCTGAAAGAGCACAGATCGCCAGGCTGAATAACCTCTATCAGTTCCAGATTATGCTGAAGCTTCCGCGTGGGAAAAACTATGAAAAATTCAAGAATATGGTTTTGATAAGTCTGAAAGAATTCGATGAAATTACTGCATATCAAAGCATTAAAAAAGATGTTTTTGTGGATTTTTAA	MMSEIQPGMRVLVPFGGKKIYTGIVFELHDNAPENFVAKEIISMLDDQPIMPEEQIDFWNWLSEYYMCNLGEIYRFSFPSSLKLESETYLKLKPGAAVDFENLDVNEMYLIQALEVRQLINLTDIEAFIPKKDIIKTINSLIDLQYIEIDEKIAEKYKAKEVAYVRINDEVLANQNLTDVLLKLNRAQKQKDLFLLILEKQTENPDIPVKKSELFEDGYFGSSHLKPLEDKGLVEEYYMQKDRIESYEGEIEELEELSEQQKTAKSEIDEAFEEGKNVLLHGVTSSGKTHIYLEKIEECISEGKNVLFLLPEISLTKQITQRLEKKYGRQLGFYHQKLTDFERVEIWRRIRQNDVRILIGTRNALFLPYHNLGLIVVDEEHDSAYRPREVSPYFNAKDASLVLGGLYHAGVILGSATPSVESYYRARKDKMKYVFLNKRFGNVNLPEYELINFKEAQESKKVSGNFSLRLIEEIKKTVDEKNQAIVLHNRRGYANVIECESCGYVNYCSNCDVVMTYHKAANEMKCHYCGQKASKPRTCPKCNSEKLNERGVGVEQIHEEVSKLFPENEVDRMDVDSMRKKFAYEKLYEKIEDGETDIIVGTQMISKGLDFDHIELVTIPKADSLLYVQDFRAEERAYQLITQVSGRAGRVSGKGKILIQTYNPEHSVFQLIKMNNPAKIYKYILTERQKFHYPPFTKLIMIEMKHRREDKVDRASQFLGSILRKYLPEDCVLGPERAQIARLNNLYQFQIMLKLPRGKNYEKFKNMVLISLKEFDEITAYQSIKKDVFVDF				NA	NA	NA	NA	NA
BMS003_00036	1470	dacC_1	COG2027	D-alanyl-D-alanine carboxypeptidase DacC	ATGGTAAATTTCAGAAAATATATTTCAAGCGCAGCGGTGTTGGCTTCTGGTCTTTTCCTGGCTCAATCTCCCGTTTCCACCGTTCTTTATTCTCAGAATTATGACAATCAGAAAAGCAGTTTAAATCTGCCTTCACCCGTCAGTACGATGGTGGAGAAAACAGTGTTGTCAGCAAAAGAACTTGTAGACATTAACGTAAACACAATGATGGCGGATCCTGTGCTGAAAAATGCAAGCTGGGGATTCGTAGTGTACGATCCGAAAACGAAGAAAGTAATTTCTTCGTACAATGAAAATACTCCTTTAGTACCTGCTTCCACTACAAAGCTCCTTACAACGGAAACGGCATTAAACCTGTTAGGCGAAAATTACCGTTGGATGACTCAGCTGGACTACTCGGGAACTATAGATGAAAATGGAGTATTGAATGGAAATCTTTATGTAATAGGAAGCGGTGATCCGTCTTTAGGAACAAACAAAGCCGGCGCTTCATCTTACAGAGATATCATTTCAGATTTCGTAGGCGGAGTTTCAAGAGAGGGAATCAAAAAGGTAAATGGTAATATTATCATTCAGACAGCGCTTTTCAAAGGCAATATTTCAGTGCTTCCGGAAAATGTTGTATGGTTGGAAAACAATAATTATTACCTGCCTGCAGGAAGTACCCGGGATATTAATCCGGCCAACGAAAAACTAATTGTTAAAAAAGGAAGTTTCTCCACAGAGAAGAAGTTTTTCTATGTCTCTCCTTACAATCATCAGATGGTATATGCTGATAAATATGAAGGAGACGGAATATTAACAACCAAACTTCCTGATGCTCCGGCCTATCTTGCGAACTCTTTCAGAACGACACTGGTGAAAAGCGGAATCCCTGTTACCGGAAAAGTAACTCCGAAAATGACAGACTCGGCTCCGGAAGGCAGAAAAATGCTTTCAGCGTATAAATCTCCCACTTTAGGTGATATTATTTACTATACCAATCAGCATAGTGATAATTCATTGGCGGAGGCTTTGCTAAGAACAGTAGGCTACCAGAAAATGGGTGATCAGACTTCAGAATCAGGAAGAATAGTAGTGACCTCCCACCTGAAAGATGCCGGTTTTGATATGAATGGTCTTAACTATATAGACGGAAGCGGACTTTCAAGAAGCAATAATGTAACCCCGATTTCTCAGGTGAAGTTTCTTACTTCTCTGATGGATCAGAAATACTATACATCTTATCTTACTTCCCTGCCGGTCGGAGGACAATCCGGAACTTTAAAAAGAATGTTCTTAGGTGAGGGGAACGGACAGGTTTTTGCCAAAACAGGAACTTTAAATAAAGTAAAAACATTAGCAGGTTACCTGAAAACAAATTCAGGAAGAACATTGGTGTTCTCTTTAATGGTGAATAACTACTCCGGATCTGTAGATATGGTGAAAAAGAGAATGGAGAAAATTCTTGGACCCGCACTGGATCTTTAA	MVNFRKYISSAAVLASGLFLAQSPVSTVLYSQNYDNQKSSLNLPSPVSTMVEKTVLSAKELVDINVNTMMADPVLKNASWGFVVYDPKTKKVISSYNENTPLVPASTTKLLTTETALNLLGENYRWMTQLDYSGTIDENGVLNGNLYVIGSGDPSLGTNKAGASSYRDIISDFVGGVSREGIKKVNGNIIIQTALFKGNISVLPENVVWLENNNYYLPAGSTRDINPANEKLIVKKGSFSTEKKFFYVSPYNHQMVYADKYEGDGILTTKLPDAPAYLANSFRTTLVKSGIPVTGKVTPKMTDSAPEGRKMLSAYKSPTLGDIIYYTNQHSDNSLAEALLRTVGYQKMGDQTSESGRIVVTSHLKDAGFDMNGLNYIDGSGLSRSNNVTPISQVKFLTSLMDQKYYTSYLTSLPVGGQSGTLKRMFLGEGNGQVFAKTGTLNKVKTLAGYLKTNSGRTLVFSLMVNNYSGSVDMVKKRMEKILGPALDL	PGPT0024035_992	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
BMS003_00037	1932			hypothetical protein	ATGACAAAATTGTACCTGTGGGTGTTGGGTGTTGTATTATTTCAACCATTTTATGGACAGAAATATGAGCAAAACACCGATATGAAAGGATTGATCGAGAAAGAGAAAAAATCCTTTACTCAGAAAATGAATATTGGGAATACAAATCCCAATACATTAAATTATGATCTGCAATATCAAAGAATGGATGTCAGCCTGGATCCTGCGGTATATAATATCTCCGGATCGGTAACATCTCACTTTAAGCCCAATCAAAGTATGGGAAGCATTTATTTTGATCTTTCCAATTCGTTAACGGTTTCCCAGGTGAAATATCACGGCACAGATATTACAAGCTTTCAGCAGCTTCCTTCAAAAGAGCTGAAAATTGATTTTCCTGCTGCTATTCCTGCCAATACATTAGATTCTCTTACGATTTATTATTCAGGGGCACCTTCTACGGCTAACGATGCTTTCAAGACATCACTTCAGAGCGGAACTCCGGTTCTTTCTACTTTGAATGAACCATATGGAGCACAGGACTGGTTCCCGACAAAACAAAGTCTGAATGATAAAATTGAGAGATTTGATTTTAAAATTACCACTCCATCCAATTACAGTGTAGCAGCGAATGGTAAACTGATGTCAGAAACCTTTCCTACTGGCTCCACAAAGCTTACTTTCTGGAGAACAATGTATCCTACAGCAGCGTATTTGATTGCGCTGTCTATTACTAATTTTGTCAAGCTTAATGATACCATCGGAAATCCGCCTTTCCCTTTTGTAAACTATATTTATCCGTCCACCAATTCAAATGCCACCAGTATAGCTAATATCAACTGGACGAAGCAGGTTATGGACACTTTTGAAACATATTTGGGAGCATACCCTTTCCGTAATGAAAAATACGGGCACATGGAATTTATGTATGGAGGAGGAATGGAACACCAGACAATGTCTTCTATGGGAGGCTGGAGTAAGCAGCTTATTGCCCATGAGCTTACCCACCAGTGGTTTGGGGACAAGGTGACCTGCGGAGCCTGGAATGATATCTGGCTGAATGAAGGTTTTGCTACTTTTGGGGAGCATCTTGCCAATGAAAAGCTGCTGATGACCAACACCAATTTTCTAAACTATTTACAAGGCCAGTCCAATTATATTACATCTAGTGTGGGAGGAAGCGTGTATGTACCAGATAATGGGCTTTCCAGTATTAATAGAATCTTCGACAGCAGACTGTCTTATTCTAAAGGAGGATATATCCTGAGAATGATAAAATGGGTGCTGGGTGATGCTGTTTTTTATCAAGCACTTAAAGACTACCATGCAAGACCGAATCTGGCTTACAGCTATACACGTACAGCTGATTTTAATGCTTCTTTGCTTCAGTCTACCGGGAAAGACTTTACAGAGTTTTTTAATGACTGGGTATATGGAGAAGGATATCCTACTTACAATATAAAATGGATGCAAACTGGGAATCAGGCTGTATTTAAAGTTTCTCAGACACAGAGCAGTTCTACAGTAAGCTTTTTTGAAATGCCTTTACCTGTTAAAGTTACCGGAACGTCAGGGCAGACCGCTTATTTGGTTCTTGACAATACCTCAAATAATCAATATTTTCTTGAATCGGTAACTTTCCCGATTGCAAGTGTCCAGTTTAATTATGAGTACCAGATTATTGAGAAAAATTCTACAGTTACTCAGGATAATACATTAAGTATTTCTTCTGTTGAAAAAGAAAGTTTTGGCTTATATCCAAATCCTGCCAAAAATGAAATTAACCTTAAAGGAATCAATAGAGTGACAGATTTTACACTTCACGCTATAGATGGAAAACTGGTAGGAAAAGGAACATACCAGCCAGGTAAAGCGATTGGAATTTCAGAATTGGTTCCGGGAGCTTATTTCATTACGATTGATGAAAAGAATGTTAAATTTATCAAGCATTAA	MTKLYLWVLGVVLFQPFYGQKYEQNTDMKGLIEKEKKSFTQKMNIGNTNPNTLNYDLQYQRMDVSLDPAVYNISGSVTSHFKPNQSMGSIYFDLSNSLTVSQVKYHGTDITSFQQLPSKELKIDFPAAIPANTLDSLTIYYSGAPSTANDAFKTSLQSGTPVLSTLNEPYGAQDWFPTKQSLNDKIERFDFKITTPSNYSVAANGKLMSETFPTGSTKLTFWRTMYPTAAYLIALSITNFVKLNDTIGNPPFPFVNYIYPSTNSNATSIANINWTKQVMDTFETYLGAYPFRNEKYGHMEFMYGGGMEHQTMSSMGGWSKQLIAHELTHQWFGDKVTCGAWNDIWLNEGFATFGEHLANEKLLMTNTNFLNYLQGQSNYITSSVGGSVYVPDNGLSSINRIFDSRLSYSKGGYILRMIKWVLGDAVFYQALKDYHARPNLAYSYTRTADFNASLLQSTGKDFTEFFNDWVYGEGYPTYNIKWMQTGNQAVFKVSQTQSSSTVSFFEMPLPVKVTGTSGQTAYLVLDNTSNNQYFLESVTFPIASVQFNYEYQIIEKNSTVTQDNTLSISSVEKESFGLYPNPAKNEINLKGINRVTDFTLHAIDGKLVGKGTYQPGKAIGISELVPGAYFITIDEKNVKFIKH				NA	NA	NA	NA	NA
BMS003_00038	1197	kbl	COG0156	2-amino-3-ketobutyrate coenzyme A ligase	ATGATCTCTGAAAAATACCTTCAACATTTACAGAATGAACTTCAGAATATTGAGAATGACGGACTTTACAAAAGAGAAAGAATCATCACGTCTCAACAAAGTGCAGAAATAGAAGCTAATGGAAAAAAACTTTTAAACTTCTGTGCAAACAATTATCTGGGATTATCCAACCATCCGGAAGTTATGAAAGCTTCTCAGGATATGATTCAGTCTCATGGTTACGGAATGTCTTCTGTACGTTTTATTTGTGGAACACAGGATATTCACAAAGATTTGGAGAAAAAAATTGCTGATTTCTTAGGTCTTGAAGACACTATCCTTTATGCAGCAGCATTTGATGCGAATGGAGGAGTTTTCGAGCCATTATTTACAGAAGAGGATGCTATTATCTCAGATGAACTGAATCACGCATCGATTATTGATGGGGTTCGTCTTTGTAAAGCAGCGAGATACAGATATAAAAACAATAATATGGCTGATCTGGAAGCTCAATTGATTGCAGCTTCTGAAAAAAATCACCGTTTCAAAATTATTGTTACAGACGGAGTATTTTCAATGGACGGTATTGTTGCAGATTTAAAAGGAGTGTGTGATCTTGCCGAGAAATATGATGCTTTGGTAATGGTAGATGATTCTCACGCAACAGGTTTCATTGGGAAAACAGGTCGTGGAACTCATGAAGCGAATGAAGTAATGGGTAGAGTAGATATCATCACTTCTACCTTAGGAAAAGCTTTAGGAGGAGCTTTAGGAGGTTTTACCTCCGGTAAGAAAGAGATCATTGATATGCTGAGACAGCGTTCAAGACCATATTTATTCTCAAACTCTCTGGCACCGGGTATTGTAGGAGCTGCATTGAAAGTATTGGATATGATTGCTGATAATACTTCACTTCGTGACAAAGTAATGGAAAATGCAGAGTATTTCAGAACGGAAATGAAAGCGAAAGGTTTCGATATTCCGGAAGGAGATGCCGCTATTGTTCCGGTAATGCTTTATGATGCACCCCTTTCCCAGAAAATGGCTGAAAAGCTTATGGATGAAGGGATCTATGTTATCGGATTCTTCTATCCTGTAGTACCGAAAGGAAAAGCAAGAATCAGAGTACAGCTATCTGCAGCTCATACAAAAGAGCATTTGGATAAAGCAATTGCTGCTTTTGAAAAAGTTGGAAAAGAATTAGGAGTGATCTCTTAA	MISEKYLQHLQNELQNIENDGLYKRERIITSQQSAEIEANGKKLLNFCANNYLGLSNHPEVMKASQDMIQSHGYGMSSVRFICGTQDIHKDLEKKIADFLGLEDTILYAAAFDANGGVFEPLFTEEDAIISDELNHASIIDGVRLCKAARYRYKNNNMADLEAQLIAASEKNHRFKIIVTDGVFSMDGIVADLKGVCDLAEKYDALVMVDDSHATGFIGKTGRGTHEANEVMGRVDIITSTLGKALGGALGGFTSGKKEIIDMLRQRSRPYLFSNSLAPGIVGAALKVLDMIADNTSLRDKVMENAEYFRTEMKAKGFDIPEGDAAIVPVMLYDAPLSQKMAEKLMDEGIYVIGFFYPVVPKGKARIRVQLSAAHTKEHLDKAIAAFEKVGKELGVIS	PGPT0020495_1451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS003_00039	552			hypothetical protein	ATGCTTTATACAATAATCAAAGCGCTGCACATTATTTTTATGGTAAGCTACTTTGCGGGGATTTTTTATCTCGTGAGGATTTTCGTCTACTATAAAGATACCGATGAATTTCCTGAAGAAAAAAAGAAAATTCTGAGAGAGCAGTATACTTTTATGGCCAGAAGACTGTGGAATATTATCACTGTTCCTGCAGGGGTAATCATGGTAATATGCGGATTGACCATGATCTTTTTAAATCCTGGGCTGATGAAAATGGGATGGTTTCATTTAAAACTAACCTTTCTTATCGGGCTTGCTGTTTACCATTACTGGTGCTGGAAAAAGGTTCTTCATTTAAAAATGCTGAATGGCAATACACTGCCAGTTGCCAATATCAAACTGAGACAGGCTAATGAAATTGCAACATTTATTCTTTTTCTGGTAGTATTTACAGTCATTCTAAAATCAATGGTGATCGAATACTGGTGGCAATTAATTGCAGGATTTTTCGTTCTTGTATTTCTGATCATGATGACAGTGAAACTGGTTAATAAAAATAAAAAAAACAAATAA	MLYTIIKALHIIFMVSYFAGIFYLVRIFVYYKDTDEFPEEKKKILREQYTFMARRLWNIITVPAGVIMVICGLTMIFLNPGLMKMGWFHLKLTFLIGLAVYHYWCWKKVLHLKMLNGNTLPVANIKLRQANEIATFILFLVVFTVILKSMVIEYWWQLIAGFFVLVFLIMMTVKLVNKNKKNK	PGPT0008480_176	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
BMS003_00040	729			hypothetical protein	ATGATTGCAATTTTAAAGAAAGAACTTTGGAGTTACTTTGGAAACTGGAGTGCATGGGTGATCATTGCCGCTTTCAGTCTGATAGCAACCCTTTTCCTGTTCTTTTTCGACAACGATTCTAATATTTTTGAGATCGGAATGGCCTCATTGCAGAGCTATTTCGTATTGGTTCCATGGCTGCTGATGTTTATCATTCCGGCACTTTCCATGAAAACTTTTGCAGAAGAACAGCAAACAGGTACATTAAACTGGCTTTTTTCACAGCCGTTAAAGGTTTCGGAACTGGTAGCCGGAAAATTTCTTTCCGTATGGATTGTTGGTATTTTATGCCTTATTCCTTCCCTGATTTACCTTTATACGGTATATGTGCTGGGAGTTCCTGCAGGAAATATTGACCTTGGAATGACCCTCGGAAGCTACCTTGGGCTAATAATGCTAATTGCAGCATTTTCAGCAGTGGGAATTTTAGCTTCATCATTATCACAAAATCAGATTATGGCCTATTTGCTGGGCGTTTTCATGTGCTTTATCATGTATTTTGGAATCGAGCAGCTGGCAAGCTATAAACTATTGGGGGGAGCAGATTTTATTCTTCAGAATATTGGTTTCTATCAACATTTTTTAGGCTTTACAAGAGGGCTTATTGATTTTAAAGATGTAGCCTATTTTGTACTTGTTATTGGTGCTTCATTAGTATTGTCTAATCATTTTATTAACGAAAAGAAGTAG	MIAILKKELWSYFGNWSAWVIIAAFSLIATLFLFFFDNDSNIFEIGMASLQSYFVLVPWLLMFIIPALSMKTFAEEQQTGTLNWLFSQPLKVSELVAGKFLSVWIVGILCLIPSLIYLYTVYVLGVPAGNIDLGMTLGSYLGLIMLIAAFSAVGILASSLSQNQIMAYLLGVFMCFIMYFGIEQLASYKLLGGADFILQNIGFYQHFLGFTRGLIDFKDVAYFVLVIGASLVLSNHFINEKK				NA	NA	NA	NA	NA
BMS003_00041	1671			hypothetical protein	ATGAAGAAGTTCAATGCTAAATCTCCATTGGGAATATTCCTAATTGTAATTGTTCCTTTAGTCATTATCCTGACCTATTCAGGAATCAGATTAGACTTAACAAAAGAAAAGAGATATACACTTTCTGATCATACCATCAAAGTACTGGAGTCCGTTAAAAAACCTCTGACTGTGGATGTGTATCTGGAAGGAGACTTTCCGGCAAGTTTCAAACAGCTTCAGAGTGAAACGAAGTTTATGCTGGAAGAATTCAGAAAAATTAATCCGAAGATTGATTTCAAATTCATCGATCCTATTAAAACAAAAATGTCTCAGGATACCCTGATGGCAATGGGCATGCAGCCTTCTATTCTTCCGGATGTGAAAGATGGAAAAATCTCACAGATCACACTTTTCCCATACGCTGTGATCAAATATGGGGATGGCGGAGCTTCTATACCATTGGTAGTACAACAGGCGGGAATTGATGCTGATCAGCAGCTGACAAGATCCATTGAAGGATTGGAGTATAATCTTGTTTCCAATATCAAGAATATTGCAGCAGCAAAAAGAAAGAAAATCGGAATTTTGGTGAACCATGACGAATTGAATCCTGACGAATTTCAGGGATTTGTACAGTTGGCTATGGAAAACTATGATGCCGGACCTATTATTCCTAAAAATCAGACTGAACTCTCATTGGAAGATATTCCACTGTTGAAGCAGATGAGTGCTCTGGTTATTGCAAAGCCAAGAAAAGCCTTTACAGATAATGAAAAAGTAATTCTTGACCAGTATATCATGAATGGAGGGAAAACCCTTTGGATGATTGATGCCGTAAATGCCGAAATGGATACTTTAACGAGATCTAAAAAAGTAATGCCTTTCCCGGTAGACATCAATATGACAGACTTCTTTTTCAATTATGGGTTGAGAATCAATCCTGCTTTGGTAAAGGATGTTAAAAAGTTTGCTCTTTTAAGGCTGGTTACAGGTGAAGTGGGGGGGAATCCTCAGTATACAAGCCTGCCGTGGCCTTATTATCCGCTTGGAATTGCTGAAAATAATAATCCCATTACCAAAAATATCAACCCTGTAAAATTTGAATTCCCGACTTCCATCGATACATTAGGAGGAAGGAAGAATATCAAAACAAAAGTTCTTTTCGAATCCAGCGAAAGAACATTATTGAAACAGGTTCCGAATTATGTGGATCTGAAAGAAATTGCAAGCGTAGACAGTCTTGGACAAATGGAAAAGCCAAGTACGCCAAAAATCTTCGCTGTAGCCTTGGAAGGAAAATTCAATTCTGCCTATGCATCAAGAATTGAAAGAAAATCTTATCCGGGATTCAAAGCATCAAGCCCGGAAAACAAAATGATCGTTATTGCAGACGGAGATGTGGGAAGAAATAAAGTGATCAAAGGAAAACCGCTTCCATTGGGAGTAGATCTTTTGACCAACGAACAGTTCGGAAACGAGCAATTCCTGAGAAACGCATTGGATTATTTACTGGATGACAGCAACCTAATGGAGCTGAGAAACAGAAACATCGAGGAAAGACTTCTTGACAGACAAAGAATTACGGAAGAGAAATCCACCTGGCAGTGGATCAATTTACTGCTTCCACTGGCTATTATCGGTCTTATCGGAGGATTGTTCTTCTGGCTAAGGAAAAAGAAATTTGGATAA	MKKFNAKSPLGIFLIVIVPLVIILTYSGIRLDLTKEKRYTLSDHTIKVLESVKKPLTVDVYLEGDFPASFKQLQSETKFMLEEFRKINPKIDFKFIDPIKTKMSQDTLMAMGMQPSILPDVKDGKISQITLFPYAVIKYGDGGASIPLVVQQAGIDADQQLTRSIEGLEYNLVSNIKNIAAAKRKKIGILVNHDELNPDEFQGFVQLAMENYDAGPIIPKNQTELSLEDIPLLKQMSALVIAKPRKAFTDNEKVILDQYIMNGGKTLWMIDAVNAEMDTLTRSKKVMPFPVDINMTDFFFNYGLRINPALVKDVKKFALLRLVTGEVGGNPQYTSLPWPYYPLGIAENNNPITKNINPVKFEFPTSIDTLGGRKNIKTKVLFESSERTLLKQVPNYVDLKEIASVDSLGQMEKPSTPKIFAVALEGKFNSAYASRIERKSYPGFKASSPENKMIVIADGDVGRNKVIKGKPLPLGVDLLTNEQFGNEQFLRNALDYLLDDSNLMELRNRNIEERLLDRQRITEEKSTWQWINLLLPLAIIGLIGGLFFWLRKKKFG				NA	NA	NA	NA	NA
BMS003_00042	369			hypothetical protein	ATGGAAAAGCTAAGAAATCTAAGAAAACAAAGAGGCTATACACAAGATTATATGTCGAAAATCATATCAACAGATGTTTCCAATTATTCCCGAAAAGAGAATGATGAAGTACGAATATATGATGATGAATGGGAAAAACTTGCAAAAGCGCTAGATGTTCCGGTAGAAGATATCAAAGAGGAAAGAAAGACAGCTATCGTCCATAACAACCATGACAATACTACTTTTAATGATAATGCAGGAAGCTATTTTAACCATTTCCACAGTATTCCCAATTCTATTGTAGAAAACTTGCAGAGCTATATTAAAATTTTGGAGGAGCAGGTGGGAGCTTTGAAGGAAGAGAATAAAAAATTGAAGTCTAGATAG	MEKLRNLRKQRGYTQDYMSKIISTDVSNYSRKENDEVRIYDDEWEKLAKALDVPVEDIKEERKTAIVHNNHDNTTFNDNAGSYFNHFHSIPNSIVENLQSYIKILEEQVGALKEENKKLKSR				NA	NA	NA	NA	NA
BMS003_00043	1239	flp_1		Protein flp	ATGAGTAGGATTTTATTACTGGCAACTATTTCATTGATACTATCTTCATGCCATCCGGTGAAGAACATTCATCATGTAAATAAAGATGTACAAGATTCTTTGAATTTTTCTATAAACCAAATATACCAAAAAGGATTATTCAATGGATTTTCAGTATCTGTTGTGAATGAAAAGTCTACACTATACCAAAAAGGATTTGGCTTTTCTGATGTACAGGAAAAGAAACCTTACACAGAAAATACCCTACAGAATATTGCGTCTGTATCTAAAACATTTGTTGGGATTGCCCTCCTGAAAGCTCAGGAACTCGGAAAATTGAATCTGGATGATCCAGTTCAAAAATATTTACCTTTTAAAGTAATTAATCCTCATTTCCCTCAGACTCCGATTACCATCCGCCAGCTGGCCACCCATACTTCTTCTATTCTTGACAATGAATTTTATTTATCTAAAAATTATTTCCTGAAACCTAATCAGAATCTGAATGGGCTGAAGCTTAATTTTGATGATGAACAGATCTTCAATTCTGCGGATTCTATTATTTCTATGCCCGTATTTTTAGAAAATGTGCTTGCAGAAAATGGAAAATGGAATAAGGAAAGCTTCTCCAGCTCAAAACCGGGAACGATGTATGAATATTCTAATGTGGGAACTACTTTGGCTGCTTTTATTGTTGAAAAAGCTACCGGAAAAAAATTTAATGATTTCACTAAGGAATACATTCTGAAACCCTTACATATGAAAGATTCCGGATGGGCATTTGAAGAGATTCGGTTTTCAAAATTTTCCAGACTGTATGAAAATCCCGCAACTCCTCTTCCCTACTATCAGTCAGCAACTTATCCTGACGGTGGTTTTATTACAAGCATCAGCGATTTAAGCAAATATCTAACCGAACTTATTAAAGGATACAACGGGAAAGGAACAATTCTTACTCAGAAAAGCTATAAAGAATATTTTACTCCACAGCTTAATGAATCCAATTTCACAGAGCGAAATGACAAAAACCCCTATAGTGAATCATATAACACAGGAATATTCATAGGCTTTGGTTATACTGGTTATATTGGTCATACCGGAGGAGATCCGGGTGTAATGTCTATGATGTTTTTTGACCCTAAAAACAATCTGGGGCGAATTATGATCTTCAACACCAATTTTTCCGATAAAAAAGGAAATGATGCTTTTTACGGGATCTGGAATGCGCTGGAAAAGTATCAGAATCTATTCCAAAAATAG	MSRILLLATISLILSSCHPVKNIHHVNKDVQDSLNFSINQIYQKGLFNGFSVSVVNEKSTLYQKGFGFSDVQEKKPYTENTLQNIASVSKTFVGIALLKAQELGKLNLDDPVQKYLPFKVINPHFPQTPITIRQLATHTSSILDNEFYLSKNYFLKPNQNLNGLKLNFDDEQIFNSADSIISMPVFLENVLAENGKWNKESFSSSKPGTMYEYSNVGTTLAAFIVEKATGKKFNDFTKEYILKPLHMKDSGWAFEEIRFSKFSRLYENPATPLPYYQSATYPDGGFITSISDLSKYLTELIKGYNGKGTILTQKSYKEYFTPQLNESNFTERNDKNPYSESYNTGIFIGFGYTGYIGHTGGDPGVMSMMFFDPKNNLGRIMIFNTNFSDKKGNDAFYGIWNALEKYQNLFQK				NA	NA	NA	NA	NA
BMS003_00044	639			hypothetical protein	ATGAGAAAAGTGTACAAAAACATTTTTGGAGAAATTATCTCCAAAAGTAAAGCTGTGAAGCTAGACGAATATCATCTGTATTATTATGAGGAAGGTTCTGATTTTCTTAAGGAAATTGAATTCATCAACGAAGACAGTGTTTACAACATCAATTATTTTCTAAGTGACGAAGAAAACGAAACGCAGGTAGTAGATTATCTTAAAGAAAAATCTGACTTCTTTGATATTGAAAAGAAAGAAACCAGAGATGGTTTTGTTATTTCCACCAACAAACTATACTCTTTATCCGTAGATGACCTGCCTTTAATTTCTAAAACTGTTTTCAGAACAGACGACCCAGAAAACTTTATCTGTTCACAGGTTATCGATAACGAAACCCATCAGCCACAACTTGAAAGAACCATAAAATGCTGGTATACCAATGACGAAAACGGCGAAAAATATGCAGCCATAGAGTGCAGCTACCAGGAAGACGGAAAACTGGAACTGGCTGTAGACAAAACCCCGGATCCTGATCATGAAGAAAACTGGATTCATTATGATTATGATACTTTCAAGGATCTTCAGACACAGATTCCTACCGATATCAGCTATTATCAGACTGCTGCCTTACTCCCGAAAGAAGCCTATCAGCAGTAA	MRKVYKNIFGEIISKSKAVKLDEYHLYYYEEGSDFLKEIEFINEDSVYNINYFLSDEENETQVVDYLKEKSDFFDIEKKETRDGFVISTNKLYSLSVDDLPLISKTVFRTDDPENFICSQVIDNETHQPQLERTIKCWYTNDENGEKYAAIECSYQEDGKLELAVDKTPDPDHEENWIHYDYDTFKDLQTQIPTDISYYQTAALLPKEAYQQ				NA	NA	NA	NA	NA
BMS003_00045	429			hypothetical protein	ATGTTCAGTAAACAAGAGGCACAACAATTAAAAAAGGAGTTTTGGACAGCTTTTGGAAGATCATTTCCCCGCAAATGGATTCTCTATGACACCAAGATCAAGGATATGGCATTTAAATTTTCTGCCGACAACAAAAAAGCAGAAGTTTCTCTGGATATCGAAATGAAAGACGAAATTTTCCGGAATGCCTATTACGAAAAAATCTGGTCACTGGAAGATATATTAAAAGATTTCATCGGAGAATTTCATAAAGAAGAATATTTTGCTTTAGAAAACGGCAAGATGATCAGCAGAATATGGATTGAAAAACACGGAGTTTCTATCTTTAATAAGAATACCTGGCAAGAAATTTTCGAATTTTTCGTAGACAAAATGGATGGTTTCGAAAGGTTTTACTACGAATATGAAGACTTTATAAAAGATATTTAA	MFSKQEAQQLKKEFWTAFGRSFPRKWILYDTKIKDMAFKFSADNKKAEVSLDIEMKDEIFRNAYYEKIWSLEDILKDFIGEFHKEEYFALENGKMISRIWIEKHGVSIFNKNTWQEIFEFFVDKMDGFERFYYEYEDFIKDI				NA	NA	NA	NA	NA
BMS003_00046	471	cymR		HTH-type transcriptional regulator CymR	ATGGAAAAATTTCACATTTTGTCCTTTTTTCAAATATTAAACAATTTTCTTATTTTTGCTGTAATGCTTTCAAAAAAATCTCAATATGCTTTTAAGGCGCTTTCATATCTTGTAGAAAAAAGAAATGATGGCCCTATTCTTATTTCTGAAATTGCGGAACGTAAAAAGATTCCTTTAAAGTTTTTGGAAAATATCCTGCTCGAACTGAAAAAAGCGGACATTCTTGACAGTAAAAAAGGAAAGGGTGGAGGATATTTTTTCAAAGAAAATCCTGAAAATGTGAAACTGGCTAAGATCATCCGTCTTGTAAACGGCCCTATTGCCATGCTTCCCTGTGTAAGTCTGAATTTCTATGAAAAATGTGAGGACTGCAATGAAGATCACTGCGGGCTTCATGATGTACTGATAGAAGTTCGGGATGCTTCCCTGAATATTCTTGAAAAGAAAACTTTAATGGATCTGGTCGACTGA	MEKFHILSFFQILNNFLIFAVMLSKKSQYAFKALSYLVEKRNDGPILISEIAERKKIPLKFLENILLELKKADILDSKKGKGGGYFFKENPENVKLAKIIRLVNGPIAMLPCVSLNFYEKCEDCNEDHCGLHDVLIEVRDASLNILEKKTLMDLVD				NA	NA	NA	NA	NA
BMS003_00047	192			hypothetical protein	ATGATTTCAAAAGAAGAAGAACACCGGTTACAAAAGCTTATCCATTCTACGATAACAGCAAATTCGGCTGTTATATCCATTATATACAGAAAAAAGATCATAAACAGTTTTGATAAAGAAAAACAGTCTGCTATTAATTTTAATGTAGAAGCTGTTGCTAATGATGTAATATGGATTAAAAAGCTTCTTTGA	MISKEEEHRLQKLIHSTITANSAVISIIYRKKIINSFDKEKQSAINFNVEAVANDVIWIKKLL				NA	NA	NA	NA	NA
BMS003_00048	888			hypothetical protein	ATGGTGATTTCAAGAAAAATTCAGGTAAGGCTTAACGTCCTTTTTGTAACAGCTGCGCTCGTATCTATTGCTGTATTTTCAATGTATGAACTGGGCTATCTTGACGAGCTCCTGGTTATTTTAGCAAAAGATAATTATGTTTTTTACTGGATGCTTTTGGTAGGTGTTTTTGCGGAAATTGTCGCTGGTTCAATGGGAATGGGATATGGGGTGATCTGTACCACAACACTCATGCTTCTCAATATTCCGCCGCATATTGTAAGTGCAAGTATCCATTCCGCAGAAAGCTTTACGACAGCAGCGGGAAGTCTCAGCCATATTAAATTGAAAAATGTAAGCAAAAGCCTGGTGAAAAAACTGGCGATTCCGGCGGTAATCGGGGCGGTAATCGGAGCTGTAAGTTTAACCTATTTGGGAGAATATTATGCAAAGATCACCAAAACACTGATTGCCTTTTATACTTTATACCTCGGATTACAGATTCTGTCCAATGCTTTTAAGGAAAAACAAAGCAAAGCCCTCAAAAAAAAGACTAATCTTACAAGATTGGGAGTAATAGGAGGGTTTATTGATTCTTTTGCCGGTGGAGGATGGGGGCCTCTGGTTACAGGAACGCTGATTAAAAATGCTTTTACTCCAAGATTTGCTGTAGGAAGTTCTACGGTGGCAAAATTCATCCTTACCATCACTGCTGCGGTTACGTTTTTCTTTACCCTGGGAATTCAGCACTGGAATATCATTCTCGGGCTTTTAATAGGCGGAATTATTACCGCTCCCTTTTCCGCAATGCTTACAGCCAGACTTCCCGTGAAGAAAATGTTTGTGATTATCGGGATATTGGTCATTGTGATGAGTTCTATAACTATTTATAAATCAGTTTTTAATTAA	MVISRKIQVRLNVLFVTAALVSIAVFSMYELGYLDELLVILAKDNYVFYWMLLVGVFAEIVAGSMGMGYGVICTTTLMLLNIPPHIVSASIHSAESFTTAAGSLSHIKLKNVSKSLVKKLAIPAVIGAVIGAVSLTYLGEYYAKITKTLIAFYTLYLGLQILSNAFKEKQSKALKKKTNLTRLGVIGGFIDSFAGGGWGPLVTGTLIKNAFTPRFAVGSSTVAKFILTITAAVTFFFTLGIQHWNIILGLLIGGIITAPFSAMLTARLPVKKMFVIIGILVIVMSSITIYKSVFN				NA	NA	NA	NA	NA
BMS003_00049	291			hypothetical protein	ATGAATTTACATATCATTGCACTTTTTAAGTTTAATGAAAATTATCTGATGGATGCCGTAGAGCTGTTTCAGAACCTGGTGAAAGAAACAAGAAAAGAAGAAGGCTGCCTGCAGTATGATCTTATTGAAGATAAAGATAATAAAGGAACTTTCTTCCTGATTGAACTTTGGGAAAGCGTTGAGCATCACAATAGGCACAACGGTCAGGATCACCTTTTAGATTTCCGCAAAGATGCCTCCAAAATTATGGAAAGCTCTGCGGAGGTGTACAAGGGGTTTAAGATATATTAG	MNLHIIALFKFNENYLMDAVELFQNLVKETRKEEGCLQYDLIEDKDNKGTFFLIELWESVEHHNRHNGQDHLLDFRKDASKIMESSAEVYKGFKIY				NA	NA	NA	NA	NA
BMS003_00050	1293			hypothetical protein	ATGAAAACAAAACTATTTTTGGCTTCAGTATTGGCACTTTCTGTTCAGCAGACGGTTCTGGCACAGACTGATGCACTGGGATACTCACAGGTAAACATGACGATGGGAAGCGGATACCAAAACCGCGTGTTTGTAAACCTTGCAGATGGCAATATGGTTTCTCAACCTGCCAACAGCTGGGATATTGCTTTTTATAGAAACTCCAACTTTGCATTCGGATCAAGAATAAATGATGCAAAAGATATTGAAGTATATACCGATTCAACAGATCTAGCTGACTGGGACAATATCAGCATCAGCAATGAATCTTCATGGGGAGAGCCTTTATATAATCCTGATCAGACAACTGACTGGAGCCAGGGAGCTTTCGAACAGGGACCTGTGACATCTCCCAATCCCAACATTCCTTCAACAGGATGGGGAGTGTACAATCCGGTGAATCATCATATTCAGGGGAAAGCTATTTTTGTTCTGAAATATGCTTCCGGAACTTATATTAAGTTTGCGATTGAGGATGCCTTTGCAGGATATACTTTCAGATACTCAAAATGGAACGGTACATCATGGGGAGCAACAGAAACAAGAACAATTGCTAATGGAACGGATGATTCTTATTTCAATTATTTCTCGTTTGATACAGGAGCAAAAGTTCCTGCTCTGGAGCCATCCAGAACTGCATGGGATTTCGTATTTACCAAATATTATACTTTCTATATGGGTATACAGATGTACCCTCTTTCCGGTGCCATCCAGAGCCCTAATGTAAAAGTAGCAATGGTACAGCCGGAAACTCAGCAAACAGCAGCTTATACCCTTCCTGCCAATGCAAATTTCTCATCAGCAATTACAACAGTAGGACATTCCTGGAAAGGCATAGGGACGGTAAAAAATGATGTAGTCTACTACGTAAAAAAAGGAAATGATTATTACAGAATGTATTTCACTACCAATGGCGGAGCCAGCACAGGTGATATGTACTTCAAATACAAAAAAATTACGGAAACTCTGGGAATTACTGAAATAGGTAAAAAAGCCTCTTTTGGTATTTATCCCAACCCTGCTCCGGCTGATAAAAAAGTAACTGTTCTTTTCGATGTTAAAGAAAAAGCAGGGAACAAAGGAAATGTAGAAGTTTATGATCTTACCGGAAAAAAAGTATATTCTGAGGAGCTAACCAATCAGGCAGGCTTCTACAAGCAGGATCTGAACCTATCTACCCTTACTGCAGGCAATTATTATGTAAAAATTACTTACGGAGGCCAGTCGGAAACGAAAAAGCTTATCGTGAAATAA	MKTKLFLASVLALSVQQTVLAQTDALGYSQVNMTMGSGYQNRVFVNLADGNMVSQPANSWDIAFYRNSNFAFGSRINDAKDIEVYTDSTDLADWDNISISNESSWGEPLYNPDQTTDWSQGAFEQGPVTSPNPNIPSTGWGVYNPVNHHIQGKAIFVLKYASGTYIKFAIEDAFAGYTFRYSKWNGTSWGATETRTIANGTDDSYFNYFSFDTGAKVPALEPSRTAWDFVFTKYYTFYMGIQMYPLSGAIQSPNVKVAMVQPETQQTAAYTLPANANFSSAITTVGHSWKGIGTVKNDVVYYVKKGNDYYRMYFTTNGGASTGDMYFKYKKITETLGITEIGKKASFGIYPNPAPADKKVTVLFDVKEKAGNKGNVEVYDLTGKKVYSEELTNQAGFYKQDLNLSTLTAGNYYVKITYGGQSETKKLIVK				NA	NA	NA	NA	NA
BMS003_00051	807			hypothetical protein	ATGAAATTAAAATTACTTTTAGGAACTCTGCTGCTTACCGCTTTTACAGCAAATGCTCAGGTATCTAACATCAATGAAAATTTCGATAATTTCACAGCTGGAAATACTACTTTTCCCCAGTTCGGATGGTCTGCCATCGTTGCACCGATAACAGGAGAGTTCCCGCCCGTACCTCCAAGAATGATTGTTGCAGGCGATTCTAACAGATTTATACAATCTTATGCGGGAAATAATGCTACCGGATCTTCTTATCTGATTTCCCCACAAATAGAAACACCTGCAGGAAATAAAACATTAACTTTTGATACTACCCTGGTTTCTCCTTCGCCTGGCCCGGGAAGCATTCAGATAGGTGTAGCATCCAATCCCGCTGATATGTCAACATTTGTAGCCGTTGGAAGTCCCGTTAACGTAGCCGCCATTGGTACGGTTCAGAATATAAGTGTAAACATTCCTGCTTCTACAGGATCCTATCTTGTATTCAAGTTTACACCTACTGCCACTCACGTGGCGATTCAGGTTGACAATGTAGCTTACAGCACAACTTCTTCTCTAGGAGTATCAGACAGCAAAACATCAACAGAAAACTTCAGATTTGCTTTAAATTCTGACCAGTCTGCATTAGAATTTATTGCCCAAAAAGATCCTAAGAAAATCCAGATTTATTCTGCTGTAGGACAAAAAGCGGCTGAAGGGAAACTGAATGGACAAAGATTTGACATCAGCACCCTTCAGACCGGAGTATATTATATGAATATTGAAATTGCAGAAGGAAAACTTATTCAGTCGAAATTCATTAAGAAATAG	MKLKLLLGTLLLTAFTANAQVSNINENFDNFTAGNTTFPQFGWSAIVAPITGEFPPVPPRMIVAGDSNRFIQSYAGNNATGSSYLISPQIETPAGNKTLTFDTTLVSPSPGPGSIQIGVASNPADMSTFVAVGSPVNVAAIGTVQNISVNIPASTGSYLVFKFTPTATHVAIQVDNVAYSTTSSLGVSDSKTSTENFRFALNSDQSALEFIAQKDPKKIQIYSAVGQKAAEGKLNGQRFDISTLQTGVYYMNIEIAEGKLIQSKFIKK				NA	NA	NA	NA	NA
BMS003_00052	2106	btuB_1		Vitamin B12 transporter BtuB	ATGAAGAAGAAAGTGCTTTCCATTCTATCATTATCCATAGTTATATGGATGAATGCACAAGAAAAGGATTCTCTTAATCAAAAGAAAATTGAAGAAGTTGTTATTACAGGACAGTATATGCAGCAGTCCATTAACAAATCCATCTATAAGGTTGACGTTATTGATGCTGAACAGATTAAAAATATGGCAGCAACCAATGTTGCGGAAGTTTTAAATCAAAGTCTTAACATACAGATTACACCAGATACCCGTTCCGGGAACTCCACAGCCAATATCATGGGACTTAACGGAGATTATGTGAAAATCCTTATTGATAATATTCCGGTGGTAGGGGATACAGGATTAGGAAGTAATATTGACCTTACTAAAGTAACTTTAAGCAATATAGAAAGGATCGAAATTGTAAAAGGAAGTATGGGGGTTGAGTATGGAAATGGTGCAGTAGCAGGGGTAATTAATATCATTACAAAGAAAACCAATACAAAAAAGATCAGTGTAAGAGGTTCAGTGCAGGAAGAAACAGTAAGAGACCAGTATGATCTTAAGAAAAGAGGAAACGGGAGACATATTCAGAACCTGAATGTAGACTATAATATCAGCAATGAGTGGTTTGCAAGCATCAACTTCAACCATAATCAGTTTATGGGATACGCTGGAGAAAGTAAAGGTTACAAATATTTCGGACAGGATAACCAAAGAGGGTACGACTGGAACCCGAAAGATCAGTATGATGCTTCTGCATTACTGAGATATACCAAAAATAAAACAACATTCTTTTATAAACTGTCATACCTTAACGAGAAATTTAATTTCTACAATCCTGAGGTGAACAGAAATCCTCTGAATGATGGATTGGGAGGAGTAGCCTATGAAAGCAGAGACAGAGAATATAATACTGACCGCTGGATTCACCAGTTCAATATTCAAACCAATCTGGGACACATCCGATACATGGGAGACTTCTCCTATCAGAATCAGGACAGAAAATATTACGACTACAATTATGATATTCCCAACAGAACCATAAAAAGCCGTCAGGACGAAAAGTCTTACTATAAGACAGACGTCATCTATTCAAGAGGAATGTTCAGTAATTTCCTGGATAGTAAAGTATTTGACTTCCAGTTAGGATATGAATTAGACTATACCAACGGGTATGCCGCACTTATTGCAGGTGATTTCTTTGGTGAAGCGGTAAAGAGAAAAATATTTACCTATTCCAATTTCCTTTCTGCAGAATGGAATGTTTCAGACAAATTCTCTTTGAGACCGGGAGTAAGGCTTTCTTTGAGTGAGAATTTCAACAATCAATACAATTACTCTTTATCAGCCAGATATAAAACTTCTGAGAATTCAAACCTGAGAGCAGTAATAGGATCAGCAAACCGTTTTCCTAAATATGACGAGCTGTATACCTATTTTGTGAATCTTAACCATGATGTACAGGGAAATCCTGATTTAAATCCTGAAAAAGGATTCTCAGCAGGCCTTTTCTGGAATCAGAACTTTACTGCAGACAATGGCTGGAAAATAGGGTATGGATTAGATGCATTATATCTGGATGTACGTGACAGGATTGAAATGGTAATGGTAAAAGAACCTTCTACCTACAAATACATGAATCTTGATACCTATAAAAACCTATTATTCTCCGCTAATGTTGATTTCAAAAAAAATCAGTTTGCCCTGTCTTTAAGAGGATCCGTAAACGGAACATCTGTATCTATGAATGATTTGAAATCTTCTTCCCCTACAGATTTCCAGTATCTGGTACAGGCAGGAGCTTCCGCAACTTATAAACTGAAAAGTACTGATACCAATTTCGCTCTTTATTACAAATTCACAGGTCCGGACAGGATTTATGTATCAGACGGAGCAAACGGGTTCCGATTAGGGAAAATAGACAGCTTTCATATGATGGATTTCATTGTAAGTCAGCCTTTCTGGAACAAACATTTTGAAATTTCTGCCGGGGTGAAAAATATATTTGATGTAACAAGATTAAACTCTACTGCAGTGGCCGGTACAGCCCATACCGCAGCAAATGGGTTTGTTAATTTATACTATGGCAGAAGCTATTTTGCCAGATTAATGTTTCAATTTTAA	MKKKVLSILSLSIVIWMNAQEKDSLNQKKIEEVVITGQYMQQSINKSIYKVDVIDAEQIKNMAATNVAEVLNQSLNIQITPDTRSGNSTANIMGLNGDYVKILIDNIPVVGDTGLGSNIDLTKVTLSNIERIEIVKGSMGVEYGNGAVAGVINIITKKTNTKKISVRGSVQEETVRDQYDLKKRGNGRHIQNLNVDYNISNEWFASINFNHNQFMGYAGESKGYKYFGQDNQRGYDWNPKDQYDASALLRYTKNKTTFFYKLSYLNEKFNFYNPEVNRNPLNDGLGGVAYESRDREYNTDRWIHQFNIQTNLGHIRYMGDFSYQNQDRKYYDYNYDIPNRTIKSRQDEKSYYKTDVIYSRGMFSNFLDSKVFDFQLGYELDYTNGYAALIAGDFFGEAVKRKIFTYSNFLSAEWNVSDKFSLRPGVRLSLSENFNNQYNYSLSARYKTSENSNLRAVIGSANRFPKYDELYTYFVNLNHDVQGNPDLNPEKGFSAGLFWNQNFTADNGWKIGYGLDALYLDVRDRIEMVMVKEPSTYKYMNLDTYKNLLFSANVDFKKNQFALSLRGSVNGTSVSMNDLKSSSPTDFQYLVQAGASATYKLKSTDTNFALYYKFTGPDRIYVSDGANGFRLGKIDSFHMMDFIVSQPFWNKHFEISAGVKNIFDVTRLNSTAVAGTAHTAANGFVNLYYGRSYFARLMFQF	PGPT0003780_1174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0003780-TC_FEV_OM2|cirA|cfrA|hmuR-K16089	NA	NA
BMS003_00053	1116			hypothetical protein	ATGAAGTATTTAAAAATATTGTCTGTTCTTTCCGTTATAGCTGCTACACAGTCTTGTCTCTCTGCAGACGAAGATCCGGTTCCGGTTCCTCCCATGACGGGATCCGAGGTCAATGTACAAATTGGTGGTCCTACAGAACCTAATCAGGTTTGGATTGACCTGAGTGACTACACAAATGCAGCTGTAAACACCAGAACAGATTGGGATCTTGGTTTTTACAGTGGTGATGCCTACAGAGTGATCATGAACGGATCTCTTGCGATGACGGTGATCAAAATACCCAACGCTTCAGACATCAGCAAAGTAAAAGAATCTGATATATCAGGTTTGAAAGACATTGCTCAGGTAGGAACATTTGATGCAGCCAACATGAAGTATGTAGACAATCCGAACGGAGATTTCTTAAATCAGGCTTCAGGAATTGATGCCATCAAAGAAAATGATGCAGATAACCCTGTCTATCTGATCAATCTGGGAAGAGAAATACCTTCTGCTGCTAATATTGGGGCTGGTTCCGTATCCTTATCCGGAGATCCGAGAGGATGGAAAAAAATTCAGATCCTGAGAGCTCAGAACGGATACAAAATCCGTTATGCCGATGTGAATGCGACAGCAGCAGATATTAAAGAATATATCATTACCAAAGATACAGAATATAACTTCTCATTCTTCAACCTGAAAACGGGAACTCCTGTAAAAATTCAGCCTAAGAAAAAAAACTGGGATCTGGCGTTCACAACATTTACCAATGAAGTATTCATGGGGCCTACTGTCAGTGCAGGAAGCTATTTCTATGCAGATTTTATAACAACGAATACATTGAATGGAGTAGGTGCTTATCAGGTAACGGTTACCGGAAATCTGGAACAGGCTTATACTGCATTTAAACTGAAAGACGTAGAACCTGCAAAATTTGTTTTCAATGACCAGAGGGCTATCGGAGATAAGTGGAGAACAACTACGGGTACAGCATCCAATCCGGTTCCTTTTGTCTATGCAGATCGCTTCTTTGTATTGAAAGATGCCGAAGGTTTTTATTTTAAGCTGAGATTCAATACCATGAAAAATACGAAAGGAGAAAGAGGATACACCAATTTTGAATTCGAACCTTTATAA	MKYLKILSVLSVIAATQSCLSADEDPVPVPPMTGSEVNVQIGGPTEPNQVWIDLSDYTNAAVNTRTDWDLGFYSGDAYRVIMNGSLAMTVIKIPNASDISKVKESDISGLKDIAQVGTFDAANMKYVDNPNGDFLNQASGIDAIKENDADNPVYLINLGREIPSAANIGAGSVSLSGDPRGWKKIQILRAQNGYKIRYADVNATAADIKEYIITKDTEYNFSFFNLKTGTPVKIQPKKKNWDLAFTTFTNEVFMGPTVSAGSYFYADFITTNTLNGVGAYQVTVTGNLEQAYTAFKLKDVEPAKFVFNDQRAIGDKWRTTTGTASNPVPFVYADRFFVLKDAEGFYFKLRFNTMKNTKGERGYTNFEFEPL				NA	NA	NA	NA	NA
BMS003_00054	879	hmuT	COG4558	Hemin-binding periplasmic protein HmuT	ATGAAAAAATTCATCCTTGCAGTTTCTGTCCTTGTAGCAGTATATTCTTGCAAAAAAGCAGAAACAGGAGCAAAAGAAAATACTACAGAAGCTAGTTCTGAAGCACCTAAAAGTAACAATAAGATAGTAACATTAAACGGAGGAATTACTGAAATTGTAGCAGCTCTGGGTCACGAAAAAGAAATCGTAGGAACAGATGTTACCAGTACATATCCTGCCTCTTTAAAGGCTACGGCTAAAGATTTAGGCCACATGAGATCAATGACGATTGAACCGATCATGGCTGTAAACCCTACTTTGATTCTGGCTTCTGATAAAGATATCAACCCGGAATTAATGGGGAAAATCAAATCTTCAGGGATTCAAACCGAAGTTTTCAAGCAGGAGTACACTGTTGAAGGAACTAAAAAACTGATTGAACAGGTAGCAAAAGCGATCGGAAATACAGATTATCAGAAACTAAATGATAAAATAGATGCTGACCTGAAACAGGTACAGCCTATCGCTAAAAAACCAAAAGTATTGTTCATCTACGCCAGAGGAAATATGCTGATGGTAAGTGGTAAAAATACCCCAATGGCAGCATTGATTACCCTTGCAGGAGGAGAAAATGCAGTCACTGATTTTGAAGATTTCAAACCTTTGACACCGGAAGCCGTTGTAAAAGCTAATCCTGACGTACTATTCTTCTTCGAAACAGGTCTGCAGGGAGCAGGAGGAAACGAAGGAGCTCTAAAAATGCCGGGAGTATCCCAAACCAATGCTGGGAAAAACAAGAAAATCATTGCAATGGACGGAGGTTTAGTATCAGGTTTTGGACCAAGAGTAGGAGAAGCAGCAGTAGCATTAAATAAACTTTTAATTGAAAGCACAAAGTAA	MKKFILAVSVLVAVYSCKKAETGAKENTTEASSEAPKSNNKIVTLNGGITEIVAALGHEKEIVGTDVTSTYPASLKATAKDLGHMRSMTIEPIMAVNPTLILASDKDINPELMGKIKSSGIQTEVFKQEYTVEGTKKLIEQVAKAIGNTDYQKLNDKIDADLKQVQPIAKKPKVLFIYARGNMLMVSGKNTPMAALITLAGGENAVTDFEDFKPLTPEAVVKANPDVLFFFETGLQGAGGNEGALKMPGVSQTNAGKNKKIIAMDGGLVSGFGPRVGEAAVALNKLLIESTK				NA	NA	NA	NA	NA
BMS003_00055	1008	hmuU_1	COG0609	Hemin transport system permease protein HmuU	ATGATAAGTGCAGTACTGCTTGCCATTATAGCAGTGCTGTCACTTAATACAGGAGTCTATGATTTCGGAGAAAACTCTCCGTTCAGGGTACTGTGGCAATTTATAAAAGGAGATTCCGGTTTGTCACTCAGTGATAAATATGTGATTTGGGATGTAAGAGCAGCCAGAATTATCATGGCCATTTTAATAGGAAGTATGCTGTCGGTTTCAGGGACAAGTCTTCAGGGACTCTTCAAGAATCCTCTGGCAACGGGAGATTTAATAGGACTTACGTCAGGAGCAACTTTGCTGGCAGCCATTACGATTGTTTTAGGAGGTCATTTTAAAGAATATCTTCCTGAAGCCGTACAATTTTCACTGGTAGGAATAGCAGCTTTTATCGGCTCTTTTTTATCAATGATGCTGGTCTACAGAATTTCAACAAGCGGAGGAAAAACAAATGTAGTCATGATGCTGCTTACCGGGGTTGCCATAACCGCTATTGGGTTTTCAATAACCGGATTTTTGATCTATATCTCAAAGGATGAGCAGCTCAGGGACCTTACTTTCTGGAATTTAGGAAGTCTGGCAGCCGCAACATGGACGAAGAATATCATTCTCGCTATTGTTATGATCATTGCTTATATTATTTTACTTCCCAAAGGAAAAGCGCTCAACGCCATGATGTTGGGAGAAAAAGATGCACAGCATCTGGGAATCAATGTGGAAAGACTGAAAAAGCAGATTATTATCATCGTAGCTTTAATGGTGGGGAGCTGTGTGGCATTCTCGGGAACCATTGGTTTTGTAGGTCTTATTGTACCTTATATTTTAAGACTTTTATTCAAATCCAATTATGCTTTTATCCTGCCGCTATCAGCAATGTGCGGAAGCATTTTGTTATTAACGGCAGATACCTTCAGCAGAAGTATTGTAGCACCGTCAGAGCTGCCGATCGGAATTTTAACAGCCTTAATGGGAGGCCCTATTTTTATCGCTATTTTGGTTAAATTTAAAAAATCACTGTAA	MISAVLLAIIAVLSLNTGVYDFGENSPFRVLWQFIKGDSGLSLSDKYVIWDVRAARIIMAILIGSMLSVSGTSLQGLFKNPLATGDLIGLTSGATLLAAITIVLGGHFKEYLPEAVQFSLVGIAAFIGSFLSMMLVYRISTSGGKTNVVMMLLTGVAITAIGFSITGFLIYISKDEQLRDLTFWNLGSLAAATWTKNIILAIVMIIAYIILLPKGKALNAMMLGEKDAQHLGINVERLKKQIIIIVALMVGSCVAFSGTIGFVGLIVPYILRLLFKSNYAFILPLSAMCGSILLLTADTFSRSIVAPSELPIGILTALMGGPIFIAILVKFKKSL	PGPT0003770_3548	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
BMS003_00056	774	hmuV	COG4559	Hemin import ATP-binding protein HmuV	ATGATCAAGGCGCATAAGATTAATTATAAGCATAAAGAATTCCGGATTCTGGAAGGGGTAGATGTCTCTCTGGAATACGGCGAATTTCTGGCCATTGTAGGACCCAACGGAGCAGGAAAGTCAAGTCTTCTGAGTGTATTGGCAGATGAAGTGAAATCCGGTCATAATAAGGTTTTGTTTAAAGATAAACCTATTAAAGAATGGAATATCAAAGATCTTTCAAAGCACAAAGCAAAGTTTTCACAGCATAACAGCAACGATATTCCGCTTGAGGTAAAAGATGTGATCATGATGGGAAGGTATCCGTATTTCGATGCCCAGCCCGGAAAAGAAGATCTGGAAGCCATGAATAATATGATGTATGAAACGGATATTATTCATCTCAAAGAAAGAGAATATAACACCCTTTCAGGAGGAGAAAAACAGCGTGTACACCTATCAAGAGTCATGGCACAGCTTGAAAACGATATTGCCCACAAACTTGTTTTTCTGGACGAGCCTTTGAATAATTTAGATATAAAACATCAGTATAAAGCACTGGAAATCATCAGAAGTTTCACAAAAAAAGCCAACAGTGCTATTGTTGTTTTGCATGATCTCAACCTTGCAGCACAGTTTGCAGATAAGATTTTATTAATGAAATCAGGACAGGTTTCCGCCTATGGAACGCCACAGGAAGTTTTTACGGAAGAAAATATCAGCACAGCTTATAATTTTCCCTGTACCATTTGCGGACACCCTATTACCAATAACCCAATGATCATTTTTGGATAA	MIKAHKINYKHKEFRILEGVDVSLEYGEFLAIVGPNGAGKSSLLSVLADEVKSGHNKVLFKDKPIKEWNIKDLSKHKAKFSQHNSNDIPLEVKDVIMMGRYPYFDAQPGKEDLEAMNNMMYETDIIHLKEREYNTLSGGEKQRVHLSRVMAQLENDIAHKLVFLDEPLNNLDIKHQYKALEIIRSFTKKANSAIVVLHDLNLAAQFADKILLMKSGQVSAYGTPQEVFTEENISTAYNFPCTICGHPITNNPMIIFG				NA	NA	NA	NA	NA
BMS003_00057	651	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGGAAAAAGAAGAACTTAAAATCCTCGCACAGAATCTTGCCAGTCCTCAGGGTGAAAAAGGCATCGAGATTGGTGAAATGATGAATGCTACCAACATTAGCATGACATTAGAAAGTATCAAAGCACTGGTGATAGATGATTGCCAGCAAATCCTGGAAATAGGACATGGAAATGCTGCACACCTGAAAAGTATAATGAGTCTTGCCAAAAATCTCAGATATACAGGGATTGATATTTCTGAGACCATGCACAATGAAGCCAAAAGGCTCAATAAAGAATTTGAAAATCAGTCAGAATTTGTTTTGTATGAAGGGAAGAAACTCCCTTTTCAGGACAGAACTTTCGATAAAATATTCACCGTGAATACTGTGTATTTCTGGCAGAACCCGGTAGAATTTTTAAACGAGATCTACAGGGTTTTGAAAGATGACGGAACGTTCGTCCTTACGTTCGGACAAAGAGAATTTATGGAAAAGCTGCCGTTTACGGAATATAATTTCACCTTGTACAGTAACCGTGAAATGGAAGAGCTGGTCTCCAAAAGCCAATTTAAAAGAATGAAAACTTCTGAAAAAGAAGAAGAAATAAAAAGTAAAACAGGAAACGAAACCATACAAAGAATTTATACAATTTTAACCATAAAAAAGTAA	MEKEELKILAQNLASPQGEKGIEIGEMMNATNISMTLESIKALVIDDCQQILEIGHGNAAHLKSIMSLAKNLRYTGIDISETMHNEAKRLNKEFENQSEFVLYEGKKLPFQDRTFDKIFTVNTVYFWQNPVEFLNEIYRVLKDDGTFVLTFGQREFMEKLPFTEYNFTLYSNREMEELVSKSQFKRMKTSEKEEEIKSKTGNETIQRIYTILTIKK				NA	NA	NA	NA	NA
BMS003_00058	1029	hemS	COG3720	Hemin transport protein HemS	ATGAGCACATTAGTTAATGATTTAAAGGAAAAATGGGAAGCTCTGAAAGCAGAAAATCCACATATCAGAATAAGAAATGCAGCAGCACAGTTAGAAGTAAGTGAGGCAGAATTATTGGCAACAAGCATAGGAGAAGGCGTTACTGTCCTGAACCCGGATTTCCAGGGAATCCTTACAGAAGCTGAGCAACTAGGAAAAGTAATGGCTCTTACCCGTAATGATGAGTGTGTTCATGAAAGAAAGGGAACTTACCTGAACGGAGATTTCAGCAGCCCTCATGCACAGCTTTTTGTGGGTGAAGATATTGACCTTAGGATTTTCCTTAACCACTGGAAATTTGCTTTTGCAGTACTGGAGGGAGATAAAAAAAGTCTTCAGTTTTTCGGAAAAGACGGACTGGCTCTTCATAAGATTTACTTGACTAAAGACAGTAATGAAGCGGCTTTCGATGCTGTTGTAGAAAAATTCAAAGCAGAAGATCAAAATCAGGCATTGGTTTTTGAAGCTGTAGCTCCAAAACAGCCGGAAAAAGCAGATTCAGAAATTGATATTGAAGGATTCAAAAAAGCCTGGACAGAACTGAAAGATACACATGATTTCTTCATGATGACCAGAAAATACGGAGTAAGCAGAACTCAGGCATTAAGATTGGCTCCGGAAGGATTTGCGAAGAAAATTGATAATGCTAAAGTCGTTAACATCCTTGAAGATGCTTCTGAGAAAAATACACCGATCATGGTTTTCGTTGGAAACAGAGGAATTATCCAGATCCACACAGGAAATGTGAAGAAAACGCTTTGGCACCAGCAATGGTTCAACGTAATGGATCCTGACTTCAACCTACACCTTGATGTAACGAAAATTGCAGAAGCATGGATTGTTAAAAAACCAACTGAAGACGGAGAAGTTACCGCTATCGAAGTATTCAACAGTGAAGGAGACTTCATCGTTCAGTTCTTCGGGAAAAGAAAACCGGGAATTCCTGAACTTCAGGAGTGGAAGGATCTTGTAGCAGCATTAGATAAATAA	MSTLVNDLKEKWEALKAENPHIRIRNAAAQLEVSEAELLATSIGEGVTVLNPDFQGILTEAEQLGKVMALTRNDECVHERKGTYLNGDFSSPHAQLFVGEDIDLRIFLNHWKFAFAVLEGDKKSLQFFGKDGLALHKIYLTKDSNEAAFDAVVEKFKAEDQNQALVFEAVAPKQPEKADSEIDIEGFKKAWTELKDTHDFFMMTRKYGVSRTQALRLAPEGFAKKIDNAKVVNILEDASEKNTPIMVFVGNRGIIQIHTGNVKKTLWHQQWFNVMDPDFNLHLDVTKIAEAWIVKKPTEDGEVTAIEVFNSEGDFIVQFFGKRKPGIPELQEWKDLVAALDK	PGPT0003646_884	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003646-hemS-NA	NA	NA
BMS003_00059	873			hypothetical protein	ATGAAAAATATTTTCATAGCGATACTGCTTGCAGGGTTCTGTTCATTAAAGGCACAGGATTTTAAGGCGTATCAATTTTATGATAAAAAAGGAAAAGAAATAAAAACAGAAAAGCTGGTAAAAGAACTGGCAGATTATGATGTGGTCTTTTTTGGTGAAAATCATAACAGCTCCATCAATCACTGGCTTCAGCTTAAAATTACTGAAGCGCTGTTTGCAAAAAAGAACGGTCAGCTTATTTTAGGAGCAGAAATGTTTGAAAGAGACAACCAGGCTCAGCTAAATCAATATTTAAACGGGAAATTTGATGCTAAAACATTGAAAGATTCTGCCCGTTTGTGGAATAATTATGCAACAGATTACAAACCTTTAGTAGATTTTGCTAGGGATAAAAAGCTGAATTTTATTGCCACCAATATTCCAAGAAGATATGCCTCTCAAACAGCAAAACAAGGTCTTGAATCCTTAAATAAATTAAGCGAAAAAGAGAAAGCTTACATTGCCCAGCTGCCTATCAAAGTAACTTTAGATACTCCGGGATATCCTGAAATGAAAAAAATGATGGGCGATCATGCAGAAGGAACCAAAGTGATGAATTTCATCTCCGCTCAGGCTACAAAAGACGCTACGATGGCTGAATCTATCCTGAAAAGCTACCAGGCCGGAAAAACCTTCATCCATTACAACGGAAACTATCATAGTAAAGAATTTGGTGGAATTTATTGGTACATCAAACAGAAAAATCCTAATCTGAAAATGGCGGTTATCTCCGTTTTTGAATCAGATAATCCTGAACTGAAAGTTCCAGCTAAAGATTATATCCCTACAGATTTTAATTTGATCATTCCGGGAGATATGACGAAGACTTTTTAA	MKNIFIAILLAGFCSLKAQDFKAYQFYDKKGKEIKTEKLVKELADYDVVFFGENHNSSINHWLQLKITEALFAKKNGQLILGAEMFERDNQAQLNQYLNGKFDAKTLKDSARLWNNYATDYKPLVDFARDKKLNFIATNIPRRYASQTAKQGLESLNKLSEKEKAYIAQLPIKVTLDTPGYPEMKKMMGDHAEGTKVMNFISAQATKDATMAESILKSYQAGKTFIHYNGNYHSKEFGGIYWYIKQKNPNLKMAVISVFESDNPELKVPAKDYIPTDFNLIIPGDMTKTF				NA	NA	NA	NA	NA
BMS003_00060	636	def		Peptide deformylase	ATGAAGAAATTACCTATTCTGCTGATCTTTTTTACCGGACTGTTCAATGCACAAAAACTGACTTCCCATGAAATTTCAATCATCAATCAGGGAGATGTAAACACCGCATTGCCGATTTATCAGACTACAGATTCGAATCAGCATAAAACATTGCTGAGCATTTCTTCAGAAGCAGATCCTCTTGACCCGAATACTGCTGTTCTGGTAAAAAGAATGAAAGAATCTCTTCTTTCAACAGATGGTGGAGTAGGCATTGCGGCTCCTCAGGTGGGTATCAACAGAAAGATCATTTGGGTACAGCGTTTTGATAAAGAAGGAATCCCGTTGGAATACTTTATCAATCCGGCAATTGTTTGGCGATCTGATCTTCAGAATCTCGGTTCTGAAGGCGATTTATCTATTCCTGATTTCAGAGATCAGTTTTATAGGAGTAAGGTAATTCAGTTAGAATATGTAGATCTGAAAGGACAGAAATATTCAGAAATCATAGAAGGTTTTACTGCGGTGATTTTCCAGCATGAGATCGACCATCTTTTCGGAATCCTGATTTCCGACAAAAAAGAAAAAGAAAAAAACGATTCTTACAGAAAAGTAGATGCCTATCAGAAAAGCGACGTAAATAAAGACAGAAGGTAA	MKKLPILLIFFTGLFNAQKLTSHEISIINQGDVNTALPIYQTTDSNQHKTLLSISSEADPLDPNTAVLVKRMKESLLSTDGGVGIAAPQVGINRKIIWVQRFDKEGIPLEYFINPAIVWRSDLQNLGSEGDLSIPDFRDQFYRSKVIQLEYVDLKGQKYSEIIEGFTAVIFQHEIDHLFGILISDKKEKEKNDSYRKVDAYQKSDVNKDRR				NA	NA	NA	NA	NA
BMS003_00061	435			hypothetical protein	ATGGAAATCATTATAGATATTGTATGCCAGGTGTATGCAGGGCAAAAATCAAGAAAGACGATTGATCTTGTTCTAAACACATTCCTTCCCGGATATGAAAAATTAAATCTCGATTATACTTTCCCAAGACACGACAAAGATTATATTTTTAAAACAGAAGACGAAATGATTGGTTATTTCATCGAAAACCCTGCCCTTAACCAAACTTTTTACTGGAATAAATATCATGATAATCCGGACAAAATAATGGTGGGTGCCAATATTACAGATGATGACAGACTTATCATGAGCCTAACAATGGATACGACTGAAGAGAAAAGGGATATGTATTTCGATCAGCTCAAAAAACTTTTACAATCTGATATAGGAATAGTTACTTACGTTGATCCTGCAGATTATGAAGACGGTGAAGATTTTATTGTAAAATATAGATAG	MEIIIDIVCQVYAGQKSRKTIDLVLNTFLPGYEKLNLDYTFPRHDKDYIFKTEDEMIGYFIENPALNQTFYWNKYHDNPDKIMVGANITDDDRLIMSLTMDTTEEKRDMYFDQLKKLLQSDIGIVTYVDPADYEDGEDFIVKYR				NA	NA	NA	NA	NA
BMS003_00062	426	ohrB	COG1764	Organic hydroperoxide resistance protein OhrB	ATGAAAACCTTATATACCACAAAAGTAACTGCTCAGGGAGGCAGAAACGGACATGTGAAAAGTGAAAACGGAGTGTTGGATCTTGATGTAAGAATGCCGAAAGGTTTAGGAGGAGCCAATAATGATTTTGCCAATCCTGAAATGCTTTTTGCAGCCGGATATTCTGCATGTTTCGACAGCGCTCTGAACAGAGTCATCAGTCTTTCTAAACTAAAAACAGGAGACACAACAGTAACAGCCCAGGTAAGCATAGGCCAGCTTGAGAATGGAGGTTTCGGACTGGCAGCAGAACTGGATGTGAATATCCCAGGAGTTTCTGTTGAGGAAGCACAGGCGCTGACAGAAAAAGCGCACCAGATCTGTCCTTATTCTAATGCTACCAGAAATAATATGGAGGTGAAACTTGCAGTAACCAACAACGATTAA	MKTLYTTKVTAQGGRNGHVKSENGVLDLDVRMPKGLGGANNDFANPEMLFAAGYSACFDSALNRVISLSKLKTGDTTVTAQVSIGQLENGGFGLAAELDVNIPGVSVEEAQALTEKAHQICPYSNATRNNMEVKLAVTNND	PGPT0013160_2589	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
BMS003_00063	438	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGGAAAATCCGAAAACACCCAAACTAGAAAACCAGATTTGCTTTCCGCTGTATGTGATCGCCAAAGAGATTACAGGGCTTTACCGTCCTTTTCTTGATGAACTGGGCATTACGTATCCGCAGTATCTTGTGATGATGATATTATGGGATGGTGACGGACTTACGGTAACGCATATCGGAGAAAAACTGTTTCTGGACAGTGGAACCTTAACCCCTCTTCTTAAAAGACTCGAGGCTAAAGGATTTATCATCAGAAAAAGAAAAAAAGAGGACGAAAGAGTGGTTGAAGTATTTTTAGACGAAACTGGAAAACAGCTTCAGCAGAAGGCTTGTGAAATTCCGGGAAAAATCCAGGAAAAACTGGGAATACAACCGGAGGAGCTGCTGCATCTTAAAGACACCGTTCTAAAAATATTAAATAAAATAGAAAATAAATGA	MENPKTPKLENQICFPLYVIAKEITGLYRPFLDELGITYPQYLVMMILWDGDGLTVTHIGEKLFLDSGTLTPLLKRLEAKGFIIRKRKKEDERVVEVFLDETGKQLQQKACEIPGKIQEKLGIQPEELLHLKDTVLKILNKIENK	PGPT0013155_4366	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS003_00064	633		COG0778	Major NAD(P)H-flavin oxidoreductase	ATGTCATTAATAGAAAATCTAAACTGGAGACATGCTGTAAAAGCTTATGACCCGACCAAAAAAGTATCACAGGAAGATCTTAATACGATTCTTGAGTCCGCAAGACTGGCTCCTACTTCATCCGGACTTCAGCCATTCCGAATCATTGTAGTGGAAAGTCAGGAACTGAAAGAAAAAATGGTAACCGGAGCTTTAAACCCTGAAGTCATGAGAGATTCTTCTCACGTTTTGGTCTTTGCAGCATGGGACAGCTATTCTAATGAAAAAATTGACAAAGTTTATGATTATCATACGGATGTAAGAGACCTTCCGAGAGGACGTTTCGGCAGCTATACTGATACCATCAAAAAAATGTACGGAGCACAGACTCCTGAAGAGCATTTTGCCCACACTGCCCGCCAGACTTATATTGCTTTAGGAATTGCTCTTGCGCAGGCTGCAGAACTTAAAATCGACAGTACACCGGCAGAAGGATTCAGTAATGCTGTAGTGGATGAAGTACTGGGATTGAAAGAACTGGGATTAAAAAGTGTAACTCTTTTATATCTAGGATACCGTGACGAAGCTAATGACTGGCTTTCTTCTATGAAAAAAGTCAGAATTCCAATGGATGAATTTATCATAAAAAAGTAA	MSLIENLNWRHAVKAYDPTKKVSQEDLNTILESARLAPTSSGLQPFRIIVVESQELKEKMVTGALNPEVMRDSSHVLVFAAWDSYSNEKIDKVYDYHTDVRDLPRGRFGSYTDTIKKMYGAQTPEEHFAHTARQTYIALGIALAQAAELKIDSTPAEGFSNAVVDEVLGLKELGLKSVTLLYLGYRDEANDWLSSMKKVRIPMDEFIIKK	PGPT0005925_687	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS003_00065	753		COG1028	Glucose 1-dehydrogenase	ATGCAGAGATTTAAAAACAAAACCGCCTTAATTACAGGAGGAACCAATGGAATGGGTTTGGCTACCGCTCAGAAATTTATAGAAGAAGGAGGGAAAGTCATTATTACAGGCAGAAGTGAAGAAACCGTGAATAATGCTTTGGGAAAGCTTGGAGAGAGTGCCTTCGGCATTGTATCCAATGCCGGAAATATAAAAGATCTGATGAATCTTCAGCAGGAAGTCAGAAAATATACAGAACATATAGATCTGGTTTTTGCCAATGCAGGTTACGGAAGATTTGCTCCTGTGGAATATGTGGATGAAAATCAGTTTGATGAACTTTTTAATATGCTGGTAAAAGGCCCGTTTTTTACCGTGCAGCAAGTATTACCACTGATGAAAAGCGGAAGTTCCGTTATTTTCAATACCTCGGTGGCAACGGAGATTGCAATGCCTGATTTTTCGGTGTATTCTGCCGCTAAATCTGCGGTACAGTCATTTATAAGAACTTTTGCGGTAGAGCTTACTGAACGTGGTATCCGTGTCAATGGAGTGAGTCCCGGGCATATTAAAACGAATATTTTTAATAATACAGGCTTAACAGGAGAGCAGATAGAAAGTGCCATTGATGATATTATTCCTACGATTCCTTTTAAAAGGCAGGGCGAACCGTCAGAAATAGCCGGTGCAGTTCTGTTTCTGGCCTCAGATGAAGCCTCATATATTCATGGTGCAGAGATCAGGGTAGATGCCGGAATTTCTGTGATCAGATAA	MQRFKNKTALITGGTNGMGLATAQKFIEEGGKVIITGRSEETVNNALGKLGESAFGIVSNAGNIKDLMNLQQEVRKYTEHIDLVFANAGYGRFAPVEYVDENQFDELFNMLVKGPFFTVQQVLPLMKSGSSVIFNTSVATEIAMPDFSVYSAAKSAVQSFIRTFAVELTERGIRVNGVSPGHIKTNIFNNTGLTGEQIESAIDDIIPTIPFKRQGEPSEIAGAVLFLASDEASYIHGAEIRVDAGISVIR				NA	NA	NA	NA	NA
BMS003_00066	312			hypothetical protein	ATGAAAGCCTGGTCCTATTTATTATTACTTTTTATCATGATTACATCCTGTTCCGGTAATTCCAGTTCGCAAAAATTAACCTGGTATAATAATTCTACCATTACCAATATTACTGAAGATCCGGACAAACCGAATGAAGTTGTACGTGTTTCCATAGGAATAAGTGCTCAGGTCTTTTATCTTTCAAAAAAATCTCCTGATTATCAAAATCTAATGGAAAAAGCCAACCAGAGTTTCAAAAAGAATAAGACTTATGATATAGGGATCGAAAATAAAACCAATATCATTAAAGAAATTAAAGAGGCCAAATAA	MKAWSYLLLLFIMITSCSGNSSSQKLTWYNNSTITNITEDPDKPNEVVRVSIGISAQVFYLSKKSPDYQNLMEKANQSFKKNKTYDIGIENKTNIIKEIKEAK				NA	NA	NA	NA	NA
BMS003_00067	939			hypothetical protein	ATGATGGTATTCGTGACGATGCTGTCATTCAATGCCTGTTCGGATTCAAGTGCCAATCAGGATCCTAATCTTGTAGCCAAAGAGTCTAACGACGTTGCAATGAAAGATTTTGGTAAGACTGTCCCGGTAGGGATGGAAAAAGAGGATGGAAAATTTAAAGTTTCATTTATGGTTTCAGCACAGCCGTATCAAATTAAGGATACCAAAGAAAATGCGGGATTTATCTCCATGATCAAAGAAGCTGTAGAAAATGAAACGCCTGTTCATGTTTTCCTGAAAGCTAATTCCAATGAAATTGCAAAGGTAGGCAAACCAACAGCTGATGACATCCGTTATTTCAAATCTGTTTTCAACAAAGAAGAAAGAGGTGACAGCAAAAAAGCAGTAAGTGTTATCCCTAACCTGGCAACGCTTAACAGCTTATTCACTCAAATCAAAAACCAGGCTTGTGGAACTTCTACAGCTTCTTCACCTTGTATCACATTCAGATATCCTGTGGATGGATGCTATGCAAGAGCTCACAAAATGAGACAAATTCTTCTGAACGCAGGCTACGACTGTGAAAAACAGTTCGTTTACGGTAACCTGAGAGCTTCTACAGGAACTTGCTGCGTATCATGGGTATACCACGTAGCCATCCTGGTAAGCTTCAAAAACGCTTCCGGAATTGTTGAAAAAAGAATCATAGATCCATCATTATTCTCCAGCGGTCCTGTAACTGACTCTGCCTGGAGAGCTGCCTGTACCAATACAAGCTGTGGATCTGCTTCTGTATCTTCTTATGCCAATACAGCAGGAAATGTATACTACAGAAGCCCATCTGGCTCTTTACTGTATGATAACAGCTATGTAAATACCAATTGTGTATTGACTAAATTTACATCCCTTTCAGGATGTTCTCCTTCCCCTGCACCTAGTGTGGCAAGTTGTGGATTTTAA	MMVFVTMLSFNACSDSSANQDPNLVAKESNDVAMKDFGKTVPVGMEKEDGKFKVSFMVSAQPYQIKDTKENAGFISMIKEAVENETPVHVFLKANSNEIAKVGKPTADDIRYFKSVFNKEERGDSKKAVSVIPNLATLNSLFTQIKNQACGTSTASSPCITFRYPVDGCYARAHKMRQILLNAGYDCEKQFVYGNLRASTGTCCVSWVYHVAILVSFKNASGIVEKRIIDPSLFSSGPVTDSAWRAACTNTSCGSASVSSYANTAGNVYYRSPSGSLLYDNSYVNTNCVLTKFTSLSGCSPSPAPSVASCGF				NA	NA	NA	NA	NA
BMS003_00068	1263			hypothetical protein	ATGAGAAATAAATTTTTAATTACAATTATACTTTTGTTTTTTTCAGTTTCTAATAATGCCCAATCTACAAATGATTATAAACCTACATTAGATAAAATTTTTAAAGCATTTAAAGAGAAAAACTATGATCTTTTAAAACCTTTGCTGGATCCCAATATGAAAATTGGAGACTTTCCTGCTGGAATGAATGATGCAATAATTCCCCAAATATTATCCCAAATGCCAATACCTGAAACATACTCTGTGAAGGAGATGATAAAAGAAGGTGAAAATATGCGGATTAATACAATTTATACTTTCGGGATGATGCCTGAAATGAAAAGAAGTTTTGTGTTCAATAAGCAGGGGAAAATAGTTGATTTTGATGTGTTGAGCGAAGTTGTTGTAAAGAAACAAACAGTTTCTAATGTTGGGAAACCTTCTGAATCTGCAAGGTTTGAATTACCCTTCGAACTGAAGAATGGAATAATCTATGTAAAAGCGTCCCTTAATGGAAAGGAAGAAACTTTTATCCTCGATAGTGGGGCTCCGGTACTTATATTAAATTCTGATTCAAAATCTGTTAAAAATGTTTCTAAAGTTGAGAAACGGTCAAATGGAATAGGCGGTAAAATCAACAATACGGGATCTACTCACATTGATACATTTAGTTGGGGAGCAATTAAGGTTACTGATGCGGATATTATAACGATGCCCTTGAATCATCTGGATGGAGGTAAAACGCCTTTTGTAGGATTAATAGGCTATGATCTATTTAAAGACTATCAGTTGACATTTGACTATCAATCAAAAAAAATAACAGGAGTTTTGAGTAATGATACTAGCAAACAAGTTGATAATAATGAGGAGTTATTAACAACAATACCATTTGAACTAAAAATGCATATACCAGTATTTAAGGTGGAAATAGGAGGTAAAGAATATAAAGTAGGTTTAGACACTGGTGCTTCTCATAATTTATTATATGCCAAATACCTTAATGAATTGGAAATAAAAAAAATGGTAGAAGGTGGCGAGGATGCAACGATTAAAGGGGCAGCGGGGAGTGTAAATGGAAAAGCAGGTAAGATCAAGATGTTGACGGCAGGAAATGTTGAATATAAAAATATGAATTTTGCTTTTGAAGATAGTGCTTTGGATCAGCTTAATGCAGGCTATGGATTAGGTATTGATGGATTATTGGGATATGAGTTTTTAAAATCCTATATCGTAACTATTGACTTTAAAGCAAAAGTAATAAGGGTATACAATAAAAAAGTATAA	MRNKFLITIILLFFSVSNNAQSTNDYKPTLDKIFKAFKEKNYDLLKPLLDPNMKIGDFPAGMNDAIIPQILSQMPIPETYSVKEMIKEGENMRINTIYTFGMMPEMKRSFVFNKQGKIVDFDVLSEVVVKKQTVSNVGKPSESARFELPFELKNGIIYVKASLNGKEETFILDSGAPVLILNSDSKSVKNVSKVEKRSNGIGGKINNTGSTHIDTFSWGAIKVTDADIITMPLNHLDGGKTPFVGLIGYDLFKDYQLTFDYQSKKITGVLSNDTSKQVDNNEELLTTIPFELKMHIPVFKVEIGGKEYKVGLDTGASHNLLYAKYLNELEIKKMVEGGEDATIKGAAGSVNGKAGKIKMLTAGNVEYKNMNFAFEDSALDQLNAGYGLGIDGLLGYEFLKSYIVTIDFKAKVIRVYNKKV				NA	NA	NA	NA	NA
BMS003_00069	729	lipB	COG0321	Octanoyltransferase	ATGAATACAAATCAAAATAAAGCAGTAGAATTTGAAGATTTAGGAATCAAAGAATATCAGCCCGCCTGGGATTATCAGGAACAGCTGATGAAAAACATCATTGATACCAAAATTAAAAACAGGGATCTTCCTGCAGAACAGCACAGCACGACTCCCAATCACCTTCTTTTTGTAGAGCACCCTCATGTTTATACTTTGGGAAAAAGCGGACACGAAGAAAATATGCTTGCCGGTATTGATAAGCTGAAAGAAATTGATGCTACTTTCGTGAAAGTAAACCGTGGCGGAGATATTACCTATCACGGTTACGGACAGGTGGTTGGCTACCCTATTCTGGATCTTGAAAACTTTTTCACGGATATTCATTTATACATGAGAAACCTGGAAGAAGTAATCATCAGAACCATTGCCGAATATGGTATTAAAGGAGAACGTTCCCCGGGAGAAACCGGAGTATGGCTGGATGTAGGAAAACCTTACGCCAGAAAAATGTGCGCTATGGGTGTGAAAGCTTCCCGCTGGGTAACACTGCATGGCTTTGCATTGAATGTGAATACGGATATGCGCTATTTTGAATACATCATTCCATGTGGAATCAAAGACAAGCAGGTTACTTCTTTGAAAAGAGAACTTGAAAGGGAACTGACCCCCATAGAAATGAAAGAATTGAAAGCAAAGATCAGAAAACATTTTGCGGAGGTTTTTCAGGCGGAACTGATTTACAAATAG	MNTNQNKAVEFEDLGIKEYQPAWDYQEQLMKNIIDTKIKNRDLPAEQHSTTPNHLLFVEHPHVYTLGKSGHEENMLAGIDKLKEIDATFVKVNRGGDITYHGYGQVVGYPILDLENFFTDIHLYMRNLEEVIIRTIAEYGIKGERSPGETGVWLDVGKPYARKMCAMGVKASRWVTLHGFALNVNTDMRYFEYIIPCGIKDKQVTSLKRELERELTPIEMKELKAKIRKHFAEVFQAELIYK	PGPT0003925_911	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
BMS003_00070	735	trpA	COG0159	Tryptophan synthase alpha chain	ATGAAAAAACTAAATATATACTTCACAGCAGGAATTCCTCAATTGGAAGATACCGCTGACATTATAAAACTGATTCAGGACTCCGGAGCAGACATGATTGAAATCGGAATGCCTTATTCTGATCCTGTGGCAGACGGGCCTGTGATCCAGAAAGCTCACGAACTGGCTTTACAAAACGGAATGACTATTGAAAAACTATTGTCTCAGCTGAAAGCCATCAAAGATGAGATCAGAATTCCGATTATTCTGATGGGATATATCAATCCGGTATTAAGTTTCGGATTTGAGAAATTCTGTGCGGCATGTGCGGAAAGCGGGGTTTCAGGACTGATCCTTCCAGATCTTCCTCCTATCGAGTTTGAGAAAAATTACCAGCAGATTTTAAAACAGTATAACCTTAATTTCACCTTTCTGGTCACTCCGGAAACTTCTGATGAAAGAATGATCTACCTGGATTCTTTAAGCTCAGGATTTCTGTATGCCGTAAGCTCTTCTTCCACCACCGGGAATGAAAATGCAGTTGTAAAAAATGAGAACTACCTTTCCAGGGTAGCATCTCTTCCGCTTAAAAATCCAGTGATGATCGGATTCGGAATTAAGTCAAAAGAAGATTTTGAAAATGTAACCGAAAAAGCAGATGGCGGAATCATCGGGACAGCCTTTGTGAATGTTCTGCTTCAGGATAGAGACTGGAAGAAAAGCGCTATAGATTTTATCCATTCCATAAAAGGGTAA	MKKLNIYFTAGIPQLEDTADIIKLIQDSGADMIEIGMPYSDPVADGPVIQKAHELALQNGMTIEKLLSQLKAIKDEIRIPIILMGYINPVLSFGFEKFCAACAESGVSGLILPDLPPIEFEKNYQQILKQYNLNFTFLVTPETSDERMIYLDSLSSGFLYAVSSSSTTGNENAVVKNENYLSRVASLPLKNPVMIGFGIKSKEDFENVTEKADGGIIGTAFVNVLLQDRDWKKSAIDFIHSIKG	PGPT0007070_4418	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
BMS003_00071	1179	trpB	COG0133	Tryptophan synthase beta chain	ATGAATTATAAAAACCCCGATGAAAACGGATATTATGGAGAGTTTGGAGGTGCTTTTATCCCCGAAATGCTCTATCCTAATGTAGAAGAACTGCAAAAAAATTATCTTGAAATCATAGAGTCTGAAGGTTTTCAGGCTGAATATCAGGATTTACTGAAAAACTATGTTGGGCGTGCTACTCCTTTATATTTTGCTAAAAATCTAAGTGATAAATATAAAACTCAAATTTACTTAAAGCGGGAAGACCTCAACCATACCGGAGCTCATAAGATCAATAATGCGCTGGGACAGGTTCTATTGGCCAAGCGTCTTGGAAAAACAAGGATTATTGCTGAAACCGGAGCAGGACAACACGGTGTTGCTACTGCTACAGCCTGCGCCTTATTAGGTCTTGAATGTATTGTCTACATGGGAGAAATTGATATCCAGAGACAAGCTCCCAACGTAGCAAGAATGAAAATGCTGGGTGCAGAAGTGGTAGCAGCTACCTCAGGTTCAAAAACGCTAAAAGATGCTGTAAATGAAGCATTAAGAGACTGGATCAACAATCCTGTGACGACTCATTATGTGATTGGAAGTGTGGTAGGACCTCATCCTTTTCCTGATTTGGTGGCAAGATTTCAAAGTATTATTTCAAAAGAAATTAAGGAGCAGCTTCAAGAGAAAACCGGAAGAGAAAACCCGGATTATGTGATTGCCTGTGTAGGTGGGGGAAGTAATGCAGCAGGGACTTTTTATCATTTTGTGGAAGAAAAAGAGGTAAAAATCATTGCTGCTGAAGCCGGAGGGCTAGGAATAGATTCCGGAAAATCTGCGGCCACTACATTTTTAGGAACTCTGGGTGTACTTCACGGTAGCAAAAGCCTTGTGATGCAGACGGAAGACGGACAGGTTATAGAACCTCATTCTATTTCCGCAGGATTAGATTATCCAGGAATAGGCCCTTTTCATGCCCATTTATTCAAAGAAAAAAGAGCAGAATTCTTTAGTATTAATGATGAAGAAGCTTTAAAATGTGCTTTTGACCTTACTAAACTGGAAGGAATCATTCCGGCACTGGAAAGTTCACATGCGCTGGCAGTTTTAGACAAGAAAAAATTTAATGAAAACGATGTTGTAGTCATTTGTCTGAGCGGCCGTGGAGATAAGGATATGGAAACATATCTCAAAAATTTGTAA	MNYKNPDENGYYGEFGGAFIPEMLYPNVEELQKNYLEIIESEGFQAEYQDLLKNYVGRATPLYFAKNLSDKYKTQIYLKREDLNHTGAHKINNALGQVLLAKRLGKTRIIAETGAGQHGVATATACALLGLECIVYMGEIDIQRQAPNVARMKMLGAEVVAATSGSKTLKDAVNEALRDWINNPVTTHYVIGSVVGPHPFPDLVARFQSIISKEIKEQLQEKTGRENPDYVIACVGGGSNAAGTFYHFVEEKEVKIIAAEAGGLGIDSGKSAATTFLGTLGVLHGSKSLVMQTEDGQVIEPHSISAGLDYPGIGPFHAHLFKEKRAEFFSINDEEALKCAFDLTKLEGIIPALESSHALAVLDKKKFNENDVVVICLSGRGDKDMETYLKNL	PGPT0007075_4626	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
BMS003_00072	546			hypothetical protein	ATGAAATATCAGATAAAAGAAACGAAAGATCTAACAGAAGCTGAGATAAAACACATTCTTGAACTTTGGGATATTTCTGCCTGGAATACCATGAAGTCAGCTTATTTCCGGTCTTTTTTTAAAAATTCGGAATTTCATTTTCTGATGGATGCTCTTGAAAATATTCTGGCTATTATGAGGGTAAATTTTGATTTTACCTTAAAAATTGATGACACAAAATATAGTTTTGCAGAAGCCGTAGGACTTGTAGCAGCTCATAAAAAGAAAGGATATGGTGCTGCACTGGTTAAGAATTTTAAAGAAAATATTATCCTGAGAAATAGGGAAACGATTGGTTTCTGCCATGCGGACCTTCGTCCCTTTTATGAAAAATGTGATATAGAAATCCTCCCTGACAAAGCCAAAATGATCAAAGAAAGCATCGGCTCAGAGTGGGTGAATTCTGAAGATGATGATATTTTGATTTTTCATATTTCGCAGAAAGGAAAAGAACTGCTCAATCAGCTAAGTTCACAAAACAATGCTTATTTAATTATTAAAGAATAA	MKYQIKETKDLTEAEIKHILELWDISAWNTMKSAYFRSFFKNSEFHFLMDALENILAIMRVNFDFTLKIDDTKYSFAEAVGLVAAHKKKGYGAALVKNFKENIILRNRETIGFCHADLRPFYEKCDIEILPDKAKMIKESIGSEWVNSEDDDILIFHISQKGKELLNQLSSQNNAYLIIKE				NA	NA	NA	NA	NA
BMS003_00073	513			hypothetical protein	ATGATGAATATACATTTGCTAAGGAAGACATTTTATAAAACACTGTTTCCGCCTAAATTCGGAAATGAAAAAATTCAGGATCTGTACCATTTTGTTTCTCAAAACGATAACAATACAGAGCATTGGGAAGTGGGTGGATTATTAACAGAATTCATCAGCATCATTAAAGATTTTGAAGAAAGTGACATCCAGTATTTTTTTGAAAGGATTACTTTATGGAACAGCTATTATCTGGTTATTATTTCTGACAAATTTTTAGAAAACCATGTAAAATCAGTGATCAAATATGACTTAGGAAAGATTTATGCTAAAATATTTCTGCTGTATGAAGATACAGACCCCTATTTTCTGATTGACAACCTGGAAATCGCCATCACCATGTATCAGTCAAAAATAGATAAAGCAACCTTAATTGATTTAATGCACAAAATTGAATTACTGCATTATAAAAAACTGATTACCAAACAACAATATGATTACCACCTCACATTTATTAACAGCTTAAACCCATGA	MMNIHLLRKTFYKTLFPPKFGNEKIQDLYHFVSQNDNNTEHWEVGGLLTEFISIIKDFEESDIQYFFERITLWNSYYLVIISDKFLENHVKSVIKYDLGKIYAKIFLLYEDTDPYFLIDNLEIAITMYQSKIDKATLIDLMHKIELLHYKKLITKQQYDYHLTFINSLNP				NA	NA	NA	NA	NA
BMS003_00074	654	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAACCTGCAACCTCAACTCAAAGTCTGTGGTCTTACAAAAAAAGACCAGATTCAGGAACTGATTTCTATGAATGTAGATTTTCTCGGTTTCATTTTCTATGAAAAATCACCGAGATATGTTTTGAATCATCTGAGTCTGGAAGACATCTCCACTATTGATCACCAGGGAAAAGCAGGTGTGTTTGTGAATGAAGAAATAGGTGAAATTTTAAGTATTGTTCAACAGGCGGATTTGAATTTCGTACAGCTTCATGGTGATGAAAGTAGTGATTTTATTACTGAATTAAGACAAAAGCTAAATCCAGAAGTCGGGATTATCAAAGTAATAAGAGTCGGAAATAATGATGATGACAACAAAGATAAGTTAGCCCAAACTTTTTCCTCCAACCTTCAACCTATTACCTATTATCTGTTTGATACCGACAGCAAAGCCTTTGGAGGAACGGGAAAACAATTCGACTGGAATATCCTGAATGAATTTGAAATCCCTCTTCCCTACTTTCTAAGCGGTGGTATTTCTGAGGAAAATATCGGGAATATTAAAACATTGCGGCAACAGCCTTTCGCTTTGGATATCAATTCAAAATTTGAAACAGAACTCGGAAATAAAAATATTGACAGAATAAAAAAATTCAAAGCTTTATATCAGTAA	MNLQPQLKVCGLTKKDQIQELISMNVDFLGFIFYEKSPRYVLNHLSLEDISTIDHQGKAGVFVNEEIGEILSIVQQADLNFVQLHGDESSDFITELRQKLNPEVGIIKVIRVGNNDDDNKDKLAQTFSSNLQPITYYLFDTDSKAFGGTGKQFDWNILNEFEIPLPYFLSGGISEENIGNIKTLRQQPFALDINSKFETELGNKNIDRIKKFKALYQ	PGPT0007115_783	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
BMS003_00075	774	trpC	COG0134	Indole-3-glycerol phosphate synthase	ATGACCATACTGGATAAAATTATTGAACGAAAAAAAGAGGAAGTTGCCGCAGCAAAATCAAGCATTTCTCTAAACCAATTAAAAGACACGGCTTTTTTTGGAAGACCAACCTGTTCTCTGAAAGAATCCATCAAAAATAAAAGCGGAATTATCGCTGAGTTTAAAAGACAGTCGCCTTCAAAAGGAATTATCAATAATAGTGTAGAGCCTTTAGAAGTAGTTTCTGCTTACGAAAATTTTGGAGCCAGCGGAATTTCTATCCTGACTGACCTTGACTTCTTCGGAGGAAACTTAAATGATATTCTAGCGGTAAGAAATGAAATTAACATTCCGATTCTGCGAAAAGATTTCATGATTGATGAATACCAGTTTTATGAAGCTAAAAGTATAGGTGCGGATGTTGTTCTATTGATTGCCTCATGCCTTTCACCAACTCAGGTACAGGAATTTACAGAACTCGCTCATGATCTGAAATTGGAAGTTTTGCTGGAAATTCATACAGAAGATGAACTGATGCATTTCAATTCAAAAATCGACTTGGTAGGAATCAATAACAGGAATCTTAAAGATTTTAAAGTAGACTTACAGCATTCTGTTCAGTTGAAAAACCAGCTTCCGAAAGAAGTTTTGTCCGTTGCAGAAAGCGGCATTTACAGTCTTGAAGACTTTACATTTTTAAAAGAAAAAGGATTTGACGGTTTCCTGATGGGAGAATATTTCATGAAAAATACCAATCCGGCTAAAGCTTTTGAAGAATTTTCTTCTCAAATTTAA	MTILDKIIERKKEEVAAAKSSISLNQLKDTAFFGRPTCSLKESIKNKSGIIAEFKRQSPSKGIINNSVEPLEVVSAYENFGASGISILTDLDFFGGNLNDILAVRNEINIPILRKDFMIDEYQFYEAKSIGADVVLLIASCLSPTQVQEFTELAHDLKLEVLLEIHTEDELMHFNSKIDLVGINNRNLKDFKVDLQHSVQLKNQLPKEVLSVAESGIYSLEDFTFLKEKGFDGFLMGEYFMKNTNPAKAFEEFSSQI	PGPT0007080_3578	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
BMS003_00076	1032	trpD	COG0547	Anthranilate phosphoribosyltransferase	ATGAACACCTTAGAAATCCCTTCAACAACTATAAAAACACCACAAATGAAAGAAATATTACAATACCTGTTCAATCATAACACACTCTCAAAATCTGAAGCAAAAGCAATGATGATTGAGATTGCACAGAATAAATTCAACGCTGCGGAAGTTACGGCATTCATGAGTGTTTTCCTGATGCGGAATATCACACTGAAAGAACTGGAAGGCTTCAGAGAAGCATTATTACAAATGGCTGTTTCTGTAAATATTGATGCCAGTGATGCCATCGATATTGTAGGAACCGGAGGTGACGGAAAAGATACCATCAATATCTCAACACTGGCAAGTTTTGTAGTTGCCGGAGCCGGACAGAAGGTAACCAAACATGGAAATTACGGAGCTTCCACAACTACAGGCTCATCTAATGTACTGGAAGAACTGGGTTATCAGTTTAAAAACAATTCAGAACAATTGAATGAAGATCTTGAAAGAGCCAACATCTGCTTTTTGCATGCTCCTCATTTTCACCCTGCACTGCAATCGGTTGGATTATTGAGAAAGTCTCTGGGATTAAGAACGTTCTTTAATCTTTTGGGACCATTAGTAAATCCGGCAAAACCCAAATATTCAATGATTGGGGTTTATAATCTGGAAATTGCAAGAATTTATCAGTATCTCCTTCAAAAAGAGGAACGCGAGTTTATGCTGGTACATGGTCTTGACGGGTATGATGAAATAAGCCTTACGGACGACAGCAAAATCATCACAAAAAATGGTGAAGAAATCTATTCTGCGGAAGATTTAGGCTTCAATCCTGTAACGTTGGAAGATATTAAAGCAGGAAGCTCTATTCAGGAAACAGCAAAAATATTTATGAATATTTTAGAAGGAAAAGGTACGGAACAACAGAACTCTGTCATTCTGGCCAACGCTTCAGTAGCCCTTTATAATACGCAGAAATTCGGGAGTTATGAAGACTGTCTTCTGCTGGCTAAAGAAAGTCTGCAAAGCGGAAAAGCATTGAATAGTTTTAATCTTTTAATTAATTAG	MNTLEIPSTTIKTPQMKEILQYLFNHNTLSKSEAKAMMIEIAQNKFNAAEVTAFMSVFLMRNITLKELEGFREALLQMAVSVNIDASDAIDIVGTGGDGKDTINISTLASFVVAGAGQKVTKHGNYGASTTTGSSNVLEELGYQFKNNSEQLNEDLERANICFLHAPHFHPALQSVGLLRKSLGLRTFFNLLGPLVNPAKPKYSMIGVYNLEIARIYQYLLQKEEREFMLVHGLDGYDEISLTDDSKIITKNGEEIYSAEDLGFNPVTLEDIKAGSSIQETAKIFMNILEGKGTEQQNSVILANASVALYNTQKFGSYEDCLLLAKESLQSGKALNSFNLLIN	PGPT0007090_2147	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
BMS003_00077	603	pabA	COG0512	Aminodeoxychorismate synthase component 2	ATGAACAACAATATAAACACCCAGCAACCACAGCTTAAAGTTCTCGTTTTTGATAACTATGACAGCTTCACGTATAACCTTGTCCAGATTATTGAAAAAATTATGAATCAAAGAGTGGATGTGGTAAGAAATGATCAAATTACCCTTGAAGAGATTGGAAAATATGATAAAATTATTCTTTCTCCCGGTCCCGGAATTCCTGAAGAAGCAGGTATTTTATTAGACCTTATTAAAGAATATGCTCCTTCAAAAAGCATCCTTGGTGTATGCCTTGGGCAGCAGGCCATTGCAGAAGCTTTCGGAGGAAGTCTGATTAATCTTTCTGAAATTTTCCATGGAGTAGCCACCACTGCTGAAATTGTAAAAGAAAACACCAAAATTTTCAAAGATTTACATTCAGGACTGGAAGTGGGAAGATACCACAGCTGGGCAGTAAACCCGGAAGGTTTCCCGGAAGAACTGGAAATCACCGCTGTAGATAAAGACGGAATGATCATGGCTTTGCAGCACAAAACCTATGATGTACACGGAGTACAGTTTCACCCTGAAAGCATTTTAACGCCGGAAGGAGAAGTAATCATTAAAAACTTTCTGTTGTCATGA	MNNNINTQQPQLKVLVFDNYDSFTYNLVQIIEKIMNQRVDVVRNDQITLEEIGKYDKIILSPGPGIPEEAGILLDLIKEYAPSKSILGVCLGQQAIAEAFGGSLINLSEIFHGVATTAEIVKENTKIFKDLHSGLEVGRYHSWAVNPEGFPEELEITAVDKDGMIMALQHKTYDVHGVQFHPESILTPEGEVIIKNFLLS	PGPT0007105_1035	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
BMS003_00078	1425	trpE	COG0147	Anthranilate synthase component 1	ATGTTGACCAACACAATTACAATAAAAACGGTTTCGAAAAAAACACTGGGAGACCTTCATACTCCGATGAATATTTACCTTAAGATCAGGGATAAATTCCGTGATACCATTCTTCTGGAAAGTTCGGATTCAAAAAGTATTGATAATAATTTTTCCTTTATTGCGGTAAATGCTATTGCAGGAATTGAAGTGAAAAACCTTGATGAATTTGAAATTAAACTTCCAGCTTCCGCCCCAGTAAAGCAATCTATTAATGACCAAAAGATTACAGATATATTTGAAAACTTCAGAAATATTTTTAAATGTGAGAAAACCAATGATCCTATAGAGCAGACGGCACAGAGTCTTTTTGGATATACAAGTTTTGAAGCGGTACAGTTTTTTGAAAACGTTAATCTTAAACCACAGAGCAAGGAAGTTGAAATTCCTGTGATGAGATACAGATTGTACCAATATGTAATTGCAATCAATCATTTCAATGATGAAATGCATATCATTGAAAACTTCATTGATGGGGTAAAATCTGAACTTCATCTTTTGGAAAATCTTATTAAAAATCAGAATACTCCGGTTTATCCTTTCGAAAAAACGAGTGAGGAAACCTCTAATATTACCGATGAAGATTATCTTGAACTGGTAAAAACAGCCCAGAAACACTGTATGCGCGGGGATGTCTTCCAATTGGTTCTGAGCAGAAGATTTGAGCAGAAATTCAAAGGAGATGAGTTCAATGTATACCGTGCTTTGAGAAACATCAATCCTTCTCCTTACCTATTCTATTTTGATTACGGAAATTATAAATTATTCGGATCAAGCCCTGAAAGCCAATTAATTATAAAAAACAACAAAGCAATTATTCACCCGATTGCCGGAACATCCAAAAGAACAGGAAACTTTGAAGCTGATCTTGAAGCTATTGAGATTTTAAAAGCTGATCCTAAAGAAAATGCGGAACATACCATGCTGGTAGACCTGGCAAGAAACGATCTTGGAAAACTCGGGAAAAACGTAACGGTTACTAAACTTAAGGAAATCCAACTGTTCTCTCACGTTATTCATATGGTAAGTGAAGTGACGGCAGATGTTGAAGACAATATTAATCCTCTTGAAATGGTTTCTGCCACTTTCCCTCAGGGAACGCTGAGCGGTGCGCCTAAGCATAAAGCACTTCAGCTGATCAATCAATACGAGAAAGATTCCCGCGGATATTATGGCGGCTGTATAGGAATTATCGGATTGAACGGAACCTGTAACCAAGCCATCATGATCAGAACATTCTTAAGCAAAAACAATACTTTATTTTATCAGGCCGGTGCCGGACTTGTTGCTAAATCTGTCCCTGAAAGCGAATTGCAGGAAGTCAACAACAAACTGAATGCATTGAAAAAAGCCGTAGAAAAAGCAGAAAAAATAGTTGAAAAATAA	MLTNTITIKTVSKKTLGDLHTPMNIYLKIRDKFRDTILLESSDSKSIDNNFSFIAVNAIAGIEVKNLDEFEIKLPASAPVKQSINDQKITDIFENFRNIFKCEKTNDPIEQTAQSLFGYTSFEAVQFFENVNLKPQSKEVEIPVMRYRLYQYVIAINHFNDEMHIIENFIDGVKSELHLLENLIKNQNTPVYPFEKTSEETSNITDEDYLELVKTAQKHCMRGDVFQLVLSRRFEQKFKGDEFNVYRALRNINPSPYLFYFDYGNYKLFGSSPESQLIIKNNKAIIHPIAGTSKRTGNFEADLEAIEILKADPKENAEHTMLVDLARNDLGKLGKNVTVTKLKEIQLFSHVIHMVSEVTADVEDNINPLEMVSATFPQGTLSGAPKHKALQLINQYEKDSRGYYGGCIGIIGLNGTCNQAIMIRTFLSKNNTLFYQAGAGLVAKSVPESELQEVNNKLNALKKAVEKAEKIVEK	PGPT0007095_3950	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
BMS003_00079	219			hypothetical protein	ATGGTCATTCTCTATAATCAGTCTGATGAAGAGCAGGTTAATCTTAAGTATTCAAAACTGACTCCAGTGAATTCTGTCGGAATCAAATATGAAGCAAATAAAACAAATAAGGAGCTCATAGAAGAATATATTTTGCTCTGGAAAATTATGCAGAATATGATGATGATCAAACTTACAAAGAAAAATCAGGGAATTAAAACAGGAGCTCAAGTAGCTTAG	MVILYNQSDEEQVNLKYSKLTPVNSVGIKYEANKTNKELIEEYILLWKIMQNMMMIKLTKKNQGIKTGAQVA				NA	NA	NA	NA	NA
BMS003_00080	462			hypothetical protein	ATGAGTCTTACAACTAAAAAAAATTTATTAAGTATAGCTTTCTCTGCTGTACTCTTTTCACTTATTATCTCTTGTGATAATTCGTCCAACGAACCACAGTCAGAATATTCTGATAAAATTGAATCGGTGACCTTATTAAAAACAACAAAATCTTGGGACGGAACTTTATATCCGGCCTATCCTACTACACAGCCGGAAATTTCGGTTCTAAAAATTGCCGTACCTCCCAATAAAGCCTTAGACTGGCATAAGCATCCCGCTATTAATGCAGCTTATGTAGAAAAAGGTGAAATTCAGGTGGAAAGAAAAGAAGACGGCAAAACACAATGGATTCGTAAAGGTCAGGTACTGCCGGAAATGGTGAATGTAGGCCACCGAGGGAAAACCGGAGACAAAGGAGTCACCTTAATTGTTTTCTACAGCGGAACTCCTGATATTCCTTTGTCTGAACCAGTACAATAA	MSLTTKKNLLSIAFSAVLFSLIISCDNSSNEPQSEYSDKIESVTLLKTTKSWDGTLYPAYPTTQPEISVLKIAVPPNKALDWHKHPAINAAYVEKGEIQVERKEDGKTQWIRKGQVLPEMVNVGHRGKTGDKGVTLIVFYSGTPDIPLSEPVQ				NA	NA	NA	NA	NA
BMS003_00081	198			hypothetical protein	ATGAAAAAAGTATTAGCAATCGCATTTATCGGAGGTTTATTATTAGCAAGCTGTTCAAAAAAAGTTGATCACTCTTTACAGGATAGTAACACTATGCTTGAAGAACCAGAAGTAGCTACTGTTGATTCTACAGCTAAAACTGCTGCTCCAGCTGTTGCAACTCCCGCTGCTAAAACAGATTCTACAGCGAAGAAATAA	MKKVLAIAFIGGLLLASCSKKVDHSLQDSNTMLEEPEVATVDSTAKTAAPAVATPAAKTDSTAKK				NA	NA	NA	NA	NA
BMS003_00082	375			hypothetical protein	ATGAAAAAAATACTTTTAGCAGGAGTTCTTGGTATTATGATCATTTCCTGTTCTAAAAAAGAAAATACAGCAGAAGTGGCGTCTTCTTCTGAAACTACTGTTGTTTCAGAACCTGCTAAATCTAATCTTTCAGGTGATCAGATCATGGAAACATTAGATTGCTCTGGATGCCATGCTGTTAATGAGAGAATGATAGGACCTTCTTATAAGGAAATCGCAGGAAAGTATTCTGAAAAGGATACAGAACTGCTGGCTTCCAAAATTATAGAAGGCGGAAGTGGAGTATGGGGAAGTGTGCCAATGGCTGCCCATCCACAGGTATCTAAAGAAGATGCCAAAAAAATGGTGGAATATATTCTAAGTCAGAAGAAATAA	MKKILLAGVLGIMIISCSKKENTAEVASSSETTVVSEPAKSNLSGDQIMETLDCSGCHAVNERMIGPSYKEIAGKYSEKDTELLASKIIEGGSGVWGSVPMAAHPQVSKEDAKKMVEYILSQKK	PGPT0004005_2662	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS003_00083	930	rlmF	COG3129	Ribosomal RNA large subunit methyltransferase F	ATGTCCGCTGAAAAATCCAGTCTGCACACAAGAAATCTGCATCGTAATCCCTATGATTTTGATCAGCTTATTTCTTGTGTGCCGGAACTGAAACATTATGTTTTCGTGAATGCTTACCACACGGTAACCATCAATTTCAGCATTCCAAAAGCAGTTAAGCTGCTCAATAAAGCCCTACTCTTACATTTCTATAACATTAAAGGCTGGGAGATTCCAGATACAAATCTTTGTCCACCCATTCCGGGAAGAGCAGATTATGTACATTATATCGCCGATCTTTTAGCTGAACAGTTTGATGAAATTCCGAAAGGGAATTCTGTAAAAGGTCTGGATATAGGAACAGGAGCTAATCTTGTCTATCCTTTAATCAGTCATAAATCGTATGGCTGGAAGATGCTGGGTACAGATATCAATCAGGATTCTTTGAAAAATGCTCAGCATATTCTGGATCAAAACGAAGATTTATCATCTGTTATTCAGTTAAAAAGTCAACCGGAAGCTGATCATATTTTTACGAATATTATTAATTCTGACGACAGATTTAGTTTCACTATGTGTAATCCTCCTTTTCATGATTCTGAAGAATCTGCCATGAAAGAGAATATGAGGAAAACAAAAAATCTTAATAAGTCAAAGAAAGCCAAACCCCTTCTTAACTTTAGTGGTCAGCAGTCTGAGCTTTGGTGTGAAGGTGGTGAATTAGCTTTTATTACAAAGATGATCAATGAAAGTGCATTATTTTCATCACAGATTCTTTGGTTCACATGTCTGGTTTCCAAAAAAGACAATCTCAATAAACTAATCCATCTTTTAAAGAAAATAAAAGCTATAGAAGTGAAAACCATTGATATGGCTCAGGGACAAAAAGTAAGCAGAATGCTTGCGTGGACGTTTATTCCTAAAAAGGACAGGAAAATCTGGTTTATTTAA	MSAEKSSLHTRNLHRNPYDFDQLISCVPELKHYVFVNAYHTVTINFSIPKAVKLLNKALLLHFYNIKGWEIPDTNLCPPIPGRADYVHYIADLLAEQFDEIPKGNSVKGLDIGTGANLVYPLISHKSYGWKMLGTDINQDSLKNAQHILDQNEDLSSVIQLKSQPEADHIFTNIINSDDRFSFTMCNPPFHDSEESAMKENMRKTKNLNKSKKAKPLLNFSGQQSELWCEGGELAFITKMINESALFSSQILWFTCLVSKKDNLNKLIHLLKKIKAIEVKTIDMAQGQKVSRMLAWTFIPKKDRKIWFI				NA	NA	NA	NA	NA
BMS003_00084	1695	lysU	COG1190	Lysine--tRNA ligase, heat inducible	ATGCAATTATCAGAACAAGAAATCATTAGAAGAGAAAAGCTGAATAAGCTTACTGAAATGGGGATTAATGCGTTCCCTGCGGATGAGTATATAATTACAGATACTACAGAATCTATAAAACAGGACTTTTCTGAAAGTAAACAGGTGAAGATCGCTGGTAGATTGATGTCCCGCAGAATTCAGGGGAAGGCTTCTTTCGCAGAATTGCAGGATTCTAAAGGAAAAATTCAGGTTTACTTCAACAGGGATGAGATCTGTCCGGGTGAAGATAAAGAACTATATAACGAAGTATATAAGCACCTTTTGGATATTGGTGATATTATCGGTATCGAAGGAGAATTGTTTACGACTCAGGTAGGAGAGAAGACGGTTTTGGTAAAAAACTTTACACTTCTTACCAAGGCTTTACGTCCTCTTCCTCAGGCAAAAACTGATGAGAATGGAGTTGTGCACGACGGATTTACAGATCCTGAATTGAGATACAGACAGCGTTATGTAGATTTAACCGTAAATCCACAGGTAAAAGAAATTTTCGTGAAGAGAACAAAACTGTTCAATGCCATGAGAACATTCTTTAATGATGCAGGATATTTTGAAGTGGAAACACCAATTCTACAGTCAATTCCTGGTGGAGCAGCAGCAAAACCGTTTATCACGCACCACAATGCGTTAGATATTCCATTATATTTAAGAATTGCCAACGAATTATATTTGAAAAGACTGATCGTAGGTGGTTTTGACGGAGTATACGAGTTCTCTAAAAACTTCAGAAATGAAGGAATGGACAGAACGCACAACCCGGAATTTACAGCGATGGAAATCTATGTAGCGTACAAAGATTACAACTGGATGATGGATTTCACTGAGAAATTACTGGAATTCTGTGCTATTCAGGTAAACGGAACTACAAAAGCCACATTTGGTGAGCATGAGGTAGATTTCAAAGCGCCATATCCAAGAGTTTCCATGACAGAGGCGATCCTTAAATTTACAGGGTTCGATATCACTGGAAAAACCGAGCAGGAATTATATGATTTCGCGAAATCTATCGGTATTGAAGTAAATGAGACGATGGGTAAAGGAAAACTGATTGATGAGATCTTTGGTGAAAAATGCGAAGGAAACTTCATTCAGCCGACTTTCATTACAGATTACCCGATCGAAATGTCTCCACTGACAAAAAAACACAGAAGCAAAGAGGGCTTAACAGAGCGTTTTGAATTAATGGTATGCGGTAAAGAAATCGCAAACGCATATTCAGAGCTTAACGATCCTATCGATCAGAGAGAACGTTTTGAAGCACAGATGGCGTTATCTGAAAGGGGAGATGATGAAGCCATGTTCATCGATCAGGACTTCTTAAGAGCACTGGAATACGGTATGCCACCAACTTCAGGATTAGGCATCGGTATGGACAGATTAATCATGTTCTTAACGAATAATGCATCAATTCAGGAAGTATTATTCTTCCCTCAGATGAGACCTGAAAAAGCGGTTCCACAAATTGAATTGGGAGAGGATGAACATACTATTCTTGATATTTTGAAATCAGGTGAGCAGTTTCCTCTAAGTGAAGTGAAAGAAAAGTCTAAACTTTCCGGTAAAAAATGGGATAAAGCTTCCAAAACTTTGACAAAAAATAATATTGTGAAAGTAGAGAAAATTAAAGAAAATCTTTTGATGAAATTGGCTTAA	MQLSEQEIIRREKLNKLTEMGINAFPADEYIITDTTESIKQDFSESKQVKIAGRLMSRRIQGKASFAELQDSKGKIQVYFNRDEICPGEDKELYNEVYKHLLDIGDIIGIEGELFTTQVGEKTVLVKNFTLLTKALRPLPQAKTDENGVVHDGFTDPELRYRQRYVDLTVNPQVKEIFVKRTKLFNAMRTFFNDAGYFEVETPILQSIPGGAAAKPFITHHNALDIPLYLRIANELYLKRLIVGGFDGVYEFSKNFRNEGMDRTHNPEFTAMEIYVAYKDYNWMMDFTEKLLEFCAIQVNGTTKATFGEHEVDFKAPYPRVSMTEAILKFTGFDITGKTEQELYDFAKSIGIEVNETMGKGKLIDEIFGEKCEGNFIQPTFITDYPIEMSPLTKKHRSKEGLTERFELMVCGKEIANAYSELNDPIDQRERFEAQMALSERGDDEAMFIDQDFLRALEYGMPPTSGLGIGMDRLIMFLTNNASIQEVLFFPQMRPEKAVPQIELGEDEHTILDILKSGEQFPLSEVKEKSKLSGKKWDKASKTLTKNNIVKVEKIKENLLMKLA	PGPT0012225_1553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS003_00085	1005			hypothetical protein	ATGATCTACGTTGTAATAGGTTTTCTCTGGCTTTCCATATGCCTTTATATTATCCTGGGAGGAGCAGATTTCGGAGCCGGAATTGTGGAACTCTTCACCAATAAAAAAGCCAGAAATAAGACCCAGGAAATCATGTATGAATCCATAGCTCCTGTATGGGAAGCCAATCATATGTGGCTCATCATTGCGATTGTAATTCTCTTTGTAGGGTTTCCCGAGATTTACACCACCATGTCTACCTATCTTCATATTCCCCTGGTTTTGATGCTTTTGGGAATTATTGCGAGAGGAACAGCCTTTACCTTCAGACATTATGATGCTGTAAAGGATAACTGGCAGGTTTTATATACTCAGATCTTCTACTATGCCAGTCTTTTGACTCCTTTCTTTTTGGGATTAATAGCAGCAGCTACGGTTTCACATTCAATCAATCCTGATGCGGTAGGTTTTCTGGATCTGTACGTGTTCAGCTGGCTGAACTGGTTTGGAGTTTCAGTAGGCTTATTTACGGTTGCGCTTTGTGCTTATCTTGCTTCTATTTTTTCATTAAGAGAAACCCGTGACAAGGCTGATCTTTTATTAATGATCAGAAAATCCAAACAGACGATGATCTTTGTTGTCATTACAGGTATTTTGGTATTCGTAACCGCCTATATTTCAGATATTCCTCTTTTGATGTGGGTATTTTCTAAGCCTTTGGGGATTATGTCCATTGCTTTTGCTACAGTTGCTTTATTGCTTATTTTAAGAGCAATGAACCGTCAAAAGCTCCTCCCTGTACGTGCATTGGCAGGATTCCAGATCGTGATGATTTTAGTGGCAGCAACGTATCAGCATAATCCGAATATTATTTTATTAGGAAACGGACAGCATCTTTCATTGCTGGAACATATGGCTCCTCCAAAAACTATTGCGGCATTAGGATGGGCTTTGATGCTGGGCTCTTTATTTATTCTTCCTTTCTTATTTTACCTGATGGCTTCTTTCAGTAAGTTGAGAAAATAG	MIYVVIGFLWLSICLYIILGGADFGAGIVELFTNKKARNKTQEIMYESIAPVWEANHMWLIIAIVILFVGFPEIYTTMSTYLHIPLVLMLLGIIARGTAFTFRHYDAVKDNWQVLYTQIFYYASLLTPFFLGLIAAATVSHSINPDAVGFLDLYVFSWLNWFGVSVGLFTVALCAYLASIFSLRETRDKADLLLMIRKSKQTMIFVVITGILVFVTAYISDIPLLMWVFSKPLGIMSIAFATVALLLILRAMNRQKLLPVRALAGFQIVMILVAATYQHNPNIILLGNGQHLSLLEHMAPPKTIAALGWALMLGSLFILPFLFYLMASFSKLRK	PGPT0026705_4152	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
BMS003_00086	1344	ythA	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGGATGATTTTATAGCAGCACGCGCTCAGATGGCACTTTCTCTGGGCTTTCATATCATATTCTCCTGTGTGGGTATGGTGATGCCTTTTCTGATGGCTTTTGCCCATTGGAAATATCTAAAGACCAATAATGAAGTATACAAAGGACTTACAAAAGCCTGGAGCAAAGGAGTGGCCATTCTTTTTGCTACGGGTGCTGTTTCAGGAACCATGCTTTCTTTTGAACTAGGCCTTTTATGGCCAGGTTTTATGAAACATGCAGGTCCTATTTTCGGAATGCCGTTTTCTTTGGAAGGAACAGCTTTTTTCATCGAAGCTATTGCTATCGGGTTCTTTTTATATGGGTGGGAAAGATTCAATAAATGGTTTCACTGGTTCTGCGGATTTCTTGTAGGAGTGAGCGGGCTTGCTTCCGGAATTCTGGTGGTAGCCGCCAATTCATGGATGAACTCTCCTACCGGTTTCGATTATATCAATGGACAGTATCTTAATATAGATCCTATCAAAGCAATGTTCAATGATGCGTGGTTTCCGCAGGCGCTTCACATGACGGTTGCTGCATTTTGTGCCACGGGATTTGCCGTAGCCGGAGTACATGCTTTTATGATCATGCGAAAAAGAAATATTGAGTTTCATACCAAAGCGTTTAGAATTGCGGTAGGTTTTGCTTTGATCGGTGCATTCGGAGCACCTTTAAGTGGGGATGTTGCTGCAAAATCGGTAGCAGAAAGACAACCAATCAAATTAGCGGCTATGGAAGCTCATTTTGAAACTGAAAAAGGGGCTTCATTTGTGATCGGGGGAATTCCTGATGAGGAAAAAGAAGAGGTGAAATATGCAGTGAAAATTCCAAAGGTTTTAAGTTTTCTGGTAAGTAATGATTTCAATTCGGAAGTAAAAGGTCTTAAGGATTTCCCGAGAGATGAGTGGCCTCCTATTGCGGTTACGCATTATGCTTTTCAGATCATGATCTTCTTCGGAGTGGTGATGATTGGCATTGGAGCTGTTTATTTATATGCTTTCTTCTTCAGAAAGGAGTGGCTGAATAAAAACTGGCTGTTAAAGACCTTTTTAATAGCAACACCTTTCGGATATATCGCATTGGAAGCCGGATGGACAGTGACAGAAGTCGGAAGGCAGCCATGGATCATTTACGGAATTATGAGAACTGTAGATGCTGTGACTCCAATGCCGGGAATACAGTATTCTTTCTATTTCTTTACAGCTATTTTCATCTCATTATCCTTAATTCTTGTTTTCCTTTTAAAAAGACAGATCCAAATGGTACCGAAACTTTATGACCCTACCGACTCTCAGTTTAACGATAAAAACAAAAAATCATGA	MDDFIAARAQMALSLGFHIIFSCVGMVMPFLMAFAHWKYLKTNNEVYKGLTKAWSKGVAILFATGAVSGTMLSFELGLLWPGFMKHAGPIFGMPFSLEGTAFFIEAIAIGFFLYGWERFNKWFHWFCGFLVGVSGLASGILVVAANSWMNSPTGFDYINGQYLNIDPIKAMFNDAWFPQALHMTVAAFCATGFAVAGVHAFMIMRKRNIEFHTKAFRIAVGFALIGAFGAPLSGDVAAKSVAERQPIKLAAMEAHFETEKGASFVIGGIPDEEKEEVKYAVKIPKVLSFLVSNDFNSEVKGLKDFPRDEWPPIAVTHYAFQIMIFFGVVMIGIGAVYLYAFFFRKEWLNKNWLLKTFLIATPFGYIALEAGWTVTEVGRQPWIIYGIMRTVDAVTPMPGIQYSFYFFTAIFISLSLILVFLLKRQIQMVPKLYDPTDSQFNDKNKKS	PGPT0026700_4593	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
BMS003_00087	1935	gyrB_1	COG0187	DNA gyrase subunit B	ATGAGTCAAAAACAATATACAGCTAGTAGTATTCAGGCATTGGAAGGAATGGAGCACGTTCGTATGCGTCCTTCAATGTACATTGGTGATGTAGGAGTCAGAGGGCTTCACCACTTGGTTTATGAAGTAGTAGATAACTCTATTGACGAGGCATTGGCAGGATACTGCGACACAATCTTCGTGAGCATCAAGGAAGGAAACGGAATTGAAGTAAGTGATAACGGTAGAGGTATCCCGGTTGATTTTCACGAAAAAGAGCAGAAATCTGCCCTTGAAGTAGTCATGACAAAAATTGGAGCCGGAGGTAAGTTTGACAAAGACTCTTATAAGGTTTCAGGAGGTCTTCACGGGGTTGGGGTTTCGTGTGTGAATGCACTTTCCAACGAGATGATCACTACTGTTTACAGAGACGGTAACGTTTACCAGCAGATTTATTCAAGAGGAAAAGCTCAGACAGGGGTAGAGGAGATCGGTCACAGCGAAAGAAGAGGAACCAAACAGTTTTTCCAGCCGGATGATACTATATTTACAGAATTAGTTTACAATTACGATACATTAGCCAACCGTTTAAGAGAACTTTCTTACCTTAATAAAGGAATTACCATTACATTAACAGATGAAAGGGAAAAATTAGAAGATGGATCTTTCCGTTCGGAAATGTTTCATTCAGAAGGAGGTTTAAAAGAATTTGTTGCTTATATCGACGGTAACCGTGAATCTATCATGGAACACGTGATCTTCATGGAAGGAGAAAGAGATGATATTCCTGTAGAAGTGGCAATGCGTTACAATACATCTTTCAACGAGAATCTTCACTCTTACGTTAACAACATTAATACTCATGAAGGAGGAACTCACCTTGCAGGTTTCAGACGTGCATTAACGAGAACCCTTAAAAAATATGCTGATGATCTGGGCATTCCGCAGAAAGAAAAAGTGGAAATTACAGGAGATGACTTCCGTGAAGGGTTAACAGCGGTGGTTTCTGTAAAAGTAATGGAACCTCAGTTTGAAGGACAGACTAAAACGAAACTAGGAAACTCTGAAGTTTCCGGAGCAGTAGATAAAATTGTAGGGGAAATGCTTACTAATTTCCTTGAAGAGAATCCTACGGAAGCTAAACAGATTGTTCAGAAAGTTGTTTTGGCAGCGAAAGCAAGACAGGCAGCTAAAAAAGCACGTGAAATGGTTCAGAGAAAATCTCCAATGGGAGGTTCCGGTCTTCCGGGAAAATTATCTGACTGTTCATCTAAAGACCCTGCAGAATCTGAGATCTTCCTTGTAGAGGGAGATTCCGCAGGTGGAACAGCTAAGCAGGGAAGAGACAGACACTTCCAGGCTATTTTGCCATTAAGAGGTAAAATCCTGAATGTAGAGAAATCTATGCTTCATAAAGTTTATGATAACGAAGAAATCAGAAATATCTATACTGCTCTTGGAGTTTCTGTAGGAACAGAAGAAGACAGTAAAGCACTTAACCTAGCGAAACTAAGATACCATAAGATCGTTATCATGACCGATGCCGATATTGACGGATCTCACATTTCTACACTGATCCTTACTTTCTTCTTCAGATATATGAAGGAACTTATTGAGAACGGATATATCTACATCGCTCAGCCACCTTTGTATCTGTTAAAGAAAGGAAACAAAAAAGTATATGCCTATAACGAGAAAGAGCGTGAAGAATTTACTTTGGATATGTCTCCGGATGGTAAAGGAGTAGAAGTACAGCGTTACAAAGGTCTTGGAGAAATGAACCCTGAGCAGCTTTGGGAAACTACCCTTAATCCTGAACACAGAATTCTGAAGCAGGTAACCATTGATAATGCAGTGGAGGCAGACAGTATTTTCTCAATGTTGATGGGAGATGAAGTTCCGCCAAGAAGAGAGTTTATCGAGAAAAATGCAAAATATGCAAAAATTGATGCATAA	MSQKQYTASSIQALEGMEHVRMRPSMYIGDVGVRGLHHLVYEVVDNSIDEALAGYCDTIFVSIKEGNGIEVSDNGRGIPVDFHEKEQKSALEVVMTKIGAGGKFDKDSYKVSGGLHGVGVSCVNALSNEMITTVYRDGNVYQQIYSRGKAQTGVEEIGHSERRGTKQFFQPDDTIFTELVYNYDTLANRLRELSYLNKGITITLTDEREKLEDGSFRSEMFHSEGGLKEFVAYIDGNRESIMEHVIFMEGERDDIPVEVAMRYNTSFNENLHSYVNNINTHEGGTHLAGFRRALTRTLKKYADDLGIPQKEKVEITGDDFREGLTAVVSVKVMEPQFEGQTKTKLGNSEVSGAVDKIVGEMLTNFLEENPTEAKQIVQKVVLAAKARQAAKKAREMVQRKSPMGGSGLPGKLSDCSSKDPAESEIFLVEGDSAGGTAKQGRDRHFQAILPLRGKILNVEKSMLHKVYDNEEIRNIYTALGVSVGTEEDSKALNLAKLRYHKIVIMTDADIDGSHISTLILTFFFRYMKELIENGYIYIAQPPLYLLKKGNKKVYAYNEKEREEFTLDMSPDGKGVEVQRYKGLGEMNPEQLWETTLNPEHRILKQVTIDNAVEADSIFSMLMGDEVPPRREFIEKNAKYAKIDA	PGPT0027710_1249	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
BMS003_00088	423			hypothetical protein	ATGTTAACTCTTTTACAAACAGACCCTTACAATGGGGCGGATTCGGTGTCTGGTGCAGCAGCTGCAGGATTAGGGATCGGAACTATGTTCTTCGGATTACTTTGCTATATTTTTTATGGATACTGTATGTACAAAATCTTTCAGAAAGCAGGAAGACAAGATGCATGGGCCGCCTTTATTCCCATTTATAATACAATTGTATTACTGGAAATAGTGAAAAAGCCAATATGGTGGATCATTCTTTTCTGTATTCCGTTGGTAAACATCTATGCATGCTGGGTAGTGTATGACAGGCTGGCCAAAGGTTTTTCCAAAGAAACCCCTCTGTACACTATTCTGATTCTATTTTTTGGGTTTATCTTTATTCCTGTACTGGGACTTGGAGGTGACCCATTTGATAGTAAGCTGATTCCGAATGATTAA	MLTLLQTDPYNGADSVSGAAAAGLGIGTMFFGLLCYIFYGYCMYKIFQKAGRQDAWAAFIPIYNTIVLLEIVKKPIWWIILFCIPLVNIYACWVVYDRLAKGFSKETPLYTILILFFGFIFIPVLGLGGDPFDSKLIPND				NA	NA	NA	NA	NA
BMS003_00089	1893			hypothetical protein	ATGATGAAAATAATAATCTTGGGGGCTCTCTCTACTGCCTCATTGTATTTCGCACAAAGCTATCCTGCTTCTGCAATTCCTGAAAATTTAAAGAAAAATGCAAATGTAGTTGTAAGAAAGGATTTCACTTCTGCTCAGATCAATAAAATTGATGAGATAAAGTACCAGTACAATACCGTTACTACAGTTTTAAATAAAGATGGTAACGAACAGGCAGTCATTTATATTCCTTATGATAAGCAAAGGCGTATTTCCAACTTAAAAGTTACAATTTACGATGAAGCCGGGAAGAAGATTAAAAGTATTTCAAAATCTGATTTTCAGGATGTAGCCAATAATCCCCAGGGAGTTTTTTACTCTGATAACAGAACTTTAGTATACTCATATACACCGGTTCAGTATCCATATACTGTGGATTTTTCTTATGAAACTAATGATGAAAATACAATTTTTATACCAGATTTTGTGCCTTTTACTTCGGTAAAAACATCCCTGGAAGAAGCTCAGTTTAAAATCATTAATAACTCCGGAATTGAACTTAGAACCAAAATCTATCCTTCAAAGTATAATTATGCATCTGTAATAGAAAGCGGTAGCGGGAATGATAAAACTTACACATACAAAAACGTACCTGCCATTGACGATGCTTTTATGATCCCACAGCCTGTTAAGATTCTGCCATCAGTCAACTTTGCTCTGGCAAAATTCAGTCTGGCCGGAAAACAAGGTACCCTGAATAACTGGAAAGACTTCGGAACCTGGATTTATAATGATCTTTTGGTTCCTGTTTCAACATCTACACCTGCCATTAAAGCTGAGGTTGCATCTTTGCAGCTACAAGGCTCTGTAGAAGACAAAGTAAAGAAAATCTATCAGTACATGCAGAACAAAAGCCGCTATATAGCTGTATCATTAGGAATAGGCGGATGGCAGCCTATGTTGCCGGATGAGGTTCAGAAAAAAGGGTATGGAGACTGTAAAGGGCTTACAAATTATATGAGAATTCTTTTGACCGAAGCGGGCATTCCCTCTACTTACTGTATCATCCATTCCAGCCGTTCGCAAGTTTCATTCGATCCTGAATTTCCGTCTATGGGGGGAAATCACGTTATTCTGATGGTTCCTACGGAAAAGGGAAATATCTGGCTTGAAAACACTTCTCAGCAAATTGCCTTTAACCATTTAAGTTACAGTACAACCGACAGAAATGTGCTGGCGGTTACCCAAAAAGGAATTGAGCTGATCAATACACCCACTTATAAAGCCGAGCAGAATAAAGAAAAACAGGCCTTGAAAATTAATCTTCAGGAGGATAACAGTATTATAGGAACAGGTAATTTTGCTTATACAGGAAATCAGTATGATTATAATTTAAGATTTTCTACTCTTAGTCCTAAGGAGAAAAATGATGCAGTGAAAAGGGTATTTGATGTTTTAAACTTCGAAAAGGTTGAAATGAAAAATTTTAATAATGACAGAGATAATGCGGTCATTACCTATGATCTGGACTTTAAAACTAATAATTTCTCTAAAAAAGCTGGAAATAGCCTTCTGTTCAGGTCTGTACCTATTTTTTCAGATGCTATTTATAAAACAGACGAAAGCCGCGAACTTCCGTTTGAAGTTAATATGTCTTTTGAAGATGAGTATGAAATTTCCTATATTCTTCCCAAAGGTTACAAAATTGATGAAACTCCTGACGACTCCAGCATTAGTTCAGAATTCGGCTCTTATAAACTAAGCTTCGTTAAAAGTGATGATCAGGTAAAAGTAATCAGGAAAATGCAGATAAATAAAGGATTATATCCGAAAGAAAAATACAACAACTACATAAGTTTCAGAAAAAAAATTCTGAACATGGATAATTCAAAAATCTTAATAACTAAAATATAA	MMKIIILGALSTASLYFAQSYPASAIPENLKKNANVVVRKDFTSAQINKIDEIKYQYNTVTTVLNKDGNEQAVIYIPYDKQRRISNLKVTIYDEAGKKIKSISKSDFQDVANNPQGVFYSDNRTLVYSYTPVQYPYTVDFSYETNDENTIFIPDFVPFTSVKTSLEEAQFKIINNSGIELRTKIYPSKYNYASVIESGSGNDKTYTYKNVPAIDDAFMIPQPVKILPSVNFALAKFSLAGKQGTLNNWKDFGTWIYNDLLVPVSTSTPAIKAEVASLQLQGSVEDKVKKIYQYMQNKSRYIAVSLGIGGWQPMLPDEVQKKGYGDCKGLTNYMRILLTEAGIPSTYCIIHSSRSQVSFDPEFPSMGGNHVILMVPTEKGNIWLENTSQQIAFNHLSYSTTDRNVLAVTQKGIELINTPTYKAEQNKEKQALKINLQEDNSIIGTGNFAYTGNQYDYNLRFSTLSPKEKNDAVKRVFDVLNFEKVEMKNFNNDRDNAVITYDLDFKTNNFSKKAGNSLLFRSVPIFSDAIYKTDESRELPFEVNMSFEDEYEISYILPKGYKIDETPDDSSISSEFGSYKLSFVKSDDQVKVIRKMQINKGLYPKEKYNNYISFRKKILNMDNSKILITKI				NA	NA	NA	NA	NA
BMS003_00090	1935			hypothetical protein	ATGAGAAAAATAATAGTATTGGTGCTTTGCTCTGCCAATGCAATCATGCTGAATGCCCAGAAAAAGTATGAATTTCTGAATCCTCCTAAATTCAATGATGCGGATTTGTCTAAAGTGAAATCATTATTAGATGAAAATGCTCCTGCAGAAATTCTGTATAAATCTGCCTATTTTATGGTGGATGCAAATACCGGAAATCTCCATAAAAAATATTTTTACCGGGTTAAAATTTATGATAAAGATAAAGCTGAAGATTGGCTGAACCTTGAAATTCCTATTTATAATGTTGGAACTAATAGGGAGACATTAGGTAAATTCAAGGCTTTTACCTACAACCTTGAAAATGGCAATGTAGTTCCTGTAAAGGTTGAGAAGAGTTCTCAGTACAAAAGTAAAGAGAATAAGTATGTCAGCCTGACGAAATTTGCTTTTCCGAACGTGAAAAATGGTTCTGTCTTAGAATATCAGTATGAAATTGTTTCGCCGTTTCTTTTCACTATCCCGGAAGTATTGATAGAATCAGATACCCCTTCACTGAATACGGAATATGTATTGGATGCTCCGCTTAATATAGCCTATAATGTAAATTATACAGGGGAAATGGCTCCAAAATACAGAGAGATTGAAGAAAGAAATCTATATGGTTCCCAGTACAAGACGTTCAGATTTGCTTATGAAAATATAAAAGGCTTTAAAACAGAAAAATTTGTAAGGAATGATAAGAATTTCCGTACAAAAATAAGTGCTGAGCTTAATTCAACCAATTTTAGAGAACTTAAACTCTATTCTTCTTCCTGGGAACAGATCGGTAAGAGACTTTATAATAATGAAGATTTTGGCGGAGAACTGAAAAGAACAAAACTGGCTAAAGAAAATATGCCGGCGGCAGTTTCAGGAATGAGAACAGATCTTGAAAAGGCAAATGCTATTTTTTCTTATGTTCAGAAAACTTTTACCTGGAATAAAGACAAAGGTGTTTATACAGAAGACGGAATTAAAAAACTGCTGGAAACTAAAGTAGGAAATGCCGCAGAGATCAATCTGTTTTTGGTAATGATGCTTCGAGAAGCCGGGCTTAAAGCAGATCCGTTAGTTATTTCAACCGTAGAAAATGGACTGATTAATCTTATATCTCCTAATATCTCCAATATGAATTTTGTATTGGCAGCCGTCAATCTTAATGATCAGCTGCATATTTATGATGCAACTTCCAAACAGTCTTCTCTGGATGAAATTCCTCTTAAAGACTGGAATCAGTTTGGAATCCTGGTAACTAAAGAAAAGACACTGCAGATTAAGATGTCCAATTTAAAATCAAGCAATACCTTCCTTACAGCCAATGCCAGGATTAATGATGACGGCAGTATTTCAGGGACTTATTCGGACAGGGATACAGGAGCTTATGCAATGTATGTGAAAGATAGCTATGATGATAATGCAGAAAAGTATAAAAAGCAGTATAAGGAAAATTTCTCAATAGACTTTACGGATATCGACTCAAAAGTACTGGAAAATGGAGATTTTGAAAGCAGTATGAAATTCTCTTCCTCAAACCTTATTGACAGAGTAGGTAAAAAGATGATTATCAATCCGATGCTGTTTTTAAGCAAGAGCTCCAATGAGTTTGACCAGACCGATGCCAGAAAATATCCTATTGACTTTGGATCACCTACTACGAAGGTTAAAAAAGTAACTCTTGAAATTCCTGAAGGATATGTGATTGAGGAAATGCCTAAAGAAAAAAAGATCGTTACAGAAGATAAAGAAATATCATATACCTATTATGTAGAACAAAAAGGAAATAAACTGGAAGTTACTACTACTACAAAGATTAACAGCGCAGATTATCCAAAAGAATACTATCCGGCATTTAAACAAATCTGGGGTGTAGCATCCAAATTTGAAAATCAGGTGATCAGCCTTGTTAAAAAATAA	MRKIIVLVLCSANAIMLNAQKKYEFLNPPKFNDADLSKVKSLLDENAPAEILYKSAYFMVDANTGNLHKKYFYRVKIYDKDKAEDWLNLEIPIYNVGTNRETLGKFKAFTYNLENGNVVPVKVEKSSQYKSKENKYVSLTKFAFPNVKNGSVLEYQYEIVSPFLFTIPEVLIESDTPSLNTEYVLDAPLNIAYNVNYTGEMAPKYREIEERNLYGSQYKTFRFAYENIKGFKTEKFVRNDKNFRTKISAELNSTNFRELKLYSSSWEQIGKRLYNNEDFGGELKRTKLAKENMPAAVSGMRTDLEKANAIFSYVQKTFTWNKDKGVYTEDGIKKLLETKVGNAAEINLFLVMMLREAGLKADPLVISTVENGLINLISPNISNMNFVLAAVNLNDQLHIYDATSKQSSLDEIPLKDWNQFGILVTKEKTLQIKMSNLKSSNTFLTANARINDDGSISGTYSDRDTGAYAMYVKDSYDDNAEKYKKQYKENFSIDFTDIDSKVLENGDFESSMKFSSSNLIDRVGKKMIINPMLFLSKSSNEFDQTDARKYPIDFGSPTTKVKKVTLEIPEGYVIEEMPKEKKIVTEDKEISYTYYVEQKGNKLEVTTTTKINSADYPKEYYPAFKQIWGVASKFENQVISLVKK				NA	NA	NA	NA	NA
BMS003_00091	864			hypothetical protein	ATGGTTTTTGTATTTAATATCAAAAAAATTAGAATTATGAAAAATACCATTGCTGTTATAGCATTATCATCTTTCCTTGCAGTTACTGCCTGTAAAAAAAGCAAAACAGAAGGTACAGCATCAGAAAAAACTGAGAATCAGGTATCTGAAAAGTTCATAGTAGATTCGGTAAAAGTGAATGATTCTGTGAAAGTAACAGATTCTTTAAAGCTTTCTTTCAAATCAAAGTTGTTGGTTTTTCCTACCTTAAAAGATAAAAAACTATTGGACAGCATTTATTTTCAGAACGAAAAAATTAAAGACTTTTCAAAAGCTGGTCTTCAGGCTTATCTTGATGATGAAAAGAATAATTACTTTAATACTGTAAAAAATGACAATAAAGACTGGATCTCAGATATCACTTATGCGCAAAACTGGTATTCAAGCTCATATATGAATCTGATTTCTAATACAAATGATTATATGCATATACAGTATGTAGGAAGCGGATACGAAGGTGGGGCTCATGACAATTATGGTTTTTCAGAAAGAATCTTTGATCTTAAGAACAGCAAAAAATTAGAATTGAAAGATATTACTTCCATGCCTAAACATACTATTGAAGCTATCCTCATAAAAAATATTGATAAAATAAACAGCGGAACTATGGATGGGGACGGAGAAGTGAAAAATTCAGAAATGCTGTTGGTAGAGAAAATTCCGGCATCGGATAACTTCTATTTTGATCATAAAAACCTGTATTTTCATTACAGCCCATACGAAATCGCAGCTTTTGCAGCCGGAGATATTACAATCCCAATCTCATGGGAAGACCTGAAAGGGACTTTAACTACAGAATTTAAAGAAAGAATGAAAATTAAGTAA	MVFVFNIKKIRIMKNTIAVIALSSFLAVTACKKSKTEGTASEKTENQVSEKFIVDSVKVNDSVKVTDSLKLSFKSKLLVFPTLKDKKLLDSIYFQNEKIKDFSKAGLQAYLDDEKNNYFNTVKNDNKDWISDITYAQNWYSSSYMNLISNTNDYMHIQYVGSGYEGGAHDNYGFSERIFDLKNSKKLELKDITSMPKHTIEAILIKNIDKINSGTMDGDGEVKNSEMLLVEKIPASDNFYFDHKNLYFHYSPYEIAAFAAGDITIPISWEDLKGTLTTEFKERMKIK				NA	NA	NA	NA	NA
BMS003_00092	891	bmrU	COG1597	Putative lipid kinase BmrU	ATGCTTCCAGTTCAGGAAGCATTTTCTATTTTTGCGTTGATGAAAAATGTAGCATTCATTATCAATCCGTTTTCAGCCAAAAAAAATTATCAGCCATTTTTAAATGAGCTTAAAAATAAAGTTGAAAATCCATTATATTACGTTTCTGAATCTATTTTGGGAACAGATGATTTCATTAAAGACCATTTTGATGAAGTGGATATTTTTGTCGCCATAGGTGGAGACGGAACTATTTCTACAGTGGCAAAAAATCTCATTAATACCGATAAAATCCTGGCTATTTTTCCGGCAGGATCCGGAAATGGGTTTTCTAATGAAACACAATTCAGCAAAAATCTGGATGAGCTTTTAGAAAAAATTAAAGCTAAAAACTCCAGGAAGATTGATACATTTACGGTGAACGACAGGCTTTCAATCAATGTTTCAGGGACAGGATTTGATGGCAAAGTAGTCAAAGAGTTTGAAAAAACGAGCCGCGGATTTAAAAATTATATTAAAGTTTCTCTGAAAACATTCTTCAGTTATAAACCCATCAAGGTGAAATTTTTTGACGAAGAATATCAACAGTACAACGGCCGTTATCTGATGATGAATATTGCCAATACTCGTCAGTTTGGTAACAACGCTTATATTGCACCGAAAGCAAGCAAAAGTGATGGACTGGTTGATATCGTTTTGGTAAAAAAATTTCCGCTGACCTATTCGGCGTTGTTTGCTTTCAGAATGTTTACCAAAAGGCTGAAAGATGATGAATACGTAACTTATCTTCCGGTCTCTGAAATATCATTTAAAGTTAACACCAAAAACTGGCATCTGGATGGTGAATTCAATAAGATTAAGTCACCCATTCATGTGAAAGTACAGCCTGCAAGTCTGAATATACTTATTTAA	MLPVQEAFSIFALMKNVAFIINPFSAKKNYQPFLNELKNKVENPLYYVSESILGTDDFIKDHFDEVDIFVAIGGDGTISTVAKNLINTDKILAIFPAGSGNGFSNETQFSKNLDELLEKIKAKNSRKIDTFTVNDRLSINVSGTGFDGKVVKEFEKTSRGFKNYIKVSLKTFFSYKPIKVKFFDEEYQQYNGRYLMMNIANTRQFGNNAYIAPKASKSDGLVDIVLVKKFPLTYSALFAFRMFTKRLKDDEYVTYLPVSEISFKVNTKNWHLDGEFNKIKSPIHVKVQPASLNILI	PGPT0024345_1945	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
BMS003_00093	1584		COG3119	N-acetylglucosamine-6-O-sulfatase	ATGTTCCCGAAAATATTTCCGCTTGTTGCAGTGCTTCTACTGGTTTCCTGCAATATCAATAAAATACAGCCAAAGGCAAAGGCCTCTCAAAAGCCTAATATCATATTCATTATGACGGATGATCACGCGAAGAAAGCAATGAGTGCCTATTCCGATGATCTGATTAAAACACCTAATCTTGACCGGATTGCAAAAGAAGGGATACAGTTCAATAATGCTTTTGTAACCAATTCTCTTTGCGGGCCTTCAAGAGCTGTTTTCCTCACAGGAAAGTATAGTCATATTAATGGTTTCAGAGCGAACTTCGATACATTTGACGGAAGCCAGCCAACTTTACCCAAATACCTTCAGGCTGCCGGATATTATACGGCAATCGTAGGGAAATGGCACTTGGTATCCATTCCGCAGGGATTTGATGAATACAGCATTATGATTGATCAGGGAGAATATTATTCACCAAGATTTTTCAATGGAAAAGATACTGTTTCTGTAAAAGGATATGCTACGGATATTATTACAGAAAAGGCAATCCGAATTTTAGAAAAGCAAAAGAATACAGATAAACCGGTTTTTCTTATGGTTCATCAGAAAGCACCACATCGTGACTGGATGCCTAACGTGAATGATCTGGAGAACTCAACAGAAAAATATTACCAGCTGCCGGAAACGTTTTTTGATGACTATAAAAACAGAACCAAGGCTGCTGCAATGGCAGATATGAGAATAGAAGACATGTTTTTAGGATATGATCTTAAGCTGTATCTTAAAAATGCACAGGAAGAAACCAATAGTGGCGGGGATAAAAATTCAACAAAAAATTCTTACAACTGGCTGCTTAATGAATACAATTCCATGACGGCTGTACAGAAAATGGTTTGGGATAAATATTATAAACCAATCTCAGACGCTTATTATGCCAATAAACCGATAGGTAATGAATTGGTAAAATGGAAGTATAACCGTTTTATGAACGATTATCTGAAAACCGTAAAATCTGTAGATGATAACGTGGGAAAACTGTTGGAATATCTGGATAAAAATGGCCTGGCAGAAAATACGATGGTTATTTATACATCAGATCAGGGATTTTTTCTGGGAGAACATGGATGGTTTGATAAAAGATTCATGTATGAACCTTCTTTAACGATGCCATTGGTTATGCGATATCCGGAGAAAATTAAAAAAAATATTAAAACAGATGAATTGGTTCAGAATTTAGATCTGGCTCCCACTATTCTGAAGATGGCTGGTGTAGAAATTCCGAGAGAGATGCAGGGTAATTCCCTTGATGTCTTCTTTCAGGGAAGATCTCCTGAAAACTGGAAAGATAAAATTTATTACCATTTTTATGAAAGCAATGCCTGGCATCAGGTTCAGAAACATTTCGGTATCCGTACAAAAAAATATAAACTTATTTATTTTTATGATCTGAAAGATTGGGAATTATACGATCTGGAAAAAGATCCGAATGAAACCAGCAATATCTATAAAAAACCGGAATATAAACCTGTTGTTACCCACCTGAAAGCAGAGCTGAAATCTTTGATCGCAAAGTATAAAGATACTACGGCAGTACAATTTTAA	MFPKIFPLVAVLLLVSCNINKIQPKAKASQKPNIIFIMTDDHAKKAMSAYSDDLIKTPNLDRIAKEGIQFNNAFVTNSLCGPSRAVFLTGKYSHINGFRANFDTFDGSQPTLPKYLQAAGYYTAIVGKWHLVSIPQGFDEYSIMIDQGEYYSPRFFNGKDTVSVKGYATDIITEKAIRILEKQKNTDKPVFLMVHQKAPHRDWMPNVNDLENSTEKYYQLPETFFDDYKNRTKAAAMADMRIEDMFLGYDLKLYLKNAQEETNSGGDKNSTKNSYNWLLNEYNSMTAVQKMVWDKYYKPISDAYYANKPIGNELVKWKYNRFMNDYLKTVKSVDDNVGKLLEYLDKNGLAENTMVIYTSDQGFFLGEHGWFDKRFMYEPSLTMPLVMRYPEKIKKNIKTDELVQNLDLAPTILKMAGVEIPREMQGNSLDVFFQGRSPENWKDKIYYHFYESNAWHQVQKHFGIRTKKYKLIYFYDLKDWELYDLEKDPNETSNIYKKPEYKPVVTHLKAELKSLIAKYKDTTAVQF	PGPT0013620_288	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
BMS003_00094	1281	dctA1		C4-dicarboxylate transport protein	TTGAAAACAAAAAAAATATACAATCAGCTTTATTTCCAGGTAATTATAGCCATCATTGCAGGTGTTCTTCTTGGAAAATTCTACCCTGAAGCAGGAGAAAAGATGAAACCTTTGGGGGACGGATTCATCAAATTGGTGAAAATGATTATTGCTCCGGTCATCTTTATTACCCTTACTTTGGGAATCGCCCACATGACCGATCTGAAAAAGGTAGGCAGAATTGCCATCAAAGCAATGATCTATTTTTTTACCTTTTCAACCCTTGCCCTGATCATCGGATTAGTGGTAGGAAATATCTTACAGCCGGGTCATGGTTTAAATATTGATCCTTCTACCCTTTCCGGTGATGTTTCACAGTACCAGGCAAAAGCTCACGAGTCAACACTTACAGGCTTCATTATGAATATCATTCCGGAGACTTTATTCAGTCCTTTGGTGGGCGAAAATATTCTTCAGGTACTTTTAGTTGCTATTTTAATGGGCGTAGCTTTGGTTTTAACTAAAGAAAAAAGCCAGAAAGTAACTGATTTTCTACAGGATCTGTCGACTCCGGTATTCAAAATTGTACACATGCTTATGAAGCTTGCCCCAATTGGAGCTTTCGGAGCAATGGCATTTACGATTGGAAAATACGGACTTCATTCTGTTTTAAATCTTATATTCCTGGTAGGTACATTCTATATTACATCTATTCTTTTTATCGTTCTTATCCTGGGAACAGTAGCATGGTATAACGGATTTAATATTTTTAAACTTCTTTTCTATCTTAAAGAAGAACTTCTTCTTGTTTTGGGTACAAGCTCATCAGAGTCTGCTCTGCCGGGGATTATGGAAAAACTCGAAAAGGCAGGCTGCTCACGTGCCATTGTAGGTCTTGTAGTTCCCACCGGATATTCTTTCAATCTTGACGGAACGAATATTTATATGACACTTGCTTCTCTCTTTATTGCACAGGCATTAAACATTCATCTTCCTATTGAAAAACAGCTGATGCTTCTTTTGGTGGCTATGTTAAGCTCAAAAGGCGCTGCAGGAGTTACAGGTGCCGGATTTGTAACGCTAGCCGCAACACTGGCAGTAGTTCCTGAAATTCCGATTGCAGGTATGACCTTAATTCTTGGAATTGATAAATTCATGAGTGAATGCAGAGCTCTTACCAATGTAATCGGGAACTCTGTAGCTACCGTTGTAGTTGCCAACTGGGAAAAACAGCTAGATAAAAAACAATTACAGTATTGTCTGGATCATCCTAACGAAATTGAGAAGAAACTGGAGGTTTAA	MKTKKIYNQLYFQVIIAIIAGVLLGKFYPEAGEKMKPLGDGFIKLVKMIIAPVIFITLTLGIAHMTDLKKVGRIAIKAMIYFFTFSTLALIIGLVVGNILQPGHGLNIDPSTLSGDVSQYQAKAHESTLTGFIMNIIPETLFSPLVGENILQVLLVAILMGVALVLTKEKSQKVTDFLQDLSTPVFKIVHMLMKLAPIGAFGAMAFTIGKYGLHSVLNLIFLVGTFYITSILFIVLILGTVAWYNGFNIFKLLFYLKEELLLVLGTSSSESALPGIMEKLEKAGCSRAIVGLVVPTGYSFNLDGTNIYMTLASLFIAQALNIHLPIEKQLMLLLVAMLSSKGAAGVTGAGFVTLAATLAVVPEIPIAGMTLILGIDKFMSECRALTNVIGNSVATVVVANWEKQLDKKQLQYCLDHPNEIEKKLEV	PGPT0001450_2245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS003_00095	1689	ggt	COG0405	Glutathione hydrolase proenzyme	ATGAAGAGAATATTTTTAATAGGAACCCTTCTCATCTATAGCTTTTCCTGGTCACAGTTTACAGATATCAATATCATCAAGGAAGTACAGGTAAAAAATAAAGGTGTGGTGGTCTCTGCACACCCATTAGCCAGTGAAGCGGGAGCTAAAATTCTAAAGATGGGCGGAAATGCCTACGATGCTGTTACAGCAACACAATATGCTCTTGCTGTGGTATATCCGCAGGCAGGAAATATCGGTGGAGGCGGTTTTTTGGTAGGAGTAAAAAACAATGGCGAAAAATTCACGCTGGATTACAGAGAAACAGCTCCGAAAAAGGCTTCAAGAGACATGTACATTGATAAAAAAGGAAAAGCAAATACCGATCTTTCCCAAAACGGGAGATTGGCGGTAGGGATTCCCGGAAGTGTTGCAGGATTCTTTGCTACCCTGAAATACTGTAAACTTCCTATGGAAAAGCTTATCCAGCCTGCAATTGATCTTGCAGAAAAAGGATTTGCCATCACAGACAAGGAAGCAGATATGCTGAACAGCCAGAGGGAAAAATTTCAGAAACATAATAAATCGTCTATCATTTTTGTAAAAGATACCCCATGGAAAGCCGGAGATCTTTTGATTCAAAAAGATTTAGCAGAAACATTGAAGCGAATCCAAAAATTCGGTGCTAAAGGTTTCTATGAAGGAAAAACAGCTGATCTTCTGGTAACTGAAATGAAAAAAGATAACGGAATTATCACACTGGAAGATCTTAAAAATTATAAAGTTGCCGAAAGAAAGGCACTGGAATTTGATTATAAAGGGACCCATGTTGTTACTATGCCTTTGCCTTCAAGCGGAGGTGTTCTTCTTGCCCAGATGCTAAGAATGGCAAGTTTTGAAAATCTTGAAAAATACCAACAAAACTCTACAAAAGCAGTTCAGATTATGACTGAAGCTGAAAGAAGAGCTTATGCAGACAGAGCAGAATATATGGGCGATCCGGATTTTATCCAGGATAAAACATTGTATCTGATTTCTGATGAATACCTGAAGGGAAGATGGAAAAGCTTCAGTTTTGACAAGGCTACCCCAAGTGCAGAAGTAGGCAAAATTATAGAACAGCCGAAAGAATCTATGCAGACCACTCATATTTCTGTATTGGATAAGGACGGAAATGCGGCTTCTGTAACCACTACTCTTAATGGATATTACGGAAGTAAAGTTTTAGTTTCAGGTGCAGGATTCTTTTTAAATAATGAGATGGATGATTTTTCGATCAAACCGGGAGTACCGAATATGTTTGGTGCAGTGGGTGGAGAAGCCAATTCGATACAACCCAATAAGAGAATGCTCTCTTCTATGACCCCCACCATTATTCTTAAGAACGGAAAACCTTTTATGGTAGTGGGAACACCGGGAGGAACTACAATCCCTACTTCAGTATATCAGTCTATTGTGAATGTTGTGGATTTTAAACTGAATGCCAATATCGCGGTAAATGCGCCAAAATTTCATCATCAGTGGCTACCTGAAACCATTACCGTGGAAAACAACTTCCCGGAAAGCACCATTTCTGAGCTGAAAAGCAAGAGTTATGTGATTGAAAAAACAAAATACATCGGCAAAACAGAGATGATTGTACTTGACGAAAAAGGAAATATCAGCGCTGTAGCAGATGGACGTGGAGATGATTCCGTAGCGGTGGAATAA	MKRIFLIGTLLIYSFSWSQFTDINIIKEVQVKNKGVVVSAHPLASEAGAKILKMGGNAYDAVTATQYALAVVYPQAGNIGGGGFLVGVKNNGEKFTLDYRETAPKKASRDMYIDKKGKANTDLSQNGRLAVGIPGSVAGFFATLKYCKLPMEKLIQPAIDLAEKGFAITDKEADMLNSQREKFQKHNKSSIIFVKDTPWKAGDLLIQKDLAETLKRIQKFGAKGFYEGKTADLLVTEMKKDNGIITLEDLKNYKVAERKALEFDYKGTHVVTMPLPSSGGVLLAQMLRMASFENLEKYQQNSTKAVQIMTEAERRAYADRAEYMGDPDFIQDKTLYLISDEYLKGRWKSFSFDKATPSAEVGKIIEQPKESMQTTHISVLDKDGNAASVTTTLNGYYGSKVLVSGAGFFLNNEMDDFSIKPGVPNMFGAVGGEANSIQPNKRMLSSMTPTIILKNGKPFMVVGTPGGTTIPTSVYQSIVNVVDFKLNANIAVNAPKFHHQWLPETITVENNFPESTISELKSKSYVIEKTKYIGKTEMIVLDEKGNISAVADGRGDDSVAVE	PGPT0002935_3976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS003_00096	2853	btuB_2		Vitamin B12 transporter BtuB	ATGAAAAAAGATTACCAGAAAATTGTTTTGGTGGGAGCATTATTTTTTATTTCGGTAAATGCAATGGCTCAAACCAATGATACTTTAAGCGTTAAAACTGTAGAAGAGGTGAAAATTACTGTGGGCTCCAGAAATAAAGCCCGAGTAGCCACTGATACTCCGGTACCTGTAGATGTTATTAATATCGGTTCGCAGTCAGTATTAAGTCCACAGACGGATCTTAATCAAATTTTGAATTATGCAGCACCTTCCTTTACCTCCAACTCTACAACTGTAGCAGATGGGACGGATCATGTGGATCCTGCCCAACTAAGAGGATTAGGGCCGGATCAGGTGTTGGTTTTACTTAATGGAAAAAGAAGGCATACTTCCTCGTTGGTTAATATAAACGGTTCGCCGGGAAGAGGATCAGTAGGAACGGATCTGAATGCCATTCCGGCATTTGCTATTGAAAGGCTGGAGGTATTGAGAGACGGAGCTTCAGCGCAGTATGGCTCTGATGCTATTGCCGGTGTCATTAATGTCATTATGAAGAAAAATACCAATGCTTTCACTGCAGCAATTACCGGAGGAGGCTTTAATTCGAAAGGTGCTAATGATCATCATGGAGGATGGGATGGAGAAAAATATCAGCTGGATTTGAATTATGGAACCAAAATTGGGAGTAACGGATTTGTTAATTTTACAGCAAGTCTGCTGAACAGAAATAATACCAGAAGAGCAAACTCGGCTTCAGGTGATATTTTTAATGCTTATAATGCCATTGAGCAAAGAGCTTTTGAAAATGGGGTTAATATTTCTTCTCTTTTTGAAAATATCAATAATACTTCCAATACACAGCAAATAATAGATTATATACATCAGTACGCTCCAAGTGTAAACTATTTTACAGCAGCACAGCAGTCTGGGATTCAGTCAGCAAATACAATTTCTGCTTTACAGGATCTTCTGAAAACTGATGTTACAGAAAACGAGCTGGCTTACAGAGGATTGACAAGGGATGATTTTAATATGAGAATTGGACAGTCTAAGTTGGGATCTGGTCAGTTTTTCATGAATTCTGAATTCGATTTGTCTTCAGCAGTTAGAGGATATGCCTTCGGAGGAATTTCTTATAGAAGCGGAAATGCTGCGGGGTTTTATAGAAGACCGAATCAAAACAGAACCTCTACATCTATATATCCTAATGGTTTCCTGCCGGAAATTGCTTCGGATGTTATAGATCTTTCCTTTGCAGCAGGATTTAAAGGGAAATTGGGGAATATTAATTATGACATTAGCAATACTTTTGGACAAAACACCTTTGACTATACTATAAAAAATACTGCCAATGCCTCAATGCGGTATCCCAGCAAAAGAGAATTTGATGCGGGAGGTTTGGGATTCTCTCAAAATACCATCAATGCAGATTTTGACACAAAGATTGACTGGTTAAAAGGCTTTAATGTTGCTTTTGGAGGGGAAATGAGGTTTGAAAAATACAAAATAGAAAATGGCGAAGAAGCCTCCTGGGCTCTTTATGATATTAACGGAAATATACAGACTCCGGGAACAGACCCTCTTTTGAAACCTACAGATTTTTTTGGTAACACCAGGCCCGGAGGTGCACAGGTATTTCCTGGTTTTCGTCCTGAGAATGCCCTCAATAAAGGAAGACATTCCGTTGCTGCTTATGTAGACACGGAACTGGATGTAACTGACAGATGGTTACTGAGCGCTGCGCTTAGGTTCGAAAATTACTCAGATTTTGGATCTACATTCAACTATAAGCTGGCAACAAGATATAAACTTACTGATCATATCAATCTAAGAGCTGCTCATTCTACAGGGTTCAGAGCGCCTTCCTTACAGCAAATGTATTTTAATGCTACTGCTACACAGTTTGTAGGGGGAGTACCATATGAAGTGGGAACTTTTTCAAATGATTCTGACGTGGCTAAGTATTTAGGAATTCCACAATTGAAGCAAGAGGAATCAACGAGTTATTCTGCTGGTTTTACAGCTAAGATCCCGCAGGCAAATCTAACTTTTACAGTGGATGGATATTATATTAAAATTAAAAACAGAGTGGTTTTGACAGATCAGTTTTCAAGACCGTCAGGAACTTATCCGGTGGGAAGTGATCTTGGAAATTTGCAGGCTGCTTTTGATATGGCTAATGCCAATGCAGCTACATTCTTTGCCAATGCTATAGATACTCAGACCAAAGGTATTGAAGGGGTGATTTCGCATAAAGCAAAATTTTCTGAAAGGTTTTCTCTGAATTCGGATCTGGCAATTACCGTATCCAAGACCAATAGAGTAGGAGATATTCATGGTTCTGATGTTTTAGTGAAAGCCGGTCAGGTAAACAGGTATTATTCAGAATCCAGCCGTGTTTATCTTGAAGAAGCTGTTCCCAGATTCAAAGCTTCTCTGAATAATGCTTTAGAGATTGATAAATTCAGTGTGTTGCTGAGAAATGTTTATTTTGGAAAAGTTACAGATCCCAATACAATGGATGCTAATGGGGATGGAATTATTAGTGGGGAAATTATTAATGGGCAAGCTGTTGCTACTGAACATCCGGTATGGGGAGGAAAAGTAATTACAGACTTATCTGTGGGATATAAATTTAATAAAAACCTTAAATTAACAATAGGTGCCAATAATTTATTTGATATTTATCCGGACAAAAACTACGGCCCAACAGTTGTGAAAACCCCTTCTTTGGATGCTTCCGGTAATCTTGTGTATGTTAATACTTCTACTGTTGATCTCTCTAATCAGAATCAGTTTGTATACTCAAGAAATGTTTCTCAGTTTGGAATGAACGGTAGATTTCTTTTTGCGAGAGTGAATCTTAATTTTTAA	MKKDYQKIVLVGALFFISVNAMAQTNDTLSVKTVEEVKITVGSRNKARVATDTPVPVDVINIGSQSVLSPQTDLNQILNYAAPSFTSNSTTVADGTDHVDPAQLRGLGPDQVLVLLNGKRRHTSSLVNINGSPGRGSVGTDLNAIPAFAIERLEVLRDGASAQYGSDAIAGVINVIMKKNTNAFTAAITGGGFNSKGANDHHGGWDGEKYQLDLNYGTKIGSNGFVNFTASLLNRNNTRRANSASGDIFNAYNAIEQRAFENGVNISSLFENINNTSNTQQIIDYIHQYAPSVNYFTAAQQSGIQSANTISALQDLLKTDVTENELAYRGLTRDDFNMRIGQSKLGSGQFFMNSEFDLSSAVRGYAFGGISYRSGNAAGFYRRPNQNRTSTSIYPNGFLPEIASDVIDLSFAAGFKGKLGNINYDISNTFGQNTFDYTIKNTANASMRYPSKREFDAGGLGFSQNTINADFDTKIDWLKGFNVAFGGEMRFEKYKIENGEEASWALYDINGNIQTPGTDPLLKPTDFFGNTRPGGAQVFPGFRPENALNKGRHSVAAYVDTELDVTDRWLLSAALRFENYSDFGSTFNYKLATRYKLTDHINLRAAHSTGFRAPSLQQMYFNATATQFVGGVPYEVGTFSNDSDVAKYLGIPQLKQEESTSYSAGFTAKIPQANLTFTVDGYYIKIKNRVVLTDQFSRPSGTYPVGSDLGNLQAAFDMANANAATFFANAIDTQTKGIEGVISHKAKFSERFSLNSDLAITVSKTNRVGDIHGSDVLVKAGQVNRYYSESSRVYLEEAVPRFKASLNNALEIDKFSVLLRNVYFGKVTDPNTMDANGDGIISGEIINGQAVATEHPVWGGKVITDLSVGYKFNKNLKLTIGANNLFDIYPDKNYGPTVVKTPSLDASGNLVYVNTSTVDLSNQNQFVYSRNVSQFGMNGRFLFARVNLNF	PGPT0003790_2463	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
BMS003_00097	966			putative epimerase/dehydratase	ATGGAATCCTATACGGAAAGAATACTGATTACAGGTGCCTTGGGACAAATTGGTACCGAACTTACGAACAGACTTGTTGAAATTCACGGAGCGGAAAACGTAGTTGCTTCAGGATTGGACAGATGGCAGGAAGGAATTACTTCTGCCGGACACTACGAAAGAATGGATGTTACCAATACCCAATTGGTAAGACAGGTGATTCATGATTACGAGATCACTACAGTGTATCATCTTGCTTCGCTTTTATCCGGAACTTCAGAAAAGCAGCCTATTTTTGCATGGAAACTGAATCTTGAGCCACTGCTTCATTTTTGTGAAATGGCAAAAGAAGGGCTCCTTAAAAAGATCTTCTGGCCAAGTTCTATTGCTGTATTTGGAAAAGGAATTCCAAAACATGATGTGGGGCAGGATGTTGTGCTGAATCCGACAACTGTTTACGGAATCTCTAAGATGGCAGGGGAGAAGTGGTGTGAATATTATTTCGATAAATATGGTGTAGATGTAAGAAGTATCAGATATCCCGGATTGATCTCCTGGAAAACTCCTGCAGGAGGCGGAACTACCGATTATGCTGTTGAGATTTTCTATAAAGCTATCGAAGACGGAAAGTATACAAGCTTCATTTCTGAGAATACAGGAATGCCGATGTTGTATATGGATGATGCCATCAATGCAACCTTAAAATTAATGGAAGCTCCAAAAGAAAATGTAACGGTTCGTTCTTCTTATAATCTGGGTGGGATGTCATTTACACCAAAAGAATTGTCAGATGAAATCAAGAAAGAAATTCCGGATTTTATGATAGATTACAACCCGGATTTCAGACAGGCAATTGCAGATTCATGGCCGGCTTCCATTGATGATTCTGTAGCAAAAAAAGACTGGGGTCTGACTTATGATTTCGGGATTTCTGAAATGACAAAGGATATGATTAAGAATCTGAAAGTGAAATTAGGAAAGAATTAA	MESYTERILITGALGQIGTELTNRLVEIHGAENVVASGLDRWQEGITSAGHYERMDVTNTQLVRQVIHDYEITTVYHLASLLSGTSEKQPIFAWKLNLEPLLHFCEMAKEGLLKKIFWPSSIAVFGKGIPKHDVGQDVVLNPTTVYGISKMAGEKWCEYYFDKYGVDVRSIRYPGLISWKTPAGGGTTDYAVEIFYKAIEDGKYTSFISENTGMPMLYMDDAINATLKLMEAPKENVTVRSSYNLGGMSFTPKELSDEIKKEIPDFMIDYNPDFRQAIADSWPASIDDSVAKKDWGLTYDFGISEMTKDMIKNLKVKLGKN				NA	NA	NA	NA	NA
BMS003_00098	753			hypothetical protein	ATGGTATTGTTGACTTTTAATATCACATGTATTGAAGCTGAAGCAAAAAACGGCTTTCAGATTATGGATGATGAACGATTGAAAATCACAGAAAATAATACCAGAGCAATTCTTAGAATTTTAGATATTCATGATATCAAATCAAGTTTTTTTGTAGAGATTTCTCTTACCGAAAAACTTCAGAATTTAATAAAAGCAATTTCATCCAAAGGGCATGAAATTGCTTTTTATAATAAAGGATCAAATCCTGAAGAAATAGAAAATGCCAAGAAGAATATTCAGGATCTTTTGGAAAAACAGATCAGGGGAATTCGTCAGAAAGATGTAAAAGTTCCACAGGAAATTTTGAAGATGATGGAATTTAATTACGTCTCCAATATTGATAATGCCAACATTCTTTTTCCTTTCAAAAGACTCAAAAGAGATACGGAAATTACAGAAGAGGATGGGCTGAGTGTTATTCCGGAAAGTATCTCTCCATACAGTCAGCTTCCTTATAATGATTTTGTATTTCAGATCCTGCCGATGAAGTATTATCAGAATATGGTGCTGGAAACGCTGCAGAATGAAGAGTTTGTGCTGATCTATCTGAATACATGGCAGTTTACGGATTTTAAGAAATACCGTTTTGATGTTCCTTTTTACCGAAGCTTATTTTCGGGCAAAAAAATGGAGGACAAATTAGATGCCCTCCTTACTTTTCTCAATGACAGGGAAATGGCTACTTCCCGCATGAAAGATTATATTTTTTAG	MVLLTFNITCIEAEAKNGFQIMDDERLKITENNTRAILRILDIHDIKSSFFVEISLTEKLQNLIKAISSKGHEIAFYNKGSNPEEIENAKKNIQDLLEKQIRGIRQKDVKVPQEILKMMEFNYVSNIDNANILFPFKRLKRDTEITEEDGLSVIPESISPYSQLPYNDFVFQILPMKYYQNMVLETLQNEEFVLIYLNTWQFTDFKKYRFDVPFYRSLFSGKKMEDKLDALLTFLNDREMATSRMKDYIF				NA	NA	NA	NA	NA
BMS003_00099	1206	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGCAAAAGAATTTTTTAATCATCGCCGGGATCTTCCTGTTTTTGGAAGTATATATTTATCAGGCCATCAGAACACTTACCGATAATTTCTGGATCAGAATCGGATATTGGGTGATTTCTTTGGTCGTATATGGGATTTTCGCTTACGAAGTTACTCATTACCAGAGATCAGACAGAAGTATGGTAAGAGCCCAGATCATGATTTCTTTATTTTTAATTTTCATCCTTCCAAAAGTTTTCGTGGTTCTGTTCTTATTAATTGATGATATCATCAGAACAGGAGGCTACCTGATTGGTTTTGCCAAGCCTTCCGAGAATTTCTTTCCGGAAAGAAGAAAGTTCCTGAGTCTGGTTGGATTGGGAATGAGTGGCGTTCTTTCCGCTCTTTTCATAGACGGAATTACATTCGGAAAATACAGGCATAAAGTAAGAAGAGTAAGAGTCAACTTCGCTAATCTTCCGAAAAGTTTTAAAGGCTATAAAATCATTCAGATTTCCGATGTTCACAGTGGAAGTTTCTCAGACCCGAGCAAATTACAGCACGCTATCGATCTGATTAATGAGCAAAAACCGGATCTGGTATTATTTACCGGAGACATGGTGAATAACGTTGCGGATGAGTTCAAACCTTTTATTCCTTTATTTTCAAAAATCAAAGCTAAAGACGGCAAATTTGCGGTATTAGGAAATCATGATTACGGAGATTATGTAACCTGGGAATCTCCTGCGGCTAAAAAAGAAAACCTTGACACATTAATTGGCTATGAAAAACAGGCTGGTTTTGATATGCTGAGAAACGAACACAGAGTTATTGAGAAAAACGGAGAGAAACTCTACATTCTGGGGGTTGAAAACTGGGGACTGAAGCCATTTCCACAGTTTGGAAGAATAGATGATGCTTTAAAAGATGTACCGGAAGCTGCCACCAAAATTTTAATGAGCCACGATCCTACCCATTTTGACTATATAGTAAAAAAACACCCTGCAAATATCCACCTGACCCTTTCAGGACATACACACGGAATGCAGTTTGGTTTAGATCTTAAAAATGTAAAATGGTCACCCGTACAATATAAATACCCAAAATGGGCTGATTTATATGAAAGCGAAGGAAAATTACTGTACGTAAACAGAGGATTTGGTGTATTGGGATATCCGGGAAGAGTGGGTGTATTGCCGGAAATTACGTTATTTGAACTTAGCTAG	MQKNFLIIAGIFLFLEVYIYQAIRTLTDNFWIRIGYWVISLVVYGIFAYEVTHYQRSDRSMVRAQIMISLFLIFILPKVFVVLFLLIDDIIRTGGYLIGFAKPSENFFPERRKFLSLVGLGMSGVLSALFIDGITFGKYRHKVRRVRVNFANLPKSFKGYKIIQISDVHSGSFSDPSKLQHAIDLINEQKPDLVLFTGDMVNNVADEFKPFIPLFSKIKAKDGKFAVLGNHDYGDYVTWESPAAKKENLDTLIGYEKQAGFDMLRNEHRVIEKNGEKLYILGVENWGLKPFPQFGRIDDALKDVPEAATKILMSHDPTHFDYIVKKHPANIHLTLSGHTHGMQFGLDLKNVKWSPVQYKYPKWADLYESEGKLLYVNRGFGVLGYPGRVGVLPEITLFELS	PGPT0022365_582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
BMS003_00100	1074	fabH_1		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGCCGAATACGATCATTATTGGCTCTGGATCTTATATTCCGAACAGAGTTATTGGTAGAGATTACTTCATGAATTCCGAGTTCTACACTGAAGACGGAGTAAAGATTGAAAAGCCTGTGGAAGAGACCATTGCGAAATTTGTAGAGATTACAGAAATCGAAAACAGGAGATTCATTGAGGATGATCTTTCCAACTCTAAAATCGGTTATGAAGCTGCAAAAATTGCCCTTGAGGATGCAAAAGTAGACGGCGAAGAACTGGATTATATCATCTATGCGAGCAATTTCGGGGAAGTTACTGAAAACGGATACGCTGATTTTATGCCGACAATGGCAGCGAGAGTAAAGAATAAACTGGGGATCAGAAACAGAAAATGTGTAACATATGATATGATTTTCGGATGTCCGGGATGGGTAGAAGCTATGATTCTGGCGGACAACCTTATCAAAGCTAAAGTTGCAAAAACAATTCTTGTAATAGGAGCAGAAACTTTAAGCAGAGTCACTGATCCCTATGACAGAAATAGAATGATCTTTGCTGATGGCGCCGGAGCGGTGGTAGTAAAAGCTACTGAGGAAGAAAATGTAGGAATTATTGCTCACAACACGATCTGCGATAACGGACCGGAATTAAATTATCTTGAAAACCAACCCTCTATCAACAAAGAAGCTGATCAAAAGCGTCTTTACGTGAGAATGTTAGGAAGAAAGATTTACGAATATGCCCTTAAGAATGTGCCGGACGCCATCAAAGATACCATCACTGATGCCGGTCTCTCTATTGAAGATATAGATAAAATCTTAATTCACCAGGCCAATGCTAAAATGGATTACGCTATGATTGAAAGACTTCACAGACTTTACAATGTGAAAGAATATGATCATGCAATCTCTCCTATGACGATCCAGGATCTTGGAAATACTTCTGTAGCAACAATTCCTACCATGTATGATTTAATAATTAAAGGAAAAATGGAAGGTCAATCGTTTAAAGATAATGGTAACATTGTAATGACTTCGGTAGGTGCCGGAATGAACATCAATGCTATCGTTTACAGACTTCCTAAAAAGTAA	MPNTIIIGSGSYIPNRVIGRDYFMNSEFYTEDGVKIEKPVEETIAKFVEITEIENRRFIEDDLSNSKIGYEAAKIALEDAKVDGEELDYIIYASNFGEVTENGYADFMPTMAARVKNKLGIRNRKCVTYDMIFGCPGWVEAMILADNLIKAKVAKTILVIGAETLSRVTDPYDRNRMIFADGAGAVVVKATEEENVGIIAHNTICDNGPELNYLENQPSINKEADQKRLYVRMLGRKIYEYALKNVPDAIKDTITDAGLSIEDIDKILIHQANAKMDYAMIERLHRLYNVKEYDHAISPMTIQDLGNTSVATIPTMYDLIIKGKMEGQSFKDNGNIVMTSVGAGMNINAIVYRLPKK	PGPT0008355_920	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS003_00101	570			hypothetical protein	ATGAAAAACAATTCATCCTTAAAAGGCTTACTTATTGCAGCTGTGGCGTTTATCGTTGCCTTTGGGATCTACTTCCTTTTTTTAGCCAAGAAGAATTATTATGTTGTAGATAATCCTACCCCGAATACGTATTATTTTAAGATCAATAACGGATCTGAAGGAATTATTTCTGCGGGGCAGTATGTGCATGTGGATTTGAATAAAGGGAAAAACTCTATTCAGGTCTTTGATCAGAACAAAAAAATGCTTTACGATTCAGCATTTGAAGTGAATAAACTTCGTGGTCTGATTAATATTACACATCAGGATTATTATGTGAATGATCAGTATTACGGATACAATCTTAAGAAAGATTCGTTACTGGCTGCTCTTGATAAAACGGTTATTGACGGAAAAGATTATTACGGAGGAGCAAGACACTTCAATAAGCTTTACACAGAAGATTTTTATTACAATGTAGATGAAGACTATGATAAAGTGATCAAAAATATCCAGAAAGTGGAATCACGATCTAAAATCTTCAGAAAGCAGGATTACCTAAATTATTACAAAGAATATTACAAGTTTTAA	MKNNSSLKGLLIAAVAFIVAFGIYFLFLAKKNYYVVDNPTPNTYYFKINNGSEGIISAGQYVHVDLNKGKNSIQVFDQNKKMLYDSAFEVNKLRGLINITHQDYYVNDQYYGYNLKKDSLLAALDKTVIDGKDYYGGARHFNKLYTEDFYYNVDEDYDKVIKNIQKVESRSKIFRKQDYLNYYKEYYKF				NA	NA	NA	NA	NA
BMS003_00102	732	ubiE	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	TTGACAAAAGATATCACCAAAGTTACTCCCTACAATTCAGAGGCTACAAAAAAAAGCCAGGTAGAGGATATGTTCGACAACATTGCACCGAAGTATGACCTTCTGAACCATGTTTTATCCATGAAAATTGACGTTCTGTGGAGAAATAAGCTGGTAAAATGGATGAAAAATGATAATCCGCAGGAAGTGCTGGATGTGGCTACAGGAACGGGAGATCTGGCAATCACTATTGAAAAAGGAACCGGTTCTAAAGTAGTTGGATTAGATTTATCACAACAAATGCTGAATGTTGGCGTTATTAAAATAAAAAAACTTAAATTAGACGGCAAAATTTCCATGCAAAAAGGAGATGCAGAAAATTTACCTTTCGAAGACAATAGATTTGATGCTGTTTCCGTTGCATTTGGAGTGAGGAATTTTGAAAACCTTACCAAAGGTTTGGCAGAGTTGAGAAGAGTAGTTAAAGATAACAAAAGTGTTTACATACTGGAGTTTTCAAAGGTTGAGGGTTTCATGGGGCCATTTTATATGTTTTATTTTAAAAATATATTACCTGCCATCGGCAGATTGGTTTCTAAGGATAATAGGGCGTATACATACCTTCCGGATTCTGTAAATGCTTTTCCTTTCGGGGAGAAGATGAAGCAAATTCTTTTAGATACGGGATTTAAGAAAGTTGAATATAAAAAATTAAGTTTAGGTATAGCCACAATTTATAAAGCAACAAAGTAA	MTKDITKVTPYNSEATKKSQVEDMFDNIAPKYDLLNHVLSMKIDVLWRNKLVKWMKNDNPQEVLDVATGTGDLAITIEKGTGSKVVGLDLSQQMLNVGVIKIKKLKLDGKISMQKGDAENLPFEDNRFDAVSVAFGVRNFENLTKGLAELRRVVKDNKSVYILEFSKVEGFMGPFYMFYFKNILPAIGRLVSKDNRAYTYLPDSVNAFPFGEKMKQILLDTGFKKVEYKKLSLGIATIYKATK	PGPT0009535_2394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
BMS003_00103	783			hypothetical protein	ATGAATAAATTTCTATTAAAAGCACTGGTTTTAACCTCAGTAAATGTTGCCGTTTTTGCAAACGCGCAATTCAGAACCCGAAACAGAATGGATAAGTTGGAAGATTTTGACGAACAGAAATTCAGTTGGGGTTTTTATTTGAACGGGAACAGACTGGATTACCGCATTGTTTTGCATCCGAAATATGGGATGAATGATAATGAAAACCTTGTTACCTCTAAGGAAAGTTATAGTTTCGGTGCCGGGCTTATTGCAAAATGGAGACTGAATGACTATCTTGACGTAAGAATAGAACCAGGTTTACAGTTTGCACAAAGACAGTTGACTTTTAATACGCAATCCAATGACATGTATGCTGGTGGATCTTTAACCAATCCCCCTTTCATGCCATTCCCTTTACAGGAAAAGGATAAAGTAAGAGAAATTAAATCTACTTTGATTGATATTCCGGTACTTTTGGAACTTCACGGTCAAAGATGGTATAACTCAAGACCTTATGTTGCAGCCGGGGTAAACTATGTAGTTAACCTTCAGTCTAACGCAACTTCTACAGATGACAATATGCAGGGGATCTACAGATCCACAACACACAATTTTGCATGGTCTGCAGAAATGGGAATCCAGTTTTATTTCAATAAATTTAAGCTGACTCCCGCAGTAAGAGGAACATTCTTCATGAATAATGAAAAAGTGGCAGATAACGCTACTACACCTCCTTACTGGGCATCTGCTATTTCTACATTGCAGACAAGAGCTGTAATGTTCGTTCTGAAATTTGAATAA	MNKFLLKALVLTSVNVAVFANAQFRTRNRMDKLEDFDEQKFSWGFYLNGNRLDYRIVLHPKYGMNDNENLVTSKESYSFGAGLIAKWRLNDYLDVRIEPGLQFAQRQLTFNTQSNDMYAGGSLTNPPFMPFPLQEKDKVREIKSTLIDIPVLLELHGQRWYNSRPYVAAGVNYVVNLQSNATSTDDNMQGIYRSTTHNFAWSAEMGIQFYFNKFKLTPAVRGTFFMNNEKVADNATTPPYWASAISTLQTRAVMFVLKFE				NA	NA	NA	NA	NA
BMS003_00104	303			hypothetical protein	ATGCTTCAAGATTTAGAAAACAATTTTTCAGAATTAGAGAGAAAGATTTCGACTCTGCAAAAGAACTATAAAAATCTTACGGAAAATTTAAAAGAATTAAATATTGAGCATGAAGAATTGAAGAAGAAATATGATGAGGAAAGAAGAAAGAATCAGGTATTAGCAGAAGAACAAAAAAATATAAAACTTTATTCAGCAATATCAGGAAATCCTGAACACAATAGGTTAATGAAAAACCATATCAACAGATTGGTGAAAGAAATTGATTTCTGTATTGCTCAGCTTCAAAACAGTGGATTATAA	MLQDLENNFSELERKISTLQKNYKNLTENLKELNIEHEELKKKYDEERRKNQVLAEEQKNIKLYSAISGNPEHNRLMKNHINRLVKEIDFCIAQLQNSGL				NA	NA	NA	NA	NA
BMS003_00105	288			hypothetical protein	ATGGAGGTAAGGAGAATAACCGTCAACATTGCAGGAAGAGTGTATCCGCTGAACGTACCGGCAGCAGAGGAAGAAACTTTGCGTAAAGTAGGGAAGCAGATAGAGAATATGATTAAAGATTTTGAACAGAACTTCGATGTAAGAGATAAACAGGATGCTTTGGCAATGTGTGCCCTGAAACTGGGAACCAATGCAGAAGTAGTTTCTCTGAACTACGAAAAAAATATTAATTCTACCAACGAAAGGTTAACGCAGATTAACCAGTCGCTGAATGAAATCGGGAAATAG	MEVRRITVNIAGRVYPLNVPAAEEETLRKVGKQIENMIKDFEQNFDVRDKQDALAMCALKLGTNAEVVSLNYEKNINSTNERLTQINQSLNEIGK				NA	NA	NA	NA	NA
BMS003_00106	1566	rny	COG1418	Ribonuclease Y	ATGATAGAAGTTATAGTCGGTGTTGTTTGTTTAGTAATCGGTGCTGCAGTGGGAATGTTCTTCTCCAGAAGCTCTCTGAATACTAAGGCAAAATTCATCATAGATGATGCTAAGAAAAATGCCGAAAACCTTATAGAAAAAGCTAACGTACAAGCTGAATCCATAAAGAAAGAAAAAAACCTTCAGGCCAAAGAAAAATTCCTGGAACTGAAATCTCAGCATGATGCTGATATCCAGGCTCGTGAAAAGAAAATGCAGGAGGTTGAAAAGAGAACGAAAGATAAAGAGCACAAGCTGAATGATGAACTTAGCAAGGCTGGAAAACTTGAAAAAGATTTAGATAAGCAGATTGCAGACTACGCTAAGAAGAACGAAATTCTTGAAAGAAAACAACAGGAATTAGATACAGCTACTGCTAAGAAAGTAGAAATACTTGAAAAAATTTCTAATTATACAGCAGATGAAGCTAAAGCAGAATTGGTAGAAACCATGAGAGCTGAAGCCAAAACAAGAGCGCAGGCACATGTTCAGAGCATCATGGAAGAAGCTCAGATGAATGCCAAAAACGAAGCAAGAAAAATCGTTATCCAGACAATTCAGAGAATCGGAACAGAGCAGGCTATCGAAAACTCAGTATCAGTTTTCAATATTGAATCTGATGAGGTAAAAGGTAGAATTATCGGTAGAGAAGGTAGAAATATCCGTGCTCTAGAAGCGGTAACAGGGGTAGAAATTATTGTTGATGATACTCCGGAAGCCATTCTTCTTTCATGTTTTGACCCAGTAAGAAGAGAAATTGCAAGACTATCCCTTCACAGATTGGTAACCGATGGTAGAATTCACCCGGCAAGAATTGAAGAAGTTGTAGAAAAAACAAGAAAACAGATCGAAGAAGAAATCATTGAAGTAGGTAAGAGAACCATCATTGATTTAGGAATCCACGGATTGCATCCTGAACTGATCAAAATCGTAGGTAGAATGAAATACCGTTCTTCTTACGGACAAAACCTACTGCAGCACTCAAGAGAAGTAGCAAACATTGCTGCAACAATGGCGGCCGAGTTAGGATTAAACGTAAAACTAGCTAAAAGAGCAGGTCTGTTACACGATATCGGTAAAGTTCCGGAGCAGGAATCAGAACTGCCACACGCTCTTTTAGGAATGCAGTGGGCAGAGAAATATGGTGAAAACCCGGAAGTTGTTAATGCAATTGGAGCTCACCATGACGAAATTGAAATGAAGTCATTATTATCTCCGATCATTCAGGTTGCTGATGCCATTTCAGGGGCGAGACCGGGAGCAAGAAGACAGGTGCTGGAATCTTACATCCAGAGATTAAAAGACCTTGAATCTGCGGCATTAAGCTTTGATGGAGTTTCAAGTGCTTACGCCATTCAGGCAGGTAGAGAACTGAGAGTAATGGTAGAGAGCGGAAAAGTAAATGATGAAGTAGCTTCTCAGCTTTCTTATGACATTTCTGAAAAGATCCAGAATGAACTGACTTATCCAGGACAGGTAAAAGTAACAGTGATCCGGGAAACAAGAGCTGTAAACATTGCCAGATAA	MIEVIVGVVCLVIGAAVGMFFSRSSLNTKAKFIIDDAKKNAENLIEKANVQAESIKKEKNLQAKEKFLELKSQHDADIQAREKKMQEVEKRTKDKEHKLNDELSKAGKLEKDLDKQIADYAKKNEILERKQQELDTATAKKVEILEKISNYTADEAKAELVETMRAEAKTRAQAHVQSIMEEAQMNAKNEARKIVIQTIQRIGTEQAIENSVSVFNIESDEVKGRIIGREGRNIRALEAVTGVEIIVDDTPEAILLSCFDPVRREIARLSLHRLVTDGRIHPARIEEVVEKTRKQIEEEIIEVGKRTIIDLGIHGLHPELIKIVGRMKYRSSYGQNLLQHSREVANIAATMAAELGLNVKLAKRAGLLHDIGKVPEQESELPHALLGMQWAEKYGENPEVVNAIGAHHDEIEMKSLLSPIIQVADAISGARPGARRQVLESYIQRLKDLESAALSFDGVSSAYAIQAGRELRVMVESGKVNDEVASQLSYDISEKIQNELTYPGQVKVTVIRETRAVNIAR				NA	NA	NA	NA	NA
BMS003_00107	1242	nanT_1		Sialic acid transporter NanT	ATGCAAGAACTGTCTCTGTCTTCAAAACTAAAGTACATTTTCTCTATTCCCGTTATTATTTCTGCCCTGGGCTATTTTGTAGATATTTATGATCTCCTTTTATTCGGAATCGTTAGAATCCCGAGTTTAAAGGCATTGGGGCTTAATCCTGATGCTGACGGAACTTTTATTCTGAACTGTCAGATGGTAGGGCTTCTCATAGGAGGGGTATTCTGGGGAATTTTCGGAGATAAAAAAGGGAGGCTTTCTGTACTGTTTGGCTCTATTCTGGTATATTCGTTAGCCAATATAGCCTGTGGTTTTCTCCCTTACTTTCCCAAAGAGCATTTAGTGTACCAATATGCCGGTTTAAGGTTCATTGCTGGTATTGGCCTTGCCGGAGAGCTTGGAGCCGGAATTACACTGGTTTCTGAAAGCCTGCCGAAGAGTTTAAGAGCCATTGGAACCTCGGTGGTCGCCGGTTTTGGGCTAATGGGTGCTGTAGTAGCTCAGCTTACCGTAGAGCTGGCCGGAGGATGGAATATCTCCTATATCATTGGGGGTATAATGGGAATCTTGCTTTTGCTGTTAAGAATAAGCGTATCCGAATCCGGAATTTATAAGAATATTGAGCATAAAAATGTTTCCAAAGGGAACTTCCTGTCCTTTTTTACCAATAAAGACAGATTGATAAGATATCTGAAATGTATTGCTGTGGGATTACCTACATGGTACTGTATTGGGATTCTGGCCGTTTTGGCTAATCAGTTTGCCCCTGAATTAGGAATTACGGAGATCAACCCAGGAAAAGCAATTATGTGGGCTTATATAGGGATTTCTGTAGGTGATTTACTGAGCGGTTTTATCTCTCATGCTTTAAAATCACGTAAAATGGCCATCTTTTATATGCTGATCTTTACCCTGATTGGAGTAGCAGTCATGCTGTTTGGGAATACCAATACAGAAACCAAATATTACCTTTTTTGTGTATGGCTGGGCTTTGGAACAGGATATTGGGCCATGTTTGTAACGCTGGCAGCAGAACAGTTCGGAACAAATATAAGAAATACGGCAACTACAACTGTTCCCAACATGGTAAGAGGATTGGTGCCGGTGATGATATTTGCTTTTGATTCCCTTAAAGGCCATTTTCCGGTAGTGGAAAGCGCAGCTATTGTAGGAGTGGTAGTATTCGGACTTGCTTTTTATTCTTCACTTACCATTTCAGAAACCCATGACAGAGATCTTGAATTCACAGAATAA	MQELSLSSKLKYIFSIPVIISALGYFVDIYDLLLFGIVRIPSLKALGLNPDADGTFILNCQMVGLLIGGVFWGIFGDKKGRLSVLFGSILVYSLANIACGFLPYFPKEHLVYQYAGLRFIAGIGLAGELGAGITLVSESLPKSLRAIGTSVVAGFGLMGAVVAQLTVELAGGWNISYIIGGIMGILLLLLRISVSESGIYKNIEHKNVSKGNFLSFFTNKDRLIRYLKCIAVGLPTWYCIGILAVLANQFAPELGITEINPGKAIMWAYIGISVGDLLSGFISHALKSRKMAIFYMLIFTLIGVAVMLFGNTNTETKYYLFCVWLGFGTGYWAMFVTLAAEQFGTNIRNTATTTVPNMVRGLVPVMIFAFDSLKGHFPVVESAAIVGVVVFGLAFYSSLTISETHDRDLEFTE	PGPT0014435_1954	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
BMS003_00108	189			hypothetical protein	ATGAACATTATGAAAAACGCTAAAAAACTGAGAAAACAGGACTTGAAAAATATTACAGGAGGAGTAAGCGGTAAGCCGGATCTATCTCTTTGCGGATGCAGCTGCTCAGGATCTGTAACAGGCCCTTGGTATTGTATAGAGTATATGGCATGTCCTCAGGTATATACTTGTGGCGGAGCCGAAATGTAA	MNIMKNAKKLRKQDLKNITGGVSGKPDLSLCGCSCSGSVTGPWYCIEYMACPQVYTCGGAEM				NA	NA	NA	NA	NA
BMS003_00109	936			hypothetical protein	ATGAAAGATTTCATTCAGAATGAAATGACACGGAAAGTATTTTTTATTGTATTAGCGGTATTATGCCTCACGCCGCTTATATCTTCCCCCATAGCTCTTGCATTGGGATTCGGCCTGGCTGTTCTTGCAGGAAATCCTTTTGAAAAACATCTTCATTATTATATTCATCTGTTGCTGCAGATATCAATTGTTGGTCTGGGATTCGGGCTAAAGCTGGATGAGGCACTTCATGCCGGGAAAACGGGTCTGCTGTTAACGGTTGTAAGTATTGTTACCGTAATGGTTTTAGGATATTTTCTGGGAAAAGTATTTAAGCTAGAAAGACCTTTATCTTATCTTCTTTCTGCAGGAACAGCTATTTGTGGCGGGAGCGCTATTGCAGCAGTATCTCCTATTATAAAACCCAGTACGAAACAGATTTCCCTTGCTCTGGCTATTGTATTCACTCTGAATTCAATTGCACTGTTTGTTTACCCTGCTATCGGCCATCTTCTGAATCTTTCACAGGAGCAGTTTGGACTCTGGTGTGCGGTGGGAATTCATGATACAAGTTCTGTAGTAGGTGCTGCCAGTAAGTATGGAGATACAGCTTTGAAAACAGCTACCACAGTGAAGCTGGCACGTGCTTTATGGATTATCCCGGTTTCATTGATCACCATGTTCATTTTTAAAAGTAAAGATTCAAAAATAAAGATTCCGTGGTTTATCGGCTATTTTATTGTGGCGATTTTATTGAATACGTATTTCCCGTTTCTTGACCGTTTCAGTGCTTCTATCACTGTTCTGGCAAAATCCGGGTTAAATCTGACTTTATTTTTTATTGGTTCTACCCTTTCTCTTCAAACGCTGAAGTCAATAGGATTAAAACCTTTAGCTATGGCAGTTCTTCTATGGGTAACGATAAGTGTAGGAAGTCTTCTTTACATTATTCATTAA	MKDFIQNEMTRKVFFIVLAVLCLTPLISSPIALALGFGLAVLAGNPFEKHLHYYIHLLLQISIVGLGFGLKLDEALHAGKTGLLLTVVSIVTVMVLGYFLGKVFKLERPLSYLLSAGTAICGGSAIAAVSPIIKPSTKQISLALAIVFTLNSIALFVYPAIGHLLNLSQEQFGLWCAVGIHDTSSVVGAASKYGDTALKTATTVKLARALWIIPVSLITMFIFKSKDSKIKIPWFIGYFIVAILLNTYFPFLDRFSASITVLAKSGLNLTLFFIGSTLSLQTLKSIGLKPLAMAVLLWVTISVGSLLYIIH				NA	NA	NA	NA	NA
BMS003_00110	876	cysL	COG0583	HTH-type transcriptional regulator CysL	ATGTTCGATTACAGATTAAAAGTTTTCCATACGGTGGCTACACGGTTAAGTTTCACCAGGGCTTCAGAGGAGCTCCATATTTCCCAACCTGCTGTTACCAAACATATTAAAGAAATTGAAACCCAGATAGGTGCCAGGTTATTCGACCGTAAAGGAACTTCTATCCAGCTTACTCAAAGTGGAAAAATTCTTTTTGAACATGCGGAAAAGATCAGAAACATCTACCGTGATATGGAATTTGAGATCAGTCAGATCAGCCAGCAGCATAAAGGAAAGTTGATTATCGGAGCAAGCACCACTGTTGCACAGTATATTCTCCCTGAAATTTTAGCTAAATTCAATTTTTATTATAAAGATATTAATATTGAGCTTCTTACGGGAAATACGGAAACAATTTCCACCCTTTTAAAAGACGAAAAAATTGATCTGGGGATTATTGAAGGAGAATCACAGTCTTCTTATTTTGAATATAAAACTTTTAAGCCGGATGAAATTGTTCTGGCTGCAAAATCAGATCATCCGCTGGCTCATAAAACATTAAACCTAAAAGATCTTTATCAGCTGGATCTGATCTTTAGAGAACAGGGATCCGGAACGCTGGAGTTTATTCAAAACAGGCTTAAAGAAAAGGGAATCAATATCCATGATATGAATACCGTTATGCAGCTAGGAAGCAGCGAAAGTATTAAAAACTACCTTCTCCACTCAGAATGTATGGCATTTCTTTCTATCAGTACCATCCTGAATGAACTGAAAAATAATGTACTCACGGTTATTGATATCAAAAACTTCAGTATTGAAAGAGATTTCCATTTTATTCTGCCGAAAGGTGAACAGGCTGAACTCATTAAGCTTTTCCTGAGATTTGCAGAATGA	MFDYRLKVFHTVATRLSFTRASEELHISQPAVTKHIKEIETQIGARLFDRKGTSIQLTQSGKILFEHAEKIRNIYRDMEFEISQISQQHKGKLIIGASTTVAQYILPEILAKFNFYYKDINIELLTGNTETISTLLKDEKIDLGIIEGESQSSYFEYKTFKPDEIVLAAKSDHPLAHKTLNLKDLYQLDLIFREQGSGTLEFIQNRLKEKGINIHDMNTVMQLGSSESIKNYLLHSECMAFLSISTILNELKNNVLTVIDIKNFSIERDFHFILPKGEQAELIKLFLRFAE	PGPT0001160_1146	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
BMS003_00111	1308	eriC	COG0038	Chloride/fluoride channel protein	ATGTCAAAAAGTCAAAAAACACTAAGTAAAAAAGCAGTTTTTCACACTCATTTTTTCTTCAGAAAATTTCCGGCTCTGCCCTATATTGTAAAATGGCTGTGTATCAGCATCATTATTGGAGCTTTAGTGGGAACAGCTTCTGCTGGTTTTCTTCAGTCTTTGGAATGGGCAACAAACTTCAGGGAAAATCATCTCTGGCTGGTTGCATTAATTCCTGCAGCAGGATTCCTGATAGGACTTCTCTATTATTACTATGGGAAAGATGTAGAAGCAGGAAATAATCTGTTGATTGATACCATTCATGAACCCAAGGAAATTATTCCTTTTAAGATGGCTCCTTTTGTATATCTTGGAACCATTGTCACTCATTTTTTCGGAGGTTCGGCAGGTCGTGAAGGAACAGCACTTCAAATGGCAGCAGCTATCGCCGATCAGCTTACAAAACCTTTTAAACTTGACCGAAATGAAAGAAAAATACTGATTATTGCGGCTATTGCTGCCGGATTTGGCTCTGTCTTCGGGACTCCGCTGGCAGGAGCTGTTTTTGGTCTTGAAGTTTTCCTTATCGGAAGAATTCGTTACAATGCTATTTTTCCGGCATTTGCTTCTGCAATTCTGGCAGATTGTGTTACCAATATGTGGAATGTAAAGCATACCCATTATCATATTGATTTTATTCCCAAACTTGAGCTTTTACCAATCCTATACAGTATTCTGGCAGGAATAGCCTTCGGAATATGTGCTGCTGCTTTCAGTAAAATTATCCACTGGATGGGTTCTCTGTTCAAATCAAAAATCAAATATCCACCACTTCGCCCTGTTGTAGGAGGAATCATTATTGCTCTGGCAGTTTTTGCAATGGGCACAACCCGTTATATAGGATTGGGAGTTCCTGTAATTGTAGAATCTTTTGAAAAGCAACTTCCTCTGTATGATTTTGCTTTAAAAATGATCTTTACTATTGTTACCCTTTCAGCCGGGTTCAAAGGAGGTGAGGTCACTCCTCTCTTCTTTATCGGAGCTACTTTAGGCAGTGCTTTATCACTTTTTATCCCGTTACCGTTCGGGTTATTGGCAGGAATGGGGTTTGTGGCTGTATTTGCCGGAGCTACCAATACTCCCCTTGCCTGTATGCTGATGGGAATAGAATTATTCGGCGCAGAATGTGGGGTGTATGTGGCTATTGCCTGTGTTGTATCTTATCTTCTTTCCGGTCATAACAGTATTTATTCAAAGCAGAAAATTGGGGAAGCTAAAAACAGAAGGTATGAGAGCCAGCAGGATCATTCAATTTCGGAATTTTTATAA	MSKSQKTLSKKAVFHTHFFFRKFPALPYIVKWLCISIIIGALVGTASAGFLQSLEWATNFRENHLWLVALIPAAGFLIGLLYYYYGKDVEAGNNLLIDTIHEPKEIIPFKMAPFVYLGTIVTHFFGGSAGREGTALQMAAAIADQLTKPFKLDRNERKILIIAAIAAGFGSVFGTPLAGAVFGLEVFLIGRIRYNAIFPAFASAILADCVTNMWNVKHTHYHIDFIPKLELLPILYSILAGIAFGICAAAFSKIIHWMGSLFKSKIKYPPLRPVVGGIIIALAVFAMGTTRYIGLGVPVIVESFEKQLPLYDFALKMIFTIVTLSAGFKGGEVTPLFFIGATLGSALSLFIPLPFGLLAGMGFVAVFAGATNTPLACMLMGIELFGAECGVYVAIACVVSYLLSGHNSIYSKQKIGEAKNRRYESQQDHSISEFL				NA	NA	NA	NA	NA
BMS003_00113	468		COG1607	putative acyl-CoA thioester hydrolase	ATGCAGAACAAGCCTATTACTTTTCAGTTTATTTCGGAGCCTTCGGATGTTAATTACGGAGGAAATGTACATGGAGGAAGTGTTATGAAATGGATTGACCAGGCAGGTTATGCATGTGCAACAACCTGGAGTGGTAATTATTCTGTCACAGTATATGTTGGCGGAATTCGCTTTTATGATCCTATTAAAATCGGAGAAGTTGTAAAAGTAGATGCCCAGGTGATCTATACCGGAACATCCAGCATGCATATTGCCATCAATGTTTTTTCGAGAAACCTGAAACAACCTAATTTTGAGAAGAAAACCCACTGTATTATTGTTTTCGTGGCCGTAGATGAAAATGGTAAAAAACTGCCTGTACCGAAATGGATACCGGAAACAGAAGAAGAAAAGCAGCAGGAACTTTATGCTAAACGCCTGATGGAACTGAGAACGCAGATTGAGGATGAGATGAAACCGTTTTTGTAG	MQNKPITFQFISEPSDVNYGGNVHGGSVMKWIDQAGYACATTWSGNYSVTVYVGGIRFYDPIKIGEVVKVDAQVIYTGTSSMHIAINVFSRNLKQPNFEKKTHCIIVFVAVDENGKKLPVPKWIPETEEEKQQELYAKRLMELRTQIEDEMKPFL				NA	NA	NA	NA	NA
BMS003_00114	357	spxA		Regulatory protein Spx	ATGAAGAAAGTATTTTATCTCAACACATGTGATACCTGCAGAAAAATTTTAGCCCAATTTGACCTTACAGACTGGGAACTTCGCGAAATCAAAAAAGAGCCGATCACGAAAGAAGAATTGGCGGAAATACATAAAAAAACAAAATCATACGAAGCATTGTTCAGTAAAAAATCTACTCAGATCAAATTAAGAGGTCTGGATGTAAAATCTTTGGCAGAGAAAGATTTTAAAGAATTATTGCTGGATCATTATACCTTCCTGAAAAGACCTGTCTTTATGACTGATAAGGAGATTTTTGTAGGAAATGATAAGAAAAATGTAGAAGAACTGCAGAAGTTTTTTGGTGTACATGAATAA	MKKVFYLNTCDTCRKILAQFDLTDWELREIKKEPITKEELAEIHKKTKSYEALFSKKSTQIKLRGLDVKSLAEKDFKELLLDHYTFLKRPVFMTDKEIFVGNDKKNVEELQKFFGVHE	PGPT0004720_2470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS003_00115	189			hypothetical protein	ATGAAAACAAACTTTTCAAAAACAAAGAATCTGAACAGGTCTGCTTTAAAGGAAATTAATGGTGGAGGGAAAACCCTTCCGGTTAACTGTAATACATTATGTTGGCCTGCAGGCGGAGTGGTTTCCAATACTCCCGGAGTAGGTGATGTCTGTTCTCCTGACAGAAAACTCTGCTGTATCTGTTATTAG	MKTNFSKTKNLNRSALKEINGGGKTLPVNCNTLCWPAGGVVSNTPGVGDVCSPDRKLCCICY				NA	NA	NA	NA	NA
BMS003_00116	1077	gcvT_1		Aminomethyltransferase	ATGAAGAAAACAGCCTTGTACGACAAACATGTTTCTTTGGGAGCGAAGATCGTACCTTTCGCAGGTTTTGAAATGCCTGTTCAATATTCAGGGGTAACAGAAGAGCACTTCGCAGTAAGAGAAAAAGCAGGATTATTTGATGTTTCCCACATGGGACAGTTTTTCATCGAAGGACCGGGCTCAAAAGACCTTCTGCAGTTTGTAACTACCAACAACGTAGATGCACTTGAAAACGGAAAAGCTCAGTATTCTTGTCTTCCGAACGAAAACGGAGGAATTGTAGATGATCTTATTGTTTACAAAATGGAAGATGATAAATATTTTGTAGTGGTAAACGCATCTAATATCGACAAAGACTGGAACCATATTTCAAAATATAATACTTTCGGGGCTAAAATGACCAATGCTTCTGATGAAATGTCTTTATTGGCAGTTCAGGGGCCTAAAGCTACTGAAATCCTTCAAAAACTTACGGAAGTAAACCTTTCGGAAATTCCTTACTATCATTTCACTGTGGGAAGTGTTGCAGGAGAAAATAACGTAATCATTTCAAATACAGGATATACAGGAAGCGGAGGTTTTGAGATCTATTTCAACAATGAGAGTGCTGAAAAGCTTTGGGATGCTGTAATAGAAGCTGGCAAAGAAGAAGGAATTATCCCTTGCGGGCTGGCTGCCAGAGATACTTTAAGACTGGAAAAAGGATTCTGCCTTTACGGAAATGATATTGATGATACTACTTCTCCTATTGAAGCCGGTTTAGGATGGATTACGAAATTTGATAAAGACTTCGTTTCTAAAGATGTTTTCGCAAAACAGAAAGAAGAAGGAGTTGGAAGAAAATTAGTTGGTTTCGAATTGACAGACAAAGGAGTTCCAAGACACGATTATCCTGTAGTAGATGCTGAAGGAAATGTGATCGGAAAAGTAACTTCCGGAACACAGTCTCCAATGAAGAAAGTAGGTTTAGGTCTTGCTTATGTAGACAAGCCTCATTTCAAATTAGGATCTGAAATCTTTATTCAGGTAAGAAATAAGAACATTCCTGCAAAAGTGGTGAAAGCTCCTTTTGTATAA	MKKTALYDKHVSLGAKIVPFAGFEMPVQYSGVTEEHFAVREKAGLFDVSHMGQFFIEGPGSKDLLQFVTTNNVDALENGKAQYSCLPNENGGIVDDLIVYKMEDDKYFVVVNASNIDKDWNHISKYNTFGAKMTNASDEMSLLAVQGPKATEILQKLTEVNLSEIPYYHFTVGSVAGENNVIISNTGYTGSGGFEIYFNNESAEKLWDAVIEAGKEEGIIPCGLAARDTLRLEKGFCLYGNDIDDTTSPIEAGLGWITKFDKDFVSKDVFAKQKEEGVGRKLVGFELTDKGVPRHDYPVVDAEGNVIGKVTSGTQSPMKKVGLGLAYVDKPHFKLGSEIFIQVRNKNIPAKVVKAPFV	PGPT0008130_4708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS003_00117	474			hypothetical protein	ATGATAAAAAAGATATTATTTTCTGCAGCCGTTTTCACGGGAAGCTTATTTTTTGCCCAGAAAGCAAGTGTGTATGATAGTCCGAATTATTCTATCAATGTTCCCGGAGGCTGGAAAAGTACCAATGACAGTGAAATCATCAATATCTTTCCTACAAGCCAGATAGGAGCTATTACTATTTCGGAATATCATGATCTCTCTCTTCCCAAAGAGGAAGTGAAAAAATTCATTCTGGCTCTTTACCAATCAGAAGATCCTGAGAACAAAGTAAAAGAAAAAAAGAGTCAGAAAGGATATACCGAATATCTGTATGAACACTTTGATGAAAAGGAAAAGCTGTTCTGGATAACCAAAGCTTTTCAAAAAGACAAAAACTTATATTTAGTTTCCATTAACTGTGGCCAGAAATTCTGGAACGGAAACTATATGACCCTATTTAATGAGACTTTTAATAGTTTTAAAATAAAGAAATAA	MIKKILFSAAVFTGSLFFAQKASVYDSPNYSINVPGGWKSTNDSEIINIFPTSQIGAITISEYHDLSLPKEEVKKFILALYQSEDPENKVKEKKSQKGYTEYLYEHFDEKEKLFWITKAFQKDKNLYLVSINCGQKFWNGNYMTLFNETFNSFKIKK				NA	NA	NA	NA	NA
BMS003_00118	510	idi	COG1443	Isopentenyl-diphosphate Delta-isomerase	ATGGAAGAATTTGTCGTTTTAGTAAATCCTGAAGATGAAGTTTTGGGGCTGATGGAAAAACAGCAGGCTCACATCAATGGCCTGTTACACCGTGCTTTTTCTGTATTTCTGTTCAACAGTAAAGGAGAAATGCTTCTTCAGAAAAGGGCGTCAGGAAAATACCATTCTCCCAATCAATGGACCAATGCTGTATGCTCACACCCCAGACAAGGGGAAACTTATAAAGAGGGAGCTGTACGCAGGCTGAAAGAAGAACTGGGAATTGAGGCTGAACTTTCAGAAAAATTCCATTTTATTTACAAAGCAGATGTAGGAGGCGGCCTTTGGGAACATGAACTGGATCATGTATTTGTAGGAAATCACGAAGCTGATTTTAATTTGAATAAAGATGAAGTGGAAGAGGTACGATTCATTTCTCCTGAAGATCTTGATAAGGAAATTGCCGAACATCCTGAAAACTTTACGGAATGGTTCAAAATCATCCTGGAAGAATACAAACACCATTTTTAA	MEEFVVLVNPEDEVLGLMEKQQAHINGLLHRAFSVFLFNSKGEMLLQKRASGKYHSPNQWTNAVCSHPRQGETYKEGAVRRLKEELGIEAELSEKFHFIYKADVGGGLWEHELDHVFVGNHEADFNLNKDEVEEVRFISPEDLDKEIAEHPENFTEWFKIILEEYKHHF	PGPT0007530_3294	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
BMS003_00119	411			hypothetical protein	ATGGAATTAGAATACATTGAACACATTAGTCCTATTCTAAAGGATGGAATAAAAAATTACTTAATAGATATCGACGGAACCATTACTGATGACGTTCCCAATGAAGAACCGGAAAGAATGGTTACCTGCGAACCATACCCTGATGCACTGGAAACCATTAACAAATGGTATGACGAAGGACATCAGATCTGCTTTTTTACTTCAAGAACCGAAAATCTGAAACAAATTACAATAGACTGGCTGGATAAGCATGGCTTCAAATATCACAGCGTACTTTGCGGAAAACCAAGGGGAGGAAATTACCACTGGATAGACAATCACCTGGTAAGAGCTACAAGATATAAAGGAAGATTTACGGATTTGGTTGAGAAGCAAGTGACCATTGAAGTATTCAAAGAAGAAGGCGAATAA	MELEYIEHISPILKDGIKNYLIDIDGTITDDVPNEEPERMVTCEPYPDALETINKWYDEGHQICFFTSRTENLKQITIDWLDKHGFKYHSVLCGKPRGGNYHWIDNHLVRATRYKGRFTDLVEKQVTIEVFKEEGE				NA	NA	NA	NA	NA
BMS003_00120	960		COG0111	Hydroxypyruvate reductase	ATGAAAGTTTTAGCAAACGACGGCCTGGATCAATCCGGAATAGATGCATTGACAGAAAAAGGCTTTGAGGTGATTACTACAAAAGTTCCACAGGAGTTTTTGGTAGATTATATTAATGAACATAAGATTCGTACCCTGTTGGTAAGAAGTGCTACACAGGTAAGAAAAGATATTATTGACGGATGCCCATCCATAGACATTATTGGTAGAGGTGGAGTAGGTATGGATAATATTGATGTGGACTATGCAAGAGAAAAAGGAATCCACGTGATCAATACACCTTCTGCTTCCTCAGAATCTGTGGCTGAGCTTGTTTTTGCACATTTATTTTCGGGCGCAAGATTTCTTCAGGATTCCAACAGAAAAATGCCTTTGGTAGGAGATACTGAATTTGCAGGTCTTAAGAAAGCATATGCTGCTGGCATAGAACTGAGAGGAAAGACCATTGGAATTGTGGGAATGGGAAGAATAGGGCAGGAAGTGGCAAGAATTGCTTTAGGACTTGGGATGAGAGTTGTGGCAGCTGATAATAACGTGGGAAGAGCTAGCATTAAAGTGAAGTTCTACAACAACCAGTTTATCAATGTTGACATCGAAACTGAACCGCTACAGGAAGTACTGAAGCATTCAGACTTTATTACGTTACACGTTCCGGCGCAGAAAGATGGTTATATGATTGGCCAGAAAGAGTTCGAAATGATGAAAGAAGGCGTGGCTGTTGTGAACTGTTCCAGAGGGGGAGTTATTGATGAAGCCGCTTTAATTCAGGCTTTGGATTCTGGTAAGGTAAGGTTTGCAGGATTAGACGTTTTCATTAATGAGCCAACACCTTCCAAAGAAATTCTTACTCATTCTAAGATCTCTCTTACCCCTCACACGGGGGCATCTACTCTTGAAGCACAGGATAGAATAGGGCTGTCCCTGGCAGAGCAGATTTCAAGTATTTTGCAGATTCAATAA	MKVLANDGLDQSGIDALTEKGFEVITTKVPQEFLVDYINEHKIRTLLVRSATQVRKDIIDGCPSIDIIGRGGVGMDNIDVDYAREKGIHVINTPSASSESVAELVFAHLFSGARFLQDSNRKMPLVGDTEFAGLKKAYAAGIELRGKTIGIVGMGRIGQEVARIALGLGMRVVAADNNVGRASIKVKFYNNQFINVDIETEPLQEVLKHSDFITLHVPAQKDGYMIGQKEFEMMKEGVAVVNCSRGGVIDEAALIQALDSGKVRFAGLDVFINEPTPSKEILTHSKISLTPHTGASTLEAQDRIGLSLAEQISSILQIQ	PGPT0009155_6665	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS003_00121	378	mscL	COG1970	Large-conductance mechanosensitive channel	ATGGGATTTGTAAAAGAATTTAAAGAGTTTGCCTTTAAAGGAAATGTTCTCGATCTTGCTGTAGGTGTGATCATTGGTGCAGCATTTGGTAAAATTGTTTCGTCTCTGGTAGAAGATGTCATCACTCCTCTGATCCTCAACCCTGCATTGAAAGCGGCCGGAGCGGAGAACATCGCAAAACTTAACTGGAATGGTGTTGCTTACGGAAATTTCATTTCAGCTGTAATCAGTTTCCTTTGCATTGCTATGGTACTTTTCTGGATCATTAAGTTTGCAAATAAAGTAAATAAGAAAGAAGCTGAGGCTCCGGCAGGCCCTACCGAAGATCAAAAATTACTGACAGAGATCAGGGATTTATTAAAAAGCAAAAACATATAA	MGFVKEFKEFAFKGNVLDLAVGVIIGAAFGKIVSSLVEDVITPLILNPALKAAGAENIAKLNWNGVAYGNFISAVISFLCIAMVLFWIIKFANKVNKKEAEAPAGPTEDQKLLTEIRDLLKSKNI	PGPT0013771_2723	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
BMS003_00122	1518	nnr	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGAAAATTTTTACTGCAAAACAGATCCGCAGCTGGGATCAGTTTACGATTTCCCAGGAGCCGGTTTCATCTGTCCAACTCATGGAAAGAGCTTCGATGGCAGTAGCGCACTGGATTTCAGAACACTGCAAAAATCACAAAAAACTGGCTGTATTTTGTGGCAACGGAAATAATGGAGGAGATGGCCTGGCATTGGCAAGAATTCTTTACCTGAAAGGCTTTGATGTAGATGTGTTTGTGGAAGATCCTAAGGGTAAATTTTCAGATGATGCCTCCGTCAACCTGAAAAGGCTTAGGGACATATCGGGTATTTCGGTCATGAAATTTGATCAGAGTGAACACTATACTTTTGATGATAAAACAATCATTATTGATGCCCTTTTCGGAACCGGATTATCCAGGCCGCTGGATGGTGGAAATAAAGTACTCGTTGAGCAGCTGAATGCTGAAAAAAGTATTAAGATTTCCATTGATATTCCTTCAGGGCTGTCTGCAGATGAAATATTTGATCAGGATTCTGTTATTCTGAAGGCTGATTATACCTTGACTTTTCAATCTTGGAAAAAAACATTCCTCCATCCTGAAACAGGAAAATATACCGGGAAAGTGGAAGTGCTGGATATAAGTTTGAGTAAAGCTTATTCTGAATCAATTGAAACAGCGTGTTTTGTAATTGATGACTCTTTTGTTGAATCCATATTTAAATCAAGACCCGGATTTTCTCACAAAGGAAATTATGGAAAAGCTGTTATCGTCGGAGGAAGCTATGGGAAGATAGGAGCCGCAGTTCTGGCTACAAAATCTGCTCTGAAATCCGGAGCTGGCTTAACCTTTACCCTTGCACCGGAATGTGGCTATCAGATATTGCAGACTTCATGCCCTGAAGCCATGTTTATAAAAGGAGGTAAAGAGTTCATTACAAATTTTGAAATTGAAAAAGATTTTACCTGTGGAATCGGACCTGGATTGGGAACTGATTCAGAAACAGAGAAAAGCCTTCTGAGCTTTCTGAAAAATTATGAAAAACCATTGATCCTGGATGCTGATGCATTGAATATTATTTCAAAAGATCCTGGAAATCCTGATTTAATACCTAAGGGATCTGTTATTACTCCTCATCCGAAGGAATTTGAAAGACTTTTCGGGAGTACAGAAGATTCTTTTAAAAGGCTTGAACTGGCAAGAAAAAAAGCAGGAGAACTGAATATGTATATCGTTCTCAAAGACCATCATACCCAGGTTATTACTCCGCAGGGAAATGTATTTTACAATATAACAGGAAATTCAGGGCTGGCAAAAGGAGGAAGCGGGGATATTCTTACAGGGATACTGACTTCACTTTTAGCACAGGGGTATTCTCAGGAACAAACTTGTATTTTAGGCGTGTGGCTTCATGGGAAAGCTGCTGATTCTGCGGCTGAAAAATATTCAAAAGAAGCAATGCTGCCAAGCAATGTTATTGACGAATTTGGGAGTGTTTTTGAAGAGTTGAACAGGAAAGTGAGGAGAATTTTGTAA	MKIFTAKQIRSWDQFTISQEPVSSVQLMERASMAVAHWISEHCKNHKKLAVFCGNGNNGGDGLALARILYLKGFDVDVFVEDPKGKFSDDASVNLKRLRDISGISVMKFDQSEHYTFDDKTIIIDALFGTGLSRPLDGGNKVLVEQLNAEKSIKISIDIPSGLSADEIFDQDSVILKADYTLTFQSWKKTFLHPETGKYTGKVEVLDISLSKAYSESIETACFVIDDSFVESIFKSRPGFSHKGNYGKAVIVGGSYGKIGAAVLATKSALKSGAGLTFTLAPECGYQILQTSCPEAMFIKGGKEFITNFEIEKDFTCGIGPGLGTDSETEKSLLSFLKNYEKPLILDADALNIISKDPGNPDLIPKGSVITPHPKEFERLFGSTEDSFKRLELARKKAGELNMYIVLKDHHTQVITPQGNVFYNITGNSGLAKGGSGDILTGILTSLLAQGYSQEQTCILGVWLHGKAADSAAEKYSKEAMLPSNVIDEFGSVFEELNRKVRRIL				NA	NA	NA	NA	NA
BMS003_00123	1275	lgt_1		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGAATACTATTTTTTTCAGAATTTATCTTGTGCTTTTTGCGTTTACCACGCAGCTTCTTTTTGCGCAGGAGTACCCTGGAGGTTTATCTGACGGAACTTTAGATGTCAACGGAAACAATGTTCCGGTAAAAATCTATTCTACTACAGAAATGGGAGACCTGACAGCTTTTCCGGACAGAGAATCAAATAAGAGCTATTCTTTCGTTGTGATCCTTAACGGATCCAGCCTTGAACCAGCTTATTATAATTATGCAGCTTCGGCGTTAGGAAGGTTCAAGGATTCTAAGTATCAGTTTTTTGATAAAAATTTTAAGCTGATAGATGCCTCTGCTACTCCTGAGAATGTTACTACCTTCAAATATGCGGTAAAATTAGCAAAACCTATCACAGATTCTGACAAAGTAGAACTTAAAACTTCCTTTAAAATATGGGATCCTTCAAAAGGGATTCATATAGGATCTTTTACTCTACACTTTTATAGTTTAATGTTTGTGTTTGCCTTTGGTTTCGGATATGTTTTAATGACCAGAATCTTTAAGATTGACAATGTAAATCAGAAATACCTTGAACCTCTTTTCACATGGACATTGATCGGGACTATTCTGGGAGCAAGATTAGGACATGTTATTTTCTACCAGCCGGAATTATTCAAAGAAGATTTCTGGAGTGTATTTTTGCCGATTAGTACGAAAAATGGTTTCAAATTCACAGGATTTTCTGGATTAGCGAGCCATGGAGCGACCATCGCTTTGATTTTCACCACATTATACTATTCATTCAAAATCATTAAGAAAAATCCTTTCTGGGTATATGACAGATTGGGTATTGTAGTGGCTTTAGGAGGCACTTTTGTAAGGATGGGGAATTTTTTCAATTCTGAAATTGTTGGCAAACCAGCTGATCCCAATTCTCCGTTCGCTCTTCTTTTCCCGCAGCAGAGCAGTGAATATGGCCTTACTGTACCCCGTTACCCAAGTCAGTTATTCGAAGCTGCAGGATATATTCTACTGTTCATTTTACTATGGATATTGTACAGAAAAACAGATAAAAAATATCAGCAGGGCTGGTTGTTTGGGCTGTTCTTTATTATTCTCTGGGCAATCAGGTTCTTTGTAGAGTTCCTGAAAGAGCCACAAGGAGATGAGTTCATTCAGATCGGTGGTCTGAATACAGGTCAGGTCCTTTCTATTCCTTTTATGCTTGCAGGAGTTGTCATCATGATTGTTTCTAAGAAATTTAAAATCACTCCGGCAGAAAACGAAAAACCGGAATAA	MNTIFFRIYLVLFAFTTQLLFAQEYPGGLSDGTLDVNGNNVPVKIYSTTEMGDLTAFPDRESNKSYSFVVILNGSSLEPAYYNYAASALGRFKDSKYQFFDKNFKLIDASATPENVTTFKYAVKLAKPITDSDKVELKTSFKIWDPSKGIHIGSFTLHFYSLMFVFAFGFGYVLMTRIFKIDNVNQKYLEPLFTWTLIGTILGARLGHVIFYQPELFKEDFWSVFLPISTKNGFKFTGFSGLASHGATIALIFTTLYYSFKIIKKNPFWVYDRLGIVVALGGTFVRMGNFFNSEIVGKPADPNSPFALLFPQQSSEYGLTVPRYPSQLFEAAGYILLFILLWILYRKTDKKYQQGWLFGLFFIILWAIRFFVEFLKEPQGDEFIQIGGLNTGQVLSIPFMLAGVVIMIVSKKFKITPAENEKPE				NA	NA	NA	NA	NA
BMS003_00124	1278	rarA	COG2256	Replication-associated recombination protein A	TTGAATCAAAATATTCCATTAGCCGAAAAACTGAGACCCAAGACTCTGAATGATGTACTGGGGCAGGAACACCTTACCGGCGACAAAGGAACGATCAGAAAAATGATCGAAAATAATACTCTGAATTCGCTGATACTCTGGGGGCCACCAGGAACCGGAAAAACCACATTGGCTGAAATTATTTCTGAGCAGTCGGGGAGAAAGTTTTATAAGCTTTCCGCAGTTTCTTCGGGAGTGAAAGATGTAAGGGATGTGATTGATGATGCCAAGAAGCAGAATCTGTTTTCAGGAAAGTCACCCATTTTATTTATTGATGAGATTCATCGGTTCAATAAATCTCAGCAGGATTCTTTACTGTATGCTGTAGAGAAGGGCTGGATAGTGCTGATTGGAGCGACTACGGAAAATCCAAGTTTTGAAGTGGTGTCGGCACTGCTTTCAAGAAGCCAGGTGTATATATTAAAAGCTTTGAGCTACGAAAAACTGGAAGAACTGATTGACATTGCTTCCGAAAGATTCAATAAAGATGAAGGAACGGATTTTAAAATCCTTGAAAAAGAAGCTTTCATTCAATATTCCGGTGGTGACGCCAGGAAACTGATCAATTCTGTAGAATTGGTTTTAAATCAATATAAAAACTCCGGTACAACGGAAATTATTAACTCTGATGTGTTGGAAGTTCTTCAGGAGACAATGGCTTTGTATGATAAAAACGGAGAACAGCATTATGATATTATTTCAGCTTTTATCAAGTCAATGCGCGGAGGTGATCCAAACGGAGCTGTGTATTGGCTGGCAAGAATGATTGCCGGAGGTGAAGATATCAAGTTTATCGCAAGAAGAATGCTTATTCTGGCTGCTGAGGATGTAGGATTGGCTAATCCTAATGCTTTGGTGGTGGCTAATAATTGCTTCCAGGCGATTAATGTGATCGGGAATCCTGAAGCTAGGATTATATTAAGTGAAACAGCAGTGTATCTTGCAGTTTCGCCTAAAAGTAATTCGGCTTATATGGCAATCAACGAAGCTTTAGCTTTGGTGAAACAAACAGGAAACCTGCCAGTACCTCTTCATTTAAGAAATGCTCCTACAAAACTGATGAAAGATCTGGATTATGGAAAAGAATATAAGTATGCCCATTCTTATGAAGGAAACTTTGTAGAGCAGGATTTTCTTCCTGAGGAAATCAGAAATGTGAAGCTGTATGAGCCAGGGAATAATGCTACTGAAAAAAAGATTTACGAAGAGCTTAAGAAAAAGTGGAATAATAAATATTAA	MNQNIPLAEKLRPKTLNDVLGQEHLTGDKGTIRKMIENNTLNSLILWGPPGTGKTTLAEIISEQSGRKFYKLSAVSSGVKDVRDVIDDAKKQNLFSGKSPILFIDEIHRFNKSQQDSLLYAVEKGWIVLIGATTENPSFEVVSALLSRSQVYILKALSYEKLEELIDIASERFNKDEGTDFKILEKEAFIQYSGGDARKLINSVELVLNQYKNSGTTEIINSDVLEVLQETMALYDKNGEQHYDIISAFIKSMRGGDPNGAVYWLARMIAGGEDIKFIARRMLILAAEDVGLANPNALVVANNCFQAINVIGNPEARIILSETAVYLAVSPKSNSAYMAINEALALVKQTGNLPVPLHLRNAPTKLMKDLDYGKEYKYAHSYEGNFVEQDFLPEEIRNVKLYEPGNNATEKKIYEELKKKWNNKY				NA	NA	NA	NA	NA
BMS003_00125	438			hypothetical protein	ATGAAAAAATCACTCTATTCTTTTTTAATACTGTCTTCTGCCACTTTATTTGCACAGCAAAAAAATCCGGCTGTGAAGTTTGCAGTTGCAGACAATGCTATTGGAACAGTAGAATTATTCAATGCGAAAAAAAACGTATTGCAGGTTTCGAAAGTATACAATTCTCCGGCAAGCCTTCCCCAGAATTTAAAGAAGTACAGCTCTGTTTTTACAAAAGGGGTGACTGAATACAAATTTAAAAACGGAGAAAATATATTTGACAGAATGGCATTATCCAATCTGAATGCTCAGTATAACATTCCGGCAGATAACCCAGTATTTATTGAAGGATATGAATTCACGGATACTAATACCATGATCTATCCTGAAATAAAGAAAAGAGCAGAAACAAAGGATTACAACGGTAAGAAAACATTGTTTATCTATACTGCCGAATAA	MKKSLYSFLILSSATLFAQQKNPAVKFAVADNAIGTVELFNAKKNVLQVSKVYNSPASLPQNLKKYSSVFTKGVTEYKFKNGENIFDRMALSNLNAQYNIPADNPVFIEGYEFTDTNTMIYPEIKKRAETKDYNGKKTLFIYTAE				NA	NA	NA	NA	NA
BMS003_00126	2232			hypothetical protein	ATGAATGAATTTGTTGCTGCCATAATTTTTATAATAATCTTCATTATTTTCAACAATCTGAATACTAAAATCAGAAAATTGGAAAAGGAAATCTCTGACCTTAACCATAAAATTAATAAGGCCTCAGCCCAGACCGAAAGAGTTTATAAAAAAGCAGCAACGGAAGAAACTATTATTCCACAGACAAAATACTCCCCTCAGTCTGATCATGAAGATGCAAAACAGAACGAAAAGGAAGAGAAAATTCCGGTATCGGATCAAAAAGACCGGCTCACTCCTGCTTTTGATTTCTTAAAACAAAATGCACTTACTATTATTGGTATCTTCACCCTTGTTCTCGGAATTGGTTATTTTGTTAAATATGCTGTTGATAAAAACTGGATCGGAGAAACATCGAGGGCAATCATTGGCTTCTGTACCGGAACCGGAATTATTATTACCGGACGTTTTATAAGAAAGAATTACATTGCATTTTCTTCTATTATAACCGGCGGAGGTGTTGCCGTTTTATATTTCACGGCTACTATTGCTTTTCGGGAATACCATGTATTCACACAAAATACGGCATTTCTTATCACAGTCCTGATAACTGGGGCATCCATCATCCTATCCTATTATTACAGAAGTGAAGTTCTTATTATTTTTTCATTAATAGGAGGTTTTGCTGCTCCTATGATGATCAGCACAGGACAAAGCAACTATCTGTTCCTTTTTATTTATATTTCTCTTTTAAATACAGGAATGCTGACTGCTTCTTTTCTTCAGCACTGGAAAAGCGTAGGATGGGCAGCTTATATTTTTACCACAGCCTATCTTTTTCACTGGACGAATGAGCATCCGGAAACTTTAAGCATTGTATTCTATCTGATCAGCTATGTGACTTTCTACATTTTTGCCCTGCATGATTATTTCAGGAAAAATATACTTTCAATATCTGATATTTTAATACTTGCTCTGGCTAATTTCTCAAGTATCCTTGGCCTGATTTATATTTTTAAAACATTGGGCTACGAACCACTCATCATCTTCCCTCTTATTTTTGCAGCTGTAAATTCTATTCTGCTTTTTAGAGAATACGGAAGAAAAAACTTTGGTATTGCTTATTCTGTATTTGCAGGACTGGTCACCAGCTTAATAACCACAGCAATAGCTATACAGTTTAAAACCCACTTCATTACCAGTATCTGGGCTATTGAAACTACTCTTCTCCTTTTCATCTGGAAAAAGACCGGACATACTATTTTCAAAACTTTCTTCTATATTCTTTTTCCAATAGTTATGATAGCTCAGGTTGTAACCTGGACAGAATATCTGGGAAGTGATACCCTGAATATTATATTCAATCCTCCATTTATTACCAGTTCATTTACAATAATTTCTATTATTGCCAATTTATTCCTGTTAAGAAATAAAAAACAGGAATTTGAAGAAAAAACAACAAATTTCTTTGAAGACCTCATTACCGTCGCAAGTTATGGAGTTATTTATATTACCTTTCTTCTTGAGATCATTTACCATATTTCAGATATGCCATGGCCGGCAGTTACTGATATAGGAGTGTTATTTACAATATACTATATTTTTACACTATTATTATTCAGAAAACTGCTGAATATAAAAAATGATATACAGAACGTTCTTATTTATCTGCTTTTTATTCTGGCCATCTTTAATTTATCAGGATCTGTATCCTCTATGATTCCTCTTGTTTTAACAAAAAAGCTGCATTCAGGTTTTTATTTACTTCATCTGCTTCAGTGGATACCTTTTATATATACATGTTTCAGAATCATTCCTTTTTCTGAATTTCATAAACGCCAGACCTCTTACTGGATCATGGCTTTAGCCGTTATCGTCTGCGTGAGTTGTGAACTTCATCATTCCTATGTTGTAATGGTATCCAGTGATATTCCTTATTCTTATGAGGCAAGCAGGCATTTCAATATACTTTACCTTCCTATTATATGGACTATTCTTGCCAGCATTTTTATTTATATTGGTTTGAAAAAAAATATCCAGGAATACAATAAAATCGGTTTTGTATTGGTAGGTCTTATGGTATTAAAGCTTTATGGTTATGATGTCTGGCAAATGGATAATATTTCAAGAATCAGTGCTTTCATTGCACTGGGGATCATTCTACTATTAAGTTCTTTTACTTTTCAGCGGCTGAAAAACATTATCAGAAATATGGTAGATAAAAAAGAAAAAACTGAAGAAAACACAGACTGA	MNEFVAAIIFIIIFIIFNNLNTKIRKLEKEISDLNHKINKASAQTERVYKKAATEETIIPQTKYSPQSDHEDAKQNEKEEKIPVSDQKDRLTPAFDFLKQNALTIIGIFTLVLGIGYFVKYAVDKNWIGETSRAIIGFCTGTGIIITGRFIRKNYIAFSSIITGGGVAVLYFTATIAFREYHVFTQNTAFLITVLITGASIILSYYYRSEVLIIFSLIGGFAAPMMISTGQSNYLFLFIYISLLNTGMLTASFLQHWKSVGWAAYIFTTAYLFHWTNEHPETLSIVFYLISYVTFYIFALHDYFRKNILSISDILILALANFSSILGLIYIFKTLGYEPLIIFPLIFAAVNSILLFREYGRKNFGIAYSVFAGLVTSLITTAIAIQFKTHFITSIWAIETTLLLFIWKKTGHTIFKTFFYILFPIVMIAQVVTWTEYLGSDTLNIIFNPPFITSSFTIISIIANLFLLRNKKQEFEEKTTNFFEDLITVASYGVIYITFLLEIIYHISDMPWPAVTDIGVLFTIYYIFTLLLFRKLLNIKNDIQNVLIYLLFILAIFNLSGSVSSMIPLVLTKKLHSGFYLLHLLQWIPFIYTCFRIIPFSEFHKRQTSYWIMALAVIVCVSCELHHSYVVMVSSDIPYSYEASRHFNILYLPIIWTILASIFIYIGLKKNIQEYNKIGFVLVGLMVLKLYGYDVWQMDNISRISAFIALGIILLLSSFTFQRLKNIIRNMVDKKEKTEENTD				NA	NA	NA	NA	NA
BMS003_00127	711			hypothetical protein	ATGAAAACTAAACTTTACAGCTTAATGTTAGCGTGTGCAACTCTACCATTATTTTCACAAGTTGGTATCAATACACCTATTCCAACAGCTACTTTAGATGTTAACGGAACTTTAAAAGTCCGAGACACTCCTATGGCCACAGCGCTACCCGGTTACCAGATATTAGCAGTTAACCAGGGAACCACTCAGGTTTTCTCTATGGATCCAGAAGTAATAATAACAGCTTCAGGAATTAATACCTCTGTGTATACTGCAAAAAAAACGAGTGGGCTAAATATTCTGAATTTAGGAATTTTACCATCAGGCTTCCAGCCTGTAAACTTTGTACAAACTGACAGAACTATAGGGTCTGCCTCTTTATTTACAAATGCTGACGGATCATACAATATCCCATCAACGGGTATATACGCTGTTGGATTTGCCTTCAGATACGGAACAGGGCTGCAGGCATCTTTATTATCCGGAGCTCCGGGTATCGCAATAGCGAGAACCAGATCTGCAGTAACAACGCTAATAGATACACGACCGTTTAGCGGTATCAATCTTGCATTAGCAATCAACCTTACACTTTCTGATTCCAGCATCAACTCCTTATACTCTTTTCAGGCAGGAGACAAGGTTTCATTCGGACTTGTGGATACAGGAAATATCAGTGTAGGTCTATTAGGATCCAGTATAGCATCCTTCTACATTTACAAAGTATCAAACTAG	MKTKLYSLMLACATLPLFSQVGINTPIPTATLDVNGTLKVRDTPMATALPGYQILAVNQGTTQVFSMDPEVIITASGINTSVYTAKKTSGLNILNLGILPSGFQPVNFVQTDRTIGSASLFTNADGSYNIPSTGIYAVGFAFRYGTGLQASLLSGAPGIAIARTRSAVTTLIDTRPFSGINLALAINLTLSDSSINSLYSFQAGDKVSFGLVDTGNISVGLLGSSIASFYIYKVSN	PGPT0022155_5787	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
BMS003_00128	849	pheA		Bifunctional chorismate mutase/prephenate dehydratase	ATGAAGATTGCATTTTTGGGACCTCACGCCAGTTTCACACAGCTTGCCGCAGCACAGCTATTTCCTGATGAAGATTTATTACCGCAGGCCAGTATTCTGGATTGCTTCAATGCTGTTGAAAACGGAGAAACCGTAAAAGCAGTAGTACCTTTGGAAAACTCTATTGAGGGAACAGTTTCTATGACGCTGGATTATTTATATAAAACTCCGTCCATTAAAATTGAAGCGGAAGCTGTAATGCCTATTGCGCATCACCTGATGATTCATCCGGAAAATTCTATTGAGAATATTGAAAGAATTTATTCCCATCCACAGGCTCTTGCCCAGAGCTTTCATTTTCTGGATACCCATTATAAAGAGATCCCGAAGCAGGATTTTTCCTCTACAGCGGCAGCGGCTAAGTTTGTTTCGGAAAATAAGGATACTTCCATAGCAGCGGTAGCCAACCAGTTTGCAGCCAATCTGTATGGACTGAAAATTATCAACCGTAATATTCAGGATTTTGAACAGAACCATACCCGATTTATTATCATCTCTAAAGAACAGAACAAATATCAGAATAACCAACTTGAAACTTTAGGAGAAAAATCAGGAATGCTGATTACCCTTCCAGAGGATCATCCCGGCGGACTGCATCAGGTTTTATCTGTTTTTGCATGGAGAAAAATGAACCTCAGTAAAATTGAATCCAGAACATTAAAGACCGGGCTGGGTAATTACTTCTTCTTCATCAATGTAGAAGGACACTGGGAAGAAGTTTTGCATGAGAACGCTCTTAAAGAGCTTGAATCTATAAAAGCTAACGTTGATTTTCTTGGAAATTACAAGGAATTTCTTCTTGAAAGCTAA	MKIAFLGPHASFTQLAAAQLFPDEDLLPQASILDCFNAVENGETVKAVVPLENSIEGTVSMTLDYLYKTPSIKIEAEAVMPIAHHLMIHPENSIENIERIYSHPQALAQSFHFLDTHYKEIPKQDFSSTAAAAKFVSENKDTSIAAVANQFAANLYGLKIINRNIQDFEQNHTRFIIISKEQNKYQNNQLETLGEKSGMLITLPEDHPGGLHQVLSVFAWRKMNLSKIESRTLKTGLGNYFFFINVEGHWEEVLHENALKELESIKANVDFLGNYKEFLLES				NA	NA	NA	NA	NA
BMS003_00129	438		COG0824	Putative esterase	ATGTATAATTTAACACGTAAAATGATACATACAACACACTCAATACGAGTACGTTACGCAGAAACAGACCCTATGAAATACGTATACTATGGTAACTATGCAACCTACTTCGAAGTAGCGAGGGTGGAGCTGTTCAGAACCATCGGAATTTCATACGATGAAATTGAAAACCAAGGAATTTGGCTCCCTGTTTCGGACTACAAAATTAAGTATATCCGCCCGGCTTTGTATGATCAAAAATTAGAAATTCATACGTATGTAAAAAAAATTCCGGGTGTAAGAATTGAATTTGAATATGAAATTTACAATGAGGAGCATACTAAAATAACAGAAGCTTCCACCACTCTATTCTTTTTAGATGCAAAAACGAATAAAGTAATCAGATGTCCTGATTTTCTTATGGAACTAATTGAGAAGAACTGGGTGGAAAGGGAGTAG	MYNLTRKMIHTTHSIRVRYAETDPMKYVYYGNYATYFEVARVELFRTIGISYDEIENQGIWLPVSDYKIKYIRPALYDQKLEIHTYVKKIPGVRIEFEYEIYNEEHTKITEASTTLFFLDAKTNKVIRCPDFLMELIEKNWVERE	PGPT0001850_4601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS003_00130	1440	dnaA	COG0593	Chromosomal replication initiator protein DnaA	ATGATGATTTGGCAGAAATGCCTTCAGTTTATGCGTGATAACCTGAACGCAGCTGAGGACAATTCTGACCTTAAAAAGCTTGAAAAATCTTTCGATATGTTATTCGATAAGGTTCAGCCGCTTTCATTAGTGGCCAATAACCTTACGTTGATCGTACCGAGCGATTTTTACAAGGAATATATAGAGGACAACTACCTGTCCTTACTTTCTGCTGCCCTGAAGAAAAATATTGGAAAAGGAGTTAAATTATGGTATTCTGTGATGGAAAACAGACCAAAAGGTGAAGAAAAACCTGTTACCATGAACATTAAGGGACAAAGTGTTCCTACTCCTAAAACGCAGGAAACAATGCCGCAAGGTTTTTCTGCTAATATTGTAAACCCTTTTGTAGTTCCTGGAATTAGAAAAGTTAATATAGACTCTAACCTGAAGCCGGACTATTCATTTGATAGTTATGTAGAAGGAGAAAGCAATAAATTTGCTGCCACTGTAGCCAGATCCATTGCAAAGAGACCCGGAGCAACAGCTTTCAACCCGTTATTCTTATATGGAGGTTACGGAGTTGGGAAAACTCACTTAGGACAGGCAGTGGGGCTTGAAGTAAAAAATCAGTTTCCTGATAAAGTAGTTCTTTATCTGTCTTCCGAAAAATTTATCCAGCAGTTTATCTCTGCAGCCAAAGCTCATAAGCAGACTGAATTTGCAAACTTCTATCAGATGGTAGATGTGTTGATTATTGATGATATTCAGTTCCTATCCGGGAAATCTGCAACACAGGACAGTTTCTTCCATATTTTTGATCATTTGCATCAGAATGGAAAGCAGATTATCCTTACTTCAGATAAAGCACCTGCAGATATTATGGATATTCAGGACAGAATTGTTTCCCGTTTCAAATGGGGGCTTTCTGCGGAAATCAAATCTCCGGACTTATCTACAAGAAGACAGATCATTGAAGATAAGCTAAGCAGAGACGGAATTGTTCTTCCGGGAGATATGCTTGACTTCCTTGCTGTAGAAACAAAAACTAACGTAAGAGAACTTATCGGGGTAATCAACTCGGTGATTGCTTATTCTACAGTATATAAGAGAGATCTTAGCCTTGAATTACTGAAGGAAACCATCAACAGAATTGCGGCTAATCAGAAGAAAGTCATCAATATTCCTTACATTCAGGAAGTTGTTTGTGATTATTTTGGAATCAAAAAAGAACAATTACTTTCAAAAACAAGAAAAAGAGAGATCGCATTACCAAGACAGCTTGCCATGTACTTCTCCAAAGAGTTTACCAATTCTACATTTACTAAAATTGGGGAGGAAATGGGAGGAAAAGATCACTCTACCGTAATGTACGCTTGTGATACCATCAAAGACGTTTCTAAAATAGATAAAGAAATCAAAAAGTACGTTAAAGACCTTACGGAAAGAATCAAACAATAA	MMIWQKCLQFMRDNLNAAEDNSDLKKLEKSFDMLFDKVQPLSLVANNLTLIVPSDFYKEYIEDNYLSLLSAALKKNIGKGVKLWYSVMENRPKGEEKPVTMNIKGQSVPTPKTQETMPQGFSANIVNPFVVPGIRKVNIDSNLKPDYSFDSYVEGESNKFAATVARSIAKRPGATAFNPLFLYGGYGVGKTHLGQAVGLEVKNQFPDKVVLYLSSEKFIQQFISAAKAHKQTEFANFYQMVDVLIIDDIQFLSGKSATQDSFFHIFDHLHQNGKQIILTSDKAPADIMDIQDRIVSRFKWGLSAEIKSPDLSTRRQIIEDKLSRDGIVLPGDMLDFLAVETKTNVRELIGVINSVIAYSTVYKRDLSLELLKETINRIAANQKKVINIPYIQEVVCDYFGIKKEQLLSKTRKREIALPRQLAMYFSKEFTNSTFTKIGEEMGGKDHSTVMYACDTIKDVSKIDKEIKKYVKDLTERIKQ	PGPT0014800_1408	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
BMS003_00131	522			Putative low molecular weight protein-tyrosine-phosphatase	ATGAAGGATAGTTTTATTCTTCATTTTTTATTTAGTTTTGTCATGATAAAAGACACTTGTAAAAAACAGGATATGAAAATATTAATGGTTTGTCTGGGAAATATATGCAGAAGCCCACTGGCAGAAGGAATTATGAAAGCAAAACTGCCGGATCATTATACAGTAGATTCTGCCGGAACCATTTCAATGCACGAAGGCGAGCATCCTGACAAAAGAGCCGTTAAAACTGCTGCTAATCATAACATAGATATATCCAGGCAAAGATCAAGGCCTATTACCAGAAATGACTTTGAAACCTTTGATCAGATCTATTGTATGGATATTGATGTACTCGGAGATGTGGTTTCTAAAACTCAAAATGAAGAAGAACGCCAGAAAGTGTCTTTATTTTTAGATCTATTGGAAGGTCACAAAAATGCTGAGGTTCCGGATCCTTATTGGGGCGATATGAACGATTTTGAAAAGGTTTTCCAGCTTTTGGATAAAGGATGCGAAGCTATCAAGAACCAACTATTAGAATAA	MKDSFILHFLFSFVMIKDTCKKQDMKILMVCLGNICRSPLAEGIMKAKLPDHYTVDSAGTISMHEGEHPDKRAVKTAANHNIDISRQRSRPITRNDFETFDQIYCMDIDVLGDVVSKTQNEEERQKVSLFLDLLEGHKNAEVPDPYWGDMNDFEKVFQLLDKGCEAIKNQLLE	PGPT0014530_6852	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
BMS003_00132	699	rsmI_1		Ribosomal RNA small subunit methyltransferase I	ATGCTTTTTTTACTCCCTGCTTATTTATCAGAAAATACCTCTGTCGACCATTTTTCACCTGTTCTGAAGGATTATATCATGCAGACCGATTATTTCTTCGTAGAAAACGAGAAAACTGCGCGAAAGGTTGTGAAATTTTTTGCTCCGGAAAAAAAGCAGGCTGATCTGAAGTTATTCTTATTGGATAAATACACAGAAAATGCAGATATCAAAGAAGCTCAGGAGTTGATGCTGAAAGGACAGGACTTCGGATTGCTGTCAGAAGCCGGATTACCATGTATTGCTGATCCCGGAAACCTGATGGTGAAATGGTGTCATGAGAAAAATATCAGAGTGATCCCTGTTTCCGGGCCTTCATCCATTATTCTGGCTTTGATTTCCAGTGGATTCAACGGGCAGGAATTCACTTTCCATGGCTATCTTCCTATTGATAAAGGTGAGAAAAAGAAACAGATTGTGAATCTTGAAAGTCTCGTTCAGAAAACCGGATATTCACAGATTTTTATGGAAACACCGTACAGAAATAATCAGCTTTTGGAAGACTTATGTAAGTTTTTATCGCCCAATACAAAACTTTGTATAGCGGCCAATATCAATGATCCGGAATATGAGTTTATCAAGACAAAAACAATAAAAGACTGGCAGAAACAAAAGCCGGAACTTCATAAAATTCCTGCGGTATTCGTACTCGGGAAATAA	MLFLLPAYLSENTSVDHFSPVLKDYIMQTDYFFVENEKTARKVVKFFAPEKKQADLKLFLLDKYTENADIKEAQELMLKGQDFGLLSEAGLPCIADPGNLMVKWCHEKNIRVIPVSGPSSIILALISSGFNGQEFTFHGYLPIDKGEKKKQIVNLESLVQKTGYSQIFMETPYRNNQLLEDLCKFLSPNTKLCIAANINDPEYEFIKTKTIKDWQKQKPELHKIPAVFVLGK				NA	NA	NA	NA	NA
BMS003_00133	1914	gbpA		GlcNAc-binding protein A	ATGAATTTAAGCGATTATTTTTTGTATTTCCTTAATGATTTAAAGTATAATGATTTAAAAATTCATTTATATGAAATAGATCCCAGAAAAATCAACACCAAATATTTAAATATGAAGACACATAAAATTTTTTTTCCGTTATTGCTTATGCTGGCCATGCTGGTACCTTCTTTAATTCATCTGTCTGCACACGGATATGTACTTAGTCCGGCCTCAAGAGGATATCAGGGAAGTCTGGATAAAGCTACACTCGGCTATTCTGCAGCATTCAGCATCTATGGATCCATCATTAATGAACCCGGATCTCTGGAAGCTCCAAAAGGTTTTCCTGCATCAGGTCCGGCAGATGGAAAAATTGCTTCTGCTAATGGAAGTATAGGAGGAGACACTACACTGGATATCCAGACGGCTGACCGCTGGAAGAAAACCAATATTACCACAGGAGTAAATGCTTTTATCTGGAAATATCTTGCTTATCACGCCACTGCAAAATGGCATTATTATATGACAAAGCAAGGTTGGGATCCTAATAAACCGCTTACCCGTCAGGATCTTGAACTTATTGGAACCATTGCACACAATGGTACACCACCGCAGGATAATATTTCTCATCAGATTACCGTTCCTGCTAACCGTACTGGTTATCACATTATTTTAGCAGTCTGGGATGTAGCAGATACTACCAATGCTTTTTATAACGTAATTGATGTTAACGTAACTTCAGGAACAGGTGTTTCTGCACCTGCCACTCCTACAGGATTAGTACAGATAGGAGTAACAGGCTCTTCTGCCAAAATAAGCTGGAACCCACAATCTGATGCAGTATCCTATAACGTTTTCCGCAACGGGCAGAATATTCAGCAGGTAAGTATACCCACATTTCAGGATACAGGCTTAACTGCCAATACAATTTATACCTATGAGATACAGGCGAAAGGCTCTTCGGGGCTGACTTCCGGGAAAAGTGCACCACTCAATGTAAAAACAAACAGTGAAGGCACTCCTGAACAACCTACAGCCCCATCCAACCTTCATTCAATGGAAGTTACTGAAAACTCAGTTTCACTCATGTGGATGGCTTCTACCCACTCGCAGGGAATCAAGAATTATCAGGTCTTTGAAAATGGAATCAAAGTAGGAGAAACCGTACAAACAAGCTTTTTAAGGACAGGATTGGCACAGGATACAGAATATCGTTATACCGTAAGGTCTGTAGCGATGAATGATCAGCTTTCTGATGCAGGTAATGAATTAAAAGTCAGAACAAAAACAGCTACACCCGGGGACGGAGAATTCTACTGCGGAGCAGAGCAATATAATGCTGCCAATGCTTATCCTGCAGCCGGAGTAAAAGTTTTCTACGCATGCAAAATATGGAAAAACAAATGGTATGCGAATCCGGGAGAACTACCGGGAACCAATATGGTATGGGAAGAAGTAAGTACTTGTACCGAAGGTCCTGGTTGCGAATCTAGTGGTCCGGTTACCTACTGTGGCGCAGAGGAATATTATCCGGCAAAAACCTATCCATCGACAGGAACAAAGGTTTTCCATGCCTGCAAAATCTGGGAAAATAAATGGTATGCAAATCCGGGAGAAGCACCGGGAAGTAACCCTGTCTGGAAAGCGGTAAGTAACTGTAATGAAGGTGAGACTTGTAAAAATTCTGTTCTTGCCGGCAAAGAAAATGATCTTTCAGTAATCATATCTGATCATACAGTCAATCTTGTGCCAGAAAGCCAATACGGGAAAATAAGCAGAGTAGATGTTATCACTCCTCACGGGCTTCAGATCATGACTTTCATGAATCCGGGGCAGAACCGCATGAATATCAGCCGACTTCAGTCCGGAATCTATTTTATAAAAATCCTCTATAAAAATGGAAGCAGTATTACTAAAACCATCAGAAAGTAA	MNLSDYFLYFLNDLKYNDLKIHLYEIDPRKINTKYLNMKTHKIFFPLLLMLAMLVPSLIHLSAHGYVLSPASRGYQGSLDKATLGYSAAFSIYGSIINEPGSLEAPKGFPASGPADGKIASANGSIGGDTTLDIQTADRWKKTNITTGVNAFIWKYLAYHATAKWHYYMTKQGWDPNKPLTRQDLELIGTIAHNGTPPQDNISHQITVPANRTGYHIILAVWDVADTTNAFYNVIDVNVTSGTGVSAPATPTGLVQIGVTGSSAKISWNPQSDAVSYNVFRNGQNIQQVSIPTFQDTGLTANTIYTYEIQAKGSSGLTSGKSAPLNVKTNSEGTPEQPTAPSNLHSMEVTENSVSLMWMASTHSQGIKNYQVFENGIKVGETVQTSFLRTGLAQDTEYRYTVRSVAMNDQLSDAGNELKVRTKTATPGDGEFYCGAEQYNAANAYPAAGVKVFYACKIWKNKWYANPGELPGTNMVWEEVSTCTEGPGCESSGPVTYCGAEEYYPAKTYPSTGTKVFHACKIWENKWYANPGEAPGSNPVWKAVSNCNEGETCKNSVLAGKENDLSVIISDHTVNLVPESQYGKISRVDVITPHGLQIMTFMNPGQNRMNISRLQSGIYFIKILYKNGSSITKTIRK				NA	NA	NA	NA	NA
BMS003_00134	894			hypothetical protein	ATGAAAAAAATTATTTTCCTATTATCAGGTCTTATCCTGATCAATTGCAGCAAATCAGGTGGTGAAAAACAAGAAGTGAAAGCCGACCTGATGGAAGTTATAACCGAAGATAAGGCACCTTCTTCTGCAGCTGCTCCTTTACCTCCACCATCGTATATTTCCGAAAAAATAGCTTCTGATGAGAACGGAATCAACAAAGATGTCTATACCTCAAAGAAAACTGATACGATCTCCAAAAAAATCATCAAAAACGGAGATATGAAGATTCAGGTGGGTGATATCAAAAAGACACAGAACCAGGTGAATGATATCATCAAAAAAAACAATGCTTATATCCAGAAAGAAGAATTTCAGAATACGGATATGGATGATAATCTTACTCTGATTATCCGTGTACCTCATAAAAATTTCGATGCATTGATCAATTCCTTTTCGAATGGTGTAGGAACTGTTTTGTCTAAAAACATTTCATCTAATGATGTCACAGAAGAATATACCGATATCGCCATAAAGCTGGCCAACAAAAAGATATATCTTGAAAAATACCGTGACATGCTGAAAAGTGCTGCTACCACAAAGGATATGCTGGAAATTCAGGAGAATATCCGTGAACTGGAAGATGAGATAGATGTGGCTGAAGGCAGGCTTCGTTTTATTGATGACCGTGTAAATTACAGCACCCTGAATTTAAATTTATACAAAGAGAAAGTAAGAAGCTCAGCGACTTCAAAAATTGGTTTTGGAAGCCGATTTATGGATTCTCTGACAGAAGGTTGGAACAGTTTTGTAGGTTTCCTTCTGGGAATGGTTTCATTATGGCCTTTCTTTTTGCTGATCCCTGTTATTATTGTTCTTTGGAGAAAATGGAAATCGAAAAAGAAAGATCAGAATTAA	MKKIIFLLSGLILINCSKSGGEKQEVKADLMEVITEDKAPSSAAAPLPPPSYISEKIASDENGINKDVYTSKKTDTISKKIIKNGDMKIQVGDIKKTQNQVNDIIKKNNAYIQKEEFQNTDMDDNLTLIIRVPHKNFDALINSFSNGVGTVLSKNISSNDVTEEYTDIAIKLANKKIYLEKYRDMLKSAATTKDMLEIQENIRELEDEIDVAEGRLRFIDDRVNYSTLNLNLYKEKVRSSATSKIGFGSRFMDSLTEGWNSFVGFLLGMVSLWPFFLLIPVIIVLWRKWKSKKKDQN				NA	NA	NA	NA	NA
BMS003_00135	1068			hypothetical protein	ATGAAAAAAAGTCTTTTAGCATTTGTGTTTTCTCCATTTCTGATGTATGCTCAGGAAGTTCCGAAACTTACAGACGAAATGGCCATGAAATTATCCGATAAGCCTCTTCACTGTATCAATCAGGAGTATCCCAATAAAACTGCTCATATCATCAATAATGCCGACGAAGTTCCTTTGACTCCCAAAGACCTTCACCCAACTTTTTATGGATGTTTTGACTGGCATAGCTCTGTTCATGGACATTGGATGCTCACAAGACTTTTGAAAACAAAACATAATCTGTCTAATGCTAAAGAGATTGAAAAAATTCTGGATGAATCATTTCAGAAAGAAAAATTGCAGACAGAAGCAGATTATTTTACAAAATATGAGCTAACGGGAACTTTTGAAAGAACCTACGGCTGGGCCTGGATTTTAAAACTGGATGAAGAACTCACGAATTGGGATCATCCAAAAGCCAAAATATGGCATCAAAATCTGAAACCACTTACGGATCAGATCCTAAAGTCCTGGAAAGCATATCTTCCCAAACAAACATATCCGAACAGAACCGGAGTTCACCCTAATACTGCATTTGCCATGGCATTTGCTATAGACTGGGCAAGAGCCAATAAAGATAAAGAATTTGAAAACCAGCTGATGGAAAAGGCAAAATACTTTTTCCTGAAAGATCAGAAAACACCCGCCTATCTGGAACCGGACGGATCAGATTTCTTTTCTCCGAGTCTGGAAATTGCAGATCTGATGCGCAGAGTTCTTCCTCAAAAAGAATTTGTACAGTGGCTGAATGCTTTCTACGAAAAAAGAAGTTTAGAAAATGTTGAAAAAATTCCGGTGGTGAGTGATCTGAGCGATTATCAGACCGTTCACCTCGTAGGATTATCCTTTTCTAAAGCATGGTGTATGAAAGGAATTTCCAATGCACTTCCAGCCAATCATCCACTGAAAAAGGACTTCAGAAAAACAGCAGATGTATTTCTGAATAATGGATTGCCATTACTTTTCCAGGGAAATTATGGCGGAGATCATTGGCTGGCAAGTTTTGCGGTATATGCTTTGGAAGATTAA	MKKSLLAFVFSPFLMYAQEVPKLTDEMAMKLSDKPLHCINQEYPNKTAHIINNADEVPLTPKDLHPTFYGCFDWHSSVHGHWMLTRLLKTKHNLSNAKEIEKILDESFQKEKLQTEADYFTKYELTGTFERTYGWAWILKLDEELTNWDHPKAKIWHQNLKPLTDQILKSWKAYLPKQTYPNRTGVHPNTAFAMAFAIDWARANKDKEFENQLMEKAKYFFLKDQKTPAYLEPDGSDFFSPSLEIADLMRRVLPQKEFVQWLNAFYEKRSLENVEKIPVVSDLSDYQTVHLVGLSFSKAWCMKGISNALPANHPLKKDFRKTADVFLNNGLPLLFQGNYGGDHWLASFAVYALED				NA	NA	NA	NA	NA
BMS003_00136	474			hypothetical protein	ATGAGAAAGGTTGATCTCTTATTTGCCGAATACAGTAAAAGCCATAGAAATGCGACTAACAAGTTCATTCACTGGATTTGTGTGCCTTTAATTTTCTGGACAATTCTAGGCTTTACCTCCCTTATCCCCTCTCCTCATTTTTGTGCTTCCTATATCGGATGTGCCAGTATTGTAAGTATTGTGGTGATTATTCTGATCACCCTGTTTTATATAAGACTGTCTTTTCTGATCGCTATTGTAATGATTATGATCATGCTTATGATGGAGCATTTCATTTATCTTACCAATATCAGTATGGGAAGACAATCATGGATGGTTTACCTTTCTGTATTCATCATCACATGGATTTTCCAGTTTATTGGCCATAAAATTGAAGGAAAAAAGCCCACATTCCTCAAAGATCTGCAGTTTCTTCTGATAGGACCAATATGGCTTTTAGGATTTATTCTGAAAAAAGCAGGAATCAGATATTAA	MRKVDLLFAEYSKSHRNATNKFIHWICVPLIFWTILGFTSLIPSPHFCASYIGCASIVSIVVIILITLFYIRLSFLIAIVMIMIMLMMEHFIYLTNISMGRQSWMVYLSVFIITWIFQFIGHKIEGKKPTFLKDLQFLLIGPIWLLGFILKKAGIRY				NA	NA	NA	NA	NA
BMS003_00137	846	rhaR_1		HTH-type transcriptional activator RhaR	ATGTCTGCCCTGGAAAAATTTGGAGTCGATATTTTTACGGAACGGAATATTTTCGAGAGAATAGCTGTTGATAAACCCTTCCGCCCGGATAATCCCGCATTTATATTTATTAAATCAGGGACCATAAAACTTCGCCAGCATTTCAGCGATCTGGAAGTTTCTGCCAATATGTTTATGGTTACTGACCCCCAAACTATTTACGAAGTCGTATCTGTGACAGATGACTTCCAATCGAGGATGGTTTCCTACAAAAGAGAATTTATTTCGGCTTTATCATTGAAATTTAACCGTCTGATTACGTATCGCTATTTCAGGCAGCAGATGAATAAAGGAGTTCCTTTTCCTGAGGATGAAATGGAAGTAGTCTGGAAAAGTGTCAATTTCCTGAAATATATTATGGATTCTGAGACCGATATGCTGTATAAAAAAGAAATGGTAGAACATCTTTTCTCTGTTTTTTGCTATCAGATGGCGGGAATTATTTCCAAGGAAGACAACAATTCTATGAATCAGATGTCCAGACAGGAAGAAATTGTATTTGTATTTCTTACCGATCTTGCAGAACATAATCTTACGGAAAGAACTGTCGAGTTCTATGCCGAGCGGCAATCCATTACAACCAGACATCTGTCTTCAGTGGTAAAGACCATTACAGGTAAGTCTGCAAGTCAGATTATTGCTTTAATGGTGATCAATGAAGCGAAAGTACTCTTAAACTCTTCCAATAAACCTGTTTCGGAGGTTTCTTCTATTCTCGGATTCAGTGATCAGTACTCGTTTTCTCACTTTTTTAAGAAGCATCTGGAAGTAAGTCCTACACAGTACAGGCATCAGTTCGAAAGTTGA	MSALEKFGVDIFTERNIFERIAVDKPFRPDNPAFIFIKSGTIKLRQHFSDLEVSANMFMVTDPQTIYEVVSVTDDFQSRMVSYKREFISALSLKFNRLITYRYFRQQMNKGVPFPEDEMEVVWKSVNFLKYIMDSETDMLYKKEMVEHLFSVFCYQMAGIISKEDNNSMNQMSRQEEIVFVFLTDLAEHNLTERTVEFYAERQSITTRHLSSVVKTITGKSASQIIALMVINEAKVLLNSSNKPVSEVSSILGFSDQYSFSHFFKKHLEVSPTQYRHQFES				NA	NA	NA	NA	NA
BMS003_00138	1311			hypothetical protein	ATGACAAAGAAAATAAAAACAGCACTATCGGTACTGATAGCAGCTTTTCCTGCGCTGTTTTTTTCCCAACAGATCAAACAGATGACCGCAGGTGAGGTTGCAGAGCTCGCTGTCCAGAATCACCGGCAGCTCAAAGTTTCCGCACAGAATATTGATATCGCCAAACAAAATACGAATGTTGCTAAGCTTCAGAAGCTTCCTGCAATCACTGCATCTACCAGCCAGTTTTATCTGGGAGATGCGGTAGCTATAGACAAAGACTTCTCGAATTCTACCAATATTCCGATGCCCCATTATGGAAGTTCGTATGCAGTACAGGCCACACAGCTGATCTTTAAAGGTGGGTTGGTAAATAAATCTATTGAAATGGCGGGGCTTCGTGAACAGCTTTCTGAACTTGATCTTGAGAAAAATAAACAGGATGTGAAATTTTTAGTGATTTCCAATTATCTGGATGTCTATAAAATCATCAATCAGGAAGAGGTTTTTCAGAATAACAAAAAACTGGCTCTGGAACGTCTTAAAAACATCCAGAAATTCTACCAGCAGGGAATGGTAACCCGAAATGAAGTGATTCGTGCAGAACTGGCCATCAAAAATCTGGAACAGGGAATTCTTACCCTTACGAACAATAAAAAGATCCTTAATTATAATTTGAATATTGCCTTAGGATTGTCTTCTGATACAGAAATTATCCCTACAGAAAGCCTGGAAAACAAAGAATCCGGAATAGACATGGAGTATTATACAGATCTTGCCCATGAAAAAAATCCGCAGTTAAAATCTGCTCAAAAAAATATTGCAGTAGCAGATAAGAATATTGAAATTATAAAAACGGATAATGCTCCTACGCTGGCCGGATTTGGTGGATATACGTTGCAAAGACCGATCACCACAAGAAACCCTGTTTTGGATATGTACTCAGGAGGTTGGCAGACCGGGGTTTCTTTGAGTTATAATATAGATACTCTTTATAAAACGAAGGAAAAAGTAAAATTGGGTGAGCTGCAGAAGAATCAGGCGAATGATGCTAAAACTTTGGTACAGCAGAATGTGGATATGGGAGTGAATGCTGCCTATACAAAATATCAGGAAGCGATTCAGCAGGCAGATATTCTGAATGATTCTAAAAGACTGGCGGAAGAAAACTACAAGATTACAGAAGCCAAATATCTGAACCAATTGGCTGTGCAGGCAGAAATGATTGATGCACAGAACCAGAAACTACAGTCGGAGCTGGATTACGCAAATGCTGAAATCAATGTCTTGTATCAGTATTATAACCTTCTGAAATCGACAGGAACACTTTAA	MTKKIKTALSVLIAAFPALFFSQQIKQMTAGEVAELAVQNHRQLKVSAQNIDIAKQNTNVAKLQKLPAITASTSQFYLGDAVAIDKDFSNSTNIPMPHYGSSYAVQATQLIFKGGLVNKSIEMAGLREQLSELDLEKNKQDVKFLVISNYLDVYKIINQEEVFQNNKKLALERLKNIQKFYQQGMVTRNEVIRAELAIKNLEQGILTLTNNKKILNYNLNIALGLSSDTEIIPTESLENKESGIDMEYYTDLAHEKNPQLKSAQKNIAVADKNIEIIKTDNAPTLAGFGGYTLQRPITTRNPVLDMYSGGWQTGVSLSYNIDTLYKTKEKVKLGELQKNQANDAKTLVQQNVDMGVNAAYTKYQEAIQQADILNDSKRLAEENYKITEAKYLNQLAVQAEMIDAQNQKLQSELDYANAEINVLYQYYNLLKSTGTL	PGPT0003600_4455	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
BMS003_00139	1119	emrA_1		Colistin resistance protein EmrA	ATGGAAAACAAGGGACAAACTACTCAAAATACAGCTACAACTCCGGCAACATCTGCTGCAGAAAACAAGAAAAAGAAAAATAAAACCAATAAAATCAGAGCCATTATTTCCAATATCGTCGTCTTTCTGGTGATTGGATTCGGATTGTTCTGGTTAATCCGTGAATATTTCCATATCGGAAGCAAAACCTATACGGAAGCAGCACAGGTAGAGGAATTCATCAACCCAATCAATACAAGGGTTTCTGCCTATATCAAAGAAATTAAGTTCATCGAGCATCAGCGTGTAAAAAAAGGAGATACTTTGGTAATCCTTGACGAGCGTGAAATTCTTACCCAATTGGGGCAGGCTGAAGCAGCTTATCAGAATGCGATGGCACAAAAAAATGCAACAAGCTCTTCCGTAAACACGGCTTCCAACAATATTACTGTAATGCAGTCCAATATTGCAGGAGCAAAAGCCAGATTATGGAATGCTGAGCAGAATTTGAGCCGGTATAAAAACCTTTTATCCGCCGAAGCCGTTACCAGACAACAATATGATCAGGTAAAGACAGAATATGATGCTCAAAAAGCAGCTTATGAAACCTTAGTGTATCAAAAGCAATCTGCCAACCTTTCCACTACTGAAGTAAAAAGCAGATTAGGAATCAATGATGCAGAAATTAAAAGAACAAAATCAGCTTTGGATATGGCGAAGATCAATCTTTCGTATACTGTTATTACAGCACCTTATGATGGAGTAATGGGAAGAAGAACGATTTCTGAAGGTCAGCTGATCCAGCCTGGACAACAGGTGGCAACTATCGTTCTGAACGGTCAGAAATGGGTAACGGCCAATTTCCTGGAAAGCCAGATGCCAAACATTAAAGTAGGTGAAAAAATTTCTATGACAGCCGATGCTTTAGGTGGTAGAAAATTCGAAGGAATGGTAACAGCAGTTTCAGCAGCTACGGGATCACGATATTCAAGCGTACCTACAGATAACTCTACCGGAAACTTCATTAAAGTACAGCAGAGAATACCGGTAAGAATAGAATTTACAGCTTCGAATAGAAGAGAAGATCTGGATAAGCTGAGTGCCGGAATGAATATGAATGTGAATATTAATAAAGACTAA	MENKGQTTQNTATTPATSAAENKKKKNKTNKIRAIISNIVVFLVIGFGLFWLIREYFHIGSKTYTEAAQVEEFINPINTRVSAYIKEIKFIEHQRVKKGDTLVILDEREILTQLGQAEAAYQNAMAQKNATSSSVNTASNNITVMQSNIAGAKARLWNAEQNLSRYKNLLSAEAVTRQQYDQVKTEYDAQKAAYETLVYQKQSANLSTTEVKSRLGINDAEIKRTKSALDMAKINLSYTVITAPYDGVMGRRTISEGQLIQPGQQVATIVLNGQKWVTANFLESQMPNIKVGEKISMTADALGGRKFEGMVTAVSAATGSRYSSVPTDNSTGNFIKVQQRIPVRIEFTASNRREDLDKLSAGMNMNVNINKD	PGPT0013750_2290	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
BMS003_00140	1593			hypothetical protein	ATGTACAACAAAGGATTATATAGCGATTGGGTACCAAAACCCGTACAGCTGCTGCTGATTGTATTACTGCTTGCTGTGGTAATGCCCATTGGTGGAGTGTATACAGGAAACATCAGTTCTCTGGTAAATGGTACCGGCGCGATGACAGAATATTTTATGTGGGCAAATTATGCCACTACCATTGGTATGGGAGCCTGCATGCCCGTTGTCCTCAGAATCAAAATGAGGTTCAAAGTAAGGGATAAGATGGTTTTACTACTGATTCTTTTGGGATTGCTCAGTTATGTGAACGGAACTACTTTACAGCCGATGATCTTCATATTTACTTCTCTGCTGATTGGTTTTATGAAGATGATGGTCACGATAGAGCTGTTTCTGCCACTGATGGCGATGATTGGCAATCGTGGGATATTTTATGGGGCATTTTATACGTTCGTTCTGGTGATGAATCAGGTGGCAACCTATTATGCGGCAGAATTTGCACTTGTCTATAACTGGCAGCAGTTTTACCTGTTTATAGCTGCTTTGTGTTTTGTTTTAGCTTTAATACACTGGATTTTTATGCATAATAAATATTTTGCATTGAAAGTTCCTCTGCATTATATTGACTGGTTAAGTATCCTGCTTTTCATTTCTACTTTTATGTTCTCTGCTTATGTGTATTCATTTGGCAGACAGCAGGACTGGTTCAATTCCAAGAATATAATGAATGCTAGTATCGCTGCTTTTGTGAGTTTTGCATTGCTTTCTATCCGTCAGCTAACCTTAAAACGTCCGTACCTTTCCTTCAAAATTTTCACGAAAAATAATGTACAGCACGGTTTGTTCATGCTTTTCTGGCTGGGAATGTTCTTAGGAACAGCTTCTGTTCAGAATACTTTTGCAGTAGGAGTTTTAGGATATGATCAACTGACCAATACCAGACTGAGCTTACTGATGATTCCGGGAATTATCTTAGCTGGAACTATTGCTGTTTTCTGGTTCAAAAAAGAAAAACCTTTGAAGATGTATATTTTTTCAGGTTTTGCAGCTATGGTGGCATATGCCGTTATCATGTACTTTTCTATGGTATTGGAGTTCAGTTATGACAATTGGTATCTTCCTCTCTTCTTAAAAGGCTACGGAATGTGTTCTTTGTTTATCTCAGTATGGTTTTATACGCTGGATAAGCTTGAAATGGACGAAATGCTTGCCGCTATCGGCCTTGTATTGGTTTGGAGAACTTTTCTTGCTGTAGGAATCTTTTCAACACTTTATGCGTGGTTTCAATACCGTTTTCAGGTAATGGCGATAGGGGATCTTGCTGTTTATATGGATGGAATGACTGTTACTCCCCAGCGTGTGGCGGCTAATATGAAAGTTATTCAGCTGAATGCCATTATCATTGCGGCCAAAAAGATATTCGGATATATTATTTTAGTGGGGTTTGCTGTGCTGATGTATGTTGCCACCCATCACTTCGGAGCAAAACGATTCCAATATTTCAGATTTGTAAGAGTTCTTGGAGGTAAATCTGTTATTGCGAGAAGAAGACTCCGGGAAAGAAAAAAATTACTGGAAGAAATAAAAGATGCAGCAGGGCCTGCAGTATAA	MYNKGLYSDWVPKPVQLLLIVLLLAVVMPIGGVYTGNISSLVNGTGAMTEYFMWANYATTIGMGACMPVVLRIKMRFKVRDKMVLLLILLGLLSYVNGTTLQPMIFIFTSLLIGFMKMMVTIELFLPLMAMIGNRGIFYGAFYTFVLVMNQVATYYAAEFALVYNWQQFYLFIAALCFVLALIHWIFMHNKYFALKVPLHYIDWLSILLFISTFMFSAYVYSFGRQQDWFNSKNIMNASIAAFVSFALLSIRQLTLKRPYLSFKIFTKNNVQHGLFMLFWLGMFLGTASVQNTFAVGVLGYDQLTNTRLSLLMIPGIILAGTIAVFWFKKEKPLKMYIFSGFAAMVAYAVIMYFSMVLEFSYDNWYLPLFLKGYGMCSLFISVWFYTLDKLEMDEMLAAIGLVLVWRTFLAVGIFSTLYAWFQYRFQVMAIGDLAVYMDGMTVTPQRVAANMKVIQLNAIIIAAKKIFGYIILVGFAVLMYVATHHFGAKRFQYFRFVRVLGGKSVIARRRLRERKKLLEEIKDAAGPAV	PGPT0029220_826	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
BMS003_00141	693			hypothetical protein	ATGGGCAGAGCAATCTGGGATTATTACCACAATGACAATTCTGAAGATCTGCAGACTGAAACGTCAATTTCTGAGCTGGATGAGCTTCCGGTAGATTATTTATTTAGAGATTTTGAAGAAATGAATGATATTGAGCAGAAAGCACTGCAATTATCCGAAGGAAAAGTTCTGGATATCGGAGCGGGTGCAGGTTCTCATTCTTTATACCTTCAACGTGAAAGAAATCTTGATGTGACTGCATTGGATATTTCACCGAAATCAGTTGAGGTTTGTAAGCTCAGAGGCATTAAAAAAGCAGTTTGTGAAAATATGCTGGATTTCTCCGGAGAAACTTTTGATACCATTTTATTGCTGATGAACGGTACCGGAGTTTTTGAAAGCCTTGCGAAAATTGATACTTATCTTCAGAAGCTGCATACTTTACTGAACGATGGCGGGCAGGTTTTAATTGACAGTACGGATATTCTTTATATGTTCGACCGTGATAAAGACGGTGGAGTGTATATTCCGGCTGGTGGATATTATGGTGAACTGGAGTACGTAGTGCATTATAAAGGAGAATCCGAGGAACCGATTACCTGGCTGTATCTTGATTTCAATACGCTGAAAAATGCTGCCACAAATAATGGTTTCAAAATAGAAAGAGTTTTGAAAGACGAAGATTCTTATCTGGCAAAACTAACTACGAAATAA	MGRAIWDYYHNDNSEDLQTETSISELDELPVDYLFRDFEEMNDIEQKALQLSEGKVLDIGAGAGSHSLYLQRERNLDVTALDISPKSVEVCKLRGIKKAVCENMLDFSGETFDTILLLMNGTGVFESLAKIDTYLQKLHTLLNDGGQVLIDSTDILYMFDRDKDGGVYIPAGGYYGELEYVVHYKGESEEPITWLYLDFNTLKNAATNNGFKIERVLKDEDSYLAKLTTK				NA	NA	NA	NA	NA
BMS003_00142	666			hypothetical protein	ATGGTCAGTAAAAGTGTATTAAGAAAACTCTCCAATCAGGAACTAGAGAAGTATTTACAACAAGGCAACCGCTTTGTTCCGGAGGCTGTTCAGGTAGCTTTTGAAGTTTTGGAGGAAAGAGGACGTGTTTTCAGCGAGCAGGAAAAAACAGCTGTTCAGCAGTTGATTCAGCATAAAAAACAAGAAGAAGAAGCCAAACATGCAGAAGAAGTAGAAACCTGGAAAGACCATATCACAGAAGATCCGCAGGCCATCAGGCTTTATTCACGGATGACAATTTTGGTCACCAGTGTTTTTTTCAGTACGATTCCAGGAGCTATTTTACTCTCTCTTAATTTAATCAAACTCAAAAAATACTTCCCTGCTATTCTTACAATGGCATTTGGTGTGTTGTTTTTTATATTTCAAAAATACGTTTTGCTATCCCATTTTGATTTCGGTACAACTTCCAGATACAGTCCAGAAATTGGAGTTATTTCAGTTGGAGCTTTGGGCTTGCTTGTCATCAGCGTTTTAGCCACTCCCAAAAAACTTCCTTACCGTGCAGAATCTTATATTCTTCCTGTAGTTTTATGTGCCGGAACCGCTGTTCTGATGTATTTTTATTTTCAGGAATGGTTTTCTTTCTATCCGTTTGCAAGAGCTATTCATCTGTTCAGACCATAA	MVSKSVLRKLSNQELEKYLQQGNRFVPEAVQVAFEVLEERGRVFSEQEKTAVQQLIQHKKQEEEAKHAEEVETWKDHITEDPQAIRLYSRMTILVTSVFFSTIPGAILLSLNLIKLKKYFPAILTMAFGVLFFIFQKYVLLSHFDFGTTSRYSPEIGVISVGALGLLVISVLATPKKLPYRAESYILPVVLCAGTAVLMYFYFQEWFSFYPFARAIHLFRP				NA	NA	NA	NA	NA
BMS003_00143	2037	metG	COG0073	Methionine--tRNA ligase	ATGTCAAACAGAAAGATGATTACGGCAGCTTTGCCTTATGCAAACGGGCCTGTTCATATAGGACATTTAGCAGGTGTTTATATTCCTGCGGATGTTTACGCAAGATTTCAAAGAAGATTAGGAAAAGATGTAGCATTTATCTGTGGTTCGGATGAGCATGGGATTCCTATTACCATAAGAGCTAAAAAAGAAGGAGTTACTCCTCAGGATATCGTTGACAAATATCACGAGATCATTAAAAAATCTTTTTCTGACCTTGGAATTTCATTTGATGAATATTCAAGAACAACGTCTAAAAAGCATTATGAAACCAGTCAGGATTTCTTTAAGGTTCTGTACGAAAAAGGAAAATTCACGGAAGAAGTTTCTGAACAGTATTTTGATGAGCAGGCAGGTGAATTCCTTGCTGACCGTTATATTGTAGGAACATGTCCTAATTGTGGTAACGAAAATGCCTACGGAGACCAGTGTGAGAAATGCGGTTCTACCCTTTCTCCATCAGAGCTGATTAATCCGAAATCAATGCTTAGCGGAAATGTTCCTATCCTTAAAGAAACAAAAAACTGGTATCTTCCATTAAACGAGTACGAAGATTTTTTAAATGAGTGGATCATTGAAGGTCACAAAGACGACTGGAAGCCTAATGTATACGGACAGGTTAAATCATGGCTAAATGACGGTCTTAAGCCTCGTGCGATGACCAGAGACCTTAACTGGGGAGTTCCGGTCCCTCTTCCAAATGCTGAAGGAAAAGTATTATACGTATGGTTTGATGCTCCTATCGGTTATATTTCTTTCACTAAAGAATGGGCAGAGAAAAACGGAAAAGACTGGAAAGACTACTGGCAGAGTCCAGAAAGCGATCTGGTGCATTTTATCGGAAAGGATAATATCGTATTCCACTGTATTATTTTCCCTTCGATGATGAAAGCGCACGGAGATTATATTATGCCGGCTAATGTTCCTGCTTTTGAATTCCTGAACCTTGAGAATGATAAGATCTCAACATCAAGAAACTGGGCAGTATGGGCTCATGAATATGTGGAAGATTTTCCTGGACAACAGGATGTTTTAAGATATGCTCTTCTTTCTTCTGCTCCGGAAACCAAGGATAACAACTTTACATGGAAGGATTTCCAGACAAAGAATAATTCTGAATTGGTAGGTATCTTCGGAAACTTTATTAATAGAGTTGCGGTTCTTATTCATAAATATTATGATGGAATTGTCCCACAAGGAGACGTAAACAGTCCAGAATTACAGGAAATAAGTAAATCTGCAAAAGAAATTTCAGGATTCCTTGAAAACTATGAGTTTAGAAATTCATTAACTGCATTAATGAATCTTGCCCGTTTTGGAAACCAATACCTTCAGACAGAAGAACCTTGGAAAACCATTAAAGACAGCCCGGAAAAAGCAGCTCAGGCTTTATTCGTTGGTGCACAAATAGCTGTAGCATTAGCTCAGTTATGTGAACCATTCATGCCGTTCAGCTCTGAAAAGCTATTGAACATGTTCAATGTTGAAAAGAAAGATTGGAGTTCTATTGAAAATGACTCAGTACTCATTGAAACAGGGCATAAAATCAACGAATCATCTCTTCTTTTCTCAAAAATTGAGGATGATGTTATCGAAGCTCAGATCCAAAAGCTGGAAAACACAAAACAAAACAATAAAAAAACAAACCCTAACGCAAACCCTATGAAAGAAGAGATCACATTTGATGACTTTACTAAAATAGACCTTAGAACAGCTACCATTTTAGAAGCTGAAAAAGTAGAAAAAGCAGACAAATTATTAAAGCTTACTGTAGACACAGGAGTAGATGTAAGAACTGTTGTTTCCGGTATTGCAGAAAGTTTCTCTCCTGAAGAATTAATCGGGAAGCAGGTGATGATCCTTCTGAACCTTGCTCCAAGAAAAATCAGAGGAATTGAGTCTCAGGGTATGTTATTATTAACAACAAAACCAGACGGAAAATTATCTTTCGTAACACCGGATGACAGCAATGTTGAAAACGGTATTGAAATTGGATAA	MSNRKMITAALPYANGPVHIGHLAGVYIPADVYARFQRRLGKDVAFICGSDEHGIPITIRAKKEGVTPQDIVDKYHEIIKKSFSDLGISFDEYSRTTSKKHYETSQDFFKVLYEKGKFTEEVSEQYFDEQAGEFLADRYIVGTCPNCGNENAYGDQCEKCGSTLSPSELINPKSMLSGNVPILKETKNWYLPLNEYEDFLNEWIIEGHKDDWKPNVYGQVKSWLNDGLKPRAMTRDLNWGVPVPLPNAEGKVLYVWFDAPIGYISFTKEWAEKNGKDWKDYWQSPESDLVHFIGKDNIVFHCIIFPSMMKAHGDYIMPANVPAFEFLNLENDKISTSRNWAVWAHEYVEDFPGQQDVLRYALLSSAPETKDNNFTWKDFQTKNNSELVGIFGNFINRVAVLIHKYYDGIVPQGDVNSPELQEISKSAKEISGFLENYEFRNSLTALMNLARFGNQYLQTEEPWKTIKDSPEKAAQALFVGAQIAVALAQLCEPFMPFSSEKLLNMFNVEKKDWSSIENDSVLIETGHKINESSLLFSKIEDDVIEAQIQKLENTKQNNKKTNPNANPMKEEITFDDFTKIDLRTATILEAEKVEKADKLLKLTVDTGVDVRTVVSGIAESFSPEELIGKQVMILLNLAPRKIRGIESQGMLLLTTKPDGKLSFVTPDDSNVENGIEIG				NA	NA	NA	NA	NA
BMS003_00144	2757	susC		TonB-dependent receptor SusC	ATGATTGTGAAGAACTTTACAACAGTTTTAAAAATTGCGCCCGCTTTTTTATTGGCAACTACAGTAGTGCATGCGCAAAAGAAGGATTCTCTTCCTCAGGAGAAGAAAATTGAAGAAGTGGTTTTGATCGGGTACGGAAAACAGAAAAAATCTGACCTTACCGGCTCTATTACTTCTGTCACAGCGAAAGACTTTAACAGTGGGGCTACCTCTGCTGGTCAGCTAATCCAGGGTAAAACGCCAGGGGTACAGATAACCAATAACAGTGGGGCGCCTGGATCAGGAGCGAAAATAAGAATCAGAGGTACTTCTTCTTTAAATGGTGAAAACTCTCCATTAATTGTAATTGATGGTGTTCCACAGGATTTTATCGGACTTAACGGAGCAACGGATCCTTTAGCATTAATCAACCCGAATGATATTGAAACATTTGATATCTTAAAAGATGCTTCTGCTACAGCAATTTATGGTAACAGAGCTTCCAACGGAGTTATCTTGATTACTACTAAGAAAGGTACTGCGGGAAAGTTCAAAGTAAACTTCTCTACTATGACTTCTGTTTCTACCAAGATGGGAAGTGTACCTGTTTTAAGTGCCGAAGAATTTAGAGACTTTGTAAACAAAAATGTTACAGATCCGAATTATAAATCATTATTAGGAACTTCAAATACTAATTGGCAGGATGAGATCTATCAGTCTGGCTGGGGTACGGATAATAATTTAGCATTTTCAGGAGGTGTTAAATGGTTACCTTATCGTTTATCGATCGGGTATAACGAACAGAACGGTATCGTTAGAACTAATTCTTTCAAAAGAACATCTGTGGGATTGAATTTAAGCCCGAAATTCTTTGATAACCATTTGTCTTTCAATATCAATGCCAAAGGAACATTTACGGATAACAGATATCCTGATGGTGGCGTAATATCTTCTGCAACTTATTTTGACCCGACACAACCTATTTATTCAGGAAACTCGGATTACGGCGGATATTATGAATGGTTAAATGGAAATCCTCTTGGACTTAATGTAAATGCTACGAAAAACCCGGTAGCTCTTTTAAATTCTATCAGAGATGTATCTTCAGTTTGGAGAGGACTAGGAAATATCCAAATGGATTATAAGTTCCATTTCTTACCGGATCTGCACTTCAATGTGAATGCAGGATATGATTATTCTAAGAGTACAGGTGCTAAAACTGTCTATCCTCAATTTAAATCAGGGTTTGCTGATAAAGGGACATGGTCAGAATATACTATGGAGAAAAAGAATAAGTTATTAGAAACTTATTTTAATTACACTAAAAATATTTCTGCTCTTAAAACAAGTGTAGATTTAACGGCTGGTTATTCTTATCAGGATTTCTATACAAGCATTCCAGGTAATACCACTTATAAAGGAACAGGGCAGAATACATCTACGTTCAACTTCGCAACAGAAAATGTCTTATTATCCTTCTATGGAAGAGCAATTTTTACCATTGCAGATAAATATATTATCTCAGGATCATTAAGAAGAGATGGTTCTTCTCGTTATTTTAATGGGACGAGAAACAATGCTTGGGGAAATTTTCCTGGAGTGTCTGTAGCTTGGAAAATTGACAAAGAGGATTTTCTGAAAGATTCAGGAATCAGTACATTAAAGCTTAGAGCTGGTTGGGGGAAAACAGGTCAACAAGAAATGCCACAACTGGATACTAATAAGCCTAGAAATTATCCATCTTATGCAGCTTATAATATGAGTTCACAAGGGGTTCAATACCAATTTGGAGATCAACTTTACTATATGCTGAGACCAGATATTTATAATCCATACTTGACTTGGGAAACAACAACCACCAAAAACATTGGTTTAGATTATGGGTTTTGGAAAAACAGAGTATATGGATCTATTGATTTATTTCAAAAAGATACAGATAATTTGATTGTAGATTCTCCGATAGCAGCCGGTGATTTAAGTAATCATAACTTGTTGAATATTGGGAATATGAAAAATAAAGGTATTGAAGGAAGTATTACAGTAGTACCTATAAAAAATGAAAAAACAACTTGGGAAGTAAATTTTAACGCAACCCATTTTAATCCTAAAATTACTAACTTACTATCAAGATCAGATTCTAGTTTCAAAATTGATGTAGGAGGTATTGCCGGGGGAGTTGGTAATACAGTTCAGGCGCATGCTGTTGGATATCAGCCAAATTCTTTCCTTGTGTATCAACAGGCTTATGATGCCAGCGGACATCCGCTAGATGGTGTATATGTAGATAGAAATGGAGATGGAAAGCTCTCTGATGCAGACAAATACTACTATAAGTCTACTACACCAGATGCTATATTAGGTTTCTCAACCAAGTTTACTCATAACAATTGGGATCTAGGATTCAGTGCAAGAGCTATTTTAGGTAATTATGTATATAACAATGCCGCTTCAAATAGTTCAATGCAATCTGCAACTACTAATGGTTATCTGCAAAATGTATATTTTAGTACACCTGATTATAAATTTGCTTCACCTCAATATTGGTCTGATATATTTGTAGAAAATGCATCATTCTTCAGACTTGATAATATCAATGCAGGGTATAACTTCAAAGATGTTTTGTATAAAGGCAGTAATATAAGAGTATATGCAATGCTTCAGAATGTATTTGTAATCACAAAATATAGCGGAGTAGACCCTGAAATATTTGGAAATATTGATAATGGTTATTATCAGATGCCAAAAGTATATTCGCTAGGATTTAATTTTCAATTCTAA	MIVKNFTTVLKIAPAFLLATTVVHAQKKDSLPQEKKIEEVVLIGYGKQKKSDLTGSITSVTAKDFNSGATSAGQLIQGKTPGVQITNNSGAPGSGAKIRIRGTSSLNGENSPLIVIDGVPQDFIGLNGATDPLALINPNDIETFDILKDASATAIYGNRASNGVILITTKKGTAGKFKVNFSTMTSVSTKMGSVPVLSAEEFRDFVNKNVTDPNYKSLLGTSNTNWQDEIYQSGWGTDNNLAFSGGVKWLPYRLSIGYNEQNGIVRTNSFKRTSVGLNLSPKFFDNHLSFNINAKGTFTDNRYPDGGVISSATYFDPTQPIYSGNSDYGGYYEWLNGNPLGLNVNATKNPVALLNSIRDVSSVWRGLGNIQMDYKFHFLPDLHFNVNAGYDYSKSTGAKTVYPQFKSGFADKGTWSEYTMEKKNKLLETYFNYTKNISALKTSVDLTAGYSYQDFYTSIPGNTTYKGTGQNTSTFNFATENVLLSFYGRAIFTIADKYIISGSLRRDGSSRYFNGTRNNAWGNFPGVSVAWKIDKEDFLKDSGISTLKLRAGWGKTGQQEMPQLDTNKPRNYPSYAAYNMSSQGVQYQFGDQLYYMLRPDIYNPYLTWETTTTKNIGLDYGFWKNRVYGSIDLFQKDTDNLIVDSPIAAGDLSNHNLLNIGNMKNKGIEGSITVVPIKNEKTTWEVNFNATHFNPKITNLLSRSDSSFKIDVGGIAGGVGNTVQAHAVGYQPNSFLVYQQAYDASGHPLDGVYVDRNGDGKLSDADKYYYKSTTPDAILGFSTKFTHNNWDLGFSARAILGNYVYNNAASNSSMQSATTNGYLQNVYFSTPDYKFASPQYWSDIFVENASFFRLDNINAGYNFKDVLYKGSNIRVYAMLQNVFVITKYSGVDPEIFGNIDNGYYQMPKVYSLGFNFQF				NA	NA	NA	NA	NA
BMS003_00145	1578	susD		Starch-binding protein SusD	ATGAGACTATATAAATTTAAAACGATTGGCTCTATTGCAGTATTTTCGTTGTTATTAACAACGACTGCTTGTGTTAAAGATCTAGAGCAGACACCTATTACAGATGTAACATCTGCCAGTGTATTTACAGATTTTGCTAATTACAGACCTGCATTGGCAAAAGTATATGGAGGGTTTGCTACAGGAGGCCAGACTTCGGGAGGGGGAAATGCAGATATCAATGGAATTGATGCTAACTTTTCCCAGTATACCAGAGTTATTTTTACCCTAGAAAATCTTTCAACCGATGAAGCTGTTATTGCCTGGAATGACGGTACATTACAGACGATTCATAAGATGACATGGGATGCATCAAGTGAATTTATCAGTGCGGCATATTATAGAATCTATACAGAAATTGCTTTTTGCAATGAATTTATCAGAAATACAACCGATGATAAGCTCGCATCCAATAATATTTCTGGAAATAATCTAACTGAAGCGAAATATATGCATGCGGAAGCTAGGTTTTTAAGGGCTTTAGCTTATTATCATGCATTAGATTTATTTGGGAATGTTCCTTTTGTTACTGAAAATAATTTACCAGGATCAACCACTCCACCGCAGAGAATAACAAGAGCAGAGTTATTTAAATATGTGGAAACAGAATTATTGGCATGTGCTAATGATCTAAAAGATGCTAAATCTAACGAGACATACAGAGTTGATAAAGCGGCTGCATGGTCTCTTCTTGCAAAACTCTATCTTAATGCTGAGGTATATACAGGTACGGGAAGGTATAATGACTGTATCACTTACTGTAATAAAGTAATTGGAGCAGGGTATTCTTTAAAATCAAAATATGGTGATTTGTTTCTTGCAGACAACAATATTAATAATCCTGAATCAATTTTCTCTATTTATTTCGATGGGTTGAACGTTCAAACTTATGGTGGTACAACATACCTTATCCATGCTGCGATAGGAGGATCCATGTCTGCTTCGCAATTCGGTGTCAATGGAGGCTGGGGTGGTTTAAGAACTACAAAATCATATGTAAATTTATTTACAGATACTAATGACCAGAGACGTAATTTCTACACCAATGGTCAGAACCTTGAGATCAATGACCTTGGTAGCTTTACTGACGGTTATGGATATATTAAATATAAGAATGTAACAAGTACGGGAAGTGTAGGATCAGATGCTGCAGGAAACTTCTGTGATGCGGATATTCCGGTATTCCGTTTGGCGGATATATATTTGATGTATGCTGAAGCGACATTAAGAGGAGGAAACGGAAATGCAGCAACCGCATTAATGTACGTGAATAACTTGAGAACCAGAGCAGGTGCTGCTGTTACAACAGGAATTAATCTGGATTATATCTTAGATGAAAGAGGCCGTGAATTAGGATGGGAAATGACGAGAAGAACCGATCTTGTGAGATATGGTAAATTTACAACCGGAGCATATTTATGGCCATGGAAAGGAGGAATAAAAGATGGTAAGGCAGTAGAAGATTATAGAAATCTATACCCTATTCCATCAAAAGATATTGTGGCAAACCCGAATTTAGTTCAGAATCCTGGATATTAA	MRLYKFKTIGSIAVFSLLLTTTACVKDLEQTPITDVTSASVFTDFANYRPALAKVYGGFATGGQTSGGGNADINGIDANFSQYTRVIFTLENLSTDEAVIAWNDGTLQTIHKMTWDASSEFISAAYYRIYTEIAFCNEFIRNTTDDKLASNNISGNNLTEAKYMHAEARFLRALAYYHALDLFGNVPFVTENNLPGSTTPPQRITRAELFKYVETELLACANDLKDAKSNETYRVDKAAAWSLLAKLYLNAEVYTGTGRYNDCITYCNKVIGAGYSLKSKYGDLFLADNNINNPESIFSIYFDGLNVQTYGGTTYLIHAAIGGSMSASQFGVNGGWGGLRTTKSYVNLFTDTNDQRRNFYTNGQNLEINDLGSFTDGYGYIKYKNVTSTGSVGSDAAGNFCDADIPVFRLADIYLMYAEATLRGGNGNAATALMYVNNLRTRAGAAVTTGINLDYILDERGRELGWEMTRRTDLVRYGKFTTGAYLWPWKGGIKDGKAVEDYRNLYPIPSKDIVANPNLVQNPGY				NA	NA	NA	NA	NA
BMS003_00146	1023			hypothetical protein	ATGAAAAATTTATTTAGAATATTTTACGTATTAGTACTTGGTTTTATTGTTATGTCTTGTGAAAAAGACGAAGATATGGCTACACTAAGTACTCCAACAAATTCAGCGTTAAATTCAGATAAGACTACTTTAGTATTGGTAAAAGCGAATGCTTCACAGGACGCCGTTACTTTTAGTTGGACAAACCCGTCATATGGAGTGAATCTGGCCGAAAATAATCAATTGCAATTTGCAGTTAAAGGAACAGATTTTACTACAAGTAAGAATATAGACCTCCCTGCAGGACAAACTTCAATTACTTATACAGTTGAAGAGTTTAATACTATAGTTTTAGCTTTAGGATTACCTACAGATTCTGCCTCAGAAATAGAAGTTAGAATGAAATCTACGGTAGCATCATTGGATGGCAGCGCAACTAATCTACCTACGGTTTATTCTCCGGTAACAACTATTACTGTTACTCCTTATGCGCTTATTTCATATATGTATGCGCCGGGAGCTTACCAAGGGTGGAATCCGAGTACTGCCAATACTTTAGTATCTTCTACCAGTAACGGAATCTTTATAGGATTTATTAATTTTCCTGCTGCGGGATCAGAATTTAAAATTACTGCAGATCAGTCCTGGACAACTAATTACGGATCAAGTAATGGAGTAGATTTAGTAGCTAATGGTTCAAATATTACTTCCCCGGGAGCTGGTTATTACAAGTTGACGGTAGATATGAATACTATGAAATATACATTAGTTCCTTATCAAATAAGTATCATTGGCGCTGCAACTCCTGGAGGTTGGGATTCAGATACTGATATGGCATGGGATAATGCTACTCTGAAATGGAAAGTAACAACATCATTTACAGCAGGTGAATTTAAGTTCAGACTTAACCATGATTGGGGAACAAACTGGGGTGACGATGGAGCAAACGGAACATTAGAGGCAGGAGGTGCAAACATAACAATTACAGGGGGGAATCATACAATTCTGATGAATCCATATGATCTGACATATTCTGTACAATAA	MKNLFRIFYVLVLGFIVMSCEKDEDMATLSTPTNSALNSDKTTLVLVKANASQDAVTFSWTNPSYGVNLAENNQLQFAVKGTDFTTSKNIDLPAGQTSITYTVEEFNTIVLALGLPTDSASEIEVRMKSTVASLDGSATNLPTVYSPVTTITVTPYALISYMYAPGAYQGWNPSTANTLVSSTSNGIFIGFINFPAAGSEFKITADQSWTTNYGSSNGVDLVANGSNITSPGAGYYKLTVDMNTMKYTLVPYQISIIGAATPGGWDSDTDMAWDNATLKWKVTTSFTAGEFKFRLNHDWGTNWGDDGANGTLEAGGANITITGGNHTILMNPYDLTYSVQ				NA	NA	NA	NA	NA
BMS003_00147	2157	susB		Glucan 1,4-alpha-glucosidase SusB	ATGAAGAAAATTACAGTTGGAGCACTTCTGCTCTCAATGATGTTTACAGGTTTGAAAGCCCAATCTTTAAAATCTCCGGACGGAAAGTTTGAAATGAATTTTCAGCTGAAAAGCGGAGTTCCATACTATAACCTAAAATATAACGGTGCGGTAGTGGTAGAAGATTCTAAATTGGGATTGAGATTATTTAAAGACACAGCCATAAAATTCGCTTCTGAAATAGCCAAACCAGAAGATGCAAAATTCGATCTGAACAACGGTTTTGCAAAGACAGATGAAAAAAGAGACTCCAAAAATGAAACCTGGCAACCGGTTTTAGGAGAAAAGAAAAACTATATCAACCATTATAATGAACTGGCTGTTACCCTGAATCAGGCTTCTACAGACAGAAGTATTGTGGTGAAATTCAGATTGTTTAATGATGGTCTGGGGTTCAGATATGAATTTCCACAACAAAAAAATCTTAATTATTTTGTAATCAGAGAAGAAGATTCTGAAATTGATTTTCCTACCGATATGAAGGCTTGGTGGATTGTAGCAGATTATGACTCCCAGGAATATCAATATCAGGAAACTAAAATTTCTGAAATTCCGGCAAAATGGGATAAAGCATACGATGCGAATGCCTCGCAGTCCTTAGTGAAAAATGCAGTTCAGTCTCCGCTGATGCTTAAAAAGGAAGGAAAAGAGCCTTTATATATCAACGTTGCAGAAGCTGCAGTGTTAGACTATCCGGCTTCGCACCTTGAAGTAGATGCAAAGAATTATAAGTTCAAAACGCATCTTACTGCTGACAGGCAGGGAGCAAAAGGATATATTCAGACACCATCAGTGACGCCGTGGAGAACTATTATTGTAGCGCCGAAAGCAGAGCTGATAATGGATTCTAAAATGATCTTTAATCTGAACGAGCCTACAAAATATACCGATACTTCTTACATTCACCCTACAAAATATATGGGAGTCTGGTGGGAAATGATCATCGGGAAATCACAATGGGCATATTCTACAGCTGAAAATGTTCATTTAGGAATAACAGATTTTGCGAAATTAACTCCAAACGGAAAACACGCAGCCAACAATACTAAAGTTAAAGAATATATTGATTTTGCTGCAGAAAATGGTTTTCAGGGATTGTTGATCGAAGGCTGGAATATCGGTTGGGAAGACTGGTTCGGTCACTCTAAAGAATTTGTTTTCGATTTCATTACGCCGTATCCGGATTTTGATATCAAAATGTTGAATGAATATGCACATTCAAAAGGAATCAAGCTGATCATGCATCATGAAACTTCAGGTTCAGCCACGAACTATGAAAGATGGGCGGATAAAGCCTTCCAGGCAATGAATAAATACGGTTATGATGCTGTGAAAACAGGATACGTAGGAGACATTATTCCCAGAGGAGAGCATCATTACTCTCAATGGATGATCAATCACTATTATAGAATTGCTGAAAAAGCAAATGACTATAAAATTATGGTCAATTCCCACGAATCTGTACGTCCTACAGGAGAAAGCCGTACCTATCCGAACTATATTTCTGCAGAAGCAGCCCGTGGAACAGAATATGAAGCATTCGGAGGAAATAAGCCAGACCACCAGACCGTTCTTCCATTTACAAGATGGATGGGAGGTTCTATGGATTATACACCAGGGATTTTCCAGACGAAATTAGATTATTACTTCCCTGGAGATACACGTTTTGTAAAAACTACTCTGGCTAAACAGTTAGCGCTTTATGTAACGATGTATATGCCACTTCAGATGGCTGCAGATCTTCCTGAAAATTACAAAAAGCATATGGATGCATTCCAGTTTATCAAAGATGTAGCTGCAGATTGGGATGATACAAAGATCTTATCTGCAGAACCTGGTGATTATGTAATTACGGCAAGAAAGGCAAAAGGTACTGAAAACTGGTTTGTAGGAGGTATTACCGATGAAAACAAACGTGATTATACAGTAGACTTCTCTTTCTTAGACAAAGGAAAGAAATATGAAGCAACAATCTATGAAGATGGAAAAGACGCTGATTATATTGATAATCCTCAAAGTTATAATATTTATAAAAAAGAGATTACAAGCAAATCAAAAATTAATTTTAAGATGGCAAGAAGTGGCGGTTTTGCAGTTTCTATTAAACCCGTGAAGTAA	MKKITVGALLLSMMFTGLKAQSLKSPDGKFEMNFQLKSGVPYYNLKYNGAVVVEDSKLGLRLFKDTAIKFASEIAKPEDAKFDLNNGFAKTDEKRDSKNETWQPVLGEKKNYINHYNELAVTLNQASTDRSIVVKFRLFNDGLGFRYEFPQQKNLNYFVIREEDSEIDFPTDMKAWWIVADYDSQEYQYQETKISEIPAKWDKAYDANASQSLVKNAVQSPLMLKKEGKEPLYINVAEAAVLDYPASHLEVDAKNYKFKTHLTADRQGAKGYIQTPSVTPWRTIIVAPKAELIMDSKMIFNLNEPTKYTDTSYIHPTKYMGVWWEMIIGKSQWAYSTAENVHLGITDFAKLTPNGKHAANNTKVKEYIDFAAENGFQGLLIEGWNIGWEDWFGHSKEFVFDFITPYPDFDIKMLNEYAHSKGIKLIMHHETSGSATNYERWADKAFQAMNKYGYDAVKTGYVGDIIPRGEHHYSQWMINHYYRIAEKANDYKIMVNSHESVRPTGESRTYPNYISAEAARGTEYEAFGGNKPDHQTVLPFTRWMGGSMDYTPGIFQTKLDYYFPGDTRFVKTTLAKQLALYVTMYMPLQMAADLPENYKKHMDAFQFIKDVAADWDDTKILSAEPGDYVITARKAKGTENWFVGGITDENKRDYTVDFSFLDKGKKYEATIYEDGKDADYIDNPQSYNIYKKEITSKSKINFKMARSGGFAVSIKPVK	PGPT0019135_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019135-susB-K21574	NA	NA
BMS003_00148	993			hypothetical protein	ATGTTTGATTTCAGTAATATGTTCAAAACTGAGGGACCAGATGTTGTTTATGGCTGGACCATTCCTGTATTTGCTGTTATTATTTTTATAGAGATGGCTTACAGCCACTTCAATAAAGAGAAGATTTATGAGACTAAAGATGTAGCAACCAATGTTCTTTTTGCTTTGCTCAATTATGGATTAGATATCATTATGAAAGGCTTTTCTTTATTTGTCATGATGTTTTTCTACCATCACCGTCTCTTCGACTGGCAAGAGGGAGTCTGGTACTGGATTGCTGTATTTCTTGCTCAGGATTTTGCGTATTATGTTCATCATTATGTAGATCATCATTCACGGGTTTTCTGGGCGGTACATATTACGCATCATAATTCTGATTATTTCAATATCAGTACTGGGTTCAGGAGTCCTGTTTTTCAGCCGCTGTACAGATACCTGTTTTTCTCTCCGTTAGCTTTTATGGGATTTCACCCGTGGCATATACTGGTAGCATATTCTGCGATACAGATTTACGGTACTTTTGTGCATACTCAGTCTATCAAAAGTATGGGTTTTTTAGAATACATTCTTGTAACACCTTCTCATCACAGGGTACACCATGCATGTAATATCAAATATCTTGACCGTAATATGGGAATGGGGCTTATTATCTGGGATAAAATTTTCGGAACATTTGAAAAGGAAGATCCTGAAGTTCCTGTGAAATATGGCGTATATCCAAAAATTAAATCCAAAGATCCTGCTACGATGCTTTTCTATGAATGGAGAAGAATTGGAAAGGATATCAGGCAGCCGGGATTATCTTTTAAAAACCGAATAAAGTATCTTTTTTATTCACCGGGCTGGCGCCATGACGGTACCGGAAAAACGGTAAAACAGTATCAGAAGGAGTATAGAGAAAAGATGAAGAAGAAAGGCTATTCTACAAAAGGGCAAACTCCAGATACAGAATATCAGTATTCACAAATTAAAGAGCAGACAGGAGATAAGTAA	MFDFSNMFKTEGPDVVYGWTIPVFAVIIFIEMAYSHFNKEKIYETKDVATNVLFALLNYGLDIIMKGFSLFVMMFFYHHRLFDWQEGVWYWIAVFLAQDFAYYVHHYVDHHSRVFWAVHITHHNSDYFNISTGFRSPVFQPLYRYLFFSPLAFMGFHPWHILVAYSAIQIYGTFVHTQSIKSMGFLEYILVTPSHHRVHHACNIKYLDRNMGMGLIIWDKIFGTFEKEDPEVPVKYGVYPKIKSKDPATMLFYEWRRIGKDIRQPGLSFKNRIKYLFYSPGWRHDGTGKTVKQYQKEYREKMKKKGYSTKGQTPDTEYQYSQIKEQTGDK				NA	NA	NA	NA	NA
BMS003_00149	1860	tvaII		Neopullulanase 2	ATGAAGAAAATATATACAGCATTAGCTCTTTCCATAGCTTCTGCCGCCTTTTCCCAAAAAGCATTGGAAAAAATAGAACCGGCCTTCTGGTGGAAAGGAATGAAAAATCCCGAACTGCAGATTCTTGTCTATGGAAAAGATATAGCCCATAACGAGGTAGTGCTTTCGGATGGAATACAGATCAAAGAGATTCGGAAAGTAGATAACCCGAACTATATTTTTATTACAGTCAATACCAACGAAATAAACGTTCCGAAATTCACAATCAATATTAAAAAAAGTAAAAAGAATATCGGATCCTATACCTACGAGCTGAAACAGAGAGAGCAAGGTTCTGCCAATCGGGAATCTTTTACTTCAAAAGATGTGATGTACCTCATCATGCCGGACCGTTTTGCCAATGGGGATGAGAAGAATGACTCAAGGCCCGAGCTCACAGAAAAAGCAAACCGCAGCTTGCCGAATGGGAGACATGGAGGAGATCTCCGTGGAATCATCAATAATCTCGATTATATACAGAATCTGGGAGCTACAGCGGTATGGCTTACCCCTGTGAATGAGGATAACGAAAAAGTATATTCTTATCACGGCTATGCCCAAACTGATCTGTATAAAATTGATGCCAGATACGGATCCAATGAAGATTACAAAACACTGTCTCATGAGCTGAATAACAGAAATATGAAGCTGGTGATGGATTATGTGACCAATCATTGGGGGTCTTCACACTGGATGATCAAAGATCTGCCTTCCAAAGACTGGATACACTGGTTTGATGAGGGTGAAAATGGATTTAAACGCTCCAATTATAAGACGACAACGCAATTTGATATCAATGCTTCGGATATTGATGAAAAATATGCCCTTGATGGCTGGTTCGATAAAACAATGCCTGATATTAACCAGAAAAACCCATTGGTTTTAAAATATCTGACCCAAAATGCGATCTGGTGGATCGAATATGCTGGGCTAGGCGGTATTCGCGTAGATACGTACCCATACAATGATAAAGAAGCCATGGCAAAATGGGCTAAAGCTATTACTGATGAGTACCCGAAATTCAATATTGTAGGTGAAACCTGGTTGTATACAGCTGCACAAATTGCAGCATGGCAGAAAGATTCTAAAGTTGGACAAATTGCCGGGTACAATTCAAACTTACCCTCGGTAATGGATTTTATGCTCTTTGAAAATATGCCAAAAGCGCTTAAAGAAAAGGAAGGCTGGGATAAAGGAATGATAAGGATTTACAATTCTTTTACCAGTGATTTTCTATATCCCGATCTCAATAATCTTTTGGTTTTCTTCGAAAATCATGATACCGAAAGATGGAATGAGATCTTTAATGCCAGTCCTGATGCTTATAAAATGGCACTTACCCTCATTTCAACAGTAAGAGGAACTCCACAGATCTATTACGGTTCTGAAATAGGAATGCGTGGAGATAAAAATGCAGGAGGTGATGCAGACATTCGCAGGGACTTTCCGGGAGGCTGGAAGTCTGACAAACAAAATGCCCTCCTTCCTTCCGCTCAGACTCCGGAGCAGAAAGAGTTTTTCCGGTTTACCCAAAAATTACTGAACTGGAGAAAAGGTAAAGATGTGATTCATAACGGGAAAACTAAAAACTTCATTCCCCAGGATGGTGTTTTTGTTTATTTCAGGTATAATGAAAAAGAAAGCGTGATGGTGGTCATCAATAATAATGAAAAAGACCAGACATTAGATTTGAAACGTTTTGCTGAATCCCTTAATGGTTTTACCAAAGGAAAAGAAGTTATCTCAGGAAAAGAAATTTCATTACAAAACAGTATGAATATTCCTGCAAAAACACCGTTGATTATTGAACTCGAAAAATAA	MKKIYTALALSIASAAFSQKALEKIEPAFWWKGMKNPELQILVYGKDIAHNEVVLSDGIQIKEIRKVDNPNYIFITVNTNEINVPKFTINIKKSKKNIGSYTYELKQREQGSANRESFTSKDVMYLIMPDRFANGDEKNDSRPELTEKANRSLPNGRHGGDLRGIINNLDYIQNLGATAVWLTPVNEDNEKVYSYHGYAQTDLYKIDARYGSNEDYKTLSHELNNRNMKLVMDYVTNHWGSSHWMIKDLPSKDWIHWFDEGENGFKRSNYKTTTQFDINASDIDEKYALDGWFDKTMPDINQKNPLVLKYLTQNAIWWIEYAGLGGIRVDTYPYNDKEAMAKWAKAITDEYPKFNIVGETWLYTAAQIAAWQKDSKVGQIAGYNSNLPSVMDFMLFENMPKALKEKEGWDKGMIRIYNSFTSDFLYPDLNNLLVFFENHDTERWNEIFNASPDAYKMALTLISTVRGTPQIYYGSEIGMRGDKNAGGDADIRRDFPGGWKSDKQNALLPSAQTPEQKEFFRFTQKLLNWRKGKDVIHNGKTKNFIPQDGVFVYFRYNEKESVMVVINNNEKDQTLDLKRFAESLNGFTKGKEVISGKEISLQNSMNIPAKTPLIIELEK	PGPT0012205_206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012205-susA-K21575	NA	NA
BMS003_00150	528			hypothetical protein	ATGAAAAAATTAAAAACTGCTTATACACTGATCCTTTTTTTATTGGGGTTCTCTTTATGGAGTGCACAGTCGAAAAGTGCATTTGAAAAAGAAAAATCAGAAATCAGTAATATGCTTGATGAATTCAATATAGCTGCTGCAAAAGCAGATTATAATGCGTATTTCAATTTTTTTGCAGATGAATCTACTTTTATTGGGACAGATGCTACAGAAATATGGGACAAAGAAGCATTCATGGTTTGGGCAAAACCTTATTTTGACAAGAAGAAGACCTGGAATTTTAAGGCAATTAAAAGAAATATTTACTTCAGTAAAGAAGAAAATCTGGCATGGTTTGATGAACTACTGGATACTCAAATGAAAATATGCAGAGGTTCTGGTGTAGTAGAAAAAATTAACGGAAGCTGGAAGGTAAAACAATATGTTCTCTCAGTAACAGTTCCTAATGAGGTGGTAGATAAAGTGGTTTCTGAAAAAGCACCTATTGAAGATGTATTAATTCAAAAACTGAAAGCAGAATGGCGGTAA	MKKLKTAYTLILFLLGFSLWSAQSKSAFEKEKSEISNMLDEFNIAAAKADYNAYFNFFADESTFIGTDATEIWDKEAFMVWAKPYFDKKKTWNFKAIKRNIYFSKEENLAWFDELLDTQMKICRGSGVVEKINGSWKVKQYVLSVTVPNEVVDKVVSEKAPIEDVLIQKLKAEWR				NA	NA	NA	NA	NA
BMS003_00151	1419			hypothetical protein	ATGGCGGTAATGAACGGAAGATATGAAGGCGGAAAGCCTGGCAGAAAAGTAAAGCCCAATTTATCCCTGGTTCAGATTATTAACATGAGTATGGGGTTTTTGGGAATTCAGATGGCATTTGGGTTACAAAATGGTAATGCAAGTCGTATTCTCGGGAATTTAGGAGCAGATGTTCATGAATTATCGTGGTTCTGGCTGGTTGCTCCTATTACAGGTTTAATTGTTCAGCCTATTATTGGTCACATGGGTGATAATACATGGAGTCCGCTGGGGAGAAGAAAACCCTATTTTTTAATTGGGGCTGTTTTATGTGCCATCGGATTGGTACTCCTTCCTAATGCCGCTTCTGTTACCCGGATGTTTGCTGCTAACGCCCTTTTATTAGCCGTAATATTCCTGGCAATGATGGATGCTTCGGTAAATATAGCAATGGAGCCTTTCAGGGCTTTGGTAGGAGATATGCTCCCGAAACATCAGGGAACAATAGGGTTCTCGGTACAAACCATTCTGATTGGAATTGGTGCTGTATTAGGATCTTATTTGCCTGATTGGTTGACCAAAATGGGAATTTCCAATGAAGCTCCTGCAGGATTTGTAGCTGATAATGTGATTTACTCCTTTTATATTGGCGCTGCATTACTTATTATATCTATTTTGTATACGATCCTCACAACCAGAGAATATTCTCCACAGGAGTTCGCAGATTTTGATGATAGAGAAGATGGTGAAATACATGAGTCAAAGCTTTCGGATATTTTCAAAGATTTTGCTGCGATTCCTGCACAAATGAAAAAGCTGGGGATTGTTCAGTTTTTCTCATGGTTTGCACTATTTACCATGTGGGTGTTTACTACGAGCGCATTGGCAACCCATCATTTCGGACTCTCTCCGGAAGATACCCATTCCAAAGCATTTAATGATGCTGGAGATCTTACCGGAAAACTTTTTGGGATGTATAATCTTTGGGCAATCCCATTTGCCTTTCTTTTAACACCCATAGCCAAACTGATTGGCAAGAAGCAGACTCATGCACTGGCTTTATTGTGTGGGGGGGTAGGATTGGTTTCAATGTATTTCATTAAAGATGTTAATCATCTGTGGGTATCAATGATCGGGCTGGGATTTGCCTGGGCAAGTATTCTGGCAATGCCTTATGCTATGCTTATTGAGGTGATTCCTCAAAGAAAAATGGGAGTGTATATGGGGATATTTAATTTCTTTATCGTAATTCCGCAGATCATCAATGGTTTATTCGGTGGTCCCATCGTAAGCGGGATTTTCGGAAAACAGGCCATGGATTATATTGTTGTAGGAGGTGTTTGCATGCTGATTGGAGCTGTGGTAACGATGATTTTTGTGAAATCTGAAGATGAAACTCCTAAGGAAATTGAAGAAGAGATCAAGCAGGTACATTTTTAG	MAVMNGRYEGGKPGRKVKPNLSLVQIINMSMGFLGIQMAFGLQNGNASRILGNLGADVHELSWFWLVAPITGLIVQPIIGHMGDNTWSPLGRRKPYFLIGAVLCAIGLVLLPNAASVTRMFAANALLLAVIFLAMMDASVNIAMEPFRALVGDMLPKHQGTIGFSVQTILIGIGAVLGSYLPDWLTKMGISNEAPAGFVADNVIYSFYIGAALLIISILYTILTTREYSPQEFADFDDREDGEIHESKLSDIFKDFAAIPAQMKKLGIVQFFSWFALFTMWVFTTSALATHHFGLSPEDTHSKAFNDAGDLTGKLFGMYNLWAIPFAFLLTPIAKLIGKKQTHALALLCGGVGLVSMYFIKDVNHLWVSMIGLGFAWASILAMPYAMLIEVIPQRKMGVYMGIFNFFIVIPQIINGLFGGPIVSGIFGKQAMDYIVVGGVCMLIGAVVTMIFVKSEDETPKEIEEEIKQVHF				NA	NA	NA	NA	NA
BMS003_00152	729	yhhW	COG1741	Quercetin 2,3-dioxygenase	ATGAAAACAGTATATCATAAAGCAGACTCAAGAGGTCATGCTAATCATGGATGGTTAAATTCTTACCATACATTCAGTTTTGCCAACTATCAAAACAGAGACAGAACAAACTTCGGTGTTTTAAGAGTGTTGAACGATGATACCGTTTCTCAGGGAATGGGCTTCGGAACACACCCACACAGGGATATGGAAATTATTTCAATTCCTTTGGAAGGAGATTTGGAACACAAGGATTCAATGGGAACCACAGCAGTGATAAGAAAAGGAGAAATTCAGGTGATGAGTGCCGGAACCGGGGTAATGCACAGCGAATACAATAAAAATAAAGATAAAGAAGTAAAATTCCTTCAGATCTGGGTTTTTCCAAAAGAGCAGAATGTGGAACCAAGATATGACCAGAAAAGCATTAAAGAAGGTGAGAAAATCAACGGATTCCAACAGATTTTATCTCCTAATAAAAATGATGACGGAGTTTGGATTCATCAGGATGCATGGTTCAATCTGGCCAATTTTACAAAAGGAAATGGTAAAAATTACATGCTCAATAAAAAAGGAAACGGAGTCTATGCATTTGTGCTAAAAGGAAGTGCAAAAATAGGAGACCGTATTCTGAATGAGAGAGACGGACTGGGAATCTGGGATACGCAGAGCTTTAATATTGAAGCTGTAGAAGATACTGAAGTATTATTAATGGAAGTTCCAATGGAGCTGCCGTCTTATCTTAAATAA	MKTVYHKADSRGHANHGWLNSYHTFSFANYQNRDRTNFGVLRVLNDDTVSQGMGFGTHPHRDMEIISIPLEGDLEHKDSMGTTAVIRKGEIQVMSAGTGVMHSEYNKNKDKEVKFLQIWVFPKEQNVEPRYDQKSIKEGEKINGFQQILSPNKNDDGVWIHQDAWFNLANFTKGNGKNYMLNKKGNGVYAFVLKGSAKIGDRILNERDGLGIWDTQSFNIEAVEDTEVLLMEVPMELPSYLK	PGPT0019980_4291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS003_00153	552			hypothetical protein	ATGAAAATTTTAGCAATAGCAGGAAGTAACTCAGAAGCTTCTATGAACAAACAGTTGGTAACCTATGCATCAACATTATTTGAAAATGCAGACGTAGAAGTGATAGATTTAAATCCTTTTGAAATGCCAATCTATAAACATGAAAGAGAATTAGCAGGTGGTGTCCCTCAGGAAGCTCATGATTTTGCAGCAAAAATTGATAGTGCGAATTTATTATTGGTTTCTTTAGGAGAGCACAACGGAACCTATTCTACAGCATTCAAAAATGTATTCGACTGGGTATCCAGAATCAAAGACAGAACAGTTTGGAATGAAGTTCCCATGCTATTGATGTCTACATCTCCCGGAGGCAGAGGTGGAGCAGGTGTTTTGGAAGCAGCATCAAAGCGTTTCCCTTTCCATGGAGGAAATGTGGTAGAGACTTTTTCTCTTCCTTTCTTTAATGATAACTTTGATAAAACAGCTCAGAAAATTTCTAATGAAGAGAAAGACAGTGAGTTAAAGAAAAAAATAAAGAAGATTGCAGCCATTGAAACAATCCTTGAAAAATAG	MKILAIAGSNSEASMNKQLVTYASTLFENADVEVIDLNPFEMPIYKHERELAGGVPQEAHDFAAKIDSANLLLVSLGEHNGTYSTAFKNVFDWVSRIKDRTVWNEVPMLLMSTSPGGRGGAGVLEAASKRFPFHGGNVVETFSLPFFNDNFDKTAQKISNEEKDSELKKKIKKIAAIETILEK	PGPT0004195_1819	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS003_00154	993	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGAGCAACACTTACAAATCAGCGGGAGTAGACAAAGAAGAAGGATACAAAACGGTTGACAAGATCAAAAAAGCGGTCGGTGAAACCCACAATTCCAATGTACTGAACCACTTGGGGAGTTTTGGTGCTTTCTATGAAATCGGAGGATACAAAAATCCGGTTCTTGTATCAGGAACAGATGGAGTAGGAACAAAACTGAAAGTAGCTTTGGATACTAAAAAATATGATTCTATCGGTGTGGATTGTTTTGCAATGTGTGCCAATGATATTCTTTGCCACGGAGCAAAGCCTTTGTTCTTCCTTGATTATCTGGCTTGTGGAAAGCTTGATTCAGAAATTGCTGCAGAAATCGTTTTAGGAATGGTTGCCGCTTGTAAGGATAACAACTGTGCACTGATTGGTGGTGAAACTGCTGAAATGCCGGGAATGTACCAGCCGGGAGATTATGATGTTGCAGGATTCTGTGTAGGAATTGTAGAAAAAGACCAGATTATTGACGGTTCTAAGATCAAAGCAGGTAACAAAATTATTGCATTACCAAGCTCAGGATTCCACTCAAACGGATTCTCTTTAGTAAGAAAAGTTTTCCCGAACTTTGAAGAAGAGTTTGAAGGGAAACCATTATATGAAACACTTCTGGTTCCTACAAGACTATACTATAAAGATATTCATAAAGTATTGGAAGAAGTAAAAGTAGAAGGAATTGCTCACATCACGGGAGGAGGTCTTTACGAAAACGTTCCAAGAATTATTCCTGAAGGACTTTGTGCTTCTATTGACGAATCCAAAATCAGAATTCCCAGCGTAATGCTTGAGCTTGAAAAAAGAGGTGGAGTGAAACGTGAAGAAATGCACGGAACATTCAATATGGGAGTAGGTATGGTAATCGTTGTAGATGCTGAACATGCTGAAAAAGTATTACACCTTTTAGATGACGCTTACGAAATCGGTGAAATCACTGAAGGAGCAGAGAAAATCAATTTAAAATTTTAA	MSNTYKSAGVDKEEGYKTVDKIKKAVGETHNSNVLNHLGSFGAFYEIGGYKNPVLVSGTDGVGTKLKVALDTKKYDSIGVDCFAMCANDILCHGAKPLFFLDYLACGKLDSEIAAEIVLGMVAACKDNNCALIGGETAEMPGMYQPGDYDVAGFCVGIVEKDQIIDGSKIKAGNKIIALPSSGFHSNGFSLVRKVFPNFEEEFEGKPLYETLLVPTRLYYKDIHKVLEEVKVEGIAHITGGGLYENVPRIIPEGLCASIDESKIRIPSVMLELEKRGGVKREEMHGTFNMGVGMVIVVDAEHAEKVLHLLDDAYEIGEITEGAEKINLKF	PGPT0021570_4762	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
BMS003_00155	564	purN		Phosphoribosylglycinamide formyltransferase	ATGAAAAACATCGTTGTACTCGTATCCGGTTCAGGAACCAATCTGCAGAGAATCATTGATACCATTGATTCCGGAGAAATCCAAAATGCAAAAGTAACTTTGGTGGTGGCTGACAGAGAATGTTTCGGACTGGAAAGAGCAAAGAATCACAATATAGAAAACATACTGATTCCAAGAGGAAAGAACTTCAGCAGTGAGTTGGCTAAAGTAATCCCTGAAAATACAGATCTTATTGTATTGGCAGGATTTTTATCCATCTTAAAATCTGAATTCTGTGAAAACTGGAATGGTAAAATAATCAATATTCACCCGGCTTTGCTTCCGAAATTCGGAGGAAAAGGGATGTGGGGAATGAACGTTCACAATGCAGTTATTGAAGCCAAGGAAATAGAGAGTGGGGCAACAGTACATTTTGTAACGCCAGGGATTGACGAAGGAGAAGCTATTCTTCAGAAGTCTTTCGAAGTAACCGCTGAGGATACTCCTGAAACTCTGGCTCAGAAAGTTCACCAGATTGAATATGAAATATTTCCGATAGCGATCAATAAGATCCTGGGAAACTAA	MKNIVVLVSGSGTNLQRIIDTIDSGEIQNAKVTLVVADRECFGLERAKNHNIENILIPRGKNFSSELAKVIPENTDLIVLAGFLSILKSEFCENWNGKIINIHPALLPKFGGKGMWGMNVHNAVIEAKEIESGATVHFVTPGIDEGEAILQKSFEVTAEDTPETLAQKVHQIEYEIFPIAINKILGN	PGPT0008095_4328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
BMS003_00156	1518	purH		Bifunctional purine biosynthesis protein PurH	ATGAGTAAAAAGAGAGTTTTAATCAGTGTTTCTGACAAAAGTGGATTAATTGAATTCGCGCAGTTTTTGGAAGCTCAGAATTATGAGTTGATCTCTACAGGAGGAACGTTCAAACATTTGAAAGACGCTGGTTTAAATCCTATTCAGATTGATGAGGTAACCAATTTCCCTGAAATGCTGGACGGAAGAGTAAAAACCCTACACCCGAAAGTTCACGGAGGATTGCTGGCTGTTCGTAACAACGAAGAGCACATGAAAACCGTTCAGGAGCACGGAATTGGTCTGATTGACATGGTGATCGTAAACCTTTACCCTTTCTTTGAAAATGTAAACAAAGACATTTCTTTACATGAAAAAGTAGAGTTCATCGATATCGGAGGCCCTTCAATGCTTCGCTCTGCAGCGAAAAACTTTGACTCTGTAACGGTAATCACTGATGTAGAAGACTATGCAGCAGTGAAAATTGAAATGGAGCAAAACGGAGATACTTACATCGAAACCCGTAAAAAGCTTGCAGGAAAAGTATTCAACCTTACCTCTGCGTATGATGCAGCGATTTCCAGAATGCTTTTAGATGAAGAATATCCTGCTTATCTGAATGCTTCTTATAAAAAAGTAGCTGACCTGAGATACGGAGAAAACCCTCACCAGACAGCAGCTTATTACGTTTCTACTTTCGAGAACGGAGCCATGAAAGACTTCGAGCAGCTTGGTGGTAAAGAACTTTCTTTCAACAATCTTCGTGACATGGACCTTTGCTGGAAAGTAGTCACTGAGTTCAAAGAAGAAATGGCTTGTTGTGCCGTAAAACACTCAACCCCTTGTGGAGTTGCCATTGGAACTTCAGCTTTGGAAACATACCAGAAAACATTCGAATGTGATCCGGTCTCCATCTTTGGCGGAATTGTTGCAATGAACTATAAAATAGATGCAGCAACAGCTGAAGAACTTAATAAAACTTTCCTTGAAATTGTAATGGCTCCTGAATTTGATGACGAAGCTCTTGAAGTTTTAAGAAAAAAGAAAAACCTGAGAATTATCAAAATCGTAAACCCTGTTTCAGACAAACAGACTTGGGTGAAAGTAGACGGAGGAATCCTTGTTCAGGATAATGACCTTCACTTCTCAGATGATATCAAAGTAGTTACAGAGGTACAGCCTACAGAAGAGCAGAAAAAAGCATTACTTTTCTCTCAGAGAGTAGTAAAATATGTGAAGTCTAATGCAATTGTAGTTTCCAACGGAATTCAGGCATTCGGTATCGGAGGCGGACAGGTAAACAGAATCTGGGCGACTCAGCAGGCTATCGAAAGAGCAAAAGAAAAATTCTCAGGAGATTTAGTATTGGCATCAGATGCATTTTTCCCTTTCCGTGATGTGGTAGACTTCTGTGCTCAGGAAGGTATCAAGGCAATTATTCAGCCGGGTGGAAGTGTAAAAGATCAGGATAGTGTAGATGCTGCAAATGAACATGGTATTCCAATGATGTTTACAGGTGTTAGACACTTTTTTCACTAA	MSKKRVLISVSDKSGLIEFAQFLEAQNYELISTGGTFKHLKDAGLNPIQIDEVTNFPEMLDGRVKTLHPKVHGGLLAVRNNEEHMKTVQEHGIGLIDMVIVNLYPFFENVNKDISLHEKVEFIDIGGPSMLRSAAKNFDSVTVITDVEDYAAVKIEMEQNGDTYIETRKKLAGKVFNLTSAYDAAISRMLLDEEYPAYLNASYKKVADLRYGENPHQTAAYYVSTFENGAMKDFEQLGGKELSFNNLRDMDLCWKVVTEFKEEMACCAVKHSTPCGVAIGTSALETYQKTFECDPVSIFGGIVAMNYKIDAATAEELNKTFLEIVMAPEFDDEALEVLRKKKNLRIIKIVNPVSDKQTWVKVDGGILVQDNDLHFSDDIKVVTEVQPTEEQKKALLFSQRVVKYVKSNAIVVSNGIQAFGIGGGQVNRIWATQQAIERAKEKFSGDLVLASDAFFPFRDVVDFCAQEGIKAIIQPGGSVKDQDSVDAANEHGIPMMFTGVRHFFH	PGPT0008110_4857	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
BMS003_00157	1239	purD	COG0151	Phosphoribosylamine--glycine ligase	ATGAGAATATTAATCATAGGTGAAGGCGGTAGAGAATCTGCTTTAGCGGCAAAGCTTCAGAATGACCCGAGAATTTCTAAAATGTTTTTTGCCAACGGGAATGCTACTACCGATGTAATAGGGAAAAATGTTCATTTATCAGAAATCAAAGAACTTAGAGATTTCGCTATTAAAGAAAAAATTGATCTTACGATCGTAGGTCCGGAAGCTCCTCTTGTAGCGGGTATCAAGGACGAATTTAAAAAGCACGATCTTAAAGTTTTCGGGCCTACCCAGAAAGTAGCGAGCCTGGAAGGAAGTAAAGCTTTCTCTAAGAAATTTATGCAGACCTATGATATCAAAACAGCTAAAGCTGTGGTATTTGATTCATATAATGAAGCTAAAGAATATGTGCAGACCCAGCAGTATCCTTTAGTAATCAAGGCAAGTGGTTTAGCAGGTGGAAAAGGTGTTGTTATCTGTGACAATCTTGAAGAAGCTGAAGCTACCATCCATGATTTCATGATCAGAAGAATCTATGGTGATGCCGGTATTCGTTTAGTTATTGAAGAATATTTAGAAGGTTTTGAAGCTTCAATCATTGCTTTCTCTAATGGTGATAAGCTATTCCCATGTGTAGCGGCAAAAGATTATAAAAAAGCCGGAAACGGAGATACAGGACCTAATACAGGAGGTATGGGATCCGTAGCCCCAAGCCCGGAATTTACTCAGGAGCACTATGCAGATTTCGAGAAAAATATTATGGAGCCTACCATCAAAGGTCTTAAAGCAGAAGGTTTCGGATTTAAAGGAATGATCTTCTTCGGATTGATGGTAACGAAAAACGGAGCTTATCTTCTTGAATACAACATGAGATTCGGAGATCCTGAAACACAGGTACTGATGGCACTTATGGAAAACAATCTTTTGGATGTGATCCAGGATTGTATGGAAGGAAAAGACATTGAACTTAAGTTTAAAAACGAAAAAGCAGTTTGTCTTGTAATGTGCTCAGGAGGTTATCCCAGAAACATCGAAATAGGCTTCGAGATTACAGGAGAAGATAAACTTAAACATAGTAAACTGTTATATGCAGGAGCAGTCAGCAAAGGAGATAAAGTAGTTTCCAATGGAGGCAGAGTACTGAACATTGTCGCTACAGGAGCTACCTACGAAGAAGCCCGCAAAAATGTTTATGAAGACGCTAGTCATGTGCATTTCGATTACGGCTTCTACAGAGAAGACATCGGAAAGTTTTAA	MRILIIGEGGRESALAAKLQNDPRISKMFFANGNATTDVIGKNVHLSEIKELRDFAIKEKIDLTIVGPEAPLVAGIKDEFKKHDLKVFGPTQKVASLEGSKAFSKKFMQTYDIKTAKAVVFDSYNEAKEYVQTQQYPLVIKASGLAGGKGVVICDNLEEAEATIHDFMIRRIYGDAGIRLVIEEYLEGFEASIIAFSNGDKLFPCVAAKDYKKAGNGDTGPNTGGMGSVAPSPEFTQEHYADFEKNIMEPTIKGLKAEGFGFKGMIFFGLMVTKNGAYLLEYNMRFGDPETQVLMALMENNLLDVIQDCMEGKDIELKFKNEKAVCLVMCSGGYPRNIEIGFEITGEDKLKHSKLLYAGAVSKGDKVVSNGGRVLNIVATGATYEEARKNVYEDASHVHFDYGFYREDIGKF	PGPT0021575_5015	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
BMS003_00158	1530	guaA	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGAACAACGGTATTATTATTTTAGATTTCGGATCCCAGTACAACCAGCTTATCGGAAGAAGAATCCGTGAGATGGGTGTATATTCTGAAATCTTACCTTACAATACACCATTACAAGATATTTTAGCAAAGCAGCCAAAAGGAATTATCCTTTCCGGTGGACCAAGTTCTGTAAATGCAGAAAATGCTCACCTGGTTGAAAAAGAATTATACGAGCAGGGAGTACCGGTATTGGGAATCTGCTACGGAATGCAGATGACTGCCCACCTTTTAGGAGGTAAAGTAAACAAAGGAGAAAAAGGTGAATATGGTAAAGCAAACCTTGAGATCGTAAAAGAAAGCTCTTTATTAAAAGGAGTTACGCAGAACTCTGTAGTTTGGATGAGCCACTTTGACGAAGTAGGAGAGCTGCCTGCAGGTTTTGAATTAAATGCAAAATCAGGAGTAATTGCTTCTATCGCTAATGAAGATAAAAAAATCTACTGTGTTCAGTTCCACCCGGAAGTTTCTCATACAGAAGAAGGAGGGAAAATGCTTGAAAATTTTGTTTTCAGCATCTGTAACTCAGAGAAAAACTGGAAACTGACCAACTATATTGAAAAAACAGTAGAGGAAATCCGTGAGAAAGTAGGAGACAACAAAGTAATCCTTGGACTTTCAGGAGGAGTAGACTCTTCTGTAGCGGCTGTTTTGATCCACAAAGCAATCGGTGACCAATTGACTTGTATCTTCGTAGATACAGGCTTATTGAGAAAGGATGAAGGCAAAAAAGTAATGGATCAGTATGGAGAGCATTTCCATATGAACATTAAAATGGTAGATGCTAAAGAAAGATTTCTTTCAAAACTAGCTGGAGTAGACGATCCTGAAGCGAAGAGAAAAATCATAGGAAACGAGTTTATCCATGTTTTTGACGAAGAATCTCACAAAATAGAAGGGGCTAAATTCCTTGCACAAGGGACTATTTATCCGGACGTTATCGAAAGCCAGTCTGTAAACGGACCATCTGCCGTAATCAAGTCTCACCACAATGTTGGAGGACTTCCTGAAGATATGGAATTTGAATTATTAGAGCCGTTAAGAGAGCTTTTCAAGGATGAAGTAAGAAGAGTAGGAGAAGAATTAGGAATTCCTCATCATTTAGTATACAGACACCCTTTCCCAGGTCCAGGATTAGGAATCAGAGTATTGGGAGCAGTAGATGCTGAGAAAGTAAGAATCCTTCAGGAAGCTGATGATATCTTCATTGAAGAATTATACAAAAATGACCTTTACGAAAAAGTATCTCAGGCATTTGTAGTACTTCTTCCGGTAAAATCTGTAGGAGTAATGGGAGACGAACGAACTTACGAATACACAGCGGTAGTTCGTTCTGCCAATACCATCGACTTTATGACAGCAACATGGAGCAGACTTCCTTACGAGTTCCTGGATACCGTTTCAAGCAGAATCATCAACGAAGTAAGAGGAATCAACAGAGTAGCTTACGATATTTCAAGCAAACCACCTGCAACGATTGAGTGGGAATAA	MNNGIIILDFGSQYNQLIGRRIREMGVYSEILPYNTPLQDILAKQPKGIILSGGPSSVNAENAHLVEKELYEQGVPVLGICYGMQMTAHLLGGKVNKGEKGEYGKANLEIVKESSLLKGVTQNSVVWMSHFDEVGELPAGFELNAKSGVIASIANEDKKIYCVQFHPEVSHTEEGGKMLENFVFSICNSEKNWKLTNYIEKTVEEIREKVGDNKVILGLSGGVDSSVAAVLIHKAIGDQLTCIFVDTGLLRKDEGKKVMDQYGEHFHMNIKMVDAKERFLSKLAGVDDPEAKRKIIGNEFIHVFDEESHKIEGAKFLAQGTIYPDVIESQSVNGPSAVIKSHHNVGGLPEDMEFELLEPLRELFKDEVRRVGEELGIPHHLVYRHPFPGPGLGIRVLGAVDAEKVRILQEADDIFIEELYKNDLYEKVSQAFVVLLPVKSVGVMGDERTYEYTAVVRSANTIDFMTATWSRLPYEFLDTVSSRIINEVRGINRVAYDISSKPPATIEWE	PGPT0021580_5012	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS003_00159	213			hypothetical protein	ATGGCAATAATTTTTCTGAATCAAAGTAAATGCCCCATTTGCAAAAAAACTTTAGACAAAGGACAGGATATCGTTTTATTTCCACCTTTTGCCTCAGATAAGAATCATAAATTTTATCTGTTCAATGATGAGGGTGTTCACCGTTCTTGTTTACAGAAAACAGAACTTGGAATCGAAGCACTACACTTTTTAGAAACAAAATTTTCAATATAA	MAIIFLNQSKCPICKKTLDKGQDIVLFPPFASDKNHKFYLFNDEGVHRSCLQKTELGIEALHFLETKFSI				NA	NA	NA	NA	NA
BMS003_00160	1512			hypothetical protein	ATGCAAATAGAAACAAGAAACCTGACCCTTCAGGATTATGATGAACTGGCGGAAACGATGAAAAGGGCCTACCCGCAGATGTCGGAGTCCATTTGGTCCAAAAAAAGTATTGATAAACTCACAAAAATGTTCCCTAATGGCCAAATTTGTATCACCGTTGACGGAAAGCTGGCTGCCGTAGCGCTTTCTATCATTGTGAATTACGATGAGTTTGGGGATGACCATACCTATAGTGATATTACAGGAAATTATACATTCAATACCCATACTTCCACAGGGAATGTCCTGTACGGAATAGAAGTTTTTGTAGATCCTGAGTTTCGGGAACTGCGTTTGGGAAGGAGGTTATATGATGCCAGAAAAGAACTTTGTGAATTATTAAACCTGAAGTCTATTATCCTGGGCGGCAGAATCCCAAATTATCATAAATACAGCCACGAGCTTTCCGCCAGAAATTACATCCGGAAAGTAAGAGACAAAGAGATCTATGATCCGGTATTGTCATTCCAGCTTTCAAACAACTTTCTTCCGATAAAAATCCTGAAAAAGTACCTTCCGGAAGATGAAGCATCCAGAGAAAATGCTGTTCTTTTACAGTGGAATAATATCTATTACAGCAGAAAACCGAATACCATGCAGGACAGCATTATCCGTCTTGGGTTGGTACAATGGCAGATGAGACACTTCAAAGATATAGAAGCTTTTTATGAACAGGTAGAATTCTTCGTGAATGTGATGGGAGATTACAAATCTGATTTTGTTCTTTTCCCGGAACTTTTCAATACACCTTTATTGGCCCCTTTCAACAACCTTTCTGAAAGGGACAGTATGATAGAGCTTGCAAAACTTACTGAAGAAATAAAAAATAAAATTTCTGAACTGGCCATCAGTTACAATGTAAATATCATTTCCGGAAGCATGCCTGTTTTTGATAACGATAATAATGATTTGTATAATGTCAGTTATCTTCTTCACCGCGATGGTCGTGTGGATGAATACAGAAAAATTCATATTACCCCGAACGAAAAAAGATATTACGGAATGAAAGGAGGAAATGAAATCAGGGTTTTTGATACAGACTGCGGAAAAATAGGCCTTGTCATCTGCTATGATGTAGAATTTCCGGAATTACCAAGAATTCTGGCCGATCAGGGAATGAAAATACTGTTTGTCCCTTATCTGACGGATACCCAGAATGCTTATATGAGAGTACGGCACTGTGCAGCAGCAAGAGCCATAGAAAATGAATGTTATGTAGCAATTGCCGGCTGTGTAGGAAACCTGCCAAAGGTAAACAATATGGACATTCAGTTTGGGCAGGCTGCCGTATTTACCCCTTCCGATTTTGCTTTTCCGTCTAATGGAGTAAAAGGAGAAGCTACTCCTAATACAGAAATGACTCTTATTGTAGATGTAGACCTGAATCTGTTGAAAGATCTTCACCATAATGGCTCTGTTCAGGTGATGAAAGACCGGAGAAAAGATCTGTATGAAACCTATCTTAATAAATAA	MQIETRNLTLQDYDELAETMKRAYPQMSESIWSKKSIDKLTKMFPNGQICITVDGKLAAVALSIIVNYDEFGDDHTYSDITGNYTFNTHTSTGNVLYGIEVFVDPEFRELRLGRRLYDARKELCELLNLKSIILGGRIPNYHKYSHELSARNYIRKVRDKEIYDPVLSFQLSNNFLPIKILKKYLPEDEASRENAVLLQWNNIYYSRKPNTMQDSIIRLGLVQWQMRHFKDIEAFYEQVEFFVNVMGDYKSDFVLFPELFNTPLLAPFNNLSERDSMIELAKLTEEIKNKISELAISYNVNIISGSMPVFDNDNNDLYNVSYLLHRDGRVDEYRKIHITPNEKRYYGMKGGNEIRVFDTDCGKIGLVICYDVEFPELPRILADQGMKILFVPYLTDTQNAYMRVRHCAAARAIENECYVAIAGCVGNLPKVNNMDIQFGQAAVFTPSDFAFPSNGVKGEATPNTEMTLIVDVDLNLLKDLHHNGSVQVMKDRRKDLYETYLNK	PGPT0007175_26	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
BMS003_00161	1647	ubiB		protein kinase UbiB	ATGTTTAGCAAGCAGCAAAGAAAACTGAAAAGATCCGCAAGACTGATTTCCGTATTGAGTAAATATGGATTTAAAGACATGCTGGCAAGAATGAACGGAGGAAATAAACAGGAAGATACTTCCGGTTCTGATGAGATTATTTCAAAAGGAACAGTTTACGAAAGAATAAGACTGGCACTGGAAGAGCTGGGGCCTACTTTTGTGAAACTTGGGCAGTCATTCAGCAACAGAGAAGACCTTTTACCGCCAGAACTGATACAGGAGCTGCAGAAGCTTCAGGACAAAGTGGAAACGGTAGATATGGATGTAGAAGAAGCATTGGAAAGCGAGTTTAATATTTCCGTTCAAGATTACTTCCTGGAAATCCGGAAAGAACCTTTAGCCACAGCCTCCATTGCTCAGGTATATAAAGCTGTTTTGAAAGACGGCAGTCCGGTGATTTTAAAATTGAGAAAACCGGATGTACAGTCTGTTATTGAAGACGACCTGCTTCTGCTTAAAGATATTGAAAAGCTGATATCAGCCTATTCGGAAATAGGAGAGAAGCTTAATATGAAACAGGCCATCTCCACTTTTGAAAAATCATTGCTGGAAGAAGTTTCCTTAACCAATGAGAGAAATAATATCCTGCAGTTCCGCCTTAATTTTAAAAATAATAAAGAAACATACGTCCCAAAAGTTTACGAAGAATTTTCCAACAACAATATTCTTTGCATGGAATTTATTGACGGAATAAAAGTAACGGACAAATCTGTTCTCCTGGCCAATGGTATTGATCCCGTAAAAGTTTCTGAAACAGGATTAAGGTTGTTTGTATCGCAGATTTTAGACTACGGGTTCTTCCATGCTGATCCCCACGCCGGAAATATCCTGGTGAAAAAGGATGGTAAAATTGTTTTCATTGATTTTGGTGCAGTAGGAAAAATTCAGCCTAATGATAAAGAGATTCTTGAAAATCTTATTGTAAGTTTTGTCGCTAAAAACTCCCATAAAATTGTCCGTTATCTCAAAAAGATGGCAATAAGCTATGAAATTCCGGACGAAAGAAGATTCGAAAATGATGTAGATGATATTCTGAATTTCGTTCACAGTTCATCATTGCAGAATATTAATATACAGGTGATCACCAACAAAATGAAAGATATTCTGAAAGACAACAGGCTTTATATGCCAGATTATTTTTATCTTTTATTCAAAGGAATCAGCCTGATAGAAGGAGTGGGAAGAAATATCAATCCGGAGCTGGATATTGTCAAAAGTCTTCATCCTTACACGAAGAAAATTTTCACCAAAAAGATCAGTCCTAAGAACCTTTTAAAAACAGGAATGGACAGGATGATGAATTTTACGGATAATGTAGATGAAATTCCGAAAGAACTTCGTTCTGTTCTTCAAAAACTGGATGAAAACAAATTTACCGTATCCAGTGAGATCAAAAATATAGAGAAAACCAATCAGCTGATCAAATCCAGTGTGGTTAACCTGATCCTGGCCATGATTTTAGGAGCGAATATCATTGCAACTGCAATTGTTTTTTCTTCGGAGTCCGGACCCAGAATAGGAGAACTTTCTTTAGTGGCAGTTTTAGGTTTTGTTTTTTCAATCCTTTTAGTGATAATCCTGTTGCTGAGAGTAACCAGAAAATAA	MFSKQQRKLKRSARLISVLSKYGFKDMLARMNGGNKQEDTSGSDEIISKGTVYERIRLALEELGPTFVKLGQSFSNREDLLPPELIQELQKLQDKVETVDMDVEEALESEFNISVQDYFLEIRKEPLATASIAQVYKAVLKDGSPVILKLRKPDVQSVIEDDLLLLKDIEKLISAYSEIGEKLNMKQAISTFEKSLLEEVSLTNERNNILQFRLNFKNNKETYVPKVYEEFSNNNILCMEFIDGIKVTDKSVLLANGIDPVKVSETGLRLFVSQILDYGFFHADPHAGNILVKKDGKIVFIDFGAVGKIQPNDKEILENLIVSFVAKNSHKIVRYLKKMAISYEIPDERRFENDVDDILNFVHSSSLQNINIQVITNKMKDILKDNRLYMPDYFYLLFKGISLIEGVGRNINPELDIVKSLHPYTKKIFTKKISPKNLLKTGMDRMMNFTDNVDEIPKELRSVLQKLDENKFTVSSEIKNIEKTNQLIKSSVVNLILAMILGANIIATAIVFSSESGPRIGELSLVAVLGFVFSILLVIILLLRVTRK	PGPT0009520_1216	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
BMS003_00162	1431	rhlB		ATP-dependent RNA helicase RhlB	ATGATCATTGGCTTGGTAATTTTCCAGCTTCAAACTCCCCGTTTCCATACTACAAAATTAAATACCTATCTTTGCAAAATGGAAAAACTCACTTTTGCAGATTTTGACCTTCCGGTTAAAATTCTTGATGTTTTAGCGGATCTGGAATTATTTGAACCTACACCCATTCAGGAGAAGAGCTTAAAACCCATTCTTTCAGGAAGGGATGTAATGGGGATTGCACAAACCGGAACCGGAAAAACATTAGCTTATCTTTTACCTGTTCTGAAAACCTGGAAATACAGCAAAACAGGAAATCCAACTGTTTTGGTGCTTGTTCCTACGAGAGAGCTGGTAGTGCAGGTAACTGAGATTCTTGAGAAACTGACAGAAAATATTACTGCAAGAGTAATCGGAATATACGGTGGAAAAAATATCAATACGCAAAAATTGTTGTTCAACGATGGTTGTGATATTCTGGTAGGAACACCGGGAAGAGTGATGGATCTTTCCATAGACAATGCCATTTCTCTGAAAGAAGTTCAGAAACTGATCATTGATGAATTTGATGAGATGCTTAACTTAGGTTTCAGACCACAGCTTTCTCATATTTTTGAAATGATGAAAGAGAAGAGACAGAATATTCTTTTCTCGGCCACCATGACGGAAGCTGTAGATGAAATGTTGGATGTATATTTTGCCAACCCAATAGAAATTTCACTGGCAAAATCAGGAACACCGCTTGAGAAAATTGAACAGACAGGTTATAAAGTAGAAAACTTTAATACAAAAATCAACTTGCTTGAACATTTGCTGAAAAATGATACAGACATGTCCAAGGTTTTGATTTTTAATAATAATAAAAAGCACGCAGACCTGCTCTTTACTAAAATTGATGAGCTTTTTCCTGAACAGTTTGATGTGATTCACTCCAATAAATCCCAGAACTACAGGCTAAAAGCAATGAAGCGTTTTGAGAATGAAGAAATCAGAGGTTTGATTACAACGGATGTCATGGCGAGAGGTCTTGATATTTCAAATATTACCCATGTAATCAACTTTGAAACTCCTGATATTCCGGAGCAGTATATTCACAGAATCGGTAGAACGGGTAGAGCAGACAAAGACGGAAAGGCTGTTACTTTTGTTACCAAAAAAGAAGAACCTTTGATTCTTGATATTGAGCTGTTGATGGATAAAGAATTGAGGTTTATTGATTTCCCTGAGGAGGTTAAGATCAATCCTAAAAAGATTGCAGCAGAAGAAGATCAGGTGGTGATGAAAAATCCTGTACAGGTAAAACTGAATGAAGGAGGAGGAGCATTCCATGAGAAAAAGGCTAAAAATACAAAAGAAAACTGGGGAGGACCTTCCAAAAGAAAAGCACCTAAGAAGTTTGGAGCTAACAGGGCTCAGCAGAAAGCAAAATCTAAATCAAAGAGAAAGAAATAA	MIIGLVIFQLQTPRFHTTKLNTYLCKMEKLTFADFDLPVKILDVLADLELFEPTPIQEKSLKPILSGRDVMGIAQTGTGKTLAYLLPVLKTWKYSKTGNPTVLVLVPTRELVVQVTEILEKLTENITARVIGIYGGKNINTQKLLFNDGCDILVGTPGRVMDLSIDNAISLKEVQKLIIDEFDEMLNLGFRPQLSHIFEMMKEKRQNILFSATMTEAVDEMLDVYFANPIEISLAKSGTPLEKIEQTGYKVENFNTKINLLEHLLKNDTDMSKVLIFNNNKKHADLLFTKIDELFPEQFDVIHSNKSQNYRLKAMKRFENEEIRGLITTDVMARGLDISNITHVINFETPDIPEQYIHRIGRTGRADKDGKAVTFVTKKEEPLILDIELLMDKELRFIDFPEEVKINPKKIAAEEDQVVMKNPVQVKLNEGGGAFHEKKAKNTKENWGGPSKRKAPKKFGANRAQQKAKSKSKRKK	PGPT0013740_2239	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS003_00163	657			hypothetical protein	ATGAAGAAGATTCTAACAGCATTCCTGTTGCTGTGTTTTACTATTGCCTTTTCTCAGGAAAACAAACCTATGTTCTGGCAGGACATTCAGGCGTTCAAAAAACTGGATCAGCAAAATCCTCCACAAAAGGATGCTATTCTATTTCTGGGAAGCTCATCATTCACCAGATGGACTGATATAGCAGATTATTTTCCGGGTAAAACTATTATCAACAGAGGATTCGGAGGATCGAGGCTTATTGACCTGAATTATTTTGCGAATGATCTTTTAGCACCTTACCAGCCCAAACAGATCATTATTTACTGTGGTGAAAATGATTTTGCAGATAATCATAAGCTAAAAGCCAAAGTGGTAGTAGACCGATATAAAGATTTCTATAAAAAGATCCGTGAAAGATTTCCTGATATTGAAATAGATTATATCTCAATAAAATACTCGCCAAGCAGAGAAGTGATCTGGCCACAAATGAAAATTGCCAATAAAAAAATTGCGGCTTTTATGAAAAAAGAACCGAATGCAGAATTCATTGACGTTACCAAAGCAATGGAAGATGCAAACGGAAAGGTAAGAAAAGATATTTTTGTGGAAGATATGCTTCACTTTAAGCCGGAAGGATACAGAATCTGGACGAAAGTGATTACTCCTTATCTGAAGTAA	MKKILTAFLLLCFTIAFSQENKPMFWQDIQAFKKLDQQNPPQKDAILFLGSSSFTRWTDIADYFPGKTIINRGFGGSRLIDLNYFANDLLAPYQPKQIIIYCGENDFADNHKLKAKVVVDRYKDFYKKIRERFPDIEIDYISIKYSPSREVIWPQMKIANKKIAAFMKKEPNAEFIDVTKAMEDANGKVRKDIFVEDMLHFKPEGYRIWTKVITPYLK				NA	NA	NA	NA	NA
BMS003_00164	462			hypothetical protein	ATGAAAAAACAGCTACTTTTATTTGCCTTTTCTGCCTTGGCGCTTACTTCTTGTAAAGATGACAATCTCGAAGCTTACGATATGGATATCATGAAGGGAGACTGGAAGGAAGTTAAAAGAGAAATTATTTCCGGAAAAGATAATAAAACAGTGCTTCAAACGTATCAAAACACTGGATGTGCCACTAAAAACACTCTTTTCTTCAGAACAGATTATTATGTGAGCTATACAGCGTATACAGGAACAGGTGCAGATTGTCAAATGGATCAAAAAACTGAAGGAAGATACACTTATGATGCTGACTCAAAAGCTATTGGAATTAAACTGGGTGATGAAGGGACTGTAAATTACAGAATAGATGTATTGACCAGCAAAAATTTAAAAATGGCTCAGCAATCAGGACTATTTGATATGGATGGGGATAAAATTCCTGACATTCCTTATATTACCTACGAAAGATAA	MKKQLLLFAFSALALTSCKDDNLEAYDMDIMKGDWKEVKREIISGKDNKTVLQTYQNTGCATKNTLFFRTDYYVSYTAYTGTGADCQMDQKTEGRYTYDADSKAIGIKLGDEGTVNYRIDVLTSKNLKMAQQSGLFDMDGDKIPDIPYITYER				NA	NA	NA	NA	NA
BMS003_00165	1164	yqhD	COG1979	Alcohol dehydrogenase YqhD	ATGCTTAATTTCGAGTTTAAAAACCCAACAAAAATACTTTTCGGGAAAGGCGAAATCGCTAAAATTTCCAAAGAAATACCCAAAGACGCCAGAATATTAATGATTTATGGTGGCGGAAGCATCAAGAACAATGGTGTTTACGATCAGGTAAAAGAGGCGTTGAAAGACCATGATTTGTATGAATTTGGCGGAGTTCCTGCCAATCCTGAATATGAAGTTCTGGTCAATGCGCTAAGCTTTATCAAAGAAAAAAACATCACTTATCTTCTTGCTGTAGGTGGCGGGTCTGTAATTGACGGCACAAAATTTCTTTCTGCAGCAGCTCAATATGATGGCGAGCCATGGGATATCCTGAGAAAATCAGTAAGAACATTTGAAGGTCAGGGAATGCCTTTCGGAAGTATTTTAACACTTCCTGCGACAGGTTCGGAAATGAATTCAGGGTATGTAATCTCAAGAAGAGAAACCCACGAGAAATTATCTTCAGGAGGGCCAGGACTTTTCCCTCAGTTTTCTGTGCTGGATCCGGAAGTGATCAGATCTATTCCAAAAAATCAAATCGTGAACGGAATTACAGATGCTTATACTCACGTTTTGGAACAATATATGACGGCTCCTTCTTCTGCTGATCTCCAGGAAAGAATTGCTGAAAGCATTCTGATCAGTCTTCAGGAAACTGCTCCTAAAGTACTGGCTGATGATTTCAATTACGATGCTGCCGGAAACTTCATGTGGTGCTGTACAATGGCTCTGAACGGATTGATCCAGAAAGGGGTAATTACAGACTGGGCAGTACACGCTATGGGACATGAGCTGACGGCTTATTTCGGAATTGACCATGCAAGAACACTGGCCATTATTGCTCCATCTCATTACCGTTACAATTTTGAAGATAAAAAAGGAAAACTGGCTCAGTATGCTGAAAGAGTTTGGGGAATCAAAGACGGAACCTTAGAAGAAAAAGCAGAATTGGGAATCAAAAAGCTGGAGGAATTCTTCCACAGTCTTCACATCAAAACCAAGCTTTCCGAATATACAGAAGATTATAACGGAACGGCTGAAAAGGTTGAAAAAGCCTTTACAGACAGAAACTGGCTAGGTCTTGGGGAGTATAAAAAACTGACTCCGCAGGATGCTTACAAGATTGTAGAGATGAGTTATTAG	MLNFEFKNPTKILFGKGEIAKISKEIPKDARILMIYGGGSIKNNGVYDQVKEALKDHDLYEFGGVPANPEYEVLVNALSFIKEKNITYLLAVGGGSVIDGTKFLSAAAQYDGEPWDILRKSVRTFEGQGMPFGSILTLPATGSEMNSGYVISRRETHEKLSSGGPGLFPQFSVLDPEVIRSIPKNQIVNGITDAYTHVLEQYMTAPSSADLQERIAESILISLQETAPKVLADDFNYDAAGNFMWCCTMALNGLIQKGVITDWAVHAMGHELTAYFGIDHARTLAIIAPSHYRYNFEDKKGKLAQYAERVWGIKDGTLEEKAELGIKKLEEFFHSLHIKTKLSEYTEDYNGTAEKVEKAFTDRNWLGLGEYKKLTPQDAYKIVEMSY	PGPT0008275_338	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
BMS003_00166	606			hypothetical protein	ATGAAAGTAATCATCATATTTTCCCTGATTCTCTCCAATCTGCTTTACAGTCAGATTAAGGTTCCTGATGATTATAAGAAAATCCCTGATATTCTAGATAATGTAGAATACCTTTATCCATTTATTATGCCTGATAAAGAGTATGCTTACTGGCGTGTTCTCAGCAATGATTCAGATAATGAAAAAGCAGTGATTTATGAAAGTCAGGCACCCGATTTCATGACCATCAATGAACCTGTTCCTGAAAGAGGTTTTTTTCAGAAATGTATTGGAAACAATTGTTTTTCATACATTCTGGCGTGTAAGAATGAAAGATCAGTTTATTTTTCCAATGAACAGCAATTGAGAGATTTTATCGGTACAGTGGACAATCTTCCTGAAGCTATTTTAGTGGCAAAAACATATGGCTATTCAGTAGATACAAGTAATCGTTTTACCGGAAGCTATAAAATGGAAGACCATCATATTTCCATGTATCTTATGCAGTCTAAGGGCTGTCCGGCTGTGAAAGAGTCTTTTTGGGTTAAAATCAATAGAAAAACCGGAAAACTGGAGGCAAAAAGCAATGGAGTTTATGCGAAGGATGAGAACTGTGCTTCTTTGTAA	MKVIIIFSLILSNLLYSQIKVPDDYKKIPDILDNVEYLYPFIMPDKEYAYWRVLSNDSDNEKAVIYESQAPDFMTINEPVPERGFFQKCIGNNCFSYILACKNERSVYFSNEQQLRDFIGTVDNLPEAILVAKTYGYSVDTSNRFTGSYKMEDHHISMYLMQSKGCPAVKESFWVKINRKTGKLEAKSNGVYAKDENCASL				NA	NA	NA	NA	NA
BMS003_00167	405			hypothetical protein	ATGAAAAAACTCTCTATTTTCCTGCTGATAACGTTTCTGTTCATTTCTTGTGAAAAAGATTGTTATAATGCACCTCTGCCCATCCTTTTTAAGCTTGTGGATGCTAATGATGAAAACCTTATTGCCAACGGAACACTGACAGACTATTCCGTGAAAGACGAAAATAATGTCAGTGTACAACTAAGCAAAACATCTGACAACATGATTATTTTGGAAAACGTGGGTGCCTACAATGGTACAAAAAAATATACTTTCTCTTCTAATATTAAATCTTTTGATTTTTCAATACAGTCGTCAGAATTTAAAGGGGCTTGTGACGGGTATCAAATTAATAAAATAACATTTACAGGCATAGGTATTGATGTAACAGATGAAAAAGGATATTATAAAATTATATTGGAATAA	MKKLSIFLLITFLFISCEKDCYNAPLPILFKLVDANDENLIANGTLTDYSVKDENNVSVQLSKTSDNMIILENVGAYNGTKKYTFSSNIKSFDFSIQSSEFKGACDGYQINKITFTGIGIDVTDEKGYYKIILE				NA	NA	NA	NA	NA
BMS003_00168	666			hypothetical protein	ATGAAATTCGGAATTATTTTTTATTCGATTTTAGGAATTTTAGCCTTATTCATAGGTATTTATCTACTGCAATATTTTATTCTTCTTTCTATTCTTTTTTTTATTGGTGCATTTATCAATGGAGTTTTTATTCATAAAGAATATTCTCTTCATAAAAGTGATAAAATTGAATATCATGATCATTCAGTTCCTGATGAAGTTGTAGTTAAATATTCCCGTTCAGGCAGAATTATCGCTATTGCCAGTTACAGCATGTTTGTGATTCTGGGATTGTTTTTTCTTTTTGGTCTTAAGCTCAAATTTAACGGAACGGTAATATTTGTATTATTTACCCTTCTTGGATTTACCGGCTATTTTATTTTTAAAATAATTTCAGAGGTAAAAAAGATGTCACAAGTTATTATTTCCATTAATGGTAAAGGAATTCAGATAAAAGATAATACAAGGTATTTGTGGAATGAAATTCAACTTGAAAAGGTCATTGTAAAACGTTTAGTAAGCCGAGAATCTAAAAATGATTACAAACCTGAAATAAATTATTTATATTTTTTTCACAACAACGAAAAAATAGAAATCAACATTGATGATTTTGATATTACAGATTACCAGCTTGCACAGGTTTTGAAAATATTTAGATCTCGTTTTAATCATTCTGTTTTACTATAA	MKFGIIFYSILGILALFIGIYLLQYFILLSILFFIGAFINGVFIHKEYSLHKSDKIEYHDHSVPDEVVVKYSRSGRIIAIASYSMFVILGLFFLFGLKLKFNGTVIFVLFTLLGFTGYFIFKIISEVKKMSQVIISINGKGIQIKDNTRYLWNEIQLEKVIVKRLVSRESKNDYKPEINYLYFFHNNEKIEINIDDFDITDYQLAQVLKIFRSRFNHSVLL				NA	NA	NA	NA	NA
BMS003_00169	2667	ppc	COG2352	Phosphoenolpyruvate carboxylase	TTGTCCAAAAATATTAAGAGGTTAAATGATGTAAAAAGTATTCATGAAATTAATCTGATTTTTTTGCATTTCAATATTAATTTTTGTCATTTGTCAATTAAATTAATCTCAAAATCACTTACATTTGTTAATATGATACATGACCAACGCGCAGAAAAATTCAGGCAGATTGTGGAAAATAAGTTCCAGATCTACAATTCATTATTTATGAGCCTGCCTTATGATAAAATGACGAACATCGGAATGCTGCTTCCGTTTCTTTATGAAGAAAGCAGAACCGGTTATGAAGCAGGGAAAACTCCTGAAGAAATCGTTGAAGAATTCTTTAAAAACCATACCGATCTTCAGAACGAAGAACAGAAGCTGGAACTTCTTTTCAAGATCATCCAGTATATAGAAAGACAGGTTGTTTTGTTTGACAGTATTGAAGATGCCGCATTTCCCAACCTCCATTCAGAAAGTGATAACGGTACAGTCACCAATCTCTTTGAACGCTCTTTTCAGGATCATAAGATTGAAAAAGTACGTGAAAAGTTAAAAGATTTCAGTGTAAAGGTCGTATTTACGGCTCACCCTACTCAGTTTTATCAAAGTTCGGTACAAAGAATCATTCAGGATTTGAGAGGGGCAATTACCAATGATTCGGTGACACAGATTGATATGCTTCTGCAGCAGCTGGGGAAAACTCCTTTTGTTAACAAAGAAAAACCTACTCCGATAGATGAAGCGTTAAGTATTATTTCTTATCTGAGATATGTATATTACGATACCATTGGTGAGCTGTTTACGAAGATCAAAAAGACTTTCGGGAACGGTCATTTTCACCTTCATGAAGATATTATCCAGCTTGGTTTCTGGCCGGGAGGAGACCGAGACGGAAATCCTTTTGTAACCGCAGATGTCACAAAAAGAGTAGCAGAAGAACTTCGTTCAGCGATTCTGAAATCATATTACAGCCATTTGAAATTTATCAGAAGAAGATTAAGTTTCAGAGGTGTCTCGGAAGTGTTGGGCCAATTGAGTGAAGAGCTGTATGCTTCCATTTTTGACGGAAAAAGCATTAAAGCAGAAGATATCTTAAAGAAAACAGCCGAGGCGGAAAAAATATTAATTAACGAACATAACTCTTTGTTTTTAGATCTTTTGGTAAATTTCAGAGATCGTGTAATGATTTTCGGAACTCATTTTGCAACACTGGATATCCGTCAGGACAGCAGGATTCATCAGAAAGTTATTGATGAGGTATATGCAAAGGTGTATGGAAATGGAGATGCAGATTATGAACAGAAATTCAATAGGCTCATTCAGATTTTTGAAAAAGTAAATGCAGATGATTTTGAAGACATTGTAAAAGATACTTTGTTAACGGTTTCTCAGGTTTCGAAAATTCAGGATCTGAACGGATTACGAGGAATGAACCGATACATTATTTCCAATTCTGATGCTGTAAAAGATGTTATGAATGTGTATGCCTTCTTTAAAATCTGTGGCTATAAAGATGAAGAGATTAATATGGATATTGTTCCGCTTTTTGAAACAATGGAAGGCCTTTCCAATGCAGAGCATGTAATGAACGAGCTGTACCATAATCCGGTCTATAAAAAGCATCTTGAAAAAAGAGGAAACCAGCAGACGATTATGCTTGGATTCTCGGATGGAACTAAAGACGGTGGGTATTTAAAAGCCAACTGGGAAATTTATAAAGCCAAAGAAGTATTGACAAAACTTTCTGAGCAGAATAATATTAAAGTAGTATTCTTTGACGGTAGAGGCGGACCACCAGCCAGAGGAGGAGGGAAGACGCATGATTTCTATGCTTCTCAGGGAAAAACTATTGCCAATAATAAGATAGAGTTGACCATCCAGGGACAGACAATCACCAGTATTTTTGGAAATAAAGAACAGGCAAAATACAATTTTGAACAGCTTCTGACAGCCGGCGTAGAAAATGACGTATTTAAAAATGATAAAAAAGACCTTACAGAAAAGGAAAGGGCTTTGATTATTGAGCTGGCAGATATCAGCTATCAAAAATATTCAGATTTAAAAGCGCATCCAATGTTCGTTCCTTATCTTCAGGAAATGAGTACGTTGGAATATTACGGAAAAACAAATATCGGAAGCCGCCCTTCCAAAAGAGGAAGCGGAAGTGAGCTGAAATTTGAAGATCTGAGAGCAATTCCGTTTGTAGGTTCATGGTCACAGCTAAAGCAGAATGTACCGGGCTTCTTTGGTTTTGGATATGCAATGCAAAAGATGAAGGAGCAGGGAAGGTTTGAGGAGGTAAGAGAGCTTTACAAAGGTTCCGATTTCTTTAAAACTTTAGTTTTGAACTCGATGATGAGTATGAATAAATCCTATTTCCCTTTGACTTATTATATCAGGAAGAATCCGAAATTCGGTGAATTCTGGAATGTTCTCTTCAATGAATATGAGCTTTCCAGAGATATTATGCTGGAGCTTACAGGATTTAAAATGCTTCAGGAAGAAGATCCGTTATCCAGAAAATCTGTGAAGATCCGTGAAAAAATAGTGCTTCCGCTGTTAAGTATCCAGCAGTATGCGTTGATGAAAATTCAGAAAGGAGAAGGAAACAAAGAGGCTTATGAAAAGCTGGTGACCCGTTCTTTATTTGGAAATATCAATGCGAGCAGAAACTCGGCATAG	MSKNIKRLNDVKSIHEINLIFLHFNINFCHLSIKLISKSLTFVNMIHDQRAEKFRQIVENKFQIYNSLFMSLPYDKMTNIGMLLPFLYEESRTGYEAGKTPEEIVEEFFKNHTDLQNEEQKLELLFKIIQYIERQVVLFDSIEDAAFPNLHSESDNGTVTNLFERSFQDHKIEKVREKLKDFSVKVVFTAHPTQFYQSSVQRIIQDLRGAITNDSVTQIDMLLQQLGKTPFVNKEKPTPIDEALSIISYLRYVYYDTIGELFTKIKKTFGNGHFHLHEDIIQLGFWPGGDRDGNPFVTADVTKRVAEELRSAILKSYYSHLKFIRRRLSFRGVSEVLGQLSEELYASIFDGKSIKAEDILKKTAEAEKILINEHNSLFLDLLVNFRDRVMIFGTHFATLDIRQDSRIHQKVIDEVYAKVYGNGDADYEQKFNRLIQIFEKVNADDFEDIVKDTLLTVSQVSKIQDLNGLRGMNRYIISNSDAVKDVMNVYAFFKICGYKDEEINMDIVPLFETMEGLSNAEHVMNELYHNPVYKKHLEKRGNQQTIMLGFSDGTKDGGYLKANWEIYKAKEVLTKLSEQNNIKVVFFDGRGGPPARGGGKTHDFYASQGKTIANNKIELTIQGQTITSIFGNKEQAKYNFEQLLTAGVENDVFKNDKKDLTEKERALIIELADISYQKYSDLKAHPMFVPYLQEMSTLEYYGKTNIGSRPSKRGSGSELKFEDLRAIPFVGSWSQLKQNVPGFFGFGYAMQKMKEQGRFEEVRELYKGSDFFKTLVLNSMMSMNKSYFPLTYYIRKNPKFGEFWNVLFNEYELSRDIMLELTGFKMLQEEDPLSRKSVKIREKIVLPLLSIQQYALMKIQKGEGNKEAYEKLVTRSLFGNINASRNSA	PGPT0001165_3445	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
BMS003_00170	1602			hypothetical protein	ATGAAAAAATTTTTACTCTTTTGTTTCCTAACAGGTTACCTTAGTATATCTGCTCAGACAGAACTTGTTTTTGTTTACTTTACGGATAAGCCCAATAAAGCTGCGTTTTATGCCAATCCGCTTTCAGAACTCAGCCAGAAATCACTCACCAGACGTACCACGCTGGGAATACCGCTCAATGATCAGGACGCTCCTATTGAACAGTCTTACCTTCAGAACCTTCAAAACTTAGGATTTGTTGTTACAGATTATTCAAAATGGCTTAATGGTGCAGCAGTAAATGCTACTCCTGCACAAAAGACTTTACTGCAGGCCCAAACATTTGTCTCCTCTGTTGAAAGTTTTGCCAGAAATAGTTCTACTACAGTAAAAAAAGTACCCGGAAAATGGAAAGATGATGCCAGTGTCAATAAAACACTTACTACATTTAACTATGGTTCCGGGGCAGGACAGATTGATCAGGTCAATATACGTCCACTTCACCTGGCTGGCTATACCGGAACAGGGATTTCCATTGCTGTAATTGATGCCGGATTTCCAACCGTGAATACAGGATCTGCTTTTGCAAGACTATGGACAGGCAATCATATAAAGGCATCTTATGATTTTGTTACCAAGACGGGAGATATTTACAATACCTCTCTCAGTCCTCATGGCTCTGTTGTATTAGGTGTTATCGGCGGTTACCTGGAAGATATTTTTGTGGGATCTGCCCCTGACGCAGATTTTTATCTATACCGGAGTGAAAATGCAACCGTAGAAATTCCGGAAGAAGAGCTATACTGGATTGAAGCTGCTGAAGAAGCAGACAGAAAAGGTGTGGAAATTATTACCTCATCATTGGGATATAATATTTTTGACGAAAGCCGTTATAATTACACCTACGCTAATATGGACGGCAATACTTCCTTCATTGCCCGCGGAGCAGGTATTGCTACAGAAAAAGGTATTTTTGTTCTTGCTGCTACCGGAAATTCCGGACTGCAACCCTGGCATTATCTTATGACACCTGCTGATAATGCTAATGTATTTTCTATCGGATCTGTAGATTCTGCCGGCAATGCATCAGGATTTTCTTCCTACGGACCTAATTCTCTAGGAGTCGTCAAACCTGATGGAAGTACTCAGGGAACCGGCACTACAACCGTTTATGATAATGCTACTACCATTGTAAACGGAACATCTATTGCGACTCCTATTGCTGCAGGAGGAGTAGCATGTCTTATTCAGGCATTTCCCACGATGAACAGGGAGCAGATGAGAACAAAACTGAGACAAACGGCTTCGCTTTATCCTGCCCATTCGGATCAGACAGGATATGGAATTCTTAACTTCGGAAGCCTGTACAACCTTGTTCTGAACACTTCTGAGCTGGTAAAGAAAGAAAAACATTCTATATTCCCGAATCCTGCCAAAAGTATTCTGAACATTGCATCTGAGCAGGAAATCAGCTCATTGGAAATTTATGATAATCTGGGAAGGTTAATCAGAAAAAGCAGTAATCAGAAATCTATAAAAGTGGAGGATTTTCCAAAAGGAACCTATTACCTGAAAATTCAGACGAAGGATAAGGTTTGGTATGAAAAATTCTTAAAAGAATAA	MKKFLLFCFLTGYLSISAQTELVFVYFTDKPNKAAFYANPLSELSQKSLTRRTTLGIPLNDQDAPIEQSYLQNLQNLGFVVTDYSKWLNGAAVNATPAQKTLLQAQTFVSSVESFARNSSTTVKKVPGKWKDDASVNKTLTTFNYGSGAGQIDQVNIRPLHLAGYTGTGISIAVIDAGFPTVNTGSAFARLWTGNHIKASYDFVTKTGDIYNTSLSPHGSVVLGVIGGYLEDIFVGSAPDADFYLYRSENATVEIPEEELYWIEAAEEADRKGVEIITSSLGYNIFDESRYNYTYANMDGNTSFIARGAGIATEKGIFVLAATGNSGLQPWHYLMTPADNANVFSIGSVDSAGNASGFSSYGPNSLGVVKPDGSTQGTGTTTVYDNATTIVNGTSIATPIAAGGVACLIQAFPTMNREQMRTKLRQTASLYPAHSDQTGYGILNFGSLYNLVLNTSELVKKEKHSIFPNPAKSILNIASEQEISSLEIYDNLGRLIRKSSNQKSIKVEDFPKGTYYLKIQTKDKVWYEKFLKE				NA	NA	NA	NA	NA
BMS003_00171	1110	wbpE_1	COG0399	UDP-2-acetamido-2-deoxy-3-oxo-D-glucuronate aminotransferase	ATGGTTGACTTGCAAAGTCAGTATTACAAAATAAAGAATGATGTAGACAATGCGGTTTTGAATGTAATGGATTCTGCGGCATTTATTAACGGTCCTGAAGTAAAGTCTTTCCAGAATGAATTGGAATCTTATTTAGACGTAAACCATGTGATACCATGTGCCAATGGTACAGATGCACTACAGATTGCCCTGATGGCTCTGGATCTGAAAGAAGGAGACGAAGTTATTACAGCCGATTTTACTTTTGCTGCAACAGTAGAAGTAATTCACCTGCTTAAATTAAAATCTGTATTGGTAGATGTGGACTATGATACATTCACAATTTCTACAGAGCAGATTAAAAAAGCAATTACCCCAAGAACAAAAGCAATTATTCCGGTACACATTTTCGGACAGTGTGCCAATATGGAAGAGATTTTAAAAATTGCTGAAGAACATAATTTATATGTTATCGAAGACAACGCACAGGCAATTGGTTCAGCATATACCTTCTCTGACGGAACAGTAAAGCAGGCAGGAACAATGTCTACGGTAGGAACTACTTCTTTCTTCCCATCCAAAAACCTTGGATGCTATGGAGATGGAGGTGCTATTTTTACCAATAACGATGAGCTAGCACACCGTTTAAGAGGAATTGTAAACCACGGAATGTACGAAAGATACTACCATGATGAGGTAGGGGTAAACTCCCGTTTGGACAGTATTCAGGCAGCAGTATTAAGAAAAAAACTTCCTCACCTTGATTCTTATAATGAAGCAAGAAGAAAAGCTGCAGATTTTTATGATGAAGCATTTGAAGGAAACCCGAATATTCTTACTCCGAAAAGAGCAGAAAATTCTACCCATGTATTCCATCAGTATACTTTAAGAATTCTGAACGGAAAACGTAATGATCTTCAGAAGTTTTTGACTGAAAAAGAAATTCCAGCGATGATCTATTATCCGGTAGCACTGAGAAAGCAAAAAGCTTACTTCCAGGAAAGTAATGCCGCAGACTTTGTGAATACAGATAAGCTTTTGGATCAGGTAATTTCTTTGCCAATGCATACAGAATTAGACGAAGAGCAGCTGAAGTATATTACGGATGCCGTGCTTGAGTTTATGGGATAA	MVDLQSQYYKIKNDVDNAVLNVMDSAAFINGPEVKSFQNELESYLDVNHVIPCANGTDALQIALMALDLKEGDEVITADFTFAATVEVIHLLKLKSVLVDVDYDTFTISTEQIKKAITPRTKAIIPVHIFGQCANMEEILKIAEEHNLYVIEDNAQAIGSAYTFSDGTVKQAGTMSTVGTTSFFPSKNLGCYGDGGAIFTNNDELAHRLRGIVNHGMYERYYHDEVGVNSRLDSIQAAVLRKKLPHLDSYNEARRKAADFYDEAFEGNPNILTPKRAENSTHVFHQYTLRILNGKRNDLQKFLTEKEIPAMIYYPVALRKQKAYFQESNAADFVNTDKLLDQVISLPMHTELDEEQLKYITDAVLEFMG	PGPT0022700_343	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022700-wbpE|wlbC-K13017	NA	NA
BMS003_00172	459			hypothetical protein	ATGAAGGAGTTTTTTTTAAAAGGGAGAAAATATAAATTATTTTTAGGGTTTCACCTTTTTATTGTGAGCCTTTATTCAATTTATGTAATAAATACACTGAACTCCTACAATTCCTCATCTTACTCAGTATACTATAAAGAGAGTATTCATGAAAATATGGCAAAATACTCTTTTTATATTATCATAAATTTAATTTCAGGAGCGATCATTTATTTTAAAATAAAACATACAAAGGTTATCCTCAATTTTTTTGCAGTAATAATCTTTAGTTTGGTTTGTTATGCTGAATATACCCTGATTAAAACTTATGTTAATAACTCATATTATAATTTTGTAATTACTTTTAATACAGGAGTTATAGGTTTTATTGTTTTTTATATCTTCTATCTTAATAAGAGTAGCAAGAAAGAAGAGATAGGAATAAATGAAATTGAAAATATAGGAAAAGACAAAGATTAA	MKEFFLKGRKYKLFLGFHLFIVSLYSIYVINTLNSYNSSSYSVYYKESIHENMAKYSFYIIINLISGAIIYFKIKHTKVILNFFAVIIFSLVCYAEYTLIKTYVNNSYYNFVITFNTGVIGFIVFYIFYLNKSSKKEEIGINEIENIGKDKD				NA	NA	NA	NA	NA
BMS003_00173	1023	galE	COG1087	UDP-glucose 4-epimerase	ATGACAATACTTGTTACCGGCGGACTTGGATATATTGGTTCTCACACTGTTGTAGAACTTCTCAATAACAGCTTTGAAGTGGTTGTTGTAGATGATTTATCCAATACGGAAAGATTCATTTTAAAAAATATTGAGGAAATTACGGGTAAAAAACCTGTTTTTTATCCCTTTGATCTGAGAAGAAAAGAACTTCTTACCCAGGTTTTTGATGCTCATCAGATTGATGGCTGTATCAATTTTGCAGCTTCTAAAGCAGTAGGAGAGAGCCAGATCAAACCTGTAGATTATTATGAAAATAATTTATTCTCATTAATTAATATTCTTCAGGAATTTAAGGTAAGAGAGATCTCTAACTTTATTTTCAGCTCATCCTGTACAGTATACGGACAGGCAGATGTAATGCCGATAGATGAAAAGACTCCGTTGAAAACACCTGAAAGTGTATATGGAAAGACAAAGCAGATGGGAGAAGAAATCCTGATTGATTTTGCAAAAGCCTATCACCGTAAAATATCGTTATTAAGATATTTTAACCCTATCGGAGCGCATCCCTCTGCAAAAATTGGCGAATTACCCATCGGTGTTCCTAATAATTTAGTGCCCTATGTAATGCAGACTGCTGCCGGAATACGTGAAAAACTGAGTATTTGGGGAGATGATTATGATACAAAGGATGGAACAGCTATTCGTGACTACATCTATGTTGTTGATCTGGCGAAAGCACATGTTGCTGCACTGAAAAAACTTATAGAAGACACTTCTGCAGAGAGCGTGGTTGATATCTACAATCTTGGAACAGGAAAAGGATCATCTGTACTGGAAGTGGTAAAAGCTTTTGAAAAGGCCAATAATGTAGAAGTACCTTATCAGATCTGCGACAGAAGGGAAGGGGATATTACCATTGCGTATGCGAACCCTGAAAAAGCTGAGAAAGAACTCAAATGGAAGTCTGAAACCTCTCTGGAAGAATCCTTAAGAACAGTTTGGGAGTGGCAGAGATATTTGAATACCAGAAATTCATAA	MTILVTGGLGYIGSHTVVELLNNSFEVVVVDDLSNTERFILKNIEEITGKKPVFYPFDLRRKELLTQVFDAHQIDGCINFAASKAVGESQIKPVDYYENNLFSLINILQEFKVREISNFIFSSSCTVYGQADVMPIDEKTPLKTPESVYGKTKQMGEEILIDFAKAYHRKISLLRYFNPIGAHPSAKIGELPIGVPNNLVPYVMQTAAGIREKLSIWGDDYDTKDGTAIRDYIYVVDLAKAHVAALKKLIEDTSAESVVDIYNLGTGKGSSVLEVVKAFEKANNVEVPYQICDRREGDITIAYANPEKAEKELKWKSETSLEESLRTVWEWQRYLNTRNS	PGPT0017825_27	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
BMS003_00174	453	tagD	COG0615	Glycerol-3-phosphate cytidylyltransferase	ATGAAGACACAAAGAATAGGTATTACATTCTCCTCATTCGATTTATTGCATGCAGGACATATCAAAATGCTGGAAGAAGCTAAAACAGTGTGTGACTATTTAATAGTAGGACTTCAGATTGACCCGTCTCATGACCGTCCTAACAAAAATAAACCAAGTCAGACTATTGTTGAAAGGTATATTCAACTGAAAGCAGTGAATGCTGTGGATGAGATCATTCCTTATTATACGGAAGAAGATCTGCTGGATATTCTGAAATCGTTTGTGATTGATATAAGAATCATCGGGGATGATTATATGGACAGAGACTTTACAGGAAAACAATACTGTGAAGAAAAAGGAATTGAGATATTTTACAACAAAAGAGACCACAGGTTTTCCACCAGCGATCTGAGAAGAAGAATTTATGAAGCAGAAAAAGAAAAAGATTCAAAAGCAGCATCTGTAAAATAA	MKTQRIGITFSSFDLLHAGHIKMLEEAKTVCDYLIVGLQIDPSHDRPNKNKPSQTIVERYIQLKAVNAVDEIIPYYTEEDLLDILKSFVIDIRIIGDDYMDRDFTGKQYCEEKGIEIFYNKRDHRFSTSDLRRRIYEAEKEKDSKAASVK	PGPT0024325_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE,PGPT0024325-tagD-K00980	NA	NA
BMS003_00175	2610			hypothetical protein	ATGAAGAATAAGACAGAAATTGTCAATATTTTCACAAGAAAAACTTTAGGACTTACACTCGTACTTTCAGCGGCAGCTCTGGCCTTTGCACAGGAGAAGGCCGGAATTTCAGGAATCATTGTCAACAAAAAAAATCAACCGGTTCCTTACGCTTCTGTAACCTTCAGTAACAAGACCAACAAAACTTTGAGCGATGCTGTACTGACCGATGAAAAAGGACAATATCAGCTTCAGCTGATGCCGGGAGAGTATGACATTACAGTAGAAGCTATTGATTACAAAAAAAGTGTGATCAGCAAGAATATTGCAGCAGCAGGTAATATCGGAGCTTTATCTATTGAAGCAGAACCTACCTCTACTATTGATGGTAAAACAAATGAAATACAAGGGGTTGTCATTACAGCTTCTGCAGCGAAACCATATAAAGTAGAGCTTGACAAAAAAACGTATGATCCTTCACAGGATATTGTCAGTAAAGGAGGAAGTCTTCAGGATGTTTTAACCAATGTTCCTTCAGTTTCTGTAGATACAGACGGAACGGTTTCCATGAGAGGAAGTACCAATGTAAAGTTTCTGATCAACGGAAAGCCATCTGCCCTTCTTGGAATAGATGATGGTGCTAATGCACTGCAGAGTATCCCGGCAGATCAGATTGAAAGAATTGAAGTGATTACAAACCCTTCTTCCAAATTTGAGGCAAGCGGAACTTCCGGTATTCTAAATATTATCCTAAAGAAAAATAAAAAAATCGGGTTCAATGGGAGTGTGATAGGTTCTCTTGGATATTTCCCAAGAACTTCCCTTAATACCAACCTGAGCTGGAGAAAGAACAACTGGACCTGGTTCCTGAATGGTGGTGGTGGTTACACAGAAAACAAATCCAAGAATAATTCTGAAACTACTTATCACAATCTTACATTTCCGGATATTGTTCCTTTTCAGCAGCCTAATGATGTTCTGGTACATCAGCTGCAGAATTCTGCCAACAAAACGTATAATAAAAATTATAATGTGAGTGCCGGCTTTGTGCACGATTTATCTGATAAAACGTCAATCAATGTTACAGGTCTGGTAAGAACATTTGAAGGAGACGGTAATGAGCTTCTTGATACTTACGATAGCTTTTACAGGTTTTTCAGAGATTCCCCGGATCCTGCTACTGTAGAAGGAAAATGGAATTTATTAAACCCTTCCGGAAGAAGAGATTCTAAAAGCATATTCAATAATCTTGCTTTCCAGGGAGATTTAGGATTAGATCACAAATTTGATGATAAAGGGCAAAATCTATCGGTATCATTGAGCTTACAAAGAAACAGAAGTAACAATAATTCGGATATTCTTGAAACTTATGACCTTCGCCCTGATGTACATGATGTTACCAGAAGGCATTCGGTAAGTAAAACAATTATCGGTAAAGCTGATTATGAATTGCCAATAGGAGAACAGTCTAAGCTTGAAGCAGGATATAGATTAGATATCAATGATAATACCTACGATAATTTTGTAAGCAGTACTTCCAACAATCCTTATATTCCAAGCTATAATAATAATACGGATTATAAGGAAATTTTCAATGCTTTCTATCTACAGTTCAAGAGTAAAATCGGAGAAAAATTTGCTTATCAGGTAGGTTTAAGAGACGAACTTTCAAATGTCAGTATCAATTATATCAATCAAAATCCTAATGATAAACCGATAGACAAAACTAAAAATTACAATAATTTATTTCCAAGTGTCTTCTTAAGCTATGATATATCTAAAAACAATCAGATTTTAGTTAACTATTCCCGCAGAATAGACAGACCGAGGTCTTTCTTTATGGTTCCTTTCCCCAATTACAGCAACAGCCAGAATATTTTTGAAGGAAACATAGACCTTAACCCATCGTATGTAGATTCATTTGAAGTAGGCTATAATATTACCAGAAAAAAGTTTACCATTAATCCTACCTTATACTACAGACACGCCACTGATGATACTAAAATGCTGGTATACAGACCTGATGAAAATTTAGGCGTATTCTATACCAAGCCTATCAACTTAGGAAATAATGAACGTTATGGGCTGGATCTGAATTTCACCTACGATCCTTTTGCCTGGTTAAAAATAATGGGAAGCCTGGATATGTTCGGATATAAAACCACAGGAATTGCTTCTTATAATGCTATTGATAAAAATGGGCAGCAACAGGTTCGCAGCATGGATTTTACAGGAAACGGTTTTTCTACCAGAGCACGTCTTAATACAACATTTAAGCTTGATAAAACTTTAAGTGTACAGTTACAAGGTTTCTATAGAGGAGCGCAGAAAACTGCCAATCAAAATATCCAGGATATGTATGCTCTGAATCTTGGAGCTTCCAAAACTATCTGGAAAGGAGACGGAACTATTTCCTTCAATATTCAGGATATATTTAATACAAGAAGCAGAGAAATATTCAGTTTCAATAATGACTATACACGAAGAAACTATATGCAATGGCAGCCAAGACAGTTTTCTATTTCTTTAACTTACAGGTTTAAGCAGGGAGAAAAAATTGAACAGCCTAAAAGAAAAAAGGATATCAATTCCAATGCAACCGGAGACGACCAACAAGGTGGTCCTATGTAA	MKNKTEIVNIFTRKTLGLTLVLSAAALAFAQEKAGISGIIVNKKNQPVPYASVTFSNKTNKTLSDAVLTDEKGQYQLQLMPGEYDITVEAIDYKKSVISKNIAAAGNIGALSIEAEPTSTIDGKTNEIQGVVITASAAKPYKVELDKKTYDPSQDIVSKGGSLQDVLTNVPSVSVDTDGTVSMRGSTNVKFLINGKPSALLGIDDGANALQSIPADQIERIEVITNPSSKFEASGTSGILNIILKKNKKIGFNGSVIGSLGYFPRTSLNTNLSWRKNNWTWFLNGGGGYTENKSKNNSETTYHNLTFPDIVPFQQPNDVLVHQLQNSANKTYNKNYNVSAGFVHDLSDKTSINVTGLVRTFEGDGNELLDTYDSFYRFFRDSPDPATVEGKWNLLNPSGRRDSKSIFNNLAFQGDLGLDHKFDDKGQNLSVSLSLQRNRSNNNSDILETYDLRPDVHDVTRRHSVSKTIIGKADYELPIGEQSKLEAGYRLDINDNTYDNFVSSTSNNPYIPSYNNNTDYKEIFNAFYLQFKSKIGEKFAYQVGLRDELSNVSINYINQNPNDKPIDKTKNYNNLFPSVFLSYDISKNNQILVNYSRRIDRPRSFFMVPFPNYSNSQNIFEGNIDLNPSYVDSFEVGYNITRKKFTINPTLYYRHATDDTKMLVYRPDENLGVFYTKPINLGNNERYGLDLNFTYDPFAWLKIMGSLDMFGYKTTGIASYNAIDKNGQQQVRSMDFTGNGFSTRARLNTTFKLDKTLSVQLQGFYRGAQKTANQNIQDMYALNLGASKTIWKGDGTISFNIQDIFNTRSREIFSFNNDYTRRNYMQWQPRQFSISLTYRFKQGEKIEQPKRKKDINSNATGDDQQGGPM	PGPT0003790_5551	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
BMS003_00176	1026	mltG		Endolytic murein transglycosylase	ATGAAAAAAGCTATTCTCATTATCATTCTGCTGGTTTTTGCAGCGGCAGGATTTTTTGGTTTGAGGTTTTATAATAAATATTTAGGAAATAACGTAGAAAAAGACGGCTATGTTCTGATCCCTCACAGATCGGGTTTTAATCAGATCTTAGATTCTATTGCTCCTTATATTAAAGACAAAGAATCATTTGAAGCTGTAGCTAAGGAAAAAGGTCTTGACACCAGTTTTAAAGCAGGACGTTACTACTTCCAGAGCGGAATGGGTAATAAAAATCTTGTAAATATGATCAAGGCAGGTAATCAGACAGCAAATTCATACAGAATCGGGGATTTTGGTGACATGTACCAGATGATTGGTAAGGTGACCAAAAAAACGGAAATAGATTCTTTGCATTTTATAAATGATCTGGATGCCGTGGCTCAGGAGAAAGGCTATAAAAATGTTGAAGATTTAAAAAAATATTTTTTCATCGATACTTATAAGTTTTTCTGGACAGTAAGTCCAAGGGAATTTTTTGCCAAGTTTGAAAATCAGTATAATGATTTCTGGACAAGTGAAAGAAAAAGCAGGGAACAGCAGTCTGGCCTTACAAGAGATCAGATTTATGCGCTGGCTTCTATTGTTTATAAAGAATCCGGAGGAAAAAAAGATGAAATGAAAACGATTGCCGGGCTGTATTTAAACCGTTACAGAAAAGGAATGAAACTTCAGTCTGATCCTACGGTAATCTATGCAATGAATAAGCAGACTAATTTTAAAGAACCTATAAAAAGGGTATTATATAAGCATTTGTCTACACCGTCACCTTATAATACTTATGCCAATGCAGGTATTCCTCCGGGGCCTATCTGTGTAGTGGATAAGAACTCAATAGATGCTGTTTTAAATGCTGAAAACAACAATTTTATATTTATGTGTGCTGATCCGGCAAGGTTTGGATTCCATAAGTTTACTGCAAGTGCTGAAGAACATGCAGTAAATGCAAAGGCTTATCAGGACTGGCTCAACTCAAAAAATATAAAATAA	MKKAILIIILLVFAAAGFFGLRFYNKYLGNNVEKDGYVLIPHRSGFNQILDSIAPYIKDKESFEAVAKEKGLDTSFKAGRYYFQSGMGNKNLVNMIKAGNQTANSYRIGDFGDMYQMIGKVTKKTEIDSLHFINDLDAVAQEKGYKNVEDLKKYFFIDTYKFFWTVSPREFFAKFENQYNDFWTSERKSREQQSGLTRDQIYALASIVYKESGGKKDEMKTIAGLYLNRYRKGMKLQSDPTVIYAMNKQTNFKEPIKRVLYKHLSTPSPYNTYANAGIPPGPICVVDKNSIDAVLNAENNNFIFMCADPARFGFHKFTASAEEHAVNAKAYQDWLNSKNIK				NA	NA	NA	NA	NA
BMS003_00177	768	dapF		Diaminopimelate epimerase	ATGGAATTTTATAAATATCAGGGAACAGGGAATGATTTTGTAATGGTAGACAACCGCGATCTTCAGTTTACTAAAGATAAGAACAGTATTGAGAAACTATGCGACAGACGTTTTGGAATAGGTGCTGATGGTCTTATTCTATTGGAAAACGATCCCAATTATGATTTCAAAATGGTTTATTACAACTCGGATGGCGGAGAAAGCACCATGTGCGGAAATGGAGGAAGATGTCTTGTAGCTTTTGCTTTTTTCCTTGATATTTTTGAAGATAAATGCAAGTTCATTGCAACAGACGGAGAACATGAAGCCGAAATCCATAACGGGATTATTAAATTAAAAATGATTAATGTAGATACGGTTTCCCATGACGGAAATGATTTTGTCCTGAACACCGGATCTCCCCATTATGTAAAATATGTAGAAAACCTGAAAGATTATCACGTGTATGACGAGGGATATGGAATCAGAAATTCAGAAAAATATAAAGAAAAAGGAATCAATGTAAACTTTGTAGAAAAAATTTCTGGTGATGAAATTTTTGTAAGAACCTATGAACGAGGCGTTGAGAACGAAACTTACAGCTGCGGAACAGGAGTTACAGCTTCTGCTTTAACTTTTCTTCAAAAACATAATCTAACCTCTGTAAAAGTTAAAACTTTAGGCGGGAATCTTAAAGTATATGCAGAAAAAAGCGGGGATGCATTCCGGAACATATGGCTGGAAGGTCCTGCAAAGCAGGTTTTCAGAGGTAAAACAGATCTTCTTTAA	MEFYKYQGTGNDFVMVDNRDLQFTKDKNSIEKLCDRRFGIGADGLILLENDPNYDFKMVYYNSDGGESTMCGNGGRCLVAFAFFLDIFEDKCKFIATDGEHEAEIHNGIIKLKMINVDTVSHDGNDFVLNTGSPHYVKYVENLKDYHVYDEGYGIRNSEKYKEKGINVNFVEKISGDEIFVRTYERGVENETYSCGTGVTASALTFLQKHNLTSVKVKTLGGNLKVYAEKSGDAFRNIWLEGPAKQVFRGKTDLL	PGPT0007230_4569	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS003_00178	648			hypothetical protein	ATGAAAAATTTATTTAAAATAGCAGTCAGTATTTTTGTTATCACAAGTTTAACATCTTGTTTAGCATATACCGATGGATATGGAAGCAATAATGGAGGTTATTATGGTGACCCCTATTATAACAACGGATATTATTATGCTCCTTCCGGATATTATGGAAGTGGCGGATATTGGGGAAATGACGGCTATTATTACAGAAATAACGTCAATTACTACTATGATAACGGTATGCCTTATTACTATTACAATTATAACAATACCAGAAGAAAAGTATACGTAGAAAGAAGGTCTTCTTCCCAAAGACCTGCAAACGGATTCCAGAATACACGTACTACCACTAATAATGGTTCTTACAATAATGGTGGCGGTTTCAATAATAATAGCAACAGAAACAACAATGGTGGATTCAGAAACCAGAATAATGGTCATCAGAACAATCAAGGGAATCAAAACAACAGCGGTTTCAGAAACTCCAACGGTAACAGCGGATTCAGAAACCAAAGCAGCACTAATCAGAACAACAGTGGTTTCAGAAATTCTGAAAGCAGCAACAGATCACAATCTTCCGGTGGCGGATTCCGAAATAGCTCCGGCAGCCAAAGCAGCAGCTCAAACAGACAGCAGAGCAGCGGAGGCGGCTTTAGATAA	MKNLFKIAVSIFVITSLTSCLAYTDGYGSNNGGYYGDPYYNNGYYYAPSGYYGSGGYWGNDGYYYRNNVNYYYDNGMPYYYYNYNNTRRKVYVERRSSSQRPANGFQNTRTTTNNGSYNNGGGFNNNSNRNNNGGFRNQNNGHQNNQGNQNNSGFRNSNGNSGFRNQSSTNQNNSGFRNSESSNRSQSSGGGFRNSSGSQSSSSNRQQSSGGGFR				NA	NA	NA	NA	NA
BMS003_00179	672			hypothetical protein	ATGAATTTATATGATCTTTTCATAAAACCTTATGAGGAATATGACACTTTACAGATCATTGTGGAGGCATCAGCAGCTTTCTTCGGTATTCTGAGTGTCTATTTTTCTATTAAAAAGAATATATGGGTATATCCTACCGGTATTATTTCTACGCTGATGTATGTTTATATCCTATTCAACTTCGGCTTGCTGGGAGACTGCCTCATTAATGTCTATTATACTGTAATGAGTATCTACGGCTGGATTCTATGGGCCAGAAACTCCAAAGATCATGTTCATGTGGATGTTAACTGGGCTACTAAAAAAGAATGGGGCTACGCAGGAGTGCTTTTTATCCTGAGTCTTGTACTGGTTACTCTTATTTATTATTACAAACCCTATATCGACAATCAATTTTCTATGGACGGAACCAGCTTAGGATTGTATCATCTGGACTGGGCAAATTGGATGGATGTCTTTACTACTTCAATATTTTTAGCTGGAATGTGGTTTATGGCCAAACAGCGCATTGAGAGCTGGATTTTCTGGATTATCGGAGATCTAATTTGTATACCAATGATGATTTTTAAGGGACTTGGAATCACTTCGGTTCAATATTTGGTATTTACTATAATGGCTATCTTAGGATACCTTAATTGGAAAAAAAGTTTTAAAGAAAAAAAAGTACAATAA	MNLYDLFIKPYEEYDTLQIIVEASAAFFGILSVYFSIKKNIWVYPTGIISTLMYVYILFNFGLLGDCLINVYYTVMSIYGWILWARNSKDHVHVDVNWATKKEWGYAGVLFILSLVLVTLIYYYKPYIDNQFSMDGTSLGLYHLDWANWMDVFTTSIFLAGMWFMAKQRIESWIFWIIGDLICIPMMIFKGLGITSVQYLVFTIMAILGYLNWKKSFKEKKVQ				NA	NA	NA	NA	NA
BMS003_00180	1518	yhdG	COG0531	putative amino acid permease YhdG	ATGTCGAAAATTTGGGTTAAGAAGCCACTAAGTGCCTATGAGGCAGATATGAAGAAAAGTGAGCTGAAAAAAGTCCTTGGAAAATGGAGTTTAACAGCAATTGGAGTAGGTGCTATCATTGGTGGTGGAATCTTCGTTCTTACCGGAACGGGAGCCTATTATCATGCAGGGCCTGCGCTTGCAATTTCCTTTATCATAGCAGGTATCGCCTGCGTTTTTGCTGCATTGTGCTATGCAGAGTTTGCATCCATTATTCCTGTAGAAGGGTCAGCTTATGCTTATGCGTATGGAACGGTAGGAGAAATTTTTGCCTGGGCCATGGGGTGGTGTCTCATCCTCGAATATGCCATGGCAAGTATGGCCGTCTCCGTGAGTTGGTCCGGATATTTTAACAAATTTTTGAAAATTTTTAATATTCATCTGCCTGCTTATCTTACATCAGATCCTGCAAGTTATACCGGAGATGGTTTTTCTATGAACCTGCCTGCATTTATTCTTGTTCTTCTGATTACAGCATTATTGGTTAAAGGAACTAAAGAAGCGGCAGGAGCTAATAACCTGATCGTTTTAATGAAAACTTCTGCTGTTATCTTTGTAATTATTGCGGGAGTATACATTATTTTTTCTAATACTGACCTTTATAACGCTGTAGACGGTGTTAAAAACTGGAAGCCTTTTATTCCGGATCCAATAAAAATTAAAAACTCTGAGGGAGATATGGTTTCTGCCTATGGTATTAAAGGAATTATTTCCGGAGCAGCAGCTATTTTCTTTGCCTATATTGGTTTTGATGCAGTTTCTACACAGGCTGGTGAGGCTATTAATCCTAAAAAAGATGTGCCGTTTGCAATCATTGCATCATTACTAATCTGTACAGCTTTATATATCTGTGTATCTCTTGTATTAACAGGAATGATGCACTATACAGACTTCAATCCTGAAGGTAAATATCCGGACGCAATCAAAGCTCCTGTAGCATATGCTTTTGAAATTGCAGGAAAGCACTGGGCTAGTAATGTGGTAACGATTGCTGCTACGGTAGGGTTAATTTCCGTAGTAATGGTAATGATGATGGGACAATCCAGAATCTTCATCGGAATGGCTAAAGACGGATTGATTCCTAAATTCTTCGGACAACTTCACCCAAAAACAAAAACACCTTATAAAGGAATTATTTTGTTAGGAATTGTTGTGGCATTAATTGCTGCATTTACTCCCATTTCAACATTGGCAGATATGACAAGTTTCGGAACCCTGTTTGCATTTACACTGGTTTGTATTGCAGTTTGGGTAATGAGAAAAAAAGAACCTAACCTGATCAGACCTTTCAAAGTTCCTGCTTATAAAATCGTAGTGGCATTAGGCGTAATTATCAACTTATATTTGATTTTTAACTTAAGTGCCCATGCATTGGAGCTTTCTGCTGTGTGGCTGTTCTTAGGAAGTTTGGTATACTTTTTTTATGGAAAATCAAACAGTAAGCTTAATAATCCAGAAAAATATCAGAATCAAGATTAA	MSKIWVKKPLSAYEADMKKSELKKVLGKWSLTAIGVGAIIGGGIFVLTGTGAYYHAGPALAISFIIAGIACVFAALCYAEFASIIPVEGSAYAYAYGTVGEIFAWAMGWCLILEYAMASMAVSVSWSGYFNKFLKIFNIHLPAYLTSDPASYTGDGFSMNLPAFILVLLITALLVKGTKEAAGANNLIVLMKTSAVIFVIIAGVYIIFSNTDLYNAVDGVKNWKPFIPDPIKIKNSEGDMVSAYGIKGIISGAAAIFFAYIGFDAVSTQAGEAINPKKDVPFAIIASLLICTALYICVSLVLTGMMHYTDFNPEGKYPDAIKAPVAYAFEIAGKHWASNVVTIAATVGLISVVMVMMMGQSRIFIGMAKDGLIPKFFGQLHPKTKTPYKGIILLGIVVALIAAFTPISTLADMTSFGTLFAFTLVCIAVWVMRKKEPNLIRPFKVPAYKIVVALGVIINLYLIFNLSAHALELSAVWLFLGSLVYFFYGKSNSKLNNPEKYQNQD	PGPT0020810_1336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS003_00181	1014			hypothetical protein	ATGAAAAATATTTTTTCCATTTTATTTCTGTCCGTAGGACTTACAGCATTTTCCCAGCATGTGGAAAGCATCGAAACTATTCTTAATGATAAAATCAGTATCAGGGCTATTGAGCTGTATGATCATAAAGTATGGTACAGTGGTACAGACTCTAAATTCGGATTTGTAGATCTGAAAGAGCCTAAGAACCAGAAGCAGATAAAACTGTCGGAAGACAAGATTCAGTTCAGGACATTAGCGCAGGACAAAACTTCATTTTATACAATCAATATTGAAAGTCCGGCTCGTTTTTTTAAAATTGACAAAAAAGATCTGAAATCGCAGGTAGTTTTTAAAGATACAGCAAAAACTGCTTTTTATGATGCTTTACATTTCGTGGATGATAAGCTGGCCTATACTTTCAGTGATTCGGATGGAGATCATCTGCTGAAATTAGCCGTGTATAAAGATGGAAAATGGAGTATGTTTAAGAATAATATTACATTGAATGATGGTGAAGCCGCTTTTGCTGCCAGTAATACCAATATTACTTCAACTAAAAAATACCTTTGGATAGCAACCGGAGGAAAAGCTTCGAGAATTCTAAGAATGAATCTGAAAGATCAGAATATTGAAGTTTTCAATACCCCTTTTATCCAAGGTGAGTCTTCGCAGGGAATGTATTCTATAAATTTTTATGAAGATAAGTTTGGTATTGCCGTTGGGGGAGATTATACAAAACAGGAAGCTAACGTGAACAACATTGCAACCACCAATGATGGCGGAGAAACCTGGCAGATTCAGGCTTCGGGGCAGAATGCGGGATATACCACCTGTGTGAAAATCAAACCGGGATCCAAAGGAAAAGAAATTGTTGCAGTAGGAGACAGGCATATTAGCTATTCTTCAGATTTTGGGAAGACATGGAAGGAAATTTCAGATGAAAAAGGCTTCTTTGTCTGCCAGTGGATTGATGGTAACAATGTGGTTCTTGCGGGAAACAACAGAATTGCGGTGATGAAATTAAAATTTTAA	MKNIFSILFLSVGLTAFSQHVESIETILNDKISIRAIELYDHKVWYSGTDSKFGFVDLKEPKNQKQIKLSEDKIQFRTLAQDKTSFYTINIESPARFFKIDKKDLKSQVVFKDTAKTAFYDALHFVDDKLAYTFSDSDGDHLLKLAVYKDGKWSMFKNNITLNDGEAAFAASNTNITSTKKYLWIATGGKASRILRMNLKDQNIEVFNTPFIQGESSQGMYSINFYEDKFGIAVGGDYTKQEANVNNIATTNDGGETWQIQASGQNAGYTTCVKIKPGSKGKEIVAVGDRHISYSSDFGKTWKEISDEKGFFVCQWIDGNNVVLAGNNRIAVMKLKF				NA	NA	NA	NA	NA
BMS003_00182	1359	hemN		Oxygen-independent coproporphyrinogen III oxidase	ATGAACTCTTTAATAGATAAGTATAATATTCCCGGACCGCGTTACACTTCTTATCCTACCGTTCCATATTGGGATGAATCTACATTTTCACCGGAAAGATGGAAGGAGACCGTAATCAGGTCTTTTCATGAGAGCAATGCAGAGGAGGGGATTTCTATTTATATCCATTTGCCTTTCTGTGAGGCATTGTGTACATTCTGTGCATGTCATAAGCGTATCACCAAACAACATAGTGTTGAAATACCTTATCTGGAAAGTGTTTTGAAAGAGTGGAAACTCTATCTTGGCCTTTTTAATGAAAGACCTAAGCTGAAAGAATTGCATCTTGGGGGAGGTACTCCTACGTTTTTCTCTCCAGAGAATTTAAGAACATTACTGGAAGGTATTTTTTCAACAGTAGACATTGCAGAACATCCGGAATTTTCTTTTGAAGGACACCCGAACAATACTACGAAAGAACATCTTCAGACTTTGTATGATCTTGGTTTCAGAAGAGTAAGTTTCGGTGTTCAGGATTATGATCCTAAAGTTCAGAAAGCCATCAACAGAATCCAGCCTTTTGAAAATGTAAAAAAAGTTACAGAATGGGCGAAGGAAATTGGTTACAGAGGAATCAGCCATGATCTGGTTTTCGGGTTGCCACACCAGAATTGGGATGCAATGGAACATACCATTAGAAAAACAATGGAGCTGAAGCCGGACAGGCTTGCATTTTATTCCTATGCGCACGTTCCATGGGTAAAAGGGGTTGGACAAAGAGGTTTTGATGAAAATGATCTTCCAAGCGGAGAAGAAAAACGCCGTTTGTATGAAGATGGTAAAAGACTGCTTCAGGATTTAGGATATATTGAGGTAGGGATGGATCACTTCTCTCTTGAGCATGATGATTTGTACCAGTCTTTGATTCATAAAAAACTTCACAGAAATTTCATGGGTTATACATCCAGCAAAACCCAGCTTATGGTAGGACTTGGGATGTCTGCTATTTCAGATTCATGGTATGCTTTTGCCCAGAATGTAAAAACGGTGGAAGAATATCAGAAAATGGTTGAAGAAGGTAAAATTCCTGTTGTAAAAGGACATGTTCTGAGTGAAGAAGATCTTATTGTAAGAAGACATATTCTGAATTTAATGTGTCAGCTTGAAACCACTTTTGATGTCAACAATTCTTTCCCTGAACTTGAAAATGCCCTGGAAATGCTGAAAGAAATGGAAAATGACGGTTTGGTTGAGATCAATGGAACCGAAATTAAAATTACAGAAGAAGGAAGAGCTTTCACAAGAAATGTAGCCATGGTTTTTGACCTTAGAATGATGAGAAATAAGCCGGAAACGAGGATTTTCTCCATGACCATATAA	MNSLIDKYNIPGPRYTSYPTVPYWDESTFSPERWKETVIRSFHESNAEEGISIYIHLPFCEALCTFCACHKRITKQHSVEIPYLESVLKEWKLYLGLFNERPKLKELHLGGGTPTFFSPENLRTLLEGIFSTVDIAEHPEFSFEGHPNNTTKEHLQTLYDLGFRRVSFGVQDYDPKVQKAINRIQPFENVKKVTEWAKEIGYRGISHDLVFGLPHQNWDAMEHTIRKTMELKPDRLAFYSYAHVPWVKGVGQRGFDENDLPSGEEKRRLYEDGKRLLQDLGYIEVGMDHFSLEHDDLYQSLIHKKLHRNFMGYTSSKTQLMVGLGMSAISDSWYAFAQNVKTVEEYQKMVEEGKIPVVKGHVLSEEDLIVRRHILNLMCQLETTFDVNNSFPELENALEMLKEMENDGLVEINGTEIKITEEGRAFTRNVAMVFDLRMMRNKPETRIFSMTI	PGPT0003200_2248	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
BMS003_00183	249			hypothetical protein	TTGGAAGAATTTGTCACTGGGCTTACCAATACTGCAGAGATTACAAATGCCAATGACAGCCGTCTTTTTGTAGTACAGCAGAACGGTATCATTAAAATTTTTCAACCTAACGGAATAGTTAATACAAATAACTTACTGAATATCAACTCAAAAATTATTTTCGGTGGTGAAAGAGGTCTTTTAGGCCTTGCATTTCATCCGCAATACACTACCAACGGATATAAGAAAGATTTAAGCAGTAAAGCATAG	MEEFVTGLTNTAEITNANDSRLFVVQQNGIIKIFQPNGIVNTNNLLNINSKIIFGGERGLLGLAFHPQYTTNGYKKDLSSKA				NA	NA	NA	NA	NA
BMS003_00184	2910	secD		Protein translocase subunit SecD	ATGCAAGGAAAAGGACTTATTACAATTGTCGCTATTGTACTAGGGTTGATTTGCTTAAACGAGCTATTACCAACATGGTACGCCAGCAAAATTGAAAAGCAGGCAACTGCTATTGCAGGAGACAATCCGGAGAAGTATCAGAAAGAAATCGCAAGACTTTCTAAGGATACTTTGAATTTAGGATTCACTAAACTTTATTACACTAAAGCCAAAGACAAGGAAATGAAGCTTGGTCTTGACCTGAAAGGAGGGATCAACGTTCTTTTGGAGATCAACCAAAGAGATCTTGTGAATGATTTAACCAATTATTCTACCAATCCTGTTCTTATTGAGGCTTTAAACAAAACTGATGAAGCACAGAAGAATTCTACAAAACCTTACATCGACAATTTCTTCGAACAGTTCGATGTAATTAACAAAGCTAAAGGAACAAACCTTAAGTTGGCAGATCCGGAAATTTTCGGAAACACAACCCTTACTGAGGTAAAGTACAACACTCCTGATGATCAGGTAAAAAGCATTGTTAAAAGAAAAATTGATGCATCTGTAGGTACAGCTTTCGAGGTAATCAGAACGAGAATTGATAAGCTTGGAGCCATCCAGCCAAACGTTCAGAGAGTACCTGGTACAGCTAGAATTTCTGTAGAAATGCCTGGTATGAAGGACATCGATAAGGTGAAGAAAATGCTTCAGACTTCCGCAAAACTTCAGTTCTGGGAAGTACAGCAGGTTCCTGAAATTGCACCTTATTTCCAGACTTTGACAACTATGGTTGCAGCAAAAGGAGATTCTATGGGAGTGGCAAAGAATGTGAACTTCATGAACCTTTTGCAGCTTGACAAATTAAGAACAAATGGTGTAGCCAATGTAAAACTATCTGATACTGCCGTTGTAAACAAAATCTTAAACAGCAAAGTAGCTCAGTCTTCACGTCCGGCTAACATTAAATATACCCAGTTCATGTGGGGGTATAAACCTGAAGCTACAGATGCTGAAAGTTTAGTATTGTATGCTATCAGAGGGAATATCAACCAAAAGGCTCCGGTAGATGGTGCTGTAGAAACTGCCAATATCAGTTATGATGAACTAAGCAGAGTAGTGGTAGACATGCAGATGGATTCTAAAGGAGCTAAAGAATGGAAAACATTAACTGAGAAAAACGTTGGAAAACCAGTTGCTGTAACCCTGGATAACAGAGTATACACAGCTCCGAACGTTGTCAATGCTATTCCTAACGGTAGAACTCAGATCTCGGGTAACTTCTCTCAGGAAGAAGCTAAAGAACTGGTAGACGTGTTAGGTGCTGGTAAATTACCTGCAGGTGCAAAGGTAGTTCAGGCTACAGTAGTAGGTCCGTCTTTAGGACAGGAGGCTATTGACTCCGGTTTAATGTCATTCATGATTGCATTCGCTATTATCATTGTTTATATCATTTTCTACTACGGTGGGGCTGGGGTATATGCGGTAATTGCAATGGTGATCAACTTATTCTATATTTTCGGTATCATGGATTCTGGTGATTTTACACTTACGCTTCCGGGTATCGCAGGTATTGTTCTTACGATGGCAGTAGCCGTTGATACGAACGTTATCATTTATGAAAGAACCAAAGAAGAACTATTCTCTGGAAAAAGTATTCTTGAAGCTTACAAAGATGGTTTCAAACATGCATTGAATGCGATTATCGATGGTCACACTACTACTTTCCTAACGGCGGTTGTATTGTTCTTCTTCGGAACAGGGCCTATCAAAGGTTTTGCTTTGACATTGATGATCGGTATCGCCATGACTTTATTTACATCAGTATTGCTTTCAAGAGTAATGATCTTCTCAAGATTGAATAAAGGAAAAGGTCTTTCTGTTTGGACTCCGGCTACGAAGAACCTTTTCAGAAATACATGGATAGATTTTATCGGAAAAAGAAAATATGCTTACATCATTTCTGCTGTTCTTACAGTAGTATGTATTATTTCCATTGCAACTCAAGGTTTCAAATATGGTATCGACTTTACAGGGGGTAGAAACTATGTTGTAAGATTTGATAAAGATGTAAAAGCTGAAGACGCTGAAGAAAAACTGGCTGTATTATTCAAAACTGAGGATGGTAAGAACTCTTCTGTAGAGGCTAAAACTTTCGGGAACAACAGACAGCTGAAGATTTCTACGGATTACCTTATCCAGGACGAGTCTTTAAAAGCTGACCAGATTATCGAACAAAAATTATTTGAAGGCTTAAAAGAAAATTTACCGGCAGGAACTACACTGAAAGATTTCAAATCTGCAGATAAAGGCCAGGCAGGAATTGTTTCTTCTGAGAAAGTAGGACCTTCTGTTGCTGACGATATCCAGACTCACGGTATTTATGCAGTATTAGCTGCATTGGCAATGATCTTTATCTATATCCTTGTAAGATTTAGAAAATGGCAGTTCTCTCTTGGAGCAGTTGCTGCTCTATTCCACGATGCGGTAATTATCTTAGGTACATATTCTTTGCTTCATAAGTATATGCCGTTCAATATGGAGATCAATCAGGATTTCATTGCAGCAATCCTTACTGTATTAGGTTATTCAATCAATGATACGGTAATTATCTTCGACAGAATCAGAGAATACCTGAGAGAGAAAAAATCTTTAACATTAGCAGGTCTGTTTGACGACTCTATTTCAAGTACTTTGGGTAGAACGTTCAATACTTCATTCACTACGATTTTGGTTATCCTTGCGATCTTCATCTTCGGTGGTGATAACCTGAGAGGGTTTATGTTTGCTATGTTAATCGGTATCGGATTTGGTACTTATTCTTCCATCTTTGTGGCATCTGCAATTGCTTATGACTTCCTTAAGACTGGAAAAGAAGAGGAGGTACACGGAAAGTCAACTTCCAATAAAGAAGAACTCGCTTCTAAGTAA	MQGKGLITIVAIVLGLICLNELLPTWYASKIEKQATAIAGDNPEKYQKEIARLSKDTLNLGFTKLYYTKAKDKEMKLGLDLKGGINVLLEINQRDLVNDLTNYSTNPVLIEALNKTDEAQKNSTKPYIDNFFEQFDVINKAKGTNLKLADPEIFGNTTLTEVKYNTPDDQVKSIVKRKIDASVGTAFEVIRTRIDKLGAIQPNVQRVPGTARISVEMPGMKDIDKVKKMLQTSAKLQFWEVQQVPEIAPYFQTLTTMVAAKGDSMGVAKNVNFMNLLQLDKLRTNGVANVKLSDTAVVNKILNSKVAQSSRPANIKYTQFMWGYKPEATDAESLVLYAIRGNINQKAPVDGAVETANISYDELSRVVVDMQMDSKGAKEWKTLTEKNVGKPVAVTLDNRVYTAPNVVNAIPNGRTQISGNFSQEEAKELVDVLGAGKLPAGAKVVQATVVGPSLGQEAIDSGLMSFMIAFAIIIVYIIFYYGGAGVYAVIAMVINLFYIFGIMDSGDFTLTLPGIAGIVLTMAVAVDTNVIIYERTKEELFSGKSILEAYKDGFKHALNAIIDGHTTTFLTAVVLFFFGTGPIKGFALTLMIGIAMTLFTSVLLSRVMIFSRLNKGKGLSVWTPATKNLFRNTWIDFIGKRKYAYIISAVLTVVCIISIATQGFKYGIDFTGGRNYVVRFDKDVKAEDAEEKLAVLFKTEDGKNSSVEAKTFGNNRQLKISTDYLIQDESLKADQIIEQKLFEGLKENLPAGTTLKDFKSADKGQAGIVSSEKVGPSVADDIQTHGIYAVLAALAMIFIYILVRFRKWQFSLGAVAALFHDAVIILGTYSLLHKYMPFNMEINQDFIAAILTVLGYSINDTVIIFDRIREYLREKKSLTLAGLFDDSISSTLGRTFNTSFTTILVILAIFIFGGDNLRGFMFAMLIGIGFGTYSSIFVASAIAYDFLKTGKEEEVHGKSTSNKEELASK	PGPT0025710_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257	NA	NA
BMS003_00185	1221	tetA		Tetracycline resistance protein, class C	ATGGAAAATTCAAAGAAAAAAGCGGCCATAGGCTTTATATTTATTACTTTACTGATAGATATTACAGGATGGGGAATCATTATTCCTGTTGTTCCTAAATTGATTGAGGAGCTCATTCATGCAGATATCAGTGAAGCAGCAAAATATGGTGGCTGGTTGGGATTTGCCTATGCATTTACACAGTTTATTTTCTCTCCGCTTGTTGGAAACCTGAGCGATAAATATGGGCGAAGACCCATTATTCTGACCTCTCTCTTTGGATTTGCAATAGATTATATCTTTTTGGCTTTGGCTCCCACAATCTGGTGGCTGTTTTTGGGAAGAATTATTGCAGGAATTACGGGAGCCAGTGTTACTACGGCCAGTGCCTATATTGCAGATATTTCCACGGACGAAGACAGAGCTAAGAATTTTGGACTGATAGGTGCGGCTTTTGGTCTTGGGTTTATTATAGGGCCTGTTCTGGGGGGAGTTCTCGGTCATTATGGTGCAAGAGTTCCTTTCTATGCAGCTGCAGGTTTATGTTTGCTTAATTTCCTTTATGGGTATTTCATCCTTCCTGAAAGTCTGGATAAAGATAAAAGAAGAGAATTCGACTGGAAGCGGGCGAATCCTGTAGGTTCATTTAAGTTTTTGGGAAAACACCCTGAAATTTCAGGACTTATTGTTTCATTAATATTAATTTACATTGCAGGTCATGCTGTACAGAGCAACTGGAGCTTCTTTACCATGTATAAATTCAGCTGGACGGAAAGAATGGTCGGGATTTCATTAGGTGTAGTAGGTTTACTGGTAGGTCTTGTACAGGGTGGTCTCATAAGGTATACAACTCCCAGGCTTGGAGAGCAGAAAAGCATTTATTACGGATTGGCTTTCTATGCTGTAGGGATGCTTTTGTTTGCTTTTGCTTCTGAAGGGTGGATGATGTTTGTCTTTCTGGTACCATACTGTTTAGGAGGGATTTGTGGCCCGGCTTTACAGTCTGTCATCACGAAAAGTGTTCCTTCCAATGAACAGGGAGAGCTTCAGGGGGCATTAACAAGTTTAATGAGCGCTACATCCATCATCGGGCCTCCAATGATGACGAATCTGTTTTACTATTTCACACATGACGAAGCTCCTTTCAAATTTTCCGGTGCTCCTTTCTTCTTGGCGTTTATTTTAATGGCAGTCAGTGTTGTAATTACGTATTCTGCTTTTCAGAAAAAGGGAAAGATATAG	MENSKKKAAIGFIFITLLIDITGWGIIIPVVPKLIEELIHADISEAAKYGGWLGFAYAFTQFIFSPLVGNLSDKYGRRPIILTSLFGFAIDYIFLALAPTIWWLFLGRIIAGITGASVTTASAYIADISTDEDRAKNFGLIGAAFGLGFIIGPVLGGVLGHYGARVPFYAAAGLCLLNFLYGYFILPESLDKDKRREFDWKRANPVGSFKFLGKHPEISGLIVSLILIYIAGHAVQSNWSFFTMYKFSWTERMVGISLGVVGLLVGLVQGGLIRYTTPRLGEQKSIYYGLAFYAVGMLLFAFASEGWMMFVFLVPYCLGGICGPALQSVITKSVPSNEQGELQGALTSLMSATSIIGPPMMTNLFYYFTHDEAPFKFSGAPFFLAFILMAVSVVITYSAFQKKGKI	PGPT0027875_421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027875-tetA-K08151	NA	NA
BMS003_00186	951			hypothetical protein	ATGAAAAAACTGGTAACTACTTTTAAAGTTTTTGCTGTATTATCGGTACTGATATTCCACAGCTGCCACGACGAAAACAATGACATGAACCCACAGGAAACGGTTCAGGCTAAAGTAACCGCGGATGATCTGAAAAAAGAAATCATCCCTCTCCCATCACAGATTATTCCTGATGCTATCCAACTTCAGCTGAAGGAATCCGGGAAAAACCTTGAAATATACCTGAAAAATGATTTACAGATTGCAGGAGTAACAATTCTGGGAACAATTACCACCTCAAAAGGAATTGAACTTTCCAAAAGCCTGATTACTGATAAAGACCAGTATATCGCATCCGGAAATATTATGGATCCTTCTTCTGTAAAAATCGGAAAAATTGGTGAGCTGTATAGTGGTGGTGACCTTACAACAGCACAACAGGGATTAAAAGAGACCATCACTGAAGGAATAAAATCCGGCATCAATGTAATGGAAGTGACCTGGAACAGCAAAAACGGTAAATTTACCACTACCTGCTTTTATAATGAATCAGGAATTATCTGGGATAACATTTTCGGAGGGCTTGTCATGATGGATACCCGTGGAACGACAGAGATATCAAGCACCAATCAGGATGCAAAAGTGGCTTCTAAATGGTATAAACAATGGTGGACAGCCAACTGGCTTTGGGGTTCTAAGAGAGGTGAAACCGGATATCAGATTACGATTTATTATTCCGGATCTACGGTTTCCAATGCGGATGTAAGCGACTGGGGATATATCAGCTTAGGAAAAGCAAAAAGTGAAAGCAAAATCACTAAAAAAACTGGGGCCTACGGACAATGCCGATATGCACTGGGGCTTTGTACTCCTACAGGTTCTCTGAGCTTTAATTCGAGCAATTTCACGGTATCATTCTCCGGATTGGGCAGTAATATTGTAAGTAACGGGACAAAATCCCTTTATCCTTAA	MKKLVTTFKVFAVLSVLIFHSCHDENNDMNPQETVQAKVTADDLKKEIIPLPSQIIPDAIQLQLKESGKNLEIYLKNDLQIAGVTILGTITTSKGIELSKSLITDKDQYIASGNIMDPSSVKIGKIGELYSGGDLTTAQQGLKETITEGIKSGINVMEVTWNSKNGKFTTTCFYNESGIIWDNIFGGLVMMDTRGTTEISSTNQDAKVASKWYKQWWTANWLWGSKRGETGYQITIYYSGSTVSNADVSDWGYISLGKAKSESKITKKTGAYGQCRYALGLCTPTGSLSFNSSNFTVSFSGLGSNIVSNGTKSLYP				NA	NA	NA	NA	NA
BMS003_00187	342	tatB		Sec-independent protein translocase protein TatB	ATGGAATTAAGCATTGGAGAAATGGCACTCATTGCCATTGCAATCGTTGTATTATTCGGTCCGGATAAACTGCCTCAGATTGCGCGTGACTTAGGTGCAGGCGTAAGAAAGATGCGTGGAGCAGTAGAAGATATCAAAACTGAGATCATGAAGGAAACAGATAATCCTGTTTCTGAGATCAAACGTGAGATTGAAAAGGTGAAAGATGCAGCAAAGGATTTCAACCCGATGAATGATATCCAGAAAGATATTCTTACAGAGCCTTCCACGGTTGCTTCTAATGAACCTCCGAAACCGAAGCCTGAGGATGATGAAACTTACGAAGGACCTGTAAGCAGATAA	MELSIGEMALIAIAIVVLFGPDKLPQIARDLGAGVRKMRGAVEDIKTEIMKETDNPVSEIKREIEKVKDAAKDFNPMNDIQKDILTEPSTVASNEPPKPKPEDDETYEGPVSR	PGPT0014360_2683	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
BMS003_00188	567			hypothetical protein	ATGGAAGAAATCATTCAGGAAGATAAGAAGGTATTTCTTTACCTTAATAATTTGGGCGATTCATCTTTCGACCAGTTTTGGATGCTGATTTCAAGTACCTGGATCTGGGTACCTCTTTATATTATATTTCTTTACTTTTTATACAAAAATTATCAACTAAGATCTTTAGTTTTTATCCTTATATTTTTGGCTATTGGTGCAACGGTTTCTGATCAGTTGGCCAGTGTTTTCAAATATGGTGTGGCAAGGCTCAGACCCTGCCATGATCCTACTCTGGAACATCACATGAGAATCGTGAAATGCGGTGGACAGTTCGGGTTTTATTCTGCCCATGCTTCCAATACATTCTTTCTGGCTTCTTTTTTAAGCGTTTTACTGAAAAATAAACTTAAATGGTTTCCATATGCTATATTTGTATGGGCTATAGTAGTTTCCTACAGCCGTATATATTTAGGAGTGCATTTCCCGATAGATATTTTGGTGGGGGCGTTTGTTGGATCTTTATTGGGAGTGATATTTGGTGCACTCGCCAAAAAAGTGATCAATAAACAATCTATAACCTCATGA	MEEIIQEDKKVFLYLNNLGDSSFDQFWMLISSTWIWVPLYIIFLYFLYKNYQLRSLVFILIFLAIGATVSDQLASVFKYGVARLRPCHDPTLEHHMRIVKCGGQFGFYSAHASNTFFLASFLSVLLKNKLKWFPYAIFVWAIVVSYSRIYLGVHFPIDILVGAFVGSLLGVIFGALAKKVINKQSITS	PGPT0024170_1834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
BMS003_00189	813			hypothetical protein	ATGAAAAAAACTTTATTATTAGTAACTTCCCTCAGTGCTTTTCTTCATTTTTATGCCCAGGACAAAAAGCTGGCGGAAGAATGTTTTAACAAAGCAGACTATAAATGTGCTGAAGAACAGTATCTGAAGCTGGCAGAAAAAGAACAGATCCCAAAATTTCAATCCGAATATTACGACTATCTGGGCACAGCTCAGAGAAGACTTGGAAAGACCACTCTGGCTTTTAAATCATATGAATCTGCTCTGAAGGCAAATCCATTATCGGTTTCTGTTTACGCCAACCTTTCATCACTTTACAGTCAGAAAGGAAATAAGATAAAGGCACTGGAATATATAGAAAAAGGGCTTCTGGTGAATGCTGAAACCCCGGACTTATATCTTACACGTTCCAAAATTTATGACAGTCAGGGAAAAAAAGAACTGGCGATCAAAGATCTTAATCAGATTCTGACTTTCGCTCCTGATCATATTTTCGCAAAAACAGGATTGGCCAATCTGAAAAAAAATAATGGCGATCTGGACGGAGCTTTAAGTGACTACAATAAACTTCTTTCCGAAAAACCGGAGTCTTTGCTTTACAACGGGCGTTCAGATGTTTATTTTAAAATGAAAAAATATAAGGAAGCGCTTACAGATGCCAATAAAGCAATTTCCATAGATCCGAAGTTTGCACAGTCTTATGTGAGCAAAGCCATGATTCTGTTCGAAATTTCCAAACTAAAGGAAGCCTGCGAGAACCTGAACAAAGCTGTAGCTTTAGGGTATGAAAAAGCGGTGCTGGCAGATTCTTATGCTAAATGTGTAAAGAAATAA	MKKTLLLVTSLSAFLHFYAQDKKLAEECFNKADYKCAEEQYLKLAEKEQIPKFQSEYYDYLGTAQRRLGKTTLAFKSYESALKANPLSVSVYANLSSLYSQKGNKIKALEYIEKGLLVNAETPDLYLTRSKIYDSQGKKELAIKDLNQILTFAPDHIFAKTGLANLKKNNGDLDGALSDYNKLLSEKPESLLYNGRSDVYFKMKKYKEALTDANKAISIDPKFAQSYVSKAMILFEISKLKEACENLNKAVALGYEKAVLADSYAKCVKK				NA	NA	NA	NA	NA
BMS003_00190	453	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGTTGAATATTGTTCTTGTAGAACCGGAAATACCTAATAATACCGGAAATATCGGAAGATTGTGTGTAGGAACCGAAAGCAGATTGCATCTTATTCATCCGTTCGGATTTGTGATTAATGATAAGAACCTGAAGCGTTCCGGATTAGACTATTGGGTGCATCTCGATGTTACTGAATATGCAAATATAGAAGAATGGATTAGCAATATTCCTGATCTTTCACGTGTCTTCCTAATGAGCTCGCATGCCGAGAAATCTTATCTGGAAACAGAGTTTCAGGACGGAGACTGGCTGGTTTTCGGAAAGGAGAGTGTTGGGTTGAGTAAAGAAGTTCTGGACCGTTTTGAAAATCATTTAACCATTCCTATGTCGAAGCTTATCAGAAGCTTTAATATTGCCAATTCTGTTGCTTTTGTTGTAGGGGAGGCAAAGAGGCAGATCTACCTGAAGTAA	MLNIVLVEPEIPNNTGNIGRLCVGTESRLHLIHPFGFVINDKNLKRSGLDYWVHLDVTEYANIEEWISNIPDLSRVFLMSSHAEKSYLETEFQDGDWLVFGKESVGLSKEVLDRFENHLTIPMSKLIRSFNIANSVAFVVGEAKRQIYLK				NA	NA	NA	NA	NA
BMS003_00191	474	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	ATGCGAATCAGTTTACTTTGTATCGGTAAAACAGACGATAAGGAAATTACTTCTTTGATCAATTATTATCTCAACCGCTTACCCAAACACTGGAATTTTGAAATTACTGAAATACCGGACGTTAAAAATGCTAAAAACCTATCTTCTGACCTTCTGAAGAAAGAAGAAGCCAGGTTATTCTTAAACCATATTGATAAGAACGATCTGGTGGTTATTCTTGATGAAAAGGGAAAACAGTTTACCAGCCGTGAATTTTCGCAGAAAATTGATACCTGGATGAATTCATCCGTGAAAAAAATACATATTCTGATTGGAGGAGCCTACGGCTTTTCTGAAGAAACTTACAGCAGAGCGAATGAAAAGATGTCTTTATCCAAAATGACTTTTACGCATCAGATGATCCGCCTGTTTATTGTGGAACAGCTCTACCGAGCAGATCAGATTCTACAAGGGAAACCTTATCATAACGATTAA	MRISLLCIGKTDDKEITSLINYYLNRLPKHWNFEITEIPDVKNAKNLSSDLLKKEEARLFLNHIDKNDLVVILDEKGKQFTSREFSQKIDTWMNSSVKKIHILIGGAYGFSEETYSRANEKMSLSKMTFTHQMIRLFIVEQLYRADQILQGKPYHND				NA	NA	NA	NA	NA
BMS003_00192	1014			hypothetical protein	ATGAGTATAAAGGTTCCTAAGTTTATTTTGAAGATTCAAGAGTTTTTTGATGATATTCATATTCCTGTTTTGGGAATATCGCTTTGGCAAATGTTTCAGATCTATATCTCCGGGATTTTCAAAGGAAAAATTGGTAGAAAGGCAGCTGCTATTTCATGGAGCTTTACGATAAGTTTATTTCCGTTTATTCTCTTTCTGCTCTCTGTTTTACCTTATATGCCGCATTATGATAAACTACAGTTCTATATTTTTGATGTACTGATGCATAATGTTTTTCCTTCGAATATGGAAGGTGATGTAAGAGGGTATATAGAAAAAAATATTATCCCTAATATGAAAGGGATCAGTAATCTGACCATTGTTCTGGCACTTGTTTTTGCTACTAATGGTACATTTTCCCTGATCAATGGTTTTAATGAAAACTCGGATGAAAAACTGAGCGACGTAAAGGAGTTTATACTTTCATTCTTTATTACGATAGGCTTTATTACCATTGTCTTTTTAGCACTTTTCGGGGTGTATTATGTGGAGGTTGTTATGAAGCTCTTTACACCGGCTTATGATATTTCCTGGCTTGTAGATAACCTTTCCAGTATTATCGGATTTGTTTCTTTTCCTCTTTTTTATTTTATATTGCTGACCCTTTTTTACTGGCTTGGAACTGTAAAAATAACAAGATTCCGTCAGGCTGTTCCCGGTGCTGTTTTAACGACTGTTCTGTTTGTGGTGACCACTTATATTTTTGCCATTTATGTAAAAGATATTGCAAGGTATAACGTGCTCTACGGATCTATCGGAAGTATGATCCTGCTGATGGTTTGGGTGAATGTGAATGTCTATCTTCTTTTATTCGGAAATGAGCTGAATATGGCCATCAGAAAGCTGAGAATAGAAAAACTGCTTTCTGATGAAATTCAGAAAGAAACTATTCATTATCATTCCCACATTACTGAACCTGATTTTGACGGCGATGAGGAACATAAAAGGAAACTGGAAAATCTAAAGAAAAATTAA	MSIKVPKFILKIQEFFDDIHIPVLGISLWQMFQIYISGIFKGKIGRKAAAISWSFTISLFPFILFLLSVLPYMPHYDKLQFYIFDVLMHNVFPSNMEGDVRGYIEKNIIPNMKGISNLTIVLALVFATNGTFSLINGFNENSDEKLSDVKEFILSFFITIGFITIVFLALFGVYYVEVVMKLFTPAYDISWLVDNLSSIIGFVSFPLFYFILLTLFYWLGTVKITRFRQAVPGAVLTTVLFVVTTYIFAIYVKDIARYNVLYGSIGSMILLMVWVNVNVYLLLFGNELNMAIRKLRIEKLLSDEIQKETIHYHSHITEPDFDGDEEHKRKLENLKKN	PGPT0014525_2938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS003_00193	1179	nhaA	COG3004	Na(+)/H(+) antiporter NhaA	ATGAATTTATCTCTTTATTTTAAAAATTTTTTCAACAACAGTCAGTCCTCAGGAATTATTCTTATTTTCTGTGTACTTATTTCATTACTTATTGCCAACTCATCTGCTGCAGAGAGTTTTCAGTATTATCTGGATATGACGGTAGGTACTCATCTTTTCGGATTGGAATATCCTGTCAGCATATGGATCAATGACGGATTGATGGCTGTATTTTTCCTTCTTGTAGGCCTCGAAATAAAACGCGAGCTTGTGGAAGGAGAACTTTCATCTTTTAAAAATGCCTCCCTTCCTATTTTTGCTGCAGTAGGCGGAATGCTTGTTCCTGCCGTAATCTACAGCATCTTCAACGCGGGTACAGAATACAGCAATGGCTGGGGAATCCCTATGGCTACTGACATCGCCTTCTCTCTGGCTGTCATTTCGATGCTGGGTAAAAAGATCCCCAATTCTATCAAAATATTTTTAGCTGCACTGGCCATTGTAGATGATCTGGGAGCTATCCTTGTGATTGCTATTTTCTACACAGATCAAATTCACTGGAGCTACCTTCTGTTATCTTTTGGAGTAACGGCTTTACTTTTTGTTTTGAATTTTTTAAAGGTAACCAAAGCCGTATTTTATATTATTCCGGGATTGTTTCTATGGTATTTCCTTCATCATTCCGGAATCCATGCAACAATAGCAGGAGTTTTACTGGCCTTTTCCATTCCAACCAATGCTTCTAATGTAGAGATTTCGCCGCTGGAAAAACTGGAACATCAGCTTCACATTCCTGTAAGTTTTCTCATTATGCCTCTATTTGCTTTAACCAATACCAATATCACTTTTTCCGGTGACATGGTAGCCGGGGTTACAAGTACATTAGGACTTGGTATTATCTGTGGTCTGATATTGGGGAAGCTCATCGGAATCAATCTGTTTTCACTGATCGCTATCAAGTTAAAGCTCAGCTCCCTCCCTCAAAACAGCAACTGGCTTCAAATGATTGGTGTAGGTTTACTGGCAGGAATAGGATTTACCATGTCCATTTTTATTGCATTGCTTTCATTTAAAGGAGAAATTCAGATTCAGGATGAAGCAAAATTTGCCATTTTGGTGGCATCTTTTATCGCAGCAATTGCAGGATTTACGATATTGAGCGTAAGTTCAAAAGAAAATCCTGATCTGGAAGAGAATTAA	MNLSLYFKNFFNNSQSSGIILIFCVLISLLIANSSAAESFQYYLDMTVGTHLFGLEYPVSIWINDGLMAVFFLLVGLEIKRELVEGELSSFKNASLPIFAAVGGMLVPAVIYSIFNAGTEYSNGWGIPMATDIAFSLAVISMLGKKIPNSIKIFLAALAIVDDLGAILVIAIFYTDQIHWSYLLLSFGVTALLFVLNFLKVTKAVFYIIPGLFLWYFLHHSGIHATIAGVLLAFSIPTNASNVEISPLEKLEHQLHIPVSFLIMPLFALTNTNITFSGDMVAGVTSTLGLGIICGLILGKLIGINLFSLIAIKLKLSSLPQNSNWLQMIGVGLLAGIGFTMSIFIALLSFKGEIQIQDEAKFAILVASFIAAIAGFTILSVSSKENPDLEEN	PGPT0013935_2059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
BMS003_00194	2211	relA	COG0317	GTP pyrophosphokinase	ATGAGCTACGATTTAGAACAAGAGAATAAAGAGATCCTTGCAAGATATAAGGATCTGATTTCTAACACATACAGAACACTGGATGAGGAAAATAACAAGCTCATCCGGAAGGCATTCGACATTGCTCTGGATGCCCATAAGGATCAAAGGAGGAAGTCCGGAGAACCTTACATCTACCACCCCATTGCTGTTGCTAAGATTGTAGCTACAGAAATTGGGCTGGGCGCAACTTCTATTGCCTGTGCACTTTTGCATGACGTGATTGAAGACTCCGATTATACCTACGATGATCTGAAAAAAATCTTCGGTGAAAAGATTGCCAGTATCGTGAATGGATTAACCAAAATTTCCATCATGAATCATCAGAATATTTCTGTACAGTCTGAAAACTACAGAAAATTGCTATTGACGCTATCTGAAGATTTCAGGGTGATCCTGATCAAAATTGCAGACCGTCTTCATAATATGAGGACGCTAGAAAGCATGGCTTCGGATAAACAGAAAAAAATTGCTTCAGAAACAGTTTATATCTATGCTCCGATGGCTCACCGTCTCGGATTGTACAACATCAAATCTGAGCTTGAAGATCTTTCCTTAAAATATAACAGCCCCGAAGTATACAATGAGATCACGGAAAAACTGGAACTAGCCAAGGAAAGCCGCGAAAGGTATATTAGTGAATTTACTAAGGAAGTTTCTGAAAGACTTCGTGAAGAAGGCTTAAACTTTAAAATCAAAGGTCGTGCAAAAGCCATCTCTTCCATTTACAGAAAGATGCTGAAACAGGGAGTTTCCTTTGAGGAAGTTTTTGATAACTACGCCATCAGGATTATTTATAAGTCTGATGCGAAAAATGAAAAATTCCTCGCCTGGAAAATCTACTCTATCGTTACGGATGTATACCACAGTAACCCTTCAAGAATGCGTGACTGGATCACACAGCCCCGTTCTACAGGATACGAAAGCTTGCACTTAACCGTTTTAGGTCCTGACAAAAAATGGATTGAAGTGCAGATCCGTTCGGAAAGAATGGATGAAATTGCCGAAAAAGGAGTTGCTGCCCACTATAAATATAAAGAAGGCTACAAACAGAGTTCAGACGACAGAAACTTTGAAAAATGGGTAACAGAAATCCGTGAAGTACTGGAACAACAGCAGAATCTTTCCACTTCCGAACTTCTGGATAATATTAAGCTTAACTTATATTCTAAGGAGGTATTTGTCTTTACCCCGAAAGGAGAAATTAAAATTCTGCCAACCAATGCTACAGCGCTCGATTTTGCCTTCTCTGTCCATTCCGATTTGGGAATGAAGTGCCTGGGAGCTAAAATCAACGGAAAACTGGTTCCAATCTCCTATGTTCTTCAAAACGGAGATCAGGTAGATATTCTTTCTTCACAGAATCAGAAACCAAAATCTGACTGGCTGGAGTTCGTAGTGACCTCGAAAGCCAAATCCAAGATCAAAAGTTATCTGAACTCCCAGAAAAATCAACTGGTAGAAGAAGGAAAAGAAATCCTGCAGAGAAAACTTCGTCATGCTAAAATTAATTTTAACGATGATGAAATCAATAAACTTCAGAAGTTCTTTAATTTAAAATCTTCTCAGGAACTCTTTCTTAAGTTCCAAAGCAATGAACTGGATGTCAGCAGCCTGAGAAAATACATTGAAAGTAAAAATGTTTTCAATAATCTGCTTTCAAGATTCAGAAAATCGCCCAACAAAAGCCAGCATTTCGAGGAACAGAAAGAAGAAAACCTTGACATGATTGTCTTTGGAAAAGATGAAGAAAAACTGAATTACAGCTATGCAAAATGCTGTACAGTAATTCCGGGAGACAAAATTTTCGGATTCATCACCATCTCGGACGGAATTAAGGTTCACAGTGACAACTGCCCGAATGCCATCAATCTGAGAGCACAGTATGACTACCGTGTCATCCCTGCCAAATGGGTAAATGCGGAAAGCTTCAAAAACAGAGTAAAAATTGAAATTGAAGGACTTGACAGAATGGGAATGATCAATGATATCACCACTGTCATCAGCGGAAGTATGGGGATGGACATGAAAAGTATGTCCATTGAATCCAACAATGGTGTTTTCACAGGAAATATCAACCTCGAAGTCAAAAATAAAGGTCAGCTGGAAGAGACCTTTAAAAAACTTAAAAGTATTAATGGTGTTTCAAGAGTGAGACGACTACAATCATAA	MSYDLEQENKEILARYKDLISNTYRTLDEENNKLIRKAFDIALDAHKDQRRKSGEPYIYHPIAVAKIVATEIGLGATSIACALLHDVIEDSDYTYDDLKKIFGEKIASIVNGLTKISIMNHQNISVQSENYRKLLLTLSEDFRVILIKIADRLHNMRTLESMASDKQKKIASETVYIYAPMAHRLGLYNIKSELEDLSLKYNSPEVYNEITEKLELAKESRERYISEFTKEVSERLREEGLNFKIKGRAKAISSIYRKMLKQGVSFEEVFDNYAIRIIYKSDAKNEKFLAWKIYSIVTDVYHSNPSRMRDWITQPRSTGYESLHLTVLGPDKKWIEVQIRSERMDEIAEKGVAAHYKYKEGYKQSSDDRNFEKWVTEIREVLEQQQNLSTSELLDNIKLNLYSKEVFVFTPKGEIKILPTNATALDFAFSVHSDLGMKCLGAKINGKLVPISYVLQNGDQVDILSSQNQKPKSDWLEFVVTSKAKSKIKSYLNSQKNQLVEEGKEILQRKLRHAKINFNDDEINKLQKFFNLKSSQELFLKFQSNELDVSSLRKYIESKNVFNNLLSRFRKSPNKSQHFEEQKEENLDMIVFGKDEEKLNYSYAKCCTVIPGDKIFGFITISDGIKVHSDNCPNAINLRAQYDYRVIPAKWVNAESFKNRVKIEIEGLDRMGMINDITTVISGSMGMDMKSMSIESNNGVFTGNINLEVKNKGQLEETFKKLKSINGVSRVRRLQS	PGPT0014310_2247	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS003_00195	366			hypothetical protein	ATGTCACATATATTAGCTGGACTATTTGACCATCACAGCGACTACAAAAAACTGGAAAGTGATCTTGAAAACTCAGGATTTGAGAACTCAGATTACATTGTGTATATTAACAGTGATTCTAATAATACCCAATATCTGGCAAGTGTTACCGTAAATGATTTTAATCAGATTGACCTTGCACGGAATGCGTTTATTCAGAACGCTGCATTGAAGTCCTATTTATTTGAAAACATGAACATCAATGAAACCAATTATGATACCATCAAAAAGTATATTGATGCAAGAAACAGAGCTGAAATTCACAACAGCCCTGATATTAAAATTAAAACATCAAGTGATGGTATGAATTCTGAAGTGAAATTCTAA	MSHILAGLFDHHSDYKKLESDLENSGFENSDYIVYINSDSNNTQYLASVTVNDFNQIDLARNAFIQNAALKSYLFENMNINETNYDTIKKYIDARNRAEIHNSPDIKIKTSSDGMNSEVKF				NA	NA	NA	NA	NA
BMS003_00196	255			hypothetical protein	ATGAATAATACAGAATTATTGGAAAAATATAAAGATTACACGATCACGAATATTGAAGATTTAATATTAAAAATGAAATTAGAAGATGATTTATCTATGATGCAGTCAACAATGTTATTAGTGTTAAAATTTAAATTAACTATTAAAGAAGCAGATAATTATATATTAAATTCCCAAGCTTGGCAAGATAGTAAACAATCTGTAGAAAAATTTAGAAATAATATCTTTGATAATATTTCTAAATTAGATAATTAA	MNNTELLEKYKDYTITNIEDLILKMKLEDDLSMMQSTMLLVLKFKLTIKEADNYILNSQAWQDSKQSVEKFRNNIFDNISKLDN				NA	NA	NA	NA	NA
BMS003_00197	486			hypothetical protein	ATGAAAGCAAAAGAATTTAAAAAAGAGGTTTTAGAGATTACACTTAAATGTGTTGATAGAAAACCTGAAGATTGGACAACCTTTAATGATAAAATGCATACAATATTTTTAAAGGATGATTATGTCCCGACAAAAGTATCTTTATTATCAAATGAATTACCAATATTAGAGTGTGATTTAAATGATTCCTATTTACTTGTAACTTCAGATAGGGTTATTTCCATTATTAATAATAAGTATGATGAGATTTACCCAAATGATTTTTATGAACTTTGTAATGATTATGAAAAATTTAATTATAAAAAAGAAGGTGATCATCCTAAAACTAATATTATATGTATTCAGAAAATAGATGGATTTAAAGTTTTATTAAAAATTGACTCTCATTATCCTGCTTTTTTTACTAAAATATTAATTTATAATATTATGTTATATAAGAAAGAAGGAAGGTGGTTTTTAAACCCAACTAAAAAAAACTATGAGTAA	MKAKEFKKEVLEITLKCVDRKPEDWTTFNDKMHTIFLKDDYVPTKVSLLSNELPILECDLNDSYLLVTSDRVISIINNKYDEIYPNDFYELCNDYEKFNYKKEGDHPKTNIICIQKIDGFKVLLKIDSHYPAFFTKILIYNIMLYKKEGRWFLNPTKKNYE				NA	NA	NA	NA	NA
BMS003_00198	321			hypothetical protein	ATGAATGAGTTTATGGGGCACTTTGGTAAATATGTTTCAAACCTTGATGCTAGTATTAATATGGGATGGCTTACAGGAGATGTTATGGAATTACAGGTTACGGCTATATTACGAAGCTCAAGTGCTCCTAGAAATGGTGTAATGAAAGCATTAACAGAATCAGCTGAAAATATGGCAAGAAAATATGGAATGAGTGAAGTTCGTATACAGTTCAATATGGTTCATAATTCTTTTCTTAAACACGGAGGATGGGCAGACGAACTAGGTTATTATTTTAGTAGAGAAGGAGATACCGTTTTTTGGGAAAAAGTTTTACATTAA	MNEFMGHFGKYVSNLDASINMGWLTGDVMELQVTAILRSSSAPRNGVMKALTESAENMARKYGMSEVRIQFNMVHNSFLKHGGWADELGYYFSREGDTVFWEKVLH				NA	NA	NA	NA	NA
BMS003_00199	549			hypothetical protein	GTGAAAATAGAAATAAATAGAGAACTTTTTGGATTCCAACCTTATGAATTTGATAGCTTTTTGGGTGGGATTTCTTTAATACGTGGTTATAAATATAAAGATAAATTTATATGTGACATAATGGCATATAAAGAGGAAGGAAATTATTATGACTATGAAGACGAAAACATCAATTTCTATAGTCCTACAGAAATTAATGAAAATGGAATATTTTTTTTTGAAATAAAAAATAAATTTTTGTTGACAGAAAATGAGAATTTTCAATTTTTTACAAACTTTCAAATAGATAAAGAAGATTTAGATATCATAATGATCGAAGCTGTTTCAAAAGAGAATAATAACAAATATTACTGGACATATTCAACAATGGATTATTTAATTGCAACAACAAATAAAAGATCTGAAGATATATATTTTGATTATTACCCTCATGAAATTGCTTTTGTTTTAAATAGATTTTTACTTTTAAAAAGTATTACCAAAAGGGATATAATTGATAAGCTTCAATCTTTAAAAACGGAGGAAATTATTTCTAGATTGTATAAATAG	MKIEINRELFGFQPYEFDSFLGGISLIRGYKYKDKFICDIMAYKEEGNYYDYEDENINFYSPTEINENGIFFFEIKNKFLLTENENFQFFTNFQIDKEDLDIIMIEAVSKENNNKYYWTYSTMDYLIATTNKRSEDIYFDYYPHEIAFVLNRFLLLKSITKRDIIDKLQSLKTEEIISRLYK				NA	NA	NA	NA	NA
BMS003_00200	450			hypothetical protein	GTGGAATCTATTAAATTCTTGGATGAGAAAGTAAAAGTCTATAACTTTGAAGTAGAAAGCAACCATAATTATTATGTCTCTGAAAAAGGGATTTTAGTACATAACAACTGCGAATGGACAAGTGCAATTGCAAATACATTAGAAAAACAATCATCCCGTTTTACAAGTCATCTTTCAGAACATTTCTTCGCTGGTGAATTTAATATTGGAGGTAGGCCTTTATCTCAAATGTTTCAAAAAGGATTGTCATATAAAGATGTATTAGAAGAGGCTGCCGTACGTATTGGAAGGGGTGAAGGAACATTTGGAACTTCTACAAAAGGAGCAAATGAAATAATATTGGATTTTGGAAGAATGATAAACGAATCAGGAACCACAACTCAAGTAAGGATATGGATGGATAAAACTGGAACAAATATTGGAAGTTTACATCCTTATCTTCTCAGATAA	MESIKFLDEKVKVYNFEVESNHNYYVSEKGILVHNNCEWTSAIANTLEKQSSRFTSHLSEHFFAGEFNIGGRPLSQMFQKGLSYKDVLEEAAVRIGRGEGTFGTSTKGANEIILDFGRMINESGTTTQVRIWMDKTGTNIGSLHPYLLR				NA	NA	NA	NA	NA
BMS003_00201	468			hypothetical protein	ATGGTAAGATTAGACTTAAATACTGTTATAAACATACTATCATTACAAGAATATTCAAAATTGACATTGGAAGAAAAAGAAGAATTGATTGAATGTGAAGGAATCGAAGAAGTTGAAATTTTTGAATATTTAAAAGAAAAATATTCAGGTATAAAGGTTTCATATATTGAAGAAAAAATCAAAACTTTATATCAATTTCCATTAATTATTACTGGTACTCCAAAAGAATTGATTGCATGCCCCTGTTGTAATTATAAAACAATTTCAGAAGGGGGAAATTATGAGATTTGCCCTGTTTGTTTTTGGGAAGATGACGGAAGTAATGATGAATTTAAATATAGTCATGTAAATCATATGACATTAAACGAGGCAAAAAATAATTTTAAAATAAAAGGAGCTATTTTAGATAAATTCTTAAATTCTGTAGATAGGGAAGGAAAATTAAAATATTATAAAACAAATTCTTAG	MVRLDLNTVINILSLQEYSKLTLEEKEELIECEGIEEVEIFEYLKEKYSGIKVSYIEEKIKTLYQFPLIITGTPKELIACPCCNYKTISEGGNYEICPVCFWEDDGSNDEFKYSHVNHMTLNEAKNNFKIKGAILDKFLNSVDREGKLKYYKTNS				NA	NA	NA	NA	NA
BMS003_00202	4230			hypothetical protein	ATGAAAAAAATTATATCCATCATATCTTTTCTTGTTGTGGCTTTGTTTCATGCGCAGAGTTTAACAAACACGGAAAATTACATATATAGCAGAACCTATTTGGAGCCTGTCACTTCAGAGCAGCCCAATGCCGTTCAGATTCAGGGCGTTCAATATCTTGACGGATTGGGAAGAGTTATTCAAAGTACCGCAATCAAAGCATCTCCCTCCGGAAAAGATTTAATTGTTCCTTCTGTTTACGATCAGTCAGGACAACAAACCAAAAGCTTTTTACCTCAGCCTGTAGACACTCAGAACGGAGCATTTATAACAGGAGTTGGGGAAAGTTCCGTCAATGCTTATTACGGAGTTCCCAATGCCTATTCGGAAGTTCTGTATGAAAAATCACCATTGGCAAGAGTGGTAAAATCGGCAGCTCCGGGAACAGAATGGCAGATGAGCGGTACCCACACCCAAAAAATGGAATACCTTTCCAATGATGCCGGGGAGGTAAAAAAATACAAGGCAACAACAAGCTGGAATGTGGCCGCACAAATTAATGATGTTTCTGTTACACTGGCTTCAGATGACCAGTATACCACAAATGGGTATTATAATGTCAATACTCTGTACAAACTGATTACTAAGGATGAGGATAACAATGAAATTCAGACATTCATTAATTCAGGAAAGCAGACCCTGCTAGTGCGTAAAATCAACAGAAAAGCAAACGGAACGTCAGAAAATCTGGATACATATTATGTATATGATACTTTTGATAACCTTTCGTTAGTTATTCCGCCTAAAGCTTCCGTTTCTTCTTTAACCCCGGATGTGATAAACAGCCTCTGCTACCAGTACAGATATGATAAGTACAACAGGGTTGCGGAAAAGAAAATTCCGGGAAAAGGATGGGAATACATGGTGTATGATCAGCAAGGCCGCATGGTGCTTTCACAGGATGCCAATTTGAGAACAACCACCAACAGCTTTGCAAAACGAGGCTGGCTGTTTAATAAATATGATCAATTTGGAAGAATAGCCTATACAGGATTTTTTAGCAATACTGCGGAAAGAGCGACAATGCAAACCGCATTAAACAATATGTCTTCAAATGCCAATAATAATGAAATACCAAGTGTAATACCATTTACCCTGAACGGTATAGATGTATACTATACAAAAGCTGCCTTCCCGACAGGAAGCATGACGATCTTGGGAGTGAATTATTATGATGAATATCCTGTCGGCTCACCGGCAAAGCCATCACAGATACAGAATCAGGTTACTTTAGCTTCGGCACCTACAGATGTTACCTCTAACGGATTAAACTCCATCAGAAGTACGAAGTCACTTCCTACAGCCAGCTATACCAAGAATGTCGAAAACGACAGCTGGTCATCGGCATTTATCTGGTATGACACGATGGGAAGGGTAATTGGAACTTATGGCAACAATCATTTGGGAGGATATACCAAAACTGAAACCGTATTGGATTTTTCAGGAACAACACTGAAATCTTATATTTATCATGCAAGAAAAGCAGATGAACCGGGCGTAACCATTAAGGAACGTTTTGTATATGATACCCAGAAAAGGCTAAAACAGCACTATCATCAGGTAGATGACAAACCGGAAGAATTACTGACAGAGAATACCTATAATGATCTTTCACAGGTTATTAATAAAAAACTGGGAAACAATCTTCAAAGTATTGACTATAATTACAATATCAGAGGCTGGCTCACGGATATTAACAAAAACCAAATGGGGCTTACCGATCTTGGAGGAAAATTATTTGCCTATAAAATTAAATATACACAGAAAGAAGGTATTGACAATCCTGACCCTTCACTATTCTCAGGAAAAAATGTTACCCAAAAATACAACGGAAGCATTGCCGAAATAGATTGGAGAGCCGTGGAAACACTTGGTGTAACCCCTTCTTTAACCCCAAAAAGATATGGTTATTCTTATGATTCAACCAACCGGCTTTTAGCAGGATATTATCAAAATCCAAATAATCCTTATAGTAAGGAAAATACAGAAGCCCTGGATTATGACCTGAACGGGAATATCAGCAAGCTATACAGGACTTCCGTGATGGAAGGTGGTAGCAATACTGCTGCGGTAATAGACAATCTGAGTTATATCTATTCGGGAAATCAGGCTATTAAAATCACTGATGATTCTCAAAACTTTGCCGGATATGAAGGCGGAGGAGGCTCCATCACTTATGATGCAAATGGAAATATGCTCACCATGCCGGATAAGGGAATACAGTCTGTTAAATATAATTTCCTTGATCTTCCCTCTGAAATGCTTATGAGCAAAAACGGCAGTGAGCTTGTTGCGGTAAAGACCCTGTACAGTGCAGACGGAACCAGGCTAAGAAAAGAAAGTACCACTACTGTTACCGGAATTATAGGATCAACTGTTTCAAAGAATACAACCGATTATCTGGATGGTTTTCAATATTTAGCCACAGAAAGCCTGAACATGGGAGGCGGGGGATCTGAAATCCTGATGGCCTCTTCATTATCTGAAAGAGCGATGGAACCGCAGGCTTTCTCAATAGATGCAAAAACCTTATCATTCCAGACAATTAAGACTCCCGATCTACAGTATTTTGCCACAGCCGAAGGGTATTATGATTACCAAAAAGATCAGTATATTTACCAGTACATAGACCAGCTAGGAAATGTAAGGGTTTCCTACGGAAGAAACAGCGCAGGCGCTCTTGAAATTACAGATGCCAATGATTACTACCCTTTCGGGATGAATCATTTTAAAACCGGGAATGCATTTTTTGGACAGGGAAGCTATAAAAGCAATAAATACAATGGCAAAGAGCTTCAGGAAACCGGGATGTACAGCTACGGCTGGAGAGAATATATGCCGGATATTGGCAAATGGAACGGGATAGACCAGCTGGCAGAAAATTATTTCTCAGCAAGTCCATATGCGTATGTGCTGAACAACCCCATCAATATGTTTGACCCGGATGGCAGAGTTACCATGTCGGCATGGACAGCCGCTATGTGGAATGGGACACCCGATGGCACAAATTCTTATTGGGCCAATACCGGATCAGAATTTACCAGTTATGAAGGTGGTTCAAGTGGTTCAGGTGGTTCAGGAAGAGCTGGACTCCCCTACAATTCCTCCGTAAGCTATAGTGGTGCTTTTAAAGTAGGAAACTGGGAAAATATTATCCCGGTTACTGTACCAGGAAAAGGAACAGCCAGTACATGGAATAATAAAGATAATTTTGGGTATAACAGTTTACTAATGTACAGTAAATTTACTGGTGCACTAGGGGAATTTACACTCAACCAGAATAGGTCTATTTTATATGATGCTGTAGAAAATACCAAAGTAGGCCAATCTGTATCGGCTGCTGAAAATTTCATGTTCCTGGAATTACCAGCGTCTCTTGCCGGAGGAGAATTATTAGCAGCAGGTTGGCGGGCAGCCGGAATAAGCAGGCTTATCTGTCGTCCTGTAGGAAGAATTACGAATGGTCTTATTAAGATTTGCTTTACAGAAGGTACCTTAGTAGCAATAGAAAAAGGCAGCAAAAAGATTGAGGATATTAAAGAGGGAGATCTTGTATGGAGCTATAATGAAAAAACAGGTCAGAAAGAGCTGAAAACAGTAGTTGCCCTATCCCGAAATACTTCTTCTTCATTAGTAAAGATCTCCTTAAACGGGACAGAAATTACCTGTACACCAGAACACCCTTTCTATGTAAACGGAAACTGGATAGAAGCCAAAGATCTTGTAAAAGGAATGCTTCTTACTACCCTAGATGGGAAAACTTCTCCTGTAGAATCTATTAAACTATTGGATGAGAAAGTAAAAGTCTATAACTTTGAAGTAGAAAGCAACCATAATTATTATGTTTCTGAGAATAGGATTTTAGTGCATAATAACTGTGATATTATTTGGAAAGGATTTTCTAAGGGCGAGTTAAATATTCACTTTTTAAAGCATGGAGCAGAGTTTGGGGAAATTACCCAGAGTCAATATTTGAAACTTGCTAAAAGTTTTGCCGGCGAAACCGGTGAGCATATTCAACAACAAGCGGTTGGAAAATTTCTAGTTAAATTTAATAGTAATACTCAAGAAATTCTTGTTGGAAGAATGGATTTAAGAGAGATTAGAACATTTTATAGAGCGAATCCAGCTATGACTAAAATAAATCCATTTCAAGATGCTCTTGATTTGGCAGCAACTTTAACAAAATAA	MKKIISIISFLVVALFHAQSLTNTENYIYSRTYLEPVTSEQPNAVQIQGVQYLDGLGRVIQSTAIKASPSGKDLIVPSVYDQSGQQTKSFLPQPVDTQNGAFITGVGESSVNAYYGVPNAYSEVLYEKSPLARVVKSAAPGTEWQMSGTHTQKMEYLSNDAGEVKKYKATTSWNVAAQINDVSVTLASDDQYTTNGYYNVNTLYKLITKDEDNNEIQTFINSGKQTLLVRKINRKANGTSENLDTYYVYDTFDNLSLVIPPKASVSSLTPDVINSLCYQYRYDKYNRVAEKKIPGKGWEYMVYDQQGRMVLSQDANLRTTTNSFAKRGWLFNKYDQFGRIAYTGFFSNTAERATMQTALNNMSSNANNNEIPSVIPFTLNGIDVYYTKAAFPTGSMTILGVNYYDEYPVGSPAKPSQIQNQVTLASAPTDVTSNGLNSIRSTKSLPTASYTKNVENDSWSSAFIWYDTMGRVIGTYGNNHLGGYTKTETVLDFSGTTLKSYIYHARKADEPGVTIKERFVYDTQKRLKQHYHQVDDKPEELLTENTYNDLSQVINKKLGNNLQSIDYNYNIRGWLTDINKNQMGLTDLGGKLFAYKIKYTQKEGIDNPDPSLFSGKNVTQKYNGSIAEIDWRAVETLGVTPSLTPKRYGYSYDSTNRLLAGYYQNPNNPYSKENTEALDYDLNGNISKLYRTSVMEGGSNTAAVIDNLSYIYSGNQAIKITDDSQNFAGYEGGGGSITYDANGNMLTMPDKGIQSVKYNFLDLPSEMLMSKNGSELVAVKTLYSADGTRLRKESTTTVTGIIGSTVSKNTTDYLDGFQYLATESLNMGGGGSEILMASSLSERAMEPQAFSIDAKTLSFQTIKTPDLQYFATAEGYYDYQKDQYIYQYIDQLGNVRVSYGRNSAGALEITDANDYYPFGMNHFKTGNAFFGQGSYKSNKYNGKELQETGMYSYGWREYMPDIGKWNGIDQLAENYFSASPYAYVLNNPINMFDPDGRVTMSAWTAAMWNGTPDGTNSYWANTGSEFTSYEGGSSGSGGSGRAGLPYNSSVSYSGAFKVGNWENIIPVTVPGKGTASTWNNKDNFGYNSLLMYSKFTGALGEFTLNQNRSILYDAVENTKVGQSVSAAENFMFLELPASLAGGELLAAGWRAAGISRLICRPVGRITNGLIKICFTEGTLVAIEKGSKKIEDIKEGDLVWSYNEKTGQKELKTVVALSRNTSSSLVKISLNGTEITCTPEHPFYVNGNWIEAKDLVKGMLLTTLDGKTSPVESIKLLDEKVKVYNFEVESNHNYYVSENRILVHNNCDIIWKGFSKGELNIHFLKHGAEFGEITQSQYLKLAKSFAGETGEHIQQQAVGKFLVKFNSNTQEILVGRMDLREIRTFYRANPAMTKINPFQDALDLAATLTK				NA	NA	NA	NA	NA
BMS003_00203	2868			hypothetical protein	ATGAAAAAAATTGTTACGCTATTGAGCATAATAGCAGGGATTGTTTCTACACCTGTATGGGGGCAGCAACAACCTATATCAGGTATTAATTTCGGGGACTTACCAAGGCCGGTGCCCTCGGTGTCTTCATTAATCAGCTATACAGAAGCTCCGGTATCCCTTTCAACAGGAGTTCCTGATATTAAGCTCCCTTTATTGGGATTATCTTCCATTGATAAAAATATAGGTACAAGCCTGGCATTACAATATCACCCTTTGAATATGAACGGAACAGAACCGGGGAGCGAAGTTGGAATCGGATGGTCAATGTTTGCAGGTGGCATTATATCAAGAGAAGTAGTCAATGAATTGGATGAAAAGTTTGATGATGCAGGTTTTATCGGATACAAAAAAAATAAATTTGATGATATATATTATTATAATCTGCCGGGAATATCCGGAAAATTTAAAATAGAAAGAAATACAGATAATAATACATTTCAGATTATCAACCTTACTCCCAATAATATTAAAATTGAATATACCAGAAATAGCAATACTGCAACTCTGATTATCAATTCTTTCACCATAACAGATGATAACGGGTACAAATATATTTTCAATGATTACAGCCAGAGCAGAAGCTATACTCATCCGCTTACATCCGGAACACTATTTAAATCTGCTTTTTTCCTGACTCAAATCAAAAATCAGAATAACGTTGAGCTGTTAAATTTTACCTACCAAAAAGAAAATAAAAACAAACCGGATACCAATGAGGTCCTTTATCAATCCTGTAAATTAAAGACGATTACCTCTCCAGGAATGGGTTCTTTAACAATTGATTATCATTATGACAGCTCTTTAGAAGGTACAATGAATGACCCCTACAGCGTTGCAAAAGTTTCCCTTAAAAACAATACCGGGGAGATTATTTCTCAATATGGCTTTGAATATGCTCTTCAGGTAGAAAATAAAAGGACTCTGACCAAGATTAACAAGATTAACTTATCCAACCCTGTTGGAACTCCACTGGAAACGACAAAACTATTATACACCAATTACTATTTTAGTAATGTTTCAGGTGACAGAGTTTGTTCTTTAGAACCTCAAAATCCAACTAGCAATTCTGTAGGTACTCTGTACCGGGTTATTTTACCAACAGGAGGAATGGTTGAATATAACTTTGAGGCGAACCAATATTATGCTAACAAAAACACTCCGGATTATGTAACCCCGGAAAGCTTTTCAGATCCGGAAATTCAATTTATTCAATCTTTTGCAGGAATAAATTTTAACGTTCCCAGTGGCCAAACAAAATCATATAGTTTTCAGGTGACTGGAGAACCGGGTAAGCTAAAGAAAATATATATAGATTTCGATGCGGATAAATATTACCCCACTTTCACAACTACTGACCCTAAGTCATTTGTTGATTATGTGATTGATAATGATCCTTATCTCGCAAATACTTGTTATACTTTTAATGATGAAGCACTGGAAGGCAGAACCTGGTCATTCAAAACCTTATCTCTGATGCCCGGAACTCATTCCATCAAAATATCAGGAACCGGCGGACATGGAATGATCACCCTGTCAGATATAGGAAGCAAACCTACACCATATAAAAATGCCGTAAGCAATGATGTAAAGCTGGGAATCCGGATTAAAGATATTAAATATTATAATTCTGCATCGGATTATCAGCCTCAAAAAACAGTGGCCTATGACTACAGTACTTTTAACGATTCTAACAGTTCAAGTGGTCATACTTTTTATCCTGAAATCGAAAGTATTTCGACAGAGGTAGTTCCGGTAGTATTGTACCAAAATGTAAAAGTAGCCCATGACAGTGATCATGGATATATCAAATACTATTTCAAGAATCCGAACGATTATCCAAAAACTTATTATACCTACAATGGTAATGAGACTAAATTTTGGCCTTATTATAATTTGACCAAATCCGGAATAATGGAGAAAAAAGAGGTTTTCAATAACCAGAATCAGCTCGTCTCCACAGTGAATTATGATTTTACTTTTGAAACCTTAAACCAGATGCCCGAAGTATCTGTTGATGGCGGTGTAACTAAAAAAGCGTACATAAAAAGTTCGAAAGTTATTACAAAAGATTACACCGGGAATAACAGGTTTGTGGAAACTAAAGTGGAAACAGAATTTAATCCCGCAAACTTTAAAGTGGCCTGGGTGAAGGAAACCTCGTCGGATGGGAATATTACGGAAAAAAGCATCACCTATTCCGCAGGCGTTGCAGAATACCAGAATCTGGAAAATGCATATATGACAGGAATCCCCGTAAAAACAGAAGTAAAGAAAAATGGGAAAACCGTTTCCGGTAACATCGTGAAATATGAAAATCCAGGCAGCTTATATCCGTCTTCCGTAGTAAGCATTAATCCGAATGACAGCAGCAATAAAGTAGCTATCAAATATGATGATTACGACTCTAAAGGAAATGTGAGACAATTTACTACCGGATACAATGCCACAACAGGAGCAGGAACTCAGACTGTTATTATCTGGGGATATAACCAAAGCTTACCAATTGCAAAAATAGAGGGAGCAAAACTGTCGGATATTGGAAACCTTGCTGATGATATTATCCTGAAATCCAATGCGGATGTAGATACTTCTTCAGAAACCGTATTGATAAATGCATTAGATAACTTCAGAAGTTTGCCTGCATTGCGAAATACCAGTATTACAACTTTCACCTATGATCCTTTAGTAGGGGCAACTACCGTTACACCCCCCACCGGGCTCAGAGAAATTTATAAATATGATAAAAACGGGAGATTAATTTCCGTGGTGGATGTGAACGGAAATATCATCAGGGATTATAAATATAATACAAAACCACAACTATAA	MKKIVTLLSIIAGIVSTPVWGQQQPISGINFGDLPRPVPSVSSLISYTEAPVSLSTGVPDIKLPLLGLSSIDKNIGTSLALQYHPLNMNGTEPGSEVGIGWSMFAGGIISREVVNELDEKFDDAGFIGYKKNKFDDIYYYNLPGISGKFKIERNTDNNTFQIINLTPNNIKIEYTRNSNTATLIINSFTITDDNGYKYIFNDYSQSRSYTHPLTSGTLFKSAFFLTQIKNQNNVELLNFTYQKENKNKPDTNEVLYQSCKLKTITSPGMGSLTIDYHYDSSLEGTMNDPYSVAKVSLKNNTGEIISQYGFEYALQVENKRTLTKINKINLSNPVGTPLETTKLLYTNYYFSNVSGDRVCSLEPQNPTSNSVGTLYRVILPTGGMVEYNFEANQYYANKNTPDYVTPESFSDPEIQFIQSFAGINFNVPSGQTKSYSFQVTGEPGKLKKIYIDFDADKYYPTFTTTDPKSFVDYVIDNDPYLANTCYTFNDEALEGRTWSFKTLSLMPGTHSIKISGTGGHGMITLSDIGSKPTPYKNAVSNDVKLGIRIKDIKYYNSASDYQPQKTVAYDYSTFNDSNSSSGHTFYPEIESISTEVVPVVLYQNVKVAHDSDHGYIKYYFKNPNDYPKTYYTYNGNETKFWPYYNLTKSGIMEKKEVFNNQNQLVSTVNYDFTFETLNQMPEVSVDGGVTKKAYIKSSKVITKDYTGNNRFVETKVETEFNPANFKVAWVKETSSDGNITEKSITYSAGVAEYQNLENAYMTGIPVKTEVKKNGKTVSGNIVKYENPGSLYPSSVVSINPNDSSNKVAIKYDDYDSKGNVRQFTTGYNATTGAGTQTVIIWGYNQSLPIAKIEGAKLSDIGNLADDIILKSNADVDTSSETVLINALDNFRSLPALRNTSITTFTYDPLVGATTVTPPTGLREIYKYDKNGRLISVVDVNGNIIRDYKYNTKPQL				NA	NA	NA	NA	NA
BMS003_00204	1692			hypothetical protein	TTGCGGAGCTTTAATAAGCTAATTACTAACTCAGAAAACAACACGGGAATGAAAAAAATTTATCTCGGTGCATTTACTTTATGCACGGCCCTGGGCTTATCTGCCCAGGAAGTAGTGTGGCAGAAAGACATCAAATCCTCTACCCAGGATTTCTTGAGCCAGGTTACCACCACCATCGATCAGCAGTATTTGATTACAGGAAGCTCAATACAGTCAGGAAGCGGAAAGCCGGAGGCTGGAAGCAAGCAGAATAACGGTTACGATTTTCACCTTGTAAAACTGAACCAGCAGGGAGAAGAAGTCTGGGAAAAATATTTCTCAGGACGAAATCATGATTATTTATCGGCAACTGTTACCACACAGGATGGCGGATTTCTATTAGCCGGAACCTCCTATTCGGGAAAAGGTTTGGATAAAAAAGAAGATTCTAAAGGAGGATCAGACATCTGGCTCATCAGGATCAATGAATTTGGAGATGAATTATGGCAGAAAACCTTGGGAAGCTCCTCAGATGAAGAAGCAAGAGCTGTCATTCAGACTACAGATTTAGGATTCTTTGTGGCTGGAAATGTACAAAACGCTGCAAAAGGATATGGTTCCAAAGATGTTTTGATCACAAAACTGGACAAAGATGGAAAAGAATTATCACAATTAGTTTTAGGCGGAAAAGGCCTTGATGAAGTGGAAAAAATGATCCCAACAAGAGATGGCGGAGCATTGCTGGGAATGTATTCAAGGAGTTCCGAGGTTCGTGGTTCGGGTTCTGAAAACAATTCCGGGATGCGAGGTACGGGTTCCATTGCAAACGCTCAAAACCCGAATCCCGTAACCCGCACCCCGAAACAAACTGAAAACTTCGGTGAAGGCGATTATTGGATCGTAAAACTCGACAAAACCGGAAAAGTTGAGTGGGAAAAGAATTTCGGAGGAAAAGGTGATGATCATATCCGAACACTGGCTTTAACGTCAGACGGATTCATCATTGGCGGAGAATCAAGATCAGAACGATCAGGCAATAAAACGGTAGGAACAGAAGAAGGAACAGATCTTTGGCTGATTTCCTTAAACGAAAGAGGTGATGAACAGTGGCAGAAATCCTACAATTTTGGAAACAGAGACATTTTGATGGGAATGAGTGTGATAGGCGGGAAGCAGGAAGATGGAAGCGGGAAGTCTACCAAAGGGATTTTATTAGGAGGCTACACCCAGGCAGAAGGAAGGATCGAAAAAGATGATGAAACTTTCTGGATGCTGTATCTGGATCAGAATGGCAATGAGCAGTGGAGAAAACACGTAAAAGGAGAATCCAGACAAAAAGAAGAGAGACTTTCAGATTTGAAGCTGAACAGAGACGGCTCCATTATTCTGGCCGGAACCATTGCAGAAGAATTAGGCAAAGAAAACTGGAAGATTGTAAAACTGGGCGACAGGCAGGTGAATGATCTGATTGAGAAGTATGACATCAGGATCTATCCGAACCCAGTGTCAGATTATGCGTATGTGGAAATTGGTTTTGATTTCAAAGATGCTGATATTCTGTTGTATGATATGAGTGGAAGACAGCTTCAAAATCTGAAAACCAAGAACAAAGTGACTAAGATTAATACCCAGGCTTTGGTTCAGGGTGCTTATCTGGTGACTATTAAAACCGATGCCAATAAAACGGCAAGTGCTAAACTTATAAAAAAATAA	MRSFNKLITNSENNTGMKKIYLGAFTLCTALGLSAQEVVWQKDIKSSTQDFLSQVTTTIDQQYLITGSSIQSGSGKPEAGSKQNNGYDFHLVKLNQQGEEVWEKYFSGRNHDYLSATVTTQDGGFLLAGTSYSGKGLDKKEDSKGGSDIWLIRINEFGDELWQKTLGSSSDEEARAVIQTTDLGFFVAGNVQNAAKGYGSKDVLITKLDKDGKELSQLVLGGKGLDEVEKMIPTRDGGALLGMYSRSSEVRGSGSENNSGMRGTGSIANAQNPNPVTRTPKQTENFGEGDYWIVKLDKTGKVEWEKNFGGKGDDHIRTLALTSDGFIIGGESRSERSGNKTVGTEEGTDLWLISLNERGDEQWQKSYNFGNRDILMGMSVIGGKQEDGSGKSTKGILLGGYTQAEGRIEKDDETFWMLYLDQNGNEQWRKHVKGESRQKEERLSDLKLNRDGSIILAGTIAEELGKENWKIVKLGDRQVNDLIEKYDIRIYPNPVSDYAYVEIGFDFKDADILLYDMSGRQLQNLKTKNKVTKINTQALVQGAYLVTIKTDANKTASAKLIKK				NA	NA	NA	NA	NA
BMS003_00205	1908	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGAGAAATTACTTAATAGAAGATTTACCACAATATTTTGAAGACTATAAGAAGTCTATCAAAAATCCTAAAAAATTCTGGGATAAGGTAGCAGATCAAAACTTCGTGTGGTATCAAAGATGGAGCAAGGTTGTTAAGTACGACATGCATGAAGCGAAGATCACCTGGTTCAAAAATGCAAAACTCAATATTACCAAAAACTGTATCGACAGGCATCTTACCATAAGAGGAGAAAAAACAGCAATCATCTGGGAACCCAACGATCCTAAAGAAGAAGCACAGCATATCTCCTACCATGAACTGTATACGCGTGTCAATAAAACAGCCAATGTTTTGCGCGATATGGGCATTGAAAAAGGAGACAGAATCTGCATTTATCTTCCCATGATTCCTGAACTGGCCATTACCATGCTTGCCTGTGCAAAACTGGGAGCCGTACATTCTGTTATTTTTGCAGGATTTTCTGCTTCAGCAGTGGCTTCCAGGGTAAATGACTGTGAGGCAAAAATGATCATCACATCAGACGGCAGCTACAGAGGAAATAAAGTTCTGGATCTGAAAACTATTGTAGATGATGCTTTGGAAAAAACTCCGACTGTTGAGAACGTTCTTGTCGTAAAAAGAACACACAATAAAATCACCATGAAAGAAGGAAGGGATCATTGGATGGCAGACCTTTACGAGAATGCTTCCCCTGATTTCGTCAGTGTCATTATGGATTCCGAAGATCCTCTTTTCATTTTATATACTTCCGGATCTACAGGAAAACCAAAAGGAATGCTGCATACCTGCGCAGGTTATATGGTTTATACTGCTTATACCTTCAAAAATGTCTTTAATTATAAAGAAAATGATATTTACTGGTGTACCGCAGATATCGGATGGATCACCGGGCATTCTTACATTCTTTACGGACCTCTATTAAATGGAGCAACGACAGTAATTTTTGAAGGTGTACCTACCTATCCGGAACCGGACCGTTTCTGGGAAGTGATTGAGAAACATAAAATCACTCAGTTTTATACCGCTCCTACAGCCATCCGCTCTCTTGCGAAAGAAAGTACAGAATGGGTAGATAAGCATGATCTGAGCTCATTAAAAGTCATTGGCTCTGTAGGTGAACCTATCAACGATGAAGCATGGCACTGGTTCAACGATCATGTCGGAAAGAAAAAATGCCCTATTGTAGATACATGGTGGCAAACGGAAACAGGAGGAATTATGATCTCCCCACTTCCATTTGTGACCCCTACCAAACCTACTTACGCTACCCTTCCTTTACCAGGCATACAACCTGTTTTAATGGATGATAAGCGAAATGAAATTACAGGAAACCAGGTTACGGGAAATCTTTGCATCCGTTTTCCATGGCCTGGAATTGCAAGAACTATCTGGGGAGATCACCAAAGATATAAAGAAACCTACTTCACCGCTTTCCCCGGGAAATACTTTACAGGAGACGGAGCTTTAAGAGATGAAGTGGGCTATTACCGAATTACGGGGCGTGTAGATGATGTGATCATTGTTTCAGGACACAATCTGGGCACCGCTCCTATTGAAGACAGTATCAACCAGCACCCTGCCGTTGCAGAATCTGCTATTGTAGGTTACCCTCATGATATTAAAGGAAATGCACTTTACGGTTACGTAATGCTTAAAGAAACAGGAGAAGGGCGTGATAAGGAAAATCTGAAAAAGGAAATCAACCAGCTGATCTCAGATCAGATCGGACCGATTGCAAAACTGGATAAAATACAGTTTGTTTCAGGGCTTCCAAAAACACGTTCAGGAAAAATTATGCGTAGAATACTGAGAAAAATTGCAGAAGGTGACTTCAGTAATTTCGGAGATATCAGTACCCTTCTAAATCCTGAAATTGTAGAGGAGATCAAAAACGAAAGAATCTAA	MRNYLIEDLPQYFEDYKKSIKNPKKFWDKVADQNFVWYQRWSKVVKYDMHEAKITWFKNAKLNITKNCIDRHLTIRGEKTAIIWEPNDPKEEAQHISYHELYTRVNKTANVLRDMGIEKGDRICIYLPMIPELAITMLACAKLGAVHSVIFAGFSASAVASRVNDCEAKMIITSDGSYRGNKVLDLKTIVDDALEKTPTVENVLVVKRTHNKITMKEGRDHWMADLYENASPDFVSVIMDSEDPLFILYTSGSTGKPKGMLHTCAGYMVYTAYTFKNVFNYKENDIYWCTADIGWITGHSYILYGPLLNGATTVIFEGVPTYPEPDRFWEVIEKHKITQFYTAPTAIRSLAKESTEWVDKHDLSSLKVIGSVGEPINDEAWHWFNDHVGKKKCPIVDTWWQTETGGIMISPLPFVTPTKPTYATLPLPGIQPVLMDDKRNEITGNQVTGNLCIRFPWPGIARTIWGDHQRYKETYFTAFPGKYFTGDGALRDEVGYYRITGRVDDVIIVSGHNLGTAPIEDSINQHPAVAESAIVGYPHDIKGNALYGYVMLKETGEGRDKENLKKEINQLISDQIGPIAKLDKIQFVSGLPKTRSGKIMRRILRKIAEGDFSNFGDISTLLNPEIVEEIKNERI	PGPT0002265_4867	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS003_00206	1887	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGAAAACAGATACATTATTTAAACAAAGCATAGAAAACAAAGAAGAATTCTGGAAAGAACAGGCCCAGCAAATAAGATGGTTTGAGTTTCCGGAACACATCCTTTCTAAAGACGAAAATGATTACCCGCAATGGTTTTCAGACGGGAAGCTCAATATGTGTTATTTGTGTATTGACAAACACATTGAAGATGGTTTCGGGGATCAGGTGGCAATTGTTTATGATTCACCTGTAACCCATCAGAAGAAAACTTATACTTTCCGTCAGGCAAAAGAGGAAATTTCAAAACTGGCGGGAGGATTGGTTTCTCTGAGATTAAAGAAAGGAGATACTGCCGTCATTTATATGCCGATGATTCCGCAGACGCTTTTTGCCATGCTTGCCTGTGCGAGGATTGGAGTTATTCACAATGTGGTTTTTGGAGGTTTTGCCCCTCATGAACTGGTTGTGAGAATTGATGACTGTAAACCTAAAGTTTTAATCACCGCTACAGCAGGTGTGGAAATTGCCAAAAGAATTCCTTACCTGCCATTGGTAGAAAAAGCGATTGAACTGGCGCAGGATAAAGTGGACAATATCATTGTATACAACAGAAAACTGGTAGATAATAAGAATGAAATGTTTGAAGGTCTCATTGACTATGAAGAACTGGTAGAAAAATCTTCTCCTGCAGACTGCATTTCTGTAGAATCCACCCATCCGCTCTATTTACTTTATACCTCAGGAACTACAGGAAAACCCAAAGGTATCGTCCGTGATACAGGAGGTTACGCTACGGCATTGCAATTCTCAATGACTTATGTTTATGATGTAGAGCCGGGAGAAACCTATTGGGCAGCTTCAGACTTTGGCTGGGCCGTTGGCCATAGCTTTTCTGTGTATGGACCATTGATGAACAGAAATACTACCATAATTTTTGAAGGAAAACCGATCATGACTCCCGATGCAGGCACTTTCTGGAGGATTATTTCAGAATATAAAGTTTCGGTGATGTTTACAGCACCTACCGCCATCAGGGCTATAAAAAAAGAAGATCCGAACGGAGAACTGGTAAAAAAATATGATCTGTCACATTTTAAAAAGCAGTTTCTGGCTGGTGAAAGATGTGATGTAGCTACCCTGGACTGGTTTGCAGAGCACATAGGAGTTCCCGCAATAGACCATTGGTGGCAGACAGAATCGGGCTGGCCTATGCTGGGGCTGCTTACTCATGATGAAAACTATCAGATTAAAAGAGCATCCGCAGGAAAACCTGTTCCCGGATATGACATTAAAATATTTGATGAAAACGGATATGAACTAGATCCTCATCATGAAGGCTATCTCGTGATCAAACTTCCTCTCCCACCGGGGGCCATGCTTGGAATCTGGAAAGACTATCCACGTTTTGAAAGCAGCTATCTGTCTCCGTACAAAGGGTATTATTTTTCCGGAGATGGTGCAATTCAGGATGAGGACGGCTATATTTTTATAACAGGAAGAGTGGATGATGTAATCAACGTGGCAGGGCACAGACTTTCCACTTCGGAAATGGAGGAAATTGTTTCTTCACATCCGGATGTTGCAGAATGTGCAGTGGTAGGTATTGATGATGATTTAAAAGGCCAGATTCCTTTTGCTACAGTTGTTTTAAAGAACGGCTCAGTTATTTCTGAAGAAAACATTGAAAAAGATATCATACAAATGGTTCGCAACAAAATCGGAGCGGTAGCCTTTCTGAAAAATGTAATGGTTGTCAAACGCTTACCTAAAACAAGATCCGGCAAAATTTTAAGAAAGCTGATCAGAACGCTGCTTGACGGAAAAGATTTCCAGATTCCGTCCACTATTGATGATGAGAAAATTATTGACGAAATCCAGGAAAAAATCAAGGAATATAGAGGCTGA	MKTDTLFKQSIENKEEFWKEQAQQIRWFEFPEHILSKDENDYPQWFSDGKLNMCYLCIDKHIEDGFGDQVAIVYDSPVTHQKKTYTFRQAKEEISKLAGGLVSLRLKKGDTAVIYMPMIPQTLFAMLACARIGVIHNVVFGGFAPHELVVRIDDCKPKVLITATAGVEIAKRIPYLPLVEKAIELAQDKVDNIIVYNRKLVDNKNEMFEGLIDYEELVEKSSPADCISVESTHPLYLLYTSGTTGKPKGIVRDTGGYATALQFSMTYVYDVEPGETYWAASDFGWAVGHSFSVYGPLMNRNTTIIFEGKPIMTPDAGTFWRIISEYKVSVMFTAPTAIRAIKKEDPNGELVKKYDLSHFKKQFLAGERCDVATLDWFAEHIGVPAIDHWWQTESGWPMLGLLTHDENYQIKRASAGKPVPGYDIKIFDENGYELDPHHEGYLVIKLPLPPGAMLGIWKDYPRFESSYLSPYKGYYFSGDGAIQDEDGYIFITGRVDDVINVAGHRLSTSEMEEIVSSHPDVAECAVVGIDDDLKGQIPFATVVLKNGSVISEENIEKDIIQMVRNKIGAVAFLKNVMVVKRLPKTRSGKILRKLIRTLLDGKDFQIPSTIDDEKIIDEIQEKIKEYRG	PGPT0002270_1357	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002270-prpE-K01908	NA	NA
BMS003_00207	360	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGAGAAAGATAATCATTGCAGATGACGAACACAAAATATTAATGTCGTTAGAATACAGCTTTAAGAAAAACGGCTATGACGTTTATATTGCCCGTGACGGAACGGAAGTCCTCGAGTTCCTGAAAACAATGATTCCTGACGTAATCCTTCTCGATATTATGATGCCCAACCTTGATGGCTACAGCACGCTCGACCTCATTAAGCAGGACGAAAAACTGAAAGACACCAAAGTCATCTTTCTGAGTGCCAAAAACAATCCCAGAGATATTGAAAAAGGATTGGAAATGGGGGCAGATGCTTACGTTACGAAACCCTACTCGATTAAGAAGCTGATGCAGCAGATTGAGGAGATGTTTTAA	MRKIIIADDEHKILMSLEYSFKKNGYDVYIARDGTEVLEFLKTMIPDVILLDIMMPNLDGYSTLDLIKQDEKLKDTKVIFLSAKNNPRDIEKGLEMGADAYVTKPYSIKKLMQQIEEMF	PGPT0013765_1031	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
BMS003_00208	2703	sasA_1		Adaptive-response sensory-kinase SasA	ATGAGTAGTTTAGCATTATTTTTTGTAGTTCTGTTTTACCTTGCCCTTCTTTTCTTAGTTGCTTACCTGGCGGAGAAGAAAAGGAGTAAAATATGGATCAACAATCCTTACATCTACGCTTTGTCTCTTGCGGTATATTGTACTGCATGGACGTATTATGGTAGCATTGGTGTGGCAGCTACAAGCGGATTAAACTATCTTCCAATTTACATTGGTCCTATTATGATCATTCCGGCATGGATCTACATTAATACCCGGATTGTAAGAATTTCAAGAGTCAATAAAATAAGCAGTCTTGCCGATTTCATTTCACTGAGATACGGTAACAGCCGGAGTCTGAGCGCCATTATCACCGTAGTCTGTCTTCTGGCAATAGTGCCTTACATCGGGCTGCAGATCAAAGCCATTTCTGAAACCTTCCATCTGGTGACGGAAACACCCATGTCGAAAAATATCCTGACCGATAATGCTACTTTTGTAGTCGTCTTAATTGCTTTATTTTCCTCTTATTACGGAACACGATATGTGGATGCTTCGGAGAAAAGACTGGGAATTATCTCAGCCATTGCGCTGGAAAGTTTCTTAAAACTATTCTTCATTATTATTCTCGGACTTTTCGTGATTTATTATGCTTTTGACGGATTTTCAGATATCTACGAGAAAGCTAGCAAATTCGAAGATTTTAAAGAAAAAAATACATTCAACGGAATCGAAGGGGCTATGAACTGGATGGTTCTTTGTATGATTTCGGCAACAGCCATCTGCATTCTTCCGAGACAGTTTCACACCGCAATTGTTGAAAACAGACAGGAAAAGCACATTAGAACAGCCATCTGGTTTTTCCCGCTTTATCTTTTGATCTTCACTATATTTATTTTCCCGATTGCCTGGGGAGGAAGGCTTATCTTTGATGGGCAGAACGTAAACCCTGAGTTCTACTCTATCCTGATTCCGCAGCATTTTGGCAATAACTTAATTACTGTACTTGTCTTTCTTGGCGGATTGAGCTCATGTATTTCTATGATTATTATCTCTGCCATTACTTTATCTATCATGCTTTCTAACAACCTCATCATCCCCTATGGATTGTTGGGAAAATTGAAATCTGAAAGTGAAGAAAAAAATACAAGAAGTATTACCAACATCAGAAAGTTCAGCATTTTTGCTCTGATCATCATGGCTTTTGTTTTTTACAAATATTTCATTCTGAAAACCTCACTGGATTCTGTAGGATTGATTTCATTTGTAGTGATTGCACAGCTTGCCCCTGCATTTTTTGGAGCTTTATTCTGGAGAAGAGGAAGTTATAAAGGAGCTGTTACAGGACTTTTAGCCGGATTAGTAATTTGCTATTTCGGACTGATCATTCCGCAGTATTATTTTTCTTACAATCAGGAATTCAAGGGTGTACTAAGAGATATGTATAACGCCTTCGGATTTTTCACTATTCCTTATTTAGAAAGAATTCCACAGATCTTTTTCTGGTCTATGCTGGTTAATATAAGCTTATTTACCATTGTTTCCGTAAGCGCAAAAGGCAATTACCGCGAAAGAAACTTTGCCGAACTGTATGTAGACATAGACAAATATATTCAGAATCATGAGAATGCTTTTATCTGGCGTGGAACGGCTTATATTTCAGACATACAGAATATTCTGGAGCGTTTTTTGGGCAAACATAAAACAGAACAGGCACTAAGAATTTTCAATTTAAAATATAATATTGATTCTAAGACTGAAACTGCGGATTCAAGGTTTATCAAATTCTCGGAAAACCTTCTGGCAGGAAGAATTGGAACCGCCTCAGCAAAAATTTTGATCGAAGGAGTTACCAAAGAAGATAAAATATCCTTAAAAGAGGTTTTGAATATCCTGGAAGAATCACAGGAAAATATCAGCTTAAATAAAAAACTTACCGAACAGTCTGAGGAACTGCAGAAACTTTCGGATGACCTGAGAACCGCTAATGAAAGCCTGATTGTCAAAGACCGCCAAAAAGACGACTTCCTTGATTCGGTTGCCCACGAATTGAGAACTCCGATTACAGCCATCCGCTCTGCCGGAGAAATTTTAGCCGATGATGATGACATTCCTTTTGACATCAAACAGGAATTTTTGAACAATATCATCACAGAATCTGACAGATTGAGCGAAATCATCAATGACATCCTTTACCTGGACAAATTACAGCATGGTGAAATTTCTTTATATATTCAGGAAAACAATATTGTGGAAACTTATAAAAAGGCATTAAGTCCGCTACTTCATCTGATACAGCAGAAAAATATTCATTTAAGTGAAGTTAATCTCCTGAATCATTTTATATTTGAGTATGATGAAGCGAGGATGATCCAGCTGTTTCAGAATATCTGGGGAAATGCATTGAAATTCGCAGAGGAACAGGGGACTATTCATACTAAATTATTTGAAAAAGACAGACAGCTGATCATCACCATTTTCAACACAGGGAAACATATTCCGGAAGAGGATCTGGAAATGATCTTTGACAAGTTTTATCAGTCGAAAAACCAAAATATTTTAAAGCCTACAGGAAGCGGACTGGGACTCGCCATTTCCAAAAAAATAGTACAGGCACACGGAGGAAATATAAAAGCCGAAAACAGCGGATTGGGCGTAACTTTCACCATAAGCATTCCCGAAAAAACTAAAAAAGAGATTATAAATGAAGTTGAACACCATTAA	MSSLALFFVVLFYLALLFLVAYLAEKKRSKIWINNPYIYALSLAVYCTAWTYYGSIGVAATSGLNYLPIYIGPIMIIPAWIYINTRIVRISRVNKISSLADFISLRYGNSRSLSAIITVVCLLAIVPYIGLQIKAISETFHLVTETPMSKNILTDNATFVVVLIALFSSYYGTRYVDASEKRLGIISAIALESFLKLFFIIILGLFVIYYAFDGFSDIYEKASKFEDFKEKNTFNGIEGAMNWMVLCMISATAICILPRQFHTAIVENRQEKHIRTAIWFFPLYLLIFTIFIFPIAWGGRLIFDGQNVNPEFYSILIPQHFGNNLITVLVFLGGLSSCISMIIISAITLSIMLSNNLIIPYGLLGKLKSESEEKNTRSITNIRKFSIFALIIMAFVFYKYFILKTSLDSVGLISFVVIAQLAPAFFGALFWRRGSYKGAVTGLLAGLVICYFGLIIPQYYFSYNQEFKGVLRDMYNAFGFFTIPYLERIPQIFFWSMLVNISLFTIVSVSAKGNYRERNFAELYVDIDKYIQNHENAFIWRGTAYISDIQNILERFLGKHKTEQALRIFNLKYNIDSKTETADSRFIKFSENLLAGRIGTASAKILIEGVTKEDKISLKEVLNILEESQENISLNKKLTEQSEELQKLSDDLRTANESLIVKDRQKDDFLDSVAHELRTPITAIRSAGEILADDDDIPFDIKQEFLNNIITESDRLSEIINDILYLDKLQHGEISLYIQENNIVETYKKALSPLLHLIQQKNIHLSEVNLLNHFIFEYDEARMIQLFQNIWGNALKFAEEQGTIHTKLFEKDRQLIITIFNTGKHIPEEDLEMIFDKFYQSKNQNILKPTGSGLGLAISKKIVQAHGGNIKAENSGLGVTFTISIPEKTKKEIINEVEHH				NA	NA	NA	NA	NA
BMS003_00209	195			hypothetical protein	ATGAAAAAAAGACACGAACAAAAACTCATCATACTGAGCGTAGGGCTTATGATTGCTTTCAGCATTCCTATTTCACTGCTTTTTAACAATGACAGGGAAGTTTTAGGCTACCCTATGATCCTTATTTACCTGTTCGTCGTCTGGATGATCTCCATTGTGATTTCTTTTGTAATTGTAAAAAGATATAATGAGTAG	MKKRHEQKLIILSVGLMIAFSIPISLLFNNDREVLGYPMILIYLFVVWMISIVISFVIVKRYNE				NA	NA	NA	NA	NA
BMS003_00210	228			hypothetical protein	ATGAACGGACTAAAAAAAATATTAGGCATACTCTGGATCGCCATCGCGGTGATTGTAGGATATTTCGGAATTACGGTATTGGGAATCCCCAAAATCGCTTCCGGAAAACAGGAAGATCTGGTTTTCGGTATCATCATTCTCTTTGTACTGATGCCGATTATCTCAGGCGGAATGGCCATTTTTGGCTACTATGCCTTAAAAGGAGAATATTCTGACGACAAAATTTAA	MNGLKKILGILWIAIAVIVGYFGITVLGIPKIASGKQEDLVFGIIILFVLMPIISGGMAIFGYYALKGEYSDDKI				NA	NA	NA	NA	NA
BMS003_00211	1581	nanT_2		Sialic acid transporter NanT	ATGAGCGAAAATCATCACGAAAGCTACGAAAATATGACCGACAGGCAAAAAAACCGCACCATCTGGAGCGTGATCACCGCCTCATCCCTCGGAACATTAATAGAATGGTACGACTTCTACATTTTTGGAAGTTTGGCCGTTGTCTTAGCTACTAAATTTTTCCCTGCTGATAATCCTACTGCTGCATTTTTATCTACTCTGGCTACCTTTGCTGCCGGATTTGTGGTAAGACCTTTCGGAGCATTATTTTTCGGGAGACTGGGAGATCTTATCGGGAGAAAATACACTTTCCTTGTTACTTTACTGATCATGGGGTTTTCCACTTTCCTGATCGGATGCATTCCAAGTTATGAAACCATTGGTTTTATGGCTCCGGTGTTGGTGTTAATCCTGAGATTGCTTCAGGGACTCGCCCTGGGAGGTGAATACGGAGGTGCTGCCACTTATGTAGCTGAATATGCCCAACCTCATCGCCGTGGATACTGGACTTCATGGATTCAGACTACCGCAACAGCCGGACTTTTTATTTCATTGATCGTTATTCTGATCACCAAAACAACGCTTTCTGCAGAAGAATTTGATACCTGGGGATGGAGAGTTCCGTTCTGGATCTCTATTCTCATGGTGGCTGTATCATACATCATCAGAAAGAATATGAAAGAATCTCCTCTCTTTGCGAAAGCCAAAAGTGAGGGAAAGACATCTAAAAATCCTTTAAAAGAAAGTTTCGGAAATAAATACAATTTCAAGTTTGTATTATTGGCATTATTCGGGGCTGCAATGGGACAAGGGGTGATCTGGTACACAGGACAGTTCTATGCCATGAGCTTCCTGCAAAAGGTGATGAACGTGGAATCTGCACAGGTGGATTCATTGATGGCTACCGCTTTGTTTTTAGGAACTCCTTTCTTTGTATTCTTCGGATGGCTGTCTGATAAAGTCGGAAGAAAAGCAGTGATGATGACCGGAATGCTGATTGCCATTTTAGCTTACCGACCTATTTACGACAGCATGTTCAAGAGCGTAAACCTCGAAAATAAAACGGTTGCAGCAAATGGAATTACAGAAAAAAGAACAGCAAAAATTCACAATACTATTGCTACAGACAGTCTGGTGACTTTTCATAAAGAAACTCTTTACACAGATGGAACTTTAATCAAAAAAGACAGTGTTGTTCATTGGTCGCCTGCAGGAGTTGTTATGAAAGACGGAAAAGCTGAAGAAGCCAAAGTTTCTCAAAGTCTGAAATTAAGTGATAACACGAAATGGTATCTTGTATTCCTGGTATTCATTCAGGTAATATTTGTAACGATGGTATACGGGCCTATTGCCGCTTTCCTGGTTGAAATGTTCCCTGTGAGAATCCGTTACACTTCAATGTCATTGCCTTATCACATCGGAAACGGAGTATTCGGAGGGCTACTTCCGGCAGTAGCAACTTATCTGGTAACCACAGGAAAAGAAGCAGGACATGCGACATGGTACCTGGAAGGACTTTGGTATCCGATTGGAGTTGCGGGTGTATGTCTGGCGATTGGATTATTTTATCTTAAAAACAAGAACAATAATCTTCACGATTAG	MSENHHESYENMTDRQKNRTIWSVITASSLGTLIEWYDFYIFGSLAVVLATKFFPADNPTAAFLSTLATFAAGFVVRPFGALFFGRLGDLIGRKYTFLVTLLIMGFSTFLIGCIPSYETIGFMAPVLVLILRLLQGLALGGEYGGAATYVAEYAQPHRRGYWTSWIQTTATAGLFISLIVILITKTTLSAEEFDTWGWRVPFWISILMVAVSYIIRKNMKESPLFAKAKSEGKTSKNPLKESFGNKYNFKFVLLALFGAAMGQGVIWYTGQFYAMSFLQKVMNVESAQVDSLMATALFLGTPFFVFFGWLSDKVGRKAVMMTGMLIAILAYRPIYDSMFKSVNLENKTVAANGITEKRTAKIHNTIATDSLVTFHKETLYTDGTLIKKDSVVHWSPAGVVMKDGKAEEAKVSQSLKLSDNTKWYLVFLVFIQVIFVTMVYGPIAAFLVEMFPVRIRYTSMSLPYHIGNGVFGGLLPAVATYLVTTGKEAGHATWYLEGLWYPIGVAGVCLAIGLFYLKNKNNNLHD				NA	NA	NA	NA	NA
BMS003_00212	1380			hypothetical protein	ATGAAGAAATTACTTACATTCATTGGATTAGCTTTAATCAGCAGTTCCTTATACTCACAGGGTTCTCCTGATTATGGCAATGGCTTAAAAATAAACCTCAACCAAAACGGTGATAAATTTGTCAGATTCATTTTATGGGACCAGTTTTGGTTAAGAAACACTTCCATGAATCCCGGAACAATGGTTGGAGGTGAACCTACCGACAATTCCTGGAGTCTGGGGAACAGAAGATTACGTGCTTTAGCCTATGCACAGATTTCTAAAAGATATATGATTCTGCTCCATTTCGGAATCAATAATCAGACTTTCATTAATGGCGGCGCACCAGGAACCTCAGGCACAGGAGGTTATGGAAACGGAAAGAAAGCCCAGTTATTTTTTCATGATGCCTGGAATGAATACGCAGTTATTTTACCTGGCGAAGCAGGAAAATTCAGCTTATCTTTAGGAGCAGGGCTTCATTACTACATGGGACTTTCCCGTATGACGATGGCTTCTACACTTAATTTTCTCACAGTAGATTCCCCTGTTTTCTCGTGGCCACTGATTGACAACTCGGATCAGTTTGCAAGACAGCTGGGAATGTTCGCCAAAGGAAAATATGGTAAACTGGAATACCGCTTCAGCTTAAATAAACCATTTTCCACAGATCTCACTCCTACAAATGTAACGGATCCTTCGAAAGCTGTAGCGGTAGACAATAATGGAAATCCAAGCTTTTCAAAAGCAGGATATGTGGAATACCAGTTTCTAGACGAAGAATCCAACACCCTTCCTTTCAAAGTAGGCTCTTACCTTGGAACGAAAAAGGTCTTCAATATAGGTGCCGGTTTTTATCATCAGGCTGACGGAACAAGAACTTCTGTGAATTCGAACATTGAAAAGCATGATATTACCCTTTTTGCAGTAGATGCTTTTGCAGATATTCCTTTGGGAGAAGCGAAAAACAAGATGGCCGTTTCAGCATATGCCGGATATTATAATTACAATTTCGGACCCAACTATGTAAGAAATCTGGGAACGATGAATATTGGGGCTTCTGATCCCAATTTCATCGGCAATAAAGCCATTGCAGGACCAGGAAATCTACAACCCACCATTGGAACAGGTAATATTATCTACGCACAGGCTGGTTTACTATTACCGAGTCAGGCAGAAAAACCAAAAATCAGAATACAACCTTTTGCTGCTTATACTCATAAAAGTTTTGAGGCTTTCGATAAATCTTCATCACAGTTTGATGTAGGAGCCAACTGGTTCATAGACGGGCATCATGCTAAAATCACAACGCAATATTCAACAAGACCGGTTTACACGAATCCTACGGAAAGCCCTTCTTCAAAAGGGGAATTTATTGTACAGTTTCAAATCTATTTATAA	MKKLLTFIGLALISSSLYSQGSPDYGNGLKINLNQNGDKFVRFILWDQFWLRNTSMNPGTMVGGEPTDNSWSLGNRRLRALAYAQISKRYMILLHFGINNQTFINGGAPGTSGTGGYGNGKKAQLFFHDAWNEYAVILPGEAGKFSLSLGAGLHYYMGLSRMTMASTLNFLTVDSPVFSWPLIDNSDQFARQLGMFAKGKYGKLEYRFSLNKPFSTDLTPTNVTDPSKAVAVDNNGNPSFSKAGYVEYQFLDEESNTLPFKVGSYLGTKKVFNIGAGFYHQADGTRTSVNSNIEKHDITLFAVDAFADIPLGEAKNKMAVSAYAGYYNYNFGPNYVRNLGTMNIGASDPNFIGNKAIAGPGNLQPTIGTGNIIYAQAGLLLPSQAEKPKIRIQPFAAYTHKSFEAFDKSSSQFDVGANWFIDGHHAKITTQYSTRPVYTNPTESPSSKGEFIVQFQIYL				NA	NA	NA	NA	NA
BMS003_00213	417			hypothetical protein	ATGGAAAATACATGTCCTAAATGCAAGAGTATCAAAGTAGTAAAAAGCGGTATCATCAATGAGAAACAGCGCTTTCATTGCAAAGACTGCAATTATTATTTTACGGTAAAAAAGCTGGGAAAACAAATTGATGATTACTATGTCACAAAAGCACTTCAGCTTTATCTTGAAGGTTTGAGCTATCGTGAAATTGAGAGAATTATCGGGGTTTCCCATGTTACGATAAGCTCATGGATCAAAAAATACAATATCACAAGACCTCCCCATTCTGAATTCCATCCTGTCTATAAGATTCTAAAACAGAGCGAACTCATCGAATACATTGCACAGGAAGAAAATATTAAAAACTCCGGAATTATCATCACTCAATTTGCGGATAAGTATATGCTGATTAAGTGGGAAAGGTTTAAGAAGTAG	MENTCPKCKSIKVVKSGIINEKQRFHCKDCNYYFTVKKLGKQIDDYYVTKALQLYLEGLSYREIERIIGVSHVTISSWIKKYNITRPPHSEFHPVYKILKQSELIEYIAQEENIKNSGIIITQFADKYMLIKWERFKK				NA	NA	NA	NA	NA
BMS003_00214	690			hypothetical protein	ATGGAAATAGAAATTTCCTCATGCGAACATCTAAAGTATGTGAGTGAAATACAGCAGGAAATGTACGATTCTGCACAGCGTAGAGGAACGGGTATCGCAAAACGTTCTATAGAATATTTGAGTAAGAAGATTTCAGAAGGCAATGCTGTGGTAGCCACTGAAAGCGGTGAGTGGGTAGGTTTCTGTTATATAGAGACCTGGTCACATGGAAAGTTTGTGGCCAATTCAGGGCTGATTGTATCACCGAAATTCAGGAACGGAGGAGTAGCGACTCAGATTAAGCAGAAAGTTTTCCAATTATCTAGAGACAAATATCCGGATGCGAAAGTATTTGGTTTGACAACAGGTTTGGCAGTGATGAAAATCAATAGTGATTTAGGCTATAAACCGGTAATCTATTCTGAACTGACTCAGGATGAGGAATTCTGGAATGGCTGCAAAAACTGTGTGAACTATGAGATTTTAATGATGAAGGAACGCAAAAACTGTCTGTGTACAGCCATGTTGTTTGTTCCTGAAAATGATAAAAAAAAAGATGAGGCAGTAGATAATCTGCCCGAAAATAAATATAATGGAACGAGTCAAGGCGATTTTGGGTATTCTGCCCAGGATTCTATTGAAGAGTTCCATATGACCATTAATAAAAATAAAAAGAGTCCAGATGAAAAAGAAAGTCATCTTAGCGTTTAG	MEIEISSCEHLKYVSEIQQEMYDSAQRRGTGIAKRSIEYLSKKISEGNAVVATESGEWVGFCYIETWSHGKFVANSGLIVSPKFRNGGVATQIKQKVFQLSRDKYPDAKVFGLTTGLAVMKINSDLGYKPVIYSELTQDEEFWNGCKNCVNYEILMMKERKNCLCTAMLFVPENDKKKDEAVDNLPENKYNGTSQGDFGYSAQDSIEEFHMTINKNKKSPDEKESHLSV	PGPT0020130_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS003_00215	1197	argG	COG0137	Argininosuccinate synthase	ATGAAAAAGAAAGTCATCTTAGCGTTTAGCGGAGGTTTAGATACTTCCTACTGTGCCAAATATCTTAGTGAAACACTAGGGTATGAGGTGTATGCAGTTACTGTAAATACCGGAGGTTTTTCAAAAGAAGAGGAAAAAGAATTGGAGAGAAAAGCTTTAAACCTTGGGGTAAAAGAATACAGGTGCGTAGATGCTCAGGAAGATTACTATAATTCATGTGTGAAATATTTGATTTTCGGAAATGTACTGAAAAATAATACCTATCCTCTTTCTGTAAGCGCTGAACGTACTATTCAGGCGCAGGAAATTGCAAAATATGCCATTGAAGTACAGGCAGATGCCATTGCTCACGGAAGTACGGGAGCTGGAAACGACCAGGTTCGTTTTGATCTGATTTTCCAGGTGATGTGTCCAAATATTGAGATCATTACTCCAATTCGTGATATGGCTTTGTCCCGTGAAGAAGAAATTGAGTTTTTGAAAGAACACGGTTATGAAATGGAATTTCAAAAAGCTCAATATTCCGTCAATAAAGGACTTTGGGGAACTTCAGTAGGAGGGAAAGAAACATTGACATCAAGAAACTATCTTCCGGAAGAAGCTTTTCCGTCTCAAATCAAAGAAACTCAGCCTTCAGAACTGGAGATCGAGTTTAAAAACGGAGAAGTGGTAGGAGTAAACGGAGAAAGTTTTGAACATTCAGTATATGCTATTCAAAAAATAGAAGAATTAGCTTCAGCATACGGAATCGGCCGTGATATTCATGTAGGAGATACCATTGTTGGGATTAAAGGAAGAGTAGGATTTGAAGCAGCTGCTGCATCAGTGATCATCAAAGCCCATCATTTATTGGAAAAGCATACCCTTTCAAAATATCAGCAAATGATGAAGTCACAGTTATCCGATTGGTATGGAAACTGGCTTCACGAAGCTCTTTTCTTAGATCCTGTCATGAGAAATATTGAATCTTTCTTAGCTGATTCTCAAAAAACAGTGAGCGGAAAAGTCTTTGTAACACTTCATCCATACAGATTTATTCTTAATGGAATTGAATCTGATCATGACCTGATGTCTGCTCAATTCGGAAGCTATGGAGAAGCGAACAGAGCTTGGACAGGAGATGATGTGAAAGGTTATACAAAGATTGTAAGCAATTCTTTAAATATATACCACCAGATTAACCAAAATATCAACTAG	MKKKVILAFSGGLDTSYCAKYLSETLGYEVYAVTVNTGGFSKEEEKELERKALNLGVKEYRCVDAQEDYYNSCVKYLIFGNVLKNNTYPLSVSAERTIQAQEIAKYAIEVQADAIAHGSTGAGNDQVRFDLIFQVMCPNIEIITPIRDMALSREEEIEFLKEHGYEMEFQKAQYSVNKGLWGTSVGGKETLTSRNYLPEEAFPSQIKETQPSELEIEFKNGEVVGVNGESFEHSVYAIQKIEELASAYGIGRDIHVGDTIVGIKGRVGFEAAAASVIIKAHHLLEKHTLSKYQQMMKSQLSDWYGNWLHEALFLDPVMRNIESFLADSQKTVSGKVFVTLHPYRFILNGIESDHDLMSAQFGSYGEANRAWTGDDVKGYTKIVSNSLNIYHQINQNIN	PGPT0020130_4478	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS003_00216	999	argC	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGAAAGGCAGCACAAATGCTGTCAGAATTAAAATGAAAAAAACAGTAGGAATTATTGGTGCCAACGGTTATACAGGAAGTGAGCTGATACGCTTACTGGCTTTTCATCCCCATGTGACATTGAGTTTTTTATATAGTCGTTCGAATTCGGGAACAAGAACTTCGGATCTGTACCCGGATTTAACGACAGTTTGTGAAATGGTTTTGACAGACAAATCTGAAGACGTGGATATTCTTTTTCTGTGTCTTCCCCATAAAGAAAGTCAAAACTGGTTAACTCAGAATCCTGTTAAAGATGAAACGCTGGTGATTGATCTTGGAAACGATTTCCGTTTAGAAGGAAACTTTGGAAACAGAAATTTTATCTACGGATTACCAGAAATCAATAAAAAACAACTGGCAGGCGCAAAAAGTATTGCCAACCCGGGATGTTTTGCAACAGCTATTCAATTGGCTTTGTTGCCATTAGCAGAAAAAGGAGTGTTAAATGAAGTTTTTACGACAGGGATTACAGGTTCTACGGGAGCCGGACAGTCTTTGCAGGCAACGACTCATTTTACCTGGAGAAATGATAATGTTTCAGCCTATAAAACATTAACTCATCAGCATGTCGATGAGATTTTGCAGCAGCTGATTTCATTCAATAATAAAGAAGTAAACCTGAATTTTGTTCCATGGAGAGGAGATTTTGCAAGAGGAATTTTTACAAGTTCCACCATGAAGACGGATTTGACGCTGGAGGAAATAGAACAATGGTATCAGGATTTCTATGCGGAGGAGCCTTTTGTTACGGTAAGTAGCAGGGCAGTTGATTTAAAGCAGGTTGTCAATACCAATCGCTGTGTGATTCAGATCGAAAAGAGTGGAAATGTTGTCGTTATTCACTCAGCGATTGACAATTTGTTAAAAGGTGCTTCGGGACAGGCCGTACAGAATATGAATCTGGCCATGAACTGGGAAGAAAATACTGGACTTAACCTGAAACCGATAGCATTCTAA	MKGSTNAVRIKMKKTVGIIGANGYTGSELIRLLAFHPHVTLSFLYSRSNSGTRTSDLYPDLTTVCEMVLTDKSEDVDILFLCLPHKESQNWLTQNPVKDETLVIDLGNDFRLEGNFGNRNFIYGLPEINKKQLAGAKSIANPGCFATAIQLALLPLAEKGVLNEVFTTGITGSTGAGQSLQATTHFTWRNDNVSAYKTLTHQHVDEILQQLISFNNKEVNLNFVPWRGDFARGIFTSSTMKTDLTLEEIEQWYQDFYAEEPFVTVSSRAVDLKQVVNTNRCVIQIEKSGNVVVIHSAIDNLLKGASGQAVQNMNLAMNWEENTGLNLKPIAF	PGPT0014251_3714	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
BMS003_00217	1140	argD_1	COG4992	Acetylornithine aminotransferase	ATGAATTTATTCAACGTATATCCATTATTCAACATAAATCCGGTAAAAGCTCAGGGATCTTTTCTTTGGGATGATAAAGGAGAACAATATCTTGATTTTTACGGAGGTCATGCTGTGATTTCTATTGGGCACAACCATCCGCATTATCAGAACAAACTGAAAGATCAGCTGGAAAAAATATCTTTCTATTCCAACTCTGTTCAGAATGAATTGCAGACTGAATTGGCAGAAAAATTAGGAAAGCTTTCAGGATACGAAGATTATAATCTTTTCTTATGCAATTCAGGAGCGGAAGCGAATGAAAATGCATTAAAACTGGCTTCTTTTCATAACGGAAAAAACAAAGTGCTTTATTTTTCAGGTTCATTCCACGGAAGAACCTCTGCAGCAGTTTCTGTGACTGATAATCCGAAAATTGTTGCACCGGTTAACTTTTCTGAAAGATTTATCAAATCAGAATGGAATGATGTGCAACAGCTTGAAGAGACTTTTGAGAAGTTTGGAAATGAAATTTCTTCAGTTATCATCGAAGGAATTCAGGGAGTAGGAGGAATTATGATTCCAACGTCTGAATTTTTATCTAAAATCAAAGAATTGTGTGAAAAATATGATGCTGTTCTTATTTTGGATGAAGTACAGTCCGGATATGGAAGAAGCGGATACTTCTTTGCCCATCAGGAATTTGGTGTAGAAGCGGATGTCATCACGACAGCAAAAGGAATGGGGAATGGCTTTCCTGTAGGCGGAGTTTTGATTCATCCAAAATTCCAGGCAAGCAACGGTTTGCTGGGAACCACATTTGGAGGAAATCATCTGGCTTGTGTGGCTTCAATTGCTGTTCTTGATGTTATGAAAGATGAAAATCTTCTTGAAAATGCTCAGTATATGGGCGAGTATATTGAAAATGAAATTAAAGATTTACCACATATTAAATCCATCCGAAGGAAAGGATTGATGATCGGAATAGAACTCGATAGAGACTGTTCAGAAATAAGGAAAAGTTTATTGTTCGATCATCATATTTTCACAGGAAACTCAAATGATAAAACAGTGTTGAGGATTCTTCCGGCACTGAATATCAAAAAAGAGGAAACGGATCTTTTCATCAGTGCTTTGAAAGCAGTGCTTGGGAAAATTTAA	MNLFNVYPLFNINPVKAQGSFLWDDKGEQYLDFYGGHAVISIGHNHPHYQNKLKDQLEKISFYSNSVQNELQTELAEKLGKLSGYEDYNLFLCNSGAEANENALKLASFHNGKNKVLYFSGSFHGRTSAAVSVTDNPKIVAPVNFSERFIKSEWNDVQQLEETFEKFGNEISSVIIEGIQGVGGIMIPTSEFLSKIKELCEKYDAVLILDEVQSGYGRSGYFFAHQEFGVEADVITTAKGMGNGFPVGGVLIHPKFQASNGLLGTTFGGNHLACVASIAVLDVMKDENLLENAQYMGEYIENEIKDLPHIKSIRRKGLMIGIELDRDCSEIRKSLLFDHHIFTGNSNDKTVLRILPALNIKKEETDLFISALKAVLGKI	PGPT0014253_4430	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS003_00218	957	argF'		N-succinylornithine carbamoyltransferase	ATGAAAAAATTTACCACTGTAAGCGATGTAGAAAACTTACAGGAAATCATAAAAAAAGCTTTACAGATAAAAGCAGATCCCCTTACTGAAACAGAAAAAGGAAAGGGAAAAACAATCGGACTTGTATTTTTAAATTCAAGTTTAAGAACCCGTCTGAGCAGTCAGATTGCAGCACAAAACCTCGGTCTGAATGTTTTGACATTAAATGCTGCACAAGAAGCCTGGAATCTGGAATTTGCTGATGGGGCTGTGATGAACGGTGATACTGTAGAGCATATCAAAGATGCGATTGAAGTGTTAAACCAATATTGCGACATCATTGCAGTACGTTGTTTTGCAGGAATGAAAAGTAAAGAAGATGATGTGAATGAAAGTATCTTAAGCCAGTTTGAAAAACATGCAAAAGTTCCTGTCATTTCATTAGAATCTGCCACCCGTCATCCGCTGCAAAGCTTAGCAGACTGTATCACGATTACAGAAAACTGGAAAAAAGAGCATAAACCTAAAGTGGTATTAACCTGGGCTCCTCACATCAAACCTATTGCACATGCTGTTGGAAATTCTTTCGCAGAATGGATGCAGGAAATGGATGTGGAATTGGTAATTGCTAATCCCGAAGGGTATGATTTAGATAAAAACTTCACAAAAGATGTGACCGTAATTCATGATCAGGATGAAGCGTTGAAAGATGCAGATTTTATCTATGTGAAAAACTGGTCTTCTTTTGATGATTATGCAGCTATGCCTGAAGTAAAGGGTGACTGGATGCTTACCAATGAAAAATTAGTCCATACCAATGATGCAAAAGTGATGCACTGTCTTCCGGTTCGCCGTAATGTGGAGCTAAGTGATGAGGTTATGGACGGAGATCATTCTATCATCTATCAGCAGGCAAAAAACCGAATTTTCTCTGCGCAGGCTGTGTTCAGTGAAATTTTAGATGAATTGAAAGCTTAA	MKKFTTVSDVENLQEIIKKALQIKADPLTETEKGKGKTIGLVFLNSSLRTRLSSQIAAQNLGLNVLTLNAAQEAWNLEFADGAVMNGDTVEHIKDAIEVLNQYCDIIAVRCFAGMKSKEDDVNESILSQFEKHAKVPVISLESATRHPLQSLADCITITENWKKEHKPKVVLTWAPHIKPIAHAVGNSFAEWMQEMDVELVIANPEGYDLDKNFTKDVTVIHDQDEALKDADFIYVKNWSSFDDYAAMPEVKGDWMLTNEKLVHTNDAKVMHCLPVRRNVELSDEVMDGDHSIIYQQAKNRIFSAQAVFSEILDELKA				NA	NA	NA	NA	NA
BMS003_00219	795	argB	COG0548	Acetylglutamate kinase	ATGAAAGAAAAGTTATACATCATAAAAATTGGCGGAGCTTTAATTGACGATGAGGAATTATTAACCCAATTCTTAGAACAGTTTTCTGAAATCCAGGAAAAGAAGATCCTTGTACACGGCGGCGGTAAATTGGCAACAACACTTGCTGATAAACTGGGAATCGAGCAGAAAATGATCAATGGAAGAAGGATTACGGATAAAGAAACTTTGGACATTGTAACGATGGTGTATGCGGGAGGAATCAATAAAAATATTGTTGAAAAGCTGCAGCAGAAAAAGTGTAACGCCATAGGCTTTTCCGGAGCAGACGGAAACTTAATCAAGGCTAAAAAAAGAGAACATCCTGAAATTGACTTCGGATTTGTAGGAGATATCAATAAGAAAAGTGTGAACAGAAAGCTGGTTTCAAAACTCATGAAACTTAATCTTGTTCCGGTGTTTTCAGCGATCACCCACGATAGAAAAGGGAATCTTTTCAACACCAATGCAGACACTATTGCATCTGTAATGGCTCAGTCTCTTTCGGAGAAATATGAAGTTGAACTCCTTTACTGTTTTGATAAAGAAGGAGTTTTGGAAGATGTAAACGATCCTGAATCAGTCATTAAAAGTGTAACTGAAGAAGATTTCACCACATTAAAAGAAGAAGGAAAGCTTCACAAAGGGATTTTACCCAAACTTGAAAATGCTCTCGGAGCTATAAAAAATAATGTAGATAAAGTGTTTCTGATCAAGGAAACAGAATTGAAAAATCATATAGAAAATCATCATGCAGGAACTGAAATCTGTTTATAA	MKEKLYIIKIGGALIDDEELLTQFLEQFSEIQEKKILVHGGGKLATTLADKLGIEQKMINGRRITDKETLDIVTMVYAGGINKNIVEKLQQKKCNAIGFSGADGNLIKAKKREHPEIDFGFVGDINKKSVNRKLVSKLMKLNLVPVFSAITHDRKGNLFNTNADTIASVMAQSLSEKYEVELLYCFDKEGVLEDVNDPESVIKSVTEEDFTTLKEEGKLHKGILPKLENALGAIKNNVDKVFLIKETELKNHIENHHAGTEICL	PGPT0014249_3115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
BMS003_00220	1083	argE	COG0624	Acetylornithine deacetylase	ATGCAGGAACTGAAATCTGTTTATAATAAAGAAGAGCTATTGAATAATGCGGTCGGATTACTTAAAAATTTGATTGAGATTCCTTCATTCAGCAAAGATGAATTTAATACATCGGTAGAAATTGAGAATTTTTTCAAAAAACACCAGATTCCTACCAAACGTTTTAAAAACAATATCTGGGCGGTGAATAAACATTTTGATGTATTTAAGCCTTCAGTTTTACTGAATACACATCATGATACGGTAAAGCCTAACAAAGCTTACACGCTGGATCCGTTTGTTCCTATTGAAAAAGATGGAAAACTGTTCGGATTGGGAAGTAATGACGCAGGAGCTTCTTTGGTTTCTATGGCACAGGTTTTTTTACATTTTTATAATAAAGAAGATTTAAAATATAATTTAGTTATTGCTTTGACGGCAGAGGAGGAGATCTCAGGATTTGATGGAATAGAAGCTCTGTTTCCGCAGCTACCCAACGTAGAACTCGCCATTGTAGGAGAACCCACGCAGATGAATCTGGCGATTGCTGAAAAAGGACTTCTCGTGATAGATGGAGAAATGAAAGGTACTCCTTCTCATGCCGCTCATCCTAATGATGATAACTCAATTGTAAAATGTATGCAGGATCTGCAGAATATTCTTGCTTTTAAATTTCCAAAGGTTTCAGAATATCTGGGAGAAGTTAAAGTTACTTTATCAGGAATTCATGCGGGGGTACAGCATAATGTTGTTCCGGAGTCTTGTAATTTCACGTTGGATGTAAGAGTGACAGACGAATATTCCAATCAGGAAGCGTTTGACATCATCCAGTCTCAGATGAAATCTACTTTAACGGCAAGGTCTTTCAGGCTTAATTCCTCAAAAATCGAAATGGATCACCCATTCGTAAAAGCAGGAATTGAAATTGGAAGGACAACTTACGGTTCACCTACTTCTTCGGATCAGGCCATTATTCCATGTACATCGGTAAAAATGGGACCTGGGGATAGTAGGCGCTCTCACACGGCAGATGAGTTTATCTATATCCAGGAAATAGAAGAAGGAATAGAAATCTACATCAGAATTTTAGAAAAAGTGTTATAA	MQELKSVYNKEELLNNAVGLLKNLIEIPSFSKDEFNTSVEIENFFKKHQIPTKRFKNNIWAVNKHFDVFKPSVLLNTHHDTVKPNKAYTLDPFVPIEKDGKLFGLGSNDAGASLVSMAQVFLHFYNKEDLKYNLVIALTAEEEISGFDGIEALFPQLPNVELAIVGEPTQMNLAIAEKGLLVIDGEMKGTPSHAAHPNDDNSIVKCMQDLQNILAFKFPKVSEYLGEVKVTLSGIHAGVQHNVVPESCNFTLDVRVTDEYSNQEAFDIIQSQMKSTLTARSFRLNSSKIEMDHPFVKAGIEIGRTTYGSPTSSDQAIIPCTSVKMGPGDSRRSHTADEFIYIQEIEEGIEIYIRILEKVL	PGPT0014254_3033	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS003_00221	108			hypothetical protein	ATGAAATGTTTTTTTATAGTTAATAGTAATAAGGATCGCCTTGCCGGGCATGTCAAAATCCATCAGTATTTAAATAAATTATATGAAAAAGATATGGCAGAAGGATGA	MKCFFIVNSNKDRLAGHVKIHQYLNKLYEKDMAEG				NA	NA	NA	NA	NA
BMS003_00222	1305	argH	COG0165	Argininosuccinate lyase	ATGAAAAAGATATGGCAGAAGGATGACCTTGCCACCAATATATTAGTCAATAACTTTACAGTCGGTAAAGACCTTGACTTTGACGAACGTTTAGCGAAATATGATGTGAAAGGTTCTATGGCACATTGCAAAATGCTGGCAGAAACCGGTATTATCACTCAGGAAGAATCAGAGCAGATGTTATTTGTTTTGAATACTATTTTAAATAAAATTGAAGACGGTAGTTTTGAAATTGATAAAGATGCTGAGGATATCCATTCTCAGATAGAAGCTATTCTTATAGAAGAATTAGGCGATACAGGAAAGAAAATCCACACTGCAAGATCTAGAAATGATCAGGTTTTACTGGATATAAAATTATACTTATTAGATGAGATCCGTGAGATTACAGCGCTTACAGATGAGTTTTTCCAGATTTTAATTCAACTGGCGGATCAGCACAAAAATATTCTGCTTCCGGGATATACCCATTTGCAGATTGCAATGCCTTCATCATTCGGATTGTGGTTCGGAGCTTATGCAGAAGCGCTTTTGGATGATGTGGAAATGCTGTTTTCGGTAAAGAATATCATCAATAAAAATCCATTAGGATCAGCAGCTGGTTATGGTTCATCTTTCCCTATCAATCGTGAAAGTACCACTTATAATCTGGGCTTCCAGTCGATGAACTATAATTCGGTGTATGCTCAGATGACCCGTGGAAAGTCGGAAAAAATGTTATCAATGGCAATGGCGACTTTAGCCGGAACGCTTGGGAAATTTGCTTATGATGTTTGTTTGTATTTGAGTCAAAATTTTGACTTTATAAGTTTTCCGAAGGAGTTTACTACAGGAAGCAGCATTATGCCTCATAAAAAGAACCCGGATATCTTTGAGCTGGTTCGTGCACGTTGCAACAGAATTCAGTCGCTTCCGAACGAACTGATTCTTTTGACAAACAATCTGCCTTCAGGATATCACCGGGATGTACAGCTGACGAAAGAAATTCTTTTCCCTGCGATCGATTCTTTAAAGGAATGTCTGGAAATCCTAAGCTATACTTTACCGAATATTCAGGTAAAAGACGGAATTCTGAAAGATGAAAAGTACAAATATCTTTTCAGCGTAGAAAAAATCAATGAAGAAGTAAAAAACGGAAGCTCATTCCGTGATGCTTATGTAAAAGTAGGGCAGGAAATTGAAAACAACGAGTTTGAATTCGAGCCAGGAAATCTTGTACATACTCACCAGGGAAGCATCGGGAATCTTTGTCTGGATAAAATAGAATATCAGTTCAATAAACTGAAGAAAAAATTATTGGGTTAG	MKKIWQKDDLATNILVNNFTVGKDLDFDERLAKYDVKGSMAHCKMLAETGIITQEESEQMLFVLNTILNKIEDGSFEIDKDAEDIHSQIEAILIEELGDTGKKIHTARSRNDQVLLDIKLYLLDEIREITALTDEFFQILIQLADQHKNILLPGYTHLQIAMPSSFGLWFGAYAEALLDDVEMLFSVKNIINKNPLGSAAGYGSSFPINRESTTYNLGFQSMNYNSVYAQMTRGKSEKMLSMAMATLAGTLGKFAYDVCLYLSQNFDFISFPKEFTTGSSIMPHKKNPDIFELVRARCNRIQSLPNELILLTNNLPSGYHRDVQLTKEILFPAIDSLKECLEILSYTLPNIQVKDGILKDEKYKYLFSVEKINEEVKNGSSFRDAYVKVGQEIENNEFEFEPGNLVHTHQGSIGNLCLDKIEYQFNKLKKKLLG				NA	NA	NA	NA	NA
BMS003_00223	444	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGATTCTCAGTATTATTCAGGAAGACTCTACATTATCGGTAAAAGAAATTTCCGAGAAGATAGGTCTTACCTTTACTCCTACGTATGAGCGAATCAAACAATTGGAGAAACACGGGATCATTGAAAAATATGTAGGTCTTTTAAACCGTGAAAAACTGGGGCTTAATATTATCGTTTACTGTAATGTACGTCTTAAGGAACAATCCAAAAAAGTATTGGAGACGTTTGAGGACAATATTTCCAAATACGATGAAGTTCAGGAAATCACCAGCCTTTCCGGGGAATATGATTATATGCTGAAAATTATCGCCAAAGACATCAATTCTTATAATGAGTTTGCGGTGAGTGTGATTTCAAACCTGCCTAACATTGGACAATATCATAGTTCTATTGTACTTCATGAGGTAAAAAAATCTACCAAGTTTAAAATTGATTTGGAATAA	MILSIIQEDSTLSVKEISEKIGLTFTPTYERIKQLEKHGIIEKYVGLLNREKLGLNIIVYCNVRLKEQSKKVLETFEDNISKYDEVQEITSLSGEYDYMLKIIAKDINSYNEFAVSVISNLPNIGQYHSSIVLHEVKKSTKFKIDLE				NA	NA	NA	NA	NA
BMS003_00224	891	pyrB	COG0540	Aspartate carbamoyltransferase	ATGTTTACGATTACAGAACTAAGCACCGAGAGAATCAACAGTATACTGACAGAAGCTCTGGCTTTTGCAAACGGTAAAACTGCTAAAATTGAAGGAGAAGTTTTTTGCTCAAACCTTTTCTTCGAAGACAGTACAAGAACAAAAACAAGTTTCGATCTTGCAGAAAGAAAGCTGGGACTTCAGGTAGTTCCTTTTGATGCATCACACAGTTCGGTAAACAAAGGTGAGAGTCTTTATGATACAGTAAAGACGATTGAAAGTATAGGAGTAAACCTTGTAGTGATCCGTGATAAGAAAGACAGGTACTTCGAAGAACTGAAAAATATCAAAATTCCGGTAATCAACGGAGGAGACGGCACAGGAAACCACCCTTCGCAATGTATGCTGGATCTGCTGACCATCTATCAGGAATTCGGAACATTTGAAGGACTGAAAGTGGGAATTGTAGGAGATGTAAAACACAGCCGTGTTGCCAATTCCAATGCAGAAGCATTAAGAAGATTAGGTGCTAAAGTATATTTCTCAGGACCGGAACAATGGTTTGATGAAGGCGCTCTGATCAACGGAACTTATATGTCTGTAGATGAATTGATCGGCGAAGTGGATGTTTTAATGTTATTAAGAATCCAGCACGAAAGACATGATGCCGCAATGAGCTTCACCGCCTCGGAATACCATAAAAGATATGGTCTCACCAAAGAAAGAGAACAAGCCATGAAAAAAGAAGCAATCATCATGCACCCGGCTCCGATCAACAGAGGAGTGGAGATAGATTCAGATCTTGTAGAATGTGAAAGATCAAGAGTCTTCAAACAAATGCAAAACGGGGTATTCGCAAGAATGGCCATTTTGAAAGAAGCGCTGGAAAGTAAAGGGTATACCTTTAAATAA	MFTITELSTERINSILTEALAFANGKTAKIEGEVFCSNLFFEDSTRTKTSFDLAERKLGLQVVPFDASHSSVNKGESLYDTVKTIESIGVNLVVIRDKKDRYFEELKNIKIPVINGGDGTGNHPSQCMLDLLTIYQEFGTFEGLKVGIVGDVKHSRVANSNAEALRRLGAKVYFSGPEQWFDEGALINGTYMSVDELIGEVDVLMLLRIQHERHDAAMSFTASEYHKRYGLTKEREQAMKKEAIIMHPAPINRGVEIDSDLVECERSRVFKQMQNGVFARMAILKEALESKGYTFK	PGPT0021160_4760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
BMS003_00225	1074	carA		Carbamoyl-phosphate synthase small chain	ATGAAGAAAAAATTAATACTGGAGTCCGGTGAAGTGTTTCATGGAGAAGGTTTCGGAGCAGAATTGGAAACTGCAGGGGAAGTAGTTTTCAATACCGGAATGACAGGGTATCAGGAATTGATCTCTGACCCATCATACTGCGGTCAGATAGTTTGTATGACCTATCCGCTTATCGGAAATTATGGTATTAACCGTGATGATTATGAAAGTATTGAGCCGGCAATCAAAGGACTTATCGTAAAAGAACTTTGCGATCTTCCTTCCAATTTCCGTACTCAGATTACGTTAGATGAATTATTTAAAAAGAAAAACCTTTCAGGAATTTCAGGAATCGACACCAGAAGACTGACAAGAGTTCTTCGTAACCATGGAGTGGTAAAAGGAAAAATTGTAAACGCTGATGCTGATGAAGTTGCTGTAGCTTCTGAATTGAAATCAACAAATTTCCCAACCAATCAGGTAGAGGAGGTCTCTACAAAAACACCTTACGCTAACCCAAACAGAGGTTTCAAAGTAGTATTGGTAGATTTCGGTGCGAAACTGGGAATTATCAGAGAACTGTCTCAAAGAAACTGTGACATCATCGTGGTTTCTCAGGATACTACAGCAGAAGAAATCCTATTAATGAATCCTGACGGTATCATGCTTTCAAACGGTCCTGGTGACCCGGAAGATGTACCGCACGCATTAGATATGATCAGAGGGTTATTAGGAAAAGTTCCTATCTTCGGAATCTGTTTAGGACACCAGTTAATTGGTCTTGCTTGTGGAGCGAAAACTTTCAAACTGAAATTCGGACACAGAGGAGGAAACCACCCGGTATTGGATCTGGAGAAAAACACAGTTGCCATTACTTCTCAAAACCACGGATATGCTGTAGATCAGGAAAGTTTAAAAGCAACAGATCTTATCGAAACGCATATCGCCTTGAACGACAGAACAAACGAAGGATTAAAGCATAAAATCCACCCTTGTTTCTCAGTTCAGTATCACCCTGAAGCGAGCCCTGGCCCGGAAGATGCAAACTACCTGTTTGATGAGTTCATTCAAATGATGGAGGACTTTAAAAAGTAA	MKKKLILESGEVFHGEGFGAELETAGEVVFNTGMTGYQELISDPSYCGQIVCMTYPLIGNYGINRDDYESIEPAIKGLIVKELCDLPSNFRTQITLDELFKKKNLSGISGIDTRRLTRVLRNHGVVKGKIVNADADEVAVASELKSTNFPTNQVEEVSTKTPYANPNRGFKVVLVDFGAKLGIIRELSQRNCDIIVVSQDTTAEEILLMNPDGIMLSNGPGDPEDVPHALDMIRGLLGKVPIFGICLGHQLIGLACGAKTFKLKFGHRGGNHPVLDLEKNTVAITSQNHGYAVDQESLKATDLIETHIALNDRTNEGLKHKIHPCFSVQYHPEASPGPEDANYLFDEFIQMMEDFKK	PGPT0021155_5002	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
BMS003_00226	354			hypothetical protein	ATGCACAATTTTGAAAAACTGGTTTTTTGGCAAAAATCAATTGAACTTGTAAAACAGGTTTATATCATTTGTTCAGAATTACCTAAAGATGAAAAGTTTGGTCTGATTTCTCAAATTAAAAGATCTGCAATCTCTATTCCTTCAAATATAGCAGAAGGGGCAGGAAGAAATAATAACAGCGAATTTTATGATTTTCTTGGTATTGCAAACGCTTCCTCTTTTGAGTTGCAGACACAGTTAATTTTAACCAGAGAATTAAATTTACTTGATGTAGAAAAAGTCAATAGTTTAATATCAAATCTGAATGAAATTCAAAGAATGATTTATACATTCAAATCTAATTTAAAAAAGTAA	MHNFEKLVFWQKSIELVKQVYIICSELPKDEKFGLISQIKRSAISIPSNIAEGAGRNNNSEFYDFLGIANASSFELQTQLILTRELNLLDVEKVNSLISNLNEIQRMIYTFKSNLKK				NA	NA	NA	NA	NA
BMS003_00227	3183	carB		Carbamoyl-phosphate synthase large chain	ATGGCAAAACGTACAGATATAAAAACAATTTTAGTAATCGGTTCAGGACCTATCATCATCGGTCAGGCAGCTGAATTTGATTACGCAGGAACGCAGGCTTGTCTGTCTTTGAAGGAAGAAGGCTACAAAGTAATTTTGATCAACTCAAACCCTGCAACGATCATGACAGATGTGGAAATCGCAGATAAAGTATATATCGAGCCGATTTCATTACAGTTTGTAAGCCACATCATCAGAAAAGAACGTCCGGATGCATTATTACCAACATTAGGAGGGCAGACAGGTCTGAATATGGCGGTAGAACTGGAGAAATCAGGAATACTTGAAGAATGTAAAGTGGAAGTACTGGGAACAAAGCTTTCTGCCATCAACAGAGCCGAAGACAGAGACCTTTTCCGTGAGCTAATGAGAGAACTGAATGAGCCGGTACCTGAATCTGATATCGTAACTACGGTAGAAGGTGCACTTGCTTTTGCCGATGAAATCGGATATCCTGTAATTGTTCGTCCTGCCTTTACCATGGGAGGTACCGGAGGCGGTATCGCTTCCACAGAAGCTGAATTGAAGGAGATTGCTGAATTGGGACTGAAACACAGCCCGGTTACACAGTGTCTTATTGAAAAATCAATCGCAGGTTTCAAAGAAATTGAATATGAAGTAATGCGTGATGCAAACGACAACGCCATTGTAGTTTGTAACATGGAAAATATAGATCCGGTAGGAGTTCACACGGGAGACTCTATCGTAGTAGCGCCTTCTCAGACCCTTTCAGACAGAGAGTATCAGTTGCTGAGAAATGCTTCCCTTAAGATCATCAGAGCGTTAGGAATTGAAGGAGGATGTAACGTACAGTTAGCTTTAGATCCACATTCATTCGATTACTATATCATCGAGGTAAACCCTAGAGTTTCCCGTTCATCAGCTTTGGCAAGTAAGGCAACAGGATACCCGATTGCAAAGATTGCAGCGAAAATTGCTGTAGGATTGACTCTGGATGAGATCATGAATCCTGTAACAGGAAAAACATACGCATGTTTCGAGCCGGCTCTTGACTATGTAGTAACAAAATTCCCAAGATTCCCATTCGATAAATTTGAAACTGCCGACAGAAGACTTTCCACTCAGATGAAAGCAACCGGTGAAGTAATGGCGATCGGAAGAAACCTTGAAGAATCTTTACAGAAAGCAATCCGTTCACTGGAAACAGGGATCAAGCATTTAGGATTAAAAACCAAGCAGGCTCAGGCACTTACTGCTGAAGAAATCGAAAGAAGAATCAGAGTGTGTGATGACGAAAGATTATTCATCATTGGAGATGCTTTAAGAAGAGGATACGACTGGGAGCAGATTGTAGAATGGAGTAAAATAGATAAGTTCTTTATCTGGAAACTGAAGAAATTAGTTGACTTCGAAAAAGTAATTGCTGAAAACAAATTTGATAAAGAAACCGTAATTGAAGCTAAGAGATTAGGTTTTGCAGATATCAACATCGCTGTTCTTTGGGATGTAAAAGAACGTGAGGTGTTCAACTTCAGAAAAGAAAACGGAGTAATGCCGGTGTACAAAATGGTAGACACTTGTGCTGCTGAATTTGAAAGTGAAACACCTTACTTCTACGGAACTTACGAAGAAGAAAATGAAAGCGTTGTTTCAGACAAAGAAAAAATCATTGTGCTGGGTTCAGGACCTATCAGAATCGGGCAGGGGGTAGAATTTGACTACGCCACTGTTCACTCAGTATGGGCGATCAAAGAAATGGGTTATGAAGCGATCATTATCAACAACAACCCGGAAACCGTTTCTACAGACTTCTCCATCTCAGATAAGCTTTATTTCGAACCGCTTACAGAAGAAGATGTAATGAACATCATCGAGCTTGAAAAACCAAAAGGAGTTGTGGTGCAGTTCGGAGGACAAACAGCAATCAACCTTGCAGATAAATTAGCAGCCCACGGAGTACAGATCTTAGGAACTTCATTGGAAGACCTTGACAGAGCTGAAAACAGAGATAAATTCGAGAAAGCACTTCAGGAATTGGGAATTCCTCAGCCAAAAGGAAGAACTTCAACGTCTAAGGAAGAAGCGATAAAAATTGCTAACGAGATCGGATATCCGGTATTGGTACGTCCAAGCTACGTTCTTGGAGGTAGAGCGATGGAAATTGTATATGCAGAATCAGAATTGGCACACTATATGGAGCACGCTGTAGATGCAAGCCCTGAGCACCCTGTATTGGTAGACAAGTACATGGTAGGAAAAGAAATTGAAGTAGATGCCATCTGCGACGGTGAAACAGTGGTGATTCCCGGAATTATGGAGCATATCGAAAGAGCGGGAGTTCACTCCGGAGACTCTATAGCAGTATATCCGCCACAGAATATCTCTCAAAGTGAGATCGATACTTTGGTAGACTATACAAAAAGGCTGGCAAAAGGACTGAATGTTGTCGGATTGATGAATATCCAGTACGTTCTTTTCGAAGGAAATGTATATGTGATTGAAGTAAACCCTCGTTCATCAAGAACAGTTCCTTTCTTATCCAAAATCACAGAAGTTCCAATGGCAAACCTTGCAACAAAAGCGATCTTGGGACAAAAACTGAAAGACTTAGGCTACGAAAACGGATTAGTTCCGGACAAAGAAGGAGTATTTGTAAAAGTACCGGTATTCTCTTTCTCTAAACTAACGAAAGTAGACATCTCTTTAGGCCCTGAAATGAAATCTACAGGAGAGGTTATGGGGAAAGATACAACCCTTGAAAAAGCACTTTACAAAGGATTGGTGGCAGCAGGAAGAAAAGTTCCTATGCACGGTTCTATCCTGTTCACAGTAGCAGATAAGCATAAAGATGAAGCGGCAGCTCTTGCAGCAAGATTCCATGAAGTAGGATTCAGAATCTGGGCTACGGAAGGTACTGCGAAATTCTTCGAAGAAAAAGGTATTCCTTGCAAAATAGGATACAAGATTGGTGAAGAAGATGTAAACCTTATCGACCTGATCCAGAAGGGAAAAGTTCAGTATGTTGTAAACACCACTACAAAAGGTAAACAGGCTGAAAGAGACGGGTTCCAGATCAGAAGAATGAGTGTGGAAAATGGTGTTCCTTGTTTAACTTCAATGGATACGGTAGAAGCAATTCTAAAAGTAATCGAAAGCATGAGCTTCAAAATGGAGACGATGTAA	MAKRTDIKTILVIGSGPIIIGQAAEFDYAGTQACLSLKEEGYKVILINSNPATIMTDVEIADKVYIEPISLQFVSHIIRKERPDALLPTLGGQTGLNMAVELEKSGILEECKVEVLGTKLSAINRAEDRDLFRELMRELNEPVPESDIVTTVEGALAFADEIGYPVIVRPAFTMGGTGGGIASTEAELKEIAELGLKHSPVTQCLIEKSIAGFKEIEYEVMRDANDNAIVVCNMENIDPVGVHTGDSIVVAPSQTLSDREYQLLRNASLKIIRALGIEGGCNVQLALDPHSFDYYIIEVNPRVSRSSALASKATGYPIAKIAAKIAVGLTLDEIMNPVTGKTYACFEPALDYVVTKFPRFPFDKFETADRRLSTQMKATGEVMAIGRNLEESLQKAIRSLETGIKHLGLKTKQAQALTAEEIERRIRVCDDERLFIIGDALRRGYDWEQIVEWSKIDKFFIWKLKKLVDFEKVIAENKFDKETVIEAKRLGFADINIAVLWDVKEREVFNFRKENGVMPVYKMVDTCAAEFESETPYFYGTYEEENESVVSDKEKIIVLGSGPIRIGQGVEFDYATVHSVWAIKEMGYEAIIINNNPETVSTDFSISDKLYFEPLTEEDVMNIIELEKPKGVVVQFGGQTAINLADKLAAHGVQILGTSLEDLDRAENRDKFEKALQELGIPQPKGRTSTSKEEAIKIANEIGYPVLVRPSYVLGGRAMEIVYAESELAHYMEHAVDASPEHPVLVDKYMVGKEIEVDAICDGETVVIPGIMEHIERAGVHSGDSIAVYPPQNISQSEIDTLVDYTKRLAKGLNVVGLMNIQYVLFEGNVYVIEVNPRSSRTVPFLSKITEVPMANLATKAILGQKLKDLGYENGLVPDKEGVFVKVPVFSFSKLTKVDISLGPEMKSTGEVMGKDTTLEKALYKGLVAAGRKVPMHGSILFTVADKHKDEAAALAARFHEVGFRIWATEGTAKFFEEKGIPCKIGYKIGEEDVNLIDLIQKGKVQYVVNTTTKGKQAERDGFQIRRMSVENGVPCLTSMDTVEAILKVIESMSFKMETM	PGPT0021150_4733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS003_00228	1305			hypothetical protein	ATGATTGAAGAATTTAATTTCGGAAATTTTTGGTCTTTTAAAGATGAACAAACTTTGAATATGACTACAGCCAAAATAAAATCTAATAATCCATTATTAGACATTAAAAATACAATTCCAATTAATGATAATCTATCTTTAATTAAATCTAAAGCTATTTATGGAGCTAACGCTAGTGGTAAAAGTAATGTTATTAAAGCTTTAGTAACATTTATTCGTATTGTTAGTACTTCTGTAAAAACAGAGAATGTTCTAAATATTATTGACCCATTTAAGTTGTCTTTAGAATCTTTAAAAGAACCTACATTTTTTCAATTAGTATTTAGAATTGGGCAAACCAGATATAGATATGGATTTGAGGCTGATGAAAAATCAATTAAAAGTGAATGGCTATTCCACACTCCTAGAGTAAGAGAGCAGGTTTTGTTTATTCGAGAAGGGAAAGATATTCTAGAAGTAAATAAAAAACATTTTGAAGAGGGAACAAAATTTATTTCTTTGCTAGAAGATGATGATGAAAATTCTATTTTTAGATACAATTCTTTATTTTTAACTTCTCTATCATCGTTTGGCTTTGGTAAGACGTCAAAAAAAATTGTTAAATTAATTTCATCAATTATGGTGATTAATGGACTTGGTGATAGTAAAATGTTTGATATAGCAGGTGAAGCTTTGGAAATTTCAAATAAAAAAGATTTCATTTTAGAATTTTTGAAAAATGCTGATATTGGAATCAATGATCTTAATAATATGGAAATTACAAGAGAAAATTTACCAGAAGATATTGATAATGAATTTAAAAAAGATTTTAAGAAAGGGAATGTTATAATTTCAAGTCGAAGTCAATTTGATGGAGATAATAATAAGGTTGGGAATTATCAGTTTATTTTAACAGCTCAAGAATCTGAAGGTACAATTAAAATGTTTGAATTAAGTCCCTTTATTTATAATGCTTTAAAAGATGGTCGGACATTAATTATTGATGAATTCGACTCAAGATTTCATCCATTATTAACGAAAAAAATTGTAGAATTATTTAATTCTGATTTAAATAAAAAATCACAGTTAATTTTCACAACTCATGATACCAACCTATTAAGCTCAGAATTTTTAAGACGTGACCAAATTGATTTTGTTGAAAAAGACAAATATGGTGCTAGCCATCTATATACACTTGTAGAAATTAAAGGGGTTAGAAATAATGCTTCCTTTGAAAAAGATTATATTCAGGGAAAGTATGGTGCAATTCCTTTTTTAGGTAATTTTTCAACATTATTAAATTTTGATTATGCCAAAGAAAACTAG	MIEEFNFGNFWSFKDEQTLNMTTAKIKSNNPLLDIKNTIPINDNLSLIKSKAIYGANASGKSNVIKALVTFIRIVSTSVKTENVLNIIDPFKLSLESLKEPTFFQLVFRIGQTRYRYGFEADEKSIKSEWLFHTPRVREQVLFIREGKDILEVNKKHFEEGTKFISLLEDDDENSIFRYNSLFLTSLSSFGFGKTSKKIVKLISSIMVINGLGDSKMFDIAGEALEISNKKDFILEFLKNADIGINDLNNMEITRENLPEDIDNEFKKDFKKGNVIISSRSQFDGDNNKVGNYQFILTAQESEGTIKMFELSPFIYNALKDGRTLIIDEFDSRFHPLLTKKIVELFNSDLNKKSQLIFTTHDTNLLSSEFLRRDQIDFVEKDKYGASHLYTLVEIKGVRNNASFEKDYIQGKYGAIPFLGNFSTLLNFDYAKEN				NA	NA	NA	NA	NA
BMS003_00229	687			hypothetical protein	ATGCCAAAGAAAACTAGGGCTATAAAAAAAACAGATAAGGATAAGGCTTGGAATAGGAAATCAAAAATGACCTCTTACAAAATTGAAAGTATCCCAATAAATAAAACGATACTTATTATTTGTGAAGGTCAGACGGAAAAACTTTATTTTGAATCCTTCCCAGTTTTAGGACTAAAAGTAGAAGCTATTGATTTAGGAGGACAATCGAAATCAAAACTTGTTGAAACCACTCAATCAAAAGTCGATACTTCTGAATTAAATTATGATGAGGTTTGGTGCGTTTTTGATATGGATTATAAGAAAGGAGAAAATGAGTTCTCTGATTTTGATAATGCTATTATAAAGGCTAATCAATTAGGTTATAAAGTTGCATATTCAAATGATGCTTTTGAATTATGGTTTTACCTTCATTATAATAAAATAGAAGCACAACAACTAAGATCTTTTTATTATAAATATCTTGGAGATAAATGGGAAATCAATTATGAAAGGGATGGAAAAAAATATAATTTTTGTTTGAAAACATACCAAATTTTGGATGATGATAGAATGGCATGCCAAAAACAAGCAATCATAAGAGCTGATGAACTTTTTGAAGCTCAAAAAGATTTAGCTTATCATTTGCAAAATCCTGTTACTATAGTTTATAAACTTGTTGAAGTACTGAATGAGAATTTAAGAAAATAA	MPKKTRAIKKTDKDKAWNRKSKMTSYKIESIPINKTILIICEGQTEKLYFESFPVLGLKVEAIDLGGQSKSKLVETTQSKVDTSELNYDEVWCVFDMDYKKGENEFSDFDNAIIKANQLGYKVAYSNDAFELWFYLHYNKIEAQQLRSFYYKYLGDKWEINYERDGKKYNFCLKTYQILDDDRMACQKQAIIRADELFEAQKDLAYHLQNPVTIVYKLVEVLNENLRK				NA	NA	NA	NA	NA
BMS003_00230	501			hypothetical protein	ATGGCAGAATATTACGCAAAATCAAGCAATTCTTTATCTTTTGATATTACAAGAGAAGAAAAATTAATTGGAAAGCTTACTTATACAAGCTGGTTTAAATTTAATGCTGTCATTGAAATTGCAGAGGTAAAGACCTATCAGGTGGAGCCAAAAGGTTTTTGGGGAACTACCATTGAGCTGAAAGACCATGAAAGAGTGCTTCTTAAATTCAGAATGAACTGGAATGGGGAAATTGTAGTACAGACTTATTTTGACGGCGTAAAAAATGGCTACCTTTTTAAGCACAGGGGTATTTTTAAAGAATCATTTGTTCTTACTGATCAGAATGGTGTAGAGCTGATGATTATAAAGCCTCATCTCAAATGGGCCTCCATGAATTACGAATATCAGATCACTACCTCTGATGCCTTTGAAACCTTTCCGGATAAAGAAATCGTTTTAATTAATGCGCTGCATTGTGCCAATTATTATATGTCGATGATGGCAGCCTCTGCGATATGA	MAEYYAKSSNSLSFDITREEKLIGKLTYTSWFKFNAVIEIAEVKTYQVEPKGFWGTTIELKDHERVLLKFRMNWNGEIVVQTYFDGVKNGYLFKHRGIFKESFVLTDQNGVELMIIKPHLKWASMNYEYQITTSDAFETFPDKEIVLINALHCANYYMSMMAASAI				NA	NA	NA	NA	NA
BMS003_00231	2151	cntO_1	COG1629	Metal-pseudopaline receptor CntO	ATGAAAAGAACTATTATTTCTGCAGCTCTATTAGCCGTAACAATGCTGAATGCCCAGGAAACTGATACCGTTAAAGTGGCTGAAATTCAGTCTGTATCACTTCAGGGAACTCACAATTACAGAACCAAAAAATCTGAATCTATTGCAAGACTTCCTCTTGAAAACCTTGAAAATCCTACCGTTTACAACCTTGTTCCCAAAGAGATCATCAGTGAAATGGGAGCCACCGACTTCAATACATCAATGGCATCTGCTCCCGGAGTGGTGGTAAGCAACAGCGTAAATGACAGTGGAAACGATATCTTTATGAGAGGGTTCAGTTCCAATGCAAGCTTTAGAAACGGATTGGTGCAAAACCCAAGAGTACAGTCAGAGATCGCTAATATTGAGAGAGTAGAAGTAATAAAAGGGCCATCCGGAACCCTATTCGGAGGGACGCTGGCCAACTATGGCGGAGTCGTGAATATTGTGACTAAAAAACCCCAGGAAAACTTCGGGGGAATCATCAATTATACTACCGGAAGCTGGGGCATGAACAGAATTACAGCCGATGTGAACACTCCCCTGAACAAAGAAAAAACGGCATTGGCAAGATTCAATGTAGCCGCTTATTCTCAGGATTCTTTTCAGGATGCAGGGTATAATAAAGGATTATTTTTCTCAGGAAGTGTGTTGTACAAAGTAAGCGACAAAACAACAGTAACGCTTGATACAGAATTCCATGCTCCGGATAAAACATTGAATGCTTATGTAAGAAACTCAGAAAAACTGACTTTGCACTCCATGAAAGATCTGGAAGTAGCCTATAAAAGAGCATTTACAAGTAATGATATCGGTTCCAAAAGAACCAATTTTGTGACGATGGCAGAGGTAACTCATAAATTCAATGATCAATGGACTTCAAGAACATCTTACCAAAGAGGAGAAGCCAATGAAAATGAATCTATCTTTTTAGTGCTCAGATATTTGAATAATAATCAGGTAGAAAGAATGATTCGCCCTTTCGACAGCTTTAAAGTAACCACAGACAATATCCAGCAGAATTTTATCGGAGATTTCAAAATAGGAAACCTAAGAAATCGTCTGGTAGTGGGAATAGATTACTTCCAGCAAAGAACAAAATATCAGTTCCCTTATTATGAGGCAAACGGATACAGTAATGTTTTCATGCCCTATGATAAAGTGAATCTCGACAGTTCTTCAGCATGGGATCCTATCTCAAGAAACAAGTTCATGAACAAGGAGAGAAAATCTACCGAATCTGATATCACAACATTCAGAACAATCAGCGGCTATATCTCTGATGTTTTAAATATCACAGATAATTTATTAGTGATGGCAAGTTTGAGAGTAGACAGCTATAAAAATGATGATACAATAGTAAACGGTGTAGAAATCTCTACCCAAAACGGCTATCCGGAAAATAGAGTGACAGGTTACAGCCAGACCCAGTTCTCACCAAAGTTCGGATTGGTCTATGAAATTGTAAAAGATCAGATTTCATTTTTTGCCAATTATGTGAACGGATTTAAAAACTATGCTCCCTCACTGAACGAAGTCGGTATTTTGACAAAATGGGATCCTGAGCAGGGAAATCAGATTGAAACAGGTTTTAAGGTGGATCTTTTCCATAAGAAATTACTGACAACCGTGAGTTATTATAATATTAATGTTAAAAACAGACTGGTTGCAGATCCGGGGGGAATAGGAAGTATTCAGGATGGTAATATCAAAAGTCAGGGACTGGAAATAAGTATCATTGCCAATCCTTTCAAAGGATGGAACATCGTTGCCGGATATGGATATAATGATAACAGATATGACGACCGAAGCAAAGACAGCGGAAAAAGAATAGCATGGACCCCAAAACATGTAGCTAACCTATGGACAAGCTACAAAATTATGGATGGAGCCTGTGAAGGACTTGGTTTCGGAGCCGGATTTAATTTTGTAGATCAGACATATATCAATATCACAAATCATTTTCTTGCTCCGTCTTACACTACAGTAGGTGCTACAGTTTTCTATGACAGGAAAAAATACAGAATAGGCCTGAAAATGAATAATGCCTTGAATGAAAACTATTGGAACTTCTACGGACAGCCGCAGAAACCAAGAGAAATCCTTGCCAATTTTGCCTTCAAATTTTAA	MKRTIISAALLAVTMLNAQETDTVKVAEIQSVSLQGTHNYRTKKSESIARLPLENLENPTVYNLVPKEIISEMGATDFNTSMASAPGVVVSNSVNDSGNDIFMRGFSSNASFRNGLVQNPRVQSEIANIERVEVIKGPSGTLFGGTLANYGGVVNIVTKKPQENFGGIINYTTGSWGMNRITADVNTPLNKEKTALARFNVAAYSQDSFQDAGYNKGLFFSGSVLYKVSDKTTVTLDTEFHAPDKTLNAYVRNSEKLTLHSMKDLEVAYKRAFTSNDIGSKRTNFVTMAEVTHKFNDQWTSRTSYQRGEANENESIFLVLRYLNNNQVERMIRPFDSFKVTTDNIQQNFIGDFKIGNLRNRLVVGIDYFQQRTKYQFPYYEANGYSNVFMPYDKVNLDSSSAWDPISRNKFMNKERKSTESDITTFRTISGYISDVLNITDNLLVMASLRVDSYKNDDTIVNGVEISTQNGYPENRVTGYSQTQFSPKFGLVYEIVKDQISFFANYVNGFKNYAPSLNEVGILTKWDPEQGNQIETGFKVDLFHKKLLTTVSYYNINVKNRLVADPGGIGSIQDGNIKSQGLEISIIANPFKGWNIVAGYGYNDNRYDDRSKDSGKRIAWTPKHVANLWTSYKIMDGACEGLGFGAGFNFVDQTYINITNHFLAPSYTTVGATVFYDRKKYRIGLKMNNALNENYWNFYGQPQKPREILANFAFKF	PGPT0003790_19724	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
BMS003_00232	1275			hypothetical protein	ATGGAGAATAAAAAAACTAATCCAAAAAAAAAGCAGGGAAAATCCCTTACCAAAAGAATTACCGGATGGCTGCACCTCTGGCTCGGACTGGTTTCCGGAATCATTGTGCTTACAGTAACTCTTTCGGGGACTGTATTTGTCTTTTGTGACGAAATTATTGATCTGTGTGCCGGGAGCGCCAAATACGTTCAGGCTCCGGCTCATGCAAAAAAAATGACATCTGAAGAATTGCTTGTCCGGTTTCATCAGCAGGTTCCGGACAGAAAAGCATTTTATTTTGATACGTACAGAGAAGCAGACAGAAGCTTCAGGGTAGCATCGGCAACGAAGCCACCTAAAGATAAACACGCAGATAAAGCAGAAAAACCAAAGAAAAAAGGACGTGGGCCAAGAGGCGTATTTGCTTATCATTACCTTGATCCTTACACCGGAAAAATCATTGGTTCTACAAAAAGCTATGAATTTTTCTATGTGGTGGCCCATATTCATGCTCAGTTGCTGGCAGGTAAACTGGGAAAAACGGTTGTTGGTATAGCCTCCATTATATTTTTCATCCAGCTTATTGGTGGGCTGATTCTCTGGTGGCCTAAAAAATGGAACAAAACAACAAGAACAACAGCATTTAAAATCAAATCCGGAACAAAATGGCGCAGAAAAAACTACGATTTCCATAATGTTTTCGGCTTCTATTCATTGCTTCCGGCAGTGTTTATTACTATTACAGGATTGATTATGGCCTATAAGGTTTTAACCAATCTTACCCAGCAGGCTTTCGGTGGAGCTGTGGATGCCCATACCATTGCAGAAAAATATGAACCTAAGTTTGATCCGGAGAAAAAAGCTTTGACGTATTCTGATGTTGCAGACAGAAAATTCAGAGAGTTTCCCGATGCAAAGCAGTTCAGAATGAGTATTCCAAGAAATGATTCTGCAACTGTATACCATGTGGTAGCTGCTCAGTTTATTGGATTGAAAAGCCTTGTCAACGGAAAAAGTATGGAAACCAACAAATACACAGGAAATGAAATTGACTATCCTGAAGAAGTTAAGATGCATGAAGTGATAGAACACATGAATTTTGACCTTCATGTAGGCTATTGGGGCGGAATGTTTGGTAAAATATTCACTTTCATTATCGGAATTGTCTGTACAAGTCTCCCGGTTACCGGATTCCTGATCTGGTGGGGCAGAAAAAATAAATCACCCAAAAAGAACAAAGAAATTAAAAATATCCATCAACACAGAAAAGATTCACACCATGAGCAGTTGGTTTAA	MENKKTNPKKKQGKSLTKRITGWLHLWLGLVSGIIVLTVTLSGTVFVFCDEIIDLCAGSAKYVQAPAHAKKMTSEELLVRFHQQVPDRKAFYFDTYREADRSFRVASATKPPKDKHADKAEKPKKKGRGPRGVFAYHYLDPYTGKIIGSTKSYEFFYVVAHIHAQLLAGKLGKTVVGIASIIFFIQLIGGLILWWPKKWNKTTRTTAFKIKSGTKWRRKNYDFHNVFGFYSLLPAVFITITGLIMAYKVLTNLTQQAFGGAVDAHTIAEKYEPKFDPEKKALTYSDVADRKFREFPDAKQFRMSIPRNDSATVYHVVAAQFIGLKSLVNGKSMETNKYTGNEIDYPEEVKMHEVIEHMNFDLHVGYWGGMFGKIFTFIIGIVCTSLPVTGFLIWWGRKNKSPKKNKEIKNIHQHRKDSHHEQLV				NA	NA	NA	NA	NA
BMS003_00233	1053			hypothetical protein	ATGAGCAGTTGGTTTAAAATAGTATTCCTTCCCTTATTTTTATTTTTCATAGCAGGCAATGCTCAGGAAAATCTGACGATAGGAGAGAAGCGGCACTTATTTTCGAAAGTTTTAAACGAAAACAGAGAAATTTGGGTTCACCTGCCCAAAACGTATAATGACAGCACGATCAACGCTGCGAAATACCCGGTAATTTACCTTTTAGACGGAGAAATCAATTTTGAATATTACACAGGATTAACGGATTTTATTGCCAGAACACCCTATGCCGATATACCGGAATGTATTGTTGTCGGAATTAAAAACACAGAAAGAACAAGGGATCTTACCCCTACAAAGTCTGAAAAGAAAAGTCCCGTAAATCCTGCACTTACTCTTTTTGCTGATAGCGGCGGAAGTGAAAACTTTCTGAAATTTATGCAGGAAGAACTGAAGCCATTCATCAGTAAAAACTACAGAACCCAGGATTATACTGTGTTGGTAGGTCATTCTTTTGGAGGTCTGTTTGCTATCAATACATTTCTCTTGCACCCGGATTATTTTAATGCGTATGTTGCAAACGATCCTAGCTTATGGTGGGATAATAAAGTGACCATTTCCAGAACGAAAGACTATCTGGAAAAGCATAAGACATTTCCTGCAAAAAAATCTTTGTATGTTTCTCAGGCAGATAATGAAGAACAGCAGAAAAACTGGAATTCTGATATAACACAGGCTATTGAAGAGTTTAAAGGAATCATAGAAAAAAATGGAACTCTGAACTATAAGCATCGTTTTTTTGAAGGAGAGACCCACGGAACGGTTTCCTATCCCGGAAATTATGAAGCTTTGAAATTTATATTTAAAGGTTTCAGAACAGATATAAAACAATTGCCTAAAAACCCTGAACTGCTTGAAGAAGATTATAAAAAGTTTTCTGAAAAGATGGGAACAGAATTTATCCCTTCAGAAGCCTATCTGAATGTAGTGATCAAATTTATGAAGAGCAATAGTTTCAAAGAAGCCGAAGCCTATTTTACCCATCTGAAAGACCAATATTATCCTAAGAAATAA	MSSWFKIVFLPLFLFFIAGNAQENLTIGEKRHLFSKVLNENREIWVHLPKTYNDSTINAAKYPVIYLLDGEINFEYYTGLTDFIARTPYADIPECIVVGIKNTERTRDLTPTKSEKKSPVNPALTLFADSGGSENFLKFMQEELKPFISKNYRTQDYTVLVGHSFGGLFAINTFLLHPDYFNAYVANDPSLWWDNKVTISRTKDYLEKHKTFPAKKSLYVSQADNEEQQKNWNSDITQAIEEFKGIIEKNGTLNYKHRFFEGETHGTVSYPGNYEALKFIFKGFRTDIKQLPKNPELLEEDYKKFSEKMGTEFIPSEAYLNVVIKFMKSNSFKEAEAYFTHLKDQYYPKK				NA	NA	NA	NA	NA
BMS003_00234	1020			hypothetical protein	ATGATGAAGATCAGAACTGTTGCAGCACTTATATGTTTTCAACTTATTATGGTGAGCTGCCAGAAAGAAGAGAAGAAAACAGCGGTTATCCCAGAAACAAAAACTACAGTTGATTCTGTAAAAGCAACGAAAACTGAAGCGAAAATAGATTATTCTGACTTTAATATTTTCAGTCTGTCTGTTATTTCATCCGCGGAAAAAGATTCTGATATGGATATTTTTATTTCTGTTTCGGATGTCTATAAAGGAATTCAGCCTATCCCTGCCACTATTATTAAAAATCAGAAGCAGATGTCTTTTGAAGAGCGTCAACATTTTGAACTGGACGATCCAAGCAGAAAAAAACTGCTGGAAGGAATCCATCTTACAGAAAATGATTCCCTGTATATTTATGAATATGGGTATAATAAGCTTCAAAGAATGCCAATCAGTCAATTAAAAGCAGTAGCCTATTTAAGTCCTTATTCAGATAGTGAAGATGTAGATCCTGAATCTTATATGATGGGCTTTCAGGTAGCTACTCATCAAAAAATAACAGACTACGACCGATACAATAATGCTATTGCCTATTTTGGAAATAACAACCCTTTTGTAGAGAATAAAATGAAAGCAGTAAAATGGCAAAAAGCCGGTGCTGATATCTCTAAAAAATACTTCTCTCAATCAAAACTTACCCTGGGAAAAACCTACCAGTCACAGTATGAAAATCTGACTTATTATCTGCAGGATTATCTTGAAGAAGGAAATATTGCAGATCGTAAACTGGTTGTCATCAACGATCACAATGAAAAGGTTGCTGAAAAGATATTTTCCCTTGCCGGAAGTGATGGAGGAGAATTCATGCCTCTTTATGGTATAGATGCTGATGAAGCAAATATTTCCCAGTGGACAGGCCATCTTTTCAAAGGAAAACCTCCTGTCATTTTTGGTTTTATTGCACAGTCTTTTGGCTGTCCATCTATTAGTTTTTTAGATCAAAAGGAGGAGGATTTCCCGATTAATTGTGATAACAGGCATTAA	MMKIRTVAALICFQLIMVSCQKEEKKTAVIPETKTTVDSVKATKTEAKIDYSDFNIFSLSVISSAEKDSDMDIFISVSDVYKGIQPIPATIIKNQKQMSFEERQHFELDDPSRKKLLEGIHLTENDSLYIYEYGYNKLQRMPISQLKAVAYLSPYSDSEDVDPESYMMGFQVATHQKITDYDRYNNAIAYFGNNNPFVENKMKAVKWQKAGADISKKYFSQSKLTLGKTYQSQYENLTYYLQDYLEEGNIADRKLVVINDHNEKVAEKIFSLAGSDGGEFMPLYGIDADEANISQWTGHLFKGKPPVIFGFIAQSFGCPSISFLDQKEEDFPINCDNRH				NA	NA	NA	NA	NA
BMS003_00235	855			hypothetical protein	ATGCTCAAACGAACAGTTCTTTTCATACTGCTTTCTACCGGATTTTATGGTACAAAAGCCCAGCAGACCATCCCCTTCCGCATCACGAAACACAATAATATTATTGTCAAAACCCTTGTCAACAAAAAAGATTCTTTGGACCTCATGTTCCAGATCGCAATGAAAGATTGTTCCATTTCTCCCGAACACAAACGGAAAGCTGGTCATATTAATTTCAATAAAGAGGAAATCAGTGATCATAATATAGTACAGATAGGAAAAATAGCACAGGAAAATGTACGTTTTTTTGACAATCAGTTAACAGGACATGAGGCTGACGGAAAAATCGGAACCGGAATTTTTGAAGGAAAAGTGTTTAAAATTGATTATGATAATAACCAGTTTGTCATATATAATAAAATGCCGGACCTGGAAGGCTATCAGCCTATTACTATTATCCGGGATCATGAAGGGTTTTACCTCGCTGCCGATAATATTATTGAAGGAGATCAGCAACAGGAGAGCTATTTTGTACTGCAATCCGGGTTTTCAGGTGCATTACTGTATAGCAACGAATTTGCAGAAAAAAAGAACCTGGAAAAAAAATTGAAAGTAACCGGAGAAAAAACACTGAAAAATTCGGAAGGTAAAACTTTAACTACCAAACAGGCGGTTCTTCCTTATTTTAAGTTAGGCAACAGTGTATTTAAAGATGTTTCCGTGGGATTTTTCTCCGGAGAACTTAAAACTCAAAATGTAAGTTACCTCGGTGCCGATATGCTCCGCAGATTTATCTGGATCTTTGATGCCGAAAGGAAAATGGCTTACATCAAACCCAGCAAATACTTTTCAGAGCCTTATTATAAAATGAATTAG	MLKRTVLFILLSTGFYGTKAQQTIPFRITKHNNIIVKTLVNKKDSLDLMFQIAMKDCSISPEHKRKAGHINFNKEEISDHNIVQIGKIAQENVRFFDNQLTGHEADGKIGTGIFEGKVFKIDYDNNQFVIYNKMPDLEGYQPITIIRDHEGFYLAADNIIEGDQQQESYFVLQSGFSGALLYSNEFAEKKNLEKKLKVTGEKTLKNSEGKTLTTKQAVLPYFKLGNSVFKDVSVGFFSGELKTQNVSYLGADMLRRFIWIFDAERKMAYIKPSKYFSEPYYKMN				NA	NA	NA	NA	NA
BMS003_00236	543	ogt	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGATTTCCAAAAAGCTTACTTTTAAGCAAATGGAATTTATACACCAAAAAAACATATCAACTCCACTGGGAGAAATGATTGCCTGTGCTGTAGATCAGGGGATTTGTCTACTTGAATTCACAGACCGGAAAAATATTGAAAAACAACTAAAGTCTTTATCAAAGCTTCTGAAGGCAGAGATTATAGAAAAGGAACACCTTCATTTTGTTCAGCTGGAAGAAGAACTGAAAGAATATTTTGACGGAAGAAGAAGCCATTTTGAAGTCCCATTATTTACCACAGGAACAGAATTTCAGGAAAAGGTTTGGCAGCTTCTCCGTGAAATTCCGATGGGAGAAATAAGGACTTATAAACAACAGTCAGAAATACTGGGAAACCCTAAGGCGATACGTGCCGTAGGAACAGCCAACGGAATCAACAAAATTGCGATTTTAATACCCTGTCATCGTGTGATAGGTTCTGACGGTAAATTGGTAGGCTATGCCGGCGGTATCTGGAGAAAACAAAAACTATTGGAGCTGGAAAAAGCCATTTTGTTCTAA	MISKKLTFKQMEFIHQKNISTPLGEMIACAVDQGICLLEFTDRKNIEKQLKSLSKLLKAEIIEKEHLHFVQLEEELKEYFDGRRSHFEVPLFTTGTEFQEKVWQLLREIPMGEIRTYKQQSEILGNPKAIRAVGTANGINKIAILIPCHRVIGSDGKLVGYAGGIWRKQKLLELEKAILF				NA	NA	NA	NA	NA
BMS003_00237	603			hypothetical protein	GTGAAAAAGTTAATAATAGCAGTTTGCATTTCAGTTTCAGCATTCAGCTTTGCTCAGGATTATTCTGTTCCGGCAGCAAGTCCGCGTCAGAAGGTGGAGCAGCAGTTTTCAATGTCCAAAATCACGATCGACTATGGAAGACCGGGAGTGAAAGGACGTAAGATTTTTGGAGAATTGGTTCCCTATGGCCAGGTTTGGAGAGCAGGAGCTAACTCATCTACAAAGATTACTTTCGGACAGGCCGTTAATTTCGGTGGGAAAACAGTACCTGCAGGAACTTACGGATTATTCATTGTCCCTACAGAAAAAGAATGGAAAGTGATCCTGAATAAAGACTTCCAGCAATGGGGAGCTTATACTTACGATCCTAAACAGGATGTAGTAGATGTTACTGTACCGGTTAACACGCTGGCAGACAAACAGGAGTGGTTCGAAATCACTTTGAATCCTACAGATGAAAATTCAGGAAATCTGGTGATCAAGTGGGATATGGCTCAGGCAGAAGTTCCTTTGAAACCTTCAAAATTAGATACCGTAATCAAGATTTCTGATAAGTTAAAAGAAATCAAGAAAATAGAATCAGATTCTGCTAAAAAGAGCTAA	MKKLIIAVCISVSAFSFAQDYSVPAASPRQKVEQQFSMSKITIDYGRPGVKGRKIFGELVPYGQVWRAGANSSTKITFGQAVNFGGKTVPAGTYGLFIVPTEKEWKVILNKDFQQWGAYTYDPKQDVVDVTVPVNTLADKQEWFEITLNPTDENSGNLVIKWDMAQAEVPLKPSKLDTVIKISDKLKEIKKIESDSAKKS				NA	NA	NA	NA	NA
BMS003_00238	528			hypothetical protein	ATGAATTTTTCTGTTCAGCCCGTTTTAGAGAATGAAGAATTTCAACTAATCCCCTTACAGCAAGGGGATTTTGAATCTTTATATGAAGTGGCTTCCGATCCTAAAGTCTGGGAACAGCATCCCAACAAAGACCGTTACAAAAGAGAGGTTTTTGAAAACTTTTTTACAGGAGCCATGGAGAGTAGAGGAGCTTTTAAAATTATAGAGAAAGCTACCGGAGATGTACTGGGAAGCAGCCGTTATTATGATTTTGATAAAGAAGATAATCATATTTTCATCGGGTATACTTTCTATGGTACAAAATCATGGGGAAAAGGCATTAATCCACAGGTTAAAAAGCTGATGCTGGATTATATCTTTCAGTATGTAGATAAAGTTCATTTCCATATCGGGAAAGAAAATTTCCGTTCGCAGACCGCTTTGGAAAGATTAGGAGGTAAGAAGATCGCTGAAGAGGAAGTGGCTTATTTTGCAGAACCTTCGAGGACCAATTTCGTGTATGAAATAAAAAAAGAAGACTGGGTATGA	MNFSVQPVLENEEFQLIPLQQGDFESLYEVASDPKVWEQHPNKDRYKREVFENFFTGAMESRGAFKIIEKATGDVLGSSRYYDFDKEDNHIFIGYTFYGTKSWGKGINPQVKKLMLDYIFQYVDKVHFHIGKENFRSQTALERLGGKKIAEEEVAYFAEPSRTNFVYEIKKEDWV	PGPT0007785_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
BMS003_00239	360			hypothetical protein	ATGAAAAAATACAAAATTCAGCAGTCACCATTTGTAGTTCCTACTACTGATGGAAAACTTATTGAAGAACATTGGGGAAACTCTACAGGAAATTCTAATGTTTCTATTGCTCATATGGTAGCACCTCCGGATTGGAGCGAGCCTCATCAGACTCCTGAATTTGATGAATTTACTTATATCATTTCAGGGAAAAAACAATTTGAAATTGATGATGAAATTGTTGTTTTGGAAAAAGGACAGAGTATTCTTATTGAAAAAGGAGCGAGAATCCGTTACAGCAACCCATTTTCAGAGCCTTGTGAATATCTTGCCATCTGTGTGCCTGCTTTCTCTATGGAGTTGGTAAACAGAGAAGAATAA	MKKYKIQQSPFVVPTTDGKLIEEHWGNSTGNSNVSIAHMVAPPDWSEPHQTPEFDEFTYIISGKKQFEIDDEIVVLEKGQSILIEKGARIRYSNPFSEPCEYLAICVPAFSMELVNREE	PGPT0000621_305	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_DEGRADATION,PGPT0000621-eutQ-K04030	NA	NA
BMS003_00240	384			hypothetical protein	ATGAAAAACAAATTATCAATTGTACTCATGCTGGGAATCACGCTTTCTACAACTTCATGTGCAACTATTTTTACCGGAACTCAGGATTCAATAGCTTTTTCTTCAAACCCTGAAGGAGCAAAAGTATTTCACAAAGGCATAGAAAAATGTACAACACCGTGTACAACAAAGATTCCAAGAGGGTTAGGTAAGCAGATGATTACATTTGAAAAAGAAGGATTTGAAAATAAAAAAGTAAAGCTGAAAAAAAACTTTAATGCAGTTACTTTACTGAATATTATTCTGGGAGGAGCAATAGGAGTGGGAATTGATGCTGCTACAGGATCTTTAACCAAATATTCTCCAAAGAAATATGATGTGGAGCTGCAGGCTAAACCGGAGTAA	MKNKLSIVLMLGITLSTTSCATIFTGTQDSIAFSSNPEGAKVFHKGIEKCTTPCTTKIPRGLGKQMITFEKEGFENKKVKLKKNFNAVTLLNIILGGAIGVGIDAATGSLTKYSPKKYDVELQAKPE				NA	NA	NA	NA	NA
BMS003_00241	744			hypothetical protein	ATGATACGTTCCATTTTATTAACCACTATGATTATGGCTTCAGGAACTGTTTTCAGTCAGAAACTTAAAACGGTATCCTATCATGACGGTTCACAGAAGCTGAATGGTCTCATCACTTCCAACGCAGGAAAAAAACTTCCCGGAGTATTGATCCTTCCGGCCTGGAAAGGTATTGATGAAGAAGCTAAAACAGCAGCGATTGAACTTGAAAAGCAAGGTTATATTGCTTTTGTTGCTGATATCTACGGCGAAGGAAAAATTCCTGCCGACAATGAGTCTGCTGCTAAAACTTCAGGGTATTATAAACAGAATTATCAGGAATATCAGAAAAGAATTTCGCTGGCTTTGGAACAGCTGAAGAAAAACGGGGCAATTTCTGATAAAGTAGCAGTTATTGGTTACTGTTTTGGGGGTACCGGAGCATTAGAATCTGCCAGAGGACATCTGCATGTAGCGGGTGTGGTTTCTATCCACGGAAGTCTGGGCAGAGATCAGAGCCGGAAAAATGATGCTTTAACAGCTAAAATTCTTGTTGAAAACCCTGCAGATGATAAAAGTGTAACTCCGGATGATTACAATAACCTCATCAAAGAAATGAATGAAGGAAATGCCGACTGGCAGATCATCACCTATGCTCATTCTAAACATACATTCACAAATCCGAAATCACCGGATTATAATCCGACCATGGCTAAAAGAGCCTGGAACCATACGCTTCTATTTCTGAAAGAACTTTTGAAATAA	MIRSILLTTMIMASGTVFSQKLKTVSYHDGSQKLNGLITSNAGKKLPGVLILPAWKGIDEEAKTAAIELEKQGYIAFVADIYGEGKIPADNESAAKTSGYYKQNYQEYQKRISLALEQLKKNGAISDKVAVIGYCFGGTGALESARGHLHVAGVVSIHGSLGRDQSRKNDALTAKILVENPADDKSVTPDDYNNLIKEMNEGNADWQIITYAHSKHTFTNPKSPDYNPTMAKRAWNHTLLFLKELLK				NA	NA	NA	NA	NA
BMS003_00242	612	ppaX		Pyrophosphatase PpaX	ATGAAAATAAAAAACATCATATTCGATTTCGGAGGCGTACTTATGGACTGGAATCCGAGGTATTATTTCAAAGATTATTTTAATGATAATGAGAAAATGGAATATTTCCTTGAGAATATAGCACAGGACGAATGGAATATTGAGCAGGACAGAGGAAGAAGCCTTGCAGAAGGAACAGAAATTCAGGTAAAAAAATTCCCGGAATGGGAAAAAGAAATCCGCGCTTTCTATGACAACTGGACGGTCATGCTGAAAAGCGATATTCCCCAAAATGTAGATGTGCTCAGAAAACTGAAAAACACAGAATATAATCTGTTCGGATTAACCAACTGGTCTGCAGAAACATTCCCGTATGCTTTGGAAAACTATGATTTTTTCCAGATCTTCGAAGGTAAAATTGTAGTTTCGGGAACAGAAAAGCTTATTAAACCCGATCCTGAAATCTGGCACGTTCTTTTAGAAAGATATAATATCAAGGCTGAAGAATCTCTTTTCATTGATGATAATACAAAGAATATTGAAATGGCAAAGTCTCTGGGATTCACTACCATTCAGGTTTTTCCCGATACTGATCTTACAAAGGAGCTGAGTAAATTAGGTGTCGAAGTTTAA	MKIKNIIFDFGGVLMDWNPRYYFKDYFNDNEKMEYFLENIAQDEWNIEQDRGRSLAEGTEIQVKKFPEWEKEIRAFYDNWTVMLKSDIPQNVDVLRKLKNTEYNLFGLTNWSAETFPYALENYDFFQIFEGKIVVSGTEKLIKPDPEIWHVLLERYNIKAEESLFIDDNTKNIEMAKSLGFTTIQVFPDTDLTKELSKLGVEV	PGPT0006885_3122	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
BMS003_00243	432			hypothetical protein	ATGGAACTTCCAAAACTGAATTTTCAGGAAACTTTTGATTTTAAATTCAAGAGAGACAAAGATAAGTTTTTTATTTATGATTTGGTTCGTAAAACTTATCTTCTGCTCACTCCTGAGGAATGGGTAAGGCAGCACTGGATACATTATTATCTTACCGTAAAATCCTATTCCACATCCGCTCTGATTACCGAAAAAAAGATTGTCCTGAATGGCCTCACCAAAAGAATTGACCTTCTGGTAACGGAAAGAACAGAACCTGTAATTCTGATTGAATGTAAAGCTCCACAGATCAAATTAACAGAAAAAACTTTCGAGCAGACCGCCAGATACAACTCCATTATCGGAGCCAGGGAAATTATTCTGACGAATGGGCTTCAGCATATCAATGCTTATTATCAGGACGGGCAGTACCAGTTTTACAGACCGGAATAA	MELPKLNFQETFDFKFKRDKDKFFIYDLVRKTYLLLTPEEWVRQHWIHYYLTVKSYSTSALITEKKIVLNGLTKRIDLLVTERTEPVILIECKAPQIKLTEKTFEQTARYNSIIGAREIILTNGLQHINAYYQDGQYQFYRPE				NA	NA	NA	NA	NA
BMS003_00244	1038	yqeN	COG1466	putative protein YqeN	ATGAAAGAATTAGATTTAATCCTCAAAAATATTAAAAATAAAGAAGTTTTACCTATTTATTTTTTCCACGGAGAAGAAGCTTACTTCATTGATGTTGCTGTAAAAGCTCTTGAGCATAACTTCTTGGAAGAAGATGAAAAAGCTTTCAACCAAACGGTTACCTACGGAAAAGATACCTCTTATCAGGAAATACTTTCACTGGCGAGGCAGTTTCCGATGATGGGGGACAAGCAGGTGATTATTGTAAAAGAAGCTCAGGATCTGAGATTGAATGAAGAGGAGAATAGAATTCTGGAATCTTATGCAGAGAATCCGGTACCTTCTACTGTTTTGGTTTTTGCTCATAAGCATAAGAAGCTGGACAGCAGAAAAAAAGCTGCCAAGGCCTTAGATAAAGCCAAAGCTCTTTTTCTGAGTGAATCTGTAAAAGAAAGTAACCTTCCTAAATGGATTTCGGATGAGTGTGCAAAGCTTAAAATAAATACCGCTCCTAATATTTCCCATCTTCTGGCAGAATATCTGGGCAATGATTTATCCAGAATTGCCAATGAACTGAACAAATTAAAAATAATTCTCAAAGAAGGTGAAATTCTGGACGGAACCATTGTTGAGAATCATATCGGAATCAGTAAAGAATATAATGTTTTTGAACTGCAGAAGGCTTTAGGAACCAAAAATGCCAATGCTGCCTTTAAAATTGCTCATTTTATGGGTAAGAATCCGAAGAATAATCCTTTTGTCATGATGCTGGCAAGCCTGTATAATTATTTTTCAAATGTTATTATCTATCAGACTATGGCTGGGCAGTCTCCACAGACGATTGCTTCACAGATGGGTGTAAATCCTTATTTCATCAAAGATTATGCAGAGAGTGCCAGGCTTTATCCTTTAAAGCATGCCACAAGGGTTATTTCTATCCTGAGAGAATTCGATATGAAAGGAAAAGGACTCGGAGCAGTCAATATGGGGGAAGCTGAGCTGATCAGGGAATTGGTGTACAAGATTATCAATGTAGATAAAATTAAAATGAAGGTATGA	MKELDLILKNIKNKEVLPIYFFHGEEAYFIDVAVKALEHNFLEEDEKAFNQTVTYGKDTSYQEILSLARQFPMMGDKQVIIVKEAQDLRLNEEENRILESYAENPVPSTVLVFAHKHKKLDSRKKAAKALDKAKALFLSESVKESNLPKWISDECAKLKINTAPNISHLLAEYLGNDLSRIANELNKLKIILKEGEILDGTIVENHIGISKEYNVFELQKALGTKNANAAFKIAHFMGKNPKNNPFVMMLASLYNYFSNVIIYQTMAGQSPQTIASQMGVNPYFIKDYAESARLYPLKHATRVISILREFDMKGKGLGAVNMGEAELIRELVYKIINVDKIKMKV				NA	NA	NA	NA	NA
BMS003_00245	942	trxB	COG0492	Thioredoxin reductase	ATGGAGCAAAACATTTTAGATTGTGTGATCGTTGGATCTGGGCCTTCTGGCTTTACCGCTGCTATATATGCAGCAAGAGCAGACTTGAAACCTGAACTGTATACAGGTCTGGAGCCGGGCGGACAATTAACAACCACTACAGAAGTTGATAACTTCCCAGGGTATCCAGCCGGGATTACAGGTCCTGAAATGATGATGGATCTGCAAAAACAGGCAGAAAGATTTGATACCAAAGTTCATTACGAAATGATCACCAAAGCTGAATTCTCTAAGGAAGTAGGCGGTGTTCACAAATTATATGCAGGAAATAAAGAGATTCTTGCCAAAACAGTAATCATTTCTACAGGAGCTACAGCAAAATATCTAGGTCTTGAGGATGAAAAAAAATATGCAGGAGGTGGTGTTTCAGCGTGTGCTACATGTGATGGATTTTTCTACAGAGGAAAAGACGTTGTAGTAGTAGGAGCGGGAGATACAGCAGCAGAAGAAGCTACTTACCTTGCCAAACTATGTAAGAAAGTAACGCTGTTGGTAAGAAAGGACGTTTTCAGAGCTTCAAAAGCAATGGTTCACAGGGTAGAAAGTACTCCGAATATTGAAGTGAAATTCCACCATGAATTAATTGGAATTGAAGGAGAAAACAGCCTTGTAGAAAGAGCGGTAATTATCAATAATCAGACTCAGGAGAAATCTACAGTAGATGTGGAAGGTATTTTTATCGCAATCGGTCACAAACCGAATACAGATATCTTTGTGGGGCAGATAGATCTGGATGAAAACGGATATATTGTTACTGAAAAAGGTTCTTCAAGAACAAATCTTCCAGGAGTATTTGCTGCCGGAGATGTTCAGGATCATATTTACAGACAGGCTATTACAGCAGCCGGAAGCGGATGTATGGCTGCAATGGATGCAGAGAAATATTTAGCTGAATTGCACTAA	MEQNILDCVIVGSGPSGFTAAIYAARADLKPELYTGLEPGGQLTTTTEVDNFPGYPAGITGPEMMMDLQKQAERFDTKVHYEMITKAEFSKEVGGVHKLYAGNKEILAKTVIISTGATAKYLGLEDEKKYAGGGVSACATCDGFFYRGKDVVVVGAGDTAAEEATYLAKLCKKVTLLVRKDVFRASKAMVHRVESTPNIEVKFHHELIGIEGENSLVERAVIINNQTQEKSTVDVEGIFIAIGHKPNTDIFVGQIDLDENGYIVTEKGSSRTNLPGVFAAGDVQDHIYRQAITAAGSGCMAAMDAEKYLAELH	PGPT0013060_7401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS003_00246	378			hypothetical protein	ATGAAAAGAGTAACCGCTATCGGAGGAATCTTCTTTAAGTGTAAAGATCCGGAACAGGTAAACGAATGGTATAAAACCCACCTTGGATTACCAACCAGTCCCTACGGCGCCAAATTCGACTGGAAAGATGAAGAGTCTGATAAGAAAGGATATACGTTGTGGAGCCCTTTTAAAGAATCTACCCAGTATTTTGAACCTTCCACCAAAGAGTTTATGATCAATTATCATGTAGAGAATATTGAAGCATTGGTAGAGGAGTTAAAGAAAGAAGGGGTAACAGTTCTGGATGATGTCGCTATCTATGAATACGGAAAGTTTGTACACATTCTGGATCCGGAAGGAAATAAAATTGAATTGTTTGAACCGTCAGGAGAGTAG	MKRVTAIGGIFFKCKDPEQVNEWYKTHLGLPTSPYGAKFDWKDEESDKKGYTLWSPFKESTQYFEPSTKEFMINYHVENIEALVEELKKEGVTVLDDVAIYEYGKFVHILDPEGNKIELFEPSGE	PGPT0009155_2942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS003_00247	213			hypothetical protein	ATGGAAACAAAAATCATAAAAATCACACACGTTACCGGAACTTATATCGTTGAAGTTCCAAAGGGGACACTGAATGATATGAAAACCCAGTTGGACAAATGTCTTAATGATGAACAGGGCGCTATTGTAGTAAAAGGAGAAAATGGAGACCAATTTGTATATCCATCGGATCTTTTAAAAAACAGCTTCATTGCAATTGTAGATAGGGAATAG	METKIIKITHVTGTYIVEVPKGTLNDMKTQLDKCLNDEQGAIVVKGENGDQFVYPSDLLKNSFIAIVDRE				NA	NA	NA	NA	NA
BMS003_00249	243			hypothetical protein	ATGAAACAGCTGAGTGAACCATTAAGCCTAGCCTTGCTCCAGTTTATAGAAGATCATCCTCCAAAAATCCTGAAAAGAAATCTTTTTGCTGTATTTCTCGAATTTGTGTACTCTTTAGAGAAAGGAAGCCCTTTAAATCTGGATGATATTTTATTTGACCTTAAAGAACTCTTTGAACTTTTGGATATCATAGAAGATGAAATCGAAAAATGTAAGGTCAGTAAAGGGGAATCTGCTATATAA	MKQLSEPLSLALLQFIEDHPPKILKRNLFAVFLEFVYSLEKGSPLNLDDILFDLKELFELLDIIEDEIEKCKVSKGESAI				NA	NA	NA	NA	NA
BMS003_00250	1623			hypothetical protein	ATGAAAACTTTAAAATCACATTCATTTTCAAAAATCGAAAATGAATTTATAGAAAATGCCCTTAGACAGCTTATTAATGATCATTATCTTATTATTCAAATATTTTACAACAAAGCTTTACATTCCGAATATTCTCACCTTATTATCCATGTTGAGCATAAAAATGAAGCCAATGAACTTATGCGAAAACACTGGATTAAAAAAGCTTATGACGAGCATAAAATATTTGTCCACTCCTTTTACAGCACCCAATTGCATCACAAGTTTATTTTAGGACACCCTTTCATCGAATATTACTGCAAGCCATCAGCATTGGTTTATCAAAATGAAGAGTACGGAGATCATCTTTTGATTAACCGAGATTGGAAAAAGTTTAATAAAAAGTTTGAGAACTATAAAGAAAGATTTTATCACGATCACGATCTGTTGTTATCACAGACCCATCAATTCATTAAAGATGATTCTTTTGTTAGCGTTTTTCTCAGCTACGAAAAAGTGATTATACATGACTTAGAATATCTGGAAAATTTGTATACAGGATCTTCTTCCCAGTCAAAAAACCTGAATGAGCGTATTTCTCAATTAATACCATACGCCCCTGAGATTAGGAGCTATTTTGTAAAACAAAATGGAAAAGAGTATTACCTTTTCAGTTTATTTGATAAAGCCAGAAAATCGGCACATGAAGATGAGTCTATCTACGATAATCAATTCTTCGAAGCCATTGGCATTGCAGAAGAAAGCCTTTTTGGAATGATAGAAATACGCTTAGACCAGTTAAAAAGACAGATTAAAAAATCTCCTCGCCAGATTGAAATGCCATTGATAGAGCAAGTTGTTTCGACAGATTACAAAGATAAAATCATTGATAAGGCGGTCGAAATTATTTTAAAGTCCATAAATACTGAAGAAATTTACCTGTTTCACAAAGCCATCTATGGTAATAATATCATCTATTATATGCTTATAATAAGCCATAACACAAGTAATGAAAAGTTGAAAGAAATACAATATTTCATTAAGAGTAAAGTTGGAAAACAATATGATTTCGTTCTGATAAGCCATGATCGATATTGGATTCAGAAACATCTTTACAACTATCAAAATTTCTTTGTGAATATTATACAAGGTAAAAACAGGGTTTATTCTTCCAGTCCTTACCATCCTGAGCCTCATTGGGAATTCCCTCATTATTCAGAACATTACGATCTGGATTATTACTGCAATTCAGTAAGAGGTAATGCCATGCAGTTTTTGGGTATTGTTAGGAATGAAAGCGGAAACCAACAGGGATTGCCTTATCTTTTTGCATTATTTTTCCTTTCGTTTTGCAGAACCTACATTTTTGTAAATCTCAGCTATATGCCCAATTATCTGTCTTTTCAATCATTGTGGCAATTGTGCCTTTATGCCAACCCTGATATAATACGCCATCAATATATATTTGACGGATTCCTGCTTAAACTTATTCCAACTATGGAATACCATAAGGTTTTGCGCCACAAGGTTACCTATCTTAATAAGGAAGTATTAAACCAAATGGAAGCCATTGTAGAAAAACTCATGAAAGAATTGAACAGCATCGTTGATGAAAAAGGAAGTTTAATTGATAATACTGATTAA	MKTLKSHSFSKIENEFIENALRQLINDHYLIIQIFYNKALHSEYSHLIIHVEHKNEANELMRKHWIKKAYDEHKIFVHSFYSTQLHHKFILGHPFIEYYCKPSALVYQNEEYGDHLLINRDWKKFNKKFENYKERFYHDHDLLLSQTHQFIKDDSFVSVFLSYEKVIIHDLEYLENLYTGSSSQSKNLNERISQLIPYAPEIRSYFVKQNGKEYYLFSLFDKARKSAHEDESIYDNQFFEAIGIAEESLFGMIEIRLDQLKRQIKKSPRQIEMPLIEQVVSTDYKDKIIDKAVEIILKSINTEEIYLFHKAIYGNNIIYYMLIISHNTSNEKLKEIQYFIKSKVGKQYDFVLISHDRYWIQKHLYNYQNFFVNIIQGKNRVYSSSPYHPEPHWEFPHYSEHYDLDYYCNSVRGNAMQFLGIVRNESGNQQGLPYLFALFFLSFCRTYIFVNLSYMPNYLSFQSLWQLCLYANPDIIRHQYIFDGFLLKLIPTMEYHKVLRHKVTYLNKEVLNQMEAIVEKLMKELNSIVDEKGSLIDNTD				NA	NA	NA	NA	NA
BMS003_00251	660			hypothetical protein	ATGAGAAATAAAGAAAAAAAGAAAACAGAGCAAGGTCTTATCAATTCATTAGAGCAGGCTAAATATAGTTTTGTGTTACTTTTGAAGAAAAATCAGAAGGAAGAACTTATAAACGGAATATTCAGCTTGCTTGAAAAATTGGATAATCCTGAACTTGAAAATCTTCTTAACAATTATCCAGACCTATTACAGAAATATAATTTTAAGGAATTACTTTCAGGTAATGTAGAAATACAAAATACAAGTAAGAAAGACACCAGAACGGCAGGAATAATATCCTGTATTCTCTCATTAATCTCTTTTTGTTCTGAGTTGACAGATAACAAAAACAGAATAATTCCACTCACAGAAATAGAAAACGATAATATTTCCTTGCAAACGATACAATATATTATAGGATCTATTTCTTTGAATGATTTTTTACAGCATTTATTTTCTAATATTCACTCTATTGTTGGGGAGGATTATTATACTATATTTCAGAAAAAAATAAGGAGCGAAAGTTTCACCACAGAAGATATCCTTACCATTGAAGAAGACCCAGAATTGCAGGAACATATAGGTCTTATGGTGTGGTTTGCATTAACTCGGCTATTCATAGAATCTGTGTACTTTTATTTTGACTCTACCAATCACAACATTAAAAATCCATTGTCATGA	MRNKEKKKTEQGLINSLEQAKYSFVLLLKKNQKEELINGIFSLLEKLDNPELENLLNNYPDLLQKYNFKELLSGNVEIQNTSKKDTRTAGIISCILSLISFCSELTDNKNRIIPLTEIENDNISLQTIQYIIGSISLNDFLQHLFSNIHSIVGEDYYTIFQKKIRSESFTTEDILTIEEDPELQEHIGLMVWFALTRLFIESVYFYFDSTNHNIKNPLS				NA	NA	NA	NA	NA
BMS003_00252	534			hypothetical protein	ATGAAAAAGAAAAAATTAGATTTTGAATCTGACTTTTGGGCCAGTGACAGGATCACATGCCCTTTAAAACTGATAGAAGCATTTTTTCAGTATGATGATTTAAACCATTATAAACATGTTTTAACAGAAGTAGGATCACATACCTATAAAAAGAAAGTATATAAACAGGAATACCCCGGACAAGTATTTATTTTCTATATGTGTATGCGCTCATTTATAAGAGCTTGTTATTTACTACAATTTAAAAATAAGAAATGGGAGACGAATGCCCCTCCGGAATTTACCTCCTACCTGCTCCAAGGCTGTTTGACAGATGAAGAATATATCAATCCTTTTTTAGTCTTTAGAAAAGCTTTTGAGGAAATAAGCTTAAGAGAGTTTGACTATTTCTTAAAAGAATCAATTCATCTTTCTTTATGCCCTTATTCGGATATTACGGATAATAATATGATAAGCCCTCTGGTATACCTTCTTAAAATGCTGGATGCTTCCCGAATCATTCAAGAAAGAGGAATCTTAAAAAAGAAAAAATAA	MKKKKLDFESDFWASDRITCPLKLIEAFFQYDDLNHYKHVLTEVGSHTYKKKVYKQEYPGQVFIFYMCMRSFIRACYLLQFKNKKWETNAPPEFTSYLLQGCLTDEEYINPFLVFRKAFEEISLREFDYFLKESIHLSLCPYSDITDNNMISPLVYLLKMLDASRIIQERGILKKKK				NA	NA	NA	NA	NA
BMS003_00253	414			hypothetical protein	ATGGAACACAAAATACATCAGGGAAGAAATGTAAAACGCTTTAGAGAAATGCTGGGGATTAAGCAGGAAGCTTTGGCTTTTGACTTAGGGGAAGACTGGAATCAGAAGAAGATTTCTTTACTGGAACAAAAGGAAGTGATTGAAGATCCATTACTACAGAAAATTTCAGAAGTATTAAAGATCCCTGTGGAAGCTTTTCAGAATTTTGATGAGGAGCAGGCTGTCAATATTATTGCAAATACATTTAATATTGACAAAGATGCTTTTATCGGGAATTCCAAACCAACCTTCAATATTAATCCATTAGATGAAATTAAAAAATTACATGAAGAAAAAATTGCCTTATATGAGCGTATGTTGAAAGAGAAAGACGAAATGATGGCAAGATTGGAAAAACTTATTTCAACTAAATAA	MEHKIHQGRNVKRFREMLGIKQEALAFDLGEDWNQKKISLLEQKEVIEDPLLQKISEVLKIPVEAFQNFDEEQAVNIIANTFNIDKDAFIGNSKPTFNINPLDEIKKLHEEKIALYERMLKEKDEMMARLEKLISTK				NA	NA	NA	NA	NA
BMS003_00254	270			hypothetical protein	ATGAATAAAGATTTTTCCAAAGAAAAAATATTGAAAAAGCTAGGAGACAGAATTAAATCCCTCAGGATTAAAAAGGGATATTCCAGCTATGAATATTTTGCTTATGAGCATAATATTTCACGAGCGCAATTTGGAAGATATGAGCGAGGTGAAGATTTAAGATTCAGTAGCCTAGCTAAAATAGTTCAGGCTTTTGATATGACATTTGAAGAATTCTTTTCTGAAGGATTTTCTGATGAAGAAACCCAAAATTTAAATAACTTAAAATAA	MNKDFSKEKILKKLGDRIKSLRIKKGYSSYEYFAYEHNISRAQFGRYERGEDLRFSSLAKIVQAFDMTFEEFFSEGFSDEETQNLNNLK				NA	NA	NA	NA	NA
BMS003_00255	1464			hypothetical protein	ATGCGAAAAATTTATTTTACCGCAATTTTATTATGTATTTTCCAATTAGGATTTACACAGATTCCTAACCTACCAACCGTTTCCAGACCACAAGCAAGTGGCTTGGGCAATTATTTTAATAATGATTTCGGGAGTTCAGGAAACAACAGAAATTCCCAAAGAACCTACTCTCCGGCCATGCCGAACCGCTCGCCCACACAACAAAATGATTACGGAGCACAGGCAAGGTCACAGAATAATGCCGTTATGCAGGATATAGAGCAAGATATGGCAGAAGTTCGGAAAATACAATTCCGTGAGTGGATAGAAAACGGCAGGAATATGCCTTATGACTTACCGTCATTATCAGAAAAAGCAGGAACACAATCTTATTATGATGCCTTTAGCAAACTTTCTGAAATGGATTCCGAAAATTACTCATTAGCAGATGTCAATTTCACCGTTGAAAATGCTTTTTACGACAACAAAAGAGATTTAAAAGGTTTCAAGTCTGGAATCCAGAAAACCGCCAAACAGTTGTTACAAAAGATGAAAGAACGTAAACAGGACACGGAAAGTAATGTTTCTAAAAACCTGATGCTGTTTGAATACTTTTCCAAAGACATGAAGTTAGGAGGAACAACCCACAAAGCCTTTGAATATGATTTTAAGGACTATATGGGTGAAAAAGATTACTCGAAGATGTTTGTTTCCAAATTGTTAAAAACAGGTTCAGGACAATGCCACTCAATGCCGTTACTGTATCTGATTATTGCAGAAGCAATGGGAACAGAAGCGCATTTATCACTAGCCCCCAATCATTCTTATGTTCGGTTTATGGATGATGAAGGACAGTACAGAAATATTGAACTTACCAACGGTATGTTTTCAACTGACACCTCATTGCTTGAATCAGGTTACATCAAATCAGAAGCCTTACAGAATAAAATCTATATGGAAAACCTGACTAAAAGAGAATTGTTAGGATTGGCTTATTTTGATTTGGCGAGAGGATATGTCAAAAAATTTGGATATGATGAGTTCGTAGGAAAAGTTATTGAAAAAGCATTAGAACTTTATCCGAACGGACTTGCTCCCAACATGGAAAAAGCAAACGTAAGTCAGGCAAGATTTGCCTATGTAATGAAAAACTTAGGAATAAATCCCGAAGACAGGCGAGATTTGCAGAGAATAGGATATTTCCCAAAGGCTATTGAACAATTAAATAATGTTAATCAGCAGTTTAACAAGATTGACGAACTCGGATATACAGAAATGCCCGCATCTGCATACGAATCATGGTTAGCAAGTCTGAAAACAGAAAAAAACAAACAGGAAAGCGAAGCACTCGCACAAAAAATATATCTGTACCAACTTCAAAAACAAAAGGATAAGCAACAGCAAGAAGCCGTGAGAAAATCACAGGAACAGAAGAAAAAAGACGAAAAACCTAAATACTTCCCAATTGACCCTAATAAATTATGA	MRKIYFTAILLCIFQLGFTQIPNLPTVSRPQASGLGNYFNNDFGSSGNNRNSQRTYSPAMPNRSPTQQNDYGAQARSQNNAVMQDIEQDMAEVRKIQFREWIENGRNMPYDLPSLSEKAGTQSYYDAFSKLSEMDSENYSLADVNFTVENAFYDNKRDLKGFKSGIQKTAKQLLQKMKERKQDTESNVSKNLMLFEYFSKDMKLGGTTHKAFEYDFKDYMGEKDYSKMFVSKLLKTGSGQCHSMPLLYLIIAEAMGTEAHLSLAPNHSYVRFMDDEGQYRNIELTNGMFSTDTSLLESGYIKSEALQNKIYMENLTKRELLGLAYFDLARGYVKKFGYDEFVGKVIEKALELYPNGLAPNMEKANVSQARFAYVMKNLGINPEDRRDLQRIGYFPKAIEQLNNVNQQFNKIDELGYTEMPASAYESWLASLKTEKNKQESEALAQKIYLYQLQKQKDKQQQEAVRKSQEQKKKDEKPKYFPIDPNKL				NA	NA	NA	NA	NA
BMS003_00256	1116			hypothetical protein	ATGAAAAGAATTTTACTAAACAGAACTTTGTTCCTTTCAGCTTTATTGCTAATATGGTTGAGTTCAGGAACAGCCAAAGCACAAAATAATCAGTTTTACAATGATTCTTACCAAACCATTGACAATATGCTTAATGACAAACAGTCGTATAGCTTCAAAGAAGCCGTTTTTAGCGTGGAAAATGCGTATTATCAGGGTAAGTTAGATATTGATAAATTAAACGGAGAAATCGACTTTTTAAAGCATTTCGCAAACTCTATTTTGAAAAGCAGAGATTTGACTTACAAAGAATCTGACAAAGACAAGGTTAGCAAATATGCAACTGTATATTCCATAATGTGCCAAACCTTACCTGTTGCCTATAAAGATACCGTGATACAGTACAAACCTTTCTCTTATGATTTTACAGATGTGTTCGGTCATAATGATATTACCAACCTGTTTGTATCAAAACTACTAGTGACTAAAAAAGGTAATTGCAACTCAATGCCGTACTTGTACAAAATTTTGGCAGAGGAAATCGGAGCAGATGCAAACCTAGCATTAGCACCGAATCACGTTTATATCAAGCACAACATTAAAGCAGGTGGTTGGTTTAATACAGAACTTACAAGCGGGATATTTCCGATTGATGCGTGGTTGACAGCTTCGGGATATATTCATTTAGATGCCATTAAAAATGGTGTGTTTATGAAAGCCTTAAACAATAAAGAAAGTTTAGCATTATGCTTATTTGATTTAGCACAGGCTTACAACAGGAGTTTCCCAAGCAATGACGGAGAATTTGTACTAAAAACGCTTAACAGAGCATTAGAGATTTATCCGAATTTTGCCAAAGCACTGATATTAAGAGCTGAAACTCACAAAGAGCAGTTTACAAAATTGATGGATAGGCATAATCTAAAAACAGATAATGCCGAAAACCTAAAACTCGTACAACAGCAAGACCCAAAAGCCAAAGAACTGTTTGAGCTGATGAATAAGGAGTACGGACACATTTATGAGATTGGCTACCGACAAATGCCCGAAGAAATGTATTTGGATTGGTTGGTGTCACTGAAAACCGAAAGAGAAAAATTTGAGAACAAAAAATTATTAAATAACTTTACAAAATAA	MKRILLNRTLFLSALLLIWLSSGTAKAQNNQFYNDSYQTIDNMLNDKQSYSFKEAVFSVENAYYQGKLDIDKLNGEIDFLKHFANSILKSRDLTYKESDKDKVSKYATVYSIMCQTLPVAYKDTVIQYKPFSYDFTDVFGHNDITNLFVSKLLVTKKGNCNSMPYLYKILAEEIGADANLALAPNHVYIKHNIKAGGWFNTELTSGIFPIDAWLTASGYIHLDAIKNGVFMKALNNKESLALCLFDLAQAYNRSFPSNDGEFVLKTLNRALEIYPNFAKALILRAETHKEQFTKLMDRHNLKTDNAENLKLVQQQDPKAKELFELMNKEYGHIYEIGYRQMPEEMYLDWLVSLKTEREKFENKKLLNNFTK				NA	NA	NA	NA	NA
BMS003_00257	1089			hypothetical protein	ATGAGAAAAATATTATTAATTGTCTTTGCCATAATATTAGCAGGATTTTTACAGGCGCAGACGAAAAAACAAACTGTCTCAAAGCAGAAAGCAGAAAAGAAATGGGTAAACCCCGTTAAGCTGACAAAAGAAGAGCGTAACCGTCCGTATATGGACGAAGTTTTGAAAACCCGTGATTCATTAACACCACAGGAAGCAGAAAGGAGGAGAAAGAATATTGCAGTCGGAAATCCTTTTGCGAAATACGGAGTTTATCCAAAGATTGCAACACTTAGCAAAGGCAAGTATTTAGAGTTTCACGATATGGATAGTGTTGTGAGCATTGGTTCGGTAAGATTCAACAGAAAAACTAAATCTATTACAGAATTTAGAGAGATTGATTTGAGTGACCCCGATGCACAGCCATATTTAGATACAGCAGGACGTTGGATTAGCCCCGACCCACTTAGTGAAGAGTTTCCGAGTTGGTCTCCGTATAATTATGCGTTTAATAATCCTTTGAAATTTGTTGACCCTGATGGTAGAGCACCCGAAGAGGTAAATGGATGCTGTTGGTGGCTTAGATTAATGCCATTATTTGAAAACTCGTCGGTTCGCCCAAGTCCTGTTATTGAAACCGCTACTAAAACGGGAGAAGGGGTAGCAAAAGCACAAGAACATTTTAATAGAGGAAGACGAGTTGAAGGAGAACAAATAGTAAAAATGAATGAAGAAGGAAAAAATGTTGTGAAAAATAATAAAAACTATGAAGCAATTGACCCTAAAACTGGTGATAAAGGAGTTACTAGACCTGATGGATTCACAAAAGAGGGAAATCCTGTTGAAATAAAGAACGTACGGAAACAATCTCTTACCAAACAGTTAAGATTTCAAGATAATTTGGTTGAAGGTAAAAGATTAATTTTAAGAATTAATAATGAAGCTGAACTTACTCAACCTTTAAAAGATTCTGGGATAGATATTCAACCTTACAACGTTGCACCACCTGCAAAAGTAGACAACATGAGGGTTCAGCCTAAACCTGCACCTATAATTTTACCTAAACCCGTAAAAAAAGATGCTTGTGCAGGAATACCCAATTGTATATAA	MRKILLIVFAIILAGFLQAQTKKQTVSKQKAEKKWVNPVKLTKEERNRPYMDEVLKTRDSLTPQEAERRRKNIAVGNPFAKYGVYPKIATLSKGKYLEFHDMDSVVSIGSVRFNRKTKSITEFREIDLSDPDAQPYLDTAGRWISPDPLSEEFPSWSPYNYAFNNPLKFVDPDGRAPEEVNGCCWWLRLMPLFENSSVRPSPVIETATKTGEGVAKAQEHFNRGRRVEGEQIVKMNEEGKNVVKNNKNYEAIDPKTGDKGVTRPDGFTKEGNPVEIKNVRKQSLTKQLRFQDNLVEGKRLILRINNEAELTQPLKDSGIDIQPYNVAPPAKVDNMRVQPKPAPIILPKPVKKDACAGIPNCI				NA	NA	NA	NA	NA
BMS003_00258	369			hypothetical protein	ATGCAAGAAAAATATATTGAGGGAATAAAACAAATTGTTAATACAGCAAAGGCATTTTTGAGTGAATTAAAAGAGTTTGCCCCATTTGGCTTGATATTCAAAAATAATGAATGGATTGATTTAGCAACTTATGATGATAGTTTGGACTCTGAAAAAATGAAAAATTTTTTAATAAGCACTATTATTAAAGATTTTGAAGAGGGAAATACTGAATTTGGGGCAGTTTGTGTTGATGCAAAAATAAAAGATATAGGAGATGTAATAATTGTTTATAACACTTCCGATGGAAAAGAATGGTTTGAATTAGTCTACAAGTACGAAATAAAAGGCAAAGAAGTAAATATAATTGAAGAAAATATTGATTATTAA	MQEKYIEGIKQIVNTAKAFLSELKEFAPFGLIFKNNEWIDLATYDDSLDSEKMKNFLISTIIKDFEEGNTEFGAVCVDAKIKDIGDVIIVYNTSDGKEWFELVYKYEIKGKEVNIIEENIDY				NA	NA	NA	NA	NA
BMS003_00259	369			hypothetical protein	ATGACTAATGTTGAAATATTGCTTAATGCAATTAAAGAACAGGCTGAAAAGTTTTTAATTGAAAATGCTGAATTTGCTCCGTATGCTACCCATGTAAGAGCAAACGGAAAACTTACTTATATTGGTGCTTATTCTGAAACCTGTGATTCAAAGGAAATTTATGATATTTTGTTAGCAGGAGCTTATGATGATTTGAAAGATGATGATGTGCGAGTTTATGCCATTGCTATGGATGGGAAATATCAGGGAAAGGATGTGTTAGTTATTGAATTTATACTTTCTCCAGAACAAATATATCAACAAATCTATCCTTATACGTTAGAAGGTAAAACAGTAATATTTGGAGAGAATTTATTCAAGAAATCATGA	MTNVEILLNAIKEQAEKFLIENAEFAPYATHVRANGKLTYIGAYSETCDSKEIYDILLAGAYDDLKDDDVRVYAIAMDGKYQGKDVLVIEFILSPEQIYQQIYPYTLEGKTVIFGENLFKKS				NA	NA	NA	NA	NA
BMS003_00260	768			hypothetical protein	ATGAATAATAGTGCAAAAATCGGAGAAGATAATATCTATAAATACAATCTGTATAAAGCTAAAAAAACCTTATGGCACTTCAATAATCTGATGAATAATGGCTATAACGATTATAATGCAGTGAAATTCATGAATTCCAATAAGGTTTATGTGTGGCTGGAAAATGTTAAAATTGAAGGAGATTATTATACAGGAGAATTAGCAGAAAATGGGAATGCTCAAAAAGTTCCAATTAACGATATCATAGATTGGATGATTATTGAAGATGGAAGACTAATCGGAGGTTACACTATACGACATTATAGAGATACCCTTGATGATGAAGCAAAACTAAACTTTGATATTGATTTTGGAGTAAAAATTGATGCAGGTAATGATTTTTTTAAGCTAGATTTAACAACGCCCGAAGGAGCTATTATAAGAATTGAGAATTTTTATACTGAAGAAAATTTGGAAGGCGTAAATTCCTGTAAAGATTTTGAAATGGAAGCAAAAAATTTACTAGAGGAAAGAGGTGCAATTATTACCGAAGAGATTAAAAATAAAATAACAGAAGCGTTGAAATCATCTTTCATTGAAAATTTGCATTCAAATGGATTTCCTAATTTCCAAAATATAGAAAGGAATTTCACAGCAAAAGAGATATCGAAAGGTAAGCAACTCATTGAAGAAAAGGTAATCTATCAAGATGGTGCTATTACCTATAATAATTTATGGGTGGGACAATCAAAAAATGGAGATTGGAAAGTCCTAAATCTGGTGGGATAA	MNNSAKIGEDNIYKYNLYKAKKTLWHFNNLMNNGYNDYNAVKFMNSNKVYVWLENVKIEGDYYTGELAENGNAQKVPINDIIDWMIIEDGRLIGGYTIRHYRDTLDDEAKLNFDIDFGVKIDAGNDFFKLDLTTPEGAIIRIENFYTEENLEGVNSCKDFEMEAKNLLEERGAIITEEIKNKITEALKSSFIENLHSNGFPNFQNIERNFTAKEISKGKQLIEEKVIYQDGAITYNNLWVGQSKNGDWKVLNLVG				NA	NA	NA	NA	NA
BMS003_00261	1161			hypothetical protein	ATGAAAACCTCCATTAACTTTAAAGCCGTAAAGTCCGATTCTGAAACCCATAATTTCAGGAAAAAGACTTTTGATTATATCAGGAAAGATTTAACTCCGAAAAATGAATATTGGCTCGAAGATAAAATAGCCGATAGGCAGAGAAAGATTGAAACCTATTGCAAAGAAAAATCGGGGAGAAAATTACAGAAAAATGCTCTTCCCATTCGTGAAGCCGTTGTCGTTATCAAAGAAAATACCACCATGCAGGATTTGCATAACCTTTCCAAGAGATTGGAAAAAGAATTAGGAATCAGGATATTTCAAATAGCCATTCATAGGGATGAAGGTCATTATGATAAAGATTCCAATGAGTGGAAACCTAATTTACACGCCCATCTGGTTGCTGACTGGCAGGATGTAAAGACTGGAAAAACCTTAAAGCATCACCCTCGTGAATATTCCAAAATGCAGGATATTACCGCAGAATGTCTGGAAATGGAAAGAGGAATTTCGGGATCAAGGAGAAGGCTGGAAGCCATTGAGTTTAAAATCCAGAAAAAGGAAGAGGAATATAAAGCGCTGGAAGAAAAAATTGAAGAAATGAAAACTGAATTTACTTCTTCAAAATCCGAAGTCTTGATTGTAAAGGAAACAGATTTTTTAGGATTTCAGCACATTAAAACGGATAAAACCATTGAGAATTACAAAAAAACTTTTAAGGTCTATAACAGTCAACTTCTCAAAAATAAAACTGAACTAGAATCCAAGGCAAAACAAATTACAGAGCTTCAAAATAAAATTGACAGTCTAAAAAAGGAAGTCAGTATACTTAAAAATAAAAATTCTGTTCTGATAGCCAATCCAAATATTTTTGCTGGTGAAAGAAAAAAATATCTTGATTCTGTTTTGGATACCCTTATAAAGTCAATCAAGTATGAAAGGCTCAAAAATCCTAATCCCAATAGAGAGGATTCCCAAAAGCTTATTGACGAAATAAGTCTGATTTGTAAAAAAACAGCAGAGGATAATAGAATTCCTTCTTCTGCTCTGGATGAGATTCTTAAAGACCCTAAAATTGCAGGAGCTTTATTGTCTTTGTTAAAGTTTGGGGATCAGAAAAAAAGTCAAGAAGCTGAAGAAGTTCCGGAAAATAAAAGAAAAAGAAAGCTGGGACGATAG	MKTSINFKAVKSDSETHNFRKKTFDYIRKDLTPKNEYWLEDKIADRQRKIETYCKEKSGRKLQKNALPIREAVVVIKENTTMQDLHNLSKRLEKELGIRIFQIAIHRDEGHYDKDSNEWKPNLHAHLVADWQDVKTGKTLKHHPREYSKMQDITAECLEMERGISGSRRRLEAIEFKIQKKEEEYKALEEKIEEMKTEFTSSKSEVLIVKETDFLGFQHIKTDKTIENYKKTFKVYNSQLLKNKTELESKAKQITELQNKIDSLKKEVSILKNKNSVLIANPNIFAGERKKYLDSVLDTLIKSIKYERLKNPNPNREDSQKLIDEISLICKKTAEDNRIPSSALDEILKDPKIAGALLSLLKFGDQKKSQEAEEVPENKRKRKLGR				NA	NA	NA	NA	NA
BMS003_00262	966			hypothetical protein	ATGAACTGTAAACAATTTAACACCATTCCGTTGGAAGAAGTCCTCCTTTCGCTCGGACATCTTCCCACAAAACAAAATGAAAAAGAAGCTTGGTATCTCAATCCATTTGCCAAAGAACACCAAGCCTCTTTTAAACTGGATAAACGCCAAAACCTATGGTTTCTTCACTCCGAAGGAATTGGCGGGGATAATACTGATTTTATGCAAAAATATCTTAATGCTTCCGTAAGCGAAGTTTTATCATGGGCAGAAAAACAGAATTTTTCTTCTTTTCACCAGCAGAAAAAACTATTAACCTTTCCGAAAACCATTCAAAAACCTGAATATCAAATTACAGGAATTCATGATCTACAAAATCAGAATCTTAAAAATTATCTTCATGAAAGAGGACTTTCACCATTTGTCTATCCATTTATAAAGGAGGTACATTTTACCATTAATGACAAAAAATTCTATGCCATTGGATTTGAAAATCAGGCAGGTGGTTGGGAACTTCGTAATTCCCTTTACAAAGGCTCTCTTCTTAATAAAGACATTTCAGTAATGCATTTGGGTGATCAATCTGTAAAAAGAAAAAATGCAGTCGTCTTTGAGGGTTTTATGGACGCATTATCTCTTATCGAAATGAAGAGGTTTTTCAGTGGTGATATTATTGTAATGAATTCAACAGCTCTGCTTTATAGAACCAAAGAACAGTTGAAAAATTATTCTCAGGTCTATTTGTTTTTGGACAATGATAATGCAGGGCTTCAATGTAAGTCTGAGATTTTATACTCTTTTCCCCATGCAATAGATTGCTCGGAACTATACTCCAACCATAAAGACCTTAATGAATATTTGGTGCATAAAATTAAAAATGAAAAAAATGTAGAAGCCAAACATTCATCTGAAAGCTTACAGGAATCCAGAGAAAAAATCGAAAAGCAGGAATCTGAAAACAAACAAAGTTTTAAAAGAAGAAGATGA	MNCKQFNTIPLEEVLLSLGHLPTKQNEKEAWYLNPFAKEHQASFKLDKRQNLWFLHSEGIGGDNTDFMQKYLNASVSEVLSWAEKQNFSSFHQQKKLLTFPKTIQKPEYQITGIHDLQNQNLKNYLHERGLSPFVYPFIKEVHFTINDKKFYAIGFENQAGGWELRNSLYKGSLLNKDISVMHLGDQSVKRKNAVVFEGFMDALSLIEMKRFFSGDIIVMNSTALLYRTKEQLKNYSQVYLFLDNDNAGLQCKSEILYSFPHAIDCSELYSNHKDLNEYLVHKIKNEKNVEAKHSSESLQESREKIEKQESENKQSFKRRR				NA	NA	NA	NA	NA
BMS003_00263	279			hypothetical protein	ATGCAGGCATCCAATCCCTTTCAAATCATTCTTGACGAACTAGGTGAAATAAAAGACTTAGTTTACTCCCTAAAGAAAGAACCTGAAATCGAACTGAAAAAGAAATTCTATTCCATCAAGGAATGCTCAGTAATTCTAAAGCTCGATTACCAGACCGTACGCTCCCACATTTTAAAAGGCAACATTAAGGCGGAACAAATAGGACGATTCTACCGAGTCAATCATTTTGACCTGATGAATGCCTTACATGAAGTGAAATCACTAAAGTATAGAAGATAA	MQASNPFQIILDELGEIKDLVYSLKKEPEIELKKKFYSIKECSVILKLDYQTVRSHILKGNIKAEQIGRFYRVNHFDLMNALHEVKSLKYRR				NA	NA	NA	NA	NA
BMS003_00264	735			hypothetical protein	ATGGATCAAAAGAAACTTTACGGACGTTGGAATTTTTGGGAAGAATTTGCAGGTTTTCCTATGATGATCTATTATTGGATCAGGGGTGAGAGAATTCAAAAAATGTTATATAACAGGATTGAGAAAGCCCAATATAAAGCCAGCCAATTAATTCTAACGGAAAAAATGAAACATGAGTTTCTGATTGATTATGAAAAGTTGGATAACTTTTTCAGCTTCCACTTTAAAGACATTGATACATCTAGAAGTCATAATTTTGATGAGAAAATTAAATACTGCTTACATCAGTACAAAAAGGAATCATCCAGACAATTAAGTTCAAGCAATTTAATGAAGCTTCAGGAGAATTTTCTTAAGGGTGCTGAAACTACCCTATTTCTGTACTTTGCATTGGATAGCAAGGTAAAAAGGGAAATCCGATTATCGGATATTATGATTGGAGAAAACAGCTCAAAAATTTTTCTCGATTTTTTGAAAGATAAAAAATTCATCGATGAAAATCATAATCTGCTCGTAGATCAAAAATCTTCGCTCATAAGGATACACCGATTCCTAAAAGATAATCTCATTATTAATCCAGAATTTCAGGATACAACCATTATCGAAGCAATGGAAAATGAATACAATACCAATTTTGATAAAGGAACATTTTCAAGAGCTATCATTGTCAAACCCACTGATTTCGAAGAAAGCATCTATAAAGAATTATCAAAAATCTTTAATATTGGGTATTAA	MDQKKLYGRWNFWEEFAGFPMMIYYWIRGERIQKMLYNRIEKAQYKASQLILTEKMKHEFLIDYEKLDNFFSFHFKDIDTSRSHNFDEKIKYCLHQYKKESSRQLSSSNLMKLQENFLKGAETTLFLYFALDSKVKREIRLSDIMIGENSSKIFLDFLKDKKFIDENHNLLVDQKSSLIRIHRFLKDNLIINPEFQDTTIIEAMENEYNTNFDKGTFSRAIIVKPTDFEESIYKELSKIFNIGY				NA	NA	NA	NA	NA
BMS003_00265	1242	xerC_1		Tyrosine recombinase XerC	ATGAATTCTACTTTTAAATTGAAAGAACCCAACAGTGAAAAGGAAACATTAATTTATTTCCGTTCCTATTTTGGCAGTGAAAATAAGAATTTTATTTATTCCACAGGTGAAAAAATAAAATCATCTGAATGGGATTTTGAAAACAGGCAACCCAACGACCTTAACGGAAGGACTAAAAGAGCCGAGAATCACAGAAGCATCAAAAGACAGCTTGACAGGTATACTACCTTTTTCTTAGAAATTGTCAACCGTTATAAAAATATCGGGGAAGAGCTAACAGTTGATGTTATCAGACAACGGTTTGATGAAGAATTTAAAAAGGTTAAAGTAAAGGATGATTTTTTCAGGATATATGATGAGTTTCTTGAAGAAAAAGAAAATGACTATTCTGGTAATTCTATTTCTAAATCCACAAAAGACCGATACGATTATAATAAAAAGCTGTTAGAGGAATTTCAGGAGAAATACAAATTAAAATTTACTCTGGGGAATTTTGATGAAAAGATTTATAATAAGTTCCTAAAATTCTGTATAGAAGATAAAGACCATTCGGCAAATACTGTTCATAGAAATATAGGATTATTGAAAACATTTCTGTACTGGACTTTGAATAAGAAATACACTTACAACAACAGCTTTATTAATTTTAAGAAACCTCCTAAGTTCCGTACCGATGAAGTTGCCCTCAATTACCAGCAGGTTGAAGAAATTTACAACTATGATTTCAGTAAGAATAAGAGACTGGAAAGAGTAAGAGACTTGTTTGTTTTTGGTTGTGTAACGGGAATGCGTTTTGGAAATTACAACCGTATTTCAAAACAGGACATTCAGGGAGATTTTATTAGGGTGATAGATTTGAAAAGCAAAACAAAGAATCTTTCTATTCCACTCAACAGTATTTCACGAGCCATTTTAGAAAAATATGAGTATGAGCTTCCTAATATTTCCAATCAAAAAATGAATGAATTTATAAAAGAGGTTTTTAAGGAGATGAAATTTACAGAAGACATCAAAAAGACCATGAAATACGGTGATGAGCTAGTAGATATAAAATCTGAATTCTGGGAAAGGATTTCTTCGCATACGGCAAGAAGAAGCTTTATTACGATTATGAAGAATAATAAAGTTCCTGATAAGGTGATTATGAGCTATACAGGGCATACCAGCTTAGAGGTTTTCAATAATTATTACCGTCCAAGCGAAGAGGATAAGGTTAATTACATGAATGAGGTTTTTAAATAA	MNSTFKLKEPNSEKETLIYFRSYFGSENKNFIYSTGEKIKSSEWDFENRQPNDLNGRTKRAENHRSIKRQLDRYTTFFLEIVNRYKNIGEELTVDVIRQRFDEEFKKVKVKDDFFRIYDEFLEEKENDYSGNSISKSTKDRYDYNKKLLEEFQEKYKLKFTLGNFDEKIYNKFLKFCIEDKDHSANTVHRNIGLLKTFLYWTLNKKYTYNNSFINFKKPPKFRTDEVALNYQQVEEIYNYDFSKNKRLERVRDLFVFGCVTGMRFGNYNRISKQDIQGDFIRVIDLKSKTKNLSIPLNSISRAILEKYEYELPNISNQKMNEFIKEVFKEMKFTEDIKKTMKYGDELVDIKSEFWERISSHTARRSFITIMKNNKVPDKVIMSYTGHTSLEVFNNYYRPSEEDKVNYMNEVFK				NA	NA	NA	NA	NA
BMS003_00266	1035	acr3	COG0798	Arsenical-resistance protein Acr3	ATGCAGCCCAGATTAAAATTTCTTAACCGTTATCTTACTCTATGGATCTTTATGGCTATGGGAACAGGGATTGCTTTGGGATATTTTTTCCCGGCTATTCCTGCTCTGATCAATTCACAGTCTGTAGGAACAACCAATATTCCTTTGGCAGCAGGGCTCATACTTATGATGTATCCTCCACTGGCAAAGGTTGATTATTCTCTCCTTCCGCTGGTATTTAAAGATAAAAAAGCAATCGGTATTTCTTTATTTCTCAACTGGATCATTGGTCCGGTTCTGATGTTCGCTTTAGCTGTTCTTTTTTTACGAAATGAACCTGATTATATGACAGGTCTCATCCTTATCGGGCTGGCAAGATGTATTGCAATGGTGATTGTATGGAATGATCTTGCTAAGGGTAACAGAGAATATGCTGCTCTTCTGGTGGCTTTAAACAGTATTTTCCAGGTATTTACTTATAGTTTTCTGGTCTGGCTGTTCATCAATGTACTTCCTGATCAGCTGGGGCTGGCCAATTTTAATGTAAACGTTTCGATGAAAGATATTACAGAAAGTGTGCTGATCTACCTGGGAATTCCTTTTCTGGCAGGTTTCCTCAGCCGTTATTTTCTGATAAAATCGAAAGGTGCCGACTGGTACAGCAGAAAATTTGTACCTCAGATATCTCCCGTAACACTGTATGCTTTATTATTTACCATCATACTGATGTTTAGCTTAAAAGGGTCCAAAATACTGGAGTTACCAATGGATGTAGTTAAGGTAGCAATTCCTTTAATTATCTATTTTGTTTTGATGTTTTTCGTAAGTTTCACAATCAATAAAGCATTAAAAATACCTTATGATAAAAATACTTCTATAGCCTTTACAGCTACCGGAAATAATTTTGAGCTGGCTATTGCCGTTGCAATCTCAGTCTTCGGTATTCATTCCCCGCAGGCATTTGTAGGTGTAATTGGCCCTTTGGTAGAAGTTCCTGTGCTAATACTCCTCGTAAGAGCTAGCTTATTATTGAAAAAGAAATGGTATCATCAATAA	MQPRLKFLNRYLTLWIFMAMGTGIALGYFFPAIPALINSQSVGTTNIPLAAGLILMMYPPLAKVDYSLLPLVFKDKKAIGISLFLNWIIGPVLMFALAVLFLRNEPDYMTGLILIGLARCIAMVIVWNDLAKGNREYAALLVALNSIFQVFTYSFLVWLFINVLPDQLGLANFNVNVSMKDITESVLIYLGIPFLAGFLSRYFLIKSKGADWYSRKFVPQISPVTLYALLFTIILMFSLKGSKILELPMDVVKVAIPLIIYFVLMFFVSFTINKALKIPYDKNTSIAFTATGNNFELAIAVAISVFGIHSPQAFVGVIGPLVEVPVLILLVRASLLLKKKWYHQ	PGPT0004705_2134	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
BMS003_00267	612	arsC		Arsenate reductase	ATGTATCAAAAACTATTAAATACGGTACAATCTCTACAATGGGAAAATACAGATACCGCCAGAAAAGAAATACTGAAGCCATTGATCAGTTTCATCCAGCAAAAGGCAGATGAGGGCAAAGAAATCAATCTGAATTTCATCTGCACTCACAATTCCCGCCGCAGTCATTTGGCACAGATCTGGGCACAGGCGGCCGCTTCTTTTTTCAGGATTCCTCATGTTCACTGCTATTCCGGAGGAACGGAAACTACAGCATTATTTCCAAAAGTTGCGGAAACCCTTACTGAACAAGGTTTTACAGTTTTCAGTATTGCTGATACTGTTAATCCGGTGTATGCAATAAGATATGATGAAAACAGCCTTCCTGTTATTGGTTTTTCCAAGAAATATGACAGTCTGTTTAATCCTGTTTCGGAATTTGCAGCAATTATGACCTGTTCGCAGGCAGATGGCGGATGCCCGTTCATTCCAGGTGCGGAAAAAAGAATTCCTATCACATTTGAAGATCCAAAAATTTCAGATAACACTTCGGAGCAGACAAAAGTTTATGCGGAAAGAAGTCTGCAAATCGCAAAAGAAATGTTCTATGTCTTTTCTAACATCCAAAAATAA	MYQKLLNTVQSLQWENTDTARKEILKPLISFIQQKADEGKEINLNFICTHNSRRSHLAQIWAQAAASFFRIPHVHCYSGGTETTALFPKVAETLTEQGFTVFSIADTVNPVYAIRYDENSLPVIGFSKKYDSLFNPVSEFAAIMTCSQADGGCPFIPGAEKRIPITFEDPKISDNTSEQTKVYAERSLQIAKEMFYVFSNIQK	PGPT0004715_462	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
BMS003_00268	474			hypothetical protein	ATGAAACTATCAGAAATCAAAGAAATTCTGCCTACATTAGAAAATGTTGAATTTCAATTAGAAAACGGAAATTTTGTTCCGGAACATTTCCATGTAACGGAAGTGGGCCAGATTATAAAAAAATTCATCGATTGCGGAGGCGTAATCAGAAATGAAAAAGCAGTCAATTTCCAGCTATGGAACGCTGATGATTACGAACATCGCCTGAAACCCGGAAAGCTGCTTCATATCATCCAGCTTTCTGAAGAAAAGCTGGGAATAGAAAACGCTGAAATTGAAGTAGAATATCAAAGTGAAACCATTGGAAAATATGATCTGGAATTTAACGGAAAAAACTTTGTCCTGAAGAACAAGACAACCACCTGTCTTGCACAGGATTCCTGCGGAATTCCTTCTGAAAAGCAAAAGAAAAATTTGTCTGAATTATCTGTAAATCCTACATCAGCCTGCACTCCGGGATTGGGCTGCTGCTAA	MKLSEIKEILPTLENVEFQLENGNFVPEHFHVTEVGQIIKKFIDCGGVIRNEKAVNFQLWNADDYEHRLKPGKLLHIIQLSEEKLGIENAEIEVEYQSETIGKYDLEFNGKNFVLKNKTTTCLAQDSCGIPSEKQKKNLSELSVNPTSACTPGLGCC				NA	NA	NA	NA	NA
BMS003_00269	330			hypothetical protein	ATGGGAGTTACTAAAACAGAAATCTATACCGAAGAACAAAATAAGCTGGCTTCTCTGCTTAAAGTTTTGGGACATCCGGCCAGAATAGCCATCTTACAACATATCATCAATCAAAAAGCCTGTATATGTAATGACCTTGTTGAAGAACTTGGGCTGGCTCAGGCTACCATTTCCCAACATTTAAAAGAGCTGAAAAATATTGGGATCATCAAAGGCTCCATTGAGGGAAAGTCTGTGTGCTACTGCATTAATGAAAGTACCTGGAAGCAGTTCCAAAATGAATTCAACCTGTTTTTTAATCAGGATATTACCATAAAACAATGCTGCTAA	MGVTKTEIYTEEQNKLASLLKVLGHPARIAILQHIINQKACICNDLVEELGLAQATISQHLKELKNIGIIKGSIEGKSVCYCINESTWKQFQNEFNLFFNQDITIKQCC	PGPT0004290_1527	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903	NA	NA
BMS003_00270	942			hypothetical protein	ATGAAAAAAACAGCACTTTCTTTATTGGTTCTTCTGAATATTGTGTGTAAAGCACAGAATTTTGATGTCATTCCCTTAGGAATATATGGTGGTGAGCAGGAAGACAATTTATCTGCTTATCTGGTAGGCGCTCCAAAAGACAATGCATTTCTCTGTCTTGATGCGGGTACCGTAAATGCAGGAATCCGAAAAGCCATCCAGCTGAAAAGTCTTGAAGGTTCAGCAGAAACAGTTCTGAAGGATCAGATCAAAGGATATTTTGTGTCGCACGGCCATCTTGATCATTTATCAGGGCTTATCATCAATTCTCCGGCAGATTCTAAGAAAAATATTTTCGCTATAGCTCCTGTGATTCAGATTCTGCAGAATCATTACTTTATCACGGATACCTGGATCAATTTTGCAGATCAGGGACAAAAACCTATCCTTGGAAAATATCATTATAACGAGCTTCACGAAGGAACTGAAATTCCTGCGCCTAAAACTCCGTTTTTCATCACAGGTTATGAGCTGAGTCATGTAAATCCTTATAAAAGCAGTGCAGCACTGGTAAGAAGAGATGATCACTATCTGCTTTATCTGGGAGATACCGGGGCAGACCGCATTGAAAAATCTGACCGCCTGGATCATCTTTGGAATGCAATAGCTCCTCTTGTTAAAAAAAGACAGTTAAACACCATATTAATTGAAGTTTCTTTTCCTAACAGCCAACCTGAGCATCTGCTGTTTGGACACCTTACCCCTAACCTTCTGACTGAAGAATTGAGTAAACTGAAAGTCAAGATTGGGCAAAGCAGCCTTGAAGGACTCAACATTGTGGTTACTCACAGAAAACCTACGGGTGACAATCCTGAACTGATCAAAAAAGAGTTACTCAAAAATAATCCTTTAAAAGTAAACTATATCTTCCCCGAGCAAGGTAAAAAGATCAGCTTACCATAA	MKKTALSLLVLLNIVCKAQNFDVIPLGIYGGEQEDNLSAYLVGAPKDNAFLCLDAGTVNAGIRKAIQLKSLEGSAETVLKDQIKGYFVSHGHLDHLSGLIINSPADSKKNIFAIAPVIQILQNHYFITDTWINFADQGQKPILGKYHYNELHEGTEIPAPKTPFFITGYELSHVNPYKSSAALVRRDDHYLLYLGDTGADRIEKSDRLDHLWNAIAPLVKKRQLNTILIEVSFPNSQPEHLLFGHLTPNLLTEELSKLKVKIGQSSLEGLNIVVTHRKPTGDNPELIKKELLKNNPLKVNYIFPEQGKKISLP	PGPT0021490_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021490-cpdP-K01120	NA	NA
BMS003_00271	870	aguA		Agmatine deiminase	ATGCAAAAAAAGAAAATCACGCTTATGGCATTACCTGCTCTTTTGATTGCTTGTTCTCAGACAGAATTACCAGAACTCCAAAGTACAACAAATGCAGGGACCGTTGTATACAAAATGCCCGAAGAGTCTGCAACACATGAAGGAACCTGGCTTCAATGGCCACATCAATATCAATATGGAATCACCTACCGTAACCGACTGGATGCAACGTGGGTAGCCATGACCAAAGAACTGGTACAAAGTGAAAAAGTTCACATTATTGCCTATAATGGGACAGAGAAAGATCGTATCATCGGGTTATTAAACTCTGCCAGTGTTCCTCTTACCAATATTAATTTCAAACTTTATCCTACAGATGATTTCTGGGTAAGAGATAACGGTCCTATTTATGTGAAAGATCAAAAAGGACAGTTATTCATTCAGAATTGGGGATTTAACGGCTGGGGAAATAAAGCTGATTACAGCAAATGTAATGCGATTCCTTCCAAAATAGCAACAGATACCAATATTCCAAAAATCAATCTTAATTCAATAATGAATGAAGTCGGTAGTGTGGAAATTGACGGAAACGGAGTATTAATGGCCTGTAAAAGTTCCATCCTGAATAACAACAGAAATCCGGGAATGACTCAACAGCAGGCAGAAGCGATATTTACTAAAAATTTAGGGATAACTAAATTTATTTGGCTGAATGGAAAAGCTGGCCTCGATATTACAGATATGCACATTGACGGTTTTGCAAGGTTTGCCAACCCTTCTACTATTATTACTATGAGCCCTGATGATCTGGCTTACTGGCAAGTTCCTGATAATGATATTGATAAGTTATATAATGCCACCACCAACAGCGGAAGCAGGTGGTTGGAATAG	MQKKKITLMALPALLIACSQTELPELQSTTNAGTVVYKMPEESATHEGTWLQWPHQYQYGITYRNRLDATWVAMTKELVQSEKVHIIAYNGTEKDRIIGLLNSASVPLTNINFKLYPTDDFWVRDNGPIYVKDQKGQLFIQNWGFNGWGNKADYSKCNAIPSKIATDTNIPKINLNSIMNEVGSVEIDGNGVLMACKSSILNNNRNPGMTQQQAEAIFTKNLGITKFIWLNGKAGLDITDMHIDGFARFANPSTIITMSPDDLAYWQVPDNDIDKLYNATTNSGSRWLE				NA	NA	NA	NA	NA
BMS003_00272	825	rhaS_1		HTH-type transcriptional activator RhaS	ATGGAATACCACCTGAATTGTATTTACAGAGTTATTAATTTCATGGAAAAGAATTATGATCAGCCTTTTTCTGTAAAGGAACTGGAAGATATTTCCCATTATTCTTACCGAAATATTCAGCGCATTTTTAAGTACAGCTGCGGCGAAACAATAGGCGCTTTCCAGCAGAGACTGAAGGTAGAAAACGCTTATAAACGAATCATTTACACTCAAGAAAGCCTTACCACCATTGCTATTGAAGTGGGTTTTGCCAATATTGCTTCCTTTTCCAAAGCTTTTAAACAACATTTTGGGATTTCCCCAAAAGCAGCAAGATTAAGTAAAGAAAAACTTCTTTGTGAAGACAAAATTATTCCCATCACACCTAATATATTGTTGGAACCGGAGATAATATATCTTAAGCCATTGCAAGTGTATTATCAAAGTATTAAAACCTATTATAACAACGAAGAAATTGAGGTGTTATGGGAAAAATTCATAGAAAATGAATTTCCTGATTCCGGAACAGACTATTTTGGCGTTATAGCCGATGAACCTTTAATTAAAATGGAAATCAACTGCAGATATGATGCATGTGCATCTGTACAATCAGCCAACAAAAAGCTTCCTTCAAAAACAATATTTGGTGGCAAATATGCCCGGTTTACTCATACGGGAAGCTATGAAACAATAGATAATACCTACACCAAAATCTATTCACGCTGGATTTTTAATTCAGGACTGGAATTTTCCCATACTCCCATTATAGAAAAGTATGAAAGACATGCTAAACATGAAGATGATCAGGAAGAACAACTTACTTATATTTTATTACCCTTGAAGTAA	MEYHLNCIYRVINFMEKNYDQPFSVKELEDISHYSYRNIQRIFKYSCGETIGAFQQRLKVENAYKRIIYTQESLTTIAIEVGFANIASFSKAFKQHFGISPKAARLSKEKLLCEDKIIPITPNILLEPEIIYLKPLQVYYQSIKTYYNNEEIEVLWEKFIENEFPDSGTDYFGVIADEPLIKMEINCRYDACASVQSANKKLPSKTIFGGKYARFTHTGSYETIDNTYTKIYSRWIFNSGLEFSHTPIIEKYERHAKHEDDQEEQLTYILLPLK				NA	NA	NA	NA	NA
BMS003_00273	1455			hypothetical protein	ATGAAAAACGATATTACATTCAAAGAATTAAAAGACACCGGTTACACCCATAAAACGATTAATGAGGAAATCCAGGCCAACTTAATTGCAAGGATTAAGGCTAAAGAACCCATATTTGAAGGACTTTGGGGCTATGAAGACACCGTTGTCCCCCAATTGAAAAAAGCCATTCTCGCAGGTCACCACATCAATTTGCTGGGACTTCGTGGTCAGGCAAAAACCAGAATTGCAAGAAGTATGGTCAATCTCCTTGATGAATATATGCCCATCGTAAAGGGATCAGAAATCAATGACAGTCCTTTTCATCCTATTTCAAGGTTTGCTAAAGATCTTATTGCTGAATTGGGTGATCAAACTCCTATTTCATGGGTACACCGTTCCCATCGTTTCTATGAAAAACTGGCTACTCCCGATGTGAATGTTGCAGATTTAATCGGAGATATAGATCCTATTAAAGCTGCAACCTTAAAACTACCCTATTCCGATGAGCGTGTTTTACATTACGGAATGATTCCCCGTGCCAACCGTTCTATTTTTGTTTTAAATGAATTACCGGATCTGCAGGCAAGAATTCAGGTTTCTTTGTTCAATATTCTGCAGGAAGGAGATATCCAGATCCGTGGATTCCAGCTGAGAATGCCGCTTGACATTCAGTTTGTATTCACAGCCAATCCGGAAGATTATACCAACAGAGGAAGTATTGTAACTCCGTTGAAAGACAGAATCGGGTCACAGATTTTCACCCATTATCCCAAAACCATTACTCTTGCTAGACAGATCACAGAACAGGAAGCATTGATTTCTCCGGAAGATAAAGCACATATACAGATTCCTGATCTCGCGAAAAACCTTTTGGAAGAAGTAGCTTTTGCAGCCCGTATCAGCGAATATGTAGATGCAAAAAGCGGTGTCAGTGCCCGTCTGACCATCAGTGCCATGGAAAACTTAGTGGCAGCAGCCAAATTACGCCTGATTGAATCCGGTGCCGGAAAAACAACAGTACGCCTGCTGGATTTTATGTCTATCATTCCTTCTATCACCGGAAAAATTGAACTGGTATATGAAGGAGAACAGGAAGGAGCCGATTATGTAGCCAAAATCTTAATTGACAAAGCGGTAATGACGCAATTTGAAAGTATATTCCCACGTATTTCCAAACTGGAAAAAGAAGAAATAAAAACCCCTTACACTGATCTGATCAGATGGTTCAATAAAAATCATCTGGAGCTCAATTACAATGATACGGATGAAGAATTTTATGCTAAACTTGATAAGATAGAACCTCTCACTACTGTAGTGGAAGAAAATGCGTCCGACCTGAGCACAGAAGACCAGAATTTCTGTAAGGAATTAGTTTTATGGGCATTAACAATCAGCAATAAAATTGACAAATCTGAAAATCAGAATGCTTTTACTTTTGATTCTCCGGGGATTGGCCAGTTCTTACGTAACTAA	MKNDITFKELKDTGYTHKTINEEIQANLIARIKAKEPIFEGLWGYEDTVVPQLKKAILAGHHINLLGLRGQAKTRIARSMVNLLDEYMPIVKGSEINDSPFHPISRFAKDLIAELGDQTPISWVHRSHRFYEKLATPDVNVADLIGDIDPIKAATLKLPYSDERVLHYGMIPRANRSIFVLNELPDLQARIQVSLFNILQEGDIQIRGFQLRMPLDIQFVFTANPEDYTNRGSIVTPLKDRIGSQIFTHYPKTITLARQITEQEALISPEDKAHIQIPDLAKNLLEEVAFAARISEYVDAKSGVSARLTISAMENLVAAAKLRLIESGAGKTTVRLLDFMSIIPSITGKIELVYEGEQEGADYVAKILIDKAVMTQFESIFPRISKLEKEEIKTPYTDLIRWFNKNHLELNYNDTDEEFYAKLDKIEPLTTVVEENASDLSTEDQNFCKELVLWALTISNKIDKSENQNAFTFDSPGIGQFLRN				NA	NA	NA	NA	NA
BMS003_00274	1140		COG4867	putative protein	ATGACAGATAAAAATTTTAATCCTCACCAAGGATTTATATTCAGTAAGCATGTGCCGGAGGAGATCTCTCATTTCGACCGGATCTTTGATGTTTTCAAAGATTTGCTTACCCACACCTCAGGAGATATTGAGGAAGCCTTTGAATGGCTTGAAATGCTTGATCAGGAATATGATATCTTCAGTGCAGAATATACCCTTCAGGACTTTGAAGAAGATTTGAAAAAAAGAGGCTATATCAAAGAAGAAGATCCTGAAGAGGGTAATAAAGGAAAGGGAAAAGGGAAAAATATTTTAACACCTAAACTGGAAGCTGCTCTTCGTGAATATGCCCTGGATCAGATTTTTGGAAAACTGAAAAAAAACGGAGCCGGAAATCACCGTACCCATAAAACAGGAATCGGAGATGAACGGGATGGTGAAAACCGTTCTTTCCAATATGGAGATGATCTGGCAGCTGTAAATATGACCGAAAGCTTAAAAAATGCACAGATCAATAATGGAATTTCAGATCTTCGCCTAACGGAAGAAGACCTCATCGTAGAAGAAACCAAACACAAGGCACAGATGAGTACCGTCCTGATGATCGACATCAGCCACTCTATGATCCTGTATGGCGAAGACCGTATTACCCCTGCCAAAAAGGTTGCGATGGCACTTGTGGAACTCATTAAAAGAAAATATCCCAAAGATTCCATTGATATCATTGTCTTTGGAAACGAAGCCTGGCCCATCAGAATCAAAGACCTTCCTTATTTAAAAGTAGGTCCTTACCACACCAATACAGTGGCCGGACTTGAGCTCGCTATGGATATTCTCCGCAGAAAAAGAAATACCAACAAACAGATTTTCATGATTACAGACGGGAAACCAAGCTGTATTCAGTTACCCAGCGGCGAGTTCTATATGAACAGTTTCGGCTTGGATGAAAAAATTGTTAACCAATGTCTCAACAGAGCAGCACAGGCCAGAAAGCTGAAAATCCCAATTACTACATTTATGATTGCACAGGATCCTTATCTGCGCCAGTTTGTAGAAGAATTCACAGCTCAGAATAAAGGAAAAGCCTTTCTGACGGGACTTTCAGGTTTAGGGCAAATGATTTTTGAAGATTACGAAAAAAACAGAATAAGAAGAATATAA	MTDKNFNPHQGFIFSKHVPEEISHFDRIFDVFKDLLTHTSGDIEEAFEWLEMLDQEYDIFSAEYTLQDFEEDLKKRGYIKEEDPEEGNKGKGKGKNILTPKLEAALREYALDQIFGKLKKNGAGNHRTHKTGIGDERDGENRSFQYGDDLAAVNMTESLKNAQINNGISDLRLTEEDLIVEETKHKAQMSTVLMIDISHSMILYGEDRITPAKKVAMALVELIKRKYPKDSIDIIVFGNEAWPIRIKDLPYLKVGPYHTNTVAGLELAMDILRRKRNTNKQIFMITDGKPSCIQLPSGEFYMNSFGLDEKIVNQCLNRAAQARKLKIPITTFMIAQDPYLRQFVEEFTAQNKGKAFLTGLSGLGQMIFEDYEKNRIRRI	PGPT0014015_3699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00275	1773			hypothetical protein	ATGAATCAAGAAAACGTCAATAAAAATACCCCGCTATATCCGGGAATGCAGCCTGACCTGAAAGTGGAAGTAGCCATCATTGGCGCCGGAACTTCCGGTTTATACACTGCTTTTCGCCTGGTAACAGATCATAAATATAAAGGTCATGAAGTACAGATCTTCGATATGAGCGATAGATTAGGCGGAAGACTGGAGTCTGTAATCATGCCCGGAATGAATTTCTGGGGTGAGCTTGGGGGAATGCGTTATTTAACTTCTCAGGAAATTGTGACCACTTTAGTAGAAGGATATCCTTTAAAAGAAAAAGACCTGAGTAAAAGAACTCCCGTATTAAAGGACAAGATGACTCCTGTTGATTTCCCTATGGGTGAACCGGAAAAACTTTATATGTACATCAGAAAAGAACGTTTCAAACAAAATGCATGGACGGAAGAGCAAAAACAGGGCAATAAACTGATTACCCGTTATTTTTTGAATGAAAATGATGAAGGCTTCAGCTCTGATCAGTTATTTAACAAAATTATCTATAATGTTTTAATGGCAGATCCATGGGTAGCCGCTACCTATAAAGATCTTATTATCGAAGACCCTAACGGCTATGATTATACATTTAAACTGACCAGCCGGGACTGGGATGTTATAAAGCCAAGAATGATTTACAATTTCCCGGGTTCTCCTTATGACAAGCGCCTGGTAAACGATATCGGTTTCTGGAATCTGATCAAAGACCAGGTTTCTCAGGAAGGATATGAATTCTTAGCGAATGCCGGAGGCTACTATTCCAACACCATTAACTGGAATTCTGCTGAAGCATTTCCATACATGGTAGGTGATTTTTCTGCCGATACTACTTATAAAACCATTGAGGAAGGCTATGACAGCATTGCTTATGCAGTGGCCAACACGTATATGGAGTATGAAGGAGCACGTATATGGTCTGAAAATAAACTGATCACGTTCACTAAAGATCATCATTTAACCGCAACCCACAAATATGAGCTTACTTTCCTGAATATTCAAAGCAACACAACATGGAAAGTATACGCCAATTCAATCGTATTGGGTATGCCGAGAAAGTCTCTTGAACTTCTGGATCAGAATAATTTCTTTTTTGATGCCAACAAACATCAGAAACTGAATAAAAATATCCGTTCTATTATTATGGAACCTGCATTTAAAATCCTGATGGGCTTTGAAGAACCATGGTGGAGGAATCTGGGAATTGATTCCGGACATTCCATTACAGATTTGCCGATGAGACAGTGTTATTATTTCGGTACTGATACAGAAACCCAAAACTCAATGTTATTGGGAAGCTACGGTGATATGGAAACCGAAACCTTCTGGAAAGCACTTTCTGATGACAAAGTCCTGTTTAAAGTAAGAGCTGCCCGGTCCGCTTCCCTTGAAGAATTACACAAGTTTGATGATGTTCAGGCCACTCAGTTTATGGTGAATGAATTGATGAACCAGCTGAAAGAATTACATGGTGTGGATATTCCTGAACCTTATGTAACCTATTTCAGAGACTGGACAGATGATCCATACGGTGCAGGATATCACGCCTGGAAAGCAGGCTTCTCTGTAAAAGATGTCATGCCTTATATGAGAAAACCACTGGAAGATGAGCAGATTCACATTATCGGGGAAGCGTATTCTGATCAGCAGGGCTGGGTGGAAGGAGCTTTCTGTGAAGCTGAGAAAATGCTTCAGACCCATTATCATTTAGAATGGCCGTACTGGCTAGATAAAGAATATTATCTGGGATGGTAA	MNQENVNKNTPLYPGMQPDLKVEVAIIGAGTSGLYTAFRLVTDHKYKGHEVQIFDMSDRLGGRLESVIMPGMNFWGELGGMRYLTSQEIVTTLVEGYPLKEKDLSKRTPVLKDKMTPVDFPMGEPEKLYMYIRKERFKQNAWTEEQKQGNKLITRYFLNENDEGFSSDQLFNKIIYNVLMADPWVAATYKDLIIEDPNGYDYTFKLTSRDWDVIKPRMIYNFPGSPYDKRLVNDIGFWNLIKDQVSQEGYEFLANAGGYYSNTINWNSAEAFPYMVGDFSADTTYKTIEEGYDSIAYAVANTYMEYEGARIWSENKLITFTKDHHLTATHKYELTFLNIQSNTTWKVYANSIVLGMPRKSLELLDQNNFFFDANKHQKLNKNIRSIIMEPAFKILMGFEEPWWRNLGIDSGHSITDLPMRQCYYFGTDTETQNSMLLGSYGDMETETFWKALSDDKVLFKVRAARSASLEELHKFDDVQATQFMVNELMNQLKELHGVDIPEPYVTYFRDWTDDPYGAGYHAWKAGFSVKDVMPYMRKPLEDEQIHIIGEAYSDQQGWVEGAFCEAEKMLQTHYHLEWPYWLDKEYYLGW				NA	NA	NA	NA	NA
BMS003_00276	1188	soxA		Monomeric sarcosine oxidase	ATGATTACAGAAAACTACGACGTAATCGTCATTGGCGGAGGAGCAATAGGTTTGGCTACAGCTTACCATCTCGGTCAGCGCCAGGCTAAAACACTGGTATTGGAACAATACACATTTGTCAATCAGCTGGGCAGCTCTGCAGGAGTATCGCGCCAGTTCCGGATTCCCTATCCGGATGAGTATATGGTACAGATGGCTCTGGATGCACAGCCTTATTGGGATGAACTGCAAAAAAAGACAGACATCCAATTGCTTGATACAGTAGGAACATTATGGTTTGGCGATCCTGAAGTACAATCTACCGAAGGAAATATTGCCGAAGCAGAAAAAGCTTTGAAAGCCTTAGGAGTTCCTTATACGACACTTACTGCAAAGGAAATTGAAGAACAGTATCATTTCAAAAATCTTCCTGATAATTATACAGGTCTGTTTCAGCCGGATGGTGCCAGTATTAATTTTAAAGCAACCATTGAAACTCTTTTAAACCTTTGTCAGAAAGAGGAAACCGTTGAGCTTAAAGAAGATTCTCCGGTATTGGAGATCAAACAAAACGGTGAACTTTTTGAACTTACTACTCCCAATGGAATTTATATTGCCAAAAAGCTGGCCATTATTCCGGGGCCTTACATCAACAGTGTTATCAACCTTCTTGATTTTAAAATAGAAGCCACTTACTGGAATATGTCTTCTGCTTATTTCAAAAAGACTGATCCTGCAATACAATATCCAACCTGGTTTGTGTTCCAGAATGCAACAGGAGACAACGGAAACCAGTTTTATGGATTTCCTTCCGTTGAATGGGATCATCCGGAATACATCCGCGTAGCACCGGATTTTGTGATCAAACCATTGGAAGAACCCAGTGACAGAACCTTGATTCCCAACCCTCAGGAACTGGCCTACACTTCGGAATGGATCCATAATCATATGACCGGTCTCAGCCTTGTTCCGGAATATACCTCAACATGCCTCATCGCGCTGAGTACAATTCCCAATAAAGAACTGCTGATAGATTTTGCCCCTTCGTATGTACCCAATCATAAAAATATTGTAGTGTATGCCACAGGATGGGCCGCCAAATTCACCCCATTCTTAGGAAAAATCATGTCTGATCTGGCACTAGACGGGCACACTGATTTTGATATTACTCCTTTCCGATTAGGATATAAATATTTCTTAGCACTTTAA	MITENYDVIVIGGGAIGLATAYHLGQRQAKTLVLEQYTFVNQLGSSAGVSRQFRIPYPDEYMVQMALDAQPYWDELQKKTDIQLLDTVGTLWFGDPEVQSTEGNIAEAEKALKALGVPYTTLTAKEIEEQYHFKNLPDNYTGLFQPDGASINFKATIETLLNLCQKEETVELKEDSPVLEIKQNGELFELTTPNGIYIAKKLAIIPGPYINSVINLLDFKIEATYWNMSSAYFKKTDPAIQYPTWFVFQNATGDNGNQFYGFPSVEWDHPEYIRVAPDFVIKPLEEPSDRTLIPNPQELAYTSEWIHNHMTGLSLVPEYTSTCLIALSTIPNKELLIDFAPSYVPNHKNIVVYATGWAAKFTPFLGKIMSDLALDGHTDFDITPFRLGYKYFLAL	PGPT0013530_73	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
BMS003_00277	1734	rcsC_1		Sensor histidine kinase RcsC	ATGAAATATAAATTCTTAAATTTTAAATTGAGAAAAGTTGTTCATTATTCAATGATCTTTTGCATCTTATTGATACAAATCATTATCGCTATATTTTTTTATAATGAATTTGTCAATGAGAAGAAGCTGAAATTTATCAAAAATCAGCTGGAAGAAAGCCGGGCACTGGGCGGGTTGACGGACAATTCCCGGAAGGATTTCATGGCTGCCCAGGATCATTTACAAAAATATATGGCTACTCAGGACAATAATGATCTGCAGCTTTACTTTCAGTCATTAAGGAATCTTAAAGCCAATTTTGATAAGATCGGGGAATACGAAAATGCAAGTCCGAGATTGAAAAAGAACCTGGAGGCTCACCGCCAGAGCCCTTTGAAGACGGCAAAACTGAAAACATTGATAGATTCTGTATACCAGAACTCTCTGAATCCGCCGGCAAAGATTGAGGATAAAGAATACGAACCGGCAAAGTATAAAAATGATTTTGAAGATTTCAAGATCCAGACGCATACATATGCTGATACTATTAAAAAGAAAGGATTCTTCGGGCGTTTAAAAGATGCTGTAACAGGAAAAGTGGATGTTCAGAAAGAAAGTACGGTCATTACGATGACCAACAATAAGACCATAGATATCTCTCAGGTAAAATCCAAAATGGATAACACCATAAAATCTATGGATAAGCATTATGCCGCCGAAGTAAAAAAAATGCAGCAGCTTGCAGTTCAAAGCCAAAAGAAGAATTTACAGTTTTACAGTAATTTCAGTAAATTATTGGTCTACAGTAACGGGCTGATAGAGGTATACGAGAATGCGATCAACGATTTTAAGAAAGAACTTGAAAAAGAATATAACGAACAAAGTTCCAACAATAATAAAATCAGGACGAATCTTGTATTGGGACTTATGGTTCTGATGTTTATTGTATCTATCCTGATTATGTTCTTCACAAGAATGGCATTTGTGTATGAACAAAAACTGAATGCTGCCAATAAAGAAATTAAAAAGAATCTTAACTTCAAAAACAGAATTCTGGGTATGCTGAGCCATGACCTTAGATCTCCGTTAAAGATTATCAATATTTTTATAGATAAAATCCACAGAACAACAAAGGATGAAACGATAAAAGATTACCTGAAATCCATAAAATTCACAAACAGCACTCTGCTGCTACAGTCTAATCAGATTCTGGAATATACCAAAAATGAGGATGCCGAAAAAGAACTTATAAAGTCAGCTTTCAATCTTAAAGAAGAGATCAGTTCTATTGTAAAAGTTATTACTCCTTATCTTGAAACAAGAAACAATAAGTTTGTAGTAACAGACAATATTCCGGAAAATGTAGAAGTCTTTTCGGATAATATCAGAATCAATCAGATTTTTATGAATATTCTGGGGAACGCCAATAAGTTTACAGAAAATGGGCAGATTGATCTGGTAATGAATACAGAACAAATTGGAGAGGATAAAATTTGCCTGATTACATCGGTAGGAGATACCGGAGTAGGCATATCAGAATCCGATCTTGGTAAAATTTTTGATCCATATTATCAGGGAGTGGTGTCTGATGAGGTAGATAATCTGGGAGCCGGGCTTGGACTTAATCTGGTAAAAGAAATTGTAGAACTTTTCGATGGTGATATATCAGTGGAAAGTAAATTACATAAAGGAACGAAAGTGACATTCAGGATCAATTTAAATGTTAATAATAATGGAAACGTCAATTCAAAATAA	MKYKFLNFKLRKVVHYSMIFCILLIQIIIAIFFYNEFVNEKKLKFIKNQLEESRALGGLTDNSRKDFMAAQDHLQKYMATQDNNDLQLYFQSLRNLKANFDKIGEYENASPRLKKNLEAHRQSPLKTAKLKTLIDSVYQNSLNPPAKIEDKEYEPAKYKNDFEDFKIQTHTYADTIKKKGFFGRLKDAVTGKVDVQKESTVITMTNNKTIDISQVKSKMDNTIKSMDKHYAAEVKKMQQLAVQSQKKNLQFYSNFSKLLVYSNGLIEVYENAINDFKKELEKEYNEQSSNNNKIRTNLVLGLMVLMFIVSILIMFFTRMAFVYEQKLNAANKEIKKNLNFKNRILGMLSHDLRSPLKIINIFIDKIHRTTKDETIKDYLKSIKFTNSTLLLQSNQILEYTKNEDAEKELIKSAFNLKEEISSIVKVITPYLETRNNKFVVTDNIPENVEVFSDNIRINQIFMNILGNANKFTENGQIDLVMNTEQIGEDKICLITSVGDTGVGISESDLGKIFDPYYQGVVSDEVDNLGAGLGLNLVKEIVELFDGDISVESKLHKGTKVTFRINLNVNNNGNVNSK	PGPT0012930_959	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
BMS003_00278	654	uvrY	COG2197	Response regulator UvrY	ATGGAAACGTCAATTCAAAATAAAGAAATCATATTCCTGCTGGCAGACGATCACAGTATTGTTCGTCAGGGAATGGAAATTGTGATCAGCGATATATTGCCTGAAGCTAAGGTTTATCAGACTTCAGCTTTAAATCAGGTCTTGGAACTCATAGAATCTAAAGGAGTGGAGATGGTGATCATTGATGCTCATTTCCCGGATGGAAACAGCCTTCATATTTTACCTGAGATGAAAAAAATTAATCCTGATATTAAAATTTTGGTTTTTACAGGTCTGGAAGAGGATCTGCATGGACTTAAATTTGTGAAAGCAGGTGCTAATGGCTATTTGAGCAAACTGAGTGAAGAAGATGAGGTAAGAGATGCTGTCGCTGCGTTCATAGAGAAAGGGGAGTACTTTTCTGAACATTTGAGAAACCTTATTGTACAGCTGGTTCATAACCCGAATCTGATAAGCCCTCTTATGAATTTAACAAAGAGAGAAATGGAAATAGCAGAGCTGTATGCCGAAGGATACGGAAATCTTGAAATTTCTAATGAACTGAATATTAAACAAAATACAGTAAGTACCATCAAAAAAAATATCTTTGAAAAACTGAAGATAGAAAATATGGTAGAGCTAATAGAGCTTGTCAAAACGCACCATAAACTATAG	METSIQNKEIIFLLADDHSIVRQGMEIVISDILPEAKVYQTSALNQVLELIESKGVEMVIIDAHFPDGNSLHILPEMKKINPDIKILVFTGLEEDLHGLKFVKAGANGYLSKLSEEDEVRDAVAAFIEKGEYFSEHLRNLIVQLVHNPNLISPLMNLTKREMEIAELYAEGYGNLEISNELNIKQNTVSTIKKNIFEKLKIENMVELIELVKTHHKL	PGPT0012935_553	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
BMS003_00279	408			hypothetical protein	ATGTCAGGAGAAAAAAAATTAAGCATTTTGCTTCAGCATATGGAACCCGTATTAAATACCGGAGAATATGTTTTTTGTACCGTTGAAAATCTAAATAAAGTTCCCGATATAGAAAAGACTCTGTTTTTCTTTCGCGAAGCTGAGGCTGTTACCATTGTTTTAGAAAAAAAAATTGCAGATGAGTGGTCTTTGGAGTATAGCTATATTTCTTCCTGGATTACGCTGAATATTCACTCTTCTCTGGAAGCTGTGGGGCTTACTGCTGCTTTTGCCAATGCATTGAAAAAAGAAAATATCAGCTGTAATGTAGTGGCCGCGTACTTTCATGATCATATTTTTGTTGCCAAAAAAGACGCTGAAAAAGCAATGCAAGCCCTCCATGCATTGAGATCAGCTCAGGATCTTTAA	MSGEKKLSILLQHMEPVLNTGEYVFCTVENLNKVPDIEKTLFFFREAEAVTIVLEKKIADEWSLEYSYISSWITLNIHSSLEAVGLTAAFANALKKENISCNVVAAYFHDHIFVAKKDAEKAMQALHALRSAQDL				NA	NA	NA	NA	NA
BMS003_00280	948	rutD_1		Putative aminoacrylate hydrolase RutD	ATGAAAACAATCAGAAAAGTCTCAGCTGCTAGCTTATTATGCTTAACTCTTTTTACAGTAGTAACCATGTCCTGCACTGAAGAGAATGAGCCTCCCACGATACAGGAGATACAAGGCAGAAATCACCAAACTGCCAAAACCAGATTCATAAACGTTAAAGGTGATGCTGTTGCCTACCGCGTATTAGGTAAAGAAGACGGGATTCCGCTGGTGCTTCTTCCGGGGCTGGGAGGGTCAATGGATGACTGGGATCCTATAATTACAGATGGACTGGCAAAAAAGTATAAGGTAATTATCTTCGACAATAAAGGTGTTTCTTCTTCAAAGGGAACTACTCCTGATACCATTCAGGCAATGGCGGATGACGCTGTTGATTTTATCCAAGCATTGAATCCTGGTAAAGTGAATATCATGGGGTTTTCCATGGGTGGTTTTGTTGCACAGAGAATAGTACTTACCAATCCTTCACTGATCAATAAAGTGATTTTAACAGGAACAGGCCCACAGGGAGCCATCGGATTATCTAATCTGCCTGATATTATTGCTGGAACAGCAGGATTAGATGCAGAAGCCTCTTTTTTGAAATTTGGGTTCACAGAATCTGCTCAAAGTATGGAAGAAGGAAAGGCGTCTTATGCAAGAATTCAGCTTCGTACGGCAAACAGAGACCTTCCTTTAAGTGATGAGGCTTCCAACTCGCAATTTACTGCCGTTCTGAGCTGGGCCCAGGCCAGTCCTGATGCTCTTACAGAAATACAAAAGATCAAAAATCCGGTATTAATTGTTCATGGTGAGAATGACCTTCCGGTATCTGTTCAGAATGCTAAAAATATGGCTCAGAATTTAGACCATGCAGAGCTGGTGATTTTTCCGGATTCAGGACATGCTTCTTTCTACCAGTACCATGATGTTTTTATAGGAAAAGCTATTGAATTTCTTGGAAAGTAA	MKTIRKVSAASLLCLTLFTVVTMSCTEENEPPTIQEIQGRNHQTAKTRFINVKGDAVAYRVLGKEDGIPLVLLPGLGGSMDDWDPIITDGLAKKYKVIIFDNKGVSSSKGTTPDTIQAMADDAVDFIQALNPGKVNIMGFSMGGFVAQRIVLTNPSLINKVILTGTGPQGAIGLSNLPDIIAGTAGLDAEASFLKFGFTESAQSMEEGKASYARIQLRTANRDLPLSDEASNSQFTAVLSWAQASPDALTEIQKIKNPVLIVHGENDLPVSVQNAKNMAQNLDHAELVIFPDSGHASFYQYHDVFIGKAIEFLGK				NA	NA	NA	NA	NA
BMS003_00281	396			hypothetical protein	ATGAAACTTACCTCATTAAGAATGATCAGTAAAGACATCAAAGCAGCAGTAGCATTTTATGAGCAGATCAGCGGTATAACTGCCACATGGTATACAGAAGATTTTGCAGAACTCTCTACAGATTCTATCACAATCGCTATCGGAAGTACCCGAACAATGCAGCTATTTTCAGAAGGTCTTTCCAGCTTCACAGGAACGAAATCTACCATCATTGAATTTTTGGTTAAAAACGTAGATGAAGAATATGAAAGAGTTAAAAGCATAGCTTCCCAAATCATCCAGGAACCCACAACAATGCCGTGGGGAAACAGGTCACTTCTGTTCTGTGATCCGGATGGCAATATGATTAACTTCTTTACTCCCGTGAGTGAAGAGGCTATGAAGAAATTCAACTAA	MKLTSLRMISKDIKAAVAFYEQISGITATWYTEDFAELSTDSITIAIGSTRTMQLFSEGLSSFTGTKSTIIEFLVKNVDEEYERVKSIASQIIQEPTTMPWGNRSLLFCDPDGNMINFFTPVSEEAMKKFN				NA	NA	NA	NA	NA
BMS003_00282	819			hypothetical protein	ATGAAAAATACTTTTTATATCATAGTATCATTTTTTGTATTAACGTCCTGTGAAAAAGAGATCGACCTGGATCTGAACGATCAGAGCGGAAACATTGTCATCGAAGGAAATGTAACCAATAAACCCGGACCTTATATTGTAAAAATCACGAAATCTGTAGGATTTTCAGAACCTAACCAATATCCGGCTGTAACCGGTGCTCAGGTAATCCTGAGTGATGATACAGGGCAAACAGAAACACTTCAGTATGCAGGAAACGGTATGTATCAAACCTCCACATTTACAGGAGAACCCGGCAGAACTTATACTTTAAAAGTGCAGGCTGAAGGGAAACTGTATTCTGCGCAGAGCAAGATGCCGGATGTAGTTAATTTTGACGGGTTAGAACAGAGTTCTTTCAAATTTGGTGATAAAACCACTTATACTCTTTTACCAGTTTTCACAGATCCTATGCCATTGGGAAACCGTTATCTTTTTAGTTTTACGATCAATGATCTTACTAAAAAATATATGAATACTTTTTCAGATAATGTGAATAACGGACTGGTTAATCAACAGCCTCTTATTCTTCCTAATGATGACAATAAAGGCAGAGATCATGAAGTGGCAGCAGGAGATAAAATTCATGTGGAAATGCAGTGTATTGATAATAATATATTTACCTATTACAGCTCATTACTGCAGATTTCAGGAGGTAACGGAGGAACAGCTACTCCAGCCAATCCGCCAAGCAATATAAGCAACGGTGCTTTGGGATACTTTTCAGCTCATACGACTGATACGCAAACTTTTGTTATTGAAGAGACAACAACTCCATAA	MKNTFYIIVSFFVLTSCEKEIDLDLNDQSGNIVIEGNVTNKPGPYIVKITKSVGFSEPNQYPAVTGAQVILSDDTGQTETLQYAGNGMYQTSTFTGEPGRTYTLKVQAEGKLYSAQSKMPDVVNFDGLEQSSFKFGDKTTYTLLPVFTDPMPLGNRYLFSFTINDLTKKYMNTFSDNVNNGLVNQQPLILPNDDNKGRDHEVAAGDKIHVEMQCIDNNIFTYYSSLLQISGGNGGTATPANPPSNISNGALGYFSAHTTDTQTFVIEETTTP				NA	NA	NA	NA	NA
BMS003_00283	2331			hypothetical protein	ATGCAAACATCCTTTTTAAAAATCACCGCAGCCACCGCTGCGCTCTGTTTCAGTACCCTGGCAATGGCCCAACAAAATTATTCTGTAAGTGGAACCGTGAAAGACAAAAAAAACGGAGAACTGTTAATCGGAGTATCAGTAAAAGTAAATGAAGATCCCACCATTAATGTTGTTGCCAATGAATATGGGTTTTATTCTCTTTCATTACCAGAAGGCAATTATACCATCCTCATCTCCAATCCCGGATATGAGGACTTTGAACAACAGATTAAAGTTGACCATAATATAAAACTAGACCTTCCTCTTCTTCCGGCAGAAGCATCAGCAAAAGCAATAGACGAAGTGGTGATAACCGGTATAAAAAAAGACAGAAATTTAACCTCAGCTCAAATGGGAGCGGAAACATTAAGCATCAAGAATATAGAAAAACTTCCTGTTCTTTTTGGAGAAAAAGATGTTATGAAAACCATCCAGCTTTTACCGGGTATCAAAAGCAATGGTGAAGGAAGCAGCGGATTCAGTGTAAGAGGCGGTGCTACTGACCAGAACCTGATATTGCTGGATGAAGCGCCTGTTTATAATGCCTCTCATCTTCTAGGGTTTTTCAGTACATTCAATAGTGATGCACTGAAAGATGCCAGTATCATTAAAGGAAACAGCCCTGCTCAATATGGAGGCCGCCTTGCTTCCGTACTGGATGTAAAAATGAAAGACGGAAATAATAAAGACTATAATCTTAACGGAGGAATAGGTCTTATCAGCAGCAGACTGAGTGTGGAAGGACCAGTTCAGAAAGAGAAATCTTCATTCATTGTTTCGGGAAGAAGAACTTATGCCGATCTTTTTCTTAAAACCAATAAAGATTATAAAGACAACAAGTTATATTTTTATGACCTGAATCTGAAAGCCAATTATCAGATCAATGAAAACAACCGTGTTTACCTTTCCGGATATTTTGGAAGAGATGTTTTGGGATTGGGAGATACTTTTAATACAGACTGGGGAAATACCACAGCAACGTTGAGATGGAACAGCATCATCAGCAGTAAATTATTCTCCAATACGTCTTTTATCTACAGTAATTATGACTATAAAATCAGTCTGAAAAATGATGATACCGTATTCGATTTAAACTCCAAAATACGTGACTGGAACCTTAAACAGGACTTTACCTGGTTTGCAGGAAACAAGCATTCTGTTCGCTTTGGTCTGCAGTCTATTTATCATACAATTACCCCAAGCAGTGCTTCCGGTACTACGGTGAGCAGCTTTCCAAGAAATCCCAGATATTCATGGGAAAATGCAGTTTACATTAATGACGATTATAAAGCTACTGAGAAGCTAACGATCAATTACGGAGCAAGACTTTCCATGTTCAGTGTACTGGGTGGAGACACCTTCAATACTTATGAAAATGGAGTTCTTACTGACAGCAGATTTTTGGAGAAAGGAAAATTCGGGAAAACTTATACGAATATTGAACCCCGTATCAGTGCCAACTATCGTATCAATGAATTCAGCAGTGTAAAGGGAGGCTATTCCCGAAACACTCAGAATCTTCACCTTTTAAGCAACAGCAACAGCGGAAACCCTACAGATCAGTGGATAGGAAGCAGTTATACCGTAAAACCGGAAATTGCTGATCAGATCAGTCTTGGGTACAGCAGAAATTTCAACAATAATAATTACGAACTGAACGCTGAAATCTACTATAAAGACATGAAAAACCAAATCGACTTCAAAAACGGGGCTCAAATTGGTTTTGACACTGGAGCGGATGTAGAAAGTGAATTGCTATTCGGAAAAGGAAGAGCTTACGGTCTGGAACTTATTGCCAAAAAGAAAAGCGGAAAACTGACAGGATGGATTTCCTATACCCTTTCCAAAACAGAAAGAAAGATTGACGGAATCAATAATAACGAATGGTACAACGCCAGAATGGATAAAACCCATGATCTTTCCGTTGTTGCTACCTATCAGCTTAACCCGAAATGGAGTTTTTCAGGATTGTTCGTGTACAGTACAGGAAATGCAGTAACCTTCCCTACCGGAAAATACGAACTGAACGGGCAAACTGTATTCCAGTACAGCAACAGAAATGCAGACAGAATGCCGGCTTATCACAGAATGGATCTGAGTGCGACTTATGAACCAAGTTCCAATAAGCGATTCCGTGGTTCATGGACGTTTGGTATTTACAACCTTTATGGCAGAGAAAATGCCTACACCATCAACTTTGAAGATAATCCTGACAAACCGGGAACAACACGTGCTATGCAAACTTCTCTGTTCCGTTGGGTACCTAATATTACTTATAATTTCAAATTCTAA	MQTSFLKITAATAALCFSTLAMAQQNYSVSGTVKDKKNGELLIGVSVKVNEDPTINVVANEYGFYSLSLPEGNYTILISNPGYEDFEQQIKVDHNIKLDLPLLPAEASAKAIDEVVITGIKKDRNLTSAQMGAETLSIKNIEKLPVLFGEKDVMKTIQLLPGIKSNGEGSSGFSVRGGATDQNLILLDEAPVYNASHLLGFFSTFNSDALKDASIIKGNSPAQYGGRLASVLDVKMKDGNNKDYNLNGGIGLISSRLSVEGPVQKEKSSFIVSGRRTYADLFLKTNKDYKDNKLYFYDLNLKANYQINENNRVYLSGYFGRDVLGLGDTFNTDWGNTTATLRWNSIISSKLFSNTSFIYSNYDYKISLKNDDTVFDLNSKIRDWNLKQDFTWFAGNKHSVRFGLQSIYHTITPSSASGTTVSSFPRNPRYSWENAVYINDDYKATEKLTINYGARLSMFSVLGGDTFNTYENGVLTDSRFLEKGKFGKTYTNIEPRISANYRINEFSSVKGGYSRNTQNLHLLSNSNSGNPTDQWIGSSYTVKPEIADQISLGYSRNFNNNNYELNAEIYYKDMKNQIDFKNGAQIGFDTGADVESELLFGKGRAYGLELIAKKKSGKLTGWISYTLSKTERKIDGINNNEWYNARMDKTHDLSVVATYQLNPKWSFSGLFVYSTGNAVTFPTGKYELNGQTVFQYSNRNADRMPAYHRMDLSATYEPSSNKRFRGSWTFGIYNLYGRENAYTINFEDNPDKPGTTRAMQTSLFRWVPNITYNFKF				NA	NA	NA	NA	NA
BMS003_00284	603	resA_1		Thiol-disulfide oxidoreductase ResA	ATGGAAAATCTAAAAATCTGGTTAAGAAAAAATGCTTCAACTGCTATACTGACTGTATTGTTTATTGTGATTCTGGTGAATAAAGATGCAAAGGCATGGCTGATGAGGCAGGTAGCTTCTACGGGAATTCTCAATTCCGGCATTTCCGAAGCAAAAGAACCACAAAATGCTTCTGTAAAAGCTTCCTATGTTGGCTTTACTCTGAAAAATGAAGATGGGACTATTATTGATTCTTCAACTTTAGAGAATAAAGTAGTTTTCATTAACTTTTGGGCATCATGGTGTCCTCCGTGCCGTGCAGAGTTTCCATCTGTTCAGAAATTGTATGATCAGTACAAAAACAATCCGGATATGGTATTTCTTACAGTAAACCTTGATGATAATCCAGATCTTGGGAAATCTTATCTGAAAGAGAAAGGTTTTACAGTCCCTTTTCTGATTCCGGCAGCTAATATTCCTGATGTATTGTATAGTGGATCTTTACCAACCACTGTTGTACTGGATAAAAAAGGAGAAATACGCCTGCATCATAAAGGACTTGCAGATTATAGTAAAGATTCTTTTTATAAACAGATTGATGAGTTGTTGGAACAAAATCCTTAG	MENLKIWLRKNASTAILTVLFIVILVNKDAKAWLMRQVASTGILNSGISEAKEPQNASVKASYVGFTLKNEDGTIIDSSTLENKVVFINFWASWCPPCRAEFPSVQKLYDQYKNNPDMVFLTVNLDDNPDLGKSYLKEKGFTVPFLIPAANIPDVLYSGSLPTTVVLDKKGEIRLHHKGLADYSKDSFYKQIDELLEQNP				NA	NA	NA	NA	NA
BMS003_00285	564			hypothetical protein	ATGATACAACAGCTAAGAATCCACATCGAAAAAATAGTTCCTCTTAACGATGATGAATTTGAATTCATATCGTCCTGTTTTACCTATAAAAAATATAAAAAGCATCAGTTTTTAGTACAGGAAGGAGAAGCTGTACCTTATAATTATTTTGTATTGAAAGGACTTCTGAAATTGGTATATACAGATGAAACCGCAAAAGAACATATTATCGGTTTTGCTATGGAAGACTGGTGGGAAACCGATTTTCCGGCTTATTACCAGCAAACTGCAGCTACAATGTCTTTGGAATGCATTGAAGATACAGAAGTATTATGCATTAGGCTGGATGATTATAAAAAACTCTGTGCACAGCTACCGAAACTGGAACATTTCTTTCTTGAAAAAGCTTATATGGGTTTTATTACCGCTCAGCAGCGTACCATTTCCATGATGACAACCGGAATAAAAGAACGCTATGATCAGCTTTTGAAAAAATATCCTTCGTTGGTTCAGCGGGTTCCAAAATCTCTTCTGGCTGCTTATTTAGGAGTCTCGAGGGAGACCTTGAGCCGATTGCCACTGTAA	MIQQLRIHIEKIVPLNDDEFEFISSCFTYKKYKKHQFLVQEGEAVPYNYFVLKGLLKLVYTDETAKEHIIGFAMEDWWETDFPAYYQQTAATMSLECIEDTEVLCIRLDDYKKLCAQLPKLEHFFLEKAYMGFITAQQRTISMMTTGIKERYDQLLKKYPSLVQRVPKSLLAAYLGVSRETLSRLPL	PGPT0015075_4670	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
BMS003_00286	390			hypothetical protein	ATGGAAAAAAGAACAGTTAATCCATGGAAATGGCAGGATGAGAGAAGCTATTCTCAGGCTGTAGAAGTTAAAAATGTTGAAAGCACCTTATATTGCTCGGGGCAGGCAGCTGTAGATCCTGAAGGAATATCAAGTAATAAGGATATGAAGTCCCAGCTGGAACATGCTATTGCTAATCTGGAAAGAGTGATTAGCTCTGCAGGATATGAATGTGAGGGAATTGTCAGGTTAAATGTCTATACAACTTCTGCAAAAGAGCTCTGGCCTTATTTTCCTATTCTTCAGGAGTGGATTGCCAGGCATAAGATTCAGCAGGCATTGACCATGCTGGAAGTGAAAGGATTATTTGAAACACTCAAAATAGAACTTGAAGCTACCGTGGTGAAGTAA	MEKRTVNPWKWQDERSYSQAVEVKNVESTLYCSGQAAVDPEGISSNKDMKSQLEHAIANLERVISSAGYECEGIVRLNVYTTSAKELWPYFPILQEWIARHKIQQALTMLEVKGLFETLKIELEATVVK	PGPT0020030_1944	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
BMS003_00287	813			hypothetical protein	ATGAAACGTAACCTCGTCTATTTTTTACTTCTTTTGACAAGTAATTCTATTTTTTTGAGTGCACAGGTAGGTATTAATACAACAAATCCACAAGGTGTATTTAATATTGATGGTGCAAAAGATAATCCTACCACCGGAATACCTTCAGCCGCACAACAAGCCAATGATGTGGCAGTAACTGTTGGAGGAAATATGGGGATAGGAACTACCGTTCCTACAAATAAACTTCATGTAAATGGTTCGAATCCATTACGTCTTGAGGGAGTGGGAACTGGAAGTAGTACTACAGATCCTCTGCTGGTAATTGATGCGAATGGAGTTGTAAAGAATATTGGTACGCTGGGGGCTTTATCTATTCCCAGTCCGGCAGTATTCCGGTTAGAAACTGCTCAGTCTAATTTTTTACAATCTCAAGGATCCGGGGGATTACAGGTAGTACCTATGAGTACGGTAAAGAATTCTATTCCGGGGCTTACCTATAATACAGGTACGAGTACAATAACTTTTCCTGCAGGAACGTATCAGATAACATTTGTTTATGAAGCAACACATAATGCTACAGGATGTACAATCAGTTCTTATTTTGTAGATTTCCCTCTTAATACAGGAACTTCAAGAGTCCACAGTACGGCGTCACATTCCGAGGGAGCACTTTCTAACCACGGAGGAACAATAACCTATGCCACTACTGTTCCTGCCAACAGGAACTGGACAATAGCGTTGGGAAGAGGCCAGTCAGGTAACTGCTCAGGGGCAGGAATGAACCTTTCCGCAACATCTACCCAGATACTGGTCTTCCGAATTGGAGATTAA	MKRNLVYFLLLLTSNSIFLSAQVGINTTNPQGVFNIDGAKDNPTTGIPSAAQQANDVAVTVGGNMGIGTTVPTNKLHVNGSNPLRLEGVGTGSSTTDPLLVIDANGVVKNIGTLGALSIPSPAVFRLETAQSNFLQSQGSGGLQVVPMSTVKNSIPGLTYNTGTSTITFPAGTYQITFVYEATHNATGCTISSYFVDFPLNTGTSRVHSTASHSEGALSNHGGTITYATTVPANRNWTIALGRGQSGNCSGAGMNLSATSTQILVFRIGD				NA	NA	NA	NA	NA
BMS003_00288	789	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATATTCAACTTTTTTCAAAAAATGCTTTAGTAGGAGGTGCTACACAGGGAATCGGTGCCGGAATTGCCATTGAACTGGCAAAATGTGGAGCCAATGTTACCGTTATGGCCCGTAATGAAACCAAACTTAAAGATTTCGTTTCTGTACTGCCCATTATCAATCCTGATCAGAAACACGATTATCTGGTAGCAGATTTTTCGGATTTTGAAAGCTATAGAAAAATTATAGCTGAATATTTGAGTAAGCATTCAATTGATATTCTGGTGAATAATACCAATGGCCCGGAACCGGGGTTGGCAGTCGATAAAAATGCAGATGATTATCAGAAAGCATTTGATTTACTGTTTAAAACTGTTTGCGAAACAACGTTATTGGCTTTACCTCATATGATCCGGCAGAAAAAGGGGTGTATCATTAATGTTTCTTCTTTGTCGGTAAAAGAACCCATTGGAAATCTGGCTTTGTCCAATTCTATCCGTTCTGCAGTAATTGCTTGGGCAAAGACGCTTTCCAATGAAATTGCACAGCATAATATCACGGTAAATAACGTCTTAACAGGATATTTTGATACTGAAAGAATTCAAAAACTGGTAGCTCATGAAGCTCTGCAAAGTGGCGCTTCAGAAGAAGAAATAAAAAAGGCGAGGGAGAATAAAATTCCGATGAAAAGATTCGGGCAGCCGGAAGAATATGGCCATCTGGTTGCTTTCCTGGCTTCAGAATATTCAAATTATCTTACCGGAACAAGTATTCCTCTGGATGGAGGGCTGAATAATACGTATTAA	MNIQLFSKNALVGGATQGIGAGIAIELAKCGANVTVMARNETKLKDFVSVLPIINPDQKHDYLVADFSDFESYRKIIAEYLSKHSIDILVNNTNGPEPGLAVDKNADDYQKAFDLLFKTVCETTLLALPHMIRQKKGCIINVSSLSVKEPIGNLALSNSIRSAVIAWAKTLSNEIAQHNITVNNVLTGYFDTERIQKLVAHEALQSGASEEEIKKARENKIPMKRFGQPEEYGHLVAFLASEYSNYLTGTSIPLDGGLNNTY	PGPT0003180_4278	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
BMS003_00289	3483			hypothetical protein	ATGAAAAATTGGTCTTTTAAAAAATGGAACACCATACTGGGGTGGTTCCTTTTCGTTGTTGCGCTTATTACTTATCTGTCAACAATAGAACATTCTTTAAGCTTCTGGGATTGTGGAGAATACATATCTTCCGCTGTAAAACTGGAAGTTACCCATGCTCCGGGAGCTGCTTTATTTCAGATTATGGGAGCCGTGGCGGGTATTTTTGCATTAGGGAATGCTGAAAATTATTCTATTGTGATCAATGCCATGTCAGCATTATTCAGTGCATTTACCATCCTTTTTCTGTTCTGGACAATTACCCATTTTTTAAGAAGGCTTTTGCATAAAGATTTTGAAGAAATTACAAAGCATCAGGGAATTTCCATTCTTTTTGCGGGAGTGATCGGAGCTTTATGCTTTACTTTTTCAGATACATTTTGGTTCTCCGCAGTAGAAGGAGAGGTATATGCAATGGCTTCCATGTTTATTGCTTTGCTGGTATGGCTCATCACAAAGTGGGAAAACGAATATAAAGCGGCTGACAGTGAGCGATGGATTATTCTTATCTTCTTTATTATAGGGCTTTCTGTGGGGGTACATATGATGTGCATGCTGGCTATTCCGGCTATCTGTCTGATTTATTATGCCAGAAATTATACTTTTTCCTGGAAGAGTTTTATGATAGCGAATTTAATTACACTGGGAATTCTTGCCTTCGTATTCAAAATTATTTTTCCTTTGATTATGACATTGTTCGGAAAGCTTGAAATTTTCTTTGTGAATGGGTTAGGACTTCCATTCCATTCAGGGACAATTGCAGCATTTATTCTTATGTCTGTTATCAGCTATCTTTTGATTAAATATGCCGGAAAAACCCAAAAAAAGGTTTATCAGACTATGGCTTTATCTCTTGTTTATATGATTATTGGTTTCTCATGCTGGCTGGTAATTCCAATAAGAGCAAATGCCAATCCTCCGATGAACCTTAATGATCCGGATACAGCCATCGGAATGAGAGATTATTATAACAGGGTACAATATGGCGACTGGCCTACTATTTACGGACAGAACTACACCGCATTTCTCGACAGTAACGGACTGGAAAAAGATGAGGAAGGAAATTTTAAAAAAGACATCACCGGTGATATTTACGAAAAAGATGAAAAAACCGGAACTTACAGAAAAGCCGGAGAAAGATTCAATTATGTATTTAATAAATCTCACATCAGCTTTATGCCGAGAATGTTTAATAATGATAAAGAAGTAATGGCTAATTATATTGCTTTATACGGAGCTCCCGATTTTACTTTTAATTATGATAATGAAGAAGCTGCAGACAATCCGGAAGCTAAAAGAATTTTTGAAGAGTTGAGAGCAAAATACGAAGAAGATTCCATCACTGCAGAAGATTATCTTAAGGTAAAGCCTTATGATATTATCAAGGTAAAACGCCCTTCCTTTACACAGAATATGGATTATTTTTTCTCCTTTCAAACCGGATATTATTTTGTAAGATACCTGATGTGGAATTTTGTAGGGAGACAGAACGATCTTCAAGGACATATGGAAAACACCAATGGGAACTGGATCTCAGGATTTTCTTTTATTGATAATGCATTATTGGGAGATCAGGATCATATGCCTGCAAAGTTTAAAAATGAAAGTACCGTAAAGTTTTTCTTTTTGCCACTGATTTTAGGTTTGATTGGTTTCTTTTTCCAGCTCAACAGAGATTTTGGAAGGTTTTATGCCATGCTTTCACTGTTTATTCTGACAAGTGTGGGAATTGTTTTTTATACAGGAGTAAAACCGTTTGAAGTGAGAGAAAGAGATTATGCCATGGTAGGCTCATTTTATGCCTTTGCTATTTGGATAGGTCTGGGAGCGGGTGCACTCCTTTGGCTGATTCAGTCTAAAGTTAAATCCAATGCGGCAAATATTGTTTTGGGAATTGTTTTATTAGGAATTCCTTTTATGATGGGATTTCAGAATTACACTTCGCACGACAGAAGCAAGAAGACGGCAGCCCGTGATTATGCCTACTCATTCTTACGCTCTCTGCCTAAAAATGATATTATGTTCATTTATGGTGATAATGATACCTTTCCGGTATGGGCAATTCAGGAGACGGAAAGATTCAGGGATGATGTGAAAACGGTGAATTTTACGCTTTTAGGCACTCCCTGGAATATTGATCAGGTAAAAAGAAGAACATATAATGCTATGGGAATTCCAAGTGAACTGACTCACGAAGAATACAGAGAAGGTGTGAATGACGCAGTTTATCTGATGACAAAACAAAGTTGGGAGCAGATTTTCCAGATGTTGAAAGAGCAGGGAGCGCCGGACACGGCTTTTCAGGAGTTCAGAAAATACCTGACTCAGGATTCGCTTACTTTAAAAGAGGCTATGAAGTTCCTGAAATTAAAATCTCCCGAAAAAGACGAGCTGCTGAAGATGTACGCTGGGGAACAATATGAAAAATACAATATCCTTCCGGTGAGCAAATTTATTCTTCCTGTAAATAAAGAGAATGCCGTGAAATCCGGAATTATTAATAAAGCTGATCTTCCAAATGCTGTAGATCAGATTATGATTAATTATGAAGCGAGCTTACTTTACAAAAATAATCTGATGCTGCTGGATATGCTGGCGAATTTCGATTGGAAACGCCCCATTAACTTCTCCTCAGGCGGAATGTATGACAGCGAAAACATTTTTTATCTGGATGAGTATCTTCAGCTTGACGGTTTCAGCTACAGGCTGGTTCCTATCCATACTCCTCAAAAACCGGATGGAGAAAAGGGAAGAGTAGATGCCAATTCTCTTTATCAGGTAGTAAAAAACTTCAGATGGGGAAATTTTAAAGACCTGAGTAATTATTATGATGAAACGGCTACGTCTAATATTCTTGGCTACAGAATGTCGGTTAGCAGAGCTGTGTTTGCACTTGTAGCAAGCGGGCAGAAAACTAAGGCATTAGAATTACTGGATCTTGCCGCCAAAGAAATTCCTGTGGAAAAATATAATGATCCGCGTTCATTAAGTGCAATGGTTACCGGATACATTGCAGCCGGACAGGAGCAAAAAGGCCTTCAGCTGGCAGAAGAATTGAAAAAAGGAATATTTGAAGAATATGATTATTACCAAAACCTTACGCCGTCATTTAAAGCAATGGCTAAAAGACAGATGAGGTCAAAACCGATGGAATATGCACTTGTTGTTTCAGCCGTTACGGATGCGTACAAAACCTTGGGAGAGAATGAAAAAGCACGGGTTTACCTTGTAAAATCAATGGAGCCGGTTGATAAGAAATTTAATGTATTTATAAAAGGATTACAGCAGATGGGCAAAGAAAAGGCAGCGAAAGAAGCCGAAAATGTCCGTCAGATTGCTCCTTTTTATCAGTATTTATTTAATGTGATGGAGCCTTTTGATTCCACCTATTCCAGAAAAAAAGAAGGTGAAATTACGAATGCGCTAATGAAAGTGACACAGTAA	MKNWSFKKWNTILGWFLFVVALITYLSTIEHSLSFWDCGEYISSAVKLEVTHAPGAALFQIMGAVAGIFALGNAENYSIVINAMSALFSAFTILFLFWTITHFLRRLLHKDFEEITKHQGISILFAGVIGALCFTFSDTFWFSAVEGEVYAMASMFIALLVWLITKWENEYKAADSERWIILIFFIIGLSVGVHMMCMLAIPAICLIYYARNYTFSWKSFMIANLITLGILAFVFKIIFPLIMTLFGKLEIFFVNGLGLPFHSGTIAAFILMSVISYLLIKYAGKTQKKVYQTMALSLVYMIIGFSCWLVIPIRANANPPMNLNDPDTAIGMRDYYNRVQYGDWPTIYGQNYTAFLDSNGLEKDEEGNFKKDITGDIYEKDEKTGTYRKAGERFNYVFNKSHISFMPRMFNNDKEVMANYIALYGAPDFTFNYDNEEAADNPEAKRIFEELRAKYEEDSITAEDYLKVKPYDIIKVKRPSFTQNMDYFFSFQTGYYFVRYLMWNFVGRQNDLQGHMENTNGNWISGFSFIDNALLGDQDHMPAKFKNESTVKFFFLPLILGLIGFFFQLNRDFGRFYAMLSLFILTSVGIVFYTGVKPFEVRERDYAMVGSFYAFAIWIGLGAGALLWLIQSKVKSNAANIVLGIVLLGIPFMMGFQNYTSHDRSKKTAARDYAYSFLRSLPKNDIMFIYGDNDTFPVWAIQETERFRDDVKTVNFTLLGTPWNIDQVKRRTYNAMGIPSELTHEEYREGVNDAVYLMTKQSWEQIFQMLKEQGAPDTAFQEFRKYLTQDSLTLKEAMKFLKLKSPEKDELLKMYAGEQYEKYNILPVSKFILPVNKENAVKSGIINKADLPNAVDQIMINYEASLLYKNNLMLLDMLANFDWKRPINFSSGGMYDSENIFYLDEYLQLDGFSYRLVPIHTPQKPDGEKGRVDANSLYQVVKNFRWGNFKDLSNYYDETATSNILGYRMSVSRAVFALVASGQKTKALELLDLAAKEIPVEKYNDPRSLSAMVTGYIAAGQEQKGLQLAEELKKGIFEEYDYYQNLTPSFKAMAKRQMRSKPMEYALVVSAVTDAYKTLGENEKARVYLVKSMEPVDKKFNVFIKGLQQMGKEKAAKEAENVRQIAPFYQYLFNVMEPFDSTYSRKKEGEITNALMKVTQ				NA	NA	NA	NA	NA
BMS003_00290	528			hypothetical protein	ATGAAAAAGTTTATTATTTCAATGATGCTGATAGGCTCAGGATCACTTTTTTCCCAGGTTTCAGTAGGTACGCAGGCACAGGAAAACAGCAAATGGACTTTCGGAGGAGGAATCGGATTGGGGTTTGGAAGCAATAGTTCTTTTAACCTGCAGGCTTCACCAAGAGTAGGTTACAGACTTACGGATGATCTTGAAGGCGGTGTCATAGGAAGTGTGTCGTGGCAGACTTCTGATTATTATAAATCTACAATGTTTGGTGTAGGGCCTTTTATCAACTACTATTTTGCAAGATCATTCTATGTGGGTGCCAATTATCAGCATTTTTTCATCAATTATAAAGACAAACATTACGATTATAAATACAATACAGAAGAGAACGCTTTGTATCTGGGAGGCGGATATATGCAGAGAATAGGGAATAATTCCTTTATGCAGCTGGGGTTGATGTATAACGTGCTTTGGAAAGAGAACTCCAGTGTGTTTACAAGCGGTCTGATCCCAAATATTGGTTTCGTGGTGGGACTTTAG	MKKFIISMMLIGSGSLFSQVSVGTQAQENSKWTFGGGIGLGFGSNSSFNLQASPRVGYRLTDDLEGGVIGSVSWQTSDYYKSTMFGVGPFINYYFARSFYVGANYQHFFINYKDKHYDYKYNTEENALYLGGGYMQRIGNNSFMQLGLMYNVLWKENSSVFTSGLIPNIGFVVGL				NA	NA	NA	NA	NA
BMS003_00291	1188	mnmA		tRNA-specific 2-thiouridylase MnmA	ATGAAAATAGTAGTAGGCCTCTCCGGAGGTGTAGACTCTAGTGTTACCGCTTATTTGCTGCAGCAGCAAGGCCATGAAGTAGTGGCTTTATTTATGAGAAACTGGAACGATGCTTCCGTAACATTAGAAGATGAATGTCCCTGGATTGAGGACAGTAATGATGCCCTTATGGTGGCACAAAAGCTTGGAATTCCTTTCCAGGTAATTGACATGAGTGAACTTTACAAAGAACGTATTGTTGACTATATGTTTTCTGAATACGAAAAAGGAAGAACTCCCAACCCTGATGTATTGTGTAACCGCGAAGTAAAATTCGATGTGTTTATGAAGACTGCCATGTCTTTAGGCGCAGATAAAGTTGCTACAGGACATTATGCAAGGGTAAATTCTACTTTTGATGAAAACGGTAAAGAAATTTTCCACCTTCTGGCTGGGAAAGACAACAATAAAGATCAGTCTTATTTCCTTTGCCAGCTAAGTCAGGATCAGCTTTCTAAAGCCCTATTTCCAATCGGAGAACTTACAAAACCTCAGGTAAGAGAAATTGCAAAAGAAATCGGACTGGTAACGGCAGATAAAAAAGATTCTCAGGGATTATGTTTCATCGGAAAAGTAAGCCTTCCCCAGTTTTTACAGCAGCAATTGAAACCTAATGAAGGGGAAATTGTAGAAATTTTCAAGGATTCGCCTTTATTTTCGGAAGAAAAGCCTGAATTTTCATCTAAAGAAGAAGAACTTGAGTTTTTATCCAGAAAAATCAATTATAAAAAATCTAACGGAAAAGTAATCGGGAAACATCAGGGAGCCCAGTTTTTCACGATCGGACAAAGTAAAGGTCTTGGGATAGGCGGACACAAAGAAAGTTGTTTTATCATCTCCAGAGATATGGAAAACAACATCCTTTTCGTAGGAGAAGGAAGCCATTTCCCGGGTCTTCATAAAAAAGCGCTGAAGATAGATAATTCTGAATTGCATTGGGTACGTGAAGATATGAGACTGCAGAATGGAGAGTCTATGGAAGTATTGGCCAGATTCAGATACAGACAGCCTTTGCAGAAGGCAACCTTATATCAGTTCGAAAATGCTTTTTATATTGAATTTGATGAGCTTCAGTCTGCTATTGCCGAAGGTCAGTTTGCTTCATGGTATATTGATGAGGAATTGATCGGTAGTGGCGTGATTTCATAA	MKIVVGLSGGVDSSVTAYLLQQQGHEVVALFMRNWNDASVTLEDECPWIEDSNDALMVAQKLGIPFQVIDMSELYKERIVDYMFSEYEKGRTPNPDVLCNREVKFDVFMKTAMSLGADKVATGHYARVNSTFDENGKEIFHLLAGKDNNKDQSYFLCQLSQDQLSKALFPIGELTKPQVREIAKEIGLVTADKKDSQGLCFIGKVSLPQFLQQQLKPNEGEIVEIFKDSPLFSEEKPEFSSKEEELEFLSRKINYKKSNGKVIGKHQGAQFFTIGQSKGLGIGGHKESCFIISRDMENNILFVGEGSHFPGLHKKALKIDNSELHWVREDMRLQNGESMEVLARFRYRQPLQKATLYQFENAFYIEFDELQSAIAEGQFASWYIDEELIGSGVIS				NA	NA	NA	NA	NA
BMS003_00292	210			hypothetical protein	ATGAAAACATCTACAAAAAACCAGTATGCTTATGTAAACAATATTCTGATTGCAGTTGTATCCGCTATTTTCGGTTATAATTTTTATCAGGCCATTGTACATCCGGAAAACTCAAATATTGCGATCAGCCTTATTTTAGTGATACTGACTTCCGCTATGGTTCGAAAGTATGGCTATCAGCCCGAAAAAGAAAAAAAGAAAGATATTTAA	MKTSTKNQYAYVNNILIAVVSAIFGYNFYQAIVHPENSNIAISLILVILTSAMVRKYGYQPEKEKKKDI				NA	NA	NA	NA	NA
BMS003_00293	1227			hypothetical protein	ATGGAATATTATGAATTGTATGAAGTTTTGAAAAATCATTTTGATTCCGGAAAAGACAGAGCCGCACTCAGAGAACTGAATATAACCGTTGAGTCAATTCCTTTCGAATCTAAAGTTTGTGACCTTCTTTACGGCTCCGAAATTCAGCATTGCACCGAACATAAGCAGACACTGGAAACCAGCAAAAACAGCTATCTGTTTTATGGTCAGCCTGCAGTAGACGTCAAGGATTTTGATATTGAGTGCAATAAAAAGTTTAAATATCATATCCTGAAACGGGCAGATATGGAAACTGCCGGCGGAGCCCTATTTTTCTTTCATGGACTGAATGAAAAGAAGTGGGATAAATATCTTCCATGGGCATATGAACTGGCTCAAAGAACCCAAAAAGCCGTTATCCTGTTTCCCATTGCATTTCATATGGATCGTGCAGAACCTATCTGGAGTGATCGCCATCATATGATGGAAGTGGTGAATTTCAGGAAGACAAAATATCCGGAAAACATGCACAACTCCTATGTGAATGCAGCAATAAGCTCACGGTTGGAGGCTCATCCCCAAAGGATTTTCTGGTCTGGGTTACAGACTTATTCTGATATTACTGAAGTAGTAAAAAGTATTAAAAAAGGTGAAATCAAGAGTATTTCTAAAGATTCGGATCTGGATTTATTTGGCTATTCAATCGGTTCTTTTCTTTCGATGATTATCAAAATGGCAGATCCTCATCAGTATTTTACCCAGTCAAAAGTATTCTGCTTTTGCGGAGGAATGACAATTGACAGGATGTTTCCTATCTCCAGATACATTATGGATACTCAGGCCACGGTGAAAATGCAGTCTGTTTTCACGGAACTATTAAGTTCTGATTTTAAATCGGATAATAGATTGAGACATTATCAGAACGAAGATTTGCATCCGCAGGAAAGCTGGTTTAAAAAGATGCTCCGCTACAATTACTTTCAAAAAGAAAGAGAAGAAAGAATTCGTGAAATTCAGGATCAGATCAAAGCATACGTACTGGAAAAGGACAGTGTGGCTCCTCCGATGGAGGCATTAAATACCCTGCAGGGAGGTTATCGGAATATCAATGTAGATATTGAAATCAAAGATTTTCCGTTTGAATATTCCCATATGGTTCCGTTTCCGCTTACCCGCAAGCATACGAAAGAGGTCACGGAAGCCTTTCACCATTTTGTACAATCTGCCAGCGAATTCTATAATACCTGA	MEYYELYEVLKNHFDSGKDRAALRELNITVESIPFESKVCDLLYGSEIQHCTEHKQTLETSKNSYLFYGQPAVDVKDFDIECNKKFKYHILKRADMETAGGALFFFHGLNEKKWDKYLPWAYELAQRTQKAVILFPIAFHMDRAEPIWSDRHHMMEVVNFRKTKYPENMHNSYVNAAISSRLEAHPQRIFWSGLQTYSDITEVVKSIKKGEIKSISKDSDLDLFGYSIGSFLSMIIKMADPHQYFTQSKVFCFCGGMTIDRMFPISRYIMDTQATVKMQSVFTELLSSDFKSDNRLRHYQNEDLHPQESWFKKMLRYNYFQKEREERIREIQDQIKAYVLEKDSVAPPMEALNTLQGGYRNINVDIEIKDFPFEYSHMVPFPLTRKHTKEVTEAFHHFVQSASEFYNT				NA	NA	NA	NA	NA
BMS003_00294	744	lytR_1	COG3279	Sensory transduction protein LytR	ATGATCAAAACAGTCATTATAGAAGACGAAAAACCTGCTTCAAGAAAATTAGAGAGAATGCTGGGTAATTTTCCTGAAATAGAGGTAGTTGCCAAAATAGAATCTGTAGAGGAAGGAGTAGCCTGGTTTTCTGAAAACGAACATCCGCAGCTGATCTTTTCAGACATTGTTTTAGGTGACGGACTGTCTTTTGATATTTTTGAGAAAGTGCCTACCAAAGGTTTCATTATCTACACAACAGCCTTTGATCAGTATACCCTGAAAGCCTTTAAGCTGAACAGCATAGATTATCTCTTAAAGCCCATTCTTGATGAAGATCTGGAAGGAGCCGTGGAGAAATTTAAATCATTCATCCCTGCCAGTGATACATTGGGTTCACAGGATATCAAACAGCTGATCAGAAAAGAAAAATCTACCCTGTCCAGAGTACTGGTTAAAATAGGGTATAACCTCAAAATTATTCAGACCCACGAAATAAGCTGTTTTTTCAGTGAAAATAAAATTGTCTATCTTCAGACAGAAGACCGTACTTATCCGTCAGATTTTACCCTGGATGAACTGGCAGATGTACTGGATGAGAAAAAGTTTTTCCGGGTCAACAGACAGTTTATCATAAGCTCAGATTATATAAAAAATATCCACACTTCACCCTACTACAAGGTAGAGCTGGAATTTCAGCCGGAAGAGGAGATTACGGTCAGCAGAGACCGTGTGAAAGATTTTAAAGACTGGCTCGTCAGCTGA	MIKTVIIEDEKPASRKLERMLGNFPEIEVVAKIESVEEGVAWFSENEHPQLIFSDIVLGDGLSFDIFEKVPTKGFIIYTTAFDQYTLKAFKLNSIDYLLKPILDEDLEGAVEKFKSFIPASDTLGSQDIKQLIRKEKSTLSRVLVKIGYNLKIIQTHEISCFFSENKIVYLQTEDRTYPSDFTLDELADVLDEKKFFRVNRQFIISSDYIKNIHTSPYYKVELEFQPEEEITVSRDRVKDFKDWLVS	PGPT0026304_527	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_00295	276			hypothetical protein	ATGGATTACGAAACTGCCTATACAAGAACCAACAGCATCAGAAAATTCTATAAAAGCATTTTTATATTTGCCATTTTTGCTGTTCTTATCATTCCGGATGATATTTTTGGTGAACATATTATTCAAATCAGATTATTTGACAGGTATACCATTCTTGGGATCTGGGGATTTATTCTTTTTATCAAAGCCGTAAAACTGTTTCTTTTTGATTCCGAATGGGAAAGAGCTATGATTGAAAAAGAACTTAAAAAAGAGAAAAAAAGAATAGACTATTAA	MDYETAYTRTNSIRKFYKSIFIFAIFAVLIIPDDIFGEHIIQIRLFDRYTILGIWGFILFIKAVKLFLFDSEWERAMIEKELKKEKKRIDY				NA	NA	NA	NA	NA
BMS003_00296	297			hypothetical protein	ATGGAAATTTTACCAAATAAAGAGACCATTGCTTACAGAAAAGCATCACGAAGAGTAAAAGAACTGAAAGAGTTTTATGGAAATCTTACTTCTTACTGCCTGGTAATTCCTTTTTTGGCCATATTAAATCTTTTCACCGCTCCCGGATACTTATGGTTTTTGTGGCCTGCGATGGGCTGGGGAATAGGAATAGCCTTTCATGCTGTAAATGTATTTGGGTTAGGAAAAAGCTGGGAAGAAAGAAAAATAAAGGAACTGATGGAGAAAGAAGAAAAAGAGAAAATAAAAATACTATAA	MEILPNKETIAYRKASRRVKELKEFYGNLTSYCLVIPFLAILNLFTAPGYLWFLWPAMGWGIGIAFHAVNVFGLGKSWEERKIKELMEKEEKEKIKIL	PGPT0026305_1021	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_00297	570			hypothetical protein	ATGAACCTTTTATCAACTTTATTCTATATTTCAATGGCCGCATGGTTTCTTACCGAATTCCTTTATAAAAACATGCTGAAGTCAGGCAAAGAAGATCAAAAGAACAAAGATAAATCAACGCTGAATATCTTATGGATGGCCATTCCTTTTTCTATTGCGAGTGCTATTATCATATCTTATAATACCCATTTTCCGATTGTGGATGATATCTGGATTCTTTATTTGGGAGAGCTTTTCATTCTTGTCGGAATTCTTATAAGATATACTATCATCAGATCGCTTGGTAAGTATTTTACGGTAGATGTTACAATCAGGCAGGATCATAAAATCAAAAAAGAAGGATTTTACAAATACCTGAGACATCCTTCCTATGCTTTCTCTCTGCTTACCTCTTTGGGGCTAGGATTGTATTTAAATAATTGGCTGTCAGTGATCTTTGCTTTTATGCCTCCGTTTTTAGCTTTTGCCTACAGAATTAAGATCGAAGAACAGGCTTTGGTGGAGCAGTTCGGAGAAGAATATCTTGAATACAGAAAAAATACCAAGAAACTGATCCCGTTTATCTACTAA	MNLLSTLFYISMAAWFLTEFLYKNMLKSGKEDQKNKDKSTLNILWMAIPFSIASAIIISYNTHFPIVDDIWILYLGELFILVGILIRYTIIRSLGKYFTVDVTIRQDHKIKKEGFYKYLRHPSYAFSLLTSLGLGLYLNNWLSVIFAFMPPFLAFAYRIKIEEQALVEQFGEEYLEYRKNTKKLIPFIY				NA	NA	NA	NA	NA
BMS003_00298	306			hypothetical protein	ATGGAAACATTTGACGAAAATGATATTGAATACCAGCGTGCCAGAAGACAGGTAGACAGGCTACGCGGATTTTACGGACATTTATTTGTTTATATAGTAGTAAATGCAGTGATTGTGGTGTACAACTGCATGAATCTTAAACCCGGTGAAGGCTATTTCCAGTTTAAAAACTTCTTCACTGCTACCTTCTGGGGAATAGGACTGGCAGCACATGCTGTTACGGTGTTCCTGCCCCGTGTTAGGTTTATCAGGAAATGGGAAGATAATAAAATTAAAGAACTGATGGATCAACAGAAAAACCATTAG	METFDENDIEYQRARRQVDRLRGFYGHLFVYIVVNAVIVVYNCMNLKPGEGYFQFKNFFTATFWGIGLAAHAVTVFLPRVRFIRKWEDNKIKELMDQQKNH				NA	NA	NA	NA	NA
BMS003_00299	1314			hypothetical protein	ATGAGACGGAAAAACTTTATCATACTATTTTGGGTGTCGCTGGTGGTTTCTATGTTTTTCTTTTTTGTCTTTACAGAAGAAAAGAATCTTGAAAACTTTTTGTATACAATACTCATCTCTTTTATTTATTCCTTCGTGCTGGGAGGAGGAAACGGAATACTGAATAGCTTTCTGAATAGAAAGATCCCATGGTCTGAAGCAACTACCAAAAGAGCAGTTATAAGTATTATTTCTATTATTACAGCCAATTTTGTGTTAGTCTATTTTTGTAATTACGTCAATTTTGTACTTATTCAAAAGACAGCTACTACAGAAGAATTTTTCCTTGGAAAATATAATTTCCTAAATTGGTTTACGATCAATATTGCATTATTGATATCAGCCTTTCTTCATGCCAGAAGCTTTATGGAAGAGCTTAAGAAAACTTCCAGAAAAGAAGTGGTAGAACAGAAACTGATTGCCAAATCTGCAAATGCCCAGTTTGAAAGTTTAAAGAACCAGCTGGATCCCCATTTCCTGTTCAATTCACTCAATGTTTTAAGCTCCCTGATTGACGAGAATCCACGGCAGGCTCAGAAGTTTACGGCTTCAATGTCAAAGATTTACAGGTATGTACTTGAACAAAAAGATAAAGAGCTGGTAACCGTGGAGGATGAAATGGAATTTGCGAAAACCTATTGTGAACTTTTAAAAACAAGGTTTGAAGACAGTGTAGATTTTACCTTTGATGTGGCGAAAGAAGACTATCATAAATATGTAGTTCCATTAGCCTTGCAGCTATTATTGGAAAACTGCATCAAGCATAATTTCGCCACATCATCCAAACCTCTTACTATAAGAATTTTTTCCGATGGAAATACCCTTTGCATTGAAAATAATCTACAGGTAAGAGAACAGATCAAAGAAAGTTCAGGAATTGGCCTAGCTAATATAGTACAACGTTATTCCCTGCTTACAGAACGGAATGTTTTCATAGAAAAATCTGAAGACTATTTTAAAGTGAAGCTTCCAGTGCTTTTGTCTAAACCTCATGTTTCCAGTATACAACCTGAAGATGAATCTGAAGCTTATAAAAGAGCACAAAAAAGGGTAAAAGAGATCAAAGGATTTTATAAGAACCTGATTTCTTACTGTACAGTATGTTCCTTTTTAATCTTCATCAATCTCTTGACAAGCAGCAGAAATCAGTGGTTCTGGTTTCCGGTACTCGGATGGGGTATTGGAGTTGCATCTCACGCATTTCAGGTATTTGGAGTAGGAGAATCATGGCAGGAAAAGAAAATTCGTGAAATTATGAACAAACGGAAAAAATAA	MRRKNFIILFWVSLVVSMFFFFVFTEEKNLENFLYTILISFIYSFVLGGGNGILNSFLNRKIPWSEATTKRAVISIISIITANFVLVYFCNYVNFVLIQKTATTEEFFLGKYNFLNWFTINIALLISAFLHARSFMEELKKTSRKEVVEQKLIAKSANAQFESLKNQLDPHFLFNSLNVLSSLIDENPRQAQKFTASMSKIYRYVLEQKDKELVTVEDEMEFAKTYCELLKTRFEDSVDFTFDVAKEDYHKYVVPLALQLLLENCIKHNFATSSKPLTIRIFSDGNTLCIENNLQVREQIKESSGIGLANIVQRYSLLTERNVFIEKSEDYFKVKLPVLLSKPHVSSIQPEDESEAYKRAQKRVKEIKGFYKNLISYCTVCSFLIFINLLTSSRNQWFWFPVLGWGIGVASHAFQVFGVGESWQEKKIREIMNKRKK	PGPT0026305_1023	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_00300	660			hypothetical protein	ATGAAAAAATACCTTTTAAGCTTTGCTTTAGCTTTTATGAGCTTAACAGCTTTTGCACAGGCAGATTATGATAAAATAATGGCCGGAAAGATAGCAAGGATAGAAACCTGTAAAACCTCTGAAGATTTCCAGACTCTTGCGAATGATTTCCAGAGAATAGGAAGCAAAGAAAGCACAAAATGGCTTCCGGCATATTATGCAGCATTTTCTTATATCCAAAAAGGAAGAGTATTGATGAGGGAAGGAAGAATGGAGGAGCTGGATGCTGTTGCAGACCAGGCTGAAAAACACCTGTCAATGGCTCAGAATCTTGCAGGAGCAGATAATGCTGAAATACATCTGCTGAGAAAAATGTCTTACTCTTTGAGAATGATGGTGAATCCGGCACAGCGTTATATGACAGAAGGGGCAAGAGCTGCTGAGGAGCTTAGTATTGCACAGAAATTAGATCCTGCAAACCCAAGAATTGCCCTTATCAAAGCAGAAGATGTTTATTTTACCCCTGAGCAGTACGGAGGAAGTAAAACCAAAGGATTGGAAATGTTTAAAGAAGCCCAGGCAAAATATAATGTATACAAGCCAAAAACGGCTTTGGATCCTAACTGGGGACTTGGAGAAGCTAACTATTTCCTTAGCTTACCTGCAGAAAAAGCAAAATAG	MKKYLLSFALAFMSLTAFAQADYDKIMAGKIARIETCKTSEDFQTLANDFQRIGSKESTKWLPAYYAAFSYIQKGRVLMREGRMEELDAVADQAEKHLSMAQNLAGADNAEIHLLRKMSYSLRMMVNPAQRYMTEGARAAEELSIAQKLDPANPRIALIKAEDVYFTPEQYGGSKTKGLEMFKEAQAKYNVYKPKTALDPNWGLGEANYFLSLPAEKAK				NA	NA	NA	NA	NA
BMS003_00301	2247			hypothetical protein	ATGAAAACACAAGGACAAAACATCCTTTTTCTGATGCTCTTTCTCACTTCCATCATGGGATATTCTCAGGTGAAAATATCAGGAAAAGTATCCTTCAAAAACAAAGGAGTTGCAGAAGTAAATGTAACGCTGAAAGACACCTATGACGGTGCTACGACAGATGCACAGGGTAATTTTACATTCGAAACTTCAGAAAAAGGAGCTCACAAAATTACTTTTACCCACCCGAAGTATGAAGATGTAGAAAGAACCGTTTCTATTGAAAATCAGGATGTTTCTTTGAATGTTGATCTTAGAGAACAGATCAGTGAGATTGATGCAGTTGTAGTTTCTGCCGGATCTATTGAAGCCAGCGACAAGAAAAGAGCCACAGCTTTGCTCACCCCTATTGATATTTATACAACAGCAGGTGCAGACGGGCAGATCTCATCGGCACTTACCTATCTTCCTGGAGTACAGAAGGTAGGAGGAACAGAAGGTCTTTTCATCCGTGGCGGAACCGGTACTGAATCTAAAATCTTTATGGACGGGAGTCTTATCAACAATTATTTTTCTAATTCTGTTCCGGGGATTGCGGGGAGAGATCAGTTCAATACCTCTCTTTTTAAAGGAAATATATTTTCAAGTGGTGGCTATTCTGCGCTTTACGGGCAGGCGCTTTCCGGAGCATTGATGCTGGAAAGTGTAGATCTTCCGGATGAAACATCCTATAATTTGGGGATTTCACCTATTTTCCTGAATGCCGGATTTCAAAAGCTGGGAGACAATAAAAACTATTCCTATGGTGCTACAGCAGGCTATTCTCTTTTAAGCCTGATGCAGAAGGTCTTTAATTTCAATACAGACTTTATAGAAGCCCCGCAGGGGCTGAACGGAGATCTGAATTTCAGATTTAAAACAAAATCAGGAGGCTTTTTCAAATATTATGGAATGTTCAATTCCAATAAAATGGGTGTGAAATCAGAAAGTCTTGAGCCGGGATATGATTTTAGCCTTGTAAAGCTTAATGGTAAAAATACATTTCACAACCTGTCTTTTAAACAGAAATTTGGAAAATATCTCCTCAATGTAGGGGGTTCTTATTCATACAACAGATCAGATCTCCATTTTTCTACAGAAACCAATGATGTTGAATCTAACCGAAGTCAGCTTCTGACAACCGGGAATTATCTCAACTTTAAAGCTGTTCTTGAAAGAAAAATCAACAGAATTAGTGCTGTGAGGGGAGGAATTGAGTTGAATAATACTGATGAAAACCTGAATTTTGAAACAGTACAGAAACATTATAAAGACTTAATCTCTTCCGCTTTTGTGGAAACTGATCTTGGCTTCAGTAATGCCTTGTCTGCAAAAATAGGAGTAAGAGCAGAGCATTCTTCTTTTTTAGAAAAAAACAATATAGCTCCTCGTTTTGCTATTGCCTACAGGGTTGCAAAAGACTGGACGACTTCCTTAGCTTACGGACTTTTTTATCAGAATCCGGAAAGTAAATACATCAATGGCCCTTCACATCTTGATTTCCAGAAATCCCAGCACTATATTTTCCAGATTCAGAGAGCTTCCGAGGGCAGAACTTTACGTTTAGAGGCATTTTACAAAAAATATAATCAGCTGATCAAAACCTTTAATGTGACGACGGATAAAGAACAAAATCAACAGATTCAAACGGCTCTAAACAATAGTGGGTACGGATATGCAAAAGGGGTGGAGTTTTTCTGGAGAGATAATAAAAAGACCTTTGAAAATATAGACTACTGGATCAGCTACTCCTATCTGGATTCAAAAAGAGATTTCCTGAATTATCCTGTTAGCCTGCAGCCTGCTTTTGCTGCTGAACATACTCTTTCAGCAGTAGCCAAAAGATTTATTCCGGAATGGAAACTAGGGGTAAATTTATCTTACACGTATGCAAAAGGACGTCCTTACTATGACATTGCCTCTACAGTTGAGAATGGAAAAGTGATTAACTATACACGAAATGAAGGTCGCTTAAAGGATTATAATGCACTGAATTTCAGTATTAATTATCTGCCGAATATCGGTAAAAAAGATGCAAAAGCATTTCCTGTATTTGTACTGAGCATCAGTAATATTTTAGGATCAAAAAATGTATATGGCTATAATTTCTCTGCGGATGGTTCCAGAAGCGCAGCCATTGTTCCGCCAGTCAATACTTTCGTATTTATTGGTGCATTTATAAGTTTTGGAGTAGATAAAACGGATGATGCCATCAATAATAATTTATAA	MKTQGQNILFLMLFLTSIMGYSQVKISGKVSFKNKGVAEVNVTLKDTYDGATTDAQGNFTFETSEKGAHKITFTHPKYEDVERTVSIENQDVSLNVDLREQISEIDAVVVSAGSIEASDKKRATALLTPIDIYTTAGADGQISSALTYLPGVQKVGGTEGLFIRGGTGTESKIFMDGSLINNYFSNSVPGIAGRDQFNTSLFKGNIFSSGGYSALYGQALSGALMLESVDLPDETSYNLGISPIFLNAGFQKLGDNKNYSYGATAGYSLLSLMQKVFNFNTDFIEAPQGLNGDLNFRFKTKSGGFFKYYGMFNSNKMGVKSESLEPGYDFSLVKLNGKNTFHNLSFKQKFGKYLLNVGGSYSYNRSDLHFSTETNDVESNRSQLLTTGNYLNFKAVLERKINRISAVRGGIELNNTDENLNFETVQKHYKDLISSAFVETDLGFSNALSAKIGVRAEHSSFLEKNNIAPRFAIAYRVAKDWTTSLAYGLFYQNPESKYINGPSHLDFQKSQHYIFQIQRASEGRTLRLEAFYKKYNQLIKTFNVTTDKEQNQQIQTALNNSGYGYAKGVEFFWRDNKKTFENIDYWISYSYLDSKRDFLNYPVSLQPAFAAEHTLSAVAKRFIPEWKLGVNLSYTYAKGRPYYDIASTVENGKVINYTRNEGRLKDYNALNFSINYLPNIGKKDAKAFPVFVLSISNILGSKNVYGYNFSADGSRSAAIVPPVNTFVFIGAFISFGVDKTDDAINNNL	PGPT0003740_90	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS003_00302	903	sbmC		DNA gyrase inhibitor	ATGGAAGAATATAAAAAACGGATTGTAAAAACAATTCAATATATTGACAGCCATATTGATGAAGATCTTTCTCTGGAAAAGGTTTCAGAGGTAAGTGCCTATTCACCGTTTCATTTTCACAGAATTTTTAAGCTGGTTACAGGAGAAACGCTTCAGAACTATATTATCCGAAAGAAAATTGAAAAAAGTGCTCTTCATCTGGCTGTTCATAAAAATATGGAAATCAGGGATATTTATTGGGATCTTGGCTTTTCTAATCATTCTGTTTTCTGTAAAACATTCAAAAAATATTACGGTCTGGCTCCTACAGAATTTCGCAGGTCGGCTCCTGAAAAATTTCACAAGATTTTACAAATACAAAGCAAGAACGGACAAGCAGGTACAGTTTTCAGCCAATACATTTGCAACATTGAAAACCTGTTAAACTGGACCAAAATGAATTTAAAAATCGAAGTAAAAGAAATGCCGGAAATGAATCTGGCCTCCGTAATGAGTCTTGGAATAGCCAATGTAGAACCTTCTTTCAACATCTTGATAGACTGGGCAAAAAAGAAAAACCTGTTTCCAGGAGAGAATGTTAAAATGATTTCAGTATATCATGACAGCTGCAAGATAACACCTCTGGACAAAGTCAGAATCCATGCCTGTATGCTTTTGGATGAAAAGCTGAAGCAACATGAGGGAGAAGTATTTCCCGAAACTATAAGCGGCGGAAAACACATTGTAGGAAGCGGGGAAGTTACCCTCAACGACTTTGAGCAGTGTTGGGTTTCTTTATTTTTATGGATGAATGAGAATAATTATGCTATAAGAAGAACCTTTCCTTATGAGATCTATCACACTAATTTTAAAGAACATCCGGAAGGAAAGATGATCGTGGATTTTTGCATACCGATTTATTAA	MEEYKKRIVKTIQYIDSHIDEDLSLEKVSEVSAYSPFHFHRIFKLVTGETLQNYIIRKKIEKSALHLAVHKNMEIRDIYWDLGFSNHSVFCKTFKKYYGLAPTEFRRSAPEKFHKILQIQSKNGQAGTVFSQYICNIENLLNWTKMNLKIEVKEMPEMNLASVMSLGIANVEPSFNILIDWAKKKNLFPGENVKMISVYHDSCKITPLDKVRIHACMLLDEKLKQHEGEVFPETISGGKHIVGSGEVTLNDFEQCWVSLFLWMNENNYAIRRTFPYEIYHTNFKEHPEGKMIVDFCIPIY				NA	NA	NA	NA	NA
BMS003_00303	504	sodC	COG2032	Superoxide dismutase [Cu-Zn]	ATGAAAGTACAAACATTAGCATTATTGGCGGGGTGTGCGTTTTTAGCAGCTTCTTGCGGAACAACAAAAACGTACTCTGTAAATGCCAAAAGCGGAACACAGACGGGTGGAACTGCGAAGTTTACTCAAAACGGAAATGAAGTAACCATGAAGCTGGATATCACCAATCTTACGCCCGGAATCCATGCGGTACACATTCATGAAAAAGGAGACTGCTCTGCAGCAGACGGAACTTCTACAGGAGGGCACTGGAATCCATCCAAGAATGATCACGGTAAATGGGGTGCTGAACATTTCCATATGGGAGATATAGGAAACCTGGTTGCGGATCAGAGCGGAACTGCTACATTAACTTTCAAGACAGACAAATGGTGTCTTGGCTGTACAGATGAGTCTAAAAACATCATTGGAAAAGGACTTATTGTACATGCTGCAGCAGATGATTTTCATACCCAGCCTACCGGAAATGCCGGAGGAAGAGTGGGATGTGTAGAAATTAAGTAA	MKVQTLALLAGCAFLAASCGTTKTYSVNAKSGTQTGGTAKFTQNGNEVTMKLDITNLTPGIHAVHIHEKGDCSAADGTSTGGHWNPSKNDHGKWGAEHFHMGDIGNLVADQSGTATLTFKTDKWCLGCTDESKNIIGKGLIVHAAADDFHTQPTGNAGGRVGCVEIK	PGPT0013181_2318	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
BMS003_00304	2130	prc_1	COG0793	Tail-specific protease	ATGTGGAAAAATTTCAAACTGAATAAACTTTTACTTCTTATTCCATTAACCAGTCTGATGTTTTGTTTCAACTCGCCTAAGAATGACGATGAAAAGATGCAGACGATAATGGTGAGCGTAAAAAATACACTTTCTTATCTGCATTATAGCCCAAAGACTATCAATGATGCCTATTCGAAGGACGTTTATAAACATTATTTCGAATTGGTAGATCCAGCAAAAAGATATTTCCTGCAATCTGACATGGATGAGTTCAGCAAGCACGAAACAAAACTTGATGACTATATCGGACAAGGAGATCTTACATTCTATAAACTTACCATTGACAGGCTGTACCAAAGAGTGGACGAGATCGATAAAATTACACAGGAGATCTTCAGCAAACCGATCAATCTTCAGGAAGATGAAACGCTCACTTTAGAACCTAAGCTTAAAAAAATACCTGCCAATAAACAGGAACAGTATAATGAGTGGAAAAAATTCATCAAATACAACATCCTTCAGGAGGTTGAATCAATGAATAGTAAAGAAGAAGCTCAAAAAGAAAAGAAAGATTCTGTTCAGAAATACAAACTGAAAGATACTATAAAGCTTAAAGTTCTTACTCAGGATGAAAAGATCAAAAAAGCGACTGATGAAGTAAAAGATCTTGTAAAAGATACCTTTACAAGATTCAAAAAGAGAAAGAAAATGGATTGGTTTACAGTATATATGAATGCCTATACAGAAGTATTTGATCCACACACCAACTATTATTCTCCAAAAGACAAAGAAGACTTTGATACTCAGTTTACCGGAAAAGTTATTGGTATCGGAGCCTTAATTCAGGAGAAAAAAGGAAACCTTTACCTGGGTGCTCTTACTATTGGTGCACCAGCGTGGAAATCTAAACAGCTTTCAGAAGGAGATAAGATCCTGAAAGTAAAATCCAAACCAAAAGAAGACGCTGTAAATGTAGTAGGAATGCTTTCTGATGAAGCTGTAAGGCTTATCAGAGGAGAGAAAGGGACTCCGGTAACATTAACTGTTCAGAAAAAAGACGGTACTATAAAGGATGTAACCATGGTTCGCGAAGAAGTGGCTATTGAAGACACTTTTGCAAGAAGTATTGTAGTGAATACTCCAAATGGAAAGAAGTACGGTTTCATCAACCTTCCAAGCTTTAATGCTGACTTTGAAAATGCCAAAGGAAGAAACGCTTCTGATGACATCAAAAATGAGATCATTAAACTGAAAGAGCAGAACATTGAAGGAATCATTCTTGACCTTAGAAATAACGGAGGAGGCTCATTAACTGAAGTAGGAGATATCATGGGGCTTTTCATGGAAGCCGGTCCTTACGTTCAGGTGAAAGACGGAAACGGAAAAATACAGACACTTAAGAATAAAAATGAAACTCCGATCTGGACTGGTCCGCTTGTCATCATGCAAAATGAACTTTCGGCTTCAGCTTCTGAAATCCTTGCCGGAGTAATGCAGGATTACGGAAGAGCAATGATCATTGGATCTCCACAGTCTTTTGGAAAAGGTACCGTTCAGACTTTTGTTGACCTGAACAGATTCCTGAACACAGAAGACGATTTCGGATCTTTAAAACTGACGATTCAGAAATTCTACAGAATTACAGGAGAATCTACTCAGAGAAAAGGAATTGTTTCTGATATTCAGATGAAAGATTTCTTTACCTATGCTGAAGTAGGGGAGAGATATGATGATTATGCATTGGCATGGGACAAAATTTCACCTACAAAATTCCAGAAACTGAACTATTTCAACATTCAGGCACTGGAAAAAGCAAGTGCGGACAGAATGGCTAAAAACAGCAATTACCAGTTGTTATTAGAATCTGCCCAGTGGAGGGAGAAACTGGATAAAGAAGAAAACATTACCTTGAATATTACGAAGTTCAATGAGCTGATGAAGAACAGAAAATCTCAGATTGAAAAGTTCAAGGCATTGACAAAATTTGAAAATGGACTTCAGTTCATCATGTATCCAAGTGAGATTGAAAGAGAGAAAAAAGATGAAGCTTTCAAGAAAAAATCTGAAATGTGGATCAAAAATCTGAAAAAAGATCTTTACCTGCAGGAAGCAATGAATATTGTATCAGATATGGGAGCTAAATCCTAA	MWKNFKLNKLLLLIPLTSLMFCFNSPKNDDEKMQTIMVSVKNTLSYLHYSPKTINDAYSKDVYKHYFELVDPAKRYFLQSDMDEFSKHETKLDDYIGQGDLTFYKLTIDRLYQRVDEIDKITQEIFSKPINLQEDETLTLEPKLKKIPANKQEQYNEWKKFIKYNILQEVESMNSKEEAQKEKKDSVQKYKLKDTIKLKVLTQDEKIKKATDEVKDLVKDTFTRFKKRKKMDWFTVYMNAYTEVFDPHTNYYSPKDKEDFDTQFTGKVIGIGALIQEKKGNLYLGALTIGAPAWKSKQLSEGDKILKVKSKPKEDAVNVVGMLSDEAVRLIRGEKGTPVTLTVQKKDGTIKDVTMVREEVAIEDTFARSIVVNTPNGKKYGFINLPSFNADFENAKGRNASDDIKNEIIKLKEQNIEGIILDLRNNGGGSLTEVGDIMGLFMEAGPYVQVKDGNGKIQTLKNKNETPIWTGPLVIMQNELSASASEILAGVMQDYGRAMIIGSPQSFGKGTVQTFVDLNRFLNTEDDFGSLKLTIQKFYRITGESTQRKGIVSDIQMKDFFTYAEVGERYDDYALAWDKISPTKFQKLNYFNIQALEKASADRMAKNSNYQLLLESAQWREKLDKEENITLNITKFNELMKNRKSQIEKFKALTKFENGLQFIMYPSEIEREKKDEAFKKKSEMWIKNLKKDLYLQEAMNIVSDMGAKS	PGPT0015095_465	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS003_00305	210			hypothetical protein	ATGCTGATCTTTAACCCTATAACTTTAAAATGTAAAATCATGAAAAGTTTACTATGGTTAGTTGCAGTCATCTGCATCGTTGTTTGGCTTTTAGGAATGTTAGGAATAGTTCCGGGAATCAGCACGGGTTATTTAATTCACATTTTACTGGTCATTGCTATTATTGTTATTCTTTATAATATCATTTCTGGCAGAAAACCCCTTGATTAG	MLIFNPITLKCKIMKSLLWLVAVICIVVWLLGMLGIVPGISTGYLIHILLVIAIIVILYNIISGRKPLD				NA	NA	NA	NA	NA
BMS003_00306	768	surE	COG0496	5'-nucleotidase SurE	ATGGAAAGACCGCTTATTCTGGTGACTAATGATGATGGAATTACAGCTCCTGGTATCAGAAATCTTGTCAATTTTATGAATGAAATCGGAGAAGTAGTTGTTGTAGCACCCAACTCTCCTCAAAGTGGAAAAGGCCACGCTATTACCATTAATTCTACCCTAAGCTACGAAGAAGTTACCCTGGATGGACCACAAACAGATTTTTCCTGTAGTGGAACTCCTGTAGACTGTGTAAAAATGGCCCTTGATAAAATTCTGACAAGAAGGCCTGATATTGTCGTTTCGGGAATTAACCACGGGGCAAATTCATCCATCAATGTAATTTATTCCGGGACCATGTCTGCCGCTGTAGAAGCTGGTGTAGAAGGTATTCCTGCGATTGGGTTCTCATTACTGGATTTCAGCTGGGAAGCAGATTTTACTCAGGCTAAAGAATTTATTCAGAATATTGTTAGAAGAACACTGGAAAACCCAATGCCTAAAGGAGTTGTACTGAATGTCAATATTCCTAAACTTCCGGCTGAAGAAATAAAAGGGGTAAAAGTTTGTAAGCAGGCGAATGCCAAATGGGAAGAAAGTTTTGATGAAAGAGTAAATCCGCACGGAAAAAAGTATTACTGGCTAACCGGTTATTTCAATAATATGGATGATTCTGAAGATGCTGATGAGACGGCATTGGCAAACGGATATATTTCTATTGTTCCTGTAAAATTTGACCTTACAGCGTATGAATATATGAAAACACTGGAAGAGGTGATGATCTTTTAA	MERPLILVTNDDGITAPGIRNLVNFMNEIGEVVVVAPNSPQSGKGHAITINSTLSYEEVTLDGPQTDFSCSGTPVDCVKMALDKILTRRPDIVVSGINHGANSSINVIYSGTMSAAVEAGVEGIPAIGFSLLDFSWEADFTQAKEFIQNIVRRTLENPMPKGVVLNVNIPKLPAEEIKGVKVCKQANAKWEESFDERVNPHGKKYYWLTGYFNNMDDSEDADETALANGYISIVPVKFDLTAYEYMKTLEEVMIF	PGPT0013405_1289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
BMS003_00307	1404	moaA		GTP 3',8-cyclase	ATGCCAGTAAGAAACTATACTTATTACGATTATACAATCAGTCTTTGTCCGGAATGTCTTAAAAGGGTAGGAGCAAAGATTATCATAGAGGATGAAGCTGTTTTTATGACCAAGAGATGTCCTGATCATGGTTTTTTCAAAACAAAAATAGCTTCCGATGTACATTATTATAAAAACATAAGAAACTATAATAAGGCTTCCGAAATGCCTCTTCATTTCGGAACCGATGTAGAATATGGATGTCCCTATGATTGCGGACTTTGTGTAGATCATGAACAGCATAGCTGTCTTTCTATCGTAGAAGTTACAGACCGTTGTAATTTGACCTGCCCAACATGTTATGCAATGTCTTCTCCACACTATGGAAGCCATAGAACGTTGGAAGAAATAGAAGCCATGTTTGATAGTATTGTAAAAAATGAAGGTGAGCCGGATGTAGTTCAAATCAGCGGAGGAGAACCTACTATCCATCCGGAGTTTTTCAAGATTATGGATATTGCAAAGTCAAAACCAATTAAACATCTTATGCTGAATACAAACGGAGTCAGAATCGCCAATGATCCGGGATTTGCTGAACAGCTGGCCACCTATGCTCCTGAGTTTGAAATATACCTTCAGTTTGATTCATTCAAACCGGAAGTTCTGGAAGACTTTAGAGGTAAAGATCTTACGGCAGTAAGAATGAAAGCGTTAGAAAAACTCAATGAACTTAATCTTTCCACTACATTGGTTATAGTCCTTCAGAAAGGCAAAAATATTGATGAAATTGGAAAAATTATAGAATTTGCCCTGAAACAGAAATGTGTGAGGGGAGTCACTTTCCAGCCTGTTGAGATTGCGGGAAGAAACCGGGAAGATTCTGCTCATGAAAAAATTACTTTAACGGAGGTAAGGCAGGAAATCATCAATCAGTTTCCTTTATTAAATGCCGATGATATTATTCCGGTTCCATGTAACCCGGATTCTTTGGCGATGGGATATATTTTAAAACTTCAGGACGAAATAATTCCTTTAACCAGGTATATCAATCCCGCAGATCTTCTGAATAATGAATCCAGGAATACCATTGTTTACGAACAGGATAAAGGGCTGCATATGCAGCTGCTGGATATATTCAGTACCGGAATTTCTGTAGATAAAGTGCAGCCCAAAGTAAATCAGTTACTGTGCTGTCTTCCGGAAGTTTGCGCCCCGGATCTCGGCTATGATAATCTGTTTAGAATTATTATTATGAACTTTATGGATGCTCATGATTTTGATGTACGGGCAGTAAAAAAATCCTGCGTTCATATTGTTAATAAAGATTTGAAGTTAATTCCTTTTGAAACCATGAATCTTTTCTACAGGGATGAAAAAAAGGCTTATCTTGAAGAACTCAGAAAAGAAGATAAAGTGTTATTTTAA	MPVRNYTYYDYTISLCPECLKRVGAKIIIEDEAVFMTKRCPDHGFFKTKIASDVHYYKNIRNYNKASEMPLHFGTDVEYGCPYDCGLCVDHEQHSCLSIVEVTDRCNLTCPTCYAMSSPHYGSHRTLEEIEAMFDSIVKNEGEPDVVQISGGEPTIHPEFFKIMDIAKSKPIKHLMLNTNGVRIANDPGFAEQLATYAPEFEIYLQFDSFKPEVLEDFRGKDLTAVRMKALEKLNELNLSTTLVIVLQKGKNIDEIGKIIEFALKQKCVRGVTFQPVEIAGRNREDSAHEKITLTEVRQEIINQFPLLNADDIIPVPCNPDSLAMGYILKLQDEIIPLTRYINPADLLNNESRNTIVYEQDKGLHMQLLDIFSTGISVDKVQPKVNQLLCCLPEVCAPDLGYDNLFRIIIMNFMDAHDFDVRAVKKSCVHIVNKDLKLIPFETMNLFYRDEKKAYLEELRKEDKVLF				NA	NA	NA	NA	NA
BMS003_00308	228			hypothetical protein	ATGAAATTATTAACACTTTTAGAGGTTGGTGATATGACCGGTCTGGTAATCATTATAGTTGGAGTAATCATTTTAGGTGCTTTGTTCTTATCTCTTATTGTTACATTTATTGCAAAACTGATTTATGAAAGTAAGGACAACAGGAAGTTCAGCAAAAAACAATTTATTCAAACAATGCTTATCTCCCTTCTGGTTTGTGGGTTGATCAGTGGTTATATTTGTGGGTAA	MKLLTLLEVGDMTGLVIIIVGVIILGALFLSLIVTFIAKLIYESKDNRKFSKKQFIQTMLISLLVCGLISGYICG				NA	NA	NA	NA	NA
BMS003_00309	753	lgt_2		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGGATTTTCCTGTAACATTTCATATTTTCGGCAAAACAATTCTTGCACATCCACTTTTTGAGGCAGGCGGAATATTTCTGGGCATGAGATATTATTTTTATCTGAAACGTAAGTCCAAAGAAAAACTTTCATTCAATACCTCTGCTGCAGTTTTAATAGGAGCTACAGCCGGAGCTTTGATAGGATCCAAGCTGATTGGTAATCTTGAAAACCCATATATATTATTTGAGAATTTCAGTATTAAAAAAATTTGGTCAAATAATACCATAGTCGGAGGTCTGGCCTTTGGATTATTAGGGGTTGAATTAGCAAAAAAGATAGTCAATCATAAAGAAAGTACAGGTGACTTGACGGTATTTCCTTTAATGCTGGCGATGATTATCGGGCGGATTGGTTGCTTTCTTACCGGAATTTATGAGGAAACCTACGGCATTCCTACAGACTCTGTTTTTGGGATGCATCTGGGAGATCAATACCTCAGGCATCCGGTTGCTTTATATGAAATAGCATTTCTAATGATTCTCTGGCTGGGGTTAAAATATATTCAAAATCTTAAAAAGCATCCTTCCGGCTTTATTTTTCAATTGTTTATGCTCAGCTATTTTACATTCAGGTTTTTATTAGATTTTATAAAACCCCGGGTTGAATTTGCAGGAAATCTTGGAACGATCCAACTTGTCTGTATATGTGTAATTATTTATTACATTTATGTTATTAAAAATACTCAAACCACTTTAAAATATTCAAGATGA	MDFPVTFHIFGKTILAHPLFEAGGIFLGMRYYFYLKRKSKEKLSFNTSAAVLIGATAGALIGSKLIGNLENPYILFENFSIKKIWSNNTIVGGLAFGLLGVELAKKIVNHKESTGDLTVFPLMLAMIIGRIGCFLTGIYEETYGIPTDSVFGMHLGDQYLRHPVALYEIAFLMILWLGLKYIQNLKKHPSGFIFQLFMLSYFTFRFLLDFIKPRVEFAGNLGTIQLVCICVIIYYIYVIKNTQTTLKYSR				NA	NA	NA	NA	NA
BMS003_00310	1038	guaC	COG0516	GMP reductase	ATGCGTATAGAATATGACATAAAACTGGGGTTCAAGGATGTAATGTTCCGCCCAAAGCGTTCTACTCTAAAATCCCGTTCAGAGGTTGATTTACAAAGAGAGTTTACCTTTAAGCATACCAGGAAAAAATGGACAGGAGTTCCTGTAATTGCAGCCAATATGGATACAGTAGGAACTTTTGAGATGGCAGCTGAACTGGCAAAGGAAAAAATCATTACAGCTGTTCACAAACATTATACTCCTGATGAATGGAGCCAGTTTCTGGAAAGCCAGCCGGAAAGTATTCATCAGTATATTGCTTTAAGCACAGGAACAGGAAAAGCCGATGAAGAAAAAATAAAACAAATCCTAGAAAAGCATCCAAAAATTGAGTTTCTCTGTATAGATGTAGCCAATGGCTATTCTGAGCATTTCGTTGCATTTGTAAAGAAAGCAAGAGCCAATTTCCCGGATAAAATTATTATTGCCGGAAATGTGGTAACAGGAGAAATGGTAGAAGAGCTTCTTTTGGTGGGAGCAGATATTATAAAGGTAGGTATTGGCCCCGGATCTGTTTGTACAACGAGAGTAAAAACAGGTGTAGGATATCCCCAGCTTTCTGCTATTATTGAATGTGCTGATGCTGCTCATGGTTTAGGAGGCCATATTATTGCTGATGGTGGCTGCAAAGTCCCCGGAGATGTAGCAAAAGCCTTTGGTGGTGGTGCAGATTTCGTAATGCTGGGCGGAATGTTTGCCGGTCACGACGAAAGCGGAGGTGAAATGATTGAAGAAAACGGTAAAAAATATCGTCTTTTCTATGGAATGAGCTCAAAAACGGCTATGGACAAGCATTCCGGAGGGATAGCAGAATACCGTGCTTCTGAAGGAAAAACAGTGAAAGTAGCTTATAAAGGTGCCGTTTCAGATACCGTAAAGGATATTTTAGGGGGAGTAAGATCTACCTGCACTTATGTGGGAGCTTCGAAGCTTAAGGAACTTTCCAAGAGAACTACTTTTATCAGGGTTCAGGAGCAGGAAAATCAGGTTTTTAACTAG	MRIEYDIKLGFKDVMFRPKRSTLKSRSEVDLQREFTFKHTRKKWTGVPVIAANMDTVGTFEMAAELAKEKIITAVHKHYTPDEWSQFLESQPESIHQYIALSTGTGKADEEKIKQILEKHPKIEFLCIDVANGYSEHFVAFVKKARANFPDKIIIAGNVVTGEMVEELLLVGADIIKVGIGPGSVCTTRVKTGVGYPQLSAIIECADAAHGLGGHIIADGGCKVPGDVAKAFGGGADFVMLGGMFAGHDESGGEMIEENGKKYRLFYGMSSKTAMDKHSGGIAEYRASEGKTVKVAYKGAVSDTVKDILGGVRSTCTYVGASKLKELSKRTTFIRVQEQENQVFN	PGPT0021450_594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364	NA	NA
BMS003_00311	744	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAAATATTAGAAGGAAAAGTAGCACTAATTACCGGAGCTACAAGAGGAATCGGTAAAGGTATCGCTGAAATATTTGCTCAGCAGGGAGCAAAAGTGGCATTTACCTATGCTGGCTCTGTAGACAAAGCAAAAGAATTAGAAGCAGCTTTAAGTTCTGTAACCCAAATTAAGGGATATCAGTCTGATGCATCAGATTATGATGCTGCTCAGAAATTGGTGGAAGACGTAATGACAGAGTTCGGACAAATTGATATTCTCATCAATAATGCAGGGATTACAAAAGATAATCTGTTATTAAGAATGTCCAAAGAAGACTGGGATAAAGTAATCAAAGTAAACTTAGACTCAGTTTTTAACCTTACCAAAGCAGTAATAAAGCCCATGATGAAAGCCAGATCTGGATCTATTATCAATATGACTTCCGTGGTAGGAGTAAAAGGTAATGCCGGACAGGCCAATTATGCAGCCTCTAAAGCTGGAGTTATTGGGTTTACAAAATCTGTTGCACTTGAATTAGGTTCAAGAAACATCAGATGTAATGCTATCGCTCCAGGATTTATTGAAACGGAAATGACTGCTGTTCTGGACGAAAAAACAGTTCAGGGATGGAGAGAAGAAATTCCGATGAAAAGAGGAGGGCAGCCTGCGGATATTGCTAATGCGTGTGTATTCTTAGGAAGCGAAATGTCAGCATATATCACCGGACAGACATTAAACGTTGACGGTGGAATGTTAACTTAA	MKILEGKVALITGATRGIGKGIAEIFAQQGAKVAFTYAGSVDKAKELEAALSSVTQIKGYQSDASDYDAAQKLVEDVMTEFGQIDILINNAGITKDNLLLRMSKEDWDKVIKVNLDSVFNLTKAVIKPMMKARSGSIINMTSVVGVKGNAGQANYAASKAGVIGFTKSVALELGSRNIRCNAIAPGFIETEMTAVLDEKTVQGWREEIPMKRGGQPADIANACVFLGSEMSAYITGQTLNVDGGMLT	PGPT0003180_15194	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
BMS003_00312	1512			hypothetical protein	TTGAAAAAATTAGTTTTTGTTTTATGTTCTGTAGTTTGTACAGCACAGACAAACCAATATATGAAAGTGATCCTGTCTAAGAAAACAGACAGGGAAGTCAACTCTTATTCTGATGGATACGGAACGTTTTATGACTCCGGTTACGGAAAACAGGGAATCGTGGACTCTTTAGGAACTATTACATTTGAGTCCCCTTACAAAGGGAGTATTTTACACATTTTTAAAAACAGATTCATTCTTTATTCTGAAGAAGGGAACAACAGAAAATCTGCTGTTATTGATGAAAAAGGGAGAGCGCTTATTCCTCTGGATAATCAGGAGTTTAATACACCCTGGTGGAGCAAAGAATGCATTATTTCTACAAGACAGGATAAAGAAGCTGTGTATGATTTTAATGGTAAAGAAATTATACCTTATGCAGAAAAAATCCGTTTTTCAGGGAAGAACAGGTTTTTGGTTTTAAAAGATAAAAAATGGTTTTTGTTCGATCTTAACGGAAAACAGCTCAGCACCCGTGAATTTAAAGAAAATTATAGCTTTGAAGACGGTAAAGCACTCATTATTAATGATGACAATGAAAATGAAATCATTGGAACTCATGGTCAAACGCTACATAAATTTTCAAAAAAAATAGTTAATATCAATGCTTATCCTTATCTGATTACCCAAAATAAAGGGACGGGAAAATATGGCTTGATTGATACGGAAGAAAATACCATTGCAGAAGAAATCTTTAATGAGATCACTCCCGAATATTTTGGTAAAAAAGAGTATATCTACCTTACAAAAAACGGAAAAACAACCATTTTTAATAAAAAAGATAAGAAGTTGTATGCACAGGTTTTTAAATATTTGGATCCTCTATTGAATAATCTCTTCAATGTTTATAATGATAAATTAAAAAAATCAGGTATTGTAGACCTGCAGGGAAATATAATTTTTCCTCAGGAATATGATTTTATCAAACGGTTCACCATTTCAGGTAAAGATTTTATTTATCTTAAAAAAGGAAATGAAGAACAATTTCTTGATAAAGATCTTAAAAATATTGTAGGAGAAGAAGTTCAGATTTTAGGGTTCTATCCGGATAATTTAATCATTAGAAAGCAGGATCGTTACTACAGATTTTCTGTGAAGGATCAATCGATATCTGAGTTGAAAAATATCAGCCAAATCAAAAATGAAGGCATAGAATACTTTAATATTCTAAATCATTATTCAAAACCTTTGGTTTGCAGAAATACAGCCAATTTTTACGGTGTTCTGGATGGGAAGGGAACAGAAATTGTACCTTTTGTTTACGAAGATATTATAACATTCGGGAATGCTGAAAACGAAATTGTGGTAAAAAAAGAAGGAAAATTTGGTGTTTCCAACTTTCAGAATGAACCATTAAAGGAAATAATTTATGATAAATATTTTTGGCAGAAAGAAGTTTTGAAACTGGATAAAAGTAAAAAAACAGACTTTATTTATTTCACAAGATTTAAAAATAATTCTGTTCAGCTGTAA	MKKLVFVLCSVVCTAQTNQYMKVILSKKTDREVNSYSDGYGTFYDSGYGKQGIVDSLGTITFESPYKGSILHIFKNRFILYSEEGNNRKSAVIDEKGRALIPLDNQEFNTPWWSKECIISTRQDKEAVYDFNGKEIIPYAEKIRFSGKNRFLVLKDKKWFLFDLNGKQLSTREFKENYSFEDGKALIINDDNENEIIGTHGQTLHKFSKKIVNINAYPYLITQNKGTGKYGLIDTEENTIAEEIFNEITPEYFGKKEYIYLTKNGKTTIFNKKDKKLYAQVFKYLDPLLNNLFNVYNDKLKKSGIVDLQGNIIFPQEYDFIKRFTISGKDFIYLKKGNEEQFLDKDLKNIVGEEVQILGFYPDNLIIRKQDRYYRFSVKDQSISELKNISQIKNEGIEYFNILNHYSKPLVCRNTANFYGVLDGKGTEIVPFVYEDIITFGNAENEIVVKKEGKFGVSNFQNEPLKEIIYDKYFWQKEVLKLDKSKKTDFIYFTRFKNNSVQL				NA	NA	NA	NA	NA
BMS003_00313	675	rsmI_2	COG0313	Ribosomal RNA small subunit methyltransferase I	TTGAGCGGAATCCTATATTTTGTTCCTACACCCGTTGGGAACCTGGAAGATATGACATTCAGAGCAGTAAATGTTCTGAAAGAAGTAGATTATATTTTATGTGAAGACACCAGAACTTCAGGAATACTTTTAAAACATTTTGAGATTTCAAAGCCTTTAAAATCTTATCATTTACACAATGAACATCAGGCAACGGAAAAAGTGATAGCAGATCTTAAGAACGGACAGAATATTGCTATTATTACCGATGCCGGTACACCTGGTATTTCAGATCCCGGATATTTACTGGCAAAAGCAGGAGCAGATAACAATATTGATATGATCTGCCTTCCGGGAGCTACAGCTCTGATTCCTGCATTAGTGGTTTCCGGGCTTCCTAATAATGAGTTTTTATTTGCGGGTTTTTTACCACAGAAGAAAGGAAGACAAACAAAGCTGAAGCAGCTTGCAGAAGAAAAAAAGACAGTGGTTCTTTACGAAAGTCCTCATAAAATCAATACGACTCTGGAGCAGATTAAAGAATTCTTCGGAGAAGAAACCAAAGTAAGCTTAAGCCGTGAGATCTCTAAAAAGTTTGAAGAAACCAAACGTGGAACAATCAATGAATTAATTGAGTTTTCCAAGAGTAAAACTTTAAAAGGAGAGATCGTTCTTATTGTCAATAATTCTATTTAA	MSGILYFVPTPVGNLEDMTFRAVNVLKEVDYILCEDTRTSGILLKHFEISKPLKSYHLHNEHQATEKVIADLKNGQNIAIITDAGTPGISDPGYLLAKAGADNNIDMICLPGATALIPALVVSGLPNNEFLFAGFLPQKKGRQTKLKQLAEEKKTVVLYESPHKINTTLEQIKEFFGEETKVSLSREISKKFEETKRGTINELIEFSKSKTLKGEIVLIVNNSI				NA	NA	NA	NA	NA
BMS003_00314	1485			hypothetical protein	ATGCAGAATATCCAAGATTTAAAGGAAAAAATTTTTTTTGAATCCATGAATATCATTGATAATCTGGACAAAATAAGTAATATAGATGAATTACTTTCCAAGCAAGATCTTGTAGATGAGCTTGCTAACAGGATTTCTTTTTTGAAACTGCTGGAAAAAAATATTGAATACTTCGTTACGGAGGATACGGGAAGAAATCAGGATCATCAGCACATTGCATATATATCAGGAGAAAAAGATCACTCTGATGCAGGAAATGAAGTGACAGAAGAGGAAGCTATTTTCAACAATGAACTCAATGAGATTGATGAAAATGAGATTTTTTCAGACGGATCTGAAGAAGAGGAAGCTGTCTTCAATAATCAGCTTAATGAAATTGTTGAAAATGAATTCCATGAAAATATTGTAAGCTTTGTAGAAGAAAGCTACGAAGAAAAAACACCGGAAAATAATTCTGAGAATGAAATTCTGGAAGAAGAAGCCGCTTTTAATAATCAGCTGAACGAAATTGATGATAATGAAATTTCAGAGGAGCAAAGAGCTGTTTTAAGTTTTGTAGACGAAGAAAAAATTCTGGCAGATTCTCAACCAGATTCTGATGAAGATCTCAATGAAGATCTGTTTCAGCATGAAGTAACGGAAGAAGAAGCTGTTTTCAATAACCAGCTTAATGAAATAGAAGAGCTGGAAAAAAAGGAAACCGCTGAGCCGGAGTCTGAAAATGAAACAGATTTTGCTGTTGTAAATGATGCAAAAACTCTGGTAACAGAAACTATTCCAAGTATTTTTGATACGGAAACCCTGGAAGATGAAATACTGATTGAAGAAAATGAAGAACAATTTGTGGCTTCAAATGTTTCAATAGAACAGGGAGAAATGGCTACGGAAACTTCCAATGTAGAAAATATTCTGAGCGAAATAAAAAATGATCACTCCGAAGAACCGGAAAAAGAAGAAAGCATTCTTGCTGAAGTCTATGACAGAAGAAAAATTGTTGAAATAGAAAGACCTGTTCCCGAAGAAACAGACAGACATCCTTCTGATGAGAGCTTTGAAAACTTAGAAGAATACCATCAGGAGAAAAAAATAAAATTAGCCAATATCAAAGGATTGAAAGCCGTTCAGTCACTTTTTGATGATGATCATCTGGAAACAGGAATTCCACTTCCTAAAGAAACAAAACCGGCAACAGAAAAAGAAGATACCGGAAGCATCCTGAAAACTAATATTCCTACCCAATTTATGGAAGCAGATAAGCAGAAGCCCGAGTTTAAACTGGATCTGAATGACAGAATTGCTTTCTCAAAAATGCTTTTCGACGGAAGCCAGACAGATCTGAATGATACAGTATTCCAGCTGAACCAATTCAAAACACTGGAAGAGGCCAAGGAATATCTTAGTGATCTGTATTACGAAAGAAAATGGAATAAGGTGGATGAATATGCACAGAGACTTTGGATATTGGTGGAAAATAAATTCTTATAA	MQNIQDLKEKIFFESMNIIDNLDKISNIDELLSKQDLVDELANRISFLKLLEKNIEYFVTEDTGRNQDHQHIAYISGEKDHSDAGNEVTEEEAIFNNELNEIDENEIFSDGSEEEEAVFNNQLNEIVENEFHENIVSFVEESYEEKTPENNSENEILEEEAAFNNQLNEIDDNEISEEQRAVLSFVDEEKILADSQPDSDEDLNEDLFQHEVTEEEAVFNNQLNEIEELEKKETAEPESENETDFAVVNDAKTLVTETIPSIFDTETLEDEILIEENEEQFVASNVSIEQGEMATETSNVENILSEIKNDHSEEPEKEESILAEVYDRRKIVEIERPVPEETDRHPSDESFENLEEYHQEKKIKLANIKGLKAVQSLFDDDHLETGIPLPKETKPATEKEDTGSILKTNIPTQFMEADKQKPEFKLDLNDRIAFSKMLFDGSQTDLNDTVFQLNQFKTLEEAKEYLSDLYYERKWNKVDEYAQRLWILVENKFL				NA	NA	NA	NA	NA
BMS003_00315	588	tdk	COG1435	Thymidine kinase	ATGTTTTTAGAAAATACAATTAATCATTCCAAACAAAGTGGTTGGATGGAAGTGATTTGTGGCTCTATGTTTTCCGGTAAAACCGAGGAACTGATCCGCAGGTTACGAAGGGCAGAAATGGCAGGACAGAATGTGGAAATTTTTAAACCAAAAATGGATATACGGTATTCTGAGGAAGATGTAGTGTCTCATAATCAGAACAAAATCCGCAGTACAGCAGTTGAAAATCCTAATGAAATTCTGCTGCTTGCTTCCAATTGCGATGTAGCAGCCATTGATGAAGCTCAGTTTTTTGATGAAAGCATTGTAGATGTTGCCAATCAGCTTGCCAATAGCGGTATCAGAGTGATTATTGCCGGATTGGATATGGACTTTTTAGGCCGTCCTTTCGGACCGATGCCCAATTTGATGGCAACTGCTGAATATGTTACAAAAGTGCATGCTATTTGTAAAAGAACAGGTAATCTTGCCAACTACTCCATGAGAACTTCCCAGGGAGATGATCTGGTAGAATTAGGGGAAACTGAAAGCTACGAAGCAGTAAGCCGCCGTGTTTTTATTGACGAAGTACTTTCAAAAAGAAAATAA	MFLENTINHSKQSGWMEVICGSMFSGKTEELIRRLRRAEMAGQNVEIFKPKMDIRYSEEDVVSHNQNKIRSTAVENPNEILLLASNCDVAAIDEAQFFDESIVDVANQLANSGIRVIIAGLDMDFLGRPFGPMPNLMATAEYVTKVHAICKRTGNLANYSMRTSQGDDLVELGETESYEAVSRRVFIDEVLSKRK	PGPT0021390_2312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
BMS003_00316	2448			Alanine racemase	ATGAACTATACAGTACAACACATTGCAGAGATCACCAATGCACACATCATTGGAGACGGAAATTTACTGATCAGGAATATAGCTTACGACAGCAGGATTATTTATTCTACCAAGAATACGGCCTTTATCGCAATCAATACTCATAAAAATTCCGGTGAAAAATTTATAGAATCTGCAATGGACAGAGGTATCAGTGTCATTATTTCTGAACATCATTATCCAGAATTTGAAAATATAACCTGGATTATTGTTGAAAATTCCGTGGAGTTTCTTCAGAAATTAGCAAAATATCATTTCGAAAATTCTCACTTACACTCTGTAGGAATTACAGGAAGCAATGGTAAAACTATTTTAAAAGAATGGCTATATCAGTGTTTATGGAATGAATTCCCTACCGTAAAAAGTCCTAAGAGTTTTAATTCTCAGATCGGTCTTCCTCTCTCTATTCTTCAGATCAACGGTTCACATAAGCTGGGCATTTTTGAAGTGGGAATTTCAAAACCGCATGAAATGGAAATGCTTGAAAATATTTTTCATCCTAAAATTGGCCTGCTTACCCATATCGGAACAGCTCATGCCGCCAACTTCTCTTCTGAAGAAGAACTGATAGAAGAAAAAATCGGACTTTTTAAAAATTCTGAAGTGATCATTTATAATGGTGACCATTCTCTGGTAGATCAAAAAATTAAAAATTCCTATTCTGATAGAAAATTAATTTCTTACGGTTTTAAAAAAGAGAATCAGGTTTCCATCAAAAGCAATATTTCCAAAGATGAAAACATCATTGTTACATATTTTAACGAAGAAATAAGTTTTCCGGTCCATCAGAGAGACGAAGCTACATTAACCAATGCTATGGCGCTGATCTCCGTTCTTAAGGAACTGAATATCGAAAATAAAAAGATCGTTGAAAAAATCAACCTTTTAAAAGCCGTTGAAATGAGGCTTGAAGCCATTGAAGGAATTAAAGGCAATATTATCATTAACGATTCTTTTAATCTTGACCTCGATTCTCTGAAGACTGCGCTCCAGTTTTTGAAAGAATATAACAAATCTAAAAAATCTCTGGTCTTAACAGATATTGTAGGAGTAAGTTCCAACGCAAAAGAATTGTATGAAGAAGTTTCTGAACTGGTAAATGAGCAGAATTTTGATTCCGTCTTTTTAATCGGTGATGAAATTTCAAATTTTAGTGAATTATTTAAAGCTAAAACATATACTTTTATTGACACGAAAGAGCTCATTGAAAGTAAATATCTTACAGAAATAGAAAATCAGATTATCCTGCTGAAAGGAGCCAGAAAATTTGAGATCGAAAAACTTAAAGATATTCTAGAACTAAGAAAACATGACACAGTACTGGAAGTAAATCTTAATGCAATCCTTCATAATATAAACTATCATAAATCTCTTCTGAAACCTGGAACTAAAATGATGGCAATGGTAAAAGCCAATGCTTACGGTCTTGGAAGTTATGAAGTATCAGAATTCCTGCAGCATCATCATATTGATTACCTTGGGGTAGCTTATGCAGATGAAGGAGTAGAACTCCGTAAAAAAGGAATTACGACACCTATTATTGTTATGAATCCTGAGCAGCACAGCTATCAGACTATTATAGAATACAACCTTGAACCCGAAATTTACAGCTTCCGGGTTCTGGAATTATTTTATGAAGCCGTTCAGAAATCCGGATATGATAAGAAATATCCCATCCATATAAAACTGGAAACAGGAATGCACCGGCTTGGTTTCAAAGATTTTGAACTGGATCGTTTAAGTGAAACTTTAAGACAAAAAAATGTAAAGGTACAAAGTATGTTCAGCCATTTGTCTTCTTCTGACATGCCAGAAGAAAAAGAATTTACATTGAAACAGCTTGAAATATTTGAAAAAAATTCCGCCTATTTAATTGAAAAAATAGGCTACACTCCTATCCGTCATATTCTGAATTCTGCTGGAATAACAAGCTATAAAGAACATCAGTATGACATGGTGAGAATCGGTATCGGAATGCTGGGAGAATCTGCAGATTCTGAAATTCAGAAGCAATTAAGGTCTGTTGTAAGCTTTAAAACTGTAATTTCACAGATATCAACTGTAGAAAATGGTGAGTCAGTGGGCTACAGCAGAAGATATATGGCTGATCATCCTACAAGAATTGCCACTATTCCTGTGGGATATGCAGACGGAATACCCAGACTGATCGGCAATCAGGTAGGAAATGTAGGGATAAACAAAACATTGGCTCCCATCGTTGGAAATATCTGTATGGATATGATGATGATTAATATAGACCATATTCCTAATGTAAGAGAAGGCGATACAGTAACTGTTTTCAACGCCAAACCAAGCTTAAAAGAATTTGCAGACTACTGCAAAACGATAACCTATGAAGTATTAACCTCCATTTCGCCCCGGGTGAAACGGATATATATAAAAGATTAA	MNYTVQHIAEITNAHIIGDGNLLIRNIAYDSRIIYSTKNTAFIAINTHKNSGEKFIESAMDRGISVIISEHHYPEFENITWIIVENSVEFLQKLAKYHFENSHLHSVGITGSNGKTILKEWLYQCLWNEFPTVKSPKSFNSQIGLPLSILQINGSHKLGIFEVGISKPHEMEMLENIFHPKIGLLTHIGTAHAANFSSEEELIEEKIGLFKNSEVIIYNGDHSLVDQKIKNSYSDRKLISYGFKKENQVSIKSNISKDENIIVTYFNEEISFPVHQRDEATLTNAMALISVLKELNIENKKIVEKINLLKAVEMRLEAIEGIKGNIIINDSFNLDLDSLKTALQFLKEYNKSKKSLVLTDIVGVSSNAKELYEEVSELVNEQNFDSVFLIGDEISNFSELFKAKTYTFIDTKELIESKYLTEIENQIILLKGARKFEIEKLKDILELRKHDTVLEVNLNAILHNINYHKSLLKPGTKMMAMVKANAYGLGSYEVSEFLQHHHIDYLGVAYADEGVELRKKGITTPIIVMNPEQHSYQTIIEYNLEPEIYSFRVLELFYEAVQKSGYDKKYPIHIKLETGMHRLGFKDFELDRLSETLRQKNVKVQSMFSHLSSSDMPEEKEFTLKQLEIFEKNSAYLIEKIGYTPIRHILNSAGITSYKEHQYDMVRIGIGMLGESADSEIQKQLRSVVSFKTVISQISTVENGESVGYSRRYMADHPTRIATIPVGYADGIPRLIGNQVGNVGINKTLAPIVGNICMDMMMINIDHIPNVREGDTVTVFNAKPSLKEFADYCKTITYEVLTSISPRVKRIYIKD	PGPT0024095_192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024095-alr_murF-K01798	NA	NA
BMS003_00317	2160			hypothetical protein	ATGAGAAAACTCCTGATTCTGCTTTTCATATTCCCACTGTTATTGATCCATTCTCAGGTAAAAAAAAATCTGGTCATTCCGGAAAATCCAAAGATAGGCCTATCCCTTGCCGGTGGCGGAGCCAAAGGTTTTTCACATGTTGGAGTTCTTAAAGTACTGGATTCATTGGGAGTAAAAGTAGACTATATCTCCGGAACAAGTATGGGAGCCATCGTTGGTGGATTATATGCAGCAGGCTATTCCGGGAAAGAAATAGAAAAAATAGTCATGGATACAGATTTCTATTCTCTGATTATGGATCCTAAATCAAGACAGGAAGCCAGTTTCTTCAATAAATCTGTAGATAAGTATCTTTTATCCATTCCGCTTAAAGACGGAAAAATCAATCTTCCCTCCTCTATCAGTACCGGACAGAGAAATGTTTATCTTCTGAAAGAACTCTTTAAGAACGTTTCCAATATTGAGGACTTTTCCAAACTGCCCATTCCCTTTCTTTGTGTTGCCACCAATCTGGAAAGCGGCAATATGCAGATTTTTGAAAAAGGAGATCTGGTACAGTCTATTATGGCAAGCTCTGCATTTCCTTCTTTAATGGATCCCGTTAAAATCGGAGACAGCATTTATATTGATGGAGCAATGACCGTAAACTACCCTTCAAAGCCTTTAAAGGACAAAGGAATTGACATCGTTATTGGGGTGGACCTCAATCAGGATCTTTCAAAAAGAGAGGATTTAAACAATATTATAGCCATTCTGAACCAGGTTATTGATTTTGGAATCAAAAAAGACACCCGAAGACAATATAAATACACAGACATCAATATCAAGCCTAACCTGAAAGGAATGTCTGCAACAAGTTACGATGAGAAAAAGAAAATTCTGGATAGCGGTTATGTAGAAGGTTTAAAATACTCTCAGATATTGGATCAGCTGCCCAAACGCCAGTTTGACCGTCTCAGACAGCGTATAAACCCTATTTATTCCAATGTATATAAGATAGACAGCATTTCAATTGAAGGAAGTAAAATCTTCGGAAAAAACTATACATTAGGAAAAATGGGACTACGCCTTCCTTCTTTACAAACGTATGGAAGCATCAATAAAATGATAGATAAACTGGTTGCTACCAACAACTACAAATTTATCAATTATGATATCGTTCAGGAGAATGATGCCAACTACCTGAAACTTTACGTCACAGAAGATGATACCCGCCATTTTTTAAAATTTGGATTACATTATGACGAAGTTTTCAAAACTGGACTTCTTTTGAATTACTCTGCAAAGAGACTTTTATTTAAAAATTCGAACCTTTCCCTGGATGTGGTTGTAGGTGACCGTCTGAGATATTACCTGAACTATTTTATAGACAACGGGTATATCCCAGGATTTGGTATCTACTCTTCAGGTATGAGTTTCGATCTGAAAAATGTAGATAATTATGTAATAGACCGCTGGGAATGGATCAGAAATGAGGCCTATTTACAGTCTGTATGGAAAGATAAATTTGCAATTGGCGGCGGGATCAGCCACGACTATTTCAAAGCAGAAAACCCCAATGGTGATAACAGACGTTACAGTCGTTTCTTAAATCCATATATATTCATAAAAACAGATACCCAGGATGATAAGGAATTCCCTACAAAAGGGGTTTATTTTGCGGCAGAAGGAAAAGCAGTAGACCTTTTAAAATCTGAAGTTGACAAAAGAATAATTCAGATCAAAGCGGATCTTAGGCTCAATATTCCCCTTGGCAAACAATTCAGTTACCGATTGAATCTATTTGGAGGCGTTACTATTGGTGAAGATCTTCCTCAATATTACCAGTTCAGATTAGGTGGAATTTTTGAACAGAATCTGATTAATTTTAAAAGCTTCGGAGGATTTTACTTCGCCCAGCTTTATACCAATAATGTAATACTGGCTTCTAACGATATCCAGTTTAAATTTAACAAAAACTATTTTATCAGTGGAAATTTCAGCTTTGCCAACTTATCAAACGACATCAAGTTTGAAGATGCAGTTAAAGTAAATTATAGCTCACTGGGAATAACGGCAGGTTACAAATCTCCTTTCGGGCAGGTAAAAGTAAACTTCAGCCACTCACTTAAAAATAACCAAAAAGGTATATTCAGTGTTATTTTAGGACACTGGTTTTAA	MRKLLILLFIFPLLLIHSQVKKNLVIPENPKIGLSLAGGGAKGFSHVGVLKVLDSLGVKVDYISGTSMGAIVGGLYAAGYSGKEIEKIVMDTDFYSLIMDPKSRQEASFFNKSVDKYLLSIPLKDGKINLPSSISTGQRNVYLLKELFKNVSNIEDFSKLPIPFLCVATNLESGNMQIFEKGDLVQSIMASSAFPSLMDPVKIGDSIYIDGAMTVNYPSKPLKDKGIDIVIGVDLNQDLSKREDLNNIIAILNQVIDFGIKKDTRRQYKYTDINIKPNLKGMSATSYDEKKKILDSGYVEGLKYSQILDQLPKRQFDRLRQRINPIYSNVYKIDSISIEGSKIFGKNYTLGKMGLRLPSLQTYGSINKMIDKLVATNNYKFINYDIVQENDANYLKLYVTEDDTRHFLKFGLHYDEVFKTGLLLNYSAKRLLFKNSNLSLDVVVGDRLRYYLNYFIDNGYIPGFGIYSSGMSFDLKNVDNYVIDRWEWIRNEAYLQSVWKDKFAIGGGISHDYFKAENPNGDNRRYSRFLNPYIFIKTDTQDDKEFPTKGVYFAAEGKAVDLLKSEVDKRIIQIKADLRLNIPLGKQFSYRLNLFGGVTIGEDLPQYYQFRLGGIFEQNLINFKSFGGFYFAQLYTNNVILASNDIQFKFNKNYFISGNFSFANLSNDIKFEDAVKVNYSSLGITAGYKSPFGQVKVNFSHSLKNNQKGIFSVILGHWF				NA	NA	NA	NA	NA
BMS003_00318	420	ybeY	COG0319	Endoribonuclease YbeY	ATGATACAGTTCTTTTACGAAAACTTACCAGATTCGGTAAGTACAGATTACAAAAAATGGCTGGAAGATCTTATTCTTTCAGAAGGAAAAAAACTTGGAGAAATCAATTACATTTTCTGTGATGATGAATATCTTCTTAAGATCAATCAGGATTATTTGCAGCATGATTATTATACAGATATTATCACTTTTGATTATGTAAAAGGTAAGACAATAAGCGCTGAGATTTTCGTATCTTTGCAGCGCATTTCTGATAACGCCTCTACCCTTTCCCGAGATTATGAAGAAGAGTTAAGAAGGGTCTTAGCCCATGGCATTTTGCACCTTGCAGGCTATAAAGACAAGACGGAAGAGGAAGAAAAAGAAATGCGGAGAATGGAAGATCTGTACTTAGACAAATACAGGAATTTAAAATTTTAA	MIQFFYENLPDSVSTDYKKWLEDLILSEGKKLGEINYIFCDDEYLLKINQDYLQHDYYTDIITFDYVKGKTISAEIFVSLQRISDNASTLSRDYEEELRRVLAHGILHLAGYKDKTEEEEKEMRRMEDLYLDKYRNLKF				NA	NA	NA	NA	NA
BMS003_00319	1863	mnmG	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGATTTCAGAAATATATGATGTAATAGTAGTAGGTGCAGGACATGCAGGTTGTGAAGCAGCAGCAGCAGCAGCAAACCTCGGATCAAAAACTCTACTTATTACAATGAATATGCAGACCATCGGACAGATGAGTTGCAACCCGGCAATGGGCGGAATCGCAAAAGGACAGATCGTAAGAGAGATTGATGCAATGGGAGGATATTCGGGAATTGTAGCAGACAAATCTGCGATCCAATTCAAGATGCTTAATCTTTCAAAAGGTCCTGCGATGTGGTCTCCGAGAACCCAAAATGACAGAATGCTTTTTGCCGGAGAATGGCGCTTAGCATTAGAGAATACTCCCAATCTTGATTTCTTTCAGGATATGGTGAAACAACTGATTGTTGAAAATAATAAAGTAACCGGAGTTGTTACTTCTTTAGGAATTGAAATTAAAGCAAAATCTGTAGTTCTTACTAACGGTACTTTTCTTAACGGATTAATTCACGTTGGAGATAAACAATTAGGCGGAGGAAGAATGGGTGAACCAAGAGCTTTTGGAATTACAGAACAGCTGGTCACTTTAGGTTTTGAAGCAGGAAGAATGAAAACCGGTACTCCACCGAGAGTAGACGGAAGAAGTTTGGATTATTCAAAAATGGAAGAACAGAAAGGAGATGAAAATCCTCAAAAGTTTAGCTATCTTGATACACCAAAATTGACAAAACAATTAAGCTGTCATATCGTATATACCAACGAAACTGTCCACGATATTTTAAGAGAAGGTTTTGACAGAAGCCCAATGTTCAATGGTACCATTCAAAGTTTAGGCCCAAGATACTGCCCAAGTATTGAAGACAAAATCAATCGTTTTGCTGAGAGAAACAGACATCAGCTTTTCGTAGAACCGGAAGGATGGAAAACAGTAGAGATCTATGTAAATGGTTTCAGCTCTTCTCTTCCAGAGGATGTACAGATCAAAGCAATGAAACATATTCCGGGATTTGAAAATGTAAAGGTTTTCCGTCCGGGTTATGCTATTGAATATGATTACTTCCCTCCTACCCAGTTGAAACATACCCTGGAAACAAAAATAATAGACAATTTATATTTTGCAGGCCAGATCAATGGAACAACCGGATATGAAGAAGCAGCCGGCCAGGGATTAATTGCCGGTATCAATGCACACAACAAAGTTCACGAAAAAGGAGATTTCATACTCAACAGAGATGAAGCCTATATCGGAGTATTAATTGACGATCTAATTACTAAAGGAACAGAAGAGCCTTACAGAATGTTTACTTCACGTGCCGAATACAGACTTCTTTTAAGACAGGATAATGCAGATATAAGATTAACAGAGAAAGCATATCAGTTAGGATTGGCAAAAGAAGACAGATTAAGACGTGTAGAAACAAAAGTATCTGAAAGTCAATCACTTGAAGAGTTCCTTCGTGAAACTTCTTTAAAACCAGGTATTATCAATCCGGTTCTGGAGTCTATTGAAAGCAGCCCTGTAGATCAGGCTTACAGAGCAGCACAAATCCTTACCAGACCTAATATGACATTAAAAAAACTGGATGAAATTGACTTTATTAAAGAGGTTTCTACCCAATATAATGATGAAGTAAGAGAACAGGCAGAGATCAATATTAAGTATAAAGGATATATTGAGAAAGAAAAGGAAAACGTCGCTAAACTCAACCGTCTGGAAAATATTAAAATTCCGGAAGATTTTGATTATACAAAGCTAAGCAGTCTTTCTGCAGAAGCAAAACAGAAGATGTCTAACGTACGTCCTAAGACCATTGCACAGGCAGGAAGAATAAGTGGAGTTTCTCCAGCCGATATCAACGTTCTACTTGTCTATTTAGGACGTTAA	MISEIYDVIVVGAGHAGCEAAAAAANLGSKTLLITMNMQTIGQMSCNPAMGGIAKGQIVREIDAMGGYSGIVADKSAIQFKMLNLSKGPAMWSPRTQNDRMLFAGEWRLALENTPNLDFFQDMVKQLIVENNKVTGVVTSLGIEIKAKSVVLTNGTFLNGLIHVGDKQLGGGRMGEPRAFGITEQLVTLGFEAGRMKTGTPPRVDGRSLDYSKMEEQKGDENPQKFSYLDTPKLTKQLSCHIVYTNETVHDILREGFDRSPMFNGTIQSLGPRYCPSIEDKINRFAERNRHQLFVEPEGWKTVEIYVNGFSSSLPEDVQIKAMKHIPGFENVKVFRPGYAIEYDYFPPTQLKHTLETKIIDNLYFAGQINGTTGYEEAAGQGLIAGINAHNKVHEKGDFILNRDEAYIGVLIDDLITKGTEEPYRMFTSRAEYRLLLRQDNADIRLTEKAYQLGLAKEDRLRRVETKVSESQSLEEFLRETSLKPGIINPVLESIESSPVDQAYRAAQILTRPNMTLKKLDEIDFIKEVSTQYNDEVREQAEINIKYKGYIEKEKENVAKLNRLENIKIPEDFDYTKLSSLSAEAKQKMSNVRPKTIAQAGRISGVSPADINVLLVYLGR				NA	NA	NA	NA	NA
BMS003_00320	822			hypothetical protein	ATGAAAATAAAAGATCATTTTCTTTCACAGGAAATATTTGAGATTATAGAGACAGAAACTAAAGGAGTCTTTAAGACCTCCCCTATCCCATCCAATATATCCAGATATTATGAAAGTGAAGATTACATTTCTCATCATCAGGATTCAGGAAGTCTGAAGGAAAGACTGTATAAATTTCTTCAGTCTTTTAATCTGCAGTATAAAAAAAATATACTTGTAGACAGAATAAAAAAAGGATCAAAAGTTCTTGATTACGGATGTGGTGCCGGAGAGTTTGTAAAATATATAGAAAATGATTTTGAAACATTCGGTTTTGAGCCAGATTCTGATGCAAGAAAAGCAGCACACAGCAAAATAGCAAAAACTTCCATTTTAGATAATATCAATAAAATTGAAGAAAATAGTTTGGACGCTATTACCCTATGGCATGTTTTTGAACACATCGAAAATCAGAATGAAATGCTTAATGCTTTTCATGGGAAATTAAAAGAAAAAGGAATTCTAGTTATCGCAGTTCCCAACCCTACTTCCTATGATGCTAAACATTATAAAGAATATTGGGCTGCTTATGATGTTCCAAGACACATCTATCATTTTTCTAAAAACGGGATGGAAAATTTAATTTCTAAAAATCCAGACTGGAAAATGAGAAAGATTAAGCCTTTGATCCTAGATTCTTATTACATCTCCATGTTGAGCGAAAAATACAAAAAATCACCCTTATTTTGGTTAAAAGCAGTGATCTATGGAACAATTTCCAACGTAAAGGCGCTATTTTCCCACGAATTTTCAAGTTTAATATATATTATCGAAAAAAGATAG	MKIKDHFLSQEIFEIIETETKGVFKTSPIPSNISRYYESEDYISHHQDSGSLKERLYKFLQSFNLQYKKNILVDRIKKGSKVLDYGCGAGEFVKYIENDFETFGFEPDSDARKAAHSKIAKTSILDNINKIEENSLDAITLWHVFEHIENQNEMLNAFHGKLKEKGILVIAVPNPTSYDAKHYKEYWAAYDVPRHIYHFSKNGMENLISKNPDWKMRKIKPLILDSYYISMLSEKYKKSPLFWLKAVIYGTISNVKALFSHEFSSLIYIIEKR				NA	NA	NA	NA	NA
BMS003_00321	1191	pgk	COG0126	Phosphoglycerate kinase	ATGAAAACAATCAATGATTTCAATTTTAAAGATAAGAAAGCTCTGGTAAGAGTGGACTTCAATGTTCCTCAGGATGATCAGCTGAAGGTGACAGACAATACGAGAATTGTTGCTGTGAAACCGACAGTGGAGAAAATCCTTAATGATGGAGGTTCTGTCATCTTAATTACACATCTTGGGAGACCGAAAGGTGAAGTGAAAGATGAGTTTTCTCTTAAACACATTATTGGCGAAGTTTCTTCTGTTTTAGGAAAGGAAGTAAAGTTTGTAGATGAGTGTATCGGTGAGAAAGCAGAACAGGCTGCTGCAGAGCTTAAACCAGGGCAGATCTTATTATTGGAAAATGTGCGTTTTCATAGCGAAGAGGAAAAAGGAGACACTGCATTCGCAGAGAAACTAGCTAAGCTTGGAGATGCTTATGTAAATGATGCATTCGGTACTGCACACAGAGCTCATGCATCTACAGCTGTTATTGCACAATATTTTCAATCAACTAAATATTTCGGTTTGCTAATGGCTAAAGAACTTCAGGCAATTGATAAAGTATTAAAGAGTGGTGAAAGACCTGTTACAGCTATTCTGGGAGGTTCTAAAGTTTCAACTAAAATTACCATTATAGAAAATATTCTTCCTGCAGTAGATAATCTGATCATTGGTGGAGGAATGGCATTTACCTTTATTAAGGCTCTTGGAGGAAAAATAGGAAATTCTCTTGTAGAAGAAGAGAAGCTTCCTTTGGCTCTTGAGATTTTAGGGAAAGCTAAGGAACATAAAGTAAAAGTATATCTTCCTTCTGATGCAATCATCGCTGAAAGCTTTAGTAATGATGTGGAAAGAAAGGAAGCCGATATCTATGCAATTCCTGAAGGATGGATGGGACTTGATGCAGGCCACAAATCCAGGGATCAGTTTAATGATGTACTATTAAATTCAAGAACTATTCTTTGGAACGGTCCAATCGGGGTTTTTGAAATGTCAAATTTTGCGGGAGGAACGGTTGCATTAGGTGAGAGTATTGCTGAAGCAACAAGATTAGGAGCTTTCTCTTTAGTAGGAGGAGGTGACAGTGTTGCTTTCGTTAAGCAATTTGGATATGCTGATCAGGTAAGCTATGTTTCTACCGGAGGTGGAGCAATGCTTGAAAGTCTTGAAGGACTTGAGTTACCAGGCGTAGCTGCTATCAATAATTAA	MKTINDFNFKDKKALVRVDFNVPQDDQLKVTDNTRIVAVKPTVEKILNDGGSVILITHLGRPKGEVKDEFSLKHIIGEVSSVLGKEVKFVDECIGEKAEQAAAELKPGQILLLENVRFHSEEEKGDTAFAEKLAKLGDAYVNDAFGTAHRAHASTAVIAQYFQSTKYFGLLMAKELQAIDKVLKSGERPVTAILGGSKVSTKITIIENILPAVDNLIIGGGMAFTFIKALGGKIGNSLVEEEKLPLALEILGKAKEHKVKVYLPSDAIIAESFSNDVERKEADIYAIPEGWMGLDAGHKSRDQFNDVLLNSRTILWNGPIGVFEMSNFAGGTVALGESIAEATRLGAFSLVGGGDSVAFVKQFGYADQVSYVSTGGGAMLESLEGLELPGVAAINN	PGPT0018015_3924	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
BMS003_00322	114			hypothetical protein	ATGAAACCATTATTAGTTATTTTATTATGGAAAAAGCTGGGGATAGATGAAGAAAACATCTGGAAAGTTGTGGTAAAAGTTTGGCTAAAGATTTTCTATTACGAAATAAATTGA	MKPLLVILLWKKLGIDEENIWKVVVKVWLKIFYYEIN				NA	NA	NA	NA	NA
BMS003_00323	435	rpiB	COG0698	Ribose-5-phosphate isomerase B	ATGAAAAGAAAAATTGCTATCGCAGCGGATCATGCAGGCTATGAATATAAGGAGATTGTTAAGAACTACCTTTCAGAACAATTTGAAGTTCAGGATTTTGGAACGTTTTCCACAAACAGTGTGGATTATCCGGACTTTGTGCACCCTGCTGCAACCTCTGTGGAAAACGGAGAAAATGAGCTGGGAATTCTGATTTGCGGAAGCGGAAACGGGGTTCAGATCACTGCGAACAAACATCAGAAAATAAGATGTGCTTTATGCTGGATGCCGGAGATTGCAACCCTGGCAAGACAACATAATGATGCCAACATGATCTCAATGCCGGCAAGATTTATATCAAAAGAACTGGCCATTGAAATTGTAGATAAATTTCTTTCAACAGACTTCGAAGGTGGAAGACACCAGAACAGAGTTGACAAAATTGCAGTTTGCTAA	MKRKIAIAADHAGYEYKEIVKNYLSEQFEVQDFGTFSTNSVDYPDFVHPAATSVENGENELGILICGSGNGVQITANKHQKIRCALCWMPEIATLARQHNDANMISMPARFISKELAIEIVDKFLSTDFEGGRHQNRVDKIAVC	PGPT0017395_3061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0017395-rpiB-K01808	NA	NA
BMS003_00324	2154	rnr	COG0557	Ribonuclease R	ATGCCAAAAAAAAGAAAATATATAAGTCATAAAAATGATTTAAAAATGATGGAGATCGGAAGATTGATTCTCCGTTTTATGAATGCGAATTCATCCAAAATTTATAATTATAAGCAGATTGCTGACGGAATAGATTACAAAAATCCGAGACAAAGAGAACTTGTGATCCAGGCACTGCATAAACTTCAGGGATCAGAAAAGATCAAAGAAGTGGAAAAAGGAAAATATATCGTGAACCTGAAAATTGCAGGAACGCTTACAGGAATTATTGATTTCAACCAAAGTGGAAATGCTTACGTCAATGTGGAAGGATTGGAAGATGATGTCTTCGTTCATTCCAAAAATGTGAAGGATGCATTACAGGGAGATAAGGTTCTTATTATAACTTATCATTATAAAGGAAAGAAATTAGAAGGCTCTGTTCTGGAAGTTTTAGAACGTAACAGGACAGAATTTGTAGGAACCTTTCAGAAGGTTGCTCATAAGGAATTTGGGTTTGTGGTTTGCGATAAAAAATCAATCAACACAGATATCTTTATTCCGAAAGGAAAATTCAGTACAGCAGAAGATGGTGATAAGGTGATTGTAAAAATGACAGAATGGAAACCAGGTGATAAAAATCCTGAAGGTGAAATCACACAGGTACTGGGTGCTCCGGGAGAACATGAAACGGAAATACACTCTATTCTTGCAGAATATGGTCTTCCTTATGAATTTCCATCAGAAGTAGAAGCAGATGCTGATAAAATAGACAGAAGCATTACAGACGAAGAAGTCGCAAAGCGATGGGATATGCGTAATATCTGTACTTTCACCATTGACCCTAAAGATGCGAAAGACTTTGATGATGCTTTATCTATAAGAAAACTGGAAAACGGAAACTGGGAAATAGGAGTTCATATTGCTGATGTATCTCATTATGTAGTTCCGGGAACAATTCTGGATGATGAAGCGTATCAAAGAGCTACTTCCGTATATCTTGTAGACAGGGTTGTACCGATGCTTCCGGAAGTTTTGAGTAACGATGTTTGCTCACTTCGTCCACACGAAGATAAATATACCTTCTCAGCTGTTTTTGAACTGAATGACAAAGCTGAAATTCAAAGACAATGGTTTGGGAGAACGGTTATTCATTCAGACAGAAGATTTACTTATGAAGAAGCTCAGGAACGTATAGAAACAGGACAGGGAGATCTTGCAGAAGAAATCAATACACTTGATAAGTTAGCTAAAATTTTACGCCATGAACGTATCAGAAAAGGAGCCATTACTTTTGACAGAAGTGAAGTAAGATTCAATCTGGATGAAAATAATGAGCCGATTGGTGTTTACTTTAAAATAAGCAAGGACTCCAACCACCTGATTGAAGAATTCATGCTTTTAGCCAATAAAAAAGTATCCGAATTTGTATCTCTTTCAAGAAAAGGTGAGATCACCAACAATACATTTATTTACAGGGTTCACGATGATCCGGATCCGGCAAAACTGGAATCCTTGAGAGATTTTGTAGCTACTTTCGGATATAAAATGAATCTTGCCAATACCAAAAAGGTGGCAGAATCTTTAAATAAACTTCTTCATGATGTAAAAGGAAAAGGGGAAGAAAATATGATTGAAACCCTTGCGATGCGAAGCATGAGCAAAGCAGTATACTCTACAGAACCAATTGGCCACTACGGTCTTGGTTTTGAGTATTACAGTCACTTTACCTCTCCTATCCGTCGTTACCCGGATTTATTGGCACACCGTCTTCTTCAGCATTATCTGGATGGAGGAAAATCTCCAAACAGAGGTGAGCTTGAAGACAAAGCGAAACACTGTAGTGCCATGGAAAGACTGGCAGCAGATGCAGAAAGAGACTCCATCAAATTCATGCAGGTGAAATTCATGGAAAAACATCTGGGAGAAACATTCAAAGGAGTGATTTCCGGAGTGGCAGAATTCGGTTTCTGGGTAGAAATTCCTGAAAACGGAGCTGAAGGTTTGATCAAGCTGAGAGATCTTGTGGATGATTCCTATATGTATGATGCCAAAACCCATGCCGTATACGGAATAAGACACGGAAACAAGTATCAGCTGGGAGACGAAGTTCAGATCAAAGTGGTAAAAGCCAATCTGATTCAGAAGCAGCTTGATTTCCAGATTGTGAAATAA	MPKKRKYISHKNDLKMMEIGRLILRFMNANSSKIYNYKQIADGIDYKNPRQRELVIQALHKLQGSEKIKEVEKGKYIVNLKIAGTLTGIIDFNQSGNAYVNVEGLEDDVFVHSKNVKDALQGDKVLIITYHYKGKKLEGSVLEVLERNRTEFVGTFQKVAHKEFGFVVCDKKSINTDIFIPKGKFSTAEDGDKVIVKMTEWKPGDKNPEGEITQVLGAPGEHETEIHSILAEYGLPYEFPSEVEADADKIDRSITDEEVAKRWDMRNICTFTIDPKDAKDFDDALSIRKLENGNWEIGVHIADVSHYVVPGTILDDEAYQRATSVYLVDRVVPMLPEVLSNDVCSLRPHEDKYTFSAVFELNDKAEIQRQWFGRTVIHSDRRFTYEEAQERIETGQGDLAEEINTLDKLAKILRHERIRKGAITFDRSEVRFNLDENNEPIGVYFKISKDSNHLIEEFMLLANKKVSEFVSLSRKGEITNNTFIYRVHDDPDPAKLESLRDFVATFGYKMNLANTKKVAESLNKLLHDVKGKGEENMIETLAMRSMSKAVYSTEPIGHYGLGFEYYSHFTSPIRRYPDLLAHRLLQHYLDGGKSPNRGELEDKAKHCSAMERLAADAERDSIKFMQVKFMEKHLGETFKGVISGVAEFGFWVEIPENGAEGLIKLRDLVDDSYMYDAKTHAVYGIRHGNKYQLGDEVQIKVVKANLIQKQLDFQIVK				NA	NA	NA	NA	NA
BMS003_00325	687			hypothetical protein	ATGTTAGAACTTGTACTATCTGCCATCATATTAGGATTTATGCTGAGCCTGGTTTTTATAGGACCTATATTTTTCCTTTTAATTGAAACCAGCTTTTCCAGAGGCCCAAGGCATGCCCTATCATTGGATCTTGGAGTGATCACTGCAGATTTATTATGTATTGTAGCAGCCTATTATGCCAGTACAGATATTGTAAGTTTAATTGATAAGCATCCGGGGTTTTACAGGATCACCTCTATTCTTATTTTTATCTACGGAATTGTAATGCTGGTAACCAAAACGAAGATGCACATGCCGGGTGAGGAAAGAATTATTGGCCAGAATTATATCAAAACATTTTTCAATGGCTTTTTCTTTAACCTTTTGAATGTTGGAGTCATCCTTTTCTGGCTGGTAACAGTAATTTCCGTAAGAAATCAATATCCGGACACCAGCAGTTTTATTTTATACATAGGCATAGTACTGGCCACTTACCTTTCAATAGATCTTGCCAAGATATTTCTTGCCAAGCAGTTTCACGATAAATTAACACAAAAGCTGGCCAACCAGATCAGAAGGGTTGTTGGCTGTATTCTTATTATCTTCAGTTTCTTTATTTTCCTGCAGAGTTTCAAAAAGTTCAATCAGTTTGAAAGACAGCTGGAGGAAGCAGAAAAGAAAGAAGTAAAATATCAAAAAACAAAATGA	MLELVLSAIILGFMLSLVFIGPIFFLLIETSFSRGPRHALSLDLGVITADLLCIVAAYYASTDIVSLIDKHPGFYRITSILIFIYGIVMLVTKTKMHMPGEERIIGQNYIKTFFNGFFFNLLNVGVILFWLVTVISVRNQYPDTSSFILYIGIVLATYLSIDLAKIFLAKQFHDKLTQKLANQIRRVVGCILIIFSFFIFLQSFKKFNQFERQLEEAEKKEVKYQKTK				NA	NA	NA	NA	NA
BMS003_00326	930	ykfA	COG1619	putative murein peptide carboxypeptidase	ATGAAAAAAATGATCTTTCCGAAGTCCCTTAAAAAAGGAGACAAAATAGCCGTTATTTCCCCTGCCGGAGCGGTGGATGTTCCACAACTGGAAAAGGGAATAGAAATGATTAAAAGCAGAGGTTTTGAACCCGTTTTGGGAGAACATGTTTACACTAAATTTTCGAACGGATACAATTATGCCGGAACAGAAAAGGAAAGAGCAAAAGATATCAACTGGGCTTTAAATGATACAGAGATCAGAGCTGTATGGGCTTCCAGAGGAGGCTACGGATGCCAGCACCTGATTCAGCACCTGAAGTTGAAAAACTTTACAGAAAACCCGAAATGGTACATCGGATATTCCGATAATACAGTCATACAAAGTTATCTGTTAAAAAAAGGCTTTGTTTCCATCCACGGGCAGACCATCAAAACATCCGGTTTTGGAGTTACAGATGAAAGCTATGATCTGATTTTTGACATTCTGAAAGGTAAAAAGCCAAAATACAGCCTGGAATCTCACCAATTGAATAAAGAAGGGAATATTGAAGGAGAATTGGTTGGAGGGAATTTAGCCCTTATTTACGCCCTTTTAGGAACTAAATATTCTTTCGACTTTAAAGATAAGATTTTGTTCATTGAAGATATCGGAGAAAATTTCTATGCGCTGGACCGCATGATCATGAGTCTGGAACTGGCAGGAGTTTTTAATAAGATTAAAGGTCTTATCGTGGGCGGTATGACCAATATGGGAGATGAAAAGGAAAATAAAAACTACGAAGAAAGCTACGATGAATTTGCCTGTAAGCTGATTTCTGAAAGGATTTCAAAATATAAATTTCCTGTAGTATTTGCCTTCCCGAATGGACATATTAAAGACAACAGACCTCTTTTAGTTGGTGCAAACGTTAAAATGAAGGCGGGTGTGAATGTAAAACTGGATTTTTAA	MKKMIFPKSLKKGDKIAVISPAGAVDVPQLEKGIEMIKSRGFEPVLGEHVYTKFSNGYNYAGTEKERAKDINWALNDTEIRAVWASRGGYGCQHLIQHLKLKNFTENPKWYIGYSDNTVIQSYLLKKGFVSIHGQTIKTSGFGVTDESYDLIFDILKGKKPKYSLESHQLNKEGNIEGELVGGNLALIYALLGTKYSFDFKDKILFIEDIGENFYALDRMIMSLELAGVFNKIKGLIVGGMTNMGDEKENKNYEESYDEFACKLISERISKYKFPVVFAFPNGHIKDNRPLLVGANVKMKAGVNVKLDF	PGPT0023815_1674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
BMS003_00327	372			hypothetical protein	ATGGCTAACCATAATGATTTTGGAAAAATAGCAGAAGATCTCACTGCTGATTATCTTAAGAAAAATGGCTATAAGATCCTGGTCAGAAACTTTCGCTTCCAAAAAGCAGAGATAGATATCATTGCTGAAAAAGATAACCTGATTATCATTGTGGAAGTAAAAGCAAGATCTACAGATACATTTATGCTCCCACAGGAAGCAGTCACCAAAACAAAGATAAAATCTATAGTTTCTGCAGCCAATCACTATCTTGAAAAACTCAATAAAGAGAATGAGGTCAGATTTGATATTATCTCCGTTCTTCCGGATGATAAAAAAAACTTAATAATTGACCATATCAAAGATGCTTTTCAGGCCTTTGATGCAAATTAA	MANHNDFGKIAEDLTADYLKKNGYKILVRNFRFQKAEIDIIAEKDNLIIIVEVKARSTDTFMLPQEAVTKTKIKSIVSAANHYLEKLNKENEVRFDIISVLPDDKKNLIIDHIKDAFQAFDAN				NA	NA	NA	NA	NA
BMS003_00328	750	ydfG	COG4221	NADP-dependent 3-hydroxy acid dehydrogenase YdfG	ATGAAGACAATATTAATCACCGGAGCTACTTCCGGAATAGGTAAAGCCACTGCAGAGCTTCTGGCAAAACAAGGAAACAGAATCATTATCTGTGGAAGAAGAAATGAAGTGCTGGAATCTGTAAAATCTGAGTTATCTCAATATACTGAAATATTTAGTTTAATGTTTGATGTAAGGAATCTTGAAGAAGTAGAAGCGGCTTTTAGTTCACTTCCTGAAAGCTGGAAAGAGATTGATATTCTGATTAATAATGCAGGAAATGCTCATGGATTAGATCCTCTTTCTGCAGGTAAGACAGATGACTGGGATTCTATGATTGACGGAAATGTAAAAGGGCTGCTCTATGTTTCCAAAATGATCATTCCGACTATGAAAACTAAAAATTTAGGTCATATTGTAAACATCAGTTCTGTTGCTGCGAGACAAACGTATGCGAATGGAGTAGTGTACTGTGCAACGAAGAAAGCCGTAGATGTTATTTCAGACGGAATGAGGCTGGAGCTTACCGAATTTGGGATCAAAGTAACCAATATTCAGCCCGGAGCTGTAGAAACAGATTTCTCTTTGGTAAGATTCAAAGGAGACAGTGAAAAAGCGTCCTCTGTTTATACAGGATATGAGGCTCTGAAAGCAGAAGATATTGCTGATGCCATTGCTTATTGTGTCAATGCGCCGAAACACATTACCATTTCGGATATGACCATCTATCCAAGTGCTCAGGCAGAACCAAGAACAATTTATAGAAAATAG	MKTILITGATSGIGKATAELLAKQGNRIIICGRRNEVLESVKSELSQYTEIFSLMFDVRNLEEVEAAFSSLPESWKEIDILINNAGNAHGLDPLSAGKTDDWDSMIDGNVKGLLYVSKMIIPTMKTKNLGHIVNISSVAARQTYANGVVYCATKKAVDVISDGMRLELTEFGIKVTNIQPGAVETDFSLVRFKGDSEKASSVYTGYEALKAEDIADAIAYCVNAPKHITISDMTIYPSAQAEPRTIYRK	PGPT0021285_689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS003_00329	681	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAAAATTCTATATCTGGAAACCTCTTCCAAGAACTGCTCGGTAGCTGTATCAGACAATGAAAAATTACTGTGTGTATGCGAAGAAGTTTCTGAAAACTACAAACAGTCTGAAAGTCTTCATACCTATGTGGAATGGGCATTGGAAGGAGCAGGAATTTCTCTTAAAGAGATAGAAGCGGTCTCTTTAGGAAAAGGACCGGGGTCTTATACCGGTCTGAGAATTGGGGCAGCCTCGGCAAAAGGATTCTGTTATGGACTTAAAGTTCCTCTGGTAGCAGTAAATTCCCTTGAAAGCATGATAGAGCCTTTTTTAGGCGATAACTATGATTTTATAGTGCCTTTAGTTGATGCAAGGAGAATGGAGGTGTATACGGCCGTTTATGACGGTAATACAGGAAAAGAATTGTCTCAGACCGAAGCAAAGATATTAGACGAAAATTCTTTTGAAGAATTCAAGGATAAAAAAATATTGTTTGTAGGCGATGGTGCTAAGAAAACAAAAGAGATAGTGAATCTTCCGGGCGCTGTTTTTAAGGAGAATGTCTATCCATCTTCTCAATACCTTATCAGGAAAACCTTAGAAAAGATAGAAAATAAAGAATTTGAAGATATGGCTTATTTTGAGCCATTTTATCTCAAAGATTTCCACGGAGTAAAGAAAAAGAAAAGCGAAGAGTAG	MKILYLETSSKNCSVAVSDNEKLLCVCEEVSENYKQSESLHTYVEWALEGAGISLKEIEAVSLGKGPGSYTGLRIGAASAKGFCYGLKVPLVAVNSLESMIEPFLGDNYDFIVPLVDARRMEVYTAVYDGNTGKELSQTEAKILDENSFEEFKDKKILFVGDGAKKTKEIVNLPGAVFKENVYPSSQYLIRKTLEKIENKEFEDMAYFEPFYLKDFHGVKKKKSEE				NA	NA	NA	NA	NA
BMS003_00330	2574			hypothetical protein	ATGAAAAAGAATATATTATTCCTTTTAGTGATATGCCTTGTTGCTTCCTGTGCTACCAAAACAAAAAAGCCGGAGCAGCGATCCAAACTATTGAAAGGATTTTCCACATATTACAACACTCTCTTTAATGCAAAGGATGCATTGAACAGTGAGTTTACGACCAGAGATAAAGGACATAAAGATAATTTTTATGCTCCATACATTCCTATTCTTACCTATGAAGAGCAGCCTTTAGGAAGTGATCTTGGACAGTCGGAAGCTTTTGCAGAAAATTCTATGAGAATGGCTGAAGTAGCCAACAGACCTTCGGGAAGAAATGCTTCAGGGCCTCCTGGAATTCCTGGTGGAGGAACTTCAGGAACAGGAAGACCTGATGGTGAACAAGGGAAAGGAGCTACAACGCTTGAAATAGCAGAAGCAAAAGCTTTGAAAGCTATTAATAAGTATTCTGTAATTAGAAATGGTGAGGAAAAAAACAAGACAATTTTTGATGCCTATATGATTCTTGCCCAGTCGAGGATTTACCGAGGCAAATCACTTGAAGCACTGGATGCTCTTAACTATGTCTTTACCCATATGAAAGATGATAAGAGAATCCCGCTGGCAAGAATTTATCAGGGGCTCGCTTATGATAAAATTAAGGATTACCACAGAGCACATGAAACTTTTGCAAAACTGAAAGGAGAAGATATCAGTAAAAGCTATGCAAAACTGCTGAGTATTTATTATTCTGAATCTCTGCTTGGTGCCGGAAAAAAGGAAGAGGCAGCCAAAGAGCTTGATGATGCTTTCGAACTGAACAGCAACAGAAAGCTCAAGAGCAGAATTGCATATCTGAGAGGACAGGTTCTTGAAAACCTTGGCCAAAATGATAAAGCCAGAGAAAGCTATACTGCAGCTTATAAATATGCCAACGATTTCGAATTTGAAGTAAAATCCCAGATCGCTATTGCTAAAACTTTTAATGGTAAGGGAGACTATGCCGGAGCGAAAAATTACCTGGAAGGAATCAGTAAGAAAGGAACTTACGGATCCAGAAAAAATGAATTTTACTATGCTCTTGGTTTAATGGCCAATAAAGCGGGGAAAAAAGATGAGGCACAACAGTTCTTCAGAAAATCTCTGTTTGAAAAGGTTTCTGATCCACAAATCCGTGGACTGGCTTATTATGAAATAGGAAAAAGCTATTTGGAAAAGAATGATTATATTGGTGCCGGAAGCTATTATGATTCTGCACTTGCCGTAATGACTTATGAGCCTTCAAAAATCTTATTGAAAGACCAGTCTGAATACATCAAAAAGATCTCCAGAAACTATTATCTGATCAAAAAAAATGACAGTATCCTATCTCTTGCCAGAATGGATAATGCTCAGAAGACAGACTATTTCAATAAATATATTGCCAAATTAAAAATTAAAGAAGAGAAAGAAGAACAGGAAAGAAGACGTGCTGAAAGAAGCAAAGAGTTTGATACAGGGGATTACAGTGCTAATTCTATTTTTGCCAACGGTTCTGCCAATTCTTTTGAGGATTTTGGAGTAACTACGAAATCCTTCTACTTTAGCAATACCGGAACAGTAAGCAAAGGAACCTCTACGTTTAAGCAAGTATGGGGAGACCGTGCCCTTGCTGATAACTGGCGTTATTCTAAGAAAATGGCATCTATTGAGGATTTGAAAAACGAAGCGTTGGGGGTAACTTCTGCGCCTAATCCGAGACGTTTTGAGCCAGCTTATTATATTGAGCAGATTCCAACTGATCAGGGCAAATTATCTCAGTTAAAAAAGGACAGAGACACTGCTTCATTAGGACTGGGAATCATGTATCAGAATTATTTTACCAACACTCCCCTGGCTACCAAAACATTATATGATCTTGTAGATGTAAAACCGGAAGAAAAGGTAATGCTGCAGGCCTTGTATGAAATTTTTGCCATGAACTATGAGAAGAATCCGCAGGCTTCTGAAAGAGCTAAGCAAATTCTGTTAGCAGATTATCCCTATACTTCTTATGCTGAATTTGCCAGAAATCCGAAAAACAAATCTTTCGTAAAATCTACCGAAGAAGTTGAAAACGAATATAAAAAGGCTTATGCTTTGTTTGAATCCGAAAAATTTGCTGAAAGTAAAGATGTCATAGATCAGACTATTCAGAAATTTCCTAAAGATGCGCTGGTTCCTAAACTTTATTTATTAAACGCTTTCAATGCAGGAAAATCTAGTGGAAAGGAGGTTATGATTCTACAGCTTGAACAGATTGCACTGAATTATTCCAAGACTCCTGAGGGGATCAGAGCTAAAGAAATGCTGAACTATCTGAAAAGCGATCTCAGCTTTCAGGCAACAGATACTAAAGGTAATCCTGTTTCGCAGCAGCCACCAGGACAACAAAATGTACAGCAACCAGTGGGAAGACCTAATCAGTCACAGAATGCAGTAGGAATCCCGCAGATGAACAGCGGAACAACGCAGCAGCTGGAAAAATTCAATACACAACCAGTACCTCAACAACAAAAGGATAAAAAATCACCTGATAGCAGACCGGGGACAAAAGTCCCACAAAAGCTTCAATAA	MKKNILFLLVICLVASCATKTKKPEQRSKLLKGFSTYYNTLFNAKDALNSEFTTRDKGHKDNFYAPYIPILTYEEQPLGSDLGQSEAFAENSMRMAEVANRPSGRNASGPPGIPGGGTSGTGRPDGEQGKGATTLEIAEAKALKAINKYSVIRNGEEKNKTIFDAYMILAQSRIYRGKSLEALDALNYVFTHMKDDKRIPLARIYQGLAYDKIKDYHRAHETFAKLKGEDISKSYAKLLSIYYSESLLGAGKKEEAAKELDDAFELNSNRKLKSRIAYLRGQVLENLGQNDKARESYTAAYKYANDFEFEVKSQIAIAKTFNGKGDYAGAKNYLEGISKKGTYGSRKNEFYYALGLMANKAGKKDEAQQFFRKSLFEKVSDPQIRGLAYYEIGKSYLEKNDYIGAGSYYDSALAVMTYEPSKILLKDQSEYIKKISRNYYLIKKNDSILSLARMDNAQKTDYFNKYIAKLKIKEEKEEQERRRAERSKEFDTGDYSANSIFANGSANSFEDFGVTTKSFYFSNTGTVSKGTSTFKQVWGDRALADNWRYSKKMASIEDLKNEALGVTSAPNPRRFEPAYYIEQIPTDQGKLSQLKKDRDTASLGLGIMYQNYFTNTPLATKTLYDLVDVKPEEKVMLQALYEIFAMNYEKNPQASERAKQILLADYPYTSYAEFARNPKNKSFVKSTEEVENEYKKAYALFESEKFAESKDVIDQTIQKFPKDALVPKLYLLNAFNAGKSSGKEVMILQLEQIALNYSKTPEGIRAKEMLNYLKSDLSFQATDTKGNPVSQQPPGQQNVQQPVGRPNQSQNAVGIPQMNSGTTQQLEKFNTQPVPQQQKDKKSPDSRPGTKVPQKLQ				NA	NA	NA	NA	NA
BMS003_00331	564	maf	COG0424	dTTP/UTP pyrophosphatase	ATGAAATTACTTTTAGCATCACAATCTCCAAGAAGAAAAGAGCTCCTTTCCAGCCTTGGTTTTGAATTTGAAGTGGTAAAAATAGATTGTGAGGAGATAATTCCGGAGCACCTCAAAATAGAGGCAGCAGCAGCTTATCTTTCTGATTTAAAAGCAGGTGCTTTCAGAACTCTGGAGAGAGATGAAGTACTCTTAACAGCAGACACTGTAGTAGCTGTAGATAATCAGATTCTTGGAAAACCTAAAGATGAAGCGGATGCATTCAATATGCTTAGGAGTCTTTCCGGGAGGACCCATCAGGTTTATACAGGAATTACCATTAAGACCACCAATAAAACCTTTACTGAAACAGATGTAGCTGATGTTACCCTTGATCAGCTTTCTGATGAAGAAATACACTATTATATTCAAAACTATAAGCCTTTTGATAAAGCGGGAAGCTACGGCATTCAGGAATGGCTGGGAATGGCAAAAATCACCAATATGGCAGGGAGCTTTTATACCATCATGGGGCTTCCTACCCATCTTGTTTACAAAATATTGAAAGAAATCTCTCTGATCTGA	MKLLLASQSPRRKELLSSLGFEFEVVKIDCEEIIPEHLKIEAAAAYLSDLKAGAFRTLERDEVLLTADTVVAVDNQILGKPKDEADAFNMLRSLSGRTHQVYTGITIKTTNKTFTETDVADVTLDQLSDEEIHYYIQNYKPFDKAGSYGIQEWLGMAKITNMAGSFYTIMGLPTHLVYKILKEISLI				NA	NA	NA	NA	NA
BMS003_00332	519	kdsC	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGAGTTATAAAGAGAAATTAAAAGATATTAAGGCATTTGTATTTGATGTAGACGGAGTTTTCACAGACGGAAGTGTATATCTTCTTCCGGGAGGAAATATGTGCAGGGTTATGAATGTTCTGGACGGCTATGCGGTAGTAAAAGCATTAAAAAACAATTATCTGATTGGTGTTATTACGGGAGGAAATGATGAAATGGTAAAACACAGAATCAATTATCTCGGGATTCAGGATTACTATCCGAAGTCTCACAATAAAATTGAGGATTTTGAAGATTTTAAAAAGAAGTATAACCTTAAAAATGATGAGATTCTGACCATGGGTGATGATCTTCCGGATATTCATATCATGGAAAGCTCTGCTATTGCGGCCTGCCCAGAAAATGCTGTTCCTGAGGTAAAAGGAATTTCCGATTATATTTCCCCGAAAAAAGGAGGAACAGGTGCTGTGCGTGATGTGATTGAACAGGTAATGAAAGTTCAGGGGAACTGGCATGATGATAATACTCAATCTGTATAA	MSYKEKLKDIKAFVFDVDGVFTDGSVYLLPGGNMCRVMNVLDGYAVVKALKNNYLIGVITGGNDEMVKHRINYLGIQDYYPKSHNKIEDFEDFKKKYNLKNDEILTMGDDLPDIHIMESSAIAACPENAVPEVKGISDYISPKKGGTGAVRDVIEQVMKVQGNWHDDNTQSV	PGPT0023070_1748	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
BMS003_00333	750			hypothetical protein	ATGCAAATTGTAATAATCGGTTCCGGAAATGTTGCCTATCATATGGCAAAAGCTTTCACCCTGAAAAGCATTCCCCTGGCCCAGGTTTTTGGCAGGAACGAAAAAGAATTAAGTAAAATTTCTGAAGAATTACAGATTCCTTATTCCACAGATCACCTGGAAGAGGCAGATCTTTATATCATCTGTGTGAGTGACAATTCTGTAGAAGAAGTTTCGAAGATCATTACCAAAAAAGACAGTCTGGTTGCCCATACATCCGGATCTCTTCCGAAAGAAGCACTTTCCGGTGATTACAGGAAGGCCAGCTTTTATCCTTTACAGACTTTTTCAAAATCCAAAGAGTTGGAATATGAAAAAATTCCGTTTTTTGTAGAAGCAGAGCATGAAGAAGATCAGAAAACATTGATTGATCTTGCTTCTCAGATTTCTGAAAAGGTAATGGAAAGCAGTCATGAAAAAAGAAAATATATTCATTTAACCGCTGTTTTCGCATGCAATTTTGTGAATCATCTTTTTTCAAGGGCTAAAGAAATTTCGGATTCTCAGGAAATTCCGTTTGATTATTTTCTGCCCCTGATTGGTGAAACCGTTCAGAAAATTTATGAAATTGAACCCAAAATGGCACAGACAGGCCCGGCTGTTAGAAATGATATAAGGATTTTACAGCTGCATGAACAGTTATTAAAAGACGAAAGTCTTGAAATTTATAAAACAATGAATCATTCTATTCAGAAAATGTATGAGTTATAA	MQIVIIGSGNVAYHMAKAFTLKSIPLAQVFGRNEKELSKISEELQIPYSTDHLEEADLYIICVSDNSVEEVSKIITKKDSLVAHTSGSLPKEALSGDYRKASFYPLQTFSKSKELEYEKIPFFVEAEHEEDQKTLIDLASQISEKVMESSHEKRKYIHLTAVFACNFVNHLFSRAKEISDSQEIPFDYFLPLIGETVQKIYEIEPKMAQTGPAVRNDIRILQLHEQLLKDESLEIYKTMNHSIQKMYEL				NA	NA	NA	NA	NA
BMS003_00334	552	rpoE_1		ECF RNA polymerase sigma-E factor	ATGAAGATTAAGGACGCGGAGATTATTTCGTTGATGCAGAATCCACGGACCCAGGATAAGGGAGTCCGCGCCTTGATGGATGCCTATCAAAGCAGATTGTACTGGCACATAAGAAGAATTATTGTGGACGGAGACCTTGCACAGGATACTTTGCAGGAAACTTTTATTAAAGCATATCAGAATTTTCATCAGTTCAAAAATGATAGCCAGTTGTATACCTGGTTGTACAGAATCGCTACCAACGAAGCCCTACAACAGGTAAACAAAATGAAAAAAATGCAGAAAACTGATGAAGATCCGGAGTATCATATGCAGAATCTTGTAGCAGATAATACGGAAGGAGATGCTGAAGAAATACAGATTTTACTGCAGAACGCTATACAGAGCCTGCCCGAAAAGCAGAAACTGGTATTTATGATGAGGTATTATGATGATTTGCCCTACGAAGAGATATCAAAAATTGTAGATATGTCTGTAGGAACCCTGAAAACAAATTATCATTATGCCAAACAGAAAATAGAAGATTATATTAAAGAAAATTACGAAAGATAA	MKIKDAEIISLMQNPRTQDKGVRALMDAYQSRLYWHIRRIIVDGDLAQDTLQETFIKAYQNFHQFKNDSQLYTWLYRIATNEALQQVNKMKKMQKTDEDPEYHMQNLVADNTEGDAEEIQILLQNAIQSLPEKQKLVFMMRYYDDLPYEEISKIVDMSVGTLKTNYHYAKQKIEDYIKENYER	PGPT0014960_9302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00335	543			hypothetical protein	ATGAAAGAGTTCGACATAGAAAAATTAGAGCGTAAAAACATTTACACAGTTCCTGATAATATGTTTGAAAATATTCAGGATAACGTTTTGAATGATATAAAGATAAGTAAAAAAGTACCTGTCTTTAAGATGAATTGGGTGTATGCAGCAGCAGCATCACTGGCTTTGATTTTTGGAGCAACTTATGTTTTCAATTCAGATAATGACTCTACGGAACAAACGCTGAGCTCTAAAACAGAATATGTTGCCAATAACGGGGAACAAAAAACAGAAAGTGAAGTAGCGTATGAAACTTTGAAATCTGATTTAACCTCTGTTGAAAACAGTAATCAAACTGTTGGAAATCAAAAAGATAAAAATGTTTATGCTTCTAAAGAAATAAAGGTAACTGAAAAAGTAACAGAGACTATAAAACCGATAAAAGCAGCAACAAAAAAAGAAGAAATGCAAATGAATGAATACCTGGATTCGTTTTCTAACTCTGAAATAGCAGAGCTGGCAAGCAATTCGACTCAGGACGTTTATTTGGATATATATAATTAA	MKEFDIEKLERKNIYTVPDNMFENIQDNVLNDIKISKKVPVFKMNWVYAAAASLALIFGATYVFNSDNDSTEQTLSSKTEYVANNGEQKTESEVAYETLKSDLTSVENSNQTVGNQKDKNVYASKEIKVTEKVTETIKPIKAATKKEEMQMNEYLDSFSNSEIAELASNSTQDVYLDIYN				NA	NA	NA	NA	NA
BMS003_00336	513			hypothetical protein	ATGAAAAAGATATTATTGACGTTTTTGATTATTTACGGCTTCGGCTTAAATGCCCAGAGGACGGATTATGACTGGAAAAAAATGGATCCTAAGCAAAGGAAAGAAGTTATCAATAATCTTTCTCCGGAAGAGAGGAAAGAGCTCCTTAAAAAATTCAGGAATAATATGATTATGGATAACCTGAATATAGATCCGGGAGATAAGACTGAATTTACACAGTTATATAATGAATATCTGGAAAGCCAAAAACAGATAAAAAGCCAGTTTAATCCAAGTTTCGATCCTGAAACCCTTACGGATGAAGAAGCAAAAGCTAAGCTGCAGCAAAGCTTTGAGGTAGGACAGCAGCTATTGGATAACAGAAAAAAATATGCAGATAAAATGCAGCAGGTCATTCCCTGCCAGAAAGTTCTGAAGCTGTTTCAATCTGAGAAAATGATGAGAGATAAAATGGATGAAAGAAAACCTCACGGAAATCATAAGAATACTTCGGGATCTAAACAAAACCCATAA	MKKILLTFLIIYGFGLNAQRTDYDWKKMDPKQRKEVINNLSPEERKELLKKFRNNMIMDNLNIDPGDKTEFTQLYNEYLESQKQIKSQFNPSFDPETLTDEEAKAKLQQSFEVGQQLLDNRKKYADKMQQVIPCQKVLKLFQSEKMMRDKMDERKPHGNHKNTSGSKQNP				NA	NA	NA	NA	NA
BMS003_00337	1797	lepA		Elongation factor 4	ATGAAAAACATACGAAATTTTTGCATAATCGCTCATATCGACCATGGTAAAAGTACCCTGGCAGACCGTCTATTGGAGTACACAAATACCGTTACCCAAAGAGAATTACAGTCTCAGACGCTGGATGATATGGATTTGGAGAAAGAACGTGGGATTACCATTAAGTCACACGCCATCCAGATGGATTATGAGTATAAAGGAGAGAAATATATTTTAAACCTTATTGATACACCGGGACACGTGGACTTTTCTTATGAAGTTTCCCGTTCTATTGCTGCCTGTGAAGGTGCTCTTCTCATTGTAGATGCTGCACAGAGCATTCAGGCACAAACCATCAGTAACCTTTATCTGGCACTGGAAAATGATCTGACAATCATCCCGATTTTGAATAAAATTGATCTTCCGTCTGCTAATCCAGAGGAAGTAACTGATGAGATCATGAATCTTATCGGATGCGACTATGAAGATGTACTGAGAGTTTCTGGAAAAACCGGAGAAGGTGTTCATAATCTTTTAGAGCAGATTGTTGAAAGAATTCCTGCACCGCAGGGAGATCCGGAAGGTCCGCTTCAGGCTTTGATCTTTGACTCTGTTTACAACCCGTTCAGAGGGATTGAAGCTTATTTTAAAGTAGTGAACGGAAGTATCACTAAAAATGAAAAAATCAAATTTTTTGCTACAGGGAAAGAATATGGTGCTGATGAAGTAGGAACTCTGAAACTAAAACAGGTTCCAAAGAAAACTATCCAATGTGGAGATGTAGGATACCTGGTTTCCGGTATTAAAGATGCCCGTGAAGTAAAAGTAGGAGATACTATTACTTCTTTTGAAAAACCTGCTGATGGACCAATTGATGGATTTGAAGAAGTAAAACCAATGGTATTTGCCGGGATTTATCCAATTGATTCTGAGGATTTTGAAGAGTTAAGATTCTCTCTTGAAAAATTAAGACTGAATGATGCTTCTCTGGTTTTCGAGCCGGAAAGTTCTGCAGCACTTGGTTTTGGTTTCCGTTGCGGCTTCTTAGGAATGCTTCACATGGAAATTGTTCAGGAACGTCTTGACAGAGAGTTCAATATGAACGTAATCACAACCGTACCGAACGTTTCTTATTTTGGATATACTAAAAAAGAACCGGAAGTTCCGATTTTGATTAACAACCCATCTGAAATGATGGATCCTTCAACAATGGACAGAGTAGAAGAACCTTTCATCAAGGCTTCTATCATTACAAAATCTGATTTCGTAGGAGCTGTAATGACTTTATGTATCGAAAAAAGAGGAGAAATTGTTAACCAAAGCTATCTTACATCAGAAAGAGTAGAATTAATTTTCAATATGCCGCTTGCTGAGGTTGTATTCGACTTCTATGACAGACTGAAATCTATCTCTAAAGGATACGCTTCATTCGATTATCACCCAATCGGATTCAGAGCTTCCAAGCTTGTAAAAATGGATATCCTGATCAATGGTGATATGGTAGATGCACTATCTTCATTGATTCACGATTCTAATGCTTATTACATCGGTAAAAGAATGTGTGAGAAGCTTCGTGAGCTGATCCCTAGACAACAATTTGATATTGCTGTTCAGGCTGCATTAGGAACAAAAGTAATCGCAAGAGAAACCATTAAAGCCCTAAGAAAAGACGTTACCGCAAAATGTTACGGAGGAGATATTTCCAGAAAACGTAAACTATTGGAAAAGCAGAAAGAAGGGAAGAAGAAAATGAAGCAGATTGGTAGAGTAGAAGTACCGCAATCAGCATTTATGGCTGTGTTAAAGCTAAATGATTAA	MKNIRNFCIIAHIDHGKSTLADRLLEYTNTVTQRELQSQTLDDMDLEKERGITIKSHAIQMDYEYKGEKYILNLIDTPGHVDFSYEVSRSIAACEGALLIVDAAQSIQAQTISNLYLALENDLTIIPILNKIDLPSANPEEVTDEIMNLIGCDYEDVLRVSGKTGEGVHNLLEQIVERIPAPQGDPEGPLQALIFDSVYNPFRGIEAYFKVVNGSITKNEKIKFFATGKEYGADEVGTLKLKQVPKKTIQCGDVGYLVSGIKDAREVKVGDTITSFEKPADGPIDGFEEVKPMVFAGIYPIDSEDFEELRFSLEKLRLNDASLVFEPESSAALGFGFRCGFLGMLHMEIVQERLDREFNMNVITTVPNVSYFGYTKKEPEVPILINNPSEMMDPSTMDRVEEPFIKASIITKSDFVGAVMTLCIEKRGEIVNQSYLTSERVELIFNMPLAEVVFDFYDRLKSISKGYASFDYHPIGFRASKLVKMDILINGDMVDALSSLIHDSNAYYIGKRMCEKLRELIPRQQFDIAVQAALGTKVIARETIKALRKDVTAKCYGGDISRKRKLLEKQKEGKKKMKQIGRVEVPQSAFMAVLKLND	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
BMS003_00338	843			hypothetical protein	ATGAAATCAGAAGAAATAAAAGACTTATTCCATAAATTTGAAGAAGCTGCCTCTGAACTTGAGGGAATAGAATGTTGGAGTGCTAGAGATTTACAAATATTACTGGGATATAGTAAGTGGGAAAATTTTGAAAAAGTAATTATAAAAGCAAAAGATGCTTGTAAAAATGTTGGGGAGTTAATTGAGTATCATTTTCCTGATGTCAGGAAAACGATACAAATGCCTAAAGGAGCTGAGAAAGAAATAGATGATATTTTATTAACAAGATATGGCTGTTACTTAATCGCGCAAAACGGTGATAGTAGAAAACAGGAAATATCTTTTGCACAGAATTATTTTGCTGTTCAAACAAGAAGGGCAGAATTGGTGGAGCAGAGATTATTAGAATATGAAAGAATCAAAGCCCGCGAAAAATTAAGCCAGACTGAAAAACAACTTTCAGGGATTCTATATGAAAGAGGTGTTGATAGCCAGGGATTTGCTGTTATAAGAAGTAAAGGAGATCAAGCGCTTTTTCGTTTAAATACACAAATGCTAAAGAAAAAGATGGGAGTTCCTGAAAGCAGACCAGTCGCAGACTTTTTACCTACAATTAGCATTAAAGCTAAAGACTTAGCAGCTGAGATGACAGGATTGAATGTTCAAAATAAAAACTTAAAAGGGCAGTTAAATATCGAAGAAGAACATATAGATAATAATGTTGCTGTTAGAAATATGTTGACAAACAGAGGAATAATCCCTGAAAATTTACCAGCAGCAGAGGATGTCAAAAAGTTACAAAGAAAATTAGATAGCGATGAAAAAAAGGTTTTAAAACAAACTAAAAAACCTTTTAAGAAATAA	MKSEEIKDLFHKFEEAASELEGIECWSARDLQILLGYSKWENFEKVIIKAKDACKNVGELIEYHFPDVRKTIQMPKGAEKEIDDILLTRYGCYLIAQNGDSRKQEISFAQNYFAVQTRRAELVEQRLLEYERIKAREKLSQTEKQLSGILYERGVDSQGFAVIRSKGDQALFRLNTQMLKKKMGVPESRPVADFLPTISIKAKDLAAEMTGLNVQNKNLKGQLNIEEEHIDNNVAVRNMLTNRGIIPENLPAAEDVKKLQRKLDSDEKKVLKQTKKPFKK				NA	NA	NA	NA	NA
BMS003_00339	642			hypothetical protein	ATGAAAAACTTATTAACAATTCTTTCTGCTGCTTTTTTATTAACAGCTTGTGAGAAAGGAAAAACAAATGCTTCCACGGATTCTGACAAAGCAAATACTTCTGCTGCAAACCCTGAATGGAAGCCTATAGATTCTGCAACGGCCATGAAAGACTGGATGGAGTATTCAACCCCCGGAGAAATGCACAAAATGCTGACAAAATCTGATGGAACATGGACAGGAGAAACCACAATGTGGATGGAAAATGGAGGAAAGCCTATGACAAGCCAGTCTGAAGCTACTAATAAAATGATGTATGATGGACGTTATCAGATCAGTAATCACAAAGGAAACTTTATGGGAATGCCGTTTGAAGGAATGAGCATTGTAGGATATGATAATACAAAAAAGAAATTTGTCAGCACATGGATAGATAATATGGGAACCGGAATCATGCATGGAGAAGGAGACTGGAATCCTTCCACAAAATCTGTGGAATTTAAAGGAACTATGACAGATCCTTCAAGACCAGGTAATGACTGTGATTTCAGAGAAATATTCACATTTGTGGATGATAATACTCAAAAACTGGAAATGTACGGTCCGGATTCCAAAACAGGGAAAGAATACAAAACAATGGAAATAAAATATACCCGTAAATAA	MKNLLTILSAAFLLTACEKGKTNASTDSDKANTSAANPEWKPIDSATAMKDWMEYSTPGEMHKMLTKSDGTWTGETTMWMENGGKPMTSQSEATNKMMYDGRYQISNHKGNFMGMPFEGMSIVGYDNTKKKFVSTWIDNMGTGIMHGEGDWNPSTKSVEFKGTMTDPSRPGNDCDFREIFTFVDDNTQKLEMYGPDSKTGKEYKTMEIKYTRK				NA	NA	NA	NA	NA
BMS003_00340	696			hypothetical protein	ATGGAGTCTCCAAAAAAATTACAGGATATAAAAGTGGCTGTAGATGCCGTTATCTTCGGATATTTTGATAAAAAAGATCTTCAGATCCTTCTGATTAAAAGAAATATTGAACCTTTTAAAGGCTGTTGGGCTCTTCCTGGCGGACTTGTTCTTGATGATGAAAGTGTAGATGATGCAGTAAAAAGGGAACTTTATGAAGAAGCCGGCATAAAGCCTGATTTTTTAGAACAACTGTACACTTTTGGTAATCCGGGTCGCGATCCCAGGAACAGAGTGGTTTCTGTGGCTTATCTGGGGCTTGTAAACCCATCTTACCATGAATTGTTTGCCGATTCTGATGCCGAAGATGCACAATGGTTCAGTATTAATAAACTTCCTTCTGTGGCTTTTGATCATAAAACAATCATTGAGACTGCTTTGAAAAGACTTCGCACGAAAATTCAGTACCAGCCGATCGGCTTTAATCTCCTTAATGAAGAATTCCCTTTTTCTGACCTTGAAAATCTTTATAAAACGATTGTAGGACAGGAAATTGACCGAAGAAATTTCCGAAAGAAAATCATGAGTTACGGACTGCTTAACGAAACCAACAACGTAAAAAAAGAAGGCAGCGGAAGACCCGGAAAACTTTTTACATTCAACAAAGAAAAATACAAAGAGCTTGAAGAACAGGGCTTTTATTTTGAGATAAAATAG	MESPKKLQDIKVAVDAVIFGYFDKKDLQILLIKRNIEPFKGCWALPGGLVLDDESVDDAVKRELYEEAGIKPDFLEQLYTFGNPGRDPRNRVVSVAYLGLVNPSYHELFADSDAEDAQWFSINKLPSVAFDHKTIIETALKRLRTKIQYQPIGFNLLNEEFPFSDLENLYKTIVGQEIDRRNFRKKIMSYGLLNETNNVKKEGSGRPGKLFTFNKEKYKELEEQGFYFEIK				NA	NA	NA	NA	NA
BMS003_00341	543		COG3236	N-glycosidase	ATGAAATACACCATACAGAATATTACAGAACGGTTTCAGAAGAAGGAAAGAATAAAGTTTCTCTTTTTCTGGGGACACACAGCAAAGGAAATTGTTACCAAATCATGCTTCAGCCAATGGTTTCCGGGAAGTTTTGAAGAAAAAGGAGCTACCTATAAAACAGCAGAACATTATATGATGGCCGGAAAAGCAAGATTATTTAATGATCCTGAAACAGAAAAGGAAATCTTAAGTGCAAATACTCCCAATCAGGCAAAAGCATTGGGCAGAAAAGTAAAAAACTTTGATCCGAAGCTTTGGGATGAGCATAAATATCAAATCGTAACCCAGGGAAATTTACTGAAATTCTCTCAAAATCAGAAATTTAAAGACTTTCTTTTGTCAACCGGAGAGAAAGTTCTAGTAGAGGCAAGTCCTTATGATAAAATCTGGGGAATCGGTATGCTGGAAACAGATAACAGAGCAGAAAATCCTTTATTATGGAACGGAGAAAACCTTTTAGGATTTGCTTTGATGGAAGTAAGGGATGAATTAAGAAGGTAA	MKYTIQNITERFQKKERIKFLFFWGHTAKEIVTKSCFSQWFPGSFEEKGATYKTAEHYMMAGKARLFNDPETEKEILSANTPNQAKALGRKVKNFDPKLWDEHKYQIVTQGNLLKFSQNQKFKDFLLSTGEKVLVEASPYDKIWGIGMLETDNRAENPLLWNGENLLGFALMEVRDELRR				NA	NA	NA	NA	NA
BMS003_00342	549			hypothetical protein	ATGGAAAAAACAGAATTGCACCCACAAATATTTCTGATTGAATATTTTCTGACTGAAACGGAATGTGATCATTACATCAGTTTTTCTCAGGAAAAAGTTTTTGAGGAAGCAAAAATCAATGTATTTGGACGTCAGCAGATGAATAAAGGAATCAGAAATAATGATAGATTAATGATTTTTGATGCAACAATTGCTGAAGAGCTTTTCAACAAGGCTGCTGAATTTATACCTCAGGAACACGATGGATATCAACTTCTTAACTTTAATGAAATGCTTCGGGTTTACAAATATGCTCCTGGGCAACAGTTCAAAATGCACAGAGACGGAAGTTACATCAGAAACGAGAGAGAGAAAAGTTTCTACACTTTTATGATTTACCTGAATGATGATTTTGAAGGAGGAGAAACAGAATTTGAAAATTTGTTTACAGTAGCCCCAAAGAAAGGAACAGCACTTATTTTCCACCATCCTTTAAGACATGAAGGAAAAATGTTGATCAATGGATTGAAATATGTTTTGAGAACAGATGTAATGTATTCAAAAGTATAA	MEKTELHPQIFLIEYFLTETECDHYISFSQEKVFEEAKINVFGRQQMNKGIRNNDRLMIFDATIAEELFNKAAEFIPQEHDGYQLLNFNEMLRVYKYAPGQQFKMHRDGSYIRNEREKSFYTFMIYLNDDFEGGETEFENLFTVAPKKGTALIFHHPLRHEGKMLINGLKYVLRTDVMYSKV	PGPT0020375_3118	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
BMS003_00343	336			hypothetical protein	ATGGAAGATGAATTAAAACCCAGATTTATAGAATCATTACAAAGAAATAATGATCAGATCAGAGAAGACCGAGCAAAAATCATCGGAGGAGATTCCGAATTGATTTACAGACGAAGAGTTGAAGATATCGAACTTAAAATCAAAAGACTCGAGCGTGAACAGGAAGGGCTTATTGACATCAGTCCTTTAGACAGAAACAGTCTGACTTTTGCGGATTTTAATCCCGAAGCATTCGTTCAGAAAGACATGGAATTATCATTAACAATCAGAAATCTGAATATTCAGCTTGATGTAACACAAAAGAGATTTGAATATTTATTTGGAAAAACACTATAG	MEDELKPRFIESLQRNNDQIREDRAKIIGGDSELIYRRRVEDIELKIKRLEREQEGLIDISPLDRNSLTFADFNPEAFVQKDMELSLTIRNLNIQLDVTQKRFEYLFGKTL				NA	NA	NA	NA	NA
BMS003_00344	855			hypothetical protein	ATGGGAAGCACAAGATACGATTTAGACGCTCGTTATGACAGAGCAAGCAAAGCAGGTTACGGAACAAAATCTGCGGGAGAAATTTTCACTCAGAATGCCAAAAGAATGGCTCATGAATCTATGAATCCTCACGGAATTTCTTTCAGAGAATCCAGAGATTCAGAAGTTCATCCTCATTCTGTTCCAATTATTTTAGGATTGGATGTTACCGGAAGTATGGGACATATTCCCCACGAATTGATCAGAGATGGATTGCCCAAATTAATGGGCGGAATTATTCAGGGCGGTGTTCCTGATCCAGCCTTATTATTCCTTGGAATCGGAGATCATGAATGTGATGGTTATCCGCTTCAGGTGGGACAGTTTGAATCAGGAGATGAAGAACTGGATATGTGGCTCACACGAACTTATATTGAGTCCGGAGGTGGCGGAAACGCAGGAGAAAGCTATCTTTTAGCGTGGTATTTTGCAGCATTTCACACCAGAACCGATGCTTTTGAAAAAAGAGGACAAAAAGGATTACTGTTTACCGTAGGTGATGAACCTTGTTTGAAAACACTTTCTGCATCAGCCATCAGAGAAATTATGGGAAAAGGACAGCAAACCTATACTCATTTTGAACTGCTGGAAGAAGCAAAGAAAAAATACGAAGTATACCACATCAGTGTTTTGCATTCCGATCAGGCATTGATAGCAGACAGAGGCTGGAAAGAATTATTAGGACAAAACTGTGTATCCATAACAGACCACAGGGAAATTCCCAATGTTATTAAAAGTATTATCTGTAATAAGTTTAAAAATCAAAGTTTCGGAACAACCGGAGCAGGAGGTTTAGATCAGTTTCAAATGCTTTAG	MGSTRYDLDARYDRASKAGYGTKSAGEIFTQNAKRMAHESMNPHGISFRESRDSEVHPHSVPIILGLDVTGSMGHIPHELIRDGLPKLMGGIIQGGVPDPALLFLGIGDHECDGYPLQVGQFESGDEELDMWLTRTYIESGGGGNAGESYLLAWYFAAFHTRTDAFEKRGQKGLLFTVGDEPCLKTLSASAIREIMGKGQQTYTHFELLEEAKKKYEVYHISVLHSDQALIADRGWKELLGQNCVSITDHREIPNVIKSIICNKFKNQSFGTTGAGGLDQFQML				NA	NA	NA	NA	NA
BMS003_00345	1071	purA_1	COG0104	Adenylosuccinate synthetase	ATGAAAAAGGCGCAAATAGTAATAGGACTTGGTTTTGGAGATGAAGGAAAAGGGATTACCACAGATTTTCTGGCTTCTCAGAATCCGGAATCTGTTGTGATCAGATTTTCAGGAGGACAGCAGGCGGCACATACCGTAATGATGGATAAAAGAAAGCATGTGCATTCCAGTTTTGCAAGTGGTGCACTTCGCGGTCTGCCTTCTTACTTCACCGAGCATTGTACCATACATCCGGTTTTTCTATTGAATGAAAGAGAAGAATTAAAAAAGAAAAATGGAAATGTGGAGCTGCATATTCATCCCTTGGCGAAAATTACAACTCCTTTTGATGTATGGCAGAACAGAACAAATATCCGTAATCTGGAACATGGAACCTGTGGAAAAGGAGTAGGTGCTACGATGAAAAGAAACGAAAGTCCTTATAAACTATTTGCCATAGACCTCATGGCTCCCAAAGAGATGCTGATCGAAAAGCTGAAAGGAATTGCTTATTACTATGGCTTTGTGGATGAAAGTGAAATTACAGAACTTTTACAGCCTTTTTTAGATGCTATTGAAGCGACTGATTGGAAAATAAATGATTATAACTACCTGGCTTCGTTTGATCACCTTATTTTCGAAGGAAGTCAGGGTATTTTACTCGATATGGATCACGGCGTTTTTCCTAATGTGACCTATGCACATACGACTTCAAAAAATGCCTGCGAAATCTGTAAGCTTTTAAAAATTGAAGACATTGAAATGTATTATGTAACCAGAAGCTACGCAACCCGCCACGGAAACGGCTGGATGAGCAATGAAAAAGAAATGAATCTGAAAAATAATGAAGAAGAAACCTGTACATTTAATGAGTATCAGAAAGAATTCAGAACCGGGGAAATAGATTACAAACTGCTGAATTATGCCTTAAAGCTGGATGGAGCTTATGTATTTCCGACTAAAAAAAAATTAGTTGTTACCTGTCTGGATCAGATTGATGAGCAATTTAAATTAGAAAATTTTGATGTTGAATTTAATACTGTTTACGGATCCTATTCTCCGTATTCAATAGATTTTAAAATAATTATGTAA	MKKAQIVIGLGFGDEGKGITTDFLASQNPESVVIRFSGGQQAAHTVMMDKRKHVHSSFASGALRGLPSYFTEHCTIHPVFLLNEREELKKKNGNVELHIHPLAKITTPFDVWQNRTNIRNLEHGTCGKGVGATMKRNESPYKLFAIDLMAPKEMLIEKLKGIAYYYGFVDESEITELLQPFLDAIEATDWKINDYNYLASFDHLIFEGSQGILLDMDHGVFPNVTYAHTTSKNACEICKLLKIEDIEMYYVTRSYATRHGNGWMSNEKEMNLKNNEEETCTFNEYQKEFRTGEIDYKLLNYALKLDGAYVFPTKKKLVVTCLDQIDEQFKLENFDVEFNTVYGSYSPYSIDFKIIM	PGPT0020140_5846	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS003_00346	1077			hypothetical protein	ATGATTGATAAGATATATAAATATAGACCTCTTTCTGATTTTTTGTTCAAAGAGCTCCTTTATCAGGAAATATATTTTGCAGCATATGATGAATTAAATGACCCGCTAGATCTTTTTTTAAGAATAGATTTTTCAACTGAAGATATTGAAGCGATTGAGTATTTGATATATTTTGTGATGAAAACTCAAATTTATAAATGCTCAGAAATTAATGATATACCAATAATTAATGAGCAATGGGTTGTTGTTTACAATAATGAAGAAGAAAGAAAAAAAATTATCAATATTGTGTTTGATAGATTATCATTACTAATAAAAAAGCAAAGTAAAATATGGTGTAATGATATTATAAATATTTTTGAAGACACACTATCTAAAGACTTGGGATTTGATTCAAATAGTTTTAAAAAGGAAATTGATAGATTATCTAAAAAGTTTTTAAAAAGTAGCTATGTTTCTTGCTTCTCGGAAACAAATAATAATTTTCTAATGTGGTCACATTACTCGACTAGACATACAGGAATTTGTTTAGAATTTAAACTAGATAATCCGATGTCATTTCCATATGAGGTTACTCACAGGAGAACTATGGATACTGAAAAATATAAAAATAGAATTTCAGAATGGGAGGTAAAATCATATATATATTGGGATAAACTAGAGAAAGTTAGTTATCAAGAGGAACAACCGTATATAAATTTTTACAGTTTTGCCCCCGTATTTGAAAATGAGTATGATTGTGATTTACTTGGATTATCGAAATCTTGGACTCATAAGTATGCTTTTGAACTACAGTCATTATTTTCATGTAAAACTAAAAGTTGGGAATATGAAAATGAATGGAGAGCAATTAAAATTAATTTCGAAGAACAAAAACAGCCAGAGAAAAGAATTAAGCATTACCCAATTGAAGCTTTATCGGCTATTTACTTTGGAATAAACACTCCTAAAAGTGTTAAAAATAGAATTTATAAAATTTTTGAATCAAAAAATTCAGAAATTATTTTTTATGAAGCAAAATTGAACGGAACAAATTCAATAGATTTTGATTATTGGAATTATGATGATGAGGAATAA	MIDKIYKYRPLSDFLFKELLYQEIYFAAYDELNDPLDLFLRIDFSTEDIEAIEYLIYFVMKTQIYKCSEINDIPIINEQWVVVYNNEEERKKIINIVFDRLSLLIKKQSKIWCNDIINIFEDTLSKDLGFDSNSFKKEIDRLSKKFLKSSYVSCFSETNNNFLMWSHYSTRHTGICLEFKLDNPMSFPYEVTHRRTMDTEKYKNRISEWEVKSYIYWDKLEKVSYQEEQPYINFYSFAPVFENEYDCDLLGLSKSWTHKYAFELQSLFSCKTKSWEYENEWRAIKINFEEQKQPEKRIKHYPIEALSAIYFGINTPKSVKNRIYKIFESKNSEIIFYEAKLNGTNSIDFDYWNYDDEE				NA	NA	NA	NA	NA
BMS003_00347	636			hypothetical protein	GTGAAAATCAAATTAAAAAAATATAAAGAACAACTACAAGATTGGCCTGAACAAGGCTATCACATCATGGCTCAATATGATGATGAAAAAATTGTTGTATATCAGTCCTATAGAAAAGAAATTGGAGAATTTGCAGTGAAGAATCAATTCTTCGGCGGAGGTTTCAGCCTCGAAAGAATGACCTGGATAAAGCCGAATTTTCTTTGGATGATGTACAGAAATGGCTGGGGGAGAAAAGAAGGTCAGGAATATGTTTTGGCCATTCATTTGAAGAAAGAAGCTTTTATAAAATATCTTGCAAATTCTGTATATTCTTCTTACAATACAGGTTTTGGGATTGCCAGAGATGAATGGCAGAAGCAGATAAAAGAATCTTCAGTAAGGCTGCAGTGGGATCCGGATCATGATCCTTTTGGAAATAAACTGGAACGAAGAGCCATACAGATTGGTTTACGAAATGAATTTATTCGGACTTTTGCTAAGGATGATATTCTTCTGATTGAAAATATTTCAGATTTTGTGGCAGAACAATATCAGTTTGTATTGAACGATGATCTAGATAATCTGATTGTTCCTGAAGAAAAGCCATTATTATTTGATGATGAGGTTTTAAATAAAAAACTCAACTTAAGATAA	MKIKLKKYKEQLQDWPEQGYHIMAQYDDEKIVVYQSYRKEIGEFAVKNQFFGGGFSLERMTWIKPNFLWMMYRNGWGRKEGQEYVLAIHLKKEAFIKYLANSVYSSYNTGFGIARDEWQKQIKESSVRLQWDPDHDPFGNKLERRAIQIGLRNEFIRTFAKDDILLIENISDFVAEQYQFVLNDDLDNLIVPEEKPLLFDDEVLNKKLNLR				NA	NA	NA	NA	NA
BMS003_00348	585			hypothetical protein	GTGAAAAAACATAATTTCAGATTTGTAGATCAGCCTGAAGATCCTAATATAGGATTGACAAATGAGGAAATTACTTTTCTTCAGAAAGAATTAAATCTGCGGTTTCCTGAAAACTATATTTATTATCTTCAGAATGCGGGGAAAAGATCAAATGTTTTTCCGGTGGAATATGATATTGTAAAGCTGGAAAAATATCAGAAACAATTAAAAGAGGCTTTGAAGAAAAGAGATTTGTTAAGTACAGAAAGTCTTTTTTGTTTCCAGTATAATATTGATTATGAGCCTCTGGTTGGACAGGATTTTGAAACTTTTTATTTTTTCAATTTGTCTAATTCAAAATCTCCTGATTTGTTTGTTTTTGGTGACTTCATCACAAATTTTGACTGGTTGGGATATGATAAAGAGCTTAATAATAATCAAAATTTTGTTGATTTTATCAACGATAAAACGAAAGAAAAATTTAGAATAAAAGAAACAATAGGATTACGTGATATTTTAGTATGGATATTGCTAATTCCTGTTTTTATAATCATTTTGATCATTATTATTTTTCAAAATGTAAAAGAAAAAATTAAAAACCAATGA	MKKHNFRFVDQPEDPNIGLTNEEITFLQKELNLRFPENYIYYLQNAGKRSNVFPVEYDIVKLEKYQKQLKEALKKRDLLSTESLFCFQYNIDYEPLVGQDFETFYFFNLSNSKSPDLFVFGDFITNFDWLGYDKELNNNQNFVDFINDKTKEKFRIKETIGLRDILVWILLIPVFIIILIIIIFQNVKEKIKNQ	PGPT0027635_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027635-antitoxin_yobK-K21488	NA	NA
BMS003_00349	687	cobB_1	COG0846	NAD-dependent protein deacylase	ATGAAAAAACTAACCATATTAAGCGGCGCAGGAATAAGTGCCGAAAGCGGAATAAAAACCTTCAGAGATGGAGACGGTCTCTGGGAAAATCATAATGTAACAGATGTGGCAAGTCCGGAAGGATGGAGAAGAGACAGAGCTTTAGTCCTTGAATTTTACAACCAGAGAAGACGCCAGCTGCATGAAGTACAGCCTAACGAAGCACATCAATTGCTGGCAGAGTTGGAAAAACATTTTGAAGTTCAAATTGTTACCCAAAATATAGATGACCTGCATGAAAGAGCAGGATCTACCAATATTCTTCATATTCATGGAGAATTGTTCAAGTCATGTTCCTGTAATAATAAAAGCCTGATCTATGAACAAAAAGAAGATATCAATATAGGAGACAAAGCTGAAGACGGGGCACAATTAAGACCTTTTATCGTTTGGTTTGGAGAAGATGTTCCTTTATATCAAAAGGCAAAAGAAATTGTAAAAGAAGCAGATATTCTGTTGGTAATTGGAACTTCTTTGCAGGTGTATCCGGCTGCCGGACTGATTCATGACATCAAAGATGACTGTCTTTTAATTGTCATCAATCCTAATGAAACAGGATTTGGCTATGGACAAAGAGCCGTTGTGATGAAAGAAACAGCTACGCAGGGAATGAAATTATTATTTGATAAATTAGTCAATTTAGCCTGA	MKKLTILSGAGISAESGIKTFRDGDGLWENHNVTDVASPEGWRRDRALVLEFYNQRRRQLHEVQPNEAHQLLAELEKHFEVQIVTQNIDDLHERAGSTNILHIHGELFKSCSCNNKSLIYEQKEDINIGDKAEDGAQLRPFIVWFGEDVPLYQKAKEIVKEADILLVIGTSLQVYPAAGLIHDIKDDCLLIVINPNETGFGYGQRAVVMKETATQGMKLLFDKLVNLA	PGPT0013485_3236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
BMS003_00350	942	tri1_1	COG1397	ADP-ribosylarginine hydrolase Tri1	ATGGAAAACAAAGTAAAAGCCGGAATTATGGGTGTCTGCATTGGAGATGCTCTTGGTGTTCCTGTGGAATTTAAAAAAAGAGAAGACTTAAAACGTTCTCCGGTAACAAAAATGTTGGAATACATGTCCTGGAACCAGCCCAAAGGAACGTGGAGTGATGACAGCTCTCTTACACTTTGTCTTGCTGAAGAGCTTACCAAAGGCTACGATGTGGAAAAAATAGGGCAAAGCTTTGTGAAATGGAATAAATACGGTCATTGGACAGCCCATGGAAGGCTTTTCGATATTGGAGGAACTACAAGGCATGCTCTGGCAAGATTAATTAAAGGTGAAAGCGCCAGGTTTTCAGGAAATATTTTTGAAGAAGACAATGGGAATGGTTCTTTAATGAGAATTCTTCCCCTTGCCTTTTATCTTGAAAATGAAGAGGATATTCAGAAACTCTATCTGACGGTAAAAGAAGTTTCGGCAATAACTCATGGCCATTTCCGTTCTGTTTTTGCCTGCTTTATCTATGTCATTTTTGCCATTCAATTATTGAAAGGAAAGAAAAAAAGAAAGGCATACTCGCATACACAGAAAGTGTCTTTAGAATATGCTGAAAAACAGGGTTTTAATCCAAATGAAATTGAACTTTTCAGAAGAGTTTTAAAAAATAATATTTCCCAATATTCTGAAGATGAAATTAAGAGTGGCGGATATGTTCTTCACAGCCTTGAAGCTTCTCTATGGTGTTTTCTCAATTCAGAAAGCTACTCAGAAGCAGTTTTAAAAGCTGTCAATCTGGGGGAAGATACCGATACCACAGGAGTCATCACCGGAGGTATTGCCGGAATTTATTATGGATATGAAAATATTCCACCGGATTGGATTTCTGAGCTGGTGAGGAAAGATGATATTGAAATGGTATGTGAGAAATTACACCAAAAATTAATGAATTAA	MENKVKAGIMGVCIGDALGVPVEFKKREDLKRSPVTKMLEYMSWNQPKGTWSDDSSLTLCLAEELTKGYDVEKIGQSFVKWNKYGHWTAHGRLFDIGGTTRHALARLIKGESARFSGNIFEEDNGNGSLMRILPLAFYLENEEDIQKLYLTVKEVSAITHGHFRSVFACFIYVIFAIQLLKGKKKRKAYSHTQKVSLEYAEKQGFNPNEIELFRRVLKNNISQYSEDEIKSGGYVLHSLEASLWCFLNSESYSEAVLKAVNLGEDTDTTGVITGGIAGIYYGYENIPPDWISELVRKDDIEMVCEKLHQKLMN	PGPT0001065_374	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001065-draG-K05521	NA	NA
BMS003_00351	543	kptA	COG1859	putative RNA 2'-phosphotransferase	ATGAACGAAATAGAAAAGAAAAAAATAAGTAAATTTTTAAGCCTTATTCTACGGCATCAGCCGGAAAGTATAGGCCTTACCCTGGATGAAAACGGTTGGACAGGTGTAGAAGAGCTGAGAGCGAAATCAGCCAAAAGAAGAATACATTTTACTCCCGAAGAATTGGATGAGGTAGTAGAAACCAATAATAAAAAACGTTTTGCTTTTAATGAAGATAAAACGAAGATCAGAGCAAGTCAGGGACATTCTATTGATATAGATCTGGATTTGGAAGCCAAACAACCTCCTGAATTTCTCTATCACGGAACAGCAGAAGCCAATATCTCTTCTATTTTGGAAAAAGGAATTGAAAAAAGAACACGCCAGCATGTACACTTAAGTGCTGATAAAGAGACCGCTGTGAAGGTCGGGATGAGACACGGTAAACCTGTGATTTTGACCATCAGAACGGGAACAATGCATCAGGAAGGATTATCTTTCTATCAGTCTGCAAATGGGGTTTGGCTGACAGATTTTGTAGATGCAAAATACATTTCTAAGTAA	MNEIEKKKISKFLSLILRHQPESIGLTLDENGWTGVEELRAKSAKRRIHFTPEELDEVVETNNKKRFAFNEDKTKIRASQGHSIDIDLDLEAKQPPEFLYHGTAEANISSILEKGIEKRTRQHVHLSADKETAVKVGMRHGKPVILTIRTGTMHQEGLSFYQSANGVWLTDFVDAKYISK				NA	NA	NA	NA	NA
BMS003_00352	729	apaH		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGGGCAGAACATTAGTCATAGGAGACATTCACGGAGGATTTAAAGCCTTACAGCAAGTTCTTGAAAGAGCAGGAGTGACAAAAAATGATCAGCTGATCTTCCTCGGAGATTATGTAGATGGATGGAGCGAGTCTTCACAAATCATACAGTTCTTACTGGAACTTTCCGAAAAACAGGATTGTACTTTCATCAAAGGAAATCATGATGCATGGTGTGAAGACTGGTTGGAATTGGGACAAAAACCCGATGTATGGCTTTTCAATGGAGGAAAAAGTACAGTAGAAAGTTATACTGATTACTCTCTTGAAGATCTGGATCTTCATCTGGAATTCTTTCAAAGGATGAAAAACTATCATATTGATGGTCAGAGCAGACTGTTTATTCATGCAGGCTATGCTTCCATGCACGGGCCGGAAAAAGAAGTCTATTCCAGCAATTACCGCTGGGACAGAACCCTTTGGGAAACCGCTGTAGCAATGGATAAAAAGCTGGAAAAAAATTCAGAATTATATCCTAAAAGACTGCTCCTGTACAAAGAAATATTCATCGGACATACGCCTACTCTTGATATTGGGATCAAAATACCAGCCAATAAAGCCAATATCTGGAATATGGATACCGGAGCAGCCTATACCGGATCTTTATCCATTATGGACATTGACTCCAAGCAATTCTGGCAAAGTGATCCGCTTCCCTCCTTATATCCTAAAGAAAAAGGCAGAAATTAA	MGRTLVIGDIHGGFKALQQVLERAGVTKNDQLIFLGDYVDGWSESSQIIQFLLELSEKQDCTFIKGNHDAWCEDWLELGQKPDVWLFNGGKSTVESYTDYSLEDLDLHLEFFQRMKNYHIDGQSRLFIHAGYASMHGPEKEVYSSNYRWDRTLWETAVAMDKKLEKNSELYPKRLLLYKEIFIGHTPTLDIGIKIPANKANIWNMDTGAAYTGSLSIMDIDSKQFWQSDPLPSLYPKEKGRN				NA	NA	NA	NA	NA
BMS003_00353	1725			hypothetical protein	ATGAAACTGAAATATCTTTTGTTTAGCCTGAGTTCCACTTTGTTTTTTGCTCAGAAATCATTTCAGACCCCTTTTGAAAAAGGAAATGGAAACCAAACTGTTACCTACAATGAAATGAATAGCTATTATCAGGATCTCGCCAAGAACTTCAATACCATTCAATACCTGAAGAAAGGAGAAGATGACAACGGAAAACCCATTTATGTAGTAGTTTATAACCCTTTTCCTGAAAAAGATCTTGAGAAATTAAGAAACGACAAAGCGATTCTGTTCGTCAACAACGGAATTCACCCTGGAGAACCGGACGGGATAGATGCTACCATGATGCTAATGAGAGATCTTGCGGCTAAAAAAATTAAAACTCCGAAAAACTTTATTATTGCTGCTATTTCTGCATATAATGTGAGTGGAATGCTCAACAGAGGATCCTATTCCAGAGCCAATCAAAATGGGCCGGAACAGTACGGTTTCAGAGGAAATGCCAGAAATTATGACCTGAACAGGGATTTTATCAAGGCAGATTCTAAAAATGCCAGAAGCTTTCAGGAAATCTATCAGTGGCTGAAGCCGGATGTTTTCATAGACAATCATGTCAGCAACGGAGCAGATTATCAATATACATTTACCTATATTTCTACCTTCAAAGAACGCCTGGGAAACACTCTCGGAAACTATTTCTACAAAGATTATCAGGCTAAAAATCTTGAGGATATGAAGAAGTTAGGATACGAAAGCACTCCTTACGTCAACATTCACGGAGATATTCCCGAAGTAGGATTTGCTTCATTTGAAGACTCTCCGAGGTATTCTACAGGATATACTTCTCTCTTCAACTCTTTAGGAACAGTTCCCGAAACCCATATGCTGAAACCCTATGACAAAAGAGTAGATGCTACTTACAAATACATGTTGGTTAACCTGCAGAATTTAGACAAAGATTATCAGAAAATAAAACAACTTCGCATAGAAAATTTAAAGCAATACCAAGCCGGAAAACAATACGGAATCCGTTGGAAAATAGACTCTACAAAGTTCTCTACCATGGACTTTAAAGGTTATGAAGGAAAATACAAACCCAGTGAAGTTTCAGGGAAGCCAAGACTGTATTATGACAGAAATAAACCCTTTACAAAGAATATAAAACTCTTTACAACTGCTGTTCCTACAGGATATATTACCATTCCGAAGTATTATGTGATTCCACAGTCACAGTATCGGGTGATTGAAGAATTTAAAAGAAATAAAATTCAGATGAATCCCATCCGGAAAGACAGTACTTTAACCGTTGAGTCTTATAAAATTAAAGACTTTAAAACAGTTAAAAATCCCTATGAAGGGCATTACCTGCATTTTGAAACAACAGTTGATCCTTCCTCAAAAAATATGAAATTTGCCGCAGGAGATTATCTGGTTCCGACCCATCAGCCTGGTGTAAAATATATTATAGAAACACTTGAACCTGAGGCGTTAGACTCATTTTTCAACTGGAATTTTTTTGACGGAATCCTGGCTCAGAAAGAATATTATTCCGCATATATTTTTGAAGATACGGCTGCCGAACTTTTGAAAAAGGATAAAAAACTGAAAGAAGCTTTTGAAGCAGCCAAAGCATCAGATAAAAAAATGTCTGAAGATGGAGATGCACAGTTAGATTGGGTGTACAGACACTCTCCTTATTTTGAAGAAAAAACATTCAGACAGTATCCTGTTTATAGGGTATTGTAG	MKLKYLLFSLSSTLFFAQKSFQTPFEKGNGNQTVTYNEMNSYYQDLAKNFNTIQYLKKGEDDNGKPIYVVVYNPFPEKDLEKLRNDKAILFVNNGIHPGEPDGIDATMMLMRDLAAKKIKTPKNFIIAAISAYNVSGMLNRGSYSRANQNGPEQYGFRGNARNYDLNRDFIKADSKNARSFQEIYQWLKPDVFIDNHVSNGADYQYTFTYISTFKERLGNTLGNYFYKDYQAKNLEDMKKLGYESTPYVNIHGDIPEVGFASFEDSPRYSTGYTSLFNSLGTVPETHMLKPYDKRVDATYKYMLVNLQNLDKDYQKIKQLRIENLKQYQAGKQYGIRWKIDSTKFSTMDFKGYEGKYKPSEVSGKPRLYYDRNKPFTKNIKLFTTAVPTGYITIPKYYVIPQSQYRVIEEFKRNKIQMNPIRKDSTLTVESYKIKDFKTVKNPYEGHYLHFETTVDPSSKNMKFAAGDYLVPTHQPGVKYIIETLEPEALDSFFNWNFFDGILAQKEYYSAYIFEDTAAELLKKDKKLKEAFEAAKASDKKMSEDGDAQLDWVYRHSPYFEEKTFRQYPVYRVL				NA	NA	NA	NA	NA
BMS003_00354	789			hypothetical protein	ATGAAGCAAATTTATCAATTAGCAACATTGCTGTGCTTTATACCAATAGGTTTACTGGCACAATATTCTCAGAGTTTTGATTCGGCAACAATGCCTGCCGACTGGACGATAATTAATGGTGGAGATCCCGGAACCTGGGAAACCTTTACTGCCTACGACTCTTCCTTCAACGCTCCTAATTCAGGAACCCACTTCCTGGGGTTGGAGTATGGCAGTACTGCGCACGATGATTATGTCATCAGCCCTGCTATAGTGGTCACTGCCGGAGTTTCTGATAAACTTACTTTCTGGGCAAGAAACAGAGGAGCCGGCCTTGCTGAAACTATGGATATAAAAGTATCAACAACTACTCCCACTGCAGCAGGCCTTACCAATACACTTGCAGCAGCGGTAAAACCCCCAACTTCATGGAATCAGTATACTTATGATCTGACTCCTTATATTGGGCAAACAATTTATATCGCATTCTATTCCTCCACAGAAGATATCTGGTTTATCGGGATAGATGATTTCCAGATTACTTCAGATAACCTGGGAGTTTCTGATCTAAAAAAGGATAACAGCCGAGCTGCCATCTATCCAAATCCTGTAAAAGATATCTTACACATTAAAAACAAAACGGAAATATCTGAAATCAATATCTATGATTTTAACGGAAAGATTGTGAAAAAAGAAATGATGAATTCAGAGAACGGAATTGTGAATGTAAGTGAACTGACAGCAGGAAATTATATCGTGAAGGTCAGAGACAGAGAGACCGAAAAAAGCTATAAAATAATTAAAAAGTAG	MKQIYQLATLLCFIPIGLLAQYSQSFDSATMPADWTIINGGDPGTWETFTAYDSSFNAPNSGTHFLGLEYGSTAHDDYVISPAIVVTAGVSDKLTFWARNRGAGLAETMDIKVSTTTPTAAGLTNTLAAAVKPPTSWNQYTYDLTPYIGQTIYIAFYSSTEDIWFIGIDDFQITSDNLGVSDLKKDNSRAAIYPNPVKDILHIKNKTEISEINIYDFNGKIVKKEMMNSENGIVNVSELTAGNYIVKVRDRETEKSYKIIKK				NA	NA	NA	NA	NA
BMS003_00355	882			hypothetical protein	ATGGGAATTATTTTAAAGCCTATAGATATTGTAGAAGACATTTCTAAAGAAGATTTCTACGAAAAATATCTGAAGCCAAGAAGGCCCGTTGTCATCAGAAATATGGCAAAAAACTGGCCTGCTTATCAAAAATGGACGATGGAATATATGAAGGAGGTTGTAGGAGATGTGGAGGTCCCGCTATATGACAGCTCAAAGGCAGACCCTTCTGCTCCCATCAATGCATCAGCAGCAAAAATGAAGTTTGGAGATTATATAGATCTTATACAGCGTGAACCTACTGATCTGAGAATATTCCTTTTTGACCCTATAAAATATGCTCCTAAGCTTCTGGAAGATTATATTTCTCCAAAAGACCTTATGGGAGGGTTTCTGGATAAATATCCCAATATGTTCTTTGGAGGTAAAGGATCTGTAACATTCCTTCACTTTGATATTGACATGGCCCATATTTTCCATACCCACTTCAACGGAAGAAAACATATTCTTCTTTTTGATTATAAATGGAGAGAAAGGCTTTACCAGATTCCTTATGCAACCTATGCACTGGAAGATTATGATATTGAAAACCCGGATTTCACAAAATTCCCGGCACTGGATGGTGTAGAAGGAATTGAATGTTACCTTGAACACGGAGATACTTTATTTATGCCTACCGGATGGTGGCACTGGATGAAGTATCTGGACGGAAGCTTCTCTATTTCTTTAAGGGCATGGGACAAATCCTGGGCTGTGAAAGCACATTCTTTGTGGAATCTTACCGTACAGCGTAAATTTGACGACGTTATGAAGTCTAATTTCAAAAAGAGTTACATGGACTGGAAAGAGAAAATGGCGATTAAAAGAGCAGAAATGGCCTTGAAAAGAGGCTTACCAAGATAG	MGIILKPIDIVEDISKEDFYEKYLKPRRPVVIRNMAKNWPAYQKWTMEYMKEVVGDVEVPLYDSSKADPSAPINASAAKMKFGDYIDLIQREPTDLRIFLFDPIKYAPKLLEDYISPKDLMGGFLDKYPNMFFGGKGSVTFLHFDIDMAHIFHTHFNGRKHILLFDYKWRERLYQIPYATYALEDYDIENPDFTKFPALDGVEGIECYLEHGDTLFMPTGWWHWMKYLDGSFSISLRAWDKSWAVKAHSLWNLTVQRKFDDVMKSNFKKSYMDWKEKMAIKRAEMALKRGLPR				NA	NA	NA	NA	NA
BMS003_00356	2700			hypothetical protein	ATGAAAAAAAATATTTCTTTATTTCTGATGCTTTTTTTTACTGTGCTTACTTTTGCGCAGAAAACGGTTTCAGGAAAAATTACTGATGATGACGGGGTGGCAATACCAAGCGCCAGTGTAACCATAGAAGAACCCGGCAAAGATGCTATTCTTGCTTACGGAATTACCAATTCCAAAGGGGAATATAAAGTAATTTTCACTTCTGCAGAATCTAATGTGGATCTTAAAGTGAAAGCTTTTAATCAGAAACCACTTACCAAGCAAATCAGCAACAGTGACCAGACTCTGAATTTCAAAATGCAGTCTGAAGCCACAGAAATTAAAGAAGTACAGCTGAAAACAAAAATGATTACCGCAAGAGGGGATACTATTTCTTACGATCTTAAAGCATTCAACAGTAAAAACGACAGAACACTGGCAGATGTAATGAAAAAAATTCCCGGAATTGAAGTGAATACAGACGGAACAATTCTTTATCAGGGAAATGCCATCAATAAATTCTATGTAAACGGAAAAGACCTTATGGAAGGTGGTTATGGAACGATCAACAATTCACTTCCGAAAGATGCAGTACAGAAAGTAGAAGTTCTGGAAAACCACCAGCCGGTAAAAATCCTTCAGGACAAAGTGCCTTCAGATCAGGCAGCCATCAATATCAAACTGAAAAACTCCGTAACCATGACAGGAAGAGGGGAAGTAGGAACAGGCTTCGGAGATCCATGGCTTTGGAATGTAAAATTAACACCCATGTTTTTCGGGCAGAAAAGCCAATGGGTTGTCAATTATAAAACCAATAACATGGGTGAACAGGTGGAGAATGAAGGGAATATTCTGGCTTTTGGTAATAGGTATGAAGGCAAGAGAATCAATGCTTCTCAAAATGACTGGCTGAACGTAGAAAATGCAAGCACACCTAATCTTCCTGTGAAAAGATATCTGATGAATAATGTTCATTATTTATCAGCCAACTACCTTACCAATATTGATAAGAAAAAAGAATGGGAGCTTAAAGCTAACGCAAATTATACCAATAATGCTGTAGAAAGAGAGTCTTATAGTCAGACAGATTATTTTGGAGGAGCTTCTACTATTATAAAAACCTTGAATAATTTTTATACAGATAAAGCAAAAGGAGAATTAATATTTACAAAGAATGCCAAAAAAGGATTCTTTAAAAACACCACAAGTTTCTCTCAATATTGGAATGCAGATAGAGGAATTGTTGACAGAACAGATGCAAAAACGGGTATACAAAGAAACGCTAACGAAGGAGTTGAATCTCCTACAACATCATTCCAGAATTCATTGAGTACAATTATTCCATGGAAGGAAAAAATGGTAAATATTTTATCCTATGTAAGTTACCAAACAGATAGACAGGCTTTGGAAGTTTCCCCGTCATCTTATTTGGATATCCCTGGATTTAAGCCAGTACCTGATACTGAGTTTGCTACACAGAGTTTAAGACTTAAAACTTTTGAAGCTAATCATTCTGCTAATATTGGTTTTTCTACCAAAGGATGGACATTTACTCCTGAAATTGGATTTAATTTTAAAAGTACGGGTCTGATGTCTGATTTGTCAAATGTGAAAGCAATTCCGTCTACCAATCCTGATAAAGATCCCAAATCAGAGGCATATAGTAATGATTTAAATTACACCATAGCTACACCATACGGAAGTTTAGGGATAAATTATAAAAGTGAATCATGGATGATCTATGCCAATCTTCCGGTAAACTCAAACAATATTAAAGCGGATGATCCATTAAGGCTCGTTTCAAAATCTGTAAATAAAGTAACTTTTGAACCTAATATTTTTGCACAATATTCATTTGCTTCATTCTGGAAAGCATCCGTAAATGCTAATATTAATAATAATTTTGGAGAAATAAATACAGCATATTCAGGGTTCTTAATGACGTCACCTGAGGGAATTAGAGCAATGGATATTAACAATCCAATTCCTCAGAATAACAATAAATCTGCAGGAACAAGAATAGAATATAGAAATCCATTAAATAATTTATTCTTCAATGTTAATTACAGATATTCTGATGCAAAGAGAAACTTAATTTCAAATCCGGAGATCAACGGTGGGGGATATACCATAATGAAATATAAAGAGCAGGACAATCATGTATTAAGTAATGGATATAGTGTAGAGGTTGGAAAATATTTTCCAAAGTTTAAAACGAACGCATCACTTAGCTATAGCAACAATACAACAGAATCCGATGCCTTTTTGAATGATAAATCATATACCAATAAAAACAACGGCCAGTCATTTGGTCTTAAATTCAATAATACATATTTCAGTTGGATGAGTGTTGATTATAATGCAAGTCTTACTAGAACAAAGCAAACAAGTGTAGGAGAATTAAACTCTAACGCTACCAGAACAGGATTTACACATAATCTAGGGATTTTCTTCTATCCTGTAGAAAATCATACAGTTGGATTCAATTGGGATCAGGTAAATACAAATGCGGCAGGGCAAAAATATCACAATGGATTCTATGATGTATCATATCAGTTTAGTTGGGCTAAAAAGAAAATTGATTTTGAACTGAAATGGATGAATATCGCGAACAAAAAAGTTTTTGAAACGTATGATATTAATACTACGAATATTATATATACAAGATATCAGCTCCGCCCTAGCCAGGTAATGTTTACCGTAAAGTTCAACTTTAAATAA	MKKNISLFLMLFFTVLTFAQKTVSGKITDDDGVAIPSASVTIEEPGKDAILAYGITNSKGEYKVIFTSAESNVDLKVKAFNQKPLTKQISNSDQTLNFKMQSEATEIKEVQLKTKMITARGDTISYDLKAFNSKNDRTLADVMKKIPGIEVNTDGTILYQGNAINKFYVNGKDLMEGGYGTINNSLPKDAVQKVEVLENHQPVKILQDKVPSDQAAINIKLKNSVTMTGRGEVGTGFGDPWLWNVKLTPMFFGQKSQWVVNYKTNNMGEQVENEGNILAFGNRYEGKRINASQNDWLNVENASTPNLPVKRYLMNNVHYLSANYLTNIDKKKEWELKANANYTNNAVERESYSQTDYFGGASTIIKTLNNFYTDKAKGELIFTKNAKKGFFKNTTSFSQYWNADRGIVDRTDAKTGIQRNANEGVESPTTSFQNSLSTIIPWKEKMVNILSYVSYQTDRQALEVSPSSYLDIPGFKPVPDTEFATQSLRLKTFEANHSANIGFSTKGWTFTPEIGFNFKSTGLMSDLSNVKAIPSTNPDKDPKSEAYSNDLNYTIATPYGSLGINYKSESWMIYANLPVNSNNIKADDPLRLVSKSVNKVTFEPNIFAQYSFASFWKASVNANINNNFGEINTAYSGFLMTSPEGIRAMDINNPIPQNNNKSAGTRIEYRNPLNNLFFNVNYRYSDAKRNLISNPEINGGGYTIMKYKEQDNHVLSNGYSVEVGKYFPKFKTNASLSYSNNTTESDAFLNDKSYTNKNNGQSFGLKFNNTYFSWMSVDYNASLTRTKQTSVGELNSNATRTGFTHNLGIFFYPVENHTVGFNWDQVNTNAAGQKYHNGFYDVSYQFSWAKKKIDFELKWMNIANKKVFETYDINTTNIIYTRYQLRPSQVMFTVKFNFK				NA	NA	NA	NA	NA
BMS003_00357	498			hypothetical protein	ATGGATACCTTATCTCAATTAAAATCCGAATTGGAAGGAGAATTCCAAACCACCAAAAAGTTTATTGAACTTTTCCCTGAAGGGAAAAATGACTTCGCTCCTCATGAAAAAAGCATGAAAATGATGCCTCTTGCCACCCATCTTGTTGAAGTTTTTGAATGGCCGAACACCATTTTAAATACTTCAGAACTGGATTTTGGCAAAGGCGATTATAAGCCTACGGTTCTTTCAACAAAAGAAGATCTTATGAAAAAACTGGAAGAAGATTATCAGGCCGGTAAAAAGGCTCTTGAAAACAGCACAGAAGATGACCTGAACCCAACCTGGACTATTAAAAATGACGGCCATGAACTGGCAAGCTGGAGCAAGTATGGAGCAATCAGGCATGCTTTAAACCAGATTACGCATCACAGGGCTCAGCTAGGCGTATATTACAGACTGAACAATATTCCTTTGCCGGGAAGCTATGGGCCTTCAGCAGCCCAGCAAAGCTTTTAA	MDTLSQLKSELEGEFQTTKKFIELFPEGKNDFAPHEKSMKMMPLATHLVEVFEWPNTILNTSELDFGKGDYKPTVLSTKEDLMKKLEEDYQAGKKALENSTEDDLNPTWTIKNDGHELASWSKYGAIRHALNQITHHRAQLGVYYRLNNIPLPGSYGPSAAQQSF				NA	NA	NA	NA	NA
BMS003_00358	924			hypothetical protein	ATGAAAAAAATATTTTCTATATTTCTTATCACTCTTTTTGCATTTGCAGGAGCTCAGGAATCTAAGGAAACTGCTAACCGTTTCTTTTATGAACTGACTTTTAAACCGAAGAAAGATTCTGCAAAGGTGGATAAGGTAATTATGTCCCTTGATATAATTAAAGACAGATCTATTTATCGTGATTTTACTGCTATTGGTCAAGATTCTATTCTTAAAGTCCAATTTGAAGCAATGCAAAAGGCTGGAGTTTTGAAAGATCTATCTAAATCTTTCAAGATGCCGAAGTTTTCTGAAAAAATTGTGAAGACATATCCAGATATGAAAATCCAATATATTGAAAGAATTGCGAGTGGATTTTCTCCTATGAGCATCGGATATAATGAAACATTAAAATTAGACTGGAAAATTTCTAATGAAAAAGCAAAAATTGGAGCTTACAATGCTCAGAAAGCAACAACAGAATTTGCAGGGAAAAAATGGACAGCTTGGTTTAGCTCAGAGCTTCCTTTTCAAGACGGACCATATAAATTTTCAGGACTTCCAGGCTTGATCGTAAAGATTGAAGACGAAGGCAAAAACTATTCTTGGGTTCTTCAGGGAAATAAAAAAGTTCCAAACTGGGAAGAATTAACATATATGGAGAAGCTTTCTAATGTTGGCTTAAAAGTAACTGAAATGCCAAGAGAAAAATTTGAAAAAACTTTCAACGATTTCAAAAAAGATCCTTTTGCTACAACAAGACCTATGATGACTCAGGAAATCATGTCTAAAACAATTCCTGGAATGGACGGAACAATAGGTGACATGATGAAGAAGCAGGAAAAGATGTATAAAGATTTCTTCAATGCCAATGATAATCCAATCGAGCCTCCCTACGAAAAACTGAAAGTTGGGAAAGTGGAAAAAGTTGGGAAAGAAAATTAA	MKKIFSIFLITLFAFAGAQESKETANRFFYELTFKPKKDSAKVDKVIMSLDIIKDRSIYRDFTAIGQDSILKVQFEAMQKAGVLKDLSKSFKMPKFSEKIVKTYPDMKIQYIERIASGFSPMSIGYNETLKLDWKISNEKAKIGAYNAQKATTEFAGKKWTAWFSSELPFQDGPYKFSGLPGLIVKIEDEGKNYSWVLQGNKKVPNWEELTYMEKLSNVGLKVTEMPREKFEKTFNDFKKDPFATTRPMMTQEIMSKTIPGMDGTIGDMMKKQEKMYKDFFNANDNPIEPPYEKLKVGKVEKVGKEN				NA	NA	NA	NA	NA
BMS003_00359	273			hypothetical protein	ATGAAAAAAATTATTTTTACGGTGTTATTAGCAACAGCATCAATGGCATTTGCTAAAACTGACGAATCAAATAAACATTCGGAGTCTAAAAATGTAACAAAAACTGTTTTAAAAGCTAAGAAGACTATTGAAATGTCGAATCAGCAGCAAAAGCCGATCAAAATTTCAACAACAGGAAAGCAACAAGAGTTAACTCCGCAAGAAATGTGTATTATTGAACTTGCTTTAGGTCCTGTAATAGCTGGTCCTCCTTATCATTGTACACAAATTTAA	MKKIIFTVLLATASMAFAKTDESNKHSESKNVTKTVLKAKKTIEMSNQQQKPIKISTTGKQQELTPQEMCIIELALGPVIAGPPYHCTQI				NA	NA	NA	NA	NA
BMS003_00360	270			hypothetical protein	ATGAAAAAAATCATTTTCATGTTGTTATTAACAACGTCGGCAATGTCATTTGCAAAAACAGAAGAACCAAAAGTAAAAACAGAAGAAAGTAAAATCGAAACTGTTTTAGTAACCAAAAAGAATTTTAAGGACGAAAGAGCAGAAATAAAAGTGAGTAAAAAACTAAAACAAGCAATGAACTTAGAAGGATGTATTGCAATTGCTTCTTATGTTGGAAGTTATAATCCACCATTAGGGGCTGCAATGATGGCAGATTGTGTACACAGATAA	MKKIIFMLLLTTSAMSFAKTEEPKVKTEESKIETVLVTKKNFKDERAEIKVSKKLKQAMNLEGCIAIASYVGSYNPPLGAAMMADCVHR				NA	NA	NA	NA	NA
BMS003_00361	255			hypothetical protein	TTGAAAGAGAAAGGATTACATAAATTAAGTGGATTCCCTAAAAACAAAATGGGGAAGATATTGGGATATGATAACGACCATCTTAAAATGCCCAATAAAATTATTGAAATGGGGCTTCTGCCGGAAACCATTTTCAGAATTTTGTATCAGGCACCATTCAACGGACCTATGTATGTGGAGTTTGGAGCAGAAAAAAGCCGGATTGCTCTTCGTGAGGAAGAAGGAGATTACATCATTGTTGAAGATTTGAATTAA	MKEKGLHKLSGFPKNKMGKILGYDNDHLKMPNKIIEMGLLPETIFRILYQAPFNGPMYVEFGAEKSRIALREEEGDYIIVEDLN	PGPT0003695_960	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
BMS003_00362	2034	feoB	COG0370	Fe(2+) transporter FeoB	ATGCAGGAAAACAAGAAAAAACAGATACTTTTAGTCGGGAATCCTAATGTAGGAAAGTCAACGGTTTTTAATACGCTTTGCAACAAAAAGCAGAAGACCGGGAACTATGCCGGCGTTACCGTAGCAAGCCATTCGGGGAACTATACTTATAAAAATGAAGAAGTAGAGGTTATTGACCTGCCTGGTTCTTACAGTGTATACCCCAGCTCAGAAGATGAAGCTATTTTTTCCAAATACCTTATTGATGAGCAGAAAAACTACGCAGGAGTTGTCTATATTCTTGAAGCATTAAGCTTAAAAAGAGGGTTGCTTCTTTTTCAGCAGATTCAGGATCTTGGGATTCCCATGATTTTGATTGTCAATCAGATCGATCAGGCAGAAAGAAGAGGAATCACCATAGATATTCAGAAATTTTCCCAAGCATTAGGCATTAAAATCATTCAGACCAATGCCAAAGAACAGATAGGAATAGATACTGTAAGAGAAGCTGTTTACAACAATGAGTTTGTAAAAACAGATAAAGTTTCTTTTGAAACCCCCAATGAACATAGAGATTTTATTCAGAAGCTGGCCGCGCATAAAGGTTTCGACAATGAATATAAAGCCTGGATGAGCCTTTCACTGGGAACGGATCTCGGAAGAATAGGCTCTGTAATGGAACAGTTGAATGAATCTGATTCTAAAAGCTTGGTTCCTAAAAGATTACAGGTTCAGGAAACCGTTAGGAGATATCAGAATGTAGACAAAATACTGGCGAATGTCATCTCTAAAAAAGCTCAGTTCAAAGAATTACTAACCGAAAAGCTGGATAAAGTTTTAGTTCATAAATTCTGGGGCTATGTAGTCTTTTTAGCTATCTTACTGGTTATATTCCAAAGTGTTTTCTTCCTTGCGGAATACCCGATGAACTGGATCGAAGAAACCTTTTCATGGCTGGCAGCATTCACCAATGAACACCTTCCGGAAGGACCGGTTAATTCTTTGATTTCAAATGGAATTGTTCCCGGGATTGGAGGAATTGTAGTTTTTGCCCCCCAGATCGGAATTCTGCTGTATTTCCTTTATCTTTTGGAAGATTCAGGATATATGGCGAGAGTTGTATTTCTGATGGACAGATTGCTTCGTCCCTTCGGGCTTAACGGAAAGAGTATTGTTCCGTTGGTCTCAGGAACAGCCTGTGCTATCCCCGCAGTAATCTCTACAAGAAATATTGAAAACGTAAAAGAAAGATTGCTGACCATATTGGTAACTCCTTTTATGACATGTTCTGCGAGACTTCCGGTCTATAGTATTATCATCGGACTCATTATTTCAGAAGGAACATTTTTAGGAATTAAATATAAAGCACTCGTGCTTATGGGAATGTATCTTCTTGGCTTCCTGGTCGCTTTATTCTCAGCAGCAATCCTTAAAAGGTTTATTAAAAGTAAAGGGAAAACATACCTGGTAATGGATCTTCCTGCTTATAAAAAGCCACTTTTCGGATATGACTTTAAAATGGTTTTAGGAAAAGTATGGGACTTTATTACAGGTGCCGGAAAAATTATTTTCATTGTAAGTATCATTATCTGGTTTCTGAGCTACTTCGGACCAAGCCAGAAAGAAAGTCAGTTCGTAGCTGCAGATGTTCACCTGGATCATTCTTACCTTGCTAAAATGGGGAAAGGAATAGAACCTGTAATCGCTCCGCTTGGCTACGACTGGAAAATGGGTGTAGGAATTCTTACAAGTTTCGTGGCGAGAGAAGTTTTCGTAGGGACAATGTCTACCCTTTACAGCCTGGAAGATGATGCTCCGGAAGTAAAAGTGATTGATAAAATGAGAAGAGATGTAAAACCCAACGGAGAAAAGGTCTTCAGCTTTGCAACCGGAATATCGGTTCTTCTTTTCTATGCATTTGCAATGCAGTGTGTTTCTACACTTGCAGTAGTCTACAGGGAAACCAAAAGCTGGAAATGGACCGGCTTTCAGGTTGTCATGATGACAGGTTTGGCATATTTTGTGTCGATGATAGTATATCAGATTTTAAAGTAA	MQENKKKQILLVGNPNVGKSTVFNTLCNKKQKTGNYAGVTVASHSGNYTYKNEEVEVIDLPGSYSVYPSSEDEAIFSKYLIDEQKNYAGVVYILEALSLKRGLLLFQQIQDLGIPMILIVNQIDQAERRGITIDIQKFSQALGIKIIQTNAKEQIGIDTVREAVYNNEFVKTDKVSFETPNEHRDFIQKLAAHKGFDNEYKAWMSLSLGTDLGRIGSVMEQLNESDSKSLVPKRLQVQETVRRYQNVDKILANVISKKAQFKELLTEKLDKVLVHKFWGYVVFLAILLVIFQSVFFLAEYPMNWIEETFSWLAAFTNEHLPEGPVNSLISNGIVPGIGGIVVFAPQIGILLYFLYLLEDSGYMARVVFLMDRLLRPFGLNGKSIVPLVSGTACAIPAVISTRNIENVKERLLTILVTPFMTCSARLPVYSIIIGLIISEGTFLGIKYKALVLMGMYLLGFLVALFSAAILKRFIKSKGKTYLVMDLPAYKKPLFGYDFKMVLGKVWDFITGAGKIIFIVSIIIWFLSYFGPSQKESQFVAADVHLDHSYLAKMGKGIEPVIAPLGYDWKMGVGILTSFVAREVFVGTMSTLYSLEDDAPEVKVIDKMRRDVKPNGEKVFSFATGISVLLFYAFAMQCVSTLAVVYRETKSWKWTGFQVVMMTGLAYFVSMIVYQILK	PGPT0003700_1913	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
BMS003_00363	1017			hypothetical protein	TTGATTTTTTTAAAGACAGGATTACCCATATTATTTTCTTTATCAGCCCTTCAGGTAAAAGCACAGTCAGATACCATTAATACCAAGTCTTATGCAGACCAGGTGATGATTCGTGTGAACCTTGATACCAATATTGAAAGCTTTGTTTTCTCAGAAGGAGAAGGTAAAAATACCAACGAAACGATCCTGTCCATCAACAATAAAACAAAAACATCCCTTTCGGTCGATTATAGAATCATAAGTGCTACACTGTCATTTGCTCCCAGGTTTTTAGAAGGAAATAATGATGACAATATGAAAGGGAAAAGCTCCTATACCGATTTCAGTTTCAGATTTTTTCCCGGCAGATTCATACAGAATGTTTATTATAAAAATGTAAAAGGCTTTTATGTGGAAAACATGAAAGACTTATCCCCGGAATGGCAGGAAGGCAGAGATCCATATATACAATTTCCGGATTTACGGGTGCAGACCTTTGGTGGGTCTACGTCCTATATTCTTAATAAAAACTTTTCAGCAAGAAGTATCTATACCCAGGGAGAATGGCAATATAAAAACAGTGGAAGCTGGGTGCCTATTGTGGATTATGACCTTACTGTTTTCAGAAATACAGTGGATGGGGTAAAAAGTAAAGAGATACAATATAATATTGGCGGAAATATAGGGTATTTCTACAATTGGGTTATTGGAAAAAATGTTAATATTTCACCCTATCTGGCCCTCGGAATCGGAGGAAAATTCTCCAGCTACCGGGATCCTGAAAACGGAGGAATCAAAGAGAATGCTCAGTATGCCACCATAAGAATGCAGGGCGGTCTTCATGTAGGTTATAATACTGACCGGTTTCTGTTCGGAGGCAAAATGAACTTTAAAACCAATGCTTATGATCAGAAAAACAACCAGACTGTAGAAAATAATAACCTCTATGGTCTGTTATATATAGGATATCGTTTTGCACCACCGAAAGTTATAAAAAATACCTATGATAAAATCCAAAAAAAGATTCCCGTTCTATAA	MIFLKTGLPILFSLSALQVKAQSDTINTKSYADQVMIRVNLDTNIESFVFSEGEGKNTNETILSINNKTKTSLSVDYRIISATLSFAPRFLEGNNDDNMKGKSSYTDFSFRFFPGRFIQNVYYKNVKGFYVENMKDLSPEWQEGRDPYIQFPDLRVQTFGGSTSYILNKNFSARSIYTQGEWQYKNSGSWVPIVDYDLTVFRNTVDGVKSKEIQYNIGGNIGYFYNWVIGKNVNISPYLALGIGGKFSSYRDPENGGIKENAQYATIRMQGGLHVGYNTDRFLFGGKMNFKTNAYDQKNNQTVENNNLYGLLYIGYRFAPPKVIKNTYDKIQKKIPVL				NA	NA	NA	NA	NA
BMS003_00364	1383	algC	COG1109	Phosphomannomutase/phosphoglucomutase	ATGTCATTAATAAAATCTATTTCCGGAATTCGCGGAACCATTGGTGGAAAAGTAAATGATAACTTAACACCGCTGGATGTGGTAAAATTCGCATCCGCATTCGGAACCTGGCTTCAGAATAATAAAAATAAAAAAGACCTTACGCTTATCATCGGAAGAGATGCCAGAGTTTCTGGGCAGATGGTTTCCTCTTTAGTAACGGCTACATTGCAGGGATTGGGAATCAATGTAGTAGATCTTGGGCTTTCTACAACCCCTACAGTAGAAGTAATGGTTCCTGAGCTTAATGCAGACGGAGGAATCATCCTTACCGCTTCCCACAACCCAAAACAATGGAATGCCCTTAAATTATTAAACGAAAAAGGAGAATTCATCAGTGGAGAGAACGGTGCTGAAGTACTTGCTTTGGCAGAAAGCGAAGATTTCAACTATGCAGAAGTAGATGACCTTGGAAAATACGAAACAAGAGACGATGCTTTTGATATCCATATCCAGCAGATCCTGGATTTGCCAATGGTAGATGTGGAAGCCATTAAAGCAAAGAAGTTTAAAGTCGTTCTGGATGCTGTAAACTCTACAGGAGGAATTGCCATTCCTATGCTTTTAGATCAATTAGGCTGTGAAACCATCAAATTATACTGTGAGCCTACAGGTCACTTTCCACACAATCCTGAACCATTGAAAGAGCATTTGGGAGACATTTGTGAATTGGTAAAAAAAGAAAATGCCGATTTAGGAGTAGTGGTAGATCCGGATGTGGACAGACTCGCTCTTATTGATGAGAAAGGAGAAATGTTCGGGGAAGAGTATACACTGGTAGCCGTTGCAGATTACCTGTTAAAAAACCAGAACGGAGTAGCCGTCTCCAATCTTTCTTCAAGCCGCGCCCTGAGAGATGTAGCGCAAACCCACAATTCAGAATACTTTGCAAGTGCTGTAGGAGAAGTAAATGTAGTTACCCTGATGAAAGAGAAAAATGCAGTAATCGGAGGAGAAGGAAACGGAGGAATTATTTATCCTGAATTACACTACGGAAGAGACTCTTTAGTAGGAGTAGCCTTATTTTTAACTCATTTAGCCAAAGAAAACAAAACCGTTTCCGAATTAAGATCAGGATATCCAGGTTATTTCATGGGTAAGAAGAAAATAGAACTTACACCGGAAATTGATGTAGATGCTATCTTAAGCAAAATGGAGCAGGAATATCAGAATGAAGACGTTTCTACAGTAGACGGAGTTAAAATAGACTTTGAAAACAATTGGGTTCACCTTAGAAAATCCAATACAGAACCTATTATCAGAATTTATACTGAAGCTCAATCTCAGGAAGAAGCAGATCAGTTAGGAGATGATATCATTGCTAAAATCAAGAGTTTAATCTAA	MSLIKSISGIRGTIGGKVNDNLTPLDVVKFASAFGTWLQNNKNKKDLTLIIGRDARVSGQMVSSLVTATLQGLGINVVDLGLSTTPTVEVMVPELNADGGIILTASHNPKQWNALKLLNEKGEFISGENGAEVLALAESEDFNYAEVDDLGKYETRDDAFDIHIQQILDLPMVDVEAIKAKKFKVVLDAVNSTGGIAIPMLLDQLGCETIKLYCEPTGHFPHNPEPLKEHLGDICELVKKENADLGVVVDPDVDRLALIDEKGEMFGEEYTLVAVADYLLKNQNGVAVSNLSSSRALRDVAQTHNSEYFASAVGEVNVVTLMKEKNAVIGGEGNGGIIYPELHYGRDSLVGVALFLTHLAKENKTVSELRSGYPGYFMGKKKIELTPEIDVDAILSKMEQEYQNEDVSTVDGVKIDFENNWVHLRKSNTEPIIRIYTEAQSQEEADQLGDDIIAKIKSLI	PGPT0017865_2255	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
BMS003_00365	582			hypothetical protein	ATGTTTGAACATATTAAAAACAGGTTTCCTTTTCCCAAAGAAAAATGGAGAAAATTTCTGGGCAGCTTTCAGCGTATGGAAGTTCCTGCCAAAACCTTATTGCTAAAAGAAGATGAGGTTTCCTGCAATGCATATTATATTGAAAAAGGGATCGTAAGAGCCTGGTATAATAATGACGGAAAAGATGTAACCTTTCAGTTCTTCCTTGAAAATACAATGTTCTCATCCCTTGAAAGCTTTAAAAAAGGTCTTCCAAGTATGGTGTCATTTGAGACCATAGAACCCTGTGTTTTATACAAAATCAATAAACCTGACGTAGATGCTTTTCTGGAAGAAATCTACGAAAATCCTGAGCTCAGAAACCTCTTTATGGATGCTCTGTTTGAAAGAGTCTTCGACTATATGAAGCATTTCTTCTCATTCATTAAAGATACCCCACAACAGAGGTATTTGAATTTGGTTAAACAAAAACCGGAGATCATCAAAAGGGTTCCGCAGCATTATATTGCATCTTATCTCGGGATTACTACAGTGCATCTCAGCAGAATCAAAAGCAAAATATTGAAAGAGAGGCTGGAGTAG	MFEHIKNRFPFPKEKWRKFLGSFQRMEVPAKTLLLKEDEVSCNAYYIEKGIVRAWYNNDGKDVTFQFFLENTMFSSLESFKKGLPSMVSFETIEPCVLYKINKPDVDAFLEEIYENPELRNLFMDALFERVFDYMKHFFSFIKDTPQQRYLNLVKQKPEIIKRVPQHYIASYLGITTVHLSRIKSKILKERLE				NA	NA	NA	NA	NA
BMS003_00366	969	tdh		L-threonine 3-dehydrogenase	ATGAAAGCAGCAGTAGTATTTGAAAAAGGAAGCAACCCTCAATACACCGATTTTCCTGAACCGGAAGTACAGGAAAATGAAATTTTGGTTTCCGTAAAAGCGGCATCAATTAAAAATCTCGACAGAGCCAGAGCGGGAGGCAATCATTATTCCACAGAAAACAAGGAACACCAACCCGCCATTATTGGGACGGATGGAGCGGGATATCTGGAAAACGGAGATAAGGTCTATTTTTTCAGCAAAAAAGGAACGGTATCTGAAAAGGCCGTTGCGGACAAGAAAATGATTATACCAATTCCCGAAGAGCTGGATTTTTCTCTGGCGGCTGCATTGCCCAATGCGGTTATGGGATCTGCAATGGCTTTAAAGTTCAGGGCAGGAATACAACAGGGCAATACTGTTCTGATCAATGGGGCAACAGGGATTACAGGCAGGATTGCCGTTCAGGTAGCCAGATTATATGGCGCCCAAAAGATTATTGTTACCGGAAGAAATGAAGAATCCCTACAGTCTTTACTTGAGTTGGGCGCCGATGAGGTCATTTCTCTCAAGCTGGATGATCAGGATTTTAAGCAAAAAATAAAAGAAACTCATCAGGAAACCCCAATAGATATTGTTTTGGATTATATCTGGGGACATTCCGTAGAGATGATTTTATCCGCATTCAAAGGAGACGGAACCTTTTCCCATAAAATAAAGCTGGTAACCGTTGGCGGAATGAGCAGTGATACCATTCAGCTGTCTTCACAGATCCTCAGAGGTACTGATATTCAGATTTCAGGATCAGGATTAGGTAGCTGGACGAAAGACGAATTTGCGCTTCTTTTTTCAGAAATCGTCCCGGAAATGTTTCAGGCAGCTGTGAACGGAAAAATTAAAATGGAAACTCAGGATGCTGATATTAAAAATATCGAAGCTGTATGGAATGCTGAGATACAAAAAGGAAAACGCCTTGTCATAAGAATTTAG	MKAAVVFEKGSNPQYTDFPEPEVQENEILVSVKAASIKNLDRARAGGNHYSTENKEHQPAIIGTDGAGYLENGDKVYFFSKKGTVSEKAVADKKMIIPIPEELDFSLAAALPNAVMGSAMALKFRAGIQQGNTVLINGATGITGRIAVQVARLYGAQKIIVTGRNEESLQSLLELGADEVISLKLDDQDFKQKIKETHQETPIDIVLDYIWGHSVEMILSAFKGDGTFSHKIKLVTVGGMSSDTIQLSSQILRGTDIQISGSGLGSWTKDEFALLFSEIVPEMFQAAVNGKIKMETQDADIKNIEAVWNAEIQKGKRLVIRI				NA	NA	NA	NA	NA
BMS003_00367	1338	bepA_1		Beta-barrel assembly-enhancing protease	ATGATGGAAAACAATGACGAATTCTACTTCGATACCGAAGAGTTAGAAGATATTATTGTTTATTATTTGGAGCTTGGTGACTTTAATTACGCTGACATGGCTGTTAATTATGGTCTGAAGCTTCATCCCAATTCGCTGGATATCAAGATCAAAAAACTTGAAATCCTTCTGGAGTGGGAAGAGTATAATACGGCGAAAGAACTTATTGACGAACTGAAAGGATCTTCTATGGAGAACACAGACTTTTTGGTTTGTTATGCCAAGTATTATTCGAACTTAGGAAATCCCAGAAAATCCATTGAAATCTGCAAAAAAGCTTTGACATTAGAGGAAGAAGAAAACTTTCTCCACAACTTTATTGCGGATGAATATGTGAATCTCGGAGATCCTTTTAACGCTCTTAAACATTACAGAAAAGCACTGAAGGAAGATCCTACGGATGAATATTCCCTGGAAAATGCTATGGTGTGTTTCAGTGACCTGAATAAGAGTGAGGAGGCTATTGCCTTTCTTAATGAATATTTAGATGATTTCCCTTATTCTGAAACCGCATGGTTTGAATACGGACAATTCTACTTCAACAGAAAAAATTATGATGAAGCCATAAGAGGTTATGATTATCTGTTAGCAATCAACTCAAACTCTGTTGGGGTTTATGCTAATAAATCAGCTTGTTATGAAGCTTTGGGACAATACCAGAAGGCAATCGAAACTTATGAGGAAATGCTGGAGCTGGAATACACAAAAGCATTTACTTTTTACAAGATAGGATTATGCAATAAGGCATTGAAACAGCCTATTTTAGCTTTGAATGCATTCCAGAAATCATTGAGAGAAGACCCTCAGTTTTATCTTGCTATGATGGAGCAGTCTTATCTTTACGAAGAAATGGGCGGAATGTCTGAAGCATTGCACTATGCCAAAGAAGCTACCCAACTGAATGAAAATAACCTGGATTATCAAAAAAGACTGGCATTTTTATTCATAGATTCCGGGAAGTTTGAAGAAAGCCTTTCCTGTCTTAAAAAACTGGTAGATGCTGAGCCTTCAAGGTTTTACAACTGGTATGCCTATTCAGAAGTTTTGATGTTGGTAGGAGAGTATGAAGATGCGGTAACAGTTCTAAACAGAGCAATTAAGAAGCATTACAGGGCAGAGCTTTTTTATCAGCTGAGCAATTGCTTTTACAACCTGAAAGACCAGGATAAAGGAATGGAATCACTTCAGAAGGCATTAGAACTTGACCCGTCTTTAGCTAAGGATATGCAGAAAAAATACCCTTTCATTAAAGATGAAGTAAAAAAGGTCAAAGCCAGTAAAGTGAAGAAAAAGAACTAG	MMENNDEFYFDTEELEDIIVYYLELGDFNYADMAVNYGLKLHPNSLDIKIKKLEILLEWEEYNTAKELIDELKGSSMENTDFLVCYAKYYSNLGNPRKSIEICKKALTLEEEENFLHNFIADEYVNLGDPFNALKHYRKALKEDPTDEYSLENAMVCFSDLNKSEEAIAFLNEYLDDFPYSETAWFEYGQFYFNRKNYDEAIRGYDYLLAINSNSVGVYANKSACYEALGQYQKAIETYEEMLELEYTKAFTFYKIGLCNKALKQPILALNAFQKSLREDPQFYLAMMEQSYLYEEMGGMSEALHYAKEATQLNENNLDYQKRLAFLFIDSGKFEESLSCLKKLVDAEPSRFYNWYAYSEVLMLVGEYEDAVTVLNRAIKKHYRAELFYQLSNCFYNLKDQDKGMESLQKALELDPSLAKDMQKKYPFIKDEVKKVKASKVKKKN	PGPT0030850_333	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYSYSTEM_ASSEMBLY,PGPT0030850-ycf3-NA
BMS003_00368	867			hypothetical protein	ATGAAAAAAAATTTACTCCTGGGCGTATTAGCCATATCTGCCATTTCATGCTACAGTTCTGATGACACTCCTTTTGATAACAGTGACCCATCTGCTCAAAACGTTATTCTTCCTACAAAAATGACAAAGGATGGTATTGTCATGAAGATCAATTACAACGGAACTAAAATCATCAGCATGATCAATAATATTAATCATGGACAAAGAATTGAATTTACTTACACTGATGATTATGTGACAGGGATTAAAAATTACGAAAATAATATCTTAGAAAGCACAGTTGAATATGGGTATAATAACGGCCGTATGGCAGCTGCTGTTACAAAAGAATATTCCACCACCGGAACAGTGGAGAATACTGTTATCTTTACCTATACCTATACAACCGCTACTGAAATCAGTGTAAAAAGGCAGACCAATTCCGGAACTGCAGGCTCTTCTACCATCAACAGTACATTTACCTATAACAATGGAAATATGGTAAGCAATATAGGTTCTGGAACAGGAACGGTCAACGGAAATACGGTTAATTACACTGAAAAACAAACATATACCTACACAGATAAAAATTATCCTTTTAAAAATGTAAAAGGCTTTGACAAAATCATATTCAACGGAAACGAGAGTAATGATGGGGTAAGTATACTTTTTTCTAATATAAACAACAGCCTAAGTACTTATAAAGGAGAATTTACCAGTACTACAACGGGAGGGGGAACAGCAACCGGAATAACCTCTCATAAGTATACCACAACGTTCAATACCGCGGGGTATCCATCCGAAGAAAGCAGACAGTCTCTTGATATAAATGGAAATGCAAACAGCAGCACTCCGGACAAATTTTTCTATGAATACAATTATCAATAA	MKKNLLLGVLAISAISCYSSDDTPFDNSDPSAQNVILPTKMTKDGIVMKINYNGTKIISMINNINHGQRIEFTYTDDYVTGIKNYENNILESTVEYGYNNGRMAAAVTKEYSTTGTVENTVIFTYTYTTATEISVKRQTNSGTAGSSTINSTFTYNNGNMVSNIGSGTGTVNGNTVNYTEKQTYTYTDKNYPFKNVKGFDKIIFNGNESNDGVSILFSNINNSLSTYKGEFTSTTTGGGTATGITSHKYTTTFNTAGYPSEESRQSLDINGNANSSTPDKFFYEYNYQ				NA	NA	NA	NA	NA
BMS003_00369	879	yedA_1		putative inner membrane transporter YedA	ATGAACGCAGATAAAGAAAAATGGGTTCTTCTGATCGTCCTGAGCATTATCTGGGGGTCATCTTTTATTCTGATCAAAAAATCTTTGGAACATTTTAATCCCTTTCAGGTAGGCTCATTAAGAGTACTTATTGCCGGGATTATTTTACTTCCGGTTGCTATTTCCAATTATAAGCTTTTTCCTAAAAAACACCTGAAATGGTTAATTCTCGCAGCTTTTACCGGAAATTTTATTCCTATGTTCCTTTTCCCTCTTGCAGAAACTGAAGTAAGCAGCAGTATTGCAGGGATTATCAATTCTATGATGCCTATTTTTGTCATCATTGTTGGGGCTTTGGTATGGAAATTTGAAACGACAAAAAAACAGATTATAGGAACTTTAATAAGCTTCACCGGGGTCTGCATTCTGGCTTTTGGAGGAGGTGACAGCGGAGAATTGAAAATAATCCCTATCCTGCTACTTTTATTAGCTACTTTATGCTATGCATTGAGCACAACAACTGTAAAGTCAAAGCTCATGGAGGTTTCATCTACTGTTTTATCTGCTTTTGTGTTCTCATTTGTTTTATTATTTCCATCCATTTTAGCATTAACGGGAACAGGATTCTTCTCCGAATTTAGTTTTTCGAAGGATAATCTGCTGGGACTTATGTTTGTGGGGCTTTTATCTGTCTTCGGGACAGGTCTGGCAATGATGATGAATTACCGTTTACTGAAGGTCTCTTCTCCTCTTTTTGCTTCTACAGTTACTTTAGTGATGCCTATTGTTGCTATTATCTGGGGAATCATAGATGGTGAGAAACTGACTTATCTGCAATTTATAGGAGCTGGAATTATTATCGGCGGACTCATATTTTTAAGAACAAATCCAAAAAAATAA	MNADKEKWVLLIVLSIIWGSSFILIKKSLEHFNPFQVGSLRVLIAGIILLPVAISNYKLFPKKHLKWLILAAFTGNFIPMFLFPLAETEVSSSIAGIINSMMPIFVIIVGALVWKFETTKKQIIGTLISFTGVCILAFGGGDSGELKIIPILLLLLATLCYALSTTTVKSKLMEVSSTVLSAFVFSFVLLFPSILALTGTGFFSEFSFSKDNLLGLMFVGLLSVFGTGLAMMMNYRLLKVSSPLFASTVTLVMPIVAIIWGIIDGEKLTYLQFIGAGIIIGGLIFLRTNPKK				NA	NA	NA	NA	NA
BMS003_00370	654	aat	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGGTCCGATTAGACGAAAACGAGATTTCATTTCCTGACCCTGAATTGTATGATGGTCATGAGGGAGTGGTTGCCTTTGGAGGCGACCTGTCTGTAGAGCGTATTTGGTTTGCCTATCAGCTGGGTATTTTCCCATGGTATAATCCTGGAGAAGAAATCCTATGGTGGTGCCCGGATCCAAGATTTGTTCTCATTCCGGAAGAATTGAAAGTCTCCAAATCAATGAGAAAGGTATTGAGCAGAAATGTTTTTACTTTCACCGAGAATCAGAATTTCAGAGAAGTGATCAGGAATTGTCAGCAGGCCACCAGAAAAGAACAGACGGGAACATGGCTTTCTGATGAACTGATGGATTCTTTTATCCGTCTTCATGAATATGGCCTTGCCAAAAGCATCGAAGTGTGGCAGAATGAAGAACTTGTAGGTGGTTTTTATGGATTACAGATTGGAAATGTTTTTTGTGGAGAAAGCATGTTTGCGAAGGTAAGCAATGCTTCCAAGGCTGGTTTTATCCATTTTGTAGAAAGCAACAAAGACAATATTGAACTTATTGACTGTCAATCCCATACAGAACACCTTGAAAGCCTGGGCGCAAAAATGATTCCTAAAAAAGAATTTCTAAAAATCTTACACGAAAACAATGAACGCAGATAA	MVRLDENEISFPDPELYDGHEGVVAFGGDLSVERIWFAYQLGIFPWYNPGEEILWWCPDPRFVLIPEELKVSKSMRKVLSRNVFTFTENQNFREVIRNCQQATRKEQTGTWLSDELMDSFIRLHEYGLAKSIEVWQNEELVGGFYGLQIGNVFCGESMFAKVSNASKAGFIHFVESNKDNIELIDCQSHTEHLESLGAKMIPKKEFLKILHENNERR				NA	NA	NA	NA	NA
BMS003_00371	378			hypothetical protein	ATGGAATTACAAGGAACGGTAAAGAAACTTTTTGATGCTCAAACATTTGCGAGCGGGTTTCAGAAAAGAGAAATGGTTATTTTGACCCAGGAACAGTATCCACAGCCGATAAACATAGAATTTTTGTCTGATAAAATCAGTTTATTAGATAATCTTAAAGAAGGAGAAAACGTAAAAGTAGGGATCAACATCAGAGGTAGAGAATGGGTTTCTCCTCAGGGTGAAACAAAATACTTCAATTCTATTACAGGGTGGAGAATAGAAAAAGTTTCTGATAATGCTTCAGAACCTACTCAGGCTATGCCTCAGCAGTCAGCATCTCCCGTTTCTAACGAAAATCCGTTTGCCGGAGATGATGATGATGATTTACCTTTCTAA	MELQGTVKKLFDAQTFASGFQKREMVILTQEQYPQPINIEFLSDKISLLDNLKEGENVKVGINIRGREWVSPQGETKYFNSITGWRIEKVSDNASEPTQAMPQQSASPVSNENPFAGDDDDDLPF				NA	NA	NA	NA	NA
BMS003_00377	2517			hypothetical protein	ATGAACTATGACAATTATTTTAACGATTTTGATGACTTCGATGAAACGAGTAAAAGAACCCTGCAGTCTTTATCAAATCATTTGGTGTCCAGTGATTCTTTTTTAAACAAAACATTAAAGCAACCCACAGGTTTACCAAAAGAAACCTCTTTACCATCAACTTCGTATTCGGTTTCAGATATTACAGGCTGGCAGACAGATGAATATATCAATCTGGAACTTCTGGTTTCAAAAATTAAGTATGCCAACAGTGGAATGAGGGATTATATTCTGGAATACAATCCGAATGATTATCAATCTAATCTTCAAAACAAGAGTCTTTCTCTTCCGGGCAGAAATTTCATCAGGCTGAAAGCGTATCTGAACTTAAAAGCAGAAAATGTCTCAGTAAAATGGAGCGAGACCCAAATAACGCATGAAATAGCTGTTGGAAAAGAGAAAATTTTCTACAGAATTAATTTTTTCTATGCAAAAGGTGATGAAAAAGCAATTACCCGGGAAACCTGCTCTTATCAGGAATTCAGAGATCTGAATGTACTGTTAGGATATGGCGATATTGATGATTATGATGCTGACTACAAATACTTCCTGAAAAATTTTGCTGATGCTCTCAAAAAGTATGAGAATCCTGAATCACTGAAGTTTATTTATGAAAACGTTCCTGAAACTATTTTGCCTAATCTTTCTATGCATATTGACAATTTGACGTTTTTTAATCATCTTGAAATCCTTTCAAATGCGGATGACTCAAACATCTTCAAAGACAGCAGCTCTGCAGTGATTCAGATTTTCAAAGCAATCGGAGATCCGGTTCCTATCCTTAATTATTTCCGCGAAAATCCGGATAAACTAAACAGGATCTATTACAATTTAGACGGAAGCACAGAATATGAAGGGAAAATGCAGAGCAACCGGATGATACTGGCTCATATCATGATGCTGTTTGCTCTGTTTGCCAATAATGATAAGCGGAAAAAAGAAGCCCAATCCTTTATTATTGGGAAAGGTTATAAAATCAACAGCAACATTCTCGAAGGGGGCGTTTTTCAGAGAAGTGATGACCAGTACAGAGATACATTTCTCCTGCAGCAGCAGAAAGAGGTACAGCGAAATGTAAGAATTATCCCGAAAGAAGGAGATCCCAATGCAAAAGACGCCGTTACAGAAGATATAGATGAAGGGGCACAGTTTCACCCTCTGGATATGGTCTATCTCACAGATATCAGCGGAGAAAAAGAAGAAACCTATCTGGTGCCTGCTATTTATCTGAAAGCAATGGCAGACGCAGAGGAATGGGCGGTTGTACATCAGAATATCCGTATAGCGGCTAATCTTGTGGCTATTGTAATTGGTGTGGCTACGTTGGCAACCACCGGAAACCCCTATTTTATTTTACTGGCTGCTGCCGATATCTCTTTGGCGGGGGCTGACCTTACCGTACAGACATTTAAAGAAGAAATTGCTACCTATGAAGGAGGAGCAGAATTTCTGGCAGACTGGGAGGAGATTTATATGGTGGGAGGTATTGCATTGGCTGGTTTAACTGTAGTAGGCAGTTTTTATACCGGAGCAGCCAAACTGATCGCAAAAATGGCAGACGGAAGTGCTAAGAATTATCTTAAGACTTTGGTATTAAAAGCTGTGCTGGAAACCAATATTTCTAACTTCCAAAGAAATACGATAAAAGTAATCGAACCCCGGGAAATTTTCCTCGGAGCGCAATACAGAGCGCTTGGTAATACCATGGCAGAAAACGGAGTCGTTTTCTTATCCGGACAGAGACAAGGTAAATTTTTAAATGCCTATGCTGCTGTTTATAAAGGTGAAGTGGTAGAAGAGTTTACCAAAGCAGAAATGCATATGTTTTACAAAAAATGGCGTAATTTACGGGGAGAAAAATTAGTAGAGGAGCTGGAACATCTGGGTGGGCATGTGCCGCAAGGCAGTTCTATTATTGAAACAACCGTTGAAGCAGAGGTAAAAGCATTTATAGAGGGGGAAAAACAATTTTTAAATACCATAATTAAAAATCCTTTTGAAAAGATGAAAGAAGCGATGCCTTATTTTAATCATAAATCGGTAGGCGATGCTGTAAAACAAGTGAGTATGACCAATTGTGGTAATACTGCAGAAGTTATTGTGGAGTTTTTGAGAACAGGAAAATTACGTTTGGCAGAACCATCGATGAAACAATCATTCGAGGAAATCTCAGCAAAATTTGGAGGAGGGAGTTTCCAACCTGCTACAATCCCAAGAATGAAGGAATTAATGAAAGAAGGAGATATAGTGGTTGTGTATGGTGTCACAGATCTTAGTAAAAGTCCTATGTTAGTAGATGGTCATTATTTTGTAGGAATGAAAAAAGGTGGAGAATTGCACCTGTTTGATGGGCAAACAGGTGAATATGCCATATTTGCTCTAAAAGATAACAATTTTAGTAAGTTTCTCCAAAGCAAGTATAATAAAACTTATACACAAGCAGAAGGTGGCGGTTTTAGATATTTAAAAGTAAGATAA	MNYDNYFNDFDDFDETSKRTLQSLSNHLVSSDSFLNKTLKQPTGLPKETSLPSTSYSVSDITGWQTDEYINLELLVSKIKYANSGMRDYILEYNPNDYQSNLQNKSLSLPGRNFIRLKAYLNLKAENVSVKWSETQITHEIAVGKEKIFYRINFFYAKGDEKAITRETCSYQEFRDLNVLLGYGDIDDYDADYKYFLKNFADALKKYENPESLKFIYENVPETILPNLSMHIDNLTFFNHLEILSNADDSNIFKDSSSAVIQIFKAIGDPVPILNYFRENPDKLNRIYYNLDGSTEYEGKMQSNRMILAHIMMLFALFANNDKRKKEAQSFIIGKGYKINSNILEGGVFQRSDDQYRDTFLLQQQKEVQRNVRIIPKEGDPNAKDAVTEDIDEGAQFHPLDMVYLTDISGEKEETYLVPAIYLKAMADAEEWAVVHQNIRIAANLVAIVIGVATLATTGNPYFILLAAADISLAGADLTVQTFKEEIATYEGGAEFLADWEEIYMVGGIALAGLTVVGSFYTGAAKLIAKMADGSAKNYLKTLVLKAVLETNISNFQRNTIKVIEPREIFLGAQYRALGNTMAENGVVFLSGQRQGKFLNAYAAVYKGEVVEEFTKAEMHMFYKKWRNLRGEKLVEELEHLGGHVPQGSSIIETTVEAEVKAFIEGEKQFLNTIIKNPFEKMKEAMPYFNHKSVGDAVKQVSMTNCGNTAEVIVEFLRTGKLRLAEPSMKQSFEEISAKFGGGSFQPATIPRMKELMKEGDIVVVYGVTDLSKSPMLVDGHYFVGMKKGGELHLFDGQTGEYAIFALKDNNFSKFLQSKYNKTYTQAEGGGFRYLKVR				NA	NA	NA	NA	NA
BMS003_00378	339			hypothetical protein	ATGTTAACAGACCAAGAAATGCTAAAAGTAGCAGAAAATTTTTTAAAAAGAATGGTAAAAAAAGGTATTGAGACAATGATATATACTGATGCTATTATTAAAAAACCGTATGGTAATATTTACCGCTATAATACCAAAGAATTCATTTTAACAGGCGATTTTAATAAATCTTTGGTGGGGGGTGGACCTTTTTTAGTAGAAAAAGAAACAGGAAGAGTGGTTAGTTTGGGGACCATGTATAGCTTAGAAGATCGTATAAAAGCCTATGAAAATGGAACGATGTCTACTGCTTTAGACACATATTGGTATCCAGATGAAGACAGGTTTGATTACAAATAA	MLTDQEMLKVAENFLKRMVKKGIETMIYTDAIIKKPYGNIYRYNTKEFILTGDFNKSLVGGGPFLVEKETGRVVSLGTMYSLEDRIKAYENGTMSTALDTYWYPDEDRFDYK				NA	NA	NA	NA	NA
BMS003_00379	351			hypothetical protein	ATGTTAACAGACAAAGAAACTCTAGTAATAGCAGAACGCTATTTAAAAAGTAGAGCGGAACACTTTGGAGGATTAGATATTGAAGTAGTAATATTAACAGATCATATCATTAAAAAGTCATATGGAAATATCTATGATTATCAGTCTAAAGAATTTATTTTAACTGGAAATTTTAATAAATCCTTAGTAGGAAACGCTTCTTTTCTAGTGGAGAAAAAAACAGGAAGAGTGGTTCAATTTAGCACAGCAGGTATATTAGGAAATGAAATTAAAGCTTATGAAAATGATCCATTATCAACAGCTTTAGACACTTATTGGTATCCCGACGAAGATCGGTTTGATTACAAATAA	MLTDKETLVIAERYLKSRAEHFGGLDIEVVILTDHIIKKSYGNIYDYQSKEFILTGNFNKSLVGNASFLVEKKTGRVVQFSTAGILGNEIKAYENDPLSTALDTYWYPDEDRFDYK				NA	NA	NA	NA	NA
BMS003_00380	516			hypothetical protein	ATGATAGAAATTAAATTATTAAAAGTAAACGTTGAACCAATAGGTGTAGATAATTTAGATAATTTTATTCAAGGCTTAAACAATGTTTTAGACCGGGAAATAGATATTGTAACAGAGATAGATTCCAGTTTCAATGGATATTACTTATTACCGATGGGGTTTATGACTCCTGAAAGTAGGGATGGATTTGTGAAACAAAACATTAATGAAAAAGTTTTTTTATTAAGTGTGATTAATAGTAATATTCCAGGAATATTAGAAGAGTGTAAACCAGCAGGTATAACTAATTGGATGCTTTTTAGAAATGCAAGTACAGCGATAATAGGCAAAACGAATGTAATTAATAAAATACGTACTCAAAATGAAGATGATGACGAAATGTATGAGGATTATGGCTATGATGAATATGTACCTATTCCTTTTGATGGAACCTATGAAACCGTTGCCAAAGCTATTTTAAGCTATTTAGAAACTTATGACAAATATTTGAAGAATGAAATAAAATCTTATAAATAA	MIEIKLLKVNVEPIGVDNLDNFIQGLNNVLDREIDIVTEIDSSFNGYYLLPMGFMTPESRDGFVKQNINEKVFLLSVINSNIPGILEECKPAGITNWMLFRNASTAIIGKTNVINKIRTQNEDDDEMYEDYGYDEYVPIPFDGTYETVAKAILSYLETYDKYLKNEIKSYK	PGPT0026945_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026945-cas5a_b_c-K19089	NA	NA
BMS003_00381	339			hypothetical protein	ATGTTAACAGACAAAGAAATGCTAGCCATAGCAGAACGTTTTGTAAGAAGAATAGTAGATAAAAATATAGAACCGATAATATTATTGGAAGAAATAATTAAAAAAAACTACGGCAATATTTATCGCTATCAGTCCAGAGAATTTCTTTTGACAAGAGATTTTAATAAAGCACTGGGAGGCAACGCTCCTTTTTTAGTTGAGAAAAAAACAGGAAGAGTGGTTACTTTTGCTTCAGCAATGAGTTTAGAGAATAATGTAAAAGCCTATGAAAATGGAACGATGGGAAAAAGTTTAGACCTTTACTGGTATCCCGATGAAGATCGATTTGATTACAAATAA	MLTDKEMLAIAERFVRRIVDKNIEPIILLEEIIKKNYGNIYRYQSREFLLTRDFNKALGGNAPFLVEKKTGRVVTFASAMSLENNVKAYENGTMGKSLDLYWYPDEDRFDYK				NA	NA	NA	NA	NA
BMS003_00382	705			hypothetical protein	ATGAAATTATTCAATACCATTGTAGTCGTTAGCATGATCGCTGCTTCTAACCCGTTATTCTCACAAACATCCAGCGAAAGCAAAGCCAAAGAAATTATAGAAAAAGCCATCCAGGCAGAAGGCGGTAAAAAGCTTCTGAGCAGCATAAAAACGCTTTATTCCAAATCTGAAACGGTAATGGATGGCCGAAAGGTGAATTGGATTACGAAAGAAATGGTACCCAATAAAGGAAGTTTTGAAATTGAATATCAGGGAAGAATTGTTTACAAATCATGGTATGATGGTAAAACAGGTTATGAACTGGTCAACGGTGAGAGAAAGCTTGCTGATCCTGCTGAATTTAAGGATAAGGCCGACAGAAAGTACATCATGAATGAACTTTCCTACATAGATCCGAAATTATACAAGATTGAACTTATAGACGAAAGTCCGGATAAGATCTATTATAAAATAAAAGCAACCTATATAACAGGAAAGGTGACTTATCTGTATTACGATGTAAAATCATTCTTTCTAAGCAAAGAAGAAACGGTGGAAAATGGTGAAAAGAATACATTTTCTACAGTTTTACAAAGCGATTATAAAAAATTCGGGGATCTTTGGTATGCTACCAAATCCACTTTTGTTTCTGAAGATGGTAATCAGGAAGCAACTCTTGTAGATTTGTACTACAATAAAAATATTGAGGATAAAGATTTTAAATAA	MKLFNTIVVVSMIAASNPLFSQTSSESKAKEIIEKAIQAEGGKKLLSSIKTLYSKSETVMDGRKVNWITKEMVPNKGSFEIEYQGRIVYKSWYDGKTGYELVNGERKLADPAEFKDKADRKYIMNELSYIDPKLYKIELIDESPDKIYYKIKATYITGKVTYLYYDVKSFFLSKEETVENGEKNTFSTVLQSDYKKFGDLWYATKSTFVSEDGNQEATLVDLYYNKNIEDKDFK				NA	NA	NA	NA	NA
BMS003_00383	2208	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGAAGCTAAAATTTATTCCTCAACACGACCAAATGGACTGCGGTCCTGCCTGTATCGCAATGGTGGCTTCCTACTTTGGCAAGCAGATTCCGTTACATTTTTTGAAAGAAAATGCCAACTTATCCAGAGAAGGAGTTAGCTTACTGAGTATCAGCGAACTGTGTGAAGATATTGGATTTGAAACCTACCCTGCCAAGCTTACCTTGCAGACTTTGGATGAAAACGGCAGCCTGCCTTGTATTCTTCACTGGAATAAAAACCACTTTGTAGTACTTATTGACGTAAAGAAAAGCCTTATTTCAGGAAAAAAACGTTACAAAATTGCTGATCCAAGCCATGGAATGATCTGGCTGAGCGAAAAAGATTTCCTTAAAAGCTGGCTGTCTGACGGAGAAAACGGAATTGCCCTTTTTGTAAGCCCTACCAACAGCTTTTACCAGCAAACCTTCCCGGAAGAAGATAAACTGAGTATTTCTTTTGCCATGAAATATTTCAAAGAGCACAAAAACAAATTCCTCTTTTTATCCGGAATGCTGCTTATCGGAAGCTGCCTGAGCCTTGTATTCCCGTTCCTTACGCAAACACTTATTGATAAGGGAGTTAACACAAAAGATGTAGATCTTATTACCATCATTTTGGTATCACAGGTGGTTTTATATTTAGGAAGTATCACGATAGAAATTCTCAGAAACTGGCTGATGCTTTATATCGGAACCAGAATCAGTATTTCCATTATTTCAGACTTTTTGAAAAAGATGTTACTGCTTCCAATGGGGTTTTTTGATACCAAAATGAAGGGAGATTTTACCCAGAGAATCCAGGATAATGAGAGAATAGAAGACTTTCTTACCTCTCAAAGCCTTATGACTTTCTTCTCTATGGTAACTTTCCTGGTGTTTTTCGGAGTGCTTTGGTATTATAATGTTACAATTGTACTTATTTATTCTTCTCTAACGGCATTATCATTAGTTTGGGCTCAATATTGGCTGAAAAAAAGAGAAATTCTGGATTATTACAGATTCCGTGAAAAAGGACAAAGCCAGGAAAGCGTCTATGAGATCCTGAACGGAGTTTCTGAAATGAAATTAAATCAGTTCGAAGACTATAAAAGACAGGAATGGGAAGGGATTCAGAATAAATTATTCAAAACAACCCTTCGTATTTTAAAAGTAGATCAGTATCAGTTTTCTGGATTTGAATTTCTTAACCAATTAAAGAACATTTTCGTTACGTTCTTTGCTGCATTGCAGGTTGTGAAAGGAAATATGACCATTGGTGAACTATTAGCAATATCTTACATCATCGGACAGCTAAATTCTCCTGTTAATCAAATGATTTCTTTCTTCCGTTCTTTACAGGATGCGAAACTGAGCCTTTCAAGATTAAATGAAGTTCAGAACCACGAAGAAGAAGAAAAAGAGGGAATGAAAGCGCTGGAAGTAGGCAATACTTATTCAAAAGATGAAGAGAGAGGAATTACCTTAAATAATGTTTCTTTCCAGTATGAAGGCCCGAAATCTCAGTTTGTGTTAAAAGATGTCAACCTGTTTATCCCTGAAGGCAAAGTTACAGCCATTGTAGGAGCCAGCGGAAGCGGAAAGACAACATTGATGAAACTGCTCCTGAAGTTCTATAACCCTACTCACGGTACCATTCACTATAACGAAGATGATATTCTTACCCTTTCCCCTAAAAGCATCAGAGAAAACTACGGAGTGGTAATGCAGGACGGATTTATTTTCTCCGACACCATCGAAAGAAACATTGCCACCAGCGAAGTGGAAATCAATACCAGAAAAATGGAAAATGCGGTAAGAGTAGCCAACATTTCTTCTTTCATAGATAACCTTCCGCTAGGATACAGCACTAAAATAGGGGCAGCCGGCAACGGAATCTCCGGAGGTCAGAAGCAAAGGGTTCTTATTGCAAGAGCGGTGTACAAAAACCCTCATTTTATACTCTTTGATGAAGCAACCTCTGCACTGGATGCCGAAAATGAAAAGATCATTCATGACAACCTGCAGGAATTCTTCAAAGGAAAAACGGTAATTATTGTAGCACACCGTTTAAGCACCGTAAAAAATGCAGATCAGATTATTGTTCTGAAAAACGGAGCCGTTGTTGAAAAAGGAAACCATCAGGAGTTGGTCAACAAGAAAGCAGATTACTACAGTCTTGTAAAAAATCAGCTTGAATTAGGCAACTAA	MKLKFIPQHDQMDCGPACIAMVASYFGKQIPLHFLKENANLSREGVSLLSISELCEDIGFETYPAKLTLQTLDENGSLPCILHWNKNHFVVLIDVKKSLISGKKRYKIADPSHGMIWLSEKDFLKSWLSDGENGIALFVSPTNSFYQQTFPEEDKLSISFAMKYFKEHKNKFLFLSGMLLIGSCLSLVFPFLTQTLIDKGVNTKDVDLITIILVSQVVLYLGSITIEILRNWLMLYIGTRISISIISDFLKKMLLLPMGFFDTKMKGDFTQRIQDNERIEDFLTSQSLMTFFSMVTFLVFFGVLWYYNVTIVLIYSSLTALSLVWAQYWLKKREILDYYRFREKGQSQESVYEILNGVSEMKLNQFEDYKRQEWEGIQNKLFKTTLRILKVDQYQFSGFEFLNQLKNIFVTFFAALQVVKGNMTIGELLAISYIIGQLNSPVNQMISFFRSLQDAKLSLSRLNEVQNHEEEEKEGMKALEVGNTYSKDEERGITLNNVSFQYEGPKSQFVLKDVNLFIPEGKVTAIVGASGSGKTTLMKLLLKFYNPTHGTIHYNEDDILTLSPKSIRENYGVVMQDGFIFSDTIERNIATSEVEINTRKMENAVRVANISSFIDNLPLGYSTKIGAAGNGISGGQKQRVLIARAVYKNPHFILFDEATSALDAENEKIIHDNLQEFFKGKTVIIVAHRLSTVKNADQIIVLKNGAVVEKGNHQELVNKKADYYSLVKNQLELGN				NA	NA	NA	NA	NA
BMS003_00384	3066	nisB_1		Nisin biosynthesis protein NisB	ATGAGAAACTCTTTGTACTCATTCAGACAATATAACAATATACCGAAAAGTACAGCAGATCTTGATCATTTTGTTCTGGAACTGTGGAATGATGAGGTCTTCAGAGAATCTGTTTTCTTAGCTTCTTATGAGCTGTATAATGAATGGGCAAGACTGTGCCAGGACGATCCGTCTTTATCTCAGGTAAAGAGAAACAAAATTAACAATTCTATTCTTAAATACTACATCAGAATTACTACCAGATCTACTCCGTTCGGAACATTTGCTTCGCATTCTGCTTTTGAACTGAACTCAGAACATAAAAATATAGAAGCCGGAAATATGGATGCTATCCACCGGTATACAACGCTGGACCTGTCTTTCCTTTTCCAGGTTATCGCATTGATCAACAGAGACTTTCCGGAAGTTCACGAATATGAACTTAATGACTCTATCTATAAGTTAGGTGATTATTACCGATATATCGAAACTACAGTACAAAATGAAAAAAGAGTCTACACTTTAAGTTCATTGGAAAAAGATGAACTTCTGGATTTTCTGGTTGAAACAACAGCCAATAAGTCTTATTCGTTCGACAGTCTGGTTGCTCTGGTTGCAGAAAACGTAGAGGAAGTTTCTGAAGAAGATGCGAGATATTATATCTTCAGTCTCATTGAGGCCCAGTTCTTTAAAAGCAATTTTGATATCTGCTTAAATGAACACTCTCCGCTGTGCCAGACCATTGAATACCTAAACTCAAAAAAAGGCATTGCTGCTGAACTGGACACTTATCTGGAGACCCTCATCAAAATGGAAGGCTGTATAAAACAGCTTAACTCCGGAATAGGGCAACCTCAGGAATATTACGATGAAATATTTGCACTTGCCAGCCAGTTCTCTATTTTATATGACAGAAAATACCTGATCAACTCGTCATTGAAAAGAAACCTTGATTTCTCACCGGTGACCAGAGAAGATCTTTCCAAAATCAAAAAAGGAATCAATACCTTATCCTGTTTCTGGGACAAAGGAAGTGAAACAGTGAATGAAAATTTAGAAAAATTCAAAACCGCTTTTTATACGAGATATGAAGAAAGCCTGATGCCTTTGGTAGAAGTATTGGATAACGAAAGTGGTATAGGATATATCCAGGAACAGAACAGTGAAAATGATTTTTCTTCTCTGCTGGATACATTAAGCTGGCCGGATTCCCATACAGATTCTTTTTCCATCACTTACAATAAAAAGATCCATGAATTCTGGAGAAGGCTCATCAACAAAGCCAATATCAACGGAGAGAATTCCATAGACCTTAGCCAGCATGATATCAGCAGTCTTCAGAATACCGAAGAAGTAAGCCTGGCAAGATCTCTTGCTGTAATGGTAGAAAAGGTTTCTGATAAAATTTCTATCTCTTCCGTGGGAGGAACCAGCGGAACCAACCTTATCGCCAGATTTTCCAATGAGGATGAGGAAATCCTTGCTCCGATGAACAGAATCATCAAAGAAGAACAGAATGATGATCATTTTATCTACGCAGAACTGCTTCACCTGCCGGATAACAGAGCGGGAAATATCCTTCTGAGACAGGTAAAAAGGGGAAACCAGCTTTCTTATCTTACCAAACCTTCAGCCTCTGAAAATAATATCAGCCTGACAGATCTTTATATTAAAATGATTGATAAAAGAATCATTTTATTTCATAAAGAGCTGAATAAAGAAGTAAAAATCTTCCATTCTACCGCACATAATTTTGATTATAACTCGCTTCCGGTGTATCAGTTCTTATGTGACCTTCAGCATCAGGATGTTTCCACAGCACTGGTTTTAAATATTGGAGACACCAACTATCTGATGTATGATTATATCCCTCGCGTCACTTTTGGCAAAGATATCATCTTTACGCCGGCATTATGGAGAGTTTATCAGAACGAAGTATCAGGAATAAAGACTAAAAATAACACGGAAAGCATTAAAAAAGTAAAAGAATATCTATCCGATAAAAAAGTCAACCGATATTTCTTTATTTCTCAGGGAGACAATAAATTACTGATTGACACGGAAAATGACAACCTTTTATTATTCCTGGTAGAAGAGCTCAGGTCTAAGGAGATGATTACACTTACAGAATGTCTTTACGATCCTGAGGCAGATGAGTTCAGCAATGAGATTATCATCCCGATGATCAACAGGAACTACACAGCATTTAAGACGGAGCTTGACCAGCATCTTTTCAATGCCAGTATTGCCGATAATAAGTTCATCCCCGGAAACAAATGGCTTTATTATAAAATCTATTGCGGAAACAAGTTCTCAGACAAAATAGTACAGGATGTCTTCCCGGAGCTTTTAGAACAGCTTAATGAAGAAGATCTGATCAAAAAATGGTTCTACATCAGGTACAGTGATCCTGATAACCACATCCGATTAAGATTGGAAATTAATGATAATGATCTTACCAATACAGCACAGATCATCACAACTTTCAACGATTATTTTGATAAATATATCACTGAAGGAATCATTAATAAAGTGGAAATGGGAACCTACGACCGGGAATATGAAAGATATGAAGGTGAATTTATCGAAACCGCGGAACATATCTTCCACTATGACAGCAAACTTACCGTGAGTCTATTGAAAAATGTTCCTAATAATGATGACCTCTGGTTATACGCCATCAAAAGTATTGATGCTTATTTCGATGTCTTCAGACTGGATCTGGATAAACGGTATGAGGTTATCAGAAAGATTTACAATCAGTTTCAGAAAGAGTTTAATGTAGACAGCAGCCTGAAGAAGCAGCTAGACCTTAAATACAGAAACAACCTGAATATGATCAGCGAAATTGTAGAAACAGATGACAGCCCATACTTCTCACAGTTTATCACCGCAGTCACAGAAAACTGCAAGGAAATAGAAAAGCTCAAGGCCATTCAGAAAGAAAGATTAGTAAGCAGTTTTATTCACATGCATATCAACAGGCTCATCAGATCCAGACACAGAATGCATGAACTGATCATCTACGGTATCGTAGAAAAGTATTATAAAATGAAAATCGGCAAAAGAAAATATCTAGTATCATGA	MRNSLYSFRQYNNIPKSTADLDHFVLELWNDEVFRESVFLASYELYNEWARLCQDDPSLSQVKRNKINNSILKYYIRITTRSTPFGTFASHSAFELNSEHKNIEAGNMDAIHRYTTLDLSFLFQVIALINRDFPEVHEYELNDSIYKLGDYYRYIETTVQNEKRVYTLSSLEKDELLDFLVETTANKSYSFDSLVALVAENVEEVSEEDARYYIFSLIEAQFFKSNFDICLNEHSPLCQTIEYLNSKKGIAAELDTYLETLIKMEGCIKQLNSGIGQPQEYYDEIFALASQFSILYDRKYLINSSLKRNLDFSPVTREDLSKIKKGINTLSCFWDKGSETVNENLEKFKTAFYTRYEESLMPLVEVLDNESGIGYIQEQNSENDFSSLLDTLSWPDSHTDSFSITYNKKIHEFWRRLINKANINGENSIDLSQHDISSLQNTEEVSLARSLAVMVEKVSDKISISSVGGTSGTNLIARFSNEDEEILAPMNRIIKEEQNDDHFIYAELLHLPDNRAGNILLRQVKRGNQLSYLTKPSASENNISLTDLYIKMIDKRIILFHKELNKEVKIFHSTAHNFDYNSLPVYQFLCDLQHQDVSTALVLNIGDTNYLMYDYIPRVTFGKDIIFTPALWRVYQNEVSGIKTKNNTESIKKVKEYLSDKKVNRYFFISQGDNKLLIDTENDNLLLFLVEELRSKEMITLTECLYDPEADEFSNEIIIPMINRNYTAFKTELDQHLFNASIADNKFIPGNKWLYYKIYCGNKFSDKIVQDVFPELLEQLNEEDLIKKWFYIRYSDPDNHIRLRLEINDNDLTNTAQIITTFNDYFDKYITEGIINKVEMGTYDREYERYEGEFIETAEHIFHYDSKLTVSLLKNVPNNDDLWLYAIKSIDAYFDVFRLDLDKRYEVIRKIYNQFQKEFNVDSSLKKQLDLKYRNNLNMISEIVETDDSPYFSQFITAVTENCKEIEKLKAIQKERLVSSFIHMHINRLIRSRHRMHELIIYGIVEKYYKMKIGKRKYLVS	PGPT0011665_222	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011665-nisB|spaB|epiB-K20483	NA	NA
BMS003_00385	948			hypothetical protein	ATGAAAACAAAAAGCATAGGATTACTAGAACTAGGATACAGAAGCGGCAAAGATTCCATCACAGCTCTTAACGATGTAGTTGATTATGCCCTTCATGCAGAAAGATTAGGATACAGCAGATTCTGGCTGGCAGAGCATCATTATTCCCATCTTAAGAATCTTGCCTTTTCAAACCCGGATATCGTGATTGCCATGATTGCCGGAATGACAGAAAAAATAAGAGTAGGCTCAGCAGGAACTTCGGTTCCCAGTTATTCTCCTTATGCTGTGGTTACCAATTATAAGCTGATCAATAATATATTCAATGGGAGAATAGACCTCGGTCTGTCTAAAGGAATTCCGGAAAGTAACTATACAAAAAACCTTTTAAATCCTGATATTCTTGAAAGAGGTACGGGGGTTCTTTTCAAAGAAAATACCCACGAGATCCACGAACTTTTCTATTCTGAAGCAGAAAAGAACGAGAAAGAAGGAATCTTAATTCCTCCTTATGGAGGCCTGATCCCCGATCTATGGTATCTTTCTTCTTCTTTGAATAATCTGGACGAGGCCATCAGATTACACTCAAACTACTGTGTATCAGCATTTCACGGAAACGGAAAATTTCTTGACAGTTTTGAAGGTAAGAAAGAAGAGATCAATAGATACAGGGAAACCTTTGAACAGAAAAACGGGTTTATTCCCAAAACATCACTGGCTCTCGCCATCAACCTCTCGGAAGTAAATAAAATAAAGTCTGACGCCGATGAATCCGAGGCTTTTAAAATTCTCCACCTCAACTTTGAAGAACTTTTTGAACTCATTGAGAATCTGGATGAACAACTGGCCATAGATGAATTCATCTTATATGATACGGAACCCGACAGTGACAAGAAAATAGAAAACGCTGAAACGATAAGCAATCACTACAACTTACAATCTATTCAACATGAAAACGCAGTTAGATAA	MKTKSIGLLELGYRSGKDSITALNDVVDYALHAERLGYSRFWLAEHHYSHLKNLAFSNPDIVIAMIAGMTEKIRVGSAGTSVPSYSPYAVVTNYKLINNIFNGRIDLGLSKGIPESNYTKNLLNPDILERGTGVLFKENTHEIHELFYSEAEKNEKEGILIPPYGGLIPDLWYLSSSLNNLDEAIRLHSNYCVSAFHGNGKFLDSFEGKKEEINRYRETFEQKNGFIPKTSLALAINLSEVNKIKSDADESEAFKILHLNFEELFELIENLDEQLAIDEFILYDTEPDSDKKIENAETISNHYNLQSIQHENAVR				NA	NA	NA	NA	NA
BMS003_00386	1158			hypothetical protein	ATGGAAACTCTACAATCTCAAAACATCACTACCCTGCTTCAGGAATATGATCAAAAGATTCTTGATTTTGATTATGGAAATTTACCGGACGGATTGCTTTATGGAAAACTGGGTCTTCTTCTTTATTTCCTTACACAGTATCAAATCTCACGAAATGATATCTATGTAAACAAAGTAGGAGCTATCCTTGAAGAGGTATTTGAAAACGGCAACCTGCAAAAAGAAAACAACGTATACACACTCCCGAATATATCCAAAGGAATGACCGGGCTGGGCATTATTCTGAATCTGCTGAAACAGGACGGACTTATTCAGGATGATTTTGATGAACAGATCGAAGACATCGGAGAGCTGATCTTCCAACAGTCTGTTACCATGCTGAATGAAAACAATTATACTTTTTTTGATGGTCCCATAGGAAATCTTCACTATTTCAACACCATCAGAAATGAACAATACAGCAGCGAAATCATAAACATACTTTATGATGAATGTATTTCGCTCCCCATCCCATTTGAAAATAAGCTGAACGACAGCTATGCAGATGGTATTAACTTAGGATTCAACTATGGCTATCTTTCTATTGTTAATAATCTTTTAGCTCTTCCAGTAATAACGGATAAAGCAAAACATATTATCAGCAGCTGCCTGGACTTCATTATCTCCAATTTTGATGTTCATGAAGTAGAAAATGCCAGAATATATAAACCATACAATTACAAAATAGTACAAAACCTGCTGAAGCCTTTCCATAATAACAGACTCTGCTGGTGCAACAGTGATCTTTCTTTCTCTTATCTTCTTTATAAAACAGGAAAAACACTGCAGGACAGCAGATACACTGAAATGGCCCGCGAACTGGGTCTGGAAACCACCAAAAGAAAAGTAATGGCCAACACAGGAATAGAGTTCATCCAGTACTGCCACGGAACCTCAGGACTTGTACAGCTTTATCACGAAATAACCGAAAAAGACAGCCATCCTGAGTATAAAAAAGCTAAACATTTCTGGACGAAAAGGTCACTGGAAATTCTGGAAAACGAACAGGATCAGCCATTCACCGCAGAGGACAGTAATTTACTCTTTGGAAAAACAGGAGCACTGATGGTTCTGAATGACAAAATAGACAAAACTAAATACCTGAAATTTTTACTGTAA	METLQSQNITTLLQEYDQKILDFDYGNLPDGLLYGKLGLLLYFLTQYQISRNDIYVNKVGAILEEVFENGNLQKENNVYTLPNISKGMTGLGIILNLLKQDGLIQDDFDEQIEDIGELIFQQSVTMLNENNYTFFDGPIGNLHYFNTIRNEQYSSEIINILYDECISLPIPFENKLNDSYADGINLGFNYGYLSIVNNLLALPVITDKAKHIISSCLDFIISNFDVHEVENARIYKPYNYKIVQNLLKPFHNNRLCWCNSDLSFSYLLYKTGKTLQDSRYTEMARELGLETTKRKVMANTGIEFIQYCHGTSGLVQLYHEITEKDSHPEYKKAKHFWTKRSLEILENEQDQPFTAEDSNLLFGKTGALMVLNDKIDKTKYLKFLL				NA	NA	NA	NA	NA
BMS003_00387	1173			hypothetical protein	ATGCAAAAAGAAAAACAAATCATCTCAGAAATAGAAGAATGTATCCGAAAAAAAGAGGCTTCCCTTACCGGAATAGGCCTTAATAACGGAGTTCTAAGTGCTTCAATGTTCTATTATTATCATTATCTGATGACCCGGGAATCGGAATCTTTAGAACTGGTAACCCATTATATTGAAAAGTCTCTGTCTGTTTTAACAGAAGATTATAAAAGCCTTCATTTTAATGATGAAATAAGAGAGCTGGGATTATATCTTATATTCCTGAAACAGCAGGAAGTTTTAGACAATGAAATAGATTCTTTACTGGAGAATATCGATGAAATTCTGGAAGAAATTCTGATCCAGAAAACTGAGAAAGGAGATCTTGACCTTACCAGTGGTTTTCCGAGTTTTGCCAAGTATTTCGTATTGAGAAATCCTGATGATAAAAAACATCTGATAAACAACACCCTGGATAAAATCATTGAGCTTACTCAAACTCATGAAAGCGGAAGCTACTGGAAATTTGATCTTCGCAATAAAGAAAATCCATATGTAGAACTGGGCTTAGGACACGGAACTACAGGCGTGATCAACTATTTGTTATTCCTTTACAAAAATAACATCTACACTCCGGAATCTTTAGCGCTTATCCACTCTGGACTTTCTTTCATCTGGAGCTGTAAAGAAAATACCACAGACTATATCACTCTTTTTCCGTTCAATGCCTTTGAAGAGGTTTATATAGATTATCACAATCTGGCTTACGGCGAAATAGGAATTGGCTACACTTTTTACAATGCCGGAATCCTCTTAGACAATAAAGACTATTGCGACAAAGGGCTGCAAATATTGATCAATACAACCAAATTTAAAGACACTGATCAGTCTGCCATCCTGGAACCCGGACTCATTTATGGTTCTGCCGGATTATCCGCATTGTATAAAAACCTTTATCATCTTACCGAACAGGATGTGTTTCTGGAAGCCAAAAATTACTGGCATCAACATCTTCTTCAGTCACAAAAAAATGAAAATGAACAGTGGGCAGGATTCAGCGCCTACTACAATGCAGAATATGACAATATCAATATGGCTTTGGGCCAGGGAATAGCAGGAATTGGTATTAATCTGATGAATAATATCATGACCACAAATCACCACTACGTTTCATTCTATAATTACGATCTATAA	MQKEKQIISEIEECIRKKEASLTGIGLNNGVLSASMFYYYHYLMTRESESLELVTHYIEKSLSVLTEDYKSLHFNDEIRELGLYLIFLKQQEVLDNEIDSLLENIDEILEEILIQKTEKGDLDLTSGFPSFAKYFVLRNPDDKKHLINNTLDKIIELTQTHESGSYWKFDLRNKENPYVELGLGHGTTGVINYLLFLYKNNIYTPESLALIHSGLSFIWSCKENTTDYITLFPFNAFEEVYIDYHNLAYGEIGIGYTFYNAGILLDNKDYCDKGLQILINTTKFKDTDQSAILEPGLIYGSAGLSALYKNLYHLTEQDVFLEAKNYWHQHLLQSQKNENEQWAGFSAYYNAEYDNINMALGQGIAGIGINLMNNIMTTNHHYVSFYNYDL				NA	NA	NA	NA	NA
BMS003_00388	180			hypothetical protein	ATGAACAAAATGAAACTAACTAAGGGTCTTCAAATCAACAAAGAGCAAATCAGTAAGCTTCAGGAAGAGCAAATGAATAGCTTAAAAGGAGGAGTTAACAGCCTTCAGGCTGCAGCACAATCTTGCGGACAGTGCTCTTGCGGTGGAAACACTGTGGTACAGACAAGAATTGCGAAATAA	MNKMKLTKGLQINKEQISKLQEEQMNSLKGGVNSLQAAAQSCGQCSCGGNTVVQTRIAK				NA	NA	NA	NA	NA
BMS003_00389	180			hypothetical protein	ATGAACAAAATGAAATTATCTAAAGGATTACAAATCAACAAAGAGCAAATCAGCAAACTTCAGGAAGAGCAAATGAACAGCCTTAAAGGAGGGGTTAACAGCCTACAGGCGGCGGCTCAATCTTGCGGACAGTGTTCTTGCGGTGGAAATACTGTAGTACAAACAAGAGTTGCGAAGTAA	MNKMKLSKGLQINKEQISKLQEEQMNSLKGGVNSLQAAAQSCGQCSCGGNTVVQTRVAK				NA	NA	NA	NA	NA
BMS003_00390	180			hypothetical protein	ATGCACAAAATTAAATTAACAAAAGGTTTACAGATCAACAAAGAGCAAATCAGCAAATTACAGGAAGAGCAAATGAACAGCCTTAAAGGAGGGGTTAACAGCCTACAGGCGGCGGCTCAATCTTGCGGACAGTGTTCTTGCGGTGGAAACACGGTGGTAAAAACAAGAGTAGCTCAATAA	MHKIKLTKGLQINKEQISKLQEEQMNSLKGGVNSLQAAAQSCGQCSCGGNTVVKTRVAQ				NA	NA	NA	NA	NA
BMS003_00391	180			hypothetical protein	ATGCACAAAATTAAATTAACAAAAGGTCTACAGATCAACAAAGAGCAAATCAGCAAACTTCAGGAAGAGCAAATGAACAGCCTTAAAGGAGGGGTTAACAGCCTACAGGCGGCGGCTCAATCTTGCGGACAGTGTTCTTGTGGTGGAAACACGGTGGTAAAAACAAGAGTAGCTCAATAA	MHKIKLTKGLQINKEQISKLQEEQMNSLKGGVNSLQAAAQSCGQCSCGGNTVVKTRVAQ				NA	NA	NA	NA	NA
BMS003_00392	2397			hypothetical protein	ATGACAAAAAGATACTTAATACCATTATTATCCTTCTTAGGAATGGGCATTCATCTTAATGCTCAGAGTATTGCCGGTAAAGTATCTGATGAAAAGGCAAAAAGTATTTCTTACGTAGAGATTATCCTTTTGGCAGGAGATAATAAATTCTCTGCAATTACCGATGAAAACGGGCTTTTCTCTATTAAACTTCCAAAAGCAGATTCTTATAAAATGGCATTTTTCCTGAACGGAAGCAAAGTATACGAAGGAAATGAAAATATAGAAGGAGACATTACAAGAAGCTATACCATAAAAGACAATTATCAGGAGAATCATGAGATTCAGGCAATCAGCCTGACCAAAAAGAAAAAACTGGTTGAAAGGAAAATAGACCGCCTTGTTTTCAATGTAGAAAACTCTGTTGCAGCAACAGGAGGAACGGCAATAGATGCTTTAAAAACAACTCCGCTGGTTCGCATTCAGGATGACAAGGTCTCCATTGTAGGAAAAGGTGAGGTCTTGGTAATGATTGACGACCGTATTCAGAGAATGTCTCCGGATGATCTATCCGGATTATTAAAGTCTATTCCCTCGGACAATATTCAGTCGATTGAAGTGGTTACTACTCCACCGGCGAAGTACGATGCGGAAGGAGACAGCGGACTGATCAATATCAGACTGAAAAAAGGAAAACCCAATTCCTGGAATGCCAATATAGGTGGCAGTTATACTCAGAAGACCTATGCAGGAGGCGGGTTTCAGGGAGCTTTTAATTACAATAAAAACAGGTTGTCATTACAGATAACAGCCAATACGAATTCCCAAAGACTGCGCACCACCTCAGACAGTAAAATCTACTATCCGGATGAGCTCTGGATTCTGAATGTAAAAAATAAGTCAGAAGAGAACAATCTCGGGCTTGGACTTGGCGTAGATTATAAAATCTCTGATAAATGGACAACTGGAGCAAAATATCTGGGCAGTTTTACCAGAAATACCTCATCCAACAGCCCTTTCACCTCAAGGTTTAATCCGGCTGGAGCTGTTAACTCCTACATTACTTCTGATGTGGATGCGAATAATAAACCCAATATGAACTCTCTTAACTGGTATAACACCTTTAAAGTAGACTCTGCAGGGACAAAAATAACCACGGATTTTGATTATTTCCACTACAGAAAGGGTGATTATAACTTCTACGCAGGAAATGAGCTGGATCCTTTGAGAAATATTATTCCGGGAAGCTTTTTCTCGGCAACGAATACGAATGTGAACCGTATTGAAAACTATTCCGGAAAAGTGGATGTGGAAATGCCGCTGAAATGGGCTTCTTTAAGCTTCGGAGGAAAATATACCTATACCAATACCAATAACGACCTTGTGGTTATGGATCATAAAACCGGAACTCCGGTCCTCAATACAGATCAGTCGAATATTTTTAATTATAAAGAGCATAATGAAGCGCTATATGTTTCTGCAAGCAAAAAGCTGAGCGAAAAATGGGAAACACAGGCTGGATTGAGAATGGAAGCGACACAGACAACGGGGTATTCTCATAACCTTAACCAAACCAACAAGAATGATTATGTCAAACTATTCCCGACGGCTTATGTGACTTATAATCCTAATGACAAGAACTCTTTCTCTCTCAACTACAGCAGAAGGATCCGAAGACCGAATTTTGATTACCTGAACCCGTTCATGGTTCGTACCAGCCCTTATTATTATTCTGAAGGAAATCCTTTTTTAAAACCTTCTATTATTGATAATCTGGAGTTTTCCTATGTAAGAAATCAGAAGTGGGTATCTTCTGTGTATTATTCTCAGGTATCAGATTTCAGCCAGGATCTGTCTATTCTGGATCCTGAAACGAATATTACAAGAAGTACACCGCTGAACTATGCCAACACATATCAGGTAGGAGTTTCCACCTATTACAATTTCAATAAATGGTCCTGGTGGAACAGCTTTACGGGATTCAATGTGAATTATCAGAAAGTAAAGTCTAAAACAGATTTTATCAGTTCAATAGACGGATACAATGCTTATTTCTATTCAAATAATGATTTCACACTGAATAAATCCAAAACTATATTCTTCAGTGCGAACTACGGCCTGCAGCTTCCGGGACGTTATCAGATATTCCATATCTCAACGATGAATATTCTGGATATCTCTATGAAGTTCCTGTTCCTGGATAAGAAACTGAGCCTTACTGTTACCGGTACGGATCTTTTGAAGGGTCAGCGCCCCGTGATTACCTATGAGTCTAATGGTGTAAAAACAGACTTTAGCAGCTATGGCGATACCAGAGGAGTAAGAGTGGCTTTAAGCTACAAATTCGGGAACAAAAACCTGAAATCTGAACAGCAGAGAAACTTCGGGAACGAGGACGAAAGAAACAGAATTAATTAA	MTKRYLIPLLSFLGMGIHLNAQSIAGKVSDEKAKSISYVEIILLAGDNKFSAITDENGLFSIKLPKADSYKMAFFLNGSKVYEGNENIEGDITRSYTIKDNYQENHEIQAISLTKKKKLVERKIDRLVFNVENSVAATGGTAIDALKTTPLVRIQDDKVSIVGKGEVLVMIDDRIQRMSPDDLSGLLKSIPSDNIQSIEVVTTPPAKYDAEGDSGLINIRLKKGKPNSWNANIGGSYTQKTYAGGGFQGAFNYNKNRLSLQITANTNSQRLRTTSDSKIYYPDELWILNVKNKSEENNLGLGLGVDYKISDKWTTGAKYLGSFTRNTSSNSPFTSRFNPAGAVNSYITSDVDANNKPNMNSLNWYNTFKVDSAGTKITTDFDYFHYRKGDYNFYAGNELDPLRNIIPGSFFSATNTNVNRIENYSGKVDVEMPLKWASLSFGGKYTYTNTNNDLVVMDHKTGTPVLNTDQSNIFNYKEHNEALYVSASKKLSEKWETQAGLRMEATQTTGYSHNLNQTNKNDYVKLFPTAYVTYNPNDKNSFSLNYSRRIRRPNFDYLNPFMVRTSPYYYSEGNPFLKPSIIDNLEFSYVRNQKWVSSVYYSQVSDFSQDLSILDPETNITRSTPLNYANTYQVGVSTYYNFNKWSWWNSFTGFNVNYQKVKSKTDFISSIDGYNAYFYSNNDFTLNKSKTIFFSANYGLQLPGRYQIFHISTMNILDISMKFLFLDKKLSLTVTGTDLLKGQRPVITYESNGVKTDFSSYGDTRGVRVALSYKFGNKNLKSEQQRNFGNEDERNRIN				NA	NA	NA	NA	NA
BMS003_00393	645			hypothetical protein	ATGGGACATGTTAACTTTTACTCTTTAAGTAATAAAAACTTATACGAATTAGCAGAATTTGTTGTTACCGAAAATTTTAATCATCATGAAAGTTATTCTGATACGGATCAGTTCAAGGCTGAAGTAGAGGATATATATCATGAAGAAAAGAACTTTAAAAAGTCTAAGATTTTTGTCTCCAGAGATGATGATGGTAAGATCAATGGCTCTATAAGAGTTTTTAAATGGAACCACAAGGATGTTCTTCCGTTGGAAAAGCTTTTTCACATCACCCCATCTTCTTTTATCAGAAATAAAACAACCAACATATGGCACATCGGAAGATTTGCTATTAAAAAAGGAATCGATAAAACAGGATTTGGAATTTTCAAAACATTAATGGCCTACGCAATCAATGAAGTTTGCTGTAACAAAAACGCTGTTGCTATTGCTGAATGTGATGCCAAGCTTCTGAAAGTTCTGAAGCTGATGGGAATTGAAGCTATAACATTGGCTGAACCTATTCATTATCTGGGTTCTGAAACCATCCCTGTAATGCTTACTTATGACGGGTTGAAAAAGTTCCTTGACAAGAACTACCATTTGATGGCTACACAGGAGGTAAGCTCCCTACACCAAAGTGTAGTATTACAACAAACCGCCTAA	MGHVNFYSLSNKNLYELAEFVVTENFNHHESYSDTDQFKAEVEDIYHEEKNFKKSKIFVSRDDDGKINGSIRVFKWNHKDVLPLEKLFHITPSSFIRNKTTNIWHIGRFAIKKGIDKTGFGIFKTLMAYAINEVCCNKNAVAIAECDAKLLKVLKLMGIEAITLAEPIHYLGSETIPVMLTYDGLKKFLDKNYHLMATQEVSSLHQSVVLQQTA				NA	NA	NA	NA	NA
BMS003_00394	759			hypothetical protein	ATGGAAGAGATTGGAAAATTCTTTTCAAATAAAAACAGCATTGATGCGATCTCAGAGTCAGAGAATACCCAGACCTCAGATTACCTCGAGGTCATTAAAGCCTTTGCAAGAATTACCTATATGAGTCTGTATGTCATAGACTATCAGAAGCAGAACTTTGAGTATGTATCAGATAATCCCTTATTTCTCTGTGATCACACTCCTAAAGAAGTAGAAACAATGGGCTATGCCTTCTATTTCCGGCATGTGAAAAAAGAAGACCTGGACCTGTTGTTTAAAATCAATGAAGTAGGTTTTGAATTTTACGAGAACCTGCCAGTGAATGAAAGAAAACTATACACCATTTCCTACGATTTTCACCTGGTGAATGAAAGCAAAAATACCATTCTTATTAATCACAAGCTGACCCCTCTTTTCTTATCCTCGGAAGGCAAAATGTGGAAAGCCATGTGCATTGTATCTTTATCCCACAATCATACATCAGGAAATATCTCCATCGTAAAGCAGGGAACAGATGAAATCTGGAATTATGACCTGAAAGACGAGAGGTGGATAAAAGAAGAGAAAGTAAAGCTCTCAGAAAGAGAAGCCGAGATTCTGCGGTTATATGCCCAGGGACTTACCATCAGTGAGATTGCCGATAAGATCTACGTAACAGGAGATACCGTGAAGTTTCACAGAAGAAAACTGTTTGACAAAATGGGGGTAAGTAATATTACGGAAGCATTATCCTACGCCACCAATTACAAACTGATTTAA	MEEIGKFFSNKNSIDAISESENTQTSDYLEVIKAFARITYMSLYVIDYQKQNFEYVSDNPLFLCDHTPKEVETMGYAFYFRHVKKEDLDLLFKINEVGFEFYENLPVNERKLYTISYDFHLVNESKNTILINHKLTPLFLSSEGKMWKAMCIVSLSHNHTSGNISIVKQGTDEIWNYDLKDERWIKEEKVKLSEREAEILRLYAQGLTISEIADKIYVTGDTVKFHRRKLFDKMGVSNITEALSYATNYKLI				NA	NA	NA	NA	NA
BMS003_00395	747			hypothetical protein	ATGGAAACAAAATATTCTCGAAACAGGTTATACGTTCAGCAAGAAGAGCAGCAGACAATAAAAAACTTTTCTATTTTGCTGGCAGGAAGCGGAATCGGCAGCAATATTGCAGAGTGCGCCCTTCGTTTTGGATTTGAAAATATTACCATTGTGGATGGTGATACCATTGAACAGTCTAATCTGAACAGACAAAACTATACACATCAGGATATTTCATCTTATAAAGCAGAAACCTTATATCATCGGCTGAAAAGCATTAATCCGGATGCAAACATCCGCTACAGAAGCGAGTTTATTACTGCTGAAAATGTTCATGAAATAATCGGCGAACACGATATTGCCATCAATGCTCTTGATTTTTCAAGCAATATTCCCGTTGTCTTTGACAAAATATGCCAGGAAAGAGGAATACATGTACTGCATCCTTATAATCTTGGCTGGGGAGGACTGGTGGCTGTTCTGGAACCAGGCGGTCTTCCGCTAGACATTCTTTCTGATGAGAACTTTAATGAGCTGAAAATGGTGGAATACATTGCCGGTTATCTGCGATTCTGGAGAACTCCCAACGAATGGCTGGAAAATATCATTGATGACTATAAGAAGGAAAAAGAAAATCTTCCTCCTCCTCAATTAGCCATCGCCTCCTGGATTGTAGCAGGAATGTGCACTCATATAATGTTCAAAATAGCTACAGGAAAACCATATAAAACTTTTCCTCAGTTTTACATGAATGCTATTTCCGAATAG	METKYSRNRLYVQQEEQQTIKNFSILLAGSGIGSNIAECALRFGFENITIVDGDTIEQSNLNRQNYTHQDISSYKAETLYHRLKSINPDANIRYRSEFITAENVHEIIGEHDIAINALDFSSNIPVVFDKICQERGIHVLHPYNLGWGGLVAVLEPGGLPLDILSDENFNELKMVEYIAGYLRFWRTPNEWLENIIDDYKKEKENLPPPQLAIASWIVAGMCTHIMFKIATGKPYKTFPQFYMNAISE				NA	NA	NA	NA	NA
BMS003_00396	627			hypothetical protein	ATGAGCTTCTTTGGAACTAATATTAAGAAAATAAGACAGGTAAAAGGACTAAGTCAGAAGGCATTTGCTGATCTTTTTGACCTAAACAGAGGGGTAATAAGCTCTTATGAAGAAGGACGTGCTGAACCTAAAATTGAAACCATATTAAAAGTTGCCAATCATTTTAACCTTAATCTTGATAAATTACTGACCGAAATCCTTCAGGTAAATCAACTGGCAAGTGTTTCTGACATTGACCAGCTTATGCTTTTTCCGGAATTGGCTATTCAAAGCAGACAACAAACACAGTCAAAAACAGAAGAAAATAATCCGAACGCACCAATATTGCAAAAAATATTAGCATCTGTTGATCTGGTGTATGAATTTACACCTGAAAAGCCACAGCTTCTTCAGTATCATCCCGGAGACATTTTATTTTTAAATAAAACTGATCTGAAAAAGGACTCATTATCTAACCTATTAATATATAAAGACGGCAATCTGCAATACGCCATCGAAACGGGGAAAAAAAATACTGAAAATCAGGAATATTATAAAATTGTAGGATATATTTCCACTGCAGATAAAAATATTTTTACTGATATTTTTGAAAGACTGGAAAATCTCGAAAACAAGCTTAAAGGTTAA	MSFFGTNIKKIRQVKGLSQKAFADLFDLNRGVISSYEEGRAEPKIETILKVANHFNLNLDKLLTEILQVNQLASVSDIDQLMLFPELAIQSRQQTQSKTEENNPNAPILQKILASVDLVYEFTPEKPQLLQYHPGDILFLNKTDLKKDSLSNLLIYKDGNLQYAIETGKKNTENQEYYKIVGYISTADKNIFTDIFERLENLENKLKG				NA	NA	NA	NA	NA
BMS003_00397	396			hypothetical protein	ATGAGAAATCAAATATTCAAAACGGTTAAAGAGTGGTTGTTAGATTATGAGTTTAACATCACGCTGGAAGATGAGGCTCAGAGAATCTTAATCATCGAAAAAGAATCCAACGGGATAAAAAATATGATCCTTATAATATCAGACTCTATTCTGATCATGGAACAGTTTCTTTTTGAAATTAAAAATCCATCCGAAAAAATATTTCTGAGGCTGCTTCAGAAAAACAGAGATATCGTTCACGGAGCGTTTGCACTGGACGGAACAGGAAGGCGGGTAATTTTCAGAGATACGCTTCCCACCGATAATATGGCACAAAACGAAGTAATGGCTTCCATCAATTCTTTAGGAATCCTTGTGGGAGAATTTACAACAGAAATGCTTGAAATGAGTAAGTAA	MRNQIFKTVKEWLLDYEFNITLEDEAQRILIIEKESNGIKNMILIISDSILIMEQFLFEIKNPSEKIFLRLLQKNRDIVHGAFALDGTGRRVIFRDTLPTDNMAQNEVMASINSLGILVGEFTTEMLEMSK				NA	NA	NA	NA	NA
BMS003_00398	702			hypothetical protein	ATGAACATTTTCAAAAGATTATTAACGATAGGAAAAGCAGAAGTCCATTCTGTGATTGACAGTTTTGAAGACCCAATTAATTTAACGGAACAGGAAATCCGTGAAATGAAAGAACAGCTTGGAAAAAGTATAGAATCTCTTGCCCAGCTGAAAGCACTTACCATTCGTAAAAAGAATGAAGCGGAGGCAGAAGAGCAGACTGCCAAAGATTATTACAATAAAGCCATAGTAATTGTTCAGAAAGCTGAAAAAGGAGATGTGGAAACCGCAGAGGCAGACCGTCTTGCTAAAGAAGCTCTGAAAAAACAGAATTCTTCACAGGAAACTGCAAATGTTCTGCAGAAAGAACATGAAAAACTATATGATGAATGTGAAAAGATGCAGGGAAACATCAATAATCTGAAATCAAGCATTGCCAAGTGGGAAAATGAGCTAAAAACCCTGAAGGCAAGAGTTCAGGTAAGTGAAGCCACTAAAGATATTAATAAAAAGATGACCCAGATGGATACCGGAAGTACGGTAAGCATGCTGGAAAAGCTAAAGGACCGTGTAGTGCAGCAGGAAGCTATTGCCGAAGCCTATTCTGATCTTTCAAAATCAGGGAAAAGCATTGATGAAGAGATAGATGCTGTAGTCAATAACAATGATACAAAAGCTGAAGAAGCTTTAAACAGATTAAAAGAAACACTTAAAAAAGGCTAA	MNIFKRLLTIGKAEVHSVIDSFEDPINLTEQEIREMKEQLGKSIESLAQLKALTIRKKNEAEAEEQTAKDYYNKAIVIVQKAEKGDVETAEADRLAKEALKKQNSSQETANVLQKEHEKLYDECEKMQGNINNLKSSIAKWENELKTLKARVQVSEATKDINKKMTQMDTGSTVSMLEKLKDRVVQQEAIAEAYSDLSKSGKSIDEEIDAVVNNNDTKAEEALNRLKETLKKG	PGPT0014646_1048	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014646-pspA-K03969	NA	NA
BMS003_00399	663			hypothetical protein	ATGACCTTTCAGGAATTTTTAAATGTAGCATTTTCTCCGGTGAATACGGTACTGACTGTTCTTCTTGGGCTTTCAGTGATCTATTGGCTCTTTACGATTCTTACAGGGCTGGATATAGATGTCGGGATTAATTCCGATCTGGATGCCGATGCTGATGCGGATATAGACGTTCCGGATGGTCATCTCCACACACCAGATCATGACCCTTCGGCATGGATGCATTTCCTGAAGTTTCTGAACCTGGATATCGTTCCGGTAACATATTTTCTTACCCTGTCGCTGCTGATAACCTGGCTGGGCTCATTTTATCTGAATTATTTTATACCACTTCCTACCTGGGCAGGAGTAATGATCTTATTCCCGCTAATGATTGGAGGAATGCTGTTAACCAAAATCATTCTGAAGCCCCTGAATCCTTTTTTTAAGGAAATCAATCATAAAGGTGAATTATCATATGCCTTTTTAGGAAGAGAAGGACGTTTGAAATCAAGTATTCAGGATGATAAAATAGGAATGATGGAAGTCTTTATCGGAAGTGACCCTATGACGCTTATGGTAAGAAGTAAAGACGGAAGCAGACTGGAATATGGAACCCATGTCATGATTGTGGATGAAGAACCTGAAAAAAGGATTTACTACGTACAACGGTCAATGAGATATTAA	MTFQEFLNVAFSPVNTVLTVLLGLSVIYWLFTILTGLDIDVGINSDLDADADADIDVPDGHLHTPDHDPSAWMHFLKFLNLDIVPVTYFLTLSLLITWLGSFYLNYFIPLPTWAGVMILFPLMIGGMLLTKIILKPLNPFFKEINHKGELSYAFLGREGRLKSSIQDDKIGMMEVFIGSDPMTLMVRSKDGSRLEYGTHVMIVDEEPEKRIYYVQRSMRY				NA	NA	NA	NA	NA
BMS003_00400	2022			hypothetical protein	ATGAACTTACCTTTAATTGCTGGAATTATTGTTGCCGTTGTAGCAACAGTCGGGTTGATTTTCTGGATTTTATCGATGTATAAAAAAACCGTTCAGGGAATCGTTATTTTAAGAACGGGTTATGGAGGTACAAAAGTCTTCTTTAATGCCGGTATTGTCATCCCTATCATCCACCGTATGGAATCTATGGATATCTCAGTAAAAAAACTGGAGATATCGAGAGAGGGAAGAGCAGGGCTGATCTGTAAAGACAATATGAGAGCAGATATTCAGGTAGCATTTTTTATCCGTGTCAACAAATCAGTAGATGATATTGTAAATGTAGGTCAGACCATTGGTTGTCAGCGTGCTTCCGATGCCCAGACACTGAGAGAACTTTTTGAAGCTAAGTTTTCAGAAGCCCTTAAAACAGTAGGAAAGAAATTTGATTTTACAGAATTATACGAAGCAAGAAGCGAATTCCGTCAGGAAATCCTTGATATCATCGGAACAGACCTTAACGGATATGTTCTGGACGACTGTGCGATAGACTACCTTGAGCAGACTTCTATTGATAAACTGGATAAAGATAATATCCTTGATTCTGAAGGGATTAAAAAGATTACTGAGCTTACAGCCACCCAGAATATCAAAGCCAATCAGGTTCGTCGTGATGAAGAAAAAACCATTACAAAACAGAATGTAGAAGCCAGAGAAGCAATTCTGGAGCTCGAAAAACAGCTGGCAGAAAAAGAAGAATCTCAAAAAAGAGAAGTAGCCAATATCAAAGCCCGTGAAAATGCGGAAATTCTGAAAGTAGAAGAAGAAGAACGTCTGAGATACGAAACCGTTCGTATTGCTACAGAAGAAAAACTGCAGATTGCTGAAGAAAACAAACTTCGCCAGGTAGTTATCGCTTCTAAAAATAAAGAACGTGCAGATCTGGTAGAAACAGAAAGAGTATTAAAAGACAAGGCACTTGAAGCTACAGAAAGAGAAAGAATAGTTTCCCTGGCTCAGATTGAAAAGGAGAAAGCAATAGAACTGGAGAAGAAAAGTATTCAGGATGCAATCCGCGAGCGTTTAACCATGGAAAAAACCGTAGTGGAAGAACAACAGGGAATCAAAGATCTGGAAGCCTTCAAAACAGCGGAAAGAAACAAGCAGGTAGAAATTACCGTAGCCACTCAGGAAGCAGAGAAAAAACTGATTGAAGAAACAAGAGCCGCAGAATCCCGCAGATTAGCTGCTGAAAAAGATGCACAGAAATATGTGATTGAAGCACAGGCGAAAAGAGATGCTGCAGAAAAAGAAGCTGAAGCACGTAAGATCATTGCAGATGCTAAAGCAAAAGAAGAAGCTACAGTAGGATTATCTGAAGCTCAGGTAATGCATGCGAAAGCAGATGCTGCAGAAAGACAGGGTGTTGCTGAAGCTACAGTGATTGAGAAAAAAGCAGATGCCAATAAAAAAGAAGGAATTGCACAGGCAGAAGTGATCAAAGAAAAAGCATTGGCAGAAGCCGCAGGAATTACTGAAAAAGCAGAAGCCATGAAGAAACTGAACGATGCCGGAAAAGACCATGAAGAGTTCCGTCTTCAGCTTGCCAAAGAAAAAGATGTGGAACTGGCTCAGATCGCTATTCAGAAAGATATTGCAGAAGCACAGTCTGTAGTATTGGCGGAAGCCTTCAAGTCTGCAAAAATTGATATTGTAGGAGGAGACAATACTTTCTTCGACAACGTTATCAGACAGGTTTCTGCAGGAAAAGGATTAGATAAATTTATCAGCCACAGTGAAAACGCTCAGATTGTAAGAGAAAACCTTCTGGGTGATGGCGAAAACATCATTGGAAAAGTGATGGGAATGGTAGATAAATACAAAATTTCCTCTGATGATATCAAAAATATGAGTGTCGCTTCCCTGATCTTTAAACTGAACGGCGTAGCCAATCAACAGGAAAAAGGAATTCTGGAAAGAGCCCTTGACATGGCTAGACATCTGGGTGTGGAGAACAAGCCGGTCAACAATAATCATATTTAA	MNLPLIAGIIVAVVATVGLIFWILSMYKKTVQGIVILRTGYGGTKVFFNAGIVIPIIHRMESMDISVKKLEISREGRAGLICKDNMRADIQVAFFIRVNKSVDDIVNVGQTIGCQRASDAQTLRELFEAKFSEALKTVGKKFDFTELYEARSEFRQEILDIIGTDLNGYVLDDCAIDYLEQTSIDKLDKDNILDSEGIKKITELTATQNIKANQVRRDEEKTITKQNVEAREAILELEKQLAEKEESQKREVANIKARENAEILKVEEEERLRYETVRIATEEKLQIAEENKLRQVVIASKNKERADLVETERVLKDKALEATERERIVSLAQIEKEKAIELEKKSIQDAIRERLTMEKTVVEEQQGIKDLEAFKTAERNKQVEITVATQEAEKKLIEETRAAESRRLAAEKDAQKYVIEAQAKRDAAEKEAEARKIIADAKAKEEATVGLSEAQVMHAKADAAERQGVAEATVIEKKADANKKEGIAQAEVIKEKALAEAAGITEKAEAMKKLNDAGKDHEEFRLQLAKEKDVELAQIAIQKDIAEAQSVVLAEAFKSAKIDIVGGDNTFFDNVIRQVSAGKGLDKFISHSENAQIVRENLLGDGENIIGKVMGMVDKYKISSDDIKNMSVASLIFKLNGVANQQEKGILERALDMARHLGVENKPVNNNHI				NA	NA	NA	NA	NA
BMS003_00401	4803			hypothetical protein	ATGTCAGAACAACTTAATTCCGGAACTTACGAAATTATTCAGAACCGTTTAAATGAGCAGAAGAACGACCTGATTCAGAGACTTCAGCAGCTTAATGAAAGCCGTAAAAATATATTTGGTGGAGTAGATTTCTCACTCGTTGCCAATGAAAGAATTTCAACGGAACACAGCTGCATAGCCAAAGATATCTATTCATTGGGAGATCACCTGATTTTTGGGTCTAATGCACACCTGGGACTCCAGACGGAAATCCATATTTCGGACGTTTTTTCAATATATACGATCAATAATAACAGGTTTGAGCCTCAGGATCATACCCTGATCAATGATGAGGTTTTCACAGAAGAATTTAAAAACCTTTACAAATATTACAGAAATACTTTCTTTGCCAGATTTACCTTCACGGAAAACTATCTTTATATGGTTTTTCAGCTGTCGGAAAGTACCACAGATATTAAAGCTTTTAAATGGCTGATCAAAGACAATCAGCTGATTTATGTAGATTCAAGAAGTGCTTCCGAGACCTCATATCCTCAGCAGCATGGCTTTGCATGGACAAAAGCAACAAGAGATATGCAGAGATCGGGAAAACATCCCCATATCTCTTTAGCAGATAAAGTTTTTGTAGAAAGCATTGGTGGGGATATTACCATCAAAGTAGAAGACAATACAGATACAGGAAAAGGAATTTATTCCGAAGAGGTGATCCATAAAGACCAGAACCTGGACGATGCCGAAATCTATTTCTGCGACCTTGACAATCTTGTTTTGTTTAAAATAAAACCTTATCAGGAAACAGAACGTTATTTCATTTATAATCACAAAGAAAAAACGGTTTCCAGAGCTGATGCCCTTAAATATTCAGGACTTTTGCTCCCGGAGAATCAGGGGGTGTTGTTTTCTAACGGATATGCTCTTCAGACCGGAGGACTAAAGGTGATCTCCCAGGATCAGAGCAGGCTTTATTATCTGAAAACATTTGCAGAACCAAACGGAGAGAATTTTTTATACGTTTTTTATGATGATAAGAACAATAATTATCAGCTGATTTCCTATAATATCATCACCCAAACTATAGAAACCCCGATCCGGTGTAGTGGATTTACATTTCTTCATGACGGGAAGCTGATTTATCTTCGTGAAAGCATAGAGACAACAAAAAACCACCTTGCTCAGATCTGGCAGACGCCCTTTTCCAAAGAGTTGCTGCCTAATACTGAAAAAGCAGACAGCTTAATCTATAAAATAGGAAATAAGGATATTGTCAGAGTAATGGCAGAAAGCCAGGAGCTGATCACCCTTCTGAACAAAAAAGATTCTTACAGCGGTCTTTATAATGATATTGTAAAGCTTTCCACCTTTATTCTGGATACTTACTACTTTCTGGGCGAAGATGAAGTTCAGAAGCTGGATATCCCATTGAAAGAGATCCGGGCAATTGCCCATTCTGCTATCAATGAATATGAAAAAGTAGTGGAGCAGAAGAAGAATACAGAAGAAGCCTTAGAAAAAATAAAACAATCCTGTGAAAAAATTCTGGCTGACACCAAAAGACTTCACTATTCTCAGCTTACAGAGTATATTGATGCCCTTTCTCAGATCAGAGCTTTAAGAGGAGAGGTTACAGGAGCAAGAGAGCTTAAATATGCAGATTCTGCTTTACTGGATTCACTGCAGGCTTCCCTTGCAGACCGTTATACAGAATTGTCAAACGCCTGTGTGGAATTTCTGCTTCAGGAAGGAGCCTTATTACCCTATGAAGAAAGAGCACAGCAGATTTCTGAAGATATCATAGAACTGCATAAAGCAATTGACGCCAAAACAATAGAAGAAAATATCAATACACTCTCCGGTCAGCTGGAATTATTGGTGGATATTGTCAATAACCTTAAAATTGAAGATACTTCCCAGTCTACCCAGATTATTGAAAACATCTCTTTGATCTTTGCAAGACTCAATCAGGAAAGACTGGAACTCAGCAAAAGGAAAAGAGAGATTTCAGGAAAGGAACTGGCATCAGATTTCCAGGCTCAGATTACGTTATTTGACCAGTCTGTGATCAACTTTCTGGAACTTTCACAAACTCCTGAGAAATGTGATGAATATCTCACCAAACTTTCCATCCAGCTGGAAGAGATGGAAACGAAATTTATTGATTTCGAAGAATTTATCCAGCAGATCGGAACCAAAAGAGAAGAAGTTTACGGACACTTTCAGAATAAAAGAGTACAGCTTACAGAAGCAAGAAATAAAAGAACTCAAAGTCTCTTTGAGGGAGCACAGAGAATTCTGAAATCTATACAGACCAAAGCAGAATCTTTTGACTCTGAGAATGATATTAATGGCTATTTTGCAGCCGATTTGATGGTGGAGAAAGTGAGAGATCTTTCAAGGCAGCTTTCGGATTTGGAAGATTCGGCAAAGTCAGAAGAGATTCAGACCCTGTTAAAAACATTACAGCAGGAAGCGGTAAGGAAACTGAAAGATAAAAAAGAGATCTATGCAGACGGAGAAAGCGTTATTGCATTGGGAGACTATAAATTTGCAGTCAACCAACAGCCGCTGGAGCTTACTCTGGTATTAAGAAATGCTCAGTATTATTATCACCTTACGGGAACAAGCTTTTATGAGCCTCTGAACTTTACAGCAGATGAATTCAAAGAAGTCTGGAATCAGGAATTTATTTCAGAAAACAACAAGGTAAAAAGATTTGAATACCTTGCCTGGAATGTATTTTTAACTCATAAGGAAATTACCTCAGAACAGCAGAACGCAGAAGCCGTGCAGCAATTTACTGCTGAACACTTCGGAGAAGGGCTCGTAAAGGGAATTCATGATAAAGACGCTGAAATAGTGGTGCTGAAACTTCAGCAGATCTACAATGAACTGGGACTGATGAGGTTTACTGCACAGGAGAGAGCCTTAGCTCAGCTTTTCTGGTTTTTCCTGGAAACTGAAAGAAAGGAATATTACAGCAAACAGTTTGAAGCAGCAGCCATTATTGACCAATCATTCACTGTAAAACAGGGGTTTGGATACTTAAGCAGAGAACTTTCGGAAGACATGAAATCTTTTGCATCAGATCATAGTATTTTTCAGGAGACAGATTGTATCAATGCAGCCATCTATCTGAAAAAAGAAAACAAAGAAAGTTTCCTGATCTCAGAAAAAGCAGCCGTTTTGTATGAACTGTTCCTGAAAGAGCTGAAAGAAAAAGGAAAAGATCTCGAATTTATTGCTCAGTTACAGGCTATGTATCAGTATCCTTCTGCATGTTATTATATTGCTGAAAGTGCATTACAGGCACTTGACCCCATGGCTGATCAAAATATCATACAGGAAGCTGCAGCATATATCATTACCCAGAAGTTTGATCCTAAAAATATCAAACACATTACTTATGAAATAGAAATAAAAGAACTAAAGTCTCTTGAAAAGGATACGGAATATCATCTTAGCTACTTTGAGTTTGTATCCCGGCTGAATTATTTTAATACCGTTACAGTCCCTAAATACAAACGGCTTCAGGAATTGAAATACAGCTGGGTAGACGAAAAGAAAAAAGCCCTGAAGCTGGATACTTTCAAACCGCAGGTATTGAGTTCATTTGTAAGAAATAAACTGATCAATGATGTCTATTTTCCTCTCATCGGAGCCAATCTTGCCAAGCAGCTGGGAACAGCAGGCACAGATAAAAGAACAGACAGAATGGGAATGCTTCTTCTGGTATCTCCACCGGGATACGGAAAAACAACCCTGATGGAATATATGGCAGAAAGAATGGGGCTGGTATTTATGAAGATCAACGGACCTTCGCTAGGATATGATATTGTATCAACAGACCCTTCCGAGGCCAGAAATGCAGGAGCCAGACAGGAATTGGAAAAACTGAATCTTGCATTTGAAATGGGCGATAATGTTATGCTTTATCTTGATGATATACAGCATTGTAATCCTGAGTTTCTGCAGAAGTTCATCTCTCTTGCAGACGGGCAGAGAAAAATTGAAGGAATATACAATGGAGAAACTAAAACATATGACCTCAGGTCCAAAAGATTCTGCCTGATAATGGCAGGAAATCCATATACGGAGAGTGGGGAAAAGTTTAAAATTCCTGACATGTTGGCCAACCGTTCAGATACATACAACCTGGGAGAAATATCTGGATCAAAAACAGATCTTTTTGACCTGAGTCTTATTGAAAATGCACTGATGTCTAACGAACATCTGACCAGGCTGACGAATCCGGGAATAGAAAATCTGTATGAACTCTACAACTGTGTAATTACAGATAACCCTGCCGATAACCTGAAAGGAAATTTCAGTTCCAGTGAAATATCAGATTTCAGAGAAGTGCTGAAAAATACCATCAGGGTAAGAAATATGGTGCTCAAGGTGAATAAAGAATATATTGCTTCCGCAGCCATGTCAGACGATTACAGAAATGAACCGCCGTTTAAGCTGCAGGGGTCTTACCGTAATATGAACAAGCTGATTGCACAGATGCAGCCGATCCTGAAAGACAGTGAAGTTACTCAGATTGTGCTGGATCACTATCAGAATGAATCCCAGACACTGACAACCGGAGCAGAAGCCAATATGCTTAAACTAAAAGAACTGATAGGAATGCTTTCGGAAGAAGAAACAGAACGCTGGAATGAAATAAAGAAAACCTTTGTTAAAAATAAAACCTTAAAGGGACTGGGTGAAAATGACAGAATGTCACAGATTGTAGCACTGCTTGCTCAGTTTGGTGACGGACTGGAAGGAATCAAAGAAGCCCTTAAAAAATCAGAACAATAA	MSEQLNSGTYEIIQNRLNEQKNDLIQRLQQLNESRKNIFGGVDFSLVANERISTEHSCIAKDIYSLGDHLIFGSNAHLGLQTEIHISDVFSIYTINNNRFEPQDHTLINDEVFTEEFKNLYKYYRNTFFARFTFTENYLYMVFQLSESTTDIKAFKWLIKDNQLIYVDSRSASETSYPQQHGFAWTKATRDMQRSGKHPHISLADKVFVESIGGDITIKVEDNTDTGKGIYSEEVIHKDQNLDDAEIYFCDLDNLVLFKIKPYQETERYFIYNHKEKTVSRADALKYSGLLLPENQGVLFSNGYALQTGGLKVISQDQSRLYYLKTFAEPNGENFLYVFYDDKNNNYQLISYNIITQTIETPIRCSGFTFLHDGKLIYLRESIETTKNHLAQIWQTPFSKELLPNTEKADSLIYKIGNKDIVRVMAESQELITLLNKKDSYSGLYNDIVKLSTFILDTYYFLGEDEVQKLDIPLKEIRAIAHSAINEYEKVVEQKKNTEEALEKIKQSCEKILADTKRLHYSQLTEYIDALSQIRALRGEVTGARELKYADSALLDSLQASLADRYTELSNACVEFLLQEGALLPYEERAQQISEDIIELHKAIDAKTIEENINTLSGQLELLVDIVNNLKIEDTSQSTQIIENISLIFARLNQERLELSKRKREISGKELASDFQAQITLFDQSVINFLELSQTPEKCDEYLTKLSIQLEEMETKFIDFEEFIQQIGTKREEVYGHFQNKRVQLTEARNKRTQSLFEGAQRILKSIQTKAESFDSENDINGYFAADLMVEKVRDLSRQLSDLEDSAKSEEIQTLLKTLQQEAVRKLKDKKEIYADGESVIALGDYKFAVNQQPLELTLVLRNAQYYYHLTGTSFYEPLNFTADEFKEVWNQEFISENNKVKRFEYLAWNVFLTHKEITSEQQNAEAVQQFTAEHFGEGLVKGIHDKDAEIVVLKLQQIYNELGLMRFTAQERALAQLFWFFLETERKEYYSKQFEAAAIIDQSFTVKQGFGYLSRELSEDMKSFASDHSIFQETDCINAAIYLKKENKESFLISEKAAVLYELFLKELKEKGKDLEFIAQLQAMYQYPSACYYIAESALQALDPMADQNIIQEAAAYIITQKFDPKNIKHITYEIEIKELKSLEKDTEYHLSYFEFVSRLNYFNTVTVPKYKRLQELKYSWVDEKKKALKLDTFKPQVLSSFVRNKLINDVYFPLIGANLAKQLGTAGTDKRTDRMGMLLLVSPPGYGKTTLMEYMAERMGLVFMKINGPSLGYDIVSTDPSEARNAGARQELEKLNLAFEMGDNVMLYLDDIQHCNPEFLQKFISLADGQRKIEGIYNGETKTYDLRSKRFCLIMAGNPYTESGEKFKIPDMLANRSDTYNLGEISGSKTDLFDLSLIENALMSNEHLTRLTNPGIENLYELYNCVITDNPADNLKGNFSSSEISDFREVLKNTIRVRNMVLKVNKEYIASAAMSDDYRNEPPFKLQGSYRNMNKLIAQMQPILKDSEVTQIVLDHYQNESQTLTTGAEANMLKLKELIGMLSEEETERWNEIKKTFVKNKTLKGLGENDRMSQIVALLAQFGDGLEGIKEALKKSEQ				NA	NA	NA	NA	NA
BMS003_00402	117			hypothetical protein	ATGGAGTATTTAATTTTGGATACAGATACAGAAGTATACAATATTATGGGTACAGATTTTTTTATTGAATTAATTGTATCTCCCAAGGTTATACAGACTTCATACATTTTCTCGTAA	MEYLILDTDTEVYNIMGTDFFIELIVSPKVIQTSYIFS				NA	NA	NA	NA	NA
BMS003_00403	369			hypothetical protein	ATGGAAACAATTATTCAACATCAGAAACAGTTTCAATATGCTGAAGCTTACATATCAGACATGTTGGTGCTGAAAAATATTTTTCTGGAAACACAGAACCTGAAGATAGCAGACCAAAATTTCGGACTTCCTTTTCTTTTGGCTAAAAGTGGAGAAGAAGCTGTAGCTTTTGCCAGCCTTATCGTGAATGAACAAGAAGAGATCTCTTTTAAAATCTATGATAAAAACAGAATGGCAGAAGCTGAAAAGAAAAATTTCTTTTTCCGTGCTGAAAGATATTTTAAAAATAATAATACCCCCAATTTCAAGAATCCGGAACAGTTAAAAAGCAGTATCAGCAGTATGATCAGCTGGCTGAATCCTGAATAA	METIIQHQKQFQYAEAYISDMLVLKNIFLETQNLKIADQNFGLPFLLAKSGEEAVAFASLIVNEQEEISFKIYDKNRMAEAEKKNFFFRAERYFKNNNTPNFKNPEQLKSSISSMISWLNPE				NA	NA	NA	NA	NA
BMS003_00404	1416	dapL		LL-diaminopimelate aminotransferase	ATGTCTAAAGATGTTCTGTACCTTAAAATAGCCAACTCTGTCACAGAGCAGATTAAAAGTGAAACCCTTCAGTTTGGAGACAGGCTGCCTTCATTGAGAAGTGCCCAAAAGTTATACAATGTCAGTCTGAATACCATAAAACAGGCTTATATGGAGCTGGAAAGCCGTTCCCTGGTAGAGTCACGCCCAAAATACGGATATTATGTAAGCCAGACTTCCCAGCGAAAACTGGCGCTGCCTTCTGTAGCTCAGATGAAGGTTTCAGAGGGGAAAAATACTCCTCAGGATTTGATTGATAAAGTATTCGGGAGTATCGGAGGGACAGATGTAACACAATTTGCGCTTGGGATTCCGGGGAAAAGTCTTCTTCCGGTAGCCAAGATGAAGAAGTGCATGATTGATGTAATGAAAAGGAAAAGTGACAGCGGAACCAATTACGAACCTGTACAGGGAAGCGAAGTGCTGCGTCGGGAAATTGCCAAATGGTCAATGGTCATGGAAGGGAAAATTACAGAAGATGATCTGGTCATTACTTCAGGAGCAATGAATGCCGTTTATAACTGTTTAATGGCTGTTACACAACCGGGAGATTCGGTGGCCGTGGAAAGTCCGGTGTATTTTGGAATTCTGCAGGCCATTCAGTTATTGGGATTAAAGGCTGTGGAAATTCCTACACATCCTATTACAGGAGTGGATCTGGATGCTCTAAAGAAAGTGCTTCCCAAGCTCTCTGCATGTTGTTTTGTGGTGAACTATAATAATCCATTAGGGTTTCAAATGCCTGATGAAAACAAAAAAGAGCTGGTGAAAATGCTTACCGAGCACAATGTTCCTCTGGTGGAAGATGATGTCTACGGAAACATTTATTTCGGAGCAGGAAGACCGAAACCGTGTAAGTTTTATGATGAAGCAGGAATTGTGATGTGGGTAGGCTCGGTTTCCAAAACGTTGGCTCCAGGATTTAGAGTAGGATGGGTAGCACCGGGAAAATTTAAAGAGAAAATTATCCGCCAAAAATTGGTTCAGACGGTAAGCGGTCCTTCTTTATTTTCAGATGTGATTGCAGATTTCCTTGCTCACGGGCGCTATGATCATCATTTGAGAATGTTCAGAAAAAAGCTGTACGCCAACTACCTTCAGATCCAAAAGTCCGTGATTGAATATTTTCCGGATAATACCAAAATTTCAGAACCCAAAGGCGGTTTTATGCTCTGGCTGGAACTGGATAAGCGGATCTGTACTGAAGATCTTTATGATTTGGCTGTCAGTCAGAAAGTAAACTTTGCCCCGGGAAGGATGTTTTCACAATACAATCAGTATCAGAACTGTATGCGTCTGAATTATGCATTAGAATGGACAGACAGAGTGGAAAGCGATCTGGAAAAGCTGGGAAAAATGATAAAAAACAGAATTTAA	MSKDVLYLKIANSVTEQIKSETLQFGDRLPSLRSAQKLYNVSLNTIKQAYMELESRSLVESRPKYGYYVSQTSQRKLALPSVAQMKVSEGKNTPQDLIDKVFGSIGGTDVTQFALGIPGKSLLPVAKMKKCMIDVMKRKSDSGTNYEPVQGSEVLRREIAKWSMVMEGKITEDDLVITSGAMNAVYNCLMAVTQPGDSVAVESPVYFGILQAIQLLGLKAVEIPTHPITGVDLDALKKVLPKLSACCFVVNYNNPLGFQMPDENKKELVKMLTEHNVPLVEDDVYGNIYFGAGRPKPCKFYDEAGIVMWVGSVSKTLAPGFRVGWVAPGKFKEKIIRQKLVQTVSGPSLFSDVIADFLAHGRYDHHLRMFRKKLYANYLQIQKSVIEYFPDNTKISEPKGGFMLWLELDKRICTEDLYDLAVSQKVNFAPGRMFSQYNQYQNCMRLNYALEWTDRVESDLEKLGKMIKNRI				NA	NA	NA	NA	NA
BMS003_00405	486			hypothetical protein	ATGAATGATAATAAGAATGAAGTAAAAATTATAGCTTATGAACCTCAGTATAAAGAAGTATTCAAAGCTTTGAATGAAGAATGGATCAAAACATTTTTTATGATGGAAGCAGGAGATTATAAGCTGCTGGATCACCCGGAAGAAGAAATTTTAAATAAAGGCGGACATATAGCCTTTGCTTTGCTGGATGGAGAAGTTGTAGGAACCTGTGCATTAGTAAAAACAGAGGATAATCCCCTTACTTTTGAGCTGTCTAAAATGGCGGTAAGCCCTAAAGCACAAGGAAAAAAATTGGGCTACCTGCTGGGAAATGCTTTAGTGGAAAAAGCGAAAGAATTAAATGCAGAAAAAGTGTTTTTAGTTACCAATTCTATTCTGGTTCCAGCCATTAAACTTTATGAAAAGCTGGGCTTTATTCATACACCTATCGGTCATGCTGAGTACGACCGTGCAGATGTTAGAATGGAGTTGATTTTCAATATATAA	MNDNKNEVKIIAYEPQYKEVFKALNEEWIKTFFMMEAGDYKLLDHPEEEILNKGGHIAFALLDGEVVGTCALVKTEDNPLTFELSKMAVSPKAQGKKLGYLLGNALVEKAKELNAEKVFLVTNSILVPAIKLYEKLGFIHTPIGHAEYDRADVRMELIFNI	PGPT0021220_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS003_00406	1854			hypothetical protein	ATGAAAACAAAACTATTCTCAATGGCTGTTGTCATGAGCTGTTTCCTTGGAGCTCAGACCAAAAAAGTTCTTTTTATCGGTATTGACGGATGTCGTGCAGATGTGATGATGTCTACCCCTACGCCCAACATTCAAAACCTCATCAGTCAGTCTATTTATTCTATTGACGGGCTTTGCGCTGCCACTACCTGGAGCGGAAACGGATGGAGCACCATGCTTACCGGCGTATGGCATACCAAGCACAATGTTCAGGACAATAATTTTACCAACCCGAACTATATTAATTATCCTGATTTTTTAACAAGAGCAGAGACCTATAATCCCGCTCTAAGAACCATTTCTCTGGCTCATTGGTCACCTATCAACGACAAGATTATCCAAACAGCTGATGTAAAAACGAATCTGGCAACGGATCTTGCTGTAAAAAATGCTGCTGTTATGGCTTTACAGAATGATAATCCGGATATTCTCTTTGTAGATTTCGATGATGTAGATCATGCCGGACATTCTTATGGATTTTCATCCACTGTTTCTCAATATGTAAATTCTATTAAGGCCACAGATACGTATATTGGTGAAATTGTGACGGCAATGAAAAACAGGCCTTCTTATAACAATGAAGACTGGTTGGTAGTATTAACTACAGATCACGGAGCTATTGAAAGCTCTCATGGAGGTGGAAATCTTACAGAGAGAAATATTTTTACAGTGTATTCCAATCCAGGATTTACTCCACAACAGATCAGTAAAACGGTTTTGGAATCCAATAAAACCTTTAATCAATTGAATTTTCCTGCCGGGACTTATGCAAAGCCGACAAACCAGACTCCTTTTAATTTTGGAGCCAATCAGGATTTTACGATTGAATTTTGGGTAAAACCTAACGCATCCTATTCCAGTGATCCGGTGATGATCAGTAATAAAAACTGGGCGAATGGAAAAAATAAAGGATTTGTTTTTTCAGGATATTCAGGACAGACTTTTAAAATGAATATTGGCGATGGCACTAACAGAATTGATCTTGTGGGTGGAAAAGTAGAGACCAATAAATGGAAGCATATTGCTGCAAGCTTTGACAGAGATGGCCTTGTAACGCTATACGAAGATGGTGTTCCGGTAACTTTTGCTAAAATGAATACCATCGGAAATATTGATTCCGGGCTTCCTTTGACCTTAAATCAGGATGGAACAAATGCTTACGGAATCAATCTGGCAGCTTCATATAAAGATGTGAGAATCTGGAAATCTGCTCTTCCCAACGATGTGATTGTAAATTGGGCTAACCAGGATATTACACCTTCCCATCCTTATTATACTCAGCTGGTAGCGAATTGGAAATGTGATGGAACTTCAGGAAATACCTTGACAGATTCCAGCCCGAACGCCAATAACATGGTGGTAACAGGTTCTCCTACTTATAATGCGGGTACAGTGAATAACTTTAAAGTGTATGATTATACCTCAACAACAAGAGAAACAGATCACTTCCCTACGGTATTAAACTGGCTTTGTATTCCGGTGCAGTCTTCATGGGGAATTGATGGAGTTAACAGAATTCCGGAATGCTCCAAAGAAGTATTGACTGCAAAAGAAGTGAGAGTAACTGCTGACGATTTTAAAATATACCCGAATCCTGTTTCAGCATTCATTGAAATACAGTATACATCTGAGGATAAGGAAATTAAAGCAGAAATCATTGACAGTAAAGGAGCTCTTGTTTCCACATCACACTTTCAGTCTTCAAGAGGTTTTTATGATGAAAAAATAAACATTGGAAACCTTCCGGCCGGACTGTATTTCATTAAAATCAATGGAAGTAAAAATTCAATGACCAAGACATTTATCAAGAAATAA	MKTKLFSMAVVMSCFLGAQTKKVLFIGIDGCRADVMMSTPTPNIQNLISQSIYSIDGLCAATTWSGNGWSTMLTGVWHTKHNVQDNNFTNPNYINYPDFLTRAETYNPALRTISLAHWSPINDKIIQTADVKTNLATDLAVKNAAVMALQNDNPDILFVDFDDVDHAGHSYGFSSTVSQYVNSIKATDTYIGEIVTAMKNRPSYNNEDWLVVLTTDHGAIESSHGGGNLTERNIFTVYSNPGFTPQQISKTVLESNKTFNQLNFPAGTYAKPTNQTPFNFGANQDFTIEFWVKPNASYSSDPVMISNKNWANGKNKGFVFSGYSGQTFKMNIGDGTNRIDLVGGKVETNKWKHIAASFDRDGLVTLYEDGVPVTFAKMNTIGNIDSGLPLTLNQDGTNAYGINLAASYKDVRIWKSALPNDVIVNWANQDITPSHPYYTQLVANWKCDGTSGNTLTDSSPNANNMVVTGSPTYNAGTVNNFKVYDYTSTTRETDHFPTVLNWLCIPVQSSWGIDGVNRIPECSKEVLTAKEVRVTADDFKIYPNPVSAFIEIQYTSEDKEIKAEIIDSKGALVSTSHFQSSRGFYDEKINIGNLPAGLYFIKINGSKNSMTKTFIKK				NA	NA	NA	NA	NA
BMS003_00407	669	phnX		Phosphonoacetaldehyde hydrolase	ATGAAAAATATAGAATTACTGGTTCTGGATATGGCAGGAACAACGATTGATGAGGATAATGTAGTTTACAAAACACTTACTAATGCTGTGAATGATTACGGCTATGTAGTAAGCCTGGAAAAAGTATTATCCAGCTGTGCCGGAATGGAGAAACTGGAAGCTATCACAAGTCTTTTAAAGGAAATCAATGGGAACGAAGAGGATGCTCCTGCTATTTTTGAGAATTTTTCTGACCAGCTGAAAGAATCTTATCAAAATCTGGATGTAAAACCCATCAACGGAACGGAAGATTTCTTATTGAATATGAAAGCTCAAAACAAGAAAATTGTTTTAAATACAGGCTATACCTCAGAAATTGCCCATCAGCTTTTAAATAAACTGAACTGGAAAGAAAGTATTCATTTTGATGCTTTGATTACAGCGGATGATGTTTCAGAAAGCCGTCCAAGTCCTGAAATGATTCATCTTGCGATGAAGAAATTCAATATTACGGAAGCTAATAAAGTCTTAAAGGCAGGTGATTCTGTGATTGATATTGAAGAGGGCAAAAATGCAGGCTGCGGACTGACGGTAGCTGTTCTTTCCGGAGCTCAGAGTAAATCAGAGCTTGAAAAAGCATCTCCTGATTATATTCTGAATACGATTTCTGAAGCTGAAGGAATCCTTTAA	MKNIELLVLDMAGTTIDEDNVVYKTLTNAVNDYGYVVSLEKVLSSCAGMEKLEAITSLLKEINGNEEDAPAIFENFSDQLKESYQNLDVKPINGTEDFLLNMKAQNKKIVLNTGYTSEIAHQLLNKLNWKESIHFDALITADDVSESRPSPEMIHLAMKKFNITEANKVLKAGDSVIDIEEGKNAGCGLTVAVLSGAQSKSELEKASPDYILNTISEAEGIL				NA	NA	NA	NA	NA
BMS003_00408	1155	dadA_1		D-amino acid dehydrogenase	ATGACAACAAAATTTGATTTACTCGTTGTAGGAGGTGGAATTTTAGGAACATTCCATGCTTATCATGCGCTGAAGAAAAATCTTAAAGTAGCTTTACTGGAAAGAAATTCTGTTCCTCAGGGTGCCACCGTAAGGAATTTCGGACAGGTAGTGCCTTCCGGAATGGATCTTAAATGGCAGAATTTCGGAAGAGAAAGCCTTGCTATATACCATGAACTTCACGATCAGGCAGATCTTACCATCAGGCAAAACGGTTCCATCTACATTGCTTCAAATGACGAAGAGCTTCAGCTGATTGAAGAACTTTTTGAAATCAACAGAAACAATGATTATGAATCTGTTTTATTATCTAAAAACGACTGCATCAAAAAATTTGACGGTCTTCGCTCGGATTATTGCAAAGGAGGTTTGTTTTTCCCACAGGAACTTTCGGTAGATTCTGCAGAGATGATTGTAAAGCTTCACAAGCTGCTTCAGGAAAAAATGGACTTGCAGATTTTCTACAATACAACAGTTCTTGAAACCCATGAAGATGATCAGAAATGTACAGCTGTTACCGCTGACGGAACGCAATTTAATGCTTCCAAAATCATGATCTGCGGGGGACACGAGTTTAAAACTTTATACCCTAAAGTATTCAATGACAGCGATCTGGAAGTAAGTAAACTACAGATGCTCCAAACAAAACCTCAGGGAATTTATTCACTTCAGGGAAATATCCTTACAGGGCTTTCCGTGCGAAGATATGAATCCTTTAGTGAGTGTCCTTCTTTCCGGAAAATCAAAGCTTTAGAAGATCCCAATTCATTTGAGAAGAAATACGGAGTTCATATTTTATTCAAACAGGCTCTTGACGGCTCTGTCATCATAGGTGATTCTCATGAATATGCGGATGCCAAAAATGCAGATGATCTTGGATATGATCTTAATATGGAGATTGATGAATTCATGATTCATGAGGCTAAGAAAATTATTGATCTTCCTACGTATGAAATTCAGAGAAGATGGTTCGGGATCTATTCCCAGTGCAAAACGAAAGATATTTTTGAGCACAGCCCATCTGCCAATATTCATATTGTAACGGGTATCGGAGGAAAAGGAATGACGGGAAGCGGTGGCTTTTCCAAATTTAATATTGAAAAAATTTACGCATAA	MTTKFDLLVVGGGILGTFHAYHALKKNLKVALLERNSVPQGATVRNFGQVVPSGMDLKWQNFGRESLAIYHELHDQADLTIRQNGSIYIASNDEELQLIEELFEINRNNDYESVLLSKNDCIKKFDGLRSDYCKGGLFFPQELSVDSAEMIVKLHKLLQEKMDLQIFYNTTVLETHEDDQKCTAVTADGTQFNASKIMICGGHEFKTLYPKVFNDSDLEVSKLQMLQTKPQGIYSLQGNILTGLSVRRYESFSECPSFRKIKALEDPNSFEKKYGVHILFKQALDGSVIIGDSHEYADAKNADDLGYDLNMEIDEFMIHEAKKIIDLPTYEIQRRWFGIYSQCKTKDIFEHSPSANIHIVTGIGGKGMTGSGGFSKFNIEKIYA	PGPT0020390_235	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061	NA	NA
BMS003_00409	1293			hypothetical protein	ATGGCCAGAACCATCAATAAAAAAACACTGGTAACACTGAAGGCTGCTTTTGCTGCTTTCGGTGTTTACTTCTGCATGTACGGTTTCAGGAAACCTTTTACTGTAGCTTCTTTCGAAGGACTTTCCTATTTCGGGGTAGATTATAAGATTCTGATTATCATTGCACAGGCTGTAGGATATTTTATCTCAAAATTCATTGGGATCAAGTTTATTTCCGAGCTGAAACCTCAGAAAAGGATCAGTTATCTTTTTACTTTCATTGCTGTTGCAGAGCTTGCCTTGTTAGGATTTGCAGCCGTTCCTGCTCCTTACAATATTCTTTTTATGTTCATCAACGGTATTCCGTTAGGAATGATCTGGGGAATTGTTTTCTCTTATATTGAAGGACGTAAAACCACAGAAATCATTGGACTTTTTCTATGTTCAAGCTTTGTAGTTTCTTCAGGGTTTACAAAATCTGTAGGGAAATTTTTAATGGATACTTTTTCCATTTCAGAATTCTGGATGCCTTTTTCAGCCGGACTTGTTTTCATGATTCCCCTGATTCTTTTCGGATTACTTCTTGAGAGAATTCCCAAACCTTCGGAAGAAGATATTTTGCTTAAAAACAAGAGACAACCGTTGAATGGCTCAGAAAGAAAAGCCCTTATTCAGAAGTTCTTTATTCCAATCGTTTGTATCATCTTTTTGTATATCAGCTTAACGGTTTTAAGGGATTTCAGAGATAATTTTAACCGTGAGATCTGGGACGGATTGCATTTTACTTTTGACAGCTCTATTTTCACTTTAACAGAAATTCCTATTGCAGTAATGGTTCTGGTAATTTTAAGCTTTATGGTAAAAGTCAAAAACAATAAAAAGGCATTTGCTTATTATCATTACATCCTTTTTGCAGGTATTCTTACCGTAGGCCTTTCTACATACCTTTTTCAGCAGGGTATTTTATCTCCTTTTTTATGGATGACTGTTTCCGGTTTTGGAATGTATATCTGCTATATTCCTTTCAATGGAATTTATTTTGACCGGATGATTGCCGCTTTTGAAATCAAGGGAAATGTTGGCTTCCTCATCTATATTGTAGATTTTTTCGGTTATCTGGGAAGTGTGCTGATTCTTCTGTATAAAAACTTTGGCTCCGCCCAGACTTCCTGGTTACATTTTTATATCAACTTAAATTATATCATCACCATTATCGTTTTTGTTCTTTCGGTGATTGCTTTTCTGGCTTTCAGAAAAAAGTCAAAATCTAAATCTAATCAATTCATCAATTTCGATACATCGAAAATTTTATAA	MARTINKKTLVTLKAAFAAFGVYFCMYGFRKPFTVASFEGLSYFGVDYKILIIIAQAVGYFISKFIGIKFISELKPQKRISYLFTFIAVAELALLGFAAVPAPYNILFMFINGIPLGMIWGIVFSYIEGRKTTEIIGLFLCSSFVVSSGFTKSVGKFLMDTFSISEFWMPFSAGLVFMIPLILFGLLLERIPKPSEEDILLKNKRQPLNGSERKALIQKFFIPIVCIIFLYISLTVLRDFRDNFNREIWDGLHFTFDSSIFTLTEIPIAVMVLVILSFMVKVKNNKKAFAYYHYILFAGILTVGLSTYLFQQGILSPFLWMTVSGFGMYICYIPFNGIYFDRMIAAFEIKGNVGFLIYIVDFFGYLGSVLILLYKNFGSAQTSWLHFYINLNYIITIIVFVLSVIAFLAFRKKSKSKSNQFINFDTSKIL				NA	NA	NA	NA	NA
BMS003_00410	2859	btuB_3		Vitamin B12 transporter BtuB	GTGATTTGCATAAAAAATTTAATATATGTAAAAATGAAAACAAATTTAGAGAAATTACTTACCCTTGTTTTTGTCTGTTTCATGGTCTTTGTTTCAGCGCAAAAACAGTTAATTATAGGAACTGTTCTTGACGACAGTCAGCCTCTCCCCGGAGCCACAGTCAAAATAAAAGGCTTATCTAAAAATATAACGACTGATATTGAAGGTAAATTTACGATCAACGATATTAAAGAAGGTCAATACATATTACAAATCAGCTATATAGGTTATGAACCTTCAGATATTAATGTTGATATTAAACAGGAACAAACGGTTGATTTAGGAATCATTAAACTTTCCCAGCCCCGAAAAAATATTGATGAAGTAGTAGTAACCGGAACATTAAAAAATACAGAAGCAAGGGCTTTAAACCTTCAAAAAAATGCCATCAATATTACCAATGTAATTGCCTCAGATGGAATTGGGAAATTGCCGGACAGAAATGCAGCAGAGACCGTACAGCGTGTACAGGGAGTTTCTATTGAAAGAGACCAGGGAGAAGGAAGATTTGTTTCCCTGAGAGGACTTCCCCCATTCTGGGCATCTACAACCATCAATGGAAACAGACTTCCCACTGCCGAGGAAGAAACGACTTCCAGAGCTACAGCATTCGACTTCTTTCCTACGGAACTGATCTCCTATGTACATGTAAATAAATCATTTACCCCAGATATGGAAGCAGACGGAATAGGTGGCGGTGTCAATTTTATTACCAAAACGCCACCGATGAAAACAGAGTTCAAAGCCACTGTGGGAAGCGGCTATAATGCTAAGTCTGATAAAGGAGTTTACAACCTTGGATTTTTGTATGGAGGAAGAACGAAAGATAAAAAATTTGGGTATTTATTCAATTTTGCCCACTTCATAAGAAACTGGTCTACAGATAATTTTGAGGCGAGAAGAAGTGGTGATGAAGGAGTTTTCAGGCTGGAGCTTCGTGATTATAACGGGGTAAGAAAAACAACAGGAATCAATACCGCTTTTGAATATGTACTCTCTCCCAAAACTACATTTTATTTAAAAGGAATGTATGGTACCTTATCAGATGACGAAACGCATTATAAACACAGAATCCGATTTGATAAATTCAGCAGTGCAAACAATACAGCAAGAGTTGAGCTTCAGAATATTCACAATTTACTGATTACGGAACTTACTTCTGTTTCTTTGGGAGCTGTTCATCAATTAAATAAAGGAAAAATCGACTGGGATTTATCTTATTATGACAACCAATTCAAGTATGGAAATATTCCTGACAAACAGAACAATTCTTACTATGTGATCAAGTACACTCAATCTGGTGTAGGCATCAATCCTGATTATATTTCAGATCATGGAAATGGCCCGAGAGCCTATTGGAAAGCAGATGGAGGGAAATTAGATTATAAAAATCCGGATGCTTTATTCGGTTTTTACAGTGACCCGAATTTTAAAATGGATGCTTCTCAGATGAGATTTACAGATCTTGAATTCTATAAGGTATTTGTAGAAGAAAAGGATAAGATTGTAGCAGCATTCAATCACGAAATTAATGCTTCTGATAAACTGACCTTAAAATATGGTTTTAAATACAGAGATAAGGAACGTAATGCAAGATTCTCTGATATTTTCTACAACTGGAGCAGTGGAACAGCGCCTCTTCTGTCTGATTTTTCTCAATATATCACAACACAACCTAATGGTTCAAAGTATTTAAGTGAAATGAATACTCATATCGGTAATACTTTTGGTCCGGTACTTTCTACTACAGGTATGAACCAGTTCTGGTATGACAACCAGGGAAATCTTAAAATCAATACTGCTGATTCTGAAGCGCTTGAATATAATAAAGCTTTAGGAAGAAACTTTGACGTGTTCGAAAAACATGCAGACGCCTATGGAATGGCAACGTATAAACTGAATGATAAGATCATCATTTTAGGAGGAATCAGGTTATCAAATACCAATACCAAAGTGAAAGGTTACAGCGTAAATGATGATGTACTGACACCGGTAGAAAATACAAAAAACTATCTGGCCGTTCTTCCGATGATTCACTTAAAATATACATTAAATGATAAAACCAATCTTCGTTTTGCTGCAACAAGAACGTTCTCAAGACCGAATTTTGGCGACCTTACTCCAGGTGGAACTTATATTGAAGCAGACAACGAGTTCAAAGGTGGAAACCCAAATCTTAATCCGACCTATTCTTTGAATTTTGATCTGATGGGAGAATATTATTTTTCCAATGTAGGGATTCTGAGTGGTGGAATTTTCTATAAATCCATTACAGATCCTATTTTCCAGGACTCATTTATTGGAAACTATAACGGAATTACAGGCGTGCAGTTTACAGCTCCTAATAACGGAAAAGCAGCATGGTTAGGAGGGATTGAATTGGGAATCAACAAAAGATTTGATTTTCTTCCGGGAATTTTACAGTACTTCGGAGTACAGTTGAATGCCACCTTCATGACTTCCGAAATGGAAAAACCAAGCGGAAGAAAAGTAGCCCTTCCCTATCAGGCAAAGGAGCTGTATAACGCACAATTATTCTTTGAGAAAAAAGGATTCAATGCAAGGCTTGCCTACAACTACAAAGGAAAATATGCTGTAGAATATGCTGAAGAGGATATCAATGATACTTATTATGGTAAATATAGCAATCTGGATTTCGGAGGATCTTATCAGTTTACCAAATACCTGACTTTGTATGCAGATGTGAACAATATTCTGAACAAACCTCTGATTTATCACTTCGGTAAAAACGAAGACCGCCCGGAACAGGTGGAATATTATGGAGTACGATTCAATCTTGGTGTAAAACTGAACTTCTAA	MICIKNLIYVKMKTNLEKLLTLVFVCFMVFVSAQKQLIIGTVLDDSQPLPGATVKIKGLSKNITTDIEGKFTINDIKEGQYILQISYIGYEPSDINVDIKQEQTVDLGIIKLSQPRKNIDEVVVTGTLKNTEARALNLQKNAINITNVIASDGIGKLPDRNAAETVQRVQGVSIERDQGEGRFVSLRGLPPFWASTTINGNRLPTAEEETTSRATAFDFFPTELISYVHVNKSFTPDMEADGIGGGVNFITKTPPMKTEFKATVGSGYNAKSDKGVYNLGFLYGGRTKDKKFGYLFNFAHFIRNWSTDNFEARRSGDEGVFRLELRDYNGVRKTTGINTAFEYVLSPKTTFYLKGMYGTLSDDETHYKHRIRFDKFSSANNTARVELQNIHNLLITELTSVSLGAVHQLNKGKIDWDLSYYDNQFKYGNIPDKQNNSYYVIKYTQSGVGINPDYISDHGNGPRAYWKADGGKLDYKNPDALFGFYSDPNFKMDASQMRFTDLEFYKVFVEEKDKIVAAFNHEINASDKLTLKYGFKYRDKERNARFSDIFYNWSSGTAPLLSDFSQYITTQPNGSKYLSEMNTHIGNTFGPVLSTTGMNQFWYDNQGNLKINTADSEALEYNKALGRNFDVFEKHADAYGMATYKLNDKIIILGGIRLSNTNTKVKGYSVNDDVLTPVENTKNYLAVLPMIHLKYTLNDKTNLRFAATRTFSRPNFGDLTPGGTYIEADNEFKGGNPNLNPTYSLNFDLMGEYYFSNVGILSGGIFYKSITDPIFQDSFIGNYNGITGVQFTAPNNGKAAWLGGIELGINKRFDFLPGILQYFGVQLNATFMTSEMEKPSGRKVALPYQAKELYNAQLFFEKKGFNARLAYNYKGKYAVEYAEEDINDTYYGKYSNLDFGGSYQFTKYLTLYADVNNILNKPLIYHFGKNEDRPEQVEYYGVRFNLGVKLNF				NA	NA	NA	NA	NA
BMS003_00411	570			hypothetical protein	ATGAATGACTTTTTAATAGGTATCGGCAAGAGATTAAAGGATATTAGAAAAAAGAATAATTTAACCATTAATGAACTGGCTTTCAAAGCAAACGTGAGCAACGGTTTGGTTTCCCGAATTGAAAACGGAAGGACAATTCCTTCACTTCCTGTTCTGTTAGACCTGATCCAGTCGCTTGAGATTGATGCCAGTTACTTTTTTGAAGGGGTTGAGAAAAAATCCAATGCCAAATTCATCTATGTTCCGAAAGAAAGCCAGCAAATTATAGAAAAGGAAGTAGAAGCTGAAGGATTCAGGTATATGCATATCTTTAGCAAGAGTCTTCATTCTTTAGGTTTCGAAGCTGTACTGCTGACTCTTGAACCTAATTCTAAAAGAGAGAAAGTCATTACAGATGCCTGGGAGTTCAAATACATCTTGAAAGGAGAGGTAAAATATGTAATTGATAACGAAGAAATCATTTTAAAAGAAGGAGATTCTCTTTATTTCAACGGTAAGTTTCCTCACGTTCCGGTAAGCATTAGTGATGAGAGTTGCGTGATGCTTGTTCTTTATTTTTATACGGCTTAA	MNDFLIGIGKRLKDIRKKNNLTINELAFKANVSNGLVSRIENGRTIPSLPVLLDLIQSLEIDASYFFEGVEKKSNAKFIYVPKESQQIIEKEVEAEGFRYMHIFSKSLHSLGFEAVLLTLEPNSKREKVITDAWEFKYILKGEVKYVIDNEEIILKEGDSLYFNGKFPHVPVSISDESCVMLVLYFYTA				NA	NA	NA	NA	NA
BMS003_00412	708	mprA_1		Response regulator MprA	ATGAAAAAAATTATTCTTATCGAAGACGAAACCAGTGTGGTATCCTTTATTAAAAAGGGGCTTCAGGAAAACGGGTATGAAATTTCTGTTGCTTTTGACGGGCGTACAGGAGTGCAGCTGGTACAGGCTAACGATTTTGATCTGGTAATTTTAGACATTATGCTTCCGGAAATGAACGGGCTGGATGTGTGTAAAGAAATAAGAAAAACCAATCAGAGTGTTCCTATTTTATTTCTGACTGCTTTGGGAACTTCGGAAAATATTGTTCTGGGACTGGAAAGCGGAGGAGATGATTATCTGGTGAAACCTTTTAAATTCATTGAGCTGGTAGCTCGTGTGAAGTCTTTGTTAAGAAGAAGCAATAATAATAGTCCGCAGGAAACCGCTGAACCGGAGCCGGATAATGAACATGTATTTCAGTTTTCGGACCTGACGGTGAATGATTATACCAAGAAAGTAACCCGTGCAGGAGAAGATATTTCTCTTACTTCTACAGAATATAAGCTCCTGCTGTATTTCTTAAATAACCCTGAAAAAGTGATTTCAAGAGCCGAAATTCTGGATGCCGTCTGGGGAGTAAACTATGAACTGGGAACCAATGTGGTAGATGTGTATGTGAATTATTTAAGAAAAAAGCTGGACAGCCAGGATGATAATAAATTGATTCATACAGTGATCGGAATGGGGTATGTGTTGAAAAAAACATAA	MKKIILIEDETSVVSFIKKGLQENGYEISVAFDGRTGVQLVQANDFDLVILDIMLPEMNGLDVCKEIRKTNQSVPILFLTALGTSENIVLGLESGGDDYLVKPFKFIELVARVKSLLRRSNNNSPQETAEPEPDNEHVFQFSDLTVNDYTKKVTRAGEDISLTSTEYKLLLYFLNNPEKVISRAEILDAVWGVNYELGTNVVDVYVNYLRKKLDSQDDNKLIHTVIGMGYVLKKT	PGPT0004105_94	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
BMS003_00413	1413	sasA_2		Adaptive-response sensory-kinase SasA	ATGTTTAATAAAGTCATTACAAATCAGACCAAAACGATGGTGCTTTTGATGTTGGTTTTTACCGCCATCATTTTGCTGTTCAGTGGTTTGGTGTACTTTTCTATCGTTAATTTTTCACATCAGAGGTTTTATGAACTGCTGAAGATCAGGACAGCAACAATTGTTCAGATCGAAAAAAGCAAAGACCATCTCGATCTTCCGGAAAACCATATTCTCAACAGCCTCAATGATGAGGAACTTCCGATGGAAAAAGACTATGTTTTTGCTGTTCCTGCTGATTCCAATTTTAAAAAAATATCTCATGAAGTACATATCCCTGATTATTTCTTTAAAAATATCATCAGAGAAGGAGAGTCTAATTATAATGATGAAGAGTTTTATTATATAGGGCAGAGCTTCAAGTATGATGACAAAGATTACATAGCCATAGCTTCTGCTAAAAACCATTATGTTATTTATTATCTCGGCTTTCTAAAAAGAACACTGCTTACCTGCATCGTACTATCGCTTTTCTTTAGTATGATTTTCTCTTTTTATCTGTCGAAAACTTTATTCAGACCGATCTTGAAAATTACAGGAAAAGTAAAGGAAATCAGCTCTGAAAATCTGCACTTAAGGCTTGAATCTCAGCCTGATAATAAGGAACTTAATGAGCTGGTGGATACCTTCAATGATATGCTCAACCGTATTGAAACCTCTTTCGAGACCCAGAATCACCTGATCGGAAACGTTTCCCACGAATTGAGAACTCCGCTTACATCTATTATGGGAGAAGCAGATGTAGCTCTTTCTATCAGCAGGACAGCCGATGAATACAAAGAAACTCTCGGAATCATTCTGGACGAAGCTGAAAAACTGGATAAAAAGATCAAGGCTTTATTAATGATTGCCCAAACCGGATTCGACGGGAAAATCCAGAAAATGGATAAGGTAAGAATCGATCAGCTGCTTTGGGACGTTATTGAAACCCTCAGAAGAATTGATTCCCGAAATAATATCTATCTTGATATCAGCATGCTTCCCGATAATCCGAAAAAGCTCAAAGTACAGGGGAATGAACAGCTGTTGCATCTTGCAGTGGCCAATATCATCAGTAATGGCTGTAAATATTCTAATTTCCAACAGGTTAAAGTCTCTTTGGGGGCTACCAATACGGATGTGTACATTATTGTAAAAGACAACGGGATCGGAATTCCGGAAGTAGAAATGAACAAAATCTATGATCCGTTCTTCAGAGCTTCGAATACTAATAATTACGAAGGCTACGGAATCGGACTTCCGCTGGCAAGAAATATTGTAAGAATGCATCACGGTGAACTGATGGTAAGCTCGCATGAAAATCAGGGAACAACAGTCCAGATGCGTTTTCCTAACTTCTACAGCACTCAAAAAGGTGAAGAAATAAACAGATAA	MFNKVITNQTKTMVLLMLVFTAIILLFSGLVYFSIVNFSHQRFYELLKIRTATIVQIEKSKDHLDLPENHILNSLNDEELPMEKDYVFAVPADSNFKKISHEVHIPDYFFKNIIREGESNYNDEEFYYIGQSFKYDDKDYIAIASAKNHYVIYYLGFLKRTLLTCIVLSLFFSMIFSFYLSKTLFRPILKITGKVKEISSENLHLRLESQPDNKELNELVDTFNDMLNRIETSFETQNHLIGNVSHELRTPLTSIMGEADVALSISRTADEYKETLGIILDEAEKLDKKIKALLMIAQTGFDGKIQKMDKVRIDQLLWDVIETLRRIDSRNNIYLDISMLPDNPKKLKVQGNEQLLHLAVANIISNGCKYSNFQQVKVSLGATNTDVYIIVKDNGIGIPEVEMNKIYDPFFRASNTNNYEGYGIGLPLARNIVRMHHGELMVSSHENQGTTVQMRFPNFYSTQKGEEINR	PGPT0004980_298	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
BMS003_00414	495			hypothetical protein	ATGACTAAAACAATTTTAATTGCAACAGATTACTCTCTTGAGTCATTGAATATATTGAAAAAAGTACTTAAAGAGAAAGATGCAGCCGAAGATCAGAACCAATATAATATCTTTCTGACATCCGGGTATGATTCCGGAGATTCCATCAGGGATCTTTTGTTCACAACCAAAACATCTGTTTTCAATAAAATCAGACCTGCAGAATTCTGTGATGCCTTTGGAATTATCAGTAATAAATATCCTCACCTGGTTAATAAAATCATCTGTGATGTTTTTACAGGAAGCTTCCAGAGAGCATTCAACCAGTATGTAAAGGCGGAAAATATTGAGGAAGCTTACTATTCTCCATCTATCAAAAGCAAAGGGAAAGGCAAATTTGATCTGATTCCTTATATCAAAAAATGCAAAGAACTGAAGTCTCATGAAATTACGGTCGAAGTAAGAGAAAGGCTTCCGGAAAGAGGAAAGCTGGCAGAGATCTTTGTTGAAGCCTAA	MTKTILIATDYSLESLNILKKVLKEKDAAEDQNQYNIFLTSGYDSGDSIRDLLFTTKTSVFNKIRPAEFCDAFGIISNKYPHLVNKIICDVFTGSFQRAFNQYVKAENIEEAYYSPSIKSKGKGKFDLIPYIKKCKELKSHEITVEVRERLPERGKLAEIFVEA				NA	NA	NA	NA	NA
BMS003_00415	828			hypothetical protein	ATGTTAAGAAATTATAGTAACAGCAGGACACTGGGAGACAATATCAGGTTGGGGACGCTGACTGCCTTCACGGCGGGTACTATAAACATTGCTTCCCTATTGATATTCCTCTCTTTTACATCAAACGTAACAGGACACTACGCTATTTTAGCGGCAGAGATCAGTAAAGGAAACTGGACGCAGGTAGGAGTGGTAGGAGGATGGATCTTCCTGTTCTTCTTCGGAAGCTTCCTGTCCAACTTTATTGTGATAAATTTTAATAAAAAAAGTAAATATTTTGCCCATGCCATGCCCATTGTGCTGGAAATCATATGCCTTCTGTTTGTAGGAGTATATGGGCAGTTCTATTATCAGAAAACATTAGAAGAAACAGAATACTTAGTGGCATTGATGCTTTTTGCTACCGGATTGCAAAACGGATTAACGGCAAGTATCTCCAACTTCTCGGTGAAAACTACCCACCTTACCGGAACAACCACTGACCTTGGGATCCTGGTATCCATGTTTACACAGAAAAAATACAGAAGAAACGGAGAACTTATTGGCAGAGCAAAACTGTTGATGAGCATTATGCTGGCATATGTAATGGGAGCGGTATTCTCAGGGCTTACTTACTACTATCTGGAGTTCAGGGTGTTTTATGTAATCAGTATCTGTCTTCTGATTGTCATTGGGTACGATGCCTATAAAATTCATATCCGTCACTTCAATACGAAATACAGATACAGCAGAATTTATAAAAAACCCAATCTTTTTGCTTACCTGTATGATAAAATCCATGGAATTCCTAAAAGAGAAAAGAAAAGAAAACTGGTCTTTGAGGATTAA	MLRNYSNSRTLGDNIRLGTLTAFTAGTINIASLLIFLSFTSNVTGHYAILAAEISKGNWTQVGVVGGWIFLFFFGSFLSNFIVINFNKKSKYFAHAMPIVLEIICLLFVGVYGQFYYQKTLEETEYLVALMLFATGLQNGLTASISNFSVKTTHLTGTTTDLGILVSMFTQKKYRRNGELIGRAKLLMSIMLAYVMGAVFSGLTYYYLEFRVFYVISICLLIVIGYDAYKIHIRHFNTKYRYSRIYKKPNLFAYLYDKIHGIPKREKKRKLVFED				NA	NA	NA	NA	NA
BMS003_00416	1797	mutL		DNA mismatch repair protein MutL	ATGTCAGATATTATTCAGCTTTTACCGGATCATGTAGCCAACCAAATTGCAGCAGGAGAAGTGGTGCAGCGGCCTGCATCCATTGTGAAGGAACTTTTGGAAAATGCTATTGATGCAGATGCAACGAAAATTGAATTGATCATCAGAGATGCCGGGAAAAACCTTATTCAGGTGGTAGACGACGGAAAAGGAATGTCCGAAACAGATGCCCGCATGGCTTTTGAAAGACATGCTACCTCCAAAATCAAAGGAACAGAAGATATCTTTAAGATTGCCACAAAAGGATTCCGTGGAGAAGCATTGGCTTCTATTGCTGCGGTTTCTCAGGTAGAATTGAGAACAAAGCAGAAAGATACCTCCATAGGAACCAATATCTATATCGAAGGAGGAGTCTTTCAGTTTCAGGACCCGGTTCAGACAGCAGACGGATCAAATTTTTTAGTAAAAAACCTTTTCTATAACGTTCCTGCAAGAAGGAAGTTTTTGAAAAATAACAATATTGAATTCAGACACGTCATAGATGAATTTCAGCGTGTTGCCTTAGCTCATGAGAACCTTGAATTTTCTCTTTTCCATGATGATGAAGCTGTTTTCAGACTCAGAAAAGGAAGTCAGATGCAGCGTATTGTGGATGTCTTCGGAAGAAAACTTCAGCCGCTTTTGATTCCCATTAAAGAGGATATTATCTGGTGTAAGCTTCACGGTTTTGTTGCAAAGCCGGAAGGAGCCAAAAAAGCAAGAGGAGAACAGTTTCTTTTTGTGAACGGAAGGTATTTCAGAAGTCCATACTTCAATAAAGCAGTACAGGAAGCTTTTGAAGGACTGCTTCAGCCAGGGTATGTACCTTCGTTTTTTCTTTTTCTGGAGCTTGATCCGGAGAAGATAGATGTGAATATTCATCCGCAGAAAACAGAAGTGAAATTTGAAGACGAACATCTTATTTTTGCGTTGCTTCGTTCAACCATAAAAAGATCTTTAGGAATTTATAACGTTTCTCCAAGTCTTGATTTTGACAGAGATCCTGAACTGGATGAAATGATGAACAAACCCATTCCAAGTAAAGGAAATGGGGGCGGAACCGGTGGAGGTGTTTTCAAAATGCCTGAAATTATTGTTGATAAAGATTATAATCCTTTCCTGGAAGAGAAAAATGTTGTACATCCGGAAGAAATTCAAAATCTTACGGAAATGTATCATCAGAATATTACGGCTGAGCCATCAAAGATCAATCTTTTTGAAGATGAAGATTTTGATGAAGATCTGATGAGGCTCCCGAACGGCTACTGGCTTTTCAATAAAGGAGATGTTACACTTATGCTGGATCTTGGAAGGATGCACAGGCTGCTGGTTTCTGAGGGCAATAAATCTACCAGAAAATCAAGCGCAAACAGCCATGCTCTTCTTTTCTCTCTGGAGTATCATATGAACGAAATTGAGAAGACAAAATACAACTCGATAAAAAAATATCTTCCGGAATTAGGGTTTGACATGAAAATTGCTCATGAAAGTGTACTTCGGATAGATTCACTTCCTGAGGGACTGAAAGAAACCCAGGCAATGAAGTTCTTAGAAAATCTTTTTGAGATTCTGGACTACAAAACGGAAGAAGAATTTTTGCAGTATTACCATAATCAATGGAATAAAATGCAGTCGAAGTCAAGATTTGACTTTATTTATAAAAAAGATGCGGAACAACTGATTAAAGACTTTACAGCATTAGGCTTCCCGGAATTTTTACCGGATGGCAAAAGATGCTTTTATGAAGTTCCCTTTAACGACTTTAAAAACAAATTTTAA	MSDIIQLLPDHVANQIAAGEVVQRPASIVKELLENAIDADATKIELIIRDAGKNLIQVVDDGKGMSETDARMAFERHATSKIKGTEDIFKIATKGFRGEALASIAAVSQVELRTKQKDTSIGTNIYIEGGVFQFQDPVQTADGSNFLVKNLFYNVPARRKFLKNNNIEFRHVIDEFQRVALAHENLEFSLFHDDEAVFRLRKGSQMQRIVDVFGRKLQPLLIPIKEDIIWCKLHGFVAKPEGAKKARGEQFLFVNGRYFRSPYFNKAVQEAFEGLLQPGYVPSFFLFLELDPEKIDVNIHPQKTEVKFEDEHLIFALLRSTIKRSLGIYNVSPSLDFDRDPELDEMMNKPIPSKGNGGGTGGGVFKMPEIIVDKDYNPFLEEKNVVHPEEIQNLTEMYHQNITAEPSKINLFEDEDFDEDLMRLPNGYWLFNKGDVTLMLDLGRMHRLLVSEGNKSTRKSSANSHALLFSLEYHMNEIEKTKYNSIKKYLPELGFDMKIAHESVLRIDSLPEGLKETQAMKFLENLFEILDYKTEEEFLQYYHNQWNKMQSKSRFDFIYKKDAEQLIKDFTALGFPEFLPDGKRCFYEVPFNDFKNKF				NA	NA	NA	NA	NA
BMS003_00417	759			hypothetical protein	ATGTTTAACAATATACCACCGATTACAAAGAATATCATTATCATCAATGTTATTGTCTATTTGGTAGCTAATTTTTTTTACTATCCCAGTTTATATAATCACCTTTCGGCGTTCTATCCTTTTTCTCCCAATTTTAAATCGTGGCAGATTATTACCCACATGTTTATGCATGCCCCGTTTAAGGAACCTGGAGGTATAATGCATATTTTATTTAATATGTTCACGTTATTCAGCTTCGGCCCTATTTTGGAGCAGACGTTGGGGGATAAAAAGTATTTGATTTTATACTTTGCAAGTGGTTTAGGGTCATTTTTTCTTTTCAATCTTTGGAATTTTGTAGAAGCTCAGCAAATCATTTCCGGTTTGCAAAGCTTAGGTTTAAATGCATCAGAAATTTACCCAAAAGCAGCTCTTGATTATGCAGGGAGCATGAAAATAAGTGCTACCACAGTTGAAGGACAACAATTATCCAGTCAATATTATGCGTTATTAAAAACCCCTATGTTGGGTGCTTCCGGAGCTATTTTCGGTGCGGTAGCTGCCTTCGCAACACTATATCCGGACGCTAAAATCGGAATTATGTTTATTCCCGTTCCGATAAAAGTAAAATACCTTTTACCGATCATTGTGGTGATATCTGTATATCTTGGTGTTTCTGGTAACGGAGGCGGCATTGCCCATCTTGCTCACGTAGGAGGGGCTTTGGTAGGGTGGCTGCTGGCACGGATTTGGAAAAAACACTTGTACAGATTCAATTAA	MFNNIPPITKNIIIINVIVYLVANFFYYPSLYNHLSAFYPFSPNFKSWQIITHMFMHAPFKEPGGIMHILFNMFTLFSFGPILEQTLGDKKYLILYFASGLGSFFLFNLWNFVEAQQIISGLQSLGLNASEIYPKAALDYAGSMKISATTVEGQQLSSQYYALLKTPMLGASGAIFGAVAAFATLYPDAKIGIMFIPVPIKVKYLLPIIVVISVYLGVSGNGGGIAHLAHVGGALVGWLLARIWKKHLYRFN				NA	NA	NA	NA	NA
BMS003_00418	993			hypothetical protein	GTGAAGATCTTTAGACTCATTCTGTTTATCCTGCATCTTGGTGTTTTATTCCTATTGCTGGGCACCTTATTGAATGCTTATGTTCCACCTAAAATTTTCCCATGGTTTAATCTGCTTTCTTTAGGTTTTCCCGTGTTTGTTATAGCATATACTATTCTAACGATATTTTGGGTATTCAGCTGGAAAAAAAGAGCTTTTGTATTCATGTTTATGGGCTTGGCATTCATCAGTCCGGTAAAAAGATGGGTAAATTATTCTTCTCCTAAAAATAAAGATTCTGAGATAAAAGTAGTTTCCTTTAATACCAGAGCAGGTGGCAGGGGAAACGAAAATCTGACCCCTTTTCTAAGGGCTCAGAATGCAGATGTTCTTCTCTTACAAGAAGATGATGGTAAGAGATATAATTTTGATGGTTATCAGAAAGTAAATCCCGGAATAGGGTTAACGATTTTGACCAGGCACAAAATCATCAAACAGCAGATCATAGATCCGCAGGATGAAAATGTAAAGATTCCCGGATTACTGGCTGATATAGAAATTAATGGCAGAATATACCGGTTTATTGATGTTTATCTTCATCCTTTCCGCTTCGAAAAAGATATGGTGAAACTTAATGGAAACACCGATACCAATGAACAAAAAATAAAAGATGTAGTTAAAAGACTGATTCCTACATTTAAGAAACATCAGGAGCAGGTTAGTCGGATTTGTGAAGCCGTTGAAAACTCACCTTATCCTGTTATTCTTGCAGGGGATTTCAATTCTGTTCCTAATTCCTATGAATATTATCATTTATCAGAAGGACTTGAAGATGCTTTTTTGACTGCAGGAAGAGGGAGCGCAACCAGCTTTCATGATTATAAATTCCCATTGAGAATAGACTATATATTTTCTTCAAAAGCTTTAAAGGCAATATCTTATAAAGTTGACCGTTCTGTAAGTATTTCAGATCATTATCCTGTTGTAGTAAATTTTTCTACAGAAAGCGAATAA	MKIFRLILFILHLGVLFLLLGTLLNAYVPPKIFPWFNLLSLGFPVFVIAYTILTIFWVFSWKKRAFVFMFMGLAFISPVKRWVNYSSPKNKDSEIKVVSFNTRAGGRGNENLTPFLRAQNADVLLLQEDDGKRYNFDGYQKVNPGIGLTILTRHKIIKQQIIDPQDENVKIPGLLADIEINGRIYRFIDVYLHPFRFEKDMVKLNGNTDTNEQKIKDVVKRLIPTFKKHQEQVSRICEAVENSPYPVILAGDFNSVPNSYEYYHLSEGLEDAFLTAGRGSATSFHDYKFPLRIDYIFSSKALKAISYKVDRSVSISDHYPVVVNFSTESE				NA	NA	NA	NA	NA
BMS003_00419	972			hypothetical protein	ATGAAGTCGAATCAGATATTGCTATTTATACATATCGTTGTTGCTGTTTTGCTGTTATGCACACTGGGGAATGCATGGATTCCGCCTAATATTTTGGGCAATCTTAATCTTCTTTCTCTTGGTTTTCCTTATCTGATATTAGCGCATGTGATTCTGACATTAATCTGGATTTTTAAAAAACAAAAAATTGCAATCGCTTTTGCATTAGGTACACTTGTTTTCTATAATCCGATCAGGAGATGGATCAATTTTTCTCCGAAAACAGAGAACGGAAAAACAATACGGGATATTAAAGTATTGACCTTTAATGTGAAGTACGGAGAATATGGCTGGGATAAAGTTAAAAATTACATCAAAGAACAGGATGCGGATATTATTCTTGTACAGGAAAAAGATACCAATCGTGTTATAAAGCGTGATCTTATAAAATACCCTTCAGTTATCCTGAAAACAAAACATAAAATTGTAAGACAGGCAGAGCTGATTGATGAAAAAGCACGCGGAAATTCATTCTATGCCGATATTGACATCAATGGAAAAGTAATCCGGATCATCAATGTCTATCTTGAACCATTCAGGCTTCATAAATCTATGTTCACAAAGCTTGACGGAATGGGTTTAGGGAATGTTTCTACCTTGCTGTCCCATATGACTCCTACTTTTCTTGCGCATGAAGATCAGGTGAAAAGAATCAGAAAAATGGTAGATTTATCTCCCTATCCGGTTATTTTGGCAGGAGACTTTAACTCTGTTCCCAATTCTTATGAGTATTATAATCTTGGAAAAGACCTTCAGGATGCTTTTTTGGTAGCTGGAAAGGGAAGTGCAAGCAGTTTTCATGACTATAAAGTGCCTCTGAGAATTGACTACATATTCAGCTCAAAATCCATAATTCCTTTAAGCTATAAAGTGGATCAGTCTGTGAAATTATCGGATCACTATCCTGTAATTGCAGAATTTCTGCTAAATTAG	MKSNQILLFIHIVVAVLLLCTLGNAWIPPNILGNLNLLSLGFPYLILAHVILTLIWIFKKQKIAIAFALGTLVFYNPIRRWINFSPKTENGKTIRDIKVLTFNVKYGEYGWDKVKNYIKEQDADIILVQEKDTNRVIKRDLIKYPSVILKTKHKIVRQAELIDEKARGNSFYADIDINGKVIRIINVYLEPFRLHKSMFTKLDGMGLGNVSTLLSHMTPTFLAHEDQVKRIRKMVDLSPYPVILAGDFNSVPNSYEYYNLGKDLQDAFLVAGKGSASSFHDYKVPLRIDYIFSSKSIIPLSYKVDQSVKLSDHYPVIAEFLLN				NA	NA	NA	NA	NA
BMS003_00420	363			hypothetical protein	ATGAAAAATATACTGCCCGCTATTTTTATTTTAATAATGCTCTTTACGGCCTGTTCCAAGAAAGAATCTCCGGGATTCGGTGCTGAACCGGAAGTTAAGATGAATTATGATACTACTGCTGTTGATTCCTTTTCTACCGGGGCAGTTTCGGTAGATATTGCCCGAAAAATAAGAATGTCTTCCCCTCAATATCTGGATTCTGTAAAGCAGGCTAAAAAGCTTCAGGATGAAGAAAATAAGCTAAAAGCAGAACTGGAAAAAGAAAATAAAGCAAAACAGGAAGAGAATAAGAAAAAAACTGAGGCAGAAAAGAAACAGAAAGCTTCAGAAACACGTCCTGCCCAGGAGGCGAATGCACAGTAA	MKNILPAIFILIMLFTACSKKESPGFGAEPEVKMNYDTTAVDSFSTGAVSVDIARKIRMSSPQYLDSVKQAKKLQDEENKLKAELEKENKAKQEENKKKTEAEKKQKASETRPAQEANAQ				NA	NA	NA	NA	NA
BMS003_00421	408			hypothetical protein	ATGAAAAAAACAATCCTTGCTGCCATAGTGATCTCAGCTTTCACTGTAGCCTGCACAAAATCAACAACAAAAACAGAACAGGTAGAAAATCCTGACGGATCCGTTACCACCACTACTACTGTTACAGAAACATCAGGTATTGTTGATACCGCCAAAATCAATACTGCCAAAGAAGATGTGAAGGCAAAGGTAGATGAAGCCGGTAATAAAATTGACGATGCTGCCCAGAAAGCAAAAGATAAGATTGATGCCACTGCAGATAAGACAAAACAAGATCTTAACAAAGCAGGGCAGGATATCAAAGCTGAAGCTAACAAAGTAGGGCAGGATGCAAAAGAAGCTGCAAAAAAAGGAGCTTCGAAAGTAGAAGAAGCTGCGAAAAAAGTGAAAGAAGATTTAAGCAAATAA	MKKTILAAIVISAFTVACTKSTTKTEQVENPDGSVTTTTTVTETSGIVDTAKINTAKEDVKAKVDEAGNKIDDAAQKAKDKIDATADKTKQDLNKAGQDIKAEANKVGQDAKEAAKKGASKVEEAAKKVKEDLSK				NA	NA	NA	NA	NA
BMS003_00422	1515			hypothetical protein	ATGGCAACCAAAGCACTTTTCAACACCGTAGTCAACTGGTTTATCCGTCAAAGGATAGATCAGATACAGAATTTTATGGACCATCCTATTGAAACCCAGAAAGGTATACTCTTTTCCCAGCTGTTTCATGCAGAGGACACAGAATTTGGCAAGTTATACGGATTCAATTCTATATCAAGTTATCAGGATTTTAAAAATAAGGTTCCTATTGTTACCTATGAAGAAATGGAGCCTTATATTGAAAAAGCAAGACAGGGGTATAAGGATGTAAGCTGGCCAGGCCTTATTAAACATTTTGCCAAGTCATCAGGAACTACCAATGCCAAGAGCAAATTTATCCCCATCTCTACCGAAAGCCTTGAATACTGCCATATGAAGGCGGGAAAAGATATGGTTTCCATTTATGCCAACAATCATCCTGAAAACCAGCTTTTCAATTACAAGAATTTACGTCTGGGGGGAAGCTCAGAACTCTATGCTGACTTCAATACCAAATTTGGAGATTTATCTGCTATTTTAATTGATAATCTTCCTTTTTGGGTAGAAATTACCACTACCCCAAGCAAGAAAGTTTCTTTAATGGGAGAATGGGAAAGCAAGCTGAAAGCAATTACCTCGGAAGTAAAAAATGAAGACGTAGGAAGTATCCTTGGTGTACCAAGCTGGATGATGGTACTTCTTCAAAGAGTATTAAAGGAAACCAACATAGGAAGCATTTCGGAGCTGTGGCCCAATCTGGAGGTATTTTTTCATGGCGGAATCAGCTTTAAGCCTTACAGGGAACAATTCAGACAGATCATCGGAAAAAACATCAATTACTACGAAATTTACAACGCTTCTGAAGGCTTTTTCGGTATTCAGGACAGGTCAGACAGCGATGAGATGCTTCTGATGCTGGATTACGGTATTTTTTACGAATTTATTCCTATGGATCAGTTCCATTATTCAAATCCAAAAGTTGTAAGCCTGGAAGATGTGGAAGTAGGGAAAAATTATGCAATGGTAATTACCACCAACGGCGGTCTGTGGAGATACCTGATTGGAGATACTGTTGTCTTTACATCAGCCAACCCTTTCAGAATAAAAATAACAGGAAGAACCAAACATTATATCAATGCTTTTGGAGAAGAACTGATGATTACCAATGTAGAATCTGCTCTCTCAAAAGCCTGTGAAGCTACAGGGGCACAAATCACAGATTTCACAGGAGCTCCCGTTTTCATGAAAGGAAATGAAGGAGGTGCCCATGAATGGATCTTTGAGTTCAGCCAGCATCCGGATAATCTGGACTGCTTTATTGATGCCTTTGATAAGCATTTAAAGACCATCAATTCAGACTATGAAGCGAAGAGATACAATAACATGACTCTTAAAAGACCTATTGTACATATTGCTAAAACCAACCTGTTTTATCATTGGCTGGAAGCTAAAGGAAAGCTTGGCGGACAAAATAAAGTTCCCAGATTAAGCAATGACAGAGAGTACATTGATCCATTGCTGGAAATGAATAAATAA	MATKALFNTVVNWFIRQRIDQIQNFMDHPIETQKGILFSQLFHAEDTEFGKLYGFNSISSYQDFKNKVPIVTYEEMEPYIEKARQGYKDVSWPGLIKHFAKSSGTTNAKSKFIPISTESLEYCHMKAGKDMVSIYANNHPENQLFNYKNLRLGGSSELYADFNTKFGDLSAILIDNLPFWVEITTTPSKKVSLMGEWESKLKAITSEVKNEDVGSILGVPSWMMVLLQRVLKETNIGSISELWPNLEVFFHGGISFKPYREQFRQIIGKNINYYEIYNASEGFFGIQDRSDSDEMLLMLDYGIFYEFIPMDQFHYSNPKVVSLEDVEVGKNYAMVITTNGGLWRYLIGDTVVFTSANPFRIKITGRTKHYINAFGEELMITNVESALSKACEATGAQITDFTGAPVFMKGNEGGAHEWIFEFSQHPDNLDCFIDAFDKHLKTINSDYEAKRYNNMTLKRPIVHIAKTNLFYHWLEAKGKLGGQNKVPRLSNDREYIDPLLEMNK				NA	NA	NA	NA	NA
BMS003_00423	411			hypothetical protein	ATGTATCCAACAGATTTAGTAATGCCTATGAAGGCAGAGCTTACAGATAAAGGTTTCCAGGATTTAACAACTCCGGCTCAGGTAGAAGATGCTTTGAAGCAGTCCGGAACTACATTACTGGTAATTAACTCCGTATGTGGTTGTGCTGCAGGAGCTGCAAGACCAGGAGTAGTATACTCTTTGACAGGAGATAAGAAACCTGATCATTTAACAACCGTATTTGCAGGATTTGATACAGAGGCAGTAGTAGAAGCAAGAAAGCACCTTGCTCCATTCCCTCCAAGTTCTCCATGTGTAGCACTTTTCAAAGATGGTGAATTAGTTCACATGCTGGAAAGACATCACATTGAAGGAAACCCTGCAGGTGCTATTGCAGCAAATCTTCAGGCTGCATATGATGAATATTGCTAG	MYPTDLVMPMKAELTDKGFQDLTTPAQVEDALKQSGTTLLVINSVCGCAAGAARPGVVYSLTGDKKPDHLTTVFAGFDTEAVVEARKHLAPFPPSSPCVALFKDGELVHMLERHHIEGNPAGAIAANLQAAYDEYC	PGPT0014657_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
BMS003_00424	447	yqeY	COG1610	putative protein YqeY	ATGAGTTTAGAAAATACAATAAACGAAGCTATAAAAACAGCAATGAGAGCTAAGGACAAAGTAGCATTAGACTCTCTACGTGCTGTAAAATCTCAGATATTACTGCTAAAAACAGAGACTATCGGAGCTGAAGTAACCGCAGAACAGGAAATTGCCATTCTGCAGAGAATGGTAAAACAACGTAAGGATTCTTACGACCAATTTACTGCACAGGGAAGAAATGACCTTGCAGAAGTAGAAGATGCTCAAATGAAAGTTATTGAGCAGTTTTTACCTAAACAGCTTTCTGCTGAAGAATTAGAAACAGAAATTAAAAATATTATTTCTGAAACCGGAGCTGAATCTATCAAAGATTTAGGAAAGGTAATGGGAGTTGCCTCAAAAGTTTTAGCCGGAAAATCTGACGGGAAAAGTATTTCCGAGATGGCTAAAAAGCTCCTTTCATAA	MSLENTINEAIKTAMRAKDKVALDSLRAVKSQILLLKTETIGAEVTAEQEIAILQRMVKQRKDSYDQFTAQGRNDLAEVEDAQMKVIEQFLPKQLSAEELETEIKNIISETGAESIKDLGKVMGVASKVLAGKSDGKSISEMAKKLLS	PGPT0030490_2280	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
BMS003_00425	1914	ftsZ		Cell division protein FtsZ	ATGGAAAATATAGGTACACAAGGATTTTCATTTGATTTGCCAAAAGGAAATTCATCCATCATAAAAGTAATCGGTGTAGGGGGCGGTGGAAACAACGCTCTGAAGCACATGTACGAGAAAGGAATTCACGGAGTAGACTTCGTGATCTGTAATACAGATGCCCAGACTTTAGATAATAACCCGGTAGCCAATAAAGTTCAGTTGGGAACTTCTATCACAGAAGGTCTTGGAGCTGGTGCAGACCCTGAAGTAGGAGAAAAATCTGCTATCGAAAGTATTGAAGATATCAAGGCTGCTATGGGCCAAAACACCAAGATGGTGTTCATCACTGCCGGAATGGGTGGTGGTACAGGTACCGGAGCCGCTCCTGTCATTGCCAAAGTGGCAAAAGACATGGGAATTCTTACCGTAGGTATTGTTACTGTTCCTTTCAGCTTTGAAGGAAAAAGAAGGCTGGAGCAGGCAGAAAACGGTCTTGATAAACTAAGAAATAATGTAGACTCCCTTATTGTCATCAACAATGATAAACTAAGACAGCAATTCGGAAACCTTGGATTCAAACAGGGGTTCTCAAAAGCCGATGAAGTTTTAACCAACGCCGCCAAAGGTATGGCAGAAGTTATTACAGGTTACTTTGATGTAAACATTGACTTTAGAGATGCTAAATCTGTACTTCAGAATTCCGGTACAGCATTGATGTCTACAGGAACGGCTTCCGGTGAAAATAAAGCGGAAGAAGCAGTAAGAAAAGCTCTTGACTCCCCATTATTGAATGACAATAAGATTACAGGTGCTAAGAATGTTCTGCTATTGATCAGAAGTGGTGCTGAAGAAGTTACCATGGATGAGATCGGTATCATCATGGATCACATTCAGAAAGAAGCAGGAAACACTGCAGATATTATTTTCGGGGTGGGTGCAGATGAAGAATTAGGAGATGCAGTAAGCGTTCTTGTGATCGCAACAGGATTTTCCAATGACAACAAGAAATTTGCAGGCCCTACAGAGAAGATCAGAATCAGTCTTAATGACAGTTTTGATGCTCCAAAAAACTCTCCTTTTAAAACAAGAGAAGAAAGAGAAGCCGCTCCTGAAACAACGCATGACTTCGGTGGAAAAAACCTTTTCAGATTAGATGACGAAGACCATGACACTCCGTTCAATGTGACGTCTTCTGAAAAAAAAATGATTATTGAAGAAGAACAGCCAAGAACTGAAATAAAATTCTTTGATAAAGAGGAAGATACAGCAAACACTCCTGAGCAAAACTGGAGAAATGAAGAAGAAGGCGGACAGGAATACAGCCTGTTCTCTATAGATGAAGAAAATGAAGATCCGAACGATCTTGAAATCCAGTCTTTCTCATTTGATTTCGAAAATAAAAAAGATGAGCCACAGTCCGGAACTCCGTTCAACAGCTCTTTCTCTGAAGAAAAACCTGTAGAGTTTAGCTTCTTTGTAAACGAGCCTGTGAGAAACGAACCCAATACGGATTTCGGACAGCCAAAAGCAGAATTTAGTACTCCAACAAATGCTGCAGTAGCCGAGCCCGCTCAAAAGATTGAAACATTCTATCAGAAACAGGAAGAACCAAAGGCAGAAACAAAACCAGCTTTTGAAAATAAAACAGAAATTGAAACTCCGAAAACTGAAGAATCAGAATTCACGTTTGTGAACAAAACGGTAGATCAGGACAGAGTAATTGAAAGAAGAAATAAATTAAAAGAATTCAATTCCCGCTACCAGAATTTTGACAGTACAAGTGAATTTGAATCTATTCCGGCTTTCAAAAGAAAAAATATTTCGATCGACGGTAACAATGCTTCAGATCAGAACATTAACACTTACCTGTCTGATAACAACGGATCTATGCAGATCAGAGAAAACAGATTTTTAAATAAAGACGTAGACTAA	MENIGTQGFSFDLPKGNSSIIKVIGVGGGGNNALKHMYEKGIHGVDFVICNTDAQTLDNNPVANKVQLGTSITEGLGAGADPEVGEKSAIESIEDIKAAMGQNTKMVFITAGMGGGTGTGAAPVIAKVAKDMGILTVGIVTVPFSFEGKRRLEQAENGLDKLRNNVDSLIVINNDKLRQQFGNLGFKQGFSKADEVLTNAAKGMAEVITGYFDVNIDFRDAKSVLQNSGTALMSTGTASGENKAEEAVRKALDSPLLNDNKITGAKNVLLLIRSGAEEVTMDEIGIIMDHIQKEAGNTADIIFGVGADEELGDAVSVLVIATGFSNDNKKFAGPTEKIRISLNDSFDAPKNSPFKTREEREAAPETTHDFGGKNLFRLDDEDHDTPFNVTSSEKKMIIEEEQPRTEIKFFDKEEDTANTPEQNWRNEEEGGQEYSLFSIDEENEDPNDLEIQSFSFDFENKKDEPQSGTPFNSSFSEEKPVEFSFFVNEPVRNEPNTDFGQPKAEFSTPTNAAVAEPAQKIETFYQKQEEPKAETKPAFENKTEIETPKTEESEFTFVNKTVDQDRVIERRNKLKEFNSRYQNFDSTSEFESIPAFKRKNISIDGNNASDQNINTYLSDNNGSMQIRENRFLNKDVD	PGPT0027695_131	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
BMS003_00426	1386	ftsA	COG0849	Cell division protein FtsA	ATGGAAAATCAAGAGTATTCAGTAGGTCTGGACATCGGGACAACGAAGATAGTCGCGATTGTCGGAAGAAGGAATGCACACGGGAAAATAGAAGTTCTCGGTGTAGGAAAAGCTAAAAGTCTTGGTGTTCATAAAGGTATTGTGAATAACATCTCACAAACTATTAATTCAATCAAGGCTGCAGTATCCGAAGCACAGTCCAGTGCCGGGGTTCCTATCCGCAAAGTTACGGTAGGTATTGCAGGAAAACACATACGTTCTCTGCAGCACTCAGATTATATTATGCGTGAACATCCTGATAAGTTTATTACAGACGATGACATCGAAGCATTAAAAGATCAGGTAAAAAAGCTGGTCATGCTTCCAGGAGAAGAAATTATCCACGTACTTCCTCAAGAATATAAAGTAGATTCCGAGGGCGAAATTCAGGAACCTGTCGGAATGCATGGAAAGCGTTTAGAAGCCAACTTCCACGTTGTAGTAGGGCAAATGGGCAGCATCAGAAATATTGCAAGATGCGTTCGTGAAGCCGGATTAGAGATGGAGGCCCTTACTTTAGAACCATTGGCATCTTCAGAAGCTGTCCTTACAAAAGAAGAAAAAGAAGCCGGTGTAGCCATTGTTGACATTGGTGGTGGTACAACTGATATTGCGATCTTTAAAGATAATATCATCCGTCATACCTGTGTGATTCCATACGGAGGCGGAATTATTACCGAAGATATCAAAGAAGGATGCTCTATTATCGAGAAACATGCAGAACAACTGAAAGTAAAATTTGGTTCGGCTGTTCCCGAATTAGAAAAAGACAGTACTTTTGTAACCATTCCCGGCCTTCACGGAAGACCAGACAAAGAAATATCTTTAAAAACTTTAGCGCAGATCATCAATGCAAGAGTAGAAGAAGTTTTGGAAATGGTAAACACAGAACTGAAAGCGTACGGAGCTTTTGAACAAAAGAAAAAACTGATTGCCGGAATCGTTCTTACCGGTGGTGGTTCAAACCTGAAACATCTTCGTCAGCTTGCTAATTATACTACTGGTTTTGACAGCAGAATCGGTTTTGCGAATGAATATATCGCCAATGATAAGAATCAGTACCTGAAAGGCCCTGAATTTGCTACCTCTATTGGGTTACTGATGGAGAGTTTAAAGATCAGAGACAAAAAGCAGAATACTGATGAAGTGGCAGAAGTTGTTACCGAACAGCCAAAGCAGGAAATAACGCCACCACAGCAGGAAACCGCTCAGCCTCTACAACAGACAGCACCAATTCAGGAGCAACAGTCTTTTGAAAATGAAAAGCAGGAGAACAGAAAAGCGAAACTGACCTTCGGACAGTCGCTTATGGAAAAAGTAAAAAAATTCTTTGAAGAAGTAGAATAA	MENQEYSVGLDIGTTKIVAIVGRRNAHGKIEVLGVGKAKSLGVHKGIVNNISQTINSIKAAVSEAQSSAGVPIRKVTVGIAGKHIRSLQHSDYIMREHPDKFITDDDIEALKDQVKKLVMLPGEEIIHVLPQEYKVDSEGEIQEPVGMHGKRLEANFHVVVGQMGSIRNIARCVREAGLEMEALTLEPLASSEAVLTKEEKEAGVAIVDIGGGTTDIAIFKDNIIRHTCVIPYGGGIITEDIKEGCSIIEKHAEQLKVKFGSAVPELEKDSTFVTIPGLHGRPDKEISLKTLAQIINARVEEVLEMVNTELKAYGAFEQKKKLIAGIVLTGGGSNLKHLRQLANYTTGFDSRIGFANEYIANDKNQYLKGPEFATSIGLLMESLKIRDKKQNTDEVAEVVTEQPKQEITPPQQETAQPLQQTAPIQEQQSFENEKQENRKAKLTFGQSLMEKVKKFFEEVE				NA	NA	NA	NA	NA
BMS003_00427	936			hypothetical protein	ATGAAAAATAAATACAGAATATTAAAAATTGCTGTCACGGTAATCATCCTTGGGTTGTTACTGAGTTTCTCGTTGAAGAGATTCAGCCGACAACAGATTACGGACAATAAGATTTCTGTAAAAATGAGTGAGAAAACTCCGGTGTATTTTGTAGATGAAAAAGATATCAGAGAGATTGTAAAAAAAGAAAACCCTTCAGGAAATGTAGGTGATCTAAATATTCCTTCTTTAGAAAAAAAGATCAATGCTCTTCCAGCCGTAGACAGTGCCAATGTCTACCTGAACCTGAACGGAAAGCTGAATCTGGATATCAAACAGAGAGTTCCTGTTTTCAGGCTGAATAAAGACGGAAAAGATTTCTATGTAGATGAAAAAGGAATTGAATTCCCTATTTCAAGAACCTATTCGCACCCATGTATGCTGGTAACCGGAAATGTAAAGCCCGATGAATATGAAAAGCTGGCAGAACTGGTAGAAAAGATTGACAAAGATGATTTCAGTAAGAAATATTTTATCGGAATCTCAAAAAATAAAGACAGCTACAGCCTCCTGACAAGTGAAGGAAACTACAGAGTAGAAATAGGAGATCTTGATAATATTGACTTTAAAGTAAGAGGATTTAAAACTTTCGTAGAAAAATACCTGGTATATCAGGACCCTCAGAAATACAGCATGGTATCTGTAAAATATCAGAACCAGATTGTCACTACTTTAAACCCGTATTTTAAAGAAAATGACAGTATTTTAAAAGCAGGTAGAATGGAACTGGCAAAAGTACCTGCCACTGCCGGCAAAAAAACAGAAACCAAACCAAAAACAACGGAAGTAAGAAAAGGGAGTTCCATAACACCCAAATCAAAAGAAACGAAAAAAGCAGAGAAAAAGCCCCCCGTCAAGACACAGTCCAAGCCTAAGGCAAAAGTAAAAACAGAATAA	MKNKYRILKIAVTVIILGLLLSFSLKRFSRQQITDNKISVKMSEKTPVYFVDEKDIREIVKKENPSGNVGDLNIPSLEKKINALPAVDSANVYLNLNGKLNLDIKQRVPVFRLNKDGKDFYVDEKGIEFPISRTYSHPCMLVTGNVKPDEYEKLAELVEKIDKDDFSKKYFIGISKNKDSYSLLTSEGNYRVEIGDLDNIDFKVRGFKTFVEKYLVYQDPQKYSMVSVKYQNQIVTTLNPYFKENDSILKAGRMELAKVPATAGKKTETKPKTTEVRKGSSITPKSKETKKAEKKPPVKTQSKPKAKVKTE				NA	NA	NA	NA	NA
BMS003_00428	1359	murC_1	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGAACATTTTACAAACATATCAAACTTTTTACTTCGTAGGAATCGGAGGTATCGGAATGAGTGCACTGGCACGCTATTTCAATGCATCCGGAAAAAAAGTATTGGGTTATGACAAAACCAATACAAAGCTTACTCAGAACCTGATGAAAGAAGGTATTGATATTGTTTTTGAAGATCTTATTGATGAAAAGATTACTTCCATTCAGAAAGAAGATACTCTGGTAATTTATACTCCCGCTATCAAAAAGCTGGGAATACTGGATTACTTCAACCAAAATCAGTTTGAAGTCCTAAAGCGGGCCAAAGTTTTAGGCTTAATTACTGAAAATACAGACTGTATTGCTGTTGCGGGAACTCATGGGAAGACCACCACATCTACCCTTGTAGCTCATTTATGCAAAGAAGCAGATCTTCCTTTCTCATGCTTTTTAGGCGGAATTTCTGAAAACTTTAAATCCAACTTCCTGTACAACGGTTCTACCTATTCTGTAGTAGAGGCAGATGAGTATGACAGAAGCTTCCTGAACCTTTCTCCTGACTGGGCCGTAGTAACTTCTACAGATGCGGATCACTTGGATATTTATGGAGACAAAAGCAATATTGAAGAAGGATTCAGACAGTTTGCAGCCCTGGTTTCTAAGGATCAGCAGCTCTTTGTAAGAAAAGGAGTGGAGATTGGCAGAGGACATCAGACTTATGCGGTCAATGAACCTGCAGACTATTATTCAGACAACCTGAGAATGGATCATGATAAAATTTATTTTGACTTCCATACCCCAACTGAAACAGTACCAGATTTTGTCTGGGAAATACCTGGCATTCATAATGTGGAAAATGCCACTGCAGCACTCGCTATTCTGCATAATTTAGGCGCAGATTTTGATACGCTGAAAAAAGCAATTGCCAATTTTAAAGGAATTAAAAGAAGATATACCAAACATATTTATCAAAACGGTAAAATTTATATTGATGATTATGCTCACCACCCTACAGAAATCAATGCTGTAATGAGCTCAATCAAAACATTTTATCCTGATAAAAAACTATTGGTAGCCTTCCAGCCGCATCTTTTCAGCAGAACAAGAGATTTCGCAGACGGATTTGCAGAAAGTTTAAGCAAAGCAGATGAGCTTATCCTTCTTGACATTTACCCTGCGAGAGAACTTCAGGAGAATTTTGAAGGAATTACTTCAAAGTGGCTGCTGGATAAAGTAACATCAGATAAAAAAGAAGTATCCACATTATCCGATGCTTTTGAAAAAATAAAAGAAAAAGATTTTGATATCCTCCTAACTGTAGGTGCAGGAAATATAGATACCCTGTATGATCCTATTTGTGAATGGATAGAGAAAATTTGA	MNILQTYQTFYFVGIGGIGMSALARYFNASGKKVLGYDKTNTKLTQNLMKEGIDIVFEDLIDEKITSIQKEDTLVIYTPAIKKLGILDYFNQNQFEVLKRAKVLGLITENTDCIAVAGTHGKTTTSTLVAHLCKEADLPFSCFLGGISENFKSNFLYNGSTYSVVEADEYDRSFLNLSPDWAVVTSTDADHLDIYGDKSNIEEGFRQFAALVSKDQQLFVRKGVEIGRGHQTYAVNEPADYYSDNLRMDHDKIYFDFHTPTETVPDFVWEIPGIHNVENATAALAILHNLGADFDTLKKAIANFKGIKRRYTKHIYQNGKIYIDDYAHHPTEINAVMSSIKTFYPDKKLLVAFQPHLFSRTRDFADGFAESLSKADELILLDIYPARELQENFEGITSKWLLDKVTSDKKEVSTLSDAFEKIKEKDFDILLTVGAGNIDTLYDPICEWIEKI	PGPT0024120_3869	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
BMS003_00429	294			hypothetical protein	ATGAAAATATATTATGTATACATTGTAAAATGTTCGGATAACTCTTATTATACAGGCTTTACCAACGATTTGGAAAGAAGAATTACTGAACATAATGACGGATTAAATCCTGAAAGTTACACGTATACAAGAAAACCTGTAGAACTTGTTTTCTACCATGAATTTAATGATGCCGCCCAAGCGATAAGCTTTGAAAAACAAATTAAAGGCTGGAGTAGAAAAAAGAAGGAAGCAATAATAAATGATAACTGGGATTTATTACCAATGTTATCAAAAAATAGGATGAAAGATTAG	MKIYYVYIVKCSDNSYYTGFTNDLERRITEHNDGLNPESYTYTRKPVELVFYHEFNDAAQAISFEKQIKGWSRKKKEAIINDNWDLLPMLSKNRMKD				NA	NA	NA	NA	NA
BMS003_00430	1095	murG_1	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGGACAAAAAACTAAAAATATTATTATCAGGCGGAGGAACAGGAGGTCATATCTTCCCGGCCATTGCCATTGCTGATGAGATCAGAAAAAGATTTCCTGATGCAGAATTTTTGTTCATTGGTGCCAACGGAAAAATGGAAATGGAAAAAGTTCCCCAGGCAGGCTATAAAATAGAAGGAATTGATATTGCAGGAATAGACAGAGGAAATTTGTTATCCAATCTGGGACTGCCTTTCAAGATTCTCAAAAGTTTATCAAAATCTAAAAGGATTATCAAAAACTTCGCTCCAGATTTTGCAGTAGGAACAGGAGGGTTTGCCAGCGGACCAGCTCTTTATGAAGCGAGCAAAATGGGAATTCCTATTTTCATACAGGAACAGAACGCTCATGCTGGGGTAACCAATAAAATTTTAAGCAAGAAAGCCAAAGCCGTTTTCACAGCTTACCCAAAAGTAGAAGGTTTTCCGGCAGAGAAAATAAAATTTCTGGGAAATCCGATCCGTGAGAATATTGTTTCAGGAATGCAGAATACCGCTCAGGCAAAAGAAAAAATGGGATTAAATAAAGATCAGCTTACGATTCTCTCTGTAGGAGGTTCTTTAGGATCCAGAACATTGAATAATGCATGGAAAGAAAACCTTGAAAATCTGAAAGAAAAAGGGTATCAGTTAATTTGGCAAACAGGAAAGCTGGATTACAAAGAATTGTCTACCAGCCTACAGCTTCCAGCCTCCATTCACTTGAAAGAATTCATTAAAGATATGGAACTGGCTTATTCTGCTGCAGATATCATTGTTTCCAGAGCCGGAGCTATTGCCATTTCAGAATTGGCTGTGGCACAAAAACCGGTGCTTTTGGTTCCTTTCCCTTTTGCTGCGGAAGACCATCAGACCAAAAACGCTCTGAATCTGGTTGAAAAAAATGCTGCCAGAATGGTGAAAGACTCTGAAATGCAGGAAAAATTCTGGAATACATTATCAGAAATCTGCGAAAATGAAAGTATAAGAAAAGAAATGTCCGACAATCTCACCTATTTTGCCAAGCCCAATGCTGCAAAAGAGATTGTAGACGAAATTTTTAAAGTGATAAAATAA	MDKKLKILLSGGGTGGHIFPAIAIADEIRKRFPDAEFLFIGANGKMEMEKVPQAGYKIEGIDIAGIDRGNLLSNLGLPFKILKSLSKSKRIIKNFAPDFAVGTGGFASGPALYEASKMGIPIFIQEQNAHAGVTNKILSKKAKAVFTAYPKVEGFPAEKIKFLGNPIRENIVSGMQNTAQAKEKMGLNKDQLTILSVGGSLGSRTLNNAWKENLENLKEKGYQLIWQTGKLDYKELSTSLQLPASIHLKEFIKDMELAYSAADIIVSRAGAIAISELAVAQKPVLLVPFPFAAEDHQTKNALNLVEKNAARMVKDSEMQEKFWNTLSEICENESIRKEMSDNLTYFAKPNAAKEIVDEIFKVIK	PGPT0024150_2341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
BMS003_00431	1239	mrdB_1		Peptidoglycan glycosyltransferase MrdB	ATGGACGAACAGAACACAGAAAGCAGATTTGAATTTCTAAAGGGCGATAAAGTACTTTGGATGGTCATCCTTGTGATCTCCATCTTCTCTATTTTCCCGGTATACTCTGCAAGTTCAAATCTCGAATACATTGTCAATAACGGAACCACAACAGGTCACGTTATCAAGCATATGTTCTTTGTAGTCTTGGGATTAGCAATTATGAGACTGGTAGGAACCATAAAATATGAATACATCGGAAAGCTCAGCAGTATTCTGCTCGGCCTTATGATTGTTCTGTTAATTGTTACCATGTTTACCGGACAGACTATTGACGGAGCCAGTGCTTCCAGATGGCTGAAAATCCCGGGAACGCCCATATCATTTCAGCCTTCATCATTTGCTTTTTTAATGCTCATCATCTATCTGTGCAGATATTTGACCAAAAAGATCACCAGAGAAAGACTGCCAATAGAGAATATCATGTATATTTTCGGACCTATTCTTCTTGTGTTTGTACTGGTAGCCAAAGATAACGGCTCCACCGCATTAATGATTCTGATGGTTTCTGTGGTTGTTCTCATCATAGGACAGCTTCACTGGAAATACATTGCTGGATTTATCTCTGCTTCATTTGTTGCCATTGTATTCTTCCTGCTGATTGCACTGAACACTAATCTTATCGGAGGAAACCGTGTGCATACATGGATGAGCCGTATTGAAACCTTTACCTCAAGCAAGGCCAAAACAGCAGACGTAGATGACGAAAGCGTAAAAGCAAAAAACTATCAGGTAATGCAGGCCAAAGCAGCTATTGTTCACGGCGGAATTACCGGAATGGGGCCAGGAAAAAGCGCATTGAAGCAAATGCTTCCACAATCTGCCTCCGACTTTATTTTCGCGGTTATTGTAGAAGAGTATGGAGTGATAGGAGCAGCTTTTCTGATCAGTTTATACCTGATCATGATGATAAGAATTGTAATGATTGCCAGTAAAATGCCCGCCTTCTTTGGATCGTTGCTCGTGCTCAGTCTCGGGGTAATGATCTTCATTCAGCTTTCGGTGAATATTGCCGTTGCTGTAAATCTGATCCCGGTAACAGGACAGCCGCTGCCTTTAATCAGTTATGGAGGAACCTCAATGCTGGTAACCTATTTGCAGTTAGGCATTATTTTAAATATAAGCTCAAGAATCCAGATTTATGATGAAGAAGGGATGGGCAAAAAACAAAGTATAGCAGAAATAAACGATATTGCTTAA	MDEQNTESRFEFLKGDKVLWMVILVISIFSIFPVYSASSNLEYIVNNGTTTGHVIKHMFFVVLGLAIMRLVGTIKYEYIGKLSSILLGLMIVLLIVTMFTGQTIDGASASRWLKIPGTPISFQPSSFAFLMLIIYLCRYLTKKITRERLPIENIMYIFGPILLVFVLVAKDNGSTALMILMVSVVVLIIGQLHWKYIAGFISASFVAIVFFLLIALNTNLIGGNRVHTWMSRIETFTSSKAKTADVDDESVKAKNYQVMQAKAAIVHGGITGMGPGKSALKQMLPQSASDFIFAVIVEEYGVIGAAFLISLYLIMMIRIVMIASKMPAFFGSLLVLSLGVMIFIQLSVNIAVAVNLIPVTGQPLPLISYGGTSMLVTYLQLGIILNISSRIQIYDEEGMGKKQSIAEINDIA	PGPT0014810_1369	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
BMS003_00432	1326	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGAAAATAGTTGTTTTAGGAGGTGGAGAAAGCGGATGCGGAGCTGCTTATTTGGCGAAAAAGAAAGGTCTGGAAGTATTTCTTTCAGACAGAGGAGCCATTAAGGATAACTATAAGCAGTTTCTTACCGAAAATGAAATTGAATTTGAAGAAGGAAACCACGATGAAGAAAGGGTTTTAAATGCTGACTGGATCGTAAAAAGCCCGGGAATTCCGAAAAAGACAGACATCATCAATAAAATTCATGAAAAAGGAATAAGGCTTTCCTCTGAAATTGAATTTGCCTCTGAATTTACCGATGCTAAGATCATTGCCATCACCGGAAGCAACGGAAAAACAACCACTACTTCCCTGATCTACTATATTCTGAAAAATGACGGATTGAATGTAGGTTTAGGAGGAAATATCGGATACAGTTTTGCGAAGCAGGTGGCGGATGAAAACCATGAATATTATGTGTTGGAAGTAAGCTCTTTCCAGCTGGATGATATTCAGAATTTCAGACCTTATATCTCTTTATTGTTAAACCTGTCTCAGGATCACCTGGATCAGTACAACTACAATTATGAGGAATATGCTTTAGCTAAATTCAGAATAACAGAAAACCAGGAGAACGACAACTTCTTCATCTATAACAAAGATGATGAGATGAGTAAAAACCTTCTTGAAAAGCTTGAAATAAAGGCTAAAATGATTCCTTTCTCTATCAAAGAGAAGTTACCGGAAGGAGGTTTCATCAATGATGATAAAATTGTGGTAAAACTAAAAGACGAATTCGCAATGAAAGTTGACGAGTTGTCTCTATTGGGAAATCATAATGTAGCCAACAGCTTAGCAGCATCTATAGCCGGTAAGATACTAAAAATCAACAATGAAAGCATCAGACACTCATTGATGACCTTCCAGGCTGTAGAGCACAGATTGGAATTTGTGACTGAAATTGACAATGTAAAATACATCAACGACAGTAAAGCAACCAATGTAAACGCTACTTATTACGCCTTAGAAAGCATGAAAACACCAACCGTATGGATTGTTGGCGGACTGGATAAAGGAAATGACTATACTGAAATTGAAGATTTAGTCAAAAGAAAAGTAAAGGCAATCGTTTGCCTTGGAGTAGATAATAAGAAGATCATCGATTTCTTTAAAGAAAAAAAAGAATTTATTTATGATACTTCAAGCATGGAAGAAGCCGTGAGAATTTCAAAATCACTGGCTAAAAAAGGAGACACCGTCTTATTATCTCCATGCTGTGCAAGCTTTGACTTGTTCAAAAGCTATGAAGACAGAGGACACCAGTTTAAAGAACAGGTGTTAAAATAA	MKIVVLGGGESGCGAAYLAKKKGLEVFLSDRGAIKDNYKQFLTENEIEFEEGNHDEERVLNADWIVKSPGIPKKTDIINKIHEKGIRLSSEIEFASEFTDAKIIAITGSNGKTTTTSLIYYILKNDGLNVGLGGNIGYSFAKQVADENHEYYVLEVSSFQLDDIQNFRPYISLLLNLSQDHLDQYNYNYEEYALAKFRITENQENDNFFIYNKDDEMSKNLLEKLEIKAKMIPFSIKEKLPEGGFINDDKIVVKLKDEFAMKVDELSLLGNHNVANSLAASIAGKILKINNESIRHSLMTFQAVEHRLEFVTEIDNVKYINDSKATNVNATYYALESMKTPTVWIVGGLDKGNDYTEIEDLVKRKVKAIVCLGVDNKKIIDFFKEKKEFIYDTSSMEEAVRISKSLAKKGDTVLLSPCCASFDLFKSYEDRGHQFKEQVLK	PGPT0024125_3591	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
BMS003_00433	1242	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGCTATACTATCTATACGAATATCTAACCAACCATGGAATTCACGTTCCGGGATTAGGATTGTTGAAATACATTTCCTTCCGTGCCGGAATGGCTGTACTATTCTCGCTTATCATTGCTCTTGTCTACGGAAAAAGAGTAATCAATTACCTGAGAACAAAACAGATGGGAGAATTGGTCCGTGATCTGGGATTAGATGGCCAAAAACAAAAAGAAGGAACTCCTACCATGGGAGGGCTTATCATTATTTTGGCAACCATCATTCCGGTATTGCTGTTTACAAGAATTACCAATGTGTATATTGTTTTGCTATTGGTTTCAATGTTCTGGATGGGTGCCATTGGTTTCCTTGACGATTATTTAAAGAAAATCAAAAAAAACAAAGACGGTTTAAGTGGTAAATTCAAAATTGTAGGACAGGTTGGCTTAGGACTGATTGTCGGAATTACAATGTATTTCCACCCGGACATCACCGTTAAAAGAAAATATGCAGATGCTAAAGTGGTGAACAGAAACAATGTAGAGCAAAACTTTATGCCTACAGAAAAAATTACAGTTTCTACCGTCCCATTTGCCAAAAATAATGAATTCGATTATAGCGGAATTTTATTCTGGATGAATGATAAAGATGCTCATGAGTGGGCATGGATTGTCTTTATTCCTATTGTGATCTTCATCGTAACAGCTGTTTCAAACGGAGCCAATATCACAGATGGAATTGATGGTCTGGCCGCAGGAACAAGTGCTATTATACTGCTTACACTGGCTCTTTTCGCCTACCTTTCCGGGAACATCATCTTTGCAGATTATCTCAATATCATGTTCCTTCCCAATATGGGAGAAACCACCATTTTTGCCGTGGCAATGGTAGGTGCCGTGATCGGATTCTTCTGGTACAATACCTACCCTGCACAGGTTTTCATGGGAGATACCGGAAGTTTGATGCTGGGAGGAGTCATTGCCGTTTTAGCCATTATTTTAAGAAAAGAATTGCTGATTCCTGTATTATGCGGAATCTTCTTAATTGAAAACGTATCTGTAATGCTTCAGGTTGTAGTTTTCAAATACAGAAAAAGAAAATTCGGGCTGGAATATGCCCAAAACAACAGACTATTCAAAATGTCGCCACTACACCACCATTATCAGAAAGAAGGATTTCACGAAAGTAAAATCGTAAACAGAATGATCATCATTGGGGTAATACTGGCTATTGTATGTCTGATCACATTAAAAATGAGATAA	MLYYLYEYLTNHGIHVPGLGLLKYISFRAGMAVLFSLIIALVYGKRVINYLRTKQMGELVRDLGLDGQKQKEGTPTMGGLIIILATIIPVLLFTRITNVYIVLLLVSMFWMGAIGFLDDYLKKIKKNKDGLSGKFKIVGQVGLGLIVGITMYFHPDITVKRKYADAKVVNRNNVEQNFMPTEKITVSTVPFAKNNEFDYSGILFWMNDKDAHEWAWIVFIPIVIFIVTAVSNGANITDGIDGLAAGTSAIILLTLALFAYLSGNIIFADYLNIMFLPNMGETTIFAVAMVGAVIGFFWYNTYPAQVFMGDTGSLMLGGVIAVLAIILRKELLIPVLCGIFLIENVSVMLQVVVFKYRKRKFGLEYAQNNRLFKMSPLHHHYQKEGFHESKIVNRMIIIGVILAIVCLITLKMR	PGPT0024105_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
BMS003_00434	378			hypothetical protein	ATGACAAAGAATTTTGAAAACTTTCCTGTGTATATCAAAAGTTTAGATCTTATTGAAAAAGTCTATATTTTTCTTCAAAGTCCAAGTTTTGAAAAAGAATTTGAATTTAATAACCAGATAAAAAGAGCGGGTTTTTCTATTAGTAATAATATTGCGGAAGGCTCAGAATATAATAATAACAGACAATTTATTAGATATTTAAAAATTGCGAAAGGCAGCTGTGCTGAAGTCAAAAGCATGCTGATTGTAAGTAAAAGATTAAAATTAGGTAACGAAAATAAAGCAGAAGAAATTATTGCCCTTTCAAGAGAAGTTTCTTCAAACATATCAAAATTCATTAAGTATTTAAATGAAAATATTGAGAAGCCCAATCTTTAA	MTKNFENFPVYIKSLDLIEKVYIFLQSPSFEKEFEFNNQIKRAGFSISNNIAEGSEYNNNRQFIRYLKIAKGSCAEVKSMLIVSKRLKLGNENKAEEIIALSREVSSNISKFIKYLNENIEKPNL				NA	NA	NA	NA	NA
BMS003_00435	1461	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGATTATAACAGAATTAGTAAACAGAATCCCAGTACTTGAAATTCACGGTGACAACAACCGTGAGGTGACTGAATTGGTGATTGACAGCAGGAAGGTTACAGCAAACGCTCTTTACATTGCGATGAGAGGAACAGTGGTGGATGGTCATTCATTCATTGCTTCCGCAATTGAAAAGGGAGCTGCCGCAATTGTTTGCGAAGAATTCCCCGAAACATTGGTAGAAAATGTAACCTATGTTAAAGTAACGGATTCATCTAAAGCATTAGGTCATCTTGCTTCCAACTTCTACGGAAATCCTTCTCTGAAACTGAAACTGATTGGAGTTACAGGAACTAACGGAAAAACATCTGTTTCTACCCTCCTTTTTGATGTTTTCACAAACTTGGGGTATTCGGCAGCTTTACTTTCTACTGTTGAGATCAGAATCGGTGAAGAGATAATTCCGGCTACCCACACGACTCCTGATGTAATTACCATCAACAGGATTTTAGCGGAAGCTGTAGAAAAAGGATGTGAATTTGCTTTCATGGAAGTAAGCTCACACGGAATTGCCCAAAACAGAATTGAAGGATTACACTTCAAAATAGCAGGCTTCACCAACCTTACTCATGATCATTTAGATTATCATAAAACCTTCGAAGAATATTTAAAAACAAAGAAAAGATTCTTTGATCAGTTAGAAGATACAGCCATTGCCATCACCAATGTGGATGACAAAAATGGCAACGTCATGCTTCAGAACACGAAGGCTAAAAAGAAGTCTTACGCCCTGAAAACCATGGCAGATTATCACGGAAAATTATTGGAAGTGGATTTCAACGGAATGCTGCTGAACTTCAACGGAAAAGAATTCTGGACAACATTGACCGGCAAATTCAATGTATACAATCTGCTGCTTGTATTCGGAATTGCTGAAGAACTAGGTTTTGAGCAGGATGAAATTCTTCAGGCCATCAGCAAATTAAAAAGAGTTGCCGGAAGATTTGAAACCTTCAAATCCGATGGTGGAATTTTCTTTATCGTAGACTATGCACACACTCCGGATGCTTTGGAAAACATTCTGGACAGCATTAACGATATCAGAACCAAAAACGAAAGATTAATCACCGTATTTGGTTGCGGAGGAGACAGAGACCACTCCAAAAGGCCTGAAATGGGGAATATTGCCACCAAAAAATCAACACTGGCAATCATCACTTCAGATAATCCGAGAACAGAAGATCCTGCACAGATCATCAAAGAAATTGAAGCAGGCGTTGAACCTCAGAACTTCAGCAAATACACTTCAATTCCGGACAGAAAAGAAGCCATAAAAATGGCCATAAAGTTTGCAGAACCTAAAGATATTGTTTTAGTTGCCGGAAAAGGCCACGAAACCTATCAGGAGATAAATGGTGTGAAACATCATTTTGATGACAAAGAAGTAATTAATGAGCTTTGGAAATTAATGTCAAAATAG	MIITELVNRIPVLEIHGDNNREVTELVIDSRKVTANALYIAMRGTVVDGHSFIASAIEKGAAAIVCEEFPETLVENVTYVKVTDSSKALGHLASNFYGNPSLKLKLIGVTGTNGKTSVSTLLFDVFTNLGYSAALLSTVEIRIGEEIIPATHTTPDVITINRILAEAVEKGCEFAFMEVSSHGIAQNRIEGLHFKIAGFTNLTHDHLDYHKTFEEYLKTKKRFFDQLEDTAIAITNVDDKNGNVMLQNTKAKKKSYALKTMADYHGKLLEVDFNGMLLNFNGKEFWTTLTGKFNVYNLLLVFGIAEELGFEQDEILQAISKLKRVAGRFETFKSDGGIFFIVDYAHTPDALENILDSINDIRTKNERLITVFGCGGDRDHSKRPEMGNIATKKSTLAIITSDNPRTEDPAQIIKEIEAGVEPQNFSKYTSIPDRKEAIKMAIKFAEPKDIVLVAGKGHETYQEINGVKHHFDDKEVINELWKLMSK	PGPT0024130_3814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
BMS003_00436	1992	penA	COG0768	putative peptidoglycan D,D-transpeptidase PenA	ATGCAAAAGCAAAATGAATACGACAATAAGCGTAAGAAAACTTTACGATGGGGCTACCTCTTTGCAGTGGTAGCTTTGTGCGTGTTTGTCATGTTCCTGGCAAGAATTGTCATCCTTCAGAATACCAATGTTCAGGAAATAAAAGACGATTACATTAATAAAAACTATCGTGAGGCGACCTTAAAAGCTGCCCGCGGTAACCTTTTTGCTTCTGATGGCTCTATCCTTGCGACTACTGTGATGCGATATGACATCTATCTTGATTTCAAAACAATGAAAGATACGGTGTACTCTAACAATATCGGAGCTTTAACTGATTCCTTGGGCAAGATGTTCGGAAAATCCAGAGGAGAATTCAGACAGAAGTTTGATGAACAGAGGAAAAAGAAGAACCAGTACTATACTCTGGTAAAAGGACTGGATTTCGATCAGTATGACAGAATCCGAAAGTTCCCGATCTTCAGAAAAGGCAAAAACAAAGGAGGATTTATTGTTGACAGAAACTATAAAAGAGAGTTAGCCACTTCAGAAATCGGAGCCGGAACCATTGGTATGGACAACGGAGAGTTCAGATCCGGACTGGAAGGTGCTTTTTCAAAATATTTAACAGGAACTGACGGAAAAAGACTGGAACAGAGAATCAATTCTTCCCAGTGGAAGCCTATAGACTTCTGGAAAGTTCAGGAACCTGTAGACGGCGAAGATGTGTATACAACCTTAGATCTCAGAATTCAGGATATTGCACACTCAGCACTCGAAAAGCAGCTGATTAATTTCGAGGCCAAACACGGTACCGTAATTGTGATGGAGGTTGAAACCGGAAAAGTACGTGCCCTTGTCAACTTAAGAAGAACAGAATCAGGAGAATATGAAGACTCTTACAACTACGCCCTGAAAGATAACATCGAGCCGGGATCTACTTTCAAAACCATTTCGCTTCTGGCAGCAATGGATGATGGATTCATTGACGAGAACACAACGGTAAACGTAGGAAACGGAGTTTGGGTATATGCAAAGCAAAGAATCTCTGATGGCCACGGAGGAGGTACATATGATATCAGTGATGTATTGGCCAAGTCCAGTAACGTTGGAACGTCAAAACTGATCACAAAATATTATGCAGAAAAGCCCCAGATTTTCCTTGATCATCTGAAACGTTGGAAATTATTCGACAAAATGGACATCGAGCTTCCGGGAATCACAAAACCAAAGATCGTAACACCGCAAAATAAAAGATGGAACGCCGCAACACTGGCTTCTATTTCTTACGGATACTCTTCCAACATCAACCTGCTGCAACTGACAACTTTCTACAACGGAGTAGCCAATGGAGGTAAAATGCTTAAGCCTTTATTCATTGATAAAATCATGAAAGACGGAAAAGTAATGTACACAGCCAAACCCGAAGTAATGGTTAACAAAATGGCTTCTGAAAAAGCTATCACAATGATGACCAGCGCCTTAACCAAAGCCGTAGAAAAAGGAACAGGACGAAGTATCTTTACTCCCAACCTGAAAATGGCAGGAAAAACAGGAACCGCAAGATTTGAATACTGGCTGCCTGGCCCAATGAAATATAGAGCTTCTTTTGCGGGATTTTATCCGGCAGACAGCCCTAAATACACATGCTATGTAATGGTAAGTGAACCAAGCCCTTCAAAAGGATTCTATGGAGGAACAGTAGCAGCACCGGTATTTAAGGAAATTGCAGGAAAAACATTCCTGAAGACCCCTCAGAATATTGAAAAAGAAATGCTGGTAGACAAAAAGGTAAACCTGAGTAAAATGGTAGAACCTAATGTGAAAGTAGCAGTAAATGATAAGCAAATGCCTAATGTAGTAGGATTAATCGGGAAGAACGTGATCCCACAGCTTGAAAACTTAGGCTACCGTGTTGATTATAAAGGAGTAGGAAGAATTAAAGAACAATTCCCTCTGGAAGGCACAACCATTAGTAAGAACCAGAGAATTTATTTGTCTCTGCAAAATTAA	MQKQNEYDNKRKKTLRWGYLFAVVALCVFVMFLARIVILQNTNVQEIKDDYINKNYREATLKAARGNLFASDGSILATTVMRYDIYLDFKTMKDTVYSNNIGALTDSLGKMFGKSRGEFRQKFDEQRKKKNQYYTLVKGLDFDQYDRIRKFPIFRKGKNKGGFIVDRNYKRELATSEIGAGTIGMDNGEFRSGLEGAFSKYLTGTDGKRLEQRINSSQWKPIDFWKVQEPVDGEDVYTTLDLRIQDIAHSALEKQLINFEAKHGTVIVMEVETGKVRALVNLRRTESGEYEDSYNYALKDNIEPGSTFKTISLLAAMDDGFIDENTTVNVGNGVWVYAKQRISDGHGGGTYDISDVLAKSSNVGTSKLITKYYAEKPQIFLDHLKRWKLFDKMDIELPGITKPKIVTPQNKRWNAATLASISYGYSSNINLLQLTTFYNGVANGGKMLKPLFIDKIMKDGKVMYTAKPEVMVNKMASEKAITMMTSALTKAVEKGTGRSIFTPNLKMAGKTGTARFEYWLPGPMKYRASFAGFYPADSPKYTCYVMVSEPSPSKGFYGGTVAAPVFKEIAGKTFLKTPQNIEKEMLVDKKVNLSKMVEPNVKVAVNDKQMPNVVGLIGKNVIPQLENLGYRVDYKGVGRIKEQFPLEGTTISKNQRIYLSLQN	PGPT0023865_610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS003_00437	240			hypothetical protein	ATGATGGCCATGATTTATACCAACCATCTCGTCAATAAAAAAATAAAAATTGTAAACGCCTTAAAAGAGGAAACAGAAGAATACAAATCACGAAACGCTTACGCCCAGAGTAAGCTGATCAAAGTAAAAATGGAATCAGAGCTGGGGAAAGAGGTCGCCCGGGATTCATTAATGACCCTGGAAAACCATCCTCACAAATTGCTAATAAAACTGGACAGTACAGATGCAAAAGCAAAATGA	MMAMIYTNHLVNKKIKIVNALKEETEEYKSRNAYAQSKLIKVKMESELGKEVARDSLMTLENHPHKLLIKLDSTDAKAK				NA	NA	NA	NA	NA
BMS003_00438	894	rsmH	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGTATCATAACCCCGTTTTGTTGAAGCAGAGTGTTGATGATTTGGTGACGAATCCTGACGGAATATATGTGGACTGCACCTTTGGAGGCGGAGGCCATTCAAGAGAGATCCTGAGCAGACTTTCCGACAAAGGGAGATTGTTCAGCTTTGATCAGGACCTGGATGCACTTAAAAATACAATTGATGATCCCAGGTTTACATTAGTGAATCAGAATTTCAGATTCCTGGAAAACTCATTACTGATGTACGGAATTTCTCAGGTAGATGGTGTTTTGGCTGATCTGGGTGTTTCTTCGCACCAGTTTGATGAAGCAGACAGAGGCTTCTCCACAAGAAGCAATGCTCCTTTAGATATGAGGATGAATGTCATGCAGAATCTGGATGCTAAAAGAGTGATCAACGAATATGAAGAAGAAGAACTTGCAGATCTTTTCTACCACTATGGGGAATTGAGAGAAGCAAGAAAACTGGCAAGAGAAATCGTTCATCACAGAAAAACTAAAAATATAGAAACTACGGAAGATCTGAAAAAACTGTTCAGCTATATCCCGCCTCACAAGGTGAATAAGTTCTATGCTCAGCTTTTTCAGGCAATAAGAATAGAAGTAAACCAGGAGCTTGAAGTGTTGAAAGAAATGCTGGTTCAGGCTTACAATGTGTTAAAACCGGAAGGAAGATTAGTCGTTATTTCCTACCATTCTCTGGAAGACCGTTTGGTAAAGAGATTCCTTAAAAACGGAATGTTCGAAGGAGAGCCGGAAAGAGATATCTACGGAAATTATAAAAAGGCATTCGAACTGATAAAGAGTAAAGCAATTATTCCTGATGACAGGGAAATTGAAGAAAACTCCAGAGCAAGAAGCGCCAAGATGAGAACAGGAATTAAAGTATAA	MYHNPVLLKQSVDDLVTNPDGIYVDCTFGGGGHSREILSRLSDKGRLFSFDQDLDALKNTIDDPRFTLVNQNFRFLENSLLMYGISQVDGVLADLGVSSHQFDEADRGFSTRSNAPLDMRMNVMQNLDAKRVINEYEEEELADLFYHYGELREARKLAREIVHHRKTKNIETTEDLKKLFSYIPPHKVNKFYAQLFQAIRIEVNQELEVLKEMLVQAYNVLKPEGRLVVISYHSLEDRLVKRFLKNGMFEGEPERDIYGNYKKAFELIKSKAIIPDDREIEENSRARSAKMRTGIKV				NA	NA	NA	NA	NA
BMS003_00439	459	mraZ	COG2001	Transcriptional regulator MraZ	ATGAAAAATTTCATTGGGACATATGAGTGTAAAATTGACGACAAAGGCCGCTTAAAAGTTCCTTCATCTTTAATCAAACAGATGGAAAACTTCGACGATAAGGCGTTTGTAGTCAAAAGATCTGTGTTCCAACCCTGTCTGGAAGTCTATCCTATGAATGCATGGGACAAACTGATGGGCAAAATTAATAAACTGAACAGATTCATAAAAAAGAATGCTGATTTCATACGAATGTTTACGGCAGGAGTAAAGACAGTAGAATTGGATAATGCAGGAAGATTACAGATCTCCAAAGACCTTACGGTTTTTGCAAATCTTCAGAAAGATATTGTGATCACCAGTGCAGGAGAACTTTTCGAAATTTGGGATAAAGAAGCCTACGAAAAGGTAATCTCCACCAATGAAGCTGATTTTGCAAGCCTTGCCGAAGATGTGATGGGCTCTTTCGATGAAGAATAA	MKNFIGTYECKIDDKGRLKVPSSLIKQMENFDDKAFVVKRSVFQPCLEVYPMNAWDKLMGKINKLNRFIKKNADFIRMFTAGVKTVELDNAGRLQISKDLTVFANLQKDIVITSAGELFEIWDKEAYEKVISTNEADFASLAEDVMGSFDEE				NA	NA	NA	NA	NA
BMS003_00440	762	hsaD		4,5:9,10-diseco-3-hydroxy-5,9,17-trioxoandrosta-1(10),2-diene-4-oate hydrolase	ATGATATTTAGTACAAAAAAAGAAAAGAAATATTCCTATGTAGAAGCGGGAGAAGGACATCCATTAGTGCTGTTGCACGGGTTAATGGGTGGTTTGAGTAATTTCGATAAAATGGTAGATTTTTTTTCGGAAAGGGGTTTCAAAGTATATGTTCCTCAGTTGCCGATCTATGATCTGCCGGTACTCAATACGAATCTTACCACTATTGCAAAATATATCATTAAGTTTATAGAGAGCCACATTTCAAGTCCGGTAACTATTGTAGGAAACTCAATGGGTGGGCATGTAGGGCTTATCTTGACTCTGGCGAGACCTGATCTGGTAAAGAATCTTGTTCTTACAGGAAGTTCCGGACTGTATGAGAGAACCTTCGGAGACAGTTTTCCGAGAAAGAATGACCGTTCTTATATCAGAAAGAAAACAGAAGAGGTTTTCTATGACCCCAAGGTGGCTACAGAAGATCTTGTGGACGAGGTTTTTGCGGTGGTGAACGATAGAATGAAAGGAATCAAAACGGTAATGCTGGCAAGAAGTGCCATCAAACACAATATGTTGAATGATCTTCCAAAGATTGTGACACCTACCTGTCTGATCTGGGGGAAACAGGACAATGTGACTCCTCCGGAAGTAGCAGAAGATATGCACAAGTTTATTCCTAATTCGGACTTATTCTGGATTGATAAATGTGGGCATGCTGCCATGATGGAAAAGCCAGATGAATTCAATGAAATCCTGTACAACTGGATAAAAGATAAAGTTTAA	MIFSTKKEKKYSYVEAGEGHPLVLLHGLMGGLSNFDKMVDFFSERGFKVYVPQLPIYDLPVLNTNLTTIAKYIIKFIESHISSPVTIVGNSMGGHVGLILTLARPDLVKNLVLTGSSGLYERTFGDSFPRKNDRSYIRKKTEEVFYDPKVATEDLVDEVFAVVNDRMKGIKTVMLARSAIKHNMLNDLPKIVTPTCLIWGKQDNVTPPEVAEDMHKFIPNSDLFWIDKCGHAAMMEKPDEFNEILYNWIKDKV	PGPT0019765_625	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,PGPT0019765-mhpC-K05714	NA	NA
BMS003_00441	624	engB	COG0218	putative GTP-binding protein EngB	ATGATTATCAAGACAGCAGAGTTTGTAAAGAGCAGCGGAAAATGGCAGGAATGCCCGGAACCCAATATTCCCGAATATGCTTTTATCGGAAGGTCAAACGTAGGAAAATCATCCCTGATCAATGCAATGATGAACCATAAAGATTTGGCCAAGACTTCACAGACTCCGGGAAAAACCCAGCTGATCAATCATTTTCTGGTGAATGAGAGCTGGTATCTGACCGATTTACCAGGGTATGGTTATGCAAAGGTTTCAAAAGTTCAGCGAAAGGATTTTGAAAAACTAATCACAAACTATATTCTGAACAGAAGGAATCTGGTCAATCTTTTTGTGCTGGTGGATGTAAGACATCATCCACAGAAAATTGATCTTGAATTTATCCAATGGTGTGGTGAGAGCGGAATACCATTCTCAATTGTTTTCACAAAGGCAGATAAACTGAAACCGAACGCTGTTGTCAAGAATGTAGAAGATTATAAAGCTGAGCTTCATAAAACATGGGAAGATCTTCCTGAACTTTATATTACCTCAGCAGAAAAGAAAGAGGGGGGAGATAACATTCTTGATTTTATCCAAAAGACCAATGATTTTTTAACGAATAATAATATAAGCTTCGATGAGTAA	MIIKTAEFVKSSGKWQECPEPNIPEYAFIGRSNVGKSSLINAMMNHKDLAKTSQTPGKTQLINHFLVNESWYLTDLPGYGYAKVSKVQRKDFEKLITNYILNRRNLVNLFVLVDVRHHPQKIDLEFIQWCGESGIPFSIVFTKADKLKPNAVVKNVEDYKAELHKTWEDLPELYITSAEKKEGGDNILDFIQKTNDFLTNNNISFDE				NA	NA	NA	NA	NA
BMS003_00442	450	elaA	COG2153	Protein ElaA	ATGAGTAATATGATCTGGAAAATTAAAACATTTGATGAGTTTACTGTTCCGGAATTATATGCAGTACTGAAAGCACGTATTGATGTTTTCGTTATTGAGCAGAACTGTCCTTACCCTGATCTTGATAATTATGATCAGAAAGCAGTCCACATCTGGGCTGAAGAGGTTGGGCAGGTTTTAGCCTATTGTCGTGTTTTTGATAAAGGTATAAAATATGAGGAAACTTCTATCGGTAGAGTTCTGACTACAGAGAAGGCAAGAGGAAAAAGCCTTGGAAAACAACTAATACAATATGCCGTAGAAACTATAGAAAACCGTTTTCATACGTCTGAAATCAAAATATCCGCACAGGATTATCTGTTAAGATTTTACAGTGGATTCGGATTTGAAGATACGGGTAAGAAATATCTGGAAGATGATATTCCGCATACGGAAATGATACGAAAATAA	MSNMIWKIKTFDEFTVPELYAVLKARIDVFVIEQNCPYPDLDNYDQKAVHIWAEEVGQVLAYCRVFDKGIKYEETSIGRVLTTEKARGKSLGKQLIQYAVETIENRFHTSEIKISAQDYLLRFYSGFGFEDTGKKYLEDDIPHTEMIRK				NA	NA	NA	NA	NA
BMS003_00443	900			hypothetical protein	ATGAAAAAGATATTCTATTTATTATTCATTATTTCTTTAGTTTCTTGCTGCAAAGGCAAAGATGACGGAACAGAGACAGAAAAGAATGATTCTATTGTTGTTGATTCAAACAATATCAACCTCAGCATCCTGATTGATTTATCTGATAGAATTGATCCGGCAACCAATCCGAATCCCACAATGGAGTATTACCAGCGGGATACAGAATACATCAAAGCCATTGAAAAAGGGTTCATCAATCATATTAAATCCAAGAAAATCATCACATACGATGATCAGATGCAGGTTTTCTTCAACCCGGAACCTTCTGACCCTAAGATAAATGATTTCACAAAAGAGCTGAAAGTATCTTTCAATAAAGATATTCCAAGAAGTTATTTTGACTCTGTAGATAAAAAATATTCCGAATTACCTCTAAACATCTATCAGTCAGCTATAAAAGACAGAAAATTTGTAGGCTCTGATATCTGGGAATTCTTTAAAAATAAAGTCACTGATTATTGTATAAAAAAGGACAAAAGAAATATACTGTTCATCTTAACAGACGGGTATATGTATCATGAAAACACCAGGTTTGATGAGAAAAAGGAAAGCTCACACAGAACGTCTTATTTAACAAACAAACTCATAAAAACCAATAATCTTACCACCTCAGATTTTAAAAAAGTTATTGAAAAAAATGGCTATGGTTTTGTAAGAGCAAATGAAGACCTCAGTAATCTCGAAGTCATTGTTTTAGGAATCAATCCTGAAAAAGGAAACCCTTTTGAAGAAGCTGTTATTAAAGAGTATTGGGAAAACTGGTTTAAAGAAATGAAGATCAAAAAGTACCAGATCAAATCTGCCGATCTTCCTTCCAATCTCGAGCCCATCATTTTACAGGCTATTTCCGGAAAATAA	MKKIFYLLFIISLVSCCKGKDDGTETEKNDSIVVDSNNINLSILIDLSDRIDPATNPNPTMEYYQRDTEYIKAIEKGFINHIKSKKIITYDDQMQVFFNPEPSDPKINDFTKELKVSFNKDIPRSYFDSVDKKYSELPLNIYQSAIKDRKFVGSDIWEFFKNKVTDYCIKKDKRNILFILTDGYMYHENTRFDEKKESSHRTSYLTNKLIKTNNLTTSDFKKVIEKNGYGFVRANEDLSNLEVIVLGINPEKGNPFEEAVIKEYWENWFKEMKIKKYQIKSADLPSNLEPIILQAISGK				NA	NA	NA	NA	NA
BMS003_00444	1341			hypothetical protein	ATGGACACTACCAGCATAAAAAATTTATTCAAACTTAAATCCGTTCCGATAGAACCCAAACAGGAACCGTCTCCACAGAACAATGACCATCTGAACGATGAATCTCCGGAAGAAACCCGGAAAAGAACCTATCATGAATCGGGATACAGAGACAGTGCGCGCACCAACGGAAATTATTCTACCCTCTCCATTTGCCTTGATGCCGTATATTCCAAATTTCAGAATGAAGAAAAGGAAATGGTAGAAAAGCAGCAAAAGCTCAAAGAATCCTACGTTAACGAACAGAAAAATAGGGAAACTGAAATCAAAGCTTTATTTGTTTCACAGGAGACCAAAGAAGAACAGTTAAAAAACAAAAACGAGGAAGTTGAAAATCATCAGCATACCATTGAAACTTTAAAAGCCGAAATTCTTGACCTTCCAAGAAATCCTGAAAAGTATAATGTAAAAGCTTCAAAAGGAGCTTCTGCAAAATTTTGGATCGGTTTTATTCTTTTGATTCCAATAAGCTTATATCTGTTGACATTCTATATTTCAACCTCTTATTCCGCTTTCTTTAAAAGCTTTGATGCAAAGAGCACAGTTATCCAAAGCGTTTTAGATGCACAGGCTTTCAGCAAAGCCTGGAATGAAGGAGCTATTGAAGGAGCTTTCGTCACCTTAATTCCATTTGTATTTCTGGGTCTGGGCTTTTTGATTCATATGTTTAACGAAACTAAAACCAGGGCCAATTACATCAAATTAGGCTTGTTATTCATTGTAACCTTTGTTTTTGATTCCATCCTAGCCTATGAAATTGAATCAAAACTATATGAGCTCAATAAAACATTTGATTCTCCTCCTTTCAATCTTCAAATAGCTTTTACCAAAATTCAGTTTTGGGGAATTATTTTCGCCGGATTCATTGTATACATTATTTGGGGAGTGGTTTTCGATTTTGTCATGAAAGAACATCGTGAAAAAGATAAGATCAGAAACGAACAGGAGATCAGGCAGAAAAGAATTGAATTCTCTCAGGAAAAGATCAATCTTTTGAAAAAAGAAATCGAAGAAACCCTTACCAGCATCGGAACCATAAAAGAAACTGTTATCAAGACACGGGGAAGAATTGAAGAACTTCAGAATATTATTGACGGGGTTATTATTCCTACCAAAGATTACAAATTATATGCTTCGGAATACGTTCAGGGCTGGATCACTTTTATCGGAGAAAAAATAGCCGTTTCAAAAACTGAGAAACAAACGATGATTGATGACTGTATTGCCACCTATACTACCAATCTGGAAACTGTGGGTGCTAATTCCGACAATCAGAACTTAGTGTATTTATCATCTTTATAA	MDTTSIKNLFKLKSVPIEPKQEPSPQNNDHLNDESPEETRKRTYHESGYRDSARTNGNYSTLSICLDAVYSKFQNEEKEMVEKQQKLKESYVNEQKNRETEIKALFVSQETKEEQLKNKNEEVENHQHTIETLKAEILDLPRNPEKYNVKASKGASAKFWIGFILLIPISLYLLTFYISTSYSAFFKSFDAKSTVIQSVLDAQAFSKAWNEGAIEGAFVTLIPFVFLGLGFLIHMFNETKTRANYIKLGLLFIVTFVFDSILAYEIESKLYELNKTFDSPPFNLQIAFTKIQFWGIIFAGFIVYIIWGVVFDFVMKEHREKDKIRNEQEIRQKRIEFSQEKINLLKKEIEETLTSIGTIKETVIKTRGRIEELQNIIDGVIIPTKDYKLYASEYVQGWITFIGEKIAVSKTEKQTMIDDCIATYTTNLETVGANSDNQNLVYLSSL				NA	NA	NA	NA	NA
BMS003_00445	408			hypothetical protein	ATGGAAAACAATCATATAACAGAAAATCTCAAAGCTCATTTCTTAAGGCTGTATCAAATGGCAATCTGCGATGACGATTTCAGCGCATTAGAATTGAAAATGCTATACAAATGTGCCGAAGAAAGAGGAATTTCATCAAAAAATTTAGACGAAATCCTTTTAAATCCGATCAACTTAAAATCATTGGTTCCTAAAACCATTGAAGAAAAAGTAGATTACCTGTATGATCTCACAGTCATGATCTGGGCAGACGGAATTGTTTCTCCAAATGAATATTCTGCCATGCAAAAATATGTTATGATGTTTGGTTTTTTGGAAGAAAATGCAACGGCAATTGTAGATTATCTCATTGAAGCCGTAAGAATCGGGAAGAACAAAAGTGAAATTTTATATGAACTAAAAAACTAA	MENNHITENLKAHFLRLYQMAICDDDFSALELKMLYKCAEERGISSKNLDEILLNPINLKSLVPKTIEEKVDYLYDLTVMIWADGIVSPNEYSAMQKYVMMFGFLEENATAIVDYLIEAVRIGKNKSEILYELKN				NA	NA	NA	NA	NA
BMS003_00446	399			hypothetical protein	ATGAAACCATTTCTCACCTTCTGTGCGTTATGTTGTTTCATCGGTATCTTCAGGCTTCCTATAGAATATTATACTTTCCTCAGAATTCTTATTTCCATCGGAGCTTTACTGGTTTTATACAACACGTTGAGTTTTAAGCAGCATTATTTCAGTATACTATTTCTGATCATTCTTATTCTTTTCAATCCCGTTTTCCCTATTTATCTGTACCGGAAAAATATTTGGATTCCTATTGATACCATAACCGGAATCCTTTTCTTACTGATCCGTTTCATAGAAAGAAAAGAGCAACAAAAGGAAGAAGAAATTACCGAAGAAACCTCAGAACCTTCAAAACCTATTCACCAAAGAACTGTTTCAAGAGACAGAATCATTAATCCAAGAAAAACAAAAGAATAA	MKPFLTFCALCCFIGIFRLPIEYYTFLRILISIGALLVLYNTLSFKQHYFSILFLIILILFNPVFPIYLYRKNIWIPIDTITGILFLLIRFIERKEQQKEEEITEETSEPSKPIHQRTVSRDRIINPRKTKE				NA	NA	NA	NA	NA
BMS003_00447	216			hypothetical protein	ATGAAATCAAAATCTACCGCCGCATTACTTGCTTTTTTCCTGGGAGGATTAGGCATTCACAGATTTTACTTAGGTCAAAATGTTATGGGAATACTTTATCTGGTATTTTGCTGGACATTCATTCCTGCATTAATTGCATTTTTCGATTTCTTCGTATTTATTTTTATGTCTGAAAGTCGCTTTAATAATAAATATAATTTTAACACAGGATTTTGA	MKSKSTAALLAFFLGGLGIHRFYLGQNVMGILYLVFCWTFIPALIAFFDFFVFIFMSESRFNNKYNFNTGF				NA	NA	NA	NA	NA
BMS003_00448	627			hypothetical protein	ATGAACTTAAAGAAATTTTTAAATGAAGAGCAGGATCCTCAGGCTGTTGAAAAGCTTTTAGGAAGGATCAACAGTCTACTTACCTCACAAGAAGCTGTGGAATATATAGCCGTTCAGAAAAAACCTGTCCTTAATTTATCTCCAGATTGTATTGCTCTCACCAACAGAAGAATCATTTTCTGTAGACCGAAAAACTTCGGTTTATCAATGGATTTTCAGGATTACAGTTGGGTAGATATAGCCGATTGCCATATCAAAGAAGGAATTGTGGGTGCAACGTTTATCATGAAAACAACAAACAACTTCACCAATATGATGGATTATCTCCCTAAAAACCAAGCCAGAAAGCTATACCAGTTTGCTCAGGAAGTAGAAGAAAAAATGCGTGGCCTAAGAAGAGAAAAAAATCTTGAAACGCTGAGAGCTTCAGCAGGAGGGGTTACTGTAAACAATGCAACCCCTATTATCACACAGCCTCAACCATTTCAGGAAGAAAAAAAACCACTGTTAATAGAAAATGAAGATCCTTTTGCATTACTGCAAAAACTAAAAGACCTAAAAGAGAACGGAATCATTTCTCCTGAAGAGTTTGAAATAAAAAAGAACGAAGTTTTATCAAGAGTTTAA	MNLKKFLNEEQDPQAVEKLLGRINSLLTSQEAVEYIAVQKKPVLNLSPDCIALTNRRIIFCRPKNFGLSMDFQDYSWVDIADCHIKEGIVGATFIMKTTNNFTNMMDYLPKNQARKLYQFAQEVEEKMRGLRREKNLETLRASAGGVTVNNATPIITQPQPFQEEKKPLLIENEDPFALLQKLKDLKENGIISPEEFEIKKNEVLSRV				NA	NA	NA	NA	NA
BMS003_00449	468			hypothetical protein	TTGAAAGCCAATGACAATATAGGACATGACGGAAGATGCACAGGTTCTGCCTATTGCACCGCCTGCTCCAATTGCTCAAGATGCGGGCACTGCAGCGGTGGCGGAACCTGTGGGGTTTGCAGAGGAAGCTCTTCCGGAAGAAGCAACTCTTCTGGCAACTCTGGTAAAAAAAGAAAGTCTGAAAAATACAAACCTTCCGATTCCTATAATTCATCCAAAACAAAATCCAGCAAACCACCAAAAGTATTTATTGATGAGGTTAATTTCAATATTAATTCCAACAACAGATACATTGCGGGAATAGAAGCAACAAATATTTACGAAAAGGCTTCCCTTAAATCTAAGATAATAGCAACAGTCTCTAAAAAGGCAAAGCTGATTCAACTTTCCAAAGAAGGTTCGTGGTATAAAGTACAAGTGAAATCAAGTGGAAAACAAGGATACGTTTATTATAAAGATGTAAAATAA	MKANDNIGHDGRCTGSAYCTACSNCSRCGHCSGGGTCGVCRGSSSGRSNSSGNSGKKRKSEKYKPSDSYNSSKTKSSKPPKVFIDEVNFNINSNNRYIAGIEATNIYEKASLKSKIIATVSKKAKLIQLSKEGSWYKVQVKSSGKQGYVYYKDVK				NA	NA	NA	NA	NA
BMS003_00450	1071			hypothetical protein	ATGGATCTTAAAATTAAACTGGATCAGCTTCATCAGAAAGTCATTGGTCTGAAAGAACAGATAGGAACGGAAGAAGCTACAAAAAATGCTTTTGTAATGCCTTTTATACAAATTCTGGGTTATGACATCTTCAACCCAACGGAAGTTGTGCCCGAATACATTTGCGACATTGGGACGAAAAAGGGAGAAAAAGTAGATTACGTTATCAAAAATAATGATGAACCTATCTTTATTATCGAATGTAAACACTGGAAGGAAAGTGCAGATGCCCACAATTCACAGCTTCACAGATATTATCATGTTTCGAAAACGAGATTTGGAGTTTTAACCAATGGTATCGTATACAATTTTTATACAGATCTGGAGAAGCCTAATATTATGGATGAAAAGCCATTCTTCACCATCAATATTGAGGATCTGAAAGACAGTTCAATCAAAATTCTGGAAAATTTCACAAAGAAAGATTATAATCTGGAAAATATTCTTGATTCTGCGGAAGCATTAAAATATATCAAGGCCATCAGAAAAGAATTCGAAAAAGAGATTGAAAACCCATCTGATGAATTGGTAAAACTATTGGTGAACCGTTTCTTTGAAAAGCCTTTAACAGCCAACAGAATGGTTTCTTTCAAAGAATATGCTAAAAAAGCTCTAACAACTTCTATTAATGAATCCATCAGCTTCCGGCTAAAATCTGCTTTGAGCATTAATGAACAAATAGAAAAAAGAGAAGATGATGTAAAAACATCACAACCCATCGATGAGAATAATGATTCTAAAATTGTAACAACGGAAGAAGAATTGGAAGGATTTCAAATTGTAAAAGCGATCCTCAGAGAGAAAATTCCTTCTTACAGAATTGCTTACAGAGATACACTTTCGTATTTCGGGATTTTGCTGGATGATAACAATAGGAAACCGATTTGCAGACTGCATTTTAATACGGTAAATAAATATCTGGAAACTTTTCACAACGGAAAAGAAGCAGGAGAAAAGATTTTATTGAACACTCTTGATGAAATCTATAATTACAGAAATCAGCTGCATCAGACACTTGAAAATTACAACTAA	MDLKIKLDQLHQKVIGLKEQIGTEEATKNAFVMPFIQILGYDIFNPTEVVPEYICDIGTKKGEKVDYVIKNNDEPIFIIECKHWKESADAHNSQLHRYYHVSKTRFGVLTNGIVYNFYTDLEKPNIMDEKPFFTINIEDLKDSSIKILENFTKKDYNLENILDSAEALKYIKAIRKEFEKEIENPSDELVKLLVNRFFEKPLTANRMVSFKEYAKKALTTSINESISFRLKSALSINEQIEKREDDVKTSQPIDENNDSKIVTTEEELEGFQIVKAILREKIPSYRIAYRDTLSYFGILLDDNNRKPICRLHFNTVNKYLETFHNGKEAGEKILLNTLDEIYNYRNQLHQTLENYN				NA	NA	NA	NA	NA
BMS003_00451	339			hypothetical protein	ATGGGAAAATTCATCATCACACAAAGAATCAACAACGAGTATCAGTTTAATCTGAAAGCCGGCAATGGCGAAATTATTTTAACGAGCGAAGGATATGTTCAGAAAGCATCTTGCCAAAAAGGAATCGAATCTGTAAAAGTTAATTCACAGGACCTTTCGAGATACGACAAAAGGGTTGCGAAAAACGGAAAAGATTATTTCGTTTTAAAAGCAAGAAACGGAGAAATCATTGGGAACAGTCAAATGTACAGCTCAAAGTCCGGACTGGAGAATGGCATTGCATCCGTAAAAGCAAATGCTCCAACGGCAGACATCATTGATGAAACTTTAAAAAAATAA	MGKFIITQRINNEYQFNLKAGNGEIILTSEGYVQKASCQKGIESVKVNSQDLSRYDKRVAKNGKDYFVLKARNGEIIGNSQMYSSKSGLENGIASVKANAPTADIIDETLKK	PGPT0021560_4786	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
BMS003_00452	207			hypothetical protein	ATGAAAAAGTATTATGTAAACAAAAAAGCTCAAGCAAATGGAGACCATGAAGTACATCATGAAAACTGCGTATATCTCCTGAGCATTGATAACAGAAAATATCTAGGTCAGTTTTCGTCTTGTAAAGATGCAGTAAGAGAAGCAAAAAGGGATTATTCGAAAGCGAATGGCTGCAAAACGTGTTCTAACGAATGCCACACAAGTTAA	MKKYYVNKKAQANGDHEVHHENCVYLLSIDNRKYLGQFSSCKDAVREAKRDYSKANGCKTCSNECHTS				NA	NA	NA	NA	NA
BMS003_00453	663	rcsB		Transcriptional regulatory protein RcsB	ATGTTTAAAAAAGTCCTTATAGCCGAAGATCACGAAGTCAGAAATTTAGGTGTTGTAAATACGCTTACAGAATTACAAATTCAGCATTTTGATTTTGTAAATTATTGTGATGATGCATTTCAAAGAATAAAAACGGCAGCCACAAATAATGTCTCTTACGATCTGTTAATTACAGATTTATCTTTTGATAAAGATCATATAGAACAAAAAATCAATTCCGGTCAGAAATTAATCGAAGAGGTCAAAAAAATTCAGCCGGATTTAAAAATTATTGCTTTTTCCATAGAAAAGAAACCCAAAATCATTGATGATCTTTTTAAGATACAGAACATCAATGGTTTTGTAAGCAAGGGAAGAAATGATGGTAAAGATCTCAGAAACACCATCAGGAAAGTTTTTTCCGGTGAAACGGTTATTCCACAAGAAATATTGAATGCGATAAGAAATACATCATTTGAATTTACAGAATATGATGAAAATCTCATAGAACTTCTTTCTAAAGGGTGGAAACAAAGTGAAATTGAAACCTATTTCAAAGAAAATAAAATAACCCCTGATAGCAGAAGCGCTATTGAAAAAAGATTAAACGATCTGCGTTTTGAACTTGGAGCCAGAAACAATATTGAATTAATCGTCATATGTAAAGATATTGGCATCATATAG	MFKKVLIAEDHEVRNLGVVNTLTELQIQHFDFVNYCDDAFQRIKTAATNNVSYDLLITDLSFDKDHIEQKINSGQKLIEEVKKIQPDLKIIAFSIEKKPKIIDDLFKIQNINGFVSKGRNDGKDLRNTIRKVFSGETVIPQEILNAIRNTSFEFTEYDENLIELLSKGWKQSEIETYFKENKITPDSRSAIEKRLNDLRFELGARNNIELIVICKDIGII	PGPT0014845_376	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0014845-rcsB-K07687	NA	NA
BMS003_00454	1653			hypothetical protein	ATGATACGAAATTTATTCTTTTTACTTTTTGCTTTCTATCTTTTTACTTCATGTAAGGAGAGACCTGAAACAAACACCTCTATAGCAACTGCGGATAAATTATACAAAGAAGGTGTTAATCTTCTCGAAAAAAATGATGTTAAAGCTTATTCAAAACTCCAGGAAGCCATTTCCTACTATAATAAAGAAAATGATTTTTCTAATATTTCTAAAAGCCTGATTGTACAGGCAAATGCTCAAAAAAACAGAGGTGATTTTTTAGGTGCTGAATCAACCTTAGTAGAAGCCCTAAAAATGATGAAGGAAAATGATGAGAGTCTTTACGCATTATATGATACCATGGCTAATTTAAAGTTAAATCAAAAGCAATATTTCCAAGCTATTCAATGGTATAATAAAGCTCTTTCTGCCAAGATTGAATCTGAAGAAAATAGAGTAAGCATATTAAATAATAAATCTGTGGCGGAGTATAAATTAGGAAAATATAAACAGGCTTTGAGTGTATTACAAAAACTTGATTTATCAAAGCTTTCAGATCCAAACTTAAAAAATAGAATCAAAGATAATATTGAGTACATAAAATGGCTGGACAACAATAATGTGGATGCCCAAGCTAACATAGAAAACATATTAAAGCTTAAATTAGAAAATAATGACCTTTGGGGAGCAAATTCAAGCTATTCGCATCTGGCAGAAATAAATAAAAAATCAAATCCAGAAAAGTCACTTTACTATGCTAAAAAAATGCTTGATATCGCTCAAATCAACAAAAGCCCTGAAGACAGACTTGAAGCTCTTGAAAAAATAATTTATGTAGATAAGCCAGCAAATACAAATAGTCACTTCCTAACATATAAAAACCTATCTGACAGCATACAAAACAGTCGTAACGATTACACAACTAAATTTGCATTTATAAAATACGAAAACACAAAGGTAAAAGCGGAAAAGGCTGAAAAAGAAAATCAACTATTATGGTTATCGCTAGTTTTAGCATTACTTATTGCTATATTTATTGTAGTGGTCACCTTATACAAAAAAAGGCAGAAAAGACTTCAGCAAGAAAAAGAAATCGAAGTAAAAAACACACAGCTCAAAATGTCTAAGAAAGTTCATGATGTGGTTGCCAATGGACTTTATCACATGATGATTGATGTTCAGAATAATCCTCAGATGGACAAAACAAAAATTCTTAATGATATAGAGAAAATGTACGAAGAATCCAGGGATATTTCCCATGAGAACATTGCAGAAAAAGATTTTGCATTACGTTTTATCAATATGATTAGCTCTTATTCTTGTGACGAACAAAAGGTTTTACCATTAGGTTATAAAGAAAGTATCTGGGAAAATATTCCGTATAACACACAGCTTGAGCTTTATTATACTTTGAGGGAGGTTCTTGTAAATATGAAAAAGCACAGCCAGGCAAAATTGGCTTCTGTAAGATTTGAAAAAAACAATGACAGCTTAAAAATAAAATACACAGACAACGGAATAGGAATCAGTAACTTAGATCAAAAAAAAGGAACAGGAATTCATAATACGGTTTTCCGTATTGAAAGCGTAGGAGGAGATATTATTTTTGAAAAAAATCCGACAGGTGGATTAATTGTTCAAATAACCATTCCAATACAATCAAAATATGTTTAA	MIRNLFFLLFAFYLFTSCKERPETNTSIATADKLYKEGVNLLEKNDVKAYSKLQEAISYYNKENDFSNISKSLIVQANAQKNRGDFLGAESTLVEALKMMKENDESLYALYDTMANLKLNQKQYFQAIQWYNKALSAKIESEENRVSILNNKSVAEYKLGKYKQALSVLQKLDLSKLSDPNLKNRIKDNIEYIKWLDNNNVDAQANIENILKLKLENNDLWGANSSYSHLAEINKKSNPEKSLYYAKKMLDIAQINKSPEDRLEALEKIIYVDKPANTNSHFLTYKNLSDSIQNSRNDYTTKFAFIKYENTKVKAEKAEKENQLLWLSLVLALLIAIFIVVVTLYKKRQKRLQQEKEIEVKNTQLKMSKKVHDVVANGLYHMMIDVQNNPQMDKTKILNDIEKMYEESRDISHENIAEKDFALRFINMISSYSCDEQKVLPLGYKESIWENIPYNTQLELYYTLREVLVNMKKHSQAKLASVRFEKNNDSLKIKYTDNGIGISNLDQKKGTGIHNTVFRIESVGGDIIFEKNPTGGLIVQITIPIQSKYV				NA	NA	NA	NA	NA
BMS003_00455	198			hypothetical protein	ATGTTACAATTTATTTTAATGCTATTAGGTTTAGCATTCTCAACCAATACAGCTAATACAACAACAGCCAATAATAACCCAACTACAGTAACTGCTCAATCTCAAAGTGGAGCTACAGATCCTGTAGGAGACACAGGAGAAACCGGGGGTAGTGATACAGGAGGAGAAACAGGAACAACGCTTCCTCCTAAAAAATAA	MLQFILMLLGLAFSTNTANTTTANNNPTTVTAQSQSGATDPVGDTGETGGSDTGGETGTTLPPKK				NA	NA	NA	NA	NA
BMS003_00456	828			hypothetical protein	ATGTCCAAGAAAAAGCTACTAATTCATGAAGTATTTAGGAAAGCACAGCATGACTTTCCCAACAAGGGTACAAAGAGTGGTTGGTCAAATGAACTTTCTGACTATTTTGAAAAGACCTGGAACTTTATTATTCATGAAAGAACATTAACGAGGTACTATAATTCTTGTATAAGAGATAATGATGAACCGGATATCATAGACAAAGAAATTCTTGATAAGCTTAGCCAGTATGTAGAGTTTAAAGATTTTGCTCATTTTTCAACATCATTTAGCAGAAAGGATGAAGAGACAAAGTCTACTACAGTGCGTATAGATGTGGAGGATTATAACGGATTGCAGTCAGAAAAAGAAAATGGTATCAGAATTATAATTACTCAGAATTTTAATATTCCTGAGTTTGTAAAAAAGAATGGGTTAGGAATTGCAGGTGTTTTCTTGATTGTAAGTGCTTTTGCAGGGAATAAGTATTTCCCAAGCAATAAGAAGAGCGAGGTACTAAATAGCCCATTAGGCATTTTCTCAAAACCTGATCTGGATATTGAGAAAAAATATATGTATTGGAATGGGGAAAAATATATTGCGACTGATGAAAATTATATTGGGCCAACCTACCAAAGTATTGCAATGAATAAAAATGTATTTATTCATTTTAGAAAAATCACTAGGCCAGATACATTAACCCTTGTGAATTCTTCGGGGAAGGTGTGGTGTTCTAAATATAATAATGAGGTTAGTTTTTTTACAATGGATGGAGTTAATCCAGACAATAAAAAAGAATTAAAACTGGCAACTGATCATATGATTTTAACTTATGGTAAAGGAGAGTAA	MSKKKLLIHEVFRKAQHDFPNKGTKSGWSNELSDYFEKTWNFIIHERTLTRYYNSCIRDNDEPDIIDKEILDKLSQYVEFKDFAHFSTSFSRKDEETKSTTVRIDVEDYNGLQSEKENGIRIIITQNFNIPEFVKKNGLGIAGVFLIVSAFAGNKYFPSNKKSEVLNSPLGIFSKPDLDIEKKYMYWNGEKYIATDENYIGPTYQSIAMNKNVFIHFRKITRPDTLTLVNSSGKVWCSKYNNEVSFFTMDGVNPDNKKELKLATDHMILTYGKGE				NA	NA	NA	NA	NA
BMS003_00457	1788			hypothetical protein	ATGAATAAAAGAATATTCTGCTGCTTAATTTTTATATCTGCGTTTCTATCGGCACAGAAACCTGTTCAGATAGCATTTCTTTCCGATGTGCATTTCCAGGATTTATACGGTAGTTTTTCAGATCATGATTTTAAAGGAATTATAAATCCAAAGACAGGAAGAGCTACTATTTTGAGAACAATGGATTCTCAATTGCATTCCACAAGAATTTTCAATGAGAACTATTTTGCTTTTCTCAAAGCGCTGGATGATATTGCTGTAAAAGGAATCAGAATTGTAGCTATGCCCGGTGACTTTTCGGACGACGGACAGGCATATAATCTTCGGGGCCTGCATACTATTTTAGAACAGTATCATCAGAAATATGGAATACGTTTTTATTTAACCACTGGAAATCATGATCCGGTAGGTCCTTTCAGAAATGATGGCGGAAAAAGTGATTTCCTTGGAAATGATGGAAAGCCACTGGGGATTTACAGTAATGGAAATATCGGAAAATCAACAGATAAAATCATTACAAAAGATATTGCAGAATCCGGATATCTTGAAATATTGAATGAATTAAAAGACTTCGGATTTTATCCCCAGAAAGAAGATTTGTACTGGAGTACCCCTTTTGATCATAATTCATATAAAAACTATACCTACAAAAAAGGATTACGGGCTGCAGATTATTCCAAAAGAATGTATGAAGTCGCTAAAGGTTTTTCTGTTCCGGATTTAAGTTATGTTGTTGAACCTGTAAAAAATGTGTGGATAGTTGCAATTGACGGAAATACTTACATCCCCAAAAATATCAATGAACGCCCTGAAAATACCACCAACTATAAAGGTGCAAGTATTGGTTATAATAATGTACTCACCAACAAACAGCATCTAATCCAATGGATAAAAAAGCTGGCTGTTGAAGCAAAGAAAAACAATAAAACATTGATTGCATTTACCCATTATCCCATGATTGATTTCAATGATGAGGCCACACAAGATCTGAAAGGATTATTAGGTGAAAAAAAATGGCAGATGGAGCGTGTTCCTCAGGAAGAAGTCGCAAAAGTATTTGCTGAAGCGGGTTTACAGATTCATTTTGCAGGCCATATGCACATTAATGATACAGGAATCAGAAGGGCAGGAGATCATATTTTAGTGAATGTACAGGTTCCGTCACTGGCGGCTTATCTTCCTGCTTATAAAATTCTGACGATCCAATCTCCTGATAAAATGGAAGTCCAAACCGAAGTTTTAAATGAAGTTTCCCGCTTTGATGAACTGTTCCCTTTGTATGAAAAAGAATATGAAGCTTTACAAAACAATACAGACAAAATACTTTGGAATAAAGACATCTTAAAAACAAAATCCTATCACGATTTCATGCTCTTTCATTTGAAAGAACTGGTTCGTCTGAGAATGATTCCGGATGACTGGCCTGCAGATTTTATTGAAAAAATTAAAAATTTAAATGGTGAAGATCTTCTGTTACTCGTTCAAAATAAAAACCAGCTACAAGAGAAAGGAATCAGACCTGAAGACTTTAGAAAATGGTCTTTTGATAATTTACTGCTGGATGTATATAAATTTCAATCAGCAGATGAACTTGCCAAAAAAGATATTCCTGAAGATAGGTTGATGCAATATCAGATATTGGAGAATTTATACAGGGATAAAGACTCGGAAGAACCATTTATTAAGCAATTGAAATCTGTTTTCAAAATCCTTTCATTGCTTTCCCATGGAGATCCGGCAGACCATTTTGAAATAGATTTAAAAAGGAAAGAAATTAAAAGACTGTAA	MNKRIFCCLIFISAFLSAQKPVQIAFLSDVHFQDLYGSFSDHDFKGIINPKTGRATILRTMDSQLHSTRIFNENYFAFLKALDDIAVKGIRIVAMPGDFSDDGQAYNLRGLHTILEQYHQKYGIRFYLTTGNHDPVGPFRNDGGKSDFLGNDGKPLGIYSNGNIGKSTDKIITKDIAESGYLEILNELKDFGFYPQKEDLYWSTPFDHNSYKNYTYKKGLRAADYSKRMYEVAKGFSVPDLSYVVEPVKNVWIVAIDGNTYIPKNINERPENTTNYKGASIGYNNVLTNKQHLIQWIKKLAVEAKKNNKTLIAFTHYPMIDFNDEATQDLKGLLGEKKWQMERVPQEEVAKVFAEAGLQIHFAGHMHINDTGIRRAGDHILVNVQVPSLAAYLPAYKILTIQSPDKMEVQTEVLNEVSRFDELFPLYEKEYEALQNNTDKILWNKDILKTKSYHDFMLFHLKELVRLRMIPDDWPADFIEKIKNLNGEDLLLLVQNKNQLQEKGIRPEDFRKWSFDNLLLDVYKFQSADELAKKDIPEDRLMQYQILENLYRDKDSEEPFIKQLKSVFKILSLLSHGDPADHFEIDLKRKEIKRL				NA	NA	NA	NA	NA
BMS003_00458	1077			hypothetical protein	ATGAAAAAGGCTGTTTTTCTTAGCATGTGCTTGTCTTCAACTCATCTGTTCTATGCACAATCTCATCTCCCCAACAACCTGAAGATGAATGAAATTCAGGTGATTGGATCTCATAATTCTTATAAAAAAGCTATCCTTCCTGAAGTATATCGTTATTTATCCCCAAAAGACACGCTGAATGTATTACCGAGGATTCAGTACGAGCACATTCCTATTCTTCAACAGCTGGATCTGGGATTGAGAAATCTGGAAATTGATGTATACGCAGACAGCAAAGGAGGAAAATATGCCCATCCGAAAATTCTGGATCTGGTAAAAACTAATGACCCTTTTGATCCCGAAGGTAAAATGAAGAAACCAGGCTACAAAATGATTCATATTACAGATATTGACTATCAGACATGGTATTATACATTGGAAGACTGCCTGAAGGACCTGAAAAAATGGTCTGACCAGCATCCCGATCATAATCCTGTATTTATCACCCTTGAACCTAAAGACGGAAAAGCCAATCAGTTCGGAACGGAACCGGAACATTATACCTCGCTGCTTTTTGACGATCTCGATAATGAATTGAGAAGGTATCTGGGAGAAGACAAAATAATCACACCCGATGATATCCGCGGTTCTTATAAAACACTGAACGAAGCTGTTTTAAAGAAAAAATGGCCAAAAGTAAGAGAAGTAAAGGGAAAATTCTTATTTGTATTGGATAATAATGGAGAAAACAGGGATTTGTATATTAAAGATCATCCATCTCTGAAAGGAAGAATGATTTTCACGAATTCCATTCCGGGAACTCCTGAATCTGCTGTTCTATTCATGAATGAGCCTAAAAAAGATGCTGCAGCCATAAAAGATCTGGTAAAAAAAGGATATATCATCCGTACCAGAGCAGATGCTGATACAATGGAAGCACGAAATGAAGATTATTCAAGGTTTCAGAAAGCCAAGGAAAGTGGCGCACAAATCATTACAACAGATTATTATTATCCGAGTAAATTATTCAAATCCAATTATAAGGTAAGTTTTGACAATAATACTTATGAAAGAATGAACCCGGTAACAGGAAAATAG	MKKAVFLSMCLSSTHLFYAQSHLPNNLKMNEIQVIGSHNSYKKAILPEVYRYLSPKDTLNVLPRIQYEHIPILQQLDLGLRNLEIDVYADSKGGKYAHPKILDLVKTNDPFDPEGKMKKPGYKMIHITDIDYQTWYYTLEDCLKDLKKWSDQHPDHNPVFITLEPKDGKANQFGTEPEHYTSLLFDDLDNELRRYLGEDKIITPDDIRGSYKTLNEAVLKKKWPKVREVKGKFLFVLDNNGENRDLYIKDHPSLKGRMIFTNSIPGTPESAVLFMNEPKKDAAAIKDLVKKGYIIRTRADADTMEARNEDYSRFQKAKESGAQIITTDYYYPSKLFKSNYKVSFDNNTYERMNPVTGK				NA	NA	NA	NA	NA
BMS003_00459	3045			TonB-dependent receptor P3	ATGTACCACAAAATTAATTTTTTTAAGTTTAAAAAGCTAATTCCGATTGCATTAATTTTTTTGGTGGCGAACCAAGCGGATGCTAAAGGATTTACTTCAAACTATCCTGTGTTTTCGCAGGTGAACGAAACCATTTCCGGAACTGTGACGGATCAGAAAGGAACGGCCATTCAAGGTGCCAAGGTCACAGTAGTAGAAACCGGAGACACAGCTTCTACTGATGTTTCGGGAAACTTTACCCTTTCGGCCAATATCGGGCAGACTTTATCCATTTCTTATGAAGGATATGTAATCCAGATGGTGAAAATCTCCGGCACTTCAGTTTCAGTACAATTAGAACCTCAAAAAGGATCCACTTCTATTGAAGAAGTTACACTGGTAGGATATGGCTCTCAGAAAAAGTCAGATCTTACAGGAGCAGTGAGCCAGCTTAAAGCCGAGAATTTCAAAGAAGGAATGAACATTTCTGTTGACAACCTGATGCAGGGGAAAATTGCGGGTGTCCGCATCGTTCAGTCGAGTGGAGAGCCAGGAGCGGGAGTGAATGTTTCCATCAGAGGTATCGGTTCTATCCGAAGCGGAAGCACCCCTTTATTTGTTGTAGACGGAGTTCCTCTGAGCAACGATGCCGTAAGTGCTACAGGCCCGAATATCGGTTTAGGAAATGCTCAGGCAAAGAATCCGTTAAATTTCTTAAATACCAGTGATATCGAATCCATCACCGTTTTGAAAGATGCATCTGCTGCTGCAATATACGGAGCAAGAGGATCAAACGGTGTTGTTTTGGTAACCACGAAAAGAGGAAGAAAAGGAGAGCCTTTGTTTACGTATGATACCTATTTAGGTTTTTCTTCAGTCATTAAAAAATTAGATCTGATGAGCGCTGATGAATACAGATCAGCAGGAATCAATAAATTATATGACCATGGCGGAAATACAGACTGGCAGGACGAAATTTTCAGAAATGCAGTGTCTTCCAATCATTCCGTTTCATTTTCAAAATCTACGGAGACGGGGAACTATTTTGCATCACTTTCCCATATGGACCAGGACGGTATTGTTTTAAACAGCGGTTTCAAAAGAACTACAGCCCGTTTGAATGCAGAAGAGTCTTTCTTTGACAACAAAAGATTAAAGGTTAAACTTAATCTTACTGCGAGTGATATCAAAGAAACCGGAATACCAAACGGAGCCAATGCCGGTTCTGACGGTCAGGTGATTATTCATGCTTTAATGGCCAACCCTACACGTTCTGTATATGATCAGAACGGAAACTTTACCAACTTCAATATGAATGCTCATTACAACCCACTGTATCTGCTGAGTGTTTATAACGATAAAACCAATACATTCCGGGTTTTAGGTAATACAGAAGCTACGCTGAGAATTTTACCGGGCTTGAATTATAAATTTAATTTGGGTATTGATAAAACCATCTCCGAGAGAAATACCACCATGTACCCGAATATTACAGACAGAACGCCGAAAGGAATGTACGTTCAGGCTAATCTTGATTCCTATAATGTACTTCTGGAACATTATTTAACTTATGATCTTAGCTTAAATAAACATAATTTCAGCTTGCTAGGTGGATTTTCTTATCAGAAGTTTAAAACGACGGGAACCTATTTCGGGGTAAAAAATATTGCCAATCAAGGAGCAGGAATTGCTCCGGACATTAATCCCGGATATTCTGGGGAAGCCTTTATTCCGGCAGCGGGTTATGCGCAGGAAAATGAACTGCAGTCTTATTTCGGAAGGGTAAATTATAATTTTGATAAAAAATATTTGTTAACAGCTTCACTGAGAGCTGATGGTTCTACCCGTTTCGGCCAGAACAATAAATATGGGTATTTTCCTTCAGTTGCAGTGGGGTGGACGGTTTCCAAGGAAAACTTCCTGAGAGATTCTCAAATTATCAATGAATTAAAGCTGAGAGGAAGCTGGGGACAAACCGGTAACCAGGAAGTTCCGAACAAGATCACACAGGCGAGTTCCTCACTGTCACCGTCCGGAGGATATTATTTGTATGATAATCTGGATCTGGTCAATGGAGTGGTCATCAACAGAACTCCTAATCCTGATCTGAAATGGGAAGTAGTGGAGCAGACCAATATCGGAGCAGACTTCAGTTTATGGAGAAACAAACTGTACGGATCATTGGAATACTACAACAAAGTAACAAAAGATCCTATTCTGAATATTCCTTCCAGGCCATTAAGCCCTACAAGTACGGTATGGCAAAACGTAGATGCAAAAATTGTCAATAAAGGTTTTGAATTCTCTTTAGGTTCAGAAATCATCAAAACTGAAAATTTCACATGGAATTTTGATGTCAACGGAGGTACAGTTAATAATGTAGTGAAAGACCTTCCGGTTTCTGCCATCTATTCAGGAGAAGTTTCAGGGCCCGGGCTTTCCGGAGTGACTGCCAATATTTACAAAAACGGATATGAGGCGGGTTCTTTCTATATGTTGAATTATCAGGGAGTGGATGCTAACGGAAAATATATCTATGAAGATGTAAATGGTGACGGAAGAATTGATCAGAATGACAGAAAAATCTTTGAAGGAGCTATACCGAATTTTACTTTCGGGATCAACTCTTATATGAAATACAAAAAGTTTGATTTCTCATTCTCTTTCATCGGGCAGACGGGTGGTTACCTTGTGAATAATACCGCATTGGACTTAAATATTAATAACTTAGCTTCAGACAGAAACGTGCTGAAAAACTTCTATGATTCAGGAGCTACCTTCACCAATCAGCCACAGTTGTCTTCCCTTTATCTTGAAAAATCAGACTTTATCAGACTGAATAATGTAAAACTGGGGTATACCTTCGATACCAGCCAGCTGAAGTTTCTGAGAAGCATCAATCTTTATGTAAGTGCACAAAACCTGATGACTCTTACAAGCTATACGGGCTACGATCCATTGGTGGACACCAACAAACAGGTAAGTGGAAACCAGTCTCTGGGAATTGATTATACCACGTATCCTTCTGCAAAGACCTTCATTTTGGGAGCTACTGTTAAATTTTAA	MYHKINFFKFKKLIPIALIFLVANQADAKGFTSNYPVFSQVNETISGTVTDQKGTAIQGAKVTVVETGDTASTDVSGNFTLSANIGQTLSISYEGYVIQMVKISGTSVSVQLEPQKGSTSIEEVTLVGYGSQKKSDLTGAVSQLKAENFKEGMNISVDNLMQGKIAGVRIVQSSGEPGAGVNVSIRGIGSIRSGSTPLFVVDGVPLSNDAVSATGPNIGLGNAQAKNPLNFLNTSDIESITVLKDASAAAIYGARGSNGVVLVTTKRGRKGEPLFTYDTYLGFSSVIKKLDLMSADEYRSAGINKLYDHGGNTDWQDEIFRNAVSSNHSVSFSKSTETGNYFASLSHMDQDGIVLNSGFKRTTARLNAEESFFDNKRLKVKLNLTASDIKETGIPNGANAGSDGQVIIHALMANPTRSVYDQNGNFTNFNMNAHYNPLYLLSVYNDKTNTFRVLGNTEATLRILPGLNYKFNLGIDKTISERNTTMYPNITDRTPKGMYVQANLDSYNVLLEHYLTYDLSLNKHNFSLLGGFSYQKFKTTGTYFGVKNIANQGAGIAPDINPGYSGEAFIPAAGYAQENELQSYFGRVNYNFDKKYLLTASLRADGSTRFGQNNKYGYFPSVAVGWTVSKENFLRDSQIINELKLRGSWGQTGNQEVPNKITQASSSLSPSGGYYLYDNLDLVNGVVINRTPNPDLKWEVVEQTNIGADFSLWRNKLYGSLEYYNKVTKDPILNIPSRPLSPTSTVWQNVDAKIVNKGFEFSLGSEIIKTENFTWNFDVNGGTVNNVVKDLPVSAIYSGEVSGPGLSGVTANIYKNGYEAGSFYMLNYQGVDANGKYIYEDVNGDGRIDQNDRKIFEGAIPNFTFGINSYMKYKKFDFSFSFIGQTGGYLVNNTALDLNINNLASDRNVLKNFYDSGATFTNQPQLSSLYLEKSDFIRLNNVKLGYTFDTSQLKFLRSINLYVSAQNLMTLTSYTGYDPLVDTNKQVSGNQSLGIDYTTYPSAKTFILGATVKF				NA	NA	NA	NA	NA
BMS003_00460	1761			hypothetical protein	ATGAAATCTAAATTTTTAAATATCAATAAAATTGTATTATCCATTGCTGTATTGTCTTTAATGGGATGTACGAATCTGGATGAAAAAGTGATCGATGAGGTACTGGGGTCTGAAACGGCAGATCCTGAAGCGGCTCTTGCGGCGGCTTACGGACAGCTGGGAGACGGAACGTTTGTAGATCACGGAAATGTCTTTGCTTTACAGGAGTACTCTACTGATGAAGCATTATTACCCACAAGAGGAAGTGACTGGGGAGATGGCGGAAAATGGAGAGCCATGCACGAGTTCACATGGGATGCAGGAAGTGATGTAGTGAAAACAACCTGGAATTCCCTGAATTTCGGGATCACAAAATCTCTGACAGCCATTTCTAGCATTGAAAAAAGCAACAGTATCAACAGAGCTTTGTTTTTAGCAGAAGCAAAAGGATTACTGGCCTATTATACCTATACAACGATTGACCTTTTCGGGCAGGCTCCTTACAGAGATCCGGGTAATATTAATGCTCCTATCCAGATCAGAAAGGCAGAAACGACCATTGACGAATTAATTACAGAAGTGGAAGGGCTCATTCCCAATCTTGCAGATATCAAAACTCAGAATACACACGCAGGAAGATTTACCAAGCAGGCAGCTTATGCATTTCTTGCAGATATGTATCTTAACAGAGCCGTTTTGAAGAATAAAACGGCAGTATCGTTCAACTTTATGGAGCAGGCAGTGGGCGGTGCAGGAACAGATATGGATAAAGTAATAGAATATTCCAATTTATTGATCAATAATCCGAATTTCAGTCTGGAATCCAATTATTTCCACAATTTTGATATCAATAATGATACAAGTAAGGAAATGATCTTCTCCATTGTTCAGAAGAAAAATACAGACAAAACTTCAGATAATGACCTGGCCTATATGTCTATGGAAAGAATCCAGAAGCCGTCTCCTGATAACAGAGGAACCAATGCATCCTGCATCACCCCGGAATTCTATTACTCATGGAACGGAAATCATGATGATCCGCGTTTTCAAAGATCTTACCAGTATGCGGACGGAACATGGTTCAGAAATGACGGAACAGATGTAAGCGTCCCTTCAACAAGTAAAGTGGAAGGTACAGGAAAACCATGGTTTCATTTCAACAGAGGTCTTCAGGTAGGACAGCAATATGGTCCTAAAATTCTTTCGGACGGGAATTTTGATATGACTGCCGAAGGTAGAATTAAAGTATATAAGTTATTCACAGAAAAAAATACAACACTTGCTGCAGATTTTACTCCCGAGCTGAATTTTGATAATCCTTCAGAAGCAGTATTTACACAAGCCCAGATTAACAGAGGGGTAAGGAACTTCAAGTTTGAATTTGACCCCGGATATGGAAGCAACGGAACAAGCGGTATGGATGTCCCTTTATACAGACTAGGTACAATCTATATGATGAGAGCAGAAGCTTACCTAAGAAGCGGAAATGTATCTGCAGCTTTAGCAGATGTGAATAAACTGAGAACAAGCAGAACGAATGATGCTCTAAAGAACAATGCTCCGGGCGCTGCCATTGCGTCTTTGGATGCCAATACACTCTTTAAAGAATCAGGATATGAGCTATATTGGGAAATGTACAGAAGAAAGGCGATGATCAGATTCGGGAAATTTGATTTACCGGGAACAGCTAAGCCTGCTTCTCAGCCTTACAGAAGAATTTTTCCTATTCCTCAGGCAACCATTGATGCTTCAAAAGATTTTACACAAAACCCCGGATATTAG	MKSKFLNINKIVLSIAVLSLMGCTNLDEKVIDEVLGSETADPEAALAAAYGQLGDGTFVDHGNVFALQEYSTDEALLPTRGSDWGDGGKWRAMHEFTWDAGSDVVKTTWNSLNFGITKSLTAISSIEKSNSINRALFLAEAKGLLAYYTYTTIDLFGQAPYRDPGNINAPIQIRKAETTIDELITEVEGLIPNLADIKTQNTHAGRFTKQAAYAFLADMYLNRAVLKNKTAVSFNFMEQAVGGAGTDMDKVIEYSNLLINNPNFSLESNYFHNFDINNDTSKEMIFSIVQKKNTDKTSDNDLAYMSMERIQKPSPDNRGTNASCITPEFYYSWNGNHDDPRFQRSYQYADGTWFRNDGTDVSVPSTSKVEGTGKPWFHFNRGLQVGQQYGPKILSDGNFDMTAEGRIKVYKLFTEKNTTLAADFTPELNFDNPSEAVFTQAQINRGVRNFKFEFDPGYGSNGTSGMDVPLYRLGTIYMMRAEAYLRSGNVSAALADVNKLRTSRTNDALKNNAPGAAIASLDANTLFKESGYELYWEMYRRKAMIRFGKFDLPGTAKPASQPYRRIFPIPQATIDASKDFTQNPGY				NA	NA	NA	NA	NA
BMS003_00461	555	msrA2	COG0225	Peptide methionine sulfoxide reductase MsrA 2	ATGGACAACAATAATTTAGAACAGATTACTTTCGGAGGCGGATGCTTCTGGTGTGTAGAAAGCTGTTTCAATATGCTGAAAGGAGTAGAGTCTGCCATTTCAGGATATTCAGGAGGACATAAAGATAACCCGACATATCAGGAGGTCTGTACAGGAGAAACAGGACATGCAGAAGTAGTACAGATCACTTATGATCCGGCCGTAATTTCTTACGAACAACTGATGGATGTTTTTTTCTTCCTTCATGATCCTACTCAGCTTAACAGACAGGGAAATGATATCGGAACTCAGTACCGTTCTGTAATTTATTATAAAGACGATGCTGAGAAAGCAAAGGCAGAAGAAGCCATCAAAGTGTCTCAGGAATCAGGAAGATGGGCAGGAACTTATGTAACAGAATTAACGAAATTCGATAAATTCTGGCCGGCAGAACAATATCATCAGGGATATTATAATGAAAACCCGACACAGCCTTATTGCAGTGCTGTAGTAGGTCCTAAAATCCAGAAGTTTAAAAAGTATTTTGGTGAGCTTGAAATGCTGAACGCAGAGTAA	MDNNNLEQITFGGGCFWCVESCFNMLKGVESAISGYSGGHKDNPTYQEVCTGETGHAEVVQITYDPAVISYEQLMDVFFFLHDPTQLNRQGNDIGTQYRSVIYYKDDAEKAKAEEAIKVSQESGRWAGTYVTELTKFDKFWPAEQYHQGYYNENPTQPYCSAVVGPKIQKFKKYFGELEMLNAE	PGPT0013065_3817	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
BMS003_00462	969	glcK	COG1940	Glucokinase	ATGTCATTAATAGATTTATCAAAACAAGTAGCCCTTGGAATTGACATCGGCGGAACCAATACTAAATTCGGAATCGTAAACCACCGTGGAGAAGTTCTGGATAAAGGAAGTCTGAGAACTGATGCCTTTGACAAAGTAGAAGACTTCATAGATGCTTTATATGAACATGTTCACCCAATGATGGAAAAACATGGTGTAGAAAAACATTTTGACGGAATCGGGGTAGGTGCTCCCAATGCGAACTACTATAAAGGAACCATAGAGCTTGCTCCTAACCTTCCCTGGAAAGGGGTTATTCCTTTCGCTGAACTGATGATCGCAAAATTCAACCTGCCTTGTACAGTGACCAATGACGCCAATGCTGCTGCACTTGGAGAAATGCTTTTCGGAGCAGCAAGAGGGATGAAGGATTTCATCATGATTACATTGGGAACAGGCGTAGGAAGCGGAATTATCGCTAACGGAAGCTTAATCTATGGACATGACGGGTTTGCCGGAGAATTAGGACATACGATTGTAAAGCCGGGCGGCAGAAAACACTGGAGCACAGGTTCTGAAGGAAGTCTGGAAGCATACGCCTCTGCTACCGGAATTACCATTACAGCGAAGAAAATGAGAGCCGAATTCCCCGAATCTATGCTGAATCAATACCCTGAAGACGAGATCAACTCTAAAACAGTATATGAATGTGCTGTAAAAGATGACCCAATTGCCATTGAAGTTTTCAGATATACAGGTCAGAAGCTGGGAGAGGCATTAGCTAATTTTGTAATGTTTTCTTCACCTGAAGCTATTCTTCTTTTCGGAGGAGTAATCAAAGCCGGAGATTTTATTTTAAAACCTGCCAAGCTACATATGGAAAGAAACCTTCTTCCGATTTTCAGAAATAAAGTAAAGCTGGTATTCAGTGAACTAGACGAAGCAGATGCTGCCATTCTTGGAGCGAGTGCATTGGTTTGGGAAAAATAA	MSLIDLSKQVALGIDIGGTNTKFGIVNHRGEVLDKGSLRTDAFDKVEDFIDALYEHVHPMMEKHGVEKHFDGIGVGAPNANYYKGTIELAPNLPWKGVIPFAELMIAKFNLPCTVTNDANAAALGEMLFGAARGMKDFIMITLGTGVGSGIIANGSLIYGHDGFAGELGHTIVKPGGRKHWSTGSEGSLEAYASATGITITAKKMRAEFPESMLNQYPEDEINSKTVYECAVKDDPIAIEVFRYTGQKLGEALANFVMFSSPEAILLFGGVIKAGDFILKPAKLHMERNLLPIFRNKVKLVFSELDEADAAILGASALVWEK				NA	NA	NA	NA	NA
BMS003_00463	1212			hypothetical protein	ATGAAGAAAAAACATCACCATAAAAAGAAACCCGGCTTTATCAAAAAATGGTCTGCCAAACTGCACCTTTGGTTCGGATTGGGGATAGGCTTTCTGATCTTTATTATCTCTATTACCGGAGCACTCTACGTTTTTAAGGATGAAGTAGAAAACATCACCAGAAAAGATGTTATTTACCATCATGAACAAAATATTGATCAGAAGCAGGTTCTTCCTATCAGAGTGATGGAAAAGGCCGTTGCGGAACAGGTAAAAGAAAAATATCCAATCCATTGGGTAAATGTCCCTATTGACAAGACACAGTCTTACATGTTCTTCTGGTACGAACATAATACGGAGGCCTGGAATTATTTTGATGAATTTCCTATCTATAAACAGGCCTATGTAAACCCATATACCGGGAAAGTACTGAGGGTCTATGATGAGAAAAACGGATTCTTCAATATTGTAAAGATGATCCACTGGAGCTATCTTCTGAAACAGGACTGGGGAACTTATGTAGTGGGAATTCCCGTTATCATCTTTATTATTATGCTGATTTCCGGAATTATTCTTTGGTGGCCTAAAAACAAAGCAGCAAGAAAACAGCGCTTCTCCTTCAAATGGAAAAATATTAAAAGCTGGAAAAGAAAGAACTATGATCTTCATAATGTACTGGGATTTTATGCTTCTATTTTTGCTCTGATCTTTTCTATTACAGGACTTTTCTATGCATTCTTTGTTGTTCAGGCCATGATCTATGTAATTTTTTCCGGTGGAGAAACCAAATATCCAGACTTCTCACATATTAAAACAAAAGCACCTATAGAGATGAGAACTGAAGGAACACTGGATAAGATCATCAACACGGTACAGACAAAATACCCTGAATCCTATGGTTTTGCTATAGATTTAGGCCACCCACATATGGATGACCATGAGCATCCCAACTTTGAAGTGTATGTCAAGCACCTTTCTTATTCTTATCATAAAAGCAGCAGCTTAATCTTTGATGAGAATTCCGGAGAACTTCTTCATACTCATGATCCAAAGGATAAAAACTTCGGTGAAAAGGTAGTGAGTGCCAATTATGATATTCACGTAGGAGCTATTTTAGGGCTTCCTACCAAGATTATTGCTTTTGTTGTCAGCATTATCTGTGCGTCTCTTCCGGTAACCGGATTTATGATCTGGTGGGGAAGAAAAAAGAAAAAAACAGCAAAACCGGTTTAA	MKKKHHHKKKPGFIKKWSAKLHLWFGLGIGFLIFIISITGALYVFKDEVENITRKDVIYHHEQNIDQKQVLPIRVMEKAVAEQVKEKYPIHWVNVPIDKTQSYMFFWYEHNTEAWNYFDEFPIYKQAYVNPYTGKVLRVYDEKNGFFNIVKMIHWSYLLKQDWGTYVVGIPVIIFIIMLISGIILWWPKNKAARKQRFSFKWKNIKSWKRKNYDLHNVLGFYASIFALIFSITGLFYAFFVVQAMIYVIFSGGETKYPDFSHIKTKAPIEMRTEGTLDKIINTVQTKYPESYGFAIDLGHPHMDDHEHPNFEVYVKHLSYSYHKSSSLIFDENSGELLHTHDPKDKNFGEKVVSANYDIHVGAILGLPTKIIAFVVSIICASLPVTGFMIWWGRKKKKTAKPV				NA	NA	NA	NA	NA
BMS003_00464	2115	iutA		Ferric aerobactin receptor	ATGAAAAAAGCACTTTTATCAGCTGCCTGTTTAGGAACTACTACCGTTTTTGCTCAGGTGAAAGACACTCTGCAAACTAAAAATGTAGACGAGGTTGTTATGACTGCCTCCAGAAAAAAGGAAAACATAAAAGAAGTTCCAAGCTCTATTACTGTTGTTGGAGAAAAACAGATTCAGTCTCAGCTTACTGTTAACTCAGATATTACAAGCATCCTGCAGTATACGGTTCCCAGCTTAGGAACCAATTCCGGACAAACTTCCAACACAGGACAGACATTAAGAGGACGCCAGGTTCTTGTTTTGATTGATGGAATTCCGCAGTCTACCCCACTTCGTAACGGAGCAAGAGATTTAAGGACTATTGACCCTTCCGCAATCGAAAGAATTGAGGTCATTAAAGGAGCATCTTCCATCTATGGTAACGGTGCAGACGGAGGGATCATCAATTATATTACGAAAAGAAACAAAACAGATAAAAAAATATCCGGAATTTCACAGATAGGTCTTACAGGGCAGCCTTACGGTGGTACTTTAGGAGTGAGAGCCAGCCAGCTATTATCCGGAAAGATCAATAAATTCGACTATACCCTTTCACTAGCCTACGAAAGAACAGGCTATACAAAAGACGGTGACGGTGTTTTGATAAGCCCAACTTACAGCATTGCCAAAATGGACAACTACAACGGATTATTGAAGATAGGTTATGACATCAACGAAAATCAGAGAGTCGAAGCTTCTTACATTGGTTATTCCTCTAGATCGGATCTTAATGTAGGATTAAAAACAGGAAAATACGGCATTACTCCTACCATCGGTGAAGGAATTGGAAAAGGACAGGAAACAACCCCTCAGGGAACTCCGAAAAACCACAACATCCGAGTGAGCTATGACAATAAGAACCTGTTTGCAGGAACGTCTTTGAATATCAATCTTTATTATCAGGATTTCAAAACTGTTTACGGGTACAGTGATACATTTTTCAATGGCGGACAGTCTAATGTGATTTCAAAAAAAGCAGGAGCAAGGTTCAATTTTGATACCCAGCTTTGGAATTCAGCAAACTCCCAGGCAGAAATCATCTACGGGGCTGATATCCTGAATGACGAAACGGTACAGAAGCTGGAAGACGGACGTTTCTGGACACCTAATATGAACATGACCAATATTGCTCCTTTCGTATTGGCAAAAATTGATCTGTTTAAAAAATTAACCATCAAAGGAGGACTTCGCTACGAAAATATCAAGGTAAATGTAGATGACTTCAATACGCTTTCTACCCTTAAAAATGACGGAACTTTCACCAAAAGTATTCCTGTAGCCGGTGGAAAACTGAATTATAATGCATTGGTAGGAAATATTGGTGTCCGTTATAATATTGAGCCTTATATCAACCTTTTCGGAAGCTTTTCTCAATCCTATTCTATCAATGAATTAGGAAGGATTTTAAGAACCTCAACTTCTGAAACGATCAACAGCCTGGAAACAAAACCAATTATCGTTAACAATTATGAGCTGGGCGCTACAGGACAGCTTTCGAGCTGGCTGAATTATGAATTAACTTCTTATGTGAGCACCTCTAAACTGGGAGCATCATTTGTACAGAGCCCGGACAGAGCTTTAATGATCCAGAGATCTCCTGAAATTGTGTATGGAGTTGAAGGTTTCCTACACTTTACTCCTGCAAAATGGATTCAGTTTGGCGGAAGCTACAGCTGGATGGAAGGGATTACCTCTGTAAAAGATGACGGTGATTATTCTGCAAAGATCAACAACAGCAGAATTTCTGCGCCTAAAGTATTGGCTTATGTTCAGACGAGGCCTATTCCTTCCCTATCCGTTGGTATTGATATGCTTCATTCTTTCCAGCAAAAAAGGTTCGAACCGAATTCTAAAACAGGATTGTATGCCTACGGTGAAGGATATGTTCCTGAATATACCGTTTTTAATTTCAAATCAAGCTATGAAGTCAGCAACAACTGGAGACTGTCATTAGGTATTGAAAACCTGTTCAACAAAGTGTATCAGCCTGCTATTTCTTGGTGGGCAGCAAGAGATAATGATTTTACAAATGCTCTTGGATTGCGAGGAACATTCATGATTGAATATAAATTTTAA	MKKALLSAACLGTTTVFAQVKDTLQTKNVDEVVMTASRKKENIKEVPSSITVVGEKQIQSQLTVNSDITSILQYTVPSLGTNSGQTSNTGQTLRGRQVLVLIDGIPQSTPLRNGARDLRTIDPSAIERIEVIKGASSIYGNGADGGIINYITKRNKTDKKISGISQIGLTGQPYGGTLGVRASQLLSGKINKFDYTLSLAYERTGYTKDGDGVLISPTYSIAKMDNYNGLLKIGYDINENQRVEASYIGYSSRSDLNVGLKTGKYGITPTIGEGIGKGQETTPQGTPKNHNIRVSYDNKNLFAGTSLNINLYYQDFKTVYGYSDTFFNGGQSNVISKKAGARFNFDTQLWNSANSQAEIIYGADILNDETVQKLEDGRFWTPNMNMTNIAPFVLAKIDLFKKLTIKGGLRYENIKVNVDDFNTLSTLKNDGTFTKSIPVAGGKLNYNALVGNIGVRYNIEPYINLFGSFSQSYSINELGRILRTSTSETINSLETKPIIVNNYELGATGQLSSWLNYELTSYVSTSKLGASFVQSPDRALMIQRSPEIVYGVEGFLHFTPAKWIQFGGSYSWMEGITSVKDDGDYSAKINNSRISAPKVLAYVQTRPIPSLSVGIDMLHSFQQKRFEPNSKTGLYAYGEGYVPEYTVFNFKSSYEVSNNWRLSLGIENLFNKVYQPAISWWAARDNDFTNALGLRGTFMIEYKF	PGPT0003790_23007	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
BMS003_00465	1200			hypothetical protein	ATGAGAAAAAAGCATCACCATAAAAAGAAGACTCCATCAAAAAAATGGTCTGCAAAATTACATTTGTGGTTTGGCCTAACTGTTGGGTTCATTGTTTTTATAGTTTCTCTTTCGGGAACTTTATATGTTTTTAAGGATGAAATACAGAATAGCTTACGTAAAGAGGTCATTTATCTGAAAAAAGAGGATATCGGGAAAAAAGCTTTGCCTATCAATCTGCTTCGTGAAAAAGTATCCTTAGAGCTTAATGAGAAATATCCTGTAAGCGCAGTACAAATTCCTTTGGACAAAACCAGATCATACCAGTTTCAGTACTATGAAAAAAGCAAAAAAGGGTGGAACTATTTTCAGCAGGTACTCATCAATAAACAGGTGTATGTAAATCAGTACACGGGGAAAATCCTTGCAGTATATGATGAAAAATATGATGTATTCAGTATTCTGAAATATATCCATTGGGGACTTTTGCTTAACTCTGAATGGGGACCGTATACGGTAGGAATCCCGACCGTTCTTTTTGTTGTTATGCTCATTACAGGGATTATTTTATGGTGGCCTAAAAATAAAAATGCCAGAAAAGGGCGTTTTTGGTTCAACTGGAAAAATGTAAAAACCTGGAAACGCAAAAACTACGATCTTCATAATATCTTAGGATTCTATGCATCATTTATTGCACTGCTTTTAAGTGTTACAGGACTCTATTTTGCTTATCCTTACGTAAAAAATACATTTACATTTGCCCTATCCGGCTCATGGGAACTTCCAAAGGAAAAAGAAAGAAAATCTCCGGATTCTTTGGTGGCTAAGAATGAAGCTGTTTTCGATCTGGCGGCCATACAGACTGCTAAACTATATGCAAAATCATCCAGCTTCAGAATTACGCTAAATGGAAAAAACAAAAAAGGAAAAGAGCTGAAAAACCTTCCGGTAACAGTTTACGGACTGGATGGAAGATACAGTGAAAGAAACATTCTGACATTTGACAAATACTCCGGAAAATTACTTGCCAACAAACCTCATCACAAACTTAATACTGCCGAGAAATATTCCAACGCCAATTATGACATCCATACCGGATCCTACTTCGGAATCATTGGAAAAATCATCTGGTTTATGGCCGGCCTCACGTGTACTTCACTCCCTGTAACCGGATTCCTTGTCTGGTGGGGAAAAAGAAAGAAAAAAGGAAAGAAAATATAA	MRKKHHHKKKTPSKKWSAKLHLWFGLTVGFIVFIVSLSGTLYVFKDEIQNSLRKEVIYLKKEDIGKKALPINLLREKVSLELNEKYPVSAVQIPLDKTRSYQFQYYEKSKKGWNYFQQVLINKQVYVNQYTGKILAVYDEKYDVFSILKYIHWGLLLNSEWGPYTVGIPTVLFVVMLITGIILWWPKNKNARKGRFWFNWKNVKTWKRKNYDLHNILGFYASFIALLLSVTGLYFAYPYVKNTFTFALSGSWELPKEKERKSPDSLVAKNEAVFDLAAIQTAKLYAKSSSFRITLNGKNKKGKELKNLPVTVYGLDGRYSERNILTFDKYSGKLLANKPHHKLNTAEKYSNANYDIHTGSYFGIIGKIIWFMAGLTCTSLPVTGFLVWWGKRKKKGKKI				NA	NA	NA	NA	NA
BMS003_00466	2157	cntO_2		Metal-pseudopaline receptor CntO	ATGAAAAATGTACTGATCTGTGTTTCCGTATTGGGGACTATGCTGGTTACTGCCCAAAAAAAGGACACCATCAAATCCAACAATATTGAAGAAGTAGTTGTTAACGGAAAATATTATCAGAAATATAAGCTGAATGAAGTTTCGGGCTCACTAAGAATTCAGACCCCTATTCTTGAGCTTCCCCAAAATGTACAGTCTGTAAGCTCTCAGGTTCTTGCTGATCAGATAACCCTGAACATGTCAGAAGGCATTGTTCGTAACGTAAGCGGAGCAAGAAAAGTGGAACATTGGGATAATGTATATTCCAACGTATTCATGAGAGGTGCCAGTATTGCGACTTTCATGAACGGGATGAATGTTTCCTCAACCTGGGGACCCATCAATCCCGATGCATCTATTATAGACAGAATAGAGTTTGTAAAAGGTCCTGCAGGATTTATGGGCTCTATGGGAGATCCTGCCGGGTTTTATAATGTAGTAACTAAAAAGCCTACCGGAAAGTTTGCCAACAGTGTACGTTTCACAACCGGAAGCTATAATCTTTTCAGAGGAGAAGCTGATCTGGATGGGGTTCTTGTAAAAGATGGGATTTTAGACTACCGTATCAATCTAATGGGAAGCTCTAATAAATCATGGGTAGAAAATGATAAAACAAGCAAAATCATTGTTGCTCCTTCCATTACTTTCAGACCTACAAAAAGCACTACTTTTACGGCTCAGTACAACTATCAGTACCTAAAATTCAATCAGCCGGGAGCTTATCTGATGTCTAACGACGGATACGCTTCACTGAATGTACACACCAATTTTAATGACCCAAACTTCAAGAAAACCGAAGTAAAAGATCAGAGTTTATTTTTAAGTTTAGACCAGAAACTTTTCAAAGACTGGGTTTGGAGTACACAATATGCTTATATGGACCTGAACTATGACGGAGGTTCTTGGTGGGGAACTTTTGATTCAGCCAATAAAAATGTTTTAAACAGAACATTAAGCAACTGGCAGGCAAAGGGAAAAAATCATATTTTCCAGACGTATGTAAGAGGAACCCTTAATACAGGGAATATTGTACATAAAATAATCGCGGGATTTGATTATGGAGACAGAAAATATAATGCTGACTTTTCATCTTTTGCCGGAGGGCCGTTCCCAATTGATATTTATAATGTGAATTACGGAATAGATCCTTCTCAGCTTCCTTCTTCTGATTTTTACACGTTAAACACTTCTGCTCCGTTCTATAACGACCAGGGAGTAAAATATACTTCCTATTATGCTCAGGATCAGATTGAAATGTTTAATAATAAGTTAAGATTAACGTTAGCAGGAAGATATACAAGTGGAAAAACCCATTCTGCATATCCTAATCTAAGCCCAGGGACTCCTATTGTACCTGATGCAGCTGGTGAGTTTACACCAAGAGTTGGAGTGAGTTATTCTATTAATGAAAACTTCTCTGCTTACGGTATCTATGACAAAACCTTCGTACCACAATCCGGAACAGGAATTGATAAAACCAAAATTACAGACCCTTTCAGAGGACAGAATATTGAATTCGGATTGAAGAAAGACTGGTTTGGAGGAAAATGGAATTCTACTTTCTCTGTATATGAAATCAGAAGACAAAATATTCTTGTTACAGGAAATTCAACCGAAAACAATGGAGTTCCTTTCCAGGTTCCTACCGGAGAACAAAGAGCAAGAGGTTTTGAAACCGATATCAAAGGAGAAATCATCAAAGGGCTGAACATTATCATCAACTATGCTTATACAGATGCAAAGACTGTAAAAGATACAGATCCTAAAAGAATTGGGGTTCAGTCTCCTGGAAATGCAAAAAATGTACAGAACACATGGGTAAATTATAGATTTGAAAATGGTCTCATGAAAGGGTTCGGAATTTCAGCAGGTTATCAGTATCAGGGTGGCAGACAATCCTGGTATGGGGTAAACGCTGCAAAAGATCAGAGCCTTCCGGATTATTTTGATACCAACTTCGGGATTTCCTATGTTGCAAAAAAATTCGATGTTAACTTAATGTTGAATAATATCCTTAACAAAAAGCTTTACAGTGGCTACAGAGGGGATGGCGGCGAATATGCCTGGATCTACAATGCACCGCGTAACTGGAGATTATCAATAGGATATAAATTTTAA	MKNVLICVSVLGTMLVTAQKKDTIKSNNIEEVVVNGKYYQKYKLNEVSGSLRIQTPILELPQNVQSVSSQVLADQITLNMSEGIVRNVSGARKVEHWDNVYSNVFMRGASIATFMNGMNVSSTWGPINPDASIIDRIEFVKGPAGFMGSMGDPAGFYNVVTKKPTGKFANSVRFTTGSYNLFRGEADLDGVLVKDGILDYRINLMGSSNKSWVENDKTSKIIVAPSITFRPTKSTTFTAQYNYQYLKFNQPGAYLMSNDGYASLNVHTNFNDPNFKKTEVKDQSLFLSLDQKLFKDWVWSTQYAYMDLNYDGGSWWGTFDSANKNVLNRTLSNWQAKGKNHIFQTYVRGTLNTGNIVHKIIAGFDYGDRKYNADFSSFAGGPFPIDIYNVNYGIDPSQLPSSDFYTLNTSAPFYNDQGVKYTSYYAQDQIEMFNNKLRLTLAGRYTSGKTHSAYPNLSPGTPIVPDAAGEFTPRVGVSYSINENFSAYGIYDKTFVPQSGTGIDKTKITDPFRGQNIEFGLKKDWFGGKWNSTFSVYEIRRQNILVTGNSTENNGVPFQVPTGEQRARGFETDIKGEIIKGLNIIINYAYTDAKTVKDTDPKRIGVQSPGNAKNVQNTWVNYRFENGLMKGFGISAGYQYQGGRQSWYGVNAAKDQSLPDYFDTNFGISYVAKKFDVNLMLNNILNKKLYSGYRGDGGEYAWIYNAPRNWRLSIGYKF	PGPT0003790_20430	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
BMS003_00467	3075	secA	COG0653	Protein translocase subunit SecA	ATGAGTTTTTTAAACAAAGTTCTTAAAGGGTTTTTGGGAGACAAAAAAGCGCAGGACCTAAAAGAAGTAAAAAAAGTTGTAACAAAAATCAAAGCTGTAGAACCTAACATCCAACAATTGTCGGATGATGGACTGAGACAAAAAACGGCTGAGTTTAAAGAGAATATAAAATCTGCAACCAGCAAGATCACAGCTCAGATAGAACAGATAAAAGAGCAGATAAAAAATTCAACCAACGTTGACGAAAAAGAAGCTCTTTTCACAAAAATTGAGTCTCTTAAGAAAGAATCATACGAAATTGAAGAAAAAGTTCTGGTTCAGGTTCTTCCCGAAGCTTTTGCATTGATCAAAGAAACGGCAAGAAGATGGGCACAGAATGGAGAAATCCGTGTAACAGCAAGTGACTGGGACAGAGAACTGGCAGCTGCAGGAAAAGATTTTGTTAGCATTCAGGGAGACACAGCTGTTTGGAAAAACTCATGGGACGCTGCCGGAACTCCTGTAGTTTGGGATATGGTCCATTATGATGTTCAGTTTATCGGAGGGGTTATTCTTCACAGTGGTAAAATTGCCGAGATGGCAACCGGTGAAGGTAAAACTCTGGTAGGAACATTACCTATTTACTTAAATTCACTTCCGGAAAGAGGAGTACACGTTGTAACGGTGAACGACTATCTTGCGAAAAGAGACTCCGCATGGATGGGCCCTCTTTATCAGTTCCACGGAATGTCTATCGATTGTATCGATAATCACCAGCCGAACTCAGATGGAAGAAGAAAAGCATACAACTCAGATATTACTTACGGAACGAATAACGAATTCGGTTTCGATTATCTGAGAGATAACATGGTGACATCACCTTCAGAACTGGTACAAAGAGAACTGAACTTTGCTATCGTGGATGAGGTGGACTCTGTATTGGTAGATGATGCAAGAACGCCATTGATCATTTCCGGCCCGGTTCCTCAGGGAGACAGACAGGAGTTTGATGTTCTAAAGCCTTCTATCGACAGAATTGTTGAAGTACAAAAGAGAACCGTCTCTACCATTTTTAATGAAGCGAAAAAATTAATCGCTGCAGGAAATACAAAAGAAGGCGGATTCAAATTGCTTCAGGCGTACAGAGGTCTTCCGAAAAACAGACAATTAATTAAATTCTTATCGGAAAGCGGAAACAGAGCATTGCTTCAGAAAGTTGAAGCACAGTATATGCAGGACAACAACCGTGATATGCCGATTGTAGATAAAGATCTTTACTTCGTAATTGAAGAGAAAAACAATCAGGTAGACCTTACAGACAAAGGTGTTGACTACATGTCTCAGGGTAACTCTGATCCAAACTTTTTCGTACTTCCGGATATCGGAACTGAGATTGCTGAATTAGAAGCTAAAAACCTTTCTAAAGAAGAAGAGTTTGAAGCTAAAGAAAGACTTTTCTCTGATTTTGCTGAAAAATCTGAGCGTGTTCACACGATGAGCCAGCTATTGAAAGCGTACACATTATTTGAAAAAGACGATGAATATGTAGTAATTGATGGCGAAGTAAAAATCGTTGATGAGCAGACAGGTCGTATCATGGAGGGACGTCGTTATTCAGACGGTCTTCACCAGGCGATTGAAGCGAAAGAGAATGTAAAAATTGAGGCAGCTACTCAAACTTTTGCAACCATCACGCTTCAGAACTATTTCCGTATGTACAACAAGCTTGCTGGGATGACGGGTACTGCTGAAACAGAAGCCGGAGAGCTTTGGGAAATCTATAAACTGGATGTAGTGGTAATTCCTACCAATCGTCCTATTTTGAGACATGACAGACAGGATCTGGTATATAAAACTAACAGAGAAAAATATAACGCCGTAATTGAAGAGGTAGAAAAATTAACCGCAGCAGGAAGACCGGTATTGGTAGGTACTACTTCTGTTGAAATTTCTCAGTTGCTTTCTAAAGCACTTCAGTTAAGAAAGATTCAACACCAGGTATTGAATGCGAAACTTCACAAGAAAGAAGCAGAGATTGTAGCTGGAGCTGGACAGCCGGGAGTTGTAACGATTGCAACCAACATGGCAGGTCGTGGTACCGACATTAAGCTTTCTAAAGAAGTAAAAGAAGCTGGAGGTTTAGCGATCATCGGCACAGAAAGACACGATTCAAGACGTGTTGACAGACAGTTAAGAGGTAGAGCGGGACGTCAGGGAGATCCGGGAAGTTCTCAGTTCTATGTATCTCTTGAAGATAACTTAATGCGTTTGTTCGGTTCTGAAAGAATTGCTAAAATGATGGACAGAATGGGTCATAAAGAGGGAGAAGTAATTCAGCACTCAATGATCAGTAAGTCTATTGAAAGAGCTCAGAAGAAAGTGGAAGAAAACAACTTCGGAACAAGAAAGAGACTTCTTGAGTATGATGACGTAATGAACAAACAACGTGATGTAATCTACAAGAGAAGAAAGAATGCTCTATTCGGAGACCACTTGAAATATGATATCACGAATATGATTTTCGATGTTGCCAATTCTATCGTTGCGAAAGGAAAAGCTTCAGGAAATTATAAAGATTTTGAATACGAAATCATTAAAACATTCACCATGGAATCTCCGGTTTCTCAAAGTGATTTTAATAATAAAAACGTTCAGGATCTGACGAATATCTTATTCAAAGCTGCTCAGGAAGACTACAGAATGAAGCTGAACCTGTTGAAAGAAAAATCTTTCCCAATCATTGAGAATGTATACCAAAACCAGGGATCTATGTTCAAAATGATCCAGGTTCCTTTTACAGACGGACACAAAACAATGACAATTGTAGCTGATCTTAAAGAAGCTTATGATACTCAGTGTGAAAGTTTAGTGAACGATTTTGAAAAGAACATCACTTTATCAATTATCGACGAAAACTGGAAACTTCACCTTCGTGAGATGGACGACTTAAGAAGATCATCACAAGGAGCTGTTTACGAGCAAAAAGATCCGTTAGTAATCTATAAGCAGGAATCTTTCCACTTATTCAGTGAAATGATTGACAAATTAAACAAAGAAATTATTTCTTTCTTATACAAAGGAGAAATTCCGGCTTAA	MSFLNKVLKGFLGDKKAQDLKEVKKVVTKIKAVEPNIQQLSDDGLRQKTAEFKENIKSATSKITAQIEQIKEQIKNSTNVDEKEALFTKIESLKKESYEIEEKVLVQVLPEAFALIKETARRWAQNGEIRVTASDWDRELAAAGKDFVSIQGDTAVWKNSWDAAGTPVVWDMVHYDVQFIGGVILHSGKIAEMATGEGKTLVGTLPIYLNSLPERGVHVVTVNDYLAKRDSAWMGPLYQFHGMSIDCIDNHQPNSDGRRKAYNSDITYGTNNEFGFDYLRDNMVTSPSELVQRELNFAIVDEVDSVLVDDARTPLIISGPVPQGDRQEFDVLKPSIDRIVEVQKRTVSTIFNEAKKLIAAGNTKEGGFKLLQAYRGLPKNRQLIKFLSESGNRALLQKVEAQYMQDNNRDMPIVDKDLYFVIEEKNNQVDLTDKGVDYMSQGNSDPNFFVLPDIGTEIAELEAKNLSKEEEFEAKERLFSDFAEKSERVHTMSQLLKAYTLFEKDDEYVVIDGEVKIVDEQTGRIMEGRRYSDGLHQAIEAKENVKIEAATQTFATITLQNYFRMYNKLAGMTGTAETEAGELWEIYKLDVVVIPTNRPILRHDRQDLVYKTNREKYNAVIEEVEKLTAAGRPVLVGTTSVEISQLLSKALQLRKIQHQVLNAKLHKKEAEIVAGAGQPGVVTIATNMAGRGTDIKLSKEVKEAGGLAIIGTERHDSRRVDRQLRGRAGRQGDPGSSQFYVSLEDNLMRLFGSERIAKMMDRMGHKEGEVIQHSMISKSIERAQKKVEENNFGTRKRLLEYDDVMNKQRDVIYKRRKNALFGDHLKYDITNMIFDVANSIVAKGKASGNYKDFEYEIIKTFTMESPVSQSDFNNKNVQDLTNILFKAAQEDYRMKLNLLKEKSFPIIENVYQNQGSMFKMIQVPFTDGHKTMTIVADLKEAYDTQCESLVNDFEKNITLSIIDENWKLHLREMDDLRRSSQGAVYEQKDPLVIYKQESFHLFSEMIDKLNKEIISFLYKGEIPA	PGPT0025735_562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
BMS003_00468	222			hypothetical protein	ATGTACTGGACATTAGAATTAGCTTCATACTTAAGTGACGCACCTTGGCCAATGACAAAAGCAGAGCTTATTGACTACGCAATCAGAACTGGTGCACCTATGGAAGTAGTAGAAAACCTTCAGGCCATTGAAGATGAAGGAGAAATTTATGAATCTATCGAAGAAGTTTGGAGTGATTATCCTACTGATGAGGACTTCCTTTGGAACGAGGACGAATATTAA	MYWTLELASYLSDAPWPMTKAELIDYAIRTGAPMEVVENLQAIEDEGEIYESIEEVWSDYPTDEDFLWNEDEY				NA	NA	NA	NA	NA
BMS003_00469	1029	wbgU		UDP-N-acetylglucosamine 4-epimerase	ATGGTTTATCTTGTAACAGGCGGCAGTGGGTTCATCGGTTCCCATTTAATTGAACGATTATTAAGAAATGGACATTCTGTCATAAATATTGACAATTTTGATGATTTCTATGACTATCAGGTAAAAATTAAAAATACTTTAGAGTCAATCGGTAAAAATTCGGATTTTGAATTCTCAGATAAAGAGACTGATATCCCGCGTTTGGCTTCCCTCTCCCATTCTGATCAATACTCCCTCTATTGGCAGGACATCAGGGATCAAAAAGGCTTAAAAGAAATCTTTAAAAATCATCCTATTGACATGGTAATTCATCTGGCAGCTCTTGCCGGGGTTCGACCTTCTATTGAACGTCCTTTAGAATACGAAGAAGTGAATGTACGCGGCACCATGAATCTTTGGGAACTTTGTAAGGATTTCAATATTAAAAAATTTATCTGCGCCTCCTCTTCAAGCGTTTACGGAAATAATGAAAAAATTCCTTTTTCAGAAACCGATAATGTAGATAATCCTATTTCACCATATGCTGCTACCAAAAAAAGCAGCGAGGTTATAGGACATGTTTACCATTCATTATATAATATAGATATCATCCAACTGAGATTCTTTACGGTGTATGGACCAAGACAGAGACCAGATCTTGCCATACACAAGTTTGTAAAACTTATTTCAACCAATCAGGAAATTCCTTTCTATGGTGATGGAAGTACGGCCAGAGACTATACCTATATAGATGATATCATTGACGGAATTACCAAGTCTATTCTTTATCTGGAAAACACTTCCGGAGTTTATGAAATTATTAACCTGGGCGAAAACCAGGTGATCACTTTGTCTGAAATGGTAAAAACTATAGAATTGTCACTTGAAAAAACTGCCAATAAAAAAATTCTGCCAATGCAGCCGGGAGATGTCACAAAAACAAATGCCGATATTACAAAAGCAAGGGATCTGATAGGCTATAAACCGGCCACAGACTTCCAAAATGGCATAAAAAAATTTGTGGAATGGTTTTTGAGAAAACGACAATAA	MVYLVTGGSGFIGSHLIERLLRNGHSVINIDNFDDFYDYQVKIKNTLESIGKNSDFEFSDKETDIPRLASLSHSDQYSLYWQDIRDQKGLKEIFKNHPIDMVIHLAALAGVRPSIERPLEYEEVNVRGTMNLWELCKDFNIKKFICASSSSVYGNNEKIPFSETDNVDNPISPYAATKKSSEVIGHVYHSLYNIDIIQLRFFTVYGPRQRPDLAIHKFVKLISTNQEIPFYGDGSTARDYTYIDDIIDGITKSILYLENTSGVYEIINLGENQVITLSEMVKTIELSLEKTANKKILPMQPGDVTKTNADITKARDLIGYKPATDFQNGIKKFVEWFLRKRQ	PGPT0019020_1058	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
BMS003_00470	798			hypothetical protein	ATGCAGTTTCAAGGGCAAATTTTAAAAATGACGAGCTATGACGCCAAGCCAGTTCAGTACTATCTCAATCTTTCAGGGGATCTGATCCACATGAATGAGCTGTTTGGAAAAGAGTTAAGCATCAAACATACCGGATTTCAATGTGTAAATTGTGGAGAAAATAAGCCTATTTACAGAATGGGATTCTGCAAAAGCTGCTTTTTTGAAAGCCCTTATGCAAGTGATACAATTATCCGTCCGGAACTTTCTACCGCACATTTAGGCGTTGCAGAACGGGATCTTGAAGTTGAAAAACAAATTCAGCTGCAGCCACACACGGTGTATCTGGCATACACAGGAGATGTAAAGGTAGGAGTTACAAGAAATACACAGATTCCTACAAGATGGATAGATCAGGGTGCGACTTTTGCATTACCTATCGCAAGAACAGAGAACCGTTATGAAGCCGGAATGATAGAAGTTGCTTTAAAAGAGCATTTGCCGGATAAAACCAATTGGCGGAAAATGCTTCAGGATGATTTTGAAGGAGAAGTAGATCTTGCAGACTTCAGACAGAAGATAAAAGAATATTTTCCTGAAGATTTTCAGAAATTCTATAGTGATGGTGAAGAATTATGGATGTTCGACTATCCTTTTGAAAAGCCTGAAAAGGTCACTTCATTTACTTTAGATAAAAAACCAGAGTTTACAGGAAAGCTTACAGGAATCAAAGGACAGTATCTTGGATTTGAAGGCGGAAATTTCATCAATGTTAGAGGGCATGAAGGGTATGTGATTCAGCTTGAGATAAAGAACTGA	MQFQGQILKMTSYDAKPVQYYLNLSGDLIHMNELFGKELSIKHTGFQCVNCGENKPIYRMGFCKSCFFESPYASDTIIRPELSTAHLGVAERDLEVEKQIQLQPHTVYLAYTGDVKVGVTRNTQIPTRWIDQGATFALPIARTENRYEAGMIEVALKEHLPDKTNWRKMLQDDFEGEVDLADFRQKIKEYFPEDFQKFYSDGEELWMFDYPFEKPEKVTSFTLDKKPEFTGKLTGIKGQYLGFEGGNFINVRGHEGYVIQLEIKN				NA	NA	NA	NA	NA
BMS003_00471	2628			hypothetical protein	TTGATAAGTTTCGGGATCCTGGCAGGAGTTTTTCTTGCTGCGAACTTCGGACTGAATTTATGGCTGAAAACCCAGCTTCCCGACTATATAAAAAAGAATACAAACTATAAAGTTTCTTACAAAACACTGGATGTAGATCTGGGAACCGGGAATATTTTAGCAACAGGAATCTCCGTAAACAGTAAAAATCCGCAAAATACAGACGTTATCGGTTTACAGGGAACTGTTGACACTTTGAAGATAAGCCGTTTGGGAATTTATGACGCTGTTTTTAATAAAAGAATCAGTTCATCAGATTTGCTGCTGACAAAGCCTGATTTAAATATTATTCTGGCAAAACCTCGTGATTACAAAACCGGAAAGAAAAAAAATCCCTTTTTACTTGAGAATATCAGGATCAATAATGGTAAAATTGCTGTTTTCAAACATACTAAACAGAAATTTCTATCCGTACAGAAGCTTAATCTTTTTGTAGAGAACCTTCAGATGACTGAAGAATCTGCAGAAGATAAATTACCCATCATATTTGACAGTTACAGCATCAAAGGAGAAAAATTCTTTTTCCGTCCTGATGAAGCATATGCAGTTACCATAAGTGCTGTTAATACCACAAACGGACAAATCTCCGTTGAAAATTTCAGACTGATTCCGCTTCTTTCCTTTGCTCAGTTTAAAAAGTTTTACCCTGAAAAATCTCAGCGATTTGAGTGTAATATTCCAAAAATGGAATTCAAAAATGTGATGCTGAAGAAAAATAAGGTATCACTTACCAGCGCAGATTTTCATAATCCTGCTTTTACAGTATATAATACGGGAATAAAAGCCAAAAAGAATGAAAAAAAATCAAATTTCGAGATTGATTTAAAGCATTTTAAGCTGAATAATGCCGCAGTTCAGATCGACAAGCCGGATGGAAATAATCTTCTTTCTGTAGGCGCCCTGAGTTTAAATATCGATCAGCTGATGTTTAATAAGGAAACTTCAGAACAGATTATTCCTTTCGGATATAAAGATTTTCTGCTTTCAGGAAGAGATATTGTATATTCCAATCATCAGAATATTGCCGTAAGAAGCTTGGCTTTGAAGCCTACAAATGGTGAAATTTTGGATGTTGTATTGACACCGGGTACTTCCATCGCTGAAAAATCAACGATAAATTTAAAGACAGATCAAATTGCTTTTAATATCAATAAACTGGAATTCGTTGATAAAAAACTTAATCTGGATATCAAAGATATTCTTGTAAATCATGTAAACGGAATCATTAAAGCAGGAAATAAGAAACAGGATAAAACTTCTGAACAAGGGATTGTACAATCTCTTATTGTAAGAAAAATATCTTTGAAAAATTCAAATATTGTGTACGACAATGGCAAACAGCCTTTAGCCTTTCATGATCTGAATGCCACGGCAAATAATATTGAATTATCACCCAAACCCAACCAGCCGGGGCTTTCCTTTAAAGTAAAAGACTATTATGTTACCACAAGAAATCTCTCTTACAAAACACAGTTTTATAACATGAGCCTTGGGCTTCTGAAGCTCAATAAGAATAATGTGCAGATTAACAATTTTGCAATGAAGCCTCTTGTTTCGAGAGCACAATTTATCAAAATGATACCTGTTGAAAGAGATCTTTATGATTTGAAAGCTTCGCAAATAACGGCGGAAGGAGAGTGGGATCTGTTTTCACAGCATAAAACGGTTAATGTTTCCCATGTAGGGATAGAGTCTGCAAACGCCAATGTTTTCAGAAGTAAAATCCCGAAAGATGATCCAAAAATAAAAGTATTATACTCAAAAATGCTGCGTTCCATCAAAATTCCGATGACAATTCAGAACCTCGACCTGAGAAATTCGGTTCTGACATACGAAGAAGATACCCCGGAAAGTATGGGGCCGGGAAAACTAACCTTCGGCAACTTTAATATGAATGTCAAAAATCTGAATTCTGCTAAAACAAAAGGAAAGCCCACAAAAGTGGAAATTAAGATCAACTGTTCATTTATGAATCTCTCACCGCTTTCTGTAAACTGGAACTTTGATGTGGCAGATCAGAACGACAGATTTGCAATTTCCGGAAAAACAACCGGTCTTCCGGCCAGCGGAATCAATTCTTTTATCAGACCTTACCTTCATGTGACAGCTACTGCCGGGACGATCCAGGAAATGCTCTTCAGTTTTAATGGTGACCCAGCCGGATTACACGGAACCTTTAATCTTAAACATAAAGATCTGAAAATTGCAGTTTTAAATAAGAACAATCATGAGAAGAAAGGTCTTCTAACAGCCGTTGCCAATATTTTTCTGAGATCAGACTCAGGAAGATACCCGGAATCTGTTACTGTAGAAAATGTAGAACGTGATCCGACAAAGTCTTTCTTTAATCTTTTCTGGAAAGGAATTGAGCAGGGATTAAAGAAAACATTGATTGGTGTAAATGCCGAAAAAAAAGAAAAGAAAGTGAAAAGAGCTGTTTCATCTGTAAATGATATGAAACAATCCGTAAATGAAATAAAACAGGAAATAAAAAATAAAAAGGAAGTCCCAAAGCCGAAAGAAGAGAAGAAGGAAAAGAAAGGTTTTCTAAACAATATATTCAGAAAAAAAGAAAAATCTGAAGAATAA	MISFGILAGVFLAANFGLNLWLKTQLPDYIKKNTNYKVSYKTLDVDLGTGNILATGISVNSKNPQNTDVIGLQGTVDTLKISRLGIYDAVFNKRISSSDLLLTKPDLNIILAKPRDYKTGKKKNPFLLENIRINNGKIAVFKHTKQKFLSVQKLNLFVENLQMTEESAEDKLPIIFDSYSIKGEKFFFRPDEAYAVTISAVNTTNGQISVENFRLIPLLSFAQFKKFYPEKSQRFECNIPKMEFKNVMLKKNKVSLTSADFHNPAFTVYNTGIKAKKNEKKSNFEIDLKHFKLNNAAVQIDKPDGNNLLSVGALSLNIDQLMFNKETSEQIIPFGYKDFLLSGRDIVYSNHQNIAVRSLALKPTNGEILDVVLTPGTSIAEKSTINLKTDQIAFNINKLEFVDKKLNLDIKDILVNHVNGIIKAGNKKQDKTSEQGIVQSLIVRKISLKNSNIVYDNGKQPLAFHDLNATANNIELSPKPNQPGLSFKVKDYYVTTRNLSYKTQFYNMSLGLLKLNKNNVQINNFAMKPLVSRAQFIKMIPVERDLYDLKASQITAEGEWDLFSQHKTVNVSHVGIESANANVFRSKIPKDDPKIKVLYSKMLRSIKIPMTIQNLDLRNSVLTYEEDTPESMGPGKLTFGNFNMNVKNLNSAKTKGKPTKVEIKINCSFMNLSPLSVNWNFDVADQNDRFAISGKTTGLPASGINSFIRPYLHVTATAGTIQEMLFSFNGDPAGLHGTFNLKHKDLKIAVLNKNNHEKKGLLTAVANIFLRSDSGRYPESVTVENVERDPTKSFFNLFWKGIEQGLKKTLIGVNAEKKEKKVKRAVSSVNDMKQSVNEIKQEIKNKKEVPKPKEEKKEKKGFLNNIFRKKEKSEE				NA	NA	NA	NA	NA
BMS003_00472	351			hypothetical protein	ATGGAAAATTCAGAGAATTATGATGCAATGACCACTTTAAGCCAGGTTATGAAAACGCTTTCTGAAAGAGGTATACAAAGAGAATTCAGGATGAATGAAAAATGTGAAATGAAGTTTGAAAATTCAGATAAAATTTACCAGCCAGCTGATTTGATGATTCTGAAAACATATCGTTTCGAGGGAGACAGCAATCCTGACGACAATGCAGTCCTTTATGTGGTGAAAGATAATGCCGGAAACCGTGGGATGATCATAGATTCTTATGGAGCAGACAGCAATTATCCGGGTGAAGAGTTTGATAAGTTTCTGAGAGATATTCCTGTATTGGAAAGTGATGAGTTCAATTTCTGA	MENSENYDAMTTLSQVMKTLSERGIQREFRMNEKCEMKFENSDKIYQPADLMILKTYRFEGDSNPDDNAVLYVVKDNAGNRGMIIDSYGADSNYPGEEFDKFLRDIPVLESDEFNF				NA	NA	NA	NA	NA
BMS003_00473	195			hypothetical protein	ATGAAAAAAGAAGTTGGAGTTTTACTGGCAGGGGGAGTTGGTCTTTTGGCAGTATTAAGTTTAATAAGTATAAAAAAGATATTGACTAAAAAAGATAAAAAATATAGTGATTCCTATTCAGATTATCACAGACACTTTGATGAAAATAACCACGACGACGAAACACACGGAGTGGAATTTTACGCAGTGAAGTAG	MKKEVGVLLAGGVGLLAVLSLISIKKILTKKDKKYSDSYSDYHRHFDENNHDDETHGVEFYAVK				NA	NA	NA	NA	NA
BMS003_00474	1047			hypothetical protein	ATGCAAAACGAAAACTTCATAAAAGGTCAGGGAGCTCAGCGAAACGTTGTCAATCGTTTCGACAGATATACCTATGAACCAGAAGACGAAGATTTGGAAGCAGTAAAAACCTCTTTCACTGAAGTTTTTCCCAAAACTATTGTCAATCAGGTTAAAAGTGAAGATCTGCCCATGGAATACTCCATGAATCCTTATCAGGGGTGCGAGCATGGTTGTTCTTACTGTTTTGCAAGACCTACTCACGAATACTGGGGCTATAGTGCCGGAATTGATTTTGAAAGAAAAATCATGGTAAAGAAAAATGCCCCTGAATTATTAGAAAAATTTTTTCAAAAAAAAGGCTATAAAGCTGCCCCTATCCTGTTGTCCGGGAATACAGATTGCTATCAACCTGCTGAAAGACAGTTTGAAATTACGAGAAAATTACTGCAGGTCTGTCTTGATTACAGACACCCTGTCAATATTCTGACAAAAAATGCACTGGTGCTAAGAGATCTGGATATTTTAAAACCTATGGCAGAACATAATCTGGTGTCTGTTTCTCTAAGCATTCCGACAATTAATGAAGAGTTGCGTCGAAAGATGGAGCCGAGGACAAGCTCAGCAAAAAATAAATTAAAAGCAGTTGAAATTCTGTCTGAAAACAATATTCCTGTACACGTAATGGTAGCTCCAATTATTCCCGGGCTTAATAGTGATGAGCCGCTGAATATCTTAAAAGCGATTTCTGATGCAGGAGCCTCAGGTTTCGGATATACCCTTATAAGATTGAATGATACTGTTGAACCGGTTTTTGTAAATTGGATTGAAACGTATTTTCCGGACAGAGCACAGAAAGTCTTAAATCTCATCCGTTCAATGCGGGGTGGAAAACTGGGCGATAAAAGATATTTTGAAAGACAAAGAGGAGAAGGGAATATCGCGGAAATGATTCACAATACCTTTAAGATTGGCAAAAAGAAATTTTTTGAAGATAAAGAATTTCCAAAACTTTCAATTGTTAACTTCACCGGAACCCGAGATCAGCAACTTAGATTGTTTGATTGA	MQNENFIKGQGAQRNVVNRFDRYTYEPEDEDLEAVKTSFTEVFPKTIVNQVKSEDLPMEYSMNPYQGCEHGCSYCFARPTHEYWGYSAGIDFERKIMVKKNAPELLEKFFQKKGYKAAPILLSGNTDCYQPAERQFEITRKLLQVCLDYRHPVNILTKNALVLRDLDILKPMAEHNLVSVSLSIPTINEELRRKMEPRTSSAKNKLKAVEILSENNIPVHVMVAPIIPGLNSDEPLNILKAISDAGASGFGYTLIRLNDTVEPVFVNWIETYFPDRAQKVLNLIRSMRGGKLGDKRYFERQRGEGNIAEMIHNTFKIGKKKFFEDKEFPKLSIVNFTGTRDQQLRLFD				NA	NA	NA	NA	NA
BMS003_00475	753			hypothetical protein	ATGGAAACCCCGGAAAAATCTCATGTCAAATATTTCAATTTTCCTGTCCTACTCATGCAGGGCGTGTTAAAATCGAATCAAAGGATTAAGAAAGAATTTCTTGGTAATGTATTGCATTATTCCATTTATAGACATTCTGTTCTGATTGAAGATTTGAATGAGTATGAGGAAACTCAGCAGGAAAGATTTAATCGTTCAGCACATTGGCTTCATGTCGAGCTGGGAAATCCCAGGTATGCCTTAAATGAAGGAATGGAACTCAGTAATAAGTACAAAAACGCTAAAGTATTCACAGGATTAAATACAGAAGTTTTCTGGGATTTTTATAAAAACGATAAAACAGATTACCAGTGGGAGTGCCTGTTTGCATTTTTAGCCTTTAAATCTATTATCGGAAAGAAACAGTATGTCAAAACCAATAACCAGCTTCTTTATACCCGAATGGCAGGAAAAGAAAAAGTGAAAGAATATCAATCCTTAAAAGGGTTCAATTTTACAAGGTATCATTTGGATAAAATAAAAACAGAATTACAGACAGGCTGGGGACTTAAATATTATTCGAGATACACCAAAGGATTTTATGCAGGATTCGACATTGATCTTGAAACACTCATCTACGAAGCAGAAAAGAAAAAAGACAGTATGAAAGCAGCATTACTGAAAGCAGAGAAAAAGATGGCAGTTAATGCCGTTTTGGAGAGAATAAAAAATCAGCACCATATAGGCAGCTTAAAAAGAAAATCAGCACCTTAA	METPEKSHVKYFNFPVLLMQGVLKSNQRIKKEFLGNVLHYSIYRHSVLIEDLNEYEETQQERFNRSAHWLHVELGNPRYALNEGMELSNKYKNAKVFTGLNTEVFWDFYKNDKTDYQWECLFAFLAFKSIIGKKQYVKTNNQLLYTRMAGKEKVKEYQSLKGFNFTRYHLDKIKTELQTGWGLKYYSRYTKGFYAGFDIDLETLIYEAEKKKDSMKAALLKAEKKMAVNAVLERIKNQHHIGSLKRKSAP				NA	NA	NA	NA	NA
BMS003_00476	288			hypothetical protein	ATGATGTCACAAGTGCAATTTATCGGAACCTCTCCTAAAGAACTTATTGAAGAACTAAAAGTATCTTTAATTCCAGAACTTAAAGACCAGCTCTCTAAAGAATTTCAGCCTAAAGAACCTACAGAGTATCTTACCCGTCAGGAGGTGTGTGAACTTCTTTCCATTGATATGAGCACCCTTCACCGTTGGCGTAAGGATGGAGTTCTTATCGCTTATGGTCTTGGAAACCGGATTTATTTCAAAAGAAATGAGATTGAAGAACTTTTGAACAGAAATAAACTAAAATAG	MMSQVQFIGTSPKELIEELKVSLIPELKDQLSKEFQPKEPTEYLTRQEVCELLSIDMSTLHRWRKDGVLIAYGLGNRIYFKRNEIEELLNRNKLK				NA	NA	NA	NA	NA
BMS003_00477	894			hypothetical protein	ATGCAAAGATTACCTTTTTATCATACGTTTAAGGAATTTCAGGATAATTATAAATCTGATTTTGAGAATTGGCATAAGGATGAGCCTGAAGGTGACGAAGTCGGATTTTTAAAATGTGTTTTATATACGGCTGGATATATTGGCTACACTCATTTTGACAGAATTGAAATGAAATATAATGTTGTAGATATGTCCATTGGAGCAGATGGGATCACCCATCAATATGACATTGAAAATTACGCTTCTATTGTGATTGGAAATATTCACAACAATATTACCAGAAAATTTGGTCTTAAAAACCCTAATGAACTAGGAGAGTTTTTATATGACTTTACTGACAACCTTTATGACTATATTGGAGACAAGAGATTTGATGTGCTGTTTTTTGATGCCAGGATACTGATTTCTTTTTTCCATATTCAGAAGTTTACCCCTAGATACAGAACAGGATATAATGAAAAAGGTGAATATATGTATGATGCAGAAGGAGAAGTAGTGCAAGAGGAGGGGGATTTTAAAGAAGGGGTTATCTTTTTTGATTATGAAAAGTATGAGGTATTTTTAGATGAGGTAGGAAAGATAATCAATTTCATAAAATCAAAAACAGAAATTGAACCCTCTCATTCTAAAAAGAAAATAAAAGCTAAACTTTCCAACCCTCAAAAACTGGCTTTACTGCATGAGCTTGGATTTTTCGATCTTCCGGTATTTGAATCCCTTACCGAAACAAGAGTCAACGAGATAACAGGTCTTTTACTGGAAGCTGATCCGAAAGAGTTTGTTTATAAGAACAGACTGAATTTAAGATCTAAATCACCTGAATACCAGATTAACAAATACACGGCTTATCAATATCTTGAAGAAATGGAAAAACTGATTTCTAACACGTGTTAA	MQRLPFYHTFKEFQDNYKSDFENWHKDEPEGDEVGFLKCVLYTAGYIGYTHFDRIEMKYNVVDMSIGADGITHQYDIENYASIVIGNIHNNITRKFGLKNPNELGEFLYDFTDNLYDYIGDKRFDVLFFDARILISFFHIQKFTPRYRTGYNEKGEYMYDAEGEVVQEEGDFKEGVIFFDYEKYEVFLDEVGKIINFIKSKTEIEPSHSKKKIKAKLSNPQKLALLHELGFFDLPVFESLTETRVNEITGLLLEADPKEFVYKNRLNLRSKSPEYQINKYTAYQYLEEMEKLISNTC				NA	NA	NA	NA	NA
BMS003_00478	564			hypothetical protein	ATGCAAAAAAACACAAAGAATGCAATTCTGCTCAGTGATCTGGGCGGACTGGATGAAAATGATTTACAATTTTTAGAAGAAAAGTTAAACAGTTTAGATATTGAATTCACACGGATTACTGCTGATAATGGATATATTAATTATTTTGAGGATTTCTCCCTTCAAACGTTCTATGTTTTTTCTCCCTCTTTTTTATCAGAATTAATCAATCACAAAAAGGGTCTTGAAATCTGGCAATCTATAAAAGCTATCCTTACTTATACCCGAAACAAACTCTCAGGCAGAGAATATATAAAAGAGATTAAAGGGCTCACCGTCTTAAGACCTCTTAAGTTTGGTATTCATATGATGCTGGATGTAAATACGACTTATAATTTCGAGCTAAGTACTGCTGATAATGAGTTTTTTGATGTATCCCTAGATAAGATTTTATCTTTTCTAGTCCGTCAGATCCCTAATGAAAAGTATGAGCTTCCTTCATATGTGAGTTTCTCAGCTGAGAGAAAAGAATGGGAAGCTGAAACGTTTGAGCAGTATCTTTTAAGAAAAAGTATGAGCAACTAA	MQKNTKNAILLSDLGGLDENDLQFLEEKLNSLDIEFTRITADNGYINYFEDFSLQTFYVFSPSFLSELINHKKGLEIWQSIKAILTYTRNKLSGREYIKEIKGLTVLRPLKFGIHMMLDVNTTYNFELSTADNEFFDVSLDKILSFLVRQIPNEKYELPSYVSFSAERKEWEAETFEQYLLRKSMSN				NA	NA	NA	NA	NA
BMS003_00479	1296			hypothetical protein	ATGGCAACGGTAAAGTACTATCTGCGTAGTAAAACAAAGGGCAGTGCAATTCAGATTCAGCTATCATTATCGAAAGATCTTAAAATGCGAAATTCTACAGGCTTGCAGATTGATTACTCTGATTGGAGCGATAAGACCTCCCTTCCCAAGCAAAACAATCCGCACAATAAGAATCTGACAGCAGAGCTTAATGATCTAAAGAAATTTGTTTTAGAAGAATATAATAAGGATTTTTCTGGTGGTGTTTTATTTGATTCTCATTGGCTTAAAAATAAGATCAGTTTGTTTTTTGAAAGAATAGATGTTAAGACCAGTGATAATATAGTATATAATTACATCGTCCAGTTTAACGAGCTTCGTAAACTGGCTAAAACCAAAAAGACGACCGATAACCAATATCTCACCCTTGAAAATAAATTTTCCTGTTTTCAGAAGTTCCAGAAAAAGACTTATGTTTTCTCTGAGATAGACAAAAAGGTAATGCTGGAATTTAAGAACTGGCTGATGGAAAAAGACAAGCTGATGGAATCTACCACAGGGAGAACTTTAAAAAACCTGAAAACGATCTTACTGGATGCCAGAGGAAATGGAAAAATTCTACATCCCCAGATTGATAAGTTTACTATTGAGGGCGTACCTTCCATAAAAGTATTTTTAAACTTTGAGGAACTTTCAAAAATCAAAAATGCAAATATTATAGGTGAGGATTTACTTCATGCCAGAGACTGGCTTCTGATAGGTTGTTATACAGGGCAGCGTGTGAGTGACCTTTTGGACATGAAAAAATCAAAGATTTTCACTAAAACCGATTCAGAAGGAGATAGCTTCAGGTTTATAGATTTGATTCAGAAGAAGACAGGAAAAGATGTTACCATTCCCATTCATGATGAGGTTGAACAGATTTTACAAAAATATGGAGATAACTTCCCCCCTTTATTCAGAGGGAGCACTTTAAACAGTAATATTACTACTTTCAACAATCATATAAAAAAAGTATGTGAACTTTCAGGGATTAAACAGGTTTTAAAAGGGAGAATTTATAATGAAGAGCTAAAACGAAATGAAATTGTAGAGACAGAAAAATACAATCTGGTAAGTACCCACATTTGCAGAAGAAGTTTTGCAACGAACTTCTACGGGGATAAAAGATTTACGACTCCACAGATTATGGCTATTACAGGGCACAAAACAGAAACTACTTTTTTACAGTATATTGGAAAGACCTCATCAGACCATGCATTAAATACAGCAAAAACCTTTAAAGAAATTAAAAACCAACAGGAGAAAATATCCTGA	MATVKYYLRSKTKGSAIQIQLSLSKDLKMRNSTGLQIDYSDWSDKTSLPKQNNPHNKNLTAELNDLKKFVLEEYNKDFSGGVLFDSHWLKNKISLFFERIDVKTSDNIVYNYIVQFNELRKLAKTKKTTDNQYLTLENKFSCFQKFQKKTYVFSEIDKKVMLEFKNWLMEKDKLMESTTGRTLKNLKTILLDARGNGKILHPQIDKFTIEGVPSIKVFLNFEELSKIKNANIIGEDLLHARDWLLIGCYTGQRVSDLLDMKKSKIFTKTDSEGDSFRFIDLIQKKTGKDVTIPIHDEVEQILQKYGDNFPPLFRGSTLNSNITTFNNHIKKVCELSGIKQVLKGRIYNEELKRNEIVETEKYNLVSTHICRRSFATNFYGDKRFTTPQIMAITGHKTETTFLQYIGKTSSDHALNTAKTFKEIKNQQEKIS				NA	NA	NA	NA	NA
BMS003_00480	2004	dapb3		Dipeptidyl aminopeptidase BIII	ATGAACCTAAATCACAACATTTTCGGTACAGCCCTTATTGTACTTTCTACCATCATGACCAACGCACAGAGTTCTACAGCCAAACTGCCGGGAGATCCTACTTTGCCGTCTTCCAAAGCCAGTCTTGAGAAGCTTATTTCTTATGACAAAGGAAACTTTAAGTACAAAGTGGAAGATTATTTTGCAAGACCAAAAGCTTCAGCATTTAAAATCTCTCCTGACGGAAAATATCTTTCCTATAAAGAAAAAGATCAGGATAAAAAGAATCATGTGTATGTAAAAGACCTGAGCACAGGAAAAATTAATAAAGCCATCGTAGAAAAAGATGATCTTATCAGAAACTACGGCTGGCTGAACAAAAAACGTCTTTTCTATACGCAGGATAGAGGCGGGAACGAGAATATTCATTTGTATGCTACAGACATAGATGGCGGAAACCAGAAAGACTTGACACCATTTGACGGTGTAAAAGTACAGTCCATTATTCCTATAAAAGATACAGACTTCGTTGTCGTTACGCTTAATAAAAACAATAAGCAGATCTTTGAACCTTTTAAGATCAACTACATTACCGGGGAAATGACGCAGCTCTATGAAAATAAAGATGTAAACAGCCCTATTGACGACTATCTTTTTGATAAGGATGGAAACTTGAGAGGTTATAGTGTTCTTGAAAACGGATTAACCACAAAAACCTATTATAAAGATCCGCAGACCGGAAAATTCAATCTGATCAAATCGGCAGACTGGTCTGATACCTTTAGTATTATAGAATTTAATGAAAATTCTAAAAATAAAGATGAAGCATATGTGGTAACAAATCTGGATAGCGATAAAGCGAGAATAGTGCTGTATGATCTGAGAAAAAATGCAGTGATTAAAGAAATTTATTCTAATCCTGTATATGATGTAAGCTCAATAAGCACTGCCGGTAAAAACAGAAATTATGAACTTGATTTCATCAGTTATGAGGGTACTAAAGGAGAAACCGTTCCTGTAAGTAAATTTTATAAAGAAATCCATGATAAACTAAAATCTCAGTTTGGAGATAAGGAATTTGGAATTGCTTCTTCTGATGATAACAATGATAAACTTCTCGTTGTTGTAGGAAGTGATAAACTGTATGGAACTTATTACGAATATGATACAAGAACCAGGCAAACCAAACTTCTTTACAACCTGATGCCCCAGCTGAAGGAAGAGGATATGGCCGAAATGAGACCTATCCAATTTAAAAGCAGAGACGGACTGACCATTCATGGATATATCACATTGCCTAAAGCCGCATTGGAAGGCGAAAAAGTTCCTTTAATTGTAAACCCTCACGGAGGACCCCAGGGAATCAGAGACAGATGGGGATTCAACCCGGAAACACAACTTTTTGCAAGCAGAGGATATGCTACGCTTCAGGTTAATTTCAGGATTTCCGGAGGATATGGAAAATCATTCCAGAAAGCCGGATACAAACAGATCGGAAGAAAAGCGATGGATGATGTGGAAGACGGTGTAAAATACGCCATTGAACAGGGATGGGTAGATAAAGATAAAGTTGCCATCTATGGAGGAAGCCACGGCGGATATGCAACATTAATGGGATTGATCAAAACTCCTGATCTGTATACCTGCGGTGTGGATTACGTGGGAGTTTCCAATATTTTCACCTTCTTTGCTTCCTTCCCGGAATACTGGAAGCCATACAAAGAAATGGTAAAACAGATCTGGTATGACCTTGATAATCCTGAAGAAGCCAAAATTGCTAAAGAAGTCTCTCCGGTATTCCAGATTGATAAGATCAAGAAGCCATTATTTGTGGTGCAGGGAGCGAATGATCCAAGGGTAAATATCAATGAATCTGATCAGATTGTGAAAGCAATGCGCGCCAAAGGTTTTGAAGTTCCTTATCTCGTAAAATATGATGAAGGACACGGATTCGGAAAAGAACCAAACAGAATAGAGCTTTATAAATCGATGCTGGGATTCTTCGCAGAGAATTTTAATAAATAA	MNLNHNIFGTALIVLSTIMTNAQSSTAKLPGDPTLPSSKASLEKLISYDKGNFKYKVEDYFARPKASAFKISPDGKYLSYKEKDQDKKNHVYVKDLSTGKINKAIVEKDDLIRNYGWLNKKRLFYTQDRGGNENIHLYATDIDGGNQKDLTPFDGVKVQSIIPIKDTDFVVVTLNKNNKQIFEPFKINYITGEMTQLYENKDVNSPIDDYLFDKDGNLRGYSVLENGLTTKTYYKDPQTGKFNLIKSADWSDTFSIIEFNENSKNKDEAYVVTNLDSDKARIVLYDLRKNAVIKEIYSNPVYDVSSISTAGKNRNYELDFISYEGTKGETVPVSKFYKEIHDKLKSQFGDKEFGIASSDDNNDKLLVVVGSDKLYGTYYEYDTRTRQTKLLYNLMPQLKEEDMAEMRPIQFKSRDGLTIHGYITLPKAALEGEKVPLIVNPHGGPQGIRDRWGFNPETQLFASRGYATLQVNFRISGGYGKSFQKAGYKQIGRKAMDDVEDGVKYAIEQGWVDKDKVAIYGGSHGGYATLMGLIKTPDLYTCGVDYVGVSNIFTFFASFPEYWKPYKEMVKQIWYDLDNPEEAKIAKEVSPVFQIDKIKKPLFVVQGANDPRVNINESDQIVKAMRAKGFEVPYLVKYDEGHGFGKEPNRIELYKSMLGFFAENFNK				NA	NA	NA	NA	NA
BMS003_00481	453			hypothetical protein	ATGAAACTACTCGTCATACTTTTCGCAACATTTATTCTGGCTTTGCTGGGAACCTTTTTATTTCAGGGGAAGCCGGATTTTATATTTTCAGGTAACCTTGGAATGACTGTCTTCATTATATTTACAGGCTTTTCTCATTTTAAGTTTCAAAAAGGAATGGCTATGATGATTCCGGATTTTATGCCTGCAAAAATGTTTTGGGTGTATTTTACTGGAGTCGTAGAAATCGCAGCGGGAATAGGACTTATGATTCCATCTATCCGGGAGCTGACCGCCATTTTGCTGATTATTTTTTATGTTTTGATTTTTATTGCCAATATCAATTCTTCCCGAAAAAAGATTAATATTTTTAAAGCCGATTACACCGGCCCGGGAATGAAATATCTTTACACTCAAAGAATTCCGATGCAGATTATCCTGATTGCCTGGACATGGTATTTCGGGATTTATTAA	MKLLVILFATFILALLGTFLFQGKPDFIFSGNLGMTVFIIFTGFSHFKFQKGMAMMIPDFMPAKMFWVYFTGVVEIAAGIGLMIPSIRELTAILLIIFYVLIFIANINSSRKKINIFKADYTGPGMKYLYTQRIPMQIILIAWTWYFGIY				NA	NA	NA	NA	NA
BMS003_00482	459			hypothetical protein	ATGGAAACCTTATCATACGAAACAGTAATTGATGCTCCCCTGCAAAAAGTATGGGACATTCTCTGGAGTCCTGAAACATACAGTGAATGGACTAAGTATTTCGGTGCAGGATCTATCATGAAATCCGACTGGAAAGTAGGAGGAAAGACCTATTTTCTGAATGCACACGGAGAAGGAATGGTTTCAACCATAGACAGTCTGGACGAGCCTAATCAGATCGTATTCAAACATCTGGGAATGGTAGATAAAGAAGGTCATGAGGACACTCAGAGTAAAGAAGTCATGGAATGGAACGGCAGTTTTGAAAAATATTTTCTGATAGATTTTGGCGGAAAAACAAAGCTTCATGCTGAAGTTCAGGTAGAAAAACAATGGCAGGACCATATGAATACAGGCTTTACAAAAGGACTGATGGTAGTAAAAAGCCTTGCAGAAGGGATAAGCCTTGGCTCTGTGTAA	METLSYETVIDAPLQKVWDILWSPETYSEWTKYFGAGSIMKSDWKVGGKTYFLNAHGEGMVSTIDSLDEPNQIVFKHLGMVDKEGHEDTQSKEVMEWNGSFEKYFLIDFGGKTKLHAEVQVEKQWQDHMNTGFTKGLMVVKSLAEGISLGSV				NA	NA	NA	NA	NA
BMS003_00483	429			hypothetical protein	ATGGAAAAGTTATCATACGAAATAGAAATCAATGCCGAGCCGGAAAAAGTATGGAGTGTCCTTTGGGGAGACATTACCTACAGACAGTGGACAACAGCTTTTGCAGACGGTTCTTTCTATGAAGGAACGCTCGAAGAAAATAATATTGTCAAATTTCTTGATCCTAAAAACAACGGGATGTATAGCAGAGTAGAAAAAGTGATTCCTAATGAGGAAATAAAATTTCTGCATCTGGGAGAAATTTATGAAGGTATTGAAGTTCCACAGGATTGGGGAGAAGCTACAGAAGCTTACTTTCTTGAGGAAAATGAGGACGGAACTTTACTTAAAACGGAAGTTCAGACTCCCGCAGAATTCAAAGATTTTTTTGAAGAGAAATTTCCAAAAGCCATGGCAATTGTGAAGCATCTTTCGGAAAATCAGCTGTAA	MEKLSYEIEINAEPEKVWSVLWGDITYRQWTTAFADGSFYEGTLEENNIVKFLDPKNNGMYSRVEKVIPNEEIKFLHLGEIYEGIEVPQDWGEATEAYFLEENEDGTLLKTEVQTPAEFKDFFEEKFPKAMAIVKHLSENQL				NA	NA	NA	NA	NA
BMS003_00484	867			hypothetical protein	ATGAATAACGATATTTTCCCATGTCTCTGGTATGATGGAGATGCCAGGCAGTCTGCAGAATTTTACTGTAAAGTTTTCGGAGGCAAAATAACGGCAGATACCCCTGTTGTAATGAATATTGATTTATTTGGACAAAGGCTGATGCTTCTGAACGGAGGTCCGCAGTTCAAAAAAAATGCTTCGGTCTCTTTTATGGTAATTTGTGAAACTGAAGACGAGGTTCAGGAATACTGGGATCAGTTACTGGATGGCGGAATAGCTTTGATGGAACTGGGATCTTATTCCTGGAGTCCAAAATACGGATGGATTCAGGATAAATATGGGGTGACATGGCAACTGTTTTTAGGAGAAAAAGCAGGCGGTCAGAAGATAATTCCTACACTAATGTTTATCCATCAGAATAACGGAAAAGCAAAAGAAGCAATGCAGCTTTATACAAAGACTTTTCCTAACTCAAGCATAGGAAATATATTGACTTATGGAGCGGGAAGTGAAGGTCATAACAGCCCGGAACCTGCAGAAAATGTACAGCATGCTCATTTTACGATTGATAATTACAGTCTGTTCTGCATGGACAATTCTTATGATCATCAGTTTGATTTTAACGAAGGAATTTCATTAGTAGTTATGACGGATGATCAGCAGCAAACCGATCACTATTGGAATACCTTTACAGCAGATGGAGGAAGGGAAAGTATGTGCGGCTGGCTGAAAGACAAATATGGAATGAGCTGGCAGATTGTTCCTAAAAGACTTATTCAGTTAATGAACGATTCTGATCAGGAAAAAGCTTATAAAGTTGTACAGGCAATGATGAAAATGCAGAAAATTATCATTCAGGATCTGGAAGATGCTTATATTTCTTAA	MNNDIFPCLWYDGDARQSAEFYCKVFGGKITADTPVVMNIDLFGQRLMLLNGGPQFKKNASVSFMVICETEDEVQEYWDQLLDGGIALMELGSYSWSPKYGWIQDKYGVTWQLFLGEKAGGQKIIPTLMFIHQNNGKAKEAMQLYTKTFPNSSIGNILTYGAGSEGHNSPEPAENVQHAHFTIDNYSLFCMDNSYDHQFDFNEGISLVVMTDDQQQTDHYWNTFTADGGRESMCGWLKDKYGMSWQIVPKRLIQLMNDSDQEKAYKVVQAMMKMQKIIIQDLEDAYIS				NA	NA	NA	NA	NA
BMS003_00485	258			hypothetical protein	ATGATCAATCTAGTTATCATGTCAAAGAGTTTAAACTCCATTTATGCTTTTAATTATGACTCTTCGGAAGAATTTCTTCACGGAGTTATTGCAGTACCTGCAAGAAGGGCATTAGAAAAGGAAAAAATCAATTCTTTGGAAAAGCTTTCAGATTATTCCGAAAAAGAAATCATGGAACTCCATGGTTTCGGCAAAAATGCGATGATGAAACTGAAGAATTATATGAAAGAAAATAAAGTCTGCTTTAAAGAAGCATAA	MINLVIMSKSLNSIYAFNYDSSEEFLHGVIAVPARRALEKEKINSLEKLSDYSEKEIMELHGFGKNAMMKLKNYMKENKVCFKEA				NA	NA	NA	NA	NA
BMS003_00486	414			hypothetical protein	ATGGATCCAATTAAAATCGAGATTACAATTTTAGCACCGGTGGAAAAGGTTTGGAGCTATTTCAATGAACCAAGACACATCACGAAATGGAATTTCGCCCATGAAAGCTGGCAGTGTCCTAGTTCTGAAAATAACCTTACGGTAGGTGGCAAATTCAAAAACAGGATGGAAGCTAAAGACAAAAGTTTCGGATTCGATTTTGAAGGAGTATATGACGAAATAATTCCTCATGAGATTATTAAATATCACATGGAAGACGGGCGGAAAGTAGAAGTTGTTTTCGATAAAATAGATGACAATACAACGAAAGTCATTGAAATTTTCGATCCGGAAAAACAAAATTCTGTGGAAATGCAAAGGGATGGCTGGTATGCTATTCTGAACAACTTTCACAAGTACGTTGAGAATCATTAA	MDPIKIEITILAPVEKVWSYFNEPRHITKWNFAHESWQCPSSENNLTVGGKFKNRMEAKDKSFGFDFEGVYDEIIPHEIIKYHMEDGRKVEVVFDKIDDNTTKVIEIFDPEKQNSVEMQRDGWYAILNNFHKYVENH				NA	NA	NA	NA	NA
BMS003_00487	432		COG2764	putative protein	ATGGCTAAATTAAATCCGTATTTAAATTTCGACGGAACAGCTGAAGAAGCGTTCAATTTTTACAAAACAGTTTTCGGTGGTGAATTCGTTGGAGGAATTCATAAAATGGGCAATGCTCCCGGTACTGAAAACCTTTCGGAAGAAGAAAAAAACAGAGTAATACACATTGCCTTGCCTATAGGGGGAGACCTCTTAATGGCGTCAGATATTGTACCCGGATTTGGGCAGACTCTTACCGTAGGAAACAATAATTATGTATCTGTTTTTCCTGATTCCAGAAGCGAGGCAGACAGAATTTTTAAAGAGCTTTCTAATGGCGGAAATGTAGAAATGCCAATCGAAGACCAGTTTTGGGGAGACTATTTCGGATGCTTTCAGGATAAATATGGTGTTCATTGGATGGTGAACTATAATGAAGAATATGCAAAATAA	MAKLNPYLNFDGTAEEAFNFYKTVFGGEFVGGIHKMGNAPGTENLSEEEKNRVIHIALPIGGDLLMASDIVPGFGQTLTVGNNNYVSVFPDSRSEADRIFKELSNGGNVEMPIEDQFWGDYFGCFQDKYGVHWMVNYNEEYAK	PGPT0030505_1743	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS003_00488	780	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGATGAATCCAGTAGAAAAAGGCTATAAAAAAGTCAACGGAATCCAACTGTATTACGAAATATATGGCTCAGGAAAACCTTTGGTATTGATTCATGGCGGCGGTTCTTCTTTTCTTTTCGATTTTAAAGAAGTGATAGCAAGATTGGAAGGTAAATTTCAGCTCATAGGAGTTGACCTGCAAAATCATGGAAGAAGTGAACACCGCAACATTCCGGAAACATTTGAGCAGGACGCAGACGATGTAGCAGGGCTTCTGACAGAGCTTAACATTGAAAAAGCATCATTCTGGGGATTCAGTAATGGGGGAAGTACCGTAATGCAGATTGGCCACCGTCATCCTAAAATCGTTGAAAAATTAGTCGTTGCCTCAGCATTTTATAAAAGAAGCGGTATGATAGACGGCTTTTTTGAAGGAATGCAGGAAGCCACTTTTGAAGCAATGCCCGAACCTTTTAAAATTAATTTTTTAAATCTCAATCCGGATTTTTCAAAACTGGAAAACCTTTTTGAGAAAGACTGCAAAAGAATGCAGAGGTTTGAAGACTGGGATGATGAGGTACTGACTTCCATACAATCTCCTGCATTATTCATCAGCGGAGATCAGGACGTCATGAAACCGGAACATACCGCAGCAATGTGGCGCCTGGTAAAAGATTCACGATTAATAATACTTCCTGCAACTCATGGCACTTACATGATGCCCGATTTTGACGGGAATACCGATACCGTTTTAATAGACTTTACCATAAAAGAAGTCGAAAAATTTTTAACCCATTAA	MMNPVEKGYKKVNGIQLYYEIYGSGKPLVLIHGGGSSFLFDFKEVIARLEGKFQLIGVDLQNHGRSEHRNIPETFEQDADDVAGLLTELNIEKASFWGFSNGGSTVMQIGHRHPKIVEKLVVASAFYKRSGMIDGFFEGMQEATFEAMPEPFKINFLNLNPDFSKLENLFEKDCKRMQRFEDWDDEVLTSIQSPALFISGDQDVMKPEHTAAMWRLVKDSRLIILPATHGTYMMPDFDGNTDTVLIDFTIKEVEKFLTH				NA	NA	NA	NA	NA
BMS003_00489	525			hypothetical protein	ATGAACACACCAAAATCAAAAAAAATGGAGATCGTTATTCCGGCTTACAGAATGCATTCCCAAAGCTTTATGAATGTTCTGGAAGGTATTTCGGAAGAAGATGCTTTAAAAAGAATTGAAAATAAAACCAATCATATTGTATGGATGGCCGGAAACTTTATCAATATGCGTTATGGTCTGGGTTGGGTGCTTGGACTTCAGGAAGAAGATCCTTACACGGATTTGTTTTTCCAGGGAAAAGCATTGGATGAAAGCTTTAAATATCCTACACTGTCTGAATTAAAAGAAAACTTTCATGCAATTTCTGCTAAAGTATTTCAGAAACTTCATGAAGTAACAGATGAAGACCTGGATGAAATATTTGAAATAGGAATGAATATCCCCTTTATTAAAGAAACAAAGCTCAATTTTGTAGGAATGAGCATCGGCCGTGAAGACTATTTATGTGGCCAGATAGGTCTTATGCGAAGAATTTTAGACTATCCGGGGATGAAATATGATGCAGATGAAAACCTTAAGTATTAA	MNTPKSKKMEIVIPAYRMHSQSFMNVLEGISEEDALKRIENKTNHIVWMAGNFINMRYGLGWVLGLQEEDPYTDLFFQGKALDESFKYPTLSELKENFHAISAKVFQKLHEVTDEDLDEIFEIGMNIPFIKETKLNFVGMSIGREDYLCGQIGLMRRILDYPGMKYDADENLKY				NA	NA	NA	NA	NA
BMS003_00490	462			hypothetical protein	ATGGAAACACAATCAAACGACATAGAAATCATCAAAAATCAGGTGACCAGTACCTATTATGTGGTTGCTTTGAATATTGACGGGATAACCCATGAAGAATCAATGATTTTTCCCAATGGTGAAGCCAACTGTATGAACTGGATCCTCGGACATTTAATCTACATCAGAAATCCTTTACTGAATATTCTGGGTGAAGAATCCGTTTGGGACGATGAGAAATTTTCATTTTACAACAGAGGAGAAATTGCTTTGGATCATAAAGATAAATTGATCAGTTTCGAAGATTTAAAATCTTATCTTAAAAAATCTCAGGATAAGCTTGAATCAAAGCTCACTACACTTGAAAGCTTTAAATCTGAAATGATTAAAGATATCTCAACCCTCAGTCTTCATGAAATTTACCACAGCGGACAACTTGGCTATCTCCGAAGAATCTTAGGAAAACCGGGAGCTATAAAATAA	METQSNDIEIIKNQVTSTYYVVALNIDGITHEESMIFPNGEANCMNWILGHLIYIRNPLLNILGEESVWDDEKFSFYNRGEIALDHKDKLISFEDLKSYLKKSQDKLESKLTTLESFKSEMIKDISTLSLHEIYHSGQLGYLRRILGKPGAIK				NA	NA	NA	NA	NA
BMS003_00491	408			hypothetical protein	ATGAAAGTCAATCAAATTTATGTGAACCTTCCGGTAAAAGATGTACAGAAAACAAAAAATTTCTGGACGAAGATAGGTTTTTCTATCAATGAAAAATTCTCAGATGACAGAGCTGCCTGTGTTGTTTTAAATGATACAATCTATGTAATGTTTCTGCAGGAAGATTATTTCATGACCTTCACCAGTAAACCCATTGCTAAAGAAAATACCAGCCAGGTAATTGTTGCTGTAGGTTTAAACAGCCGTGAGGAAGTGGATAAAGTAGTAACCACTGCAGTAGAAAACGGAGCGTGGCAGCATGAAGAACCCGAAGATTACGGATGGATGTATCAGAACTCTTTCTGGGATCCGGACGGACATGGCTGGAATATCACTTTTGCCGATATGTCTCAAATGCCAACAGAATAA	MKVNQIYVNLPVKDVQKTKNFWTKIGFSINEKFSDDRAACVVLNDTIYVMFLQEDYFMTFTSKPIAKENTSQVIVAVGLNSREEVDKVVTTAVENGAWQHEEPEDYGWMYQNSFWDPDGHGWNITFADMSQMPTE	PGPT0028555_1591	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
BMS003_00492	591			hypothetical protein	ATGACGAACCAGGCTCTTGAAATATGTTACGATTTTCCATTCTTCTTCCCCGAAGAGCTTGCTGAAATATTTCAGGCTCACGAAAAAAGATCATTCCAGAAAGGAGATTTCATTCTTGAAGAAGGAAAAACGGCCAATGAATATTATATTCTCGAAACCGGATTAGCACGTTCCTATGTTAATGATTTCAACGGGAATGAAGTAACAACTCATTTTTTCACGGAAAATGAAGTGATTATTGAGGTTTTGTCAATGTTTCAAAGAGTTCCCTCACAGGAAAATATCGTTTGTATTACAGACTGCGAATGCTGGAAGCTGGATTATGATACCTTTCAGGAGCTGTTCCATAAAATCCCTAACCTCAGAGAATGGGGAAGATCCTGGATGTCTCAGGAGCTTTTTGCCTACAAACAAAGATCTGTAGAAATGTTCACCCTTTCAGCAACCAGAAGATACCTTAATCTGCTGGAGCAGAAACCAAGAGTCATACAATTTGCTCCCCTTAAGCAGATTGCCTCCTATCTGGGAGTTACAGACACTTCTCTGAGCCGTATCCGTAAGGAAATTGTTTCCCATCCTAAGAAAAATTAA	MTNQALEICYDFPFFFPEELAEIFQAHEKRSFQKGDFILEEGKTANEYYILETGLARSYVNDFNGNEVTTHFFTENEVIIEVLSMFQRVPSQENIVCITDCECWKLDYDTFQELFHKIPNLREWGRSWMSQELFAYKQRSVEMFTLSATRRYLNLLEQKPRVIQFAPLKQIASYLGVTDTSLSRIRKEIVSHPKKN				NA	NA	NA	NA	NA
BMS003_00493	1215			hypothetical protein	ATGAAACGTTCAGGAACAGCAGATTTACCTCTTCACTATGGCAAAGTACCGCCATGGCTGTATGAACGCATGTCTGTTCTGGGACTCTCTATTATTGAAGTCATTCTGATGGATTATGGTAAAGATGAAGTATTGCGCCGTTTGGCAGATCCGTTCTGGTTTCAGAGTTTTGGAGCCGTGATGGGAATGGACTGGCATTCTTCCGGAATTACCACTTCCGTTATGGGCGCTTTGAAACGCTCTGTTAACCCTAACTCTCAATCACTGGGACTTTATATTTGTGGTGGAAAAGGAAAGTTTTCCCGTGAAACTCCGTCAGAACTGATCCGGATTGCAGATAAAACCGGACTGAACGGAACAGATCTGGTAAGAGCCAGTAAACTTTCCGCAAAAGTAGATAACACGGCTATTCAGGATGGTTATCAGCTGTATTTGCACAATTTCATTCTTTCAGACAATGGAAACTGGAGTGTTATTCAGCAGGGAATGCACGAATCTGACGGAACAGCAAGGCGGTATCACTGGCATTCAGAAAATATTACCTCTTTTGTAGAAAAACCTCACACAGGTATCAATGGGGTTTCAAGAGGAAGAATCCTTAACCTAACTGATACCGAAGCCTCAGAAAACAGAAAAGGAATTCTGGATATTTCTCATACCGATTCGGCAGAAGTAATGAAAGATTTTGCCCGGCTGATTCTTCCGGCTCATCATGATGTGCAGGCTTCAGATGTTGATTTGAAACGTCTCGGAGCACTTCTGTATATTACCAGGGAACAGCAGCCTCAGAATTTTGAAGATCTTTTGATGCTGGAAGGAGTAGGGCCAAGAACCATGCAGTCATTAGCCTTGGTAAGTGAGGTCATTCACGGTGCACCGTCAAGGTTTGCAGATCCCGCAAGGTTTTCCTTTGCCCATGGCGGTAAGGACGGACATCCTTTCCCCGTTCCCATCAATACGTATGATGAAAGTATCAGCATCATCAGAAAAGGAATCGAAAAATCAAAGCTTGGGAATTCTGACAAGCTGAATTCTCTAAACAAGCTTCACCAGATCGTTACTGATGCAGAAAAAGATTTTACTCCGGATTTTGATATTCAACAGGTTATTGAGGAAGAAAGACAAAACTCCTGGCGCTTTGGTGGGAAAACGGTATTTGGAGATGCTCAGAAACCCAATAATCCTCCTAAGCCGATACAGCTTTCTTTATTTTAA	MKRSGTADLPLHYGKVPPWLYERMSVLGLSIIEVILMDYGKDEVLRRLADPFWFQSFGAVMGMDWHSSGITTSVMGALKRSVNPNSQSLGLYICGGKGKFSRETPSELIRIADKTGLNGTDLVRASKLSAKVDNTAIQDGYQLYLHNFILSDNGNWSVIQQGMHESDGTARRYHWHSENITSFVEKPHTGINGVSRGRILNLTDTEASENRKGILDISHTDSAEVMKDFARLILPAHHDVQASDVDLKRLGALLYITREQQPQNFEDLLMLEGVGPRTMQSLALVSEVIHGAPSRFADPARFSFAHGGKDGHPFPVPINTYDESISIIRKGIEKSKLGNSDKLNSLNKLHQIVTDAEKDFTPDFDIQQVIEEERQNSWRFGGKTVFGDAQKPNNPPKPIQLSLF				NA	NA	NA	NA	NA
BMS003_00494	348			hypothetical protein	ATGGTAAAAAGAATCGTAGTCAATATCAAAACCGATGATCTTTCCAGAGCCAGTCTGTTTTATCAGGATATCCTGGAACTTCATGTTCTGATGGATCATGGATGGATCAGAACGCTGGGGAATGATGAAGAAACCAAAAATCAGATCAGCTTTGCCAGGCAGGGAGGAAACGGTACGGAAGTTCCCGATATTTCCATTGAAGTGGATAATGTAGATGAAATATACGATAAAATGAAAAGAGCCGGTTTTGAAATCACTTATGAGCTTACCAATGAAGACTGGGGAGTCCGCAGGTTTTTTGTGAAAGATCCTTTTCAGAAGCTCATCAATATACTCTCTCACCAGTAA	MVKRIVVNIKTDDLSRASLFYQDILELHVLMDHGWIRTLGNDEETKNQISFARQGGNGTEVPDISIEVDNVDEIYDKMKRAGFEITYELTNEDWGVRRFFVKDPFQKLINILSHQ	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
BMS003_00495	501	tpx_1	COG2077	Thiol peroxidase	ATGTCAACGACAATCACTTTAAAAGGAAACGAAGTACACACAATAGGAACATTGCCATCTGTAGGAACCACTGTAAAAGATTTTACATTGGTAGATTCTGGGTTAGCAGTAAAAACGCTTGAAACTTTCGCAGGAAAGAAAAAAGTATTCAATATTTTCCCAAGCATTGATACCCCTACTTGTGCCGCTTCTTCCAGAAAATTCAATGAAGAGGCTTCAAAACTAGACAACACAGTTGTGATCAATGTTTCTAAAGACCTTCCATTCGCATTAGGAAGATTCTGTGCAGCAGAAGGTTTGAATAATGTAGAAACACTTTCAGATTTCAGAAGTAGTTTTGGAGATGATTATGAAGTGACTATCACAGATTCACCTTTGAAAGGACTATTGAGCCGTGCCGTGATTGTTACTGACGAAAACAATAAGGTAGTATATACTGAGCAGGTTCCGGAAATTGCTGATGAGCCTAATTACGATGCCGCTCTTGCTGCATTGAAATAG	MSTTITLKGNEVHTIGTLPSVGTTVKDFTLVDSGLAVKTLETFAGKKKVFNIFPSIDTPTCAASSRKFNEEASKLDNTVVINVSKDLPFALGRFCAAEGLNNVETLSDFRSSFGDDYEVTITDSPLKGLLSRAVIVTDENNKVVYTEQVPEIADEPNYDAALAALK	PGPT0013105_1450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
BMS003_00496	111			hypothetical protein	ATGATACCCAGCTTTTCAAACAAAAAAATTCAAGATAAAAAGTTTGAAAAAGAGGAATATCTCTCCAACAAAAGTTCTGCTTATGGAAATTATAAAACTGTTTTCAAATAA	MIPSFSNKKIQDKKFEKEEYLSNKSSAYGNYKTVFK				NA	NA	NA	NA	NA
BMS003_00497	2220	icd	COG2838	Isocitrate dehydrogenase [NADP]	ATGTCAGAAAAATCAAAAATCTATTACACGCTTACTGATGAAGCTCCAATGCTGGCTACTCATTCGTTTTTACCAATTGTAAAAGCTTTTACAAAATCAGCAGATATCGAAATTGCTGTTCCGGATATTTCTTTGGCAGGAAGGATTTTAGCCAACTTCCCTGAGTTTTTAAAAGATGACCAGAAGATTGGTGATGCTTTGGCTCAACTAGGAGAACTGGCGACACAACCTGATGCTAATATCATTAAGTTACCTAACATTTCTGCTTCTGTGCCTCAATTGGATGCAGCAATTGCTGAACTACAAGGTAAAGGTTTCGCAGTTCCAAACTACCCTGCAGAGCCTAAAAATGACGAAGAAAAAGCAATCAAAGCTAAATATGCCAAAGTATTGGGAAGTGCTGTAAACCCTGTATTAAGAGAAGGAAACTCTGACAGACGTGCTCCGAAAGCTGTTAAGAACTATGCAAAAGCAAACCCTCACAGAATGGGTAACTGGGCATCTGACAGCAAAACTGACGTAGCTCACATGAACAACGGCGATTTCTACGGTACAGAAACTTCTACAACTCTGGAAAGCGCTACAAAATACAAAATCGTATTCAAAGGAAACGACGGTTCTGAATCTGTATTAAAAGACTTCGCAGGGCTTCAGGCTGGTGAAGTAATAGATTCTTCTGTAATGAACCTAAACGCATTAAAAGTATTCGTTCAGGAAGCGATTGAAGAGGCTAAGAAAAGAAATGTTCTTCTTTCTGCTCACCTTAAAGCAACGATGATGAAAATCTCTGACCCAATCATTTTCGGGGCTATTGTTGAGACTTTCTTCAAAGAAGTATTTACAAAATATGCCGAGACTTTCAAGTCTTTAGACATCAACCCAAATAACGGTCTTGCTGATCTTTTCGAAAAAATCAAAGGAAATGCTCAGGAAGCAGACATTAAAGCTGATATCGAAAAAGCTCTTGCTGAAGGACCGAGAGTAGCAATGGTAAATTCTGACAAAGGAATTACTAACTTCCACGTACCTTCTGACATCATTGTTGATGCCTCTATGGCTGCTCTTGTAAGAGGTGGAGGTAAAATGTGGAACAAAGACGGAAACGAAGAAGATACTGTTTGTATCATCCCAGACCGTTCTTATGCAGGTTTCTATCAGTCTGTCATTGACGATATGAAAGCGCATGGAAAATTAGACCCTACCACTATGGGATCTGTTCCCAACGTAGGTCTAATGGCTCAGAAAGCTGAAGAATATGGTTCTCACGATAAAACTTTCCAAGTAGCTGCCGACGGAACTGTAGAAGTTCAGGACGAGGCTGGAAACGTTCTTCTTTCTCAGAAAGTAGAAAAAGATGATATCTTCAGAATGTGCCAGACTAAGGATGCTCCTATCCAGGACTGGGTGAAATTGGCGGTAAACAGATCAAGATTGTCTGATACTCCTGCCATCTTCTGGTTAGACAAAGGAAGAGCTCACGACAGAGAAATCATCAAAAAAGTAGAGAAATATCTTGCTGATCATGATACAACAGGTCTTGACATCAGAATCCTTGATGTGAAAGATGCAATGACCGAAACTCTTAGAAGGGCAAGAGAAGGTAAAGATACTATCTCTGTTTCAGGAAACGTATTGAGAGATTATTTAACAGACCTTTTCCCAATCCTTGAGCTTGGTACTTCTGCAAAAATGCTTTCTATTGTTCCATTGATGAACGGTGGTGGTTTATTTGAAACAGGTGCCGGAGGTTCTGCTCCAAAACACGTTGAGCAGTTCTTGGAAGAAGGTTATTTAAGATGGGATTCATTAGGTGAATTCTTAGCACTTCAGGCTTCTTTAGAGCATTTGGCACAGACTCAGGGGAATACAAAATCTCAGATTTTAGCTGATGCACTGGATGAAGCAAATGCCAAATTCTTAGCTACCGACAAATCTCCTGCAAGAAAAGTAGGTCAGATTGACAACAGAGGTTCTCACTTCTATTTAGCAATGTACTGGGCTGAAGCATTAGCTAACCAGGCTGCTGATGCTGAATTGGCAGCTCAATTCGCTCCTGTTGCTCAGGCAATGAAGGAAAACGAAGAAGTAATCAATGCTGAATTAATTGGTGCTCAGGGTAAACCTCAAAACATTGAAGGTTACTACAAAACTGACACATATAAAACATATGCAGCAATGAGACCTAGCACAGTGTTAAATGAAATCATTGACGGAATTTAA	MSEKSKIYYTLTDEAPMLATHSFLPIVKAFTKSADIEIAVPDISLAGRILANFPEFLKDDQKIGDALAQLGELATQPDANIIKLPNISASVPQLDAAIAELQGKGFAVPNYPAEPKNDEEKAIKAKYAKVLGSAVNPVLREGNSDRRAPKAVKNYAKANPHRMGNWASDSKTDVAHMNNGDFYGTETSTTLESATKYKIVFKGNDGSESVLKDFAGLQAGEVIDSSVMNLNALKVFVQEAIEEAKKRNVLLSAHLKATMMKISDPIIFGAIVETFFKEVFTKYAETFKSLDINPNNGLADLFEKIKGNAQEADIKADIEKALAEGPRVAMVNSDKGITNFHVPSDIIVDASMAALVRGGGKMWNKDGNEEDTVCIIPDRSYAGFYQSVIDDMKAHGKLDPTTMGSVPNVGLMAQKAEEYGSHDKTFQVAADGTVEVQDEAGNVLLSQKVEKDDIFRMCQTKDAPIQDWVKLAVNRSRLSDTPAIFWLDKGRAHDREIIKKVEKYLADHDTTGLDIRILDVKDAMTETLRRAREGKDTISVSGNVLRDYLTDLFPILELGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVEQFLEEGYLRWDSLGEFLALQASLEHLAQTQGNTKSQILADALDEANAKFLATDKSPARKVGQIDNRGSHFYLAMYWAEALANQAADAELAAQFAPVAQAMKENEEVINAELIGAQGKPQNIEGYYKTDTYKTYAAMRPSTVLNEIIDGI	PGPT0001170_1201	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
BMS003_00498	1302			hypothetical protein	ATGAAAAAAGCTCTAATTGTATTATTTGCTTATTTTTCAATATTTTCATGTAGCAATTCAAATGATGATATTACGGAGGTGGTAACACCTCCTGTTGTAGAAAATAAGATCAATCTAACTTCAAATTATAATGATACCACTGAAACAGTAAGCTTAAAATGGACGCTCACCGGTGATAATAATTATAAGTATTATAAAATTGTAAGAAGTGACTCTCAAAATGGAATGCAGTCAGAAATTGGCAATAGTAATCCAAATCAGTTTACGTTCACTTCAACGGTGCCATTCGGCCCTTATTTAGAATATCAGATTATCGGTATTAAGGCTAATGGTGAAGAGATTCAAAGTAACATTATAAAAATTGAAAGACCTGAGATTAAAATGCTTAATATTAAGACTTTTGATGCTCAATTTGATAAAAATTCCGGAAAATTATATCTTTTAGATACAGATGGAAAAATTACTCTTTATGATGTGAATACTGGCTCAGTTACCCATCAGGTCAGTACTAATGCTACTTTAGGATATTCTGATCTTGGGATTTATAATGGTAATGTAGAATTATATGTTCCCAGAAATGATGGTTGGGTAGATATTTATGACGGTAACGACTTGACATTAAAAGATCAGATAAGCTTCGGAATGCCTCTTATGAGTACTATTTATCACAATGGTAAGCTTTATGGCTCTCCGAATTCCAACAGTTCTAGTAGTTCCAACGTTATTAAATCAATTGACAGAACGACTAAGGCTCTAATTTCTCAATCACCTAACTATTATTATTATACTGGAAGGATGAAAAAAGCTGTAGTCGGGAATTCTTTACAATTATATACCATAACACAGAATATTTCACCTGTAGATATGAACCTTTACACTTTTGATCTTAACGGTAATTATATCAGCCATCAAAGTGATTCTTATCATGGAGACCATCCTCTTAATTATAGAATATTTGAAGCATTTCCTGATGGAAGAACCATTACTGCAAGTTCAGGTTCTGTATATAATTCACAAATGATTTATCAGAATGATTTACCTGCCGGAAATGCTAAGCTTTCAAGTTTTGATTTTGACAGTAACAATATTATTGCAGGAAGTACGGGTAAAACAATTGAATTTTATGACATCAATTCTTATGCAAAAACGAAGACAATCAATACAAAGAGATATCCTTATAAAGTGTTTAGCTATAATAATAAGGTAGTTTGTGTAAGTTCAATTACTCAACTAAACGTTCAGTATTATGATTATTCGGGAATAATTCCTGAAAGTATAATGATCGAAATTTTTGACAAATAA	MKKALIVLFAYFSIFSCSNSNDDITEVVTPPVVENKINLTSNYNDTTETVSLKWTLTGDNNYKYYKIVRSDSQNGMQSEIGNSNPNQFTFTSTVPFGPYLEYQIIGIKANGEEIQSNIIKIERPEIKMLNIKTFDAQFDKNSGKLYLLDTDGKITLYDVNTGSVTHQVSTNATLGYSDLGIYNGNVELYVPRNDGWVDIYDGNDLTLKDQISFGMPLMSTIYHNGKLYGSPNSNSSSSSNVIKSIDRTTKALISQSPNYYYYTGRMKKAVVGNSLQLYTITQNISPVDMNLYTFDLNGNYISHQSDSYHGDHPLNYRIFEAFPDGRTITASSGSVYNSQMIYQNDLPAGNAKLSSFDFDSNNIIAGSTGKTIEFYDINSYAKTKTINTKRYPYKVFSYNNKVVCVSSITQLNVQYYDYSGIIPESIMIEIFDK				NA	NA	NA	NA	NA
BMS003_00499	339	ytcD_1	COG1733	putative HTH-type transcriptional regulator YtcD	ATGGAAAGAGATCAGACAGAAGAACTTAGAGCGTTACAGGATACCCTTTATTTCATTGGAGGAAAATGGAGGATTCCTGTTATCAACTCACTTTGTAACGGGAACAGACGTTTTAGAGAAATTGAAAGAAGTATTCCCGGAATTACCACCAGAATGCTTTCAAAAGAACTGAAAGATATGGAACTGAATAAACTGCTAAAACGTACTGTTTACCCGGAAACTCCTGTTTTAATAGAATATGAGCCTACAGAATATTGCCGGACTTTTGGAAACATCATTCAGGAAATGATCAACTGGGGGAGGGAGCATAGGAGAGTGATTGTGGAGGATTTAAAATAA	MERDQTEELRALQDTLYFIGGKWRIPVINSLCNGNRRFREIERSIPGITTRMLSKELKDMELNKLLKRTVYPETPVLIEYEPTEYCRTFGNIIQEMINWGREHRRVIVEDLK				NA	NA	NA	NA	NA
BMS003_00500	747	baiA		3-alpha-hydroxycholanate dehydrogenase (NADP(+))	ATGAAAAAATTAAGTAATAAAATAGCTGTTGTAACAGGAGGAAACAGCGGGATCGGATTTGCTGCAGCAAAAGAACTTATTTCAGAAGGAGCAACCGTGATCATCACTGGAAGACGAAAAGAAGCTGTAGAAAAAGCAGCTCAGGAACTTGGAGCCATTCCTTTTATTGCAAATCAGGCTAATCTCGATGATATTGATTTACTAAAGAAGGAAGTAGAGAAACAATTTGGAAAAGTAGACATTCTGTTCGTCAATGCCGGTATTACAGGAACTCTGACACCTATTGAAAATATGGATGTTGAAAATTTTGATCAGGTGATGAATATTAATTTCAGGGGAGCTTATTTTACGTTAAGCAAATTCATTCCTTTATTGAATGATCATGCATCTGTTATCTTTCTATCTTCTATTGTTGCTTCTACCTATAAACCCAACAGTTCGGCTTATCAGGCAAGCAAAGCAGCATTGAATTCAATTGCAAAAACAGCAGCAGCAGAATTAGCTCCAAGAAAAATCAGGGTGAATATGATAAGCCCCGGGCCTATAAAAACCGAGATCATGAACAAAGCCGGTCTGGATGAGGAAACGTTGAAAAATCTTTCCAGCCATCTTATTAATCAAATTCCATTGAAGAAAATGGGAACTGCTGAAGAAGTCGCTAAGCTGGTTACCTATTTATCAGACAATAAAGCTTCCGGCTTTGTCACCGGAACCGAAATCGTGATAGATGGCGGTATGACATTATAA	MKKLSNKIAVVTGGNSGIGFAAAKELISEGATVIITGRRKEAVEKAAQELGAIPFIANQANLDDIDLLKKEVEKQFGKVDILFVNAGITGTLTPIENMDVENFDQVMNINFRGAYFTLSKFIPLLNDHASVIFLSSIVASTYKPNSSAYQASKAALNSIAKTAAAELAPRKIRVNMISPGPIKTEIMNKAGLDEETLKNLSSHLINQIPLKKMGTAEEVAKLVTYLSDNKASGFVTGTEIVIDGGMTL				NA	NA	NA	NA	NA
BMS003_00501	984			hypothetical protein	ATGGATACCGTAAAGAAAAAAAGAAATCCCATTGCCATAGTATTTTTGGCTATATTAGGAGTTTTCGGAGCACTTCAGCTGTTCAGCAGACCTTTAGAAGGAAAACCGGTCACAGGAAAAGTTGAGGCTCCAAGGGAAGTCATCAGTATTCTTGAAAACTCATGTTTCAACTGCCATTCCAATCAACAGAATTTAGGCTGGTATGATCAAATAGCTCCTGTTTCATGGGCTGTCAATAAAGATATCAGAAGAGCCAGAGAAGTCCTGAATTTTTCTGAATGGCAAAGGTACTCTCCAGCTGAGCATCAGGGAAAAATGTACGCAATTCTGAACATGATGCAAAGCGGAAAAATGCCTCTTCACGAATACACCCTTCTGCATCCTTCTGCTAAAATTACTCAGAAAGATATTGAAACGATTAAAAAATACACGCTTTCGTTATCCTCAGCCAACCCGTCAGCTCAAAAAAAGCTGGAAACACCTCAAACCTTATCCGCTGTATCCATTCCGCCATCAACAAAATTTCCAGTTTCTCCCAATGGAATTCAATACACCGATGATTTTAAAAACTGGAAAGTCATCAGTATGAGTACGCTGTTTGACAATTCTATCCGTGTGATTTACGGAAATGACATCGCTGTAAAAGCGGTTGAAACTGAAAATTTTCATCCCTGGCCGGACAGAAGTATTGTGGTAAAATCTGTATGGAAGCAACAGGAACTGCCTGACGGAGAAATCAGACCCGGAAAATTTATCAATGCACAGTTTATGGTAAAAGATTCCAAGCAATATAAAGATACTGAAGGTTGGGGATTTGCGAAATTTTCGGGAGACAATCTCCACCCAACCGGAAAAACAGCATCTTTCGCCAAAGAATCGTGCATTGCCTGTCACAGACAGTTAGCAGAAAAAACAGGCTACCTGTTTGATGTCCCTATGAAAGTTAATACTCAAAGATTAATCCAAAATTTACAGAAAAAATGA	MDTVKKKRNPIAIVFLAILGVFGALQLFSRPLEGKPVTGKVEAPREVISILENSCFNCHSNQQNLGWYDQIAPVSWAVNKDIRRAREVLNFSEWQRYSPAEHQGKMYAILNMMQSGKMPLHEYTLLHPSAKITQKDIETIKKYTLSLSSANPSAQKKLETPQTLSAVSIPPSTKFPVSPNGIQYTDDFKNWKVISMSTLFDNSIRVIYGNDIAVKAVETENFHPWPDRSIVVKSVWKQQELPDGEIRPGKFINAQFMVKDSKQYKDTEGWGFAKFSGDNLHPTGKTASFAKESCIACHRQLAEKTGYLFDVPMKVNTQRLIQNLQKK				NA	NA	NA	NA	NA
BMS003_00502	444			hypothetical protein	ATGAAAAATACCATCCTCATCCTATTGGTAAGCCTTGTTTCTCTTACCGCCTGCAGCAAAGAAAATGGTGATACGAGTAATACACTTTCAAGAGTTGTTTTTGATCCGGGTCACCTGGAGTTTATCTCCAATTCTTTAAATCCCAAGAAGAAAACGATGTCCGCATTATATGGAAATGAAAAAGCGATGCAATCTTTATCCAAAGAAAATCCGATACCGGAAGCTGGCACCGTGATGAAACTGGTTACCTGGAAATATCATGATAATCCTCAATATATTGGCGGAACCATCACCGGAGAATTAGTGAGTATTGAAACACTTCAAGCTGATCATCTTGGAGATATTTCTTATGATATAAAAAATAATCTGGTACAAAACAGCTCTCCTGACAAAGAAGAAAGAGTACACTATTTTATGAGTTACCGCCCTGTAAGCAGGCCTTAA	MKNTILILLVSLVSLTACSKENGDTSNTLSRVVFDPGHLEFISNSLNPKKKTMSALYGNEKAMQSLSKENPIPEAGTVMKLVTWKYHDNPQYIGGTITGELVSIETLQADHLGDISYDIKNNLVQNSSPDKEERVHYFMSYRPVSRP				NA	NA	NA	NA	NA
BMS003_00503	1014			hypothetical protein	ATGCTACAGCAAAAAATAAAAATCTCACAAGCCATTATCTGGATAAGCTCTGTTTTCCTCGGAATTTTATCATCTGTTCCTCAGCTTGCCTCCCATCAGTTCGATTGGAAAGAAGCCCTGGTAAACTCAGGGATTACGGCAGCATTTTCTGTCATCATGTGGTATATCAACATTTATATGCTGAACCGCACGAAAAAACGGAGGCAGCATATCTCCTATTCAAGATTGATGGTGGTACTCGCTTTTGGGATGGTGATTATGTTTGGACTGGCATGGATTCAGCAGCTGATTCTTTCCCATATTAATTTCGGGCCGGTAATGCTGATGATTGAAGTAAGGGGAATTTTGATCAACCTGGTGTGCTATATGTTTCTTAATCTGCTTCAGCATAATTACACGGGGCAACAGGTGCAGCTTGAACTGGAAAAGGTAAAAAGTGATAATCTTGGAGCTCAGTATGAATTATTAAAGCAGCAGATCAATCCACACTTTCTTTTCAACAGCCTGAATACTTTAAAAATGATGGCAGAAACACGTGATGAAGAAACAGTAGATTTTGTTGTAAAGCTTTCAGATTTTTACAGATTTACGCTCGAAAGCAGAAAATTAGACCTGATCAGTGTTCAGGAAGAAATGAAAATAGTAGATGCTTATCTTTTTCTTCAAAAAGCCCGTTTTGGCGACGGAATTATGTTTACCAACCAGCTTGGAATAGAAATCGTTTCTACGCTTATTCCTCCTTTTACGCTTCAGCTTTTAGTGGAAAATTGCATCAAACACAATATTGTTTCGCAAAGCAAACCTTTACATATTAAAATTTATACGACAGACGATCATATTGTGATTGAAAATCCTATCCAGCGAAAAGTGAATACCGAAGATTCTTTGGGAGTTGGGTTGGATAACATTAAAATGCGTTATAAACACTTGCTGGAAAAGGACATTATTATTAATTCAGACGAAAAAACATTTCAGATAAAACTACCATTGATTCATGAATATCATCATTATTGA	MLQQKIKISQAIIWISSVFLGILSSVPQLASHQFDWKEALVNSGITAAFSVIMWYINIYMLNRTKKRRQHISYSRLMVVLAFGMVIMFGLAWIQQLILSHINFGPVMLMIEVRGILINLVCYMFLNLLQHNYTGQQVQLELEKVKSDNLGAQYELLKQQINPHFLFNSLNTLKMMAETRDEETVDFVVKLSDFYRFTLESRKLDLISVQEEMKIVDAYLFLQKARFGDGIMFTNQLGIEIVSTLIPPFTLQLLVENCIKHNIVSQSKPLHIKIYTTDDHIVIENPIQRKVNTEDSLGVGLDNIKMRYKHLLEKDIIINSDEKTFQIKLPLIHEYHHY	PGPT0026305_2677	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_00504	759	ypdB_1	COG3279	Transcriptional regulatory protein YpdB	ATGAATATCATCATTATTGAAGACGAATTCAGGGCTGCAAAATCCCTTCAGAATTTAATTTCAGATTTAAAACCGGATTCGAAAATACTGGGTGTTTACGACAGTATTGAAACAAGTATTGAAGGTTTACAGGAGATCAAACCCGATCTTATTTTTATGGATATCCACCTTTCGGACGGGCTTTCCTTTGAAATTTTCAAATCGTTGGAGATCACCTGTCCTGTGGTTTTCTGTACTGCTTTTGATCAATATATGCTGGATGCCTTTAAAAGCAAAGGAGTTGATTATGTTTTAAAACCATTTTCAAAAGAGGATATTGCAGAAGCCCTTCTAAAAGTGGATGAACTGAAAAAATTTTTCCAGAAGAATGATCTTCCGGATTTGGAATCGATCATACAGAAAATGAATCAGCCTGCGGGTAAAGGCAACTTTCTGGTTTTTAAAAATCAGAAGTATACAACGGTTCCCACAGAAGAGATTGCTTATTTTTATATCCATAATGAGATCACTCATCTTGTTACGTTTGCCAAAGAGCAGTTTCCTCTTACCCAACCTTTGGGACAAATTGCTGAACAGGTTTCTGATAAACAGTTCTTCAGAGTTAACCGGCAATATCTTGTCAATTTTAAAGCCATTAAGGAGATGGAACATTATTTTCAGCGTAAAATACTGGTAAAACTCACGATTGAAACACCTGAGAAGCTTTTGATTAATAAAGAGAAGACTCATAGTTTCTTTACGTGGCTGGAGGATAGATAA	MNIIIIEDEFRAAKSLQNLISDLKPDSKILGVYDSIETSIEGLQEIKPDLIFMDIHLSDGLSFEIFKSLEITCPVVFCTAFDQYMLDAFKSKGVDYVLKPFSKEDIAEALLKVDELKKFFQKNDLPDLESIIQKMNQPAGKGNFLVFKNQKYTTVPTEEIAYFYIHNEITHLVTFAKEQFPLTQPLGQIAEQVSDKQFFRVNRQYLVNFKAIKEMEHYFQRKILVKLTIETPEKLLINKEKTHSFFTWLEDR				NA	NA	NA	NA	NA
BMS003_00505	777			hypothetical protein	ATGATACTAAAAAACTTAATCACAGTAAGCGCTTTTACCCTATTATTATTTGCTACCTCAGCCTTTATTCATAAGAAACAAAAGACCACACAACCTTCAAATGATGAAAACAATGGTTTTGCTGTGTTAGAACTTTTCACCTCAGAAGGCTGTTCCAGCTGTCCTCCGGCGGATGAACTGATGGGAAAAATTGAAAAAGAATATAAAGATCAACCCGTCTATCTTCTTTCCTATCACGTAGATTACTGGAATCGTCTTGGGTGGAAAGACAGATTCAGCACTGTAAAAAATTCACAGCGACAACACCAGTACAGCCGAATATTGAACTCTCAGGTCTATACTCCACAACTGGTTGTGAATGGAAAAACAGAATTTGTAGGTTCTGACAAAAACTCAATCAAAAAAGCCGTTCAGGAAGCTTTACTGATTGATAAAAAGATAAATATAAAACTATCCACAACTATTTCCATTTCTCATAAGGAGATTAATGTAAAATATAAAACATTGGTGACAGATCCTAAGAATATACTTCTCATTAATCTGATTGAAAAACACGCTTCTACCCAGGTAGGAAAAGGTGAAAATGAAGGACGCCATCTGCATCACTGGCAGATTGTTCATCAGCAAAACTCTATTTCATTGAACAATCAACAGGAAGGGACTACAACGTTCAACCTTCCGGAAGGGTTTTCACCGGAGAACTGGGAAGTGATAGCGTTTATTCAGAATGTAAAAACAGGACATATATCAGGATCTGCAAAAACAGTTTTTAAATAA	MILKNLITVSAFTLLLFATSAFIHKKQKTTQPSNDENNGFAVLELFTSEGCSSCPPADELMGKIEKEYKDQPVYLLSYHVDYWNRLGWKDRFSTVKNSQRQHQYSRILNSQVYTPQLVVNGKTEFVGSDKNSIKKAVQEALLIDKKINIKLSTTISISHKEINVKYKTLVTDPKNILLINLIEKHASTQVGKGENEGRHLHHWQIVHQQNSISLNNQQEGTTTFNLPEGFSPENWEVIAFIQNVKTGHISGSAKTVFK				NA	NA	NA	NA	NA
BMS003_00506	393			hypothetical protein	ATGAAAACAAAAACAACAAAAATCATCTATTGGACAGGCGCTATTTTTATGTCATTATGGTTTGGAGCCAGTGGCTTCTTTGAGCTTACAAAAAACCCTGTTGTATGGGATATTACCCGGCAGCTTGGTTATCCACCGCATTTCATTTATATATTGGGTGTTTTTAAAATTTCAGGAGTTCTGGTTCTTCTGCTTCCCAATAGATTATTGAGGCTGAAGGAATGGGTATTTGCAGGAATGTTTTTTGATATTCTGTTTGCCTTCTTCTCAAAAATTGCGGTGCTTGGTTTTCCAGCTACGATAGATGCTATAGTTGCTTTTTCTGTACTTACAGTAACGTATCTGATGTTCAGAAAGCTTTATTCTCCTGAATTGATGTTTGGAGAGGCTTAA	MKTKTTKIIYWTGAIFMSLWFGASGFFELTKNPVVWDITRQLGYPPHFIYILGVFKISGVLVLLLPNRLLRLKEWVFAGMFFDILFAFFSKIAVLGFPATIDAIVAFSVLTVTYLMFRKLYSPELMFGEA				NA	NA	NA	NA	NA
BMS003_00507	1002	iolS_1	COG0667	Aldo-keto reductase IolS	ATGAAATTTAAAAAATTAGGAAACACAGAAGAACAGCTATCAGCAATTGGTTTAGGATGTATGGGAATGAGCTTTGCTTATGGCCCTACAGATGAGCAGGAAAGCATCAATACGCTGCACAGGGCATTAGATTTAGGCGTTAACTTCTGGGACACGGCAGATATGTATGCCAACGGAGAGAATGAAAAACTGATCTCAAAAGTTTTAGTTCCGAATAGAGATAAGATTTTTATTGCTACTAAATTCGGATTCAGATTTAAAGATGGTAAAGCAAGCCATAGTGGAGCTCCCGGAACTTATTTTGACGGTTCTCCGGAATGGATCAGACAGGCAGTAGATTTAAGCCTTCAAAGATTAAAAATAGATACTATTGACCTGTACTATGCTCACAGAGTAGATCCAAACGTACCTGTAGAAGAAACTGTAGGTGCCATGGCAGAGCTGGTAAAAGCCGGAAAAGTGAAATATATCGGATTATCTGAAGCTTCCGCAGAATCGATTAGAAAAGCGAACAAAATTCACCCTATTGCAGCATTACAGTCAGAATATTCTATCCTCACAAAAGATGTTGAAAAAGAGATTTTACCGACCATCAGAGAGCTGGGGATTTCTTTAGTACCTTATTCGCCGCTGGCAAGAGGACTTTTCACCAATATTTATGATGTGCAGAATCTGGGTGATGATGATTTCAGAAAATCACTACCGCGTTATCAGCAGGAATACCTTGAAAATAATACCAAACTGGCTAACGAGATTAATGAGTTTGCTGCTTCCAAAGGAGTAAAAGGAACTCAGCTGGCATTAGCCTGGGTATTGAGCCAGGGAGACGATATCATCCCGATTCCCGGTACCAAAAGAATTAAATATCTGGAAGAAAATATTGCAGCGGTAAATATAGATCTTTCCCAATCTGATCTGGATACCATTGATGCGATTCTGAAAAAATACCCGAATGTAGGGGAAAGATATACAGAAGGTTCCATGAAACTGGTCAATAATTAA	MKFKKLGNTEEQLSAIGLGCMGMSFAYGPTDEQESINTLHRALDLGVNFWDTADMYANGENEKLISKVLVPNRDKIFIATKFGFRFKDGKASHSGAPGTYFDGSPEWIRQAVDLSLQRLKIDTIDLYYAHRVDPNVPVEETVGAMAELVKAGKVKYIGLSEASAESIRKANKIHPIAALQSEYSILTKDVEKEILPTIRELGISLVPYSPLARGLFTNIYDVQNLGDDDFRKSLPRYQQEYLENNTKLANEINEFAASKGVKGTQLALAWVLSQGDDIIPIPGTKRIKYLEENIAAVNIDLSQSDLDTIDAILKKYPNVGERYTEGSMKLVNN	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
BMS003_00508	906	rhaS_2		HTH-type transcriptional activator RhaS	ATGGAATCACACGAATCACTCAAGGGCTTTTATCAAAGAAATGCTCCCAATCTTGTATCACCGTGTATCGGAGTCAATAAGATGGGACATTTTAATGTGTTTTCAAGAGAATATTGTTCTCCGCTCACCCCTTACAGCAGGAGAGATTACTACAAAATTTCACTGATTATAGGAAAAGGGAAAATTCATTATGCTGATAAATGGATTAGGGTAGACCGTCCTGCATTATTGTTTTCCAATCCCATTATTCCGTATTCCTGGGAAGCTGATGACGAAGATCAGAAAGGCTGGTTCTGTCTGTTTACAGATCAGTTTCTGCATAATGGAACCCGTATGGGAAACCTGCAGGATTCTCCGCTTTTCAAGATTGGAGGAACTCCGGTTTTCTTTATAGATGAAGAGCAGCAGAAAATACTTTCTGATATTTATACCAAAATGTTGACAGAAATTCAGTCTGAATATATTCATAAATATGATATGCTGAGAGCCTATCTTCATCTGATGATTCATGAAACCATGAGAATGCAGCCGGCAGAAAGCTTTGAACCCTATCAGAACGCTTCGCAGAGAGTTGCCTCCTTATTTATAGAGCTGTTGGAAAGACAGTTTCCTATTGACAGTCCTGAAGCTTTTCTGAAACTAAAGACTCCCAATGATTATGCCCAGAGCCTTTCCATTCATGTGAATTCACTGAACCGTTCTGTAAAAGAAATTACAGGAAAAACAACCAGCCAGCATATCACAGGAAGAATTATTCAGGAAGCCAGTGCTTTACTGAAACATACAGACTGGAATATTGCTGAAATTGCTTATGGATTAGGTTTTGAAGAACCTGCTTATTTCACCAATTATTTTAAAAAACAAACCGGAATTACTCCCAATGCCTTAAGAATGGATATTGTTTGA	MESHESLKGFYQRNAPNLVSPCIGVNKMGHFNVFSREYCSPLTPYSRRDYYKISLIIGKGKIHYADKWIRVDRPALLFSNPIIPYSWEADDEDQKGWFCLFTDQFLHNGTRMGNLQDSPLFKIGGTPVFFIDEEQQKILSDIYTKMLTEIQSEYIHKYDMLRAYLHLMIHETMRMQPAESFEPYQNASQRVASLFIELLERQFPIDSPEAFLKLKTPNDYAQSLSIHVNSLNRSVKEITGKTTSQHITGRIIQEASALLKHTDWNIAEIAYGLGFEEPAYFTNYFKKQTGITPNALRMDIV				NA	NA	NA	NA	NA
BMS003_00509	549			hypothetical protein	ATGCTTTTTATTAACAAATATTGGCATTTGAAATTAATAATTGGCACTTTAATTGACTATTTAATGATGTTTAATTTAAAGAGGAATGAAATGAAAAAGTTAATATTAACCATATTTTTAATTGGGACATTCAGTTTGAGTTATGCCCAGTCAGATTATTATAATGATTACAGGAGAAGTATTTCGGATATCAACTGGCAAAGAGTGGTTGCTGATCTGGTGCTTTCAACAGTACAGGCCAACCAGATTTATGTTTTAAATAACAGATATCATGATTACGATACATGGAACAGAGTCTATGTGGTAGATCCGGGAAGATGGAGAGGTGACCGTTATTCTGAGCTGGAAAGGATTATGGGTAGAGAAAAGTATATTATCTTTAAAAAGAAATATTACAGAGGCCAAAATCCGGTAATTGTTTATGCCAGAAATAAGAATGATTATAAAAAATATCGTAAACAACAGGAGAAGTATTACAAAAATCAGGAAAAATATTATAAGAAACAAAATAAACATCATGGTAAAGGACATGACGGTCATTGGGATTAA	MLFINKYWHLKLIIGTLIDYLMMFNLKRNEMKKLILTIFLIGTFSLSYAQSDYYNDYRRSISDINWQRVVADLVLSTVQANQIYVLNNRYHDYDTWNRVYVVDPGRWRGDRYSELERIMGREKYIIFKKKYYRGQNPVIVYARNKNDYKKYRKQQEKYYKNQEKYYKKQNKHHGKGHDGHWD				NA	NA	NA	NA	NA
BMS003_00510	288			hypothetical protein	ATGGAAAATATAAAGTTTCAGGTATCTCAATATCAGGATGAATTGCAGTTACTTATAGATGGGAAAAAGGCAGGCTATATGTCCATAGAGGTTGACGGAAGACTGCTTATTGTATTTTATACAAAATTGGATGAAGAACGTGAAGGGAAAGGATATGCTAAACTGTTACTGGATGAGCTGGTACGCTACGCAGAAGAGAAAGATCTGCTTGTAGACCCGGAATGTGATTTTGTGAGACAACAGTTTGAAAATCACCCTGTAAGATATAAAGAAATCTGGCATGCCTGA	MENIKFQVSQYQDELQLLIDGKKAGYMSIEVDGRLLIVFYTKLDEEREGKGYAKLLLDELVRYAEEKDLLVDPECDFVRQQFENHPVRYKEIWHA				NA	NA	NA	NA	NA
BMS003_00511	1098		COG2220	putative protein	ATGATTTTTTGGATTATTACGACTGTGGCTGTTATGACGGCTATTTTTTTTATCGTGATCAATATGACGGCGTTTGGAGGTGTGCCAAAAGGAGAAAGACTGAAACGGATCAAACAGTCAAAGCTTTATAATAAAAGACAATTTCAGAATATAAGCCATACGCCATCTATCACAGAAGGTTACAAAATGACGCAAGTAACCTGGGACTTCTTTTTTGGAAAAAAAGATCCGCTGTTAAAACCTTTGAAAGAAATTCCCTCTTTTCATACCCACTTGAAAAATATAAATAAAAACCAGGATCTATTGGTCTGGCTAGGGCATTCATCATATTATCTGCAGACAGACGGAGTTTCTTTTCTGGTTGATCCGGTGTTGAGTTTGTATGGTTCACCTTTTAAATATTTTAATAAAGCTTTTAAAGGTTCGGATATTTTTAAACCTGATGATATCCCCGATATTGACTATCTGGTCATAACCCACGATCATTTTGATCATCTGGATTATCCAACTGTAGAATCTATAAGAGACAGGACAGGAATGGCTGTCATACCTTTGGGAGTAGGGGCGCATCTGGAGAGATGGGGGTATGCAGAGAATAAGCTTATTGAAGAAGAATGGGGAACTGAAATAAGCCTGAAAAATGATCTGAAAATTGTTTTTACCCCTGCCAGGCATTTTTCCGGCAGAAGGATAAGGCAGAATGATACACTTTGGAGCTCCTATGTTCTGATAACCCCTACCCGAAAATTTTTCTTAGGAGGAGATAGTGGCTATGACGCTCATTTTAAAATAATTGGTGCGCAATATGGTCCCTTTGATTATGCTATTCTTGAGAATGGTCAGTACGGTGAGGCATGGAGATATATTCATACATTACCGGAAGATGTTATTCAGGCAGCTATTGATCTTAAAGCAGAACGAATCCTACCTGTTCATGCTGCAAAATTTGCATTGGCACTTCATCCGTGGAACGAACCTTTACAAAAGATAACAGCTCTTGGAAAAAAACAAAAATTGAATATCCTCACTCCCATGATAGGCGAGGTAGTATATCTGAATCAGTCAGAGCAGCAGTTTACAGCCTGGTGGGAAATCTGA	MIFWIITTVAVMTAIFFIVINMTAFGGVPKGERLKRIKQSKLYNKRQFQNISHTPSITEGYKMTQVTWDFFFGKKDPLLKPLKEIPSFHTHLKNINKNQDLLVWLGHSSYYLQTDGVSFLVDPVLSLYGSPFKYFNKAFKGSDIFKPDDIPDIDYLVITHDHFDHLDYPTVESIRDRTGMAVIPLGVGAHLERWGYAENKLIEEEWGTEISLKNDLKIVFTPARHFSGRRIRQNDTLWSSYVLITPTRKFFLGGDSGYDAHFKIIGAQYGPFDYAILENGQYGEAWRYIHTLPEDVIQAAIDLKAERILPVHAAKFALALHPWNEPLQKITALGKKQKLNILTPMIGEVVYLNQSEQQFTAWWEI				NA	NA	NA	NA	NA
BMS003_00512	1539			hypothetical protein	TTGAAAAACTTTTCGGTAATATTTCTTCTCGTTATTTTTTCGTCCTGTGCCTCTATAAAAAAGCACAACGAACAGCGGGCTTCATGTATTCCACCGGAGCAGCTTAAAAAAGATGTGGACTTTGCGTATTCAAAATTACAGCAAATGCACCCTCAATTGTACTGGTATATTCCCAAGAGGGAATTGGAACATAAATTTGACAGCCTAAAAAAGACGATCACAGAACCTCTTACCCCTCTTCAGTTTTATTTTAAACTTCAGCCTGTCATTGCAGGAATCCGTGAAGGACATCTTTCATTAAGAATTCCCAGAAAGAAGTTTTCCAAAAAGGAAATCAAAAGACTGAAAAATCAGAAAGGGATGTTCAGCCGTTTTGAATATTATATTACAGGGGATCAAATGTATATTGTTCAAAACAGAGATTCCATTGAACATATCCAGCCGGGTACTGAAATTTTATCTATCAATAATGTTCCTGTTTCAGATTATATCAAGAAATACAGAAGCCTGATCAGCAGCGATGGTGACAACACCACTTTCTATCCTTATTTTTTAAAGGATCTGTTCTTTAATTTTTATACTGCGGAAAATGGTTTTGGTAGCAAAGCTACACTTGAAACCCTTTATCAGGGGAAAAAACATACTTATACTTTAACCCGGGAAATAAAATCTGATTCTGATCTGGAAAAGGATAAGGAAGTTCAGAAAAAAACACAGGAAAAGAAACTGAACGATTATGTAGCAGCAAGCAATTCTTACAACAGAAGTTTTAAATTCTTAGATAAAGACAGTACAATCGCTTACATACAGGTAAAAAGTTTCTCAAGAGATTATTCTGATGAGTTTTACAAAAAGACTTTTGCCAGAATCAATGATGCAAAGTCCCCCTACCTCATCATAGATGTACGAAATAACTATGGAGGCTCTCTTTATGAAATCAATAACCTTTATTCTTATTTGACAGACGTTCCGTTTACCCTGATAAAACCTTCACAGCTAACCTCAAGAGATGCTCCTCTGCGTACTAATTATTTCAGAAAAAGCAATCCTTTAGAATATGCGCTTAAAAGTATTGCCTACCCGAGCTATTTTTTTGCACAGACCTTCAGTACTTATAAGAAAGACGGAAAGGTTTTCTATAAAATGAAGGCAGATAAACCGACAAAGCCCAATAAACTGGCTTTCCATGGGAAAGTTTTTGTATTAATTAACGGTGGAAGTTTCTCCGCTTCTTCTATTATTACCGCTAAACTTAAGAATGATAAAAGAGCTACTCTTGTGGGTGAAGAAACCGGCGGGGCCAATGACGGAACGGTGGCAGGTTTCTATTCTTACCAGAAGCTTCCCAATTCTGAAATCAACTTTCCTATCGGATTACTTTTGGTACAGCCTAATATCAATTTTTCCGATTCACGGAAGGGTGTTGTTCCTGATGTAACCGTTACTGAAAGTCTGCAGGATATTATTGATAAAAAAGATCCGCAGCTGGACTGGATAAAAAATGAAATCGCAAAAGAAAAGAAAATTAAAGGACAGTAA	MKNFSVIFLLVIFSSCASIKKHNEQRASCIPPEQLKKDVDFAYSKLQQMHPQLYWYIPKRELEHKFDSLKKTITEPLTPLQFYFKLQPVIAGIREGHLSLRIPRKKFSKKEIKRLKNQKGMFSRFEYYITGDQMYIVQNRDSIEHIQPGTEILSINNVPVSDYIKKYRSLISSDGDNTTFYPYFLKDLFFNFYTAENGFGSKATLETLYQGKKHTYTLTREIKSDSDLEKDKEVQKKTQEKKLNDYVAASNSYNRSFKFLDKDSTIAYIQVKSFSRDYSDEFYKKTFARINDAKSPYLIIDVRNNYGGSLYEINNLYSYLTDVPFTLIKPSQLTSRDAPLRTNYFRKSNPLEYALKSIAYPSYFFAQTFSTYKKDGKVFYKMKADKPTKPNKLAFHGKVFVLINGGSFSASSIITAKLKNDKRATLVGEETGGANDGTVAGFYSYQKLPNSEINFPIGLLLVQPNINFSDSRKGVVPDVTVTESLQDIIDKKDPQLDWIKNEIAKEKKIKGQ				NA	NA	NA	NA	NA
BMS003_00513	591			hypothetical protein	ATGAATATAGATGAATTGAAAAATACCTGGAATGAAGATATTGTGGAGAACACTCCTGAAATAAGCCTTGAGCAAAGAAATAAACTCAACCTTCCCCTTGAAAAAATACGCAGAAATATGCGCGTGGAGTTCTGGTGGGTGATCGGAATCTTCGTGTTCGCCTTTCTGGTTTGCTCTGTGTGCAGACCTTTCAAACTGCAGTTGTATATAACAGTTTTGATTGCTTCCATGCTGGTGGTAACCGTTTTCTTTTTCAGTAAATTCTTTAAACTGTATAATGATATCAGTAACCCCGTGCCTAAAACCTATGATTCTCTAAAAGATCTGGTGATGCAGCTGAATCTTAATAAACAGTATTATCTCTCATATTATATCAGTTTTGCACCGTTTATAGTATGTGAGATTCTTATTGTTCTGGAATTTATTCCATGGCCCAAACCTTTGAGTGAACTGAAGATCGCAATGATCTTAATAGGTTCAGTGACTACAGGTTTATTTTTGCTTTTTCTGGCAGGTAAATTCTGGTTTCAACAATATTACGGGAGATATATCAGATATATTGAAGAGCTGTTGGAAGAATTAAAAAGATAA	MNIDELKNTWNEDIVENTPEISLEQRNKLNLPLEKIRRNMRVEFWWVIGIFVFAFLVCSVCRPFKLQLYITVLIASMLVVTVFFFSKFFKLYNDISNPVPKTYDSLKDLVMQLNLNKQYYLSYYISFAPFIVCEILIVLEFIPWPKPLSELKIAMILIGSVTTGLFLLFLAGKFWFQQYYGRYIRYIEELLEELKR				NA	NA	NA	NA	NA
BMS003_00514	510			hypothetical protein	ATGACCTCATTAGAACAAGAGTTTATAAGTCAAATTGAACAGCATAAAGGAATTCTATTTAAGATTTCTAAAATGTATATGACTGAAAAGGACGACCGTGATGATCTTTTTCAGGAGATTACCTACCAGCTCTGGAAAGCATTTCCGGGTTTCAGAGGTGAAAGCGAATTTTCAACATGGCTATACAGAATTGCTTTGAATACGGCTATTATTTTCCTGAAATCAGAAAAAAGAAGAAGCTTTATTGCTAATGAAGACTTTTCTAATCACATCATTATCCAGGAAGACTATGATTACCGTAAAGAAGAGCGTCTCTCTGAAATGTATAAAGCAATCCATCAGCTTAATGCTATTGATAAAGCTTTTATTTTCTATTATCTGGAAAATTTTTCAGGCAGGGAGATTGCAGAACAGATGGGGATTTCAGAAGGAAATGCACGGGTGAAAATGAACCGGGCAAAAAATAAACTTAAAGATATCTTAACCCAAATAAAAAACAACAAACATTAA	MTSLEQEFISQIEQHKGILFKISKMYMTEKDDRDDLFQEITYQLWKAFPGFRGESEFSTWLYRIALNTAIIFLKSEKRRSFIANEDFSNHIIIQEDYDYRKEERLSEMYKAIHQLNAIDKAFIFYYLENFSGREIAEQMGISEGNARVKMNRAKNKLKDILTQIKNNKH	PGPT0014960_11851	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00515	360			hypothetical protein	ATGGATGATTTTAAAAACCAAGTATATTCAATAGAAGAGTTCCTGGAGCTTGTAAAGAATAAGCAGGACAGGAAAGCTTCTTTTGACCCGGAATATAATTATGCAGTCTATTCTTCAACAGATAAATTTAAACCTGAAATGAAAGTTTTTATTGGCGATCCTTTGGGTATTGGTGAGAATGATAATGAAATCTTACCTGATTTTGTTTTTCATAACCAACTTAACTATATATGTGCTGATGAAAATATTCAGGACGTAGTGGATCTTGCCTTCAGGCAACGTGCTGATGTGACTTCCTCTCAGCTGATTACAGCACTGAATCATTATCTTGAAAAAGATGATTTCTTAGATTTTAAATAA	MDDFKNQVYSIEEFLELVKNKQDRKASFDPEYNYAVYSSTDKFKPEMKVFIGDPLGIGENDNEILPDFVFHNQLNYICADENIQDVVDLAFRQRADVTSSQLITALNHYLEKDDFLDFK				NA	NA	NA	NA	NA
BMS003_00516	816			hypothetical protein	ATGGAGTTAGAAAACTTTAAAGAACTTTGGAATAAAGATACAGGACAGGAACTTCCTGAAATTTCTCTGGAAAAACAGAAGGAAATACATTCTCCTTTGCAGATGCTGAAAGTGAATATGAAGACAGAGTTCTGGCTGATGATCATAACCCTTCCGTTGCTGTTAACAAGCTTCCCATATGCATGTGAGGATTCTAATATTAAAACCATATCACTATGGGTTACCCTCCTTACAGTTGCGGTTATTGTTTATTTTTATTCCCGCTTTCTGAAATTATATAAACTGCTTCAGAAAAACAGTATCAATACCAATTATGACCTGTTCAATATTAAAACCCAGCTTCTGATCTCTAAAGAAATTTATATTTCTTATTATATTTCTTATATCCCGCTTGGTTTTCTTTTGTCTCTGATCCGGATTAATTTTCATTTTGATATGGAATACAATCTTGCCATTTTTGGGATCAGTATTCTGATTATGCTGCTGTTAATTGCTTTTATTATCAAGTATTGGATCTATTATATGTATGGAAGATATATTGATGATGTGGTACGTCTTGTGGATGAACTAAACGGAATTGAAGTATTGCCGGGAGCTGAAAAAAGAAAAACATGGTTTGAGCGCTCACAAAGATTTTTTATGAATAAAATGGGAATTAAGGGAAATATAATAAATACAGTCATCTGGTTTGTATCGATGTATTTTTTTATCATTTTATTTCTGACCGTTGTTCTTCTGGTTGTCATTATAGTAGGTGCAAAGCTTGATTTTCTTGATATCGGCTCATTACAAAGGGCTTTAAATAAACTGAATTAG	MELENFKELWNKDTGQELPEISLEKQKEIHSPLQMLKVNMKTEFWLMIITLPLLLTSFPYACEDSNIKTISLWVTLLTVAVIVYFYSRFLKLYKLLQKNSINTNYDLFNIKTQLLISKEIYISYYISYIPLGFLLSLIRINFHFDMEYNLAIFGISILIMLLLIAFIIKYWIYYMYGRYIDDVVRLVDELNGIEVLPGAEKRKTWFERSQRFFMNKMGIKGNIINTVIWFVSMYFFIILFLTVVLLVVIIVGAKLDFLDIGSLQRALNKLN				NA	NA	NA	NA	NA
BMS003_00517	510	sigV	COG1595	RNA polymerase sigma factor SigV	ATGTCTTCACCGGAAAAAGAATTTTTAGAGAAAATTGAAAAGCACAAAGGGGTTGTTTTCAAAATCTCTAAAATGTATATGGATAATAAGGACGATCAGAATGACCTCTATCAGGAAATCATTTACCAGGCCTGGAAATCATACGGTGATTTTCAAAAGAGAAGTGATTTCTCCACATGGCTGTATAGAACTGCGCTTAACACGGCAATTGTATTCCTGAGAAGTGAAAAAAAACGTAGTTTTATTCAGAATCAAAATGTAGATGGGTTAGGTGAAAGACAAGAGCCTTATAATGATACAGATGATATGAATATGAAGCGGATGTATGAAGCCATACATCAGTTGAGTCCCATAGATAAAGCCCTTATATTTTTCTTTTTAGAAGGGTTTTCAGGTAAAGAAATAGCTGCTCAGCTCGGCATTACTGAAGTGAATACCCGGGTAAAGCTGAAAAGAGCAAAAGAAAAGCTGAAAGAGATCATTCACAGGCAGGAGACAGGTTCGAAATAA	MSSPEKEFLEKIEKHKGVVFKISKMYMDNKDDQNDLYQEIIYQAWKSYGDFQKRSDFSTWLYRTALNTAIVFLRSEKKRSFIQNQNVDGLGERQEPYNDTDDMNMKRMYEAIHQLSPIDKALIFFFLEGFSGKEIAAQLGITEVNTRVKLKRAKEKLKEIIHRQETGSK	PGPT0014960_11863	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00518	1629	gapN	COG1012	NADP-dependent glyceraldehyde-3-phosphate dehydrogenase	ATGAGTTCAGAAAATGCAGTACCATTCCATCACATTTTTAAAAGAGAAAACGAAATTCCGGAAGAATATAAAGTTCCGGTCATTCATCAGAGAACCTATCTTCTGAATGGAGAGCTTGTAGAGTGGAAAGGCGATGTCACCGAAATCTACTCACCAGTGTGCATTCCTACGGAAAACGGCGCGGAAAGAAAACTCTTGGGAAGTATCCCGAATATCGGTTCGGACGAAGCAATGGACGTTCTTGAAGCCTGTGTAAAAGCTTATGATAACGGATTGGGCGAATGGCCTACAATGTCTGTAGAAGGACGTATCAAATGCATGCAGAAATTTGTCTACCTGATGATTCAGCAAAGAGATCTGATCATCAGACTGCTCATGTGGGAGATTGGAAAAACACTGGCAGATTCTACTAAAGAATTTGACCGTACCGTAGATTATATTAACCAGACCATTGATGCATTGAAGGACCTTGACAGAGAGTCATCCCGTTTTCAACAGGCAGAGGGAACGATTGCGCAAATCAGAAGAGCACCACTTGGGGTAGTATTAAGTATGGGGCCGTTCAATTACCCTCTTAATGAAATCTTTACAACATTGATTCCGGCATTGATTATGGGAAATACCATCCTGTTTAAACTGCCGAAACATGGCGTACTGGCTCATTATCCTTTACTAAAAGCCTTTAAGGAAGCATTCCCTAAAGGAACAGTGAATACATTATATGGAAAAGGTTCTGAAATTATCACTCCGATTATGGAGAGCGGAAAAGTGAATGTACTTGCTTTCATCGGATCCAGTAAAGTGGCCAATGGATTGAAAAAGCTCCATCCAAAAGTAAACCGTTTAAGGGCTATTCTGAGTCTTGATGCCAAAAATGCCGCTATTGTTACTAAAAATGCCAATCTGGATGTGGCGGTGAACGAATGTATTTTGGGAGCGTTATCTTTCAATGGACAGCGCTGTACCGCATTAAAGCTGATATTCGTTCAGAAAGAAATTGCTTTGGAATTTACAGAGAAATTAAGTGCTGCAGTTTCCGCCCTTAAGGCCGGACTGCCGTGGGAAAAAGATGTAAAGGTAACTCCGCTTCCGGAAGTGAACAAACCTCTTTATCTCAAAGAATGTATTGATGATGCTTTAACAAAAGGAGCTGCAGTTTTAAATAAAAACGGCGGGTATACAGAGAAATCTTTGGTCTTCCCGGCAGTAGTTTATCCGGTAAACAGTGATATGAAGCTTTACCATGAGGAACAGTTTGGCCCGGTGATTCCTGTGGTTCCGTTTGAAGATATAGAAGAACCTATAGATTATCAGGTGAATGCGTCCCATGGAATGCAGGTAAGTATCTTTAGTGAAGATCCGGAGGAAGTAGCAAGGCTGATTGATCCGTTTGTGAACCTTGTAAGCCGTGTTAATATCAATTGCCAGGCACAGAGAGGTCCTGATGTTTTTCCGTTTACCGGAAGAAAAGACAGTGCAGAAGGAACACTTTCCGTTTTTGATGCGCTTCGTTCATTCTCCATACGGTCTCTGGTGGCTGCAAAACTGACAGACTCCAACAAAGAGCTGCTGAATACTATCGTCAGAGAACATGATTCCAATTTTTTAAGCACTGATTATATTTTCTGA	MSSENAVPFHHIFKRENEIPEEYKVPVIHQRTYLLNGELVEWKGDVTEIYSPVCIPTENGAERKLLGSIPNIGSDEAMDVLEACVKAYDNGLGEWPTMSVEGRIKCMQKFVYLMIQQRDLIIRLLMWEIGKTLADSTKEFDRTVDYINQTIDALKDLDRESSRFQQAEGTIAQIRRAPLGVVLSMGPFNYPLNEIFTTLIPALIMGNTILFKLPKHGVLAHYPLLKAFKEAFPKGTVNTLYGKGSEIITPIMESGKVNVLAFIGSSKVANGLKKLHPKVNRLRAILSLDAKNAAIVTKNANLDVAVNECILGALSFNGQRCTALKLIFVQKEIALEFTEKLSAAVSALKAGLPWEKDVKVTPLPEVNKPLYLKECIDDALTKGAAVLNKNGGYTEKSLVFPAVVYPVNSDMKLYHEEQFGPVIPVVPFEDIEEPIDYQVNASHGMQVSIFSEDPEEVARLIDPFVNLVSRVNINCQAQRGPDVFPFTGRKDSAEGTLSVFDALRSFSIRSLVAAKLTDSNKELLNTIVREHDSNFLSTDYIF	PGPT0018005_74	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
BMS003_00519	570	tpx_2	COG2077	Thiol peroxidase	ATGTTTTCAAAATTAGTTTGCAGCACACTGCTATTCTTCTCTGCGGTAGGCTTTGCTCAAAAATCTAAAGCCATCAATACTGTTTTAATGGGCGGAAAAGAAGTTCATACCTACGCCAAACTGCCTGCACTGAATAAGCCGGCTCCGAAATTCACCCTTACAGATGTCAATATGAATGATCAGACACTGGATTCCTACAAAGGAAGATATGTTATCCTGAATATCTTCCCAAGTGTAGATACCGGGGTATGCTCTGCTTCTGTACATCATTTCAATGAGGAAGCTGGAAATCTTCCCAATACTGTAGTACTTTGTATCTCCAAAGATCTGCCATTTGCCCAGAAAAGATTCTGTGGTGCTGAAGGAATTCAAAATGTAGTAATGCTATCAGATTTCCGTTCCGATTTTGGATGGAACTATGGTGTAGAATTGGTAGATTCTGCGATGAAAGGACTTCTGAGCAGAGCGGTTGTGGTGATAGATCCTTCAGGAAAGATCATCTATGAAGAGCAGGTTGCGGATATTGCTCAGGAACCAAATTATGAAGCAGCAATAGCCGCGGTGAAATAA	MFSKLVCSTLLFFSAVGFAQKSKAINTVLMGGKEVHTYAKLPALNKPAPKFTLTDVNMNDQTLDSYKGRYVILNIFPSVDTGVCSASVHHFNEEAGNLPNTVVLCISKDLPFAQKRFCGAEGIQNVVMLSDFRSDFGWNYGVELVDSAMKGLLSRAVVVIDPSGKIIYEEQVADIAQEPNYEAAIAAVK	PGPT0013105_114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
BMS003_00520	489	eco	COG4574	Ecotin	ATGAAATTTTCTAGAACTTTAATTACAGGGCTGGCATTGATGGCTGGAGTAAATGCTTTTGCACAAAAGAAAGCAGAAAAGTTTGAAAAACTGCAGATTGAAATGTTCCCGAAAGCAAAAGATGGTTATAAGCAAGTATATATTCAGCTTCCCGTAGCCAAAAACGAAAACGATTTAAAAGTTGAACTTTTTGTAGGTGCTGAGAAAATGTTAGACTGTAACAATTATTTCTTAATGGGAGAAATGAAAACCCAGGATCTTCAGGGATGGGGATATAACTATTATGAAGTAGAGTCTAAAGGTGAAACAGCAGGAACACTCATGGGGTGTATGGATAAAAAACTGACTAAAAAGTTTGTGACCCTAAAACCTGAAATTGTAAGATATAACAGCAAACTTCCTTTGGTATTCTATGTACCGAAAGACATTGAAGTTCGTTACAGAATTCTACGTCCTGATAATACCATGAAAAAAGCAGTTCAAAAATAA	MKFSRTLITGLALMAGVNAFAQKKAEKFEKLQIEMFPKAKDGYKQVYIQLPVAKNENDLKVELFVGAEKMLDCNNYFLMGEMKTQDLQGWGYNYYEVESKGETAGTLMGCMDKKLTKKFVTLKPEIVRYNSKLPLVFYVPKDIEVRYRILRPDNTMKKAVQK				NA	NA	NA	NA	NA
BMS003_00521	5889			hypothetical protein	ATGAAAAGATTTTCCAAGATTTTTCTGCTTTTGCTTGTAATGCTGAGCTTTTCAACGGTATCCGCACAGAAATATTATGATACCCAATGGAAAAAAGTGGCCGAAAACAGTACAAAAGGAGCTTATAAATCTAATCTTCCCATTATTTTAGACATACAGAAACAAGCCATGAAAGAAAATAATGCCTTTGAGCTGATCCGTTCTCTGAAAGCGGAATTCAGTATCGTAAACCAAACTGTGGATGATGATCAGAATGATGCTGCTTCTCAATTTTTCAAAAAACTTAAAGATGCAGAAGGTAAAATAAATGGAGACGGGAAATTGGTATACAAAGTCCTGCTAAATGGCTTTTTCATGGATTATTACAATCAGAATTCATGGAAAATAAACGGAAGAACCAATATGAACTCCCAGGATGTTTCACAGATTGAAACCTGGAGTAAGCTTGATTTTAAAAATTATCTGACGAAAAGTTATCAGGAACTTGATAAAGAAAAATCTGGAATGAAAAAGATTTCTCTGGAAAAATATCAGAATATTTTTTCTGAAACAGCAGATATTGCTTATTTCCCGACTTTATCAGATTGGTATGCCGTTAAGAAAATAGAATTTTTATCTGAAAATAATATTTTCACCAAAAATGAACTGACAGAAAACCATACAACAATCAATGCAATTTATGATGAACTGATCGAACAGAATACGGGAAATTCCAAGCTGTACTTCATGAAAGAAAAGCTTACGGAAAACTGTAACTTCAATCATTGTAAGGATAAACTTCAGCAGCTTCAGAATCTTTTGAAATCTGATGTGCAGGGAGATTATAAAGTGATGATCATGGGAGATATCATGGATGAGCTTACTAATCAGAAGAAACCTAAGGAAGCCCTTGTGCTGGCAGCTCAGGCTAAAAATGAATACCCAAAATCTCTTTTCCTGGAGAATATTAAAAGCAAAGAAGCACAGATTGTAAATCCGTATCTGAATTTAAAATATGAAGCACAGACACAGAATAATCTTCCGATTCATTTTGTAGCAGAATATAAAAACGTATCAGAATTTACCCTGAATATTTATGAAGTAAAAGAGGATTTTACTTCGTTAATTCGATATGTTCAGGATTCTTATTCCGATACTTTCAGCAAACTAAAGAAGAATCTGGTAAGAAAAGAAACATTCCAGCTGCCGGATCCTAAGGATTATCAGAATCACAAAACTTCTTTGGAGATAAAACCGCTTCCTTCAGGAGTATATGTTGCAGAATTTACGGTAGCAGGTGCGGATATAAAAGATACGGACTCCAGACAGAATTTTTATTTTCTGGTTTCAGGAAACAGAATCATTTATCAGTCTAAAACAGACAGAAATCCTCTTTCTGACGAGCTGAAACTGGTGAATAGTGAGAATGGTAAGCCTTTAGCTAATGAAGGTCTTCGCTTTTATGAATTTGTTTCTAATAAAACATTAACTAAAATTGAGGGAACAACTAATGCTAACGGAATATTTAAGTTTCCTGCTACAGATAGCAAAGAATATTACAGAACATTCCTGATCCAGCAGCCTAAAACCAATGATTTTCAGATCATGCAGGTGTACGGAAACAGAGGCTATGATTATAATCCTAATAAACAAACGCGTTCAACGGCTCAGATTTTTATAGACAGAGGGATTTACCGTCCCGGACAGACTGTTTATTTTAAGGTGATCAATACCAGAATGCATAAGGAAGTGGAAGCAGTTCTTTCAGGGTTAAAACAAAAGATCACGTTATTGAACACCAATAACGAAGAGGTTTCTTCACAGGAATTCACAACTAATGAATTCGGTTCTTACCATGGAAGCTTTATTCTTCCGAAAGGAAAACTGAACGGTAATTTTTATCTGAGAATAGAAGGGGAAAGCCAGGGATACAAAAACTTCAGGGTAGAAGAATACAAAAGGCCAAAATTTGAAGTAACCTTTGATCCGGTAAAAGATGAATATAAATATGGTCAGACTATTGATCTGAAAGGAAAAGCGGTCATGTTCTCAGGAGTTCCGCTAAGCAATACGACTGTAAATTATGAAATCAAAAAACAAAATATCAGATGGAGGTATTTCAGCTGGTATCCGCAAAACAGTGATAATGAAAATTCAATTCTGGGCGAGGCAAAAACCAATGAAAAAGGAGAGTTTGTCATTCATTTGGAACTTAAAAAAGATGAAAAGCTGGAAGGAATCCAGATTGATAACTATGCTATCAACGCATCCGTAACGGATATCAACGGAGAAACACAGACAGCCAATACTCAATTAAAAGTAGCCTCGGTTTCCCACTATATTCAGGCAGAAAACATCAGCAATGTGTTTACAGATGAAAATGTGAAGGTGAAAGTAGAAACCAAGAATTACAACGATCAGAATCTTAAAAAGCCATATCAGGTTAAGCTATCAAAATTAACTGCTCCGGACAGGATTTTCAGAGAAAATTTCAAATCTGATGTTCAGAATCTGCCGAAATATTCAAAAGAAGAATTCATCAGCAAATTCCCACACGATCTTTTTGATAGAAATGACGAGATCAAAAACTGGAAAACCGAAAAAGTAGTCATTGAAAGACAGCAGCAGCCATCTGCAGATAATGCTCAGCTTGACCTTGGAAAGCTGGAAACCGGAGATTATGAACTTGAACTTTTTAATATTGAAGGAAAAGATACGATCAAAACTTCACAGTATTTCAGTGTCTGGGATAAAACAGCTTTAAAGCCAACTCAGAAAACATTCCTTACAGTTATTGCTCCAAAAGAAGAATTATCAAGAGGAGAAAAGGCAAAAGTTTATGTTTACTCAGCCGTTTCTGATGCCTTGGTGAATGTTTTTGTACAGAATGGATCCGGGAAAACCGTTTCAGAAGTTCATCAGATGAAAAAAGGAATATTAGAATATACTGCTGAAATTCCTAAAGATAAAAGTGTATCAGATCTGAACCTTCAGTTTCAGCTGGTAGCATTCAATGATGTGAATACAGAATCTGTTTCTTTAAAAATAAAAGACACCGAAAAACCTTTAAAAATAGAAACCGTAACCTTCAGAGATAAGCTGGAGCCAAATGCTAAAGAAAAATGGACGGTAAAAGTAACCGGAAATGACAAGGAAAAGATCAATGCAGAGGTATTGGCCAATATGTACGATATGTCTTTGGATCAGTTCGCTGCAAACAATTACAGCTGGAGAAAACTGTATACCCCATTTGTAATTGTTACTTCTTATGGGATCAGAAATTATCTGCAGCAGGAAAGCTATCAGAAAAGACTAAGATATTTCCAGGACAGATATGTTACTGTTCCTCAGTTTAATTGGTTTGATGGCGACCTTTTCTACATATTGCAGGGAAAAGCACCCGGAGTTATGGTTGATGCACCTCCACCATCACCAATTGCAGGCGCAAAATTTAAAACGGCCAGAGCATCTGTTGCAGAAAGTAAATTAGAGGTTATGCAGAATGTAGTTCCCGAACCTTTAAAAGCTCCAAAGATGGAAGCTGACTCAGATGGTGTTTTAGATCATGATGATGCAGCAAAAGAGCTGGACAAAGTAGCTGTTCGTAAAAACCTGAATGAAACGGCATTCTTCTATCCGGATCTGAAAACCGATGCAGAAGGAAATGTAAGCTTTGAGTTCACTTCTCCGGAAGCACTGACAAAATGGAAATTAATGTTCTTAGCACACACTAAAGATGCAAGAGCTGCTACTTTGGAAAAAGAAGTAGTAACCCAGAAAGAATTCTCAGTAACGCCAAACTATCCTAGATTCCTGAGAGAAGGAGATGAACTGAATCTGCAATCGAAACTGTCAAACCTTACCGATAAAAAACTGAATGGTTCTGCCGAATTACAGATTTTAGATGCCTTTACCGATGAAAATATATCTTCGAAATTCGGAATCACTTCAGGCACACAAAACTTCAGCCTGAATGAAAACGGAAGCAGTGCACTGACATGGAAATTGAAAGTTCCGGACAATGTTTCTTCCATTATTTTTAAAGTAGTTGCCAAAGCAGGAACTTATTCGGATGGAGAACAACAGGCTGTAGCGGTATTACCAAACAGAATGCTGGTAACAGATGCTGTTCCGGTTTTTGTGAAAGAAGGAGAAACTAAAACATTTGTACTGGATAACCTTAAAAATAATACATCCACAACAGCTTCTAATGTTTCCAATACGTTAGAATTGACAACCAATCCGATCTGGGAAATCATGTTTGCCCTTCCGGGTCTGAAAAATGATCAGAACAATTCTGCGGATGTGATCTTTAATAAATGGTTTGCTGATGTGCTGGCTTCGGAAATATTCAAAGCCAATCCGAAAATGAAAACAGTTTTTGAAGAATATCAGAACAAAGGATTATTGAATTCAAATCTTGAAAAAAATCAGGAACTGAAACAATTGTTGCTTGAAGAAACTCCTTGGGTACTGGAAAGTAAAAATGAAGGTGAGCAGATGCAGAAGCTGGCATTATTATTTGATGCAAATACAATGAAAAATTCTATCAATCAGGATTGGGATGATTTCAAAAAATTGCAGAATCCTGATGGCGGATTCTCATGGTATCCGGGCTATCCGAGTTCTTACGGAACATCACTATATATTCTTAAAAACTTAGGGAAAATCAATTCCTGGTTAAAAGAGAATGTAAAAGATTATCAAAGCTCAGAACAGAAGATGATTGTAGCTAAATTGATTCAGTATGCAGACAATGAGGTGAACAAATATTTCGATGTGAAAAAAGGAAATGTCTGGAACAACTGGGCTATGGATTATCTTGATACCAGAAACTATTGGGAGCAGCAATATCCTTTGAAAGGAAAAGGAGCTATCCTGAAAACATTGGTAAAACAAAAAGCAAAAACAGCTAAAATTACAGATTTTACATTCTTCGGACTTCACCGTGCTGCATTATTGATGAACAATTACGGTCTGAAAGACGTTTCTGCAAAATTAATGACTTACCTTAAAGAAACTTCCACAGATACCAAAACCCAAGGGGTCTACTGGAAACAAAACCTTAATGACTGGGGATGGTTTGGCTCAAAAGTCGTTAACCATGCCGGAGCGCTGGAAGCTTTCAATAAATTGCGGTCTAACGATCAGAACTTTATTGAAGATATGAAAATCTGGTTGGTAACTCAGAAAGAAGTCAATGCATGGGGCAGCTCAAGAGGAACCGCAGAAGTGATATTCACGATTTTAAATTCAGGAAAATCATGGACAGGAGCAGAAAGTGATAAAGCCACCATTGTTTGGGGAGGAAAGGAATTGGTACCTCAGACACAAGCTACTGGTTACGTGAAATCAACATTAAAGCCAGAAGCTGTTGATAAAAACTTAGCTACTGTAACCGTTACAAAACCTGGTCCAGGAATTGTTCAGGGAGGATTATTCTGGCAGTATTATGAAGATCTTGATCAAATTAAATCTTCTGAAAACTATATTTCTGTAACCAAGGAACTTTATAAAAAAATAAAAACTGTAAACGGGGAAGAGCTTCAGAAAATCTCTTCTGAAACACCGTTGAAAGTTGGAGATAAGGTTACAGTAAGAATGATTCTGAATACAGACAGAACCATGGAATTCATTCATATTAAAGATATGCGGGCAGCAGGATTTGAGCCCGTAGATGTGCTTTCAGGCTATCAATGGAAAAATAATCTCGGATATTACCAGTCAACCAAAGACGCCTCTACCAATTTCTATATCCAGTATATGCCGAAAGGAAAGTATGTATTTGAATACGATGTGGTGACCAATGCATCCGGTACATTCTCTAACGGAATTACAACAATGCAAAATTATTACGCACCACAGATGAATGCCCATACAAAGGGAAGTAATGTTGCAATTTCAGAGTAA	MKRFSKIFLLLLVMLSFSTVSAQKYYDTQWKKVAENSTKGAYKSNLPIILDIQKQAMKENNAFELIRSLKAEFSIVNQTVDDDQNDAASQFFKKLKDAEGKINGDGKLVYKVLLNGFFMDYYNQNSWKINGRTNMNSQDVSQIETWSKLDFKNYLTKSYQELDKEKSGMKKISLEKYQNIFSETADIAYFPTLSDWYAVKKIEFLSENNIFTKNELTENHTTINAIYDELIEQNTGNSKLYFMKEKLTENCNFNHCKDKLQQLQNLLKSDVQGDYKVMIMGDIMDELTNQKKPKEALVLAAQAKNEYPKSLFLENIKSKEAQIVNPYLNLKYEAQTQNNLPIHFVAEYKNVSEFTLNIYEVKEDFTSLIRYVQDSYSDTFSKLKKNLVRKETFQLPDPKDYQNHKTSLEIKPLPSGVYVAEFTVAGADIKDTDSRQNFYFLVSGNRIIYQSKTDRNPLSDELKLVNSENGKPLANEGLRFYEFVSNKTLTKIEGTTNANGIFKFPATDSKEYYRTFLIQQPKTNDFQIMQVYGNRGYDYNPNKQTRSTAQIFIDRGIYRPGQTVYFKVINTRMHKEVEAVLSGLKQKITLLNTNNEEVSSQEFTTNEFGSYHGSFILPKGKLNGNFYLRIEGESQGYKNFRVEEYKRPKFEVTFDPVKDEYKYGQTIDLKGKAVMFSGVPLSNTTVNYEIKKQNIRWRYFSWYPQNSDNENSILGEAKTNEKGEFVIHLELKKDEKLEGIQIDNYAINASVTDINGETQTANTQLKVASVSHYIQAENISNVFTDENVKVKVETKNYNDQNLKKPYQVKLSKLTAPDRIFRENFKSDVQNLPKYSKEEFISKFPHDLFDRNDEIKNWKTEKVVIERQQQPSADNAQLDLGKLETGDYELELFNIEGKDTIKTSQYFSVWDKTALKPTQKTFLTVIAPKEELSRGEKAKVYVYSAVSDALVNVFVQNGSGKTVSEVHQMKKGILEYTAEIPKDKSVSDLNLQFQLVAFNDVNTESVSLKIKDTEKPLKIETVTFRDKLEPNAKEKWTVKVTGNDKEKINAEVLANMYDMSLDQFAANNYSWRKLYTPFVIVTSYGIRNYLQQESYQKRLRYFQDRYVTVPQFNWFDGDLFYILQGKAPGVMVDAPPPSPIAGAKFKTARASVAESKLEVMQNVVPEPLKAPKMEADSDGVLDHDDAAKELDKVAVRKNLNETAFFYPDLKTDAEGNVSFEFTSPEALTKWKLMFLAHTKDARAATLEKEVVTQKEFSVTPNYPRFLREGDELNLQSKLSNLTDKKLNGSAELQILDAFTDENISSKFGITSGTQNFSLNENGSSALTWKLKVPDNVSSIIFKVVAKAGTYSDGEQQAVAVLPNRMLVTDAVPVFVKEGETKTFVLDNLKNNTSTTASNVSNTLELTTNPIWEIMFALPGLKNDQNNSADVIFNKWFADVLASEIFKANPKMKTVFEEYQNKGLLNSNLEKNQELKQLLLEETPWVLESKNEGEQMQKLALLFDANTMKNSINQDWDDFKKLQNPDGGFSWYPGYPSSYGTSLYILKNLGKINSWLKENVKDYQSSEQKMIVAKLIQYADNEVNKYFDVKKGNVWNNWAMDYLDTRNYWEQQYPLKGKGAILKTLVKQKAKTAKITDFTFFGLHRAALLMNNYGLKDVSAKLMTYLKETSTDTKTQGVYWKQNLNDWGWFGSKVVNHAGALEAFNKLRSNDQNFIEDMKIWLVTQKEVNAWGSSRGTAEVIFTILNSGKSWTGAESDKATIVWGGKELVPQTQATGYVKSTLKPEAVDKNLATVTVTKPGPGIVQGGLFWQYYEDLDQIKSSENYISVTKELYKKIKTVNGEELQKISSETPLKVGDKVTVRMILNTDRTMEFIHIKDMRAAGFEPVDVLSGYQWKNNLGYYQSTKDASTNFYIQYMPKGKYVFEYDVVTNASGTFSNGITTMQNYYAPQMNAHTKGSNVAISE				NA	NA	NA	NA	NA
BMS003_00522	756			hypothetical protein	ATGAACATCTTAAAAATACTGAAAAAAACTGTCATAGACAGCCAGATTTATGTCTCTCTTATGGGAACTCTTTTTGCAGTATTTTTCATGAAAGAGCAAAACACATTCCGTTTCCCTACTTTTGCGCTTATTTTTATTACTTATTTCAGTGGTTATCTGTATACTAAATACCAATATACCAAGCATTTTCTCAAAATACTGGTGGTAAATGCCATAGCAGGAATTGCCTGTGCTTTTTTAATCATTCATAATCATAATGAAATAAGACTTCTGAAATGGTTCATTATTGTTGTATTAGGATTACTTTATAATAGTTTTTTTCTTGATATTTATATCCGGAAAATTCCTTTGCTCAAGGTTTTTTATGTGGGACTGGTGTGGGCACTGGTCAACTGCTGGCTTACGCTTCCGGAATTCAGTCTGCCTATTTTTCTGATCAGCTTTTTCTTCATTACCGCTCTTGTTCTTCCTTTTGATATCCGGGATATGAATAATGATACTGTAAAAACCTTTCCTATGCTGATAGGGGTGGATAATACCAAATATATTGCCTATATACTTGTTTTCATCAGCAATATAATCGGAATCTTTTATCTTGATTTATCTTACGCCATTGCTTTTTTTATGGCCAGCATTGTAACTTATATTCTTATCTATTTTTCTGATAATAAAAGAGATGACGCTTATTTCTCATTTGGGGTAGAAACTTGTTCGGCACTTCCTTTTTTATTTTTACTAATAATGAAGTATTTTTGA	MNILKILKKTVIDSQIYVSLMGTLFAVFFMKEQNTFRFPTFALIFITYFSGYLYTKYQYTKHFLKILVVNAIAGIACAFLIIHNHNEIRLLKWFIIVVLGLLYNSFFLDIYIRKIPLLKVFYVGLVWALVNCWLTLPEFSLPIFLISFFFITALVLPFDIRDMNNDTVKTFPMLIGVDNTKYIAYILVFISNIIGIFYLDLSYAIAFFMASIVTYILIYFSDNKRDDAYFSFGVETCSALPFLFLLIMKYF				NA	NA	NA	NA	NA
BMS003_00523	1080	recF	COG1195	DNA replication and repair protein RecF	ATGATTATCAAGAAGCTTTCCCTCTACAATTTCAAAAACCACTCTGAGAAAAAATTTGAATTTTCCCCGCAGATCAACTGTTTTGTGGGTAATAACGGTGTTGGAAAAACCAATATTCTGGATGCTTTGCATTATTTATCAGTAGGAAAAAGTTTTCTGGGAAATACTGATCTTAACAATATTAAACAGGAGGAAGATTTTTTCACCATTGATGCTGAAATTCAGAATGAGGATAGTGAAGATATCATCAGGATAACCCAGCCCAAAGAGGCTAAAAAATTGATCAAAAAGAATGACAAAAGCTACGACAGGCTTGCAGATCATATCGGATATCTGCCAAGTGTCATGATTTCTCCCTATGATTCTAACCTTATTTCAGATTCCGGAGAAAGCAGACGAAAGTTTCTGGATGCTATGATCTCTCAAACAGACTCAGAATATCTTTTTGACCTTATCCAATACCAGAAAACAATCCAGCAGCGAAACGCTTTATTGAAATATTTTGCCAAAAACAGAACCTGGGACAAAGATTCTCTGGAAATCTATGATGATCCGATTACCCGATTCGGGACAAAAATTTTTAATAAAAGAAAGGATTTTGTAGAACAGCTTAATCCTATTGTTCAGAATTTCTACCAGATTATTTCCGGTGGAAAGGAAACTGTATCCGTAATTTATGAATCTCATTTGCTGGAAGATTCTTTTGAAACTCTTTTAAAAGAAAGTCTTGAAAGAGACCGAATGCTTACTTATACCTCAAAAGGAATTCATAAGGATGATCTACTTTTCGAAATGGATCATGTTTTAATTAAGAAAATCGGGTCCCAGGGACAGCAGAAATCTTTTCTGATCTCTCTAAAGCTGGCTCAAATGAGTCTTGTAAAAGAGCTCACCAAAAAGACTCCTATCCTGCTGCTGGATGATATTTTTGATAAGCTTGATGATACCAGGGTTTCACAGCTGATTGAGCTTGTGAATAAGGAAAGTTTCGGACAGATATTCATCACGGATACCCATAGGGAAAGAACTGAAAGTGTGGTAAAAAAAATTAATGAGGAAAGTATCATTTTTGAGGTTTAA	MIIKKLSLYNFKNHSEKKFEFSPQINCFVGNNGVGKTNILDALHYLSVGKSFLGNTDLNNIKQEEDFFTIDAEIQNEDSEDIIRITQPKEAKKLIKKNDKSYDRLADHIGYLPSVMISPYDSNLISDSGESRRKFLDAMISQTDSEYLFDLIQYQKTIQQRNALLKYFAKNRTWDKDSLEIYDDPITRFGTKIFNKRKDFVEQLNPIVQNFYQIISGGKETVSVIYESHLLEDSFETLLKESLERDRMLTYTSKGIHKDDLLFEMDHVLIKKIGSQGQQKSFLISLKLAQMSLVKELTKKTPILLLDDIFDKLDDTRVSQLIELVNKESFGQIFITDTHRERTESVVKKINEESIIFEV				NA	NA	NA	NA	NA
BMS003_00524	378			hypothetical protein	ATGAGTTATAGAAATCTGGATATTTACAAAATAGCTTTTGAATTATTTTTAAAAACTCGTAAAGCGTCTCATCTTCTTCCCAAATATGAACTGTTCGAGTTAGGCAGCCAATTAAGACGATCTTCCGATTCAGTAATTACAAATATTGTGGAAGGCTATGGAAGATCACCTTATAAAAATGATTACATTCGCTTCCTGATTTACAGCCATGCGAGTAACGATGAAACAATTAACCATCTGGAAAAAATTATCATATTATACCCTAATTTTTCCTCAGAATTTGAAACATTAAGAAATGAATATAACACATTAGGCGGAAAAATCAACATTTATAAAAAATGGGTCATAGAAAACTGGAATAAGAATAAGTTACAATAA	MSYRNLDIYKIAFELFLKTRKASHLLPKYELFELGSQLRRSSDSVITNIVEGYGRSPYKNDYIRFLIYSHASNDETINHLEKIIILYPNFSSEFETLRNEYNTLGGKINIYKKWVIENWNKNKLQ				NA	NA	NA	NA	NA
BMS003_00525	294			hypothetical protein	ATGAAGAAGAAAAAACGTGAATATCAATCCTCAGAACTTGTAAAATCTTTTGCCAGAATCTATGGTTTTGAACATAAACTTGTCGCTTTTGACATTAAAGATTTTCTTGAAGACTATCTTGATGAAAGTCTTTTCAGGGAAATCAGAAGTGTTAATATTGAAAATGAATGTATTATTATTAAAATTGATTCTCCCCTACTGAAACATGATTTTAAAATGCGCAAAGGCTTCTATCTCAAAAAGTTTCAGGACAAATTTGGAATGGAGAAATTTAATGATCTACAGATATTATAA	MKKKKREYQSSELVKSFARIYGFEHKLVAFDIKDFLEDYLDESLFREIRSVNIENECIIIKIDSPLLKHDFKMRKGFYLKKFQDKFGMEKFNDLQIL				NA	NA	NA	NA	NA
BMS003_00526	2031			hypothetical protein	ATGAAATTCTTTAATTCCAGCACAAATTTTGAGTCAGTTCTTAAAAAATATTTTTCTTTTAAGAACGAAACCCTTTCTTTAGAGCCCTTTACAGAGTTTTTAGAGACTGTAAAAGAAGCGGACTTTACAGATGTGCTCAATTCTTTCAGGAATAATCCTAATTTTGCTGAGAACTTTAAATATTATATTCACAATATTTTTAAAGGAAGACCCTTCAACCTTTCCCTGACAGAAGCCAATATTCTTTCAGAAAATGCCTTTTTTCCGGAACTTAAAAAAAGAATACTGAACAAAGTGCTGCCACCCGTTGAAAATGAGAAGACGGTATGGTACATGATTGATAATGTCAGTCTAAGGCCTAAAAAAGACCTGAAACATCTGCATAATCTTCCGGAAAGTGAGATTAATGAATTTTTAAATATACTGGGAGCTTCGGATTTTATCGTGAAACCTAATGTGAAAAAAGAACTCATTTTCTCTATGAATATCCTTTCCTGGAGGGTTACAGGGATGGCTATGGAAGTGGAAGTGGTAAGAATGGCTCCCCAATACAGGAATCTGGACAACCCGTTTCTTGCCCTTCAGAATGAGCTGGAAACACTGGCAGAAGACCTGGTAAAAGACCCTGAACTTCAGCTGCATTCCAAAGACAGCAGATATAAGCAGATCAAAATCTACGCAGAACAGTGTCAGGAATTTGTGAATATTGCCTTTAAAAATTCTGCCAAATATGGTATTTCAGGAAAAATTAATCAGTCTCTGTTGAAAATCCGGCAGCAGACTGAAAGAATATTTGAAATCCTACAGTTACTGGTTATTGATACCGATGAAGATGTTCTGATAAAGTCTAAACAGTTGATCTTTAATATTCTGAATTATAAATCCCATAAGAATAATATTTCAGACCTGATCAATGACAGTACAAGACTGATTTCACACCTTATTACCAATCATACCGCAGAAGCCGGAGCACATTATATCACTTCTACACGGAAAGAATATATGACAATGTTCTATAAAGCAAGTGGTGGTGGTATTATTGTAGGAGCACTTTGTGTTCTGAAAATGCTCTACGGATACATTCCCGGAAGTGATTTTTCACATGCCTTTTTGTATTCCATGAACTATGCAATGGGATTTGTGATGATCTATCTGATGGGCTTTACTTTAGCTACAAAACAGCCGGCAATGACAGCTGCTACGATGACAAAAGTACTGTCTGAAGAAGGAAATGCCCAGAGAAATAATACGGAATTTGCCCATCTGGTTTCCAAGCTGTTCAGGAGTCAGTTCATTGCCTTTGTAGGAAATGTGTTATTTGCCTTTCCTGTAGCACTTGCCATTATTTACGGACTCGATGTGTTTTTCTCACAAAATCTTGCCGTAGAACGGTCTGATAAATTGTTAAAAGACCTCGATCCTTTTAAATCAAAAGCTATTCTGCATGCAAGTATTGCAGGATTCTATCTTTTTATTTCCGGGATTATTTCCGGGAATATCGGAAACAACTCTGTATTTTATCAGATACCGGAGAGAATTGCCAAAAACGTTTCAATCAGAAACTTTTTCGGAAAGAAATTCGCAAAAGGACTTTCAAAATATTATGCTAAAAACTGGCCGGGAATTATTTCTAATTTTTGGTTTGGAGTTTTCCTTGGAGCTACAGCTCCTGTAGGTATGTTTTTTGGACTTGATCTTGATATCAGGCATATCACTTTTGCTGCCGGAAACTTTGCATTGGGGCTTTATGGAAAAGACTTTTCAGTAGACACCTATACGTTCTGTATCTCATTTTTAACAGTATTTCTGATAGGTTTCTTTAACTTTCTGATTAGTTTCAGTTTATCCATGTTTTTGGCGTTCAGATCAAGAAAGATGAATTTTGGACAGGTAAGTGAAATCTATAAAGAAATTTTCAGATATTTTACAAAGCACCCGCTGAAATTCTTCCTGCCATTACGTTCCGGACTGGATAAAAAAGCAGATGACTTAATGAGCAGCACTATTTCCAGTAAATCCGAAGAACATTAA	MKFFNSSTNFESVLKKYFSFKNETLSLEPFTEFLETVKEADFTDVLNSFRNNPNFAENFKYYIHNIFKGRPFNLSLTEANILSENAFFPELKKRILNKVLPPVENEKTVWYMIDNVSLRPKKDLKHLHNLPESEINEFLNILGASDFIVKPNVKKELIFSMNILSWRVTGMAMEVEVVRMAPQYRNLDNPFLALQNELETLAEDLVKDPELQLHSKDSRYKQIKIYAEQCQEFVNIAFKNSAKYGISGKINQSLLKIRQQTERIFEILQLLVIDTDEDVLIKSKQLIFNILNYKSHKNNISDLINDSTRLISHLITNHTAEAGAHYITSTRKEYMTMFYKASGGGIIVGALCVLKMLYGYIPGSDFSHAFLYSMNYAMGFVMIYLMGFTLATKQPAMTAATMTKVLSEEGNAQRNNTEFAHLVSKLFRSQFIAFVGNVLFAFPVALAIIYGLDVFFSQNLAVERSDKLLKDLDPFKSKAILHASIAGFYLFISGIISGNIGNNSVFYQIPERIAKNVSIRNFFGKKFAKGLSKYYAKNWPGIISNFWFGVFLGATAPVGMFFGLDLDIRHITFAAGNFALGLYGKDFSVDTYTFCISFLTVFLIGFFNFLISFSLSMFLAFRSRKMNFGQVSEIYKEIFRYFTKHPLKFFLPLRSGLDKKADDLMSSTISSKSEEH				NA	NA	NA	NA	NA
BMS003_00527	645	mtgA		Biosynthetic peptidoglycan transglycosylase	ATGTGGAAAAAAATTAAACAGCTTATCTTCATTATTCTTGTCCTGAATGTAGTTTTCATTATCTGGGGCAGGTTCTTTAATCCGCCAATCACCATTACACAGATAGGGGGACTATTAGAATACGGAAAGCTGCATAGGGACTATATTTCCTATGACGAGATGGGAACTAATGTAAAAAAAGCAGTCATAGCTTCAGAAGATCAGAAATTCTTTGATCATGACGGTTTCGATTATACAGCGATCGAAAAAGCGATGAAATATAATGAGAAAGGCAAAAAAATAAGAGGCGGAAGTACTATCTCCCAACAGACTGCCAAGAATGTGTTTCTTTGGCAGGGAAGAAGCTGGGTAAGAAAAGGACTGGAAGCCATCTATACTTTTATCATTGAAAAAGTATGGACTAAGGATATTATTCTTGAAAGATACCTGAATTCCATTGAAATGGGACAGGGCGTATTTGGAGTGGAGGCTGCAGCTCAATATTATTTTGGAAAGTCATCTGGGGACTTAACTGCTTCAGACGCAGCCTGGATTGCCGCTGTATTACCCAATCCAAAGAAGTATGACCCTAAAAATCCCTCTCCATATCTTAGAAAGAAACATAATTGGATTATGAGACAGATGAGGAATGTGAGTTTGAAATAG	MWKKIKQLIFIILVLNVVFIIWGRFFNPPITITQIGGLLEYGKLHRDYISYDEMGTNVKKAVIASEDQKFFDHDGFDYTAIEKAMKYNEKGKKIRGGSTISQQTAKNVFLWQGRSWVRKGLEAIYTFIIEKVWTKDIILERYLNSIEMGQGVFGVEAAAQYYFGKSSGDLTASDAAWIAAVLPNPKKYDPKNPSPYLRKKHNWIMRQMRNVSLK	PGPT0024110_1700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
BMS003_00528	1047			hypothetical protein	ATGAAACAGAGAATTTTACTTTTATTTACAGTTTTAGCGCTAATTGCCTGTAAGAGAGAATCAAAAATTTCGTCCTCAGATTGGACAAATATCTCAAATCGTACCCAATACAAGGAACAGGACGGAAATCTGGAGTTGAAATCAGGGAATTTCACGTATAATTTTAAACAAAATCAAACTCCTTTCAAGAAAATTATCCTGTTGAATGCTAGTATGGCAGGGTATATTTCAGAACTTGGATCAGAAAATTTAATCATAGGAGTTTCAAGTCCGGAGTATATTTATTCAGCAAAAATTCAGAATTTAATAAAAGAAGGAAAGATCCAGAATGTAGGAAGTGAGCAAAAATATGATGTGGAAAAAATAATCTCTATGAAACCGGATGCTATTTTTACCAATCATATTGCAAACTTCGATAATACATACGAACTTTTGAAAAACAACGGAATCCAGGTGATCTTTCTGGATGAATATATGGAGCAGAAACCTTTGGAAAAAACTGCTTATATTAAACTTTTCGGAGAATTTTTAGGAAAAGAAAAAGAAGCTGAGGTTAAATATCAGGAAGTTGAAAAAAACTACAACGATCTGAAACAGCTTGCTTCAAAAGCAAAAGAAAAACCTGTTGTCCTGGCTAATGAAATGTATGGGGATGTATGGTATCTTCCAGGGGGAAATACCTCTGTGGCTCATTATATTTCAGATGCGAATGCGAATTATATCATGAAGGATAATAAAGATGAAAAAGCTTTGACAATGAGTTTTGAAGAAGTGTATGCTAAAGCAGGAGGCGTTCAGTATTGGGTGAATGCAGGAAGCCATACTTCAAAAAAAGAAATGCTGGGAATGAATCCTTTCTACGGAAAACTGGACGTATTCAATAAAGGAAAGATTTACACGATAGCCGGAAAAGAAAATTTAAAAGCCAATGACTTCTTCGAAAGTGGTGTTGTAAGAGCAGATTTGATCCTTAAAGACTATATCAAGATCTTACATCCTGAACTTTTACCGGATTATCAGCTTACTTATATGAAAGAATTGCAGTAA	MKQRILLLFTVLALIACKRESKISSSDWTNISNRTQYKEQDGNLELKSGNFTYNFKQNQTPFKKIILLNASMAGYISELGSENLIIGVSSPEYIYSAKIQNLIKEGKIQNVGSEQKYDVEKIISMKPDAIFTNHIANFDNTYELLKNNGIQVIFLDEYMEQKPLEKTAYIKLFGEFLGKEKEAEVKYQEVEKNYNDLKQLASKAKEKPVVLANEMYGDVWYLPGGNTSVAHYISDANANYIMKDNKDEKALTMSFEEVYAKAGGVQYWVNAGSHTSKKEMLGMNPFYGKLDVFNKGKIYTIAGKENLKANDFFESGVVRADLILKDYIKILHPELLPDYQLTYMKELQ				NA	NA	NA	NA	NA
BMS003_00530	681			hypothetical protein	ATGAATTTTACCCTTATCAAAGACTTTATGTCTCTTCTTGAGCAATTCGAATCAGATAATAAGACATCTTCAAATTCTTATCCCTCAACTATTGAAGGTTTCAAATCTTGGGTTTCTGATAAAAATAATGGGGAGTCTGCACGTGTTGATGAAGAACCCTATTGGGAAGGAAAAGAAAATGGAAGAACAGCGGAAAGTGCAATCAGCACATTGCTTGTTCATCTTAACAGATATGCTAAAACCTATTCAAAGTCTGCCATCACAGATTCTGAATTTTCTACCCAGGAAGACTTTATTTACCTGATCAACTTAAAAGCTTTTGGTGAGATGACTAAAATGGCGCTCATCAAAAAAAATATTCACGATAAACCTGTTGGAATGCTTATCATTACAAGACTTCTGCGTCAGGAATTGATAGAACAGACAGATTCGGATGTAGATAAACGAAGTAAATTAATACGTATTTCTGAGAAAGGATTAGCAGTCCTGGAAAAACAAATGGAAAAAATTCGTCAGGCTACCAGTATCGTTGCCGGCAACCTTAATTATAATGAAAAAATGGATCTGATCCGTATTCTCAATAAATTAGATCGTTTTCATTATCCTATTTTCTCACGTAATATTCATTCTGATGAACTTATTAACACCGTTTATGATGAATACGCTTTCAAAAAATTATAA	MNFTLIKDFMSLLEQFESDNKTSSNSYPSTIEGFKSWVSDKNNGESARVDEEPYWEGKENGRTAESAISTLLVHLNRYAKTYSKSAITDSEFSTQEDFIYLINLKAFGEMTKMALIKKNIHDKPVGMLIITRLLRQELIEQTDSDVDKRSKLIRISEKGLAVLEKQMEKIRQATSIVAGNLNYNEKMDLIRILNKLDRFHYPIFSRNIHSDELINTVYDEYAFKKL	PGPT0019711_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019711-nicR-K22296	NA	NA
BMS003_00531	300			hypothetical protein	ATGAATAATTCAGATTACAACAAAGCGGAGAATGCAGTTAATGAAACAGAAAATTCTTTAAAAAACATAGTTGATAATGCAAAATGGAAGATCAGTGAATTGGCAGACAAAGCGAAAGATTATATCAGTGAGAAAAGAGATAATGATCAGGAAGCAACTCAGGAAGACTGGTTAGATAGAGTGAAATCAAATGTTTCCGACGCATGGGAAGATATTAAGGATAAAGCCGATGAAGCATGGGAAAGTACAAAAGATGCTGCCGAAGATGTGAAGGCTGAATGGAGAAAAAAAACAAATTAA	MNNSDYNKAENAVNETENSLKNIVDNAKWKISELADKAKDYISEKRDNDQEATQEDWLDRVKSNVSDAWEDIKDKADEAWESTKDAAEDVKAEWRKKTN				NA	NA	NA	NA	NA
BMS003_00532	1434			hypothetical protein	ATGAAAAAAATACTGCTTACCGGCGCTACCGGATATATTGGGAAAAGAATGATCAGTGTCATTGCTTCGCAAGGATATAAAGTAGTATGCTGTTGCAGGGATATCAATCGTTTCACGGCAAATATGGATATTGATGATAAGCTTATCGACGTTATTGAAGTAGACTTTCTGAAACCGGAAACATTAAAGAATATCCCTGAAGATATAAACGGAGCATATTACCTGATGCACTCTATGAGCGCTACTGAAGATTATGAAGACTCCGAAAAGAAATGTGCCCGCAATTTTTCTGAATATATAGAAAAGACACATTGCCGGCACATAGTATATCTTTCCGGTCTGGCCAATGAAAAACAATTGTCAAAACATTTGAGTTCGCGATATCAGGTTGAGAAAATTCTTATGGATTGTAGAGTCCCTGTCACGGTTCTCCGGGCAGGTATTATTATTGGCTCGGGCAGTGCTTCTTTTGAAATTATAAGAGACCTTGTTGAAAAACTGCCGGTGATGGTAGCTCCTAAATGGCTTTATACGAAATGCCAGCCAATAGGAATTGCTAACGTCCTGGATTTTCTGATTTTCGTCTTGTTTAAAGAACAGGCTTACCGGAAAGACTTTGATATAGGATGTGATGATGTTCTTACCTATAAGGATATGTTACTGAAGTTTGCTGATGTAAGAGGGTTAAAGAGGACTATTTTTACACTTCCGGTGATGACTCCAAAGCTTTCTTCCTATTGGTTGTATTTTATTACTTCAACCTCTTATAATCTGGCAAAGGCACTTGTGGGCAGCATGAAAGTAGAAGTTGTCTGCAGACCGGAAAGCCTTGCTCAGATTAAATCTATCACGCAGATACAGCCGTTTTCTTATGAAACCGCACTCAAAAGAACGTTGGCAAAAATTCAGTCAAATGAAATAATCTCAAGCTGGAAAGACAGTTTTATCAGCAGCCGGAACGATTCAACTTTAAAAGAATATCAGGATGTACCCAAATATGGCTGTTTTACAGATCTGAGAAGTGAAGAGTATGATAACAGGGAAGCTTGTGTAAACAGAATTTTTCAGTTGGGAGGTAAGAATGGATGGTATGGCCAGGGGTTGTGGAAGATAAGAGGTTTCATGGATAAACTTTTTGGCGGACCCGGGCTCAGAAGAGGAAGAAGACATCCTTCGGATCTTAAAGAAGGAGATGCTCTGGACTTCTGGAGAGTCTTGTATGCCGACCGCACAGAAGGCAGGCTTATTTTATTGGCTGAAATGAAGCTCCCCGGAGAAGCCTGGCTTATGTTTAAAGTATATAAAAATAAGATATGGCAGAAAGCTGTATTCCGTCCAAAAGGTCTGTGGGGAAGAATATACTGGTTTATGGTTCTTCCGTTTCATGGTATTATTTTTAAAGGAATGATTAAAAACCTTGGCAGAAGTAAATAA	MKKILLTGATGYIGKRMISVIASQGYKVVCCCRDINRFTANMDIDDKLIDVIEVDFLKPETLKNIPEDINGAYYLMHSMSATEDYEDSEKKCARNFSEYIEKTHCRHIVYLSGLANEKQLSKHLSSRYQVEKILMDCRVPVTVLRAGIIIGSGSASFEIIRDLVEKLPVMVAPKWLYTKCQPIGIANVLDFLIFVLFKEQAYRKDFDIGCDDVLTYKDMLLKFADVRGLKRTIFTLPVMTPKLSSYWLYFITSTSYNLAKALVGSMKVEVVCRPESLAQIKSITQIQPFSYETALKRTLAKIQSNEIISSWKDSFISSRNDSTLKEYQDVPKYGCFTDLRSEEYDNREACVNRIFQLGGKNGWYGQGLWKIRGFMDKLFGGPGLRRGRRHPSDLKEGDALDFWRVLYADRTEGRLILLAEMKLPGEAWLMFKVYKNKIWQKAVFRPKGLWGRIYWFMVLPFHGIIFKGMIKNLGRSK				NA	NA	NA	NA	NA
BMS003_00533	678			hypothetical protein	ATGCAATATACTTACATACTGATTAATTTTTTCACGGTTATTATCTGCTTTTTAGCCTCTTTTGACCGGAGAATACAGTTTAATAAACTTTTCGGAAAATTTTTGCTCTCGTCTAGCATTGTGGCAATTCCTTTTATCGCCTGGGATATATGGTTCACCGGAAAAGGAGTGTGGTGGTTTGATTACAGGTACACGATAGGCCTTAAAATTGCAGGGCTTCCCCTGGAAGAATGGCTGTTTTTTTACTGTATTCCTTTTGCCTGTGTCTTTACGTACTATTGTCTGGAAAAATTTTTAAAATTCAATTGGGCAGAGCTTTTTAATAACCTGATTGTCTTTACAGCTGTTATTGTTCTCAGCGTTGCAGGACTTCTTTATTATGACAGGATATATACTTTGCTTACCGTAATTGTAACGGTTGTTACACTTTGTTATCTGCATTTTATTGCAAAAAAAGAATGGTTGGGAAAAGCCAGTTTTACATATCTTATTTTGATGCCCGGATTTTTTGCCGTGAATGGAATCCTTACAGGGTCTTTAATTCCATCGCCTGTTGTGAACTATAATCCTGGTGACTTTTTAGGGGTTAGAATGGGAACTATTCCTATTGAAGATGCCGTTTATGGCTATAGCCAGTTTTTACTCAATATTTATTTCTTTAAAAAAATAACTAAGTAG	MQYTYILINFFTVIICFLASFDRRIQFNKLFGKFLLSSSIVAIPFIAWDIWFTGKGVWWFDYRYTIGLKIAGLPLEEWLFFYCIPFACVFTYYCLEKFLKFNWAELFNNLIVFTAVIVLSVAGLLYYDRIYTLLTVIVTVVTLCYLHFIAKKEWLGKASFTYLILMPGFFAVNGILTGSLIPSPVVNYNPGDFLGVRMGTIPIEDAVYGYSQFLLNIYFFKKITK				NA	NA	NA	NA	NA
BMS003_00534	453			hypothetical protein	ATGAATATTCTGACCGTTCTGCTGGTTTTTATTGCTATGGAAGGAGTCACATGGCTTATTCACAGGTATATCATGCACGGTTTTTTGTGGAGTCTTCACAAAGATCACCACGACCATAGCCAAGACGGCAAGTTTGAGAGAAATGACTGGTTCTTTTTCATTTTTGCAAGCCCGGCCATTGCTTTATTGTATCTGGGAGTACAACAGGATTTTAGTTATTGGTTTTTTATCGGTTTGGGAATAAGCCTTTATGGAATGGCCTATTTTTTTGTGCATGATATTTTTATTCATCAAAGGGCAAAGGTTTTTACCAGAACAAAGAATCCGTATTTGCTGGCAATAAGACGTGCTCATAAACAGCATCACAAACATTTAGGAAAAGAAGAAGGGGAGTGCTTTGGCTTTTTATGGGTTCCTATGATCTATTTTAAAATGTATTTCAATAAAAAATGA	MNILTVLLVFIAMEGVTWLIHRYIMHGFLWSLHKDHHDHSQDGKFERNDWFFFIFASPAIALLYLGVQQDFSYWFFIGLGISLYGMAYFFVHDIFIHQRAKVFTRTKNPYLLAIRRAHKQHHKHLGKEEGECFGFLWVPMIYFKMYFNKK	PGPT0007485_583	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007485-crtZ-K15746	NA	NA
BMS003_00535	465			hypothetical protein	ATGTACAGATTATATAGAGAGCAACATTTAAATTGTACTATTGAGAAAGCATGGAAGTTTTTTTCTTCTCCTCATAACTTATCTGAAATAACCCCGAAAAGCATGAATTTTCTTGTTCTTTCAGATATTGAGGATGAATCTATTTTTGAAGGAATGGAAATAGATTATACAGTTTCTCCGGTGCTGGGAATTCCTATGAGATGGAAAACCGTTATAACACAGGTACAGGATTATAAAAGTTTTACAGACTTTCAGAAACAGGGGCCTTACAAATATTGGAATCATTTTCATGAGTTTATTCCGGGTGAGAATGGAGTGCTCATGAAAGATACTGTAGATTATGAGCTCCCGATGGGAATTTTCGGAAGCATAGCTCATGAGTTATTTGTGAAAGAAAAGCTAAGAAGTATTTTCGATTTCAGATACAGAATATTGGATGATATTTTTAACTGCAAAAACAATTAA	MYRLYREQHLNCTIEKAWKFFSSPHNLSEITPKSMNFLVLSDIEDESIFEGMEIDYTVSPVLGIPMRWKTVITQVQDYKSFTDFQKQGPYKYWNHFHEFIPGENGVLMKDTVDYELPMGIFGSIAHELFVKEKLRSIFDFRYRILDDIFNCKNN	PGPT0014730_252	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
BMS003_00536	837	crtB		15-cis-phytoene synthase	ATGAAAAAGTTGTTTGATGAGTTGTCCTATGAGGTCAGTAAGTACACTACTCAAAAATACAGTACCAGTTTTTCATTAGGAATATTGGCTTTGAAGCCTTCTATCAGACCTGCTATTTATGCTGTTTATGGGTATGTGCGTCTTGCGGATGAAATTGTTGATAGTTTTCATGGGTATGATAAGGAAAAGCTCCTGAAAAGACTAAAGGAAGAAACTTACAATGCACTGGAAGACGGTATATCACTCAATCCTATTTTGCATTCATTTCAGGAGACCGTGCGTCAGTATGATATCAATACTCAGTTGATTGATCAGTTTTTGCACAGTATGGAAATGGATCTGCAAAAGATTGACTACAATTCTGATCTTTACAATGAATATATCTACGGCTCTGCAGAAGTGGTAGGGCTTATGTGCCTGCAGATATTTACAGGAGGTGATAGGCAGCAGTTTGATAAACTTAAACCATTTGCCATGAAGCTGGGATCTGCTTTTCAAAAGGTAAACTTCCTGCGTGATCTAAAAGATGATTATCAGATTTTGGGAAGAACCTACTTCCCGTCTTTGAATATGTCTGTTTTTGATAATACCGTAAAAGCCCAGATTGAAAAAGAAATTGAAGAAGAATTTAAAGAAGCATTGCAGGGAATTAAAAAACTTCCGGGCTCTTCTCTCTTTGGTGTATATCTCGCGTACAGGTACTACCTGTCATTATTTGAAAAAATAAAGAAAACAAGTTCTCAGCATATTTTGCAGCAGAGGATCAGGATTGCCAATTCACAGAAACTGTTGGTAGCATTTAAAAGCTATATAAGATACAAATCAGCCTATTTTTAA	MKKLFDELSYEVSKYTTQKYSTSFSLGILALKPSIRPAIYAVYGYVRLADEIVDSFHGYDKEKLLKRLKEETYNALEDGISLNPILHSFQETVRQYDINTQLIDQFLHSMEMDLQKIDYNSDLYNEYIYGSAEVVGLMCLQIFTGGDRQQFDKLKPFAMKLGSAFQKVNFLRDLKDDYQILGRTYFPSLNMSVFDNTVKAQIEKEIEEEFKEALQGIKKLPGSSLFGVYLAYRYYLSLFEKIKKTSSQHILQQRIRIANSQKLLVAFKSYIRYKSAYF	PGPT0007375_2363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007375-crtB-K02291	NA	NA
BMS003_00537	1488	carA2	COG1233	zeta-carotene-forming phytoene desaturase	ATGAGTACTGAAAATTCAAAAAAGAGAATTGCGGTGATAGGTTCTGGATTTTCCGGGCTCTCTGCTGCTGCGTATGCAGCAAAGTCAGGTAATGAAGTACATGTATTTGAAAAAAATGATCAGCCTGGAGGCCGTGCAAGGCAATTTAAAACTGAAGAAGGTTATGTTTTTGATATGGGGCCAAGTTGGTATTGGATGCCTGATATTATTGAAGGTTTTTTTACCGATTTTGATTATAAAGTATCCGATTTTTTTAAACTTGTTTCCCTTGATCCTCAGTTTGAAATGGTCTTTTCAGAAGAAAAAGTTTCAGTTCCTGAAAAAAATGATGACATCCGTGAGTTATTTGAAAAAATAGAACCCGGAGCAGGTAAGCAATATGATAAATTTATGCAGTCTGCTCAGTACAAATATGAGGTTGGGATGAAAGATTTTGTAACAAAACCTTGTTATAGCTGGCTTGAATTTGCTTCTTTAAAAATAGCAGGCAGCGCGCTGAAGCTTGATCTGCTTAGCAATTTCAGGAAATATGTTTCAGGCTATTTTTCTGATCATAAACTCAGATCTCTGATGGAATTTCCGGTTATATTCCTGGGTGCCTCACCTCAGCATATTCCTGCACTTTATAGCCTTATGAATTATGGAGGATATGTTTTGGGAACTCAATACCCGATGGGAGGGTTTTATCAGCTTGTTCTGGCCATGAAAGAGGTCGCGGAAAAGCAGGGGGTCATTTTTCATTTCAGCCATGATGTTCAGAAAATTAATACAGAAAACGGAAAAGCGGTCTCCATAACAGCAGAGGGTAAAGATTATGAATTTGATGCCGTTATTGCATCATCAGATTACCATCATACAGAAACACTCATTCCCAAATCACTCAGAAACTATAATGATGCCTACTGGAAAACAAAGACCTTTGCTCCATCATGTCTGATTTATTATCTGGGTATCAAGGGAAAAATTCCTCACTTAAAACACCATACTCTATTCTTTGAAAATGAGCTGGATGATCATATAGACTGTATTTATATCAATAAGAAATGGCCATCCAAGCCCCTTTTCTATTCGTGTTGTCCTTCCAAAACAGATCCGGATGTAGCACCGGAAGGGTGTGAAAATCTTTTTTTACTGCTTCCTTTGGCACCCGGAATACACGATGAAGAGGCTGTAAGAGAAAAATACCTTCGGGAAATGCTTGAAAGAATTGAAAAGCATACTGGAGAAACCGGTCTTATCTCAAGAATAGAGTACAAAAGAAGCTATTGTGTGAGTGATTTTATCTCGGATTATAATGCTTATCAAGGGAATGCCTACGGACTGTCCAATACATTATCGCAGACTGCTGTTTTGAAACCTAAAATAAGAAACAAAAAGATCAGCAATCTTTTTTATACCGGCCAGTTAACGGTTCCAGGACCCGGAGTTCCGCCATCGGTGATCTCCGGAAAGATTGTCGCAGAAGAGGTTAATAAACTAAAATTATAA	MSTENSKKRIAVIGSGFSGLSAAAYAAKSGNEVHVFEKNDQPGGRARQFKTEEGYVFDMGPSWYWMPDIIEGFFTDFDYKVSDFFKLVSLDPQFEMVFSEEKVSVPEKNDDIRELFEKIEPGAGKQYDKFMQSAQYKYEVGMKDFVTKPCYSWLEFASLKIAGSALKLDLLSNFRKYVSGYFSDHKLRSLMEFPVIFLGASPQHIPALYSLMNYGGYVLGTQYPMGGFYQLVLAMKEVAEKQGVIFHFSHDVQKINTENGKAVSITAEGKDYEFDAVIASSDYHHTETLIPKSLRNYNDAYWKTKTFAPSCLIYYLGIKGKIPHLKHHTLFFENELDDHIDCIYINKKWPSKPLFYSCCPSKTDPDVAPEGCENLFLLLPLAPGIHDEEAVREKYLREMLERIEKHTGETGLISRIEYKRSYCVSDFISDYNAYQGNAYGLSNTLSQTAVLKPKIRNKKISNLFYTGQLTVPGPGVPPSVISGKIVAEEVNKLKL	PGPT0007405_714	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007405-crtI-K10027	NA	NA
BMS003_00538	657			hypothetical protein	ATGAATTTTGATCTTATAAAAGCCGTTGTAGAACTTGTTCAGCAATTTATGGAGCAAAATGAAGGTAAGATGTTATACAGTAACGATCTTCATGGTTTCACACAGTGGATCAATTCTTCCTTTGAAAATGCTTCTGAACCGGAAGAACCATCCTGGATAGGGAAGGAATCGGGAAGAAGTTCTGATAGTATCATCAATACATTATTGATAAGAATGGGAAGGTATGCAAGAGCTTACTCCAGATCAGTAGGTAATTCATTTTTTTCAAGTCAGGATGATTTTATTTATCTGATTGGTCTGAAAACTATGGGAGCAATGGCAAAGATGGAATTGATAAGACATAATGTGCATGAAAAATCTTCAGGCATACTTATTATTAATCGGTTAATTAGCCATGGTTGGGTTGAGCAGAGAGTTTCTGAAAAAGATAAAAGAACAAAGCATATTCAGATCACTGAGAAAGGACTTGCTGTACTGGATGGGCATATGGATGAAATTCGTAGAGCCTCAAAGGCTGTAGTAGGAAATCTGAACCACTCTGAACAAATGCTGCTCATTGCCATACTTTCCAAATTGGATGAATTTCATGATTCTTTTTACCATATGAATCTTGAATCCAAAGACCTGTTGGATGTTGTATATAAAAATGTAGACTGA	MNFDLIKAVVELVQQFMEQNEGKMLYSNDLHGFTQWINSSFENASEPEEPSWIGKESGRSSDSIINTLLIRMGRYARAYSRSVGNSFFSSQDDFIYLIGLKTMGAMAKMELIRHNVHEKSSGILIINRLISHGWVEQRVSEKDKRTKHIQITEKGLAVLDGHMDEIRRASKAVVGNLNHSEQMLLIAILSKLDEFHDSFYHMNLESKDLLDVVYKNVD	PGPT0019711_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019711-nicR-K22296	NA	NA
BMS003_00539	870			hypothetical protein	TTGAACAGAAGAAATGCTTTTACCGATTTCAGGATGCGGAAGAATAAGCCGGATCCCTTTTCTTTCAAAGAATATCGTTATTTTTATATCTTCATTGGTGATGAACTTATTGTTATGAATTTATCCTTACAAAATACAATTGCGGTTGAAAAATTATTCTTACAGAGAGCTGATGGTTTATATCCTTCCGCTATTGCAGTAGTGCGAAATTCTCTGGACCAATTAAGAGAAATAAGATATTCGTTTCTTCACGAAAAAGAACTGGATTTTTTTGATACATTGAAATACCCAAAAGTACAGCACAGTTATTTGTTAGGCAGATATGCCGCTAAAACGGCACTGAAAGCATTTATGGATGATGTGGTGGTAACAGAAGCAAGGATAAGCTCTGGAATATTTCAGCAGCCAGTCCTTTATTTGACCGGAGCAGGAAATGTGCAATTGAGCATTTCGCATACTACCGAAATGGCTATTGCGGTAGTATTTCAGGAAGGGCACCCAATGGGAGTAGATATAGAGGTCATCAATACCGAACAGACAGAGACTATCACCGGGATCATTACTTCTAATGAGAAGCGTAAATTACATGTAATCGATGAAGATCCGGATAAAAGTCTGACTGTTTTATGGACGATCAAAGAAGCTTTATCCAAAGTTCTAAAAACCGGGCTGATGACTCCGTTCCATGTATATGAAATCGACAATATAGAGCATAAAGGGGAAATTATTGTGTGCAGTTTTATCAATTTTCCACAATATCAATCCATATCCTGGATATCAAACGGGCATGCATGGTCGGTTGTTTTACCCAGGAAAAGTATTTTAGATGCCAAAGTGCTTAAAAAGTTATGGTTAAAGGATTTGGGGTAA	MNRRNAFTDFRMRKNKPDPFSFKEYRYFYIFIGDELIVMNLSLQNTIAVEKLFLQRADGLYPSAIAVVRNSLDQLREIRYSFLHEKELDFFDTLKYPKVQHSYLLGRYAAKTALKAFMDDVVVTEARISSGIFQQPVLYLTGAGNVQLSISHTTEMAIAVVFQEGHPMGVDIEVINTEQTETITGIITSNEKRKLHVIDEDPDKSLTVLWTIKEALSKVLKTGLMTPFHVYEIDNIEHKGEIIVCSFINFPQYQSISWISNGHAWSVVLPRKSILDAKVLKKLWLKDLG	PGPT0008845_1307	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
BMS003_00540	519			hypothetical protein	ATGAAAACAATGATTAAATCTGCTACAGTACTTTTTGCTGTAATGACAATCTCTGTGAATGCTTTTGCACAGGAAGCTAAAAAGCCTGCCAGTCCTCCGGCTACTGCTACGGGGAAAATTAAAGATGCAACCATTACTATAGCCTATAGCAGCCCTTCTGTTAAAGGACGTACAATCTGGGGTGGTTTAGAAGCCTATGATAAAGTTTGGCGCGCGGGTGCTAATGAAGCAACTACTTTTGAAACGGATAAAGCCATTACCGTTCAGGGCAAATCTCTGCCTGCAGGTAAATACAGCTTTTTCTTAATTCCTAAAGAAAGTGGGATCTGGACTGCTATTTTTAACAAAGAACCAAAACAATGGGGTGCTTATAAATACGAAGAAGCAAAAGATGCTTTACGTGTTGATGTAAAAACAAAAGCTCTGCCAGCAAGACAGGAAGCTTTGGTTTACAAAATAAACAAGAACGGATTCACAATGGATTGGGATAAAATCTCAGTTCCTGTAGAGATAAAATAA	MKTMIKSATVLFAVMTISVNAFAQEAKKPASPPATATGKIKDATITIAYSSPSVKGRTIWGGLEAYDKVWRAGANEATTFETDKAITVQGKSLPAGKYSFFLIPKESGIWTAIFNKEPKQWGAYKYEEAKDALRVDVKTKALPARQEALVYKINKNGFTMDWDKISVPVEIK				NA	NA	NA	NA	NA
BMS003_00541	1692			hypothetical protein	ATGAGTAATATAGATTGGACAGTTCTTATTTTTACACTTGTTGCAGTGGTTGTTTACGGCGTACTGATAGGCCGGGGCCAAAAAAGCAACGAATCCTACCTGAAAGCAGATAATAAAATGCCCTGGTACATTGTGCTTATTGGTATTATGGCTACGCAGGCAAGTGCCATTACATTTCTTTCAGCACCGGGTCAGGCTTATACAGACGGTATGCGTTTCGTTCAGTATTACTTTGGTCTGCCTTTGGCGATGATTGTGATCTGTATCACTTTCATTCCGATTTTTCAGCGCCTGAATGTTTACACTGCCTATGAATATTTAGAAAACCGGTTTGATAAAAAAACGAGGGTACTCACTTCACTGCTTTTTCTTTTTTCCAGAGGCTTATCAACAGGAATCAGCATTTATGCTCCGAGTATCATCTTATCAAGCGTTTTAAACTGGAATATTTATTTAACCAATGTTTTAACAGGTGGTATTCTGTTGATTTATACCTATGTTGGCGGAGCAAAAGCGATCGCACACACCCAGAAATTACAGTTTCTCATTATTCTGGGGACAATGGCTTTTGCAGGGTATCTGCTTATTCAGAATATGCCGGATGGAATTGGCTTTAAAGATGCCCTCTATCTGGCTGGGAAATCCGGAAAACTCAATGTAATCACCACAGAATTCAACTGGAAAGATAAATACAATATTTGGAGCGGGGTGATTGGCGGTTTCTTTCTGGCACTCTCTTACTTTGGGACGGATCAGAGCCAGGTCGGGAGGTATATTACTGCGAAAGATAATACCAATGCCAAAATGGGCTTGCTGTTGAACGGATTGGTTAAAATTCCGATGCAGTTTTCAATTCTTTTGATCGGTGCCTTACTTTTCGCATTCTTTTCTCTAAAACCGGCTCCTATTTATTTTAATGAACGCTCTTATCAGAATTTAAAAGAAAAACATCCTGAACAGGCAGCGGCTTTTGAAAAAGAACATCAGAATTTGCAGATAAAATTTACCGCAGAATCTAAAGAGATTTTAAAGTTGAAAGAAACTCATTCTCCCCAACTCAAAAAAACAATTCAGGATTTTAAAAACACACAAACTCAGGTAAAAGCACTTCACGGAAGGGTAGAGGAAGCTATCAATAAATCAAACTTTAACGCAGAGAAAACGGATACAAATTACATTTTCCTGTATTTTGTGAAAAATACCTTACCAGTAGGGATGATCGGTTTATTGTTTGCCGTTATTTTTCTGGCCAGCTGGGGGTCAATTTCGGCAGCTCTGAATTCCCTTGCTGCCTGTTCATTAAAAGATATTCATTTAATATTCAGAAAAGAAATTCCTGATGAGAAAACCGAATTGAAATACAGCCGTCTGCACACTTTAGCCTGGGGTATTTTCTCAATTGGTGTAGCCATGTTTGCCACTCAAATGGGTTCCCTTATTGAAGCTGTTAATGTACTGGGTTCTCTTTTCTACGGTCCGATATTGGGTATTTTTCTGGTTGCATTTTACTATAAAAAAATCGATGGTGCCAATGTATTTATTTCTGCAATTTTATCAGAAATTGCAGTTATTGCCGTCTATCAGTTCGATATCGTTTCTTTCCTTTGGCTTAATGTAATCGGGGCAGCGGCAGTCATTATATTTTCTGCAATCGGACTATTGTTTTATAAGCCGAAAGCAGTAAATTCGTAA	MSNIDWTVLIFTLVAVVVYGVLIGRGQKSNESYLKADNKMPWYIVLIGIMATQASAITFLSAPGQAYTDGMRFVQYYFGLPLAMIVICITFIPIFQRLNVYTAYEYLENRFDKKTRVLTSLLFLFSRGLSTGISIYAPSIILSSVLNWNIYLTNVLTGGILLIYTYVGGAKAIAHTQKLQFLIILGTMAFAGYLLIQNMPDGIGFKDALYLAGKSGKLNVITTEFNWKDKYNIWSGVIGGFFLALSYFGTDQSQVGRYITAKDNTNAKMGLLLNGLVKIPMQFSILLIGALLFAFFSLKPAPIYFNERSYQNLKEKHPEQAAAFEKEHQNLQIKFTAESKEILKLKETHSPQLKKTIQDFKNTQTQVKALHGRVEEAINKSNFNAEKTDTNYIFLYFVKNTLPVGMIGLLFAVIFLASWGSISAALNSLAACSLKDIHLIFRKEIPDEKTELKYSRLHTLAWGIFSIGVAMFATQMGSLIEAVNVLGSLFYGPILGIFLVAFYYKKIDGANVFISAILSEIAVIAVYQFDIVSFLWLNVIGAAAVIIFSAIGLLFYKPKAVNS	PGPT0013955_1174	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
BMS003_00542	2505	mca		Mycothiol S-conjugate amidase	ATGTTCAAAAAAGTAAGCACTGTATTTATTCTTGGCTTTTATACGGTTTTTTGTTCGGCCCAGCAGGTTCGGCCTTCCAGATCCTCTGAAATTTACCGCGAACTCAAAACCCTTAAACACCTTCCTAAAGTTCTATACCTTGCAGCACATCCTGATGATGAAAATACAGGATTGCTATCCTGGTTAATCAACGATCAAAATGTAGAAACGGGCTATTTGTCTTTAACCAGAGGTGATGGAGGACAAAACTTATTAGGTACAGAACAGGGTGCTGCACTGGGGCTAATCAGGACACATGAGCTTTTGGAGGCAAGAAAGTTAGACGGTGCTCAGCAGTTTTTTACCCGGGCAATTGATTTCGGGTTCTCTAAAAATACTACCGATACCTTTAAACAATGGAACGCAGACAGTATTACTGCGGATGTCGTTTGGGTAATCCGTCAATTCCGTCCGGATGTTATCATCTGTCGTTTTCCTCCTACTGCTGCGGCTGGTCACGGACAACATGCTGCTTCGGCAGTGGTTGCAGAAAAAGCTTTTAAGCTGGCGGGAGATAGAACTGCTTTTCCAGATCAGCTAAAATATGTTAATGTATGGCAGCCAAAACGTGTTTTGTGGAATACTTTCAGATTTGGAGGAGTCAATACGACCGCTGAAAATCAACTCAAAGTCACGGTTGGTCAATATGATGCACAATTGGGAATGGGCTATGGTGAATTGGCCGGATTAAGCAGAAGTCTGCATAAAAGCCAGGGTGCAGGAACACAGTCTGTAGCCGGGATAAAAACTGAATATTTTGCCCATGTTATTGGTGAGCCTGCAAAAGCAACACTTTTTGACGGAATAGCTAAAACGTGGACCTCAAAAGGATACGCTGGTATTGATCAATCATTAGATGAAATTATTTCGGCTTTCAGTTTTAATGAGCCGGATCGCAGTCTGCCTGCTTTGCTTGCTTTGCGAAAAAAGGTCATGGCACTAAAAGATGCAGACCTGAAAAAAGATAAAATTAAATCCCTTGATCATATCATTTTAAGCTGCGCAGGATTTATGGGTGAGGTAGTAACCAATCAGGCTGAAGCTGTTGCCGGAGATCATTACAATTTCAGGTTAAATCTGATTTCAAGAGCTGCAAATCCTGTTGTTTTAGAAAATATAAAATGGTTAGGCCATTCAGAAAGCTTCAACAGAAAACTGTCAAAAGATTCTTTAATTACTATTCAGCATGATCTTCAGATTCCTGCTGATGCAGCCCTCACAGAACCTTACTGGTTGGCAAAACCAGCTGCGAACGCAGCAACTTTCTCAGTTCCGAACGATACTTTAGTCGGTTTGCCTGAAGCAGAATCACCATTGAATGTTTTGCTTGGTTTAAAAATCGGTTCGGAAAATTTTAAGGTTAAACTTCCTTTATCATTCAAGAAATTAGATCCGGTTCGTGGTGATGTGGTAGAAGCCTTGCGTATTGTTCCCGCATTGGAACTGAAATTTACGCAACCGCTTTATTTGATCAGAGAAAATGAAGATTTACATTTGAGTTTAAATTTTAAAGTTAATTCCGGAAAGCAGTTCAGCAATGGAAAACTAAACCTTATTTATAACGGAGAACGATTAGGCGGCGGAGAGTTAAAATCATTTAATGGAAAAGATTTTACCGTTGATTACGTGATTCCAAAAACTAAACTTGCTTCAATACATTCGGATCGCTTGCAATTGGATGCTGATTTTGTTGCAGATGAAACCACATATAATAAAAAACAGGTATTAATTCAGTACCCGCATTTACCGTCCTTACAATATTTTGCGCCTGCCACGGTAACTGTGATGAAAGGCGATATTCAGGCGAAGGTTAAAAAAGTGGGTTACATAGAAGGAGCGGGTGATTTCATTCCGGATTTCCTGCGTATTGCAGGCATTCAGGTAGACGTTTTGAAAGACGAAGACTTTTATGGCAACTTGGATGAATCCGGCGGAAGCGGCAGTCAAAACAGGCTATCACAATATGATGCCATAGTATTGGGGGTTCGTGCCAACAACACAGAGAAAAAGCTGGGTCGCTGGATGCCTTTTTTATGGTCTTATGTAAAAGCCGGAGGTAATTTGGTGATGCAGTATAATACCAACCAGGATACAACCGTTGACAAATTGGGAATATACAATTTCAGTATTGCCAATAAGCGTGTTACCGAAGAAAATACTCCGGTTACTTTTTTAAATCCCAATCATAAATTACTGAACTTTCCGAATAAAATTACTGCAGATGATTTTAAAGGTTGGGTACAGGAGCGTGGCGCTTATTTTCCTGCTCAATGGGATGCCGCTTATGAACCACTTTTTGAAATGCACGATACCAATGAAGAACCACTACAGGGATCTACTTTATATACCCAATATGGGAAGGGTAACTTTATTTATACCCCATTGGCATTTTTCAGACAGCTGCCTGCAGGCAATGTTGGGGCGGCACGTTTATTTTTAAACTTTTTATCTGCACAGAAAAACTGA	MFKKVSTVFILGFYTVFCSAQQVRPSRSSEIYRELKTLKHLPKVLYLAAHPDDENTGLLSWLINDQNVETGYLSLTRGDGGQNLLGTEQGAALGLIRTHELLEARKLDGAQQFFTRAIDFGFSKNTTDTFKQWNADSITADVVWVIRQFRPDVIICRFPPTAAAGHGQHAASAVVAEKAFKLAGDRTAFPDQLKYVNVWQPKRVLWNTFRFGGVNTTAENQLKVTVGQYDAQLGMGYGELAGLSRSLHKSQGAGTQSVAGIKTEYFAHVIGEPAKATLFDGIAKTWTSKGYAGIDQSLDEIISAFSFNEPDRSLPALLALRKKVMALKDADLKKDKIKSLDHIILSCAGFMGEVVTNQAEAVAGDHYNFRLNLISRAANPVVLENIKWLGHSESFNRKLSKDSLITIQHDLQIPADAALTEPYWLAKPAANAATFSVPNDTLVGLPEAESPLNVLLGLKIGSENFKVKLPLSFKKLDPVRGDVVEALRIVPALELKFTQPLYLIRENEDLHLSLNFKVNSGKQFSNGKLNLIYNGERLGGGELKSFNGKDFTVDYVIPKTKLASIHSDRLQLDADFVADETTYNKKQVLIQYPHLPSLQYFAPATVTVMKGDIQAKVKKVGYIEGAGDFIPDFLRIAGIQVDVLKDEDFYGNLDESGGSGSQNRLSQYDAIVLGVRANNTEKKLGRWMPFLWSYVKAGGNLVMQYNTNQDTTVDKLGIYNFSIANKRVTEENTPVTFLNPNHKLLNFPNKITADDFKGWVQERGAYFPAQWDAAYEPLFEMHDTNEEPLQGSTLYTQYGKGNFIYTPLAFFRQLPAGNVGAARLFLNFLSAQKN				NA	NA	NA	NA	NA
BMS003_00543	489			hypothetical protein	ATGAACAAAAAAATGAAAAAAAATGGTTTTAATAAGTCCGTTGTTTCATGCCTACTGCTGACATGCAACATCAATGTTTTCGCTCAGATCGGAATAGGAACATCATCACCGGTACCTTCGTCAGCACTGCATATTGATGGGAATAAAGACAACCCCTCTTCCGGTTTGCCTTCAGATCCCATGCAGGAAAACGATGCAGTAATTACTTCCCAGGGATGGCTTGGCGCAGGAACAGTATCTCCTCAGGGAGTTGTGGATCTGAAAAGTAATAAACTAGGTTTTATCCTTCCCAGAATGACATTTTTACAAAGAAATGCTATCCCAAAAGGCAGCCGTCCTACCGGCAGCTTAATATATAATACTGATGTAAACTATTTTCAAATTAATGTAGGAACAGATGCTACCCCGGTTTGGAAAGATATTGACAGTACTAATCCGACAATAAATAAAACAGTTCAAAGCAAAACTTCAAAACATATAGTGAAATGA	MNKKMKKNGFNKSVVSCLLLTCNINVFAQIGIGTSSPVPSSALHIDGNKDNPSSGLPSDPMQENDAVITSQGWLGAGTVSPQGVVDLKSNKLGFILPRMTFLQRNAIPKGSRPTGSLIYNTDVNYFQINVGTDATPVWKDIDSTNPTINKTVQSKTSKHIVK				NA	NA	NA	NA	NA
BMS003_00544	876			hypothetical protein	ATGAAAAAAAATCTTATCTTTTTTATAACCTGTCTAAGTTCAGGCATATTGTTTTCCCAGGTTGGAATAAATACCACAAATCCCGGCAGCACAATGACTGTTAATGGGTCATTTGCTGTTGATTATAAAATACTAACAGCAAATACCACCTTAGGGATTACTGACAGCTATGTTGCTTATAATGGAAGCAGCCCAGGTATCATAACGCTTCCCGCAGCTATTAGCGGTACAGGAAATTTTAAAGGACGAATTTACGGTATCAAAAATACAGGGAATTCAACCCTTAGTGTTATGGCTAGTGGTACAGAGCAGATAGATGGTGCCATTAATACATCATCAGTATCTGTGCCTCCCGGCTATTATGTAGAACTGATAAGCAAAGGTACAACTACAGGGACTACCTGGGAACTTTCCATGTTTGTCAATACGACAGTTTCCACAATTACCAATGTAGTAAATATTGCTTATGCAACGCCACAGGGAGCTCTTGCTGTATTAACAGCAAACGTAAACGGGAACGGCTATACAATATTACCAGGAAGCAGCACATCCTTTTCTTTACCTTCTGATAAGCCCATATTTTTAAATTATGCACTTGGATTAGACGATCTAGGCAGTATCACAACCACCACTTTTCCATATTTTCGATGTGAACTATTTATAGATGGAGTTTCCACAGGTCTTTTTCAGGTTGTCCAGCAGGTCAACGGCGGCACCCCACTGCAGTTTAATCTTTCCGGGGTACGAAATCTGTCGGCAGGAGCGCATACCGTTGATGTAAGATTAATCAGATGGTTTAATAATGGATTTTCAAGCAGTACCAACCAAACTTTTGGGATTATATCACAAGTTTTAAGTGCAACATATGTAAACTAG	MKKNLIFFITCLSSGILFSQVGINTTNPGSTMTVNGSFAVDYKILTANTTLGITDSYVAYNGSSPGIITLPAAISGTGNFKGRIYGIKNTGNSTLSVMASGTEQIDGAINTSSVSVPPGYYVELISKGTTTGTTWELSMFVNTTVSTITNVVNIAYATPQGALAVLTANVNGNGYTILPGSSTSFSLPSDKPIFLNYALGLDDLGSITTTTFPYFRCELFIDGVSTGLFQVVQQVNGGTPLQFNLSGVRNLSAGAHTVDVRLIRWFNNGFSSSTNQTFGIISQVLSATYVN				NA	NA	NA	NA	NA
BMS003_00545	885			hypothetical protein	ATGTTGAGTTTAAAACAATATCTGATGTTGTTTTTTACCTTTTATATGGCTCTAAAGGCGGATGGACAGAATGTGGGTATAAATACGACTTTGCCAGGGAGTAAATTAACAGTCAATGGTTCTCTTGCTTCTAATTATAAAGTTGTAACCGCAAATACTACATTAGGTACAGCAGATTATTATACGGTTTATAATGGAAGCACTGCTGGTATTATTACTCTTCCGGCAGCCATTACTGGAACAGGAAATTTTAAAGGGCGAATCTATTCTATTAAAAATTCGAGTAGTATTGCTCTTACTGTCACTGCCAGCGGATCAGAACAAATTGATGATATTGCCGATGTATCTTCATTTGTAATACCTCCGGGTTATCATGCAAAATTTATTAGTAAAGGAACTACTACCGGGACAACATGGGAGTTATATATGCTCACAAGAGGCAGAGAAGATTCCATTACTCAAGTGTCAGGCACTCCTTATTCAATTCCAAGTGGGACTCCTTCGGGGACATCTTTTCTTGTAAACGCTAATGGCTATAGCATTGTCCCTGGCAGTAGCAGTACATTTACTCTTCCTGTTGCTAAACCCTTATTTTTAAGTTTTTCTTTGGGAATTGATGAAGCAGGAGGTCTTTCTCCTAATTATCCTTATATACGCTGTGAGATATTTATTGATGGAGTTGCTACAGGACTTTACCAGATTATTCAAGAAATCGGTAAAGGCTACCAGTTCCAACTTAATATTTCCGGGGTACAAAATTTATCAGCAGGACCACATACTATTGATGCAAGAGTTATTCGGTGGTATAATGATGGTATAGCATCCAGTAATAATCAAACTTTTGTAACACTATCCACTAATTTTGATGCTGTATATCTGAATTAA	MLSLKQYLMLFFTFYMALKADGQNVGINTTLPGSKLTVNGSLASNYKVVTANTTLGTADYYTVYNGSTAGIITLPAAITGTGNFKGRIYSIKNSSSIALTVTASGSEQIDDIADVSSFVIPPGYHAKFISKGTTTGTTWELYMLTRGREDSITQVSGTPYSIPSGTPSGTSFLVNANGYSIVPGSSSTFTLPVAKPLFLSFSLGIDEAGGLSPNYPYIRCEIFIDGVATGLYQIIQEIGKGYQFQLNISGVQNLSAGPHTIDARVIRWYNDGIASSNNQTFVTLSTNFDAVYLN				NA	NA	NA	NA	NA
BMS003_00546	789			hypothetical protein	ATGAAAAAAATTCATCCTATAAAAATTGACCATTATATTGACCAGTTTAGAGTTCACAAAACAATGGAAGAAGATGATTATCTGAAGATATTTAGTGAAACAATCAAGAATGCAGAAAATTTTGCAGTAGGTCCTTTTTTTTATATCATCACAAGTTATGCTGATTATAAAGTTAAAGTGACTAGTGAGAATATTGAGGAATTGACTCCTTTTTCTAAAGAAGATTTTTCAACCAGAGATTTTTTATCATTATCGTCAATTTTTCATCCGGATGATATTGAATATTTTCTGGCAGCCATAAAATTCACCAAAGAAATTTACTTTAATACGGAAATTTCAGAAAGAGATCGGATGAAATTCAATGTCTATGTAAGATTGATGAATAAAAATTGTGAGTACCGATGGGTATTTGTACAATCATGGTTTCATATTAACAAATACAATGAAATTGAAAGTGTACTTTATATTCATTATGATCTTTCTCATCTTAAGATTGAAAATATGCCTATGCTTTCTGTAATTAACTTTAATAATAAAGTACAATATTTCAAACATATAGATAAGAAGATACTGGAGGTAAATATAGAGCTTCCCCATATAACCAAACGGGAAAAAGATATTCTAAGCCTCATGGCAGAAGGATATAATACCCCTCAAATTGCTGAAAAATTATTTATTTCCTATAATACCGTTCAAAACCATAAGAAAAACCTACGTATAAAAACCAATACAAAAACCGCAGGAGAACTTATCTCTTATGTGCTAAAATATAATTTACTATGGACTTAG	MKKIHPIKIDHYIDQFRVHKTMEEDDYLKIFSETIKNAENFAVGPFFYIITSYADYKVKVTSENIEELTPFSKEDFSTRDFLSLSSIFHPDDIEYFLAAIKFTKEIYFNTEISERDRMKFNVYVRLMNKNCEYRWVFVQSWFHINKYNEIESVLYIHYDLSHLKIENMPMLSVINFNNKVQYFKHIDKKILEVNIELPHITKREKDILSLMAEGYNTPQIAEKLFISYNTVQNHKKNLRIKTNTKTAGELISYVLKYNLLWT				NA	NA	NA	NA	NA
BMS003_00547	618			hypothetical protein	ATGAAAAAAAAGATTCCCACAGCAATGGCTGTTTTATTTTCCAGACCTAATCTGCCATCTGATACCGGGCAATCTTTTCCTGCCGATGACAGAATTCCCTGTAATGCTACAACTGAAACTTTTAATAACAATGATCATGATATTGATACTAAAAATAGTTTGTTTCATGTAGGACAGGTATCTGGTTACTTTGGAAAAATTTTGCAGCATGACATTTTTAGTGGACAAAATGCAAGTATGTTTTTATCAGACTTACCTTTGATAGAAGGAATCAGATTAGATTTACAGAAAGCAGCAGATGGATTTACATATTATCTGATGATCGTCAATACATTATTTAATCCTATTAAAATACAGTGGCAAACAAGTTTAGGAAAGGGGAAGCCAGCATCAGGAGCAACTGTCCTTTTGCTAAATCAATTTAAGAATGTTTCAGGTGCTGCTGCTCATTCAACAATCTTATGGCATCCTAATACAGCACAGGTTTGTAAACTAGACCTTATCATTAATAATGAAAGATGGTATAAGGTGGAATGTTTTTGTATATCAGATACCTATTCCCTTCCCACCTCTAATGACTATCATAACATACGTATTTCTATTCAACGCATGCAGTAG	MKKKIPTAMAVLFSRPNLPSDTGQSFPADDRIPCNATTETFNNNDHDIDTKNSLFHVGQVSGYFGKILQHDIFSGQNASMFLSDLPLIEGIRLDLQKAADGFTYYLMIVNTLFNPIKIQWQTSLGKGKPASGATVLLLNQFKNVSGAAAHSTILWHPNTAQVCKLDLIINNERWYKVECFCISDTYSLPTSNDYHNIRISIQRMQ				NA	NA	NA	NA	NA
BMS003_00548	438			hypothetical protein	ATGAATTTTAAAGATATACATATAGGAAAACTGATCCAGTGGCGTGTTAATGAATTGGACATCAGCATGGAACGAATTTGTAACTTTCTCAATATAAATGAACCGGAAGTTTTGGAAATGTATGAAAATAAAGAAATCAACACCCATTTCCTGCTTCGGTGGAGTAAGTTATTAGAATATGACTATTTCAGAATTTACAGCCAGCATCTGATACTGTATTCCCCTCCCTCCAGTATAAATAAAAACAAAACAAAGAGCCCATCGAAACTTCCAAATTTCAGAAAACACATTTATACCCATGAAGTTATACAATTTATACTGGAATTAATATCAAGTGGTAAAAAAACAAAACTGGAGGTCATTAATGATTATAAAATACCCAAAACTACCTTACACAAATGGATCAGTAAAAACAGTTCTAATACCCCCCGTTCATAA	MNFKDIHIGKLIQWRVNELDISMERICNFLNINEPEVLEMYENKEINTHFLLRWSKLLEYDYFRIYSQHLILYSPPSSINKNKTKSPSKLPNFRKHIYTHEVIQFILELISSGKKTKLEVINDYKIPKTTLHKWISKNSSNTPRS				NA	NA	NA	NA	NA
BMS003_00549	321			hypothetical protein	ATGAGTACCGGCCCCGATTACAAAAGAATTTACAGAGATATGATTATAATGAAATATCCTGATAAGTTCGCATTATGCAAAACCATTTTAGAGAAAGAAAGCCTAAGTATTCTGGATATTATCCATCTGAATGAACTTTTATTCGATTATGCGCTATCAGACTCCAAAATCATCAACCAACAACTGCGTTCCTATGATAAAAATTCAATATTAGAAATATTGGCATATCAGAAGAAAACAGGTTTAAATAATATTCAGTTAGCCAGACATTTTAATTTAAGCCGAAATACGGTAACCAAATGGAAAAAAATATTTCTTTAA	MSTGPDYKRIYRDMIIMKYPDKFALCKTILEKESLSILDIIHLNELLFDYALSDSKIINQQLRSYDKNSILEILAYQKKTGLNNIQLARHFNLSRNTVTKWKKIFL				NA	NA	NA	NA	NA
BMS003_00550	1566			hypothetical protein	ATGAGTGAACAAAATTTTTGGCAGTTTATCACAGAGCAGCATGAAAAATTACTTACACAGGCTGTACAGCATTTGGGGCTTACTTTTTTGTCTTTATTTCTTGCCATTATTATTGGAGTGCCTCTGGGAATTTTAATTGCCAGGAAAAGAAAATTATCACCTCCTGTTTTAGGAATTGCCGGCATTTTACAGACTGTTCCCAGCATTGCTCTGCTAGGCTTTATGATTCCCGCTTTCGGAATCGGGGCTACTCCTGCCATTGTTGCATTGTTGATCTATGCGCTTTTACCCATTATCAGAAATACCTATACCGGGATTACGGAAGTAGATACTGCAGTAACTGAGGCTGCAAAAGCTATGGGAATGAACAGAAAACAATTGCTTTTCAAAGTGGAGCTTCCCCTGGCTATGCCTGTTATCATAGCGGGAATCCGAACGGCGGCAGTCATCAATGTGGGGGTTGCAACCTTAGCATCATTTGTAGCGGCAGGAGGTCTGGGTGAATTTATTTTTGGCGGAATCTCTCTCAATAATACCAACATGATTCTGGCAGGAGCCATTCCGGCTGCATTACTGGCTGTTCTTTTGGATCAGACCATTGCGGTTTTGCAGAAATCAGGTTATCAGTCAGTAAAGAAATTAACATTTATTATTCCGGCTATATTAATGATCATTGGAGGCATTTATCTTTGGAATTCTGCTACGGAGCATAAACTTAAAGCGGGCTTTACACCGGAATTTATGGGAAGACAGGATGGTGATCTGGGGCTTCGCTCTGTATATGGACTGAATGTGCATCCGCTGGTTGTAAGCGATGCTATTATGTATAAGGCTGCTTACGAAAAAGAACTGGACCTCATCAGCGGATATTCCACAGACGGCAGAATCAAGGCTTTTGACCTTTATGTTCTTGATGATGATAAGAAGATTTTTCCTCCTTATTTTGCTGCTCCGGTTATCAAAACAAAAACACTGGAAAGGTTTCCCGGATTAGAACAAACGCTGAACCTTTTAGCAGGTAAATTCAATGATTCTATAATGACAGATCTGAATTACAAAGCAGACTATCTCAAACAGTCTCCGGAGAAAATTGCTAAAGATTTTTTAATAAAAACGAATTTATATAAAGTTCCGAATAAAGGAAATTCCCAAACAATAAGAATCGGATCAAAAATTTTCGGAGAGCAGTACATTCTTGCCGAAATTTATAAAATGCTGATCGAAGGTTATACCCATTATAATGTGGAGACGAAAACAGGACTCGGTGGAACAAAAATCTGCTTTGATGCTCTCACCAATGATGCTATAGACTTCTATCCTGAATATACAGGAACCGGACTTTTGGTATTGCTGAAACCTTCTGCCAAAACAATAGAAGAGGTTTCTAAAAGTCCGGAAAAAACGTTCAATTATGTTAATCTGGAATTCAGAAAACAATACGGAATCCAATGGCTGAAGCCACTCGGGTTTAATAATGCTTATGCCTTAATGATGCGAAGAAAACAGGCTGATGAACTTAAAATTAAAAATATTTCAGATCTGAAATATTATCTGGATTCAAAATAA	MSEQNFWQFITEQHEKLLTQAVQHLGLTFLSLFLAIIIGVPLGILIARKRKLSPPVLGIAGILQTVPSIALLGFMIPAFGIGATPAIVALLIYALLPIIRNTYTGITEVDTAVTEAAKAMGMNRKQLLFKVELPLAMPVIIAGIRTAAVINVGVATLASFVAAGGLGEFIFGGISLNNTNMILAGAIPAALLAVLLDQTIAVLQKSGYQSVKKLTFIIPAILMIIGGIYLWNSATEHKLKAGFTPEFMGRQDGDLGLRSVYGLNVHPLVVSDAIMYKAAYEKELDLISGYSTDGRIKAFDLYVLDDDKKIFPPYFAAPVIKTKTLERFPGLEQTLNLLAGKFNDSIMTDLNYKADYLKQSPEKIAKDFLIKTNLYKVPNKGNSQTIRIGSKIFGEQYILAEIYKMLIEGYTHYNVETKTGLGGTKICFDALTNDAIDFYPEYTGTGLLVLLKPSAKTIEEVSKSPEKTFNYVNLEFRKQYGIQWLKPLGFNNAYALMMRRKQADELKIKNISDLKYYLDSK	PGPT0013590_183	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
BMS003_00551	921	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGATTACAGTTGAATCAGTGTCAAAGAGTTTTAACGGAAAAAAAGCAGTCGATGGAATTTCTTTTCAGGCTAATGATAAGGAAATTCTGGTGCTCTTGGGAACAAGCGGATGCGGAAAAACCACCATGCTGAAAATGATTAACCGTCTTATAGAAGTAGATTCGGGTAATATTTTAATTGACGGTAAAAATATCCAGTCACAAAAAGTGGAAGAGCTACGGATGGGAATCGGTTTTGTTATGCAGCATTCCGGGTTGTTTCCCCATTATACCATTCAGCAGAATATTGCCGTCATTCCCGATTTATTGAAGTGGAACAAAAAAAAGACAGCAGACAGAACCCGCGAATTATTACATAAACTTCACCTTCCGGAAGATCTGCTTTCTCAGTTTCCCGGCGAATTAAGCGGTGGCCAGCAGCAAAGAGTGGGTATTGCAAGAGCTTTGATTGCCGATTCACCTGTTCTGCTGATGGATGAACCTTTCGGAGCATTGGATAATATTACCAAAGCTGATATTCATGCAGAGTTCAAATCATTGGAAGAACTTAAAAATAAAACCATTATTCTGGTCACCCATGACGTTCAGGAAGCCTTTGATTTAGGTCATAAAATTTGCCTTATGGATAAAGGGAAGATGATCCAGACAGGAACTCCAAAAGAAATGCTGTATCAGCCAGAAAATGATTTTGTTAAAAATTTCTTTGCCCAAAACCGGCTTTTGCTGGAATATAAAATAGCCAGAATGAAAGATGTGGCATCTTTGATAGACAGCAATCGTTTCTATGGAGATCTTCAGTTTTCAGAAAATATGAGAATTTGGGATACACTGCAGCAGCTGAGTGCAGAAAATATGCTTTCTGAAGATTATGGGAATCTGGTAAAAGCTTTTAATGAATACCGAAAATTCCGGATGATATGA	MITVESVSKSFNGKKAVDGISFQANDKEILVLLGTSGCGKTTMLKMINRLIEVDSGNILIDGKNIQSQKVEELRMGIGFVMQHSGLFPHYTIQQNIAVIPDLLKWNKKKTADRTRELLHKLHLPEDLLSQFPGELSGGQQQRVGIARALIADSPVLLMDEPFGALDNITKADIHAEFKSLEELKNKTIILVTHDVQEAFDLGHKICLMDKGKMIQTGTPKEMLYQPENDFVKNFFAQNRLLLEYKIARMKDVASLIDSNRFYGDLQFSENMRIWDTLQQLSAENMLSEDYGNLVKAFNEYRKFRMI	PGPT0013585_2460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
BMS003_00552	1191	egtB_1	COG1262	Hercynine oxygenase	ATGAAAAAAGATGCATTACCCGCAGAAGTGAATCCTCTTAAAAACTGGATCACAAGGTACGCTGACATCCGAAATCATTCCGTAGAAATTTGCACACCGTTAGAAGTTGAAGATTATGTAGTGCAGCCTATTGTTGATGTAAGTCCTCCGAAATGGCATTTGGGACACACCACCTGGTTTTTTGAAACCTTTATTCTGCAGCCAAACTTTCCCGGATATGAAGTTTTTGATCCTCAGTATAATTTTGTGTTCAACAGTTATTATGAAACTATAGGAGCCCGTGTGATCCGTACGGACAGAGGAAATTTAAGCCGTCCGTCCGTTGCAGATGTTTTTAAATATCGTGAATATGTAGACCGGAAGATGGATGAATTTCTTCAGAGCAGATATCTTACTGCATCACTGGAGCCACTGCTGGAGCTGGGCTTAAGCCATGAGCAGCAGCACCAGGAATTATTACTGACGGATATTAAATATATTTTAGGACATAATCCTTTATTTCCTGCTTACAAAAAAGAAAATATCTCAAAAAAGGAAAGTGTTGAAAACTCAGAAATGATCAGTTTTTCAGAAGGAGTTTATGAAATAGGTTTTAATGGTGATGGTTTCTGTTTTGATAATGAGCTCGGAAGGCACAAAGTGTATCTGAATGATTTTAAAATAAGCAATAAACTGGTAACCAATAAAGAATACTTAGAATTTGTAGAAGCAGGTGGATACAAAGACTTCCGCCACTGGCATGCCGAAGGGTGGGACTGGGTGAAGCAAAACAATGCAAAATCCCCTTTATACTGGCATTTCATTAATGGAAAATGGATGAATTATACTTTAAACGGCTTGCAGGAAATTGATTGGGAAGAAGCAGTCTGCCATGTCAATTTTTTTGAAGCTTCAGCTTTTGCCTCATGGAAAGAACAACGTCTGCCCACAGAAGCTGAATGGGAAGTGGCATCAGCACATCTTGACTGGGGAAAACGCTGGGAGTGGACCAATTCGGCCTATCTTCCTTATCCCGGATTTAAAAAAGAAGCAGGAGCTGTGGGAGAATATAACGGTAAATTTATGGTCAATCAGATGGTGCTTCGTGGTGCTTCAATTGCAACTCCAGCCGGACATAGCAGACATACATACCGTAATTTTTTCCAGACCTGTTTACAGTGGCAGTTTACAGGAATCCGGCTTGCACAATAA	MKKDALPAEVNPLKNWITRYADIRNHSVEICTPLEVEDYVVQPIVDVSPPKWHLGHTTWFFETFILQPNFPGYEVFDPQYNFVFNSYYETIGARVIRTDRGNLSRPSVADVFKYREYVDRKMDEFLQSRYLTASLEPLLELGLSHEQQHQELLLTDIKYILGHNPLFPAYKKENISKKESVENSEMISFSEGVYEIGFNGDGFCFDNELGRHKVYLNDFKISNKLVTNKEYLEFVEAGGYKDFRHWHAEGWDWVKQNNAKSPLYWHFINGKWMNYTLNGLQEIDWEEAVCHVNFFEASAFASWKEQRLPTEAEWEVASAHLDWGKRWEWTNSAYLPYPGFKKEAGAVGEYNGKFMVNQMVLRGASIATPAGHSRHTYRNFFQTCLQWQFTGIRLAQ				NA	NA	NA	NA	NA
BMS003_00553	981	egtD	COG4301	Histidine N-alpha-methyltransferase	ATGAATGTACAGGTAAAACAAGATCATTATCTTAAAAATGACCATACCGATAATTTCGGTTCGGATATTTTAAAGGGCTTGTCTGCTCATCCGAAAAAATTGTCTTCAAAATATTTTTATGACAAAACAGGCGACCGCCTTTTCCAGCAGATCATGGCCATGCCGGAATATTATCTTACCAATTGTGAGCTGGATATATTTCAAAATAAAACAGAAGAACTCGCAAAAGCAATTTCTAATATCAATGAATCTTTTGATCTGATAGAGCTGGGCGCAGGTGATGCTATGAAATCATCCTTTCTTCTTAAGAATTTGGTAGATAAAGGAACGGATTTTACCTATATGCCCATTGATATTTCAGGGAATATTCTTTCTGTTTTGCAGGAAAATCTACATAAAAAGCTGCCTGAACTTAAAATACTGCCGTTGGAAGGAGAGTATTTTGATATGCTTGATAAAGCGACAGGCATTTCGAAAAGAAAAAAAGTAATCTTTTTCTTAGGAGGAAATATAGGAAATATGGAACGTGAGGAAGCCAGGCATTTCTGCAATGAGGTCAAAAAAAAGCTGAATGCAGGAGATTTGTTTCTCGTAGGCTTTGATCTTAAGAAGAATCCGCACACTATTCTTGCTGCATACAACGATCCTGCGGGAATTACCGCTTCATTTAATCTTAATCTTCTTACAAGAATCAACCGGGAGCTGAAAGGTGATTTCAGAGTGGAAAATTTTCAGCATTATCAAAATTATGATCCTGTTTCAGGAGCCTGCAGAAGCTTTCTGGTAAGCCTTTGTGAACAGGAAGTTCATGTGGGAAAACATTTGTTTCACTTTAAAAAAGATGAATGGATTGATATGGAAATTTCTCAGAAGTTTTCAGAGAAGGATATCCAAAAGCTTGCAGGAGATTCAGGGTTTCATATTCTTACTGAGATTAAAGACACGAAAAACTGGTTTGTAGATTCTATCTGGACAGTATAA	MNVQVKQDHYLKNDHTDNFGSDILKGLSAHPKKLSSKYFYDKTGDRLFQQIMAMPEYYLTNCELDIFQNKTEELAKAISNINESFDLIELGAGDAMKSSFLLKNLVDKGTDFTYMPIDISGNILSVLQENLHKKLPELKILPLEGEYFDMLDKATGISKRKKVIFFLGGNIGNMEREEARHFCNEVKKKLNAGDLFLVGFDLKKNPHTILAAYNDPAGITASFNLNLLTRINRELKGDFRVENFQHYQNYDPVSGACRSFLVSLCEQEVHVGKHLFHFKKDEWIDMEISQKFSEKDIQKLAGDSGFHILTEIKDTKNWFVDSIWTV	PGPT0020260_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020260-egtD-K18911	NA	NA
BMS003_00554	2400			hypothetical protein	ATGAAAAATATGTTCTGCGTATTGCTCCTTTCCATAATACAGCCTGTAATGGCACAAACCAGACTGGAAAAAGCAATTACCAATCTTGAGGATCATTATGAACAGGAAAAAGTATATCTCCTTACAGACAAATCGCAATATGCTGCGGGTGACAAAATCTGGTTCAAAAGTTTTGTATTTGACGGCTATAACCGTTCTACCCTGTCTACTACCCTATTTGTGGAGCTTTACAGCTCTGATAAAAAATTAATTGACTGGAAAACCATACTTCTTACCCATGGTGAAGGCAGCGGAGATTTTCAGCTGAAAGAAGACCTTCCTGAGCAGGTTTACTTTGTGAGGGCTTACACTCCTTACATGACAAATTTTAACGAAGATTTTCAAATTGTAAAAACTCTTCCAATTTACAATCCTAACTCCAAAGAGTCATTAGTGGTTTCCAAAAGTTCTGACTGGTCTGCAAAAGCCTTTCCGGAAGGAGGAACTTTCATCAGTGGTATGCCTACGAAATTTGCGGTAAGATTATCTGCCAGCACTTCCCTGCCGGACAACTGGTCCGGAAAGGTAATTGACACCCAAAACCCAAAAACTCCAATAACTACTTTTAAGTCTTTTGATAAAAATGTTGCTTCGTTCAAAATAACTCCGGCATCCGGAAAGAAATACCAGGCCGTTATTCAGGATAATACGGGAAAAAGCCAGACCATAGATCTGCCGCAGGTATCAGACACGGGTCTTAATCTGGAAGTTTACAGTTCCAAAGAAGGAATTAAGTACACGCTGAAAGGTGCAAATCTGAAACAGCAGCTTCAGGGATATAAAATTATCGGACTTATCAATAATCATCTTGCTTACAGAGCCAATATCAACCATCTTACCAATGAGGCATCAAGTCTTATTCCTACAAAGGTAAGCAATGGGGCAAATGCTGTTTTTCAACTGGCTATCTTTGATGAGCAGGACAATCTGGTAGCACAAAGACTTTGTTTTATAAAACCCGGCAACCTAAGAATAGAAAAAGCAGAAATAGTAGGCCAGAGCTTAAAGCCTATTCCAAGAGCTTTCAACAGTATTGATCTTTCTCCGGAGTCTTATTTCAAAAATTATACTGTCCTGGTAAGTGAGGATAACGGTACACAAACCCCGGAAGAAGAAAATATTCTGAGCGGACTTTGGCTAACAGGAGATTTTACATCAAAAATAGACAGCCCTGCACAGTATTTTTCTAAAACCGCCAATATCGAAGCCCTGGATGCTTTGCTTATCTCTGAAACATGGAAAAGATTCGATTGGAATTCTGTCCTTAGCGGATCTGCGCCTGCTATTAAAACTGTACCTCAACAGTTTCTTTCTTACCGAATAAAACCTATCAAAAATAATGCTTTGCTGGTGAACTCTACTGTCAATTTAGTATTGAGAGCCGGAAAAGGAGAGCCTGTTATTAATCAGTTTCAGACAGATCAGAACGGATATATTTATCTGAATAATATCAACACAGATCAACCTGTGAATGTTTCACTATTTGTAAATGCAGAAAAAGATAAAGATGCCGGTAATGATAATCTTTTTGTAACGGCAGAGCCATTGGTGAATCCTAGCGAATTTAAAGGAAATTTCCCAAGCACAAAATATACTTTGATAAAATCCGGTGAAAAGAAAACTCTTCCTCCCACCATTGCCAGAGCCATCAATACTCAGAAAAACATTAAAAAGAAAGAGAGTAATGATATCCAGATTCAGGAAGTTGCATTGGTAGGAAAAAAGAAAAACCCGAAGGAAGAACTAGACAAGCAACTGTCCACCGGAATGTTCAGCTCTGCTAATTCTACTGTATTCGACTTTGTAAACGAAGACCAGCATGCCGCAGGATCCATGAATATCTTAGACTGGCTGCAGGGAAGAGCTGCCGGATTAACTTTTCAGAGGAATAATTCCGGAGTGAATGTTCCCTATATAAGAGGCCAGCAGGCTAAACTGTATTTAGATGAAGTTTCTACAGATCCTACTATGATTGCCAGCCTCCCTATAGACAATATTGCAATGGTAAAAATCATTAAAGGATCAGGATTAATAGGTGATGCCGTAGCCATCTACACGATGAAAGGCAATATGAAATCCAAAAGTAGCCAAAAAGAAACCTCTAATAATAATTCAGCTGTTATTAAAGGATATGACAGACCTTCCGAGTTCCCAATTGAAATGATAGATGATGATGCTCCGGAAAAAATTGAAAATGATACCAGAGAAACCCTGTACTGGAACCCTAATTTATTCGACAGCGATTATGTTCCGCCAAGAATCAAATTCTTTAACAATGACAGTGCGAAACAATTTAAAGTACTGATTATAAGCTTTGATGAGGATGATAATCTTCTTTTTGACCAGCAGATTATGAAATAA	MKNMFCVLLLSIIQPVMAQTRLEKAITNLEDHYEQEKVYLLTDKSQYAAGDKIWFKSFVFDGYNRSTLSTTLFVELYSSDKKLIDWKTILLTHGEGSGDFQLKEDLPEQVYFVRAYTPYMTNFNEDFQIVKTLPIYNPNSKESLVVSKSSDWSAKAFPEGGTFISGMPTKFAVRLSASTSLPDNWSGKVIDTQNPKTPITTFKSFDKNVASFKITPASGKKYQAVIQDNTGKSQTIDLPQVSDTGLNLEVYSSKEGIKYTLKGANLKQQLQGYKIIGLINNHLAYRANINHLTNEASSLIPTKVSNGANAVFQLAIFDEQDNLVAQRLCFIKPGNLRIEKAEIVGQSLKPIPRAFNSIDLSPESYFKNYTVLVSEDNGTQTPEEENILSGLWLTGDFTSKIDSPAQYFSKTANIEALDALLISETWKRFDWNSVLSGSAPAIKTVPQQFLSYRIKPIKNNALLVNSTVNLVLRAGKGEPVINQFQTDQNGYIYLNNINTDQPVNVSLFVNAEKDKDAGNDNLFVTAEPLVNPSEFKGNFPSTKYTLIKSGEKKTLPPTIARAINTQKNIKKKESNDIQIQEVALVGKKKNPKEELDKQLSTGMFSSANSTVFDFVNEDQHAAGSMNILDWLQGRAAGLTFQRNNSGVNVPYIRGQQAKLYLDEVSTDPTMIASLPIDNIAMVKIIKGSGLIGDAVAIYTMKGNMKSKSSQKETSNNNSAVIKGYDRPSEFPIEMIDDDAPEKIENDTRETLYWNPNLFDSDYVPPRIKFFNNDSAKQFKVLIISFDEDDNLLFDQQIMK				NA	NA	NA	NA	NA
BMS003_00555	471			hypothetical protein	ATGCGAAAGAATTTTTATCTCATCATTATATTATGTTCTCTTACCAGCTGCTATACCTATCAGGTAAAAAAGCCTGTGGATCCGGCAGCCAACAATAACCAGGACCCTAAAAAAAATACTGCTCTGGTTAATACTGTTTCTCCACAAATGCAGAATACTGCAATGGCCACCCAAAGTCTGAATGCCGCACAAGCAGCTGTCCCTGTAAACGTTCAGGAGAAGCTTACCCCTGGTAAAAATGTTAAAATTGAAGTCAATGGTAAGAGTTATAAAGTAATTGTTGACCGATGGGAAAGTGACAGCCTGGTAGCCCATCCTGTTCGTAATGCTAAAACAAGTCTGAAATTTCATAAGAATCAGATCAATAGCGAGAAAATTGCAGAAAAACGTTTCTCACAACCTATTGCAGATATTCTTACGGTTACGGCTTATGCCGCCATTGGTGTTGGTATCTATCTTCTGGTACGGTAG	MRKNFYLIIILCSLTSCYTYQVKKPVDPAANNNQDPKKNTALVNTVSPQMQNTAMATQSLNAAQAAVPVNVQEKLTPGKNVKIEVNGKSYKVIVDRWESDSLVAHPVRNAKTSLKFHKNQINSEKIAEKRFSQPIADILTVTAYAAIGVGIYLLVR				NA	NA	NA	NA	NA
BMS003_00556	960	rhaR_2		HTH-type transcriptional activator RhaR	ATGTATAATCGGTTTTTTGTACCTTTAAAATACTATTTTATGAAAAAGAAAGAGCAAGCACCATTAAAATTTGAATCCCTATTTGAAGCAAGCCGGTTTTTTGGATTGCCCAAACCCAACCATCCTCTCATTAGCTTAATGAACGGGGCACATAATCTGGTGCTGACGGATAAACTGTCTCAAAGACATGTTTTGAGCTTCTATAAAATCTCCTATAAACCCAAATTAAATGGAAGAATAGAATATGGACAGGGTTATTATGATTTTAATGAGGGGGGATTATTGTTAGCTGCACCCGGGCAGGTGATAGGAGGGAACGGAAACAGTGATACGGTCTGTTCCCAATATTCTTTGCTCATCCATCCCGATTTCTTTTTGGGATATCCTATTGCCAGAAAGATCAGGCAGTATGGTTTTTTTTCCTATTCTACCAAAGAAGCACTACACCTTTCTGAAGAAGAAAAAAATACGGTACTTTCTATTTTCAATTTTATTGAATCTGAGCTCAACAGCCGTATTGATGATTTCAGTCATGATGTGATGATTTCTCAGATAGAATTGCTTCTTAATTATGCCAATCGTTTCTACAAACGCCAGTTTATCACCCGTAAAGCAGCAAGCAGCAACCTTTTACAAAAGTTTGAAGATTTACTGGATGCCTATTTTAAAGATGAAATGTCTCTTAGCAAAGGAATACCTACCGTAAGTTATTTTGCAGAAAATCTTCATCTTTCCCCAAGCTATTTGAGTGATATGCTGCGTTCCTTAACGGGGCAGAGTACTCAGCAGCATATTCATGATAAACTGATCAGTGAGGCTAAAGAAATGCTTTCCACCACAAGCTTATCTGTGAGCGAGGTGGCGTATGCACTTGGGTTTGAGCATTCCCAATCCTTCAGTAATTTATTTAAAACAAAAACCAGGCTTTCTCCTTTAGAATTCAGAAAGTCTTTCAATTAA	MYNRFFVPLKYYFMKKKEQAPLKFESLFEASRFFGLPKPNHPLISLMNGAHNLVLTDKLSQRHVLSFYKISYKPKLNGRIEYGQGYYDFNEGGLLLAAPGQVIGGNGNSDTVCSQYSLLIHPDFFLGYPIARKIRQYGFFSYSTKEALHLSEEEKNTVLSIFNFIESELNSRIDDFSHDVMISQIELLLNYANRFYKRQFITRKAASSNLLQKFEDLLDAYFKDEMSLSKGIPTVSYFAENLHLSPSYLSDMLRSLTGQSTQQHIHDKLISEAKEMLSTTSLSVSEVAYALGFEHSQSFSNLFKTKTRLSPLEFRKSFN	PGPT0017485_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_00557	828	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGATACAGCAAAATAGAATCTGGTTTATAACCGGAGCATCAAGAGGTTTCGGACGCATCTGGACAGAGGCTGCATTGGAGCGTGGTGATCAAGTGGTGGCAACAGCCAGAAAACTGGAAAGCATTGCAGACTTTGAAGAAAAATATGGTGATAATGTGCTGACTTTAGAACTGGATGTTACCAATCCGAATCAGGTAAAAGAAGCGGTGAATAAAGCACATCAGCATTTTGGAAAACTGGATATTGTACTGAATAACGCCGGATATTCGCTGGTGGGAACCATAGAGGAGGCGAGTGCAGATGAAATACGTGCTTTATATGAAACTAATATTTTAGGCCCTGTAAGCGTAATTCAGGCGGCAATGCCGATATTAAGAGAACAGGGATACGGCCATATTTTGGGGACTTCAAGTAATTTGGGACATTTTACACTGCCTGTTATTGGGTATTACAGCTCTTCTAAATGGGCTTTTGAAGCCATCTACGAAAGTCTTGCCGAAGAAATAAAACAATTCGGGATTAAAGTAACCATTATAGAACCGGGCGCTTATGCAACGGAATTTGGAAGCCGGGATTCCCTGAAGTTTTCTCAAAACCTTGATGTGTACAATGACTTTAAAGCAGAGTTTGTAAAGACGATTCAGTCTTATGAACGGGGAAATCCTAATGCAACACCACAGGCGCTATTCAAAGTTGTAGATGCAGAAAACCCGCCGTTACGTTTTCATCTGGGAAGCCATAATCTTCCACAGGTAAAAGCTGTATATGCAGACAGAATAAGTCTTTGGGAAGCGTGGGACGAGGTTTCCAGTGCTGCACAAGGGTAA	MIQQNRIWFITGASRGFGRIWTEAALERGDQVVATARKLESIADFEEKYGDNVLTLELDVTNPNQVKEAVNKAHQHFGKLDIVLNNAGYSLVGTIEEASADEIRALYETNILGPVSVIQAAMPILREQGYGHILGTSSNLGHFTLPVIGYYSSSKWAFEAIYESLAEEIKQFGIKVTIIEPGAYATEFGSRDSLKFSQNLDVYNDFKAEFVKTIQSYERGNPNATPQALFKVVDAENPPLRFHLGSHNLPQVKAVYADRISLWEAWDEVSSAAQG				NA	NA	NA	NA	NA
BMS003_00558	531			hypothetical protein	ATGCTGTTGTTTTTCTTTTCTTTTATCTCTAGAATCAATGCACAGGGGCTTTATTATCAGAAAGGTACAGAAATCACCATCCTTGAAAATACAATAGTATATGTTATTGATTCAGGAATAGTAAATGAGCAAAGATTAAGAAACTTTAGGGTTGATGCCGTCATTCCGAATAAAACGGAAAACCTTGTATCGAATAAAAAGCCTAAACCTTTCTTCAAAAAGAAAAAAAGTGCATGGGCTGCCAATATCTATAAAAAAAAGATAAAAATAGAGCCTCAACCTGAACCTATTCAATTCATAGCACCTTCTCCTGATAATTTCTTTTTGAACTATCAGAAAGGAGAAGCCATCTCAGCTTCGGTGACTTTCCACGATTACCCAATCTATTCAGTTGATAATAATTTATTTAAACTTCCTTATGGATATTTGAATAATGATAACAATAAAATAATCCGAAAGGATTTTTCCTTTTGTAAAAACTCTTATTTATTTCAATACAAAACGCGTCCTCCACCTTTTGAACTGATTTAA	MLLFFFSFISRINAQGLYYQKGTEITILENTIVYVIDSGIVNEQRLRNFRVDAVIPNKTENLVSNKKPKPFFKKKKSAWAANIYKKKIKIEPQPEPIQFIAPSPDNFFLNYQKGEAISASVTFHDYPIYSVDNNLFKLPYGYLNNDNNKIIRKDFSFCKNSYLFQYKTRPPPFELI				NA	NA	NA	NA	NA
BMS003_00559	2751			hypothetical protein	ATGGGTATATTACTGACAGCCAATATATTCATTTTCACAAACGCCCAAAGCCCAGGTGGAATTACACCTCAGCTATGGTATAAAGCCGATGCAGGGATTACAACTTCTGCAGGAACTGTCACACAATGGAATAATAGCGTTCCTTCAACTACTTATAATCTTGCTCAACAAGGAGGAGCCGGAACTACACCAGCTTATAACACCAGCCAGATTAATTTCAACCCATCCATAAGATTTGACGGTGTAGATGACCGCTTATCAGCAGCGAATATTCCACAAAACACAGTAGTCAGCTCAGCATCTCCTTATCAGTCATCACAATATGTGGTATACAGAAAAGTAGGGAGTGCTTTAAATCCCTTATACAGTCATTCTAATGGTTCTGGAGGTACATGGAATGTTGGGGCGAATTCTAATGGCGGTATGTTGATTACCAATCGTGGCGTAAGCGCACCAGCTCCTGTGATCAATGAGATCAGGCTACTATCAATAAACGGAAACTCTAATATGGCGAGCACCTATGTTAACGGGCAGTTCAAGTCTTCTACATTTGCAAATGGAAATCCTACCGCTACTGCAGGCACACAGTCTTTTTGGGTAGGAGGCCAGGGGCTTAATAATTTTGTGAATGTCGATATCGCAGAAATTGTGATTTACAATGCAACAAAGACACCAGAACGTCCCCAGATAGAAAGCTACCTTTCTCTAAAATATGGAATTACAAAATTTGGTGATTACATTGCTTCTGACGGAACAACAACCTATTGGAATTCCACAACGAATAACGGATATAATAACAATATAACAGGTATTGCAAGGGATGATAATTCAGCCCTGTATCAAAAACAGTCTATGAGTATTAATCCCGGACAGCAGCTTTTGATTGGGCTTACAGGAATGGCGAATACGAATGCTTCCAATTCCGGAACATTAACCAACCTGCAGTCACTGGTGGTTGGGGATAATGGGCAGGCAAAAGCACCTACAACCCTTGTTACCAACATCCCGGGAGCTAACTTCATTTTCGGTTCTGTCTGGAAGGTTCAGAATACTGGTTCTGTAGGAACGGTAAGGGCAATGTGGCCACAGGGACTGAATAATTTAAAATTGGTTCAGAACAGCTCAGATCCTACTTTCGCAGCAGGAAATACTGTGACTGATATGTCTGCCAACACACAGACTATTAACGGAGTAGTATATAATTATGCTGATGTTTCTCTCACCAACGGGCAGTTTTTTACTTTAGCAGCTTTCGCTCAGGCTCCGGGAGGGGTTTTGAACAATCTGCGTGTTTGGATAAAAGCAGATGATAATCCCAACGGAAATACTACTGATAACGTAGCAATAAGCACATGGCCCAACAGAGCGCCAATTGGTGGAAATTTCAGTGGAGGAGCTGCCTTTCCTAATACAATTGCATTACAAACTACAGGACCTTTATATCGAAACTCTTCAGCAATGAATATCAATTTCAATCCTGTAGCACAATCTACGTCTACCTCCGGACTTGGTATACTGAATGCATTTGCAACAGCAGGGGATGATTATACGATGATTGCCCTGAATAAAAATCCCACCCTGCCTTTTGCAGGATTTAGAAATATGTTCAGCTTCCATGACAATGCAAGCCTAAATACAGTAAGCTCCTCCAGCGGATGGTTTGGAACCTATATTAATTCGCCTATTGCATGGCCAAGCACTGCCGGAACATCTGCATATACGGTAAATATACCTGCAGTCACCACATTTTCAGCTACAGGAACAGGAACTATTGCTTATCAAGTAAACAGTGTTTCAAAAGGTAGCGGCAGCAGTCTTTCAAAAAGTGGAACCAATTTAGTGATAGGTGTAGATGCCGATGGTGGATCTGACGATGGTATAGACATTATAATGCCTGAAAATATTATGTATAATTCCGTACTCAATGGTACAGATTATAACAAGGTAGTATCCTATATGGCCATTAAATACGGTATAACTTTAGGAACATTTGCTGCTCCAGTGAACTATACCAGCACTGGCGGTACAACGGTATGGTCTACAGCTGCAGGTACATACCAGACCAATGTGATAGGTATCGCAAGAGATGATGCAGAAGCTTTGCATCAAAGAATTGCAAAATCACAGGATGCAGCTGCAGATATTATTACCATCAGTACCAATAATGATTTTACAAGCGCCAATACAAGCGCAGGTCATACGGATATTGCAAATGATCAATTTTATTTTATCACTGGTAATAATGGTGCTGCAACAACGTATAATGTTCAAAATTTAATGTTGCGAAGATGGAAAGTACAGTCTACCGGTATGGCACAGAATCTATATATTAAAACGTCTGACAGCCAGGCAACCTATCTTGTGTATGCTGATGATGCGGCAATGACTACCAATGTTATGAATATCCATCTTACAGGTGGTTCTACGCCTGCTATTCAGATTCCTAACGGGAAATTTTTCACATTCGGGAAATTTACATACTGTACACATACCCCTAATAATTCCCCTGCTGATATGGTTACCAAAATTGGTATTACTACTCAGTCTAAGCAAAGCGGATGGCCGGAAAATATTCCTAACGGTGCTATTGCCCTGGAGTCGAAAACCAAAGGTTTTGTTATTACACGCACACAAAGCTCATCTATTGCAAACCCTGTGGAGGGGATGCTCATCTATGATACCGTGGATAAGTGTATGAAGCTTTATAACGGAACCAGCTGGAACTGCGTAGTAAGAAGTTGTAATCAGTAA	MGILLTANIFIFTNAQSPGGITPQLWYKADAGITTSAGTVTQWNNSVPSTTYNLAQQGGAGTTPAYNTSQINFNPSIRFDGVDDRLSAANIPQNTVVSSASPYQSSQYVVYRKVGSALNPLYSHSNGSGGTWNVGANSNGGMLITNRGVSAPAPVINEIRLLSINGNSNMASTYVNGQFKSSTFANGNPTATAGTQSFWVGGQGLNNFVNVDIAEIVIYNATKTPERPQIESYLSLKYGITKFGDYIASDGTTTYWNSTTNNGYNNNITGIARDDNSALYQKQSMSINPGQQLLIGLTGMANTNASNSGTLTNLQSLVVGDNGQAKAPTTLVTNIPGANFIFGSVWKVQNTGSVGTVRAMWPQGLNNLKLVQNSSDPTFAAGNTVTDMSANTQTINGVVYNYADVSLTNGQFFTLAAFAQAPGGVLNNLRVWIKADDNPNGNTTDNVAISTWPNRAPIGGNFSGGAAFPNTIALQTTGPLYRNSSAMNINFNPVAQSTSTSGLGILNAFATAGDDYTMIALNKNPTLPFAGFRNMFSFHDNASLNTVSSSSGWFGTYINSPIAWPSTAGTSAYTVNIPAVTTFSATGTGTIAYQVNSVSKGSGSSLSKSGTNLVIGVDADGGSDDGIDIIMPENIMYNSVLNGTDYNKVVSYMAIKYGITLGTFAAPVNYTSTGGTTVWSTAAGTYQTNVIGIARDDAEALHQRIAKSQDAAADIITISTNNDFTSANTSAGHTDIANDQFYFITGNNGAATTYNVQNLMLRRWKVQSTGMAQNLYIKTSDSQATYLVYADDAAMTTNVMNIHLTGGSTPAIQIPNGKFFTFGKFTYCTHTPNNSPADMVTKIGITTQSKQSGWPENIPNGAIALESKTKGFVITRTQSSSIANPVEGMLIYDTVDKCMKLYNGTSWNCVVRSCNQ				NA	NA	NA	NA	NA
BMS003_00560	501			hypothetical protein	ATGAAAAAAGTAATCATATCAGCACTTATTTTTTCCGGTATTTCTTTTGTGAAGTCCCAGGTGGGTATGGGTAAGGCTTCTGTAGATGGAGATGCTATTCTGGACTTCCCGGTTTCTACTACGGGAATTATTCTACCCATAGTAGAAGTACTTCCTACGGGTGCAGCCGCCACCAACGGAACATTTCTTCTTGATAAAACTGATCTTACGATAAAAATGCGTTCGAATGATCTGTGGGTGTCTTTATCCGATGTGGGAAACCTTACAGGAACAATGCCCAATACTTCCGCAGAAATAGGAGGCGGAGTTATTATAGGAGCTGCAAGTTCACCAGCACAGGGAGTTCTGGTTTTGGAATCTACCAGTAAAGCTTTGGTTTTACCTAAGGTTAATGATCCGGTAACCAATATGAAAAGTCCTGTAGCAGGAACCATCTGTTATGATACAGTAAGTAAAACGATGGCTGTATTTGACGGATTGAATTGGAGTTTCTGGAAATAG	MKKVIISALIFSGISFVKSQVGMGKASVDGDAILDFPVSTTGIILPIVEVLPTGAAATNGTFLLDKTDLTIKMRSNDLWVSLSDVGNLTGTMPNTSAEIGGGVIIGAASSPAQGVLVLESTSKALVLPKVNDPVTNMKSPVAGTICYDTVSKTMAVFDGLNWSFWK				NA	NA	NA	NA	NA
BMS003_00561	1020			hypothetical protein	ATGGCAGATGACAAAGAATTCACAGGTAAATCTGTAGATGATCTTAAGAGAAAACTTATTTCACAATATGTTTATCTTATGTCCGGCATATTGCTGGCTTATTCTGTTGTATTCTACTTTATTATCAAAGATGTCTTTTTTGCGGCATGTACGCTTATCTATTCCGTTACCATGTTTTATACCTTTATGGTAATCCGGAAAAGTTATAATATCAAGGTACTGGTGCATCTCTATATGTCATATGCCCCCTTATTTGCCGGATTTATTATGCTGGATTTCTGGAAGTTTTCTGCTGCCTCGGCTATGTGGCTTCTTCCCGTACCTCTTGGAGCTCACATTTTTCTGGGGAAAAAGTATATCTATATTTATACTTTATATATTTTACTGATTATAGTGGCTGTAAGTATTCTTACCAGGTTCTTTGTATTTGATTATTTTGCCCTGAATGATGTGAAAGTAATTGTGGCTTCAGATACTTTTGTGGGAGTTTCTAATATAGCTGTATTTGGTCTTTTACTTTACTATAATGAAAAGATAAGGAAAGCTGAAATTGAAGAGAATATTTTGACTAAAATAAGATTTTCAGAACAACCAGAGGATGCTGATACGCCTGAAGAAACAGTTTTTATTGAAAAAGATAAAGAGGCTTATGCTCCCGTTGAAAATACTGAAAAATACAACCTTCTGTTTAATGAAATACGAGATGTAGTAGAAGATCAGGGCTATTATAAAGATGTAGGTTTTACCATTTCCCAGTTGTCTAATATTTTGAAATCCAACAATTTGTATGTGTCTAAATCTATTAAATTAAACGGGTTTTCAAATTTCAGCCATTATCTTAATACCTGCAGAATAGAGAATGTGAAGCAGCTGCTTCAGGAAAATGATATCAGCAAAGTCACACTTATGTATATCTATACAGAATCTGGTTTTTCCAATCAATCCACATTTAACAGGGTATTTAAACAGATTGAAGGTGTTACTCCTTCAGAATACCTGGCCAATTTAAACCTGGAATAG	MADDKEFTGKSVDDLKRKLISQYVYLMSGILLAYSVVFYFIIKDVFFAACTLIYSVTMFYTFMVIRKSYNIKVLVHLYMSYAPLFAGFIMLDFWKFSAASAMWLLPVPLGAHIFLGKKYIYIYTLYILLIIVAVSILTRFFVFDYFALNDVKVIVASDTFVGVSNIAVFGLLLYYNEKIRKAEIEENILTKIRFSEQPEDADTPEETVFIEKDKEAYAPVENTEKYNLLFNEIRDVVEDQGYYKDVGFTISQLSNILKSNNLYVSKSIKLNGFSNFSHYLNTCRIENVKQLLQENDISKVTLMYIYTESGFSNQSTFNRVFKQIEGVTPSEYLANLNLE				NA	NA	NA	NA	NA
BMS003_00562	549			hypothetical protein	TTGGTGTATGTTGGTTATTTTATAAACACACAAAGGATAAAAAAAGTAAAATTTTATGATAAAAAAACTTATTTCGAGAATTGCAATTACTTTGCTACACTCCTATTCCAAATCTCTGCTTATATGAAGTTCAAGAATATACATATTGGCACCATGATCCATAAACGTGCAAAGGAGTGCGAAATACCCACATCCAGAATCTGCAAATTCTTCAACTGTGCAGAAGAGGATATTTCGGAAATGTATGCTTCTAAAAGCCTGGATACCGAAATCCTTCTGAAATGGAGCAAAATTCTGGAATATGATTTCTTCAGATTCTATTCTCAAAATCTGATCTTTTATTCACCCGCATCACCTGATGTAAAGAACAGAAAGAACAAATCAAATTCAGAAATGCCTTATTTCCGAAAGAATATTTACACCAAAGAGGTGATCAATTTTATGCTGGAAATGATTGAAACCGGAAAGAAAACCAAAAGCCAGATTATAAGTGAATATAATATCCCGAAAACGACTTTATATAAATGGATAGAAAAAAACAAAAAATAG	MVYVGYFINTQRIKKVKFYDKKTYFENCNYFATLLFQISAYMKFKNIHIGTMIHKRAKECEIPTSRICKFFNCAEEDISEMYASKSLDTEILLKWSKILEYDFFRFYSQNLIFYSPASPDVKNRKNKSNSEMPYFRKNIYTKEVINFMLEMIETGKKTKSQIISEYNIPKTTLYKWIEKNKK				NA	NA	NA	NA	NA
BMS003_00563	336			hypothetical protein	ATGGATAGAAAAAAACAAAAAATAGAACAGCCTTATTATAAAAAGATCTACACGGATATCCTTCTTATGAAATTTCCTGAAAAGCTTGATGAATGCAAGCCTATACTTTCCAAAGAAAAGCTTGGGGTTCTGGATATTATACAGCTCAATCAGAGAATTTTCGGAAGTGAAGAAGTTTCTTCAGACAACCAGCGGCTGCGTTCTTACGATGATGAAACCATTATACAGATCTTAGAATATCAGAAAAAATATCAGCTTAACAATACCCAGCTTTCTAACCACTATAAATTGAGCAGAAATACCATCACAAAATGGAAAAGTTACTTTAAAATTTAG	MDRKKQKIEQPYYKKIYTDILLMKFPEKLDECKPILSKEKLGVLDIIQLNQRIFGSEEVSSDNQRLRSYDDETIIQILEYQKKYQLNNTQLSNHYKLSRNTITKWKSYFKI				NA	NA	NA	NA	NA
BMS003_00564	633			hypothetical protein	ATGAATAAAATTATTTTGACAGTACTGCTCACCGGTACTACCATTCCTGTATGTGCACAAACTACAGGAAACGTAGGAATTAATACTCCCAACCCCGAAAAAGAACTTACAGTAAATGGTACGATGAAAACATCCGGCATGACTTTAAAAGATCCTCTGGAAAAACTTGGGGCAGATGAAAATTACTCTTTCCTAATTAAATCTCCGGCTCCCCAAAACAAAATTACTTCCTATAATGAATCTTTTGTACCTACAAGTCCTGCCCCTATTAACATTATCCAGTATAAGATTACTTGTAATAGTGCAGACAAAGATTGGGTAGATGAATATGATACTAAAATTAATTCAAATAAATTTTTAGTTGTTATTGCCTCATATGGCTTTACACAGCCCGTATTTACTTATACCTCAAGTGTAATTACTCCTGTACCCGAAGTTTATGCCTACAATACCAATGGTACATGGAAACTCAAAGCAGATTATGTAGGATTCTCAACAGATGATTCTTTACCTGATGGGGTCTGGACACTCAATTTACTGGTTTTTGACAGAGCTTACGCAAAGGAATTTACTTCTACACAAACCATTAACACCTCCGGAACAGGCACCGCTTCTGCTCCTTTAATCCAATAA	MNKIILTVLLTGTTIPVCAQTTGNVGINTPNPEKELTVNGTMKTSGMTLKDPLEKLGADENYSFLIKSPAPQNKITSYNESFVPTSPAPINIIQYKITCNSADKDWVDEYDTKINSNKFLVVIASYGFTQPVFTYTSSVITPVPEVYAYNTNGTWKLKADYVGFSTDDSLPDGVWTLNLLVFDRAYAKEFTSTQTINTSGTGTASAPLIQ				NA	NA	NA	NA	NA
BMS003_00565	636			hypothetical protein	ATGAAAAAAATAACCGCACTTTTATGTACAGCATATATCTATTTTGGAGCTAACGCACAAGTGGGAATAAACACAAAAAATCCACAAGGGATGCTGGATGTTCAGGGAGGAACACTTATTGAATCTTATGTCATTGATACCGTTAATTCAGATGCAACTGGTAATTATTATCTGCTTACGCGTTCAAAAGATACAACACTAGCAGGAAAAGTAAAGCTTCTTGATATTTCCCTTCGAAATGTAGCTCCTGTTAACACTTATAATATTATACTGAAAAATGTGAGCCAGACAGATGTTGTCAATCTTAATACAGGGCTGGATACGGAAAAATACATCGTAGCCATTACCGGAGCCGTTTTCTCAGATGCCACAGCGGGTGTAAATGCAACAACAGGTATCCCATCATATGGAGCATATTCTACAGAAATAACCCATGTGTCAGGTGGAGGAAAAACTTATAATGCTGTTAACCTAAGTTTTAAGGGAGCAGGCACAACATCTGCACAGAACGGAACCTGGACACTTACACTTTGTGTCTATGAAAAAGCACTCGTTAAAGACTGGGGAACTTACTCAGGAAATGTAAACAGCTCATTTACAGGAATTTCAACTAACACTCCAACAGGACTTCAATAA	MKKITALLCTAYIYFGANAQVGINTKNPQGMLDVQGGTLIESYVIDTVNSDATGNYYLLTRSKDTTLAGKVKLLDISLRNVAPVNTYNIILKNVSQTDVVNLNTGLDTEKYIVAITGAVFSDATAGVNATTGIPSYGAYSTEITHVSGGGKTYNAVNLSFKGAGTTSAQNGTWTLTLCVYEKALVKDWGTYSGNVNSSFTGISTNTPTGLQ				NA	NA	NA	NA	NA
BMS003_00566	663			hypothetical protein	ATGAAAAGAGTAGTCTACAGTATGATTATATTTCTTTCGGGAATATTTATCAATGCTCAAAATACGAAAATAGGAATCAATACCCCAACACCAGCAGAAACACTGGATGTAAACGGCTCAAGCTTTACCAATTCTTTATATTTAAGAAACCCTGGTGAGCCGGATAAAACAGGAGGTCGCTTTCTTGCCACTTCTAAAAATACCCTGGACTTGTATAATCCTGCACTTGAAACCAGCGGATTATTTAATTATATCAAGCTCACCATTTCAGGAGTTCCTTCTACAGGAATCACAGATTATGATACTAAAATAGATGCTACTAAATTTCTGGTAGTAGTGCATAACTATTCATTCCAACTTAGTAATGGGTCTACAAAAGTTGCTCTTGACTATGGCAGCAACGGTGTTAATGATAAAAAACAGGGGTCTCCCAATGTAAATACCTTTAAAAGTAACGGAACCTGGCACATCAGAGCAAATTTTACGAATAGCAGATTAGAACGCTACACCAATCCGGACGGAACTTACAATAGTTTTAAAGTTAATCTTTATTTAATGGCCTATAAATATCTTATCACAAAACAGAACATTAATGATAATACAAAAGACCTGGGCGGTACAAACGGCTCCACACAATTATTGAGTAAGCCTTCTGGTTTTTAG	MKRVVYSMIIFLSGIFINAQNTKIGINTPTPAETLDVNGSSFTNSLYLRNPGEPDKTGGRFLATSKNTLDLYNPALETSGLFNYIKLTISGVPSTGITDYDTKIDATKFLVVVHNYSFQLSNGSTKVALDYGSNGVNDKKQGSPNVNTFKSNGTWHIRANFTNSRLERYTNPDGTYNSFKVNLYLMAYKYLITKQNINDNTKDLGGTNGSTQLLSKPSGF				NA	NA	NA	NA	NA
BMS003_00567	486			hypothetical protein	ATGAAAAGATTCATATTAACGGGAATAATGACTTTAGGAGGATTTCTGACTGCCAGCGCACAGTGTAAGCCTGTTTCTGCAATAACAGAAAATTTTGATGCATGGAAAGACATTAATAAATGCTGGACAGCCCGGTCCGGAAAAGCAATGCTGTATGCCAATGATAAAAAAATCATTTTCTACTCTATGACAAGCCCTGGGGAAAATATGTATCTGCTAACTCCGGAAATAAAAGCAGGAATCTATACACTAAGCCTGGATATTTCGGACAACGGAGGAGAAACTACGCTGGAAATTTTCTCAGCAGCCAGTGCCTCTGATCCAAAATCTTACACATCCATCACTAAAGCCTCAAAAATCTCAGGTGAAAAGAAAACCTATACTATTACTATCAAAAAAGACACTCATTTGGGACTGAAAGTTTTACTGAACGGTGTACATCAGGCTGTTTATGTAGATAATTTCTCTTTAACTCCTAAAAAATAA	MKRFILTGIMTLGGFLTASAQCKPVSAITENFDAWKDINKCWTARSGKAMLYANDKKIIFYSMTSPGENMYLLTPEIKAGIYTLSLDISDNGGETTLEIFSAASASDPKSYTSITKASKISGEKKTYTITIKKDTHLGLKVLLNGVHQAVYVDNFSLTPKK				NA	NA	NA	NA	NA
BMS003_00568	873	yofA	COG0583	HTH-type transcriptional regulator YofA	ATGGGAATTAATTTACACGATTTAAAAATATTTGAGGCTGTAGCAGAAAGTGGAAGTTTTACCAAAGCTGCTTCTATGATGTTCACAGTTCAGTCAAATGTTACCGCAAGAATAAAAAGTCTGGAAGAAGAGTTTAATACTAAGCTTTTCTCCCGTACTTCCAGAAGAGTAGAGCTTACTTCTGAAGGAATGATTCTGATGCAGTATTCTAAACAGATTCAGCATTTGGTAGAAGAAGCAAAAAATAATATTCAGAGTGGAGAAAATATCAGAGGATGTCTGAAAATAGGCTGTATAGAAACCACCATGGCGTTAAAAGTTCCTGAGATCCTCAATACTTTTGATGAACAATATCCGGGTATTGAGCTGGAATTCAAATCAGATACAAGAGACTCAGTATTGTCTGGTGTTCTGAATTACAATCTGGATGCAGCCTTTGTTTCTGCCCCTGTGAATGCGAAAGGACTGGAGAAAATCTGCATTAAAGAAGAACAGCTTGTGATTCTTTCTTCTTCAAAAGGCCAAGATCTGAAGACACTGATCGCACATGAACCACTGAAAATTGTAGTATTTGATGAAGGCTGCATTTTCAGGGAAAGATTAGAATCCTGGCTGAGCCATAAAGGAATTCTGAATTATAAAAGTACAGTTCTGAATTCTATTGAAGGGGTCATCAATTTTGTGGAAGCAGGATTGGGAATCAGTATATTGCCGGAAGAAATTATCTCTAAATATTACGGAGGAAGGGAAATTAAAACCTACGGACTGAACAAGCAGCTGGGTACCATGAATACGATTCTTGTTTTCAGAAAGGAAGGGCCGCAGTCGAGAGCTTTACAATGCTTTATAGATATGCATGCACAATCGGTTTGA	MGINLHDLKIFEAVAESGSFTKAASMMFTVQSNVTARIKSLEEEFNTKLFSRTSRRVELTSEGMILMQYSKQIQHLVEEAKNNIQSGENIRGCLKIGCIETTMALKVPEILNTFDEQYPGIELEFKSDTRDSVLSGVLNYNLDAAFVSAPVNAKGLEKICIKEEQLVILSSSKGQDLKTLIAHEPLKIVVFDEGCIFRERLESWLSHKGILNYKSTVLNSIEGVINFVEAGLGISILPEEIISKYYGGREIKTYGLNKQLGTMNTILVFRKEGPQSRALQCFIDMHAQSV				NA	NA	NA	NA	NA
BMS003_00569	978	dhaAF		Haloalkane dehalogenase	ATGAAAATAATTTCAAAACAATTCATTACAGTTCTGTCTGTTGCCCTGTTCACAAGTAATAGTACAGTGGCTCAAACCATTCAGAACTCAAATCTAAATCATCACATTATGGAGAACCATCCTATTCACTACCGCAACATCCAAGTAAATGATCTTAACCTGTTTTACAGAGAAGCCGGCCCTTCCGGTGCCCCCACGATCCTTCTTCTGCACGGGTATCCTACATCATCTCATATGTTCAGAAACCTGATCCCGATTCTGAGCAAAAAATATCATGTTATAGCTCCTGACCTCCCGGGATTCGGTTATTCTGATGCTCCGGATCATGATAAGTTCTCTTATACATTCGACAGTCTTGCAGGAACAATACAGGCATTTGCAGACAAGCTGGAAATGAAACGTTTCGCCATGTATATCTTTGATTATGGAGCTCCGGTAGGCTTACGTCTCGCCATGAACAATCCTGAGAAAATTACCGGCATCATTTCACAAAACGGGAATGCTTATGAAGAAGGATTAAGCAACGAATGGGATCCGATCCGGAAATACTGGCAAGACCCCTCGCAAGAAAACCGTCTTGCATTAAAAGGTTTTGTCTCTAAAGAAATTACCCTGTTTCAGTATCATCATGGCGTTTCTGATCTTTCTTTAATTGCACCGGAAGCCTACACCCTTGATCAGAAGTTCCTTGACAGGCCGGGTAATGTAGAGATACAGCTGGACTTGGTAAAAGATTACAGAACCAATGTGGCTTTATATCCAAAATTCCATGAATATTTCAGAAAATATCAGCCCAAATTATTATTGGTGTGGGGAAACAAAGATCCGTATTTTCTTCCCCAGGGAGCAGAAGCTTATAAAAAAGACATACCGGATGCCAAATTGAAATTTTATGATACCGGACATTTTGCCCTTGAAACCAATGCTGAGGAAATAGGTGCTGAAATTTTTGAATTTATGGGAACATTACCTCAATAG	MKIISKQFITVLSVALFTSNSTVAQTIQNSNLNHHIMENHPIHYRNIQVNDLNLFYREAGPSGAPTILLLHGYPTSSHMFRNLIPILSKKYHVIAPDLPGFGYSDAPDHDKFSYTFDSLAGTIQAFADKLEMKRFAMYIFDYGAPVGLRLAMNNPEKITGIISQNGNAYEEGLSNEWDPIRKYWQDPSQENRLALKGFVSKEITLFQYHHGVSDLSLIAPEAYTLDQKFLDRPGNVEIQLDLVKDYRTNVALYPKFHEYFRKYQPKLLLVWGNKDPYFLPQGAEAYKKDIPDAKLKFYDTGHFALETNAEEIGAEIFEFMGTLPQ	PGPT0013255_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS003_00570	963			Zinc-type alcohol dehydrogenase-like protein	ATGAAAACAATCATTATTAAAAACTATGGCGGACCAGAAGTTCTGCAGCTAGAAGAAACGCCCATTCCTGTTATAAAAGCCCCATCTCAGGTTCTGGTAAAAGTAAAGGCAACTTCTATTAACCCTCTTGATTATCAGGTTAGACGGGGTGATTATGCCTCTTACTTCAATCTGCCCATTGTAACAGGTCATGATGTTGCCGGTGATATTATTGCAGTAGGTGAAGCTGTCAAAAAATGGAAACCTGGTGATAAGGTCTACTATTCCCCACGCTTTGGCAGCCCCGGTAGTTATTCCGAATATCATCTTACCGATGAGTCTTTATTATCCCGAATGCCTGATAACATCAGCTATGAGGAAGCCGCCTCAGTTCCGCTTATTGGAGGAACTGTTTGGGAAATGCTTGTAACAAGGGCAAAACTAAATAAAGGCGACAGCATTCTCATTCTTGGGGGTGCCGGAGGGGTAGGAACACTCGCCATACAGGTCGCTAAATCTCTGGGCGCATTTGTCTTTACAACAGGACAAACTATTTTACATGAAAGATTACAAGATCTCGGAGCAGATATAGTGATCGATCATCATAAACAAAACTGGATTGAGGAAATAAAAGTACATACAAACGGAAAAGGAGTCAATGTCATCATCGATACCGTGGGAGGAACTACCCTTTCAGACAGTCCTCCTGCTTTAGCAGATTATGGCTCTGTTGTAACGCTGGTAGATATTACCCAGCCTCAAAACCTCATCAAGGCCTGGGAGAAAAATGCAACTTATCATTTTGTTTTTACCCGGCAAAACAGGGATGAGCTTCATCATATCACTGAACTAATTGAAGCCGGAAGTATAAAACCTGTCATTGACAGTATATATCCACTTGAAGATGTTCAAAAAGCCCATCAAAGAATAGAAGATTCGAAACGGAAAAAACCTCTGTTTGGTAAAATTATATTGTCGGTATAA	MKTIIIKNYGGPEVLQLEETPIPVIKAPSQVLVKVKATSINPLDYQVRRGDYASYFNLPIVTGHDVAGDIIAVGEAVKKWKPGDKVYYSPRFGSPGSYSEYHLTDESLLSRMPDNISYEEAASVPLIGGTVWEMLVTRAKLNKGDSILILGGAGGVGTLAIQVAKSLGAFVFTTGQTILHERLQDLGADIVIDHHKQNWIEEIKVHTNGKGVNVIIDTVGGTTLSDSPPALADYGSVVTLVDITQPQNLIKAWEKNATYHFVFTRQNRDELHHITELIEAGSIKPVIDSIYPLEDVQKAHQRIEDSKRKKPLFGKIILSV	PGPT0013255_8916	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS003_00571	1212			hypothetical protein	ATGGAAAAAAAACTGACACCGGAACACTTAAAGCTGATAACCTTAGATAGCCAGGGGTTAATACAAAACACATCTTTCGGAACAGGAAAAACTGCAGTTTTGAATGCTCTGGAACATCTAGGGTACATACAGATTGACACTTTATCTATGGTGGAACGGGCTCATCATCACACACTCTGGACAAGAATTCCTGATTTTCAGACTGATTACCTGGAAGAACTGGTGGAAGAGCGCAAAATATTTGAATATTGGTTTCATGCTGCTTCTTATCTTCCCATAAAGGATTTCCGGTATGTTTTACCTCAAATGCTGGCAATTAAAAGAGGAGAATCCAAATACTACAATGCTGATCCTAAAGTGATGGATTATGTGACAGATACCATCCGAAATGAAGGCCCCAAGAGAGCAAGGGACTTTGAAAATGAAAGCAAGAAAGCCGGCAGCTGGTGGAACTGGAAGCCTGCCAAATTAGCTCTTGAAAGACTTTTCATGCAGGGAGACCTGATGATCAGCGGACGTTCCGGAATGCAGAAAACATATGATCTCTCGGAGAGAGTTCTGCCGTCTTCCATTGATACCAGAGAACCTACTCCACTTGAGCTGGCAGAATATCTGGTAAAAACCAATCTGAGAGCGTATGGGTTTACAACATTAAAGCAGATCACTCATCTCAGGAAAGGAAATGATATAAAGAAAAATGTCAGTCAGATTTTACTGACCATGCAGGAAGAAGGATCAATATCTCAGGTCAGAATAGAAGGGCTCTCCCCTGTTTTTGTTTGGAATGATCCCCTTAAAAAGACATTTAATCTTCAGGATTCCAATATCCGGCTGCTGTCTCCGTTTGATAATGCTATTATTCACCGGGACAGAATCAAGCAGATTTTTGATTTTGATTTCCGCCTGGAATGCTATACCCCAAAAGAAAAAAGACAATATGGCTATTTCTGCCTGCCTATCCTGTTTGGAGATCAGTTTATAGGAAGGGTCGACTGTAAAGCACACAGAAAAGAAAAGAAGCTGGAACTGATACATTTACACATTGAAAACAATACTATTGATCCGGAGTTATGGCTTAAACCTTTCATAGAAACCTTAAAACAGTTTGCCGTTTTCAATAGCTGCGCATCTTTGATCCTGACAAAAGTGAGCCCGTCAAAATTGGATACTTCTCTGAAAAAAGAACTATCCAGAGTAAAATTTAAAAAGTAA	MEKKLTPEHLKLITLDSQGLIQNTSFGTGKTAVLNALEHLGYIQIDTLSMVERAHHHTLWTRIPDFQTDYLEELVEERKIFEYWFHAASYLPIKDFRYVLPQMLAIKRGESKYYNADPKVMDYVTDTIRNEGPKRARDFENESKKAGSWWNWKPAKLALERLFMQGDLMISGRSGMQKTYDLSERVLPSSIDTREPTPLELAEYLVKTNLRAYGFTTLKQITHLRKGNDIKKNVSQILLTMQEEGSISQVRIEGLSPVFVWNDPLKKTFNLQDSNIRLLSPFDNAIIHRDRIKQIFDFDFRLECYTPKEKRQYGYFCLPILFGDQFIGRVDCKAHRKEKKLELIHLHIENNTIDPELWLKPFIETLKQFAVFNSCASLILTKVSPSKLDTSLKKELSRVKFKK				NA	NA	NA	NA	NA
BMS003_00572	1512	AAH1		Adenine deaminase	ATGATGATGAAAAAATACCTTATCTATATATCACTTTTGGGAGCACCCTTATTTTGGGGACAAAATAAAGTGAATGAAAAATCCGTATACCAGCAGAATCTGGCTGTATCAGAGAAAGAAAACGAGACGATGGCATTTGATGCTGATATAAAATTATCCGGAGCAGAAATTGCTTTGGACAAAAAGCTATTCCAGGTACGTAAACAGTTCCTTAGTGATGCGGAAACGAAAAAAATATCTTTATATAACAGCTCTTTTAATGAATTAAAACCATTAATAGAAAGCAGCAGACTGTTTGAAATTCTCCGGACAATGCCAAAAGGAGGGCTGTTGCATACCCACAGCGGAGGAATTACAGATGTGAAATGGGTTATTTCTGCTGCCAGAAAATATCAGGAGTGCTATGTTTACGATCAGAAAGATAATGATCAGTTTATTTTCGGACAAATGGGATTTTTTGAAAAAGGAAAAGTTCCGGAAGGATTTGTAAGCCTTGATAAAAAGCTGAACTCCACCCCTGGTTTTGAAAAAGAACTGTTGAGCCTTCTTACATTAAAACGTGATAATCTGTGCTCTTATACCGATTATTGGATTGAGTTTGAAAAGCGTTTTAAACGTATCAGTCTGCTGCTTCCGTACCGCCCTTTCTTTAAAGAATATTACCTGAAAGGATTTCAGGATTTAATAAAAGATAATGTACAGCATGTGGAAATCAGGTATATTTTTGATGAACTTTATGATTTTCAGCATGGGAAATATCCTTTGAAAACTTCTATCACAGATCTGCAGGACATTCTTAAAGAAGTGCACCAGTCTGATCCTCAGTTTACTTTAAAACTGATCTATTCAAGCTTTAAATTCCTGGATAATGGAAGTATTGAAAAGCAGCTTGAGACGGCATTTGAAATGAAAAAAGAATTTCCGGAGATGATTTCAGGCTTTGATCTTGTGGCAGATGAAGCAGCAGGACATAATATTAATTTTTTTGAGAAAAGCTGGGCAAAAATGAACGATCTTAGTAAAAAATACGGAGCAGAACTGCCTCTTTTCCTTCATGCCGGAGAAAGTAATTCTATCCTGAACAAAAATGTTCTGGATGTAGCACTGTTAAACAATAAAAGAATCGGCCACGGACTGAATCTGATTTATTTCCCAAAAACAATGGAGCAGATCAGAAAACAGAATAAGCTGGTTGAAGTAAGCCCGATCAGTAATCAGGTCTTAGGCTATGTAAGTGATCTGAGAAACCATCCTGCAAGGGTTTTACTAAGTAACGGAGTGCAATGTTCCATCAGCAGTGATGATCCGTCTGTATATGGGTATACAGGTCTGAGTTATGATTTCTGGGTGACACAGGTCTATTGGGAACTGGATGTGAAAGCATTGAAAAAACTGGTCTTCAATTCTATTAATTATTCTTCTTTGAATGACAATGAGAAAAAGAAAGCAGTTGCCTATCTGAACCAACAATGGAATGATTTTGTTCGGAAAACAAATCAGAAACTACATTAA	MMMKKYLIYISLLGAPLFWGQNKVNEKSVYQQNLAVSEKENETMAFDADIKLSGAEIALDKKLFQVRKQFLSDAETKKISLYNSSFNELKPLIESSRLFEILRTMPKGGLLHTHSGGITDVKWVISAARKYQECYVYDQKDNDQFIFGQMGFFEKGKVPEGFVSLDKKLNSTPGFEKELLSLLTLKRDNLCSYTDYWIEFEKRFKRISLLLPYRPFFKEYYLKGFQDLIKDNVQHVEIRYIFDELYDFQHGKYPLKTSITDLQDILKEVHQSDPQFTLKLIYSSFKFLDNGSIEKQLETAFEMKKEFPEMISGFDLVADEAAGHNINFFEKSWAKMNDLSKKYGAELPLFLHAGESNSILNKNVLDVALLNNKRIGHGLNLIYFPKTMEQIRKQNKLVEVSPISNQVLGYVSDLRNHPARVLLSNGVQCSISSDDPSVYGYTGLSYDFWVTQVYWELDVKALKKLVFNSINYSSLNDNEKKKAVAYLNQQWNDFVRKTNQKLH				NA	NA	NA	NA	NA
BMS003_00573	459			hypothetical protein	ATGCGGAAAAGATTTTATCAATATTTGTACAGCTTGTTGTTTGCGTGGCTTACCGTTTTAGGTTGGTATTACGGGCAACTTCAGCAGTATATTTCAACAGATATATCTTCCGGCCTTCATTTTACCACTGATCTTCTGGTTCATCAGAAAAAGAGCATTGATAACTTTCTTGCCCTTATAAATAACCATGAAGCCAATGATGCTTACAACATCAGCCATCCCCGCTACAACAAAATCAGAGCAAATCTTTCTGAAAACGACAACGAAAATGATGACAATGTAGAAACATTCGGATCTACTGAAATTCTTGCGTTATTCAAAGATGGATTCTGGCATTTGATTTCTGGGTTCGTCACTACATTTCACAACAGGCAAATCGCTGTTTCACTAGCTCAGTCAGAACATTTAAAGCTTTTACATGATGATCTGTACATCCAGTACAGGGTCATCAGACTGTGA	MRKRFYQYLYSLLFAWLTVLGWYYGQLQQYISTDISSGLHFTTDLLVHQKKSIDNFLALINNHEANDAYNISHPRYNKIRANLSENDNENDDNVETFGSTEILALFKDGFWHLISGFVTTFHNRQIAVSLAQSEHLKLLHDDLYIQYRVIRL	PGPT0029670_457	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
BMS003_00574	1086	bepF_1		Efflux pump periplasmic linker BepF	ATGGTCAAGAAAAGTCTCATGTATATCAACTTGTGCCTTATCTTCTTGTTGACAGCCTGCGAATCTGAAAAAAAAGAAAAAACAGAAGCAGCGTCATTCAACGTTACAAGCCCGCTTGTAAAAGATACTTTAGTTAACAAAGATTATGTTGCGCAGATCCGTTCTATCAATCATATTGAGCTTCGTGCCCAGGAAAAAGGATACATCCAGTCTATTTATGTAGATGAGGGACAATTCGTGCAGAAAGGACAACTGATGTTTAAAATCATGCCCAATCTTTATGAGTCTGATGTAAACCGCGCCAAAGCGGAAACCAAATACGCAGAAATCGAATATCAAAATACCAAAAACCTTTCTGACAAAGACATTGTTGCTCCTCAGGAAATGGCAATGGCTAAAGCAAAATATGAGAAAGCCAAAGCTGAGCTTTCTTCAATGAACACCCATTTGAGATTTACAGAAATACGCGCTCCTTTTACCGGAATTGTAGGAAAATTACATGTAAGAAAAGGAAGTCTTGTAGATGAGGGTGAGCTTGTAACTGAACTTTCAGACAACAGCAAAATGTGGGTATATTTCAATGTACCGGAAGCTGAATATCTTAACCAGATGGATGCAAAAAAAGATAACAGCCCAATGCATGTACGTCTGAGAATGGCCAATGGCAAAGAGTTCACGCAAGACGGTGTGGTACAAACCATAGAGTCTGATTTTGACAATGAAACAGGAAATATCGCTTACAGAGCTACTTTCCCTAACCCAAAAGGACTTCTGAGATATGGAGAAACCGGAAATATCGTTATTACCTCACCTTATGCAGGAGCTATGATGATTCCACAGAAAGCTACTTTTGAAGAGCTGGAAAAGAAATATGTTTATGTGATCAGCAAAGACGGCAAAGTACATGCAAGAGAAATAAAAATAGCGGCAGAACTGCCTCATATCTATGTAGTTTCTTCAGGACTTGGAAAGGATGACAGAATCCTTCTGGAAGGTCTCAGAATGGTTCAGGAAAACCAAAAAATCAGCTCAAAGTACCAAAAGCCTGAAAAAGTAATGTCGAACCTGGATCTGTACGCCGAGTAA	MVKKSLMYINLCLIFLLTACESEKKEKTEAASFNVTSPLVKDTLVNKDYVAQIRSINHIELRAQEKGYIQSIYVDEGQFVQKGQLMFKIMPNLYESDVNRAKAETKYAEIEYQNTKNLSDKDIVAPQEMAMAKAKYEKAKAELSSMNTHLRFTEIRAPFTGIVGKLHVRKGSLVDEGELVTELSDNSKMWVYFNVPEAEYLNQMDAKKDNSPMHVRLRMANGKEFTQDGVVQTIESDFDNETGNIAYRATFPNPKGLLRYGETGNIVITSPYAGAMMIPQKATFEELEKKYVYVISKDGKVHAREIKIAAELPHIYVVSSGLGKDDRILLEGLRMVQENQKISSKYQKPEKVMSNLDLYAE	PGPT0003275_5371	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
BMS003_00575	3162	bepE_1		Efflux pump membrane transporter BepE	ATGTTTAAAAAAGTAATACACCGACCGGTTTTCGCCATTGTGATATCGGTTGTTATCCTGTTTATGGGAGGTATCGCCATGAAGCAGCTTCCTACGGAACAGTTTCCTAAAATTGCTCCTACAACGGTTGCCGTTTCTATTGCCTATCCCGGAGCAAGTGCAGATGTACTGGTAAAATCATCTTTGATTACAATTGAAAATGCCATCAATGGAGTTCAGGGAATGCGTTACATCACTACCGATGCTACCAGTGCCGGGGAAGCTACTGTAAACGTTGTCTTTGACCCCGGAACTGACCCCAATACAGCCGTGGTTCTTGTAAAAACCAGAGTAGACCAGGTAATGCCTTTATTACCGGAACTTGTACAGAAAGAAGGAGTTGTGGTAAACCCTATTCAGCCGAGTATGCTGATGTATGTGAACCTTTACAGTACGAATAAAAGTATGGATGAAAAGTTCCTGTACAACTACTCTATGGTAAATATTATCCCGGAAATCAACCGTATCCACGGGATCGCAAAATCTCAGATCCTGGGTAGCCGAAGATATGCCATGCGTATCTGGCTGAACCCTGACCGTATGCGTGCATATTCTATTTCCGTAGATGAGGTGATGAAAGCTATTGGTGAGCAAAGTATCATCGGACGTCCGGGAAGAATAGGGCAGAGTTCCGGTATTGCAGCACAGTCTCTGGAATATGTACTGACTTATAAAGGGCAGTATAACAAACCTGAAGAATATGAAAATATCATTGTGCGTTCCAATGCCGAAGGAGAAAATATAAAACTGAAAGATATTGCCAAAGTAGAGCTTGGAAGTGAGTTCTTTGATATTTATTCCAATCTTGACGGGCATCCTTCTGCCTCCATTGTTTTAAAACAAAACTACGGAAGTAATGCCAATGATGTGATCCGGGATGTAAAAGCAAAACTGGCAGAAATGAAAGGAAACTTCCCTCCTGGTGTTGATTACAAAATCAGTTATGACGTTTCACAATTCCTGGATGCTTCTATTGAACAGGTAATGCATACGCTAAGAGATGCGTTTATCCTTGTAGCCATCGTAGTTTTCATTTTCCTTGGTGACTGGCGTTCAACCCTTATTCCTATTATTGCCGTACCGGTTTCTCTGATCGGAACTTTCTTTGTGATTCAGTTCTTTGGATTGACCATTAACCTTGTTACCCTTTTTGCATTGGTATTAGCGATCGGTATTGTGGTTGATAACGCCATTGTTGTAATTGAAGCCGTTCACGCTAAAATGGAAGACAGCAATATTACGCCTTACAAAGCGGTAAAAGAAGTAATGGGTGAAATTGCAGGAGCTATTATTGCCATTACTGCCGTGATGGTAGCCGTGTTTATTCCTATTTCTTTTATGACAGGTCCGGTGGGAACTTTCTATCGCCAGTTCTCTATAACCATGGCCAGTTCTATTGTGATCTCTGCAGTAGTAGCACTTACACTGACTCCCGTTTTGGCTGCAATGTTATTGAAAAATCACCATGGAAAGCCTAAAAAATCAAATATTTTCACCAAAGCTTTAGACTCTTTCAACAGAGGATTTGATAAAGTAACAGGTAAATATGCTTCATTCCTAAGAAAAATTGTTAACCGAAAGGTAGTAACATGGGGAATTCTGATTGCTTTCTGTGCCGGAATTGTGATGATCAATAAAGTACTTCCAGGCGGATTTATCCCGAATGAAGACCAGGGAACCATCTATGCCATTATCCAGACACCTCCGGGCTCTACGCTGGAGCAGACCAATAAGGTTTCCAGAACATTACAGAAAATCTGTATGGGAGTAGACGGTGTAGAATCTGTATCATCACTGGCAGGGTATGAAATCATGACGGAAGGGCGTGGCTCGAATGCGGGAACCTGTCTGATCAACCTTAAAAGCTGGAACGACCGTGACCATTCTGTAAAGGAAATCATGGAAGAGCTGGAAGAAAAATCTAAAGACCTTGGGGCTACCATTGAATTCTTTGAACCACCAGCAGTTCCGGGATTCGGATCTTCAGGAGGTTTCTCCATGCGACTTCTGGATCTGAACAGAACAACCAATTATCAGGAATTTGACAAAGCTAATAAAGACTTTATCGCTCAGCTTAAAAAGCGCAAGGAACTTACAGGAGTATTTACCTTCTTTGCGGCTAACTATCCTCAGTATGAACTTGTTTTTGATAATAATGCTGCCATGCAGAAAGGAGTTTCTATCGGAAAGGCGATGGACAATCTCAACATTCTGATCGGAAGTACGTATGAACAGGGATTTATCCGTTTCGGGCAGTTCTTTAAAGTATATGTACAGTCGTCCCCGGAATTCAGAAGACTTCCTACGGATATCATGAATCTGTACGTGAAAAACGACCGTGATGAAATGGTTCCTTATTCAGCATTTATGACCATGAAAAAAACGCAGGGACCGAACGAAATTACCCGTTACAACATGTATAATTCAGCGGCAATACGCGGACTTCCGGCTTCCGGATATACAACCGCAGATGCTATTCAGGCTATTAATGAGACAGCTGCCAAAACACTTCCTCACGGATATAAAGTGGCCTGGGAAGGATTGTCTTATGATGAGGCACAGCGTGGTAATGAAGCTATTTATGTCTTCCTTGTCGTTCTTGTATTCGTTTATCTGGTTCTGGCGGCTCAGTATGAAAGCTTCCTTATTCCTTTTGCAGTACTTTTTTCACTGCCTGTAGGAGTATTCGGGTCTTTCTTATTATTAAAAGCAATGGGACTGGAAAATGACATCTACGCACAGGTAGGATTGATCATGATTATTGGATTACTGGGTAAAAACGCAGTACTTATTGTAGAATTTGCGGTAAAAAGACGTCAGGCGGGTGATTCTATTCTAGAAGCTGCTGTGGAAGGTTCCAAAGCCCGTTTCAGACCGATCCTGATGACCTCTTTCGCCTTTATTGCAGGGCTGGTTCCGCTTGTTTTTGCAAGAGGTGCCGGAGCGATCGGAAACCACACCATTGGAGCGTCCTCATTAGGAGGAATGCTGATAGGAACATTATTCGGAGTGATTGTAATTCCGGGGCTCTATTACATATTTGCCAAGTGGTCTGACGGTAAAAAAATGATTAAAGACGAAGATGAATCTCCATTAAGCGAAGACATGATCCATTATGAATAA	MFKKVIHRPVFAIVISVVILFMGGIAMKQLPTEQFPKIAPTTVAVSIAYPGASADVLVKSSLITIENAINGVQGMRYITTDATSAGEATVNVVFDPGTDPNTAVVLVKTRVDQVMPLLPELVQKEGVVVNPIQPSMLMYVNLYSTNKSMDEKFLYNYSMVNIIPEINRIHGIAKSQILGSRRYAMRIWLNPDRMRAYSISVDEVMKAIGEQSIIGRPGRIGQSSGIAAQSLEYVLTYKGQYNKPEEYENIIVRSNAEGENIKLKDIAKVELGSEFFDIYSNLDGHPSASIVLKQNYGSNANDVIRDVKAKLAEMKGNFPPGVDYKISYDVSQFLDASIEQVMHTLRDAFILVAIVVFIFLGDWRSTLIPIIAVPVSLIGTFFVIQFFGLTINLVTLFALVLAIGIVVDNAIVVIEAVHAKMEDSNITPYKAVKEVMGEIAGAIIAITAVMVAVFIPISFMTGPVGTFYRQFSITMASSIVISAVVALTLTPVLAAMLLKNHHGKPKKSNIFTKALDSFNRGFDKVTGKYASFLRKIVNRKVVTWGILIAFCAGIVMINKVLPGGFIPNEDQGTIYAIIQTPPGSTLEQTNKVSRTLQKICMGVDGVESVSSLAGYEIMTEGRGSNAGTCLINLKSWNDRDHSVKEIMEELEEKSKDLGATIEFFEPPAVPGFGSSGGFSMRLLDLNRTTNYQEFDKANKDFIAQLKKRKELTGVFTFFAANYPQYELVFDNNAAMQKGVSIGKAMDNLNILIGSTYEQGFIRFGQFFKVYVQSSPEFRRLPTDIMNLYVKNDRDEMVPYSAFMTMKKTQGPNEITRYNMYNSAAIRGLPASGYTTADAIQAINETAAKTLPHGYKVAWEGLSYDEAQRGNEAIYVFLVVLVFVYLVLAAQYESFLIPFAVLFSLPVGVFGSFLLLKAMGLENDIYAQVGLIMIIGLLGKNAVLIVEFAVKRRQAGDSILEAAVEGSKARFRPILMTSFAFIAGLVPLVFARGAGAIGNHTIGASSLGGMLIGTLFGVIVIPGLYYIFAKWSDGKKMIKDEDESPLSEDMIHYE	PGPT0016195_690	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
BMS003_00576	1470	cusC	COG1538	Cation efflux system protein CusC	ATGAATAAAAGAAAAATATATCAATATGCAGGTCTGGCAGTCTTCTTATTAAGTCTTACTGCCTGTAAACCTATCGAAATAGAACAGCGTGCTGAAAATAAAACCGTTCCTGAAAAATACGGCTCAGCAGAAAATGACACCATCAATACGGGAAAGATGAAGTGGAATGAATATTTCAGTGACCCACATCTTCAGGAGCTGATTACCCAGGCACTTCAGAATAATCAGGAACTGAATATTGTCCTTCAGGAAATTGAAATGTCTAAAAATGAAATCAAAGCCAGAAAAGGTGAATACCTTCCGTCTGTAGGTTTAAAAGCAGGAGCCGGTGTAGACAAAGTAAGCCGTTATACCAATATCGGAGCTATGGAAGCCAATACCGAAATAGAACCCGGCAGAGAAATGCCGGAGCCTTTATTTGATTTTGGAGTGGGAGCTCAGGCACAGTGGGAAACGGATATCTGGGGGAAACTTCATAATGCAACAAGAGCACAGGTACAGAGATACCTTGCCAGCATTGAGGGGAAGAATTTTATGACAACTCATCTTATTTCTGAGATTGCAGATTCTTATTATGAGCTTCTGGCACTGGATAATGAGCTTGTTATTTTGAATCAGAATATCAAAATTCAGAATAATGCGCTGGAGATCATCAAAGATTTAAAAAAGAATGCCAGATCCAATGAACTGGCTGTACAGAGATTTGAAGCCCAGGTTCTGAAGACTCAGGGAATGCAGTATGACATTCAGCAAAAAATTGTTGAAACAGAGAATAAGATCAATTATCTGGTAGGAAGATTTCCGCAACCTGTGGAAAGAAGCCAGAATTCTTTTGACTCTGTTGTTCCTCAGGCTGTTTATGGAGGAATTCCTTCTGAACTTTTGGAAAACCGTCCGGACATTAAACAGGCTGAATATGAACTGGCCGCCGCCAGACTTGATATCAAAGTAGCCAAGGCAAGGTTCTACCCTTCTCTTGATCTTTCTGCGGGGATAGGATTGCAGGCTTTCAATCCTGCTTATATCATTAAGCCTCAATCATTCCTGTTTTCTCTTGCCGGAGAGCTTACCGCCCCCCTGATTAACAGAAGAGCGATTAAAGCAGCTTATTATAATGCCAATGCAAAACAGATTCAGGCAGTATATCATTATGAGCAGACTGTTTTGGGTGCTTATATTGAGGTGGCCAATCAGTTATCTAAAATTCATAATCTTGAAAGCAGTGTAAATATCAAAACGAAGGAAGTGAATGCTTTAACCAAGTCTATTGATATCTCCAATGACCTGTTCAAATATGCCCGTGCCGATTATATGGAGGTTTTACTGACTCAGCGTGATGCACTGGAATCAAAATTTGAACTGGTAGAAAAGAAAGTAAGTCAGCTTAAAGCAAGCGTTGCTGTATACAGAGCGCTGGGCGGCGGTTGGGATCAGAATCATTTGACCCCTCCGGATATTACCAAACAATAA	MNKRKIYQYAGLAVFLLSLTACKPIEIEQRAENKTVPEKYGSAENDTINTGKMKWNEYFSDPHLQELITQALQNNQELNIVLQEIEMSKNEIKARKGEYLPSVGLKAGAGVDKVSRYTNIGAMEANTEIEPGREMPEPLFDFGVGAQAQWETDIWGKLHNATRAQVQRYLASIEGKNFMTTHLISEIADSYYELLALDNELVILNQNIKIQNNALEIIKDLKKNARSNELAVQRFEAQVLKTQGMQYDIQQKIVETENKINYLVGRFPQPVERSQNSFDSVVPQAVYGGIPSELLENRPDIKQAEYELAAARLDIKVAKARFYPSLDLSAGIGLQAFNPAYIIKPQSFLFSLAGELTAPLINRRAIKAAYYNANAKQIQAVYHYEQTVLGAYIEVANQLSKIHNLESSVNIKTKEVNALTKSIDISNDLFKYARADYMEVLLTQRDALESKFELVEKKVSQLKASVAVYRALGGGWDQNHLTPPDITKQ	PGPT0009810_840	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
BMS003_00577	1041	pbpE_1	COG1680	Penicillin-binding protein 4*	ATGATACTCACTAAAAAATTATTCTTCACAGGTATATTTTCCTCCCTGCTATCCATTACTGTGACTGCTCAGAAAAAAGAAGCCTACACTCACAAAATCGACAGCATTATTACAGCTTCCGATCCGATACTGTTCAACGGAGTTGTTCTGGTTTCCCAAAAAGGAAAAGTACAGTATCTGAAATCCAATGGTTATAAAGATGTTGAGAAAAGAACTCCGTTGAAAACTGATGATCAGTTTGAAATCATGTCAAATTCCAAACAGGTTACTGCTGTTTTGGTTTTACAGGCTGCCGAACAGGGAAAGCTGAATCTTCATACTCCTATCAAAAAATATCTTCCTACGCTTACCCAATCCTGGGCAGATACGGTTACAATCCACCATCTTCTGAATCATACTCACGGAATTACCGATCTTGAGAAACCTACATCTTTCAAAGCCGGTTCCCAGTTCAAATATGGTAATCTTTCTTATATGATGCTTGGAGAAATTCTTAAAAACACAACCGGAAAAAACTTCACGGAACTCGCCAATGCCCTTTTTAAAAAGCTGAAAATGCATCAGACTTCTGTTTACAGCAAGGAAAATAATCAATTTCTCGTTCCCGGTTATAGGAATGAAAACAATGTGTTTGAAAAAGTAAAAGAATCTTTTCTGAATGATAACATTGCCCCTGCCGCCGGCATCATTTCCACAGTACAGGATCTGGCAAAGTGGGATCAGGCATTATTTAAAGGAAAGTTGCTTTGTACTGAGTTTCAAAAACAAATGATGACGCCTTCTACCCGTTCTCAGCATAATGTATTCGGAAAAGAAAGCATGGGATTCGGGTATAACGTGAGATTTATCAAAGAAGCTGGCCTGGATTATTTTGCAGTGACAGGACTTGGTGATGGATTTACCTGTCTTAATGTATATTTTCCATCCACAGATACTACTTTGGTTATCCTTGAAAATCAGATGCCTAAAAACAGTGAGTACTGGAGTTTCAAAGAAGCAGCGATAAAAAATGCAGTTCTGAAAGCAATTACGGCTGACTAA	MILTKKLFFTGIFSSLLSITVTAQKKEAYTHKIDSIITASDPILFNGVVLVSQKGKVQYLKSNGYKDVEKRTPLKTDDQFEIMSNSKQVTAVLVLQAAEQGKLNLHTPIKKYLPTLTQSWADTVTIHHLLNHTHGITDLEKPTSFKAGSQFKYGNLSYMMLGEILKNTTGKNFTELANALFKKLKMHQTSVYSKENNQFLVPGYRNENNVFEKVKESFLNDNIAPAAGIISTVQDLAKWDQALFKGKLLCTEFQKQMMTPSTRSQHNVFGKESMGFGYNVRFIKEAGLDYFAVTGLGDGFTCLNVYFPSTDTTLVILENQMPKNSEYWSFKEAAIKNAVLKAITAD				NA	NA	NA	NA	NA
BMS003_00578	1116	oatA		O-acetyltransferase OatA	ATGACAGGACATTCTGAAAGACTTTACGGATTGGATCATCTGAGGGCTGCTGCTATTTTACTTGTATTAATGTATCATTACCGTGCTTTTAAACATCCCGATTGGATAGACAGCATTGGAGGATTTGGATGGACGGGGGTGGATCTTTTTTTTGTTTTAAGTGGTTTTCTGATTTCCGGACAGTTGTTTAAAGAAATAGAAGTTAAGAGGAGAATAAGTCTGAAAACATTCTATTTAAAACGTTTCTTCAGGATTATTCCAGCTTATTTGTTTACGCTTTTTCTGTATTTTACATTTCCTTTTTTCCGGGAGAGGGAAGCCCTATCTCCATTGTGGAAGTTTATGAGTTTTACCCAAAACTATGGTCTGGACGTAATCTGCCATGGAACATTTTCCCATGCATGGTCCTTGTGTATTGAAGAGCAGTTTTATCTCATTCTTCCTTTATTGCTTTTACTACTGCTGCCGACAAGATTATTCACATATCTGCCGTTTCTGATGGTGGCTTTCATCATATTGTCTATAACAGCAAGATTAATAACATGGAATGAATGTATGACAGGAATGGACACCGCTTCCTCAGATTTTTGGAAATCGTGGTATATGAATATATATTATCCTACTCATACCAGGCTGGATGGGCTTGCAACAGGTGTTCTGATAGGATATCTGATGCAGTATTCCTCTGGATTCAGAAAAATGGTGAATAGCAATGGAGACAGATTTTTCTTTTTGGGCATTATACTGTTGGGGATTTCTTTCTGGATGTGTAGTGAGCAGGCTTCAAAAACAGCTTCCATATTTGGGTTTACACTGGTTGCTGTGAGCTATGGATGTATTCTGATGGCTGCAGTTTCCCAATCGTCTTTCCTGTATAGAAAGAAATCTTATCTTACGGCTCAACTGGCAGCTTTATCCTATGCGGTTTACCTTTCGCATAAAGGAATTATTCATATGGTGCAGAGCGGGTTTGATTATTTTAAACTTGAAAGTTCTGATAATATAAGCCTTCTTGTGTGTCTTTTCGCCTGTATTCTTGGAGGGCTATTCTACAGGTTTGTGATAGAAAAACCTTTCTCCGTTATTAAAATTAAAGTTTTGAAAAGAATTGTATAA	MTGHSERLYGLDHLRAAAILLVLMYHYRAFKHPDWIDSIGGFGWTGVDLFFVLSGFLISGQLFKEIEVKRRISLKTFYLKRFFRIIPAYLFTLFLYFTFPFFREREALSPLWKFMSFTQNYGLDVICHGTFSHAWSLCIEEQFYLILPLLLLLLLPTRLFTYLPFLMVAFIILSITARLITWNECMTGMDTASSDFWKSWYMNIYYPTHTRLDGLATGVLIGYLMQYSSGFRKMVNSNGDRFFFLGIILLGISFWMCSEQASKTASIFGFTLVAVSYGCILMAAVSQSSFLYRKKSYLTAQLAALSYAVYLSHKGIIHMVQSGFDYFKLESSDNISLLVCLFACILGGLFYRFVIEKPFSVIKIKVLKRIV				NA	NA	NA	NA	NA
BMS003_00579	1062			hypothetical protein	ATGAAAACTCCTTCACAAACTCAGATCAGGCAAAATTTCTATTTCCAGCTGCTATTGTGGACGGCTTTATTTTTGTTTGGAACTGTAAGAATGTATGGAGAATATGATGACGAAGCTTTTAAAGGAGTAATGATCTACAATTTCTGTCACTGGATTTTCCAGATCGCAGGAGCTAATTTTATCTATTTTGTGCTGATCCGTCATTTTTTTGACCGGAAAAAGTATGTTGAATTTTCATTGTATCTTCTTATTTCACTTTATATTATTTCTGTCATCAACAGATTCTTTCTGGTTTACATTGCTGAACCTCTTTTCACCAATGAATCAAAAGACAGTATTTCAGATATTCTTACTGATATTCCTTATCTGCTCCTCCATTATACATTTCCGATTATCAGCGGGGCATTTATCTTTATTTCAATTATGTTTATCATACGTTACAAGGATGAAAAGGAATATGCAATCAAACTGCAGAAAGAAAAAACCGAGCTGGAGCTGCAATCTCTCAAATCCCAGCTTAATCCTCATTTTCTTTTTAACACCCTGAATAATATTTATTCTCTGTCTATCAGTCAGTCAGATAAAACCTCACAATCTATCAGCCAGCTTTCTGATATTCTGGATTATATTCTTTACAAGGGCCAGAAAAAATGGGTAGCTGTTTCTGATGAGATCCATATTATTGATCATTATATTGCATTGGAAAGCCTTCGTTATCATGATAAAAGATTAAAAATTCAGAAAAATATCAGAATAAATTTCCCCAATACCATTCCTCCTCTGCTGTATCTTACTTTGGTAGAAAATGCTTTTAAACATGGTGCAGGAAAAAATTCAGAAACAACAGAAATAAAGATGAAAATAGAGACGAATCAACAGTTTTCTGTTTTTAACATTGAAAATACCTTTTCGGATTATCCAACAAATAATGAAAAAGGAATCGGGCTGAAAAATATACAAAGACAGTTACAATATTATTATCAGGAACATTTTACCTTCCGGATTTCACAGGAAAACAATATTTTTAAAGTTGAAATAATCACTCCTTCTCATTATGATTAA	MKTPSQTQIRQNFYFQLLLWTALFLFGTVRMYGEYDDEAFKGVMIYNFCHWIFQIAGANFIYFVLIRHFFDRKKYVEFSLYLLISLYIISVINRFFLVYIAEPLFTNESKDSISDILTDIPYLLLHYTFPIISGAFIFISIMFIIRYKDEKEYAIKLQKEKTELELQSLKSQLNPHFLFNTLNNIYSLSISQSDKTSQSISQLSDILDYILYKGQKKWVAVSDEIHIIDHYIALESLRYHDKRLKIQKNIRINFPNTIPPLLYLTLVENAFKHGAGKNSETTEIKMKIETNQQFSVFNIENTFSDYPTNNEKGIGLKNIQRQLQYYYQEHFTFRISQENNIFKVEIITPSHYD	PGPT0025360_299	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0025360-algR-K08082	NA	NA
BMS003_00580	696	btsR_1	COG3279	Transcriptional regulatory protein BtsR	ATGATTAACTGTATTATTGTAGATGATGAACCGCTGGCTGCCACATTGCTGGAAAACCATATCTCTAAGATCGAAGATTTGAAGCTGACAGGAAAAGCCCAAAATGCTATTCAGGCTTACAAAATCCTACAGAGTCAGTCTGTAGATCTTATGTTTCTGGATATACAGATGCCTCATCTGAACGGAATAGAGTTTCTGAAATCACTGCATCATAAGCCCAAAACCATTTTCACTACAGCGTACCGTGACTTTGCTATTGAAGGCTTCGAACTGGAAGCTGTAGATTACCTATTGAAACCTATAACTTTTGAAAGGTTTTTCAGATCTGTGGAACGAATCCTGAGAAACACACGGGAAAGTAAAGAAGATTTTATCCTTATCAAAACCGAAGGTATGCACCGGAAACTTTCCCTTTCTGAAATTGCTTATTTCGAAAGCCAGGGAAATGATATCAGAACAGTACTCATTACAGGAGAAAATTTCATATCGAAAAGCAAGATTACAGATCTGGAACAAACGCTTTCAGGTAAAGGATTTGTAAGAATTCATCGGTCATTTATCATCAACTCCGTTTTTGTGACTGCTTTCAACACTCATGAGGTTATAGTCGGCCCTCATCACATCCCTGTCGGAAGAAGCTATAAGCAGGAGTTTGACACTTTCATATCCTCGGTTTCCAAAAATAAGCTGTTATAA	MINCIIVDDEPLAATLLENHISKIEDLKLTGKAQNAIQAYKILQSQSVDLMFLDIQMPHLNGIEFLKSLHHKPKTIFTTAYRDFAIEGFELEAVDYLLKPITFERFFRSVERILRNTRESKEDFILIKTEGMHRKLSLSEIAYFESQGNDIRTVLITGENFISKSKITDLEQTLSGKGFVRIHRSFIINSVFVTAFNTHEVIVGPHHIPVGRSYKQEFDTFISSVSKNKLL	PGPT0026304_3316	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_00581	561			hypothetical protein	ATGAGAAAAATAATTCTACTTATTACATGTATGTTCGGTATTTCAGTTTTCTCGCAGATTAAAGTACTGAAAAATGAAAGTTTGGTGGAAATTGGCAAAGATAATTCCGTTGGTCTATATAAAAAGGAAGATAAATTTACAGTCAACTACCAGGATCTGAATACAAGCAACCTGAATACTATCCGGTCTTTTTCATTTCAGAACCTTGATGGTGATGTTTCCGGATTATTTAAACTGATTATGGATGGATTTGTTACTCCTCCGGACGAAAACATTGTACTGGAGCTTCCTAATGATATTATTGAGCTTCATTATGAAAGAAACTACGGCCAGCAGACGGTACAGTTTATCCAGATTATTAACAAGAACCGAAAATACATCGGAAAATCACAGTTTTTAACCAAAAAGCAGGTGGAGAAAATTTTCGGAAGAACCAATGGAAAGTATACCATGTATGACAAACCTGTTTCTGCAAATCCGGCAGCGAACAGAGGAAACGGAAATACAGCATCTAATGCTACTCCAGCCACAGGCGGAACTAAGAAAAAATCAAGAAAATAA	MRKIILLITCMFGISVFSQIKVLKNESLVEIGKDNSVGLYKKEDKFTVNYQDLNTSNLNTIRSFSFQNLDGDVSGLFKLIMDGFVTPPDENIVLELPNDIIELHYERNYGQQTVQFIQIINKNRKYIGKSQFLTKKQVEKIFGRTNGKYTMYDKPVSANPAANRGNGNTASNATPATGGTKKKSRK				NA	NA	NA	NA	NA
BMS003_00582	705	yxlF	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGCCGCTTCAGATAATCAATTTAACCAAAAAATTTGGTGAGCAGACAGCCCTTGACAATATCAACATTTCTATTGATAAAAATGAGATCATCGGTCTTCTTGGCCCGAACGGTGCCGGAAAATCTACCCTGATGAAATCTATTGTCGGTGCACTGAAAATTGATCAGGGCGAGATTATTTTCAATGGGATGAATATCTCTGACCATGAGATTGAAAGCAAAAAGAAAATAGGCTTTCTTCCGGAAAACAATCCGCTTTATCTGGAAATGTATGTAAAAGAATACCTACAGTTTGTAGCTAATATTCATAAAATATCAGAATCCAGAGTAGATGAGGTCATAGAGCTGGTAGGGATCACTCCCGAAAAATCAAAAAAAATAAGCCAGCTGTCTAAAGGATACAAACAGCGTGTAGGATTGGCACAGGCTATCATTCATCAGCCGGATTTACTGATTCTGGATGAGCCTACCAATGGTTTAGATCCTAACCAAATCATTGAAATCCGTAATGTGGTAAAGGAAATAGGACAGCAAAAGACCGTTCTATTATCTACCCACATTATGCAGGAAGTAGAAGCACTTTGTTCAAGAGTAATTCTTATCCATAAAGGAAATATTCTGCAGGACTGCCCTATTGACGAATTTAAAGGTAAATTTGAAAGCCTGGAAGATGCTTTTGCAAGTTATACTGCTGTTGCTGAATAA	MPLQIINLTKKFGEQTALDNINISIDKNEIIGLLGPNGAGKSTLMKSIVGALKIDQGEIIFNGMNISDHEIESKKKIGFLPENNPLYLEMYVKEYLQFVANIHKISESRVDEVIELVGITPEKSKKISQLSKGYKQRVGLAQAIIHQPDLLILDEPTNGLDPNQIIEIRNVVKEIGQQKTVLLSTHIMQEVEALCSRVILIHKGNILQDCPIDEFKGKFESLEDAFASYTAVAE	PGPT0006725_2328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_00583	438			hypothetical protein	ATGATAAAACATATTTTATTAGGGATTTTCTGTTTAGCTCAGTTTTCTTTCGTTGATGCCGAAGAAATTCCGAACCCGAAAACAGGCAGCTTTATAACCCTTTCTCCTGTTCAGCAGATCCCCAAAACGGTGATCATTAAAACCAAAAAATTCAAGGTCAGAATTGACAAACAGCCGAATGGTAAGTACCTTTACCAATCCTGGAATGCCAACACAAAGATTACGGCTAAACCAAGCATGATCATCAGTGACGGTGAACTGATTCCTGATGGTACAGGAGGAAACTATTACATCAACTTCAGTAATGAAGGACACAGCTACCAGATCTGGAGAAATTACCTTACCGATTCCCCGAAAAAAGCACCTTATACTTTAGTAGTAAATGATGCTAACGGCCGTGAGATAGTTCGTCAGGACGGATACGTGGTAAAAAATTAA	MIKHILLGIFCLAQFSFVDAEEIPNPKTGSFITLSPVQQIPKTVIIKTKKFKVRIDKQPNGKYLYQSWNANTKITAKPSMIISDGELIPDGTGGNYYINFSNEGHSYQIWRNYLTDSPKKAPYTLVVNDANGREIVRQDGYVVKN				NA	NA	NA	NA	NA
BMS003_00584	801		COG1752	putative NTE family protein	ATGAATTTTGACAGAGTAGGACTTGTTTTATCAGGAGGCGGTACCAAAGGCATCGCTCATGCAGGAGTATTAAAATTCTTACAGGAAAAAGGTATTGAAGTAGATATTCTTTCCTGTTGTAGTGCAGGATCTATCGTAGGATGCCTTCATGCCATCGGAAAAACGCCGGAAGAAATCCTGGAATTTTTCAATTCTGTCTATTTTTTCAACTGGAAACATTTTACATTCAATCAGCCGGGTCTGGTTTCTTCTGTAATATTCAGGAACTATCTGAAACCTATTTTCCATGAAATGAAATTAGGAGATCTTGATATCGGCGTGAAAATTGTAGCAACAGAGCTTGTGGCCGGAACCCAGAAGATTTTTGACAAAGATTTTGAAATCGTAGATGCCATTATTGCCTCATGCTCTATTCCGGGAATAACAACGCCTTACATCATTGGAGATGAAATGTATTGCGATGGAGGAGTCCTGAACAACTTTCCTGCAGATATCATCAGGGATGATTGTGATCAGCTGATCGGCGTATTTGTATCTCCACCCAATGAAGCTAAAATCAAAGATCTGAACTCCATTAAAGCAATCGTTTCCCGTTCTTACGATCTTCTCTCCTATAGGATAGAAAAAATAAAATTCGACTATTGTGACTGGTTTATTTCTTCTCAGAAACTATCTTCCTATGGAACTTTTGAACGAAGAAAGGACAGACTGGAAGAGATTTTCAATATTGGTTACAAAGCAGCAAAAGAAAGCTATGAAGAAAGTGCTTTTTTCACAGAGTTAAGACAGTCCGGAACATAA	MNFDRVGLVLSGGGTKGIAHAGVLKFLQEKGIEVDILSCCSAGSIVGCLHAIGKTPEEILEFFNSVYFFNWKHFTFNQPGLVSSVIFRNYLKPIFHEMKLGDLDIGVKIVATELVAGTQKIFDKDFEIVDAIIASCSIPGITTPYIIGDEMYCDGGVLNNFPADIIRDDCDQLIGVFVSPPNEAKIKDLNSIKAIVSRSYDLLSYRIEKIKFDYCDWFISSQKLSSYGTFERRKDRLEEIFNIGYKAAKESYEESAFFTELRQSGT				NA	NA	NA	NA	NA
BMS003_00585	1389	lpd	COG1249	Dihydrolipoyl dehydrogenase	ATGAATTACGATATTATTGTCATTGGAAGTGGTCCTGGTGGATATGTTACTGCGATCAGAGCAGCGCAATTAGGTTTCAAAACCGCAATTATCGAAAAAGAAAACTTAGGAGGAATCTGCCTTAACTGGGGATGTATTCCAACTAAAGCTTTATTGAAATCTGCTCAGGTTTTTCATTATATCAACCATGCTGAAGATTATGGTTTGAATAAAGTGGAGGCGAGCTTTGAATTCCCGAATGTGATTCAGAGAAGCCGTGGTGTTGCCAGCAAAATGAGCAAAGGAATCGAGTTCTTGATGAAAAAGAATAAGATTGACGTAATTCTTGGTACTGCAAAAGTGCAGAAAGGTAAAAAAGTTTCTGTTACAGATAAAGAAGGTAAGGTAACTGAATATACAGGTACTCATATCATTATCGCAACAGGAGCCCGTTCAAGAGAATTGCCAAACTTACCGCAGGATGGTAAAAAAGTAATCGGATACAGACAGGCATTATCTCTTCCTGAGCAGCCGAAATCTATGATTGTTGTAGGTTCTGGAGCTATCGGGGTAGAATTTGCTGACTTCTATAACACAATGGGAACTAAAGTAACTATTGTTGAATTTATGCCAAACATCGTTCCTGTAGAAGATGAAGAAATCTCTAAACACTTAGAGAAATCTCTGAAAAAGACAGGAATTGAGATTATGACAAACGCTTCTGTTGAAAGTGTTGATACAAGCGGTGAAGGTGTAAAAGCTACTGTAAAAACAGCTAAAGGAAATATCACTCTTGAAGCTGATATCCTATTATCTGCTGTAGGTATTGCTGCTAATATCGAGAACATTGGTTTGGAGGAAGTAGGAATCCAGACAGATAAAGGAAGAGTATTGGTAAACGAATGGTACGAAACTTCAGTACCGGGTTACTATGCTATCGGAGATATCATCCCAACTCAGGCATTGGCTCACGTGGCTTCTGCAGAAGGAATCACCTGTGTTGAGAAAATCAAAGGAATGCACGTTGAAAAAATAGACTATGGCAATATCCCTGGATGTACTTACTGTCACCCTGAAGTAGCTTCTGTAGGTCTTACTGAAAAGCAGGCTAAAGAAAAAGGATACGAAATAAAAGTTGGTAAATTCCCTCTTTCTGCAAGTGGTAAAGCTACAGCAAACGGAAACACGGATGGATTTATCAAAGTGATTTTTGATGCCAAATACGGTGAGTGGTTAGGATGTCATATGATCGGTGAAGGAGTAACAGATATGGTTGCTGAAGCTGTGGTAGCCAGAAAATTAGAGACTACAGGTCATGAGATCATCAAATCTATCCACCCGCACCCTACAGTTTCTGAGGCTATTATGGAGGCTGCTGCTGCTGCTTACGGTGAAGTAATTCACATTTAA	MNYDIIVIGSGPGGYVTAIRAAQLGFKTAIIEKENLGGICLNWGCIPTKALLKSAQVFHYINHAEDYGLNKVEASFEFPNVIQRSRGVASKMSKGIEFLMKKNKIDVILGTAKVQKGKKVSVTDKEGKVTEYTGTHIIIATGARSRELPNLPQDGKKVIGYRQALSLPEQPKSMIVVGSGAIGVEFADFYNTMGTKVTIVEFMPNIVPVEDEEISKHLEKSLKKTGIEIMTNASVESVDTSGEGVKATVKTAKGNITLEADILLSAVGIAANIENIGLEEVGIQTDKGRVLVNEWYETSVPGYYAIGDIIPTQALAHVASAEGITCVEKIKGMHVEKIDYGNIPGCTYCHPEVASVGLTEKQAKEKGYEIKVGKFPLSASGKATANGNTDGFIKVIFDAKYGEWLGCHMIGEGVTDMVAEAVVARKLETTGHEIIKSIHPHPTVSEAIMEAAAAAYGEVIHI	PGPT0001380_7670	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
BMS003_00586	264			hypothetical protein	ATGAAAAAGTTATTAATCTCAATAGTATTGTTACTAGGTTTATCCATGAATGTTTCTGCACAGAAACACCCACCCGTTCCTCCACATCCATCAAAAAGCGAGCTGGTTAATATTAAAATGCAGGAGCTTACCAAAAAATATAATATCGAGAAAAAGCTGATCCTTAATCATCCCCTTGCCACCAAAAAAATGAAGAGAGATCAGATGAAAGCCTTAAATCAAAGATATGCTACTGAAAAACGATTACTTAGAAAGGCAAAATAA	MKKLLISIVLLLGLSMNVSAQKHPPVPPHPSKSELVNIKMQELTKKYNIEKKLILNHPLATKKMKRDQMKALNQRYATEKRLLRKAK				NA	NA	NA	NA	NA
BMS003_00587	882			hypothetical protein	ATGAAAAAATACATCTCAATCCTTTTATTTTCAGCTGTTCCTTTAACTGCACAAGTAGGCATTAATACCACAACTCCCAACAGTACCCTTGCCATAAACGGTTCGTTAAGGGCAGGCTATACTGAGATCACCGCCACAACCTATAGTATCCTGGCCACAGATCATTACATCACTTATAACGGAACAGCTGATGCTACATTTACCCTTCCTGTTATTGGAACAGGAACAACAAGTTTTACAGGAAGAATTTACAAGATTAAAAATATTTCTCCGAATGCAATTACATTACAGGCTTCCAGTGGAAATACTTTAAGAATAGACAATACTCCTGTTGCTTCTTTTGTAGTTCCTACCGGGGCATATGCTGAAGTGGTTAATAACAGTAATACAGCTGGCGGAACATGGGACTTGTCTTTTACTGTTCTTCCTAAGCCGAGCAATGTGGAAATCTATGGAACACAAGTTCTTATTCCTCCTCATAGACTGGGAACCGCACCTGTTGCCGACTGGACTAACCATACCAATCCAGGTTATGATACGGGAGCAACAAATGACAGATGGTGGATCATTAGTAAAACATCGGTGGATAATGCCCATACTTCACTGTATTCCAATGCCAGCAGAATGACCCTGGTTTATGAATATCAGGGTACTCCGTTCAACGTGAGCAATATGTACCCAATCCTTACTGCAGGAAATAATTCAAGTTTCCCGGATGTATTTACAGCATCTTTTGTAAGCCTTGCCAATAACGGTACCGGAGGAAGAACAAGACTTACAGTATCTGTGGCCCGTATAGATTTCATTGGAAATAACGGCTCCAATAACAGTAACTGGACAGGAACATTCTTACTGAACGTTCTATTGGCCAGAAAATACTAA	MKKYISILLFSAVPLTAQVGINTTTPNSTLAINGSLRAGYTEITATTYSILATDHYITYNGTADATFTLPVIGTGTTSFTGRIYKIKNISPNAITLQASSGNTLRIDNTPVASFVVPTGAYAEVVNNSNTAGGTWDLSFTVLPKPSNVEIYGTQVLIPPHRLGTAPVADWTNHTNPGYDTGATNDRWWIISKTSVDNAHTSLYSNASRMTLVYEYQGTPFNVSNMYPILTAGNNSSFPDVFTASFVSLANNGTGGRTRLTVSVARIDFIGNNGSNNSNWTGTFLLNVLLARKY				NA	NA	NA	NA	NA
BMS003_00588	2664	xyl3A	COG1472	Xylan 1,4-beta-xylosidase	ATGAGATGTATTAGTTTTAAACTTGCTGGGGTAGCATTATTGTTGAATGTTGTACTTACTTTTGCTCAAAAACCATTATATAAAGATCCGAAGCAGCCCATTGAAGTCAGAGTTCAGGATCTGTTGAAGAGAATGACCCCGGAAGAAAAATTCTGGCAGTGCTTTATGATTCCCGGAGATTTGGATAACGTCCCGAAAGGACAATATTCTCACGGAATATTTGGCTTACAGGTGAGTGCGGGAAATCAAGGGGGAGGAGCTGCAGGACAGCTACTGAAATATAATGCCCAGGAAGATGCAGAGAAACTGGTGAAAAAAATCAATGCCATTCAGAAATATTTTGTGGAAGAATCACGATTGGGAATTCCCATTATTCCTTTTGATGAAGCCTTGCACGGGTTGGTTCGGGAAGGTGCCACAGCTTTCCCGCAGGCAATAGGTCTGGCTGCCACTTTTAACCCGGAATTAATGGCTCAGGTTTCAACAGCTATTGCCAAAGAATCAAAATTAAGAGGAATCCGGCAGATTCTGACTCCTGTTGTTAATTTGGCCAGCGATGTAAGGTGGGGCAGAACAGAAGAAACTTATGGTGAAGATCCGTTTCTGACCTCCGTAATGGGAGTCAGCTTTGTTACTTCATTTGAAAATAGGGGGATTATTACCACCCCAAAACACTTTTTAGCCAATGTGGGAGAAGGAGGAAGAGATTCATACCCGATTCACTGGAGCAAAAGATATCTGGAAGAAACTCATCTGATTCCTTTTTATAATGCCTTTATAAAAGGAAAAAGCCGTTCAGTAATGACCTCTTACAATCTGCTTGACGGAAGACCTTCCACTGCAAATCACTGGCTGTTAACACAAAAATTAAAAAAAGACTGGAATTTCAAAGGCTTTGTAATCAGTGATGCTAGCGCAGTAGGTGGAGCAAATGTGCTGCATTTCACGGCAAAAGATTATGATGATGCTTCTGCACAGGCTATCAGTGCCGGACTTGACGTGATCTTTCAGACAGAATATAAACATTACAGGCTTTTTATGCCTCCTTTCCTGGATGGAAGAATCTCAAAAGAAAGAATTGATGACGCTGTTTCAAGAGTACTGAGGGCAAAGTTTGAGCTGGGATTATTTGAAAATCCTTATGTTTCTGCAAAAGAAATTGAAGAATTAAAGAAATTAAATCATAAGCCTTTAGCCGAAAAGACGGCTGCAGAGTCTTTTGTTTTGCTTCAGAACAATCATCAGACACTTCCGGTTCCTGAGCATGTAAAAAAGATTCTGGTGGTGGGCACAGATGCAGTGGATGCTAGATTAGGAGGGTATTCGGGGCCGGGAAATAAGAAAGTAAATATTCTGGATGGGATTAAAAATTATACTGAAAATAAAGAAGTTGAAATCATTTACTCAAAAGGTATTGATTGGAATTTAAAAGAGTTTACCACCATTTCAGATAAATATTTATCCTCCGAAAATAAAAAAGGACTAAAAGGAAGTTATTTTTCCAACACAGATTTAAAACAAAATCCGGTCTTCGAAAAACAGGATGAACAGATCAATTTTAAATGGACTTTATATTCTCCCGATCCCGAAAAGCTTCAGCCAGATAATTATAGTATTCGCTGGGCAGGTAAACTGGAAGTTCCGGATTCCGGGAAATATCAGTTGGGATTGCGTGGAAATGATGGTTTCAGGCTTTATCTTGACGGAAAATTACTCATTGATCAATGGGAAAAACTAAGTTATTCCACCAAAACAGTTGAACTGGACTTTACAAAAGGAAAGAAATATGATCTTAGGATTGAATTCCATGAAAATCGTGGGGAAGCCAATCTGGAACTGATCTGGAACTACGGCATGCACAATTATCAGAAAGATTTTAAAGAAGCTTTGAATCTTGCTCACAATGCAGACTATATTATTGTCACTGCCGGAATTCATGAAGGCGAATTTCAGGATCGCTCATCACTGAGCCTGCCGGGAAATCAGGAAGCATTTATTCATGAGGTTTCAAAATTAAATAAGCCAGTTACAGTTCTTTTAGTAGGAGGTTCAGCCATTAAAACAACTGCATGGAAGGACAAAGTAGGAGCCATCTTAGACATTTGGTATCCGGGAGAGGAAGGTGGAAATGCTGTGGCCAAAACACTTTTTGGGGCAGAAAATCCATCAGGAAAACTGCCTGTTACTTTCCCCATTGAAGAAGGCCAATTACCTTTAACTTACAATCACCATCCAACCGGGAGAGGAAATGATTATTATGACCTGAGTGGTGAACCACTATATCCGTTTGGTTTTGGATTGAGTTACACTACTTTTGAAATCTCCGGTTTACAGTTGAATAAAGCACAATATTCAGAAAATGATACAATCATAGCCAGAATAAATGTTAAAAATATAGGTTCAGAAACTGGAAAAGAAGTGGTTCAGCTCTATGTGAAAGACCTACTGGCTTCTGTTTCGAGACCCATTATTGAACTCAAAGGATTTCAGAAAGTAGAATTGAAATCCGGAGAATCAAAAACAATTACTATTGAAGTTCCGGTAAAGCAATTACAGTTTTTAAATGAAAAAATGGATTGGACAGTAGAAAAAGGAACATATAGGATCATGGTGGGTAATTCATCTAAAAACCTTCCTTTAAAACAAAATATTGAAGTTTTATAG	MRCISFKLAGVALLLNVVLTFAQKPLYKDPKQPIEVRVQDLLKRMTPEEKFWQCFMIPGDLDNVPKGQYSHGIFGLQVSAGNQGGGAAGQLLKYNAQEDAEKLVKKINAIQKYFVEESRLGIPIIPFDEALHGLVREGATAFPQAIGLAATFNPELMAQVSTAIAKESKLRGIRQILTPVVNLASDVRWGRTEETYGEDPFLTSVMGVSFVTSFENRGIITTPKHFLANVGEGGRDSYPIHWSKRYLEETHLIPFYNAFIKGKSRSVMTSYNLLDGRPSTANHWLLTQKLKKDWNFKGFVISDASAVGGANVLHFTAKDYDDASAQAISAGLDVIFQTEYKHYRLFMPPFLDGRISKERIDDAVSRVLRAKFELGLFENPYVSAKEIEELKKLNHKPLAEKTAAESFVLLQNNHQTLPVPEHVKKILVVGTDAVDARLGGYSGPGNKKVNILDGIKNYTENKEVEIIYSKGIDWNLKEFTTISDKYLSSENKKGLKGSYFSNTDLKQNPVFEKQDEQINFKWTLYSPDPEKLQPDNYSIRWAGKLEVPDSGKYQLGLRGNDGFRLYLDGKLLIDQWEKLSYSTKTVELDFTKGKKYDLRIEFHENRGEANLELIWNYGMHNYQKDFKEALNLAHNADYIIVTAGIHEGEFQDRSSLSLPGNQEAFIHEVSKLNKPVTVLLVGGSAIKTTAWKDKVGAILDIWYPGEEGGNAVAKTLFGAENPSGKLPVTFPIEEGQLPLTYNHHPTGRGNDYYDLSGEPLYPFGFGLSYTTFEISGLQLNKAQYSENDTIIARINVKNIGSETGKEVVQLYVKDLLASVSRPIIELKGFQKVELKSGESKTITIEVPVKQLQFLNEKMDWTVEKGTYRIMVGNSSKNLPLKQNIEVL	PGPT0019110_899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS003_00589	1446			hypothetical protein	ATGCCGGTTATATCCAAAATAAAACCCTTTTTCCTTTCCTCTTTTTTAATAAGTTCAATAGCATTTTCGCAGGCTCATAATGTGTCTGACGGCTATCAAAAGCCCGCAGATCCCTTGGTAGCTCAGAATCTGGAGCAATGGCAGGACATGAAATTCGGACTGTTCATGCATTGGGGAACCTATAGCCAATGGGGAATTGTTGAAAGCTGGAGCTTATGCCCTGAAGACGAATCATGGACACAGAGAAAACCTGAGCACGGGAAATCTTACTACGAATATGTGAAAAATTATGAAAACCTTCAGTCAACTTTCAACCCAACCCGGTTCAATCCTCAGAAATGGGCTGATGCAGCTAAAAAAGCAGGAATGAAATATGTGGTTTTTACCACCAAGCATCATGATGGTTTTGCCATGTTTGATACCCAGCAGTCAGATTATAAAATCACATCTCCCAAGACTCCATTTTCAAAAAATCCAAAAGCGGATGTAACGAAAGAAATTTTCAATACCTTCAGAAAAGAAGAATTTAAAATAGGTGCTTATTTTTCAAAACCAGACTGGCACTCTGATGATTACTGGTGGTCTTACTTTCCACCCAAAGATAGAAATGTCAATTATGATCCGAAGAAATATCCGGAAAGATGGGATAACTTTAAAAAATTCACCTTCAACCAATTGAATGAGATCACTTCCCATTATGGTAAAATTGATATTCTTTGGCTGGATGGAGGCTGGGTACGTCCTTTTCACACCATAGATCCTAAAGTAGAATGGCAGCGCACCATTAAAGTAGAACAGGATATTGATATGGATAAAATAGGGACAATGGCCAGAAAAAACCAGCCTGGGATTATCATTGTAGACCGTACTGTTCCCGGAAAATGGGAAAACTATGTCACTCCTGAACAGGCCGTACCGGAAAACGCTCTTTACATTCCCTGGGAAAGCTGTATCACGATGGGAGATTCTTTTTCTTACGTTCCAAATGATAATTATAAAACTTCTCAGAAGATCATTGAAACATTGGTTAAAATTATTTCAAGAGGCGGAAATTATCTCATGAATATCGCCCCGGGACCTAACGGAGATTATGATCTGGTAGTTTACGAAAGATTACAGCAGATTTCCAGTTGGATGGATATCAATCAGTCTGCAGTTTTTGCAACCAGAAGTATTGCGCCGTATCACGAAGGAAATTACTATTATACACAAAGCAAGGATCACCATACATTGAATGTATTTCATCTTGATGAACAGTCAGAATACCAGGCTCCGGCAGTTCTTACCTTTACTATTCCTGAAAATTTTAAACCAAAATCATTGAAAGTTTTAGGATTATCAAACAAAATTCAATGGAAGAAAGCCGCAGAAAATACCCTTGAAATCAAATTACCTGAAGAAAGGAAAGAACTGAAACATGCTACTGTAATTCAAATCGTTCAATAA	MPVISKIKPFFLSSFLISSIAFSQAHNVSDGYQKPADPLVAQNLEQWQDMKFGLFMHWGTYSQWGIVESWSLCPEDESWTQRKPEHGKSYYEYVKNYENLQSTFNPTRFNPQKWADAAKKAGMKYVVFTTKHHDGFAMFDTQQSDYKITSPKTPFSKNPKADVTKEIFNTFRKEEFKIGAYFSKPDWHSDDYWWSYFPPKDRNVNYDPKKYPERWDNFKKFTFNQLNEITSHYGKIDILWLDGGWVRPFHTIDPKVEWQRTIKVEQDIDMDKIGTMARKNQPGIIIVDRTVPGKWENYVTPEQAVPENALYIPWESCITMGDSFSYVPNDNYKTSQKIIETLVKIISRGGNYLMNIAPGPNGDYDLVVYERLQQISSWMDINQSAVFATRSIAPYHEGNYYYTQSKDHHTLNVFHLDEQSEYQAPAVLTFTIPENFKPKSLKVLGLSNKIQWKKAAENTLEIKLPEERKELKHATVIQIVQ	PGPT0018775_1543	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
BMS003_00590	900		COG1090	Epimerase family protein	ATGAAAATAATCATAGCAGGAGGAACTGGATTTCACGGCAAAAACTTAGAAAAATATTTTACAGAAAAAGGACATCAGGTCTACATTCTAACCCGAAATCCTCAACGTAAAAACGAAATCTATTGGGATGCTCAAACAATAGGTGAATGGAAAAATAGCCTTGAAAACGCAGATGTTCTGATCAATTTGACAGGGAAGTCTGTAGACTGCCGGTATCATGAGAAAAATAAACAGGAAATTTATTCCTCAAGAATCGACAGCACAAGAATCTTACAGAAAGCCGTAAACCTGTGTTCTGAAAAATCAAGAGTTTGGCTTAATGCCAGTTCTGCAACTATTTACGTTCATTCCGAAAAAAATCTCAATACAGAAGAAAATGGAATTATAGGAGATGACTTTTCTATGAATATCTGCAAAAGCTGGGAGAAAGAATTTTTTAAAGTTAAAAATGAAGAAATACGGAAAGTTGCTCTTCGGACTTCTATAGTTTTAGGGAAAAACGGTGGCGCTTTTCCGAAACTGAAAATGATTACAAAACTGGGCTTAGGAGGAAAACAAGGAAGAGGAAATCAAATGGTAAGTTGGATTCATATTGACGATTTCTGCAAAGCAGTGGAATGGATTATTCAACGTGAAACTATTTCAGGAGTTGTAAATCTAACCGCTCCGGCCCCGGTTTCCAATGAAAATATGATGAAAAAGCTGAGAAACAAAATGAGAATACCATTTGGGCTCAATGCACCTGTGTGGCAGCTGGAAATAGCTTCCATATTCCTGAATACAGAAACAGAGTTGCTGTTGAAAAGCCGAAACGTTTATCCGGAAAAGCTCATAAAAAATGGATTTCAATTTATCTATCCCGGATTTGAGGAAGCCATTCTTAATCTCTTGGAAGCCTAA	MKIIIAGGTGFHGKNLEKYFTEKGHQVYILTRNPQRKNEIYWDAQTIGEWKNSLENADVLINLTGKSVDCRYHEKNKQEIYSSRIDSTRILQKAVNLCSEKSRVWLNASSATIYVHSEKNLNTEENGIIGDDFSMNICKSWEKEFFKVKNEEIRKVALRTSIVLGKNGGAFPKLKMITKLGLGGKQGRGNQMVSWIHIDDFCKAVEWIIQRETISGVVNLTAPAPVSNENMMKKLRNKMRIPFGLNAPVWQLEIASIFLNTETELLLKSRNVYPEKLIKNGFQFIYPGFEEAILNLLEA	PGPT0014730_717	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
BMS003_00591	705			hypothetical protein	ATGAATTTTTTACAGGCAGAATGGCGAAAACTGGCCATCATCAATTATGAAATTGATCCTCAAATCTTATTGTCTTACCTCCCAAAAGGAACAGAACTCGATTTTTATAAAGGCAAATGTTATATAAGTCTTGTTGGGTTCATGTTTTTAAATACCAGATTACTAGGTTTTCCAATCCCTTTTCACCGGAATTTTGAAGAAGTGAATCTAAGATTTTACGTCAAGAAAAAAGAAAACGGAATCTGGAAAAGAGGAGTGGTATTTATCAAAGAAATTGTTCCCAAACCTGCATTAAGCTTTGTGGCGAATTCTATTTACAAAGAAAACTATCACACCATGCCGATGAAAAACCAGATCAATGAAAAAGAAAACGAACTTCTGATCCGGTATTCCTGGAAAGACAAAAACTGGCATTCCATTCAGATTATGGCAGAAAATACCGCAAAACCAATGGAGGAAAATTCCGAATTTGAATTTATTACAGAACATTATTTTGGGTTTACCAAAAAAGAAAATACAACCTCAGAATATGAAGTTTGCCATCCGAAATGGGATTGTTATACAGTAAAAGAACATCATTTAGAAATTGATTTTCAAAAGATCTACGGAAATGATTTTACATGCTTGAATCTTCAGAACCCCATTTCCGTAATGCTTGCGGAAGGCTCAGAAATCCAAGTCAAAACGAAGAAATACATCAGCTAA	MNFLQAEWRKLAIINYEIDPQILLSYLPKGTELDFYKGKCYISLVGFMFLNTRLLGFPIPFHRNFEEVNLRFYVKKKENGIWKRGVVFIKEIVPKPALSFVANSIYKENYHTMPMKNQINEKENELLIRYSWKDKNWHSIQIMAENTAKPMEENSEFEFITEHYFGFTKKENTTSEYEVCHPKWDCYTVKEHHLEIDFQKIYGNDFTCLNLQNPISVMLAEGSEIQVKTKKYIS				NA	NA	NA	NA	NA
BMS003_00592	477			hypothetical protein	ATGTCAACAATCTATTTAAATACAGTCATTAAAGCAGATATTCACTATGTCTTTGACCTGGCAAGGAATATTGATCTGCACCAACAATCCACCTCGAAATCCCATGAAAAAGCGATTGCAGGACGTACCTCAGGACTCATTGAAGAAAACGAAACCGTAACCTGGCGGGCAAAACATCTGGGAGTCTACCAAAATCTCACCACAAAAATTGTCAGCATGGAAAAACCTGTCCAATTCATTGATGAGATGCAGAACGGAGCTTTCAAATCTATGCGCCATCGACATATTTTTAAAATGGTAAATGGGAAAACACTGATGACCGATATTTTTGAATTCGAATCTCCGCTGGGTATCATTGGGAAATTATTTAATGCCATTTTTCTTAAAGGGTATCTCAGAAAATTTTTACTCAAAAGAAATGAAATGATCAAGACTGTTGCCGAATCTTCAACCCGTGACGGAATAGCCATTTTTTAA	MSTIYLNTVIKADIHYVFDLARNIDLHQQSTSKSHEKAIAGRTSGLIEENETVTWRAKHLGVYQNLTTKIVSMEKPVQFIDEMQNGAFKSMRHRHIFKMVNGKTLMTDIFEFESPLGIIGKLFNAIFLKGYLRKFLLKRNEMIKTVAESSTRDGIAIF				NA	NA	NA	NA	NA
BMS003_00593	663	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAATGATATACAACAATATTTTGACCACCTGCAACCCAGATATTACATCAATGAAATTGCATCTTTAGGGTTTACCAGGCTGTTCAGAAAGATGGCCGTTCAAAAAGTGAAAAGCTATGAAAATAAAAGAATTCTCGATTTGATGAGTGGACAGGGTGAAAATCTGGAATTTATACAGTCACACAATGAAAATACAGCAATTGTAGCACTGGATTTTTCTTCAGCAATGCATAGGAAGCTTGCAGAAACATTCAAAAATAGACTTTCAGTACAGCAGATCCAGAGAGATTTTTTTGAAAGCCAGCTTCCGGATCATTCTATGGATATTATCCTTTGCTCTTATGGAACAAAGACGATAGAAGAAGATCAGAAACCAATTTTTGCAGATAGACTGTCAAGGATTATTGACAAAAAAGGTGAAATCATCATCGTAGAATTTGTAAAACCAAAAACAAACTGGAGATTCAGCTGTGTGAAATGGTACATAGAAGTTCTTGTGACAAAAATTTTTGGATCCGAATTTGGAAAACTGTTTCATTATATCAACAAAAATGAAAGCCTTGAAGATCTTAAAAATCAATTTGTTAAAAACAGGCTTTCTATCATATCTCATAAAAGATACCTGGATCTGGTTGAAATTCTTCATGTGAAAAAAAACTGA	MNDIQQYFDHLQPRYYINEIASLGFTRLFRKMAVQKVKSYENKRILDLMSGQGENLEFIQSHNENTAIVALDFSSAMHRKLAETFKNRLSVQQIQRDFFESQLPDHSMDIILCSYGTKTIEEDQKPIFADRLSRIIDKKGEIIIVEFVKPKTNWRFSCVKWYIEVLVTKIFGSEFGKLFHYINKNESLEDLKNQFVKNRLSIISHKRYLDLVEILHVKKN				NA	NA	NA	NA	NA
BMS003_00594	945			hypothetical protein	ATGAAGCGTTTTTTCAAAAAATACTTTTATTTAAGCCTGTTTCTAACAGTTGTTTTAATTGTTGGTTTATGGTTTTTTCTGGTTGCTAAAGGCGAGTATGGAGTAACCTTATTTTTCACTATTCCGGTTTCTATAGGATTTATCATTGGATATGTAAAATATTTTAAAAGAATCGGATTGATGAATGTCTTGAAAACAATTTTAAAAATAGTTTTAGGATTAGTCATTTTCTCTTTAATCTTAATAGCAGCTGGAACAGAAGGGGCTATTTGTATTATTATGGCGATCCCATTTATTGGCTTTGCTATGTTCGTGGGCTTTACTATTGGTTTTATCATTGGGGTTCTTGATGAAAAAAGACATACAGGAAGTGTTATAGTATTCATTCTTTTTATCAACCCTGCTTCTTATATTTTTGATACCTATACAAAACCTATTGAGGAAACTATTGCGACAGAAATGATTGTAAACAATTCTGACGAAAAAGTATGGAAACTTTTAAATTCACAAATCAATTTCAATGCACCCGATTTTATTCTTTTTGAAAAAGGAGTCAGCTATCCAAAGAATATAAAACTGATAAATAAAAACGGAAAATTGGGGTATAGCTGCCAAACTAACAATGATCAACTACAGCTTAATATTGATGAGTTGATAGAAAATAAAAAAGTGAAATTCTCTCTGGAAAATCAGACCGTTCCCATGAAAGAAATAACACCTTATGAAAATATTGATGCCAAACATTTACATGATTATTTTATTGTGAAATATGGCGAAATTACATTAAATAAGCTATCAGATGATAAAACAAAGATCATTGCAAAAACAAAGTACAGTTACAAAATAGCACCCACATGGTATTGGAAAAAATGGTCAGGCTATATTATTGACAAAATGCAATCTCATGTATTACAATCTATAAAAACACAATCTGAAAATGAATGA	MKRFFKKYFYLSLFLTVVLIVGLWFFLVAKGEYGVTLFFTIPVSIGFIIGYVKYFKRIGLMNVLKTILKIVLGLVIFSLILIAAGTEGAICIIMAIPFIGFAMFVGFTIGFIIGVLDEKRHTGSVIVFILFINPASYIFDTYTKPIEETIATEMIVNNSDEKVWKLLNSQINFNAPDFILFEKGVSYPKNIKLINKNGKLGYSCQTNNDQLQLNIDELIENKKVKFSLENQTVPMKEITPYENIDAKHLHDYFIVKYGEITLNKLSDDKTKIIAKTKYSYKIAPTWYWKKWSGYIIDKMQSHVLQSIKTQSENE				NA	NA	NA	NA	NA
BMS003_00595	411			hypothetical protein	ATGGCAACAACAGTTTTAACCGCAACGTATAATTTTTCAGCGTACATGATCTATTTACCAATCGTAATTACGCTTACCGTATTGGTGTCCCAGTTTTTATTTAAGAACTCAAAAACATTCATGATTGATATTTTTCATCAGAAAAAAGACATCGCTATGGCAACTAATTCCCTTTTTAAAATAGGTTTTTACCTTTTAAATCTGGGGTTTGCTCTTTGTATCATTGAATTTTTTCAAATTGAAACTGTAGAAAGATTGGTGGTAGCTCTGAGTAAAAAGATTGGTGGATTTTCAATTTATTTAGGTGTAATGATGCTTCTAAACCTATTATTATTCCTGAAAGGACGTAAGCATGCATTGAGAAAAGAAAAAGAAGTAGGTGATCAAAATTCCGATTTTGAAAGGAACTGA	MATTVLTATYNFSAYMIYLPIVITLTVLVSQFLFKNSKTFMIDIFHQKKDIAMATNSLFKIGFYLLNLGFALCIIEFFQIETVERLVVALSKKIGGFSIYLGVMMLLNLLLFLKGRKHALRKEKEVGDQNSDFERN				NA	NA	NA	NA	NA
BMS003_00596	345			hypothetical protein	ATGTTTAATATTGTTTCATATGTTATTTTCCTTTGCATCAGTTCATACATAACAATTGATGTAGGAAGAAGATGTTACCACGAAGGCAAAACCTATCTGAAATACTTACTTCACGATGATGATATTTGTCTGACAATTAACAGGATCCTCTTAGGATGTTATTATTTAGTAAACCTTGGTTATATCGCGATAAGTCTTACCACTTGGAACACCATAAACAACATAGAAGATATGATAACGGTTACAGCAACAAGAGTTGGGTGCATCATTTTAATTCTCTGTTTATTACATTATTTGAACATTTTCATTCTTTACTTTCTTAGAAATAAATTAACCTTAAAATAA	MFNIVSYVIFLCISSYITIDVGRRCYHEGKTYLKYLLHDDDICLTINRILLGCYYLVNLGYIAISLTTWNTINNIEDMITVTATRVGCIILILCLLHYLNIFILYFLRNKLTLK				NA	NA	NA	NA	NA
BMS003_00597	504			hypothetical protein	ATGCAACTTTCAGAAGCAAAAGAAAAATATATTCAGACCTGGGGAACCTTTGCTACCAATTGGGGAATCAACCGTACGATGGCACAGGTGCATGCGCTGCTTTTGGCAAGCGGCAGACCCCTTTCTACTGATGAAGTGATGGAACAGCTTGAAATCTCAAGAGGGAATGCCAATATGAATCTTCGTGCCCTGATAGACTGGGGAATTGTGAAGAAAGAATTTGTGAAGGGTGACCGTAAAGAATATTTTGTAGCGGAAAAAGATGTCTGGTATCTGTTCAAACAAATTACGAAAGAACGTAGGAAAAGAGAAATAGAACCTGTCATTTCCTTTCTCGAAGAATTAAAAAATATAGAGGATAAAGATTCGGAAGAAGCTCAGGAATTTATTAGGCTGATGAATGATTTCAGTTCTGTAACCGGAAAAATCAATAACATCATGGATCTGGCGATAAAAAGTGATGATCATTGGCTGGTAGGGAAGATTACCAATCTGCTGAAATAA	MQLSEAKEKYIQTWGTFATNWGINRTMAQVHALLLASGRPLSTDEVMEQLEISRGNANMNLRALIDWGIVKKEFVKGDRKEYFVAEKDVWYLFKQITKERRKREIEPVISFLEELKNIEDKDSEEAQEFIRLMNDFSSVTGKINNIMDLAIKSDDHWLVGKITNLLK				NA	NA	NA	NA	NA
BMS003_00598	4524			hypothetical protein	ATGAATTTCAAATTTATATCAACCTGTATTATCCTTCTGAGCATATTATTTTCAAAGGTTTCTTTGAAGGCTCAGCAGTCATTTCAGGATTTTGAGAAAGAGAAAACCTATATTCAAACCAACCATGTTTTTTATAAACCCGGTGAAGAAATGTATTTTAAAATATACGTGGTAAAAGGCAATAACAACCTTCCGGCAGAAGACAGTAAGGTTGTTAATTTTGAAATCATTGATCCGGCGGGAAGTGTCGTGAAAAAATTGAAATATGAAATTACCAATGGTTATGCTCAGGGATATTTTTATTTTGGTGAAGACATGAAAGGTGGAATTTATAAAATAAGAGCTTTTACCAACTGGATGCAGAATGAAGAAGGGAAAAATGCCTTCGAGAAAGAAATTATCCTCCAGAAAATAGTATCACCCAGAATTCTAATGAAGCTGGATTTTCCTAAAAAAGGATATGGCTCTGGCGATGAGGTGAGTGCAGATTTTTCGATGCGAAGTCTCAGTAATCTTCCCATTCCTTTTTACGAAGCTGTTTATACCGTAATGCATAACGGAGAAACCATTTCGGAAGGAAAAATCATTACCGATAAAGAAGGAAAAAAACTCTTGACTTTTAAGCTTCCTGATACTTTGAAATCCTCCGATGCCCTTTTGAATATCAAAGTGAATTTTGACGGATTTACCGAATCTATTTCCAGAAATATCCCCATTGTCCTGAATAACCTGGATGTGAAATTCTTACCCGAAGGAGGAACTTTTATCAATGGAATAGAACAAAATATTGCCTTTAAAATCCTTGATGAATTTGAAAAACCCGTAGATGCTGTTTTGGCTGTGTACAATCAGAATCATGAAAAAATAAAAGAAATTTCAGCCTATAATTTCGGGATGGGAAGCTTCCGGTTTATTCCTAAAAAAGGAGAAACCTATTATGCAAAAGTGCTGAAACCGGAGAATATAGCTCAGACTTTTAATTTTCCGGCCGCAAAAAATGAAGGAGTGGTTCTGAACATTCAGAATGAAAACAAAAAACTGGCTTTTACCATCATTTCAACACAGGAAAAATCAATTATCCTAAAAGGAAGTTTCAGAGGAAAAGAATTGTATAGCAAAGTGATTTTGCTGAAAAACGGTACGAATTCTCTGGAAATTGAGGAGAAAGATTTTCCTGTAGGCATCTGCAGGTTTACAATTCTGGAAAATAATATTCCATTGGCAGAACGTGTGGTTTTCACCAATAAAAAGAATCAGCTCAATATAAAAATTACCCCTGTAAAAAAGCATTACCAGCCAAGAGAAAAAGTCATTCTGAATATTGAAACTACCGATGAAAACAGCAAGCCCATTCCTGCAAATCTGGGATTGAGTGTGGTGGATGATAAACTTTGGACGTACGCAGATGATAAACAGAATCATCTCATCTCATGGCTCCTGATGGACTCTGAGCTGAAAGGGAAAATTGAAAAGCCTCAGTTTTATTTCGATAAAAAAGAAGAAAAAGCAGATAAAAGCTTAGATCTTGTGATGCTGACCAACGGGTACAGATACTTTGAACTGATCCCGGAAGTTCTGGAGACCAGCAAATACAAATACCTTCCGGAAAAGAAAAATACAATTTATGGAGTAGTAGAAGATGAGAATAAAAAGCCAGTGAAAGCAGATGTTTTCCTTGTAGGCACTTATGATAAAAAGATTCTTAAGCAGACCGTTGCAGAAAACGGAAAGTTTTATTTCTCAGATTTAAATGCAGGAAATTCATACAAAATTATTGCAAAATCTTATCAGCCTAAACAAAAGCTGAACATCAGAATCTTATCTTATAATCTGGATATTAATCCTTTAGAAAAACAAAAACTGTCCAATATAGATGTAGAAGAAATAATAAGAGAAGCAGAAAAAAAGGAAGAAACAAAAAAAGAATACAGAAACAATACCAGCCAGGTAAATCGTCCGGGAAGATCAAAAACTGATACAATCAGTAAAAATAAAAGTATTGAAGAGGTCGTAGTATTAGGATATAGTTCAATGAGCAAGAATAAAAGTACGATGGCCTCTACCTCCATAACATCTTCTTTAGTAACTCAAAACCCGAATATAACTTCTCTATTAAGTGGAAAAGTGGCAGGATTAACGGTAACTTCTTCTGGAATTCCCGGAGCAGGAACCCCAATTAACATCAGAGGTGCCGCGTCTATTGCCAATAAGGCTCCATTAATAATTGTAGATGGAGTTCCTGTAGAAAATTTTAATACCATTATCAACCCGAATGATATCAACAGCATTACCGTTCTGAAAGACGCTGCAGCCACCACCATCTATGGGAGCAGAGCCTCAAATGGGGTGGTGATTATTACTTCCTATAAAAATGGCAGCTCACAAATCAAATGGGATATCACTCCGGAATCTTATATTGCTGTAGAAGCTGTGCCATATGGTAAACTAACATCATATGCCGGTACAAGAAAATTTGCTTATCCGGAATATGAAACAACCAACACTTCCTACCGTTTCGATTACAGAGAAGCACTTTACTGGAATCCGGTAGTAGAAACCGATAAAAACGGAAAAGCTAAGGTGGAGTTTTACAATTCAGATGCCAATTCCACCTTTAGAGTAATAACAGAAGGTACTTCCGCAACGGGACTTTTAGGAAGAGATGAAACTACCTATGCTGCACAGAGTCTTATTTCTATTGATGCTAAAATTCCGCAGTACCTGACGAGAACTGATCAGATGACAATTCCTGTAGTCATTAAAAATAACTCTCCCGAAATCCGTAAAATGACCATGGATGTTATTGTTCCCAATTATGTAAAACTAGTCAGTTCTGACAGTATTATCACTCTGAAACCACTGGAATCAGGAAGACTGTTTGTCAAAATTCAGACCGATGAAGTGATCAATTCTGATATCCAGTTTTCTGTGAGATCAGGAGATTTCAGAGAAACCATGATTCTTCCGTTTAAAGTAGAAGAGAAGGGATTCCCACACCGTTTTTCTATCATTAATAATAAAACAGAAGATCTTAAAATCAATATACCGGAATATATCAACGGAAGCCTGTATTCGTCCTATTATGTATTTGAAAACACAGCTTTGAAACTATTTGAAGATCTGGAACAGCTGAAAAGAGAGCCTCACGGATGCTTTGAACAGCTTTCCTCAACAGTATATCCGAATATTTTTATCCTGGATTATTTAAAGTCAAATAAAAAAATAGATACAGCAACAGAAAATAAAATTGTTAAAAACCTGAAAAAAGGCTTCCAGAAAATGCTGAGTTATAAAAATAAAGACGGAGGTTTCGGATATTTCAGTTCCGAAGAATCAGATGTTGCACTTTCCGCATTTGCACTATTGGAGTTTACAGATTTAAAGAAATATGTGAAGCCGGACGTGAAGATTATTCAGGGACTTTCCTCATTTATTTTATCCAGAAAAAGCGGAAATGGATTGTTTGAAGTAAGAAGACCCTATGAATCCAAAAAAGCATATTCCGAATATTCATGGTCTAGAAATATGTACGTTGTATATGCCTTATCTAAATTGGGTTTCAAAAATGAAATTGAAGATACCTTTCAGGTAACGCTGAAAAGAGCTTTGGCTACAAAGGATACGTATCAGCTGGCTTTGCTTGCCAATGCAGCTGCCAATCTCGGAAAGCAACAGGAGTATGACGATCTGATGAAAATTCTGGACAAGCAGTATGAAACCGGGAAGGTAAAATCTGAAATTACTTTTACAGGTTCGTGGGGAATATCTGCGGATGCGGAAACGCTTTCATTATATATTATGGCGCTTCAGAAAGATGAAAAATTAAACCAGCTGAAAATTGCAGAAGCTGCAGATCAGCTTATTGGTTTTAACGGTTATTTTGGATTCGGTTCTACTCAGGCAACAACATTAGCAGTGCAGGCGCTGTCAGATTTCTTTTCCAAAAACGAGAATTTATATGGAACTGAAAAGCCGATAATCAAAATTAATCAGGCACAGACTTCAACGTTGATGAGCCTTTCTTCCGCATTTAAAGTTGGAGAAAATAAAATTAGTGTTCGTTATCCGACTCAAAAAGGATTGCCTTATAAACTGGAATACCAATATTACACCTTACAGGCTCCGGAAAGCAAAGATATTCCGGTTACCATGGAAACAAAACTGAAATCCGGAACTTCAAAAGTAGGGGAGACCAACAGAATGACCGTTACCATTAAAAACAAAATAAACGGTCAGCTGCCAATGACAATAGCGAAAATAGGCATTCCGGCGGGACTTACCCTTCAAAATGCATTATTGAAAGATCTGATTGATAAGAAACAAGTCTCTTACTATGAGATTTTCGACAATTATCTGGTGTTGTACTGGGAGCATTTCGAAGCTGAGGAAACAAAAAACATTAATCTTGATCTGAAAGTAGAATTCGCAGGAACTTATACCGGGAAATCCAGTAATGTATATCTCTACTATATGCCAGAAGCCAGGTATTGGAACCAGGGAATAACCACGAAAATAGAACCTTAA	MNFKFISTCIILLSILFSKVSLKAQQSFQDFEKEKTYIQTNHVFYKPGEEMYFKIYVVKGNNNLPAEDSKVVNFEIIDPAGSVVKKLKYEITNGYAQGYFYFGEDMKGGIYKIRAFTNWMQNEEGKNAFEKEIILQKIVSPRILMKLDFPKKGYGSGDEVSADFSMRSLSNLPIPFYEAVYTVMHNGETISEGKIITDKEGKKLLTFKLPDTLKSSDALLNIKVNFDGFTESISRNIPIVLNNLDVKFLPEGGTFINGIEQNIAFKILDEFEKPVDAVLAVYNQNHEKIKEISAYNFGMGSFRFIPKKGETYYAKVLKPENIAQTFNFPAAKNEGVVLNIQNENKKLAFTIISTQEKSIILKGSFRGKELYSKVILLKNGTNSLEIEEKDFPVGICRFTILENNIPLAERVVFTNKKNQLNIKITPVKKHYQPREKVILNIETTDENSKPIPANLGLSVVDDKLWTYADDKQNHLISWLLMDSELKGKIEKPQFYFDKKEEKADKSLDLVMLTNGYRYFELIPEVLETSKYKYLPEKKNTIYGVVEDENKKPVKADVFLVGTYDKKILKQTVAENGKFYFSDLNAGNSYKIIAKSYQPKQKLNIRILSYNLDINPLEKQKLSNIDVEEIIREAEKKEETKKEYRNNTSQVNRPGRSKTDTISKNKSIEEVVVLGYSSMSKNKSTMASTSITSSLVTQNPNITSLLSGKVAGLTVTSSGIPGAGTPINIRGAASIANKAPLIIVDGVPVENFNTIINPNDINSITVLKDAAATTIYGSRASNGVVIITSYKNGSSQIKWDITPESYIAVEAVPYGKLTSYAGTRKFAYPEYETTNTSYRFDYREALYWNPVVETDKNGKAKVEFYNSDANSTFRVITEGTSATGLLGRDETTYAAQSLISIDAKIPQYLTRTDQMTIPVVIKNNSPEIRKMTMDVIVPNYVKLVSSDSIITLKPLESGRLFVKIQTDEVINSDIQFSVRSGDFRETMILPFKVEEKGFPHRFSIINNKTEDLKINIPEYINGSLYSSYYVFENTALKLFEDLEQLKREPHGCFEQLSSTVYPNIFILDYLKSNKKIDTATENKIVKNLKKGFQKMLSYKNKDGGFGYFSSEESDVALSAFALLEFTDLKKYVKPDVKIIQGLSSFILSRKSGNGLFEVRRPYESKKAYSEYSWSRNMYVVYALSKLGFKNEIEDTFQVTLKRALATKDTYQLALLANAAANLGKQQEYDDLMKILDKQYETGKVKSEITFTGSWGISADAETLSLYIMALQKDEKLNQLKIAEAADQLIGFNGYFGFGSTQATTLAVQALSDFFSKNENLYGTEKPIIKINQAQTSTLMSLSSAFKVGENKISVRYPTQKGLPYKLEYQYYTLQAPESKDIPVTMETKLKSGTSKVGETNRMTVTIKNKINGQLPMTIAKIGIPAGLTLQNALLKDLIDKKQVSYYEIFDNYLVLYWEHFEAEETKNINLDLKVEFAGTYTGKSSNVYLYYMPEARYWNQGITTKIEP				NA	NA	NA	NA	NA
BMS003_00599	2769			hypothetical protein	ATGAAAAAGAACTATTTGCTGTTATTGCCGTTTACCATTACTATTTTGCAGGCGCAAAATTCACAATTATATTATTTCGGAAAATTTTTAACATCTAAAAATAAAGCGCAGAATTTTTTGAAGATTCATAATAAAAACAGTGGAGTTTATGAGCTTACTGATGATAAAGGATTTGCAATTATCGCTGCCAAACCCTACGATACACTCGTTTGGAATCAGGGGAAAAATACCCATGTAGTTGCCACCTATGAGCTGAGAGAATTAAAATCGATTCTGGAAAACCAGACGGCAAAGATAAGTGTAGAGAATATTTACAGCAAAGCTTATGACAGCCTGGTTTCAAAAGAGACTAAAGATGAGTTCAGTATTGAAAAAGCGAAGACCCGTTTAAGTAAAAATTCCTATCCGTATTTTGATAAAGTAAGAAAATTAAGACAAAAAAATGACAGTATTTATATCTTAAAAAATCTTGATCAGAGAACATTCGTGTTGAATGGAAGCTTTACCACCTCTGTGGATATTAAAAACAGAAATGCCATTCCGGGGACTCAAAATAAATATGTGCAGGGAAGATCCGAAAATGGAAACATAATCTGGAAAGGTCCTGAAACCAATGAAATGTTCAGTTTCGGACCTGATATTTCTACATTGGGATTTAGTGGGTTGCCTTATGAATACGACCAGAACGGAAGTCTAATCCCCTGGGTTAGCGGACTTCATCATGCACAAAAATATAATAACAACCTTTTTAAAACAACGACGGGATATAATAACCAACTGAATGTGAGTGCTTTTATAAAAGAAGGAAGCAAAGAAAAAGTACGCCTTTCTTTCAATATAGGACAGCAAAAGAACCAGATGTATTTCATAGATCAGTTTGATATTGCTAATACTTTTAAAGCAAAATTGGATACAAATTTTTCAGGATATTTTATAAATCTTGCGTTTAATTACGAAGAAGATAAAGCAACCAATACCAATAGAATAGGATTGTTCAACAGAACCTATCAGAACTCATTGCTTACACCTATATCTTTTTCAAATGAACAAAATGCTTTCCTGAGTAATGGCTTTCAGAGAAGTTACAGTCAGTATGCAGACAATCCTTCCTTTCTTTTTGAACAGGACGGCAAATATCGGTATCAGAATCGGCAAAGACAGTTTAGTCTTAATCTGGTTAAAAACTGGGGAGATTTCAGATTAAATCTTAATCAGTCTTATGAAAATGATAATATCACAAACCGGGATCAGTATAAACCTTCCACTTATGGCTTTGTCAATGGATCTTTTAACGAAAGGACTCAGAATAACAGTTTGTACCATTCTAATCTGTTGGGAACGTATACATTGGGGGATTATGACTTTAAAAATACATTCAGTCTGAATTTCATTTTAAACGATAGAAAATCAGATGTTTATAACAGTATAATGAATCAAAAATCAATCTATCAGAGAACTTCACAGGATCATATTTTTAATTATAATATGGAGATTAATGATTATGATTTTGAAGCAGGTTTTAACCTCGGAAATGCATTTTATATCTCTAATACCTCCCTTAAAAATAATTACTGGCTTCCAAAAGCTAACTTCTATGTAAAATTCAATGATATCTTTAATTGGAATAATTATGATTTCAAACTGCTTGGAAGTTACGTCCAATTAAGTGCTGAACCTGAAATTACCAGATCTTATGCATCCTATGCCACCACATTACTGAGTGCACAAAACTATAACCAGTATTTCCCTGTACAGGAAGTGGAAAGTTTCAGAAATTTATCCAACATCAACACCAAAGAATGGAAAATAGGAGCCAGATTAAACATTGGCTATAACGTAAGTGTAGACGGAGAGTATTTCAATAAAAAAAATACAGACGATGTATTTCCTGTTTTTGAAAACAATCAGTTAAGATTAAAAAATATTGCAGATCATACATACAGTGGTTACGAATTCAATTTTGCCTATGAACGTTTGCGTTTGGGATATGATATGCATACCACCCATAAAATTTCATTTTTTAAATATAAAGACATTGTAGACCGGGTAGCTCCCGGATATCAGGATTGGGCAGTTTCAGGGTTTAAAGACATTTATAAAACCCTGTCGGAAGGGCAGATTCTGGGAGCTGTAATGGGAAGTTATTTTGAAAGAAATGCTACCGGACAATTGATTATTGATGAATTCGGATTTCCTAAAAAAGCATCCGGAATGAAGATTATTGCTGATCCTACACCGGATTTTGTGATGAAATTCAATCATAATTTTGTGTATAAAAACTTTTCTTTAGATATCAATTGGGAGTGGAAAAAGGGCGGCCACCTCTGGAACGGAACCCAGGCAGTTCTCGACTATTACGGACGCTCTGACAACTCCGGTGAAGAAAGGAATATTAAAAATTATGTTTTTGGAGGCGTACAGGCGGATGGAACAGCCAATCAGATTCCCGTAGATTTCTATGATCACAGCCGGAATGTTCAGGAAAACAGATGGTCGAGGTATGGCTATCTTGGTGTGGCGGAAAACTATATTCAGAAAGCTGATTACATAAGAATCAACAATATTTCTCTATCTTCTGATTTTCCGATTAACTATAGAAAACAGAATCTCAGACTGACTTTTTATGTAAATAATATAATGCTTTGGCAGGCGAATAAAGGTGTAGATCCCAATCAGAATTTTTATGATCTGAACAACGGAAGAGGGTTGGATTTTTTTAATCTACCGTCTTTTAAAACTTTTGGATGCATTGTTTCACTTAGATTTTAA	MKKNYLLLLPFTITILQAQNSQLYYFGKFLTSKNKAQNFLKIHNKNSGVYELTDDKGFAIIAAKPYDTLVWNQGKNTHVVATYELRELKSILENQTAKISVENIYSKAYDSLVSKETKDEFSIEKAKTRLSKNSYPYFDKVRKLRQKNDSIYILKNLDQRTFVLNGSFTTSVDIKNRNAIPGTQNKYVQGRSENGNIIWKGPETNEMFSFGPDISTLGFSGLPYEYDQNGSLIPWVSGLHHAQKYNNNLFKTTTGYNNQLNVSAFIKEGSKEKVRLSFNIGQQKNQMYFIDQFDIANTFKAKLDTNFSGYFINLAFNYEEDKATNTNRIGLFNRTYQNSLLTPISFSNEQNAFLSNGFQRSYSQYADNPSFLFEQDGKYRYQNRQRQFSLNLVKNWGDFRLNLNQSYENDNITNRDQYKPSTYGFVNGSFNERTQNNSLYHSNLLGTYTLGDYDFKNTFSLNFILNDRKSDVYNSIMNQKSIYQRTSQDHIFNYNMEINDYDFEAGFNLGNAFYISNTSLKNNYWLPKANFYVKFNDIFNWNNYDFKLLGSYVQLSAEPEITRSYASYATTLLSAQNYNQYFPVQEVESFRNLSNINTKEWKIGARLNIGYNVSVDGEYFNKKNTDDVFPVFENNQLRLKNIADHTYSGYEFNFAYERLRLGYDMHTTHKISFFKYKDIVDRVAPGYQDWAVSGFKDIYKTLSEGQILGAVMGSYFERNATGQLIIDEFGFPKKASGMKIIADPTPDFVMKFNHNFVYKNFSLDINWEWKKGGHLWNGTQAVLDYYGRSDNSGEERNIKNYVFGGVQADGTANQIPVDFYDHSRNVQENRWSRYGYLGVAENYIQKADYIRINNISLSSDFPINYRKQNLRLTFYVNNIMLWQANKGVDPNQNFYDLNNGRGLDFFNLPSFKTFGCIVSLRF				NA	NA	NA	NA	NA
BMS003_00600	1911			hypothetical protein	ATGAAAAAAATTGTAATAACCATGTTAGGGCTTGCCGCATTGACAAGCTGTAAAACTCAAAGAAACACTGAAACATCTGGTGAACCAAAGATTTACAGTATTCGGAAAGATAAGGATCAGGATGGAATACCTAATAAACTGGACAAATGTCCTGATATTGTAGGTCCGGTAGAAAATGAAGGCTGTCCGTGGGTAGAATCGGATGGAGACGGTGTCATTGATAAAGATGATGCATGTCCTACAGTACCCGGACCTCCCGAAAATAATGGCTGTCCATGGCCGGATACAGATGGAGACGGTGTTCTGGATAAGGATGATGCCTGTCCTACAGTTCCGGGAATGCCGGAATATAATGGGTGTCCGAAACCAAAGTCAGTTACTGCAATGGAAGTGTCAAGTATCAGATCAGAGAGAGTCTATGAATCAGGAAGAGTTTACAATAATCAGGTTGAAGATAAAAAAAAGGATCAGAAGCCTGAAAAAATCGTTAAGAATATAGATTATAATAATGAAGAGTATGCAGGATTTGTTGAAAATGCATTTGAACTTACCAGCCGCCAGCCGCTTTCTACTTTTTCCATTGATGTAGATAATGCATCCTATTCCAATGTCAGAAGAATGATCAGCTATGGAAATAAAGTAGATCCTAATTCAGTGAGGGTAGAAGAGATGATCAATTATTTTAAATATGATTATCCCCAGCCTGAAACAGGTAATCCTTTCTCGATTAATACTGAATATGGTAATTCCCCATGGAATCCTAAGCATAAGTTACTTAAAATAGGCATTCAAGGAAAGAATATTCCGATGGATAAATTGCCTGCATCTAATATTGTTTTTCTTATTGATGTGTCAGGTTCAATGAGTGAGGAAAATAAACTGCCTTTGCTGAAGTCTTCTCTTAAAGTTTTATTGAAACAGCTCAGACCTAAGGATAAAGTAGGAATTGTAGTATATGCAGGGAGTGCAGGAATGGTACTTCCCCCTACATCTGCAGGAGAACAAAACAAAATTATTAAAGCATTAGATAATCTTCAGGCAGGAGGAAGCACTGCAGGTGGGGCAGGAATTGAGCTGGCCTATAAGCTAGCTAATGAAAACTTTATCAAGGGAGGAAATAACAGAGTTGTTCTGGCAACAGACGGAGACTTTAATGTAGGAGCTTCTTCCACTGCCGATATTGAAAAACTGATCACAGAAAAAAGAAAAACAGGGATCTTTCTTACCTGTCTTGGCTATGGAATGGGTAATTATAAAGACAACACCATGGAGACCCTTGCAGATAAAGGAAACGGAAATTATGCCTATATCGATAATATGCAGGAAGCCAATAAATTTTTGGGAAGAGAATTTGCAGGAAATATATATACCATTGCCAAAGATGTGAAAATTCAGATTGAATTTAATCCTAAGTTTGTAAAATCTTACCGTTTAATAGGATACGAAAACAGGAAACTGAGAAATGAAGATTTTATCAATGATAAAATTGATGCAGGAGAATTGGGAAGCGGGCATACCGTTACAGCTTTATATGAGATTATCCCGACAAACGTAGATTCTGAATTTATTCCGAAAGAAACAAAATTAAAATACTCTGTAACTTCTAAGAAAAAGAACTTTGGAAATGAAATGGCAACAATCAAGTTCAGGTACAAAAAACCTGATGGAGACAAGAGCATGGAGATAACTAAAGTGATTAAAAAAGAAGATAAATCTTCAGTAAGTCCGGATTTTAAGTTTGCTTCCTCAGTAGCTTGGTTCGGTTTAGTACTAAGAAGCTCAGAGCTCATTGCAAAAAAAGATCTTTCCGATATTGAAAGCCTTGCTAAACAGGGGGAAAGTAAAGATGATGAAGGCTACAGATCAGAATTTATAAGGCTGATAGAGAGTTATAAAACAATTCAAAAATAA	MKKIVITMLGLAALTSCKTQRNTETSGEPKIYSIRKDKDQDGIPNKLDKCPDIVGPVENEGCPWVESDGDGVIDKDDACPTVPGPPENNGCPWPDTDGDGVLDKDDACPTVPGMPEYNGCPKPKSVTAMEVSSIRSERVYESGRVYNNQVEDKKKDQKPEKIVKNIDYNNEEYAGFVENAFELTSRQPLSTFSIDVDNASYSNVRRMISYGNKVDPNSVRVEEMINYFKYDYPQPETGNPFSINTEYGNSPWNPKHKLLKIGIQGKNIPMDKLPASNIVFLIDVSGSMSEENKLPLLKSSLKVLLKQLRPKDKVGIVVYAGSAGMVLPPTSAGEQNKIIKALDNLQAGGSTAGGAGIELAYKLANENFIKGGNNRVVLATDGDFNVGASSTADIEKLITEKRKTGIFLTCLGYGMGNYKDNTMETLADKGNGNYAYIDNMQEANKFLGREFAGNIYTIAKDVKIQIEFNPKFVKSYRLIGYENRKLRNEDFINDKIDAGELGSGHTVTALYEIIPTNVDSEFIPKETKLKYSVTSKKKNFGNEMATIKFRYKKPDGDKSMEITKVIKKEDKSSVSPDFKFASSVAWFGLVLRSSELIAKKDLSDIESLAKQGESKDDEGYRSEFIRLIESYKTIQK	PGPT0014015_1079	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00601	2400			hypothetical protein	ATGGAAAATAATCATATAGATCAACAATTCAATGAAGCGTCCAAGCTTTCAGAAGAACCAACCGTTTTTCCTGGTTTTGAGAAAGTATGGGGAAAAGTTGAAGAGAAATTAGATAAAAAAGAAGAGAAAAAGAGAATTATCCCACTTTGGCTGCCGTATGGTATTGCTGTAAGTCTGGTGATTGGCCTGGGAGCTTTTTATTTTATGAATAAAAAAGAAGTTGTAGAGCCTTTACAGCCTGTGATAGCAGAGAATAAAACATCAAGAGGTCCTATTAACAGAACCGATATTGCAAAAATAGACAATACCATAAAAGAGAATATCAAAAAAGAAGAATTACCCGTATCTGTTCCGTTGGTACACCAATCTTCGCCGGTGGCAGAAATAGATTCACATATGTCTTTACCTGGTCGCAATATATCATCTGTAGCAGCTCCTGATAGAATAACAGCATTTCTACCTCAAATATATCATGATACCTTACAAACAAAACAGATTGAAGAGGTTGTAGTTACTGCATTTGGTATTAAAAGAAGAGAGAAATCTGTGACAGCATCCAGTACCGTTACAAGCACTGTCAGTAATTTGCCACAGCCTACAGCTTATTCTTCATTGCAGGGAAAAGTTGCAGGGATACAAATTGGCACAACGGGAGGAAATCAGGGGACTAATATCGCTCCGGGATATATTAATATTAAAAATCAGTTGGCGATTAGAGGTGTTGCTTCCATAAAATCGGAAAATAAGGCTTTGTATATTGTGAACGGAATGGTGACAAAAGAGGAAGATTTCAGAAAATTAGATCCTAATACGATTCAAAACATCAATATCTTAAAAGGAAGTTCTGCTACGGCAATTTATGGCAGTAGGGGTGCAGACGGAGTCATTGTAGTGACTACCAAAGATCTTTCCAGAAGAGAAAGAAAAAAATTGAAGAAACTTCAGGAAAAAATCAATAAGCAACAGCAGATTACACCGGTTACTCAAAATAATGAAAGTTATGATGCTTTTGTTGAAAATCCTTTTGAGCTGACACGCAGCCAACCGTTGTCTACCTTCTCCATAGATGTTGATAATGCTTCTTATTCCAATGTGAGAAGAATGATCAATAATGGTCAGACAGTTGATAAAAATGCAGTGAGAATCGAAGAAATGATTAATTATTTTAAATATGATTATCCTCAGCCTAAAAACGGAGATCCTTTCTCAATCAATACAGAATACAGTGATTCTCCGTGGAATTCTAATCATAAATTACTTAAAATAGGACTTCAGGGAAAAAATATTCCGATGGATAAACTGCCGGCATCCAATCTTATATTCCTTATCGATGTTTCAGGCTCCATGAATGAAGAAAATAAATTACCGTTATTGAAATCTTCTTTTAAAGTACTATTGAATCAGCTCAGACCAAAAGATAAAGTAGGAATTGTAGTATATGCAGGAAGTGCAGGAATGGTATTGCCACCGACTTCTGCAGGAGAAAAAGATAAGATTATTGACGCTTTGGACCGTCTTCAGGCAGGAGGAAGTACAGCAGGAGGAGCCGGAATTGAACTGGCCTATAAGCTGGCGCAGGAAAATTTTGTAAAAGAGGGTAATAATCGTGTCATTATCGCAACAGACGGAGATTTCAATGTAGGAACGTCTTCTACATCGGATCTTAAAACGCTGATTGAAGATAAAAGGAAATCTGGTGTTTTCCTGACTTGCTTGGGCTTTGGAATGGGCAATTATAAAGACAATACACTGGAAACTCTTGCCGATAAAGGAAACGGAAATTATGCCTATATCGATAATATGCAGGAAGCCAATAAATTTCTGGGGAAAGAATTTGCAGGAAGTATGTATTCCATTGCCAAAGATGTGAAAATTCAGATTGAATTTAATCCTAAGTTTGTAAAATCTTACCGCCTGATTGGTTACGAGAACAGAAAACTGAAAAATGAAGACTTTACAAATGATAAAATAGATGCCGGAGAATTGGGAAGCGGACACACTGTTACCGCTTTGTATGAAGTGATTCCTGCAAATGTAAATTCAGATTTTGCTCCTAAAGAAAGTGATCTGAAATATAGCCAAAACACTTCTTCAAAAGGATTCGGAGATGAGTTGGCAACCATAAAATTCAGATATAAAAAGCCTGACGGAGATACCAGCCGGGAAATAACCCATGTGGTTAAAAACATTGACGGCAGAATATCTTCAGCAAGCCCGGATTTTAAATTTGCTTCTTCCGTAGCGTGGTTCGGTTTGGTACTCAGAAATTCAGAACTGATTACGAAGAAAAATCTTTCTGATATTGAAAATCTGGCTAAACAAGGCAAAAATAAAGATGAAGAAGGCTACCGATCAGAATTTATAAGGCTGATAGAGAGCTATAAAACCGCTCAGAAGTGA	MENNHIDQQFNEASKLSEEPTVFPGFEKVWGKVEEKLDKKEEKKRIIPLWLPYGIAVSLVIGLGAFYFMNKKEVVEPLQPVIAENKTSRGPINRTDIAKIDNTIKENIKKEELPVSVPLVHQSSPVAEIDSHMSLPGRNISSVAAPDRITAFLPQIYHDTLQTKQIEEVVVTAFGIKRREKSVTASSTVTSTVSNLPQPTAYSSLQGKVAGIQIGTTGGNQGTNIAPGYINIKNQLAIRGVASIKSENKALYIVNGMVTKEEDFRKLDPNTIQNINILKGSSATAIYGSRGADGVIVVTTKDLSRRERKKLKKLQEKINKQQQITPVTQNNESYDAFVENPFELTRSQPLSTFSIDVDNASYSNVRRMINNGQTVDKNAVRIEEMINYFKYDYPQPKNGDPFSINTEYSDSPWNSNHKLLKIGLQGKNIPMDKLPASNLIFLIDVSGSMNEENKLPLLKSSFKVLLNQLRPKDKVGIVVYAGSAGMVLPPTSAGEKDKIIDALDRLQAGGSTAGGAGIELAYKLAQENFVKEGNNRVIIATDGDFNVGTSSTSDLKTLIEDKRKSGVFLTCLGFGMGNYKDNTLETLADKGNGNYAYIDNMQEANKFLGKEFAGSMYSIAKDVKIQIEFNPKFVKSYRLIGYENRKLKNEDFTNDKIDAGELGSGHTVTALYEVIPANVNSDFAPKESDLKYSQNTSSKGFGDELATIKFRYKKPDGDTSREITHVVKNIDGRISSASPDFKFASSVAWFGLVLRNSELITKKNLSDIENLAKQGKNKDEEGYRSEFIRLIESYKTAQK	PGPT0014015_247	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00602	519	sigE_1	COG1595	ECF RNA polymerase sigma factor SigE	ATGGAACAAGAATTATTACTGGAATGCCAGCGTAGCAACCGCAATGCCCAGCGGAAAGTTTATGAGAAAATGGCGGGCAGGCTTTATGCAGTCTGCAGACGCTATTTGAAAAACGACGAAGATATAGAAGAAGTATTAGCCGATACATTCTACAAAATCTTCACGAAAATTAACCAGCTTCAGAATGCTGATACTTTTGAAGCGTGGGCGAGAAAAATTGTGGTGAACGAATGTCTGCAGAAATTAAGAACCAACAAAGGACTGTTTATTTCCCTGGAAGAAAACCTCATTGATCCTTCTGAAGGAACTACGGAAAACCTTTCTCTGGAAAAAGATATCCTGAGTTTGCTGAATTTTCTACCTGAAGGCTGCAGAGCTATCTTTAATCTTTTCGCAATTGAAGGATATCCTCATAAGGAAATAGCAACGATGCTTTCTATCAGTGAGGGAACTTCAAAATCCCAGCTCAATTTTGCAAGAAAGAAATTGCAGGAACTTCTAGTGAATCAAAACATTTAA	MEQELLLECQRSNRNAQRKVYEKMAGRLYAVCRRYLKNDEDIEEVLADTFYKIFTKINQLQNADTFEAWARKIVVNECLQKLRTNKGLFISLEENLIDPSEGTTENLSLEKDILSLLNFLPEGCRAIFNLFAIEGYPHKEIATMLSISEGTSKSQLNFARKKLQELLVNQNI	PGPT0014960_8579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00603	1203	pepC	COG3579	Aminopeptidase C	ATGAAAAATGCCAAAATTGCATCATTACTTTTTGTTTTGTCTGCAGGAAGTATGATGTTTGCCCAAGATGACTTAATCAACAAGTTAAAAAACAACCAATCACAAAATGCTAATTTTCAGTTCACAACGTTAAAAGACGTTGGGGCTACTTCTGTAAAGAACCAGGGTTCTTCAGGAACCTGCTGGAGCTACTCCGGAAACTCTTTCCTTGAATCTGAAATGCAGAGAATGGGCAAAAAACCTGTAGATCTTGCTGAAATCTTTACTGCAAGAAACTCTTACCATGATAAAGCGAAACTATATGTTTTGAACAATGGTGCTATCAGCTGGGGAGACGGAGGAGAACTTCACGATGTAATCAATATGTACAAGAAGTATGGAGCAGTTCCTCAGGATGTTTATACAGGATTAAAAGCAGGACAGACTACAAACAACTTCAAGGAAATGCAAGGGAAACTGAAGCCGGTTCTTGACAGTCTTGTTCAGGCTTCTTCGAAAGGGAAACTGACAGATAACTGGATGGATTCTGTAGATGCTATTCTTGATGAATATTTAGGAAAAGTACCTGCTAACTTTACCTATGAAGGGAAAAACTATACTCCGAAAACATTTGCTAAAGAAGTGGTAGGAATTAATCCTGAAGATTATGTGGAATTATCTTCTTACAAAGACTATCCGTATTTCCAGAAATTTGTAGTTCCGATTCCTGATAACTGGAGCCACGATTCTGACTGGAATGTTCCGATGAAAGATCTTACAGCGATCATTGACAATGCAGTAAGCAAAGGATATTCTGTAGGCTGGGCAACTGATGTTTCTGAACCTTATTTTTCTTACAAAAACGGGGTAGCTTATGTTCCGGATATGGATCTTGATCAAATCACTGCGGAAAACAAGCAGACTTTATTTACAGAACCTAAAAAGGATAAAACCATTACCGAAGACATGCGTCAGAAAGCGTTGAACAATCTTTCTACAACGGATGACCACGGTATGCATATTGTAGGATTGGCGAAAGATCAGACTGGTAAAGAATATTATATGGTAAAAAATTCATGGGGTGTAACCAATGATTTTGCCGGATATCTTTATGTAACAAGACCTTACGTTGAGTACAAATCAACGGCAATCCTTGTTCACAAAAATGCCATCCCGAAAAGTATCTTAAAACAATTGAAACCGACTAAAAATATTGGTTTATAG	MKNAKIASLLFVLSAGSMMFAQDDLINKLKNNQSQNANFQFTTLKDVGATSVKNQGSSGTCWSYSGNSFLESEMQRMGKKPVDLAEIFTARNSYHDKAKLYVLNNGAISWGDGGELHDVINMYKKYGAVPQDVYTGLKAGQTTNNFKEMQGKLKPVLDSLVQASSKGKLTDNWMDSVDAILDEYLGKVPANFTYEGKNYTPKTFAKEVVGINPEDYVELSSYKDYPYFQKFVVPIPDNWSHDSDWNVPMKDLTAIIDNAVSKGYSVGWATDVSEPYFSYKNGVAYVPDMDLDQITAENKQTLFTEPKKDKTITEDMRQKALNNLSTTDDHGMHIVGLAKDQTGKEYYMVKNSWGVTNDFAGYLYVTRPYVEYKSTAILVHKNAIPKSILKQLKPTKNIGL				NA	NA	NA	NA	NA
BMS003_00604	1062			NADH oxidase	ATGAGCACATCATCATTATTTAAACCGTTTCAATACAAGAGTTTACAGCTTAAAAATAGAATTGTTATGGCTCCAATGACCAGAGCACAATCTGATAATGGAGTTCCTACACAGAACATTGCAGATTATTATGGAAGAAGAGCCGCTTCAGAAGTAGGATTGATTCTTTCTGAAGGAACTGTGATCAACAGACCGGGATCAAAAAATATGCAGAATATTCCTGATTTCTATGGAACAGAAGCTTTAAACGGATGGAAAAACGTTATTGATACCGTTCATCAGAATGGAGGTAAAATGGGACCTCAGATCTGGCACGTGGGAGATACCAGAATGTCAGAAGACTATCCATTGGTTCCAATGGAAAAAGCTTCCACAATGACGACTGAAGATATTCAGGATACCATTGCCCAGTTTGCAGCATCTGCAAAGTCAGCGAAAGATCTTGGTTTCGACTGTATTGAAATTCATGGAGCTCACGGATACCTTATCGATCAGTTTTTCTGGGAAGTAACCAATACAAGAACTGACGAATACGGAGGTAAAACACTAAAAGAAAGAAGCAGATTTGCTGTAGAAGTAGTAAAAGCAATCAGAGCAGCGGTAGGAGAGGACTTTACCATTATTATCCGTCTTTCACAATGGAAGCAGCAGGATTATAAAACCAGACTGGCATTTACTTCAAACGAAATGGAAGAATGGTTGTTACCATTAAAAGAAGCTGGTGTAGATATTTTCCACTGTTCACAGCGTCGTTTCTGGGAACCGGAATTTGAAGGTTCTGACCTAAATTTTGCAGGATGGGCTAAAAAAATTACAGGACAGCCAACCATTACAGTTGGTTCTGTAGGTTTGAACGGGGACTTCCTTAATGCTTTTGCAGGGCAGGGAACAGAAAAAAGAGATCTTACAGAGCTGATCAGAAGACTTGATAATGAAGAATTTGATCTTGTTGCTGTGGGAAGAGCTATTTTGCAGGATCACCAGTGGGTACAGAAGATCAAAGACGGGAATACAGAAGCTCTTCTTGACTTTTCAGCAGAAAGTATGGGCGTTTTATTTTAA	MSTSSLFKPFQYKSLQLKNRIVMAPMTRAQSDNGVPTQNIADYYGRRAASEVGLILSEGTVINRPGSKNMQNIPDFYGTEALNGWKNVIDTVHQNGGKMGPQIWHVGDTRMSEDYPLVPMEKASTMTTEDIQDTIAQFAASAKSAKDLGFDCIEIHGAHGYLIDQFFWEVTNTRTDEYGGKTLKERSRFAVEVVKAIRAAVGEDFTIIIRLSQWKQQDYKTRLAFTSNEMEEWLLPLKEAGVDIFHCSQRRFWEPEFEGSDLNFAGWAKKITGQPTITVGSVGLNGDFLNAFAGQGTEKRDLTELIRRLDNEEFDLVAVGRAILQDHQWVQKIKDGNTEALLDFSAESMGVLF				NA	NA	NA	NA	NA
BMS003_00605	393			hypothetical protein	ATGAAAAAGAATGAATTGATGCAATACAGCTGTCCTCTGGGCAAAGCAATGGCCGCTTTAGGAAGCAAATGGAAGCCTATTATTGTTCTTGTTATTAAAGACAGGAAATTACGTTTTGGAGAGCTGGCAGTACGCATTAATGTCATCTCCAGAAAGGTTCTGACTGATCAGCTAAGGGAGATGGAAGCTGATGGACTGGTAATCCGTGAAGAATTTAAGGAACTTCCACCTCGAGTAGAATATTCTCTTACAGAAAAGGGATTGGCTTTATTACCTATTTTATATTTACTGGAAGAATGGGAAGCGAAATATCAGGTGAAAGGGAAGCATGAAGATAAAGGTTGTGTTCTCTTGAATGAGGATAAGAAAAATAAAAAAGCAGCCAATGTTTGA	MKKNELMQYSCPLGKAMAALGSKWKPIIVLVIKDRKLRFGELAVRINVISRKVLTDQLREMEADGLVIREEFKELPPRVEYSLTEKGLALLPILYLLEEWEAKYQVKGKHEDKGCVLLNEDKKNKKAANV				NA	NA	NA	NA	NA
BMS003_00606	288			hypothetical protein	ATGAAAGAAATAACCTCATTTTTAAAGTCCCGAAAATGGGCACTCATTATTTCAATACTATATGTAGGAACCGGAACACTGGCTGTATGTTCTGCTTACGGAAGCGATCCATTATATGGCGAATGGACTTTATATACTTTATTCATAACATTTCCTGTATCAGTTTTGAGTTTTGGCTATAGATATGCTGATCCCAGTATATGGCCAGTTTTATTGATTCAGTTGATTATGTTTTTAATTACATTTTTTATTTTGTCCTTATTTATAAAAACTAAGCCAGATAATTAA	MKEITSFLKSRKWALIISILYVGTGTLAVCSAYGSDPLYGEWTLYTLFITFPVSVLSFGYRYADPSIWPVLLIQLIMFLITFFILSLFIKTKPDN	PGPT0009100_575	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009100-thiT-K16789	NA	NA
BMS003_00607	345			hypothetical protein	ATGAAAATTAGGCTCTTATATTTGATGTTAATAATTATAGGTTGTAAAAAAACGGATAAAAAGGCAGTTTTGCTGGCAGATAGGGAAGCTCCTTTAGGCTGGATGTATTTGAAAATGTATAATGATAACAGTTTCGAATTCATTTCTCAGGGAATGATGAGGGATAAAGATGTGTATAACGGAAGTTATGAGCTAAAGAACGATACCCTTTATTTTAAATATAAAGATTCAATTCCCAAAGCCGGTTCAAAAGCTGTAATAGAGAAAGGATTTGTATATTACTTTAATGGCGATTACCATGAAAGTGTTCAGATAAAATTTAATAAATTATCTATTCAGAAATAA	MKIRLLYLMLIIIGCKKTDKKAVLLADREAPLGWMYLKMYNDNSFEFISQGMMRDKDVYNGSYELKNDTLYFKYKDSIPKAGSKAVIEKGFVYYFNGDYHESVQIKFNKLSIQK				NA	NA	NA	NA	NA
BMS003_00608	2433	dxs_1		1-deoxy-D-xylulose-5-phosphate synthase	ATGCAAACAACCTATATTGAAACACAGCAAATATCCTTTCAAGATTTTAAAAATCAGATACTTGAAGACTACAGGTTAGGAAGGATCTCTCGTGAAATGTCTTATCTCGGAAGGAGAGAAGTACTCACTGGAAAAGCTAAATTCGGAATTTTTGGAGATGGAAAAGAACTTCCTCAGCTTGCAATGGCGAAAGTTTTCAGAAATGGAGACTTCCGTTCAGGATATTACAGGGATCAGACTTTTGCATTGGCAATAGATGCCTTAACAGTAGAAAGTTTCTTTGCACAGATGTATGCAGATACCAGCGTGGAAAGAGAGCCTGCTTCAGCGGGAAGACAAATGAACGGGCATTTTGCAACAAGAAGTTTAAATGAAGACGGAAGCTGGAAAGATTTGACAGCTCAAAAGAATATTTCTTCCGATATTTCTCCTACAGCAGGGCAAATGCCAAGATTATTGGGGTTGGCTCAGGCTTCTGCTATTTATAAAAGCGTAAAATTTGACGGATCAGAAAAATTCTCAAGAGAAGGTAACGAAATTGCTTTCGGAACTATTGGGGATGCTTCTACTGCAGAAGGACACTTCTGGGAAACTCTGAATGCGGCATGTGCTCTTCAGGTTCCAATGATCGTTTCTATCTGGGATGACGGATACGGAATTTCAGTTCCAACGAAAAATCAGAGAGCAAAAGCTGATATCAGCGAAATGCTTAGTGGTTTCCAGAGAAAAGAAGGAGAAAACCAGGGGTGTGAGATTATTCAGGTGAGAGCATGGGATTATCCTGCATTATTGGACGCTTATGCTAAAGCAGAACATTTTGCAAGAACAGAAAGCGTACCGGTAGTAGTACATGTGGTAGATGTTACTCAGCCACAGGGACACTCTACATCCGGATCTCACGAAAGATATAAAAACGAAGAACGTCTGGCTTGGGAAGCTGAGTATGACGGTCTTGCAAAATTCAAAGAGTGGATTCTGAACTATTCTATCGAAATTGAAGGAAAAGAAGAAGTGATTGCCACTGCTGAAGAATTGGAGGCTATTGATGAAGAAGCTAAAAAAGCAGCAAAAACAGGTCAGAAGGCAGCTTGGGAAAGTTATCAGAAAGCAATTACAGAACTTATTCAGTCTGTCTTACCTTTAGTAGAAAATCTTAAAGGTCAGAATGCTGAAGTGGAGGCTTATATTGCTCATTTCAATAAACTTGTTTCAAAAGCTAAAAAAGATATTTTCCACCTAGTAAGACAAACTTTATTGGCAACCAGAGGAACGAACTCTGCAGAAAGAAACCAGCTGATGCAGAAGTACAATGAAGTTTCTGCTGTTGAAAAAGACAATTATTCTTCTCACTTATATTCTCAGTCTCAGTGGAAGGCTGAAAATGTTCAGGAAATCAAACCTGTCTATTCTGACAGCTCAGAAGATGTAGACGGAAGAGTTGTGATCAGAAACAATTTTGACAAAATTTTTGAAAAATATCCTGAAACTTTAATCTTTGGAGAAGATACCGGAAATATCGGTGACGTAAACCAGGGATTGGAAGGAATGCAGGAAAAATATGGCGCTTTACGTATCGCTGATACAGGAATCCGTGAAGCAACAATCCTTGGACAGGGAATTGGTATGGCCATGAGAGGTTTAAGACCAATCGCTGAAATCCAATACTTAGACTATGTTCTTTATTGTTTACAGGGAATGAGTGATGATCTGGCAACGGTGCATTACAGAACTAAAGGAGGACAGAAAGCTCCTCTGATTATCAGAACAAGAGGTCACAGATTAGAAGGAATCTGGCACTCTGGCTCTCCAATGGCCGGTATTCTGAACCTTTCGAAAGGTATTTTGGTATTGGTACCTAGAAGCCTTACGAAAGCTGCAGGGTTCTACAACACAATGCTTCAGGCTGACGAACCTGCAATCATCGTAGAATGTCTGAACGGATACAGATTAAAAGAAAAACAACCGGATAACTTAGGTGAATTTACAGTTCCTGTAGGAAAAATTGAAGTAACCAAAGAAGGAAAAGATGTTACTTTGGTAACGTACGGTTCTACATGGAGAATTGTAACAGAAGCGGCTAACGAATTGGAAAAATTAGGAATTTCTGCAGAAGTAATTGATATTCAGTCATTAATTCCTTTTGATTTATCTCACGAAATTGCTGAAAGTGTTAAGAAAACCAACAGATTAGTCGTAATTGACGAAGATGTGGAAGGAGGAACTACAGGATTTATCCTACAACAGATCCTTGAGAAGCAGAAAGCATTCAGATATCTGGATTCAGATCCGTTGACGATCTCTGCAAATGATCACAGACCTGCTTATGCAAGTGATGGTGACTATTTCAGCAAGCCGTCTACAGACGATATGGTAGAAAAAATCTACGCCATGTTTAATGAAACAAATCCTCAGAAATATCCGGCGATATTCTAA	MQTTYIETQQISFQDFKNQILEDYRLGRISREMSYLGRREVLTGKAKFGIFGDGKELPQLAMAKVFRNGDFRSGYYRDQTFALAIDALTVESFFAQMYADTSVEREPASAGRQMNGHFATRSLNEDGSWKDLTAQKNISSDISPTAGQMPRLLGLAQASAIYKSVKFDGSEKFSREGNEIAFGTIGDASTAEGHFWETLNAACALQVPMIVSIWDDGYGISVPTKNQRAKADISEMLSGFQRKEGENQGCEIIQVRAWDYPALLDAYAKAEHFARTESVPVVVHVVDVTQPQGHSTSGSHERYKNEERLAWEAEYDGLAKFKEWILNYSIEIEGKEEVIATAEELEAIDEEAKKAAKTGQKAAWESYQKAITELIQSVLPLVENLKGQNAEVEAYIAHFNKLVSKAKKDIFHLVRQTLLATRGTNSAERNQLMQKYNEVSAVEKDNYSSHLYSQSQWKAENVQEIKPVYSDSSEDVDGRVVIRNNFDKIFEKYPETLIFGEDTGNIGDVNQGLEGMQEKYGALRIADTGIREATILGQGIGMAMRGLRPIAEIQYLDYVLYCLQGMSDDLATVHYRTKGGQKAPLIIRTRGHRLEGIWHSGSPMAGILNLSKGILVLVPRSLTKAAGFYNTMLQADEPAIIVECLNGYRLKEKQPDNLGEFTVPVGKIEVTKEGKDVTLVTYGSTWRIVTEAANELEKLGISAEVIDIQSLIPFDLSHEIAESVKKTNRLVVIDEDVEGGTTGFILQQILEKQKAFRYLDSDPLTISANDHRPAYASDGDYFSKPSTDDMVEKIYAMFNETNPQKYPAIF				NA	NA	NA	NA	NA
BMS003_00609	297			hypothetical protein	ATGATGGAAAAAAAGTCACCTCACATTTTGAATGCTTCGAGCAATCTTTTAGGATTTTCATTAATTATTATTACATCTTTGAAAATCTCTAAAATCAGTCAGAGTACTTATTTGGACGAATTTGCAGGGTTTGCATGCCTGCTTTTTGCATGCAGCTGTTTCTTTTCATTTCTGGCAATCAGAACGAAAAGTACAAAGCGGGAATCCTCGTTTGAGAATATTGCGGATTATTTATTTTTAATTGCTTTATTTTGTATAGTTCTAGCTGTTATTATTGTAACCCTGAAAATTATTTAA	MMEKKSPHILNASSNLLGFSLIIITSLKISKISQSTYLDEFAGFACLLFACSCFFSFLAIRTKSTKRESSFENIADYLFLIALFCIVLAVIIVTLKII				NA	NA	NA	NA	NA
BMS003_00610	795			hypothetical protein	ATGAAAAAAATTAAAACGATGATGATAGCATTAGCTATCAGTTCAAGCTCTTTTGTATGTGCGCAAGTAGGAATAGGCACTCAAAACCCCCAGACAACTTTTCATATTGACGGATCTAAAGACAACCCTGCTACAGGAACACCTTCTGCTGCTCAACAGAATAATGATTTTAGTGTGACTTCTGATGCAAAAGTAGGGATTGGAACAATTTCACCAACTGAAAAATTAGATGTGGCTTCAGGAAATGCCCGTATCCGTAATATTAATTCGAATATTGGTGTTGGAGGGACAGACAGGGTTGTGGTGGCTGATGCTACCGGAGTACTGAAGACTATAGATTTTACCGCTTATTCATTGTTTCATGCGCGTTTAGCGGCTAATCAAAGTCTTTCAACTCTTGCGATTACCACTTTATTATTTGCTACCCCCATAGCTACTTCTCCTTTCTATTCCTATAATACAGGAACTGGCGTGCTGACCTTTAATCAGGCGGGTAATTATCTGGTAACGTTACAAGCTAGTTTCACTGGCATGGCGGCAGGAACTCAGCTTCTCATTGGGATTAGACCTGTACCTGATGCTAATTACCTGGGAAGGGGAAGCCACTATAATGCGGTTGCCAATTCAGGTTCTGTAGGGGAATTAATGAATTATACAACAGTAGTAGTTGCTCCTTCGGCTGGTTATCAAATTCGCTTTACGGCAGCACCTAATGCAGCTGCTACAGTTTTAGCCACAGAAACAGGTTCTACCGGAAGTGGAAATGTTACCAATGTAACTGTTCAAAAGATATAA	MKKIKTMMIALAISSSSFVCAQVGIGTQNPQTTFHIDGSKDNPATGTPSAAQQNNDFSVTSDAKVGIGTISPTEKLDVASGNARIRNINSNIGVGGTDRVVVADATGVLKTIDFTAYSLFHARLAANQSLSTLAITTLLFATPIATSPFYSYNTGTGVLTFNQAGNYLVTLQASFTGMAAGTQLLIGIRPVPDANYLGRGSHYNAVANSGSVGELMNYTTVVVAPSAGYQIRFTAAPNAAATVLATETGSTGSGNVTNVTVQKI				NA	NA	NA	NA	NA
BMS003_00611	978	sdsA		All-trans-nonaprenyl-diphosphate synthase (geranyl-diphosphate specific)	GTGGCAAATACAGTAGAAGAGATTAAACGACCGATCAATGATGAAATGAAACTTTTTGAACAGAAGTTTTATGAGTCAATGCAGAGTAAAGTAGCTTTACTAGATAAAGTAACCCGTTTTATTGTTACCACCAAAGGAAAGCAGATGCGCCCTATGTTTGTGTTTCTTTGTGCCAAGCTTGTGGGTGAGGTGACAGAAAAAACGTATCGCGGTGCGTCTATGATTGAGCTTATTCATACTGCTACTCTGGTACATGATGATGTGGTGGATGAAAGTTTTAAACGTCGTAATTTCTTTTCAATCAATGCTTTGTGGAAGAATAAGATTGCAGTTTTGGTGGGAGACTATCTTTTGTCAAAATCAGTGTTATTATCTACAGACCATAAAGATTATGATCTTCTTGGGGTAATTTCGAGAACAATCCGTGAAATGTCTGAAGGCGAACTTCTTCAGCTCGAAAAAGCTCGAAAACTGGATATTACTGAAGATGTTTATTATGAAATTATCCGTCAGAAAACAGCTACTCTGATTGCTGCCTGTTGTGAGATAGGAGTTCTTTCCAACAATGCAGGTGAAGTTCTTGCCAAAAAGATGATGGATTTCGGAACTTTTACGGGCATGGCATTTCAGATCAAAGATGACCTCTTCGATTACCTAAGCTCAAACGTGATTGGTAAACCTGTAGGAATTGATATTAAAGAACAGAAAATGACCCTGCCTTTAATTCATACCTTAAGAACAGCCAGCGAAAAAGACAGGAAATACTATTTTGATACTATAAAACGGTATAATAACAACCCAAAACGGGTAAAGGAGCTTATAGAATTTGTTAAAAGTTCCGGCGGACTGGAATATGCCATTACAGTGATGAAAGACTTCCAGCAGAAGGCGAAAAATATTCTGAATGAGTTTCCGGATTCCGAAGCAAGGAAATCGTTACATATCATGCTGGATTATGTAATTGAACGAAAGTTCTGA	MANTVEEIKRPINDEMKLFEQKFYESMQSKVALLDKVTRFIVTTKGKQMRPMFVFLCAKLVGEVTEKTYRGASMIELIHTATLVHDDVVDESFKRRNFFSINALWKNKIAVLVGDYLLSKSVLLSTDHKDYDLLGVISRTIREMSEGELLQLEKARKLDITEDVYYEIIRQKTATLIAACCEIGVLSNNAGEVLAKKMMDFGTFTGMAFQIKDDLFDYLSSNVIGKPVGIDIKEQKMTLPLIHTLRTASEKDRKYYFDTIKRYNNNPKRVKELIEFVKSSGGLEYAITVMKDFQQKAKNILNEFPDSEARKSLHIMLDYVIERKF	PGPT0007525_1226	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS003_00612	909			hypothetical protein	ATGAAAAAATTCCTTCTGATTGTTACCTTTTCCGTCATTCAATCTGCATATGCCCAGCAGACCGATTTTCTGAAAATAAAAAAATACAGAGTTAATCATCTGGATGATAAGATTGAAGAAACTTCAGGACTGAATATTTTAAACGGAAAATTATATACATTCAATGACAGTGGAAACGCCGCTGAACTTTTTGAAATTGATAAAAGTAACGGAGCAATAATAAGAACACTGAAAACCAATTTAATGAATACAGATTGGGAAGCATTGACCAATGATGGCGAAAATTTTTATATCGGAGACTTTGGAAATAATGCAGGAACTAGGAAAGATCTTATGATTTATAAAGTTCCTTACGGAAAGTCTGATACAGCCGGTATAATTAATAACCCAGGTTCAGCAAGGGCTTTGGAGGGAACAAAAATACTTTTTTATTATCCTGAGCAGACTGAATTTATTTCTAAAAATATAAAGAATGATTTCGATGCGGAAGCCATGATTTATTTGAACGGAAAACTGCACATCTTTACCAAAGAATGGGCTTCTAAAGCAACTTCTCATTATCTTGTAGATCCTGAAATTTCAGAACTGCAAAAAGCCGAAAAAATAGAAACTTATAAAACAGGTTTTGTGGTTACAGATGCCTCTTATTTTGATAAAAAACTTTATTTGGTGGGCTATACCAGGAAAACAGAAGTCTTTTTGGATGTGTTTCAAGAAACAGAACCTGGAATATTTTTCAAAGAAAAGCCCAAGCATTATTACTTAGGAACTGCACTCTCATTGTCACAGATTGAAGGAATAAGTGTAGACGAAACGGGTATTTATATCTCCGGAGAAAAATTCAGATCTCCATTGGGAACTGCAAAACCCTCTTTTTATTTTATCCCCAAAGATCAACTCAGGGATTAA	MKKFLLIVTFSVIQSAYAQQTDFLKIKKYRVNHLDDKIEETSGLNILNGKLYTFNDSGNAAELFEIDKSNGAIIRTLKTNLMNTDWEALTNDGENFYIGDFGNNAGTRKDLMIYKVPYGKSDTAGIINNPGSARALEGTKILFYYPEQTEFISKNIKNDFDAEAMIYLNGKLHIFTKEWASKATSHYLVDPEISELQKAEKIETYKTGFVVTDASYFDKKLYLVGYTRKTEVFLDVFQETEPGIFFKEKPKHYYLGTALSLSQIEGISVDETGIYISGEKFRSPLGTAKPSFYFIPKDQLRD				NA	NA	NA	NA	NA
BMS003_00613	951			hypothetical protein	ATGATGGATTTTCTTATGAGCGAGGACGGGCTGGAAAATGTGTATGCGTGGGCTATTCCGTTGCATGCTACTGTTATTTTAGCTGAAATGATTTACAGCCACGTTTCAGAAGCTAAGCTATATAGCGGAAAAGATCTTGCTACCAATGTTTATCTGGCGCTGATGAATTTTGGTCTGGATCTTATTATGAAAGCATTTGCCATGGGCGTAATGTTTTTCTTTTACAATCACAGACTTTTTTCATGGGATCTTAGTGTATGGTATCTGCTGGCATGTTTTATCATCACAGATTTTGCCTATTACGTATTACATTATGTAGACCACCGTTCCAGAGCATTCTGGGCAGTTCATATCACACACCACAGTTCAGAATACTTTAACCTTACCACAGGATTCAGAAGCCCTGTTTTACAGCCGCTTTACAGATATTTGTATTTTTCACCGCTTGCATTTTTAGGATTCAACCCATGGCATATTATGGTGGCTTACGCTATCGGACAGGTATATGGAACATGGGTGCATACGCAGACTGTGAAGAGTATGGGGTTTTTGGAATATATCCTGGTAACTCCTTCCCATCACCGCGTACATCATGCTTGTAATGTGAAATATTTGGATAAAAACATGGGAATGTGTCTTATTATCTGGGATAAAATTTTCGGAACCTTTCAGAAAGAAGATCCCAATATTCCTGTAAAATATGGTATCTATCCTAAAATGCCGGATAACAGGCCAGATACTGTTCTCTTTTATGAATGGAGGAAAATCTGGAAAGATTTGAAACAACCGGGCTTAAAGTTTACAGACAGAGTTAATTATATCTTCAACTCACCAGGATGGAGACATGACGGAACCGGAAAAACGGTAAGGCAATATCAGAAAGAGTATTTTGCAAAACAGGCAAAAAAGAAAGAACAACAGCAAAATCAGAAACAGCAGAAATCTGCTTAA	MMDFLMSEDGLENVYAWAIPLHATVILAEMIYSHVSEAKLYSGKDLATNVYLALMNFGLDLIMKAFAMGVMFFFYNHRLFSWDLSVWYLLACFIITDFAYYVLHYVDHRSRAFWAVHITHHSSEYFNLTTGFRSPVLQPLYRYLYFSPLAFLGFNPWHIMVAYAIGQVYGTWVHTQTVKSMGFLEYILVTPSHHRVHHACNVKYLDKNMGMCLIIWDKIFGTFQKEDPNIPVKYGIYPKMPDNRPDTVLFYEWRKIWKDLKQPGLKFTDRVNYIFNSPGWRHDGTGKTVRQYQKEYFAKQAKKKEQQQNQKQQKSA				NA	NA	NA	NA	NA
BMS003_00614	1035	rlmN	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGAAAGATATCCGCATATTATCACTAGACCAGCTTAAAGACTACTTTGTATCTTTAGGAGAAAAGCCGTTTCGTGCGAAACAGGTCTATGACTGGCTATGGAGTAAAAACCTCCATTCGATTGACGAAATGACGAATCTTTCGAAATCACTTCGTGAAAAAATTTCAGAAGAATATACTATTAACCCTGTTTCCGTAGACCTTCTTCAGAAAAGTTCTGACGGAACCATCAAAAACGGAGTGAAGCTTCACGACGGACTGATGGTGGAATCTGTTCTTATTCCTACAGAAACAAGAACTACAGCCTGTGTATCTTCACAGGTAGGATGCTCATTAAACTGCGAATTCTGCGCTACAGCAAGACTGAAAAGGATGAGAAACCTTGAAGTTGCTGAAATTGTAGATCAGGTAGCCCTGATTGACAGCCAAAGCAGAATGTATTTCGACAGACCGCTTTCCAATATCGTATTTATGGGAATGGGAGAGCCTATGATGAATTACAAAAACGTAGTGGAAGCCATCAAAAAAATTACCCAGCCGGAAGGACTGGGAATGTCTCCAAGAAGAATTACTGTTTCTACATCCGGTATTCCTAAGATGATCAAAATGCTTGCAGATGACGAGCTGCGTGTGAAGCTGGCTTTATCCCTTCACTCAGCTATCGAGTCCAAGCGTAATGAGATCATGCCTTTTTCTGATAAATTCCCGTTGACGGATATTATGGAATCTCTTCAGTACTGGTACCAGAAGACAGGTTCTGTTATTACTTTTGAATACTGTGTATGGAAAGGAATTAATGACGGAGATGAAGACATTAAAGCTTTAATCAAATACTGTAAACAGGTGCCTTCAAAAGTAAATCTTATCCAGTACAACCCGATTGGTGACGGAAAATACGATCAGTGCAACAAACAGGCTGAAGAAAATTATATTCGCCAGCTTGAAAATGCAGGGGTAACTGTAATGGTAAGAAGAAGCCGGGGAGGAGATATTGATGCCGCTTGCGGTCAGCTGGCCAACAAAACAACGGATTAA	MKDIRILSLDQLKDYFVSLGEKPFRAKQVYDWLWSKNLHSIDEMTNLSKSLREKISEEYTINPVSVDLLQKSSDGTIKNGVKLHDGLMVESVLIPTETRTTACVSSQVGCSLNCEFCATARLKRMRNLEVAEIVDQVALIDSQSRMYFDRPLSNIVFMGMGEPMMNYKNVVEAIKKITQPEGLGMSPRRITVSTSGIPKMIKMLADDELRVKLALSLHSAIESKRNEIMPFSDKFPLTDIMESLQYWYQKTGSVITFEYCVWKGINDGDEDIKALIKYCKQVPSKVNLIQYNPIGDGKYDQCNKQAEENYIRQLENAGVTVMVRRSRGGDIDAACGQLANKTTD				NA	NA	NA	NA	NA
BMS003_00615	1050	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGAAAACATCAGATTTTAATTTTGATCTTCCTGCGGAATTATTAGCAGAACACCCATCAGAGCACAGAGACGAAGCGAGATTAATGGTACTTGATAGAAAAACACAGACTATCGAGCACAAATTATTCAAAGATGTAGTAGATTATTTTGACGAAGAAGATTTGTTCATCTTCAACAATACTAAAGTTTTCCCTGCACGTCTTTACGGAAATAAAGAAAAAACAGGTGCTAAAATTGAAGTTTTCTTATTAAGAGAGCTTGATAAAGAAACCAGAGTTTGGGATGTGTTGGTAGATCCTGCAAGAAAAATCAGAATTGGTAACAAATTATTCTTCACAGAAGATGAGTCTTTGGTAGCTGAGGTTATTGATAACACTACTTCAAGAGGAAGAACATTAAGATTCTTATTCGACGGTTCTTACGACGAATTCAGAACGAAACTAAAAGAATTGGGAGAAACTCCGCTTCCAAAATATATCAAAAGAGCAGTAGAGCCTGAAGATGCAGAAAGATATCAGACCATCTATGCAAAAGTAGAAGGAGCAGTAGCAGCACCTACAGCGGGTCTTCACTTCTCAAAACATTTGATGAAGAGACTAGAGATCAAAGGAATCAATTTTGCTGAAGTTACGCTTCACGTAGGATTGGGAACATTCAACCCTATTGAGGTAGAGGATCTTTCTAAGCACAAAATGGAGTCTGAAGAGATCATCATTGATGAGAAAAACGCTGCGATCATTAACAAAGCGGTAGAGTCTCACAGAAGAGTATGTGCAGTAGGTACTACTACGATGAGAGCATTGGAAACTTCTGTTTCTTCAAACAAGAAAATCTCTGCTTTCAACGGATGGACAAACAAATTCATTTATCCTCCTCACGATTTTGGAGTAGCAAACTCAATGATCACTAACTTCCACACACCGAAGTCTACTTTGATCATGATGATTGCTGCATTTGCCGGAAGAGATTTCGTAATGCACGCATATGAAGAAGCCGTAAAAGAAAAGTATAAATTCTATTCTTACGGTGATGCAATGTTAATTCTATAA	MKTSDFNFDLPAELLAEHPSEHRDEARLMVLDRKTQTIEHKLFKDVVDYFDEEDLFIFNNTKVFPARLYGNKEKTGAKIEVFLLRELDKETRVWDVLVDPARKIRIGNKLFFTEDESLVAEVIDNTTSRGRTLRFLFDGSYDEFRTKLKELGETPLPKYIKRAVEPEDAERYQTIYAKVEGAVAAPTAGLHFSKHLMKRLEIKGINFAEVTLHVGLGTFNPIEVEDLSKHKMESEEIIIDEKNAAIINKAVESHRRVCAVGTTTMRALETSVSSNKKISAFNGWTNKFIYPPHDFGVANSMITNFHTPKSTLIMMIAAFAGRDFVMHAYEEAVKEKYKFYSYGDAMLIL	PGPT0023660_2256	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
BMS003_00616	693			hypothetical protein	ATGAGTAAATATTCGATTGAAGCATTTATCAACGAAACAAAAGAAAATCCACAGCAAAGAGATTATTTTGAACTGGAAACCAAACATCTTCTGGAAATCAATCTTAATAATCAGGCAGTATGGACCAAAAGAGGAAGCATGGTAAGCTATGTGGGAAATATTAATTTTGAAAGACAGGGAATGCTTTCCGGAGGAATTGGAAATCTTTTAAAGAAAGCAATCAGTGGTGAAGGAGCCAGGCTGATGAAGGCGGAAGGTTCCGGAAAACTTTATGTAGCAGACTCTGGAAAGAAAGTCCGCATTCTGTATCTGAATAATGAATCTGTATGCGTGAACGGAAATGACGTTCTTGCTCACGAACAAAGCGTAAAAAGTGATATCACCATGCTGAAAAGTATTGCAGGAATGATGTCCGGAGGACTTTTCCAGGTGAAACTTTCAGGAACGGGGCATATTGCCATTACCACTCACGGAGATCCCCTTACTTTACTCGTAACTCCTGACACTCCTGTTTTTACAGATCCTAATGCTACCGTTGCATGGTCCGGAAGCCTAAGCCCGGAACTGAAAACCAATGTTTCATTCAAAAGCCTTATCGGAAGAGGAAGCGGTGAAGAGTTTCAGATGAAGTTCTCAGGACACGGATGGGTACTGATTCAGCCTTATGAAGAGGTATACTATATGGAAAAATAA	MSKYSIEAFINETKENPQQRDYFELETKHLLEINLNNQAVWTKRGSMVSYVGNINFERQGMLSGGIGNLLKKAISGEGARLMKAEGSGKLYVADSGKKVRILYLNNESVCVNGNDVLAHEQSVKSDITMLKSIAGMMSGGLFQVKLSGTGHIAITTHGDPLTLLVTPDTPVFTDPNATVAWSGSLSPELKTNVSFKSLIGRGSGEEFQMKFSGHGWVLIQPYEEVYYMEK				NA	NA	NA	NA	NA
BMS003_00617	1536			hypothetical protein	ATGAATACTCTTATAAAGCTATTTTTCACAATCATTATACTTCCTAATGTAATGATGGCCCAGACTTCAAAGAAAAATTACGAATATAATATAGATCTTCTTCATATGTCTAATGATGAAGTCCGGGTATCTTTTTCGCCCCCAAAGAATACTCTTAAACAGGGCAGATTTATCATTCCCAAACTGGTACCCGGGTTTTATCAGGCTATGAATTTCGGGCAATATGTTTCCAATTTCACAGCTACCGATAAAAACGGTAAAAAAGTGGCAACCGAACGCCTGGATAAAAACAGCTGGTTGGTGCATGATCTTAGCCGTGTAAAGAAAATATCATACCTGGTAGCTGACGGATGGGATTCTCTGGAAAAAGAATCTCATGAAGCCAGATCCGCTGGAAGTATGTTTATAAAAGACAGCGTTTTTGTCATCAATTATAATTCTCTGGTGGGATATTTTGAAGAAATGAAAGATATTCCTTATCAGATTACCATTACAAAAAACAAAGGTTTCTATGCATCCTCTGCTTTGGACTATAAGCAGACAAATAAGACCACAGATATGGTTTGGGCAAAGGATTACCGGGAATTGGTAGATTCTCCTGTTTTATACTCTGTACCCGATACCACATGGCTGAAAATAGGCCATACCAAAGTACTTGTATCATTTTATAATAAAAAAGAAAGAAATTATTCCAAAACCATTGCCCACGAAATAGAAAATATCCTGAAAAATCAGCAGGCTTATCTTGGCGGAACATTACCCGTCAACAAATATGCTTTTCTGATTTATTATGAATCTTCCAATGAGAACGGATTTTTGGGTGATGGACTGGAACACTCCCACTCTACAGTATGTCTGTACCGTTCCGGAAGTATGAAGTTTCTTCCGAATGCTTTGAACAGAGTGGCTTCCCATGAGTTTTTCCATGTTGTTACACCACTCAATATTCATTCAGGAGAAATTCAGCATTATGATTTTCTGAATCCTGTCATGTCTAAACATTTGTGGCTATACGAAGGAATGACAGAATATGCTACGATTCATATGCCAATCAAACAAAAAATGATCAGTCTGGAAGATTTTGAAAAAAGTCTGGAAGAAAAGATCAAAGGCATGAAAGCATTCGACAATACTCTTTCTTTTACAGAAATGAGTAAAAAATCCATGGAAAGACAGGATCAGTATATGAATTTCTACATGAAAGGAGCATTACTCGGAGTATGTCTGGATATAAGGTTAAGAGAACTTTCCAATGGAAAAATGGGAACTCAGGATCTGATGCAGATGCTTATGAAAAAGTATGGAGCAGGTAAATATTTCAATGATGATGACCTTTTTGATGACATTACCAAAATGACCTTTCCGGAAATCCGTACATTTTTCAGAGATTATATTGAGGGTACCCAACCCATTCCTTTGAAAGAATACCTGGAAAAAGCAGGTTTCAACTATGATGAAACCACCGGAAAAGTAACTTCTCTACCCAACCCGGATGCAAAGCAACTGGCTTTAAGAAAAGCATGGATTAATCAATAA	MNTLIKLFFTIIILPNVMMAQTSKKNYEYNIDLLHMSNDEVRVSFSPPKNTLKQGRFIIPKLVPGFYQAMNFGQYVSNFTATDKNGKKVATERLDKNSWLVHDLSRVKKISYLVADGWDSLEKESHEARSAGSMFIKDSVFVINYNSLVGYFEEMKDIPYQITITKNKGFYASSALDYKQTNKTTDMVWAKDYRELVDSPVLYSVPDTTWLKIGHTKVLVSFYNKKERNYSKTIAHEIENILKNQQAYLGGTLPVNKYAFLIYYESSNENGFLGDGLEHSHSTVCLYRSGSMKFLPNALNRVASHEFFHVVTPLNIHSGEIQHYDFLNPVMSKHLWLYEGMTEYATIHMPIKQKMISLEDFEKSLEEKIKGMKAFDNTLSFTEMSKKSMERQDQYMNFYMKGALLGVCLDIRLRELSNGKMGTQDLMQMLMKKYGAGKYFNDDDLFDDITKMTFPEIRTFFRDYIEGTQPIPLKEYLEKAGFNYDETTGKVTSLPNPDAKQLALRKAWINQ				NA	NA	NA	NA	NA
BMS003_00618	1398	nagA		Alpha-N-acetylgalactosaminidase	ATGGACAATAATAACTCCCGCAGGAACTTTCTTAAGACAGCAGCTTTAGCAAGCTTTGGAGCATTGGTTTTACCTAATTCTTTATTTGCTTATTCCAATGATTTTAAAACAGATAAAAAGGTCCGGGTTGGTTTTATCGGGGTTGGTCTTCGTGGTCAGGAACATGTAAAATTACTGGCAAAACGTAATGATGTAGAGATTGTAGCTTTTGCAGATCCGGAGAAAAGAATGCTTGCTGCTTCTCAAAAAATCTTAAAAGACAACAATAAACCGGCTGCTCAGGAGTTTTCCAACGGGGAATATGACTATCGAAATCTTTTAAAATTAAAAACTATAGACGCTGTTGTGATTGCTACTCCTTGGGAATGGCATCTTACACAGGGGGTAGAAGCAATGCGTGCCAGGAAAATTGTAGGGATGGAAGTTTCCGGAGCAATAAAACTTCAGGACTGCTGGGAATTTGTAAAAGTATATGAGGAAACAAAAGTTCCAATCTTTATGATGGAGAACGTATGTTACCGAAGAGATATCATGGCCATCTTAAATATGGTTCGTAAGGGAATGTTTGGTGAACTGGTACATGGAAGAGGCGGCTATCAGCATGATCTGAGAGGTGTTCTTTTCAATGATGGCGTTACCCCTTACAATTCCGGTGCTGAGTTTGGAGAAAAAGGATTCAGTGAGGCAAAATGGAGAACAGAGCATTATGTAAAACGCAACGGAGAACTTTATCCTACCCATGGATTAGGCCCTGTCGCGATGATGATGGACATCAACAGAGGAAACCGCTTAACAAGACTGTCCTCATTCTCTTCAAAGTCAGTAGGACTTCATAAATATATTGTTGAACATCCGAAAGGCGGAGAAAACCATCCAAGTGCCAAAGTAAAATTCAACCAGGGAGATATTGTAACCACTCAAATAGCGTGTGCTAATGGGGAAACCATTTTGCTGACACATGATACAAGTTTACAGAGACCTTACGATTTGGGCTTCCGTGTTCAGGGAACTGAAGGTTTATGGCAGGATTTCGGATGGGGAGAATTCAACCAGGGACATATTTATTTTGAAAAAACCATGAACCATACCCACCGCTGGGATAATACGGAAAAATGGATGCAGGAATATGATCATCCTATGTGGAAAAAGTTTGAAAATACGGCTGCAGGAGCGGGACATGGCGGGATGGATTTCTTTGTGATGAATACTTTTATAGAATGTATCAAACGAAATATAGAATTCCCGATGGATGTGTATGATCTTGCGCTGTGGTATTCAATTACCCCATTGAGCGAAGAATCTATTGCCAAAGGCGGTCAGGTAGTTGATATCCCTGATTTTACCAATGGAAAATGGAAAACCCGTAAACCTGTATTTGGAATGACCGATGAGTTCTAA	MDNNNSRRNFLKTAALASFGALVLPNSLFAYSNDFKTDKKVRVGFIGVGLRGQEHVKLLAKRNDVEIVAFADPEKRMLAASQKILKDNNKPAAQEFSNGEYDYRNLLKLKTIDAVVIATPWEWHLTQGVEAMRARKIVGMEVSGAIKLQDCWEFVKVYEETKVPIFMMENVCYRRDIMAILNMVRKGMFGELVHGRGGYQHDLRGVLFNDGVTPYNSGAEFGEKGFSEAKWRTEHYVKRNGELYPTHGLGPVAMMMDINRGNRLTRLSSFSSKSVGLHKYIVEHPKGGENHPSAKVKFNQGDIVTTQIACANGETILLTHDTSLQRPYDLGFRVQGTEGLWQDFGWGEFNQGHIYFEKTMNHTHRWDNTEKWMQEYDHPMWKKFENTAAGAGHGGMDFFVMNTFIECIKRNIEFPMDVYDLALWYSITPLSEESIAKGGQVVDIPDFTNGKWKTRKPVFGMTDEF				NA	NA	NA	NA	NA
BMS003_00619	915			hypothetical protein	ATGAGTTCTAAGAAGACATTACTCATACTGGCAGGTGGATTAGGCAGCAGATACAAAGGACTCAAGCAGGTAGACGGAATACTTGATAACGGCGCACCAATTCTGGAGTATTCTATCTTTGATGCTCTGGAAGCCGGTTTCCAAAAAGTAGTGATCATTGTCAACAAATTGATTCCTGAAAGTTATATGGAAAGACTCAACGGTATTTCAAAGGCTAAAGATTTTGAACTCCATTGGGTGTATCAGGAAATAGACAGCATTCCTATTTCCCTGGAAGGTTTTGATCATCCCGATCGTGAGAAGCCATGGGGAACGGCTCATGCTGTTCTCTGTGCCAAATATTCTATACAGGAACCGTTTGTCATGATCAATGCAGATGATTTTTATGGAAAAGAAGCCTATCAGCTGGCAGCGCATGAAATTAATCATCATCATATTTCAGATACACAATCAGGAATGGTTGCCTATCCCGTAGGGACAACATTGAGTGGCAACGGGGCTGTAGCCAGAGGAATCTGTACGCTTGATGCTGAAAATTATCTGATCAAGGTTGTTGAGCAAACATCTATACAAAGAATCAATAATTCCATCATTTATATTGAAAACGGAGAAAATATAAAACTGGATTCCGAAGCTTTGGTATCCATGAACTTTTTTATTTTCCATCCTCATATTTTCTGCTATCTGGAAGCCTATTTTTATGACTTCATTGAATCTGACCCACTGCCCAATCAGGAATTCTACATTCCTTCCGCAGTACAGAGAATGATGGATGAGAACAGAGTAAAAGTAAAGGTAGAAGCCTCTCCTTCCCGATGGATGGGCGTTACTTATGCCAATGATAAAAAGGAAATAAAAGATTTTCTGATTTCGGAAATTAAAAACAACAGATACCCTGAAGATTTATGGAAGTAA	MSSKKTLLILAGGLGSRYKGLKQVDGILDNGAPILEYSIFDALEAGFQKVVIIVNKLIPESYMERLNGISKAKDFELHWVYQEIDSIPISLEGFDHPDREKPWGTAHAVLCAKYSIQEPFVMINADDFYGKEAYQLAAHEINHHHISDTQSGMVAYPVGTTLSGNGAVARGICTLDAENYLIKVVEQTSIQRINNSIIYIENGENIKLDSEALVSMNFFIFHPHIFCYLEAYFYDFIESDPLPNQEFYIPSAVQRMMDENRVKVKVEASPSRWMGVTYANDKKEIKDFLISEIKNNRYPEDLWK				NA	NA	NA	NA	NA
BMS003_00620	1035	nahK		N-acetylhexosamine 1-kinase	ATGGAAGTAAATGATATTGTTACGGAATTTATCGGTACGGACAATTATGAACTCACTCCTATTACGGATGGGTTGATTAATACTACTTATCTTTTGGAAAATAAAGATCAGGGAAAAAAGTTTATCCTTCAGAAAATCAACAATCATGTTTTCAGACAGCCGGAAGTAATTGTCAAAAATCATTTACTGATTAATGAAATTCTCAGATCAAACAGCTACCAGCTTCAAATTATTGAGCCTATTCCCTCTATTACCCATCAACTTCTGATAGAAGATGAAAGTGGCCAGCCGTGGCGAATGCTCAGCTTTATAGAAAACAGCACGACCTTTCTTTCCGCTCCCACTTTACAGGTGGCTTATGAAGCGGCTAAAGCCTTCAGTTATTTCCTCACCTGCATCAATACTGAAAAACTGCCTGCCATTGAAGATGCTCTTCCTAATTTCCTTAATTTTGAGAAAAGGGTTACAGATTATAAAAATGCATTAAAAGATGCGGCCCCTCATTTAAAAGAAAATGCAAAGGCTGAAATAGAAATCACCAACCAGCTTTTGTCCCTGCCTGATCAATGGATCGAAATGGAAAAAACCAATCAGATTCCTAAAAGAATTATACATGCAGATGTAAAGATCAGCAATATTCTCTTCGATCAGAATCATCAACCATTGGCTGTGATTGACCTGGACACCATCATGATTTCTACTATTTTGTATGATTTTGGAACCATGATTCAATCCTACACCAATACAACCCATGAAGATGATGGAAGTGCTCAAAATAATTTCAATCCTGAAATGTACAAAGTTGTAAAAGAAGGATTTTTATTTTATTTAAAAGATAAACTTACTGCTGTAGAAACTGATCATCTTGATTATGCAGCACAGGTCGCCATTTATATCCAGGAACTTCGTTTTTTAACCGATTATCTGAACGGAAGTGTTTATTATTCTACAAAATATCCTGAACACAATCTGGACAGAACCAGAAATCAGCTGGAACTGTTAAAAGGATTAAGGGAATATTTAGGAAGTGAATAA	MEVNDIVTEFIGTDNYELTPITDGLINTTYLLENKDQGKKFILQKINNHVFRQPEVIVKNHLLINEILRSNSYQLQIIEPIPSITHQLLIEDESGQPWRMLSFIENSTTFLSAPTLQVAYEAAKAFSYFLTCINTEKLPAIEDALPNFLNFEKRVTDYKNALKDAAPHLKENAKAEIEITNQLLSLPDQWIEMEKTNQIPKRIIHADVKISNILFDQNHQPLAVIDLDTIMISTILYDFGTMIQSYTNTTHEDDGSAQNNFNPEMYKVVKEGFLFYLKDKLTAVETDHLDYAAQVAIYIQELRFLTDYLNGSVYYSTKYPEHNLDRTRNQLELLKGLREYLGSE				NA	NA	NA	NA	NA
BMS003_00621	762			hypothetical protein	ATGGAAATACAAAAATTAAACTGGGCAGGCATCCGTTTCACATCTCATGATAAAACGATCTTAATAGATGCTGTAGAGGACTTCTCTTATTATAAACCTGTTTTGGGCGATGCTGTGGAGAATCTCTTAGAGTTTTCAGATCATGTACAGGCAGATTATATCCTGTTTACCCATATGCATCTTGATCATTTTGATAAAGGAGTGATTAAAAAATGTTTAAAAAAAGACGGAAAACTGATCGTCTATGCAGGACTGGAGCCTGTTGTGAAAAAACTGATAGAAGATGTGAAAGTCATTGTTCTAGATCTTGATGAAACTTTCACAGAAAATAATATCACCTTCAAACCCGTATTTGCAATGGATGGAGTAGGAGAGATACAGTCTTCCTGGATTGTGGATGATGGAACTACCAAAATCTTTCATGGTGGAGATACTATCTGGCACAATCAATTCTGGAAGCTTGGAAAAGAAAACCCCAATATAGATTATGCCTTCTTACCCGTAAACGGAGTGGTTGTCAATTTTGAAATCATTGGATTAGAATATAGTCCCGTTCCTGCTTCCCTTAACCTGAAAGAAGCCTTTGCTGCAGCTCATCTTCTGCATGCCGGAAAGCTGGTACCCATTCATTATGGGTTGTTTGCTCATGAGAAATGCTATATTCCTCAGGTTTTTAATGATCAGGATTTGAAAAATATTTCAGCGGAAGTCGGGCAGCAGTATATTATTTTGAAAGACGGAGCAATATTAATAGATCCTTAA	MEIQKLNWAGIRFTSHDKTILIDAVEDFSYYKPVLGDAVENLLEFSDHVQADYILFTHMHLDHFDKGVIKKCLKKDGKLIVYAGLEPVVKKLIEDVKVIVLDLDETFTENNITFKPVFAMDGVGEIQSSWIVDDGTTKIFHGGDTIWHNQFWKLGKENPNIDYAFLPVNGVVVNFEIIGLEYSPVPASLNLKEAFAAAHLLHAGKLVPIHYGLFAHEKCYIPQVFNDQDLKNISAEVGQQYIILKDGAILIDP				NA	NA	NA	NA	NA
BMS003_00622	543			hypothetical protein	TTGGCAACCATCAACAAAAAATTGTTTTCACATCTGAACATAGAGGATAGTGATCCTGTATGGGAGAAGTTTGCTGAGGTTGAATTTTCAAAGAAAAACATATTTCCGGATAATAAAGCCTATCTTGTAGAAGATGGGCTTGTCCGTAAATATTACATCAACAGAACCTCAGATATTGATACTGAGATCTGTGCAGAATTTTATTTTCCCGGTGATATTTTTACTGTTGAAGAAAAAAGTTCTGATACCGTTTATGAATCCATCAACAAAGGGCTGGCCTGGGGAATTACATTAGATGAGGTAAAGGATATGTTTGCGCTCAATCCGCACTGTCGTTTTGTTCAGAACTACTATCTGAGCAGAAAGCTCAATGCAGCGATGAAAAGAGAAATGCTCCTGCTGAAAAATACTCCACAAGACCTCTATGAATACCTACTCAGGAACAAGCCTCATTATATTCAAAATATTCCTTTGAAATATTTAGCTTCTTATATTGGCATTACGCCTATTTCTTTAAGCAGAATTAGAAAAAGAATTTTGTAA	MATINKKLFSHLNIEDSDPVWEKFAEVEFSKKNIFPDNKAYLVEDGLVRKYYINRTSDIDTEICAEFYFPGDIFTVEEKSSDTVYESINKGLAWGITLDEVKDMFALNPHCRFVQNYYLSRKLNAAMKREMLLLKNTPQDLYEYLLRNKPHYIQNIPLKYLASYIGITPISLSRIRKRIL				NA	NA	NA	NA	NA
BMS003_00623	1986	hutU	COG2987	Urocanate hydratase	ATGACATTTCAAGAACAGATACAGCAGGGGATTCCTAATCAGCTGCCACAACCCAAACCATACGAGACCAATATCAATCATGCTCCCAAGCGTAAAGAAATTTTAGGGGAAGAAGAAAAAAAACTGGCATTGAAAAATGCTTTACGTTATTTTGAACCTCAGTTTCACGCAGACCTGATTCCTGAATTTAAGCAGGAACTTGAAGATTACGGAAGGATTTATATGTACCGCTTCCGTCCGGATTATGAAATGAAGGCAAGACCTATCACAGACTATCCGGGGAAATCTGAGCAGGCAAAAGCCATTATGCTGATGATTCAGAATAACCTGGATTATGCGGTGGCGCAGCATCCTCATGAACTGATTACGTATGGAGGAAACGGAGCGGTTTTCTCAAACTGGGCACAGTATCTGCTGACGATGAAGTATCTGTCGGAAATGAATGATGAGCAGACCTTAGTAATGTATTCGGGACATCCGATGGGATTATTCCCGTCTCATAAAGATGCACCAAGAGTTGTGGTAACGAATGGAATGATGATCCCCAACTATTCAAAACCGGATGACTGGGAGAAATTCAATGCATTAGGGGTAACTCAGTATGGGCAGATGACAGCAGGAAGTTATATGTATATCGGCCCTCAGGGAATTGTTCACGGAACAACCATTACGGTATTAAATGCTTTCCGAAAAATCAAAAAAGAACCGAAAGGAGGACTTTTCGTAACTTCAGGATTAGGCGGGATGAGCGGAGCTCAGCCGAAAGCAGGAAATATTGCAGGCTGTGTTACCGTATGTGCAGAAGTGAATCCGAAGATCACAAAGATCCGCCACGATCAGAAATGGGTGAATGAAATTCATGAAGATCTTGATGCATTGGTAAAAAGAGTAAGAGAAGCACAGGCTAACAAAGAGACAGTGTCTTTGGCTTATCTTGGAAATATTGTAGACGTTTGGGAGAAATTTGATCAGGAAGATTTAAGAATCGATATCGGATCAGATCAGACTTCGCTTCACAATCCTTGGGCGGGTGGTTACTATCCTGCAGGACAAAGCTTTGAAGAATCTAACGCTATGATGGCTGAAAATCCGGAACTATTCAAAGAAAAAGTTCAGGAAACATTAAGAAGACACGCCGCTGCTATTAATAAACATACAGAAAAAGGAACTTATTTCTTCGATTACGGAAATGCATTTTTACTGGAAGCTTCCAGAGCCGGAGCTGATGTAATGGCAGAAAACCCGACATTAGGAAGAGAATTCAGATATCCGAGTTATGTACAGGATATTATGGGACCTATGTGTTTTGATTATGGTTTCGGACCGTTCCGTTGGGTATGTACAAGTGGAAATCCTGAAGATCTGCAGAAAACAGATGATATTGCATGTGCAGTATTGGAAGAAATGGTTAAAAACTCTCCTGAAGAAATCCAGCAGCAGATGAAAGACAACATTCAGTGGATCAAAGGAGCGCAGGAAAATAAGCTGGTGGTAGGTTCACAGGCGAGAATTCTTTATGCAGATGCAGAAGGAAGGATGAAAATTGCTGAAGCCTTTAACAAAGCTATTAAAAATGGTGAAATAGGACCTGTAGTATTGGGTAGAGACCACCATGATGTTTCAGGAACAGATTCTCCTTACAGAGAGACTTCCAATATCTATGACGGATCAAGATTTACAGCGGATATGGCCATTCACAATGTAATTGGTGACAGTTTCCGTGGAGCTACATGGGTTTCTATTCACAATGGTGGTGGAGTTGGCTGGGGAGAAGTGATCAACGGAGGTTTCGGAATGCTTCTTGACGGAAGTGATGATGCTGACAGAAGATTAAAATCCATGCTTTTCTGGGATGTCAACAACGGAATCTCAAGAAGAAGCTGGGCAAGAAATGAAGGCGCTGTTTTTGCCATCAAAAGAGCTATGGAAGCAGAACCGAATCTGAAAGTAACCCTTCCGAACCTTGTAGACGAAAATTTATTGTAA	MTFQEQIQQGIPNQLPQPKPYETNINHAPKRKEILGEEEKKLALKNALRYFEPQFHADLIPEFKQELEDYGRIYMYRFRPDYEMKARPITDYPGKSEQAKAIMLMIQNNLDYAVAQHPHELITYGGNGAVFSNWAQYLLTMKYLSEMNDEQTLVMYSGHPMGLFPSHKDAPRVVVTNGMMIPNYSKPDDWEKFNALGVTQYGQMTAGSYMYIGPQGIVHGTTITVLNAFRKIKKEPKGGLFVTSGLGGMSGAQPKAGNIAGCVTVCAEVNPKITKIRHDQKWVNEIHEDLDALVKRVREAQANKETVSLAYLGNIVDVWEKFDQEDLRIDIGSDQTSLHNPWAGGYYPAGQSFEESNAMMAENPELFKEKVQETLRRHAAAINKHTEKGTYFFDYGNAFLLEASRAGADVMAENPTLGREFRYPSYVQDIMGPMCFDYGFGPFRWVCTSGNPEDLQKTDDIACAVLEEMVKNSPEEIQQQMKDNIQWIKGAQENKLVVGSQARILYADAEGRMKIAEAFNKAIKNGEIGPVVLGRDHHDVSGTDSPYRETSNIYDGSRFTADMAIHNVIGDSFRGATWVSIHNGGGVGWGEVINGGFGMLLDGSDDADRRLKSMLFWDVNNGISRRSWARNEGAVFAIKRAMEAEPNLKVTLPNLVDENLL	PGPT0020250_526	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
BMS003_00624	294			hypothetical protein	ATGGCACCAGAGAAAAATATTAATGAACAGAACAAAAGGTTAGAACAGATGGATTATAACCCAAGCGAAGATATATTTAAGAGAGAAAAACATATTTCGCTCGATGGAGATGGAAATCCGATTTTGGATGAAGATTTTGACGATGATAAAATTGATAAAGGATTAGATATACCAGGTGCAGAAGACGATGATGAAATGGAAGAAATAGGAGAGGAAGATGAAGAAAATAACTACTGGAGCCTCAGCGATAATGAAGATGACCATGAAGAAGAAAACGATGATGTTTTAACCTAA	MAPEKNINEQNKRLEQMDYNPSEDIFKREKHISLDGDGNPILDEDFDDDKIDKGLDIPGAEDDDEMEEIGEEDEENNYWSLSDNEDDHEEENDDVLT				NA	NA	NA	NA	NA
BMS003_00625	987	ghrB	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGAAAGTTTTTATCAATAAAAGAATTCCCGAAACCGGAATTAAAATGCTGGAAGAAGCTGGTCTTGAAATTATATTTCCGGAAAAAGAAAACCTCTCTTATGAAGAGTGGACTAATTACTGCAAAAATACAGATACTATCCTGAATGTAGGCGGAGATTTTAAATATGATCAGAGTTTCTTTGATGCCTGCCCGAACATCAAAGCAATTGCTTTATATTCTGTGGGGTTTGATCATGTTGATATTCATGAAGCTACCCGAAGAAACATTCCGGTAGGAAATACTCCTGATGTTTTAAGCAGAGCCACTTCAGATATTGCTTTTTTACTGATGCAGTCTGTGGCAAGAAGAGCAAGCTATAATTTTCAGAAAGTAAAAAATGATAATTGGGGCGCATTTGATCCCTTACATGCTTTGGGACAGGAACTGTATGGGAAAACACTGGGCATTTTTGGACTAGGACGTATCGGATATGAAATGGCTGAAAAATCAAAAAAGGCTTTTGGAATGAATATCATTTATCATAACCGCCGTCCCAATGAAGAAGCAGAAAAGGAGCTTGGGGCAAAATATGTGTCTTTCGAAGAACTGATTCAGAGATCAGATGTATTGAGCATACATGCCAACTTTACCCCTGAACACAAGGAATTATTCAATTACTTCATATTTGAACAGATGAAACCGGATGCTATTTTCATCAATACAGCCAGAGGAGGGTTTCACAACCAAAAAGATATGTACCAGGCACTCGTAGACAATAAAATCTGGGGAGCTGGTTTGGATGTTACGAATCCGGAGCCTATGTCTGCGGATGATCCTATTCTTAGACTGTCCAGTGTTTGTATTTTTCCACATATTGGATCTGCTACTGTTGAAGCCCGAAATGGAATGGCAAGACTGGCAGCAGGAAATATTATCGCTTTTTCAAAAAATGAAAAAATGCCGAATTGTGCAAATCCTGACGTTTATTCTGATCATTCAGCATAA	MKVFINKRIPETGIKMLEEAGLEIIFPEKENLSYEEWTNYCKNTDTILNVGGDFKYDQSFFDACPNIKAIALYSVGFDHVDIHEATRRNIPVGNTPDVLSRATSDIAFLLMQSVARRASYNFQKVKNDNWGAFDPLHALGQELYGKTLGIFGLGRIGYEMAEKSKKAFGMNIIYHNRRPNEEAEKELGAKYVSFEELIQRSDVLSIHANFTPEHKELFNYFIFEQMKPDAIFINTARGGFHNQKDMYQALVDNKIWGAGLDVTNPEPMSADDPILRLSSVCIFPHIGSATVEARNGMARLAAGNIIAFSKNEKMPNCANPDVYSDHSA	PGPT0019780_812	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
BMS003_00626	651	pcm	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGCAGGATTCGTTTGTACATAAAGGAAAAAGAAAGATTTTAGTAGATTACCTTCGAAACAGAATTGGAATTTCGGACGAAAATGTACTTTCGGCAATGAGTGAAGTTCCGAGACACCTTTTTATCGAAAGTATTTTTGAAGACTTTGCTTATGAAGACAGGGCATTTCCTATTCTGGCACATCAGACCATTTCCCATCCGTCCACGGTAGCAGAACAGTCTGAACTGCTGAAGGTAAAGCCGGGAGAAAAAGTACTGGAAATAGGAACAGGATGTGGGTATCAGACCGCTGTTTTACTGGCAATGAAAGCTCATGTATATACAGTGGAAAGACAGAAAGATCTGTTTGATTTTTCCAAAAAGAAACTCAGAGAACTTCATCTGTTTCCAAAATTTCAGAGTTTTGGAGATGGCTTTGCAGGACTTCCTACTTTCGCTCCTTTTGACAAAATCATTGTAACATGTGGTGCTTCCACTTTACCTACAGAACTTTTAAAACAGCTGAATGTTGGAGGAATAATGGTGATTCCGTTGGGACCAACGGATGAACAGGTTTTATACAGATTTACAAAAGTAGGACCTACAGAGTTTGAAAAAGAAGAATTCGGAGCTTATAAATTTGTTCCGATGCTTGGAAATACGAATCAATAG	MQDSFVHKGKRKILVDYLRNRIGISDENVLSAMSEVPRHLFIESIFEDFAYEDRAFPILAHQTISHPSTVAEQSELLKVKPGEKVLEIGTGCGYQTAVLLAMKAHVYTVERQKDLFDFSKKKLRELHLFPKFQSFGDGFAGLPTFAPFDKIIVTCGASTLPTELLKQLNVGGIMVIPLGPTDEQVLYRFTKVGPTEFEKEEFGAYKFVPMLGNTNQ				NA	NA	NA	NA	NA
BMS003_00627	648			hypothetical protein	ATGAAAAAAATAATTTCGATTTTACTCTTCTTTGCATTATGTACTGCCGGATGCATAGGAGATAGTCCATACGACCCGCAGGCTCAGTGTGGAACTCCAACAAATCTGACATTTGAAAAAGGAAATAACAAGCTTTCCTGGAGCTTTATTAGTCAGGGTGAAGGATATTTTGAAGTACAGTATGGGGAACAGGGTTTCTCTTTAGGAAAGGGAACTACAGTGGTTACCAACAAGTATTTTTATAACCTTCCTCTTTATAAAGATAATAAATACGACCTTTATGTGAGAAAAAATTGCGGAACAGCTAATGGGCGTAGCCATTGGGCGGGACCTGTTACAGTTTTGGCCACTAATACAACAACCTGCGTAAAGCCAGAGTATGCAACCTATTCAAAAACAACTTCTTCTGTGAATTCTTCTGTTTTTGATGCTACAGTATCCTGGGAAAATGATGGGGTCTCTACCTATGAAACTGTTTTGACTACAAGTTCTGCACCCCCTGCAAGTGGAGAATTAGTAATTGGAGGTCAAAAAGCCATCTATGTAGGATTAAGTAAAACCGTTAATTATAATTTTTTTGTGAGAAAAAGATGCTCTGATAATACTTTTAGCGGGTTTTATGGTCCTTATCAGATAAAGTGGAATTAG	MKKIISILLFFALCTAGCIGDSPYDPQAQCGTPTNLTFEKGNNKLSWSFISQGEGYFEVQYGEQGFSLGKGTTVVTNKYFYNLPLYKDNKYDLYVRKNCGTANGRSHWAGPVTVLATNTTTCVKPEYATYSKTTSSVNSSVFDATVSWENDGVSTYETVLTTSSAPPASGELVIGGQKAIYVGLSKTVNYNFFVRKRCSDNTFSGFYGPYQIKWN				NA	NA	NA	NA	NA
BMS003_00628	1014	iolG_1		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTATTTTATAAATGTACATTCACTATATTTACAAAAATTTAATACAGCTATGTTAAAAGCAGGTTTGGTAGGTGCCGGACACTTGGGAAAAATACATTTAAAACTTCTTAATCAGTCAGATAGATATGAATTTGTAGGTTTCCATGATAAAGATGTTGAAAACGGAAAAAAATTAGAAGCCGAATTCGGGTATAAGTATTTTGAAAACTTTGATGAATTGCTGGAGCAGATTGACATGCTTGACATTGTAACTCCCACCGTTTATCATTATGATTATGCTTTAAAAGCTATTGAAAAAGGTCTTCATTTCTTTATTGAAAAACCGGTAACCCAGACACTTGAGCAGGCAGAAGAGATCCTTCGTTTATGCCAGGAAAAAGGAATCAAAGCACAGGTAGGACATGTTGAGCGATACAACCCAGCGTTTATTGCTACGAAGGAATACATCTCTACTCCGATGTTTATTGAAATTCACAGGCTGGCCGAATTTAATCCGCGTGGCACGGATGTTTCTGTAGTATTGGATCTTATGATTCACGATCTTGATATTCTTTTAAGCATTGCAAAATCCAAAGTAAAAAACATCCACGCAAGCGGCGTTTGTGTAGTCAGCAAAACTCCGGATATTGCCAACGCAAGAATAGAGTTTGAAAACGGATGTGTAGCCAACCTTACCACTTCCAGAATTTCTATGAAAGCGATGAGAAAAAGCAGATTCTTCCAGAAAGATGCTTACATTTCTGTTGATTTCCTTGAGAAAAAAGCTGAAGTGATCAGAATGAAGGATGCACCCGAGACTCCTACTCCATTTGACATGATCATTGAAAATGCGGAAGGAGAAAAGAACCAGATTTTGTTTGAATATCCAAATATCCAGCCTAATAATGCTATTTTGGATGAATTGAATTCTTTTGCAGATGCCATCACCGGTGATAAAAATGTAGAGGTGTCTTTGGAAGATGGTACTGAAGCATTGAAAGTGGCTTTGGAAATTATGAAACTGATCAGTTAA	MYFINVHSLYLQKFNTAMLKAGLVGAGHLGKIHLKLLNQSDRYEFVGFHDKDVENGKKLEAEFGYKYFENFDELLEQIDMLDIVTPTVYHYDYALKAIEKGLHFFIEKPVTQTLEQAEEILRLCQEKGIKAQVGHVERYNPAFIATKEYISTPMFIEIHRLAEFNPRGTDVSVVLDLMIHDLDILLSIAKSKVKNIHASGVCVVSKTPDIANARIEFENGCVANLTTSRISMKAMRKSRFFQKDAYISVDFLEKKAEVIRMKDAPETPTPFDMIIENAEGEKNQILFEYPNIQPNNAILDELNSFADAITGDKNVEVSLEDGTEALKVALEIMKLIS				NA	NA	NA	NA	NA
BMS003_00629	1731			hypothetical protein	ATGAAAAGAGCCATTCTATTATCCGCACTTTTATTGTCTCAATTTGGGACATCGCAATTACTGAAAACTTCAGGACAAAAAATCGTTAATGATAAAGGTGAAAATATTCAATTGAAAGGCCTTGGTCTTGGTGGTTGGATGCTTCAGGAAGGATATATGCTGAAAACTGCCGATTTTGCAGGTCCTCAGTATAAGATTAAGGAGAAAATTGCAGAATTAATTGGTGAAGACGGAATGAATGAATTCTACAAAGCTTACCTGAAAAACGGAATCACAAAGCAGGATATCGACTTTCTAGCCAAAGCAGGATTTAATTCGATAAGGCTTCCAATGCATTACAATCTTTATACGCTGCCTATTGAAAAGGAGTCTGTAAAGGGGAAAGATACCTGGCTGGATGAAGGTTTTAAAATGACAGATGATCTTCTTCAATGGTGTATGGATAACAAAATATATTTGATTCTGGATCTTCATGCGGCTCCGGGTGGCCAGGGAAATGATGCGAATATCTCTGATAATGATAAGTCTAAACCTTCGCTTTGGGAGAATGAAGAGAATCAGAGAAAAACTGTAGCTCTGTGGAAAAGACTGGCTGAAAGATACAAAGACAATCCATGGATTGGAGGTTATGATCTGATTAACGAGCCTAATATCAATTTCACAGGGAAAAACCCGAATGGTACGGATGAAATGTCTAATGCTCCACTTTGGAAGCTTCAGAAAGACATTACGGCAGCGATCAGAGAGGTTGATCAAAAGCATATTATCTTCATTGAAGGAAACGGATGGGGAAATAATTACAACGGATTACCGGCTATCTGGGATAACAATATGGCTTTCAGCTTTCATAAATACTGGAATTACAATGATGATCAGACACTGAAATTTGCTCTGGAACTCAGAGAGAAGCACAATATGCCAATCTGGCTTGGAGAAACGGGGGAAAATTCTAATGTATGGTTTACTGAGCTGATTCAGCTTTTGGGTAAGCACAATATCGGTTATGCCTTCTGGCCAATGAAAAAGATTGATAATATTGCAGGAATTACCAATGTGAAAATCACGCCTGAATATGAAAAGCTATTGGATTATTGGAAAAATGGCGGTGAAAAACCTTCTAAAGAGTACGCCAAAAAAGCTTTACTACAGATTGCCGATAATTATAAACTGAACAACACTGAGATTAAAAGAGACGTGATTGACGCGATGTTCAGACAGGTTACAGATGCTTCTACGCAACCATTCAGAAACCATCAGGCTCCGGGAAGAATATTCGCTTCAGAATATGATTTGGGAAGAATGGGTGCTGCCTATCTGGATAAGGATTTCATTAATCTTTGGGTAAGTGATCCGGCTAAAAGATCGGAATGGAACTCCGGACAGCAGATGAGAAATGATGGTGTAGACATCTACAAATGTAATGACAAGTTTACCAATCAGTACTATGTAGGAAAAACAGAATCCGGAGAATGGCTTCAGTATACAGTTCAGTCTAAAGGAGAGAAAAATTATACAGCTGACATCAGATATGCGGCTGCCAATGATTCTAAAATTAGAATTGAAACGGCTTCCGGAAAAGTTTTAGCTACAGTACTCCTGGCATCCACCGGAGGAAACGAAAACTGGAAAACTGCCTCCGTAAAAAACATCAGTCTTCAGAAAGGAGAAAACAAAATCAGAATCGTCTTTGAAAATGATGGCGTCAATCTGAATTATTTTGAATTAAAATAG	MKRAILLSALLLSQFGTSQLLKTSGQKIVNDKGENIQLKGLGLGGWMLQEGYMLKTADFAGPQYKIKEKIAELIGEDGMNEFYKAYLKNGITKQDIDFLAKAGFNSIRLPMHYNLYTLPIEKESVKGKDTWLDEGFKMTDDLLQWCMDNKIYLILDLHAAPGGQGNDANISDNDKSKPSLWENEENQRKTVALWKRLAERYKDNPWIGGYDLINEPNINFTGKNPNGTDEMSNAPLWKLQKDITAAIREVDQKHIIFIEGNGWGNNYNGLPAIWDNNMAFSFHKYWNYNDDQTLKFALELREKHNMPIWLGETGENSNVWFTELIQLLGKHNIGYAFWPMKKIDNIAGITNVKITPEYEKLLDYWKNGGEKPSKEYAKKALLQIADNYKLNNTEIKRDVIDAMFRQVTDASTQPFRNHQAPGRIFASEYDLGRMGAAYLDKDFINLWVSDPAKRSEWNSGQQMRNDGVDIYKCNDKFTNQYYVGKTESGEWLQYTVQSKGEKNYTADIRYAAANDSKIRIETASGKVLATVLLASTGGNENWKTASVKNISLQKGENKIRIVFENDGVNLNYFELK	PGPT0018620_2182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS003_00630	879	per1		Extended-spectrum beta-lactamase PER-1	ATGAAAAAAACAGCATTCATTTTTCTCCTGATTTCAGCATTTACATTTGCTCAGACGTCCTTTTTGGAACAGAAAATAAATTCAATTATTAAAAACAAAAAAGCTACGGTAGGTGTTTCCGTCCTGGGTTTTGAAAATGGTTTTAAATATGATAAAAATGCAGACAAAAAGCTCCCGATGCAAAGTGTATTCAAGTTTCACATTGCTGCAGCCGTTCTTGATCATGTAGATCAGGGAAAGCTTTCTCTGGATCAGAAAGTAAAATTAGATCAATCAAATTTGCTTGAGAACACATGGTCGCCACTCCGTGATAAGTACCCCGGAGGAAATGTTGAAATTCCGCTAAGTGAAGTGATAGAATATACGGTTGCCAAAAGCGATAACAACGGCTGTGATATTCTTTTAAGATTATTGGGAGGTACTCAGACTGTACAGAAATTTATGGATTCTAAGGGTGTGAAAGATTTCCAGATCAAATATAATGAAGAAGAAATGCATAAAGGCTGGAATGTACAGTATGAAAATTACAGCACTACAAAATCAGCAGTTGATGCCCTTAAAAAATTCTATCATGGAAAATTACTTTCCAAAAAATCGACAGATTACCTGATGAAAGTACTATGGTCTACCTCAACGGGATTGAATAAAATGGTAGAGCAGCTTCCAAAAACCACTCCTGTGGCAAGAAAAACGGGAGCGTCAGGGAAAAATAATGCAGGTTTAACGGGTGCAGAAAATGAAATAGGGATCATTACTTTACCTAATGGCAAACATTATGCATTAGCTGTATTTGTCAGTAACTCAACGGAAACGGATGCGGTCAACTGCAAAATGATTTCGGATATTTCCAGAGAGGTTTGGGAATATTTTAATAAATAA	MKKTAFIFLLISAFTFAQTSFLEQKINSIIKNKKATVGVSVLGFENGFKYDKNADKKLPMQSVFKFHIAAAVLDHVDQGKLSLDQKVKLDQSNLLENTWSPLRDKYPGGNVEIPLSEVIEYTVAKSDNNGCDILLRLLGGTQTVQKFMDSKGVKDFQIKYNEEEMHKGWNVQYENYSTTKSAVDALKKFYHGKLLSKKSTDYLMKVLWSTSTGLNKMVEQLPKTTPVARKTGASGKNNAGLTGAENEIGIITLPNGKHYALAVFVSNSTETDAVNCKMISDISREVWEYFNK	PGPT0028070_2151	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
BMS003_00631	411			hypothetical protein	ATGAAAAAATTAATAGTAACAACAGCTTTATTGGCATTCACATTCTTTTATTCTCAGAAGAATCAGAATTACCTGCAAATAAGCTATGGAAGTGTATGCTGCGGTCCGCCATCTGATAAGCCTGTTATGAGTTTCCTGAAAGAATTTAAGAATAAAAGCCAGATCAAAAGCATGGAAATCCTGATCCAAAAAGGAAGAGGCAGAGAAGGCGAATATACCTTATATGTGGGCACAGATTTTCTTACAAAAAATCAAAAAAAACGATTAATAAGAGGATTAACGGCTACTGTTTCCAATCAGAACAATAATAAGAAAAGTCAAAGTACAGGAAATGTTTCCTTTGACTCTACAGCTGTTGTCACACAATCGGATCTTACAGACGTAAAAAATTTAACTATCTATAAAAAATAA	MKKLIVTTALLAFTFFYSQKNQNYLQISYGSVCCGPPSDKPVMSFLKEFKNKSQIKSMEILIQKGRGREGEYTLYVGTDFLTKNQKKRLIRGLTATVSNQNNNKKSQSTGNVSFDSTAVVTQSDLTDVKNLTIYKK				NA	NA	NA	NA	NA
BMS003_00632	894	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGATCAAAAACATTGTAGTTATCGGAGCGGGAACCATGGGGAATGGTATTGCACATACTTTCGCACAAAGCGGTTTTAAAGTAAATCTTGTAGATGTATCCCAGGAAGCTCTGGACAGAGGTTTAAAAACCATTACTACCAATCTTGACAGAATCATTGCAAAAGGAAATCTTACAGAAGAGCAGAAAGCTGAAACTTTAGGCAATATCACTACTTTTACTGCTCTGAATGATGCAGCAGGTGCTGCAGATCTTATTGTAGAAGCTGCAACAGAAAATCTGGATCTTAAATTAAAGATCTTCGGTCAGATGGATGAACTGGCTCCTGCCAGCTGTATCCTTGCTACCAATACTTCTTCCATTTCTATTACGAAAATTGCCGCTGCTACCAAAAGAGCGGATAAAGTAATCGGAATGCACTTTATGAACCCGGTTCCTATTATGAAACTGGTAGAGATCATCAAGGGATATTCTACTTCAAAGGAGACTTTTGACTCGATTTATGAAATGAGTAAAACGCTTGGCAAAGTTCCTGTAGAGGTAAATGATTACCCGGGTTTTGTGGCTAACAGAATTTTAATGCCCATGATCAATGAATCTATCGAAACACTTTATAATGGAGTGGCAGGTGTAGAAGAAATTGATACGGTAATGAAACTGGGAATGGCTCATCCTATGGGTCCGCTTCAATTGGCAGACTTTATTGGTCTTGATGTATGCCTTGCGATTCTGAATGTGATGTATGACGGTTTTAAAAATCCCAAGTATGCTCCCAATCCATTGCTAGTAAATATGGTGACAGCCGGAAAACTGGGGGTAAAATCGGGGGAAGGGTTCTACGATTATTCTGAAAGCAAAAAAGCTGAAAAAGTTTCAAAAATGTTTTTGAAGTAA	MIKNIVVIGAGTMGNGIAHTFAQSGFKVNLVDVSQEALDRGLKTITTNLDRIIAKGNLTEEQKAETLGNITTFTALNDAAGAADLIVEAATENLDLKLKIFGQMDELAPASCILATNTSSISITKIAAATKRADKVIGMHFMNPVPIMKLVEIIKGYSTSKETFDSIYEMSKTLGKVPVEVNDYPGFVANRILMPMINESIETLYNGVAGVEEIDTVMKLGMAHPMGPLQLADFIGLDVCLAILNVMYDGFKNPKYAPNPLLVNMVTAGKLGVKSGEGFYDYSESKKAEKVSKMFLK	PGPT0006075_2154	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
BMS003_00633	240			hypothetical protein	ATGAAATTACCAAAGTTTTTATTAGCAGATAATTCGGAATTTCCAGAGGATCTATTCGTAGTTCATACAGAATATCCAAGATTTATCTTAAACGTTGAGGAAGAAGAAGTTGAGTGGTTAGATGATCTTGAAGGTGATGATGAAGAAACGATGGCAGACGAAGCTACCAAAGTAGTAGAAGCAGCGTTCAAATGGTGCGACGAAGAGTTGGCTAAGTACGATGAAGAAGAGGAAGATTAA	MKLPKFLLADNSEFPEDLFVVHTEYPRFILNVEEEEVEWLDDLEGDDEETMADEATKVVEAAFKWCDEELAKYDEEEED				NA	NA	NA	NA	NA
BMS003_00634	411			hypothetical protein	ATGAAAAATCTTTTTTTAAGTATATGTGCAGCAGCTGTTTTGGCTTCATGTGGATCTATGACAAGCTCATCTGCATCTAAAGTAGGAAAAGCTCAGCCTGCTCTCACCAATACCAAATGGACACTGGCTGAAACCGTAAAAGGTAAAGTTCCAACATTGAATATTGAAGGAGAAAAGATCACTGGAAATGCGGGATGTAACAACTATTTCGGAACGGCTACCATAGATCCGTCTACAGGTGGATTTACTGCTGGACATATGGGATCTACAAAAATGATGTGCAATAACATCGGAGTAGAGCAGAACTTTATGGATATGATGGGAAAAGCAAATAAGTATGTGATTTCCGGAAATACTTTAGAACTGTACAAAGACAATCTTTTACTATTGAAATTCACAAAATCAGAATAA	MKNLFLSICAAAVLASCGSMTSSSASKVGKAQPALTNTKWTLAETVKGKVPTLNIEGEKITGNAGCNNYFGTATIDPSTGGFTAGHMGSTKMMCNNIGVEQNFMDMMGKANKYVISGNTLELYKDNLLLLKFTKSE	PGPT0014615_741	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668	NA	NA
BMS003_00635	2403	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAAATATCAAACAACTGGCTGAAGGACTTTGTAAAAACGGAATCAAAAACTGAAAGAATCGGTGAATTCCTTACAGATATAGGTCTTGAAGTTGAAGGGATAGATAAATTTGAAAGTGTAAGAGGCAGCCTGGAAGGAATTGTTGTAGGTAAAGTACTTACCTGCGAAAAACATCCTAATGCTGACAAACTGAAGAAGACAACAGTAGACGTAGGAAACGGGAAGGTGCTGAATATTGTTTGTGGAGCTCCTAATGTAGAAGCTGGGCAAACCGTTCCTGTAGCCGTTGTCGGAACAAAAATCTATGACAAAACCGGAAACTTTTTTGAAATTAAAGAAGCAAAAATCAGAGGAGAGGTTTCCCAGGGAATGATCTGTGCGGAAGACGAACTAGGTCTTAGTGATGATCATGGAGGAATCATGATGCTGGATGAAACTAAATATGAAGTGGGGAAAAACTTTGCTGATTATTTTGAGCTTACCAATGATGAGGTATTTGAAATCGGATTAACACCGAACAGAACAGATGCTATGTCTCACTATGGGGTGGCAAGAGATTTACACGCTTATCTTTCTACGAACCAATTGAAGTCACAATTTGACAAAGTAGCTTCCGAAGTATTGAATAACGAGGGAACTCATGATTTCAAACTGGAAATTGAAGATGCAGAATTGTGTCCGAGATATATCGGAGCTGTGATTGAAGACGTAAAAGTAGCAGAATCACCATCCTGGTTGAAAGACAGACTGAAAGCCATCGGATTAAGCCCCATTAACAACGTAGTAGATATTACCAACTATATTCTTCACGGGTACGGACAGCCGCTTCACGCATTTGATGCAGATAAAATTGCAGATATGAAAGTGAAAGTAGGAGTGGTGAAGCCGGGAACGAAATTCACAACTTTAGATGGGGTTGAAAGAACACTGAATGGTTCTGAAATCATGATCAAAGACGGTAAAGATAACCCTATGTGTATTGCCGGAGTATTCGGTGGTGAGAACTCAGGAGTATCTGATACTACAAAAACAATATTCCTTGAAAGTGCTTACTTTAACCCGATTGCCGTAAGAAAAGGAGCTAAAGCGCACAGCTTGAATACAGATGCTTCTTTCAGATTTGAAAGAGGAGTAGACCCGAATCTTACAAGAACAGCAATCACTCACGCCATTAAAATGATTCAGGAACTTGCTGAAGGAAAATTAGTAGGAGAGTTACTGGAAGAGTACCCTAAGAAAATAGAAGACAGCTATGTGATTCTTAGATTCTCTAAAATTGAACAGATTCTAGGAACAAAAATTCACAGAGAAAAAGTAAAAGAGATCTTAAAAGCACTGGAAATTCAGGTTTTAAATGAAATTCCTAACGGTTTCGAAATCTCAGTTCCTGCATACAGAGCAGATGTGACAAGAGAAATTGATGTGATTGAAGAGATCTTAAGAATCTACGGATACAATAAAATTGACGCCCCACAGAAAATTTCGTTTACTCCTGTTAAGCTGAGTGCAAAAGATCAGGATGAGCTGGAAAACAGCTGGGCAAGAACTTTACAAAGCATTGGTTTCAATGAAGTAATGAATAACTCATTGACTTCTGTAAAAGACGAAACAGATGCTGTAAAACTATTGAATCCTTTAAGCGGTGATTTGGCATTCATGAGAAAATCTTTATTGGAAGGACTTCTTCAGAATACCGTATATAATATTAACAGAAAGAATCAGGATATCAAATTCTTCGAATTAGGAAAAATTTATCACAAAAAAGATAAATACGAAGAAAGAAAACAACTGGCATTATTGGTTTCAGGAAGAGATGTTGCAGAAAACTGGCTTCAGCCAAAATCTGCGGTAAGTTTCTATAACCTTAAAGCTTACGTAAAAGTTTTATTGGAAAGACTTGCTGTAGATTACAAAGAAGTTGCTCTTTCTGATGATAGATTCTCTGATGCTTTGGCATACGAGGCAGAAGGTAAAACTTTGGTAAGAATAGGAAAAGTTGCCCCAGCTTTATTGAAAGACTTTGATATTGATCAGGAATGTTTCTATGCAGAAATTGAACTGGAATATGCTCAGGAATTACGTTCTAAAAATGAACTGAAATTCAAAGACATTCCGAAATTCAACAAAATCAGAAGAGACTTAGCTTTATTGATTGATAAGACGGTAAACTATCAGGATTTATATCAGACTGCTAAAAAGAACAAATCTCCATTCATTAAGAATATTAACCTGTTTGATGTGTATGAAGGTAAAAATCTTCCGGAAGGCAAGAAGTCTTACGCAATGAGCTTCGAGCTGCTAAACGAAGAAAAAACACTGGAAGAAAAAGAAATTACAGAAGTAATGGATTCTCTGATCAAAGCTTTCCAGAAAGAATTCAACGCTGAGTTGAGATCTTAA	MKISNNWLKDFVKTESKTERIGEFLTDIGLEVEGIDKFESVRGSLEGIVVGKVLTCEKHPNADKLKKTTVDVGNGKVLNIVCGAPNVEAGQTVPVAVVGTKIYDKTGNFFEIKEAKIRGEVSQGMICAEDELGLSDDHGGIMMLDETKYEVGKNFADYFELTNDEVFEIGLTPNRTDAMSHYGVARDLHAYLSTNQLKSQFDKVASEVLNNEGTHDFKLEIEDAELCPRYIGAVIEDVKVAESPSWLKDRLKAIGLSPINNVVDITNYILHGYGQPLHAFDADKIADMKVKVGVVKPGTKFTTLDGVERTLNGSEIMIKDGKDNPMCIAGVFGGENSGVSDTTKTIFLESAYFNPIAVRKGAKAHSLNTDASFRFERGVDPNLTRTAITHAIKMIQELAEGKLVGELLEEYPKKIEDSYVILRFSKIEQILGTKIHREKVKEILKALEIQVLNEIPNGFEISVPAYRADVTREIDVIEEILRIYGYNKIDAPQKISFTPVKLSAKDQDELENSWARTLQSIGFNEVMNNSLTSVKDETDAVKLLNPLSGDLAFMRKSLLEGLLQNTVYNINRKNQDIKFFELGKIYHKKDKYEERKQLALLVSGRDVAENWLQPKSAVSFYNLKAYVKVLLERLAVDYKEVALSDDRFSDALAYEAEGKTLVRIGKVAPALLKDFDIDQECFYAEIELEYAQELRSKNELKFKDIPKFNKIRRDLALLIDKTVNYQDLYQTAKKNKSPFIKNINLFDVYEGKNLPEGKKSYAMSFELLNEEKTLEEKEITEVMDSLIKAFQKEFNAELRS				NA	NA	NA	NA	NA
BMS003_00636	192			hypothetical protein	ATGTACTTAGGAATTAGAAGTATATTCAAATTTTTAGCGGATGACTCTCAGAACAGGAGCATAAGATTAACTAAAATTTATTATCTTAAAGTGGCTCCTAAATTTCTCTATTTCTCAAAAAAACACGACATTTGTAGCTCGAAAAATCATACCGGAAAAGGGGTGGGATTTCAAATAAAAGTTTCAAAATAG	MYLGIRSIFKFLADDSQNRSIRLTKIYYLKVAPKFLYFSKKHDICSSKNHTGKGVGFQIKVSK				NA	NA	NA	NA	NA
BMS003_00637	1131	dnaN	COG0592	Beta sliding clamp	ATGAAATTTATTATTTCAAGTGGTGAACTGCAGAAGGCTTTGCAAACTGTAAGTGGCGTAATATCAAGCTCTCAATCGAGACCGATTTTAGAAAACTATCTTTTTGAATTAGACGGAAATAATGTTACCATTACAGCATCTGACGGCGAGACAACTCTCATTACTTCTCTGGAAGTAAAGTCTGATGATACAGGTAAATTTGCTGTTCCTGCTAAAATTTTTCAGGATTTTATCAAGACATATGGTGAGCAGCCTCTGACATTTGTTGTAAAAGACAATGCCGAAGGGACTGGAAGCCAGCTTGAGATTTTAGATGAAAAAGATAACTTCGCAGTAGCATTAGACAATGCCGATGACTATCCTGAATTACCGGAATTCGATGCTTCACAAAGCGTAACGATGCCGGCAGGAGTTTTGTCTGAAGCTTTGACAAACACACTTTTCGCTACAAGTAATGACTCTCTTCGTCCGGTAATGACAGGAGTTCTTTTCCAGTTTGGAGAAAATGAAACCAATTTCGTTTCTACAGACTCCCACAGATTGGTGGTGTACAAAAGAGCTGACCTGATGAATGCTGAGCCGATGGAGTTTATCATGCCTAAGAAACCTCTGAACATTTTCAAAAATATCCTTGCGAGTTCCAATGAAGACGTTACCATCGACTTCAATGAGAATATGGCTAAGTTTACTTTTGGTAAGCATATCTGGATCTGTAGATTGATTGACGGAAAATATCCGAACTATACAGCAGTAATTCCAAAGGAAAATCCAAATGTATTAACCATCAACAGAAATCTGTTGTTAGGAGCTATCAAGAGAGCATCTATCATGTCTAATAAATCTACCAATCAGGTAAGATTCAAGCTTTCCGGAAATATTCTTCATCTTCATGCAGAAGATACCGAATATGCAAACAAAGCAGATATGCAGATTCCTTGTGACTACAACGGAGAAGATATCAATATTGGATTCAGCTCAAAATTCTTAACAGAAATGCTGACTATTTTAGGATCGGATGATATTACCATGAAAATGTCTCAGCCTAACAGACCGGGGATTATTGAACCACTTGACGGTCTTGAAGAAAACGAAAATATCTTAATGTTATCAATGCCGGTGATCGGATTGTAA	MKFIISSGELQKALQTVSGVISSSQSRPILENYLFELDGNNVTITASDGETTLITSLEVKSDDTGKFAVPAKIFQDFIKTYGEQPLTFVVKDNAEGTGSQLEILDEKDNFAVALDNADDYPELPEFDASQSVTMPAGVLSEALTNTLFATSNDSLRPVMTGVLFQFGENETNFVSTDSHRLVVYKRADLMNAEPMEFIMPKKPLNIFKNILASSNEDVTIDFNENMAKFTFGKHIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLGAIKRASIMSNKSTNQVRFKLSGNILHLHAEDTEYANKADMQIPCDYNGEDINIGFSSKFLTEMLTILGSDDITMKMSQPNRPGIIEPLDGLEENENILMLSMPVIGL				NA	NA	NA	NA	NA
BMS003_00638	357			hypothetical protein	ATGCAAAAACCTCCCATCCATACAAGTTTTCTCAATGCTTTGCGGGGTGTTTTTATGATGATAAAAACAGAGAGAAATTTCCAGATCGAGCTTCTGGCGTTCTTTGTCAATCTCTTCCTTATTTTTTATTTCAAATTAAACTATATAGATACCATATTGGTTCTTATGGCTTCTTTTGCTGTTTTAAGTGCCGAAATTTTCAATACTGCTATTGAAAAGATCTGCGATATCATTCAACCTGATTTTGACAAAAGAATTGGCTTTATCAAAGATATTGCAGCTGGGGCTGTTATGCTGACTGCCATTGCAGCAGTAATTGTGGGGATTCTGGTGTATGGAAAATATGTTTTTAGCTAA	MQKPPIHTSFLNALRGVFMMIKTERNFQIELLAFFVNLFLIFYFKLNYIDTILVLMASFAVLSAEIFNTAIEKICDIIQPDFDKRIGFIKDIAAGAVMLTAIAAVIVGILVYGKYVFS	PGPT0024340_4935	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS003_00639	459			hypothetical protein	ATGACTAACGTAAAAATAGAACCTTTTAAAGTAATCGGTATCTCGGTGAGAACAACCAATGAAAATGGACAAGCAGGAAAAGATATTCCGGTATTATGGGAGAAAATGATCAGTGAAGATATTCTCAATTCAATTCCGAATAAGATCGACAATACCATTTATTCCATCTACACAGATTACGAAAAAGACCATACAAAGCCTTATACAACAGTTCTCGGATGTAAAGTAGAAAGCCTTGATAATATTCCGGAAGGAATGGCAGGTTATTCTTTTGAGGGTGGAGACTATCTGAAATTTACCACAAAAGGAGATCTTTCAAAAGATCTGGTGATTAATGAATGGATCAAAATCTGGAACATGAATCTGGAAAGAACATTTACCGCCGATTTTGAAGTCTACGGAAAAAAAGCACAAAATCCGTCACACGCCGAAGTTGATATTTTCATCGCTGTGAAATAA	MTNVKIEPFKVIGISVRTTNENGQAGKDIPVLWEKMISEDILNSIPNKIDNTIYSIYTDYEKDHTKPYTTVLGCKVESLDNIPEGMAGYSFEGGDYLKFTTKGDLSKDLVINEWIKIWNMNLERTFTADFEVYGKKAQNPSHAEVDIFIAVK				NA	NA	NA	NA	NA
BMS003_00640	333			hypothetical protein	ATGCCACATTTATTTTCTTACGGAACCTTGCAGAAAGAACAGGTTCAAATGGAAACTTTTGGAAGACTTTTACAAGGTGAAAATGACATTTTATCAGGCTACAAATTAAGTATGCTTGAAATTGCAGATCCCGAAGTACTGCGAAAAAGCGGTCAGAAATACCATCCCGTACTTGAATTTTCTGGAAATGATGATGATCAGGTAGAAGGAGTACTTTTTGAAGTAACAGAAGCAGAAATCCTTCAGGCAGACGGATATGAAGTAGATGATTACAAGAGAATTGAAACCGTTTTTAAATCTGGAAAGAAAGGATTTATCTATGTCGGGAAATAG	MPHLFSYGTLQKEQVQMETFGRLLQGENDILSGYKLSMLEIADPEVLRKSGQKYHPVLEFSGNDDDQVEGVLFEVTEAEILQADGYEVDDYKRIETVFKSGKKGFIYVGK	PGPT0007135_4	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
BMS003_00641	630			hypothetical protein	ATGAAGAAAATTATTTATGGACTGTTCTTCGGTGACAGCATTACCTATGGAGAATATGACGGAGTTTTTGGTGGATGGGTAGATATTCTGAAAAGATATGCCCTGCAAAAATTTCACGAAGGAAATGGAGATGAGCTCATTCTGTTCAATCTCGGGATAGGAGGAGAAACTACAGACGGACTATTAAAAAGAATTCCTCATGAATTAAATGCAAGAAATTCCGCTGATGGAAATATCGTTTTTCTAAGTTATGGAGCCAATGATCTTGCGGTAAAAGATGGAGTACAGATCGTAGATCCTGAAAAGTTTAAAAATAATATCAAAGAAGCTGTCGCACATGCCAGACAGTTTTCTAATGAAATTTACGTAGTAAGCATTCTTCCTTTCTCTCAAAAAATAGATGGAGTAGTGGTAAGTTCCGGAAAAAAAAGAATCAATGAAGATGTAGTTGTTTACAATCAGATCTTGAAAGATATTGCAGCTGAAAATTCTCTGACATATATTGATTTCTATTCTGCTTTCCTGCTGGATAAAGAGATTCTACTTTCTGCAGATGGTGTACATCCCAACGAAAAAGGTTATGGAATGATGGCCGAAATCGCAATCCCAATCATTGAAAAATATTTATAA	MKKIIYGLFFGDSITYGEYDGVFGGWVDILKRYALQKFHEGNGDELILFNLGIGGETTDGLLKRIPHELNARNSADGNIVFLSYGANDLAVKDGVQIVDPEKFKNNIKEAVAHARQFSNEIYVVSILPFSQKIDGVVVSSGKKRINEDVVVYNQILKDIAAENSLTYIDFYSAFLLDKEILLSADGVHPNEKGYGMMAEIAIPIIEKYL	PGPT0001840_1776	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS003_00642	381			hypothetical protein	ATGATCGTCATCCATGGCGGTCATTTTTCGTCTTTAGAAGGTTTCTATGAAGAAGCTTCCAGTGTCCTGATGAAAGATACTGACTGGAAAGTAGGAACGTTGGATGGTTTTGATGATATTCTCTACGGAGGTTTCGGAGTAATTGAAGGCAAAGAAGAAATTGAAATCATCTGGAAAGAATCAGAAAAGTCAAAAGAAGATTTAGGCTTTACTGCTACCTGTGAATTCTACAAAAATAAAATCAGACAGGGAAAGCCTTTCAACATAGAATTAATTCAGCAGAAACTAGATGATTTGACCGAAGGAAAAGGACAAACACTTTTTGAAATCCTGATTGAAATTATAGAATCACATACCAATATTACACTGAAACTGGAATGA	MIVIHGGHFSSLEGFYEEASSVLMKDTDWKVGTLDGFDDILYGGFGVIEGKEEIEIIWKESEKSKEDLGFTATCEFYKNKIRQGKPFNIELIQQKLDDLTEGKGQTLFEILIEIIESHTNITLKLE				NA	NA	NA	NA	NA
BMS003_00643	3696	purL	COG0046	Phosphoribosylformylglycinamidine synthase	ATGTCTAATAACAAAAGAATTTTCGTAGAAAAAAGAGGAATTTTCGATGTTGAAAGTCCAAAAATTTTTGATGAAGTAAAAGCGGTTGTTCCGGCAGTTCAAAGCGTGAAAGTATACAACGTATATGATATTTTTAACCTGAACGACGGAGAATTCGAAAAAGTGGTGAACAACACTTTCGTAGACCCTGTTACTGATATTTTACATACAGAAAACCCTGCAAAAGCTATCCATTTCGGAATGGAATTTTTGCCAGGCCAGTATGATCAGAGAGCAGATTCTGCACAGCAGTGTATCGCTTTACTGACGGAAAATGAAAAATCAAAAGTAAGAAGTGGAAAATTAATCGAATTTGAAGGAGTTTCTGACTCAGATTTAGTTAAAATCAAAGACCTTCTGATCAACAAAGTAGAATCTCAGGAAAAAGACCTGTCCATTTTGGATATTCCTGCAGATGAAACCCCATCAAAAGTAATCATCCACGAAAACTTCATCAATTTCAACGATGCGGAACTTGAAAGTTTCTACAACAACCACGGTTTTGCATTAGGATTGGACGACTTGAAATTCATTCAGGAATACTTCAAAACTGAAGAAAGAAATCCTACGGAAACAGAATTAAAAGTATTAGACACATATTGGAGCGACCACTGCCGTCACACCACTTTCGAAACACAGTTGTCAGACATTCAGTTTGAAGGTCAGTTCAAACACACATTGGAAACTATTTTCAATGATTATATCGAAAAAAGAAAATTCTTAGGCCGTGAGCTGAAACCAATTTCCTTGATGGATCTTGCAACAGTATGCGGTAAATATTTCCATAAAACAGGAAACCTGGATAATCTTGTTATCTCAGACGAGATCAATGCATGTACCATCCAGATTGAAGCAGAATACGATGGTAAAAAAGAGCCTTGGTATTTATTATTCAAAAACGAAACGCACAACCACCCAACAGAAATTGAGCCTTTCGGAGGTGCTTCTACTTGTTTGGGAGGTGCTATCAGAGACCCATTATCCGGAAGATCTTTTGTTTTCCAGGCGATGAGATTAACAGGTGCAGCAGACGTTTTAGAATCTGTTGACAAAACATTACCAGGGAAATTACCTCAGAAAACCATTACAAAACAGGCTGCCAACGGATATTCGTCTTACGGTAACCAAATTGGTCTTGCCACTACAATGGTTTCTGAAATTTATGATGAAGGGTACAAAGCCAAGAGAATGGAAGTAGGTTTCGTTACCGGAGCTGTTCCTGTAGACTGGGTAAGACGTGAAAAGCCTGAAAATGGAGATTCAATCATTATTTTAGGAGGAGCAACAGGTCGTGACGGAGTAGGAGGAGCAAGCGGAAGTTCAAAAGAGCAGGACGAAACTTCTATCCACACGATGAGTTCTGAAGTTCAGAAGGGAAATGCTGTAGAAGAGCGTAAAATCCAGAGATTATTCAGAAATCCTGAAGTAACGAAGTTGATCAAAAAATCAAATGACTTCGGAGCAGGAGGAGTTTCTGTAGCGATTGGTGAAATTGCAGACTCTTTAGAGGTAAACCTTGATGTATTACCTTTAAAATATGAAGGATTAAACGGAACCGAGCTGGCTATTTCTGAATCTCAGGAAAGAATGGCTGTAGTAGTAGATCCTCAGGATAAAGAAAAATTCATCAAATTCTGTGAAGCTGAAAACATTGTTGCTGTAGAAGTAGCAAAAGTGACAGATTCCGGAAGAATGCAGATGTTCTGGAAAGGAGACAAAATTGTAGACCTTTCAAGAGCTTTCTTAGATACCAACGGATGTTCAAAATCTCAGGAAGTGAAAATCACTCACCTTGAAGAAGTAAAAGAAGAGACAAAAACGTTTACAGCAGAAAACTTCCTGAACATCTTAAAAGATAAAAACGTAGCTTCCCAAAAAGGACTATTGGAAATGTTCGACTCTTCTGTAGGAGGAACTACCGTAGCAATGCCTTTAGGAGGGAAATATCAACAGACCTTAATGGAAGGAAGTGTGCAGACACTACCGATCTTAGGAGCAAAAGATATTAAAACTGTTTCTTTGGCAAGCTGGGGATTCGATGCTGAAATTTCAAAACAAAACTCACTGTTAGGATCATCTTACGCCGTAGTAGAAAGTGTGGCGAAGATTGTAGCGATGGGAGGTGATTATAAAAATATCAGACTAAGCTTCCAGGAATATTTTGAAAAACTAGGTCAAAATCCTGAAAAATGGGGTAAACCTTTAGCTTCACTTTTAGGAGCTTACGATGCGCAGATGAATTTAGGTCTTGCAGCCATCGGAGGAAAAGACTCTATGAGTGGAACATATCAGGATCTGAATGTTCCACCAACCTTGATTTCTTTTGCATGTGCTAACGGGGACAAAGAGAATATTATCTCTCCTGAATTGAAAAACGCAGGAAACAAACTGTATTTCTTCAATCATATTGCTCAGGAAAGCGGACTTCCAAACTATAATGCTTTAAAAGAAGTTTTTGAATTCATTTTCGAAAATATCAAAGCAGGAAAAATTGTTTCAGTGAAAACAGTGAAAGAAGGAGGTCTTGCAGTAGCTTTAGCAAAAATGAGCTTCGGAAACAGATTAGGAGCTGAAATTAACGCTGATGAAAATGCTTTATTGGCTAAAAATATCGGTAGCTTAATCATTGAAGCAAAAGAAGAATTAAGCTCTGTAAACCTTCAGTTGATTGGAAAAGTGATTGAAGATGAAATTTTGATCATCAACAATTTCAAATTTCAGATTTCAAATCTCGAATCCAGTTTTACTGGTACATTCGAAAACCTTTTCCCGACTGTTGAAAAAGAAAAGATCACCGTTGAAATAGATGCAAAACACAATTCTGTCAACCCAAGAAATATCATCATTAAAAAACACGGAATTGCACAGCCAAAAGTTTTTGCTCCGGTATTCCCGGGAACCAACTGTGAGTATGACACACTGAATGCATTCCAGAAAGAAGGTGCTGTAGTAAGCAGTTTACCTTTAATCAATATCAATCACCAGTTACTGGATGAAAGCATTGATGCATGGGTAGAAGAGATCAGAACTTCTCAGATTCTGGCATTCTCAGGAGGTTTCTCTGCAGGTGATGAGCCGGATGGTTCCGCAAAATTCATTGTGAACGTTCTGAAAAATGAGAAAATGAAAAATGCAGTTCATGAACTATTAGACAGGGACGGAATGATCATCGGGATTTGCAATGGATTCCAGGCTCTTGTGAAGTCAGGATTACTGCCGTACGGAAGAATCAAAGATTTGGATGAGAATTCTCCAACATTGGCTCACAACGCTATCAGAAGACACATCTCTCAGATGGTAACGGTACAGGTAGTAAATGACGAAAGCCCTTGGTTAAAAGGAATGAAAGGACAAACTTTCACCATTCCGATTTCCCACGGAGAAGGACGTTTCATGGCTTCGGAAGAAGAAATCAAGAAATTGTACGAAAACGGACAGATTGCCACTCAATACATTGATCTTGATGGAAACATTGCCCACGGAATGCCATTCAACCCAAATAATTCATTATTCGGAATTGAAGGAATTACCAGCCCATGCGGAAAGATCTACGGAAGAATGGGGCACCCGGAAAGATTTGCTGAAGGTCTCATGAAAAATATACCAACTGCGAATTATCACAACATATTCAAAAACGGTGTTGAATACTTCAAATAA	MSNNKRIFVEKRGIFDVESPKIFDEVKAVVPAVQSVKVYNVYDIFNLNDGEFEKVVNNTFVDPVTDILHTENPAKAIHFGMEFLPGQYDQRADSAQQCIALLTENEKSKVRSGKLIEFEGVSDSDLVKIKDLLINKVESQEKDLSILDIPADETPSKVIIHENFINFNDAELESFYNNHGFALGLDDLKFIQEYFKTEERNPTETELKVLDTYWSDHCRHTTFETQLSDIQFEGQFKHTLETIFNDYIEKRKFLGRELKPISLMDLATVCGKYFHKTGNLDNLVISDEINACTIQIEAEYDGKKEPWYLLFKNETHNHPTEIEPFGGASTCLGGAIRDPLSGRSFVFQAMRLTGAADVLESVDKTLPGKLPQKTITKQAANGYSSYGNQIGLATTMVSEIYDEGYKAKRMEVGFVTGAVPVDWVRREKPENGDSIIILGGATGRDGVGGASGSSKEQDETSIHTMSSEVQKGNAVEERKIQRLFRNPEVTKLIKKSNDFGAGGVSVAIGEIADSLEVNLDVLPLKYEGLNGTELAISESQERMAVVVDPQDKEKFIKFCEAENIVAVEVAKVTDSGRMQMFWKGDKIVDLSRAFLDTNGCSKSQEVKITHLEEVKEETKTFTAENFLNILKDKNVASQKGLLEMFDSSVGGTTVAMPLGGKYQQTLMEGSVQTLPILGAKDIKTVSLASWGFDAEISKQNSLLGSSYAVVESVAKIVAMGGDYKNIRLSFQEYFEKLGQNPEKWGKPLASLLGAYDAQMNLGLAAIGGKDSMSGTYQDLNVPPTLISFACANGDKENIISPELKNAGNKLYFFNHIAQESGLPNYNALKEVFEFIFENIKAGKIVSVKTVKEGGLAVALAKMSFGNRLGAEINADENALLAKNIGSLIIEAKEELSSVNLQLIGKVIEDEILIINNFKFQISNLESSFTGTFENLFPTVEKEKITVEIDAKHNSVNPRNIIIKKHGIAQPKVFAPVFPGTNCEYDTLNAFQKEGAVVSSLPLININHQLLDESIDAWVEEIRTSQILAFSGGFSAGDEPDGSAKFIVNVLKNEKMKNAVHELLDRDGMIIGICNGFQALVKSGLLPYGRIKDLDENSPTLAHNAIRRHISQMVTVQVVNDESPWLKGMKGQTFTIPISHGEGRFMASEEEIKKLYENGQIATQYIDLDGNIAHGMPFNPNNSLFGIEGITSPCGKIYGRMGHPERFAEGLMKNIPTANYHNIFKNGVEYFK	PGPT0021585_2600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021585-purL-K01952	NA	NA
BMS003_00644	1026	yhcG_1	COG4804	Putative nuclease YhcG	ATGTTACAGAATCAAAATCATCAACAATTAATGACCGATCTTAAGGAGCTGGTAGACAAGACGAGAAGTCAGGTTGCAGTTCAGGTAAACTCGGCAATGGTGGTTTTGTACTGGGAAATAGGAAAAAGAATAAATGAAGATGTTTTAGATCATAAAAGAGCAGAGTACGGCAAAGAAGTCATCGTACAGATTTCTCAACAGCTTATGCTAGAATTTGGAAATTCATTTTCTGAAAAAAATATCCGGAAAATGATGCAGTTTGCATCTGTTTTTGATGACTTTGAAATTGTCGCATCAGCGATGCGACAATTATCATGGACTCATTTCTTGCTTCTTGTTCCCATTGCTGAAGATACTAAAAGAAACTTTTATCTTGAAGTTTGTAAAATTGAAAATTGGAGTGTCAGAGTCTTGAGAGAAAAAATCAATTCTCTGCTTTTTGAACGAACAGCAATAAGCAAAAAACCTGAGGAGATAATAGATAAAGAACTTAAAAACTGGTCTGAAAATAATATTTTAAACCCTGACTTAGTTTTTAAAGATCCCTATTTTCTTGATTTTTTAGAATTGAAAGATACCTTTTCTGAAAAAGATTTAGAAGAAGCCATTATCGTGGAGCTGCAAAAATTCATTTCTGAGATAGGAAGTGATTTCGCATTTCTTTCAAGACAAAAAAGAATCACAATAGATAATAGAGACTACTATCTGGATTTACTTTTCTATCATAGGAAACTAAAATCTCTGGTTGTTATCGAACTGAAATTAGGCGAATTTGAAGCCAGTCATAAAGGTCAGATGGAACTTTATCTCTCATATCTTAATAAATATGAAAAAGTAGAAGGGGAGAACCCTCCCATTGGTTTAATTCTTTGTTCAGGAAAAAATTCCGAACATATAGAACTCATGAATCTGGAAGGAGATAATATAAAAGTAGCAGAATATTTACTTATCTTACCTTCAGAAAAAGTTTTGCTTGAAAAATTGCACCGTTCAATAGAGATAGCAAGAAATAAATTTGAAAATTAA	MLQNQNHQQLMTDLKELVDKTRSQVAVQVNSAMVVLYWEIGKRINEDVLDHKRAEYGKEVIVQISQQLMLEFGNSFSEKNIRKMMQFASVFDDFEIVASAMRQLSWTHFLLLVPIAEDTKRNFYLEVCKIENWSVRVLREKINSLLFERTAISKKPEEIIDKELKNWSENNILNPDLVFKDPYFLDFLELKDTFSEKDLEEAIIVELQKFISEIGSDFAFLSRQKRITIDNRDYYLDLLFYHRKLKSLVVIELKLGEFEASHKGQMELYLSYLNKYEKVEGENPPIGLILCSGKNSEHIELMNLEGDNIKVAEYLLILPSEKVLLEKLHRSIEIARNKFEN				NA	NA	NA	NA	NA
BMS003_00645	972			hypothetical protein	ATGAAAAAAATACTCTTAACCATCATACTGATACCAATCATTTCTTTTTCTCAGAGTAAAGAAGATTTGCATTATTTTAAATCCAAAGATTCTTTAGTTGGTGTAAAAGATAAATCGGGGAAAATAATAGTTCCTGCACAGTTCAAAATCTTTTCATTCCTAAAAGATGGAGATCCTGTAGAAGGAGAAACCATTCTTTTTGATGGCAGTAAAGAAGGTGAGAAACCGGAAAAAAATGCATGGGGATATGTGTACGATAGAAAAGGAGAATTTCTGTATCAACCTTTCCTTTATGACAATGGAGCAGATTATTTCTCTGAAGGACTGAGAAGATGGGTTAAAAATGGTAAAGTAGGATTTGCAGACCGTAACGGAAAGACTGTGATTGAAGCTGAGCATGACTTTGCCTTTCCTTTTAATTACGGATATGCCACCTTTTGTGACGGATGCGATTGGGAAAAAACAAATGACGAGCACAGATCCATTATAGGAGGAAAATGGGGGGTGATGAATACTAAAGGACAAGCTGTTCAGCCATTGGTGAAACCCACAGAACAGGATGTTGAAATAGACGGAAAATATTATCCGAATCCGTTTCAATATAATGAAAAAGAGAAAAACATCCTTCAGTTCTTTGAAAAGCAGAAGAAAAAGCTTGCAGATCTTTATTATGTAAACTTTTACAATAAATTATCAGAAAAAGAAAAGAATCTGTTTTTTGAAATCGTAGAAAGACCAAAAGAAAACTTTCCTTATTATCAGGTGAATACCTATAACTATAGGAAGAAAGATCTGGATATGCTTTATCGTTTCAAGTTCCTGGTTTCAGAAGATGGAAAAACATTTTATGCCATTGAGGATTTTAATGAAAAGAAAACCCCTTTTGAAAACTGGCTGAAAGAAGAAATAAAAAATGCAGAAGACTTTCAGAAAGAACATAAGGATAATCCTAATAAGTTTATCAACAAATAA	MKKILLTIILIPIISFSQSKEDLHYFKSKDSLVGVKDKSGKIIVPAQFKIFSFLKDGDPVEGETILFDGSKEGEKPEKNAWGYVYDRKGEFLYQPFLYDNGADYFSEGLRRWVKNGKVGFADRNGKTVIEAEHDFAFPFNYGYATFCDGCDWEKTNDEHRSIIGGKWGVMNTKGQAVQPLVKPTEQDVEIDGKYYPNPFQYNEKEKNILQFFEKQKKKLADLYYVNFYNKLSEKEKNLFFEIVERPKENFPYYQVNTYNYRKKDLDMLYRFKFLVSEDGKTFYAIEDFNEKKTPFENWLKEEIKNAEDFQKEHKDNPNKFINK				NA	NA	NA	NA	NA
BMS003_00646	1026			hypothetical protein	ATGAAGATTTACCTGTTTTTTATTTTATCTTTATTTCCTGTGATAATATTTTCTCAGGATTTAAAACCAAATAAAAAAATCAGATCCGATGCCAATTTTAGCCATATAGTTTCAGGGATGACCGCTCCTTTTAGTTTGGGTGACTTTTCCCGAACGGCATTGTTTACAAACTCTAAAAATGACAGCGTTTTTGCTGCAGAATATGAAAATAAGAGTAACGATGCATTATTTAAATTCAAAATTATTCCGGCTTTTCTTGATGAGGAAAGGCTTTTAAATCATTATTATAAAGATTTAACTGAAAGAAGATATACTCCTAAAGAAAATGAAAAAGTAAATAAAGGAGTAACCTTTAAAGAAGGAAAGTTCAGGCTTCACGGAATCAGTAGCTATTTTAACCATCTTAACAGACTGATTAATGTAAGAATTTATGATGCGGGTTTTTGGGTTTTTATTTCAGAAATAAGCCAAAAAGGGAATGATACTTTAGCTCTGGATAAAATGCATGACGAGTTTTTAAATAATTTACAACCAGCAAAAATTGTACAAAATAATCCTTTAACAAGATATTCGAATATTATTTATGCACCTATTGCTGCTCGTGACACTGTATTATTACGAATCACCATGAGTAGTGCTACAAATAAGATGAAATGGATATATGAGAATATTGATAAATATGAAAGAGCTTCAGGAATTCCTGGAATCCTTTTAGATTTTCACATTGCGGGAATTAATGGTTTTATAGATTATAAGACGAAAAAAAATTCTACACCAATTAAAGAAGGTAATTTCACAGTAGATAAATTGATTTCGTTCTTCACAAAACTTCGAAATGATGGCTTTATAGACGAATATTTAATGGAGCAGTATAACTATTTATTAAGTCCGCCAGAAAATCATCAATTTGATTACAAGGGTTATCAGAAATGGAAGCTAAGCAACTCTATAGACTATGATGTTGCTAATAAATATTATATTATTGTAAATTCGCGTAAGAAAACAGATCTCACTAAAGACGAGTAA	MKIYLFFILSLFPVIIFSQDLKPNKKIRSDANFSHIVSGMTAPFSLGDFSRTALFTNSKNDSVFAAEYENKSNDALFKFKIIPAFLDEERLLNHYYKDLTERRYTPKENEKVNKGVTFKEGKFRLHGISSYFNHLNRLINVRIYDAGFWVFISEISQKGNDTLALDKMHDEFLNNLQPAKIVQNNPLTRYSNIIYAPIAARDTVLLRITMSSATNKMKWIYENIDKYERASGIPGILLDFHIAGINGFIDYKTKKNSTPIKEGNFTVDKLISFFTKLRNDGFIDEYLMEQYNYLLSPPENHQFDYKGYQKWKLSNSIDYDVANKYYIIVNSRKKTDLTKDE				NA	NA	NA	NA	NA
BMS003_00647	1428	purB		Adenylosuccinate lyase	ATGAATTCCTACAAAAATCCATTGGAAGAACGCTACTCCAGTGAAGAAATGTTATTTAACTTCTCACACAATAACAAATTCCAGAATTGGAGAAAGCTTTGGATAGCTCTTGCTGAAATCGAAAAAGACCTTGGACTTGAAATTACAGACGAGCAGATTGAAGAATTGAAAGCAAATGCTGAAAACATCGATTACGTAAAAGCAGCAGAGTACGAGAAAAAATTCCGTCATGATGTAATGGCTCACGTTCACGCCTATGGTGATGTGGCGCCTTCAGCAAAAGGAATTATTCACCTTGGAGCAACTTCAGCTTTTGTAGGAGACAATACAGACTTAATTCAGATTCGTGACGGACTTTTGATCTTAAAGAAAAAGTTGGTAAACGTGATGAAAAATCTTTCAGATTTTGCTATTCAGTATAAAGACCTTCCCACTTTAGGATTCACACACTTCCAGCCGGCTCAGCTGACAACAGTTGGAAAAAGAGCTACACTTTGGTTACAGAGTTTGGTTCTTGACATCGAAGAATTGGATTTCTTCCTTGAAACCCTTCGTTTCAGAGGAGTAAAAGGAACAACAGGAACTGCTGCCAGCTTTCTTGAACTGTTCAACGGTGATTATTCTAAAGTAAAACACTTAGATAAAGAACTTTCAAAAAGATTCGGTTTCGAAAAAGTTTTCGGAGTTTCCGGACAAACCTATGATAGAAAAATTGATGCAAAAGTTGTTGCTTTATTAGGAAATATTGCACAATCTGCACACAAATTCACAAACGATTTACGTTTACTTCAGAACCTTAAGGAAATTGAAGAGCCATTCGAGAAAAACCAGATCGGTTCATCGGCAATGGCATACAAACGTAACCCGATGAGAAGCGAAAGAATCGGAGCATTGGCAAAATATGTAATGTCTCTTACAACAAGTTCTGCAATGGTAGCTTCCACACAATGGTTTGAAAGAACATTGGATGACTCTGCCAATAAGAGATTAACGATTCCTCAGGCATTTTTAGCAGTAGATGCTATTCTATTGATCTGGAATAACATCATGAACGGAATTGTAGTATATCCAAACAGAATCAACAAGCACATTATGGAAGAACTTCCTTTCATGGCAACAGAGTATATCATCATGGAAGAAGTAAAAGCAGGTGGTGACCGCCAGGAAATCCACGAAGTGATCAGAGTTCACTCTATGGAAGCATCCAAAAAAGTGAAAGAAGAAGGAAAAGAAAATGACCTTATTGAAAGAATCTTACACGATGATTCTTTAAAATTAGACAAGTCAAAACTCAAAGAAGTTTTAGATCCTAAAAACTTTATTGGTTTCGCACCGATCCAGACGGAGGAATTCATCAAAAATGAAGTACAGCCGATCATAGATCAAAATAAAGACCTGATAGGATTGGAAGCTGATCTTAAAGTATAA	MNSYKNPLEERYSSEEMLFNFSHNNKFQNWRKLWIALAEIEKDLGLEITDEQIEELKANAENIDYVKAAEYEKKFRHDVMAHVHAYGDVAPSAKGIIHLGATSAFVGDNTDLIQIRDGLLILKKKLVNVMKNLSDFAIQYKDLPTLGFTHFQPAQLTTVGKRATLWLQSLVLDIEELDFFLETLRFRGVKGTTGTAASFLELFNGDYSKVKHLDKELSKRFGFEKVFGVSGQTYDRKIDAKVVALLGNIAQSAHKFTNDLRLLQNLKEIEEPFEKNQIGSSAMAYKRNPMRSERIGALAKYVMSLTTSSAMVASTQWFERTLDDSANKRLTIPQAFLAVDAILLIWNNIMNGIVVYPNRINKHIMEELPFMATEYIIMEEVKAGGDRQEIHEVIRVHSMEASKKVKEEGKENDLIERILHDDSLKLDKSKLKEVLDPKNFIGFAPIQTEEFIKNEVQPIIDQNKDLIGLEADLKV	PGPT0021555_1258	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS003_00648	138			hypothetical protein	ATGTTCAATATTAAAATTATAGGATTATCTTTTATCTTTTTTAAAAATGTTGCTATTGCCGGAATTATAAAAAGATTTGAAATCATTAGCATTATTGAAAAATTAAATCCTCCTTCAAATGGAGAAAACCCTTTTTGA	MFNIKIIGLSFIFFKNVAIAGIIKRFEIISIIEKLNPPSNGENPF				NA	NA	NA	NA	NA
BMS003_00649	144			hypothetical protein	ATGAAAAATCTAAGAAAACTTTCAAAAGGAGAATTAAAAACCGTTCAGGGAGGTATCCCGATGTGTCTGGCAGGATACTTCTGGTGTTCATTGGAAAGAAAATGCATTCCGGTAGGATCGCCATGCGGACTTATTATCGATTAA	MKNLRKLSKGELKTVQGGIPMCLAGYFWCSLERKCIPVGSPCGLIID				NA	NA	NA	NA	NA
BMS003_00651	1746	cocE_1		Cocaine esterase	ATGATAAAATACCTCTTCATTCTTTTTCTATGTGCAGTTGTTTATGTTCAGGGACAGCAGACTGTTTTGGAAGCTGTTGAAGTGCAGGATAATTCTTATGATATCCAAGATAGCGTGATGGTAAAAACCAGAGATGGTGCAATCATTTCTGCTATGGTGGTAAAGAAGAAAGGAGAAGAAGGGCCGCTTCCGGTAGTTTTCCAGTTTACTATTTATGTTCGTGATAAAGGACGAGACCTTCAAAGTTTGAAAGAAGCTGCTGATAAAGGGTATGTAGGTGTTATTGCGTATACCCGTGGCAAAAGGCTGAGTCCGGATGATATAAACCCCTATGAGTTTGAAGCAAATGATACTTATGATGTTATCGATTGGATCAGTCAGCAGAAATGGTGTAACGGAAGAATAGGAATGTATGGTGGCAGTTACAATGGTTTCTCTCAGTGGGCTGCCTGCAAAAAGCTGCATCCTGCATTGAAAACGATTGTACCTTACGTAGCAAACCGTCCAGGAATGGGCCTTCCCATGGAAAATAATATTTTTATTAATCCTAATTATGAATGGGCCTTTTACGTTGGGAACAATAAATATCTGGATAACGAAACAGGAAACAACAGACAACGCTTCAGGGCAATGATGTTTAATTGGTGGGATAAAGGTGTGGCATACAACAAAATGGATAGTATTGATGGAACTCCCAACAGATGGTTTCAACAATGGATCACACACCCTGATTTTGATAAGTACTGGCAAAAAATGGCTCCTTATAAAGAGGATTTTAAACAGATCAATATTCCGGTTCTTGCTTTTGACGGGTATTATAACGATTCTCAGAATTCAGGACTTTATTATCTGAAAGAACTGCAGAAATATAGTCCGCAAACCCCGTTTTATCTGATTATTGGTCCATATGGTCATTTTGGAACTCAGAAAGGGGGTGAAAAAGAAGTAAACGGATATAAAGTAGATGAAGTGGCGTTGTTTAATATCAATAAAATTACTTATGAATGGTTGGATTATATTCTTAAAAACGGACCGAAGCCATCCATTCTTAAAGATAAAATCAATTATGAAGTGATGGGTGCTAATGAATGGAGAAGTGCTCCTTCTTTTGAAAAAATGAGCAATGATGTCCTTAAGTTTTACCTTTCCGGTCAAAAAAAGAACGGAACATATTACCTGGATCCCAAAATGGTCAATAAAAATATATTTCTGTCTCAAACGGTAGATTTTAAAAATAGAAAAATAAATAATAACAGTGATTATTATCCTTCACCAATAGAAAAAGATGAATTGGACAAAAGTACAGGCTTCATTTTTACCAGTGATCCCATAGAAAAAGAAACAATTGTGAATGGATCTTTCTTAGGAGGGCTTCATATTGCCGTTAATAAAAAAGATGTAGACTTGGGAGTAACGCTTTATGAACTTACACCTGAAGGAAAATATTTCCATTTGTCATATTATATCGGAAGAGCCGGCTATGCAAAAAATATTACAAAAAGAAAGCTTCTGAAACCGGAAGAAAAAACATGGATAGAATTTACCAATACCCATCTTGTAAGCAAAAAACTCCATAAAGGAAGTAGGTTAGCAGTTAAAATTGACGTCAATAAAAATCCTTTTTCACAACTGAATTATGGAACAGGAAAAGGCGTGAGCACAGAAACCATAAAAGATGCTTCTGTTCCTTTGCAAATTAAATGGTATAGTGATAGTTATGTGGAAATTCCGGTGTTAAATGATTGA	MIKYLFILFLCAVVYVQGQQTVLEAVEVQDNSYDIQDSVMVKTRDGAIISAMVVKKKGEEGPLPVVFQFTIYVRDKGRDLQSLKEAADKGYVGVIAYTRGKRLSPDDINPYEFEANDTYDVIDWISQQKWCNGRIGMYGGSYNGFSQWAACKKLHPALKTIVPYVANRPGMGLPMENNIFINPNYEWAFYVGNNKYLDNETGNNRQRFRAMMFNWWDKGVAYNKMDSIDGTPNRWFQQWITHPDFDKYWQKMAPYKEDFKQINIPVLAFDGYYNDSQNSGLYYLKELQKYSPQTPFYLIIGPYGHFGTQKGGEKEVNGYKVDEVALFNINKITYEWLDYILKNGPKPSILKDKINYEVMGANEWRSAPSFEKMSNDVLKFYLSGQKKNGTYYLDPKMVNKNIFLSQTVDFKNRKINNNSDYYPSPIEKDELDKSTGFIFTSDPIEKETIVNGSFLGGLHIAVNKKDVDLGVTLYELTPEGKYFHLSYYIGRAGYAKNITKRKLLKPEEKTWIEFTNTHLVSKKLHKGSRLAVKIDVNKNPFSQLNYGTGKGVSTETIKDASVPLQIKWYSDSYVEIPVLND				NA	NA	NA	NA	NA
BMS003_00652	201			hypothetical protein	ATGAAAATCACACTGAATATATTGCAAGTTATTTGTGTTATTTCTTTTTTAGTCGTTGTCTTTTTTTTATTAATGACACAGGCGAGCAGTCACAAAATCCCCTTTCATGCATATCTTGAAATAATAGTTACAGTTCTGATTTCTTTAATCCTGTATTTTTATTTAGGACATATTCTCAAAAAGAAAAGAGTAAGAAGGTAA	MKITLNILQVICVISFLVVVFFLLMTQASSHKIPFHAYLEIIVTVLISLILYFYLGHILKKKRVRR				NA	NA	NA	NA	NA
BMS003_00653	453			hypothetical protein	ATGAAGACAATTAAATATATATCAATATTATTAATCCTTTTCAGTATCAGCTGTTGTGTAAACCCCAAAAAAAAGGAAGAGGAACAAATAAAAGAAACTGTTCAAAAATTTTGGGAGAAAGCCAAGATAAATGATTTTGAAGGTTATAAAAGTTTAGTTGCAGATCCTGATATTTTTTCAGGAGTAATGCAGGTAGACCTTAATTTTATTCATAAAAACTATGATAAAATAAATCCTAATGATATTCTCCTTAAGAACATTAAAGTGAAAGATACTAGTATTGCAGGACCTAATGTGCATCAAAAATACGTACAGTATGTAATAAAAAAAGAAAATGACACGAGTTATCTTAAGAAGCCTTTGATTATTACATTATTATTTTATAAGCCTGTCGGATATGATAAAATATTTAATAGGAAAATCTTACAAAACCATATAGGATGGGATAAATAG	MKTIKYISILLILFSISCCVNPKKKEEEQIKETVQKFWEKAKINDFEGYKSLVADPDIFSGVMQVDLNFIHKNYDKINPNDILLKNIKVKDTSIAGPNVHQKYVQYVIKKENDTSYLKKPLIITLLFYKPVGYDKIFNRKILQNHIGWDK				NA	NA	NA	NA	NA
BMS003_00654	345			hypothetical protein	ATGGATATTCCGGAAGCAATAAAAAGTACAGACAATTATGTACAAGCAACTAAGGATATTAAGTCTATAGATTTTCAAGTTACTCAAATGGACCTTGCTATTGATTATGTAAATTCTAGTGGAATAAATATGAGTACTCAAACACGAAATTATGTTACTAATTATGTTTTCGATGGTACTTTACCAGCAGGTACAGCCACACAAAATGGACTAATTATTCAAAATGGAACATCAGTTTTAAATTCTAACAATTTACCGATTCGTCCAACACCTGAACAGGTGCAAAATATGATGGATAATAAACAAAGAGATATTCAAAATCAAGTAAACAATATTCCACACTAA	MDIPEAIKSTDNYVQATKDIKSIDFQVTQMDLAIDYVNSSGINMSTQTRNYVTNYVFDGTLPAGTATQNGLIIQNGTSVLNSNNLPIRPTPEQVQNMMDNKQRDIQNQVNNIPH				NA	NA	NA	NA	NA
BMS003_00655	516			hypothetical protein	ATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTATAAGTACCAGGGACAGGAGCTGCAAGAGACAGGTTTTTACTCGTTTAAGTATAGAACGTATATGCCGGATACAGGTCGGTTTATACAATTAGACCCATTGGCAGAAAAGTTTCCATATAACTCTATTTATGCCATCCAAGAAAATAAAATGGGGATGGGTATTGAATTAGAGAGTCTTGAATTATTGCCACATCATTCCGGTTATTTTGCGATTAGTGGAAATCAAATGACCGTTAAACAGGCACCTATTACACAAAGAGATTCTTTTGGAAGACCATTTTTCAGAGCTGGAGATATTGGATTGTCAACAAGAGGATACAATCCTAATAGTGCAAGGATATCAGATGGAACTACCGGATTAAAACTTAATTCTTATAGGTATAGTGGAGCAACAGGTTCTGAAGCAAAAATGGAAAATATCAGAGGAAATGACCGACCAACTAATATTTGGAACAAAATTTATGATATAAGGAATTGA	MLSSSNFGGYYSYKYQGQELQETGFYSFKYRTYMPDTGRFIQLDPLAEKFPYNSIYAIQENKMGMGIELESLELLPHHSGYFAISGNQMTVKQAPITQRDSFGRPFFRAGDIGLSTRGYNPNSARISDGTTGLKLNSYRYSGATGSEAKMENIRGNDRPTNIWNKIYDIRN				NA	NA	NA	NA	NA
BMS003_00656	1161	dsbD_1		Thiol:disulfide interchange protein DsbD	ATGAAAAAAATAGCAATACTTTCATCAATTTTTATAGGAGTTCTTGCATGGGCGCAGGGAATTAAATTTGAAGAAGGCAATTTTGCCTCTATCCTTGCTAAAGCCAAAAAAGAAAAAAAACTGGTTTTTATAGATGCATATGCCTCATGGTGTGGCCCCTGTAAACTGATGGTAAAAAATATTTTCCCGCTTCAGTCTGTAGGAGAATACTACAATTCTCACTTTATCAATGCTAAAATTGATATGGAAAAAGGAGAAGGAATAGAGCTGGCAAAAAAATATAACGTAAAAGCATTCCCTACTTATCTTTTCATTGATGGTAATGGTGAAGCAGTACACAGAACACTGGGATATGTAGAAGAAAAAGACTTCATCCAGTTTGCAAAAGATGCTGAAGATCCTAATAAAAGACTAACCTCACTAAAACAGCAGTTTGAAAAAGGGGAAAAAGATCCTGAATTTTTGAAGAATCTCGCCGGACTTACCATGTATAATGACGCAGAATTTGCCGGTAAAGTGATGAACCGCTACTTTCAGCAGAAAGCAACATTAGATCAGGAGGATATTCAGATGCTCCTTTCAGGGGTACAGACTACAGACAGCCCGTTGTATAAAATTTTTCAGGATAAAAAATCTGAGATTCTTAAATTCTTCCCGGAAGACAGGTATGAAAAGTTTGATAAGAATATAAAACTGAACACTGTTTCCAAAAAAGCCTATAATCCGGATACCAAAAAATGGGATGATAATTATTTCATGGCTGAAGCTCAGAAATTTTTGAGCAAAGAAGAGGCTGACAAGATCTTAAAAAGAATGAAAGCCAACAGAGCTTTAAAGAATAAAGATATTCCTGAGTATGAAAAACTGATCCTTGATCTTTACAAAGACTATTCCGCTGCTGGTTCTGAAGAGCTGAATTCCCTTGCATGGAACTTCTTTGAAAATGTAAACAATAAAACTTCTCTGGAAAAAGCTATTGCATGGGCTCAGGAATCAGTAAAAAAAGATCAGAATTTTGCCAATACTGATACTTTAGCTAACCTTTACAATAAGGTTGGTGATAAGAAGAATGCAAAAATGTGGGCAGAAAAGTCTATAGAACTTGCAAAAAGTACAGGACAGGATTCTACTGACACAGAAAAATTACTGAACAGTCTTTAA	MKKIAILSSIFIGVLAWAQGIKFEEGNFASILAKAKKEKKLVFIDAYASWCGPCKLMVKNIFPLQSVGEYYNSHFINAKIDMEKGEGIELAKKYNVKAFPTYLFIDGNGEAVHRTLGYVEEKDFIQFAKDAEDPNKRLTSLKQQFEKGEKDPEFLKNLAGLTMYNDAEFAGKVMNRYFQQKATLDQEDIQMLLSGVQTTDSPLYKIFQDKKSEILKFFPEDRYEKFDKNIKLNTVSKKAYNPDTKKWDDNYFMAEAQKFLSKEEADKILKRMKANRALKNKDIPEYEKLILDLYKDYSAAGSEELNSLAWNFFENVNNKTSLEKAIAWAQESVKKDQNFANTDTLANLYNKVGDKKNAKMWAEKSIELAKSTGQDSTDTEKLLNSL				NA	NA	NA	NA	NA
BMS003_00657	639			hypothetical protein	GTGGGTATTAAGACTACTACCCCTCAAAAAGACTTGCATGTCAACGGCTCTTTGCAGGTAGTGAATGAAATAAATGTAGGCGGAGATGCCACTACAGCAGGTTCGGCAGGAACTTCCGGTCAGGTTCTTACTTCCAATGGGGCTGCAGCGGCTCCTTCATGGCAAACTTTAAATACAGTAAGCGGAACTATTAACAGTGCTGTGTATGTACAAGGGACTACTGCTGCTACAGCGACTGCAGGTACCACAATTGATGTGCCGGGTGTTACGTATACGGTAACGGTACCAGCGGGAAAGACGCAGACTCTTTTATTCACTATTTTAGGTTATGCAACATTATTAGATGGTAATTCGAGTCAAGGGGTTTTTACCCTTTTACAAGATGGGGTGAAAATTTCTTCTGCCTTTGCTTCTAAAGCAGGAAATTTTCCTGGAGGAGCCACTTTACAAAGTATGCCAGTGCCGGTAACATTTTTGAAATCAGTAACCCTTTCGGCAGGAACTTATATTTTTAAAGTACAATATGTGGCTTGGTTTGGAAGTGCTACAGTTAATTTTCTTCCTTCAAGTTATAGTGGGTACAATGGTGATACAGAAGCAATGCTTACTAAAATGCAGATTTTGGTATATAATAATTAA	MGIKTTTPQKDLHVNGSLQVVNEINVGGDATTAGSAGTSGQVLTSNGAAAAPSWQTLNTVSGTINSAVYVQGTTAATATAGTTIDVPGVTYTVTVPAGKTQTLLFTILGYATLLDGNSSQGVFTLLQDGVKISSAFASKAGNFPGGATLQSMPVPVTFLKSVTLSAGTYIFKVQYVAWFGSATVNFLPSSYSGYNGDTEAMLTKMQILVYNN				NA	NA	NA	NA	NA
BMS003_00658	1023	fabH_2	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGATTAAAAGTACAATAAAAGGTGTGGGATTTTATGTTCCAGATAACGTTGTAACAAATGATGATTTAGCAAAACTAATGACTACCAATGACGAGTGGATTACGGAAAGAACTGGTATCAGGGAAAGAAGACACAGGAAAAACAGGTACGACTCTCAGGAGACCACTGCATATCTAGGTTGTAAAGCCGCAGAAAAGGCTATTCAGAATGCAGGTCTTAGCTCAAAAGATATTGATTATATTATTTTCGCAACCTTATCGCCGGATTATTATTTTCCTGGCTGCGGAGTATTGCTTCAGGATATGCTGGGATGTGATACAATCGGAGCATTGGATGTAAGAAATCAGTGTTCAGGATTTGTATATTCTATGAGTGTGGCTAATGCGTTCATCAAATCGGGTACTTATAAAAATATTCTTGTGGTAGGAGCTGAGGTTCATTCTTTTGGCCTTGATTTTTCTGACGAAGGAAGAGGGGTTTCTGTAATTTTCGGTGATGGGGCAGGAGCGGTTGTTCTTTCTGCATCAGAAGATGAAAACGCAGGAGATATTTTAGCCATGAATATGCATTCTGAGGGTAAGTATGCTGACGATCTTTGTACTCAGTTTCCAGGTTCAAAATTCGGATGGAGTGACAGAATGAGAAAAGATCCTGAAAATGTAACGAATAAGGAAGTATACCCCATCATGAACGGAAACTTCGTATTCAAACATGCGGTAACAAGATTCCCGGAAACCATGATGGAAGCCCTGAATAAAGCCGGAAAAAAGATTGAAGATCTAGATATGTTCATTCCACATCAGGCGAATCTTAGAATAGCTCAGTTTGTACAGGAAAAATTTGGATTACCAAATGAAAAAATATTCAACAATATTCAGAAATACGGAAATACCACAGCTGCTTCTATTCCAATTGCTTTAAGTGAGGCGGTAGAACAGGGGAAAATTAAGAGAGGGGATCTTGTGCTTCTTTCTGCTTTCGGAAGCGGATTTACATGGGGAAGTGTATTATTTGAATATTAA	MIKSTIKGVGFYVPDNVVTNDDLAKLMTTNDEWITERTGIRERRHRKNRYDSQETTAYLGCKAAEKAIQNAGLSSKDIDYIIFATLSPDYYFPGCGVLLQDMLGCDTIGALDVRNQCSGFVYSMSVANAFIKSGTYKNILVVGAEVHSFGLDFSDEGRGVSVIFGDGAGAVVLSASEDENAGDILAMNMHSEGKYADDLCTQFPGSKFGWSDRMRKDPENVTNKEVYPIMNGNFVFKHAVTRFPETMMEALNKAGKKIEDLDMFIPHQANLRIAQFVQEKFGLPNEKIFNNIQKYGNTTAASIPIALSEAVEQGKIKRGDLVLLSAFGSGFTWGSVLFEY	PGPT0008355_1966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS003_00659	900	corA	COG0598	Cobalt/magnesium transport protein CorA	ATGCCAATTGATACAATATACAGAACCTCCCAGTGCGAATGGGTAGATGTAGAGGCTCCTACTGCAGAAGACCTGAAATTTCTTCATGAAAGGTATGAAATCAATAATCTTCTTCTGGAAGATACCATGGATCCCAATCACCTCCCGAAATATGAAGAAGACGGAAATGTAAAGTTCTTTCTCCTTCGTGAAAGTACAGAACTGGAGAGAAAAAATCTCAATACGATAAGCGACATCAGCACCAAGATTGGCATTTTCCTGGTTGAAAACACCATTATCACTATCCACAGGATGAAAACCCGAAGTATTTCCGAGACCAAGAAAAAAGTTTCTTTGCTTCAGGAAGATGTTACCCCTCAGCAAATCACGCTGATGATTGCGATATTGATCATGAAAAGCTTTGATGATGAATCTTTAAGTCTTTTCGAAACGATGGATAATATTGAAAACGAGATTTTCCTCAAAAACACCAATCATACCAGCCAGATCCGCCGTCTTTATAAATTGAAAAGAAAGTCCGGACTGAACTCCCGGGTACTGGTAATTTCTACGGATGCGATTGATAAGTTTAAATTACTCAGCCTTCAGGACTCGGAAATTGTCGATTTAAAAGATAAACATAAAGATGTAGTCGCAGATTTTGATCATTTGAATATTCAGATTACCAATCTTATCTCCATGTTTCTTGCTCTTTCGGATCAAAAGGCCAACCAGGTTATGAAGGTTTTAGCCATCTACTCGGTTTATTTCTTACCCATCACTTTTATTGCCGGGGTTTACGGGATGAATTTCGATAATATGCCGGAGCTTCATCATAAGTATGGATATTATTTAACACTGGGAGCTATGGCGACCGTGGTGATCAGTACATTTATTTATGTGAGACGCAAACAGTGGTAG	MPIDTIYRTSQCEWVDVEAPTAEDLKFLHERYEINNLLLEDTMDPNHLPKYEEDGNVKFFLLRESTELERKNLNTISDISTKIGIFLVENTIITIHRMKTRSISETKKKVSLLQEDVTPQQITLMIAILIMKSFDDESLSLFETMDNIENEIFLKNTNHTSQIRRLYKLKRKSGLNSRVLVISTDAIDKFKLLSLQDSEIVDLKDKHKDVVADFDHLNIQITNLISMFLALSDQKANQVMKVLAIYSVYFLPITFIAGVYGMNFDNMPELHHKYGYYLTLGAMATVVISTFIYVRRKQW	PGPT0014010_5403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS003_00660	1587			hypothetical protein	ATGACCATTGAAAATCTCAACAAAATTCTGGAAGATTCTTCTCTTTCGCAGGCATCCAAGGAACAACTGCTTGCCCTGCACGAGCACATATCTGCCAAAGAATTTTCTGATCTTCTGGATCAGAATGGGAATCAGTATATAGAATTTGTACAGGAAGGTGGTGGTGTATGGGGAAGCGCATTGGTAGGCTATCTTTATGGCCTGGAAATATTCGGGATCCGTTTTCTGAAAGTAGCCGGAACAAGTGCGGGAGCTATTAATACAATGCTCATTGCTGCCTGTAAAACCAAGGAAGAAGCAAAAAGTGACCTTATTAAGGATATTCTTTTCAGTTGGGATTTTGCAGATTTTATGGATGGGAAAACATATGTAAAAACAACGCTCCATGCTATGCTGAACAACAGAGATTTCTTTAAGATCAATGCTGTTATTGCCGCAGTTCTTTTTATCATCCTGATCAGCATCCCTTTTTTGGCTCAACCATCTACGATACTGAATGCCAAGCTGATGTTTCTGATTCCTCTGATTCCGGCAGTGATTCTCTTTTTCTGTATTCAGAAGCTGTATGATAATTTCAGAAAGGAAAACAGTGGACTTAATCCGGGAAATGCATTTCAGAATACCATGCAGAATGCCCTGGAGCATTTTGGTATACAAACAGTTGCCAACCTCAACGAAAAATTCATTCAGAAAGAAAAAGATCTTAACCTTAATTACCGCTACGGAAACGGACAGGAATATTATAGGATGGCTTTGCAAGGCATTGAAAAGATTAAAATCAAAAATCACGAACATATTGACCAGACCCGATACAGAATCTTCTATGACAGTGCCGTTAATAATGATTATTATAAAAACAATCCTTTTTATCTTCTAAAATCTGAATATGTGGTTATTACCACTGACATCAATGCTAAAATAAAGGTTGAACTTCCTACCATGGCCAATCTTTATTGGTCTGAGGAAGAATTGAAACACATCAGCCCTGCTGAATTTGTAAGGGCTTCTATGGCAGTCCCTTTTTTCTTTGAACCTTTTCAGAAGCAGGTCAATAAAAACGATGATTCTGTAAAATACGCTTGGAGATACTGGATGAATACCCAACCTGAAGATATTAATCCTGCAGGTGTTTTTATTGACGGAGGCAGTATTTCCAACTTTCCGATTGATTTGTTTCATGCAGATGAAGTTTTTTATCCCAGAATGCCGCTTTTTGGGGTACAGCTGACCAGTGATTCTGCCATTCTATCGGAAAAAGGGAAAACCAGTCAGGAAATCCTTACAACACCTTTCAGCTATGCAGGAAATATCATCAGTACATTGAAAGGTTTTAATGACAAAACATTTCTTACCAAGCATACCTTTTACCGTTTGTACAGTATACAGAGCGTCAACTGCGGCATCAGCAGCTGGCTGAATTTCTTTATGAAAAAGGAAGAAAAGGAAGAACTTTTCAACAGAGGTTTTCAGGCCGCTCTTGATTTTCTCAGCACATTCGACTGGGAAAAGTACAAATATGAAAGAATGATGCTTACCATGAAGGAGAAAAAAATACTGAAGGAAGAGGATACGCCTACCGTGGGGTAA	MTIENLNKILEDSSLSQASKEQLLALHEHISAKEFSDLLDQNGNQYIEFVQEGGGVWGSALVGYLYGLEIFGIRFLKVAGTSAGAINTMLIAACKTKEEAKSDLIKDILFSWDFADFMDGKTYVKTTLHAMLNNRDFFKINAVIAAVLFIILISIPFLAQPSTILNAKLMFLIPLIPAVILFFCIQKLYDNFRKENSGLNPGNAFQNTMQNALEHFGIQTVANLNEKFIQKEKDLNLNYRYGNGQEYYRMALQGIEKIKIKNHEHIDQTRYRIFYDSAVNNDYYKNNPFYLLKSEYVVITTDINAKIKVELPTMANLYWSEEELKHISPAEFVRASMAVPFFFEPFQKQVNKNDDSVKYAWRYWMNTQPEDINPAGVFIDGGSISNFPIDLFHADEVFYPRMPLFGVQLTSDSAILSEKGKTSQEILTTPFSYAGNIISTLKGFNDKTFLTKHTFYRLYSIQSVNCGISSWLNFFMKKEEKEELFNRGFQAALDFLSTFDWEKYKYERMMLTMKEKKILKEEDTPTVG				NA	NA	NA	NA	NA
BMS003_00661	501			hypothetical protein	ATGAAATACATCTGCCAATGCTGTGGCGAAGAGAAAGAAGACTGGCCTGCAATAGCCTATAATGCTCCTTATTTTTATTACTGTCTATCGGAAGAGGAATTAAAAAACACTGAACTCACTTCAGACTTATGCGTTGTTGAAGAGCCCGAAAGTATCCACAGATTTATCCGCACCGTTCTTGTACAGGAGGTCACAGATGACTGCAGGGATCTGGAATACGGAATCTGGGTATCATTGAGTGAAAAAAACTTCAATGAGTACGTTGAAAATTATGACAATAAAGAATTCGAAGCGGAGTATTTCGGATGGCTTTCTACTTATCTCCCGGATTATGAGTTTGAGGAAAGTATACCTACAACCGTAGTGGTAAATAATTCTGTCGGACGGCCTTTTGTTTATCCTCATGAAAGCTATGAGCATCCGTTTGTTGACGATTTTTATAGTGGAATAGCAAAGGAGGAAGCAGAGAAAAGGATCAACAGGGTTTTAAATAAAGAATAG	MKYICQCCGEEKEDWPAIAYNAPYFYYCLSEEELKNTELTSDLCVVEEPESIHRFIRTVLVQEVTDDCRDLEYGIWVSLSEKNFNEYVENYDNKEFEAEYFGWLSTYLPDYEFEESIPTTVVVNNSVGRPFVYPHESYEHPFVDDFYSGIAKEEAEKRINRVLNKE				NA	NA	NA	NA	NA
BMS003_00662	531	ywrO_1	COG2249	General stress protein 14	ATGAAGATCTTAGTCATTGTAACACACCCAGATATTGAAAAATCTGTGATCAATAAAAAATGGATTGAAGAATTAAAAAAATCCCCTGAAAAATATACTGTTCATCAACTGTATGAAGCTTATCCGGATGGGAAAATCAATGTAGCAGAAGAACAAAAGCTGATGGAATCTTATGATAAAATTGTATTTCAGTTTCCTTTTTACTGGTTCAGCAGCCCGCCGCTTTTGAAACAATGGCTGGATGAGGTGATTTTGTATGGCTGGGCGTATGGAAGTACCAGTGGTTTTAAGCTGGCAGGAAAGAAAATGTCATTGGCCGTTACGGCAGGTATAGATGAAGAAGCCTATACAGCATCCGGAGTCTATAAATACACGATGAACGAACTTTTCAGACCTTACGAACTGACTTTCGATTATATAAAAGCAGATTACAAAGAACCTTTCGTCTATTACGGAATTGAAAGAGATCCTTCTGATGAATGGATTAACAGGAGTGTACCGATGTATCTGGAGTTTCTGGATAACTTATGA	MKILVIVTHPDIEKSVINKKWIEELKKSPEKYTVHQLYEAYPDGKINVAEEQKLMESYDKIVFQFPFYWFSSPPLLKQWLDEVILYGWAYGSTSGFKLAGKKMSLAVTAGIDEEAYTASGVYKYTMNELFRPYELTFDYIKADYKEPFVYYGIERDPSDEWINRSVPMYLEFLDNL	PGPT0009455_2410	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS003_00663	378	yybR_1	COG1733	putative HTH-type transcriptional regulator YybR	ATGACTAAAATAAAGGAAACCTCAACCAATTTCGCTAATAAAAAAGCGCTTGCTGATGAATGTCCGGAAATTTATGCTTCTAACACGATCGGGGGACAATGGGCATTGGCAATATGCTGTTATCTGATCAATGGGAAAATGAGATTCGGGGAACTTAGAAAAAAGCTTCAGAACATTACCGAACGTATGCTTACCCTTCAGCTTCGCAGGCTTGAAGAAGATAAAATCATTACCAGAACCGTATATGCAGAAGTTCCGCCAAGGGTAGAATATGAACTTACAGAAATTGGTTACAAACTGAAACCTATTATTCTTGAGTTTGAGAAATGGGGAAATGAGCATAAAGAGCTGATGCGTAAAACTTCAGAAAAAAAATAA	MTKIKETSTNFANKKALADECPEIYASNTIGGQWALAICCYLINGKMRFGELRKKLQNITERMLTLQLRRLEEDKIITRTVYAEVPPRVEYELTEIGYKLKPIILEFEKWGNEHKELMRKTSEKK				NA	NA	NA	NA	NA
BMS003_00664	561			hypothetical protein	ATGAGTTATTGTTTAGCAATAGAAGGAATGCAGCCTGAAAGCAGAAAAGAACTGCACAAAAATTACCATGACAATTATTATGGATTTCCCATTCATGATGATAATGAACTATTTGGGAGGCTGATTCTTGAAATCAACCAGGCAGGACTGAGCTGGGAAACAGTTTTGAAAAAAGAAGAAAGCTTCAGAAAGGCATATGATCATTTTGATATTCAGAAAATAGCAGCTTATACGGAAGAAGACCGCGAGAGATTATTGAGTGATCCGGGAATTATCAGGAATAAATTAAAGGTGAATGCTGCAATAGAAAATGCAAAAACAATCATTGAACTCCAAAAGGAATTTGGTTCATTTGAAAAGTGGCTGGAACATCATCACCCAATGACTTTGCAGGAATGGATGAAGCTATTCAAAAAAACATTCAAATTCACAGGTGGAGAAATTGTCAATGAATTTCTTATGAGTACAGGATATCTGAAAGGCGCTCATCATGAAACCTGCCCGATTCACGCCAAGGTGCTGGCTCAAGAACCTTTGTGGCAAAAGATTGAGGGGAAATAG	MSYCLAIEGMQPESRKELHKNYHDNYYGFPIHDDNELFGRLILEINQAGLSWETVLKKEESFRKAYDHFDIQKIAAYTEEDRERLLSDPGIIRNKLKVNAAIENAKTIIELQKEFGSFEKWLEHHHPMTLQEWMKLFKKTFKFTGGEIVNEFLMSTGYLKGAHHETCPIHAKVLAQEPLWQKIEGK				NA	NA	NA	NA	NA
BMS003_00665	378			hypothetical protein	ATGTCTAATTCAAGAGCCCATATGAAAACCTATAAAGCCATCATCACGATGCTTATATTGATATTTTCGTTGTCTCCGTGTTCTGTAAAAAGAAATGTTCTTGATATTTTTGACATTCAGTACATCAGCGGTCTGAATAAGGCGAAAATAACCTCTTCCCTATCCTTCAGTTGTAATGCTGCATCAGCTTCTTCAGGAATTTCGGTATCAAAAAATAAAGTTCAGAACCGATACAAAGATTCCTGTTACAATTTTTATTCAACTATCGGAAACCCTTTTGAAGAAAAGGTTTTTCTCAACAGATATTCCGGGCGTTCTACAGGGAATAGTCCTCCAAAATATATTTTATTTAAAAGGCTGAAGCTTAATCTTGTTTAA	MSNSRAHMKTYKAIITMLILIFSLSPCSVKRNVLDIFDIQYISGLNKAKITSSLSFSCNAASASSGISVSKNKVQNRYKDSCYNFYSTIGNPFEEKVFLNRYSGRSTGNSPPKYILFKRLKLNLV				NA	NA	NA	NA	NA
BMS003_00666	1014			hypothetical protein	ATGAAACATACCATAAACAGCCATTCTTCGGATATGGCCGGATTATATACTTTACCCCTCCGCATGGTGATCGGATGGACTTACTTTTCAGCGTTCTGGCGCCGACTTATCCTTGAAGACAAACTCAATCCTGATGAACAGGGATACATTGGAGAAAAATTCAATCATTTTTTACCCAATGCCCTCGGAATAAAACCCGTTATAGAATATCTGGTAACTCATCCTGGTCAATTGCAGCAATCTATGATGATTTTCACTGTTGTTGAAGCTATTGTCGGCCTTTTCATTATTCTCGGATTATTTACCCGGCTGATGAGTATCGGAATTTTCAGTCTTGCTCTTGGAATTTTATTAGGTTCCGGCTGGCTGGGAACCACCTGCCTGGATGAATGGCAGATAGGTGTTTTAGGAGTAGCAGGCGGATTTGTTCTTTTTCTTACGGGAAGCGGTCATTATTCCATAGATCATTATTTCCTAAAAAACAATAAAAAATTCACTCAAAAACGATGGTTTCAATGGTTGGGCTCCGGAAATTTCGCCCTATCAAACCCCCAAATTTTTGTGCTTGCAGGCTCACTTGCTCTATTTGGATTAACCCTTTTTACCAATCAGTACTTTCACGGAGGAGTATGGGGAACACTGCATAATAAATCAGTAAAACCTAAACTGGAAATTTCAAATATTTCTCATCAGAAATCAGAACTAACATTTCAGGTCTACAGAACAGAAGGTGCTGATGTATATGGTTCTTTTCTGACAGGCATCCATGTTCTGGACAAAAAAGGAAATATTTTGAAAGAATTTGATCATAAAGGGCTCTCTTCCCTTTCTAACAAAAATATCCTGAATCATTATGTTGCCCAAGTAAAGCCAGGAAAATACAGTCTGGTTATTCCGCTGGGAGCAAAAGCAGACATTATTCTGGACATTGATGATATTCTTCAGAAAAGTGAAATTGATGCACTGAAATTGATTGATGTAAGTGGTATTGAATGGATAGGGAAAATTGAATAA	MKHTINSHSSDMAGLYTLPLRMVIGWTYFSAFWRRLILEDKLNPDEQGYIGEKFNHFLPNALGIKPVIEYLVTHPGQLQQSMMIFTVVEAIVGLFIILGLFTRLMSIGIFSLALGILLGSGWLGTTCLDEWQIGVLGVAGGFVLFLTGSGHYSIDHYFLKNNKKFTQKRWFQWLGSGNFALSNPQIFVLAGSLALFGLTLFTNQYFHGGVWGTLHNKSVKPKLEISNISHQKSELTFQVYRTEGADVYGSFLTGIHVLDKKGNILKEFDHKGLSSLSNKNILNHYVAQVKPGKYSLVIPLGAKADIILDIDDILQKSEIDALKLIDVSGIEWIGKIE				NA	NA	NA	NA	NA
BMS003_00667	597			hypothetical protein	ATGAATCAAATACAGCTGCCGGAAACGTACGTTGCATTATCAGATTTCAGGAAAAATGATATCTATCTTCCTGAAATGAACCAGACTCAGATTATTGCAGATTTCTTCCCAGGAACCTTTACAGAACTTACCCAGCGACTGTCTGATATTACAGGAGCTTTCTATGGAGGTATGCTCAAACAAATTGGTAAACTTTACGGTGCGGAAGCTATTGAGCAGCTTTCCAGTACTTTTATGTACGATCTCGGATCCAGAATGGCACTCAGAAACCTTGAAACAAAACCTGATCTGCAGCCCGGAATTCCGGCTGTGGCAAAAATACTTATAGGAGCAGTTTTTACATCCAGTCCCGAATATAATTTTGAATTTAAAGAATTAAATGACTACAAATGCGAATTGCTCATTAAAGGAAGAGACCGTTACCACAGAATCACTCAAAGCCTGCAAATTGCAGGTCTGCTGAAATGGCCAGTCATAAAACCTTTCATACAGGGCGCTTGCGACACTATGGGACTGGATGTTTTACTTGAAATAAAAGTACTTAAACTAGATCCGGATAGTTCATGCAGTTATCATGTCTTTGTCTCAGAAAAATAG	MNQIQLPETYVALSDFRKNDIYLPEMNQTQIIADFFPGTFTELTQRLSDITGAFYGGMLKQIGKLYGAEAIEQLSSTFMYDLGSRMALRNLETKPDLQPGIPAVAKILIGAVFTSSPEYNFEFKELNDYKCELLIKGRDRYHRITQSLQIAGLLKWPVIKPFIQGACDTMGLDVLLEIKVLKLDPDSSCSYHVFVSEK				NA	NA	NA	NA	NA
BMS003_00668	1578	farB		Fatty acid resistance protein FarB	ATGCAAGATTCATTAGTAGAATATGGAGCGCGAAGAGTAATCATTACGATTACTGCTATCCTTTGTGCCCTTCTTGAAATTGTAGACTCCACGATTGTCAATGTTGCCTTGAATGAAATGAAGGGGAATCTTGGAGCTACGCTTTCAGAAGTAGGGTGGGTGATTACAGCGTATGCCATCGGGAACGTTATTATTGTCCCGATGACGAGCTGGCTTTCACAGCAGTTTGGGCGTAGAAATTACTTTGCGGCATCCATCATTATATTCACCGTATTTTCATTCTTATGTGGAAATGCAACCAATATCTGGGAACTCGTTTTCTTCAGACTGATGCAGGGAATCGGGGGAGGAGCCTTACTGGTAACTTCACAGACGATCATTACGGAATCTTATCCGATAGAAAAAAGAAGTATGGCTCAGGCTATTTATGGGCTGGGAGTAATTATTGGCCCTACACTTGGTCCGCCACTTGGAGGGTATATCGTTGATAACTTCAGCTGGCCATATATTTTCTATATTAATATTCCGATTGGGATTGCAGCAACTTTAATGACACTGCAGTTTGTAAGAAGTCCGAAATATGCAGAAAAACGTAAAGTCTCAGATGTAGACTGGATTGGAATTGGTTTGCTGGCAGTAACAGTAGGTTCATTACAGTTTATTCTGGAAAGAGGACATGAAGAAGACTGGTTTGAAAGCGGAATGATTGTAGCCTTTACAATAGCAGCTGTTTTAGGGTTTATCTTATTCCTCTGGAGGGAACTTACCTTTAAATATCCCATCGTTGAGCTCAGAGTACTTAAAAACAGTAACCTGAGAATCGGAACCATGATGTCTTTTGTGCTTGGATTTGGATTGTATGGTTCCACGTTCATCGTTCCGCTGTATACCCAGAGTATCTTGGGATGGACGGCATTGCAGTCCGGAGCACTGATGATTCCTGCCGCATTAACGACAGCTTTCATGATGCCTATTATCGGAAGACTATTGGCAAAAGGAGCAAAACAGCAGATTCTGGTTTCATTAGGACTTTTCATCTTCTTTGTTTATAGCTTCTGGGGATACAAAATACTGACACCGGATACCGGAAAAGATGCCTTCTTCTGGATGCTGATTGTGAGAGGAGCAGGTTTGGGATTACTGTTTATTCCAATCACCTCTTTATCATTAAGTACTCTGAAAGGGCAGGAGATTGGCCAGGGGGCAGCCTTTACAGGGATGATGAGACAGCTGGGAGGATCTTTCGGGATTGCAGCCATCACAACTTTTATTGCTAACGCAGGTCAGAAGTACAGGAATAACCTGATTTCCCATCTGGACGAAAACAGTTTTGATGTTCAGCAAAGACTTGCAGCTCTTAAAGCTAATTTTGTAGCAAAAGGAATGACACCTGATGCAGCAATGAATGCCGCTTATAAAATGCTTGATCTGTCCGTAACAAAACAGGCAACAGTTTTATCTTATATGGACGTATTTCTTTACCTCGGAATCATATTCCTGATATGTATTCCGTTTATCTTACTCGTAAAAGAAAGAAAGAGCAAAGAAAAAATAGACTTGAGTGAAGCAATGCACTAA	MQDSLVEYGARRVIITITAILCALLEIVDSTIVNVALNEMKGNLGATLSEVGWVITAYAIGNVIIVPMTSWLSQQFGRRNYFAASIIIFTVFSFLCGNATNIWELVFFRLMQGIGGGALLVTSQTIITESYPIEKRSMAQAIYGLGVIIGPTLGPPLGGYIVDNFSWPYIFYINIPIGIAATLMTLQFVRSPKYAEKRKVSDVDWIGIGLLAVTVGSLQFILERGHEEDWFESGMIVAFTIAAVLGFILFLWRELTFKYPIVELRVLKNSNLRIGTMMSFVLGFGLYGSTFIVPLYTQSILGWTALQSGALMIPAALTTAFMMPIIGRLLAKGAKQQILVSLGLFIFFVYSFWGYKILTPDTGKDAFFWMLIVRGAGLGLLFIPITSLSLSTLKGQEIGQGAAFTGMMRQLGGSFGIAAITTFIANAGQKYRNNLISHLDENSFDVQQRLAALKANFVAKGMTPDAAMNAAYKMLDLSVTKQATVLSYMDVFLYLGIIFLICIPFILLVKERKSKEKIDLSEAMH	PGPT0029220_1419	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
BMS003_00669	1104	emrA_2		Colistin resistance protein EmrA	ATGGAAAATAATAATACACAGGCAGCTGAACCTAAAAAGAAAAAAAGTTTAGTTTTTCCTATCATTTTAGCGGCAGTAGTAATCGGAGGAGGTATCTACGGTTACAGAGCCTTTACTTACGGACAGTATCATGAAGAAACTGATGATGCTCAGATTGCTTCCAATATGGCACCGGTAATTTCTAAAATCTCCGGCTATGTAGCTCAGGTAAAAGTAAAAGACAATCAGTTTGTAAAGAAAGGAGATACTTTGGTGATTTTGGATAACAGAGATCAGAAAATGGCTTTAGAGCAGGCTCAGGCAGCATTATCTACTGCCAAAAGTAATATCTCAAATGCAGAAGCTGCTACAGCAGCTACTTCAAAAAATATAGGTTCTTCAGAAGCAGCAGTAGTAACTGCTAATGCTCAGATAGAAGCAGCAAAAGTAAACGTTTGGAAAACTTCTCAGGATCTGAAGAGATATGCTAATCTTGTAAAAGACCACTCTATTACAGAGCAGCAGTATGAGCAGGCTTTGGCAGCAAAACAATCTGCAGACAGACAGTTACAGGTTTTGATTGACCAGAGAAATCAGATTGCTCAGCAGACTCATATTGCCTCTTCCCAGACGGCGGCCAGCTCACAACAAATCAGTGTGGCAGGATCTGTTGCTAAACAAAGAGAAGTGGATGTAGATAATGCAAAACTGAACTTATCATATACCGTAATCCTTGCACCTGAAGACGGATACGTAGGAAAAGTTCCTACTCAGGCAGGTCAGTATTTACAGGCTGGAGCACAGCTGTTTGCCTTGGTTAAAAATGACCAGAAATGGGTGGTTGCCAACTTTAAGGAAACACAGGTAGATAAAATGGTAGAAGGTCAGAAAGTGAAAATCGAGATTGATGCATTCCCTGATAAAGAATTTGATGGAGTGGTAAGCTCATTCTCTCCGGCTACCGGAGCTACTTTCTCTATTCTTCCTCCGGATAATGCAAGTGGTAACTTCGTAAAAGTGGTTCAGAGACTTCCTGTAAAAATTGATTTTGTAAATCTTGATAAAGATATTGCCAAAAGACTGAGAACAGGAATGAACGTAAAGGCAGAGGTTGCTTTGAAATAG	MENNNTQAAEPKKKKSLVFPIILAAVVIGGGIYGYRAFTYGQYHEETDDAQIASNMAPVISKISGYVAQVKVKDNQFVKKGDTLVILDNRDQKMALEQAQAALSTAKSNISNAEAATAATSKNIGSSEAAVVTANAQIEAAKVNVWKTSQDLKRYANLVKDHSITEQQYEQALAAKQSADRQLQVLIDQRNQIAQQTHIASSQTAASSQQISVAGSVAKQREVDVDNAKLNLSYTVILAPEDGYVGKVPTQAGQYLQAGAQLFALVKNDQKWVVANFKETQVDKMVEGQKVKIEIDAFPDKEFDGVVSSFSPATGATFSILPPDNASGNFVKVVQRLPVKIDFVNLDKDIAKRLRTGMNVKAEVALK	PGPT0013750_2456	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
BMS003_00670	1317			hypothetical protein	ATGAAGAGAATAAATAACTCAGTGATTGCATTATCTTTATTCGTAGGAATAGCAAATGCAAATGCTCAGGAGAAAAAAACACTTTCCCTTGACGAAGCTGTGCAGCTGGGAATCCAGAACAGCAAGAATCTCAAGATCGATGCAGCCAAGATCGAAGAGGCTACAGCTGATCTTTTGGAAGCAAAAAACAGACAGCTGCCGGAGCTGAAAGTATCCGGAAGCTATATGTATCTTCCGATAAAGCCCAATGTTGATATCAAGCTTCAGGGGCTTTCAGGCGGAGCGGGAGGCCCGGAAGTACATCAGGTGCTTTATGGTTCAGCCAATCTTAGTGTTCCTATCTACAGCGGCGGGAGAATCAAATATGGTATTCAATCGGCTAAATACCTGGTAGAAGCATCTAAGTTAAGCACTGAGAACGACAAAATTGCAATTGCCTATAATGTGGCTCAGGCTTATAATAACTTATTCAAAGCCAATCAGTCTATCAAAGTTTTTGAAGAAAACCTTGCTGCTTCTCAAAAAAGAGATGAAACCTTCCTTAAAATGGAAAACAATGGTTTGATCGCCAGAAATGACAGATTAAAAGCTAATCTTCAGACTTCAAATATCGAACTTCAATTGCTGGAAGCGAAGAATAACTACAATATTGCGAACATCAATATGGATTTATTACTGGGACTTCCTGAAACTACAGAACTTGAAGTAGATGAGAACTATATTGAGGAAGGATCAGACGTAAAACCTGTTGATTTTTATGTTACTGAAGCCAGGGAGAACCGTAAAGACTTGCAGGCTTTGGCTCAGCAGAGAAAAGCAGCAGAACTGGGATCAAAAGCAGCAAAAGCAGAAAACCTTCCTTCTATTGCATTCACAGGAGGGTATGTAGCGGCAGATATTCCTAAATTTCTTACGGTATACAACGCGATCAATGTAGGAATAGGGGTTTCTTATAATTTATCTAACCTGTGGAAAGAAAATTCTTCATTGAGACAATCACAGGCAAGAGAAAAACAGCTTGCTGCTACCGATGAATTACTGAATGACAACATTAAGCTTGACGTGAACAGAGAATATCAGAATACCGATTACTCGAAAAAGAGAATTGCTGTTTTCGAAAAATCTGCTGAGCAGGCTAATGAAAATTACAGAATTACAAAAAATAAATACGATAACGGTCTTGCAACCATGACAGAATTACTGGATGCAGATGCAGCTCAGATTGCTGCTAACGTAGGTGTGATCAATGCTAAGGCAGATGCTGCATTGGCATATAGAAAACTATTACAGACAACAGGAACTTTAACAATTAAATAA	MKRINNSVIALSLFVGIANANAQEKKTLSLDEAVQLGIQNSKNLKIDAAKIEEATADLLEAKNRQLPELKVSGSYMYLPIKPNVDIKLQGLSGGAGGPEVHQVLYGSANLSVPIYSGGRIKYGIQSAKYLVEASKLSTENDKIAIAYNVAQAYNNLFKANQSIKVFEENLAASQKRDETFLKMENNGLIARNDRLKANLQTSNIELQLLEAKNNYNIANINMDLLLGLPETTELEVDENYIEEGSDVKPVDFYVTEARENRKDLQALAQQRKAAELGSKAAKAENLPSIAFTGGYVAADIPKFLTVYNAINVGIGVSYNLSNLWKENSSLRQSQAREKQLAATDELLNDNIKLDVNREYQNTDYSKKRIAVFEKSAEQANENYRITKNKYDNGLATMTELLDADAAQIAANVGVINAKADAALAYRKLLQTTGTLTIK	PGPT0003600_4272	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
BMS003_00671	627			hypothetical protein	ATGATTTCAAAAGAAGAAAATATATTATTCGCTGCCGAGAAGCTCTTTGCAGAAAAGGGGTTTGAAGGAACTTCCACTCGGGAAATTGCAAAGGCGGCTAATGTAAACATCTCTATGATCTCATATTATTTTGGCTCTAAGGAAAAACTTTATGAGAAATTAGTGGAATACAGAATGAATGAAGGTCAGTTTTTTTCAAAAGATCTTTTGGGACGAACTGATATCAACGAGTGGCAGAAGATTGAAAGAGTAATCGATCAGTTTTCGTATAAGATCCGGACTCAAAAATGCTTCTACAGGATTATGCAGAGAGAGCAGCTGCATACTCAGAATCCGCAGATTATAGAGTTTTTGAAGCAAACCAAAATGGGGTTTCTTTCCATGTATTCCCAAATACTGGAAAGCGGTCTTAAAAATGGGATTTTTACTAAGAACCCACCTATTTACCTGCTTCATTCCACAGTAAGCGGAACTTTATTCTACGCATTCAATGCAAAAGAAATGTATAAAGAATTCCTGAATGAAACAGAAGATGAGGAAGCTTTTGATGAAAAATACTATACAGAACTTAATAAACATATAAAATATTTACTAAAAGACCTTTTAGGTTATGAAGAGAATAAATAA	MISKEENILFAAEKLFAEKGFEGTSTREIAKAANVNISMISYYFGSKEKLYEKLVEYRMNEGQFFSKDLLGRTDINEWQKIERVIDQFSYKIRTQKCFYRIMQREQLHTQNPQIIEFLKQTKMGFLSMYSQILESGLKNGIFTKNPPIYLLHSTVSGTLFYAFNAKEMYKEFLNETEDEEAFDEKYYTELNKHIKYLLKDLLGYEENK				NA	NA	NA	NA	NA
BMS003_00672	1119			hypothetical protein	ATGAATTGGGAGAACATCGCCGGACAGACGAATCTGAAAAAACTTCTTAGAGAAAGCATTGCTGAAAACAGAGTGAGCCATGCCCAACTTTTTGTAGGAAAAGAGGGATACGGAACATTACCGATGGTTCTGGCGTTTGCAAGAGAGATTTTAAGTAGGGAAAACGAACATGCTGCAGCGAAGGTAGAGCACCTTAATCATCTGGATCTGCATTTCAGTTTTCCTGTTTTTACAGATAATAGAAATTCTTTAAGTAAGAATAAGTTTGATGATTTCAGGGAAATGATCCTGGCTTCACCTTATGCAAGCTATGATGACTGGACAGCTTTTTTGGAATCAGAAAATAAACAGTTATTTATTTCAGCTGATGAGATTGATGATCAGAACCAGAAGTTCTCTTTGAAAAGTTACGAAGGCGGTACCAAAATTCTGATTGTCTGGAGAGCAGATAAAATGAATATCGCTGCTTCCAACAAGTTTTTGAAATTTTTAGAAGAGCCTCCTGCCAAAACCATCATTCTTCTTACGGCAGAAAGTACCAATGATATTCTTCCTACCATCCTTTCCAGAACGCAGATTGTAGAAATTCCCAGAATACATGACGAAGATATTGAAGACCATCTCAAAAAGAATTTTTCTGTTTCGGAAGAAAAAGTAAAAGAGATTGTACATGAAGCTCAGGGAGATCTTAACAATGCTGTAAAGCTGTTGAATTCAGGAGACAAAAGCAATGAGTTTGAGAAGCTTTTTGTACAATGGGTAAGGGACGCCTTTATGGTAAAAAAGAAACCTGAATATCTTAGAAGCATTATTCTTTGGGCAAGAGAAATTGCAGGATGGAACAGAGAAAAACAGAAAAACTTCCTGAACTATTGTTCTGAAATCTTCAGACTGGCGCTTCTTCAGAATTATCAGTCCGAAAATCTGGTGTATAAGAAGATCAATGTGAACGGATTCAATTGGGCTGGATTCTCTAAATTCATCAGCGGAGCTAATATTGAGAGTATTTTAGAAGAAATCAATACAGCAGATCTCCATCTGACCAGAAATGGGAATCCTAAAATTGTCTGGACCGATCTGGGAATAAAATTATCAAGATATATCCATAAAAGTACATAA	MNWENIAGQTNLKKLLRESIAENRVSHAQLFVGKEGYGTLPMVLAFAREILSRENEHAAAKVEHLNHLDLHFSFPVFTDNRNSLSKNKFDDFREMILASPYASYDDWTAFLESENKQLFISADEIDDQNQKFSLKSYEGGTKILIVWRADKMNIAASNKFLKFLEEPPAKTIILLTAESTNDILPTILSRTQIVEIPRIHDEDIEDHLKKNFSVSEEKVKEIVHEAQGDLNNAVKLLNSGDKSNEFEKLFVQWVRDAFMVKKKPEYLRSIILWAREIAGWNREKQKNFLNYCSEIFRLALLQNYQSENLVYKKINVNGFNWAGFSKFISGANIESILEEINTADLHLTRNGNPKIVWTDLGIKLSRYIHKST				NA	NA	NA	NA	NA
BMS003_00673	174			hypothetical protein	ATGACATACAATGATGTAGAAGATGCTCTGGAAGAAATCAATACTTGTCCAAAACCTTTGGCAGTTTATGTATTTTCAGAAGAACAGAAGTTTGCAGATTACGTTGTAGATATTACTACCAGCGGAGATGCTGAGGTCAACAGTGCCATTATTGACCTGGGTTCACATTATTAA	MTYNDVEDALEEINTCPKPLAVYVFSEEQKFADYVVDITTSGDAEVNSAIIDLGSHY	PGPT0006875_10055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS003_00674	1314			hypothetical protein	ATGAAAAAAATCTTTGTAGTATCATTCATATCAGTTGGATATTTTCTTAATGCACAGAGTCTAAGCAACTCTCCTTATGCAACGTATGGAATTGGGGATGTGAAATATGATAATACGATCGAGACTACTTCTATGGGAGGTATATCAACTGCTTTTATTAGTGATTTTACCAGTAGCTTCAATTTTGCCAACCCAGCAAATAACGCCAATTTTGAACTTACGAGTATCAGACTGGAAGCTACCAATGAAAATAATTATTTCAAATCGAATTACAACGATATGAAATCTACAAAGCATTCCACTTACCTTTCCAGTATTTCATTAGCTTTTCCGTTATCTTCTAAAGTAAAAATGGGGATCTCTTATCAGCCATACAGTTCCAAAAGCTACGATATCGTAACGGAACAGCTTGCTGATGACAAAACTCCTCTTTACAGAAATAACTTTAAAGGAAGCGGAACTCTGAACACTGCACAGGTAGCAGTTTCTTATAAAATTAATCAGGAACTTTCCGTGGGGGCAAGAGCTAACCTTTATTTTGGTGATCTTAGTGATCTTAATGAATTCCGTGCTTATAACGCTGCTACCGGCACTTACTCCGGGGAGTATGTGAACGGTTATCAGACTAAGAACAGAGTGAGAAACTTTAACTTTACACTTGGTACAAGCTACCAGACCTTAAATACACGTACTGACAAGAAATTCACAGTAGGAGCTACAGCTACTTTTGGTAATACAAGTAATATGACTACTGAGTATATCAACAGTACCTACAGATATGCTGATGCTCAGGAAACCACTAAGGTTGACGGATCAGAAACGATCATAGATCAGCAGCAGACAAAATCTAAAAACCTTCTTCCATTCCAGGCATCCGTGGGGGTTGGATACGGAAGCGAAAACCACTGGTTCTTATCCGGACAGGTAGATTATAAGAAAGGAGAAGACATCTCTTATTTTGGTAAAACTTTCAATTTTCAGGACACTTACAGAATTTCTGCCGGTGGATGGTACCTTCCTAACTATAACAACTTCAGAAATTATTTCTCAAGGGTAATCTATAGATACGGAGCTTTCTATGAAAGAGGAAACCTGAAGCTGGAAGGAACAAGCATCAATAAATTTGGTATTTCAGCCGGAGTAATGCTTCCATTCAAGAACAGCAGTATCACCAGAATGAGTGGTCTTGAAATAGGACTGGAAGTTGGAAAAAGAGGAACGCTTCAAAACAACCTGATCAACCAGAATTTTGTTAATCTGAAAATCGGCTTTAATTTTGCTGATAAGTGGTTCAGAAAGACTCTTTATAACTAG	MKKIFVVSFISVGYFLNAQSLSNSPYATYGIGDVKYDNTIETTSMGGISTAFISDFTSSFNFANPANNANFELTSIRLEATNENNYFKSNYNDMKSTKHSTYLSSISLAFPLSSKVKMGISYQPYSSKSYDIVTEQLADDKTPLYRNNFKGSGTLNTAQVAVSYKINQELSVGARANLYFGDLSDLNEFRAYNAATGTYSGEYVNGYQTKNRVRNFNFTLGTSYQTLNTRTDKKFTVGATATFGNTSNMTTEYINSTYRYADAQETTKVDGSETIIDQQQTKSKNLLPFQASVGVGYGSENHWFLSGQVDYKKGEDISYFGKTFNFQDTYRISAGGWYLPNYNNFRNYFSRVIYRYGAFYERGNLKLEGTSINKFGISAGVMLPFKNSSITRMSGLEIGLEVGKRGTLQNNLINQNFVNLKIGFNFADKWFRKTLYN				NA	NA	NA	NA	NA
BMS003_00675	591			hypothetical protein	ATGAATTTTTCAGAAAAAATATCATATAAAAATATAGCATGCCTTTTTAGTTGTGCTATATTTTTTATATTGACATCCTGTGAAGAGGATCTTACCAAAAGAAATGGCAGCCAAAGCAAAAATTTCCCTTCACAGATCATCAACAACGCGAATATCATACAGCGCGACTCCGGCTTTGTTACTTTAAAAGCCAAAGCACCCATCATTGAGAAATACGAGCTTATCGACAGCCCTTATGTAGTAGCCCGAAAAGGAATTGACATTGAGTTTTTCGACAAGAAAAAACCTAAGGTTCCCGGAAGGATTACAGCCAAATATGCCCGCATTTTTGAATATAAAAAATTCTATGAAGCCAAAGGTGATGTAAGAATAAAGACCAATGAAGGGCAGAGATTTGCCATGCAGAGTATTTACTGGGATCAAAAAAAGAAACGAATTTATACTAAAGATACGGTATATGTCACCATGGAAGACGGTTCTACACTGGTAGGTGCCAATGGAATGACGGCAAAAGACGATTTTTCAGAATACACCTTTTATAACAACTCAGGAGATTTCAGTTCGAAAAGAATCTCCGAGAACAAAAAATAG	MNFSEKISYKNIACLFSCAIFFILTSCEEDLTKRNGSQSKNFPSQIINNANIIQRDSGFVTLKAKAPIIEKYELIDSPYVVARKGIDIEFFDKKKPKVPGRITAKYARIFEYKKFYEAKGDVRIKTNEGQRFAMQSIYWDQKKKRIYTKDTVYVTMEDGSTLVGANGMTAKDDFSEYTFYNNSGDFSSKRISENKK				NA	NA	NA	NA	NA
BMS003_00676	1044	anmK	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGAAAACTCTGGCTATTGGACTGATGTCCGGGACAAGCCTGGATGGTTTGGATATCTGTCTTGCTGAATTTGAAAAGCAGGACAGATGGATCTTTCAAATCCTGAAAGCCGAAACCCTTCCCTATTCCAAAAGCTGGGAAAATAAGCTCAGAGACTCCATTCACCTTTCTGCTCAGGATTTGCTGGCACTGCATTCTGAATATGGTTTTTATCTCGGTCAGCAGGTGAGAGCATTTATTAATCACCATCAGCTTAAAAACATCAGCCTGATTGCCTCGCATGGGCATACCGTTTTTCATCAGCCCAAGAGAAAATTTACCCTTCAGATCGGTGATGGCAGAGCGATCAGGCAGGAAACCGGCTTACCGGTCATTTATGATTTCAGAAGTCAGGATGTCCTGATGAACGGAAATGGAGCCCCACTGGTTCCCATAGGCGATGAATTGCTTTTTTCACAGTACAGTGCTTGTCTGAACCTCGGTGGTTTTTCCAATATCTCCTTACAGTATGAAGGAAAAAGAATAGCTTTTGATATAGTTCCGGTGAATATTGTTTTGAATTATCTGGCCCAAAAACTCCATAAAAACTTTGATGAAAACGGAGAACTGGCTAAAAAAGGGAAAATAAATGAAACTTTGCTGGATCAGCTTAATACATTGGATTTTTATCAGCATTCACATCCAAAATCTTTGGGAATAGAATGGTGCAATGAGTATATCTTTCCAGTCCTGGAGAATCTGGAAACTCCGGATGCCCTTGCAACTTTCACAGAGCATGCTGCCCTGCAGATTGCCAATGTAATGAACGAGTATGCTGTAAAAGACCTCCTTATCACAGGTGGAGGTGCTTACAACTCTTTCTTAATTGAAAAAATACGGGCAAAGACAAAATCTGAAGTCATTATCCCTGAAAAAGAGATCATCGATTATAAGGAAGCGCTGATTTTTGCCTTTATGGGAGTTTTAAAAATGAATAATCAAATTAATGTACTTTCTTCCGCTACAGGAAGTTCCCATGATCACTGTTCAGGAGTTACAGCATAA	MKTLAIGLMSGTSLDGLDICLAEFEKQDRWIFQILKAETLPYSKSWENKLRDSIHLSAQDLLALHSEYGFYLGQQVRAFINHHQLKNISLIASHGHTVFHQPKRKFTLQIGDGRAIRQETGLPVIYDFRSQDVLMNGNGAPLVPIGDELLFSQYSACLNLGGFSNISLQYEGKRIAFDIVPVNIVLNYLAQKLHKNFDENGELAKKGKINETLLDQLNTLDFYQHSHPKSLGIEWCNEYIFPVLENLETPDALATFTEHAALQIANVMNEYAVKDLLITGGGAYNSFLIEKIRAKTKSEVIIPEKEIIDYKEALIFAFMGVLKMNNQINVLSSATGSSHDHCSGVTA				NA	NA	NA	NA	NA
BMS003_00677	117			hypothetical protein	ATGTACTTTCTTCCGCTACAGGAAGTTCCCATGATCACTGTTCAGGAGTTACAGCATAAAAAATTACGTAGAAATAAAAAAGACCTTCATTTTGAAGGCCTTTTCTATTATTTATAA	MYFLPLQEVPMITVQELQHKKLRRNKKDLHFEGLFYYL				NA	NA	NA	NA	NA
BMS003_00678	390			hypothetical protein	ATGAATTTAGAAGGACGAAAGATTATTGTCAATAAATCATCTAAAGAACTTACCGAGTTACTGAAATCACCTGAAAATTACAAAGATTTTATGCCGGATGGTCTTCAGAAATTTGAAACGAGAGATAACGGATTTAAATTCGGATTACAGGGGATGCCGGAAATTGCATTAAAAATAGACGAAGTGGATGACCATAAAGCTGTTTTAAAATCTGCAAGTTCAAGTCTGGATTTCTCCTTAATTGCAACTTTAAACCCAATCAGCGAAAATCAGACCGAAGTTCAGATGTTATTTGAAGGGAAATTCAACCCATTTATTAAAATGATGGTGGAAAAACCTTTACAGAACTTTATCAATACGCTTACCGATAAAATCGAAGCTTATAAATAA	MNLEGRKIIVNKSSKELTELLKSPENYKDFMPDGLQKFETRDNGFKFGLQGMPEIALKIDEVDDHKAVLKSASSSLDFSLIATLNPISENQTEVQMLFEGKFNPFIKMMVEKPLQNFINTLTDKIEAYK				NA	NA	NA	NA	NA
BMS003_00679	609			hypothetical protein	ATGTATAAAGTTTTTGTCAACGAAAAAAAATTATTGATATCTAAGCATCCGGAAGAACTGGAAAAAAAGATTGTGTATGAAAATTATACAACTTTAGAAATTGCTTTAGATCTTTTAGAAAATACTTCTGTGCAGGAACTGAATGTATACGGAGAGAATTTAGATGAAATCTGGCAAGAATTTCAAAAGCTTTTCAGAATTATAGAAGCAGCAGGAGGACTGGTGAATACCCCTGAAGGTCAGATCCTTTTCATAAAAAGGCTGGGTAAATGGGATCTTCCGAAAGGAAAGATGGAAAAAGGAGAATCCAGAGAAGAGTCTGCTGTAAGGGAAATTGAAGAAGAAACAGGCCTTAGCGATGTGGAACTTGTAAAGTTCATCAACACCACTTATCATATTTATATTGAAAGAAATGGGGAGAAAATCTTAAAATGCACTCATTGGTTTGAAATGAACTTTGACGGTGAAGACACCTCTAAACCACAAATAGAAGAAGGTATTACTGAAGTGGCATGGAAAACAACCTCTGAAATTGAGAATGAAGTGTTCTCAAGTACTTTCAAAAATATAAAACTGATCGTAAAAGAATTCTGGGATTCCAAGAAATAA	MYKVFVNEKKLLISKHPEELEKKIVYENYTTLEIALDLLENTSVQELNVYGENLDEIWQEFQKLFRIIEAAGGLVNTPEGQILFIKRLGKWDLPKGKMEKGESREESAVREIEEETGLSDVELVKFINTTYHIYIERNGEKILKCTHWFEMNFDGEDTSKPQIEEGITEVAWKTTSEIENEVFSSTFKNIKLIVKEFWDSKK				NA	NA	NA	NA	NA
BMS003_00680	1272	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGAATATAGAACAGTTTTATCCTTTATTTCTGGAGTCTGCAAATGTGACCATTGACAGCAGAAAAATTGCAGAGAATGATATCTTCTTTGCCTTTTCCGGTGAGAATTTCAATGCAGCCACCTTGGCAGAAAAAGCTATTGATGACGGTGCTTTGGCTGTGGTTGTAGAGCTTCCGGAATTTGAAAACAGAGATAAAAATATTTTCTATGTTCCATCTACTCTTGAATTTTTGCAACAACTTGCCATTTATCACAGAAATAAGCTTACAATTCCTTTTATAGGACTTACGGGAAGTAACGGAAAAACTACTACGAAAGAGCTTATTCATGCTGTTCTTTCAGAAAAATTTAATGTTCAGTATACATTCGGAAATCTGAACAATCATATTGGAGTTCCTTTGACAATCCTTTCCATTAAACCGGAGCATGAAATGGCGGTCATTGAAATGGGAGCCAATCATCAGAAAGAAATTGAATTTCTGTGTACAATCTCTCAACCAGATTTCGGCTATATAACCAATTTTGGAAAAGCTCATCTGGAAGGTTTCGGAGGTTTTGATGGAGTGATTAAAGGAAAATCTGAACTGTATACTTATCTTAAAAGCAATCACAAAACCATTATTGTTAACGAAAATGATCCTGTTCAGGTTGAAAAAACCGAAAATTATTCACCGAAAATAACTTTTGGGAAAGATACCTCAGATTATAATTTTGAACCTTTTTCAGAAGAACATTTTGTAGGATTAGCGTATCAGGGAGTAAAAGCGGTTACAAAGCTTACGGGCGAGTATAACTTCACCAATCTATGTGCCGCTGCAAGTCTGGGACTTCATTTCGGAATCAGTTTTGAAAAGATAAAACATGCTCTGGAGCTATATACACCTACCAATATGAGATCTCAGGTGGTAGAAAAAGAGGGGAGGACTCTGGTACTGGATACTTATAATGCCAATCCGAGTTCTATGACGGCTTCTTTGAACAATTTTATCAGTTTTGAAGGTAGTAAAACGATTATTATCGGGGATATGCTGGAATTGGGTGGCGAAAGCGAAAAAGAGCATCAGAACATCTTAAAACTGGCTAAGGATCTTCATTTCAATGTGATTATTACGGTTGGGAAACATTTTAAAGCAGTTAACCCTTCAGATCTTGCTTTTGAAAATACAGCAGAATTAGCAGAATATTTAAAACAGAATAAAATAGAATCCGAAAACATATTGCTGAAAGGTTCCAGAGGAATTGCCCTGGAGAAACTGCTTGACTTTATTTAG	MNIEQFYPLFLESANVTIDSRKIAENDIFFAFSGENFNAATLAEKAIDDGALAVVVELPEFENRDKNIFYVPSTLEFLQQLAIYHRNKLTIPFIGLTGSNGKTTTKELIHAVLSEKFNVQYTFGNLNNHIGVPLTILSIKPEHEMAVIEMGANHQKEIEFLCTISQPDFGYITNFGKAHLEGFGGFDGVIKGKSELYTYLKSNHKTIIVNENDPVQVEKTENYSPKITFGKDTSDYNFEPFSEEHFVGLAYQGVKAVTKLTGEYNFTNLCAAASLGLHFGISFEKIKHALELYTPTNMRSQVVEKEGRTLVLDTYNANPSSMTASLNNFISFEGSKTIIIGDMLELGGESEKEHQNILKLAKDLHFNVIITVGKHFKAVNPSDLAFENTAELAEYLKQNKIESENILLKGSRGIALEKLLDFI	PGPT0024145_5009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
BMS003_00681	1602	egtB_2		Hercynine oxygenase	ATGAAAAAACTAAAGTTGTTTTCATTAATAGCATTAAGTTCTACACTTGCATTAACCAGCTGTGGCGGATCAGGAACCAGCAAAGGTGGCGGTACCAAAAAATTTGTCAGTAAAACGGGTTGGAAACCAAACGAAAAACAAGGTTGGTTTTTTGCAGGAAAGCAACAAAAGCAGAAGGGGTGGCCTGGAATGGTATATGTAGAAGGTGGAACTTTTACAATGGGATTAGTGAAAGATGATGTTATGCACGATTGGAATAACACGCCGCGCAGAATGCAGGTAAGTTCATTCTTTATCGGAGAAACAGAAATTACTAACTACGAATACCGCGAATACCTTACATGGTTGAAGTATGTATTTCCACCAAGTGATCCTAGTTTTAAGGAAATCTATAATGGTGCTTTACCGGATACCTTATTATGGGACAACAAATTAGCAAGAAACGATTATAACGAGACTTATCTGCGTTCTCCGGAATTCGATTACTATCCGGTGGTAGGTGTTTCCTGGACTCAGGCAAACAGATACTGCGAATGGCTTTCAGACAGAGCGAATGAAAAAGCTTTGATGCAGGCAGGTATTATTGCTAAAGACTTATATATCAATGAATCCAATAACCAGGGAGGAACAGCATTCAACATGGATAAATTCAAATCGAATGATCCTGAAATGCAAGGATATATTAATGAAAAAAGAATGCAGCAAAAAACTGGTCTGAAAACTACAAACCAGAGATTGCTGGCAGCTAACAGAGCTCCGAATTCTGCAATGGTACAGAAGTTCAGACTTCCTACAGAAGTAGAATGGGAATATGCAGCTCTTGGTCTGGCTAAAAACAGAGAATATAACCAATATCTGGGTAAAAAACCTGAAATTGAAAGATTAAGAGGTACTAAAGGAAGAGACAGAGGAATGTTCCTTGAAAACTTCAAAATGGGTAAAGGTGACTATTCTGGTATTGCAGGATGGAAGAATGACGGATCTGCCCAGACTTCTGATGTAAGACAATACCCATCTAACGACTTAGGTATCTATGGTATGTACGGAAACGTTTCTGAATGGACGGCTGACGTTTACAGACCCATCATTGATGAAGACTACAATGATTTCAACTACTATAGAGGAAATATGCCTCAGGCGATCGTAAGAAACGGAGACGGTACTTATAAAATGATCGACGAAGGTTCAATCAAGTATGATACATTAGCTGACGGAAGACTTGTTTACAAAGGACTTCCAGGGCAATTTGAGAGACAGACTATCGCAGATTACAGAAACTACAGAGATGGTGACAGACAATCTTCTTTAGAGTATTACAGAGCTTCTGATTCTGCTGCAGGTTTCGATATGTACAACGCTCCTAAGACAAGCTTTGTAGTAGATGGAAACGGCAGAGTAAAGTTACAGAAAGATACGAAAGAGAGAACTTCAGGCATTTCTAATGAAGTTAGAGTAGTAAAAGGTGGTTCTTGGCAGGATACAGCTTATTGGCTGGATCCGGGACAAAGAAGATATAAAAATCAAAACAGAGCTTATGGTTGGGTAGGTTTCCGTGTTGCACAGGATGCCAGAACTAACGATAAGAGTAGAACTAGAAGATAA	MKKLKLFSLIALSSTLALTSCGGSGTSKGGGTKKFVSKTGWKPNEKQGWFFAGKQQKQKGWPGMVYVEGGTFTMGLVKDDVMHDWNNTPRRMQVSSFFIGETEITNYEYREYLTWLKYVFPPSDPSFKEIYNGALPDTLLWDNKLARNDYNETYLRSPEFDYYPVVGVSWTQANRYCEWLSDRANEKALMQAGIIAKDLYINESNNQGGTAFNMDKFKSNDPEMQGYINEKRMQQKTGLKTTNQRLLAANRAPNSAMVQKFRLPTEVEWEYAALGLAKNREYNQYLGKKPEIERLRGTKGRDRGMFLENFKMGKGDYSGIAGWKNDGSAQTSDVRQYPSNDLGIYGMYGNVSEWTADVYRPIIDEDYNDFNYYRGNMPQAIVRNGDGTYKMIDEGSIKYDTLADGRLVYKGLPGQFERQTIADYRNYRDGDRQSSLEYYRASDSAAGFDMYNAPKTSFVVDGNGRVKLQKDTKERTSGISNEVRVVKGGSWQDTAYWLDPGQRRYKNQNRAYGWVGFRVAQDARTNDKSRTRR				NA	NA	NA	NA	NA
BMS003_00682	3903			hypothetical protein	ATGAGACGAAAAATTACGCTTTTATCTTTAATCGCTTTTGCATCAACACTTTACGCCCAGAGAAATACCATTGAATGGAACGGCTCTAAAATTCAGGATTTTGGTGACACAAAATTAAATCTTCCCAATTTTAAAAATGAGGGTTTTTCTTTCAGCCAAAATAATGTTTTTATAACAACCAAGCAAAAAATCGGAGAAAAGCAGCTGAAAATTACAGATCTTGTCTGGGAAAACGTTTCCAACCAGGATTTATTTGAACTGGATAAAGGCAGACTTCCAGACTATGATGTGGCAGATGTTTCCTATTATAATTTGGATGGAGAAACCTACGCCGGAATTAGTATTGCTTTATTTAAAAATGTAAAAGGCCGTGTTCAGAGATTATCTTCGTTTAATGTTACAGAAGCAGCTGCATTTGTAAATACTACAGGAACTGTTAATAAAATAGGAACTACCGGAAACCCGCTATCAAGTGGAAACTTCTACAAAATAAAAGTAGATAAATCCGGAATATTCAAAATTACATCACAGTTTTTAAAAGATAACGGAATTAACCCAAGTTCTGTAAATCCCAAAAACTTCAGAATTTACGGTAATGGAGGAATAATGCTTCCTGAATTCAATCAGGATGCAAGATATGGTTCACTACAGGAAAACTCTATTCAGGTTGTAGGTGAAGATGATGGTGTATGGAATGACAATGATTATGCCCTTTTCTATGCTCAGGGTCCTGATGGATATAATCTTTATGACACTTCCAACGGAAATGGTTTTAAAAGAAAGGATACCCGATTCAGTGAAAGAAGTAATAATGTCAAAAATATATATGAGGATTTCTCCTATTATTATATCAACTTTGATAAAGGTGCCGGAAAAAGAGTTCCTACAGTTGACGGGAATCTCCCTGCTCAGCTGATTACAAGGTATGACAGTTACCAGGTGATCAACAAGGATGAAAAGAACCTGTTAAAAGTAGGCAGAACCTGGGTGGAAAATACTCCTTTTACCAGCGAAAAAACAATAACGCTTACTACCAATTCGCCTATTCAGGCTAATGATGTCATACGGTACAGAACGCAGGTGGTGGGTTATAATGCCCAACAGAATACAATTGATTTCAAGATCAACAACCTGAACCCGCACCCGATACAAACCATCCCTACAGATACTTCTACCTATAGGTATATCTTCTACCCTGTAACATATACAGGAACGCTTACCAATCTTACAGGAAATCAGATTACAATGGTTTTAAACCCTGATATTTCCAAGAATCCTAACGGAACTTTTTATTTTGACTATGTAGAAGTTCAGTACAAAGAAAATCTTGCGTTTAATGGTTCACAGATGAATTTCAGAGACTACTCTATTGTGAGCGGAAGCAATACAGATTATGGTTTCAGCATAAGCAATGCCTCCAATATAGAGCAGGTATGGGATGTAACGGATATTACAAATGCCAGCAAAAGAGTGAATAAAGCCGGAGCAGGCTCTTTCAACTTTGCATATACAGCTTCTGACCCGAACTTCAACAATGAATTTGTAGCCTTCCGTGCTGATGCAGCGTATACTCCACAGTTTGTAGGAAGGATCCAGAATCAGGACCTTTCTGCCTTACAAAATGTAGATTACCTTATCCTGACTGTCCCTGAGATGATGGGACAGGCACAGAAACTTGCCAGTTATCACCAGACCAACCATAATTATAAAGTAGAGATCGTAGACATCAATAAGATCTATGAAGAATACGGAAGCGGAAGCAAAGACCTTACTGCAATAAGAGATTTTGTAAGCAAGCTCAATACACCGCTTGGAAGACTTCAATATGTATTTATTCTGGGGGACGCTTCATATGATTATAAAAACAGAGTTCCGGGAAATACAAACATTGTCGCCAGCTATGAAAGTGAGCAGTCATCAGATTATGTATCATCATTTGTAACAGATGATTATATTGTAATGACCAAGCCGCAGACAGCACTATTAATTGAAAACAATTTGCCGGATCTGCCTGTAGGGAGAATTCCTGCTGCCAATGTGAGTGAAGCAGGAGATATGATTAATAAAACACTGGCCTATTACAATTCCCTTCAGGGACAGTCTAGCCCATTTGGAGACTGGCGTATGCGGCTTGATTTTGTGGTGGATGATAATAACGAAGGAGGAAGCCCATTCCACAATGTAATGAACTCTTCTCTGGTTAATGTATTTGAACAGCCGGGTCAGCTTGATCTGAAAGAATATAACGTTAAAAAATTATACATGGATGCCTTCGCTGGCCAGAGCACATCCGGAGGAAGAAGATATCCGCAGGTAAACCAGGCTATTTCCAATGCGATAGGAAACAGTTTATATCTGTTTTATTTCGGACACGGAGGAATCAACGGCTGGGCACAGGAAAGGGTACTGACGAGCACTGAGGTTCAGAATGCCAATAACTTCTCTAATGTATACAGCAGATTCCCTTTTGTATCTACCATCACATGTGAATTTACATTATGGGATGAACCTTCCACCAACTCCGTAGGAGAACAGTTCATAAAAATGAAACAGGGAGGTGCATCTACCATGATTACTTCCAGCCGTGCCATTGGAGTAGATTACGGACGAGATTTCACCAATACATTTACCCAAAATATATTCAAATTAACCAATGACGATTTTAATTCGTTAGGAAATGCTCATTTAATTGCCAAAAAACAAAAGGGGCCAAACAATAACCACCTAAAGGTAAACTTCCTGGGTGATCCTGCCATGAAACTGAGCAGACCGCAAAGACTTCTGATCATCGACAATATTGAAACTCCGGTTCCCGGACTGATAAGAGGGCTGGATTTTGTAAAGATAAAAGGACACATCAATAATCCAAACGGAACTCTGAACAACACTTTCAACGGAAGAGTAAGTATTAACATTTTTGATAAAAGATTAAATAAGAAAACATTAAATAACAGTGGCGTTCTGTCTCCGGTATTAGATTATACTGAAGAAGGAAGTGCCATTGTAAAAGCAGCGGGAACTGCCGTAAACGGAGTATTCACTGCCGAATTCTATGTTCCTAAAGATATTAACTATACGGTAGGCCAGGGAAGAATTTTAACCTATGCAGACAACAAAGCAACAGATGTTTTCAATAACCAGGCTGTACAGGTAGGTGACATTAACCCTAACGGAATTAATGACAACCAGCCCCCAAAAGTAAAACTGTATATGAATAACACCAACTTTGCAGATGGCGGAATTACCAATCAGAACCCAATGCTTCTTGCCTGTCTTACAGACGATACAGGAATCAACTCTACAGGTTCAGGAGTAGGTCATGATATTACAGTCTATCTGGACGGACAGATTATCAACACTGTTGTCCTGAATGATTTTTATGCTGCAGGAGAAGGAAACGGATGTTTAAATCCAAGTCTTGCCGAATATCAAAAAGGAAATGTTACCTATCCTTTCAGAAATTTAGCAATCGGACAGCATCAATTAACATTTAAAGTTTGGGACATAAACAATAATTCTACAACTGCTACGTTAAACTTTGAAGTTAAGGACGAAGCAGATCAGCACCTGATTATCAACCGCCCGCTGAACTGGCCTAATCCGTTTACAAACAAAACGTATATTCAGTTTGAACACAATTGTGATGATATTCTGGATGTGAACGTACAAATTTATACAATAACCGGAAGATTGGTAAGAACTTTATCCCAACCGGTGGTAGCAGAACCGTTCCTGCAGGGCTTTAGAACCCCTCGTCAGGCAATAGAATGGGACGGAAGAGATGATTTTGGTGCTACAGTAGCAAAAGGTACGTATATTTTTAAGATATTTGCAAAAAGTCAAAATCAAGAAAAATGCAAAGGAAGTGCTACAGCTGTAGAAAAAATGGTACTTTTGAAATAA	MRRKITLLSLIAFASTLYAQRNTIEWNGSKIQDFGDTKLNLPNFKNEGFSFSQNNVFITTKQKIGEKQLKITDLVWENVSNQDLFELDKGRLPDYDVADVSYYNLDGETYAGISIALFKNVKGRVQRLSSFNVTEAAAFVNTTGTVNKIGTTGNPLSSGNFYKIKVDKSGIFKITSQFLKDNGINPSSVNPKNFRIYGNGGIMLPEFNQDARYGSLQENSIQVVGEDDGVWNDNDYALFYAQGPDGYNLYDTSNGNGFKRKDTRFSERSNNVKNIYEDFSYYYINFDKGAGKRVPTVDGNLPAQLITRYDSYQVINKDEKNLLKVGRTWVENTPFTSEKTITLTTNSPIQANDVIRYRTQVVGYNAQQNTIDFKINNLNPHPIQTIPTDTSTYRYIFYPVTYTGTLTNLTGNQITMVLNPDISKNPNGTFYFDYVEVQYKENLAFNGSQMNFRDYSIVSGSNTDYGFSISNASNIEQVWDVTDITNASKRVNKAGAGSFNFAYTASDPNFNNEFVAFRADAAYTPQFVGRIQNQDLSALQNVDYLILTVPEMMGQAQKLASYHQTNHNYKVEIVDINKIYEEYGSGSKDLTAIRDFVSKLNTPLGRLQYVFILGDASYDYKNRVPGNTNIVASYESEQSSDYVSSFVTDDYIVMTKPQTALLIENNLPDLPVGRIPAANVSEAGDMINKTLAYYNSLQGQSSPFGDWRMRLDFVVDDNNEGGSPFHNVMNSSLVNVFEQPGQLDLKEYNVKKLYMDAFAGQSTSGGRRYPQVNQAISNAIGNSLYLFYFGHGGINGWAQERVLTSTEVQNANNFSNVYSRFPFVSTITCEFTLWDEPSTNSVGEQFIKMKQGGASTMITSSRAIGVDYGRDFTNTFTQNIFKLTNDDFNSLGNAHLIAKKQKGPNNNHLKVNFLGDPAMKLSRPQRLLIIDNIETPVPGLIRGLDFVKIKGHINNPNGTLNNTFNGRVSINIFDKRLNKKTLNNSGVLSPVLDYTEEGSAIVKAAGTAVNGVFTAEFYVPKDINYTVGQGRILTYADNKATDVFNNQAVQVGDINPNGINDNQPPKVKLYMNNTNFADGGITNQNPMLLACLTDDTGINSTGSGVGHDITVYLDGQIINTVVLNDFYAAGEGNGCLNPSLAEYQKGNVTYPFRNLAIGQHQLTFKVWDINNNSTTATLNFEVKDEADQHLIINRPLNWPNPFTNKTYIQFEHNCDDILDVNVQIYTITGRLVRTLSQPVVAEPFLQGFRTPRQAIEWDGRDDFGATVAKGTYIFKIFAKSQNQEKCKGSATAVEKMVLLK				NA	NA	NA	NA	NA
BMS003_00683	1164			hypothetical protein	ATGAATTTAACTACTAAACTGCTTTTAGGATTTGGTTTGAGTGCTGGTTTTTTAGGCTATTCGCAAGATCTAGGTAAAGTAAACCCAGTTCTTACCGGAGCTCCTTTCCTAAGAATTGCACCTGATGCAAGATCAGGAGGTATGGGGGATCAAGGGGTGGTAACCTCTCCCGATGCGTTTTCACAATTCTGGAATGCGGCCAAATATCCGTTCAGCAGGACAAGTTCTTCCGTAGGTCTTAACTATACGCCTTATATGGGAAAACTTACCAATGATGTATTCTTATTATATGCTTCGTTTCATAAGTTTTTGGGGCAGGAAGAAAGATCTACAATCTCTGCAAGTATCTATTATTTCAATATGGGACAGGTAGACCTGACTCAGCTGGTAGGTACAGAAATTGCATCTATGGGTACCTCTAAACCCAACGAATTCTCAATTGACGTTGCCTACGCTTTGAAACTTTCTGATTCATTTTCCGGTGCCGTTACCGGTAGATTCATCCGTTCAGACTTAGCCGGAGGATTCAACACAGATACTACACTTAAGGCTGCCAACAGTTTCGCAGTAGACGTTTCAGCATACTATAACTCTCCAAGATTCTCCAGTATTGGAGGATATGATGGTAAGGTGAATGCAGGTCTGGCTATTCAGAACCTGGGTCCTAAACTGGATTATACAGGAAATGAAGAATCAAGATCTTATCTTCCGACCATGGCAAGATTAGGGGTTGGATATGACATGTATCTTGATGATATGAACAGAGTGGGAATTTCCGTAGAAGGTTCAAAACTTCTGGTTCCGGGATCTGAATATGCAGGAATAGACCCAAATACAAGACAGCCTATTTATCAGATTCCTAATGTAGGGCCAATGGCCGGTATCGGAAAATCTTTTAAAAACAAAAACAGTATCATGTACAGTGGTGCTTTAGAATATTCATATGACAATGCATTTTCTGTAAGAGGAGGTTACTTCCATGAAAGTGAAGAGCAGGGAGCAAGACAGTTTGCAACAGCCGGTGTAGGGTTAAAATACCGCTCATTCGGACTGGATCTGTCTTACCTGATCAATATGTCTAAAATCAACAGTGCTTTGGATAACACGCTTCGTTTCGGTCTTACCTGGAACATCGGAGAAGAAACATCCAATATTGACCGTTAA	MNLTTKLLLGFGLSAGFLGYSQDLGKVNPVLTGAPFLRIAPDARSGGMGDQGVVTSPDAFSQFWNAAKYPFSRTSSSVGLNYTPYMGKLTNDVFLLYASFHKFLGQEERSTISASIYYFNMGQVDLTQLVGTEIASMGTSKPNEFSIDVAYALKLSDSFSGAVTGRFIRSDLAGGFNTDTTLKAANSFAVDVSAYYNSPRFSSIGGYDGKVNAGLAIQNLGPKLDYTGNEESRSYLPTMARLGVGYDMYLDDMNRVGISVEGSKLLVPGSEYAGIDPNTRQPIYQIPNVGPMAGIGKSFKNKNSIMYSGALEYSYDNAFSVRGGYFHESEEQGARQFATAGVGLKYRSFGLDLSYLINMSKINSALDNTLRFGLTWNIGEETSNIDR				NA	NA	NA	NA	NA
BMS003_00684	2265	yccS	COG1289	Inner membrane protein YccS	ATGAACTATTCGGCGGAGCTAAAAAAATTTGTAACCAGTCAGTATGTATATTCTGCTATCAGAATTACATTAGCTACTGTTCTGCCCTGTTTAGTCCTTGCCCAGCTTGGAATTCTGAAAGAATATTTCCTTTTTCCTCTGGGAACCAGTTTTGTGGCTCTTACAGACCAGCCGGGACCTTTTATCCGAAGAAGAAATGCTCTTACTTTTGCCATCTGCTCTTTTGTTTTTGTAGCACTTATTGCAAGTCTTGTAATGAATATCAAGGTATTGGTTCTTGCGGAGGTCATTGTCTTCGGGATGTTTTTCTCCCTGATTGGTGTGTATGGTCAGAGATTGGCAGCTGTAGGCTCGTTATCACTTGTTGTACTCGCTATCTTTATAGACGGTCATCTTACGGGAAGTAATATTTTTAAAAGTCTGCTGATCTTTGCTTCCGGCTGCATATGGTTCCTGCTTATATTCCTTATTGTAACCACTATCCGTCCTTATAAACTGGCAAGTCAGATGATTGGGGAAAATTATCTTCAGCTGGCCGAGTTTTTAAAGATCAAAGCGAATTATTATCAGAAAAATCCTGATTTTAATAAACTGACCACTCAGGTTATTGCCAAACAGATTGAAATAAAAAATCTGCAGGAAGATACCAGAGAAACAGTTTTTAAGACAAGAACGATTGTTAACGAATCTACCACCACCAGCCGCCTATTGATGCTGATGTTCCTGAATTCCATGGACCTTCATGAGAAGCTGATGACCTCTGAAAGTGATTATCAGAAACTACAGCAGAGCTTTGAAGACAGTATGATACTGGTTAATATCCATGATTATCTTAATCTTTTGGCAGAAGAGATCACCAACATCGGAATTGCGCTTCAAAGTGGTACCAGAGCAAAACCTCTGTTTAATCTGGAACTGGAATTAAAAAATTTAAACTACAATTATTTCGAACTCAGAAACAAACAGCTTTCTCCTGATAACCTGGAAAATTTCATGATTCTCCGTCAAATCCTGATGCGTATCTATGAAATAACGAAAGAAATCAACGAAATCTATAAAGTATTTTCACAGGATATTAAACTGGCCAAGAGTTTATCCACGGGATTAGACCTGAAAAAATTTATGCCTAATGAGCCTAAGCTTAATGCTAAGGTTTTAAGGAATAATATTTCGTTATCGTCTTCCCAATTCCGGCATGCAATAAGAATTACAACAGCTTTGCTGCTGGGATATGTCTTTTCTATGTTTGATTTGCTGGGACTGGGGCACACGTATTGGATATTAATTACCATTACAGCCATTTTAAAGCCCGCTTATTCCATCACAAAACAGAGAAACCTTCTTCGTCTTTACGGAACAGTTGCAGGGGCAAGTATTGCTTATGCCATTCTGCACTTCGTACATATTAACGGAGTTTTATTTGCGATCCTGCTGATCAGTATGATCATGTGTTTCAGTTTCCTTAAAGGACGGTATTTCTGGGCAGTATTATTCATGACAATTTATATTTTCCTGAGTTTTAATTTTTTAAATCCCGGGAAAGTCAATATTATTTTTAAAGACAGAATTTTTGATACAGCCATTGCCGGAATTATTGCTTTTGCGGTGTCTTATATTGTACTTCCGGTTTGGGAACACACACAAAATCTGGATCTGATGAAAAAATCTGCTGCAGATAACCTGATCTATTTCAAGAGTGTGATATCTAAATTTCTGCAGGGAAATTTTGATATTGAAGACTATAAAGTAAAGCGAAAAAATGCAATCATATCTTTAGCCAACCTTTCCGATAATTTTCAGCGAATGATTTCGGATCCTAAAAACCAGCAGAAAAAACTGGAAGTTGTACACCAGTTCGTAGCTACCTCACACCTTATTACAGCATATACGGCTTCCCTTTCACAATATTCCAAAAGCAATGAACAATACCCTGAAATAGATGCTGAAAGCTGGAGCAGAAAAATTGAGGCAGAAATGCAGCAGACCTCTGCCCTCCTCAACGGAAACCATGTGAACGAAAATCTGAAAAAGGAAAGCCGCATTGAACCGGAAGATTCTTCCATTGAAGATATGCTTCTGAAAAGAAAAACAGAGATTGAGGAAAATGATATTGTAGACAGAAGAGATCCTGATAAAATATCACATTTGACAGAACTTAAAAGTATCCAGGATATTCTTGAACTTATCTATGATGTAGCAAAAGAACAGAGAAAAGTGATCGAAAAGTACAAAGTCGAAACAGATCCTACTCCTCCACAATCGTAA	MNYSAELKKFVTSQYVYSAIRITLATVLPCLVLAQLGILKEYFLFPLGTSFVALTDQPGPFIRRRNALTFAICSFVFVALIASLVMNIKVLVLAEVIVFGMFFSLIGVYGQRLAAVGSLSLVVLAIFIDGHLTGSNIFKSLLIFASGCIWFLLIFLIVTTIRPYKLASQMIGENYLQLAEFLKIKANYYQKNPDFNKLTTQVIAKQIEIKNLQEDTRETVFKTRTIVNESTTTSRLLMLMFLNSMDLHEKLMTSESDYQKLQQSFEDSMILVNIHDYLNLLAEEITNIGIALQSGTRAKPLFNLELELKNLNYNYFELRNKQLSPDNLENFMILRQILMRIYEITKEINEIYKVFSQDIKLAKSLSTGLDLKKFMPNEPKLNAKVLRNNISLSSSQFRHAIRITTALLLGYVFSMFDLLGLGHTYWILITITAILKPAYSITKQRNLLRLYGTVAGASIAYAILHFVHINGVLFAILLISMIMCFSFLKGRYFWAVLFMTIYIFLSFNFLNPGKVNIIFKDRIFDTAIAGIIAFAVSYIVLPVWEHTQNLDLMKKSAADNLIYFKSVISKFLQGNFDIEDYKVKRKNAIISLANLSDNFQRMISDPKNQQKKLEVVHQFVATSHLITAYTASLSQYSKSNEQYPEIDAESWSRKIEAEMQQTSALLNGNHVNENLKKESRIEPEDSSIEDMLLKRKTEIEENDIVDRRDPDKISHLTELKSIQDILELIYDVAKEQRKVIEKYKVETDPTPPQS				NA	NA	NA	NA	NA
BMS003_00685	615			hypothetical protein	ATGCCACTCTACAGAGATTTTTCAGATGATAATGCCACGATCCTGGTTTGGAAATATGATGAAAGTGAAGAGCTTGATATCAGTCAACTTCTGGAACCGGAAAACGCCGAGAAAGTAAAAGATTATCATCCTAAAAAATTATTGGAAGTCCTGATGGTTCGTAAGCTGTTGAAAGGATTGAAACCGGATTCTAAAATTTTATACAAAGAAAGAGAACCCTTTCTTTCGCCCAACGATGCGGAAATTTCCATTACGCATTCTTTTCCCTTTGCCGCCATTGCCATCTCTAAAAATAAAATAGGGATTGATATAGAAAAGTTTAATCCTAAGATTTTAAGGGTGATTGATAAATTCACTTATGAAAATGAAAGAGGATTTATTCCTGAAGACAAAGCGGATACTTTCTATACTATCATATGGAGTGTAAAGGAGAGCATGTACAAAATTCATCATTCTAAATACTGGTCTCTGAAAAAAAATTATGAAGTAAAACCTTTTGAGCTGAAGCACCTTCATAAAATAAGCTGTCGTGTCTACGACAATGAATTCTCCGATGAGTTCAAAGCGAGGGTAGAGTTTTTTGACGATTACTGCTTTACGATTGTGGAGGAGTAG	MPLYRDFSDDNATILVWKYDESEELDISQLLEPENAEKVKDYHPKKLLEVLMVRKLLKGLKPDSKILYKEREPFLSPNDAEISITHSFPFAAIAISKNKIGIDIEKFNPKILRVIDKFTYENERGFIPEDKADTFYTIIWSVKESMYKIHHSKYWSLKKNYEVKPFELKHLHKISCRVYDNEFSDEFKARVEFFDDYCFTIVEE	PGPT0008845_2915	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
BMS003_00686	519	hutZ	COG0748	Heme oxygenase HutZ	ATGAGGGACACCCATACAGAAAAGAAAATCAAACCAGTTGCTCCTAAAGTACAGGAACTGATCAGCGCTTCAAAAAGCCTTATTCTGGCTACTGTAGATGCGGAAGGAAACCCAAATTCAAGCTATGCACCTTTTGTACAGACAGATGAGACATTCTATATCCTGGTATCTTTCATGGCAAAGCACACTAAAAATCTTGCTGATGGAAGAAAGGTATCTATTATGTTTATTGAAGACGAATCAGCTGCCAAACAAATATATGCCCGTGAACGTCTGACTCTTGAAGTTATACCTTATCAGATCGAAAGAGATTCTAAGGTGTGGACAGATGTGGTGGCCCAGCTTAAAGAAGCTCACGGAAAAGTAGTAGATGTCATCTCTGAAATGGGAGATTTTATTCTGATCGAACTGCAGCCTGTAAAAGGATCTTATGTGAACGGATTCGGAAGTGCTTATTTTGTAGATGCCCATCTGGAAATTGTAGAACATAGAAATGATGCGAATCATCAGGCTGAATAA	MRDTHTEKKIKPVAPKVQELISASKSLILATVDAEGNPNSSYAPFVQTDETFYILVSFMAKHTKNLADGRKVSIMFIEDESAAKQIYARERLTLEVIPYQIERDSKVWTDVVAQLKEAHGKVVDVISEMGDFILIELQPVKGSYVNGFGSAYFVDAHLEIVEHRNDANHQAE	PGPT0003615_874	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003615-hugZ|hutZ|chuZ-K07226	NA	NA
BMS003_00687	1314	ahcY		Adenosylhomocysteinase	ATGAGTACTACAACACAATACGTTCCTTATAAAGTTAAGGATATCTCCCTTGCAGAATGGGGTAGAAAAGAAATTACTCTTGCAGAGGCAGAAATGCCTGGTTTGATGGCTATCCGTGAAGAGTACGGACCATCTCAGCCTTTGAAAGGAGCAAGAATTGCCGGATGTCTTCACATGACCATCCAAACGGCTGTGCTTATCGAGACATTGGTAGCTTTAGGAGCTGAAGTTACCTGGTCATCTTGTAATATTTTCTCTACACAAGACCACGCTGCTGCTGCTATTGCTGCTGCGGGAATTCCGGTTTATGCCTGGAAAGGTTTAAATGAAGAGGAGTTTGACTGGTGTATTGAGCAAACTTTATTCTTTGGTGAAGACAGAAAGCCATTAAACATGATTTTGGATGATGGTGGAGATTTGACAAACATGGTTTTTGACAAATACCCTGAATTCACAAAAGATATCAAAGGGCTTTCTGAAGAAACTACTACAGGTGTACACAGACTGTATGAGAGAATGAAGAACGGAACTTTAGTAATGCCTGCAATCAACGTAAATGATTCAGTAACTAAATCTAAATTCGACAACAAATACGGATGTAAAGAATCTGCTGTAGATGCGGTAAGAAGAGCTACAGACGTAATGTTAGCTGGAAAAAGAGTGGTAGTTTGCGGATACGGAGACGTAGGTAAAGGTACTGCAGCTTCATTCAGAGGAGCTGGTTCTATCGTTACCGTTACGGAAATTGACCCAATCTGTGCACTTCAGGCTGCTATGGATGGATATGAAGTAAAAAGATTAGACACTGTGGTAGACAATGCTGATATCATCATTACGACAACAGGTAACTTTAATATTGTAAGAGGTGAGCATTTCCTTAAAATGAAAGATAAAGCGATTGTTTGTAACATTGGTCACTTCGATAATGAAATCGATATGGCGTGGTTAAACCAAAATTATGGCCACTCTAAATCTGAAGTGAAGCCTCAGGTAGATATCTATACAGTAGAAGGAAAAGAGATTATTATCCTTGCAGAAGGAAGACTGGTAAACTTAGGATGTGCTACAGGTCACCCAAGTTTCGTAATGTCTAACTCTTTCTCTAACCAGACTTTGGCTCAGATCGAACTATGGAATAACTCTGCGGCTTACAAAAATGAAGTATACATGCTTCCTAAGCACTTAGATGAAAAAGTAGCAGCTTTACACCTTAAGAAATTAAGTGTTGAGCTTGAAACTCTTTCTCCTGAGCAGGCAGAATACATCGGAGTAGATGTAAAAGGACCATTCAAGCCTGAGTACTACAGATACTAA	MSTTTQYVPYKVKDISLAEWGRKEITLAEAEMPGLMAIREEYGPSQPLKGARIAGCLHMTIQTAVLIETLVALGAEVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGLNEEEFDWCIEQTLFFGEDRKPLNMILDDGGDLTNMVFDKYPEFTKDIKGLSEETTTGVHRLYERMKNGTLVMPAINVNDSVTKSKFDNKYGCKESAVDAVRRATDVMLAGKRVVVCGYGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMDGYEVKRLDTVVDNADIIITTTGNFNIVRGEHFLKMKDKAIVCNIGHFDNEIDMAWLNQNYGHSKSEVKPQVDIYTVEGKEIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWNNSAAYKNEVYMLPKHLDEKVAALHLKKLSVELETLSPEQAEYIGVDVKGPFKPEYYRY				NA	NA	NA	NA	NA
BMS003_00688	807			hypothetical protein	ATGAAAAAATTCTTATTTCTGGGACTCATGAGTTCTGTTGTAATCTCCAACAGCTGCAGCAATACTGATAATGAAGAGATTAACAATTCTTCCGGACAACCTCAGCTATTACTGAGTAAAATCACAACTGTCTATTATGATGATCCTGCAAATCCTCAAACAACTGTTTCAACCTTAAATTATAATGCCCAGAGGCAATTAATCAAAACAATTTCAGAAGGCAGAGCTTCAACTTTCGAATATGATAATGCCGGAAAGCCTGTAAAAACTATTTACCATAAGCCAGATGGTACTGTAGATTATTATTCAGTGTACACTTACAATGATGATCAGCTGGTCAGCGTTAAGGCTATCTATACCAATTCAATTTACAACAGAACGGTTACCTATAACTATAATACAAACGGACAGGTGGTCTCTTCTACTCTTTGCCAGACTCCGGATTGTTCCAACCCGGGAACTGATACCTATACCTATGATGGAAATAATATTTCATCTGAAACATCTACATTTGGCGAAAGTATAATCTACAGCAATAAAAGTGATTTTTCTTATGATGATAAACCCAATCCTTTTACCAATATCAATAAGTATCTGAAAATTATGATGGGAAGGGCTTATAGCTTAAGTAAAAATAACTATCTCGTAGAGAAAAAAAGCTTTAAAAATAACGGAGTATGGCAGCAAAGTCAGACTGTCAGTTATACCATGCAATACAATAGCTCCGGATTACCGGTTCAGGTTGTTGGAAAAGAGGCCGATGGAAGTCTTTCCGTTCAATACCATTACGAATATATTACTCAATAA	MKKFLFLGLMSSVVISNSCSNTDNEEINNSSGQPQLLLSKITTVYYDDPANPQTTVSTLNYNAQRQLIKTISEGRASTFEYDNAGKPVKTIYHKPDGTVDYYSVYTYNDDQLVSVKAIYTNSIYNRTVTYNYNTNGQVVSSTLCQTPDCSNPGTDTYTYDGNNISSETSTFGESIIYSNKSDFSYDDKPNPFTNINKYLKIMMGRAYSLSKNNYLVEKKSFKNNGVWQQSQTVSYTMQYNSSGLPVQVVGKEADGSLSVQYHYEYITQ				NA	NA	NA	NA	NA
BMS003_00689	393	yiaA	COG4682	Inner membrane protein YiaA	ATGAAAAAACAAAAAGTATCGAATGCATTCATCGCTGCATCGTGGGTAGCATTGGGAGCAGGAATGATTGGTTTCATTGTGGGACTCGCAAGAGCTGAAATGCTGCTGAATGAAAAAGGATATTATTTCACTATTCTTCTTTATGGATTATTTGCAGTTGTTTCTCTACAAAAGGCAGTAAGGGACAGGTTAGAAAACATTCAGGTAACAGATATTTATTATGGGATCTGCTGGTTTGCTACATTGTCATCTATTGTATTACTGGCTATCGGACTTTGGAATGCAACCATTCTTCCGAGCGAAAAAGGGTTTTATGCTTTTGCATTTTTGCTGGCTCTCTTCGGAGCCATTGCTGTTCAGAAAAATACCCGGGACAATATGATTCAGGAATAA	MKKQKVSNAFIAASWVALGAGMIGFIVGLARAEMLLNEKGYYFTILLYGLFAVVSLQKAVRDRLENIQVTDIYYGICWFATLSSIVLLAIGLWNATILPSEKGFYAFAFLLALFGAIAVQKNTRDNMIQE				NA	NA	NA	NA	NA
BMS003_00690	504	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGGTAGGAATTATTATGGGCAGTCAGAGTGATCTGCCGATCATGGAACAGGCTGCAAATTTTCTTAAAAGCCTCGATATCCCTTATGAATTAACGGTAGTATCCGCACACAGAACACCGGAAAGAATGTTCGATTATGCAAAAACTGCTCAGCAAAGAGGCCTGAAAGTAATTGTAGCAGGGGCAGGAGGAGCTGCACATCTTCCGGGAATGGTGGCTAGCTGCACTACACTTCCCGTAATTGGGGTTCCGATTTTGTCCAGTAATTCTATAGATGGATGGGATTCTGTGTTATCTATTCTTCAGATGCCTGGTGGAATTCCTGTCGCTACTGTAGCTTTGAACGGGGCTCTGAATGCAGGGATTTTAGCAGCGAAGATTTTAGGAAGCGGGAATGAAGAGATAGCGGCAAAACTTCAGAAATACCAGGATTCTTTAAAGGATAAAGTGTTGGGAACCGTAGATGATATCAAAGCCCAGCACCCTAATCATTTTGATCAATAG	MVGIIMGSQSDLPIMEQAANFLKSLDIPYELTVVSAHRTPERMFDYAKTAQQRGLKVIVAGAGGAAHLPGMVASCTTLPVIGVPILSSNSIDGWDSVLSILQMPGGIPVATVALNGALNAGILAAKILGSGNEEIAAKLQKYQDSLKDKVLGTVDDIKAQHPNHFDQ	PGPT0021545_1837	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
BMS003_00691	930	yedA_2		putative inner membrane transporter YedA	TTGTTACACTACTTACGTACATTGAAAGATTATAAACTTATTTTTGCTGTTCTCACCGTTGCTATTGTCTGGGGAACTACTTTTTTGGCGATCCGTGTCGCTGTGGAAACTATCCCGGCATGGTTCGTAGCCGGAATAAGACAGCTCCTGGCTTCTGTCATTATGCTTATTGTTCTTCTTTCCCGAAAGGAATTCAAGTGGATTGGCTGGAAGAGCTTAGGATACCAGATTATTTTTGCATCTCTAATGCTGGTGGTTGCTAATGGTATGACCACTGTAGCTGAAGAAACGGTTTCAAGCAGTCTTGCTTCACTGATCAGTGCCTGTTCCCCCATTCTGGTATTTCTGGGGAGTGTAGCTGTAGGGCTGCAGAAATTTAGTTTACGGGCTCTTAGCGGTGTTCTGCTTTGCTTCGGTGGGATTCTTTTTATTTTCTGGGATGGGATTAAAGATCTTGCCAACCCTGATTACAGAATGGGAATGATTTTCATGTTCTGTGCTATAGCAGGCTGGGCTTCGGGAACCATTTTTACCAAAAAATTAAATATTCAGAGTGGTAATATAACGTTGAATCTGTTTTACCAGTTCCTGTTTGCAGGAGCCGTTCAGGTTATTCTTGCTTTTCTGTTCTCCGAAAATTACAACTTCGGAAACTGGAGTATTAAAAGTATTTCAGCAATGCTATACCTTGCTGTTTTTGGTTCTGTAGCTGCTTTTTTTGCTTTCCATTATGCACTGACAAAAATTTCACCGGTACAGGTTTCTATTCTGGCGTACATCAATACTATTATTGCCATATTTCTAGGCTGGCTGATCATGAACGAACAGGTTACCTTTAAATTTATCATTGCTGCTGTATTTATCATCTGCGGAGTTTTTATTATCAATTATAAACCGGAGATGTTCAAAAGACAGAAGGTAAAATCATAA	MLHYLRTLKDYKLIFAVLTVAIVWGTTFLAIRVAVETIPAWFVAGIRQLLASVIMLIVLLSRKEFKWIGWKSLGYQIIFASLMLVVANGMTTVAEETVSSSLASLISACSPILVFLGSVAVGLQKFSLRALSGVLLCFGGILFIFWDGIKDLANPDYRMGMIFMFCAIAGWASGTIFTKKLNIQSGNITLNLFYQFLFAGAVQVILAFLFSENYNFGNWSIKSISAMLYLAVFGSVAAFFAFHYALTKISPVQVSILAYINTIIAIFLGWLIMNEQVTFKFIIAAVFIICGVFIINYKPEMFKRQKVKS				NA	NA	NA	NA	NA
BMS003_00692	561			hypothetical protein	ATGCTGAAAAACACATTTTTTTTATTTCTGACCGTTTCTTTCCTTCTTGTAAGCTGTGATTACAAAGAGAAAGAAAAAAAACTTACAGACAGGGAAAAACAATTACTGGAAAAAGAGCAGACGTTTGCCAAGAAAGAATCTGAATACCAATCGCTTCTGAAAATGAGGGACAGTATTTTCGCAAAAAAAGATTCTGTAGTGATTGCCACATGGCCAACAGAAATTTCCGGTCCATGGAATGGTAAAGTCATCTGTACAGAATCCAACTGCAGTGAATATGCTGTGGGTGACCAACGTACTGACATCTGGGAATTCGATAATGATTCTACCCAACCTATTACCAAAATCATCAACAATAATAATCTGGTAAGGCTGTATACAGGCAGGTTTGAAAATAATGAGATCAGACTTTCTTTTAAAACTGATTCTACGGCCAAAAAGAATGTAGAAATGAACATTCTGCTTAATGATATTTCGGACAACAAAATCAAAGGAACAAGAACCGTCACTTCCGATGGCTGTACCGCAAAGTTCTCTATTGAATTAGTACGTTCCACATAA	MLKNTFFLFLTVSFLLVSCDYKEKEKKLTDREKQLLEKEQTFAKKESEYQSLLKMRDSIFAKKDSVVIATWPTEISGPWNGKVICTESNCSEYAVGDQRTDIWEFDNDSTQPITKIINNNNLVRLYTGRFENNEIRLSFKTDSTAKKNVEMNILLNDISDNKIKGTRTVTSDGCTAKFSIELVRST				NA	NA	NA	NA	NA
BMS003_00693	2124	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGATTTTACTGAGTATACACAACCTGAGTCTTCCTATAGAAGACCCGGTACTGAAGTTCCTATTGGTACTGGTCATCATCCTGGCAGCCCCCCTGCTGCTTAATAAAATTAAAGTTCCCCATCTCTTGGGTCTTATTATCGCCGGAGCCATCATTGGACCAAACGGATTCAATGTATTATCCAGAGACAGCAGTATTGTGGTAACGGGAACTACAGGACTCCTTTATATCATGTTTCTGGCAGGACTTGAGATTGATATGGGAGATTTTAAAAAGAATAAATGGAAAAGCCTCACCTTTGGTATTTATACTTTTACAGTACCTTTTGTACTGGGATACCTCGGAGGGTATTATATTTTACACTTTTCAATGCTGACTTCCATTCTGTTTGCCAGTCTTTTTTCTTCCCATACGCTTATTGCCTATCCGCTGGTGAGCAAGTTGGGAATTGCAAAAAACAAGGCCGTTAATATTATTGTTGGAGGCACAATGATCACAGATATTCTTGCCTTATTGGTACTTGCCGCAATTGTAGGCATGTCTCAGGGTGACGTAGGAACTGAATTCTGGATTAAATTATCTGCTTCTTTCATAGTTTTTGCCCTCATTGTACTTATTGTATTTCCTATTATAGGACGTTGGTTTTTCAAAAGAGTAGATGATAAGATCTCACAGTATATTTTTGTGCTGGTCATGATTTATCTGGCTGCTATGCTGGCTGAACTGGCAGGTGTAGAAGCAATCATCGGGGCATTCTTTGCAGGGCTGGCCTTAAACAGACTTATACCTCACACTTCTTCTTTGATGAACAGAGTAGAATTTGTAGGAAATGCCATATTTATCCCTTTTTTCCTTATCAGTGTGGGGATGCTGATTGATTTTAAAGTATTCTTCAAAAGCTGGGAAACCCTGGAAGTTGCCGGAATTATGCTGGCAGCATCTATTGGAGGAAAATATCTTTCTGCCGTAGCCACTCAAAAAACCTTCAGACTGACCAAAGAGGAAGGAAAACTGATCTTCGGATTAAGTTCTGCTTCCGCAGCAGCAACACTGGCATCTGTAATGGTAGGATACAACATCATCCTTTCCGAAACCGAATCCGGTGAACCCATAAGATTATTAAATGAACACGTACTGAACGGAAGTATTTTACTGATTCTTATTTCGTGTACCATTTCTTCGTTTATTTCTATGGCAAGTGCCCAAAAAATTGCTGAGACAGATAATGAAGATACCGTTTCAGGAAATACTCATGAAGAAGAGAATATTCTATTAGCCATCAATCATGAAGAAACTGTGGAAAGAATGGTGAATCTGGGTATCCTGATCAAGGCTCATTCCAATACAGAGGATCTTTTTGCCCTGAATGTCATCAATGAAGATAAAAATGAATCTTCCGTAAAGAATGCTGAGAAACTTCTCCATCAGGCAGCAGATACAGCAGCGGCGGCAGATGTTAAACTACAGGCTTTAAAAAGGTATGACAATGATGTTATCAACGGGGTTAATAATGTAATTAAAGAACAGAAAATCACAGATCTTATTATTGGGCTGGAGGATGAAAAAGGGTTTTCTCCTTCCTTTGTATATAATCTTTACAACGGATATCTGCAGAATGATGATGTGAATGTACTGGTCTATCATGCTGCACAGCCCCTTTCTACGATAAAAAAATATGCTGTAATGATTCCTGAGAATGCCCATCAGGAAGCCGGATTCTTCCATGCCTTGCTGAGAGTCTGGAATATTGCCAGAAATTCCGGTGCTACAGTTATTTTCTATGCTCCGGAAAATATTCTTGATATTCTTCAGAAAATTATTAAAAAGGCCAATATTGAAGCCGAATTTATTATTATGAATACATGGCAGGATGGCGAAAGAACCGCTGCCCAGCTGAAAGATGATGAAGCCTTGATTATTCTGATGGCAAAACGTGGTATGAAATCCTATATTCCAAGAATGAGACTGATTCCGGAACTTCTGAACAAAAATCTGAATAATAACAATTATCTTCTCATTTTCCCTTTCTCTGAATATGATAAAAACAGTCCGGAGATACGTTCTGTAGGAAATCATGGGGATTTTGTGGAGATCGGAAATGTGATTCAGAAGATTTTTAAGTAG	MILLSIHNLSLPIEDPVLKFLLVLVIILAAPLLLNKIKVPHLLGLIIAGAIIGPNGFNVLSRDSSIVVTGTTGLLYIMFLAGLEIDMGDFKKNKWKSLTFGIYTFTVPFVLGYLGGYYILHFSMLTSILFASLFSSHTLIAYPLVSKLGIAKNKAVNIIVGGTMITDILALLVLAAIVGMSQGDVGTEFWIKLSASFIVFALIVLIVFPIIGRWFFKRVDDKISQYIFVLVMIYLAAMLAELAGVEAIIGAFFAGLALNRLIPHTSSLMNRVEFVGNAIFIPFFLISVGMLIDFKVFFKSWETLEVAGIMLAASIGGKYLSAVATQKTFRLTKEEGKLIFGLSSASAAATLASVMVGYNIILSETESGEPIRLLNEHVLNGSILLILISCTISSFISMASAQKIAETDNEDTVSGNTHEEENILLAINHEETVERMVNLGILIKAHSNTEDLFALNVINEDKNESSVKNAEKLLHQAADTAAAADVKLQALKRYDNDVINGVNNVIKEQKITDLIIGLEDEKGFSPSFVYNLYNGYLQNDDVNVLVYHAAQPLSTIKKYAVMIPENAHQEAGFFHALLRVWNIARNSGATVIFYAPENILDILQKIIKKANIEAEFIIMNTWQDGERTAAQLKDDEALIILMAKRGMKSYIPRMRLIPELLNKNLNNNNYLLIFPFSEYDKNSPEIRSVGNHGDFVEIGNVIQKIFK				NA	NA	NA	NA	NA
BMS003_00694	1113	purK	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	ATGAAAATAGGAATTCTGGGAGGCGGACAGCTGGGAAGAATGCTGATACAAAGCGCTCTGAAGTATGATGATGAGTTTTATACTCTGGATCCGGCTTCTGATGCACCGTGTCATAATATCTCGTATTTTACACAGGGAAATTTTAATGACTACGAAACAGTTTTAAACTTCGGGAAAGATAAAGATGTTGTAACCATTGAAATAGAACATGTAAATGCTGATGCATTGGCAGAACTTGAAAAGCAGGGGATAAAAGTGGTTCCTAATGCCAATATCATTAAAACAATCCAGCAAAAAATCCTTCAGAAAGAATTTTATAAAGCTCATGATATTCCAAGTCCGGAATTTCAGGTGGTATGGAACAGTGATGAGAAAATCATCATGCCATTGCCATTTGTTCAGAAAATGAATACAGGAGGGTATGACGGAAAAGGAGTACAGGTGATCAAAACGGAAGAAGACTATCAGCATCTATGGACAGAAGCTTCTGTTATTGAAAGTATGGTAGACATTGAAAAAGAGCTTTCTGTTATTGTAGCAAGAAACGAAAAAGGAGAAACCAATATCTTCCCGGTAACGGAAATGGTGGCCGACCCAAAGCTGAATCTTTTGGATTTCAACGTATGTCCTGTTCTTCTGACGGAAGATGTTCAGAAGCAGATCGATTCCATTACAGAGAAATTCCTGGCAGCAGTGAATTCTCCGGGACTATTTGCCATCGAATTGTTCCTTGATAAAGAAGGAAAAATATGGGTGAATGAAACTGCTCCAAGACTGCACAATTCAGGACACCAAAGTCAGGAGGGAAACACCAATTCGCAATTTGAGCAAATGTACCGTGTAGTTAAAAACTTACCCTTAGCAGATACTGATGCCATTACTTACAGCGGAATGCTGAATCTGGTAGGAGCAGAAGGATATGCCGGAAAAGTAGTTTATGAAGGAATGGAAGATGTTCTTCAACTTCCTGAAACTTACATCCATTTATATGGTAAAACAGAAACGAAACCAGGAAGAAAAATGGGGCACATCAACGTCCTTGCAGATTCCAGAGAAGAGCTGATGGAAAAGCTGGTACAGGTGAAAGGAATGGTGAGAGTGATTGCTGAGTAA	MKIGILGGGQLGRMLIQSALKYDDEFYTLDPASDAPCHNISYFTQGNFNDYETVLNFGKDKDVVTIEIEHVNADALAELEKQGIKVVPNANIIKTIQQKILQKEFYKAHDIPSPEFQVVWNSDEKIIMPLPFVQKMNTGGYDGKGVQVIKTEEDYQHLWTEASVIESMVDIEKELSVIVARNEKGETNIFPVTEMVADPKLNLLDFNVCPVLLTEDVQKQIDSITEKFLAAVNSPGLFAIELFLDKEGKIWVNETAPRLHNSGHQSQEGNTNSQFEQMYRVVKNLPLADTDAITYSGMLNLVGAEGYAGKVVYEGMEDVLQLPETYIHLYGKTETKPGRKMGHINVLADSREELMEKLVQVKGMVRVIAE	PGPT0021550_2789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
BMS003_00695	564			hypothetical protein	ATGAAAAATGAATTGAAATTATTTTATATTATCCTTGGGGCAACACCCAAAGGCAGAAATATTGAGCAGCACGATGTTTTCTTCGGGATTGCGGAGAATCTGAGAGATCTGATTCCGGATATGAAAGAGTTTTGGAAGGAAGCAGAAGGAAAAATTCACCTGGATTGTTATCAGGAAGTAAGATTTGCAGACGGATACAAGGTGAAGATTGTAGAAAAAGGGGAGAAATCATCAGAAAACCAGTTGTTTTTCCTCAATTTAGGAGGATATAAGCCTGGTTTCTTTGAAGAATTCCATGAGCAGCACTTAATGGTAGGGCCGTCAATGGGAGAGATTGTAAAAAGAGCAAAAGCTACCGGATTTTACCAGACCATGGGATTTGAAGGTGCTGTAAGCCATATTGATGATAAGCATGGAGTGGATATTGATGATATTTTCAATGTAAGTGATATTCTTCCTGCTTCAATGAAAGAAAAATATTCTATTGTTCTTGAAAAGTCTGATGAAGAAAATCAGGAGAACCCGATGGGGCTCGGTTATTTAAAAATTGATAAAATTCAGTAA	MKNELKLFYIILGATPKGRNIEQHDVFFGIAENLRDLIPDMKEFWKEAEGKIHLDCYQEVRFADGYKVKIVEKGEKSSENQLFFLNLGGYKPGFFEEFHEQHLMVGPSMGEIVKRAKATGFYQTMGFEGAVSHIDDKHGVDIDDIFNVSDILPASMKEKYSIVLEKSDEENQENPMGLGYLKIDKIQ				NA	NA	NA	NA	NA
BMS003_00696	831			hypothetical protein	ATGTCAGAAATCATCATACTCTTCCTTGGCGCAATTTCCGCTGGTCTTTTAGGTTCACTTACGGGTTTAGGAGGAGGAGTTATTATCATTCCTTTATTAACGCTAGGTTTTGGCGTTCCAATGCATTATGCTATCGGTGCTTCACTTATTTCTGTGATCGGGACCTCTTCTGGTGCGGCTGTAGCTTTCGTAAAAGAAGGTTTTACCAACATGAGAATCGGGATGTTTCTCGAAATAGCTACCACGGCAGGAGCTATTGTGGGAGCCTTGGTTTCTGGAATGCTTAACCCTAATACGATCGGAATTATTTTTGCCAGTATTCTTCTTTTAACAGTTATTTTAAATCTTAAAGGGAAGCCGGATCACCAGGAACCCTTGGTAAAAGGAAGTCTGGAAGAAAAACTAAAATTGTACGGAACATTCCCGGATAAAGGGATTTTGAAAAGCTATTCTGCAAGAAATACCGTTCCAGGATTTTTGATGATGATGTTTGCAGGAGCCATGTCTGGTCTTTTAGGAATTGGTTCGGGAGCATTGAAAGTATTGGCAATGGATAATATGATGAAACTGCCTTTCAAAGTTTCTACAACTACCAGTAACTTTATGATTGGAGTAACGGCAGTAGCCAGTGCACTGATCTATTTCCAGAGAGGAGAAATTATTCCGGTAATTGTAGCTCCGGTATTGATAGGTGTTGTAATCGGAAGTTTTATCGGTTCAAAAACGCTGATGGTATCAAAGACCAAAAAATTAAAAGTATTTTTTGCTATTGTGATTACCATTCTTTCCATTTATATGATGTATAACGGTATCAACAAAAGCTTCAGATAA	MSEIIILFLGAISAGLLGSLTGLGGGVIIIPLLTLGFGVPMHYAIGASLISVIGTSSGAAVAFVKEGFTNMRIGMFLEIATTAGAIVGALVSGMLNPNTIGIIFASILLLTVILNLKGKPDHQEPLVKGSLEEKLKLYGTFPDKGILKSYSARNTVPGFLMMMFAGAMSGLLGIGSGALKVLAMDNMMKLPFKVSTTTSNFMIGVTAVASALIYFQRGEIIPVIVAPVLIGVVIGSFIGSKTLMVSKTKKLKVFFAIVITILSIYMMYNGINKSFR				NA	NA	NA	NA	NA
BMS003_00697	384			hypothetical protein	ATGAAAAAGAATTTTACAGATGTAGATCTGAACCGCTCCGTAGGAAATCTCCTGAGACTGGGTGTTATTTTGTCTGTGGCAACCTCTCTTATCGGTTTTGTAAAGCTGTTTATTGAAGGCTTCAAAATGCCTGAAAAATACAGCAGCCTTGTAGTAGGTACTTCTTCTGAGAAAGTATGGGGGCATTTTTGGACCTCTCTCTGCAAAGGAGAAGGAATGGCTATTATTCAGCTGGGGATTCTTTTGTTAATCTTCACTCCTTTGATGAGGATCGTTTTTGCTTTAATAGGTTATTTAAAAGAAAAAGACTACGTATATGTAGTCATTTCTTCCATTGTTTTAGCAATTATGGCGGTGAGCTTCTTTGCAGGGTACGCCCACTAA	MKKNFTDVDLNRSVGNLLRLGVILSVATSLIGFVKLFIEGFKMPEKYSSLVVGTSSEKVWGHFWTSLCKGEGMAIIQLGILLLIFTPLMRIVFALIGYLKEKDYVYVVISSIVLAIMAVSFFAGYAH				NA	NA	NA	NA	NA
BMS003_00698	378			hypothetical protein	ATGAAAATCCATCATATCGCCATCATCTGTTCAGATTATACTGTTTCAAAGAAGTTTTATACGGAAATTTTGGACCTGAATATCATCCGCGAAGTATACCGTGAAGAAAGACAGTCTTATAAACTTGATCTGGCGATTGGGGAGCATTATGTCATAGAGTTATTTTCTTTTCCTGATCCTCCACAACGCCCGTCACGCCCTGAAGCATGTGGACTAAGGCATCTTGCTTTCTCTGTGGAAAATATTGCAGAAAAACGAAATGAACTGATAAGAAAAGGACTTATTTGTGAAGAAATCCGAATAGATGAATTCACAGGAAAAGAGTTTTTCTTTACCCAGGATCCCGATCAGTTGCCGTTAGAGTTTTATGAAATGTGA	MKIHHIAIICSDYTVSKKFYTEILDLNIIREVYREERQSYKLDLAIGEHYVIELFSFPDPPQRPSRPEACGLRHLAFSVENIAEKRNELIRKGLICEEIRIDEFTGKEFFFTQDPDQLPLEFYEM				NA	NA	NA	NA	NA
BMS003_00699	441			hypothetical protein	ATGAAAAAAATTGCAGGTATTTTTTTGCTGTTAGGCACTGTATGTTTTGGTCAGCAGAATCAGGATATTGAAAAACCTATCCGTAACTTATTTATGGGTATGAAAAATGCAGATGCTGAGCTTGTAAGATCTGCTTTTGCAGAAATGGCTGTTCTTCAGACGATCTCTAAAGACGGTACTGTGAAAACTGATAGTGTACAGGATTTTATTACTTCGGTTTCAAAATTTTCAAAAGGAGATCTGGATGAAAGAATTGCAGTGGAAGCCATTCATACAGATGGAAATCTTGCAAGTGTATTTACCCCCTATTCTTTTTATTTTAAAGGAAAATTATCACATTGCGGTGCTAACAGTTTTCAGCTGGTGAAACAGAATAACGAATGGAAAATCCAATATATTATTGATACGAGAAGAAAGGATAACTGTAAAGAAATACAATAA	MKKIAGIFLLLGTVCFGQQNQDIEKPIRNLFMGMKNADAELVRSAFAEMAVLQTISKDGTVKTDSVQDFITSVSKFSKGDLDERIAVEAIHTDGNLASVFTPYSFYFKGKLSHCGANSFQLVKQNNEWKIQYIIDTRRKDNCKEIQ				NA	NA	NA	NA	NA
BMS003_00700	1005			hypothetical protein	TTGAAGCCTACTATTTCCATTGTCGTTGCCATTTACAACCGAAAAGACGAACTTTTTGAGCTGCTGACCTCTCTTACTCAGCAGACAGATAAAGAGTTTGAGATCATTATTGTAGATGACGGTTCTTTGATTGACCTGAAGCCTACCATCAAAAATTTTGATGGCATTCTGGATATTAAATATTTCAGAAAGGATAACTCAGGACCTGGATTGACAAGAAATTATGGGGCGGTAAGAGCAGCCAACGAATGGCTGGTATTTGTAGACAGTGATGTCATTGTTGAAAAAGATTATATTGAACATATTAAAAATGATATCCGGACAATTCCATGTGATGCTTTTGGAGGAGCAGATAAAGCTCATAAAGGATTCAACCTGATGCAGAAGGCTATTTCCTATTCCATGACTTCCGTTTTTACTACCGGAGGAATCAGGGGAAGCAAGAAAGCGGTTTCCAAATTTCAGCCCAGAAGTTTTAATATGGGGGTGAAAAAAGCTGTTTTTGAAAAAGTAGGCGGATTTTCTGAAATGAGAATAGGAGAGGATCCGGATCTTTCTATGACGCTTTGGGAAAACGGTTTTACCACTGCTTTTTTTGATGATATTGCGGTATACCATAAGCGTAGGGTTGATTTTGGGAAATTCTCCAAACAGGTCTACCAATTTGGCTGTGCAAGGCCGATCCTTAACCAGAGGCATCCTAATTATGTGAAGATTTCTTTTGCATTTCCTACCTTATTTATGTTAGGATATGGAATGGGCTTTCTGGAGTATTTTATGATGGGAAGAGGGGTAATTCTTTCTTTCTATGGTTTGTATACCTTTTTGGTGCTGTTTCATGCTTTACTGCTGACTAAAAATATCAGCATTGCCGGTATGGCAGTGATTTCCACGTACATTCAGATGTTTTCTTATGGATTTGGCTTCCTGAAATCCTGGATTCTGCTGAATGTTTTCAGAATGAAGCCTGAAGATGCTTTCCCACATCATTATTACAAGAAGTAA	MKPTISIVVAIYNRKDELFELLTSLTQQTDKEFEIIIVDDGSLIDLKPTIKNFDGILDIKYFRKDNSGPGLTRNYGAVRAANEWLVFVDSDVIVEKDYIEHIKNDIRTIPCDAFGGADKAHKGFNLMQKAISYSMTSVFTTGGIRGSKKAVSKFQPRSFNMGVKKAVFEKVGGFSEMRIGEDPDLSMTLWENGFTTAFFDDIAVYHKRRVDFGKFSKQVYQFGCARPILNQRHPNYVKISFAFPTLFMLGYGMGFLEYFMMGRGVILSFYGLYTFLVLFHALLLTKNISIAGMAVISTYIQMFSYGFGFLKSWILLNVFRMKPEDAFPHHYYKK				NA	NA	NA	NA	NA
BMS003_00701	1014			hypothetical protein	ATGGAACCTATCATCAGCTCATTGCAGCATCCTATTCAATCGGGATTTAATGCCTTTTCAACAGCCCAGGAAGTTATTCAAGGGATTGATCTTACCGGAAAAACAGTGATCATTACCGGAGGTTACGCAGGAATAGGTCTAGAAATAACAAAAGTACTCATTTCAGCAGGAGCCCATGTTATAATTCCCGCAAGAGATATTGAGAAAGCTGGAAAAAATCTTACAGGAATTGAAAATTTTGAACTTGAAAAAATGGATCTGATGGATCCGGCCTCCATTGATGCTTTTGCAGAAAGGTTTATATCATCAGGCAGAAGTCTGGATATGCTTATTAATAACGCAGGAATTATGTGGGTACCGCTTCGAAGAGACAACAGAGGTTTTGAGTCTCAACTGGCAACCAATTATCTTGGGCAGTTTCATCTTACTTCAAAACTATGGCCGGCCCTGAAAAAGGCAAATGGAGCAAGGGTTATAAGTGTTTCTTCTTATGGGCATCAGATGGCTCCTTTTAATTTTGAAGATCCTAATTTTGAGACAAGAGATTATGATACGCTTACCGGATACGGCCAGTCCAAAACAGCCTGTAATCTGTTTTCTGTAGAACTTGATGAAAGAGGAAAAGAGTTCAATATCAGAGCGTATTCTGTTCATCCCGGTTCTGTATATGGTACGGATCTGGGCAGAGAAGAACCTATTGAACTTTTTAAACAACTTGGAACACACGATGAGAACGGAAATATCAAACCTGAGGTGGAAGCCCGATTAAAAACTATTCCTCAAGGTGCTGCTACTACAGTCTGGTGTGCTGTAAGTCCTCAACTTAACGAGATCGGCGGCGTGTATTGTGAAAACTGTGATATTGCAGAAACAGACAGAGGACAAATTGAGCACAGGTTTGATGAACCTGCAACTATTTATGGCGTGCAGCCCTACTCTGTGGATAAAAAAAATGCTGAACGCTTATGGAAATTAAGTGAAGAAATGCTGGGATTCAGATTTAATACCAAATAA	MEPIISSLQHPIQSGFNAFSTAQEVIQGIDLTGKTVIITGGYAGIGLEITKVLISAGAHVIIPARDIEKAGKNLTGIENFELEKMDLMDPASIDAFAERFISSGRSLDMLINNAGIMWVPLRRDNRGFESQLATNYLGQFHLTSKLWPALKKANGARVISVSSYGHQMAPFNFEDPNFETRDYDTLTGYGQSKTACNLFSVELDERGKEFNIRAYSVHPGSVYGTDLGREEPIELFKQLGTHDENGNIKPEVEARLKTIPQGAATTVWCAVSPQLNEIGGVYCENCDIAETDRGQIEHRFDEPATIYGVQPYSVDKKNAERLWKLSEEMLGFRFNTK				NA	NA	NA	NA	NA
BMS003_00702	807	exsA_1	COG2207	Exoenzyme S synthesis regulatory protein ExsA	ATGGATTTCCAGATACAATACCTCACACCGGATATCAAAATTTCCAGTTATGACGACAAGCTGTTCAAAACGGAAACAGTTTTTGAATATCACATGCTGGTATGGTTCATATCAGGAGAAACGAAAATTATTCAGGCAGATAAAACCTATCTGTTCAAAGCAGGGGATATTTTTCTGATCCCAAGAAATCATCTTGCCACAATTATCAATTACCCCAAAGACGGACTTCCCCATAAAGCTGTAGTAATGCATCTTACTACGGAACGACTGAAAGATTTTTACAACTCTGTAGGTTATCAAAGAAAAAACGGACAAAGAGAATCCACCATTCACAGTTTCAGCAGCCATCCGCTTCTGAACAGCTGTCTTGCCTCTCTCATTCCTTATTTTGAGATTGAAGGTCCGTTTCCTGAAAACATTGCCCATTTAAAGATCACTGAAGCCATCAGTATTTTAAGGGAGATTGATCCGGATATCGATAGCTTACTTGCAGATTTTGATGAACCGGGAAAAGTGGATCTGATCAATTTTATGGAAAAGAATTATATGTTTAATATGCCATTGGAAAGATTCGGATACCTGACAGGAAGAAGCTTATCTACTTTCAACCGTGATTTCAGGAAAATTTTTCAAACCACTCCACAGCGCTGGTTAACTCAGAAACGTCTTGAACTGGCCTATTATCATTTATCCGAAAAGAATAAAAAGCCTTCCGATGTTTTTCTGGAAGTAGGTTTTGAAGACCTCTCCCATTTTTCACATGCTTTTAAAAAACAGTATGGCTTTGCACCTTCACTGGCAAGATAA	MDFQIQYLTPDIKISSYDDKLFKTETVFEYHMLVWFISGETKIIQADKTYLFKAGDIFLIPRNHLATIINYPKDGLPHKAVVMHLTTERLKDFYNSVGYQRKNGQRESTIHSFSSHPLLNSCLASLIPYFEIEGPFPENIAHLKITEAISILREIDPDIDSLLADFDEPGKVDLINFMEKNYMFNMPLERFGYLTGRSLSTFNRDFRKIFQTTPQRWLTQKRLELAYYHLSEKNKKPSDVFLEVGFEDLSHFSHAFKKQYGFAPSLAR	PGPT0026220_409	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0026220-exsA-K20968	NA	NA
BMS003_00703	429			hypothetical protein	ATGTTAGGAGATTTTTTTGATCTGTTAGATACTCTATTGAGTGTATCCGGGCTGTTTCAGAGTTCGGGATCATCACGTTCAAATTCTGAGAGAAAGAGTCTGAATTATGATGAAAAGCCTCAAAAGAAGGAATCTAAGCGATCAAAATACTTCACAGAGAAAATAAGTGCAGTAATTCTTATATTCACTGCATTTTGTTTTTTTATGGTTTTTAAAGATCCTTTGCCGGTACAAAACTATGCACAAACCTTAGTGGTAGCGTCTTTAATAGGAACTGGTATTTCACTGTTAGTATTTTTCGTTCTCTATGTTTTGGAGCTTTATTACTTTAAAACACTGTTTAAGCTGCTTCTTTTCAGTTGTTCTGTAATAGTTTTTTTTATTTCAGCAGTAATATATGCCTACTTTAGGTCAGGATGGTTTATGTAA	MLGDFFDLLDTLLSVSGLFQSSGSSRSNSERKSLNYDEKPQKKESKRSKYFTEKISAVILIFTAFCFFMVFKDPLPVQNYAQTLVVASLIGTGISLLVFFVLYVLELYYFKTLFKLLLFSCSVIVFFISAVIYAYFRSGWFM				NA	NA	NA	NA	NA
BMS003_00704	1167	rlmL	COG0116	Ribosomal RNA large subunit methyltransferase L	ATGGATACAGAAAATATTAAAATACAGATAAAAACATTCTTTGGATTGGAGCAGATTCTGGCAGAAGAAATCAAGAAGTTGGGCGGAAGAAATGTTGAAATTAAAAACAGAGCGGTAAACTGTGAAGGAGATCTTGGTTTTCTTTACAAAATCAATTATTCTGCGAGAACAGCATTGAAAATCCTGGTGCCGATTCATGAATTCAAGGCTTTTAACCAACATCAGTTCTATGACAGGCTGTTCAAATTTGAATGGGAAAACTTCATGGATGTTGATCAGTCTTTTTCTATTGATGCTACTGTCAATTCTGAAACATTCAAGCATTCTCAGTTTGTTACTTTAAAAATGAAGGATGCAATTGTTGATTATTTCCAGGAAAAATTCAAAAGACGCCCGAATGTAGAAACCAGAAATCCGGATATTAAATTCCATCTTCATATAGACAGGGAGTTGGTGATGATCTCAATGGATTCTTCAGGAGATCCTTTGTTTAAAAGAGGATACAGAAGAGAACAAGGAGAAGCACCCATCAATGAAGTCTTAGCAAGCGGAATGCTTCAGCTGGCAGGCTGGGACGGAAAAGGAAACTTCCTTGATCCTATGTGTGGCTCCGGAACGTTACTGATTGAAGCAGCAATGATTGCAATGGATCTTCCGGCTCAGATTTTCAGAAAAAGATTCGGGTTCCAGAACTGGAATAACTATGATGCGGAACTTTTTACAAAAATCAAAGAATTCAGAATTAACAGAGTAAGAGAATTTGATGGAAAAATTGTTGGTTACGACATTGATGCAAGAATGCTGAATGCTGCCAGAATGAATGTAGAAGCAGCAGAAATGGAAGATGTTATTGAGATCAAAAAACAAAACTTCTTTGATTCCAAAAAAGAACTTTTCCCATTATTAATGGTCTTCAACCCTCCATACGATGAGAGAATTTCCATTAATGATGATGATTTCTACAAGAAAATAGGAGATACCTTTAAAACGCATTATCCCAATACATTGGCTTGGCTGATTTCTTCTGATCTTGAAGCAGTGAAGAAAATCGGGTTACGTCCTTCAAGAAAGATCAAACTTTTCAACGGAAAATTGGAAACCAGATTCTTGCAGTATGAAATGTATGAAGGAACGAAGAAGATACATAAACTGGAAGGTAACATATAA	MDTENIKIQIKTFFGLEQILAEEIKKLGGRNVEIKNRAVNCEGDLGFLYKINYSARTALKILVPIHEFKAFNQHQFYDRLFKFEWENFMDVDQSFSIDATVNSETFKHSQFVTLKMKDAIVDYFQEKFKRRPNVETRNPDIKFHLHIDRELVMISMDSSGDPLFKRGYRREQGEAPINEVLASGMLQLAGWDGKGNFLDPMCGSGTLLIEAAMIAMDLPAQIFRKRFGFQNWNNYDAELFTKIKEFRINRVREFDGKIVGYDIDARMLNAARMNVEAAEMEDVIEIKKQNFFDSKKELFPLLMVFNPPYDERISINDDDFYKKIGDTFKTHYPNTLAWLISSDLEAVKKIGLRPSRKIKLFNGKLETRFLQYEMYEGTKKIHKLEGNI				NA	NA	NA	NA	NA
BMS003_00705	726			hypothetical protein	ATGGAATGGTTTGAATCTTGGTTTGATACCCCTTATTATCATTTGCTCTATAGCAACAGAGACTATACTGAAGCTGAAAACTTCATTACAAAGCTTACTGCGGACCTTCAGCTGCCGCCTCAGTCGAAAATCATAGATCTTGCCTGCGGAAAGGGAAGACACTCTGTTTTCCTTAATAAATTAGGATATGATGTTTTAGGACTAGACCTTTCAAGACAAAGTATTGAATCTGACAAACCGTTTGAAAATCAGACCTTGATTTTTGAAGTTCATGATATGAGAAACCCCATTGATGCAGATCCAATGGATGCTGTATTCAATTTATTTACAAGCTTTGGGTATTTTGATAATGAAAACGATGATAAAAAAGTGTTTCAATCTGTTTACAACGTCCTAAAGCCCGGCGGTTATTTTGTACTGGATTATCTGAATGAAGTATATGTAAGAAATACTTTAGTTCCTGAAACCACAATATCCCGCAGCGATATTGATTTTAAGATTCTGAAAAAAATTGAAGGCAGACATATCATTAAAGATATCCGTTTTGAAGCTGACGGTAAGCCGTTCCACTTCTTTGAAAAGGTAAAACTTCATACCTTGGAAGCCATTCATGCTTATGCCTCAGAATGTGGGTTTGAAAGAATAAAAATCTGGGGAGATTATCAGCTGAATGAATTTAATAAAGAAAGTTCCCCACGATGCATCAATTTATTTAAGAAAAAATAA	MEWFESWFDTPYYHLLYSNRDYTEAENFITKLTADLQLPPQSKIIDLACGKGRHSVFLNKLGYDVLGLDLSRQSIESDKPFENQTLIFEVHDMRNPIDADPMDAVFNLFTSFGYFDNENDDKKVFQSVYNVLKPGGYFVLDYLNEVYVRNTLVPETTISRSDIDFKILKKIEGRHIIKDIRFEADGKPFHFFEKVKLHTLEAIHAYASECGFERIKIWGDYQLNEFNKESSPRCINLFKKK				NA	NA	NA	NA	NA
BMS003_00706	729			hypothetical protein	ATGACAACAGTACTTTTACTGATTTTAAGTGTAGTGACAGGGGTATTCCTTGGAAAACACTTTGGTAAAAAAGAAAAACTGGCTAAAAATCTTTTGATCTTAAGTGCCGGTTTTCTGATTACAATCTGTCTCAACGAAGTGTTTCCACAGGTTTATACCTCTGACGGAAGCAGTAGCCTTGGGATATTCGTAATCGGAGGAGTTCTTCTACAGATGATCCTGGAAGCACTTACCAAAGGTTTTGAACACGGCCACTTCCATCATCATAACGAACACAATATTCTTCCCGCTGCTTTGATGGTAGGGTTATTTATCCATGCTTTCATTGAAGGGATTCCTCTTGCCAATGAAACGCATGAAATGTCTCCCTATCTTTGGGGAATTGTATTTCACAATCTTCCGATTTCATTTATTCTGGGAGCATTTTTATTTAACAGAAAGGGAGAGGCTAAAAGCTCTTCGTCTTATCCATCCATCCTTATTGTAGCTTTATTTGCACTGGCTTCTCCTATGGGAATGTTATTAGGAAACTATTTCAATCCTGATCTTCAGCCTTATTTTCTGGCTATTGTAGGAGGAATTTTCCTTCACATTTCATCAGTAATTATTTTTGAAAGCAATAAAAATCATAATATAGACTGGGTAAAAATCGGACTCGTTGTTTTAGGAGTTTCACTTGCATTGATGATGCATGTTTTCCATCAGCATCCTGCTGCCCATACTCATTAA	MTTVLLLILSVVTGVFLGKHFGKKEKLAKNLLILSAGFLITICLNEVFPQVYTSDGSSSLGIFVIGGVLLQMILEALTKGFEHGHFHHHNEHNILPAALMVGLFIHAFIEGIPLANETHEMSPYLWGIVFHNLPISFILGAFLFNRKGEAKSSSSYPSILIVALFALASPMGMLLGNYFNPDLQPYFLAIVGGIFLHISSVIIFESNKNHNIDWVKIGLVVLGVSLALMMHVFHQHPAAHTH	PGPT0004260_421	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_CADMIUM_RESISTANCE	CADMIUM_RESISTANCE-CADMIUM_TRANSPORT,PGPT0004260-zipB-K16267	NA	NA
BMS003_00707	1386			hypothetical protein	ATGAGTATTTCTGCTGCATTTTATGCGCAGGCTCAGGATGTTTCTGTGATAAGAAATACTGTGGATGTTTACTCAAATACTCCTATGGTGGGGTCTGCTAAGTTTAATGCAATGGCAGGATCTAATGGTGCGCTTGGAGGTGATGCAAATTCTTTGCTTACTAACCCGGCTGGTTTAGGGGTGGCTATTTCAGGAGAGGTTTCAGGAACTTTATCTATTTTAGGAAATAAAAATACCAGTTCTTTGGCTGGCTCTACGAGAGACTACAGCAAAACCACAGGAGATCTTGGAAATGCGGGAGGAATCATTGCTTTCCCTTTGATGACAGAGACTAAATGGAAATTTATCAATATTGGTATTAATTTTTCCAATCAGCAGCTTGATAATGTAATCCAGTCGCCGGGAAATAATAATATTGTATATGCTTTTGATAAAAACGATATAACGAAAGATGCTGCTTTGGCAGGGCATATGTACGAAAGATACGGTAATTTGTCTAAGATGAGTTTTGGGGTAGGAGCCAATTATAACCATAACCTGTATTTAGGAGCTGGTTTTAATTTCTTCAATGCTTCGCTGGATCAGTATGATACCTTATTCTACCGAAATCTGGCTAATAACTCTACCGAAGGGTTCAGTAAGCAGGACACACCTTATTCAGAAAGGTCTTCAGGTTTTTCTGCTTCTTTAGGGGTAATCGGAAAACTCAACCCTAATTTCAGATTGGGAGCCTCTATTGAAACACCTACTTTCTGGAATATAGACAGAAATTACTATTTCTACAACGATGCTACCTATGGAGATGATATAGGTGCTGAAAGCAGAAAATTTACTTCCCCGCTTAAGGCAACCGTAAGTGCTGCGTTTGTAGCAAGTAAAAACTTCTCATTGAACGTAGATTATACTCTTGGACTTACAAAACCTGATTATAAGGTATATGGAGGTGCAGAAAGAGAGTTGAATGACTTCTTTAAAGAAAACTACAAGAATCTTTCAGAAGTAAGAGTAGGAGCGGAGTACAGAGTGCAGCAGTTCAGACTGAGAGGAGGATATTCTTACCAGTCAAGTCCTTTCGATGCACTTACAATCAGTAGATTTAATGGTGCAGGAACTATAGGAGATGAGTCTTATGACAATCTGATATTAAGCGACAGAAATACGCTATCATTCGGTATTGGATACGATTTCAAATCATTCTATGTAGATGCTTCTTATCAGAATATCTCTTCTAAATATGCAAACCCTTTCATGAGAGGATATATGGGTAATAATTTTGATTCATCTTATTATTCCAATAACAATATCTTCGAAAGTGATTCTTATGCAGTAAGTGATGTAAAAAGTAACAGAAACAATTTCTTCCTTACATTAGGATGGAAATTCTAA	MSISAAFYAQAQDVSVIRNTVDVYSNTPMVGSAKFNAMAGSNGALGGDANSLLTNPAGLGVAISGEVSGTLSILGNKNTSSLAGSTRDYSKTTGDLGNAGGIIAFPLMTETKWKFINIGINFSNQQLDNVIQSPGNNNIVYAFDKNDITKDAALAGHMYERYGNLSKMSFGVGANYNHNLYLGAGFNFFNASLDQYDTLFYRNLANNSTEGFSKQDTPYSERSSGFSASLGVIGKLNPNFRLGASIETPTFWNIDRNYYFYNDATYGDDIGAESRKFTSPLKATVSAAFVASKNFSLNVDYTLGLTKPDYKVYGGAERELNDFFKENYKNLSEVRVGAEYRVQQFRLRGGYSYQSSPFDALTISRFNGAGTIGDESYDNLILSDRNTLSFGIGYDFKSFYVDASYQNISSKYANPFMRGYMGNNFDSSYYSNNNIFESDSYAVSDVKSNRNNFFLTLGWKF				NA	NA	NA	NA	NA
BMS003_00708	1089			hypothetical protein	ATGAAAAGAAATATACATAAAAATTTGCTTGGTCTGCTAAGATCCAAAGGGGTATTGGCTATATCAGGCGGATTATTACTTGTGTCTTGTGGTGCTCAGATGGGAGGGTATAGCGAGACAGACGGGGTGTATTATGACCCCAATAAGGATACGCTACCTGAAGGAGTTATCATTAATGATAGCGGAAACAGAGTAGGAGAATATTATGACTACTATCAGGATTCCAATGTAATTCAAAATGCAGAAGCGAATTCCAAAGAACAGCAAAACAGATATAATGACTGGGGTAATACCAATACCAATTGGAATACCAATGCGACAGACTCCGACTGGGGACTTTATGCAGGTTCTCAGACTAACTACTATGACAACTCATGGGGATGGGGATCTCCTTGGGGCTGGTATGGTGGTTATAGCCCGTATTGGGGCTGGAACCGTGGCTGGGGCTGGGGTGCCAGCATGTCCTGGGGTTGGGGCGGATCATTCGGCTGGGGCTGGGGAGGCTATTTCGGATGGGGAAGTCCATACTGGGGATATGGCTATGGTGGCTATTATAATCCATACTGGGGAGGCTACTACGGAAACCCATATTGGGGATACGGTGGTGGCTACTGGGGAGGTGGTTACTATAACAGACCTGTTTACAGAAGAAGTGGTGTAAGTGGTGGTGGATTCCAGAATACTGGGGTTGCAAATGCCGTATACAGAACCAATACCAATAATTCCGGTTTCAGAAATAGTAACGGAAACGGAGGTTTCAGAAATACCAATAATGGTGGTTTCAGAAATACTAACTCAAATGGTGGATTCAGAAACAGTAATGGAGGCTTCAGAAGCGGTAATTCGGGAGGCTTCAGAAATACACAGTCAAACGGTGGATTCCGTAATTCTGCACCACAAACAAGACCTAATTATAATTATCAGCAGCAACAGCCAAGATATAACAACAATAATGGAGGCTTCAGATCCAATGATTCAGGAGGTTTCAGATCCAGTGGAGGTTTTAATGGCGGAGGCGGAGGCTTCAGAGGCGGTTCTTCCGGCGGAGGAATGAGATCCGGAGGCGGAGGCAGAGGTGGCTTCAGATAA	MKRNIHKNLLGLLRSKGVLAISGGLLLVSCGAQMGGYSETDGVYYDPNKDTLPEGVIINDSGNRVGEYYDYYQDSNVIQNAEANSKEQQNRYNDWGNTNTNWNTNATDSDWGLYAGSQTNYYDNSWGWGSPWGWYGGYSPYWGWNRGWGWGASMSWGWGGSFGWGWGGYFGWGSPYWGYGYGGYYNPYWGGYYGNPYWGYGGGYWGGGYYNRPVYRRSGVSGGGFQNTGVANAVYRTNTNNSGFRNSNGNGGFRNTNNGGFRNTNSNGGFRNSNGGFRSGNSGGFRNTQSNGGFRNSAPQTRPNYNYQQQQPRYNNNNGGFRSNDSGGFRSSGGFNGGGGGFRGGSSGGGMRSGGGGRGGFR				NA	NA	NA	NA	NA
BMS003_00709	1476	proS	COG0442	Proline--tRNA ligase	ATGGCAAAATTAACCTCAAGAAGCGAAGATTACAGCAAATGGTATAATGAGCTGGTTGTAAAAGCTGATTTAGCTGAAAACTCAGGCGTGCGTGGATGTATGGTGATCAAACCGTATGGCTATGCAATCTGGGAAAAAATGCGTGATGAAATGGATAAAAAATTCAAAGAGACAGGTCACGTTAACGCATACTTCCCGCTTTTTGTGCCCAAGAGCTTATTTGAGGCAGAGGAAAAAAATGCAGAAGGTTTTGCAAAAGAATGCGCTGTTGTTACCCACTACAGATTAAAAACCGATCCGGAAAATCCATCAAAACTGATTGTTGATCCGGACGCAAAACTGGAAGAAGAACTTATTGTTCGTCCTACTTCAGAAGCTATTATCTGGAATACTTACAAAAACTGGATTCAGTCTTACAGAGACTTACCGATATTGATCAACCAATGGGCAAATGTTGTTCGCTGGGAAATGAGAACACGTCTTTTCTTAAGAACTGCAGAATTCTTATGGCAGGAAGGTCACACAGCTCATGCTACAAAAGATGAAGCTGTTGAAGAAGCAGAAAAGATGAATAAAGTATATGCTGATTTTGCAGAAAACTTTATGGCTATCCCTGTTATTCAAGGATTAAAGACTCCTTCTGAAAGGTTTGCAGGAGCTGATGAAACCTACTGCATTGAAGCATTAATGCAGGACGGAAAAGCTTTACAGGCAGGGACATCGCACTTCTTAGGCCAGAATTTTGCAAAAGCATTTGACGTAAAATTCACCAATAAAGAAGGAAAAATTGAACATGCATGGGCTACATCATGGGGTACATCAACCCGTTTGATGGGAGCATTAATTATGACACACTCTGATGATTTCGGATTGGTATTGCCTCCTACACTTGCACCAATTCAGGTTGTGATTGTTCCTATCTTTAAAGGGGAAGAACAATTAGAGCAAATCAGTGAAGTTGCTTTAGACATTCAGGCTAAACTGAGAGCAAAAGGAATTTCTGTGAAATTTGACAAAGATACTCAAAATAAACCGGGATGGAAATTTGCCGAATATGAGCTGAAAGGAGTTCCTGTGAGAATTGCCATGGGACCAAGAGACCTGGAAAACAAATCTGTAGAGATCGCAAGAAGAGATAACCTGACTAAAGAAGTTCGTTCTATTGAAGGGCTTGATTCTTACATTGAAGAGCTGTTGAAAACTATTCAGCAGGATATCTATAACAAAGCTTTTGAATTCAGAAAAAATAATATCACCAAAGTAGATACGTACGAAGAATTCAAAAAAGTACTGGAAGAGAAAGGAGGTTTCATTTATGCTCACTGGGACGGGACCGCTGAAGAAGAAGAACAGATCAAAGATGAAACTAAGGCTACCATCAGATGTATTCCTTTAGATGATGATATAGAAGAAGGAATTTCATTGGTTTCCGGAAAACCTTCTAAGAGACGTGTATTATTTGCAAAAGCTTATTAA	MAKLTSRSEDYSKWYNELVVKADLAENSGVRGCMVIKPYGYAIWEKMRDEMDKKFKETGHVNAYFPLFVPKSLFEAEEKNAEGFAKECAVVTHYRLKTDPENPSKLIVDPDAKLEEELIVRPTSEAIIWNTYKNWIQSYRDLPILINQWANVVRWEMRTRLFLRTAEFLWQEGHTAHATKDEAVEEAEKMNKVYADFAENFMAIPVIQGLKTPSERFAGADETYCIEALMQDGKALQAGTSHFLGQNFAKAFDVKFTNKEGKIEHAWATSWGTSTRLMGALIMTHSDDFGLVLPPTLAPIQVVIVPIFKGEEQLEQISEVALDIQAKLRAKGISVKFDKDTQNKPGWKFAEYELKGVPVRIAMGPRDLENKSVEIARRDNLTKEVRSIEGLDSYIEELLKTIQQDIYNKAFEFRKNNITKVDTYEEFKKVLEEKGGFIYAHWDGTAEEEEQIKDETKATIRCIPLDDDIEEGISLVSGKPSKRRVLFAKAY				NA	NA	NA	NA	NA
BMS003_00710	1314	ompA_1		Outer membrane protein A	ATGTCTTTAAATGTCATTGATTTAATTAAAGGACAATTAGGTCCCGCTTTGGTTTCACAGGCTGCTTCGCAGTTTGGGGAAAGTGAATCCGGTATTTCTAAAGCAATTGGCGGATTATTGCCTGCCGTAGTAGGTGGATTAGCCAATAATGCTGATAAGCCTGGCATTGTGGATGCTATTACACAGGCCTCTTCAAGTGGAATTTTAGGAAATTTATTAGGCGGTTCTTCCGGCAATCCTATTATTTCAAACCTGTTGTCTTCACTTTTTGGAGATAAAGTAAGTGCATTAGTCAATTCCATTGCCAGTTTTTCAGGAGTCAGCAATACCTCCGCAGGTTCTTTGTTAAATCTGGTGACTGGTGCTACAGTTGGGACGGTAGGAAAATATGCAGCAGACAATAATTTGGGAGCTTCAGGAATTTCCAGCTTACTGAATGATCAGAAAGGCATTATTTCTTCTTTATTGCCAGCGGGTCTTTCTTTGGCATCCTTTGGATTAGGAGCAGAAAACTGGTTTGGCCAGGCAAAAGAAACTGTTTCTTCAGTAACTTCTACTGCTAAAGACAATATCGCAGAAAGTGTAGCTACAGCAAAGGAAAATGTTTCTGAAGGAGCAAGAGAAATAAGAGAACAATTTAATAATAACAATGATAATCAAGGCGGAGGCTCAATCTGGAAATGGTTGCTTCCGCTTTTATTATTGATAGCAGCTGCCTATTTCTTATGGAAGCAGTGCGAGAAAAAGCAAACAACTACAACCACTACTACATCTGACTCCGTAGCAACCAGTTCGGCAGCAGATTCTACAGGAATGATGGCTTCCCCTGCAGCAGCTAAAACAGATGAAGATATTGATCTTAACGGAGTAATGTTAAAAGGTTACAAAGGAGGTATGGAAGATCAGATGATTTCATTCCTGAAATCCGGTGGTTATAAAAATGCGGCTGATGATTCTGCATTGAAAGATAAATGGTATGATTTTGACCATGTTAATTTCAAAATAGGAAGTTCTACTGAACTTGAAGCAGGTTCACAAGGGCAATTAGACAACTTAGTAGCTATTCTTAAAGCTTTCCCTGATGCAAAAATCAAAGTGGGGGGCTATACTGATAAAACAGGAAACGAAGCTTCTAATGTAAAATTATCCAAAGCCAGAGCTGAATACATTAAAGCGGCTTTAAGCAAAGCCGGAGTTGGTTCACAGGTCATTGCTGCGGACGGTTACGGAAGTCAGTTTGCTAAAGTAGACGCTACTGCTTCTGATGCGGAAAGAGCTGCGGACAGAAAAATGTCGATCAGATTTGCAAAATAA	MSLNVIDLIKGQLGPALVSQAASQFGESESGISKAIGGLLPAVVGGLANNADKPGIVDAITQASSSGILGNLLGGSSGNPIISNLLSSLFGDKVSALVNSIASFSGVSNTSAGSLLNLVTGATVGTVGKYAADNNLGASGISSLLNDQKGIISSLLPAGLSLASFGLGAENWFGQAKETVSSVTSTAKDNIAESVATAKENVSEGAREIREQFNNNNDNQGGGSIWKWLLPLLLLIAAAYFLWKQCEKKQTTTTTTTSDSVATSSAADSTGMMASPAAAKTDEDIDLNGVMLKGYKGGMEDQMISFLKSGGYKNAADDSALKDKWYDFDHVNFKIGSSTELEAGSQGQLDNLVAILKAFPDAKIKVGGYTDKTGNEASNVKLSKARAEYIKAALSKAGVGSQVIAADGYGSQFAKVDATASDAERAADRKMSIRFAK				NA	NA	NA	NA	NA
BMS003_00711	1335	mntH		Divalent metal cation transporter MntH	ATGAATCTCAATATAAAAAACGCATGGCGTAAAGATAAAACAAATCATTCCTTATCAGAGGTTTATTCATCTATCAAGGTACCCAAGAATGCAACTTTCTGGAGAAAATATCTCGCATTTGCAGGCCCCGGGTTAATGATTGCCGTAGGATATATGGATCCTGGAAACTGGGCAACCGATATTGCAGGAGGCGCTCAGTTTGGCTATACGCTTCTTTCGGTTATTCTTATTTCCAATATTTTCGCAATGGTTTTACAGCACTTATCTGTAAAACTTGGCGTTGTTGCAGAAAGAGATCTTGCTCAGGCCTGTAGAGACCACTTCAGTCCCACCACCAATTTTATTCTTTGGATACTCTGTGAAATAGCTATTGCCGCCTGTGATCTCGCCGAAGTCATTGGTTCAGCCATTGCTTTGAATCTCCTGTTCCACATCCCGCTTACCTGGGGAATTGTTATTACAACGGTAGATGTTTTAATTATCCTTTTACTCCAGGCCAAAGGTTTCCGATGGATTGAGAGTATTGTGGGAGGGCTTATCTTCATCATCCTAGCCTGTTTCGTATATGAAATTATTATTTCAAAACCTGCTTTCAATGAGATTCTTGGAGGACTGGTTCCACAAAAGGAAATCATTCAGAATCCTGCTATGCTTTATATTGCGATCGGAATTTTAGGAGCTACGGTTATGCCACATAATCTGTATCTGCACAGCAGTATTGTACAGACCAGAGATTATCCCCGGGATACTGAAGGAAAAAAAGAAGCGATAAAGTTTGCCACCATAGACAGTACAGTTTCATTAATGCTGGCTTTCTTCATCAATGCTGCAATCCTCATTCTGGCTGCAGCTACATTCCATACTACAGGTAATGAACATGTGGCAGACATTCATGATGCCTATAAAATGTTAACTCCTATTCTGGGAGCTTCTATGGCAAGTATTGCATTCGCTATTGCTTTATTGGCTTCCGGGCAAAACTCTACCTTAACCGGAACTCTCGCAGGACAGATTGTAATGGAAGGCTTTCTGAATATCAGATTAAAACCATGGCTACGAAGATTGATCACAAGACTTATTGCTGTAATTCCCGCCCTTATTGTCGCTATTCTTTATGGTGAACAGGGAACTACCGAACTATTGGTTTTAAGCCAGGTTATTTTATCAATGCAGCTTAGTTTTGCCGTTGTTCCACTGGTGATGTTTACCAATGATAAAGCTAAGATGGGAGAATTTGCCAATAAGCCATTTATGAAAGTCTGCGTATGGATTATTTCCTTTATCATCATTGTTTTAAACCTATACCTACTCTATCAGACCTTTACAGGAGAATAA	MNLNIKNAWRKDKTNHSLSEVYSSIKVPKNATFWRKYLAFAGPGLMIAVGYMDPGNWATDIAGGAQFGYTLLSVILISNIFAMVLQHLSVKLGVVAERDLAQACRDHFSPTTNFILWILCEIAIAACDLAEVIGSAIALNLLFHIPLTWGIVITTVDVLIILLLQAKGFRWIESIVGGLIFIILACFVYEIIISKPAFNEILGGLVPQKEIIQNPAMLYIAIGILGATVMPHNLYLHSSIVQTRDYPRDTEGKKEAIKFATIDSTVSLMLAFFINAAILILAAATFHTTGNEHVADIHDAYKMLTPILGASMASIAFAIALLASGQNSTLTGTLAGQIVMEGFLNIRLKPWLRRLITRLIAVIPALIVAILYGEQGTTELLVLSQVILSMQLSFAVVPLVMFTNDKAKMGEFANKPFMKVCVWIISFIIIVLNLYLLYQTFTGE	PGPT0004370_868	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
BMS003_00712	537	grpE		Protein GrpE	ATGGAAAACCAGGATATTAACGAAGAAAGCATCAATAATCAGGAAGAAAACAATATTCAGAATGACGCAGCGTCTCATGACAATGTGACAGCTACACCTTCTCCGGAGGAACTTTTGGCAGAAGAAAAAGACCGTTACATCAGATTGTATGCTGAATTCGAAAACTATAAAAAAAGAACGAGCAAAGAGAAGATGGAATTCTTCCAGTATGCCAACCAGGAAATGATGGTTTCAATGTTAGGGGTTTTAGATGATTTTGAAAGAGCATTAAAGGAAATCGCTAAAAACGGAAATCCGGCTGACCTGCAAGGTGTGGAACTGATCTATCAGAAATTCAAGAATAAACTTACCGAAAAAGGCTTAAAAACCATGGAAGTAAAGGCTGGTGACAGTTTTGATGTTGATTTCCATGAAGCGATTACTCAGATCCCTGCTCCATCCGAAGATTTGAAAGGAAAAATCGTAGACGTTATTGAAACAGGATACACTTTAAATGATAAAGTAATCCGTTTTGCAAAAGTAGTAACAGGAAATTAA	MENQDINEESINNQEENNIQNDAASHDNVTATPSPEELLAEEKDRYIRLYAEFENYKKRTSKEKMEFFQYANQEMMVSMLGVLDDFERALKEIAKNGNPADLQGVELIYQKFKNKLTEKGLKTMEVKAGDSFDVDFHEAITQIPAPSEDLKGKIVDVIETGYTLNDKVIRFAKVVTGN	PGPT0014650_5758	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
BMS003_00713	1119	dnaJ_1	COG0484	Chaperone protein DnaJ	ATGTCAAAAAGAGATTATTACGAGGTTCTTGAGATCAGCAAATCTGCATCGGCCGACGAAATAAAAAAAGCATACCGTAAAATGGCCATCAAATTTCACCCGGATAAAAATCCAGGTGATAAAGAGGCTGAAGAAAAATTTAAAGAAGCTGCTGAAGCTTACGAAGTTCTGAGCGATGATCAGAAACGAGCAAGATACGACCAATTTGGTCATGCCGGAGTAGGCGGAAACGGTGGTTTCGGAGGCGGAGGCTTCGGAGGCGGAATGAACATGGAAGATATTTTCAGTCAGTTTGGAGATATTTTCGGTGGTGGTTTCGGAGGATTCGGTGGCGGCGGCGGAGGTCGTCAGCAGGTGAAAGGTTCTAATTTAAGAATCAGAATCAAGCTGAATCTTGAGGAAATGGTAAACGGTACTCAGAAAACCATTAAAGTTAAGAAAATGAAGATGGCAGAAAGTGCCACTTCAAAAACATGTCCTACCTGTAACGGTTCTGGTGTTCAGTTAAAAGTAATGAATACCATGTTTGGTCAAATGCAGACTCAGACTACATGTAGTACGTGCCAGGGAATTGGAAAAGTTGCTGACAAAATTCCTGCAGGAGCCAATGCACAAGGTCTTATTAAGGATGAAGAGGAAATCACAATCAACATTCCGGCAGGAGCAAGAGACGGTATCCAGCTTAATGTAAGAGGAAAAGGAAATGATGCTCCGTTTGGAGGCGTTCCGGGAGATTTATTGGTGATCATTGAAGAGGAAGTGGATCAGACGATCAAGAGAGAAGGTGATAATCTTCACCAGGAACTGTATGTTTCATTTGCTGAAGCTGCCTTAGGAACGAAGAAAGAAATTCCTACAGTAGGCGGAAAAGTAAAAATCACTGTTGATCCGGGAACTCAATCCGGAAAAATCTTAAGATTGGCAGGAAAAGGACTTCCTAGCATCGATAGTTATGGTAAAGGAGACATGTTTATCCACATCAATGTTTGGACTCCACAGAAGCTTACAAAAGAACAGAAAGATTTTTTTGAAAAGCAGATGTCCAGCGGAGAAATGGTAGCAGAACCATCCGGAAAAGAAAAAACTTTTTTTGATAAAGTAAAAGATTTATTCAATTAA	MSKRDYYEVLEISKSASADEIKKAYRKMAIKFHPDKNPGDKEAEEKFKEAAEAYEVLSDDQKRARYDQFGHAGVGGNGGFGGGGFGGGMNMEDIFSQFGDIFGGGFGGFGGGGGGRQQVKGSNLRIRIKLNLEEMVNGTQKTIKVKKMKMAESATSKTCPTCNGSGVQLKVMNTMFGQMQTQTTCSTCQGIGKVADKIPAGANAQGLIKDEEEITINIPAGARDGIQLNVRGKGNDAPFGGVPGDLLVIIEEEVDQTIKREGDNLHQELYVSFAEAALGTKKEIPTVGGKVKITVDPGTQSGKILRLAGKGLPSIDSYGKGDMFIHINVWTPQKLTKEQKDFFEKQMSSGEMVAEPSGKEKTFFDKVKDLFN	PGPT0014545_5348	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS003_00714	888	yedI	COG2354	Inner membrane protein YedI	ATGGCATCAGGCTTTTTTGCAGTTTTAGATGATATTGCAGCATTGATGGATGATGTAGCAGTTACCAGTAAAATCGCTACCCAAAAAACAGCAGGAATTTTAGGAGATGATCTGGCTGTAAATGCAGAAAAAGCCACAGGATTTCTTTCCTCAAGAGAACTTCCGGTTCTCTGGGCTATTACGAAAGGATCATTTATCAATAAACTGATCATTCTTCCTGTTGCCTTTCTTCTCAATTGGCTGTATAAACCGGCTATTGAAATTATTCTTATTCTGGGAGGGCTATATCTTGCTTTCGAAGGAATGGAAAAGATCATAGAATATCTGTTCCATCGTTCCAAAAAAGGTCATGAAGTAATAGAAGAGAGCAAAACAGAAGAAGAAGAGAATTCAGAAGTAACAGAAAAAGCAAAAATAAACTCAGCGATCAGAACAGACTTTATTCTTTCTATTGAGATTGTTATTATAACGCTGGGAACTGTTATTGAACGTGAACATCCGCTTATGACACAGATTTTAGCAGTAACTTTTGTTTCATTCCTTGCAACGGTTGGGGTATACGGAATTGTAGCCCTTATCGTAAGAATGGATGATGCAGGCTTCAGTCTGATTAAAAAGAGCCATGATAAAGGATTCTTTTCCAAGCTGGGACATTTACTGGTGAAAGCATTGCCCATAGTTATTAAAGTATTGGGTGTGGTGGGAACTTTTGCTTTGATCCTGGTTTCTGGAGGTATTTTTGCCCATAATATTCATTACCTGCATGAATTGTTTCCCACGTGGCCTTCTAAAATAAAAGAGTTTACATTCGGAATTGTAGGAGGTATTGCTGCTGTAACAGTGTTTACTATGGGAAAAGCTATCTACTCTTTAGCTACTAAAAAATAA	MASGFFAVLDDIAALMDDVAVTSKIATQKTAGILGDDLAVNAEKATGFLSSRELPVLWAITKGSFINKLIILPVAFLLNWLYKPAIEIILILGGLYLAFEGMEKIIEYLFHRSKKGHEVIEESKTEEEENSEVTEKAKINSAIRTDFILSIEIVIITLGTVIEREHPLMTQILAVTFVSFLATVGVYGIVALIVRMDDAGFSLIKKSHDKGFFSKLGHLLVKALPIVIKVLGVVGTFALILVSGGIFAHNIHYLHELFPTWPSKIKEFTFGIVGGIAAVTVFTMGKAIYSLATKK				NA	NA	NA	NA	NA
BMS003_00715	483			hypothetical protein	ATGGACGAAAACTGGGAAAGCCAATTACAGAGTATATGGCTTCAGCTTGGAACAATAAGCAATGATGACTTTATTCATCAGATCAAGAACCATACGGAATTACTCACATTTACAGATTCAAAGGCTATTGCTGATTTTGAAAGAGCCTGCGCTTTTGACTCCACGGGGTATGAAAAGGAAGCGGAACCTTTGTACAGATCTGCGCTGGATAAGGGATTAACCGGTTTACGGAGAAGAAGAGCAAGAATCCAGCTTGCAAGTACTTTAAGAAATAATGGAAAAATAGAAGAAAGCATCTGTATTTTAAGGGAAGAAAAAGCCAATTATTCTGATGAACTGAATGATGCGGTAGATTCTTTTTTAGCGCTGTCTCTTTCATCTGCCGGAGAATATAAAGAAGCTCTGTCTATAGCATTGAAAGCTCTGTCAAAACATTTGCCCAGATACAATAATTCTTTGAGCCGCTATGCTGAAAGCCTTTAA	MDENWESQLQSIWLQLGTISNDDFIHQIKNHTELLTFTDSKAIADFERACAFDSTGYEKEAEPLYRSALDKGLTGLRRRRARIQLASTLRNNGKIEESICILREEKANYSDELNDAVDSFLALSLSSAGEYKEALSIALKALSKHLPRYNNSLSRYAESL				NA	NA	NA	NA	NA
BMS003_00716	870			hypothetical protein	ATGAAAAAACTCATTCTCAGGTATCATTTTTTTGTCATGGGATGCATTGGATTTCTCCTGCAGTCCTGTAATACGAAATTCAGAGTATGGGTAGGTCCCGGAGGCCAGCAGAAAATTTACAATTTAAAATACGGCGAACATAAAAGACAGAAAATGGATGTCTTTCTTCCTAAAGATTACGCCGAAGATTCCCCTGTAGTGCTTATCGTCCATGGTGGAGCCTGGACTTTGGGTAAAAAAGAGCATATGATCCAGATTCAGAAAATGCTTTTTCAAAACAGAATTCCGAGTATCAGTATGAATTACAGGCTGGTTTCTAAAAAGAAAAACATCACGTATAAACAACAGCTTGAAGATATTGGTCTTGCCATTGAAAAATTCAATTCATTAACAGAGAAAGCTGAGCTACAGCCTAACAATTATATTCTTCTGGGAGAAAGTGCCGGCGGTCATTTATCTCTGCTTTACGGATACCGGCATCCTGAACAGATCAAAAAAATCATTTCTTTAAGTAGTCCCACAGATTTTTACAGCCCGGAATATCTTAAATCTTTCTATTCCAAATATGCATCGCCTACTTTTCAAAAGGTAGTTGGAAGTCAATTCGACCGGAAAAATATATCCGGAGCTTTCAAAGAAGCCAGCCCTATTGCCAATATCACGAATGTTCCTACCCTTCTATTCCAGGGAAACAATGATTTTTTGGTCAATCAACATCAGGGAATCGCTATGGATTCAGCGCTTACACAGATGAATGTTCCTCACAAATTTATCTTTATGAAAGGCGCAGGACATGCCCCAAGATTTTTCAGTAAAAGAAAAAGAGACAGCATTATCTACCCAAATATTCTGGAATGGATTAAAAAATAA	MKKLILRYHFFVMGCIGFLLQSCNTKFRVWVGPGGQQKIYNLKYGEHKRQKMDVFLPKDYAEDSPVVLIVHGGAWTLGKKEHMIQIQKMLFQNRIPSISMNYRLVSKKKNITYKQQLEDIGLAIEKFNSLTEKAELQPNNYILLGESAGGHLSLLYGYRHPEQIKKIISLSSPTDFYSPEYLKSFYSKYASPTFQKVVGSQFDRKNISGAFKEASPIANITNVPTLLFQGNNDFLVNQHQGIAMDSALTQMNVPHKFIFMKGAGHAPRFFSKRKRDSIIYPNILEWIKK				NA	NA	NA	NA	NA
BMS003_00717	699	dedA	COG0586	Protein DedA	ATGGAAGATTTCAATAGCTGGAAGGATTTATTAAACCCTGAGTTTTATATAAAAATGGGAGGGTTTTGGCTTATTTTGTTTATTGTTTTTGCTGAAACAGGTCTTTTTGTAGGGTTTTTCCTACCTGGGGACTCACTACTTTTCGTTTCGGGAATTTATGCTGTCGAAATCATCAAAGAGACTTTTGGCTCTACAGGGAGCGATTTCTTAGATACTACACTTTTAGCTACAGGAGTAGCTCTTGCTGCTGTTATAGGAAATGAAGTAGGATACTACTTTGGAAGAAAAGCAGGGCCTGCTCTATACAAAAGACCGGATTCAATGCTTTTCAAGAAAAAATACCTTTATCAGGCACATGATTTCTTTGAAAAACACGGTGCATTAGCTGTTATTATGGCAAGATTCTTACCGGTTGTAAGAACTTTTACTCCCATTGTGGCAGGTATTGTAAAGATGGATAAAAAAGAGTTTCTAAGAGATAATATTATCGGTGCTGTATTATGGTCATTTATTTTGATTTTTGCAGGGCATTATCTGGACAAACTTTTTATGGAACAGTTTGGAATAAATCTAAAACAAAAACTGGAGTATATTATTATCGTCATTGTTCTGGTAACTACACTTCCGGTGATCTTCAAGTTTGTTTTTGGGAAAAAAGAAGATCTTTCTAAAAAATATGAAGATCAGGACTTTGAATAA	MEDFNSWKDLLNPEFYIKMGGFWLILFIVFAETGLFVGFFLPGDSLLFVSGIYAVEIIKETFGSTGSDFLDTTLLATGVALAAVIGNEVGYYFGRKAGPALYKRPDSMLFKKKYLYQAHDFFEKHGALAVIMARFLPVVRTFTPIVAGIVKMDKKEFLRDNIIGAVLWSFILIFAGHYLDKLFMEQFGINLKQKLEYIIIVIVLVTTLPVIFKFVFGKKEDLSKKYEDQDFE	PGPT0004890_654	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
BMS003_00718	1113	prfB_1		Peptide chain release factor 2	GTGATTAACAACGACCAGATAAAAGAAGTTCAATCCAGAATTGAAGACTTACACAGATACCTTCAGATTGAAAAAAAGAAGATTGAAATAGCCAATGATGATGAAAAAACAGCAGCTCCCGAGTTTTGGGACAACCCAAAAACAGCCGAAGCATTCCTAAAACAGCTTCGTTCCAAGAAAAAATGGGTAGAAAGCTATGATGAAATTCAGACACAGTTTGAAGATTTACAGGTTTTAGCTGATTTTGCTAAAGAAGATCCGGATTCTGAAAAAGAACTGGACGAAACCTTTCCGCAATTGGTGGAAAAAATTGAAGACCTTGAGTTCAAAAATATGCTTTCCAATGAAGGGGATGAGCTTTCTGCTGTTCTTCAGATCACGGCAGGAGCAGGTGGTACAGAGAGTTGCGACTGGGCATCTATGCTCATGAGAATGTATACCATGTGGGCAGAAAAGCAAGGCTATAAAATCCGTGAACTGAACTTTCAGGAAGGTGATGTAGCGGGAGTAAAGACCGTTACCCTTGAAATTGAAGGGGAATTTGCTTTTGGCTACTTAAGAGGTGAAAACGGGGTACACCGTTTGGTAAGAATTTCCCCTTTTGACAGTAATGCAAAGCGCCATACAAGTTTTGTATCTGTATACGTTTATCCTTTGGTAGATGATACCATTGAAATTAATATTAACCCGGCCGATATCAGCTTTGAAACCATGAGAGCTTCCGGAGCAGGAGGACAGAATGTAAACAAAGTAGAAACCGCTGTACGTCTTCGCCACGCTCCAACCGGAATTATCATTGAAAACTCAGAATCCCGTTCTCAGCTTCAGAATAAAGAAAAGGCAATGCAGCTCCTTCGTTCCAGACTATACGAAATAGAACTGGAAGAGCGTATGAAGGCCAGAAATGAGATAGAAGCCAATAAAATGAAAATCGAGTGGGGAAGCCAGATCAGGAACTACGTCATGCATCCTTACAAACTGGTAAAAGATGTACGTTCCGGTCATGAAACCTCCGATGTGGATGCCGTAATGAACGGAAATATCACTCCTTTCCTTAAAGCATTCTTAATGGCTGATGGAACGGCAGTTTCGGATGATGATCTGGACTTATAA	MINNDQIKEVQSRIEDLHRYLQIEKKKIEIANDDEKTAAPEFWDNPKTAEAFLKQLRSKKKWVESYDEIQTQFEDLQVLADFAKEDPDSEKELDETFPQLVEKIEDLEFKNMLSNEGDELSAVLQITAGAGGTESCDWASMLMRMYTMWAEKQGYKIRELNFQEGDVAGVKTVTLEIEGEFAFGYLRGENGVHRLVRISPFDSNAKRHTSFVSVYVYPLVDDTIEININPADISFETMRASGAGGQNVNKVETAVRLRHAPTGIIIENSESRSQLQNKEKAMQLLRSRLYEIELEERMKARNEIEANKMKIEWGSQIRNYVMHPYKLVKDVRSGHETSDVDAVMNGNITPFLKAFLMADGTAVSDDDLDL				NA	NA	NA	NA	NA
BMS003_00719	1107			hypothetical protein	ATGAACAGCATCTGGGAACTTGAAACATTCTACAGAAAAAGAGATATTATCATTATTGGTTCAGGATTTTCCGGACTGTGGACGGCAATATCCATTAAAGAAAGATACCCAGAAAAATCCGTTCTCATCATTGAGCGGAATACTGTTCCTTTGGGTGCTTCTACGAGAAATGCCGGCTTTGCCTGTTTTGGAAGTCTCACCGAAATCATTGCCGATTCACAGAAAATGGGTTGGGAAAAGACACTGGAGCTTGTTAAAATGAGATTTGACGGTCTTCAGAAAATCCAGCATTATTTTAAAAATGGTGATATAGATTTTGAACTCAGCGGAGGCTATGAAATTATAAATAATGAAGAACCTTTATTACAAATTGAAACAGCTAATGAAAAACTGAAAACAATAACCGGGCTGGATCAAACCTACATTCTGAAAAATGAAAAAATACAGGAATTCGGACTAGGAAAATCTGTATTCCTGGTAGAAAACCCCTGCGAAGGAAGTCTTCATTCCGGTAAACTCCTTCAGAAACTGCTGGAAAAATGTCATGAACTGAAAATTGAATTTTTATTCGGAACGGAGGTCAAAAAAATTGATGAAACACAGGAAAATGTTGAGGTTTATTTTTCCTCTGATCTTTCTGTACAGGCAGATCAGCTTATCTATTGTACCAACGCATTCACTTCAAAGTTTCTGGATAAAGAGAATGTTATTCCTGCCCGCGGACAGGTTCTTCTGACTGAGCCCATAGACGGATTAAAGCTTAAAGGAACATTCCATTATGATGAAGGTTATTATTATTTCAGAAATGTTGGAAACAGAATACTGCTGGGTGGTGGAAGAAATCAGGATTTTAAAACAGAAGAAACAACAGCTTTTGAAACAACAGAATTTCTCCAGAATCATTTGGAAAACTTTTTGAAAGAAGTCATTCTGCCTCATCAACATATTAAAATTGCCCTCCGCTGGTCAGGAATAATGGCTATGGGTCAGGAAAAAATACCTATTGTAAAACAAATTTCGAAGAGGCAGTTTTGTGCGGTAAGACTTTCAGGAATGGGAGTTGCCTTGGCCCCGAAGATTGGGGAAATGGTAGCAGAAATGATTTGA	MNSIWELETFYRKRDIIIIGSGFSGLWTAISIKERYPEKSVLIIERNTVPLGASTRNAGFACFGSLTEIIADSQKMGWEKTLELVKMRFDGLQKIQHYFKNGDIDFELSGGYEIINNEEPLLQIETANEKLKTITGLDQTYILKNEKIQEFGLGKSVFLVENPCEGSLHSGKLLQKLLEKCHELKIEFLFGTEVKKIDETQENVEVYFSSDLSVQADQLIYCTNAFTSKFLDKENVIPARGQVLLTEPIDGLKLKGTFHYDEGYYYFRNVGNRILLGGGRNQDFKTEETTAFETTEFLQNHLENFLKEVILPHQHIKIALRWSGIMAMGQEKIPIVKQISKRQFCAVRLSGMGVALAPKIGEMVAEMI	PGPT0007637_2117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS003_00720	1353	mpa_1		Proteasome-associated ATPase	ATGAAGCTAATTGAACTGGCAGAAGAACTGAATGTTTCTGCAGAAGCCATCAAACAGTTTATACAGGATTTTGATCTTGAATTGGTAGACTGTGTCAGTACGAATTTTGAAGTAAAAGAAGATTTTGAAAAATTCGCGCGCGAAAATGTAGACTTTTTAAGGTTATATGAAAAAGATCTGGATAAAAATAAAACACTGGAGCAGATTGCTGAGGTCATCAATCAGCCTAAAGACAAGGTGGAAAAGGTGATTAAAGATAATAATCTCAATATTTTTGATAACGGGTTTTTCAAATCTTCCATTTCCAGCTATGGAATTGATAACAAGCTGGGAGGAAATTATCAGTTTGTTTATGATTATTTCGGGCACAAAACCAGTCTTCAGCAAAGAGATTTTATAGGATACAGAGATCTTTTCTTTTATACGTCTACCGTTCTGGAGCCTTTCCTGAATCCACAGCAGATTAAAGACTGGGGAATCAACAGGCCTGCCGGAATTATCCTCTACGGGCCACCGGGAAGCGGTAAGATATTTTGGGCAAATAAAATTGCAGAAATTATTGGATATCAGTTTAAAGAAGTCAAAAAACATTATTTGGGAACTTCACTCATTGACGGAAATGAAATCAACTTCAGTGATTTTCTGCTGAATATGATGAAGGAAAACAAAATGCTTCTTTTCATGGATGATTTTGATGAAATTATGATGCAGAGAAGAGCCGAAACAGATGTCGCTTCCAGTAATCTTGAAGCTCAGGAATTGATACTTCATTATATCGGAAAATTTGAAAAAGAAGGTGTTCTTATGGTAGGTTCTGCCAATTCTGTCTCTGAAATAGATGAAGAAATTCTTGCTCCCGGAAGATTTGATGTCATGATTCCAATTTTCCCACCCAACGCTTCCGAGCGCTCTGAAATCATTTTATATGCCATGACCAGAGGATTGGAAGAAGATTCTTTACTTTACAAAATACTTAAAAATAACAAAGCAGATAAAGTCCCTTTCTGGCATGGAATATCTTCAAAGATGAAAGCATTCAGCAACACGATGCTGATAGATTTCACACAAAGCTTAAAGAAAAGAATTAAAAATCTTTACCAAAGAACAAGAAATGAAAAGCTGAAGATTGATCAGAAAATTTTAGATAGTGCATTAAGAGACGCAGGATCAAAGCTCACCGAAGAATATCTTGATCAGGTGGCGAGATTTCTGGCGGATGCCATTGTCAATAATTTTGACGATTTTCAATTCAGAATTCAGGCATTGAAGAACGAACTGGAAACCTACAGGGTTGTTGAAGAACCACAAAGAGCAATCGGGTTTCAGCATAATGATGAAGGGGATAAAGGATAG	MKLIELAEELNVSAEAIKQFIQDFDLELVDCVSTNFEVKEDFEKFARENVDFLRLYEKDLDKNKTLEQIAEVINQPKDKVEKVIKDNNLNIFDNGFFKSSISSYGIDNKLGGNYQFVYDYFGHKTSLQQRDFIGYRDLFFYTSTVLEPFLNPQQIKDWGINRPAGIILYGPPGSGKIFWANKIAEIIGYQFKEVKKHYLGTSLIDGNEINFSDFLLNMMKENKMLLFMDDFDEIMMQRRAETDVASSNLEAQELILHYIGKFEKEGVLMVGSANSVSEIDEEILAPGRFDVMIPIFPPNASERSEIILYAMTRGLEEDSLLYKILKNNKADKVPFWHGISSKMKAFSNTMLIDFTQSLKKRIKNLYQRTRNEKLKIDQKILDSALRDAGSKLTEEYLDQVARFLADAIVNNFDDFQFRIQALKNELETYRVVEEPQRAIGFQHNDEGDKG				NA	NA	NA	NA	NA
BMS003_00721	903	bcrA_1		Bacitracin transport ATP-binding protein BcrA	ATGGAAAAGATTTTATCAGTAAAAAATTTGACAAAGAAATTCAAAAGAGTTGTAGTCAACAATATTTCTTTTGATGTCGAAAGAGGAAACGTTTATGGGCTTCTGGGTCCTAACGGAAGCGGAAAATCCACTACTTTCGGGATGCTGCTTTCAACCATCAACCCTACCAGCGGAGACTGGTTTTGGTTTGGTAAAAAAGGAACTGATCCGGAAACGTTAAAAAAAATAGGAGCAATTATTGAACAACCTAACTTTTATCCTTATTTAAGTGCGGAAACTAACCTTAAGATAGTAGCAGAAATAAAAAAAACGCCCTATTCCAGGATTGATGAAGTTCTGAAAACCGTTAATCTGTATGAAAGAAGAAAAGATACTTTCAAAACATTTTCTTTGGGGATGAAACAGCGTCTTGCCATTGCTTCGGCTATGCTGAACAATCCTGAAGTTATGATTTTGGATGAACCTACCAATGGACTGGATCCTGAAGGAATCATTCAGATCAGAGAAATCATCAGCGATATTGCCAAACAAGGAATCACCATTATTATTGCAAGTCATCTTTTGGATGAAATTGAAAAAATATGCAGCCATGTCATTGTGCTGAAAGAAGGGAATTCTATTTATTGCGGAAGAGTGGATGAAATGACTTCCAACAACGGATATTTTGAACTGAAAGCAGATAACAATACATTGCTTTTAAATGCATTGAATGATCTTCAATGGTTCTCTTCCATCAATGAGGAAGGCGATCTCATCAAGGCTCAGATCCGTGATGATGCTTCTATTTCAGCTTCGGCGATGAATCAGAAGCTGGCAGAGAAAGGAATTTATCTTTCTCACTTGACCAAGAAAAAATTATCTCTTGAATCTCAATTCCTTGAACTTGTAAAAAACACCAATTAG	MEKILSVKNLTKKFKRVVVNNISFDVERGNVYGLLGPNGSGKSTTFGMLLSTINPTSGDWFWFGKKGTDPETLKKIGAIIEQPNFYPYLSAETNLKIVAEIKKTPYSRIDEVLKTVNLYERRKDTFKTFSLGMKQRLAIASAMLNNPEVMILDEPTNGLDPEGIIQIREIISDIAKQGITIIIASHLLDEIEKICSHVIVLKEGNSIYCGRVDEMTSNNGYFELKADNNTLLLNALNDLQWFSSINEEGDLIKAQIRDDASISASAMNQKLAEKGIYLSHLTKKKLSLESQFLELVKNTN	PGPT0006725_14913	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_00722	846			hypothetical protein	ATGAAAAAATTATTAAAACTGGAATACTACAAAAACCTGAACTACAAACCATTTAAGGTTTTCACCATACTCTATTTCGTCATTCTTATTGCGTTGCTTTTCATTGGATTAGTTGATTTTGATGTTTTTGGAGGAACAATCAACTTAAAGGAACAAGGAATTTATGATTTTCCGGAAATCTGGAATTTCACCACATGGATTGTTGCTTTGCTGAAAATCTTCCTGGGACTGATCATTGTTTTCTCCATTTCACAGGAATTCAGCAACCGAATGTTCAAGCAGAATACGATTGATGGATTAAGCAGAAAGGAATTCATTACTTCAAAATTGCTGACAATAAGTATTTTCACTATTGTTTCAACCGCAATTGTATTGGGTATTACCGTATTCCTGGGATACCAGTATTCGGATACAACAGAATCTACAAAGGTTTTTGCAGAGATTTTCTTTATCGGAAATTACCTTGTAAAATTATTTACGTTCTTCTGTTTCTTAATGTTCCTTTCCATTTTACTGAGAAAATCTGTATTTGTATTTCTTGCTCTTTTTGTTTTCTGGATTGGTGAGGGAATTTTAACCGCTCTTGAAGTTTTCTCAAAAGTAAAGGGAATGCAGGGACCGCAAAGAAATGAAGTGCTTCAGAATGATTTCTTCATTACCCATCTTTTACCGCTGGAAAGTATGTCCAGCCTTATTCCTAACCCAATGATGAGATTGAATATGGCTAAAATGATGGGTGCAAAATATGAATTCCATTACCCTACAGAAAGTCTTATTGCCTGTCTGGTATGGTGTGTTATTTTCATCTTTGGGTCATATTGGATTCTGAGAAAAAGAGATTGGTAG	MKKLLKLEYYKNLNYKPFKVFTILYFVILIALLFIGLVDFDVFGGTINLKEQGIYDFPEIWNFTTWIVALLKIFLGLIIVFSISQEFSNRMFKQNTIDGLSRKEFITSKLLTISIFTIVSTAIVLGITVFLGYQYSDTTESTKVFAEIFFIGNYLVKLFTFFCFLMFLSILLRKSVFVFLALFVFWIGEGILTALEVFSKVKGMQGPQRNEVLQNDFFITHLLPLESMSSLIPNPMMRLNMAKMMGAKYEFHYPTESLIACLVWCVIFIFGSYWILRKRDW	PGPT0006730_11818	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_00723	531		COG3039	IS5 family transposase ISBf6	ATGTCTTGTGTTCAACTCGACGGAAGCCAGACCCGTTGCAGAATGGGTGAAGAATCAACGGGATATCAAAGCAGGAAATCTGCCAAAACCAGCAATATGATTTTTCTTTGTGACAATCGTGGTCAAATGCTTTCGATGGGAAATCCCAGAAGCGGAAATCATCATGATCTATATGAAATAGAAGATATTATGGATCAGATTATTGACATTTTGTCCGACGCAGAAATCTCTCACAAAGGTCTTTTTTTGAATGCAGATTCGGGGTTTGACAGTGAGAATTTAAGACAGAAATTAGAAATGGAGGAAATAACAGGCAACATCAAAACCAATCCCCGAAATGGAAAAACAGTAGATCATGATCACTATTTTGATGCAAAACTGTACGAAAGCAGGTTTAAAATAGAGCAGGCAAATGCCTGGTTAGACGGCTTCAAGGCTTTGCTGATAAGATTTGAAACATTGGATGTTACCTGGAAGAATCTACACTTTTTGGCGTTTTCATTAAAACTAATCAAAAAACTAAAAGTTTAA	MSCVQLDGSQTRCRMGEESTGYQSRKSAKTSNMIFLCDNRGQMLSMGNPRSGNHHDLYEIEDIMDQIIDILSDAEISHKGLFLNADSGFDSENLRQKLEMEEITGNIKTNPRNGKTVDHDHYFDAKLYESRFKIEQANAWLDGFKALLIRFETLDVTWKNLHFLAFSLKLIKKLKV				NA	NA	NA	NA	NA
BMS003_00724	252			hypothetical protein	ATGAAAAAATTATTATTAGTAGCAACATTAGGCGTTGCAGGGTTAATGAGTGCTAAAGGCACAGAAATAAAAGAAGTAAAAACAATAAAAAAAACAGAAAAAGTATTTTATCATCCAATAAAAGTTACTTCTTCATGCGGATATACAGAATATATTGAACTTGGAGGTTCAAATATTAGCTGTATCGAAGTGGAAATTGACAGAATGGAAATGGAGTGCGATGCGCCAATAACTGGATGGGGATATGCATAA	MKKLLLVATLGVAGLMSAKGTEIKEVKTIKKTEKVFYHPIKVTSSCGYTEYIELGGSNISCIEVEIDRMEMECDAPITGWGYA				NA	NA	NA	NA	NA
BMS003_00725	786			hypothetical protein	ATGAAAACACGTTTGCTTTTAATATTAAGTCTATTTGGAGTATTTATTTTAGCTCAGGAGACCTATAAAGATAATAAAAACTATTCGGATTTGCAGGTGAAATATTTATATAAATCGGCTCGAGACACTAACGATATAGGTAATAAAATTGAAGAAGTCATGATTTTAGACTTAAATCCAAATTCTTCACTTTATTATAGCGATGCCTTTTTACAACGTAGAAAAGCTATTGAAACCCAATTGCAGATTGCAAAAAATAGCGGTGGAATGGCTGAAATTAACGCTGGAAAAATGGCAAAGCCAAAGGTTGATTATTCAGTTTATCGCAATGATGGAAAAACAATAGTTACAAGTCGTTTAGGTTCTGATCTTTTTTCATTTGAAGGAGAACACCCAAAATGGAACACCAATTATAATGAAGAGCGGACTATTTTAAACTACAAGTGTAAAAAAGCAACTACAATTTTTAATAAGAGAAAGTATGTTGCTTGGTACACTAAAGATATTCCAATTTCAGAAGGGCCTTATAGATTTAAAGGATTGCCAGGGCTTATTTTAGAAATTGAAGACTTAAACGGATATGATACGTTTGACGCTATTGGAATAGAAAAAAAACAGATGGAAATTTCTCAACTTCAAAAAGGCATTACTGTAACAAGGGATGAGTATTTGAAAAAACGAGAAGAATTTAAATCTAATCCGTTTCGGGGTAAAATAATGGATCAAAGTAGACGTGCAAGCTTAGAATATGCAATTAAAAAATTTAACAACTCTTTAGAGAGGTAA	MKTRLLLILSLFGVFILAQETYKDNKNYSDLQVKYLYKSARDTNDIGNKIEEVMILDLNPNSSLYYSDAFLQRRKAIETQLQIAKNSGGMAEINAGKMAKPKVDYSVYRNDGKTIVTSRLGSDLFSFEGEHPKWNTNYNEERTILNYKCKKATTIFNKRKYVAWYTKDIPISEGPYRFKGLPGLILEIEDLNGYDTFDAIGIEKKQMEISQLQKGITVTRDEYLKKREEFKSNPFRGKIMDQSRRASLEYAIKKFNNSLER				NA	NA	NA	NA	NA
BMS003_00726	1098	msrAB	COG0225	Peptide methionine sulfoxide reductase MsrA/MsrB	ATGAAAAATATATTAATTGTACTCGGAATTATTCTGGGTATAGCAGTCTTTGCTGCGGGATCCGGGCTTTTCAAAAAAAACAAGCCTGATGTAGTGGAAATAAAAAAAGAAAATGAGAAAATTATGGATAACAAAAACGTTAGAGAGATTTATTTTGCAGGTGGATGTTTCTGGGGAACAGAACATTTTTTTCAACAAATTCGAGGGGTTGTAGGAACTGAAGTAGGCTATGCCAACGGAAATACCCAAAATCCTACGTATGAAGAGGTAGTAAGTCATACAACAGGTTTTGCAGAAACCGTAAAAGTAAAATACGATCCTGAACAGGTAGATCTGAAACTGTTGATTGATCTGTATTTTAAAACCATTGATCCTACAAGTAAAGATCAGCAGGGAAATGACAGAGGAAACCAGTACAGAACCGGAATTTATTTCACTAATAAAACAGATGAAGCTGTGGTAAAAGATGAAGTTCAGAAGCTGGCCAAAAATTATAGTAAACCATTGCTTGTAGAAACCATTCCATTGAAAAATTTCTACAAAGCAGAAGATTATCATCAGGATTATCTGGATAAGAATCCGGGCGGATACTGCCACATTGAACCGGGACTTTTTGAAATGGCGAAAAAAGCCAATCCACTTCCAAAGCCAACGTATCAAAAGCAGGATAAAAAAGTTTTAAAAGAAAAACTGACCGCAGAACAATATAATGTTACCCAGGAAAATGGAACAGAAAGACCTTTCCAGAATGAATACTGGAATGAAACCCGTGAAGGAATTTATGTAGATATTACAACAGGAGAACCTTTGTTTGTCTCTACAGATAAATTTGAATCCGGATGTGGATGGCCAAGTTTCTCAAAACCGATTACCAAAGGCTTGATTGATGAAAAACTGGATCGGTCCCATGGTATGGATAGAGTAGAAGTAAGAAGTAAAACCGGTGATGCCCATTTAGGACATGTCTTCACAGACGGACCGGAAGATAAAGGAGGACTTCGTTATTGCATCAACAGTGCTTCTCTGAAATTTATTCCAAAAGCAGAAATGGAAAGTAAAGGATACGGAAAATATCTTCCGTTGTTAGATAAAAAGTAA	MKNILIVLGIILGIAVFAAGSGLFKKNKPDVVEIKKENEKIMDNKNVREIYFAGGCFWGTEHFFQQIRGVVGTEVGYANGNTQNPTYEEVVSHTTGFAETVKVKYDPEQVDLKLLIDLYFKTIDPTSKDQQGNDRGNQYRTGIYFTNKTDEAVVKDEVQKLAKNYSKPLLVETIPLKNFYKAEDYHQDYLDKNPGGYCHIEPGLFEMAKKANPLPKPTYQKQDKKVLKEKLTAEQYNVTQENGTERPFQNEYWNETREGIYVDITTGEPLFVSTDKFESGCGWPSFSKPITKGLIDEKLDRSHGMDRVEVRSKTGDAHLGHVFTDGPEDKGGLRYCINSASLKFIPKAEMESKGYGKYLPLLDKK				NA	NA	NA	NA	NA
BMS003_00727	444	rclC_1	COG3059	Inner membrane protein RclC	ATGGTCGGAACAGTACAGGAATCTAAAAATCAACTATCCCGGATCGGGTACTATATCTCCCTTTTTGGAGCAGCACTTATTTTGCTGTGGATTGGCATCTTCAAATTTACCCCCACAGAAGCTGCGGCTATAAAACCCTTGGTAGAAAACCATTTTCTAACTTTTTTCGTATATAAGGTTATGAGCGCCCAGGCAGTGTCAAATCTTATCGGAGCGATAGAAATTATCATTGCATTACTCCTGGTATTTAGTGCGAAATTTGCTGTACTGAAAAAGTATGGCGGTATAGGAATGATCGTAACTTTTCTGGTGACATTAAGCTATTTATTTACAACACCGGGAATCTGGAAAGTAGTAGATGGGGTGCCCGTGACAGATTTCTTTATTTTAAAAGACCTTATGCTTTTAGGATTTGGATTCATGATCGTTCAAAATAATAAGTAA	MVGTVQESKNQLSRIGYYISLFGAALILLWIGIFKFTPTEAAAIKPLVENHFLTFFVYKVMSAQAVSNLIGAIEIIIALLLVFSAKFAVLKKYGGIGMIVTFLVTLSYLFTTPGIWKVVDGVPVTDFFILKDLMLLGFGFMIVQNNK				NA	NA	NA	NA	NA
BMS003_00728	270			hypothetical protein	ATGATAAGAAGAATACTACATATATTATTTTTACCATGCAGTGAAGCCACTTTACTGATGGAAAAAAGGAATGCCCAATCCATTTCTTCCGGAGAAAACAGGAAACTTAGCATTCACCTGATGATCTGCAGATGGTGCAGAACGTACAATGAAAAACTGGCTCTTCTGGATAAAGTTTTTAAAAAGACATTTTCTGAACAAAAGACTGAAGTTAATGAATCTGAAATTCAGGACTTTAAAGATAAAATGATCGATAAATTAAATTTCTAA	MIRRILHILFLPCSEATLLMEKRNAQSISSGENRKLSIHLMICRWCRTYNEKLALLDKVFKKTFSEQKTEVNESEIQDFKDKMIDKLNF				NA	NA	NA	NA	NA
BMS003_00729	555	sigW_1	COG1595	ECF RNA polymerase sigma factor SigW	ATGACAAAAGATGAAGAACTGAAAAGCTGGATAGAACAATATTCAGGACCGCTTTTGAAGCGGGCGCTGTATGTGCTTTCTAATAAGGAAGATGCACAGGATGTCGTTCAGGAAGTTTTTCTTGCAGCTTACTCAGCCTATGATTCTTTTGAAGGGAAAAGTCAGGCGCTTACATGGCTTATGGCTATTCTGAACAGAAAAGTTGCAGATTTTTACCGTAAAAAATATAGATCTGAGCCTAATATCAGACTTGATCATTTCTTTGATGAAACCGGATCATGGAAAAACAATGATGTTTTGAATGACTGGAATGTGTCCGGAGATGGAGATGAGCTTTTAGACAGTGCAGAATTTAATAAAACATTGGAAGAGTGTATTGAAGAATTACCCTCCAGATGGAAGATTCTGCTTAAAATGTATTATATAGAAGAAAAAAAAGCACCGGAGGTAAGTCAGGAATTGAGTGTTTCTACGACTAACCTTTGGAAGATTTTGCAAAGAAGCCGGATGCAGCTCAGAGAATGTCTGGAGTTTAACTGGTTTTCAAAATCATAA	MTKDEELKSWIEQYSGPLLKRALYVLSNKEDAQDVVQEVFLAAYSAYDSFEGKSQALTWLMAILNRKVADFYRKKYRSEPNIRLDHFFDETGSWKNNDVLNDWNVSGDGDELLDSAEFNKTLEECIEELPSRWKILLKMYYIEEKKAPEVSQELSVSTTNLWKILQRSRMQLRECLEFNWFSKS				NA	NA	NA	NA	NA
BMS003_00730	2604	alaS	COG0013	Alanine--tRNA ligase	ATGACATCACAAGAGATACGTCAAAAATTTTTAGATTATTTTAAAAGTAAGGAGCATTTAATCGTTCCTTCAGCTCCTATTGTGCTGAAAGACGACCCTACCCTTATGTTTTCCAACTCCGGAATGACGCAGTTCAAGGATTTCTTCCTTGGCTACAAAACCCCTACCGCCCCTAGAATTGCCGATACCCAAAAGTGTCTTAGAGTTTCAGGGAAGCACAATGATTTGGATGATGTAGGTAGAGATACTTACCACCATACCATGTTTGAGATGTTAGGAAACTGGTCTTTCGGGGATTACTTCAAAAAAGAGGCTATTGCTTTTGCCTGGGAATTACTGACTGAAGTATACGGAATTCCAAAAGAAAATTTATACGTAACGATTTTTGAAGGGGATGCTTCAGAAAATCTTGACAGAGATCAGGATGCTTATGATTTCTGGAAATCTCATATTGCAGAGGACAGAATCATCAACGGAAATAAAAAAGATAACTTCTGGGAAATGGGCGAAAGCGGGCCATGCGGACCATGTTCAGAAATCCACATTGACCTGAGAACTCCTGAAGAAAAAGCAGCCGTTCCGGGAATTTCCCTTGTCAATCAGGATCATCCGCAGGTAGTGGAAGTATGGAATCTGGTTTTCATGGAGTTCAACAGAAAGGCTGACAAATCTTTAGAAAAGCTTCCTGCTCAGCACGTAGATACAGGAATGGGATTTGAACGTCTTTGTATGGCACTTCAAGGGAAGTCATCCAACTACGATACAGATGTTTTCACTCCGCTTATTTCTAAAGTTGAAGAGCTTTCAGGGAAAAAATATACCGGAATTTTAGAAGACGAAAAAGATATTGCCATCCGTGTTGTGGTAGACCATATCAGAGCGGTTTCTTTTGCTATTGCAGACGGACAATTGCCATCCAACGGAGGAGCTGGTTATGTCATCAGAAGAATTTTAAGAAGAGGAATTTCTTATTCTTACAGATTCCTTGATATGAAAGAACCTTTCCTTTACAAACTGGTTGCTGTTCTGCAGGAACAAATGGGTGCTTTCTTCCCGGAAATCGAAAAACAGGGAAAACTGGTTGCTGAAGTGATCAAAAGTGAAGAAGATTCATTCTTAAAAACAATTGAAAACGGTCTGATCAGAGTAGAAAAACTGATCCAGCAGACGATTGCAGATAATAAGAAAGTATTACCAAGCGAAGAGGTTTTCGAGCTGTATGATACGTACGGCTTTCCTGATGACTTAACAAGAATTATTGCTGAAGAAAAAGGGTTAACGATTGATGAAGAAGGTTTCAAGGCTGAAATGGAGAAACAGAAGCTTCGTTCAAAAGCGGATTCTGCTCAAAAAGTATACGACTGGGTAAATCTTGAATCAAAACCTGAAACATTTGTAGGTTACGACCAGACTGAATCTGAAACCTATATTACAAGATACAGAAAAGTAGAAAATAAAGACGGAGAATTTTACCAGGTGGTATTAAGTAGCTCTCCTTTCTACCCCGAAGGAGGTGGACAGGTTGGAGACAAAGGTGTTCTTGAAAATGCTGTTGAAAGCTTCGAAGTACTGGAAACTAAAAAAGAAAACGGATTGATTATCTCACTGATCAATGGTCTTCCGAAAGATGCCGGTGCTGTTTTCTATGCTAAAGTAAATGCTTCAGAAAGAAAAAATTCTCAGGCTAACCACTCTGTAACTCACCTTCTCCATGAGGCTTTAAGAGATGTTTTAGGAACTCACGTAGAACAGAAAGGTTCTTATGTAGGTCCTGATTATCTGCGTTTCGACTTCTCTCATTTCAACAAAATGACGGAGGAAGAATTAGCATTAATTGAAGAAAAAGTAAACAAAAAGATCAAAGAAAGTATTGCTTTACAGGAATTCAGAAATATTCCGATCCAGGAAGCTCTGGAAAAAGGAGCAATGGCTTTGTTTGGTGAAAAATATGGTGACAGCGTGAGAATGATCCAGTTCGGAAGTTCAAAAGAACTTTGTGGAGGAACTCATGTAAAAAACACCAGCGAAATTGGTCACTTCAAGATCACTTCTGAAGGTTCTGCAGCCGCGGGAATCAGAAGAATTGAAGCTATTTCAGGAGACAAATCTGAAGAATATTTCAACAATCTTGAAAAGCAGATCATTGAACTTTCTCAATTATTAAAGTCTAAAGATGTTGTAAGATCTATCGAAAAACTGATGGAAGAAAATACTTCATTGAAAGCTGAAGTAGACGCTCTTAAAAAGGAAAAAGCAAAAGGAGAAATCGGAGATTGGAAGAATGCTTATGAGCAGAAAGGCAACAAGCAGCTTCTTGTAAAGAAAACCTCTCTGGATGCAGGTTCTGTGAAAGATATCGTTTTCCAGCTGAAAAGAGAAATTCCTGCTTCGGTAACGGTTATTCTTTCTGATGCAGACGGAAAACCAATGATTACCGTTGGAGTTTCTGATGATCTTGCAGCAGATTACCAGGCTGGAGCTATCGTAAAGGATCTTGCAAAAGAAATCCAAGGTGGCGGCGGTGGAAATCCGGGATTTGCTACTGCTGGAGGTAAAAACCTTGAAGGGTTAGAAAACGCTTACCAAAAAGCATTGAACATCTAA	MTSQEIRQKFLDYFKSKEHLIVPSAPIVLKDDPTLMFSNSGMTQFKDFFLGYKTPTAPRIADTQKCLRVSGKHNDLDDVGRDTYHHTMFEMLGNWSFGDYFKKEAIAFAWELLTEVYGIPKENLYVTIFEGDASENLDRDQDAYDFWKSHIAEDRIINGNKKDNFWEMGESGPCGPCSEIHIDLRTPEEKAAVPGISLVNQDHPQVVEVWNLVFMEFNRKADKSLEKLPAQHVDTGMGFERLCMALQGKSSNYDTDVFTPLISKVEELSGKKYTGILEDEKDIAIRVVVDHIRAVSFAIADGQLPSNGGAGYVIRRILRRGISYSYRFLDMKEPFLYKLVAVLQEQMGAFFPEIEKQGKLVAEVIKSEEDSFLKTIENGLIRVEKLIQQTIADNKKVLPSEEVFELYDTYGFPDDLTRIIAEEKGLTIDEEGFKAEMEKQKLRSKADSAQKVYDWVNLESKPETFVGYDQTESETYITRYRKVENKDGEFYQVVLSSSPFYPEGGGQVGDKGVLENAVESFEVLETKKENGLIISLINGLPKDAGAVFYAKVNASERKNSQANHSVTHLLHEALRDVLGTHVEQKGSYVGPDYLRFDFSHFNKMTEEELALIEEKVNKKIKESIALQEFRNIPIQEALEKGAMALFGEKYGDSVRMIQFGSSKELCGGTHVKNTSEIGHFKITSEGSAAAGIRRIEAISGDKSEEYFNNLEKQIIELSQLLKSKDVVRSIEKLMEENTSLKAEVDALKKEKAKGEIGDWKNAYEQKGNKQLLVKKTSLDAGSVKDIVFQLKREIPASVTVILSDADGKPMITVGVSDDLAADYQAGAIVKDLAKEIQGGGGGNPGFATAGGKNLEGLENAYQKALNI				NA	NA	NA	NA	NA
BMS003_00731	1479			hypothetical protein	ATGAAAATTAACCAAACTATTGGAGCTTTATTCCTTGCTGCTATTGCTCTTCAAGGCTGTAATGATGACAATAACGGAAATCCTGATGCCCCTGTGAATGATAAAATCAAGATTGAAAACTTTTCTAAAGAATCGGCTTTCGTTTTTGGAATGCCTGGTTTTGAAAATTTAAATATTACCACGCTTATTTCCAGCTCAGATGTTCTTCCCGGTTCTCCCGATTTCGTTTTCGGAGGTCAGCCGGACGGAATGGGAATAATGAAAGATCCTAACTCTGACGGGTATCTTATGATCACCAATCATGAGATCAAGCAATCTGTATCCAGAATATATTTAGATAAAACTTTTAAGCCTGTAAAAGGAGAATATATCTTAAACGGAACCGGTGGAATGACAAGATTATGTTCTGCTACGCTGGCCACACCTGAAATACATGGTTTCAGTGCATTCCTTACAGCGGGAGAATCAGGTGAAGAAAGTATGGTTCATGCCTTGAACCCGCTGGCACCGGCATCTCAGGCATCCGATAAAACAAGAGTAAAACCCGCTTTGGGAAAGGCTTCTATGGAAAATGCAGTTCCGCTTCCTAAAGATGTTTCTAACGGAAAATCTTATATCATCATTGGTGAAGATCAGTCCTATTCTTCTTCTCACCAGTCTGCAGGACAGTTGATCATGTATGTAGCCGATACACAGGGTGATCTGGATAACGGTAAGCTATATTCTTTAAAAAGAGCCAACAACAATTATACTGAAACTGATATGACGAAAGGAAGCATCTACGATGTAGAATTCGTAGAAATTCCGAATGCCAAAAACCTTACAGGAGCTCAGATCAATCAGAAAAATATTGATAATAATGCCATCCGTTTTTCAAGAGTGGAAGATGTAGATTACAGAAAAGGGGCAGGGAAAGGAAGAGAAATCTATTTTACCGCTACCGGAGAATCTTCTGACGGTGTCAACCCAAAAGCAGGATTAACGATGTGGGGAAGGGTGTACAAACTTGTTCTGAACTCCGACAATATGCTGACAGGAAAATTAGAAGTTGTTGCTGAAGGAGATTCTAATCCGGGAAACAATCTTATCAATCCTGATAACTTATGTGTTACTGAAAACTATGTATATATTCAGGAAGATGGAGATTCTTACTACCAAAATGCCAAACATGATTCTTATATCTGGCAGCTGAATATCACTACAAAACAATACAAACCATGGCTGAACATGAAACACAACAGAAATGATTCTGCATGGCAAACCGCCTATAACCAATCCGGAGCTCTTCAGAAATTCGGTTCATGGGAGTTTGGAGCAATGATTGATATTTCAGATATCATCGGCATTCCCAATACATTTGCTGTCAATATCCACTCTCACACATGGCAGCTGGATAAATTTAAAAATCCTGACGGTTCCGGCATCAACACAAACAAAGAAGGTGGGCAGACTGTCATTATCAGAAACGTAGAAAAATAG	MKINQTIGALFLAAIALQGCNDDNNGNPDAPVNDKIKIENFSKESAFVFGMPGFENLNITTLISSSDVLPGSPDFVFGGQPDGMGIMKDPNSDGYLMITNHEIKQSVSRIYLDKTFKPVKGEYILNGTGGMTRLCSATLATPEIHGFSAFLTAGESGEESMVHALNPLAPASQASDKTRVKPALGKASMENAVPLPKDVSNGKSYIIIGEDQSYSSSHQSAGQLIMYVADTQGDLDNGKLYSLKRANNNYTETDMTKGSIYDVEFVEIPNAKNLTGAQINQKNIDNNAIRFSRVEDVDYRKGAGKGREIYFTATGESSDGVNPKAGLTMWGRVYKLVLNSDNMLTGKLEVVAEGDSNPGNNLINPDNLCVTENYVYIQEDGDSYYQNAKHDSYIWQLNITTKQYKPWLNMKHNRNDSAWQTAYNQSGALQKFGSWEFGAMIDISDIIGIPNTFAVNIHSHTWQLDKFKNPDGSGINTNKEGGQTVIIRNVEK				NA	NA	NA	NA	NA
BMS003_00732	1815			hypothetical protein	ATGAGTAAACTTTCAAAATACCCTATACTCCTTTTCCTGTACTCTGCTGCAGCACTTTTCACACTTTATTACTGTAAAAATGATAAGCAGCAGCCTGTGTACGAAGATCTTGGTTCTGTCAGAAACAGAATTCTAAAAACCAATGCTGATCTCGAAAAGCAAATCAACGAACTGAAAACCCTTGTTGCGAAAAGCTCTGACGAAAAACTTCTTCAGGAAAAATTTCAGGACATCCGAAAAACCTACAAAAAAATGGAATGGGCTGTAGAATACTTCCTTCCCCACTCGGCAAGGTTGATCAACGGACCTGCTCTCCCTGAAATAGAAATGGACGAACATACAGAAATAGAACCTGAAGGTCTTCAGGTTTTAGAAGAAATGTTTTATCCTTATGACAAAGGAAATAAAAAGGAAGTGACCAGAATGCTCAATAAGCTCATCAATAAAAGCAATGCTATAAAAACCAACTTTCAGGTAATCACCATCAGTAAGGATCAGGTTTTTGATGCTTTAAGACAGGAAGCTTTCAGAATATCCAGCTTAGGAATTTCAGGTTTTGACACTCCTGTCTCAGGAACATTTTTACAGGAAATGCCTTCTTCTCTTGAGGGAATTAAAGAAACACTGGAACAGATCTCCACTGACCGTTCCAAAGATAAAGCATTAAAAAGCCTTATTGCAGAAATCAATTCAACCATTGAAGTTCTGAAGAAAAACACGAACAAAAGTACGTTTGATTATGTCAATTTTATCCCGGATCATCTGAACAGGATCACAACTCTGATGCTGGATTTTAAAAATCAGGAGAAAATTCCGGATGTTGAAGTAACCACTGCTTTGAACAAGAATGCCGCTACTTTTTTCTCTAAAAACGCCTTTAATCCCAATGCCTTTACCCCGGGAAAAGAATATGCATACACCGAAGAAAAAGCTGCTCTTGGGCATCAGCTTTTTAATGATAAAATATTATCCAACAACAATAACCGGAGTTGTGCTACCTGTCATATTCCTGAGAAAGCTTTTACTGACGGACTTGCCAAAGCTATGTCTCTTGAAAATTCGGAATTGGCGAGAAATACTCCCTCCCTCAACTATGCGGGATATCAGCATGGCCAGTTTTGGGATATGAGAAAGGATGATCTGGAAGGACAGAGCTCTGATGTGATCTCCAATAAAGAAGAAATGCATGGTGACCTGAATGTGATTCTCGCCAAAATCAATCAGGATAAAAATTACCAGGCTGCATTCAAAAAGATTTACCATTCCCCCAAAACTGAAGTCTGGCAGCTGCAGAATGTACTGGCAACCTATATCCGTTCTCTGGCTAAATTCAATTCAGATTTTGATGAATATATGAGAGGAAACAAATCAGCAATGACGGAAAGTCAAAAACGGGGATTTAATCTTTTTGTCGGAAAAGCGCAGTGTACCATATGTCATTTTCTGCCTTTATTCAACGGAACTGTTCCTCCTAACTTCAAAAAAACCGAACAGGAAATATTGGGAGTGGCTATGAATGCAGAGAACAGAACATTTGATAAGGATCCGGGAAGGGGAAAATTTCATGAAACAGTTCCTTCATTACAGCATTCTTTCAAAACACCTACTCTTAGAAACATTCATAAAACTGCCCCTTACATGCACAATGGCGGTTACAAAACATTAAAAGAAGTGATGAATTTCTATAACAAAGGCGGCGGAAAAGCTTTCGGTTTCAAAGTAGAAAACCAAACCCTTTCTGATACCGCGCTACAGCTTACAGATAAAGAAACAGACGATATCATTGAATTTATGAAAGCATTGAATGATCAATAA	MSKLSKYPILLFLYSAAALFTLYYCKNDKQQPVYEDLGSVRNRILKTNADLEKQINELKTLVAKSSDEKLLQEKFQDIRKTYKKMEWAVEYFLPHSARLINGPALPEIEMDEHTEIEPEGLQVLEEMFYPYDKGNKKEVTRMLNKLINKSNAIKTNFQVITISKDQVFDALRQEAFRISSLGISGFDTPVSGTFLQEMPSSLEGIKETLEQISTDRSKDKALKSLIAEINSTIEVLKKNTNKSTFDYVNFIPDHLNRITTLMLDFKNQEKIPDVEVTTALNKNAATFFSKNAFNPNAFTPGKEYAYTEEKAALGHQLFNDKILSNNNNRSCATCHIPEKAFTDGLAKAMSLENSELARNTPSLNYAGYQHGQFWDMRKDDLEGQSSDVISNKEEMHGDLNVILAKINQDKNYQAAFKKIYHSPKTEVWQLQNVLATYIRSLAKFNSDFDEYMRGNKSAMTESQKRGFNLFVGKAQCTICHFLPLFNGTVPPNFKKTEQEILGVAMNAENRTFDKDPGRGKFHETVPSLQHSFKTPTLRNIHKTAPYMHNGGYKTLKEVMNFYNKGGGKAFGFKVENQTLSDTALQLTDKETDDIIEFMKALNDQ				NA	NA	NA	NA	NA
BMS003_00733	2400			hypothetical protein	ATGAAAAGGGGTTTACTGTTATTATTTTTTCTACTCAGCATCTGGGGATATTCACAATCAAAAATAAAGGTTGTGGATGACGCCAGTCAAAAACCTGTTTTTAATGCTAAGGTATCCTGCAACAACACAGTCATTGGGTACACTGATCAGCAGGGCATTCTGGAATTTAAAACGAGCTGCAAAAACATTGATATTGATGCAGATTCTTACCAGAAAGAAACCATTACTGTAGAAAGCAGCATAGAAGTCTCCCTGCTTAAAAAATCAGCTAAAACGACCAATATTGAAGCCGTAGTCATTGAAGATAAAAGTGATCCCAGAGCTTTGGAAATTCTTAAGAAAGTTAACAAACTTTTTAAAGAAAACTCACCCAAAAGCTTAGGCTCATATTCCTACAAGTCCTATGAAAAAATTTCTCTGGATATTGATGAAGATAGCCTTTCTCAGTTTAATCAGTATTTTAATGATCTCAATATTTTCAAGAAAAAAAGGGAAAAAGATTCTCTGAATAACATCACTGCAAGAAAAATATTTTCGAAAAGCAAGCTCTTCCTTTGGGAAAGGGCTCAGGAGTTTCTATATTCAAAAAAATATGGTGAGAAGATCAATATTCTGGATAACAGAATCTCCGGTCTGAAACAGCCTATCTATGAAATGATTGCTCTTCAGCAAAGTAACAGGGATGTTGTTCCGGAGCAACTAAAACCGGAAAACAGAGGCCTGTACAGATTCTTTCTCTCAGATACGGTGACCCTGGACGGAAGAAAAAATTTTGTGATCCGCTTCCGTGAAGTAAACTACAAAAAACTGGATAGAAAGCGAAAGTATAACGGCGCTATTTATGTAGATACCGAAACGTACGGAGTCAAAAAAATTGAAAACTTCAGTAAAAACAAAAACGAGGGAATTATCACCAGTACGTGGGTGTTTTACAATAACAAATGGTTTCTTGCCCACGAAAAAGCCAAACTTAAAATGGGTAAAATGGCTATGGATGACAAAGTGCACCCTGACGATAAAAAAGACAAAAAAAGCTTTGGTACCTACGCTTTTCTCACCTCAAAATATTTTGATTTCGAATCTCCTATTGAAGAGAACCCAAAAGACTTCAGAGGTTATACATTCTCTGTAAAAAATATTGACGGGCATTCTCTGGACCAGTACAGAACAGAACCTCTTACAGACAGGGAAGAAAACACCTATAAAACCATCGACAGCTTAGGTAAAAAATATAAAATCGACAGCAAAGCACAGATTCTATCAGGATTACTGAATGGCCAGATCAGAGTAGGTTCTGTAGACTTTGCAGTAGATGAAATTGTTAATTATAACTCTTATGAAGGATTCAGACTTGGTTTAAAAGCCAAGCTGAATGAAAACTTCAACCCCTATTTTTCACCAGACTATTATTTTGCATACGGTGTGAAAGACAGAAAATGGAAGTATGGAATGGGGCTGGATATGAAAACAACTTTAGAAAAAAATTCATTTTTCAGATTTGAGGTGTATGATGATGTAACAGCTTCCGGAGAATTCAACAGAAAACTCTGGAATTTCAAGATGAGAATGATGAACTTCGGGAATAATCTAAACAACGACAAATATTTTCACTTCAAAGGAATGTCCTTATCTTATCTGAATGACATTACCAACGGGCTTACCATGGCTCTTGCTGTAAGAAGAAATACGGAAGAGGCTGAATTTGATTATCAGTTCAGGGACAGAGGGACTTCTTACCGAAATTTCAATACACTTTTCACCTTAAAGTATTCTCCGAATTCTACCAATATTATGACTCCGCAGGGAAAATCTCTGATTGACCAGAAATACCCTGAGCTGTATTTTAATTACGAACAGAGTTACAAAATACTGCAGGGAGACTTTAATTATTCCCGTTTTGATGCGCTGTTTGTTCATAACTTCAAAACACCGATCGGGACTACAGGATTCCGACTGTACGGAGGTCTTGTTCTGGGTGGGGCACCTATCTGGAAAAACTTTACGATGAACGGACTGGCTTCTCCGGGTAAAGATTTTAATTTTAACCTTACTTCTTACCTTGGGTTTGCAACACTGGAGGGAGGAAAATACTATAATGACAGATTCGTAGCCTATTACTTCACACACAAACTTCCATGGTATTTCAAAAGTTTTGGGCACAATGTTTCCAGTTTTGATTTTGTGTTAAGAGGAACTATCGGAGACATGAAGCACCCTGAATACCACCAGTTTAAATTCAGAAAACTTGATCACCTTTACCAGGAAGTAGGTTTGGAATGGAACAATTTCCTTTCCAGTTATTTTAACCTGGGCTTATTCTACAGGGTGGGTTATTACGCAACACCTCATTTCAGGGAAAATTTTGCGATCCAGTTCAAACTTAAGTTTCTTGAGTTTTAA	MKRGLLLLFFLLSIWGYSQSKIKVVDDASQKPVFNAKVSCNNTVIGYTDQQGILEFKTSCKNIDIDADSYQKETITVESSIEVSLLKKSAKTTNIEAVVIEDKSDPRALEILKKVNKLFKENSPKSLGSYSYKSYEKISLDIDEDSLSQFNQYFNDLNIFKKKREKDSLNNITARKIFSKSKLFLWERAQEFLYSKKYGEKINILDNRISGLKQPIYEMIALQQSNRDVVPEQLKPENRGLYRFFLSDTVTLDGRKNFVIRFREVNYKKLDRKRKYNGAIYVDTETYGVKKIENFSKNKNEGIITSTWVFYNNKWFLAHEKAKLKMGKMAMDDKVHPDDKKDKKSFGTYAFLTSKYFDFESPIEENPKDFRGYTFSVKNIDGHSLDQYRTEPLTDREENTYKTIDSLGKKYKIDSKAQILSGLLNGQIRVGSVDFAVDEIVNYNSYEGFRLGLKAKLNENFNPYFSPDYYFAYGVKDRKWKYGMGLDMKTTLEKNSFFRFEVYDDVTASGEFNRKLWNFKMRMMNFGNNLNNDKYFHFKGMSLSYLNDITNGLTMALAVRRNTEEAEFDYQFRDRGTSYRNFNTLFTLKYSPNSTNIMTPQGKSLIDQKYPELYFNYEQSYKILQGDFNYSRFDALFVHNFKTPIGTTGFRLYGGLVLGGAPIWKNFTMNGLASPGKDFNFNLTSYLGFATLEGGKYYNDRFVAYYFTHKLPWYFKSFGHNVSSFDFVLRGTIGDMKHPEYHQFKFRKLDHLYQEVGLEWNNFLSSYFNLGLFYRVGYYATPHFRENFAIQFKLKFLEF				NA	NA	NA	NA	NA
BMS003_00734	237			hypothetical protein	ATGCAGAAAATCGAAATCAAAGCAGAACAGTTTTTTGAGTTATTAAAATTAAAAGACACTCCGATGTGGGAGATTTTCTCACAGATGATTGACGGAAATGAAAAGGAAATCATCTTTTTAGACAATGAAAATAAGATCCTTTTTACTTATATTTTACCTTCTGCACAGGAAAAACTGGAAGAAGACAGAAAGGAGTTTTCTAAACAGTTCTCAGAAAAACTGGCTAACTTCAATTAA	MQKIEIKAEQFFELLKLKDTPMWEIFSQMIDGNEKEIIFLDNENKILFTYILPSAQEKLEEDRKEFSKQFSEKLANFN				NA	NA	NA	NA	NA
BMS003_00735	1470			hypothetical protein	ATGAATAAAAATTATGTTTTTTCTCTGCTTGGGCTCTTCTTATTTGCCTTTGGAAACGCTCAGAATTATAAGAAGCCTTTAATCTCTGCCATCAAAGAAGCAGATCTTCGTACGGATATGTATCAGCTGGCGGCAGATCAGTTCTGGGGACGTGAAGCCGGAACGCTGGATGAGTTGAAAGTTTCTATGTGGCTAGCAGATAAAGCCAAAGAAGCCGGAATGAAACCGGCCGGAGATAACGGAACTTTTTTCCAGTTTTTTGAGATGTACAGACATCAGGTCATTCCACAAAGCAGCCTGAAAATTGGAGATAACAATTTAAAATTATGGAAAGACTTTTTAGTTGCTGAACCTGTAAATGCTGCTGTAGATGCTGAAATAGTATATGCCGGAAACGCAGAACCCGAAGATCTTGCCAAACTGAACATCAAAGGAAAAGTTCTTGCCATAAACGCTTCCGACAAAAATATATCAAAAGATATGACCCTTTTTGTGAGAAGATATCCGGGGTTTGTAAGAAATAAATATTACAATAAAGCTTATGAACTGGGAGCTAAAGCCATTATTTTCATTACCGATGATATTTCTGAGCAAAGCTGGGTAGAAGTGCTGCCTCAAATGACGAGAGGAAGCTACGGTGTGGAAGGATTAAGAGAAAAAATCACGAATAATATTCCTGTTGTATGGATCAAAAGAGAAAATGCAGCCTGGGTAAAAAACAATCCTAACGCTTCTCTGAACCTGATCACTGAAACCTACAAATATCCGTCCGTTAATATCATAGGAAAAATAGAAGGTACAGATCCTGTTCTCAAAAACGAATATGTTTTGCTGAGCGGGCATCAGGATCATGACGGGATCCGACATCCTGTAAAGAACGATACCATCTACAACGGTGCTGATGATAACGCAAGTACCTGTGTTGCCATGCTGGCAATGGCCAGAGCTTATAAAAAACAACCGGGAAAAAGAAGTATTCTTTTTGTTTTTCATGGAGCTGAAGAGAGAGGTTTGCTGGGTTCAAGATGGCATGCATCCCACCCCGTTGTTCCGAAAGAGAACATTGTAGCCGTTCTGAACGGTGATATGATCGGGAGAAATGATAACAATGAAGCTGCTTTACTGGGTGGAAATGCTCCTCACAAAAATTCTGAAGAATTGGTAAAAATGGCTGAAGATGCCAATAATGAAAGTACAAAATTCAAATATCTGAAAGATTGGGATTCTCCAAGCCATGCAGAGTATTTCTATTTCAGAAGTGATCATCTTCCTTATGCTAAATTAGGAATTCCTGCCATATTCTTCACCAGTGTACTGCACGACCAGTATCATACTCCACAGGATGAATCTGAAAATATCAATTACAAAAAGCTGTATAAAATGACCGAATGGATGTACAGAACATCCTGGAAAGTAGCTAATGAGGCAGAACGCCCGAAGGTCATCCCGAATTTTTCGCTTGAAAGATAA	MNKNYVFSLLGLFLFAFGNAQNYKKPLISAIKEADLRTDMYQLAADQFWGREAGTLDELKVSMWLADKAKEAGMKPAGDNGTFFQFFEMYRHQVIPQSSLKIGDNNLKLWKDFLVAEPVNAAVDAEIVYAGNAEPEDLAKLNIKGKVLAINASDKNISKDMTLFVRRYPGFVRNKYYNKAYELGAKAIIFITDDISEQSWVEVLPQMTRGSYGVEGLREKITNNIPVVWIKRENAAWVKNNPNASLNLITETYKYPSVNIIGKIEGTDPVLKNEYVLLSGHQDHDGIRHPVKNDTIYNGADDNASTCVAMLAMARAYKKQPGKRSILFVFHGAEERGLLGSRWHASHPVVPKENIVAVLNGDMIGRNDNNEAALLGGNAPHKNSEELVKMAEDANNESTKFKYLKDWDSPSHAEYFYFRSDHLPYAKLGIPAIFFTSVLHDQYHTPQDESENINYKKLYKMTEWMYRTSWKVANEAERPKVIPNFSLER				NA	NA	NA	NA	NA
BMS003_00736	1263	ilvA	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGATGAAAGAGGAAATAAGTTCCTCCGTTTTAGAGCATGTCTATAAAGCGGAGGAACGATTAAAAGATGTCGTGGTAAAAACACCTTTGGCTGTCAATAATAATTTGTCAGCGATTTATGAATCAAATATTCATTTTAAAAGAGAAGACCTTCAAAGGGTAAGATCCTATAAAATAAGAGGAGCCTATAATAAAATGGCAACCATGTCTGAGGAAGAACTTTCAAAAGGTGTTGTTTGTGCCAGTGCCGGTAATCATGCGCAGGGTGTTGCTTTTGCATGTAAGACAATGAAGGTGAAAGGAACGATTTTTATGCCTTTGCCAACACCGGGACAAAAGCTTGAACAGGTGAAAATGTTCGGTGGCGAATATATTGACGTTATCCTTTTCGGAGATACTTTTGATGCCGCAAAAGATGCTGCGATGAGGTTTTGCAAAGATCATAACAGTGTATTTATTCATCCTTTTGACGATCCGGCTATCATTGAAGGACAGGCCACAACGGCACTAGAGATTCTGGAGCAGTCAGAGGGTCTGGTTGATTATCTTTTTGTTCCGATAGGCGGTGGTGGACTGGCCGCAGGTGTTTGTACGGTATTTCAGCATCTGTCTCCACAAACAAAGATTATTGGGGTAGAACCCTCCGCAGCAGCAAGCATGAAAAAAGCCCTTGAAAAAGGAAAACCTGTTCTTCTCGAAAAGATAAGCCGTTTTGTAGACGGAGCAGCCGTACAGCAGGTAGGAGACCTCACTTTCGAACGCTGTAAAAACATCCTCTACGATATGGCTACGGTAGACGAGGGACTTGTCTGTGAAACCATACTTTCTCTGTATAATAAAGATGCTATTGTAGTGGAACCCGCAGGAGCACTTTCAGTAGCAGCTTTAGAAAAGTATAGAGAAGAAATAAAAGGAAAAAATGTAGTGTGTATTATCAGCGGAAGTAATAATGACATTACCCGTATGGAAGAGATCAAGGAAAAAGCGCTGCTGTATGCGGGGTTAAAGCATTATTTCCTGGTTAGATTTCCCCAGCGTCCAGGGGCCTTGAAGGCTTTTGTAATGGATGTATTAGGGCCTGATGATGATATTACCTATTTTGAATACACCCAAAAAAATTCAAAAGAAAAAGGAATTGCAGTGGTAGGAATTGCCGTTAAGCAAAACAAAGATTTCACCCCTTTGATCGATAAGATGAAGCAGTATGATTTCTTTGTCAACTACCTGAACAATGATCCTTCTCTGATGAATTTGCTTATTTAA	MMKEEISSSVLEHVYKAEERLKDVVVKTPLAVNNNLSAIYESNIHFKREDLQRVRSYKIRGAYNKMATMSEEELSKGVVCASAGNHAQGVAFACKTMKVKGTIFMPLPTPGQKLEQVKMFGGEYIDVILFGDTFDAAKDAAMRFCKDHNSVFIHPFDDPAIIEGQATTALEILEQSEGLVDYLFVPIGGGGLAAGVCTVFQHLSPQTKIIGVEPSAAASMKKALEKGKPVLLEKISRFVDGAAVQQVGDLTFERCKNILYDMATVDEGLVCETILSLYNKDAIVVEPAGALSVAALEKYREEIKGKNVVCIISGSNNDITRMEEIKEKALLYAGLKHYFLVRFPQRPGALKAFVMDVLGPDDDITYFEYTQKNSKEKGIAVVGIAVKQNKDFTPLIDKMKQYDFFVNYLNNDPSLMNLLI	PGPT0001960_3015	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
BMS003_00737	1047		COG0059	Ketol-acid reductoisomerase (NAD(+))	ATGGCAAAATTGAATTTTGGAGGAGTAGAGGAAAACGTAGTAACAAGAGAAGAATTTCCGTTGGATAAAGCTCAGGAAGTATTAAAAGATGAAGTAGTAGCAGTAATCGGGTATGGAGTACAGGGACCCGGGCAGGCTTTGAACCAGAAAGATAACGGAATTAATGTGATTGTGGGACAGAGAAAAAACTCCAAATCATGGGATAAAGCAGTAGCAGACGGATTTGTACCGGGAGAAACTTTATTTGAAATCGAAGAAGCTCTTGAAAAAGGAACCATTATCTGCTATCTTCTGAGTGATGCCGCACAGATAGAATACTGGCCGAAAGTAAAACAACATCTTACCCCAGGAAAAGCATTGTACTTCTCTCATGGTTTCGGAATTACATTCAGCGAGCGTACAGGAATTGTTCCCCCAGCCGATGTAGACGTATTTTTGGTAGCACCAAAAGGTTCAGGAACATCATTAAGAAGAATGTTTTTACAGGACAGAGGTCTGAACAGCAGTTTTGCCGTATATCAGGATGCTACAGGAAAAGCCAGAGAAAGAGTAACCGCATTAGGTATCGCGATTGGAAGCGGATATCTTTTTGAAACCGATTTTAAAAAAGAGGTATACAGCGATCTTGCCGGAGAGCGTGGAACATTAATGGGAGCTGTACAGGGAATATTTGCCGCTCAGTATGATGTGTTGAGAAAAAATGGCCACAGCCCTTCAGAAGCTTTTAACGAAACCGTAGAAGAACTGACTCAGTCATTAATGCCTTTAGTAGCAGAAAACGGAATGGACTGGATGTATGCCAATTGCAGCACAACCGCTCAGAGAGGGGCTTTAGACTGGTGGAAGCGTTTCAGAGATGCTACTTCGCCTTTGTTTGAAGAACTGTATGACAACGTAGCCAAAGGAAACGAAGCACAGCGTTCCATCGACAGCAACAGTAAACCAGATTATCGTGAAAAACTGGAAGCCGAACTTACAGAGTTAAGAGAAAGTGAAATGTGGAAAGCTGGTAAGACGGTGCGTAGCCTGAGACCCGAAAACAATTAA	MAKLNFGGVEENVVTREEFPLDKAQEVLKDEVVAVIGYGVQGPGQALNQKDNGINVIVGQRKNSKSWDKAVADGFVPGETLFEIEEALEKGTIICYLLSDAAQIEYWPKVKQHLTPGKALYFSHGFGITFSERTGIVPPADVDVFLVAPKGSGTSLRRMFLQDRGLNSSFAVYQDATGKARERVTALGIAIGSGYLFETDFKKEVYSDLAGERGTLMGAVQGIFAAQYDVLRKNGHSPSEAFNETVEELTQSLMPLVAENGMDWMYANCSTTAQRGALDWWKRFRDATSPLFEELYDNVAKGNEAQRSIDSNSKPDYREKLEAELTELRESEMWKAGKTVRSLRPENN	PGPT0008735_1244	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
BMS003_00738	282			hypothetical protein	ATGAAAACAGATCATAAAGAATACACCATTACGGCGTATACAGAAGATTATTTAGGATTGATCAGCCGCATCAATGCTATTTTTTCAAGAAGAAGAATTTCTATGGTAACCTTCAATGTAGGGCCTTCGGAAATAGAAAAAGTAAAAAAGTTTGTCATCGTAATCAGAGAAACAGAAGATTCTGTTCAGAAGATCAGCCGACAAATGGAAAAACAGGTAGACGTTCTGGAAGTACATTATCACAGAACTCCATACCTGACGGCAGTAGAATATGCCAGTTAA	MKTDHKEYTITAYTEDYLGLISRINAIFSRRRISMVTFNVGPSEIEKVKKFVIVIRETEDSVQKISRQMEKQVDVLEVHYHRTPYLTAVEYAS	PGPT0008205_4133	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
BMS003_00739	1725	ilvB	COG0028	Acetolactate synthase large subunit	ATGGAAAACCTGAATATATCAACAGAAATACAATTGAGCGGAAGCCGGATCATCCTTGAAGCGTTTCTTAAGGAAGGAGTGAAAACCGTTTTCGGATATCCGGGAGGTGCTATTATTCCTATTTATGATGCCCTTTACGACTATAAAGAGAACCTGAAACATATCCTTGTCCGTCATGAGCAGGCAGCAGTACATGCCGCACAGGGCTTAGCAAGAGTCTCAGGAGAAGTCGGGGTTGTATTGGCAACCAGTGGTCCCGGAGCTACCAATCTTGTAACTGGTTTGGCAGATGCACTTTTGGATAATACCCCTTTGGTATGTATCACAGGACAGGTTTTTGAACACCTTCTCGGAACTGATGCTTTTCAGGAAATAGATGTAATGAATGTCACAAGCCCGGTTACCAAATGGAATTATCAGGTTACTGATGCCAATGAGCTTCCCGAAGTATTGGCGAAAGCATTCTACATTGCGAAATCAGGCCGTCCCGGTCCTGTATTGATTGATGTTACTAAAAATGCTCAGCTGCAGTCTGTTGCTTATAAAGGATATTCGCCATGCGATTCACTGAGAAGCTATAAACCGGATCCGGATCCATGTTTGGAAAATATTGGAAAAGCTGCTGAGCTGATCAATAATGCAGAAAGACCATTCATCATAGCAGGGCAGGGGATTATGCTGGGAAAAGCTGAAAAAGAGTTTTTACAGTTTGCTGAAAAATCAGGGATTCCGGTAGCATGGACGGTTTTAGGAATGAGTGCTATTCCCACCAATCACCCGCAAGCTGTAGGAATGGTAGGTATGCACGGAAATTACGGTCCGAATATACTAACCAATGAATGCGATGTTTTGATTGCTGTCGGGATGAGATTCGATGACCGTGTGACCGGAAGACTGGATCAATATGCAAAACAGGCCAGAATTATTCACCTGGATATCGATAACGCGGAGATTAATAAAAATGTAAAAGTGGATGTTCCGGTTCTTGGAAACTGTAAACATACACTTCCTCTTCTTACGGAAAGGATTGCAAAAAGAAAACATGATGACTGGCATGGAAAATTTAAAAATTGTCATGAAATTGAAAGTATCAACCTGATCCATACAGAGCTTTACCCTGAAGAAGGTGAAATTACTATGGGAGAAGTTATCCGTTACCTGAATGAAATGACAAAAGGAGAAGCAATTATTGTAACCGATGTGGGACAACATCAGATGGCAACATGCCGCTACTCACAATTCAAGCATTCCCGAACCAATGTCACAAGTGGGGGGTTAGGGACAATGGGATTCTGTCTTCCCGCAGCAATAGGAGCTTCTTATGCAGAAACCAATTATCCTGTTATTGCGGTGATGGGTGACGGAGGAGCTCAGATGAATATTCAGGAACTGGGAACCATTATGCAGTATCACCCGGAAGTTAAAATATTAATTCTTAATAATTGCTATCTGGGAATGGTAAGACAGTGGCAGGAGCTGTTTCACGAAGAAAGATACTCATCAGTAGATATTCAGAGTCCCGATTTTGTTCAGGTTGCAAAGGGATATAATATCTCGGGAAAGAAAGTGTCTGATAGGGAAGACCTGAAGTGGGCACTCCGTGAAATGCTTGATCACAAAGGATCTTTTCTCCTTGAAGTAATGACAGGAAAAGAACATAATGTATTTCCGATGATTCCTCAGGGAAAAAGTGTTTCGGAGATTGTATTAAATAATAAAGCTTAA	MENLNISTEIQLSGSRIILEAFLKEGVKTVFGYPGGAIIPIYDALYDYKENLKHILVRHEQAAVHAAQGLARVSGEVGVVLATSGPGATNLVTGLADALLDNTPLVCITGQVFEHLLGTDAFQEIDVMNVTSPVTKWNYQVTDANELPEVLAKAFYIAKSGRPGPVLIDVTKNAQLQSVAYKGYSPCDSLRSYKPDPDPCLENIGKAAELINNAERPFIIAGQGIMLGKAEKEFLQFAEKSGIPVAWTVLGMSAIPTNHPQAVGMVGMHGNYGPNILTNECDVLIAVGMRFDDRVTGRLDQYAKQARIIHLDIDNAEINKNVKVDVPVLGNCKHTLPLLTERIAKRKHDDWHGKFKNCHEIESINLIHTELYPEEGEITMGEVIRYLNEMTKGEAIIVTDVGQHQMATCRYSQFKHSRTNVTSGGLGTMGFCLPAAIGASYAETNYPVIAVMGDGGAQMNIQELGTIMQYHPEVKILILNNCYLGMVRQWQELFHEERYSSVDIQSPDFVQVAKGYNISGKKVSDREDLKWALREMLDHKGSFLLEVMTGKEHNVFPMIPQGKSVSEIVLNNKA	PGPT0008185_4239	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
BMS003_00740	1683	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGTTAAATAAATATTCAAAAACATTCACGCAGAACAGTGAACAGCCCGCCGCTAAAGCGATGTTGTACGGGATAGGATTTACAGAAGAAGATATGCACAAAGCTCAGGTCGGAATTGCCAGTATGGGATATGACGGAAACACCTGCAATATGCATTTGAATGATCTGGCTCAGGTGGTAAAAAAAGGAACATGGAACCATGGGTTAGCCGGACTGATTTTTAACACCATCGGAGTAAGTGACGGAATGAGTAACGGAACAGATGGAATGCGCTATTCTCTGGTAAGCCGTGATGTAATTGCAGACAGTATCGAAGCGATTTGCGGAGCTCAATATTATGACGGATTGATCGCATTGCCAGGCTGCGACAAAAATATGCCGGGAACCATCATTGCAATGGGAAGATTAAACAGACCATCCATCATGGTATACGGAGGAACAATTGCTCCCGGCTGCTATAAGGGTGAACAGCTTAACATTGTTTCTGCTTTTGAAGCGTTGGGGAAAAAGATTGCGGGAGAAATTACAGAAGAAGATTTTGATGGAGTTGTGAAAAATTCCTGTCCCGGAGCTGGCGCATGTGGCGGAATGTATACGGCCAATACAATGGCTTCTGCCATAGAAGCATTAGGAATGAGCCTTCCATACTCTTCTTCCAATCCGGCTTTAAGCAAAGAAAAACAGGAAGAATGCCTTGAAGCAGGAAAATATCTGAAAGTATTACTGGAAAAAGACATTAAACCTTCGGATATCATGACCAGAAAAGCTTTTGAAAATGCGTTGCGAATGATTGTTATTCTCGGAGGAAGTACCAATGCGGTTTTACATTTTATAGCTATGGCAAAAAGTGTGGGTGTACCGCTTACTCAGGATGATTTCCAGAAGATGAGTGATAAAACGCCGGTACTGGCAGACCTGAAACCAAGTGGAAAATACCTGATGCAGGATCTGTATGAACATGGAGGAATACCATCCGTAATGAAATACCTTTTAAATCAAGGATTATTACACGGAGATTGCTTAACAGTAACTGGAAAAACAGTAGCAGAGAATTTAGAAAATGTTCCCGATCTGGATTTTAATACTCAAAAAATCATAAAACCTCTTTCAGAACCTGTAAAAGAGACAGGACACCTGAGAATACTATACGGAAACCTTGCTGAAAAGGGAAGTGTGGCCAAAATTACAGGAAAAGAAGGAGAACGTTTTGTGGGAAAAGCCCGTGTATTTGACGGTGAAAAAAATCTGATCAAAGGAATTCAGGATGGAACCGTACAGCATGGAGACGTCATTGTTATCCGTCATGAAGGTCCAAAAGGAGCTCCCGGAATGCCGGAAATGCTGAAACCTACCAGTGCACTAATTGGAGCAGGTTTGGGAAGCAGTGTCGCTTTGATTACAGACGGAAGATTTAGCGGAGGAACCCATGGTTTTGTAGTAGGGCACATCACTCCGGAAGCTCATGAAGGAGGTCTGATCGCCTTTGTAAACAATGATGACCTGATTGAAATTGATGCTGTAAATAACACCATACAGCTTAAAGTTTCGGAAGAAGAAATAGAAAGAAGAAAGAAAGGATGGCAAAAACCATCTCTTAAAGTACAGAAAGGATTGCTTTATAAATATGCATTAACAGTATCATCAGCGGCAGAAGGCTGTGTAACGGACGAAATCACTCAATAA	MLNKYSKTFTQNSEQPAAKAMLYGIGFTEEDMHKAQVGIASMGYDGNTCNMHLNDLAQVVKKGTWNHGLAGLIFNTIGVSDGMSNGTDGMRYSLVSRDVIADSIEAICGAQYYDGLIALPGCDKNMPGTIIAMGRLNRPSIMVYGGTIAPGCYKGEQLNIVSAFEALGKKIAGEITEEDFDGVVKNSCPGAGACGGMYTANTMASAIEALGMSLPYSSSNPALSKEKQEECLEAGKYLKVLLEKDIKPSDIMTRKAFENALRMIVILGGSTNAVLHFIAMAKSVGVPLTQDDFQKMSDKTPVLADLKPSGKYLMQDLYEHGGIPSVMKYLLNQGLLHGDCLTVTGKTVAENLENVPDLDFNTQKIIKPLSEPVKETGHLRILYGNLAEKGSVAKITGKEGERFVGKARVFDGEKNLIKGIQDGTVQHGDVIVIRHEGPKGAPGMPEMLKPTSALIGAGLGSSVALITDGRFSGGTHGFVVGHITPEAHEGGLIAFVNNDDLIEIDAVNNTIQLKVSEEEIERRKKGWQKPSLKVQKGLLYKYALTVSSAAEGCVTDEITQ	PGPT0001875_4319	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
BMS003_00741	873	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	ATGTATTACAACGACGACACTACCATCTACTTTGACGGAAAATTTATGAAAGCGAAAGATGCCGGAACAGACCTTTATGGACAATCACTTCACTATGGTTACTCTGTTTTTGAAGGAATTAAATCTTACAGCACAGATCAGGGTACCAAAGTCTTCAAAGCGAAAGAACATTATGAAAGGCTAAAAAGATCAGCAGAACTGATGCATATTCCTTTCGATTATTCTGTAGATCAGCTCACAGAGCTTACTTACGAGCTTCTTGATCGTAATGGTTTTACAGATGCCTATATCCGCCCGTTGGTCACGTGTTCTCCCAATATGTCCCTTTCAAAAGGACAAAAATCTTACCTCTCACTTCTAGCCTGGGAATGGAATAATGGCTATCTGGCAGATAAAATGAAAATTATGACTTCACCCTTTCAACGTCCTAATCCTAAAGCTTTCAAGGTGGAAGCCAAAGTAGGAGGACATTATGTAAACTCCATATTAGCCTGCCAGGATGCTAAAGATAAAGGGTATGATGAAGCGTTGGTTCTGGATGAAAATGGCAATGTTGCCGAGAGTTCCGGTGCCAATGTTTTCTATGAAAAAGATGGAGTTTTATATACTCCGGGCAAAGGAAGTATCCTTCCGGGAATCACAAGACAGACCGTTTTTGAAATCTGCGAAAAGCTTGATATTCCGGTGAAAGAAACTTTCTTTAAACCGGAAGAAATGCGAGGGGCAGACGCTGGTTTTTTCTGCGGGACAGCAGCAGAGATTGTTGCGCTGGATTCGCTTGACGATGTTCCATTTACGAGAAACTGGGAAGATACGGCAAGCGGAAGAGTGCAGCAGGCGTATTTGAAATTGGTAAGAGTTCTGTCATTGTAA	MYYNDDTTIYFDGKFMKAKDAGTDLYGQSLHYGYSVFEGIKSYSTDQGTKVFKAKEHYERLKRSAELMHIPFDYSVDQLTELTYELLDRNGFTDAYIRPLVTCSPNMSLSKGQKSYLSLLAWEWNNGYLADKMKIMTSPFQRPNPKAFKVEAKVGGHYVNSILACQDAKDKGYDEALVLDENGNVAESSGANVFYEKDGVLYTPGKGSILPGITRQTVFEICEKLDIPVKETFFKPEEMRGADAGFFCGTAAEIVALDSLDDVPFTRNWEDTASGRVQQAYLKLVRVLSL	PGPT0008860_6699	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS003_00742	867	folP		Dihydropteroate synthase	ATGCTCTCAAACCCTCCAACGCTCCAACCCTCCAATGCTCCCACCTACTCAATCAACTGTAACGGCCGATTAGTACAACTGGACACTCCAAAGATCATGGGAATCCTCAATATGACCCCGGATTCTTTCTCTGATGGTGGACAATTTAATAATGAAAAATCTGCATTGAAACATGCTGAAAAACTGTTGAAGGAAGGAGCTGAAATATTGGATATCGGACCCCAGTCTACACGTCCCAATGCCGTTTTTTTAAATGCTGAAGAAGAAATAAGCAGAATTGGAACTCTTATTTCCCTGATCAAAAAAGAATTTCCGGAAGCGCTGATTTCCCTTGATACTTTTTATGGAGAAACAGTGAAGTTCGGATTCAATGAAGGAATTGATCTGATTAACGATATTTCAGGCGGTCAGTATGATCCAAAAATGTTTGCTGCTGCGGCTGAAACTAAGCTTCCCTATATCCTGATGCATGTAAACCCTTCCTACGAAACTATGCATGATAAAATAAAATTCGAGGATATTACGCTGGAAGTGAACCAATATTTTTTCAAAAAAACAAAAGAACTGTTAGAAAAAGGAGTCATTGACATTATTCTCGATCCAGGTTTTGGCTTTGGAAAAACTGTAGAAGATCAGATGAAAATGATTCATGAAGTTGAATATCTTGGATTCGGAAAATACCCTCTTTTGATAGGTATTTCCAGAAAATCATTTATTTATAAGCCTCTCGGGAAATCTCCTTTGGATATTAATGAAGAAACACAGCAGCTCCACATGAAAGTATTGGAGCAGGGAGCAAAAATTGTAAGGGTTCATGATGTGGCTTCAGCAAAGGAAACGCTGACTTATTTTTTACGAAAAAAATAA	MLSNPPTLQPSNAPTYSINCNGRLVQLDTPKIMGILNMTPDSFSDGGQFNNEKSALKHAEKLLKEGAEILDIGPQSTRPNAVFLNAEEEISRIGTLISLIKKEFPEALISLDTFYGETVKFGFNEGIDLINDISGGQYDPKMFAAAAETKLPYILMHVNPSYETMHDKIKFEDITLEVNQYFFKKTKELLEKGVIDIILDPGFGFGKTVEDQMKMIHEVEYLGFGKYPLLIGISRKSFIYKPLGKSPLDINEETQQLHMKVLEQGAKIVRVHDVASAKETLTYFLRKK	PGPT0007915_1957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
BMS003_00743	567			hypothetical protein	ATGCTAAAAACATCAGTACAGTTCGAGAAAATTATCAGTCAGTGCCGTGATCTTTTCGGTAAAAAATTGCAGGATTATGGTGCAGCATGGAGGGTTTTAAGACCGAGCTCCATTACGGATCAGATTTATATTAAAGTGAACAGAATCCGCACACTGCAGATGACTGATAAAAAAATGGTGGATGAGAGTGAGGAAGATGAATTTATTGCTATTGTGAACTACTCTATCATTGGACTTATCCAGCTTGAGAAAGGTCTTTCCAATGATTTCAATGAAAATAAGGAAGAAATTTTGGGTCTGTATGACCGATATGCCAATGAAGCAAAGGCTTTGATGGAAAGAAAAAATCATGATTATGGTGAAGCCTGGAGAGATATGAGAATTTCTTCGATTACGGATCTTATTTATCAGAAAGTATTGAGAACTAAGCAGATTGAGGATAACCAGGGACAAACTATTGTTTCAGAGGGGCTTGATGCCAACTATTTTGATATGCTGAATTATGCTGTCTTCTGCCTGATCAAGTTCTCGGAAAAAGAAAATCAATTCGAACCCAAAACTATTTAA	MLKTSVQFEKIISQCRDLFGKKLQDYGAAWRVLRPSSITDQIYIKVNRIRTLQMTDKKMVDESEEDEFIAIVNYSIIGLIQLEKGLSNDFNENKEEILGLYDRYANEAKALMERKNHDYGEAWRDMRISSITDLIYQKVLRTKQIEDNQGQTIVSEGLDANYFDMLNYAVFCLIKFSEKENQFEPKTI				NA	NA	NA	NA	NA
BMS003_00744	1110			hypothetical protein	ATGCTCAAAGGTTTATTACGTTTTATTATTGCTGTTATTTTTATCCTTTCAGGCTTTGTAAAAGCTGTGGATCTGGTAGGTTTTTCTTTCAAAATGGAAGAATATTTTGCTCCTCCGGTTTTCAACATGCCGTTTTTAGAAAAGTTTGCCCTGCTGTTTTCGATTATCGTTGTGGTACTGGAGCTTTTCCTGGGATTTATGCTGCTGCTTAAATTAAAGCTTAAGTTTACCTTATCCATATTAATTGCGCTTTGTGTTTTCTTTGGATTCCTTACGTTCTATTCTGCTTATTTTAATGTGGTAACAGACTGTGGATGCTTTGGAGATGCTATTAAATTTACGCCCTGGCAGAGCTTCCTTAAAGATGTTGTCCTTTTGATAGGTCTTATTATTCTTTTTGTTCTGTACAGAAAAGATTTCCGTAAAAAAGACATATACGGAATGGCTCAAAAAGAGTCTTCCAACAAATTTAAATACATTCTTTTAATTTTATTTTCTTTGGGCATGATCTACGTGATGGCTCAGGGAATTATGCATGAACCGATCATTGATTTCCGTGATTATAAAATAGGAACAGACATTAAGGCTGAAAAAGGAAAAATTGAAAAAAATCCTTCTGAATATAAGACTTTCTATTCTCTTAAAAATCAGAAAACAGGGGCTGTTGTAAAAGTAAATCAGGATGACTATATCAAAAAAACAGAATACTGGGCAGAAGGTTCTCCATGGAAAATTGAGGAAGGGAAAAATGAATCTGTACTGACCAAAGAAGGCTACAAGTCTGAAATTGTGAAATTTAAGATTGAAGATACTAACGGAATGGAAATTACCAATGAGATCATCAATGCACCAAAAGCTATTTTGGTGTTTTCTTATCATCCGAAAGATGTTTCTGCTGATCTGCTTCAGAAGGTGGAAGCTAAGGTAAATACTCAGAAAGGTGCTCTTATCTATGGAATTTCTACCTATCCAGATACCTTTAAGACTATTAAAAATGCAATGATGGATGCAACTGCCATCAAAACCATAGCAAGAAGCAATCCGTTTGTGCTGATTCTTGAAAACGGAAAAATTATAGATAAACAGCCTGCAAAGGACTACGTTAATTAA	MLKGLLRFIIAVIFILSGFVKAVDLVGFSFKMEEYFAPPVFNMPFLEKFALLFSIIVVVLELFLGFMLLLKLKLKFTLSILIALCVFFGFLTFYSAYFNVVTDCGCFGDAIKFTPWQSFLKDVVLLIGLIILFVLYRKDFRKKDIYGMAQKESSNKFKYILLILFSLGMIYVMAQGIMHEPIIDFRDYKIGTDIKAEKGKIEKNPSEYKTFYSLKNQKTGAVVKVNQDDYIKKTEYWAEGSPWKIEEGKNESVLTKEGYKSEIVKFKIEDTNGMEITNEIINAPKAILVFSYHPKDVSADLLQKVEAKVNTQKGALIYGISTYPDTFKTIKNAMMDATAIKTIARSNPFVLILENGKIIDKQPAKDYVN				NA	NA	NA	NA	NA
BMS003_00745	348			hypothetical protein	ATGCAAAAATCAAATAAATCAATCGCCGGCTATCACTTATTAATGATCCTTTCTTCTGTAGACGGAGAGTTTGCTCCTGAGGAAGGAATGCTGGTACAACAATATCTGGCGGATGAATTTCCTTTCAGAATGAACCTTGACAATGAACTAGACACATTAGCTCTTTTGCAGCCTGAAGAATGGAAAGATCATTTTGAATTTCATGCAAGATGTTTCCATGAAGATTCTACAGAGGACGAACGTGTAAAATTTGTTCAGTTTGCCAAATCACTGATCAAAGCTGACAATAAAGTAACTGAAGAAGAGCATACGTTCTATGTTCTGCTGAAAAACCTTTGGGGACTTTAA	MQKSNKSIAGYHLLMILSSVDGEFAPEEGMLVQQYLADEFPFRMNLDNELDTLALLQPEEWKDHFEFHARCFHEDSTEDERVKFVQFAKSLIKADNKVTEEEHTFYVLLKNLWGL				NA	NA	NA	NA	NA
BMS003_00746	759	tpiA		Triosephosphate isomerase	ATGAGAAGAAAAATAGTTGCAGGAAACTGGAAAATGAACAAAAATGTAATTGATGCACAACAATTGATGATTCAATTACTAAGCTATAAAAACAACAATGCTACCAACTGTGAAGTTTGGATTGCTCCACCTGCATTATATCTAATGATGGCCAAAGATGTCTTTGAAAAGGATGAAATCGGGGTGTTTTCTCAGGATATGAGTGAGCATGAAAGCGGTGCATATACAGGTGAAATTTCGGCAGATATGCTGGAATCTGTTGACGCAACCGGATCTTTAATCGGGCATTCTGAAAGAAGACAATATCACGGAGAAACTGATTCTCATTGTAACAGAAAAATCAAACTAGCTCTTGATAAAGGTCTTATTCCTGTTTATTGTAATGGGGAAACTCTTGAACAAAGAAAAGCAGGTCAACACCTTGAAGTGGTAAAAAATCAGACTGAGGTAGCTCTGTTCACACTTTCTGCTGAAGAAATCAAAAAAGTAGTGATTGCTTATGAGCCTGTTTGGGCTATCGGAACAGGAGAAACTGCAAGTCCGGAGCAGGCCCAGGAAATCCATGCCCATATCAGAAACATCATCGCTTCAAAATACGGACAGGAAGTTGCTGACGAGGTTTCTATCCTTTACGGAGGTTCTGTAAAGCCGGATAATGCTAAAGAGATTTTCTCTCAGCCGGATATTGACGGTGGCCTTATCGGAGGGGCAGCTTTGAAATTGGAGGATTTCTCTAAGATCATTGAGGCATTCAACTAA	MRRKIVAGNWKMNKNVIDAQQLMIQLLSYKNNNATNCEVWIAPPALYLMMAKDVFEKDEIGVFSQDMSEHESGAYTGEISADMLESVDATGSLIGHSERRQYHGETDSHCNRKIKLALDKGLIPVYCNGETLEQRKAGQHLEVVKNQTEVALFTLSAEEIKKVVIAYEPVWAIGTGETASPEQAQEIHAHIRNIIASKYGQEVADEVSILYGGSVKPDNAKEIFSQPDIDGGLIGGAALKLEDFSKIIEAFN	PGPT0017995_3151	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
BMS003_00747	1434			hypothetical protein	ATGGTGAAATTTTTTATTTTCTTTTTTCCTTTATTAGTGTTTTCCCGGCAGAAAATTACCCCGGAAAATATTGAAAGACAGCTGAAAAGTTCTGAAACACTAATTTCTAAAGGACGTACTGATGCCTTTCTTAAAATAAATCTTGCAATATTAGAAGATTCTAAGAACATTGATTATCCAAGAGGCAAAGTTAAGGCCTGCTATAATTTGGCTATTGCTTATAACTGGCTTTATAAATATAACAGAAGCAACTACTATTTAAAATTAATGGAATCGGAGCTTAAAAATATAAATGAAGATGATGAAATAATTGCAATGAATATTCTGTACAGCAACAATTATTATGGAGTTAATATGTATGATGAAGCAATAAAAAAACTTAGGCAGAATTTAACACTGGTTAATAAAGTAAAAATAGATTCCAACAGATGTTATATAAAAAGTCTGGCATTCCTCGATATTGCTAAGAATTATAATAAAAAAAGGCGATATGACTCTGCTACCTATTATAATAAGAGAGCCATAGAAGAATTGAAAACTCAGAAAAAAATGAATTCAATTTTTGGTACAAATTTAAAAATTGGATTATTAAACCTGGCGGAAGTAAAGTTGGCACAGCATAAAATAGATTCCACTGAATTTTACCTTAGATCGGCAAAGTCACTACCTGTACGATTAGGTAGCCATGAGTATCAGACATTTAAAATATCAGGACAAATTTGTGAAGTGAGAAAACAATATGATTCAGCTATTGCAAACTATCAAAAGTCTCTGAACCTTGCTCACGAATTAAAGAACTGTAAGAGAATAGCAGAATTATACGCCCTGCTATCCAAGACCTACAAAAAAGCAGGACAGATAGATTCCAGTGAAGAATATTTACACAAACAGAATGTTCTTAATGACAGCATATATTTATTAGAAATAAAAAATCGAGAAGATACAGTAGCTTTGTTTATAAATGAAAAACAAAAACCTTTAAAGAATAGGAATAATATTCTGTCTTACATTATCATTATAGGAATTCTGTTTGTAATCGGCTTTACCTTATGGATCATAACTAAGATACGTGATGAGAACAAAATTTTCACCGTAAAAGAAGAGGAAGCTTTAATATTAAGCAAAAAATTGAATTTTGCTTTTGAAGAAGTAATACAATTGGCTAAAAGGAATGATTCTGAATTTTACATCCGTTTTCAGGAGGTTTACCCTGATTTTTTCACCAGATTATTGGCAATAGAACCAGATTTGCAAAGAAGTGAACTGAAATTCTGTGCCCTTCTGTTTCTGAATTTTTCTACAAAAGATATTGCTAATTATACATTTGTAAAGCCCCAATCTATACAGACCAGGAAAAACAGGATAAGAAAACGGCTGAATATTCCTTCTGATCAGGATATTTATACATGGATGAAGAAAGTTGGTGAGAAATAG	MVKFFIFFFPLLVFSRQKITPENIERQLKSSETLISKGRTDAFLKINLAILEDSKNIDYPRGKVKACYNLAIAYNWLYKYNRSNYYLKLMESELKNINEDDEIIAMNILYSNNYYGVNMYDEAIKKLRQNLTLVNKVKIDSNRCYIKSLAFLDIAKNYNKKRRYDSATYYNKRAIEELKTQKKMNSIFGTNLKIGLLNLAEVKLAQHKIDSTEFYLRSAKSLPVRLGSHEYQTFKISGQICEVRKQYDSAIANYQKSLNLAHELKNCKRIAELYALLSKTYKKAGQIDSSEEYLHKQNVLNDSIYLLEIKNREDTVALFINEKQKPLKNRNNILSYIIIIGILFVIGFTLWIITKIRDENKIFTVKEEEALILSKKLNFAFEEVIQLAKRNDSEFYIRFQEVYPDFFTRLLAIEPDLQRSELKFCALLFLNFSTKDIANYTFVKPQSIQTRKNRIRKRLNIPSDQDIYTWMKKVGEK				NA	NA	NA	NA	NA
BMS003_00748	1269			hypothetical protein	ATGAAAAAATTACTATGGTCTGTAGGGTTACTGACAGTATTGGTGTCATGTAAAAATGATGATGATACAACATTAATGAATCAGGATATTAATTATTCCAAACTGCCTCAGGAGTTTCCTTTTACAAAACCGGCTACAATAAACGGAGTAGACGTTATCAACGGAGGGTTTGGTTCGGGAGCAGCCGCTCATCCTACAAGAAAAGGTGAATTCTATGTCATTACAGATAGAGGGCCTAACACGGACTTTCAGAATGGGAAAAAATTCCTGACCCCAGACTTTACTCCAACTATTATGCATTTTAAGATCAATGCTGATGGGAATATAGAGGTCATCAAATATATTAAGCTTAAAAATCCATCCGGGCAGCCTATTACAGGTCTTCCCAATCCTGTTGGTATGGGAAGCACCGGAGAAGTGGCTTATGATGCTTCCGGAAATGTTTTAGGTACAGATCAGTATGGTCTTGACAGTGAAAGTATTGTTGCAGCAGCTGATGGTACATTCTGGGTTTCTGATGAATATGGTCCGCATATTGTGCATTACAGTGCAGATGGAGTAGAAATGGAGAGAATAAGCCCGATTGGGGTAAATACAGGAACCAGAAAGTTGCCGGCTGTTTTGGCAAAAAGAAGAGCCAACAGGGGGATGGAAGGACTTTGTATAACTCCGGACGGAAGAACACTGGTAGGAACAATGCAGTCTATGATGCTGGTGCCTAATAAAACACTGGCCACTAATACAACGCTTACAAGAATTGTAACCTTTGATATCATTACAGGGCAAACCAAACAGTTTTTGTATAGACAGGACGGAGGAGCTTCTGATTCGGTGTGTGATATTACAGCATTGACTAACAATGAATTTCTCGTAATCGAAAGAGACGGGAAATTTGGTTCTCAGGGAGGAATCAAGAAAGTTTACAGAATCAGCCTGAGTAATGCTACCGATGTAAATGGTGCTGATATTGCTGCTGTGGATGGTATGAAAGTGAATGGTAAAGCTTTGGAGCAATGTACATGGGATGAAATTAATAATGCGGGAATAAAGGCTGTTACAAAGACATTAGCAGTGGATCTGGTAGCCAAACTGGGTTATGAGCATGATAAGTTTGAAGGGATCGTTTATTTGGGAAATAATAAGTTAGCTGTTTTCAATGATGATGATTTTGGAGTAACAGATGATGGAAACGGAAATCCCAAAGCGAAGATTTTACCTAAGACAGGAAAAGTTGACAAAGGAACAATGTATGTAGTCGATATACAATAA	MKKLLWSVGLLTVLVSCKNDDDTTLMNQDINYSKLPQEFPFTKPATINGVDVINGGFGSGAAAHPTRKGEFYVITDRGPNTDFQNGKKFLTPDFTPTIMHFKINADGNIEVIKYIKLKNPSGQPITGLPNPVGMGSTGEVAYDASGNVLGTDQYGLDSESIVAAADGTFWVSDEYGPHIVHYSADGVEMERISPIGVNTGTRKLPAVLAKRRANRGMEGLCITPDGRTLVGTMQSMMLVPNKTLATNTTLTRIVTFDIITGQTKQFLYRQDGGASDSVCDITALTNNEFLVIERDGKFGSQGGIKKVYRISLSNATDVNGADIAAVDGMKVNGKALEQCTWDEINNAGIKAVTKTLAVDLVAKLGYEHDKFEGIVYLGNNKLAVFNDDDFGVTDDGNGNPKAKILPKTGKVDKGTMYVVDIQ				NA	NA	NA	NA	NA
BMS003_00750	1104			hypothetical protein	ATGAGGAAAATTTATCTTTTTTTCTTACTGTTTTCTTTGCAGTTATTGTCGGCCCAATTCACAGAAAATGACATTAAATTTTGGGTAGGAACAGGTTCTAAGAAGGCTTATTTTATTGCCGACTTTAATGACGACAGCACACCCAATTCTTATGCCTGGGGATATCGTTTTGACGGAAATAGCCTAAGCATGGAAGATATGATCACTGCTATTGCCGCCGCAGAGCCTAAAATGGAAATTGAAATACCGTCCGGATTTCTGTACAGCTTAAATTACAATCATCATACCCCAAGCCTTGATGACTATTGGTCTACTTGGTCAGGAAACACTCCTTCAACAATGGCGTTCAATAATGGAGTGAACAATGATCTTTTAATAGACGGAAGATGGTATGGAGCTTCATACAGCTTCTCCCCTCCTACCATGCCATCCACACCCGTTGCAGCTTACAGTTCCGCATGGTTTGTTCCATCTCAGATTACAAACTGGATTGGAACCGGAAATAATAAAAGTCTTGTAGTTATTGATTTTGGTACGGACAACACCAACGGAGATGCCAATTCTTTTGTTTTTGGAATAAAATATAATGGAAATATCACTGCAGAACAGGCTTTACAGCTAATTCAGTCTCATACTTCATATTTTAATTTTACATCAGCTAATAATCAGATTGCAGATTTATCATTGAATTCCTTTACAGGAAATACTTCCGGCTCAGACAGCTGGAAATTATACAAAGGAAAAGACTTATCAAGCTGGCAGGCGAAAACCGGTCTTTCTCAGATTCAGCTGAGCAACAACGATTGGTTCGGATTGAGTTTTGGATCCCGAAGACCATTTACCCCAACAGAAGCACAGCTCACTTTGAGCATTTCTTCTGTTGCAAAGAAAAAATTCAGCATTTATCCTAATCCGGCCAGTGACTTCATTCAAATTGAAACTACTGAAAAACTGAAAGAAGTAAATATTTATTCTGCCACAGGACAGAAGATAATGACTTCTCAGGTTACCAGGATTGATATTCATTCCTTACGTTCCGGAATTTATTTTGTAGAGATTAAAACATCTGGAAACTCTATCATACATAAAATGATTAAGAAATAG	MRKIYLFFLLFSLQLLSAQFTENDIKFWVGTGSKKAYFIADFNDDSTPNSYAWGYRFDGNSLSMEDMITAIAAAEPKMEIEIPSGFLYSLNYNHHTPSLDDYWSTWSGNTPSTMAFNNGVNNDLLIDGRWYGASYSFSPPTMPSTPVAAYSSAWFVPSQITNWIGTGNNKSLVVIDFGTDNTNGDANSFVFGIKYNGNITAEQALQLIQSHTSYFNFTSANNQIADLSLNSFTGNTSGSDSWKLYKGKDLSSWQAKTGLSQIQLSNNDWFGLSFGSRRPFTPTEAQLTLSISSVAKKKFSIYPNPASDFIQIETTEKLKEVNIYSATGQKIMTSQVTRIDIHSLRSGIYFVEIKTSGNSIIHKMIKK				NA	NA	NA	NA	NA
BMS003_00751	687	clpP_1	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGGACATTAAAAAGGAATTCAGAGACTTCTCTGTAAAACATTTAGGAAACAGCGGTTTGGCTACCGATCAGTATATGGGAATGTATGGACCAACGAATCTTACTCCGTACATCATGGAAGAAAGAAGATTAAACGTTGCTCAGATGGACGTTTTCTCTCGTCTGATGATGGACAGGATTATCTTTCTTGGAACAGGAATTGATGATCAGGTAGCAAATATTGTTACAGCTCAGCTTTTATTCTTAGAAAGTGCAGATCCTTCGAAAGATATTCAGATCTATATCAACTCTCCGGGTGGTAGTGTTTATGCAGGTTTAGGTATTTATGATACCATGCAGATCATCAAGCCGGATGTAGCAACAATCTGTACAGGTATGGCTGCTTCAATGGGGGCTGTATTATTGGTTGCCGGAGAAAAAGGAAAGCGTTCTGCGCTTAAACATTCAAGAGTTATGATTCACCAGCCTTCAGGAGGTGCTCAGGGAGTTGCTTCTGATATGGAAATCAACTTAAGAGAGATGCTGAAACTGAAGCAGGAGCTTTATGAAATCATTGCTCATCACTCAGGACAAACTTATGAATGGGTAGAAAAATCTTCTGACAGAGATTACTGGATGACTTCTGAAGAAGCTAAAGGCTTCGGAATGGTAGATGAGGTTTTACAAAGATCTACAGAGAAAAAATAA	MDIKKEFRDFSVKHLGNSGLATDQYMGMYGPTNLTPYIMEERRLNVAQMDVFSRLMMDRIIFLGTGIDDQVANIVTAQLLFLESADPSKDIQIYINSPGGSVYAGLGIYDTMQIIKPDVATICTGMAASMGAVLLVAGEKGKRSALKHSRVMIHQPSGGAQGVASDMEINLREMLKLKQELYEIIAHHSGQTYEWVEKSSDRDYWMTSEEAKGFGMVDEVLQRSTEKK	PGPT0014595_2340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS003_00752	1989	dnaG_1		DNA primase	ATGATTTCCAAACAGACCATTGATAAGATATTCTCCACAATCCGCGTTGAAGAGATTGTGGGCGAATATGTGCAGTTGAAAAGAGCAGGGTCTAATTACAAAGGACTCAGTCCCTTCCATGATGAAAAAACGCCCAGTTTTGTAGTTTCTGCCAGTAAGCAGATCTGGAAGGATTTCTCCACAGGAAAAGGAGGAACGGCGATCTCTTTCCTTATGGAAATTGAAAACTTTACTTATCCTGAGGCACTTCGCCATGCTGCCAAAAAGTATGGAATTGAAATTGAAGAAGATCAGCGTGAAATTTCTGAAGAAGCAAAAAATGCACAGACCGAAAAAGATCTTTTATATAAGATCCACGAGGTAGCCAATACCTATTTTCAGGAGATTCTTTGGGATGATAAGGAAGGCAGAAGTATAGGGCTTTCTTATTTTAAAGAGAGAGAACTTCGGGATGATATTATCAAAAAATTCCAGCTGGGATATTCTCCGGAGAAGAAAAATGCTTTTACAGCGTATGCCCTGGAAAAAGGATATACTAAAGAGATTCTTGAAAAATCGGGACTTTCTATTTTCCCTGAGAATACTCCCGCAGGGGTAGACCGTTTTAGAGAGAGGGTCATTTTCCCTATTCATAGTTTTTCCGGGAGAGTTTTAGGATTTGGAGCAAGAATTCTAAAGAACAATGTTAAAACCGCAAAGTACCTCAATTCACCGGAAACAGAGATCTATCATAAATCCAATGTTCTTTATGGATTAAACCAGAGTAAACAGGCTATTTCAAGGAAAAATGGCTGTCTTTTGGTGGAAGGATATATGGATGTGATTTCGCTCCACATGTCCGGAATTGAAAACGTGGTGGCAAGTTCAGGAACTTCCTTAACGACTGAGCAGATTAAACTGATTAAAAGGCTTACGGAAAACGTAACGATTCTTTTTGATGGTGATAATGCCGGTATCAAAGCCAGTTTCCGGAGTATTGATATGCTTCTGACAGAAGGGATGAACATTCGTGTTCTGCTTTTCCCGGATGGAGATGACCCGGATTCATTTGCCAGAAAACATCCGCAGGAATACGTTGAAAAGTACATTGAAAATGAAGCGATGGATTTCATCGACTTTAAAGCGGAAATCCTGTTAAAAGATATCGGAAATGATCCTATTAAAAAGGCTGAAGCCATCAGGGATATTGTAAAATCGGTTTCTTTTGTTCAGAATGCCCTGAAAAGAGAGGTTTATCTTAAAGAGGTTTCCAATAAATTCGGGCTTTCTGAGCAGAGTCTTTTCAATGAGCTGGATGTTCAGAAGCAGATTACACAGAATCAGACACATCATGTTCACCAACAGCAGAAGGAGAAAGCTGCAGCTCCGAAGATGGAGATTGTTCCTCTGGATAAGGAGAAAGAAGACCCTTTTCTGTATGATGTGCTGTTCATGGAAAACAAACTGGTAGATCATATGCTGATGTTCGGAGATATTATTCTGAAAAGGAGAAATGACCGGAATGAGGAATATCAGATCACCGTTATTGAAGAAATTCTTCATCATTTCGAAGAAGAGCAGTATACATTTTTAGTTAAAGAAAATGAGATCATTATCAATCAGGTAAGGGAAGGAATTCAGAAGGATGAGCTTAGAAGTGGAAACTTTTTTGTATCTTTTATGGATGAAGAGATTACCACAAAGGTTGTAGATGCTTTGATCCCGTTGGATGAGCTTGAAAATTGGGCTTCCAGAAATATTTATCCTCCTAATTATGGTGATAAAGTGGCAGATCAAATCCAGGGTGATGTTTTGCTGCACAAATACAGATATATTGATTATCTGATCAGGGAAACAGCCAAAGAACTTGATCAGTACAGCAGTACAGATGAAATAAAGTATTATGAGCTGATCAAAAAGATTACCCTGCTGAAACAGGCCTCCATAAGATTGAGCAATATCATTGAATATTCACCTATCAAAGGGATTTATGTAGATAGGAAAAGATAA	MISKQTIDKIFSTIRVEEIVGEYVQLKRAGSNYKGLSPFHDEKTPSFVVSASKQIWKDFSTGKGGTAISFLMEIENFTYPEALRHAAKKYGIEIEEDQREISEEAKNAQTEKDLLYKIHEVANTYFQEILWDDKEGRSIGLSYFKERELRDDIIKKFQLGYSPEKKNAFTAYALEKGYTKEILEKSGLSIFPENTPAGVDRFRERVIFPIHSFSGRVLGFGARILKNNVKTAKYLNSPETEIYHKSNVLYGLNQSKQAISRKNGCLLVEGYMDVISLHMSGIENVVASSGTSLTTEQIKLIKRLTENVTILFDGDNAGIKASFRSIDMLLTEGMNIRVLLFPDGDDPDSFARKHPQEYVEKYIENEAMDFIDFKAEILLKDIGNDPIKKAEAIRDIVKSVSFVQNALKREVYLKEVSNKFGLSEQSLFNELDVQKQITQNQTHHVHQQQKEKAAAPKMEIVPLDKEKEDPFLYDVLFMENKLVDHMLMFGDIILKRRNDRNEEYQITVIEEILHHFEEEQYTFLVKENEIIINQVREGIQKDELRSGNFFVSFMDEEITTKVVDALIPLDELENWASRNIYPPNYGDKVADQIQGDVLLHKYRYIDYLIRETAKELDQYSSTDEIKYYELIKKITLLKQASIRLSNIIEYSPIKGIYVDRKR				NA	NA	NA	NA	NA
BMS003_00753	408			hypothetical protein	ATGCAGTTCACCATCAATACAATCGAAGACTGGCAGGAAGTTGTTGACAGCATCGTTCCTCAATTACAACATAATATTCTTTTACTAAAAGGAAATCTTGGAGCAGGCAAAACAACTTTTACACAATTTTTGCTTAAGAATATAGGCAGCAAAGATGAAGTAAACTCTCCTACTTACTCTATTGTGAATGAATATAATACTGAAAAAGGAAAAGTATATCATTTTGATCTTTATCGTTTGAAAAACATCGAAGAGGTCTATGATATCGGGATTGAAGAATACCTGGACAATTCTTTTTTATGCATCATTGAATGGCCGGAAGTCTATGAGGAGGAGCTTTACGGTCTTAACTACCATACAATGAGTATTGTGAACACGGGTGAAAACAGAGAAATTTCATTCGATTAA	MQFTINTIEDWQEVVDSIVPQLQHNILLLKGNLGAGKTTFTQFLLKNIGSKDEVNSPTYSIVNEYNTEKGKVYHFDLYRLKNIEEVYDIGIEEYLDNSFLCIIEWPEVYEEELYGLNYHTMSIVNTGENREISFD				NA	NA	NA	NA	NA
BMS003_00754	1191	ald2		Alanine dehydrogenase 2	ATGAGTACAAATATTTTTACTCCTTTCACAGAAGAAGAATTAATGCCGAAAGAGGAAAAATTGGAGGTTATAAAGAAAGGAAAACAGTTCAGTATTGGAATTCCTAAAGAAACCTGTCTCAACGAAAGGAGAACCTGCATCACTCCTGACGCCGTACAGGTGTTGGTAGAGCACGGCCATGAGATCATTATTGAATCAGGAGCCGGACAAGGTTCTTTTTTTACAGATTTACAATACTCCGAATCCGGAGCAAAGATCACTAATGACCCTAAAGAAGCTTTCGGACAGGATCTTATCCTGAAGGTGAATCCTCCTACAGAAGATGAAATTGAATACATGAAACCTAATACTTATCTGGTTTCGGCACTTCAGATCAATCTCAGAGACAAGGAATATTTCTTAAAGCTTGCAGAGAAAAAAATAAACGCCATTGCTTTTGAATTTATTGTTGATGAATACAAACAGCTTTCTTTGGTAAGATTAGTAGGGGAAATTGCAGGAACTGTTTCTATTTTATATGCTTCTGAATTATTAGCCTTATCAAATGGTTTAATGCTTGGAGGCATCACAGGAGTAAGACCAGCGGAAGTTGTTATCCTTGGAGCAGGAATTGTAGGTGAGTTTGCTACAAAGGCAGCCATAGGTTTAGGCGCCAGTGTGAAGGTTTTTGACAACTCTTTATCAAAACTGAGAAGACTTCATACCATTGTAGACAGCCGTGTGCCTACTTCTATTATTGATCCTAAAGAACTCCGCAAAAGTTTAAGACGTGCAGATGTAGTGATCGGGGCACTTCCAAGATTGAACATGACACCCATTGTTACTGAAGACATGGTCATGAAAATGAAAAAAGGCAGTGTAATTATTGATATTACCATAGACAATGGCAAGGTGATTGAAACCTCAGAGCTTACTACTATGGAAGACCCTTACATTATCAAACATGGTGTTATTCACTGCGGACTTCCCAACCTTACATCAAGGATGCCAAGAACCACTACCAAGGCTATTTCGAATTTCTTCCTTTCCTATATTTTAAATTATGATGAAGAGGGTGGCTTTGAAAATATGCTGATCCGCAAAAACGAAATGAAGCAGAGCTTATATATGTACAAAGGAAGACATACCAAAAAGATCATCTGCGACCGTTTCGGACTTACCTACCACGATATCAATCTTTTAATTTTCTAA	MSTNIFTPFTEEELMPKEEKLEVIKKGKQFSIGIPKETCLNERRTCITPDAVQVLVEHGHEIIIESGAGQGSFFTDLQYSESGAKITNDPKEAFGQDLILKVNPPTEDEIEYMKPNTYLVSALQINLRDKEYFLKLAEKKINAIAFEFIVDEYKQLSLVRLVGEIAGTVSILYASELLALSNGLMLGGITGVRPAEVVILGAGIVGEFATKAAIGLGASVKVFDNSLSKLRRLHTIVDSRVPTSIIDPKELRKSLRRADVVIGALPRLNMTPIVTEDMVMKMKKGSVIIDITIDNGKVIETSELTTMEDPYIIKHGVIHCGLPNLTSRMPRTTTKAISNFFLSYILNYDEEGGFENMLIRKNEMKQSLYMYKGRHTKKIICDRFGLTYHDINLLIF	PGPT0020070_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
BMS003_00755	372			hypothetical protein	ATGAAAAAACTGAAATTTTATGCAATAGGCTTCGTTCCGGGGCTTTTGATCGTATTCTTTATTCTGAACAAAAAAGGAGCAAGCTGCAGCGGATATTTACCGAACAGCCGCGTAATTGCTGAAAGTCTTTCCAAAGAATTCAAATATTCTGAAGAGGCTAAAAATGCAATGACTACCTATAAGATTGATGAGAAATTTATAAAAGACAGCATCATTACCAACGGAAAAGTAGACTTTGACCGTAGTCATGCACAGAAAAAACCTTGTCCGGATTATCTTCTCATGTATCCTGAAAAAAATCCGTCTTACGAGATTACTTTCGAAAAATGTGAGGAAACCGTAACGGTAAACAGCCTTAAAAAGCTTAAATAG	MKKLKFYAIGFVPGLLIVFFILNKKGASCSGYLPNSRVIAESLSKEFKYSEEAKNAMTTYKIDEKFIKDSIITNGKVDFDRSHAQKKPCPDYLLMYPEKNPSYEITFEKCEETVTVNSLKKLK				NA	NA	NA	NA	NA
BMS003_00756	537			hypothetical protein	ATGTGCCGATATGCCATGATGGTTTACAAAGGTCACTATGCCTGTTTTAACTGCCAGAAAACATTCAAACGCCGCCACCTGAAAGATGTGGACAGAAATGCACAGGTCTCTGTAGAAGCCAAATGCCCCGAATGTGGGAATCTGATGGCTAATATGGGGCTTGATTTTAAATCACCGGCAAAAAATGACGATAAACAATGGGCTCACATCCGTGATCTGTATACTGTTGGCATCACTTTTCATTCGTGTGGATGCTCTGGCCCCGGATATATTCCTCAGGACAGGAAGGCAATTATTGATTATCTGGAAAAAATTCGCTCACAATATCTGCATGCACTGGTATTCTGGAGGTATCGCATAGAACCCGAAAACAAAAAAGAACATGGACTGGATTATCAAAAAAACAGTGGTCATTTATGGGCTGTCAACCGCAATGCTTTTAAGGAAACAGTGACCAACCAGGAAGGAATTAATTATTGGCTCAAAAGGATTAATGAGGTGGAGGAAAGACTCAGTATTATCAAAGCGGACAAATAG	MCRYAMMVYKGHYACFNCQKTFKRRHLKDVDRNAQVSVEAKCPECGNLMANMGLDFKSPAKNDDKQWAHIRDLYTVGITFHSCGCSGPGYIPQDRKAIIDYLEKIRSQYLHALVFWRYRIEPENKKEHGLDYQKNSGHLWAVNRNAFKETVTNQEGINYWLKRINEVEERLSIIKADK				NA	NA	NA	NA	NA
BMS003_00757	648			hypothetical protein	ATGAAGAATAGATTTTTATATGGAGTTTTCGTTGTATTGTGTGGTGTGGGTTCATTGAATGCACAGGAATTCAGAGGGTCATCTTCGTTTTTTTTTACAACAAAATCAGGAGATCCCATCAAGGTTGACAAGATGTTCAATGCAAAGGATACGATCAAAAATAATGACTTAAAACAACGTCTGAAACCTATTCAGGCTAATTTTAAGAGAATTAATGCCAACACAAAATGGACTTCCGTTAAAAAGAGAAATATAGAAGGAGAATCAGCTGAAGGGGGAGAGGTGATATTTTATTATACAGATCATCATTTGGAAAAACTTGTGGCCAGACATTATGGGGAAACGGGACAGATGCTGACAGAGTACTATCTGCTGAACGGACAGCTGTCTTTTGTTCTGGAGAAAAAGTACAGATATAACCGTCCGCTTTTCTATGATGATAAAACAATGAAGGATAATAATGATACGGAAGCTTTTGATTTCAAAAAATCTGAAATTACTGCCACCCGAAGTTATTTTGAAAATGGGAGTATCATTATGATTACTAATCATGGGGGACGTGAATCTGATATCAGTACAGGTTATCCATCTGAACAAGAGAAAAATTTAACTGAAGATTTTGAAAAACTCTTGAAACTGTCAGAATAG	MKNRFLYGVFVVLCGVGSLNAQEFRGSSSFFFTTKSGDPIKVDKMFNAKDTIKNNDLKQRLKPIQANFKRINANTKWTSVKKRNIEGESAEGGEVIFYYTDHHLEKLVARHYGETGQMLTEYYLLNGQLSFVLEKKYRYNRPLFYDDKTMKDNNDTEAFDFKKSEITATRSYFENGSIIMITNHGGRESDISTGYPSEQEKNLTEDFEKLLKLSE				NA	NA	NA	NA	NA
BMS003_00758	876			hypothetical protein	ATGAAAAACAAATTTTATTTATCATTATTTCTTTTCGTATCTGCTTTTGCATATACACAGGTAGGTATTAATACCTCTACTCCTGATCCATCAGCAGTATTGGACATTACTTCATCCAATAAAGGTATTTTAGGCCCAAGAATCAGTCTTGCGTCTGCTACCATGCAATTGGGTACAGCACCCAATGCAAACGGACTATTAGTATACAATACAGGGCCGGTTCTTAACCCTGGTTACTACTTTTGGAACGGAACCGAGTGGAGAGTTTTCAATACATCATCAGGAAATAATGGCGGTGGCGGAAATACTTTAGCTAATGTTGAAAGCATAGCCGTAATGGGGCCTTTGGTTTCCACAACAGACAATGGAAGAGCCGGGTATGCACTTTCTATCACCACACCAGATGGGAAATTTTCTGTAAGAACTTTCATACCTACAGCAAGTGCATTTTCTCAGGTAAATTTACAAATCAGAAATAACAGCACCGGAACAGTAGAAATCATCTCTAACGGGCATTACCTTTGGAGCGGAGCGGGAGGATATATGCAAAATCAATTAAGACTACCCAGCGGTTCTTGGGCTGGAGATAATGCAACTTCCAGCGCGAGTCTTATAGATGCTACAACAGGAGCAAGAATACAGACAGCAAGTACCAATCCATATTGGGGAGACCCGGAAACTTATGCCGGAGGTATGCCAGAGCAACGTCTCTACTCCTGGACTACAAATGACGGAAACGATAAGACTTTTTATAAACTTTATTATATGATGGGATCGTCTACCCCTACAAGTGCTGGAAATGCCACAACCTGCCCGGCTGGGGTATGTAATTCCACAAAAGCTTTTTTTACAATAGATCAGATCACAGCGCAATAG	MKNKFYLSLFLFVSAFAYTQVGINTSTPDPSAVLDITSSNKGILGPRISLASATMQLGTAPNANGLLVYNTGPVLNPGYYFWNGTEWRVFNTSSGNNGGGGNTLANVESIAVMGPLVSTTDNGRAGYALSITTPDGKFSVRTFIPTASAFSQVNLQIRNNSTGTVEIISNGHYLWSGAGGYMQNQLRLPSGSWAGDNATSSASLIDATTGARIQTASTNPYWGDPETYAGGMPEQRLYSWTTNDGNDKTFYKLYYMMGSSTPTSAGNATTCPAGVCNSTKAFFTIDQITAQ				NA	NA	NA	NA	NA
BMS003_00759	843	tyrC		Cyclohexadienyl dehydrogenase	ATGAAAATAAGTATTATTGGAGTAGGATTAATTGGTGGTTCGATGGCCTTGAAATTAAGAGAGAAAAACATCGCAAGCTTCATCTACGGAATCGATAACAATACACAGCATATCAGTGACGCATTGCAACTTAAGATCATTGATGTGGGAGTAGATCTTGAACATGGAATTAAAAATTCGGATCTGATTATCCTGGCTATTCCTGTAGATGCGGCCAGAAAACTATTGCCTTCTGTTCTTGACTTAGTAACTGACCAGCAGACGGTAATGGATGCAGGTTCTACAAAAGCAGGTATTGTAAATGCAGTAAAAGACCACCCTAAACGTTCAAGATTTGTTGCATTTCACCCGATGTGGGGAACAGAAAATAACGGTCCGAAATCCGCTATTGCTGAGAGTTTCTCCGGAAAAGCTGGTGTCATCTGCAACAAAGAAGAATCGGCTGACGATGCTCTGGCAACCGTTGAAAAAGTAGTCAATGCTTTGGATATGCACATGATTTATATGAATGCAGAAGATCATGATGTTCATACCGCTTATATTTCCCATATCTCCCATATTACATCTTACGCCCTTGCCAATACCGTATTGGAAAAAGAACGTGAAGAAGAAACGATTTTCCAGCTTGCCAGTTCCGGTTTTTCAAGTACCGTTCGTCTTGCCAAGTCGCATCCGGAAATGTGGGTTCCTATCTTTAAACAAAATAAAGAAAATGTGCTGGACGTTCTGAACGAACATATCTCCCAGCTCAGAAAATTCAAATCTGCCCTTGAAAAAGAGAATTATGAATACCTTGAAGAACTGATCACCAATGCCAACAGAATCAGAGGCATTTTAAGGTAA	MKISIIGVGLIGGSMALKLREKNIASFIYGIDNNTQHISDALQLKIIDVGVDLEHGIKNSDLIILAIPVDAARKLLPSVLDLVTDQQTVMDAGSTKAGIVNAVKDHPKRSRFVAFHPMWGTENNGPKSAIAESFSGKAGVICNKEESADDALATVEKVVNALDMHMIYMNAEDHDVHTAYISHISHITSYALANTVLEKEREEETIFQLASSGFSSTVRLAKSHPEMWVPIFKQNKENVLDVLNEHISQLRKFKSALEKENYEYLEELITNANRIRGILR				NA	NA	NA	NA	NA
BMS003_00760	1419	sdaB	COG1760	L-serine dehydratase 2	ATGGAATCAATATCGGTTTTTGAGATTATTAAAGTAGGAATAGGCCCGTCCAGTTCGCATACGATGGGACCTTGGAATGCAGCTGCTGCATTTATCAGGATTATAAAAAGAGAAAGATCAATAGAAGAAGTTAAAGAAGTTTTTCTTGAATTCTTTGGCTCACTCGCCAAAACGGGGATTGGGCACGGAACTGATATTGCAGGAATGCTGGGTTTGAATGGCGAAGATTTTAAGACGATCAATACTTCAAAAATTGATGAGAAAATTGATGAGATTAAAAATACTCAAACGATTAATCTGGGAGGGGAGAAAATTATTCCATTTGTATATGGACATCACTTGGTTTTAAATATGAAAAAGAGCCTTGATTTTCACCCGAACGGAATGATCTTCAGAGCTGTTTTCGAAGATGGAACAGAACTCGTGCAGGATTTTTATTCTGTAGGAGGTGGTTTTATTGCCAGTCAGGAAAAAAACTCTATCCAAAAGCAGTGTGTACGTACATTATATCCTTGTCATAAGGCTTCTGATATTGCAAGGTATTGTGAAAAGCTAGGGCTTGATAAAATGTCAGATTTGATCTTTATGAATGAAGAAAGCTGGAGAAGTCAGGAAGAAACGAGACAGGAAGCTCTTTACATCTGGCAGCAGATTAAAGAATGTATTTATAAGGGGGTCAATAAGGAAGGAGTTCTTCCGGGCGGACTGAATGTTTCCCGGAGAGCAGCAGGAATCAACAGAAAACTGTTAGGGGATAAAATTTATAAAAATAAAGATGAATGGTTCCAGCAAGTTGTAGACGCTGAAGAGAACTTTACCAATATCAATAAATGGATTGCCTGTTTCGCACTGGCAGTGAATGAAGAGAATGCCAGTTTCGGAAGGATTATTACAGCGCCTACCAATGGTGCGAGTGGGGTGATTCCGGCGGTATTGATGTATTCTCAGGCTTTCACACCATTTACCAATGAGGATGATATTGTAAGATTCTTGCTTGTGGCAGGAGAAATCGGGACATTATTCAAGAAAAATGCGACTATTTCTGCAGCGATGGGAGGATGTCAGGCTGAAATAGGGGTGTCTTCTGCAATGGCAGCTGCCGGACTTACAGAAATTCTGGGCGGAAGTGTAGGGCAGGTATTGATGGCGGCAGAAATTGCAATGGAGCATCACCTTGGATTAACCTGTGACCCTATCAAAGGATTGGTACAGATTCCTTGTATCGAAAGAAATACAATGGGTGCTATGAAAGCGATTACAGCTGCTAATATTGCGTTGGAAAGTGATCCTACCAAGGCAAAAGTAACATTGGATGAGGTGATTCTTACCATGTGGGAAACTGCTCAGTCTATGAGTGACCGTTTTAAAGAAACTTCCGAAGGCGGGCTGGCAATTGCTGTAAACGTTCCGGAGTGTTAA	MESISVFEIIKVGIGPSSSHTMGPWNAAAAFIRIIKRERSIEEVKEVFLEFFGSLAKTGIGHGTDIAGMLGLNGEDFKTINTSKIDEKIDEIKNTQTINLGGEKIIPFVYGHHLVLNMKKSLDFHPNGMIFRAVFEDGTELVQDFYSVGGGFIASQEKNSIQKQCVRTLYPCHKASDIARYCEKLGLDKMSDLIFMNEESWRSQEETRQEALYIWQQIKECIYKGVNKEGVLPGGLNVSRRAAGINRKLLGDKIYKNKDEWFQQVVDAEENFTNINKWIACFALAVNEENASFGRIITAPTNGASGVIPAVLMYSQAFTPFTNEDDIVRFLLVAGEIGTLFKKNATISAAMGGCQAEIGVSSAMAAAGLTEILGGSVGQVLMAAEIAMEHHLGLTCDPIKGLVQIPCIERNTMGAMKAITAANIALESDPTKAKVTLDEVILTMWETAQSMSDRFKETSEGGLAIAVNVPEC	PGPT0001975_475	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS003_00761	579			hypothetical protein	ATGGAAACATTAATTAAAAGCATTCTGCAGCATATCCAATTAAGTCCGGAAGAAATAACAGCCTGTAAAAGTTTCTGGACAGAAAAAACATTGGAAAAAGGCGATTTTCTATTAAGAAATGGAGAAATATGTCGTCATGACAGTTATATTATTTCGGGAGTTCTAAAAGCTTTTTGCATTAATGAAGAAAACGGGAATGAAGAAATTCTCTTTTTAGCCATTGATCATTGGTGGGCAACAGATATCGCCAGTTTTTCAAAACAAAAACCTTCCATTTATAATATTCAGGTTGTAGAAAAAACAAAACTCTTACAGATCAGCCATCAGTCTTTTCAAAAAATGCTGAAGGAAATTCCATCCTTAGAAAGGTATTTCAGAATCATTCTGGAAAGTTATCTTGGAACGCTGGAAAAAAGAGTTGTATTTAATCATATGCACAAAGCAGAACAGAAGTATTATGATTTTCTGGAAACTTATCCCGACATTTCCTCCAGGGTCCCTCAATATCTGATTGCTTCCTATCTCGGTGTAACCCCGGAATTTATCAGCAGAATCAGGAAAAAAAATAAATCCTCTTGA	METLIKSILQHIQLSPEEITACKSFWTEKTLEKGDFLLRNGEICRHDSYIISGVLKAFCINEENGNEEILFLAIDHWWATDIASFSKQKPSIYNIQVVEKTKLLQISHQSFQKMLKEIPSLERYFRIILESYLGTLEKRVVFNHMHKAEQKYYDFLETYPDISSRVPQYLIASYLGVTPEFISRIRKKNKSS	PGPT0000515_2922	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_00762	624	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGAAAATACTGATTATTAATGCCAGTGTAAGAAATGAAAGATCTTACAGCAGAAAACTGACCCAGCTTTTCGTTGAAAACTGGAAAACCAGATATCCTCTTGATACTTTTACCCACAGAGAAGCAGGAACTGAAACTATTCCCCATATTGATGAATCCTGGATCGCAGGAGCATTCAAAAAACAATCAGACAAGACCGAAGAAAACCAAAAGCCTTTACAACTCAGTAATGAACTGGTTAAAGAGCTCAAAGAGCATGACGTCTATGTGATCGGAACTCCTATGTACAACTGGTCTATTCCTTCCGGATTGAAAGCCTATATTGATCAGGTAATGCGGATTAATGAAACCTGGAAGTTCAAATCTGGAGTTCCGGATGGTGATTATGTGGGACTTCTGGAAAATAAAAAACTTTTTATCCTCTCAACCCGCGGTGATACCGGATATGGAGAAAATGAAAAGAACGGGCACATCAATTTTCAAACAACTTATCTGAGACATATTTTCGGAATTATGGGCGTAAAAGATGTTACCATTCATTCCTTAGATAATGAAGAATTTGGAGGTGAAGTCTTTGAAAATTCTAAAAATAAAATCTTCGAAGCGATTGAATCCATTCAATAA	MKILIINASVRNERSYSRKLTQLFVENWKTRYPLDTFTHREAGTETIPHIDESWIAGAFKKQSDKTEENQKPLQLSNELVKELKEHDVYVIGTPMYNWSIPSGLKAYIDQVMRINETWKFKSGVPDGDYVGLLENKKLFILSTRGDTGYGENEKNGHINFQTTYLRHIFGIMGVKDVTIHSLDNEEFGGEVFENSKNKIFEAIESIQ	PGPT0006790_1598	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS003_00763	1344	amt		Ammonia channel	ATGAAAGTAGGATTAAAATGGATCGTTTCATTTTCTGTTATCACACTAGTCGCAATAGGAGGTTTATTCTGGAATCCGGGTGCAGATATTCCTGATATGGGAGAATTTTTAAGCGAAGATAAAATTGTAGGCGCTGATGTTGCCTGGATTTTGGCTGCGGCAGGACTTGTTCTGCTGATGACACCAGGGCTTTCTTTCTTTTATGGAGGAATGGTTGGTAAAAAAAATGTAATTTCTACCATGCTGCAGAGTTTTATTGCTTTAGGAGTGATCTCTATGGTTTGGGTGGTCGTAGGTTTTTCTCTGTCTTTCGGTGAATCTCTGGGGATTACCATTGCCGGAAAACATTACGGTATTATTGGAAATCCATTAAGTTATCCTTTCTTTAACGGAGTGGGAAATCTTCCTCATAAACTGATGGCACCTACTATTCCTTTTATTCTCTTTGCTCTTTTTCAGATGAAATTTGCCGTTATTACTCCGGCTATTATTACCGGATCTTTTGCAGAAAGGGTTCGTTTTATCTCCTATTTGTTATTTATCGTTCTTTTCAGCATCTTTATTTATACCCCTCTTTGTCATATGGTGTGGCATCCTGATGGTCTTTTGAACAAATATTTTGGAGTAAAAGACTTCGCAGGAGGAACCGTAGTGCATATGAGTGCAGGCTTTGCAGCACTTGCCGGAGCTTTGGTGGTTGGAAATAGAAAAAATCCGCATCATGAGCCTTCCAATATTCCGTATGTGCTTCTGGGAACAGGAATGCTGTGGTTCGGGTGGTTTGGATTCAATGCAGGATCTGCATTGAGTGCTTCTGCCTCTGCTGCTACCGCTTTTGGAACAACTACCATTGCTTCTGCTTCAGCAATGATGACCTGGATCTTTTTCGACAGAATCAATGGAAGAAGCGTTTCTGCTTTGGGAGCTTGTATTGGAGCCGTTGTAGGGTTAGTGGCCATTACTCCCGGATGTGGTTTTGTAAGTATTCAGGAAAGCCTTTTTATAGGATTTATTACCGCGATAGTTTCTAATCTGATGGTGAACTGGAAAGTTCTCAAGAAAATAGATGATACGCTTGATGTTTTTGCCTGCCATGGAGTAGGAGGAATTATGGGAATGATTCTTACTGCTATTTTTGCTCATGGTGAAAAAGCGAGCTTATTACATGGAGGGCTTGAGGTTTTTCTTCATCATATGGCAGCATTAGTTTTGGTTTCTGCTTTCACATTCTTTGGCTCACTGCTTTTGTATAAGATTACCAATTCTATCATTACCCTCAGAGTTTCTGAAGAGTCTGAAAATAAAGGGCTTGACCTGTCTCAGCATGAGGAAAGTTTCAGTTGA	MKVGLKWIVSFSVITLVAIGGLFWNPGADIPDMGEFLSEDKIVGADVAWILAAAGLVLLMTPGLSFFYGGMVGKKNVISTMLQSFIALGVISMVWVVVGFSLSFGESLGITIAGKHYGIIGNPLSYPFFNGVGNLPHKLMAPTIPFILFALFQMKFAVITPAIITGSFAERVRFISYLLFIVLFSIFIYTPLCHMVWHPDGLLNKYFGVKDFAGGTVVHMSAGFAALAGALVVGNRKNPHHEPSNIPYVLLGTGMLWFGWFGFNAGSALSASASAATAFGTTTIASASAMMTWIFFDRINGRSVSALGACIGAVVGLVAITPGCGFVSIQESLFIGFITAIVSNLMVNWKVLKKIDDTLDVFACHGVGGIMGMILTAIFAHGEKASLLHGGLEVFLHHMAALVLVSAFTFFGSLLLYKITNSIITLRVSEESENKGLDLSQHEESFS	PGPT0000840_3749	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS003_00764	648			hypothetical protein	ATGAAAATTTATGTCGTAAGCGGTCTGGGGGCAGACTTTAAGGTCCTAGAAAGAATAGAGTTTCCCAAACACTGTGAATTGATTTTTATAGATTGGCTCATACCCGAAAAAAATGAGCCTTTTGATGCTTATGTTAAAAGAATGGCAGACAAGGTGGATGAGTCTGAACCGTTCTGTCTCTTAGGTTATTCTTTTGGAGGAATTATGGTGCAGGAAATTAATCAATTGAAGCCGGCAGAGAAAGTAGTGATCCTTGGAAGTATAAAATCTGACAAGGAAAAATCCAAATTTATAAAGACAGGTGAAATTACCAAAATTCCAAGAATATTGCCTGTAGGTTTGTTCAACGACAAGGCAGCTAATGCATATGCTGTTATCCGTAAGCTTTTTGATCCAAAAAATCCAAAACTTCTGCAGTACTTTAAAGTACGGGATCCATATTATCTGAAATGGTCTGTAGAAAAAGTCTCTGAATGGAAGTTTGAGGAAAATCCCAATGTAATCCAGATTTTGGGTGATAAAGATATTGTTTTTCCGATTCGCTATTCCAATCCGGATTATGTGGTGAAGGGAGGAACACACCTTTTTCCCGCTACAAAATCTAAAGAAGTTTCCAAAATTCTAAAAGAAGTATTTGATGAAAAATAG	MKIYVVSGLGADFKVLERIEFPKHCELIFIDWLIPEKNEPFDAYVKRMADKVDESEPFCLLGYSFGGIMVQEINQLKPAEKVVILGSIKSDKEKSKFIKTGEITKIPRILPVGLFNDKAANAYAVIRKLFDPKNPKLLQYFKVRDPYYLKWSVEKVSEWKFEENPNVIQILGDKDIVFPIRYSNPDYVVKGGTHLFPATKSKEVSKILKEVFDEK				NA	NA	NA	NA	NA
BMS003_00765	117			hypothetical protein	ATGAAACCGGGAAGCTTCCCACAAATCTTTACTGACCAGAATCATAAAAAAATGAGCCACTCTGATGAACGGCTCACTTATACTGATCAAATAGATGATCTTATTTTTTCTTCTTAG	MKPGSFPQIFTDQNHKKMSHSDERLTYTDQIDDLIFSS				NA	NA	NA	NA	NA
BMS003_00766	627	yceI_1		Protein YceI	ATGAAAAGATTACTATTGTTTGCTATGGTGTGCGCAAGTATATCATTTGTTTCTGCCCAAAAGAAATTTGATAAAGTTTCAAAAGTGACTTCGTCAGAAATCAGATGGTGGGGGTATAAGGTGGTAAAAACTGAAGAAACTTCCCACTCAGGAACTGTAAAGCTAAAGAGCGGAAAATTCAACTTTGACCATACGGTTCTGGTAGACGGAGAGTTTGTAATAGATATGAGAAGTATGATGGCGGGAGATGTTTCTGATGAAGATCAGATCAAGCTTACCAATGATCTGAAAAGCTCCAATTTCTTTGAAGTAAAAAAATTCCCTGTTGCAAAATTCCATTTGACTAAAATTATTCCTTTGGCAAACAGCGAATACAATTCTACAGTATACGGTGACCTTACCCTTAAAGGCGTTAGAAAAACAATTTCCTTCCCTGCAAATGTATATGTTACTCAGTTTACTACATCTATTGAATCTGCAAAATTCTCTCTGAACAGAAGAGACTTTAAAGTGTTCTATCAGTCTTCATTAAAAGATTATTTTATTAAGAACGAAATGGATATCCAGTTCAAAGTTTCTACGGAAATGCTGGATAACGAAAACAGAGTTCCTAAGAAGAAAAAATAA	MKRLLLFAMVCASISFVSAQKKFDKVSKVTSSEIRWWGYKVVKTEETSHSGTVKLKSGKFNFDHTVLVDGEFVIDMRSMMAGDVSDEDQIKLTNDLKSSNFFEVKKFPVAKFHLTKIIPLANSEYNSTVYGDLTLKGVRKTISFPANVYVTQFTTSIESAKFSLNRRDFKVFYQSSLKDYFIKNEMDIQFKVSTEMLDNENRVPKKKK				NA	NA	NA	NA	NA
BMS003_00767	567	yceI_2		Protein YceI	ATGAAAAAAATATTTTTATTAGCAGTTTTAGCTGGTGGGTTAGCATTCGGGCAGTCAAAGAAAGTAGTAGCTTCTGATGTTCACTGGTGGGGATATAAAGTGGCAAAATCTGAGGCAAGCTCTCACGACGGTACAGTGAAGGTAAAATCAGGGGATATGATAATGAAAGGAAACCAGTTGGTAGGCGGAAGCTTTGTATTGGATATGACTTCTATTACTTCTACTGACCTTACAGGAGAATATCAGCAAAAATTAAACGGACATCTTAAGAATGGTGATTTCTTTGAAGTTGAAAAATTCCCTACGGCCAGTTTCAAAATTACAGGAGTAAAGAAAAATAACGATAAAATCTACAGCTCTCTTGTAACAGGAAACCTTACTGTAAAAGGAAAAACAAGCCCAATCACTTTCCCTGCCAAGATTTCTTACAGCAAAGGAGTTGTAAGTCTGGTATCAAACAAATTCTCTTTCGACAGACAAAAATTCGATGTAGCATACAAATCTACAATGCAGGATGTTTTTGTGAAAGATGATATTGATATGCTTGTAAAGGTAACTGCTCAATAA	MKKIFLLAVLAGGLAFGQSKKVVASDVHWWGYKVAKSEASSHDGTVKVKSGDMIMKGNQLVGGSFVLDMTSITSTDLTGEYQQKLNGHLKNGDFFEVEKFPTASFKITGVKKNNDKIYSSLVTGNLTVKGKTSPITFPAKISYSKGVVSLVSNKFSFDRQKFDVAYKSTMQDVFVKDDIDMLVKVTAQ				NA	NA	NA	NA	NA
BMS003_00768	1050	glk	COG0837	Glucokinase	ATGATTCTGAATCCAAAATTTCCACTTTATTTACCAGGAGTAGAGAACAGTAATAATGATAATGTTTCTATCATTGGAGCAAGTCTCCGTGAAGATATAACAATCTTAGGCTATTTCGTTTCCGGGAACGGAGGTCTTGAGATAAAAGTACAACATATATATGCAACCAAAGAATATTCTTCCTTTTCAGATATTTTAAAGAAGTTTATTCAGGATAATCAGCTTGAAAATGTAAAACGTCTTGGAATGGCTGTGCCGGGTCCTGTACTGGACGGTAAAAGTAGTCCTGCAAGATTGGGATGGCATTTAGATGTTGCTGAATATGCCCGTGATTTCGGGTTTGAAAAAGTTGACATGCTGAATGACCTTGAAGCTTCAGCTTACGGAATGGCTCTTCTTGAAGATAATGATCTTGAAGCTATTTATACGGGTGGGCATCTTGAAAAAGGAAATGTAGCGGTTCTTGCTCCCGGAAACGGATTAGGAGAAGCTGGATATTTCTTTGACGGTAACTACCTGAGACCTTTCGCTACGGAAGGAGGGCATTCAGAATTTTCACCAAGAACCAATGTGGAAGTAGAATTTTACCAGTTCTTAAATAATATCTATGGTATTGTAAGCTGGGAAAATGTACTTTCCAAGTCAGGGTTATTCAATATCTACAGGTTTTTAAGAGATGTGAAAAGACATCCTGAACCGGAATGGCTGGGAGAGCGTCTTGCACAGGGGAATTTTGTAGAAGAATTGTATAAAGCTGCTGTAGAAGAAAATGTTTTGATCTGCAGAATTGCTTTAGACACTTTCCTTGAGTTTCTGGCAAGGGAAGCAAATAACCTTACATTAAAATTAAAAGCTACCGGAGGATTACTGATTGCGGGAGATATTCCACAGATGATCGCAGAATATATAGATAAGGCGAAATTCTATGAGAAATTCAAGATCAGTGATAAAATGGAGGAGATGCTCAGAAGTACTCCCATCTATCTGGTTAAGCAAAATCACACTGCATTAAATGGTATAGCACTTTATACAGCTTACTATCAGCTATAA	MILNPKFPLYLPGVENSNNDNVSIIGASLREDITILGYFVSGNGGLEIKVQHIYATKEYSSFSDILKKFIQDNQLENVKRLGMAVPGPVLDGKSSPARLGWHLDVAEYARDFGFEKVDMLNDLEASAYGMALLEDNDLEAIYTGGHLEKGNVAVLAPGNGLGEAGYFFDGNYLRPFATEGGHSEFSPRTNVEVEFYQFLNNIYGIVSWENVLSKSGLFNIYRFLRDVKRHPEPEWLGERLAQGNFVEELYKAAVEENVLICRIALDTFLEFLAREANNLTLKLKATGGLLIAGDIPQMIAEYIDKAKFYEKFKISDKMEEMLRSTPIYLVKQNHTALNGIALYTAYYQL	PGPT0017730_302	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
BMS003_00769	564			hypothetical protein	ATGAAAATGTTTAAACAGGCAATAGTACTGGCTGGTATTTTAACAGCAGGTATAGCAAGCGCCCAAAGTGCTCAAATGAACAATATGATCAAGGTAGGTGCAAATGTTGGTTTAGCAGTTCCCGCAGATAATCTTTCTGCTGCAGTGGGAGTGGATGTAGCTTATCAGAACCTTATTACACCAGGGTTCGGACTAGGTATTGCATCAGGATATACTCATTATTTTGGAAAAGAGAACAACGGATATAAAAATAATGATGTAGGAGTAGTTCCTGTAGCAGCTTTAATCCGAATTTACCCGAAACAAACCGGTTTCTATTTAGGAACTGATTTAGGATATGGATTTCTGGTCGGAGATAAAGCAGTAGCTTCAAATACTAATGTTGAAAGAGCAGGCGGAGGTTTCTACCTTAAACCGGAGATCGGATATCACAACAAAGACTGGAATTTCTTCGTACAATACCAAAAGGTTTTTGTAGGGACGAAGGGAGATTTGCCGGGTCAGGACTATAATGTGGGGAATATCGGAGTAGGATTCGGTTACAATATTCCATTAGGAAAGTAG	MKMFKQAIVLAGILTAGIASAQSAQMNNMIKVGANVGLAVPADNLSAAVGVDVAYQNLITPGFGLGIASGYTHYFGKENNGYKNNDVGVVPVAALIRIYPKQTGFYLGTDLGYGFLVGDKAVASNTNVERAGGGFYLKPEIGYHNKDWNFFVQYQKVFVGTKGDLPGQDYNVGNIGVGFGYNIPLGK				NA	NA	NA	NA	NA
BMS003_00770	1383			hypothetical protein	ATGGCAGCTGATTCATTATTAAAAAACAAGCATCTTCTCTGGCGGGCAGGTTTCGGTGTTGGAATTAATCAAATTGATGATTTGAAAAATAAAAACATTAAATCGTTGATCAATGAATTATTTAAAGAAGACCGTTTCAGCGAAATCACTTATGATACTCCCGATCCGGTTTCGGAAGCAGATTACATGAACAGCACTCTTCCTGCAGAAAAAAAGAAAGAAATGCAGCGGATCAACAGGATGCAGAATAATGAACTGAATCTGAATTTCCTGAACTCTATCGTTAACAGTAAGGAACAACTGAGAGAAAAAATGGCGTTTTTCTGGCATGGACATTTTGCATCAAGGGTAGTCAATCCAAGATTCAACAGGCAACTTTTAAATACGATCAGGAAAAATGCACTGGGAAACTTTAAAGACATGCTTTTTGAAGTAAGCCAGTCGCCGGCAATGCTCAGTTTTCTGAATAATCAGCAGAATAAAAAAGATCACCCTAATGAAAATTTTGCCCGGGAAGTCATGGAACTTTTTACTATGGGAAGAGGGAATTATACGGAAAAGGATGTAAGAGAAGGAGCCAGAGCTTTTACGGGATGGAGCTATGACAAGGAAGGAAACTTTAAAGAAAGAAAAAAACTGCACGATGAAGGCAGCAAAACTTTTTTAGGAAAAACCGGCAACTTTGATGGGAATGATGTTCTCAATATTGTTCTGGAACAAAAGGCGACGGCACAATTTATTACCACAAAGATTTATAAATTCTTCGTCAATGAAAAACCAGATCAGGAGATTATCAGTAAACTCAGCATCAATTTCTTTAACTCAGGATATGATATAAAAAAACTAATGACGGAAATATTCTCAAGCTCATGGTTTTATGATCAAAAAAACATCGGCAACCGGATAAAATCTCCTGTAGAGCTTATGGCAGGAATTATGAGAATCCTTCCTATGCAAATCCAGAATCCTGAAAACCTCATTGTTTATCAAAAGTTACTAGGTCAAATGCTTCTTTATCCACCCAATGTATCAGGATGGCCGAATGGAAAATCATGGATCGACAGCTCTACTCTGATGCTTCGGCTTCAGATTCCGCAAATATGGTCCGGGCTTCGCCCTTTGGAATACAGCCCCCGACAGGATGATGATATAGATATGGGCATGAAATCCCGTGAAACAGCTTTAAACAAAAGTTTTAAGAACCCGAATATCACCATCGACTGGAGCCGTATTGAAAAGCTTTTCGCCAATAAAAACTGCGAAGACTACCTTCTTCAGAACACGCAAAGTCTTGATATGAGCTCTGTGAAGAATTTTTCAGATAAGAGTATAAAAATGAATGTCATTAACCTGATGTCTACACCGGAATATCAGTTAATGTAG	MAADSLLKNKHLLWRAGFGVGINQIDDLKNKNIKSLINELFKEDRFSEITYDTPDPVSEADYMNSTLPAEKKKEMQRINRMQNNELNLNFLNSIVNSKEQLREKMAFFWHGHFASRVVNPRFNRQLLNTIRKNALGNFKDMLFEVSQSPAMLSFLNNQQNKKDHPNENFAREVMELFTMGRGNYTEKDVREGARAFTGWSYDKEGNFKERKKLHDEGSKTFLGKTGNFDGNDVLNIVLEQKATAQFITTKIYKFFVNEKPDQEIISKLSINFFNSGYDIKKLMTEIFSSSWFYDQKNIGNRIKSPVELMAGIMRILPMQIQNPENLIVYQKLLGQMLLYPPNVSGWPNGKSWIDSSTLMLRLQIPQIWSGLRPLEYSPRQDDDIDMGMKSRETALNKSFKNPNITIDWSRIEKLFANKNCEDYLLQNTQSLDMSSVKNFSDKSIKMNVINLMSTPEYQLM				NA	NA	NA	NA	NA
BMS003_00771	1185			hypothetical protein	ATGTTAATCAAAAGAAGAGAATTTCTTAAAATAAGTTCACTGGCCACCGCTTCTATGCTGATGCCTAATTTCTTAAAAGCCACGACACTTGATGAGGCTCTGAATCCTAATCAAAATATTCTGGTAGTCCTTCAGTTTACAGGGGGAAATGATGGTCTGAATACGATTATCCCGGCTAAAAATGACATCTATTTCAGGGAAAGGAAGACACTGGCTATCCAGGATTCTATGCCGTTGACAGATGAGGCAGGAATCAATCCGTCACTCTCCTATTTTAAAGAGCTATTCGATAATGGAGAACTGTCTGTAATGAATAATGTAGGATATCCCAATCCGGATAAATCTCATTTCCGAAGTATGGATATCTGGCACTCGGCAAGCAGAAGCGATCAGTTTCTTGAAACAGGTTGGCTGGGACGTTTTCTGGATGAAAAATGCTACCGCTGTGACCATCCTACTCAGGCACTGGAAGTAGATGACATGTTAAGCCTGGCCTTAAAAGGAAAAAATAATAAAGCTTTTGCCTTTAAAGATCCTAAAAGACTCTACCAAACCAGTCAGGAGAAGTATTTTAAATCTCTCTACGACCATCATCATGACGATGAAACAGTGTCTTATCTTTACCAGACTTTAGGTTCTACCATCCATAATGCCGATTATATTTTTGAAAAAAGCAAAGCCAAAAAGACAGAACAGACTTATCCCAATTCTCAGTTAGGAAAAGATTTCAAAACGGTTGCTTCTTTGATAAAATCTGATATCAATACTCAGGTTTACTATCTTTCTGTAGGAAGCTTTGATACGCACGTCAACCAGAATGAAAGACAGAAAAAATTATTTAACGATATCAACGAAGCAGTAAAATCATTTGTAACCGATATGAAAAGCAATGAACTTTTCAAAAATATACTGATCATGACATTTTCTGAATTTGGCCGTCGCGTAGCACAAAATGCCAGCAACGGAACAGATCACGGGACAGCCAACCAGATGTTCTTTATCAGCGGAAACCTTAAGAAAAAAGGACTGCTGAATGCGCTTCCTGATCTGCAAAACCTGAATGAAGGTGACCTCATCTACAAAGAAGATTTCAGAAAAGTATATGCTACGATTTTGAAAAACTGGCTTAAAGCAGATTCTTCAAAGGTATTGGGATGGAAAGATGGGATCTATGATTTTGTGTAG	MLIKRREFLKISSLATASMLMPNFLKATTLDEALNPNQNILVVLQFTGGNDGLNTIIPAKNDIYFRERKTLAIQDSMPLTDEAGINPSLSYFKELFDNGELSVMNNVGYPNPDKSHFRSMDIWHSASRSDQFLETGWLGRFLDEKCYRCDHPTQALEVDDMLSLALKGKNNKAFAFKDPKRLYQTSQEKYFKSLYDHHHDDETVSYLYQTLGSTIHNADYIFEKSKAKKTEQTYPNSQLGKDFKTVASLIKSDINTQVYYLSVGSFDTHVNQNERQKKLFNDINEAVKSFVTDMKSNELFKNILIMTFSEFGRRVAQNASNGTDHGTANQMFFISGNLKKKGLLNALPDLQNLNEGDLIYKEDFRKVYATILKNWLKADSSKVLGWKDGIYDFV				NA	NA	NA	NA	NA
BMS003_00772	1059			hypothetical protein	ATGACGACACAAGATTTTATAGGAAAAGAAAATTTCACCCTTCATACCCAAACGGTTTCAGAAAGCTGTCCGTCTAATATTGCCCTGATTAAATACTGGGGGAAATATGACCATCAGATTCCTGCCAACCCTAGTATCAGCTATACGTTAAATCATTGTAAAACAAATACTTCAATGGAATTTACAGCGGATGTACCCTTTTCAGTTCAAACCTTTCTTGCTGGAAATGAAGAAGTAAAGTTTGCTGAGAAAATTGAAAAATATTTCAGAAATATAGAGCCGTATCTTCCATGGATCTTAAAAGGGAAGTATGTGATCAGAACCGAGAACACATTCCCGCACAGCTCCGGGATTGCAAGCTCAGCTTCAGGGTTTGGAGCTATTGCTAAATGTCTGATGGCATTGGATGCCTCATTTACAGAAAAAATGTCTGAAGAAGAATCTTTGAAAAAAGCCTCATTTTTAGCAAGATTAGGAAGCGGAAGTGCATGCCGAAGCTTGTATAACGGACTTGTTGTTTGGGGGGAAACTAATGAATTAGAAGGAAGTTCAGATCTGTTCGGAGTACAGTATCCGGATGTTGAAATTCATGAAACTTTCAAAAACTTTAATGACTGGGTTTTATTGATTCATGAAGGTCAGAAAAGTGTTTCTTCAACGGTAGGACATGGTTTGATGAATACCAACCCTTACGCAGAAAGAAGATTTCAGGAAGCAAGAGAAAACTTTGTTCCAATGAAAGAGATTCTGAAAAATGGAGATATGGAAAGTTTTATCAAACTGGTAGAACATGAAGCGCTTACATTACATGCAATGATGATGATGAGTGATCCTGCTTTTATCCTGATGAAAACAGGAACATTGGAAGTCATCAATAAAATTTGGGATTTCAGAAAAGAAACCGGACATCCATTGTTTTTTACACTGGATGCAGGCGCTAATGTTCATCTTCTGTTCCCGAATAATGGTTCTGAAGAACAGATTAAAACCTTTATTGAAGCTGAATTATTACAACACACCCAAAAAAATGGAGTGGTGAAGGATGTGATGAAATTTTAA	MTTQDFIGKENFTLHTQTVSESCPSNIALIKYWGKYDHQIPANPSISYTLNHCKTNTSMEFTADVPFSVQTFLAGNEEVKFAEKIEKYFRNIEPYLPWILKGKYVIRTENTFPHSSGIASSASGFGAIAKCLMALDASFTEKMSEEESLKKASFLARLGSGSACRSLYNGLVVWGETNELEGSSDLFGVQYPDVEIHETFKNFNDWVLLIHEGQKSVSSTVGHGLMNTNPYAERRFQEARENFVPMKEILKNGDMESFIKLVEHEALTLHAMMMMSDPAFILMKTGTLEVINKIWDFRKETGHPLFFTLDAGANVHLLFPNNGSEEQIKTFIEAELLQHTQKNGVVKDVMKF	PGPT0007575_699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007575-mvaD-K01597	NA	NA
BMS003_00773	1770		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	ATGAATCTTGCAGAGGCAATTATCCTTAAAAATGTAGAAAAACATCCTATAAAAGCAGCCATCGGATTTAAAAAGAAAGATGCAGCCTGGAAAGAGCTGAGCTGGAAGAAATTCAGTGAAATAATTTTTAAAACAGCCAATGCATTAAAAGAATCCGGAGTTCAGGAGAATGACAGAGTGGCTATTTATTCAGACAATTCATCAGAGTGGATGATCATGGATCTGGCTTCAATGGCTATTGGTGCTGTTACAGTTCCTATCTATTCCACTAATAATGCTGAGCAGGCAGAGCATATCATTAATGATTCCGGCGCTAAAGCAGTTTTAGTAGGAAACCAGATGCAGTATGATGCCTGTCTTGAGCTTTTACATAAAGAAGAAAACAATCTGGAAACGATCATTATTTCCAAAAAAGCCGTGTGGATCAAGAAAGAATTCAACAGTTTCTATCTTGAAGACTTCATTGCTAAAGCTTCACAGGAGCTGGAAATCTGTAAGAAGGAATATGATGATACAGCAACATTGATCTACACTTCAGGAACTACCGGAATACCAAAAGGAGTAATGCTTACCCATGGAAATTTCATCAAAGCATTTGATTCTCACTTCGAGTTTTTTAAATTCAAAAATTTTGAAGAAGAACTTTCACTGGCATTTCTCCCTTTAAGTCATGTTTTTGAAAGAAGCTGGAGCTTACTGTGTTTATATGGTGGTGCTAGAGTTTATTTCCTTGAAGATCCGAAAAATGTAGCCAAAGCACTGGAAGAAGTAAAACCTACGGCCATGTGTGCAGTACCAAGGTTTTTCCAGAAAGTATATGCAGGAGTTCTGGAAAAAGCAGAAGAAGGTTCATCTCTGAAGAAAAAGATTTTTGACTGGGCACTTAAAACCGGATGGGAAACTGCCGAATTAAGAAGAAATGAACAACCAATTCCCTTTGGATTAAAATTCAAAGAAGCCTTTGCCGATAGATTGGTTTTCAGTAAAATAAAAGAAAAAATGGGTGGCAGACTTTGGTTCTTACCCTGTGGAGGAGCTTCATTGTCACCGGAAGTAACCCGTTTCTTTGAGTCAGTAGGAATTCACGTGACCGTTGGATACGGATTAACGGAGACCACTGCAACATTAACTCTTTTCCCTCTTACTCACTTTGAACATGGTACGAGCGGAAAACCTCTTCCGGGAGTAGAAATGCGTATCGGAGAAAATGATGAGATCCAGGCCAGAGGGAATGGAATCATGAAAGGATACTACAAGAAACCTGAAGAAACTGAGAAAGTATTCACTGAAGACGGATGGTTTAAAACCGGTGATGCAGGAAAATTTGATGAGAAAGGAAACCTGATCATTACAGACAGAATCAAAGACCTGATGAAAACTTCCAACGGAAAATACATTGCTCCACAACAGATCGAAAACCTTCTGACCAATAATAATTTTATCCAGCAGATCATGCTGATTGCAGAAGGAAGGCAGTTTGTTTCAGCATTGATTGTCCCTAATTTTGAGTTTTTACAGGATTATATCAAAAAAAATAATATTCCTTTTACCAATTGGGAAGATGCTGTAAAAAATGAAAAGATAATCAACCTTTATAAAGAAAAGATTAAAGAATTACAGAACCACCTGGCAGACTATGAAAAAGTAAAGAAATTTACCTTAATGTCAGCCGAATTTGACATCAATACCGGAGAAATCACTCCCACCTTGAAGGTCAAAAGAAATGTGGTAATCAAAAAATACGCAGACATTATAGAAATGATGTATTAA	MNLAEAIILKNVEKHPIKAAIGFKKKDAAWKELSWKKFSEIIFKTANALKESGVQENDRVAIYSDNSSEWMIMDLASMAIGAVTVPIYSTNNAEQAEHIINDSGAKAVLVGNQMQYDACLELLHKEENNLETIIISKKAVWIKKEFNSFYLEDFIAKASQELEICKKEYDDTATLIYTSGTTGIPKGVMLTHGNFIKAFDSHFEFFKFKNFEEELSLAFLPLSHVFERSWSLLCLYGGARVYFLEDPKNVAKALEEVKPTAMCAVPRFFQKVYAGVLEKAEEGSSLKKKIFDWALKTGWETAELRRNEQPIPFGLKFKEAFADRLVFSKIKEKMGGRLWFLPCGGASLSPEVTRFFESVGIHVTVGYGLTETTATLTLFPLTHFEHGTSGKPLPGVEMRIGENDEIQARGNGIMKGYYKKPEETEKVFTEDGWFKTGDAGKFDEKGNLIITDRIKDLMKTSNGKYIAPQQIENLLTNNNFIQQIMLIAEGRQFVSALIVPNFEFLQDYIKKNNIPFTNWEDAVKNEKIINLYKEKIKELQNHLADYEKVKKFTLMSAEFDINTGEITPTLKVKRNVVIKKYADIIEMMY	PGPT0008380_7239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS003_00774	1014			hypothetical protein	ATGATTTTTGTAACGGGTGCTACCGGAATCCTGGGAAGGATAATTGTACTGGAACTTCTTAAAAGAGGTAGACATGTACGTGCTTCCAAAAGACCGGGCAGCAATATAAACGAAGTAAAGCATTCATACAGCTTTTATACAGAGAATCCTGATGATTTTTTTAACAAAATTGAATGGGTAAACGTAGATTTTAATGACCTGGATTCTTTAAAAGCAGCTCTGGAAGGAGTAGATGAGGTCTACCATTGCGCTGCGAAAGTAAGCTTTCATCCCAAAGATGAAAAAGAAATGTACCGTACAAATATTAAAGGCACAGAAAATCTTTTGTACGCATGTGAAGGATCACACGTTAAAAAATTTCTCCACGTAAGTTCTGTAGCTGTTCTTGATAATTTCAATGAAAAAGGAGAACTGGATGAAGATTCTGACTTTAATCCGAAACTGGAGCATTCTGCCTATGCTATTTCAAAGCATTTATCCGAAATGGAAGCATGGAGAGCTTCAGCAGAAGGATTGAATGTAGTTATTATCAATCCGGGAATGATCATAGGAAGCGGAAACTGGACGCAAAGCAGCGGGGAACTTTTCTCTACCTTTGAAGACAATAGCTTTACCTTTTCGGGAGGTTCTGCTTACGTTGACGTGAGAGATGTTGTCAATACTGCCATAGGATTAATGGAGAATAACCTTTTCGGAGAACGTTTTATTATTGTTGCTGAAAATAACAGGTATGCCGATCTTGCAAAACAGATAAGAACCCGCCTTGGACTCAAAGAGGCCAGAATTCTTTCACAAACAGAATTAAATATCGGAAGAATAGCCAATACCCTTTTCGGATGGCTGATCCCGAAACTGAAAATGGTTACCAAATCAAATATCGAGGCCATTTCTTCATTCAACACCATTTCCAATCACAAAGTCAAAGAAAAACTGAACTATCAGTTTATTCCCGTAAAAGAAAGTATAGACTTTCACCTGAATAATTATATTAACGACAAAAAGCTGAAGAAATGA	MIFVTGATGILGRIIVLELLKRGRHVRASKRPGSNINEVKHSYSFYTENPDDFFNKIEWVNVDFNDLDSLKAALEGVDEVYHCAAKVSFHPKDEKEMYRTNIKGTENLLYACEGSHVKKFLHVSSVAVLDNFNEKGELDEDSDFNPKLEHSAYAISKHLSEMEAWRASAEGLNVVIINPGMIIGSGNWTQSSGELFSTFEDNSFTFSGGSAYVDVRDVVNTAIGLMENNLFGERFIIVAENNRYADLAKQIRTRLGLKEARILSQTELNIGRIANTLFGWLIPKLKMVTKSNIEAISSFNTISNHKVKEKLNYQFIPVKESIDFHLNNYINDKKLKK				NA	NA	NA	NA	NA
BMS003_00775	1005			hypothetical protein	ATGAATAAAATTTTAATTATTACCCATACCGCAGATAATTTTTCTATAGAAAAAGTAACAGAATACATCGGAAAAAATGATTGTGAAGTCATTCGTTTTGATGTTGACGTTTACCCTTTACAAAATAAACTTTCCACTATTTTCCAGGATGGAGAATGGGTAAGTTACCTTGAAACCCCCGAAGCGAAACACAGGCTGGATGATATTTCTGCAATATGGTACAGAAGAGCCTACAATATAGGAAAAGGACTGAAAGAAGAAATGGATTCTAAGTTTTATGGTGCAGCAATGGGTGAAATCCGTAATACCCTTTTCGGATTTTTTGAATCTGTGGATGCTTATTCTTTAGGAAAACCAAGTGTTTACAGGAGATTAGACAGCAAGGAAGAGCAGTTGAAAATTGCAGACAAATTAGGATTGACCATTCCGGCAACCTGTCTTACGAATAATCCGGAAGAAGCCAGAAAGTTTATACTGAAACATCAGAATGTAGTGGCTAAAATGCAGACAGGGTTTGCGATCTACGAAGACGGTATAGAAAATGTAGTGTTTACTAACGTTGTGAGCGAAGATAGACTTGAAGAGCTGGACTCACTTCTCTACTGTCCGATGCAGTTTCAGCAGATGATTCAGAAGAAAAAAGAACTTCGTATTACCATTGTAGGAAGAGACGTTTACGCATTCGAAATAGATTCCCAACAGTCCGAAGATGCTAAAGTAGACTGGAGAAAAGACGGTATCAATCTCATAGACAAATGGAACAGAACAGAGCTTCCGGCAGATGTAGAAGTAAAACTGCTTGAATTGCTTGATGTTTACAACGTAGATTACGGAGCCATAGACATGATTGTTTCTCCTGAAGACGAATATTATTTCATAGAGATCAATGCTGCAGGAGAATTCTTCTGGCTGGATAACCTTACAGAAGAAAACCTTATTTCCAAAAGCATCGCAGATATCCTTTGTGATAAAGCTCCAAGAAGAAATAATGAGGTAATGGTCTAA	MNKILIITHTADNFSIEKVTEYIGKNDCEVIRFDVDVYPLQNKLSTIFQDGEWVSYLETPEAKHRLDDISAIWYRRAYNIGKGLKEEMDSKFYGAAMGEIRNTLFGFFESVDAYSLGKPSVYRRLDSKEEQLKIADKLGLTIPATCLTNNPEEARKFILKHQNVVAKMQTGFAIYEDGIENVVFTNVVSEDRLEELDSLLYCPMQFQQMIQKKKELRITIVGRDVYAFEIDSQQSEDAKVDWRKDGINLIDKWNRTELPADVEVKLLELLDVYNVDYGAIDMIVSPEDEYYFIEINAAGEFFWLDNLTEENLISKSIADILCDKAPRRNNEVMV				NA	NA	NA	NA	NA
BMS003_00776	957			hypothetical protein	ATGATTCTCTGCATCACCCATTCACAGGATTTTTATAATATCGATCTCTTTTTCGAATATCTGACTTCCAAAAATATTCCTTATTTCAGACTGAACTCTGACCGCCTGAACCATCTTCAGAAAATCAGCATTCATGAAGACTCATTCGAATTGACGGATGAGTCCGGAAATACGATCCATTCAGACACCATCAAAGCAGTGTGGCACAGAAAAGCCTGGAGAATCTATGCTCCCGAAGAGCTGGATCAGGATTATGAAAAAATCTTTATGACTGAATATGGAAGTCTCCGGTACAACCTGTTGACAACACTGGAAGACATCCCCTGGATCAATCCTTATGAAAATGAAAAAAAGGTTGATGGAAACAAAATATTTCAGCTGAAAGTAGCTCAAAGAAATAATTTAACCATTCCCAAAACCATTTTTTCCAATGATGAAGAAAAAATAAAAACATTTTTCTACCAGTACTGTCAGGGAAAAGCCATTGCTAAGCTTCACGGAGTCACAGCAAAAACAATGTCAGGTGAAAATATGATTTCTTCTACTGTAATTGAAGAGGAATCTCTGGAACACCTTGCAGATATTGCATATTGTCCAATGATCTTTCAGCCTTATATCGACAAAGAATATGAATTGAGAATTGCCTATGTAGACGGTGAATTCTTCACAGGAAAGATCAATAACAGTGAAAATGCAGATTGGAGAATAGCCCGTGAAGGCTATTTCTGGTCAGCTTACGAACTTCCTGATCCTATCAGAACCAGTCTCACTTCCATGATGAATGAAATGGGATTGTATATAGGCGCTATTGATATGATCAAAGGAAGAGACGGAGTTTATTATTTCCTTGAAGTAAATCCGCAGGGAGAGTGGGGAATGCTGCAGAAAGAACTGGGGTTTCCCATCGCAGAAAAAATTGCCGATAATCTTATCAAAAGAATCAATTTCCATGAATAA	MILCITHSQDFYNIDLFFEYLTSKNIPYFRLNSDRLNHLQKISIHEDSFELTDESGNTIHSDTIKAVWHRKAWRIYAPEELDQDYEKIFMTEYGSLRYNLLTTLEDIPWINPYENEKKVDGNKIFQLKVAQRNNLTIPKTIFSNDEEKIKTFFYQYCQGKAIAKLHGVTAKTMSGENMISSTVIEEESLEHLADIAYCPMIFQPYIDKEYELRIAYVDGEFFTGKINNSENADWRIAREGYFWSAYELPDPIRTSLTSMMNEMGLYIGAIDMIKGRDGVYYFLEVNPQGEWGMLQKELGFPIAEKIADNLIKRINFHE				NA	NA	NA	NA	NA
BMS003_00777	225			hypothetical protein	ATGAAAAGCAACAACTCAAAGAAAAAACCGTTTTTCGCATCATTCCTGGAAAAACAGGTTAAGGATCCTGAAACAGTAAAAGGAGGAACAGATGTCTCAATTCCTGAAAGAGACATGATTACAAAGCCGTCAATAGATACGGTAACTTCTCCAAAAGACGATATGATGCACACGCTGAAATATCCATCTGACGGTGATGATGATACAATCATTATTCCACTATAA	MKSNNSKKKPFFASFLEKQVKDPETVKGGTDVSIPERDMITKPSIDTVTSPKDDMMHTLKYPSDGDDDTIIIPL				NA	NA	NA	NA	NA
BMS003_00778	243			hypothetical protein	ATGGAAAACAAAAATTCAAAAAAGAAGCCGTTCTTTGCGTCATTCTTAGAGAAGCAGGTGAAAGACCCTGAAACAGTAAAAGGAGGAGGACTTACTTCCGCGCTTGAAGACCAGATTACTTCAATAATCAAGGATCATATCACTACCACAGCGCTTGAAGACAGCATTACAAAGCCTAATAATGACAATGTAACAATGAAATATCCTTCTGACGGTGATGAAGGTGTTTTAGATTTAGAATAA	MENKNSKKKPFFASFLEKQVKDPETVKGGGLTSALEDQITSIIKDHITTTALEDSITKPNNDNVTMKYPSDGDEGVLDLE				NA	NA	NA	NA	NA
BMS003_00779	780	ybfF	COG0596	Esterase YbfF	ATGGAAATTTTAAATTCAAAAATATTTGGCGAAAACTTAACAAATACACCACTCCTTGTATTTCACGGATTATTCGGAATGCTTGACAACTGGGGAAGCTTCGGAAAAGATCTGGGAGAATATCTTCCAGTACATCTGATTGACCTTAGAAACCACGGAAGGAGCTTTCATTCAGACAGTATGTCACATGATGATCTGGCAGACGATATTGCCCGTTATATGGATCATTATGGAATTCAGAAAGCTCATGTCCTGGGACATTCATTGGGAGGAAAAGCCGTAATGCAGTTTGCTGTAAAATATCCTGAACGTGTTGAAAAGCTTATTGTTGTAGATATTTCGCCTAAAGCATATCCACCACATCATCAGGGAATTATCAAAGCGCTGGAAACGGTTGACTTCAATACCGTATCTTCAAGAAGTGAAGTAGAGGCCGTTCTCAACCAGTATATTCCAGAAAGATCCACTGTGCAGTTTCTGACGAAAAATCTGTATTGGGACGACAATAAAAAGCTGGGCTGGAGATTCAACCTTAAAACATTGTCTGAAAAATATACTGAATTTGTTTCCAATGCTATTAAATTTGGTGTTTTTGATGGTGAAACTCTGTTTATAGCCGGAGACAGATCCAATTATATACTGCCACAGGATGAATTTGGAATCAGGCAGCAGTTTCCTAAGGCTAAAGTAGTAACAGTAAAGAATGCAGGACATTGGGTACAGGCAGAAAACCCTGTTGATTTTGCAAATGTTGTTAAGAATTTTCTTGAATTGGATTAA	MEILNSKIFGENLTNTPLLVFHGLFGMLDNWGSFGKDLGEYLPVHLIDLRNHGRSFHSDSMSHDDLADDIARYMDHYGIQKAHVLGHSLGGKAVMQFAVKYPERVEKLIVVDISPKAYPPHHQGIIKALETVDFNTVSSRSEVEAVLNQYIPERSTVQFLTKNLYWDDNKKLGWRFNLKTLSEKYTEFVSNAIKFGVFDGETLFIAGDRSNYILPQDEFGIRQQFPKAKVVTVKNAGHWVQAENPVDFANVVKNFLELD				NA	NA	NA	NA	NA
BMS003_00780	720	pdxJ	COG0854	Pyridoxine 5'-phosphate synthase	ATGACAAAACTAAGCGTAAACATTAATAAAATTGCGACGTTAAGAAATGCAAGAGGAGGTGAAACCCCAAGTGTTACAGAAGCAGCTGTAAAAATTCAGGAATTCGGAGGGCAGGGAATTACCATCCATCCAAGACCCGATGAAAGGCATATCACAAGAAAAGATGTCTATGATCTGAAACCATTGGTTACGACTGAGTTTAATATTGAAGGAAACCCTCATCAGAGCTTCATAGATATGGTTTTAGAAGTAAAGCCGGAGCAGGTGACCCTTGTACCGGATGCAGATGATGCTATTACATCCAATGCAGGATGGGATACAAAAAAGCATTTGGATTTTCTTACTGAGATCATTGCAGAATTTAAAAAAGCAGGCATCCGTACTTCCATTTTCCTTGATCCTTTGCCGGAACTTGTAGAATATGCTTCCAAAACAGGAGCAGGCAGGATTGAACTGTACACCGAAGCGTACGCAAAAAACTATCTTACCAATAAAGAACAGGCTATAAAACCTTATTATGATACGGCAGTGGAAGCTACCAATTTCGGGTTGGGGATCAATGCCGGGCATGATCTGAGCCTGGAAAACCTCAAATACTTTTCAGATACCATTCCAAACCTGCTGGAAGTATCTATAGGACATGCTTTGGTGTCTGAAGCACTTTATATGGGATTGGAAAATACAGTTCAGGCTTATCTGAAGAGACTGGCAAAATGGTAA	MTKLSVNINKIATLRNARGGETPSVTEAAVKIQEFGGQGITIHPRPDERHITRKDVYDLKPLVTTEFNIEGNPHQSFIDMVLEVKPEQVTLVPDADDAITSNAGWDTKKHLDFLTEIIAEFKKAGIRTSIFLDPLPELVEYASKTGAGRIELYTEAYAKNYLTNKEQAIKPYYDTAVEATNFGLGINAGHDLSLENLKYFSDTIPNLLEVSIGHALVSEALYMGLENTVQAYLKRLAKW	PGPT0009170_2435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
BMS003_00781	1269			hypothetical protein	ATGAATGACCAGCTACAAGAAACTAAAAACTTTATCCAGGAGCTGAGTGAACAGCTCTACATTTATATTACCCGAATATCACCTTCCGGACTGGACTGGGTATTTCATATTATTGTAAAACTGAGCTTACTTCTTGTCCTGTTATTCATTATTGATTTTATTTTTAAATTTATCATCAATTCCGTATTCAGGTTATTTCATAATGAACAGAAGTTTCCTATCTTAAAATCTATTTATCAGGCTAAAATTACCAATTCTGTAGCCCATTTTGCTGCTTTGGTTTCTATTGCTGGCCTCCAGGGCTCTATATTTCCGGAAAATGCGCTGCCCAAAACAACCATTTTTATTTTAAGATGTATCAATCTGGGAATGGTATTGATATTGGCAGGAATGCTCTACAGATCCCTCACGGCACTGAGGAATTATTTCAGCATTAAACAGGATTTCTACAAAATTATGGCGCTTAATGCTATTTCAGAAACCGTAAAGATTTTAGGACTCTTCATATTTACAGTAGTAGGGCTCTGTGTGATTTTTGGGATCAAAGGAACTACCATCGTAGGAAGTCTGGGAGCTATCACAGCTGTTCTGGTACTTGTTTTCAGAGATACGATTCTGGGATTTGTAACAGGGCTTCACGTAGCCACTTCTAAAAACCTGAAAGTAGGAGACTGGGTAAGCATTCCTAAATACAGCATTGAAGGAAATATTACAGAGATCAATCTTTTGACCACCAAAATTACCAATTTTGATAAAACAGTTTCTACTATTCCAACATATGACCTCATGACAACAGAGATCAGGAACATGCAGGTGATGTCTGAATCTAATACCCGAAGAATAAAAAAATCAATTTATTTCAATATTAATTCGTTTAAATTTTTAACGGATGAAGATGTAGAACGTCTAAAGGAAATCAATCTGATCTCAGACTACCTGGAAGAAAGCAGGTCTGAAATAAAAAAAGAAAAAGAAAGTCTGGAACATAATGATAAGGTTGTGAATGGTAGGCAGCTTACCAATATTGGTGTATTCCGGTATTATGCACAGCAATACATTGAGAATGATCCGGACATAGACAAAAACGGAACAAGAATGGTTCGTCAGCTGGATATTACTCCGCAGGGTCTGCCCCTTGAAGTATACTGTTTTGCCAATGACTCCCAATGGGAACGTTTTGAGCAGATACAGGCAGATATTTTTGACCATTTGCTGGTGGCTTCAAAAGAATTTGAGCTTCAGGTGATGCAGATAAGCATTAAAGTGTAG	MNDQLQETKNFIQELSEQLYIYITRISPSGLDWVFHIIVKLSLLLVLLFIIDFIFKFIINSVFRLFHNEQKFPILKSIYQAKITNSVAHFAALVSIAGLQGSIFPENALPKTTIFILRCINLGMVLILAGMLYRSLTALRNYFSIKQDFYKIMALNAISETVKILGLFIFTVVGLCVIFGIKGTTIVGSLGAITAVLVLVFRDTILGFVTGLHVATSKNLKVGDWVSIPKYSIEGNITEINLLTTKITNFDKTVSTIPTYDLMTTEIRNMQVMSESNTRRIKKSIYFNINSFKFLTDEDVERLKEINLISDYLEESRSEIKKEKESLEHNDKVVNGRQLTNIGVFRYYAQQYIENDPDIDKNGTRMVRQLDITPQGLPLEVYCFANDSQWERFEQIQADIFDHLLVASKEFELQVMQISIKV	PGPT0013774_413	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
BMS003_00782	1188			hypothetical protein	ATGAAACAAAACTATCTGTTCATCATGCTATGTTCCCTTGTATTGCTGACTAATTGTAAAGGAGATGATTCTGCCATTCCTGAAGAAATACCAATTCCCACAGTCACCACAGGAAAAGTAGAAGGCAAAGTATTTGCAAAAAACGGAACAAAATCAATTGGAGGAGCGCTTGTATTTACTACTGACAGCCAAAATAATGTTTATCATACCTATTCCGGTGCTGATGGCACATTCAGTCTTACAGCTCCTACAGGCAATACAACGCTTCACATTCAGACCGGCGACGGGCAGAATTTCAGAACCGAAGTTCCGGTTACCATCAAAAAGAATGAAACAATTACTGTGGCTGCAACAGATACAAAACTGAATCAGATTGCAAAAATGGCTTATATAAAAGGAAATTATGATAAAATAGAAGATATCATAACTTCTCTTGGATATACTGCAACTGAGATTACTTATCAGGATTTAAAAAATATCAATACCATTTCACAATATGATATTATTTTTCTCAACTGCGGATCCCGTACTTATGCACAAACAGGAACTCCCACTCCCAGCAATGACAATAATGTATATACCAATCTTTCAACTTTTATAACCAACGGAGGAAGTCTTTACAGCTCTGACTGGGCCTCGGCTTACCTGGTTGGAGGAAATACCAATACGGAAAACTGCAATGCGCCCGGAGGTTTTATTAATGATAATCTTCTTTGCCTTAAAGATATTGGCTCTGCGGGTTCTTATACAGGCTGCAGTGTTTCAAATACTTCACTGGCCACTGCATTAGGATTTAATACATTAGATATTGAATATGACATGGGCTCCTGGGAAAAAATCCAGAATTATGATCCTTCATTCTGGGATGTCCTGGTTCAGAAAGGCAACGAACCGTTGATGATAAGAACGGGGCATTATACCAATCCTTCTGCACCTCAAACTAATGTAGGAACTTCTTTAAACAATAATCATATTACCATCTGTCATCATACAACAACCGGAAACAATATCACTATTACCATTAATCAGAATGCATGGAATGCTCACCAGGCACACGGTGATACTATGGGACCATGTACAGGAAACTCTAACAGCGGAAATATCTACTATACCACATTCCACAACCACGCCAGCGGCAATATCGGCAAGGCAGGGCCTATTCTGGAATATGTCATCTTAAATTTGTAA	MKQNYLFIMLCSLVLLTNCKGDDSAIPEEIPIPTVTTGKVEGKVFAKNGTKSIGGALVFTTDSQNNVYHTYSGADGTFSLTAPTGNTTLHIQTGDGQNFRTEVPVTIKKNETITVAATDTKLNQIAKMAYIKGNYDKIEDIITSLGYTATEITYQDLKNINTISQYDIIFLNCGSRTYAQTGTPTPSNDNNVYTNLSTFITNGGSLYSSDWASAYLVGGNTNTENCNAPGGFINDNLLCLKDIGSAGSYTGCSVSNTSLATALGFNTLDIEYDMGSWEKIQNYDPSFWDVLVQKGNEPLMIRTGHYTNPSAPQTNVGTSLNNNHITICHHTTTGNNITITINQNAWNAHQAHGDTMGPCTGNSNSGNIYYTTFHNHASGNIGKAGPILEYVILNL				NA	NA	NA	NA	NA
BMS003_00783	492			hypothetical protein	ATGGATACAACGATTATCAATATTTTCTGTCTTATCCTCCTGTTTGTAGGAATACTGGGAACTTTTCTCCCGGTTTTACCAGGGCTTTTGCTCAGTATCTGCGGGCTTCTGATCTATAAATTCGGTACGGATGCGGATCTTTCCATGATTTATATCTGGGCTTTCGGAATACTTACAGCTGCTTCTGTAGTATTAAGCTATGTTATTCCGGCAAAAACCAACAGAAAGTACGGAGGTACACGCTGGGGAAGTATTGGTTCTGTAATAGGTACTGTTGTTGGGATATTTATTCCTATTCCCCTGGGCTTTCTTGTAGGAATGTTCGCAGGGGTATTTATTGGTGAATTGCTTCACGACAGCCAAGACATGAACAAAGCTCTACAATCTACCAAAGGAGCACTTATTGGGTTCATTTACGGAACCGGATTTAGCTTTGTGGTAGGAGTGGCAATGTTTTTGGTAGTACTTCTTAATATGTTTAACGTCATTTAA	MDTTIINIFCLILLFVGILGTFLPVLPGLLLSICGLLIYKFGTDADLSMIYIWAFGILTAASVVLSYVIPAKTNRKYGGTRWGSIGSVIGTVVGIFIPIPLGFLVGMFAGVFIGELLHDSQDMNKALQSTKGALIGFIYGTGFSFVVGVAMFLVVLLNMFNVI				NA	NA	NA	NA	NA
BMS003_00784	510			hypothetical protein	ATGTTCCATAAAGCTATCATACTCAGTCTAGGAATATTTGCATTAACAGGATGTGATGCCCAAAAGAAACCTAAGGCAGCTACAAAAGCTTCTGAAGTGCAAACCAATCCAAAAGTTATGAATTCTAATGCTCAAAAAGATAATATTCTGTACCTCAGCGAAGGTGAGAATAAGTTTTTAGCAAAATATCAGATGAATGTGACCTTCAAAGGGGTTTCTGAAGACAGCCGATGTCCGGAAGGTGTTAATTGTATCTGGGCCGGAGCTGCCCTCGCTCAGGTGGAGGTAATGGGCACCGCTACCCGACCTGCCATTTTAAATCTGGCCAGCATAGATTATCCGGGAAGAAATTACCGCCAGTCGGCAGAATTTAACGGATATATCATTACATTACAAGATGTAACTCCCTATCCTACCCAACAGGAAGGAACAAAGGGATTAGCCGGAAAATATAAAATCGGAATTACGATAAAAAAAGCAGATGAATCTACAGATTCTACCATGAAATAG	MFHKAIILSLGIFALTGCDAQKKPKAATKASEVQTNPKVMNSNAQKDNILYLSEGENKFLAKYQMNVTFKGVSEDSRCPEGVNCIWAGAALAQVEVMGTATRPAILNLASIDYPGRNYRQSAEFNGYIITLQDVTPYPTQQEGTKGLAGKYKIGITIKKADESTDSTMK				NA	NA	NA	NA	NA
BMS003_00785	642	ung		Uracil-DNA glycosylase	ATGACCTGGACAGAAGTTTTAGCACCGATAAAGAGTACGGAATACTTTACAACCCTTTGGGAGAAAGTAAAAAATGAATATGCAACAACGAAAGTCTTCCCTCCGAAAAATCAGATTTTCAGAGCATTGGAGCTTACAGCTTTTGATGATGTGGAAGTGGTGATTATTGGTCAGGATCCTTATCATAATGACTATCAGGCAAATGGCCTGTGCTTTTCTGTTTCGGAACAGGTTGCCGCACCGCCGTCACTTAAGAATATTTTTATTGAGCTAAAAGATGATCTGGGGGTAGTAAGAACTTCCAAAGAACTAGATGACTGGGGAAGACAGGGGGTTCTCTTATTGAATGCCACATTAACGGTTCGGGCTCATTCACCCAATTCCCATAAAGATCTTGGTTGGGAACAATTTACCAACTTTATCATTAAAGAAATTTCAGACAAGAAAGAGAATGTGGTATTTGTGCTGTGGGGTGCTTTTGCACAGAAAAAAGCCGAACTTATAGATCCGGCTAAACATTTTATTCTGAAATCTGCACATCCCTCACCATTTTCTGTTTACAGAGGTTTTTTCGGAAGTAAGCCTTTCTCGAAAATTAACGAGTATCTTGTTTCCAAAGGTAAAAAGCCTATTTCATGGTAG	MTWTEVLAPIKSTEYFTTLWEKVKNEYATTKVFPPKNQIFRALELTAFDDVEVVIIGQDPYHNDYQANGLCFSVSEQVAAPPSLKNIFIELKDDLGVVRTSKELDDWGRQGVLLLNATLTVRAHSPNSHKDLGWEQFTNFIIKEISDKKENVVFVLWGAFAQKKAELIDPAKHFILKSAHPSPFSVYRGFFGSKPFSKINEYLVSKGKKPISW	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
BMS003_00786	1005			hypothetical protein	ATGAAAAATGAAATAAAATCTTTAACAGGACTTAGAGGTATTGTAGCCTTATGGGTTGCTTTTTTTCATTTTAGTTTTTTTAGAAACGAATTCATCCAGAATATTGTAGGGAAAGGATATGTAGCCGTTGATATCTTTTTTGTGTTAAGTGCTTTTTTGCTTACAGTTTCTTATTCTGGAAAATTTAGAGATTTGAATTCCGGTGCAATAAAGACTTTTTATAAAAAGAGAGTCAATAGGATTTATCCTGTATATATAGCATCAGTAGTTTTTATTGCATTGTTTCTGGCGAAGACTTCTGTAAAAGGATTTCTAATTAATGCAACATTATTACAGTGTTTTTTTAATCCTGATTATCTTCTGAATGTTGTCTATTGGTCATTAAGTACAGAGTGGATCTGCTATCTGGTATTTCCTTTTATGTTATGGCTTGTTCTGTATTATAAAATACGCAGTGAAGTTTTAATTGTGGCAAGTGTGATTTTAAGGTTGGCACTTCCTCATTTTCCTGGTAACTTATATATAGGTTCTGAAGTTCCCATTGAGATAGGGAAACCAACAAAGTATCTTGACCTTCCTTACGGCCTTGTCTCTCTTTTAAGAACATTTTCTTCCTATTTCCTTGGAATAGGGGTTGCTCTTTTACCACAGATTAAAATAAAGAAAGAAGGACTTATTATTTATGTTATTCTCATACTGTTTGTATCCATGCTGCTTGTTGGGAAAGGATTACTGTTTATTCCTTTATTGTCAGCGTTTATGATAAAATACCTGTATGAAGGAAGACAAAACTATGTAAAGATGTTTTTAGAAACTAAAGGAGTGTATTTCTTGGGGAATATTTCTTACTCATTATATATTATCCATTATATGGTGAAAAAACAGAATTTTGTTATTGTAAGTCATTATCATTTAAATAATATACTGCTTATAGCATTCTCTGTATTACTGTCTTATTTTTCATATATGCTGATTGAAAGAAAAGTGAAGATTTTTAAGGTGTAA	MKNEIKSLTGLRGIVALWVAFFHFSFFRNEFIQNIVGKGYVAVDIFFVLSAFLLTVSYSGKFRDLNSGAIKTFYKKRVNRIYPVYIASVVFIALFLAKTSVKGFLINATLLQCFFNPDYLLNVVYWSLSTEWICYLVFPFMLWLVLYYKIRSEVLIVASVILRLALPHFPGNLYIGSEVPIEIGKPTKYLDLPYGLVSLLRTFSSYFLGIGVALLPQIKIKKEGLIIYVILILFVSMLLVGKGLLFIPLLSAFMIKYLYEGRQNYVKMFLETKGVYFLGNISYSLYIIHYMVKKQNFVIVSHYHLNNILLIAFSVLLSYFSYMLIERKVKIFKV				NA	NA	NA	NA	NA
BMS003_00787	522			hypothetical protein	ATGAAACTGGAAACCCAAAGACTACTACTGAGAGACATCAACGAAAGCCACGTTGAGGACATTTTGCGTATTCGAAGCAATGACGTAATTAATCAGTTTGTCATAAGGAACTCACCAAAAAATAATTACGATGCACTCCAGTTTATTCTGACCATTAAGGAGAAAACTAAGAATAATCAAACCGTTTATCTGGGAATTTCTTTGAAAGAGCAACCGAATCTTATCGGAACAATCTGCCTCTGGAATTTTTCTGAGGATCGGAAAACAGCAGAAGTAGGGTATGAGTTATTACCGGAATACCATCGGCAGGGGATCATGTCTGAAGCTTTGAAAGCGGTTTTAGATTTTGCTATTAATGAATTACATGTAGATGAAATTGTTGCTATCACCAATAAATTCAATGAAAACTCTAAAGGAATTCTTTTGAAACATGATTTTGTTTTGTTGGAAGGGAAGAAAGATGAAGATTTTCCTGATAATATTATTTTTAGTTTGAAAAGACCACATGGTGAATTGTATTAG	MKLETQRLLLRDINESHVEDILRIRSNDVINQFVIRNSPKNNYDALQFILTIKEKTKNNQTVYLGISLKEQPNLIGTICLWNFSEDRKTAEVGYELLPEYHRQGIMSEALKAVLDFAINELHVDEIVAITNKFNENSKGILLKHDFVLLEGKKDEDFPDNIIFSLKRPHGELY				NA	NA	NA	NA	NA
BMS003_00788	2148	mutS2	COG1193	Endonuclease MutS2	GTGTATATAGATAAAGAAGATTTAGACGAATTAGAGTTTCCGCAATTGCTCGCGGAAATCTCCCCATTTGCGTATTCTCCGAAAACAAGAGAAAAAATTCTTCAACTTCGTCCGATGGAAATAGATGAGGCCGAACTTTCACTAAAAAAAACCTCAGAATATCTGTCAAGTTTTGAAAGTTCAAATGCGATTCCGTTTGATGAATATGAAGATATTGAAAGTGAGCTGAAACTGATGCTGATTGAGAATTACCGTCTGGAAAATGCTGCTTTCATCAGAATAAAAACCATCACGGAACAGATCGGAAAACTTCAGAAGTTCTTCCCTACCATGCCGGAAACATTTCCTACTCTATTAGAAGAGGTTTCTGTCCTGGAATTCAGAAAAGAGATCATTGATAAGGTAGATAAGGTTTTTAACCGTTTTGGTGAAGTAAAAAGTGAAGCTTCCCCCGCTTTGAAAGGGATAAGAACTGAAATTCAGCTTGCAAAAAAAGCAATTCAGGAAAATTTTAACCGTGCGCTTACCACGTATGGACAGAGTGACTTTTTGGATGATATCCGGGAAACAATTATTGATGACCAAAGGGTTCTGGCAGTAAAATCCGGATTCAAAAAGAGGGTTGCAGGAAGAACATTAGGAATTTCTAAAACAGGTTCTATCACTTATATTCAGCCGGACAGTGTTGTAAAGCATTATTTCAAGCTCCGTGAAAATGAAGAGGAAGAAAAGAAAGAAATAGATAAAGTTCTTCGTAAACTTACTGCAGAACTGGCAGAATTTCAACCTCAGCTATGGAGATACCAGGTTTATATTTTTGACCTTGATCTTACAAGGGCTAAAGCAAAATTCGGCGAACTGATCAACGGAGTTCTTCCGAAAATTAATCATCATAAAACACTTAGATTAAAAGATGCTTATCATCCTCTGTTATGGATGAGAAATAAAACCGAGAACAAAACCATTCATCCTCAAACACTTACATTAACAGAACATAACAGGATTATCTGTATTTCCGGTCCGAATGCCGGGGGAAAATCAATTACCCTGAAAACGGTAGGACTGCTACAACTGATGATTCAGAGTGGTATTCTTGTTCCGGTTCATCCGAAGTCTGAAATGTTTTTCTTTGAGAAAATCATGACTGATATTGGTGACAACCAGTCTATTGAAAACCATTTATCCACCTATTCATCGAGGTTAAAGAAGATGTCCGGAATCATCCGTGAGGCTGATGCCAATACGCTTTTATTAATTGATGAATTTGGTACAGGTTCTGATCCTGAGCTCGGAGGTGCTCTGGCGGAAAGTTTCATGGAGTTTTTCTATGATAAAAAGAGTTTCGCTATTATCACGACTCACTATACCAATATTAAACTGGTGATAGAACAGCTTCCAAACGCACAGAATGCAGCCATGCTCTTTAATGAAGAAACACTGGAACCTATGTATAAGCTGGAAGTAGGACAGGCAGGAAGTTCATTTACTTTTGAGGTTGCGGAAAAGAATAAAATTCCAAGATTCATTATCCATTCTGCCAAGAAAAAGGTAGAGCACGATATTGTTAATCTTGATAAAACGATTGTAAAGCTCCAGCAGGAAAAATTTGAAGTAGAAAAATTGAAATCCGATCTTGCAGAAAGAAAAGAATCTGTAGAAGACAAGCGTGATAACCTTCAGAAACTGAATGACCAGCTTCAGCAGAAATTATTCAATTTCCAGAAACTGTATGAGGAGGAACACCGTAAACTTCAGTTCGGAAACAAGATTGAAGCATTCATAGACAGCTATACGAAAGGAAAATCCAGAAAAGATGTTGTAAAAGACTTTGTAAAGCTTCTTGAACAGGAGAAATTCAGAAAATTGGGAAGTGATAAAGATGAAACGAAACGTCTGCAGGTTGTTAAGAGAAAAATTACTCAGCAGCTGAAAAAGGAAGAAGTGATTGAAAAAATTACTGAAACCAATGAAAGACTGGAAGAACAACGCAAAACTGACCGTGCTATCTGGATGAAAATTGGACAACGTGTTCGTATTACCGGCAGTACCAGCGTGGGAACCATCGAAAAAATTTCACGAAACAAAGTGATTGTCAATTATGGAACTTTCAAGACCACGATTGACGCAGATGAACTTGAGAGAATTTAA	MYIDKEDLDELEFPQLLAEISPFAYSPKTREKILQLRPMEIDEAELSLKKTSEYLSSFESSNAIPFDEYEDIESELKLMLIENYRLENAAFIRIKTITEQIGKLQKFFPTMPETFPTLLEEVSVLEFRKEIIDKVDKVFNRFGEVKSEASPALKGIRTEIQLAKKAIQENFNRALTTYGQSDFLDDIRETIIDDQRVLAVKSGFKKRVAGRTLGISKTGSITYIQPDSVVKHYFKLRENEEEEKKEIDKVLRKLTAELAEFQPQLWRYQVYIFDLDLTRAKAKFGELINGVLPKINHHKTLRLKDAYHPLLWMRNKTENKTIHPQTLTLTEHNRIICISGPNAGGKSITLKTVGLLQLMIQSGILVPVHPKSEMFFFEKIMTDIGDNQSIENHLSTYSSRLKKMSGIIREADANTLLLIDEFGTGSDPELGGALAESFMEFFYDKKSFAIITTHYTNIKLVIEQLPNAQNAAMLFNEETLEPMYKLEVGQAGSSFTFEVAEKNKIPRFIIHSAKKKVEHDIVNLDKTIVKLQQEKFEVEKLKSDLAERKESVEDKRDNLQKLNDQLQQKLFNFQKLYEEEHRKLQFGNKIEAFIDSYTKGKSRKDVVKDFVKLLEQEKFRKLGSDKDETKRLQVVKRKITQQLKKEEVIEKITETNERLEEQRKTDRAIWMKIGQRVRITGSTSVGTIEKISRNKVIVNYGTFKTTIDADELERI				NA	NA	NA	NA	NA
BMS003_00789	279			hypothetical protein	ATGGCGAGAAACTTTACTATTCTTTGGATTTTTTATAAAAAGATACTGGTTCCCACCCTGCTGTTCTCATTGCTTATTTCTTTTCTGCTTCCCTTCAGTGTTGAAACATTTGGTTTAAGTTTTCTTTTAATTGCACCTGTCCTCCATTACTTTATTTATGAATTAAGATTTAAAAGTGAATATTATTTTTATGCCCATTCAGGATTCTCAAGAACTTTTCTTTGGGCAGGAACACTATTATTAAGTCTTGCTGTAAAAATTATAACATTATTCTTATGA	MARNFTILWIFYKKILVPTLLFSLLISFLLPFSVETFGLSFLLIAPVLHYFIYELRFKSEYYFYAHSGFSRTFLWAGTLLLSLAVKIITLFL				NA	NA	NA	NA	NA
BMS003_00790	663	lptB	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGTAAACTGCATGTTGACAGTGTAACAAAATCTTTTAATGAAAGAAAAATCCTGCAGGATATTTATATAGGATGTGAAACAGGGCAAATCATGGGATTACTTGGCAGGAATGGAAGCGGAAAATCAACCCTGCTAAAAATCATCTTTGGAATGGAACATGGTGATACTCAATTTATAAAATATGACAATAAAATTCTGAAAGGCATATCTGATAGAAAAAACAGAATCTCCTACTTACCACAGGATCTTTTTTTACCAAAATATATAAAAATTAAAAACCTGATTCCTCTTTTTTGTAATCAGAAAAATACTGAGTTGCTTTTTACTTCAGAATTCGTACAACCTTTCCTTGATCAAAAACCTAACACCCTTTCCAAAGGTGAACAGAGAATTATTGAAACTCTTATGGTCATTTATTCTGAATCAGACTTTATTTTATTAGACGAGCCATTTCACAGTCTTTCTCCAAAAGTTACCGAAGAATTAAAGAAAAATATCCACCAAGAATCATCTTATAAAGGATTTATTATTTCTGATCATAACTTTAAAGATGTTTTGGATATTTCTGACTATATATACCTGCTTTCTGGCGGTCATCTGAAACAAATACAAGATTTAAGTGAACTGCAGCACTATAATTATCTTCCGAAAAGCATTTAA	MSKLHVDSVTKSFNERKILQDIYIGCETGQIMGLLGRNGSGKSTLLKIIFGMEHGDTQFIKYDNKILKGISDRKNRISYLPQDLFLPKYIKIKNLIPLFCNQKNTELLFTSEFVQPFLDQKPNTLSKGEQRIIETLMVIYSESDFILLDEPFHSLSPKVTEELKKNIHQESSYKGFIISDHNFKDVLDISDYIYLLSGGHLKQIQDLSELQHYNYLPKSI	PGPT0023300_2846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS003_00791	801			hypothetical protein	ATGATGACTTTCATAAACAAAGCATTCTATTTATCCGCTTTCAGTATTTTATCTATCGCTTTTGTAAAAGGGCAGAATAAAGTTCCTTTCGGAGTTGTAAAAGCTGAAGAGGGATATGCCAATGTACGTGTTCATAAGGACAACTACAGAAAAATTGTAGACAAGATCCGTATGCGTAAAGGCGATGTATTTGTTTATGTAAAGCCTGCTCCAGGAGAAACGGAATGGATCTGGATCAAATATCCTGAAAAACAAGATGATGACAAACCGTTTGTACGCTATGAAACATTGGACAAAGAAGGAATGGTGAACAAAGAGCGTATTGCTTATGTTGATCAGCTTCCTGCTTATACTCCTTCAAAATCTAAAAACGGAAGGTCACTTATGTTCACAGATAATTCTGATCCTAAAGTTCCTACTGCCCAAAGGAGCAAAGTGATCATTGATATTTATCCTTCCAACGCCGGATACCGGAAAAAGGAAAAAGATGCAGAAGGAAAAATTCTTACCATAGATAAAGTAAAGCCATGGGGAATCGGAAATGATCTTCCAGAGGGAATGACTGAGATCAAATCCATCAGGGTACAACAACCCGGAAGAGGATCTGTTTTTGTAAGAGAAGCCATCAAAAATATGTTCCAGCCAACGATGGATTTTGACAATGTGGGAGTAACGTCTCTGGACAATGACAATATTTTTCTCTACATGATCAACGGTTCAGGAGAAAACAGATATACTACCCTTTGGACCATCAAGAAAGGAAGAGTAATCAGCCAGATTATTTACCATAATCCGGAATAA	MMTFINKAFYLSAFSILSIAFVKGQNKVPFGVVKAEEGYANVRVHKDNYRKIVDKIRMRKGDVFVYVKPAPGETEWIWIKYPEKQDDDKPFVRYETLDKEGMVNKERIAYVDQLPAYTPSKSKNGRSLMFTDNSDPKVPTAQRSKVIIDIYPSNAGYRKKEKDAEGKILTIDKVKPWGIGNDLPEGMTEIKSIRVQQPGRGSVFVREAIKNMFQPTMDFDNVGVTSLDNDNIFLYMINGSGENRYTTLWTIKKGRVISQIIYHNPE				NA	NA	NA	NA	NA
BMS003_00793	384		COG1607	putative acyl-CoA thioester hydrolase	ATGACTACAGAAGAAAGAATTGAAGCATCCGAAACCAGAATCTTTAAAGCGGTTTTCCCTAACACAACCAATCATTATGATACTCTTTTTGGAGGTACGGCTATGCAGCTGATGGACGAAGTAGCTTTTATTACTGCCACCCGATTTGCCAGAAAAAGAGTGGTAACGGTAAGCAGTGACAAAATAGATTTCAAGAAACCCATTCCTGCCGGAACTATTGTAGAACTTATCGGGAAAGTTTCATATGTGGGAAAAACCAGTATGAAAGTAAACGTTGAGATCTATACAGAACAGATGTATTCCTATGAAAGAGAAAAAGCCATTGTAGGTGATTTTACTTTTGTAGCCATCGATGAATTCAAGAAACCAATTCAGATACTATAG	MTTEERIEASETRIFKAVFPNTTNHYDTLFGGTAMQLMDEVAFITATRFARKRVVTVSSDKIDFKKPIPAGTIVELIGKVSYVGKTSMKVNVEIYTEQMYSYEREKAIVGDFTFVAIDEFKKPIQIL				NA	NA	NA	NA	NA
BMS003_00794	597			hypothetical protein	ATGAAAATTCAGAAAGAAATAGATTTTATTCTGGCAGTAGATGCACTTAAAAATGTACAGAGAAGGAATTATAATGCAGATGACTCCCGAAGAGAAAATACAGCGGAACATTCATGGCAGATTATCATTCTGGCTCAGATCCTTTATCCTTATGCTAAAAACCGTGCAGATATTGATCTGTTAAGAGTAATAAGAATGCTTTCTATCCATGATCTGGTGGAAATAGAGGCCGGAGATACTTTCATTTTTGATGAACAGGCCATGGTAGGTAAGTTTGAAAGAGAAAAGGCATCAGCCCAAAAGATCTTCGGAATCCTGAATGAACCTTTGCGTACAGAATTCTTTAATCTATGGCTTGAGTTTGAGGATGAAAAAACTCAGGATGCTGTTTTTGCATGTGGAATTGACAGAATTATGCCGTTTATATTAAACTCTCATACTTCAGGAAAAAGCTGGACAGAGGCAGGAGTTACAGAAAAACAAATCAGGAATATACTTGAAAACGCGATAAGCAGAGCATCAGACGAAATGGGTGAGGCTTTTGATGTGTTACTGAACAGAAATCTGGAAACAGGAAAAGTGATCAGATCAATTTAA	MKIQKEIDFILAVDALKNVQRRNYNADDSRRENTAEHSWQIIILAQILYPYAKNRADIDLLRVIRMLSIHDLVEIEAGDTFIFDEQAMVGKFEREKASAQKIFGILNEPLRTEFFNLWLEFEDEKTQDAVFACGIDRIMPFILNSHTSGKSWTEAGVTEKQIRNILENAISRASDEMGEAFDVLLNRNLETGKVIRSI				NA	NA	NA	NA	NA
BMS003_00795	330			hypothetical protein	ATGAATACCGAAAATACCAAAGCGCAAATGCGAAAAGGAATTCTGGAATTCTGTATTCTAAGTCTCATCAATCACAGGGAAATGTATGTTTCTGATTTGATTGACGAACTGAAAAAAGGAAAACTGGATGTAGTGGAAGGGACCCTCTACCCTCTTCTTACAAGACTTAAAAACGGAGAATTTCTCTCTTACAGATGGGAAGAATCTACCGGAGGACCGCCCCGAAAATATTATCAGATCACAGAAAAAGGAAAACTTTTCCTGGATGAACTACAAAATACATGGAATGAGCTGACAGCCTCAGTAAACCAAATCACCCAACAAAATTAA	MNTENTKAQMRKGILEFCILSLINHREMYVSDLIDELKKGKLDVVEGTLYPLLTRLKNGEFLSYRWEESTGGPPRKYYQITEKGKLFLDELQNTWNELTASVNQITQQN				NA	NA	NA	NA	NA
BMS003_00796	1722			hypothetical protein	ATGAACAAGACACTCTCAATAGGACTCGCAGGTTTTTCTTTTACCATAGAAGAACACGCATATATAAAGCTCAGCGATTACCTGAACGCACTGAGAAGCTCACTGGATGCTTCTGAGGCTGATGAGGTAATGCATGACATAGAAATAAGAATGGTGGAGATCTTCAAAGATTCTCTAGGAAAACGTGAAGTGATCAACGATACCGATGTAGAAAAGGTAATCGCACAGATCGGAAGCCCTGAAAAAATTGAAGAACAGGAAGAAGCTTATTTTTCTGAAAAAACATCTACCAGAAATTACAATTCAGGAACCAGCTATACCGATAAAAAACAATTATTCCGTGATCCGGAAAAACAAAAAGTAGCAGGTGTCTGTGCAGGTTTAGCTCAGTATGTAGGAATGGATATTACTACCATGAGAGCAATCTGGCTGGGAATCTTCATATTAGGAATTTTCACAGCAGCCATCTCTTCTTCATTAATCGGTCTTTTATATGTAATCCTTTGGATCGTACTTCCAAAAGCTGAAACAGCAGCAGATTTCCTGAAAATGCAGGGAAAGCCTATGAACTTCGACAATCTTAAGAATGAGTCTAATAAATTGGTACAGTTTGCCAATGAATCTACTCAGAGGGTCGGAGAAATCTATAATGAAAACAAACCTTACATCAGCAACGCAAGCAGCGGAGTCTGGAATATATTCAAATATATTGTAGGGGGATTCTTCGTATTGATGGCTGTAGGAAGTATTATTGGAGTATTCGTATTATTCGGTCTTTTCGGTATGGATACAGACTTCCCGGGCGCTAACGAAATCAGATTCTATATGGATGATCAGGGGCTTGACAAAGTACTGGCTGCCATGATGGTTATCGGAAGCTTAATTCCTGCTATCCTTTTCAGCTTATTAAGCATCAAGATTTTCTCTCCGAAAACAAAACTGAGAAATATAGGATGGGTAATCGGAGGTTTATTCCTTCTTCTTATCGGGCTGGGAACTTACTTCGGAATCAGCATGGCTAAGAAAGACATGATCTACAGAGGACACAAGGAAGATGTAGAAAATGTTGCCATCAACACAACTTCAGATACAGTGTATGTAGATGTAAAACAAATTAACATTCCTCAGAACTTCAAAGCATATAACAATGATATTTATTCTGATAAAAGATCTGTTTATGAAGAAGACTATATCTCTGTAGATGTAACAAGAAGACCGGATATCAAGACACCTTATCTGATCATCAAAAAAGAAGGAAAAGGATATAATTTTCCAATCCAGCTGACAGTTCCTGTAGAAGTTGCAAACAACAAAGTACTACTACCAAATTATATCAAATACCCATACGAGCACAGATTCAGAGATTACAGACTGGATTATGAACTTGTAGTTCCGCAAAAAGCTGTCATTATATCTATGAAAAAAGATCATATCCACATGGATGGAGATTTAGACGGAGACGGTATCAATGATGATGATCAGGATAGAGACGAAGACCATAACAATGTTAGAATTGAAAAGAATAAAATCACGGTAAACGGTTCAAGTATCGAATACAACTCTGATGATAAAGACAGCATCATTGTAAACGGTAAGAAAGTTCCGAACAACCAGGCAAAGAAAGTAATTGATTCTGCGGTATCCAACATCAAAAAATCAAATAAAGATGTGGACATCAAAATCAAAGACGGAAAAAACGAAATTTCCATACAAACTAAATAA	MNKTLSIGLAGFSFTIEEHAYIKLSDYLNALRSSLDASEADEVMHDIEIRMVEIFKDSLGKREVINDTDVEKVIAQIGSPEKIEEQEEAYFSEKTSTRNYNSGTSYTDKKQLFRDPEKQKVAGVCAGLAQYVGMDITTMRAIWLGIFILGIFTAAISSSLIGLLYVILWIVLPKAETAADFLKMQGKPMNFDNLKNESNKLVQFANESTQRVGEIYNENKPYISNASSGVWNIFKYIVGGFFVLMAVGSIIGVFVLFGLFGMDTDFPGANEIRFYMDDQGLDKVLAAMMVIGSLIPAILFSLLSIKIFSPKTKLRNIGWVIGGLFLLLIGLGTYFGISMAKKDMIYRGHKEDVENVAINTTSDTVYVDVKQINIPQNFKAYNNDIYSDKRSVYEEDYISVDVTRRPDIKTPYLIIKKEGKGYNFPIQLTVPVEVANNKVLLPNYIKYPYEHRFRDYRLDYELVVPQKAVIISMKKDHIHMDGDLDGDGINDDDQDRDEDHNNVRIEKNKITVNGSSIEYNSDDKDSIIVNGKKVPNNQAKKVIDSAVSNIKKSNKDVDIKIKDGKNEISIQTK				NA	NA	NA	NA	NA
BMS003_00797	588			hypothetical protein	ATGAAAAAGCTGATAGGCAAAGCAATGCTAAAAATACTAGGCTGGAAAGTCGTCCTACAGGGCGATGTCAACAGCCTGAACAGATGCATCCTTGTGGTAGCACCACATACCCATAATATGGAATATATTTTAGGAAATTTCGCCTATTGGTCTTTGAAAAAGCCTTTAAAAATCATCATTAAAGATGCCCATACCAAAGCCTGGTACGGAAGTATCGTAAAAGGGCTTGGAGGTATCGGTATAGACAGAAGCCAGAAAAATGATCTGGTAAACTTTGTTGCCAACCAGTTTTCCAAAGAAGATTTCAGCCTTGTCATTACTCCGGAAGGAACCAGAAGCTGGGTTCCGAAATGGAGAAAAGGCTTCTATCACATGGCACTGGCAGCTAAAGTTCCCATTGTACTGGCAGCCGGTGATTTCAAAAGAAAAATCGTTTATCTGGGCTATACTATTCCTTACGAAAGAATAGCATCTGTACCTTTTTCAGAAATCATACAGGAAATTCAGGACTATTATATAAAAAATGACATTGTTCCTAAAGTTCCTGAAAACTGGAATCCTAATATCATGGGAACTGAACAGAGCTAG	MKKLIGKAMLKILGWKVVLQGDVNSLNRCILVVAPHTHNMEYILGNFAYWSLKKPLKIIIKDAHTKAWYGSIVKGLGGIGIDRSQKNDLVNFVANQFSKEDFSLVITPEGTRSWVPKWRKGFYHMALAAKVPIVLAAGDFKRKIVYLGYTIPYERIASVPFSEIIQEIQDYYIKNDIVPKVPENWNPNIMGTEQS				NA	NA	NA	NA	NA
BMS003_00798	429	menI		1,4-dihydroxy-2-naphthoyl-CoA hydrolase	ATGAAAGGCCAGACAAAAGAAGAAATATTAGCATTCATCAATAACTGGGGAGATGTAACGCTTGCCAAAACTCTCGAAATAAAATTCATAGATATTGATCTTGAAAATGAAACCCTTACTGCTACGATGCCTGTTCTTCCAAGAACTCACCAGCCGTTTGGGATCATGCACGGGGGAGCAAGCTGTGTTTTGGCTGAAACTTTAGGATCAAGCCTGTCTAATATCTTTATTGATGGTGAAAAATATTATGGAGTTGGAACCAACATTAATTCTAACCATTTAAGAAGCAAAAAAGACGGCATTGTAACTGCTACGGCACGTTTTATCAGGAAAGGAAAAACAATGCATGTCTCTGAAATTGAAATCCGTGACGAAAAAGGCATTCTAATCAATCACACAACAATGACGAATAATATTATTCACAGATAA	MKGQTKEEILAFINNWGDVTLAKTLEIKFIDIDLENETLTATMPVLPRTHQPFGIMHGGASCVLAETLGSSLSNIFIDGEKYYGVGTNINSNHLRSKKDGIVTATARFIRKGKTMHVSEIEIRDEKGILINHTTMTNNIIHR	PGPT0001845_1131	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
BMS003_00799	969	menF		Isochorismate synthase MenF	ATGATTTATTTCAAACTTCCTTTCGACGAGAGATTATTGTCTGCTGATGAAAAAAACACTAAAAACGCAATTGACTTTTTTTCTTATAACGGCTTAGATCAAATCAGCTTCCATGGAAATATTTTTGAAATAGATCCTGACAAATATGATCATACTTCTATCATCAGTAAAACACTGACCCATGACTGCACAAACTCTACTGCCGAAACCAAAGAAGAATACTGCAGTACTTTACAGAAGGTCATTGAAGTCATCAAAGAAAACAATCTGCCGAAGCTTGTCTATTCAAGAAGAAAAATCTTTACCGATTTTAAAACGATCAATTATGGAGAGAGTTTTACAAATTTATGTAAATCTTATCCCAATGCTTTCAGATATCTGTTTAATGACGGACAAAACGCCTGGATGGGTGCTTTCTCCGAAGTTTTAGGAAAATTCAGCAAATCAACCCATGAATTTGAAACCATGGCACTTGCCGGAACTCTTCCTGTTTCTGAAGAATGGTCTGAGAAAGAAATAGAAGAGCAAAAACCTGTTACAACATACATTCAGGATATTCTGAAAAATTATTCTGAAAATATAGAACAATCAGAAACATATGATCATATTTCAGGAAATATAAAGCATTTACGGACAGATTTTAAAACTGTGATTTGCCCGGAAGATCTTGACAGAATTATTCAGGATCTGCACCCTACTCCGGCTGTTTGCGGAATTCCAAAAGATTTCTGTAATGAGAATATCCGTAAATACGAGAAATTCCCTCGTGAATTTTATGCCGGTTATATTAAGGTGGAAACCGAAGAGAATATTTTTTATTTTGTGAATCTGCGTTGCGCAAGGCTTTATAAAGATTCTGTACATGTTTTTGTGGGAGGAGGAATAACAGCTCAAAGCAATCCGGAAAAAGAATGGAAAGAAACTGAGCTGAAATCCGAAGCGATATTGAAAAATTTGGTTATTTCTTAG	MIYFKLPFDERLLSADEKNTKNAIDFFSYNGLDQISFHGNIFEIDPDKYDHTSIISKTLTHDCTNSTAETKEEYCSTLQKVIEVIKENNLPKLVYSRRKIFTDFKTINYGESFTNLCKSYPNAFRYLFNDGQNAWMGAFSEVLGKFSKSTHEFETMALAGTLPVSEEWSEKEIEEQKPVTTYIQDILKNYSENIEQSETYDHISGNIKHLRTDFKTVICPEDLDRIIQDLHPTPAVCGIPKDFCNENIRKYEKFPREFYAGYIKVETEENIFYFVNLRCARLYKDSVHVFVGGGITAQSNPEKEWKETELKSEAILKNLVIS	PGPT0003220_1179	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0003220-entC|vibC|viuB|angC|vabC|dhbC|basJ|cbsE|aebC-K02361	NA	NA
BMS003_00800	201			hypothetical protein	ATGAAGAAGTTTTATAAAGTATTTTTAGTACTGTTTATTGTATTCATCGCCATCAATCTTTATGCTATCAACTGGCAGGCATCAGATATCTTAGGAGATGAAGATAACATTAGGTTTGCATTCTCCGCCGGAGCTGCTATATTAGGCCTTATCCTGCTTTTTGTTATGGATACGTGGAGCAGAATCGGTTTGAAGAAATAA	MKKFYKVFLVLFIVFIAINLYAINWQASDILGDEDNIRFAFSAGAAILGLILLFVMDTWSRIGLKK				NA	NA	NA	NA	NA
BMS003_00801	603			hypothetical protein	ATGGAAATTTTTGATGGTTTCTCTGTTAAAGAGATCTTTACCAGCTTTATGGTTCTTTTCGCCGTTATTGATATTATCGGTTCAGTTCCTATTATAGTAAGCCTTCAGCAGAAGTTTGGGCAGATTGAAGCGGGGAAAGCTGCCATCACTGCCGGAGTCATTATGATTGTGTTTCTGTTTGTAGGAAACAAGATTCTTAAGCTTATTGGAGTAGATGTGAATTCTTTTGCTATTGCCGGAGCTTTTGTGATTTTTGTCATAGCCCTGGAAATGATTTTAGGAATTGAAATCAATAAAACTACTGAAGCAAAAGCAGCTTCTATTGTTCCCATCGCATTTCCGCTGGTGGCAGGTGCAGGAACATTGACAACAGCACTGTCTCTCAGAGCTGAATTTCATGATATTAATATTATCTTCGGAATTGTTCTTAATACAATTTTCGTATATTTGGTGCTGAAATCTGCAAAATGGCTGGAGAAGAAAATTGGGGATGCTACTTTGATGATCCTTCAGAAAGTTTTCGGAATTATCCTTTTAGCAATTTCAATTAAATTATTCACTGCAAATTTTGCCCAGCTGGTGCAGAATTATATTAATTTTTAA	MEIFDGFSVKEIFTSFMVLFAVIDIIGSVPIIVSLQQKFGQIEAGKAAITAGVIMIVFLFVGNKILKLIGVDVNSFAIAGAFVIFVIALEMILGIEINKTTEAKAASIVPIAFPLVAGAGTLTTALSLRAEFHDINIIFGIVLNTIFVYLVLKSAKWLEKKIGDATLMILQKVFGIILLAISIKLFTANFAQLVQNYINF	PGPT0029250_2721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS003_00802	1740			hypothetical protein	ATGCAGCACAAATTGATTTACATATTGCTTACTCTGGCATCCGTAATTACTTACGGACAGGTAAATCTTACAATGGATGCTGATAAAGCTGAATACGGAGGGAAAGATATTGTAAATCTTACCATTGTTCTTGAACTTAACGGAACTGATCTTGTTCAGCAGACAGGTTTCCAGCTTCCGGACCTTTCAAAATTCAATATTATAGGAAGTGGATCCGTTACCAATACCGTAATAGATCCTGCTACCAATACTTTAATTACCCAGAAGGTTTCCAGAATTGCTCTTGAACCTAAAAAGAAAGGAAAAATAAAAATAGGTTCAGTTCTGGTTACCATTAACAACAAAATCTACAAGACGGAACCTTTTGATGTTAATATCCGTGATATTATCGAAAGAAAATCATTGGCAGCCAATACATCCGGGGATGTTTACCTGAATATGGAAATAGATGACCGGGATGTATATCAGGACCAGCCTACGATTGCTGTTCTTAGAGTGTATTCAAGAAATATGGATAACCTGAGAAAAGTAAAGAACATTCATCTTCCCAAGCAGGATAACATCAATGTGCATCCTATCAATTTTAATAAATCAGAGATAGATCCGTCCGGATATGGGAATATGCCTTCACAGGTGTTGGCCATGTTTATGGTATTTCCAAATGAAGCAGGATATGTAGAAGTTCCGGGAGTATCAGCTTCTGTAAGCTCTTATTCTAATAAAACCAAAATTGTTTCCAATAAAGTAAAAATCAATGTCAGAAAACTGCCGGAAGGGGCTCCGGAATGTTTTAAGAATGCAGTCGGAAACTTCAAAGTAAATGTATATAATGCTTCCAAACAGAAACCGGAAGCCCAAAAACCACTGAATGTTGTAGTGAAAGTTTCAGGAGAAGGTAACTTACCGGATATGGAACTTCCTAAAATTGCAGCATCTCCGGATTATGAAGTTTTTGCCCCCAAAATCACAGCTAAAGTTTCTCCGGGACCTTCAGGAATGAAAGGTGAAATTCTTGCTAATTATGTCGTTATTCCAAACAAATCTGGAGCAATTTCAATTAAAACAGAACAGTTTGCTTTCTTTGATCCTGCAAGCAAAGAATATGTAGATCTTGGACAAAAAGCACTTACCGTAAATGCATTCTCTCATGATCAGATCATGGAAGCCCGTACTACGGTAGAAAAAGTGAATGAATACACCAATAATCTTCTGGAAACGGTGAATACCCCGGTTTTGAAAACCACTTCTTTCAAAGTAAAAGAGAAAAATAAATTCCACTGGAATATCCTTTTAACTAATGTTGCCATTTTGTTCAGTTTATTTATTGCTTATTTATTATTTAAAAATTGGCAAAAAAAACGTACATTAGTTAGAGAAACTGTACCGTCAAGATCCCTGGGTTCAGTGGCAGAAACTGAAAAAGAGATCAGAGAGTTATTGAAAACGGATGTCAATGATTATTTCGGATACCTGGAAAATCTTAAAGACAACGGAGAGTATGAAAAGTTCTTTGTAACACTGGAGGAGTTGGATCAGGAAGTAAGAGGCCAGTATTTCCAAGGCTCTGTTATGGAGTTTAAGACTTTTCTTGAAAAGCACAAAGGATCTTCAGTTGCAGAAGAATACAGCAAGTTGCAGCAGAAAGTGGATATGGAAAAATACAATCCTGTGAAATCCACGGATGCGCTTGAGGAACTTTTGAAAACAATTGTTAATTTATATTCACAAATTAGCAAATAA	MQHKLIYILLTLASVITYGQVNLTMDADKAEYGGKDIVNLTIVLELNGTDLVQQTGFQLPDLSKFNIIGSGSVTNTVIDPATNTLITQKVSRIALEPKKKGKIKIGSVLVTINNKIYKTEPFDVNIRDIIERKSLAANTSGDVYLNMEIDDRDVYQDQPTIAVLRVYSRNMDNLRKVKNIHLPKQDNINVHPINFNKSEIDPSGYGNMPSQVLAMFMVFPNEAGYVEVPGVSASVSSYSNKTKIVSNKVKINVRKLPEGAPECFKNAVGNFKVNVYNASKQKPEAQKPLNVVVKVSGEGNLPDMELPKIAASPDYEVFAPKITAKVSPGPSGMKGEILANYVVIPNKSGAISIKTEQFAFFDPASKEYVDLGQKALTVNAFSHDQIMEARTTVEKVNEYTNNLLETVNTPVLKTTSFKVKEKNKFHWNILLTNVAILFSLFIAYLLFKNWQKKRTLVRETVPSRSLGSVAETEKEIRELLKTDVNDYFGYLENLKDNGEYEKFFVTLEELDQEVRGQYFQGSVMEFKTFLEKHKGSSVAEEYSKLQQKVDMEKYNPVKSTDALEELLKTIVNLYSQISK				NA	NA	NA	NA	NA
BMS003_00803	741			hypothetical protein	ATGAATACTAAAATCATATTTTTATCGTTTGTTATTGCCATCTCTTTCTCAGGCACCTTGTTTGGGCAGGAAAGCTACAAGAACTTAGTTCATGAAGGCAATCAGAAATTTGACGGTAAAGATTATGAAGGAGCCTCCTCAAAATATATGGAAGCGCTAAAATCCAATGATAAAGATTTTACCGCCCACTATAATATGGGGAATGCATTATATAAAAGTAAAAAGTACGAAGAAGCAAAGGCTGAGTTTGAAAAAGCGGAAAAACTTTCGCAGACACTTCCTGATAAAACAGCAGCTCTTCATAATTTGGGAAATGCGTATATGCAGATGAATCAGCCGGAAAAAGCTGCTGATTACTACAAAAAAGCTCTGAAGCAGGATCCTTACAGTGAGGTAACCAGAAAAAACTACGAGATTGCCAGGCTGAAAGAAAAAGAAAAAGAAGAACAAAAAAAACAACAGAATAACTCAGGAAAAGGTGGCGGCGGAAATGATCAGAACCAAGGAGATGATCAGAAAGGCGACAAAGATAAACAGGATCAGGGTAGTGGCCCTCAAAACCAGGGTAAAGGTGACCAGGGTGATCATCCAAAGCAGAATCAGAATGATGAAGGCAGAATGCCCAAGAATCTTGAAAATGCGATCTTAGATAAAATAAACGAAAAAGAAAAAGAAACCGCCAGAAGAATTTTAAATAAAAATTCTTATTCGATGCCTGAGAGCAACGAGAAAGATTGGTGA	MNTKIIFLSFVIAISFSGTLFGQESYKNLVHEGNQKFDGKDYEGASSKYMEALKSNDKDFTAHYNMGNALYKSKKYEEAKAEFEKAEKLSQTLPDKTAALHNLGNAYMQMNQPEKAADYYKKALKQDPYSEVTRKNYEIARLKEKEKEEQKKQQNNSGKGGGGNDQNQGDDQKGDKDKQDQGSGPQNQGKGDQGDHPKQNQNDEGRMPKNLENAILDKINEKEKETARRILNKNSYSMPESNEKDW	PGPT0014015_7152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00804	1008			hypothetical protein	ATGAGTTGGTCTTTAGGAAATTATTGGTATTTATTTTTACTGTTGCTTCTGCCGCTGTTAGCCAGCTTTTTGATTCGTTTTTTAAAATGGAGAAATAAAAAAAGAGAAGTTTTTGCGGCCAGCCAGTTTCACGATAACTTATTCGAAAAAAGATCCGGATTTACAATGTTTTTTCCGGCATTATATCTATTGGGGACACTGTTTTTGATATTCTCCATTATCGACCTTTTGAATGGTTCCGAAGAAGTAAAAAGTACCCAGAAACTGAACAATGTGATCTTCATGCTGGATGTATCCAATTCTATGAATGCTGAAGATATAGATCCAAGCCGCCTTACAGAAGCCAAAAATCTGATGCTGGCTACCATGAAGAAAATGAATAATGATAAAGTAGGTATCGTTATTTTTGCCGGGAATGCAATGTCTATTATGCCTCTTACCACAGATTATAATTCTGCGGAAACCTATATCAGTGGTATTGAAACCAATTCAATGCAGATTCAGGGGACAGATTTTCTGAAGGGAATGCAGACTGCCGCCGAGAAATTTAAAAATGTAAGCAAAGGATCCAGAAAAGTGATTCTGCTGAGTGATGGTGAAGATAATGAAGGAAATGATAATGCAGCCATCAGATTAGCTAATAAAGAAGGGATAAGCATTACTTCCGTAGGCGTAGGTACAGATGAAGGAGCTCCGGTTCCGGAATATGTATTCGGACAACTGATGGGTTATAAAACTGATGCAAACGGAGGTACGGTAATTTCAAAAAGACAGACGGAAGCTTTAAAGAAAATGGCCGAATCTACAGATGGTGCTTATATTGACGGAAATAACATCAATGAAGCCCCGGACAGAATTGTGGATGCCATAAATAAGAAGTCTTCAGGCGCTGAAACAATGGTGAAATCACAAAATGCCAACCATTATTACCAGTATTTTCTTGCAGTATCTCTTCTGTTTTTCTTTTTAATCTATATTTTTAATCCAAAAAAAGATTTTAATGTGTAG	MSWSLGNYWYLFLLLLLPLLASFLIRFLKWRNKKREVFAASQFHDNLFEKRSGFTMFFPALYLLGTLFLIFSIIDLLNGSEEVKSTQKLNNVIFMLDVSNSMNAEDIDPSRLTEAKNLMLATMKKMNNDKVGIVIFAGNAMSIMPLTTDYNSAETYISGIETNSMQIQGTDFLKGMQTAAEKFKNVSKGSRKVILLSDGEDNEGNDNAAIRLANKEGISITSVGVGTDEGAPVPEYVFGQLMGYKTDANGGTVISKRQTEALKKMAESTDGAYIDGNNINEAPDRIVDAINKKSSGAETMVKSQNANHYYQYFLAVSLLFFFLIYIFNPKKDFNV	PGPT0014015_5152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00805	993			hypothetical protein	ATGTTTAATTTTGAGTTTTACAGTCCGTGGTTCTTATTGCTTTTTCTACTGTTTATCCCGCTTTTAATTAAAGATGCAGGAAGCCGCAAAAGAAAAGGTATAAAAGTTCCTACCATAAAAAACATGAATCATAGCGGAGGGATTCAGGGAGTGCTTTTTTTGCTGAAAATCTCAAAGTACATTATTCTTTCAGCTTTGATCATTGCCATGGCAAGGCCGAGAACATTCACTGTTTCTCAGGATAGGGATGATACAAAAGGGGTAGATATTATGCTGTCTATTGATGTTTCTTTAAGTATGCTGGCAAAGGATCTGAATCCGGACAGAATTACAGCATTAAAAGATATTGCCGTAAAATTTGTTCAGAAACGTCCAAATGATAGGATAGGAGTGGTGGCGTATGCTGCAGAAGCATTTACAAAAGTTCCGGTTACCTCAGATCATCAGGTGGTGATTGATGAAATTAAAAACCTGAATTCTGCAGGCCTGGAACCTGGAACGGCTATCGGAGAAGGTCTTTCCGTAGCGGTGAATCATTTGGTTAAAAGCAAAGCCAAAAGTAAAGTAGTTATCCTGATGACGGATGGGGTAAGCAATATTCAGAATGCTATTCCTCCACAGGTTGCTGCCGAACTGGCAAAAAATAATAATATAAAGGTATATGCAATCGGTATCGGGACCAATGGTTATGCATTGATGCCGACTTCGCAGGACATCTTTGGAGACCTTATATTTACAGAAACAGAGGTTACTATTGATGAAAATACCTTGAGAGAAATAGCACAGACTACGGGTGGTAAATATTTCAGAGCCACCTCAAACAGCAGTCTGGAAGAAGTATATGATGAGATCAACCAACTGGAAAAATCTGATGTGAAGGTTTCAAAGCTTTACAATTACGAAGAATATTTCAAAATATTCCTTTGGGTTGCATTAGCAATGTTGGTGCTGGATGCATTGTTGAGATGGGTGTTTTATAAAATTTTAAGCTGA	MFNFEFYSPWFLLLFLLFIPLLIKDAGSRKRKGIKVPTIKNMNHSGGIQGVLFLLKISKYIILSALIIAMARPRTFTVSQDRDDTKGVDIMLSIDVSLSMLAKDLNPDRITALKDIAVKFVQKRPNDRIGVVAYAAEAFTKVPVTSDHQVVIDEIKNLNSAGLEPGTAIGEGLSVAVNHLVKSKAKSKVVILMTDGVSNIQNAIPPQVAAELAKNNNIKVYAIGIGTNGYALMPTSQDIFGDLIFTETEVTIDENTLREIAQTTGGKYFRATSNSSLEEVYDEINQLEKSDVKVSKLYNYEEYFKIFLWVALAMLVLDALLRWVFYKILS	PGPT0014015_5725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS003_00806	921			hypothetical protein	GTGTTTGCCTTTATTATTTTAACATTGAGAAAAATACTTTTAATATTATCTTTTCTGATCTGTGCGAATGCTTTTTCACAGATATTATCCTCTAACGTAGAAAAGAAAACTATTGCTTTGGGAGAAGTCAATCATCTTACGATAAAGATTGATAACCTTAATGAACAGCAGGTAACTTCAGCAGCTAAAAATGAGCTGCTCCCTTTTCATTTTGAAGAAATCAAAGACAGTATAGGGCAGAATACCAATACTTATGAGAGAAAGATAGAATTTGCAGTTTTTGATGAAGGAAAATTTACCATTCCGGAGCTGGAATTCAAAGTGGGAGATAAAATACTCAAGACCATTCCTTACGAAATAGATGTCATTAATACCGCTCAAAAAGCAGACCAGATTAATGATATTATGAATAACAAGCAGGTAAAACTGGAGGCAAAAGATTATTGGGAGCTTTACAAGTTTTATATCCTTGCAGCATTGGCAGCCATTGCTCTCATTATTGCTATTATTATGTTTGTAAAATGGGGCAGAAAATCGAAAAGTACACCCGTAGTGGCCACTAATCAGACCTTGAAAGAACTGGATTCACTTAAAAAGAAAAAATATATTGAAGGAGGAAATTTCCGTTCGTTCTATGTAGAGCTGATTGATATTTCCAGAACCTTCATTACAAAACAATACCATCTTCCGGCAGACGTACTTCTTACGGATGACCTTATTGATGTTCTGAGAAAGAATAATACCATCTCACAGGACAACGAAAAAGTAATTGAAGAGGTATTCCTTAGAGGTGATCTGGTAAAATTTGCCAAAACATTTCCGGATCAGGAAACAATGGAGAGAGATTTTGCCAATATCAGAGATTTTGTGAAAAGATCATCCAAAGATTTAGAATTCGAAAACTTAAGAAAGGATGTTTAA	MFAFIILTLRKILLILSFLICANAFSQILSSNVEKKTIALGEVNHLTIKIDNLNEQQVTSAAKNELLPFHFEEIKDSIGQNTNTYERKIEFAVFDEGKFTIPELEFKVGDKILKTIPYEIDVINTAQKADQINDIMNNKQVKLEAKDYWELYKFYILAALAAIALIIAIIMFVKWGRKSKSTPVVATNQTLKELDSLKKKKYIEGGNFRSFYVELIDISRTFITKQYHLPADVLLTDDLIDVLRKNNTISQDNEKVIEEVFLRGDLVKFAKTFPDQETMERDFANIRDFVKRSSKDLEFENLRKDV				NA	NA	NA	NA	NA
BMS003_00807	864			hypothetical protein	ATGCAGATAAAAGATATTGTAAAAAAAGTAAAGCAGATTGAAATCCGTACCAGAAAAAAGACAGAGGCTGCTTTGATGGGACAATATCACAGTGCCTTTAAAGGGCAGGGGATGACTTTCTCTGAGGTGCGTCCGTATCAGTTTGGAGATGAAATCAGAAGAATAGACTGGAACAAAACTGCACGTTTCCGTGAGCCGTTCGTAAAAGTAATGGAAGAAGAAAGGGAACTGACGATGATGATTCTTGTGGATATTTCTGCTTCCATGGATTATGGAACAAAAGTTCAGCTGAAAAGAGAATATGTTGCAGAAATTGCAGCCAGTTTAGGATTTTCCGCAGCCGGAAATAATGATAAAGTAGGATTGATTCTTTTTGCTGATAAAGTCTATAAAGTAATTCCTCCTCAGAAAGGAAGAAAGCATATTCTTTCCATCATCAGTAATATTCTGACCGCAGATTATGTTCCGGCAGAATCTAAAATAGACAAAGCAATGGAATATATGATGGGGATTTTTAAAAGAAAATCTCTGGTGTTTCTGTTTTCAGATTTTGAAGATGAATATGATTCCAAAATGCTAAGGGTTGCTTCAAAGAAACATCAACTGTTGGGAATGAGGATTTATGATGAAAAGGATAATGAAATTCCTGACGTAGGATATGCCCGCTTGTATGATGTAGAAACCGGAAAGGAAATATGGGCCAATACTTCCAGTGCGAGATGGCGCTATACTTTTGCAGAAGCTCAAAAACAGAAACTGAGAGCTTTGGAAGAAGACTTTGCCAACAGTTCTGCAAGTTTTATGAATATCAATACCGGCTCAGATTATTCAAAATTATTGTATAATTACTTTCAGAAAAAATAA	MQIKDIVKKVKQIEIRTRKKTEAALMGQYHSAFKGQGMTFSEVRPYQFGDEIRRIDWNKTARFREPFVKVMEEERELTMMILVDISASMDYGTKVQLKREYVAEIAASLGFSAAGNNDKVGLILFADKVYKVIPPQKGRKHILSIISNILTADYVPAESKIDKAMEYMMGIFKRKSLVFLFSDFEDEYDSKMLRVASKKHQLLGMRIYDEKDNEIPDVGYARLYDVETGKEIWANTSSARWRYTFAEAQKQKLRALEEDFANSSASFMNINTGSDYSKLLYNYFQKK				NA	NA	NA	NA	NA
BMS003_00808	459			hypothetical protein	ATGAGTGATGTTATAATAAGAAAAGCAGTTCAGGAGGACTGTGCTTCCATGCTGAATTTAATCAAAGAACTGGCAGAATATGAAAAAGCACTGCATGAAGTAACAGTAACACTGGACGAGTTTACGCTGGATGGTTTCGGTGCTTCTCCTGTATGGGGTGCTTTTGTGGCAGAGTATGAAGGAGAGATTGTGGGAATATCATTATATTATGACAGGTATTCTACATGGAAAGGAAGAAGACTCTATCTTGAAGATCTTGTAGTGACCGAAAAGCTGAGAGGAAAGCAAATAGGAAAGAAATTATTTGATGCCACGCTGGAATATGGTAAAACCAATGATTACAGCGGAATGGTTTTCCAGGTATTGAACTGGAATGAACCTGCCATCAATTTTTATAAAAAATACAGTACAAAGTTTGATAACGAGTGGTCTAATGTATCTATTGAATTTAGAAACTAG	MSDVIIRKAVQEDCASMLNLIKELAEYEKALHEVTVTLDEFTLDGFGASPVWGAFVAEYEGEIVGISLYYDRYSTWKGRRLYLEDLVVTEKLRGKQIGKKLFDATLEYGKTNDYSGMVFQVLNWNEPAINFYKKYSTKFDNEWSNVSIEFRN	PGPT0007790_1241	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
BMS003_00809	1005			hypothetical protein	ATGTCAGAGATATATCAAGCTGAAGATATCCGCCAATTGACGGAAAAAGTAAAGGAAAAAAACTACTTATTTTCTCTTCTGAGACAGGAAATCAACAAAGTTATTATTGGACAGGAATACATGGTAGACCGCCTTTTGGTAGGGCTTCTGGGGAATGGACATGTTCTTTTGGAAGGGGTGCCGGGATTGGCCAAAACTCTTGCGATAAAGACTCTGGCAGATGCTGTTCATGGTGAATTTTCAAGAATTCAGTTTACACCGGATCTGCTTCCTGCGGACGTAGTGGGAACCATGATTTATAACATTAAAGACAATGATTTCTCCATTAAAAAAGGACCTGTATTTGCAAACTTTGTTTTGGCAGATGAAATCAACCGTGCGCCTGCAAAAGTACAGTCAGCTCTTTTGGAGGTGATGCAGGAAAAACAGGTTACAATTGGTGATGAAACCATGAAGCTTCCTAAACCATTTTTGGTATTGGCAACGCAGAACCCGATTGATCAGGAAGGAACTTACCTGCTGCCTGAAGCGCAAAGTGATCGTTTCATGCTGAAGTGCACCATAGATTATCCGGCTTTCGAAGATGAAAGACAGGTGATGAGAATGGTTTCAACTTCACATCAGCCAACGGTGAAGCCAGTAATCTCCCTGCAGGACATTGTGGATGCAAAAGAATTGATCAATCAGATTTATCTGGATGAGAAAATTGAAAAATATATTCTGGATATGGTCTTCGCAACACGCTATCCGGAAAATTATGGACTTTCTGAGCTTAAAAATTATATCAGTTTCGGAGCTTCTCCAAGAGCTTCCATTAACCTAGCTATTGCATCAAGAGCTTATGCATTCCTGAAAGGAAGAGCTTTTGTGATTCCTGAGGATGTAAAAGCATTGGCAAAAGATGTTTTGAGACACAGAATGGGCTTGACTTTCGAGGCTGAAGCTGAAGAAATGACAACAGAAGAGATCATCAACAGAATTTTAGCAAAAATCCAGGCACCGTAA	MSEIYQAEDIRQLTEKVKEKNYLFSLLRQEINKVIIGQEYMVDRLLVGLLGNGHVLLEGVPGLAKTLAIKTLADAVHGEFSRIQFTPDLLPADVVGTMIYNIKDNDFSIKKGPVFANFVLADEINRAPAKVQSALLEVMQEKQVTIGDETMKLPKPFLVLATQNPIDQEGTYLLPEAQSDRFMLKCTIDYPAFEDERQVMRMVSTSHQPTVKPVISLQDIVDAKELINQIYLDEKIEKYILDMVFATRYPENYGLSELKNYISFGASPRASINLAIASRAYAFLKGRAFVIPEDVKALAKDVLRHRMGLTFEAEAEEMTTEEIINRILAKIQAP				NA	NA	NA	NA	NA
BMS003_00810	474			hypothetical protein	ATGAATTATCATTTTCAAGCGCACAGACAGGTAAGAAAGAACCTTTTAGATGTCCTTCAGAACACCTCTCATGAAGATCTGCTTCTGATTCCGGATGGTTTCAACAACAATATCTACTGGAATATTGCACATACTGTTGCTACACAGCAGCTGCTGCATTATTATCTGAGTGGAAATCCTTTCCGTATTGATAAATACTGGATTGAAACCTATAAAAAAGGAACTTTACCCAACTTAAATGTTCAGAAATCCGAAGTAGAAGATCTGGAATTTTTACTGACAGAAACTTCAAAGATTTTAATGAAGGATTATGACAGTGATTTCTTCTCAGACTACACTCCATACACAACAAGTTTCGGGATGGATCTGAAAAGCATTCAGGATGCCATTATCTTCAACAATATGCACGAAAGTCTTCACTACGGATATGTACTGGCGCAGAAAAGAGCAATTTTGGGAGAGAAAGGGAGATAG	MNYHFQAHRQVRKNLLDVLQNTSHEDLLLIPDGFNNNIYWNIAHTVATQQLLHYYLSGNPFRIDKYWIETYKKGTLPNLNVQKSEVEDLEFLLTETSKILMKDYDSDFFSDYTPYTTSFGMDLKSIQDAIIFNNMHESLHYGYVLAQKRAILGEKGR				NA	NA	NA	NA	NA
BMS003_00811	759			Putative TrmH family tRNA/rRNA methyltransferase	ATGACAGATAAAAAAGACGATTTTATTTTCGGGCTGCGTCCCGTAATTGAAGCCATTGAAGCAGGAAAAACTATTGACAAGATCTTTGTGCAGAATGCACTTCAGGGTCCTATTTATGCTGAGTTAAAAGCCGTTTTAGCTAAAAATAAAATCCGTCCCAATTATGTTCCGGTTGAAAAACTGAACCGTTTTACAAGAAAAAATCACCAGGGTGTGGTTGCTTTTATCTCGGATGTACCGTTTCATAAAGTGGAGGATATTGTTCCACAGTTATTCGAACAGGGGAAAACTCCTTTCCTTCTGATTCTGGACAGACTTACTGACGTAAGAAATTTCGGAGCGATCTGCAGAACGGCAGAATGCGTAGGAATTGATGCCGTTATTATTCCGGAAAAAGGAGCATCTCCTATCAACTCGGATGCTATAAAAACTTCTGCGGGAGCTATTTATAATATCAAAATATGTAAAGAAAACAATCTGGCACATACTGTAGATTTTCTTCAGCAAAGCGGAATTTCTGTATATGCGGCCAGTGAAAAAGCTCAGAAATTAATCTATGATGTGAATTTCACAGAACCATGTGCTATTGTAATGGGAAATGAAGAAACCGGAATTTCTAAGGAAGTCCTTCATCATGCTGACGAAAAAATAAAACTTCCTATTGAAGGGAAAACTCAGTCCCTGAATGTTTCTGTAGCATGTGGAGCGATTTTGTATGAAGCGGTAAGACAGAAAATGACAGTGGTACCCAATCCTTAA	MTDKKDDFIFGLRPVIEAIEAGKTIDKIFVQNALQGPIYAELKAVLAKNKIRPNYVPVEKLNRFTRKNHQGVVAFISDVPFHKVEDIVPQLFEQGKTPFLLILDRLTDVRNFGAICRTAECVGIDAVIIPEKGASPINSDAIKTSAGAIYNIKICKENNLAHTVDFLQQSGISVYAASEKAQKLIYDVNFTEPCAIVMGNEETGISKEVLHHADEKIKLPIEGKTQSLNVSVACGAILYEAVRQKMTVVPNP				NA	NA	NA	NA	NA
BMS003_00812	1122	ampH	COG1680	D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH	ATGAAAATAAAAGCACTTTTACCATTATTTTTTGCACCATTCGTGTTGAATGCACAGGCAAAAAATACCGCCACAGACAACCGTCTTATTACAGAACTTGATAAGATGATTCAGAAAGAGGCTCTTACTTATATGCAAAATCCCGCCCGCGTAGGAATTTCAATAGGTATTATTAAAGATGGTAAAAGTTATTTTTATAATTACGGAACCACGGAAATCGGGAAATCCGAGCTTCCTACTTCGCAAAGTCTGTATGAGATTGCATCCATCACCAAAACATTTACCGGAACACTTCTGGCACATGCTTTAGCAGACGGAAAAATCAAAATAGATGATGATATCCGGAAATATATAAACGGAAACTATCCTAACCTTGAATTTGAAAAGCATCCGATAACAATCGGTAACCTGACCAATCATTCATCGGGATTGCCGCAGTTTTTACCGGATCAGTCGGAAACATTTAAAAAGCCGATGGACTCTGTTGCTATAGCATTGGCTGATTTTTATAAAAACTATTCAAAAAAGAATTTTTATGAGGATCTTCATCATGCTAAAATAGATTTTGTACCGGGAACGCAATATAAATACTCTAATGTAGGATCACAGATTGCCGGAGATATTCTGGAAAATATATATCACAAAAGCTATGGAGAACTGCTTTCAGAGTATATCACTAAACCTCTGAAAATGACTCACACCATTGTTGGTATGAATTCTGCAAGGCTATTGACTTGCTATAACGAAAAAGGAAAGGTAATGCCAAAGAATTTTACGACCATTTTTGCTCCGGCAGGCGGAATACAGTCCACTACAGAAGATATTGTGAAATACATGCAGTATCATTTGAATGAGAATGACAGGTATGTAAAAGTCTCACACACTCCGCTTGTGAAGAGTGAAGGGGATGAAATTGGGCTGTACTGGAGAGTACATACTTATGAAGACGGAACACAGACTGTTTATCATACAGGAGGTACATTTGGTTTTTCAAGTGTGCTTCAGATTTATCCTTCAAAAAATATGGGGGTTGTAGTATTATCCAATGAATCAGATAGCGAATCTCAGGGGAAGCTGCAGGATATTGCAGATAATATATTAAGAAATAGTAGTAAAAAATAA	MKIKALLPLFFAPFVLNAQAKNTATDNRLITELDKMIQKEALTYMQNPARVGISIGIIKDGKSYFYNYGTTEIGKSELPTSQSLYEIASITKTFTGTLLAHALADGKIKIDDDIRKYINGNYPNLEFEKHPITIGNLTNHSSGLPQFLPDQSETFKKPMDSVAIALADFYKNYSKKNFYEDLHHAKIDFVPGTQYKYSNVGSQIAGDILENIYHKSYGELLSEYITKPLKMTHTIVGMNSARLLTCYNEKGKVMPKNFTTIFAPAGGIQSTTEDIVKYMQYHLNENDRYVKVSHTPLVKSEGDEIGLYWRVHTYEDGTQTVYHTGGTFGFSSVLQIYPSKNMGVVVLSNESDSESQGKLQDIADNILRNSSKK	PGPT0024060_410	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024060-ampH-K18988	NA	NA
BMS003_00813	1050			hypothetical protein	ATGAAGAACATTGCAGCGCTTGCGCTTATATCATCAATAGCTCTTGTATCTTGTAAAAAAGAAACAGCAAAAATAACAAAAGTAGATCCTGAAACCGGAAAAACAGTAACAGTGGAAGTTCCTGCTGATTCTGTAGCGAAAGTAGCAGAAAACCCGGCAATAAGAGACTCTGCAGGTGTTATTACTCAAAGCTTTAAGCTTGAAAAAGGAAAAACTTATCCTCTTACCACTTATCAGAGAGATGTAAAAACAATGACGGATCCTCAGGGGAAATCCATTACAGCAACCAGTGAGTCTACAGATGAAATGAACTTCGTAGTAGATGATATTAAAGGAAATGTATATGAAATGACCCTTAATCTTGTTGCTAAAAGAAGTTCTCAGTCTGCACAGGGGAAAACGGTAGTAGTAGATACAAAGCTGCCAATTCCTAAAGAAGATGATCTTAAAATGATCTGGAATGTAAACAAAGCCCTTACCGGAAACAAACTTGCCATGAAAATGGATACAAAAGGTAACGTCATTTCCATTACAGGATTTGATGCCGTTTACACAAAAGTAAATACTACTGTGGGTACACTTATCAAAGATGCCAATCAAAGAGCCAGTGTAGTAGCGAGTCTTAAAGAATCATTCAATGAGAAAGTACTGAAAGATCAGTTCCATAAAAATCTGATGGTTATCCCTAAAAAGGGAGCCAAAATTGGAGGTAAATGGTCAACTTCTGAAAACGCAGACCCAAGCGGAAATGTAAAAGTAACATCAAACTATGTCCTTAAAAGTTTAGGAAACGGAACAGCAGAAATTGCAGTAACCGGAGGTATTCCTAAGAAAACAGAAAAGAAAACTCAGGGACCTATCACGCATAGCCTGAGTAGTGAACTGGTTCAGAACGGAACCATTAAGTTTGACGAAAATACAGGATGGATTACCAACCAGAATATCAACGTAAAAACAACTCAGATAGAAACCATCTCAGATGGAAAACAATCTCAGTCTATGAAAAGCGTTTCTAATTCTTCTGTAATGGTAAACCCATCTGCTAAATAA	MKNIAALALISSIALVSCKKETAKITKVDPETGKTVTVEVPADSVAKVAENPAIRDSAGVITQSFKLEKGKTYPLTTYQRDVKTMTDPQGKSITATSESTDEMNFVVDDIKGNVYEMTLNLVAKRSSQSAQGKTVVVDTKLPIPKEDDLKMIWNVNKALTGNKLAMKMDTKGNVISITGFDAVYTKVNTTVGTLIKDANQRASVVASLKESFNEKVLKDQFHKNLMVIPKKGAKIGGKWSTSENADPSGNVKVTSNYVLKSLGNGTAEIAVTGGIPKKTEKKTQGPITHSLSSELVQNGTIKFDENTGWITNQNINVKTTQIETISDGKQSQSMKSVSNSSVMVNPSAK				NA	NA	NA	NA	NA
BMS003_00814	231			hypothetical protein	ATGAAGTACATTCTTGAGTTAGTACTCACTGCCATTATTATTTTCTTTGTCTGGAACATTCTGAAAAGAATTTTCTTTAAGACATTTTATAGTTACCGTTTTAATAACAACAATCAAAATAACGGACAGCAGGATATACACAACTCGAATAAGAATAACAAACAGAACCTCAACTGGGATGCAGAAACTGTAGACTATGAAGAGGTGAAAGAGAGTAAGGACAAAAGGTAA	MKYILELVLTAIIIFFVWNILKRIFFKTFYSYRFNNNNQNNGQQDIHNSNKNNKQNLNWDAETVDYEEVKESKDKR				NA	NA	NA	NA	NA
BMS003_00815	2541			hypothetical protein	ATGGCAAAAAATAAAAACTTAATTTATATTGCGGCTTCATTAGTAGTATTTATAGTTTTAGCATTTTTATATTCCACTCCTGTATTTACAGGAAAGCAGCTTTTCCAGCATGATATTGTGCAATACAGGGGAGGAGCAAAAGAACTGCTCGACTATAGAGCTGATACCGGAAATGAAACCTACTGGAGTGACTCCATGTTTGGCGGAATGCCAACGTATCAGATGGGAAGCCAGTTCAAAGGTGATATCATCAAGAAAATCGACAGCAATCTGAATTTCCTGCCGAGGCCGGTCAATTATCTCTTCCTGCTATTTGCAGGTTTTTTCCTTTTGGGAATGGTAGTGGTCAGAAACTGGAAATATGCTCTTCTGGGAGCTACTTTCTTCGGGCTTTCAACCTATTTTTATATTATTATTGCAGCCGGACATAATGGTAAAGTAAACACCATTGAATATTTTGCTCCGCTATTAGCCGGAATTTTACTTGTTTATATCAGAAAACAATACATCTGGGGATTCATTGTCACTACCCTTTTTATGGGCTTACAGATTGCAGCCAATCACCCACAGATGACGTATTATCTGTTCATTGCATTAGGATTCTTATTCCTTTCTGAACTGATCAGGGCCATCCAGAAAAAAACTCCTATGAAGCACTTCCTGATTTCTTCAGGAATTATTGCAGCATCCTGTATTATTGGCGTTGGAATGAATTCACAAAGAATCATGGCCAATTCTGAATATATAAAAGAAACCGTTCGTGGAAAGCAGATCTTAGATAATGACAGCCATACTTCAGGAAAGTCCGGAATGGATAAAGAAAGTATGCTGATGTGGAGCTACGGAAAGCTTGAAACCTTAAACCTTTTCATCCCAAGATTAATGGGTGGAGGCAGCCAGGAGCCGGAAGGAAAAGAAATGATGAGCAAGGTTCAGGAGCTTGTTCAGGAAAATGTAGGTTCACAGGCAGAAATGGATAGAATTTCAAGAGGATTCAACGGAATGACCTATTGGGGAGATCAGCCGGGAACCTCAGGGCCAGCTTATCAGGGAGCTGTTGTATGTTTCCTTGCATTATTAGGGTTTTTCTTCGCATCGAAAAAATACCGTTACTGGATATTGGGAGCTTCTATCCTGACTATTTTACTGGCTTGGGGAAGCAATTTTATGCCTTTATCTGACTTCTTTATTGATTATGTACCGTTCTATAATAAATTCAGAGCACCTTCTTCCATCTTAGTGGTTGTAGAATTATTATTCCCTCTTATTGCTGTACTGGGATTATACAGATTCTTCACAGACGTAAAACTGACTGAAGAATACAAACAGAAAACCCTTCTTTATGTAGGAGGCGGAACCTTAGGATTCTTATTGATCCTTTTAATCTTTGGAAAACCATTACTAGGATTTGCAACGGAAGGTGAAAAAACGTATTTCCCTCCTTTTCTGCTTGATTATCTTGTAGAAGAAAGATTTAAACTATTCAGAACAGATGCTATAAAAGCTCTCATTTATGTAGCCATTACTGCTGCAGCTCTGTTCCTGACTTTGAAGAAAAAACTGAATCAGAATATTGCTTTGGTAGTAATCGGGGTAGTAAGTTTATTTGATCTTTGGACGATAAACAAACGTTATTTAAATGACGAAAACTATGTAGATAAAATCTTCGCAGAAAATCCTTTCCAGACAGAAAGTTCAAATCTTTTGGCTGAAAAAGTTCAGGGAAATCCAAACCTGGAATCTATTTTATCCAATGTAAACATCAACAAAACATTGGAAACTATTGCTGAAAAAGACAAAACGCACTACAGAATTTACAACCAGACGCTGGGCGTAACCAGTGAAACGAATACTTCCTACTTTAAAGCTTCAATAGGTGGTTATCACGCTGTCAAATTAAGGAGATATGATGATGTTCTGAATGAGTACATCAATAATGTTGACAGTATAAAAACACCTAATGTATTAAATTTATTAAATGCTAAATACATGGTTTTCGGAGGACCAGAGCAGCCACAGGTTGTCCCTAATCCAAAAGCCAATGGTAATGCATGGTTTGTAAGTGACCTGAAGTTCGTAGACAGCCCTAATCAGGAAATTAAAGCTATCGGAACTATTGACAATAAGAAAACAGCGGTTATTGCATCGACAGATAAAGCCTATTTTGCAGACAAACCTGTTCAGGCAGATTCAACAGCATTTATCAACCTGACAAAATATCAGCCTAACGAACTTGAATTTAAATCTCAGTCGAAAACCCCTCAGTTGGCAGTTTTCTCTGAAGTGTATTATCCTCACGGATGGAAAGTGCTGGTAGATGAGAAAGAGGTTCCGTACATTAAAGCAGATTACTTACTTCGTGCAGTGCATGTTCCGGCAGGAGATCACCATATCAGAATGGTTTTTGAACCTGAAGTGATTGAGAAAGGAAAATGGGTTTCTCTTATTTCCTTCGGGCTATTTATCCTGTTGGCAGCTTTCGGAATTTTCTGGATGAATAAGAACAAGAAAAAAGAGATTGTAGCTGAACAAAAAGCTTAA	MAKNKNLIYIAASLVVFIVLAFLYSTPVFTGKQLFQHDIVQYRGGAKELLDYRADTGNETYWSDSMFGGMPTYQMGSQFKGDIIKKIDSNLNFLPRPVNYLFLLFAGFFLLGMVVVRNWKYALLGATFFGLSTYFYIIIAAGHNGKVNTIEYFAPLLAGILLVYIRKQYIWGFIVTTLFMGLQIAANHPQMTYYLFIALGFLFLSELIRAIQKKTPMKHFLISSGIIAASCIIGVGMNSQRIMANSEYIKETVRGKQILDNDSHTSGKSGMDKESMLMWSYGKLETLNLFIPRLMGGGSQEPEGKEMMSKVQELVQENVGSQAEMDRISRGFNGMTYWGDQPGTSGPAYQGAVVCFLALLGFFFASKKYRYWILGASILTILLAWGSNFMPLSDFFIDYVPFYNKFRAPSSILVVVELLFPLIAVLGLYRFFTDVKLTEEYKQKTLLYVGGGTLGFLLILLIFGKPLLGFATEGEKTYFPPFLLDYLVEERFKLFRTDAIKALIYVAITAAALFLTLKKKLNQNIALVVIGVVSLFDLWTINKRYLNDENYVDKIFAENPFQTESSNLLAEKVQGNPNLESILSNVNINKTLETIAEKDKTHYRIYNQTLGVTSETNTSYFKASIGGYHAVKLRRYDDVLNEYINNVDSIKTPNVLNLLNAKYMVFGGPEQPQVVPNPKANGNAWFVSDLKFVDSPNQEIKAIGTIDNKKTAVIASTDKAYFADKPVQADSTAFINLTKYQPNELEFKSQSKTPQLAVFSEVYYPHGWKVLVDEKEVPYIKADYLLRAVHVPAGDHHIRMVFEPEVIEKGKWVSLISFGLFILLAAFGIFWMNKNKKKEIVAEQKA	PGPT0015226_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015226-yfhO-NA	NA	NA
BMS003_00816	1293			hypothetical protein	ATGGAACAAAAGAAAATATTGATTATCACCTATTACTGGCCTCCTGCGGGAGGTCCTGGTGTTCAAAGATGGCTGAAGTTTGCAAAATATCTGCCTGATTTCGGCTGGAAACCCATCATTTATACTCCGGAAAATCCAAGTTATCCATTACTGGATGAAACGCTGATGAAAGATATTCCGGAAAACATTGAGATGGTAAGAACCAAAATCTGGGAACCCTATCAACTGGCTGAAAAACTGAATAAAAGCAATAAAAAATTCAAGGCCGGACAATTTGATGTGGGAAAGAATCAAAGCTGGAAGTCCAAACTTTCAATTTGGGTAAGGGGTAATTTTTTCATTCCTGATGCCAGAGTTTTTTGGGTAAAACCTTCTATTAGATTTTTGGAAAAATACCTGAAAGAAAATAAAATAGATACCATTGTAACTTCCGGCCCTCCCCACTCGCTCCACTTGATTGGTTTAGGATTGAAAAGCAAAATATCAGATCTGAAGTGGATTGCCGATTTCCGTGATCCATGGACAGAGATTTCGTATTACAAGCACTTGAAATTAACCAAAAGCTCGGATAAAAAACACCGCCAAATGGAAAGTGCTGTATTTAAGAATGCAGATATTACACTGGCTACAAGCTATACCGATGCTGAAAACTTCAAAAAAGCGGGAGCCAATGCCATTTGTATTACGAATGGGTTCGATGAAAGTGATTCCGGAAATAATGCTAAAGAGCAAAAAAGTAAAAATTATTTCACACTAAGTTATATTGGAGTGTTGGAACAGCTCAGAAATCCGGAAAATTTATGGAAAGCACTTGATGAATTAATCAGGGAAAGCACTGATTTTGCAACTGATTTCAAGTTAAAACTTGTAGGAAGAATAGATGATAAAATCCTGAGTGCTATTGAAAATTCGGGTTTAAAAAATCATATTCTGAACCTTGGATACATGGCTCATGGCAAAGCGGTGGAAGAAATGCAGAATTCTGATCTGCTTCTTATCACCAATTTCCCGAATGAATCTTCAAAAGGAATTATCCCTGGAAAAATCTTTGAATATCTTGCTTCAGGAAAACAGATTCTTTCATTCGGGCCTGAGAAAGCTGATGTGGCAAAAATACTGGAAGAAACCCAGGCAGGAAAACACTTTAGCTATCAGGATAAAGAAACTGTCAAAAAGTTTATTCTTGAAAAATTTGAACTTTGGAAGAATGGCAATCTTCTGGAAAACACTCAGCATATTGAACAGTTCTCAAGAAAAAACCTCACCCGTCAGCTGACAGAAATTTTGAAATGA	MEQKKILIITYYWPPAGGPGVQRWLKFAKYLPDFGWKPIIYTPENPSYPLLDETLMKDIPENIEMVRTKIWEPYQLAEKLNKSNKKFKAGQFDVGKNQSWKSKLSIWVRGNFFIPDARVFWVKPSIRFLEKYLKENKIDTIVTSGPPHSLHLIGLGLKSKISDLKWIADFRDPWTEISYYKHLKLTKSSDKKHRQMESAVFKNADITLATSYTDAENFKKAGANAICITNGFDESDSGNNAKEQKSKNYFTLSYIGVLEQLRNPENLWKALDELIRESTDFATDFKLKLVGRIDDKILSAIENSGLKNHILNLGYMAHGKAVEEMQNSDLLLITNFPNESSKGIIPGKIFEYLASGKQILSFGPEKADVAKILEETQAGKHFSYQDKETVKKFILEKFELWKNGNLLENTQHIEQFSRKNLTRQLTEILK				NA	NA	NA	NA	NA
BMS003_00817	642			hypothetical protein	ATGAAAAGATTATTGATTGCGGTATTCGCTCTGAGTGTTGTAGTAGCCTGTAGGAAAGAAGCTGGGAAACCTGTTCCCAATGAAATAGATTCTGCAGCACAAAATAAAGTTGACAATGCGGGAACTGTTCAGCATAAGGTTGATAAAGAAGCCGCTTTAAAGCAAACCAACGATGAGGTTTTGAAAGTGTTAAAAGCTAAAGATTATGCTGCTTTTGCATCCTTCATTCACCCTGAAAAGGGAATCCGTTTTTCAATGTATGCTTTTGTGGATGTGAAAGGAGATAAACATTTCTCTAGAGCAGATTTTGAAAAATATCAGCCCACCAAAACATTGTTTACCTGGGGAGCCCACGATGGTTCCGGGGATCTTTATAAAGCAACAATTAATGATTATCTTGGTAAATGGGTGTTTTCTAAAGATTATACCAACTCACAATATTCACTGAATAAATTGATAGGTGGAGGTAATTCACTGGATAATTTAACAGAAATCTATCCTAAAGATGATTTTACTGAAAATTATATCAAAGGAACAGAGAAGTACGGAAATATGGACTGGAAGACGGTTCGCTTTGTATTTGAAGAATTTCAGGGTAAATATTACCTGATTGCTGTTGTGAATGATCAGTGGACGATATAG	MKRLLIAVFALSVVVACRKEAGKPVPNEIDSAAQNKVDNAGTVQHKVDKEAALKQTNDEVLKVLKAKDYAAFASFIHPEKGIRFSMYAFVDVKGDKHFSRADFEKYQPTKTLFTWGAHDGSGDLYKATINDYLGKWVFSKDYTNSQYSLNKLIGGGNSLDNLTEIYPKDDFTENYIKGTEKYGNMDWKTVRFVFEEFQGKYYLIAVVNDQWTI				NA	NA	NA	NA	NA
BMS003_00818	972		COG0492	Ferredoxin--NADP reductase	ATGGAAATTTTGGACATTCTCATTATCGGAGCCGGCCCTATTGGTCTAAACTGTGCTATTGAAGCTCAAAAAAACAACCTTAGCCATTTAATCATAGAAAAAGGAACCATTGTCAACTCACTGTACAATTATCCTTTGTACATGCGTTTTTTCTCTACTGCTGAGAAACTGGAAATTGACGGAATACCTTTTATTTCAACAGCTCCAAAACCGGGAAGACAGGAGGCTCTGGAATATTACCAGGGAATTGCCAGACAAAAAAAACTGAATATCCATCTTTATGAAAAGGTTTTGACTGTTTCAAAAAATGCTGAAATATTTGAAATCAAGACTAGCAAATCAACCTATCTGGCCAAAAATATAGTCATAGCTACAGGGTTTTATGATATCCCCAATCTTATGAATATTCCCGGTGAAAGTCTTCCGAAAGTTAAACATTATTACACCGAACCTTATCCATACGCAAAACAGAAAATAGTAGTGATAGGATCAAGTAATTCTGCTGTAGATGCAGCACTGGAAACCTATAGAAAAGGAGCGGAGGTTACTATGATTGTCCGTCATTCTGAGATCTCAAAAAGTGTAAAATATTGGGTAAAACCGGATATTGAAAACAGAATAGCTGAAGGAAGCATCCAAGCCCATTTTAATTCAGAAATGATCGAAATAAAAGAGAATACAGTCATTTTCAAGGATGAAAAAGGAGAAATTCATGAAATTGACAATGATTTTGTATTAGCTATGACAGGTTATCTTCCTGATTTTGATTTTCTGAGAAATTCAGGTATTGAGCTGAATGGAGACTGTCTGAAGCCATTTTATAATTCTGAAACAATGGAAACCAATATTTCCAGACTTTATCTTGCCGGTGTTGTATGCGGAGGAAAAGATACACATCTCTGGTTCATTGAAAACTCAAGGATTCATGCCAATATGATTATTAAGGGAATTCTTTCCCACTCTTCGTATTAA	MEILDILIIGAGPIGLNCAIEAQKNNLSHLIIEKGTIVNSLYNYPLYMRFFSTAEKLEIDGIPFISTAPKPGRQEALEYYQGIARQKKLNIHLYEKVLTVSKNAEIFEIKTSKSTYLAKNIVIATGFYDIPNLMNIPGESLPKVKHYYTEPYPYAKQKIVVIGSSNSAVDAALETYRKGAEVTMIVRHSEISKSVKYWVKPDIENRIAEGSIQAHFNSEMIEIKENTVIFKDEKGEIHEIDNDFVLAMTGYLPDFDFLRNSGIELNGDCLKPFYNSETMETNISRLYLAGVVCGGKDTHLWFIENSRIHANMIIKGILSHSSY	PGPT0013060_4421	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS003_00819	1239	mdtH		Multidrug resistance protein MdtH	GTGAGATTAATTAACGTATATACGAGTTCTTTTAAAGGACTCTCGCAGGAGAGTTGGATGCTGGCGTTGGTAATGCTCATCAACAGAGCCGGTTCTATGGTACTTCCGTTTCTGGGAGTTTATATGACCAATCATTTACATTTCAGTATTGAAAATTCAGGAATTGTACTGAGCTTTTTTGGAATTGGCTCGGTTATCGGGTCATGGTTGGGAGGAATGATCACGGATAAAATAGGAGAATACAGAGTACAGAGTCTGAGCTTACTTCTAAGTGTTCCGTTGTTCTGCCTGATTCCGCTTTTTACAACAGAAGCAGGTCTGGCTGGGATTATTTTAGCCCAGAGTATTGTAAGTGAAACTTTTCGTCCGGCTAACTCGGTAGCCATTACCAAATATGCGAGACCGGAAAATATTACACGTGCTTTTTCATTAAACAGAATGGCTGTAAACCTGGGGTTTTCTATTGGCCCGGCGCTGGGAGGTATTTTATCTGCTATTTCCTACGAATTTCTGTTTTTTAGTAATGCGCTGGCTGCATTGCTGGCGGGGCTTATGTATATCTGGTTCTTTAAAAAACGTGCAAGATTGGCGAAGCAGAAAGCTAAAACAGTAAAAGAAGCTATTGTGGTTAAGAAAGAAAGTTCTCCTTACCGGGATAGTAAATTTTTGATTTATTGTGGATTCTGTATGCTATTTTCAATATGTTTTTTCCAGTTATTCAGTACCCTGACCATATTTTATAAAGATACGGCACATCTGAGTCAGCAGAATATCGGATATATTCTGGGATACAGCGGTTTTCTGATTGTACTGTTGGAAATGGGGCTGGTACAGGTTGCTGAGAAATATTTCACTTTAGCTTTTACAATGCTTATAGGGACTTTTCTGTGTGGAATATCTTATGCTATGCTGGCTTTTGATTATAGTATGATTACCCTTGTGCTGTCTATGACACTGCTTTGTGTAGGAGAAATATGGACGCTTCCCTTTATGTCCACTATTACAGCTTTACGTTCGGGAGAGAACAATAAAGGAGCTTATATGGGATTGAACGGGATGTCCTTTTCTATTGCATTTATCATCACACCTTATATAGGAACACTGATTGCTGAGAAATCAGGCTTTAATGTACTGTGGATTGGAACCGGAATATTAGCTGCAGGTATTGCTGTTGGTTTTTATTTTATTATTCCTTGGATGCTGAAGGATAAGAGCAAAGTGAAAAAAACGGTGATGTAA	MRLINVYTSSFKGLSQESWMLALVMLINRAGSMVLPFLGVYMTNHLHFSIENSGIVLSFFGIGSVIGSWLGGMITDKIGEYRVQSLSLLLSVPLFCLIPLFTTEAGLAGIILAQSIVSETFRPANSVAITKYARPENITRAFSLNRMAVNLGFSIGPALGGILSAISYEFLFFSNALAALLAGLMYIWFFKKRARLAKQKAKTVKEAIVVKKESSPYRDSKFLIYCGFCMLFSICFFQLFSTLTIFYKDTAHLSQQNIGYILGYSGFLIVLLEMGLVQVAEKYFTLAFTMLIGTFLCGISYAMLAFDYSMITLVLSMTLLCVGEIWTLPFMSTITALRSGENNKGAYMGLNGMSFSIAFIITPYIGTLIAEKSGFNVLWIGTGILAAGIAVGFYFIIPWMLKDKSKVKKTVM				NA	NA	NA	NA	NA
BMS003_00820	762	rhaS_3		HTH-type transcriptional activator RhaS	ATGGACTATTATGTTTTCTGCATCTGTACTGCAGGAGAAATTAATATTGAGATAGATCGGCAGAAATATAAAGTGGATGCTCACAGCTTTCTTATGGCAGCACCTTCTACAATTGTAAAATTTGGAAAGTCCAGTGATGATTTTATGATGAAGCTGCTGTTCTTTGACAAGAATTTTCTGATTAAAAATATCTCTAATCCTTTTATTATAGAGAAGATGAACCTTTTCTCTAAAGGTTCTTACAGCATTATAAAAACTACTGCAAAAAATTCATTACTATTACAGAATATTCTGGATTATCTTGATAAAAAATCCCAGAAACAGGGAAAATTTACAGAAGAGATTATCCGTACCATTATTTTCCATCTGCTGCTGGAAACGGCTGAGATTATAGAGCTGCAAAATTCAATAAACCCTACAAAAGACGAAGGAAAAAAAGCCCTTTATCTGAAGTTTGGCAAACTGATCAGAGAAAATATCACCAGGGAACGAACGGTTCAGTTTTATGCAGATCAGCTGCATGTTTCCAATAAATATCTCATTGAAATTATTAAAAAAGCAAGTGGAAAAACACCTCATGAGATTATTGACGAAGCTTTACTAAAGGAAGCCTATGTCATGCTTGGAGATCCTGACATGACCATTTCTGAGGTTGCATTTGAGCTGCAGTTTAATTCCGCCTCGGCATTTGGCCGCTTTTTCAAAAAACATACTGCACTTTCCCCTTCAGAGTATAGAATGCAAGAAAATATCCGGTCATGA	MDYYVFCICTAGEINIEIDRQKYKVDAHSFLMAAPSTIVKFGKSSDDFMMKLLFFDKNFLIKNISNPFIIEKMNLFSKGSYSIIKTTAKNSLLLQNILDYLDKKSQKQGKFTEEIIRTIIFHLLLETAEIIELQNSINPTKDEGKKALYLKFGKLIRENITRERTVQFYADQLHVSNKYLIEIIKKASGKTPHEIIDEALLKEAYVMLGDPDMTISEVAFELQFNSASAFGRFFKKHTALSPSEYRMQENIRS				NA	NA	NA	NA	NA
BMS003_00821	1929	ohyA		Oleate hydratase	ATGAGTACGATCAATTCAAAATTCGATAAAGTTTTAAATGCCTCTGAGCAGTTCGGGAAAGTAAACCACGAACCGGATTCAAGTAAAGAAGTTCAGATTAACACTCCTGAAAAAACGATGCCATTCTCCGATCAGATCGGAAACTATCAGCGTAATAAAGGAATTCCTTTACAGTCTTATGAAAACAGTAAAATCTATATTGTAGGAAGCGGAATTGCAGGGATGTCTGCCGCTTATTACTTCATCCGTGACGGCCGAGTTCCCGGCAAAAACATCATTTTCCTCGATCAGCTTAATATTGAAGGCGGATCTCTGGACGGAGCCGGTAACGCAAAAGACGGTTACATCATCCGTGGAGGAAGGGAAATGGATATGACGTATGAAAATTTATGGGATATGTTTCAGGATATTCCTGCTTTGGAGCTGCCTGCACCATACAGTGTATTGGATGAGTACCGCCTCGTTAATGATAATGACCCGAACTATTCTAAAGCAAGACTGATCCACAACCAGGGACAGATCAAAGATTTCAGTAAATTCGGACTTGAAAAAAAAGATCAGTTTGCGATTGTAAAACTTTTACTAAAGAAAAAAGAAGAGCTTGATGATCTTACGATTGAAGATTATTTTTCTCAATCTTTCCTCAACAGTAATTTCTGGTTCTTCTGGCGTTCTATGTTTGCCTTCGAAAACTGGCACAGCTTACTGGAACTAAAACTCTACATGCACAGATTCCTTCATGCTATTGACGGAATGAAAGACTTCTCATGTCTTGTATTCCCAAAATATAACCAGTACGATACGTATGTAACCCCCTTAAAAAACTTCCTGGCAGAAAAAGGAGTACAGATCCAGTTTAATACATTGGTAAAAGATCTTGACATTCATATCAATACGGAAGGAAAAACAGTAGAAGGTATTATTACTGAACAAAACGGGGAAGAAGTAAGAATACCAATAGGTAAGGATGATTATGTTATCGTAACTACCGGATCTATGACGGAAAGTACATTCTATGGCGACAACAATACTGTCCCTGAAGTTACGATAGACAACAGCAGTGCCGGACAAAGTGCAGGTTGGAAATTGTGGAAAAATCTTGCTGCAAAATCCGAAGTATTCGGGAAACCGGAAAAATTCTGCAGCCATATTGAAAAATCTTCATGGGAATCTGCTACATTAACCTGCCGTCCTTCTGCTTTCACAGAGAAACTGAAAGAACTGTGTGTGAATGACCCATATTCCGGAAGAACTGCCACAGGAGGTATTATTACCATTACAGACTCTAATTGGGTGATGAGTTTCACCTGCAACAGACAACCACACTTCCCTGCTCAGCCGGATGACATTCTTGTAGTATGGGTATATGCTTTGTTGATGGATAAAGAAGGAAATTACATTAAAAAGCCAATGCCTCAGTGTACCGGAAACGAAATTCTTACCGAGCTTTGCTATCACCTAGGAATGACGGATCAGCTTGATAATGTTATAGAAAACACCATTGTACGTACAGCATTCATGCCTTATATCACTTCTATGTTTATGCCAAGAGCTATGGGAGACCGCCCGAGAGTGGTTCCTGAAGGGTGTAACAATTTAGGCCTTGTAGGACAGTTTGTAGAAACCAATAATGATGTTGTCTTCACCATGGAAAGTTCTGTGAGAACAGCAAGAATAGCTGTGTACAACCTACTTAATCTTAACAAACAGGTTCCGGATATCAATCCGTTGCAATATGATATCCGACATTTATTAAAAGCGACCCAGGCTCTGAATGACTATAAACCTTTCTTAGGAGAAGGAATTTTAAGAAAAATATTAAAAGGAACTTATTTTGAACACATCCTTGTAAACCGTCCGGAAGTAAAAGAAGAGCATGAATCTTTCTTAACCAGATTTCAGGAATGGGTAAAAGGGGTAAAAGACTAA	MSTINSKFDKVLNASEQFGKVNHEPDSSKEVQINTPEKTMPFSDQIGNYQRNKGIPLQSYENSKIYIVGSGIAGMSAAYYFIRDGRVPGKNIIFLDQLNIEGGSLDGAGNAKDGYIIRGGREMDMTYENLWDMFQDIPALELPAPYSVLDEYRLVNDNDPNYSKARLIHNQGQIKDFSKFGLEKKDQFAIVKLLLKKKEELDDLTIEDYFSQSFLNSNFWFFWRSMFAFENWHSLLELKLYMHRFLHAIDGMKDFSCLVFPKYNQYDTYVTPLKNFLAEKGVQIQFNTLVKDLDIHINTEGKTVEGIITEQNGEEVRIPIGKDDYVIVTTGSMTESTFYGDNNTVPEVTIDNSSAGQSAGWKLWKNLAAKSEVFGKPEKFCSHIEKSSWESATLTCRPSAFTEKLKELCVNDPYSGRTATGGIITITDSNWVMSFTCNRQPHFPAQPDDILVVWVYALLMDKEGNYIKKPMPQCTGNEILTELCYHLGMTDQLDNVIENTIVRTAFMPYITSMFMPRAMGDRPRVVPEGCNNLGLVGQFVETNNDVVFTMESSVRTARIAVYNLLNLNKQVPDINPLQYDIRHLLKATQALNDYKPFLGEGILRKILKGTYFEHILVNRPEVKEEHESFLTRFQEWVKGVKD				NA	NA	NA	NA	NA
BMS003_00822	1671	glnS	COG0008	Glutamine--tRNA ligase	ATGGAAGAAGAAAAAAAATCACTCAATTTTATTGAGCAAATTATAGAAGATGATCTGGCAAACGGTCTGAAAAGAGATCAGATCCGTTTCCGTTTTCCACCTGAACCGAATGGTTATCTGCATGTAGGGCATACAAAAGCCATTTGCATCAATTTTGGTCTTGGTGAAAAATACAATGCTCCCGTAAACCTTCGTTTTGACGATACGAACCCTGAAAAAGAAGAGCAGGAATTCGTAGATTCTATCATGAAAGATGTTGAATGGTTAGGTTTCAAATGGGATAAAGTTTTGTATGCATCCGATTACTTCCAGCAGCTTTACGATTGGGCAGTTCAGCTAATTAAAGAAGGAAAAGCTTATGTAGATGAGCAGCCATCTGAAAAAATTACTGAACAAAGAAAAAATCCTGCAGAGCCGGGAATAGAATCTCCATACAGAAACCGCCCTGTTGAAGAATCATTAGATTTATTCGAAAGGATGAAAAACGGAGAATTTGAAAGCGGTTCAATGTCTCTTCGTGCAAAAATAGATATGGTTTCGCCTAACATGAATATGCGTGACCCTGTTATGTACAGAATTTTGAATAAACCTCACCACAGAACCGGTACAGCCTGGAAAATTTACCCAATGTACGACTGGGCACATGGTGAATCTGATTATATAGAACAAATTTCACACTCGCTTTGTTCTTTGGAGTTTGAAAACCACAGACCTTTGTACAACTGGTATTTGGATCAGGTTTATGAAGAAGGAAAGGTCAAAAACAAACAGAGAGAATTTGCAAGGATGAATGTTTCCTATATGATTACTTCCAAAAGAAAGCTGCAAAGACTGGTAGCTGAAGGAGTAGTAACCGGGTGGGATGACCCTAGAATGCCTACTATTTCCGGGATGAGAAGAAAAGGATTCACTCCTGCTTCTATTCGAAACTTCATTGAAAAAGTAGGGGTAGCGAAGAGAGAAAACCTTATCGAAATCCAGTTACTTGACTTCTGTGTACGTGAAGACCTGAATAAGGTTGCTAAGCGTGTGATGGCAGTGGTAGATCCTGTAAAATTAGTGATCGAAAACTATCCTGAAGACAAAGAAGAATGGTTAGAAACAGAAAATAATCCTGAGCAGGAAAATGCAGGAACAAGGGAAATACCATTCTCCAGAGAAATATATATTGAGCGCGAAGATTTTAAAGAAGAGGCTAACAATAAATTTTTCAGACTTAAATTAGGCGGAGAAGTTCGTTTAAAATCTGCTTACATCATCAAAGCTGAAAGAGTAGAGAAGGATGAAAATGGTGAGATTACTACCATCTACGCTACATACGATGAAAAGAGTAAATCCGGAAGCGGAACAGAGGAAAGTTTAAGAAAAGTAAAAGGAACCTTACACTGGGTATCTGCCAAACATGCTATTCCTGTAGAAGTGAGAATCTACGACCAACTGTTTACAGTAGAGCAGCCTGATGCAGAAAAAGATGTTGACTTCCTGAACTTCATCAATCCTGAATCTGTAACGACTGTGAAAGGATTTGCTGAACCAAATCTGAAAGAAGTTGCTGTTGGAGAACCATTACAGTTCCAAAGGATAGGATACTTTACAAAAGATCAGGATTCTACAGACGATAAATTGGTATTTAACCGTACAGTAACGCTGAAAGATTCTTATAAACCTTAA	MEEEKKSLNFIEQIIEDDLANGLKRDQIRFRFPPEPNGYLHVGHTKAICINFGLGEKYNAPVNLRFDDTNPEKEEQEFVDSIMKDVEWLGFKWDKVLYASDYFQQLYDWAVQLIKEGKAYVDEQPSEKITEQRKNPAEPGIESPYRNRPVEESLDLFERMKNGEFESGSMSLRAKIDMVSPNMNMRDPVMYRILNKPHHRTGTAWKIYPMYDWAHGESDYIEQISHSLCSLEFENHRPLYNWYLDQVYEEGKVKNKQREFARMNVSYMITSKRKLQRLVAEGVVTGWDDPRMPTISGMRRKGFTPASIRNFIEKVGVAKRENLIEIQLLDFCVREDLNKVAKRVMAVVDPVKLVIENYPEDKEEWLETENNPEQENAGTREIPFSREIYIEREDFKEEANNKFFRLKLGGEVRLKSAYIIKAERVEKDENGEITTIYATYDEKSKSGSGTEESLRKVKGTLHWVSAKHAIPVEVRIYDQLFTVEQPDAEKDVDFLNFINPESVTTVKGFAEPNLKEVAVGEPLQFQRIGYFTKDQDSTDDKLVFNRTVTLKDSYKP				NA	NA	NA	NA	NA
BMS003_00823	1131			hypothetical protein	ATGGCCGTTTATATCTTAAGTAACCGGAAAATTATCCGGCACAAAGGTGAAAGAACAGACTCTTTTTCCAATGAAGAATACTCGATTCCTAATTTCAGGATCGCCAAATGCGATTTTGATCATTATAAGGAACCTACCGCACAGGCCAAAAAGAAAAAAGGCTATACCAACAGGAATATTTTAGATTACAAACTTTTTTCCGAACCCGAAAAACAGGGTTACGAAGAAGTTTTAGACGTTCTTTTGAATGAAAAAGGAATTAAAAAATCTTTTCTTACAGCTGATAATCTTGGCGGAACCCAGAGAATGTTTTACGAATTGTATAAAAATATGTCTTCTACAAAAGACAGAAGTGATGTACTGATATTTATCCATGGTTATCTTTATGATTTTGATGATGAGCTAAAGGCTATTATTGAACTTAAAAAGACATTTATTGATAATCCTGCATCTCCCGTAGAACATATTTTATTTGTAAGCTGGCCGGCTTCCGGCAGTATTATCCCTTTGAGCTATTTTGACGATAAGGCCTCCAGTATTAATTCCGGGACATCTTTGATGAGAATGTTTTATTTCTATACTCAATTTTTAAAAGATATTTTCTCCAACCGGGATCTGAAACCCTGCAACCAAAGAATCCACATCATTGCTCATTCCATGGGAAACAGAGTGCTGCAAAGTATGCTTTATAGTCTTAAAAAAGAAAATATCCTTCGTGTTATCGATCAGGTACTCCTACTAAATGCAGATGTAAGCTATAAAGTATTTGAAGATTCTGAAGACTCATTTAATAAACTGCCCTTATTGGCCAACAGGATTTCCATTTACTTAAACAGAGAGGATTTCATTCTGGGAGCTTCTCAGTTTACGAAAAATATACTTACCCCAAGACTTGGTAAAAACGGACCCGGCGATATCGGTCAGTACAAAGATATTGTTTCTATCATCGACTGTACTTTTGTAAAAGATGATCTTCTGAACAGCTTCAAATATGAAGTGGGAAATCATTGGGGATACCTTTCAAGTTCACAGGTACAGAATGATATATTCCAGAATTTAAAAGGAATAGACAGGAATCTTATCACCAACAGATCGAAGAATAACGAAAATACGTTCACAATTATTTCTTAA	MAVYILSNRKIIRHKGERTDSFSNEEYSIPNFRIAKCDFDHYKEPTAQAKKKKGYTNRNILDYKLFSEPEKQGYEEVLDVLLNEKGIKKSFLTADNLGGTQRMFYELYKNMSSTKDRSDVLIFIHGYLYDFDDELKAIIELKKTFIDNPASPVEHILFVSWPASGSIIPLSYFDDKASSINSGTSLMRMFYFYTQFLKDIFSNRDLKPCNQRIHIIAHSMGNRVLQSMLYSLKKENILRVIDQVLLLNADVSYKVFEDSEDSFNKLPLLANRISIYLNREDFILGASQFTKNILTPRLGKNGPGDIGQYKDIVSIIDCTFVKDDLLNSFKYEVGNHWGYLSSSQVQNDIFQNLKGIDRNLITNRSKNNENTFTIIS				NA	NA	NA	NA	NA
BMS003_00824	1005	menC		o-succinylbenzoate synthase	ATGGAAGCAAATTATTTACAATATTTATTACAGTTTAAACGCCCGAGTGGAACATCTCGCGGCGTTTTGCTTGATAAGGAAACCTTTATCCTGACTATTTCAGAAAACGGGAAAAAAGGAGTAGGGGAATGTGCTATTTTCAGAGGACTGAGTTTCGATGACAGACCTGATTATGAAAACAAATTGAAGTGGCTCTGCAAAAATATAAATCTGGATACATCTGTTCTGAAAGAAGAGCTGAAAGAGTTTCCGTCAATCTGGTTTGGGTATGAACAGGCTATTCAGAATCTGAAATATGGTGGCAGTCTTTATTTTCCAGGTGAGTTTACTGAAGGAAAATCTGCTATTACCATCAATGGGTTGATATGGATGGGCGATGCAGAATATATGGAGGAACAGATTCAGGAAAAGCTGGAAAAAGGATTTCATTGCATTAAATTAAAAATCGGTGTCGATTGGAAATCCGAACACATTATTTTACAGAGATTAAGGAAAAAATTTTCTAAAGACCAGCTGGAACTCCGTGTAGATGCCAATGGAGGATTCAGCAAAGAAGAAGCAGTTATTGTTTTGCAACAATTGGCAGATCTTACTATTCATTCTATTGAACAGCCTATCAAAGCCGGAAACTGGGCAGATATGACTGAATTATGCAGCAAAACTCCCACTCCCATTGCTTTGGATGAAGAACTGATCGGAATTATTGATCCGGAAAAAAAGAAACAGCTTTTAGAAACAATAAACCCTCAGTATATTATTCTGAAACCAGCTTTAGTAGGAGGTTTTTCCGGTTCGGATGAATGGATTTCTTTAGCAGAAAATCAGAAGGTAGGCTGGTGGATTACTTCAGCGCTGGAAAGTAATATTGGTTTGAATGCCATTGCTCAGTATACATTTACCAAAAAAAATCCAATGCCTCAAGGTTTAGGCACTGGAGCTTTATTTGTTAATAATTTTGAATCCGGTTTGGAACTCAGAAATGAGCTGCTTTGGTTCAAAATATAA	MEANYLQYLLQFKRPSGTSRGVLLDKETFILTISENGKKGVGECAIFRGLSFDDRPDYENKLKWLCKNINLDTSVLKEELKEFPSIWFGYEQAIQNLKYGGSLYFPGEFTEGKSAITINGLIWMGDAEYMEEQIQEKLEKGFHCIKLKIGVDWKSEHIILQRLRKKFSKDQLELRVDANGGFSKEEAVIVLQQLADLTIHSIEQPIKAGNWADMTELCSKTPTPIALDEELIGIIDPEKKKQLLETINPQYIILKPALVGGFSGSDEWISLAENQKVGWWITSALESNIGLNAIAQYTFTKKNPMPQGLGTGALFVNNFESGLELRNELLWFKI	PGPT0020045_1497	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
BMS003_00825	1017	fbp	COG0158	Fructose-1,6-bisphosphatase class 1	ATGTCAAATCAACCATTACAGACTTTAGGAGAATTTCTTATAGATAAACAGGACGATTTTCAGTATTCTACAGGTGAATTTTCTCGTCTTCTAAGTGCAATAAGATTGGCTTCGAAAGTGGTAAACAGAGAAGTAAATAAAGCCGGAATTGTAGATATTACAGGAGCTGCAGGAAACCAGAACGTTCAGGGAGAAGAGCAGCAGAAATTAGATGTTATCGCGAATGAAATTTTTATTACGGCTTTGTCTCAAAGAGAGGTTGTTTGTGGTATTGCTTCTGAAGAGAATGATGATTTTATCGATATCAAATGTGGAGAAAACGGCCATTTAAGTAAATATGTAGTACTGATAGATCCTTTGGATGGGTCTTCCAATATTGATGTTAATGTTTCCGTAGGAACTATTTTCTCAATCTACAGAAGAGTTACTGAACCGGGAACTCCCGTACAGCTGGAAGACTTTTTGCAGAAAGGGATCAATCAGATCGCGGCAGGATATGTTATTTATGGCTCTTCTACCATGATTGTTTACACCACCGGAAACGGAGTAAACGGATTTACATTAGATCCTTCATTAGGAACTTATTATCTTTCTCACCCGAATATGACTTTTCCAAAAACAGGAAAAATCTATTCTATTAATGAAGGGAACTATATCAAATTTCCTCAGGGAGTAAAAAATTACCTTAAATACTGTCAGATGGAAGAAGGCGACCGTCCTTACACTTCAAGATATATTGGTTCTTTGGTGGCAGACTTCCACAGAAATATGCTTAAAGGAGGAATCTATATTTATCCTTCCTACTCACAGGCTCCCAACGGTAAATTAAGACTTTTATATGAATGTAATCCAATGGCATTCCTTGCAGAACAGGCAGGCGGAAAAGCAACAGACGGATTCAGAAGAATTCTTGAAGTAGAACCTACAGAGCTTCATCAGAGAATTCCTTTCTTCTGTGGAAGCGTAGATATGGTAGAGAAAGCGGAAGAATTTATGCGTATCGACAGTGTGAAATAA	MSNQPLQTLGEFLIDKQDDFQYSTGEFSRLLSAIRLASKVVNREVNKAGIVDITGAAGNQNVQGEEQQKLDVIANEIFITALSQREVVCGIASEENDDFIDIKCGENGHLSKYVVLIDPLDGSSNIDVNVSVGTIFSIYRRVTEPGTPVQLEDFLQKGINQIAAGYVIYGSSTMIVYTTGNGVNGFTLDPSLGTYYLSHPNMTFPKTGKIYSINEGNYIKFPQGVKNYLKYCQMEEGDRPYTSRYIGSLVADFHRNMLKGGIYIYPSYSQAPNGKLRLLYECNPMAFLAEQAGGKATDGFRRILEVEPTELHQRIPFFCGSVDMVEKAEEFMRIDSVK	PGPT0017665_1430	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
BMS003_00826	1239	lysC	COG0527	Lysine-sensitive aspartokinase 3	ATGAAAATTTTCAAGTTTGGTGGAGCATCAGTAAAAGATGCCGACAGTGTAAAAAACGTGTCTATGGTTCTGAAAAGCCAGGGATTTGCCAAATGCTTGCTGGTGATTTCAGCAATGGGCAAGACGACAAATGAGTTGGAAAAAGTTGTAGAACTTTATTTCAAAAAGGATAACTATCAAACTGAGATTGAAAAGATAAAACGAAAACACATTGAGATTGCGGAAGGACTTTTCCCTGAAAATCATGCGGTTTTCGCTGAAATCAATCTTTTTTTTGATGATATTGATTCTTTTTTAAGAAGAAATAAGTCTCCTAACTACAACTTTGTGTATGATCAGGTAGTGAGCTGTGGGGAAATGATTTCTACAAAAATCGTGAGTGAATATCTGAATGAGATCCAATTTACAAATCAGTGGCTGGATGCCAGAGATTATGTAAAAACGGACAATTCATACAGAGAAGGTACAGTAGACTGGGCAAGAACTGAAGAATTCATCTCCAGTCTTAATTCTGAGATCTGCTATGTAACTCAGGGATTCATTGGTTCTGACGACAATAATTTTACGGTGACGTTAGGACGAGAGGGTTCTGATTATTCTGCTGCTATTTTTGCTTACTGCTTAAATGCTGAAGCGATGACGATCTGGAAGGATGTACCGGGAGTAATGACCGGAGATCCAAGAAAGTTCAGTGATGTAACTCTTCTTTCCAACATTTCTTACGAAGAAGCAATTGAAATGGCATATTATGGTGCTAGTGTTATCCATCCGAAAACATTACAGCCATTACAACAAAAAAACATTCCTTTTTATGTAAAATCTTTCGTAGATCCTACTAAAGAAGGAACAAAAGTAGGTGCATCTGACAAAAACCAACAGGAAGAGTCTTATATTCTGAAAGAAAACCAGGATCTTCTGAAAATCTCAACCAGAGACTTCTCTTTCATTGCAGAAGACCATATGAGTCTGATTTTCGGTTATTTATCCAAATATAAAATTAAAGTTTCTCTGATGCAGAATTCTGCGATCTCTCTGGCGCTGTGTCTTGAAGATAAATTTAATCACATTGATGAGCTCAACGAGGAGCTTCAAAAAATTTTTAAAACCGAAGCAATTAAAAATGTATCTTTATTCACAGTAAGAAATGCGAAGATGGATCACATTGATCAATTTTACCATGAAAAAAATGTATTGTTGGAGCAAATTTCCAAGAATACTCTTCAAATGGTAACACAATAA	MKIFKFGGASVKDADSVKNVSMVLKSQGFAKCLLVISAMGKTTNELEKVVELYFKKDNYQTEIEKIKRKHIEIAEGLFPENHAVFAEINLFFDDIDSFLRRNKSPNYNFVYDQVVSCGEMISTKIVSEYLNEIQFTNQWLDARDYVKTDNSYREGTVDWARTEEFISSLNSEICYVTQGFIGSDDNNFTVTLGREGSDYSAAIFAYCLNAEAMTIWKDVPGVMTGDPRKFSDVTLLSNISYEEAIEMAYYGASVIHPKTLQPLQQKNIPFYVKSFVDPTKEGTKVGASDKNQQEESYILKENQDLLKISTRDFSFIAEDHMSLIFGYLSKYKIKVSLMQNSAISLALCLEDKFNHIDELNEELQKIFKTEAIKNVSLFTVRNAKMDHIDQFYHEKNVLLEQISKNTLQMVTQ	PGPT0014040_4525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
BMS003_00827	1842			hypothetical protein	ATGAGTTTAATTTCGAAAAACGATCTGATCAAAGCTTCCGGCTTAAATAAAATTGGGTTTCTCAAGAACCCGGTAGCATCTGCTGTGATGAGCATTGCTAAAATAAACGAAGTAAATAAATTATACGACAAATTAAAAGACAAGGAAGGCAAAGACTTTTTCGACTCATTTGTGAGAGAAAGAAACCTAAGCTATGTAGCTTTTGAAGAGGATCTGGCAAAGATTCCGAAAACGGGACCGTTTATTCTGGTTTCCAACCACCCCCTGGGTGCTATTGACGGAATTCTGATGTGCAAGGTCTTATCAGAGGTTCGTCCGGATTTCAAGGTAATGGGGAATTTCCTTTTGGAAAAGATCAAGCCTATGGAACCGTACGTAATCGCTGTAAATCCTTTTGAAAACAGAAAAGAAGCTTACAGCAGCTCTTCAGGAATGCGTGAAACTCTCAAGCATTTACAAAACGGAGGCTGTGTAGGTATTTTCCCGGCAGGAGAAGTTTCTAACAAGAACAATCCTTACGGAGAAATTTTAGATAAGGAATGGGAAAAAACGGCACTTAAGCTTATAAGAATGGCCAAGGTGCCGGTAGTTCCTATGTATTTCCATGCGAAAAACAGCCGACTTTTTTATCAGGTGGCTAAGCTTCACCCGAATTTGCAGACACTGATGCTTCCTGCAGAAATGATGAATGACAGGGAAAAGCCAATCAGAATCAGAATCGGGCGTCCTATTACTGTAAAGGCAATGGACGATATGGAGACCATTGAGGAATTGGGAGAGTTTCTGAAACGCAAGGTCTATATGATGAAATCTTACTATGAAAAGAGAAAATCCCTTGCCCAAAGCATTAATCTTCAGAATCTGTCTGTAAAATTTCCTTTACTGAAGGAAGAAAATATTGTTCAGAATATCATTGATGAAACACCTCTTGAAGATATCATCAAGGATGTCGATAAACTGAGAGGAACTGATAAAATGCTGTTCAGTAACGGGAATTATGAGATCTACTTTACGACTTACGAAGAAATTCCTTCCATTATGAGGGAAATCGGACGTCAGAGAGAGCTTACTTTCCGTGCTGTAGGCGAAGGAAGTAATCTTCCGTTTGACCTGGATGAATATGACAAGCACTACCACCACCTGTTTCTTTGGGATAATGGTGAGAAAAAACTGGCTGGAGCTTACAGAATGGCATTGGGTAGAGAGGTTATGAAGAAATATGGCATCAAAGGTTTCTATACAAGCTCTTTATTTGAATTTGAGCAGGACATCCACCCTTTCTTCAAAAAAGTGATCGAAATGGGGCGTGCCTATATCTGCCAGGAATATCAGCAGAAACCCCTTCCACTTTTCCTTTTATGGAGAGGAATTGTGCATGTATGCCTTAGAAATCCTGATCATAAATTCCTTATGGGAGGTGTAAGTATTTCCAACAAATTCTCTGAGTTCTCAAAATCATTGATGATTGAATTTATGCGTTCGAATTATTTTGATTCTGCGGTAGCTCAATATATCACACCAAGGAATGAATACAAAGTTAAACTTCGTGACCGGGATAAGAATATTTTCTTTGAGGAAATGGAATCTGACCTTAACAAGCTGGATAAGATCATTGATGATCTTGAGCCGGAATTGAGACTTCCTGTTCTGATTAAAAAATACATCAAACAAAACGCTAAAGTAATTGCTTTTAATGTAGATCCTAACTTCAATGATGCTATTGACGGATTAATGTATATCCGAATCAGCGACCTTCCGGAAAACACCATAAAACCGGTATTGGAAGAGATGAGCGAACAGATCAGAAAAGAGCAGGAAAATAATCCGGCTGATAATCAGTAA	MSLISKNDLIKASGLNKIGFLKNPVASAVMSIAKINEVNKLYDKLKDKEGKDFFDSFVRERNLSYVAFEEDLAKIPKTGPFILVSNHPLGAIDGILMCKVLSEVRPDFKVMGNFLLEKIKPMEPYVIAVNPFENRKEAYSSSSGMRETLKHLQNGGCVGIFPAGEVSNKNNPYGEILDKEWEKTALKLIRMAKVPVVPMYFHAKNSRLFYQVAKLHPNLQTLMLPAEMMNDREKPIRIRIGRPITVKAMDDMETIEELGEFLKRKVYMMKSYYEKRKSLAQSINLQNLSVKFPLLKEENIVQNIIDETPLEDIIKDVDKLRGTDKMLFSNGNYEIYFTTYEEIPSIMREIGRQRELTFRAVGEGSNLPFDLDEYDKHYHHLFLWDNGEKKLAGAYRMALGREVMKKYGIKGFYTSSLFEFEQDIHPFFKKVIEMGRAYICQEYQQKPLPLFLLWRGIVHVCLRNPDHKFLMGGVSISNKFSEFSKSLMIEFMRSNYFDSAVAQYITPRNEYKVKLRDRDKNIFFEEMESDLNKLDKIIDDLEPELRLPVLIKKYIKQNAKVIAFNVDPNFNDAIDGLMYIRISDLPENTIKPVLEEMSEQIRKEQENNPADNQ				NA	NA	NA	NA	NA
BMS003_00829	1395	fumC	COG0114	Fumarate hydratase class II	ATGAATTACAGAATTGAAAAAGACACCATGGGAGAAGTACAGGTACCTGCAGATAAACTTTGGGGTGCACAGACGGAACGTTCAAGAAACAATTTCAAAATAGGACCTGAAGGTTCAATGCCGCATGAAATCATTGAAGCTTTTGCTTATCTGAAGAAGGCTGCCGCTTATACCAACACTGATCTGGGAGTACTTTCTGCAGAAAAAAGAGATATGATTGCTAAGGTATGTGATGAAATTCTGGAAGGAAAACTTAACGATCAGTTTCCATTGGTGATCTGGCAGACGGGTTCCGGCACGCAGTCTAACATGAATGTGAATGAAGTAGTTTCCAACAGGGCTCATGTGAATAACGGAGGAACTTTAGGCGAAAAATCTGAAATCCACCCGAATGATGATGTGAATAAATCCCAGTCGTCTAATGATACTTACCCAACCGCTATGCATATTGCTGCCTATACAAAAGTGGTGGAAGTAACTATTCCGGCTGTAGAAAAACTAAAAAATACACTGGCTGAGAAATCAAAAGCTTTCAAAGATATTGTCAAGATTGGTAGAACTCACCTGATGGATGCTACTCCACTAACTCTTGGACAGGAATTTTCGGGTTATGTGGCTCAACTGGAATTCGGATTGAGAGCTTTAAAAAATACATTACCTCACCTTTCTGAACTGGCATTAGGAGGAACTGCTGTAGGCACAGGATTGAATACGCCTAGCGGTTATGATGTAAAAGTGGCAGAATATATTGCTCAGTTTACCAATCATCCTTTCATTACTGCAGAAAATAAATTTGAAGCTCTTGCTGCTCATGATGCGATTGTAGAATCTCACGGAGCCTTAAAGCAGCTGGCTGTTTCTTTATATAAAATTGCTCAGGATGTAAGATTACTGGCATCAGGACCTCGTTCCGGAATCGGGGAAATTCATATTCCTGAGAATGAACCGGGATCTTCTATCATGCCTGGGAAAGTAAATCCTACTCAAAATGAGGCCATGACTATGGTTTGTGCACAGGTTTTAGGAAATGACACTACCATTTCATTTGCAGGAACTCAGGGAAATTATGAGCTGAATGTTTTCAAACCGGTAATGGCTTACAATTTCTTACAGTCTGCCCAATTGATTGCTGATGCATGTATTTCCTTCAATGATCACTGTGCGGTAGGTATTGAACCGAATCACGAGAGAATTAAAGAGCTGGTAGACAAATCTTTAATGCTTGTTACGGCTTTAAATACTCATATCGGATATGAAAATGCTGCTAAAATTGCGAAAACAGCCCATAAAAACGGAACAACGTTGAAAGAAGAAGCCATCAATCTTGGTTTGTTAACTGCTGAACAGTTTGACGAGTGGGTGAAACCAGAAGATATGGTAGGAAGCTTAAAATAA	MNYRIEKDTMGEVQVPADKLWGAQTERSRNNFKIGPEGSMPHEIIEAFAYLKKAAAYTNTDLGVLSAEKRDMIAKVCDEILEGKLNDQFPLVIWQTGSGTQSNMNVNEVVSNRAHVNNGGTLGEKSEIHPNDDVNKSQSSNDTYPTAMHIAAYTKVVEVTIPAVEKLKNTLAEKSKAFKDIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLRALKNTLPHLSELALGGTAVGTGLNTPSGYDVKVAEYIAQFTNHPFITAENKFEALAAHDAIVESHGALKQLAVSLYKIAQDVRLLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNHERIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLLTAEQFDEWVKPEDMVGSLK	PGPT0001650_2862	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
BMS003_00830	456			hypothetical protein	ATGAAAAATATTCTAATCCTGGTTTTATGTCTTATCATGTGTAATAGCAGTTTTGCTCAGAAAAAGCAAGAAAGCATATCCCAACTTTCAGGAACTTGGGTAGGAAAAGCTGAGGGTCACCCAATTAAGTTTGAGATTTTGGAAAAAACACCTAATTCGCTTACATTTTCATTCATTAATTTTCAAAATGAGAGATTTACAATTTTAAAATCTGATATAACAACTAATGAAAAAAATGAGTTTGTTATTTCTATTAAAGAGGCTAAATTTTCTTCACAACGCTACGAAGACTGCATCTTTTCCACAGGAACTATAACTCTATCTGATGTTTCGCATGACAACATGAAATTAAATTTAAGATCAGTTGGCCCCACATGTTTTATAAGCTATGACGTACTAGTTAATATGAATGACATAAAGGATCTCACTTTAACAAAAGATAAATCAAATAAATAA	MKNILILVLCLIMCNSSFAQKKQESISQLSGTWVGKAEGHPIKFEILEKTPNSLTFSFINFQNERFTILKSDITTNEKNEFVISIKEAKFSSQRYEDCIFSTGTITLSDVSHDNMKLNLRSVGPTCFISYDVLVNMNDIKDLTLTKDKSNK				NA	NA	NA	NA	NA
BMS003_00831	1608	fumB	COG1838	Fumarate hydratase class I, anaerobic	ATGGATTTTAGATATCAGGATCCGTATCCTATTCAGAAAGATGATACGGTGTATAAGAAGCTTACATCAGACTATGTAAAGGTGGAAAAACTGGGTGAAAGAGAAATTTTAACAGTAGACCCTAAAGGGTTGGAACTGTTAGCTGAAGAGGCAATGGCAGACGTTTCTTTCATGCTTCGTTCTTCGCACTTAGAAAGTCTTAGAAGAATTATTGACGATCCTGAAGCTACAGATAATGACAGATTCGTTGCGTACAATCTTTTACAAAATGCTGCCGTAGCTGCTGAAGGAGCTCTTCCTTCTTGCCAGGATACAGGTACAGCAATTGTAATGGGAAAGAAAGGAGAAAATGTATACACAGGAGTAGAAGATGGAGAATACCTGAGTAAAGGAATTTTCAATACGTATCAGAAAAGAAACCTAAGATATTCTCAGGTTGTTCCTTTGACGATGTTTGATGAGAAGAATTCTGGATCTAACCTTCCTGCACAGATTGATATCTATGCTAAAAAAGGAGATTACTACGAATTTTTATTCTTAACAAAAGGAGGAGGTTCTGCCAATAAAACATTTTTATATCAAAAAACGAAATCTTTATTGAACGAAAAATCTCTTGAAGAATTCATCAAAGAAAAGATTTCAGACCTTGGAACGGCAGCATGTCCGCCATATCACTTAGCATTGGTTATAGGAGGAACTTCTGCAGAAGCTAACCTTGCAGCAGTAAAAAAAGCATCCGCAAAATATTACGATAATCTACCGACGGAAGGAAATGAGGCAGGACAGGCTTTCAGAGACATTGAATGGGAAGCTAAAGTGCAGAAAATCTGCCAGGAAAGTGCTATCGGAGCTCAGTTTGGAGGAAAATACCTTACCCATGACGTAAGAGTAATCAGACTTCCAAGACACGCTGCGTCTTGCCCGGTAGGAATGGGAGTTTCATGTTCTGCAGACAGAAATATCAAAGGAAAAATTACCAAAGAAGGAATCTTCCTTGAGCAACTGGAACAGGATCCGAAAAGATTCTTACCAGATACTCCTCCACACTTGGAAGAAGCCGTTGAGGTTAACCTGAATAAACCTATGCCGGAAATTCTTGCCGAGCTTTCAAAATACCCGATCAAAACCCGATTAAAACTGAACGGAACACTGATCGTAGCAAGAGATATCGCTCACGCAAAAATCAAAGAAATTATCGACAGCGGGAAACCAATGCCTGAATATTTCAAAAATCACCCGATCTATTATGCAGGACCTGCAAAAACTCCGGAAGGAATGGCTTCAGGAAGTTTCGGGCCTACTACTGCCGGAAGAATGGACGTTTATGTAGACGAGTTCCAAAGCCACGGCGGAAGTATGATTATGCTGGCAAAAGGAAACAGAAGTAAAGATGTTACCAATGCTTGTCATAAATACGGAGGTTTCTACCTGGGATCTATCGGAGGACCAGCAGCTATTCTTGCCAAAGATAATATTGTGTCTGTAGATGTAGTAGACTTCCCGGAATTAGGAATGGAAGCAGTAAGAAAAATTGAAGTAAAAGACTTCCCTGCATTCATCATTTCCGATGATAAAGGGAATGATTTCTTCGCAAATCTTGCCCACTAA	MDFRYQDPYPIQKDDTVYKKLTSDYVKVEKLGEREILTVDPKGLELLAEEAMADVSFMLRSSHLESLRRIIDDPEATDNDRFVAYNLLQNAAVAAEGALPSCQDTGTAIVMGKKGENVYTGVEDGEYLSKGIFNTYQKRNLRYSQVVPLTMFDEKNSGSNLPAQIDIYAKKGDYYEFLFLTKGGGSANKTFLYQKTKSLLNEKSLEEFIKEKISDLGTAACPPYHLALVIGGTSAEANLAAVKKASAKYYDNLPTEGNEAGQAFRDIEWEAKVQKICQESAIGAQFGGKYLTHDVRVIRLPRHAASCPVGMGVSCSADRNIKGKITKEGIFLEQLEQDPKRFLPDTPPHLEEAVEVNLNKPMPEILAELSKYPIKTRLKLNGTLIVARDIAHAKIKEIIDSGKPMPEYFKNHPIYYAGPAKTPEGMASGSFGPTTAGRMDVYVDEFQSHGGSMIMLAKGNRSKDVTNACHKYGGFYLGSIGGPAAILAKDNIVSVDVVDFPELGMEAVRKIEVKDFPAFIISDDKGNDFFANLAH	PGPT0001635_1081	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
BMS003_00832	285			hypothetical protein	ATGATAACGATATTATCAGCATTTTGGCCATTTTACCAGTTCCTTTGGACTATATTCTTCATTACTATGTTCCTAGTAGGATTCTGGTGTATTTTTATGTTCTTCGGATTAGTAATCCCAATGTGGCTAACTGAAGGTTTGAAGGAGTATTTCGGAAAAGTAAAGCCTTTCGATCCTGAAGATATCAGAAGAAAGCTTATTACTGAGCAGGAAGGTGTAGAAGTTATCTATAATGAGCCTAAAGGAAACGGACCTTTCCTTCACGATCACGGACATCATCATTAA	MITILSAFWPFYQFLWTIFFITMFLVGFWCIFMFFGLVIPMWLTEGLKEYFGKVKPFDPEDIRRKLITEQEGVEVIYNEPKGNGPFLHDHGHHH				NA	NA	NA	NA	NA
BMS003_00833	873	rhaR_3		HTH-type transcriptional activator RhaR	ATGAGGAAATCATCTAAAAATGGACTTTTGTTCAAATCCGAAGACATCAAAATCATCATGCAGGAAGACCTGTGCCATGACCAAACCTTCAAGTCTCATATATTGGAAGGGAAGTCTAGTTTTAATCTTATTTTCATGCTGAGTGATGGCATTAATTTAGAGGCTCATGACTGCGGTACTAAATTTCAATTCAAGAAAAATCAATATATCCTCCATTATTCACCAAAAGAAAGTGTTGCTGAACTATGGACAGAAAATCAGGAAATCCTGAGGTACCTTCAGATTCAGATTAATTACCAATATATTTTTAACCTCATCAATCCGGAACTTAATGGTGAGAATGCTGAAATTCTGGAAAATATGATTCATAATAATTTCATTTTCCTTCATAAAGAAACGCCGCCTGACATGACGGTTGAAATGCATATGATTGTAAAGGAGATTCTGGGCTATACCAAAAAAGGAATCATGCAGAAATTATTCATAGAAGCAAAGATCATCAAACTTCTTATTTTGATTTTTGAGCAGTTTAATGAGAAAAACACATTGGAATCTACTCCCAAAACACCGGAAATCATCAGAAAATTTATTGATGAGAATTACCACAGAAATATAAAAGCGGAGGAGATTGGAAAATATATGGGTTTGAATCAAAATATCATCAGAAAGGAATTCAAGGCTCAGTATCACACTACGATTGCCCAATATATTTCTGAGCTGAGAATGCTGAAAGCGAGAAAACTGATTACAGATAAAGAAATTATGATCAAAGAAATTGCTATTGAGTGCGGTTATGAATACCTGCAGAACTTTACCCGTGCTTTTAAAAAGAAATTTGGAGTGTCTCCGGAAACTTTGAGGAACAATAAATAG	MRKSSKNGLLFKSEDIKIIMQEDLCHDQTFKSHILEGKSSFNLIFMLSDGINLEAHDCGTKFQFKKNQYILHYSPKESVAELWTENQEILRYLQIQINYQYIFNLINPELNGENAEILENMIHNNFIFLHKETPPDMTVEMHMIVKEILGYTKKGIMQKLFIEAKIIKLLILIFEQFNEKNTLESTPKTPEIIRKFIDENYHRNIKAEEIGKYMGLNQNIIRKEFKAQYHTTIAQYISELRMLKARKLITDKEIMIKEIAIECGYEYLQNFTRAFKKKFGVSPETLRNNK				NA	NA	NA	NA	NA
BMS003_00834	2079			hypothetical protein	ATGTTTAAAGATTTACATTTTGCAATACAAAAGATCAGAACAGGGTTAGCATTGCTAACTATTGCCGGAAGCTGTATGTATGCGCAGCAATGGGAAAATGTAGGAGGAGTTCAGGACGTGTCAGCAGGAGGAAGCAGCTTTAACAATCTGGTTATTGATAACACAGGGAATTATTATCTGTCATATTATGATGTTTCAGTAGGTAAAGGCTCTGTTCAGAAATTCAACGGAAGTTCATGGTCTTACTTAGGCGGAACGGCTGGAGTTACTACAGGAACAGCTACCTACAACTCATTATCTGTAAGCCCGAACGGAAACAGTATTTATTATACCAATCAGCTTGGTTATCCGGGCTCAGGTATGGAAGTACGTTTATATACAGGATCATTATGGTCTCAGCTTCCAAATGCAACAGACAGTTCTGTAAATTATCAGGCTTCTGCAGTATCTTCTGATAATATTATATTCACTTATGGATCCTATGGTTCAGGAACGGTAAAAAGATATTTTGGCGGTGCCTGGGAGCAGGTAGGAAATGCCGGTTTTTCCGGAGGTGCAGATTTTGCTGAAATGATTATCGGATCTAATAATATGGTCTATACCTGCAATGTTTCCGGAGGTGTAAAAGTGTATCAAAACAGTACCGATGCCAATTCTACACAAAACTGGACTTTAGTAGGCGGAACGGCTGCAGATGCTTCATCATCAGGAGAGCAGTACAATGCAGATATTGCTTTAGATGCAGCCAATACAATTTATGTAGCCTATGTTTCAAATTCGGCAGGAGGAAAAAAACTGAATGTTAAGAAATTTGACGGAAACGCTTGGGTACAGGTAGGTAATGGCAATTTTTCAGAAGGAAGAGTACAGCATGTTGCTTTAGCAGTAACCGGATCCGGTACTCCATATGTGGTGGCCAGCCGTTTTGAAAATGATAACTTCCTTAGAAATACCGTTTATAAATTAGACGATTCACAAAACTGGATTCCTTTTGGGGGTGATTTTGTTTCGGGTGGTGAAGCAAAATATAATGATTTAGCAATAGATAAAGCACAGAACTACCTTGTTTTGGCTTATTCTGAAAATACAACGAAGGTTAAAAGAATTTCTCTGAACCTCAATCCGCAAACATGCAGCAATACAGATCCTGGAGCCAATGCAGGAGATGTAGGCTGCGTAAGCTTTATGTATCATGGTCAGCAGGTTGCTTATATTACGGTAAGAGGATCAGACGGAAAAATCTGGCTTCAGCAGAATCTGGGAAGCACGCAGGTAGCTTCATCAATGGCTGATGCTAATTCCTATGGAGATCTTTTCCAATGGGGAAGATGGGATGATGGGCACCAGCTTAGAAACTCTCAGGTAGTACAGGCACCATCACCTAACACACCGGAAGGAACAAGTGCAACTGCAGGAGGTTATATTGCAGGATCTCCGGCATGGTGGGCAGGCTTTTCTGGTGGAGATACATGGAACGGAGCCTCCATTGCAGACGTTAGTGCATCTGTAGGTGCAGATCCTTGTAAAGTCATTGGAGCAGACTGGAGAATGCCTTCACAGGCAGACTGGACAAGTTTAGTAGGTGCTGAAGGTATTGCTAACCCGACAACTGCTTATAACAGTCATCTTAAATTACCGGCAGGAGGATTCAGAAGCTCAAGTGATGGTAATTTTACGTATGTAGGACAAAGAGGATATTTCTGGAGTTCTGATACATCAAGCTCAGGAGGAAAATATCTGTATATCGGGACTACTATTGCCAATCCATCGGCAGGAGCTATGAGAGGACAAGGAGCATCAATAAGATGCATTAAGCCTACATCTTCTTTAAGCACATCAGAAATTAAGCTAAATAAAGCAGTCGTAGGAATGTACCCTAACCCAACAAAAGGAATTCTTATAGTAAAATCAGATTCAGTGATTGAAAAAGTAAACGTTACCAATGCAGTAGGGCAAAGAATGAATGTACAGTTCTCGGATCATCAGATCAACATGACTGAACTTCCTTCAGGATTATACATCGTAGAATTAAAATTAAATAACGGACAGATTGTTTCTAAAAAAATTATAAAAGATTAA	MFKDLHFAIQKIRTGLALLTIAGSCMYAQQWENVGGVQDVSAGGSSFNNLVIDNTGNYYLSYYDVSVGKGSVQKFNGSSWSYLGGTAGVTTGTATYNSLSVSPNGNSIYYTNQLGYPGSGMEVRLYTGSLWSQLPNATDSSVNYQASAVSSDNIIFTYGSYGSGTVKRYFGGAWEQVGNAGFSGGADFAEMIIGSNNMVYTCNVSGGVKVYQNSTDANSTQNWTLVGGTAADASSSGEQYNADIALDAANTIYVAYVSNSAGGKKLNVKKFDGNAWVQVGNGNFSEGRVQHVALAVTGSGTPYVVASRFENDNFLRNTVYKLDDSQNWIPFGGDFVSGGEAKYNDLAIDKAQNYLVLAYSENTTKVKRISLNLNPQTCSNTDPGANAGDVGCVSFMYHGQQVAYITVRGSDGKIWLQQNLGSTQVASSMADANSYGDLFQWGRWDDGHQLRNSQVVQAPSPNTPEGTSATAGGYIAGSPAWWAGFSGGDTWNGASIADVSASVGADPCKVIGADWRMPSQADWTSLVGAEGIANPTTAYNSHLKLPAGGFRSSSDGNFTYVGQRGYFWSSDTSSSGGKYLYIGTTIANPSAGAMRGQGASIRCIKPTSSLSTSEIKLNKAVVGMYPNPTKGILIVKSDSVIEKVNVTNAVGQRMNVQFSDHQINMTELPSGLYIVELKLNNGQIVSKKIIKD				NA	NA	NA	NA	NA
BMS003_00835	2838	glgB_1		1,4-alpha-glucan branching enzyme GlgB	ATGAAAAAATTTTATTCCGTTGTATTTCTGCTGATTACAATAGCTGTTTTTGGACAGATTAATTACATCATTACCCCTAATCCGTTCAATGAAACAGATGCTATTACGCTTACCGTTCCTGGAGATCAGATTGATGAATCTGCCTGGGGAGTTTCCAATAATGCTATTTATATCTGGAGCTGGTCTCTTGATACCAATTACCAGAACAGTCAGGACTGTCCTACCAATGGAAGCTGGAACAATTCCAATGACCTGAACAAGCTGAATTACAATTCGGCAACAGACAGCTATTCAATTACTTTTACTCCTACTGTTTTCTTCGGAAGAACAGGAATCGGAAAGTTCGGATTTTTATTAAAAGATAAAACAGGATCACATCAGACCTCACCTGATATTTTTGTGAATGTAGGTACTTTAAGCTTAAATCTTACCAATCCACTGGCGAATAGTCTTACCACAGTTCCTGTTGGGAATTCCATCAATATTGCGGCTACAACCAGTGTCAATGCAACATTTCAGTTAAAAGCCAATGGAACTGTCGTCAATTCTACCACAACTCCTTCACAATCCTATTCTTATAATTATACCGTTACTCAGGATGCCAGCATGGAGCTTGTAGCAACACAGGGAACCAATTCTAAAAGTGCAACATTCATTTTACAGGTTCCTAGAAATGTAGTTTCTGAAGCAATACCGAACTGGATGAGACAGGGAATAAACTATCATCCCACAGATGCTACCAAAGTAGGGCTGGCGCTATATGCCCCGGGGAAAAGCTTTGTACATGTCATCGGAAGTTTTAATAACTGGACGGTGAATGATAGCTATTTAATGAAAAAGGATACTGCCAACCCTGATCTGTACTGGATAGAACTTAATGGGATTACCCCTCAGCAGCTCTATACCTTCCAATACAGAACCAATGATCTGAGAAAAGTAGCAGACCCCTATTCACCACAGATTTTATCTTCTTATGACGATCAGTGGATTTCGGCATCTACTTATCCGAACCTACCTGCATTTCCTGCAGGACAGGGCTTTGAAGTTTCCACATTTAAAACAGGACAGACGGCTTACAACTGGCAGGTAACCAATTTTCAGAGACCTGCAAAAGAAGATTTGTTAGTGTATGAACTATTACTGAGAGACTTTACACAGGAAAAAAACTGGCAGTCATTGATTGATAAAATTGCCTATTTAAAGAACTTAAAAATCAATGCCATAGAATTACTGCCCATCATGGAATTTGACGGAAATCTTTCCTGGGGATACAACACTTCATTCCATTATGCATTAGACAAAGCCTATGGAACACCCGAAAAATTCAAAGAATTTGTAGATCTCTGCCACCAGAACGGAATTGCAGTAATTCTGGATGTAGCATTTAACCACGCTACAGGACGTTCTCCTCTGGTAAGGCTTTGGAATATAGATCCGGATGGTGACGGCTATGGAGATGTGGCGGCGGACAACCCTTACTTTAATCAGGTTCCGAAACATTCATACAATGTATTCAATGATTTTAACCATACAAGCCCTTCAACGCAATATTACGTTGAAAGATGTCTTGAACAATGGCTGACCGAATATCACATAGACGGATTCCGTTGGGATTTAACAAAAGGATTCACACAAAGCTGTTCTGAAAACGATGAAGCCTGTACCAATGCCTACCAGCAGGATAGAGTAGATATCATGAAGCACTATGCAGACAGGCAATGGACTCTCGATCCGAACTCATACATGATCTTCGAACATCTTGGAACTGATGCTGAAGAACAGCAATGGGCCAACTACAGAATAGCCGAAGGAAAAGGTGTTATGCTTTGGAATAAACAGACAGATCCTTACAACCAGAATACAATGGGATATCAGGAAAACAGCAATTATGACCGTATGAACCACAGTCTTCACGGCTTTACCAATATGAGCGCTGTAGGCTATGGAGAAAGCCACGATGAAGAAAGGCTGATGTTTAAAAACCTTGCATACGGAGCAATTAACGGAAGTTATGATGTTAAAAATCTTAATACCGCTCTTGAAAGAATGAAAACTTTCGGGGCAACCTTCTTTACCATTCCCGGCCCGAAAATGATCTGGCAGTTCGGAGAATTAGGATATGAATTCAGTATTAACAGGTGTGCGAACGGTACTATCGACAGTGGTTGCAGAACAGATGAGAAACCCGTTGCATTTACTTTAGGCTATGATACCAATGCCAGCAGAAAAGCAGTGTATGATACCTGGGCTAAAATCATCAATATCAGAAACAGTCACCAGGTTTTTAAATCTAAAACCTACAGTGTAGAATCCAATAACCTTGCGAATGATCCTAATGGCTTAATTACAAGGATTTATGTATATGATGCAGCGATTACAACAGGAACAAAGAATATCGTAGTATTAGCCAACTATAGTACTTCTGTGCAGAATGTAGTGCCTTATTTCCCGTACACAGGCCAGTGGCAGAATCTGATGGACAACAGTATTTCGGATATAGCCTCTACAACGGCTCCAATTACTTTGCAGCCGGGAGAATTCAGAATTTTTGGTAATTATGCAGGTGCTTTGTCAACAATAGATACCAATGCAGCCAACAAATTATCCCTTCAGATTGCAGATAATCCGGTTCATAACGGAATTGCAAAATTAGTCTTCAGTAAAGCCAAAAACGGAGAGATTGTAATTTTTGATATGACCGGTAAAAAGCTTGATTCATTCAAACTGGATAAAGAAAACGGTACCTATGAAGCGAAAATCAGTTATCCGGCAGGAACCTACCTTGTACAGCTGAAATCAGATACGGGAATAGCCATTCAAAAGATGATGATTAAATAA	MKKFYSVVFLLITIAVFGQINYIITPNPFNETDAITLTVPGDQIDESAWGVSNNAIYIWSWSLDTNYQNSQDCPTNGSWNNSNDLNKLNYNSATDSYSITFTPTVFFGRTGIGKFGFLLKDKTGSHQTSPDIFVNVGTLSLNLTNPLANSLTTVPVGNSINIAATTSVNATFQLKANGTVVNSTTTPSQSYSYNYTVTQDASMELVATQGTNSKSATFILQVPRNVVSEAIPNWMRQGINYHPTDATKVGLALYAPGKSFVHVIGSFNNWTVNDSYLMKKDTANPDLYWIELNGITPQQLYTFQYRTNDLRKVADPYSPQILSSYDDQWISASTYPNLPAFPAGQGFEVSTFKTGQTAYNWQVTNFQRPAKEDLLVYELLLRDFTQEKNWQSLIDKIAYLKNLKINAIELLPIMEFDGNLSWGYNTSFHYALDKAYGTPEKFKEFVDLCHQNGIAVILDVAFNHATGRSPLVRLWNIDPDGDGYGDVAADNPYFNQVPKHSYNVFNDFNHTSPSTQYYVERCLEQWLTEYHIDGFRWDLTKGFTQSCSENDEACTNAYQQDRVDIMKHYADRQWTLDPNSYMIFEHLGTDAEEQQWANYRIAEGKGVMLWNKQTDPYNQNTMGYQENSNYDRMNHSLHGFTNMSAVGYGESHDEERLMFKNLAYGAINGSYDVKNLNTALERMKTFGATFFTIPGPKMIWQFGELGYEFSINRCANGTIDSGCRTDEKPVAFTLGYDTNASRKAVYDTWAKIINIRNSHQVFKSKTYSVESNNLANDPNGLITRIYVYDAAITTGTKNIVVLANYSTSVQNVVPYFPYTGQWQNLMDNSISDIASTTAPITLQPGEFRIFGNYAGALSTIDTNAANKLSLQIADNPVHNGIAKLVFSKAKNGEIVIFDMTGKKLDSFKLDKENGTYEAKISYPAGTYLVQLKSDTGIAIQKMMIK	PGPT0019225_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
BMS003_00837	2445	btuB_4		Vitamin B12 transporter BtuB	ATGAAAAAATTAAGCACAGCTGTATTATTGCTTGGAGCAATTCTGGTGGCTGCCCAGGAAAGTGAGGAAAAAGGGAAACAGATTGAAGATATTATCATCGTCGGAAACCGTAATGTCAAAAGAACAAAGCTGGAGACTCCGGTTCCTGTAGATGTAATCAATATCGATAAAATTCAGAGAAGTTCACCACAAATGACAGCTCAGGATCTTCTAAACTATGTTATCCCGTCCTTTAATGCAGTGAGACAGTCTGCTTCGGATGGTACAGAGCACATTGATCCTGTAACCTTAAGAGGGATGGGACCTGATCAGGTTTTGGTATTGCTTAACGGAAAAAGAAGACATTCTACATCATTGGTAAATTATCAGAATACGGTAGGAAATGGTTCTGTAGGAACAGATTTAAGCACGATTCCTGTAATTGCCATTGACAGAATTGAAGTTTTAAGAGACGGAGCCGCAGCGCAATACGGTTCTGATGCCATTGCAGGTGTCATCAATATTATTCTTAAAAAAAATACCGGAGCTTCAGCAAGCCTTACGTATGGATTAAGCGGAAGAAATGACGGCGATACTTACCAGGCAGGAGCTAACTACGGAACAACATTAGGAAAAAAAGACAGTTATATTAATCTTTCATTGCAGCTAAGCCACAGAGGAAAAACGACAAGAACACAAAATCATGATCTCGATATTTTCGGGAATAATTTTGCGTATGCATTTGCTGATGATCCTGCTGCTGCAAGAGCGGCGGATGATGCAAAGATTCAGGAAAGAGGATTAACACGTGACGATTTTAATTTTCAGATTGGGGATGCCCAGATCAGACAGGGGCAGCTGTTCTTCAATGCAGAATATCCTTTTAACGACCATTTTAAAATGTATTCTTTCGGAGGATTCAGTATCAAAGAAGGAAAAGGTTTTGGCTTCAGAAGACTTCCCAGCGAAACATCTAATGTAGTTTCATCCATTTATCCGAATGGTTTTCAGGCAACTCTGGCTTCTCAGGTATACGACGTTTCTTACGCTGTAGGAGCAAAATATAATGTCAATGACTGGTTTTTTGACCTTAGCAATACCTTTGGAAGCAATACTTTTAATTACAACGTAAACAATACCAATAACGCTTCTTTGGGAGCAAAATCACCCACCCGTTTTTATGCAGGAGCACATAGCTTCCTTCAAAATACCATTAACCTTGATGTTTCCAAAAATATAAACCGATTCAATATCGCATTCGGAGGAGAGTTCAGATTTGAACAATACCAGATCAAAGCCGGAGATGAAGCATCTTATACCCAATATGATATCAACGGAAATGTTGCCACCGAAGGATCAACGGTGCTTGGAGCAGGCGGATCTCAGTCTTTTATCGGATTTTCTCCCAATAATGCCTTGAAAAAAGACAGGCACTCAACTGCTGTGTATGCGGATGTTTCCTATGATTTAGATAAAAAATTAAACATTGATGCCGCTGCAAGATTTGAAAATTATTCAGATTTCGGAAATACACTGAATGGAAAACTGGCGGTACGATATGAGTTGGTAAAAAACTATGCAATAAGAGCAGCGGTAGGAACAGGATTCAGAGCACCTTCTCTTCAGCAGCAGTATTTTAATAACTCTTATGCGGATATTTCTACGTCCGGCGAAAAGATTGTTACAAAAGGAATCTTTAGTAACGATAGTAAAGCAGCACAGGTTCTTGGTTTTGATCACTTAAAACAAGAAACTTCTGTGAATGGAAGTGCCGGGTTTACTTTAAAGCCAGTAAAAGGATTATTGATAACCGTGGATGGATATATCATTAAAGTAAAAGACAGAATAGTTATTACCGGAAATATAACAGATTCAAGATTGTCAGATCCAGCGATAGTAGGACAGGGAAATGAGGTAGAGAGCGGAAGATTTTTTGCTAATGCCATTGATACCAAGACAAAAGGAGTAGATGTAGTGGTTTCCTATGACTGGATTCTCGGTAACGGAAAATTAAATATGAATCTTGCCGGAAATTATACAGAAACAAAAATCACAGATTTCCATTTTCCGGAAAACTTAGGGACTCCTCAGAATGAATTCTTTGGCCCGGATCAGATCAATATCATTGAAACATTGTCTCCCAAAACAAAAGCTTCATTAGGATTAAATTATGGAATCGGGAGGTTCAATTTTCTCGTAAGAAATACTTATTTTGGTAAAGTAATAAGAGACGGCTATCCGTTTGGAGGCGTGCAGGAATTCTCCCCAAAGGTGGTTACTGACATCAGTGTTGGGTATGATTTCACAAAAAGTATCAACCTTACAGTAGGAGCCAATAATGTGTTTGATGTCTTTCCTGATCGTCAGATTTATGAAAATTCATATTTTGGAGTCTTCAAATATGCGCCGGTTCAGATGGGAACACTGGGAAATTATTTCTTCGGAAGGCTTAATTTTAATTTTTAA	MKKLSTAVLLLGAILVAAQESEEKGKQIEDIIIVGNRNVKRTKLETPVPVDVINIDKIQRSSPQMTAQDLLNYVIPSFNAVRQSASDGTEHIDPVTLRGMGPDQVLVLLNGKRRHSTSLVNYQNTVGNGSVGTDLSTIPVIAIDRIEVLRDGAAAQYGSDAIAGVINIILKKNTGASASLTYGLSGRNDGDTYQAGANYGTTLGKKDSYINLSLQLSHRGKTTRTQNHDLDIFGNNFAYAFADDPAAARAADDAKIQERGLTRDDFNFQIGDAQIRQGQLFFNAEYPFNDHFKMYSFGGFSIKEGKGFGFRRLPSETSNVVSSIYPNGFQATLASQVYDVSYAVGAKYNVNDWFFDLSNTFGSNTFNYNVNNTNNASLGAKSPTRFYAGAHSFLQNTINLDVSKNINRFNIAFGGEFRFEQYQIKAGDEASYTQYDINGNVATEGSTVLGAGGSQSFIGFSPNNALKKDRHSTAVYADVSYDLDKKLNIDAAARFENYSDFGNTLNGKLAVRYELVKNYAIRAAVGTGFRAPSLQQQYFNNSYADISTSGEKIVTKGIFSNDSKAAQVLGFDHLKQETSVNGSAGFTLKPVKGLLITVDGYIIKVKDRIVITGNITDSRLSDPAIVGQGNEVESGRFFANAIDTKTKGVDVVVSYDWILGNGKLNMNLAGNYTETKITDFHFPENLGTPQNEFFGPDQINIIETLSPKTKASLGLNYGIGRFNFLVRNTYFGKVIRDGYPFGGVQEFSPKVVTDISVGYDFTKSINLTVGANNVFDVFPDRQIYENSYFGVFKYAPVQMGTLGNYFFGRLNFNF	PGPT0003790_8889	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
BMS003_00838	1311	steT_1	COG0531	Serine/threonine exchanger SteT	ATGAGTACTACCTCACATCAGATTGGCTGGAAAACAGCCGCAGCCATTGTAGTTTCCAATATGATCGGAACAGGGATTTTTACCACCCTGGGATTTCAGTTATCTGATATTTCCAATACCTACAGTATTTTCCTGCTATGGAGTATCGGGGGAGTTCTTGCCTTGTTCGGAGCTTTTTGCTACGCAGAATTGGGGTCGCATTTTAAAGGAAACGGAGGCGATTTTATTTATCTTAAAGAAACTTATCATCCCATATTCGGATACCTGATAAGCTGGGTTTCTCTTATTATAGGGTTTTCCTCTCCTGTGGCACTGGCAGCCTTAGCCATGTCAAAATACCTTTCCGTATTTGAGTATTCTTTTGGGAACGGATTTGCGATTGCAGCCATTTTCCTGGTTGCGATTTCGTTGTCATTTAGCTTAAAGACATCCAGCAGATTTCATAACTTTTTTACATTCATTAAAATAGCCTTCATTGTTGTGCTTGTTATTTTGGGTGTTGTACTTTCAGATTCACCGCAGATCGGAAATAGCCTGAACTTCAGTGACAGCTGGAAGAACGAAATTATGCTTCCTGCTTTTGCTACTTCTCTTGTATTTGTAACTTATTCCTACACAGGCTGGAATTCAGCTTCTTATATCGCGGGAGAAATAAAAGATGTCCAGAAAAACCTTCCCAAATCACTGATTATAGGAACTGTTTTCGTAACAGTAAGCTATATTCTGGTGAATTATATTATGCTGAAACATGCTCCTATAAGCCAATTGGCAGGAAAAGAAGATGTAATGGGAGAAGCAGCCGTCAATATGCTGGGATCTTCTTTTGGAAAAATCGTTAATATTTTCATTGCCCTGCAGCTTATTGCAACAATCAGCGGGTATCTGTGGGTAGGATCAAGATTAACACAGGCTTTTGCAAAACATACCTCCATTTGGAAACCATTATCAGTGGGTAACGAGAAAGGAATTCCGGTAAGAGCTATTTTTGCCCATGCAGTAATTGCAGCCATTATTATTCTTACAGGAAGTTTCAAAGAAATATTCGTCTATACTGCTTTTATTTTACAGCTTTTTGCAAGTCTGGCCATTTCTACCGTATTCTTCCTGAAGAAAAAAGATCGAAAAATTTTTAAGTCGAATGCTTTCCACATTTTTCCGGCTGTTTTTTTACTGTTCAGTTTTTATATTCTCTACTTTACATTCATTCATAATCCTAAAGAGAGCCTGATAGGATTGGGAATTATAGCAGTAGGAATTGTTTTGTATATGATTGACAGAAAACTCTCTAAACGATCTAAAACGAAGTCCTGA	MSTTSHQIGWKTAAAIVVSNMIGTGIFTTLGFQLSDISNTYSIFLLWSIGGVLALFGAFCYAELGSHFKGNGGDFIYLKETYHPIFGYLISWVSLIIGFSSPVALAALAMSKYLSVFEYSFGNGFAIAAIFLVAISLSFSLKTSSRFHNFFTFIKIAFIVVLVILGVVLSDSPQIGNSLNFSDSWKNEIMLPAFATSLVFVTYSYTGWNSASYIAGEIKDVQKNLPKSLIIGTVFVTVSYILVNYIMLKHAPISQLAGKEDVMGEAAVNMLGSSFGKIVNIFIALQLIATISGYLWVGSRLTQAFAKHTSIWKPLSVGNEKGIPVRAIFAHAVIAAIIILTGSFKEIFVYTAFILQLFASLAISTVFFLKKKDRKIFKSNAFHIFPAVFLLFSFYILYFTFIHNPKESLIGLGIIAVGIVLYMIDRKLSKRSKTKS	PGPT0020810_6011	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS003_00839	1086	prfA	COG0216	Peptide chain release factor 1	ATGTCTAAATCATTAATTCCAAAATTAGAAGCTATAAAACAAAGATATAATGAGGTTGCAGACCTTATTATACAGCCTGATGTCATTTCAGACCAAAAAAGATATTCTTCTTTGAACAAAGAATATAGTGATTTGGGAAAAATTGTAAGAGTTTACGATCAGTACAAAGGAGCTCTGGATAGTATTGCAGAATCTGATGAAATCATTGCAGATGGTTCAGACAGAGACCTTGTAGACCTTGCTAAAGAAGAAAAACTGGAAGCTCAGGCCAAACTTCCTGCACTGGAAGAAGAACTGAAAGTATTGCTGATCCCAAAAGATCCTGCCGATGACAAAAACGTTATCGTAGAATTACGTGCCGGAACAGGAGGTGATGAAGCTGCAATTTTCGTAGAAGATATCTACAGAATGTATACCATGTATTTTAAAACAAAAGGATGGAGACATGAAGTAACAGACTCTAATGAAGCTGCGAAAGGATACAAGGAACTGATCATGAAAGTGGAAGGAGAAGGTGTTTACGGAATCATGAAGTTCGAATCCGGAGTTCACCGTGTACAACGTGTCCCTGAAACTGAATCTCAGGGAAGAGTGCATACTTCTGCTATCACTATTGCTGTTCTTCCGGAAGCTGAAGAAGTAGATTTTGAACTGAATCCTGCTGATATCGAAATGCAGACTTCCCGTTCAGGAGGTGCCGGAGGTCAGAACGTAAACAAGGTTGAAACTAAAGTTCAGCTTACCCACAAACCTTCAGGACTTGTGGTGGTTTGCCAACAGGCTCGTTCTCAGTTGGCTAACCGTGAATTGGCAATGGAAATGCTAAGAACAAAACTATACGATATCGAATTGCAGAAAGTACAGGGAGATATTGCAGCACAACGTAAATCTATGGTTTCTACCGGAGACCGTTCTGCAAAAATTAAAACTTACAATTACCCGCAAGGTAGAGTTACAGATCATAGAATCAACAAATCTATGTACAACCTGGATGCTTATATGAACGGAGATATTTCTGAAATGATTGATGCCGTAATCATGGCGGAGAATGCAGAGAAAATGAAGGGGGAAGAAGACAATTATTAA	MSKSLIPKLEAIKQRYNEVADLIIQPDVISDQKRYSSLNKEYSDLGKIVRVYDQYKGALDSIAESDEIIADGSDRDLVDLAKEEKLEAQAKLPALEEELKVLLIPKDPADDKNVIVELRAGTGGDEAAIFVEDIYRMYTMYFKTKGWRHEVTDSNEAAKGYKELIMKVEGEGVYGIMKFESGVHRVQRVPETESQGRVHTSAITIAVLPEAEEVDFELNPADIEMQTSRSGGAGGQNVNKVETKVQLTHKPSGLVVVCQQARSQLANRELAMEMLRTKLYDIELQKVQGDIAAQRKSMVSTGDRSAKIKTYNYPQGRVTDHRINKSMYNLDAYMNGDISEMIDAVIMAENAEKMKGEEDNY				NA	NA	NA	NA	NA
BMS003_00840	678			hypothetical protein	ATGAAAACCTACAAAATTATTTTGCTGTTGATGCTGACCATGCTGGGGAAGCAAGCTATGGCTCAGACCGAGGTGAAGAAACCTAAAGAAGCCTTTGAACTATTCTTTGGTACCTTTGTGAACAATGATGAGGTTGCCTTGACCAAGCTTAATGACTATTTAAAACCTACAGTAGACGGACAGATAGCTTATCAGGTAGATTTTAAAGAAACGTCCCGGGAAATGATCAACGGGAGTGTAGAGAATTTCCTTTCTGCTTTCCCTATAACGACAGCAGCAGCATGCAAAAAAGAAGCTGAAGACTATTTCAGAGGTATGTTTGATAATTTTAAAACAGGAAAACTTACCGTAAAAGACGTAAAAGTAATTCCGAATGAATATGTAGATGGACAAAAAATAGCAGAAGTAAGCTATTCTGTGAGCTTTCTGGTTCCCTCAAAGCTGACTTCCGGGCCTAAAGGTGATCTGAATAAGATAAAACCGGAAGATCTTAAAAAATACTTGGTTCAGGCAGCCCGGGATTTTAAAAATGCAGACAAAACGGTCACAACAGAGCAAAGTTTTAGTTTATACGAACTTAAAGAAGGAGATAAGATATACTATTGGAATGGCAGTCCGGATGAGATTGTGTCTAACCTTACCGATTTTTATTTTGAAAGCTTCGGAGCAAGTGAATAG	MKTYKIILLLMLTMLGKQAMAQTEVKKPKEAFELFFGTFVNNDEVALTKLNDYLKPTVDGQIAYQVDFKETSREMINGSVENFLSAFPITTAAACKKEAEDYFRGMFDNFKTGKLTVKDVKVIPNEYVDGQKIAEVSYSVSFLVPSKLTSGPKGDLNKIKPEDLKKYLVQAARDFKNADKTVTTEQSFSLYELKEGDKIYYWNGSPDEIVSNLTDFYFESFGASE				NA	NA	NA	NA	NA
BMS003_00841	2103	f1pep1_1		Prolyl endopeptidase	ATGAATTTTAAGCCAATATTGTTAACGGCTGGAGTGTTATTTTCAGCATCTTTTTATTCTCAGAAAATGAATTATCCTAAAGCATTAAAAGGAAATCAGACAGATACCTATTTCGGAACTGCTGTTTCAGATCCTTTCAGAGATCTGGAAAATGATTCTGAACCTACAAAGAAATGGGTAGATGAAGAAGTAGCGTACAGCCAGAATTATCTTTCTAAAATTCCGTTCAGGGATAAAATTAAAAGCCAGCTGAAAGATATCTGGAACTATGAGAAGATTTCAGCACCTTTCAAAGAAGGAGATTACACCTATTATTATAAAAATGACGGTTTACAGGCTCAGTCTGTTTTGTACAGAACAAACAACAAGACCAATGCTACAGAAGTATTTTTAGATCCGAATAAATTTTCAGAAAAAGGAACTACTTCACTTTCTAACCTTTCTTTCAACAAAAAAGGAAATCTTGCCGCTTATTCTATTTCTGAAGGAGGAAGCGACTGGAATAAGATTATTATCATTGATGCTGTTACCAAAAAGCAGATAGATGAAACTTTGCTGGATGTAAAATTCAGCGGAATTTCTTGGCAGGGTGACGAAGGATTCTATTATTCAAGCTATGACAAGCCAAAAGAAGGAACCGTACTTTCCGGAATGACGGATAAGCATAAAGTATACTTTCACAAGCTGGGAACAAAGCAGTCTGCTGATAAATTGATTTTCGGAGGTGATAAAACACCGAGAAGATACTTAAGTGCCGGAGTTTCTGAAGATCAGAGATATCTTATCATTTCTGCAGCGAATGCAACCAACGGTAATGAGCTGTACATCAAAGACCTTCAAAAAGGAGGAGACTTTGTCCAAATTATGAGTGGATTCGACATCAATGCCGGCATCGTTGATACTCAGGGTGATGATCTTTTCATTTTTACAGATAAAGATGCCCCGAATATGCGTCTTGTAAAAACTACAATTAGCAATCCGGCTCCTGCAACATGGAAAGACGTAATTCCACAAACTGAAAATGTGTTGGGGATCTCTTCCGGTGGAGGATATTTCTTTGCCACTTATATGATTGACGCCATAGATCAGGTAAAACAATTCGATAAAGCAGGGAAACTGGTTAGAGAAATTACCCTTCCGGGGAAAGGAAATATCTCAGGATTTGGAGGAAAAGAAAAAGAAAAAGATGTTTACTTCTCTTTCAGCAATTATATTACACCGGGAACTACGTATAAATTCAATGTAGATTCAGGGAAATCTGAAGTATACCAAAAACCGAAAGTGAAATTCAATCCGGATGATTATATTTCAGAACAGGTATTCTATACCTCCAAAGACGGTACAAAAGTTCCTATGATGATCAATTATAAGAAAGGAACTAAACTGAACGGTAAAAATCCAACAATTCTATACTCTTACGGAGGGTTTAACATCAGTTTACAACCTTCATTCTCCGTAGTAAACGCAATCTGGATGGAAAATGGCGGTATCTATGCTGTTCCAAATATCCGTGGCGGTGGCGAATACGGCAAAAAATGGCACGATGCAGGAACAAAACAACAAAAGAAAAATGTTTTTGAAGACTTTATTGCTGCAGGAGAATATCTTCAAAGTAAAGGATATACATCAAAAGAATATATGGCCCTTTCAGGAAGATCAAATGGCGGATTACTGGTAGGTGCAACAATGACTATGCGTCCGGATCTTGCAAGAGTAGCTTTCCCGGGAGTAGGTGTTTTGGATATGTTGAGATATAATAAATTTACAGCCGGAGCAGGATGGTCTTACGACTATGGTACTGCAGAAGATAGCAAAGAAATGTTTGAATATCTGAAATCATATTCTCCGGTGCATAATGTAAAAGCAGGGACCTGCTATCCGTCTACAATGATCATTACCAGTGATCATGATGACAGAGTGGTTCCGGCACATTCATTCAAATTCGGAGCAGAACTTCAGGAAAAACAGGCATGCAAAAATCCTATTCTTTTGAGAATTGAAAAAAATGCCGGACACGGAGCCGGAAGATCTACAGATCAGGTGATCAGTGAAAATGCGGATCTTATTTCATTTGCTTTGTATGAGATGGGAATAAGGAAATAA	MNFKPILLTAGVLFSASFYSQKMNYPKALKGNQTDTYFGTAVSDPFRDLENDSEPTKKWVDEEVAYSQNYLSKIPFRDKIKSQLKDIWNYEKISAPFKEGDYTYYYKNDGLQAQSVLYRTNNKTNATEVFLDPNKFSEKGTTSLSNLSFNKKGNLAAYSISEGGSDWNKIIIIDAVTKKQIDETLLDVKFSGISWQGDEGFYYSSYDKPKEGTVLSGMTDKHKVYFHKLGTKQSADKLIFGGDKTPRRYLSAGVSEDQRYLIISAANATNGNELYIKDLQKGGDFVQIMSGFDINAGIVDTQGDDLFIFTDKDAPNMRLVKTTISNPAPATWKDVIPQTENVLGISSGGGYFFATYMIDAIDQVKQFDKAGKLVREITLPGKGNISGFGGKEKEKDVYFSFSNYITPGTTYKFNVDSGKSEVYQKPKVKFNPDDYISEQVFYTSKDGTKVPMMINYKKGTKLNGKNPTILYSYGGFNISLQPSFSVVNAIWMENGGIYAVPNIRGGGEYGKKWHDAGTKQQKKNVFEDFIAAGEYLQSKGYTSKEYMALSGRSNGGLLVGATMTMRPDLARVAFPGVGVLDMLRYNKFTAGAGWSYDYGTAEDSKEMFEYLKSYSPVHNVKAGTCYPSTMIITSDHDDRVVPAHSFKFGAELQEKQACKNPILLRIEKNAGHGAGRSTDQVISENADLISFALYEMGIRK	PGPT0020970_1658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020970-PREP-K01322	NA	NA
BMS003_00842	2121	mcm	COG1884	Methylmalonyl-CoA mutase	ATGCGAAAGACAATTTCTGTGAAAAAACCGGATTTTAATGTATCAGCTCAGGAAAGAGAGATTTACAATTTTGAAAAAGACGGACTTGAACTCAAATCATCCTATGAAAAAAAGGATATAAAAAATGAATCCTTAACACAGACTTCTCCAGGAATTGCTCCCTATCTCAGAGGTCCGTATTCCACCATGTATGTTCAGAAACCATGGACGATCCGCCAGTATGCAGGATTCTCTACCGCAGAAGAATCCAATGCTTTTTATAGAAGAAACCTTGCCGCCGGTCAGAAAGGACTCTCAGTAGCCTTTGACCTTGCTACCCACAGAGGATATGACTCGGACCACACAAGAGTGGTAGGTGACGTAGGAAAAGCAGGTGTTGCCATAGACTCTGTGGAAGATATGAAGATCCTTTTTAATGAAATTCCATTGGATCAGATTTCAGTATCTATGACCATGAACGGAGCGGTACTTCCTATCTTGTCATTCTACATCGTAGCAGCAGAAGAGCAGGGAGTAAAGCAGGATCAGCTTTCAGGAACCATTCAGAATGATATTCTGAAAGAATTCATGGTAAGAAATACTTACATTTACCCTCCTGCACCTTCCATGAAGATTATCGCAGATATTTTTGAATACACTTCGCAAAATATTCCAAAATTCAATTCCATTTCTATTTCCGGATATCACATGCAGGAAGCTGGTGCTACACCTGTATTGGAAATGGCCTACACACTGGCAGATGGTCTTGAATACGTAAGAACAGGAATTAAAGCAGGTATGAACGTAGATGATTTCGCTCCAAGACTATCCTTCTTCTGGGCAATCGGGATGAATCATTTCATGGAAATTGCGAAAATGCGTGCCGCAAGATACATTTGGGCAACCCTTTTAAAACAGTTTAATCCTCAGAATCCAAAATCTCTGGCATTAAGAACTCATTCCCAGACTTCCGGATGGTCTTTAACAGAGCAGGAGCCTTTCAATAATATTACAAGAACAGCCATAGAAGCGTTGTCTTCAGCATTAGGAGGAACACAGTCTCTCCATACCAATGCACTGGATGAGGCCATTGCCCTTCCTACAGACTATTCAGCAAAAATAGCAAGAAATACACAAATTATTCTTCAACAAGAAAGCGGAATATGCGATGTGGTAGATCCAATGGGAGGAAGTAACCTTGTAGAAAGCCTTACCCAGCAGATGATTGAAGAAGCGATGAGGTATATTGATGAGGTAGAGCAGGAAGGAGGAATGACCAAAGCCATCGAAGCCGGAATTCCAAAAATGAGAATTGAAGAAGCCGCGGCCAAAAAACAGGCTAAAATTGACAGTGGCGAAGAATTCATTATCGGAGTCAATTCATTCAAATCCTCATTGAAACAGGATCAGATAGAAATCTTAGACATTGATAATACAGAAGTTCGCAGAAAACAGATCGAAAGACTGAATGCAATAAAAGCCGAAAGAAATACTGAAGCTGTTGAACAAATCCTGAATGAAATCCGTGAAAGTGCCAAAACAGGAAAAGGAAACCTTCTTGCATTATGTATCGAAGCAGCAAGAAGAAGAGTTACCCTTGGTGAAATGAGTGATGCCATGGAAGAAACCTTTGGAAGATATAAAGCAAATATTAAAACAATCTCTGGTGTATACGCAATGAATGCCGGTAAAAACGAATATTTTGAAAAAGCCCTTCATCTGACTCAGAAATTTGAAGAAGAAGAAGGACGCCGCCCAAGATTAATGGTCGCTAAAATGGGACAGGACGGGCACGACAGAGGAGCAAAAGTAGTAGCAACAGCATTTGCTGATATGGGATTTGACGTAGATGTCGCTCCATTGTTCCAGACACCGGAAGAAGTAGCTAAACAGGCTGTAGAAAACGATATTCATATTTTAGGAGTTTCTTCATTAGCAGCCGGACATAAAACACTAGTTCCACAGGTAGTGGAAGAATTGGCCAAACTGGGAGCTGATGACATTACCATCGTGGTAGGAGGAGTAATTCCACAACAGGATTACGAATTCCTATATGCGAACGGTGCCGACTTTATTTTCGGACCTGGAACCAATCTTCCGAAATGCGCAGTAGAAATTCTGGAAAGATTTTTAGAGAAATAA	MRKTISVKKPDFNVSAQEREIYNFEKDGLELKSSYEKKDIKNESLTQTSPGIAPYLRGPYSTMYVQKPWTIRQYAGFSTAEESNAFYRRNLAAGQKGLSVAFDLATHRGYDSDHTRVVGDVGKAGVAIDSVEDMKILFNEIPLDQISVSMTMNGAVLPILSFYIVAAEEQGVKQDQLSGTIQNDILKEFMVRNTYIYPPAPSMKIIADIFEYTSQNIPKFNSISISGYHMQEAGATPVLEMAYTLADGLEYVRTGIKAGMNVDDFAPRLSFFWAIGMNHFMEIAKMRAARYIWATLLKQFNPQNPKSLALRTHSQTSGWSLTEQEPFNNITRTAIEALSSALGGTQSLHTNALDEAIALPTDYSAKIARNTQIILQQESGICDVVDPMGGSNLVESLTQQMIEEAMRYIDEVEQEGGMTKAIEAGIPKMRIEEAAAKKQAKIDSGEEFIIGVNSFKSSLKQDQIEILDIDNTEVRRKQIERLNAIKAERNTEAVEQILNEIRESAKTGKGNLLALCIEAARRRVTLGEMSDAMEETFGRYKANIKTISGVYAMNAGKNEYFEKALHLTQKFEEEEGRRPRLMVAKMGQDGHDRGAKVVATAFADMGFDVDVAPLFQTPEEVAKQAVENDIHILGVSSLAAGHKTLVPQVVEELAKLGADDITIVVGGVIPQQDYEFLYANGADFIFGPGTNLPKCAVEILERFLEK				NA	NA	NA	NA	NA
BMS003_00843	735			hypothetical protein	ATGGAAAATGATAATCTTCAGCATTTCCGCCTGAAAAGCGTGAGAAGCAGAAAAAGAGCAATTAGAAAAGATGTAGAAAAGCAGATAAGAAAAAAATATCAACGTAGTGAGGAGCTTTGGGATATCAGACGAAATATCCCATGGATTCCTTTGGATAAACCTTATCAGAGAGGATTTGTAAGATTCTTCGCAGTAAGGGAAGATGTCATGAGATCCAAAGACGGAGATTTCTTTGAAGGAATTTTAAAGAAGATCAATACCTACATGTATTCGGAAAGCCGCCAGTTTTTGAAAAAGAGAAGAAAATTCGGCCGGAGAATATATGTGGAAAAGTTACAGAAGCTCAAACAGATCTCTTCATATTCGTGGAATGATCCAAAGTTTGGCCTTACGCTAAGGGAGAAACAGTATTTTTTGAAACAGGAAGAATATTGTTCTATCCGGAAGACCTATGTGCCTTACTACGAATTTACTGAACCCTGGAGATTTACCCTGCGTACAAGACCCAATATGATCACCCATTATAAACCTGTAAACTTTGAATTAGAAAAAGAATGTGCAGAACTGGGTTCCTATTTGGGGCAGCATAAAGTGATAGGAATTATGAACAAGACTATTTTATGTAAGTCGAATCCATGGAAAGAAACGTATCAAAGAAAGCTTATCAAAAGCAGGAAATATGCAACCTGCACAATGTCTGCAACAGGAATTGCAGAAAGCTTACAGGACTTATGA	MENDNLQHFRLKSVRSRKRAIRKDVEKQIRKKYQRSEELWDIRRNIPWIPLDKPYQRGFVRFFAVREDVMRSKDGDFFEGILKKINTYMYSESRQFLKKRRKFGRRIYVEKLQKLKQISSYSWNDPKFGLTLREKQYFLKQEEYCSIRKTYVPYYEFTEPWRFTLRTRPNMITHYKPVNFELEKECAELGSYLGQHKVIGIMNKTILCKSNPWKETYQRKLIKSRKYATCTMSATGIAESLQDL				NA	NA	NA	NA	NA
BMS003_00844	1392	rtcB	COG1690	RNA-splicing ligase RtcB	ATGGGAAATTTAAAACTAAAAGGAAAAGATATATTAAAACTGGGCTATCCAAATAACCAAAGCGTAAACGTAGCATTGGAAGTCATGAAAAGAAATTTTGCAACGAAAAATATTCATCACGTAAAAGCTCTTTTAAAGGAAATCCTGCTGAATCCGGAAGAATTCGAAAAAGATCTTACTTTCGGACAAATTGCAGAAACCCTGCTTTCATCCAGAAAAACAGAAAAAAGAATGCTGAATTCACAGCGTGCTTCTTTTCAGATTTTTGGAAACAATATTTCAGAAGAGGCAAAAAATCAGCTATACACTGCTTTGAAACTGCCTGTTTCTACTCAGGGAGCATTAATGCCGGATGCCCACAGCGGGTACGGACTTCCCATAGGAGGAGTTCTGGCTGTGGAAAATGCGGTAATCCCTTACGGAGTAGGGATGGATATTGGCTGCAGAATGAGCCTCAGTATTTTGGATACACCAGTTTCATATCTTGAAGGAGCAAGAGATAAATATGAAAAAGCGCTTGCTGAACATACTAAATTCGGGATGTATGAAACACATAAATCCCATATAGATCATGAGATTTTCGAAAGAGATACATTCGATATGATCCCGATCTTAAGAAGATTAAAGGGAAAAGCCATCAAACAGATGGGATCCTCAGGCGGAGGAAATCACTTTGTAGAATTCGGAGAAGTGGAAATCATCGAAGAAGACAAACAAATTGGTCTCCCAAAAGGAAAATATCTGGGAATACTTTCTCACAGTGGTTCGAGAGGTCTCGGAGCAGAGATTGCACAGTATTATTCAAGAATGGCAACAGAACAGTGTCCGTTACCAAAAGAAGCCCAAAATTTCGCATGGTTGGACCTTAGTACTCATCTTGGACTGGAATATTGGACGGCCATGAATCTTGCCGGCGATTATGCTTCAGCCTGTCATGATGATATTCACAGAAGGCTGATAAAAGCAGTCGGTGGAAGAGTAAAAGCCAGAATTGAAAACCATCACAACTTTGCATGGAAAGAAATTCATAACGGAAAAGAAGTGATCGTTCACAGAAAAGGAGCGACTCCTGCCAATGAAAATGAATTGGGAATGATCCCCGGATCGATGACAGCAAAAGGGTTCATCGTTCGCGGAAAAGGAAATCCGGAATCTTTGAATTCAGCTTCACATGGTGCAGGAAGAGCTCATTCAAGAGGAGAATGCAGAAGTCTTTTCACTCAGCATGATATCAAAAAAGAGTTGAAGCTGAAAAATGTCACACTCATGGGCGGAAATGCAGAAGAAGCACCTATGGCCTACAAAGACATTAATGAAGTGATGAGTGCACAGAGCGAACTGGTAGATATCCTGGGAACATTCCAGCCGAGAATTGTGAGAATGGACAAATAA	MGNLKLKGKDILKLGYPNNQSVNVALEVMKRNFATKNIHHVKALLKEILLNPEEFEKDLTFGQIAETLLSSRKTEKRMLNSQRASFQIFGNNISEEAKNQLYTALKLPVSTQGALMPDAHSGYGLPIGGVLAVENAVIPYGVGMDIGCRMSLSILDTPVSYLEGARDKYEKALAEHTKFGMYETHKSHIDHEIFERDTFDMIPILRRLKGKAIKQMGSSGGGNHFVEFGEVEIIEEDKQIGLPKGKYLGILSHSGSRGLGAEIAQYYSRMATEQCPLPKEAQNFAWLDLSTHLGLEYWTAMNLAGDYASACHDDIHRRLIKAVGGRVKARIENHHNFAWKEIHNGKEVIVHRKGATPANENELGMIPGSMTAKGFIVRGKGNPESLNSASHGAGRAHSRGECRSLFTQHDIKKELKLKNVTLMGGNAEEAPMAYKDINEVMSAQSELVDILGTFQPRIVRMDK				NA	NA	NA	NA	NA
BMS003_00845	546			hypothetical protein	ATGGGAGCACCACATAACATAAAAAGGTACGGTGAAGTCTGGCCGGAATTCAGAATTCAGTCAGGACTTGAAATTTTAGATAAATTAAAAGATAAAGTCATTATATCAGGTGGCTGGGCATGGCATTTTATGTCAGAAAAAGGACATACAGAATACAAACATGCGCATGACCACAAGGATATTGATGTTTTTGTAAAAAAAGAAAATGTAGCAGAAGTTGTTATTATTCTTCAGCAGGAGGGATTCCAAAAAGTATGGACCCGATATGACCACTTACCAAGTGAAGAAAACTTCCGCAGGTATGAGAAAACAGTAGAATCGGAAAACGAAAAGTTTCACAGGATTACCATAGATTTTTTTGAAAAAGATGATCTTGAGACCATTGAAACTAATGGGTTTACTGTTGTGAGACCTGATATTTTACTTTCTTTTTACAGAAATATCCACTCCAGTGATAAATGCTGGGCAGTGATGGCTGCAAAAGAGTTATTACAAAAGGGGAAAGATCCAATAGGACACCCTTTATTAAGCAAAATGCCAACATAA	MGAPHNIKRYGEVWPEFRIQSGLEILDKLKDKVIISGGWAWHFMSEKGHTEYKHAHDHKDIDVFVKKENVAEVVIILQQEGFQKVWTRYDHLPSEENFRRYEKTVESENEKFHRITIDFFEKDDLETIETNGFTVVRPDILLSFYRNIHSSDKCWAVMAAKELLQKGKDPIGHPLLSKMPT				NA	NA	NA	NA	NA
BMS003_00846	699	prfB_2		Peptide chain release factor 2	ATGGAAAAATTAATACAGATCACTTCAGGAAGAGGACCTTTAGAATGCCAGTGGGTGGTAGCCAAGGTGCTGAAGACCTTTCTTGAAGAGGCAAAACAAAATACAATAGAATACGAAATCATTCATCGTGAGAACGGGGATGAAAACCTGACATTAAAATCAGTTACCCTTCTTTTAAAAGGAAAAGAGCTGTCCTCGTTTTTAAAAAGCTGGTTGGGAAGTGTCTGCTGGATTGGGAAAAGTACATTCAGGAAACTGCATAAAAGAAGCAATTGGTTTATCGGAATTTTTGAATTGGAAAATATAAAAATGATTGATTTTCATGAAAAAGATATCCGGTTTCAGACCGCAAGAAGTCAGGGAAGCGGAGGACAAAACGTAAACAAGGTGAATACCGCTGTCCGTGCCACTTATATTCCTACCAATGAAACTGTTTTTGTACAGGATTCCCGTTCACAGCTGGAGAATAAAAAACTATCCGTTATCAGGCTCAAAGAAAAGGTAATGGCAGTTTATATTCAGCAATTAGAAAGAAAACTGAAAGATACCTGGTCTCTTCAGATGCAGGTAGAACGTGGAAATCCGGTTCGTACATTTTCAGGAATAGATTTTAAAAAAAATTACGAAGACAAGACATTCAAAAAACAAAGAAATGCCTTGAAAAATGATCTTAAAAATTACAGAAATGACCTTAACTAA	MEKLIQITSGRGPLECQWVVAKVLKTFLEEAKQNTIEYEIIHRENGDENLTLKSVTLLLKGKELSSFLKSWLGSVCWIGKSTFRKLHKRSNWFIGIFELENIKMIDFHEKDIRFQTARSQGSGGQNVNKVNTAVRATYIPTNETVFVQDSRSQLENKKLSVIRLKEKVMAVYIQQLERKLKDTWSLQMQVERGNPVRTFSGIDFKKNYEDKTFKKQRNALKNDLKNYRNDLN				NA	NA	NA	NA	NA
BMS003_00847	507			hypothetical protein	ATGACCTTAACTAAAAGTAAATATTATTTTGAAGCGCTGGACTACTTTCCTTTCAACCTTGCGGAGTGCATGGATGCGCTGAACTATGCCTTATCCTACGAACCCGAAGATGCAGACAGCCTTTGTCTGATGGGAAGAGTGTATTCGGAAGAATTAAAAGATTATGAAACTGCAAAGAAATACTTTGATGAAGCCATGCAGAGTAATATCGGAAATATCAATACTCCTAAATATTACATTGAATGTCTTTTGAGTAATGAAGATTATAAAGAAGCAGAAAAATTAATTGAGTTTTCTTTGAAGCTAAAGGGAATTGATAAATCCGAAATCCTGAATTGTCTGTCTCTTTTGCAGGAAAGAAAATTGGAGTATAAACAGGCTTTGGCAACTCTTAAAGAAGCAAAAAAGTTTGCTTATACCCGAGCGGCACTCGAAACTATTGAAGACAGAGAAAAATTAGTCAAAGGAAAAGTAACCAGAACAAGAACCGTAAAAAAGACAGAATAA	MTLTKSKYYFEALDYFPFNLAECMDALNYALSYEPEDADSLCLMGRVYSEELKDYETAKKYFDEAMQSNIGNINTPKYYIECLLSNEDYKEAEKLIEFSLKLKGIDKSEILNCLSLLQERKLEYKQALATLKEAKKFAYTRAALETIEDREKLVKGKVTRTRTVKKTE				NA	NA	NA	NA	NA
BMS003_00848	288			hypothetical protein	ATGAAAAAACTTATCTTAGCCGGCATCGCAGCATCAGTATTTCTGGTATCATGCGGACCAAAAAGTGTGGCTGTAACAGGGCCAAAGTATACCTCATCTGAGCAACTGGCGCAAGGAAAAACCATTTTCGAGAATTCCTGTACAAAATGCCATAAGCTGCCAGAGCCTACCAAGCATGACGATAAGGGATGGATCAACACTTTAAGCAGAATGGCTCCAAAAGCTAAGCTTACAGATGAACAGCACCAAATGGTGTATGATTACCTGATCTCTGTGAATAAGAAATAA	MKKLILAGIAASVFLVSCGPKSVAVTGPKYTSSEQLAQGKTIFENSCTKCHKLPEPTKHDDKGWINTLSRMAPKAKLTDEQHQMVYDYLISVNKK				NA	NA	NA	NA	NA
BMS003_00849	294			hypothetical protein	ATGAAAAAACTCACCGCTGCGGCTTCGTTTACTGCTATTTTGCTGGTTTCCTGTACGCCAAAAGCTTCTACATCCGCTGCTACTGCCGGAACATCTACATCTACTGCAGAACAGATTGCCCAGGGAAAAACTATTTTTGAAAACTCTTGTGGAAGATGTCATAAACTTCCGGATCCTGCGTCACACAATCCTGTACAATGGGTAGGAATCATGAATTCTATGGCTCCAAAGGCAAAACTGACGGATGAACAGCACCAATGGGTTTATGATTATATTGTTTCTGTGAAGAAATAA	MKKLTAAASFTAILLVSCTPKASTSAATAGTSTSTAEQIAQGKTIFENSCGRCHKLPDPASHNPVQWVGIMNSMAPKAKLTDEQHQWVYDYIVSVKK				NA	NA	NA	NA	NA
BMS003_00850	1062	argK	COG1703	GTPase ArgK	TTGATCTTTTGTCTTATCATTATCATCCGGGTATTGACCATTCCCATTTTAATTATTAATTTTGAATCAATGAAATTTTCTACAGAAGAGCTGATAGACGGAATACAGTCAGGAAACAAACGCCTGATTGCAAAAGCTATTACATTGGTTGAAAGTAAAAAAGCAGAGCACAGAATACAGGCGGAAGAACTTCTGAAGAAGATCATGCCTCTTACCGGAAACTCTGTGAGAGTAGGCGTAACGGGAGTTCCCGGAGCCGGAAAATCCACTTTTATAGAAAATTTCGGAAGGCTGGCTATTGCTCAGGGCAAAAAAGTAGCAGTTTTGGCGATTGATCCAAGTTCTGCGATCAATAAAGGAAGTATTTTGGGCGATAAAACCAGAATGGAAGAACTCGCCAAAGAAGAAAATGCATTCATACGTCCTTCTCCCAGCTCAGGATTCCTGGGCGGAGTAGCCAATACTACCTTTGAAACCATGATGATCTGCGAAGCTGCAGGCTATGATTATATTTTGATAGAAACCGTTGGAGTAGGCCAGTCAGAAGTTCTGGTAGCTGATATTACCGATGTTTTCCTTTTCCTTAAAATCATTGGTGGTGGAGATGAACTTCAGGGGATAAAACGGGGAATCATGGAAATGGTAGACCTTATTTTCATCAATAAAGTAGACAAGGACAATCTCCAGAAAGCAAAAAATACAAGACTGGAATTAAAAAGAGCCTTAGACTTTATTCCGCCTAAAGAAAAAGGTTGGAAGATTCCTGTTTTATTGGGCTCTGCTTTGTTTAATGAAGGATTACAGGAAGTGTATGATACCATCTTCGAATTTATTGATCTCAAAAAGAAATCCGGGCGTTTTGAAGAAGTACGTGTTCAGCAGGCCGAAAAACGTTTTGAATATTGGGTTCAGGAATATATTTTATCTCTGATGAAAAAAAGCAATACTATAGAAGAAGCGTATCAGATGCATAAAAAAAATGCTTCAGCTATGGTTTCCAATCCAAGTACTGAAGCAAAATTATTTGTTGAGAAATTCTTATCAAAGGAAAACAGGGATTAA	MIFCLIIIIRVLTIPILIINFESMKFSTEELIDGIQSGNKRLIAKAITLVESKKAEHRIQAEELLKKIMPLTGNSVRVGVTGVPGAGKSTFIENFGRLAIAQGKKVAVLAIDPSSAINKGSILGDKTRMEELAKEENAFIRPSPSSGFLGGVANTTFETMMICEAAGYDYILIETVGVGQSEVLVADITDVFLFLKIIGGGDELQGIKRGIMEMVDLIFINKVDKDNLQKAKNTRLELKRALDFIPPKEKGWKIPVLLGSALFNEGLQEVYDTIFEFIDLKKKSGRFEEVRVQQAEKRFEYWVQEYILSLMKKSNTIEEAYQMHKKNASAMVSNPSTEAKLFVEKFLSKENRD				NA	NA	NA	NA	NA
BMS003_00851	549			hypothetical protein	ATGAAAAAGTATATTTCTTTACTGATGATTTTTGGATTCCTGTTCTTTTTTCAGAGCTGCGCGTCACAGGGGTCATTAGATCCGAAAACAGTGGATTCCTTAATCAATTCTCAGGAGTTTACTTTCCATGCAGAAAGAGCCAACCCTACTAATTATGACGTTATTAATGTCTTAAATTCAATGCCCAATGCCACTGCTACCAGAATATTGAACCTGAATGGGGATTATACTATTGACGTGCGTAAAAATACACTGGATGTAGTGCTTCCTTACTTTGGAAGGCTGTTCAATCCTACTTATGGAAATACCAGTGACAATGGCTATAGATTTACTTCTAAAGATTTTACCGTGAGTAAAACTCAGAATAAAAAAGGGAATTGGACTTTAAAATTCAAACCGAAAGATGTAAGAACCGTGGATGAAATAAATATCGAGATCTTTAAAAATGGCAAGGCTTTCGTTTCTATGAGAAGTAATGACAGGCAGCCTATCACTTATGACGGATATGTTTCAAAAACGGAAGTAAAACAGGAAAAGGAAAAACTTTAA	MKKYISLLMIFGFLFFFQSCASQGSLDPKTVDSLINSQEFTFHAERANPTNYDVINVLNSMPNATATRILNLNGDYTIDVRKNTLDVVLPYFGRLFNPTYGNTSDNGYRFTSKDFTVSKTQNKKGNWTLKFKPKDVRTVDEINIEIFKNGKAFVSMRSNDRQPITYDGYVSKTEVKQEKEKL				NA	NA	NA	NA	NA
BMS003_00852	807	bepA_2		Beta-barrel assembly-enhancing protease	ATGAAAGTTACACATCTATTAGGAATAGGAGCAATTGCTCTGTCGGCTCTTGCCTGTACTACAAACCCTATTACAGGGAGGTCCTCTTTACAGCTGGCCAACAATTCGGAAATTTTAACAATGTCTTCACAGGAATATAAGACGACATTGTCTAAAGGTAAAGTGATTACCGGTACGGCAGATGCAAAGAGAGTGGTAAATGTAGGAAACAGAATTAAAAGTGCAGCAGAAAGATATTATCAGAGTATAGGAAGATCTGCAGATCTTGCCAATTACAACTGGGAATTTAATCTTCTGCAAAGTAATGAGTTGAATGCCTGGTGTATGCCCGGCGGTAAAGTAGCCGTTTATACAGGAATATTACCGGTAACAAAAGACGATAACGGACTTGCTGTAGTATTGGGGCATGAAGTATCCCATGCTCTGGCTGGCCATGGAAACGAAAGAATTTCTCAGGCGATGGTGGCTCAGTATGGAGGAGCTATTCTGGGAGGTACAATTTCCAATTCACAATGGGCAAGTGTTTTCCAGAAGGTATATCCTATAGGTTCACAGGTTGCGTTACTGAAATACGGAAGAGGTCAGGAATCTGAAGCTGATGAAATGGGGCTTTACCTGATGTCTATGGCAGGATATGATCCAAGAGCAGCAATCCCTTTCTGGAACAGAATGGAAGCGGCATCTTCAGGAGCAAGACAGCCTGAATTCTTATCTACCCACCCGAATCCGGAAACAAGAATCTCAGATATCAATAAAGATTTGCCGAAAGCTTTAGAATATTATAAGGCTGCAGGAGGAAAAATATAA	MKVTHLLGIGAIALSALACTTNPITGRSSLQLANNSEILTMSSQEYKTTLSKGKVITGTADAKRVVNVGNRIKSAAERYYQSIGRSADLANYNWEFNLLQSNELNAWCMPGGKVAVYTGILPVTKDDNGLAVVLGHEVSHALAGHGNERISQAMVAQYGGAILGGTISNSQWASVFQKVYPIGSQVALLKYGRGQESEADEMGLYLMSMAGYDPRAAIPFWNRMEAASSGARQPEFLSTHPNPETRISDINKDLPKALEYYKAAGGKI				NA	NA	NA	NA	NA
BMS003_00853	312			hypothetical protein	ATGAAGAGTTTATCAATTACCGGACTTATACTTTTAGCTGTATCTGCATTACTTTTCTATTTAACAACCGATTTTGCCGTAGAACAAATAAAAATCTCTCACATTATGGGAATCATGGCTGGAATTGGGATAGGGCTTATCATTGGAGGAATGGTAGGATATCTAAGCAAAGGAAGTGCTATAAAAGCGGAACAAAAGAAAAAAGAATTCAAACAGTTGCAGAAAGAAAAGGAAGAGCTTGAAAAACAGGCTGCTGAAATTGCAAAACGCCAGGCTGAACTTGAAGAACAAAATAAAAACCCTCAGATTTAA	MKSLSITGLILLAVSALLFYLTTDFAVEQIKISHIMGIMAGIGIGLIIGGMVGYLSKGSAIKAEQKKKEFKQLQKEKEELEKQAAEIAKRQAELEEQNKNPQI				NA	NA	NA	NA	NA
BMS003_00854	612			hypothetical protein	ATGAAAAAGGTACTTAGTATAGCGTTATTAGGATTTTCAATGTGGGCTTCTGCACAGATTTCTCTGGCTGGTAAAGCCAACTTGATTTTCCCTACAGGATCTCCTTCATGGTCCAATATCAAAGGAACAGTGAATGATGCTATTGACGGAAAAGGAAAAAACAATGTGGGGTTCAATGTGGGGCTTTCATTAAAGGTAGGTCTTCCTACTTCACTGTTTGTGATGCCGGAAATCTATTATACTCATTTCAAAAATGAGTTCACTACAGAGAATACTACTTTTGATGTTAAAAGCAACCGTATAGATGTTCCTGTTCTTTTGGGATACAATCTTTTAGGAAATATGCTGGGAGTTTTTGTAGGACCTGTAGGAAGTTTCAACTTAAATAAGGACAATACTTACAACGACTTCAAAGAAAATGCTAAAAATGACTTTACAGTAGGATACCAGTTTGGTGCTCAGCTTGAAATTAAAAAGCTTATTGTAAATGCAAGATATGAAGGTGCTTTCAGTAAAGACGAAAGAAATTTCATCAACAAAGTTTCCGGTTCGGAAATCAGATATGATAACAGACCTAATCTGTTTATGGTAGGTCTAGGATATAAATTCTAA	MKKVLSIALLGFSMWASAQISLAGKANLIFPTGSPSWSNIKGTVNDAIDGKGKNNVGFNVGLSLKVGLPTSLFVMPEIYYTHFKNEFTTENTTFDVKSNRIDVPVLLGYNLLGNMLGVFVGPVGSFNLNKDNTYNDFKENAKNDFTVGYQFGAQLEIKKLIVNARYEGAFSKDERNFINKVSGSEIRYDNRPNLFMVGLGYKF				NA	NA	NA	NA	NA
BMS003_00855	816	mkl	COG1127	putative ribonucleotide transport ATP-binding protein mkl	ATGATTGAGGTAAAAGATCTTAAGAAAAGTTTTGATGATGTTGAAGTGCTTAAGGGAATTTCAACTTCATTTGATAAAGGAAAGGTAAACTTAATTATTGGGCAGAGTGGTTCCGGTAAGACCGTTTTTTTAAAAAGTTTATTGAATGTTTATATGCCGTCTTCCGGAGAAATTCTATTTGACGGAAAAGATATCAATACCATGAACAGAGATGAAAAGCAGCATCTCCGTTCAGAAATCGGGACGGTATTCCAGGGAAGTGCGTTATTTGATTCCTTAACTGTGGAAGAAAACATTATGTTCCCGCTTGACATGTTTACCAATCTTACCTATAGAGAAAAAAAGAAAAGGGTTTTTGAAGTAATAGGAAGAGTACATCTTGATAAAGCTGAAAAAAAATATCCTTCTGAAATTTCCGGAGGTATGCAGAAAAGGGTTGCCATTGCAAGAGCTATTGTTAACAATCCTAAGTATCTGTTCTGCGATGAGCCCAATTCCGGGCTGGATCCTTATACCTCTAAGATCATAGATGATCTTCTTTACGAAATCACAAAAGAATATAATACGACCACCATCATCAATACTCACGATATGAACTCTGTAATGACGATTGGCGAGAAAATTGTATACCTACGATTGGGAATTAAAGAATGGGAAGGAAATAAAGACATTCTGATTACCGCAGGCAATAAAAATCTGATTGATTTCGTTTATTCCTCAGAACTATTCAAAGAACTGAGAGAATATTTGCTTGAAAATAATAAAACGATTGAAACTACAAATACAAAAATAGACGATAATGAAAAAGGTACTTAG	MIEVKDLKKSFDDVEVLKGISTSFDKGKVNLIIGQSGSGKTVFLKSLLNVYMPSSGEILFDGKDINTMNRDEKQHLRSEIGTVFQGSALFDSLTVEENIMFPLDMFTNLTYREKKKRVFEVIGRVHLDKAEKKYPSEISGGMQKRVAIARAIVNNPKYLFCDEPNSGLDPYTSKIIDDLLYEITKEYNTTTIINTHDMNSVMTIGEKIVYLRLGIKEWEGNKDILITAGNKNLIDFVYSSELFKELREYLLENNKTIETTNTKIDDNEKGT	PGPT0007015_1462	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
BMS003_00856	753	mlaE	COG0767	Intermembrane phospholipid transport system permease protein MlaE	ATGTTAAAAAAGTTTTTCACAGCAATAGGGGAATACATGATCCTCTTAGGGAAATCCCTGCAGAAACCTCAGAAAATGGGAGTATTCTGGAAGCTGTTTATGAGAGAAATTAATGATTTGGGAGTAAATTCTTTCGGACTTGTGGTCTTCACTTCTATCTTCGTGGGGGCCGTAGTAGCCATTCAGATGTTCAACAACTTTGATGCTTCTTCATTTCCAATTCCGCCATCATTTGTAGGATATGCTACGAAAGCCGTTCTGGTTTTGGAATTTGCACCTACTATTATCAGTTTGATTCTTGCAGGTAAAGTTGGTTCATATATTGCGTCCAGTATCGGAACAATGAGAGTTTCTGAGCAGATTGATGCCTTAGATATCATGGGAGTAAACTCACCCAATTTCCTGATATTTCCAAAAATCATTGCCTGTATGCTTTTTAATCCCCTTCTTATTGCCATCAGTATTGTATTTGGTATTGGCGGAGGTTATATTGCCGGGATTTTAACAGGCAACTGGACAGAGAACGATTATATTGTGGGTATTCAGATGTATATGCCGAATTTATTTATTTACTATGCATTTACCAAAACAATCGTTTTTGCCTTTATCATTGCCACGGTTCCTTCTTATTTCGGATACAATGTAAAAGGAGGATCGCTGGAAGTAGGTAGAGCAAGTACACAGGCTGTAGTATGGACCATGGTGTTCATTATTATCTCTGAACTAATTTTAACCCAATTAATATTAAGCTGA	MLKKFFTAIGEYMILLGKSLQKPQKMGVFWKLFMREINDLGVNSFGLVVFTSIFVGAVVAIQMFNNFDASSFPIPPSFVGYATKAVLVLEFAPTIISLILAGKVGSYIASSIGTMRVSEQIDALDIMGVNSPNFLIFPKIIACMLFNPLLIAISIVFGIGGGYIAGILTGNWTENDYIVGIQMYMPNLFIYYAFTKTIVFAFIIATVPSYFGYNVKGGSLEVGRASTQAVVWTMVFIIISELILTQLILS	PGPT0007010_5531	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
BMS003_00857	1371	wcaJ	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	ATGCAAAGAATTCGATACTCCAGATACCTGAAATCAATCATTATGCTGCTTGACCTCACGGTTATTGCATCTATCTTCATATTCTTTTTTATAAGCAGAAACGAAAGTTTAAAATACAACCAGGAAACCTGGTATCAGAATATTTTTTCTCTGATTCTGTTGTTTTTGTTCTGGATGCTTCTCAGCGGTAGGACAAAAATATACAATATTCCGAGAAACCTTACCTATACTTTGTTTCTAGAACGTCTTTTGATCCATTTTCTCTTTTTTATACTTGGCGTACTGCTTATAGGAAAGGTAAGTAATAATGTATTTTTCAGTTCGGATATTTATTGGCTTTCTCTTTATCTTTTTATTTTTATTTTTCTGGAAAAATCATTTATCTATTTCTCAATAAAGTATTTACGATCATTAGGAGCCAACTACAGAAATGTAATGTTTTTAGGAAATCATCAGTCTACTGAAATTCTGAAGAATATATTCCTAGATCGTAAAGATTATGGATACAGGATATTTGAATACGAAAGTTCAGATATTAACATCAATGAGCTGGTTGATTTCTGGAAGAAAAACGGAATTCATACCCTGTTTCTGTCTATGGAAAATTCCTATGACGAACGGCTGGAAAATGAGATTTTCAAGTTAGCTGAGGATAATAAGATCCACATTTCATTGATTCCAAGCATCACACAAAGCGATTTTTTCCTGTATGATCTTGGTTATATACAAACCCAGCCCGTACTTAACCAGGCAAGGTATTCGCTGGATTATTATTCTAATTTTCTCATGAAAAGAACTTTTGATATTTTCTTCTCTGTCATTATACTGGTTTTTATATGCTCATGGATGTTCCCGATTATTGCAATTTTAATCAAAACTACGTCCAAAGGCCCTGTATTTTTCCTTCAGAAAAGATATGGCTTCCATGAAGAAGTATTCAATTGTATTAAATTCAGAACAATGGTGGTAAATGATGAATCTACTACCAAAACTACATCAGTAAATGATTCCAGAATCACCAGAATTGGTAAATTCTTAAGAAAAACCAGTCTTGATGAGCTTCCTCAATTTATTAATGTATTAAAAGGAGAAATGTCCGTAGTAGGGCCGCGTCCCCATATGCTTTCCGTTGACAATTATTACAAACCAAAAATCGGGAGATACAGCTTAAGAAGTATGGTAAGCCCCGGCATCACCGGATTGGCACAGGTAAACGGACTGCGTGGTGACTTTGGTAATGTGGAAGTAGAAATGAAAAAAAGAGTTCTCGCCGATGCTTTCTATGTAAGAAACTGGAGTTTTGTTCTTGACCTTGTTATTATCTTAAAAACTGTTTTACTGGTCATAGGTGGAGATAAAAATGCCAAATAA	MQRIRYSRYLKSIIMLLDLTVIASIFIFFFISRNESLKYNQETWYQNIFSLILLFLFWMLLSGRTKIYNIPRNLTYTLFLERLLIHFLFFILGVLLIGKVSNNVFFSSDIYWLSLYLFIFIFLEKSFIYFSIKYLRSLGANYRNVMFLGNHQSTEILKNIFLDRKDYGYRIFEYESSDININELVDFWKKNGIHTLFLSMENSYDERLENEIFKLAEDNKIHISLIPSITQSDFFLYDLGYIQTQPVLNQARYSLDYYSNFLMKRTFDIFFSVIILVFICSWMFPIIAILIKTTSKGPVFFLQKRYGFHEEVFNCIKFRTMVVNDESTTKTTSVNDSRITRIGKFLRKTSLDELPQFINVLKGEMSVVGPRPHMLSVDNYYKPKIGRYSLRSMVSPGITGLAQVNGLRGDFGNVEVEMKKRVLADAFYVRNWSFVLDLVIILKTVLLVIGGDKNAK	PGPT0023345_926	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023345-wcaJ-K03606	NA	NA
BMS003_00858	630	queE		7-carboxy-7-deazaguanine synthase	ATGAATAAAGAACAAGATATTTTATTAAAAGAAGGTAAAATGCTCCCTGTAATGGAGCATTTTTACACTTTACAGGGAGAAGGAGCACATACCGGTAAAGCCGCTTACTTTATCCGGCTGGGAGGCTGTGATGTAGGATGCCACTGGTGTGATGTAAAAGAAAGCTGGGATCCGGAACTCCATCCTCTGATGAACACAGAAGAAATTGCAGAAACAGCGGCAAGGCATTGTAAAACAATTGTTCTGACAGGGGGTGAGCCTTTGATGTGGAACTTAGACATCCTGACTTCCAGACTGAAAGAACTGGGGTGTACCGTACACATAGAAACTTCAGGTGCCTATCCCATGAGTGGACATCTGGATTGGATAACCCTTTCGCCCAAGAAAACAGGACTTCCTAAAGAAGAAATTTATCAAAAAGCACACGAGCTTAAAGTTATTATCTTCAACCAGCATGACTTTACATTTGCACAGGAGCAGGCTGCAAAAGTTTCTGAAAACTGTAAACTTTATCTTCAGAGTGAATGGAGCAAAAGAAATGATATGTATCCGAAAATTACAGACTTCATTTTGGAACATCCGGAATGGCAGGCTTCAGTTCAGACTCATAAATATCTGAATATACCGTAA	MNKEQDILLKEGKMLPVMEHFYTLQGEGAHTGKAAYFIRLGGCDVGCHWCDVKESWDPELHPLMNTEEIAETAARHCKTIVLTGGEPLMWNLDILTSRLKELGCTVHIETSGAYPMSGHLDWITLSPKKTGLPKEEIYQKAHELKVIIFNQHDFTFAQEQAAKVSENCKLYLQSEWSKRNDMYPKITDFILEHPEWQASVQTHKYLNIP				NA	NA	NA	NA	NA
BMS003_00859	885	folD	COG0190	Bifunctional protein FolD protein	ATGGCAGAAATTCTTGACGGACTTAAAGTATCCAAGGAAATTAAAGCAGAGATCAAGGTTGAAGTAGAAAAGATTCTCGCAGGCAAAAGAAGAGCTCCGCATCTGGTAGCTATTCTTGTAGGAAACAATGGAGCTAGTAAGGCCTATGTAAATTCTAAGGTGAAAGACTGTGAGGAGGTAGGATTTCAATCCAGCTTAATCAAATTTCCAAGTACAGTTTCAGAATCTGAGCTGTTGGAAAAAATTGACGAGCTTAATAAATCTAAAGCAGTTGACGGATTTATCGTTCAGTTACCTCTACCGGATCAGATTGATCAGGAAAAAATCATCAACGCAATTGATCCGAGAAAAGATGTAGATGGTTTCCACCCTGAAAACTTCGGGAAAATGGCTCTTGAGATGGATACTTTCTTACCTGCAACTCCTTTCGGTATTTTAACATTACTGGAAAGATATAATATTGAGACCAAAGGAAAAGACTGTGTAATTATCGGGAGAAGTAAAATTGTAGGAAGACCAATGAGCATTCTGATGGGAAGAAAAGATTTCCCGGGAAACTCTACTGTTACCCTTACACACTCATACACAAAAGACATTGAAGAATATACAAGAAAGGCAGACATTGTAATTACTGCTTTGGGAGATCCTCATTTCTTAAAAGGAGATATGATCAAAGAAGGTGCAGTAATTGTGGATGTAGGTATTACAAGAGTAGATAATGACTCTCCAAAAGGGTATTACCTTGCAGGTGATGTAGATTTTGACAGCTGTGCAGAAAAAGCAAGCTGGATTACCCCGGTACCTGGAGGAGTAGGTCCAATGACCAGAGCAATGTTGATGAAAAACACCATCATTGCTTACAAAACTTCGGTCTATAACGACTAA	MAEILDGLKVSKEIKAEIKVEVEKILAGKRRAPHLVAILVGNNGASKAYVNSKVKDCEEVGFQSSLIKFPSTVSESELLEKIDELNKSKAVDGFIVQLPLPDQIDQEKIINAIDPRKDVDGFHPENFGKMALEMDTFLPATPFGILTLLERYNIETKGKDCVIIGRSKIVGRPMSILMGRKDFPGNSTVTLTHSYTKDIEEYTRKADIVITALGDPHFLKGDMIKEGAVIVDVGITRVDNDSPKGYYLAGDVDFDSCAEKASWITPVPGGVGPMTRAMLMKNTIIAYKTSVYND	PGPT0008075_1421	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
BMS003_00860	825			putative protein	ATGTCTGCATTAAGATCATATTATTATAAGCTACCTCCCGGTTTTAGGCTTTTAGGAAGAAAAATTTTTTATTTTCCTATAGATCTTTATGAAGGACTCATTGGAAAAAGAACTAAAAATGAACCTAAAAAGGGAGATATTTATGTAGGAAGCAGTGACTTTATTCCTCATGGAATCCGACAGATGAATGTACTGAAAAAATATATTTCCCTCAGCAATACAGATCACGTATTGGATATCGGATGTGGAATTGGGAGAACAGCCGTAGCTTTAACCGGATTTATTGATCAGGGAACCTATGATGGTTTTGATGCTGTTGCAAAAGGAATTGCCTGGTGTGACAAACATATTCATAAAAAGTATCCTAATTTCAATTTTAAATTCACTCCAATCTATAATGATCTGTATAATACCTTCAGTCAAAAGGCCGAAGATTTTACATTCCCTTATGAAAATGCTGTGTTTGATAAAGCTTTTCTTTTCTCAGTTTTTACTCATATGCAAATTCCTGAGATCAGGCAATATCTGAAAGAAATAAGCAGGGTCTTAAAAAATGACGGACAATGCCTAGCCACTTTCTTTCTTTATGATGAGTCTAAAACAGAATCGGGAAGCATGCATTTCCCACATCAGTATGAAGGGTATAAACTCATGGATGATCAGGTAACTGCAGCAAATATTGCTGTAAGCATCCCTTTGTTAAATCAAATGGCTCATGAAGCCGGATTGAAGGTAATCACTATAAAAGAAGGTTTCTGGAGAAATGACGTAAAGAAAGAAGAAGCTGATGAATTCCAGGATATCGTTGTATTCAATAAAATCTAA	MSALRSYYYKLPPGFRLLGRKIFYFPIDLYEGLIGKRTKNEPKKGDIYVGSSDFIPHGIRQMNVLKKYISLSNTDHVLDIGCGIGRTAVALTGFIDQGTYDGFDAVAKGIAWCDKHIHKKYPNFNFKFTPIYNDLYNTFSQKAEDFTFPYENAVFDKAFLFSVFTHMQIPEIRQYLKEISRVLKNDGQCLATFFLYDESKTESGSMHFPHQYEGYKLMDDQVTAANIAVSIPLLNQMAHEAGLKVITIKEGFWRNDVKKEEADEFQDIVVFNKI				NA	NA	NA	NA	NA
BMS003_00861	1641	pgi	COG0166	Glucose-6-phosphate isomerase	ATGCTATCAAAAATAAATCCAACACAAACTAACAGCTGGAAAGCACTGGACGAACACTTCGGGGGAAATGATTTTGATCTTAGAACCCTTTTTCATTATAATCCGAACCGTTTTAACGAGTTCTCCCTGCAAAAGGATAACTATCTTTTTGACTATTCTAAAAACTTAATTGATTCCAGAACAAAGGATCTTTTATTACAGTTGGCCGAAGAGAGCCAGTTAAAAGATGCTATATCTAAAATGTTCTCCGGAGATAAAATCAATGAAACAGAAGGAAGAGCAGTATTACACACCGCATTAAGAGATTTCTCTGACCGTGAGATTCTTGTGGATGGAGAAAACATAAAGCCACAGATCAAAAGAGTTCTTGAGCATATGAAGTCTTTCTCTGAAAAAGTAATTTCAGGAGAACATAAAGGTTTCAACGGAAAAGAAATTACAGATGTAGTCAACATTGGAATAGGAGGATCAGATTTAGGCCCTGTAATGGTTTGTTCTGCTTTAAAGCATTTTAAAACAAGATTAAACGCTCACTTTGTCTCTAATGTGGACGGAAATCATATTGCAGAAGTAGTGAAGAATTTAAATCCTGAAACTACTTTATTCATCATTGCTTCCAAAACATTTACTACCCAGGAAACAATGACGAATGCGAACTCCGCTAAAGACTGGTTTCTGAAAGCAGGGAAGCAGGAAGATGTAGCGAAACATTTTGTAGCCTTATCTACTAATATTGAAGAAGTTAAGAAGTTCGGAATCGCAGAAGAAAATATTTTCGAGTTCTGGGACTGGGTAGGCGGAAGATATTCTCTTTGGAGTGCAATTGGATTAAGCATCGTCCTTTCTGTAGGATATGAAAACTTCGAACAGCTTCTAAAAGGAGCTTTTGATACAGACCAGCACTTCCAGACAGCAGAGTTCTCTGAAAACGTTCCTGTATTGATGGGGCTTTTGGGAATCTGGTACCGTAATTTCTATGCGGCCACCACTTATGCTATCCTACCCTATTCTCAATACTTGGACAGGTTTGCCGCCTATCTTCAACAGGGAGACATGGAAAGTAACGGAAAATGTGTGGACAGAAACGGGGAATTCGTAGAATATGAAACAGGACCTATTATCTGGGGAGAACCTGGTACAAATGGCCAGCACGCATTCTATCAATTAATCCATCAGGGAACAGAATTGATCCCGGCAGACTTTATTGCCTACACAAAAAGTCCAAACAAAGTTTCGGATCATCAGGATAAATTATTGGCAAACTTTTTTGCTCAGACTGAAGCACTTGCCTTCGGAAAACTGGAAGAAGAAGTAGAAGAAGAACTGCGAAGTTCAGGAAAATCTGATGAAGAAATTGACAGATTACTAAACTTTAAGGTCTTCCACGGAAACACCCCTACTAACTCTATATTATTCAAAGAATTAACTCCTTTTTCATTAGGCCAGCTGATTGCTTTATATGAACACAAAATTTTTGTTCAGGGTGTTATCTGGAATATTTTCAGCTTTGACCAGTTTGGAGTGGAATTAGGAAAAGTATTAGCCAACAAAATTCTTCCTGAGCTTGAAAACAATGAAGCAATAAGCTCTCATGACAGTTCTACTAATGGATTGATTAATTATTATAAAGAAAATAAATAG	MLSKINPTQTNSWKALDEHFGGNDFDLRTLFHYNPNRFNEFSLQKDNYLFDYSKNLIDSRTKDLLLQLAEESQLKDAISKMFSGDKINETEGRAVLHTALRDFSDREILVDGENIKPQIKRVLEHMKSFSEKVISGEHKGFNGKEITDVVNIGIGGSDLGPVMVCSALKHFKTRLNAHFVSNVDGNHIAEVVKNLNPETTLFIIASKTFTTQETMTNANSAKDWFLKAGKQEDVAKHFVALSTNIEEVKKFGIAEENIFEFWDWVGGRYSLWSAIGLSIVLSVGYENFEQLLKGAFDTDQHFQTAEFSENVPVLMGLLGIWYRNFYAATTYAILPYSQYLDRFAAYLQQGDMESNGKCVDRNGEFVEYETGPIIWGEPGTNGQHAFYQLIHQGTELIPADFIAYTKSPNKVSDHQDKLLANFFAQTEALAFGKLEEEVEEELRSSGKSDEEIDRLLNFKVFHGNTPTNSILFKELTPFSLGQLIALYEHKIFVQGVIWNIFSFDQFGVELGKVLANKILPELENNEAISSHDSSTNGLINYYKENK	PGPT0017735_2661	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
BMS003_00862	606			hypothetical protein	ATGAATTTTGATCAGTTAAAAGAACAGTGGAATAAAGAAGACAGCGATGTCCATATTCCTGACACCATACAGCAATTAAAAGAAAGCAAGCATCCTATAGAAAAAATCCGGAAAAACATGAAAAAAGAATTTCCGATGCAGGTTGTTGCCATAATTCTTATCGCTTTTTTTCCTCTTCAGTTTCAATTTCCATCTTCACAATATATTATTTATTATGTCTCTTATACCATGATGGTCGTAATATCATCTTATTATCTGTTAGGATTTTATAAATTCTACAGACAGACAGAGCTTTATACAGGAAACACCAAAAACAGCCTCTGGAAAATATACCATGAGCTTCGTCTGAATATGGAACGCTATCAGTCTTTTGGCTTTTTGCTCCTTCCTCACTTTCTGGTAACAATAGGGCTTTTCATCTATAATACAATGGAAAAACAGGGGAAATCTTTAGCAGAACTTACCTCGTCTCATCAGCAAGGTTTAATCATTGCAGTACTGATAGGAACTTTAGCCATTATTACAAGTATTGTTCTATGGACAAAGTACATCTATGGAAGAAGTGCCACACAACTGGAAAACATTCTGAATGAAATGGATGAATAA	MNFDQLKEQWNKEDSDVHIPDTIQQLKESKHPIEKIRKNMKKEFPMQVVAIILIAFFPLQFQFPSSQYIIYYVSYTMMVVISSYYLLGFYKFYRQTELYTGNTKNSLWKIYHELRLNMERYQSFGFLLLPHFLVTIGLFIYNTMEKQGKSLAELTSSHQQGLIIAVLIGTLAIITSIVLWTKYIYGRSATQLENILNEMDE				NA	NA	NA	NA	NA
BMS003_00863	510	sigE_2	COG1595	ECF RNA polymerase sigma factor SigE	GTGAGTATTCCAACTGAAACAACTTTTTTAAAGCTTATTAACCAACATAAAGGCATTTTATATAAGGCCTCGCGGATCTACGCAGATTCGGCAGAGGACCGGGAAGACCTTCAGCAGGAAATTCTTATCCAGCTTTGGAAATCCTACCAGAATTTCAAAGGAAACAGTGAGTTTTCTACGTGGATGTATCGGGTTGCCATCAATACTGCGATTACTTATTTAAAAAAAGAAAAACAGAGATCCGGTAATCATACAGACACTCCCGCTCACTTTGAAGTACAACAGGAGGACTACAATCCTGAAAAGGACAGGCAATTGGAAATTTTTTACTGTGCCGTTCAGAAATTGAATTCACTAGAAAAAGCCGTCATATTTTATTTCATGGAAGGAATGTCGCACAAAGAAATAGGAAACAATTTAGGGCTTAGTGAAGGCAATGCCAGAGTAAAGCTCAACAGAACAAAAGAAAAAATACAACAAATCATAAAAAAATCAGGCTATGAATTTTGA	MSIPTETTFLKLINQHKGILYKASRIYADSAEDREDLQQEILIQLWKSYQNFKGNSEFSTWMYRVAINTAITYLKKEKQRSGNHTDTPAHFEVQQEDYNPEKDRQLEIFYCAVQKLNSLEKAVIFYFMEGMSHKEIGNNLGLSEGNARVKLNRTKEKIQQIIKKSGYEF	PGPT0014960_11863	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00864	189			hypothetical protein	ATGAATGCTCAACAGGAAAAAGCCATGCTGACTGACAGAAACCAAAACTGGATGAAAATAATGCCGGAAATAATGAAAAAAGAAGGGGCTTTCTTTGCCGTCGGAAGTTCTCATCTTATGGGTAAAAATGGAATTATTCCTCTTCTACAGGCAAAAGGCTATACGGTAAAACCAATATCAAGTTTATAA	MNAQQEKAMLTDRNQNWMKIMPEIMKKEGAFFAVGSSHLMGKNGIIPLLQAKGYTVKPISSL				NA	NA	NA	NA	NA
BMS003_00865	912			hypothetical protein	ATGAAAACTACATACATTAAATTATCCCTATCTGCGGTTCTTTTATTAGGAATTTATTCATGTAAAAAGGGAGAAGTCTCCTCTAAAGAACTTGCAGCGTATGCTACTACAGATTCTGCAGCAGCTGTTCTATCAGACAGTATCTCATCTGTTGCCAGCATGAAGGTAAAAGACAAACAGTTTATCAAGACTGCAAATGTTGACATGGAAGTAAAAGATGTGTATAACGCAACGATTGCTATTGAAAATTCTGTACAGGGTCTCGGTGGGTTTGTTACCAATAGTGATCTTCAAAGTAACGTAGTTTCTGAGAACACCTATAACATTTCTAATGAAGAGGCTATGCTGGTAAAAAAATATCAGACAGAGAACAGAATGCAGGTACGTATTCCTACGGAAAAACTTGGTGAATTGCTGACAGCCATCAATACCAAAAAACTATTTCTTAATTCAAGGTCTATCAATGCAGAAGATGTAACAGCCAATATCAAATATTCTGAGCTGGAGGGAAAAAGGAATCAAAAGACCTCTGAAAATATCAGTAAGCTGAAAACAAATAAGGACAAGGTAAAACTGGATGACGAGAACATGTCTGAAGGAAATCTTCAAAAACTGCAGAGCATAAATATGACAGATGATCTGAAATACAGCACCATTGATATCTACATTAAAGAACCGAAATTACGTATTGCCGAAATTGCTGTTACCAACACTACCAGCATTGATAATAGATATAAATACAATTTTATTTATGATGCAAAAGACGGTTTCGTGTATGGTTTCTATCTGATTCAGAGAATCATAGTAGCTCTCATCAATGTATGGCCTCTTGTATTAATTGCTGCTGCCATCCTCTATTTTTTAAGAAAAAGAAAAGTTTCAAAATCTGAACAGCCAAAAATTCATGAATAA	MKTTYIKLSLSAVLLLGIYSCKKGEVSSKELAAYATTDSAAAVLSDSISSVASMKVKDKQFIKTANVDMEVKDVYNATIAIENSVQGLGGFVTNSDLQSNVVSENTYNISNEEAMLVKKYQTENRMQVRIPTEKLGELLTAINTKKLFLNSRSINAEDVTANIKYSELEGKRNQKTSENISKLKTNKDKVKLDDENMSEGNLQKLQSINMTDDLKYSTIDIYIKEPKLRIAEIAVTNTTSIDNRYKYNFIYDAKDGFVYGFYLIQRIIVALINVWPLVLIAAAILYFLRKRKVSKSEQPKIHE				NA	NA	NA	NA	NA
BMS003_00866	1359	mmgC_1	COG1960	Acyl-CoA dehydrogenase	ATGTCCAATACCTTTTCCAAAATAAGAAACGCAATAGAATTATTCAGATCCATAGATTTCGATCAGTTGAGTGCTATTTCTCAAAAAGTAGATCTTCCAAAACTGATGCAAAATTTCTCAAAACTGGATGATAAACAGCTTTCCGGGCTTATGAAAATGCTCGGTCCCGAAAAGAAAAAGAAAGAACTTCCGCCCATTGACGGGGATTTTTACGATATCTACCACACTCTTACCCCTGAACAGCGTGAAATTCAGCTTAAAGTAAGAGCATTTATGGAAAAAGAAGTGAAACCTTTGGTGAATCACTACTGGCTCAGAGATGAATTCCCTTTCGAGCTGATCCCGAAATTCCAGAAACTGGATATCTGTGGTGTTACGTATGAAGGGTATGGCTGTCCGGGAATGCCCTTCCTGATGGAGGGGGTTATTGCAATGGAAATGGCTAGAGTAGATGCTTCCATAGCAACATTTTTCGGAGTGCAGTCCGGGCTGGCTATGGGTTCTATTTATATCTGTGGATCCGAAGAACAGAAGCAGAAATGGCTTCCGCAGATGCAGAAATTTGAAAAAATAGGCGCTTTCGGGCTTACAGAGCCGGAAGTAGGTTCAGGTGCGGCAGGCGGACTTACGGTAACCTGTAAGAGCACACCTGAAGGCTGGGTTCTTAACGGACAAAAAAAATGGATTGGTAATGCTACTTTTGCTGATCTTATTATTATCTGGGCAAGAGATCTTGACAGTGGAGAAGTGAAAGGATTCATTGTAGAGAAAGATAATCCCGGTTATTCTGTAGAAAAAATCAAAGGAAAAATGGCTTTAAGAATTGTTCAGAACGGATTGATTACCCTGAAAGACTGTCTCGTTACCGAAGAAAACCGTTTGCAGAATGCAAACTCCTTTAAAGATACAGCAAAAGTACTGAGAATGACAAGAGCAGGAGTGGCATGGATGGCTACAGGCTGTGCACGCGGAGCCTATGAAAGTGCTTTGGATTATACCCGGAAAAGAGAACAGTTTGGAAGGCCTATTGCTTCATTCCAGATGATTCAGGGACATCTGGTAGAAATGTTATCTAATCTTACCGCAATGCAGACTATGGTATTCAGGTTGTCCGAAATGCAGGATGAAGGTATTTTGAAAGATGAGCATGCTTCATTAGCTAAAGTTTTCTGTACTCTCAGAACAAGAGATATTGTTTCCAGAGCCAGAGAGGTAATGGGAGGAAATGGAATCCTGCTGGAATATGATGTAGCCAGATTTGTTGCTGATGCAGAAGCTATTTATTCTTATGAAGGGACAAAAGAAATTAATTCGCTCATCGTGGGACGATCGATTACAGGGTTCAGCGCTTTTGTGTAG	MSNTFSKIRNAIELFRSIDFDQLSAISQKVDLPKLMQNFSKLDDKQLSGLMKMLGPEKKKKELPPIDGDFYDIYHTLTPEQREIQLKVRAFMEKEVKPLVNHYWLRDEFPFELIPKFQKLDICGVTYEGYGCPGMPFLMEGVIAMEMARVDASIATFFGVQSGLAMGSIYICGSEEQKQKWLPQMQKFEKIGAFGLTEPEVGSGAAGGLTVTCKSTPEGWVLNGQKKWIGNATFADLIIIWARDLDSGEVKGFIVEKDNPGYSVEKIKGKMALRIVQNGLITLKDCLVTEENRLQNANSFKDTAKVLRMTRAGVAWMATGCARGAYESALDYTRKREQFGRPIASFQMIQGHLVEMLSNLTAMQTMVFRLSEMQDEGILKDEHASLAKVFCTLRTRDIVSRAREVMGGNGILLEYDVARFVADAEAIYSYEGTKEINSLIVGRSITGFSAFV	PGPT0021815_104	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
BMS003_00867	378			hypothetical protein	ATGAAAATAGTAAAATTCATTCTATGTCTACTTTTTGGGCTTATGTTTATCAATGCCGGATTAAACAAATTCTTTAACTATATGCCCATGGAAAAACCTACCCCGGAACAGATGAAGCTTTTTGCTGCTTTTGGAGAGATCAGCTGGCTGATGCCTTTAGTAGGAATTGTGGAAATAATTGGCGGATTATTATTCACCTTTCCAAAAACAAGAGCGCTGGGAGCCATCATTATCTTACCTGTAATGGTAGGAATTGTGACCCACGTATTCACTATGGATAAGTCTCCAATGGGAATGGGGATTGCCGGAATAATGTTCCTGATCAACCTCTGGATAATTATTGACAACAAGGAAAAGTATAAACACTTAGTATCTTAA	MKIVKFILCLLFGLMFINAGLNKFFNYMPMEKPTPEQMKLFAAFGEISWLMPLVGIVEIIGGLLFTFPKTRALGAIIILPVMVGIVTHVFTMDKSPMGMGIAGIMFLINLWIIIDNKEKYKHLVS	PGPT0028505_7004	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
BMS003_00868	1113	yhhT	COG0628	Putative transport protein YhhT	ATGAATTTTCTTAGACTTCCTTTCCTTGTCAAGCTTACGCTTGTGGTGATTTCCATCATTGGCATCGGCTATCTTCTGGCATTAGGACAGAGCATTTTAGCTCCATTTTTTCTGGCATTCCTTATGGCTATGCTGTTCCTGCCCGCAGCTACTTTTATGGAAAGAAGACTCAGATTTCCGAGATCAATGTCTACAATGACCTCAGTGTTTATTATGCTGATCATTTTAAGCGGTATTATTTATTTTTTCACCAATCAGCTGTCCGATTTCAGTAAGGATCTCCCTCATCTCAAAGAACAGTTTACGACTGTTTTCAACAGTCTTCAACATTGGGTTTCTAAGACATTCAATGTAAAAGTGGATGAACAGGTAGATTATATCAATCAGGGGCTGAATAAGCTTTTGTCTTCTTCAGGAATGATTTTAGGGTTTACTTTTGGAATTTTTTCGACAGGATTTGGATTTATTATATTTTTCACCTTGTTTTTCATCTTTATTTTAAACTATAGAAGACTTTTAAATAGCTTTATCATTACTGTTTTTAACGAAAGACATAAAGCGAGTGTACAGGAAGCCGTAAATGAGATCAGAATGATGACCAAGAAATATATCTTCGGACTTTTTCTTCAGGTGATTATCGTTTCTATTCTGACATCAACTCTTCTTACAGTTTTAGGGGTAAAATACGCCATTCTTTTAGGAGTTTTAACAGGGTTATTGAATGTCATTCCATATCTGGGAATATTTATTTCTCTTTTAATTTCCTGTTTTATAGCATTTGCCACTTCAACTCCGTCAACTTGTATTTATGTTGCTTTGGGATACATAGCCATTCATGCTGTAGATGGTAATATTGTACTGCCGTTTGTAGTGGGTTCCAAGGTGAAAATCAACGCTTTATTTTCCTTTATCGGGATTCTTTTAGGGGAACATCTTTGGGGAATTGCAGGAATGTTCCTGTGTATTCCGGCTATTGCGATTATAAAAATTATCTGTGAAAGAGTAGATGACCTCAAACCTTGGGGAAGATTGCTCGGAGAAGAACCGAAGCCCCATAAAAAGAAAAAAACCTATAAGATTTCCAAGAATATTACTTTGAAAGAAATGGATTAG	MNFLRLPFLVKLTLVVISIIGIGYLLALGQSILAPFFLAFLMAMLFLPAATFMERRLRFPRSMSTMTSVFIMLIILSGIIYFFTNQLSDFSKDLPHLKEQFTTVFNSLQHWVSKTFNVKVDEQVDYINQGLNKLLSSSGMILGFTFGIFSTGFGFIIFFTLFFIFILNYRRLLNSFIITVFNERHKASVQEAVNEIRMMTKKYIFGLFLQVIIVSILTSTLLTVLGVKYAILLGVLTGLLNVIPYLGIFISLLISCFIAFATSTPSTCIYVALGYIAIHAVDGNIVLPFVVGSKVKINALFSFIGILLGEHLWGIAGMFLCIPAIAIIKIICERVDDLKPWGRLLGEEPKPHKKKKTYKISKNITLKEMD				NA	NA	NA	NA	NA
BMS003_00869	2406	lon2	COG0466	Lon protease 2	ATGACAGAATTTGAAGATATTAGTTTAGAAGAAATGATCAGTGACGGATTTGATATCGTAACTGAAGAAATCAATCTTTCCGACTTTGCAGAGACTGATAAAAATTCCGAACAGAAAATATTCCCAATACTTCCCGTAAGAAATATGGTTATGTTCCCTAATGTGGTAATCCCCATTACTGCAGGAAGAAAAACCTCTATACAGCTTCTTGAGGAAGCTCAGAAAAACGGTGATTTTATCGGAATTGTAAGCCAGAAAAATTCGGATCTGGAACAACCTTCCGAAAAAGATATTTATTCTACCGGTACTCTGGCAAAGATTATTAAGATCATCAAACTTCCGGAAGGTAATATTACAGCCATCACTAAGGGCTTCCATCGGTTTAAGATTAAAAAAATCATTGAAAAACAGCCTTATTTCAAGGCAGAAATTTCTAAATTAAAAGATACACGTCCTAAAAATCAGGATGAATACGAAGCTTTGCTGGAAAACATCAAGGATCTTGCTTTAAAAATTATTGAACTGGATCCTAACATTCCTAATGCAGCGAATTTTGCGATCAAGAATATTAACAATAATGATGATCTTCTGAATTTCATCTGTACAAACGCTAATTTTTCTTCCATTGCAAAGCAAAAACTTCTTGAAGAGAAAAGCCTGATGATAAGAGCCAATCAGTGCTACGAAATGATGCATGAGGACTTCAGAAAGCTGGAATTGAGAAACCAGATTCATCAGAAAACCTCTAAGGATCTGGACAAACAGCAGAGAGAATATTTTCTGAATCAGCAGATCAGAACCATCCAGGAAGAATTGGGTGGCGGACCAGAGAGTGATGTTGAAGATTTAATAGCGAAAGCTAAAACAAAAAAATGGAGTCAGGAAGTTGAGGATCATTTTCAGAAGGAAATCAACAGGCTTCAGCGTCAGAATCCTAATTCTCCGGACTACAATGTACAGAGAAATTATCTGGATTTCTTTACAGATCTTCCGTGGGAAACTTATACCAAAGATATTTTTGATATTGCCAAGGCTGAAAAAGTGCTTGATAAAGCCCACTTTGGACTGGAAGACATCAAAAAAAGAATTCTGGAGCACATGGCTGTTTTAAAATTAAAAAACAATATGAAGTCTCCTATCCTTTTATTGGTAGGGCCTCCGGGTGTGGGTAAAACGTCTTTAGGAAAATCTATTGCAGATGCTTTAGGAAGAAAATATGTAAGATTATCATTGGGTGGTCTTCACGACGAAAGTGAAATCCGCGGGCACAGAAAAACGTATATCGGAGCTATGGCAGGCAGAATTCTGCAGTCGATCAAAAAATCCGGCACTTCAAATCCGGTAATTGTTCTTGATGAGATTGATAAAATAGGGCAGGGGCTTCACGGAGATCCGAGCTCAGCGCTTTTAGAAGTTCTTGACCCTGAACAAAATAAGTCATTTTATGACAATTTCCTTGAGATGGGTTACGACCTTTCAAAAGTGATGTTCATTGCTACGGCTAACTCCCTTTCAACGATACAGACACCTCTTTTGGACAGAACGGAAATTATTCAGATTGCAGGTTATACTCTGGAGGAAAAAATTGAGATTGCTAAACGACATTTAATCAAGAAACAGCAGGAGGAAAATGGCTTAGATGCCAAATCATTCAAACTTGGTAATCCTGAGCTTAAGCATATTATAGAGGCACATACATCAGAAAGCGGCGTAAGAACTCTGGAAAAAAGAATTGCAGCCATTGCAAGATGGGTAGCGCTTCAGACTGCTCTGGTAAAGGAGTATGATCCAAAAATCTCATTGGAAAAAGTAGATGAAATTCTTGGAGTTCCAAGACCGAAAAGTTTATCTGAAATTACCGGGGTTCCTGGTGTGGTGACAGGTCTTGCCTGGACAAGTGTAGGCGGAGATATTCTTTATATTGAAAGTATCCTAAGCAACGGAAAAGGTTCTTTAACAATGACCGGAAATCTTGGAACGGTGATGAAAGAATCTGCTACTATTGCTCTTGAATACATTAAAGCAAAGCATGATGAACTGGGAATTCCTCAGGAAGATCTGGACAAGAAAAACATCCACGTTCACGTTCCTGAAGGGGCAACTCCTAAAGACGGCCCGTCTGCCGGGATCGCAATGCTTACTTCTATGGTATCTTCTTTCAAAAACAAGAAAGTAAAACCTCATCTTGCGATGACTGGGGAAATTACTTTAAGAGGAAAAGTACTTCCTGTTGGAGGAATTAAAGAAAAACTTCTGGCTGCTACAAGAGCAGGAATTAAAGATGTAATTCTTTGTGAAGCCAACAGAAAAGATGTAGAAGAAATCAAGAAAGATTATTTAAAAGATCTTAAAGTACACTATGTCAACAGAATGGAAGAGGTGATTGCTATTGCCATTGAAGAATAA	MTEFEDISLEEMISDGFDIVTEEINLSDFAETDKNSEQKIFPILPVRNMVMFPNVVIPITAGRKTSIQLLEEAQKNGDFIGIVSQKNSDLEQPSEKDIYSTGTLAKIIKIIKLPEGNITAITKGFHRFKIKKIIEKQPYFKAEISKLKDTRPKNQDEYEALLENIKDLALKIIELDPNIPNAANFAIKNINNNDDLLNFICTNANFSSIAKQKLLEEKSLMIRANQCYEMMHEDFRKLELRNQIHQKTSKDLDKQQREYFLNQQIRTIQEELGGGPESDVEDLIAKAKTKKWSQEVEDHFQKEINRLQRQNPNSPDYNVQRNYLDFFTDLPWETYTKDIFDIAKAEKVLDKAHFGLEDIKKRILEHMAVLKLKNNMKSPILLLVGPPGVGKTSLGKSIADALGRKYVRLSLGGLHDESEIRGHRKTYIGAMAGRILQSIKKSGTSNPVIVLDEIDKIGQGLHGDPSSALLEVLDPEQNKSFYDNFLEMGYDLSKVMFIATANSLSTIQTPLLDRTEIIQIAGYTLEEKIEIAKRHLIKKQQEENGLDAKSFKLGNPELKHIIEAHTSESGVRTLEKRIAAIARWVALQTALVKEYDPKISLEKVDEILGVPRPKSLSEITGVPGVVTGLAWTSVGGDILYIESILSNGKGSLTMTGNLGTVMKESATIALEYIKAKHDELGIPQEDLDKKNIHVHVPEGATPKDGPSAGIAMLTSMVSSFKNKKVKPHLAMTGEITLRGKVLPVGGIKEKLLAATRAGIKDVILCEANRKDVEEIKKDYLKDLKVHYVNRMEEVIAIAIEE	PGPT0014315_3013	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS003_00870	2154	surA_1		Chaperone SurA	ATGGCAATTTTAGGACAGATTAGGAGTAAGCCCTGGCTTTTAATGGGAGTAATAGCCTTAGCGCTTTTGGCGTTCCTGGTGAACCCAGATAGTATCGACAAGGTTTTTGGTAAGAATCCTGACGTTTTAGGAAAAGTAAATGGTGAAAAAATCACCCGCGAAGAGTTCAATGATCAGCTTTTCGTGTTGCAGCAACAGGCTGATCAGCAAGGACGTCCGAAAAACGGTCTTGAGGAGCAGGCTTGGCAGTTACTTGTACAATCTAAGCTTATCAAACAACAGTTTGAGAAACTGGGCTTTGAAATGACTGATGATTATTTCTGGAATCAGATCCAGTATGATCAGATGTTTGCTCAGAATCAGCAGTTCTTTGATGAGAAAGGTAACTTTAAAACTCAAGAGCTTAAAAAAGAAATTGAAACATTAAAAAACACCAATCCTGAAGGATATAACCAATGGTTGAAAACTAAAAAGACTATTGAATACAGACTAATGGCAAGACAGGTGTTTACCAATATTTCAGCAGGTATCACTACCGGTAAGAAAGAAGCCGAAGAATTGATGAAGCAGAGAGATCAGCTTGCAGATATCGACTTTGTGAAAGTAGATTATGCAGCGTATCTTCAGAAAACAAAGATCAATGTTACTACACAAGATCTTGCAGACTACATCAAGCAGCACCCTGTAATGTTCAAAGCTGAGCCAAGCAGAAATATCGGTATTGTATATTTCCCATCAAGACCAAGTGCAGCAGATGATGCCGCAACACTGAAAGAAATTACAAAACTATATTCAGGAGGTACAGATGCGAGCGGAGGTACAGAAAACTTCCAGAATACGAAAAACGATTCTATGTTTGTAATGGCGAATTCTGATGCTCCATTCAATCCGCAGTATGTAAGTCCTGCACAATTGCCTCCAACGATCAAAGATCAGATCATTGCGGCAGCAATAGGTCAGACTTTTGGTCCTTATAAAGAACAGGACATGTATGTAGTATCTAAACTGGTTGGTAAAAGACCTTCAGATTCTACATTGTCAAGACATATTCTTATTGCATTTAAAGGTAGCCCTGCAGGAGAAGGTGTAACAAGAACCAAAGAGGAGGCTAAGAAATTGGCAGACTCTATTGGTGCTGTTGTAAAAGCAACTCCGGCTAAATTTACAGAATTCCTTAAGCTTTCCAGCGATCCGAATTCTGCTGCACAGGGAGGTAGTTTAGGATGGACAACTCCGGAGACACCTTTTGTTCCAGAGTTTCTTGCTTACCTTGCGAATAATCCAAAAGGAGCTACAGGAGTAGTGGAAACACAGTTCGGTTATCATATCATCAATATTGAAGATAAAAAATCAGGATCTATGGGATATAAGGTTGCTAACCTTGTGAAAGCCATCAAACCTTCAGATGCTACTGAAGCTGAAACTGATAAGAAATCAAGAAAATTTATTCAGCAGATTCAGGGGAAATCTTTCAACGATTTCGTGAATATAGCTAAGAAATCTAATTACCAGTTCTCTAATCCAAAAGCAGCGAAAAGATTTGAAGGTCAGCTTCAGGGCTTAGGAACTGAAAAAGATGCTGATATTCTTACCTGGGCTTTTGATAAGAAAAGAACAAAAGGAGATACTGAATTATTTACAGTAGACGGAACAGGTGATAAAATTGTAGTATATCTAAACGGAAAACAGGAAGCAGGTCTTGCTGATCCGGAATCTGTAAGAGATCAGATTGAAATTGTAGTTAAAAATAAACTGGCTGCAAAACAAATTTCTGATAAAATTACTGCAGCAAAAGCTTCAAGCTTAGATCAGATTGCCAAATTATTTGCAGCTCCAAAAGAGTCTGCTCAGGTAAATCTGTTGAACCCTTCAGTAGCTGGAGCTATGGAGCCTAAAGTTGCCGGTGCAGCATTTGGTGTTGCAAAAGGTAAACTTTCAAATCCAGTTGAAGGCGGAACAGGTGTTTATGTTTTGATCAAGAAATCAGAAACAGTTAACAAGCAGCCTGGGGATCTTAAGCAGTTTACAGAGTCTCTTACACAGAGAAGTGCCGGTATGTTCGGACAGGCTTGGATGAAGAGTCTTCAGGACAATGCAGATATCGAAGATTACAGAATCGAGATCTGGAACAAGCTGGGAAATCAGCAACATTAA	MAILGQIRSKPWLLMGVIALALLAFLVNPDSIDKVFGKNPDVLGKVNGEKITREEFNDQLFVLQQQADQQGRPKNGLEEQAWQLLVQSKLIKQQFEKLGFEMTDDYFWNQIQYDQMFAQNQQFFDEKGNFKTQELKKEIETLKNTNPEGYNQWLKTKKTIEYRLMARQVFTNISAGITTGKKEAEELMKQRDQLADIDFVKVDYAAYLQKTKINVTTQDLADYIKQHPVMFKAEPSRNIGIVYFPSRPSAADDAATLKEITKLYSGGTDASGGTENFQNTKNDSMFVMANSDAPFNPQYVSPAQLPPTIKDQIIAAAIGQTFGPYKEQDMYVVSKLVGKRPSDSTLSRHILIAFKGSPAGEGVTRTKEEAKKLADSIGAVVKATPAKFTEFLKLSSDPNSAAQGGSLGWTTPETPFVPEFLAYLANNPKGATGVVETQFGYHIINIEDKKSGSMGYKVANLVKAIKPSDATEAETDKKSRKFIQQIQGKSFNDFVNIAKKSNYQFSNPKAAKRFEGQLQGLGTEKDADILTWAFDKKRTKGDTELFTVDGTGDKIVVYLNGKQEAGLADPESVRDQIEIVVKNKLAAKQISDKITAAKASSLDQIAKLFAAPKESAQVNLLNPSVAGAMEPKVAGAAFGVAKGKLSNPVEGGTGVYVLIKKSETVNKQPGDLKQFTESLTQRSAGMFGQAWMKSLQDNADIEDYRIEIWNKLGNQQH				NA	NA	NA	NA	NA
BMS003_00871	951			hypothetical protein	GTGAAGTTCAGTAAAGAATTAAAAGCTGGTGTGATCACACTTCTAGCTATTGTAGGCTTTGTGGTATTGTTTCAGTTTATGAAAGGGAAAAGCCTTTTTACTACGGATAATATATTTTATGCAAAATATGATAACGTAGAAGGTCTGGCGCAGTCTGCGGCGGTTTCTATCAACGGTTTGAAAGTAGGACAGGTAGACAAAATCATACCTCTCACCTCCAAAGACGGTAAAATTAATTTTGTTGTAAAAATTACAGTTGATAACAAATTCGAATTCTCAAAAAACTCTTCATTAGAAATCTTTGAACCAGGATTAATGTCCGGTAAAGAAATGAGAGTAAATCTTATGTACGGAGGTCCTACAGCAAAAGATGGTGATACCCTGAAAGGAGCCTTTAAGCTTGGAACGCTGGGAAGCCTTTCTTCTCAGGTAGGCCCGGTAAAAGATCAGCTACAGGTGGTTTTACACAGAGTAGACTCTTTAATGGCGAATGCCAACCAGCTTGTAGATGCTCAAAACAGAGCAGAAATAAAAGCGCTGTTATCCAATCTTAACAAAACAGTAAGTGCATTGCAGACTACTGCAGGAAATGTAAATAACCTGGTAGGACATAATGACCCTAAATTACAGAAAGTATTAGATGATGCAAGTCTTACCATGCAAAGTGGGAAAGTGACTTTGGATAAATATGGAAATCTTGCTCAAAGTATTGATACTAAACAGTTGAATGCTACCATTGCCAATTTAGATGCTACTGTAGGAAAATTGAATCAGGTAATTGGTGGTATAGATAAAGGGGAAGGAAGTCTTGGTAAACTTATGAAAGATGATCAGCTTTACAACAACCTGAATTCAGCTTCTTCTAATCTGAATACATTGATCGAAGATATGAAAGCGAACCCGAAGAGATACATCAACTTCTCGGTTTTCGGTAAAAATAATAAAGACTAA	MKFSKELKAGVITLLAIVGFVVLFQFMKGKSLFTTDNIFYAKYDNVEGLAQSAAVSINGLKVGQVDKIIPLTSKDGKINFVVKITVDNKFEFSKNSSLEIFEPGLMSGKEMRVNLMYGGPTAKDGDTLKGAFKLGTLGSLSSQVGPVKDQLQVVLHRVDSLMANANQLVDAQNRAEIKALLSNLNKTVSALQTTAGNVNNLVGHNDPKLQKVLDDASLTMQSGKVTLDKYGNLAQSIDTKQLNATIANLDATVGKLNQVIGGIDKGEGSLGKLMKDDQLYNNLNSASSNLNTLIEDMKANPKRYINFSVFGKNNKD	PGPT0007005_7176	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
BMS003_00872	1335	fadF_1	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGCAGTACATTGATAACATTATTTTCCTGATTTTATTAGTGACAGGATTCGGGCTGTTTGCAAAAAGCCTGCAGAAGATCTATAGAAATATCAGACTGGGCCGGGAAATCAACAGGAGTGACAGGAAATCTGAGCGCTGGAATACTATGGCAAACGTTGCTATGGGACAGAGCAAGATGGTAAAACGTCCTATAGCAGGAATTTTACACATTTTTGTGTATGTTGGTTTCGTTATTATTAATATAGAGCTTATCGAAATAATTGTTGATGGACTGTTTGGCACACACCGTTTCCTGGCTTCGGTTTTCGGACACGGATTCTACAGCTTCTTTACAGCAACATTAGAAATCCTGGCGCTTCTTGTGGTAATAGGAGTGGTTCTCTTTTTCATCAGAAGAAACTTCTATGGAGTTAAAAGATTAACTATGAAAGAACTGTTCGGCTGGCCAAAAGAAGATGCCAACTGGATTCTTATCATAGAATTTGCCCTCATGATGGCTTTCTTTAAAATGAATGCTTCAGATTTTATTTTACAGTCAAGAGGTGTTTTGCCGGTACATGGCAGCTTTCCCATCAGTGAAATGACATTTGTTCCGTTCTTGGAAATCTTCAATTTTGATAACGGATTTTTGATGTTCACAGAGAAGGCAGCATGGTGGTTTCACTTTGTAGGTATTCTTTTCTTCATGAACTATCTTTATTATTCAAAACACCTGCATATTATTCTTGCGTTTCCAAGTACATGGTATGCAAATCTTGATAAAAAAGGAAAATTCAATAATCTTGAATCTGTAACGAAGGAAATCAAATTAATGATGGATCCTAACGCAGATCCGTATGCTGCTCCGGCAGAAGGGGCTGAAGCAGATGTGCCTTCTAAATTCGGTGCCGAAGATATCTTTGACCTGAACCAGGTGCAGTTGCTTAATGCTTACTCATGTACAGAATGTGGACGTTGTACTTCTGTTTGTCCGGCTAATATTACCGGTAAAAAGCTTTCTCCGAGACTGATTCTGATGAAAACCAGAGACAGACTGGAAGAAGTAGGAAGAAACATTGATAAAAACGGAAAATTTGTTGATGACGGTAAAAAGCTGTTGAACGATTATATCACAAAAGAAGAACTTTGGGCTTGTACCACATGTAATGCATGTACAGATGCCTGTCCGGTATTGCTTGATCCGCTTTCCATTATTTTTGAAATGAGAAGATTCCTGGTGATGGAACAGTCTGCTGCTCCTCAGGAACTTAATCTGATGATGACCAATGTGGAAAACAATGCAGCCCCTTGGCAGTATAACCAGGCCGACCGTCTGAACTGGGCTAATGATTAA	MQYIDNIIFLILLVTGFGLFAKSLQKIYRNIRLGREINRSDRKSERWNTMANVAMGQSKMVKRPIAGILHIFVYVGFVIINIELIEIIVDGLFGTHRFLASVFGHGFYSFFTATLEILALLVVIGVVLFFIRRNFYGVKRLTMKELFGWPKEDANWILIIEFALMMAFFKMNASDFILQSRGVLPVHGSFPISEMTFVPFLEIFNFDNGFLMFTEKAAWWFHFVGILFFMNYLYYSKHLHIILAFPSTWYANLDKKGKFNNLESVTKEIKLMMDPNADPYAAPAEGAEADVPSKFGAEDIFDLNQVQLLNAYSCTECGRCTSVCPANITGKKLSPRLILMKTRDRLEEVGRNIDKNGKFVDDGKKLLNDYITKEELWACTTCNACTDACPVLLDPLSIIFEMRRFLVMEQSAAPQELNLMMTNVENNAAPWQYNQADRLNWAND				NA	NA	NA	NA	NA
BMS003_00873	1398			hypothetical protein	ATGCAATCAAAACTTACTATTAAAAATTTCGGACCAATTGATAATGCTACACTGAATTTTAAAAGTGTAAATATTATTATTGGTGCTCAAGCTAGCGGGAAAAGTACTATAGCAAAATTGTTTACTATTTGTAATTCACCCAAATCATATCATTTATTGCCTGAGGATGAGAAAAGAATTTCTTTTTTTTCTTTAACTAAGAATAAAAGAGACTTAGAAATTTTTCAGAAACTAAGTATTGATAAATTTAAAGATAGTCTTAACGTTTATTCTCTTGAAGGGTGCTATTCTAAAAAAACCGAAATTATATACGATTGTCCAACTCATTACTTAGAAATAAAGAATGATAGAATATTATTTAAAGATAAATTAGATCTAAATAATATTTTAGAATTAGAAGATAAAAAAAGTTACAAAGAAGTTGAGAAAGAATTTGACAAGCTAGCAAAGCTGTCAGATAGATTTGATTTACTCTACAAATTTTCTGTAATGTGGTCTCGAATGTCTAATGAAGAAAAACTCAAAATAGAAAATGAAGATTTTCATAAGAAGTTTGATGAGTTTTCTAGGGATTTTAATAAATCGGATAAAAATTTGACAGATACAGAAATATATAGTATTATTGAGCAGGCAAGAAAAACGAAAGCAGAAATTTTTTATAATAGCCCATTATATATCCCGTCCGAGAGAGTGTTAGTTCACCTTCTAAAAAAAGCTGCACTAAATCTTCAGAGATATGATATACCTATACCAGAGCATTTGTTAAACTTTGCAAGTGTATACAATAGCGCTACTGAAGCTATAAAGAATTATGATTTAAATTTTATTAATAATAATACATTATATAAAAATGTTAATGGAGAAGATAGAATCTATTATTCTTCAAGAAAGAGTATTAAACTTTCAGAAAGTGCCTCTGGTTTTCAAAGTATATTACCAATACTTCTTTCAATAAAATATGAAAAAGAAAAGACAGCGAGATTAAATTATTCATTTGTTATTGAAGAGCCTGAAACAAATTTATTTCCTAAGGCTCAGTATGATCTCTTGAAAATTTTAGAAGGAGGAAGACTTGATGACTATGGGAAGATAGATAAAGGGAGTATGCATCTTTATACTACCCATAGCCCTTTTATATTATCCTCAATAAATAATCTTTTATTTGCTCATAAAAAAGGGAATGATAATAATCAAAAATTTTTTAAAGATATTAATAAAATTATAGATTCGAAATCTTGGATAAATCCAACTGATTTTTCGGCATATCAGGTATCGAGTGGTAAAATAAAATCAATATTTAATTCAGAAACGGGATTAATAGAACAAAATATGATTGACATAGTGTCTGAGGACATTATAAATGATTTTAGAGAAATTGCGTTATCATCAATGGAATAA	MQSKLTIKNFGPIDNATLNFKSVNIIIGAQASGKSTIAKLFTICNSPKSYHLLPEDEKRISFFSLTKNKRDLEIFQKLSIDKFKDSLNVYSLEGCYSKKTEIIYDCPTHYLEIKNDRILFKDKLDLNNILELEDKKSYKEVEKEFDKLAKLSDRFDLLYKFSVMWSRMSNEEKLKIENEDFHKKFDEFSRDFNKSDKNLTDTEIYSIIEQARKTKAEIFYNSPLYIPSERVLVHLLKKAALNLQRYDIPIPEHLLNFASVYNSATEAIKNYDLNFINNNTLYKNVNGEDRIYYSSRKSIKLSESASGFQSILPILLSIKYEKEKTARLNYSFVIEEPETNLFPKAQYDLLKILEGGRLDDYGKIDKGSMHLYTTHSPFILSSINNLLFAHKKGNDNNQKFFKDINKIIDSKSWINPTDFSAYQVSSGKIKSIFNSETGLIEQNMIDIVSEDIINDFREIALSSME				NA	NA	NA	NA	NA
BMS003_00874	531			hypothetical protein	ATGGATAGTATTTTTAATAAAAGTAATTTTGGTTCATGTATTACAGACCATAGTGATATTGAAATTCATATAAAAGATATAGATAATTCATCTTGTGAAATCAGTAGTGAAAATGATTTTGATGTTGTCATTGAAAATAAGAAAGGTGAAAAAATTTCTTTTTTAAAAATTGATAAGTGTGTATATCAAGATGGTGATGGGCAAGGAAGAAAATGTGATTTATCAATAAATAATAATGAAAAAGTTTATTTTATTGAAATTAAATCTATTAAGAAAGAAAATTTTCGAAAGGCATTAAAAACTAATGATAAAAAGGATGATGCATTGGATCAATTAATTCAGACTATTAATAAATTTAAAACTAGATTTCCAACAATTTCACTTAGAAATGTAAATGCAGTTATAGCGTTGAAACCCAACATAAATATTTATTCTCAACCAATCCAAACTGCTGAACAAGTTCGTATAAATCAATTATTAACTACTTGTGGTACGCCAAATCTCTATTTGGGCAACAAAATTATAATTTAA	MDSIFNKSNFGSCITDHSDIEIHIKDIDNSSCEISSENDFDVVIENKKGEKISFLKIDKCVYQDGDGQGRKCDLSINNNEKVYFIEIKSIKKENFRKALKTNDKKDDALDQLIQTINKFKTRFPTISLRNVNAVIALKPNINIYSQPIQTAEQVRINQLLTTCGTPNLYLGNKIII				NA	NA	NA	NA	NA
BMS003_00875	765	fadF_2	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGGCAGAATATGCTGCCGAAGGAAAAGCCCCGGAAGTTTTATTTTGGGTTGGATGTGCGGGAAGTTTTGATGACCGTGCTAAAAAAATAACAAAGGCATTTTGTAAAATATTAAATAAAATTGGAGTCGAATTTGCTGTTTTAGGACAGGAAGAAAGCTGTACCGGAGATCCTGCAAAAAGAGCCGGAAACGAATTCGTATTCCAGATGATGGCTCTTACCAATATTGAAGTACTGAATGCTTACGAAGTAAAGAAAATCGTAACGGCTTGCCCACACTGCTTCAATACTCTCAAAAATGAATATCCAAGCCTTGGCGGACATTTTGAAGTGGTACACCATACACAGTTCCTGAAAACTTTAATGGAAGAAGGAAGACTGAAAATTGAAGGAGGAGCTTTCAAAGGTAAAAAAATTACCTTCCATGACCCATGCTATCTTGGACGTGCCAACGATGAATATGAAGCTCCTAGAATGTTACTGGAAAAGCTGGATGCAGAGCTTGTAGAAATGAAACGTTGTAAAACCAACGGGCTTTGTTGTGGAGCAGGAGGTGCCCAGATGTTTAAAGAACCTGAAAAAGGAAATAAAGACATCAATATTGAGAGAACAGAAGAAGCTTTATCCTTTGAGCCTAAAGTGATTGCAACTGGATGCCCTTTCTGCAATACCATGATGACGGACGGTGTAAAGCACTTTAACAAGAATACAGAGGTAGCTGTAAAAGATATTGTTGAACTTCTTGCTGAAGCAGAAGATTTGTAA	MAEYAAEGKAPEVLFWVGCAGSFDDRAKKITKAFCKILNKIGVEFAVLGQEESCTGDPAKRAGNEFVFQMMALTNIEVLNAYEVKKIVTACPHCFNTLKNEYPSLGGHFEVVHHTQFLKTLMEEGRLKIEGGAFKGKKITFHDPCYLGRANDEYEAPRMLLEKLDAELVEMKRCKTNGLCCGAGGAQMFKEPEKGNKDINIERTEEALSFEPKVIATGCPFCNTMMTDGVKHFNKNTEVAVKDIVELLAEAEDL				NA	NA	NA	NA	NA
BMS003_00876	816			hypothetical protein	ATGAGAAGTGTTATAGCATCATTTTTTAAATTTATTTTAGGCTTTCAGTTTTTTAGAAAAAAATATTTTACTTTCCATAAATATTTTTTTAAACCTTTTGGCCTTTTTCATGGTGTAAGAAAACAGATCATTTATCGGAATTCAATCAGGCTGGATTTAGATCTGGATGACTGGATTCAGCAACAGCTTTATTTTTTAGGAGATTATGAAAAAGAAGAGATCGATTACTTACATACTGTGCTAAAAGAAGGAGATTCCTTTATTGATATAGGAGGCAATATAGGATTATTTTCTTTAAACGCTTCCGGTATTGTAGGAAATACCGGGAAAATATATGCTTTCGAAGCTTTTAAACCCAATTATGAAAAATTTTCGAGGCATATCGCCCTTAATAAATTCAGGAATATTATCCTCGAGCACCTGGCTATTGCTGATAAAAGTGGCTACATAGAAATCTTATACAATGACACCTATGATAATGTAGGTATGGCTTCTTCTTTTCTTAATGATTTTACTGCCAGTGAAAAGGTAGAAAGCATAAATCTGGATGGTTATGTAAAAGATAAACAGATTGAAAAAATAGATCTGATTAAAATAGACATAGAAGGAGGTGAATTTTCAGCATTGAAAGGGATGAATGATGTTTTGGCACAGTTTCGTCCGAAAATCATAATAGAAATAAACAATATAGCATTAAAAGGTTCCGGTTATAATGAAACTGAACTCATACAGATCTTGCTTGAAAAGGGCTATTCCAGAACAAAAGTCCTTAGTAGAAATGAAAGCTCCTACAATGCCGTTTTCGAATGTATTTAA	MRSVIASFFKFILGFQFFRKKYFTFHKYFFKPFGLFHGVRKQIIYRNSIRLDLDLDDWIQQQLYFLGDYEKEEIDYLHTVLKEGDSFIDIGGNIGLFSLNASGIVGNTGKIYAFEAFKPNYEKFSRHIALNKFRNIILEHLAIADKSGYIEILYNDTYDNVGMASSFLNDFTASEKVESINLDGYVKDKQIEKIDLIKIDIEGGEFSALKGMNDVLAQFRPKIIIEINNIALKGSGYNETELIQILLEKGYSRTKVLSRNESSYNAVFECI				NA	NA	NA	NA	NA
BMS003_00877	492			hypothetical protein	ATGAAAATCGAAGAATCTAACATTGTAGAAACAAACGACTACAGAGTTATTATATACCCGGCTTCAAGACCATTTGAAACAAAGGAAGCCAAGGCAATTACAGAGAAATTATTTGATTTTCTGGCGACATGGGCAGCCCATGGAAAACCCCTTTCTTCTTCTTTTAAAATTGAGAAAAATCAATTTATCATAGTTTGTGTGGATGAGGAGAAAGAAATGGCTTCCGGATGTAGTATTGATGCACTGGGAAAGGTGATGAAAGAGATAGACGAAGAATATAAATTAGGCCTTTTTGACAGGATGAAAGCCAGCTTTGTAGAGAACGGTGAAATAAAGACCCTGAAATTAGGAGACTTTAAAACATGCTTAAGAAATGGGGAAGTTTCCAAAGACATTCAGGTTTTTGATTTTTCTAAAAATACATATCTTGACTTTCTGAGTCATTTCCTTCTTCCGCTGGAAAAAAGCTGGGCGGGAGTTTATGTAAGTTAA	MKIEESNIVETNDYRVIIYPASRPFETKEAKAITEKLFDFLATWAAHGKPLSSSFKIEKNQFIIVCVDEEKEMASGCSIDALGKVMKEIDEEYKLGLFDRMKASFVENGEIKTLKLGDFKTCLRNGEVSKDIQVFDFSKNTYLDFLSHFLLPLEKSWAGVYVS				NA	NA	NA	NA	NA
BMS003_00878	1149		COG0438	Glycogen synthase	TTGAAAAGAAAAAAAATACTCTTCATCTCATCGTGGTTTCCTAATAAACTAGAGCCTACCAACGGCAATTTTGTCCAGAGGCATGCAGAAGCGGTTTCATTATCCTGTGATGTTGAAATACTACATGCTATAGGTAATTTTGAGCAGGAAGAAGTATATGCTTATGATGATAAGATTATTAATAATATAAGGACGTTAATCATATATTATAAAAATTCAAAAAATCCTTTTCAAAACTTTTTACGAAAGATGAATGCTTATTCAAAAGGATTTGCAACATTGAGCAGGCCGGATCTGGTGCATGCAAATGTCCTGTACAACAATATGCTTTTTGCCGTTTATCTAAAGAAAAAATATAAAATTCCATTTGTTATTACAGAACATTGGACAGCCTTGCAACAAGAAAATCTTTCAAAAACATCAGGTCTTATTAAAAGGATTGCAAAATATATTGCCAAAAATGCAGGCTATGTTTTACCCGTAAGTCATAATTTGAAAAAAAGTCTTGAGGAATTGGGAATTACCACACCTATGAAAGTGATTTCAAATGTGGTAGATACCGATATTTTTACAATTAAACCCGAGACTGAGAAATCCGGATATGTAAGATTTCTTCATATATCAAGCCTCATTTCCCGTAAAAGGCCTGAGGATATTATTAATACAATTTATCTCCTGCACCGGAATGGCTTTCCGGTACATTTGGAAATAGGAGGAGATGGAGATACTGAATCTCTGATCTCCCTTGTTAAAAATTTGTCTGCCGAAGATTACATCACTGTTTTCAATGCAATAAGCTATACAGAAGTTGCAGAGAAAATGCAGCATTCTGATTATTTCATCCTGTTCAGTGAAAATGAGACCCAGGGCTGTGTCATTTTAGAGTCCTATGCCTGTGGGAAACCTGTGATTTCTACAATGGTGGGAGGCGCAGCGGAATTCATTATTGAAGGTCTGGGAGTCGGAGTTGAAAAAAATAATGTAGGGCAGCTTTATGAGGTTTTGGAAAAACTATGCAGGAAAGAATATACATTTAAAAGCGAGTCCGAGATCAGAAGTTTTTCTGTAAACGGACATTCCAGAAAAGCTATTGCTGAGCAATTTACGAAGATTTATGATGAAGTTCTTTCCCAAAGTAATGTATCATGA	MKRKKILFISSWFPNKLEPTNGNFVQRHAEAVSLSCDVEILHAIGNFEQEEVYAYDDKIINNIRTLIIYYKNSKNPFQNFLRKMNAYSKGFATLSRPDLVHANVLYNNMLFAVYLKKKYKIPFVITEHWTALQQENLSKTSGLIKRIAKYIAKNAGYVLPVSHNLKKSLEELGITTPMKVISNVVDTDIFTIKPETEKSGYVRFLHISSLISRKRPEDIINTIYLLHRNGFPVHLEIGGDGDTESLISLVKNLSAEDYITVFNAISYTEVAEKMQHSDYFILFSENETQGCVILESYACGKPVISTMVGGAAEFIIEGLGVGVEKNNVGQLYEVLEKLCRKEYTFKSESEIRSFSVNGHSRKAIAEQFTKIYDEVLSQSNVS	PGPT0019565_902	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019565-bshA-K00754	NA	NA
BMS003_00879	1245			hypothetical protein	ATGAAAAGCCTGAAAGATTTTTTACGGAATTTTTTTAACAACAGCGGGCATCATGTATTCTTCTCTTTCCTGATTGCCAAAGTCTGCAGTTTTCTGGGGTCTTTACTGATCATCAGGCTTTTGCCAGAAAATGAATTTGGAGTTTTAAGCATTGTTCTTTCTGTTTTAACCATTTTTACCCCGTTTACAGGGTTTGGCAGCAGCCAGAGTTTAATGCGATTTGGATCTATCTCATCTGACAAGGACGAAAAATTAAAAATTTCATCTTACTTTTTCTTTAAGGGAATTCTCTATGAATTCATTCTTATCATCTTATTTTTATCTGTCTCCGTTTTCTATTTAAAAAAATATGAAGATATTTTCATTATTTTTATCGCCTGTGCAGTAAGGCTTGGAGGTTTTTATTTTCTTAACCACATCCAGGTTTTCTATCGGATCACCAATAGAAACCAGACCTTTGCAAAGATCAATAATTTAGTGAATATCGGAGGACTTTTACTCACTTTATTTCTTACGTACTTCTTTAAGTTTTACGGATATCTTATAGCCATCAGTATTGCACCATATTTATCTTTATTATGGCTAAAAAAGGAGATTTATTATCAGGGTGTACTCAAGCCTCAAAATTATAAAGAAATGTGGCGGTATGGGATATTTACGGCTATGACTTCACTTACATCAGATGCGTTGTATTCACTCGATATTCTGCTGCTTGGTTTTATAATGAATGAAAATGCAGTTGCCAATTACAGAATTGCCATTCTGATTCCTTCCAATATAACATTTCTTGCTACCAGCTTTCTGCAAAGTGATTTTCCCGTGATTTCAAAGAATTTCAAAGACAGAAAATTTCTGAAATCATATGTTGTTAATTTTAATAAATTTTTCATTCCTATTTGCCTGGGAATACTCTGTTTCTTTTATATATTCAAAAAATATATTATTATCCTCTTTTTTGGTGAAAACTATATAGATAATGCTTCGCTGTTAATGATTTTATCAGTAGGTTTCACATTAGGAATGCTTACCCGGAATCTTTACGGTAATCTTTTGCCTGCCGTGGGAAGAATTGAGATTAACACATGGCTTAGTATCGGGTCACTTCTATTTTTAGCTATACTGTCCTATGTACTGCTTCCTGTTTACGGAGTGATAGGAATGGGTATTGCAATGACTGCCACTCTTCTTATTTCCGGATTAGGCTATTTGTTTTTTTTCTTTTCCTATTTAAGGAAACTGCCTTAA	MKSLKDFLRNFFNNSGHHVFFSFLIAKVCSFLGSLLIIRLLPENEFGVLSIVLSVLTIFTPFTGFGSSQSLMRFGSISSDKDEKLKISSYFFFKGILYEFILIILFLSVSVFYLKKYEDIFIIFIACAVRLGGFYFLNHIQVFYRITNRNQTFAKINNLVNIGGLLLTLFLTYFFKFYGYLIAISIAPYLSLLWLKKEIYYQGVLKPQNYKEMWRYGIFTAMTSLTSDALYSLDILLLGFIMNENAVANYRIAILIPSNITFLATSFLQSDFPVISKNFKDRKFLKSYVVNFNKFFIPICLGILCFFYIFKKYIIILFFGENYIDNASLLMILSVGFTLGMLTRNLYGNLLPAVGRIEINTWLSIGSLLFLAILSYVLLPVYGVIGMGIAMTATLLISGLGYLFFFFSYLRKLP				NA	NA	NA	NA	NA
BMS003_00880	480			hypothetical protein	TTGCTGATCAGTTGTAAAAATGATGATGATTCTTTGCAGAGAATAGATCAGTTAATGAATATCTATGTAAGAAACAGTGCTGGTCAGGATCTTCTGAACAGCAAGAAAACAGGTTCTTTTACAGGTTTTTCTGTGAACGATATTTTTGGTACTAAAGATATTGCTCCGGTCAATATTTCTTTGAAGATGACTACAGATTCACTGTTTTATATGGAATATCTGGCAGGAGCGAAAAGAAGAAGACTGGATTCTATCAGTCCTGATAATCCGGGAACGGGAACTTCCTATTATTCCAGAATGCAGATTACGTATACAAAAAGCACCAATGCTAATGATAATGTTGTAGACACATTGGAAGTTCAGTATCGCAATACACCAACAGTATTCCAGGTTTCAAAGGTTTTATATAACAAAGTTCCGGTATTTTCTAAAGATGAAAATGCTCCCACCTCAATAAATACCATTACGATCACAAAATAA	MLISCKNDDDSLQRIDQLMNIYVRNSAGQDLLNSKKTGSFTGFSVNDIFGTKDIAPVNISLKMTTDSLFYMEYLAGAKRRRLDSISPDNPGTGTSYYSRMQITYTKSTNANDNVVDTLEVQYRNTPTVFQVSKVLYNKVPVFSKDENAPTSINTITITK				NA	NA	NA	NA	NA
BMS003_00881	1269	serS	COG0172	Serine--tRNA ligase	ATGTTACAAGTCAATTTTTTGCGCGACAATAAGGAACGCGTTTTAGAAGGTCTTAAGAAAAGACAATTCAAAAATCTTGAGTTGGTAGACGAGGCTATCGCTGCCGACGATGAAAGAAAAAGAATCCAGTTTGAACTAGATTCCCAGCTTTCCGAAATCAACAAAATTTCGAAAGAAATAGGACTTTTGATGAAAGAAGGAAAAAAAGAAGAAGCGGAATCTGCAAAATCTAAAACAGCACAGTACAAAGAGTCGAGCTCAGAATTGAAATTCCAGTTAGAAGTTAAAGAAAATGATTTGCTGAACATTCTGTACCAGCTTCCGAATATTCCCAATGAATTGGTGAAAAACGGCGCTTCTGCTGATGATAATGAAATGATTTTCCAGTCTCATCCGGTAGAAGGTCTTGGTGAAGGAGCTATCCCTCATTGGGAACTGGCGAAGAAATATAACCTTATTGATTTTGAACTTGGAGTGAAAATTGCCGGTGCAGGTTTTCCTGTTTATTTAGGAAAGGGTGCAAGATTACAGAGAGCTTTGGTTCAGTATTTCTTAGATAAAAACGTTGAGAAAGGATATACAGAAGTGAATCCTCCTCATGTTGTGAATGAGGCTTCTGGTTTTGGAACCGGGCAGCTGCCGGATAAGGAAGGACAGATGTACTATATCAATGAAGATAAATTATATCTTATTCCTACAGCAGAAGTACCCGTAACTAATCTTTACCGTGATGTATTGCTGGACGAAAAAGATCTTCCGATCAAAAATACTGCGTTTTCCCAGTGTTACAGAAGAGAAGCTGGAAGTTACGGAGCTCACGTAAGAGGCCTGAACCGTCTTCACCAGTTTGAAAAAGTAGAGATTGTAAGAATAGAAAAGCCGGAAAATTCTTATGCTGTTTTGGAAGAAATGGTCGAGCATATCAAAGAAATTCTTACTGACCTTGAACTTCCGTTCAGAGTATTGAGACTTTGCGGTGGTGATACTGGTTTTGCATCTGCAATGACGTATGACTTTGAAGTCTGGAGTGCCGCTCAGGAAATGTGGTTAGAAGTAAGCTCTGTGTCTAACTTTGAAACGTTCCAGGCTAACAGACTGAAATGCCGTTACAAAGCAGACGGTAAATCTCAACTGGTTCATACCCTAAACGGATCAGCAATGGCATTGCCAAGAATTATGGCTGCATTATTGGAGAACAACCAAACAGCTGAGGGAATTAAGCTTCCTAAGAAAATTGCAGAATATGCAAGATTTGATGTAATCAACTAA	MLQVNFLRDNKERVLEGLKKRQFKNLELVDEAIAADDERKRIQFELDSQLSEINKISKEIGLLMKEGKKEEAESAKSKTAQYKESSSELKFQLEVKENDLLNILYQLPNIPNELVKNGASADDNEMIFQSHPVEGLGEGAIPHWELAKKYNLIDFELGVKIAGAGFPVYLGKGARLQRALVQYFLDKNVEKGYTEVNPPHVVNEASGFGTGQLPDKEGQMYYINEDKLYLIPTAEVPVTNLYRDVLLDEKDLPIKNTAFSQCYRREAGSYGAHVRGLNRLHQFEKVEIVRIEKPENSYAVLEEMVEHIKEILTDLELPFRVLRLCGGDTGFASAMTYDFEVWSAAQEMWLEVSSVSNFETFQANRLKCRYKADGKSQLVHTLNGSAMALPRIMAALLENNQTAEGIKLPKKIAEYARFDVIN				NA	NA	NA	NA	NA
BMS003_00882	726			hypothetical protein	ATGGAAATAGGACTTATTGTATCGGCTATTGCTTTAGGCTTTGCTTCCGGTTTTCACTGTATCGGAATGTGCGGTCCTATTGCCCTTTCTATGGGGTTGACTAAAAAGCAGGCCGCTAATTTCTATCTTCAGAACCTTACCTATCAGTTCGGAAGAATTTTCACCTACTCTTTACTGGGTGCACTTCTCGGAATTATCGGGCAGGGATTTGAAATGGCAGGTTTTCAGAAATACCTTACCATAACAGCAGGAGTTCTTCTGATTATTATGGCTGTATTTTCATTTGGCGGAAAAGATTTTGCCTCAAAAATTCCTTTTCTTTCTAAATTTTTATACACCGTAAAGTCAAACTTAGGAAGACTTCTTCAGAAAGCCGATTACCGTTCAAGATTTTCTACAGGAATTCTTAACGGCTTTTTACCCTGCGGAATGGTTTACATGGCTCTTACCGCCAGTCTTGCAGGAGGGGGAATATGGCAGGGAGCGTTATATATGGCCTTATTTGGTCTGGGCACCCTTCCGTTCATGTTTGCCATTGTTTTAGCCGGAAACCTCATGAATCAGGCTTTCAGAGTTAAAATTCTAAAAGCAGTTCCTGTTATCATGATCATTTTGGGAGGATTATTCATTCTAAGAGGTCTTGAACTTGGGATTCCCTATGTTTCTCCCAAAGCAGAAGCTATGACGATCATTAAAGACCCAAATAGGGCTGCTAACTGTCACTAA	MEIGLIVSAIALGFASGFHCIGMCGPIALSMGLTKKQAANFYLQNLTYQFGRIFTYSLLGALLGIIGQGFEMAGFQKYLTITAGVLLIIMAVFSFGGKDFASKIPFLSKFLYTVKSNLGRLLQKADYRSRFSTGILNGFLPCGMVYMALTASLAGGGIWQGALYMALFGLGTLPFMFAIVLAGNLMNQAFRVKILKAVPVIMIILGGLFILRGLELGIPYVSPKAEAMTIIKDPNRAANCH				NA	NA	NA	NA	NA
BMS003_00883	453			hypothetical protein	ATGAAGAACTTTAGTTGGGGACACGGTGTTGTAATTGCATTATTAGCATTCATAATTTTTATATTATCCATGTTGTTTCTTTTTCCAAACGGACAGAAGAATTCTGAGATGGTAACAGATAATTATTATGAAGAAGAGCTGAAGTATCAGGATGTGATTGATGCTAAGAAAAAAGCAGATGACTTACAGGAAAAACCTGTATACAGCCAGGATACCAAAGGAATTAAAATTACTTTCCCAAAAGAATATAACAATTCTAATACTACGGTAAAATTTGTTTTAAACAGAACCGACGACCAGAACTTAGACATCAAAAAATCTGTACAGCTTGATGCCGGCCAGTCTTTCACAATCCCCGCACAGGTATTGAAAATGGGTAATTATACATTAAGACTAAGCTGGACAAAAGACAAAACAGACTACCGAATGGATTATGACGTAATATGGAAATAG	MKNFSWGHGVVIALLAFIIFILSMLFLFPNGQKNSEMVTDNYYEEELKYQDVIDAKKKADDLQEKPVYSQDTKGIKITFPKEYNNSNTTVKFVLNRTDDQNLDIKKSVQLDAGQSFTIPAQVLKMGNYTLRLSWTKDKTDYRMDYDVIWK				NA	NA	NA	NA	NA
BMS003_00884	1455			hypothetical protein	ATGTCAGACATAGAAGAAATAGAAGTACGCGGCGGACAGGGACAGGTTCTGGACCCTGAGACTTACAGAGATTCTATAGGGACAATGGAGCAATCCGGAAAAAGAAGATGGGTGTTTCCCAGAAAGCCAAAAGGGAAATACACCAACTACAGAAACGTTGTAAGTTATCTTTTATTAATTATTTATTTTACATTACCGTTCATCAAAATCAATGGTAACCCATTATTGATGTTTAATGTAATAGACAGGGAGTTTTTCATCTTTGGACAACCTTTCTATCCACAGGACTTCTTTATTCTTACTTTAGGAGCTATCGCCTCTTTAATCTTTATTATTGTTTTTACGATTGCATTCGGAAGAATTTTCTGCGGGTGGATTTGCCCTCAGACAATTTTTATGGAATCTATCTTCCGTAAAATAGAATATCTGATTGAAGGAGACCGAAACAAACAGATGAAGCTGGACAGACAGGAATGGAACAGTGAGAAGATCTGGAAAAGAAGCTTAAAATGGACTGTTTATGTCATTATCTCATTAGTAATTACCCACTTTATGTTCATGTATATCGTAGGATATGAAGAAGTATTTAAGATTGTGGGGGAAGGACCGTTTGCGCATCCTACCAATTTTATTGTAATGATTCTTCTTACCGCTGCATTTTACTTTGTATTTGCATGGTTCAGAGAACAGGTTTGTACATTGGTTTGCCCATACGGAAGACTTCAGGGCGTATTGATAGATAAAGATACCATTAATGTATTTTACGATTTCAAAAGAGGGGAAGGAAGATCAAAATGGAGAAAAGGGGAAGACAGAAAAGCAGCTGGTAAAGGAGACTGTATCGACTGTCATCAGTGTGTAGTAGTATGTCCCACAGGAATTGACATCAGAGACGGGCAGCAGCTGGAATGTATCAACTGTACTGCATGTATTGATGCCTGTGATGAAGTCATGGAAAAAGTGGGGCTTCCAAAAGGACTCATCCGATATGCTTCTGAGAACGAAATTGAAAAAGAAACTCAGTTCAAGTTTACAGGAAGAATGAAAGGCTTTACGATATTTCTTTTCCTTCTTGTAGGCTTCTTAGGATATCTCCTGTACAGCCGTGGTGAGATGGAGGCAAAATTCATCAAACCGGCAGGCAGTACATTCTTTGTAAGAGACGGTAAAATTACCAATACCTACAATTATACTTTCCTTAATAAAACGAACGAGAAAAAAATCGTTACCATTAAAGTGATTAATCCGACACATGGTGAGATTACTTACAGCGCATCAAGTAAAATTCAGGTAGACAGAGATAAAATTTCAAAAGGAACCATCAATATCAGCTTCCCGGAAGATGAAATGAAGCTGTCTAAACAGAATATTACCATTGGTGTTTATGATATGAAAGGTAAATTGGTTGATTCATATCAGACTTATTTCGAAGGACCATTCAAACTGCAATTTTAA	MSDIEEIEVRGGQGQVLDPETYRDSIGTMEQSGKRRWVFPRKPKGKYTNYRNVVSYLLLIIYFTLPFIKINGNPLLMFNVIDREFFIFGQPFYPQDFFILTLGAIASLIFIIVFTIAFGRIFCGWICPQTIFMESIFRKIEYLIEGDRNKQMKLDRQEWNSEKIWKRSLKWTVYVIISLVITHFMFMYIVGYEEVFKIVGEGPFAHPTNFIVMILLTAAFYFVFAWFREQVCTLVCPYGRLQGVLIDKDTINVFYDFKRGEGRSKWRKGEDRKAAGKGDCIDCHQCVVVCPTGIDIRDGQQLECINCTACIDACDEVMEKVGLPKGLIRYASENEIEKETQFKFTGRMKGFTIFLFLLVGFLGYLLYSRGEMEAKFIKPAGSTFFVRDGKITNTYNYTFLNKTNEKKIVTIKVINPTHGEITYSASSKIQVDRDKISKGTINISFPEDEMKLSKQNITIGVYDMKGKLVDSYQTYFEGPFKLQF				NA	NA	NA	NA	NA
BMS003_00885	882			hypothetical protein	ATGAAACAAAGAACACCTGTTGTTATAAACATCTTAATAATAATCGGACTTTTAATAGTTTTTTATTATTTATTTGTACAGAGCTACGCGTTCCTTTCTTCACCTTACTTCTGGGGAACTGTTGTAATTGCCGGTATCCTTGCTTACATTCATGGAGCTATCGGAGACCTTATTGAGAACAACAAATTCAAGAAATTATCTCCCGAAGAAAAGGCAGCTTATTTGGCTGAAAAGAAAGTTCCTTATTTCAAAAGATTGTATCAAAGTGCATTCAAAAAGCAATCTGCTTCTGAAGAAAAAGATATCCTTATTGACCACGGGTTCGACGGAATCATGGAGCTGGATAACCAGTTACCGAAATGGTGGGTAGGTTTATTCTATTTTGGGACTGCTTTTTGTATTGTATATATTGCAGCATACTCTTTCACAGACTTCGCTCACCCGTTAAGCGAATATGAAAAAGAATATAAAGAACAGTTAGCAAGTATTGAAGAATACCAAAAAACTCAGCCTCCTGTAACCATTGAAACAGCTAAATATTCAGCGGATAACATTGCAGAAGGTAAAGAATTATTCAAAACAAACTGTGCATCTTGTCACAAAGAAGACGGTAGTGGAGGTATCGGACCTAACCTTACCGATAACTACTGGATCAACCAGCCTGAGAAAACGTTATTCAAAAACGTATTCCACATGGACTGGAATGGTTCTCCTACTAACCCTGCCATGAGAGCATTCGGTAAAAACGGAGAAGTTTCAGGTGCAGAGATTGAAAAGATTGCAGCATATGTATATCACATCAATCAGGAACAACCACCAGTGACACCGGCTCAGGGAGGAGCAGCTCCTCAGGGAACCGAGGCACATTGGGAAAAAGAATAA	MKQRTPVVINILIIIGLLIVFYYLFVQSYAFLSSPYFWGTVVIAGILAYIHGAIGDLIENNKFKKLSPEEKAAYLAEKKVPYFKRLYQSAFKKQSASEEKDILIDHGFDGIMELDNQLPKWWVGLFYFGTAFCIVYIAAYSFTDFAHPLSEYEKEYKEQLASIEEYQKTQPPVTIETAKYSADNIAEGKELFKTNCASCHKEDGSGGIGPNLTDNYWINQPEKTLFKNVFHMDWNGSPTNPAMRAFGKNGEVSGAEIEKIAAYVYHINQEQPPVTPAQGGAAPQGTEAHWEKE	PGPT0000153_1216	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
BMS003_00886	201			hypothetical protein	ATGATTCCTCAGAACTTTAAAGATATATTATCCAATACAGAAAATGCTGGCTTCTACCAGACACTGGCTCTGATTTTCTTTATGCTGTTCTTCGTTGCTTTAGTAATCTATGTTTTTAGCAGACCTAAAAAATATTACAAAGAAGAAGAAGAGGCACCTCTTGGGGATGATGAAGATGACAATTTTAATTTAAAAAATTAA	MIPQNFKDILSNTENAGFYQTLALIFFMLFFVALVIYVFSRPKKYYKEEEEAPLGDDEDDNFNLKN	PGPT0000154_303	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
BMS003_00887	2262			hypothetical protein	ATGGAAACACAAAAGTTTAGTTATGACAACAGTATTGTCCGTGCGTTCCTTTATGCGACCTTAGTTTTCGGTCTCATTGGATTTACGTTCGGGCTTACGGCGGCATTAATGCTTTTCTACCCTGAATTACCTGAATTCTTTTTCGGGACGGATGACACAACCATTAAAAGTTTGGCATCAGGAAACATTCAAGGTTTAATAAACACTCATGGTGCATTTGGTTTTGGTAGAATCAGGATGCTGCACACCAATACCGTAATCTTTGCATTCGTTTGTAACATTGTTTACACGGGTATTTATTACTCATTACAGAGATTATTAAAAACAAGAATGTACAGTGACACCTTGTCTTGGTTACATTTCTGGACTTGGCAGTTTATGATCGTTGCTACGTTCGTTACCTTCTTTATGGGGATCAACACCTCTAAGGAATATGCGGAACACGAGTGGCCGATTGACATATTGATCGCATTCTCATGGATCATTTTCGGTATCAATATGTTCCTGACTATTTCTAAGAGAAGAGTGAGACACCTTTATGTAGCCATCTGGTTCTACATCGGTACCTGGATTGCAGTAGCAATGCTTCACATCTTCAATAACCTTGAAGTACCTTTATCTTTCACTGGCTGGAAGTCTTATTCAGCATATGCAGGGGTAAAAGATGCTATTGTACAGTGGTGGTATGGACACAATGCGGTTGCATTCGTATTGACAACTCCGGTTCTTGGTTTAATGTATTACTTCCTTCCGAAGGCTGCAGACAGACCGGTATTTTCTTATAAACTGTCTATTATTCACTTCTGGTCATTAATTTTCGTATATATCTGGGCTGGTCCTCACCACCTTCAGTATACAGCTCTTCCGGCTTGGGCTCAGGCGGTAGGAACAGGGTTCTCTATCATGCTTATTGCACCATCTTGGGGAGGAATGTTAAATGGTCTTCTTACGCTGAGAGGAGCTTGGGATAAAGTAAGAGAAAATCCTATCCTTAAGTTCTTCGTGGTAGCTGTTACCTGCTATGGTATGGCAACGTTTGAAGGACCGCTTTTGGCAACTAAAAACATCAACAAAATTGGTCACTTTACAGACTGGGTTATCGGTCACGTACACTTAGGAGCTCTTGGATGGAATGGTTTCATGGCATTCGGGGTGATCTATTATTTGGTGCCAATCATGTGGCGAACAAAACTTTGGTCTGTAAAATTAGCTAACTGGCATTTCTGGTTAGGTACTTTAGGAATCATTTTCTATGCAGTTCCAATGTATATTTCAGGATTCACACAAGGACTAATGTGGAAGCAATTCAACCCAGACGGAACCTTATTATGGAAAAACTGGCTGGATACGGTAACTGCTATTATCCCTTACTTTAAAATGAGATTCGTAGGAGGTTTATTCTATATCTCAGGATCTATCCTAATGATTGTAAACGTAATTGCTACAGTAAGAAAAGGATCATTCCAGAAAGAAGTTCCTGCTGAAGCTCCAGCGTTGGCAAACATCAGTAAAAGCAGAAAAGAAGGAGAAGGTACTCACCTTTGGCTGGAAAGAACTCCTGTATTATTAGGTATTCTATCTTTTATCACGATATCTATCGGTAGTTCAATTGAAATTATTCCTACACTATCTCTTAAGAAAAGTGTCCCTACAATTTCCGCGGTAAAACCTTATTCTCCGCTGGAACTTGAAGGTAGAGACATCTATATCCGTGAAGGATGTAACGCTTGTCACTCTCAGATGATCAGACCGTTCAGAGATGAGATTACAAGGTTCAACGGTAAAAACGGACAGTACTCCAAAGCTGGAGAATTTGTATACGACAGACCATTCTTATGGGGTTCTAAGAGAACAGGACCAGATTTACATAGAGAAGGTGGTAAAAATCCAAGTTCTTGGCACTACAAGCACATGTATAACCCTAGATCTACTTCTGCAGGTTCCATCATGCCTCGTTACCCTTGGCTAATTGCCACTGACTTAGACAGAACTAAGATGGTAGACAAAATGAAGCTGATGAAAAATGTATTCGATGTACCTTACACTAAGGCTCAGATCGATTCTGCAGACACGTGGGCAAACAACCAATCAGCAAAAATTGTAAAAGATATCTTCTCTGAAGCCAATGACCTTAAGCAGGCTTATGCGAAGAGACCTCAGGGAGAATTAGAGAAAAAAGAAATTGTAGCTCTTATTTCTTATCTTCAGAGATTAGGTACGGATATCAAAACAACTGAAATCAAAACAGCAAGTAATAACTAA	METQKFSYDNSIVRAFLYATLVFGLIGFTFGLTAALMLFYPELPEFFFGTDDTTIKSLASGNIQGLINTHGAFGFGRIRMLHTNTVIFAFVCNIVYTGIYYSLQRLLKTRMYSDTLSWLHFWTWQFMIVATFVTFFMGINTSKEYAEHEWPIDILIAFSWIIFGINMFLTISKRRVRHLYVAIWFYIGTWIAVAMLHIFNNLEVPLSFTGWKSYSAYAGVKDAIVQWWYGHNAVAFVLTTPVLGLMYYFLPKAADRPVFSYKLSIIHFWSLIFVYIWAGPHHLQYTALPAWAQAVGTGFSIMLIAPSWGGMLNGLLTLRGAWDKVRENPILKFFVVAVTCYGMATFEGPLLATKNINKIGHFTDWVIGHVHLGALGWNGFMAFGVIYYLVPIMWRTKLWSVKLANWHFWLGTLGIIFYAVPMYISGFTQGLMWKQFNPDGTLLWKNWLDTVTAIIPYFKMRFVGGLFYISGSILMIVNVIATVRKGSFQKEVPAEAPALANISKSRKEGEGTHLWLERTPVLLGILSFITISIGSSIEIIPTLSLKKSVPTISAVKPYSPLELEGRDIYIREGCNACHSQMIRPFRDEITRFNGKNGQYSKAGEFVYDRPFLWGSKRTGPDLHREGGKNPSSWHYKHMYNPRSTSAGSIMPRYPWLIATDLDRTKMVDKMKLMKNVFDVPYTKAQIDSADTWANNQSAKIVKDIFSEANDLKQAYAKRPQGELEKKEIVALISYLQRLGTDIKTTEIKTASNN				NA	NA	NA	NA	NA
BMS003_00888	213			hypothetical protein	ATGGATATTCTATATTTAATGATCCTCTGCAGTGTTTCTTTAGCTGCGATTTTCTTGGTCGTATTTATAGTGTATGCCCGAAAAGGACAGTTTGAGGATGATGAATCTCCGGCTGTCAGAATCCTTTTTGATGATGAAAAAATCAAAGAAAATGATGAACCCGGCGACAAAGATAAAGACGAAAAAGAAATAGGAGAAAATAATAAAAATTGA	MDILYLMILCSVSLAAIFLVVFIVYARKGQFEDDESPAVRILFDDEKIKENDEPGDKDKDEKEIGENNKN				NA	NA	NA	NA	NA
BMS003_00889	2379	copA_1		putative copper-importing P-type ATPase A	GTGAGCGAGAACTGTTTTCATTGTGGTCAAGGTATAGAAAAAGAGAGAATTTTATTTGATGAAAAGACTTTCTGTTGTAATGGATGCAAGTCTGTTTACGAAATTCTAAATTTAAATAATTTAAGCAATTTCTATGAGCTTAATAAAGGAGCAGGAATACGTCCAAATGATGAAAATTCTACTCAATTTGATTACCTGGACACTCCTGAAATTTTTGAAAAAATCACTGATTTTTCTGAAGGACACACCAGTCTTGTCACATTCAAAATTCCCGTAATCCACTGTTCTTCATGCATATGGCTATTGGAAAGCCTGCATACATTAAACCCGCACATTAAATATTCCCAGGTTAACTTCACAAGGAAGACCTTACAGATCTCATTCAATCATACTGATCTGAAATTAAGCGAACTGGCTAATTTCTTAACTAATTTAGGCTACAAACCTGTTATCAGCCTTGAAACCGCTGAAAAAAATGTAGATCATCTTGACAAATCTCTTCTTGTAAAGTTCGCTATTGCCGGGTTTGCTTTCGGAAACGGAATGTTTCTCGCATTTCCGGAGTATGTAGGTGGAGAAGATTATTGGATGGATCATTATAAAGGGCTTTTCAGGACACTCATGTTCTTATTGGCATGCCCCGTAGTATTATATTCCGCATCTGATTACTACAAGTCTGCATGGTACGGATTAAAAAATAAGATTGTCAACATTGACGTCCCTATTGTACTGGGAATATTTGTTCTTTTCGGAAGAAGTATCTATGAAGTCGTTACGGATTACGGTCCCGGCTACTTTGATACACTTTGTGGTCTTCTTTTCTTCATGCTAATGGGGAAAATTTTCCAGAAAAGAACATACAGTGCACTTTCATATGACAGAGATTACAAATCTTTCTATCCTATTGCAGTAACTAAAGTAGATTTTGAAGGAAAACAGGATAACATCCTTCTTTCTGAGGTAAAAGTAGGAGACAGAATTTTAGTTAGAAATCAGGAAATCATTCCGGTAGACGCCATTCTGATCAATGGGGAAGGAAATATCGACAACAGCTTCATCACCGGAGAAAGCGAAAGCATCAGCAAACAGCCCGGCGATAAGATTTTTGCAGGAGGCAAGCAGATAGGATCTTCTCTGGAGCTGGAAGTGATCAAGGATGTTGATCAAAGTTATCTTACTCAGCTTTGGAATAAGGAAGCCTTTAAAAAGCATGAAACCGGACTTGACACACTTACCAACAGCATCAGTAAATACTTCACATTCATTATTTTAGGCATTGCTCTTGTTTCCGGAATTTATTGGGCGTTTATTGATCTTGAAAAGATGTTTCAGGTTATTTCCGCCATTCTGATCATTGCATGCCCTTGTGCCCTTGCATTGTCTGCGCCGTTTACTTTCGGACACATTATGAGGATTTTAGGCCGAAACAAATTCTATGTAAAAGATACTTTAACGATTGAAAAAATTGCGAAGCTGGATACAATTGTCTTTGACAAAACCGGAACGATCACTCATAGAAAAAAGTCAAATATAAAATACGAAGGATCTGAAATCAAAGAATTTGATTATCTGAATATTAAGACTTTATTAAAGAATTCCAACCACCCGCTTTCAAAATCTCTATACGAATTCATTGAAGCAAATGATGAGTATTTCCCGGTAGAAAGTTTCATTGAAATTTCAGGAAAAGGATATGAAGCCAGTGTAAGAGGAAACATTTATAAAATTGGTTCTGCACGTTATAACAACCAGGAACCTAAAAACCTTGAAACAGCCGTTTATATCAGCAAAAATGGAGAATATTTAGGAAAATTCATCTTTAAAAATGAATACCGCCCGAAGCTGAGAGAACTTTTCACAAAACTTACCCACTACAAAATATTCATCCTGAGCGGAGACAATTCCTCAGAAGAAAATCAACTTAAAGAACTTATTCCCAACTACAAAGGAATGGCTTTTAATCAGAGCCCGGAAGATAAACTGAATTACATCAAATCCCTTCAGGATCAACACCTAAAAGTCGCAATGCTTGGAGATGGACTTAATGACGCAGGTGCTTTAAAACAAAGTAATGTAGGAATTGCCATTGCTGATGACACCAACAGCTTTACCCCTTCTTCTGATGTGATTATGAACGGAGATAAAGTGGTTACACTGGATAATTATCTCAATGTTTGTAAGGGCTCCATCACCATTGTGAAAATGACATTTATAATCAGTTTTCTATACAATATTGTTGGTTTAAGTTACGCTGTTACAGGACATATGCATCCGCTTTTCGCTGCAATCATTATGCCAATCAGTTCGATCACAGTGGTTACCTTTACTACACTTTCAACGTGGATATTGGGTCGCAAACATTTCAAAAAACAGGCGTAA	MSENCFHCGQGIEKERILFDEKTFCCNGCKSVYEILNLNNLSNFYELNKGAGIRPNDENSTQFDYLDTPEIFEKITDFSEGHTSLVTFKIPVIHCSSCIWLLESLHTLNPHIKYSQVNFTRKTLQISFNHTDLKLSELANFLTNLGYKPVISLETAEKNVDHLDKSLLVKFAIAGFAFGNGMFLAFPEYVGGEDYWMDHYKGLFRTLMFLLACPVVLYSASDYYKSAWYGLKNKIVNIDVPIVLGIFVLFGRSIYEVVTDYGPGYFDTLCGLLFFMLMGKIFQKRTYSALSYDRDYKSFYPIAVTKVDFEGKQDNILLSEVKVGDRILVRNQEIIPVDAILINGEGNIDNSFITGESESISKQPGDKIFAGGKQIGSSLELEVIKDVDQSYLTQLWNKEAFKKHETGLDTLTNSISKYFTFIILGIALVSGIYWAFIDLEKMFQVISAILIIACPCALALSAPFTFGHIMRILGRNKFYVKDTLTIEKIAKLDTIVFDKTGTITHRKKSNIKYEGSEIKEFDYLNIKTLLKNSNHPLSKSLYEFIEANDEYFPVESFIEISGKGYEASVRGNIYKIGSARYNNQEPKNLETAVYISKNGEYLGKFIFKNEYRPKLRELFTKLTHYKIFILSGDNSSEENQLKELIPNYKGMAFNQSPEDKLNYIKSLQDQHLKVAMLGDGLNDAGALKQSNVGIAIADDTNSFTPSSDVIMNGDKVVTLDNYLNVCKGSITIVKMTFIISFLYNIVGLSYAVTGHMHPLFAAIIMPISSITVVTFTTLSTWILGRKHFKKQA	PGPT0004090_3132	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS003_00890	714	ntcA		Global nitrogen regulator	ATGCCGCAGGAACAACAGATAGCAATTGAAGAGAGGTTCGCCAAAGTTTTTAGTGATAAATCATTTAAAGAAAGACTTTCTAGCGCAGATTTTGAGAAATATATTAATGGCAAAAAGAAACTGAGTTTTCAGAAACATGATACCATTTTCGAGGATGGCGAAACTCCGAAAGGAGTCTTTGTTCTGGAAAAAGGTGCTGCCAAACTTTCAAAATCAGGAGCGTTCGGGAAAGATCAGATTTTAAGATTTATCAAAGAAGGGGATATCATCGGCTATCGTTCTTTGCTTTGCGGGGAAAATTTCCAGGCCAAGGCAGAAGCAATGACAGATATTGAATGTATTTTCTTACCTGCAGATATCTTTATGTATCTTCTGGAAGTAGATCCGCAGCTGTCTTTCGTAATGCTTCAGAAAATCTCATACGAATTGGGAGAATCTTCCAATACCATTACCTTCCTTGCCCAGAAAACAGTAAGGGAGAGACTGGCAGAAATTCTGTTACTTCTGGAACAGAAGCTGGGTGTAGACCCTGAAGGCTTTATCAAGATTTCTTTAACGAGAGAAGAAATTGCCAATATCATCGGTACCGCTACAGAAAGTGCCATCCGTCTGATTTCGGAATTCAAACAGGATAGCCTGATTGAAGTGGACGGAAGAAATATCAAGATCTTAAATCACGACAAACTCATGAAACTCGGTCATGTAGTTTTATAA	MPQEQQIAIEERFAKVFSDKSFKERLSSADFEKYINGKKKLSFQKHDTIFEDGETPKGVFVLEKGAAKLSKSGAFGKDQILRFIKEGDIIGYRSLLCGENFQAKAEAMTDIECIFLPADIFMYLLEVDPQLSFVMLQKISYELGESSNTITFLAQKTVRERLAEILLLLEQKLGVDPEGFIKISLTREEIANIIGTATESAIRLISEFKQDSLIEVDGRNIKILNHDKLMKLGHVVL				NA	NA	NA	NA	NA
BMS003_00891	816	panB	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGTCTGTTCACTCTGAAATTAAAAAAGTTACGACTGAAACCTTGCGTAAAATGAAATTCGACAAGGAAAAAATAACAATGCTTACAGCCTATGATTTTACCACTGCAAAGATGGTGGATGCTGGTGGAGTAGATGCTATTTTGATTGGAGACTCTGCAGCGAATGTAATGGCAGGTTTTGAAACTACATTGCCGATTACGCTGGATCAAATGATCTATCATGCCCAAAGTGTGGTAAGAGGAACCGACAGAGCTTTGGTGGTAGCAGATTTACCTTTCGGAACTTATCAGAGTAATCCTGAAAAAGCATTGGAGTCTGCGGTAAGAATGATGAAGGAAGGTGGGGCACATGCTGTGAAAATTGAAGGCGGAAAAGAAATCTCCAAGTCAATCAAAAAAATTATCAATGCCGGAATTCCGGTAATGGGGCATTTGGGATTAACGCCACAGTCTATCTATAAATTCGGAACATATAAAGTAAGAGCTAAGGAAGAAGCAGAAGCGGAAAAACTGATCGCTGATGCACAGCTTTTAGAAGAATTAGGATGTTTTTCAATCGTATTGGAAAAAATTCCAGCAGAATTAGCTAAAAAGGTAACAGAAAGCATTTCTATCCCTACCATCGGAATTGGTGCCGGTGCAGATTGTGACGGACAGGTTTTGGTGTATCATGATATGGTAGGAATGAACAAAGGTTTCAGCCCAAAATTCTTAAGAAGATATCTTGACCTTTACACAGAAATTACAGGTGCAGTTGCTCAATATGTAAAAGATGTGAAAAGTGTAGAGTTTCCAAACGAAAACGAAAGCTATTAA	MSVHSEIKKVTTETLRKMKFDKEKITMLTAYDFTTAKMVDAGGVDAILIGDSAANVMAGFETTLPITLDQMIYHAQSVVRGTDRALVVADLPFGTYQSNPEKALESAVRMMKEGGAHAVKIEGGKEISKSIKKIINAGIPVMGHLGLTPQSIYKFGTYKVRAKEEAEAEKLIADAQLLEELGCFSIVLEKIPAELAKKVTESISIPTIGIGAGADCDGQVLVYHDMVGMNKGFSPKFLRRYLDLYTEITGAVAQYVKDVKSVEFPNENESY	PGPT0008740_2825	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
BMS003_00892	315			hypothetical protein	ATGCAAAACCAACAATCTATACAGGGAATATTATCTATTGCAGCATTGATTTGTCTTGCAGTAGGGTGGTTTAATCTGTTCTCCCCGGAAATCAATCATTTACTTTCAAGAAAAGTATTTTATGTGCTGATAGGAGCGAGTTTCTTTATTCAGGCTCCGCTGCTTACAAATAAGAATTTTGTGTATGCAATGTATGCTGCTGCTGCTATCTGTGTATTCGGAGCATTCATTCCGGAAGGCTCAAAACTTTCAGCCATTAAAACAGTGGGGCTTTTGGCGGGAATTATCCTGTCATTATCCAATAGAAGAAGATAG	MQNQQSIQGILSIAALICLAVGWFNLFSPEINHLLSRKVFYVLIGASFFIQAPLLTNKNFVYAMYAAAAICVFGAFIPEGSKLSAIKTVGLLAGIILSLSNRRR				NA	NA	NA	NA	NA
BMS003_00893	678	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAAGGAGCAGATTATATATGAAGACAACCATCTTCTGGTGATTAATAAAAAGGTGGGTCAGCTTGTACAGGGTGACAAAACCGGCGATGAATCACTGTTAGAATCCATCAAGAACTTTATAAAAATAAGAGATGCTAAGCCGGGAAATGTTTTTCTCGGCTTGGTTCATCGTATAGACCGTCCTACATCCGGGCTGGTAATCTATGCAAAAACATCCAAAGCACTTTCCCGTTTGACTCAGATGGTGAAAAACCGTGAGGTGAAAAAAACATATTGGGCTGTTGTAGGAAAAGAAATGATCCCGCAAAGCCAGAGATTGGTTCATTATTTAAAGAAAAATGAAAAGAATAATAAAGCCATTGTTTTTCCAAAAGCTACAGAAGGAGCGAAAGAAGCTATTCTTACCTATCATGTGATCAAAACACTGGATAATTACCTTCTTCTTGAAATTGATCTTGAAACAGGAAGGCACCATCAGATCAGAGCACAATTGTCCAAAACAGGAATTCCGATTAAGGGTGACTTAAAATATGGTGCACCACGTTCCAATCCTGACGGAGGAATCAATCTTCATGCAAGGAAGCTGGAATTTATTCATCCGGTAACCAAAGAAAATATTGAAATCATAGCTCCTGTTCCGCAGAATGATGCGATCTGGAGGGCTTGTGAAGAATAA	MKEQIIYEDNHLLVINKKVGQLVQGDKTGDESLLESIKNFIKIRDAKPGNVFLGLVHRIDRPTSGLVIYAKTSKALSRLTQMVKNREVKKTYWAVVGKEMIPQSQRLVHYLKKNEKNNKAIVFPKATEGAKEAILTYHVIKTLDNYLLLEIDLETGRHHQIRAQLSKTGIPIKGDLKYGAPRSNPDGGINLHARKLEFIHPVTKENIEIIAPVPQNDAIWRACEE				NA	NA	NA	NA	NA
BMS003_00895	207			hypothetical protein	ATGGAACTTATTATCAACCACACCCGAAAAACATTTGATGTACTTCCTGAAAATCTGGAAGCATTACTGGCTATTGAGTTACCCGGAAAGAAAAAAGGTATCGCTGTAGCCCTTAACAATCGCATTATTCCCCTGTCAGTCTGGGCGGAAACCATCCTTAATAACAACGATTCTGTTTTAATCATTACTGCCACTCAAGGCGGTTAA	MELIINHTRKTFDVLPENLEALLAIELPGKKKGIAVALNNRIIPLSVWAETILNNNDSVLIITATQGG	PGPT0008970_1040	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
BMS003_00896	1812	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGGCTCACTCCATTACATGTTCGCCATTTCCGAACTCAAAGAAAATCTATGTTGAAGGAACATTACACCCTATCAATGTAGCAATGCGTGAAATACAGCTTAGCCCCACCAAACTTAGCAATGGCGGCTTTGAACATAATGCTCCGGTTACCATTTATGACACTTCAGGTCCTTATACCGATGAAAATGCAGTCATTGATATTCAGAAAGGACTTCCAAGAATCAGAGAACAATGGATTCTGGACAGAAATGATGTAAATATCCTGGACGGAATTACTTCTGAATATGGAAAAGCCCGTCTGGCAGATCCACGTCTGGATGAACTGAGATTTTCTTATGATCACAAACCCAAAGTAGCACAGGAAGGAAAAGAAGTTACACAGCTTTATTATGCAAAACAGGGAATCATTACTCCGGAAATGGAATATGTTGCCATCAGGGAAAATCAAAGAATAGAACAGCTTGATTCTGTATCTAAAGAAATGGCTTTTCAACATCCCGGACACAGTTTTGGAGCAAATACTCCAAAAAGCAAAATCACTCCGGAATTTGTAAGGGACGAAATTGCAGCCGGAAGAGCTATAATTCCCAATAACATCAACCACCCGGAAAGTGAGCCGATGATTATCGGAAGAAATTTCCTTGTGAAAATCAATGCCAATATCGGAAACAGTGCCGTTTCATCCAGTATTGAAGAAGAAGTAGAAAAAGCAGTATGGGCCTGCCGATGGGGAGGAGATACCATTATGGATCTTTCAACCGGGAAAAATATTCACGAAACTAGGGAATGGATCATCAGAAACAGCCCGGTTCCGATTGGTACGGTTCCTATCTATCAGGCATTGGAAAAAGTAAAAGGAGTTCCGGAAGATCTGACATGGGAAATCTTCAGAGATACGCTGATTGAACAGGCAGAGCAGGGCGTTTCCTATTTCACTATTCACGCAGGAGTTTTGTTGAGATACATTCATTTAACAGCAAAAAGAGTCACTGGAATTGTTTCCAGAGGCGGATCTATCATGGCGAAATGGTGTTTGTTCCATCATAAAGAAAGTTTCCTGTACACTCATTTTGAAGAGATTTGTGAAATCATGAAGAAGTACGATGTGGCTTTCTCTCTGGGAGATGGTCTTCGTCCGGGATCTATTGCAGATGCTAATGATGCAGCACAGTTTGCAGAACTGGAAACTTTAGGTGAACTGACAAAGATTGCCTGGAAACATAATGTACAGGTAATGATTGAAGGCCCTGGGCACGTTCCGATGCATATGATCAAAGAAAATATGGAAAAGCAGCTGAAAGAATGCCATGAAGCTCCTTTCTATACTTTAGGCCCTTTAACTACAGATATTGCACCGGGTTATGATCACATTACTTCCGGAATCGGGGCTGCCATGATCGGATGGTTTGGCTGTGCAATGCTTTGCTATGTAACACCAAAGGAACATTTAGGACTTCCGAATAAAGAAGATGTAAAAGTAGGGGTTATCACTTATAAGTTGGCGGCTCACGCAGCAGATCTGGCAAAAGGTCATCCGGGAGCACAATACAGAGACAATGCATTAAGTAAAGCAAGATTTGAATTCAGATGGGAAGATCAGTTCAATCTTTCATTAGATCCTGAAACTGCAAGAGCTTATCATGATGAAACCCTTCCGGCAGAAGGAGCTAAAATTGCCCATTTCTGTTCAATGTGCGGGCCGAAATTCTGTTCAATGAAAATTACCCAGGAAATTCGTGAATCTGCAGAACAGGGAATGCTGGACAAATCACAGGAGTTTATAGAAAAAGGGAAAGAAATTTATATATGA	MAHSITCSPFPNSKKIYVEGTLHPINVAMREIQLSPTKLSNGGFEHNAPVTIYDTSGPYTDENAVIDIQKGLPRIREQWILDRNDVNILDGITSEYGKARLADPRLDELRFSYDHKPKVAQEGKEVTQLYYAKQGIITPEMEYVAIRENQRIEQLDSVSKEMAFQHPGHSFGANTPKSKITPEFVRDEIAAGRAIIPNNINHPESEPMIIGRNFLVKINANIGNSAVSSSIEEEVEKAVWACRWGGDTIMDLSTGKNIHETREWIIRNSPVPIGTVPIYQALEKVKGVPEDLTWEIFRDTLIEQAEQGVSYFTIHAGVLLRYIHLTAKRVTGIVSRGGSIMAKWCLFHHKESFLYTHFEEICEIMKKYDVAFSLGDGLRPGSIADANDAAQFAELETLGELTKIAWKHNVQVMIEGPGHVPMHMIKENMEKQLKECHEAPFYTLGPLTTDIAPGYDHITSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKEDVKVGVITYKLAAHAADLAKGHPGAQYRDNALSKARFEFRWEDQFNLSLDPETARAYHDETLPAEGAKIAHFCSMCGPKFCSMKITQEIRESAEQGMLDKSQEFIEKGKEIYI	PGPT0008905_2018	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
BMS003_00897	588	thiE_1		Thiamine-phosphate synthase	ATGATCCTCGTCATCACTCCTGAATGGATTGTTCCGAATGAAGTTGATACTATTAATAAAATGTTTCAGGAAGGTCTTGACCTGCTTCACATCCGTAAACCATGGCTCAGCCGTAATGAAATGATGCAATTCATTAGTCAGATCGATGAAAGTTTCTATCCGAAACTGGTATTGCATACGCATTACGATCTTGGGAAGGAATTTACTATTTCAAGGTTTCATTTCAGAGAGATTGATAGAAAGGAAGAGATGTATAAGCCTTTTGTAGAAGAAAATACAATTTCAACATCAGTGCACGATATCACAACATACAATACTTTGGATAAAGAATGGGAATATGCTTTCATAAGCCCATTCTTTCCAAGTATCTCCAAAAAAGGATACGGATTGGATTCTACCATTAAAGAAGAAATACAATATCGGAATAATCCAGAGGTAAAGTTGATTGCTCTTGGAGGAATTGATCAGGATAATATTCATGAAGTTTTTGAATCAGAAGCAGATGGAGCAGCACTATTGGGTGCTATCTGGGAAAGTGAAGAACCCTTAAATGTATTTAAAAAATGCAGGAACGTCCTTATGTCATAA	MILVITPEWIVPNEVDTINKMFQEGLDLLHIRKPWLSRNEMMQFISQIDESFYPKLVLHTHYDLGKEFTISRFHFREIDRKEEMYKPFVEENTISTSVHDITTYNTLDKEWEYAFISPFFPSISKKGYGLDSTIKEEIQYRNNPEVKLIALGGIDQDNIHEVFESEADGAALLGAIWESEEPLNVFKKCRNVLMS	PGPT0008995_5062	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
BMS003_00898	738	thiDN	COG0351	Bifunctional thiamine biosynthesis protein ThiDN	ATGCAGGAACGTCCTTATGTCATAAGTATCGCTGGTTTCGATCCCAGTGGTGGAGCAGGCTTATTATCAGACAGTAAAACCTTTGAGCAATCAAAAGTAATGGGGTTGGGAGTATGTACAGCATTGACATTACAAACCGCTTCCAAATGCTTAAATCTGGAATGGCGTTCTATAGATGAAGTAACCGAAGCCATTCAGGTGTTGATGGAAAATTATCCCGTTTCAGCAGTGAAAATAGGAATTGTAAAGAATGCAGAATTTTTGGGTAGAATTGTAGAAACAGTTCAAAAAGAAAACCCAGAAACGAAAATCGTTTGGGATCCCGTCCTGAAAAGCACTTCTGAATTCAAATTTTTTGACCTTGAAACTCTTCCTCAATTAAAAAATACAGTTAATAAACTCAGTTTAATAACACCTAATTATAATGAATACAGTGTTTTAAAGGAAAATAATCTTCTGCCGGATACTCACGAATGTTCATTACTAATCAAAGGAGGACATCGGGAAGATCATTTAGGAACGGATATTTTAGTTGAAAACGGAAAAGAAACTCTTTTAGTTCCAACCGAAAACAGTACAATCTATTTTCCTAAACATGGTTCTGGCTGTGTTTTATCCTCAGCCATTACGGCAGAACTCGCCAAAGGTGAAAGTATGGAAACTGCCTGTAAAAATGGGAAATTATACATCGAAAAATTTTTAAAAAGCAATGCCTCTTTGCTGGGAACACACTCATAG	MQERPYVISIAGFDPSGGAGLLSDSKTFEQSKVMGLGVCTALTLQTASKCLNLEWRSIDEVTEAIQVLMENYPVSAVKIGIVKNAEFLGRIVETVQKENPETKIVWDPVLKSTSEFKFFDLETLPQLKNTVNKLSLITPNYNEYSVLKENNLLPDTHECSLLIKGGHREDHLGTDILVENGKETLLVPTENSTIYFPKHGSGCVLSSAITAELAKGESMETACKNGKLYIEKFLKSNASLLGTHS	PGPT0008915_4237	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
BMS003_00899	615	thiE_2	COG0352	Thiamine-phosphate synthase	ATGGAAAAATTACAATACATATCACAGGGAAATACACTCCGGGAACAGGAACTTTGTATCCGTAAAGTCCTGGATAACGGTATCAAATGGGTACAGGTTCGATGGAAAAATGCTCCGGAAAATGAATTAATCAGCCTTTGTGAAATTTCAAAACAACTTTGTTCAGAATATCAGGCAGTTTGTATCATCAATGACCATGTACAAATAGCTAAAGAAATAGATGCTGACGGGGTTCATTTAGGATTGAACGACAGTAATATTGAAGAAGCAAGACTGATTTTAGGAAAAAATAAAATTATTGGCGGAACGGCTAATACCCTTTCAGATGTGATCCAGAGAATCAAAGAATCTTGTAATTATATAGGATTAGGACCTTTGAGATTTACCACAACCAAAGAAAAACTCAGTCCTGTTCTTGGATTTGAAGGCTATCAGGCGATCATTGATGGATTAAGAGAAAATTCAATGGAAATTCCTAAAATATTCGCCATCGGAAGCGTTACCCTTGAAGATATTTTACCGTTACAGGAGATCGGGATGTACGGTGTTGCCGTATCCGGGCTTATTACAAAACAGCCGACTATTATTAATGAACTAAAAAAAGTAATGATATGA	MEKLQYISQGNTLREQELCIRKVLDNGIKWVQVRWKNAPENELISLCEISKQLCSEYQAVCIINDHVQIAKEIDADGVHLGLNDSNIEEARLILGKNKIIGGTANTLSDVIQRIKESCNYIGLGPLRFTTTKEKLSPVLGFEGYQAIIDGLRENSMEIPKIFAIGSVTLEDILPLQEIGMYGVAVSGLITKQPTIINELKKVMI	PGPT0008995_4385	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
BMS003_00900	777	thiG	COG2022	Thiazole synthase	ATGAACAATCAGAAATTAGAAATAGCAGGAAGAACTTTTGAATCAAGACTGTTTTTAGGAACAGGAAAATTCGGAAGCATGAATGATATGGTACAATCTGTCATCGCCTCAGAAACCAATATGGTGACAATGGCGCTCAAAAGAATTGATGCCCAATCAAGCGAAGATGATCTGCTTGATTCATTAAAAGAAACCAACGTTCACCTTCTGCCCAACACTTCCGGAGCAAGAACTGCTAAAGAAGCCGTATTGGCAGCACAATTAGCCAGAGAAGCACTGGAAACCAACTGGGTAAAACTGGAAATTCATCCGGACCCGAAATATTTACTGCCGGATCCTATTGAAACCTTATATGCCACTGAAGAATTGGCTAAATTAGGATTTGTTGTAATGCCTTATATTCATGCCGATCCTGTTCTATGCAAACGCCTTGAAGATGCCGGAACAGCTGTTGTAATGCCTTTGGGAGCTCCTATCGGAACCAATAAAGGATTAAGAACACAGGACTTTCTGGAAATAATCATCAGCCAGAGTAATGTTCCTGTAGTGGTAGATGCCGGAATCGGAGCATCATCAGATGCTGCAAAAGCAATGGAAATGGGAGCCGATGCCGTTTTGGTGAATACTGCCATTGCCGTTGCAGGAAATCCATTAAATATGGCTTTAGCTTTTAAAGAAGGCGTGATTGCCGGAAGAAGAGCTTTTGAATCAGGATTGGGAGCTATTGCTAATCATGCTGAAGCTTCAAGTCCGCTTACTTCGTTTTTATTTGAATAA	MNNQKLEIAGRTFESRLFLGTGKFGSMNDMVQSVIASETNMVTMALKRIDAQSSEDDLLDSLKETNVHLLPNTSGARTAKEAVLAAQLAREALETNWVKLEIHPDPKYLLPDPIETLYATEELAKLGFVVMPYIHADPVLCKRLEDAGTAVVMPLGAPIGTNKGLRTQDFLEIIISQSNVPVVVDAGIGASSDAAKAMEMGADAVLVNTAIAVAGNPLNMALAFKEGVIAGRRAFESGLGAIANHAEASSPLTSFLFE	PGPT0008965_1957	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
BMS003_00901	1119	thiH	COG1060	2-iminoacetate synthase	ATGAAAAGCTTTAAAGATGTTTTTGAAAATTACCAGTGGGATGAGGTAAAGAATAAGCTTGAAAAAGTAGGTCTGGCCGATGTAAGATACAGTCTTCAGAAAAAGAATAAAACTCTTGATGATTTTTTGAATCTCCTGTCGCCAGCCGCTTCTCAGGAACTGGAGCTGATGGCAAGAATGACACAGGCGCTCACCCAAAAACGATTTGGAAAAACCATTCAGCTGTATGCACCGCTGTATCTCAGCAATGAATGTCAGAATATCTGTACCTATTGCGGATTCAGCCTTGATAACAGTCTGAAAAGGAAAACGCTTTCCGATATGGAACTGATGATTGAAGCCTCAGTACTGAAATCAATGGGAGTAAATCATGTTTTGCTGGTAAGCGGTGAAGCCAATAAAATAGTAGGAGTTCCTTATTTTCAGAATGCTGTACGTAAGTTAAAGCCTCATTTTTCCAATATTTCCATTGAAGTTCAGCCATTATTGGAAAAAGAATACAGGTTGCTTCATGAAGAAGGAGTGCATTCTGTTTTGGTATATCAGGAAACCTATCATCAGGATGTCTACAGAGAATACCATCCGAAAGGTAAAAAATCGAACTTTCATTTCCGCCTGGAAACACCGGACAGAATAGGAAGAGCTGGAATTCATAAAATAGGGCTCGGAGTTCTCCTTGGACTTGAAGATTGGAGAGTGGATAGTTTTTTCAACGCATTACATATCGATTATCTTCAGAAACAATACTGGAAAAGTAAGTTTTCTGTTTCCTTTCCAAGACTCAGACCGGCAGAAGGAATCATTGAACCTAATTTCATAATGGAAGATAAAGATCTTCTTCAACTGATCTGTGCGTACAGAATCTGGAATGAAGACCTTGAAATATCCATTTCTACCAGAGAAAATGAAATCTTCAGAAATAATATTGTTTCTCTGGGAGCAACAGCCATGAGTGCAGGTTCAAAAACAAACCCCGGAGGATATGCCGTAGATAAAGAATCTCTGGAACAGTTTGAAACCAGTGATGAGCGAAGTATGGATGAAATTAAAATCATGATCAAAAAAGCTGGTTACGATCCTGTGATGAAAGATTGGGACTCCGTTTACAGTGGATTTTAA	MKSFKDVFENYQWDEVKNKLEKVGLADVRYSLQKKNKTLDDFLNLLSPAASQELELMARMTQALTQKRFGKTIQLYAPLYLSNECQNICTYCGFSLDNSLKRKTLSDMELMIEASVLKSMGVNHVLLVSGEANKIVGVPYFQNAVRKLKPHFSNISIEVQPLLEKEYRLLHEEGVHSVLVYQETYHQDVYREYHPKGKKSNFHFRLETPDRIGRAGIHKIGLGVLLGLEDWRVDSFFNALHIDYLQKQYWKSKFSVSFPRLRPAEGIIEPNFIMEDKDLLQLICAYRIWNEDLEISISTRENEIFRNNIVSLGATAMSAGSKTNPGGYAVDKESLEQFETSDERSMDEIKIMIKKAGYDPVMKDWDSVYSGF	PGPT0008950_999	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0008950-thiH-K03150	NA	NA
BMS003_00902	708	moeZ_1	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGAAAGAAGATCATTTTTCACGGTATAGCCGGCAGATATTTATCGAAGAAATTGGATTAGAAGGACAAAAGAAAATAAGGTCTTCCAAAGTTCTTGTCATAGGAGCAGGAGGTTTGGGAAGTCCGGTCATTCAATATCTGGCCGCAGCAGGAGTAGGAACTTTAGGCATTGCAGATTTTGATGAGGTTGAACTTCATAATCTGAACAGACAGATCATTCATACTGAAAACAGAGTAGCAGTATCTAAAGTGAAGAGCGCAGAAACATTTGTAAAAGAACTCAATCATCAGGTTGCAGTCATCGGAATTGGAGAAAAAATCAATGAAGATAATGCTGAGAAAATCCTTTCTCAATATGATATTATTGTTGATGGTTCAGACAATTTTTCTACCAGATATCTGGTGAATGATACCTGCGTGAAACTGAAAAAGACTTTGGTTTACGGAAGTATCTTAGGTTTTTCAGGACAGGTTGCTGTGTTTAATCATAATGGAAGCAAAAACTTAAGAGATATTTTTCCTGAACCGCCTTTCGATGAAGATATACCGGATTGTGACAGCCTCGGCGTACTGGGAGCTCTTCCCGGAATGGTAGGCAGTATGATGGCTCTTCAGACTTTGAAAATTATCACAGATCTTCCGGTGAGTTTGAATCAGCTGACATTGGTAGATACGCTGAACTGGAGATTTCAGACGATAGATTTCTGA	MKEDHFSRYSRQIFIEEIGLEGQKKIRSSKVLVIGAGGLGSPVIQYLAAAGVGTLGIADFDEVELHNLNRQIIHTENRVAVSKVKSAETFVKELNHQVAVIGIGEKINEDNAEKILSQYDIIVDGSDNFSTRYLVNDTCVKLKKTLVYGSILGFSGQVAVFNHNGSKNLRDIFPEPPFDEDIPDCDSLGVLGALPGMVGSMMALQTLKIITDLPVSLNQLTLVDTLNWRFQTIDF				NA	NA	NA	NA	NA
BMS003_00903	2226			hypothetical protein	ATGAAAAAAACGATTTTCGCTTTATCACTGGCTAGTTCTATACTGGTTTTCTCACAGGAAAAGAATAATACCACTGCTACAGAAAAACAAATAGAAGGGGTAGTCATCACCAAAACTAAAAAAGCCGTTGAACAAAAAGCAGACCGTACTATTTTTGACTTTTCTGAACAGCCTCAGCTGAATAACGGAAACGTTCTGGAAGGAATTAAAAAACTTCCGGGACTTGTATCTACTGACATTGCCGGAATGATGTATCAGGGAAAAATGCTGGAAGTATACCTTAACGGAAGACCGCTGAACATCACGTCCAATGAATTGAATTCATTTCTTGAAGGTATGCCTGCCAACTCTGTAGACAGAATTGAAGTGATTACCCAGCCCGGCGCTGAGTTTCCGGCTACTTCCGGAGGGGCAATCATGAATATCATTACCAACAAAAACGCCAATAAATACTTAACCGCTACATATTCAGGGAATTATTCTTTTACAAATTATGACCAATACAGAAGCAGAACTACGAACTCTGTTAACCTAAATGCCAGAAATAAATATTTCGGATGGCAGCTGAATGTAGGTCAGAATTATCGTGAAAGTATGCTGAACGGCCAGCAGGATGAGCTTTTAACCAGTCATACAGACAGATACGGGCGCGGTTATTTTGCAAAATCCGGGTTAACTTTTGATTTGGGACAAGACAGATTGTTAGTAAACTACGATATTTATCACAATAATAATGACAACTATACTTTAAGTAACGGTCATGGAAATTTACCTTTTGAGAATGACCCGAATAATTTAGTGGAAGCTTTTTATACGTCTTCAGATGTTGCTCATACCAATAATTTAAGACAGGAAGCCGTTGTAACCTATCAGAAGCGTTTCGCTGAAAAATCACAGAAACTGGACTTCCAGTTTGGCTATACCAGATCCGACAGCAGGTTTTCTCAGGATAACTTCTTTCAGGTGGGTAATTTTGCAGTAGAGCCCTATCTGCCCATCAATAGTATACAGAATGGATTAAAAGATCTTCTGAACAATAAATCTGTGATGAATATTGCCAATTTCAAAGTAGATTATGCCCAGCCTATCAAGCTTCTTGATGGCGGGAAAGTAAGCTTTGGAGGGTTGTATGAAAAGCAGAACTATGATACGGAAAGTTTTGGTTTAACCAATCTTGAATATCAGAGACAAACAGCTTCTACCTATTTAGAGTTCCAGGCAAAGTTGAAAAAGTTTGATTTCACATTGGGCTCCCGTGCTGAAAATTATGATATTTCCGGGGTAACAAGATATGTAAAAGATAAAAAACTAATAGAAGCCGATTTAATTCCTTTCAGTAAGTTTAAGCTTTTCCCGAATGCAAGTGTACAGTATAACATGATGAATCAGGTTTATATTGCTGCTAATTACAACAGAAAAATCAGCTTACCAAGTATTTCTGCATTGAACCCGAATAACGTGACGTTCTCCGGACCCAGTACGGAAGTAAACGGTAACCCGAACCTACAGCCTACTATTTTTGATAATTATGAAATAAAAGTATCTGCTTTTGATTACGCATTCATCGGGTATAGTGTAAGTTCAGCAAGCAATCAGGTAGCGCAGATCATCCGAAAGGACGGGAGAAAGCTCTTCAACGAACAGGTGAATATCTCGAACATGAAAATTCATAATTTCAATGTAGGTCTGCCGGTTCCTTTTATGATTTTCAGTAAACCTTTGAGCGAAATCATGAAGTTTAATTTCAATCCGGATAAAATTAATTTCATGTACTTATACGCAGGATATCAGAAGCATGAAATAGATAATCTGAATAATAAAGGATTCTGGATCTTCAACATTATGACTCAGGTTATTTTACCTAAACAGATCAAACTGACAGCTAATTACAGCTATCTGACTCCAAAAGCAGGATATTTCTACTTTACAGCAGAGAAACCGTTCAACAATTCTCTTGATATTACGCTGACGAAGAAGTTTATGAACAACCGCCTTACACTTTCTGTTTTTGCGAATGATATTTTCAACGGGCAGATGATGCAGGTACGTTCTAATCCTCCATCAGGAAGTCCGGTAATGATCAGCAGTAAATATGATACGAGAAATTTCGGGCTTTCCATCAACTATAAAATTCCGACAAGAAATAAACTGGCAAAAGAGGATCCGAACATCCTGAACCAGACTAAAAAAGAGGATAACGGAGGCGTAATGCAACAGGCACAATAG	MKKTIFALSLASSILVFSQEKNNTTATEKQIEGVVITKTKKAVEQKADRTIFDFSEQPQLNNGNVLEGIKKLPGLVSTDIAGMMYQGKMLEVYLNGRPLNITSNELNSFLEGMPANSVDRIEVITQPGAEFPATSGGAIMNIITNKNANKYLTATYSGNYSFTNYDQYRSRTTNSVNLNARNKYFGWQLNVGQNYRESMLNGQQDELLTSHTDRYGRGYFAKSGLTFDLGQDRLLVNYDIYHNNNDNYTLSNGHGNLPFENDPNNLVEAFYTSSDVAHTNNLRQEAVVTYQKRFAEKSQKLDFQFGYTRSDSRFSQDNFFQVGNFAVEPYLPINSIQNGLKDLLNNKSVMNIANFKVDYAQPIKLLDGGKVSFGGLYEKQNYDTESFGLTNLEYQRQTASTYLEFQAKLKKFDFTLGSRAENYDISGVTRYVKDKKLIEADLIPFSKFKLFPNASVQYNMMNQVYIAANYNRKISLPSISALNPNNVTFSGPSTEVNGNPNLQPTIFDNYEIKVSAFDYAFIGYSVSSASNQVAQIIRKDGRKLFNEQVNISNMKIHNFNVGLPVPFMIFSKPLSEIMKFNFNPDKINFMYLYAGYQKHEIDNLNNKGFWIFNIMTQVILPKQIKLTANYSYLTPKAGYFYFTAEKPFNNSLDITLTKKFMNNRLTLSVFANDIFNGQMMQVRSNPPSGSPVMISSKYDTRNFGLSINYKIPTRNKLAKEDPNILNQTKKEDNGGVMQQAQ	PGPT0003790_19850	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
BMS003_00904	2124			hypothetical protein	ATGAAAAAGCAACTTTTGTTTATTACCGTCCTTATTTGTTCCTTCGTAACTGCCCAGACAAAAGATTCTGCCAATGTCAACAAAATTGAGGCAATAACCGTAAATGGTAAAAAAGTTCTGGTAGAGCGTAAAGTGGATCGCCTTGTTTACAACGTTCAGAACTCGATGCTTTCACAGGGAAGTTCAGGGACTGAGGTTTTAGCAGGAACTCCTTTACTGCAGGTGGATGAAAATAAAGGTCTTCTTTCCATTGCCGGGAAAAACGGTGTTTCTGTAATGGTGAACGACCGGATGCTGAATCTTTCCGGATCCGAGCTGATGAATTACCTGAGAAATCTTCGTTCTGAAAACATATTGAAAATTGAGGTGATCACTACCCCACCTGCCAAATATGAAGCACAGGGAAACAGCGGAATTATTAACATTGTTCTTAAAAAGAATCAGAATCCGGGATGGAATGGCTATCTCAATACCAATTATACTCAAAAAACATACGCGGCATTCAGTACGGTTGCAGGTATAAACTATCAGAATGAAAAAATAAAAGCTGCTGTAAAACTTATGGGATATGATGGTGATAAAAGATCAGTAGAAAACCACAGGATAATAGGTCAGAATTCCTCTATAAGCAGGAACGAAAGACGGGACATGAATGATGGGCTTGGCCTCAACACAAGTTTCGACTATTCTTTATCTAAAAACTCCGGCATCGGACTTATATATGATATTACAAAAGGGCATTCCAATATGGATATCTACTCCAGTCAAAATTACTTCACAGGCAGAACTCCCACTTTACAGACAATCACAGATTCAAAGCACCGCTCTTCTTTTACTTCCCAAATGCTGAATCTGTATTTTGACCAGAAATTCGGGGAACATAAGCTAAGCTTCGGTGCCAATTATTACGGGAATCTACCTGAAACTGAAGTTAACTTTACAACAAGAAATATAGTCACAAACACCGCACAGATCGTGAAAAATCTTTCTTCCGTTGATTATAAGATTTATTCCGGGCAGGCAGATTTAGCTTTAAACTTTAAAAAAATACAGTGGGAAACCGGAGTAAAATACAGCCAGTTTTCTAATAATTCTGATATTTCTTATTTTAATTTTAACAATGGAAATTATATCATAGATCCAGCAAAGAGTAATCTTTTTGATTATCATGAAAGGAATTATGCAGCTTATATCAGTACCAGTAAGGATCTTGGCGAAAAATGGTCTGCAAAGGCAGGGCTTCGTTATGAATACTCACAAGCCAGCGGGATCTCTCCTGTTACACAGACAAAATCTGAGAATAATTACGGAAAGTTTTTCCCAACAGCCTATTTGTCTTATAAAGCCAATGAGAATAATCAGTTGAGTGTTAATTATTCCCGAAGAATCAACCGCCCTTATTTCCGGGCATTAGATCCTTTCCGATGGTATTCTAATCCTAATACTTACTATACCGGAAATCCAAGCCTTCAGCCATCTTTCAATCATAATGTTGAATTCAATTATATCTTTAAAAATAAATTTTCTGCTAACCTTTATTACCAGAGAACAACGAATAATTTTGACCAGATTTCATTCCTGAACGGAATTAATCTCATCAGCACATATGAAAATTATTACAATCAGGATATCTACGGAATCAATCTGAATTATACAGATACATTCTTCAGAATCTGGGAAAGCAATATCTCAACTTCTTTCAGCTATAATGAAACTCAGATTACCAGGTTCAACTTAGTTCCTAAAAACGGGCAGTCATTCTACTATTCTCTTAACAATACATTCCAGCTGAATAAGGCTAAAACATTCATGTTATTTGTGAACTACTGGAACAATCTACCTTCCAGAGACGGATATTTTTCTGTAAAAAACAGGGCAAGCCTGGATGCAGGAGTTAAAATGAGCTTTGCCGAAAAAGCACTCCAGGTTAATCTTTCAGTAAGTGATATTTTCAGACAGTCCGGGCTTAAAGCAGATATGTATTTTACCGATAACACGCAGTCATTCAACAACTATTGGGATGCCAGAAGGCTGACACTCAGCATTACATATAATTTTGGAAAACAGAAAGTAAAATCAAACAGCAGACCAGTGAATTTCGAAGAAAAAAACCGTGCCCAATAG	MKKQLLFITVLICSFVTAQTKDSANVNKIEAITVNGKKVLVERKVDRLVYNVQNSMLSQGSSGTEVLAGTPLLQVDENKGLLSIAGKNGVSVMVNDRMLNLSGSELMNYLRNLRSENILKIEVITTPPAKYEAQGNSGIINIVLKKNQNPGWNGYLNTNYTQKTYAAFSTVAGINYQNEKIKAAVKLMGYDGDKRSVENHRIIGQNSSISRNERRDMNDGLGLNTSFDYSLSKNSGIGLIYDITKGHSNMDIYSSQNYFTGRTPTLQTITDSKHRSSFTSQMLNLYFDQKFGEHKLSFGANYYGNLPETEVNFTTRNIVTNTAQIVKNLSSVDYKIYSGQADLALNFKKIQWETGVKYSQFSNNSDISYFNFNNGNYIIDPAKSNLFDYHERNYAAYISTSKDLGEKWSAKAGLRYEYSQASGISPVTQTKSENNYGKFFPTAYLSYKANENNQLSVNYSRRINRPYFRALDPFRWYSNPNTYYTGNPSLQPSFNHNVEFNYIFKNKFSANLYYQRTTNNFDQISFLNGINLISTYENYYNQDIYGINLNYTDTFFRIWESNISTSFSYNETQITRFNLVPKNGQSFYYSLNNTFQLNKAKTFMLFVNYWNNLPSRDGYFSVKNRASLDAGVKMSFAEKALQVNLSVSDIFRQSGLKADMYFTDNTQSFNNYWDARRLTLSITYNFGKQKVKSNSRPVNFEEKNRAQ				NA	NA	NA	NA	NA
BMS003_00905	1020			hypothetical protein	ATGAATAAAAAGCAAATTATCTGGCTGCAAATCATTTATTGGGGGTTCAATTTTATTGGAACCGTCATTACACCTAGTTTTTTTGTGCCGGAAACTAACCATACTGAATTACATATTCTGAGAATTACATACTTTATTGTGAAAATCTCAACATTCTATATTTCCTATCTGTTCATATTTCCGAAGGTTTTTAAACTTGAGAAACTGTATTCCGCTGTTTCTGTTTTTATACTTACACTTTTATGTTTTGCCAGTATGAGATATGTACTGGAAGAAATGATTTTGCCTTCTACTCTTGGTTTTCGGAATTATAATGAAAGAACAGGACTTCTCTATTATCTTTTCGATAATATATACAATAGTTCTCTGACTACTTTTATAGCGGGGATTTTATGGATATTAGAGAAATATGGTGTTGCGGAAAATGATAAAAAGCAGCTTCTGATCGAAAAAAAGCAGGCAGAGCTCCAGGCGTTGAAAACTCAGATCAATCCTCACTTTATTTTTAATTCATTAAATAACATCTATTCTCTTGTTTATCAAAAATCGGATAAAGCACTTCCCGCCATCGAGGAACTCGGACAATTGCTGAGGTACAGTACAAAAGATCTTGAAAAAGATTCGATTTCTGTGGATAAGGAAATTGGATATATTGATAGTCTGATTGCCTTGGAAAAACTTAGAATCAGAAATCCCGAACTCTTAGTCATAGAAAAAAATATTCAGTATCCTCAACTGAAGATATCTCCGATGCTGTTGGTTCCTTTTGTTGAAAATGCCTTCAAACACGGTGATTTCCGTGATAAAGGTTTTGAAATGAAAATTTCAGATCATGATAAAGAGCTTCACTTTTATCTTTTAAACTGTAAAACACAGAAAATGAAAGATACCGTTTCAGGAATAGGAATTCAGAATGTAAAGAAAAGACTGGAAATATTATATCCAAGGCATCAGCTTGAAATCCGGGATTCGGAGACGGAATTTATTGTAGATTTAAAAATTGATTTAGGGAATGAATAA	MNKKQIIWLQIIYWGFNFIGTVITPSFFVPETNHTELHILRITYFIVKISTFYISYLFIFPKVFKLEKLYSAVSVFILTLLCFASMRYVLEEMILPSTLGFRNYNERTGLLYYLFDNIYNSSLTTFIAGILWILEKYGVAENDKKQLLIEKKQAELQALKTQINPHFIFNSLNNIYSLVYQKSDKALPAIEELGQLLRYSTKDLEKDSISVDKEIGYIDSLIALEKLRIRNPELLVIEKNIQYPQLKISPMLLVPFVENAFKHGDFRDKGFEMKISDHDKELHFYLLNCKTQKMKDTVSGIGIQNVKKRLEILYPRHQLEIRDSETEFIVDLKIDLGNE	PGPT0026305_2613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_00906	678	btsR_2	COG3279	Transcriptional regulatory protein BtsR	ATGAATAAGATAAAATGTATTATTGTAGATGATGAGCCATTGGCTATCTCTCTTCTTGAGCATTACGTGGAGAAAGTTTCATTTCTTGAACTGGTATTTTCAACAGAGAATCCGATTCTGGCGTTAGAGTATCTTCAGAAAAATGATTCAGATCTTATATTTCTGGATATTCAGATGCCGGAACTTACGGGAATTAATTTCATGAAGATTGTGGGTGCCAATCAGAAGTATATTTTAACAACGGCCTATTCCGAATATGCATTGGAAGGCTATGAACACAATATTGTTGATTATCTTCTAAAACCTATTTCCTTCGAAAGATTTCAAAAGAGTGTATTGAAAGCTCAGGAACGGTTTTCCTTTTCTGAGGAAGAGAATACCCATTTTTTTGTAAAATCTTCGGGACAAAGGCACCGTATCGGGTTTCATGAGATCCTGTATGTAGAAAGTATCAAAGACTATGTTAATATCCGTACGGAAAATGATGAGTTTATCGTTCTGGATACTCTTAAATCAATGGAAAACCAGCTTCCTGAAAGGTTTGTTCGGATTCATAAATCTTTCATCGTTAACCTGGATAAAGTCAAAAGTATTGGGGCGAAAAAAGTGATTCTTCCTGAATATGAGATTCCTATTGGAGAAAGTTATAGGGCGGGTCTTTTGGATAGATTAAAGTGA	MNKIKCIIVDDEPLAISLLEHYVEKVSFLELVFSTENPILALEYLQKNDSDLIFLDIQMPELTGINFMKIVGANQKYILTTAYSEYALEGYEHNIVDYLLKPISFERFQKSVLKAQERFSFSEEENTHFFVKSSGQRHRIGFHEILYVESIKDYVNIRTENDEFIVLDTLKSMENQLPERFVRIHKSFIVNLDKVKSIGAKKVILPEYEIPIGESYRAGLLDRLK	PGPT0026304_833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_00907	2268	acn	COG1048	Aconitate hydratase A	ATGACTTTTGATATTGATATGATCAAAAAGGTATATGAGCGTTACCCGGAGAGAATTGCAGCAGCAAGACAAATCGTGGGGAAACCTCTTACCCTTTCAGAAAAAATTCTTTACACCCACCTTTGGGAAGGAAATGCAACACAGGCATATGAAAGAGGAAACTCTTATGTAGACTTTGCACCAGACAGGGTAGCCATGCAGGATGCCACAGCACAGATGGCCCTTTTGCAATTCATGCAGGCAGGAAAAGCTAAAGTAGCTGTTCCCTCTACCGCTCATGCGGATCACCTGATACAGGCGAAAGTAGGTGCTGATAAAGATTTACAGGAAGGGATCAACAAAAACTCTGAAGTATTCAACTTCCTGAGTTCTGTATGTGATAAATACGGAATCGGATTCTGGAAACCGGGAGCAGGTATCATTCACCAGGTTGTACTGGAAAATTATGCCTTCCCCGGAGGGATGATGATTGGTACTGACTCTCACACAGTAAACGCAGGAGGATTAGGTATGGTAGCCATTGGTGTAGGAGGTGCTGATGCAGTAGATGTAATGGCAGGAATGGCCTGGGAGCTTAAAATGCCAAAACTTATCGGAGTAAAATTAACCGGTAAAATGAGCGGATGGACTTCTGCAAAAGATGTTATCTTAAAAGTAGCAGGAATCCTTACCGTAAAAGGTGGTACCGGATGCATCGTAGAATATTTCGGTGAAGGTGCTGAATCTCTTTCCGCAACAGGTAAAGGTACTATTTGTAATATGGGTGCCGAAATTGGAGCTACAACTTCTACTTTCGGATATGATGATTCTATGAGAAGATATCTTTCCGCTACAGGAAGACAGGATGTAGTAGATGCGGCTGATACAATTGCTGAACACTTAACTGGTGATGCTGAAGTATATGCTAACCCGGAACAATATTTCGATCAGTTAATTGAAATCAACCTTTCTGAACTGGCTCCACACTTAAACGGACCTTTCACGCCTGACTTAGCAACTCCAGTTTCTGAATTCAGAGCTAAAGCTGAAGCTAACGGATGGCCTTTGGAAGTTGAATGGGCACTTATCGGTTCTTGTACCAACTCTTCTTATGAAGATTTATCAAGAGCTGCTTCCATTGTAGAGGATGCAGTATCTAAAGGAGTAAAACCTAAAGCCATCTTAGGAATCAACCCAGGTTCTGAGCAGGTAAAATTCACAGCAGAAAGAGACGGTTTCTTAGATTCTTTCAGAAAATTTGAGAATGCAAGAATCTTTACTAATGCTTGTGGACCATGTATCGGGCAATGGGATAGAGAAGGTGCGGAAAAAGGAGAGAAAAACTCTATTATTCACTCTTTCAACAGAAACTTCGCCAAAAGAGCAGATGGTAACCCGAATACCCACGCATTTGTAGCTTCTCCGGAAATGGTAGCTGCTGTAGCGATCTCAGGAAGATTAGACTTCAACCCGATTACAGATACTTTAACCAATGAAGCTGGTGAGCAGGTAAGACTTGACGAGCCTAAAGGTTACGAACTTCCGTCAAAAGGATTTGCGGTAGATGATAACGGATATCAAGCTCCATCTGAGGATGGTTCCAGCGTTATTGTAAACGTAAGCCCTACTTCAGACAGACTTCAGTTATTAGAAGAATTCCCGGCTTGGGATGGTAAGAACATTGAAGGAGCTAAAGTATTGATCAAAGCTTTCGGAAAATGTACTACTGACCACATTTCTATGGCTGGACCATGGTTGAAATACAGAGGTCACTTAGATAATATTTCAAACAACATGTTGATTGGAGCGGTGAATGCTTACAACATGGAAACCAATAAAGTTAAAAATGAATTAACCGGTGAATACGGTGAAGTTCCGGCTGTACAAAGAGCTTACAAAGCTGCCGGTGTTCCAACAATCGTTGTAGGAGACCAGAACTATGGTGAAGGTTCTTCAAGAGAGCACGCTGCCATGGAGCCTAGACATCTTGGTGTAAAAGCGGTATTAGTAAAATCATTCGCAAGAATCCACGAAACCAACCTTAAGAAACAAGGGATGTTGGGAATCACTTTCGCTAATGAAGCTGACTATGATAAAATCCTGGAAGATGACACGGTTAACTTCTTAGATCTTGACCAGTTTGCACCAGGAAAACAACTGACTTTAGAATTCGTTCATGCAGACGGAACTAAAGATATCATCATGGCCAATCATACTTATAACGATCAGCAAATTGATTGGTTTAAGGCCGGTTCTGCTCTTAACCTGATCAAACAACAGGAAAAATAA	MTFDIDMIKKVYERYPERIAAARQIVGKPLTLSEKILYTHLWEGNATQAYERGNSYVDFAPDRVAMQDATAQMALLQFMQAGKAKVAVPSTAHADHLIQAKVGADKDLQEGINKNSEVFNFLSSVCDKYGIGFWKPGAGIIHQVVLENYAFPGGMMIGTDSHTVNAGGLGMVAIGVGGADAVDVMAGMAWELKMPKLIGVKLTGKMSGWTSAKDVILKVAGILTVKGGTGCIVEYFGEGAESLSATGKGTICNMGAEIGATTSTFGYDDSMRRYLSATGRQDVVDAADTIAEHLTGDAEVYANPEQYFDQLIEINLSELAPHLNGPFTPDLATPVSEFRAKAEANGWPLEVEWALIGSCTNSSYEDLSRAASIVEDAVSKGVKPKAILGINPGSEQVKFTAERDGFLDSFRKFENARIFTNACGPCIGQWDREGAEKGEKNSIIHSFNRNFAKRADGNPNTHAFVASPEMVAAVAISGRLDFNPITDTLTNEAGEQVRLDEPKGYELPSKGFAVDDNGYQAPSEDGSSVIVNVSPTSDRLQLLEEFPAWDGKNIEGAKVLIKAFGKCTTDHISMAGPWLKYRGHLDNISNNMLIGAVNAYNMETNKVKNELTGEYGEVPAVQRAYKAAGVPTIVVGDQNYGEGSSREHAAMEPRHLGVKAVLVKSFARIHETNLKKQGMLGITFANEADYDKILEDDTVNFLDLDQFAPGKQLTLEFVHADGTKDIIMANHTYNDQQIDWFKAGSALNLIKQQEK	PGPT0001465_4709	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
BMS003_00908	2784	acnB	COG1049	Aconitate hydratase B	ATGAATATTTATAAGGATTACATCAAAGAGATTGAAGAAAGAAAAACCCAGGGGCTTCACCCAAAGCCAATTGATGGTGCTGAATTACTAAGCGAAATCATTTCGCAGATAAAAGATTCAGGTAATGCTGACCGATCAGATTCTCTTAAATTTTTCATTTACAATACACTACCCGGAACCACAAGTGCAGCTGGAGTGAAAGCAAAATTTTTAAAAGAAATTATTCTAGGTGAATCCATAGTAGAAGAAATTTCCCCTGCTTTTGCATTTGAGTTATTATCTCACATGAAAGGAGGACCTTCTATTGAAGTATTGCTTGACCTTGCTTTAGGTAATGACCCTGTTATTGCTCAGGAAGCCGCAAATGTTCTTAAAACACAGGTATTCCTTTACGAAGCAGATACTAACCGTCTTAAAGAAGCTTTCGAAGGCGGAAATGCAATCGCAAAAGAAATTCTTGAAAGTTATGCAAAGGCAGAGTTTTTCACTAAGCTTCCTGAAGTTGCTGAAGAAATTAAGGTTGTAACATTTATTGCTGGTGAAGGAGACATCTCTACAGATTTACTTTCTCCGGGGAACCAGGCTCACTCAAGATCAGACCGTGAACTTCACGGTAAATGTATGATCACTCCTGAAGCTCAGGAAGAAATCAAAGCTTTACAGGCACAGCATCCTGATGCGAGCGTTATGCTTATTGCTGAAAAAGGAACAATGGGTGTAGGTTCATCAAGAATGTCCGGAGTAAACAATGTTGCTCTCTGGACAGGAAAGCAAGCCAGCCCATATGTACCATTTGTAAACATTGCTCCGATTGTAGGGGGAACAAACGGTATTTCTCCGATCTTCCTTACTACAGTAGACGTTACCGGAGGTATTGGTATTGACCTTAAAAACTGGGTGAAGAAAGTAGACGAAAACGGAAACCCTGTTCGTAACGAAAATGGAGATATCGTTCTTGAAGAAGCTTATTCAGTGGCAACAGGAACTGTTTTAACAATCAATACAAAAGAAAAGAAATTATATAACGGAGATAAAGAACTGATTGACCTTACCAAATCTTTCACTCCGCAAAAGATGGAATTCATCAGAGCAGGTGGATCTTATGCCATCGTATTTGGTAAAAAATTACAGACATTTGCAGCTCAGCTTTTAGGAGTTGAAGCTCCTGTGGTTTTTGCTCCGTCAAAAGAAATTTCTCAAGAAGGACAAGGACTTACAGCCGTAGAAAAAATATTCAACAGAAATGCTGTTGGAACTACTCCAGGAAAAGTATTACACGCAGGTTCTGACGTTCGTGTACAGGTAAATATCGTTGGATCTCAGGATACGACAGGTCTTATGACTTCTCAGGAACTTGAGTCCATGGCAGCAACGGTAATTTCGCCAATTGTTGATGGTGCTTACCAGTCAGGATGTCACACCGCTTCAGTTTGGGATAAAAAAGCTCAGGCTAATATTCCGAAGCTGATGAAGTTCATGAACGAGTTCGGTTTGATTACAGCGCGTGACCCGAAAGGCGAATATCATGCAATGACCGATGTTATTCACAAAGTTCTTAACGACATTACTGTAGACGAATGGGCCATCATCATCGGTGGTGACTCTCATACAAGAATGTCTAAAGGAGTAGCTTTCGGAGCTGACTCTGGAACTGTGGCTCTTGCATTGGCTACCGGTGAAGCATCTATGCCAATTCCTGAATCTGTGAAAGTAACATTCAAAGGAAACATGAAAGAACATATGGATTTCCGTGATGTGGTACATGCGACACAGGCTCAGATGCTGAAGCAGTTTGGAGGAGAAAACGTATTCCAGGGTAGAATCATTGAGGTTCACATCGGAACCCTGCCTGCTGACCAGGCATTCACATTTACAGACTGGACGGCTGAAATGAAAGCAAAAGCTTCTATCAACATTTCTGAAGATAATACTCTGATCGAATCACTGGAAATTGCAAAAGGCAGAATCCAGATTATGATTGATAAAGGTATGGACAACCACAATAAAGTTCTTCAGGGACTTATTGACAAAGCAAACAAGAGAATTGCAGAGATCAGATCAGGAGAAAAACCTGCATTGACTCCGGATTCTAACGCTAAATATTACGCTGAAGTAGTTGTAGATCTTGACGTGATTGTTGAACCTATGATTGCTGACCCGGATGTAAATAACGACGATGTATCTAAAAGATATACTCACGATACCATCAGAGATCTTTCTTACTATGGAGGTGAGAAAAAAGTAGACCTTGGTTTCGTAGGATCTTGCATGGTTCACAAAGGAGACCTTAAGATCGTTTCTCAAATGCTTAGAAACCTTGAAAAACAACAGGGTAAAGTAGAATTTAGTGCTCCTCTTGTTGTAGCAGCTCCTACTTATAACATCATTGATGAATTAAAGGCAGAAGGTGACTGGGAATTACTAGAAAAATATTCGGCTTTTGAATTTGATGATAACGCTCCAAAAGGAGAAGCCCGTGTTGAATACAAAAACGTAATGTACCTTGAGCGTCCTGGATGTAACCTTTGTATGGGGAACCAGGAAAAAGCAGCTAAAGGAGATACTGTTTTAGCAACCTCTACCCGTCTTTTCCAGGGAAGAGTAGTGGAAGATTCTGAACGTAAAAAAGGAGAATCTCTATTGGCTTCAACGCCGGTAGTTGTTCTTTCTGCTATTATCGGAAGAATTCCTAGCATTGATGAGTATAAAGCTGCCGTTGAGGGTATTGACCTTACTACATTTGTGCCTTCTATTAAAGAACTGACGAGTACTAGCGCTCACTAA	MNIYKDYIKEIEERKTQGLHPKPIDGAELLSEIISQIKDSGNADRSDSLKFFIYNTLPGTTSAAGVKAKFLKEIILGESIVEEISPAFAFELLSHMKGGPSIEVLLDLALGNDPVIAQEAANVLKTQVFLYEADTNRLKEAFEGGNAIAKEILESYAKAEFFTKLPEVAEEIKVVTFIAGEGDISTDLLSPGNQAHSRSDRELHGKCMITPEAQEEIKALQAQHPDASVMLIAEKGTMGVGSSRMSGVNNVALWTGKQASPYVPFVNIAPIVGGTNGISPIFLTTVDVTGGIGIDLKNWVKKVDENGNPVRNENGDIVLEEAYSVATGTVLTINTKEKKLYNGDKELIDLTKSFTPQKMEFIRAGGSYAIVFGKKLQTFAAQLLGVEAPVVFAPSKEISQEGQGLTAVEKIFNRNAVGTTPGKVLHAGSDVRVQVNIVGSQDTTGLMTSQELESMAATVISPIVDGAYQSGCHTASVWDKKAQANIPKLMKFMNEFGLITARDPKGEYHAMTDVIHKVLNDITVDEWAIIIGGDSHTRMSKGVAFGADSGTVALALATGEASMPIPESVKVTFKGNMKEHMDFRDVVHATQAQMLKQFGGENVFQGRIIEVHIGTLPADQAFTFTDWTAEMKAKASINISEDNTLIESLEIAKGRIQIMIDKGMDNHNKVLQGLIDKANKRIAEIRSGEKPALTPDSNAKYYAEVVVDLDVIVEPMIADPDVNNDDVSKRYTHDTIRDLSYYGGEKKVDLGFVGSCMVHKGDLKIVSQMLRNLEKQQGKVEFSAPLVVAAPTYNIIDELKAEGDWELLEKYSAFEFDDNAPKGEARVEYKNVMYLERPGCNLCMGNQEKAAKGDTVLATSTRLFQGRVVEDSERKKGESLLASTPVVVLSAIIGRIPSIDEYKAAVEGIDLTTFVPSIKELTSTSAH	PGPT0001470_5	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
BMS003_00909	771			hypothetical protein	ATGAAAAATATCCTTATTGTTTTATGCATTTTTACTTCACTTTTCTCTTTTTCACAGACCAGATCTGTGAAAAAAGTTTCGATGAAGAAAAGCGTGAAAACCCCGGCTAAAAGGGAGATTGCAACTAATAAGCCTAATCCTGATCTGGTAGTGATCAATAAAGATCTTCCGGTTTTGATCCCTAAAAAGAAAGGGGATCAGTTCGGATATGTGAACCAGAACGGGAAATTTATTATTCAGCCGGAATATCATATTGCCGTATTTTTTTACGAAGACTGCAATCTTTTGAACTCCCCAAATGAAAAAGTCAGAAAATTTGGAACAAAAGATTATGCTACAGTGGAGAAAAATATGATCTCTTACCGTGTAGATCAGTCGGGGAAGAGAGTGTATCAGTTCAAGGATGCGGATTTTGGACAGTGTAAATTTGAGGAATATAAGCAACAGTTATTTCAGGCTTATATTTTAAACGGCTTCTACGGAATCATTGAAAAATCAAAATTTGTAAATGCCACAGATTACAGACAGTTTCAGATTTATCCCCAATATCAGTATCTCTTTATTCTGGAAGGGGATGATGTGGCTAATCCGATGATTGTAGCTTCCAATAATGATAAATTTGGAATCATTGATGTTAATAATAAGATTATCATTCCGTTTGAATATTCCAATATTAAACGAAACTTCAGCTGGAAACTAGGGAAGATGTTTGAAGTGACAAAAGACGGCTCAAATTATTACTATATCGACGCCAACAACAAAACTTACTAG	MKNILIVLCIFTSLFSFSQTRSVKKVSMKKSVKTPAKREIATNKPNPDLVVINKDLPVLIPKKKGDQFGYVNQNGKFIIQPEYHIAVFFYEDCNLLNSPNEKVRKFGTKDYATVEKNMISYRVDQSGKRVYQFKDADFGQCKFEEYKQQLFQAYILNGFYGIIEKSKFVNATDYRQFQIYPQYQYLFILEGDDVANPMIVASNNDKFGIIDVNNKIIIPFEYSNIKRNFSWKLGKMFEVTKDGSNYYYIDANNKTY				NA	NA	NA	NA	NA
BMS003_00910	2118			hypothetical protein	ATGAAAGGATTATTTTTTTTAGGGCTTAGCATAGGCTCTGTAGCTTTTATCCAGGCTCAGAATAAGGATTCTCTGAAGATCAGGGAAATTGAAGCCGTCAACTTTACCAAAAGACTTCCCGTAGCTAAGGAAATCATCAATGTACAGAAAGATCTGGACGGGAAAAATTTAGGACAGGATCTTCCTATTCTTTTAAAAAACCAAACCTCTGTTATCTCCACTTCTGATGCCGGAAACGGAGTAGGATATACAGGTTTTAGAATTCGTGGAGTTTCTGGCTCGGCCATTAATGTGATGATGAACGGTGTTCCGTACAATGACTCTGAGAGCCAGGGAACATTCTTTGTCAATGTCCCGGATTTAACAAGCTCTGCATCACAGATTGTCATTCAGAGAGGGGTTGGAACTTCCAATAATGGTGTTTCTGCTTTCGGAGCAAGTATTAATGTACTTTCTAAAGATCCGGAAGAGAAGTTTTATTTTAAAACCGATGACAGTTACGGATCATTTAACACATATAAATATTCGGCGGAAATTGGCTCCGGTAAGTTCTGGAAAAACCGCCTATCTGTAATGGGAAGATATACTCATATTCATTCTGACGGATATATTGACAGGGCTTCTTCCAATCTACATTCTTATAATTTCACTGCTTTATTTGAAGAAGGAAATACGAAAATACGTTTAATGGCTTTCGGAGGAAAAGAAAAAACCTATCAGGCATGGAACGGTATTGACCGTAAAACATGGGAAACCGATCCTAAATTTAATATTTCAGGTGCAATCTATGATGCGAACTGGGAGAATATTGTAAGCTTCTATGATAATGAAACTGATAATTACAGACAGAATCATTACCAGTTACTTTGGGAGCAGAAATTCAGTGACCGTTGGAATCTTGAAACTACAGCCCATTATACAAAAGGAAGAGGATATTACGAAAATTACAAACAGGGAGATCCTTTTTCAAGATATAATCTGCCAGATATAACAGAAGGCGGACAAACTATAAAATCTTCAGATTTCATCAGAAAGAAATGGTTGAATAACGATTTCTACGGAATGGTTTCCACGCTCTACGGAAAGTTTGAAAATCTGGATCTGAATTTTGGGGCAGTAGTCAATCAATATTATGGAAGACATTATGGAAATGTGACAGGAGTGTTTTTTCCTCAAATTGATGAAAGCGAATACTACAGAAACCGTTCAGTAAAGAATGAAGTATCCGGTTTTGCAAAAGCTCTGCTCAGAGTAAATAATTTCGAGTTCTTTGGGGATCTGCAGCTTAGAAAAATCAATTACAATACAAAAATCCTGATGGCAGGTGATGACGAAGGAGCGGATTTAAGCAAAAACTGGCTGTTCTTTAATCCAAAAGCTGGTGTGAATTACAGAATTGAAGGCGGAAAAGTATTCCTGTCATATGCGCATGCACACCGTGAACCCAACAGAGATGATCTGATTGCCAATAATGATGTGAAGGCTGAAAAACTTCATGATTTTGAAGCAGGTTTTGAAAAACAGTTCGGGATTGTATCACTTACTGCGAATGTTTACTATATGTATTATGTGAATCAGTTGGTTCTGAACGGAGAACTTAATAATGTGGGAGCGTTCATCAGAACGAATTCAGGGAGGAGCTACAGAAGAGGTGTTGAAGTTGGAGCGTTGGCAAAACTTTCTAAACAATGGGAGGTTTCAGGGAATGTAACTTTAAGCCAGAACAGAAACGAGGATTTTAATATTCAAAATGGTGAGGTACCTAAAAGTCTTGGGAATACTCAGATTTCGTTCTCCCCAAATGTAATTGCCAATGTAAGCCTGAAATTTAATCCTACAAAGAACTTCCAGTTTGTGTTAATGAATCAATATGTCGGAAAACAATATCTTGATAATACAGAGGATGCGAACCTGCAGCTTAAAGATTACTTCCTGACAGATTTTAATGCTCAGTATCAGTTTAAAATTGCTAATAACGAAATTGCATTAAAGCTATTGGTGAATAACCTTTTCAATAAGAAATATGTGAATAATGGGTATGTTTATGATGCACAGCCATATTATTTTTCGCAGGCAGGCACAAACTTTATGTTTGGGGTGAGCTGGAAGATTCAGTAA	MKGLFFLGLSIGSVAFIQAQNKDSLKIREIEAVNFTKRLPVAKEIINVQKDLDGKNLGQDLPILLKNQTSVISTSDAGNGVGYTGFRIRGVSGSAINVMMNGVPYNDSESQGTFFVNVPDLTSSASQIVIQRGVGTSNNGVSAFGASINVLSKDPEEKFYFKTDDSYGSFNTYKYSAEIGSGKFWKNRLSVMGRYTHIHSDGYIDRASSNLHSYNFTALFEEGNTKIRLMAFGGKEKTYQAWNGIDRKTWETDPKFNISGAIYDANWENIVSFYDNETDNYRQNHYQLLWEQKFSDRWNLETTAHYTKGRGYYENYKQGDPFSRYNLPDITEGGQTIKSSDFIRKKWLNNDFYGMVSTLYGKFENLDLNFGAVVNQYYGRHYGNVTGVFFPQIDESEYYRNRSVKNEVSGFAKALLRVNNFEFFGDLQLRKINYNTKILMAGDDEGADLSKNWLFFNPKAGVNYRIEGGKVFLSYAHAHREPNRDDLIANNDVKAEKLHDFEAGFEKQFGIVSLTANVYYMYYVNQLVLNGELNNVGAFIRTNSGRSYRRGVEVGALAKLSKQWEVSGNVTLSQNRNEDFNIQNGEVPKSLGNTQISFSPNVIANVSLKFNPTKNFQFVLMNQYVGKQYLDNTEDANLQLKDYFLTDFNAQYQFKIANNEIALKLLVNNLFNKKYVNNGYVYDAQPYYFSQAGTNFMFGVSWKIQ	PGPT0003790_17941	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
BMS003_00911	753			hypothetical protein	ATGAATATTTCAGCATACATTTTAGAATACTTAAAACAATTTGGAACTGCCACGGTTCCAGGCTTTGGGGTGTTTTCACTGAAAAATTCTAAGGCCATTATCAATTCCGAGAACGGAAGCATATTACCTCCGGCAAGTCAGATTGAATTTACAATGGACTACGAAGTACAGGCTGAAGATCTTACTGCTTTTATTGCAGGACAAAAACAGATGTCCTTAGAAGCTTCAAGAAGTGACCTTAAGATCCAGACCGATTTCTGGAAGAAAAAACTTCAGGCCGATCAGGTTCTGGAAATTCAGAACCTTGGAACAGTCTTCATTGAAGAAGGGCATACTCATTTCAAGGGAAAAAGAATAGAATCCGGACATCCGGACTTTTATGGATTAGAAGAAATCAGATTTTCAGATATCAATAACGGAGACAAAGTAAAAGCCTCAGTGAACCGCGAAAAGGATTTTAAATTCAAAAAAACAATTCTTTGGATTTTCCTTTTGATTATTCCGGTTCTGGGAATTGTATATCTCGCATTTACCCAGCAGGAACTTCTTTTTGGAAAGAAATCTTTCAATAACATTTCCGTACAGACCTCTACCCACAGAATCGTAAAAGATACGGTGAAGGCAATAGTACACACTCCGCCAACACCTGTTTCTGATTCTTTGAAAAAAGATTCACTTGTAAAACCTGCCGTAAAAGCAACAGAATCTGCTCCGGCTGCTCCAAACAACACTAAGACTAGATGGCAAAAATAA	MNISAYILEYLKQFGTATVPGFGVFSLKNSKAIINSENGSILPPASQIEFTMDYEVQAEDLTAFIAGQKQMSLEASRSDLKIQTDFWKKKLQADQVLEIQNLGTVFIEEGHTHFKGKRIESGHPDFYGLEEIRFSDINNGDKVKASVNREKDFKFKKTILWIFLLIIPVLGIVYLAFTQQELLFGKKSFNNISVQTSTHRIVKDTVKAIVHTPPTPVSDSLKKDSLVKPAVKATESAPAAPNNTKTRWQK				NA	NA	NA	NA	NA
BMS003_00912	543			hypothetical protein	ATGGCAAAAATAAAAAAAGCGTCAGAATCTCTGACCATTATGACCAATATCGTTCTTCCGAACGAAACCAATTCTTTAAGAAACCTTTTTGGGGGTGAGCTTTTAGCTAAAATGGACCGTTGTGCGTCTATTTCTGCAGCAAGACACTGCGAAAGAAGAGTAGTAACAGCATCGGTAAACCACGTATCTTTCAATCACCCGATTCCGGAAGGCGGAGTAGTGGTTTTGGAATCTAAAGTTTCCAGAGCATTTTCCACTTCAATGGAAGTGTACGTAGATGTATGGTTGGATGACCCGATTAATCAGAAGAAAATTCACACGAATGCCGGTATTTATACTTTCGTTGCTGTGGATGAATTCAACCGTCCAATTCCTATTCCGGAAATGATTCCCGAAACCGATGAAGAGAAAAAAAGATTTGCTGCTGCATTCCGTAGAAAAGAACTATCATTAATTCTTTCAGGAAGAATGAAGCCTTTGGAATCTGTAGAGCTTAAAAAATTATTCCAGGAACCACAGGAGTCTAAGAAAGACAAGAAGTAG	MAKIKKASESLTIMTNIVLPNETNSLRNLFGGELLAKMDRCASISAARHCERRVVTASVNHVSFNHPIPEGGVVVLESKVSRAFSTSMEVYVDVWLDDPINQKKIHTNAGIYTFVAVDEFNRPIPIPEMIPETDEEKKRFAAAFRRKELSLILSGRMKPLESVELKKLFQEPQESKKDKK				NA	NA	NA	NA	NA
BMS003_00913	930		COG0111	Hydroxypyruvate reductase	ATGAAGATACTTCTTTTAGATAAAAATCATCCTCTTATCACTGAACAGCTTTTGGCTCAGAATTTTATTTTGGAAGAGGATTTTACATCATCTTATGATGAGGTTTGTAATAAAATTGAGAATTACGACGGGATTATCATCAGAAGCCGTATTCCACTAGATAAAAACTTTCTGGAAAAAGGTAAGAATCTAAAGTTTATTGCAAGAGTAGGTGCCGGAATGGAAAACATTGATATTTCTGTTGCCGAAAAACTGGGAATTCAGTTGATTAATTCTCCGGAAGGAAACAGAGATTCTGTGGCAGAGCACGTGGTAGGAATGCTGCTTGTCATTATGAACAGACTTTTTATTGCTTCTCAGGAAGTGAAAAACGGGATCTGGAAACGTGAAGAAAACAGAGGAGACGAACTGTTAGGAAAAACAGTTGGCTTAATCGGATATGGAAACATGGGAAAAGCTACTGCTAAAAGACTTTCAGGATTCGGATGTAAGGTTATTTTTCATGATATACTTCCTGATCTTTCTGATGAATACGCAACACAGGTTTCATTAGAAGAATTGAAACAATCTGCGGAGGTTGTAAGTTTACATATTCCTTTAACTTCAGAAACCCACTACCTTATTGATGAAGCATTCATTGCAGAGATGAAAAACGATTTTTATTTTATCAATACTGCGAGAGGAAAGAATGTGAAAACTAAAAGTTTAGTAGAAGGGTTGAAATCAGGAAAAGTAAAAGGAACTTGCCTTGATGTATTGGAGTATGAAAAGTCTTCTTTTGAAAATATTGAAGCAGAAAATGAAGATTTAAAATATCTTCTTGATTCTGAAAAAGCAATTGTCACTCCCCATATTGCCGGATGGACCTATCAGAGTAAAGAAAAACTGGCTCAGTTTATTGTAGATAAAATTGTCGCTTCACATTGTTAG	MKILLLDKNHPLITEQLLAQNFILEEDFTSSYDEVCNKIENYDGIIIRSRIPLDKNFLEKGKNLKFIARVGAGMENIDISVAEKLGIQLINSPEGNRDSVAEHVVGMLLVIMNRLFIASQEVKNGIWKREENRGDELLGKTVGLIGYGNMGKATAKRLSGFGCKVIFHDILPDLSDEYATQVSLEELKQSAEVVSLHIPLTSETHYLIDEAFIAEMKNDFYFINTARGKNVKTKSLVEGLKSGKVKGTCLDVLEYEKSSFENIEAENEDLKYLLDSEKAIVTPHIAGWTYQSKEKLAQFIVDKIVASHC	PGPT0009155_7537	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS003_00914	1272	dap_1		D-aminopeptidase	TTGAATCTCATGACGACGCGTAATTTTGTACTTATCCTAACTGTTCTTTTATCAATATTTTCCTGTAAGAAAAAGGCTGAAACTAAAGAAGTTTCTGCTGAAAATACAACCAATCTTCCTAACTACGGAAACGTAGATCTGGGTGATATTTTTACGAAAGGAGACGGACAGCTTATGAACAGGCAAACTACGGTAAGTTATATAGATCAATACTACAAAAAGATATGGGAAGGAGGAGATCTTAGTGGCGGAATTCTTGTTGCCAAAGGTGATGAAATCCTGTATGAGAATTACAGAGGTTTCGGAAGAGAAGGAAACCAGATGCCTATCGACAAGAATACACCGTTGCATGTAGCTTCGGTTTCAAAAACGTTAACTGCAATGGCGATGATGAAGCTTGTGGAAGCAGGGAAGATAAAGCTTACAGATCATCTTACCCAGTTCTTTCCTGGGTTTCCATATCCTAATGTTACCGTTCAGACTTTGTTGGATCAAAGAAGCGGTCTTCCAAAATACGAATACTTTATTACCCAGATACAGCCTGCTCCGACAGAACTTTCCAAGCCATTTATTACGAATGAGGATGTATTGAATATGATTATTAAATATAAACCTGATCTGGCAAGAGATACGGATACGGGATTTATGTATTGTAACACGAATTTTGCCCTTTTGGCTTTATTGATTGAAAAAGTGACCAAAACTCCTTTTCCTCAGGCAATGAAAGAAATGGTTTTCACCCCGCTGAAAATGAATAATACATACATTTTCCAGGAAAAAGATATTCCTACTGCATCCCAGTCCTTCTATTACGGAGGAAACAAATTGTATCCTTTAGACAGGCTTGATCTTATCTATGGAGACAAAAATGTATACACTACACCAAGAGACTTATACAACTTTTCAAAAGCAATGTTTTCTAAAAATTTCCTGAAACCGGAACTAATGCAGATGGTATTTACTCCTTACAGCAATGAAAAAGCCGGAATGAACAATTATGGCTTAGGATTCAGAATGAAAATATTTGATAACGGAGAAAAATTAACTTACCATAACGGGTGGTGGCATGGTACCAACTCAGTATTTGCTCACCTTTTAAAATCTAAAGTGACCATTGTTGCCATTGGAAACAAATATTCAAACAAGGTATATACAGCCCTTTCATTATCAGGATTATTCGAAGATTTTCCTTTACAGAAGGATAAGCTTCATACGGTAATGAATGATAATAAAGATACTTTGAATTCCGGACAGGAAGTTTTTGGAGAATAA	MNLMTTRNFVLILTVLLSIFSCKKKAETKEVSAENTTNLPNYGNVDLGDIFTKGDGQLMNRQTTVSYIDQYYKKIWEGGDLSGGILVAKGDEILYENYRGFGREGNQMPIDKNTPLHVASVSKTLTAMAMMKLVEAGKIKLTDHLTQFFPGFPYPNVTVQTLLDQRSGLPKYEYFITQIQPAPTELSKPFITNEDVLNMIIKYKPDLARDTDTGFMYCNTNFALLALLIEKVTKTPFPQAMKEMVFTPLKMNNTYIFQEKDIPTASQSFYYGGNKLYPLDRLDLIYGDKNVYTTPRDLYNFSKAMFSKNFLKPELMQMVFTPYSNEKAGMNNYGLGFRMKIFDNGEKLTYHNGWWHGTNSVFAHLLKSKVTIVAIGNKYSNKVYTALSLSGLFEDFPLQKDKLHTVMNDNKDTLNSGQEVFGE				NA	NA	NA	NA	NA
BMS003_00915	1818			hypothetical protein	ATGAAAAGGTTTCTTTTATTATTCGTTATCTGTTTTCTTGTGCATTCATGTGCGAGAGTAGGATCTCCCGTAGGAGGACCTAAAGATACATTAGCCCCAAGGTTTTTAAGCGCAAACATTGATACCACAAGAATTAATGTCAAAAGAGATATTCACGAACTCCGTCTGGATTTTGATGAATATGTGACGTTGAAGGACATCAATAAAAACCTGATCATTTCACCTCCCATCAAAAATATTACAAGGATTCTTCCGTCTAATATTGCTAACAAATTTGTACTGATCCAGTGGAAAGATACCCTTCAGGCAAATACTACTTATAATTTCAATTTTGGAAACTCTATTGTTGATAATAATGAGGCCAATATATTGAGATATTTCAATTTTGCATTTTCTACAGGAGATAAATTAGATGATTTGTACATCAGTGGTGAAGTAAAAGATGCATTGGATACTAAAAAGAAAGAGGCAACAGCAACGGAAAATAAACTTGTAGTTGGATTGTATCAGGTAAAAGATACTATGGATTACAAGAAGAAGCCTTACTATATTACCAAAGTAGATGATGATGGGTATTATGAATTAAACTACCTGACACCGGGTGCATATAAAATTATTGCTTTTGAAGATGAGAATGGAAACTCAATGTATGATCCGGGAAAAGAAAAAGTAGGCTTCCAGAAAGATCCTGTCAATGTAGAAAAATCTATTTCAGGATTGAATTTAAAAGTATATCCTTCCAAAAAACCTGTAAAATATTTGGAAATGAAAGAAATTGCAGGAGGAGTATTGATGACATTCGAAGGAAATCCTGAAGAAGTAAAAGTTCAGTCGCTGAACGAGAAGCTGAAGGACGTAAAAATAACGCACAATCCGAAATCAGACTCCGTAAGAATCTGGTTTGATGCCGTAAAAGATGATGTAGGACAGACTGCCAATGAAAAGCTGGTATTTACTCACGATAAAGGCCCGAAAAAGGATAGTATTTACAGTGTTTCATTATTCTATAAATACAATAAAAAGAACGCAATGGACGTCTTTAGTGATAATGACGGAACAGCCATTGCTCCAAAGGCAGATTTAAAACTGGCCTCCAATTATATTGTAGATAAAATAGACCCTTCAAAATGGACTTTGAGAGCTAAAGGAGACAGCTTAACAACCTTACCGTTCACAGCTAAGATCTCGGAAACCAATCCTTACCAGATTCATGTTCAGTCAGATTTTGTGATGGGGAAAAGCTATGAGCTTACAGTTCCTAAGGAAACAATATCTTCATTTTATGCAAAAAATACCCAGTCAAAACGTTTCGACTTTGATGTCGCTAAAATAGATCAGTTCGGAAGTGTGGAATTCTCTATTGCGAATGCTCCGACTGCCAGTTACTGGATTCAGATGATAGATTCTTCAGATAAAATTGCTTATCAGCAATATCTTAAAGGAGATAAAGTTAAGTTTGATATCCTAAAACCAGGAGAATACGTAGTGAGGATCCTGGTAGATAATAATGGGAACAAATATTGGGATGAAGCAGACTTTGCTAATGATATATTCGCAGAGGACGCCTGTATTTTCTATAAAAAAGTGATTGTAAGAGGATTATGGGAAACAAGAGAAGAGTGGGATCTGAAAGATACCAGAACGCTTGATAGTCCTAAATCTGCAACAGGAACGCCAGCTGCGCCAGCTTCAGCTTCAACTCCTGCACCAGCATCTGAAACTCCGCCCCCTGCAGCAACTACTACAACTACTAAAGTACAGCCAAAGCTGAAAAAAGAATTTGAATCCGGTAACGCTGTTTTAATCCCATCAAAATAA	MKRFLLLFVICFLVHSCARVGSPVGGPKDTLAPRFLSANIDTTRINVKRDIHELRLDFDEYVTLKDINKNLIISPPIKNITRILPSNIANKFVLIQWKDTLQANTTYNFNFGNSIVDNNEANILRYFNFAFSTGDKLDDLYISGEVKDALDTKKKEATATENKLVVGLYQVKDTMDYKKKPYYITKVDDDGYYELNYLTPGAYKIIAFEDENGNSMYDPGKEKVGFQKDPVNVEKSISGLNLKVYPSKKPVKYLEMKEIAGGVLMTFEGNPEEVKVQSLNEKLKDVKITHNPKSDSVRIWFDAVKDDVGQTANEKLVFTHDKGPKKDSIYSVSLFYKYNKKNAMDVFSDNDGTAIAPKADLKLASNYIVDKIDPSKWTLRAKGDSLTTLPFTAKISETNPYQIHVQSDFVMGKSYELTVPKETISSFYAKNTQSKRFDFDVAKIDQFGSVEFSIANAPTASYWIQMIDSSDKIAYQQYLKGDKVKFDILKPGEYVVRILVDNNGNKYWDEADFANDIFAEDACIFYKKVIVRGLWETREEWDLKDTRTLDSPKSATGTPAAPASASTPAPASETPPPAATTTTTKVQPKLKKEFESGNAVLIPSK				NA	NA	NA	NA	NA
BMS003_00916	453			hypothetical protein	ATGGCTAAGAAAATCATATTCTGGGTGTTGATAGGTTTTGTGCTCATTCAGTTCTTTCCTGTTGACAGAACCAATCAGCCTGTTGATTCTGTAAAGAATTTTGTCAGTGCTAAGAAAACACCTGAAAAGATTGCAACTCTGCTTAAAAATGCATGCTATGACTGTCATTCCAATGAAACAGTGTACCCGAAATATGCTTTTGTAGCCCCTGTTTCATGGTCTGTAAAAAGCCACGTGAATGAAGGAAGGGAGCATCTTAATTTTTCTGTATGGGAAACCTATAACAAAGAGTTGAAGGAGAATATGCTTACAAAGTCTGTACAGACAATTCAAAGCAAAGCAATGCCAATGCCGGGTTATATTGTATATCATAAGGAAGCCAATCTTTCAGAAGCGGAAAGAACATTATTGATCCGGTATTTTGAAGAGATGCTGAAGACTAAAACCTACTAG	MAKKIIFWVLIGFVLIQFFPVDRTNQPVDSVKNFVSAKKTPEKIATLLKNACYDCHSNETVYPKYAFVAPVSWSVKSHVNEGREHLNFSVWETYNKELKENMLTKSVQTIQSKAMPMPGYIVYHKEANLSEAERTLLIRYFEEMLKTKTY				NA	NA	NA	NA	NA
BMS003_00917	513	nudC		NADH pyrophosphatase	ATGAAGCTATTGAAATATTGCCCAAGCTGCGGCAAAGAGTCTCTAAACTGGGATAGCGAAAAGAAATGGAGCTGTCCTGAATGTGGTTTTACCCTGTATAATAATGTGGCAGGCGCTGTAGCGGTTGTCATCAGATGCGGAGATGAAATTTATTTTACCAGAAGAAACAGAGATCCTAAAAAAGGAAAGCTGGATCTTGCCGGAGGATTTGTTGATCCGAAAGAAAGTGCAGAGGAAACCTGTAAAAGAGAACTTTTTGAAGAACTTCAGCTTGACATCAATATTTCTAACCTGAAATACCTTACAAGCCTTCCTAATATCTATCAGTATAAAGAAATTGATTACAATACTATTGATCTCTTTTATGAATACCATGTTACGGAAAAGTTTGAGGTAAATCTTGAGATCTCGGAAATCTCAGAAGCAGTCTGGATTCCTTTGCAGGAATTAAACTTGGAGGATATTGCTTTTGATTCCCAGAAGAGGTTTTTCGAGAGTTATTTAAAGAAATAA	MKLLKYCPSCGKESLNWDSEKKWSCPECGFTLYNNVAGAVAVVIRCGDEIYFTRRNRDPKKGKLDLAGGFVDPKESAEETCKRELFEELQLDINISNLKYLTSLPNIYQYKEIDYNTIDLFYEYHVTEKFEVNLEISEISEAVWIPLQELNLEDIAFDSQKRFFESYLKK	PGPT0013440_2968	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
BMS003_00918	915	xerD		Tyrosine recombinase XerD	ATGACTTGGGATGAAAAGATCAAAGATTTTGAAATATTTCTTCGTTTCGAAAGAAATTTTTCAGAAAACACGCTCGACGCTTACGTTCGGGACATTAAGAAATTAAAAGATTACGCAGAAGAAGATCTGGCAAACGTCGGCCCAGATTCTATCGGTTACGAAAACCTGCAGGAATACATTTTCAATCTTTCCAAACAGAAATTCAGTGAGAGATCACAAGCAAGATGGATATCTTCTATCAAAGCTTTTTTCAAATTTCTGCTGGAAGATGAATACCGTGAAGACAATCCTGCGGCGTTACTTGAAGGCCCTAAGCTGGGATTATACCTACCAGATACCCTAAGCCTGCCTGACATCAACAAAATTATTGCTGCTATTGAAGTCAATACAGATCTCGGAAAAAGAAACCACTGCATCATAGAGGTACTATATGGATGCGGACTTCGTGTTTCTGAACTGATTGATCTCAAGATCTCCAATATCAACTTTAAAGAGCAATACATCAAGGTACACGGAAAAGGAAACAAGACCCGTTTTGTTCCTTTAGCTGATTATACTGCTGATTTGCTTGAAAGTTACATCAAAGAGGTACGTTCTAAAGGTAAGATCAATAAAAAATATGAAGACACCCTGTTCCTGAACAGCCGTGGGACATCTATGTCCAGAGTAATCGTATTTCTTATTATCAAAGAACTTACAGATAAAGCAGGGGTTAACAAAAAAATATCTCCACACACATTCAGACATTCTTTTGCAACACATTTGCTGCAGAATGGTGCAGATTTACGTTACATTCAGGAAATGCTGGGACATTCCAGCATTACAACAACTGAAATCTATACACATCTGAAAACAGAAGAGCTGAGGGATGTTATTCTAAGTTATCACCCGAGAAATATTAATATTACTCAATGA	MTWDEKIKDFEIFLRFERNFSENTLDAYVRDIKKLKDYAEEDLANVGPDSIGYENLQEYIFNLSKQKFSERSQARWISSIKAFFKFLLEDEYREDNPAALLEGPKLGLYLPDTLSLPDINKIIAAIEVNTDLGKRNHCIIEVLYGCGLRVSELIDLKISNINFKEQYIKVHGKGNKTRFVPLADYTADLLESYIKEVRSKGKINKKYEDTLFLNSRGTSMSRVIVFLIIKELTDKAGVNKKISPHTFRHSFATHLLQNGADLRYIQEMLGHSSITTTEIYTHLKTEELRDVILSYHPRNINITQ	PGPT0022000_4895	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS003_00919	423	tadA_1		tRNA-specific adenosine deaminase	ATGAATAAGTTTGATAAAGCTTATCTAAAAATGGCTCAGGAATGGGCAAAACTCTCCTACTGTAAGAGAAAACAGGTAGGAGCTCTTATCGTAAAAGATAGGATGATTATTTCAGATGGTTACAACGGGACTCCTTCGGGATTCGAAAACTGCTGTGAAGATGCTGAGGGAAAAACACACTGGTACGTATTGCATGCGGAGGCTAATGCTATATTAAAGCTGGCTGCTTCCACTCAATCTGCAAAAGGAGCAACGTTATATCTGACGCTGTCTCCATGTAAAGAATGCAGTAAGCTGATTCTGCAGGCAGGAATTACGAGACTGGTGTATATTAATGAGTATTCGGATGACGATGGAATATCGTTCCTTAGAAACCATAACATTGAAATAGAACAAATATCGGACTGTGAACTAAAAAAATAA	MNKFDKAYLKMAQEWAKLSYCKRKQVGALIVKDRMIISDGYNGTPSGFENCCEDAEGKTHWYVLHAEANAILKLAASTQSAKGATLYLTLSPCKECSKLILQAGITRLVYINEYSDDDGISFLRNHNIEIEQISDCELKK	PGPT0021380_2218	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0021380-comEB|tadA-K01493	NA	NA
BMS003_00920	768		COG1024	Crotonyl-CoA hydratase	ATGAGTTACGAGAACATATTATTAAAAAAAGAAGATAAATTATCTATCATTACCATAAATAGACCTGAAAGTTTAAATGCTTTAAATGCTAAAACCATTCAGGAAATCAGTACCGCACTGGATGAGCTTAATGCTGACCATTCCTGCAGGGTGATTATCCTTACCGGAAGTGGAGAAAAATCTTTTGTAGCGGGAGCTGATATTAAAGAATTCAGTGATTTCGGACAGGAAAAAGCTGAAGAACTTGCAAGAAACGGACAAAATATATTGTTCAATAAAATAGAAAACATGTCTAAACCTGTCATTGCTGCCGTAAACGGTTTTGCATTGGGAGGAGGTTTAGAGCTTGCCATGGCATGCCACATCAGATATGCATCGGAAAACGCCAGATTAGGGCTTCCTGAAGTGACTCTCGGATTAATCCCGGGATACGGAGGAACCCAAAGGCTTCCAAAGCTTGTAGGAAAAGGTATTGCCAACGAAATGATCTTCTCTGCCAAAATGATCCCTGCTCAAAAAGCAAAAGAGATCGGGCTGGTAAATGAAGTATATCCTATAGAAGAATTATTAACTAAAACGAAAGAATTAGCAAACACTATTGCCTACAATTCACCAATGGCAATATCCAAGGCTATAAATGCCGTGAATTTATCTGACACGGAGAAAGGTTTTGAAACTGAAATCAAATATTTCGGTGAACTTTTTGAAATGGAAGATAAGAAAGAAGGAGTTACTGCGTTTCTAGAGAAGAGAAAGCCTAACTTCTAG	MSYENILLKKEDKLSIITINRPESLNALNAKTIQEISTALDELNADHSCRVIILTGSGEKSFVAGADIKEFSDFGQEKAEELARNGQNILFNKIENMSKPVIAAVNGFALGGGLELAMACHIRYASENARLGLPEVTLGLIPGYGGTQRLPKLVGKGIANEMIFSAKMIPAQKAKEIGLVNEVYPIEELLTKTKELANTIAYNSPMAISKAINAVNLSDTEKGFETEIKYFGELFEMEDKKEGVTAFLEKRKPNF	PGPT0008390_73	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
BMS003_00921	1488	cat_1		Catalase	ATGGATTCTAAAAAATTAACGTTAAGTAACGGAGCACCTTATTTTGAGCATCAGGATTCACAGACGGTAGGACCAAGAGGCCCGGTATTGCTGCAGGACTTTATTCTTCGGGAAAATCTTGCACATTTCGTTAGGGAAAGAATTCCTGAAAGAATTGTACATGCCAAAGGGAGCGGAGCTTACGGAACTTTCACCGTAACGCATGACATAAGCCAGTATACGAAAGCAAAGCTGTTTTCAAAAGTAGGAAACTCATGCAGAATGTTTGCAAGATTCTCTACAGTAGGTGGAGAAAAAGGAAGTGCAGATACAGCAAGAGACCCAAGAGGCTTTGCCTTAAAGTTTTATACTGAAGACGGGAACTGGGATCTTGTAGGGAACAATACTCCGGTATTCTTTATTAAGGATGCAAAAAAATTCCCGGATTTTATTCATACGCAGAAAAGAGTTCCGAAAACAAACCTGAAAAGTGCCACCATGATGTGGGATTTCTGGAGCTTAAATCCTGAATCTCTTCACCAGGTTCTTATATTGATGTCCGACAGAGGAACTCCGCATGGCTACAGACATATGCATGGTTTTGGTTCTCATACTTTCTCTATGATCAATGACAAAAATGAAAGAGTATGGGTGAAATTCCATTTCAAAACAAAGCAGGGTGTAAAAAACTTTACAGATGAAGAAGCGGTAAAAATGGCCGGAGAAAATCCAGACTTTGCACAGGAAGACCTTTGTAATGCAATAGAAAACGGAAATTTCCCGAAATGGACCTTATATATTCAGGTAATGACCGAAGAGCAGGCAAAAGATTTCAGATGGAATCCTTTTGATGTAACCAAAGTATGGTTCCATGATGATTTCCCTTTGATTGAAGCAGGAGAAATGGAGCTGAACGAAGTACCTGTTAATTACTTTGCCCATGTTGAACAGTCTACTTTTTCACCGAGCAACCTTATTAACGGGATCAGCTTTTCCCCAGATAAAATGCTTCAGGGAAGGTTATTCTCTTACCCTGATGCACACCGCTACAGAGTGGGTGTAAACTCTCATCAGCTGGAAGTGAACAGATGCCCTTTTGAGGTCAACAATTACCAAAGAGACGGCTTTATGGCAGATTCCAGCCATTATCAGGACAAACCGAATTATCATCCCAATAGTTTTGACAGCATCAAGGCAGATTCTGATTATAAAAACTTTGAATATGAACTGGACAGCGCTCATGTAGCGAGTTATAACAGAAATGAAAATGACAGTGATCATTATACTCAGCCAGGCTTACTTTATTCGAAAGCGATGAATGCTGAAGACAGAGATCATCTTGTAAAAAATATTGTTAAAAGTATGAAAGGAATTGACGGGCCGAAAAAAGATGAAATTATCAACCGACAGCTGTGCCATTTTTTCCGTGCCAATATTGAGCTTGGCATGAAAGTAGCTTCTCAGCTAAATGTCAATATTGATGCAAATATGATGAATCATTCCAAATAA	MDSKKLTLSNGAPYFEHQDSQTVGPRGPVLLQDFILRENLAHFVRERIPERIVHAKGSGAYGTFTVTHDISQYTKAKLFSKVGNSCRMFARFSTVGGEKGSADTARDPRGFALKFYTEDGNWDLVGNNTPVFFIKDAKKFPDFIHTQKRVPKTNLKSATMMWDFWSLNPESLHQVLILMSDRGTPHGYRHMHGFGSHTFSMINDKNERVWVKFHFKTKQGVKNFTDEEAVKMAGENPDFAQEDLCNAIENGNFPKWTLYIQVMTEEQAKDFRWNPFDVTKVWFHDDFPLIEAGEMELNEVPVNYFAHVEQSTFSPSNLINGISFSPDKMLQGRLFSYPDAHRYRVGVNSHQLEVNRCPFEVNNYQRDGFMADSSHYQDKPNYHPNSFDSIKADSDYKNFEYELDSAHVASYNRNENDSDHYTQPGLLYSKAMNAEDRDHLVKNIVKSMKGIDGPKKDEIINRQLCHFFRANIELGMKVASQLNVNIDANMMNHSK	PGPT0014380_3545	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS003_00922	951	oxyR		Hydrogen peroxide-inducible genes activator	ATGAACATTCAGCAACTGGAGTATCTTATCGCTGTTGATAAGTATAAACATTTTGGTAAGGCCGCTCAGGCGTGTTTTATTACCCAACCTACGTTAAGTGCCATGATACAGAAATTTGAAGATGAACTGGATGTAAAGGTTTTCGACAGAACTACCCACCCGATCCGTACCACGGATGTAGGCCTTCAGATTATTGATCAGGCAAAGGTGATTATCGAGTCTGTCAATGAGCTGAAAAACAAAGCCAACCTTTTGAATAATATTCTAGGAGGAACTATTAATCTGGGAATCATTCCTACGGTGTCTTCTTTCATTCTGCCAACAGAGATTTTCAAATTCCTGGAGGAAAATCCGAAGATTCAGATGAATGTAAAAGAAATGACCACTGATAATATTATTAAAGCTTTAAAGGCCGGAGAGCTGGATGCGGGAATTATCTCTACTCCATATGATACTGCTGACGAGTTTTATCAGGATTTCCTATTCAATGAGGAACTAATGATTTACAGTTCCAATACGGAAGCCAACAAAAAGAATTCTTACATCATTCCGGAAGACCTGAATGTTGAGAAAGTATGGTTGCTTGAAGAAGGAAACTGTCTGAGAAATCAGTTTGAAAATATTTGTCACCTGAAAGAAAATACTTTGAAACCTAAGAATTTAGATTTCTTAGCTTCTAATATCCAGACTTTAGTACATATGGTGGACAAAGTAGGAGGAATCAGTATTCTGCCTGAACTTGCATTGAATCAGCTTTCTGAGCAGCAGAAGAAAAATGTTTTCAGGTTCAAAAAACCTTTCCCTTATCGTGAAATCAGTATTATTTATTATAAACCGACTTTTAAACAGAAAATTATTGATGAATTATCACATTCTATCAGAACTTCTTTGGAACTTAAGCTGAATTACCACGAAAGTCCGAAGGAATTTGTAAGCATTAAGCCTCAATAA	MNIQQLEYLIAVDKYKHFGKAAQACFITQPTLSAMIQKFEDELDVKVFDRTTHPIRTTDVGLQIIDQAKVIIESVNELKNKANLLNNILGGTINLGIIPTVSSFILPTEIFKFLEENPKIQMNVKEMTTDNIIKALKAGELDAGIISTPYDTADEFYQDFLFNEELMIYSSNTEANKKNSYIIPEDLNVEKVWLLEEGNCLRNQFENICHLKENTLKPKNLDFLASNIQTLVHMVDKVGGISILPELALNQLSEQQKKNVFRFKKPFPYREISIIYYKPTFKQKIIDELSHSIRTSLELKLNYHESPKEFVSIKPQ	PGPT0012965_557	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
BMS003_00924	1281	metK		S-adenosylmethionine synthase	ATGTCTTATTTATTTACATCTGAATCAGTTTCAGAAGGACATCCGGATAAAATTGCCGACCAAATTTCCGATGCATTAATCGACCACTTTCTAGCATATGATAAGGACTCAAAAGTAGCATGTGAAACTCTTGTAACTACCGGACAGGTAGTATTGGCAGGAGAAGTAAAGTCTGATGCTTACCTTGATGTACAGACAATTGCCAGAGAAGTAATCAATGGAATCGGGTATACAAAAGGAGAGTATATGTTCAATGGAGATTCTTGCGGGGTAATCTCTGCCATCCATGAGCAATCACCTGATATCAACCAGGGAGTTGACAGAGCTGTAAACGATGAGTCTTTCGAAGCAAAAGCTAATGCGCAGGGAGCCGGAGATCAGGGAATGATGTTCGGGTATGCTACTAATGAGACTGCTAACTACATGCCTCTTGCATTGGACCTTGCCCACACAATCCTTAAAGAACTTTCTGCTATCAGAAGAGAAGATAAGGAAATCACTTACCTTCGTCCTGATGCAAAAAGCCAGGTAACCATTGAGTATTCTGATGATCATAAACCAATCAGAATTGATTCTATCGTTGTTTCTACTCAGCATGATGATTTCGGAAGTGAAGAAGAAATGCTGAACAAGATCCGTGAAGATATTAAAAATATTCTGGTTCCTAGAGTAGTTGCACAGCAAACAGAAGAAATCAAAGCTTTATTTAACGATCAGATCAAATATCACATCAATCCTACAGGAAAATTTGTAATCGGAGGGCCTCACGGAGATACAGGTCTTACAGGGAGAAAAATCATTGTAGATACTTATGGTGGTAAAGGAGCTCACGGTGGTGGTGCTTTCTCCGGAAAAGATCCTTCTAAAGTAGACAGAAGTGCTGCTTATGCTACAAGACATATTGCTAAAAACCTTGTGGCTGCAGGAGTAGCAGATGAAGTTTTGGTACAGGTTTCCTATGCAATTGGTGTAGCTGAGCCTTGTGGTTTATACATCAACACTTACGGAACTGCAAAAGTAGATCTTCATGACGGAGATATTGCGAAAAAAGTTTCTGCGATTTTTGATTTAAGACCGTATGCTATTGAGCAGAATTTAAAGTTGAGAAACCCTATCTATCAGGAAACCGCTTCTTATGGACATATGGGGAAAGAACATTATGTGGCTGATAAAACGTTCAATAAAGGGCATAAAAATGAGCTTACATTAAGAGATCTAGAGTTCTTTACCTGGGAAAAACTAGACAAAGTAGAGGAAATTAAAGCCGCTTTTGGAATTTAA	MSYLFTSESVSEGHPDKIADQISDALIDHFLAYDKDSKVACETLVTTGQVVLAGEVKSDAYLDVQTIAREVINGIGYTKGEYMFNGDSCGVISAIHEQSPDINQGVDRAVNDESFEAKANAQGAGDQGMMFGYATNETANYMPLALDLAHTILKELSAIRREDKEITYLRPDAKSQVTIEYSDDHKPIRIDSIVVSTQHDDFGSEEEMLNKIREDIKNILVPRVVAQQTEEIKALFNDQIKYHINPTGKFVIGGPHGDTGLTGRKIIVDTYGGKGAHGGGAFSGKDPSKVDRSAAYATRHIAKNLVAAGVADEVLVQVSYAIGVAEPCGLYINTYGTAKVDLHDGDIAKKVSAIFDLRPYAIEQNLKLRNPIYQETASYGHMGKEHYVADKTFNKGHKNELTLRDLEFFTWEKLDKVEEIKAAFGI	PGPT0020000_198	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
BMS003_00925	492			hypothetical protein	ATGACGAATTTTCGAACTGCAGTTGCCATCCTGTCTCTGTTTTTGCTCAATACATTGGTAAAAGCTCAGTATACCACACATAAAATGATCAGCGTGGGGTATACCTATCAGAACCAAAGTTTTGGGGAATTAGGAGGTAAATTGCTTTTTCTTAAAAATGATGATGTGATTTACAGATTGGGAGGATCTGCTTTGATGGGAGTTACAAACTCAAAATTTGCTGTAATGCCGAAGCTGCAGGCAGATGTTCTTCTTAATTTTGAAAAAAATGTAGATTTTTATCATTCTTATTACTTCTTAGCCGGAGTGGAAGGTACTACTAAGTATGTTGCCCCGAAAATAGGAGTTACCTTATTTGGAATGCTGGATCTTACAGGAGGCTATGCTTTTCCCATAGGGGATACCCGGCTGAATGGAAAGGAGATGAAGGGTGTAAATGTTAATTTTACATTAAATATCCCTACTGTCTTTATTCATGACATGTTTAAATGA	MTNFRTAVAILSLFLLNTLVKAQYTTHKMISVGYTYQNQSFGELGGKLLFLKNDDVIYRLGGSALMGVTNSKFAVMPKLQADVLLNFEKNVDFYHSYYFLAGVEGTTKYVAPKIGVTLFGMLDLTGGYAFPIGDTRLNGKEMKGVNVNFTLNIPTVFIHDMFK				NA	NA	NA	NA	NA
BMS003_00926	216			hypothetical protein	ATGATTTTTTTTAGATTTTTCTCTATAAAATTTAATAATAGGTTAACAGTTATTAAAAAATTATTATATTTACATCATAATAATTGTACTGCCTATAGAAGAGACTCTACTCTAGAACTGTTTTGTTTATACAGCAAAGGCCAGATGAAATATCTGGAGGAATGCCTGTCTGCAAATATTTATATTGAGAAGAGTTATGAAATCAAAATCGGATAG	MIFFRFFSIKFNNRLTVIKKLLYLHHNNCTAYRRDSTLELFCLYSKGQMKYLEECLSANIYIEKSYEIKIG				NA	NA	NA	NA	NA
BMS003_00927	591	algU	COG1595	RNA polymerase sigma-H factor	ATGAAATCAAAATCGGATAGTTTACTAATTTCCCTTTATCAGAAAGGAGATGAGGGCGCATTATCAACCCTTATTCACCGACACCAGAGAGAACTTTTTACATTCATTTTTTACAAAATTAATGATGAAGATTTAGCCAACGATATTTTTCAGGATACATTCATGAAGATTATTGTCATGCTGAAAGAAGGACGCTATAACGAAGAAGGTAAATTTATTCTTTGGGCGAAAAGAATTTCCCACAATTTAATCATTGATCATTTCAGGTCAAAAGCCAAAAATATCAAAGTTTCGGAAACTACTTTTGAAACAGATGAGTATTCTATCTTTGATCTGATCAGAGAGCCTTCGGAAAACATTGAAGATCAGCTTGTCACCAACCAGATTCAGGAAGACCTTCTGAAAATGCTGCAGTTTTTACCACAAAATCAACAGGAGGTGATCAAACTCAGATTCTTTGATGGTTTGAGCTTCAAGGAAATTGCAGATCATACAGAGATGAGCATTAATACTACTTTAGGCAGAGTGAGATATGCTCTCATTAACCTGAGAAAAATCATGGATGAAAACAACATAATATTAACCAGATAA	MKSKSDSLLISLYQKGDEGALSTLIHRHQRELFTFIFYKINDEDLANDIFQDTFMKIIVMLKEGRYNEEGKFILWAKRISHNLIIDHFRSKAKNIKVSETTFETDEYSIFDLIREPSENIEDQLVTNQIQEDLLKMLQFLPQNQQEVIKLRFFDGLSFKEIADHTEMSINTTLGRVRYALINLRKIMDENNIILTR	PGPT0014960_6359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_00928	135			hypothetical protein	ATGAAAAAAAATGACTCCTTAAAAGTGAAAACTTTGAAACCTAAGAAACAAACAATTGATTTTTTGCTGAGTTTTTCTAAAAGCCTTGAGATTGTGAAAAGCAAGAACAAGAATTATCCTGTTACAAAAAATTAA	MKKNDSLKVKTLKPKKQTIDFLLSFSKSLEIVKSKNKNYPVTKN				NA	NA	NA	NA	NA
BMS003_00929	696	yfnB	COG1011	Putative HAD-hydrolase YfnB	ATGAAAATGCAGCATGTTTTTTTTGACCTGGATAATACACTCTGGGATCATCGCAGAAATGCCTATCTTACCATTAAAGATCTTTTTGAAAAACAGGAAATTACTTCGAAGTATCATATAGACTTTGAAGAATTTCACTCTGTATATCACGATATCAACGAAGGGTTGTGGGAAAAGATCAGAGACGGAATTATCGGCAAAGAGTATTTGAGAGAACACCGTTTTTATGACTCATTTAAACATTTTGGAGTAGATAATAAAGAGCTTGCTCTTTATTTTGAAGAGAATTTCCTTGATAATATTGTAGGACATAACGAACTGGTAGAAGGAGCTAAAGATGTTTTGGAATATCTGAAAGCTAAGAATTATACATTACACATTATTTCAAACGGATTTCAGGAGGTAACAGAAAGGAAATGTACCCTGTCCGGAATTGCTCCTTATTTTAAAACCATTACCAGTGCAGACGCAGTGGGGGTGAGGAAACCTAATCCAAGGATTTTTGAATACTCACTGGGGCTTTCTGAAGCGAGAAAAGAAGAAAGTATCCTGATTGGTGATGATTGGATTGCAGATGCCATGGGGGCTACAGATTTCGGGATGGATGCTATTTTCTTTGATGTGTATAAAAACCGAAATACCACAAGAAAAATCAAAGTAATTGAGAATTTATTACAACTTAGAAATTATTTATAA	MKMQHVFFDLDNTLWDHRRNAYLTIKDLFEKQEITSKYHIDFEEFHSVYHDINEGLWEKIRDGIIGKEYLREHRFYDSFKHFGVDNKELALYFEENFLDNIVGHNELVEGAKDVLEYLKAKNYTLHIISNGFQEVTERKCTLSGIAPYFKTITSADAVGVRKPNPRIFEYSLGLSEARKEESILIGDDWIADAMGATDFGMDAIFFDVYKNRNTTRKIKVIENLLQLRNYL	PGPT0006885_1509	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
BMS003_00930	969	trpS	COG0180	Tryptophan--tRNA ligase	ATGTCAAGAATTCTTACCGGCATTCAAGCCACCGGAACCCCCCATCTTGGAAATTTATTAGGGGCAATTATTCCTGCTATTGAACTATCTAAACAGGAAGGAAATGAATCATTTTTATTTATTGCGAATCTTCACACGCTTACCCAGATTAAAGATGCGCAGACTTTAAGACAAAACACCTACGAGATTGCTGCGGCTTGGCTTGCTTGTGGATTAGATACTGAAAAAACATATTTCTACAGACAGAGTGACATCGCTGAAACCTGTGAACTTTCTTGGCATTTATCATGTTTTTTTCCTTATCAAAGGTTAACATTAGCTCATTCTTTCAAGGATAAGGCAGACAGGCTTCAGGATGTAAACGCAGGTCTGTTTACCTACCCTATTCTGATGGCTGCCGATATTTTGCTGTATGATGCTGAAATTGTTCCTGTAGGAAAAGATCAGCTTCAGCACCTGGAATTCGCAAGAGATGTAGCTTCGAGGTTCAACAACCAAATGGGTGAAATCCTTGTACTTCCACAGTCTGAACTTCAGGAAGACACAAAATATGTCCCGGGAACAGATGGCCAGAAAATGTCTAAATCAAGAGGAAATATCATCAATATTTTCTTACCTGAAAAGGAACTGAAAAAACAGGTGATGAGTATAGAATCTGATTCGAAATCTTTGGAAGATCCTAAAGATCCTGAAACGGATAAAACATTCCAGATTTATCAGCTTATTGCTACACCCGAACAGACGGAAGCGTTAAAAGCAAAATATCTTGCCGGAAATTTTGGATACGGACATGCTAAGAAAGAATTGCTGGATCTTATTCTGGTACGTTTTGAGAAAGAAAGAGAAACGTTCAATTACTACATGAATAATCTTGATGAGCTTGAAGCAAAACTTCAGCAAGGCGCCGAAAAAACCAGACCCATTGCACTGGAGACACTTAAAAGAGTAAGAACAAGCTTAGGATTTTAA	MSRILTGIQATGTPHLGNLLGAIIPAIELSKQEGNESFLFIANLHTLTQIKDAQTLRQNTYEIAAAWLACGLDTEKTYFYRQSDIAETCELSWHLSCFFPYQRLTLAHSFKDKADRLQDVNAGLFTYPILMAADILLYDAEIVPVGKDQLQHLEFARDVASRFNNQMGEILVLPQSELQEDTKYVPGTDGQKMSKSRGNIINIFLPEKELKKQVMSIESDSKSLEDPKDPETDKTFQIYQLIATPEQTEALKAKYLAGNFGYGHAKKELLDLILVRFEKERETFNYYMNNLDELEAKLQQGAEKTRPIALETLKRVRTSLGF	PGPT0007120_6682	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
BMS003_00931	645			hypothetical protein	ATGAAAAAAATAATCAAAAATATTTTTAAAATTTTCCTGCTTCTTCTCGTTGCAGGAATTGTTTTTATTGCCTGGGCAAATTACAGTATCAAAAAGGACAGCGAACCATTCGTTTCCTACAATATTACTGATGTACCTGAAGCAAAAACAGGTTTGCTATTGGGAACAGGGAAAACATTAAGTAACGGAACGCCAAATGCTTATTTCTATAACAGAATTCAGGCTGCTGCAGATCTGTTTAAAAGCAGGAAAATAGAATATATCATCGTTAGCGGTGACAACAGTACCAAAGACTATAATGAACCTGAAGATATGCAGCAGGCATTAATGGAGAGCGGAGTTCCTCAGGACAAAATCATTATGGATCATGCCGGATTCCGAACCCTGGATTCTGTGGTAAGAGCGAAAGATATTTTCAGCCAGACAAAACTGATCATTATCTCTCAGAAATTCCACAACGAAAGAGCGGTCTTTTTAGCCAGACAAAATGGAATGGATGCCTTCGGATATAATGCAGCGGATGTGAATAAATATGCAGGACTAAAGACCAATTTGAGAGAATATGCTGCGAAAGCTAAAGCCTACTGGGATCTCCTTTTTGGGGTAGAACCGAAATTTGGTGGAGAGAAGATTGTGATTCCTTAG	MKKIIKNIFKIFLLLLVAGIVFIAWANYSIKKDSEPFVSYNITDVPEAKTGLLLGTGKTLSNGTPNAYFYNRIQAAADLFKSRKIEYIIVSGDNSTKDYNEPEDMQQALMESGVPQDKIIMDHAGFRTLDSVVRAKDIFSQTKLIIISQKFHNERAVFLARQNGMDAFGYNAADVNKYAGLKTNLREYAAKAKAYWDLLFGVEPKFGGEKIVIP				NA	NA	NA	NA	NA
BMS003_00932	639	lspA	COG0597	Lipoprotein signal peptidase	ATGAAAAAGATATTAGCTATCACATTTTTGGTATTGTTAATTGACCAGGCTTCAAAAATTTATATTAAAACTCACTTTAATCTGGATGACAGTGTAGCTGTTTTACCTGGCTTTAAGCTCACCTTTGTGGAAAATCCCGGAATGGCTTATGGATTTCATTTCGGAGGAATCATCGGAAAATATTTTCTGGTCATCCTAAGAATCTTCCTTATTGGAGGAATGGTCTATATGTTTAAAAAATGGCTGAAAGATGGTGCGTCTAACTATCTTTTGATTCCAATGGCTGTTATCTTTGCAGGAGCTATCGGAAACCTTATTGATGGAATGTTCTACGGAATGATCTTCGACAGCGGAACGGTGTATGACCCAAGCATAGATAGATGGATTGGCTACGGAGGTATTTCCAAGCTTGTTCCTTTCGGACACGGATATTCTACTTTTATGAAAGGATGTGTGGTTGACATGCTTCATTTTCCGCTGGTAGACTGGAATGTTCCTGAAAGCTGGCCTTTAATAGGAGGAAAACATATTGAATTCTTCAAATATATTTTCAATGTCGCAGATTCTGCCATTACTGTAGGAGCGGCATTCTTATTAATATTCAGAAAAAAAGCTTTCCCGAACGGACTGGAGTTTTAA	MKKILAITFLVLLIDQASKIYIKTHFNLDDSVAVLPGFKLTFVENPGMAYGFHFGGIIGKYFLVILRIFLIGGMVYMFKKWLKDGASNYLLIPMAVIFAGAIGNLIDGMFYGMIFDSGTVYDPSIDRWIGYGGISKLVPFGHGYSTFMKGCVVDMLHFPLVDWNVPESWPLIGGKHIEFFKYIFNVADSAITVGAAFLLIFRKKAFPNGLEF	PGPT0004770_491	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
BMS003_00933	195			hypothetical protein	ATGGAATCTATTATAGTACATCCAAAAAATGCAATGGAGCTGAGCGCACTGAAAGGTGTCCTGAAAGAAATGGGTATTAAATTTGAAAAAGCCCATGTTAAAAGTTCGTATAACGGGCAGAAAGTAGTCAAGAAAGCAAGCGACAATAAAAATGCAAAAGCGGCTGTAAAGCCTTCAAAACCTAAAGGACAGTAA	MESIIVHPKNAMELSALKGVLKEMGIKFEKAHVKSSYNGQKVVKKASDNKNAKAAVKPSKPKGQ				NA	NA	NA	NA	NA
BMS003_00934	246			hypothetical protein	ATGAGCGAATTATTAATTTTGGGATTTATTGTTGCGTTAGTCCTGCTGTTTTTCAACAGGGAATGGATCAAAAACAGATTTTACCCTGATAAGCAGAAGAACTATACCATTGATGATCAATTCAATTCTGATAAACGTGACCGGGAAAAAGAGATCGACAGACTATTGAGTAAGATGGGCAAAAACGGAGTGAATGATCTGTCTGAAAAAGACAGAAAAAGACTTGACGAACTGTCCAAAATGTAA	MSELLILGFIVALVLLFFNREWIKNRFYPDKQKNYTIDDQFNSDKRDREKEIDRLLSKMGKNGVNDLSEKDRKRLDELSKM				NA	NA	NA	NA	NA
BMS003_00935	381	dksA		RNA polymerase-binding transcription factor DksA	ATGTCAGACGAAAGAGTAAGATACAGCGATGCTGATTTACAGGAATTTAAAGCGATCATTAAAGAAAAAATAGAAAAAGCAGAAAAAGATCTTCAGCTAATCAGAGAAAGTTTCATCAACGACCAGAATAACGGAACAGATGATACCTCTCCTACCTTCAAAGCATTTGAGGAAGGGGCAGAAACGCTGAGCAAAGAGCAAAACTCTATTTTGGCAGGAAGACAGGAAAAATTCGTGCGTGACCTTAAAAATGCTTTGATCAGAATCGAAAATAAAACATATGGTGTTTGCAGGGTAACAGGAAAACTGATTCCTAAGGAAAGACTTTTAGCCGTTCCTCATGCTACGCTGAGCATCGAAGCGAAAAACATGCAAAAATAG	MSDERVRYSDADLQEFKAIIKEKIEKAEKDLQLIRESFINDQNNGTDDTSPTFKAFEEGAETLSKEQNSILAGRQEKFVRDLKNALIRIENKTYGVCRVTGKLIPKERLLAVPHATLSIEAKNMQK	PGPT0014560_2609	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
BMS003_00936	3396	ileS	COG0060	Isoleucine--tRNA ligase	ATGAGCCAATTTAAAGAATACAAAAACCTCAACCTTATTGACGTAGCAGAGAATGTAGCGGAATTTTGGAAACAAAATAAAACCTTCAATAAGAGTGTTGAGATTCGTCAGGGAAATCCTGAGTTTGTTTTTTATGAAGGTCCGCCTTCAGCAAACGGTATGCCTGGAATTCACCACGTAATGGCAAGAGCATTGAAAGATATTTTCTGCCGTTACCAGACTCAAAACGGAAAGCAGGTTTTCCGTAAAGCAGGCTGGGATACGCATGGTCTTCCTGTGGAACTGGGTGTAGAAAAAGAATTAGGAATCACAAAAGAAGATATTGGCAAAAAAATCTCTATTGAAGACTATAACAAAGCTTGCCGTGAAGCTGTAATGCGTTATACCGATGTATGGAATAACCTTACAGAGAAAATCGGATATTGGGTAGACCTTGATGATCCGTACATCACGTACAAGTCAAAATATATGGAAACCGTTTGGTGGTTATTGAAGCAGTTGTATAGCAAAGACTTGTTATACAAAGGTTACACGATCCAGCCTTACTCACCAAAAGCAGGAACAGGACTTTCTTCTCACGAGCTGAATCAGCCCGGGACTTATCGTGATGTCTCAGACACAACGGTTGTGGCTCAGTTTAAAGTAAAGAAAGACTCTTCAGCATTGTTCAACGATGTTGACGGAGATGTACATATCCTTGCATGGACGACAACCCCTTGGACGTTGCCATCCAACACTGCTCTTACTGTAGGTAGAGATATTGAATATGTTGTAGTGAAAACATTCAATCAATATACCTTTGAACCTTTAACAGTTATTTTATCAAGTGTTCTTTTACCTAAAGTTTTCGGTAAAAAATTTGCAGAAGGTACAGATGAAGATTTTGCCAACTATACTCCGGAAACGAAAGTAATTCCTTTCAGAATACTAAAAGAATTTACAGGAGAAAAACTTGTTGATACAAGATATGAGCAATTAGTTCCTTGGTTTACGCCAAATGATAATCCTGAGAACGCATTCAGAGTAATCTTAGGGGATTTTGTAACGACTGAGGACGGTACAGGTATTGTTCATACGGCACCTACTTTTGGTGCGGATGATGCAAGAGTGGCTAAAATGGCTCAGCCTGAGATCCCGCCAATGTTGGTAAAAGATGAAAATGACAATCTTGTACCATTGGTAGACTTACAGGGTAGATTCATCAAAGGAGACAATGTGCCTGAGGTATTTTCCGGAACTTACATCAAAAATGAATATTACGATGAAGGAACTGCTCCTGAGAAATCTTGGGATGTAGAACTTGCGATCTTGTTGAAAACAGAAAACAAGGCCTTCAAAGTAGAAAAGTATGTCCACTCCTATCCACACTGCTGGAGAACAGATAAGCCGGTATTGTATTACCCGCTTGATTCATGGTTTGTGAAAATGACCGCTGTAAAAGACAGACTGGTTAATCTGAACAAAGAAATCAACTGGAAGCCAAAAGCTACCGGAGAAGGACGTTTTGCCAACTGGTTGGAAAATGTAAACGACTGGAATCTTTCCCGTTCAAGATATTGGGGTATTCCGTTGCCAATCTGGAGAACAGATGACCTGAAAGAAGAAAAGATCATCGGTTCTGTAGAAGAATTATACAACGAAATCGAAAAATCAATTGCAGCAGGACTGATGACTGAAAACCCGTTCAAAGGTTTCATCATCGGAAATATGTCTGAGTCTAATTATGAGCTTGTGGATCTTCACAAAAATGTAGTAGACAAAGTAGTATTGGTTTCTGATTCAGGAAAAGCAATGAGACGTGAAAGCGACTTGATCGATGTTTGGTTCGATTCAGGTTCTATGCCGTATGCACAGTTACATTATCCTTTTGAAAACAAAGAATTAATAGACAATAATAAAGCATTTCCGGCTGATTTCATCGCAGAAGGTGTTGACCAGACGCGTGGATGGTTCTATACGCTTCATGCTATCGGAACTTCGGTATTTGATTCAGTTGCTTATAAAAATGTAATGAGTAACGGTCTTGTTCTGGATAAGAACGGACAAAAAATGTCAAAACGTTTAGGAAATGCTGTAGATCCGTTCGAAACACTTGCTGTATACGGACCGGATGCTACCCGTTGGTATATGATCTCAAATGCCAACCCATGGGAAAACCTGAAGTTTGACATTGAAGGAATAGACGAGGTAAGAAGAAAGTTCTTCGGAACACTTTACAATACCTATTCATTCTTTGCTTTATATGCGAATGTGGATGGCTTCAACTATTCAGAAAAAGAAGTGGAAAACCGCCCGGAAATCGACAGATGGATTCTCTCTGAACTGAACTTATTGATCAAGGAAGTGAAAGCTTTCTATGAAGACTATGAGCCAACAAGAGTCGCAAGAGCGATCAGCAACTTTGTAAATGATAACTTAAGCAACTGGTATGTAAGATTGTGCAGAAGACGTTTCTGGAAAGGAGATTACTCTGAAGACAAAATCTCTGCTTATCAGACTTTATATACCTGTCTTGAGGTTGTGGCAAAACTGTCTGCGCCAATTGCTCCTTTCTTTATGGATCAGTTATATCAGGATCTGAATAAAGTAACCGGAAAAGAAAACTGCGAATCTGTACACTTAACAGACTTCCCGGTAGCTGATGAAAGCTTAATTGATCAGGATCTGGTTGAAAAAACGCACTTAGCACAGAACATTACAAGTATGGTTTTCTCTTTGAGAAAGAAAGAAAATGTAAAAGTTCGTCAGCCGTTACAAAAAGTATTGGTTCCTGTATTGGATGCTAAAACACAAGAACAGATTCTTGCCGTTGCAGATCTTATCAAACAGGAAGTAAACGTGAAAGAATTACAGTTAATCAATGCTGAAGAAGCATCGCATCTAATTGTAAAACAGATAAAACCTAACTTCAAAGCTCTTGGTCCTAAATTAGGAAAAGATATGAAGGTAGTAGGTGCCGAGATTACCAATCTTAGTGCTGAACAGATTTCCAGTCTTGAAAAAGAAGGAAAACTGGATGTTCAGGGATATGAGATCACTCTTGATGATGTAGAAATTTCTACGAAAGATATCCCGGGATGGACCGTTACTTCTGATGGGAAAACAACTGTGGCATTAGATTTGACGTTAACCGATGAATTAAAATCTGAAGGTATCGCAAGAGAGTTCATCAACAGAATTCAAAACCTGCGAAAAGATAAAGACTTTGATCTGACAGATAGAATCTCAATCACATTAGAAGAAAGTTCTCCTTTCCTCAATGAGATTAAGAAAAATGAAGAATATATTTCTTCTGAAGTCTTGTCAAATAAAATAGAAATTGTATCTTCACTTTCAAATTTTAACGAAATCGAAATAGATGAGGTTAATTTTAAGATAAATGTTGAAAAAAATTAA	MSQFKEYKNLNLIDVAENVAEFWKQNKTFNKSVEIRQGNPEFVFYEGPPSANGMPGIHHVMARALKDIFCRYQTQNGKQVFRKAGWDTHGLPVELGVEKELGITKEDIGKKISIEDYNKACREAVMRYTDVWNNLTEKIGYWVDLDDPYITYKSKYMETVWWLLKQLYSKDLLYKGYTIQPYSPKAGTGLSSHELNQPGTYRDVSDTTVVAQFKVKKDSSALFNDVDGDVHILAWTTTPWTLPSNTALTVGRDIEYVVVKTFNQYTFEPLTVILSSVLLPKVFGKKFAEGTDEDFANYTPETKVIPFRILKEFTGEKLVDTRYEQLVPWFTPNDNPENAFRVILGDFVTTEDGTGIVHTAPTFGADDARVAKMAQPEIPPMLVKDENDNLVPLVDLQGRFIKGDNVPEVFSGTYIKNEYYDEGTAPEKSWDVELAILLKTENKAFKVEKYVHSYPHCWRTDKPVLYYPLDSWFVKMTAVKDRLVNLNKEINWKPKATGEGRFANWLENVNDWNLSRSRYWGIPLPIWRTDDLKEEKIIGSVEELYNEIEKSIAAGLMTENPFKGFIIGNMSESNYELVDLHKNVVDKVVLVSDSGKAMRRESDLIDVWFDSGSMPYAQLHYPFENKELIDNNKAFPADFIAEGVDQTRGWFYTLHAIGTSVFDSVAYKNVMSNGLVLDKNGQKMSKRLGNAVDPFETLAVYGPDATRWYMISNANPWENLKFDIEGIDEVRRKFFGTLYNTYSFFALYANVDGFNYSEKEVENRPEIDRWILSELNLLIKEVKAFYEDYEPTRVARAISNFVNDNLSNWYVRLCRRRFWKGDYSEDKISAYQTLYTCLEVVAKLSAPIAPFFMDQLYQDLNKVTGKENCESVHLTDFPVADESLIDQDLVEKTHLAQNITSMVFSLRKKENVKVRQPLQKVLVPVLDAKTQEQILAVADLIKQEVNVKELQLINAEEASHLIVKQIKPNFKALGPKLGKDMKVVGAEITNLSAEQISSLEKEGKLDVQGYEITLDDVEISTKDIPGWTVTSDGKTTVALDLTLTDELKSEGIAREFINRIQNLRKDKDFDLTDRISITLEESSPFLNEIKKNEEYISSEVLSNKIEIVSSLSNFNEIEIDEVNFKINVEKN				NA	NA	NA	NA	NA
BMS003_00937	321			hypothetical protein	ATGCTAACAGAAATAGAAATTATCAAAATTGCGAATGATTATTTAAAAAAGAAAGAACAAAAAGGTGGAATTGAGTTGGCTATTCAGGAAGAGCTTTCAATCAAAAAAAATTACGAAATAATATTCTCCTATAATTCTAAAGAATATATAGAGACCAAAGATGAAGGAGCATCATTAATAGGTAACTCATCTTTTTTAGTAGAAAACAAAACAGGAAACATTGTAGTATTTGGAACCAGCAAATCTGAAGAATATTATATTCAAGAATACGAAGCAGGAAGATTTACTAACATCTTAGGGTTAAATAGCAGCCTAGAATAA	MLTEIEIIKIANDYLKKKEQKGGIELAIQEELSIKKNYEIIFSYNSKEYIETKDEGASLIGNSSFLVENKTGNIVVFGTSKSEEYYIQEYEAGRFTNILGLNSSLE				NA	NA	NA	NA	NA
BMS003_00938	309			hypothetical protein	ATGCTAACAGACAACAAAATGCTAGAAATAGCCAATAAGTATGTCAGCCAAATTGGCCAGGAAATAAATATTGAACTTATAGTTCTTAGTAAATTTATTAAGAAAGGCTATGGAAATATTTATAGCTATGTTGCGAAGGATTCTACAAAACATCGTTTAGCAGGCAACGGACCATTCCTTGTAAAAAATGACACCGGGATAGTCATTCAATTTGGAACATCTGACGATGTAGAATACTATATAAAAAGTTATGAAGATGGAACATGGGAACCTGCTTATGATGGAGTTTGGGATCCTAATCAGAATTAA	MLTDNKMLEIANKYVSQIGQEINIELIVLSKFIKKGYGNIYSYVAKDSTKHRLAGNGPFLVKNDTGIVIQFGTSDDVEYYIKSYEDGTWEPAYDGVWDPNQN				NA	NA	NA	NA	NA
BMS003_00939	270			hypothetical protein	ATGATAGATAAGGAAAAAAAAGAGGCAGATGCTTTGAAAAAGATAGAAGAACTTATAAAAAAAGATCCAACACTATCAATAATATGCTCAAGATATGAAGAAAAAGATTTATTAAGAGATGAGTCTGTAAAAGATGTAATTGTAGTAAGCTTATCAGACGATATTTATGGAAAATCATTTTATGTTTATATAGATGCGGAAACCTTAGAGCTATTATATGTACAGGGTCCTCACAGATACATAGAAATAGTTGATTTCTTTGAGTTATAA	MIDKEKKEADALKKIEELIKKDPTLSIICSRYEEKDLLRDESVKDVIVVSLSDDIYGKSFYVYIDAETLELLYVQGPHRYIEIVDFFEL				NA	NA	NA	NA	NA
BMS003_00940	2640			hypothetical protein	ATGGACGATTTTGATAAGATCAGTCGGGAAATATGGGCAGATATGAGAGGAGAAAAGGTAGCAACCAATTCCATAGAACCTTTTTTTACAAACCTGTGGGTAGATGAGGGAAAACTTTTCAGAGTGCTTGCCTCTTCCACAGATTTCAACACTTATCTTTTCGATGCCAGAAAAAACTTTATCAACTATTCGCAAGAAGTAGAAAAAGTAAATCTGAAAGAAATCCCTCCTGCGAAAATTGACAACGTAAGAGTGAAGGCCAAGATGATTGAAAAATTGGTCATACAGGAACCTAAAATAGATCCAAAACAATTTGAAAACTCTTTTTTAGAACGTATTGACAAAAAGGTTTGGGTCAATGTGAGCCCCGGTTATATTGATCCTAAAAACTATACCCATCACACGGAAATAGGAATCAAGGAAAGAAAAATTGACTGTACCATCAATATTCCTTATCGTGAATATAACAGACAAACTACGCAAACATCTATCAACGAAGTAGAAACCTCTATAAACTATTCTTCGAAATCACCTGATGCGATAAAAATTAATCTCAGTGATGTGGAAGATTATATGGATGTGATCACTTATCTTTTTCCTTATCACCGGGAGATGGCACAAGTAGGCCTTATTGCTCATTTTGAGGAGGCAGGAAACGGGCTTACCACAATTGATGATCTGATGTTTTTCTATAATCAGCTTCCTAATTTTGCTCTGACAGGTGTAGATTACAAAGGAAAAGCAAAGAAGCTTTCAGATGAAATGCTATGGGATCACTTCTTACAGTTCTTAAATTTTGATTCCCAATTACTTCGTGATGTAGATTCAATAGGAAAAGCGGCTGCTTTGGCAGTAGAACCCTTCAGAGATAAAAGCCGATATGCTATCCGTATTCTCACAGCTATTTCCGGTGAATTCGTTTATAAAAAGATTAAAAATGATCCCAAGCTCATTCTTCACATTTATCATTCTTTAGATGGGGAAAGTGTGTACATGGGAAAAGGCATTATTTCGGATACCAATCAGGTTGCCCATGGGCAGATGTTTGAAAACAAAGAACTTTTTGTCATTTATGTTACAGCTTTCATGCAGGCTCAGCACGCCATGGATGACGCTCATCAGCCTCTGCAAAGAGGTTCTCTTTTCGCATTGGGAGTCAGCAGAGATTCCGATACTATAGAAAGGCATTGTGAGCTTACAGGTTATTTTATGGAAGGAGACCCTGATAATATCGTAACCTTGATCAATACTGTAAAAGTATTTAATCTAAAAACAAAGGAAATTGAAGCTGAAAATGAAATTGAAAACGGAGAATTCAGACCTCTGGACATGCTGCACCTCAAAGTGTATGAAAAAGCAAAGCTTTCTTCCGGCAAGATCCAAACTCTTGAAACTGATACTGAAGTTCCTGCATTATTTCTTTATCATATTGCACAAAAAAAGGCAGTAGAGGATGCATTAAGGTGTCTTCGTGTTGCTGCAGATCTTATGGTGATATCAGCCAGTCTTGCGACTATAGAATCCGGAGTATCAGGATTGCCTTTATATGTGGCTTACGCCGATATCGGGGTTGCTCTTTCAGATTTTTATATAGAAACCCAGCTTAGAAATGAGCTTAAAATGACCACCCGTGGAAAGAAGCTTTTAGAATTATGGGATAATATTTATATGGTTCAGGGCACAACAAGTGCAATGGCTAGCATGCTGCCAAAGGCAGAAAAAGCATTGGATGCCACCGTAGAAGTATTATACACTTCCAGATATCCGCGTCAGCAGGAAAGCATACAAAAGTTAATCAAAAATACATTATATTCGTTTCCTTTAAGGAATTATTCTAAAAACGGATTAACAGTTCTTTCAAAAGCCCGCGTTAGGAATCTTACTGAACACTCTTCTGATTTTGAGAATTTGAGAGTGCTTTTTGTAGAGAATGAAAACAAAGAAATAGGTTTGCTTTATAGAGGGAAAATGTTCTTTTATGCTACTGAAACAGCAACTCGTAATTTTATAAAGCGACTTTTTGCAAAGATAAAAAATGAAAAGCAACTTGAAAAATATTTAGATGAAATTAACCGCTTTGATAATTTTGGGAAAAATCTAAATGCCATTCGATTAACAGAGCTTGAACTACAGGAATGGATACAAATTGTTCGCAGATTAGGCGCAGAAGTAAAATACTATACCGAGAGCAAAAAAATGGTACAATATTTCAAATCAAGAAATGTAGGTGCATGTTTTGATGGATGGGACATCCCCCCTACTATTTGGATCAGAAAAGATGTTACAGACTTAGAAATGTTTCATGAATGCATGCATTTTGAAGATTACTTAAGAAGAGGAAGAAAGAAGTATCTAACAGGGGAACAAATCATTGAAATACCTGAAAATAGAAAATTAGAAGAATTTGAAAAATTGCTTTTAACAAGAAAAATTCCTCTAAAAGACAGACTAATAAGCACCTATATTAAAGAAAAATATGTTTATGATAAAGTAGTAGAAGAGCAAAACAGGTGGTTAGATTTATTTGGTAAAGGTAGATTTAGCCCGCAAGATATGAGATTAAGTGAAAAAAACATTAATGATGCAATAAAAGATTGCAAAAAAGTAGGAATAGATATAACCAAAATAAATATTAAATAA	MDDFDKISREIWADMRGEKVATNSIEPFFTNLWVDEGKLFRVLASSTDFNTYLFDARKNFINYSQEVEKVNLKEIPPAKIDNVRVKAKMIEKLVIQEPKIDPKQFENSFLERIDKKVWVNVSPGYIDPKNYTHHTEIGIKERKIDCTINIPYREYNRQTTQTSINEVETSINYSSKSPDAIKINLSDVEDYMDVITYLFPYHREMAQVGLIAHFEEAGNGLTTIDDLMFFYNQLPNFALTGVDYKGKAKKLSDEMLWDHFLQFLNFDSQLLRDVDSIGKAAALAVEPFRDKSRYAIRILTAISGEFVYKKIKNDPKLILHIYHSLDGESVYMGKGIISDTNQVAHGQMFENKELFVIYVTAFMQAQHAMDDAHQPLQRGSLFALGVSRDSDTIERHCELTGYFMEGDPDNIVTLINTVKVFNLKTKEIEAENEIENGEFRPLDMLHLKVYEKAKLSSGKIQTLETDTEVPALFLYHIAQKKAVEDALRCLRVAADLMVISASLATIESGVSGLPLYVAYADIGVALSDFYIETQLRNELKMTTRGKKLLELWDNIYMVQGTTSAMASMLPKAEKALDATVEVLYTSRYPRQQESIQKLIKNTLYSFPLRNYSKNGLTVLSKARVRNLTEHSSDFENLRVLFVENENKEIGLLYRGKMFFYATETATRNFIKRLFAKIKNEKQLEKYLDEINRFDNFGKNLNAIRLTELELQEWIQIVRRLGAEVKYYTESKKMVQYFKSRNVGACFDGWDIPPTIWIRKDVTDLEMFHECMHFEDYLRRGRKKYLTGEQIIEIPENRKLEEFEKLLLTRKIPLKDRLISTYIKEKYVYDKVVEEQNRWLDLFGKGRFSPQDMRLSEKNINDAIKDCKKVGIDITKINIK				NA	NA	NA	NA	NA
BMS003_00941	1689			hypothetical protein	ATGAAAATCTTTTATCATCTGATGCTTTTTGTTTGTTTTATCAACATGGGCATTGTACAGGCTCAAAATAGTTATCCTCAGAATTATTTCCGGAATCCCTTAAATATTCCCATGCAGCTGGCAGCCAATTTTGGAGCTATCCGTACCAATCATTTTCATATGGGCCTGGATCTGAGAACCAATAGCCGGGAAAATCTGCCTGTTCTTGCAGCAGCAGAAGGATATGTCAGCAGAATAAAAGTAGAGCGGTACGGATTTGGAAATGCAGTGTACATCACTCACCCTAACGGCTATACTACGGTATATGCCCACCTGAATAAATATTTCAGTAAACTTGATGAATATGTAAAGGAAAAGCAGTATAAAGACGAAAAGTGGGAACAGGATATCACTTTTCAACCCGGACAGTTTCCTGTAGAGAAAGGGCAGCAAATTGCATTGAGTGGAAATACCGGAGGATCCGCAGGTCCACACCTTCATTTCGAAATAAGAGACACCAAAACAGAAGAATGTCTTAATCCGTTACTTTTTGGCTTCGCTATTCCTGATAATATAGCACCCATTATCAGCGGACTGTACTGGTATGACCGGCGTTTCAGTACTTATGAGCCGGGAGCTAACGGAATTGCAGTAAAAAAAGCAGGAAATGGTTATACCTCTAACCTTGTTCAGGTAAGTTCCCCGGAGATCAGCTTTGCTGTTAAAGCGGTAGATAAAGCTAATAAAGGATTTAATCTTGGAATTTATAATGCAGAGCTGTTGATGGATGGCAAGCTGATATACAGTTTTAAAATAGATAAGATACATTATGATGACACCCGATATATCAACGGTTGTATAGATTATACCAAATTTATCAGAGATAAAATGGGAATTCAGCATTTATCTGATTTACCGGGAATGAAACTTCAGAACTACAGCCTTTCAGACTTAACAGGGATTATCAAGCTTCAGGATGAAAATGTTCACACCATAGAAATTGTCCTGAAAGATGTAAAGGGAAACACAAGCCGTCTAAGAACAAAACTTCAGTTAATCAAAACATCAGACAAAATATCTTCTGCGGCAAAAACTATATTACCTAACGAAGCGAAAACGATTACTACAGAAAATACAGAAATTGCTTTCAGTAAAAATGCCATGTATGATGCCGTAAACTTCAGTGCCTATGAAAAGCCTGATACAGATCCGAATGCAGTTTCAAATACGATTGTTTTGCATAATCCATATATTCCCGTTCAGGATGAATATACTTTGAAAATAAAACCGAATAGAAAATTAACCAATACAGAAAAAGATAAAGCTGTTATTCTTCTTGACTATGGCAGTGATAAAATCGTTGTCAAGGTAAAATGGAATAGTGATTGGGCAGAAGGGAAATTCAACAGATTGGGTACCGCAAAATTGTTGATTGACAATAATCTTCCATCCGTTTCATCAGGCTGGGCAGAAGGAGCAATGGTTAATAACAGTACTTTGCTGTTGAAAGGAACTTCTAAAATAGGAGATATCATTTCATTCCGTGCTGAACTGGATGGGAAATGGCTGAGATTTGCCCGTGTAAAAGATAATTTTGTTTACACTTTTGATGAAAAATGTCCTAAAGGGTCAGGTTCCCATACTTTAAAAGTAACCACCATCAATACCGCCGGGAATACCAATACACAAACTTTTACGTTTCAAAGATAA	MKIFYHLMLFVCFINMGIVQAQNSYPQNYFRNPLNIPMQLAANFGAIRTNHFHMGLDLRTNSRENLPVLAAAEGYVSRIKVERYGFGNAVYITHPNGYTTVYAHLNKYFSKLDEYVKEKQYKDEKWEQDITFQPGQFPVEKGQQIALSGNTGGSAGPHLHFEIRDTKTEECLNPLLFGFAIPDNIAPIISGLYWYDRRFSTYEPGANGIAVKKAGNGYTSNLVQVSSPEISFAVKAVDKANKGFNLGIYNAELLMDGKLIYSFKIDKIHYDDTRYINGCIDYTKFIRDKMGIQHLSDLPGMKLQNYSLSDLTGIIKLQDENVHTIEIVLKDVKGNTSRLRTKLQLIKTSDKISSAAKTILPNEAKTITTENTEIAFSKNAMYDAVNFSAYEKPDTDPNAVSNTIVLHNPYIPVQDEYTLKIKPNRKLTNTEKDKAVILLDYGSDKIVVKVKWNSDWAEGKFNRLGTAKLLIDNNLPSVSSGWAEGAMVNNSTLLLKGTSKIGDIISFRAELDGKWLRFARVKDNFVYTFDEKCPKGSGSHTLKVTTINTAGNTNTQTFTFQR				NA	NA	NA	NA	NA
BMS003_00942	1293		COG1541	Phenylacetate-coenzyme A ligase	TTGGAATTTCATCCGTCAATCGAGAAAGCAGGGATTCAGGAAATCAAACTATTTCAGGAAGAAAAACTTCATGAACTTTTGACCTATCTTGAAACTCATTCCCCCTTTTATCAGAAACTGTTCAGGGATAATAATATCAGTATTGCAGACATTCGTACTCTGGAAGATCTTCAGAAGATTCCTACCACCACAAAAAACGACCTTCAGCAGTATAATCATGATTTTTTCTGCATCACACCGGATAAAATTGTAGATTACAGTACTACTTCCGGAACGCTGGGAGATCCGGTTACTTTCGGGTTATCCGACAGTGATCTTGAAAGGCTTGCGTACAATGAAGCAATATCTTTTGCCTGTGCCGGGATTCAAAAAGGAGATGTGGTTCAAATGATTACCACCATAGACAAACGGTTTATGGCAGGTCTTGCTTATTTTCTGGGCTTAAGAAAAATGGGTGCAAGCGTTGTAAGAATGGGACCTGGAATTCCCGAACTGCAATGGGATTCCATTTTCAGATACAAACCTAAATATCTCATTACCGTACCTTCTTTTCTGCTGAAAATGATTGATTATGCCGAGAAACATGGATTGGATTATAAAAATTCCAGTGTCTATGGAGTTGTATGTATTGGAGAAAGTATCAAAAATCAGGATTTTACAGATAATATTCTTTCGCAGAAAATTAAAGAGAAGTGGGATATCAAACTCTTTTCCACGTACGCTTCTACTGAAATGAGTACCGCTTTTACAGAATGTGAATTTCAGATTGGAGGACATCATCACCCGGAACTGATCATTACAGAAATCCTGGATGACGAAGGTAATCCTGTAAAAGAAGGAGAAAATGGAGAACTGACGATTACAACGTTGGGAGTAGAAGCTATTCCTTTGTTGAGGTTTAAAACAGGAGACCTTGTAAAAGCCCATTATGAACCCTGCCAATGCGGAAGAAATACGATGAGGTTAGGACCCGTAGTAGGGAGAAAACAGCAGATGATCAAATACAAAGGGACAACATTGTATCCACCTGCGATGAATGATATTTTGAATGACTTTAATAATATCTTATGCTATCAGATTGTTATCCAGGCTAACGAAATCGGACTTGATGAGATTATCATTAAACTAAGTACAGAAGCAGATCACGAAGGATTTGTGAATGAAGTCAGAGACCATTTCCGGGCAAAATTGAGAGTAAGTCCGAAAATTGAAATCATAGATTTTGATGTTCTTTCTAAAACGGTTTTTAACCCTAATAGCAGAAAACCTATTACTTTTATTGATTTGAGATAA	MEFHPSIEKAGIQEIKLFQEEKLHELLTYLETHSPFYQKLFRDNNISIADIRTLEDLQKIPTTTKNDLQQYNHDFFCITPDKIVDYSTTSGTLGDPVTFGLSDSDLERLAYNEAISFACAGIQKGDVVQMITTIDKRFMAGLAYFLGLRKMGASVVRMGPGIPELQWDSIFRYKPKYLITVPSFLLKMIDYAEKHGLDYKNSSVYGVVCIGESIKNQDFTDNILSQKIKEKWDIKLFSTYASTEMSTAFTECEFQIGGHHHPELIITEILDDEGNPVKEGENGELTITTLGVEAIPLLRFKTGDLVKAHYEPCQCGRNTMRLGPVVGRKQQMIKYKGTTLYPPAMNDILNDFNNILCYQIVIQANEIGLDEIIIKLSTEADHEGFVNEVRDHFRAKLRVSPKIEIIDFDVLSKTVFNPNSRKPITFIDLR	PGPT0026240_3019	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
BMS003_00943	606			hypothetical protein	ATGAAAAAATTATTATTGCTGACATTCCTGATCATGATGACAATGGCTTTTGGACAGGAGAAAATGAAATTGGTGTCCGGAGACTTTGGAGCATTGAAAGATCAGACCGAAGTAAATGTTGAGGTTAAATTTGAGAACGTTCTGTTTATGAAAGAAAATATTACAGAAGCTCAATACCTTGAAAACAGAAAAAAACAAGTTCTTGACAATCCTAAAAGAGGACAAGTGGCATGGAATGCATGGATTGGAGAGTGGGAAAAATATAAAACTGAGTATGCAGATTATTTTGCAAAAGGGCTTAATAAGACGTATAAAAATATTTTATTTAAAAAAGATACTTCTGCAAAATATACACTATTGGTAGAGACCAATTGGATATTTCCAGGATGGCATGCGGGGCTTACTGCAATGACCGCTGAGATAACAGGTAAAATAAAACTGATAGAAACCAATAATCCTTCTGCTGTTTTAGCTGAAATAGAGCTTAAAAAGTTTGATAAATTTGTACAGAATGAAGAATTTGTAATGGAGTACGGAAGAATAGCTGCAGCCTATGAATCTACCGGAAGATACCTGGGAAGAGAAATCAAAAAATCTATGAAATAA	MKKLLLLTFLIMMTMAFGQEKMKLVSGDFGALKDQTEVNVEVKFENVLFMKENITEAQYLENRKKQVLDNPKRGQVAWNAWIGEWEKYKTEYADYFAKGLNKTYKNILFKKDTSAKYTLLVETNWIFPGWHAGLTAMTAEITGKIKLIETNNPSAVLAEIELKKFDKFVQNEEFVMEYGRIAAAYESTGRYLGREIKKSMK				NA	NA	NA	NA	NA
BMS003_00944	1257			hypothetical protein	ATGAGCAAAGAATCTGTTGACGTTCTTGTAATCGGAGCCGGACCTTCCGGATGCGTGTCTTCTTCTTACCTGAAGAACAATAACGTCAGCGTAAAAGTAGTTGAAAAGGCAAAATTTCCAAGACTGGTAGTGGGAGAAAGCTTGATTCCAAGGGTGATGGATCACTTTTACGAGGCCGGACTTTTCCCTGCATTAGACAAAATGGGCTTTGAAAAAAAGCTTGGAGCGCGCTTCCTTCGAGGCGATGAAGTCTGCATTTTTGATTTCAGCAACAAATTCGGGGAAGGCTGGGACTGGACCTGGCAGGTTCCTAGAGCTGATTTTGATCATACTCTTGCTCAGGAGGTGATTAATAAAGGAATCGATCTTGAATTTGAGACCGAAGTTACTGACATTAAATTTGACGGAACAAATTCTGTGACTACCGTAAGAAATAAGGATGGAGAAGTGAAAGAAATCCATGCTAAATTTGTTATTGATTCCAGTGGTTACGGAAGAGTACTTCCCCGTCTGCTTGACCTTGAAAAGCCTTCAAAACTGGCACCTCATTCTGCGATTTTTTCTCATATAAATGACATTCACAGAGAACCGGGAGAAGAAGGAACTTTGATTTCTTTTGATATTATTGAAACAGAAGTTTGGCTTTGGGTAATTCCTTTTTCTAACGGGAATACCAGCTTAGGAATTGTAGGCCCCACCGAATATATTGACAAATTATCTGAAAACGGAGATCCTTCCGAAGCTTTGAGGAAAGCAATTTCTCTTTCAGATTATTATGTAAAACGTTTTGGGAATTTAGATTTTCTTTTTGAACCTAAGCATCTGAAAGATTATTCATGTTCGGTGAAAAGTTTATTCGGGGACGGGTTTGCTTTAACGGGAAATGCTTCGGAATTCTTAGACCCTGTATTTTCTTCGGGTATGGCTTTTGCTACAGAATCCGGAATGCTGGCTGCAAAACTGGCATTAAGACAGTTAAACGGAGAAAAAATCGACTGGCAGACAGCGTACTCAGATTATATTTTATATGGTGTGGATGTTTTCACCACGTATGTAAAAGAATGGTATACCGGAAATCTTCAGGAATTATTTTTCCACCAGCCGGAAAACCCGGATGTAAAGAAAAAAATCTGTGCAGTTTTAGCAGGCTATGTCTGGAATAAAGACAATCCTTTTGTAAAGAAGCATGATACAGTGATTAAAAATCTTGCCAACCTGATCAAGCTGGAAAAACAGGAACAGCAAAATCAAGCATAA	MSKESVDVLVIGAGPSGCVSSSYLKNNNVSVKVVEKAKFPRLVVGESLIPRVMDHFYEAGLFPALDKMGFEKKLGARFLRGDEVCIFDFSNKFGEGWDWTWQVPRADFDHTLAQEVINKGIDLEFETEVTDIKFDGTNSVTTVRNKDGEVKEIHAKFVIDSSGYGRVLPRLLDLEKPSKLAPHSAIFSHINDIHREPGEEGTLISFDIIETEVWLWVIPFSNGNTSLGIVGPTEYIDKLSENGDPSEALRKAISLSDYYVKRFGNLDFLFEPKHLKDYSCSVKSLFGDGFALTGNASEFLDPVFSSGMAFATESGMLAAKLALRQLNGEKIDWQTAYSDYILYGVDVFTTYVKEWYTGNLQELFFHQPENPDVKKKICAVLAGYVWNKDNPFVKKHDTVIKNLANLIKLEKQEQQNQA				NA	NA	NA	NA	NA
BMS003_00945	1521	cmdF		Tyrosine 2,3-aminomutase	ATGAAAATAAATAACTTTTTAGAACTGAAAGACTTTCAAAAAATTATCATTGAGAATGAAAAAATAGAACTGGATGAATCACTTTTGTCAAGAGTGGATAAAAGTTTTCAGTTTTTAAAAGAGTTTTCAAAAAATAAAGTAATATATGGTGTGAACACCGGTTTCGGGCCCATGGCTCAGTTCAAGATCAGTGATGAAGATACCCATCAGCTTCAGTATAATCTTATAAGAAGCCATTCTTCAGGAATCGGAAATCCTTTACCTGCAGAAGAAGTGAAAGCATGTATGCTGGCAAGACTGAATACCTTATCATTAGGGAATTCAGGAGTGCACCAGTCTGTTATTTATCTTCTTCAGGAACTGATCAACAGAGATATTATTCCACTGATTTTTGAACATGGAGGAGTAGGGGCAAGCGGTGACCTTGTTCAGCTGGCTCACCTGGCTTTGGTATTGATCGGAGAAGGAGAAGTATTTTATAAAGGAGAAAGAAAATCTACCAAAGAGGTTTTTGAAACAGAAGGATTAGAACCGATAAAAGTAGAAATCCGTGAAGGTCTTGCTTTAATGAACGGAACTTCCGTGATGTCAGGAATCGGTATTGTGAATGCCTATAAAGCCAATCAGCTTACCGATATTTCCCTAAGACTTTCCTGTGCTATCAATGAGATTGTGCAGGCTTATGATGATCATTTATCAGAAGCGCTGAACGGAACGAAAAAACATTACGGTCAGCAGAAAGTGGCAGAAAGAATGCGCGCTCATCTGGCAGATAGTAAACTGATCAGAAAGAGAGAAGATCATCTTTATACTCATTTCGAAGAACAGGAAAAAGTATTCAAGGAAAAAGTTCAGGAATATTATTCATTAAGATGTGTTCCTCAGATTTTAGGCCCGGTATTGGATACATTGGAATATACAGAGAAAGTTCTTGAAAATGAAATCAATTCAGCTAATGATAACCCGATTATTAATGTTGAAGATCAGCATGTTTATCACGGAGGAAACTTCCATGGAGATTATATCTCTCTGGAAATGGACAAACTGAAAATTGTGGTAACCAAACTGACCATGCTTGCAGAAAGACAGTTAAACTATCTTCTGAATGCCAAAATCAACGAAATTTTGCCTCCTTTTGTGAATTTAGGTAAATTAGGTTTCAATTTCGGGATGCAGGGTGTACAGTTTACGGCAACTTCTACCACGGCAGAAAGCCAGATGCTGTCAAACTCAATGTATGTCCACAGTATTCCGAACAATAATGATAACCAGGATATCGTTAGTATGGGAACCAACGCTGCGGTAATCTGCAGAAAAGTAATTGAAAATGCATTTGAAGTATTGGCCATTGAAGCCATTACGATCATTCAGGCAGTGGAATATCTTGGATTCCAGAATAAGGTTTCATCATCTACAAAAGAACTGTATGACGAAATCAGAAAAATTATTCCTGCTTTCTCAGACGATATGGTAATGTATCCGTATCTGGAGGAAGTAAAGAAATATCTGAAAGGGATGTAA	MKINNFLELKDFQKIIIENEKIELDESLLSRVDKSFQFLKEFSKNKVIYGVNTGFGPMAQFKISDEDTHQLQYNLIRSHSSGIGNPLPAEEVKACMLARLNTLSLGNSGVHQSVIYLLQELINRDIIPLIFEHGGVGASGDLVQLAHLALVLIGEGEVFYKGERKSTKEVFETEGLEPIKVEIREGLALMNGTSVMSGIGIVNAYKANQLTDISLRLSCAINEIVQAYDDHLSEALNGTKKHYGQQKVAERMRAHLADSKLIRKREDHLYTHFEEQEKVFKEKVQEYYSLRCVPQILGPVLDTLEYTEKVLENEINSANDNPIINVEDQHVYHGGNFHGDYISLEMDKLKIVVTKLTMLAERQLNYLLNAKINEILPPFVNLGKLGFNFGMQGVQFTATSTTAESQMLSNSMYVHSIPNNNDNQDIVSMGTNAAVICRKVIENAFEVLAIEAITIIQAVEYLGFQNKVSSSTKELYDEIRKIIPAFSDDMVMYPYLEEVKKYLKGM	PGPT0020230_2914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS003_00946	732	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAATGTGCAATTGTAACAGGAGGCTCCAGAGGAATCGGGAGGGCAATCTGTATAAAACTGGCTGAAGAAAAAAACTATCACATTCTTATCAACTACGCTTCAAACGAAACGGCAGCAAACGAAACGTTGGCTAAAGTGAAAGAACTGGGAGCTACGGGAGAAATCCTTAAATTTGATGTAGGAAATACCGAAGAAACACAAGCTGTTTTAACGGAATGGCAGGAGAAAAATCCTGATGCTGTGGTAGAAGTAATCGTTAATAATGCTGGAATCACAAGAGATGGTCTTTTTATGTGGATGCAGAAAGAAGACTGGAATAATGTGATCAATACAAGCCTGGACGGATTTTTCAATGTAACCAATTTCTTTATCCAAAAGCTGCTTCGCAACAAATACGGAAGAATCATCAATATGGTTTCTGTATCCGGAGTAAAAGGAACAGCAGGTCAGACGAATTATTCTGCTGCAAAAGGTGCTTTGGTAGGGGCTACAAAAGCGCTTGCTCAGGAAGTTGCCAAAAGAAACGTTACAGTGAATGCCGTAGCTCCGGGTTTCATCAAAACAGATATGACTCAGGATTTTAATGAAGAAGAACTGAAAGCAATGATTCCTGCCAACAGATTCGGAGAAGCGGAAGAAGTGGCAGACCTTGTGGCATTTTTAGCATCTAAAAAATCTTCTTACATTACAGGAGAAGTGATTAATATTAACGGAGGAATTTATTCATAA	MKCAIVTGGSRGIGRAICIKLAEEKNYHILINYASNETAANETLAKVKELGATGEILKFDVGNTEETQAVLTEWQEKNPDAVVEVIVNNAGITRDGLFMWMQKEDWNNVINTSLDGFFNVTNFFIQKLLRNKYGRIINMVSVSGVKGTAGQTNYSAAKGALVGATKALAQEVAKRNVTVNAVAPGFIKTDMTQDFNEEELKAMIPANRFGEAEEVADLVAFLASKKSSYITGEVININGGIYS	PGPT0003180_19446	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
BMS003_00947	1221	fabB		3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGGAAAATAGGGTTGTAATTACCGGAATGGGAATTTATTCCTGCATCGGGACGTCTTTAGAGGAGGTCAGGGAATCCCTATATCAAGGAAAATCCGGTATTGTTTTAGATCCGGACAGAAAAGAATTCGGTTTCAGATCAGGTCTTACAGGAGTTGTTCCGAAACCCGATCTGAAAAACCTTTTAAACAGGCGTCAGCGTATCAGTATGGGAGAAGAAAGCGAATATGCTTATCTGGCTACCATTGATGCTTTAAAACAGGCCAATCTGGATGAAGAATTCTTAGACTCCCATGAAGTGGGAATTTTATACGGAAACGACAGTGTTTCCCAGGCAGTGGTAGAATCTATCGATATTGCAAGGGAAAAGAAAGATACAACATTGATGGGATCCGGAGCGATCTTCAAGTCAATGAATTCTACAGTAACAATGAACCTTTCAACCATTTTTAAGCTGAAAGGAATTAATCTTACCATCAGTGCAGCATGTGCAAGCGGTTCTCATTCTTTGGGATTGGCTTACATGATGATTAAAAATGGTTTTCAGGATATGATTATCTGTGGCGGAGCTCAGGAAACCAACAAATATTCCATGGCGAGCTTTGACGGACTGGGAGTGTTCTCAGCCAGAGAAGATGAACCTACGAAAGCCTCCAGACCTTTTGATGCAGAAAGAGACGGATTGATCCCAAGTGGCGGAGCAGCCAGTCTGATTGTAGAAAGCTTAGAATCTGCCCAAAGAAGAGGCGCTCCGATTATTGCAGAAATTATTGGGTATGGTTTCTCTTCAAACGGAGGACATATTTCAACACCTAATGTAGATGGCCCGGCTTTGGCAATGGACAGAGCGTTAAAACAGTCAGGATTAAAAGCTTCAGACATCGATTATATCAATGCTCATGCAACCTCTACTCCGATTGGTGATGCCAACGAAGCAAAAGCCATTTATGAAATTTTCGGGAGTGAAGTTCCGGTAAGTTCTACCAAATCTATGACCGGACATGAGTGCTGGATGGCGGGCGCAAGTGAAGTTATCTACTCCATTCTGATGATGCAGAATGATTTTGTAGCTCCAAATATTAATCTGGAAAATCCTGATAATGAGGCACAAAAGATAAATTTAGTCGCAAAAACAAAAAATCAAAAAATTGATGTATTTTTGTCGAATTCTTTTGGGTTTGGGGGAACCAATTCTGCATTAATAGTTAAAAAATTTGATTAA	MENRVVITGMGIYSCIGTSLEEVRESLYQGKSGIVLDPDRKEFGFRSGLTGVVPKPDLKNLLNRRQRISMGEESEYAYLATIDALKQANLDEEFLDSHEVGILYGNDSVSQAVVESIDIAREKKDTTLMGSGAIFKSMNSTVTMNLSTIFKLKGINLTISAACASGSHSLGLAYMMIKNGFQDMIICGGAQETNKYSMASFDGLGVFSAREDEPTKASRPFDAERDGLIPSGGAASLIVESLESAQRRGAPIIAEIIGYGFSSNGGHISTPNVDGPALAMDRALKQSGLKASDIDYINAHATSTPIGDANEAKAIYEIFGSEVPVSSTKSMTGHECWMAGASEVIYSILMMQNDFVAPNINLENPDNEAQKINLVAKTKNQKIDVFLSNSFGFGGTNSALIVKKFD	PGPT0013310_1014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS003_00948	255	acpP_1		Acyl carrier protein	ATGGAAAGGGAAAAAATTGTTGCTATCGTTAATGATTTTCTGGTCAACGAATTCGAGGTAGACGGAGATGAAATCAGTAATGATGCCAACCTTAAAAATACACTGGGGTTAGACAGCTTAGATTACATCGACATGGTAGTCGTGATCGAATCCAATTTCGGGGTGAAATTAGGAGAAGTAGATTTTAAAAAAATGATAACATTTGATGATTTCTATACAACGATTGAACATAAGATTGCTGAAAAAAACGCTTAG	MEREKIVAIVNDFLVNEFEVDGDEISNDANLKNTLGLDSLDYIDMVVVIESNFGVKLGEVDFKKMITFDDFYTTIEHKIAEKNA	PGPT0011375_2907	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS003_00949	885			hypothetical protein	ATGAACAAGTGGAAAGGTAAATCTAAAGGAACAGTACTCGGATACAGAATATTCGTCTGGTGTATTAGAAATATCGGAATCAGAAGTTCATATGGGGTGCTTTACTTTGTGGCAGCCTATTACTCACTGTTTCAGAAAAAAAGTAACCAGTATATTCTTTATTACTTTCAGAAAAGACTGAACTATGGATACTGGAAATCCAAAAAGTCTATATTTAAAAGCTATTTCACCTTCGGAAAAGTTCTGATAGATAAAACTGCTATTTCTGCAGGGCTCAGAGAAAAGTATACCTATGAATTTGACGGCATTGAAAATCTCAGAAATCTTTTAGCCGCCAAAAAAGGAGGGGTTCTGATCAGTGCTCATATCGGTAATTTTGAAATTGCAGAGCATTTTTTCGCAGACATCGACTTTGACTGTCAGATCAATCTGGTGACTACAGATCAGGAAGTTGCGGTGATTAAAGAATATCTGGAAAGCGTTGCTGTAAAAGATAGTAATATCAAATTCATTTATGTAAAAGAAGACATGTCTCATATCTTTGAGATCAATAAAGCCTTGTCTGAGAATGAATTGATCTGCTTTACAGGAGACCGTTATTTCGAAGGATCCAAATATCTGGAAGCAGAATTGCTTGGAAAAAGTGCAAAATTTCCGGCAGGCCCGTTTCTGATTGCTTCAAGATTGGGGGTTCCCGTAGTATATGTTTATGTGATGAAAGAGAAGAATCTTCATTACCATCTGTATGCAAGAGTGGCTCAGAATATTAAAAACCGTGATTCGCAGGGACTTTTGCAGTCTTATGTTCAGAATCTTGAAACCATGGTGGAAAAATATCCGTTTCAATGGTTTAATTATTTTGATTTTTGGGATGATGTTGATTAA	MNKWKGKSKGTVLGYRIFVWCIRNIGIRSSYGVLYFVAAYYSLFQKKSNQYILYYFQKRLNYGYWKSKKSIFKSYFTFGKVLIDKTAISAGLREKYTYEFDGIENLRNLLAAKKGGVLISAHIGNFEIAEHFFADIDFDCQINLVTTDQEVAVIKEYLESVAVKDSNIKFIYVKEDMSHIFEINKALSENELICFTGDRYFEGSKYLEAELLGKSAKFPAGPFLIASRLGVPVVYVYVMKEKNLHYHLYARVAQNIKNRDSQGLLQSYVQNLETMVEKYPFQWFNYFDFWDDVD				NA	NA	NA	NA	NA
BMS003_00950	1542	crtNb		4,4'-diapolycopene oxygenase	TTGAAGAAAGCATACGACATACTTGTAATCGGCAGCGGATTGGGAGGTCTTGTTTCAGCTCTTATTTTGGCGAAAGAAGGTCTGAAAGTATGCGTTCTGGAGAAAAATAACCAATACGGTGGCAATCTGCAGACTTTTTCACGGGACAAACTTATCTTTGATACAGGAGTTCATTATCTGGGAGGTTTATCCAAAGGCCAGAACCTGAACCAGTTCTTTTCCTATCTTGAAATCATAGATGATCTTGAGCTGCAGCTGATGGATGAAGACGGATATGACAGAATCAGCTTTGGAGATGATGAAATAGAGTATCCGCATGCACAGGGCTATGAGAATTTCGTGGAACAGCTTTCCAAATACTTTCCGGAAGAAAAAGAAAACCTTGAAAACTACTGTGAAGAAATTCAGCATGTATGCAGCCAGTTTCCGAGATATCATGTGGTGGGAAAAGACAGCTACAACGAAGAAATTCTGCATCTTAACACCAAAAGATTCATAGAATCTGTTACCCACAACAAAAAACTTCATTCGGTTTTACTGGGTTCCAATTTTTTATATGCCGGAGATTCTGAAAATGTACCTTTTTATGTACATGCTTTAACGGTAAACTCTTATATCCAAAGTGCTTACAAATGTGTGAAAGGAGGAAGCCAGATCTCTAAACTTCTGATCAGAAAACTTCGGGAATATGGAGCAGAAGTGCACAAGCACTCAGAAGTTGCCGAATTTGTTTTTAATGAAAATAATGCACTGACCGCTGTAAAAACAAAAACAGGAAAAGAATATGCTGCAAAACAATTTATTTCCAATATTGAAATACGTTCCACCATTAAGCTGATAGGAGAGGAGAGACTGAAAAAGTCCTTTCTGAACAGAGTTTTAAGCTGGAAACCGGTTTCGTCATGTTTTAGTATTTATCTGGTTTTAAAACCGCATAGCCTTCCTAATTTCAATTATAACAGATATCACTATTCATCAGAAGATCTGGTTTGGAATGCATTCCAATATAGAAAAGAAGCATGGCCGGAAACCTATATGCTTTCTTCAACACCGTCGAAGGATCATCCGGAATTTGCAGAAAGCCTCACCGCAATTTCTTATATGGATTTTGATGAGGTGAAAGAATGGGAAGATACTTTCAATACCGTAGCGGATGAACATAAAAGAGGGGCTGCGTATGAAAAATTTAAGCTTGAAAAAACTGAAAAAATGCTTGATGCTTTAGAAAAGAAAATTCCCAATCTAAGGCATGCCATTAAAACAATATATACTTCTTCTCCTTTGTCTTACAGAGACTATATCGGAAATTTTGAAGGAAATATGTACGGATATATGAAAAGCTCGGAGAATCCTCTTAAAACAATGGTTTCTCCCCGCACCAAAATTGACAATCTGTTCCTTACAGGACAATCCGTTAATATGCATGGGATTTTAGGCGTTACCATCGGAGCTTTTAATACCTGTGCAGAAATTATCGGAAAAGAAACGATTGACATGAAGCTGATACAAATGATTAATAAAAACCAGAGTGAAAAAAAATAA	MKKAYDILVIGSGLGGLVSALILAKEGLKVCVLEKNNQYGGNLQTFSRDKLIFDTGVHYLGGLSKGQNLNQFFSYLEIIDDLELQLMDEDGYDRISFGDDEIEYPHAQGYENFVEQLSKYFPEEKENLENYCEEIQHVCSQFPRYHVVGKDSYNEEILHLNTKRFIESVTHNKKLHSVLLGSNFLYAGDSENVPFYVHALTVNSYIQSAYKCVKGGSQISKLLIRKLREYGAEVHKHSEVAEFVFNENNALTAVKTKTGKEYAAKQFISNIEIRSTIKLIGEERLKKSFLNRVLSWKPVSSCFSIYLVLKPHSLPNFNYNRYHYSSEDLVWNAFQYRKEAWPETYMLSSTPSKDHPEFAESLTAISYMDFDEVKEWEDTFNTVADEHKRGAAYEKFKLEKTEKMLDALEKKIPNLRHAIKTIYTSSPLSYRDYIGNFEGNMYGYMKSSENPLKTMVSPRTKIDNLFLTGQSVNMHGILGVTIGAFNTCAEIIGKETIDMKLIQMINKNQSEKK				NA	NA	NA	NA	NA
BMS003_00951	1689			hypothetical protein	GTGAAAAAAAATAATACCTTTCATCCATCCTGTAAAAGTACTCTTTTTTATCTTACTTTTTGTTTTTTCCTCATTTCATGCGGAATTTCGAAGTCTTTAAAATATATTCCCGATGTAAAGCAGTATACTCTGGAGATTCCTAAAGTAACCAGAATCAACGACAGTACTTTCAGTTACAATCAGAATTATCTTACCAAAAATAAACAGCAGCTCTGGGAGCTTTATATTAAAGGAAATCCGTTACAGCTTGGATATAATAACGGAGCATTGACCCAAAGCTTAATGCAGAAACAGGAACGTATTTTCTTTTCGAAAGTGGAAGGTTTTGTACCTTCAAAATTCAGACAAAAGCTTCTGAGAGGCTTTTTAAAATGGTACAACAGAAAAATGTATCTCAATGTAAGAGAAGATTATCAGGCAGAGTTATATGGATTGTCACAATATTCATCTGACCAGTATGATTTTATAGCTCCCAGATATCTAAGAAGTCTTTACCTGCACGGCGCTCATGATATTGGACATGCCATGCAGGATCTGGCCATGGTAGGCTGTAGTTCTCTTGCCGTATGGAACGAAAATACGGAAGACGGAGATCTGCTGATCGGAAGGAATTTCGATTTTTATGTAGGAGATGATTTTGCAAAAAATAAACTGGTAGAATTTGTTCAGCCGGAAGAAGGAATTCCATACATGTCTGTAAGCTGGCCAGGAATGATTGGTGTAGTTTCCGGGATGAATAAAGAAGGAATTACGGTAACCATTAACGCTGGTAAATCAAAGATTCCTTTGACGGCAAAAACGCCTATTTCCCTTGTTACAAGAGAAATTCTGCAGTATGCTAAAAATATAGATGAAGCTATTACCATTGCAAAGAAGAGGAAAGTATTTGTTTCAGAATCTATCCTTGTAGGTAGTGCGGCTGATAAAAATGCGGTAATCATTGAAGTTTCACCTAAAAACTTCGGGGTATACAGAGTGCAGAATACCAGCAGAGTTCTTTGTACTAATCACTTCCAGTCAGAAGCCTACAAAGACGACAAAAGAAATCAGAAGCAGATTGAAGAAAGCCATTCTGAATACCGCTATGAAAAACTGCAGGAGCTGCTGCAGGAAGAAAAGGTATTAACTCCGGAGAAGATGGCTTCTATTTTAAGGAACAGATCAGGGTTGAAAGATAAAAGCATTGGCTATGGTAATGAAAAAGCTCTCAACCAGCTTTTGGCTCATCATGCCGTTATATTTTCACCTCAGAAAAAGTTGGTTTGGGTTTCTTCCAATCCTTATCAGCTGGGAGAATTTGTATGTTATGATCTGAATGAAATCTTTTCCGGAAAACCATTATCACAAAGTCTGCAGGCGAAAACAGGATTAAATATTGCAAGAGATCCGTTTGCTGATTCTGAGGAATTCGAAGATTATGAAGAATCCAAAATCTTGGGTAAACAAATCCTTGAAGCCACCGAAAATAGAAATAGAGTATTGCCGGATGGTCTGATTCCTTTATACCAATCTATGAATCCTGATTTTTGGCTGGTATATTATCAGTCTGGAAAATATTATTTCAGGAAAAAAGAATATTCAAAAGCAAAAGCTGCATTCGAAAAAGCTTTGACGAAAGAAATTACAACTGTTCCTGACCGGGAAAATATAGATAAATATCTGAAGAAAACTTTAAAGAAGCTGAAATGA	MKKNNTFHPSCKSTLFYLTFCFFLISCGISKSLKYIPDVKQYTLEIPKVTRINDSTFSYNQNYLTKNKQQLWELYIKGNPLQLGYNNGALTQSLMQKQERIFFSKVEGFVPSKFRQKLLRGFLKWYNRKMYLNVREDYQAELYGLSQYSSDQYDFIAPRYLRSLYLHGAHDIGHAMQDLAMVGCSSLAVWNENTEDGDLLIGRNFDFYVGDDFAKNKLVEFVQPEEGIPYMSVSWPGMIGVVSGMNKEGITVTINAGKSKIPLTAKTPISLVTREILQYAKNIDEAITIAKKRKVFVSESILVGSAADKNAVIIEVSPKNFGVYRVQNTSRVLCTNHFQSEAYKDDKRNQKQIEESHSEYRYEKLQELLQEEKVLTPEKMASILRNRSGLKDKSIGYGNEKALNQLLAHHAVIFSPQKKLVWVSSNPYQLGEFVCYDLNEIFSGKPLSQSLQAKTGLNIARDPFADSEEFEDYEESKILGKQILEATENRNRVLPDGLIPLYQSMNPDFWLVYYQSGKYYFRKKEYSKAKAAFEKALTKEITTVPDRENIDKYLKKTLKKLK				NA	NA	NA	NA	NA
BMS003_00952	366			hypothetical protein	ATGATTCCTAAATACATAAAACTGCTGTTCTGTATCCCCTTTGTTATTATCATCTGCTATTCAGTATATTTATGTACAGTATACGGCTCAATACCAGATACCATCACGATTCATGGTTACGGAAACATGAAAGACAATTATGGAAGCAAAATATTTCTTGTCTTTCCGGTACTGATGAATCTGGTTGTTCTTGTATTTATCTGGCTGGTTATCAGAAGACCGGATAAAATAAAATTTACCTTTGAAATCAACGAAGCCGAAAGAGAAAAAACGTATCATACCACACAGCTGGCTCTGGTAATTATTGCGATATTCGTTACCATCATGATGACTCCATTAGCATTCGCTGATGTGGTCTTTAAATAA	MIPKYIKLLFCIPFVIIICYSVYLCTVYGSIPDTITIHGYGNMKDNYGSKIFLVFPVLMNLVVLVFIWLVIRRPDKIKFTFEINEAEREKTYHTTQLALVIIAIFVTIMMTPLAFADVVFK				NA	NA	NA	NA	NA
BMS003_00953	1170	arnC_1		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGTCCCTTGCTGAAGTACAAAATGCAATTTCTGAAAAGAAAATATGCGTTTTAATACCTACCTACAACAATGAAAAAACCCTGAAAAGGGTGATTAACGGTGTTCTCCACTACACCGAAAGTATTATTGTGGTCAATGATGGTTCCACAGATTCTACTCCACAGATTCTTTCTCAATATCCTCAGATTACAGTAATCTCATTACCTGAAAACAAAGGGAAAGGAAATGGGCTTAAAACAGGCTTTAGAAAGGCCAAAAAGTCTGGGTATGATTACGCCATCACGATTGATTCGGATGGGCAGCATTATCCGGATGATATTCCTGTATTTGTAGAGGCGCTTCTTCAGGAAAAAGATGAGGTTCTTCTGATCGGAAACAGAAATATGTCTCAGGACGGCATTCCTAAGAAAAGCAGCTTCGGAAACCGTTTTTCCAATTTCTGGTTCTGGTTTGAAACCGGTATCAGGCTGGAAGATACACAATCCGGCTACAGACTTTATCCTCTGCATAAAATTCCAAAGAAATACTTTACCCCAAAGTTTGAATTTGAAATAGAAATTATTGTAAGAACTGCATGGAGGCATGTTCCGGTAAAAAATGTTCCGATCAGGGTTTTGTATGATCCGGCGGAGCGTGTTTCTCATTTCAGGCCTTTCAAGGATTTTACAAGAATCAGTATTCTGAATACGATTTTGGTAACGATTACTTTATTTTATATTATTCCGAGGAACTTTCTGAATAATTTCAAAAAAAAAAGCTTTAAAAAGTTCATTAAGGAAGATGTCTTAGAAAGTGACGGAAGCAACCGTACTAAGGCCTTTTCTATAGCATTGGGAGTTTTTATAGGACTTTCACCTTTCTGGGGATTCCAGACACTTCTGGTGATCAGTTTATCTGTGCTTTTTAAGCTCAATAAAGTACTTGCATTTGTAGCCTCCAACGTGAGCCTTCCTCCTTTTATTCCTTTTATTATTGCTGCGTCTCTGTTTCTGGGAGCACCGTTTGTAAGCGGTAACAGTGATATTTTAAGTCAGGATTTAAACTTTGAACTGATTAAGAACAATCTTCTGCAATATGTTATCGGCAGTTTTATTTTAAGTACCACACTTTCTGCTCTTGCAGGAGTATCGTCTTTTTTGTTATTAAGTAAAGTAAGCCCGGAAAACTAA	MSLAEVQNAISEKKICVLIPTYNNEKTLKRVINGVLHYTESIIVVNDGSTDSTPQILSQYPQITVISLPENKGKGNGLKTGFRKAKKSGYDYAITIDSDGQHYPDDIPVFVEALLQEKDEVLLIGNRNMSQDGIPKKSSFGNRFSNFWFWFETGIRLEDTQSGYRLYPLHKIPKKYFTPKFEFEIEIIVRTAWRHVPVKNVPIRVLYDPAERVSHFRPFKDFTRISILNTILVTITLFYIIPRNFLNNFKKKSFKKFIKEDVLESDGSNRTKAFSIALGVFIGLSPFWGFQTLLVISLSVLFKLNKVLAFVASNVSLPPFIPFIIAASLFLGAPFVSGNSDILSQDLNFELIKNNLLQYVIGSFILSTTLSALAGVSSFLLLSKVSPEN				NA	NA	NA	NA	NA
BMS003_00954	477			hypothetical protein	ATGAAACTAATCTTATCATTCTTAGCAGCATTTGCTTTTTTCTTTCAGTCTGATCTTGAAACTCTGAGAAACAGCTATGCTAAAGCCAACGAATCCAACAGCAATACGCAAAACTTCATTGAAACAGCGGACAAACAATCCGGTTCTGATGCCGTTACTGTAGGATATAAGGCTGCGGCCAAGATTATGGAAGCAAAAATTGCTAAAAACAACAGAAAATCATTGGTAAAAACAGGAGCTATAAGCCTTGAAAGCGTTATCAAAAGTAATCCTAATAATGCAGAGCTCCGTCTTATCAGACTGAGTGTTCAGGAAAACATTCCAAAAATTGTGGGATACCGTAGCAGCCTGAAGGATGATAAAGCTTTCCTGCTAAATAACTACAGCAAACAGAACACAGCATTAAAAGGCTATATCAAAAGGTTTGCAATGCAATCTAAAACCATTACCGAGGCGGAAAGAGCCACTTTAAAATAA	MKLILSFLAAFAFFFQSDLETLRNSYAKANESNSNTQNFIETADKQSGSDAVTVGYKAAAKIMEAKIAKNNRKSLVKTGAISLESVIKSNPNNAELRLIRLSVQENIPKIVGYRSSLKDDKAFLLNNYSKQNTALKGYIKRFAMQSKTITEAERATLK				NA	NA	NA	NA	NA
BMS003_00955	381			hypothetical protein	ATGCAGACCATTCTTACAGACTTTTATACTTTAACATCATACGATAAGACAGAAGACGGAAAATTTACCGCTCATATTCATCTGAATAAAGACCACGAGATTTTTAAAGGACATTTTCCTGGAAATCCGGTAACCCCCGGTGTTTGTATGATGCAGATTATTAAGGAACTGACTGAAGAATTTACGATCTCAAAATTATTTCTGAAAACAGCTTCCAATGTAAAGTTCATGGCGATTATCAATCCTTTTGAAACACCTGATCTGGTACTTCAGCTTGATATTACTGAAAATGCAGAAGATGTTAAAGTAAAAAATACAACTTCTTTTGGCGAGACTATTGCATTGAAATTGTCTGTAAGCTACAAAAAGATACCATCATGA	MQTILTDFYTLTSYDKTEDGKFTAHIHLNKDHEIFKGHFPGNPVTPGVCMMQIIKELTEEFTISKLFLKTASNVKFMAIINPFETPDLVLQLDITENAEDVKVKNTTSFGETIALKLSVSYKKIPS	PGPT0008365_4107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS003_00956	600			hypothetical protein	ATGAAAAAAATATATTTCTTACTTTTTGCACTTTTCACCGGTTTATCTTTTGCCCAGGTAACTTTCAATCCGGGAATCAGAGTGGGTGCCAATATTTCACATATCTCTGACGGACCTGCCCATGAATCCTTTTATTACAATGATAATCAAGGATATCACTATGGAACCAATGCTTATGACATCAAATCAAAAGTAGATTTTTACATAGGTTTTCAGGCCAATATCCGATTTGCAAAATTCTATGCTCTTCAGCCGGAAATTTATTATACCCGTCAGGGAGCAAAGTTTGAAAGCCAGAATCCTGGTGTTTCTTCTAAAACAGTCACTCTTTCTTATGTGGGAGGAGCGGTAGTGAATAAATTCTATTTTGAGAAGTTTAATATACATTTTGGTCCCACTTTGGAGCTTCTGACAGATCATAAAAATATCGACTCTCCTATTGATGGAGATTTGGGGCTGTTATTTGGAGCCGGTTATGATATTACAAAAAATATAGGTGTTGAGGCCAGAGTTAAAAAAGGTTTTGTACACATTAATAATGACAATACCAACGTGACATTCCAGGCGGGAATGTATTACACATTTAATCTTAAAAAATAA	MKKIYFLLFALFTGLSFAQVTFNPGIRVGANISHISDGPAHESFYYNDNQGYHYGTNAYDIKSKVDFYIGFQANIRFAKFYALQPEIYYTRQGAKFESQNPGVSSKTVTLSYVGGAVVNKFYFEKFNIHFGPTLELLTDHKNIDSPIDGDLGLLFGAGYDITKNIGVEARVKKGFVHINNDNTNVTFQAGMYYTFNLKK				NA	NA	NA	NA	NA
BMS003_00957	636			hypothetical protein	ATGCTTCCATTCCTGCGTCAGAGTTTTCTTTATAGCCTGATTCTTATACTGGCTGCTTCCTGTAAAACGTATGAGTTAACAGATGTAAAGCCTGTTTCCTCTTCTGAAAAGATGGTAGAAAATTTATATTTCTCTTCCGGCGAAGATTATGTCTACAAATGCCAGACGGATATTTATAAAAACCATGTGAGCGGAATTCTGATCATCAAAAAGCTGAATGAAACGACACACCGTGTCGCATTAACCTCAGATTTTGGAAACAAACTAATTGATTTTGAAGTTTCAGAAGACAATTTCAAGCTGAATTATGTACTTCCTGATCTGGATAAAAAAATAGTCATCAATTTCCTGAAAAATGACTTTCAGCAGCTTCTGAAAAGAAAATATCCGGTAAGCGAAAGCTTTGAAAATAATAATGCTAAAATTTATCTTTCAAAAATAGATAATAAGAGCTATTACCTGTTCTTCAACAAAGAAAATAATTTGTTGAAAAAGATGATCTACACGAAAAATAACAAGGAAAAAATTGATTTCACTTTTGATGCAAAAAGACCTATCTTCGCAGATAGCTTAAACCTGCAGCACAAGGATTTTAAGATCAATATAAAACTCTTTCAAATAACCGAAACTGAATAA	MLPFLRQSFLYSLILILAASCKTYELTDVKPVSSSEKMVENLYFSSGEDYVYKCQTDIYKNHVSGILIIKKLNETTHRVALTSDFGNKLIDFEVSEDNFKLNYVLPDLDKKIVINFLKNDFQQLLKRKYPVSESFENNNAKIYLSKIDNKSYYLFFNKENNLLKKMIYTKNNKEKIDFTFDAKRPIFADSLNLQHKDFKINIKLFQITETE				NA	NA	NA	NA	NA
BMS003_00958	627	lolA		Outer-membrane lipoprotein carrier protein	ATGATTAAAAATATTGCTTTCGGAGTATTCTTACTGGTTTCCGGGTTCTTTTTTGCGCAAAATACCGCAATGTCAGGAGCTGAAGCCAAAGCATTTGTATCGAAGGTTTCTTCAGACACGAAAGAAATCAAAACATTACAGAGTGATTTTATCCAGACCAAAAAAATGGATTTCCTGGATAAAAATATTGTGACCTATGGGAAAATGTCTTTGCAGACTCCTAACATGCTGAGCTGGAAATACACGAAACCTTATCAGTACAGTATTGTTTTTAAAAGCAACAAGATATTCATCAATGATCAGGGGAAAAAGTCATCTGTGGATGCCAAGAGCAAAACATTTGAAAAAATCAATAAGCTGATTGTAGGAAGCTCCAACGGAACGATGTTCAATGATCCGGAGTTTACGGTAACTTATTTTAAAAACGGAAATTACAATGTAGCCAAGTTTATTCCTAAAACATCACAGCTGTTGAAATACATCAAACAGATTGAGCTGTTTTTCCCAAAGAACCAGTCAACGGTTTCCCAAGTGAACATGACTGAAGCTTCCGGAGATACTACCAATATTGTTTTCAAAAATACAAAGATCAATGCTTCCATTCCTGCGTCAGAGTTTTCTTTATAG	MIKNIAFGVFLLVSGFFFAQNTAMSGAEAKAFVSKVSSDTKEIKTLQSDFIQTKKMDFLDKNIVTYGKMSLQTPNMLSWKYTKPYQYSIVFKSNKIFINDQGKKSSVDAKSKTFEKINKLIVGSSNGTMFNDPEFTVTYFKNGNYNVAKFIPKTSQLLKYIKQIELFFPKNQSTVSQVNMTEASGDTTNIVFKNTKINASIPASEFSL	PGPT0024475_765	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024475-lolA-K03634	NA	NA
BMS003_00959	756			hypothetical protein	ATGAAACACTATCCCTTCATCCTGTTCTATCTTTTCTGTAACGTTTTTATTTATGCGTTCCACGGAAGTATTGGGGTATATCTGTTTTGTTTTTTTGCTTTTTCTGCAGTAGTTGTCTGGGGTTCATTTGATATTGAACTGGGATATTTTGTGAACAGCATTACCCATAAACGCACCAGAACTAAAGAAGTAGCGCTTACTTTTGATGATGGGCCTACTGAATTTACCTCAAAGTTTTTAGACCTGCTTAAAGAACATCAGATAAAAGCCACCTTTTTCTGTATCGGAAAACAGATTGAAAAATATCCTGAGACATTCCAGAGAATTATTGCAGAAGGTCATACGATTGGTAATCATACCTTATCACATTCTAATTCGACAGGATTTTTATCGACTTCAAAAATGATTGAAGAAATTGAAAGGTGTGATGAAGTCATGAAAAATGTGGGAAATACAAAGACCAATCTTTACAGACCTCCGTTTGGAGTGACGAATCCCAATATTGCAAAGGCAATTAAAAAAACGAATAAAATAAGCATCGGATGGAATGTCCGTTCACTGGACACCATTACTGATGATGAAAAGAAAATCTACAAAAGAGTTACCAAAGGTCTGAAAAATGGGAGCATTATCCTGCTTCACGACACTTCGGAAAAGACCTTTCAGGTGCTGACCAATTTATTAGTATTTTTGAAGGATAAAAAATATTCAACCTTTACTGTTGATACAATTATAAATTCAAATAGAAATGATTAA	MKHYPFILFYLFCNVFIYAFHGSIGVYLFCFFAFSAVVVWGSFDIELGYFVNSITHKRTRTKEVALTFDDGPTEFTSKFLDLLKEHQIKATFFCIGKQIEKYPETFQRIIAEGHTIGNHTLSHSNSTGFLSTSKMIEEIERCDEVMKNVGNTKTNLYRPPFGVTNPNIAKAIKKTNKISIGWNVRSLDTITDDEKKIYKRVTKGLKNGSIILLHDTSEKTFQVLTNLLVFLKDKKYSTFTVDTIINSNRND	PGPT0018645_3664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS003_00960	1062			hypothetical protein	ATGAGTGCAGTATACTTCAACAGTGCATCCTGTATCTCTGTTCAGGACACTTTAAACGAAAATATTCTTCAGAATCTTACTCCTGAGAATTCTTCAAACATCATTAAGGCCATAGAACCTAATTACAAAGAGTTCATCCCGCCTGCAATGATCAGAAGAATGTCTAAAACAGTAAAAATGAGTTCTGTAGCCTCTCATTACGCATTGAAGGAAGCTGGAATTGAAAAACCGGATGCTATCATCGTAGGAACAGGAATGGGCTGCTCCCAGGATTCTGAAAAGTTCCTGAAAAACGTGATTGACAGTCATGAAGAGTTCCTTACGCCTACCTTTTTCATCCAGTCTACTCACAATACGGTAGCAGGACAGATTGCTCTGGGATTACAATGTCATGCGTATAACTTCACGTATGTAAACACTTCTTCTTCACTGGAGTTCTCCTTACTGGATGCCCAGCTTCAGATCAATGATGGAGAAGCAGAAAATGTTTTGGTAGGTTCTACAGACGAACAGACAGACAGAACCATGGAACTTTACTGCCTGAATAATACAATCAAAAAAGAAGCAGATCTTCCTGCTGATTATTTGAATTCTAATACTAATGGAGTGATTTGGGGTGAAGGTGCCAGCTTTTTTGTTGTAGGAAAAGATAAAATCGAAAATTCTTACGCTAAGCTTAAGAATATTCAGATCAGCAATAAAGTTGAATTGAATGAAATAAAGGATTTTATCCGGGATTTCTTAGCTCAAAACAATCTTTCCCACCATGATATTGATGCGGTTATTTTAGGATTCAGTGGAGATACAAAGTCAGATATTTATTATACAAAAGCAATGGATCTGTTTCCGGATTCATCACAGTTGTATTATAAACATTTAAGTGGAGAATTTAACACAGCAAGTGGCTTTTCTATATTTATGGCCTGTCATATTCTGAAAGAACAGCAGATCCCGGAAATTATGATGATCAATTCTCAGAAAAAGGAAAATGTGAAGAATATTCTTCTTTACAATCATCTGGGAGGTGATGATCACAGCTTGGTGTTAGTGGAAAAAGCTTAA	MSAVYFNSASCISVQDTLNENILQNLTPENSSNIIKAIEPNYKEFIPPAMIRRMSKTVKMSSVASHYALKEAGIEKPDAIIVGTGMGCSQDSEKFLKNVIDSHEEFLTPTFFIQSTHNTVAGQIALGLQCHAYNFTYVNTSSSLEFSLLDAQLQINDGEAENVLVGSTDEQTDRTMELYCLNNTIKKEADLPADYLNSNTNGVIWGEGASFFVVGKDKIENSYAKLKNIQISNKVELNEIKDFIRDFLAQNNLSHHDIDAVILGFSGDTKSDIYYTKAMDLFPDSSQLYYKHLSGEFNTASGFSIFMACHILKEQQIPEIMMINSQKKENVKNILLYNHLGGDDHSLVLVEKA	PGPT0008360_8681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS003_00961	1200	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAGTCAAAAAATTGCCATAACAGGAATGGGCATCATTTCCTCCATCGGAAACAATGTGGAGGAAAATTTTATTTCATTACAATCCGGGAAACATGGAATTTCAGATATCGAGATGTTTGAAACCCGCCATGCCGGAATCATTAAAACAGGTGAAATAAAATTATCTAATGAAGAACTTGTACAGACACTTCAGCTTGATGAAGATAATAATGTAACAAGAACCTCTTTATTGGGAATGACTGCTGCCAAAGAAGCTGTAGAAAGTGCTGGAATTTCAGATATCAATAGCTGCAGAACCGGGCTTATCTCTTCTACCAGCGTGGGAGGAATGGATATTACTGAAAAATATTTCTACTCCTACGAAGACTTTCCTGAAAAGCAAAAATATATTGACGCCCATGATGCCGGAAATTCCTCATTGGCTATTGCTGGTTATTTGGGATTAAAAGGTATGGTTTCTACGATCAGCACAGCCTGTTCATCAGCAGCTAATGCGATTATGATGGGTGCTAAACTGATTAAAAATGGAGTTTTGGACCGTGTGATTGTCGGGGGAACAGATTCTCTTTCAAAGTTTACTTTGAATGGTTTCAATACTTTGATGATTCTTACGGATTCTTATAACACACCTTTTGACAATAACAGAAAAGGATTGAATCTTGGGGAAGCAGCCGCTTTTTTAGTTCTTGAATCTGAAGAAATGGTCAAAAAAGAAAACAAAAAGGTTCTTGCTTATCTTTCCGGATACGGAAATGCCAATGACGCACACCATCAGACCGCTTCTTCAGAAAACGGACAAGGTGCATTTTTAGCCATGCAACAAGCCCTGAAAATCTCCGGATTGGAAAAAGAAAATATAGATTATATCAATGTTCACGGAACCGCTACTCCCAACAATGACTTATCTGAGGGAATTGCCATGATCAGAATCTTTGGGGAAAACAATGTTCCTGAATTCAGTTCCACAAAAGCATTTACAGGGCACACTTTGGCCGCTGCTGCAGGAATTGAAGCTGTATTTTCAATTTTAGCCATGCAAAACGGCATGATCTTCCCGAACCTGAATTTCAAAACAAAAATGGAAGAGTTTGATCTCACTCCTGTGACCGAACTGAAAGAGAAAAACATCAATCATGTACTTTCCAACTCATTCGGATTCGGAGGGAATTGTTCCACCTTAATTTTCTCAAAATCATGA	MSQKIAITGMGIISSIGNNVEENFISLQSGKHGISDIEMFETRHAGIIKTGEIKLSNEELVQTLQLDEDNNVTRTSLLGMTAAKEAVESAGISDINSCRTGLISSTSVGGMDITEKYFYSYEDFPEKQKYIDAHDAGNSSLAIAGYLGLKGMVSTISTACSSAANAIMMGAKLIKNGVLDRVIVGGTDSLSKFTLNGFNTLMILTDSYNTPFDNNRKGLNLGEAAAFLVLESEEMVKKENKKVLAYLSGYGNANDAHHQTASSENGQGAFLAMQQALKISGLEKENIDYINVHGTATPNNDLSEGIAMIRIFGENNVPEFSSTKAFTGHTLAAAAGIEAVFSILAMQNGMIFPNLNFKTKMEEFDLTPVTELKEKNINHVLSNSFGFGGNCSTLIFSKS	PGPT0008360_8000	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS003_00962	258			hypothetical protein	ATGGAAAACTTAAAAACAGAATTGAAACACAAAATTATCGAAGTTCTTAATCTTGAAGATGTATCTGTAGAAGAAATCAAAGATACTGATCCGTTATTCGGAGGAGGATTAGGATTAGATTCTATCGACGCTTTGGAACTGATCGTTCTTCTTGATAAAGACTACGGAATAAAATTAGCTGATCCTAAGAAAGGAAAAGAGATTTTCCAGTCTATCGATACAATGGCTAAGTTTATCGAAGACAACAGAACAAAATAA	MENLKTELKHKIIEVLNLEDVSVEEIKDTDPLFGGGLGLDSIDALELIVLLDKDYGIKLADPKKGKEIFQSIDTMAKFIEDNRTK	PGPT0011375_2742	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS003_00963	540			hypothetical protein	ATGAAGAAAATAAACAGCTGCACCATAGAACATTCAAAAATAACTGTTGACGGACATCTTATTTTTGAAAGCCAAAGCGAAACCTTTCAGGAATTTGCCAAAGAAGCTTATAAAAGCTTAGATCTCAGCTATCCTAAATTTCATAAAATGGATAACCTGAGCAAACTGGCTTTTCTTTCCACCGAAACCATTTTGAAAGATGAAGATCACAGCAGAACAGCTATTGTTTTTGCCAACAGATCTTCCAGTCTGGATACGGATTTCAAATATCAGGAAAGCATCAATGATCAGGATAACTTCTATCCAAGTCCTGCCGTTTTTGTCTATACTCTACCTAACATTTGTGTAGGTGAAATCAGCATTAAACACAAAATGCAGACAGAAAATGCTTTTTTTGTATTGGATGATTTTGATGAAAAATTTTTGAATGACTATTCTGAACAGATTCTTCTATCCGGAAAAGCCGACAAAGTATTGTGTGGCTGGGTGGAATTGTATCAGGAAAATTACAAAGCTTTTGTATATTTGCTAACCTTATAA	MKKINSCTIEHSKITVDGHLIFESQSETFQEFAKEAYKSLDLSYPKFHKMDNLSKLAFLSTETILKDEDHSRTAIVFANRSSSLDTDFKYQESINDQDNFYPSPAVFVYTLPNICVGEISIKHKMQTENAFFVLDDFDEKFLNDYSEQILLSGKADKVLCGWVELYQENYKAFVYLLTL				NA	NA	NA	NA	NA
BMS003_00964	1167	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAGGAAGGATGTTTATATCACAGGCTACAATTGTGTAACGCCGTTGGGCTTCAATGTTGATTCAAACTGGAAAGCTCTGTTAGAAGGACAATCAGGAGTTACTTTACATAAAATCATAGACAATCAGGATGCTTTTTACGCTTCCATGATTGATACTGATAAACTGGATGAAGAATTCAACAGATTCTTTACTCAGAATACGATTGACTTCACCAGGCTTGAAAAAATGCTTCTTTTAAGCCTACAGCCTCTTGCTGAAAAACATATTATATCAGAAGACACGGCTTTTATCCTGTCTACAACAAAAGGAAATATCAGCTTGCTGAAAAACCAGACCGAATTACCGGAAGGTGTTTATTTATCCAAATTAGCAGAAAAAATTGCAGATTTTTTTGGATTTAAAACAAAACCTGTTGTGGTTTCCAATGCCTGTGTTTCAGGAGTAATGGCGATTTCAGTGGCAAAAAATATGATTCAGGCAGGAAAATATAAAGATGCCTTTGTGATTGCTGGTGATGAACTTTCTGAATTTGTTATTTCAGGATTCAATTCATTTCAGGCTATTGGCTCCGGGCCTTGCAAACCTTATGATAAAAACAGGGACGGAATCAATATTGGTGAGGCGGCTGCAGCTGCTTATATCACATCATGTCATTGCGAGGAACAAAGTGACGAAGCAATCTCACAAAACGAGAAACTCAGATTTAAAGTTTTGGGAGACTCTGCTGTCAATGATGCCAATCATATTTCCGGCCCTTCAAGAACGGGTGACGGTTTATATGCCAGTATCAAAAATGCCATGACTGAAGCCAAGGTTTCTTCAGAACAAATTGATTTTATTTCTGCCCACGGAACGGCTACTTTATATAACGACGAAATGGAAGCCATTGCCTTCAACAGAATGGATCTTCAGAATATTCCTCTCAACAGTATGAAAGGATATTACGGCCATTGCCTGGGTGCTTCCGGACTTCTGGAAAGTATTATTTCTATGGAAAGTGCTGTTCACGGCACTCTGCTTCCTTCAAAGAATTTTGAAGAAACGGGAATTACCCAATCTTTGAATATCATCGGAGAAAACAAATCTGCCGAAATTAAATATATTCTAAAGACCGCTTCCGGTTTTGGTGGTTGTAATGCAGCCGTTGTGCTGGAAAAATGTTAA	MRKDVYITGYNCVTPLGFNVDSNWKALLEGQSGVTLHKIIDNQDAFYASMIDTDKLDEEFNRFFTQNTIDFTRLEKMLLLSLQPLAEKHIISEDTAFILSTTKGNISLLKNQTELPEGVYLSKLAEKIADFFGFKTKPVVVSNACVSGVMAISVAKNMIQAGKYKDAFVIAGDELSEFVISGFNSFQAIGSGPCKPYDKNRDGINIGEAAAAAYITSCHCEEQSDEAISQNEKLRFKVLGDSAVNDANHISGPSRTGDGLYASIKNAMTEAKVSSEQIDFISAHGTATLYNDEMEAIAFNRMDLQNIPLNSMKGYYGHCLGASGLLESIISMESAVHGTLLPSKNFEETGITQSLNIIGENKSAEIKYILKTASGFGGCNAAVVLEKC	PGPT0013310_2415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS003_00965	429		COG0824	Putative esterase	ATGCAGTCTAAAGAAAATATATTAACCTGTACTGAAGAAGTCAGAGTACGATTCAATGAAACAGATCCGCTGGGAATTGTCTGGCATGGTCATTATATCGTATATTTTGAAGACGGAAGAGAAGCTTTCGGTCGTCTGCACGGTCTTACCTATCTTGATATTCAAAATGCAGGATATGTAACACCTATCGTAAAAAGTACCTGTGAGCATTTTCTTCCTTTAAAATACGGAGAAACGTTCAGGATTGTGACGACTTTTATCAATTCTGTTTCTGCTAAGCTTATTTACAGATATGAACTTTTCAATCAGGAAGAACAATTGGTATGCAGCGGAGAAACCATTCAGGTTTTTCTTGATAGTAACGGAAGCTTATGCCTTTACAATCCGGAATTTTTTCAAATCTGGAAAGATAAAATGGGATTATCATGA	MQSKENILTCTEEVRVRFNETDPLGIVWHGHYIVYFEDGREAFGRLHGLTYLDIQNAGYVTPIVKSTCEHFLPLKYGETFRIVTTFINSVSAKLIYRYELFNQEEQLVCSGETIQVFLDSNGSLCLYNPEFFQIWKDKMGLS	PGPT0001850_5099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS003_00966	1269			hypothetical protein	ATGTTGTTGTATAAACTGTGGAGAAGTTTTATTAAGGAAATTCTTCTGCTGAAAAGAGATATCGGGGGAATCGTCATCATCTTCGTGATGCCCTTACTTTTAATCATTACTATTACCCTTATTCAGGATTCTACCTTTAAAAACCTTGAAGGATCAAAGATTCCGATTATTTTTATCGATCAGGACAAATCTGAAGTTTCAAAAAATATAAAAGCAGAACTGGAAAACAGCAAAACATTCCAGCTGCTGACCAATTTCAATGAAAAATCTGCTCAGGACGCTGTTTTTTCAGGAGATTATCAAATGGCGATTGTTATTCCGGAAAACCTGACGAAAGATTTAAACTCCAATATTGATTCTAAAGTTCAGACCATTGTAAGTTCATTTGGTCTCGAAGAAGATTCTGCAAAAGCAAAAACAGCAGTGCCTAAAGCAAAAGAAATTCATTTATACTTTGACCCGGCTACCAATGCCGGATTCAAGAACTCTGTAATGAATTCTGTGAATAAAATGGTTTTTGAGATAGAAAATAAAAAGATCTACAAAGCATTTCAGGAGCAACTGGGTACTTCGGAAAATCTTGACGAAAATAAAAACCTCATCAGCTTTAAAGAAATCACTCCCAAGAAAGGAGAAATGGACGTTATGCCGAACTCCGTTCAGCACAATGTCCCTGCATGGACACTTTTTGCCATCTTCTTTATAGTAGTTCCTTTATCCATCAATCTGGTAAAAGAAAAAAGTCAGGGCACAAGTGTAAGAGCAAGAATAAGCCCAACCCCTTATTTTGTCCATATTTTAGGAAAAACATTTACGTATCTTATCATCTGCCTTATTCAGTTTTTGCTGATGGTTGCGGTAGGAATTTATCTTTTCCCTTATATGGATCTACCGGCTTTTGATGTATCCGGTAAAATGTTCCAGCTTATAACGGTAACCTTATTTGCAGGACTGGCAGCTATCGGGTTCGGGGTTTTATTAGGAACTATTGCCGATACACAGGAGCAGTCGGCCCCATTTGGAGCAACATCTGTAGTGGTGTTGGCAGCCATTGGCGGAATATGGGTCCCTGTATTTTTAATGCCGGAATTCATGCAGACCATAGCCAAATTCTCTCCTATGAACTGGGGACTGAATGCCTATTATGATATTATTTTAAGAAACAGCGGAATTGGTGGAATTGCCAAAGAACTAACTTTCCTTTTATTATTCTATATTGCCACCGTAGCTATTTCCCTTTTTTACGAAAAAAAACAAAATGCAGTCTAA	MLLYKLWRSFIKEILLLKRDIGGIVIIFVMPLLLIITITLIQDSTFKNLEGSKIPIIFIDQDKSEVSKNIKAELENSKTFQLLTNFNEKSAQDAVFSGDYQMAIVIPENLTKDLNSNIDSKVQTIVSSFGLEEDSAKAKTAVPKAKEIHLYFDPATNAGFKNSVMNSVNKMVFEIENKKIYKAFQEQLGTSENLDENKNLISFKEITPKKGEMDVMPNSVQHNVPAWTLFAIFFIVVPLSINLVKEKSQGTSVRARISPTPYFVHILGKTFTYLIICLIQFLLMVAVGIYLFPYMDLPAFDVSGKMFQLITVTLFAGLAAIGFGVLLGTIADTQEQSAPFGATSVVVLAAIGGIWVPVFLMPEFMQTIAKFSPMNWGLNAYYDIILRNSGIGGIAKELTFLLLFYIATVAISLFYEKKQNAV	PGPT0006730_3017	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_00967	759	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGGCAGAACATATGATAGAGATCAAAAACTTATACAAGAAATACAAAAATTCTGATGAGTTTTCTGTAAATGATATTTCTTTAAGCATCAGCAAAAATGAAATCTATGGTATTCTGGGTCCCAACGGAGCGGGAAAAACGACACTGATTTCAATGCTTTCAGGGTTGATAAAACCTACTTCAGGACAGTTTACCATCAATGGTTTATCTCCACAGAAAGACGGTTTTAAAATCAGACAGATTATCGGGATTGTTCCTCAGGAATATGCATTATACCCTACGCTTACGGCTAAAGAAAATCTGATGTTTTTCGGAAGCCTGTATGGATTAAAACACAACCAGCTTAAGAAAGCCATTGATGAATCCCTCGAAACCATGGGACTTTCAAAATTTGCAGACAAGCAGGTAGGACAATTTTCAGGAGGAATGAAACGCCGCTGCAACCTCATCGCCGGAACGCTTCACAATCCTAAAGTGTTATTCCTAGATGAACCAACGGTAGGTGTGGATGTTCAGTCTAAAAAAGCCATTATCGACTATCTTTTAGATTTAAATAAACAGGGAACCTGCATTATCTATACTTCCCATCACCTTTCGGAAGCGGAAGAATTCTGTACAAAAATCGCTATCATTGATCATGGAAAAATTCATGCTGTAGGAACTCCGGAAGAACTTGTTTCACAGATTTCCCATGCAGAAAACCTGGAAGACGTTTTTATTTCATTAACCGGAAAAGAATTAAGAGATGTTGTTGTATAA	MAEHMIEIKNLYKKYKNSDEFSVNDISLSISKNEIYGILGPNGAGKTTLISMLSGLIKPTSGQFTINGLSPQKDGFKIRQIIGIVPQEYALYPTLTAKENLMFFGSLYGLKHNQLKKAIDESLETMGLSKFADKQVGQFSGGMKRRCNLIAGTLHNPKVLFLDEPTVGVDVQSKKAIIDYLLDLNKQGTCIIYTSHHLSEAEEFCTKIAIIDHGKIHAVGTPEELVSQISHAENLEDVFISLTGKELRDVVV	PGPT0006725_23164	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_00968	1017			hypothetical protein	ATGAAAAGATACAATCTGCGAATGAAATTAAACTTTGAACACCATCAGACTGCACATTGCGAAAACGGTGTTGCTTCTAATCTACTGCTTAACAAAGGACTTAAACTCAGTGAACCCATGATCTTCGGGATAGGTTCCGGGCTGTTTTTCGTCTATCTTCCTTTTTTAAAAGTGAATTTTGCTCCGGGCTTCAGCTATCGTCCGATGCCGGGTGCTATTTTCACTAAAGCAGCCAAAAGATTAGGAATTAAAATCAAAAGAGAAAAATTCTCAAATCCCGAAGATGCTCAAAAAGCTCTTGAAAGAAATCTGGAACAAAATATCCCTACCGGGCTTCAGGTAGGCGTTTTCAACCTTACTTACTTTCCCGAAGAATACAAATTCCACTTCAATGCCCACAATCTTGTGGTATACGGAAAAGAAGACGGAAAATTCCTGATCAGCGATCCGGTAATGGATTATACAACTTCCCTGTCAGAAGCAGAACTGGAAAAAGTAAGATATGCCAAAGGAGCTCTTCCCCCAAAAGGGCATATGTACTACCCTATTTATGTTCCGGAAAATATAAACCTTGAAGAAGCCATCAAAAAAGGTATTAAGGATACCTGTAAAAATATGCTGGCACCCGTTCCCCTTATTGGAGTAAAAGCGATGAGATGGGTAGCTAAAAGCATCCCGAAATGGGCAGAAAAGAAAGGTACAAAAGTAACCAATCATTATCTGGGACAGCTGATCAGAATGCAGGAGGAAATCGGGACCGGAGGCGGAGGATTCAGATTTATTTATGGAGCATTTCTTCAGGAAGCAGCTGTTATTCTTAAAAATGATGAGCTGAAGGAGCTATCAAAAGAAATTACTTCTATTGGCGATCTTTGGAGAGATTTTGCAGTGGATATTGCCCGTGTTTACAAAAACAGGAATTCAAAAAGCAATATCTACAACGAACTTTCAAAAACGATGCTGCACATTGCAGACCTGGAGGAAGCTTTCTATAAAAAACTAAGAAAAGCGATCTGA	MKRYNLRMKLNFEHHQTAHCENGVASNLLLNKGLKLSEPMIFGIGSGLFFVYLPFLKVNFAPGFSYRPMPGAIFTKAAKRLGIKIKREKFSNPEDAQKALERNLEQNIPTGLQVGVFNLTYFPEEYKFHFNAHNLVVYGKEDGKFLISDPVMDYTTSLSEAELEKVRYAKGALPPKGHMYYPIYVPENINLEEAIKKGIKDTCKNMLAPVPLIGVKAMRWVAKSIPKWAEKKGTKVTNHYLGQLIRMQEEIGTGGGGFRFIYGAFLQEAAVILKNDELKELSKEITSIGDLWRDFAVDIARVYKNRNSKSNIYNELSKTMLHIADLEEAFYKKLRKAI				NA	NA	NA	NA	NA
BMS003_00969	405			hypothetical protein	ATGAAAAAACAAGATCTGCCTCAAGACGAAAGCAACCTGAAATCCGCCAACATGACGGAAGTTCTGTACGTGACGGATGAAAATGACAACTACACGACAGCAAACAGTACAGGCTGGGATGCCAAGAAAGCTGCTCTGGATGAATCTATGGAACTTATCTATGAAAGAATTGAGGAAGCAAAACAAAATGTGGCCAATGATACAGCAAGTCCCATTGCTTATTTTATGGAACTGAATAAAATGGATCTGGGTGTCCTTGCTTCCTATGTTGGAATGTGGCAGTGGAGGGTAAAAAGACATTTTAAACCTAGAATATTCAAAACACTAAGCGAAAATGCACTGAAAAAATATGCCGATGCATTCGGTATTTCGGTGGATGAATTAAAAAACTTCAACGGAAAATAA	MKKQDLPQDESNLKSANMTEVLYVTDENDNYTTANSTGWDAKKAALDESMELIYERIEEAKQNVANDTASPIAYFMELNKMDLGVLASYVGMWQWRVKRHFKPRIFKTLSENALKKYADAFGISVDELKNFNGK				NA	NA	NA	NA	NA
BMS003_00970	444			hypothetical protein	ATGGAAATAAAGGAAGAGAATATCATCAATATACACAACTTTTTACCGCATCGTGAACCGATGCTGATGGCAGACTATATCCTGGAGCTGACCAAAGAAAAAGTAGTAACTTCCTTCGAAATAAAAGAAGATAATGTATTTGTTCACAACAATGAATTTGCAGAGGCCGGCTTAATTGAAAATATGGCTCAAACCTGCTCATCCATTCTTGGACAAAGCTTCTTCGAAAATCCTGATGCTGACACAAAAGTAATCGGGTTTATTACCAGTATCAAAAAGATTGAAATATTTGCCCTTCCGAAAGTGAATGATAAAATCATTTCCAAAGCATCTCTTATTTCGCAGTTCGAAAATATCTGCCACATTTTCTGTGAAACATTTAATAATAATCAGATTTTGATCAGGGCGGAAATCAACCTGTTTATTAAGGAAGTAAAGTCGTAA	MEIKEENIINIHNFLPHREPMLMADYILELTKEKVVTSFEIKEDNVFVHNNEFAEAGLIENMAQTCSSILGQSFFENPDADTKVIGFITSIKKIEIFALPKVNDKIISKASLISQFENICHIFCETFNNNQILIRAEINLFIKEVKS	PGPT0008365_2572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS003_00971	432			hypothetical protein	ATGGAACACAGACTGCCAACCTCAGATAAAGACTTTGTAGAAAGCCTTATTCCGCAACGTTTCCCTTTTGTGATGGTGCATGAGCTATCAGAATATTCTGAAAACCATCTCTTATCCGGTTTCGAAATAAAAGAAGACAATCTTTTTATACAGGACGGATTATTTCAGGCTTCAGGCCTGATCGAACATCAGGCACAGAGTGTTGCACTGCATACAGGATATAAATATTATCTGCTGGGAAAAGATGCACCTACAGGATATATCGGGGCCATTAAATCTTTTGAAGCTGAAATACTTCCTAAAGTAGGAGATCTGCTGAAATCTGAGGTAACCATCCTCAATGAAGTAATGGGAGTAACCCTTGTGGATATCGTTACCAAACTGAACGGTGAAGTGATTGCAAAATCTCAAATGAAAACCGCTGTAAAATAA	MEHRLPTSDKDFVESLIPQRFPFVMVHELSEYSENHLLSGFEIKEDNLFIQDGLFQASGLIEHQAQSVALHTGYKYYLLGKDAPTGYIGAIKSFEAEILPKVGDLLKSEVTILNEVMGVTLVDIVTKLNGEVIAKSQMKTAVK	PGPT0008365_3431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS003_00972	1140			hypothetical protein	ATGTACGACGTATTTATAACAAAAGCATCAAAATACTTACCCAATGAGCCGGTAGCGAATGATGATATGGAGACTTATCTTGGGCTTATCAATGATGCGCCATCTAAAGCAAAATCACTTATCCTAAGAAATAATAAAATTACAACAAGATACTACGCTTTAGATAAAGAAGGAAACCCTACACACTCCAATGCGCAGCTTACTGCAAAAGCAATTGAAGGACTTTTTGATGAGAACTTCAAAAAGGAAGACATGAAGTTATTATCTGTAGGAACTACTTCGCCAGACCAGATCCAACCCTCTCACGCTTCTATGGTGCATGGTGAGCTGAACATCGGAAAATCTATCGAGATTAATACCTCAACCGGTCTTTGTAACTCCGGAATGAATGCTCTTAACTATGGATTTCTATCTGTAAAAGCAGGCGTACAGGAAAACGCAGTATGTGCAGGTTCCGAAAGAATGTCTGCATGGATGACTGCTGATAAATTCAACCATGAGGCTGAAAACTTAAAATTACTGGAAGAAAGACCTATCATTGCTTTCAAAAGAGAATTCCTGAGATGGATGCTTTCTGACGGAGCGGGTGCTTTCCTTTTAGAAAATAAACCAAGAGAAAACAGTACTTCCTTAAAAGTAGAATTCATAGATTTCTATTCTTATGCCCACGAAATTGAAGCATGTATGTATGCAGGATGTGACAAGCTGGAAGACGGAAGCCTGAAATCATGGGCAGATTACCCTTCTGACGAATGGCTGAAGCAATCTATTTTCGCCATCAAGCAGGATACTAAAATTCTTGATAAATATATCCTTGTAAAAGGAGCTGAAAGTTTGAGATCGTCTTTTGACAAACATCATTTAGATCCTGAAAAAATTGATCACGTATTGGCTCACATTTCTTCAGGATATTTTAAAGACGGACTGAAAGAAGAATTTGCTAAAAAAGGAATGGATTTCCCTGCAGAAAAATGGTTCTATAACCTTTCTGAAGTAGGAAACATTGGAGCAGGTTCCATTTTCATCGCCCTTGAAGAACTGATGAATTCAGGAAAACTGAAAGAAGGAGAAAAAGTACTTCTTTGTGTTCCTGAAAGTGGAAGATTCGCTTATTCTTGTGCCTTATTAACGGTTTGCTAA	MYDVFITKASKYLPNEPVANDDMETYLGLINDAPSKAKSLILRNNKITTRYYALDKEGNPTHSNAQLTAKAIEGLFDENFKKEDMKLLSVGTTSPDQIQPSHASMVHGELNIGKSIEINTSTGLCNSGMNALNYGFLSVKAGVQENAVCAGSERMSAWMTADKFNHEAENLKLLEERPIIAFKREFLRWMLSDGAGAFLLENKPRENSTSLKVEFIDFYSYAHEIEACMYAGCDKLEDGSLKSWADYPSDEWLKQSIFAIKQDTKILDKYILVKGAESLRSSFDKHHLDPEKIDHVLAHISSGYFKDGLKEEFAKKGMDFPAEKWFYNLSEVGNIGAGSIFIALEELMNSGKLKEGEKVLLCVPESGRFAYSCALLTVC	PGPT0008355_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS003_00973	915			hypothetical protein	ATGAAGAAAAATATACTTGTCATATATTATTCACAAACCGGACAGCTCGAAGATATCGTGAGAAATATAGCCCAACCTTTTGAAGCAAAAAAGGAGGACTATGACGTTACGTATTATAACATTCAACTCAAGGAAGACTTTCCTTTTCCCTGGCCGGGTGATGTCTTTTTCAACACTTTTCCTGAATCTTATCTGCAAATTCCCAAAGAAATCTTACCGCCTTCCGAAGAAATTCTGAACAAAAAGTATGACCTTATCCTTTTTGGATATCAGGTATGGTATCTTACCCCATCCATTCCTGTTATTTCATTCTTAAAGAGTGAATATGCAGAACGCATCCTTAAAGATACACCTGTAGTTACCATCTCCGGAACCAGAAATATGTGGATGCTTTCCCAGGAAAAATTAAAGGTATACCTAAGGGATTTACAGGCGAAACTCGTAGGGAATATTGCTCTGGTAGACAGGCACGACAATTATACCAGCGTACTGACTATTCTTCGCTGGCTTACAACAGGGCAGAAAGAAAAATCAGGAATACTTCCCGCTGCTGGGGTTTCGGATGAAGAAATCTCAGGATCTGTAAAATATGGCGAGATTATTGAAAGACATTTTACGAATAATGACCTTAACAGTTTACAGCCGGATCTTGTGAAAAACGGAGCCATTGAAATCCGTGCATTCCTGGTACGGGTAGAAAAGGTAGGAAACAAAATTTTTACAGTGTGGTCTAACCTGATTATCAAGAAAAAAGAGAAACGCCCATTGCTGATAAAATTCTTTAAGGTATATTTGATGGCAGCGATATGGATTATCTCACCTGTCGTTTTGGTTTTACACCTGCTTACAACCCCTATATTTTGGTTTAAAAGACAAAAACAAAAAACATATTTACAAGGAATTAATTTAAAATAG	MKKNILVIYYSQTGQLEDIVRNIAQPFEAKKEDYDVTYYNIQLKEDFPFPWPGDVFFNTFPESYLQIPKEILPPSEEILNKKYDLILFGYQVWYLTPSIPVISFLKSEYAERILKDTPVVTISGTRNMWMLSQEKLKVYLRDLQAKLVGNIALVDRHDNYTSVLTILRWLTTGQKEKSGILPAAGVSDEEISGSVKYGEIIERHFTNNDLNSLQPDLVKNGAIEIRAFLVRVEKVGNKIFTVWSNLIIKKKEKRPLLIKFFKVYLMAAIWIISPVVLVLHLLTTPIFWFKRQKQKTYLQGINLK				NA	NA	NA	NA	NA
BMS003_00974	3651			hypothetical protein	ATGCATCGTTTTTTTATATATTTATATTATCTGATTTCCAAAAATAAAATCCTATCTGTACTGGCAGCCTTAGGAATTGCTGTTTTATGCATTTTTTTTGCATCAAAGATTAATTTTGAGGAAGATATCAACCAGATTATTCCAAAAAACGAAAAATCTGACCTCACAGCCAAAGTTCTTAAACAGCTTAATTTTTCAGATAAGATCATTGTGATCATAGAAAATAAATCCAATGAAGATAACTTCCTGCTTTCTGAAACTGCAGATACTTTTTTGAAAAAAACAGAACCTTTACAGAAATATATAGCATCTGTGCAGGGTAAGGTGAATGATGATGAGATTTCTGAAACTTTCGATTTTGTTAACCAGAATCTGCCTTTATTCCTGGATGAGAATGATTATAAAGAAATTGACCGCAAGCTTCAGAAAGACAGCATTGCCAGACAGGTAGAGGATAATTATATCTCTTTGGTTTCCCCAACCAGTCTTGTCACCAAGGAATTCATTAAAAAAGATCCTCTCGGACTTACTTTTTTAGGAATTAAAAAACTGAATGCATTGAACATCAGTAAGGATTTTAAACTGGAAGACAACTATATTGTAACCAAAGATGGTAAGAATCTTTTACTGTTCATTGAGCCTAAAAACAAAAGCAATGATACAAAAGCCAATGAAGCATTTGTAGATCAGCTCAATCTGATAAAAGACGGAATTAACAAACAATTTAAAGGAAAAGCAGAAATAAGCTATTTTGGTTCTCCCGTGATTGCAGTGGCCAATGCAAAGCAGATCAAAAAAGACATTCAGAACACGGTGGTCATTTCCATGACGGTTCTTTTACTCCTTCTAATCTATTATTTCAGAAATATTTTTACTCCCATCATTGTATTTCTGCCTACCGCATTTTCAGCCCTGCTTGCACTCTTAGCCCTCTATTTTATTAAAGATAAGATTTCTGCCATTTCATTGAGTGTAGGAGCTATTCTGATTGGGATAACGATAGATTATGCCCTGCACATCCTCACCCATTATAAGCACAACAATAATATTGAAGAACTGTATAAAGAAATTACCCAACCTATTGTACTCAGTAGTGCAACGACAGCTGTTTCATTTTTGTGTCTGGTTTTTGTACGGTCTGAAGCCTTGAAAGATCTTGGGCTTTTTGCTGCTATTACAGTTATTCTTTCTGCTGTCTCAGCGTTGATCATTGTACCTCTACTCTATACTCCAAAAGAAAAGGAATACCTTAATACTAATTTCATAGACAAGGTCGGAGCTTATCCTTATGAAAAAAACAAACCCTTGATCATAGGATGTTCCGTCATCATTATTGCCTGCCTTTTCGGTTTCAGACATGTAGGCTTCAACGAAGATATTGGCGACCTGAATTATATTCCAGAAGAACTTAAAATAAGCGAAGCAAAACTGCAGAAGCTTTCTGATATTACTTCAAAGTCTATTTACACCATCTCCTATGGAAATTCGGAAGAAGAAGCATTAACCAGAAACTCGGAACTGAACAGCTTTCTTGAAAAAGAGAAAAAAGAACACAAAATATTAAGCTACAATTCTATAGGAAGTATTGTTCTTTCGGAAAAAGACCAGCAAAAAAAGATTGAGAAATGGAACAAATTCTGGAATGACACTAAAAAGAATCAGACTATTTCAGAACTTACCGGCAATGGAAATAAATTTGGGTTTAACAGCTCGGCCTTTGATAACTTCAATGAATCCCTGCATAAAAATTACACTTCATTAAGTCTTAAAGATTATGAAAAAGTAAAAGCCCTTCAGATTTCAGAATTCTTGAATAATGAAAATGGTTTTTATACCGTTTCGAATGTGGTAAAGATAGACGAAAGCAAGAGAGATACATTCATCAAAGATATCGAGAAGAAACATGATGCTATTGCTATTGACCGCCAGCAGATGAATGAAAACTTTCTGGGATTACTGAAAAGAGATTTCAGTACACTGATCAATTATTCTCTGTTAGCTATTGTTCTGACAATTATTCTATTTTTCAGAAATTTTGAATTAACCGTTCTTACCATGTTCCCGATTGTTTTAACAGGTGTTGTGACAGCCGGAATTCTTTATTTCTTAGGATTAGAGCTGAATATTTTCAGTACTGTTGTCTGCACTCTGGTATTTGGGGTAGGTAATGATTTCAGCATTTTCCTGACACAGGCAATGCAAAAGGAGCATACAACCGGTAAAAATGAACTGCCAACATACAGAACCTCCATCATCCTTGCCGTTCTCACTACTGTTCTTTCTATTGGATCTTTGATCTTTGCCAAGCATCCGGCACTCCATTCTTTAGCACTCGTTGCCTTAATAGGAATGTTCTCTGTAATTATTATTACCTCTACCCTATATCCTTTCTGGTTCAGATTATTCATCACCAGCCGGGCAAATAAAGGACTGTCTCCGGTTACTTTGAGAGTATTCCTTCATTCAGTCTTATCTTTTCTCTACTATGGTATTGGAGGCCTTCTATTTTCAGCTTTCGGAAGTTTTTTTGTTAAAAATTCCAAAGGGAAAACTCTGGATATTATCAAACTTATTTTAGCCAGATTTTTAACTTCTGTCCTTTATTCCAATCCATTTGTTAAGAAGAAGATCATTAGAAATACAGCTGAAGACTTCAGTAAACCCGCTGTCATCATTGCCAACCATACGTCTTTCCTGGATACACTGGCTATTGCAATGACTACTCACAAGATCATCTACCTGGTGAATGATTGGGTATATCAGTCTCCTGTTTTCGGAAAACTGGTAAGAGCACTGGGATTTTATCCGGTTTCGCAGGGAATTGAAAATGGAATGGACCAGCTGAAAGAGAAAATTGCACAGGGGTATTCTCTTGTAGTTTTTCCTGAAGCAGAGCGCTCATACACCAATGATGTGAAAAGATTTCATAAAGGTGCATTCTATCTTGCCGAGCAATTCGGGCTGGACATCCTTCCTCTTTACATTCACGGAAACTCTGAAGTATTACCGAAAGGAGATTTCATTATTTATGACGGAAGCATTACCGTAAAAGTAGGAAACAGAATCAGCAAAGATGATATGAGTTTTGGCAGAAACTATTCTGAGAGAACGAAAAAAATCAATGCCTATTTCCGAGAAGAATTTGCAAAACTGAGAGAAGAAATAGAGGATGAGAATTATTTTAAAAATAAACTATTCCTGAGCTATCTTTATAAAAACAGTGAAGTGATAAAAGAAGTAAAAGAAGATTTCAACACCAATAAATCTGTATATTTTGAGCTTAATAAACACATCCCAAATGATGCAACCATTCTTCATATGGCTGATGATTTCGGACAGAAAGATGCTTTATTAACCTTATATCAGGCCAGCCGAAGAATTTTTTCTCTTATAAAGAATGATGAAAAAAGAGCAATTGCAGCTCACAGCTATCTGGTAAAAAGAAGAAAGACACATTATATAAAAGACCTTTCGGAAGTGAACAAAAAAATTGATGTACTGCTGGTATCAAATGATCATTGTACATTAAATGACATTCATGATCTTCCGGAGACCATCATTTTTGTAAATACCGAAAACACAGTATTTAAAAGTGATGATTATGCACTGAAATTTAGTTCTGAATCAATAAAAGTATTTAAAACTAAATAA	MHRFFIYLYYLISKNKILSVLAALGIAVLCIFFASKINFEEDINQIIPKNEKSDLTAKVLKQLNFSDKIIVIIENKSNEDNFLLSETADTFLKKTEPLQKYIASVQGKVNDDEISETFDFVNQNLPLFLDENDYKEIDRKLQKDSIARQVEDNYISLVSPTSLVTKEFIKKDPLGLTFLGIKKLNALNISKDFKLEDNYIVTKDGKNLLLFIEPKNKSNDTKANEAFVDQLNLIKDGINKQFKGKAEISYFGSPVIAVANAKQIKKDIQNTVVISMTVLLLLLIYYFRNIFTPIIVFLPTAFSALLALLALYFIKDKISAISLSVGAILIGITIDYALHILTHYKHNNNIEELYKEITQPIVLSSATTAVSFLCLVFVRSEALKDLGLFAAITVILSAVSALIIVPLLYTPKEKEYLNTNFIDKVGAYPYEKNKPLIIGCSVIIIACLFGFRHVGFNEDIGDLNYIPEELKISEAKLQKLSDITSKSIYTISYGNSEEEALTRNSELNSFLEKEKKEHKILSYNSIGSIVLSEKDQQKKIEKWNKFWNDTKKNQTISELTGNGNKFGFNSSAFDNFNESLHKNYTSLSLKDYEKVKALQISEFLNNENGFYTVSNVVKIDESKRDTFIKDIEKKHDAIAIDRQQMNENFLGLLKRDFSTLINYSLLAIVLTIILFFRNFELTVLTMFPIVLTGVVTAGILYFLGLELNIFSTVVCTLVFGVGNDFSIFLTQAMQKEHTTGKNELPTYRTSIILAVLTTVLSIGSLIFAKHPALHSLALVALIGMFSVIIITSTLYPFWFRLFITSRANKGLSPVTLRVFLHSVLSFLYYGIGGLLFSAFGSFFVKNSKGKTLDIIKLILARFLTSVLYSNPFVKKKIIRNTAEDFSKPAVIIANHTSFLDTLAIAMTTHKIIYLVNDWVYQSPVFGKLVRALGFYPVSQGIENGMDQLKEKIAQGYSLVVFPEAERSYTNDVKRFHKGAFYLAEQFGLDILPLYIHGNSEVLPKGDFIIYDGSITVKVGNRISKDDMSFGRNYSERTKKINAYFREEFAKLREEIEDENYFKNKLFLSYLYKNSEVIKEVKEDFNTNKSVYFELNKHIPNDATILHMADDFGQKDALLTLYQASRRIFSLIKNDEKRAIAAHSYLVKRRKTHYIKDLSEVNKKIDVLLVSNDHCTLNDIHDLPETIIFVNTENTVFKSDDYALKFSSESIKVFKTK				NA	NA	NA	NA	NA
BMS003_00975	1008			hypothetical protein	ATGTTGAAAAGAAATGATGAAAAAATAAACGGATTTCTATTTGTAATAGTACTTCCGCTTCTGTTGTTTGCCATGTCTTATTATGGATTTGAATCTTCCTACACAAGACTGAAAACTTCAGAGACAACCCCCGATTTTTTATTTTCCTCGGTATATGCTTACAGGGTGATTCCTAATTATCTGAGTGTACAGATGACAGATTTGATGTATAGTCTGATCAATGGGCCTCTTTCTTTCTTCAAAGATTTTTTGTCAAAAAACGGAACCCCTTTCTATCATGGGCTTTTTCTGATGAACAGCGTGTTCTTTGTTTTGTGTTCTTTGATTTTGAATGCTGTTTTCCGGATGAAATCAACAGTGCTTCTTCTGAATCTTAATGCCAGAAGGATCATTCATCTTTTATCCGTATTTTTTATTGTGATCACGCAGTATGCACCTACAAACTGTGATACCATTGCGCTTTTCTGTTATCTGGCAGGTGTGTTTTTGACCCTGAAATATTTAGATACCCAAAAAAATATTTTCTTTTTCATTCTCATTGGTCTTATTGGGGTCTCTACTTTGGTAAGAGAAACAGCTTGTTTGAATATTGCGTTTTTTGCAGCAGTATTTTTCAATATAGATGAGTTGAAAAAAGGAAATTATCAGGTAATCTGGAAAATTATACCATTGGTTGTTGCTTTTCTGATTCCTTATCTGGGATTGAGAGCTCTGCTTGTTCAGGATGAAACTACTTTTGTGGAAGGGTTTTATATTAACAGGAACTTTTCCAGCCCTTTCAACCTTGCGGGATTGGCCTTTGCATTAATTGTGATTTATTTTATATATGGTCTTTGTACAGAAGAAGAAAACAGAAGTGTTTTCGGAAAGTATTTTTTCTTTTCCATTCCTTATCTTCTTATGATTACTTTGGTAGGGCTTTTCTGGGAAGTGAGGCTTTTTTTACCTTTGATTCTCACCGGAATAATCACAGCATATCATCAGTTTAAAAAAACATCAGAGATCTAG	MLKRNDEKINGFLFVIVLPLLLFAMSYYGFESSYTRLKTSETTPDFLFSSVYAYRVIPNYLSVQMTDLMYSLINGPLSFFKDFLSKNGTPFYHGLFLMNSVFFVLCSLILNAVFRMKSTVLLLNLNARRIIHLLSVFFIVITQYAPTNCDTIALFCYLAGVFLTLKYLDTQKNIFFFILIGLIGVSTLVRETACLNIAFFAAVFFNIDELKKGNYQVIWKIIPLVVAFLIPYLGLRALLVQDETTFVEGFYINRNFSSPFNLAGLAFALIVIYFIYGLCTEEENRSVFGKYFFFSIPYLLMITLVGLFWEVRLFLPLILTGIITAYHQFKKTSEI				NA	NA	NA	NA	NA
BMS003_00976	1140			hypothetical protein	ATGAGTTTACTACATCCATATTATATAATTGCAATCGTCTATATGCTGTTCTTCAGTGTTCAGGAAGTGTATGGAAAGAAGGTTAATAAAAAGTGGTTCTGGTTGCTTGCTGTTTATTTTATTCTTATTGTTGGTTTTAGAGAAAGTGTAGGTCCGGATTATGGAAGTTATAAAGGAATTTATATTTATTCTGATACCAAAAGCTATTACAGTATCTTTATGAAGATGCTCCATATCGAAGGGACGGAAACTCTGGATGTGGAATGGCTGTATACCTTAATTAATAAAATTCTGCTCAACTTTTTTGATGCACCTTTTTATATGCTAACATTCGTCATTGCTGTTTTTGCAATGATCTTTAAAGTAGAATATACAGAAGACAATACTTTTTATCCTTTTACTTTTACTCTTTTTATGTTTATTCCCAACTTCTTTATTGGGGAAAGTGGACAGATCAGACAAAACCTGGGAACTTTTATCGTTTATTTTGCAATACGGTACATTAAAGAGCGAAAACTCTGGCATTACCTGTTTTTTATATTTATAGGATCTGGTATACATAGTGTTTGTTATTTATTCCTGCCTATGTATTGGCTGGCTCGTGTTCCATTGAATAAAACAGTGATGTTGATTATGATTGTAGGTTCTGTCTTTTTATCTCCTTTTGAAATCTATAGAAGTTTTGGAGGTTTCTTAGATGGTATGGCCTCTAACAGTACACTTGTAGAAGGATTCAATGGGTATATGGATGAAACAGTACAGCGACTTAACGGAGGGATTGGAATCCCGGAGGTAATGATGGCTATCCTTACTTTCTTCCTCTTTGTTTTTGATAACAAGATGAAAGAGCTCTATCCTTACTATGAATACCATAGAAACTATGCTGTAATCGGGATATGTCTTTATTTTATTTTTAGAAATAACCCTATCTTCTCATCCAGGCTTGCCGGTGCGTTTATTGGGTTCTCGTATATCATTATTCCGAATGCGATGTATGTTGTTTCCAGAAGGGTTAAAAATATGATTTACGCATTTATCATTGCACTTGTTGTCTTCAATTTTGTTGTCTTCTCTGTTTTTAATAATATCAAGGCCGGACGATTTTCGATTGATCTTTATCAAAACCATATTCTTCCATAG	MSLLHPYYIIAIVYMLFFSVQEVYGKKVNKKWFWLLAVYFILIVGFRESVGPDYGSYKGIYIYSDTKSYYSIFMKMLHIEGTETLDVEWLYTLINKILLNFFDAPFYMLTFVIAVFAMIFKVEYTEDNTFYPFTFTLFMFIPNFFIGESGQIRQNLGTFIVYFAIRYIKERKLWHYLFFIFIGSGIHSVCYLFLPMYWLARVPLNKTVMLIMIVGSVFLSPFEIYRSFGGFLDGMASNSTLVEGFNGYMDETVQRLNGGIGIPEVMMAILTFFLFVFDNKMKELYPYYEYHRNYAVIGICLYFIFRNNPIFSSRLAGAFIGFSYIIIPNAMYVVSRRVKNMIYAFIIALVVFNFVVFSVFNNIKAGRFSIDLYQNHILP				NA	NA	NA	NA	NA
BMS003_00977	3420			hypothetical protein	ATGAAAAGATTAGCTGGAAAATTAGCGGCAGTCATCTGTCTGATATTATTTGGATTTAGTTCCAAGGGTAATATCAAAGAAAATCTTCCCTCAGCCGGGCATATAAGACCAATATGGCTTACTGAGAGTAAGGACTCATTGAAAAGGCCACTGAATGAATCGATCCTATTGTTTCTTCCCGACTGGAAAAAAGCACCCAACAGTTACATCTTTGATCCCAATCAGAACAGTGAAGGATTATTGGTTCCTGTGAAAAAAGCTTACGCAATGTGGGAAGGAGGCGGATATCTTAACGGAAGCGGCATTCCGGCAGGAACGGTAACTGCGGATGTTTTGTGGGAAGATGTTCATGGACTTATAAAATCCGGAGTAAATTATGCTTTGGAAATAATAGGAATCGGGCAGGATGCTAAAATAAAAGTCCCTGTCAATAAGACAAAAAAAGGGAATGCAGTGGTAGCTCTCAAGGTAAACGGAGAGATTTATTGGAGCTGGCATATCTGGGTAACAGATGATCCTACCAATGGAGTTGCCTATAAAAGCTTCAACAACGTCAAAAGAATGAAATCGGATGGGACAACAGAGGTTATCCCGGATTCCGATTGGAAATGGATGGATAGAAATCTTGGAGCCATCACAAATTCTATCACAGCATCAGACTGGAACAGAAGTATTGGGCTTCTTTATCAATGGGGAAGAAAAGATCCTATACCACCTTTAGTAACCAGAGGAAATGATTTCTATGAAGCTTCAGGATCCATAGGCAGAGTAAGACATAGAGGAGCTAAAAATATGACCAATGCTGTAAGTATTGATGATCTCAGGAAATTTGTTCTGCTTTCCGCTGCAGAGGTTACCAATAATATCAGACTTTCTGTCAAAAATCCCTTGAGTCTTATTTATGTTAATAAAGATGATAACTCAGGCCAGGCTTACTACAATAATAATCTCAACCTTCCTGTCAATTGGTTTGGTAAGTCAACAACCTTGCCCAATAACAGGCTTTCAGAACTCAATCTGTGGTCTGATAATGCACAAGGGAAAATTGAAACCGTATACAATACCGATGATAAGACAAAACCTTATAGAGATAAATCGCCTTATGATCCTTGTCCCAATGGATGGCGTATCCCTTCTATGCTGGTTGCAAATCTGGCTTCTCCCTCCTATGTGGATGATATCAGAATAGATTTTTCACCTTTTGGAGTCAAAACCAATATGGCAAAAAATGTTTTTGAAACCAATAAATATCATATTATAAAGCCTACTGATGCTGGGGTTCCAGTCTTCATGACAGGATTTAGAATTTATCCCAATCTTGGTTTTGATCTTTCTTCAGTCGGTGGGTATAATATGGGAATTTTTCCTGGAAACGGACAGCTTATCAGAGGAGCCCATTTAGGACAATATAGTGATCAGCATCACATTGCATTGTGGACAGCAACTTTAGCCCGGTTGTTCGATACTTCTCCTGCTGTTACCGTAAGAGGGCTTTCCATGATTCCGGATAAAGGACAACCGGATATTCCGGATGCTAATTATCCTAATATAAAAGGGCGTTATTACTACTTTCCTTTGGCCGGAATGTATACTTCGGATGCCAATGGCTGCAGATGTATAAAAGATCCATTATATACAATTAATGATTATGATTTTCCAACGGAATATCTGCCTGCAGCTACAGAGTACAAAGAAGGTTTCAATAATCCGAATACTTACCAGATTGTTAAAAACGAAACGGTTGCTACTATTGAAATCCCTGTTAGCAAAGCATTCTCTGTGCAAAGTCAATTGCTGGATAATGCTGAGATATTAAATACTTCCAGTTTTAGTAATTTAAAGGCTAATGTTCTCTGGACGACTAATACTGCTCTTATCAGTAGAATTTCAATGGTAAATCCTTCACCTTCGTCATTACAGGATATCAGTAACTCTAAAATATCTGTAGAAATTGCTCCCAATGAAAGTGGAAATGCTGTTGTAACACTACATAATGGGAGTACATCTTCGCCGGTATATTGGAGCTGGCATATCTGGGTTACGGATTCTCCAGTAGGATCTTATACTTATACTACAGAAACTCCGGTGGCTGTAACAAATTACGTGAACTATGTCAATAAAGCAGATGCTGTATTGCAGACCTCTTTCATGGACCGTAATCTTGGAGCAACAGATGCTTTTCCCAATGTTGCCAATCCACAGGCACCCACAGCCGATGAGCTGTTGAAAATACGAGCTTCTACAGGATTGCATTATCAATGGGGAAGGAAAGATCCTATTCCTCCATTTCAGTATGCGGATGACAGAAGTTCTTATAATGTGTTTTTGGGAACTCTGGCTGCTAAAGGGGCTGTTTCGTACACTCTGCTTAGTCGGTCTGATTATAATGATCTTTCAGGAAACTATATTGTACCTTATAGTACTTACGCATCGGTATCAAATGTACAGTTGACTGATAAACCGGCAGAAAAAATCTCCAAAATACTATCCTATTCTGTGAAGAATCCTCTGGTATATATGATCCCAAGTACTTTTGCTCCGTACAACAGTACAGCTCCCAATTATACCAACGGTACAGACTGGTTGGCACAAGAACCTAATTTAGCTCCCGACAGATGGGGAAGAGGAGGGAAGAAATCTCCTTTTGATCCTTGTCCTGAAGGATGGAGAGTGCCGGATCTGACAAGTGTAGCCCTGGTTTCAGGAGCGGATTTTGGACAGACACCCTGGTACAAAAAAGATAAAAATGTAGCAACATCATACAGTATTGCTACAGATTATTCAGGGTCAAGAGTGAGGAATTCTGCCAATGCTACAGTGGGGTATATCTTTAATAATCCTGCATATCTTGTAGGGAACTATCCTGATTCCGGTTCAAGAGGATTCAGAAGTGTGATAGCTAACCAGGCTGCGCAGGGAACGTTTAATGTGCTCAACTTTCAGTATCCGGCAGTATGGACCGCTGCTTTAAATTCAAATTACATTGGACGATCTATTAATGTATTGTTTGATACAGCCTCTACCACCAATAGAATAATCGTCTTTCATGATAATAATGATCCGTACTTCGGAACAGGATGCCGATGTGCGAAAATAAAATATGATGCCAATGGTAATGAAGAAGGTCCGGGATCAGGACTTTCTGTTATATCTAATAGGCCTTCATTGATGAAAGAAAATGTGAAATCTAAGGCGGTCATTAACAAAATTTCTCTCTACCCAAGTCCTTTTTCCAATATTCTTTACATCAGAGCCACGGAAGATAAAGAATATGATTTTCAAATTTTTAATGTTCTGGGACAACTTGTAAAATCCGGACAGTTTATCAACAATCAGACAGATCTTTCGTCTTTAAGTGCAGGAGTGTATATCATAAGAATAAACAACTCCGAAGCGGTTGTGAAAATTATAAAACAATAA	MKRLAGKLAAVICLILFGFSSKGNIKENLPSAGHIRPIWLTESKDSLKRPLNESILLFLPDWKKAPNSYIFDPNQNSEGLLVPVKKAYAMWEGGGYLNGSGIPAGTVTADVLWEDVHGLIKSGVNYALEIIGIGQDAKIKVPVNKTKKGNAVVALKVNGEIYWSWHIWVTDDPTNGVAYKSFNNVKRMKSDGTTEVIPDSDWKWMDRNLGAITNSITASDWNRSIGLLYQWGRKDPIPPLVTRGNDFYEASGSIGRVRHRGAKNMTNAVSIDDLRKFVLLSAAEVTNNIRLSVKNPLSLIYVNKDDNSGQAYYNNNLNLPVNWFGKSTTLPNNRLSELNLWSDNAQGKIETVYNTDDKTKPYRDKSPYDPCPNGWRIPSMLVANLASPSYVDDIRIDFSPFGVKTNMAKNVFETNKYHIIKPTDAGVPVFMTGFRIYPNLGFDLSSVGGYNMGIFPGNGQLIRGAHLGQYSDQHHIALWTATLARLFDTSPAVTVRGLSMIPDKGQPDIPDANYPNIKGRYYYFPLAGMYTSDANGCRCIKDPLYTINDYDFPTEYLPAATEYKEGFNNPNTYQIVKNETVATIEIPVSKAFSVQSQLLDNAEILNTSSFSNLKANVLWTTNTALISRISMVNPSPSSLQDISNSKISVEIAPNESGNAVVTLHNGSTSSPVYWSWHIWVTDSPVGSYTYTTETPVAVTNYVNYVNKADAVLQTSFMDRNLGATDAFPNVANPQAPTADELLKIRASTGLHYQWGRKDPIPPFQYADDRSSYNVFLGTLAAKGAVSYTLLSRSDYNDLSGNYIVPYSTYASVSNVQLTDKPAEKISKILSYSVKNPLVYMIPSTFAPYNSTAPNYTNGTDWLAQEPNLAPDRWGRGGKKSPFDPCPEGWRVPDLTSVALVSGADFGQTPWYKKDKNVATSYSIATDYSGSRVRNSANATVGYIFNNPAYLVGNYPDSGSRGFRSVIANQAAQGTFNVLNFQYPAVWTAALNSNYIGRSINVLFDTASTTNRIIVFHDNNDPYFGTGCRCAKIKYDANGNEEGPGSGLSVISNRPSLMKENVKSKAVINKISLYPSPFSNILYIRATEDKEYDFQIFNVLGQLVKSGQFINNQTDLSSLSAGVYIIRINNSEAVVKIIKQ				NA	NA	NA	NA	NA
BMS003_00978	2583	topA		DNA topoisomerase 1	TTGCAAAAATTTTTAGTTAGAATGTCGAAAAATTTAGTAATCGTAGAGTCCCCGGCAAAAGCAAAAACTATTCAGAAATATCTAGGAAAGGATTTTGAAGTGAAATCCAGTTTCGGTCATATCCGTGACCTTCCTAAAAAAGGAATGGGGATAGACCTTGCCACATTCAGTCCTGATTACGAAGTTTCAGCAGACAAAAAGAAATTGGTAACCGAATTAAAGGCTGCCGTAAAGAAAGCTGATATGGTATGGCTCGCTTCCGATGAGGATCGCGAAGGGGAAGCTATTGCATGGCACCTTGCGGATGAATTGAAACTGAAGCCTGAAAACAGAAAGAGAATTGTTTTCCACGAGATTACCAAAAATGCCATTCTAAAAGCAATTGACAATCCAAGAGATATTGATCAAAACCTGGTGAATGCCCAGCAGGCAAGAAGAGTGCTGGACAGAATTGTAGGTTTTGAAATGTCACCCGTTTTATGGAAAAAAGTGAAACCGGGGCTGTCTGCAGGAAGAGTACAGTCTGTAGCAGTAAGATTAATTGTTGAAAGAGAGAAAGAAATTCGGGAGTTTAAGCCAAAAGCAAGTTTTAAACTAGACGGAATCTTCTTAAATAAAACAGAGCAGGAAATAGCTGCTAAACTGAAAAAAGACTTCGAAAAAGAAGAAGAAGCAGAGAAATTCCTTGAGCAGGCAAGAACTGCAGAATTTAAAGTTCTGAATGTCGAAACAAAACCGGGAACACGTTCCGCTTCTGCTCCGTTTACAACTTCCACATTACAACAGGAGGCTTCCTCAAGACTTGGATATAACGTGACCAATACCATGCGACTTGCACAAAGGTTATATGAAGAAGGATTCATTACTTATATGAGAACAGATTCCGTAAACCTTTCCCAGGAAGCTATAGAAGGAGCCAAGAGACAAATTATATCAGAATACGGAGCAGAATATTCTTCTCCAAGAAATTATACTACAAAATCTGCTTCAGCGCAGGAAGCCCACGAGGCCATCCGTCCTACAGATTTTGGGGTGAAAAATGTAGCGGATGCACAATTGAACAGATTATATCAGTTAATCTACAGAAGAACACTGGCTTCTCAGATGGCTAATGCCAAAATTGAAAAGACAGTGATTGAAATAGGGAATGCGTCATTACCACACCATTTTGAAGCACAGGGAGAAGTGATCATATTTGATGGTTTCCTGAAAGCTTATGGTATTGTAAAAACAGAGGATGATGATGAAGAAAACAATGATAAACTTTTACCGAAAGTAAGTGTAGGTGAAGTACTGAATTATAAAACCATTACCGCTACTGAAAAATTCACAAGACCAAGCGCAAGATATACTGAAGCCGGATTGGTGAGAAAACTGGAAGAATTAGGGATAGGTAGACCATCTACTTATGCGCCTACTATTCAGACTATTCAGAACAGAGAATATGTAGATAAGAGAGAAATTGAACCCCATACCCGTGAAGTGATCAAAATGTCTTTAGCAAAAGATAAGATCAAAAAAGTAGTTCTTGAAGAAAAATTCGGGGGCGATAAAAATAAATTCGTTCCTACAGATATAGGAGAAGTGGTAAATGACTTCTTGACAGACAACTTCAGAGAAATTCTGGACTACGGTTTCACAGCAAGAGTAGAAGAAAGCTTTGATGAAATTGCCAGTGGAGACCAGAAATGGAAAGAAATGATGACAAATTTCTACTCAAAATTCCATCCAAGAATTGAAGATGTAGAAGAAAATGCAGACCGTGCCACCGGAGACCGGTTATTAGGAGTAGATCCAAAGACGGGTAAAAATGTTCATGCAAGAATCGGAAGATTTGGAGCAATGATCCAGATTGGTGAAACAGACGATGAAGAAAAACCAATTTTTGCTTCATTAATGTCAGGGCAGAACATTGCAACCATCACTTTTGAAGAAGCGTTAGAATTATTCAAATTACCTTTCGATTTAAGTGAGGTTGACGGGCAATCCGTTTCTGTTGGTGTAGGCAGATTCGGTCCTTATGTAAAATGGGGCGAAACTTACATCAGTATTCCGAAAGGTGAAGATCCGCTTTCTGTAGATCAGAAGCGTGCTGAAGAAATCATCAATGAAAAGAAAATTGCTGATGCACCTATTGCTACCTATAAAGGAGAGCCGGTAACCAAAGGAACAGGAAGATTTGGTCCGTTTATCAAATACAAATCTATTTTTGTAAACGTTCCTAAGAAATACGATTTTGAAAATCTTTCACAAAGCGACATCAATGAATTGATTGATGCTAAACTTGAAAAAGAAGCCAACCGGTATATCCAGCAGTGGGAAAAAGAAAAAATTTCTATTGAAAACGGAAGATGGGGGCCTTTCATCAAATTCGGGAAAGCCATGTTTAAAATTCCAAAGAAAGCAGATGATACAAAATATGAAGCAGATGAACTGAAAGAACTTTCCTTAGATGAGGTTAAAAAGTGGATTACAGATCAGGATCCTAAAGCCTTTGCTGAAAAGAAAAAGCCAGCTGCTAAAAAGACTGCCGCTACAAAGAAGACAACCACAGCAAAGAAACCGGCAGCTAAAAAGAAATAA	MQKFLVRMSKNLVIVESPAKAKTIQKYLGKDFEVKSSFGHIRDLPKKGMGIDLATFSPDYEVSADKKKLVTELKAAVKKADMVWLASDEDREGEAIAWHLADELKLKPENRKRIVFHEITKNAILKAIDNPRDIDQNLVNAQQARRVLDRIVGFEMSPVLWKKVKPGLSAGRVQSVAVRLIVEREKEIREFKPKASFKLDGIFLNKTEQEIAAKLKKDFEKEEEAEKFLEQARTAEFKVLNVETKPGTRSASAPFTTSTLQQEASSRLGYNVTNTMRLAQRLYEEGFITYMRTDSVNLSQEAIEGAKRQIISEYGAEYSSPRNYTTKSASAQEAHEAIRPTDFGVKNVADAQLNRLYQLIYRRTLASQMANAKIEKTVIEIGNASLPHHFEAQGEVIIFDGFLKAYGIVKTEDDDEENNDKLLPKVSVGEVLNYKTITATEKFTRPSARYTEAGLVRKLEELGIGRPSTYAPTIQTIQNREYVDKREIEPHTREVIKMSLAKDKIKKVVLEEKFGGDKNKFVPTDIGEVVNDFLTDNFREILDYGFTARVEESFDEIASGDQKWKEMMTNFYSKFHPRIEDVEENADRATGDRLLGVDPKTGKNVHARIGRFGAMIQIGETDDEEKPIFASLMSGQNIATITFEEALELFKLPFDLSEVDGQSVSVGVGRFGPYVKWGETYISIPKGEDPLSVDQKRAEEIINEKKIADAPIATYKGEPVTKGTGRFGPFIKYKSIFVNVPKKYDFENLSQSDINELIDAKLEKEANRYIQQWEKEKISIENGRWGPFIKFGKAMFKIPKKADDTKYEADELKELSLDEVKKWITDQDPKAFAEKKKPAAKKTAATKKTTTAKKPAAKKK				NA	NA	NA	NA	NA
BMS003_00979	390			hypothetical protein	ATGAAAAATCAAGAATTAAAAAAGGAAAAACGTACTCAAAGAGATTACAGTATAGGCTTTAAATTACGGGTAGTTTCTCAGGTAGAAAACGGCGATTACACTTATAAACAAGCCCAAAAAGAGTATGGTATCCAAGGCAGGAGTACGGTTTTGGTTTGGTTGCGAAGATATGGTAACTTAGATTGGAGAAAACCTAAACTTCATACTATGCATAACTCTAAAGAAACTCCGGCTCAAAAAATTAAGCGCTTGGAAAAAGAATTAGCTGATGAAAAGCTAAAAACTAAGGTTCTTAATACCATGATTGATATATCAGATAAGCAGTATGGCACCCAAATCAGAAAAAAGTTTTCCTCCCAACAATCTTCAGACTCCACAGAGAAGGAATAA	MKNQELKKEKRTQRDYSIGFKLRVVSQVENGDYTYKQAQKEYGIQGRSTVLVWLRRYGNLDWRKPKLHTMHNSKETPAQKIKRLEKELADEKLKTKVLNTMIDISDKQYGTQIRKKFSSQQSSDSTEKE				NA	NA	NA	NA	NA
BMS003_00980	726			IS3 family transposase ISShfr4	ATGGAAATGCCCAGACTTGGAACCAGAAAACTTTATTACCTACTTAAAGAAGGGTTCAAAAATGAAGGAATCAAAATAGGCAGAGATGCTTTATTTGCTTATCTAAAAAGAGAGAATATGCTTGTGCGTGCTCAAAAAAAGTATGTTAAGACAACTTTTTCAAAACATTGGCTTAGAAAACATCCTAATTTATTGAAAGAGTTAAAGATCGGAAAAGCAGAACAGGTTTTTGTAAGCGATATAACTTATATTAAAACAAGGGAATCTAACTGCTATTTGTCTTTAGTAACAGATGCTTACAGCAGAAAAATCATGGGATATTCATTAAGCTCAAATATGAATACTGAGAATGTAGCCAAAGCCTTAAAGATGGCAGTGAAAAATAGAGTTTCAAATACTCCTTTGATTCATCATTCAGATAGAGGATTGCAATACTGCTCTGGCTATTACCAGAAGATGCTTAATAAAAACAGAATAAAACCATCTATGACTGATGGTTATGATTGTTATCAAAATGCATTGGCAGAGAGAATTAATGGAATATTAAAGCAGGAATTCCTGTTTTGTAAAACAAAGAATATACAAGACTTAAACTCCTTGGTAAAAGAAAGTATTGATATCTATAATACTAAAAGACCACATTTAAGTCTTAATATGCAAACGCCAGATAAAGTGCATAAAAAATCCGAAGAAAATAAATACTTCTACGGATTAAATATTGTCTAA	MEMPRLGTRKLYYLLKEGFKNEGIKIGRDALFAYLKRENMLVRAQKKYVKTTFSKHWLRKHPNLLKELKIGKAEQVFVSDITYIKTRESNCYLSLVTDAYSRKIMGYSLSSNMNTENVAKALKMAVKNRVSNTPLIHHSDRGLQYCSGYYQKMLNKNRIKPSMTDGYDCYQNALAERINGILKQEFLFCKTKNIQDLNSLVKESIDIYNTKRPHLSLNMQTPDKVHKKSEENKYFYGLNIV				NA	NA	NA	NA	NA
BMS003_00982	375			hypothetical protein	ATGGCAGAATTTAATTTTAGCGAAGAAGCTATTTCGCACGCATTAGAAGCAGCAAAAAGATCACACGAAGACAGTCAGGCAAATCTTCGTTCATCAGGAAAAGATTCAGATTTAAGCCTTGCGAGAGCAAGCGCAGGTTATCTTCTTGTAACAGCAGAATGTATATCGATTACTGTTGAAAACAACAAAGTTTGCATCAATTTACCCCTAGGTTTCGGGAAATATTGTTTCAGCATACCTTTAAGTATTCCTAACGGAACGGCTGGTAAGGCCTGTCTGTCTATCTGTACTACCTGGGGAATCCCAACAGGAATCAGAGTGAACATTATAATAGCCGGAATAACAATTATCAGTCAGTCATTCGGAAAGTGCTAA	MAEFNFSEEAISHALEAAKRSHEDSQANLRSSGKDSDLSLARASAGYLLVTAECISITVENNKVCINLPLGFGKYCFSIPLSIPNGTAGKACLSICTTWGIPTGIRVNIIIAGITIISQSFGKC				NA	NA	NA	NA	NA
BMS003_00983	1071	hutG_1		Formimidoylglutamase	ATGGATTTCGAAGACTTTATCATTTCGCCGAGAAATTTCAAAACAGAAAGCTGGCAGATAGGAAATCGGATTACAAAAAATATCAAAGAGGATAGTATTGTTCTTTTATTTGTGTCAGATTACAGAGGTGCGGGCGGAGATGCAGAAGTTCAGGACTTTACTGCAGTAAGGAGTGAGTTTTATAAACTTTCGCAGATGGATTTTGAAATTCCTGTTGTGGATCTTGGTGACCTGGTCTCCGGAAAATCTGTACAGGATACTCATTATATTTTACAGGAAGTTTTGTCGGCATGTCATTACAAAAGAGCTATTCCGGTAATTATCGGAGGTTCCAATGATTTTGCATTCTCATTATTTTCTGCCTTAAATTTTCATCAGAAAAATATCAATTATACCCAGATCAGTAATATTATTTCCCTTCAGCAGGGGGAGGTGATCAATGAGCATACTTTTTTAAGTAAAATTTTCGGAGCCAAGAATTTCTCCATTAAGAATTATCATCACTTAGGGTATCAGAAACATTTGAATGAGATGGATTCCGTAAGGCTGATCAAGGAAGTAGAGTTTGATATCATCCGCCTTGCTGAAATGATGAATTCTACAGAAAAAACAGAACCTTTCTTCAGAAAAGCAGATCTGGTAACGGTAAATTGCGATGCTGTAGAGAGTTTCTGTGAACCTTTTTCCATGAATCCGCAGGTAAATGGACTCAACAGGCGAGAAATCTGTGCGTATATGAAAGAAATAGGATTAAGTGAAAACCTGAAATCTGTAGGTATTTTTAATTATAATATTTATTCGGAAAACCAATTGAACCACCAGCTTTTAGCCCAAATGTTATGGTATCTGATTGAGGGGATTAATATCCAGCATTCTCATCCTAAAGAAAGGCATTATGAGCTGTTTTATGTTTTGATAGATGACAGGCAATATGCATTCAAGCGTGATACTTTCAGTAATTTGTGGTATTTTGGTGATGATGAAAATATAGAAAACTGCATTCCCTGCTCCAGAAAGGACTTTGATGAAGCTAAAAAAGGCTGGTTGAATGCACGACTGACGAAAATTTAA	MDFEDFIISPRNFKTESWQIGNRITKNIKEDSIVLLFVSDYRGAGGDAEVQDFTAVRSEFYKLSQMDFEIPVVDLGDLVSGKSVQDTHYILQEVLSACHYKRAIPVIIGGSNDFAFSLFSALNFHQKNINYTQISNIISLQQGEVINEHTFLSKIFGAKNFSIKNYHHLGYQKHLNEMDSVRLIKEVEFDIIRLAEMMNSTEKTEPFFRKADLVTVNCDAVESFCEPFSMNPQVNGLNRREICAYMKEIGLSENLKSVGIFNYNIYSENQLNHQLLAQMLWYLIEGINIQHSHPKERHYELFYVLIDDRQYAFKRDTFSNLWYFGDDENIENCIPCSRKDFDEAKKGWLNARLTKI				NA	NA	NA	NA	NA
BMS003_00984	1002	arnC_2		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGACAAATGTTCCCTCAAGAGTATCCATTATTGTTCCCGTTTATAATGTCGAAAATTATCTGACAAAATGCCTTGACTCACTGGTGAAGCAGAGTCTCCCGGATATTGAGATTATTGTAGTGAACGATGGCAGTAATGATGATTCTGAAAAAATAATTAAGGATTTTGCACAAAAATATCCTGAAAAAATAAAAGCTTTTACCAAAGAAAATGGGGGGCTTAGTGATGCCCGAAACTTTGGAATTGATAAAGCTTCCGGTGATTATATCGGTTTTGTAGACAGTGATGACTATGTTACCGAGACCATGTTTGAAGAAATGTTTCATTTAGCAGAAAATCATCAGGCAAAAATGGTGATCTGTAATATTCAGAAAGTGGATGAAAAAGGCAAAATCGTCCAGAAGTTGACACAACTCCCGGATATGGCTGAGAAAATAGAGCTTGATAAACATTTTTCTGTTTTTTCTGATATTAGCTATTTCGCATGTAATAAACTGTTCAAAAAAGAGCTTTTTCATCAGAGAAGATTCAAAAAAGGAGTTCATTTTGAAGATATTCAGCTGATCCCGCAGCTGCTCCTGGAATGTGAAACGATAGCACAGACTCAGAACTTCCATTATCAGTACCTTGAACGCTTAGATTCTATTACAAAAACCCATACAGAAAAAGGATTAGATATGCTCAAGGCTGTGGCTGATGTAGAAAAGGTATTCAATGAATCCCGGTATTCCCACAAAAAAAGAGAGCTGAAAAACTTCCAGATTTTTGAAGGAGTCTATTCGTTTTTGGCCTATCTGGCATTTGTAAAAGAAGAAAAGAAATTCTATAATATGTCGGATCAGTTAAACATTTTCATGAAAGAAAGGCAAATAAAAATTCAAGATATATTACTATATAGTCGTTTTGGTAAGAATTATATTTTATCTTTGCCGTTGAAGAAAAAGATTTTTTATCTGTTATTTTTTGCCGGACAGAAAAAATTGATAAGAAAATTGATTTAG	MTNVPSRVSIIVPVYNVENYLTKCLDSLVKQSLPDIEIIVVNDGSNDDSEKIIKDFAQKYPEKIKAFTKENGGLSDARNFGIDKASGDYIGFVDSDDYVTETMFEEMFHLAENHQAKMVICNIQKVDEKGKIVQKLTQLPDMAEKIELDKHFSVFSDISYFACNKLFKKELFHQRRFKKGVHFEDIQLIPQLLLECETIAQTQNFHYQYLERLDSITKTHTEKGLDMLKAVADVEKVFNESRYSHKKRELKNFQIFEGVYSFLAYLAFVKEEKKFYNMSDQLNIFMKERQIKIQDILLYSRFGKNYILSLPLKKKIFYLLFFAGQKKLIRKLI				NA	NA	NA	NA	NA
BMS003_00985	1125	wecA	COG0472	Decaprenyl-phosphate N-acetylglucosaminephosphotransferase	ATGAAAAATTTTGAATTGTTCTTAAGCGGGTCAGGAATACCTATTTTCTACGTAAAAATAGGACTGGGTTTTATATGCTCTTTTTTAATAACTTTTTTTTCTATTCCTACCATCGTCAAGATATCAAGAAGAAAAAATCTGATGGATGAACCAGGGATTAGGAGCTCCCACCTTAGAGAGATTCCCAATCTTGGCGGAATTGCTATCTTTTATTCGATCGGGATCTGTGCATCAATTTTTGCATATGAACTGTTCGACCTTTACAAATTTTTATTTGCCTCACTGATCATTCTGCTGTATATAGGAGTGATGGATGACGTTGTTGTAATGAGAGCCTACAAGAAACTTGTTGCCCAGATCGTTGTGTCTGCCCTCGTCGTTATTGGTTCGGATATCAGAATCAGAAGCTTATTCGGAATATTCGGAATATATGAGCTGGAATATATTGTAAGTATTCTGTTCAGTATTGTTACCTTTATTATTCTGATTAATGCCTTTAATCTGATTGATGGGATAGACGGACTCGCAGGTGGATATTCTATCATCTGCAGTGCTTGTTTTGGTATAAGTTATTACAGACTGGGAGAATACAATTATCCTTTAGTTGTATTATCTGTGATTATTATCGGAACTGTGTTTGCTTTTTTATACTATAATCTTTCCAATTACCGTACCCTTAAAATCTTTATGGGGGACACCGGATCTATGCTGCTGGGCTTTTTGCTGGCCTTTACTTCAATCTGTTTTATAGATATTTTTATAGATAAAAACCTTGCAGATGTACCAAGATATCATCTACAGTCTGCTCCTGTGGTGGCTGTTGCTATTCTGATTCTACCGATAGTGGATACCTTGAATGTGATTTTTGTTAGACTTTACAATAAGAAATCTCCATTTGATGCAGATAAAAACCATATTCACCATAAACTGCTGAAACTGAACCTTACCCACAGAAGATCTACTTTTTATATTATACTTTATTATCTCATGATTGTAGGAGTAGCTTATTATTTAAGACATATTAATGTAAATTTACTATTATTGGTAATTCTTTCCTTAGGTTTTTTAGGAGCTTACCTGCCGGACTTATTGTATCGATTAAAAAATAAAAAAATTAACAATTAA	MKNFELFLSGSGIPIFYVKIGLGFICSFLITFFSIPTIVKISRRKNLMDEPGIRSSHLREIPNLGGIAIFYSIGICASIFAYELFDLYKFLFASLIILLYIGVMDDVVVMRAYKKLVAQIVVSALVVIGSDIRIRSLFGIFGIYELEYIVSILFSIVTFIILINAFNLIDGIDGLAGGYSIICSACFGISYYRLGEYNYPLVVLSVIIIGTVFAFLYYNLSNYRTLKIFMGDTGSMLLGFLLAFTSICFIDIFIDKNLADVPRYHLQSAPVVAVAILILPIVDTLNVIFVRLYNKKSPFDADKNHIHHKLLKLNLTHRRSTFYIILYYLMIVGVAYYLRHINVNLLLLVILSLGFLGAYLPDLLYRLKNKKINN	PGPT0015240_1174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015240-wecA|tagO|rfe-K02851	NA	NA
BMS003_00986	867			hypothetical protein	ATGAAGAACTTTAAATATTTATTTTTAATATTCCCTTTTTTACTTACCTCGTGTATTACTACAAAGGATGTAAGGTATTTGCAACCAAGCGAGAGCCTAGTTATTAACGAAGAAGGGCTTGTTCCATACAACATTCCTATTTATAGAATTACTAAAAACGATATCCTCAATCTTAATATTGTGACAACTCCCAAAGGAGATGCTGCACAATTTTATTCATCTTATAATACTTCCGGCGGTGTCCGTGAAGGAAATATAAGCAATCCGGCAATAACAGGTGTTGCTGTTGCCAATAATTCTGCAGGTAACCGTGGAGGAAACAGAACCTTTTATTTTAACGGTCTGAAGGTTGATGCTAATGGTGATATTAATGTTTTCGGAATAGGATATATAAAAGCAGAAGGAAGAACACTGGATGATATTACAAAAGAAATACAGGAGAAAGTAAATGAAAACTTCCTGGAAGGGAAGTCTGAAGTGAGACTCAATACAGACGGTATTACGTATTATATTCTTGGAGATGTGGAAACTACAGGTATTTCAGGAGAAAAGGTAGCTCATAAAAATACCCTTACCATTACTGAAGCGTTAGCTATTAATGGTGGGTTGAACAGAACTATCGATAGAAAAGAAATCGTGATCCACAGAAAGCTTCCCGAAGGAATTAAAATTGCTAAAATAGATCTTACCCGTGAAGATATTATGAATTCCCCGTTCTACTATGTTCAGAATGGTGACGAAATCTATCTGAATACAAGAGGAAAAAGCTTAAATGGGTTCGGAAAAGATCCTATTCAGACTTTAACTACAGGAGTTTCAGTAATTACTACAGCGTTGTCTATTTATTTACTTCTAAAAAATCTTTAA	MKNFKYLFLIFPFLLTSCITTKDVRYLQPSESLVINEEGLVPYNIPIYRITKNDILNLNIVTTPKGDAAQFYSSYNTSGGVREGNISNPAITGVAVANNSAGNRGGNRTFYFNGLKVDANGDINVFGIGYIKAEGRTLDDITKEIQEKVNENFLEGKSEVRLNTDGITYYILGDVETTGISGEKVAHKNTLTITEALAINGGLNRTIDRKEIVIHRKLPEGIKIAKIDLTREDIMNSPFYYVQNGDEIYLNTRGKSLNGFGKDPIQTLTTGVSVITTALSIYLLLKNL	PGPT0025530_2433	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
BMS003_00987	2493			hypothetical protein	ATGATTCCGGGAAAAGACACACAAGTAGAAAAGAACGATGCTCAGAAAGAAAAGTATGGCGCGTTTGCATTATTTGATATCGAACACTTTTTAAGAAGAATTTTTAAAAACTGGTATTGGTTTGTTTTTATGCTGTTTATCGGTTACGCTATTTCTTGGGTGTACAGTAAATATTATGCGCAGAATATATATTCTTCAAACCTATCCTTAAGTATTTCCAATAATACATCAAGTTATTTTACTCCCAACCAGTCTATTAACTTTATTTGGGGACAAAGTGGAAATCAGGATGGTATTTATCTGAAAAAAATGCTTCTTTCAAGATCACATAATGAATTTTTGGTTAAAGAATTAAACCTTTTTGTTAATTATTCAACAAAAGGATCAATTAAATCTACCTATCTGGATAAAAACGATTCTCCCGTTTTTCTTGAAATTGACAGGAAACACCTTCAGCAGGTTGATTATCCAATTACTTTATTGCCAAAAAGTAATGGCTCTTATGAGGTTGTGCTGCCTGAAGAAGGGCAATCCACAAGTTTATACAGTTATGAAAAGGAAGGGTATCAAAATATCAGCAGTTATGGACGTCCTGCTAATAAGACTATTAAAGTTAATGAATGGTATACATCCCCCAATCTGAGATTTAAACTGATACCAAATCCTAATAAATCTACAATAGTCCTTGACAATATTATTGTTAACCTGAATACTGTAAACGAATCGGTAAGAGAAATCGTTTCTACTATAGGAGTAGAATTCGATAAAGAAATCTCTACTATTATGATTATTACTAAAAAAGGATTTAATCTTAATAGTACCGTAAACTTCCTGAACAAATCAGTAAGTGAACTACAGAAAAAAAGACTTGAAGATAAAAATATTGTTAATAAAAATACAGAATCCTATTTGCAGGGAAATCTGAACAATATCCGTAAGAAGCTGGACTCCAGTGCCAATATTTTAAATTATCTAAAAACATCCGAAAAACTTTATAACATTAAAGACAGTGACGTAAGAGCACTGGATGAAATAAAAGAACTTGAAGGGAAAAAAGCAGATGTTTTAAGTAAGCTGAGTTCTCTGAACAATATCAGAAATACAATTCAGTCACAGAATTTTGATAAAATGATCGCTACAAATGCCGCCGGCTTTGAAGACGGTTTCTTTTCTGCTACAGTGAGTGAGCTTAAAGCTTTATATGCTAAAAGGCAGGAGATGGCTACCATCTATAAGCCAAACTCTGAGCCAATGAAAGAGATCAACAGGCTTATCAGCGAATCAAGACTGGGGGCATCCAACAGCTTGAAAAATTATTATGACAGATATTATGAAGAGATCAGCAAAATTAATCGTCAAATATCAGATGCCGATTCAGGTTTAGCAACTTTCCCTGAAAAAGAAAGAAAATATCTGGATGCAGAACGAGGATATAATATGATTGAAGCTACATACAACAGTTTATTGTCAAGGCAAAATGAAACACAAATGAATGTAGCTACCAATAAGTCTGATATCACAGTTATTGATCCTGCCAAGAATTTAGGACAATCTCCTATTGGTCCAAATGTAAAGCTGACAAAATCTCTTATTATTTCAGGAATGCTGTTGCTGCCATTTCTGTTTATTCTGATTGGTGAAGTGCTTGATACCAAGATAAGAAATATCAAAGAACTGTTAAGTGCTACAAAAATTCCACTTCTTGGCGTAATTGGAAATAACAATAACGAAAATATGCTTACTGTTTTACAGCAGCCTAAATCATCCGTATCAGAAGCTTTCCGGGGAGTAAGAGCAAACATGAGATTTTTGATGGATAATGATGGAGAAAAAGGTAAAGTTATATTAATAACATCATCCATTGGAGGCGAAGGAAAAACATATGTTTCTATCAACCTGGCATCTGTAATAGGATTAAGTGATAAAAAAACAATCCTGTTAGGAATGGACCTTAGAAAACCAAAAATCTTTGGAGACTTCAAAATTGATAATAAATATGGTATTTCAAATTACCTTACAGGAGAAGTAGGTATTGACCAGATTATCAACAAAACTGAGATCACCAACCTTGATGTTGCTACTTCAGGACCAATCCCGCCAAATCCGTCTGAGCTTTTAATGAGCCAGAGAAATATCAGATTTATAGAAGAGCTGAAAGAAAAATACGACTTTATTATTATAGACTCACCACCAGTAGGTCTTGTGGCAGATTCATATGAACTGATGAAATATTCTGATGCTAATATTTATGTTGTACGTCATGAATATACAGAAAAGTATATGCTGAAAATGATTACGGAAAAGTATCACAATGACGAAATTGATAATCTGGGAATTGTTTATAATGATTATAATACAAAACAAGGCTATGGTTATGGCTACGGTTACGGCTATGGTTACGGCTATGGATATTTTGATGAAGATAAAAATTATAAAGAACCATTACTGATCAGGATCAGAAATAAAGTAAGGGTATTATTTAATAAAAAATAA	MIPGKDTQVEKNDAQKEKYGAFALFDIEHFLRRIFKNWYWFVFMLFIGYAISWVYSKYYAQNIYSSNLSLSISNNTSSYFTPNQSINFIWGQSGNQDGIYLKKMLLSRSHNEFLVKELNLFVNYSTKGSIKSTYLDKNDSPVFLEIDRKHLQQVDYPITLLPKSNGSYEVVLPEEGQSTSLYSYEKEGYQNISSYGRPANKTIKVNEWYTSPNLRFKLIPNPNKSTIVLDNIIVNLNTVNESVREIVSTIGVEFDKEISTIMIITKKGFNLNSTVNFLNKSVSELQKKRLEDKNIVNKNTESYLQGNLNNIRKKLDSSANILNYLKTSEKLYNIKDSDVRALDEIKELEGKKADVLSKLSSLNNIRNTIQSQNFDKMIATNAAGFEDGFFSATVSELKALYAKRQEMATIYKPNSEPMKEINRLISESRLGASNSLKNYYDRYYEEISKINRQISDADSGLATFPEKERKYLDAERGYNMIEATYNSLLSRQNETQMNVATNKSDITVIDPAKNLGQSPIGPNVKLTKSLIISGMLLLPFLFILIGEVLDTKIRNIKELLSATKIPLLGVIGNNNNENMLTVLQQPKSSVSEAFRGVRANMRFLMDNDGEKGKVILITSSIGGEGKTYVSINLASVIGLSDKKTILLGMDLRKPKIFGDFKIDNKYGISNYLTGEVGIDQIINKTEITNLDVATSGPIPPNPSELLMSQRNIRFIEELKEKYDFIIIDSPPVGLVADSYELMKYSDANIYVVRHEYTEKYMLKMITEKYHNDEIDNLGIVYNDYNTKQGYGYGYGYGYGYGYGYFDEDKNYKEPLLIRIRNKVRVLFNKK	PGPT0026560_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS003_00988	891			hypothetical protein	ATGAATAAAAAATTATTGTTTAGCTTCCTTGCCTTCCTTGGAATGGTAAGTGTTAAAGCACAAAGAAACGAATTGGGAGTTCGTCTAGGTATGAGTAACCTAGTGGGAGATGTAGGAAGGACAAATTATATTTTACAAAAGCCGTTGGATTTAAGCAGAACGTCAGATTGGGGTGTCCCATTTTATGGAGGTTTATTATACAGATTTAATTTTAACCCGCATCAGACTGTTAGATTGGATTTAGGATATAACCAGATTCAGTTTAGTGATAAAGCGGCAAAAGAAGATTATAGAAGAAATAGAAATTCATACGGAAAGAATAACGTGTATGAAGCGAGTTTAATGTTTGAATATAACTTTTTCCCGGTAAATAATGAGCAGATCAGCATGCTGAGCCCTTACATCTTCGGTGGTATCGGTGCTTTGATGTTTGATGCTCCTAAAGCAACTCTTGTGAACGACTTCAGAAGAGATGCGGATGGTGTAGCGCAGGCTCCAATCAATGAATTGGATTTCACCACTACAACAGACTATTCATTAGGGAAGAAAGTCACTATGCATATTCCTTTTGGAGTAGGTTTGAAATATAAGTTCAACCACTCATGGGCAATATTTGCAGAAGCTACATTCAGATATACATTGACGGATCAGTTGGATTACAGTAAAATCCTTTCCAAAGATGTAAAAAGTTCTTTTAATGCTGATATTTTGGATCCTGCTACAGGAGGTTCATTATTACAGTCTGGAAATTATTATGCGGTTTCTAAAGAAAGAGAAGCAGAGTTTATTAAAAAGAGAAATATTGGAGATGGAAATTCCAAGGACTGGATAAATACTTTCAGTTTAGGACTTACCTATTCGTTCGGAAGACCTCCATGTTATTGTGAATAA	MNKKLLFSFLAFLGMVSVKAQRNELGVRLGMSNLVGDVGRTNYILQKPLDLSRTSDWGVPFYGGLLYRFNFNPHQTVRLDLGYNQIQFSDKAAKEDYRRNRNSYGKNNVYEASLMFEYNFFPVNNEQISMLSPYIFGGIGALMFDAPKATLVNDFRRDADGVAQAPINELDFTTTTDYSLGKKVTMHIPFGVGLKYKFNHSWAIFAEATFRYTLTDQLDYSKILSKDVKSSFNADILDPATGGSLLQSGNYYAVSKEREAEFIKKRNIGDGNSKDWINTFSLGLTYSFGRPPCYCE				NA	NA	NA	NA	NA
BMS003_00989	750	uppS		Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGTCGTTGATTAAAGATAAAATAAATTCTGAGAATTTACCAAAACACGTAGCCATCATTATGGATGGTAATGGAAGATGGGCAAAATCTCGTGGCGAAGAAAGAACCTTCGGTCACAAAAATGCCATTAATGCAGTAAGAAACGCTATTAATGCTTGTAATGAGATTAACATCCCTTACTTAACACTTTATACATTCTCTTCCGAAAACTGGAATCGTCCAAGTGAAGAAGTGAATACCCTTATGAACCTGTTGGTAGAAACTCTGCTGCTGGAAGCAGAAGAGATCTTCAGCAAAGGATTGAGGATGCATGTTATAGGAAACCTTGAGAAACTGCCCGTTTTAGTAAAAGAGCAGTTGGAACGTGTGGTAGAGCTTACAAAAGAAAACACAAAAGGAAACCTTGTATTGGCGATTAGCTATGGCTCACAAAATGAAATACTGGAAGCCGTTAAAAATATAAGTTCTGATGTAAAAGAAGGAAAAGTAGAGATAGAAAATATTAACGAAAGTTTATTTGAAAACTATCTTTATACAAAAGATTTTCCTCCTGTAGATTTACTGATCAGGACCAGCGGTGAAATCAGAATAAGCAACTTCCTGCTTTGGCAGATTGCTTATGCTGAATTACAGTTTTTAAATGTCCTATGGCCGGATTTTACCAAAGATATTTTCTTCCAATGTATTGTTGATTATCAAAATAAGGAAAGAAGATACGGTTTAACCGGTGAGCAGGTAAAAGGCCAATAA	MSLIKDKINSENLPKHVAIIMDGNGRWAKSRGEERTFGHKNAINAVRNAINACNEINIPYLTLYTFSSENWNRPSEEVNTLMNLLVETLLLEAEEIFSKGLRMHVIGNLEKLPVLVKEQLERVVELTKENTKGNLVLAISYGSQNEILEAVKNISSDVKEGKVEIENINESLFENYLYTKDFPPVDLLIRTSGEIRISNFLLWQIAYAELQFLNVLWPDFTKDIFFQCIVDYQNKERRYGLTGEQVKGQ	PGPT0024180_2579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
BMS003_00990	2535	bamA_1		Outer membrane protein assembly factor BamA	ATGAAGTTTAGACTATTACCCATCATTATGTTTGCTGCTTCTGCACATTTTTATGGACAAGTAACTCCACAAGACAGCACAAAAGTAAATAATGCTGTGCATGCAGAAAATGAGACAGGAACTTATACACTTAAAGACATCGTTGTAGATGGGGTAAAAAAATATACACCAGCTCAGATCTTAAGATTTACAGGTCTTACAAAAGGAGAAAGTGTGGACATTCCGGGACAGAAAATCAGCAATGCTGTAAAAAAACTTTGGGATACCCAATCTTTTTCTGAAGTGGAAGTTTATGTTCAAAGCATTGAAGGACAGACTATCGTTCTTAGATTTTACCTACAGGATCTGAAAGAACTTGGAGAAGTAAAATTCGCAGGAAAAGGAATCGGTAAATCTAAAAGCGAAAAGCTGGCAAAGGATAATAACCTTAAACCAGGAACTAAGATTACACAAAACTTAGTTTCAAGCCTTAAAACCAATATCCCTAAAGACTATATTAAAAAAGGTTTTGCAGATGCCAAAATCACCATTCAGGATAAAGTAAACGCAGGTGACCCTGCTTTGGTAGACTGGACCATTAATGTAGATAAAGGAAAAAGAATTAAAATAGACCATATTGAGTTTGAAGGAAACAATAATGTAACCGATAGTAAACTTAGAAACAAAGCTTTCAAAGAAACAAAGCAGAAACGTTTTGGTATTGGTGGAATATTGAAATCCTCAAAATTCATTGAAGATAAATATCAGGAAGATAAACAAAATCTTATCAGTTATTATAACTCCCTGGGATACAGAGACGCAAAAATTGTTTCAGATTCTGTATGGAGAAACAAAAGAAATAACTACGAAATCAATGTAAAGCTTAACGAAGGGAAGAAGTATTATATCGGGGATGTAACATTCACCGGAAATACGGTTTATTCTACAGAATATTTACAGAGATTGCTGGGATATAAGAAAGGTGATATTTACGATGCTGTAGGTTTCAACAAAAAAGTAGGAGAAGACGGAGGTAAAGAGGACGATTCAGATATCAAATCTGTTTACATGAACAACGGTTACCTTTTCTCCAATGTTACACCTGTTGAAAAATCAGTATCAGGAGATGCTGTTAACCTTGAAGTTCGAATTAATGAAGGAGAGCAGGCTACCTGGAACAAAGTAACATGGCAGGGGAATACTACAACCCATGACCACGTTATTCTTAGAGCATTAAGAACAAAACCGGGAGAATTATTCAAGAAAACAGAAATTAAAAGAACCTATTTCGATTTAGCAGGAATGTCATTCTTTGATCCTCAGCAGATCGGACAGGATATCCAGCCAAATCAGGTAGATAATACAGTTGATATTAACTGGAAGCTGGTAGAAAAAGGATCTTCTCAGGTACAGTTGCAGGCAGGTTACGGAGGTAACAGCTTCATCGGTACATTAGGATTGACCTTTAATAACTTCTCATTAAAGAATTTCCTTAAGTTTAAAGACTTCAAGCCAGTACCTCAGGGAGACGGACAAACCTTCTCTATTCAGGTACAGGCAGGACAATATTTCCAGAACTATGGAGTATCATTTACAGAACCATGGTTGTTTGGTACCAGACCAACTGCCCTTTCTGTAAGTTTGAACAACTCCAGAGTAAGATATACAGACCAATACGGAGCCGCTCAGAAATTGAATATTTTCTCAGCATCAGTAGGGTTAAACAGACTATTGAACTGGCCGGATGATTATTTCTCTCTTTACACGGGATTACAGTTCCAGAAGTATGACTTTAACAACTATCCGTTCCAGTTTGGAAATACTACAGAAACTAACGGTACAGCCAATAACTTCAGTGTCAACCTAGGACTTAGCAGAAACTCTGCAGGTATTGACCCGATTTTCCCGACAATGGGATCCAATATTGAGCTTTCAGCAAAGCTGACTCCTCCATACTCATTGTTTAAAAAGAAAGACTACTCCACAATGTCAGCTATTGACAAATATAAGTGGATGGAATTCTATAAGATTAAGTTTAAAGCAGACGTTTATAACGAAATCGTAGGAAAACTTGTCCTGAGATCTTCTGCAGAAATGGGATTCATGGATGGATACAACAAACAGTTGGGAGCTCCGCCATTTGAAAGATTCTATATGGGAGGTACAGGTCTTTTCGGAGGAAGATATGACGGTAGAGAACTAATTCCTTTAAGAGGTTATGAAAATGCCACTACAGAAGGAGGACAGGCAGAAGATATTACCCAGACGGGAGGAGGAACAATTTATAACAGATTTACTCTGGAATTAAGATATCCGATCTCAATGAGCCAGACTGCAAAAATCTACGCACTGACCTTTGCTGAAGGGGGGAATGTATGGAACTCATGGAGCTCTTACAGCCCGTTCCAGCTGAAAAGATCAGTCGGAGTAGGGGTAAGAGTTTATATGGGAGCATTTGGATTAATCGGATTTGACTTCGCACTAGGTCTAGATAAGACAATTTCAGGTGATAAGTCAGGATGGAGAAACCACTTCTTGATGAACCAAACATTATAA	MKFRLLPIIMFAASAHFYGQVTPQDSTKVNNAVHAENETGTYTLKDIVVDGVKKYTPAQILRFTGLTKGESVDIPGQKISNAVKKLWDTQSFSEVEVYVQSIEGQTIVLRFYLQDLKELGEVKFAGKGIGKSKSEKLAKDNNLKPGTKITQNLVSSLKTNIPKDYIKKGFADAKITIQDKVNAGDPALVDWTINVDKGKRIKIDHIEFEGNNNVTDSKLRNKAFKETKQKRFGIGGILKSSKFIEDKYQEDKQNLISYYNSLGYRDAKIVSDSVWRNKRNNYEINVKLNEGKKYYIGDVTFTGNTVYSTEYLQRLLGYKKGDIYDAVGFNKKVGEDGGKEDDSDIKSVYMNNGYLFSNVTPVEKSVSGDAVNLEVRINEGEQATWNKVTWQGNTTTHDHVILRALRTKPGELFKKTEIKRTYFDLAGMSFFDPQQIGQDIQPNQVDNTVDINWKLVEKGSSQVQLQAGYGGNSFIGTLGLTFNNFSLKNFLKFKDFKPVPQGDGQTFSIQVQAGQYFQNYGVSFTEPWLFGTRPTALSVSLNNSRVRYTDQYGAAQKLNIFSASVGLNRLLNWPDDYFSLYTGLQFQKYDFNNYPFQFGNTTETNGTANNFSVNLGLSRNSAGIDPIFPTMGSNIELSAKLTPPYSLFKKKDYSTMSAIDKYKWMEFYKIKFKADVYNEIVGKLVLRSSAEMGFMDGYNKQLGAPPFERFYMGGTGLFGGRYDGRELIPLRGYENATTEGGQAEDITQTGGGTIYNRFTLELRYPISMSQTAKIYALTFAEGGNVWNSWSSYSPFQLKRSVGVGVRVYMGAFGLIGFDFALGLDKTISGDKSGWRNHFLMNQTL				NA	NA	NA	NA	NA
BMS003_00991	555			hypothetical protein	ATGAAGCACTTTAAAATCACTTTCACGTTCACATTACTTCTGCTTTTTGGATTCAGCAATGCCCAGAAAATAGGAGTAGTGGATACGAATGAAATTTTAAATAAATTACCACAGTATAAAGAAGCTGAAGCAAGACTGAATTCTCAGATTGATACCTGGGAATCTGAACTGCAGAATCTTCAGTCTGAATATGAAAGAAAAAAAGCTGCTTTCGAAAGTGAAAAAGTATTACTAATCGGGGATCAGCTTAAATTGAGAGAAAAAGAAGTTGTAGACCTTGATAAGAATATTAAAACAACTACAAGTTTACGTTTTGGAGCCAATGGTGAAATTACAAAACTGAGAACAAATCTTGTTTTACCTTTTCAGGATCAGATCTGGGGAGCCATCAAAACAATGTCCGAAAAAAATGGCTTGGGCATAGTTCTTGATAAAAGCAATAACATTAGTGTTATTTTCCTTCAATCAAAATATGATTACACCGAAAAAGTATTATCTATTTTATTGAAAGGATCTGATAAAAAAGAAAAAACAAATAACAAAGGCAGAAAATAA	MKHFKITFTFTLLLLFGFSNAQKIGVVDTNEILNKLPQYKEAEARLNSQIDTWESELQNLQSEYERKKAAFESEKVLLIGDQLKLREKEVVDLDKNIKTTTSLRFGANGEITKLRTNLVLPFQDQIWGAIKTMSEKNGLGIVLDKSNNISVIFLQSKYDYTEKVLSILLKGSDKKEKTNNKGRK	PGPT0024525_285	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
BMS003_00992	504			hypothetical protein	ATGAAAAAATTAAGTGTATTATTTGCAGCAGTAATGATGGTTGTATCTGTAGGTATGGCAAAAGCTCAAAAAATTGCTACTTTAGATGTAATGGGAGTTCTTAACGCTATGCCGGAGAAAAAGAAAGCAGATACTGATCTGAAGACATTCTTAGATACTAAACAGGCTGAGATCAAGAAGAAAGCTGATGCAGCTCAAACTAAATATCAGCAATATCAAACTGAAGCTCCTAAGAAAACTGCTGACGAAAACAGCGCAAGAGAAGCAGAAATGAAAAAATTAGCTGAAGAAATCCAGCAAATGCAGGACAAAGCTCAAAAAGATCTGCAGGCTAAGCAGGATGTAGCTTTCGGACCAATTGAGAAAAAGCTAAACGATGCTGTAGAAAAAGTAGCTAAAGCTAACGGGTATGATTATATTATGGATGCCAACTCAACCGCATTCCTTTATAAAGCAGGACCAGATGCTACTGCAGCTGTAAAAAAAGAATTAGGAATTCAATAA	MKKLSVLFAAVMMVVSVGMAKAQKIATLDVMGVLNAMPEKKKADTDLKTFLDTKQAEIKKKADAAQTKYQQYQTEAPKKTADENSAREAEMKKLAEEIQQMQDKAQKDLQAKQDVAFGPIEKKLNDAVEKVAKANGYDYIMDANSTAFLYKAGPDATAAVKKELGIQ	PGPT0024525_1778	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
BMS003_00993	486			hypothetical protein	ATGGAAAAAGAAGTATCAACTAAGGTAAAAGTCAGGTTTAGTGACTGTGATCCCATCGGACATTTGAATAATGTGAAATATCTCGACTATATGTTCAATGCCAGGGAAGATCATGTGGAAACATTTTATGGATTTACCTATGAAGAATATACTAAAAAAACAGGATGTACCTGGATTGCGATCCAAAATGAAATAGCCTATTTAAAAGAAGTAAGATATAACACACAGGTCATAATCAGCAGTAAAACCATCGATGTGCAGGATAGAACAGCAAAAGTAGAAATCCTGATGAAAAGTTTAGACGAAAAAACTATCCATGCTGTACTTTGGGTAACTGTTATTTATTTCAATGTTAAAAAAAGAAAATCAGAAGTGCATCCGGAAGATATCAAAGAGATTTTTGATAAGTTTTATGTAGATTTAATTCAGAAAGATTTCCAGTCGAGAGTGAAGTTTTTAAGAACTCAGAATGCCAAAAATTCCTAG	MEKEVSTKVKVRFSDCDPIGHLNNVKYLDYMFNAREDHVETFYGFTYEEYTKKTGCTWIAIQNEIAYLKEVRYNTQVIISSKTIDVQDRTAKVEILMKSLDEKTIHAVLWVTVIYFNVKKRKSEVHPEDIKEIFDKFYVDLIQKDFQSRVKFLRTQNAKNS	PGPT0001850_744	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS003_00994	864	rmlD		dTDP-4-dehydrorhamnose reductase	ATGAAAAAAATAGCAGTAATAGGAAGCAACGGACAATTGGGAAACTGCATCAGAAAAATAGCCCCTGATTTTGAAAATCAGTATGAGTTCTTATTTACAGACTCTTCTGTTTTAGATATTACCAACGAAGATCAGGTAAATGATTTCTTTTATGATAACAAACCTGATTACTGCATCAATGCTTCAGCATATACAGCAGTAGATCTTGCAGAAACGGAAAAAGAAAAAGCTTTTGCCGTAAATGCTGACGGTGTTGCTCACCTTGCTCAGGCTTGTGCAGATTATAAAACAACCTTTGTTCACGTTTCAACAGACTATGTTTTTGATGGAACTACAAACCTTCCATACTCTGAAGACGATTTTACCAACCCGATAGGAGTATATGGAGAATCAAAAAGAAAAGGAGAAGAGCTGGCACTGGAAATTAATCCTAAAACAATTATCCTGAGAACCTCATGGCTATACTCTGAGTTTAATAAAAACTTTGTGAAGACAATGCTGAATCTGTTTTCTCAGAAAAAAGAACTGGGAATTGTTGCAGACCAGTTTGGGCAGCCTACCAATGCAAATGATCTGGCAGAAGCTATTATGAACATCATTGAAGCACCTCAGAAAACCTATGGGATCTTCCACTTCTCAAACTATCCGGAAACTACCTGGTTCGAATTCGCAAAAAAAATTGCTGAGTTTTCAAAATCCCCGGTAAAACTAAACCCGCTAACCACCGAGCAATACCCAACTCCAGCCAAAAGACCTGTAAGAAGCACAATGTCTCTGGACAAAATAGAAGAAGCTTACAAAATAGAACCTAAACACTGGGAGAATAGTCTGGAAGAATGTGTTGAAAAACTTTCAGAACAATAA	MKKIAVIGSNGQLGNCIRKIAPDFENQYEFLFTDSSVLDITNEDQVNDFFYDNKPDYCINASAYTAVDLAETEKEKAFAVNADGVAHLAQACADYKTTFVHVSTDYVFDGTTNLPYSEDDFTNPIGVYGESKRKGEELALEINPKTIILRTSWLYSEFNKNFVKTMLNLFSQKKELGIVADQFGQPTNANDLAEAIMNIIEAPQKTYGIFHFSNYPETTWFEFAKKIAEFSKSPVKLNPLTTEQYPTPAKRPVRSTMSLDKIEEAYKIEPKHWENSLEECVEKLSEQ	PGPT0022630_2957	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
BMS003_00995	681			hypothetical protein	ATGAAGAATATCGTAATCATCTTTTCTGTATTGTGTATCCAGCTTTGGAATGCACAAAACGTTTATCTTACAAAAGTTGAGAAAACAAATGATAATACAGACAAATTCTTCTATAAAAAAGAAGAAGCTATTACAGATGCCACTTACTTAGGAGAAGTAGAAGTTCAGGGATTTTCAAAAGATGATGCGCTTATATTTTCCTTAGTATATAAGAAAGCAAAAGAAATTGGAGCCAATACATTTCAATTAAAGCCTTTCGAAAATGTAGATGGAACACCACAACCTTTCAATGCTGCCAATTATAAAATTGCCTTATACTATACACCAAAAGAAAAATTAGCAGTTCAGCATGGAGAGATGTACATATTTGCATCCTCGGAAAAAGACCAGAAAATAAGCGTCAATCGTAAAGACTATACCATTTCTCCAAGATCATTTCTGAAATTGAAAGTTGTTCCGGGAGAAATCTATACAATTTCCACGAAGAAACTTCTGGGTTCTACAGTAAAAATTCAGCCGAAAGCTAATGATGACAACGTTTATTTTCAGATTTCATCTTTAAAAGTAAGGCCGGACAATTCAGGAGTAGGAGGTTTAAACCTTAAATCTGGAGATATTATCGGACTTGAAAAGTCATATGCAGAATTTTTAAGTGCTATTTACCAAGAAAATAAACCTTAG	MKNIVIIFSVLCIQLWNAQNVYLTKVEKTNDNTDKFFYKKEEAITDATYLGEVEVQGFSKDDALIFSLVYKKAKEIGANTFQLKPFENVDGTPQPFNAANYKIALYYTPKEKLAVQHGEMYIFASSEKDQKISVNRKDYTISPRSFLKLKVVPGEIYTISTKKLLGSTVKIQPKANDDNVYFQISSLKVRPDNSGVGGLNLKSGDIIGLEKSYAEFLSAIYQENKP				NA	NA	NA	NA	NA
BMS003_00996	279			hypothetical protein	ATGACAGAAAATGAAATTTCAAAAGTAGTTTTTGAAACAGGTTTAAAGATTCATAAAAAATTGGGAGCTGGACTTTTTGAACATGTGTATGAAGAATGTATGTTCTATGAATTGGCAAAATCAGGCTTCCAGGTAGAAAAACAGAAATTACTTCCTATTATTTATGAAGATTTGAGAATAGAAAATGCTTTCAGACTTGATATGATAATTGAGAACAAAGTAATTCTGGAAATAAAGACGTTGATTATATTAGCCCTACACATAAAGCTCAGCTATTAA	MTENEISKVVFETGLKIHKKLGAGLFEHVYEECMFYELAKSGFQVEKQKLLPIIYEDLRIENAFRLDMIIENKVILEIKTLIILALHIKLSY				NA	NA	NA	NA	NA
BMS003_00997	954	btuD_3		Vitamin B12 import ATP-binding protein BtuD	TTGCGCCCTTTGCGTATAACTAATAAAAGTATGCACCTACAGATCAAACAATCAGATATTGGTTACAATACAACACTAATTTCCAATGCTAATGCAAACCTGAAGCTTGGCGATGTGTGCCTGTTGATTGGTAATAATGGTGTAGGAAAAACTACATTAATCAAATCCATTCTGCATCAGATTCCTTTATTGAACGGGGAAATTGCTATTAACGGCAAAAACGTAAGAAATCTTTCTGTAAAAGAAATTGCAGAAAACATTGCTATTGTCTTTTCGAAATCGGTTATCCCGCAGCATTATACGGTTGAAGATCTTATTTCTCTCGGAAAGTATATCTACTACCCTTTTTATTTTGAGTTAAAAAAAGAAGACCGTGAAGAAGTTGCCTATATCATTGAAGAGCTGGATCTGACTCAGTACAGATATACTCTTTTGAAAAATCTTTCAGACGGGAACCTTCAGAAAGCATTTATTGGGCGTGCTATTACTCAAAATTCACCCATTATTATTCTGGATGAACCTACCACCCATCTGGATGAAAAAAACAAAATCATTATTCTTAAAACCTTAAGAAAACTGGCTAAAGGGCAGAACAAGCTCATTCTGTTTTCGTCCCACGACTGGCGACTGGCTAAAGAGTTTGCAGATAAAATATGGTATGTAAAGGAAAAACATTTGTATTCAGGGATTGTAGAGGACATTTTGCTGCAGCATGAAGAGCTTATTAACCCTTCGTTATTTCAAATCAATGAGACCTTTATTCCGCCTTTTATCTCTGCGCCGCAGTTTTACAAGGAAATGCTGTATTCTCTGCTTCAAAAAAACTTCCAGAAAGACCTTTCTGCCCTTAATTTCGAGTTTCAGAACACTTTTTGGGTAATTACTAAAGATTCCGCTACTTATCAATGTGAATCTTTTGAAGAAATCATCAATTTACTCACAAACATTCATTAA	MRPLRITNKSMHLQIKQSDIGYNTTLISNANANLKLGDVCLLIGNNGVGKTTLIKSILHQIPLLNGEIAINGKNVRNLSVKEIAENIAIVFSKSVIPQHYTVEDLISLGKYIYYPFYFELKKEDREEVAYIIEELDLTQYRYTLLKNLSDGNLQKAFIGRAITQNSPIIILDEPTTHLDEKNKIIILKTLRKLAKGQNKLILFSSHDWRLAKEFADKIWYVKEKHLYSGIVEDILLQHEELINPSLFQINETFIPPFISAPQFYKEMLYSLLQKNFQKDLSALNFEFQNTFWVITKDSATYQCESFEEIINLLTNIH				NA	NA	NA	NA	NA
BMS003_00998	456			hypothetical protein	ATGATGGATAATAATAAGGAAAAAATAGAAAACGTAGATTTAATTTTAAAACAGACCTGGCTGGCTGTTTCTAAAATGTACACAGAATTAGCTCAGGAACATGATTCCACAGCAGTACAGGCACTCACTCTTCTTAAAATAGATCCTAAAGAGGGAACCCGAAGTACCAATCTCGGTCCGAAGATGGCTATTGAGCCCACTTCACTAACGAGAATCATCAAACTTCTGGAAGATAACGGATATATCTATAAGGAAAAGACCACCACCGATAAAAGAGAGGTTATCATTAAACTTACAGACAAAGGATTAAACTCCAGAAACATGTCTAAGGAAGTGGTTGTGAATTTCAACAAGAAGGTGATGGAGAAAATTGCTCCGGAAAAACTGGATGCTTTCAAAGATGTGATGGCTGAGATCATGAAAATAGCAAACGAATTATTGAATAACAGAAAATAA	MMDNNKEKIENVDLILKQTWLAVSKMYTELAQEHDSTAVQALTLLKIDPKEGTRSTNLGPKMAIEPTSLTRIIKLLEDNGYIYKEKTTTDKREVIIKLTDKGLNSRNMSKEVVVNFNKKVMEKIAPEKLDAFKDVMAEIMKIANELLNNRK	PGPT0013155_3159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS003_00999	2442	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGAAACCTGTGGGTTCATATAATCTTATAAAAAATAAAAATTTACATATGAAAAGAAGAATCAAACATGTAACGGTTCTTGGTTCAGGAATTATGGGAAGCGGTATTGCTGCTCACTTCGCCAATATTGGCGTGGAAGTAACACTCTTGGATATTGTTCCTTTCGAACTTACTGAAGCTGAACAGAAAAAAGGTTTGACCAAAGATGACAAGGTAGTAAGAAACAGAATTGCTTCCGAAAACTTTGAAAAACTAAAAAAAGCAAGTCCTGCACTTCTTTACTCACCAAAGTTTGCAGACAGAATTACAATCGGAAACTTCGATGATGATTTGCCGAAAATAAAAAATACTGACTGGATCATTGAAGTAGTAGTAGAAAGACTTGACATCAAGAAGTCCGTATACGAAAAGATTGAGCAGTTCAGAAAACCGGGGACACTGATTTCTTCCAATACATCAGGTATTCCTATTCATTTCCTTACAGAAGGAAGAAGCGAGGATTTCAAAAAATACTTTGCTGGAACACACTTCTTCAACCCTGTAAGATACCTTCCTCTTTTAGAGATTATCCCAACTAACGATACGGATCCTGAAATCATAGATTTCTATATGAATTACGGAGCAAAATTCTTAGGTAAAACAACTGTTTTAGCAAAAGATACTCCTGCATTCATCGCCAACAGAATTGGTGTATTTTCTATGATGGATCTTCTTCACAATGTACAGAAATTAGGTCTTACCGTTTCTGATGTTGATAAATTAACAGGTCCGGTAATCGGGCGGCCAAAGTCTGCTACGTTCAGAACAGCTGACGTTGTAGGTCTTGATACTCTGGTAATGGTAGCCAATGGCGTTCGTCAAAGCGGTGCGGAAGCTAATGATTTCAATGATGTATTTGCCCTACCTCCTTATATCCAGAAAATGATGGATAATAAATGGTTAGGTTCAAAAACACAACAAGGTTTCTACAAAAAAGTGAAAAACGCAGAAGGAAAATCTGAAATTCACGGATTAAACCTTGATACTTTAGAGTATGAACTTCAAGGAAAATCATCCTTCCCTACTTTAGAATTAACAAAATCTATTGATAAGCCAATTGACAGATTCAAAGTACTGATCGGTGGTAAAGATAAAGCAGGTGAACTGTACAGAAAATCGTTAGGAGCTCTATTTGCTTACGTTTCTCATAAAGTTCCTGAAATCTCTGACGAAGTTTACAAAATAGACGACGCTATGAGAGCTGGTTTCGGATGGGAAAACGGACCATTTGAGATTTGGGATGCTGTAGGCGTTCAGAAAGGTATAGAGCTGGCAAAAGATGCAGGATACGAAGTTTCGGACTGGGTAAAAAATGTAGACACATTCTATAAGGTTAATGACGAAGGACAAAGCATTTATGTTGATAAAAATTCGGGAGAATACAACAAAATCCCTGGTCAGGATGCATTCATCATCTTAGATAATATAAGAAAAAATAAAACACTTTGGAGCAATTCCGGTGCCGCTATTGAAGATTTGGGAGATGGTATCATCAACTTCGAAATCCGCTCAAAAATGAACTCTCTCGGAGGCGAAGTTCTTGACGGATTAAACAGGGCAATTGACTTAGCAGAAAAAGAATATGACGGATTGGTAGTTGGAAACCAGGGTGCTAATTTCTCTGTAGGTGCTAATCTTGCTATGATTCTGATGATGGCTATTGAGCAGGACTGGGATGATTTGAACATGGCCATCGCTTACTTCCAGAAATCAATGATGAGAGTACGCTACTCTTCTATTCCTGTAGTGGTTGCTCCTCACGGAATGACTCTAGGTGGAGGATGCGAAATGACCATGCATGCTGACCGAGTGGTTGCAGCAGCAGAAACGTATATCGGACTTGTAGAAACCGGAGTTGGAGTAATTCCTGGTGGTGGGGGTACTAAAGAATTGACTTTAAGAACTTCCAGAGAATTCCACAGCGATGATGTTAAAAATAACAGACTTCGTGATGCTTTCATGAACATCGCCATGGGTAAAGTAGCTACTTCTGCTTATGAAGCTTATGACATGGGAATCCTTGAAAAAGGAAAAGACATCGTTTCAGTAAGCAAAAACAGACAGATTGCCGAAGCTAAAAAGGTAGCAAAACTATTAGCAGAACAAGGATATACCCAGCCTATCGAGCAAAAAGTAAAAGTTCTTGGTAAAGATGCATTAGGAATGTTCTACGTAGGAACAGACCAGATGCTAACCGGAAATTTCATCTCTGCACATGATAAAAAAATTGCTGATAAACTGGCCAACGTAATGGTAGGCGGAAACTTATCTGAACCAACTGTAGTAACAGAACAATACTTATTGAACCTTGAAAGAGAGACCTTCCTTCAGCTTTGTGGAGAAAGAAAAACTCTGGAGAGAATTCAGTATATGTTGCAAAATGGAAAACCATTGAGAAATTAA	MKPVGSYNLIKNKNLHMKRRIKHVTVLGSGIMGSGIAAHFANIGVEVTLLDIVPFELTEAEQKKGLTKDDKVVRNRIASENFEKLKKASPALLYSPKFADRITIGNFDDDLPKIKNTDWIIEVVVERLDIKKSVYEKIEQFRKPGTLISSNTSGIPIHFLTEGRSEDFKKYFAGTHFFNPVRYLPLLEIIPTNDTDPEIIDFYMNYGAKFLGKTTVLAKDTPAFIANRIGVFSMMDLLHNVQKLGLTVSDVDKLTGPVIGRPKSATFRTADVVGLDTLVMVANGVRQSGAEANDFNDVFALPPYIQKMMDNKWLGSKTQQGFYKKVKNAEGKSEIHGLNLDTLEYELQGKSSFPTLELTKSIDKPIDRFKVLIGGKDKAGELYRKSLGALFAYVSHKVPEISDEVYKIDDAMRAGFGWENGPFEIWDAVGVQKGIELAKDAGYEVSDWVKNVDTFYKVNDEGQSIYVDKNSGEYNKIPGQDAFIILDNIRKNKTLWSNSGAAIEDLGDGIINFEIRSKMNSLGGEVLDGLNRAIDLAEKEYDGLVVGNQGANFSVGANLAMILMMAIEQDWDDLNMAIAYFQKSMMRVRYSSIPVVVAPHGMTLGGGCEMTMHADRVVAAAETYIGLVETGVGVIPGGGGTKELTLRTSREFHSDDVKNNRLRDAFMNIAMGKVATSAYEAYDMGILEKGKDIVSVSKNRQIAEAKKVAKLLAEQGYTQPIEQKVKVLGKDALGMFYVGTDQMLTGNFISAHDKKIADKLANVMVGGNLSEPTVVTEQYLLNLERETFLQLCGERKTLERIQYMLQNGKPLRN	PGPT0008395_600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
BMS003_01000	465			hypothetical protein	ATGGCAAATACCTACACTCAGATTTATATTCAAATTGTTTTCGCAGTAAAAGGAAGACAAAATCTGATTTCAAAAGAAAACAGAGAAGAATTACATCAGTTTATAACAGGTATTGTTTCCAATAGAAACCAAAAATTATTCGCAGTTTTTGCAATGCCGGACCATGTTCATATTCTTGTAAGTATGAATCCGACATTTTCAGTTTCGGATTTAGTAAGAGATATTAAAGCGGGTTCTTCAAAATTCATCAATGAAAAAGGATGGATGAATGGAAAATTCAATTGGCAGGAAGGGTACGGAGCTTTTTCTTATTCTAAAAGCAGTGTTGATTCTGTTGTAAAATATATTTTAGATCAGGAAGAACATCATAAAAAGAAAACATTTAGAGAAGAATATCTGGATTTTATGTCAAAATTTGAAATAGAATATGATCCAAAATATTTATTTGAATGGATTAATGATTAA	MANTYTQIYIQIVFAVKGRQNLISKENREELHQFITGIVSNRNQKLFAVFAMPDHVHILVSMNPTFSVSDLVRDIKAGSSKFINEKGWMNGKFNWQEGYGAFSYSKSSVDSVVKYILDQEEHHKKKTFREEYLDFMSKFEIEYDPKYLFEWIND	PGPT0030655_2818	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS003_01001	1179	fadA	COG0183	3-ketoacyl-CoA thiolase	ATGAAAACAGCATACATAGTAAAAGGTTTCAGAACTGCCGTTGGAAAAGCTCCAAAAGGAAGTTTAAGATTTACAAGACCTGATGTAATGGCAGCTACCGTTATTGAAAAATTAATGGCAGAGCTACCCCAATTGGATAAAAACAGAATTGACGACCTTATCGTAGGAAATGCAATGCCGGAGGCAGAACAGGGGCTGAACGTTGCACGTCTGATCTCTTTGATGGGGTTAAATACCGACAAAGTTCCGGGAGTAACCGTGAACAGATACTGTGCATCAGGAAGTGAGGCAATTGCTATTGCTTCTGCAAAAATCCAGGCTGGTATGGCAGATTGTATCATTGCGGGTGGTACAGAATCTATGTCATATATTCCAATGGGAGGTTACAAGCCGGTTCCGGAAACGGATATCGCAAAAACAAACCCAGATTATTATTGGGGAATGGGTTACACTGCGGAAGAAGTTGCAAAACAATATCATATTACAAGAGAAGAACAGGATCAGTTTGCTTTTGAATCTCATATGAAGGCTTTAAAAGCTAATCAGGAAGGGAAATTTGCCAACCAGATTGTTCCTCTTCCTGTAGAATATAATTTCCTGGATGAAAACCAGAAACTACAGACTAAAAAGTTTGATTTTTCAGTAGATGAAGGGCCTAGAGCTGATACTTCTTTAGCTGGTTTAGCAAAATTAAGACCTGTATTTGCCAACGGAGGAAGCGTAACTGCCGGAAACTCTTCTCAAATGAGTGACGGTGCCGCTTTTGTGATGGTAATGAGCGAGGAAATGGTAAAAGAATTAGGGCTGCAGCCTGAAGCAAGATTAGTAGCTTATGCAGCAGCCGGATTAGAGCCAAGAATTATGGGAATGGGGCCTATCTATGCTATTCCAAAAGCATTGAAACAGGCCGGTTTAGAATTAAAAGACATCGATTTGATTGAGCTTAACGAAGCTTTCGCCTCTCAATCTGTTGCAATCAAAAAAGAATTAGGCTTAAACCCAGACATTTTAAACGTAAACGGAGGAGCTATCGCCCTTGGACACCCGCTTGGATGCACAGGAACAAAACTGACAGTACAGCTTCTTGACGAAATGAGAAGAAGAGGCAACAAATACGGAATGGTTTCTATGTGTGTAGGAACCGGACAGGGAGCTGCTTCTATTTTTGAACTACTTTAA	MKTAYIVKGFRTAVGKAPKGSLRFTRPDVMAATVIEKLMAELPQLDKNRIDDLIVGNAMPEAEQGLNVARLISLMGLNTDKVPGVTVNRYCASGSEAIAIASAKIQAGMADCIIAGGTESMSYIPMGGYKPVPETDIAKTNPDYYWGMGYTAEEVAKQYHITREEQDQFAFESHMKALKANQEGKFANQIVPLPVEYNFLDENQKLQTKKFDFSVDEGPRADTSLAGLAKLRPVFANGGSVTAGNSSQMSDGAAFVMVMSEEMVKELGLQPEARLVAYAAAGLEPRIMGMGPIYAIPKALKQAGLELKDIDLIELNEAFASQSVAIKKELGLNPDILNVNGGAIALGHPLGCTGTKLTVQLLDEMRRRGNKYGMVSMCVGTGQGAASIFELL	PGPT0001565_3280	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
BMS003_01002	357			hypothetical protein	ATGAGTTTCAAAGAAGACAATTTGATCCAAATAAAAACTTTTGATTTTGCCTTAAGAATAATTCAATTTTATACTGAATGTAAATCTCAAAACGAGTTTATTTTATCAAAACAAATTCTTCGCTCTGGAACGTCAATTGGAGCAAATGTAGAAGAAGCTATAGCCGCACAATCTAAAAAGGATTTTATTTCAAAGCTTTCGATTGCAAATAAAGAGGCAAGAGAAACAAGATATTGGCTGAAACTTTATCATTATTCAAATCTTGTTCAAATTGAGATCAATTCATATTTAACAGACATTGAAATGATCATTAATATTTTGACTAAAATCATTAAAACATCATCTGAAAATTTATAA	MSFKEDNLIQIKTFDFALRIIQFYTECKSQNEFILSKQILRSGTSIGANVEEAIAAQSKKDFISKLSIANKEARETRYWLKLYHYSNLVQIEINSYLTDIEMIINILTKIIKTSSENL				NA	NA	NA	NA	NA
BMS003_01003	1779	fadE	COG1960	putative acyl-CoA dehydrogenase	ATGAGCAATATACTTAAAGGCGGGGAATTCCTAATCAAACAGATTCCTGCAAACGAAATTTTCAGTATTGAAGAGCTGAACGAAGAACAAAAAATGCTTCGTGATTCTGCAAAAGAATTCATTGACAGAGAAGTAGTTCCTCAAAGAGAACGTTTTGAGAAGAAAGATTATGCATTCACTGAAGAGACAATGCGTAAGCTGGGAGAAATGGGAATGCTGGGAATAGCAGTTCCTGAAGAATACGGAGGTCTTGGGATGGGCTTTGTGACTACAATGCTTGCCTGCGACTACCTTTCCGGAACTACAGGTTCATTGGCAACAGCTTATGGAGCACACACAGGTATCGGTACACTTCCTATCGTTCTTTACGGAACTGAAGAGCAAAAGAAAAAATACCTTCCGGATTTAGCAACAGGAACAAAGTTTGGAGCTTACTGCCTGACGGAGCCGGATGCTGGTTCTGATGCCAATTCCGGAAAAACAAAAGCAAAACTTTCCGAAGACGGGAAACATTATATCATCAATGGACAGAAAATGTGGATCTCTAATGCAGGATTTGCAGATACATTTACATTATTCGCTAAAATTGATGATGATAAAAATATCACAGGTTTTGTAATCAACAGATCTGAGCTTGAAAACCATGAAAGCTTAACTTTCGGTGAGGAAGAGCACAAACTGGGTATCCGTGCTTCTTCTACCCGTCAGGTGTTCTTCAATGATATGAAGATTCCTGTAGAAAATCTTTTAGGAGAAAGAAACAATGGTTTCAAGATCGCTTTAAATGCATTGAACGTAGGCCGTATCAAATTAGCCGCTGCTTGTCTTGATGCACAGAGAAGAATTCTAAACCACTCTATCCAGTACTCTAACGAAAGAAAACAATTTGGGGTTTCTATTGCTACTTTCGGAGCTATCAGAAAGAAAATTGCTGAAATGGCAACCGGAGTTTTCGTGAGTGAAGCAGGTTCTTACAGAGCTGCTAAAAACGTTCAGGATAAAATTGATGAATTAGTAGCAGGGGGATTAAGCCATCAGGAAGCAGAATTGAAAGGGGTTGAAGAATTCGCTGTAGAATGTTCAATCCTTAAAGTATTTGTTTCTGATCTTGCTCAGCACACCGCAGATGAAGGGATTCAGGTATACGGAGGGATGGGATTCTCTGAAGACACTCCTATGGAAGCAGCATGGAGAGATTCAAGAATTTCAAGAATCTATGAAGGTACCAACGAAATCAACAGATTACTAGCAGTAGGAATGCTTATTAAGAGAGCAATGAAAGGTGAATTGGATCTTTTATCTCCTGCCATGGCTATCAGCAAAGAATTGATGGGAATCCCTTCATTTGAAGTTCCTGATTATTCAGAATTCATGAGTGAAGAAAAAGCAATTATCGCAAATCTTAAGAAAGTATTCTTAATGGTTTCCGGAGCAGCTCTTCAGAAATATATGATGGACATTGAAAAACAACAGCATTTACTATTGAATGCATCTGAAATCCTTAACCAGATCTACATGGCAGAATCCGCAGTATTAAGAGCAGAGAAACACTTCTCTCCTGAATCTGTAGAAGCAGCTATGGCTCAATTAAACCTTTACAAAGCTGTTGAGAAAATCATCACTGCGGCTAAAGAAGGAATTGTTTCTTTTGCCGAAGGAGATGAGCAGAGAATGATGCTTTCAGGATTAAGAAGATTTACGAAATATACCAATCATCCTAATGTAGTAGCGCTTACTGAAAAAGTAGCAGCACACTATATCGAGAAAGGAGCTTATTAG	MSNILKGGEFLIKQIPANEIFSIEELNEEQKMLRDSAKEFIDREVVPQRERFEKKDYAFTEETMRKLGEMGMLGIAVPEEYGGLGMGFVTTMLACDYLSGTTGSLATAYGAHTGIGTLPIVLYGTEEQKKKYLPDLATGTKFGAYCLTEPDAGSDANSGKTKAKLSEDGKHYIINGQKMWISNAGFADTFTLFAKIDDDKNITGFVINRSELENHESLTFGEEEHKLGIRASSTRQVFFNDMKIPVENLLGERNNGFKIALNALNVGRIKLAAACLDAQRRILNHSIQYSNERKQFGVSIATFGAIRKKIAEMATGVFVSEAGSYRAAKNVQDKIDELVAGGLSHQEAELKGVEEFAVECSILKVFVSDLAQHTADEGIQVYGGMGFSEDTPMEAAWRDSRISRIYEGTNEINRLLAVGMLIKRAMKGELDLLSPAMAISKELMGIPSFEVPDYSEFMSEEKAIIANLKKVFLMVSGAALQKYMMDIEKQQHLLLNASEILNQIYMAESAVLRAEKHFSPESVEAAMAQLNLYKAVEKIITAAKEGIVSFAEGDEQRMMLSGLRRFTKYTNHPNVVALTEKVAAHYIEKGAY	PGPT0002285_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS003_01004	312			hypothetical protein	ATGAAATTTATATTATTTCCCTTACTCCTGATATCAGCTTCTCTGACGGCACAAAAAAAGGATCACTTAAGACCACTTATTAAAACAGATACCATAAAGAAATCAGATACGGAAAAATTACCAGCATCTTTTGGGCTGAAACAGGATCAGCAGATAGTATTGTATAAAATACTGATAAAAAAGCCTGGTGATACCATCACATATCTTGCCCTAAAAGAACCTTCAAAAGACAATTCACAATACAAAATTTTGAACGCCATTACCCCGGACAGGCTTCCAGCAAACCACAAAAAGCTGGCACCATCCAAATAA	MKFILFPLLLISASLTAQKKDHLRPLIKTDTIKKSDTEKLPASFGLKQDQQIVLYKILIKKPGDTITYLALKEPSKDNSQYKILNAITPDRLPANHKKLAPSK				NA	NA	NA	NA	NA
BMS003_01005	336			hypothetical protein	ATGGGAAAATTTATCATCTCTAAAAGAACAAACGGAGACTTTCAATTTAACCTCAAAGCAGGAAACGGACAGGTTATTTTAACCAGCCAGGGATACAGCACAAAATCATCCTGCGAAAACGGCATCGGGTCTGTAAAAACCAATTCACAGGAAGATTCAAAATTCGAAAGAAATACGGCCAGCGACGGCAGATGCTATTTTAATCTTAAAGCAGGAAACGGGCAGATCATAGGAACCAGCCAGATGTATGAATCTGACAATGGCATGGAGAACGGTATAGAATCCGTAAAAAACAATGCCCCACATGCTCATATAGAGGATGAAACCGACTTGTAA	MGKFIISKRTNGDFQFNLKAGNGQVILTSQGYSTKSSCENGIGSVKTNSQEDSKFERNTASDGRCYFNLKAGNGQIIGTSQMYESDNGMENGIESVKNNAPHAHIEDETDL	PGPT0021560_4786	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
BMS003_01006	447			hypothetical protein	ATGACAAAAGAAGAATTACTGAATAAAGCAATCAAAATTGCCGATAAGGCTCATAAAGGACAAACAGATAAATACCATGCTCCATACATTGGCCACGTAATGCGTGTGATGAATTATGGTAAGACACTGGATGAAAAAATTGTGGGAGTACTGCACGATGTGGTAGAAGATCACCCACAGGAGTTCAGCCTGGATTATTTGAGGTCTGAAGGCTTTCCCGAATATATTATTTTCGCAATCAGCTGCCTTACAAAGTTTGATCCTGAAGAAGATTATGATGAGTTTATCAAAAGAACGGAAAGATCTCTCCTTTCCGTTGCCGTAAAACTGAATGACCTTCGTGACAATATGGATCTAAGAAGAGTCAACAGAGAACTTACCCCTAAAGACATTAAGAGATTTAACAAATATCTGAAAGCCTATCGCTATCTGATAGAAAAATATTAA	MTKEELLNKAIKIADKAHKGQTDKYHAPYIGHVMRVMNYGKTLDEKIVGVLHDVVEDHPQEFSLDYLRSEGFPEYIIFAISCLTKFDPEEDYDEFIKRTERSLLSVAVKLNDLRDNMDLRRVNRELTPKDIKRFNKYLKAYRYLIEKY	PGPT0014310_4937	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS003_01007	2049	htpX		Protease HtpX	ATGACTAATAACCTTCCCAAAATTTCATCGGCTTATCAATCTAAGCTGGTTTCTGCTATTGTATCTATTTCAGTTTTTTTCCTGATCTACCTGATACTTATACTCGCTTCTCTGCTCATGGTATTCTTATTAGGATACGGAGCTATAAAAATGTTGAGTGTTTCTATCAATTATTTTACAGTTTTAGGAGCAGCCGGGCTTCTGAGTGTAGGAGTTTTTGTGTTTATATTCCTTGTTAAATTTATTTTCAGAAAAAACCATTACAGTACACGTCATCTGTTGGAAATCAACCGGTCTCATCAACCTGAACTGTTTGCTGTCATTGATGAGATTGTTGCTGAAACAAAAGTAAAAGCCCCGCAAAAAGTTTTTCTTTCTCCGGATGTAAATGCTAGTGTAAGCTACAATTCTATTTTCTGGAGCATGTTTCTGCCCGTAAAGAAAAATCTCACGATTGGCGTTGGCCTCATCAACTCTACAAGTGTAGGAGAATTAAGAACAGTTCTGGCTCACGAATTTGGCCATTTCTCTCAAAAAAGCATGAAAGTGGGTGGTTATGTGAATCAGGCTGAAAAAATAATTTTCGAAACCGTTTACAATAATAAAGATTATGAAAACTTCATTATGGAATTTTCTGGAGGGAACGCTATTTTTAAAATTTTCGGACTCATTTCGGTCAGTTTCATTAATGCATTTCAGTCTGTTCTTAAAAGAATGTCCGGCTTTCTTTTCAAAAATCATGCTTCTCTTCAAAGAGAAATGGAATATCATGCAGATGCCGTTTCAACCTATATCACCAACCCTGAAGAACAGGCCGCCTCTTTATTAAGACTGGAATTGAGCGATCTGGCTTTCAATCAATCTTTTAATTTTTATGTGGAAAGTAATCAGAAATATCTTCCCAAAGATCTGTACAGGAATCAGTTTTCTTTAATGAAAATTTTATCCGAAAGAAATAATCATCCTTACATAAACGGACTTCCAAAAATAGATGCCGAAGATCTTACCCGCTATAATAAATCCAGAATAGAAATTGAAGATCAGTGGACTTCGCATCCTGATATTATAAAAAGAATTGAAAGGATTCAAACAAACGAAACCAGAAATGCAGCAGCTGACCACAGATATGCAAAAGAGATCATCAGCGGATTTGATAAAATCTGTGAAATCATGACCTCAAAGTACCTGACTTTACACGCGGTAAAAAATGTGGGTGAAATGATAGAAGATGAAACTTTCGTTAGACTGTATCTGGATAACAACATCTATCAGGCTTTCAGTTCAAATTTTAACGGATACTATGAAAGACACAATCCTATCATAGAAAATATTGAACCGGTAATTTCTGACACTGCTTTTCAACCGGATGAAGACCTTTTCAGTGACAAAAAAGTATCTCTGGTCTACGAAAAATCAGCAATAGAAGGAGATATTCAGACACTGCAATATATGGCTTCCTATCCTAAAGAAATAAAAACTTTCAGATTTGACGGTACATTATATAAAGCAAAAGATGCTTCAGGTCTTATTCCTAAACTTCAAAGTGAGCTGAAAAGAGTAAAAGAAGAACTTCTGGAAAATGACAAAGCTATCTTTCAGTATTACTATTATATTTCCAATGAAGATATTAAGGAAAAACTTCTTGGCAAGTACAGGAATTTCGCAGTATTAGACAGGGAGTTCGATGTATTCCAGAAAAGCCTGAATGATTTTACAGTATATCTGCAGTTTATGGCTGTTACATTACCTTTTGAAGAAATCCGTAAATACAGAGCCAGGCTGTTGAAAGCAGAAGAACCGTTTAAACTAAAGACTAAAGAGCTTATAGAAAATTCCGCTTACAAAGACGCTTTAACTGTTGAAGATAAAGAACTTTTACAGCAATTTGTCGACTCCGAGTATATTTACTTTAATAAAGACAAATACCTTGAACATGAAGTAAATGCCATATCATTGGTTATTGAAAAGTATCAGGCATTACTGAATGATCACTATCTTAATTCAAAACTGGAACTGCTGAACTTCCAGGCAGCTTTAAATAAGAATTAA	MTNNLPKISSAYQSKLVSAIVSISVFFLIYLILILASLLMVFLLGYGAIKMLSVSINYFTVLGAAGLLSVGVFVFIFLVKFIFRKNHYSTRHLLEINRSHQPELFAVIDEIVAETKVKAPQKVFLSPDVNASVSYNSIFWSMFLPVKKNLTIGVGLINSTSVGELRTVLAHEFGHFSQKSMKVGGYVNQAEKIIFETVYNNKDYENFIMEFSGGNAIFKIFGLISVSFINAFQSVLKRMSGFLFKNHASLQREMEYHADAVSTYITNPEEQAASLLRLELSDLAFNQSFNFYVESNQKYLPKDLYRNQFSLMKILSERNNHPYINGLPKIDAEDLTRYNKSRIEIEDQWTSHPDIIKRIERIQTNETRNAAADHRYAKEIISGFDKICEIMTSKYLTLHAVKNVGEMIEDETFVRLYLDNNIYQAFSSNFNGYYERHNPIIENIEPVISDTAFQPDEDLFSDKKVSLVYEKSAIEGDIQTLQYMASYPKEIKTFRFDGTLYKAKDASGLIPKLQSELKRVKEELLENDKAIFQYYYYISNEDIKEKLLGKYRNFAVLDREFDVFQKSLNDFTVYLQFMAVTLPFEEIRKYRARLLKAEEPFKLKTKELIENSAYKDALTVEDKELLQQFVDSEYIYFNKDKYLEHEVNAISLVIEKYQALLNDHYLNSKLELLNFQAALNKN				NA	NA	NA	NA	NA
BMS003_01008	717			hypothetical protein	ATGAAGCATCTTATAGGCTTAGGTTTACTACTTGGAATTTCTTTTTTTAAAGCACAGGAACATATTTCCAGCTTCAATGCAGTAACTCTGACCTATAAGTTTCATCCGAAATTTTTCATTTATGCTGAAGGGCAGATGCGTGGTAATGAAGATTATACCTATCCTGATTATTATGAAATAAAAGGAGGCTTAGGATATAATCTTACCAAAAATCATAAACCTTTTGTAGGGCTTGGAAGATATGCCAACTATAAAGAACACAGCTTAAGCAAAGAAGAGTTCAGGGTATGGCTTCAGGATATTATTGATATCAAGAAAGGTATTGTAAAGTTTGAAAACCGCTTCCGTGTTGAAAAAAGCTGGTTTTATGAGCCCAAAACAGAGCAGACTTCCCAGAGAATGCGTTACAGATATCGTCTGAATGTAAGTGTTCCCTTAAATTCCAAAACAGTTAAGAAGGGAACTGTCTTTGCCAATGCTTATGACGAAGTTTTCTTTGTTTCTCCCATGAAGCCTGCTTTTGCCAGAAACAGGGTTTATGGTGGTTTCGGCTATCAGATTGATGATTATTTCGGGGTTTTGAGCGGATATCTTTGGCAGCGTGAATTTGAAGCAAAAGGAAACAAAAACTTACATTTTATTTATCTTGCTTTAAATATTAACATAGACGGAACAGGTCATCACACGAAGACTTACGATTTCCCGGGTGCGGATTAA	MKHLIGLGLLLGISFFKAQEHISSFNAVTLTYKFHPKFFIYAEGQMRGNEDYTYPDYYEIKGGLGYNLTKNHKPFVGLGRYANYKEHSLSKEEFRVWLQDIIDIKKGIVKFENRFRVEKSWFYEPKTEQTSQRMRYRYRLNVSVPLNSKTVKKGTVFANAYDEVFFVSPMKPAFARNRVYGGFGYQIDDYFGVLSGYLWQREFEAKGNKNLHFIYLALNINIDGTGHHTKTYDFPGAD				NA	NA	NA	NA	NA
BMS003_01009	1812	btuB_5		Vitamin B12 transporter BtuB	ATGATCAAAAAGATAGGAAGTGCTTTTTTTCTGGGATCTTTACTTTGGGTAAACGCACAGGAAAAGACAACGGATATTGAAAGCATTGAATTTCAGGGAAAATTTATCTCTACACCTTATAAAAGTGCCAACCAGAACATCAGTGTAATCACCAGAGAGGATATTGTAAATTCTCCGGCTAAAAGCATTGATGAAATTCTTCAGCAGGTAACCGGAATGGATATCAGAAGAAGAGGAGCTAATGGGGTACAGAGTGATATCAGTTTCCGGGGGAGCTCATTTGAGCAGGTTTTACTGCTCCTGAACGGTATCAGAATGAATGATTCCCAGACCGGGCACAATAATATGAATATTCCGGTAGATCTGGATGACGTAGAAAAGATAGAAATCATAAAAGGGCCGGCTGCCAGACGTTTCGGACAAAATGCCTATGCCGGTGTTATCAATATTATTACTAAAGCTGCACCCGGAAAAAAAGTAAAGATCAGTGCAGATGGCGGAGACTACAGTACTTATGGTCTTGGGTTCAATGCACAGATTGGAAATGAAAAATTCACCAACTCTCTTCAGGCGAATTCTGCTTCTTCGGAAGGTTATATGTTCAATACTGATTATGAGATCAGAAATGTATTTTATCAGGGAAAACTGAACATCAAAAACGGAGATGTAAGAGTACAGGCAGGTTTTTCTGAAAAGAAATTTGGGGCTAACGGTTTTTACGCCTCTAAAGATGCTACAAAACAGTATGAGGAAACGCAGGCTTCTATTGTAAGTGTGGCTCATCAGCAGACTTTTGGGAAACTAAAGCTTAATTCTAATGTATATTGGAGAAGAGGGCAGGACATGTACCTTTATGACAGATGGAATCCTGATTTTTACCGAAATATGCACATCGGGAATAATGTAGGCGGAGAAGTGAACTCCAGTTACCAGTGGGGACTGGGAACAACCGGAATTGGTGTTGAATTGAGAAAAGAATTTTTAGCAAGCAGTAATCTGGGTGACAGAAACCGTTTTGTGTCTCAGGTTTTCTTTGAACATCATTTTTCATTACTGGATAAAAAACTGAACATCAGCCCGGGAATTTCATGGGCCAATTATTCTAAGGAAGGAAACTTCTTTTATCCGGGATTGGATGTAGGCTACAATTTTAACCCTAATCATAAAATTTACGGAAACATCGCAAAAGTTCACCGTATTCCAACCTTTACAGATCTTTATTATATCAGTAAGACGGAACAGGGAAATCCTGATTTGCAGCCTGAAAACGCTTTGTCAGCAGAGGCAGGATATCAGTACCAAAACAATAGAATTTTAGCCAAAATCAGCGGATTTGTAAGAAACTCCAGCAACTCTATTGACTGGGTAAAAAAAGACCTGAATGATAAAGTATGGTATGCTCAGAATGTGGGAGATATCAAAACCAAAGGAATTGAGGCAGAATGGAGTCACAGGCCGATGGACTGGTTAAAATACACGGTTGGGTATACTTATATTGACAGCAAATATGAAGAAAAGAATGGCCTGGTTTCAAGATATATACTGGATAATCTGAAGCATCAGCTGGTTTCTAAATTAGAACTGAAATTCCTGAAAAACTTTACCAATGAGCTTGTTTACAGATACAATGAAAGGGTGAACCTGGGAAGCTATAATCTGCTTGATGAAAAGCTTAGTTTTTCTAAAAAAGACTACTCTGTGTATGTGCTGGTTAACAATATTACCAATGCAAAATATACGGAAGCGTTTGGGGTCGCAATGCCGCAAAGGTGGTTCCACATTGGGTTTTCTTATACAATCAACATTAAATAA	MIKKIGSAFFLGSLLWVNAQEKTTDIESIEFQGKFISTPYKSANQNISVITREDIVNSPAKSIDEILQQVTGMDIRRRGANGVQSDISFRGSSFEQVLLLLNGIRMNDSQTGHNNMNIPVDLDDVEKIEIIKGPAARRFGQNAYAGVINIITKAAPGKKVKISADGGDYSTYGLGFNAQIGNEKFTNSLQANSASSEGYMFNTDYEIRNVFYQGKLNIKNGDVRVQAGFSEKKFGANGFYASKDATKQYEETQASIVSVAHQQTFGKLKLNSNVYWRRGQDMYLYDRWNPDFYRNMHIGNNVGGEVNSSYQWGLGTTGIGVELRKEFLASSNLGDRNRFVSQVFFEHHFSLLDKKLNISPGISWANYSKEGNFFYPGLDVGYNFNPNHKIYGNIAKVHRIPTFTDLYYISKTEQGNPDLQPENALSAEAGYQYQNNRILAKISGFVRNSSNSIDWVKKDLNDKVWYAQNVGDIKTKGIEAEWSHRPMDWLKYTVGYTYIDSKYEEKNGLVSRYILDNLKHQLVSKLELKFLKNFTNELVYRYNERVNLGSYNLLDEKLSFSKKDYSVYVLVNNITNAKYTEAFGVAMPQRWFHIGFSYTINIK	PGPT0003740_2489	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS003_01010	180			hypothetical protein	ATGAAAATGGAAATATTTACGATGGGAAGAAATAAAAACGGATATATTTTGTGGACTTATTGTTGTTTTACTGCTTATTTTACAGGGTCTTATATGGGTTATAAAAATATATTGCGTTTTTTTATTTACATATTGTTTTGTATTTTAAAATTATTTAAAATTGTATTCATAAATATGTAA	MKMEIFTMGRNKNGYILWTYCCFTAYFTGSYMGYKNILRFFIYILFCILKLFKIVFINM				NA	NA	NA	NA	NA
BMS003_01011	2979	uvrA_1	COG0178	UvrABC system protein A	ATGAAAGCATTCTTTTTTTCAGCGAAAATTCTGTCGGCAATCTTAAAAAAATCCAACTGCAGAATATCGGATGAATTCGGGAATACTGGTAAAAGTTCAATTGATGACAGTCCCGGAATATTCTGCGGCAAAACACCATTACTGACAGCGTTAATGCTGCACAGTCTTTTTATGAATAAACAAAATATGGCTAACACAACAGAAATAGATATAAAGAAACAGATTTTCGTTAAGAATGCACATCTTAACAATCTGAAACATATAGATGTCCTGATCCCGAAAAACAAACTGATTGTTATTACAGGGGTTTCAGGAAGTGGAAAATCATCTTTAGCCTTTGATACTATTTATGCAGAAGGACAGAGAAGATATGTTGAAAGCTTAAGTTCTTATGCCCGCCAGTTCTTGGGAAAATTAGAAAAGCCAAAAGTAGATGACATCAAAGGACTTGCTCCTTCCATTGCCATTCAGCAGAAAGTAATTTCTTCCAATCCACGTTCTACTGTGGGAACTTCTACAGAGATCTATGATTATATGAAGCTTTTATTTGCGAGAATCGGAAGAACCTTTTCACCGGTTTCCGGAGAAGAAGTGAAAAAAGATTCGGTTTCTGATGTTGTAGATTTCATCAAGGCGTCTAAAAAAGATACTTCTTTTCTACTGACCGCTCCTTTGGAATATGATGCAGACAATTTCAAAGAAACCCTGAATGTTCTAAAACTGGCAGGTTTTACAAGACTTGAGATCAATGGGAATATAGCCGGAATTGAAGATCTGGAAAGCTTTGGCTTTGCTCCGGAAAAAGGAATGACCATCAATCTTGTGATCGACCGTTTCTCCTATGAAGAAGACGAAAGTTTTTTACAGAGACTTGCAGATTCTATTCAAATGGCATTCTATGAAGGACGTGGCTACTGTTCATTAAAGAACACAGATACTGAAAAAGTAAAAGAATTCTCCAATAAATTTGAGCTGGACGGAATGGAGTTCCTGGAACCCAACGTTCATTTTTTCAGCTTTAATAACCCATACGGGGCGTGTCCTGCATGTGAAGGATACGGAAAAGTAATCGGGATTGATGAAGATCTTGTTATTCCCAATAAAACCTTGTCTGTCTACGAAGATGCCGTGGTATGCTGGAGAGGAGAAACCATGAGCGAATGGAAAAAGGATTTCATCAAAAAAGCCGGTGACTTCCCTATTCATAAGCCTTATCATCAGTTAACAAAAGAACAGAAAAACTTTCTTTGGAAAGGTGACGGAAAAGGCAATTTCCCGGGCATCAATAATTTCTTCAAAATGCTTGAAGAAAACCTTTATAAAATCCAGTACAGGGTAATGCTTTCCCGTTACAGAGGAAAAACCCTTTGTCCGACTTGTGAAGGATTAAGGCTGCGTGAAGAAACAAGCTGGGTAAAAGTAGACGGACACAATATTCAATCGATGATTGAACTTCCTTTGGATGAACTTGCTCCGGTAATTAACGGATTAAAGCTTTCCGACCATGACAAGGAAGTGGCCAAAAGACTGATCTATGAAATCACCACCCGCCTGGAATTCTTATTAAAGGTAGGATTGGGATATTTAACATTAAACAGAACATCCAATACCCTTTCAGGAGGAGAAAGCCAGAGAATCAACCTGGCAACCAGTTTAGGAAGTTCTTTGGTAGGTTCTATTTATATTCTGGATGAACCATCTATCGGACTGCACTCTAAAGATACCGAAAACCTGATCGAAGTATTGAAAAACCTTCGCGATCTTGGAAATACCGTCATTGTAGTAGAACATGACGAAGATGTGATGAGAGCTGCTGACTATATTATTGATATTGGTCCGGAAGCAGGGTATCTTGGAGGTGAACTGGTATTTTCGGGTGATTATAAAGATCTGAAAAAAGCCAACACCCTTACTTCTGAATATCTTACCGGAAGGTTGGAGATTGAAGTTCCGAAGAAAAGAAGAAAGGCAAAAGAATGGATTCACATTAAAGGTGCACGTCAGAATAACCTTAAAAATATAGATGTAGATGTTCCTTTGGAAAGTCTGGTGGTAATTTCCGGAGTTTCAGGAAGCGGAAAATCTACTTTGATGAAAGAAATCCTTACCAATGACATCCAGATCCAGCTTGGAATGGGTGGTAAAAAAGGAGATTATGATTCTGTAGAATTCCCGAAAAAGCTCATCAAAAATATTGAATTGATTGATCAGAACCCAATTGGAAAATCTTCCCGTTCAAATCCTGTCACTTACTTAAAAGCTTACGATGATATCCGTGATCTTTTTGCCAAACAGAAAGTAGCCAAAATGATGGGTTATAAGCCTAAGCATTTCTCTTTCAACGTAGATGGCGGAAGATGCGATGAATGTAAAGGAGAAGGGGTAATCAATGTTTCCATGCAGTTTATGGCAGACATTGAGCTTGAATGCGAGGTTTGTAAAGGAACAAGATTTAAAAATGAGATCCTTGAAGTAAGATTTGACGAGAAAAACATCTCAGACATTCTTCACATGACGGTAGATGAGGCATTGGAATTCTTTAAAGATAATAATGAAGAAAAGATTGTAACGAAGCTGAGACCTCTTCAGGAAGTAGGTTTAGGCTACCTCCAGCTGGGACAAAGCTCTTCTACCCTTTCCGGTGGTGAGGCACAGCGTGTGAAGCTGGCTTCATTCCTTGTAAAAGGAGTAACAACGGATAAAACCTTATTCATCTTTGATGAACCTTCCACAGGGCTTCACTTCCATGATATTCAGAAATTACTGAAATCATTACAGGCATTAATAGACCTTGGACATTCTGTGATTGTTATTGAACACCAGCCTGATATCATCAAATGTGCTGACCATATTATTGACATCGGCCCGGAAGCCGGAAAACACGGTGGAGAAGTGGTATTTGCAGGAACTCCTGAAGATCTTACAAAAAATAAAAAGTCTTATACCGCAAAATATATCAAAGAAAAATTGGAACAATAA	MKAFFFSAKILSAILKKSNCRISDEFGNTGKSSIDDSPGIFCGKTPLLTALMLHSLFMNKQNMANTTEIDIKKQIFVKNAHLNNLKHIDVLIPKNKLIVITGVSGSGKSSLAFDTIYAEGQRRYVESLSSYARQFLGKLEKPKVDDIKGLAPSIAIQQKVISSNPRSTVGTSTEIYDYMKLLFARIGRTFSPVSGEEVKKDSVSDVVDFIKASKKDTSFLLTAPLEYDADNFKETLNVLKLAGFTRLEINGNIAGIEDLESFGFAPEKGMTINLVIDRFSYEEDESFLQRLADSIQMAFYEGRGYCSLKNTDTEKVKEFSNKFELDGMEFLEPNVHFFSFNNPYGACPACEGYGKVIGIDEDLVIPNKTLSVYEDAVVCWRGETMSEWKKDFIKKAGDFPIHKPYHQLTKEQKNFLWKGDGKGNFPGINNFFKMLEENLYKIQYRVMLSRYRGKTLCPTCEGLRLREETSWVKVDGHNIQSMIELPLDELAPVINGLKLSDHDKEVAKRLIYEITTRLEFLLKVGLGYLTLNRTSNTLSGGESQRINLATSLGSSLVGSIYILDEPSIGLHSKDTENLIEVLKNLRDLGNTVIVVEHDEDVMRAADYIIDIGPEAGYLGGELVFSGDYKDLKKANTLTSEYLTGRLEIEVPKKRRKAKEWIHIKGARQNNLKNIDVDVPLESLVVISGVSGSGKSTLMKEILTNDIQIQLGMGGKKGDYDSVEFPKKLIKNIELIDQNPIGKSSRSNPVTYLKAYDDIRDLFAKQKVAKMMGYKPKHFSFNVDGGRCDECKGEGVINVSMQFMADIELECEVCKGTRFKNEILEVRFDEKNISDILHMTVDEALEFFKDNNEEKIVTKLRPLQEVGLGYLQLGQSSSTLSGGEAQRVKLASFLVKGVTTDKTLFIFDEPSTGLHFHDIQKLLKSLQALIDLGHSVIVIEHQPDIIKCADHIIDIGPEAGKHGGEVVFAGTPEDLTKNKKSYTAKYIKEKLEQ	PGPT0014915_5649	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS003_01012	768	tam	COG4106	Trans-aconitate 2-methyltransferase	ATGCCCTGGAATCCCGAATTATACGATCAGTACAAAGATGTACGCTACAAACCCTTCTATGACTTAGCTTCATTAATCAAACCTGAAAACAATATAAAAGCCATTGATCTAGGCTGTGGTACCGGAGAACAGACCTCCATTCTGACAGAAAAACTGGCAGGTTCCACATTTTTAGGAATAGATTCATCTGCAGAAATGCTGGAGAAATCGAAGAAGTATGAAAATGATCATCTTCATTTTAAGCTTCAGACCATTGAAGAAACAGCACAGTCTGATCAGAAGTGGGATCTTGTATTCAGCAACGCCGCTTTACAGTGGGCTGATGATCACGAAAATTTATTTCCTGAAATCATTGGATTGCTATCACAAAACGGACAATTAGCCATTCAGATGCCTGTACAGAATGAGAATGTTCTCAACCAGATTCTGATGCAGATGGTGGATGAGGAACCTTATGCTTCTTACCTGAATCATTTTAAACGTGACTCTCCGGTGCTTTCAATGGATGACTATGCACAGATATTATTTGATAACGGAATTCAGGATATTGAAATACTTCAGAAGGTCTATCCTATCATTGCAGATGATCATGAGGCTTTATATACCTTTATTTCAGGAACATCCCTGTTACCTTATCTGGAACGACTGGAAGGAGAGCAGAAAGAAAAATTCATCCGTGATTTTAAATCCCGCATCGCCCAAAGATTTACAAAATACCCGGCCATCTATGCATTCAAACGCATCCTGATGTATGGTCGTAAGAAATAA	MPWNPELYDQYKDVRYKPFYDLASLIKPENNIKAIDLGCGTGEQTSILTEKLAGSTFLGIDSSAEMLEKSKKYENDHLHFKLQTIEETAQSDQKWDLVFSNAALQWADDHENLFPEIIGLLSQNGQLAIQMPVQNENVLNQILMQMVDEEPYASYLNHFKRDSPVLSMDDYAQILFDNGIQDIEILQKVYPIIADDHEALYTFISGTSLLPYLERLEGEQKEKFIRDFKSRIAQRFTKYPAIYAFKRILMYGRKK				NA	NA	NA	NA	NA
BMS003_01013	639			hypothetical protein	ATGAAAACCTATAAAATTGCCATAATAGGCGGAACCGGAAAATCCGGACAATATCTGGTACAGCATCTTCTTGAAAAAGGCTATGCTCTTAAACTTTTGGTAAGACATCCTGAAAATTTTACCCTTCAAAATCCGTTCATTGAACTTGTAAAAGGGGATGCGAGGGATGAGAAAGCAATCCATACTTTGATAGAAGGAACAGATTTGGTAATGAGTACTTTAGGGCAGCCAAAAGGAGAAAGGTCCATTTTCAGTGATGCCGCAAAAAATATAATCTCTGTAATGAATCATTATGAAATCAGGCGTTATATTGTAATTACCGGCCTGAGTGTAGATACCCGGTCTGATCATAAAAATGAAAGGGTAAAAATGGCTACAGACTGGATGTATCAGAATTATCCCGAGACAACGGCTGACAAACAAAAGGAGTATGAAATTCTTCAGGAAAGCAATCTCGACTGGACCTTGGTAAGATTACCTCTGATTCACCTTACAGAGGAAAACTTTCCAGCGGAAACAAGTCTTACAGACTGCAAAGGTGAGGGGATCAGTGCGGCAGATCTGGCGGAGTTTTTGGCTTCTCAGATTGAAGATTCTGAGTATATCAGGAAAAGCCCGTTTTTATATAATCTGAAATAA	MKTYKIAIIGGTGKSGQYLVQHLLEKGYALKLLVRHPENFTLQNPFIELVKGDARDEKAIHTLIEGTDLVMSTLGQPKGERSIFSDAAKNIISVMNHYEIRRYIVITGLSVDTRSDHKNERVKMATDWMYQNYPETTADKQKEYEILQESNLDWTLVRLPLIHLTEENFPAETSLTDCKGEGISAADLAEFLASQIEDSEYIRKSPFLYNLK				NA	NA	NA	NA	NA
BMS003_01014	771			hypothetical protein	ATGAAATACTCCGTAGCCATTATTTTCGCCATTCCTCTATTCATACTCAACTGCTCTGTACAAAAGAAAAATACTGAAAGCTATGATTATGAAGTAAAGCTGGATACTTTAACCTTATTTGACCAGAGCAGAAACCGGAAAATTCCTGTCGCTCTTTACCATCCTAAAACTGATGAAAAAATTCCGGATCAACCCATTATTATCTTCAGTCATGGATATGGGGCTAACAGAGGTGGAGATTACTTTGTATATTCTTATTTAACAGAAAAACTGGCTTCAAAAGGTTATTTTACTGTAAGTATTCAACATGAACTTACAACAGACAGCCTTTTACCGACCGAAGGAAATTTACAGATGGTAAGAAGACCTTTCTGGCAAAATGGTTCTGATAATATTTTGTTTGTACTGGATGAACTCAAAAAGATACAACCGGAACTGGATTACCAGCATCTTACACTTATAGGCCATTCTAATGGAGGTGATATGGCAGCATTATTTACTAATCAGCATCCTAATCTGGTATATAAACTGATCACAATGGATAACCGGAGAATGTTTCTGCCAAGAACTTCTGTCCCTAAAGTGTATACTTTGCGTTCCAATGATTATCCGGCTGATGAAGGTGTATTACCTGGTGAAGAAGAACAGAAGAAATACCATATAACTGTACAGGCTACCCTGATCAATCACGGGCATATGGACAATAAAGGAAGTGATGAGGAGAAAAAAGCCTTAAATGATTTTGTATTAAAATACCTTTCTGAACAATGA	MKYSVAIIFAIPLFILNCSVQKKNTESYDYEVKLDTLTLFDQSRNRKIPVALYHPKTDEKIPDQPIIIFSHGYGANRGGDYFVYSYLTEKLASKGYFTVSIQHELTTDSLLPTEGNLQMVRRPFWQNGSDNILFVLDELKKIQPELDYQHLTLIGHSNGGDMAALFTNQHPNLVYKLITMDNRRMFLPRTSVPKVYTLRSNDYPADEGVLPGEEEQKKYHITVQATLINHGHMDNKGSDEEKKALNDFVLKYLSEQ	PGPT0018645_260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS003_01016	1029	degA	COG1609	HTH-type transcriptional regulator DegA	ATGAATAAGAAAAGTGCCACGATATATGATATTTCCAATAAGCTCAACGTAAGTGTGGCAACTGTTTCAAGAGCATTGAATGACCACCCGAGAATAAGCGAGGCTACCAAAGAGCTGGTTCGCAAAACAGCCAGGGAAATGAACTACAAGCAAAATAACCTTGCCAAAGCTTTAAAAAGTGGTGAAACCAAAAATGTCGGAATCATTGTTCCGTATATCAATACCAATTTCTTTTCATCGGTGATAAGGGGCATTGAGGAAGAACTTTCCCCACTCGGTTATCATGTTATTATCTGCCAGAGCCACGAAGATGTCAATATCGAAAAAAGACAGCTTAATACCTTACTGAACGCCCAGGTGGATGGAATTTTTATGTCTGTTTCCAAAACAACAACGGATATCAGCCATATCCAGAATATTATAGACACTTCCAATACGCCGGTCATATTTTTTGACCGTAAAAAAGATATTTCAGGCATCAGTACAGTAACCATTGATGATTATCGTGCCGGATATATGGCTACAGAACACCTTATTAAAGAAGGGTATAAGAATATATGCCATTTTGCAGGAGATCTTAACCTTGAAATTTATCAAAACCGTCTTAACGGATATAAACAGGCTCTGGCAGATCATCATCTTCCTGTAAAAGAGGATAATATTATCTTTACAGGAAGTTCCATTGAAGAAGGTACAGAAGCCATCAAAAAACTTTGGAGTAAAAAATCTGTTCCTGATGCTATATTTTCTTCCAGTGATTTTGCCGCGTTAGGTGCCTGCCAGGAATTGAAGAAACGAAATATCAAAATTCCTCAGGAAGTGGCTATCATTGGGTTTTCCAATGAGCCTTTTACCCAATTTATGGAACTTCCGATCAGTTCTGTTGACCAGACACCTGTATTGATGGGAAAAATGGCGGGACAGGTATTTTTAGAAAGTGTAAAAGAAAACGGTTCCGGTGTTTCTATTGAGAAAAAGGTGGTGCTTACGCCGCAGCTTTATATCAGGAAGTCTTCTAAAAGGAAATAG	MNKKSATIYDISNKLNVSVATVSRALNDHPRISEATKELVRKTAREMNYKQNNLAKALKSGETKNVGIIVPYINTNFFSSVIRGIEEELSPLGYHVIICQSHEDVNIEKRQLNTLLNAQVDGIFMSVSKTTTDISHIQNIIDTSNTPVIFFDRKKDISGISTVTIDDYRAGYMATEHLIKEGYKNICHFAGDLNLEIYQNRLNGYKQALADHHLPVKEDNIIFTGSSIEEGTEAIKKLWSKKSVPDAIFSSSDFAALGACQELKKRNIKIPQEVAIIGFSNEPFTQFMELPISSVDQTPVLMGKMAGQVFLESVKENGSGVSIEKKVVLTPQLYIRKSSKRK	PGPT0017992_6964	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
BMS003_01017	732			hypothetical protein	ATGAAACTCAAATTATTCATTATATTCTCTATTTTTCTAATATTTTATGGATGTGGTTTTGGAAAAGTAGAATGGCAAATTGATGAATTGTATATGCAAAAAATTGAAGGAACTTCTAAAGTGATTTATAAGTTTAGTGCTTGGGGAGGAAGAGATTCAAATGCACGTGGGTTTATGATTTTAGATTCTGTAGAAGCATTTGAAGTGGATTACCAGCGTATTCTTCCATTCTACCAATTATCAGAAATTCCTGATCGGAATGGTATTGAAGGAATAGCACATGACTGCTATGGGACTTGTGGAGATCCTTATTATAATAGTGTTCCCATTTTTAAACCAATGAAAACTGAACAGACAAAGGTTAATGATATTAAACTAATCAACAGAATATATCAATACAAAGGTTATTCTGAGCATACAAGAGGGCTAGAAAGGTATGTTTTTGAAAGATTCAGAGAAACAAAGGATAGTCTGTTTTTCTACAATTTAAACGATGTAGAGGGTATGAACGGCAAGCATCTTGATCAATTAAAGGTAAAAAAAGGTGAGATTTATATTGTATTTAAAAAGAATAATGAAATAAAAAAAATAATTGTTAATGAAGTAAAACTCCACTCAAAAACAGAATCAATAGAAGAGATTAGAGATATTTTCCTGACTCCTAAAAACAAGATTTTTAATAATGAAATATCAGAACGAGGAATATTTAGAGAAGTGAACATTTCTCACTAG	MKLKLFIIFSIFLIFYGCGFGKVEWQIDELYMQKIEGTSKVIYKFSAWGGRDSNARGFMILDSVEAFEVDYQRILPFYQLSEIPDRNGIEGIAHDCYGTCGDPYYNSVPIFKPMKTEQTKVNDIKLINRIYQYKGYSEHTRGLERYVFERFRETKDSLFFYNLNDVEGMNGKHLDQLKVKKGEIYIVFKKNNEIKKIIVNEVKLHSKTESIEEIRDIFLTPKNKIFNNEISERGIFREVNISH				NA	NA	NA	NA	NA
BMS003_01018	1614	uxaA	COG2721	Altronate dehydratase	ATGCAAAAGAAAGTATTGAAGGTTAATCCCAAAGATAATGTAGCCGTAGCTCTGGTTGATCTTAATCAGGGTGAAACAGTTACGTTGGATCATTTTACCTATGAAATGATAAAAGATACAAAGGCTAAGCATAAATTTGTGACAGAAAATCTTTCAGAAGGGGATGCTGTCATCATGTATGGTGTTTTGGTTGGAAAAGCCAGTAGGTTTATTCAGAAAGGTGAAGTCATCACGACTGAAAACGTAAAACATCAGAGTGCAAAAGTAGTAGGTAAAACAGAAACAACGGCCTGGACAGCTCCGAATGTAAACGAATGGAAAGACAGAACATTCATGGGATATCACAGAGAAGACGGACAGGTAGGAACAGAAAATGTATGGTTGTTTTTTCCTTTGGTTTTTTGTGAAAACAGGAACGTGGAGATTTTAAAAGATGTTTTTGAAAAAGAACTCCTATTCGAAAAAGTAACAAAACATCAGCTTTTATTACGATCTCTGGTCAATAATTCAGATACGGAAAACATGGCTGAAGAAGATCAGAATGAAAGAATTTTTAAAAATATTGAAGTTAAATTCATTACCCATCAGGGCGGTTGTGGCGGAATCCGCCAGGATGCAGAAGCTTTAGGTCGCTTACTGGCAGGATACGTTAATAACCCGAATGTAGCAGGAGCAACCGTTTTGAGTCTGGGATGTCAGAATCTGCAGGTTCAGATTTTCCAAGATGCTTTGGAGAAGATAAGTCCTGAGAATAAAAAACCGATCATTGTGTATGAGCAGCAAAAATCAGGAACAGTAGATGAAATGCTGAGCGGGATTATCAAAGATTCTTACGAAGCGATTAAGAAAGCCAATGAGATTCAAAGAAAAGCTGCACCTATTTCAAAATTGGTGTTAGGATTGGAATGTGGCGGTTCAGACGGTTTCTCAGGAATTTCTGCCAATCCGGTTTTGGGGCAGCTTTCAGATTTAATGGCCGGAATGGGTGGAGCAACCATTCTTTCAGAATTCCCGGAATTGTGCGGAGTAGAGCAGGAGCTGGTAAACCGTTGCGTGAATGAAAAAGATGCAGAAAGATTTTTACAGCTGATGAAAGACTTTGAAGAATCAGTCGTTGCTGCAGGATCTGGTTTTGATATGAATCCGTCACCGGGGAATATTAAAGACGGATTGATCACTGATGCCATGAAATCTGCAGGAGCGGCTAAAAAAGGAGGCTCATCTCCCATCAATGATGTTCTTGATTTTACGGAATATATTAAGAAACCAGGACTAAATTTGCTGTGCACTCCCGGAAACGATGTAGAATGTACAACGGCTTTGGTAGGCTCAGGCTCCAATATCGTCTTATTTACCACAGGCCTTGGAACTCCCACCGGAAATCCTGTAGTTCCCGTAGTGAAAATATCATCCAATACCTCACTTTCTGAGAGAATGCCTGATATTATTGACTTCAACACCGGAGATGTGATTACAGGTGAAAAAACAATTGACGAAAAAGCAGAAGAGCTGCTGGAATATATCATCAAAGTCGCCAGTGGAGAAGTAAAAACAAAGGCTGCCATTTTAAATCAAAACGACTTTATTCCCTGGAGAAGAGGGGTTAGTTTGTAA	MQKKVLKVNPKDNVAVALVDLNQGETVTLDHFTYEMIKDTKAKHKFVTENLSEGDAVIMYGVLVGKASRFIQKGEVITTENVKHQSAKVVGKTETTAWTAPNVNEWKDRTFMGYHREDGQVGTENVWLFFPLVFCENRNVEILKDVFEKELLFEKVTKHQLLLRSLVNNSDTENMAEEDQNERIFKNIEVKFITHQGGCGGIRQDAEALGRLLAGYVNNPNVAGATVLSLGCQNLQVQIFQDALEKISPENKKPIIVYEQQKSGTVDEMLSGIIKDSYEAIKKANEIQRKAAPISKLVLGLECGGSDGFSGISANPVLGQLSDLMAGMGGATILSEFPELCGVEQELVNRCVNEKDAERFLQLMKDFEESVVAAGSGFDMNPSPGNIKDGLITDAMKSAGAAKKGGSSPINDVLDFTEYIKKPGLNLLCTPGNDVECTTALVGSGSNIVLFTTGLGTPTGNPVVPVVKISSNTSLSERMPDIIDFNTGDVITGEKTIDEKAEELLEYIIKVASGEVKTKAAILNQNDFIPWRRGVSL	PGPT0018305_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018305-uxaA-K01685	NA	NA
BMS003_01019	1464	uxaB	COG0246	Altronate oxidoreductase	ATGGAAAATCAGATAAAACAAAAACTAAATCGTGAATTCAATGGATTCCAGGAAAAACATCCCATTAGAATAGTTCAGTTTGGAGGTGGGAATTTTATGAGGGGATTTACAGATTATATTATTGATGAATTAAATAAAAAAGCAGGTTTCAACGCCGGTATTGTGAATGTTCAGCCTACACCGGGAGGTTCTGTTTACAAACTGGATGAGCAGGAAAACCTGTACACCCTTTTTACGAGAGGAATCAAGAAAGGTGAAATTATTGATAAAAGGCAGGTGATTTCTTCCATTCAGAAGTCAATGAACCCCTATACACATTATGATGAATTTCTAGCTTTGGCAAAAGAAGAAGAGCTGGAGTTTATCTTTTCCAATACTACAGAAACGGGTATTGCTTATGATGAAACGGAAGAATATCATGCAGGGCCACACAAGAATTTCCCAGCAAAACTGACCGTTTTATTATATGAAAGATTTAGACATTTCGGTGGTGCGCCGGAAAAAGGTTTGAGAATCATTCCCTGCGAACTGATTGAAGATAATGCTTTTGCTTTAAAAAATATCATCCTTCGGTATGCCCAACTCTGGGATTTGGAAGAAGGTTTTGTGCAATGGATTGAACAGTTTAATTATTTCCATAATACTTTGGTAGACAGAATTGTTCCCGGTTATCCTAAAGATGATGCAGCATTCTACGAAGAGCAGCTGGATTATGAAGACCAGATGATGGTTGTTTCTGAAATATTTTTACTTTTTGTTATTCAGGATGTGAAGAATTTAAAAGAAAGAATTCCTTTTGATCAGATTAATGAACAGATCCTGGTGGTAGATGATATCCGGCCTTATCGTCTCAGAAAAGTAAGAATTCTGAATGGCGGACATACTTTAATGCTGGCTCCAGCCATTTTATCAGGAAAAGAAACAGTAAAAGAATCCATTGACAATCCGTTCATCGGGAAGTTTTTAAAAGATGCCATTTTCAATGAAGTCAACCCAACCTTAGGATTGGATGAGAACGAGCTGAAAGATTTTGCTGAAGAAGTTTTCGACAGGTTTAGAAATCCCTTTATTAAGCATCACCTGTCAAGTATCGCATTATATTTTGTATCTAAATTTAAAGTAAGGGTACTCCCGAGTTTATTACAGTATATTGAGATCAATAAAAAATTACCATTCCATATAACGTTCTCTTTAGCGGCTCTTATCAGATTTTATCAGGGAAACTTTAAGGACAAATTACTTCCGTTGAATGATGAACAGACGATAATTGACCGATTCAAAGAAATATGGTCTACCAATGATTATGAAAAGGTAGCGGAACTTGCATTAAGTGAAATTTCCTTCTGGGATACAGATCTTACAGAAATTGAAGGTCTGAAAGACTTTGTAGCAAAAGCTTTGTGGGAGATTGATCATCATGATATAGAACCAGCTTATCAACATTTTGTCCAATTCTATTCTTAA	MENQIKQKLNREFNGFQEKHPIRIVQFGGGNFMRGFTDYIIDELNKKAGFNAGIVNVQPTPGGSVYKLDEQENLYTLFTRGIKKGEIIDKRQVISSIQKSMNPYTHYDEFLALAKEEELEFIFSNTTETGIAYDETEEYHAGPHKNFPAKLTVLLYERFRHFGGAPEKGLRIIPCELIEDNAFALKNIILRYAQLWDLEEGFVQWIEQFNYFHNTLVDRIVPGYPKDDAAFYEEQLDYEDQMMVVSEIFLLFVIQDVKNLKERIPFDQINEQILVVDDIRPYRLRKVRILNGGHTLMLAPAILSGKETVKESIDNPFIGKFLKDAIFNEVNPTLGLDENELKDFAEEVFDRFRNPFIKHHLSSIALYFVSKFKVRVLPSLLQYIEINKKLPFHITFSLAALIRFYQGNFKDKLLPLNDEQTIIDRFKEIWSTNDYEKVAELALSEISFWDTDLTEIEGLKDFVAKALWEIDHHDIEPAYQHFVQFYS	PGPT0018320_224	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
BMS003_01020	1527	exuT		Hexuronate transporter	ATGAAAAAAGAAATATCCCCGAAACAGAGTAATTTCAGATGGACGATCTGCTTGCTTCTTTTTATTGCAACGACCATCAATTATATGGATCGGCAGGTACTGTCACTTACCTGGAAAGATTTCATTGCTCCGGAGTTTCACTGGAATAATAATGACTACGGAAATATCACGGCATTATTTTCTATTTTTTATGCAGGAAGTATGCTTTTTGCAGGAAAGTTTGTAGACTGGATGGACACCCGAAAAGGGTTTCTCTGGGCTATCGGAATATGGTCTGTAGGAGCAGTGTTGCATGCTTTTTGTGGCATTGCTACTTCAGGGGTTCTTACAGGAAACTGGCTGGTAGGTTTTGAAGAGGCCAAACAGATTATCGGAAGGGTAGATCATGTGGGTGCCATTATCAGTACCAGTGTTACCTTGTTTATTTTCGCCCGTTTCGTTCTGGCTGTAGGGGAAGCCGGAAATTTTCCAGCTGCGATAAAAACTACCGCAGAATATTTTCCTAAAAAAGACAGAGCATTGGCTACCAGTATTTTTAATGCGGGTGCAACTGTAGGAGCTTTGGCTGCTCCGGTAACTATTCCTTTTATTGCAAAATCTATGGGATGGGAATGGGCTTTTATTATCATTGGTGCTTTAGGGTTCATTTGGATGGGATTTTGGGTATTTTATTATAAAAAGCCGCAGGATCATCATAAAGTTAATGAACATGAGCTTGCTTATATTCAGCAGGATCAGGATGATTTTGCTGCAGAAGGTTCTTCAGTATCAGAAAAGAAATTCTCTTTTAAAGAATGTTTCAGTTACAGACAGACCTGGGCTTTTGCGTTCGGAAAATTTATGACAGACGGTATCTGGTGGTTTTTCCTTTTCTGGACACCAGCCTATCTGAGTTCTGTTTACAAAATGGATTCTACACAAAGTGCCTTACCTTTATTCGTTCTCTATATGATCACGTTATTTTCTATCATTGGAGGATGGCTTCCTAAGTATTTCGTAGAAAAAAAAGGTATGGATGCTTATTCCGGAAGGATGAAAGCGATGCTGATCTTTGCATTTTTCCCTTTGCTGGCATTATTGGCACAACCTTTAGGCTCTGTTTCGTATTGGATTCCGGTATTGATCATTGGAGTAGCAGGAGCAGCCCACCAGGCATGGTCAGCGAATATTTTCTCTACCGTTGGCGATATGTTTCCTAAAAAAGCTATTGCAACTATTACAGGAATAGGAGGAATGGCAGGAGGAATCGGTTCGTTTCTAATCAATAAATCATCAGGAATGTTATTTGATCATGCACATAAAGCATGGACTACTATTGACGGAATACCTTTGCTTGAGAAATATCCGCAGTACATCAATGAACGTTTACCGGAGAATTTTTTTCACGATCTGGAAAAATCAGGAGCTATTATTTCTGATGGAATTGACAAAGGATATATGATCATTTTCTCGGTATGCGCAGTAGCTTACCTTATTGCATGGAGCGTTATGAAAACACTGGTTCCGAAATATAAAGTGATAAAATAA	MKKEISPKQSNFRWTICLLLFIATTINYMDRQVLSLTWKDFIAPEFHWNNNDYGNITALFSIFYAGSMLFAGKFVDWMDTRKGFLWAIGIWSVGAVLHAFCGIATSGVLTGNWLVGFEEAKQIIGRVDHVGAIISTSVTLFIFARFVLAVGEAGNFPAAIKTTAEYFPKKDRALATSIFNAGATVGALAAPVTIPFIAKSMGWEWAFIIIGALGFIWMGFWVFYYKKPQDHHKVNEHELAYIQQDQDDFAAEGSSVSEKKFSFKECFSYRQTWAFAFGKFMTDGIWWFFLFWTPAYLSSVYKMDSTQSALPLFVLYMITLFSIIGGWLPKYFVEKKGMDAYSGRMKAMLIFAFFPLLALLAQPLGSVSYWIPVLIIGVAGAAHQAWSANIFSTVGDMFPKKAIATITGIGGMAGGIGSFLINKSSGMLFDHAHKAWTTIDGIPLLEKYPQYINERLPENFFHDLEKSGAIISDGIDKGYMIIFSVCAVAYLIAWSVMKTLVPKYKVIK	PGPT0017205_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
BMS003_01021	669	eda	COG0800	KHG/KDPG aldolase	ATGGCAAGATTTAATAGGATAGAAGTCGCCTTAATGGCAAAGCAGACAGGTATTGTTCCTGTATTTTATCACGCAGATATTGAGATTTGTAAGAAAATTGTAAAAGCCTGCTTTGACGGCGGAGCCCGTGTTTTTGAATTTACCAACAGGGGAGATTTTGCGCACGAGGTTTTTGCCGAGCTGGTAAAATATGCAGCTGAAGAAGCTCCGGAAATGATTTTGGGAGTCGGTTCTGTTCTTGATCCGGCAACTGCTTCATTGTACATTCAGAATGGTGCAAACTTTATTGTAGCTCCTGTTTTAAACCCGGAAGTCGCAAAGGTTTGCAACCGGAGAAAAATTGCATGGATGCCGGGCTGCGGCTCTGTTTCTGAAATTTCCTATGCGGAAGAACTGGGCGCAGAGATCGTGAAAATCTTTCCGGCAACACAAGTAGGAGGCCCGGATTTCATCAGGGCTGTAAAAGGTCCTATGCCATGGTCCAATATAATGCCTACAGGCGGAGTGATTCCTGCAAAAGAAAGCATCAGTGAATGGATTTTAGCAGGGGCATATTGTGTAGGATTAGGTTCGCAGCTGTTTGTGAAAGATGAAAATGGAGTGTATGACTATGCAAAAATTACAGAAGCGACAGCAAATTCAATTCAGATCATTAAAGAACTAAGGTAA	MARFNRIEVALMAKQTGIVPVFYHADIEICKKIVKACFDGGARVFEFTNRGDFAHEVFAELVKYAAEEAPEMILGVGSVLDPATASLYIQNGANFIVAPVLNPEVAKVCNRRKIAWMPGCGSVSEISYAEELGAEIVKIFPATQVGGPDFIRAVKGPMPWSNIMPTGGVIPAKESISEWILAGAYCVGLGSQLFVKDENGVYDYAKITEATANSIQIIKELR	PGPT0002060_253	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
BMS003_01022	1005	kdgK_1		2-dehydro-3-deoxygluconokinase	ATGGGCAAAATAGTCACATTCGGTGAAGTGATCATGAGGCTTTCTCCGCCCGGAAACAGAATGATGAAGCAGAGCCACAATATGGAGTTCTTTTTTGGAGGTACTGAGCTGAACGTTGCTTCTTCATTGGCAACGATGGGTTGTGAAGTAAGACATATCAGCTGTGTTTCGGATGATTTTGTAGGAGAATCTGCAGTTTCTTTCATTCAAGGTTTTGGTATTGACACTACTTTTATTCATACAAATGAACATCCTTTAGGGCTGTATTTTCTTGAAGTAGGCTCATCCGTTCGTGCCAGCAGAATTGCCTATAACAGACTGAACGGGTCTTTTGCCAATATCAATCCCGAATATATCAACTGGGAAAAAGCGCTTGAAGGCTGCGAATATTTTCACTGGACAGGTATCAGTCCCGGTATTTCCGAATCTGCTTACGAAGCATTGAAAGAAGGTCTGAAAACTGCTCAGAACAGGGGAATTGAGATTTCCACAGATCCGGCCTACCGTTCCAATCTATGGAAATATGGTAAAAAAGGAGAGGAAGTACTGAAAGAACTGGTTTCTTATTCCTCTATTTTTATTGGAGGAGTAAATGAGATCAATGAAATTCTCGAAACTCAGTTTTCCTCCGACAAAGAAGGTTTCATTGAAGCCTGTAAAGAATTAAAACAACAAATTCCTTCTGTTCACAGGATTTTTGATAAAATAAGAATCGGTGTTACAGCCAGTACACAGCAAACTCAGGGAAGAGCATGGGTAGATGAAACCTATTTTGAAACTGATTTTCTTGAGATTAATCCCGTTGTTGACAGAATAGGAACCGGAGATGCTTTTGCTGCAGGACTGATCTATGGTTTAATACATTTTGATCATCAAAAAGCGCTGAGTTTTGCCAATGCTGCCTGTGCGGTTAAGCATACCATTCCCGGAGATATCAATTACGCAAGTGCAGAAGATATTCTGGAAGTAATGAACGGAAATTCAGGAGGAAGAATAAAAAGATAA	MGKIVTFGEVIMRLSPPGNRMMKQSHNMEFFFGGTELNVASSLATMGCEVRHISCVSDDFVGESAVSFIQGFGIDTTFIHTNEHPLGLYFLEVGSSVRASRIAYNRLNGSFANINPEYINWEKALEGCEYFHWTGISPGISESAYEALKEGLKTAQNRGIEISTDPAYRSNLWKYGKKGEEVLKELVSYSSIFIGGVNEINEILETQFSSDKEGFIEACKELKQQIPSVHRIFDKIRIGVTASTQQTQGRAWVDETYFETDFLEINPVVDRIGTGDAFAAGLIYGLIHFDHQKALSFANAACAVKHTIPGDINYASAEDILEVMNGNSGGRIKR	PGPT0018060_1131	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
BMS003_01023	1398	uxaC	COG1904	Uronate isomerase	ATGAAACCTTTTATAACAGACCAATTTTTATTACAAAATAAATATGCTGAAGAACTCTACTTCAGATTCGCAGAAAAGCAGCCTATCATAGATTATCATAATCATTTGATCCCTAAAGATATTGCAGAAGATACTGTTTTTGATAATATCTCCAAAGTCTGGATTGCTGGTGATCACTACAAATGGAGAGCCATGCGGACGATGGGAGTCAATGAAAAATTCATCACTGGAGATGCTTCGGACAAAGAAAAATTTGATGCCTGGGCAAAAACAGTTCCGTATACCTTGAGAAATCCTCTGTATCACTGGACTCATCTGGAATTGAAAAGATATTTCGGAATTGATGAACTTTTGAATGGAGATAATGCATCGGAAATCTATGAAAACATTACCGCTCAGCTTCAAACCCCTGAAAAGTCTACCAGAGGGCTGTTAAAAATGATGAATGTAGAATCTTTGTGCACTACAGAAGATCCTACAGATACTCTGAATTACCATCAGGATCTGGCGAAAAGTGATTTTAGTATCAAAGTAAGCACGGCATTCCGTCCGGATAAAGCCATTCTGATTGAAAACCACAACTTTGCAGATTATATTACAAAGCTGGGAGCATCAGCAGGCATTGAAATCAATTCTTACCAGACTTTATGTGATGCTTTGCTTAAAAGAATCGAATATTTCCACGAAAACGGATGCAGGCTTTGTGATCACGGTTTAAATAATATTTCTTTTGAAGAAGCTACAGAAGCAGAAGTGAATGCTGTTTTCAATGATAAGCTAGCCGGAAAAGTAATTGCCGAAAAGCAGGTGAATCAATTCAAAACATCCATTTTATTATTCTTAGGGGAAGCCTATCACCAATACGGATGGGTTCAGCAGTTCCATTTAGGGGCTTTGAGAAACAATAATGAAAGAATGCACAGAATTTTAGGACCGGATACTGGCTGGGATTCCATTGGTGATTTTGTACAGGCAGAAACATTATCTAAGTTTTTGAATACTTTAGATGGAAAAGATAAGCTTACAAAAACCATTTTATACAATTTAAACCCTGCTGATAACGAAATTTTTGCAACAATGATCGGAAATTTCAATGATGGAAGTATTAAAGGAAAAGTACAGTTTGGCTCCGGATGGTGGTTCCTTGACCAGAAAGACGGGATGATCAAACAGATGAATGCCCTTTCCAATATGGGATTAATAAGCTGTTTTGTAGGAATGCTGACGGATTCCAGAAGTTTCCTTTCTTACCCGAGACATGAGTACTTCAGAAGAGTATTATGCAACCTTTTTGGAGAAGAAATGAAAAACGGTGAGTTGCCGGATGATATAGAACTGATCGGGAAAACCATTTCAGATATCTGTTATCATAACGCAAAAAATTATTTTGATTTTTAA	MKPFITDQFLLQNKYAEELYFRFAEKQPIIDYHNHLIPKDIAEDTVFDNISKVWIAGDHYKWRAMRTMGVNEKFITGDASDKEKFDAWAKTVPYTLRNPLYHWTHLELKRYFGIDELLNGDNASEIYENITAQLQTPEKSTRGLLKMMNVESLCTTEDPTDTLNYHQDLAKSDFSIKVSTAFRPDKAILIENHNFADYITKLGASAGIEINSYQTLCDALLKRIEYFHENGCRLCDHGLNNISFEEATEAEVNAVFNDKLAGKVIAEKQVNQFKTSILLFLGEAYHQYGWVQQFHLGALRNNNERMHRILGPDTGWDSIGDFVQAETLSKFLNTLDGKDKLTKTILYNLNPADNEIFATMIGNFNDGSIKGKVQFGSGWWFLDQKDGMIKQMNALSNMGLISCFVGMLTDSRSFLSYPRHEYFRRVLCNLFGEEMKNGELPDDIELIGKTISDICYHNAKNYFDF	PGPT0018210_1414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018210-uxaC-K01812	NA	NA
BMS003_01024	783	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAATTTATTTGATCTATCCGGTAAGGTAGCCGTAGTTACCGGTGGTACTCATGGACTAGGAATGGCAATGGCAGAAGGTCTTGCAGAAGCAGGAGCCGAACTGGCCATCACAAGTACAACGCCGTCAAAACTGGAAGAAGCGCTGAGCTATTACCATGAAAAAGGGTATAAGGCAACAGGCTATATTTTTGATGTAACAGATGAGCTGGAAGCCGCCCAGAAAGTAGCATTAATGGAAGCTACCCATGGAAAAATAGATATCCTTGTCAATAACGCAGGTATTATCAAACGTATTCCGGCCATTGATATGGAAGTGGAAGACTTTAGAAAAGTAATTGATGTAGACCTTACCGGACCTTTTATCATGTCGAAATTAATCGGGAAATATATGATCAAAAGGAAATCCGGAAAGATTATCAACATCTGCTCCATGATGAGTGAGCTGGGACGTGATAATGTAACAGCTTATGCTTCTGCAAAAGGTGGTCTTAAAATGCTTACCAAAAACTTAGCAACCGAATGGGCAAAACACAATATTCAGGTGAACGGAATCGGTCCCGGATACTTTGCAACCTCCCAGACAGAACCTATCCGTGTGGATGGAAATCCTTTCAATGATTTTATCATCAGCAGAACACCGGAAGGAAGATGGGGAAACCCGGAAGACCTTGCAGGAACAGCTATTTTCCTTGCTTCTGAAGCAAGCAGATTTATCAACGGACAGATTATTTATGTAGATGGAGGAATCTTGGCCACCATTGGAAAACCTGCTAATGAATAA	MNLFDLSGKVAVVTGGTHGLGMAMAEGLAEAGAELAITSTTPSKLEEALSYYHEKGYKATGYIFDVTDELEAAQKVALMEATHGKIDILVNNAGIIKRIPAIDMEVEDFRKVIDVDLTGPFIMSKLIGKYMIKRKSGKIINICSMMSELGRDNVTAYASAKGGLKMLTKNLATEWAKHNIQVNGIGPGYFATSQTEPIRVDGNPFNDFIISRTPEGRWGNPEDLAGTAIFLASEASRFINGQIIYVDGGILATIGKPANE	PGPT0018070_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
BMS003_01025	837	kduI		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGGCACAATCAGAATTTCGTTACGCCCATCACCCTGAAGATGTAAAAAAATATAGTACAGAAGATATCAGGAGGGAGTTTCTGATCGATAATTTATTCAATGAGGATAAAATAAAGCTGGTCTATTCTATGTATGACAGGCTTATTGTAGGAGGAATAATGCCTTCAGACAAAGCCTTGAAACTGGAAGCGACCAATGACCTGAAAGCAGAGCATTTTCTGGACAGGAGAGAATTGGGAATCATTAATGTAGGAGGAACGGGAAAAGTAACTGTAGACGGAAATGTATACCAGCTTGGAAACAAAGAAGCTTTATATATCGGTAAAGGAGCTAAAAACGTGATCTTTGAAAGAACAGGTGAAGAACAGCCTTATTTCTATATCAATTCAGCTCCGGCACATCATGTATATCCTACAAAGAAAATCACGAAAAATGAAGCAGAAGTGGTGGAACTGGGCGAAGAAAAATATGCGAATAAACGTACCATCAATAAGCTGATTGTTAATTCTGTTGTAGAAACCTGCCAGCTTCAGATGGGGATGACAGAACTTCATCCCGGCAGTGTATGGAACACCATGCCTGCACATACCCACACGAGAAGAATGGAAGCTTATTTCTATTTTGACCTGGAAGAAGGGCAGACGGTTAGCCATTTTATGGGGCAGCCTCAGGAAACACGTCACCTGTTTATGAAGAACAGGCAGGCAGTATTGTCTCCGGAATGGTCTATCCACTCTGGCGTAGGAACTACCAATTATACTTTTATCTGGGGTATGGCCGGAGAAAATATGGACTACGATGATATGGACGGTATTAAAACAAACGAATTAAAGTAA	MAQSEFRYAHHPEDVKKYSTEDIRREFLIDNLFNEDKIKLVYSMYDRLIVGGIMPSDKALKLEATNDLKAEHFLDRRELGIINVGGTGKVTVDGNVYQLGNKEALYIGKGAKNVIFERTGEEQPYFYINSAPAHHVYPTKKITKNEAEVVELGEEKYANKRTINKLIVNSVVETCQLQMGMTELHPGSVWNTMPAHTHTRRMEAYFYFDLEEGQTVSHFMGQPQETRHLFMKNRQAVLSPEWSIHSGVGTTNYTFIWGMAGENMDYDDMDGIKTNELK	PGPT0018245_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
BMS003_01026	3018			TonB-dependent receptor P3	ATGGATAAAAGAGTACAATCAATAAAGTGGTTATATTTAACTGTTTTTCTTCTTCCTGTCCTTTCAATGGCTCAAGAAAAAGAAATAAAAAAAGATAAAGAGACCCAACTGGATGATGTGGTTTTGGTAGGCTATACCAAAGTTTCCAAAAAGGATGTTACCAATGCTGTTTCTTCTGTGAAAGGTGAAGCTCTCAAAGATATGCCTTCCACCAACGCTGCTGAAGCTATCCAGGGAAGGCTGGCCGGTGTACAGGTTTCTCTGAGTGAAGGATCTCCCGGTGCAGATGTAGATATTGTTGTCCGCGGAGGAAACTCCATTACGCAGAGCAATGCCCCACTCTATATTGTGGATGGGATACAGATGGATAATGCACTTACTATACTGTCTCCAAAAGAAATAGAATCTATCGAGGTATTAAAAGACGCTTCTTCCACTTCTATTTTCGGATCAAGAGGAGCCAACGGTGTGGTCCTGATCACAACAAAAGGCGGCAGAAAAAAAGGAAAAACAACGATTAACTATAATGGTTTTGTAGGGGTAAGAAGTATTCAGAACAAGATCAATGTGCTTGATCCTTATGAATATGTGCTTTATCAGTATGAACAATATTATAAAAATGGAGATGCAAAAGATATTGAAACATTTAATCTTCGTTACGGAACTTTTGATCAGCTGGATAAGTACAAATCTGTCAAGAATGTAAACTGGCAGGATAAGCTTTTCGGAAGGGAAGCATTCAACTTTACACATAATGTATCATTATCCGGAGGATCTGAAAACTCTGCATTTTCACTGACTCTTAATAATGTGGAGGAAGACGGAATTATGATCGGTTCTGGATTCAAACGAAATATGGCCAACTTCAGATATGATTATGATATTTCTAAAAAACTGAGCATTGGCCTTAATGCCCGCTACAGCCGTCAGATGATCTATGGAGCAGGAACTTCAGCTTCAGGCTCACAAACGACTAACCGTTTGAGAAATGCTATCAGATATCAGCCATTTGAAGGCGGTTCTACAGTAAACGTAGATGAATTTGATCCTTTATTTGCAGATCAGACCAATCTTGTAAACCCGATTTTACTGGCAAATGATGAGGTAAAAGAAAGTGGTAGAAACGACCTGTTACTGAACGGAACCATTGAGTATAAAATCAGTAAAGATTTTACCTTCCGAAGTGTCATCGGTTATGTACAAAGGGATCAGATCGTAAATCAGTTTTCCGGCCCGGTGACCAGCCTTGCAAGGCAGAACAATGACCAGCCTGTCGTTTTTATGAGCAACTCTCAGACCAGAAGAATTACCAATACCAACACCCTGAATTATAAAAAAGTATTCGGAAATCATAAATTTGATCTCTTAGCAGGCCAGGAAACAGTGAGAACAGATGGAGAGTCTACTTCCATCAATATCAAATGGTTTCCGAAGTCTTCTTCGGCACAGGAAGCTTTTGCCAATTCACAGCTGGCATCACCACCTTCCGGGATGGTTCAGGATGCCCCGAAAACGGCAAGGGAAGTAGACCGCCTGGCCTCTTTCTTTGGAAGGGTAAATTATATCTATAACAACAAGTATATCGCAACGGTTTCCATGAGAGCTGACGGCTCCAGCGTTTTCAAGCCAGGACCTAACCAATGGGGATATTTTCCGGCAGCTTCATTGGCCTGGAAAATAAAGGAAGAAAATTTCTTAAAACAAAGCAATTTTGTCAATGAGCTGAAACTTCGTTTAGGATACGGAAAATCCGGAAATAACAGAATCGGAGCTTTTTTATATGATACCTTCTTTACTTCTTCTTCAGATTACGGATATGCCTTCGGAACCAGTGTTACACCAGGTGCTACTACCGGAAATATTATGGCCAACCCTAATGTAAAATGGGAGACAGCCACTTCCTATAATGCAGGGGTTGATTTCGGATTATTTAAAGGCAAACTTTATGGTACTCTGGATGTCTATAAAACAGATACGAAAGACCTTTTATTATTAGCCAAAATACCGCAGACTTCCGGATATGAGTATCAATATCAGAACTCCGGAAGCAGTGAAAACAAAGGGATAGAATTATCAATGGGAAGTACAATCATCAGCAAAGAAAACTTTTCATGGAAAATTGACGCCAATATCTCTTCCAACAGAAATACCATCAAAAGCTTAGGAAATAACGCTTCAGCAAGCTCCAATTATTATTACTATCCTTCAGGATGGCAGAATAACCTGTTTGATTTCCTTGTACAGGTAGGTAAACCGGTAGGTACTTATTGGGGCTATGTAACAGCCGGAAGATATGAAGTAAGTGATTTCAATTATGATGCAGCTACACAACTGTATACCCTAAAAGCAGGAATTGCAAGCTCTGCTGCAGTAGCTAACGGTGCAAAAGCTGTACAGCCGGGTGATCTTAAGCTTCAGGATCTGAATGGTGACGGAGTGATTGATAACAAAGACATGACTGATCTTGGAAGTGCACAGCCTAAATTCTATGGTGGCTTTACTCAAACATTCCGTTACAAGAACTGGGATATGAGCATACTTTTCAATTTCTCCATAGGAAACAAGGTATACAATGCCAACAAAATAGAATACACTACCCAATATCTGTATAAGGATAATAATATGCTTGCTGAAGTAGCAGACCGCTGGAGATGGTTTGACAATGCCGGAAATAAGGTCACAGATCCTGCCGCTCTTGCCGCTCTTAATGCCAATACCACTATGTGGACTCCTCCCGCAGGAGCTTACTTCCTTCATTCTTATGCCATAGAAGACGGTTCTTTCTTAAGGCTGAATAACCTTACCATTGGATATAGCCTTCCAAAAGGATCTCTGGAAGCTATTGGGGTAAAAAACCTGAGACTGTATGCTACCGTTAATAATTTATTTACGATAACCGGCTATTCTGGATTCGACCCGGAAGCCAATACAAGAAGAAATCCATTAACTCCGGGAGTAGATTATTCCGCTTATCCAAGAAGCCGATTTATTTTATCAGGAGTAGATATTACTTTCTAA	MDKRVQSIKWLYLTVFLLPVLSMAQEKEIKKDKETQLDDVVLVGYTKVSKKDVTNAVSSVKGEALKDMPSTNAAEAIQGRLAGVQVSLSEGSPGADVDIVVRGGNSITQSNAPLYIVDGIQMDNALTILSPKEIESIEVLKDASSTSIFGSRGANGVVLITTKGGRKKGKTTINYNGFVGVRSIQNKINVLDPYEYVLYQYEQYYKNGDAKDIETFNLRYGTFDQLDKYKSVKNVNWQDKLFGREAFNFTHNVSLSGGSENSAFSLTLNNVEEDGIMIGSGFKRNMANFRYDYDISKKLSIGLNARYSRQMIYGAGTSASGSQTTNRLRNAIRYQPFEGGSTVNVDEFDPLFADQTNLVNPILLANDEVKESGRNDLLLNGTIEYKISKDFTFRSVIGYVQRDQIVNQFSGPVTSLARQNNDQPVVFMSNSQTRRITNTNTLNYKKVFGNHKFDLLAGQETVRTDGESTSINIKWFPKSSSAQEAFANSQLASPPSGMVQDAPKTAREVDRLASFFGRVNYIYNNKYIATVSMRADGSSVFKPGPNQWGYFPAASLAWKIKEENFLKQSNFVNELKLRLGYGKSGNNRIGAFLYDTFFTSSSDYGYAFGTSVTPGATTGNIMANPNVKWETATSYNAGVDFGLFKGKLYGTLDVYKTDTKDLLLLAKIPQTSGYEYQYQNSGSSENKGIELSMGSTIISKENFSWKIDANISSNRNTIKSLGNNASASSNYYYYPSGWQNNLFDFLVQVGKPVGTYWGYVTAGRYEVSDFNYDAATQLYTLKAGIASSAAVANGAKAVQPGDLKLQDLNGDGVIDNKDMTDLGSAQPKFYGGFTQTFRYKNWDMSILFNFSIGNKVYNANKIEYTTQYLYKDNNMLAEVADRWRWFDNAGNKVTDPAALAALNANTTMWTPPAGAYFLHSYAIEDGSFLRLNNLTIGYSLPKGSLEAIGVKNLRLYATVNNLFTITGYSGFDPEANTRRNPLTPGVDYSAYPRSRFILSGVDITF				NA	NA	NA	NA	NA
BMS003_01027	1836			hypothetical protein	ATGAACAAAAATAAATTTTCAAGTCTTTTCTTATCTATTGCCTTCGTGGTTACCCTTAATTCCTGCAGTGACTATCTGGAGGTAGAAAATCTCTCCAATACTGCTGAGAAGCAGCAGTTCGACTCAGCACCAGACACTTTTGCCGCCCTTGTCGGGGTCTACAACAGTACTATGGGTGATAATACTTACGGACAAAGAATGAACCTGATCCTGTCCCAATCCGGAGATGATCTCAGAACGTCCGGAGATTATAATGCCAATGACAGAAGAGGAGTCAGCTGTTTTGGGGCTGTCCCTACCAATACAGAATTACTCAAGCCATTTCTGGATACTTATGCAGGTATTGAAAGAGCTAATCTTGTGATCAAAAACATACCTCTTTCTCCGGTATATCAGACTGGATCCGAAGCAGATAAAAAACTGATGGACCGCTATCTGGGTGAAGCCTTAACACTGAGAGCATTATTTTATTATGATCTTATTAAAAACTGGGGTGATGTACCTTTCCAGGAGGTTCCTTCAGCAGATCTTCCATCTGTTTATCTTCCGAAAACAGACCGCGATGTCATTTACGAAAAACTGCTGGACGATCTTGCAAAAGCATCAGCTCTGGTGCCATGGAAATCTGAAGGAGGAACTACAGCGCAAAGACTTTCCAAAGCTGCTGTAAAAGGTTTAAGAGCAAGAATAGCACTGGCAAGAGCCGGGTATTCTTTGAGAAGAAATCCACAACTTATGACACAAGGGACTAATCCCCAGAAATATTATCAGATTGCTTATGAAGAATGTAAAGACATCATCAGTTCCGGACAGCATAAACTGAACCCAAGTTATGAAGGACTTTTCAGATCACTGCATACCAACAGCCCGGATACTACCAATGAAATTATTTTTGCCGTCGGAGCCTTTGGCGGGAACTCAAGAACAGATTCTAAAATAGGATATTATAATGGATTAAGGCATGATGATTCTGACTGGAAATCAGCAGGAGGTATCAGTGCTATCCCTACTTATTTCTATGAATTCAGTAAATATGACCTAAGAAGAGACGTTAATATTGCCATTTTCAGGGTAAGCACTACGAAGCAGGAGGATCTTCAGACTTCTATCAACTGGAATGACGGGAAATTCAGAAAATCATGGACCAGCATTACCGGAACTTCACAGAATTTAGGAATTGACTGGCCACTGCTGAGATATGCAGATATTTTATTAATGTTTGCTGAAGCCGACAATGAACTTCACGGTGCGCCTTCCCAGGAAGCCATTGATGCTGTGCTGGCTGTAAGACAAAGAGCTTATACAGGTAACCTGGGTCAGATAGGAACTATTCCTACTACCAAAAATGAATTCTTTAAATATATTGTCCAGGAAAGATTGCTGGAATTCGGAGGCGAAGGTCTGAGAAAATATGATCTGATCCGTTGGAATCTTCTGGAAACCAAGATCAATGAAACCAGGCAGAAGCTCACAGATTTTATGAACGGAACCGGAGCTTATGCCAATGTTCCTGAGTATATCTTTTATAAGAAGCCAGCTTCCACCGTTTCTAACTATATTCCTACAAAAACTGCCCAGCAAAATGTACTGGATATGGATATTTATGTTAACGGAATTAACAAAGCTGACGTTTTCTACAACCCTAATCAAAGTGTTGCGACTCCTTCCGGATATACAAAAGTAAACTGGAGACTGGCCATGACACAGCCATACATCAACGGAGATCCGGTGAAAAGTTATGCATATTATTTCCAGCCCAACAAAAAGGAACTTCTTCCTATTGCACTGGATGTAATCAATTCAAATTATAACCTTACCCAGGATTACGGATATTAG	MNKNKFSSLFLSIAFVVTLNSCSDYLEVENLSNTAEKQQFDSAPDTFAALVGVYNSTMGDNTYGQRMNLILSQSGDDLRTSGDYNANDRRGVSCFGAVPTNTELLKPFLDTYAGIERANLVIKNIPLSPVYQTGSEADKKLMDRYLGEALTLRALFYYDLIKNWGDVPFQEVPSADLPSVYLPKTDRDVIYEKLLDDLAKASALVPWKSEGGTTAQRLSKAAVKGLRARIALARAGYSLRRNPQLMTQGTNPQKYYQIAYEECKDIISSGQHKLNPSYEGLFRSLHTNSPDTTNEIIFAVGAFGGNSRTDSKIGYYNGLRHDDSDWKSAGGISAIPTYFYEFSKYDLRRDVNIAIFRVSTTKQEDLQTSINWNDGKFRKSWTSITGTSQNLGIDWPLLRYADILLMFAEADNELHGAPSQEAIDAVLAVRQRAYTGNLGQIGTIPTTKNEFFKYIVQERLLEFGGEGLRKYDLIRWNLLETKINETRQKLTDFMNGTGAYANVPEYIFYKKPASTVSNYIPTKTAQQNVLDMDIYVNGINKADVFYNPNQSVATPSGYTKVNWRLAMTQPYINGDPVKSYAYYFQPNKKELLPIALDVINSNYNLTQDYGY				NA	NA	NA	NA	NA
BMS003_01028	1023	pemA_1		Pectinesterase A	ATGAAATATTCCATCTTTTTTAAAAACACTACTCTGTCTTCTGTTGCTCTGATTGCTTTATTCACTCTTCTTTCTTTCAAAATCAAGGATAAAACAATCGTGGTTTCGAAAGACGGGAAAGGTGATTTCACAACTGTACAACAAGCGGTCGATGCTATTGAAAACAATTCTTTAACGAGAACAAAAATTTTTATTAAAACCGGAATTTATAAGGAAAAGATTATAATTCCCGAAACAAAAGGCTCCTTACTTCTGGAAGGTGAAAACCCTGAAAAAACGATCATCACCTATGATGATTATGCTTCAAAAAAGAACACTGAAGGAAAAGAAATCGGAACCACGGGATCATCTACAATATTTGTTTATTCAAATGATTTTACGGCAAGAAATATTTCGTTCGAAAACAGCTCCGGTAGAGTTGGCCAGGCAGTTGCCGTACTGACTTCCGGCGACAGAATTGTGTTTGAAAACTGCAGATTCCTGGGAAATCAGGATACTTTATATGTAAAGGGTGCTCAGGATCTTGAAGACAAAACAAAACCGTCCAGAAACTATTTTAAAAACTGTTATATAGAGGGAACCACGGATTATATTTTTGGGGCAGGAACAGCCGTTTTTGAAAACTGCATCATTTATTCCAAAGAAGCAGCCAGCTATGTTACAGCCGCTTCTACTCCACAGGGAAATGAATTTGGCTTTGTTTTTTTCAATTCAAAAATTATCGGGAATGCAAAAGATCATTCCGTGTACCTGGGAAGACCATGGAGACCTTTTGCCAGAACAGTTTATATAGACTGTGAGATTAATTCAACAATAAAACCTGAAGGATGGCACAACTGGAACAAAGCAGAAGCAGAAAAAACAACATTTTACGCAGAAAGTAATTCGAAAGGATCCGGAGCTAATATCAACCAAAGAGTCCCATGGTCACATCAATTGAATAAAGAGGAAAGAAAAAAATATACTCCGGAAAACATCCTTAAAGGGAAAGACCACTGGAACATGAAAAAGAGCCTACAATAA	MKYSIFFKNTTLSSVALIALFTLLSFKIKDKTIVVSKDGKGDFTTVQQAVDAIENNSLTRTKIFIKTGIYKEKIIIPETKGSLLLEGENPEKTIITYDDYASKKNTEGKEIGTTGSSTIFVYSNDFTARNISFENSSGRVGQAVAVLTSGDRIVFENCRFLGNQDTLYVKGAQDLEDKTKPSRNYFKNCYIEGTTDYIFGAGTAVFENCIIYSKEAASYVTAASTPQGNEFGFVFFNSKIIGNAKDHSVYLGRPWRPFARTVYIDCEINSTIKPEGWHNWNKAEAEKTTFYAESNSKGSGANINQRVPWSHQLNKEERKKYTPENILKGKDHWNMKKSLQ	PGPT0001855_4091	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0001855-ybhC|pemB|pemA-K01051	NA	NA
BMS003_01029	996			hypothetical protein	ATGAAACTCAGTTTATTTAAAATAATTATAGCAGGAGCTTTTATCAGCTCAAATCTTTCAGCACAGACTTCTGTGATTGAAGCCATTAAGAAAAACCCCACCCTCCCCTTTTCGTATGCTGAACTGTCTGTAAAAGAAGGTGGAAAATGGGAAGGCCATCAATACATTGGCGGAGCTTTCAAAAACGTTCAGGAGCTTACGCTTCCGGAAACCCATACAGATCATTCATCCTATATCAGATATGAGGGAATTGGTCTTGAAAATAACCAGATCGGCTACAGGCTTTATCTGGACTGGAGAAATGCTACAGATATTTTCGGTAAAAAAGTAAGAGAACCCGTGCTGCCGGAAGTAGGACAAGATGGTTTTGAATCTTATCACCATGACTCGCCTTGGGGACAGGATATCCTGAAATCCGGACGTACCCTGGGAATCGGTTCTTATGGAAGATATGATGAACAAAATGATTATGTTGAAACTTTTAAAATTGTAAAAAGTACAAATGTAAAAGTAATCAACGAAAAGGATCAGTCTTATGCACTTATTCAATATAAAGGCTGGAAAACCTGGGGGAACGCTGTAGATTTACAATCGAAACTGACCATTTTTCCCAAAGACCGCTTCGTAAAAGTAGATTTGAATCTGAGCAACAGTATTTCAGGTCTTTGTACCGGAATCGTTGCTTTCAAAAACATCCCTATGAAACAGGGAATCAGTAAAAATAAAAAATGGGCTTATATTGCTACTTACGGGCAGCAGACTCTCGCCAAAAAGGAAGACAATCTGGGAATGGCGGTCTTCTATCCTCTTGAAAGCTTTGACAAATATGTAAAAACAAAATCTACCCATACCATCGTTTTCAAAAAAACTAAAAATGTATCCTATTACTTTCTGGGAGCATGGTCTCAGGAGCCCAACGGCTTAACAACCAAAGCATCTTTTTACCAGGATCTGGATAAAAAACTGGAAATTCTCGATACAACTCATCAACTTTAA	MKLSLFKIIIAGAFISSNLSAQTSVIEAIKKNPTLPFSYAELSVKEGGKWEGHQYIGGAFKNVQELTLPETHTDHSSYIRYEGIGLENNQIGYRLYLDWRNATDIFGKKVREPVLPEVGQDGFESYHHDSPWGQDILKSGRTLGIGSYGRYDEQNDYVETFKIVKSTNVKVINEKDQSYALIQYKGWKTWGNAVDLQSKLTIFPKDRFVKVDLNLSNSISGLCTGIVAFKNIPMKQGISKNKKWAYIATYGQQTLAKKEDNLGMAVFYPLESFDKYVKTKSTHTIVFKKTKNVSYYFLGAWSQEPNGLTTKASFYQDLDKKLEILDTTHQL	PGPT0018255_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
BMS003_01030	1254	yteR	COG4225	Unsaturated rhamnogalacturonyl hydrolase YteR	ATGAACTTTATCAACCATTCTATAAAAATCTATGCTTTGGCAGCTGTATGCTCCGGATTCTTGTTTTCCTGTGCTCAGAAACCACTGCAAAACAGATCATCTGTAATACAATCAGAAACCCACGGAAAAATTTCTACAAAGCTTCCATGGTCCCAAAGAATGCTTCTTTCTGAAATAAAAAGATTCCCACAGGCATGGATGCTGGACTATAACAAAGCCCCGAAATGGAGCTATCCTACAGCAATCGTTCTGGAAGGTGCAGAAAGGTTATACGAAAAAACAGGAAATAAAGAGTATTATCAGTATATCGCAGCCTTCGGTGATAAAATGGTAAAAGAAGACGGTACAATCATTTCTTATGATCTTTCCAAATACAATATTGATATGCTGAATTGCGGGAATGTCCTTCTTTACCTCTACCAGCAGGAGAAAAAAGATAAATACCTGAGAGCTTTGCAAACGCTCCGTTCTCAGATTGACGGCCAGCCAAGAACTTCAGAAGGCGGATTCTGGCATAAGAAAATTTACCCCAACCAGATGTGGCTGGACGGATTATATATGGGTGAACCATTTTACGCACACTACACTCAATATTTTTCAAAAGGAGAAGAAGCTGAAAAAGCTTACCTTGATATCATCAATCAGTTTGATCTTATTCAACAACATCTTTCAGACAAAAAAACAGGCCTGCTGTATCACGCCTGGGACGAAAGCCGACAACAGCAATGGGCCGACAAAGAAACAGGACTTTCTCCTAATTTCTGGTCCAGAGCAATGGGCTGGTACGGAATGGCGATGGTAGATGTTTTAGACTACCTGCCTCAGAACCATCCCGGAAGAACAAAATTACTTTCCTACTTAAAATCCTACTGCGATGCTGTCATTAAAGTACAGGATACCCAAACAGGACTTTGGTATCAGGTATTGGATAAAGGCACAGAAAAAGGTAATTATCTGGAGGCCACAGGCTCATCCATGTTTGTATACACTATAATAAAGTCTGTAAACAAGGGATATTTACCCAAATCATATAAAACCTACGCAAAAAAAGGATATAAGGGAATTATCAAAAACCTAATCACAGTAGATGAAAACGGCATAGTAAGCTTACATAAATGCTGTGCAGTAGCCGGATTAGGCGGAACACCTTACAGAAGTGGCTCTTATGAATATTATGTGAATGAAGAAATCCGTTCCAACGATCCGAAAGGAACAGGCCCTTTTATCCTGGCAAGCTTAGAATTTGAAAAATAA	MNFINHSIKIYALAAVCSGFLFSCAQKPLQNRSSVIQSETHGKISTKLPWSQRMLLSEIKRFPQAWMLDYNKAPKWSYPTAIVLEGAERLYEKTGNKEYYQYIAAFGDKMVKEDGTIISYDLSKYNIDMLNCGNVLLYLYQQEKKDKYLRALQTLRSQIDGQPRTSEGGFWHKKIYPNQMWLDGLYMGEPFYAHYTQYFSKGEEAEKAYLDIINQFDLIQQHLSDKKTGLLYHAWDESRQQQWADKETGLSPNFWSRAMGWYGMAMVDVLDYLPQNHPGRTKLLSYLKSYCDAVIKVQDTQTGLWYQVLDKGTEKGNYLEATGSSMFVYTIIKSVNKGYLPKSYKTYAKKGYKGIIKNLITVDENGIVSLHKCCAVAGLGGTPYRSGSYEYYVNEEIRSNDPKGTGPFILASLEFEK	PGPT0018255_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
BMS003_01031	1659			Beta-xylosidase	ATGTTTATTGATTATATGAAGACAAAAAGTATTGTAAATACCATTACCATCATAGCATGTTCAGTGGCTTCAGCCTATCTTCAGGCACAGAAAATAAACGATGTTTCTAAAGTCTGGACAGCTGATCAGGGAAAAAATTACAGAAACCCCATTTTATATGCAGACTACTCTGATCCGGACGTTATCCGTGTCGGGAGTGATTATTATATGACGGCATCCAGCTTCAATGAAATTCCTGGGCTTCCTATCCTTCATTCTAAAGATATGATCAACTGGGAACTGGTCAATTATGCCATTCAGGATATCCTCCCTCAGGAACATTTCTCCACTCCGAAAAGAGGTGATGGAGTCTGGGCACCAAGCATAAGATTTCATCAAGGAGAATCCTATATCTATTGGGGGGATCCTGACTTTGGAATTTATAGGGTGAAAACAAAAGATCCGCTGGGAACCTGGGAAACGCCGGTTTTGGTAATGGAAGGAAAAGGATTAATAGACCCATGTCCGTTCTGGGATGAAGACGGAAATGCCTACCTCATTCATGGCTGGGCAGGAAGCCGTGCCGGAGTAAAAAGTATTTTAACACTCAATAAAATGAATCCAGAAGGGACAAAAGTTCTGGATAAAGGCGTTCATGTATTTGACGGCCATGATGCTCATCCTACCGTTGAAGGTCCTAAACTATATAAAAGAAATGGCTACTATTATATTTTTGCGCCGGCTGGCGGTGTGGCAACAGGATGGCAGCTGGTATTGAGATCAAAAAACATTTATGGCCCTTATGAAGAAAAAATAGTGCTGGAACAAGGCTCAACAGTCATTAACGGACCTCATCAGGGAGCCTGGGTAGATACCCCTTCCGGTGAAGACTGGTTTTATCATTTTCAGGATGTGGATGCTGGTGGAAGAATCATTCACCTGCAACCTATGAAATGGGAAAAAGACTGGCCGGTAATGGGAATAGATCATAATAAAAACGGAATAGGTGAACCTGTTTTAACCTATAAGAAACCGGATATTGGGCAATACTACCCTGTTTCAACTCCTCCGGAAACCGATGAATTTGATGGTGAAAAACTAGGACTGCAATGGCAATGGAGTGCCAATGAAAATATTGTCTGGTCATCCAAACTTCCCGGACAGAAGTTTCTAAGATTATTTTCTATAAAAATTCCGGAGGGAGAAAAAAATCTTTGGAATGTACCGAATCTCTTAACCCAAAAATTTCCGGCTCCCAATTTTGCCGCCTCCACAAAAGTAAAGCTAACCCCTGAAGAGGCAAAAGAAGGAAAAACTGCGGGATTATTAATCATGGGATCAGATCATGCATCATTAGTAATCACCAATAAACCTGATGGTTATTATCTCCAGTTCAGGAAAGCGGAAAAAGCAGACAAGGGCGGAGAAGAAAAAATCCTATTTGAAAAGCAGTTAAAAAGTAACGAAGTCTATTTAAAAGTCAATGTCAGTGAGCCTAATGGTCTATGCCAGTTCAGCTACAGTGAAAACGGCAAAAATTTCATTAAAGCTGGTGAAATCTTTCAGGCAAAACCCGGAAAATGGATTGGAGCGAAAGTAGGTCTGTACAGCACCAGTACAACAAGAGCAACACGTGGAGGATATGCAGATTTTGAATGGTTCAGAATTACAAAGAAATAA	MFIDYMKTKSIVNTITIIACSVASAYLQAQKINDVSKVWTADQGKNYRNPILYADYSDPDVIRVGSDYYMTASSFNEIPGLPILHSKDMINWELVNYAIQDILPQEHFSTPKRGDGVWAPSIRFHQGESYIYWGDPDFGIYRVKTKDPLGTWETPVLVMEGKGLIDPCPFWDEDGNAYLIHGWAGSRAGVKSILTLNKMNPEGTKVLDKGVHVFDGHDAHPTVEGPKLYKRNGYYYIFAPAGGVATGWQLVLRSKNIYGPYEEKIVLEQGSTVINGPHQGAWVDTPSGEDWFYHFQDVDAGGRIIHLQPMKWEKDWPVMGIDHNKNGIGEPVLTYKKPDIGQYYPVSTPPETDEFDGEKLGLQWQWSANENIVWSSKLPGQKFLRLFSIKIPEGEKNLWNVPNLLTQKFPAPNFAASTKVKLTPEEAKEGKTAGLLIMGSDHASLVITNKPDGYYLQFRKAEKADKGGEEKILFEKQLKSNEVYLKVNVSEPNGLCQFSYSENGKNFIKAGEIFQAKPGKWIGAKVGLYSTSTTRATRGGYADFEWFRITKK	PGPT0019091_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019091-putative_arabinofuranosidase-NA	NA	NA
BMS003_01032	846	rhgT_1	COG2755	Rhamnogalacturonan acetylesterase RhgT	ATGAAAAAAAACATATACAAAACCGTTTCATTTCTATTCAGCGTAATTCTGTTATCAGCATGCCAGTCTCAGGATAGTGCACAAAAAACAGTAACAAAACAGAATAAAAATGTAACGCATATCTACCTCATCGGAGACTCCACAATGGCCGATTATACCGGAGATTATGCTCCAGGAAAAGATTATATGAAAGTACGGTATCCCATTACAGGCTGGGGACAGGTTTTTCAGCCTTTCTTTTCAAAAGACAGTCTTGAAACTCTGAAACCGGTGATCACAACAGATTCAGTAGCGGTTATCGACAGAGCTCATGGCGGAAGAAGTACACGGACTTTTTTTCAGGAAGGAAGATGGCGTTATGTGTATGAACATCTTCAGCCTAACGATTACGTGATCATGCAGTTCGGGCACAATGATGGTTCCGAAAAGCATCCTGAGCGCTATGTGAATATTCAGGGATATAAAGAATTTTTAAGATTATTTGTTTCCCAGACCAAGCAAAAAGGCGGAAATCCGATTATTGTAACTCCTGTAGCAAGAAATTATCCATGGAAAGATGGGAAACTTGAAAATGTACATGGTGAATACTGGCAGGCTCCCATTGATATCGCTAAAGAAATGAACGTTCCTTATATTGATTTAAACAAGCTATCCATGGAATATTTTACTAAAAAAGGACAGGATTTCACCACCAGACATTATTTTATGAATCTTCCGGAAAATACTTATGAAGCCTACCCTAAGGGACAGAAAGACAATACCCATTTTCAGCCTGAGGGAGCAAAAATAGTCGCTTCACTGGTCTATCAGGAATTTAAAAATATAATTAAAACTCAGAAAAAATAA	MKKNIYKTVSFLFSVILLSACQSQDSAQKTVTKQNKNVTHIYLIGDSTMADYTGDYAPGKDYMKVRYPITGWGQVFQPFFSKDSLETLKPVITTDSVAVIDRAHGGRSTRTFFQEGRWRYVYEHLQPNDYVIMQFGHNDGSEKHPERYVNIQGYKEFLRLFVSQTKQKGGNPIIVTPVARNYPWKDGKLENVHGEYWQAPIDIAKEMNVPYIDLNKLSMEYFTKKGQDFTTRHYFMNLPENTYEAYPKGQKDNTHFQPEGAKIVASLVYQEFKNIIKTQKK	PGPT0018650_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
BMS003_01033	1668			hypothetical protein	ATGAAGAAGTCACTTACCATTATCAGTTTAGCAGTAGCAATGATGTTTTCCGGGCATACCAGTGCTCAGAATCTGGATATTTATAAAAACATTGAGTTTACAATGCCGCAGGTTGCAGAAACCTCTTTTCCTGCCAATACAGTATCTATCACCCAATTTGGTGGCATTTCAGGCGGAAATGTAAAAAATACACAAGCATTCAAAAAAGCAATTGATGAGCTCAGCAAAAAAGGAGGTGGGAAACTGGTTGTCCCCAGAGGAATGTGGCTCACAGGACCTATAGAACTCAAGAGCAATATCCATCTTCATGTGGAAGACGGAGCTTTCCTTATTTTCAGCAAAGATAAAAATGATTATCCACTGGTAGACGTGAGTTTTGAAGGATTAAATACAATCCGTTGCCAATCCCCTATTTCAGCGAAGAACGCCACCAATATTGCCATCACAGGAAAAGGAGTCATTGATGGAAGCGGAGATGCATGGAGAGCCATCAAAAAAAGCAAAGTTGCAGAATCTGAATGGAAAGAAATTATAAAATCCGGTGGAATATTATCTTCCGACGGCAAAACATGGTATCCTTCAGAAAGCTATAAAAAAGGATTCGAAAGCAGCTCAAGCTTCAATGTTCCGGATAAGATCTCAAAAAATGAACTGAACACCGTAAAAGACTTTCTGCGCCCGGTAATGGTAAGTCTGGTAGGTTGTGACAAAGTATTGTTAGATGGTCCTACCTTCCAGAATTCCCCGGCGTGGAATCTTCATCCTCTGATGTGTTCCAATCTGATTTTAAGAAACCTTACTGTAAGAAATCCATGGTTCTCTCAAAATGGAGACGGTGTAGATCTTGAATCCTGTAAAAATGTACTGATCTACGATAATACTTTTGATGTGGGTGATGATGCCATCTGTATTAAATCAGGAAAAAATGAAGATGGCAGAAAAAGAGGAATGCCAACCGAAAATGTAATCATCAAAAATAATATTGTATATCACGGTCACGGAGGGTTCGTTGTAGGAAGTGAAATGTCAGGTGGCGCAAGAAATATTCATGTTTCCGACTGTACTTTTATCGGAACAGACATTGGACTTCGTTTTAAAACAACCCGTGGAAGAGGCGGAATTGTTGAAAATATTTACATTAAAAATATTGATATGATTAATATTCCTACACAGACAATCGGTTTTAATATGTTCTACGAAGGTGCTTCCCCTGTTTTGGAAGAAGGCCAGAAGCAGGAAGGAAACAAAACCCCTGAAAAGGTATATCCGGTAACAGAAGAAACCCCAGTTTTCAGAAATATATTCTTTAAAAACATCAATGCAGTTAACTCTTACGAAGCTATCACCTTATTTGGTCTTGCCGAAATGAACCTTAAAAATATAGTAATTGAAGATTCAAAATTCGATACCAAAAAAGCATTAACGATTGTAGATGCAGACGGAATCCAGTTAAAAAATGTAACTCTGAAATACACAGAAAGAACGGGAGCAACGGTTTATAACAGTAAGAACATCAATCTTTCTGCTGTAAAATTTGAATCACCGGTCAAACCTTATATCAAAGTCTTAGGAAACAAAACCAGAGCTGTAACAGTCCCTAAAGATTTACTATCTGATAAAAGCACAATTTCCATAGGCACAGAAGTAGCTAAGAACTCAATAAAATAG	MKKSLTIISLAVAMMFSGHTSAQNLDIYKNIEFTMPQVAETSFPANTVSITQFGGISGGNVKNTQAFKKAIDELSKKGGGKLVVPRGMWLTGPIELKSNIHLHVEDGAFLIFSKDKNDYPLVDVSFEGLNTIRCQSPISAKNATNIAITGKGVIDGSGDAWRAIKKSKVAESEWKEIIKSGGILSSDGKTWYPSESYKKGFESSSSFNVPDKISKNELNTVKDFLRPVMVSLVGCDKVLLDGPTFQNSPAWNLHPLMCSNLILRNLTVRNPWFSQNGDGVDLESCKNVLIYDNTFDVGDDAICIKSGKNEDGRKRGMPTENVIIKNNIVYHGHGGFVVGSEMSGGARNIHVSDCTFIGTDIGLRFKTTRGRGGIVENIYIKNIDMINIPTQTIGFNMFYEGASPVLEEGQKQEGNKTPEKVYPVTEETPVFRNIFFKNINAVNSYEAITLFGLAEMNLKNIVIEDSKFDTKKALTIVDADGIQLKNVTLKYTERTGATVYNSKNINLSAVKFESPVKPYIKVLGNKTRAVTVPKDLLSDKSTISIGTEVAKNSIK	PGPT0027780_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0027780-dndE-K19172	NA	NA
BMS003_01034	909	aes_1		Acetyl esterase	ATGATTTTTAACAAAAGACATACTTATATTTCTATTTTCTTCGTAGGGACGATGGCATTCGGGCAGGTAAGCAGACCGAATGCTTCTCCTTACACCAATGAAGGAACTTTTGAAAAGTTAAAGAAGAAATATCCTTTCATTGCCCCTATTGATCGCCCGGTCCCTTCAAATATTAAAATAGACAGGGATATTGAATACAAAAATATCAATGATACATCATTAAAAGCCGATGTATACTACCCTCTTGATGATTCAAAAAAACATGCAGGAATTGCAATGGTGCACGGTGGCGGATGGATCTCCGGCAGCAAGGAAAATGAAAAATATATGGCTATGGAATTAGCTTCCAAGGGATTTGTTGTGATCGCTGTTGGCTACCGGCTTGCGGATGCTGCAAAATATCCTGCCGGAATTGAAGATATAGAAACCGCCATCCGATGGTTAGGGACAAACCACAAAAAATATTCTTTAGACAAAAAGAAAATAGCAGTTTTAGGGGAATCTGCCGGAGCACAGATGGCCACCCTGGTTGGAGTGCAAAAGAAAAATAATATAAAGGCGATCATCAATATCGATGGAATTGTTTCTTTCATTCACCCTCAAGCACAGGAAAGTACTTACGCCTCCTATTGGCTGGATGGAGACCGGAACAGTAATCTAAAAAACTGGACAGAAGCCTCTCCACTGGAGTATGTGGATAAAAATACTCCGCCTACCCTTTTCATCAACAGTTCCCAGCCCAGATTTCACGCCGGAAGAGATGACATGATGAAAAAATTAAAGACTTATAACATTCCTGCTGAATTTTATGAAATTAAAGATTCTCCACACTCATTCTGGTCTGCAGAGCCATGGTTCACACAAACGCTGAACTATACCGTTGATTTTTTAAATAAAGTTTTGAAATAA	MIFNKRHTYISIFFVGTMAFGQVSRPNASPYTNEGTFEKLKKKYPFIAPIDRPVPSNIKIDRDIEYKNINDTSLKADVYYPLDDSKKHAGIAMVHGGGWISGSKENEKYMAMELASKGFVVIAVGYRLADAAKYPAGIEDIETAIRWLGTNHKKYSLDKKKIAVLGESAGAQMATLVGVQKKNNIKAIINIDGIVSFIHPQAQESTYASYWLDGDRNSNLKNWTEASPLEYVDKNTPPTLFINSSQPRFHAGRDDMMKKLKTYNIPAEFYEIKDSPHSFWSAEPWFTQTLNYTVDFLNKVLK	PGPT0001855_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0001855-ybhC|pemB|pemA-K01051	NA	NA
BMS003_01035	966	pemA_2	COG4677	Pectinesterase A	ATGAAAAAATTATTTTTAATCCTGTTTATGGCAATGGCTCAGTTTCTATGGGCACAGAGCAAACCTTACATCACTCTTACAGTTGCCCAGGATGGAAGCGGAGATTTTACCACCATTCAGAAAGCGATCAATGCTGTAAGAGATCTTGGTCCGGCAGAAGCATTCATCAGAATCAAAACGGGAATCTATCATGAGAAAATAGTTATCCCTTCTTCGAAACATAAGATCACGCTGGAAGGGGAAAATAAAAATAATACGATCATTACCAACAATGATTTCTCCGGAAAACCTGATGCCTTCAATGAGAAATTCACAACTTTCAACTCTTATACTTTTCTGGTAATGGGTGACGATATTACCATCAGCAATCTGACTATTCAAAACAGCTCCTGCAACCAGGGGCAGGCGGTTTCGCTTCATGTAGAAGGAGATCGTTTTGTGATTAAGAACTCTGATATCCTTGGTTGCCAGGACACCCTTTATTCCGCTACCAACCATAGCAGACAGTATTTTGAAAACTGTTACATAGAGGGAACTACTGATTTTATTTTCGGACAGGCAACCGCTGTTTTTAAAAACTGTACGATTAAAAGTCTGGCAGATTCCTTCATCACTGCTGCTGCAACGGAAATTGACAGAAAATATGGATTTGTATTCCTGGATTGCAAGCTTACTGCTAAAGATGAGGTATCTAAAGTTTATCTCGGAAGACCATGGAGGCCTTACGCCAAAACAGTTTTCATCAATACGGAAATGGAAAAACATATCATTCCCGAAGGCTGGAATCCCTGGAAAGGAGACAAAATGTTTCCCGATAAAGAAAAAACTGTTTATTATGCAGAATATGAAAGTAAAGGCAACGGAGGAAATCCTTCACAACGGGTTAGCTGGTCACACCAACTAACGAAGAAAGATATTAAAAATTACACCTTAGAAAAAATATTTGATGGCTGGAATCCTAATTAG	MKKLFLILFMAMAQFLWAQSKPYITLTVAQDGSGDFTTIQKAINAVRDLGPAEAFIRIKTGIYHEKIVIPSSKHKITLEGENKNNTIITNNDFSGKPDAFNEKFTTFNSYTFLVMGDDITISNLTIQNSSCNQGQAVSLHVEGDRFVIKNSDILGCQDTLYSATNHSRQYFENCYIEGTTDFIFGQATAVFKNCTIKSLADSFITAAATEIDRKYGFVFLDCKLTAKDEVSKVYLGRPWRPYAKTVFINTEMEKHIIPEGWNPWKGDKMFPDKEKTVYYAEYESKGNGGNPSQRVSWSHQLTKKDIKNYTLEKIFDGWNPN	PGPT0001855_4504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0001855-ybhC|pemB|pemA-K01051	NA	NA
BMS003_01036	735	rhgT_2	COG2755	Rhamnogalacturonan acetylesterase RhgT	ATGAATAAAAAACTCACCTTTCTTATCCTCTTCCTTTCCATCATCACCTATGCGCAACAACCTACGCTATTCCTCATTGGTGATTCTACCATGGCCAACAAAGAAAACCCGGATAAAAACCCTGAACATGGCTGGGGGCAGATGCTTCCATCCCTTTTAACAACAGGAATATCTGTTCAAAATCATGCCACCAACGGGAGAAGCTCCAAAAGTTTCAGAACGGAAGGCAGATGGAACAAGGTATTGAATCAACTTAAAAAAGGAGATTTTGTCATCATCCAGTTCGGGCATAACGATCAGAAAGTAAATGATTCTGCACGCTTTACGAACCCATATACCCAGTACAGAGCCAATCTTGAAAGGTATGTAAATGAAGCAAGATCTAAAGGTGCTGTTCCTATCCTTATGACTTCAATTATAAGGAGAAATTTCAACGAAAATGGGGTTTTGGTTGATACTCATAAAGAATATCCTTTGGTAGTAAGAATGGTGGCTAACGATCTTAAAGTGCCTTTCGTTGACTTACAGCTTTTATCAGAGCAGCTTGAGATCTCATATGGTCCGGAAAACTCAAAGAAATTACATCTGCATTATAAAAAAGGAGATGATCCTTATTATCCGGAAGGAAAAGATGATGATACCCATTTGTCAAAGCTGGGGGCAGAATCTATTGCAAAGCTGGCTGCTAATTCTTTGAAAGGTTTAAAAACCGGTTTGGAAAAATATATAAAATAA	MNKKLTFLILFLSIITYAQQPTLFLIGDSTMANKENPDKNPEHGWGQMLPSLLTTGISVQNHATNGRSSKSFRTEGRWNKVLNQLKKGDFVIIQFGHNDQKVNDSARFTNPYTQYRANLERYVNEARSKGAVPILMTSIIRRNFNENGVLVDTHKEYPLVVRMVANDLKVPFVDLQLLSEQLEISYGPENSKKLHLHYKKGDDPYYPEGKDDDTHLSKLGAESIAKLAANSLKGLKTGLEKYIK	PGPT0027780_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0027780-dndE-K19172	NA	NA
BMS003_01037	339			hypothetical protein	ATGGATTTCAAAAAAGAGCCTTTCTTCAATGGAAACTCGGCATGGGAAAATTTAGGAAATGGGGTTTCCAGACAGTTTGTGGGATATAATTCCCAGATGATGATGGTTATTGTAAAGTTTGAAAAAGATGCTGTAGGAGCTTTACATCAGCATTTTCATTCTCAGATCACCTATGTAGCTTCCGGAAAGTTTGAAGTTACAGTAGATGATGAAACAAAAATTTTACAGGAAGGAGATGGATTTTTTGCACAGCCTAACATTTTTCATGGGGTAAAATGTATTGAAAAAGGAAAGCTCATTGATACTTTTGCGCCTTTCCGGGAGGACTTTCTTATTTAA	MDFKKEPFFNGNSAWENLGNGVSRQFVGYNSQMMMVIVKFEKDAVGALHQHFHSQITYVASGKFEVTVDDETKILQEGDGFFAQPNIFHGVKCIEKGKLIDTFAPFREDFLI				NA	NA	NA	NA	NA
BMS003_01038	1107	pel		Pectate lyase	ATGAAAACAACATTCAAAGCGGCCTTATTAACAGCCGCTCTAAGCTCTGCTTTTGCCGTAACCGGATGTGGCCAGGAAGAAATCAACAATGACCTTACACAAAGCGAACTCAATATTAAAAGCTCCCTTGCACAAAAGATTGTTCCTCTTGCCAGTTGTGTTGCTCCTGGATGGGCTTCTCAAAACGGAGGAACTACCGGTGGCGGAACAGCAACAGAAACAACTGTAGCTACCTATGCCCAGTTAAAGGCTGCTATTGAAAATACAGCTATAAAAGTGATCAAAGTAACGGGAACCATCACCATCACTACCCGTTTGTCATTTCAGGATCAAACAGGAAAAACAATCTATGGCGCAGCCGGAGCTAAACTGGTTTCTACCAACCAAACCAAAGACGGCTCAGGGATTATTAATATTAAAAGATGTAACAATATCATTATCCGAAACCTTATTTTTGAAGGTCCCGGAGCTTATGATACCGATGGATGGGATAATGCCATTCTTGATGACTGCCGAAATGTATGGATAGATCACTGCGAATTCAGGGACGGTGTTGACGGAAATTTTGATATTAAGAATAAATCAGATTATATTACAGTTTCTTATACTAAGTTCCATTACCTGAAAGCACCAAAGCCAGGAGGCTCAGGAGGAACAGATGACCACCGATTCTCCAATCTTATCGGATCCAGTGACAGCGCAACGGCTGATGCCGGAAAACTGAATGTGACATTTGTCAGATGCTGGTGGGCGCCCGGATGCAGAGAGCGTATGCCGAGAGTAAGGTTTGGCAAAGTTCATATCCTGAACAGTTATTTCAACAGTTCTGTAAGTAATAAATGTATTGCAGCCGGAGTACAGGCTAATATTCTGGTAGAAAGAAATGTTTTTGAAAATGTGAAAGAACCTATTAACCTGATGAGTGGATATACAGCAGTGACACAGTCCGGAAGCAGCTTTATCAATGTTACCGGAAACACGGCCGGAAGCGGGACAGCATTCACTCCACCTTACAGTATCACAAAACTTAATGCAGCAGATGTAAAAGCAGATGTAACGGCTAATGCGGGAGCTACTTTAGGAGGAAACGTTTGTGATCAGTTTTAA	MKTTFKAALLTAALSSAFAVTGCGQEEINNDLTQSELNIKSSLAQKIVPLASCVAPGWASQNGGTTGGGTATETTVATYAQLKAAIENTAIKVIKVTGTITITTRLSFQDQTGKTIYGAAGAKLVSTNQTKDGSGIINIKRCNNIIIRNLIFEGPGAYDTDGWDNAILDDCRNVWIDHCEFRDGVDGNFDIKNKSDYITVSYTKFHYLKAPKPGGSGGTDDHRFSNLIGSSDSATADAGKLNVTFVRCWWAPGCRERMPRVRFGKVHILNSYFNSSVSNKCIAAGVQANILVERNVFENVKEPINLMSGYTAVTQSGSSFINVTGNTAGSGTAFTPPYSITKLNAADVKADVTANAGATLGGNVCDQF	PGPT0018225_2665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728	NA	NA
BMS003_01039	1020			hypothetical protein	ATGAATCTAAAAATATGCACATTTGCACTAGGAATACTGTCCGTTAACTGCTCTGCACAGCTTAAAGATACATTGGCAGATAAAATGCTGATCTACCAGCTTCCGAATGGTGGTTGGGGAAAACAGCTTGAAGACAAGTCAGTGGTCAACTATAGTCTGCCCATTGATAAAGCTCTTTTGAAAAAGATAAAATCTACGGGTGATAATCATGCTACTATTGACAATAATGCTACTTCAAGGGAAATCAATGCTTTGATTAAAGCCTATTCAACAACAAAAAATCCGGATTATTTAAAAGCAGCAGAAAAAGGGATCAGTTATCTTATTCTTATGCAGTATGATAATGGAGGTTTTCCTCAGTATTATCCTAACACAGGACTTTACAGAAAACAGGTGACTTATAATGATAATGCGATGATCAACGCTTTGATGGTTCTTTACAATACTGCAGAAGGGAAGAATAATTTTGATGTGGTTTCTTCCTCATTAAAAGAAAAATCGAAAGTTGCCGTACAAAAAGGAATAGAATGTATTTTAAAAACCCAGGTTCTTCAGAAAGGTACTCCTACCATTTGGGCAGATCAGTACAATGAGATTACCTTGCAGCCGGAGAAGGCAAGGGCTTTTGAGCCTGTTTCATTAGCTACCGGAGAGTCGGTAGGGATTATAAGGTTTTTGATGCTGCAGCCACTGACTCCTGAGATTGAAAAATCGGTCAAAGCTGCAATACATTGGTTCAGAAAGAATAAAATAGAAGGCTACAGTTACAATGTTACCAAACAGAACGGAAAAGCCGTAAGGGTTTTAGCTGAAGATAAAAATTCTGTGATCTGGGCAAGATTTTATGATATTCATACCAACAAACCTTTGTTTGGAGACCGGGACGGAAGTGTAAAGTATAATTATAATGAAGTTTCTGAAGAAAGAAGAAATGGTTACAGCTGGTTTGGTGATTTTGCAGAAAAGCTGTTAACCAAAGAATACCCGAAATGGCTGGAAAAAAATAAACTGAGTGAATAA	MNLKICTFALGILSVNCSAQLKDTLADKMLIYQLPNGGWGKQLEDKSVVNYSLPIDKALLKKIKSTGDNHATIDNNATSREINALIKAYSTTKNPDYLKAAEKGISYLILMQYDNGGFPQYYPNTGLYRKQVTYNDNAMINALMVLYNTAEGKNNFDVVSSSLKEKSKVAVQKGIECILKTQVLQKGTPTIWADQYNEITLQPEKARAFEPVSLATGESVGIIRFLMLQPLTPEIEKSVKAAIHWFRKNKIEGYSYNVTKQNGKAVRVLAEDKNSVIWARFYDIHTNKPLFGDRDGSVKYNYNEVSEERRNGYSWFGDFAEKLLTKEYPKWLEKNKLSE				NA	NA	NA	NA	NA
BMS003_01040	1188			hypothetical protein	ATGTTGATATCAAAAACTGCCTTTCTGAGTTTAAATTGTGCAATCGGTTGCATTGTTTCCGGATTTTTATCAGGTCAAACTACTGTTCGGGTAACAAATTCTCTGGATTTTGCCAGAAATGAAGTGGTAGCCGTTCCCAATATTGTATTAAAATCATTTTTAAGTAAGCATACTGAAAAAGATCTTAGGATAAAAGATGCAAAAGGAAACTGGATTCCCATTCAATGGATTGATTATGATGGGGATGGAAAAAGCGAAGAACTGCTTTTTCAGGTAAATATTGATGGGGGGAAGACGAATGTTTACACAATTGTAGCGGATGGAAAAGTTCAGATTCCGGATAGCAGAATTTCCACTTATTCTAGGCTGGTTCCTGAAAGAGTGGATGATTATGCCTGGGAAAACAACAAGGTTGCCTTCAGGGTATACGGTCCGAAAGGGCAGCAGGAAGCTTTACAGGGAATAAAAAGCAGCACCCTCTCAAGCGGTGTAGATATCTGGCTGAAAAGAACAGAGCTGCCTGTTATCAACAAATGGTATAAGGGATACCTTACAGATCCTATGTATTATCATAAAGATACAAGAGGTGAGGGCTACGATCCCTATCATGTAGGAAACAGTCGAGGAACAGGTGGTATTGGAATATGGAAAAATGAAAAACTTCAGACCTCCCAAAACTTTGTGACTTCAAGAACCGTTGCTGAAGGTCCTTTAAGAACTGTTTTTGAACTTACATATCAACCATGGAGCGAATATGGAGTGCAAGAAATGAAAAGAATTTCTCTGGATCTGGGATCTAATTTTTCAAAATTTGAATCCATCTTTGAAACAGAAAAGTCTGTACCCAATTATACGATCGGGATTACCCTTCACAAAAACGAAGGAAAAACCCTGCTGAATGATAAGTATGGCTATTATCTTCACTGGGAAAAAATAGATGACGCATTTGTAGGAGAAGGAATTGTGATAGATCCCCGGATTGTTCAGAAATCACTTGCCTTTACCTCTGATATTCCTGATGAAAGCAATTTGTATGTCATAACCAGACCTCTAAATGTCCTGACGTATTATGCAGGATTTGCATGGCAGAAAAGCGGCCAGGTTCAGACACAGAAAGATTGGGAGAACTTGCTTCAGAAACAGTCTGAAATCATTGCCACACCATTGGTGGTAAAAGTAATGAAATGA	MLISKTAFLSLNCAIGCIVSGFLSGQTTVRVTNSLDFARNEVVAVPNIVLKSFLSKHTEKDLRIKDAKGNWIPIQWIDYDGDGKSEELLFQVNIDGGKTNVYTIVADGKVQIPDSRISTYSRLVPERVDDYAWENNKVAFRVYGPKGQQEALQGIKSSTLSSGVDIWLKRTELPVINKWYKGYLTDPMYYHKDTRGEGYDPYHVGNSRGTGGIGIWKNEKLQTSQNFVTSRTVAEGPLRTVFELTYQPWSEYGVQEMKRISLDLGSNFSKFESIFETEKSVPNYTIGITLHKNEGKTLLNDKYGYYLHWEKIDDAFVGEGIVIDPRIVQKSLAFTSDIPDESNLYVITRPLNVLTYYAGFAWQKSGQVQTQKDWENLLQKQSEIIATPLVVKVMK				NA	NA	NA	NA	NA
BMS003_01041	354			hypothetical protein	ATGCAAAAATTTCTCAGAGTCTTTTTTGTTTTTTCTTTACTTCTGATATTTGTTTCGAATGTCAGTGGCGTAACTACGTGTCTTGATCATGCCAGGCATGCCAAAAGTAAAGTGATCTATAAAAAAGGTTCAAAAGAAGAGAAAATCCCTACCTTTTCACAGGACGACGAATGTCAATGTGCTCTTCATATGCACATGACCAATATTCTTCTCCCTGAACCTTTGAATCTGGATTTTGTCATTGACACGGCCAATGATAGTGAAATGCCACAGCCAAAAGCCATTTCATACCGTTGTCTTCTCGACTTTTTCAGTTCCAGAGCTCCCCCATCCGCATTTTCTGCGGTAGCTTAA	MQKFLRVFFVFSLLLIFVSNVSGVTTCLDHARHAKSKVIYKKGSKEEKIPTFSQDDECQCALHMHMTNILLPEPLNLDFVIDTANDSEMPQPKAISYRCLLDFFSSRAPPSAFSAVA				NA	NA	NA	NA	NA
BMS003_01042	2253	cntO_3	COG1629	Metal-pseudopaline receptor CntO	ATGAAACTTTTCAGCGTAAGTTTCATTACCGCATCATCATTTCTGTATGCTCAGTCAAGTTCTGAAGATTCGTTATCTACAGAGGTTCAAACCGTTGAAGTCATCGGAAGAAAATCTAAAGGCTATACTTCCGACTACTCTTTTGCCGCCACCAAGATTGCTATGAAGAATAAAGATCTGCCTTTAACGCTTAATACCATCACTAAAGAACTCATCAACGACCGTCAGGCTTTCCAGCTTAGAGAGGTCATGAAAAATGTAAGCGGAGTTTCTCCTTCCAGTTATTACAATCAATATAATATCCGTGGCATCAGCCAGAATGAAGAAGGACAGATTATCAATGGAATGCGTACCAGGCAGTATTATTTTTTACAGCCAATGACTTCCAATATAGAACGTGTAGAAGTATTCAAAGGTCCGGCAAGTATTACCATGTCCAGTGTAGATCCCGGAGGAACAATTAATATGGTCACCAAAAAGCCATTGTCAGGCCCTCGTCACGAAATCAGTTTATCGGGCGGAAGTTTTGATACCTACCGTGTTACCACAGACCTTACAGGTTCTTTAAATAAAAGCAAAACCTTATTATACCGTTTTAACGGAGCGTATCAGAATGCTCATTCATTCAGGGATCATGTTAAAAACAGTGGTATTCTGATTTCACCTTCTATCACCTTTGTTCCGAATGAAAAAACATCCGTGAATGTAGAAATGATTTTCAATGATCTTTATGGAAATCTTGACCGGGGGCAACCTATTTTCGGGGCTGTCGCAGGAAAAACAGATTTATACAGCACTCCAAGAACGTTGAATTTAGGAGCTCCGGATGATTTCTTTAAAACAAGAGAATTAATTTTAATGGGAACGGTTGCCCATCACTTTAACCCATCCATCAGCTTTAATGCTTCCTATATGAAGCAATACTGGAGAGAAAATCTGCAGGAACACAGAACAACCAATTCTTTTGTCCCTGATATGGAGAACAAACCGGTTTCCAGCCTTGCCATGATGCAGTTTGTACAGAGAAAACAGAACTGGGCAACAGACAATATTAATGCCTATTTTAATTTTAAATTCAAAACAGGATCTGTGCAACATCAGGCTTTGATAGGCTATGACAGTCAGATCTGGGAAAAACGTAAAGACGGACAGCAGAATGCAGCAAGAGGATTTCTGCTAAAGAATGGTTCTGTAGCTTCTTCTTACAATCCTGCAAAAGCTTCAGATTATCAGACCACAAATTATAATGGAACAGTTATTCCTGTCCCTAATGTAACACCATTTGACCTAAATCCGGGAGCCGTAAATTATCAGGGTGCAGATTTTAATACCCTTAATGTGATCACGCCTTTGCCTTCTGCTCTTACCACTACTCATGCAGCTTATATTCAGCATCTTTTCACCTGGAAAAAGTTTAAAATATTATCGGGAATCCGTCAGGAGTGGCTTCAGGATATTACCAACTTCAAAGAATCCAATGAGTCATCATTCAAAAATAACAAACTTCTTTACAGGTTCGGTATTACCTACAGCGTGACAGATAATATCAATCTGTACGGAACTTATTTAACCGGATATCAGCCTCAATCCAATACGGTAACCTTAATGCCCAATACCTCCAGTCTTACAGGATCTGCAGCCAGATTTAAACCTTTGACCTCCGATCTCAAAGAACTGGGAATCAAAACCCTACTTTTTGGTAGAATCTCAATGAATCTTGCTGTGTATGAAATCAATCAAAGAAATATTTTAATTAATGCCAATAATCCTTCAGAACCTGATGAGCTTGTACAGCGTGGTGCTGACCGAAGCCGTGGATTTGAAGTTGAGCTTTCCGGGCATATCCTTCCTCAATGGCATATTTACGGAGGCTACAGTTATATTGATGCTAAAATATTGGAGGATACCAACCATGATCTTATAGGAAAAAGGAAAGAAAACACCTCCAAAAATTCGGTTAATATCTGGACCCGATACAATTTTTCAACTATAGAACTCCTAAAAGACTTTGGAATCGGGTGCGGAATGCTATATCAGAGTTCTAAAGTTCCGTGGTTTACGAGGAGCTTTGAACTTCCGGCATATGCAACAATAGATGCTGCCTTGTATTACACTCCGGCAAAAACAGTCCAGCTTTCTTTTAATCTGAACAATATCACCAACAAAGTCTACTGGATCGGGGCTCAGAACTATTTAAGGCTATTTCCGGGAACTCCAAGAAATTATTTACTAACTGCTACTTATAAATTTTAA	MKLFSVSFITASSFLYAQSSSEDSLSTEVQTVEVIGRKSKGYTSDYSFAATKIAMKNKDLPLTLNTITKELINDRQAFQLREVMKNVSGVSPSSYYNQYNIRGISQNEEGQIINGMRTRQYYFLQPMTSNIERVEVFKGPASITMSSVDPGGTINMVTKKPLSGPRHEISLSGGSFDTYRVTTDLTGSLNKSKTLLYRFNGAYQNAHSFRDHVKNSGILISPSITFVPNEKTSVNVEMIFNDLYGNLDRGQPIFGAVAGKTDLYSTPRTLNLGAPDDFFKTRELILMGTVAHHFNPSISFNASYMKQYWRENLQEHRTTNSFVPDMENKPVSSLAMMQFVQRKQNWATDNINAYFNFKFKTGSVQHQALIGYDSQIWEKRKDGQQNAARGFLLKNGSVASSYNPAKASDYQTTNYNGTVIPVPNVTPFDLNPGAVNYQGADFNTLNVITPLPSALTTTHAAYIQHLFTWKKFKILSGIRQEWLQDITNFKESNESSFKNNKLLYRFGITYSVTDNINLYGTYLTGYQPQSNTVTLMPNTSSLTGSAARFKPLTSDLKELGIKTLLFGRISMNLAVYEINQRNILINANNPSEPDELVQRGADRSRGFEVELSGHILPQWHIYGGYSYIDAKILEDTNHDLIGKRKENTSKNSVNIWTRYNFSTIELLKDFGIGCGMLYQSSKVPWFTRSFELPAYATIDAALYYTPAKTVQLSFNLNNITNKVYWIGAQNYLRLFPGTPRNYLLTATYKF	PGPT0003790_13057	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
BMS003_01043	1446			hypothetical protein	ATGGCTATTTCAAACTTACAACTGATGGTGAGAAAAACCTGGCAGGATTTGTTCAAAGGAAAACAAAATCTTCTCACCACTATTGCCGTACTCTTATTCTGTATGCTGAGTATTGGTATAGGATATACAAAATACACGGACTCTTTTTCGAAAATAAAAGAATACCGCAAAGAAGTCCGGGAAAGCTGGGAGCACAGGCCAGATAAGCATCCGCACCGTATGGCTCACTATGGTTACCTGGTTTTCAGAATCGGGCATCCTTTGAATATTTTTGACAACGGACTGGATGATTATCTTGGAAATGTCATATTTCTGGAGGCACACAAACAGAATACCGCCAACCTTTCGGAAGCGGGAAGTTCCGGAACTTTAGTCAGATTTGGGGCATTTAGCAGTGCCTTTATTCTGCAGAGTATTGTACCATTGATTATTCTTTTTCTAGGATTTGGACTAATTGTTCAGGAACGTGAAAATGCCACTTTAAAGATCATCAGTGTGCAGGGAACTTCCGGAAGAGATATTATCTGGGGTAAAATACTGGGACTCTGGCTGTTTTCTTTATGTTTCCTGATTCCGGTCATTCCTATTGTTTTCATGGCTGCATTCATGTCGGAGACTAGCAATACAGCGGATATTGTATTACGACTATCATTTCTGTTACCTGCTTATATGATCTATTACTTTTTTATCTGTACGCTGACCGTAGTAGTTTCTGCGAATAGCAAAAGTACCTCATCAGCACTGATCAGCCTTATTGGTTTCTGGCTTCTTTTTATCATTGTTTTACCCAAAGGAATCCAGTTTGCAGCACAGAATCTATATCCTGCTCCTTCCCGGATTGCTTTTGAAACTACTCTGGAAAAGGATATTTTAAAATCGGGAGACAGCCATAATCCTGATGATCCTCATTTCAAACAGATCAAAGATTCTTTGCTGGCCAAGTATAAGGTGAAGACAACCAATGAACTTCCTTTCAACTATGGAGGATTCGTGATGAAGGAAGGAGAAAAAATAAGTTCACAGATTTATATCAGACATCAAAAGGAATTGCAGACCATTTACAGCAAACAGCAAAGCCTGACCGATTTTTCAGGATTCATTAACCCTGCGATTGCCATTAAAAACTTTTCCATGATTGCAACAGGTACGGATTTTTTCTCCTATAACCAGTTTCAGAAACAGGCAGAAGAGTATCGTTATCAAATGGCTCAGCATTTAAATGATTTACAAATTGAACAGATCAGTAATATTAAGCCGGAAAACGGAGGACCGCCCGCTGTTATCGATAAACATAACTGGGAAAAATTTCCGGATTTTCAGTACAGATATACTTCTGTTCCGGAAAGCCTGAAACAACAGCCCATACCTGCTGCTGCATTGGTTTTCTGGATGGTTGTCTGCATTATTGCAATTGAAATAAGTGGAAAAAAATTAAAATTAATCTAA	MAISNLQLMVRKTWQDLFKGKQNLLTTIAVLLFCMLSIGIGYTKYTDSFSKIKEYRKEVRESWEHRPDKHPHRMAHYGYLVFRIGHPLNIFDNGLDDYLGNVIFLEAHKQNTANLSEAGSSGTLVRFGAFSSAFILQSIVPLIILFLGFGLIVQERENATLKIISVQGTSGRDIIWGKILGLWLFSLCFLIPVIPIVFMAAFMSETSNTADIVLRLSFLLPAYMIYYFFICTLTVVVSANSKSTSSALISLIGFWLLFIIVLPKGIQFAAQNLYPAPSRIAFETTLEKDILKSGDSHNPDDPHFKQIKDSLLAKYKVKTTNELPFNYGGFVMKEGEKISSQIYIRHQKELQTIYSKQQSLTDFSGFINPAIAIKNFSMIATGTDFFSYNQFQKQAEEYRYQMAQHLNDLQIEQISNIKPENGGPPAVIDKHNWEKFPDFQYRYTSVPESLKQQPIPAAALVFWMVVCIIAIEISGKKLKLI	PGPT0006730_1895	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_01044	1347			hypothetical protein	ATGAACCGTTATTTATATACCCAATTTTACCGTAACAAAGCCTATATCATTGCACTGCTGTTTTTATTCATGGCCGGACTGATGGCCATTTATACAGGGAAAAAGTTTTTAGACAGGAACGAAGATATGATCTCCAAAAGCAGAGCTTTTCAAAAAGAAAGTATAGAAAGGAATACAAAATTTCATAAAGACGATCTGGGGCTGGTACTTTATTATATTAAATTTAATCTGGTGAATGAAACACCCAGGCTGGCTGCTTTAAATATCGGTATGCGTGACTTGAATCCTTCTATCCAGGGAGTAACCATCCGAAACCTGGAGGAACAGCGCTACAATGCTGATTTTTATAATCCAGCTAATGCAGCTGTCGGAAATTTTGACTTTAGTTTTGTCATTGTTTTCCTTTTTCCACTGGTGATTGTGGCCTTCTGTTATAATCTGATTTCCGAGGAAGAAGAAAGGGGAACATGGAAGCTGCTTTCGGTGCAGAGTGGTAATTTGCAAAAGCTTCTGAATCATAAAATGCTCATACGCCTTTTGGCGGTGACGTTTGTTTATCTTATATTAATTATCATTGCTTCGGTCTGGATAAAGATACCTTTAAACTCTTACTATATCGCTTTTCTTATCAGTGGGTGGCTTTATATTCTGTTCTGGTTTGCCCTTTGCCGATGGATTATTTCATTCCGTAAATCTTCGGCTCAGAATGCATTAATTCTTCTTACTGTATGGGTGGGAATCAATTTTATGATCCCGATGAGCAGCAATATTTTGATACAGAAACTCTATCCGGTTCATGAATCCCTTAAAGCAGTAATGGAACAAAGAGAAGGTTATCACAACAAATGGGATGAGGCCAAACGTCCTACCATGGAAAAGTTTTACAAAGCCTACCCGCAATACAGCAATTTCATTGTGGAAGAAAATGATGCATTCACCTGGACGTGGTATTATGCCATGCAGCATATGGGAGATCTTGAATCTGCAAACTCATCAGAACAATACACAGAGAAAATGGAAAAGCGGAATCAGGCGGCAGCCTATTTAGGCTATCTCCTTCCCAATTTACATACTCAGCTTGTAGAAAGCCACTTAGCAAAATCTGATATGCAGAATCATTTGCAGTATGCTTCATCCCTCAAGAAATTTCATGAGAAAAAAAGACTGTTCTTCTACCCTCTTATTTTCTCCGGAAAGAATGCTGAGGCCGTCAACTGGGAACAGCAAAGCATACAGGTGTTCAAATTTTCTCAAAATATTGGATGGATGCAGGTGTTTCTGCCCTACTTCATCTTTATTGTTTTATTCATCATCCTTTCACAATACAAATACAGAAAACTATGTTAA	MNRYLYTQFYRNKAYIIALLFLFMAGLMAIYTGKKFLDRNEDMISKSRAFQKESIERNTKFHKDDLGLVLYYIKFNLVNETPRLAALNIGMRDLNPSIQGVTIRNLEEQRYNADFYNPANAAVGNFDFSFVIVFLFPLVIVAFCYNLISEEEERGTWKLLSVQSGNLQKLLNHKMLIRLLAVTFVYLILIIIASVWIKIPLNSYYIAFLISGWLYILFWFALCRWIISFRKSSAQNALILLTVWVGINFMIPMSSNILIQKLYPVHESLKAVMEQREGYHNKWDEAKRPTMEKFYKAYPQYSNFIVEENDAFTWTWYYAMQHMGDLESANSSEQYTEKMEKRNQAAAYLGYLLPNLHTQLVESHLAKSDMQNHLQYASSLKKFHEKKRLFFYPLIFSGKNAEAVNWEQQSIQVFKFSQNIGWMQVFLPYFIFIVLFIILSQYKYRKLC	PGPT0006730_2302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_01045	696	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGTTAAAAACGGTCAACCTACATAAAAAATACAACGATTTTACAGCCCTTCATTCTCTTAATCTGGAGGTAGAAAAAGGGGAAATCTTTGCACTTCTCGGGCAAAACGGAGCAGGTAAAAGCACAACAATCAATATTCTTCTGGGGCTCATTAAAGCGACTTCAGGAGATGCTTTCATTAATGATATTTCGGTAAAAGAAGAGCCTCAAAATATAAAGAAATATCTTGCCTATATCCCGGAAACGGTTCTTTTATATCCTAATCTTACCGGAATAGAAAATCTTGATTTTTTCTCCAAAATTGCAGGATTTGATTATCAGAAAGATGAATTATCTGCACTACTCAAACGTACAGGATTACAGGAAATTGCCCATCAAAAAGCATTGGGAGGATATTCCAAAGGAATGCGCCAAAAAGTAGGTATTGCTATAGCACTTGCCAAAGATGCAAAAGTATTGCTGCTGGATGAGCCTACCAGCGGGCTGGATCCCATAGCCACAGCAGAGTTTACAGAAATTGTACGTCAGCTGGGTAAAGAAGGCAGAACTGTTTTAATGGCAACACATGACATCTTCAATGCTGTAAGTGTAGCCACCAATATCGGAATTATGAAACAGGGAGAATTGGTACAGAATGTACCTTCCAAAGCATTTACAGCACAGGAATTACAGGAGCTGTATCTGAAAACAATCTGA	MLKTVNLHKKYNDFTALHSLNLEVEKGEIFALLGQNGAGKSTTINILLGLIKATSGDAFINDISVKEEPQNIKKYLAYIPETVLLYPNLTGIENLDFFSKIAGFDYQKDELSALLKRTGLQEIAHQKALGGYSKGMRQKVGIAIALAKDAKVLLLDEPTSGLDPIATAEFTEIVRQLGKEGRTVLMATHDIFNAVSVATNIGIMKQGELVQNVPSKAFTAQELQELYLKTI	PGPT0006725_27545	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_01046	1317	phrA		Deoxyribodipyrimidine photo-lyase	ATGAAACTGAAACAAACTCCTATGAAAAATACCATCACCCTTTTCTGGTTCAGACGTGATTTAAGACTGGAAGATAATATCGGGCTTCATCAGGCACTCCAATCTGATGCTCCGGTACTGCCCATTTTTATATTTGATACTGATATTCTGGGAAAGCTGGAAGATAAAGAAGACCGCAGAGTGGATTATATTCATCAGGCTTTGACGGATATTAATATTTCGTTGAAAAAATACCATTCAAAAGTCAATACCTATTATGGTAAGCCCATAGAAATATTCAGAAAATTATCTGAAGAATATACTATCGAAGGGGTTTTCTGCAATAGGGATTATGAACCTCAGGCGATTGAGAGAGATAAAGAGGTCTATTATTTTTTTAAGGAAAAGAATATTCCGTTTAAAGCCTATAAAGATCAGGTAATTTTTGATAAAGACCAGATCATTAAGAAAGATGGTTCGCCCTATACGGTGTACACTCCTTTTGCTAAGAAATGGCGGGAAGCATTAACCCCCGAACATTATCAATCTGTTGAGTTAAATTTTAAAAACCTCTTTCCACAGGAATATTCTGACATTCTTAGTTTAAAAAAGATTGGCTTCAAAAAAACGGATTTTGATTTTAAAAAACCTGTTTTGGAGGCTTCTATTATAGATAATTATGATCAATATCGTGATTATCCAGCGTTGCAACATACTACACAACTCGGCATTGCTTTACGCTTTGGAACCATCAGCATCAGGAAATGTGTGGCTTTTGCACTGAAACATAATGCGGTATGGCTTTCGGAGCTGATCTGGCGGGAATTTTTTATGCAGATTTTATATCATTTTCCTCAGGTGGTTCATCAGTCTTTCAAAATACAATATGACAACATTCATTGGCGGAATAATGAAGACGAATTCAAACACTGGTGCGAAGGAACTACAGGATACCCAATGGTAGATGCCGGAATGAGAGAATTGAATCAGACTGGTTTTATGCATAACCGTGTAAGAATGATTGTTGCAAGTTTCCTATGTAAACATCTGCTGATAGACTGGCGTTGGGGGGAAGCTTATTTTGCCTTAAAACTTAACGATTATGATCTGTCTGCAAATAATGGAAACTGGCAGTGGGCGGCAGGTTCAGGATGTGATGCAGCACCTTATTTCAGAGTCTTTAATCCGACCGCTCAGATGGAAAAATTTGACAAAGATCTGCTGTACATCAAAAAATGGCTTCCGGAATGGAATACCCCGGAATATCCATCTCCGATAGTAGAACATACATTTGCCCGGGAAAGAGCTTTATCAGAATATAAGAAAGCATTGACGTAA	MKLKQTPMKNTITLFWFRRDLRLEDNIGLHQALQSDAPVLPIFIFDTDILGKLEDKEDRRVDYIHQALTDINISLKKYHSKVNTYYGKPIEIFRKLSEEYTIEGVFCNRDYEPQAIERDKEVYYFFKEKNIPFKAYKDQVIFDKDQIIKKDGSPYTVYTPFAKKWREALTPEHYQSVELNFKNLFPQEYSDILSLKKIGFKKTDFDFKKPVLEASIIDNYDQYRDYPALQHTTQLGIALRFGTISIRKCVAFALKHNAVWLSELIWREFFMQILYHFPQVVHQSFKIQYDNIHWRNNEDEFKHWCEGTTGYPMVDAGMRELNQTGFMHNRVRMIVASFLCKHLLIDWRWGEAYFALKLNDYDLSANNGNWQWAAGSGCDAAPYFRVFNPTAQMEKFDKDLLYIKKWLPEWNTPEYPSPIVEHTFARERALSEYKKALT				NA	NA	NA	NA	NA
BMS003_01047	243			hypothetical protein	ATGGAAGAATTTGAAGTACCGGTAACGTATAAGGGTAAAGAATTGCTTTTCAACGGAAAGCTCGCCACATTCTCTTATGGGTATAAACTGTATGTAGATGTAGATGGAACTGAGGTGGTTATTGAACGTGATGATCATGGTGATTTGAGGGCTCTTCTGCCGGATGCTGCTGCAGAAAAAAATATAGATAAAGGACTTATTGAAGCGATTATAGAGGTTTTTAAAGAACTTCAGGTTTTATGA	MEEFEVPVTYKGKELLFNGKLATFSYGYKLYVDVDGTEVVIERDDHGDLRALLPDAAAEKNIDKGLIEAIIEVFKELQVL				NA	NA	NA	NA	NA
BMS003_01048	765			hypothetical protein	ATGAAAGCATTAATTCTCATCGCAGCATTTCTTTTCTCCAATAGCATGATTTCGGCAACGGAAACCAAAATTATGGTCAGAGCAAAAGCAAGGGATGCCAAATTTATCGGAACTTCATTGGGGGGAGCCCATATTATCATCAGAAACAAGCTTAACCAAATGATTCTGGCAGAAGGAAACACTACCGGAAGTACCGGAAACACAGATCTGATCATGAAAACACCTAAAATAAGAGGAAAATCCATTGCGGATGAACAGACAGGAGGTTTTATGGCGGCAGTAGATATTGATGAACCTACATTTGTGAACATAGAAGTGATTTCTCCTCTGAACAGCAAACAGGCTCAGGCAGTGGTAAGCACAGAGCTATGGCTGATTCCCGGGAAACATATTTTAGGAGAAGGAATTATCCTTGAAATTCCTGGGTATATTATTGATATTCTGAAACCTAGAACACATCAGTATATTGCACTGAAAAGTATTAAAGATAAACCTTTCCTGTTTCAGGCTAATATTGTGATGATGTGCGGATGTGTCATTGACAAAGGAGGGATTTGGAATTCTGATGAAATTGAAGTAAAGGGAATCCTGAAAAAAGACGGAAAATTTGTGAAAAATATTGATATGTCTTTAGTTTCAACCAATCTGTTTGAGGGAAGTCATATCATCAATTCTCCCGGAAATTATGAACTTGTCCTGTATGCTTATCACGAGAAGACCGGAAATACAGGCGTAGATAAGGTGAATTATGTAGTCTTCGAATAA	MKALILIAAFLFSNSMISATETKIMVRAKARDAKFIGTSLGGAHIIIRNKLNQMILAEGNTTGSTGNTDLIMKTPKIRGKSIADEQTGGFMAAVDIDEPTFVNIEVISPLNSKQAQAVVSTELWLIPGKHILGEGIILEIPGYIIDILKPRTHQYIALKSIKDKPFLFQANIVMMCGCVIDKGGIWNSDEIEVKGILKKDGKFVKNIDMSLVSTNLFEGSHIINSPGNYELVLYAYHEKTGNTGVDKVNYVVFE				NA	NA	NA	NA	NA
BMS003_01049	495			hypothetical protein	ATGGATTTTGATTTCATTAAAGAATTAGGATATAAAGCTTTGGACAGCAGGCTGAAAAGAATCAGCGACAGGATGTCTCACGATGTACGGAAGTTTTATAAAGAATTCGGAATTGATATTGAGCCCAATTGGTATCTGGTTTTTATGCTGCTGCAGAAGAAGGGTGAGATTTCAATTACTGATATTGCTGAACCATTGGGGTATTCGCATCCCTCAGTGGTAGCTATCGTCAAAAAAATGAATGAAAGCGGTTATCTCAATATCAAAAAAGATAATGTGGATAAACGGAAGCAGATTATTTCACTATCTCCCAAAGCTATTGAAATGCTTCCCCAGCTGGAACAGATCTGGAACAGTTGTGAAAAAGCTATTCTGAAAGTATTATCAGAAGATCTCTCGGTTTTTACTTATCTGGATCACATTGATCAGGAATTAAAAAATGAATCTTTTCATCACAGATTCAAACAGGAATATTTAAAATCAATCAAAGCATGA	MDFDFIKELGYKALDSRLKRISDRMSHDVRKFYKEFGIDIEPNWYLVFMLLQKKGEISITDIAEPLGYSHPSVVAIVKKMNESGYLNIKKDNVDKRKQIISLSPKAIEMLPQLEQIWNSCEKAILKVLSEDLSVFTYLDHIDQELKNESFHHRFKQEYLKSIKA	PGPT0013155_900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS003_01050	1158	ybjJ		Inner membrane protein YbjJ	ATGAACGAGAGAGAATCTTTTAATGCCAAAATGCCGACAGCCTGTTTTTTACTTTTCTTTGCCCACGGACTTGTTTTTTCTTCCTGGGCGAGCCGGATTCCAATCATTAAAACAGCACTTTCCATTAATGAAGCACAATTGGGAACACTTTTGCTTCTTATGCCGATAGGACAGCTTTCCACCATGGTTCTGGCCGGAAAACTAATCAGTATTTACGGAAGCAGCGGAATTATTAAAAGATGCTTTTTATTGTATCCTTTTTTTCTGTTATTAATTGGTTTATCACCTTCATACTGGACGTTAGGCGTTGTTCTGTTCTTTTTTGGAGTTTCCGGGAACATGTGCAATATTGCCATCAATACACAGGCCATTGAAATAGAATCTATCACGAAAAGAACCCTTCTTTCTTCCTATCATGGCGCCTGGTGTTTTGCAGGGCTTACTGGGGCAGTCATAGGTTTACTGATGATTAATCTCCATGTAGGAACTTTTTACCATTTTGCTGTTATTTTCATTCTGGTAGGAATACTTTGGTTTTACAGTACAAAAAATCTGACGAATATTATTCATAAAGCAGAACCTCAGACCCGTTCAATTTTTAAAGCTGTGAATCCTACACTGATTGGTTTGGGAATTATAGGATTTCTGAGTATGGCGATTGAAGGAGCCATGTTCGACTGGAGCGGAGTGTATTTTCAAACAATAGTTAAAGCGCCTGAAAATCTTGTCATATTGGGATATACGAGTTTTATTTTAATGATGACTTTAGGCCGTTTTATCGGGAACAGAATCATTGAAAAGTATGGAAAAAAGATCGTTCTACAGTGTTGCGGCATATTGATGAGCGGTGGTCTTTTTCTAAGTGTTTTCTTCCCGGAGCTGTGGATCTGTATCATTGCTTTTATGATCATTGGTCTTGGAAGTTCACTAAGTGTACCTTCCGTTTACAGTACGGTAGGAAAGGTGAGTACAGTGGCTCCGAGTATTGCTTTGTCATTTGTTTCCAGTATCTCGTTTTTAGGATTTTTGATGGGGCCGCCTCTTATCGGATATATTGCAGAAAGCTTTGATCTCAGATATTCTTATGGCCTATTTGCTTGCTTTGGAATTTTACTGGCGATTATGGCAGGCCAGATGAAAGTCTTCAGGAAATCATAA	MNERESFNAKMPTACFLLFFAHGLVFSSWASRIPIIKTALSINEAQLGTLLLLMPIGQLSTMVLAGKLISIYGSSGIIKRCFLLYPFFLLLIGLSPSYWTLGVVLFFFGVSGNMCNIAINTQAIEIESITKRTLLSSYHGAWCFAGLTGAVIGLLMINLHVGTFYHFAVIFILVGILWFYSTKNLTNIIHKAEPQTRSIFKAVNPTLIGLGIIGFLSMAIEGAMFDWSGVYFQTIVKAPENLVILGYTSFILMMTLGRFIGNRIIEKYGKKIVLQCCGILMSGGLFLSVFFPELWICIIAFMIIGLGSSLSVPSVYSTVGKVSTVAPSIALSFVSSISFLGFLMGPPLIGYIAESFDLRYSYGLFACFGILLAIMAGQMKVFRKS				NA	NA	NA	NA	NA
BMS003_01051	603			hypothetical protein	ATGAAAGAAAAATGGATTGCCTATCCAACCATCCTGGAAGGAGAAACCGTTGAATTAATTCCCCTCGAAAAAGAACATTTTGAAGAATTATATATTGCTGCTTCAGATAAAGAACTCTGGGAATTGATTCCTACCGATTGTTCCGAAGAAACCCAGTTTTATAAAACATATGAATTCGCTTTATCAGAAAGAGAAAAAGGAAATCAATATCCTTTTGTCATCCGTCACAAAGAAACCGGAAAGCTGATAGGCTCCACACGCTTTTTTGAAATATATCCTGCAGACCGGAAACTGGAAATCGGATGGACATGGATCACTAAAGAATTCTGGGGAACAGCCATCAACCTTGAATGCAAACTGCTTCTCCTCACCTTCTGTTTTGATGTTTTGAAAACCAACAGAGTACAATTGAAAACAAAAGACAACAATTTCAGATCCAGAAAAGCCATTGAAAAAATTGGCGGTGTGTTTGAAGGTATTCTACGTAAAGATAAGGTTTTAAGTGACGGCAGCACAAGAAATGCTGTTTATTACAGTATTTTAGATGATGAATGGAATACGGCAAAACTTAAAATCGAAACGCTTATAAAAGAAAAACAATAA	MKEKWIAYPTILEGETVELIPLEKEHFEELYIAASDKELWELIPTDCSEETQFYKTYEFALSEREKGNQYPFVIRHKETGKLIGSTRFFEIYPADRKLEIGWTWITKEFWGTAINLECKLLLLTFCFDVLKTNRVQLKTKDNNFRSRKAIEKIGGVFEGILRKDKVLSDGSTRNAVYYSILDDEWNTAKLKIETLIKEKQ				NA	NA	NA	NA	NA
BMS003_01052	915			hypothetical protein	ATGGAAAAGAAAGATAATGCTCCTTTGAAAATTTCATCCATATCCGAACTGCACAGTTTGCTGCAGCTCCCCAAACCGCTTCATCCTTTGGTAAGCCTTGTGGATAATACAACAATGAGTATCAAAAAAGAGATGCTGAAAAGAAGCTTTATCCTGAACTTTTACAAAATCTCTTATAAATATTCCACTACCGGAAAGATGGGCTATGGGCAAGGATATTATGACTTCAATGAAGGGGGAATGATGTTCACCGCTCCCGGGCAGGTTCTTTCTACAGATGAAAATGCTGAATACTGCGGATATACTTTAATGGTACATCCGGACTTCATCAGAAGTTATCCTTTGGCAAAGAATATCAAAAACTTCGGTTTCTTTTCTTATGATACGAATGAGGCTCTCCATCTTTCTGATCAGGAAAAAACAACAATTACAGGTTTGCTGGATAATATCGGAAATGAACTCAATACTGCCATTGATGAAGTAAGCCAGGACGTTATTGTTTCCTATATTGATGTACTTCTGAATTACAGCAACCGTTTTTATAAAAGACAGTTTATTACAAGAAAGGCGGTCAATAATGATTTGCTGACCAAAATGGATATTGTGCTGGAAACTTATTTCAATCAGCAGGAAACCTTAAATAAAGGGCTTCCTACGGTAGAATTTCTGGCTTCCACACTCAATCTGTCACCTCACTATCTGAGTGATATGCTCCGAAATCTTACCGGATTAAATGCTCAGCAGCATATTCATGAGAAACTGATTGAAAAAGCAAAAGAATATCTTACCACTACTGGCTTTTCTGTATCTGAAGTAGCCTATGCCCTTGGATTTGAGCACCCACAGTCATTCAATAAGCTGTTTAAAAAGAAGACAGAGAAAACTCCTCTGAGTTACAGACAGTCTTTCAATTAA	MEKKDNAPLKISSISELHSLLQLPKPLHPLVSLVDNTTMSIKKEMLKRSFILNFYKISYKYSTTGKMGYGQGYYDFNEGGMMFTAPGQVLSTDENAEYCGYTLMVHPDFIRSYPLAKNIKNFGFFSYDTNEALHLSDQEKTTITGLLDNIGNELNTAIDEVSQDVIVSYIDVLLNYSNRFYKRQFITRKAVNNDLLTKMDIVLETYFNQQETLNKGLPTVEFLASTLNLSPHYLSDMLRNLTGLNAQQHIHEKLIEKAKEYLTTTGFSVSEVAYALGFEHPQSFNKLFKKKTEKTPLSYRQSFN	PGPT0017485_216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_01053	798			hypothetical protein	ATGAAAACAATTTTTATAACAGGTGCTTCTACAGGATTAGGTAAAGCAACTGCCCAATTATTTCAAAACAAAGGATGGAGAGTAATCGCAACAATGAGAAACCCTGAAGCTGCGGCTGATCTTGCAGCGTTGGAGAACGTAACTGTACTTCCCCTTGATGTAACCAACTTCAACCAAATACAGTCTACAGTAAAACAAACCTTGGAACTCACTGATGTAGATGTGGTTTTTAATAATGCAGGGTATGGTCTTATGGGACCATTGGAAGCATTAAAAGATGATCAGATTACAAGACAGTTAAACACCAATTTATTAGGAGTTATCCGTGTAACACAAGCATTCATCCCATATTTCAGAGAGAAAAACAATGGAATGTTTATTTCTACGACTTCCATTGGTGGCTTGATTGCTTTCCCTTTAAATTCTATTTACCATGCTACAAAATGGGCGTTGGAAGGCTGGAGCGAAAGTATGGCTTTTGAGCTGAATCAGTTTGGAATTGATATTAAAACCGTTTCTCCCGGAGGAATTAAGACTGATTTTGTAAGCCGTTCTTTAGATTCTGCATCAAGTCCTGCCTATGAAGAAATGATTGGATCATTATTTTCCAAAATGGGAGGAATGATGGAAGTGGCTTCTACTCCTGAACAAATTGCAGAAGTAGTGTATGAAGCAGCTACTGATGGCAAAAGAAATCTGAGATATGTAGCTGGAGAAGATGCCAAAGCTTTGTATGCTCAGCGTCTAGAATTGGGTGATGAAATATTCAGAGATCAGTTAGGAAAACAGTTCCTTTAA	MKTIFITGASTGLGKATAQLFQNKGWRVIATMRNPEAAADLAALENVTVLPLDVTNFNQIQSTVKQTLELTDVDVVFNNAGYGLMGPLEALKDDQITRQLNTNLLGVIRVTQAFIPYFREKNNGMFISTTSIGGLIAFPLNSIYHATKWALEGWSESMAFELNQFGIDIKTVSPGGIKTDFVSRSLDSASSPAYEEMIGSLFSKMGGMMEVASTPEQIAEVVYEAATDGKRNLRYVAGEDAKALYAQRLELGDEIFRDQLGKQFL				NA	NA	NA	NA	NA
BMS003_01054	3342	rapA		RNA polymerase-associated protein RapA	ATGGCAGAATATATTCTTGACAACATTAATATCAGTACACTTTCCGTATATGACCTGCTGAAACATACTTCAGACAGTACATTCATCGGAATCAGGGATTTTCGTGAGATCTACCCGGCTGCAATTGAAATTAATACAGGAATATTTACAAAACAATCTTCCCTGCAGGACTTCCCGATGGTTACCATCAGCAAAATTGGGAGTTCATTAATTTGCTCCTGCACCTGTGATAATCCAAAAGACCGGCTTTGCTCTCATCAGGCAGAAATTATTCACTGCATTATTGAGGATAAAAATTACCGGATGTTTTTTGATGAAGCACTCCGTAAAAAAATTCTTATTCCAAAAGCTAAAGGATATGGCCTTGAAAATGAACCGGATCTGGATCAGTATTTTCAGCTGGAATATGCTGATGGCAAAATTGAAATACACCCTAGAATCAAGGAAATGCTTCCCGTAGATGATGTAATGCTTACAAAAAGCCTTCTTCCTCAACTTCCTTCTAAACTGGATGAGCTGGCAGTATTGGAAAATGGTAAAAAACAAATATTAGTTATCGGTAAACACCGTTATTACAATCATATGACTTTCTCTCTGATGGAGGCAGAAATAACGCAGACAGGAAAAATAAAAAATCCTGTTACTCCTGTAGATGCCATGCAGCTGATATGGAAGGCAGAGATGCCCTCAGATATTAAATTTTATATGGCCATTACCTCTTTTCAGAATAATTATAATGAAGATTACAATCCGTCAGAACTGGAAGCTTTAAAGCTCATTGTCCAGAATCCCCTGGAGCTGGAGGTCTATTACCACGATCAGGAAATTGCAGAAACCGTTTCCGCAAAGTCACTTTCTCAGGTTGAATTAAATACTTTAGATGCGGAGGTTCAATTATCTGTATTTAAGAAAGATCCGTTTTTTGAAATAACCGGAGAATTGCTGTTTCATGATATTTCTGTTCCTTTTAAAAATATTGTTCTCAGAAATGACTATTTTGTCTATAACCGCAACATTTTCAGCTTTGTAGATGATCCGGACATGCTCAGAATTATCCGGTTTTTTAAGGCTAATAATGAGATTTTACTGGTTCATTCTTCAAAATACGATGCATTTATGGAGAATATCCTCTCTCCCATAGAAGAGCGTATTCATATCAATTACAAATACATACAACCTGCAACAAAAGTACAGGTTGAAGACAAGAATTATCAGACAGAAAAAGTCATTTATCTCCGTCAGCAGGAAAATTATATAGGAATTACTCCCGTTATGAAATACGGAGATGTAGAAGTTCCGGTGTATTCCAGGAAGCAGCTTTTTGATACGGATCAGAATGGAAATCCATTTAAAATAGAAAGAAATGAATCGGCTGAAGCCCGTTTTACATCTTTGGTCATGCAGCAGCATCCTGATTTTGAAGAGCAGATGGACGGCTATCAGTATTTTTATCTTCACAGAGATAAGTTCCTGGATAACAACTGGTTTCTTGATGCATTTGAGACCTGGAGAAATGAAGGAATCATCATACTCGGCTTTAATGAGTTAAAAAACAATAAATTAAATTCTCACCGGGCTAAAATCAATATTCAGATCACCAGCGGACTGGATTGGTTTAATGCTAAATTAAAAGTAGCTTTTGGCCCTAAAGAAGCTTCTCTGAAACAACTTCACCGTGCTATCCGCAACAAGAGTAAATTTGTTCAGCTGGATGATGGCAGCATGGGAATTCTCCCTGAGGAATGGATGGAAAAAATTTCCGCTTACTTCCGTGCAGGAGAAATTGATGAAGAGCTTTTAAAAATTCCGAAAATTAATTTTGCGGAAGTGACTTCACTGTTCGAAAAAGAAATCCTGAGTAAAGAGATTCAGGAAGAGCTAACCTCCTATTCCACAAAGTTTTCAAAAATAAAAGACATTCCGGAAGTGTCTGTTCCTGCTGAGCTTAAAGCAGAATTGAGAGATTACCAGCATGACGGACTGAACTGGTTAAATTTTCTTGACGAATTCAACTTCGGTGGATGTCTGGCTGATGATATGGGGCTTGGAAAAACCATCCAGATTATTGCTTTTATCCTTTCACAAAGGGCAAAACGAGGGCATACCACCCATCTGATTGTTGTTCCCACCTCCCTACTTTTCAACTGGCAGGAAGAGATCAGCAGATTTGCACCTTCCATAAAAGTTCTGCTTCATTATGGTGCCGACCGACCGAAAACAACAGCTCATATGCCTGATTATGAAGTAGTCCTTACAACGTATGGAATGCTGCTTTCGGATATCCGGTTTTTGAAAAATTTTACTTTCAATTATGTATTTCTGGATGAGTCACAGGTCATTAAAAATCCAAATTCAGAAAGATATAAAGCCGCTCGCCTGCTTCAATCGAGAAACAGGATTGTACTGACCGGAACCCCTGTTGAAAATAGCACTTTTGACCTTTACAGCCAGCTTTCTTTTGCCTGTCCGGGATTACTGGGAAGCAAACAGTATTTTAAAGATATTTACGCCATTCCTATTGATAAATTTGAGTATAGCAAACGAGCCATCGAGCTTCAGCAAAAAATAAAACCTTTTATTCTCAGAAGAACCAAGAAACAGGTTGCCAAAGAGCTTCCGGAAAAAACAGAAACGGTTATTTACTGTGAAATGAATACGGAACAGCGCAAAATTTACGATGCTTACGAAAAAGAACTTCGTGAATTTATTGCAGCCAATGATGACGATGATCTGAACAAAAACAGTATGCACGTCCTTACAGGTCTTACAAGGCTCAGACAGATATGTAATTCACCTGTTCTGATGAAAGAAGGGTATTCTGGTGAGAATGCTGTTAAAATCGAAATTTTGATGGAGCAGATCCTTGGAAAATCGAAAGATCATAAAATCCTTGTTTTCTCCCAATTTGTAGGAATGCTGGATTTGATTAAAACTGAGCTGGAACGTCATAACATTCAGTTTGAGTATTTAACGGGACAAACTAAGGACAGAGGTAAAAAAGTAGCTCATTTTCAGAACAATGAAGATATCCGTGTATTTCTGATCAGCTTAAAGGCTGGTGGTGTTGGTCTTAATCTTACTCAGGCAGATTATATCTATCTGGTAGATCCTTGGTGGAACCCTGCCGCTGAAAACCAAGCCATTGACCGCAGCTATCGTATAGGACAGACTAAAAATGTAATTGCTGTACGAATGATCTGTTCCAATACCGTTGAGGAAAAAATACTTACCCTTCAGAAAAAGAAAAAAGAACTGGCTCAGAATCTGCTTACCACCGACGGAAAGAAAATTCAGGGACTTTCTAAGCAGGATCTGATGGATTTGCTGGAATCCGGATCATAA	MAEYILDNINISTLSVYDLLKHTSDSTFIGIRDFREIYPAAIEINTGIFTKQSSLQDFPMVTISKIGSSLICSCTCDNPKDRLCSHQAEIIHCIIEDKNYRMFFDEALRKKILIPKAKGYGLENEPDLDQYFQLEYADGKIEIHPRIKEMLPVDDVMLTKSLLPQLPSKLDELAVLENGKKQILVIGKHRYYNHMTFSLMEAEITQTGKIKNPVTPVDAMQLIWKAEMPSDIKFYMAITSFQNNYNEDYNPSELEALKLIVQNPLELEVYYHDQEIAETVSAKSLSQVELNTLDAEVQLSVFKKDPFFEITGELLFHDISVPFKNIVLRNDYFVYNRNIFSFVDDPDMLRIIRFFKANNEILLVHSSKYDAFMENILSPIEERIHINYKYIQPATKVQVEDKNYQTEKVIYLRQQENYIGITPVMKYGDVEVPVYSRKQLFDTDQNGNPFKIERNESAEARFTSLVMQQHPDFEEQMDGYQYFYLHRDKFLDNNWFLDAFETWRNEGIIILGFNELKNNKLNSHRAKINIQITSGLDWFNAKLKVAFGPKEASLKQLHRAIRNKSKFVQLDDGSMGILPEEWMEKISAYFRAGEIDEELLKIPKINFAEVTSLFEKEILSKEIQEELTSYSTKFSKIKDIPEVSVPAELKAELRDYQHDGLNWLNFLDEFNFGGCLADDMGLGKTIQIIAFILSQRAKRGHTTHLIVVPTSLLFNWQEEISRFAPSIKVLLHYGADRPKTTAHMPDYEVVLTTYGMLLSDIRFLKNFTFNYVFLDESQVIKNPNSERYKAARLLQSRNRIVLTGTPVENSTFDLYSQLSFACPGLLGSKQYFKDIYAIPIDKFEYSKRAIELQQKIKPFILRRTKKQVAKELPEKTETVIYCEMNTEQRKIYDAYEKELREFIAANDDDDLNKNSMHVLTGLTRLRQICNSPVLMKEGYSGENAVKIEILMEQILGKSKDHKILVFSQFVGMLDLIKTELERHNIQFEYLTGQTKDRGKKVAHFQNNEDIRVFLISLKAGGVGLNLTQADYIYLVDPWWNPAAENQAIDRSYRIGQTKNVIAVRMICSNTVEEKILTLQKKKKELAQNLLTTDGKKIQGLSKQDLMDLLESGS				NA	NA	NA	NA	NA
BMS003_01055	1311			hypothetical protein	ATGAAGAAAATAACTACTCTTTCCGGTATTGTACTTGCCTTGCTGATGAATGGACAGGTGCAGTATTGTATGCCAACCTTTCAGTATGGAGCTGACAGCAACATGATCAGTAATGTGACTTTCGGAAGCATTAATAATACCTCACCAGTACAATCGGGCAATGCACAAATTTATGAGAATTTTACAGCAGTCTCTACAGATTTACAGTCAGGAAATTCTTACCCGATTTCAGTGAAAGGTCCTTCCAGTACATTTCCGAGTGACGTAGTAGTTTTTATAGACTTTAATCAGAATGGAAATTTTGATGATGCAGGAGAAAGCTTCTATATCGGAAGACTGGAAGCAGCCAATCCAGCCAATGCTTTTACGATAAATAACACGATAGCAATCCCTGCGAATGCTGCCAATGGAAGTACAAGAATGAGGGTTCTTAAAAATACCAATGTTCAGGCTTATTCAAATCCTGCCGCAGCTAACTCCATCAGTTCAGCTTGTGACAGCAGTTTAAGAGCGGGGCAGACAGAAGACTATACAGTGAATATCATAGGAAATACAGCCAATTTCCCGGCTCCTTACTGTGGTACTGAAAATATTACAAGCCTTACGGTAAGCGAAATAAGTACCGTAGAATTTGCAGGAACGGTTAAAAACAGTGTACTTGACGGAAACTCTGACGTTCTTGAAAACTTTACAGCAACCGTGTTCAATGTGAACCGCGGAAACAGCTATCCCATAACGGTAACGGGAGGTACTCATGGTCAGGCTACTGTATCAGCCTATGCTTATATTGATTTTAACCATAATAATCAGTTTGATGCTGATGAAATGTTTAATCTGGGATATCTGGATAATTCCAATCCGGTGCCTGGTCAGCAGTCTGGTGTTACAACAGGTAATATCACCATTCCGGCAGGAGCACAGCTGGGAGACACCCGATTCAGGCTGGTAAAAGCGTATGAATCCAATTCATGGATGGGAACGTTGGAGAATCTTCCGTGTCCTTCAGGTTGGTTTATCGGTCAGGCAGAAGATTATACCCTTACAATTCAGCCAGAAAGTCTTTCAACATCAGAAGTTTCAAAAGAGGCTTCAGCCAATGTGCAGCTATACCCGAATCCTACATCAGGTTCAGTGACGATCAGGATGAAAGAAGGATTGGAGAAATATGAAATTTATAATATGTCCGGACAAAAAATGCTGGAGGGTAATTCTTTAACCGTTTCTATGGACAGTTTTGTTCCAGGGACTTATCTGATCAAAATCAAGATAAAAAATCTAAAAACAGTCACAGAAAAGATTATTAAAAAATAG	MKKITTLSGIVLALLMNGQVQYCMPTFQYGADSNMISNVTFGSINNTSPVQSGNAQIYENFTAVSTDLQSGNSYPISVKGPSSTFPSDVVVFIDFNQNGNFDDAGESFYIGRLEAANPANAFTINNTIAIPANAANGSTRMRVLKNTNVQAYSNPAAANSISSACDSSLRAGQTEDYTVNIIGNTANFPAPYCGTENITSLTVSEISTVEFAGTVKNSVLDGNSDVLENFTATVFNVNRGNSYPITVTGGTHGQATVSAYAYIDFNHNNQFDADEMFNLGYLDNSNPVPGQQSGVTTGNITIPAGAQLGDTRFRLVKAYESNSWMGTLENLPCPSGWFIGQAEDYTLTIQPESLSTSEVSKEASANVQLYPNPTSGSVTIRMKEGLEKYEIYNMSGQKMLEGNSLTVSMDSFVPGTYLIKIKIKNLKTVTEKIIKK				NA	NA	NA	NA	NA
BMS003_01056	1176	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGAAAGAAGTATTTATAGTTTCAGCAAAACGAACTCCGGTTGGAGGTTTTATGGGAAGCCTGTCCGGATTTACAGCACCTCAGTTGGGAGCTCTTGCCATTCAGAATGCTTATGAAAGCATAGGGCTTGCTCCGGACCATATAGACAGTGTTTATATGGGAAATGTACTGAGTGCCGGATTGGGACAGTCACCAGCAAGACAGTCCGCTATTTTTGCTAAAATTCCCATTGATAAAGATGCTACCACCATTAACAAGGTTTGTGCATCCGGTATGAAATCAGCCATGATTGGAGCCCAGCAGATTCAGCTTGGTGTGGATGATATCGTTATGACAGGCGGGATGGAAAGCATGAGCAATGTTCCCCATTATGTCAAAATACGCCAGGGAACAAAATTGGGAGATACCCACCTTACTGACGGATTGATCAAAGATGGGCTATGGGATGTTTATAACGACTTCCACATGGGAAGTGCAGCCGAATTAGGCGTAAAAAAATACGGACTTACCAGACAGGAACTTGATGATTATACTCTGTTTTCCTACCAAAGAGCTCAGGAAGCCGCTGAAAATGGAAAATTCAATAATGAATTGATTGAGATAAAGATTGAAGGCAGAAAAGGAACAACAATTGTTCATAGAGACGAAGATATTGGTAAACTCATTCCAGAAAAAATCTCTTTACTGAAGCCCGCTTTTGAAGCAGACGGAATCCTCACAGCGGCCAATTCCAGTAATCTGAATGACGGCGCAGCAGCAATACTGTTAGCATCTTCTGAAGCTGTAGAACACCATAATCTGAAGCCTTTGGCAAGAATTATAACCTATACAGATGCAGCCCAGTCACCAGAGTGGTTTACCACTTCTCCTTCTATAGCGGTTCAAAAACTTCTGAAACAAACAGGTCTTAATCTTTCGGATATTGATTATTTTGAAATTAATGAAGCCTATTCTTCCGTGATTTTATCCAATCAGAAAATCCTTGGGTATGATCTGAGTAAAGTAAATGTATATGGGGGTGCGGTTGCCTTAGGACATCCAATTGGTGCTTCAGGTGCCAGAATTATGGCCACTTTGGTGAATGTTTTACGCCAGGAAAAAGGAAGGTATGGGATTGCTGCCATCTGTAATGGTGGAGGAGGAGCCTCCGCAGTTCTTATCGAAAATATAGGCTAA	MKEVFIVSAKRTPVGGFMGSLSGFTAPQLGALAIQNAYESIGLAPDHIDSVYMGNVLSAGLGQSPARQSAIFAKIPIDKDATTINKVCASGMKSAMIGAQQIQLGVDDIVMTGGMESMSNVPHYVKIRQGTKLGDTHLTDGLIKDGLWDVYNDFHMGSAAELGVKKYGLTRQELDDYTLFSYQRAQEAAENGKFNNELIEIKIEGRKGTTIVHRDEDIGKLIPEKISLLKPAFEADGILTAANSSNLNDGAAAILLASSEAVEHHNLKPLARIITYTDAAQSPEWFTTSPSIAVQKLLKQTGLNLSDIDYFEINEAYSSVILSNQKILGYDLSKVNVYGGAVALGHPIGASGARIMATLVNVLRQEKGRYGIAAICNGGGGASAVLIENIG	PGPT0008320_11190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS003_01057	501			hypothetical protein	ATGATTTATGCATTCGATACCTATTATTATGAAGATTATGCCAATACTGTATGTATTGCGTTTGAAGACTGGACATCAGAAAATGAAGTGGAAACTTTTATAGAGCAGACTCGTGTGAGCTCAGAATATGAAAGCGGAGCCTTTTACAAAAGGGAATTGCCCTGTATTTTAAGCCTGTTGAAGAAAATAACATTAAAGTCAGAAGACATCATCATTGTAGACGGATATGTTACTTTGGATAATGATGGTAAAATTGGTTTGGGCGGACACCTTTATGAAGCCTTGAACGGGAAATATCCTATTGTCGGGATTGCAAAAAATGAATTTACCATTCCGGATTTCCGGCGGAGAAGTGTATTTCGTGGTGAAAGTAAAACACCGCTTTTTGTAACAGCAAAAGGAATGAATGTAGATGATATTCAGTTAAAAATAGAACAGATGAATGGCGCTTACAGAATACCTACGCTTCTGAAAAAACTGGACCAGTTAAGCAGAGCATAA	MIYAFDTYYYEDYANTVCIAFEDWTSENEVETFIEQTRVSSEYESGAFYKRELPCILSLLKKITLKSEDIIIVDGYVTLDNDGKIGLGGHLYEALNGKYPIVGIAKNEFTIPDFRRRSVFRGESKTPLFVTAKGMNVDDIQLKIEQMNGAYRIPTLLKKLDQLSRA				NA	NA	NA	NA	NA
BMS003_01058	363			hypothetical protein	ATGACCCCAAAACTGAAATCCATCAGGCCTTTTATCGGGGCAAAAGACTTTGAGATCAGCAGGAATTTTTACAGAGATCTGGGATTTGAAGAAATTGTTCTGGAACCCAAATTATCACTGTTTATTCGTGAAGAAATTGGCTTTTATCTTCAGGATTATTATGCAAAAGACTGGGTTGATAATACGATGGTTTTTATGGAAGTTACCGATACCAATGAATTCTGGAAAGAAATTCTGTCTCTCAGACTTATGGAAAAATATAAAAATGTAAGACTCACTCCTGTAAGAACAATGGATTGGGGAAAAGAATGCTTTGTACATGATCCCTCTGGGATTTTGTGGCATTTCGGTGAGTTTTTTTAA	MTPKLKSIRPFIGAKDFEISRNFYRDLGFEEIVLEPKLSLFIREEIGFYLQDYYAKDWVDNTMVFMEVTDTNEFWKEILSLRLMEKYKNVRLTPVRTMDWGKECFVHDPSGILWHFGEFF				NA	NA	NA	NA	NA
BMS003_01059	534			hypothetical protein	TTGGTTTTTACCCTTGTCAAGGTTTTAAACCTTGACAAGGGTAAAAAAAATCATTTCCATGGACTTACCAACAAAATCATCATCATGAAAACCATCATCCGGGAAGCAAGGCCAGAAGATATTGCACAAATTCAGATTGTAAGAAACTCTGTGAAAGAAAATACACTCTCGGATCCAGGATTGGTTACCGATAAAGATTGTGAAGAATTTCTGTTTCAAAGAGGAAAAGGCTGGGTTTGTGAGGTAGAAGATCAGGTTGTTGGCTTTTCCATTGCAGACCTGAAAGAGAATAATATCTGGGCACTCTTTGTACATCCTGATTTTGAAAACCATGGAATCGGCAGAAAACTTCATGACATCATGCTGAATTGGTATTTTGAACAAAACAAAAACTCTGTATGGCTGGGTACTTCACATGGGACAAGGGCTGAAATATTTTACAGAAAATCCGGCTGGAAGGAAGCAGGAACCCATGGAAAAGGAGAAATCAAATTTGAAATGACCTTTGAAAACTGGAAAAACAAAAAAATATGA	MVFTLVKVLNLDKGKKNHFHGLTNKIIIMKTIIREARPEDIAQIQIVRNSVKENTLSDPGLVTDKDCEEFLFQRGKGWVCEVEDQVVGFSIADLKENNIWALFVHPDFENHGIGRKLHDIMLNWYFEQNKNSVWLGTSHGTRAEIFYRKSGWKEAGTHGKGEIKFEMTFENWKNKKI				NA	NA	NA	NA	NA
BMS003_01060	1041			hypothetical protein	ATGAAAAAAATACTTATTCCGTTATTTACAATGGTTGTAATGACCAGTTGCGAAACGGCAAAAATAGCTGACGGAAATGCTTCCCATTCTATATCCACAAAGCACAGCAAAGCATTTAACAATGCTTATAAAGAGATCAATGCTGAGGATTTGAAGAAAAACCTGTACGTCATTGCATCAGATGATATGGAAGGACGTGATACCGGAAGTAAGGGACAGAAAAAGGCGGGTGAGTATATCATTAATTATTATAAAAACCTGGGCATTTCAGCGCCTAAGGCATTAGGTTCATATTATCAGAAAGTACCCTCCGAGTTTATGAAGAAGAGAGGCGGAGGTAATCTTCCCGATTCCGAAAATATTTTAGCTTTTATTGAAGGAAGTGAAAAACCGGATGAGATTGTGGTAGTTTCTGCCCACTACGATCATGTAGGGACAAAAAATGGAGTAGTATACAACGGAGCAGACGATGACGGAAGCGGAACTGTGGCTGTAATGGAAATTGCTAAAGCATTCCAGCAGGCCAAAAAAGCAGGAAAAGGACCTAAAAGATCTATTCTGTTTCTTCATGTTACAGGAGAGGAACATGGGCTGTTTGGCTCAGAATATTATTCCGAAAATCCTGTTTTCCCATTAGCCAATACCGTGGTTGACCTTAATATTGACATGATCGGACGTGATGATCCTGCCAACAGAGGAAAACAATATGTCTATGTGATTGGCTCTGAAATGTTAAGTTCCCAGCTTAAGGTGATTAATGAAGCTGCCAACAAAAGAACCAATAATCTGGAGCTTAATTACAAGTATGATGATTTGAATGACCCTGAACAACTGTATTACCGTTCAGACCATTATAATTTTGCAAAACATAATATTCCTGTAGCATTCTTCTTTGATGGTATTCATGAAGATTATCACAAACCAGGCGATGATCCTGAAAAGATTGATTATCAGTTGTTGGAGAAAAGAACCCAGCTTATTTTTACAACTGCCTGGGATATTGCCAACAGAGAGGAAAGAATTGTAGTAGACAGAAAATAA	MKKILIPLFTMVVMTSCETAKIADGNASHSISTKHSKAFNNAYKEINAEDLKKNLYVIASDDMEGRDTGSKGQKKAGEYIINYYKNLGISAPKALGSYYQKVPSEFMKKRGGGNLPDSENILAFIEGSEKPDEIVVVSAHYDHVGTKNGVVYNGADDDGSGTVAVMEIAKAFQQAKKAGKGPKRSILFLHVTGEEHGLFGSEYYSENPVFPLANTVVDLNIDMIGRDDPANRGKQYVYVIGSEMLSSQLKVINEAANKRTNNLELNYKYDDLNDPEQLYYRSDHYNFAKHNIPVAFFFDGIHEDYHKPGDDPEKIDYQLLEKRTQLIFTTAWDIANREERIVVDRK				NA	NA	NA	NA	NA
BMS003_01061	1140	ybdL_1	COG0436	Methionine aminotransferase	GTGGATAAAATTTACGGATTTACTCATTACTCCTTTTTCACGGAAATGTCCGAACTGGCAACCAGACACGAAAGTTTTGATCTTTCCCTGGGACTTCCCGATTTTGATATTGATGAACGGCTAACTTTATTTTTAAAAGAGGCTGCTGCAAACAGCACTCATCAGTACGAACCTCTTGCCGGAAATCCTCTGCTGATTGAAAGCATTATCCGTTTCAATGCCAAACGGGCTAACAGTATTTCCACTACAACTAAGGAAATCACTATTGTCCCCTGTGCAACCTTTGCTTTATATACTTCCCTCAAATCTATTCTTAATCAGAATGATGAGGTCATTATTATCCAGCCGTCTTATTATACTTATGCACCTGCTGTTGTGATGAATGGCGGAGTTCCTGTTTATTATGACCTTGAAGCAGATTTTACGATTAATTGGGAGATTTTCAGAAACTGCATAAGCGAAAAAACCAAAGCGGTTATTATCAACTCACCCCAGAACCCAACCGGAAAAATATGGAAAAAAGAAGACTGGAACCAGCTGTATGAAATGATTAAAGACCGTGAGATTTATTTGATTTCCGAAGAAATATATGACACTTACTGTTATGATGAAACTGAGCATTACAGTTCTTTTATTCATCCCGGACTCAGGGAAAAGACTTTTTGCATTTTTTCTTTTGGCAAAATGTTTCATACTTCCGGATGGAAAGCGAGCTATATGATTGCTTCTGAAACTTTAACAAAAAAATTCCAGTGTCATCAGCAGTATATTTCTTACAGTGCCAATGCTCCGGCGCAATATGCTATAGCCCAATATCTAGATGTATTTGATCCGGACATCAGTAAAAAACTTATGCAGAAGAAAAGAGATATCTTTAATCATCTGATCAAGGATACGCCTCTTCAGGTAGAGCAAAAATCGGAAGGAAGTGTTTTTCAGGTTGTCAATTTCAGAAATATTTCCAAAACAATGACAGATGTGGAGTTTTCAAAATGGCTTACGATTGAAAAAAAGGTTTCTTGTCTCCCTCTTTCTGCTTTTTATAATTCCAGAAACAATTCTGATTATATCAGGTTTAGCTTTGCTAAAAAAGATGAACTTATTATTCAGGCTTTGGAGCATTTGAAAAGGAATCTTTGA	MDKIYGFTHYSFFTEMSELATRHESFDLSLGLPDFDIDERLTLFLKEAAANSTHQYEPLAGNPLLIESIIRFNAKRANSISTTTKEITIVPCATFALYTSLKSILNQNDEVIIIQPSYYTYAPAVVMNGGVPVYYDLEADFTINWEIFRNCISEKTKAVIINSPQNPTGKIWKKEDWNQLYEMIKDREIYLISEEIYDTYCYDETEHYSSFIHPGLREKTFCIFSFGKMFHTSGWKASYMIASETLTKKFQCHQQYISYSANAPAQYAIAQYLDVFDPDISKKLMQKKRDIFNHLIKDTPLQVEQKSEGSVFQVVNFRNISKTMTDVEFSKWLTIEKKVSCLPLSAFYNSRNNSDYIRFSFAKKDELIIQALEHLKRNL	PGPT0020025_1201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
BMS003_01062	2730	hppA		Putative K(+)-stimulated pyrophosphate-energized sodium pump	ATGGATCTATTTGTGTTAGTGCCAATTTTTGGTGTCATAGCTTTGCTTTATACATTTCTTCAGAGCAGCTGGGTAAATAAACAGAATGCAGGAAATGAAAAGATGAAAACAATCAGCGGCCATATTGCAGACGGTGCAATGGCTTTTCTAAAGGCTGAATACAAAATCTTAACGTACTTTGTTGTCGTAGTTGCCATTCTATTGGCTGTGATGGGATCAAGTAATGCCAATTCACACTGGAGCATCGGAATTGCTTTTGCTGTGGGAGCTATCTTCTCTGCATCAGCAGGTTTCATCGGAATGAAAATCGCTACCAAAGCGAATGTGAGGACTGCAGAAGCCGCAAGAACTTCACTGTCAAAAGCCCTGAAAGTCTCTTTTACAGGAGGTTCTGTAATGGGAATGGGAGTAGCAGGACTGGCTGTTTTAGGGCTAGGAGCTTTATTTCTTATTATTAAACAGATTTTTGCCCCAGAAGCCACCATAGACTCTCACGAAATGGAAAAAACCATTGAAATTCTTACCGGATTTTCTCTTGGAGCCGAATCTATCGCGCTTTTTGCGAGAGTAGGTGGCGGTATTTATACAAAAGCTGCAGACGTAGGGGCTGACCTGGTAGGGAAAGTAGAGGCAGGAATTCCCGAAGATGATCCCCGAAACCCTGCTACCATTGCTGATAACGTGGGAGATAACGTAGGCGATGTTGCAGGAATGGGAGCCGATCTTTTTGGATCTTATGTGGCAACGGTTCTGGCAACGATGGTGTTAGGCAGAGAAACAATTTCTGATGATGCATTCGGAGGTTTTGCCCCAATTCTTTTACCGATGCTGATTGCCGGAACAGGAATTATCTTTTCCATGATCGGAACTTTATTTGTAAAAATTAATGATAACGAAGGTTCATCCACTTCCAGCGTTCAGAATGCTTTAAACCTTGGAAACTGGGGAAGTATCGTGATTACTGCTATAGCATCTTATTTCCTGGTAACGTATATCCTTCCTGAAAAAATGGTTCTCAGAGGACATGAGTTTACTAAAATGGGAGTATTCGGAGCCATTATGGTGGGGCTGGTAGTAGGAACTTTAATGAGTATCATTACAGAATATTATACCGCAATGGGTAAAAGACCGGTTTCCAGTATTGTGAGGCAGTCTTCTACAGGCCATGCAACCAATATTATTGGTGGACTTTCCGTGGGAATGGAATCCACTTTACTTCCTATTATTGTGCTGGCAGGAGGAATTTATGGTTCATATCTTTGTGCCGGACTTTACGGAGTGGCTATTGCAGCAGCAGGAATGATGGCTACTACAGCTATGCAGCTTGCTATTGACGCTTTTGGTCCCATCGCAGATAATGCGGGAGGTATTGCCGAGATGAGTGAACTTCCGAAAGAAGTACGTGAAAAAACAGATATTCTGGATGCCGTAGGAAATACAACCGCAGCTACAGGAAAAGGATTTGCTATTGCTTCAGCAGCTTTAACCGCACTGGCGTTATTTGCGGCATTTGTAGGAATAGCAGGAATTGACGGGATTGATATTTACAGAGCAGATGTTCTTGCCGGTTTATTTGTAGGGGGAATGATTCCGTTTATCTTCTCATCACTGGCGATTACAGCAGTAGGGCAGGCCGCGATGGCGATGGTGGAAGAAGTAAGAAGACAGTTCCGTGAAATTCCCGGAATTCTGGAAGGAAAAGCACAGCCGGAATATGAAAAATGTGTTGCCATTTCTACAGATGCATCCATCAGAAAGATGATGCTTCCCGGAGCTATTGCCATTGTTTCTCCTTTATTAATCGGGTTTATTTTCGGACCTGAAGTATTGGGAGGGTTTTTGGCCGGAGCTACGGTTTGTGGTGTATTGATGGGGATGTTCCAGAACAACGCAGGAGGTGCCTGGGATAACGCCAAAAAATCCTTTGAAAAAGGAGTTGATATTAATGGTCAGACTTACTACAAAGGTTCAGAACCTCATAAAGCATCTGTAACAGGAGATACCGTGGGAGATCCTTTTAAAGATACCTCAGGGCCATCTATGAATATCCTGATCAAATTAATGTCAATTGTTTCTTTGGTTATTGCACCTACTTTGGCCGTTTTACATAAAGATAAAATTGAAGCCAACAGGAAAGCAAAAATAGAAAGCCTTACGGGGACTTCAGGTGCTGCAACAGGTGTAAATGATGATACAAAAATCATTACTGTTCCGGGAGAAATTAAAGGACATCTTAATGAAAGCGGGGATTTTGTATATGAAACTGGAAATATGCAGAAAATAAAGCTGGATGGCGGAAAAACGATTGCTATTGGAGATGGGAGCCAGCTTTATCAGCTTTATAATGCCGTTAAGCAGAAAGATAAATCTGCATTAGATCCTAATAAATGGTATACCATTGAAAACCTTTATTTCGAAACAGGTTCAAGTGATCTGAAAGCAGAATCCGCACTTCAGTTGAATACTTTGACAGAAATTTTAAACGCTTATCCGGATCTGAAAATAAAGCTTGGCGGATATACAGATAACAGTGGTAATGAGGACAGTAATATCAAATTATCCAATCTGAGAGCGCAGACAGCAAAACTTAAATTGCTTGAGTCAGGAATTTCCGCAGACAGGATAGAAGCCGAAGGATACGGATCTCAGTATCCCGTATGTGAAGCTAATGATACTGACGAATGCAAAGCAAAAAACAGAAGAATTGATGTAAGAGTACTCACTCTTTAA	MDLFVLVPIFGVIALLYTFLQSSWVNKQNAGNEKMKTISGHIADGAMAFLKAEYKILTYFVVVVAILLAVMGSSNANSHWSIGIAFAVGAIFSASAGFIGMKIATKANVRTAEAARTSLSKALKVSFTGGSVMGMGVAGLAVLGLGALFLIIKQIFAPEATIDSHEMEKTIEILTGFSLGAESIALFARVGGGIYTKAADVGADLVGKVEAGIPEDDPRNPATIADNVGDNVGDVAGMGADLFGSYVATVLATMVLGRETISDDAFGGFAPILLPMLIAGTGIIFSMIGTLFVKINDNEGSSTSSVQNALNLGNWGSIVITAIASYFLVTYILPEKMVLRGHEFTKMGVFGAIMVGLVVGTLMSIITEYYTAMGKRPVSSIVRQSSTGHATNIIGGLSVGMESTLLPIIVLAGGIYGSYLCAGLYGVAIAAAGMMATTAMQLAIDAFGPIADNAGGIAEMSELPKEVREKTDILDAVGNTTAATGKGFAIASAALTALALFAAFVGIAGIDGIDIYRADVLAGLFVGGMIPFIFSSLAITAVGQAAMAMVEEVRRQFREIPGILEGKAQPEYEKCVAISTDASIRKMMLPGAIAIVSPLLIGFIFGPEVLGGFLAGATVCGVLMGMFQNNAGGAWDNAKKSFEKGVDINGQTYYKGSEPHKASVTGDTVGDPFKDTSGPSMNILIKLMSIVSLVIAPTLAVLHKDKIEANRKAKIESLTGTSGAATGVNDDTKIITVPGEIKGHLNESGDFVYETGNMQKIKLDGGKTIAIGDGSQLYQLYNAVKQKDKSALDPNKWYTIENLYFETGSSDLKAESALQLNTLTEILNAYPDLKIKLGGYTDNSGNEDSNIKLSNLRAQTAKLKLLESGISADRIEAEGYGSQYPVCEANDTDECKAKNRRIDVRVLTL				NA	NA	NA	NA	NA
BMS003_01063	612	ppa		Inorganic pyrophosphatase	ATGATTCCAAATTTTAAAGCACATCCATGGCACGGAATTTCTGCAGGAGAAGATGCGCCAAATGTTGTAAACGTATTTGTGGAAATTGTTCCTTCAGATACTATTAAATATGAAGTAGATAAAGAAACAGGATATTTAAAGGTAGACAGGCCACAGAAATTCTCTAACATTATCCCTGCTTTATATGGTTTTGTACCAAGAACATACTGCCATAATGAAGTAATGAAATTGGCTATAGAAGCTGGAGCTGATGACGTCACAATGGGAGATCATGACCCTCTTGATATCTGTGTTTTAAGTTCTCACAATATCCATGCAGGAGGTTTATTGATGGAAGCTATTCCAATCGGTGGTTTTAAAATGATCGATGGAGGTGAAGCTGATGATAAAATTGTTGCAGTAATGATCAATGACCACGCTTTCGGACATTTCAGAGATATTTCTGAATTGCCTGAAGCAGAGGTGAAAAGATTAATGCACTACTTCCTTACGTATAAAAACCTGCCGGATGAGCCTGCAAAATGCAGAATCCAGGAAGTATACGGAGCTGAGCATGCGAAGAAAGTAATTAAAGCTTCTCAGGCTGATTATGCAGAAAAATTCGGAGGATAA	MIPNFKAHPWHGISAGEDAPNVVNVFVEIVPSDTIKYEVDKETGYLKVDRPQKFSNIIPALYGFVPRTYCHNEVMKLAIEAGADDVTMGDHDPLDICVLSSHNIHAGGLLMEAIPIGGFKMIDGGEADDKIVAVMINDHAFGHFRDISELPEAEVKRLMHYFLTYKNLPDEPAKCRIQEVYGAEHAKKVIKASQADYAEKFGG	PGPT0002600_1384	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS003_01064	513			hypothetical protein	ATGACGAGTCTCTCAGGATATCTACCGTATGCATTTGCATTGATTATTGCAATTCCTTTTCTGGTTTTGCTCAGACAATTTGTACACTCGTACATCACTCTTAAAAATCAGGAAATCAAATTACTTAGTGTGAAATCGAATTCAGAGAATAAGGCCCATTCTTACGAAAGAATGACCCTGTTCCTGGATAGAATGAAGCCGTCAAACCTTATCCAGAGATTTGATAGAGAACTTGCCGTTCATGAGTTTATTTTCCTTACAGAAAAGACCATCAATGAAGAATTTGAATATAATTCTTCACAGCAGTTATATATCACAAAAAACTCGTGGAAAAATATCGTCGACTCAAAAAATGCGATCATAGAACTGCTTCACAGAACGTATGACGGACTGAAAGGAGAGGTTCAGCTGGATGAATTCAAAACAATTTTCATCATGAACTATATGGAAGGTAATGACTATATTGCCGAAACTATAGAAGATCTAAGAAAAGAAATTTTAATAATAACTTAA	MTSLSGYLPYAFALIIAIPFLVLLRQFVHSYITLKNQEIKLLSVKSNSENKAHSYERMTLFLDRMKPSNLIQRFDRELAVHEFIFLTEKTINEEFEYNSSQQLYITKNSWKNIVDSKNAIIELLHRTYDGLKGEVQLDEFKTIFIMNYMEGNDYIAETIEDLRKEILIIT				NA	NA	NA	NA	NA
BMS003_01065	1176			hypothetical protein	ATGAAAAAAAAGGGAAATATTCTTGTTTTTATATTTTCAATCTATGTATGCTTCATGTCATACTACCTGTATACCCATCAGTATTACAATTCCGATATGGAAGCTTATATGGGGCTGATTTATAAAACAGAATTTCCGGACATGAAAATTGAAGAAATTCATCAGAAAGTATATGATGAGCTGAGAGAAAAGAATCCGGATTTTGCAGGATTAGCACCCATAAACCCAATGAAAGAGGAGATAGCAGAGGGTGAAAATACATACTATAAGATACTGTCGGAAAATCCCAAAGCTTACGAGGAAGAGCTGCAGCTTTTTGCAGTAAAGCCTTTTTATAATTTTATCAACTGGTCATTTTTTAAATTAGGATTCAGTGCTTCTGCTTCTACATTTATGAGCTCCATTATTTCTTATGCACTTATTCTTATTTTGATTTTCTGCTTTCTCATAAAAATCTTGAAAAATTATAATTTAGCATTTATCATATCCGTTTTAATTTCTCTGTTCAAACCACTTTTAGAGTCAAGCAGACACGCTTCTGCAGACTCTTTATCATGCCTGCTTCTGCTTTTGAGCTTTTATGCATTTACCATTAGAAAAAATTTCTTTTGGACAGGCATCTTTGCCATGCTCTGTATCCTGACAAGACCTGAATATTTTATTTTCTATTCATTCCTCTATGGCTTGATATATCTTTACAGAAACAAACTAGAGGTGAAAACAGCGCCGTTACTAATATCCTATGGATATCTGTTTCTTTCCTTCGCTTTGATACAGGCTTTTAACCAAGTGGCATGGTCTGCTCTTTTTATGAATCAGTTTACCAAAGTTCAGATTTACCCTGTTTCTAACCCTGACCCATTCTTATTTTCAGAATATATTCATTTTATTAAAAGTAAAATAATGCTGGAGTTTAATGCTTCGTACTTTCCGATTCTGTTGATCTTTATCGTTATTATTCTGGCAGGTAAATTTCCACTTTATAGTAAGAAAAGCCAGGCCCGGGTCTTGTTTTTCGCTGTTATCTATGCCACGGTTATCCTAAGGTTTTTTGTTTTTCCCTCTCTGGTAAACAGAATGATGCTGGGCTTTTACCTAATAATTATACTGGCATTGATTTATATACAGAATTCTAAAGAGGATATATTTAAAAACTCTTTAGAACACGGAAAATAA	MKKKGNILVFIFSIYVCFMSYYLYTHQYYNSDMEAYMGLIYKTEFPDMKIEEIHQKVYDELREKNPDFAGLAPINPMKEEIAEGENTYYKILSENPKAYEEELQLFAVKPFYNFINWSFFKLGFSASASTFMSSIISYALILILIFCFLIKILKNYNLAFIISVLISLFKPLLESSRHASADSLSCLLLLLSFYAFTIRKNFFWTGIFAMLCILTRPEYFIFYSFLYGLIYLYRNKLEVKTAPLLISYGYLFLSFALIQAFNQVAWSALFMNQFTKVQIYPVSNPDPFLFSEYIHFIKSKIMLEFNASYFPILLIFIVIILAGKFPLYSKKSQARVLFFAVIYATVILRFFVFPSLVNRMMLGFYLIIILALIYIQNSKEDIFKNSLEHGK				NA	NA	NA	NA	NA
BMS003_01066	933			hypothetical protein	ATGTTACAACAGATTCGTCAGTACAAACTATCATACATGCTTTATAACTTTTTTAAAAAGAATAAGTTAAAGCATAATATTCCATTATATAAAAAATACGGAATCAATAAGAGTTATTTTTCTAGTATTTCAAGTAAAGACTTTGCCCATCTTCCTGCCAGTGACAGAACTGTAGATTATGCAAAACTTACAGAAACTCCCTTTTTTAAAAAGCTATCGGAAGAAAATAAAGAAAGTGCTCTTCAGTATGATGATCAGGGCTATATGATTCTGAAAAATTTTCTGACACCGGAAACGGCAGATCAAATCAATACTGAAATTGACAAGCTGATGAAAGACGGTACATTGAAGTTTATCTACGGAGGCAAGCTGATGTTTGCTATTCACCACTCGGAAATCATCAGGAATATTGGAAGCGATAAAGAGTTGCTGGATTTTTTATCTGTCTTGCTGGACGGAAAATCCAAGCTTTTTCAAAGCATCAATTTCATTAATGGAAGTCAGCAGAAAACACATTCAGACAGTATTCATATGACCACCTACCCGCTGGGAGGATTACTGGGAGTATGGATTGCACTGGAAGATGTGGATGAAACAAATGGTGCGCTGCATTATATTCCTAAAAGCCATAAACTCCCTTATTTCCTTAATTCCGATTATGATAATGAAGGTACAGCCCTGAAAATTGGTAAGAAAAGCTACAGGGCTTACGAAACATTCCTTGAAGATAAAGTGAAAGAACTGGGACTGAAAAAAGAAATCTTTAAGGCTAAAAAAGGAGACTTGTTAATCTGGCACGCCAATATCCTTCATGGCGGAGAACCTCATACAGATAAAAACAGGACAAGGAAGAGTCTCGTATATCACTTCTTCGATGAAAATAGTGTCTGCTATCATGAAGTGACCCAAAGACCTGCTTTATTTGAACTTTAA	MLQQIRQYKLSYMLYNFFKKNKLKHNIPLYKKYGINKSYFSSISSKDFAHLPASDRTVDYAKLTETPFFKKLSEENKESALQYDDQGYMILKNFLTPETADQINTEIDKLMKDGTLKFIYGGKLMFAIHHSEIIRNIGSDKELLDFLSVLLDGKSKLFQSINFINGSQQKTHSDSIHMTTYPLGGLLGVWIALEDVDETNGALHYIPKSHKLPYFLNSDYDNEGTALKIGKKSYRAYETFLEDKVKELGLKKEIFKAKKGDLLIWHANILHGGEPHTDKNRTRKSLVYHFFDENSVCYHEVTQRPALFEL				NA	NA	NA	NA	NA
BMS003_01067	915			hypothetical protein	ATGATTAGAAGATTGAAATACCATGAAATAGATTTTGAAAAATATGCTCAATGTTTAGAAAATTCCGAACAAAGAAAATATTCTGCTACAAAATATTTTTTAGATACTACTTCTACAATGCCATGGGAAATTCTTGTATATAAAGATTATGAAGCTGTAATGCCTGTACCGTTTGTAAGGAAATACGGACTGAAAATAGTTCATAATCCGAAACTCTGTCAACAGCTGGGCGTATTTTCCCACAAAGATAATCTTGATCTTAATGAAGCTTTTTTGGAATTTCTGGAGAAAAATTATATGATAAGAGCATATCCGTTTAATGATGGAAATCAGTTTCGTACAAAGATCCGAATCAAGAAAAATTTTTTATTGTATCCTGATGCTTATGAAAAAGTATACGCCGGATATTCTCCCAAAAGAAAAAGGAAACTCAGGCTGGATGAAAAAGTTTTAAAAGAATCAGAAATTAAAACTATTTCTTATGATAAAGCAAAAACTTTTATTGAAGCCAATACAATAGGACTTAGTAAAGAAGATGATCTGGGAGAATTTATGAGAATTTTTGAGTCTTTTCATAAATCGGATTATCTCAGGTTTACTGCTTTTTATTATCAAAACAAGATGATCAACGTCATTGCAACTTACACAGATTGTAATATGGTAGTGCTTCTGGGTAATTTTAATGATAAAGATTACGTTAAACTATCCGGCGCTTCTGTATTGATTGATCATCTCATCAAAGAGAATATCGAAAGGCATATTTTTGATTTTGAAGGGGGAGAACTGCCCAATATCGAAGAATTTTTCAGAGGGTTCCGTCCTGAGTTAAGACCTTACGGAATTATTGAAAACTCAAAAAAAAATCTTTTAAAGAAATTAGTATATCTTACCATCAGAGGGAAATCCTTTTTATGA	MIRRLKYHEIDFEKYAQCLENSEQRKYSATKYFLDTTSTMPWEILVYKDYEAVMPVPFVRKYGLKIVHNPKLCQQLGVFSHKDNLDLNEAFLEFLEKNYMIRAYPFNDGNQFRTKIRIKKNFLLYPDAYEKVYAGYSPKRKRKLRLDEKVLKESEIKTISYDKAKTFIEANTIGLSKEDDLGEFMRIFESFHKSDYLRFTAFYYQNKMINVIATYTDCNMVVLLGNFNDKDYVKLSGASVLIDHLIKENIERHIFDFEGGELPNIEEFFRGFRPELRPYGIIENSKKNLLKKLVYLTIRGKSFL				NA	NA	NA	NA	NA
BMS003_01068	678			hypothetical protein	ATGGCCATAAAACTCCTTGCAGAAGATGACAGACCCAGAGAAAAGTTTTTGCAGAAAGGCAAAGGCTCACTTTCTGATTCTGAATTACTGGCAATTATTATGGGAAGTGGAAACAGGGAGGAAGATGCCCTGGAACTGGCACGGAAAATTTTAAACTCTGTGAACAACAGCTGGCATCAATTGAGTTTACTTTCGGCTAAAGATCTGATGAAGTTCAAAGGTATCGGAGAAACAAAAGCCATTTCTATTATTTCAGCTTTAGAAATAGGGAGAAGGAGAGCCATACAGGAAATTCCTGAGAAAGCAATCATAGGTAACAGTCATGATGCTTATAGGATTCTTAGAAACCAGCTTTCTGATTTAAGAACAGAAGAATTCTGGGCTATTCTCCTGAATAATAACAATAAAGTGATTCATACTTCACAACTTACAAACGGAGGTATAAGCCAGTCTATTGTAGATGTAAGAATTCTGTATAAAACGGCACTGGATCATTTTGCCACAGGTATCATCATTGCCCACAACCATCCTTCCGGAAGTTTAAAACCAAGCCGGGAAGATATGAACATTACACAAAAAATAAAAGAGGCCGGAAATACTTTAAGTATCCAGCTTTTAGACCATATTATTGTCACGCAGGATTCCTATTTTAGCTTCTCGGACTCAGGATTATTATGA	MAIKLLAEDDRPREKFLQKGKGSLSDSELLAIIMGSGNREEDALELARKILNSVNNSWHQLSLLSAKDLMKFKGIGETKAISIISALEIGRRRAIQEIPEKAIIGNSHDAYRILRNQLSDLRTEEFWAILLNNNNKVIHTSQLTNGGISQSIVDVRILYKTALDHFATGIIIAHNHPSGSLKPSREDMNITQKIKEAGNTLSIQLLDHIIVTQDSYFSFSDSGLL				NA	NA	NA	NA	NA
BMS003_01069	579			hypothetical protein	ATGATGAAACACTTTACTTTTCTTTTTTTTATTTTAATTTTCTGTTCAAAAGCTGAATCCCAGCAGTTGAGCCCACCAAATTTGCCAGAGGCTAAAGTGTCGGAGATTAAAAACTATATTAAAGGAAAAGAATACAATCAGGAGCTGGCTGTTTTTATCAATTTTAAAATACATTCCGGAAAATACCGTTACTTTATTTATAATCTGAAAAAGAATATAATTGTACAGCAGGCTGTAGTGTCCCACGGGTCAGGGTCTGTCATTCCAAAGTCTGATGCTTTGAAATTCAGCAATATAGAAGGATCCTATCAGTCATCCCTTGGAAAATATGCCATTGGAGAAAGTTATATAGAAAAATTTGGGAAAGCATACCGCTTAAAAGGTCTTGATTTCAGCAACAGCAATGCCATGCAAAGAACAATTGTACTTCATTCTTACGGATGTATTCCTGATGTAGAATCTCAGACACCGACATGCCTGAGTTTAGGGTGCCCGATGCTTTCTGAAAATGCTCTTAAAGAAACAGCAAAATATATTGATAAGTCTGATAAGCCAATGATTTTATATGCTTTTTATTAA	MMKHFTFLFFILIFCSKAESQQLSPPNLPEAKVSEIKNYIKGKEYNQELAVFINFKIHSGKYRYFIYNLKKNIIVQQAVVSHGSGSVIPKSDALKFSNIEGSYQSSLGKYAIGESYIEKFGKAYRLKGLDFSNSNAMQRTIVLHSYGCIPDVESQTPTCLSLGCPMLSENALKETAKYIDKSDKPMILYAFY				NA	NA	NA	NA	NA
BMS003_01070	669	lolD	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGATTAAAGCAAGAAATATCCATAAATCTTATGGGAATTTAGAAGTACTGAAAGGAGTTGATATTCATATCAAAATGGGTGAGGTGGTTTCTATTGTAGGAGAATCAGGAGCAGGTAAATCTACATTGCTTCAGATTTTAGGAACTTTGGATCATCCTACTCAATCCAATAAATATGATACTGAAATTGAAATAGCAGGAGAGTCATTTATTAATATGAATGATAAGCAGCTTTCGAAATTCAGAAATCAGAATATCGGTTTTGTATTTCAGTTTCATCAGCTTCTTCCGGAGTTTACTGCGCTGGAAAATGTACTGCTTCCGACCAAAATAGCCGGAGCCAATGAAAGAGAAGCTATTGAAAAAGCATATGCTTTATTTGAAGATTTAAAGATAGAACAGAGACTTAATCATAAACCCAATCAGCTTTCGGGTGGAGAAGCGCAAAGGGTAGCTGTGGCGAGAGCTTTAATCAATTCTCCAAAAATTATTTTTGCAGATGAGCCTACGGGAAACCTGGATTCCAAGAATGCAGATGATCTTCACAGATTATTTTTTGATCTGAGGGACAAGTATAACCAAACCTTTGTGATTGTAACCCACAATCCGAATCTTGCAGAAATTACAGACCGTAAGCTCGTTATGAAAGACGGAATGATTATAGAATAA	MIKARNIHKSYGNLEVLKGVDIHIKMGEVVSIVGESGAGKSTLLQILGTLDHPTQSNKYDTEIEIAGESFINMNDKQLSKFRNQNIGFVFQFHQLLPEFTALENVLLPTKIAGANEREAIEKAYALFEDLKIEQRLNHKPNQLSGGEAQRVAVARALINSPKIIFADEPTGNLDSKNADDLHRLFFDLRDKYNQTFVIVTHNPNLAEITDRKLVMKDGMIIE	PGPT0024515_2913	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS003_01071	1581	gcvH_1		Glycine cleavage system H protein	ATGGCAGAAGTAATTACGATGCCCCGCCTGTCAGATACAATGACGGAAGGTAAGGTGGCAAAATGGCATAAAAAAGTAGGAGATAAAGTAAAAGAAGGAGATATTTTAGCTGAAATTGAAACTGATAAAGCAGTTCAGGATTTCGAATCTGAAATAGAAGGTACCCTTTTATACGTAGGTGTAGAAGAAGGAGATGCTGCTGCTGTAGACTCTGTTTTGGCTATTATCGGGAATGAAGGAGAAGATATTTCAGGATTGACAGGCGGAGCACCTGCTCCCAGCGCAGGAACTGAAGATAAAAAGTCAGAAGAGCAGCCTAAAGCAGAAACTACTGCAACTGCTGCAGAAGTTCCGGCAGGAGTAGAAATTATTACAATGCCAAGACTTTCTGATACAATGACAGAAGGTAAGGTGGCTAAATGGCATAAAAATGTAGGTGATACAGTGAAAGAAGGTGATCTTCTTGCTGAGATCGAAACAGATAAAGCGGTACAGGATTTCGAATCTGAATTCAACGGAGTATTATTAAAGCAGGGTGTAGAAGAAGGAGGTGCTGCTCCGGTAGATTCAGTATTGGCAATCATTGGCCCTGCAGGAACTGATGTTTCAGCTGTAGGAGCTCCAAAAGCTGCTTCTCAGTCTGCTGAAAAACCAGCTGAACAAAAAACGGAAGAAAAAGCTGCTCCGGCTGCCAACTCCTCATCTTCTGACAGAGTAGCAATCTCTCCACTGGCTAAGAAAATGGCTCAGGATAAAGGAGTTGATATCAACAGTGTTCAGGGTTCTGGTGAAAACGGAAGAATCGTTAAAAAAGATATTGAAAACTATCAGCCAGCAGCGAAACCGGCTGCTTCAGCTCCTGCAGCAAGCGCTGCTCCTGTTGCAGTAAACTTCGTACAGGGAGAAGATACAGAGACTCAAAATTCACAAGTAAGAAATATCATTGCAAAACGTCTTTCTGAAAGTAAATTCTCTGCACCTCACTATTATCTGATGGTTGAGATCAACATGGATAAAGCAATTGAAGCAAGAAAAGAAATCAATTCTTTACCTGATACTAAGATCTCTTTCAACGATATGATCATTAAAGCAACTGCAATTGCTTTAAGAAAACACCCTCAGGTAAATTCGAGCTGGGCAGGAGATAAGATCATCCACAGAGGAAATATCAACATCGGTGTAGCAGTGGCTATTCCAGACGGATTGGTAGTTCCTGTATTGAAAAATACAGATCAGATGACGTATACTCAGATTTCTGCATCTGTAAAAGATATGGCTTCAAGAGCTAAAAACAAAGGTCTTAAAGCTAATGAAATGGAAGGATCTACATTCTCTATTTCTAACTTAGGAATGTTCGGAATCGAGACATTTACAAGTATCATCAATCAACCGAACTCTGCCATCCTTTCAGTAGGAGCAATTATTGAGAAACCAATCGTAAAAGATGGTCAGATTGTAGTCGGAAACACTATGAAGCTTTCATTGGCATGTGACCACAGAGTGGTAGACGGTGCTACAGGTGCTCAATTCTTGCAGACATTAAGAACATATTTGGAAAATCCATTAACATTGTTACTGTAA	MAEVITMPRLSDTMTEGKVAKWHKKVGDKVKEGDILAEIETDKAVQDFESEIEGTLLYVGVEEGDAAAVDSVLAIIGNEGEDISGLTGGAPAPSAGTEDKKSEEQPKAETTATAAEVPAGVEIITMPRLSDTMTEGKVAKWHKNVGDTVKEGDLLAEIETDKAVQDFESEFNGVLLKQGVEEGGAAPVDSVLAIIGPAGTDVSAVGAPKAASQSAEKPAEQKTEEKAAPAANSSSSDRVAISPLAKKMAQDKGVDINSVQGSGENGRIVKKDIENYQPAAKPAASAPAASAAPVAVNFVQGEDTETQNSQVRNIIAKRLSESKFSAPHYYLMVEINMDKAIEARKEINSLPDTKISFNDMIIKATAIALRKHPQVNSSWAGDKIIHRGNINIGVAVAIPDGLVVPVLKNTDQMTYTQISASVKDMASRAKNKGLKANEMEGSTFSISNLGMFGIETFTSIINQPNSAILSVGAIIEKPIVKDGQIVVGNTMKLSLACDHRVVDGATGAQFLQTLRTYLENPLTLLL	PGPT0001390_2776	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
BMS003_01072	1002	acoA	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGAAAGAATTTTCTAAAGAGGTATACCTGAAGTGGTATGAAGATATGACAATGTGGAGAAGGTTTGAAGACAAATGCCGTTCTCTTTACCTAAAACAAAAGATCAGAGGTTTTTTACATTTGTATAACGGTCAGGAAGCTATTCCTGCAGGATTTACACATGCAATGGATCTTACAAAGGATAGTATGATTACTGCTTACAGATGTCATATCCATCCAATGGCGATGGGAGTAGATCCTAAAAGAATCATGGCAGAACTTTGTGGTAAAGCTACGGGTACATCCGGAGGTATGGGTGGATCTATGCACATTTTCAGTAAAGAACACCGTTTCTACGGAGGACATGGTATCGTTGGAGGACAAATTCCTTTGGGAGCCGGTATTGCTTTCGCAGATAAATATTTTGACAGAAAAGCAGTGAACATCTGTTTCTTTGGAGACGGAGCTGCAAGACAAGGTTCTTTACACGAGACATTCAACATGGCAATGAACTGGAAGCTTCCTGTAGTATTTGTTGTAGAAAATAACCAATATGCAATGGGAACTTCTGTAAAAAGAACTGCCAACCATGAGGATATCTATAAATTAGGATTAGGATACGAAATGCCTTGTCTTGCTGTAGATGCAATGGATCCTGAAAAAGTAGCTGAAGCTGCTTATGAGGCTATTGAAAGAGCAAGAAGAGGAGATGGCCCTACATTTATTGAAGCAAGAACTTACCGTTACAGAGGACACTCTATGTCTGACGCTGAACCATACAGATCTAAAGAAGAAGTAGCTCTTCATAAAAATGATGACCCAATCGAACTTATAAAACACAGAATTTTAGAAAACGGATGGGCTACAGAAACAGAATTGGAAGCAATGGATAACAAATCCAGAGACTTCGTTGAAGAGTGTATCGAATTTATGGAAAACTCTCCATATCCTGATGCAGAAAAAATCTATGAGTATGTATATGCTCAGGAAGACTATCCATTCCTAGACAAATTAGAAAACTAA	MKEFSKEVYLKWYEDMTMWRRFEDKCRSLYLKQKIRGFLHLYNGQEAIPAGFTHAMDLTKDSMITAYRCHIHPMAMGVDPKRIMAELCGKATGTSGGMGGSMHIFSKEHRFYGGHGIVGGQIPLGAGIAFADKYFDRKAVNICFFGDGAARQGSLHETFNMAMNWKLPVVFVVENNQYAMGTSVKRTANHEDIYKLGLGYEMPCLAVDAMDPEKVAEAAYEAIERARRGDGPTFIEARTYRYRGHSMSDAEPYRSKEEVALHKNDDPIELIKHRILENGWATETELEAMDNKSRDFVEECIEFMENSPYPDAEKIYEYVYAQEDYPFLDKLEN	PGPT0018025_2650	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
BMS003_01073	603			hypothetical protein	ATGGAAGAAAAACAGTCTTCATTACTTCATAAAATTTCGAGGGTCATTTCTGATTTTTTTAATCCGTTGGTTTCTCTGATTATATTTTTTGTGTACATGAGTATCAGGAAATACAGTCTCCAAGATTCTATCCTTTATTTTCTTCCTATATTATTGATGGTCATAATTCCGGTTATTGTATGGCTGGTATGGAACGTGAAAACGGGAAGATATACCAATATGGATGTGTCTAACCGGGTTCAGAGGAAGACTCTATATATATTTATTGCAGTATGTGTAATCGCTTACCTTGCTTTTAATTATATCAGAAACGGGTATATTGATCTTATCATGCTGTTCATATTAGTTCTTCTTTTTGCGCTTCAGATCAGCAATCTTTTCATCAAAAGCTCTATGCATACTGCTTTCAATATTTTTGTAGCGGCATTGTTTTTTACACTGAGCTGGAAGATGGGGCTTATATGGCTGGCAATAGCAGCTCTGGTAGGAATTACCCGTGTTATATTAAAAAGACACACCGTAAAAGAAGTATTTATGGGGGCTGGAATAGCTTTTCTGGTATCTTTTATCTATCTTTATTGCAATATTCAATTTCAACATTAG	MEEKQSSLLHKISRVISDFFNPLVSLIIFFVYMSIRKYSLQDSILYFLPILLMVIIPVIVWLVWNVKTGRYTNMDVSNRVQRKTLYIFIAVCVIAYLAFNYIRNGYIDLIMLFILVLLFALQISNLFIKSSMHTAFNIFVAALFFTLSWKMGLIWLAIAALVGITRVILKRHTVKEVFMGAGIAFLVSFIYLYCNIQFQH				NA	NA	NA	NA	NA
BMS003_01074	486			hypothetical protein	ATGAAAATAAATCATCTTACTGCCGCAGAAGAAAACTTTATGAAGCTGTTTTGGAAAATGGAATCTTTCTATCTGAAGGACGTTATGGAGCAGCATCCGGAACCGAAACCACACCAGAATACGGTTTCCACTTACTTGAAAATATTAGTTGAAAAAGGCTATCTATCTACTGTAAAAGAAGGAAGAATCTTCAAATATACTGTACTTGTTCCGTTAGAAGAGTATAAAAAATTTCTCTTAAAAGAACTGTCTCATAATTTTTTCAGTGATTCCGGGAAGGAAATTCTGGAAATTTTACTCAGCGAAAAACTAATTTCTCAGGAAGATATGAAAGGGCATTTTGATCTTAAAATTGAAATAAAACCTGCAAAAACCGAAGAACCTAAGTTTGAGTTTGCTGAAGAAATTCTAAGTCCGAAAAAAGAAAAGAAAACCAAAGGAAAAGAAAAAGACAAGGATAAAAAGAAAAAAAAGAAAAAAGATTAA	MKINHLTAAEENFMKLFWKMESFYLKDVMEQHPEPKPHQNTVSTYLKILVEKGYLSTVKEGRIFKYTVLVPLEEYKKFLLKELSHNFFSDSGKEILEILLSEKLISQEDMKGHFDLKIEIKPAKTEEPKFEFAEEILSPKKEKKTKGKEKDKDKKKKKKKD	PGPT0028105_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028105-blaI-K02171	NA	NA
BMS003_01075	1785			hypothetical protein	ATGAAAACAAAATTCCAGGAGACGCTGAGCCGGGCCAATGAAGTCATTTTCCGATATCCTATGATTTCGGTAATGGCTTTATTAGCTTCTACAGGTGCCATATGCATTATTGAAACCGAACAGAATGATGCTATGTCCTATATAAAATTCACCATTTGCAGCTGTCTCGGAATTTCACTGATGTTTGCACTGAAGATGTTCTCACAGAGAATAGGAAAAGAACTGATCTTACATCTCTCCGGTATTCTTTTTCTTATAGGATTCTATTTTATTCTGCCGGATAAAAAGAATAACTTCACAGAAGTTTATGCCTACATCATTGCAGTTACCGTTCTACTCTCCCACTTGCTGGTATCTTTTGTACCGTTCCTTGAAAAAAACAGGGAACTCAGTTTCTGGCAGTATAATAAAAATATCTTTGTAAACACCTTCCTCACGGCCATATTTACAGGAGTGTTGACAGGTGGAGTTGAATTGGCAATACTGGCCATCGACAAGCTTTTTGATTTTAATTTCCATGACAGAATTTACAGAGATACCTTTTTTGTTCTGGCTATTTTCGGGAGCAGTTTTATTTTTCTTTTGTTTAATGATAAAGGACTTACCAATCTTGAAAAAGACGGTACGTATCCTGTTGTTTTAAAGTTTTTCACTCAGTTTATTCTGACCCCGCTGCTGCTTATTTATGTAGCTATTCTTTACTTCTATTCAGCTAAAATATTAATCAACTGGCAGCTTCCGAGAGGCTGGGTTTCTTATCTTGTTTTGGCTTACAGTATAGTAGGTATTCTGGCTTTATTACTGGTACATCCGTTAAAAGAAGAAAACTCAAAGTCATGGGTCAGAATATTTTCAAAAGCATTCTATTATACCATTGTTCCTTTGATTGTTTTGCTTTTCACAGCAATTTTTACAAGGATTTTAGAATATGGTTATACGGAACCAAGATACTTCGTACTCCTGCTTGCATTATGGCTGTTAAGCATTGTTATTTATTTTATTTTCAGCAGAAAAGCAACTATAAAGTTCATTCCGCTCAGTCTGTTTTTGTTTGGAGCTTTTGCACTGATTTTCCCTTATCTGAATGCTTTCAGCGTTGCAAACAGAAGTCAGGAAAAACAATTAATGAACATTCTAAATAAAAATCAGCTTATCAGCGGAGGCACCATTCATTTCCAAAAAAAAGTTACTGATACAATCCGTAATGAAATTGCTGATAAATTTAAATTTCTGGCCAAAAGGAAACAGGGAGAATTTTTGTCAGCTCTGCTTAACGAAAAAGATAAAACCGAACTGGCAGATCATATTACCAAAGGAGAATTTTATAGTATATACTATGATGTTCAGAACAAATTCTCAGATGTGAATGTCACCATAAAAAACAGAGCATACGAAATAAACAGGCAGGTTCTTGTACCTGAAAAACAAGCGGTAGAGCTCGGAAATTATCAATATCTAATATCTTTTTACCGTTATAGCAAAGATCCTCAAAAACTGAATAGCGACGAGTTTGAACTTACAGACATGCTGAGTGATCATTCCTCATTAAGATTAGCATTAAATTCAAAGGAAGAAGTAGATTTCGGACCGCAGATCATTAAAATATTTAACGAAAATAAAAACAAAACCGGAAATATAAAAGTTCCTGAAATAGCAATGGAAGCTGATTTAGGCAAATATCATGTTAAACTTATCTTCAGTGAAATCACAAGAGAAAAATACTCTGATGAAGACTCTCCAAATATTTACTATGAAAACGTTTACATACTGATAAGATTGAAATAA	MKTKFQETLSRANEVIFRYPMISVMALLASTGAICIIETEQNDAMSYIKFTICSCLGISLMFALKMFSQRIGKELILHLSGILFLIGFYFILPDKKNNFTEVYAYIIAVTVLLSHLLVSFVPFLEKNRELSFWQYNKNIFVNTFLTAIFTGVLTGGVELAILAIDKLFDFNFHDRIYRDTFFVLAIFGSSFIFLLFNDKGLTNLEKDGTYPVVLKFFTQFILTPLLLIYVAILYFYSAKILINWQLPRGWVSYLVLAYSIVGILALLLVHPLKEENSKSWVRIFSKAFYYTIVPLIVLLFTAIFTRILEYGYTEPRYFVLLLALWLLSIVIYFIFSRKATIKFIPLSLFLFGAFALIFPYLNAFSVANRSQEKQLMNILNKNQLISGGTIHFQKKVTDTIRNEIADKFKFLAKRKQGEFLSALLNEKDKTELADHITKGEFYSIYYDVQNKFSDVNVTIKNRAYEINRQVLVPEKQAVELGNYQYLISFYRYSKDPQKLNSDEFELTDMLSDHSSLRLALNSKEEVDFGPQIIKIFNENKNKTGNIKVPEIAMEADLGKYHVKLIFSEITREKYSDEDSPNIYYENVYILIRLK				NA	NA	NA	NA	NA
BMS003_01076	351			hypothetical protein	ATGAACATTTTTGTTTCAAACATCAATTACGCAACTAAAGAGTATGAGTTGCACGATCTATTCGCAGAATTTGGAGATGTATCATCAGCTAAAATCGTTACAGACAGAGAAACTGGTCGTTCCAGAGGTTTCGGTTTTGTAGAGATGGGTGATGATGAAGGAAAGCAAGCTATTGAAGCTCTTAACCAGAAAGAATTCAACGGAAAAACTCTAAACGTATCTGAAGCTAAACCAAGAGAAGAAAAACCAAGAAGAAGCTTCGATAACAACAGAGGTGGAGGTTATGGTAACAACAACAATAGAGGCGGAGGCTATGGTAACAACCGTGGCGGAGGCGGAAATCGTTGGTAA	MNIFVSNINYATKEYELHDLFAEFGDVSSAKIVTDRETGRSRGFGFVEMGDDEGKQAIEALNQKEFNGKTLNVSEAKPREEKPRRSFDNNRGGGYGNNNNRGGGYGNNRGGGGNRW				NA	NA	NA	NA	NA
BMS003_01077	414			hypothetical protein	ATGAAACAGCATACTACCAATTATACCAATACACTCATTGAAGCAGCAGAAGACTGCCCTGTTTCCCAGGCACAGATTCCTCCTGAAAAAAAGGAGAAGACAACCGCTAACCTTCAGTATGAGAAGCTTATCAAAAACCCATATCAATATTCTTCAGACGACATTATCTTTGGATGTCACGCCATTAGAAATGGGATTTCAGACAGTGAAATGAAGGAAGAAAGAGAAAAATTCTTTTCCAAAGGCCAGCCCTGCCTTCGCTGCTCACCACTGGCCAAAAAATACGGTTTTGGATTTCACCATAATTCTGAAGGAAAAGTAGCACTATTGCCCATGGAAAGTAAAACATACCAGACATTGCTGAGCGACACTTCCATCACAAAAACCAAGGCAATGCGCTCCAAAAGAAAATGA	MKQHTTNYTNTLIEAAEDCPVSQAQIPPEKKEKTTANLQYEKLIKNPYQYSSDDIIFGCHAIRNGISDSEMKEEREKFFSKGQPCLRCSPLAKKYGFGFHHNSEGKVALLPMESKTYQTLLSDTSITKTKAMRSKRK				NA	NA	NA	NA	NA
BMS003_01078	396			hypothetical protein	ATGAACTACCATACCAGAAAATGGGTAAAACCCGAAGACTTAAACCCTAATCACTCTCTTTTCGGAGGAAGACTCCTTCAATGGATTGATGAGGAAGCGGCACTGTATGCAATTATTCAGCTGGAAAATACAAAAGTAGTAACCAAATTTATCTCTGAGATCAATTTCGTAAGTTCTGCAAAACAGGGAGATATTATCGAAATAGGAATTGAAGCTACCCATTTCGGGTCATCTTCCATTACTTTGAGATGTGATGTAAGAAACAAAATGACCCACCAGACGATCATCACCGTAGAAAAAATTGTGATGGTAAATCTTGATGCGGACGGCAATCCCGCTCCTCACGGCAAAACTCAGATTGAATTTGTAAAAGACAGGTTAAACAACAGCCTATGA	MNYHTRKWVKPEDLNPNHSLFGGRLLQWIDEEAALYAIIQLENTKVVTKFISEINFVSSAKQGDIIEIGIEATHFGSSSITLRCDVRNKMTHQTIITVEKIVMVNLDADGNPAPHGKTQIEFVKDRLNNSL	PGPT0001830_10	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS003_01079	561	rhaR_4		HTH-type transcriptional activator RhaR	ATGAAGATCTTCATAAAGAACATGGTGTGCAACAGATGTATTGCGGCAGTAGAAAATATTTTCCGGAATGCAGATGTAGAGACAGCCAGGATTATATTAGGCGAAGTAGAAACAGAAAATGAAATCTCCTCTGAAAAAATGCAGTTCATAGAAAAAAAACTGCTTGACACAGGCTTTGAAAGAATCATGGATTCTGCACATCAGATGGTAGAAAAAATCAAAAACCTGATCATTGTAAAAATAAGCGAGCAGGATATCTCAGAAGATTTCCTGCTTTCAGAATTTTTAAGCTCAAAGCTTCACAAGGATTACAGTGCCATTTCAAAAACATTTTCACAAAACGAAAATATCACATTAGAACAGTTTTTCATTCTTCAGAAAATTGAAAAAGTAAAAGAACTTCTTCTGTACAATGAATTCAATCTTACGGAAATTGCCGGAAAACTTGGCTATAAAAGCGTACAGCACCTTTCTTCCCAATTCCGGAATACCACAGGATTCACCCCTACAGAATTCAAAAAACTGAAAGAGCACAACCGCAAAGCGCTCGATAATCTATAA	MKIFIKNMVCNRCIAAVENIFRNADVETARIILGEVETENEISSEKMQFIEKKLLDTGFERIMDSAHQMVEKIKNLIIVKISEQDISEDFLLSEFLSSKLHKDYSAISKTFSQNENITLEQFFILQKIEKVKELLLYNEFNLTEIAGKLGYKSVQHLSSQFRNTTGFTPTEFKKLKEHNRKALDNL				NA	NA	NA	NA	NA
BMS003_01080	2859	copA_2	COG2217	Copper-exporting P-type ATPase	ATGGAACAACAGTATAAAATACTCGGAATGACCTGTTCCGGCTGTCAGAAAAAGATATCCAGCCAGCTGAACAGTATTGACGGTATCACTGCAGATGTAAATCTGGAAACTCATACAGCAACCATCATTTCTGATCATGAAATAAAGCTTTCAGTCTTGAATGATGCTTTGGCAGAAATAGGAAAATACAGACTTGAAGATCCGAATACTCCTGAGACAACTTTTGTAAAGCCTCAGGACCGTGTATCTCAGTCTTCAGTATACTATTGTCCAATGGAATGCGAGGGGGAGAAAGTCTATTTCAAACAGGGAGAAAGATGCCCTGTCTGCAAGATGTATCTGGTTCCTATTGAAGAAAAGCTGGCCAAAGATCCTAATCATAAACCCACTTACTCATCAACCCATCTTCCGGCAAGTTTTAAAGACAGCATAGGAAAGCACTATTGCCCAATGTTTTGCGAAGGTGATAAAGTGTATGATGAAAAAGGAAGCTGCCCGGTTTGCCATATGGATTTAGAGCCGGTTACTGAAGAACTTGCACAAAAAGCGGCTTCACACCATCACTCTCATTCTCACAGTCATCATGATCACCATCACAGCCACAATCATGAAGCTCCTAAAGTAACCGATGAAATGGCAGGCAGATATTACTGTCCTATGTATTGTGAAGGTGATAAAACCTACGATTCCAATGTAGGATGTCCTGTCTGTGGAATGGATCTTGTAAAATATCCCGAAAAGAAAACCGCAAAATACACCTGTCCTATGCATCCGGAAATCATTCGTGATGAACCGGGAGACTGCCCGATCTGTGGAATGGATCTCGTAAGAATGCCCGACAACAGTGATGATGAAGACGATGAAACCTATAACATATTAAAAAGAAAGTTCATTACTTCATTAGCATTTACCATTCCGGTGTTTATTCTTTCAATGGGAGGAATGCTGATCAGTTTCCCTTTTTCACACCAGATTCAGGGGTTTATTGAATTAGCCTTAACACTGCCTGTGATGTTCTATTCAGGATGGTTTCTATTAAAAAGAGGCTGGGTTTCTTTCAAAACCTGGAACCTCAATATGTTTAGTCTTATTGCATTGGGTGTAGCTGCTGCATTTATTTTCAGCATCACAGCATTGACCTTCCCGGAGATCATTCCACATGAAATCCGTGGTCATAATCATGAAATTCCGCTCTATTTTGAGGCAGTCTGTGTGATCTTAACCCTGGTTATTCTTGGCCAGCTGATGGAAGCTGCAGCTCATAAAAAAACAGGAAACGCCATCAAAGAATTAATGAACCTTTCTCCGGATGAAGCCAACCTTATGGTAAACGGTGAAGAAAAGAAAGTACTGCTTTCTCAGGTAAAAATAGGAGATTTATTAAAAGTAAAACCAGGCGAAAAAATTCCGGTGGACGGAAAAATTATTGAAGGAAATTCTATCGTTGATGAAAGTATGATTACCGGAGAGCCTGTTCCTGTTGAAAAAAATGTAGATGATAAAGTGTCTTCCGGAACCATTAACGGCAATCAGGTATTCATTATGAAAGCTGAAAAAGTAGGTGATGAAACACTGCTTTCACAGATCATTAAAATGGTGAATGAAGCCAGCCGAAGCAAAGCTCCTATCCAGAAACTTACGGATAAAGTTTCAAAAGTATTTGTCCCTGCGGTCATTCTTATCGCCGTGCTTACTTTTATTCTGTGGCAACTTTTCGGTCCTGAAGGAAAAAGAAGCCTGTTTGCTTTCGTGAATGCTGTAGCAGTTTTAATAGTAGCATGTCCATGTGCGCTTGGCCTGGCAACTCCTATGTCTTTAATGGTAGGAATCGGGAAAGGAGCAAAAAACGGAATCCTGATTAAAAATGCTGAAGCCCTTGAGCAGATGAATAAAGTAAATGTTCTGATTACTGATAAAACCGGAACTTTAACAGAAGGAAAACCTTCTGTAGAACATATTGAAACAGAAAGTGGAGATCAGAATCAGATTTTAAAACTCGCTTTTTCTTTGAATCAGAATTCTGAACACCCACTTTCCAACGCTGTTATAAAAAGAGCAAAGGAAGAGAATGTAACGGCTGAAAAAGTAGATCAGTTTGAAAATATTTCAGGAAAAGGCGTGAAAGGAAATATCAACGGTAAAACAGCTTATTTAGGAAATGAAAACCTATTAACCTCACATCAAATCACTATTCCTGAAAATTTAAAGCAAAAAGCTGTAGAGGTTCAGTCAAAAGCTCACACTATTTCTTACATTGCACAAGATCAGCAGGTACTTGGATTCATAAGCTTTACAGACAAAATCAAAGAAAGCTCTAAGAAAGCAGTAAAACAATTAATGAGCGAAGGAATAGATGTAATTATGATGACAGGAGATAATGAACATACTGCCAAAGCCGTAGCCGATGAATTGGGAATCAGGCATTTCAAAGCCAACTGCCTTCCTGAAGACAAGCTGAATGAAGTAAAAAAGCTGCAGCAACAAGATAAAATCGTAGCGATGACCGGAGACGGTATCAATGACTCTCCTGCCCTTGCTCAGTCTGATGTAGGAATTGCCATGGGAACAGGAACGGACATTGCCATCGAAAGCGCAGAGATCACTTTATTAAAAGGAGATATTCTGGGAGTTGCAAAAGCAAAATTACTCAGTGAAAAGCTTCTCAGAAACATTAAAGAAAACCTGTTCTTCGCCTTCATCTATAATGTTTTAGGAGTTCCGGTTGCAGCAGGGTTATTGTACCCTTTCTTTGGAATTCTTCTGTCACCCATGATTGCAGCTGCTGCAATGAGCTTCAGTTCATTATCTGTAATTCTTAATTCATTAAGGTTAAATTCTGCAGATCTGGACATTCAATAA	MEQQYKILGMTCSGCQKKISSQLNSIDGITADVNLETHTATIISDHEIKLSVLNDALAEIGKYRLEDPNTPETTFVKPQDRVSQSSVYYCPMECEGEKVYFKQGERCPVCKMYLVPIEEKLAKDPNHKPTYSSTHLPASFKDSIGKHYCPMFCEGDKVYDEKGSCPVCHMDLEPVTEELAQKAASHHHSHSHSHHDHHHSHNHEAPKVTDEMAGRYYCPMYCEGDKTYDSNVGCPVCGMDLVKYPEKKTAKYTCPMHPEIIRDEPGDCPICGMDLVRMPDNSDDEDDETYNILKRKFITSLAFTIPVFILSMGGMLISFPFSHQIQGFIELALTLPVMFYSGWFLLKRGWVSFKTWNLNMFSLIALGVAAAFIFSITALTFPEIIPHEIRGHNHEIPLYFEAVCVILTLVILGQLMEAAAHKKTGNAIKELMNLSPDEANLMVNGEEKKVLLSQVKIGDLLKVKPGEKIPVDGKIIEGNSIVDESMITGEPVPVEKNVDDKVSSGTINGNQVFIMKAEKVGDETLLSQIIKMVNEASRSKAPIQKLTDKVSKVFVPAVILIAVLTFILWQLFGPEGKRSLFAFVNAVAVLIVACPCALGLATPMSLMVGIGKGAKNGILIKNAEALEQMNKVNVLITDKTGTLTEGKPSVEHIETESGDQNQILKLAFSLNQNSEHPLSNAVIKRAKEENVTAEKVDQFENISGKGVKGNINGKTAYLGNENLLTSHQITIPENLKQKAVEVQSKAHTISYIAQDQQVLGFISFTDKIKESSKKAVKQLMSEGIDVIMMTGDNEHTAKAVADELGIRHFKANCLPEDKLNEVKKLQQQDKIVAMTGDGINDSPALAQSDVGIAMGTGTDIAIESAEITLLKGDILGVAKAKLLSEKLLRNIKENLFFAFIYNVLGVPVAAGLLYPFFGILLSPMIAAAAMSFSSLSVILNSLRLNSADLDIQ	PGPT0004090_1269	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS003_01081	867			hypothetical protein	ATGAGAAAAATTTTTGCGGGAAAGTCAAAAAATAAGACTTTTCTTGGGATGTCTGCATTGGTGAGTGCAACTTTGGTTTTAATGAACAGCTGTAATTTCAAGAATGAAGTGAATGACCCCGTCGTCAGTTCACAGAAACATCCTTCCGCAGAAATAGTCCCCAATAATAAGGACGATGAAAGCGTAGAGCCTGACAAAAGAGTGATCTACCTTACCTTCGATGACGGTCCCAATCAGGGAACCGAAAATCTTTTAAAAATACTGGACAAAAGAAACGTTTGTGCAACCGCTTTTCTGGTGGGTAAGCATGCCTATGGTAGCAAGAAACAAAAAGATGATCTTCTTCTTTTAAAACAAAATCCCCTTATAGAGCTTGCCAATCACAGTTTCACACATGCCCACAATAAATACTCCAATTTTTATAAGAATGCAGATGCTGTAGTCCACGATTTTGACATCGCCAAAGACAGCCTGAAGCTTACTGATAAAATTGCCAGAACTCCGGGAAGAAATATCTGGAGACTCAACAATATTAATGCAACGGATATCAAAAGCTCCACAGCTGCCGCAGACGGTCTTAAAAAGGCTGGCTACAAAGTGATCGGTTGGGATCTTGAATGGAGACCTTCCCAGAAAATGACCTTAAAAGGAAGCCATGAATCCATGATCAAAAAAGTGGACAGTATTTTCTTTAATGATCTTGAGAAAACATCAAGACACCTTGTGTTCCTTACCCATGATCAATATCTGAGAGATGCAGATTCTATCAATGAACTGGATCTTTTTATTGAAAAGTTACAGAAGAGCAACAGGTTTGTGTTCAGAAAAATTTCTCAGTATCCTAAGATTAATGAAGTATTGAATTAA	MRKIFAGKSKNKTFLGMSALVSATLVLMNSCNFKNEVNDPVVSSQKHPSAEIVPNNKDDESVEPDKRVIYLTFDDGPNQGTENLLKILDKRNVCATAFLVGKHAYGSKKQKDDLLLLKQNPLIELANHSFTHAHNKYSNFYKNADAVVHDFDIAKDSLKLTDKIARTPGRNIWRLNNINATDIKSSTAAADGLKKAGYKVIGWDLEWRPSQKMTLKGSHESMIKKVDSIFFNDLEKTSRHLVFLTHDQYLRDADSINELDLFIEKLQKSNRFVFRKISQYPKINEVLN	PGPT0018645_2350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS003_01082	660		COG0325	Pyridoxal phosphate homeostasis protein	ATGAGTATTAAAGAAAATTATAAAGCCATAAAAAACCAGCTGCCCTCCAATGTTCAGCTGGTTGCTGTTTCAAAAACACATCCTGCTGCTGCGGTTCAGGAAGCATATGATCTCGGACAAATGGTTTTTGGAGAAAATAAAGTACAGGAACTGATGGAAAAAGCCCCTCTTCTTCCTCAGGATATCCAATGGCATCTTATTGGTCACTTACAGACCAATAAAGTAAAATATATTGCTCCTTTCATCAATACGATACAAAGTGTGGATTCTGAAAAGTTATTAGCAGAAATCAATAAAGAAGCAGAAAAAAATAACAGAATCATTAAGGTTCTTCTTCAGGTAAAGATTGCTGCAGAAGACAGCAAGTTCGGACTTGAAGTTTCTGAAGCCAAAGACCTTTTCCATCTGTATACTGAAGGGAAGTTTCCTCATGTGGAAATTACCGGATTAATGGGAATGGCGACATTCACTGAGAATGAGCAACAGATCAGAAAAGAATTTTTAATCCTGAAAGGGCTTTTTGATGAATTAAATCAATTAAAAACAATAAATACCTTATCAATGGGAATGAGTGATGATTTCCCTATAGCTATTGAGTGTGGGGCTAACTCTGTGAGGGTTGGATCTGCAATTTTTGGGAGAAGAGACTATTCAAAATAG	MSIKENYKAIKNQLPSNVQLVAVSKTHPAAAVQEAYDLGQMVFGENKVQELMEKAPLLPQDIQWHLIGHLQTNKVKYIAPFINTIQSVDSEKLLAEINKEAEKNNRIIKVLLQVKIAAEDSKFGLEVSEAKDLFHLYTEGKFPHVEITGLMGMATFTENEQQIRKEFLILKGLFDELNQLKTINTLSMGMSDDFPIAIECGANSVRVGSAIFGRRDYSK				NA	NA	NA	NA	NA
BMS003_01083	1185	glnG_1	COG2204	DNA-binding transcriptional regulator NtrC	ATGCAAAAAATCCTTATAGTAGAAGACGAAAAAGCAATCTCGGGAGTACTTCACAGTATCCTTTCTGATGAACTCACCGATTATGAATTTGTTATCGCCGAAGACGGCCTTGAAGGTTACAAACAGGTAGAAAAAGAAGATTTCGCACTGGTGATTTCTGATATCAAGATGCCTAAACTTTCAGGAACTGAACTTTTGAAGCAAAGTCTCACACTAAAACCAGAAACTACTTTTATCATGATCTCAGGTCACGCAGACATTGATTCTGCCGTTTCCTGTTTGAAAGAGGGTGCATACGATTTTATCTCCAAGCCAATAGACATCAACAGACTGATCACGAGTGTGAAAAACGCTCTGGCTAAAGAGACCCTGAAGAAAGAAAACAAAAATCTTCAGACCGAAAACAAAACTTTAAAGAGAAAAGTAAGCAAAAAATACCAAATGATCGGTGATTCTCCGGCTCTTCAAAAGATCCAGGATATGATCGAAAAAGTAGCTGCTTCTGACGCCAGAGTTCTTATTACAGGTCCCAACGGTGCAGGAAAAGAGCTGGTAGCCCATGCAATTCACAATCAAAGTGACCGTGCAAGAGGTCCTATGATAGAAGTAAACTGTGCTGCTATTCCGTCTGAACTTATTGAATCTGAACTTTTCGGACACGTAAAAGGATCTTTTACAGGTGCTATTAAAGATAAGCAGGGAAAATTTGAGCAGGCAAACGGAGGCACAATCTTCCTTGATGAGATTGGTGACATGAGTCTTATTGCCCAGGCTAAAGTATTGAGAGCACTTCAGGAAAGCAAAGTTTCTCCTGTAGGAAGTGATAAAGAAATTAAAGTAGACGTAAGAGTAATTGCGGCTACCAATAAAAACATGCAGAAAGAAATTGAGGAAGGGAAATTCAGAGAAGACCTTTACCACAGACTTTCTGTCATTGAAATCTATGTTCCGCCATTGGATGAAAGAAAAGGAGATATCAAATTACTGGTTGAGCATTTTTCAGGTATGATTGCTGATGAGCATGGTACTGCTGCAAAAAAGTTTGACGATAAAGCGATTGATGCTTTAAAAGCTCTTTCATGGACTGGAAATATCAGAGAACTAAGGAATGTTGTGGAAAGATTGATTATTCTTGGTGGAAATACTGTTTCTGAAGGTGACGTTGCAAGTTTTGTAAGGAAATAA	MQKILIVEDEKAISGVLHSILSDELTDYEFVIAEDGLEGYKQVEKEDFALVISDIKMPKLSGTELLKQSLTLKPETTFIMISGHADIDSAVSCLKEGAYDFISKPIDINRLITSVKNALAKETLKKENKNLQTENKTLKRKVSKKYQMIGDSPALQKIQDMIEKVAASDARVLITGPNGAGKELVAHAIHNQSDRARGPMIEVNCAAIPSELIESELFGHVKGSFTGAIKDKQGKFEQANGGTIFLDEIGDMSLIAQAKVLRALQESKVSPVGSDKEIKVDVRVIAATNKNMQKEIEEGKFREDLYHRLSVIEIYVPPLDERKGDIKLLVEHFSGMIADEHGTAAKKFDDKAIDALKALSWTGNIRELRNVVERLIILGGNTVSEGDVASFVRK	PGPT0001020_943	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NTR-NITROGEN_REGULATORY_SYSTEM,PGPT0001020-ntrX-K13599	NA	NA
BMS003_01084	1362	norM	COG0534	Multidrug resistance protein NorM	ATGAACTTTTTAAACAAAAACTATACGAAAGAATGCCTGACCTTGGCTCTGCCTGTGATGCTTACCCAGGTGGGGCAGGTTTCGGTAAACTTATTCGATAATATTATTGTCGGAAAACTTTTGGGTGCTGATGCACTGGCGTCTGTATCATTAGGGAATGCTGTGTTTTTCTCTATATTTGTATTAGCCCTGGGCTTTTCATTTGCCATTCCACCATTGGTTTCTGAAGCACACTCGAGAGAGGATCATGCTACAATCAATTCGGTATTCAGCCACGGCTTTATTATCAATATGTCTGTCGGGATTATTCTGATGGTTATTCTGCTTTTGGGAATACCCCTTCTCTATCATTCCGGGCAGCCCGCCAAGATCCTTCCGGACACAGTAAGCTTCCTGAGTATAATGGTAATCAGTATAGTTCCATTCATGGCATTTCAGACACTTCGTGAAGTTTCTGAAGGACTTTCCTATACCATTGGAGTTACTAAAGCAACCATTATTGCGAATGTCATCAATATTGTTTTAAACTATGTTTTTATTAAAGGACTTTGGGGAATACCTCCAATGGGAGTAAAAGGATCTGCACTGGCGACTCTTATTTCCAGAGTTTTCATGGTTGTTTTCCTTTATTTTGTACTGCTTAAAGAAAAAAGAACAAGACGTTATATCAAAGATTTTTCTTTAAAAATTCAGGCATTATCTAAGAAAATGTTTGATAAAATGGTAAAACTGGGATTGCCTACCGCTTTACAGATGTTTTTTGAAGTAACAGCTTTCGCAGGTGCGGCATTTATCTGTGGACTGATCTCTGCCCATGATATTGCATCTCACCAGATCGCTCTAAGCATGGCTTCTTTTACCTTTAATCTATGTATAGGGTTCAGTGTTGCTTCTACCGTAATGATCGGGAGAAAACTTGGTGAACAGAACTTTACTGAACTGAGAAAAGTAGGAATCAATAATCTAAAGATTGCTTTTATTTTTATGTGTATCTGCGGGTTGGTATTTATTCTGGGCAGAAACGTACTTCCGACATTTTTCACAAAAAAAGAAGAAGTTGAAGTTATTGCCCTGGCTGCAAAACTGATGATTATAGCCGCTTTATTCCAGCTTTCTGACGGAATTCAGGTGACAGCTTTAGGAATGCTGAGAGGGTTACAGGATGTGAAAATTCCGTCTATTTATACCTTTATCGCTTATTGGGTGATTACCATTCCGTTAGGATATTTCTTCTGTGTTACATTGGAAATGGGAGCATTCGGAATGTGGATTGCACTTGGACTGGGACTAACGGTCTCCGCTGTTTTCCTGGTGAAACGATTTCTGAATATGTCTGCGAAAAGAATTAAACAGAATTCATAA	MNFLNKNYTKECLTLALPVMLTQVGQVSVNLFDNIIVGKLLGADALASVSLGNAVFFSIFVLALGFSFAIPPLVSEAHSREDHATINSVFSHGFIINMSVGIILMVILLLGIPLLYHSGQPAKILPDTVSFLSIMVISIVPFMAFQTLREVSEGLSYTIGVTKATIIANVINIVLNYVFIKGLWGIPPMGVKGSALATLISRVFMVVFLYFVLLKEKRTRRYIKDFSLKIQALSKKMFDKMVKLGLPTALQMFFEVTAFAGAAFICGLISAHDIASHQIALSMASFTFNLCIGFSVASTVMIGRKLGEQNFTELRKVGINNLKIAFIFMCICGLVFILGRNVLPTFFTKKEEVEVIALAAKLMIIAALFQLSDGIQVTALGMLRGLQDVKIPSIYTFIAYWVITIPLGYFFCVTLEMGAFGMWIALGLGLTVSAVFLVKRFLNMSAKRIKQNS	PGPT0029115_7117	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
BMS003_01085	504	ywnH_1	COG1247	Putative phosphinothricin acetyltransferase YwnH	ATGGAAACATTAAAGTTCAGAAGTGCTGAATTGGCAGATTTAAATAAAATCGTAGCCATTTACAACTCAACAATTGCCTCAAGAATGGTGACCGCAGAACTGGAAGAAGTCTCTGTAGAAAGCAAGCTGAAATGGTTTGAAGCGCATAATTCCCAAACCAGACCTCTTTGGGTAGTTGAAGATGTTAAGGATCAGGTCGTTGGGTGGGCTAGCTTCAGTTCGTTCCATGAAAGGGCTGCCTATAATGGTACGGTAGAAGTAAGCATTTATCTTGACGAAACGAGCAGAGGAAAAGGATATGGGAAAACCATTCTCCAGTATTGTATTGATAACGCCGGAAAATTTGGAGTAAAAAATCTTGTAGCGCTTATTTTCCTTCATAATGAACCAAGTTTGAAGCTGTTCAGGCACTTTGGGTTTGAAGACTGGGGAAGCCTTCCTAATGTAGCCATTCTGGATGGTGTGGAGAGAAGTCTGAAGATCTTAGGAAAAAGAATAGATTAA	METLKFRSAELADLNKIVAIYNSTIASRMVTAELEEVSVESKLKWFEAHNSQTRPLWVVEDVKDQVVGWASFSSFHERAAYNGTVEVSIYLDETSRGKGYGKTILQYCIDNAGKFGVKNLVALIFLHNEPSLKLFRHFGFEDWGSLPNVAILDGVERSLKILGKRID				NA	NA	NA	NA	NA
BMS003_01086	564			hypothetical protein	ATGTTAAGAACGAATCAGACATTTTTAAGCTATCTGGATGAACTTTATGAAAAACAGAAGGATAGTGATCATATTATATTAAAATCTTTTTCTGCAGGAGATAAAATACTGATACAGGATCATCAGCTATCCCATGTCATGCTGATTAAAGAAGGAATCGTCAAATGTTACTTTGTAGAAGAGAACGGAAAGGAATACATCGTAGAATTTCTGGGAAGCGGGGAAGTAATAGGAGAAGTGGAGTTGATCAAAAACATAAACTGTCTGTGCAGCATCGAAGCGCTCACGGAGATTACGGTATATGCAATAAAGATTCCTGCCTTTAAAGCTTTAATTAAAAATGATCTTGTGCTGAACAATCTTCTGTTAGAATCTTTTGCGGAACGGATTATCAATACATCCAGCAGAGCATCTTATCAACAATTATATACAGTAGAACATACCTTAAAGCAATTGTTGCTAATGCAATCGAAGCAGAATATTCAGATCTCCAAAGAAGATATGGCGGCCTATCTCGGAATTGCGGTGAGAAGCTTAAATAGAATTTTGAAGGACTTGAAATGA	MLRTNQTFLSYLDELYEKQKDSDHIILKSFSAGDKILIQDHQLSHVMLIKEGIVKCYFVEENGKEYIVEFLGSGEVIGEVELIKNINCLCSIEALTEITVYAIKIPAFKALIKNDLVLNNLLLESFAERIINTSSRASYQQLYTVEHTLKQLLLMQSKQNIQISKEDMAAYLGIAVRSLNRILKDLK	PGPT0015075_4630	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
BMS003_01087	690			hypothetical protein	ATGAATAATCATATTACCACCATTGCATTTGATGCAGATGATACGCTTTGGATCAATGAACCTTACTTTCAGGAGGCTGAAAAAGAATTTTGTACACTGCTGGAAAATTATATTCCACAACATTCGGTATCGCAGGAATTGTTTACAACGGAAATGCAAAATCTTCACTTGTATGGTTATGGAGTGAAAGGATTCATGCTCTGTATGATTGAAACCATCAGCAGAGTTTCAAACAATACAGCATCATTAGAATTAGTCAACAAAGCGATCCGGCTTGGCCAGGAACTTCTTCAGAAGCCTATTGTGCTTTTAGATGGTGTTACGGAAACCCTTGAAAGCTTAAAAGGAAAATACAGGCTGGTGGTTGCCACAAAAGGTGATCTGCTGGATCAGGAACGTAAACTGAAAAATTCGGGATTGCAGGATTATTTCCATCACATTGAAATCATGAGTGATAAAAAAGAAAAAGATTATAAAAAGCTCCTGAAACATCTGGATTGCCAACCTGAAAGCTTTCTGATGCTCGGAAATTCTATCAAGTCGGATATTTTACCGGTACTGGAAATTGGAGGATCTGCAGCTCATATACCTTATCATGTCACCTGGAGTCACGAGCAGCATGATGTTCAACTGGAGCATCCGAATTTTATGGAGCTTAAAAGCGTTAATGAAATTTTGAAATATCTTTAA	MNNHITTIAFDADDTLWINEPYFQEAEKEFCTLLENYIPQHSVSQELFTTEMQNLHLYGYGVKGFMLCMIETISRVSNNTASLELVNKAIRLGQELLQKPIVLLDGVTETLESLKGKYRLVVATKGDLLDQERKLKNSGLQDYFHHIEIMSDKKEKDYKKLLKHLDCQPESFLMLGNSIKSDILPVLEIGGSAAHIPYHVTWSHEQHDVQLEHPNFMELKSVNEILKYL				NA	NA	NA	NA	NA
BMS003_01088	2403			hypothetical protein	ATGAAGATAAAACTGACCATTTGCCTTCTGGCATTTCTCAATTTTTACGATGCACAGGAAAATATTACTTACCAAAAGCCATCAGCTGAGATTCTGAAGCTGGCAGACTATCAAAGGCCGCCAGGTGTTCTGATGAACAGTAAAAAAGACTGGGTGGTCTTTACTTATCGTCCAACATATAAAACACTTGAAGATCTTAGTCAGCAGGAAATGAAACTCGGAGGACTGAGAATTAATCCTGTTACCAATATTTCGAGCAGTACAACTTACTCCAATAATCTGAAGATCAGGAAGATTAATGATAAAAATGAGGTTCAGGTAAAAAACCTTCCTTCCAATCCGAAAATTACTTATATATCATTTTCTCCGGATGAAAAAAAGCTTGCATTTACCAATACAACGGCTAAAGGAGTAGAACTTTGGGTAGTGGATCTGGAAACAGCTTCTGCCCAAAAAATTACGGCAGATAATCTGAATGCCAATTTAGGAATACCGTATGTATGGTATAACAACTCTCAAAGCTTCCTGATCAGAGCAATTCCACAAAACAGACCTGCTCTTATAGATGCTGGCAAAGATCTTCCCACAGGTCCTATTGTTTCTACGGCAGATGGTAAGGTTTCTCAGAACAGAACTTATCAGGACCTTTTGAAAAATCCTCAGGATGAAAAAAACTTTGAAACTCTTACAGCTTCGGAAATTTACAATGTAGATCTTTTCGGGAATCTTAAAAAGCTGAAAGATAAGGATATGTATGCCGGTCTAAGTTTTTCTCCGGACGGAAATTATCTGATGGCTACAACAATTAAAAAACCATTTTCCTATATCGTTCCACTCAACAGGTTTCCATCAGCAACAGTAGTGTATGATATGCAGGGAAATGCTGTAAAAACAGTAAATGAAGTTCCTTTAAATGAAATTATGCCAAAAGGATTCTCATCTGTAAGAACCGGAAAAAGAGATATGTCTTGGAGAAGTGATATGCCTGCTACTCTTACATATGCAGAAGCTTTGGATGGAGGAGACCAGTCTAAAACAGCAGATTACAGAGACGAGATATTTACATGGGAAGCTCCATTTACAGCAACTCCGAAATCTTTCTTCAAAACAAAGCAGAGATATGATGACGTGGTCTGGACCAATGATCATTATGCCATTGTTTCTGAAGGCTGGTATGACACAAGAAATACAAAATCTTATCTTATAGATACCAACAATGGAGAATTCAAAATCTTCGATGATAGAAATTATCAGGATGTTTACAGCGATCCTGGAAATTTTAACAGAACAAAAAACCAGTACGGAAGGTATGTAATAGATATGAAAGGTGGAAAAGCCTATCTGATTGGAGATGGATTTACCAAAGACGGTCAGCATCCTTTTATTGATGAAATGGATGTAAAGTCACTGAAAAAGAAAAGACTTTACACTTCTAACGTAAAGAACGGTAAAGAAGAAATTATTGACATTCTTAATGCTTCAAAGGGTGAGATTCTTACAACTCAGCAGTCACCGAGCCTTTATCCGAATTACTTCAAAAAGAATATCAAATCTAATAAAGCAGAAGCGGTAACCAACTTTGCCAATCCTTTTGAAAGTATCAAAGATGTTTATAAAGAAGTGATTACCTATAAAAGAAATGACGGAGTTACCTTAACCGGAACCCTTTATCTTCCTGCCAATTATGACAGAAAAGCAAAAAAAGAGAAACTTCCGTTATTAATCTGGGCTTATCCTACAGAATATAAAGACAAAAACACAGCAGGACAGAATACTCAAAACCCTAACGATTTTACGTTCCCGTACTACGGATCTTTTGTGTACTGGACAACAAAAGGATACGCTGTTCTTGATGATGCCGCTTTCCCGATTATTGGTGAAGGAAAAACAGAACCTAATGATACATTTATTCCGCAACTGGTAGCCAATGCTGCAGCTGCCATTGACGCAGTAGATCATTTAGGATATATCGACAAAAAGAAAGTAGCTGTAGGAGGGCATTCCTATGGAGCTTTCATGACGGCAAACCTTTTGACACATTCTAACCTTTTCGCATGTGGAATTGCAAGGAGTGGTGCTTATAACAGAACTTTGACACCATTCGGATTCCAGAGTGAGCAGAGAAACTATTGGGATGTTCCGGAAATTTACAATACGATGTCTCCGTTTATGCATGCTGACAAAATGAAGACACCGCTTCTTCTTATTCATGGTGATGCAGATAACAACCCTGGAACATTTACTTTGCAGACAGAAAGATACTTCCAGGCATTGAAAAATTTGGGTGCTCCGGTAAAAATGGTTCTTCTTCCAAAAGAAGCACACGGATATCAGGCTAAAGAAAATATCTTCCACCTTTTATGGGAGCAGGATCAGTTCCTTGAAAAATGTCTGAAGAAATAA	MKIKLTICLLAFLNFYDAQENITYQKPSAEILKLADYQRPPGVLMNSKKDWVVFTYRPTYKTLEDLSQQEMKLGGLRINPVTNISSSTTYSNNLKIRKINDKNEVQVKNLPSNPKITYISFSPDEKKLAFTNTTAKGVELWVVDLETASAQKITADNLNANLGIPYVWYNNSQSFLIRAIPQNRPALIDAGKDLPTGPIVSTADGKVSQNRTYQDLLKNPQDEKNFETLTASEIYNVDLFGNLKKLKDKDMYAGLSFSPDGNYLMATTIKKPFSYIVPLNRFPSATVVYDMQGNAVKTVNEVPLNEIMPKGFSSVRTGKRDMSWRSDMPATLTYAEALDGGDQSKTADYRDEIFTWEAPFTATPKSFFKTKQRYDDVVWTNDHYAIVSEGWYDTRNTKSYLIDTNNGEFKIFDDRNYQDVYSDPGNFNRTKNQYGRYVIDMKGGKAYLIGDGFTKDGQHPFIDEMDVKSLKKKRLYTSNVKNGKEEIIDILNASKGEILTTQQSPSLYPNYFKKNIKSNKAEAVTNFANPFESIKDVYKEVITYKRNDGVTLTGTLYLPANYDRKAKKEKLPLLIWAYPTEYKDKNTAGQNTQNPNDFTFPYYGSFVYWTTKGYAVLDDAAFPIIGEGKTEPNDTFIPQLVANAAAAIDAVDHLGYIDKKKVAVGGHSYGAFMTANLLTHSNLFACGIARSGAYNRTLTPFGFQSEQRNYWDVPEIYNTMSPFMHADKMKTPLLLIHGDADNNPGTFTLQTERYFQALKNLGAPVKMVLLPKEAHGYQAKENIFHLLWEQDQFLEKCLKK				NA	NA	NA	NA	NA
BMS003_01089	429			hypothetical protein	ATGAACTATAATAATTCAAATTCAAGCTCAATACCAAAAGATATTGTTTTATTGGTGGTGAGAGTGTTTGTAGGTTTTGCAATGCTTTCTCATGGTTTTCCAAAACTTCAGATGCTATTGGCAGGCGGTAAAATTGAGTTTTTCGATTTTTTGGGTCTTGGTTCTCAGATATCACTGATTCTTACGGTTTTTGCTGAATTTGTATGTTCAATACTTCTTATATTAGGACTTTTTACAAGAGTTTCCCTTGGATTTCTGATCTTTACAATGGTGATTGCCGGTTTTGTAGTACACGGTTCAGATCCTTTTGAAAAAAGAGAAATGGCACTTGTTTACCTTTCCGTTTATCTTTTACTCATGGTAATTGGGGCAGGAAAAGTTTCAGTAGATCATATGATTGAAAGAAGAAAAAGAGCTTCAGACTGGTAA	MNYNNSNSSSIPKDIVLLVVRVFVGFAMLSHGFPKLQMLLAGGKIEFFDFLGLGSQISLILTVFAEFVCSILLILGLFTRVSLGFLIFTMVIAGFVVHGSDPFEKREMALVYLSVYLLLMVIGAGKVSVDHMIERRKRASDW	PGPT0028505_3966	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
BMS003_01090	876	era	COG1159	GTPase Era	ATGCACAAAGCTGGATTTGTAAATATAGTTGGAAAGCCTAATGCGGGAAAATCTACCTTACTCAACCAATTAATGGGAGAGAAATTGGCAATTGTAACGCAGAAAGCTCAGACAACCCGTCACAGAATTTTTGGAATTTATAACGAAGATGATCTTCAGATTGTATTTTCGGATACACCGGGAGTATTAGATCCGAAATACGGACTGCAGGAAAAAATGATGGATTTTGTAAAGGACTCTCTGCAGGATGCTGACGTTTTCCTGTTTATTGTAGATGTTACTGATAAAGCGGAACCATCAGAGTTTTTAATTGATAAACTGAATAAAATCCCTGTACCTGTACTTCTTCTGTTAAACAAAGTAGACCAGACGGATCAGGCAGGTCTTGAAAAACTGGTGGAAGACTGGCATGCAAGGATTCCAAAAGCTGAAATTTTACCTATTTCTGCATTGAATGCCTTTAATACAGAAGTTATTTTACCTAAAATAAAATCGTTGCTTCCAGAGAATCCTCCTTACTATGATAAAGATCAGTATACAGATAAGCCTGAAAGATTTTTTGTTAATGAAGCAATTCGTGAAAAAATTCTTCTGAATTATGATAAAGAGATTCCATATTCTGTGGAAGTTGTAACAGAACAGTTCAAGGAAAAAGAAGGAATTATTTTTATCGATTCTATTATTTATGTAGAAAGAGATACCCAAAAAGGAATTATTATAGGACACAAAGGAGAAGCCATCAAAAAAGTAGGAACTGAAGCAAGACTGGATCTTGAAAAGTTCTTTACCAAAAAAATTCATCTGAATCTGTTTGTAAAAGTGAAAAAAGATTGGAGAAAGAACGACAGGGATCTTAAAAACTTTGGTTACCGCTAA	MHKAGFVNIVGKPNAGKSTLLNQLMGEKLAIVTQKAQTTRHRIFGIYNEDDLQIVFSDTPGVLDPKYGLQEKMMDFVKDSLQDADVFLFIVDVTDKAEPSEFLIDKLNKIPVPVLLLLNKVDQTDQAGLEKLVEDWHARIPKAEILPISALNAFNTEVILPKIKSLLPENPPYYDKDQYTDKPERFFVNEAIREKILLNYDKEIPYSVEVVTEQFKEKEGIIFIDSIIYVERDTQKGIIIGHKGEAIKKVGTEARLDLEKFFTKKIHLNLFVKVKKDWRKNDRDLKNFGYR				NA	NA	NA	NA	NA
BMS003_01091	564			hypothetical protein	ATGAATATAGACCAGATTCTTGACCAGGTTTACCTTCTTCCTGAGGCATCAAAAAACAGTTTGAAAGAGCATATCACCGAGATTTCCTACCCTAAAGGCTTTTGTCTGATGGAGGCTGACAAAGTGATTCCTTATCTTTATTTTATCCGAAAAGGGATTGCGCGTGCTTATTCTTCTACTTCAGACAATGATATTACTTTCTGGTTCGGGAGTGAAGGGCAGTGTATTCTTTCTATGAAAAGTTATGTACAAGACAGACCAGGTTATGAAAATATCGAATTACTGGAAGACTGTGATCTGTACAGAATGGAAACGGAAAGTCTCAGAAAATTTTTTAATGAAGATATTCATATTGCCAACTGGGGAAGAAAACTGGCGGAGGGAGAAATGATAAAATCTGAAGAACTGATTATTTCCAGACAGTTCAAAACTTCTTTGGAACGGTACAAAGATATTATGGCGAATCAACCGGACTTACTTAAAAGGGTTCAGCTGGGCTATATTGCGTCTTATCTTGGGATTACGCAGGTGAGTTTGAGTAGAATTCGGGCGGAGATAAAATAA	MNIDQILDQVYLLPEASKNSLKEHITEISYPKGFCLMEADKVIPYLYFIRKGIARAYSSTSDNDITFWFGSEGQCILSMKSYVQDRPGYENIELLEDCDLYRMETESLRKFFNEDIHIANWGRKLAEGEMIKSEELIISRQFKTSLERYKDIMANQPDLLKRVQLGYIASYLGITQVSLSRIRAEIK				NA	NA	NA	NA	NA
BMS003_01092	333	gdnD	COG2076	putative guanidinium efflux system subunit GdnD	ATGAATTGGTTAATATTAGTTATCGCGGGATTATTTGAAGTTGCCTTCGCATCATGTCTGGGAAAGGCAAAAGAGACATCTGGAACTGAAATGTACTTGTGGTATGCCGGTTTCCTGATCACAATGACGATCAGTATGCTTTTGCTGATCAAAGCGACTCAAACTCTTCCTATCGGTACTGCTTATGCGGTATGGACGGGAATCGGAGCTGTAGGAACGGCTTTAATGGGAATTATTTTCTTTAGGGATCCTGTAAGTTTTTGGAGAATATTCTTTATTGTAACGCTTATTGGGTCTGTTGTAGGGTTAAAAGCTGTTTCTTCATCTCATTAA	MNWLILVIAGLFEVAFASCLGKAKETSGTEMYLWYAGFLITMTISMLLLIKATQTLPIGTAYAVWTGIGAVGTALMGIIFFRDPVSFWRIFFIVTLIGSVVGLKAVSSSH	PGPT0028785_399	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
BMS003_01093	768			hypothetical protein	ATGAAAAAGGTAACTAAGCTTTTACTGAATAAGATTCCACGTCCTGTGCTTATTAAAATGAGCATCTGGGCAAGACCGCTTATTTATAAGTTTTTTAAAGGAGACCAGTTTTATGATCCTATTGATGGGAGATCTTACAGGAAGTTCCTTCCGTATGGATATGGAAAACAAAGAGAGAATGCACTGTCTCCGGGAACGTTAAGTTTGGAAAGACACCGTCAGATGTGGCTGTATCTTCAAAACGAAACTGATTTTTTCATCAAAAATTATAAAGTGCTGCATATTGCTCCAGAACAGGAATTTCTGAGAAAGTTCAAGAGAATGAGCAATCTGAACTATATTTCAGCAGACCTCTATTCTCCCATTGTGGATGTGAAAGCGGATATTTTGAATTTGCCTTTTGAAAATAATAGTTTTGACATTGTTTTCTGTAATCATGTTCTGGAACACATAGAAGACGATGCAAAAGCAATGAGTGAGCTGTATAGAGTAATGAAGCCAGGCGGATGGGGGATTCTTCAGGTTCCGATGAAAAATTCATTGGAGAAAACCTATGAAGATTTTACCATTAAAGATCCGAAAGAACGGCAGAAGCACTTCGGGCAGTATGATCATGTTCGCTGGTACGGAATGGATTATTTCGACCGTCTAAGAAAAGCCGGTTTTGAAATAGAACCCAACTTTTATTCCCAAAAATTCTCAGAAGAAGAAATAAAGAAATATGGATTAAGACATAATGAAATCCTACCCATAGTTTATAAAAAATAA	MKKVTKLLLNKIPRPVLIKMSIWARPLIYKFFKGDQFYDPIDGRSYRKFLPYGYGKQRENALSPGTLSLERHRQMWLYLQNETDFFIKNYKVLHIAPEQEFLRKFKRMSNLNYISADLYSPIVDVKADILNLPFENNSFDIVFCNHVLEHIEDDAKAMSELYRVMKPGGWGILQVPMKNSLEKTYEDFTIKDPKERQKHFGQYDHVRWYGMDYFDRLRKAGFEIEPNFYSQKFSEEEIKKYGLRHNEILPIVYKK				NA	NA	NA	NA	NA
BMS003_01094	810	map	COG0024	Methionine aminopeptidase 1	ATGATTCAATTAAAAACAATAGACGAATTACGTCTGATGAAGGAGAGTGCCCGATTGGTTTCTAAAACATTGGGAATGTTGGCAAAAGAAATAAAACCAGGGATTACAACCTTATATTTAGATAAACTGGCGCATGATTTTATTAAAGATCATGGTGCTGAACCTGCATTCTTAGGTTACGGAGGATTTCCAAATTCTCTTTGTATATCTCCGAATGAGCAGATAGTTCACGGTTTCCCAAATAATGACGTGATAAAAGAAGGAGATGTTCTTTCTGTAGACTGTGGAGTTATTCTTAACGGTTTTGTAGGAGATCATGCCTATACTTTTGAAATCGGGGAAGTAAAACCTGAGGTTAAAAAATTACTGCAGGTTACCAAAGAATCCCTATACAAAGGAATTGAGCAGTGTATCAGAGGAAAAAGAATAGGAGATATCTCCCATGCCATTCAGGCACATTGTGAAAAAGAAGGATATGGAGTAGTAAGAGAACTTGTAGGGCACGGATTGGGAAGAAAAATGCACGAAGATCCACAGGTACCTAACTACGGGAGACAAGGAAGCGGAAAAGTAATTAAAGACGGTTTGGCAATTGCCATCGAACCCATGGTGAATCTTGGAACTGAGAAAGTAAAGTTCCATAATGACGGGTGGACGGTAACAACTTTGGATAACATGCCATCTGCTCACTTCGAACATGATGTAGCCGTGATCAATGGTAAGCCGGTATTGCTTTCGACATTTGATTATGTATACGAAGCTTTAGGGATTGTAAGTGATGAAGAGAAGCAGTTCCAACTGGATTTTTAA	MIQLKTIDELRLMKESARLVSKTLGMLAKEIKPGITTLYLDKLAHDFIKDHGAEPAFLGYGGFPNSLCISPNEQIVHGFPNNDVIKEGDVLSVDCGVILNGFVGDHAYTFEIGEVKPEVKKLLQVTKESLYKGIEQCIRGKRIGDISHAIQAHCEKEGYGVVRELVGHGLGRKMHEDPQVPNYGRQGSGKVIKDGLAIAIEPMVNLGTEKVKFHNDGWTVTTLDNMPSAHFEHDVAVINGKPVLLSTFDYVYEALGIVSDEEKQFQLDF	PGPT0020010_4741	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
BMS003_01095	432			hypothetical protein	ATGTTAAATAATAAAAAGATTGCTGTTGACTTTGACGGAACTATTGTTGATGACGCTTATCCGGCAATTGGAAAACCGAAAACTTTTGCATTCGAAACATTGAAAAGACTTCAGGCTGAAGGCTTCAGACTTATACTTTGGACGTACAGACACGGAAAAACTTTAGATGAAGCCGTAGAATTCTGCCAGAAAAACGGAATTGAATTTTATGCCGTGAATTCCAGCTTTGAAGGAGAAGTTTTTGATTCTGAAAATCAGTCCAGAAAATTAGACGCAGACTGGTTTATTGATGACAGAAACTTAGGAGGATTTCCAGGATGGGGTGAGATTTATAACATTATTCAGGAAAGAATAGAATTCCGTGTAGAAGGCAAAGAAGTTCTTGCTTACTCAAAACTTAAAAAAGAAAAGAAAAAAGGACTTTTCTGGTAA	MLNNKKIAVDFDGTIVDDAYPAIGKPKTFAFETLKRLQAEGFRLILWTYRHGKTLDEAVEFCQKNGIEFYAVNSSFEGEVFDSENQSRKLDADWFIDDRNLGGFPGWGEIYNIIQERIEFRVEGKEVLAYSKLKKEKKKGLFW				NA	NA	NA	NA	NA
BMS003_01096	978			hypothetical protein	ATGTATCAAAAGCTTGTTAGGAAAGAAGTAATGGGAATATTGGAAAAGGAAGTAGGTTCTTTTCTTGATAAATTTTTAACGCCAATTGAAAAAATCTGGCAGCCTTCCGATTATTTACCAGATCCTTCAAGCGATGAATTCAAACATGACTTAGAAGAAATCCAAACTTTTGCCCGTGAAATGCCTTACGATCTTTTTGTAACACTGATCGGTGACTGTATCACAGAAGAGGCACTTCCTTCTTATGAGTCATGGCTGATGGGGGTTGACGGCATCAATCAGGAAGAAAAAGTAGGCTGGGCCAACTGGGTAAGAGCATGGACTGCTGAAGAAAACAGACACGGAGATTTATTAAATAAATATCTTTATCTGTGCGGAAGAGTAAACATGAGAGAAGTGGAAATCACTACTCAGTATCTTATCAATGACGGATTCGATTTAGGAACAAGTATGGATCCATACAGAAACTTTATTTATACAAGCTTCCAGGAAACAGCTACCAATATCTCTCACAGAAGAGTAGGAACACTGGCAAAACAATCGGGAAACGGTAAACTGGCAAAAATGTGTGGCGTAATTGCTGCAGATGAGGCAAGACATGCTAAAGCATACAAGCATTTCGTAGCAAAAATCCTTGAAGTAGATCCTTCGGAAATGATTCTTGCATTCGAAGATATGATGCGTAAGAAAATTGTAATGCCTGCTCACTTAATGAGACAATCAGGACAAAAAGCCGGAGAACTTTGGGGGCATTTCTCAGATGCTGCACAAAGATGTATGGTATACACAGGTCAGGATTATATTAATATTATGAAAGACCTTTTGGATGAATGGAAAATTGAGCACGTAAAAGGACTTACAGAAAAAGCAGAAAAAGCTCAGGAATACCTGATGAAGCTTCCTGCAAGACTTCAAAAGATCACAGACAGGGTTTCTACCCCGGATCTTCAGTTCCAGTTTAGCTGGGTGAAAAGCTAA	MYQKLVRKEVMGILEKEVGSFLDKFLTPIEKIWQPSDYLPDPSSDEFKHDLEEIQTFAREMPYDLFVTLIGDCITEEALPSYESWLMGVDGINQEEKVGWANWVRAWTAEENRHGDLLNKYLYLCGRVNMREVEITTQYLINDGFDLGTSMDPYRNFIYTSFQETATNISHRRVGTLAKQSGNGKLAKMCGVIAADEARHAKAYKHFVAKILEVDPSEMILAFEDMMRKKIVMPAHLMRQSGQKAGELWGHFSDAAQRCMVYTGQDYINIMKDLLDEWKIEHVKGLTEKAEKAQEYLMKLPARLQKITDRVSTPDLQFQFSWVKS				NA	NA	NA	NA	NA
BMS003_01097	1542	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGTCGAAAAAAGCAATACTGGCCATTCTTGACGGATGGGGATTGGGAACAAACCCTGACGTTTCTGCAATAGATAAAGCAAATACACCATTCATAGACAGCTGTTACCAAAAATTTCCACATACCACGCTTGAAGCAAGCGGACTGGCTGTAGGTTTACCGGCCGGACAGATGGGGAATTCTGAAGTAGGGCACATGAACCTGGGAGCCGGAAGAGTAGTTTACCAAAACCTGGTAAAACTGAACATGGCCGTTGAAAACGGAACACTGGGACAGGAAAAAGTGATTCAGGATGCTTTTGAATATGCCAGAAGAGAAAATAAAAAAGTACATTTCATAGGATTGGTTTCCAATGGAGGTGTACACTCACATATTAATCATTTGAAAGGATTACTGACAGCCGCAAAAGAATTCGGGTTGAATGAGAACGTCTTTGTTCACGCATTTACCGATGGGAGAGACTGCGATCCACATTCCGGATTAGGATTTATTGATGAGCTTCAGAAGCATATGGATGCTACTACAGGAAAACTGGCAACAGTAGTAGGCAGATACTATGCCATGGACAGAGATAAAAGATGGGAACGTGTAAAACTGGCTTATGATGCCCTTGTAGAAGGAGTAGGAGAACAGTCAACAGATGCTCTGGCTTCTGTTAAAGCTTCCTATGATAATAACGTGACCGATGAATTCCTTAAGCCAATCATCCTAATGAATACTACAGCTACAGGAAATGTAGTGCCGGTAGCAAAAATAACTGACAATGACGTGGTGATTTGTTTCAACTTCCGTACAGACAGAGGCAGAGAGATTACAGAAGTACTTTCTCAGAAAGACTTTCCGGAATATGATATGAAAAAGCTGAACCTTTATTATATCACATTAACGAACTATGATAAAACTTTCCAGAATGTACAGGTGGTCTTTGATGAAAATGTCCTGAAAGAAACAATGGGTGAAGTTCTTGAAAAAAATAGAAAAACCCAGATCAGGATTGCAGAAACAGAGAAATATCCGCACGTTACTTTCTTCTTCTCAGGAGGAAGAGAACAGGAATTTGAAGGTGAAAAAAGACTTCTTTGTCCAAGCCCGAAAGAGGTTGCTACTTATGATCTTAAGCCGGAAATGTCTGCATATGATATTACCAACGCTATCGTTCCGGAGCTGGAACAGGGAACTGCTGATTTTGTTTGCCTGAATTTTGCCAATACAGATATGGTAGGACATACAGGGGTTTTTGAAGCCGCTGTAAAAGCCGCTGAGGTGGTAGATCAGTGCATCGAAAAAGTAGCTACAGCAGCTTATGAAAACGGATATGCTGTTTTCATTCTTGCCGATCACGGAAATTCAGATGTAATGAAGAATCCGGACGGAACACCTAATACTCAGCATTCTACGAATCTTGTTCCTTTTATCGTAATGGATAAAGATCATACATGGAATTTAAAACCTGGTAAACTGGGTGATGTAGCCCCTACAATCCTTAAAGTAATGGGCGTTGAAATACCAGCTGCAATGACTGGAGAAGTTTTAGTTAATTAA	MSKKAILAILDGWGLGTNPDVSAIDKANTPFIDSCYQKFPHTTLEASGLAVGLPAGQMGNSEVGHMNLGAGRVVYQNLVKLNMAVENGTLGQEKVIQDAFEYARRENKKVHFIGLVSNGGVHSHINHLKGLLTAAKEFGLNENVFVHAFTDGRDCDPHSGLGFIDELQKHMDATTGKLATVVGRYYAMDRDKRWERVKLAYDALVEGVGEQSTDALASVKASYDNNVTDEFLKPIILMNTTATGNVVPVAKITDNDVVICFNFRTDRGREITEVLSQKDFPEYDMKKLNLYYITLTNYDKTFQNVQVVFDENVLKETMGEVLEKNRKTQIRIAETEKYPHVTFFFSGGREQEFEGEKRLLCPSPKEVATYDLKPEMSAYDITNAIVPELEQGTADFVCLNFANTDMVGHTGVFEAAVKAAEVVDQCIEKVATAAYENGYAVFILADHGNSDVMKNPDGTPNTQHSTNLVPFIVMDKDHTWNLKPGKLGDVAPTILKVMGVEIPAAMTGEVLVN	PGPT0018040_1447	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
BMS003_01098	780			hypothetical protein	ATGAAAACAAAACTTTTATTTCTAATTGCCCTTACAGCATTTTCTGTAAATTTATTCTCACAGGTAGGTATAAATACATCGGCTCCCAATTCCTCATCAATTTTAGACATAGTCTCTAGTAATAAAGGACTATTGATACCCCGTGTATCATTAACCGGGAGTAATGATGTCACCACTATACCTAATCCCGCTAATGGACTTTTGGTTTATAATCTGATAGATGCAGGAGGAGCTAATCCCGTTAAAAAAGACAATTTATATAAATTCAACAGCACGGCTGCTAAATGGCAATTAGTACTTGATGAAACCAGCCTGCCTTTAATGGCTCCTGCGGTATTTAGGTTAGATAGTGATATGACCAGTTTTTTAAATGGAGTAGGTGCAGGAGGTAATGTAGTGATTCCAATGACCATGGTTTCTAATAGAATTACTGGACTGAGCTATGATACTGCTACTTCTACTATTACTTTTCCTGCCGGAACTTACAAAATGGAATTTGTTTATGAAGGTTATCATAATGCTACTGGCTGCACTATCAGTTCTTATCTTGTTGACTTTCCGGATGGATCTGGCACTACTACTAATAGAATACATACTACGGCTGCTCATAATGAAGGAGGTACTAGTAATCATGGTGGCGTAATAACTTATACAACAACTGTTCCGGCCGGTAGAACATGGCAAATAAAATTAGGAAGGGGACAATCCGGGAATTGCGGTGGTACAGGAGCTACATTAAGAGGCAAAAGTACACAGTTGTTAATTTTTAGAATGGATTAA	MKTKLLFLIALTAFSVNLFSQVGINTSAPNSSSILDIVSSNKGLLIPRVSLTGSNDVTTIPNPANGLLVYNLIDAGGANPVKKDNLYKFNSTAAKWQLVLDETSLPLMAPAVFRLDSDMTSFLNGVGAGGNVVIPMTMVSNRITGLSYDTATSTITFPAGTYKMEFVYEGYHNATGCTISSYLVDFPDGSGTTTNRIHTTAAHNEGGTSNHGGVITYTTTVPAGRTWQIKLGRGQSGNCGGTGATLRGKSTQLLIFRMD				NA	NA	NA	NA	NA
BMS003_01099	324			hypothetical protein	ATGGATTTACGAGATCAATTAAAGAATCTTTTTCCTGATCATGAAGAGCAGGATTTTGAAATGCCTGAGGAAGAATTCAGGCAGAAAGAGCCTTTGGTATGCAAATTTGAGAAAAAAGGAAGAAACGGTAAGCCTGTAACGATTGTTGAAGGTTGGGAAGGCAGCGAAGAAGACCTTAAAAAAATCTCAAAGAAAATAAAAACCACCCTGGGTATAGGCGGCTCTGAGAAGGATGGAACGATTATCATTCAGGGAGATAACCGTGATAAAATAATGAATATCCTTAAAGAAATGGGCTATAAAACCAAACGTGTTGGCGGATAG	MDLRDQLKNLFPDHEEQDFEMPEEEFRQKEPLVCKFEKKGRNGKPVTIVEGWEGSEEDLKKISKKIKTTLGIGGSEKDGTIIIQGDNRDKIMNILKEMGYKTKRVGG	PGPT0015030_1843	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015030-yciH-K03113	NA	NA
BMS003_01100	924			hypothetical protein	TTGCGGGCAGACCTTCTTATTTTTATGAAAAAGCTTTTCTTACTTATTTCTATCATCTCACTTTCTCAGGTCAAAGCTCAGATTGATCCGGTGAAATATCCTACTTTTACCAATATTGAAGACGCTTTGAACAGTAAAAAAACAGTTTATAGTATGAGCTTCAGAGAGAAAGGACTGTTTAATATTCCTCCTCAGATCACAAAGCTGAACTCTTTGTTCTTTCTGAATATTATGGCTAATAAGCTTGAGAAGATGGATAAAGAAATATTTGCTTTAAAAGAACTGGAAATTTTAAATGTGAATGAGAACAGTATTAAATATATTCCTGATGAGGTAAGCGGGCTGAAGAAGCTGACCACCTTTTCAATGAATCTGAATAGCCTGACAAGCATTAATCCTAAACTTGCAAAGCTTCAGAACCTGAAAGTGGTACATTTTGATGCCAACAGTCTGAATACTTTTCCGGAAGCCCTTATGGAAATTCCGGCACTGGAAGAAATTAATCTTCAGGGAAATCAAATCAGCTTTATTGCTGACAGACTTGACAGGATCAAAAGCCTGAAATTCCTGAATCTTTCTGATAATCAGATCAATGATCTTGGAAATCTGTCTTTTCCTGAAAATTTAAAATATCTTGAACTGCAGCAGAATGCAATTGTCAGACTTCCGGAAAACCTTTTCAAACTAAAAAATCTTGAATTCCTGAATGTAAGCGGAAATAATATAACAGAAATATCGCCCAAAATAAAAGGGCTGAAAAGTATTGTCAGCATGAATCTTGCCAACAATAACCTGAAAGATATTCCTGTAGAAATCAAAAGGCTTAAAAAGCTGAAAACTTTGATTCTTACAGGAAATCCTATAGAAAAATATAAAATTGAAAATTTAAAAACCTTACTGCCGGAAACCCAGATCTATTTCTAG	MRADLLIFMKKLFLLISIISLSQVKAQIDPVKYPTFTNIEDALNSKKTVYSMSFREKGLFNIPPQITKLNSLFFLNIMANKLEKMDKEIFALKELEILNVNENSIKYIPDEVSGLKKLTTFSMNLNSLTSINPKLAKLQNLKVVHFDANSLNTFPEALMEIPALEEINLQGNQISFIADRLDRIKSLKFLNLSDNQINDLGNLSFPENLKYLELQQNAIVRLPENLFKLKNLEFLNVSGNNITEISPKIKGLKSIVSMNLANNNLKDIPVEIKRLKKLKTLILTGNPIEKYKIENLKTLLPETQIYF				NA	NA	NA	NA	NA
BMS003_01101	2151			hypothetical protein	ATGAAGAAAAAACTACTAACAGCAGGAACTTTGGCTATATTGGCCAGTTCTGGTTTTCAGGCGCAGACTCTGATATTCAATAAGAATGCGTCATGGAGCTATAAAGACAACAACCAGGCTCAGCCGACAGGATGGAATGCACAGAACTATGACATTTCTGCATGGCCAGTTGGAAACGGACCTTTAGGATATGGGGATCCTGTAACAACAACAATCAATTCCGGGCTTACTACCGCCTATTTCGCAAAAGATTTTACCGTAGATCTTTCAACACTTTCCGATACTATGGAACTTGGAGTAATGAGAGATGATGGTATCATTGTATACCTTAACGGAGAAGAAGTCGTAAGAGACAATATGCCTGCGGGTGCTGTTACGTTCAATACTTTTTCCAGTACCACTATTGATGGGTCAGCAGAGAGTGTTTATAATATTTTCTCTATTCCGAAATCAAAATTTGTAAACGGTGTCAATAGATTTTCTATTGAATTGCATAACAGAAGTACAACCAGTTCAGATTTAAGAATTGATGCTTATCTGAAAACTACTTCCAATACAACTACACCTGTAACTTGTAACGGAACACACATCAGCTGCTTTACTTCAATTGTTCCTACAGCGCAGACAAATAAATTAATTATCCCTGCCGAACATAAATACCAGCTTATTTTAAAAGAAGGAGACAGCTATACTGAAGGAGGAGGACTGGTAGGAGGTCAGAACGACTTTACAGCCTATGTTGCAAAAACAGGAAGCAGTAACGGATATCTTTCTGTAAACCATGAGACAAACCCCGGAGGAGTTACTATGGCAGAGATCAACTATAATGCTGTTTCAAAGCTTTGGCAGTTGACAAAATCCAGAGCCGTAAGCTTCTCAGATCCAAGTTTGGTACAAACCATCAGAAACTGTTCCGGAGGAATTACGCCATGGGGAACTGTGGTAACTGCAGAAGAATCTGTTACATCTAATGATGTGAACAATGATGGTTATAAAGATTATGGCTGGTTGGTAGAAATTGATCCAGCAACAGCACAGGTAATTTCTAAGAATACTGACGGTTCCAAAGGAAAACTTTGGCAGATGGGAATTATGAATCATGAGAACGTTGTGATTAATAATGCAGGAACTACAGCGTATTACGGTGAAGACGGGGGAACTCATATGGTATACAAATATGTAATGGATACACCAAATGATCTGTCTTCAGGAAACCTTTATGTGTTAAAATTGGATCAGGGGCTTACCACAGCAGGAGATCCGGCAGGAAGTACAGCAACCTGGATACAGGTACCGAATAAAACTAAAGCAGATCAGAATAATACAGCAGCTCTTGCGCAATCATTGGGTGGTACGAAATTCAATGGAGTTGAAGATGTTGATATCAGTCCGTTGGATGGTAAAATCTATTTTACAGCAAAAGGATTAGACAGAGTATATCGTCTGCAGGATAACGGAACTACAGCATCTCAGGTAGAAACATTTGTAGGAGGATCTTCTTCTGTATATTCTTTCAATACAGCTCAGGGAATGAAATCTGAAGCCTGGGGAGACGGAAATGACAACCTTACCTTTGATGAACTTGGAAACCTTTGGGTGCTTCAGGATGGCGGTAAAAACTATATCTGGGTAATTGCTCCTGATCATACTCAGGCCAATCCTAAAGTAAGGCTATTCGCTTCTATGCCGGTAGGTGCAGAGCCTACAGGGCTTACATTTACCCCGGATCATAAATTCGGTTTCTTCTCTATTCAGCACCCGGCTTCTACGATCTCTACTGATGTGGATGCAACAGGGAATACCATTGATTATAGAGGAAAATCTGCAACCATCGTTATTGCACTTAAAAATAACTTAGGTATTGAAGGTTCTTTAGGAACTATTGAAAATAATACTGCAGAAAATACTGTAACAGTAGCACCTAATCCAACTTCAGGAATCGTAAAAATCAATTCACCAAAAGGACTGAAAGATATTTCTGTAACAGCATACAGTATGGATGGGAAAATCGTGTATACAAAGAAATTCAACGGAATAAACAAAATATTGGATCTTGATTTTACACAACAGTTGGAAGCATCTCGTATTTTAGTTTTAAATATTGAAGCAGAAGGAGGTTTCCAGAAAACAGTTAAACTTTTAAAGAAATAA	MKKKLLTAGTLAILASSGFQAQTLIFNKNASWSYKDNNQAQPTGWNAQNYDISAWPVGNGPLGYGDPVTTTINSGLTTAYFAKDFTVDLSTLSDTMELGVMRDDGIIVYLNGEEVVRDNMPAGAVTFNTFSSTTIDGSAESVYNIFSIPKSKFVNGVNRFSIELHNRSTTSSDLRIDAYLKTTSNTTTPVTCNGTHISCFTSIVPTAQTNKLIIPAEHKYQLILKEGDSYTEGGGLVGGQNDFTAYVAKTGSSNGYLSVNHETNPGGVTMAEINYNAVSKLWQLTKSRAVSFSDPSLVQTIRNCSGGITPWGTVVTAEESVTSNDVNNDGYKDYGWLVEIDPATAQVISKNTDGSKGKLWQMGIMNHENVVINNAGTTAYYGEDGGTHMVYKYVMDTPNDLSSGNLYVLKLDQGLTTAGDPAGSTATWIQVPNKTKADQNNTAALAQSLGGTKFNGVEDVDISPLDGKIYFTAKGLDRVYRLQDNGTTASQVETFVGGSSSVYSFNTAQGMKSEAWGDGNDNLTFDELGNLWVLQDGGKNYIWVIAPDHTQANPKVRLFASMPVGAEPTGLTFTPDHKFGFFSIQHPASTISTDVDATGNTIDYRGKSATIVIALKNNLGIEGSLGTIENNTAENTVTVAPNPTSGIVKINSPKGLKDISVTAYSMDGKIVYTKKFNGINKILDLDFTQQLEASRILVLNIEAEGGFQKTVKLLKK	PGPT0022155_634	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
BMS003_01102	354			hypothetical protein	ATGCTTGGTATCAAGCAGGAAGCTTTAGCTTTTGAATTAGGTGACGACTGGAATCAGAAGAAAGTCTCTCTTTTGGAACAAAAAGAAACTGTAGAGTCTGATGTTTTGGCGCAGGTAGCTCAGATTTTGAAGGTTCCGGCAGAAGCGATTGAGAATTTTGATGAAGAATCAGCAATTAATATCATTGCAAATACATTTAATAATCATGATCATTCTTCACCTCAATTTGCTACAATTATTAATAATTCGCCAAGCTTCCATCCTCTCGACAAAATGGTTGAACTTTATGAGCGTATGCTAAAACAACAGCAGGAAATGATTGATAAGCTGGAAAAGTTGATCCAAAACAAATAA	MLGIKQEALAFELGDDWNQKKVSLLEQKETVESDVLAQVAQILKVPAEAIENFDEESAINIIANTFNNHDHSSPQFATIINNSPSFHPLDKMVELYERMLKQQQEMIDKLEKLIQNK				NA	NA	NA	NA	NA
BMS003_01103	1830			hypothetical protein	ATGAGATCTTATCCACTGCTTATAATCGTCCTTCTGACAGGGTTTGCAGTAATGTCCTTTAATCCTGTTTATAAAGGAAAAAAAAACGAAAATACATTTGTCAATAAAGGGTTGTCCGACTTTAAAACCAGGCTTGAGCAGCTGAAATCAGATGTTGATAAGTTCTCAGAAGACCAAATTTCCCTGGCAGAATTACAAAAGTCTCTGAGCAGCACAAGAAATTCATTCAAAGAAATAGAGTTTTATATCGCCTATCATTATCCCGAATTTACCAAAACGCATCTTAATGCAGCTCCTTTATTTCATATTGAAGCGGCTGGTACCTCTTCATACACACTTCCTCCCGAAGGATTGCAGGTGCTGGATGAACTGATATTCTCAGACGAAGCAGAAAATGAGAAAGAAAAGATTAAGACCATTACTACCTTTTTATACAACAGCTATTCCGGGTTTTATTTAAGTGCTGTAAAAAATGGATTGAGCAAAGGAAACAACAAAACATTGCCTTTACGTATAGAGCTGATCAGGATCTATTCGCTTGGAGTTTCAGGCTTTGATACGCCGGGTTCTCTGAATATTTCCGAGGAAACAAGCCATGCTCTTGCGGGAATGCAGAAATACATCAATGATGATCTTTATTTTAAAAATTACAATACTCAAAAGGCAAATCAAATATTAACAGAAGCTATCAGTTATCTTTCCCAAAACACAGATTTTGAAACTTTCGACAGGATTGAATTTTATAAAAAATACATACAGCCTTTGTACGAAGAACTTGGGAATTGGGATGGAAGACCTGATGATCTTAAAGAGTTTTCCGGATGGAATGTGGGTAACAAAAACTTTTTCAGCAGTGATTTTTTAGATCCTTATTTTTATACTTTATTAAAATCTTCAGAAGATAATCCGGAACTCCGCAACCTTGGAAGATCTATTTTTTATGATCAGAATTTAAGTGGTAACGGGAAAATGAGCTGTGCAACTTGCCACCTTCAGGAAAATGCTTTTACAGATCTGAAGGTAAAATCACAAAGCAACGTAGAAGGGAAAACGGTTCTGAGAAATTCTCCGTCTTTATATAATGCCGTTTTTGCCAAGAGATTTTTCTATGATCTGCGTGCTTTCTATCTTGAACAGCAGGCAGAGCACGTCATTTATAACGAACAGGAGTTCAATACAAGCTATGAAAGCATTATTCAGAAACTGAGAGCAAATACAGAATACAAAAAGGCTTTCCGAAATGCCTTTAAAGATGGGAAAATCAGTAAAGAGAATTTTTCAAAAGCATTAAGCTCTTATGTGGCTTCACTATATTCATTTGACAGCGATTTTGACCGTTTTATGAGGAATGAAAAGAATGTTTCTGATGATGTGAAAAAAGGATTCAATCTGTTTATGGGAAAAGCGAATTGTGCAACCTGTCATTTTGCACCACATTTTTCCGGATTGGTGCCTCCATTTTTTAATGAAAATGAATCCGAAGTCTTGGGAATCACCTCAAGACCTATCAGGCAGCTTCCTATAGAGCTTGATCAGGATTTGGGAAGAGGAAAGAGCCCTGTGAAAAAAGAAAAATCTTGGATTTATGATTACTCTTTCAAAACGGTAACAGTGAGAAATATTGCCCTTACCAAGCCTTATTTCCACAACGGAGCTTTCAATACATTAGAAGAAGTACTGGATTTTTATAATGAAGGAGGGGGAGAAGGATTAGGGCTGAAAATGAAAAACCAAACCCTTGCATCAGATAAATTAAATCTTAGCGAAACAGAAATGCGGCAGATCATAGCTTTTCTGAATGCTCTTACGGATGTGAGTAAAGCGAAATAG	MRSYPLLIIVLLTGFAVMSFNPVYKGKKNENTFVNKGLSDFKTRLEQLKSDVDKFSEDQISLAELQKSLSSTRNSFKEIEFYIAYHYPEFTKTHLNAAPLFHIEAAGTSSYTLPPEGLQVLDELIFSDEAENEKEKIKTITTFLYNSYSGFYLSAVKNGLSKGNNKTLPLRIELIRIYSLGVSGFDTPGSLNISEETSHALAGMQKYINDDLYFKNYNTQKANQILTEAISYLSQNTDFETFDRIEFYKKYIQPLYEELGNWDGRPDDLKEFSGWNVGNKNFFSSDFLDPYFYTLLKSSEDNPELRNLGRSIFYDQNLSGNGKMSCATCHLQENAFTDLKVKSQSNVEGKTVLRNSPSLYNAVFAKRFFYDLRAFYLEQQAEHVIYNEQEFNTSYESIIQKLRANTEYKKAFRNAFKDGKISKENFSKALSSYVASLYSFDSDFDRFMRNEKNVSDDVKKGFNLFMGKANCATCHFAPHFSGLVPPFFNENESEVLGITSRPIRQLPIELDQDLGRGKSPVKKEKSWIYDYSFKTVTVRNIALTKPYFHNGAFNTLEEVLDFYNEGGGEGLGLKMKNQTLASDKLNLSETEMRQIIAFLNALTDVSKAK				NA	NA	NA	NA	NA
BMS003_01104	486			hypothetical protein	ATGAAAACAAAACTGTGGTTTGCTGTTGCAGCAAGTTTTCTTTCTATGTCGGTATTTTCGCAGAAAAAGAAACAACCGGAAAAACCATCCGGAAAGCAACAGGAAATGGCTGTATATGCCGAGAAAAGAGGCTCTGATTATTATCTGGTCCGTCTGGAAAAAGATAAAAACATACCGAATGTGTATGTGTATTCCAATGGGGTTACCAAACGTTATAAAGACTATACAGATCTGAAAGACATTGTTATGGAATTCCCGGGAATGATGGCTTCCAACAATTCAACAAAGGAAGAGCTGATTTCTATTCTTAAAAAAGATGATCATTTCTATGAAATCACTTCACAGAGGAAAGATCCTAAAAACATTGAAAAAACTGTTGTTACCGTCTATGAGGTAATGAACGGTCAGAAAAGGATTGTGGAAGAATACAATGACATCTATGAGGTTATGGCATCTCCTTATAAAGAAGCCATTATGATTAATTAA	MKTKLWFAVAASFLSMSVFSQKKKQPEKPSGKQQEMAVYAEKRGSDYYLVRLEKDKNIPNVYVYSNGVTKRYKDYTDLKDIVMEFPGMMASNNSTKEELISILKKDDHFYEITSQRKDPKNIEKTVVTVYEVMNGQKRIVEEYNDIYEVMASPYKEAIMIN				NA	NA	NA	NA	NA
BMS003_01105	855	udp	COG2820	Uridine phosphorylase	ATGCTAAACAAACTTGCTGCCTCAGAACTTGTTCTGAATGATGACGGAAGTGTATACCACCTGAACCTTCTCCCTGAAGATATTGCTGACAAAATCATCCTTGTAGGTGATCCAGACAGAGTAGCTAAAGTTTCAAAATACTTTGATACTGTAGAGATCAAAAAAAATAAAAGAGAATTCTATACCCATACAGGAACACTTCGTGGAGAAAGAATCACCGTAATGTCTACCGGTATCGGAACTGAAAACATCGATATCGTTATGAACGAACTGGATGCTTTGGTAAACATTGATCTTCAGAACAAAGAATTCAAGACAGAACACAAAGCGCTTGAACTATTCCGTATGGGAACTTGTGGAAGCGTAAATCCGGATGTACAGGTAGACAATATGCTGGTTACCCAGAACGTAGTAGGTCTGGACGGGCTGATGCACTTTTATCAGGATTATAATTTCGAAAACGAGTTTTCGAAAAGCTTTTTGGAAAAATTCCCTTATGAAAGAATCAAGCCGATGCTTTATTTTTCAGACTGGGCAGCAGAAATGGGCGAATATTACAAAGATGCCAAATATCACGGAAATACAGCAACATTCCCGGGATTTTATGCTCCCCAGGGAAGACAGCTTCGTTTAAAAGCAGTAGATGATAAATTCTTAGAGACCTTGAATGATCTTGGAATTACCAATTTTGAAATGGAGACCTCTGCCATCTATGCCCTTTCAAAATTATTGGGACACAAAGCGATTACTGTAAATAACGTTATTGCCAACAGAAGACGTGGGGAATTCTCCGTAGATCACCATGCTTCTGAGAAAAACCTTATTGAATGGGTGTTGGAAAGAATTATTAAGTAA	MLNKLAASELVLNDDGSVYHLNLLPEDIADKIILVGDPDRVAKVSKYFDTVEIKKNKREFYTHTGTLRGERITVMSTGIGTENIDIVMNELDALVNIDLQNKEFKTEHKALELFRMGTCGSVNPDVQVDNMLVTQNVVGLDGLMHFYQDYNFENEFSKSFLEKFPYERIKPMLYFSDWAAEMGEYYKDAKYHGNTATFPGFYAPQGRQLRLKAVDDKFLETLNDLGITNFEMETSAIYALSKLLGHKAITVNNVIANRRRGEFSVDHHASEKNLIEWVLERIIK	PGPT0021235_797	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021235-udp-K00757	NA	NA
BMS003_01106	762	yeeZ	COG0451	Protein YeeZ	ATGAAGAAAATAGCAATTATAGGCTGTGGCTGGCTGGGAGAGAGAATAGCTTCTTCCTTCTCCGGAAAATATACTATATCTGCCACAACGACAACAGAAAGCAAAGTAAATCAGCTTAATAATAAAGGAGTCAATGCTATAATGGCTTTATTCCCGGACTATCGGCTGACAGAGCCCTATTCTCAGTGGCCTGAGATTAAAAATATGGATGTTTTAATGATTACGGTTCCTGTTTCTGAAAAAAGTTGTTGTGTAAGTTCTTTGTATAATAGAATTCAGAATTTATCAGCCTTTATAGGTGATTTTAAGGGGCAGATGTTTCTCATGAGTTCTACAGGGGTTTATCCTGATCTTCCCGGAGAGTTTACAGAAGAAGATATGCCTTTGGAAAAAGTATCCGGTGAAAGAATGCTGAAAAATAAATATCCGCAGCTTAATATTCTAAGGCTTGGCGGGCTGATGGGTGACAACAGGCTTCTGAAAAACTATAATGTGGGCAATCTGGATCATGCTGTAAATCATATACATTATACTGATATAGGTGCTATCATCTCAGAAATGATTGAAAAGGGTACAGAAGCAAAATTATATAATGTAACAGCGCCTGTTCATCCGGCAAAAAGCCAGGTGATCAATGCACAGAAAAATATAGTGGATAACGAAGAGTTTGGGGTGAAAGGAAAGAAAGTCTTGTCTTCAAAGTTGGTGTCAGAGCTGGAATATGTATTTCAGTATCCGGATCCGAGATCATTTCATTTGTAA	MKKIAIIGCGWLGERIASSFSGKYTISATTTTESKVNQLNNKGVNAIMALFPDYRLTEPYSQWPEIKNMDVLMITVPVSEKSCCVSSLYNRIQNLSAFIGDFKGQMFLMSSTGVYPDLPGEFTEEDMPLEKVSGERMLKNKYPQLNILRLGGLMGDNRLLKNYNVGNLDHAVNHIHYTDIGAIISEMIEKGTEAKLYNVTAPVHPAKSQVINAQKNIVDNEEFGVKGKKVLSSKLVSELEYVFQYPDPRSFHL				NA	NA	NA	NA	NA
BMS003_01107	420			hypothetical protein	ATGACCCCTTTATCAGAACATTTATGCTTTAAGACATATGCCGTTTCCAGGTATATCACGGGTTTATATAAACCATATCTGGATGAAGTTTCACTGACATATCCCCAATATCTTGTAATGACTGTTTTATGGGAACATGGAGAAATGAATATCGGAAAGATTGGTGAACATCTTCATCTGGACAACGGAACACTTACCCCACTATTGAAACGTATGGAAAAAAACGGACTGATCATTAGAACCCGAAGCTCAGAAGATGAAAGAATCGTACTGATTCATCTTACGGAAAATGGAGTAAGCCTTCAGGAAAAAGCAAGACACATTCCCCAGGCTGTTCAGAACTGTATGCATCTGAGCGATGAGGTAAAGACTCTTCTGATGGCTTCTTTAGATGAAATATTATCAATTCAACCCGTATAA	MTPLSEHLCFKTYAVSRYITGLYKPYLDEVSLTYPQYLVMTVLWEHGEMNIGKIGEHLHLDNGTLTPLLKRMEKNGLIIRTRSSEDERIVLIHLTENGVSLQEKARHIPQAVQNCMHLSDEVKTLLMASLDEILSIQPV	PGPT0013155_4829	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS003_01108	561	tag	COG2818	DNA-3-methyladenine glycosylase 1	ATGGAAAAAATACGTTGCGGATGGTGCGAAAAAGATGATCTCTACAGAAAATATCATGATGAAGAGTGGGGAAAACCAGTCTATGATGATAAAATATTATTTGAGTTTCTGATTCTTGAGAGCTTTCAGGCTGGGCTGAGCTGGTATACTATTCTGTCTAAAAGAGAAAACTTCCGAAAAGCTTTTGATCATTTTGATTATGAAAAAATGGCATCCTATTCAGACAAAAAAATTGAAGAGCTTATGAACAATCCCGGAATTATAAGAAACAGACTCAAAATCCTGGCAGCCGTCACCAATGCCCGGAAATTTATGGAAGTTCAGAGAGAGTTCGGTAGTTTTTCTGAATATATCTGGGGCTTTACGGGTGGTATCCCAATTGATAACTGCCCGGAAACATTATCTGCTGTTCCTGCCACTACTGAAATTTCTGATCTTATTTCTAAAGAACTTAAGAAAAAAGGATTCAAATTCGTAGGTTCTACGGTGATTTATGCACATATGCAGGCAACCGGAATGATGAATGACCACTTAAAAGATTGTTTCACCAGAGATGAATAA	MEKIRCGWCEKDDLYRKYHDEEWGKPVYDDKILFEFLILESFQAGLSWYTILSKRENFRKAFDHFDYEKMASYSDKKIEELMNNPGIIRNRLKILAAVTNARKFMEVQREFGSFSEYIWGFTGGIPIDNCPETLSAVPATTEISDLISKELKKKGFKFVGSTVIYAHMQATGMMNDHLKDCFTRDE				NA	NA	NA	NA	NA
BMS003_01109	300			hypothetical protein	ATGAACAATTCAGAGTACAATAAAGCTGAAAATGCAGTAAACAATGTAGAAAACTCTTTACAGAATGCAGCGGACAAAGCCAAATGGAAAATCAATGAATTGGCAGACAGGGCAAAAGATTATATCAACGAGAAGAGGGGAAATGATCAGGAAGCCAGCCAGGAAGACTGGCTAGACAGGGTAAAAGCTAATGTATCCGATGCATGGGAAGATATTAAAGATAAAGCAGATGAAGCATGGGAAAAAACCAAAGATACAGCAGAGGATGTAAAGGCAGAATGGAATAAGAAAACCAATTAG	MNNSEYNKAENAVNNVENSLQNAADKAKWKINELADRAKDYINEKRGNDQEASQEDWLDRVKANVSDAWEDIKDKADEAWEKTKDTAEDVKAEWNKKTN				NA	NA	NA	NA	NA
BMS003_01110	810	fabI	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGTCATACGGTTTACTTAAAGGCAAAAAGGGAATTATTTTTGGAGCCCTTAATGAACAATCTATCGCATGGAAAGTTGCTGAAAGATGCCATGAAGAAGGTGCTGAATTTATCTTATCCAACGCTCCTATTGCTTTGAGAATGGGAGAACTTAATGGTTTAGCAGAAAAAACAGGTTCTGAAGTAATAGGGGCTGATGCTACTTCTATAGAAGATCTTGAAAAACTTTTTGATGCCGCTGTTGCAAAATTTGGAAAAATCGACTTTATCCTTCACTCTATCGGAATGTCTATCAACGTGAGAAAAGGAAAACATTATACAGAAATGAATTACGACTGGTTGGAAAAAGGCTGGGATATTTCCGCTGTTTCTTTCCATAAAGTAATGCGTGTAGCCTGGGAAAAAGACTGTATGAATGAATGGGGAAGCATTTTAGCTCTTACTTATATTGCTGCTCAGAGAACATTCCCGGATTACAATGATATGTCTGATAATAAAGCGTATCTGGAAAGCATCGCAAGAACTTTCGGAAACTATTGGGGTGAAAGAAAAGTACGTGTAAATACAGTTTCCCAGTCTCCTACAATGACCACTGCAGGTAGCGGTGTGAAAGGTTTCGGAGGATTCCTTGGATATGCTGAAGATATGTCTCCACTAGGAAATGCTACAGCCCTTGAATGTGCAGACTATTGCGTAACTTTATTCTCTGATCTTACTAAAAAAGTAACCATGCAGAATCTTTTCCACGATGGAGGTTTCAGCAGCTCAGGAGTTACTCAGAGAGTAATCAGTAAATATGATGCTGAATAG	MSYGLLKGKKGIIFGALNEQSIAWKVAERCHEEGAEFILSNAPIALRMGELNGLAEKTGSEVIGADATSIEDLEKLFDAAVAKFGKIDFILHSIGMSINVRKGKHYTEMNYDWLEKGWDISAVSFHKVMRVAWEKDCMNEWGSILALTYIAAQRTFPDYNDMSDNKAYLESIARTFGNYWGERKVRVNTVSQSPTMTTAGSGVKGFGGFLGYAEDMSPLGNATALECADYCVTLFSDLTKKVTMQNLFHDGGFSSSGVTQRVISKYDAE	PGPT0008370_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
BMS003_01111	1014			(-)-gamma-cadinene synthase ((2Z,6E)-farnesyl diphosphate cyclizing)	ATGAAAACATTAATGACTAATGAAGAATTTTATGCCGGTCTTCGGCAGCTTCCCAAACCCCGATACCCTTTTCAGGATTTTGTACATCCTGACATGCAGAAACAGAGAGAAGAATATTACTGTTGGATTGATACAGAGTATGCTTTTCATAGTAAAGAAGCCCGCGAAAAACACAAAAGCCATCACCTGACTGATATTGCTGCCAGAGGATGCCCTTTTCTTAAATCAATTGCGGAGTTGAGGCCATTGGCAAATTATACTGCCAATGGGGCGATGATGGATGATTATTTTGACCGCTGCTCGTATGAAGAAATGTATGCAATAACCGAACGTATTATTGAATTATTGGATGGAAGTAATGCCAATGAACCTGTTGAAAAAGGAATTTTTCATTTGTTTTGGGTGCTGAGACAAGATGCTGCCACTGGCCAGATTCCTGAGTTCATTTACAGAAGATTTGTAAAATCAGTACGGGATGTATTTATAGGCTATTCTGAGGAGAAAATATATTATAGAGCAAATAAAACTCCCCCGTTGCCTGTTTATCTCCTGATTCGGGAAGCAACAAGCGGGGTTCAGCCTTATTGTGATTATGTTGCTGTACAAAAAAATTACCGTAAGCTTCCGGATTATATTTTCCATCATTCACATATTAAGCGGATCTGTACACTTTGTTCTTTAATGATAGGTATTCATAATGATATCATATCTCTGCCCAAAGAACTTCATAGGGAAGGTGATACTATGAATATTGTAAAAGTGCTGCAACAGGAAAATAAAATATCATTGTATGAAGCCTATATGAAAACTCTGGAAATTCACGATCAATATTTAAACGAATTTTTAGTGTTACAAGAGCACCTTCCTCCATTTGGAGAATGGCAGAGCGAAGTCTATAATTATATTCAGGATCTGGGTACTATGATAGCCGGAGTATATGCATGGCATACCCAAGATACTTCCAGATATGTAAATGGCGGCTATGTTGAAGGAGAATACTCTAATCCGAAATAG	MKTLMTNEEFYAGLRQLPKPRYPFQDFVHPDMQKQREEYYCWIDTEYAFHSKEAREKHKSHHLTDIAARGCPFLKSIAELRPLANYTANGAMMDDYFDRCSYEEMYAITERIIELLDGSNANEPVEKGIFHLFWVLRQDAATGQIPEFIYRRFVKSVRDVFIGYSEEKIYYRANKTPPLPVYLLIREATSGVQPYCDYVAVQKNYRKLPDYIFHHSHIKRICTLCSLMIGIHNDIISLPKELHREGDTMNIVKVLQQENKISLYEAYMKTLEIHDQYLNEFLVLQEHLPPFGEWQSEVYNYIQDLGTMIAGVYAWHTQDTSRYVNGGYVEGEYSNPK				NA	NA	NA	NA	NA
BMS003_01112	1869			hypothetical protein	ATGGAAAAAAAAATTAAATCCTGTTCCGCAATAGTATTTATTGCCGTTTCCTCGTTCTTTACTGCCTCTAAAGCTCAGACCTGCCCAAGCTGGGGTCCCTATCTTGAAGGTTTTGATATGGCTAACTCCGGTGAGCTCTGGTATTCTGAAGTAATGGCAGATAATACTTGCAAAAAGGTAAACACCTACTACTCTACCCTGAATTTTTCTTTGGGTCCGCGGGGCGGATATGCTGGAATTCAGTACAAACAGAATGAAATCTACAACAACATTTTTTCAATGTGGGATCTGCAGGATACCAATGTACCGCAATGTACTACAGAATATACTGCACCCAATACTTTTGTGGATGGTTTCGGAGGAGAAGGAACGGGTCTTCACACGGATAATCCTATGCCATGGACTCCCGGAGTCTGGTATGCCACTGTTGTAAGAAGATGGTCTACCGGTGACGGAAAAACCAGAATCGGATTCTTTATGTTTGACTATGGTACCGGGAAGTGGAAACATTACGTCACGATTGTAACTCCTGAAAATGATGCTAAATTTACAGGAACCAAGTTGGGGGGCTTTGTAGAAAACTGGAACTCAGCTGCCAGCAAGGATACCCGTTGCGGATATTTCAGAAATTTCTGGAGTATGAATGCACAGGGAAACTGGTCTAAACCTTCACGATATACTGCTTCGGCGGGAACAGGATCCTGGGGAGCGGAAACAGCTTTCAACAATACCGCCATTAAGGTAACTTCATGTGGAACGGCTCCGGCACCTGCTGGCAGCTCGGTAACATTTAACGGAATTACTCAGGAGGGTACAAAACCTGCCACTACTACTCCTATTACTGTAACAACCGTTACTCCATCTTATAATACTTCTAATAATTCAGTGAATGTAAACTGGGTTAACTCAGAAACTACGAGTCCGCAGTTTTCCTATAAAGTTGCGTTATATACTGAAGCCAGTTGGGCAAACTCTTACACTCCGGTAGCCGTGGTGACGGGTATTCGCCCTGATCAGAGAGGTGCTCAGGTACCACTTCCAGCTAATTCCCAGCCTGGGAAGTATTATGTGAGTGTAGTTTTGGAAGATATTTTTAAACAAACTTCTAATTTCGGATACAATAATTTAACGATCAACAGTATTGTAACTGCACCTACTATTGATCCGAATGCTTATTACCGGATAAAATGTGTGGGAAGCAGTCAATACATCAGCCCTGCCAATTACAGTACTGCATCTAATACTAAAATGGTTCAATATCCTTTTAACAGCAACCTTGCCCAACAATGGAAACTGGAAAAAACCGGAAATAATTATATCATTATCAACCGTTCTTCAGGCTTAGCCATTGATGTTCCTGGATCCAATACAACTAATGGTACTACATTGATACAGTATTCAAAACATGGTGGTAATAATCAGCAATGGGTATTAAGACCTTATACCTCAGGCAGCTTTGTTATAGGAACTGCATTATCCAATATGAAAGCCATGGATAATCCTGGCAATTCACAAACTTCAGGTACCAATATCAATATCTGGGATCAGGATATGAACGGCCCTGCCGGGGTAAACCATCAGTGGATTCTTGAACAGGTAACAACATCAACGATGTCTGCAAAACAGGAAATAACTTCTACGGCTTATCCCAATCCTGTGAAACAAGGTGAAAATCTTACCATCAGTCTTCCTGAAAACGGGAATAACTATGAATTGACGATCATCAATGCAGAAGGATTAACATTAAAATCCCAACAGGCGAAGGCAGGTAAAACAATCATCTCTACTTCAGGTATGAGAACAGGAATCTATTTCTATAATGCTAAAAATAGCAACGGAACTGTTTCCGGGAAGTTTTCGGTACAGTAA	MEKKIKSCSAIVFIAVSSFFTASKAQTCPSWGPYLEGFDMANSGELWYSEVMADNTCKKVNTYYSTLNFSLGPRGGYAGIQYKQNEIYNNIFSMWDLQDTNVPQCTTEYTAPNTFVDGFGGEGTGLHTDNPMPWTPGVWYATVVRRWSTGDGKTRIGFFMFDYGTGKWKHYVTIVTPENDAKFTGTKLGGFVENWNSAASKDTRCGYFRNFWSMNAQGNWSKPSRYTASAGTGSWGAETAFNNTAIKVTSCGTAPAPAGSSVTFNGITQEGTKPATTTPITVTTVTPSYNTSNNSVNVNWVNSETTSPQFSYKVALYTEASWANSYTPVAVVTGIRPDQRGAQVPLPANSQPGKYYVSVVLEDIFKQTSNFGYNNLTINSIVTAPTIDPNAYYRIKCVGSSQYISPANYSTASNTKMVQYPFNSNLAQQWKLEKTGNNYIIINRSSGLAIDVPGSNTTNGTTLIQYSKHGGNNQQWVLRPYTSGSFVIGTALSNMKAMDNPGNSQTSGTNINIWDQDMNGPAGVNHQWILEQVTTSTMSAKQEITSTAYPNPVKQGENLTISLPENGNNYELTIINAEGLTLKSQQAKAGKTIISTSGMRTGIYFYNAKNSNGTVSGKFSVQ				NA	NA	NA	NA	NA
BMS003_01113	1479			hypothetical protein	ATGAAAATGGGGACTAAAGGTCCGAAAACAGAAAAAATCATGAGAAAACTAATTGTAAGTTGTTTTGTAGTAGGCGTTGTCATAAATGTCAATGCTCAGAATTATTGGAAAAAAAATGCAGGAAAAACAGCTAAAGTAGTCCTTACCAACTCGAAAGCGAATGAGAAGATGGTAGATAAAGGAACAGTTACATTTGTGCAGTTCGGACAGCCTAAAGAAACAGATGCCTGTATTTTTGTTGCTCCCGATTTTAAATATCAAAAGTTAATAGGCATCGGAGGTGCTATTACAGATGCCTCCGCAGAGACTTTTTATAAAATGCCAAAAAATAAACAGAAAGAAATACTGGATGCTTATTTCGGGAAAAACGGATTGGGATATACTGTAGTTCGTACTAATATGAATTCCTGTGACTTTTCCAGTGATTCATATACTTATGTAGAAGATAATGATACTTCTTTAAAGACCTTCAATATTGCTCATGATGAGAGATATAAGATCCCGATGATTAAAGAAGCTCAGAAAGCTATTGACCATAATTTTACATTTTATTTCTCTCCGTGGAGCCCGCCGGCATGGATGAAATCAAACCAGAGTTTATACAAAGGAGGAAGATTGGAAAACCAGTATTACCAGACCTGGGCAGAGTATTACATCAAATTTATCAAAGAATATGAAAAAAGAGGAATTAATGTCTGGGGACTGACAGTACAGAATGAGCCAATGGCTACCCAAAGCTGGGAATCATGCATCTACACTGCTGAAGAAGAAGGAGAATTCCTGAAAAAGAATCTTGGCCCAACCCTCTGGAAAAACGGATATAAAGATAAAAAAGTAATGATCTGGGATCACAACAGAGATCTTATCTATCAGAGAGCAACCACCACTTTAAGCGATCCTGAAACAGCAAAATATGCCAGCGGTATCGGATATCACTGGTATGAAACATGGAATAACAAAACCCAGCTTTTTGACAATTTAGCAGAAACTCACAGAGCTTTTCCGGATAAATTCCTGGCTTTCACAGAAGGATGTAAAGAACAGTTTAATATGGAAAAGATATATGATGTAAGCCTGGGCGAGCTGTACAGCAAAAACATGCTGAACGACTTCAACAAAGGAAATGCGCTATGGACAGACTGGAATATTCTTCTGGATGAAACCGGAGGACCCAATCATAAAGGAAACTTCTGTTTTGCCCCAATTATTGCAGACACCAAAACCGGAGAAGTATTCTATACCTATGAATACTATTATATAGGTCACGTTTCAAAATATATCAAACCGAATGCCCAGAGAATCGGGAGCTCTTCCAACAGAGCTGCTCTTACATCTTCCGCATTTATGAACGAAAACGGACAGCTGGTAACCGTTATTATGAACGATTCAGATAATGATATCGAAACCAATCTGTGGATTGAAGGGATGGCTGCCAAACTGAATGCTCCGGCACACTCAATACAGACCGTAATTTTATAA	MKMGTKGPKTEKIMRKLIVSCFVVGVVINVNAQNYWKKNAGKTAKVVLTNSKANEKMVDKGTVTFVQFGQPKETDACIFVAPDFKYQKLIGIGGAITDASAETFYKMPKNKQKEILDAYFGKNGLGYTVVRTNMNSCDFSSDSYTYVEDNDTSLKTFNIAHDERYKIPMIKEAQKAIDHNFTFYFSPWSPPAWMKSNQSLYKGGRLENQYYQTWAEYYIKFIKEYEKRGINVWGLTVQNEPMATQSWESCIYTAEEEGEFLKKNLGPTLWKNGYKDKKVMIWDHNRDLIYQRATTTLSDPETAKYASGIGYHWYETWNNKTQLFDNLAETHRAFPDKFLAFTEGCKEQFNMEKIYDVSLGELYSKNMLNDFNKGNALWTDWNILLDETGGPNHKGNFCFAPIIADTKTGEVFYTYEYYYIGHVSKYIKPNAQRIGSSSNRAALTSSAFMNENGQLVTVIMNDSDNDIETNLWIEGMAAKLNAPAHSIQTVIL	PGPT0018770_883	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201	NA	NA
BMS003_01114	807	bglA		Beta-glucanase	ATGAATCTTAAAGCTAAAAATATCATCAAAATTTGTGCAGCAGGAGCTTTCTTCCTTTCTGTATTCAATTGTGCTTCAAATAAACCAGATACTGGCAGAAAACTGATTTGGAGTGATGAGTTTAATGGGAAAGGATTTCCGGATTCATTAAAATGGAATTATGATACCGGCGGAAGTGGTTTTGGAAATGAGGAAGCCCAGTTTTATACCAAAAACAGGCTCGAGAATGCCAGAATGGAAAAAGGAAATCTCATCATTGAAGCCAGAAAAGAAAATTGGGATAAGAACAAGTACACTTCTGCAAGGCTTTTAACCAAAGGGAAATTTGCTTTTCAGTATGGAACAGTTGAAGTAAGAGCAAAGCTTCCCAAAGGTAAGGGTACATGGCCAGCCATCTGGATGATGAGCGAAAATATGAAGAAATGGCCGGATGACGGTGAACTGGATATTATGGAGCATGTGGGGTATAATCAGGGCTATATTCATGCTTCTGTTCATACTAAAAAATACAATCATATTCAGGGAACACAGAAAACAGATACTCTTTTTGTAAAGGATGCAAGTGAAAAATTCCATGTTTATAAAGCAGACTGGACACCTGAGAAGATAGATGTTTATATAGATAATCAGAAGTTTTTTACTTACGAGAATAAAGAGAAAAATAATGAAGCATGGCCTTTTAACAGACCTTACTTTATTATTTTAAATCTTGCAGTAGGTGGGTTTTGGGGTGGAAAAGAAGGCATTGATGATGTTTTTCCGCAGAAGTATTACATAGATTACGTAAGAGTCTATCAGAATAAATAA	MNLKAKNIIKICAAGAFFLSVFNCASNKPDTGRKLIWSDEFNGKGFPDSLKWNYDTGGSGFGNEEAQFYTKNRLENARMEKGNLIIEARKENWDKNKYTSARLLTKGKFAFQYGTVEVRAKLPKGKGTWPAIWMMSENMKKWPDDGELDIMEHVGYNQGYIHASVHTKKYNHIQGTQKTDTLFVKDASEKFHVYKADWTPEKIDVYIDNQKFFTYENKEKNNEAWPFNRPYFIILNLAVGGFWGGKEGIDDVFPQKYYIDYVRVYQNK				NA	NA	NA	NA	NA
BMS003_01115	2223			Beta-xylosidase	ATGAAAAGAGTTTATTTATTACTGGCATTTTCCGCATTTGGACTGAATGTTTACGGACAAAAGACAATTGATCAGAAAGTAGCGGAACTGCTGTCTAAAATGACCCTGGAAGAAAAAGTGGGACAAATGGTTCAGTATAGCGGCTTTGAATATGCCACAGGACCACAACATTCCAATTCGGCTGCAGTTCTGGAAGAAATTAGAAAAGGAAAAGTAGGCTCTATGCTGAACGTAGCAGGATCAGAAGAAACAAGGGCTTTTCAGAAGCTCGCAATGCAGTCGAGGCTGAAAATTCCTTTATTGTTCGGGCAGGACGTTATTCATGGATACCGTACCACTTTTCCCGTAAATCTTGGACAGGCAGCAAGCTGGGATCTTGAACTGATAGAAAAATCAGAAAGGATTGCAGCAACGGAAGCAGCGGCGTATGGGATTCACTGGACATTTGCCCCAATGGTGGATATTGCCAGAGATCCGAGATGGGGAAGAGTAATGGAAGGTTCCGGAGAAGATACATACCTGGGAACAAAAATCGGATTGGCAAGAATTAAAGGATTTCAGGGCAGAGGATTAGGAAGTCTGGACGCTGTGATGGCCTGTGCAAAACACTTTGCAGCATATGGAGCTGCTGTAGGAGGAAGAGATTATAATTCTGTAGATATGAGTCTCAGACAACTTAACGAAACGTATCTTCCACCATTCAAAGCAGCTGCAGAAGCTGGTGTAGCTACTTTTATGAATTCTTTCAACGATATTAACGGCGTTCCGGCTACAGCCAATAAATATATTCAGAGAGACCTTTTAAAAGGAAAATGGAATTATAAAGGCTTTGTTGTTTCTGATTGGGGAAGCATTGGAGAAATGGTACCTCACGGCTATGCCAAGGATGGTGCTGAAGCGGCAGAAAGAGCCATACAGGGAGGAAGCGATATGGATATGGAAAGCCGTGTTTATATGGCAGAACTTCCAAAACTGGTTAAAGAAGGAAAAGTAGACCCTAAGCTGATAGATGATGCAACGGGAAGAATTTTAACCAAGAAATTCGAAATGGGACTTTTCGATGATCCTTACAGGTTTAGTAATGAGAAAAGACAGAAAGAACAGACCGATAATCGGGAAAACAGAAAATTCGGAAGAGAATTTGGTTCAAAAAGTATCGTTCTTCTTAAAAATCAGGGAAATATTCTTCCGCTGTCAAAAACGGTAAAAACGATTGCTCTGATTGGACCTTTCGGTAAAGAAACGGTGGCTAATCATGGTTTCTGGTCTATTGCTTTCAAAGATGACAATCAAAGAATTGTTTCACAGTTTGACGGAATTCAAAATCAACTGGATCAAAATTCCACTTTATTATATGCAAAAGGCTGTAATGTTGATGACCAGGACAAAAGTCAGTTTGCGGAAGCTATAGAAACGGCAAAAAAAGCTGATGTTGTTATCATGACACTGGGAGAAGGCCATGCGATGAGCGGAGAAGCAAAAAGCAGAAGTAATATCGGGTTTACTGGAGTTCAGGAAGATTTATTGGAAGAAATTGCCAAGACTGGAAAACCCATCATCCTGATGATCAATGCAGGAAGACCTTTGATTTTCAACTGGGCTGCAGACAATATCCCTGCAATCATGTATACATGGTGGCTGGGAACAGAAGCCGGAAATTCTATTGCAGACGTTCTTTTTGGTACTGTAAATCCTGGTGGAAAACTTCCAATGAGCTTTCCAAGAACAGAAGGCCAGATTCCAGTGTATTACAATCATTATAATACCGGAAGACCTGCAAAAAATAATACAGACAGAAATTATGTCTCAGCCTATATAGATCTTGATAATGATCCGAAATATCCGTTTGGATATGGCCTAAGCTATACAGATTTTACATATTCTGATATGGCTTTAAGCTCCACAAACCTTACAGGAAATCAAACTCTGAATATCAGCGTTACCGTTTCTAATATCGGGAAATACGATGGAGAAGAAGTGGTACAGCTTTATATCCGAGATCTTTTCGGAAAAGTAGTAAGACCCGTAAAAGAGCTGAAAGGTTTCCAGAAAATATTCATCAAAAAAGGAGAAAGTAAAAAGATCGATTTTAAGCTTACTCCGGAAGACCTGAAGTTCTTTGATGACGAGTTAAATTTTGACTGGGAAGGCGGGGAATTCGACATTATGATCGGAACCAACTCTCAAAATGTTCAGACAAAAAGAATCAACTGGACAAAATAA	MKRVYLLLAFSAFGLNVYGQKTIDQKVAELLSKMTLEEKVGQMVQYSGFEYATGPQHSNSAAVLEEIRKGKVGSMLNVAGSEETRAFQKLAMQSRLKIPLLFGQDVIHGYRTTFPVNLGQAASWDLELIEKSERIAATEAAAYGIHWTFAPMVDIARDPRWGRVMEGSGEDTYLGTKIGLARIKGFQGRGLGSLDAVMACAKHFAAYGAAVGGRDYNSVDMSLRQLNETYLPPFKAAAEAGVATFMNSFNDINGVPATANKYIQRDLLKGKWNYKGFVVSDWGSIGEMVPHGYAKDGAEAAERAIQGGSDMDMESRVYMAELPKLVKEGKVDPKLIDDATGRILTKKFEMGLFDDPYRFSNEKRQKEQTDNRENRKFGREFGSKSIVLLKNQGNILPLSKTVKTIALIGPFGKETVANHGFWSIAFKDDNQRIVSQFDGIQNQLDQNSTLLYAKGCNVDDQDKSQFAEAIETAKKADVVIMTLGEGHAMSGEAKSRSNIGFTGVQEDLLEEIAKTGKPIILMINAGRPLIFNWAADNIPAIMYTWWLGTEAGNSIADVLFGTVNPGGKLPMSFPRTEGQIPVYYNHYNTGRPAKNNTDRNYVSAYIDLDNDPKYPFGYGLSYTDFTYSDMALSSTNLTGNQTLNISVTVSNIGKYDGEEVVQLYIRDLFGKVVRPVKELKGFQKIFIKKGESKKIDFKLTPEDLKFFDDELNFDWEGGEFDIMIGTNSQNVQTKRINWTK	PGPT0019110_4982	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS003_01116	1425			hypothetical protein	ATGAAGTTTCACAACTTATATAGTTTCTTTAGAGGTGCCGCACTGCTTAGTGGTGTGGCCCTTTTTCCTTTATCATGTACATCATTGGTATCCAGTAAAGGAAATGAAGTACAGTACTGGCTTACAAAAGGTGATGAAAGTGTAAAATTACAGAAACAGACTCCGGTTAAATTTGTAAATAATACCAATAGCTTTCAGAATATTGAAATTGATGATGCTCAGAAGTTTCAATATGTTGATGGTTTTGGATATACATTAACAGGAGGAAGTGTTGAGGTAATCAACAGATTGTCACCTTCCAAAAGAAGAGCATTGCTTAACGAACTTTTCGGAAATGATAAAAACTCAATCTCCATCAGCTATTTAAGATTAAGCATAGGAGCTTCCGATCTTGATAGCGAAGTATTTTCATATGATGATTTGCCTGAAGGGCAGACAGATACTTCTCTTTCGAAATTCAGCCTGGCAAAAGATAAAGCGTTGATTGCTATGCTGAAAGAAATTTTAGCAATTAATCCTTCCATTAAAATCATTGCTGCACCGTGGTCAGCTCCGGTTTGGATGAAAGACAACGGAAAATCAAAAGGAGGAAGCTTAAAACCTGAATTTTATGGAACGTATGCTCAGTATTTTGTAAAATACATCCAGGGAATGAAAAAAGAAGGTATTGCCATTGATGCAGTAACTCCACAGAATGAACCACTTCATCCGGGAAATAACCCTAGTTTGTATATGCCATCTGAGCAACAGGGAGAGTTTATTAAAAACCATCTTGGTCCGGTTTTTAAAGCCAACGGAATTACTACCAAAATTGTAGTGTATGATCATAACTGCAGCAAGCCGGAATATGCTATTAATATTTTAAAAGATCCTGAAGCTAATCAATATGTAGACGGATCTGCTTTCCATTTGTACGAAGGAGATATTTCTGCTTTAAGTACAGTACATGATGCTTTCCCTGATAAAAACTTATATTTTACTGAGCAGTGGACAGGTTCAAAAGGAACTTTTGCCGAAGATTTGAACTGGCATACAAAAAATGTAATCATTGGTTCTATGAGAAACTGGAGTAAAACTGCTCTGGAATGGAACCTTGCCAATGATCCGAAATTTGCGCCGCATACAGACGGAGGCTGTACAGAATGTAAAGGAGCTATTACTGTTTCTGATAGTGAGAACTACACCAGAAATGTTTCCTATTATATTATTGCTCACGCTTCAAAATTTGTTCCGGCAGAATCTCAGCGTATCGCTTCCACACAGACGGATAAACTTTCCACAGCGGCTTTTAAGACTCAATCTGGGAAAATAGTCTTAATTGTTCAGAATGACAATAAAGAAGATGAAAATTTTAATATTAAATTTGCCGGCAAAACCGCTGCAGTAACAATTTCAGGACGTTCTACAGCAACTTATATTTTTTAA	MKFHNLYSFFRGAALLSGVALFPLSCTSLVSSKGNEVQYWLTKGDESVKLQKQTPVKFVNNTNSFQNIEIDDAQKFQYVDGFGYTLTGGSVEVINRLSPSKRRALLNELFGNDKNSISISYLRLSIGASDLDSEVFSYDDLPEGQTDTSLSKFSLAKDKALIAMLKEILAINPSIKIIAAPWSAPVWMKDNGKSKGGSLKPEFYGTYAQYFVKYIQGMKKEGIAIDAVTPQNEPLHPGNNPSLYMPSEQQGEFIKNHLGPVFKANGITTKIVVYDHNCSKPEYAINILKDPEANQYVDGSAFHLYEGDISALSTVHDAFPDKNLYFTEQWTGSKGTFAEDLNWHTKNVIIGSMRNWSKTALEWNLANDPKFAPHTDGGCTECKGAITVSDSENYTRNVSYYIIAHASKFVPAESQRIASTQTDKLSTAAFKTQSGKIVLIVQNDNKEDENFNIKFAGKTAAVTISGRSTATYIF	PGPT0018770_960	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201	NA	NA
BMS003_01117	1563			SusD-like protein P25	ATGATTAACAAAATGAAAAATAAGAATTTTATATATAAAGGACTTGCTGTTGTATTTTTGACAGGTCTTAGTTTTTCCAATATTGCTTGTAGTGATTCCTATCTGGATGACGTACAGAATTCAGGATCTTTTAATACCGATTTATACTTTCAGAATGAGCAGCAGTCGTTTAGCGCATTGGTGTCAGTATATGATGTTTTAAGAAAATATTCAGGTGGATTTGAGAATACCGTTACTTTCTTTAATGCCGGATCAGATGATTTCTATTCCGGAGGAGGAAACTCAAATGATGGAGCAGGTATTCAGGGACTGAATAATTATATGATTAACCCGAATACAATGCCAGCCAGCTACTGGAGAGATTATTATCAGGGGATAGCACGTGCTAATCTTTTGATAGAAAGAGTTCCGGGAGCTGATATGAGTGAGGATCTTAAGAAAAGATATATCGCAGAAGCAAAAGTTCTTCGTTCCTTATATTATTTTGAATTATTAAGAATGTTTGGAAATATTCCTTTGATTCTTAAGTCAGTAAAATTTGATGATGATTATTGGAATATTCCGCAGGCTAAGCCAAGTGATGTTTATACACAGATAGAAAGTGATGTAACAGCAGCTATTCCTGATCTGATGATGATTGCAAGTGGTAATGACAAAGGAAGAGTTACGCAGGGAACTGCCAGAGCTATACTGGGTAAAATTTATCTTTATGATAAAAAAATGACGGAGGCCGCAGCACAGTTTGCCGAAGTAAACGGTACTCCGGGAGGAACCAGTCAATATGGGTACAAACTGGTAGCTAACTATGCAGATTTGTTTAAAGTAGGTCCCGAAATATCAGACCCTTATAAATTCTCAACAGAATCTATTCTGGAAGTAATGCATACCAATAAAGGAAACTCTGATTGGGGATTCTGGGGACAGGGTAAAGACGAAGGTAACTCTATCAATGTAATGGTAGGACCACGTTCTTATTCATTAACAAACATCCCGAATAATACCGCTCCGGATATTTACTCCGGTTGGGCATTTAATACCGTGACAGAGAACTTTGTTACTTTTATGCAAGGTGATCCAAGATTGGATGTGACCGTTTTCAATGCGAAAAAACTGGTTACAGAAGGTAAAGTTACCTACAGCCCTGCTTTTGCAGATACGGGGTACTTTTTGAATAAATATTTACCGACAAACGCATTAAAAAGTTCACTTCCAGGACCTGCAGAACTTAATTTCCGTCAGAACTATATAGCAATAAGATTAGCAGATACTTACCTGATGGAAGCAGAAGCCTTAGGCGGAGCAGGCTCAAGAGCTCAAGCATTATTAGATGCAGTAAGAGCGAGAGTTGGCCTAGCATCAGTTCCTGTTTCTATACAGGCTATTAAGGATGAAAGAAGAAGAGAACTTGCAGGAGAAGGACACAGATGGTTTGACCTTGTGAGATGGGGAGATGCTCCATCAGCACTTGCATTCAAAGGATTTAAGGCCAATAAAAATGAAATTCTTCCCATTCCGTTCAATGAATTGCCGAATACAGTTTTAAAACAAAATCCTGGCTACTAA	MINKMKNKNFIYKGLAVVFLTGLSFSNIACSDSYLDDVQNSGSFNTDLYFQNEQQSFSALVSVYDVLRKYSGGFENTVTFFNAGSDDFYSGGGNSNDGAGIQGLNNYMINPNTMPASYWRDYYQGIARANLLIERVPGADMSEDLKKRYIAEAKVLRSLYYFELLRMFGNIPLILKSVKFDDDYWNIPQAKPSDVYTQIESDVTAAIPDLMMIASGNDKGRVTQGTARAILGKIYLYDKKMTEAAAQFAEVNGTPGGTSQYGYKLVANYADLFKVGPEISDPYKFSTESILEVMHTNKGNSDWGFWGQGKDEGNSINVMVGPRSYSLTNIPNNTAPDIYSGWAFNTVTENFVTFMQGDPRLDVTVFNAKKLVTEGKVTYSPAFADTGYFLNKYLPTNALKSSLPGPAELNFRQNYIAIRLADTYLMEAEALGGAGSRAQALLDAVRARVGLASVPVSIQAIKDERRRELAGEGHRWFDLVRWGDAPSALAFKGFKANKNEILPIPFNELPNTVLKQNPGY				NA	NA	NA	NA	NA
BMS003_01118	2922			TonB-dependent receptor P3	ATGAGTGTAAAAATATCAAGAAGCGTAGGAGTGATTGCCGTCCTCTATTTTACGGCTAACTTCAGTGCCCAGACCAACAAGGTGAAGGACACACTTACCAAAGAAAACAAAATAGACGAAGTGGTAGTCATTGGTTACGGTACTCAGAAAAAGAGTAATGTGACAGGAGCTATAGCCAGTATTAAAGCCAGTGACATAGAAAACATTCCGTCTGGTAAGCCGGAACAGGTATTACAAGGTAGAGCTGCCGGTGTTTCGGTAGTGACCAATTCCGGGCAGCCGGGAGCTGCTGCTACAGTACGTGTAAGAGGGATTACCAGTTTTGGGGCGGGAAGTAACAGTCCTCTTTGGGTAGTAGATGGTATTGTTGTAGACAATATCGGGTGGCTTAACCAATCTGACATTGAGAGTATTGAAGTTCTGAAAGATGGAGCTTCATCTGCAATCTACGGAGTTTCTGCTGCAAAAGGAGTAATTCTGGTAACGACTAAAAAAGGTAAAAAAGGAAAACTTACCCTTTCTTATAATGGGTTTTATGGTTTTTCAAATGCTTCTAAAAAGCTGGATCTTTTAGACGCTACACAATACGCTAAAATTATTAATGAAGGTTTCGTGAATGATGGGCAGGCACCCAGGTTTACCAATCCTGAATCATTTGGAAAAGGAACCAACTGGCAGGATGCTATTTTTGGAACAGGTGAAAAATCTTCTCATGAAGTAAGTATTACAGGTGGTAATGAAAAATCAACCTATTATACATCGTTCGGATATTTTGATCAGTCTGGGATTGTAATGAGTGATATTTCTTACTACAAAAGAATCAATGCGAGATTCAACTCAACCCATAAAGTTACAGACTACCTGACCATAGGACAAACCTTTGCCTATACCCATGTGAAGTCTCAGGGAGTAAGTGCAAACGAAGAATTTGGAGGACCGTTGGCTTCTGCAGTTAACCTGGATCCTACTACTCCGGTTGTTGTCACAGATTGGTCTATGGTAGACCCAAGTGGCTATACCAATCCTTATATTATTCGTGATCCAAACGGTAACCCTTACGGAATTTCAAGATATGTAAATCAGGAAATGACCAATCCACAGGCTTTTCGTTATTTACAGCAAGGAAACTATAACTGGTCAGATGATTTTGTAGGAAATGTTTTTGCAGAGCTTAAGTTTCTTGATCACTTTACATTTAAAACAAGTTTAAATGGTAAGAAATCTTACTGGGGAAGCCGCACTTTTACACCGAAATACTATTTAAGTCCAAATTATAACAATACCAGCTTCAATAGCCTGAATAAGGTAGACGAAAATAAATTCGAATGGAGTATGGAAAACACCCTAACCTATCAGAATAAGTTCGGAGATCATAATATTAATATTATGGTGGGTCAGGGAGTTTACCGATATAACATTGCAGGAGGAGCCAGTCTTACGTATAGTAATCTACCTGTTGATAACTGGCAGGATGCTTCTTTCAACTTTAATATTCCTCAGGATAATATTACCGCAACAGGATGGGATGGGATTCAAACACGTAAAGCATCTTATTTTGGTAGAATTATTTATGATTATGCAGACAAATATTTATTTACCGGAACCATTCGTAGAGATGGCTCTTCAAAATTTGCTACCAATCAGCATTGGGGAACTTTCCCATCTATGTCATTAGGATGGAACGTTCATAAAGAGAACTTCTGGCCGGAGAATAAAGTGATTAATAACTTAAAACTAAGAGGAGGCTACGGAGTTTTAGGAAATGATGAAATGGATAACTTCAGATTTGCAAGTTTCATGGTTTCCGGAAGCAATTATACCAATTCCGGGAATAATATCATTATTGGATATGCACCGAGTACACTGGAAAACCCAAACCTGAAATGGGAGCAGACCAGCCAGCTGAATATTGCTGCAGACTTGAAATTATTCAATAACTTCACCCTTACTGCAGATTGGTACAAAAAGAAAACAACCGATATCCTTAGACAAATTAATATTCCTGGTTATGTAGGAGTTCCGAATTTACCCTGGTCAAACGTAGGAGACATGCAGAACAGCGGATTAGAGCTTGAACTGGGTTACAAAAAGAACTGGCAAGATTTCGGAATTTCAGTGAATGGTAACTTCGCTACGATCAAGAATGAAGTTCTCAGATTAGAAGATGATATTGATTACTTCAACCTTGCTTCTTTCCAAACGATGGGAGCTGTATCCAGAGTAGCAGTAGGACAGCCTTACGGATCATTCTACGGACAAACATATAGTGGTGTTTTCCAAAATCAGGCACAAATTGATAACTATGTCAATGCCAACGGTGTAAAATTATTACCGGATGCAAAACCGGGAGATTTTATCTGGCAGGATAACAACGGGGACGGAAAAATTGACGATAACGATAAAGTAAACCTGGGAAGCTCTATCCCGAAATATACTTTCGGACTTACCGTGAATCTTAATTATAAGAATTTTGATTTGATGATGTTTGCACAGGGACAGGCTGGTAATAAGATTTTCCAGGGGCTGAGAAGACTGGATATGCTTGATGCCAACTATCAGACAAAAATCTTAGACAGATGGACAGGAGAAGGTTCTACGAATGATAACCCGAGAGTTACCCGAAATGACCCTAACCATAACTATTCATGGATGTCCAGTTACTATCTGCAGAAAGGAGATTATCTGCGTTTGAAAATTGTTCAGCTGGGCTATACCATTCCTCAGGATGTTACAAAACGTTTCGGAATGAGTAAAGTAAGACTGTATATCACTGGAGAAAACCTTGTTACTTTTACAAAATACACAGGATATGATCCGGAAATTGCAGGAAGAAATAATTCTGAACAGGATATTATTGGTGTAGACAGAGCTTACTATCCACAGGCAAGAACATTCCTGATAGGTGCTAATATTCAATTTTAA	MSVKISRSVGVIAVLYFTANFSAQTNKVKDTLTKENKIDEVVVIGYGTQKKSNVTGAIASIKASDIENIPSGKPEQVLQGRAAGVSVVTNSGQPGAAATVRVRGITSFGAGSNSPLWVVDGIVVDNIGWLNQSDIESIEVLKDGASSAIYGVSAAKGVILVTTKKGKKGKLTLSYNGFYGFSNASKKLDLLDATQYAKIINEGFVNDGQAPRFTNPESFGKGTNWQDAIFGTGEKSSHEVSITGGNEKSTYYTSFGYFDQSGIVMSDISYYKRINARFNSTHKVTDYLTIGQTFAYTHVKSQGVSANEEFGGPLASAVNLDPTTPVVVTDWSMVDPSGYTNPYIIRDPNGNPYGISRYVNQEMTNPQAFRYLQQGNYNWSDDFVGNVFAELKFLDHFTFKTSLNGKKSYWGSRTFTPKYYLSPNYNNTSFNSLNKVDENKFEWSMENTLTYQNKFGDHNINIMVGQGVYRYNIAGGASLTYSNLPVDNWQDASFNFNIPQDNITATGWDGIQTRKASYFGRIIYDYADKYLFTGTIRRDGSSKFATNQHWGTFPSMSLGWNVHKENFWPENKVINNLKLRGGYGVLGNDEMDNFRFASFMVSGSNYTNSGNNIIIGYAPSTLENPNLKWEQTSQLNIAADLKLFNNFTLTADWYKKKTTDILRQINIPGYVGVPNLPWSNVGDMQNSGLELELGYKKNWQDFGISVNGNFATIKNEVLRLEDDIDYFNLASFQTMGAVSRVAVGQPYGSFYGQTYSGVFQNQAQIDNYVNANGVKLLPDAKPGDFIWQDNNGDGKIDDNDKVNLGSSIPKYTFGLTVNLNYKNFDLMMFAQGQAGNKIFQGLRRLDMLDANYQTKILDRWTGEGSTNDNPRVTRNDPNHNYSWMSSYYLQKGDYLRLKIVQLGYTIPQDVTKRFGMSKVRLYITGENLVTFTKYTGYDPEIAGRNNSEQDIIGVDRAYYPQARTFLIGANIQF				NA	NA	NA	NA	NA
BMS003_01119	1185			hypothetical protein	ATGATCGTCAAGCCTTCAAAAATTTCTCTTCCTTTAAAACTTACTTTCCTTATTTTTTCAATGGTTTTAAACTGTATGGGACTTGTGATTCTGCAGTTGTCTGAGGAGAAAATCACTTATGGGGAGCTGGGACTTCTGGAGTCTTTTAAAGATTTACCGATTGCTTTTATCTCACTTTTTGCAGTAAGTTTTATTAATAAAACAGGGCCTAAAAAAGCTTTAATTTCAGCACTTACTATAGTTGGATTCTGCTCCTGCCTACTTCCTTTCGTAAAAGTTTTCTGGTTTTATAAACTATGGTTTGCTATTATAGGCGCCTGTTTTGCCATTGGTAAAATCTGTGTTTTTGGAATCATCAGGAATAATATTTCTGATGAAAAATCCCTGGCAAAAACCATGAATAATGTGGAAGCTTCTTTTATGATCGGGATTTTTGTGGTGAATACAGGCTTTGGATGGGTAATTTCAAGCCAGTATTCAGAATTCTGGAAATTTGGATTCTTACTGATTGCTTTATTATCAACATTTACCATTTTTCTTCTTTCAAAAATAGAAATAGTGGAATCCAAACCTATGGAAAACAAAAGTATTGCCTCAGAATTATCAGGCTTTATGACTCCTGCTGTGGCTTTATTTTTAGGAGTAGTCTTCTTTATCGTCTTTGTAGAACAGGGATTCAATTCGTGGCTGCCTTCCTTTTACAAAAACCACCTGAAAGTCAATTCTTTTTTTGCTCTTCAGGCCACTTCTTTCCTTTCCCTATTTTCTTATGCGGGGAGAACAGCTACAGCTAACATTATCAAAAGATTTGCATTACCAAGATACTATATTGCATGCATGGCATTCATTATTACTTTGCTGGTCATCATACTCTGCATACAGTATTTTGACTCAGAAGACTCCAGAATGCTTCTTTTTTTATTTCCGGTGATAGGTTTATTCCTCTCTCCACTCTACCCTGTTATCAATTCAAGGATGATTGCTCAGGTAGATAAGGATAAAATCAATCTGTTTACATCCCTAATTGTGATTTTTTCTTCTCTGGGCAGCTCTGTCAGTTCAATTATTATGGCCGTTTTATTTGAAAAACAATTATTAAATTACTATCCATCATACATCTTATCCTCTGTAATTCTGCTTTTTGTGATTAGTTTAATATATTTTACTGTTACAAATAGAAAATAG	MIVKPSKISLPLKLTFLIFSMVLNCMGLVILQLSEEKITYGELGLLESFKDLPIAFISLFAVSFINKTGPKKALISALTIVGFCSCLLPFVKVFWFYKLWFAIIGACFAIGKICVFGIIRNNISDEKSLAKTMNNVEASFMIGIFVVNTGFGWVISSQYSEFWKFGFLLIALLSTFTIFLLSKIEIVESKPMENKSIASELSGFMTPAVALFLGVVFFIVFVEQGFNSWLPSFYKNHLKVNSFFALQATSFLSLFSYAGRTATANIIKRFALPRYYIACMAFIITLLVIILCIQYFDSEDSRMLLFLFPVIGLFLSPLYPVINSRMIAQVDKDKINLFTSLIVIFSSLGSSVSSIIMAVLFEKQLLNYYPSYILSSVILLFVISLIYFTVTNRK	PGPT0014430_163	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014430-glcP-K08174	NA	NA
BMS003_01120	789			hypothetical protein	ATGAAAATCAAAGACACAAAAAGTAAAGAAACGCTTCGTGAACTTATCGACACCAAAGATTTCGTAGCGCATATTTCTGTTGACTGCACCATATTCGGCTTTCATAATAATATTCTGAAAGTTCTGCTTTTAAAATATCATGATCTGGATCTATGGTCACTTCCTGGTGGGTTTGTTTTCAATGACGAAGATCTTAGAGAAGCTGCTGAAAGGGTTTTATATGAAAGAACTCATCTGAAAGGCTTATTTTTGAAACAATTTCACACTTTCGGAAGGATAGACCGTACAGAGAACAACGTTCATCAGATTCTTCTTCAAAATAAAGGAATAACTGTTCCCGAAGACCACTGGATCTTCCAAAGGTTCGTTACAGTAGGCTATTGCAGCCTTATTGATTTTTCATTAGCGGATACTTTTCCCGATGCTTTCAATGAAAGTTGTGAATGGTTTGAGGTGAATAATCTGCCTAAGATGGCATTTGATCATGACAGAATTATAGAAACCGGCCTTGAATATCTGAGAATGAATATCAATACCGAAGTTGCAGCCAGTAACCTGCTTCCGGAAAAGTTTACCATGAAAGACCTGCAGGCTCTTTATGAAACCATTTTAGGGCAGAAATTCAGAAGGAATAATTTTCAGCGAAAAATATTGAGCTTAAATATTCTTGACAGAATGGAAAAACTATATGACGGTTCTGCCAATAAAGCACCTTATCTGTATAAATTTAAAACTGAAGTTCATAATTCTACCAATCAGTATCCTATCTCAAATGATGAGGAGTCATAA	MKIKDTKSKETLRELIDTKDFVAHISVDCTIFGFHNNILKVLLLKYHDLDLWSLPGGFVFNDEDLREAAERVLYERTHLKGLFLKQFHTFGRIDRTENNVHQILLQNKGITVPEDHWIFQRFVTVGYCSLIDFSLADTFPDAFNESCEWFEVNNLPKMAFDHDRIIETGLEYLRMNINTEVAASNLLPEKFTMKDLQALYETILGQKFRRNNFQRKILSLNILDRMEKLYDGSANKAPYLYKFKTEVHNSTNQYPISNDEES				NA	NA	NA	NA	NA
BMS003_01121	1179	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGTCATATTATCCTCTTACAAGCATCCCTGATTATTACGGAATTGATGCTTTACTTACTGAAGAACACAAACTCATCCGCCAATCTGTAAGAGACTGGGTTGAAAGTTTTGTAATGCCGCAGATAGATCAGGCCGCTCAAAATCATACAGATCTACCTAATCTCATGAGAGAGTTGGGGAAAATTGGTGCACTGGGGCCTTATATCCCGGTTGAGTATGGCGGTTCAGGATTAGACCAGATTTCTTATGGTCTGATTATGCAGGAATTGGAAAGAGGAGATTCTGCAGTACGTTCTGCTGCTTCGGTACAGAGCTCTCTGGTAATGTTTCCTATCAATGAATTTGGTTCTGAGGAACAGAAAAAGAAATATCTTCCTAAGCTTGCTGCCGGAGAAATGATCGGTTCTTTTGGATTAACAGAGCCTAACCACGGTTCAGACCCGGGTTCTATGGAAACTTATTTTAAAGATATGGGTGACCATTATCTTTTGAATGGAGCAAAAATGTGGATCACCAATTCTCCTCTTTGCGATATCGCTGTGGTATGGGCAAAAAATGAGGAAGGAAAAGTGCAGGGATTAATTGTTGAAAGAGGAATGGAAGGTTTCACCACTCCTGAAACACACAATAAATGGAGCTTAAGAGCTTCCAAAACCGGAGAACTGGTATTCAATAATGTAAAGGTTCCTAAAGAAAACCTCCTTCCCGGTGTAACAGGACTGAAAGGACCTTTATCTTGTCTGAATTCTGCAAGATATGGAATTTCCTGGGGGGTTATAGGAGCTGCTATTGACTGTTATTGTACTGCCGTTCAGTATTCTAAAGAAAGAAATCAGTTTGGAAAACCTATCGGTTCTTATCAGCTTCAGCAGAAAAAACTGGCTGAATTCTTAACAGAGATTACAAAAGCTCAGTTATTATGCCTTCAGTTAGGAAACCTTAAGAATGACCACAAGGCAACTCCGGCACAAATTTCTATGGCGAAGCGCAACAATGTGAAAATGGCCATCGATATTGCCAGAGAATCAAGACAGATCCTTGGTGGAATGGGAATCATGGGTGAATTTCCAATGATGAGACACGCTGCGAACCTGGAATCTGTAATTACTTACGAAGGAACGCATGACGTACATTTGTTAATCACCGGTTTAGATATTACAGGAATTAACGCTTTCTAA	MSYYPLTSIPDYYGIDALLTEEHKLIRQSVRDWVESFVMPQIDQAAQNHTDLPNLMRELGKIGALGPYIPVEYGGSGLDQISYGLIMQELERGDSAVRSAASVQSSLVMFPINEFGSEEQKKKYLPKLAAGEMIGSFGLTEPNHGSDPGSMETYFKDMGDHYLLNGAKMWITNSPLCDIAVVWAKNEEGKVQGLIVERGMEGFTTPETHNKWSLRASKTGELVFNNVKVPKENLLPGVTGLKGPLSCLNSARYGISWGVIGAAIDCYCTAVQYSKERNQFGKPIGSYQLQQKKLAEFLTEITKAQLLCLQLGNLKNDHKATPAQISMAKRNNVKMAIDIARESRQILGGMGIMGEFPMMRHAANLESVITYEGTHDVHLLITGLDITGINAF	PGPT0021815_2231	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
BMS003_01122	1962			hypothetical protein	ATGAAAAAAATTACGACTTTTTTACTAGGTCTTACCGCACCATTTTATTTTGCACAGCAAGCCGGTGATGTGGTAAGCGCCGAAAAGAAACTGGATCTTACTCCACAGGGAGTTATCAATTTCATAGCCAATAATCTTGGTGATCAGGATGCCCCGGAATTTGCAAGCTACCTAAACAGCTTTAATGTAGGCCTGAAAGGATACAAAATTACTTACTACACCAAAAATGAAAACAATGTTCTTGTAAAAGCTACCGGGCTGCTAATGTATCCTAATGTCCCTTTTAAGCTTTCTACAGTGGTCTCTGACCACGGGACAACAGACAGCAGACATAATGTTCCTTCTAATTTCAAAGGAGCTTTAACTGCAGGCTTTGTTGTTGAGCTGTCTTATGTACTGAACGGCTATATCTTAATGGCTCCTGATTATGTAGGAATGGGAACCGGAGACGGCGTGCATCCTTATGTAGATTATGCCACAGAAGCCGGAGCTACCATTGATTTTATCACAGCTGCGAATAAAGTACTGACACAATTGAACATTAAACGGTACAACGAATATTTCTTAGCCGGATATTCCCAGGGGGCTCATGCTGCTATGTCTACGTTAAAAAGATTAAGTATTTCGAATCCAGATAATATAAAATTCAAATATGCCTACATGGGAGACGGCCCTTACGATTTCTCCGGAGTCACTTTAAATAAAGGCGTTCTGGAAAAAGATATTTATCCGTTTACTTCATTCCTGGCTAATGTTCTTCATACCTGCAACAATACGGGGTATAAAACCTATAATAATAACATTTCCGAAGTTATTTCCGCAGAATATCTTGATAAGTACAATTACCACGTTGTTCAGGATAATGGCGGACTTTTATGGGGACCTGTTATATGGAGAAAGCTCTTTACAGCCAACTTTGTAAATGATGTGACCAATAATCCCAATAACAAGCTCAGACAATGCATGAAACCTAAGGATGTGTACGACTGGTACAACAAAACACCTATGACTTTAGGACATTCTACTGTAGATCTGGCTATTCCGCCGGAAAATACTTCCAAAACTATTGATGTTCAACGTGGATATTATCCTTGGTGGGATCTTAATAAATACAAGCTGGATTCTTTTTACTGGGGTCCACTGGGACATGTGGGAGGAATTCTTCCGTTCACTTTAGCATCTAATGCGAAATTCAATACCCTGAGAAGTGGTGGCCTTTTGAATGAATGGGCTATTGCAGGATCTATTTTTGGGAAGCAGTCACCAGAGAAAATTTCTGAAAAGCCTACCCTTCTCTCCTCACAGATCAAACCGGATTTAGGCAGCATGCAGCTGGTTGAAATTACAGATTTCAATAAAGAAAAGGCACAGAGCAAAACAGCTGGCAACCCCGGCTATTTAGCTGATTTAAAAGACGGAGTCTATCTATTGAAGGTATCTGAAAACAATGAAAACAAAATAATCCCGTATATCAGAAATACGCCTAAAGAAGTTGCTGAAAACGAAATTGTACAATCTGCGAATCCAGTTGTTTTACAATTAAAAGTGAATCAGGAGGAGCTTACAGCTGTCAATATTTTTGATGAAAATAAAACGCTGATCAAAAGCATTTCACAGAAACAATATCGTGAAGCAGGAGGAATCAATCTACAGGATCTTGAACATAAAAGCTATACGTTCGAAATAGTTACCCCATATTATAATCTTCAGTTTAATAAAGCAGTTGGAGGCACTTCATCATCAGAAAACAATATTGATATTTATACTCGAAAACAACAAATTATTGCCAAATCCGGTCATAATATTAAGAACATCAGCATTTATAGCATCTCTGGCACTCTGATCGTTCAGCAGGAACTCAATAAACCGTTATTTGAATCCAGAAATCTTGAGACAGGTGTATATGTGGTACAAATTACACTGTACAGCGGAAAAACCATTAATAAAAAAGTAAAACTGTAA	MKKITTFLLGLTAPFYFAQQAGDVVSAEKKLDLTPQGVINFIANNLGDQDAPEFASYLNSFNVGLKGYKITYYTKNENNVLVKATGLLMYPNVPFKLSTVVSDHGTTDSRHNVPSNFKGALTAGFVVELSYVLNGYILMAPDYVGMGTGDGVHPYVDYATEAGATIDFITAANKVLTQLNIKRYNEYFLAGYSQGAHAAMSTLKRLSISNPDNIKFKYAYMGDGPYDFSGVTLNKGVLEKDIYPFTSFLANVLHTCNNTGYKTYNNNISEVISAEYLDKYNYHVVQDNGGLLWGPVIWRKLFTANFVNDVTNNPNNKLRQCMKPKDVYDWYNKTPMTLGHSTVDLAIPPENTSKTIDVQRGYYPWWDLNKYKLDSFYWGPLGHVGGILPFTLASNAKFNTLRSGGLLNEWAIAGSIFGKQSPEKISEKPTLLSSQIKPDLGSMQLVEITDFNKEKAQSKTAGNPGYLADLKDGVYLLKVSENNENKIIPYIRNTPKEVAENEIVQSANPVVLQLKVNQEELTAVNIFDENKTLIKSISQKQYREAGGINLQDLEHKSYTFEIVTPYYNLQFNKAVGGTSSSENNIDIYTRKQQIIAKSGHNIKNISIYSISGTLIVQQELNKPLFESRNLETGVYVVQITLYSGKTINKKVKL				NA	NA	NA	NA	NA
BMS003_01123	2364			hypothetical protein	ATGAAAAAGGTTCTGATATTTTTAGCTATTACTTTTGCTGTTATTATTAAATCCCAACAAAAAAACGACTCCCTTGATACTGCCCTTCAGGCTATAACCAAAGATACTAAATTTGGTCTGGCTCTTAGTGGTGGTGGGGCAAAAGGATTTGCACATATTGGTATTCTAAAAATGATTGACTCATTGGGAATCAGAGTAGATTATATTACAGGAACCAGTATGGGAGGTATTTTGGGAGGCTTATATGCCATGGGGTATAATGCTGATGAGCTAAAGAATACCGTATATAAAATGGATTGGGACAGGATTCTGAGTAATAAAATCCCTTATAATAAAATCAATATCAGTGAAAAAGACGAATATGACAAGTATATCCTGGAATTTCCTGTAGTAAAAGGAATTCCTACACTTCCAAGTTCGTATATTGAGGGGCAGTATATGGGTGAGATGCTTAATACGCTTACTTTCAATGCCAAACACATCAATGATTTCAGTAAACTAAGAATTCCCGTTCAGCTTACCTCATCTGATATTGAAAATGGAGGACTGGTGATGCAGAAAGAAGGATCTTTACCATTGGCTATTCGTTCTACATTGGCAATTCCCGCTGCGTTTGCTCCTGTATATATTGACGGGAAACTTTTGGTAGATGGTGGATTGGATCGTAATTATCCGGCTAAAGAGGTTCGGGAGATGGGTGCCGATTTTGTGATTGGAGGATATACCGGCTTCAGGCTTTTTACGAAAAAGGAGATTGAAAACCCAATGAAGATGATCTATCAGACTCATGCCATCCGGTCGGTAGAAGATTTTAAGTATCAGAAAGAATTATCCAATATTATGGTAGACTTTGTAGATCCGTTGGGAGAGATTACTACAAAGGATTTTAGCCAGTTCAGAGAGATCATTCAAATAGGAGAGAAGGAAGCCCGAAAACATCTTCCTGAACTTGTTGCTTTGGCTGAGGCTCAGAGGAAACTGGGAATCAGGTATGAGCATACGATGATTGAGGAGATAAAGCTTCCTACTGTAAAATTCACTTATAATGAAGAAGATGGAACTCCTATAGCAGATGCAGCAGAAATTGAAGTTCTGAAAAAGCAGATGGGACTTACAGAAGGGAAGTATTATGATGCAAAAACCGTTAATGAAGCAATAGACAGGATATTCGGAATGCGCCAGTATCTAAAGGTGTATTATACTTATACGAATGTGAACGATGGTCTTGTAATGAATATTTTTGTGAAGAGAGCAAAAAATGGAGCATTTAAGCTGGCTCTGCATTATGATACGGAGCAGTCGGTTGGAATTATTGTTAATTACACCTACAGGAATATTATTCTGAACAGATCAAGGTTTTTGGCAACAGTAGATATTTCCGAACGTTTTAAAGCGAAATTAGCTTATCAGCAGTTCCTGGATAACGGAGACCGTTTGTGGCTGGACCTGGAAGCTAAAATGATTCATCTTAAAAGCAATGACTTGAGTTTCAGATTGTACTCTATAAATGAAGAGGGCATAGATCGCTTTCCTAACCATATGTACCGTAATATAACCGGAAAGATTGCTCTTAATTATAATATTACACCTAATGCATACCTGTCATTAGGAACGGAGTTTAGTACAGAAAGGATGTACAGCTTTCTGGATAAAGTAGATCAGTTAAAAGTAGAGAATTACAGTAATAAGCTCTATAACCATAGTAATTTTAACACATTCCTTAAATTCGAACAAAACAATCTTAATAAAAGATACTTTACAACAAAAGGAAACCACCTTCAGGTGAACGCAAGAGTGTATTACGGTGACAGGTATAAGCTTTATGATCTGGAAACAGTACAGCCTTTTTTAAATTTTATACTAAACCCTGAGACAGAAGGGTATTTTCGGCCTAAAAGCTTGATATCTTTTACTTTAAATGAAAATTTCTATCATCCGGTCACAAGAAGGCTGACCGTAAAGGCCAATGTGTTTTTAGGAGCAAGTTTTGGCAAAGAAAAAGAGTTTGATATTCCGTATCTTTTCCTAAATCAGAAGTATAATCTCGGTGGGAGTGAATATAATTATGATATGCTAAACCCTGAATTCAATGGTCTTCGCCAGAAAGAAATTCCTGTGACTTCAGTTGCTAAGGCGGCAATATCATTCCAGTACAGAATTATGAAAAAGCTCTATCTTACACCTTCAGTTAGCTATGGCAAAGTTAGTGATGAGTTTTCTCCTTTTAATCAAAGCGATGATATATTTGGTTATGGGGTGAATTTAGGGTATGAATCTGTTATAGGACCTATAAGTCTTAATATTTCCAGAAATGATGTACTTGATTTTTCAAGGATCTATTTCAGTATTGGATTTAAATTCTAA	MKKVLIFLAITFAVIIKSQQKNDSLDTALQAITKDTKFGLALSGGGAKGFAHIGILKMIDSLGIRVDYITGTSMGGILGGLYAMGYNADELKNTVYKMDWDRILSNKIPYNKINISEKDEYDKYILEFPVVKGIPTLPSSYIEGQYMGEMLNTLTFNAKHINDFSKLRIPVQLTSSDIENGGLVMQKEGSLPLAIRSTLAIPAAFAPVYIDGKLLVDGGLDRNYPAKEVREMGADFVIGGYTGFRLFTKKEIENPMKMIYQTHAIRSVEDFKYQKELSNIMVDFVDPLGEITTKDFSQFREIIQIGEKEARKHLPELVALAEAQRKLGIRYEHTMIEEIKLPTVKFTYNEEDGTPIADAAEIEVLKKQMGLTEGKYYDAKTVNEAIDRIFGMRQYLKVYYTYTNVNDGLVMNIFVKRAKNGAFKLALHYDTEQSVGIIVNYTYRNIILNRSRFLATVDISERFKAKLAYQQFLDNGDRLWLDLEAKMIHLKSNDLSFRLYSINEEGIDRFPNHMYRNITGKIALNYNITPNAYLSLGTEFSTERMYSFLDKVDQLKVENYSNKLYNHSNFNTFLKFEQNNLNKRYFTTKGNHLQVNARVYYGDRYKLYDLETVQPFLNFILNPETEGYFRPKSLISFTLNENFYHPVTRRLTVKANVFLGASFGKEKEFDIPYLFLNQKYNLGGSEYNYDMLNPEFNGLRQKEIPVTSVAKAAISFQYRIMKKLYLTPSVSYGKVSDEFSPFNQSDDIFGYGVNLGYESVIGPISLNISRNDVLDFSRIYFSIGFKF				NA	NA	NA	NA	NA
BMS003_01124	2688			hypothetical protein	TTGAAATTCCTTAATAAGATTATCCACGAGCTGCTGGCACAAAACACGGATCTTTCTGTGTTTAATATCATTCTGCCCGGAAAGCGTCCTATTGTGTTCATCAGACGGATCCTGGAGGAGAATAATTATTCAGGGTTTCTTCCCAATTTTTTTACGATAGAAGAACTCATCAATACAATTGCCGATCAGCAGCTTATCCAGGGAATTCCTTTGTGGCTTTTCTCGTTTGATGTGTACAGAAGCCTGAACCTTATCCCAAGAGATGATTTTTCTGATTTTCTGAAGTGGTTTCCCACCCTGCAGAAGGATTGGGATGATATTCTCAAGTTTTCAGACAGTGACCAGGCCGTTCTTCAATATATGTTTGACGAAGAAAGGATCAAAGAATGGGCTCAGGATCTTGGTGAGGATGATGATGTTCCAAGAAAGAAGTTCCTGAATTTCTGGCAGAATATGAATATTTTTCTTCCTGCTTTAAAAGAGAGGCTGCGGGAAAAAAACTGGGCTACTTCGGGAATGATCCATGAAGCGGCTAAAGCCAGAATTGTTGATTTTGCTAAAAATACCGGAGAAGAGTTTATCTTTTGTGGATTCAATGCTTTTACACCCGTAGAAGAAAAGCTGGTAAGAAGCCTTCTGCAGTGGAATAAAGCGCAGTGTTTCTTTCAGGCAGACCGTTATTATTTTGATGATGAAAGACAGGAAGCCGGAAAATTTCTCAGAAATCACAAAACCTGGAAAGAGTTTGATGATAACAGAGCTTTTCAGTGGATAGAAGATGATTTTAATCAACCTAAAAAAATTAAGGTATACGAAGTTTCCGGGAATGTAACCCAGACCAAAGTACTGCCTGAGATCTTTAAAGATATCAATAATAAAACCTATTCCAATACTGCGGTAGTTTTGCTGGATGAAAACCTTCTTCCTGCAAGTCTTGATGTAATGCACGGGGTTGATAACTTGAATATTACAATGGGATTTCCGTTGAAAAATTTATCATTCTCTAATGCTGTCAAACGTCTTTTCTATCTCCAGAAGCAGCTGGAAAAAAACAAATCTTCCTATTATTACAGAGATGTTTTCCCCATTCTGGAAGAACTGCCAAAATCTGTGGAAGACGAGCAGATTATCAATGATTTTAAAGCCAAGGTGGAAGAGAGAAATATTGTTTATATCTCTAAAAAGCTTTTGCATGAATTGCTGGGAGGGCTGTCTTACTACGGGCTCCTTCAGAAAGCGGTAAGTACCCGGATATATCTGGATATGCTCATTGCGTTCTGTCAACAGGTAAAATGGCTCGAAATAGACGATATTCAGTATGAGAATGTCTCTCATTTTGAAAATGCTTTCAGGATCATCAAAAACCAGTTGACTCCTTACAATATAGAGATCAAAATGGAAACGCTGGAAATCCTGATCAACCAGCACATCAACTCTGAGAGTATTGATTTTCAGGGGGAACCTCTGAGAGGGCTTCAGATTATGGGGTTGCTGGAAACACGTCTTCTCAATTTTGAAAATGTTATTCTGCTTTCCGTAAACGAAGGTAAACTTCCCCTCGGGAATTCACAGAACACCTATATTCCTTTTGATATCAGAAGATTCTTTGATCTGCATACTTTTCTGGAAAATGACAGCATTTATGCCTATCACTTTTACAGATTGATTCAGGATGCTCAAAACGTTCATTTGTTGTACAATGCATTAAGTTCGGGAGTGAATACCGGAGAAAAAAGCAGGTTCATTACACAGATCGAAATGGAAAGTTCTCATGATATTGAACATGTCATTATTGAAAACTCTTCCGAGCCCATTGCTACCCAACCGATAGAAATTTGCAAGACACAGACTGTGCAGGACCGTCTTCAGAAATGGAAAGAAAAAGTTTCTGCTTCACACCTTACAAGCTATCTCTATAACCCTATTGATTTTTATCTTTCCAAGATTCTGAATACTTCGGAAACCGATGAAATTGAAGAGGAACTGTCAGTAAAAAATTACGGAAATCTTGTTCATTATTCACTTCAAGAAGTATATGAGGTTCTTAAAGGTAAGGTTTTAAAAGAAAGTGATTTAAAGAATTCAGTTAAAGCAATAGATCAATATATAAATATCGCTATTGAAAAGCTGAAACACCAGCCGGAATTCTATGAAAAAGGGATGAACTATATTCATAAAGCCATTGCTAAAAAGGTAATTGAGAACGTCCTTAACCATGATCTTGAACTCATAAAACAGGGCAATAAACTGGAAATAGTTGACATTGAAAGAAGGTTTGAAAATGTGGATTTTTCTCTCGAAGGCAATGATAAAATTTCTTTCTTCGGATTTATTGACAGGATTGATAAACTGAACGGAACACTAAGAATTATTGATTATAAAACGGCCAAGATCAAAAATCTTACTGTAAAAATTGATGAAGATAATGTTGCTGAATATTTCCATAACAGTGATAGGAAACAGGCACTTCAGCTTTGTATTTATCATTACGTAGTACAGCATCTTCCTGAGTTTTGGGGATTCCCTATTGAAACCGGGATATGGAGTTTTGCCGATGCTAAAAAGGGAATGGTCTCTTTACAATTTGACAAAGGAAATATTGATGACGCCATGAAATCTGTTAAAAGTCTTATCCTTGAAATTCTGAACCCGGATATAAATTTCGTAGAAACTATAAAAACGTATTAA	MKFLNKIIHELLAQNTDLSVFNIILPGKRPIVFIRRILEENNYSGFLPNFFTIEELINTIADQQLIQGIPLWLFSFDVYRSLNLIPRDDFSDFLKWFPTLQKDWDDILKFSDSDQAVLQYMFDEERIKEWAQDLGEDDDVPRKKFLNFWQNMNIFLPALKERLREKNWATSGMIHEAAKARIVDFAKNTGEEFIFCGFNAFTPVEEKLVRSLLQWNKAQCFFQADRYYFDDERQEAGKFLRNHKTWKEFDDNRAFQWIEDDFNQPKKIKVYEVSGNVTQTKVLPEIFKDINNKTYSNTAVVLLDENLLPASLDVMHGVDNLNITMGFPLKNLSFSNAVKRLFYLQKQLEKNKSSYYYRDVFPILEELPKSVEDEQIINDFKAKVEERNIVYISKKLLHELLGGLSYYGLLQKAVSTRIYLDMLIAFCQQVKWLEIDDIQYENVSHFENAFRIIKNQLTPYNIEIKMETLEILINQHINSESIDFQGEPLRGLQIMGLLETRLLNFENVILLSVNEGKLPLGNSQNTYIPFDIRRFFDLHTFLENDSIYAYHFYRLIQDAQNVHLLYNALSSGVNTGEKSRFITQIEMESSHDIEHVIIENSSEPIATQPIEICKTQTVQDRLQKWKEKVSASHLTSYLYNPIDFYLSKILNTSETDEIEEELSVKNYGNLVHYSLQEVYEVLKGKVLKESDLKNSVKAIDQYINIAIEKLKHQPEFYEKGMNYIHKAIAKKVIENVLNHDLELIKQGNKLEIVDIERRFENVDFSLEGNDKISFFGFIDRIDKLNGTLRIIDYKTAKIKNLTVKIDEDNVAEYFHNSDRKQALQLCIYHYVVQHLPEFWGFPIETGIWSFADAKKGMVSLQFDKGNIDDAMKSVKSLILEILNPDINFVETIKTY				NA	NA	NA	NA	NA
BMS003_01125	537			hypothetical protein	ATGAGATTGACTTTTGTAGTATGTTTATTAGCTGGAAATGCAGTGTTCGGACAGAAAATTATCTGGGAGGAAGGCAAAAAATTAACATGGGATAACTTTAAAAGTCCGGTTAACAAGAAAAAGAATCCTGATGTAGCTGCCTACACCCATTGTGGCTGGGAATTTTATTCTGTAAAATCTCCCGATCCAAAAGCACCCGTTACCATTACCATTAAAACGCTCTTTCATGAAGATAAATCCTGGAAAGATGTGAAAAGAATGGATGAGTATATCCTGCTGCATGAACAGAAACATTTTGATATTGCAGAATTATTTGTGAGAAAATTCAGAAAGGCAGTTGCTGAAAAAATTAAAAACTCTGGAGACTACAACAGATATTTCAAAGCAATTTATGACGGAATATCCATTGATTATAAAAACTTCCAGATGGCCTATGACAGAGAAACCCGTCATGGAATAGATAAAGAAAAACAAACCGAATATAATCAGTCAATTTCTGAACAACTAGACAACTTAAAAAGCTATCAAACCCTTTGA	MRLTFVVCLLAGNAVFGQKIIWEEGKKLTWDNFKSPVNKKKNPDVAAYTHCGWEFYSVKSPDPKAPVTITIKTLFHEDKSWKDVKRMDEYILLHEQKHFDIAELFVRKFRKAVAEKIKNSGDYNRYFKAIYDGISIDYKNFQMAYDRETRHGIDKEKQTEYNQSISEQLDNLKSYQTL				NA	NA	NA	NA	NA
BMS003_01126	405			hypothetical protein	ATGAAAAAACTTTTAAATATTGGATTTTCAGTATTCGTCTTGAGCGTGCTTCTGGTTTCTTGTGATGATGATGATTACAATACCATCGAATCTATTGATAAAATCAAAATAGACAGCGTAAAAATTGTCAATGATACCATGGCCGTTTTCGCAATACAGAGAATAAAGACTTATTCTACCTATCCCTCTAGCTGTGAGGGCTTTTACGGATATGATTATATGTACCATAATAATCTGGAAAGAACGGTAACTTCTTACAAATATATCACAAACGGACCTTGTGCACAGGGAAATTACGTGGGCGCAAATCAAATTAATTTCAGCCCTCAAAAAAAAGGAACCTATACTTTCAAATTCTGGAACGGAGGAAATAATTGGATTACCAAAACAATTGTAGTAGAATAA	MKKLLNIGFSVFVLSVLLVSCDDDDYNTIESIDKIKIDSVKIVNDTMAVFAIQRIKTYSTYPSSCEGFYGYDYMYHNNLERTVTSYKYITNGPCAQGNYVGANQINFSPQKKGTYTFKFWNGGNNWITKTIVVE				NA	NA	NA	NA	NA
BMS003_01127	636	rsmG		Ribosomal RNA small subunit methyltransferase G	ATGTCTGCATCGTTACTATTAAAATATTTCCCGGATCTTACTGAAAAACAGAAAGAACAGTTCTCTAAACTGGAAGAACTGTACAATGAATGGAATGAAAAGATCAATGTAATTTCCAGAAAAGATATGGAATCGCTGTATGAAAAGCACATTCTTCACTCTTTAGGAATTGCAAAAGTGATGGAATTTGCACCGGGAACCAAAGTTTTGGATATCGGAACCGGAGGCGGTTTTCCTGGTATTCCTCTGGCGATCCTTTTTCCTGAGGTAGAATTTACTTTAATTGATTCTATCGGAAAGAAAATCAGTGTAGTACAGGCTGTAACAGATGGAGTAGGATTGACAAATGTAACGGCTACCCACGGAAGAGCAGAAAAACTAAAAGAAAAATTCCATTTTGTAGTCAGCAGAGCGGTAACTCAAATGCCGGAATTTTTAAGATGGCTGAAAGGGAAATTTGAAAAAGAACAGCTTAATCCTAAGCATAATGGGATTTTATATTTGAAAGGCGGTGATCTTGCAGAAGAGCTTGCCGGAATTAAATGTGAAATTTTCAACCTTAAACACTATTTTGATGAAGAATTTTTTGATACTAAAAAAGTTGTTTATGTATCAAAAGGTAATTTTAATTCCTGA	MSASLLLKYFPDLTEKQKEQFSKLEELYNEWNEKINVISRKDMESLYEKHILHSLGIAKVMEFAPGTKVLDIGTGGGFPGIPLAILFPEVEFTLIDSIGKKISVVQAVTDGVGLTNVTATHGRAEKLKEKFHFVVSRAVTQMPEFLRWLKGKFEKEQLNPKHNGILYLKGGDLAEELAGIKCEIFNLKHYFDEEFFDTKKVVYVSKGNFNS				NA	NA	NA	NA	NA
BMS003_01128	1338			hypothetical protein	ATGAAATATTCCGTTTTTTTATTGCTCATATCCTGCACCGTTTTCTCTCAGAAACATTCAAAAGATGATGAAGTGAAAAAATATGTTGCTCAGGTGAGTGAGGATTCGCTAAAATCATATATCGGAAAGCTGGTAAGCTTTGAAACCCGGCACACCTTGAGTTCGGCGGATGATCCTAAGCGTGGAATAAGTGCAGCAAGGAAATGGGTTATCAAAAAATTCAATGATTATGCAAAAAATTCCGGAGGAAGAATGGAAGTGTATCTACAGCAGGAAGATATTCAGCCGGATGGAAAACGAATAGATAAAACTGTAAATCTTGGGAATGCTGTTGCTTTTCTGAAAGGAACAGATCCTGATGACAAGAGGGTTTTCCTGATCGGAGGACACCTTGACTCGAGAGTAACAGATGTCATGAACAGAACTTCAGCAGCACCCGGAGCTAACGATGATGGCAGTGGGGTAAGTGCTGTCATAGAATCTGCCAGAATATTGAGCAGGTCTTCATTTCCTGCTTCCATTATCTTTGTGGCCTTTTCAGGAGAAGAACAGTCGTTATTGGGGTCTAAACAATTGGCGGAAAAGATTAAAAGAGAAAATTTACAGCTGGAAGCAGTTTTGAACAATGATATGATTGGTAATCCCAAAGCGGGAGAAACAGGAGAGATCAATACCCGTATTCTTCGCGTATTCAGTGAAGGGTTGCCTTATAAAGATCTGGATAAAAAAGCAATGATGATCAGAAATCTGGGCTTTGAAAACGACAGTGAATCCAGGCAGCTGGCCCGCTATATCAAAGAGATTACAGAACAATACGTAAAAGGGCTGGAGGTAAAGCTGATCTACAGAAACGACAGGTTTTTACGCGGGGGTGATCATACAAGTTTTGTCAGTAACGGATTTCCTTCCGTAAGACTGACTGAATATTATGAAAACTATGATCACCAGCATCAGGATATCAGGATTGAAAATAATAAGCAATATGGAGATCTTCCAGAGTTTATAGATTTTAAATACCTGAAGAAGAATGTTGCTGCCAATGTTGCCGTACTGGCCAATCTTGCAAAATCCACTTCGAAGCCGGAGAAAGTTGAAATGGATGTGAAAGAACTGACCAACTCAACGACCTTGCATTGGGAAAAACCAAGATCCGGAACGCCAAAGGGATATTACATACTCGTAAGGGAAACGGACAGTCCGGCCTGGAAGAAAAAAATATTTACAACAGAACTTTCCATGAAGATTCCGCTTTCGAAAGACAATTATATTTTTGCTGTACAGAGTATCAGTCAGTCAGGAAACCTTGGTGTACCTGTAATACCGGGGATTGCAAAGTGA	MKYSVFLLLISCTVFSQKHSKDDEVKKYVAQVSEDSLKSYIGKLVSFETRHTLSSADDPKRGISAARKWVIKKFNDYAKNSGGRMEVYLQQEDIQPDGKRIDKTVNLGNAVAFLKGTDPDDKRVFLIGGHLDSRVTDVMNRTSAAPGANDDGSGVSAVIESARILSRSSFPASIIFVAFSGEEQSLLGSKQLAEKIKRENLQLEAVLNNDMIGNPKAGETGEINTRILRVFSEGLPYKDLDKKAMMIRNLGFENDSESRQLARYIKEITEQYVKGLEVKLIYRNDRFLRGGDHTSFVSNGFPSVRLTEYYENYDHQHQDIRIENNKQYGDLPEFIDFKYLKKNVAANVAVLANLAKSTSKPEKVEMDVKELTNSTTLHWEKPRSGTPKGYYILVRETDSPAWKKKIFTTELSMKIPLSKDNYIFAVQSISQSGNLGVPVIPGIAK				NA	NA	NA	NA	NA
BMS003_01129	837			hypothetical protein	ATGAAGAAGATATTCAAAGCTTTGCTGCTGTTATCCACATCGCTTTTTTATGCGCAGAACTACCGTTTTATTTACGAGTATAGAATGAAGCCGGATATTGAAAAGAAAGATTCCGTAGTTGTCAATTATATGAACCTTGATACGGATGGAAAAAAATCCTATTTTGCCAATGCTGTTAAATACGAAAGAGATTCAGTATACAAGGCAGATAAAAGTTATTCTGCACTGTTAAAAGCCAAAAGTTATGATCGTAACTTGAGCTATATTATCGAAAAAGACTATTCCCGGAAAACGGTAAATCTGTATGACAAATATAAAAATGTAAATCTGGTCACTATAGATCAGGAACACCCAAAATGGAAAGTAGAAAAAGAGTTTAAAGTGATCAACAACCTGGACTGCCAGAAAGCTGTCGCAGATTATAAAGGCCGAACCTGGGAAGCATGGTTTAGTAAAGACTTTCCCATAAGTGATGGTCCTTACAAATTCAGTGGTCTTCCAGGACTTGTGATTGCTCTTAAAGATACGGAGAGTGATCATGTTTTTGAACTGATTCAGATTAAAAAAATTAAAGCAATCACTGCCTTTATACCTAAAAATAACAAGCAGATGAGTGGTGGGGAATATAGAAAACTGATTAAAAACTATACTTTCAATCCGGGAGAGGATATTGCGGCAATGAATATGGATTCCAAAGCAGGAACCATGGAAATGCAGCTCAAGGATGGCTATGTTACTCAGCTGGATCTTCATAAACTCAGACAGCATGGAGCAAAAATGGATGATGCTATTGCGCAGATGCTAAGAATGACCACTAATCCTATTGAAAGAGATTGA	MKKIFKALLLLSTSLFYAQNYRFIYEYRMKPDIEKKDSVVVNYMNLDTDGKKSYFANAVKYERDSVYKADKSYSALLKAKSYDRNLSYIIEKDYSRKTVNLYDKYKNVNLVTIDQEHPKWKVEKEFKVINNLDCQKAVADYKGRTWEAWFSKDFPISDGPYKFSGLPGLVIALKDTESDHVFELIQIKKIKAITAFIPKNNKQMSGGEYRKLIKNYTFNPGEDIAAMNMDSKAGTMEMQLKDGYVTQLDLHKLRQHGAKMDDAIAQMLRMTTNPIERD				NA	NA	NA	NA	NA
BMS003_01130	1194	aatA	COG0436	Aspartate/prephenate aminotransferase	ATGGATAAACTTTCAGATAGAGTAAAAAGATTAGGATACTCACAGACATTTGTAATGTCAAACAAAGCCAGAGAAATGAAAGCCAACGGAATAGATGTAATCAGCTTAACTCTTGGTGAACCTGATTTCGATGTTCCGGACAATATCAAACAGGCAGCTTTCGATGCCATCAATCAAAATTATAGCCACTACTCTCCTGTTCCGGGATTTCTGGAGCTACGTGAAGCTATTGCTTATAAATTAAAAAGAGATAATAATCTTGAGTACAAGCCAACTCAGATCTGCGTTTCAAATGGTGCCAAACAATCCATCATCAATGTTCTGGCAGCTATTATCAATGATGGTGATGAAGTTCTTCTTCCTGCTCCTTACTGGGTAAGCTATGATGAAATGGTAAAAATGATGGGAGGAACTTCTGTAATACTTCCCACATCTTATGTTACCGACTTCAAAGTGACTGCAGAACAGCTTGAAGAAGCGATTACGGAAAAGACCAAAGCAGTACTTTTCAGCTCTCCATGTAACCCTTCAGGAGGATATTATACGTATGACGAATTAAAATCTATCGCAAAAGTAATTGCTAAATACCCTCAGGTAACAATTATCTCTGACGAGATTTATGAATATATCAATTATGAAACTAACACAACTTCCATTGCTCAGTTTCCTGAAGTGTATGAACAGACAGCCGTAATCAACGGAATGTCAAAAGCATTTGCTATGACAGGATGGAGAATCGGGTATTCTGCGTGTCCGGAATGGCTGGCAAAAGCCTGTGAAAAAGTACAGGGGCAAATGACCAGCGGCGCCAATACAGTAGCACAGAGAGCTTCTATTGTTGCGCTGAAAACAGCCCCTTCTGAATACAGATATATGATAGATGCTTTCAAAAAGAGAAGAGATCTTGTCTATGAACTGATCAAAGAAATTCCAGGATTCAAGGTAGTACTTCCAAAAGCTGCTTTCTATTTCTTCCCGGATATTTCACATTATATCGGAAAAACGCTGAACGGTACAGAAATTAAAAATTCTGATGATTTCGCCATGTTCCTTCTGGAAAATGCTCATGTAGGATGTGTAGGCGGATTCTCTTTCGGAAGTCCGGAATGTATCAGATTCTCTTATGCTGCTTCTGAGGAAGAGCTGAGAGAAGCTATGAAAAGAATTAAAAATCTGTTAGAACCATTTAATTAA	MDKLSDRVKRLGYSQTFVMSNKAREMKANGIDVISLTLGEPDFDVPDNIKQAAFDAINQNYSHYSPVPGFLELREAIAYKLKRDNNLEYKPTQICVSNGAKQSIINVLAAIINDGDEVLLPAPYWVSYDEMVKMMGGTSVILPTSYVTDFKVTAEQLEEAITEKTKAVLFSSPCNPSGGYYTYDELKSIAKVIAKYPQVTIISDEIYEYINYETNTTSIAQFPEVYEQTAVINGMSKAFAMTGWRIGYSACPEWLAKACEKVQGQMTSGANTVAQRASIVALKTAPSEYRYMIDAFKKRRDLVYELIKEIPGFKVVLPKAAFYFFPDISHYIGKTLNGTEIKNSDDFAMFLLENAHVGCVGGFSFGSPECIRFSYAASEEELREAMKRIKNLLEPFN	PGPT0020110_2717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS003_01131	2940			hypothetical protein	ATGAATCTGTTAAAAAAACTAACCATCGCGACAAGTATTGCCGCTGCAAGTTTCGCAGGAAATGCTTTTGGCCAGGATTTTCAATGGAAAGAAGCTACTTCCAACGGCTATAAGTACAAGTACGTAACCAATGATCCTACTTCCGCAAGGTATTACATCTTGAAAAACGGATTAACAGTTATTTTGAGTCCTACGAATAAGGACCCGAGAATACAAACGTATATTGCAACAAAAGCAGGAAGTAAAACCGACCCTGCAGACCACACCGGTCTTGCCCATTATCTTGAACATATGCTTTTCAAAGGAACAAACCAGTTCGGATCTAAAGACTGGGCAAAAGAAAAACCTCTTTTGGACCAGATTGATGCTCTTTACGAAAAGTATAATCAGACAAAGGACGAGGCTAAAAGAAAAGAAATCTATAAAGAAATTGACAAGGTTTCCGGAGAAGCAGCCAAATACGCCATCGCGAATGAGTACGACAAAATGATGGCTGGTATGGGAACAGATGGGTCTAATGCTTTTACTTCTTTTGAACAAACGGTGTACACGGAAGATGTGCCGGCAAATGTTCTTGACAAATTCCTTGCTGTACAGGCTGAAAGATTCAGAGAGCCGGTTTTGAGATTATTCCATACAGAGCTTGAGGCTGTATATGAAGAAAAAAACAGATCTCTTGATGATGACGGTGATAAAGTTTTCGATACGATGTTTGCGAACCTTTTCCCGAACAACAATTATGGAAAGCAAACAACCATCGGAACCATTGAACACCTGAAAAACCCTTCTCTGCATGCCATCAGAGAATATTACAACAGCTATTATGTTCCTAATAACATGGGAATCATTATGTCCGGAGATTTTAATCCGGATGAAGTTATTGCAAAGATAGATAAGGCTTTCTCTTACATGAAGCCTAAAGCCATTCCTGAATATAAAGTAGGACAGGAAAAACCCATCACTGCTCCGGTTGTAAAAGAAGTTGTAGGCCCTAATCCCGAAAATATAATGCTTGGTTTCAGATTTCCGGGAGCTTCTACCAAAGATGCAAGAATGCTGAATCTTGTCGGAAACATGCTTACCAATGGACAGGCAGGGCTGATTGACCTTGACCTTGTAAAAAAGCAAAAATTACTGGGAGCTTACGCCGGATCTTACGCATTAAAGGATTATTCCGTTTTACTTTTGCAGGGAAAACCTACAGAAGGACAATCTCTGGATGAAGTAAAAAATCTTCTTCTCCAGGAAATTGATAAATTGAGAAAAGGTGATTTTTCTGATGACCTGATCCAGTCTATCGTTAACAACGAAAAGAAAGGGATTATTCAGAAAGATGAGAAATATTCGTCAAGAGCAAGCATCCTGATGGATGAATTTACTTCGGATATTGACCATAAAGCATCTTTGGAATATGTGGATGAAATTTCAAAGCTGACGAAAAAAGATATCATGGATTTTGTATCTAAATATCTTCAGAACAACAACTACGTTGCAGTTTACAAAAGAAAAGGAGAAGACAAAAGTATTGTAAAAGTTGACAAGCCAACTATTACACCGGTTTCCGTCAACAGAGAAGACCAGTCTCCTTTCCTTAAGAAGATTGATGAAATGCCCGAAAACCCTATCGCTCCGGTATGGTTGAATTATGACAAAGACATTGCTAAAAGCAAATTGGCAGATATAGATATACTTTCTGTGAAAAATACAGACAATGCATTGTTCAGGATGTACTATCACTTTGATTCAGGAAAATGGAACAACAAAATCCTTCCATTAGCTGCGGAATATCTTCAGTATTTAGGAACTAAAGATAAAACGTCCGAAGTCATCAGTAAAGAATTTTACAAACTGGCTTCAAGCTTCAATGTAGGAGCAGGAAATGAAGAAACCTACGTATCCCTTGAAGGTCTGAATGAAAACTTTGATAAAACCATTGCTTTATTTGAAGATCTGATCAAAAACTGCCAGGCAGATCAGGCAGCTCTTGATGCTTACAAAACGAGATTAAAGAAGGCTAGAGCCAATGCTAAGCAAAACAAAGGAATCATTATGGCCGGATTGAGAAGCTACGCCCAATATGGTGCTCAGAATCCTTTCAATAATGTACTGAGCGATGCTGAACTTGATGCATTAAAAGCCGAAGACTTAATTAATGCCCTTCACGATCTGTTCAATTTCAAGCACAAAGTACTTTATTATGGTCCAAAATCAGGAAACGAAGTGGCAGCATCTTTAAAACCTGTTCACAAACTTCCTGCAACCCTAAAAGAACTTCCTAAATCTAAAACATTTGTTCAGATCCCAACTGATAAGAACAAGGTATTATTTGCTCACTATGACATGGTACAGGCAGAGGTTTTCTGGGTAAGAAATTCTGACCTCTATAATTCTTCCATTACGCCAACAGTAAGTTTGTTCAATAATTATTTCGGAGGCGGAATGGGGTCTATCGTATTCCAGACCATCAGAGAATCAAAAGCACTTGCTTACTCTACTTATTCTTACTTTGCACTTCCAAGCAAGAAAACAGACAAGGATATGGTTATGGCTTATGTAGGAACACAGGCAGATAAATTCAATGAGTCTACAACAGCTATGAATGAACTTCTGACTACCCTTCCAAAATCTGAACAGCTATTCGAAACAGCGAAAAGCGGATTAAAAAAATCAATTGCCTCTGAAAGAATTACTCAGGACGGAATCATCTTCTCTTATCTGAAATCCCAAAGACTTGGAAATAACTTTGATATGAGAAAGAATGTCTATGAACAGGCTCCAAAACTGTCTTTCACAGATATCAATTCTTTCCACGATAAAGAAATGAAGAATAAAAACTACACCTACTGTATTGTCGCTTCTCAAGACAAAGTGAATGAAGCAGATATGCAGAAATTAGGGGAAGTAAAAAAACTTAATCTAACTGAAATATTTGGTTATTAA	MNLLKKLTIATSIAAASFAGNAFGQDFQWKEATSNGYKYKYVTNDPTSARYYILKNGLTVILSPTNKDPRIQTYIATKAGSKTDPADHTGLAHYLEHMLFKGTNQFGSKDWAKEKPLLDQIDALYEKYNQTKDEAKRKEIYKEIDKVSGEAAKYAIANEYDKMMAGMGTDGSNAFTSFEQTVYTEDVPANVLDKFLAVQAERFREPVLRLFHTELEAVYEEKNRSLDDDGDKVFDTMFANLFPNNNYGKQTTIGTIEHLKNPSLHAIREYYNSYYVPNNMGIIMSGDFNPDEVIAKIDKAFSYMKPKAIPEYKVGQEKPITAPVVKEVVGPNPENIMLGFRFPGASTKDARMLNLVGNMLTNGQAGLIDLDLVKKQKLLGAYAGSYALKDYSVLLLQGKPTEGQSLDEVKNLLLQEIDKLRKGDFSDDLIQSIVNNEKKGIIQKDEKYSSRASILMDEFTSDIDHKASLEYVDEISKLTKKDIMDFVSKYLQNNNYVAVYKRKGEDKSIVKVDKPTITPVSVNREDQSPFLKKIDEMPENPIAPVWLNYDKDIAKSKLADIDILSVKNTDNALFRMYYHFDSGKWNNKILPLAAEYLQYLGTKDKTSEVISKEFYKLASSFNVGAGNEETYVSLEGLNENFDKTIALFEDLIKNCQADQAALDAYKTRLKKARANAKQNKGIIMAGLRSYAQYGAQNPFNNVLSDAELDALKAEDLINALHDLFNFKHKVLYYGPKSGNEVAASLKPVHKLPATLKELPKSKTFVQIPTDKNKVLFAHYDMVQAEVFWVRNSDLYNSSITPTVSLFNNYFGGGMGSIVFQTIRESKALAYSTYSYFALPSKKTDKDMVMAYVGTQADKFNESTTAMNELLTTLPKSEQLFETAKSGLKKSIASERITQDGIIFSYLKSQRLGNNFDMRKNVYEQAPKLSFTDINSFHDKEMKNKNYTYCIVASQDKVNEADMQKLGEVKKLNLTEIFGY	PGPT0001280_73	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS003_01132	633	ahpC	COG0450	Alkyl hydroperoxide reductase C	ATGTCTTTAGTAGGAAAAAAATTCCCAAACTTAACAATTGACGCAATGTCTGAAATGGGTGACGATTTAAGAATCAACATCCTTGATGAAGCAGTAAACAACCAGCAAAAAGTTCTTTTATTCTGGTACCCTAAAGATTTCACTTTCGTATGCCCTACTGAGCTTCACGCTTTCCAGGAGGCTTTAGGTGAGTTCGAAAAAAGAAATACTAAAGTAATCGGTGCATCTTGTGATACTAACGAGGTACACTTCGCATGGCTGAACACACCAAAAGATAACGGAGGTATTGAAGGGGTAACGTACCCGCTTTTAGCTGATACTCACAGACAATTAGCAAACACATTGGGAATTGTTGACCAGGACTTCGAATATGATGAAGATGGAAATGAAGTTTTCACAGGTTCTAACGTAACTTACAGAGCAACTTACCTTATTGACGAAACTGGAAAAATCTTCCACGAAGCAGTAAACGACATGCCATTAGGAAGAAACGTAAAAGAATTCTTAAGATTGATCGACGCTTACACACACGTACAAAAGCACGGTGAAGTATGTCCTGCAAACTGGGAAGAAGGGAAAGATGCTATGAAAGCTGACAGAACTTCTACTGCAGAATACTTAGCTAAGAACTAA	MSLVGKKFPNLTIDAMSEMGDDLRINILDEAVNNQQKVLLFWYPKDFTFVCPTELHAFQEALGEFEKRNTKVIGASCDTNEVHFAWLNTPKDNGGIEGVTYPLLADTHRQLANTLGIVDQDFEYDEDGNEVFTGSNVTYRATYLIDETGKIFHEAVNDMPLGRNVKEFLRLIDAYTHVQKHGEVCPANWEEGKDAMKADRTSTAEYLAKN	PGPT0013130_1207	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
BMS003_01133	309			hypothetical protein	ATGTATACAGAATTAACCGAAGATACATTACAAAATATAGTGAACGACAACGAAAAAGTAGTTGTTCAGTATGGCGCAACATGGTGCGGAAACTGCAGAATCATGAAGCCGAAATTCAAAAAATTAGCCTCTGAAAATGATTCTATTCCATTTTTATATGTGGATGCTGAAAAACTTCCGGAAAGCAGAAAATTAGCAAAAGTAGATAACTTACCTACTTTCGCCATCTTTAAAAACGGAGAACTGGTAAACCAGGTTCAGTCTAACCAGGCTGAAAGTTTAATTAACCTTTTTAACGAATTAGCATAA	MYTELTEDTLQNIVNDNEKVVVQYGATWCGNCRIMKPKFKKLASENDSIPFLYVDAEKLPESRKLAKVDNLPTFAIFKNGELVNQVQSNQAESLINLFNELA	PGPT0013055_11075	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS003_01134	249			hypothetical protein	ATGAAATTACCCGTAATCAGACAGTTTTATCAGAATCAGACTCCTGAAAACCTTGAAAAAACATTAGAAGTACTGGAAAGCTTCTGCGAATTCAGAGGAACAAGCGAAGAAGACCTGAATGTTGCAGGAGAACTGATCACCAACATCTGCGGAGCTCTGGAAGTTCACGCCAACGTACAAAACGGAATGAGTGAAAAAGATGCTTTAAACTCTTTTGCTCAGAAGGTTTTAGGATCCATAGACAAATAA	MKLPVIRQFYQNQTPENLEKTLEVLESFCEFRGTSEEDLNVAGELITNICGALEVHANVQNGMSEKDALNSFAQKVLGSIDK				NA	NA	NA	NA	NA
BMS003_01135	690			hypothetical protein	ATGATGACAGATGTTTTAGTCGCTCATTCTTCCGATGTGGAGAAGGCGAATTTTTACAAGAAGACGTATTTGCATGTTGCTTTATCCATTCTTGCATTTATTGGGGTTGAAACTATATTATTAAAAACTGTTCCGGTTGAACTGATTGCTATGATGTTCGGTCAGAGATATATCTGGCTGCTGATCATTGGGGTTTTCTGGCTGGCTTCTGTTTTGGCTTCCAAATGGTCTCTTTCGCAAAGTAAATCTACCCAATACTTGGGATTAGGATTTTACATTTTGCTGGAAGCAATTATTTTCATGCCCTTGCTTTTTATTGCGACTAATATTGAAGGTGGAGCGAATGTGATTTTTCAGGCTGCTACTTTAACGATTGCAATGTTTGCAGGTATTTCTGCTGTAGCATTCACTTCCAAAAGAGATTTTTCTTTCCTAAGAAATATCATTGTGATCGGTGGCTTTATTTCTATCGGACTTATTGTAGGAGGAATGATCTTCGGGTTTAACCTTGGTTTATGGTTCTCAGTTGGAATGGTGATTTTAGCGTCAGCTACTATTTTATATCAGACCAGTAAATTAAAAGATTATTATGGAACGAATCAGTATGTAGGAGCAGCATTGCAGCTTTTTGCTTCCATTATGCTTTTATTCTGGTATATTTTAAGTATTTTGATGAGCAGGAGAAATTAA	MMTDVLVAHSSDVEKANFYKKTYLHVALSILAFIGVETILLKTVPVELIAMMFGQRYIWLLIIGVFWLASVLASKWSLSQSKSTQYLGLGFYILLEAIIFMPLLFIATNIEGGANVIFQAATLTIAMFAGISAVAFTSKRDFSFLRNIIVIGGFISIGLIVGGMIFGFNLGLWFSVGMVILASATILYQTSKLKDYYGTNQYVGAALQLFASIMLLFWYILSILMSRRN				NA	NA	NA	NA	NA
BMS003_01136	438			hypothetical protein	ATGAAAAAATTATTGCTGGGACTTACTCTTGTGGCCGGACAGTTGATGTTTGCACAGAAAGTAGGAGGAGTGAAGGTTGAGAGCAGTCAGAAGAAAGATCAGCAGGCTGCTATAAGCAAGGAAAAAGTGAGTTTGTATAACGATAACTTCCTTAAGTTTGTTGAGGCTCTGCAGGCTTCTGACCGTAAAACTATTGATGGGCTGCTGTCTGAAAAGGTAAAAGAAATTGTAACGGATGATGTACTTAAAAAGGTAAAAGACGGTATTGATTCCAATAAAAAGCTTGAAGTTCTGAAAGCAGGATATTATAAAACGATGGACGGAGTGAATCATCCAAGTATTAAATATAAATATGCCGGAGAATCATCTTCTAAAGAAGCTATTACAGCTGTATTTGAGGATAATGGGAAAATTCTGGGTGTATTGCCTGCGAAATAG	MKKLLLGLTLVAGQLMFAQKVGGVKVESSQKKDQQAAISKEKVSLYNDNFLKFVEALQASDRKTIDGLLSEKVKEIVTDDVLKKVKDGIDSNKKLEVLKAGYYKTMDGVNHPSIKYKYAGESSSKEAITAVFEDNGKILGVLPAK				NA	NA	NA	NA	NA
BMS003_01137	1035			hypothetical protein	ATGAATACCGAAAATCAAGTTTTAGGACTTATTAAATTAAGTGATTATATAAAAGCGTTTTTAGCGAAGAAACCGGAAGATCACAATGAAGATGATGCAGATATTGAATTATTGTTGAAAAGATCAGAAATAGAGAATCCGTGGTTTACTATTGATAATCAGAAATTTGCTTTGCAGCAATGGACAGATCTTCTGACTGAAGAAAATATCAAAAACTGGCTTGGAAATTATTCAATCTCTAAAATTTCAAAGAGAGTTGGACTTATTTTAGCAGGAAATATCCCTTTAGTAGGGTTTCATGATGTGATTTCTGTTGTATTGGGCAATCATATTCCTGTGATTAAACTATCTTCAAAAGATAAGTACATGATTCCGTTTTTATTAAAGAAATGGAAAGAATTTTCTAATGAAAATGTTGCCTTTGAATTTGTAGAAAAATTAGAAAATTTTGATGCCGTTATTGCTACAGGAAGTAACAATACTGCCAGGTATCTGGAATATTATTTTAAAAATCATTTAAGCATTATCCGTAAAAACAGAACTTCTGTTGCTGTGCTGAAAGGTGATGAGACCAATGAGGAACTCCAGCTTCTGGCAAAAGATATTTTCCAGTATTTTGGACTAGGATGCAGGAATGTGACGAGAATTTTTATTCCACAGGATTTTGTGATTGACAGATTGTTCGAAAACTTCTTAGGTTACCAGGATATTATCAATCATAATAAGTATGTCAACAACTATGATTATAACAGAGCGGTTTATCTTTTGAATCAGGATAAGTTCTGGGATAATAATTTTGTGATGCTGAAAGAGGATGATAAGCTGTTCAGTCCGCTTTCTGTAATCAATTTCAGCAGATATGAATCTTTGGATGATGTAAAAGTATTTATGGCAGAAAACGAAGAAAATATCCAGTGTGTAGTAGCAAAAGAAGAGATGGGGCTGAATGCAGTTCCGTTTGGAGAAGCGCAAAATCCAGGACTTGATACCTACGCAGATAATGTGGATACAATGAAATTTTTAGGATTGGTCTGA	MNTENQVLGLIKLSDYIKAFLAKKPEDHNEDDADIELLLKRSEIENPWFTIDNQKFALQQWTDLLTEENIKNWLGNYSISKISKRVGLILAGNIPLVGFHDVISVVLGNHIPVIKLSSKDKYMIPFLLKKWKEFSNENVAFEFVEKLENFDAVIATGSNNTARYLEYYFKNHLSIIRKNRTSVAVLKGDETNEELQLLAKDIFQYFGLGCRNVTRIFIPQDFVIDRLFENFLGYQDIINHNKYVNNYDYNRAVYLLNQDKFWDNNFVMLKEDDKLFSPLSVINFSRYESLDDVKVFMAENEENIQCVVAKEEMGLNAVPFGEAQNPGLDTYADNVDTMKFLGLV				NA	NA	NA	NA	NA
BMS003_01138	351	fdx_1	COG1145	Ferredoxin	ATGGCTATTAAAATAACTGATGAATGCATTAACTGCGGGGCTTGCGAACCGGAATGCCCAAACAATGCAATATATGAAGGAGCTGTAGATTGGAAAGCTTCTGACGGTACGGCTCTTCAAGGTACGATTACGATGCCGTCGGGACTTACTGTAGATGCCAATTCACCACAGGAACCTGTAAGTGATGATGTGTACTTCATTGTAACAGATAAATGTACAGAATGTAAAGGATTCCACGAAGAACCTCAGTGTGCTGCTGTATGCCCGGTAGACTGCTGTGTGCCAGACGAAGACCACGTAGAATCTGAAGAAGCACTGCTTAACAAAAAAGCATTCTTACACGGCGAATAA	MAIKITDECINCGACEPECPNNAIYEGAVDWKASDGTALQGTITMPSGLTVDANSPQEPVSDDVYFIVTDKCTECKGFHEEPQCAAVCPVDCCVPDEDHVESEEALLNKKAFLHGE	PGPT0003976_161	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
BMS003_01139	1065	serC	COG1932	Phosphoserine aminotransferase	ATGAACAAAAAGCACAATTTCAGCGCAGGACCATGTATTTTGCCACAAGAGGTATTTGAAAAATCAGCACAGGCCATCCTGGATTTTAACGGTATCGGATTATCTCTTCTTGAAATTTCTCACAGAAGCAAAGATTTCGTTGCAGTAATGGACGAAGCGCGTGCCATTGTAAAAAGATTAATGAATCTTGGTGATGATTATGAAGTACTTTATTTAGGAGGAGGCGCCAGCCTGCAGTTTGCAATGGTTCCTTACAACCTGATGAAAGTAGGTGGAAAAGCAGCTTACCTGGATACAGGAACATGGGCAGCCGGAGCCATTAAAGAAGCAAAAAAAGTAGGAACAGTAGATGTAGTAGGTTCTTCAAAAGAAGAAAACTATTCTTTTATTCCTAAAAATTATACGGTAGGTTCAGAATATGATTATTTCCACTGTACCTCCAATAACACGATCTACGGAACTCAAATGAAATCTTTCCCCGATGTGGATACACTGATGGTTTGTGATATGAGTTCTGATATTTTCTCCAGACAACTGGATTTCTCCAAATTTGATATAATCTATGCCGGTGCTCAGAAGAATATGGGACCTGCAGGAGTTACTTTGGTAGTGATAAAAAAAGAAATTCTTGGTAAAACAGGAAGAGAAAATATGTTTTCTATCCTTGATTATTCTCAGCACATTTCTAAAGAATCCATGTACAATACACCACCGGTATTTCCTGTATACGCATCTTTACTTACCCTTCAGCATCTTGAGAAAAACGGAGGAATTGCTGCCGCAGAACAAAGAAATGAAGCAAAAGCAAAGCTTTTGTATGATGAAATCGACAGTAACCCGTTATTTGAAACTTTCTGCGTAAAAGAAGACCGTTCATTAATGAATGTTTCCTTCAAAATTACAGACGAAAGCAAGAAAGAAGAATTTGACAATGCATGGAAGGCTGCAGGTATCAGCGGACTGAACGGACACAGAAGTTTAGGCGGATACAGAGCAAGTCTATACAATGCCTTGCCTATTGAAAGCGTACAGATTTTGGTAGATGTAATGAAGTCAATAAAATAA	MNKKHNFSAGPCILPQEVFEKSAQAILDFNGIGLSLLEISHRSKDFVAVMDEARAIVKRLMNLGDDYEVLYLGGGASLQFAMVPYNLMKVGGKAAYLDTGTWAAGAIKEAKKVGTVDVVGSSKEENYSFIPKNYTVGSEYDYFHCTSNNTIYGTQMKSFPDVDTLMVCDMSSDIFSRQLDFSKFDIIYAGAQKNMGPAGVTLVVIKKEILGKTGRENMFSILDYSQHISKESMYNTPPVFPVYASLLTLQHLEKNGGIAAAEQRNEAKAKLLYDEIDSNPLFETFCVKEDRSLMNVSFKITDESKKEEFDNAWKAAGISGLNGHRSLGGYRASLYNALPIESVQILVDVMKSIK	PGPT0009160_4272	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
BMS003_01140	966		COG0111	Hydroxypyruvate reductase	ATGAAAGTTTTAGCAAACGACGGAATTTCAAAAGCAGGAGAAAAGACCCTAAAAGAAGCCGGGATTGAAATTCTGGACAATAGAGTGGCTCAGGATCACGTTATTAATTTTATCAACGATAATAATGTGAATGTTCTTCTGGTAAGAAGCGCAACAAAAGTGAGACAGGATCTGATTGATGCATGCCCGGGCCTTAAAATCATTGGAAGAGGCGGTATCGGAATGGACAATATTGATGTAGAATATGCCAGAAGCAAAGGTATTAAAGTAATCAATACCCCTACAGCATCTTCAAAATCAGTAGCAGAACTGGTTTTCGGGCACTTTATTTCACTGGCAAGATTCCTTCACGAATCTAACAGACTGATGCCTCTGGAAGGTGAAACCCATTTCAACACCATGAAAAAGTCTTTCAGCAATGCGTATGAACTTTCAGGAAAAACATTAGGAGTAATCGGCTTTGGAAGCATTGGCCAGGAAGTCATAAAAATAGGAATTGCCTTAGGAATGAAAGTAACGGTTCTTACAAGAAGCCCTAAAACAGAAGTTCTTACTCTGAATTTCTTCAACGGGCAGTCTGTAGACTTTGAAATCACTTCCACCAATGATATGGATGCATTCCTTAAAGATGCAGATTTTATCAGCATCAATACGCCGAAAACGAATGAATATATTATAGATACCCCTCAGTTTGAAAAAATGAAAGACGGTGTCTATATTGTAAATACTGCAAGAGGTGGTGTCATCAATGAAGTGACCCTTATCGATTTTATTGAGTCAGGAAAAGTAGCCGGAGCAGCACTGGACGTTTTTGAAAACGAGCCCAGCCCGGAATTACCTTTACTAATGAACCCTGCATTATCACTTTCTCCTCACGTAGGTGGTAATACAGTAGATGCGCAAGAAAAAATCGGTATCGAACTTGCAGAACAAATTATTAAGCTACAAAAAGAAACTATAAGATAA	MKVLANDGISKAGEKTLKEAGIEILDNRVAQDHVINFINDNNVNVLLVRSATKVRQDLIDACPGLKIIGRGGIGMDNIDVEYARSKGIKVINTPTASSKSVAELVFGHFISLARFLHESNRLMPLEGETHFNTMKKSFSNAYELSGKTLGVIGFGSIGQEVIKIGIALGMKVTVLTRSPKTEVLTLNFFNGQSVDFEITSTNDMDAFLKDADFISINTPKTNEYIIDTPQFEKMKDGVYIVNTARGGVINEVTLIDFIESGKVAGAALDVFENEPSPELPLLMNPALSLSPHVGGNTVDAQEKIGIELAEQIIKLQKETIR	PGPT0009155_6441	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS003_01141	1245			hypothetical protein	ATGCCTGTTTTTAAACCTTTCCGTGGAATAAGACCTCATAGAGACTTTGAGAGTACTTTCCCTACCCATCCACTGGATAATTTCACCCAGGAAGAGATTGCAGAGAAAGCTCAAGTTGAAAATACTTACATCAATATGATTAAACCCTATGTTGTAAGTAAATCTAAAGATATTGACCGGAACCTGCGAAAGATCCGTTCTACATTTGAAGAACTTCTGGACGAAAATAAATTGGTTCAGGACAATTCAGCCTACTATCTTTATGAACAGATCTATCCCAACAAACAGGTTTTCAGAGGACTTCTCGGGTTGGCCAGTATCGAAGATTTCTGGAGTGGAAAAATCAAAAGACACGAAAGTACCATTCCTCAGAAAAAGGAAAAACTTGCTCATTACCTTGAAAAAGTAAACCTTCAGGCCGAACCTGTGCTGCTTACCTATCCTGCCAATTCAAAAATTGAGCTGCTGATGAACCACGAGGAAAAAAATGTTCCTATCTTCAATCATGTAGACTCTATCGGGATCAGACATAAGATCTGGAGAATAGACAACCGTCTGAAACTACAGCAATTTAAAGAAGTAATAGATCAGATAGACTCTTTCTATATTGCTGACGGACACCACAGAATCGGGTCTACAGCAATCAACGCAAAGCGTCATAAAGAGAAAAACAAAAAACATAACGGTACAGAGCTTTACAACTTTGTATACAGTTTCATTGTATCCAACCAGTCTATTAAAATTCATGATTACAACAGAATTTTACATGATCTGAATGGTATTTCTCCGGAGGACTTCATCAAAGAACTTGAACAGTATTTTCTTATTCACGAAAAAGAAGAAACACCTTACTACCCTTCTCAGAAGTTCCATATATCAATGTATATGGACGGGAAGTTCTACTCTCTTCACGTAAAGCATGACCTCCGCTCTGTAGAAATGTCTCTGGATAATCTGGATCACCACCTTTTAGACAAATATATTTTCAAAAAAATCCTGAAAATTGAAGATCCGGATAGCTCTGAACTTATATCTTATGTAAAAGGAACTTCCGATATCAACGGAATCAATCTTTTAAAAGAAAAAATAGACAATGGCGAAGGTAAAGTGGGCTTTGGTATTTATCCTGTAAGCTTTAATGATATGATTAAAATTTCAGACTTAAAACTAAGCATGCCTCCGAAATGTACATTTATTGAGCCAAAATTAATTACAGCTCTGTTAATGTACGACATGAAACCTTAA	MPVFKPFRGIRPHRDFESTFPTHPLDNFTQEEIAEKAQVENTYINMIKPYVVSKSKDIDRNLRKIRSTFEELLDENKLVQDNSAYYLYEQIYPNKQVFRGLLGLASIEDFWSGKIKRHESTIPQKKEKLAHYLEKVNLQAEPVLLTYPANSKIELLMNHEEKNVPIFNHVDSIGIRHKIWRIDNRLKLQQFKEVIDQIDSFYIADGHHRIGSTAINAKRHKEKNKKHNGTELYNFVYSFIVSNQSIKIHDYNRILHDLNGISPEDFIKELEQYFLIHEKEETPYYPSQKFHISMYMDGKFYSLHVKHDLRSVEMSLDNLDHHLLDKYIFKKILKIEDPDSSELISYVKGTSDINGINLLKEKIDNGEGKVGFGIYPVSFNDMIKISDLKLSMPPKCTFIEPKLITALLMYDMKP				NA	NA	NA	NA	NA
BMS003_01142	1404			hypothetical protein	ATGAAAAAAATATTCATTATAATTCCACTCTTTTTGAGTGGATTTTTATTTTCTCAAAAAAAGCCACATAAAAGTCCGGCAAAAAAAGGGACTCTTGCCAAATTCAATTATCATGATGAGTTCCGAAAAATTTCAGATGAAATTATGACCAACGGTACTGCCTATAACAATCTCGGAGAGCTTACCAAAGGTATCGGGCCACGTTTCAGTGCAACTCCCGGTTATACCAAAGCAATAGAATGGGCAGAAAAAAAATTCAGGGAAATTGGCATTAATATGATCTGGAGACAGGAAGCCAAAGCTCCAGTATGGATCAGGGGAAAAGAATCTTTACAGATAAAGGCCGGAAACGGAGAATGGAAAAATATCAGAATGCTTTCTTTCGGCAACTCCGAAGGTACAGGCGGAAAAGACCTTACAGGTGAGATAGTTTTAATCAACTCCACATCAGAGCTTAATGCCATGTCAATAGGACAATTAAAAGACAAAATTGTTTTCGTGAATGTTCCTATGGATCCAAAAATTATCAATACCAGTGATTCTTATTTACAGAGTGCAAAATCAAAATTAATTTCCGCTTCTGTAATTGCTAAAACAGGGGCAAAAGCATTAATTATAAGATCACTGACAACCGCTAGTGACGACACTCCTCATGCTAAAATGATTTATTACGAACCTGATGATAAAGTCAAAATTCCGGCTTTATCAATTGGCGTAAGATCAGCAGACGAACTGGAAAAAACCTTAAAAAAGCAAAAAGTAACTGCTAAAATCAATATGACCGCCGAATCAAAAGGCGACATCACCAATCCCAATATCATTGCTGAAATTGAAGGCAAAAAAGATTCTAAAGTAATTGTTTTAGGAGCTCAGCTTGATTCCTGGGATATAGGTGAAGGAGCAATAGATGACGGAACAGGTGTGGTACAGTGTATAGAGGTATTGAGAACGCTGAAAGCTCTTGCATATGAAAACAACCACACCATCCGGGTAGTTTTGTATGCCAACAGCGAAAACGGAGGACAGGGCCGTGAGATTTACGCTGCGTATGTAAAAAAGAAACAAGAAAGACATATATTCGCTTTAGGAACAGATGCCGGTGGTTATTCTCCGCGAGGATTCTCTCTGGATATGTCACCTCAAAGAAGAAGGCTCGTTTACCCATGGAAAGAATATTTTCTGCCTTATGGAGTTTATGATTTCGATCAGACAGAAGCAATTCAGGATATTTCACCTTTAAAAAAACTCGATATTCCTTTAGCGGAGCTCGTGGTAGATACCCAGAGATATTTTGATTATCATCACTCCGAGCAGGATACTTTTGACAAAGTCAATAAAAGAGAGCTTCTTCTGGGAGCAGTTGCCATAACACAGATGATTTTTATGGTTGATAAAAACTGGTAA	MKKIFIIIPLFLSGFLFSQKKPHKSPAKKGTLAKFNYHDEFRKISDEIMTNGTAYNNLGELTKGIGPRFSATPGYTKAIEWAEKKFREIGINMIWRQEAKAPVWIRGKESLQIKAGNGEWKNIRMLSFGNSEGTGGKDLTGEIVLINSTSELNAMSIGQLKDKIVFVNVPMDPKIINTSDSYLQSAKSKLISASVIAKTGAKALIIRSLTTASDDTPHAKMIYYEPDDKVKIPALSIGVRSADELEKTLKKQKVTAKINMTAESKGDITNPNIIAEIEGKKDSKVIVLGAQLDSWDIGEGAIDDGTGVVQCIEVLRTLKALAYENNHTIRVVLYANSENGGQGREIYAAYVKKKQERHIFALGTDAGGYSPRGFSLDMSPQRRRLVYPWKEYFLPYGVYDFDQTEAIQDISPLKKLDIPLAELVVDTQRYFDYHHSEQDTFDKVNKRELLLGAVAITQMIFMVDKNW				NA	NA	NA	NA	NA
BMS003_01143	1359			hypothetical protein	ATGAAAAAGATAACAGGAACTTTATTATTATTTTTTGGAATCGCTGTTTTTGGTCAGTCCAAAGAAGATTCCATCCAGTTCAGAAAAATCTCTACAGAAATTCTGAACAACGGAAAAGGATATACAGAGCTTAGAGAGCTCACAAAAAACATAGGCCATCGTCTAAGCGGTTCTGAGGCCTATGAAAAATCTGTGCAGTGGGCAGCTCAGAAGCTTCGGGATGCCGGAGCTGACAAAGTCTGGCTTCAGGAAGTAATGATCCCGGTATGGGAAAGAGGTAAAGAATCTCTGCACATAAAGACTTCCAATGGGAAATGGAAAAATATTAAAATGCTTTCCCTTGGAAATTCTGAAGGAACAGGAGGAAAAGACGTATCAGGTGATATTATTATGGTAAAATCACTGGAAGAATATGATCAGCTTCCCGTTGAAAAAGTGAAAGATAAAATTGTATTTTTCAACTACCCTTTTAATCAGGGAAATGTACAGACATTCATCTCTTATCGTGATGCAGGCGCTTACAGAAGAACTGCAGCTTCATTAACGGCTAAAAAAGGAGGAAAATTTGCCATCATCAGATCTCTTTCTTCCGCTTTCGATGATGTGCCTCATACAGGAAATATGCGCTATGACGAAAATATTTCCAAAGTACCCGCCATAACCATTGGAAATATATCTGCTGATGAACTGGAAGCTTTATTGAAAAGCCAGAAAGTAACGGCTAAGCTCAATTCCAATTGCGGAATGAAAGGAGAAAAACTTTCCCATTCTGTGATCGGAGAAATTACAGGTAAAAAAGACCAAAGCGTTATTGTTGTTGGCGGACACTTAGATTCCTGGGATGTTGGAGAAGGTGCTCATGATGACGGTTCTGGAATTGTTCAAAGTATTGAGGTATTAAGAACCTTTAAAAAATTAGGTATTCAGAATAATCATACCATTCGCGCCGTTTGTTTTGCCAACGAAGAAAATGGAACAAAAGGAGGAAAACAATATGGCAAAGTTGTCAAAGAAAATAACGAAAAACATCTATTTGCTATAGAATCTGATGCGGGAGGTTTTTCACCACGGGGAATTTCTCTGGAAATGGATGAAACTCAAAGAAACCAGATTAAAAGCTGGATGAATCTGTTTTTACCTTATGGCGTTTACAACTTTGACGGTAAATATTCCGGATCAGATATCGCTCCACTTCATGAAATGGGAGTTCCCACTGCTGAACTGGTGCCAGATCCGCAACGCTATTTCGATATTCACCATACGGAAGAGGACACTTTTGAAAAAGTCAACCGAAGAGAGCTGTTACTCGGTTCTGCGGTGATGACACAACTTATTTATATGATTGATAAAAATTGGTAA	MKKITGTLLLFFGIAVFGQSKEDSIQFRKISTEILNNGKGYTELRELTKNIGHRLSGSEAYEKSVQWAAQKLRDAGADKVWLQEVMIPVWERGKESLHIKTSNGKWKNIKMLSLGNSEGTGGKDVSGDIIMVKSLEEYDQLPVEKVKDKIVFFNYPFNQGNVQTFISYRDAGAYRRTAASLTAKKGGKFAIIRSLSSAFDDVPHTGNMRYDENISKVPAITIGNISADELEALLKSQKVTAKLNSNCGMKGEKLSHSVIGEITGKKDQSVIVVGGHLDSWDVGEGAHDDGSGIVQSIEVLRTFKKLGIQNNHTIRAVCFANEENGTKGGKQYGKVVKENNEKHLFAIESDAGGFSPRGISLEMDETQRNQIKSWMNLFLPYGVYNFDGKYSGSDIAPLHEMGVPTAELVPDPQRYFDIHHTEEDTFEKVNRRELLLGSAVMTQLIYMIDKNW				NA	NA	NA	NA	NA
BMS003_01144	1359			hypothetical protein	ATGAAAAAGATATTAGGAACTTCATTATTACTTTTTGGAATGGTCGCTTTTGGCCAGTCTAAAGAAGATTCTATCCAGTTCAGAAAAATCTCAACAGAAATTCTGAATAACGGAAAAGGATATACTGAGCTGAGAGAGCTTACAAAAAACATAGGCCACCGTCTAAGTGGATCTGAAGCCTATGAAAAGTCCGTAAAATGGGCTGAGCAGAAACTTCGTGATGCCGGAGCTGATAAAGTATGGCTTCAGGAAGTGATGATCCCGGTATGGGTAAGAGGAAAAGAATCTCTGAACATCCAGACTTCCAACGGAAAATGGAAAAACCTTAAAATGCTTTCTCTAGGAAATTCTGAAGGAACCGGAGGAAAAGATGTTTCCGGAGAAATCATCATGGTAAAATCCATGGAAGAATATGAAAAGCTTCCTGCTGAAAAAGTGAAAGATAAAATTGTATTTTTCAACTATGCGTTCAGCCAGTCTTTCATAGAAACCTTTAAAGCTTACGGAGATGCTGCAAAATACAGAACTACCGCAGCTTCATTAACTGCTAAAAAAGGAGGTAAATTTGCCATCGTAAGATCTCTGTCTTCTGCTTTTGATGATGTCCCTCACACAGGAGCAATGCGCTATGAAGACAAGGTTTCCAAAATACCGGCAGTTGCCATCGGAAGTACAACTGCAGATGAACTGGAAGCTTTACTGAAAAGCCAGAAAGTTACTGCTAAACTGAATTCCAACTGTGGAATGAAAGGAGAAAAGCTCTCCCATTCTGTAATCGGGGAAATTACGGGTAAAAAAGATCAGAGCGTCATTGTTGTCGGTGGACACCTAGATTCCTGGGATGTAGGTGAAGGCGCTCATGATGACGGAGCCGGAATTGTACAAAGCATTGAAGTATTAAGGACTTTTAAAAAGTTAGGTATTCCGAACAACCACACCATCAGAGTTGTTTGCTTCGCTAATGAAGAAAACGGAGTAAAAGGCGGAATCCAATATGGTAAATCTGTAAAAGAGAAAAACGAAAAACATCTTTTTGCCATTGAAACAGATGCCGGAGGTTTCGCACCAAGAGGTATTGCCCTGGATATGGATGACGCGAAAAGAAATCAGATTAAAGGCTGGTCGAATTTATTCCTTCCTTACGGAGTGTATAATTTTGAAGAGCGGTTTTCAGGAACAGATCTTTATCCACTTCACGACATGGGAATTCCAGCTGCTGAGCTGATGCCGGATTCTCAACGTTATTTCGATATCCACCACACAGAAGAAGATACTTTTGAAAAGGTGAACAGAAGAGAGCTTTTATTGGGAGCAACCGCTTTAACCCAGATTATTTATATGATTGATAAAAACTGGTAA	MKKILGTSLLLFGMVAFGQSKEDSIQFRKISTEILNNGKGYTELRELTKNIGHRLSGSEAYEKSVKWAEQKLRDAGADKVWLQEVMIPVWVRGKESLNIQTSNGKWKNLKMLSLGNSEGTGGKDVSGEIIMVKSMEEYEKLPAEKVKDKIVFFNYAFSQSFIETFKAYGDAAKYRTTAASLTAKKGGKFAIVRSLSSAFDDVPHTGAMRYEDKVSKIPAVAIGSTTADELEALLKSQKVTAKLNSNCGMKGEKLSHSVIGEITGKKDQSVIVVGGHLDSWDVGEGAHDDGAGIVQSIEVLRTFKKLGIPNNHTIRVVCFANEENGVKGGIQYGKSVKEKNEKHLFAIETDAGGFAPRGIALDMDDAKRNQIKGWSNLFLPYGVYNFEERFSGTDLYPLHDMGIPAAELMPDSQRYFDIHHTEEDTFEKVNRRELLLGATALTQIIYMIDKNW				NA	NA	NA	NA	NA
BMS003_01145	228			hypothetical protein	TTGAAACCGTCTTTAGAGGCGGTTTTCTTTTTAATATTATCAAACTCTTCAATCAATAGAAACGGATTTTATCCGAAACCTATTGTTATTTCCCGCAGATTACACAGATTGACACAGATGATTGCACATCTTTCTATTTGTGGAATTAGTGTAAAAACATTCGTATTATTAGTGGTTCTTGAAATTAAACACAAATTGCACAATTCAATAGGAATGTTATTATCCTGA	MKPSLEAVFFLILSNSSINRNGFYPKPIVISRRLHRLTQMIAHLSICGISVKTFVLLVVLEIKHKLHNSIGMLLS				NA	NA	NA	NA	NA
BMS003_01146	522			hypothetical protein	ATGAATCAGGAGGATTTAAAAAATAATATTGAGTTTTGTATAAATAATGTTTTAAAGCTTGCAAAGGTTCATTGTTGGAATACTCTTTCTCCCAATCTGTTTTTTATCGTATCTGATTTTAATGAATTTGGATCAAACTTTAAAGAGTATAGAGCCTCACGAAGCAGGATTAATAATTCAAAAACATTATTAGATTTAGATTCTGCAGTAGAAATTTTACAAAAGGAGATGGAAGATCTTTACGATGTTATTTTGTATATTTTTCGAGCTAATAAACATGAAACGATTTTGGAAATTCAATACTATCGGAAATCAAATCTTAATCCTGATTACTTTGTTTTAGTAAAAGATAACACGCCTATGTTTCATTCAAAAATTCCTATGCCAGTTTATGCATGGGAAGGAGGAAAATTTGATGCCAATTGGGAATCCGGAGGAGGATTACATCATATATGGAAAAATTTTGTGTGGAGAAATTTTTTGTACAAACGTAAAATAAGAGGTAAGAGAGTAAAAGAATAA	MNQEDLKNNIEFCINNVLKLAKVHCWNTLSPNLFFIVSDFNEFGSNFKEYRASRSRINNSKTLLDLDSAVEILQKEMEDLYDVILYIFRANKHETILEIQYYRKSNLNPDYFVLVKDNTPMFHSKIPMPVYAWEGGKFDANWESGGGLHHIWKNFVWRNFLYKRKIRGKRVKE				NA	NA	NA	NA	NA
BMS003_01147	228			hypothetical protein	ATGAGATCCTTTTTTGAAATGATTTTTAAGAGAAATGAAGATGCTGCAAAATTGAATATCTGGAGCCTGTTATTGGTTCTGAGCTTTGCTGCGTTTTCTGTATTGGTATACGCTTCAAAACCAAGCTTCAACAGCTTAATTATATACCTTACGGCATTTGCCGCATATATAGGTTTCGGACTTGTATTCATCAGTTCCCTTACCGGGAAAAGTATGAAGAAAAGATAA	MRSFFEMIFKRNEDAAKLNIWSLLLVLSFAAFSVLVYASKPSFNSLIIYLTAFAAYIGFGLVFISSLTGKSMKKR				NA	NA	NA	NA	NA
BMS003_01148	630	cat_2	COG0110	Chloramphenicol acetyltransferase	ATGCAAAATTTCTTTGAAACTCCTTTTAAGGGAAAGATTATACAAGACCATATTCAAAATCCCAATATTATTGTAGGTAAGTATTCTTATTATTCAGGATATTATCACGGACATTCTTTTGATGATTGTGCCCGCTACTTGCTCCCGGACAGAAATGATGTAGATAAGCTGATTATTGGTTCTTATTGTTCTATTGGTACAGGTGCAAGTTTTATTATGGCTGGAAATCAAGGACATCGTTATGACTGGATTTCAAGCTTTCCTTTCTTTTATATGTCAGAAGTTGAGTGTTTTAAAGGCAGTAAGGATGCCTTCATACCGGCTGGAAATACGATTGTAGGTAACGATGTCTGGATAGGTGCGGAAGCTATGATTATGCCAGGAATCAAAATAGGTGACGGAGCGGTGATCGGAAGCCGTGCTTTGATTACAAAAGATGTAGAACCTTATACTATTGTCGGAGGAAACCCAGCCAAGCCCATTAAAAAAAGATTTAGTGAACAGCATATTGAATTGCTCCTCAAAATGAAATGGTGGGAGTGGGAGGAAAGTATTATAAAAGATGCAATGCCAATTTTTTGTTCCGAAGATATTGAAATGTTATATGAATTTTATAAAAGGATGGGGTAA	MQNFFETPFKGKIIQDHIQNPNIIVGKYSYYSGYYHGHSFDDCARYLLPDRNDVDKLIIGSYCSIGTGASFIMAGNQGHRYDWISSFPFFYMSEVECFKGSKDAFIPAGNTIVGNDVWIGAEAMIMPGIKIGDGAVIGSRALITKDVEPYTIVGGNPAKPIKKRFSEQHIELLLKMKWWEWEESIIKDAMPIFCSEDIEMLYEFYKRMG	PGPT0028035_426	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
BMS003_01149	240	acpP_2	COG0236	Acyl carrier protein	ATGTCAGACATTGCATCAAGAGTAAAAGCTATCATCGCTGATAAGCTTGACGTTGAAGAAACAGAAGTAACTCCTGAAGCTAGCTTCACTAACGATTTAGGAGCTGATTCACTAGATACAGTTGAGTTAATCATGGAATTTGAAAAAGAATTTAACATTCAGATCCCTGATGATCAAGCTGAAAAAATTACTACTGTAGGACACGCTATCGCTTACATCGAAGAAGTAGTAAATAAATAA	MSDIASRVKAIIADKLDVEETEVTPEASFTNDLGADSLDTVELIMEFEKEFNIQIPDDQAEKITTVGHAIAYIEEVVNK	PGPT0011375_5551	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS003_01150	1245	fabF_3		3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGAATTAAAAAGAGTAGTTGTAACCGGATTTGGAGCAATAACACCAATAGGAAATAATGCAAAAGAATACTGGGAAAATCTTGTGAAAGGTGAGAGCGGTGCCGCTCCGATTACTCTTTTTGATGCCACAAACTTTAAAACGAAGTTCGCTTGCGAAGTAAAAAATTTCGATCCTTTACAGCATTTCGATAAGAAAGAAGCTAAAAAAATGGATAGAAATACCCAATTGGGACTTGTTGCAGCAAAAGAAGCAGTAGCACATTCCGGAATTATTGAAGACAATGTAGATAAAAACAGAGTTGGAGTAATCTGGGGTTCCGGAATCGGAGGATTAGAGACTTTTGAAACTGAAGTTTTAGGATGGGCCAATACGGAAATTCCAAGATTCAACCCATTTTTTATCCCAAAAATGATTGCGGATATCACTCCGGGGCATATCTCTATTGAATACGGTTTCCACGGACCAAACTATACTACTGTATCTGCTTGTGCATCTTCAGCAAACGCTATAATTGATTCCAAAATGCTGATCCAGTTAGGAAAAGCAGACGTAATTGTGTGCGGAGGCTCTGAAGCAGCCGTTACAGCAAGTGGTGTCGGTGGATTTAATGCAATGATGGCACTTTCTACAAGAAATGATGATCCTAAAACAGCTTCAAGACCTTTTGACAAAGACAGAGATGGATTTGTACTGGGTGAAGGAGCAGGATGTATTATTCTTGAAGAATATGAGCACGCAGTAAAACGTGGTGCTACAATTTATGCAGAATTATTAGGAGGAGGTTTAAGTGCTGACGCACATCACATGACCGCTCCACACCCTGAAGGCCTTGGCGCTTATCTGGTAATGAAGAGCTGCCTGGAAGATGCAGGTTTAACTGCTGATGAAGTAGATCATATCAATATGCATGGTACATCTACTCCATTAGGAGACATCGCAGAATCCAATGCAATTTCAAAATTATTAGGCGAGCATGCTTATGATATTCAGATTAATTCTACAAAATCAATGACTGGTCACCTTTTAGGTGCTGCCGGAGTAATTGAAGCTATCGCTGCATTGGGAACTATTATTCATGGTACTGTTCCTCCTACCATCAACCATTTTACTGATGATGAAAATATTGACAGCAGACTCAACTTTACGTTCAACACTGCTGTAAAGAAAGATGTAAAAGTAGCCATGAGCAATACTTTTGGATTTGGCGGGCATAACGCTTGCGTTCTATTTAAGAAAATCTAA	MELKRVVVTGFGAITPIGNNAKEYWENLVKGESGAAPITLFDATNFKTKFACEVKNFDPLQHFDKKEAKKMDRNTQLGLVAAKEAVAHSGIIEDNVDKNRVGVIWGSGIGGLETFETEVLGWANTEIPRFNPFFIPKMIADITPGHISIEYGFHGPNYTTVSACASSANAIIDSKMLIQLGKADVIVCGGSEAAVTASGVGGFNAMMALSTRNDDPKTASRPFDKDRDGFVLGEGAGCIILEEYEHAVKRGATIYAELLGGGLSADAHHMTAPHPEGLGAYLVMKSCLEDAGLTADEVDHINMHGTSTPLGDIAESNAISKLLGEHAYDIQINSTKSMTGHLLGAAGVIEAIAALGTIIHGTVPPTINHFTDDENIDSRLNFTFNTAVKKDVKVAMSNTFGFGGHNACVLFKKI	PGPT0008360_4345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS003_01151	765	rnc		Ribonuclease 3	ATGGAGTTACAGAAATACTTTTCTAAATTCCTTCTCAAAAAAAGAAAAAGACAACTAACGGAAAGAGAGTATTTCCTCAGTACCGAGCTTAAAAAAGTTTTGGGTACGGAGGTACAGAATATCGCTCTTTACCGCGAAGCTTTTTCTTTAAAAAATTCTTCTAAAAATCAAGACAGCAACTATGAAAGGCTTGAATTTTTGGGAGATTCTGTTTTGGGTACAATTATTTCTTGTCATTTGTTCCAGACCTATCCTCAGGCTAATGAAGGGTATCTGACACAGATGAAATCTAAGATTGTTAATAGGAAAAACCTTAATAAATTAGGAGAAGACCTTAAGCTTACTGCCCTTTTGCAAAAGCAAAACAGCTCTTCAGCTTTGGGGGAGAATATCTCCGGAAATTTATTTGAAGCCTTAATCGGTGCCGTTTATTTAGACTTCCATTATGATGCCTGTAAAAGGATTATTCTGGAAAAACTGCTGACCCCTTCCGAAATCAATAAGCTTGAAAACAAAATTGTAAGCTATAAAGGTCTCCTGCTGGAATGGAGCCAAAAGAAGAAGGTCAATATAAAATACGAAACCTGCGAAGAAATACAGGCCAATAAATCTGTCGTATTCAGATGCCATGTATGGCTGGGAGATGAAAAAATTGCCAATGCAACAGAGACATCCAAGAAGAAAGCAGAGGAAAAAGCAGCACAAAGGGCATTTTATATTTTAAATAAAAAAGAAAATATACTTGGAAATTCAAAAACTTTATGA	MELQKYFSKFLLKKRKRQLTEREYFLSTELKKVLGTEVQNIALYREAFSLKNSSKNQDSNYERLEFLGDSVLGTIISCHLFQTYPQANEGYLTQMKSKIVNRKNLNKLGEDLKLTALLQKQNSSSALGENISGNLFEALIGAVYLDFHYDACKRIILEKLLTPSEINKLENKIVSYKGLLLEWSQKKKVNIKYETCEEIQANKSVVFRCHVWLGDEKIANATETSKKKAEEKAAQRAFYILNKKENILGNSKTL				NA	NA	NA	NA	NA
BMS003_01152	474			hypothetical protein	TTGGAAATTCAAAAACTTTATGATCTTGATGATATAGAATTTGAAGATATTGCCATAGGATTGGTAAGATTAGCCAAAGATATACCTGCTCACGAATTTTTCTACAAAATAAATCAAACCAATAATCTCAGTTTTTCAAGAAAGAAAGATCTTGTCTTTCATGGAGGATATTATGATTATTTTTTTCCAAGATTTGAGGCCTACCACAAGTTTACAAAGACTTGTTTTACCTTCATTTCCAATAAATCTTCTGAAAGTAAACAAAAAAAAATTCAGACAGAACTCTTTACAGAAGAAGAAAATATTAAATTTTTATTAAATAATCAGGCAGATGTGGAATATATTCTGCATAGTTCGGAACAGTTTCCTGATTTTTCCGTAATTTTGCTCCCTGAAAATCTTGTGTTTCCAATTCAAGATTATACACTGAGTTCTGATGAAGAACTTTATCAAATTATCCAGTATTATGAATAA	MEIQKLYDLDDIEFEDIAIGLVRLAKDIPAHEFFYKINQTNNLSFSRKKDLVFHGGYYDYFFPRFEAYHKFTKTCFTFISNKSSESKQKKIQTELFTEEENIKFLLNNQADVEYILHSSEQFPDFSVILLPENLVFPIQDYTLSSDEELYQIIQYYE				NA	NA	NA	NA	NA
BMS003_01153	1446	pyk	COG0469	Pyruvate kinase	ATGAATAAGTATTTAAAGAAGACAAAAATTATCGCAACACTAGGGCCTGCTTCATCGTCGAAGGAGGTAATGTTAGATTTAATGAAAGCGGGTGTTGATATTTTCAGAATAAATTTTTCACATGCAGATTACGACTTGGTTCGAAAAAATATTGAAATAATTAGAGAGCTAAACAGTGAGTATGGTTATTCTGTAGGAATCCTGGGGGATCTTCAGGGACCTAAGCTGAGAGTGGGAGTTGTAAAGGAGGGGTCTTACCTGAACCCAGGTGATATTCTTACTTTCACCAATGAAAAGATGGAGGGAGATTCCACTAAGGTATACATGACTTACCAACAGTTTCCACAAGACGTAAAAGTAGGGGAAAGAATCCTTATTGACGACGGGAAGCTAATGTTAGAAGTTATCGAGACTAATGAAAAAGATACTGTAAAAGCGAAAACCATTCAAGGAGGTCCGTTAAGTTCTAAAAAAGGAGTTAATCTACCTAATACGAACGTTTCTCTTCCTGCTTTGACGGAAAAGGATGTTCAGGATGCTAATTTCATGCTTGACATGGAGGTAGACTGGATTGCTCTTTCTTTCGTGCGTCATGCACAGGACATCATTGACCTGAAAGAATTAATTGCAAACCATCCGAACGGTAAATTCAAGACTCCGATTATTGCGAAGATTGAAAAGCCTGAAGGCGTTAAAAATATTGAGGAAATCCTTCTTGAATGTGATGGATTAATGGTAGCCCGTGGAGACCTTGGAGTAGAAGTTCCTATGGAAGAAGTTCCTGCTATCCAGAAAAACCTGGTAGAAAAAGCAAGATTCTATTCCAAGCCGGTAATTATTGCTACTCAGATGATGGAAACCATGATCAACAGCTTAACACCAACAAGAGCGGAAGTAAATGACGTTGCGAACTCTGTATTGGATGGAGCTGACGCTGTAATGCTTTCCGGAGAAACTTCAGTTGGTAGATATCCGGTGCAGGTGGTGGAAAACATGGCTAAAATTGTAAAGAATATCGAAACTACTCATTTCTATCAGCACAAAAATGAGCCTATTGAGAAAGATTACAACTGTATTGATGAAAGATTCATTACGAACAGGGTTTGCCTTGCCGCAGTAAGAATTGCCAAAACAACCAACGTTTCTGCTATTGTAACGCTTACTCATTCCGGTTATACAGCTTTCCAGCTTGCAGCACACAGACCAAACTCTCACATCATTGTATACAGTGGTAACAGAAGAGTGATTGCTATGCTAAACCTTCTTTGGGGTGTTCACGCATACTATTATGATATGAAGAAATCTACCGATGAAACGATCATCCAGGTAAATATGCTAACGCATAACTATGGTTACATCGAAACAGGAGATTTCGTAATCAACATCAATGCTACTCCATCATATGAAGGTGGAAAAACAAATACATTGAGACTGACTACAGTATAA	MNKYLKKTKIIATLGPASSSKEVMLDLMKAGVDIFRINFSHADYDLVRKNIEIIRELNSEYGYSVGILGDLQGPKLRVGVVKEGSYLNPGDILTFTNEKMEGDSTKVYMTYQQFPQDVKVGERILIDDGKLMLEVIETNEKDTVKAKTIQGGPLSSKKGVNLPNTNVSLPALTEKDVQDANFMLDMEVDWIALSFVRHAQDIIDLKELIANHPNGKFKTPIIAKIEKPEGVKNIEEILLECDGLMVARGDLGVEVPMEEVPAIQKNLVEKARFYSKPVIIATQMMETMINSLTPTRAEVNDVANSVLDGADAVMLSGETSVGRYPVQVVENMAKIVKNIETTHFYQHKNEPIEKDYNCIDERFITNRVCLAAVRIAKTTNVSAIVTLTHSGYTAFQLAAHRPNSHIIVYSGNRRVIAMLNLLWGVHAYYYDMKKSTDETIIQVNMLTHNYGYIETGDFVININATPSYEGGKTNTLRLTTV	PGPT0002020_4354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS003_01154	1293	sad	COG1012	Succinate semialdehyde dehydrogenase [NAD(P)+] Sad	ATGGAACAATTAATTGAAAGCAAGCTTATTAAAGCAGATAAAGCGTTTTCAGTGTGGAGAAAAGTGCCGTTTGAGGAAAGGCAGAAGTTAATTGCAAAAGCAGCAGAAATTTTAAAGAATAATTCGGAGAAATTTGGGAAAATAATTACTACAGAAATGAATAAACCCATTTCAGAATCTATTGCTGAAGTGGAAAAGTGTGCTTTAATGATGAACTATTATGCAGATGCTGAGAATACTTTAAAACCAGAAAAAGTAGAATCGGAATTTGCTTATTCTGAAGTTCACTATGCCCCAAAAGGGGTAATCCTTGGCGTAATGCCGTGGAACTTTCCTTTCTGGCAGGTTTTGAGATTTGCTACACCTGCAATTTTAGCAGGAAATACAATCGTTTTAAAACATGCTTCAATTTGTTTCGGAAGCGGAAATGCCATTGAAGAAGTTCTTCTTGAAGCGGGTTTTCCGGAAGGCGTTTTTCAGAATCTTGAAGTAGGACATAAAGCAGTAAAAGAAATCCTTGAACATGATGCTGTAAAAGGAGTAAGCCTTACAGGCAGCGGTAAAGCAGGAGGAGAAGTAGCCTCAATAGCTGGTTTAAATATCAAAAAATCTTTACTTGAATTAGGAGGAAGCGATGCTTTTATCATTTTTGATGATGCAGATCTGGAAGCAGCAGCGAAAGCCGGGGCTAAATCAAGACTTCAAAACTGCGGGCAAACCTGTACTGCAGCTAAAAGATTTATCATTGATGAAAAAATCGAAGATAAGTTTTTACCTATATTCATTGAAGAATACAAGAAATATGAGATTGGTGATCCTTTAGATAAAGAAACGAAACTGGCGGGGATGGCGAGACCGGATCTTGCTGATGAGCTGGAAGCTCAGTTCAACAGAGCGCTGGAAAATGGTGCGGAAATCATTATTCCTTTGGAAAGAGTTTCTGAAAATGAATTTACACCTGGTTTAATCAGAGTTCAGGAAGAAAATCCAATTTTAAAAGAAGAACTTTTCGGACCTCTGGGTATGGTTATGATTGCAAAAACTGATGAAGAAGCTTTACAGATGGCCAATGACATTCCTTTCGGACTTTCTAATTCTGTATGGACAAGAAATAAAGACCGTCAGTTATTCTTCATTGAAAACCTTGAATCAGGAACGGTCAATATCAACCGTATGACAAGCTCTGATCCACGTTTTCCTTTCGGAGGATCAAAAGCTTCAGGATATGGGACAGAATTGTCTCTATTAGCTTTAAAAGAATTTGTGACTGCTAAGACCATTGTAGGTAATTAG	MEQLIESKLIKADKAFSVWRKVPFEERQKLIAKAAEILKNNSEKFGKIITTEMNKPISESIAEVEKCALMMNYYADAENTLKPEKVESEFAYSEVHYAPKGVILGVMPWNFPFWQVLRFATPAILAGNTIVLKHASICFGSGNAIEEVLLEAGFPEGVFQNLEVGHKAVKEILEHDAVKGVSLTGSGKAGGEVASIAGLNIKKSLLELGGSDAFIIFDDADLEAAAKAGAKSRLQNCGQTCTAAKRFIIDEKIEDKFLPIFIEEYKKYEIGDPLDKETKLAGMARPDLADELEAQFNRALENGAEIIIPLERVSENEFTPGLIRVQEENPILKEELFGPLGMVMIAKTDEEALQMANDIPFGLSNSVWTRNKDRQLFFIENLESGTVNINRMTSSDPRFPFGGSKASGYGTELSLLALKEFVTAKTIVGN	PGPT0001580_7544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS003_01155	921	hutG_2		Formimidoylglutamase	ATGAGTACTATTTGGCAAGGCAGATTGGACGGAGAAGAGCTTCTCTATCACAGATTATTTCAAAGAGTAAAAGAAGAACGTAATTACGACAATATTTCTGCAGGAGATTTTGCTTTGCATGGCTTTGCTGTAGATGAAGGAGTAAGAAGAAACAAAGGCCGTCAGGGAGCAAAAGATGCCCCGGATGTGATCAGGAAAAATATGTCTAATTTCCCTGTGATTCTTCCGGATTTTTCTCTCCTGGACTTTGGAAATCTTACCTGTGAAGACGGCAATCTGGAAAACACTCAGAATAATCTTGCCAAAAATGTCTCAAAAGTCCTTTTAAAAGGAGGGAAATCCCTTGTTTTGGGTGGAGGACATGAAGTTACCTATGCTCATTATTTAGGCGTTAAAACAGCGTTTCCGGAGCAAAAAATAGCAATTATTAATATTGATGCCCATTTTGATAACCGACAGCCGGAAAAAGGAGTAGGGCCAAGCTCAGGAACCGGATTTTGGCAGATTGCCCAGGAAGGCTCCATTAATTCTTTGCATATCGGAATTCAGAGAAACTCCAATACGCTTAAGCTTTTTGATACAGCTCATCAGTATGGAATGAAATATATTCTGGCTGACGAATTGTTTTTTGAAAATCTTACTTCCATCTATCAGCGTATCGATGAATTGCTGGAGAATGTAGATTATGCCTATCTTACCATTTGCATGGATGTTTTTAATGCATCTGTTGCTCCCGGAGTTTCGGCTGCTGCTTATAATGGTATCTTTGCAGATGCTGCGTTTATGCATTTTTACAGGCATATCTTAAAAAATAAAAAATTGGTGGCGCTGGATGTAGCGGAAGTTAACCCTTCTTTCGATATTCAGGACAGAACCGCAAGACTGGCAGCATGTCTTGTGAATGAATGGCTAATGATGTAA	MSTIWQGRLDGEELLYHRLFQRVKEERNYDNISAGDFALHGFAVDEGVRRNKGRQGAKDAPDVIRKNMSNFPVILPDFSLLDFGNLTCEDGNLENTQNNLAKNVSKVLLKGGKSLVLGGGHEVTYAHYLGVKTAFPEQKIAIINIDAHFDNRQPEKGVGPSSGTGFWQIAQEGSINSLHIGIQRNSNTLKLFDTAHQYGMKYILADELFFENLTSIYQRIDELLENVDYAYLTICMDVFNASVAPGVSAAAYNGIFADAAFMHFYRHILKNKKLVALDVAEVNPSFDIQDRTARLAACLVNEWLMM	PGPT0020240_1253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
BMS003_01156	1224	hutI	COG1228	Imidazolonepropionase	ATGAAATTAATAGGACCATTTAAGCAGGTGGTAACGCTTGCTAACTTACCATTAAGAGGAAAACTTTCTGATGAACAGCTGGAAATTATTGTAGACGGAGGAATTTTGGTGGATCAGAATACCATTCAGAAAGTTGGAAATTTTGAAACATTACAAACAGAAAATCCTACTATAGAAATTGAAAAGATTGAAGGAGAGCAGGTTGCTCTTCCTGCTTTTGTAGATTCACATACCCATATCTGTTTCGGTGGAAACCGTGCCAATGATTTTGCCATGCGTAATGCAGGGAAGACCTATCTTGAAATTGCAGAAAGCGGTGGTGGAATCTGGAGTTCCGTACAGCATACAAGAAATGCTTCAGAAAAAGAATTATTAAAGACTCTGGTAGAGAGAATCAACTTTTTGGTTGATCTGGGAATTACCACCATCGAAGTGAAAAGCGGTTACGGTCTGGATGTGGAAAATGAGCTGAAAATGCTTAGAATTATTAAAAAGGCACAGAACGAAACTAAAGCTACTTTAGTTCCGACCTGTCTTTCAGCCCACTTAAAACCAAGAGATTTTGAAGGAAGTAATCCCAAATATCTGGAATACATCATTACAGAAATTTTACCGAAAGTAAAAGAAGAAAGCTTAGCGAATAGAGTAGATATCTTTATCGAAAAGTCTGCTTTTCAGCCGGAAGAAAGTAAAGAATTCTTACTTAAAGCAAAAGAATTAGGCTTTGAAATTACGGTTCACGCAGATCAGTTTACCCCTGGAAGCTCAAGAATTGCGGTGGAAGTAGGAGCGAAGTCTGCAGACCATCTGGAAGCAACAGTAGATGAAGATATTCAGTTTCTGGCAGAATCAGATACGGTGGCAACAGCACTTCCGGGAGCAAGTTTAGGATTGGGTGAGAAATTTACTCCGGCAAGAAAATTATTAGATGCAGGAGCTATTGTAGCTATTGCAAGTGACTGGAATCCCGGTTCTGCACCCATGGGAAATTTAATTACCCAGGCATCTATTTTAGCCACTTTTCAAAAATTGACTACGGCCGAAGTGTTGGCAGGAATGACATTCCGTGCGGCTTATGCCCTGAATCTTGAAGATAGAGGGCAGCTGGAAGCAGGTAAAAAAGCTGATTTTGTCACTTTCAAAACCAATAATTTCCAGAATGTACTTTATAATCAGGGAAGCTTAAATGCGGAACATGTTTATATTGATGGAGATTTGATTTAA	MKLIGPFKQVVTLANLPLRGKLSDEQLEIIVDGGILVDQNTIQKVGNFETLQTENPTIEIEKIEGEQVALPAFVDSHTHICFGGNRANDFAMRNAGKTYLEIAESGGGIWSSVQHTRNASEKELLKTLVERINFLVDLGITTIEVKSGYGLDVENELKMLRIIKKAQNETKATLVPTCLSAHLKPRDFEGSNPKYLEYIITEILPKVKEESLANRVDIFIEKSAFQPEESKEFLLKAKELGFEITVHADQFTPGSSRIAVEVGAKSADHLEATVDEDIQFLAESDTVATALPGASLGLGEKFTPARKLLDAGAIVAIASDWNPGSAPMGNLITQASILATFQKLTTAEVLAGMTFRAAYALNLEDRGQLEAGKKADFVTFKTNNFQNVLYNQGSLNAEHVYIDGDLI	PGPT0020235_1418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
BMS003_01157	1023	ruvB_1	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGCCAGATTTTTTACATCCAGATAAAGAAAACTACTCACGAGAGGAGCTGATGCAGGAAGAACAGATCCGTCCCCAGAGCTTTAAAGATTTTGCGGGGCAGAGAAAAACACTGGAGAACCTTGAGGTTTTTGTTACCGCTGCGAAAAGACGTGGCGGAGCGCTAGATCATGTTTTATTGCATGGCCCTCCAGGATTGGGGAAAACTACGTTAGCCAATATTATCGCTAATGAACTTGGAGTAAACTGTAAGATTACTTCGGGGCCTGTACTGGACAAACCCGGAAGTTTAGCCGGTCTCTTGACCAATCTGGAAGAAAATGATGTACTTTTCATTGATGAAATCCACCGTCTTTCTCCTGTTGTAGAGGAGTATCTGTATTCGGCGATGGAAGATTATAAGATTGATATCATGCTGGAAACAGGTCCTAATGCCAGAAGTGTACAGATTGGATTAAATCCGTTTACCCTGGTCGGAGCCACTACAAGAAGCGGTATGCTTACGAAGCCAATGCTTGCAAGATTTGGGATTCAAAGTAGGTTGGAATACTACTCTATTGAGCTCTTATCTATGATCATTCAGAGAAGTGCGAGGGTTTTGGGAGTTGTTATTTATGAAGATGCTGCGATAGAAATTGCAAGAAGAAGCCGTGGAACACCGAGGATTGCTAATGCATTACTGAGAAGAGTACGAGATTTCGCAGAGATCAAAGGGAATGGTGAAATTGAAATTAAGATCACAAAATATGCTTTGGATTCTCTAAATGTGGATGAATTTGGTCTGGATGAAATGGATAATAAGATCATGCGTGTCATGATTGAAAATTTTAAAGGAAAACCTGTTGGTATTTCTGCTCTTGCGACTTCCATTGCTGAAAATCCTGAAACTCTGGAAGAAGTTTACGAACCGTTCCTGATTCAGGAAGGGTTTATTATCCGAACTCCGAGAGGACGAGAAGTTACTGACAAAGCTTACAAACATTTGAATATTACAAGACCTAAAAATCCGGGAGAGTTATTTTAA	MPDFLHPDKENYSREELMQEEQIRPQSFKDFAGQRKTLENLEVFVTAAKRRGGALDHVLLHGPPGLGKTTLANIIANELGVNCKITSGPVLDKPGSLAGLLTNLEENDVLFIDEIHRLSPVVEEYLYSAMEDYKIDIMLETGPNARSVQIGLNPFTLVGATTRSGMLTKPMLARFGIQSRLEYYSIELLSMIIQRSARVLGVVIYEDAAIEIARRSRGTPRIANALLRRVRDFAEIKGNGEIEIKITKYALDSLNVDEFGLDEMDNKIMRVMIENFKGKPVGISALATSIAENPETLEEVYEPFLIQEGFIIRTPRGREVTDKAYKHLNITRPKNPGELF				NA	NA	NA	NA	NA
BMS003_01158	612	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTTTATACCTAAATTATACAGGAGCGAAGATTATGATTTGATGAGAGAGATTATCAAAGAAAATGCTTTCGCCTTACTGATCTCTTCAGCAGATAAGATACGAGCTACTCATTCTATGATGATGCTTAATGAAGATGATCCTGAAAATATTTATATTGAAACTCATATTTCAAGGGCTAATCCACAGGCGAAAACCTTAAAAAACGGAGATGGAGTTCTTTGTGACTTTTTGGGAGCCCATACTTATATATCCAGCAGCTGGTATGATCACATAAATGTTTCCACCTGGAATTATGAAGCAGTGCAGATTCACGGAAAAGTTGAATTAATGAACCATGATGAACTGTATGCCCATCTGGATAAATTAACGTCCAAATATGAAAGCTTTCAGCAATGCCCAATGATGGTAATGGATATGGGAAGAGAATTTGTGGAAAAGGAGATGAAAGGTGCTTTCGGGATTAGAATAATTCCGTCCGAAATATTTATTAAACAAAAACTTTCTCAGAACAGAAAAGAGAATGATTTCAACAACATCATTACTCAACTTGAACAATCCGATGATAACGCGAGAAAAATTGCGGAGAAAATGAAAACAATAAAAAAATAA	MFIPKLYRSEDYDLMREIIKENAFALLISSADKIRATHSMMMLNEDDPENIYIETHISRANPQAKTLKNGDGVLCDFLGAHTYISSSWYDHINVSTWNYEAVQIHGKVELMNHDELYAHLDKLTSKYESFQQCPMMVMDMGREFVEKEMKGAFGIRIIPSEIFIKQKLSQNRKENDFNNIITQLEQSDDNARKIAEKMKTIKK	PGPT0014760_1532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
BMS003_01159	867	ytnP	COG0491	putative quorum-quenching lactonase YtnP	ATGAAGTTATATCCTATACAATGTGGAAAATTTAAACTGGACGGCGGTGCTATGTTCGGAGTCGTCCCGAAGAGTCTGTGGGAAAAAACAAACCCGGCAGACGAAAAAAACCTGATCGAGCTCGGAACCCGTTCCCTGCTTATTGAAGACGGAAAAAAACTGATCCTGGTAGACTGCGGTCTTGGTAACAAACAGGATGATAAATTTTTCGGACACTATTCTCTTTGGGGAGATGATACTCTTGATAAAAACCTTAAAAAATACGGCTTTATAAAGGAGGATATTACGGATGTATTCCTTACTCACCTTCACTTTGATCACTGTGGTGGAGCTATTGAATGGAATGACGACAGAACCGGATACAGACCTGCCTTCAAAAATGCCAACTTCTGGACTAATGAAAATCACTGGCAGTGGGCAACAGAACCTAATGCAAGGGAAAAAGCAAGCTTCCTGAAAGAAAATATTCTGCCGATGCAGGAAAGCGGCCAGCTTAACTATTTACCTCTTCCTACTACCGGAAACTACGGTTTTGCTCCGGATCTGAAAATGGATGTGATCTTTGTAGATGGCCACACAGAGAAGCAGATGCTTCCGGTGATCCAATATCAGGAAAAAACTGTTGTTTTTGCGGCAGATCTTATTCCTACGGCAGGACATATCAATCCCGTCTATGTGATGGGATATGATACCAGGCCTCTTTTAACAATGGAAGAAAAAGCAAAGTTCCTGAAGCAGTGTGTAGACAACGAATATTTACTGTTCTTTGAACACGATGCACACAATGAACTGGCAAGTCTTAAAATGACCGAAAAAGGGGTAAGACTTGATGAAACGTTTAGCTTTAATGATGTTTTTGGATATTAA	MKLYPIQCGKFKLDGGAMFGVVPKSLWEKTNPADEKNLIELGTRSLLIEDGKKLILVDCGLGNKQDDKFFGHYSLWGDDTLDKNLKKYGFIKEDITDVFLTHLHFDHCGGAIEWNDDRTGYRPAFKNANFWTNENHWQWATEPNAREKASFLKENILPMQESGQLNYLPLPTTGNYGFAPDLKMDVIFVDGHTEKQMLPVIQYQEKTVVFAADLIPTAGHINPVYVMGYDTRPLLTMEEKAKFLKQCVDNEYLLFFEHDAHNELASLKMTEKGVRLDETFSFNDVFGY				NA	NA	NA	NA	NA
BMS003_01160	630	coaE		Dephospho-CoA kinase	ATGGAAGAATTACATTCAGAAACACAACAGGCTGAACCGGAACCAGCACCCAAGATCATTGGTTTAACAGGAGGAATAGGCTCCGGAAAGACTACAGTAGCCCGGTTTATAGAGGAATTCGGTTTTCCGGTTTATTATTCCGATGATAGAGCTAAAGCCATTGTCAATGAGAGTGAAGACCTGAAAATAAAAATCAAGGAACTTCTTGGTGAAGATTCTTATGACAAAAACGGACTGTATGACAGAAAATTTGTTGCTGATAAAGTTTTCACAAATAAAGATCTGCTCCAGCAATTAAACGAAATCATACATCCTGCAGTAAGGATTGATTTTGAAAATTGGGTAAAGAAACAAAGCAAATATTTGGTTTTTAAAGAAACTGCTTTATTGTTTGAACTCAAGCTCAACAGACAATGTTATAAATCTCTTTTGGTAACGGCTGAAGATAACATCAGAATTAAAAGGGTTATGGACAGAGATCACAAAACCTACCGCGAGGTAGAAGCTGTCATGGAAAAGCAGATGCCTGAAAGGGATAAAATAAAAATGGCAGATTGTGTTATTTACAACAACACCAATCTGGAAGAACTTAGAGAGCAGACTGAAAAAGTAATTTTCAGTATTGAATAA	MEELHSETQQAEPEPAPKIIGLTGGIGSGKTTVARFIEEFGFPVYYSDDRAKAIVNESEDLKIKIKELLGEDSYDKNGLYDRKFVADKVFTNKDLLQQLNEIIHPAVRIDFENWVKKQSKYLVFKETALLFELKLNRQCYKSLLVTAEDNIRIKRVMDRDHKTYREVEAVMEKQMPERDKIKMADCVIYNNTNLEELREQTEKVIFSIE	PGPT0008835_1229	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
BMS003_01161	4431			hypothetical protein	ATGAAGAAATTCTTTACCTCTTTAATTCTGTTTCTCTGTTTGATTTGTACGGGCTTTGTATCCAAAGTCTCGGCACAAACAGGTCAGATTGGGACAGGAACAGGTACCTCAGTGTATCTCCCTATACGTTCCTATTACGGGTATAGCTATTCTCAGCAGATTTATACTGCTGCGGAAGTTTCGGCTGCCATTGGTACGTCGACCTATATCACAGCCGTAAAATTTTACGTAAACACCGTATCAAATTCTCAGGATTCTTACAAGGATTGGGTAGTTTACATGGGGAATACCACCCAGAATAATTTTGCGTCCAATACAAACTGGATTCCCCTAAGTTCCTTGACTCAGGTTTATTCAGGAGATCTACCTACCATTACGAATGGAAACTGGGTTACTCTTCAGCTGAATACTCCGTTTATCTGGAATGGAACAGACAATCTTGTGATTGCTGTCAATGAAAAAACACCAGGGTATTCATCATCTCCAGGGACAGCCTGGGGGAGTTATAATGCCGGGGCTAATAGAGGTATTCTTTATTATGTAGATTCTGCAAACCCAGACCCTGCTTCACCTCCTTCAGCTTCAGGTAGATATTCAGATATTCCTAGATTAGAACTGGTAAGTCATCAGCTGACTCCATGTACCACTGCACCGCCAACGAATATTACCGTGAGCAACATAACTACGGTATCAGCAGTTGTTAACTGGTATACTGCCATAGGTTCTACTTATGTAGTAAGGTATAGAAGTTTACCTTCAGGTGCATGGCAGCAGATTAACGTTACTGCGCCTCTTTCAGGGAGTGTCACAATTCCTGGTTTAACTGAACAGACTCAGTATGAAGTTCAGGTAGCTACTGTTTGTGGAGGTACTACAGGTGCCTTCTCACCAAGTGTGAACTTTACTACTCCCGCATTAAGCTATTGTACTTCAGGAGCTACAAGTACTTTTATTGATGGATATATTGGCCAGGTTGCAGTTAACGCACAAGGTGCTCCGTCAATGTACAGTAACTCTGGCCAAAGTGGCTATACAGATTACAGCACAGATCCTACAAGACTAGTTACTCTGGTAAGAGGAGGAACAGCTAGTGTTTCTGTATCAAAAGTATGGCCAGGCTATCAATACAGCTTTTTAACAGGAGTTTGGATTGACTTTAACCGTAATGGTGTTTTTGAAGCAAGTGAAAGAGTATTAACTTCACCAAGTAATACCACAACACCGGTTACAGCTACATTTACAATACCAACTACAGCAGGGGGAGCTTATAGCGGAAACCTTACTACCAAAATGCGTGTTGTAATGAATGAGTATAGCCCTATTAATGCTTGTGGTACTTATTCTTATGGAGAGACTGAAGACTATGCGGTAAAACTTGTAGATTTATCTGGATGTACTACAGCACCGCCATCTGATATTATGGTAAACAACGTAACTCCTTCTTCAGCTAATGTTACCTGGACATCAACTATAGGAGCTACTTATATTGTAAGATACAGAGTTTCTCCTTCTGGTGCATGGCAACAGATTGCAGTAAATACTCCTTTGGCAAGTAACCAGTTGCTTACAGGACTATTGGAACAGACTCAGTATGAAGTTCAGGTAGCTACTGTTTGTGGAGGTACTACAGGTGCCTTCTCACCAAGTGTGAACTTTACTACTCCATCACTGACTTACTGTACGGCAGGCCCTACAAGTAATACAGCTACAAGTGGATACATTAATAATGTAACTGTCACTCCTACGAATACTCCTATCATGTTGAGTAATTCAGGGTCAGACAATTATAAAGATTATACAGCAGACCCAACAAGAGTTGTTATCTTTGAAAGAGGTTCTGCAAATAACAAAATTTCTGTCAACAAATACTGGCCTGGTTCTCCTACTTCATATGGAGTGTCAGCGTGGGTAGACTTTAACAGAAACGGAACATTTGAAGCGAATGAGATAATTCTTAATACTACCTATAATACAACTACTCCTGTAACAGCTACTTTTTCAGTACCTACCGTTGCAAGTGGCAATGTGTATACAGGAACTCTTCCTACCCGTATGCGTGTAGTGATGAGATATTTTGCTAGTGCTACTGCCTGTGGTACATATACTCAGGGAGAAGTAGAAGATTATGCAGTAAAATTTGTAGATTCTCAACCTTGTTCAACAGCTCCTCCAACAAATATTACAGTGAATAATATTGGAGCAACTACAGCTACCGTATCATGGGTTTCTACAGCTGGAGCTACTTATAACATAAGATGGAGAGTGGCACCAAGTGGAGCATGGCAAACTGCTACAGTTCCTGCAGGACAGAACTACTACGGAATTACCGGGCTTACAGAACAGACAAATTATGAAGTTCAGGTTTCTACAACTTGTAATGGTTCTACAGGATCTTACTCATCATCAGTAACATTTACAACACCGCCATTGACTTACTGTACAATGACAGGTACAGGTACGAATGACCATATTTCGAATGTAACAGTTACCTCTTCGAACCTTGGAGTTCCGCCAATGAATAATACTTCAGTACAGACCAATTATACAAGTTATACTACCCCTGAAACTCTTATTACATTAGATGTAAATTCTCAAAATAATAAGATCTCTGTAGCAAAAGGATGGACAGGAGCAACAGGTAACGATGCCGTAACAGCATGGATTGACTTTGACAGAAACGGACAGTTTACAGATGCCGAGAGAATCTTAATTTCTTCTGCGAGCACAACATCTCCTGTTACCGCTACTTTTGCAGTGCCTTCAACAGCCTATACAGGACCACTGACCACTACAATGAGAGTTGTACTAAAACGTACAAGTGCTCCGGTAATGTGTCAGAATGCAGTAGACGGAGAAGTAGAAGACTACAGAGTAAGAATAAGACCTTGTAGTAATGCTACGCCAAATGCACCTACATTCACTACTACACATACATCGGCTACTGTTACTATTACAGGGGCAGGAGTAAGCTATGTGGTGAGATACAGAGTTCAGGGAACAACAGCGTGGACAGAAGTATATGCTTCCACTCAATTGGGTAATCTTCCGTTAGTAATTAACGGACTGACACCGGCTACCACTTATGAAGTAGAAGTAGCTGCTATTTGTGGAGATATTGTAGGAACAGCAACACCAATCAAAACATTCACTACAAGATGTGATCCTACTCCTCCGAATGTAACAGTAAGTAATATTACCCCAACAACAGCATTGATTACATGGGCTCCGCTGGCAGCAAGTTCTACCTATACAATGAGATGGAGAAAAGTAGGAACAACAACATGGAATATTGTGAGCTTACCGGCTCCTCCTGCCAATACTTATGTATTAGGAAGTGCAGTACCATTAGATCCATATACTACGTATGAAGTTCAGATTGCTAACCAGTGTAACGGAGAAACAACACTGAATCCATATTCTAACCCTAAAGTATTTACAACAGAAAGAATATGTGAGATTCCGCCACCAGGATTGACAATTACTCAATTGCTTCCTACCTCTGCGGAAATCCAGTGGGATCCGTTCCCGGGAGCAACTTATGTTCTTAGATATAGAAAAGTAGGAATTCCGAGCTGGACAGAAGTACCATCATTAGTTAATAACTTAGTACTGACAGGTCTTACAGAATTAACGAAATATGAAATGCAGGTAGTCAATATCTGTAACGGAACTCCAGGAAACTATACTCCTCCGTACTACTTCACAACACCTACAGTAATCTACTGTAAGATGAAGGCAGAAAATTCTGCAGGAGAGCATATTTCTAAAGTTACAGTGAAGCCTACTGGTAAAAAAACAATGGAGAATGAATCAGGAGCTTCTACATATACAGATTATACAGGAGTACCTGAAACATTCATTGAAATGATCCAGGGGTCAACAGACAATGAGATCATCATTGAGAAAAAATGGACAGGAACTACTTACAACGAAGGAATTGCAGTTTGGATTGACTTCAACAGAAATGGAGAATTTGACATCAACGAAAGAGTATTTACTTCTTCACCAAATTCAAACAGCCCTGTTTCAGGTAAGTTTAATGTGCCTGCAGATGCATTTGTAAGTATGACAGATTATAAGTATGTAGTGATGAGAGTAGCCATGTCGAGAGACGGTATCCCTGTAAACTGTACTGACTTCAAAAACGGAGAAGTAGAAGATTATACGGTAAGAATCTCTAAACCGATTGTTGCTAATCCAATTGATCAGACAAGTATCATGATTTATCCTAACCCGGTAAGCTCTGTACTGTTTGTGAAAAATGTTAGCAAGAGAGCTAAATATAAGATCTACAATGCTGCAGGACAGGTCATCGCAGATGGTATCTTACTGAACAACCAGATCAACGTAAGCAGATTGATCAACGGTGTTTATGTAATTGATATTGATGATAACGGTAACACTGTTCAGAAGAAATTTATCAAAGAATAG	MKKFFTSLILFLCLICTGFVSKVSAQTGQIGTGTGTSVYLPIRSYYGYSYSQQIYTAAEVSAAIGTSTYITAVKFYVNTVSNSQDSYKDWVVYMGNTTQNNFASNTNWIPLSSLTQVYSGDLPTITNGNWVTLQLNTPFIWNGTDNLVIAVNEKTPGYSSSPGTAWGSYNAGANRGILYYVDSANPDPASPPSASGRYSDIPRLELVSHQLTPCTTAPPTNITVSNITTVSAVVNWYTAIGSTYVVRYRSLPSGAWQQINVTAPLSGSVTIPGLTEQTQYEVQVATVCGGTTGAFSPSVNFTTPALSYCTSGATSTFIDGYIGQVAVNAQGAPSMYSNSGQSGYTDYSTDPTRLVTLVRGGTASVSVSKVWPGYQYSFLTGVWIDFNRNGVFEASERVLTSPSNTTTPVTATFTIPTTAGGAYSGNLTTKMRVVMNEYSPINACGTYSYGETEDYAVKLVDLSGCTTAPPSDIMVNNVTPSSANVTWTSTIGATYIVRYRVSPSGAWQQIAVNTPLASNQLLTGLLEQTQYEVQVATVCGGTTGAFSPSVNFTTPSLTYCTAGPTSNTATSGYINNVTVTPTNTPIMLSNSGSDNYKDYTADPTRVVIFERGSANNKISVNKYWPGSPTSYGVSAWVDFNRNGTFEANEIILNTTYNTTTPVTATFSVPTVASGNVYTGTLPTRMRVVMRYFASATACGTYTQGEVEDYAVKFVDSQPCSTAPPTNITVNNIGATTATVSWVSTAGATYNIRWRVAPSGAWQTATVPAGQNYYGITGLTEQTNYEVQVSTTCNGSTGSYSSSVTFTTPPLTYCTMTGTGTNDHISNVTVTSSNLGVPPMNNTSVQTNYTSYTTPETLITLDVNSQNNKISVAKGWTGATGNDAVTAWIDFDRNGQFTDAERILISSASTTSPVTATFAVPSTAYTGPLTTTMRVVLKRTSAPVMCQNAVDGEVEDYRVRIRPCSNATPNAPTFTTTHTSATVTITGAGVSYVVRYRVQGTTAWTEVYASTQLGNLPLVINGLTPATTYEVEVAAICGDIVGTATPIKTFTTRCDPTPPNVTVSNITPTTALITWAPLAASSTYTMRWRKVGTTTWNIVSLPAPPANTYVLGSAVPLDPYTTYEVQIANQCNGETTLNPYSNPKVFTTERICEIPPPGLTITQLLPTSAEIQWDPFPGATYVLRYRKVGIPSWTEVPSLVNNLVLTGLTELTKYEMQVVNICNGTPGNYTPPYYFTTPTVIYCKMKAENSAGEHISKVTVKPTGKKTMENESGASTYTDYTGVPETFIEMIQGSTDNEIIIEKKWTGTTYNEGIAVWIDFNRNGEFDINERVFTSSPNSNSPVSGKFNVPADAFVSMTDYKYVVMRVAMSRDGIPVNCTDFKNGEVEDYTVRISKPIVANPIDQTSIMIYPNPVSSVLFVKNVSKRAKYKIYNAAGQVIADGILLNNQINVSRLINGVYVIDIDDNGNTVQKKFIKE				NA	NA	NA	NA	NA
BMS003_01162	3036			hypothetical protein	ATGAAAAGAGTATTTACTGCTTTAATGTTTACTTTTATAGGAGGTGCAGTGTTCGGACAATGGACACCAACTTCTTTTAAAAAAGGAAACGACAACAAAAGAAGTACAGGTTTTAGAGTAGATCAATCTAATGTAAGAGGTAATGGTTACTATAAGTTAGATTTGAACTTACTGAGATCTCAGCTTAAGAATGCACAGGAAATGGGTGCAAACTCTACTCCTGTCGTAATTTCTCTTCCTACTATGAGTGGGAAGATTGAAAGGTTTAATGTATATAGTTTTCCGGTTGTTGTAAAAGAGCTGGCGGACAAGTATGAATTGGGATCTTATGTTGGAACAAGTGTCGATGACCCTACCAAATATTTAAGATTCAGTATCGCTCCTAATGATTTTCAGTCAATGATCATTCATGGAGATAAATATGAATTTATTGATCCTGCTTCTGCAGATAAAACAGTATACGCTGTTCATCCTAAAACAAAAAAAGAAAAGAATGGTTTCTTATGTTCTACAGATGAATCTCCTGCTGCAAAGAAGGAAATAGATGATTTATTAAAAAACGGACAGTCATTCTCTAATCAGCCAACAACTTTTAACAAAAGTTCTGATAAGAAATACAGAACAATGAGGCTGGCTATGTCTGTTACCGGTGAGTATACCCAATACTTTATGGGGCTTGCTGGTGTACCTGCTACAGCCACAGACGATCAAAAAAGAGCTCCTGCTTTAGTTGCTATCAATAATACGTTAACCAGAGTAAATGGAGTTTTTGAGAAAGATTTTGCTTTGCATTTGAATTTACAGAATTTTCCAAATGTAATTTATATTGACCCGAATACTGATCCATATGCTGCTGCTTCAACAGGAGCAGGGGGAGCATGGAATACACAGCTGCAAACTACTTTGACCAATAATGTCGGAAATGAAAATTACGATATCGGACATTTATTTGGTAAATCCGGTGGTGGTGGAAATGCTGGATGTATCGGATGCGTATGTATTAATCCTACAACTTCAGTTCCTAAAGGAAAAGGTTCAGGGTTTACTTCTCCGGCGAACGGAATTCCATCAGGTGATAGTTTTGATATCGACTATGTTGCACACGAGATGGGACATCAGCTAGGAGCTAACCATACCTTCTCTCATAATCTTGAAGGAAGTGGTGTAAATATGGAACCGGGTTCAGGAACTACCATTATGGGATATGCTGGTATTACTGGTCCTGATACAGATGTTCAGGCTAACTCTGACCCTTATTTCCATAAAGCAAGTATCGGACAGGTGCAAGCTAATTTAATTGCAAAAACTTGTGATGTAGAAACTACAATTACCAATAACCCACCGGTAATTACTGATCTGCCAACATATACCATACCAAAAGGTACTGCTTTTGCATTGACAGGCACTGCTACAGATCCTGAAAATGATCCAATGACCTATTCTTGGGAAGAGGTAGATGACGCTTCAGTCTCTATTGATAAATATAACTTAGGAAATACAATGTCAGGAGCTTCATTCAGATCTGCTGCTCCTAGCACTAGCCCAACAAGATACTTCCCGAAATTTACCTCTGTAATGAACGGTGTACTAAATAATGCAAACAATACCTGGGAAGCTGTATCTACTACAGCAAGAACTACAAATTTTGCATTAACTGTGAGAGATAATAACCCCAATGTAGCTCAACAGCAGTCTGCTTTTAAAGTTCAGACTATTGTTGTAGGAGACAATGGGCCTTTCAGATTAGCTAACCAATATGCTGATGTGAATACTCCAACCCCAATTCAGTGGATTGTTGCAAATACTAATGCTGCTCCTTATAATGTTGCCAATGTAAAAATTGATTATACTACTGATAACGGTACAACCTGGACTGTATTATCTGCTTCAACGCCTAATGACGGATCAGAGAACTTTACTTTCCCTTCTTCATTGAACGGTCAGACTATTAAAGTAAGAGTTTCTTCAATTGGGAATGTTTTCTATGCAGTAGGACCTGTTAGTATTGCACCTCTATCTGCATGTAGCAGTGCTGCACCAACTAATGTTGTTGTAAGCAACATTACAGTATCTTCAGCAAGTGTATCCTGGATGTCTTATACTGGTGCAACTTATAAAGTGCGTTATAGAAAAGTAGGAACAACAGTTTGGACTGAAGCTGATACAGCAGTTCCTTCAATCAATCTAAGTAATTTGATTGATGGTACAACATATGAAGTTCAGGTAGCTTTAGTATGCGGAACTACAGTAGGTACATATTCTGCTTCTGTAAACTTCAGTACACCAGCTCTTACTTATTGTACAGCATCTACAGGTAATTCAAGTTATGAGTATATTGCGAATGTAACCCTTGCAAATATAAATAATACTTCTGCAAACAGTACCTATACAAACTACACAACAAATACAGCACTTCAGGTTAACTTAACAAAAGGTAATGTTTATCCTATGTCTGTTACTGTGGGGAATCCTGATGTTGCAGATTATGATACCGTAGCTGCGTTTATTGACTTTAATAAAGATGGTGTTTTCAGTGATTCTGAAAGAGTACTGAATTACCCTGTAACATTAACGCAGCCATCAACTGTAGTAAGTGGAAACGTTACGATTCCAAATGATGCAGTAGAAGGACAGCCATTAAGAATGAGAGTTGTGGCATTCTACGTAGGTGCTGGTACTGGTGGTGGTAACATCGGACTTTCATTACCTGCAGACTATGTATGTGGAGATCTTTTCGATTACGGAGAAGTTGAAGACTACAATGTAGTGATTACTGGTAACCTTGCTACTTCTGAAACTTCAGTTAAAAATGACGGAATTCAGATTTATCCAAATCCGGCAACTGATGTTTTAAACATTACTAAAGTTTCAGATAAGGCAACTTATAAAATTTATAGTGCTGCCGGACAATTGGTAGATAGAGGAAATATCAATGGTGGAAAAGTAAATGTTTCAGCATTAGTTAAAGGAGCTTATGTAATTACAATAGATGATAAAGGAATTGAGCAATTCAAATCTAAATTCATCAAGAAATAA	MKRVFTALMFTFIGGAVFGQWTPTSFKKGNDNKRSTGFRVDQSNVRGNGYYKLDLNLLRSQLKNAQEMGANSTPVVISLPTMSGKIERFNVYSFPVVVKELADKYELGSYVGTSVDDPTKYLRFSIAPNDFQSMIIHGDKYEFIDPASADKTVYAVHPKTKKEKNGFLCSTDESPAAKKEIDDLLKNGQSFSNQPTTFNKSSDKKYRTMRLAMSVTGEYTQYFMGLAGVPATATDDQKRAPALVAINNTLTRVNGVFEKDFALHLNLQNFPNVIYIDPNTDPYAAASTGAGGAWNTQLQTTLTNNVGNENYDIGHLFGKSGGGGNAGCIGCVCINPTTSVPKGKGSGFTSPANGIPSGDSFDIDYVAHEMGHQLGANHTFSHNLEGSGVNMEPGSGTTIMGYAGITGPDTDVQANSDPYFHKASIGQVQANLIAKTCDVETTITNNPPVITDLPTYTIPKGTAFALTGTATDPENDPMTYSWEEVDDASVSIDKYNLGNTMSGASFRSAAPSTSPTRYFPKFTSVMNGVLNNANNTWEAVSTTARTTNFALTVRDNNPNVAQQQSAFKVQTIVVGDNGPFRLANQYADVNTPTPIQWIVANTNAAPYNVANVKIDYTTDNGTTWTVLSASTPNDGSENFTFPSSLNGQTIKVRVSSIGNVFYAVGPVSIAPLSACSSAAPTNVVVSNITVSSASVSWMSYTGATYKVRYRKVGTTVWTEADTAVPSINLSNLIDGTTYEVQVALVCGTTVGTYSASVNFSTPALTYCTASTGNSSYEYIANVTLANINNTSANSTYTNYTTNTALQVNLTKGNVYPMSVTVGNPDVADYDTVAAFIDFNKDGVFSDSERVLNYPVTLTQPSTVVSGNVTIPNDAVEGQPLRMRVVAFYVGAGTGGGNIGLSLPADYVCGDLFDYGEVEDYNVVITGNLATSETSVKNDGIQIYPNPATDVLNITKVSDKATYKIYSAAGQLVDRGNINGGKVNVSALVKGAYVITIDDKGIEQFKSKFIKK	PGPT0022155_4030	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
BMS003_01163	666			hypothetical protein	ATGAAGACAAGACTAATCTTTACCTTTCTTTTTAGTTTATTTGGAGTAATAAGCTGGGCACAAGACAAGAAAAAGGTATCAGAGAAAAAGGTTCACGAAAAATATGAACCTAATTTTATGGTTGGCCTTGATGCGTTGAATACCGGAGCAGGTTTCTTTTCAGAAAGAAAGCTGTATCAGGGGTTTATTTCTTCGAAAATCCGCGGAAATGTTCATGCCATTGCAGAAGCGGGTTTTGAAAAGAACATATATCAGAAGAATGGTTATGATGCCAAGGCAAATGGGCCTTTCGTTAAGCTGGGAGCATTCTATATGCTGGCAAAAGATGCAGAGAATGAGTTCAACGGATTTTATGCCGGAGGAAAAGCTGCCGGGGCATTCTATAATCAGGAATATATGGCGGTTCCCGTTCGTGGATTTGGAGGAAGTAATTCTTCTGAAGCCTTTCCTTCATCATCACAATCTTCTTTCTGGCTGGAAGGTACTATTGGAGGACGAGTTCAGCTGTTCAGTTCCAACTTTTATATCGATGTTAATCTTCAGCCAAGATATATGGTATATACCTCCAAGCAGGATGATATCTTTCCGATGATTGTTCCTGGATTTGGAAAAAGCTCTTCAAAGTTCAATATGGGATTTGCATGGAATATTGCTTATAAGTTTTAG	MKTRLIFTFLFSLFGVISWAQDKKKVSEKKVHEKYEPNFMVGLDALNTGAGFFSERKLYQGFISSKIRGNVHAIAEAGFEKNIYQKNGYDAKANGPFVKLGAFYMLAKDAENEFNGFYAGGKAAGAFYNQEYMAVPVRGFGGSNSSEAFPSSSQSSFWLEGTIGGRVQLFSSNFYIDVNLQPRYMVYTSKQDDIFPMIVPGFGKSSSKFNMGFAWNIAYKF				NA	NA	NA	NA	NA
BMS003_01164	477			hypothetical protein	ATGAAGTACTTTAAATTTCTCATAGCAATCTGTTTTTTAGGAATGCTTTTTTCCTGTGGAGGTGATGATGATATTTGCGAAAGTGGGGAAGGAACTCCCAGAATGAAGGTGGCTTTCAAATCACTATCAACTGGAAAAGAAGAGACAGTGGATACACTTTATGTAGCTGTAGATTATGGTGCCGGAAAAGTGGATCTGGGTAAACTTGCACAAATTGATTCCAGACTAATTCCTTTACGTGTGGATGACTCGCCTTATACAGATATATATTTCAAAGTCAGACTTAAAGGAGCAGAATCTAAAGTAAGAGTTAATTATACTACGAAATCAACGTATGTTTCTCCCGGATGCGGTATCAAAAAGTATTATGAGAATTTAACTTCAGAATTAATAACTCCGGATCCCGTTCAGAAAGTGGAAATCGGACAAAATCAGATAGAGAATGAAGACAAGACTAATCTTTACCTTTCTTTTTAG	MKYFKFLIAICFLGMLFSCGGDDDICESGEGTPRMKVAFKSLSTGKEETVDTLYVAVDYGAGKVDLGKLAQIDSRLIPLRVDDSPYTDIYFKVRLKGAESKVRVNYTTKSTYVSPGCGIKKYYENLTSELITPDPVQKVEIGQNQIENEDKTNLYLSF				NA	NA	NA	NA	NA
BMS003_01165	1413	rlmCD	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGAGTAGGAAGAAAAAAAGAGATCTGATTCTTGAAAACATAAAGCTGTTGACCGCCGGTGCAAAAGGAGTGGCAATAGGAAAAACAGAAGAAGGAAAAGCAGTAATGGTTACAGGAGCTATTCCTGGTGATATTGTGAATGTAAGAGTGAAAAAAGCAAAGTCTAAATATTATGAAGGCGAAGCAATAGAAGTACTGGAAAAATCACCTTACAGAGTAGAACCCAAATGTATCCATTTCGGAACCTGCGGAGGATGTAAGTGGCAGAATATGAGCTATGAAAAACAGCTTGATTTTAAGCAGGAAGAAGTATATAATAATATTAAACGAATCGGAGGAATTGATGATTTTGAAACGGTCTCAATTCTGGGCTCTGAAGAACAATATTTTTATAGAAATAAAATGGAGTTCTCTTTCTCGAATGCGAGATGGCTTACTCAATATGAAATCAGCTCTGAAGAAAATTTCGGAAGCAAAGATGCTTTAGGTTTCCATATTCCGGGAATGTGGAGCAAGATTCTTGACTTGAAAGAGTGTTTTCTTCAGGAAGATCCTTCCAACGCCATCAGACTGGCCGTAAAAGAATATGGAGTAAACAATGGGTTGGATTTCTTTGATGTAAGAAATCAGGAAGGATTCTTAAGAACCTTAATGATGAGACAGAACTCTCATGGAGAGTGGATGGTTCTTTTCCAGCTTTACAGAGAAGAAAAAGAAAACAGAGAAAAGCTTTTTGAATTCCTGTTAGAAAAATTCCCTCAGATTAAAACATTGGTATATGCTATTAATCCTAAGCAGAATGATTCTATTTATGATTTAAATATCAATGTGTATTTCGGAGAAGGCTATCTTATGGAAGAAATGGATGGGTTGAAGTTTAAGATCGGACCAAAATCATTCTTTCAGACCAACTACAAACAGGCATTGGAACTATACAGAAAAACCCTTGAATTTGCAGATCTGAAAGGAGACGAAGTAGTGTATGACCTTTATACAGGGACAGGAACCATCGCTCAGTATGTGGCAAGAAATGCAAAACAGGTTATCGGAATAGAATCTGTACAGGAAGCAATAGATGCAGCCATAGAACATGCAGCACTGAATGGGCTTACCAACACTACATTCTATTGTGGAGATATGAAAGATATTTTCAATGATGAATTCATGGCAAATCATCCAAAAGCAGATGTATTGATCACGGATCCTCCAAGAGACGGTATGCATCAGAAGGTGGTAGAGCAGATCTTAAAACTTTCACCGAAAAAAGTAGTTTATGTAAGCTGCAATTCAGCAACACAGGCAAGAGACCTTGCTTTGATGAAAGATCATTATACTTTAGTGAAAATTCTGCCGGTAGATATGTTCCCGCAAACACACCATGTTGAGAACATTGCATTGCTGATTAAAAAATAA	MSRKKKRDLILENIKLLTAGAKGVAIGKTEEGKAVMVTGAIPGDIVNVRVKKAKSKYYEGEAIEVLEKSPYRVEPKCIHFGTCGGCKWQNMSYEKQLDFKQEEVYNNIKRIGGIDDFETVSILGSEEQYFYRNKMEFSFSNARWLTQYEISSEENFGSKDALGFHIPGMWSKILDLKECFLQEDPSNAIRLAVKEYGVNNGLDFFDVRNQEGFLRTLMMRQNSHGEWMVLFQLYREEKENREKLFEFLLEKFPQIKTLVYAINPKQNDSIYDLNINVYFGEGYLMEEMDGLKFKIGPKSFFQTNYKQALELYRKTLEFADLKGDEVVYDLYTGTGTIAQYVARNAKQVIGIESVQEAIDAAIEHAALNGLTNTTFYCGDMKDIFNDEFMANHPKADVLITDPPRDGMHQKVVEQILKLSPKKVVYVSCNSATQARDLALMKDHYTLVKILPVDMFPQTHHVENIALLIKK				NA	NA	NA	NA	NA
BMS003_01166	1530	resA_2		Thiol-disulfide oxidoreductase ResA	ATGAAAAAATATCTTTTATTGTTTATCATCATATTCTTTGTGATGTCTTGTTCAAAAAAAGTAGAAGTAAAAGGAAAAATTACTGGAAGCTCGCCACTGGAAAGAATTGAGTTCGTAGAAGCTTCAGGAGTAGGAACCCTGCCTTTGATTAATATAGGTTTAGATAAAGACGGGAATTTTTCAGGAAGTTTTGAGGCGCCTAAAAATGGAATGTATGTCATTAACTACGCAGGAAGACAAAACCTGATCTATCTTGAAGGAGGACAAAAAGTAAATATTTCAGGAAACGGAACTACTTTTCCAAATGAATATATAATTACCGGAGATGCTAAAAAGAACAACGATTTCCTTACGGCAAGCATGAAGTTCCTTGCAGATTACGGTAGCAAAATTAACTTACAAGGGTTAATGGGCGGAGACGAAGCTGCATTTTTGAAAGGAATGCATAAGGTAGAAGCTGATATTACTAAAAACATAGATGATCTGGCAAAGAAAAACAATCCAAGCAAAGGATTGCTTGAATGGAAAAAGAATGATATAAAAGTTACCATTCTTAATTTACTGGCCAACTATGAGATGTCTCACGGATCAATGGCTGGAAACCCTTCCTATAAAGCTTCTAAAGCTTTCAAAGATTATGAAACACAGTTGGAGACTGACAAAGAAGCAATGGTGAAAACGATCCCGCTTTACAGACAGTATCTTCTTGTAAAAATGACTCCGGATTTCCAGAAGTATGCAGAAGCAAATAGTAAAGGAAAAACAGGAATTACAACTTCTGAGATGTTTGCTCAGTATCTGAAAACAAAGAAAGATCTATCTCAGACAGCAAAAGACTATCTTTTAGCTTTCGTAATGGCTCAGGCTGATATTCACCCTACAACAACGCCGGCAAACATTGATAAAATTAAAAAAATCATTGATTCAGATATTAAAGATGCCTCCATTAAAAATGATCTCTTAAAAATGCAGGTTGCTATTACAGGACTTAAAATAGGAGATGCTGCTCCTGAAGCAGCTTTGGCAAAACAGGACGGAAAAACCTATAATCTTTCTGAAAACAAAGGAAAACCTTATATGTTATTCTTTTACGCTTCATGGAATCCTTACATCAGTGAAGCTACAGTGCCTGTATTAAAAGAAGTGGTAAACTTTTATAAATCTAAAATGAATTTTGTATTTGTAAACGTAGATGATACAAAAGATCAGTTCATTAAAACAAGTAACTCTCTCCTAAAAGGAATTCAGGGAGTAAATGTTTACGGAGAAGGAGGTCTGAACTCTGATATCGCTAAGAAATATGGCGTATACGGATTTAAATTACCTTGCTTTGTAATCATTGATAAAGATGGTAAAATTGCCAGCAGATCATTCGTGAATCTTGGTGAGCAGGAATTGGTAACTATTCTTGATAAGCAGACTGGTCTTTCTGCTCCGAAAGTAGACCCGAATGCACAAGTGCAGCCGCAATTACAGCTTGATCCTTCTGCAGTACAGCCAGCAAATCCACAGCCGGCTCCTACAAAATAA	MKKYLLLFIIIFFVMSCSKKVEVKGKITGSSPLERIEFVEASGVGTLPLINIGLDKDGNFSGSFEAPKNGMYVINYAGRQNLIYLEGGQKVNISGNGTTFPNEYIITGDAKKNNDFLTASMKFLADYGSKINLQGLMGGDEAAFLKGMHKVEADITKNIDDLAKKNNPSKGLLEWKKNDIKVTILNLLANYEMSHGSMAGNPSYKASKAFKDYETQLETDKEAMVKTIPLYRQYLLVKMTPDFQKYAEANSKGKTGITTSEMFAQYLKTKKDLSQTAKDYLLAFVMAQADIHPTTTPANIDKIKKIIDSDIKDASIKNDLLKMQVAITGLKIGDAAPEAALAKQDGKTYNLSENKGKPYMLFFYASWNPYISEATVPVLKEVVNFYKSKMNFVFVNVDDTKDQFIKTSNSLLKGIQGVNVYGEGGLNSDIAKKYGVYGFKLPCFVIIDKDGKIASRSFVNLGEQELVTILDKQTGLSAPKVDPNAQVQPQLQLDPSAVQPANPQPAPTK				NA	NA	NA	NA	NA
BMS003_01167	2088	lagD_1		Lactococcin-G-processing and transport ATP-binding protein LagD	ATGAAAAACATTAAAAAAACATTTTCTCTTCAAAAAGATCATACAGATTGTGGAGTAGGGTGTATGCAATCTTTGGTAAGATATTATGGCGGGGATATTTCTTTAGAAACTTTAAGAGAGAAAAGTGGAACTGGAAAGACTGGAACTACCCTTCTAGGACTGTACCAGTGTGCTAAAGAAATTGGGTTTGATGCAGAAGGCTGCGAAGCAGATGTAGAAGATTTAATCGAGCATAACCAACCTGTAATTTTACATATAACATTAGAAAATAAATACGAGCATTATGTTGTCTTTTATTCTAGAGATTATTTTAGAGATAATCAGTTTCTTATCGGAGATCCTGCCAAAGGTTTAGAGTATTGGAGTAGGGAGCAATTGGAGAAATTTTGGGTTTCCAAAACTTGTTTAACGCTTTTTCCAAATGACAATTTTGAGAAAAAAGAAATCAATATCTCAAAAAAGAGAAAATGGTTTTTAGATCTTATAAGACAAGATCAAGAATCTATTTATACTATAATGTTTTTGGGAATTGTTACCACTTTATTAGGTATGGCAATGTCTATTTTTTCTCAAAAATTAATAGATAATATTTTGCCGAAAAGAAAAGTTAATATACTTTTTTTGAGCATTGGTTTTTTAAGTTTTCTATTAATTGCAAGAGTTATAATACAATCTTTAAGGGATTTTTATATTATTAAACAAGCTAGAGAATTTAATCAGAGGGTTAATAAATCTTTTTTTAGTTCTTTACTTTATCTTCCCAAACTTTTTTTCGATACGAGGAAGATAGGAGATTTTGTTGCAAGGCTAAATGATACACAGAGGATACAAAATGTAATAAAACATTTAATTACAAATACTACTGTAGACATTATCGGAGTTTTGATTTCTATAGGTTTTCTTTTTTACTATTCCTGGAAACTGGCTTTGGTTTGTTTGCTCGTTTCTCCTATTGTTTTTTATATCATCTTTAGATTTAACAGAAATATTATTACATCGCAAAGAGAGGTAATGCAGCATTATGGCATTAATGAGGCAAATTACATTGATATTATAAGAGGTATAGATGTTGTAAAGGGGTTTGAAAAACAGGAGTTGTTTCTGAAAAAAGAAACTTTAGTTTTTGAAAATTTTCAAAGTAAAATATTTAATCTTGGTAAGATAAATATCAAAATTACACTATATTCAGGATTAGCTTTGGTTTTTTTTCTAATTATAATATTAAGCTTTTCGTCTTATAATGTATTAATTAAGGAAATTAAAGTAGGTGAATTGATGGCTATTATAGGAATTACAAGTTCATTACTTGGTTCTATCACAAACTTAGCGTTGGTTAGTATACCATTACAGGAAGCAAAAATAGCTTTTGACAGAATGTTTGAATATGCATCGATATCAAAAGAAAAAATAGATGGAAAAGAAGTTGAGAATATTAATGAAATAAAAGTTCAGCAGTTAGACTTCAGATTTAAAGGACGTAGTAAGTTACTGGAAGAAATTAATTTGACATTGAGAAAGGGAGAAATTACTTGTATTCTCGGAGAAAGTGGATGTGGAAAAACTACTTTTACTGAAATTCTAAGAAAAAACTATTTACAAGAAAGTGGAAAGATTATCATCAACAATAAGATATATCTAGAAGATGTTTTAGTTTCTAGCTGGAGAAATAGAATTTCTACTGTACCACAAACTATTCAATTATTTAATACAACTGTTTTAGAAAATATTATTTTAACTGAAGAAATTGATCATATAAAATTGCAAAGTTTAATTAATTCAGGTTTTGAAAGATTTATAAATACTCTTCCACAGGGGATAATGACTATTGTAGGAGAAGAAGGCGTAAATTTATCTGGTGGGCAGAAACAATTATTAGGCTGGATGAGAGCACTTTATCATAATCCAGAGTTTTTAATCTTAGATGAGCCGACATCCTCACTGGATGTGGATAATAGAAAATTCATTTATAATTTAATTGAAAAAATTAAGAAAGATAAAATTATATTAATTATTAGTCATAATTTGGAAAACCTAGAAACAATTTCAAATCAAATTTTTTATTTGAAAAATAAAAAACTAGTACAGTGA	MKNIKKTFSLQKDHTDCGVGCMQSLVRYYGGDISLETLREKSGTGKTGTTLLGLYQCAKEIGFDAEGCEADVEDLIEHNQPVILHITLENKYEHYVVFYSRDYFRDNQFLIGDPAKGLEYWSREQLEKFWVSKTCLTLFPNDNFEKKEINISKKRKWFLDLIRQDQESIYTIMFLGIVTTLLGMAMSIFSQKLIDNILPKRKVNILFLSIGFLSFLLIARVIIQSLRDFYIIKQAREFNQRVNKSFFSSLLYLPKLFFDTRKIGDFVARLNDTQRIQNVIKHLITNTTVDIIGVLISIGFLFYYSWKLALVCLLVSPIVFYIIFRFNRNIITSQREVMQHYGINEANYIDIIRGIDVVKGFEKQELFLKKETLVFENFQSKIFNLGKINIKITLYSGLALVFFLIIILSFSSYNVLIKEIKVGELMAIIGITSSLLGSITNLALVSIPLQEAKIAFDRMFEYASISKEKIDGKEVENINEIKVQQLDFRFKGRSKLLEEINLTLRKGEITCILGESGCGKTTFTEILRKNYLQESGKIIINNKIYLEDVLVSSWRNRISTVPQTIQLFNTTVLENIILTEEIDHIKLQSLINSGFERFINTLPQGIMTIVGEEGVNLSGGQKQLLGWMRALYHNPEFLILDEPTSSLDVDNRKFIYNLIEKIKKDKIILIISHNLENLETISNQIFYLKNKKLVQ				NA	NA	NA	NA	NA
BMS003_01168	528			hypothetical protein	ATGAAAAATAATAGGAGTTTAAAAATATTCGCAATCTTTATTCCTGCCTTTGTGATAGGAATACTTGTGTATCTGTTTGTTAATTTTCAAGAGAAAAAAGAAAAAATCAAACAGTTAGAAAATATTCCTTCATTTACTCTAAAAACTATTGACGGAAGTTCTTTTACATCTCAAAATCTAAATAAAAAAAATCATAAAGTCATTATCTATTTCAGCCCAGACTGTCATTTTTGTCAGGCAGAAGCGGAGGAGCTAAGTATAATGTACAAGAACTATCAAAATACAGAATGGATTTGGATTGCCAGTGAACCTTTGGGACAGATAAAAACCTTTGCGAAAAAGTATAAATTACATAATTACCAAAATATTCATTGGTGCTATGATGATAAGGCAAATTTTTATAGAAGATTTCAAATGAAAAGCGTTCCCTACTTTTTAGTGTATGATGAAAATAATCGTCTTATCAACAGAAATTCAGGAGCCATTAAACTTACAAAGCTATTAAGACATTTTGATGAAAAACATTAA	MKNNRSLKIFAIFIPAFVIGILVYLFVNFQEKKEKIKQLENIPSFTLKTIDGSSFTSQNLNKKNHKVIIYFSPDCHFCQAEAEELSIMYKNYQNTEWIWIASEPLGQIKTFAKKYKLHNYQNIHWCYDDKANFYRRFQMKSVPYFLVYDENNRLINRNSGAIKLTKLLRHFDEKH				NA	NA	NA	NA	NA
BMS003_01169	645			hypothetical protein	ATGAAGAATTCTATTTTTATTATAGTAATTGTTTTATTTTATTTATTTCTGACATATTTAGATAAAACTTTTATTACAACTAATTCAAAAGTAATTGATTTTCTTATGAAAGATTATCCAAATACTGTTGTACAAGAGTATTTGGAGAACCAAAAAAAATGGTGGTGGATGTCTTATGCTGTGATTCCATTATTAATTGGGATAAAGGTTCTATTGGTAGCTTTCTGTCTTAATTTTCTAAAATTATTGGATCTTCCTAAAGCAGATCAGATAAAATATGGTGATTTTCTTTTTCTTGCGCTTCTTGCCGAATCTGTTTTTATAATTAGTGGTTTTTATAAGTTTATCTACTTCTATTGGATCAATACAAACTATACTTTGGAAGATGTACAGACATACTATCCTTTATCACTAATTAATTTTAAAGAAAATATTTTTACTGAGAAGTGGTTGGCTTATCCCTTACAATTAATTAATCTTTTCGAATTATTTTATTGGGTACTTCTTGCTTGGGGTTTGAGAGAATTTTTGGAAGAGAAAATAAGCTATTTAAAGTCATTTGGTTTGGTTGCCATAACGTATGGTGTAGGTTTATTGTTTTGGGCAGCAACAATATGTTTTTTAATCCTTAACGCACAGTATTGA	MKNSIFIIVIVLFYLFLTYLDKTFITTNSKVIDFLMKDYPNTVVQEYLENQKKWWWMSYAVIPLLIGIKVLLVAFCLNFLKLLDLPKADQIKYGDFLFLALLAESVFIISGFYKFIYFYWINTNYTLEDVQTYYPLSLINFKENIFTEKWLAYPLQLINLFELFYWVLLAWGLREFLEEKISYLKSFGLVAITYGVGLLFWAATICFLILNAQY				NA	NA	NA	NA	NA
BMS003_01170	276			hypothetical protein	ATGGATATTTTATTTGATTACTTGGAAAAAAAATATGCCTTTCTTAATTTGAAGTTTTGTAGAAAGGGTAATGAATTTGTTATAAGTAATCATTACTATTACTTTAAAATTAAGAAGATAAATGAAAAATATGTTCTTTCTCGGTTTTGGAAAAGATTTTTTTTTCGTTTTTTATTTAAAAAACAGGCAATTAATATGAGTAATATTTATTCTGACATACATGAGTTTTCTAAAATAAATAAATTAGTTATTGAAGAGCTTTATTATAACATATAA	MDILFDYLEKKYAFLNLKFCRKGNEFVISNHYYYFKIKKINEKYVLSRFWKRFFFRFLFKKQAINMSNIYSDIHEFSKINKLVIEELYYNI				NA	NA	NA	NA	NA
BMS003_01171	147			hypothetical protein	ATGAAAAAATTAAATGTTTCGCAAATGGAAAATTTGCAAGGAGGAATTTATCAAATGTCATGTGCAATGGTTTGGGCTGCAGTGGGATTTATATTAGCGGGTGGTATCGCTCCAATTGGAATCAGCGATATTAAAAGATGCATTTAA	MKKLNVSQMENLQGGIYQMSCAMVWAAVGFILAGGIAPIGISDIKRCI				NA	NA	NA	NA	NA
BMS003_01172	768	frdB_1	COG0479	Fumarate reductase iron-sulfur subunit	ATGAGTGCAAAAAAAGGCTTACATCTTACGCTGAAAATTTGGAGACAAAAAAATAATAAATCTAAAGGTCAGTTTGAGACCTACAAAATATCAGATGTATCTACAGACTCTTCATTTCTGGAGATGTTGGATATCCTGAACGAAAACCTAATTAACGAAGGTAAAGAACCTATCGCTTTCGATCACGACTGTCGTGAAGGAATCTGCGGTATGTGTTCTCTTTACATCAATGGTAGAGCTCACGGGCCGGATACAGGGATTACTACCTGCCAGCTTCACATGAGAATGTTCAAAGATGGAGAGACTATCGTTATTGAACCTTGGAGAAGTGCCGCTTTCCCTGTTATCAAAGACTTGATGGTAGACAGAAGTGCTTTCGACAGAGTAATGGCAGCAGGAGGATTTATTTCTGTGAATACATCAGGTAATACCCTGGATGCCAATGCAATCCCGGTTCCGAAAGAAGATGCAGACAGAGCGATGGATGCAGCAGCTTGTATCGGATGCGGAGCTTGTGTAGCTACATGCAAAAACGGATCAGCAATGCTATTCGTAGGAGCTAAAGTTTCTCAGTATGCATTACTTCCGCAAGGTAGGGTAGAAGCTAAGAGAAGAGTTCTGAACATGGTGAAAGCTATGGACGAAGAAGGATTCGGGAACTGTTCAAACACCGGAGCATGTGAAGTGGAATGTCCAAAAGGTATTTCTCTTGAAAACATCGCAAGAATGAACAGAGAATACATGGCTGCTCTTGTAGATCAAGGATAG	MSAKKGLHLTLKIWRQKNNKSKGQFETYKISDVSTDSSFLEMLDILNENLINEGKEPIAFDHDCREGICGMCSLYINGRAHGPDTGITTCQLHMRMFKDGETIVIEPWRSAAFPVIKDLMVDRSAFDRVMAAGGFISVNTSGNTLDANAIPVPKEDADRAMDAAACIGCGACVATCKNGSAMLFVGAKVSQYALLPQGRVEAKRRVLNMVKAMDEEGFGNCSNTGACEVECPKGISLENIARMNREYMAALVDQG	PGPT0001600_1776	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
BMS003_01173	2013	frdA_1		Fumarate reductase flavoprotein subunit	ATGAGTAAATTAGATTCAAGAATTCCGGCGGGTCCTCTTAAAGACAAGTGGAAAAATCATAAAGACCATATGAACCTTGTTGCACCAAACAACAGAGATAAGATTGATATTATTGTTGTAGGTACAGGTTTGGCAGGAGGTTCTGCAGCAGCTACATTAGCTGAGCAGGGATATAATGTAAAAGCATTCTGCTATCAGGATTCTCCAAGAAGAGCGCACTCTATTGCGGCTCAAGGGGGGATTAACGCAGCTAAGAACTATCAGGGAGACGGTGACTCTACTTACAGATTATTCTATGACACCATCAAAGGTGGTGACTATAGAGCAAGAGAGGCCAACGTTTACAGATTAGCTGAAGTTTCCGCAAATATTATTGACCAGTGTGTTTCCCAAGGGGTTCCTTTCGGTAGAGATTACGGCGGTCAGCTGGATAACCGTTCATTTGGTGGGGTTCAGGTAAAAAGAACATTCTACGCAAAAGGACAAACAGGACAGCAGTTATTATTAGGAGCATATTCTTCAATGAGCCGTCAGATCGGTAAAGGAAGAATCAAGATGTATAACCGTCACGAGATGCTTGATCTTGTTATTGTTGACGGAAAAGCAAGAGGTATCATTGCAAGAAACCTTGTTACAGGTGAGATCGAAAGACATTCTGCTCACGCTGTAGTAATTGCTTCAGGAGGATACGGAAACGTATATTTCCTTTCTACTAACGCAATGGGATCCAACGTTTCTGCTGCATGGAAAATTCACAAAAAAGGAGCTTATTTCGCAAACCCTTGCTATGTACAGATTCACCCGACTTGTATTCCTGTTCACGGAACACAGCAGTCTAAACTTACTTTGATGTCTGAATCATTAAGAAACTCAGGAAGAATCTGGGTTCCTAAAAAGATTGAAGATTCAGTAGCGATCAGAGAAGGTAAATTAAGACCAGAAAACATTAAAGAAGAAGATAGAGATTACTATTTGGAAAGAAGATATCCTGCATTCGGTAACCTTGTACCTAGAGACGTTGCTTCAAGAGCCGCTAAGGAAAGGTGTGATGCCGGATACGGAATCGAAAATAATGATACTCAGGAAGGTGTTTACCTTGATTTCTCTACGGAGATCATGAAGAAAGGTAAAGAATCCGCTATTGAAAAGCATATCCATAACCCAACAGATCAGCAGATCTATGATTTAGGTAAAAGCTGGGTAGAGGAGAAATACGGTAACTTATTCGTAATGTACGAAAAAATTACAGCAGATGATCCTTACAAAACTCCAATGAAAATCTATCCTGCCGTTCACTATACAATGGGTGGTGTATGGGTAGATTACAACCTTCAGTCTACAATCCCTGGATGTTTCGTAATTGGTGAAGCTAATTTCTCTGATCACGGTGCTAACAGACTTGGAGCTTCTGCATTGATGCAAGGTCTTGCTGACGGATACTTCGTGCTTCCTTACACGATTGCAGATTACCTTTCTGCAGACATCAGAACAGGAGCTATTCCTACCAATTCAGCAGCATTTGATGAAGCTGAAAAAGGAATTAAAGAAAAAGTTGATTTCTTCTTAAATAATAAAGGAACTCATTCCGTAGACCACTTCCACAAACAATTAGGAAACATTATGTGGAATAAAGTAGGAATGGGAAGAACTCCGGAAGGATTAAGAGAAGCGATCAAAGAAATTGAAGAAGTAAGAAACGATTTCTGGAAAAACGTAAAAGTACCGGGAGAAGGAGAAGGAATGAACACTGAGCTTGAAAAAGCATTCAGAGTAGCAGACTTCCTGGAACTGGGACAATTAATGGCTATCGATGCACTGCACAGAAATGAATCTTGTGGTGGACATTTCCGTGAAGATCATTCCACTCCGGATGGTGAAGCGGAAAGAGATGACGTAAACTATAAATACGTCGGAGCTTGGGAGTATCAGGGTAACGATATCAACGCAGAAGTGTTGCATAAAGAAGAGCTGATATACGAGAACATCGAGGTTAAAACTAGAAGTTACAAATAA	MSKLDSRIPAGPLKDKWKNHKDHMNLVAPNNRDKIDIIVVGTGLAGGSAAATLAEQGYNVKAFCYQDSPRRAHSIAAQGGINAAKNYQGDGDSTYRLFYDTIKGGDYRAREANVYRLAEVSANIIDQCVSQGVPFGRDYGGQLDNRSFGGVQVKRTFYAKGQTGQQLLLGAYSSMSRQIGKGRIKMYNRHEMLDLVIVDGKARGIIARNLVTGEIERHSAHAVVIASGGYGNVYFLSTNAMGSNVSAAWKIHKKGAYFANPCYVQIHPTCIPVHGTQQSKLTLMSESLRNSGRIWVPKKIEDSVAIREGKLRPENIKEEDRDYYLERRYPAFGNLVPRDVASRAAKERCDAGYGIENNDTQEGVYLDFSTEIMKKGKESAIEKHIHNPTDQQIYDLGKSWVEEKYGNLFVMYEKITADDPYKTPMKIYPAVHYTMGGVWVDYNLQSTIPGCFVIGEANFSDHGANRLGASALMQGLADGYFVLPYTIADYLSADIRTGAIPTNSAAFDEAEKGIKEKVDFFLNNKGTHSVDHFHKQLGNIMWNKVGMGRTPEGLREAIKEIEEVRNDFWKNVKVPGEGEGMNTELEKAFRVADFLELGQLMAIDALHRNESCGGHFREDHSTPDGEAERDDVNYKYVGAWEYQGNDINAEVLHKEELIYENIEVKTRSYK	PGPT0001605_211	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
BMS003_01174	663			hypothetical protein	ATGGCAGGTTTAACGAGTTCTACGATAGGTAGAAAATACGCTATGGCATTATCAGCTCTGTTTTTGCTGATTTTTCTTATACTGCATTTGACAACCAATTTGTTATCAGTCCTGAACAGGGATGCGTTCAATACGGCATCTGATTTCATGGGCTATAATCCTTTTGTGCAGTTCTTAATGCAGCCTATTCTTGGTTTTGCAGTAATTTTCCATTTTGTAATGGGATTTGTGCTTGAGATCAAGAATAATAAAGCGCGTCCGGTAAAGTATGCAGCAAACAATGCATCAGTGAATTCTTCATGGATGTCCAGAAATATGATTATTTCCGGAGCTGTTATTTTAGCTTTCTTGGCGCTTCACTTATATGATTTCTGGTTACATGAAATGAATTACAAGTATGTGGAAGGATTAACTCCTGATGCAGAACGTTTCTGGCCGGAACTTCATGAGAAATTTGCAGACCTTTGGAGAGTGGCTTTGTATGTAATCTCTTTTGTGTTGCTAGGGTTTCACCTTGCACACGGATTCCAGTCTTCATTCCAGTCTATCGGTGCAAGACATCCAAAATATACGCCGGTGATCAAAGCTTTCGGAACATGGTATTCAATCCTTATTCCTGCAGGATTTATCATCGTAGCAGTTTTCCATTTTATAACTCAATAA	MAGLTSSTIGRKYAMALSALFLLIFLILHLTTNLLSVLNRDAFNTASDFMGYNPFVQFLMQPILGFAVIFHFVMGFVLEIKNNKARPVKYAANNASVNSSWMSRNMIISGAVILAFLALHLYDFWLHEMNYKYVEGLTPDAERFWPELHEKFADLWRVALYVISFVLLGFHLAHGFQSSFQSIGARHPKYTPVIKAFGTWYSILIPAGFIIVAVFHFITQ	PGPT0001595_1125	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
BMS003_01175	1773			hypothetical protein	TTGCAGAAGCAGCCTCTCCTTATTCTGGTAACATTTTTTATTCTTGGGATTCTTTTTCAGGATAAGATGGTTTTGGCAGATACTGCACTTTATTTGGTAATAGCATTGTGTCTGGCTGTACTTGCTGCAATATGTTTTCATTCATATTTTCTGCATAAGACAAAAGCTGTTTTGCTTGCATTTTTGTTCTTTGGAACGGGGATTATTCTCCATAGTTATAATACCTCTGCGGATGATGTTTATTCATTTCCGGATAAAAAAGAAACTGTTACTTTTAAAATCTCTCAGAAATTAAATTCTACCGAAAAATATAAAAGATACGAAGGAATTATACAGGCAGAAAATGTAACTTTCAATGCTGTACTGTATGTTCCGGGGAAGATTAAAGAGCTGGATTTTATTCATTATTACAAAGCTGAAGCTTATATAACCAAACCTAGAACCCTTCAATATGATTTCCAGTTTAATTATGTTCAATATCTGAAACGGAAGCATATTAATTATCAGATTTATATTTCAAATGAAATAATATCTGCAGAACGGAATGATGTGAAGCTGGCAGATCAGTTACGGCAGTATAGATTTGTGGTTCTTCAGAAAATTGATCAGATCAAAGTTTCAGGAAAAACAAAAGGATTTTTGAAAGGAATTATTCTGGCAGACCGAACAGAGATGGATGCAGGTACAGCTCAGGATTTCAATAAGTCCGGGCTGGTTCATTTTCTGGCGATTTCGGGAACACATATTGTGATTATTTTCGGGATTTTTTACTTTTTTCTGATTCGTCTTATTTCTTTACAATTCAGAAAATATGCAGTTATTTTAAGCCTGGTTTTTATCTGGCTGTTTGCAGCTTTTATCGGGTTCGGAAATTCGGTTTTGCGCTCTTGCATCATGCTGAGTGTTTATTTTATTTTTGTACTGCTCCAGCGGAAACCGGATCTGTTGCATTCATTGGCTTTGTCCGCTTTTATTATTTTGATTGTGGATACTCAGCAGATTTTTGACGTAGGATTTCAGCTGAGTTTTTTAGCTGTTTTGGGTATCTATTGGCTGAATCAGCCCCTGTTGAAAAGTTTTCCGAAACAGGATCATTATCTTAAAAAACTTCTTTTCAATACCATTACCATATCTTTATCAGCTCAGCTGGCAACGCTTCCTTTGGTGTTGTATTATTTTCATCAGTTTTCATTCATATCCGTCATAGCGAATTTAGTTATCGTTCCTTTTTCTGAAATAATTATTGTATTCTCATTTATCATGACTGGTTTTATTGCATTCGGAATTGATCTTGAAATAATGAATAGAGTATATGATTTTCTTATTCAGATCCTGTTGAAAATGATCCACTGGTTTGCTGAGATCAATCTTTTGTTCTTTGAAAGTATTCCTATGAACGGATTTGAAGTGCTTTCTATCCTAATAGTGGTTTGTTTATTAAGACCGGTTATTTTAACATTTAACTTTAAAAATGCGATGAGGTTAACGATGGCATTGATTGTATTTTTGATGATAAGATCTGTAAGTAATATCATTGAAAGTAAGAAGGAAGAAGTGCTCATTCATAACTTTGGTAAAGACCGGATTTTTTCTGTAAAATGTGGTCACAGAGCATGTTTCTGGGTTTCGGATAGGAACAGTGAAGCTAAAGTTCTGAAGTATATTGTAAATCCCTATTGCGCTGCAAAAAGGATAGATTATTTTGAAATAAAAGACCTCTCTCCGTCTGTGAAAAAAGTAGTTTTCAGAGAGCGTATTTATAATCTGAAATAG	MQKQPLLILVTFFILGILFQDKMVLADTALYLVIALCLAVLAAICFHSYFLHKTKAVLLAFLFFGTGIILHSYNTSADDVYSFPDKKETVTFKISQKLNSTEKYKRYEGIIQAENVTFNAVLYVPGKIKELDFIHYYKAEAYITKPRTLQYDFQFNYVQYLKRKHINYQIYISNEIISAERNDVKLADQLRQYRFVVLQKIDQIKVSGKTKGFLKGIILADRTEMDAGTAQDFNKSGLVHFLAISGTHIVIIFGIFYFFLIRLISLQFRKYAVILSLVFIWLFAAFIGFGNSVLRSCIMLSVYFIFVLLQRKPDLLHSLALSAFIILIVDTQQIFDVGFQLSFLAVLGIYWLNQPLLKSFPKQDHYLKKLLFNTITISLSAQLATLPLVLYYFHQFSFISVIANLVIVPFSEIIIVFSFIMTGFIAFGIDLEIMNRVYDFLIQILLKMIHWFAEINLLFFESIPMNGFEVLSILIVVCLLRPVILTFNFKNAMRLTMALIVFLMIRSVSNIIESKKEEVLIHNFGKDRIFSVKCGHRACFWVSDRNSEAKVLKYIVNPYCAAKRIDYFEIKDLSPSVKKVVFRERIYNLK	PGPT0029415_4012	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
BMS003_01176	1092			hypothetical protein	ATGAGTTATTATACCCGTTTCCTGTTATTGCTGACATTTGTATTGTTTTTCTCAAATAGTTCTGCTCAGCAGACGAACTCAAGAGAGAAAGCTCAGATATTCTACTATGGCTGGTATGGAAATCCTTCAATTGACGGAAGTTATCAACATTGGAATCATGAAATTCTTCCCCACTGGAGCAATCCGAAATGGAATAATCTTGGGCATCACCAGGGAGGAGATGATATTGGAGCTAATTTTTATCCGGCACTTGGAAACTACAGTTCCAATGACCCGAAGATCATTGAAAAACATATGAAAATGATCAAAGATTCAGGAGTAGGAGTCGTGGTGGTAAGCTGGCTGGGAAAAGATTCATTTACTGATAAAAGTCTTATCAAATATCTGGATATTGCAGATCATTTTGATTTAAAAATCGCATTTCACATTGAGCCGTTTTATAAAAATACTACAGAATTAAAGGAACAGCTTTCTTATCTTATAAAAACATATTCCCATCACCGCGCTTTCTACAAAAAAGATGGAAAGCCTTTGTTTTATGTGTATGACAGCTATAAAATCCCTAAAGAAGAGTGGGCGAAAATGTTGTCTAAGAATGGAGAGGAAACAGTTAGAAATACAAGTCTAGATGCACTTTATATCGGGCTTTGGGTTGAAAAAGATGATACTAAATTTTTTGATACAGCAGGCTTTGATGGTTTCTATACCTATTTTGCCAGTGAAGGTTTTGTGTACGGAAGCACAACTGCTAACTGGGATTTTATGGCCGGCTACGCTAAAGATCACCACCTGATTTTTATTCCTTGTGTAGGACCAGGTTATTCCGATACAAGAATACGCCCATGGAATGAAGCAAACTTCAAAAGCAGAGAGAATGGGAAGTATTATGAAAAGATGTTTGATGTGGCTATTAAAGTAAAACCGGATTTCATCGGGATCACATCATTCAATGAATGGCATGAAGGAACACAAATAGAACCCGCCATCCCTAAAAAAGCAGGTGACTTTACCTACGAAGATTACGGGAAAGATCCTTTATTTTATATTAAAGAAACAAAACGATTGACGGATAAATTTCTGAAAAAGAAATAA	MSYYTRFLLLLTFVLFFSNSSAQQTNSREKAQIFYYGWYGNPSIDGSYQHWNHEILPHWSNPKWNNLGHHQGGDDIGANFYPALGNYSSNDPKIIEKHMKMIKDSGVGVVVVSWLGKDSFTDKSLIKYLDIADHFDLKIAFHIEPFYKNTTELKEQLSYLIKTYSHHRAFYKKDGKPLFYVYDSYKIPKEEWAKMLSKNGEETVRNTSLDALYIGLWVEKDDTKFFDTAGFDGFYTYFASEGFVYGSTTANWDFMAGYAKDHHLIFIPCVGPGYSDTRIRPWNEANFKSRENGKYYEKMFDVAIKVKPDFIGITSFNEWHEGTQIEPAIPKKAGDFTYEDYGKDPLFYIKETKRLTDKFLKKK	PGPT0019285_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0019285-manEA-K15538	NA	NA
BMS003_01177	1104	lpxB	COG0763	Lipid-A-disaccharide synthase	ATGAAGTATTATATTATTGCAGGAGAAGCTTCAGGTGATTTACACGGAAGTAATCTGATGAAATCCTTAAAACAAAAAGATCCGAATGCGGAATTCCGATTTTGGGGTGGTGATCTGATGAAAGCTCAGGGAGGAACGCTGGTGAAACATTACAGGGATTTGGCTTTTATGGGATTTCTGGAAGTGGTGATGAATCTCAGAACGATTCTGAATAATATTAAGTTCTGTAAAGAGGATATTCAGAAGAACAGACCTGATGTTTTAATTTTAGTAGATTATCCTGGCTTTAACCTGAGGATTGCAAGATTCGCCAAAGAACTTGGGATAAAAGTGGTTTATTATATTTCTCCACAACTTTGGGCATGGAAAGAAGGACGTGTAGAAATTATCAAAAAGTATGTGGATGAGATGATGGTCATCCTTCCTTTCGAAGAAGATTTTTACAAAAAACATGGCGTGCATTCTCATTTTGTAGGACATCCTTTGCTGGATGCTATTTCTGATCTTCAGGAAATCAGTAGTGAAAATTTCAAATCTGAAAATGGTTTGAACGAAAAAGAAATCATTGCACTGCTGCCGGGTTCCAGAGAACAGGAAGTAGAAAAGATGCTGGAAATAATGCTTTCCGTAAGACCATACTTTAAAGACTATCAGTTTGTCATTGCCGGAGCGCCGAGCCTTCCTAAAGAATTTTACCAGAAATATGTGGATGATAATGTCCATTTTGTATCCAATAGAACCTATGATTTACTGAGATGTTCCAAAGCAGCTCTGGTTACATCCGGAACAGCTACTCTGGAAACAGCTTTACTGAATATCCCTGAGGTGGTTTGCTATCGCGGAAGCAAAATTTCTTATGCTATTGCTAAAAGATTAGTGAAAAATATCAATTACATTTCTCTTGTTAATCTGATCATGGACAGGGAAGTAGTAAAAGAGCTGATTCAAAATGATCTGAATACTAAAAATCTGGTAGAGGAACTCAATAAAATTGTATCAGGAGAAAAAAGAGAAAAGGTTCTTAATGACTATAATCTTCTGAGGGAAAAACTTGGAGGAAAAGGAGCCAGTGATCACGCTGCTGAAGTAATATTAGAAGTGTAA	MKYYIIAGEASGDLHGSNLMKSLKQKDPNAEFRFWGGDLMKAQGGTLVKHYRDLAFMGFLEVVMNLRTILNNIKFCKEDIQKNRPDVLILVDYPGFNLRIARFAKELGIKVVYYISPQLWAWKEGRVEIIKKYVDEMMVILPFEEDFYKKHGVHSHFVGHPLLDAISDLQEISSENFKSENGLNEKEIIALLPGSREQEVEKMLEIMLSVRPYFKDYQFVIAGAPSLPKEFYQKYVDDNVHFVSNRTYDLLRCSKAALVTSGTATLETALLNIPEVVCYRGSKISYAIAKRLVKNINYISLVNLIMDREVVKELIQNDLNTKNLVEELNKIVSGEKREKVLNDYNLLREKLGGKGASDHAAEVILEV	PGPT0022325_2808	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
BMS003_01178	510			hypothetical protein	ATGTCAGAAGAATTTGAAATCCGGAATAAAGTTGCAGAAAGCGGCCTTATCAATTTTGACCTTACCACTTTACTTCCGAAAGGAGAAAGAAAAGGTATTGACCTGAAAGACTTCCTTTTCCAGGAAATGATTCTGAAAGAAAAAGATTTTCGTGAAAAGGTAGAGGCTATTGATACTGAACAATATAAAGATTCCTACATCTACATCTACAACTCTGTAGATACGATTATCCCTCTTTGGGCCTATTTTGTATTGACAGCCAAACTTACAGATGTAGCCAAAAAAATAGTCTTCGGAAACCGTGAGGATCTTGAGGTTATTTTGATGCATAATGCTATCCAGACCCATGATTTTGAGGAAATGAGAGGAAAAAGAGTCCTTGTAAAGGGCTGTTCAGATAAAGAAATTCCGGAAAATGCATATATAGAACTGGTAGAACAGCTAAAACCTATTGTAAAATCTCTGATGTTCGGAGAAGCATGTTCTAATGTTCCTATCATAAAGAACTAA	MSEEFEIRNKVAESGLINFDLTTLLPKGERKGIDLKDFLFQEMILKEKDFREKVEAIDTEQYKDSYIYIYNSVDTIIPLWAYFVLTAKLTDVAKKIVFGNREDLEVILMHNAIQTHDFEEMRGKRVLVKGCSDKEIPENAYIELVEQLKPIVKSLMFGEACSNVPIIKN				NA	NA	NA	NA	NA
BMS003_01179	1260			hypothetical protein	ATGAACAAATATTTATCAGCCTTATTTTTGTTCATTATTTTTCTTGGTATATACTATTTCGGAAGTTTTTCAAAAATTCCTTTTGCAGATTGTGTAGGATTTGTACTGAGTGTAGAAACAGGAGTATGGGAAACCACTGCTACAGCAACCAGTCATTTTTTATATATCAACACGGTTATTTCTATTAAAAACCTTTTGGATATTAATGCCATTGAAGCCAGCAGGTTTTTGGTTGTCTTTTCCGGCGCAGCAACGGTTTCCGCTGTTTATCTTACGGTAAAAAGTATTTCAAAAACAGAATGGGCTTCTCTTACAGCGGCTTTTGTTTTCGGCTTTAGTTTTTCCTTCTGGAGGAATGCCGAAATAGTGGAAGTTTACACTTATAATTCTCTGTGGATAAGCCTTTTCTTCTTTTCGGTGATCAAAAGTTTTACTGAAAAGAAAAAAAATTATATCCTGTTAAGCAGTCTGTTTTTGGGAATCAGCTTATGGGTTCATATTCAAAATATCCTGCTTATACCCTCTTTATTAGTTTTCTTATTTTATTTCAGAAATGAAAAAAAATATGCTGCCGCTTCACTATTGATCTTTGCCGTCTTATTCTGTTCCTTATTTATTCTCAATATTTCCCACGGACTTCCTATTAAATCTCCATATAGTTCTGATCAGGGAACCTGGGTAGAGGATTCTTTGAAAAAAACTACTATTCAGTATGTGAAAGATTTTTTCCAATCTTTTGCGTATCTGATCTATAATTTCAACATCTTTACTTATTTCGGAATAGCAGGTATTCTATTATTGTACAAGACCAACAAAAAAATGTTTTTTGTTTTTACTGTAGGTGCTGTATGTGTATACGGATTTGCCACCTTTTATGCAGTATCAGACAATTACGTTTTCTTTTTGCCTTTCAATATCATTTTTGCGTTGTCTATCGGATATGGACTTTCCGCAGCAAAGTATGCACACCTGAGAAAATTTTCATGGATATGCTTATTGATTCCTGTGGGTTATTTTCTCATTTACAAAGCCATATTCTTAACAGAAAAAGGGCAAGAATTTCATGCATTCAAAGACTATAAAGGCGGTCTGAATTATTATACACTGCCATGGATGAATAATAATGTGGGAATTCTGGAATTCACTATTGATAAAAAACAAGCTCCCGAACCTATTGAATGGATGACCATCAGTGCTGTAGAATATATAAAGCTGTTAAAGAGTAAAGGGTATACTGACGAGCAGATCAGAAAACTTTAA	MNKYLSALFLFIIFLGIYYFGSFSKIPFADCVGFVLSVETGVWETTATATSHFLYINTVISIKNLLDINAIEASRFLVVFSGAATVSAVYLTVKSISKTEWASLTAAFVFGFSFSFWRNAEIVEVYTYNSLWISLFFFSVIKSFTEKKKNYILLSSLFLGISLWVHIQNILLIPSLLVFLFYFRNEKKYAAASLLIFAVLFCSLFILNISHGLPIKSPYSSDQGTWVEDSLKKTTIQYVKDFFQSFAYLIYNFNIFTYFGIAGILLLYKTNKKMFFVFTVGAVCVYGFATFYAVSDNYVFFLPFNIIFALSIGYGLSAAKYAHLRKFSWICLLIPVGYFLIYKAIFLTEKGQEFHAFKDYKGGLNYYTLPWMNNNVGILEFTIDKKQAPEPIEWMTISAVEYIKLLKSKGYTDEQIRKL				NA	NA	NA	NA	NA
BMS003_01180	654			hypothetical protein	ATGAGTTTAATCGACCTACTTACAGGAAACACCGGCAACCAGGTTGCTGAACAGGCTGAAAATAAATTCGGAATCAGCAAAAACCAGGTAATCGCTTTATTAGCTGTTGCTACACCTCTTATTATTTCTTATCTTAGAAATAAATCTCAGGACTCCAAAGAAGCAGAAGCTTTAAACAACGCTTTAGATAAAGATCACAACGGAAGTATTTTAAATGATGCTTCTCAGATTGAAGCAAGACAGGCTGAAGGAGGTTCTATCCTTGGTCATATTTTCGGTGATCAGAAAAGTAATGTTGAAAATCAGTTATCACAGAATACGGGCATTTCAATAGACAAAATAGGACCTATCCTTGCTATGCTGGCTCCTGTTGTAATGGGTTACATCGGACAGCAGAAACAGCAGAGTAATGTAGGAGCAGGTGGTTTAGGAGATCTTTTAGGAGGAATTCTTGGAAATGCTTCCAATCAGGCTCAGGCTCAGCAGTCTAATCCTCTGAATGATATTCTTGGAAGTGTCTTAGGAGGCGGACAATCCCAATCATCCGGAAACCCTCTGAACGATATACTGGGAAGTGTATTGGGTGGTGGCGGAAACCAGCAACAAGGCGGCGGTTTAGGCAGTATCCTTGGAAATATTCTTGGTGGCAAATAA	MSLIDLLTGNTGNQVAEQAENKFGISKNQVIALLAVATPLIISYLRNKSQDSKEAEALNNALDKDHNGSILNDASQIEARQAEGGSILGHIFGDQKSNVENQLSQNTGISIDKIGPILAMLAPVVMGYIGQQKQQSNVGAGGLGDLLGGILGNASNQAQAQQSNPLNDILGSVLGGGQSQSSGNPLNDILGSVLGGGGNQQQGGGLGSILGNILGGK				NA	NA	NA	NA	NA
BMS003_01181	120			hypothetical protein	ATGGGAAAAGGAGACAAAAAATCAAGAAGAGGAAAAATTAATTCCGGAAGTTATGGAAAAAGAAGACCTAAAAAAGCATCAAAATCTTTTGCAGCTTCTGAAGAAAAATCTAAAAAGTAA	MGKGDKKSRRGKINSGSYGKRRPKKASKSFAASEEKSKK				NA	NA	NA	NA	NA
BMS003_01182	1395	mepA	COG0534	Multidrug export protein MepA	ATGACAAAATATATTGAGTTTCTGAAAAAAGCATTCAGTGGTGAAGAGACAGATTTTACAAAAGTCAATATCAGAAGTGCCGTGCTGCTTTTAGCGATTCCTATGATGCTGGAAATGGCCATGGAATCCGTATTTGCCCTTGTTGACCTCTATTTTGTCGGTCATCTGAAAGAAAGTGGCTTTGCTATTCAGACGGTAGGACTTACAGAGTCTGTACTTTCCGTAATGTATTCTATTGCGATCGGGATGAGCATGGCAGCCACAGCTCTGGTGGCAAGAAGAATTGGTGAGAAGAATCCGGAACAGGCTTCCAGAAGTGCGGCGCAGGTATTATTTGTTTCCTTTGTTATTACTTTGTTTCTAAGTTTACTTGGAGTGATTTATGCTGAAGAAATTCTAATCCTGATGGGTTCAAAACCAGAGGCAGCAGCGTATGGGAAAAACTTTACCAGAATTATGATGGGAAGCAGTACCATTATTATGCTTTTATTTTTAATTAATGGTATTTTCAGAGGGGCAGGAAATGCGATGATTGCCATGAAAAGTTTATGGATTGCGAATATTGCCAATATTATTCTCTGTCCGATTCTGATAAAAGGATTAGGACCTGTTCCAGCTTTGGGATTAACGGGTGCGGCTCTTGCCACAACAATAGGACGTAGCATCGGGGTAATTTATCAGTTGTATCATCTTTTAGTAGCAGATACACAGATTCGTATAAAAATTCCTTATTTTAAACCGAGTTATGAGTTAATCAAATCCATTATAAAAATTGCAACTCCCGGGATTTTTCAGTTTGTGATAGCTTCATGCAGCTGGATTTTTCTTGCAGAATTGGTGGCAACTACAGGAGGTGAAAATGCATCGGCAGGTTATCAGACTGCTTTAAGGCTAATGATGTTTTTTATGCTTCCGGCCTGGGGGCTGAGTAATGCCGCATCTACGCTGGTAGGACAGAACATGGGAGCCAATGAAATGTTAAGAGCTGAACAATCGGTGATGAAAACAGTGAAATATAATGTCATCTTTATGTTGATCGTAAGCTTGATCTTCCTTTTGATGGGTGATTTTTTAGTAAGTTTTTTTACTCAGGAAATTGCCATTAAAGATTTTGCAAAGAATGCCCTTCAGATTATGAGTGTAGGATTTATTTTTTATGGAATCGGAATGGTGATGATCAATGCGTTCAATGGAGCGGGGGATACCTGGACACCTACATGGGTTAATCTTTTTGGATTCTGGCTGTTTCAGATTCCTCTCGCATATTTTTTATCCAAATATCTTGACATGGGGCCCAAAGGAGTTTTTATCTCAATTCCAGCCGCAGAAACTTTAATTACCATTGTTGCTTTTGTCTTATTTAAAAAAGGAAAATGGAAGACGGTAAAAGTGTAG	MTKYIEFLKKAFSGEETDFTKVNIRSAVLLLAIPMMLEMAMESVFALVDLYFVGHLKESGFAIQTVGLTESVLSVMYSIAIGMSMAATALVARRIGEKNPEQASRSAAQVLFVSFVITLFLSLLGVIYAEEILILMGSKPEAAAYGKNFTRIMMGSSTIIMLLFLINGIFRGAGNAMIAMKSLWIANIANIILCPILIKGLGPVPALGLTGAALATTIGRSIGVIYQLYHLLVADTQIRIKIPYFKPSYELIKSIIKIATPGIFQFVIASCSWIFLAELVATTGGENASAGYQTALRLMMFFMLPAWGLSNAASTLVGQNMGANEMLRAEQSVMKTVKYNVIFMLIVSLIFLLMGDFLVSFFTQEIAIKDFAKNALQIMSVGFIFYGIGMVMINAFNGAGDTWTPTWVNLFGFWLFQIPLAYFLSKYLDMGPKGVFISIPAAETLITIVAFVLFKKGKWKTVKV				NA	NA	NA	NA	NA
BMS003_01183	363			hypothetical protein	ATGAAAAAAATAATCTCTACTCTCTTTCTATTTGGAATGTTACTGTCTGGCAGCATGTTATCTGCCCAGAAGATGAGTCAGGAAAAAATGAAAGCCATTTATTCTGATGATATCGCAACATTTAAAAAACATTTTGCCCCGGGAGATTACAACAAATGCTTCCTTGTGGGAGATATACTTTATTCTCCGCTTGGCTTCAGTGTAATGTCTGACAGAAAGAATATTATAAAATTTCTTTTGAACAACAGAGCCAATGTTAATAAAAAATGTCAGAACAAAACTCCTCTTGAGGTAGCAGATGAAACAAAAGGCAGCGAAGAAGTAAAGAAAATTCTGATCGCGAAAGGTGGTAACAGAGATTAA	MKKIISTLFLFGMLLSGSMLSAQKMSQEKMKAIYSDDIATFKKHFAPGDYNKCFLVGDILYSPLGFSVMSDRKNIIKFLLNNRANVNKKCQNKTPLEVADETKGSEEVKKILIAKGGNRD				NA	NA	NA	NA	NA
BMS003_01184	1755	aspS		Aspartate--tRNA ligase	ATGTTTCGATCACACACCAACGGAGAGCTATCTCTGAAAAATCTGAATGAAGAAGTTACACTATCAGGATGGGTACAGACTATCCGTGATAAAGGATTTATGATTTGGGTAGATCTTCGAGATCGTTACGGAATTACCCAGCTGGTTTTTGATCAGGAGCGTTCTTCTTCACAACTGATGGAAGAAGCTAAAAAACTGGGCCGTGAATTTGTGATTCAGGCTACCGGAAGAGTTATTGAAAGAGTAAGCAAAAACCCTAATATTCCCACCGGGGAAATTGAAATTCTGGTAGAAAAACTGACTATTCTGAACGATTCTCAACTTCCTCCTTTCACAATTGAAGATGAAACGGATGGGGGGGAAGAGTTAAGAATGAAATACCGTTACCTGGATATCAGAAGAAATCCGGTAAAAGATAAGCTGATCTTCCGCCACAAAATGGCTCAAAAAGTAAGAAATTATTTATCTGAGGAAGGTTTCATTGAAGTGGAAACACCTGTTTTGATCAAGTCTACTCCGGAAGGGGCAAGAGATTTCGTGGTACCAAGCAGAATGAATCCGGGACAGTTTTATGCATTACCACAGTCTCCACAGACTTTCAAACAGCTTCTGATGGTAGGTGGAATGGATAAATATTTCCAGATTGTAAAATGTTTCCGTGATGAGGATTTAAGAGCAGACAGACAGCCGGAATTTACACAGATAGACTGTGAGATGGCTTTTGTAGAGCAGGAAGATGTTATGAATGTATTCGAAGGAATGACCAAAACCCTTTTAAAAGATATTACAGGTCAGGAATTCGAAGATTTCCCAAGAATGACTTTCGCAGATGCGATGAGAAAATACGGAAATGACAAACCGGATATCCGTTTCGGAATGGAGTTCGTAGAACTGAATGAACTGGTAAAAGGAAAAGACTTTAAGATATTTGATGACGCTGAATTAGTAGTCGGAATCAACGTAGAAGGATGTGCAGACTATACCAGAAAACAGATCGATGAGCTTGTTGACTGGGTAAAACGCCCTCAGATCGGAGCTTCAGGAATGGTTTGGGTAAAATTCCAGAATGATGGGGTAAAAACCTCATCGGTAAACAAATTCTACAGCGAAGAAGATTTAGCAAAAATCATTGAAAAATTCGGTGCAAAAGAAGGAGACTTAATGTTGATTCTTTCCGGAAACGAAAATAAAGTAAGAGCTCAGCTTTCAGCATTGAGAATGGAGCTTGGAAACCGTTTGGGACTAAGAAAAGGAAACGAGTTTGCACCCCTTTGGGTGGTTGACTTCCCTCTATTGGAATTTGATGAAGAAAGTGGACGTTACCATGCAATGCACCATCCTTTCACCTCTCCAAAACCGGAAGATATTCACTTACTGGAAACTGATCCCGGAAAAGCAAGAGCCAACGCTTATGATATGGTTCTGAACGGAAACGAAATCGGAGGTGGATCTATCAGAATTTTTGACAGAGATCTTCAGTCTAAAATGTTCGATTTATTAGGATTTACCAGAGAAGAGGCAGAGGCTCAGTTTGGATTCCTGATGAATGCTTTCAAATATGGTGCTCCGCCACATGGAGGTTTAGCATTCGGATTTGACCGTTTGGTGGCTATTCTTGATGGAAACGAAGTGATCAGAGATTATATCGCTTTCCCTAAGAACAATTCAGGACGGGATGTAATGATTGATGCTCCTGCTTCTATTGCTGATGCACAGCTTGACGAATTAGAATTACAACTGAATTTAAAAGCATAG	MFRSHTNGELSLKNLNEEVTLSGWVQTIRDKGFMIWVDLRDRYGITQLVFDQERSSSQLMEEAKKLGREFVIQATGRVIERVSKNPNIPTGEIEILVEKLTILNDSQLPPFTIEDETDGGEELRMKYRYLDIRRNPVKDKLIFRHKMAQKVRNYLSEEGFIEVETPVLIKSTPEGARDFVVPSRMNPGQFYALPQSPQTFKQLLMVGGMDKYFQIVKCFRDEDLRADRQPEFTQIDCEMAFVEQEDVMNVFEGMTKTLLKDITGQEFEDFPRMTFADAMRKYGNDKPDIRFGMEFVELNELVKGKDFKIFDDAELVVGINVEGCADYTRKQIDELVDWVKRPQIGASGMVWVKFQNDGVKTSSVNKFYSEEDLAKIIEKFGAKEGDLMLILSGNENKVRAQLSALRMELGNRLGLRKGNEFAPLWVVDFPLLEFDEESGRYHAMHHPFTSPKPEDIHLLETDPGKARANAYDMVLNGNEIGGGSIRIFDRDLQSKMFDLLGFTREEAEAQFGFLMNAFKYGAPPHGGLAFGFDRLVAILDGNEVIRDYIAFPKNNSGRDVMIDAPASIADAQLDELELQLNLKA				NA	NA	NA	NA	NA
BMS003_01185	1269	purA_2	COG0104	Adenylosuccinate synthetase	ATGGATATTGTATTAGGATTACAATGGGGTGATGAAGGAAAAGGGAAGTTCATTGATCTGATCAGTGAAAATTATGACATTACAGCGCGTTTTAATGGAGGCTCCAATGCCGGGCACAGCATTGAAAGGAATGGACGCCGAATTACACTTAAAATGATTCCTTCGGGAATCTTTATGAAAGGTGTGCAGAATGTGATTGGAACGGGAACCGTGCTGGATCCTGTAAGTTTTAAAAAAGAAATTCTGAACCTTCAGGTTTTTGATGAAACAGTTCAGCCGGAAAACAATGTGATTATTTCTCTCAAAGCTCACTTTGTATTGCCTACTCATAAACTTTTGGATGTTTTTATGGAAGAAAGTTCTGATTATACTACGATCGGAACCACCAAAAACGGGATTGCACAGGCTTATTCCAATAAAATTTTAAGACAGAATGTAAGAATAGGAGATATGTTTGCTCCGGATTTCAAAAGCAGAGTAGAGCATATTTTAGAAAGAGACTATAAAATGTTGACCGCTGAAGGCATGGAGTTGCCGTGCCTGGAGGAAATCAGTAAAGAATTTTTTGAAGCAGTTGATTTTTTAAAAAGATTCAAATGTACTGAAACGGAAATATATCTGAATAATGCTTTGGCAGAAGGCAAAACAATATTGGCAGAAGGGTCTCAGGCCGCTATGCTGGATATTGATCACGGAACGTATCCTTATGTAACTTCTTCTTCAACCACAGCTTCAGGGGCAAGCAGTGGTTTAGGTATTTCACCGAAAAGTATAGGTGAGGTCTTTGGAATTGCGAAAGCATACTGTACAAGAGTAGGAAACGGCGTTTTTCCAACCGAGCTTTTTGATGAATTAGGAGAAGAGATCAGAACAAAAGGAAATGAGTTTGGCTCCAATACCGGACGTCCCAGAAGAACTGGCTGGCTGGATTTACCTGCTTTAAAATATGCTGTGATGATCAATGGGGTAACTCAGCTGGTTCTGACGAAAGCCGATGTACTAAGCGGATTGGAATCTGTAGCAGTATGTACTCATTACGAACTGGAAAATGGAGAGAAAATATCAGTTTCGGGACTGCTTCCGGAAAATGGGAAACCAATACTGAAATGGATGAATGGTTGGGAAGCTGATTTTTCTACGATGAAGAGTTCCTCAGAACTGCCAAGAGAAGTCATTGAGTTTCTGTCATTCTTAGAAGCGGAATTGGGAATTCCTGTTGCTTATCTTTCAACGGGACCGGGAAGAGAGCAGATGCTGAAGATGATTTAA	MDIVLGLQWGDEGKGKFIDLISENYDITARFNGGSNAGHSIERNGRRITLKMIPSGIFMKGVQNVIGTGTVLDPVSFKKEILNLQVFDETVQPENNVIISLKAHFVLPTHKLLDVFMEESSDYTTIGTTKNGIAQAYSNKILRQNVRIGDMFAPDFKSRVEHILERDYKMLTAEGMELPCLEEISKEFFEAVDFLKRFKCTETEIYLNNALAEGKTILAEGSQAAMLDIDHGTYPYVTSSSTTASGASSGLGISPKSIGEVFGIAKAYCTRVGNGVFPTELFDELGEEIRTKGNEFGSNTGRPRRTGWLDLPALKYAVMINGVTQLVLTKADVLSGLESVAVCTHYELENGEKISVSGLLPENGKPILKWMNGWEADFSTMKSSSELPREVIEFLSFLEAELGIPVAYLSTGPGREQMLKMI	PGPT0020140_5237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS003_01186	570			hypothetical protein	ATGGAAGAACTTTTTATTTATATCAAAAAATTCGGGACACTGAATCCTCAGGATGAACTTCTGATTGCTGAAGGCATTCAGGAAATCACTGTAAAAAAAGGGCAGCCTTTTGTAGAAGCAGGAAAGGTAAGTCAAAGAATTGCTTTTGTAAAAAAAGGTGTTTTCCGGTCTTTGTATTATAACAGGCAAGGGGATGACTTTACCCGGTATTTCATCTATGAAGGTAGATTTATCGGAGATTTTCAGGGTTTTACAGATCAGCTTCCTGCTCATGAAGATATTGAAGCTATTACAGATGCTGTATTGCTGGTGATAGATCTTAAATACTTTAAAATTCTTGAGGAGAAAATTGCGGTATGGCCGGTTTTATTTACCAGAATTCATGCATTTGTTGTTGAAAACAAGCTCAAGGTAGCCAGTATCATGCTTAATCAGGATGCGAAATCACGTTACATTCATTTTTTAAATCATTATCCAGGACTTGCCAACAGAGTGCCACAATCTATGCTTGCTTCTTATCTTGGGGTTACACCTTCTTCTTTAAGTAGAATCAGGAGAAATATCGTCTAG	MEELFIYIKKFGTLNPQDELLIAEGIQEITVKKGQPFVEAGKVSQRIAFVKKGVFRSLYYNRQGDDFTRYFIYEGRFIGDFQGFTDQLPAHEDIEAITDAVLLVIDLKYFKILEEKIAVWPVLFTRIHAFVVENKLKVASIMLNQDAKSRYIHFLNHYPGLANRVPQSMLASYLGVTPSSLSRIRRNIV				NA	NA	NA	NA	NA
BMS003_01187	531			hypothetical protein	ATGGAAGAAAAAAAAATATTGATTGATTTTAGTGAGAATGTTGTCCGCAAACAAATGTGGCAGTACTTTTATTACTCATGGAAAAAGAAACTCCCAACTCTTTTGCGAAATTTATTTTATGCCTTATTCGTCATTTTCGTTTTCGATAGTCTTATAGGCAATAAAAGCAGATATGACTTTATAAGATTTACTTTAATATTTTCAGGAATAGCCTGTATTTTCTGTCTGATCCATTTTTATTATCAGAAAGCTAATTATTCTGATAAAATGAATAAGTATATTGATGAATTAAAAGGCTATCACCCTATAACAGAATTCATATTTGATGACAACAGTATCCATATCAAATGTGAACAATATGATATGAGGAGTATCTGGAAAAAAATCACCTATACTGTTTCTAATAAAATGATTTTGATTCATATTGATATGGGAACTGTCTTTACCTATCTGGTGAGTGAAGAAGAGACTGATCAATATGCTGAGATTCTTGACATTCTGCAAAGAAAGGCAAAACAAAAAAATAAATAA	MEEKKILIDFSENVVRKQMWQYFYYSWKKKLPTLLRNLFYALFVIFVFDSLIGNKSRYDFIRFTLIFSGIACIFCLIHFYYQKANYSDKMNKYIDELKGYHPITEFIFDDNSIHIKCEQYDMRSIWKKITYTVSNKMILIHIDMGTVFTYLVSEEETDQYAEILDILQRKAKQKNK				NA	NA	NA	NA	NA
BMS003_01188	846	mscS	COG0668	Small-conductance mechanosensitive channel	ATGAACGATTTAGAACTGAACAAGATTCAACAGCACTGGGACACATTAATTTCTTCAGCAATTTCATGGGCTCCAAGAGTTTTCACTGCAATTATTTCCGCATTATTGATCTATCTGATTGGATCATGGATGATAAGAATGATCAAAAGGCTGACTGAAAAAGCGTTCAAAAAACGGAATATGGAAGCTTCACTGCAGCATTTTCTTTTAAATATTATCAACTGGGGGCTTAATATTCTGTTATTTATTGTTGTTGTAACACAGCTGGGGGTGCAGACGTCTGCATTTGTAGCAATGATTGGTGCTGCAGGTCTGGCAGTAGGTTTAGCGTTGCAGGGGTCATTGACTAACTTTGCAGGAGGGATATTAATTTTATTATTAAAACCATTTAAAATAGGTGATTTTATTTCTACCAATTCCGGAGTTTCAGGAACCGTAGATACAATAGATATCTTCCATACGAAACTGATCACGCCACAAAATCAATTGATCGTTATTCCTAACGGAGTGGTGTCAAATAATAGTATTACCAATTTTACCCAATTAGGAACAAGAAGAACATCATTGGATATTGGGGTTGCTTACGATGCAGATCTTAAGCAGACAAAAGATATCTTAATGGCTGTTATTAAGAATAATCAATATGCTCTTTCAATACCTGCACCACAGGTAATGGTGACTGAGCTTGGAGACAGTGCTGTTAATATATCAGTAAGGGTAAGTACTGCAACAGAAAATTTCTGGACGATGAACGAGGAACTGATCATAGGATGTAAAGAAGCTCTCGATAAAGCAGGGATTGGAATTCCTTTTCCACAAAGAGATATTCATGTTTACAATCAATAA	MNDLELNKIQQHWDTLISSAISWAPRVFTAIISALLIYLIGSWMIRMIKRLTEKAFKKRNMEASLQHFLLNIINWGLNILLFIVVVTQLGVQTSAFVAMIGAAGLAVGLALQGSLTNFAGGILILLLKPFKIGDFISTNSGVSGTVDTIDIFHTKLITPQNQLIVIPNGVVSNNSITNFTQLGTRRTSLDIGVAYDADLKQTKDILMAVIKNNQYALSIPAPQVMVTELGDSAVNISVRVSTATENFWTMNEELIIGCKEALDKAGIGIPFPQRDIHVYNQ	PGPT0013773_2131	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS003_01189	735	dprE2_1	COG1028	Decaprenylphosphoryl-2-keto-beta-D-erythro-pentose reductase	ATGAATCAAAACACAAATAAAACAGTTCTTATTCTGGGTGCTAATTCGGATGTGGCGAAACAATGTATTAAGCAATATACAGAAAAAGGTTTTGCCGTAATTGCAGCTTCCAGAAATACAAAATCTTTGGAGGATTTTATTCATTCAAATAATATTGACTGTTCAAAAGTTTCTGTTTTGTATTTTGATGCTGCAGACTTTGATTCCCATAAAAAATTCTATTCCGATCTTCCCACAAAACCTCATATTGTAGTATATGCTGCCGGTTTTTTAGTAGAGAATCAGGAAGCTTTGGCCGATTTCAAAGGAGCTAAGCAAATGATGGAAGTCAATTATATGGGTGGGGTTTCTATCCTTAGCATTATTGCCATGGATAAGAGCAATAAAAATCTTGAAAGAATTATAGGTCTTTCTTCTCTGTCGGGAGTAAGAGGAAGAAAAAGCAATTTTGTCTACGGAAGTACCAAAGCTGCATTTACCCAGTTTCTTGCCGGATTGAGACAGGAGCTTGCTTCCCGTAACATCATTGTAAATGCTTTGGTCATTGGTTATATCAGAACGAAAATTAATGAAGGACTGGAGCTGAATGAATCCCTGATGATGGAGCCGGATTATGTAGCCAGGTTTATCGTTAATGCTGGTCATTCTTTTACCATTGTTCCGAATTTTAAGTGGAAAATTATCTACTGTATCCTGAAAGTACTTCCGGAAGGGCTTGTCGCAAAACTACCTTAA	MNQNTNKTVLILGANSDVAKQCIKQYTEKGFAVIAASRNTKSLEDFIHSNNIDCSKVSVLYFDAADFDSHKKFYSDLPTKPHIVVYAAGFLVENQEALADFKGAKQMMEVNYMGGVSILSIIAMDKSNKNLERIIGLSSLSGVRGRKSNFVYGSTKAAFTQFLAGLRQELASRNIIVNALVIGYIRTKINEGLELNESLMMEPDYVARFIVNAGHSFTIVPNFKWKIIYCILKVLPEGLVAKLP				NA	NA	NA	NA	NA
BMS003_01190	363			hypothetical protein	ATGTTAACAGTATTTTTACAGGCACAGGGTGGTTCTTCACCTATGATGCTGATCATGATGGGGGTAATGTTTGTAGGATTTTATTTCCTGATGATCAGACCTCAGATGAGAAAACAGAAGCAGGAAAAAAACTTCCAGGATAACCTTAAAGTAGGAACCAGAGTAGTTCTTACATCGGGGCTTCACGGAAGAATTGCTCAGGTTCAGGATGACGGTTTTGTTATTGAGACACTATCCGGAAAACTGAAATTCGAAAAAGCGGCAGTTTCAAGAGAAATGACAGAATCCCGTTTTGGAGATAAAGCAAAATCTGCTGATAAAACAGATAGCAAAAAAGAAACAGCAACTGAAGAAAAAAAATAA	MLTVFLQAQGGSSPMMLIMMGVMFVGFYFLMIRPQMRKQKQEKNFQDNLKVGTRVVLTSGLHGRIAQVQDDGFVIETLSGKLKFEKAAVSREMTESRFGDKAKSADKTDSKKETATEEKK	PGPT0025730_1230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
BMS003_01191	507			hypothetical protein	ATGAAAAAGACGTTATCAATTATCGCCTTGTCTATTATAGGCTTTGGGTTAGTTTCATGTAAAAAAGAAAACAAAGAAACTCAAAGTACTGAAACTGCAACTACAGATTCAGCATCTGTTGCAGCTCCGGTAACCACTGACTCAGCAGCAGCATCTGTAACTGGTGAAGCATCTGCTCCGGTTTCTAACGAACCCTCTACTTCTGTTGCTCTTTCTGAAAACAGCTTCGATTTTGGGAAAATCAAAAAAGGAGATAAAGTAGAGCACATATATGAAATTACCAATACAGGTAAAAATCCACTGATCATTTCTGAAGTGAAGCCAGGATGCGGATGTACGGCTCCTGACTTTACAAAAGAACCGATCATGCCGGGTAAAAAAGGAAAAGTTACTTTGCACTTTGACTCTTCAAGCTTTGACGGAAACGTTCAGAAGTATGCAGATGTTTTTGCAAATGTAGAGAAAGCTCCAATCAGATTAACATTCACAGCGAACATTCAACCATAA	MKKTLSIIALSIIGFGLVSCKKENKETQSTETATTDSASVAAPVTTDSAAASVTGEASAPVSNEPSTSVALSENSFDFGKIKKGDKVEHIYEITNTGKNPLIISEVKPGCGCTAPDFTKEPIMPGKKGKVTLHFDSSSFDGNVQKYADVFANVEKAPIRLTFTANIQP				NA	NA	NA	NA	NA
BMS003_01192	906	nusB		Transcription antitermination protein NusB	ATGTTAGGAAGACGACAAATCCGTGAAAAAGTAGTACAGACAGTGTATTCATACTACCAAAACCCTGTAAAATTTGATGTTTTAGAGAAAAACATGTTTGCCGGGATAGAGAAAATCTATTATCTATACATCTATCAGCTCAACTTTTTGGTGGGTCTGAAAGATTTGGCAGAAAATCAGATCGAAATTGGTAAGAATAAGTTTCTTAAAACAGATGCTGATATTAATCCTAACCAAAAATTCATCAACAATCAGGTATTGCTTAAACTGGAAGAAAATCCTGAAAGATTATTTTTTACAGGCCAGCACAAGCAGCTGAAATGGGATATGCATGATGATTTATTGGTGAAGACTTTCCAAAGAATTACGGCTGGAAAACGTTATCAGGATTTCATGAAAGAAGAAGGATACTCTTTTGAAGAAGATCAGAAATTTATCGGAAAACTATTCTTAAGGTATATTGCTGAAAATGAAGATTTTCATGATTACTTAGGAGATAAGGAACTTTCCTGGTATGATGATATTCATATTGCCAATTCAATGGTACAGAAAACGATCGGCTTCCTGAGAGAAGATGAAGAAAGTAGAACTTTAATCAAAATGATTAAAGATGAAGAAGATAAAACATTCGCTGCAAAACTGTTGAGAGATACTCTGAACAATTGGGAAAATAATGAAAAGAAACTGGAAGAAAGACTGGAAAACTGGGATCTGGAAAGAGTTTCACTAATGGATAAAGTTATTTTATCTACAGCAATTGCAGAGCTGGATAACTTTGCTTTCACACCTTCAAGAGTGATCATTAACGAATATATTGAAATTGCAAAAGTATTTGCTACAGACCGTTCCAATATCTTCATCAATGGTATTTTAGATAAATATTGTAAAGATCAAAATAGAATATAA	MLGRRQIREKVVQTVYSYYQNPVKFDVLEKNMFAGIEKIYYLYIYQLNFLVGLKDLAENQIEIGKNKFLKTDADINPNQKFINNQVLLKLEENPERLFFTGQHKQLKWDMHDDLLVKTFQRITAGKRYQDFMKEEGYSFEEDQKFIGKLFLRYIAENEDFHDYLGDKELSWYDDIHIANSMVQKTIGFLREDEESRTLIKMIKDEEDKTFAAKLLRDTLNNWENNEKKLEERLENWDLERVSLMDKVILSTAIAELDNFAFTPSRVIINEYIEIAKVFATDRSNIFINGILDKYCKDQNRI				NA	NA	NA	NA	NA
BMS003_01193	1662	yheI	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	ATGAAAGCGCTAAAAACCTTAAACCCTTATTTTTGGAAACACAAAATACTTTTGTTTTGGGGGGTACTCTTTATCATTGCCAGTAATTTTTTTAATATATATAAGGTTCAGTTTGTAGGAAAATCGGTAGATGAGCTTACAAAAAGTGGTAACCTTGGCTTTAACAATCAGGTTTTAATCTATGTAGGAATCATTGTAGGATGCTCCCTTATGACCGGATTTTTCACCTTCATGATGAGGCAAACCATCATCGTTGCTTCCAGAAGGATTGAATACGAGCTTAAAAATAAAATCTACAGACATTATCAGGATTTATCTTTAACGGATTATAAGCAGACAACCATAGGGGATCTAATGAACAGATTAAGTGAAGACGTTGTTGCTGTAAGAATGTATCTTGGCCCCGGCGTTATGTATGTAGCCAACCTTATTGTTCTTGTAGTGATTACGGCAATTTATATGATAAAAACGGATGCATCCATGACATTATGGACTTTACTTCCACTTCCCGTTTTATCTTTTGCTATTTATAAGGTAAGTTCCATTATCAATAAAAAGTCGAAGATTATGCAGAAAAGTCAATCTGCAATTTCGACCTTCGTTCAGGACAGCTTTTCAGGAATCCGTGTGGTAAAATTTTTCGCCAGAGAAAAATATATTGAGAAAAATTACGGTTTTAAAGTAACAGATTATCAGAATAAAGCATTAGATCTGGCCAAAACAGAAGCTTATTTCTTTACGATCATTCTCTTTGTCATCGGATTACTGAATGTGGCAATCATCTTGATTGGAGGTACCAAATATATTGCCGGAGAATTGAGTATCGGTAAAATTGCTGATTTCTTCATGTATATCAACACTTTGATCTTCCCTTTCTCTATGGTAGGATGGGTAACTTCTGTAAATCAGAGAGCTGAAGCTTCAATGCAGAGGATCAATGAATTTATGGATAAAAAATCTGAGATCATAAATACGAATTTTGAAAACTATCCTATTAAAGGAGATATTGAATTCAGAAATGTTTCTTATGTATATCCGAATACGGGAATTAAAGCACTGGAAAATTTAAGCTTTAAGGTAAAAGCCGGAGAATCTTTAGCTATTATGGGGAAAACCGGCAGTGGAAAGTCAACAATTGCCTTATTATTATGCAGATTAATAGATCCTACGGAAGGGGAAATTTTAATTGACGGTAAAAACCTTAAGGAGCATAATCTGAATACCTACAGAAACTTTATCGGATATATTCCGCAGGAGAGTTATTTATTCTCTGATTCCATAGAAAATAATATTGGTTTTGCCATTGACCATCCTTCGCATGAGAAAGTGGTAGAATATGCTAATATTGCAGATGTTCATAAAAATATTGTAGAGTTTAAGGATCAATATAAAACACTTGTTGGTGAACGTGGTGTGATGCTTTCGGGGGGACAAAAACAAAGAATATGTATTGCCAGAGCCTTAATTAAAGATCCGAACATCATCATTTTTGACGATTCTTTGTCCGCTTTAGATACCGAAACAGAACAGAATATTTTGGAAAATATTGATAAAAAAATAAGTAATGTAACTTCCATAATCATCACACACAGAGAGTCTAGCGCTCAAAAAGCGGATCAGATTCTCAATCTTACAGAAATTACAAATTCTGTAACCGCTTAG	MKALKTLNPYFWKHKILLFWGVLFIIASNFFNIYKVQFVGKSVDELTKSGNLGFNNQVLIYVGIIVGCSLMTGFFTFMMRQTIIVASRRIEYELKNKIYRHYQDLSLTDYKQTTIGDLMNRLSEDVVAVRMYLGPGVMYVANLIVLVVITAIYMIKTDASMTLWTLLPLPVLSFAIYKVSSIINKKSKIMQKSQSAISTFVQDSFSGIRVVKFFAREKYIEKNYGFKVTDYQNKALDLAKTEAYFFTIILFVIGLLNVAIILIGGTKYIAGELSIGKIADFFMYINTLIFPFSMVGWVTSVNQRAEASMQRINEFMDKKSEIINTNFENYPIKGDIEFRNVSYVYPNTGIKALENLSFKVKAGESLAIMGKTGSGKSTIALLLCRLIDPTEGEILIDGKNLKEHNLNTYRNFIGYIPQESYLFSDSIENNIGFAIDHPSHEKVVEYANIADVHKNIVEFKDQYKTLVGERGVMLSGGQKQRICIARALIKDPNIIIFDDSLSALDTETEQNILENIDKKISNVTSIIITHRESSAQKADQILNLTEITNSVTA	PGPT0029040_2195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029040-mdlA|smdA-K18889	NA	NA
BMS003_01194	336			hypothetical protein	ATGAGTGAATACAAGGAACGCCATGAAAATGAGATTTTCACGAAGGTGTTAAAAGCAGGGAGAAGAACTTATTTCTTTGATGTGCGTGAGACGAAAGCAGGAGATTATTATCTTACAATCACTGAGAGTAAGAAGAATTTCGGAGAGAATGGGGAAGCTACATTCGAGAAGCATAAAATTTACCTTTACAAGGAAGATTTTAAGAGTTTCCAGGAGATGTTTAATGAGTCCACAGATTTCATCATTAATGAAAAGGGTGAGGATGTAATTTCAGAAAAACATGACAAAGACTTCAAGAGCAGATCTTACACCATTGATTCTGACGACGAGGTTTAA	MSEYKERHENEIFTKVLKAGRRTYFFDVRETKAGDYYLTITESKKNFGENGEATFEKHKIYLYKEDFKSFQEMFNESTDFIINEKGEDVISEKHDKDFKSRSYTIDSDDEV	PGPT0002680_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0002680-yciG|ymdF|gsiB-K06884	NA	NA
BMS003_01195	2316			hypothetical protein	ATGAAAAAAATTTTAACCGTTTTCTCTTTATTGTTGATACTTAAATCTTATGCTCAACCCTATGCTCAATCTTACTATAAAAATCTATTTGATAGCAAGCAATATGATGTTGTGCCTCTTAATTCAACAAGCCCCAACCAAGTAGAATTTTCATGGATTGTATCTGCCCATATGGAAGCATTGGTAATGATGTATGAAAAAACACATGATGTAAAATACGCTCATGTTTTAATAGGGACTATGGGTAACGTGATTGACAGGAGAGATGATCTTAGAGACCAATTACCACCTAATATAGGTGTAAGTAATATTTCCGATTACCGCGGAATTTCTGGTGCTGCCTGGTCAACCAATCATTATAATATAACCCAAGATTCAGGAAAAACTTATGCTCACGTTGTGCACAGTGCTAACATAACTTATCCTATGGCTAAGTTTGCAGCAATAGTAAAAAAAGATACTACTATTCAAAATACAATGTATAATTCTGGTGGCCGTTATAATGGATTGACTTTTAAAGTTATCGCTAATGATCTTAAACAAAAGGTAAGTGAGACACTTCTTTATCATGGCGATCAATGGTATACAGAGCCGAATTCTAACGCCAATAATATTATAGGTTATTATAAAGAACGGAATGATAATCCTCCTGTAGATAACGCTGGTGAAATTTTACCTTTTAATATGCAGAGTGCAATGGGAAGAGTATTGGTACAGATGTATCTGGCAACAGATAACCCGGATTATCTTATACAAATTAACCAAATTGCCAATTTTTTTAAAGCAAACACGTCTTTTAATTCTAATTTGCAGTCTAATCAATGGACCTATTGGAAAAAAACTACTTTGCGGGAAGATATTTCTCATGGTGGTTTAACCATATCTTTTCCATATGAATGTCGTAAATATAATATTTCAAATGGTGGAGCACTTATTTATACGGATTCAGATATGAAAGCCTATGCTAATACTTTAACGAAAGATATCTATAAATCTCCTCTGTATGTCAATAATGGAGTAGATTATTCATTAATTCCCTGGAATATAAAGTATGCAACATCTAGCGGGGCAGAGCTAAGCACTTATACCTGCTTTCAATGGGCAGGCTTATCTGAATATGATGCAAAAATATATCAGTTACTTGCTGAGATACAAACGGCAGAAAATTATTATACACCCTTAACACCTGAAAATTTTCCTTTGGTAGTTGCTTACTTAGCTTATTATGAAAACTTAATTGTACCTGTCAATACGGAACATGGATGGGGATCCGATTCTGATTGGAGAGGAGTGGCAAGCGGTAATTTTAATGGTGATGATGCCCATGAATTTGTTGTTATCAGAAATTACGACGGGATGATAGGAACTATGGAACCTTATGGTAAAAAAATTCATTCCGTTACAAACGACAAATATTATAATGGACAGTATAATTGGAGAGGTATAGCAGCCGGAGATTTTTTTGGTGACAATAAAAGTGAAATTATAACATTAAGTAATCATTCTGATGCTAATAATAATGGGATTTATATTTTAAAAATTGAAAATAATACTATTGTTGAACATACAAAATCTATAGGTTGGGATGCACAATCTGATTGGGTAGGGACGGCAGCAGGAAACTTTATTACCGGAGGAAAGGATGATTTTATTGCTGTCAAAAATTTAAATAAAGAAGTTCTTGTATTTAATTTTAATGGGACTACACCTCAATTAGTTCATACAAACGCTCTCAATCTGCCATCGAATTCTAAAATTACAGCTGTGGCATCAGGTAATCTTGATGGTACTGGTAAAGATAAGATTGTTTTACTTGTTGATGCTGATGATGCTAATTACAATGGTATTTATATTTACAATGTAGATGATAATGGAGTAATGACAAAAATAAGTCAATCTACTGGCTGGGGATCTGCTTCAGAATGGAGAGGATTAGCTGTTGGAGATATTGATGGTAATGGAGTGGATGAAATTATTGCTCATAGAAATTATGATGGAGAATATGTTGTGTATACATTAAATGGGAACATTTTAAATAGCATAGGTGCTGAAAGATTTCCTATCCTACAAACCCAAGACAACATCATGTGTTTTGGAAATTTTGATTCAAGTTCAAAAAATGATGAACTGGTTACTCTTAGAAAAGATGGTGGTATAGTGATGTTTTCAGCAGCAAAAGTTGTCAAAAGCCCTCCTGCTAATGCCAATAAACAATCCGATCCATGTCAGAATGAGATGCCGGAAGTATTATTCAGCTTTATGAAATCGGCATCTTTCAATCAGCAGGAATCAAAGGAAATGGTTTCCGTAAAATAG	MKKILTVFSLLLILKSYAQPYAQSYYKNLFDSKQYDVVPLNSTSPNQVEFSWIVSAHMEALVMMYEKTHDVKYAHVLIGTMGNVIDRRDDLRDQLPPNIGVSNISDYRGISGAAWSTNHYNITQDSGKTYAHVVHSANITYPMAKFAAIVKKDTTIQNTMYNSGGRYNGLTFKVIANDLKQKVSETLLYHGDQWYTEPNSNANNIIGYYKERNDNPPVDNAGEILPFNMQSAMGRVLVQMYLATDNPDYLIQINQIANFFKANTSFNSNLQSNQWTYWKKTTLREDISHGGLTISFPYECRKYNISNGGALIYTDSDMKAYANTLTKDIYKSPLYVNNGVDYSLIPWNIKYATSSGAELSTYTCFQWAGLSEYDAKIYQLLAEIQTAENYYTPLTPENFPLVVAYLAYYENLIVPVNTEHGWGSDSDWRGVASGNFNGDDAHEFVVIRNYDGMIGTMEPYGKKIHSVTNDKYYNGQYNWRGIAAGDFFGDNKSEIITLSNHSDANNNGIYILKIENNTIVEHTKSIGWDAQSDWVGTAAGNFITGGKDDFIAVKNLNKEVLVFNFNGTTPQLVHTNALNLPSNSKITAVASGNLDGTGKDKIVLLVDADDANYNGIYIYNVDDNGVMTKISQSTGWGSASEWRGLAVGDIDGNGVDEIIAHRNYDGEYVVYTLNGNILNSIGAERFPILQTQDNIMCFGNFDSSSKNDELVTLRKDGGIVMFSAAKVVKSPPANANKQSDPCQNEMPEVLFSFMKSASFNQQESKEMVSVK				NA	NA	NA	NA	NA
BMS003_01197	756	bshB1	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	TTGGGAAGTTTTTATTTTACACTTATCTTTGAGTATATGAAAACTGATATACTTGCTTTTGGAGCACATCCTGACGATGTAGAATTGGGGTGTGGAGGAACTATTGCTAAAATGGTTTCTGAAGGAAAAAAATGTGTTGTTGTAGATCTTACAAGAGGAGAACTAGGGACAAGAGGAACTGATGAGACCAGAAAAACGGAAGCTGCTGATGCTGCCAGAATCTTAGGCCTTTCTGCCAGAGAGAATCTGGGAATGAAAGACGGTTTTTTGGTAAATTCCGAAGAGTACCAGATGAGGATTGTAAAAATGATCCGCAAATACAGACCGGAAATCGTCTTAGCCAATGCGATTGATGATAGACATCCGGATCATGCAAAAGGAGCGAAATTAGTATCGGATGCGTGCTTTTTGTCTGGTCTGAGAAAAATTGAAACGGTATTGGAAGGAGAAACTCAGGAAGTATGGAGACCAAAACATGTTTTTCATTACATTCAATGGAAGGATATCAAACCAGAATTTGTAATTGACATCTCAGAACACTTAGATAAAAAGCTGGAAGCTTGTATGGCATACAAAACTCAGTTTTATGATCCAACTTCTAAAGAACCTGAAACTCCAATTACTACAAAAGATTTTTATGAGAGCTTAACTTACCGGGCTCAGGATTTAGGGCGTTTATCGGGAGTTGCTTATGCTGAGGGGTTTACGTCTGAAAAGTTAATTTCTTTGAAAAATTTTGACGGAATTGTTTGGTAG	MGSFYFTLIFEYMKTDILAFGAHPDDVELGCGGTIAKMVSEGKKCVVVDLTRGELGTRGTDETRKTEAADAARILGLSARENLGMKDGFLVNSEEYQMRIVKMIRKYRPEIVLANAIDDRHPDHAKGAKLVSDACFLSGLRKIETVLEGETQEVWRPKHVFHYIQWKDIKPEFVIDISEHLDKKLEACMAYKTQFYDPTSKEPETPITTKDFYESLTYRAQDLGRLSGVAYAEGFTSEKLISLKNFDGIVW	PGPT0019570_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
BMS003_01198	1641			hypothetical protein	ATGAATATGAATGTAAAGAAGATTGCTTTTGGAGCAGCCGTGGTATTTTTTACCGGTTTTGCCTCTGCACAGACATTGCAGGATGGTATTAACAGTATAGACAGTGACAAATTTGCTCAGGCAAAAACAAACTTCACTGAAATGATCGCTAAAGAACCTACAGCTGAAAACTACTTCTATTTAGGAAATACTTTCTTAAAACAAGGAGAGCCAGACTATGCTAAGGCAACTGAAAGCTTCAACAAAGGATTAGCTGCTGACAAAAAAAGCTATCTGAACAAAATTGGTTTAGCCGCAGTTAAGTTAGGTAAAGGAGATAAAAGTGCTGTAGCTGAAATCCAGGAAGTTGTAAAAGATTCAAGAGAAAAAGATGCAGAAGTTCTTTTTAGAGCTGCAGAAGCTTTAACGTTATTTGAGAAGAATAGTTCACCTGATCTTGCTATTCAGTTTTTGAATAAAGCCATTGAAAGAGCTGAGAGAAAAGGAGTGCCTGCATATTATTATTATACATTGGGAGATGCTTACAGATTAAAAAGAATGCCGGGTGAGGCTATGTCTGCTTATGATAAAGCATTACCTACTGCTAAAAATAAAGCTTCCGTTTACACCAGAATGGCAACTTTATGGATGGCAGCACAACAGTGGCAGCAAGCTAAGCAGAACATTGATAAAGCAATTGGTGTAGATGCTACTTATGCCCCTGCATACAAAGCGTTGGCAGGCTATGATATCAGATATCAGCAGAACGCAAAAGCAACACAAGACCTTATCAACTATACAAAGTATGCTGACGAGGATCCTTATACTCAATTGGAAATTGCAAAATTATACTTCACAAACGAAGATTATACAAATTCTAAAACGGTATTGGATAATATCTTTGATAAAATTGAAGATCCAATTAAATTTAAATTAAGAGCTTACCAGGCATATGCAGATAAAAACTATGCTGCTGCCAAACAAAACATGGATACGTTTGTTTCTCAGGCTGAGAAAACAAGAGTACAGCCTGCTGATCAAGGTTTACAAGGGCTTATTGCCGCTGGTTTAGCGAAAGATGAAAATGATGAGGCTAAAAAAGCAGCTTTAATGGCTGAAGCTAAGCAAAAAGTTGCTATTGCAAAAGCTGCTAAAGATGAAACAATGAAATGGGATCTTGAATTGGCCAACATCGCTGGAGGTGGTGGTGTATCTCAGGCAGAAGTTGACAAAGGGCCTACCAGTCCTGAAATTGAAGCATTGAAACTGAAAGTTATAGCTAATAACCAGGATTCTGATTCGTTATTTAAGTTAGCTACAGCTTATCAGGATGTAAAAAACTGGAATGGAGCTATTCTTACATGGCAAAAAATGTCAATTCTGCTTCCTGATTGGGCTCCGGCATACTACAGTCAAGGGTATTCTTACCAACAGGCAGGAAACAATGATGCAGCTAAAATTGCTTATGAGAAATTCATCAATACAGTAAAGCCTGCTGATCAGGAGGCCAACAAGCAGACTCTTGCCTATGCTTATTTTGCAGTGGCTTATATGAGCAAAGATTCTGATATTGCCAAAGCAAAAGATTATGTAGCTAAATCTTTACAGTTAGATCCTACTTACCAGGATGCTGTAAAATTAAATGCAGAAATCAACAAATAA	MNMNVKKIAFGAAVVFFTGFASAQTLQDGINSIDSDKFAQAKTNFTEMIAKEPTAENYFYLGNTFLKQGEPDYAKATESFNKGLAADKKSYLNKIGLAAVKLGKGDKSAVAEIQEVVKDSREKDAEVLFRAAEALTLFEKNSSPDLAIQFLNKAIERAERKGVPAYYYYTLGDAYRLKRMPGEAMSAYDKALPTAKNKASVYTRMATLWMAAQQWQQAKQNIDKAIGVDATYAPAYKALAGYDIRYQQNAKATQDLINYTKYADEDPYTQLEIAKLYFTNEDYTNSKTVLDNIFDKIEDPIKFKLRAYQAYADKNYAAAKQNMDTFVSQAEKTRVQPADQGLQGLIAAGLAKDENDEAKKAALMAEAKQKVAIAKAAKDETMKWDLELANIAGGGGVSQAEVDKGPTSPEIEALKLKVIANNQDSDSLFKLATAYQDVKNWNGAILTWQKMSILLPDWAPAYYSQGYSYQQAGNNDAAKIAYEKFINTVKPADQEANKQTLAYAYFAVAYMSKDSDIAKAKDYVAKSLQLDPTYQDAVKLNAEINK				NA	NA	NA	NA	NA
BMS003_01199	873			hypothetical protein	ATGAAGAATAGTTTTAAGCTTGCAATAGTTTTCGTTTTGAGCATATTGCTTGCAGGCTGTAAAAAGGAGAAAAATACTCCTTCATATCACAAAGGTGATCTTACAATTTTTACTGACGAATCCTTTCAAAGCGTCACAGAGGCATTAGCTGACGGCTATATGATTAATTACCCTGAAACCCACATTAAAGTAGAAACCAAAAAAGAAGACCTTGGACTTCTTGATCTTCTGAAAGGAAGTGCTAAAGTGGTGGTCATGTCCAGAAATCTTACTCCTGAAGAAGTAAAAACATACGAAGAAAGAACAGACTTAAAGTTTCTTCCTGCCAGGTTTGCTGCAGATGCAGTGGTTTTTGTGGTTCCTAAAGACTCTCCGAAAGAAAGTATTTCACTGGAGGAAATTAACAGTGGGTTAATGTCTGATACAAAAGAATTTATTTTTGACGGAACTAACTCCAGTAATTTGAATTTTGTGGCTGAAAAATTTAAAAAACAGCCAAAAGACCTTAAGTTTTCCATTATTCCGGGAAATCAGAAGATAATAGAGGAATTAGGTAAGTATCCCGATAAAATAGGTGTTATAGGCCTCAATACTTTTAGCCGTCCTTATGATAAGGCTTCTGAAAAGTTGAGAGAAATGGTTAAAGTTCTTCCCATAAGAGATAAAGGTAAACTTTATAATCCCGATTTTGAAGGACTTCGTACAATGGAATATCCATTTACCAGAGTACTGTATTTCCTGATTAACGAAGGCAATTTTAACATAGCCAACGGATTTATAAGATTTTCATGTACCCACTTAGGACAAAAAATTGTACAGAAAGACGGTTTACAGCCTTATAATCTGTATAAAAGAGAGGTGCAGATGCGTTAA	MKNSFKLAIVFVLSILLAGCKKEKNTPSYHKGDLTIFTDESFQSVTEALADGYMINYPETHIKVETKKEDLGLLDLLKGSAKVVVMSRNLTPEEVKTYEERTDLKFLPARFAADAVVFVVPKDSPKESISLEEINSGLMSDTKEFIFDGTNSSNLNFVAEKFKKQPKDLKFSIIPGNQKIIEELGKYPDKIGVIGLNTFSRPYDKASEKLREMVKVLPIRDKGKLYNPDFEGLRTMEYPFTRVLYFLINEGNFNIANGFIRFSCTHLGQKIVQKDGLQPYNLYKREVQMR	PGPT0002625_6314	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
BMS003_01200	198			hypothetical protein	ATGATGTTCAATTGGTTATCCCTGGTTACGGGATTGTTTTATATCGTTTTAGGAATTGTAGTGATTGTCTACAAATTCTTCTTTACTATTTTAGAGCCTGCTGTTGCCTATGCATTAGGAGTAGTATTGGTTATTTATGGTATTTTCAGAATTTACAGGGCAATCTCAAGAATTAAAAAATCGAGAAATGAAGAATAG	MMFNWLSLVTGLFYIVLGIVVIVYKFFFTILEPAVAYALGVVLVIYGIFRIYRAISRIKKSRNEE				NA	NA	NA	NA	NA
BMS003_01201	843			hypothetical protein	ATGGCAGATGAAAATGTATACGGTCAGAATCTTACTTTAGACGAGATCGTATTTGAAAATAGAAACAAGGAATATGGTGCCTATGATCTTAGACATCAGTATCCGAGACTTTTAACAAAGTCTTTTATCATCGGAACAGCTTTATTCCTTATTGCGGCTTTGTCTCCGTTCATCTATCTTACGATTAAAAATCTTACAGCTCCGCCTAAACAAGAAGTAAAGGCAGATCTTGTAGATATTATCGAAGAAGATCCGATTATCGAGCAGCCTAAAGAAGAAGAACCACCACCTCCACCACCTCCACCAAAAGAAGAGGAAAAAATTGAGGTGATTCAGAACGTAGTTCCTGAACCTGTAAAAGCTCCGAAAATTGAAACTCCACCACCACCAATCTCTAAACAGTTGGAAACTACAACAGGTTTACAGAATCAGGAGGGGGTAAAGGCTCCGGCTTATACGCCACCGCCACCGCCACCATCTACAGGTACTAAAGCTACTACTGTAGAAGTAAAAGCAAATAACCCGAACGAGATCTATAAAGATGTTGACCAGTCTGCAGAGTATCCTGGAGGTATGGGAGCATTAAGAAGATTCTTAGGAGATAATTTCGATACTTCTCTGATGGAAGGAGGTGAAGGAACGTTGAGAGCTAAGCTTAAGTTCGTTGTAGAAAAAGACGGAACGGTTTCGAACGTTACTATTGAAGATAAATCTCCAAATAGCGACTTCAACAATGAAGCGGTGCGTGTAGTTAAGAAACTTAAAAAATGGACTCCTGCGAAGAGAAACGGGGAGAGCGTTAGATCTTACTATAGTGTACCATTTACTATGAACTTTGAATAA	MADENVYGQNLTLDEIVFENRNKEYGAYDLRHQYPRLLTKSFIIGTALFLIAALSPFIYLTIKNLTAPPKQEVKADLVDIIEEDPIIEQPKEEEPPPPPPPPKEEEKIEVIQNVVPEPVKAPKIETPPPPISKQLETTTGLQNQEGVKAPAYTPPPPPPSTGTKATTVEVKANNPNEIYKDVDQSAEYPGGMGALRRFLGDNFDTSLMEGGEGTLRAKLKFVVEKDGTVSNVTIEDKSPNSDFNNEAVRVVKKLKKWTPAKRNGESVRSYYSVPFTMNFE	PGPT0003745_1691	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
BMS003_01202	567			hypothetical protein	ATGGCAGAAGTACAAGTACAAGAGAAAGGCGGCAAGGGCGGCAAGGTCCGTTCCAAGAAGCAAAGTACCAGAGTCGATATGACTCCGATGGTGGACTTGGGTTTTCTATTGATTACCTTCTTTATGTTCACAACTACGTTCAGTAAACCGAACGTTATGGATTTGGGTCTTCCGGCTAAACCGAAAGATGATAAACAAAAACCACCTCCAACAGAAATTAAACTTTCAAACTCTATCTCTATATTATTAGGAAAAGATAACAGAGTGTTTTGGCACCAGCAGGATGCAACTTCCCTGAATGACCAGACTCTTATGGAAACTAGTCTTGATAGAGAAGGAATTAGAAAAGTAATTCAGCAGGCAAAATCTAGAGCTGCAGATCAAAGTAAATTTACTGTGATCATTAAGCCGACTGATGATGCTGTATATAAGAACTTTGTTGATATTCTTGACGAAATGGCAATTACCAAAAGTGAGCAGTACGGAGTTACTGACATTAAGCCTTGGGAAAAAGCTATTTATGAGAAAAAAGTAGGAGGTGCTGCTGTACCGGCTGCTACAAAGTAA	MAEVQVQEKGGKGGKVRSKKQSTRVDMTPMVDLGFLLITFFMFTTTFSKPNVMDLGLPAKPKDDKQKPPPTEIKLSNSISILLGKDNRVFWHQQDATSLNDQTLMETSLDREGIRKVIQQAKSRAADQSKFTVIIKPTDDAVYKNFVDILDEMAITKSEQYGVTDIKPWEKAIYEKKVGGAAVPAATK				NA	NA	NA	NA	NA
BMS003_01203	609			hypothetical protein	ATGGCGAGAGTCAAACCTAAAAGACATGGAGTAATTACGGACATGACTGCAATGTGCGACGTTGCGTTCCTACTCCTTACGTTCTTTATCTTGACCACTCAGTTTAAAAAACCTGACGTGGAGCAGATTAAACCGCCATCTTCAATTTCGGAAAAATTGCTTCCTGATGCTAGTTTAATGACTATCAACGCTACTCCGGACGGAAAATTCTATTTCCAGCCCGTAGAAAATGCATCAGAAAGACTTGCTCTTTTGGATAAAATGGGACAAAAGTATGGGATTACTTTTGACAACAACCAAAAAGCTGCTTTCCAGAAAATTCAGGCAATTGGAGTTCCAATGAACCAGCTTAAAGGGTACTTGGATATGCCTGCAGATGAGCAGAAAAATTATAAGAGTCCTACAGGTATTCCTATGGACAGTACAAATAAGCAATTAATTGACTGGGTAAAAGAAAGTTTAAGCGTTAACCCTAGCTATAAGTTAGCCATTAAAGGTGACGTTACAACTCAGTACCCTAAAGTGAAAAGCCTATTTGAAGGTTTAAGAGATATTGATTTTCTTAAATTTTGGTTGATTACATCACAAGAAGGTAAACCTAACGAATAA	MARVKPKRHGVITDMTAMCDVAFLLLTFFILTTQFKKPDVEQIKPPSSISEKLLPDASLMTINATPDGKFYFQPVENASERLALLDKMGQKYGITFDNNQKAAFQKIQAIGVPMNQLKGYLDMPADEQKNYKSPTGIPMDSTNKQLIDWVKESLSVNPSYKLAIKGDVTTQYPKVKSLFEGLRDIDFLKFWLITSQEGKPNE				NA	NA	NA	NA	NA
BMS003_01204	858	tolQ_1		Tol-Pal system protein TolQ	ATGAATGTTTCAAAAAATGATGAGCAAGTAGTTGCTAGAAAGGCAGGAGGTTTAAATCCAGCTGTTATTATTCCTATTCTATTTATTATAGGAGTATGTATTTATTTATTCGTTCTTGGTAGCCCAGGAAACTTTAAAGATGCAGATAAACTAGGAAGTGGTTCTGTAGCTTTTTCAAGTGTTGAAGGAAAAGACATTCACCCAGAATCGTTTTTAGGTATTATCTACAAAGGAGGAGTTATCGTACCAATCCTGATTACTTTCATGATTACTGTAATCGTTTTCTCTTTTGAAAGATATTTCGTTCTTGGTAAAGCTGCTGGAAAAGGAAACTTAGACAACTTTGTTATACAGGTAAGAAGCTTACTGAACCAAAACAAAATTGACGAAGCTATCGAAGAGTGTGACAGACAACAAGGTTCTGTAGGTAATGTAGTAAAAGAAGGTCTTACTACTTACAAAGCACTTTCTCACGATACTACATTAAATAAAGAGCAGAAAATGGTAGCTCTTAACAAAGCTATAGAAGAAGCTACTACTCTTGAGATGCCAATGCTTGAGAAAAACATGATGATCCTTTCTACTTTAGGTACTGTTGCAACATTAGTAGCACTACTTGGAACGGTAATCGGGATGATCAAGGCGTTCTTCGCATTAGGTTCAGGAGGTGGTACTCCGGATGCAGCTGCTCTATCTACAGGTATCTCTGAAGCCTTGATCAACACGGCATTAGGTATTGGTACTTCAGCAATCGCTATTATCCTTTATAACTTCTTTACATCTAAAATTGACGGATTAACTTACAAGATCGATGAGATCTCTATGAGTATCCAACAATCTTTTGCTGAATTCAACTAA	MNVSKNDEQVVARKAGGLNPAVIIPILFIIGVCIYLFVLGSPGNFKDADKLGSGSVAFSSVEGKDIHPESFLGIIYKGGVIVPILITFMITVIVFSFERYFVLGKAAGKGNLDNFVIQVRSLLNQNKIDEAIEECDRQQGSVGNVVKEGLTTYKALSHDTTLNKEQKMVALNKAIEEATTLEMPMLEKNMMILSTLGTVATLVALLGTVIGMIKAFFALGSGGGTPDAAALSTGISEALINTALGIGTSAIAIILYNFFTSKIDGLTYKIDEISMSIQQSFAEFN	PGPT0003750_1382	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
BMS003_01205	2814	leuS		Leucine--tRNA ligase	GTGTTTTACGATCATCAGCAGATAGAAAAAAAGTGGCAGAAATACTGGGAGGAAAATCAAACCTATAAAACCTCTAATAACACAGACAAACCTAAGTTTTATGTACTCGATATGTTTCCGTATCCATCAGGAGCAGGACTTCACGTAGGTCACCCGCTGGGATATATTGCATCCGATATCTATGCGAGATACAAAAGACACCAGGGGTTTAATGTACTCCACCCGGTAGGATATGACAGTTTTGGACTTCCTGCTGAGCAATATGCGATCCAGACAGGGCAGCATCCGGCTGTGACTACAGAACAGAATATCAACAGATATGAGGAACAGCTGAAAAAAATCGGATTTTCATTCGACTGGAGCAGAGAAGTTAGAACCTCAGATGCTTCATATTATAAATGGACACAATGGATTTTTATCCAGTTGTACCACTCGTGGTATAATAAAAATACAGATAAGGCAGAATCTATTGATTCATTAATTCAGCATTTCGAAGAAAAAGGAACAGAAGGATTAAATGCCAATCAAAACGACGAATTAAATTTTACAGCAGAAGAATGGAAGAACGCTTCCGATCTTGATAAAGAAGATATCCTTTTAAACTATCGTCTTTCTTACAGAGCAGAAACCACGGTAAACTGGTGCCCTGCATTAGGAACCGTATTGGCAAATGATGAGGTAAAGGATGGAAAATCCGAAAGAGGAGGATTCCCTGTATTCCAAAAGAAAATGATGCAGTGGAGCATGAGAATTTCTGCTTATTCTGAAAGATTATTACAGGGATTAAATACATTAGGCTGGCCACAGCCATTGAAAGATTCTCAGGAATACTGGATCGGAAAATCTCAGGGAGCACAGGTTCAGTTCAAAGTAGAAGGTCATGACGAAACCGTTGAGGTATTCACCACAAGGCCTGACACGATCTTTGGAGCAACTTTTATGGTATTGGCTCCGGAAAATCCATTAGTGGAAACCATTACTACGGATGCTCAAAAAGCAGAAGTAGATACCTATATTGAAGAAACTTCCAAAAAAACGGAAAGAGACAGAATGGCTGACGTGAAAAACGTGAGCGGAGCTTTTACCGGAAGTTATGCGGTTAATCCGTTCAGTAATGAAAAAATGGCGATCTATATTTCAGACTATGTATTGATGGGATATGGAACAGGGGCGGTAATGGCTGTTCCGGCACACGATGAGCGTGACCACAGATTTGCAAAGAAATTTAATCTTGAAATCAAAAAAGTGGTAGAAACTGAAGAAGACGTTCAGGAAAAATCTTTTGACTCCAAAGATTCCGTTTGTGTAAATTCTGATTTTTTAAACGGATTGCATTATAATGATGCGAAAGCAAAAATAATTTCCGAGATCGAAACGAAAGGTATCGGTCATGGAACTACAAATTACAGACAGCGTGATGCTATTTTCTCAAGACAGCGTTATTGGGGAGAACCAGTTCCTATATATTATAAGGATGGAATGCCTTACACGTTGCCAACTTCTGCTTTACCTTTGGAACTTCCTGAAGTTGAAAAATATTTACCTACAGAAGACGGAGATCCGCCGCTAGGAAATGCAAAAGAATTTGCATGGGATGAAGCGAACCAGAAGGTAGTAGCTACAGATCTTATTGATGACAAAACTATTTTCCCGTTAGAATTATCTACAATGCCAGGTTGGGCAGGTAGCTCATGGTATTTCCTTAGATACATGGATCCGAATGATGAAGAAACTTTTGTTAAAAAAGAATTAGCAGATTACTGGGAACAGGTAGACCTATATATAGGAGGAAGCGAACACGCAACCGGTCACTTATTGTATTCCCGTTTCTGGAACATGTTCTTAAAAGACAGAGGATACATCAGCCATGATGAACCATTCCAGAAACTGATCAACCAGGGGATGATCTTGGGGATGAGTGCATTTGTATACAGAATTGACGCTACTAATCAATATGTATCTAAAAATTTAGCCAGAGATTACCAGACTCAGCAAATCCACGTAGACGTATCCTTATTAAAAGGGACCTCTGATGAATTGGATACTGAAGCATTCAAAGCATGGAGGCCTGATTATGCCGATGCTGAATTTATTTTAGAAGACGGAAAATACATCACAGGTCGTGAAGTAGAAAAAATGTCCAAATCAAAGTATAATGTAGTAAATCCTGATGACATCTGTGAAGAGTACGGTGCAGACGGTTTAAGATTATATGAAATGTTCTTAGGGCCATTAGAGCAATCCAAGCCCTGGAATACCCAAGGACTAAGCGGAGTATATGGTTTCCTTAAAAAATTCTGGAACCTGTATTTTAATGGAGAAGTATTTGAAGTTTCAGATGAAGAACCTACAAAAGCAGAATACAAAGTTTTGCATACCTTAATAAAGAAGGTTGTATATGATATTGAAAACTTCTCTTTCAATACCTCCGTATCATCATTTATGATTGCGGTGAATGAGCTGCAGAAAATAAAATGCAACAAACGCAATATTTTGGAGCCGCTTGCCGTTATCATCTCTCCGTATGCTCCTCACATCTGTGAAGAACTGTGGAGTTTACTGGGACACGGTACATCTATCGAATTTGAAAAATTCCCGGCATTGAATGAAGATTATCTGGTGGAAGACGAAATTGAGTATCCGGTAAGTGTAAATGGTAGAATGAAGTTCAAAATTTCACTTTCAGCTCAATTATCTGCTAAGGAAGTAGAAGATTTGGTGATTTCGAACGAGAAAATGCAACAGATTTTGGAGGGTAAAACTCCTAAAAAAATCATTGTAGTCCCTCACCGTATTGTGAATATCGTAATTTAA	MFYDHQQIEKKWQKYWEENQTYKTSNNTDKPKFYVLDMFPYPSGAGLHVGHPLGYIASDIYARYKRHQGFNVLHPVGYDSFGLPAEQYAIQTGQHPAVTTEQNINRYEEQLKKIGFSFDWSREVRTSDASYYKWTQWIFIQLYHSWYNKNTDKAESIDSLIQHFEEKGTEGLNANQNDELNFTAEEWKNASDLDKEDILLNYRLSYRAETTVNWCPALGTVLANDEVKDGKSERGGFPVFQKKMMQWSMRISAYSERLLQGLNTLGWPQPLKDSQEYWIGKSQGAQVQFKVEGHDETVEVFTTRPDTIFGATFMVLAPENPLVETITTDAQKAEVDTYIEETSKKTERDRMADVKNVSGAFTGSYAVNPFSNEKMAIYISDYVLMGYGTGAVMAVPAHDERDHRFAKKFNLEIKKVVETEEDVQEKSFDSKDSVCVNSDFLNGLHYNDAKAKIISEIETKGIGHGTTNYRQRDAIFSRQRYWGEPVPIYYKDGMPYTLPTSALPLELPEVEKYLPTEDGDPPLGNAKEFAWDEANQKVVATDLIDDKTIFPLELSTMPGWAGSSWYFLRYMDPNDEETFVKKELADYWEQVDLYIGGSEHATGHLLYSRFWNMFLKDRGYISHDEPFQKLINQGMILGMSAFVYRIDATNQYVSKNLARDYQTQQIHVDVSLLKGTSDELDTEAFKAWRPDYADAEFILEDGKYITGREVEKMSKSKYNVVNPDDICEEYGADGLRLYEMFLGPLEQSKPWNTQGLSGVYGFLKKFWNLYFNGEVFEVSDEEPTKAEYKVLHTLIKKVVYDIENFSFNTSVSSFMIAVNELQKIKCNKRNILEPLAVIISPYAPHICEELWSLLGHGTSIEFEKFPALNEDYLVEDEIEYPVSVNGRMKFKISLSAQLSAKEVEDLVISNEKMQQILEGKTPKKIIVVPHRIVNIVI				NA	NA	NA	NA	NA
BMS003_01206	474			hypothetical protein	ATGAAGAAATTAGCATTACTATTTGCAGGTTTGTCATTGTTTGCCGCTACAGGATGTAGTGATAGCAATGATACTGTTTTGGAAGCTCCTCTGGTGGGAACCTGGCAACCCTTAAAAGAAGTGGTTACTACTGTTAAGACGGGTGAAGATCCGGTTTCTAACACGATTACTTATACAGACTGCCAGAAGCAGACCAGATGGTGGTTCAGCGTTGATTCCAAAGGTGGAAAAACAAACTGGGGAGATACTGCTACACCTGGACAGTGTGCTATTCTTTCTGATATAAAATTCAACTATACCTATGATAAGGATGCGAAATCTGTTCAGATGAAAATTCAGGGAATAGTAGAACCTCAGAATGCAAAGGTTGTTACATTGGATAATGAAACACTGAACCTTGCTGTAAGGGAAGAGACTCAGGATCCTACTATATTTCAGACAAGAACTTACACATTCAAAAGAGTTCCTCAATAA	MKKLALLFAGLSLFAATGCSDSNDTVLEAPLVGTWQPLKEVVTTVKTGEDPVSNTITYTDCQKQTRWWFSVDSKGGKTNWGDTATPGQCAILSDIKFNYTYDKDAKSVQMKIQGIVEPQNAKVVTLDNETLNLAVREETQDPTIFQTRTYTFKRVPQ				NA	NA	NA	NA	NA
BMS003_01207	1032			hypothetical protein	ATGGGTACTGATCATTCTATTAAAAAAGTTATTTTTGCAGGAAACAAAATACAAATGCAGGATATAACGAAGAACAATTTTGACTTTATACGTGTTCTCCTCGCCTTTATTGTCTTCCTCGGACATCTTGGCACCCTCAGCGCTTCTCCTGATCTCAAGATTTTTGAGCACAGCCCTATAGAAATTGCTGTTTTCGGTTTCTTTGCAGTGAGCGGATTTCTTATTGCAAGGAGCTATGACAGATCTTCAAGTCTGAAAAGTTATTTGAAAAAGAGAATCAGAAGAATTGTTCCCGCTTACTTATTGGTTATATTTTTATGTGCAATTTTATTAAGCCTGGTAAGCACCTATTCTTTCACTGAATATTTTGGTAATACACAAGTTTACAAATACCTTTTCTGGAATTCATTATTTTTAAATTTTAAAGCACCCTGGCTTCCCGGAGTTTTTGGAAATCAGGCCGTGAATGGCGCACTATGGACCCTTAAAATAGAAATGTGTTACTATTTCTCTGTTCCTTTGTTGTTTTTGCTTTTCGGAAAGAATAATAAATACAGAAATATAAGTTTGGTAATTTTATATTTTTTATCTCTTATTTATCTGAATTATTTTGAATCTTTAAATAAAATTTCAATCGCCAAGCAGCTTCCCGGAACACTGTCCTATTTCATCCCCGGAATGCTGATTTACTTTAATTTTGATAAATTTATCAAATATAAAAATATAATTTTCATCATTGCTTTTGTCACGGTATGGATTGATTTATATTTAAAAATTCAGCTTTTTTCCCCGATGATGATTGGTGTTATCGTAATGTATATTGCCTATTCATTCAAATTCTTAAATAATTTCGGGAAATATGGTGATTTCACATACGGAATCTACATTTTCCATTTTCCTATTATCAGGACTTTTCAGACTTTAGGTTTATTTGAAGATTACAATCCTTTTGTAATGGCTTTGGTATGCATGTTAGTGGTAGTTGCTGTAGGGGTAAGCTCCTGGCATCTTTATGAAAAAAGATTTTTATAA	MGTDHSIKKVIFAGNKIQMQDITKNNFDFIRVLLAFIVFLGHLGTLSASPDLKIFEHSPIEIAVFGFFAVSGFLIARSYDRSSSLKSYLKKRIRRIVPAYLLVIFLCAILLSLVSTYSFTEYFGNTQVYKYLFWNSLFLNFKAPWLPGVFGNQAVNGALWTLKIEMCYYFSVPLLFLLFGKNNKYRNISLVILYFLSLIYLNYFESLNKISIAKQLPGTLSYFIPGMLIYFNFDKFIKYKNIIFIIAFVTVWIDLYLKIQLFSPMMIGVIVMYIAYSFKFLNNFGKYGDFTYGIYIFHFPIIRTFQTLGLFEDYNPFVMALVCMLVVVAVGVSSWHLYEKRFL				NA	NA	NA	NA	NA
BMS003_01208	756	tuaG	COG0463	Putative teichuronic acid biosynthesis glycosyltransferase TuaG	ATGAAAGATCTTGTCTCTATTATTACTCCTTGCTACAATTCGGCAGAGTTTATCGAGGAAACTATACATTCTGTTCTTAACCAGACCTACCAAAACTGGGAATGGCTGATTACTGATGACCTATCCAAAGATAATACCGTTGAAATTATTAATAAATATAATGATCCCAGAATAAAACTGCAGGTACTGCAAAAAAACGGAGGTGCGGGAAATGCAAGAAATAACAGTCTGGAAAGAGCTCAGGGAAGATATATAGCCTTTCTGGATTCTGATGACTATTGGTATCCTGAATATCTGGAAACCATGACGAATTATATGCAGGAACATAATGCAGAACTGGTATATTGTAACTATTCAAGGTGCAATGAACAGCTTCAGCCCGTTCTGAAGGATTTCCTGGCGGAAAAGACCGTTACATTCTCCAATTTACTGAAAACATGCCGTCTGGCACCGGTTTCTACAATGTATGATACCAAAAGGGTAGGAAAATTTCTATTCCCTGTAAAAAGTAAACGTGAAGATCATGTGATGTGGCTTAATCTTTTGAAAGTAATACCGGAAGGAATTCCTGTAAAAAAGACATTGGCCAAATACAGAATGCGTGAAAACAGTGTTTCCAGAAACAAAAAGAACATCATCAAAGATCAGTATCTTGTGTACAAAGATTTCATGGGTTTTTCCACAGTAAAATCGTTGTACTACACGGCAAACTGGGCGTTAAACGGATTCCTGAAATATTCGAAAATTTTTAATTAA	MKDLVSIITPCYNSAEFIEETIHSVLNQTYQNWEWLITDDLSKDNTVEIINKYNDPRIKLQVLQKNGGAGNARNNSLERAQGRYIAFLDSDDYWYPEYLETMTNYMQEHNAELVYCNYSRCNEQLQPVLKDFLAEKTVTFSNLLKTCRLAPVSTMYDTKRVGKFLFPVKSKREDHVMWLNLLKVIPEGIPVKKTLAKYRMRENSVSRNKKNIIKDQYLVYKDFMGFSTVKSLYYTANWALNGFLKYSKIFN	PGPT0015205_260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015205-tuaG|ggaB-K16698	NA	NA
BMS003_01209	627			hypothetical protein	ATGGAATATTCAAAAGAGTTTAAAGCGGCTCTGAGTGCTTTTTCCGGAGTGGAGAAAGACAAACTTATTTTCAGACTTCTGAGAAAGGATAAATTATTGTCCAAAAAACTTTATTTTGAACTGATTGATCCTGAAACTACAGATGATAAAAGAAACGCCATGGAAGAACATGTGGAAGAGCAGCTTCTTCTGGCTTCAAAATATGTGGGAAATGCCAAGTATTTTCTGTCTGCTGTCCGGAAAATAAGTGCTGAAATTACAGAGCACGTCAAAATTACTACTGATAAATTCGGTGAAGTTTCACTGAATCTTCTTCTCGTAAACAAGGTTTTGGAAAACAATGCGGACCTCAGCAGACAGAGGTTTGATAATGTTTATAAGCTTTATATTTATATTATCAATAAAGTCTTCAAATCCTTGACTCTGGTAAAAAAACTGGATGAAGATTACTGGATGGAAATTGATGAATACCTTAGCAACACTCTGGATAAAATTTTAGAAAATCATTATCTTCAAAAGCTTTGTATTAACAATGGTCTTGATTTCAATTGGTTTAGGTGTGAAAAAATTCCTGACAATATTGATAAGATTATGAAGGAAATTAAAAGCCAGGGATTCCTAAGATAA	MEYSKEFKAALSAFSGVEKDKLIFRLLRKDKLLSKKLYFELIDPETTDDKRNAMEEHVEEQLLLASKYVGNAKYFLSAVRKISAEITEHVKITTDKFGEVSLNLLLVNKVLENNADLSRQRFDNVYKLYIYIINKVFKSLTLVKKLDEDYWMEIDEYLSNTLDKILENHYLQKLCINNGLDFNWFRCEKIPDNIDKIMKEIKSQGFLR				NA	NA	NA	NA	NA
BMS003_01210	1239			hypothetical protein	ATGGCTTTTCTCTACAATATATTTATCAGTCTCCTTACTTTCGGAATGAAAGCTTTCTCATTAATTCACGATAAAACTAAAAAAGGCGTTGAAGGAAGAAAACAGTCGCTGAATAAAGTAAAATCAGCATTCTCAACATCTGATAAAATAATCTGGATGCACGCTGCAAGCCTGGGGGAATATGAGCAGGGATTACCCGTGTTGGAAAAGCTTAAAGAGAATTTTCCTCAACACAAAATACTGGTGACATTCTTCTCGCCCTCTGGTTATGAAAATGTAATTAAAAAGAAATATATTGCAGATGTAATCTGTTATCTGCCATTCGATAAGAAAAGCACAGTAAAAGAATTTATATCTCAATTTAATACTGAACTATTTTTTACGGTTAAATATGATTACTGGTACAATCTCCTTGTGGAATTGAAAAATAAAGGAACAAAGATTTATGTGATTTCTGCGCTTTTTTATGAAAGACAATCATTCTTTACTTCCTATGGAAAATGGTTTGTAAAACAGCTTCAGAAAAATGTAGACTGGTTTTTTCATCAGACTCAGTTTTCACTGGCATTGGCAAAAAGTGTAGGATTAATAAAGTCTTCTGTAACGGGAGATACAAGATTTGACAGAGTAAAACAGCTCCGCGAACGGGACAACCATGTAGACTTCATTGCAGATTTCATCGGAGAGAATAAAGCTGTTGTTTTTGGAAGCTCATGGCAGGCAGAAGAGAAAATAGCAGATGTGGTTTTCCGTAAAAATAATACGATAAAACTCATCATAGCACCTCACGATCTGAAAAGAGTAGATCATCTGAGAAACACATTTCCAGATGCATTATTATACAGCGAAATAGAAAATACCCCGTCATCTGCCTTCAATACTCAAATTCTGATCATAGACAGCATTGGGCTATTGTCAAAACTGTATTCTTATGCAGATGCAGCTGTTGTAGGAGGAGGATTTCATGATGCAGGACTTCACAATATTCTGGAAGCGGCAACATTTGACGTTCCTGTGATTTTTGGAAATCATTACAAAAAGAATCCGGAAGCGGACGATCTGATCTCTGCCAATGGCGGAAAGTCTTTCCCTGATGAATATACAGCCTCAGAATTCGTGTTATTTCTTATGAATGAGGAAAACAGGGAAGAACTTGCAGAAATGTCTGAAAATGCAGGGCAGTTTATAGAGGGGAAGCCTGATTCTACCGGAATGATTCTTCAGAAAATCTTATCTTAG	MAFLYNIFISLLTFGMKAFSLIHDKTKKGVEGRKQSLNKVKSAFSTSDKIIWMHAASLGEYEQGLPVLEKLKENFPQHKILVTFFSPSGYENVIKKKYIADVICYLPFDKKSTVKEFISQFNTELFFTVKYDYWYNLLVELKNKGTKIYVISALFYERQSFFTSYGKWFVKQLQKNVDWFFHQTQFSLALAKSVGLIKSSVTGDTRFDRVKQLRERDNHVDFIADFIGENKAVVFGSSWQAEEKIADVVFRKNNTIKLIIAPHDLKRVDHLRNTFPDALLYSEIENTPSSAFNTQILIIDSIGLLSKLYSYADAAVVGGGFHDAGLHNILEAATFDVPVIFGNHYKKNPEADDLISANGGKSFPDEYTASEFVLFLMNEENREELAEMSENAGQFIEGKPDSTGMILQKILS	PGPT0022485_2460	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
BMS003_01211	345			hypothetical protein	ATGATACATTCTAAAAATAATTCAGAACATTATATCTGGGGAAACCAATGTGACAGCTGGATCCTTAAAAATACGCCAGGCTTATCCATAAAACAGGAGAAGATGCCTGCGGAAACTTCAGAAAAACTTCACTATCATAAAGTGGCAGAACAGTTTTTTTATATGCTGAAAGGAGAAGCTGTATTCTATATCAATGAAGAGAAATTTCTGGTTTGCCAGGGAGAATCTATTTCTATTGAACCCGGAGCAAAGCACTTTATCTCCAATGAATCTGCTGAAGAAATAGAGTTTTTAGTCATATCCAATCCTTCTACGGATCATGACAGAATTGAAATAAAAGAATAA	MIHSKNNSEHYIWGNQCDSWILKNTPGLSIKQEKMPAETSEKLHYHKVAEQFFYMLKGEAVFYINEEKFLVCQGESISIEPGAKHFISNESAEEIEFLVISNPSTDHDRIEIKE				NA	NA	NA	NA	NA
BMS003_01212	468			hypothetical protein	ATGGAAAATATTCTTTTTATAATTTTTGATATTTTTAATTTTGGATTGGTTATTTTTCTGTGGTGGTTTACCTTAAAAAACTATAGCACTTTGCCAGAGAGAATTCCTGTGCATTTTGATATGGAAGGAAAGGCTGATGGATTTGGTGTAAGAGTGTATGCCTTTCTGATGCCTGTATTAGCTTTGGGATTATATGCTCTATTCGTTTATGGGGTGAGGCATCCTGAAGATACTAATTTCCCCGTAGAAATTACAGAACAGAATATGAATGCTCAGTTTTTGATTATGAAAATCGGATTGAGAATTCTTTTTGTGGTACTTGCAGTCATTTTTATGAATATTCAGGATTATATGTTCAGATGTGCGGTAGATGAGAAAGCCAAACCAAAAATTTCATTTGCGGCTATATTTTTATCTGTTGTATTATTTACTCCTGCATTAGTTTTTATAGCCCATTTATTTAAATGA	MENILFIIFDIFNFGLVIFLWWFTLKNYSTLPERIPVHFDMEGKADGFGVRVYAFLMPVLALGLYALFVYGVRHPEDTNFPVEITEQNMNAQFLIMKIGLRILFVVLAVIFMNIQDYMFRCAVDEKAKPKISFAAIFLSVVLFTPALVFIAHLFK				NA	NA	NA	NA	NA
BMS003_01213	717	ykfC		Gamma-D-glutamyl-L-lysine dipeptidyl-peptidase	ATGAATAAAGGAATTTGTGTTGTTACAGTAGCGCCGGTTCGTGCAGAAAATTCTGACAGAGCTGAAATTGTTACGGAAATATTGTTTGGAGAAAGTGCAGATATTTTGGAAGTAGATAAAAACTGGACCAAAATAAAAATGCATTATGATGGGTACGAAGGGTGGATGGATACCAAGCAACTGAAACCCATAGCAGACGAAGAGCTTGCAAACAGAAAAGTGACTGTCGTTACTGAAGATTTTTCTTCCGTATTAATGAATGATGGGAAAACCCTCTTGTCTATGGGATCTGAAGTAGAATTTCCGGTGGTAGCATCCAGAAGAAGTCATGATATACGTGAAAGTATTGCTCTGACAGCAAAAGAATTCCTTAATGTACCCTATCTGTGGGGAGGTAAAAGCTTTTTTGCAGTAGACTGTTCAGGATTTACCCAGTTAGTCTATAAAATTCACAATATAAAAATTCCGAGAGATGCTTCACAGCAGGCTGAGGTTGGAGAAGCGCTTACTTTTGTAGAAGAAACACAACCCGGAGATCTTGCTTTTTTTGAAAATGCAGAGGGAAAAATTATCCACGTAGGAATTATGCTGGAGAATCAAAAGATCATCCATGCTTCCGGAAAAGTAAGAATTGATACCCTGGATTCCACAGGAATTTTCAATAAAGAAATGAATAAGCATACTCATAAACTGAGAGTGCTGAAAAGTGTAATTTAG	MNKGICVVTVAPVRAENSDRAEIVTEILFGESADILEVDKNWTKIKMHYDGYEGWMDTKQLKPIADEELANRKVTVVTEDFSSVLMNDGKTLLSMGSEVEFPVVASRRSHDIRESIALTAKEFLNVPYLWGGKSFFAVDCSGFTQLVYKIHNIKIPRDASQQAEVGEALTFVEETQPGDLAFFENAEGKIIHVGIMLENQKIIHASGKVRIDTLDSTGIFNKEMNKHTHKLRVLKSVI	PGPT0020945_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-DIPEPTIDYL-PEPTIDASE_ACTIVITY,PGPT0020945-ykfC-K20742	NA	NA
BMS003_01214	648	trmR_1		tRNA 5-hydroxyuridine methyltransferase	ATGAGCTTTTTTGAAGAAAAGAATCCTGAAATGGACAGATATTTGGAGGCGCACGCTTCCTCGGAATCCGAAATTCTGAAAAAACTGAGAAGAGAAACTTATCAGAAAACTACACAGCCTCATATGATTTCCGGTTATCAGCAGGGAAGGTTATTGACTATTATTTCCCAGATGCTGCAGCCGAAAAGTATTCTTGAAATAGGAACGTTCACCGGATATGCCACTTTATGTCTTGCATCAGGATTGGCAAAAGACGGGAAAATTACTACTTTGGACGTTAATGAAGATCTTGCTTATTTACCGAAAAAATATTTTGAAGCAAGCGAGTATGCCGGTCAGATTGATTTTAAGCTTCAGGATGCCAAAGAATATTTAAAAGAAACAGATGCGTTTTTTGATCTTATTTTTGTAGATGCAGATAAAGAAAATTATGCAGAATATTTCAGACTTATTAAGCCTCATACAAAATCCGGGACAGTAATCATGTTTGATAATGTACTGTGGTATGGAAAAGTGCTGGAAGAAAACCCGAAACTGAAATCTACACAGTCTATTCAGGAATTAAATGATTTAGCTGCAAAAGACGACGATTTTGAAAATCTTATTTTACCTTTGCGTGATGGAGTCAACTTTCTTCGCAGAAAGTAA	MSFFEEKNPEMDRYLEAHASSESEILKKLRRETYQKTTQPHMISGYQQGRLLTIISQMLQPKSILEIGTFTGYATLCLASGLAKDGKITTLDVNEDLAYLPKKYFEASEYAGQIDFKLQDAKEYLKETDAFFDLIFVDADKENYAEYFRLIKPHTKSGTVIMFDNVLWYGKVLEENPKLKSTQSIQELNDLAAKDDDFENLILPLRDGVNFLRRK				NA	NA	NA	NA	NA
BMS003_01217	594			hypothetical protein	ATGAAAACAAAGACTTTATTTTTAATTGGAGCAATAGTGGGACTTGTTATTATATTTTCCCAGCTAAAACCTCAGGAAATGTCTTTTTACAAAGAGAAAGGCAATTACATTGTAGACAATAATTACATTCTGAAAGATGTGAAAAAAATTTCGGATGAAGACATGAAGAGTTTATTACGCCTGCAGAAACTTCATCAGAACAGTCTGGGAACCAATTTTATTATTTATAAAATCAACAGACAGTATGTGATCCGCGGATGTCTGATGAAAGCAAATATCGACTGGAAAAAATACGGAGATCTGAGAGCAAAAGTGGAAGGGATTCTGAAAAAATATGGAGCTAAAGAACTGGGAGCAAATTATTATGCCATTCAAAACAACCAGGTTGCCACTAATGCAGCATTATTAAGCCAGAAGGATATTGCCTCTTTAAGTAAATTAACGGTAAAAGGTGCAGAAGAATATACCATCTGCCCGCCAACTATGGGAAGAAAAAATCTTACCAATGTGATCATAAAATCTTACAAAGTCAATACAGCCATTGATCCCAGAATCAATGTAAAACTTAATAATGTATTGGTCAATTACAAATAA	MKTKTLFLIGAIVGLVIIFSQLKPQEMSFYKEKGNYIVDNNYILKDVKKISDEDMKSLLRLQKLHQNSLGTNFIIYKINRQYVIRGCLMKANIDWKKYGDLRAKVEGILKKYGAKELGANYYAIQNNQVATNAALLSQKDIASLSKLTVKGAEEYTICPPTMGRKNLTNVIIKSYKVNTAIDPRINVKLNNVLVNYK				NA	NA	NA	NA	NA
BMS003_01218	570			hypothetical protein	ATGAAAAGAAAACTTCAGTTATCCGGAATTTTCATGATCCTGCTGGTGGTTTTTACCATTGGACTGAAAGGAACATTTGATGGCTATTATGGTTTTTACTACGATAATAAAAACTATGACAAACCATTGGCTTATGTAATTTCCGAAAAGATTGCCCAATCAAAGCCTGTTAATATATTTACGTCATATACCGGTTTTGATACAGGATACGGTTTTTATGCACCGAATGTTGCCAGTGACTTTGTTATGAGCTTTGAATTAAAAGATCAAAATGGAAATATTCTGGAACAAAAGACTTTGCCCTATTTTAATAATAAAGAGAGCAGGGTAAGATATACCACTGTTTTTAATATGTTTCTTGATAAAATTTCAGATAAAAATAAATATGACAATAAATATTATCAGTATCTGGATATTATTATCAGACAAATAGCAGCCCATGTCATGAAAGAAAACCCAAAAGCCGTCAGCGTTACCACAAGGCTTTATCTGTACGACTACCCTACTATTGACAATTTCAGACAGGGAAAAACGAATGAAAATCTTATTCTTATTGATGAATTTAAATAA	MKRKLQLSGIFMILLVVFTIGLKGTFDGYYGFYYDNKNYDKPLAYVISEKIAQSKPVNIFTSYTGFDTGYGFYAPNVASDFVMSFELKDQNGNILEQKTLPYFNNKESRVRYTTVFNMFLDKISDKNKYDNKYYQYLDIIIRQIAAHVMKENPKAVSVTTRLYLYDYPTIDNFRQGKTNENLILIDEFK				NA	NA	NA	NA	NA
BMS003_01219	963			hypothetical protein	ATGAAAAAGCTGAATATGTTCTACAATAAAATTGAAAACTTCTTTTTCAAACAGGATAGCCAGACAGAATTCTTAAGCTTCTTCAGGATTGCCATAGGAATTGTGATCCTCTTACAGTTTACCGCAGTACTGCCGGATTTTGACAAATTATTTTCCAGCAGCAGTATTATTCCACAGGACATCATGAGTGTTTTCACTCCCGAGTGGCTGATTACGTTTTCAAAAATAGCCGGCTTTTTACAAACATTCGGGATTGAAGAAAGCACAACCATTGTCATCACTCAGGTAACCTTTATTTCCTTGTGCATTTTTATCATTACAGGATTGTATTCAAGAATATCAGCATTTTTACTGCTTATGCTACAGATTGCCTTACTTAAGGGAAGTTCTTTTTTTGCTTATGGCGCAGATTTTTTCACAAGTATGTCCCTGTTTTATCTGATTCTTTTTCCTGCTGATCAGCATTTTTCACTGAGAAATCTTATATTCAACAAAAAACCGGGAGAAACTAATATTACTCCGGTGAAAAGATTATTCCAGATTCATATTTCTATTGCTTATTTTTTTTCCGGGCTGGATAAAGCGTTAGGATTTAATTGGTGGAATGGTGAATCTATCTGGAAAGCCATTCATCTTCCCTACTCTAACAGAGATTTAAATATTGATTTTAGCTGGCTGGCGGAACATTCTTACATTGTAAGCCTTATAGGATGGAGTACCATTATCATAGAAATGTGTTATCCGTTTTTTATCTGGTATAAACCAACCCAGAAAACATGGCTTTTCCTTACAATCTCTATGCATATTGGAATTGCACTCGTTCTCAATCTATATTATTTTTCAGCCATTATGATTGTATGGAATATGACTAATTTCTATTTTGAACAACCTGTAAAAAAGGCTGTCAACTCATCTAAGAAAAAACTATCTGCTCGTTATACCCCGAAACAGATTAGCTCATAA	MKKLNMFYNKIENFFFKQDSQTEFLSFFRIAIGIVILLQFTAVLPDFDKLFSSSSIIPQDIMSVFTPEWLITFSKIAGFLQTFGIEESTTIVITQVTFISLCIFIITGLYSRISAFLLLMLQIALLKGSSFFAYGADFFTSMSLFYLILFPADQHFSLRNLIFNKKPGETNITPVKRLFQIHISIAYFFSGLDKALGFNWWNGESIWKAIHLPYSNRDLNIDFSWLAEHSYIVSLIGWSTIIIEMCYPFFIWYKPTQKTWLFLTISMHIGIALVLNLYYFSAIMIVWNMTNFYFEQPVKKAVNSSKKKLSARYTPKQISS				NA	NA	NA	NA	NA
BMS003_01220	834	pal_1		Peptidoglycan-associated lipoprotein	ATGAAGATTTTAAAAATTTTAGCAGTTTCTGCAATGGCGTTGGGGATGACATCTTGTGTCAGTAAAAAGCAGTATGACGCTTTGAGCACAAACTATAAGCAGTGTATTGAAAACATTGGTGAAAGACAAAGGGAAATTCAGGATTTGAAATCTCAGAACTCTGCATTGGCAGGTGAAAACAACTTGTTGAAAAGTCAGCATGATGCTTTAAAATCATCACTTGATGCATGTCTGTCCAATACAGGAAAAAGTTCTGCTAACATTGATAAACTGGTAGGTGAAATCAATGCTTCCAATTCTTATATCAAGCAATTGATTTCCAGCAATGCTAAGAATGACAGTCTGAACCTTGCATTGTCTAACAAACTTAAAAGATCTTTGGATAATGTTTCAGATCAGGATGTACAGGTGAAAGTACTGAAAGGAGTAGTAATGATCTCTCTTTCAGATAAAATGTTATACAAAACAGGAGATTACAACATTCTTCCTGCAGCTCAGGAGGTGTTAGGTAAAGTAGCGAAAGTGATCAATGATTATGATAAATATTCAGTATTAATTGAAGGGAATACAGATAATGCTCCTTTGAATTCTCCAAATCTTCCAAGAGACAACTGGGATCTTTCTGCATTAAGAGGTACTTCTGTAGCTAAAGTTCTTCAGACTCAGTTTGGAGTAGATCCGGCAAGAATTACAGCAGGAGGGCGTTCTGAGTACAACCCGAAAGCTACTAATATGAGTGTTTCCGGAAGATCAGAAAACAGAAGAACGGAAATCATCATTATGCCTAAACTGGATGAGTTTATGAAACTGATGGATATCGCTCCTAAGAAATAA	MKILKILAVSAMALGMTSCVSKKQYDALSTNYKQCIENIGERQREIQDLKSQNSALAGENNLLKSQHDALKSSLDACLSNTGKSSANIDKLVGEINASNSYIKQLISSNAKNDSLNLALSNKLKRSLDNVSDQDVQVKVLKGVVMISLSDKMLYKTGDYNILPAAQEVLGKVAKVINDYDKYSVLIEGNTDNAPLNSPNLPRDNWDLSALRGTSVAKVLQTQFGVDPARITAGGRSEYNPKATNMSVSGRSENRRTEIIIMPKLDEFMKLMDIAPKK	PGPT0015375_3224	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS003_01221	1353	tilS	COG0037	tRNA(Ile)-lysidine synthase	ATGTTGAAAAAATTAACCTTTACCAACCAATTAAAAAATCTCGTTCACGAACCGGAAAACCACACCTATCTTCTGGCAGTAAGCGGAGGTGCAGACTCTATGGTTTTAGCCTCTTTATTCAGGGATTTCGGGCATAAAACCCAGGATTCAAAGTTCCGGTTTCAGGTAGCCCATATCAATTATAAACTTCGTGGAAATGATTCAGATCTTGATCAGAAAACGGTACAGGATTTTTGTGAGAAAAATCATATAAAATTTCATCTGTATGAAGTTTCGGATAGAGATCAGAAGCCAGAAAACTCTGTTCAGCTTTGGGCAAGAGAGCTCAGATATGCTTTTTTTAAGGAAATCCGGGAAAAAGAAAAACTGGAATTTCTCGTTACCGCCCACCATCTGAATGATCAGCTGGAAACTTTCATCATAAATCTTTCCAAGGCTTCAGGAATCAACGGACTGAGTGGAATTCCTTCCAATGATAATGCTATCCTTCGTCCACTTTTGAATTTTTCAAAAAAAGAAATTTATCAGTTTGCTGAGCAGCATCATATTGAATTCCGGGAAGATCTCTCTAATAAAAAGAATGATTATCTGAGAAACAAGATTAGAAATGAAATTGTTCCGGTACTGATGGAAACCAACGATCATTTTCTGGAAAATTTCAGAAAAAGTTCTTTGCTGCTGAATCAAACCAAAAATTTTGTTCAGAAACAGATAGAGGAAATAGAAAATTATCTTACAGTATTTAACAAAGACTATAAAATTTTATCAAAGGAAAAGCTAGAGCAGGAAAGTGATTTCGTAAAATTTGAAATCTTAAAAAAATACGGATTCAATCAGGAGGAAGAAATTCCCAAAATTTTCAAAGCCGAAAATAACAGCTCTTTTTTTTCTAAAGAATATCAGTTAATGATTAACCGTGATGAACTGATTTTCATTGATAAAAAGAAAATAAAAGAAACTGAAGAAGAAATACTCCTGACCGAACATTTTGATTTTTCCGAAAACCAGATCACGATCAATCTCGTAGATGATATTGAAAGCTTTGATGAAACCAATAAAGAATTTGAATGGGATTTTGACGCTGAAAAGCTCCACTTCCCGCTTCTTTTGAAAAAACAACAGGAGGGAGATGAGTTTTATCCAACAGGATTTTCAGGAAAAAAGAAAGTTTCTAAGTTCTTTAGGGACGAAAAACTATCTGCTTTGAGCAAAGGAAAGATCTGGTTATTGTGTGATTCCAGAAACCATATTCTGGGAGTAGTCCCTCTTAGGCAGGATCGCAGATATCAGGCAGACAGACAGACTCAAAAAAAGATAACTGTAAAGTGGACAGAAAAACAACTAATTCGTTAG	MLKKLTFTNQLKNLVHEPENHTYLLAVSGGADSMVLASLFRDFGHKTQDSKFRFQVAHINYKLRGNDSDLDQKTVQDFCEKNHIKFHLYEVSDRDQKPENSVQLWARELRYAFFKEIREKEKLEFLVTAHHLNDQLETFIINLSKASGINGLSGIPSNDNAILRPLLNFSKKEIYQFAEQHHIEFREDLSNKKNDYLRNKIRNEIVPVLMETNDHFLENFRKSSLLLNQTKNFVQKQIEEIENYLTVFNKDYKILSKEKLEQESDFVKFEILKKYGFNQEEEIPKIFKAENNSSFFSKEYQLMINRDELIFIDKKKIKETEEEILLTEHFDFSENQITINLVDDIESFDETNKEFEWDFDAEKLHFPLLLKKQQEGDEFYPTGFSGKKKVSKFFRDEKLSALSKGKIWLLCDSRNHILGVVPLRQDRRYQADRQTQKKITVKWTEKQLIR				NA	NA	NA	NA	NA
BMS003_01222	561			hypothetical protein	GTGGACAGAAAAACAACTAATTCGTTAGCTGTAGATGATTTTAAGAAAGACAGCAATATAGCTTTTGGAATTTTATACCAACAGTATTTCGGCTATACCCAAAAATTTATTCTCAAAAATAAAGGTAATCTGGAAGATGCGGAAGATATTTTTCAGGATGCACTCCTTATTCTTTATGAAAAACTGAATGCAGACGAATTCAAAGTTCAGACCTGCCTGGGAAATTACATCATTGGAATTGTTAAAAACTTATGGTTAAAAAAATTAAAGAACAGAAATTTTTACATAGAATCTCCTGAAATCTATTTCACGGAACATCAGCATGAAATAAGTGCTTCAATTGAAAATGAAAGATATTATTGGGAAAAGCTGATTGGCTATATCAAGTCTATCTCTTCACATTGCCAGAATCTGATCCATGACATTTTTATTGAAAATAAAAGTATTGAGGAAATCCAGGACAAATATCAGTATTCCAGTAAGCATAATGCTCAGAACCAAAAGTATAAATGTGTAGAACAGATCAAAAAGATAAAAAACAAAAACATTTTTTCTGCCTGA	MDRKTTNSLAVDDFKKDSNIAFGILYQQYFGYTQKFILKNKGNLEDAEDIFQDALLILYEKLNADEFKVQTCLGNYIIGIVKNLWLKKLKNRNFYIESPEIYFTEHQHEISASIENERYYWEKLIGYIKSISSHCQNLIHDIFIENKSIEEIQDKYQYSSKHNAQNQKYKCVEQIKKIKNKNIFSA				NA	NA	NA	NA	NA
BMS003_01223	960	dsbD_2		Thiol:disulfide interchange protein DsbD	ATGTTCAAAAAAATCGTATTGAGCCTTCTTATATTAGTAGGAATTTCATTTAATGCACAAAGCAAAGGCATCAATTTTCAGAAAATTGATTTGGAAGCCGCGAAAAAAATCGCAGCAAAAGAGAATAAACTGATCTTCATTGATCTGTATACCACCTGGTGCGGACCCTGTAAGCTGATGGCGAAAAATACTTTTACAGATCCCCGGGTTGGAGAGGTGTTCAACAAAAATTTTGTAAATATTGCCATAGACGCAGAAAAAGAAGGACTTAGCCTGGCCAAAGAATTTAAAGTGGTAAACTACCCTTCTTTTTTGTTCCTGGATCCAAAAGGGAAACTGGTGCAATATGATTTCGGATACTATAATCCTGAACAGTTTTTAGGAGTTGGAGCCTCTGTTCTGGAAAAAAAGAAGCCTCAATCCGGCAAAACCTTAGATCAGGTAAAAGGAAAAATGATAGGAGACAAGATTGAGAGCTTCAGTGCAAAAGACCACCTGGGAAATACCTTTTCTTCTTCAAAAGAAAATAAAAAACTGGTTGTAGTTTTTATCCGTGGACAGTGGTGCCCGTATTGTAACAAGTACATTGAAACATTACAAAATCTGGCTCCTGAACTGAAATCAAAAAATGCGAAACTCGTTATCATCTCTCCTGAAAAACCTGAATTTATAGAAAAAACGATTAGCAAAACAAAAACAGACTATACTGTTTTATATGATGAGGGATATAAAATTGCAGAAGCATTTGATGTTCTTTATACCCCCGACACAGAAACCCTTAATTTTTATAACGCTAAATTAAAAGAGGATTTTGCTAACAGCAGATCGGATAACTCGGGAAGACTTCCTGTATCTGCAACCTTTATCCTTAATGAGGGTAAAGAAATAACATGGAGACATTTTGATACAGACTATAAAAAGAGAGCTTCTGTAGAAGATATTGTAAAAAACCTGAATTGA	MFKKIVLSLLILVGISFNAQSKGINFQKIDLEAAKKIAAKENKLIFIDLYTTWCGPCKLMAKNTFTDPRVGEVFNKNFVNIAIDAEKEGLSLAKEFKVVNYPSFLFLDPKGKLVQYDFGYYNPEQFLGVGASVLEKKKPQSGKTLDQVKGKMIGDKIESFSAKDHLGNTFSSSKENKKLVVVFIRGQWCPYCNKYIETLQNLAPELKSKNAKLVIISPEKPEFIEKTISKTKTDYTVLYDEGYKIAEAFDVLYTPDTETLNFYNAKLKEDFANSRSDNSGRLPVSATFILNEGKEITWRHFDTDYKKRASVEDIVKNLN				NA	NA	NA	NA	NA
BMS003_01224	2115	dsbD_3		Thiol:disulfide interchange protein DsbD	ATGAGAATACAAAATGGAGTCTCAAAATTTTTAATGAAAGGAACAATGAAATTTAGAAATTGGTTTTTATTAATTCTGCTATTTTTAGCGACAGGAATTAATGCGCAGATAAAAAATCCTGTAAAATTTAAATTTACCATCAATGATCTTGGAAACAATCAATACGAAGCAGTATTGAATGCCACCATGGAAAGCGGATGGCACATTTACTCAAAAGATTTACCGGAGGATACCGGAATTCCCACCGAATATAAAGTAACAGGAAAGAATATTGAACTGGTAGGGAAATTTACCGAAACAGGTAAAAAGCATGAAGAATTTTCTGAAGCATTTGGTGGTACAATTGTTTTCTACTCCAATTCTGCCGGATTTAAGCAAAAATTTAAATTAAAAGATCCTACAAAGCCCGCAGATGTTACTTCCGAGATTACCTATCAGACCTGTGATGACAGAGTTTGCCTGGCTCCCAACACATTGGAATTTAATCAAAAAGTTACGCCAAAAGGGACTATAGAAGAGGTTACAACTGAGGAAACAGCAGCTCCTGTAAAAGACTCTGTAAAAATAACTGAAACGGTTACTGAAAATCCGGCAAAAGCAGAAGTTACGATCAAGGAAACTTCAAAACTGGATCCTAAGCAGCTGAAAATTGAAACTATTGATTTCAAAAAACCTTTGACAGATTGCGGCACAGCTTCTGCCAAAGTGGATGAAAACTACTGGACCTATTTATTCCTTGGATTTATCGGAGGATTAATCGCTTTGCTTACCCCTTGCGTTTTCCCAATGATTCCATTAACGGTTTCATTCTTTACCAAAGGAAGCAAAAACAAAGCAAAAGGAAAAAGAGATGCTCTTATTTACGGATTTTTCATTCTTCTTATCTTCGTTTTACTGAGTATTCCTTTCCATATTATTGACGGAATTGCAGGAAATATCTTCAACGAGATTTCTACCAGTGTATGGCTGAATATTGCCTTCTTTATTATATTCATCTTCTTTGCCGGAAGTTTCTTCGGGTATTATGATATTACATTGCCAAGCTCTATCGCCAACAAATCTTCTAAAGCTGAAGAAGCAGGGGGAATTATCGGTATTTTCTTCATGGCACTAACGTTGGTAATTGTTTCTTTCTCATGTACAGGACCTATTTTAGGAAGTTTATTGGGAAGTGCAGTAACAGGTTCATCCAATGTTCCTATGCTGCTGACCTTTGCTTTGGCAGGATTCGGGCTTGCATGGGCCATTATTTTCGGATTGCTGGCATTATTCCCGCAGGCATTGCAAAGCCTTCCGAAATCAGGAGGATGGATGAATACGGTAAAAGTGGTTTTAGGTTTCGTAGAACTGGCATTGGCGTTGAAGTTTTTATCCAAAGCTGATCTTGTATCCAAAACATTCTTCTTAAAAAGAGAACTTTTCATTGCGATCTGGATCATCATTGCATTAGGACTGACATTATATTTATTAGGATTGATCAGATTCCCGCATGATGATAAAAAGCCTAAAATCTCCGTAACAAGAAAAATATTGGGTGTATTGGGAATTGGTTTTGTAATCTACCTGGTTCAAGGTCTGATTCCTTCTGACCGTCCGAAGCTTCAGTTATTAAGTGGAATTTTGCCTCCACTGAACATAAGCTATTTCCATGATGAAAAAGACGGAATTCTTGGTATGCATCCGGAGCACGACTTCTTCAAAGCAATAGAGTTAGCCAAAAAAGAAGACAAGCCCATCCTGATCGACTTTACCGGATACGGATGTGAAAACTGTAGAAAAATGGAGGAATTTGTATGGAGTGAACCAGACATCTTACCAATATTACAAAATGATGTCGTATTAGCTTCTCTATACGTAGATGACAAAGAAGAGCTTCCCGAGGATCAGAAAACCAAAATAGACCTTGGTGACGGACAGATTAAAAAAGTAAAAACAATTGGTGACAGATGGAGTTTATTCCAACAGGTTAACTTCAATAATAATTCTCAGCCTCACTATGTTTTAATTACTCCGGACGGAAAAGTAATCAATACTCCTGTTTCAGGATATATGCCAAAAGAGGATTTCAAAAAATTCCTGGAATGCGGAGTTAATTTCTACAAAAAGAATAAATAA	MRIQNGVSKFLMKGTMKFRNWFLLILLFLATGINAQIKNPVKFKFTINDLGNNQYEAVLNATMESGWHIYSKDLPEDTGIPTEYKVTGKNIELVGKFTETGKKHEEFSEAFGGTIVFYSNSAGFKQKFKLKDPTKPADVTSEITYQTCDDRVCLAPNTLEFNQKVTPKGTIEEVTTEETAAPVKDSVKITETVTENPAKAEVTIKETSKLDPKQLKIETIDFKKPLTDCGTASAKVDENYWTYLFLGFIGGLIALLTPCVFPMIPLTVSFFTKGSKNKAKGKRDALIYGFFILLIFVLLSIPFHIIDGIAGNIFNEISTSVWLNIAFFIIFIFFAGSFFGYYDITLPSSIANKSSKAEEAGGIIGIFFMALTLVIVSFSCTGPILGSLLGSAVTGSSNVPMLLTFALAGFGLAWAIIFGLLALFPQALQSLPKSGGWMNTVKVVLGFVELALALKFLSKADLVSKTFFLKRELFIAIWIIIALGLTLYLLGLIRFPHDDKKPKISVTRKILGVLGIGFVIYLVQGLIPSDRPKLQLLSGILPPLNISYFHDEKDGILGMHPEHDFFKAIELAKKEDKPILIDFTGYGCENCRKMEEFVWSEPDILPILQNDVVLASLYVDDKEELPEDQKTKIDLGDGQIKKVKTIGDRWSLFQQVNFNNNSQPHYVLITPDGKVINTPVSGYMPKEDFKKFLECGVNFYKKNK				NA	NA	NA	NA	NA
BMS003_01225	525			hypothetical protein	ATGGCAGAAGTAATTGCACAAGAGAAACAAGGCAGCAAACAAAAGAAAAAAATGATCAGAGTAGACATGACTCCAATGGTAGACCTGGGATTCTTACTCATCACATTCTTTATGTTCACCACCAATTTTACAAAACCTAATGTAATGGATCTTGGACTACCGGCAAAAGATCCTAATCCTCATCCAACAGATATTCCCGTAATTGGAGATCAAAACCAGATTACCTTTATCCTTGGAAAAGACAACCGTGTATTCTATCATCAGAGTAATCAGAAAGATCTGAATACCGGAAATCTTAAAGAAACGGATTTCAGCGGAATTAAGATTTCAAAAATTATTGCTGCAGCTTATCAAAAAGCTCCGGATCAGGAAAAATTCACCGTTATTGTAAAACCAACGGATGACGCCAATTACAAAAATTTTGTAGACATGCTGGACAATCTTGCTATTTCTAAAAAGGAAAGATATGGTGTAACAGACATCAAACCCTGGGAAACAAAGATTTACAAGGAATTAACTCAATAA	MAEVIAQEKQGSKQKKKMIRVDMTPMVDLGFLLITFFMFTTNFTKPNVMDLGLPAKDPNPHPTDIPVIGDQNQITFILGKDNRVFYHQSNQKDLNTGNLKETDFSGIKISKIIAAAYQKAPDQEKFTVIVKPTDDANYKNFVDMLDNLAISKKERYGVTDIKPWETKIYKELTQ				NA	NA	NA	NA	NA
BMS003_01226	864	mhpC	COG0596	2-hydroxy-6-oxononadienedioate/2-hydroxy-6-oxononatrienedioate hydrolase	TTGTTTACATTTGAAAGAAGAAATGGATCTGCAGTGTGTAGCCGGCTGCATTATTTTTTAACCTTCTATAATTTTGGAATCATGCTGAACTTTGAAAGAAAAGGAAACGGAAAAGAAACTTTGGTACTTCTTCACGGATTTATGGAAAATCTGTCCATCTGGAGCGATATGGAGCATCATCTTTCCAAAGATTTTTCACTGCTCAAAATTGACCTTCCCGGCCATGGACAATCTGAAATTCTGGCTGAAGTTCACACCATGAAACTGATGGCTGAAGAAGTTAAGAAAGTCCTGGATCACCAGAATTTAGAAAAAGTACATCTTCTGGGGCATTCAATGGGTGGATATACTTCACTCGCCTTTGCTGAAAAATATCCTGACTCTTTAAAAAGCCTCACTTTATTTTTCTCTACTTATTTTCCGGATGATGAAGAGAAAAAGCAGCAGCGAATCAAAAGCTACAGAATCATAAAAGATGCTTTTGCCCATTATGCGAGAGCCGGAGTTCCCAATTTATTCAACCCGAATGAAAGAGATATTTTGGAAGGCAAAATAGAAATGGCTCTTGAAACAGCCCTTTCTACCAATAATCTGGGCGCATTAGCCTGTGTAAAAGGAATGGTAGAAAGAACCGATAAAAAACATATCCTGGAAAATCTGGAAGCTAAAATCTTAGTATTGGCAGGTAAGCATGACAATGCCGTAAAAACGGATATGATGATCAGGCATCTTCCGGACAGAACGAATATCAAATCTTATATCCTGGATTGCGGACACAACGGCCACTGGGAAAAGCCCGGTATCTGTGCTGAAATCATCAACACAGAGCTTCTGCACAACCTTCCTAAGAAACTGGTTTTATAA	MFTFERRNGSAVCSRLHYFLTFYNFGIMLNFERKGNGKETLVLLHGFMENLSIWSDMEHHLSKDFSLLKIDLPGHGQSEILAEVHTMKLMAEEVKKVLDHQNLEKVHLLGHSMGGYTSLAFAEKYPDSLKSLTLFFSTYFPDDEEKKQQRIKSYRIIKDAFAHYARAGVPNLFNPNERDILEGKIEMALETALSTNNLGALACVKGMVERTDKKHILENLEAKILVLAGKHDNAVKTDMMIRHLPDRTNIKSYILDCGHNGHWEKPGICAEIINTELLHNLPKKLVL	PGPT0009370_731	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680	NA	NA
BMS003_01227	807			hypothetical protein	ATGGCTTTATTTTCATTCAAAAAAAAGAAACCACCGGCACCACCGGTTATCGGACTTACACTTTCAGGCGGAGGAATGCGTGGAATTGCTCATATTGCTGTACTGAAAGCTTTGGAAGAATATAATCTGAAACCTCATATTATCTCAGGAACCAGTGCAGGATCTATCATTGGTGCTTTTTATTCTTTCGGAAAAACGCCGGATGAAATGATGGAGATTGTAAGACAAACCTCTTTTTTCTCAAGATCCTCTTTAAAGTTATCCAAAAACGGAATTTTCAGCTCTAATTTTATTTTAAAACTCTTCAAAGACTACCTCCCGGAAGACAATTTCAGTATTTTAGAAATTCCGATGTATGTAGCCGCAACAGAAATGACTCATGGTATTGTAGACTTCTTTTCTGAGGGAGAACTTTTCGGGCCTTTACTGGCCTCTTCCAGCGTTCCTTTTATTCTTCCTCCGGTAAGGATTGGTGAAAAAATTTATGTAGACGGTGGTGTTCTGGACAATCTTCCGATTGAGCCCATCATGGATAAATGCAATTTTCTTATCGCATCCCATGTAAATTCGATCAGCTATGATGGATTAAAGAAAATGAGCCTGATGAAAGAATTTGACAGAATCCTTCACTTAGCCATCGCGAAGTCTGTATATTCTAAAGCAAAGTACTGTAATATATTTTTAGACCCTCCAAAAATGACAAAATACAGCCTTTTCACCAAACGGTATATGGATGAAATGTTTCAGCAGGTGTACGATTATACCTGCGAGGAACTTGAAGAAAAAGGGTTTCGTAAAAGTATCTAG	MALFSFKKKKPPAPPVIGLTLSGGGMRGIAHIAVLKALEEYNLKPHIISGTSAGSIIGAFYSFGKTPDEMMEIVRQTSFFSRSSLKLSKNGIFSSNFILKLFKDYLPEDNFSILEIPMYVAATEMTHGIVDFFSEGELFGPLLASSSVPFILPPVRIGEKIYVDGGVLDNLPIEPIMDKCNFLIASHVNSISYDGLKKMSLMKEFDRILHLAIAKSVYSKAKYCNIFLDPPKMTKYSLFTKRYMDEMFQQVYDYTCEELEEKGFRKSI				NA	NA	NA	NA	NA
BMS003_01228	1065	nrnA	COG0618	Bifunctional oligoribonuclease and PAP phosphatase NrnA	ATGATTTATATAAAAGCTCTATCTTTGAAAACTTTAATTTTAACGAAAAATAAACACCGGATGTTTACACCAGCAGAACTTTTAGATATTAATACATTACTTACCCAAGATAGCAGAATAGTGATCCTTACCCACTATAATCCGGATGGAGATGCTATTGGTTCAAGCCTGGGACTGAAACACTATCTGAAAGCAAAAGGAATTATGGCAGAAGTAATTGTGCCTAATGATTTTCCGAAATTTCTGAAATGGATGCCGGAGGCCAAGAAAGTTATTATTGCAGAATATAAAAGAAAACTGGCTTCTGATATGATTGCAGGAGCAGATGTTATTTTCTGCCTGGATTTTAATTCTCCGTCAAGAATAGGATTGTTAGGAGACTGGCTGGTAAAAGCTCCGGGAAAGAAAATTCTTATTGATCACCACCAGCAGCCGGAACAGTTTGATTTTGTGTATTCTGATACGGTAATTCCTGCCACTTCACAGATGATTTATCATTTCATTGAAGCCATGAATGATGAAAAACTGGTAAATCAGGATATGGCAGAATGTCTTTATACCGGAATTATGACAGATACAGGTGGTTTCCGTTTTCGTTCTACCAGTGCCACTACACACAGAATTATCGCAAACCTTATTGAACATGGTGCAGATCCTGCCATGATCACATCCAGTACATGGGATACCAATACTGTTTCCCGACTGCATTTGCTTGCATTGGTGCTTGGGAGAATAGAAGTGGTAAATGACGGAACGGTAGCAGTTCTAAGTCTTACAAGAAACGAACTGAAAGAATATGGTTTCCAGAAAGGAGATACAGAAGGCTTTGTGAATTATGGTTTGAGCATTGCCGGAGTGACTATGTCTGCATTCTTTATGGAAGATTTATATGAAGATTTTGTTAAAATTTCTTTCAGAAGTAAAGATGATGTGGATGTGAATAAGTTCTCAAGAAAATACTTCAGCGGAGGAGGGCACATTAATGCGGCCGGAGGAAAATCTCTGGATTCTTTAGCGGGAACGATTGCCAATTTTAAAGAGAAAGTAAAAGAGGAAGGGTTGTAA	MIYIKALSLKTLILTKNKHRMFTPAELLDINTLLTQDSRIVILTHYNPDGDAIGSSLGLKHYLKAKGIMAEVIVPNDFPKFLKWMPEAKKVIIAEYKRKLASDMIAGADVIFCLDFNSPSRIGLLGDWLVKAPGKKILIDHHQQPEQFDFVYSDTVIPATSQMIYHFIEAMNDEKLVNQDMAECLYTGIMTDTGGFRFRSTSATTHRIIANLIEHGADPAMITSSTWDTNTVSRLHLLALVLGRIEVVNDGTVAVLSLTRNELKEYGFQKGDTEGFVNYGLSIAGVTMSAFFMEDLYEDFVKISFRSKDDVDVNKFSRKYFSGGGHINAAGGKSLDSLAGTIANFKEKVKEEGL				NA	NA	NA	NA	NA
BMS003_01229	159	rpmH	COG0230	50S ribosomal protein L34	ATGAGTAAAAGAACATTCCAGCCATCAGAAAGAAAAAGAAGAAACAAACACGGTTTCAGAGAAAGAATGTCTACGCCAAATGGAAGAAGAGTTTTGGCTGCGAGAAGAGCTAAAGGCAGAAAGAGTTTAACTGTAAGTGCTGCACGCGCTAAGAGATAA	MSKRTFQPSERKRRNKHGFRERMSTPNGRRVLAARRAKGRKSLTVSAARAKR				NA	NA	NA	NA	NA
BMS003_01230	711	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGCCACATACCAATATCTCCGGAGAGAATATTATCAGTTTACAAAACGCAAAGATTGCGCAAAAAAACTTCACTGTACTTTCTGATGTAAATCTTAACATTAAAAAAGGTAGATTCTGCTATCTTATCGGAAAAACAGGTTCCGGAAAAAGTTCCCTCCTGAAAACGCTTTACGGACACATTCCATTGGCATCAGGACATGGAGCCGTTGTAGGATTTGACCTGGCAAAGCTAAAGCCGTCTGATATTCCTAATCTAAGAAGAAAATTAGGCATTGTATTTCAGGACTTTCAGTTACTTTCAGACAGAACAGTTGAAAAGAACCTAAAATTTGTTCTTGAAGCTACAGGATGGAATGATAAAGTAAAAATAGAAGACCGTATCAACGAGGTCTTAGGAAGTGTGAACATGAAAAGCAAGAAGCACAAAATGCCTCACGAACTTTCCGGAGGAGAGCAGCAGCGTATTGCCATCGCAAGAGCCCTTCTTAATCACCCGGACCTTATCTTAGCAGATGAGCCGACAGGAAACCTTGACCCAGAAACTTCCAATGAAATTATGACACTCCTAAAGCAGGTCGCCCTTGAAAACGGCGCTGCTGTAGTAATGGCAACACACGATTATCACATGATTCAAAACTTCCCTGGTGAAGCCATCAGATGTGAAGACGGAAAAGTGTCTGTACTGGATACTTCAGAATTATTTGAATAA	MPHTNISGENIISLQNAKIAQKNFTVLSDVNLNIKKGRFCYLIGKTGSGKSSLLKTLYGHIPLASGHGAVVGFDLAKLKPSDIPNLRRKLGIVFQDFQLLSDRTVEKNLKFVLEATGWNDKVKIEDRINEVLGSVNMKSKKHKMPHELSGGEQQRIAIARALLNHPDLILADEPTGNLDPETSNEIMTLLKQVALENGAAVVMATHDYHMIQNFPGEAIRCEDGKVSVLDTSELFE				NA	NA	NA	NA	NA
BMS003_01231	693	yfiC	COG4123	tRNA1(Val) (adenine(37)-N6)-methyltransferase	GTGAAACCTTTTACATTCAAGCAATTTCAGATTCAGCAGTCTAAAGATGTCTTTCGTGTAGGTACAGACGGTGTCCTGCTGGGTGCTTTGGCAGATGTTGAACAGGCATCCGGTGTCCTGGAAGTGGGTACGGGTACGGGATTGATCTCCTTAATGCTGGCGCAAAGAAACAATGAGGCTCATTTTTTAGGGCTGGATATTAATGAAGAAGCTGCTGCACTTACCCAACTTAATTTTGAAAATTCTCCTTTTCATACAAGACTAAAGAATATACTTCAGGATTTTAAAACTTTCAAAACGAAAGAACGTTTTGATCTGATCGTTTCCAATCCTCCTTACTTTGAAGAATCGGAGTCTGAAAAGGATAAGATTGCCCGCCAGACCGTAGAGCTCAACTTTAGACAGCTGGTAACCAAAGCCACTGAATTATTATGTGAAAATGGAGTTTTTTCTGTGATCATACCTGTTGAGGCAGGAGATGTTTTTATTTCAATTGGAAAAGAAAACGATCTGTTTCTGAATCGTAGAATCAATATCAGAGGAATTGAAAATTCAAAGACTAAAAGATTAGTTTTGGAGTTTTCATCAGAACAAAAGGAAATTTGCGAGTCTGATTTTATTATAGAAAAAAGTCCGAGAAAATACTCGGACCAATATCTTGAACTCACGAAAGAGTTTCATATTTTTAAGTAA	MKPFTFKQFQIQQSKDVFRVGTDGVLLGALADVEQASGVLEVGTGTGLISLMLAQRNNEAHFLGLDINEEAAALTQLNFENSPFHTRLKNILQDFKTFKTKERFDLIVSNPPYFEESESEKDKIARQTVELNFRQLVTKATELLCENGVFSVIIPVEAGDVFISIGKENDLFLNRRINIRGIENSKTKRLVLEFSSEQKEICESDFIIEKSPRKYSDQYLELTKEFHIFK				NA	NA	NA	NA	NA
BMS003_01232	1455	sasA_3		Adaptive-response sensory-kinase SasA	ATGTCAATTAATAAATATAAAGGATATAGCTTAAGGAACCGTGTGTTTTTTGGTTTCCTCCTGGTATGTTTTTTAAGTGTGGTGGCTACTTCACTTGTTCCATACTTTGTACTGAGGAATAATTCTATGCAGCAAAGTAATATTGACATGCAGGAGAAAACCAATGCTGTAATGCGGTATCTGGACTATGCAGTAAGCCAGACTCTTGTAGAAACAAAGGATCTTCCGAAAGTTTTAGGAAACAAAATCTTTGAAATTGCAGATATCAATCAGCATGATATTGTTATTTATGACCTGAAAGGAAGTTATCTGCTTTCCAATAAAGATGAAGCGTTGGTAGATCAGAAAACGATTCCTGCGGAGATTGTGAAAAGAATTCTGGCAACTGATGCAAGAGTAGATATGGTGAGATATGATGCTGCTAAAGATGCTAAGCTTACCTCTTCTTATCTTTTGCTGAAAAACAATGAGCTGGAGCCTGTCGGGATTGTTTATATTCCTTTATATCATAATGAATCTGCTTATCTGGATGTTCTTCACCAATATGTAAAATATATTCTTTTAGTTGATATTTTCCTTATTTTATTCAGTATCTGGATCAGCTGGGTAACCTCTAACAGCCTTGCAAAGACCATTACCAAGTTTTCCGATATGATTACCCGTATTACATTGTTTGAAAATGAAATGCGTCCTATCAGATATTATAAGAATGATGAGCTTAATGCGTTGGCGAGAGCTTATAACAGAATGATTCTTCAGATCCAGGACCAAAAAGAAAGGCTAAGATTTAAAGCATCTGAAGAAGCCTGGAGAGAAATGGCAAAACAGGTGGCGCATGAGGTGAAAAACCCATTGACCCCCATGAAGTTGACCATTCAGAATTTTGAAAGAAAATTTGATCCGGAAGATCCTAATATAAAAGAAAGAGTGAAGCAGATGAGTAAAACTATAGTGGATCAGATAGATCTGATTGCTACAGTAGCTTCAGCTTTCTCTGAATTTGCAAAGCTTCCTGAAAAAAATAATGAAGTGATCAATCTGAATACAGAGGTTGAAGATATTCTCCGTGTATTCAATGACGACAGCATTTTCATGCATGCCAATAAGAATAATATTATGATCAATATGGACAGGATTTATCTTTCCAGGATCATAACCAATCTTGTTACCAATGCAAAGCAGGCAGAAAGTGATGAAAGAAAACTCATCATCAATGTAGATGTGGAACAGCATCAGAGAAGAGTGATTATTTCTGTTCAGGATAACGGAATCGGGATTCCTGAAAATATGTACGAAAGGATCTTCGAACCGAACTTTACTTCTAAAAACAGTGGGATGGGGCTTGGCTTATCCATGGTGAGGAAAATGATCGAAGATTATAAAGGAGAGATCTCTGTAAAATCAGAAGTAGGAAAGGGGTCTACATTCATTATTACACTGCCTACCAATTTATAG	MSINKYKGYSLRNRVFFGFLLVCFLSVVATSLVPYFVLRNNSMQQSNIDMQEKTNAVMRYLDYAVSQTLVETKDLPKVLGNKIFEIADINQHDIVIYDLKGSYLLSNKDEALVDQKTIPAEIVKRILATDARVDMVRYDAAKDAKLTSSYLLLKNNELEPVGIVYIPLYHNESAYLDVLHQYVKYILLVDIFLILFSIWISWVTSNSLAKTITKFSDMITRITLFENEMRPIRYYKNDELNALARAYNRMILQIQDQKERLRFKASEEAWREMAKQVAHEVKNPLTPMKLTIQNFERKFDPEDPNIKERVKQMSKTIVDQIDLIATVASAFSEFAKLPEKNNEVINLNTEVEDILRVFNDDSIFMHANKNNIMINMDRIYLSRIITNLVTNAKQAESDERKLIINVDVEQHQRRVIISVQDNGIGIPENMYERIFEPNFTSKNSGMGLGLSMVRKMIEDYKGEISVKSEVGKGSTFIITLPTNL	PGPT0001025_979	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NTR-NITROGEN_REGULATORY_SYSTEM,PGPT0001025-ntrY-K13598	NA	NA
BMS003_01233	585	ribE	COG0307	Riboflavin synthase	ATGTTCACAGGAATTATTGAAGCAGTTGGTGTTATTGAGAAGATTGAAGAAAAAGGAAGCAATATAGATTTTACCTTGACATGCCCTTTCACAAACGAATTGAAAATTGATCAGAGTCTTGCACATAACGGCTGTTGTCTTACAGTTGTTGAAATAAAAGATAATCAATATGTGGTAACCGCCATTAATGAAACATTGGAAAAAACCAATCTTGGAAAATGGGAATTGGGTACCGTTGTGAATCTTGAGCGTTGTATGAAGATGGATGGAAGACTGGATGGGCATATCGTTCAGGGGCACGTGGATAAAACCGGTGAAGTGGTAGGTATTGAAAATAAAGACGGAAGTTATTTTATTACGATGAAGTATGATAATGACGGAAGCTTTGTGACAGTACCACAGGGATCCATTACGGTAAACGGGATCAGTCTTACGGTTGCTAAAAGTGAGGATGTACAGTTTTCAGTAGCCATTATTCCTTACACCTGGGAATTTACCAATATGAAACATTTGAAAATTGGTGACAAAGTAAACCTGGAATTTGATATCATTGGTAAGTATATTGCTAGGTTAATTAAAAAGTAG	MFTGIIEAVGVIEKIEEKGSNIDFTLTCPFTNELKIDQSLAHNGCCLTVVEIKDNQYVVTAINETLEKTNLGKWELGTVVNLERCMKMDGRLDGHIVQGHVDKTGEVVGIENKDGSYFITMKYDNDGSFVTVPQGSITVNGISLTVAKSEDVQFSVAIIPYTWEFTNMKHLKIGDKVNLEFDIIGKYIARLIKK	PGPT0008610_4728	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
BMS003_01234	1092	pdxA	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	ATGAGCCCAAAAAACCATAAAGTACGAGTAGGAATTTCAATCGGTGATTTCAATGGCATCGGCCCGGAGATCATTATGAAATCTCTGAAAGACAAAACTATTACAGATTTTTTCACTCCTGTAATTTTTGGCTCGGGAAAATTATTCACTTATCAGAAAAATATTTTTAAGCTGAATCTTAATTTCAACTACGTTAATGAAGCCTCTCAGGCTCAGGCCGGAAAACTTAACATGGTTAACCTGACCAAAGAAAACGTCAATGTAGAATTGGGAGTTCCTACGGAAGAATCTACGAAAATGGCGATAGATTCCCTGGAAGCTGCTACTGAAGCTTTAATGAAAGGAGATATTGACGTTCTGGTAACAGCACCCATCAACAAGGATGAAATGGTAAAAATGGGCTTTAAACATGCCGGACACACAGGGTATTTTGAAGAAAAATTCAACAAAAAGGGGCTGATGTTCCTTGTAACTGAAGATCTTAAAGTAGCCGTTTCTACGCATCATATTCCTATCACACAGATTGCTGAAAATATTTCCAAGGAAAAAATCAAGAAGCAGATCAGAGCATTAAACCAAACATTGATAGAAGATTTCTGTGTTCAAAAACCTAAAATTGCAGTGTTGGGATTAAATCCTCATGCAGGAGATGGTGGTGTGATCGGAAACGAAGAAATTGAAATTATCAGCCCGGCCATCAAAGAACTTTCTGACAACGGAATACTGGCATTTGGTCCTTTCCCTGCAGACAGCTTCTTCCAGCCTAGCAAATACAAAAATTTCGATGCTGTTTTAGCCATGTATCACGATCAGGGCTTAGCGCCTTTCAAAACCCTGGCATATGAAGAGGGGGTAAATTATACAGCCGGACTTCCTTTTATCAGAACATCTCCGGATCATGGAGTGGCTTATGATATTGCAGGAAAAAACATTGCTGATGAGCAGAGCTTTACTGAAGCCATCTTCACCGCTATTAAGGTTTTCAGGAACAGAAGTGAATACAGCGAACTGATGAATAACCGCCTTCAGCCAAGAAAAATGGCTGTAGACAACGGAATAGACGAAGATCTACCGGAGGAAACTGAAGCATAA	MSPKNHKVRVGISIGDFNGIGPEIIMKSLKDKTITDFFTPVIFGSGKLFTYQKNIFKLNLNFNYVNEASQAQAGKLNMVNLTKENVNVELGVPTEESTKMAIDSLEAATEALMKGDIDVLVTAPINKDEMVKMGFKHAGHTGYFEEKFNKKGLMFLVTEDLKVAVSTHHIPITQIAENISKEKIKKQIRALNQTLIEDFCVQKPKIAVLGLNPHAGDGGVIGNEEIEIISPAIKELSDNGILAFGPFPADSFFQPSKYKNFDAVLAMYHDQGLAPFKTLAYEEGVNYTAGLPFIRTSPDHGVAYDIAGKNIADEQSFTEAIFTAIKVFRNRSEYSELMNNRLQPRKMAVDNGIDEDLPEETEA	PGPT0009165_26	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS003_01235	546			hypothetical protein	TTGCACACTCATTTTATGGACAAGTTAAGAAACTATGACGTAAGCTTTTCTGGACTAAAAAACGGAAAACACGAGTTCAGGTTTGAGATAGATAAAACGTTCTTTCAATTATTTGACACTGAACAGGAATTTACAAATCCTAGAATAGAAGTAAATGTATCTCTTGATAAGCACACTACTTTTTTAGAATTTGAAATTAAAATTAAAGGATGGGTTGAGTTGGTTTGTGACATCACAAATGAAAATTTCGATTATCCTATTGAGAATGAAATCAAAATTCTGGTGAATTTCGGGGAAGAATATGATGACAGCAATGAAGATGTCATTACCATTCCTACCGGAGAGCACGCCTTCAATGTAGCCCATTTGATCTACGAAAATGTAATGCTCTCTATCCCGATGAAAAAGATTTCTCCGAATGTAAGTGACGAAGATCTTCAGATTCTTGACCAGTTCAGTCCGAAAGATATTGAGGAAAACGAGGAGGAAGAACATCCAAGCGATCCCAGATGGGATGCTTTAAGAAAGTTAAAAGACAATAATTAA	MHTHFMDKLRNYDVSFSGLKNGKHEFRFEIDKTFFQLFDTEQEFTNPRIEVNVSLDKHTTFLEFEIKIKGWVELVCDITNENFDYPIENEIKILVNFGEEYDDSNEDVITIPTGEHAFNVAHLIYENVMLSIPMKKISPNVSDEDLQILDQFSPKDIEENEEEEHPSDPRWDALRKLKDNN				NA	NA	NA	NA	NA
BMS003_01236	204	rpmF		50S ribosomal protein L32	ATGGCACATCCAAAGAGAAGACAGTCGTCTACAAGAAGAGATAAGAGAAGAACTCACTACAAAGCTGTAGTTCCTCAATTAGCTAAAGATGCAACAACAGGAGAGCTTCACCTATACCACAGAGCTCACTGGCATGAAGGAAAACTTTACTACAGAGGTAAAGTAGTATTGGAAAAAGAAGTAGCTGCTACTGAAGAAAACTAA	MAHPKRRQSSTRRDKRRTHYKAVVPQLAKDATTGELHLYHRAHWHEGKLYYRGKVVLEKEVAATEEN				NA	NA	NA	NA	NA
BMS003_01237	486	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGACATTAAAGACATACAAAATCTTATTAAGTTTGTATCTAAAGCTGAAGTATCAGAGGTGAAGTACAAAACTAAAGATTTCGAAATCACTATTAAAACTCCATTAGCTGGAAACGATGCTGTATATGCACAACCTGCAGTATACCACACTGCTCCGCAGGCAGTAGCTGCTCCTGCCCCTGCTGCAACTTCTGCCCCTGCCCCTGCTGCTGAAAAAGCTGAAGCTGCATCTGACGACAGCAAATATGTAACGATTAAGTCTCCAATGATCGGTACTTTCTATAGAAAACCATCTCCTGACAAAGACGTATTTATTAATGTAGGTGATGAAGTTTCTGCCGGTAAAGTAGTTTGCGTTATTGAAGCAATGAAATTATTCAACCAGATTGAGTCTGAAATCAGCGGAAAAATTGTTAAAATTTTAGTTGATGACGCTACTCCAGTAGAATACGACCAACCTTTATTCTTAGTAGATCCATCTTAA	MDIKDIQNLIKFVSKAEVSEVKYKTKDFEITIKTPLAGNDAVYAQPAVYHTAPQAVAAPAPAATSAPAPAAEKAEAASDDSKYVTIKSPMIGTFYRKPSPDKDVFINVGDEVSAGKVVCVIEAMKLFNQIESEISGKIVKILVDDATPVEYDQPLFLVDPS	PGPT0001700_1738	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
BMS003_01238	1356	accC	COG0439	Biotin carboxylase	ATGTTCAAAAAAATATTAATAGCCAATCGTGGCGAAATTGCAATGCGTATTTTACGTACTTGTAAAGAAATGGGAATCAAAACCGTTGCAGTATACTCTACCGCAGATAAAGACAGTCTTCACGTAAGATTTGCTGACGAAGCAGTATGTATTGGTCCTGCAATGAGCAAAGACTCATATCTTAAAATCCCTAACATTATTGCTGCAGCGGAAATCACCAATGCTGATGCTATTCACCCGGGTTACGGATTCTTATCGGAAAATGCCAACTTCTCAAGAATCTGCGAAAAGAACGGTATCAAGTTTATTGGCGCTTCTCCCGAACAGATTGAAAAAATGGGGGATAAAGCAAACGCTAAGGCTACTATGAAAGCAGCAGGCGTACCATGTGTACCAGGTTCCGACGGATTGATTGAATCTTATGAACACGCTGTAAAAGTAGCTGAAGAAACAGGATATCCGGTAATGATCAAAGCAACTGCCGGTGGTGGTGGAAAAGGAATGAGAGCTGTCTGGAAAGCCGAAGACCTTAAAGATCACTGGGAATCTGCCATTCAGGAAGCTGTAGCGGCCTTTGGAAACGGAGGTATGTATATGGAAAAACTGATTGAAGAACCCAGACACATCGAAATTCAGGTTGCTGGTGACCAATTCGGTAAAGCATGTCACCTTTCGGAAAGAGACTGTTCCGTACAAAGAAGAAATCAGAAATTAACTGAAGAAACACCTTCTCCATTCATGACAGATGAACTTCGTGAGAAAATGGGTGAAGCAGCTGTAAAAGCAGCCGAATTCATTGGATATGAAGGGGTGGGAACTATCGAATTCCTTGTAGATAAGCACAGAAATTTCTATTTCATGGAAATGAATACAAGAATCCAGGTAGAACACCCTATTACTGAACAGGTAATTGATTATGACCTGATCAGAGAACAAATTCTTCTTGCTGCAGGAACTCCTATTTCAGGAATCAACTATTACCCTAAATTACACTCCATCGAGTGTAGAATCAACGCAGAAGATCCTTACGCAGATTTCAGACCATCTCCGGGAAAAATCACAGGATTAAACATCCCTGGCGGACACGGAATCAGAGTAGACACTCACGTTTATTCCGGCTATACAATCCCTTCTAACTACGACTCTATGATTGCTAAGCTTATCACTACGGCTCAGACCCGTGAGGAAGCTATTGCCAAAATGAGACGTGCCCTTGAGGAATTCTATATTGAAGGAGTAAAAACTACTATTCCTTTCCACAGACAACTGATGGATAATGAAGATTATCTTTCAGGAAACTACACTACGAAATTCATGGAAGATTTTGTAATGGACAGAAAATATGATAATCACTAG	MFKKILIANRGEIAMRILRTCKEMGIKTVAVYSTADKDSLHVRFADEAVCIGPAMSKDSYLKIPNIIAAAEITNADAIHPGYGFLSENANFSRICEKNGIKFIGASPEQIEKMGDKANAKATMKAAGVPCVPGSDGLIESYEHAVKVAEETGYPVMIKATAGGGGKGMRAVWKAEDLKDHWESAIQEAVAAFGNGGMYMEKLIEEPRHIEIQVAGDQFGKACHLSERDCSVQRRNQKLTEETPSPFMTDELREKMGEAAVKAAEFIGYEGVGTIEFLVDKHRNFYFMEMNTRIQVEHPITEQVIDYDLIREQILLAAGTPISGINYYPKLHSIECRINAEDPYADFRPSPGKITGLNIPGGHGIRVDTHVYSGYTIPSNYDSMIAKLITTAQTREEAIAKMRRALEEFYIEGVKTTIPFHRQLMDNEDYLSGNYTTKFMEDFVMDRKYDNH	PGPT0001705_1945	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
BMS003_01239	1248	rocD	COG4992	Ornithine aminotransferase	ATGTCAACAGCAGAACAAACAAAAAACTCACAGTATTTTATTGACCTTGAAGACAAATATGGAGCCCATAATTATCACCCTCTTCCAGTAGTTCTGGACCGTGGAGAAGGCGTTTTCGTTTGGGACGTAGAGGGCAAAAGGTATTATGATTTTCTTTCAGCATATTCTGCTGTGAACCAGGGACATTCTCATCCTAAGATTGTAAACGCATTGGTAGAACAGGCACAAAAACTGGCTTTAACCTCAAGAGCTTTCTACAATTCCAAATTAGGAGAATACGAACAAAAAATTACCACTCTTTTCGGATTTGATAAAGTGCTACCTATGAACTCCGGAGCTGAAGCAGTGGAAACAGCAGTAAAACTAGCCAGAAAATGGAGTTACGAAGTCAAAGGAATTTCAGAAAACGCTGCGAAAATTATCGTATGTGAAAATAACTTCCACGGAAGAACCACCACTATTGTTTCTTTCTCTAATGACCCGGATGCCAACCAAAACTACGGGCCTTTTACACCGGGATTTATCAAAATCCCTTATAACGATATTGCAGCTCTTGAAGAAGTTCTTAGCAGAGAAGCAGACAATATTGCTGCATTCCTTGTAGAACCAATTCAGGGAGAAGCAGGTGTTTATGTTCCGGACGAAAACTTTCTTAAAAATGCTTCTGAACTTTGTAAAAAGCACAATGTCCTTTTCATTGCAGATGAGGTTCAGACAGGTATTGCAAGAACAGGAAAACTAATCGCCTGCCATCACGAAAATGTACAGCCGGATATCCTAATCTTAGGAAAAGCTCTTTCCGGAGGAATGTATCCTGTATCTGCTGTGCTGGCGAATGATAACATCATGAATGTCATTAAACCGGGACAACACGGTTCTACATTCGGAGGAAACCCTATTGCATGTGCAGTAGCCGTAGCAGCATTGGACGTAGTAGCTGATGAAAAACTGTCTGAAAGAGCTGAAGAACTAGGAAAGCTTTTCAGAACTGAAATTGAGAAGCTAATTGAAAAGACAGACCTTATTACCAAAGTAAGAGGAAAAGGGCTTTTAAATGCTATTCTGATCAACGATGCTCCTGAAAGTTCTACAGCCTGGAATCTTTGCTTACAGCTAAAAGAAAACGGATTACTTGCAAAACCTACGCATGGTAATATTATCAGACTGGCACCACCATTGGTAATTACTGAAGAACAGCTTCTGGATTGTGTAAAGATTATTGAAAAGACTCTCCTTGAGTACAAATAA	MSTAEQTKNSQYFIDLEDKYGAHNYHPLPVVLDRGEGVFVWDVEGKRYYDFLSAYSAVNQGHSHPKIVNALVEQAQKLALTSRAFYNSKLGEYEQKITTLFGFDKVLPMNSGAEAVETAVKLARKWSYEVKGISENAAKIIVCENNFHGRTTTIVSFSNDPDANQNYGPFTPGFIKIPYNDIAALEEVLSREADNIAAFLVEPIQGEAGVYVPDENFLKNASELCKKHNVLFIADEVQTGIARTGKLIACHHENVQPDILILGKALSGGMYPVSAVLANDNIMNVIKPGQHGSTFGGNPIACAVAVAALDVVADEKLSERAEELGKLFRTEIEKLIEKTDLITKVRGKGLLNAILINDAPESSTAWNLCLQLKENGLLAKPTHGNIIRLAPPLVITEEQLLDCVKIIEKTLLEYK	PGPT0014253_3768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS003_01240	747			hypothetical protein	ATGAATATAAGTGGTTTAATCATAACATATAATGAAGAAAAAAATATACAGGAAGTACTGGAGTCTTTTGATATCTGCGATGAAATAATAGTAGTAGACTCTTTTAGTACGGATAAAACTGTAGAAATTGCTTCGCAATTTCCTAATGTAAAGGTGATTCAGAATAAATTTGAAGACTTTACAAAACAGAGAAATCTGGCTCTGGATGCTGCAAAAAATGACTGGGTTTTATTTTTGGATGGTGATGAAAGAATTACTCCCGCTTTAAGGCAGGAAATCATTGATGAACTGAATAAACCAAGCCAAAAAGATGCTTACTATTTTTACAGGAAGTTCTTTTTTGCCAGGAAACCGATTCACTTCTCAGGAACACAAACTGATAAAAACTTCAGGTTGTTCAGAAAATCGAAGGCCAGATATATGGCAGAAAAAAAAGTACATGAAACGCTGGAAGTCAATGGCAGCATTGGGATTTTAAAAAATAAATTACTACATTACTCCGTTTCAGATTATGAATCTTATAGAAAAAAAATGATTCATTACGGAGTTTTAAAGGGTAAGGAACAGGCTGCTAAGGGGAAAAAGTACAGTGTTTTAGTTCAATATCTTAAAACAGCTTTTAAATTCTTTAAAGCCTACATAATGAAACTGGGTATTTTAGACGGAAAAGAAGGTTATCAGTTATCATACCTGCAATCTTTAAGTGTTTATGAAACCTATGAATCATTAAAAAAAGAGCAAAATTAG	MNISGLIITYNEEKNIQEVLESFDICDEIIVVDSFSTDKTVEIASQFPNVKVIQNKFEDFTKQRNLALDAAKNDWVLFLDGDERITPALRQEIIDELNKPSQKDAYYFYRKFFFARKPIHFSGTQTDKNFRLFRKSKARYMAEKKVHETLEVNGSIGILKNKLLHYSVSDYESYRKKMIHYGVLKGKEQAAKGKKYSVLVQYLKTAFKFFKAYIMKLGILDGKEGYQLSYLQSLSVYETYESLKKEQN	PGPT0022550_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022550-waaQ|rfaQ-K02849	NA	NA
BMS003_01241	987			hypothetical protein	ATGAAGATTTGTATCATTAGTTATGATTTTTGGGATTATGATAAGTATATTGTTGAGACATTATGCAAAAGAGGTATTGATGCTCATCATATAAAGATCAGTAGCGTTACTCATTCCAACTTCAATGAAAGAGCTGTAAATGCTTTAAGCAAAACTTTTTTAAATAAAAATCTCAAGACTGAAAAAAGACAGAAATATGTTCTGGATTCTCTGGAACAATTAGGCCATCAGGATCAGATTCTGGTGATGAATCCTGATACTTTTGATCTTTCTACCCTGAAAAAAATCCGGAAATATACAGACCGTCTGGTTACTTACCTTTATGATAATCTTGAAAGAGTTCCTGTAGAAGATAAGCTGTATCTTTTTGACAAAGTATTTTCTTTTGATCATATAGACGTCAAAAAACATGGATTTGAAAAACTGACAAACTATATTTATCTTCCTCACTGTACAAAAGATACCCAACATCCGGAAATGGACCTTTTCTATATCACATCTTATGATAACAGAAGAGTTTCATTAATAAAATTACTGGCTAAAAAACTGATTGAACAAGGACTTAAATTCCAGATTATGATCATCGGGAAGAAATCCTGGAAGCATCAGCTAACAAATATGTTTATTGCGGTGCCTAAAAATCTTTTCCTTATTTTCAGCATAAAAAAGATTCCTCATAACGATCTTCCTAAATATTATAAGAACTCAAGAGTTTTACTGGATCTGATGCGGGAAGGACAATATGGGCTCAGTTTCAGGGTATTTGAAGCCATGTCTCTGGAGAAGAAAATCATTACTGATAATGAAGCCATTAAAACGTATGATTTTTACAATCCCAATAATATTTTGATTTTAAATAAAAATATTAGTAATCTTGACAAATCTTTCTTTGAAACACCTTATGAAAAAATTCCTGAGAAAATCTATGAACGATATACTCTGGACAGTTGGGTGAACAAAGTTTTTGAAATAAATCATAATTTATGA	MKICIISYDFWDYDKYIVETLCKRGIDAHHIKISSVTHSNFNERAVNALSKTFLNKNLKTEKRQKYVLDSLEQLGHQDQILVMNPDTFDLSTLKKIRKYTDRLVTYLYDNLERVPVEDKLYLFDKVFSFDHIDVKKHGFEKLTNYIYLPHCTKDTQHPEMDLFYITSYDNRRVSLIKLLAKKLIEQGLKFQIMIIGKKSWKHQLTNMFIAVPKNLFLIFSIKKIPHNDLPKYYKNSRVLLDLMREGQYGLSFRVFEAMSLEKKIITDNEAIKTYDFYNPNNILILNKNISNLDKSFFETPYEKIPEKIYERYTLDSWVNKVFEINHNL				NA	NA	NA	NA	NA
BMS003_01242	966			hypothetical protein	ATGAAAAAAAAACTTTTATTTATAGCTCCTGGTTATTATGGGTTCAATGAAGTTGTTTTTGATGGTTTAAAAAAATACAGTGGTTATGAGATAGTGCATATCAATTCAACACTCAACTACCAATATAAAAATATTTTAGAGAAAATATATAATTTTTTTTTAAAGACCTTTTTAAAAAAAAATCTCAAAAACATAAAAAGAGGCGAACACATTCAACGTATCATCAATCTTAATGATTACGACATATTATTAGTAAACAGACCTGATGTTTTGAGTGAGAAAGATCTGAATTCCGCTCTTAATAAATCCAAAAAGTCTATTGTTCTCTTTTGGGACAGCATTCAGAAGATCCCTTCTCAAAAAGAATATATCCAGAAATTTGATATCTGCTGCAGCTTTGATACGGATGACTGTAAAAATTATAATTTAAATTATGTAACCAATTTTTACTTCATTAAAGATCAAAAAACAACAATATCCGTTGACGTTTGTTATTTAGCAACCTATGATAAGAGAATAGGAGAAACTAAAACTCTTTTTGAATATTTTAACAATAATAACATCTCTGCAAAAGGAAAACTATTCACTTACAAGTCTATTCCTCTCAAAGAAAAACTGCCTAAGAATATAGAGGTAATTCATGAAATTATTCCTTTTTCAAGTTCATATAGATACTATCTGGACAGCAAAATTATTCTTGATATAGCGCATCCTCATCAAAGAGGATTATCATTCCGACCTTATGAAGCTATTGGATTGAATAAAAAACTGATTACAACCAATCAAGAAATCATTCAATATGATTTTTACAATCCAAACAATATTTTTGTGATTAAAGATGTTTCAAACTTCAATATTCCCCAAAGTTTTTTAACGGAGAACTATGAACAGCCCGAAGGTTGGATCAAAGAAAAATACTATATTAAAAACTGGATAAAAACAATACTTTCATTTCATGAAAACTAA	MKKKLLFIAPGYYGFNEVVFDGLKKYSGYEIVHINSTLNYQYKNILEKIYNFFLKTFLKKNLKNIKRGEHIQRIINLNDYDILLVNRPDVLSEKDLNSALNKSKKSIVLFWDSIQKIPSQKEYIQKFDICCSFDTDDCKNYNLNYVTNFYFIKDQKTTISVDVCYLATYDKRIGETKTLFEYFNNNNISAKGKLFTYKSIPLKEKLPKNIEVIHEIIPFSSSYRYYLDSKIILDIAHPHQRGLSFRPYEAIGLNKKLITTNQEIIQYDFYNPNNIFVIKDVSNFNIPQSFLTENYEQPEGWIKEKYYIKNWIKTILSFHEN				NA	NA	NA	NA	NA
BMS003_01243	1050			Alpha-1,6-glucosyltransferase	ATGAAAACTAAAATTTATTTTGTATGCCCCACTAATAAATTTGCAAGTGGAGGTGTAAAGCAGATTTACCGACAGGTCGAAACATTAAACAAAAATGGAGTTGAAGCTTATTTGCTGCTTAAAAAAGGAAAAAAGGAAAACTGGTTCAAAAATAACGTTCCGGCAAAGTATAGTTCATATCTATTCAAAGAATTAAAATACCTTTATAAAGGAAAAAAAATAAATTTCTCTAAAAAATTAGTTTTACGTTTTTTAAAAGCTCAAAGTATGGAGATTGAGAAAGATGCCATTCTGGTTTTTCCTGAAATTTACGGTCCAAATATTCATAAACTGCTTCCGGAAAATCCTAAAGTGATCTTCAATCAAAACTGTTATTATACATTTGGTTACTTTTCAATCTATGAAAATTATGAGGTCAATTCTTATAATCATCCTAAAACATTATCAATAATTGTAGCTTCTGATGATGCCAAAAGATATCTAAAATACACTTTTCCCGGCTCTGAGGTTTTCAAAATGCGTTTAGGTATTGATGATCAGATATTCAATTATGGTCAAAATAAAAAAAAACAGATTTGTTTTATGCCTAGAAAACTTGGGGACGATCTTACCCAGGTTATTTCTATATTAAAGCAAAGAGACACATTAAAAAGCTGGAATCTTGTTGCTATAGATAATAAAACAGAAAAGGAGGTAGCCGAAATCATGAAGGAAAGTGCAGTTTTTCTAAGCTTTAATCACAAAGAAGGTTTTGGCCTTCCCCCTGCAGAAGCTATGGCTTGTGGTTGTTATGTAATAGGATATTCAGGTCAAGGTGGAAAGGAGTATCTAAAACCAGAATTTTCTATGCCTGTAGAAGATGGTAATATTATCGAATTTGTTCAAAAAATAGAAGAAACAATAAATATTTATGAAAAAAGTCCTCATGAAATATTGAATAAAGGGAAGCTTTCTTCTCATTTTATTTTAGAAAACTACAGTTTAAAAAACGAAATAAATGATACTGTAAATATTTGGAATAGTATTATGAAACAAACTCAAAAGGGATAA	MKTKIYFVCPTNKFASGGVKQIYRQVETLNKNGVEAYLLLKKGKKENWFKNNVPAKYSSYLFKELKYLYKGKKINFSKKLVLRFLKAQSMEIEKDAILVFPEIYGPNIHKLLPENPKVIFNQNCYYTFGYFSIYENYEVNSYNHPKTLSIIVASDDAKRYLKYTFPGSEVFKMRLGIDDQIFNYGQNKKKQICFMPRKLGDDLTQVISILKQRDTLKSWNLVAIDNKTEKEVAEIMKESAVFLSFNHKEGFGLPPAEAMACGCYVIGYSGQGGKEYLKPEFSMPVEDGNIIEFVQKIEETINIYEKSPHEILNKGKLSSHFILENYSLKNEINDTVNIWNSIMKQTQKG				NA	NA	NA	NA	NA
BMS003_01244	1389			hypothetical protein	ATGAAAAAACAAATTGTATTTTGCTTCAGCTCTCTGCTGATGCTTTTTATGAGTTCTTGTTCTACTGAAGAACTTAACAGTGAAGTAACCCCTGAAATTCCGGCGGCAAAGGCTAATAAGCGATTGGCAGCATCCAAATTTGCAGGAGATGGAATTTACGATGTCCTGGGACATGGTTATAACGTTGCCGGTGAATATGCTAATGCAACAGCAGCCGGTTTTAAAGTGATCGATATCGATCGTTTTAAAGCAGAACAGACCAACAGACTGATTAGCGAAAACACATTCTCACAGGAATACACAGAAGAATATGGTGAAAATGCTGAATCTTATTCTAGAATGGTTTCTACCAAAGTGAATGCTACTGCGGGTATTCCATTATTTAAGAAAACACTTTCTGTAGGATTTAATTCTGCCGTAACAACCAACAATAAATTTGAAGGAAAGTATATCTACGGAAGCTATAACCTTACGATTAAACAAAAAAGAGTAAGATTCAATGCCACTACTGATATGTTGGGGGATTATCTTACTCCTGAATTTGTTCAGGATTTGCAGACAAAAACTCCGCAACAGATTGTGGAAGACTATGGAACTCACGTAACACTCGATATTTATACAGGAGCAAAGCTTGATATTTTATTCCAGGCAGAAACAAGAAGCCAAAGCCGTGACCGTGCTGCAAGAATTGGGGTGAAAGTGGGAATGAAAGATATCTTTGATGTTGATGTAACCAATGATGTGAATACTTCAGAATCTTCCATGAACTATTCTAAAAAATTAGCCTATAAAACAAGAGGAGGAGATCCTTCGAAAGGTTTGGTAGGAGATCTTAATCTTGATCAGACTAATCCTAAAATCAATATTTCAAACTGGCAGAACAGCTCTAATACAGGCAACTCAGTTTTGGTAGATTTTGGAAGCAACGGATTGGTAATCATCTACGATTTAGTGAAAGATGCAGCTAAAAAAGCTCAGCTGAAAGCCTATGTAGATCAGTATCTGATAGACAATAAAGTGTATATGGAATTCAACACCATTCCGGTTTACAGATATTATAATGGGGTAGATCATTATTATACAAAAACACCGGGAAGCTACAGCGGATATTCCTTTGAAGGAATAGAGTTTAATGCATTCTTATATAAGGCTCCAAACACAGTTCCTATTTACAGATACTGGAATGGTAAAGACCATTATTATACAAAAACACCGGGATATTATCAGGGGTATGTAGATGAAGGAATTGAATTTAATGCTTTTGCTATTCAACAGCCTAATACAGTTCCTATCTACAGATATTGGAATGGTAAAGATCATTATTATTCAAGATCAAGTGTAAGACCATCAGGTTATGTGGCGGAAGGAATTGAATTCTATGCCTATTAA	MKKQIVFCFSSLLMLFMSSCSTEELNSEVTPEIPAAKANKRLAASKFAGDGIYDVLGHGYNVAGEYANATAAGFKVIDIDRFKAEQTNRLISENTFSQEYTEEYGENAESYSRMVSTKVNATAGIPLFKKTLSVGFNSAVTTNNKFEGKYIYGSYNLTIKQKRVRFNATTDMLGDYLTPEFVQDLQTKTPQQIVEDYGTHVTLDIYTGAKLDILFQAETRSQSRDRAARIGVKVGMKDIFDVDVTNDVNTSESSMNYSKKLAYKTRGGDPSKGLVGDLNLDQTNPKINISNWQNSSNTGNSVLVDFGSNGLVIIYDLVKDAAKKAQLKAYVDQYLIDNKVYMEFNTIPVYRYYNGVDHYYTKTPGSYSGYSFEGIEFNAFLYKAPNTVPIYRYWNGKDHYYTKTPGYYQGYVDEGIEFNAFAIQQPNTVPIYRYWNGKDHYYSRSSVRPSGYVAEGIEFYAY				NA	NA	NA	NA	NA
BMS003_01245	1434			hypothetical protein	ATGAAGAAACAAATTTTATTTTGCTTCAGCAGTCTGCTGATGCTTTTTATGAGTTCTTGTTCTACAGAAGAACTAAACAATGAGGCAACCCCTGAAAGCCCGGCAGGAAAGACTAATAACCGATTGGCTGCAACCAAATTTGCAGGAGATGGGATCTATGATGTCTTAGGACATGGTTATAATGCTACTGGGGAATATGCGAATGCTAGTGCTGCTGGTTTTAAAGTAGTTGATATTGAACGATTTAAATCTGAGCAAGCAGGAAGGTTATTAGCTGAAAATACTTTTTCACAGGAATATGTAGAAGATTATGGTGAAAATGCAGAATCGTATTCCAAAATGATATCCACTAAAGTAGATGTGACGGCTGGTATTCCATTATTCAAGAAAACACTTTCAGTAGGATTTAACTCTGCTGTAACCACTAATAATAAATTTGATGCTAAATACATTTATGGAAGTTATAATCTTTTAATTAAACAAAGAAGACTTAGATTCAATGCAACAAATGAAATGTTAGCAGATTATGTAACTCCTGAGTTTGCGCAGGATCTACAAACTAAAACACCACAGCAAATTGTACAAGATTACGGAACCCATGTCGCTGTAGATATTTATACTGGTGCTAAAATGGATATTATTTTCCAATCGGAAACAACTAACGAAAGTCGTGAACGAGCTGCTAGAATTGGAGTAAAATTAGAAATGAAAAATATATTTAATGTAGATGTTACAAATGATGTTAATACGTCAGAATCTAACAAAAATTTTTCTAAAAAGTTATCGTACAGAACTCGTGGAGGAGATCCTTCAAAAGGGTTAATCGGTGAATTGAACCTTGATCAATCCAATCCTAAGATTAATATTTCAACTTGGCAAAACAGTTCTACAATAAGCAATGCTGTATTAGTAGATTTTGGAAATAATGGATTAATGCGCATTTATGATTTAGTAAAAGATCCAGCCAAAAAAGCTCAACTTAAGGCTTATGTAGACCAATATTTGATTGATAATCAAGTTTCTTTGGATTTTACTAGCTCGCTACTTTATGCTTATAAGAATGAGCCAAGTAGTGATCATTATTTTACTTTTGAGACTAATTTGCAGCCATCTAGTTATTGGACAAATGAAGGGCCAACCTTTAGAGCTTTTAAGTATAAAGCTCCAAATACAGTCCCAATTTATTCTTACAAAAGTACTTCAGGTACAGAGCATTACTTTTCTCAAAATAGTTCTATGCAACCTAGCTCGTACTGGAATATATACATGGGGGTTGCATTTTATGCGTATAAAGAACCTGGAGTAGGAAGGGTTGCTGTATATAATTATAGAGGAGTAAACGGGGGACATCATTACCTTTCTACATCCCCAAACTTAGGTCCATCTAGCTATTGGATTAGAGAAAATTTAGAGTTTTATGCACCTGTAAATTAA	MKKQILFCFSSLLMLFMSSCSTEELNNEATPESPAGKTNNRLAATKFAGDGIYDVLGHGYNATGEYANASAAGFKVVDIERFKSEQAGRLLAENTFSQEYVEDYGENAESYSKMISTKVDVTAGIPLFKKTLSVGFNSAVTTNNKFDAKYIYGSYNLLIKQRRLRFNATNEMLADYVTPEFAQDLQTKTPQQIVQDYGTHVAVDIYTGAKMDIIFQSETTNESRERAARIGVKLEMKNIFNVDVTNDVNTSESNKNFSKKLSYRTRGGDPSKGLIGELNLDQSNPKINISTWQNSSTISNAVLVDFGNNGLMRIYDLVKDPAKKAQLKAYVDQYLIDNQVSLDFTSSLLYAYKNEPSSDHYFTFETNLQPSSYWTNEGPTFRAFKYKAPNTVPIYSYKSTSGTEHYFSQNSSMQPSSYWNIYMGVAFYAYKEPGVGRVAVYNYRGVNGGHHYLSTSPNLGPSSYWIRENLEFYAPVN				NA	NA	NA	NA	NA
BMS003_01246	1653	gltX	COG0008	Glutamate--tRNA ligase	ATGATCCTAAAGTATAATGCAAAGCAGATTAAAATGGTATTTGAAGAAACAAATAGAAAAGTTAGACTCAAAAAACCAATACCTGGCCAGAAATCATCTCTTAAACGCATAATTTTAAGTAAATTTGCAAAAATTAAAATTGAAATGGAGAAAGTAAGAGTACGTTTTGCTCCAAGTCCTACAGGACCTTTACATTTGGGAGGCGTAAGAACCGCATTATATGATTATCTTTTTGCTAAAAACCAGGGAGGAGAGTTTGTATTGAGAATTGAAGATACAGATACTGCCAGATACGTGGAAGGCGCTGAAGAATATATTGAAGAAGCTTTGGAATGGTGCGGAATCATCCCTGATGAAAGTCCTAAAAAAGGAGGAAAATTTGCTCCTTACAGACAGTCTGAAAGAAGAGATATCTACGACAGATATACAGAACAGATCCTAAAGACAGATTATGCTTATATCGCTTTTGATACTGCAGAAGAGCTGGATACAATCCGTGCAGAGTACGAAGCGAAAGGTGATGTTTTTTCTTATGATAACAAAACCAGAAACCGTTTAAGAAACAGCCTTGCCCTTTCTGAAGAGGAAGTTCAAAAATTACTGAATGAAAAGACACCTTATGTAGTAAGATTCAAAATGCCTGTTGACAGAGTATTGAATCTTGAAGATATTATCCGTGGAAAATTTTCAGTCAATACCAATACTTTAGATGATAAAGTTCTGGTAAAGAATGACGGAATGCCAACCTATCATTTTGCCAATATCATTGATGACCATGAAATGGAAATCTCTCATGTAATCCGTGGAGAAGAATGGCTGCCGTCTTTAGGACTTCACACCTTATTATACGAAGCAATGCAGTGGGAAGCACCACAGTTTGCACACCTTTCTTTAATTCTAAAACCTGAAGGAAAAGGAAAGCTAAGCAAAAGAGATGGAGATAAGTTTGGATTCCCTGTATTCCCGCTTGATTTTAAAGATCCAGCAACTGGAGTAATTTCTAAAGGATATAGAGAAAACGGGTATCTTCCTGATGCTTTCATCAATATGGTAGCATTATTGGGATGGTCTCCCGCTGATGATAAAGAGATTCTTCCTCTGGAAGAGATGATCAAAGAATTTGATCTTCATAAAGTACACAAAGCGGGTGCAAGATTCAGTAAAGAAAAATCTGAGTGGTTCAACCATCAGTATATCCAGATGAAATCTGATGAAGAACTCCTTCATATCCTTAAGAATACGGATATTGATCTTTCCGGCGCTTCTGATGAAAAACTGATAAAAGTAATTCATCTGATGAAAGAAAGAGCAACATTCCCGAAAGACATCTATGAGAACGGAAAATTTTTCTTCGAAACTCCTGTTTCCTATGATGAAAAAGCATCAAAAAAAGCATGGAATGAAGAAACTTCTGCAGTTTTAGGAGAATTAGCTACCGAATTCGAAGCTGTGGAATTTATTGCTGAAACATTAAAGCAAAAAATGCACGATTTTGCTGAAAGTAAAGGATTAGGTATGGGTAAAGTAATGATGCCTTTACGCTTATCTTTAGTAGGAGAACTGAAGGGACCAGATGTTCCGGACATTCTGGAAATCCTTGGTAAAGAGGAAAGTATCGCCAGAATAAAGAATGCTATAAATAATTTTAACTAA	MILKYNAKQIKMVFEETNRKVRLKKPIPGQKSSLKRIILSKFAKIKIEMEKVRVRFAPSPTGPLHLGGVRTALYDYLFAKNQGGEFVLRIEDTDTARYVEGAEEYIEEALEWCGIIPDESPKKGGKFAPYRQSERRDIYDRYTEQILKTDYAYIAFDTAEELDTIRAEYEAKGDVFSYDNKTRNRLRNSLALSEEEVQKLLNEKTPYVVRFKMPVDRVLNLEDIIRGKFSVNTNTLDDKVLVKNDGMPTYHFANIIDDHEMEISHVIRGEEWLPSLGLHTLLYEAMQWEAPQFAHLSLILKPEGKGKLSKRDGDKFGFPVFPLDFKDPATGVISKGYRENGYLPDAFINMVALLGWSPADDKEILPLEEMIKEFDLHKVHKAGARFSKEKSEWFNHQYIQMKSDEELLHILKNTDIDLSGASDEKLIKVIHLMKERATFPKDIYENGKFFFETPVSYDEKASKKAWNEETSAVLGELATEFEAVEFIAETLKQKMHDFAESKGLGMGKVMMPLRLSLVGELKGPDVPDILEILGKEESIARIKNAINNFN	PGPT0008460_1645	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
BMS003_01247	957	accA	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGGAATATTTAAGTTTCGAACTTCCTATCAAAGAATTGATGGATCAATACCAGACGTGTTCTTTAGTAGGAGAAGAAAGTGGTGTTGATGTAAAATTAGCATGCAGCCAGATTGAGGATAAGATTTTAGAAAAGAAAAAAGAAATCTATGGAAATCTTACACCTTGGCAAAGAGTACAACTGTCCCGTCATCCGGATCGTCCTTATACATTGGACTACATTAACGGAATGGCAGACAAAGGCAGTTTCTTAGAACTTCATGGAGACAGAAATTTCGCTGATGATCCGGCAATGATTGGAGGATTGATTACCCTTGATGGTCAGAAAGTAATGATCATAGGGACTCAAAAAGGAAGAACGACTAAAGAAAGACAGCACAGAAGATTTGGAATGCCAAATCCGGAAGGATACAGAAAAGCTTTAAGACTCATGAAGCTTGCTGAAAAATTCAATATCCCTGTGGTAACTTTAGTAGATACACCGGGAGCTTACCCAGGATTGGAAGCTGAAGAAAGAGGACAAGGTGAAGCTATTGCAAGAAATATTTTTGAAATGGTTCAACTGAAAACTCCAATCTTCACTTACATCATCGGAGAAGGAGCCAGTGGCGGAGCACTAGGAATAGGTGTTGGAAATAAAGTATATATGTTGGAAAACACTTGGTATACAGTAATTGCTCCGGAAAGCTGTTCTTCTATCTTATGGAGAAACTGGGATCACAAAGAAGATGCTGCCAATGCATTAAATCTTACTCCCGCAGATGCCTTAAGAGAAAAATTCATTGACGGAATCATTGAGGAACCACTTGGAGGGGCACATTATGATCAGGAGGCCACTTATCTGAACCTGAAAAATTCAATTTTACAAAATATCAAAGCTTTTTCCAAATTTACAGGACAGGAGCTTGAAACCCAAAGACAGGACAAATTCATTGCAATGGGTCAGTTTAAAGGATAA	MEYLSFELPIKELMDQYQTCSLVGEESGVDVKLACSQIEDKILEKKKEIYGNLTPWQRVQLSRHPDRPYTLDYINGMADKGSFLELHGDRNFADDPAMIGGLITLDGQKVMIIGTQKGRTTKERQHRRFGMPNPEGYRKALRLMKLAEKFNIPVVTLVDTPGAYPGLEAEERGQGEAIARNIFEMVQLKTPIFTYIIGEGASGGALGIGVGNKVYMLENTWYTVIAPESCSSILWRNWDHKEDAANALNLTPADALREKFIDGIIEEPLGGAHYDQEATYLNLKNSILQNIKAFSKFTGQELETQRQDKFIAMGQFKG	PGPT0001695_2023	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
BMS003_01248	771			hypothetical protein	ATGAAAAAAATCTTATTCCTTCTGTTTATATGCATATTCTCTCTTGGATTTTCTCAAAAAAAGAAAAGAACAAAATCTAAAGCTGTTGTTGAAAAGGAAACGGTAATCATCTATACAGAACAGGAAGCTGAAGTTTCGAAAGAAGCGCGAGTGATTGCCGGCTTTCTGAAACAGAATCCCGGACATGCCAGAACTGATTATTTTAAAAGGAAGCTGATTGATATTATCATGGCTGATAATTCTCCCGAAGCAAAACCTACCATTAAGCCAATCGGTAAAGAAAAAATTGAAAACATTGTTAAAAGTAATGAACTTAACAGTGGTAAAACGATGGCCTCAAATAAAACATATACGGCTAATGGTAAGCCTGTTTCCAGTAGCACAGCTGCAGCTATTGAAGCATTAAAAGAGGAAAGAAGAACTTCTTATGCTTCTGTGAATTCAGCAGGTACTGCAAAAAGAGCGGGTACATCCAAATCTGAACCAAGTGAGGAAAATAAAAAAACAGCAGCCATGCTTACCCATCTTTTTAATAATGATATCAATAAGAATGAAGCATATGTGAATATTAAAAACAGGTCTGCCTGTAATCTTATTGTAAAGATAAGCGGCAAAAAATATTATAATCTAACGGTTCCTGCAAAAGGGGAGAATTTTATTCTGGTTGATAAGGGGGAGTATGTAATGACTACTTCAGTATGTGATGCCAAGTATTCTGCCTTGAAGAAAATTACTCAGGATATTGAAATTGCGCTGAATGTGGCAGAATAG	MKKILFLLFICIFSLGFSQKKKRTKSKAVVEKETVIIYTEQEAEVSKEARVIAGFLKQNPGHARTDYFKRKLIDIIMADNSPEAKPTIKPIGKEKIENIVKSNELNSGKTMASNKTYTANGKPVSSSTAAAIEALKEERRTSYASVNSAGTAKRAGTSKSEPSEENKKTAAMLTHLFNNDINKNEAYVNIKNRSACNLIVKISGKKYYNLTVPAKGENFILVDKGEYVMTTSVCDAKYSALKKITQDIEIALNVAE				NA	NA	NA	NA	NA
BMS003_01249	825	tsf		Elongation factor Ts	ATGTCTTATACACCAGTTGCTGCAGACGTAGCTAAATTAAGAAACCAAACAGGTGCAGGTATGATGGACTGCAAAAAAGCTCTAGTTGAAGCTGAAGGAGACTTCGAAAAAGCGGTAGATATCCTTAGAAAAAAAGGACAGAAAGTTGCTGCTAACAGAGCTGACAGAGAGTCTACTGAAGGTGCAGTAATCGCAAGAGTAAACGAAGACAACACTTTAGGTGCTGTAATCTCTTTAAATTGTGAAACTGACTTTGTTGCTAAAAATGAAGCATTCGTTGAGCTAGCTTACGAATTAGCTGAAATGGCAATCTTCGCGGCTACTAAAGAAGAGCTTTTAGCTACAGACTTCCACGGAATTACTGTTGCTGAGAAATTAGTAGAGCAAACAGGAGTTATCGGTGAGAAAATTGAAATCGGATCTTTCGAAAGAATCCAGGGAGATTTCTTAGGTGCTTACATCCACGCTGGAAACAAAATTGCTGCAATCACTTCTCTTTCTGCTAAAGTAGACGGAGCTGAAGAAGCTGCTAAAGCTGTTTCTATGCAGGTAGCTGCTATGAACCCAATCGCTCTTGACGAGACTGCTGTTTCTCAGGAAACTATCGACAGAGAGTTAGAAATTGAAAGACACAAACTTACTGAAGAAGGTAAGCCTGCAAACATTATCGATAATATCCTTAAAGGTAAAATGCAGAGATTCTACAAAGACAACACTTTGGTACACCAAGATTTCATCAAGGACGGAAGTATCTCAGTTGCTGACTATGTAAAATCTGTAAATGCAGACCTAAAAGTAACAGGATTTGTAAGAGTAAGCCTATAA	MSYTPVAADVAKLRNQTGAGMMDCKKALVEAEGDFEKAVDILRKKGQKVAANRADRESTEGAVIARVNEDNTLGAVISLNCETDFVAKNEAFVELAYELAEMAIFAATKEELLATDFHGITVAEKLVEQTGVIGEKIEIGSFERIQGDFLGAYIHAGNKIAAITSLSAKVDGAEEAAKAVSMQVAAMNPIALDETAVSQETIDRELEIERHKLTEEGKPANIIDNILKGKMQRFYKDNTLVHQDFIKDGSISVADYVKSVNADLKVTGFVRVSL				NA	NA	NA	NA	NA
BMS003_01250	2826			hypothetical protein	ATGAAAAGATTTCTACTCAGTTTGGTATTAATTTTTCTGACAATTAATACACTCTTTGCACAAAGGGATACCGAGCATTGGATTGCTCCTTATTATGACAGTGTTGGGGGGTATACCAATATGTTATACCTTTCTACTGATTCACTTACTCCCATTGATGTAACCATTTATAACAATAATGCTGTAGTGAGTACAGTGACCATCAGTAAAGGAAGCCCGCAAACCTACAAGGTTACTAACAGCCTTATTTCTACAGGTACCACTACTGAAGCGTTCAATGTCGGTAATAAAGGGCTGTATTTAAAAGCAGCCAAACCTTTTTACTGTAGTTTAAGACTTGCCCAAAGTGTTCACGGGGAAGTAATTACCAGTAAAGGAAAGGCTGGAATTGGAAAAACATTTTTCGTAGCTACCGCTCCCAATACGAATACAAGCAGTATTCAAAACTTTACAGCAGGTGTTTTGGCTACAGAAGACAATACAAACGTTACTGTAACATGGAACCCTACTGCCGGAGTAGTTTTCATTAACGGAAGCCCTACCGGAAATACCCAAACATTTACGTTACAGAAAGGGCAATCTTTCATTCTTGCCGGATCAGGATCTCAGTCTGGAAACAAAACTGGCTTTATCGGCGCCAAAATAGTCGCTGATAAGCCAATAACACTTACTAACGGAAGCTGTAATGCCAACTTCTCTGCTTCAACATCGGGAAGTGACCCGGTGCTGGATCAGTCTGTGCCGGTTGACAGGCTTGGAAATACTTTTGCAATGGTAAAAACAAGATCTACCAGCCCCAGCTTAAACATGGAAGGAGGTCTTATCGTTGCCACTGAAGATAATACTGATGTATATTTAAATGGCGGAGGGACTTCTGTTGCAACTCTTGATGCCGGAGAATGGTACAGAATTAATGAAACCAGCTATGTGGCACAAGGGACTTCAGGACATTCAAACATGTTCATTTCCACCACCAAAAATGTATATTTATATCAATTTATCGGAATATTATCAAGTGACGCTACCAATGGATTCAACTATATCCCGCCATTGAACTGTTTCCTTCCAAGAAAAATTGATGAAATCGGGAAGATTAATGAAATGCCTCTTGGATCAGGAGGTGCCAGCACAACACCAAGTGACCTGGTGATCAAATTAAATATTTTGACAGAAACAGGAGCAACAGTATTATTAAACGGCATGCCTATTCCGGCAACAGACGGGCCTTATCCCGTAACAGGAAATACAAACTGGGTAACATATGGAATAACAGGAGTAACAGGAAATATCAATATTACTTCTACAAAAGCTGTAACAGCAGGTATCAACGGAGGATATAGCTCTGCAGGATACGGAGGTTATTTCGCAGGATTCTCATCCATCCCTGTCATTGCTAAAAAAACAGGTGAATGCGTACCGGGCATTGTCCTTGAGCTAGATGACGGATATGAAACCTATCAGTGGTACCGTGACGGTGTAGCGATTTCTGGGGCAACTTCTTATACTTATACTCCTACACAATCAGGAAATTATACGGTAAAAGTAACAATGGGAACATGCCCTCCTGTTACAACCCCTGTCTATAAAGTACAAACCTGTTTAAAAGAAACAACACAGGCTCTTAACGCTTGTTCTACTAAAATTATTACCCCTACATTTACTTCTTCCACTCAAACTGTGGTTCCAAGTACAGTAGTAATTTTAACTCCTCCCACACAAGGAACTGCAGTAGTGAATCCAAACGGAACCATCACTTACACGCCAAATCCCGGATATTTAGGACCAGACAAAATTGTTTATAAATTCTGTGGAAACTCAGTAGAGTTTACAGATTGTGAGCAGGTGACATTAAACCTTACTGTAGTACCATTCACTGTAACGGATACCTCTATTAGTGCATGTTGGTATGATGTAGATCCTTATGCTTACTTTGACCTTACAAAAGCTAAAGTAACAGACTATAACGCAGCTATAAAAAAATATTACCGTACTCTGAATGACCTTACAGCAGGCATCAACGAAATTACAACACCAGACAACTTCCCTTCAACAGGAGGGTTTGTATATGTGAAAGTAACAACTGCCGAAGGATGTACAGCCAATGCAAAAATTGAATTAATTGTACTTCCGATCAAAAAATCTCCAATCCTTGTAGACCAATACATCTGTATGGATGCAAAAACTAACCTGGATGCAGGTTCCGGATATGATTCGTACCAATGGAGCACAGGTGCTACCACCTCAGGTATCAGAGATGTAGGCGTAGGAGAATACACTGTAGTACTTGGTAAAGACGGATGCTTCCTTGCTCAGACAGTAAAAGTGAAAAAAGTGGAAGATCCGGTAATTCAAACCATTGAGATCAACAACAATACAGCAACGGTAATTGTAAGCGGCGGCAAAGCTCCTTATCTATATGCAGTTGACGGAACTGCCAACTGGCAGGAGTCAAATACCTTTACAGGTTTAAGCAGAGGACAGCATACTTTCTATGTAAAAGATTTTTATAACTGTACCCCGTCTTCTGTAGAAATTACGATACCTAATCTATTAAATGCCATTACCCCTAATGGAGATAATGTAAATGATTATATTGATTACAGCGAGCTTGCTTACAAAGAAAATCTAAGTTTTGTAGTATATGACAGATATGGAAATATGGTATTTACCGGAAATAAATTCAACAACTACAGATGGGACGGAAAACACTTTGATAAGAAACTGGGAACAGGAACTTACTGGTATCATATCACATGGAATGAATCCAACAAAGAAAAGACTCCAATAAAATACACAGGTTGGATTCTTGTTAAAAACAGAGAGTAA	MKRFLLSLVLIFLTINTLFAQRDTEHWIAPYYDSVGGYTNMLYLSTDSLTPIDVTIYNNNAVVSTVTISKGSPQTYKVTNSLISTGTTTEAFNVGNKGLYLKAAKPFYCSLRLAQSVHGEVITSKGKAGIGKTFFVATAPNTNTSSIQNFTAGVLATEDNTNVTVTWNPTAGVVFINGSPTGNTQTFTLQKGQSFILAGSGSQSGNKTGFIGAKIVADKPITLTNGSCNANFSASTSGSDPVLDQSVPVDRLGNTFAMVKTRSTSPSLNMEGGLIVATEDNTDVYLNGGGTSVATLDAGEWYRINETSYVAQGTSGHSNMFISTTKNVYLYQFIGILSSDATNGFNYIPPLNCFLPRKIDEIGKINEMPLGSGGASTTPSDLVIKLNILTETGATVLLNGMPIPATDGPYPVTGNTNWVTYGITGVTGNINITSTKAVTAGINGGYSSAGYGGYFAGFSSIPVIAKKTGECVPGIVLELDDGYETYQWYRDGVAISGATSYTYTPTQSGNYTVKVTMGTCPPVTTPVYKVQTCLKETTQALNACSTKIITPTFTSSTQTVVPSTVVILTPPTQGTAVVNPNGTITYTPNPGYLGPDKIVYKFCGNSVEFTDCEQVTLNLTVVPFTVTDTSISACWYDVDPYAYFDLTKAKVTDYNAAIKKYYRTLNDLTAGINEITTPDNFPSTGGFVYVKVTTAEGCTANAKIELIVLPIKKSPILVDQYICMDAKTNLDAGSGYDSYQWSTGATTSGIRDVGVGEYTVVLGKDGCFLAQTVKVKKVEDPVIQTIEINNNTATVIVSGGKAPYLYAVDGTANWQESNTFTGLSRGQHTFYVKDFYNCTPSSVEITIPNLLNAITPNGDNVNDYIDYSELAYKENLSFVVYDRYGNMVFTGNKFNNYRWDGKHFDKKLGTGTYWYHITWNESNKEKTPIKYTGWILVKNRE				NA	NA	NA	NA	NA
BMS003_01251	3399			hypothetical protein	ATGAAGAAAATTCTATCTTTTTTATTTATATTTTATATTTTCTCCTCTACCCTCGCCCAATTGGATCGTGAGCATTGGTTTGCTCCGATGGTAGACAGGACGGGAGCACCTAATCCTTATCAGAAATTATATTTATCTACCAGCAGAACAACTCCTTTTCCGGTAAATATTTATAATAATAATGTCCTGATCGGAACAGTGAATATCAGTAAAAACAATCCTCAGAAATTTGATGTTCTAAGAAATTATATCATCACCACACAGCAAACAGATCTTTTTACCCCTACAACCAAAGGTTTATATCTTAAGGCAGAATTTCCTTTTTATGCCAATCTGAGATTCTCGGTATTCAACCATGCAGAAATTATTACCTCCAAAGGAATCTCCTCCACAGGAAATACGTTCTACGCTGCTTCTGCTCCTATTACGGTAAGCAATAATATTCTGGACTTTATGACCAGCGTACTGGCTACTGAGGACAACACCACCGTTACCATCTCCGGCTACAGCCCTACCGTTCAGTTTTCTAACGGAATGACAGGTGCTACCAACCCGACAATGACCTTTACTCTAAATAAAGGACAGTCTTACATCATTGATGGAATTGGAAACATCACAGGAAATTTTGACGGATTCATCGGATCAAAAATTGTCGCCAATAAACCCGTCAATGTTACTAATGGAAACTTCAACGGGCAATATGCCGGAAACTTCCCTTCCAGTTCAGATATTCTGATGGATCAGGCAGTGCCGGTTAACAGGCTTGGGAATGAATTTGCTCTGGTAAAAGGTAACGGACCTATCGGCTCCAATATGGAAGGTGCCGTAGTTATTGCCACCGAAGACAATACTCAAATTTTTGTCAATAATGAAATTCCTCCTATAGCAACCATCAATACAGGAAAATATTATGTTATTCCTGATTCAAAATATATCCTTCAGGGAAACGGACACTATAATTTATACGTAAAAACATCAAAGAACGCCTATGTCTATCAGATTTTAGCCGGAGATTCCAACTCTGGAAACGAAACAGCTACCGGAGGGTTTAACTTTATTCCTGCCCTGAACTGTTACCTTCCAAAGCAGATCAATGAGCTGGGACTGATTAATGAAAACTTTGTTCATTCCAATGGTAATGCCGGAGGAGTTCTGAATATCCCAACAAAATTGAATCTTATTACAGAAAGAGGTGCTAACGTTACTGTAAACGGTGCAACTCCTCTTGCGATAACCGGTCCTTACAATATGACTGGAACCAACAATTGGGTTACCTATGGAATACCCAATGTAACGGGAACCATCACCGTTGTTTCGGATAAAGCTATTATGGCAGGGATTACCGCAGGAAGTGATGCTGTAGGATATGGAGGTTTCTTTGCCGGCTTTCCTACACAGCCTGTTATTTTACAATCAGGAACGGGCTGTATTCCGGGGATTGTTCTTACAGTAGACCCTCTTATCTACGATACCTATCAATGGTATAGAAACGGTTCCATTGTCCCCGGAGCTACAACATCCACTATTACACCTACATTACCGGGATATTATACCTGTTCTGTTACAATGGGAAGCTGCGCTCCTTTAGTCACCGAACAAATTAAAGTACTGAACTGTACAAAACTAAGCACTAAAACCTATGATGTCTGTACTTCGCAGATCATAACTCCTGTATTGAGCAGTTCTGCACAAACTACAGCTCCCAATACGGTAGCCATTACAACAGCCCCTACACTTGGGACGGCAACAGTAAACACAGCAACAGGAGAGATTACTTATACTGTAAATACTCCCGGCACATCAGGAACAGATACATTCACCTATACATTTTGCGGTAATGATCCGGACTTCCCGGATTGTGAAACAGTAACGGTTACCATTAATATCCTCGCTCTTACCGTAACCAATACAACAATATCTGCCTGTGATATCAATGGACAGGGAACATTCAATTTAACGGCGGCTAACGTAACGAATAATTCCCCGGTTACTATTACTTATTACCCAACCCTTCTGGATGCGCAGAATGAGAACGCAACTGCACTGATTACGAACACAACAGCTTATAATGCTTCAAATGGGACTATTGTATACGCCGTTGTAAAAAACAATCTCGGCTGTAAAAGTATTGCACAGATAACACTATCTCTTTTTAATAAGGCAATTGTTCTGGATAACTACAACGGTGTTTTCTGTGATGATAATCTGGATGGAACAGTTACGGTTATTCTTTCCAATATCACTCCTATTGTATTGAATAACCCGAACTATTTTACCAATGTAAGATATTACGCAAACCTGACAGATGCCAATGCGGGAAACAATAATACGCTTCCTAATAACTGGAGCTACACTGCTACAACTACTATTTACATCAGAGTAGGCTCTCCCGATGGATGTGCCAGTGTGATTAAGCCTTTACAGTTCAGCATAGGAGCTAAAGTAACACTGATTACCCCAACCGTTACGGAAAATGTTTGTGATGATGATCTGGATGGAACCAAAAGTGTCAACCTGGCTCAGTTCATCCCTCAGTTTACACTGGATCCTAATGTGACATACACTTTTCATGCAACGTTAACAGACGCCCAGAACAACGTAAACATGGTTTCATTACCTGTTAATATTACAGCTTCCCAGACTTATTATATTCGTTTTGAAAAAAATGGAGTATGTCCGGAAGTAGGCACCCTTAAAATCACCATTAAAATTCCAAAAAAATCTGATATCCTGACAGACAAGGCTATCTGCCCGAACACCACCACCACATTAGACGCAGGCCCCGGATTTGAAAGGTATTTATGGAGTACGGGAGCTACAACCCCTTCCATCACCAATGTTGCACCGGGAAGTTATTGGGTAGAACTTACCTTTAATGGCTGTGTTTATAAACAGTATGTGAACGTTACAGAACTCCCGATTCCTATGATTACTTCTATAGAAATAGACGGAACTACGATAAAAGTTGGTGTAAGCGGTGGCACACCTCCTTATGAATATTCTTTAGATGGGATAATATGGCAGAGTTCCAATGTATTCACCAACGTACCAAGAGGTGCTCACAATGTATTTGTAAGAGACTCTAAAATGTGTGAAGAAGTGAAAAAGTCTTTTGCCATTATCAATCTGATCAATACCATTACCCCGAACGGAGATGGTTACAACGAAGGAATAGATTATTCTGCATTAATGGCCAATGACAATCTTGTATTCAGGATCTTTGACAGATATGGTGCGGAAGTATTCAGAGGAACTCCGGAAAACAGGTATACCTGGGACGGAAGAGTAGGTGGAAGATATGTTCCTACAGCCACCTATTGGTATTTCATTACCTGGACCGAATATGATTCTGCACTTACTATAAAGTATTCAAGCTGGCTTCTTGTAAAACATAGATAA	MKKILSFLFIFYIFSSTLAQLDREHWFAPMVDRTGAPNPYQKLYLSTSRTTPFPVNIYNNNVLIGTVNISKNNPQKFDVLRNYIITTQQTDLFTPTTKGLYLKAEFPFYANLRFSVFNHAEIITSKGISSTGNTFYAASAPITVSNNILDFMTSVLATEDNTTVTISGYSPTVQFSNGMTGATNPTMTFTLNKGQSYIIDGIGNITGNFDGFIGSKIVANKPVNVTNGNFNGQYAGNFPSSSDILMDQAVPVNRLGNEFALVKGNGPIGSNMEGAVVIATEDNTQIFVNNEIPPIATINTGKYYVIPDSKYILQGNGHYNLYVKTSKNAYVYQILAGDSNSGNETATGGFNFIPALNCYLPKQINELGLINENFVHSNGNAGGVLNIPTKLNLITERGANVTVNGATPLAITGPYNMTGTNNWVTYGIPNVTGTITVVSDKAIMAGITAGSDAVGYGGFFAGFPTQPVILQSGTGCIPGIVLTVDPLIYDTYQWYRNGSIVPGATTSTITPTLPGYYTCSVTMGSCAPLVTEQIKVLNCTKLSTKTYDVCTSQIITPVLSSSAQTTAPNTVAITTAPTLGTATVNTATGEITYTVNTPGTSGTDTFTYTFCGNDPDFPDCETVTVTINILALTVTNTTISACDINGQGTFNLTAANVTNNSPVTITYYPTLLDAQNENATALITNTTAYNASNGTIVYAVVKNNLGCKSIAQITLSLFNKAIVLDNYNGVFCDDNLDGTVTVILSNITPIVLNNPNYFTNVRYYANLTDANAGNNNTLPNNWSYTATTTIYIRVGSPDGCASVIKPLQFSIGAKVTLITPTVTENVCDDDLDGTKSVNLAQFIPQFTLDPNVTYTFHATLTDAQNNVNMVSLPVNITASQTYYIRFEKNGVCPEVGTLKITIKIPKKSDILTDKAICPNTTTTLDAGPGFERYLWSTGATTPSITNVAPGSYWVELTFNGCVYKQYVNVTELPIPMITSIEIDGTTIKVGVSGGTPPYEYSLDGIIWQSSNVFTNVPRGAHNVFVRDSKMCEEVKKSFAIINLINTITPNGDGYNEGIDYSALMANDNLVFRIFDRYGAEVFRGTPENRYTWDGRVGGRYVPTATYWYFITWTEYDSALTIKYSSWLLVKHR	PGPT0022155_3392	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
BMS003_01252	795			hypothetical protein	ATGAAGAAACTGTTTACCTTGCTGCTATTGGTTTTTTTATCAAAAATTAATGCACAAATATATTCCGGAGAGGTATTTCTGAGAGACAACTCTATTTTATACCTCAATCAGGTGTATGTTACGAACCTGAATACTCAAAAAACCGTTCTTACGGACTATAACGGTAATTTTAATATCCCGGCCAGCTCCGGTGATGTGATCCGCTTTACGTCTATTGTTACTGAGCGAAAAGATATCAAACTGACACCTCAGTCTATGCAGCAAAAAAATCTGGTTGAGCTTAAGATTGCTTATTATGAAATTCAGGAAATTGTACTGAGCAGATTCAAGCCTACCGGAAACCTTCGGTATGATGTAAATTCCTTAAGAAAAGAAGATAAAGCCTATGCACTTAAGAAAGTAATTGGTCTTCCTGAACCTAAAGGTGACGGAACACCACCTGAGCTTCCTGTTGCAGGATTACGGGATGGCGGGCTTACCTTCAGCCTTGAAAGCATTTATGATATTCTTTCCGGCGAGAGAAAGAAAAAACAGCGTTATCAGGCTTATGAAAGGATGAACAGTTCTGTTGCCCAGATCAAGAATTATTTAGGAAAAGATTATTTCACAAGGTTTAAAATTCCTGAAAATTTAATTGATAACTTCCTTCAGTTTGTTTATACTTCGGAAAACATTCAGGCATATGTACTGGCCGGAAATTTCGAAGCGGTAAAAATTCCTATTGAAAAATATCTGCCTATTTATCAGAAAAGACTGAGAAGCTCTCACCTTCAGGAGGTGGTAGGCAATGACTAG	MKKLFTLLLLVFLSKINAQIYSGEVFLRDNSILYLNQVYVTNLNTQKTVLTDYNGNFNIPASSGDVIRFTSIVTERKDIKLTPQSMQQKNLVELKIAYYEIQEIVLSRFKPTGNLRYDVNSLRKEDKAYALKKVIGLPEPKGDGTPPELPVAGLRDGGLTFSLESIYDILSGERKKKQRYQAYERMNSSVAQIKNYLGKDYFTRFKIPENLIDNFLQFVYTSENIQAYVLAGNFEAVKIPIEKYLPIYQKRLRSSHLQEVVGND				NA	NA	NA	NA	NA
BMS003_01253	135			hypothetical protein	ATGGATTTTTTTGTTCCTAATACCAGCAGACCCACTTTTAAAGATACATCGAATACAAATTATTCAATTTTTACAGCATATTCTTCTTTGGTATTCAAAAATATGTTTAATTTTACCTCACAAACAAGTGTTTAA	MDFFVPNTSRPTFKDTSNTNYSIFTAYSSLVFKNMFNFTSQTSV				NA	NA	NA	NA	NA
BMS003_01254	765			hypothetical protein	ATGAAAAAAGTACTTTTACTTCTTTGTTGTATGTTTTCCTTTACGATGTCTGCCCAAAAGAGAGGAAAAGACTACAGTAATATTTTGAAAAGTAAAAATATCTACGAAATTAATGCATTTTTAAGAGATGCTCATCCCGATGATCCTAAAAGATCTGTTCTGAAACCAAGGGTCATGGAAATGATGAAAGAATACATCAAAAATGCACATCCCGCAGATCAGAAAGTAAAAGATATGCAGGAAATGCTGGCTATGCTGAAAAGAAGACCTTCCACAAAGATTACTTTTGATGAAATGAATGCCATCATCAAGCAGAAACAGATTGCAAAATATAAGGCTGAACTGGCAGCAAAACAATCTACTACAGTATATACCCCCAGTACTGCTCAAAATACATATGTTGTAAACGCCGATGCAAATACTGCAGTTCCCAATTCAGAAGCGGAAGAATTTAATATGCTGATGGCTGTCTCTCCGGTAGAACATAAAAACAGAACGGTAAAAATCCTTAACTCGTTATTTGACAATGACCCTAATGCTAAGGAAGCTATTATATTGATTCAAAATAAATCAGACTGTAACATTATTGTAAGAATGGAAGGTGTAGGCACTACTAAATACAGACTGGCGGTACCTGCTCATGGTGATGGTTCAATTGTTATAGAAAAAGGTCAGTATCTCTTCACCAGCCTTGTTTGCGGAGCTCAGTATGCTTCACAAAAAACAATTGAAAGAGCCATTATGGTGGCTTTAGGAGGACAATAA	MKKVLLLLCCMFSFTMSAQKRGKDYSNILKSKNIYEINAFLRDAHPDDPKRSVLKPRVMEMMKEYIKNAHPADQKVKDMQEMLAMLKRRPSTKITFDEMNAIIKQKQIAKYKAELAAKQSTTVYTPSTAQNTYVVNADANTAVPNSEAEEFNMLMAVSPVEHKNRTVKILNSLFDNDPNAKEAIILIQNKSDCNIIVRMEGVGTTKYRLAVPAHGDGSIVIEKGQYLFTSLVCGAQYASQKTIERAIMVALGGQ				NA	NA	NA	NA	NA
BMS003_01255	678	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGGGCAAGAATAAATTAGCAAGATTTGCAGAAAACAAAATATTACCAAATGTAATCCAGCCAACAAGAGAAGATGCTTTAAAAGGTTTTGATCTTAAAGGAAAATGGAGAGAAAATTTCTTTAAAAATGACAATCCGATTGTATTGGAATTGGGCTGTGGTAAAGGAGAATATTCTGTAGGACTCGCCAAAACATTCCCTGAAAAAAACTTTATCGGAGTTGATATTAAAGGGGCAAGATTTTGGTTTGGCGCTAAGGAAGCTGTAGACAACAACATGACGAATGTGGCTTTTTTAAGAACACAAATAGAACTTGTAGATTATTTCTTTGCAGAAAATGAGGTAGACGAAATATGGATTACATTCCCGGATCCACAAATAAAATACAAAAGAACAAAACACAGATTAACACATCCGGACTTTTTAGACCGTTATAAAAAATTCCTGAAGCCAGGAGGCATTATTCACCTGAAAACCGATTCAGAATTTCTGCATGGGTATACCCTTGGATATCTACAAGGGGCAGGCTATGAGATTATTTCTGCTCATCATGACATTTATGGAGCTCCAGAATACGACCCTGATACAGAGCATTTGAGAGACATCAAAACGTATTATGAAGAGCTGTTCTCGGCGAAAGGAAAAACAATTACCTATATTAAATTCCGGATAAGCTGA	MGKNKLARFAENKILPNVIQPTREDALKGFDLKGKWRENFFKNDNPIVLELGCGKGEYSVGLAKTFPEKNFIGVDIKGARFWFGAKEAVDNNMTNVAFLRTQIELVDYFFAENEVDEIWITFPDPQIKYKRTKHRLTHPDFLDRYKKFLKPGGIIHLKTDSEFLHGYTLGYLQGAGYEIISAHHDIYGAPEYDPDTEHLRDIKTYYEELFSAKGKTITYIKFRIS				NA	NA	NA	NA	NA
BMS003_01256	702			hypothetical protein	ATGAAAAAAAATTTCTTAACGATTTTATTCTTCACATTTCTTATTCCCAACTTTATACAGGCTCAAAAAAGCAGTAAAGACATCCTAAAAAGCACAAACATTAAAGAAATTGAAGAGTACCTGAAGAACGCACATCCTGACGATCCTAAAAAGAGTGTGCTGAAACCTAAACTCATTGCTTTAAAAAACGTTAAATGGACCAAAGGAGCCCGCACAGCCAAACCTATGGAAACAAGGCCTGTTATTGAGGATATTCCGAAAAGAGCCATGAAAAATCCTAATTCGGACGATGCCGAGGAGTTTAAAAAGCTTATTACTGAAACTTCTGCTGAACATAAGGAAAAAACAGTGAAGGTTTTGAACGCTATGTTCAATGAGGATATCAGCCGTAATGAGGCCATTCTCTTATTCAAAAATAATTCTGACTGCAATATTGTATTGCGGATTGAAGGAAAAGAGTTTTACAATCTTGCTGTTCCTGCTCATGCAGAAAACTTTATTGTACTTAAAAAGGATTCATATACCCTGAACAGTAATATCTGTGACATGAAATATTACTCACAGAAAGATATTAAAAAAAGTATATTTGTAACGATAGAGAACCCGAATCAATCCGCCGGAACGGAAATACAATCCGCCCAAAAAGATCCGATACCGGAAAAGTCTCCGAAAAAGCAGAAATCAAAAAGTAAAATAGGATGA	MKKNFLTILFFTFLIPNFIQAQKSSKDILKSTNIKEIEEYLKNAHPDDPKKSVLKPKLIALKNVKWTKGARTAKPMETRPVIEDIPKRAMKNPNSDDAEEFKKLITETSAEHKEKTVKVLNAMFNEDISRNEAILLFKNNSDCNIVLRIEGKEFYNLAVPAHAENFIVLKKDSYTLNSNICDMKYYSQKDIKKSIFVTIENPNQSAGTEIQSAQKDPIPEKSPKKQKSKSKIG				NA	NA	NA	NA	NA
BMS003_01257	441			hypothetical protein	ATGAAAAAATTATTCGTTTTTACCGGAATTTTATTGATTCTTACCAGCTGTAATGTCAACTACGGCAGCTATCCGGGAAGAACTTCCTACCCATACCCTACCAGTAATGCAGGGAACAGCGCTAATACGGAAAGAGAATATAATGAGCTCATGAAAACTTATAAACCGGAAACAGCAGATGTTCTGAATGATCTTCTTAACAGTGATGATCCAAAGAATCCCAGAACCTCAGTTTCTGTGGAAAACAAATCTCTGTGTAATATGGTACTTACGATAAGCGGAGGCAATTTTTTCAAGAAAATTCCTATTGGTGCAGGAAAAATAGGGTATACTATGGTTCCCAAAAACCAAAACTACAGATTATCCGGAGTTATTTGTAACTCAACATACCAGTCTACAAAGTTTATCACAACTTCTTATTCTATAAAACTTTCAAATTAA	MKKLFVFTGILLILTSCNVNYGSYPGRTSYPYPTSNAGNSANTEREYNELMKTYKPETADVLNDLLNSDDPKNPRTSVSVENKSLCNMVLTISGGNFFKKIPIGAGKIGYTMVPKNQNYRLSGVICNSTYQSTKFITTSYSIKLSN				NA	NA	NA	NA	NA
BMS003_01258	762	rpsB	COG0052	30S ribosomal protein S2	ATGGCAAAAGCAAATGTAAAAGACCTTTTAGAGGCTGGCGTACACTTCGGTCACATGACTAGAAAGTGGAACCCAAATATGGCTCCATACATTTTTATGGAGAAAAACGGTATTCACATTGTAGACTTACATAAAACAGCAGTTAAATTAGATGAAGCTTGCAGCGCTTTAGAAAAATTAACTTCTGCAGGTAAAAAAGTTCTTTTCGTAGCGACTAAGAAGCAAGCGAAAGAAGTGGTTGCAAAACACGCTTCTGAACTTAACATGCCTTATATTACAGAAAGATGGCCTGGTGGTATGCTAACGAACTTCGTTACAATCAGAAAGGCTGTAAAGAAGATGAATGCTATCGACAAAATGAAAAAAGACGGTACATTCGAAACTTTATCTAAAAAAGAAAGATTACAAGTAGACAGACAAAGAGCTAACCTTGAGAAGAACTTAGGTTCTATCGCTGACATGGTGAGACTTCCATCTGCAGTATTTGTAGTTGATATTTTAAGAGAGCACATCGCGGTAACTGAAGCTAAGAAACTTGGTATTCCAGTTTTCGGTATCGTTGATACAAACTCTGACCCTAGAAAAGTTGACTTCGTTATCCCTGGAAACGATGATGCTTCTAAGTCTATTGATATGATCCTTAGCGTAGTTTCTGAATCTATCAAAGAAGGTCAGTCTCAAAGAAAAGCTGATAAAGAAAAATCTAAAGAAGAAGGAGAAAAAGTATCTGCTGATACAGATGCAGATTTCGATGCAGAATAA	MAKANVKDLLEAGVHFGHMTRKWNPNMAPYIFMEKNGIHIVDLHKTAVKLDEACSALEKLTSAGKKVLFVATKKQAKEVVAKHASELNMPYITERWPGGMLTNFVTIRKAVKKMNAIDKMKKDGTFETLSKKERLQVDRQRANLEKNLGSIADMVRLPSAVFVVDILREHIAVTEAKKLGIPVFGIVDTNSDPRKVDFVIPGNDDASKSIDMILSVVSESIKEGQSQRKADKEKSKEEGEKVSADTDADFDAE				NA	NA	NA	NA	NA
BMS003_01259	387	rpsI		30S ribosomal protein S9	ATGTCTATAGTTCACAAAATCGGAAGAAGAAAGACTTCTGTAGCTAGAGTTTATGTAAAACCAGGTTCTGGTGTTATTACAGTAAACGGTAAAGATGCTAAAGAATATTTCTCTACAGACGTGATGGTTTACAAATTGAACCAACCGTTTATCCTTTCTGAGACTGTTGGTCAGTATGACGTTACCGTAAATGTATTCGGTGGTGGTAATACAGGTCAGGCAGAAGCTATCAGATTAGGTATTTCAAGAGCTTTATGCGAAATCAACGCTGAGTTCAGATTAGCATTGAAACCAGCTGGTTTACTTACAAGAGACGCAAGAATGGTGGAAAGAAAGAAGCCAGGTCAGAAAAAAGCAAGAAAGAGATTCCAATTCTCAAAACGTTAA	MSIVHKIGRRKTSVARVYVKPGSGVITVNGKDAKEYFSTDVMVYKLNQPFILSETVGQYDVTVNVFGGGNTGQAEAIRLGISRALCEINAEFRLALKPAGLLTRDARMVERKKPGQKKARKRFQFSKR				NA	NA	NA	NA	NA
BMS003_01260	456	rplM		50S ribosomal protein L13	GTGAATACATTAAGTTACAAAACTGTTTCAGCGAACAAAGCTACTGCTAATAAAGAATGGGTTGTGGTAGACGCTGAAGGACAGCCGTTAGGTAGATTAGCTTCTACGGTTGCAAAGATTTTGAGAGGTAAGCACAAAACGAACTACACACCTCACGTAGATTGTGGTGATAACGTAATCGTTTTGAATGCTGGGAAAATTACACTTTCCGGAAACAAGTGGGCTGATAAGACTTATATCTGGCATACAGGATATCCTGGTGGACAGAAGTCTATGACTGCGGCTGAACTTCAAAAGAAAGATTCTTTAAAGGTATTAGAGAAATCTGTAAAAGGTATGTTGCCTAAAAACAGATTAGGATCTGCTATCCTTAAGAACCTTTATTTATATGAAGGAACTGAGCACAAACATGAAGCTCAACAGCCAAAAACAATTAATGTTAACGAATTTAAATAA	MNTLSYKTVSANKATANKEWVVVDAEGQPLGRLASTVAKILRGKHKTNYTPHVDCGDNVIVLNAGKITLSGNKWADKTYIWHTGYPGGQKSMTAAELQKKDSLKVLEKSVKGMLPKNRLGSAILKNLYLYEGTEHKHEAQQPKTINVNEFK				NA	NA	NA	NA	NA
BMS003_01261	1095			hypothetical protein	ATGAGCCACGGAAAACTAAGAGAAGACAAAACCTGCCTGAACTGCGGACACCAGGTTGAAGAAAAGTTCTGCCCACACTGCGGACAGGAAAATATCGAAAGCAGACAGCCTTTTCATTTTCTGTTTACGCATTTCATTGAGGACTTCACCCATTATGACGGACAATTCTGGAGAACTATACAGTATTTATTTGCACGCCCCGGATTACTGACCAAAGAATATCTGGCGGGTAAAAGACAAATATATGTGGCTCCTGTAAAGCTGTATATATTTATAAGTTTTCTTACATTTTTTCTTCCCAATATATTACCTCATGCTAAAGAGGATGCAGAAAAACCAAGCCATGCTAAAACGGAAGCAAAAGCAAAAAAACAAAAAGAAGTTTCCAAAAACCTGGTCAAAGATTTACAGAAAGAAGGTATATTAACTCCTGAAGCGGCCACTGCAGCCCAAAAGACACTGGATACTTTAAAAACAAAAGAGGATCAGGAAAAAAATGAGATCTTTGACAGTACTTTTGATACTGAGGAAGCATCCATTATGCGCGCCTATACAATGAAACAGTATGATTCTATTCTGGCTAAAGATGATACCGGGATCTATGCTTTAATGAGACCCGTTGCAGGAAAAATTTTTGAGTTAAAAGAAGATGGATACAGCAAACATCAGATTTGGGAAAAATATAAAGAAAATTTCATCCATACCATTCCTAAAGCACTGTTTGTCTATCTGCCAATATTTGCATTCTTTTTATGGCTGTTCCACAATAAGAAAAAATGGTGGTATTTTGATCATGGTATATTTACCCTTCATTATTTCTCATTTTTATTATTAGCGGCACTCATATTTATAATAGGAGAAAAGATTACAAGCTTTTTACCGGACAATAATTTACTTACGCTGTTATACACCTTAGCCTGTTCAGGACTTACCCTTTATATGATAGTCTATTTTTTTGTTGCCCATCACAGGGTATACGAAACCAAAAAAAGAATAAGTATACTGAAAGGATTCCTGTTATTTATTGTCAACTATATCGGATTGATGCTGATGTTTCTGGCGCTTATGTATCTAAGCTTTGTTATGCTTCATTAG	MSHGKLREDKTCLNCGHQVEEKFCPHCGQENIESRQPFHFLFTHFIEDFTHYDGQFWRTIQYLFARPGLLTKEYLAGKRQIYVAPVKLYIFISFLTFFLPNILPHAKEDAEKPSHAKTEAKAKKQKEVSKNLVKDLQKEGILTPEAATAAQKTLDTLKTKEDQEKNEIFDSTFDTEEASIMRAYTMKQYDSILAKDDTGIYALMRPVAGKIFELKEDGYSKHQIWEKYKENFIHTIPKALFVYLPIFAFFLWLFHNKKKWWYFDHGIFTLHYFSFLLLAALIFIIGEKITSFLPDNNLLTLLYTLACSGLTLYMIVYFFVAHHRVYETKKRISILKGFLLFIVNYIGLMLMFLALMYLSFVMLH				NA	NA	NA	NA	NA
BMS003_01262	333			hypothetical protein	ATGCAAAAAGCTTTGATATATTTCGCTTTGGGAACTGTAGTAAGCTTCCTGATCAATTATTTCTTTTTAAGTTCACAAAACATCGGACTGGATATTTATTATGCCTTTGCCTTCGGTTCTGCCTGGGGAATCGCTTATTATCTGGATACGCCTGATTTTACACTGCCTAAAAAATTAGGACTTTCATTTGTTGCTATGGGAATTCTGGTGCTTATCGGAACATTAATATTTAATCTTGAACTGGCTATTCCGTCTATCCTGAAATTTTCAACAGTTTTTGTTGCCTATTATTTATTTGCAAGCTTTAGAGGGAATAAATCCCTTAGGAACTAG	MQKALIYFALGTVVSFLINYFFLSSQNIGLDIYYAFAFGSAWGIAYYLDTPDFTLPKKLGLSFVAMGILVLIGTLIFNLELAIPSILKFSTVFVAYYLFASFRGNKSLRN	PGPT0029230_1072	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
BMS003_01263	399			hypothetical protein	ATGAAAAAAATTTCACAAAAAACAGTAAAAATAGCGGACTTTCATGAAAACAATGTTGAAGTGAATGTAATAATTAACGCAAACACCCAATTTGGAGATCCCCATTTCATCATCAACGGAATGCGGATAGATGACAATAATTTAAATGATGATAAATTTTCTTTTACAATTCCGAAAGCAGATTTAACGTCCAGTAATTTACTTTTTGCAACCTCTTTTAACATTAATATGCAGGTGAATCATCTGCAGATTTTAATCAATACCTGCAGAATAAAGTTTGAATTCCCTCAAATCCCTAATAAGAGTTTTCATTTTAACCCTTTCGAAGGTAAAACAACCGAAGATTTAGCGGGTAAGTTTATCTATGGTGTTTATAAATTCATAAAAGTTGAGCTATGA	MKKISQKTVKIADFHENNVEVNVIINANTQFGDPHFIINGMRIDDNNLNDDKFSFTIPKADLTSSNLLFATSFNINMQVNHLQILINTCRIKFEFPQIPNKSFHFNPFEGKTTEDLAGKFIYGVYKFIKVEL				NA	NA	NA	NA	NA
BMS003_01264	1239			hypothetical protein	ATGAAAAAGACATTAACACTTACAGCTCTGATAGCTGTAACCACGTTGCTATTTTCTCAAAACAAAGAAATTAGTGCAGATTTGAACAAACTGGAACTTTCCAACGCTCCAAGTGTAATGCTTCTCGGTTTGGCAAGTTCGGATTTGGAAACTCCAAAATCGAAAAAGGCTTTCATGACCAGTATTGTTAATTCATTCAGCGAAAGCGACGGCCTTCCTAATGCCTATGCGGTAGAACTTACTCCCACTCATTTATTTCCTTTAACAGAAATGGATGCCTTGAAATATGCCGGCATTAAAACCATCAAAAATGCAGACAGCAAAGATGTGTATAAGAATAATATTTTCAGTGAAGCCAAAAATATTTCTGTCTCATTAGCATTTCTCAGAAATTACAAAATTGAAGATCTTGACACAGAAAATCCTTCAGTATCTTTTTCTTTGCGAACCACTGTATTTAAAGTAAGAAATAAAAAAAATATAGAGGCTATTGCCGCTTCAAACAATAATATTTCAAAGGAATTAACGGATATTCAAAGTGAGTTTGAACAATCACAACAATTCAAAGATATTATCATGTCCAATGCCAGCTCAAGCGAAAAAGAAGAAAAGCTGGCAAAAGCGCAGGATGAGTTTGTCACAGATTACTACAAGACCGAAACTGAAAAATATAAAAAATATCTTGACGAAAAACCTGCTTTTCAATTGGACGTAGCTTCGGCATACAGTACTTTCTTTTTGGATAATCAGTTCAAGAATAATCAATTCGGGAAGTTGGGATTCTGGATGACCATGAGTTCCGGGATCAATCTGGAAAGAAATCCAAAGAAAAGTGAAGAACAAAATATGGAAAAGTCAAAAGTAACTGTCAAAGAAACCCCTACAGACCCTTCAAAGGTTGAAAAAAGATTGAATTTCTATGCCGTTGCAAGATATATGCAGGACAAAACAGTTTATGATGTTGCCAGCGGATTCAGCAAAACCAACAATTATGATTTTGGTGGAAAAATAGAGCTTGTTTACAATAGATTCTCCATAGGATATGAATTCATTTACAGAAGCAGTGATCTGGACAACACCTACCGCTCCAACGGGATCATCAACTATAAGGTATCTGACAGCGTGTACATTAATGCCGCTTTTGGAAAAAATTACGGTGATAAGGATAATCTCATTTCATTCCTAGGACTGAACTGGGGATTAGACAGCAAAAGAAAAACACTTTTTTCAGAAAAATAG	MKKTLTLTALIAVTTLLFSQNKEISADLNKLELSNAPSVMLLGLASSDLETPKSKKAFMTSIVNSFSESDGLPNAYAVELTPTHLFPLTEMDALKYAGIKTIKNADSKDVYKNNIFSEAKNISVSLAFLRNYKIEDLDTENPSVSFSLRTTVFKVRNKKNIEAIAASNNNISKELTDIQSEFEQSQQFKDIIMSNASSSEKEEKLAKAQDEFVTDYYKTETEKYKKYLDEKPAFQLDVASAYSTFFLDNQFKNNQFGKLGFWMTMSSGINLERNPKKSEEQNMEKSKVTVKETPTDPSKVEKRLNFYAVARYMQDKTVYDVASGFSKTNNYDFGGKIELVYNRFSIGYEFIYRSSDLDNTYRSNGIINYKVSDSVYINAAFGKNYGDKDNLISFLGLNWGLDSKRKTLFSEK				NA	NA	NA	NA	NA
BMS003_01265	3348	icmF	COG1703	Fused isobutyryl-CoA mutase	ATGGAAACCCAAAAATATACTCCAACCAACAAGGTAAGAATCGTAACTGCTGCCTCATTATTTGATGGGCATGATGCTGCGATCAATATTATGCGTCGTGTTATTCAGGGAACAGGATGCGAAGTAATCCACTTAGGACACGATAAATCAGCAGAGGAAGTTGTAAACACAGCCATCCAGGAAGATGCCAATGCCATCGCATTAACTTCATATCAGGGAGGTCACAACGAATATTTCAAATATATTTATGACCTTTTGAGAGAGAAAAATTCACCACAGATCAAAATTTTTGGCGGCGGCGGCGGTGTAATTCTTCCCGAAGAAATCAAAGATCTGATGTCTTATGGAATCGACAGAATTTATTCTCCGGATGATGGCCGTGAACTTGGACTTCAGGGAATGATTGACGATCTGGTACACCGGTCAGATTTCGCGACCGGAAAAGATGTTACCGCAAAAGACCTTGATGATATCAGCTTTGAAAACCCGTCAAGCATTGCACAGATCATCTCAGCCGTAGAAAATTTCTCAGAAGAAAAACCTGAGCTTGTAAAAGCAATCGACGAAAAATCTAAAGATTTAACCATTCCGATTATTGGTATCACTGGTACCGGAGGTGCGGGTAAATCTTCTTTAACAGATGAATTGGTAAGACGTTTCCTACGTTCCAATACGGATAAAAAAATCGCCATTATTTCCATTGACCCTTCGAAAAAGAAAACCGGAGGAGCTTTACTGGGAGACAGAATCCGTATGAACGCGATCAATGATCCAAGAGTTTATATGCGTTCCATGGCTACCAGAGAAAACAACGTTTCTGTTTCACCATTTATTCATTCTGCACTGAATGTGCTGAAACTGGCTCATCCGGATGTAATCATTCTTGAGACTTCAGGGATCGGACAATCTGGCTCAGAAGTTTCTGATTTTGCAGATGTTTCCATGTATGTAATGACTCCTGAATATGGGGCTTCTACACAGCTGGAAAAAATTGACATGTTAGACTACGCTGATTTGGTAGCATTGAATAAATCTGATAAACGCGGAGCACTGGATGCTCTTCAGGCTGTAAGAAAACAGTTCCAGAGAAATCACCTTTTGTGGGAAAACCAGCTGGAAGACATGCCTGTATATGCTACAAAAGCATCTCAGTTTAATGATCACGGAACTACAGAACTATACAACAGATTAGTTTCAAAAGTAAACGAAAAATTTGCAGATTTAAAGCTTAACGCATTTGTAGAACAGGAAATTACAGACGAGGTAACCATCATTCCTCCGAAGAGAGTTCGCTATCTTTCAGAAATTGTTGAAAACAACAAGCAATACGACACCAATATTGAAAAACAGGCAGAATTAGCCAGAACAATGTATCATATTGAAGGTGTAAAAAATATCATTTCCAATGAAGTTCTGGATGTTGAATATCAAAAAGCGGAAAAAGAACTTCAACAGGATAATATCGACTTCTTAAAAACATGGGACGATACGAAAAAAGCTTTCCATGCAGAGTTTTATTCTTATTTCGTAAGAGGAAAAGAGATCAAGGTGGAAACTTCTACCGAGTCTTTATCTCACTTAAGAATTCCAAAAATTGCTTTACCAAAATACAATGACTGGGGTGACCTGATTAAATGGAAAGGCCAGGAAAACCTTCCGGGAAGCTTCCCTTATACTGCAGGTATTTATCCGTTCAAAAGAACCGGAGAAGATCCAACAAGGATGTTTGCAGGAGAAGGAGGTCCTGAAAGAACCAACAGAAGATTCCATTATGTTTCTGCAGAAATGCCTGCGAAACGTTTATCTACAGCATTTGACTCCGTAACATTATACGGCCAGGATCCAGCTTTACCACCAGACATTTATGGTAAAATCGGGAATGCGGGAGTTTCTATTGCAACACTGGATGATGCTAAGAAACTATATTCCGGATTTGATCTGGTAAATGCATTAACTTCAGTTTCAATGACCATCAACGGACCTGCACCAATGCTGCTGGCTTTCTTTATGAATGCTGCCATTGATCAGAATGTTGAAAAATATATCAAAGAAAATGGCTTAGAGGCTAAAGTAGAGGCTAAACTTAAGGAGAAATTTGATGATAAAGGATTAGAAAGACCAAAATACAACGGTGAACTTCCACCATCCAATAACGGTTTAGGGCTACAGCTTTTAGGGTTAACAGGTGATGAAGTAATTCCTGCGGAAGTATATGCGGAAATCAAAGCTAAAACAATCGCTACGGTTCGTGGTACTGTTCAGGCTGACATCTTAAAAGAAGACCAGGCTCAGAATACATGTATCTTCTCTACAGAATTTGCATTGAGACTAATGGGTGACGTTCAGGAATATTTCATCAGAGAAAAAGTAAGAAACTTCTACTCTGTTTCTATTTCAGGATACCATATTGCCGAAGCAGGAGCAAATCCGGTTTCCCAATTGGCATTCACACTGGCTAATGGGTTCACTTATGTAGAATACTATTTAAGCCGTGGAATGAACATCAATGATTTCGCACCGAACTTATCGTTCTTCTTCTCCAATGGAATAGATCCGGAATATTCAGTAATCGGACGTGTGGCAAGAAGAATCTGGGCAAAAGCCATGAAATTAAAATACGGAGCAGACGAAAGAAGCCAGATGCTGAAATACCACATCCAGACTTCAGGACGTTCTCTTCACGCTCAGGAAATTGATTTCAACGATATCAGAACGACTCTTCAGGCGCTTTATGCGATCTATGACAACTGTAATTCACTTCACACCAATGCATATGACGAGGCGATCACCACTCCTACTGAGCAGTCTGTAAGAAGAGCAATGGCAATCCAGTTGATCATCAACAAAGAATTAGGATTGGCTAAAAACGAGAATCCGCTTCAGGGATCATTCATCATTGAAGAATTAACGGATCTTGTAGAAGAAGCTGTATACACAGAATTTGACAGAATTACAGAAAGAGGCGGTGTTCTTGGGGCAATGGAAACCATGTACCAGCGTTCAAAAATCCAGGAAGAGTCTATGCATTACGAATGGCTGAAACATACCGGTGAATATCCCATCATCGGGGTGAATACTTTCTTAGGAAAAGATGGTTCACCAACTGTTTTACCAGGTGAAGTTATCCGTTCTACAGAAGAGGAAAAGCAGGCACAGATAGAGTCTCTTCATAACTTCCAACAGGCCAATAACACTAAATCTGAAGAAGCCTTGAAACAACTTCAGCATGCAGCCATCAACCAGCAAAACTTATTTGAAGTAATGATGGATGCTGTGAAATACTGTTCTTTAGGACAGATTACCAATGCTTTATTTGAAGTGGGTGGTAAGTACAGAAGGAATATGTAA	METQKYTPTNKVRIVTAASLFDGHDAAINIMRRVIQGTGCEVIHLGHDKSAEEVVNTAIQEDANAIALTSYQGGHNEYFKYIYDLLREKNSPQIKIFGGGGGVILPEEIKDLMSYGIDRIYSPDDGRELGLQGMIDDLVHRSDFATGKDVTAKDLDDISFENPSSIAQIISAVENFSEEKPELVKAIDEKSKDLTIPIIGITGTGGAGKSSLTDELVRRFLRSNTDKKIAIISIDPSKKKTGGALLGDRIRMNAINDPRVYMRSMATRENNVSVSPFIHSALNVLKLAHPDVIILETSGIGQSGSEVSDFADVSMYVMTPEYGASTQLEKIDMLDYADLVALNKSDKRGALDALQAVRKQFQRNHLLWENQLEDMPVYATKASQFNDHGTTELYNRLVSKVNEKFADLKLNAFVEQEITDEVTIIPPKRVRYLSEIVENNKQYDTNIEKQAELARTMYHIEGVKNIISNEVLDVEYQKAEKELQQDNIDFLKTWDDTKKAFHAEFYSYFVRGKEIKVETSTESLSHLRIPKIALPKYNDWGDLIKWKGQENLPGSFPYTAGIYPFKRTGEDPTRMFAGEGGPERTNRRFHYVSAEMPAKRLSTAFDSVTLYGQDPALPPDIYGKIGNAGVSIATLDDAKKLYSGFDLVNALTSVSMTINGPAPMLLAFFMNAAIDQNVEKYIKENGLEAKVEAKLKEKFDDKGLERPKYNGELPPSNNGLGLQLLGLTGDEVIPAEVYAEIKAKTIATVRGTVQADILKEDQAQNTCIFSTEFALRLMGDVQEYFIREKVRNFYSVSISGYHIAEAGANPVSQLAFTLANGFTYVEYYLSRGMNINDFAPNLSFFFSNGIDPEYSVIGRVARRIWAKAMKLKYGADERSQMLKYHIQTSGRSLHAQEIDFNDIRTTLQALYAIYDNCNSLHTNAYDEAITTPTEQSVRRAMAIQLIINKELGLAKNENPLQGSFIIEELTDLVEEAVYTEFDRITERGGVLGAMETMYQRSKIQEESMHYEWLKHTGEYPIIGVNTFLGKDGSPTVLPGEVIRSTEEEKQAQIESLHNFQQANNTKSEEALKQLQHAAINQQNLFEVMMDAVKYCSLGQITNALFEVGGKYRRNM				NA	NA	NA	NA	NA
BMS003_01266	201			hypothetical protein	ATGGGAACATTTATTAAAATTATTTCGGTGCTTACTTTTTTTGGGATGTTAAGTTCCTGCAAAACCTCTTCTATGGAAACTTCTTACAAAAGCGATATGGCTAAAAATAATGAAGAATTACAAAAAAGAGAACAGGCGGAAAGACAAAAAATTGACATTACCAACCCCCAAAATAACTACGGAAAGCCAGCATCACAATAA	MGTFIKIISVLTFFGMLSSCKTSSMETSYKSDMAKNNEELQKREQAERQKIDITNPQNNYGKPASQ				NA	NA	NA	NA	NA
BMS003_01267	705			hypothetical protein	ATGAAACCAAAAGCTTTATTCAACTGGAGCAGCGGAAAAGATTCTGCTCTTGCCCTTTATAAAATACTACAGGAAGGCCAGTACGAGGTCAGCACTCTGCTTACCAGCATCAATCAGGAATTCCAAAGAATTTCCATGCATGGTGTCCCTATTTCTCTTTTAGAAAAACAAGCGGAGAGCCTCGGAATTCCTTTAATTAAGATGGAACTTCCCAAAGAGCCGTCTATGGAAGAATACCAGCAAATCATGGGCAAAACAATGTCTGAGATTAAGTCTCAGGGCATTACTCATTCCATTTTTGGCGATATTTTTCTGGAAGACCTGAGAAAATACAGAGAAAATCAGTTAAATGCTATTGGTATGACGGCAGTATTTCCCCTCTGGAAACAAGACACCTCCAACCTCATCCATGAGTTTTTAGAACTCGGCTTCAAAACCATTGTGACATGCGTTAACGGATCTTACCTTGATAAAAGCTTTGCCGGGCGGGTTATTGATCAGCAATTCATTGATGATCTTCCTGAAAATGTAGATCCATGTGGAGAAAACGGAGAGTTTCATACCTTTACTTTTGACGGACCTATTTTCAAAAAACCCATTCAGTTTGAAATTGGAGAGACGGTAAAGAAAACTTATCCTAAACCAAAGACGTCACCTGAAGAAGAAGATGGAGAATATATTTTCTGGTTCAGTGATCTGGTATAA	MKPKALFNWSSGKDSALALYKILQEGQYEVSTLLTSINQEFQRISMHGVPISLLEKQAESLGIPLIKMELPKEPSMEEYQQIMGKTMSEIKSQGITHSIFGDIFLEDLRKYRENQLNAIGMTAVFPLWKQDTSNLIHEFLELGFKTIVTCVNGSYLDKSFAGRVIDQQFIDDLPENVDPCGENGEFHTFTFDGPIFKKPIQFEIGETVKKTYPKPKTSPEEEDGEYIFWFSDLV				NA	NA	NA	NA	NA
BMS003_01268	1110	flp_2		Protein flp	GTGATCAAAAATTTATTATTCCTAACCCTTTTTCCTTTTTTATTTTCCTGTACCACCGAAACCCCTAAAATTGCCCCTGTTGACAAAAAAGCAATTGTGGATTCTACCATTGCGGCCTTTCAGAAAACACTTTTAGAACAACAGATTGATTCTACTTTCAAGAAATATCATTTCAATGGAAGCATTGCTGTTTTCAAAGATACCCTTCCACTTTACAGAAGAGAAAATGGTTATTCGGATTTTAAAAGAAAAACTAAGATCGACAGTAATACTATTTTTGCGATAGGTTCTGTAAGTAAGCAGTTCACCGCTGTTTTGATCCTTCTTCAAATGGAACAGGGAAAACTTAATGTGACTGATAAGGCTTCAAAATACCTGAAAGAATTTCAGACCAAAGAATATGAAAACATTACCATTCACCAGCTGTTAAACCATACTTCCGGGTTGAACCTGATGGGCGGAAAGCTTATGTTTAAAAGCGGTTCCAACTTTTTTTACTCCAATGATGGATTTAATACTCTTGGAAAGATTGTGGAAAAAGTATCCGGAAAATCATATGATGAGAATGTACTGGAACTTTTCAAAAAAGCAGGAATGAAGCACTCTTCAACAGGAGATATTTTTGAAGGAAATAACTTTGCCAGTGCTTACCTTGGAACACCCGGCAAGTTCCAGGAAGTTCCCAATATGCCGAAAAGATTAGGTGGCCGGGAAATAGGAATCCCGGCTGGTGGAATATTATCTACTATTCAGGATCTTCACTTATGGAATAACGCTTTGTACAGTGGAAAAATTTTAAAACCTGAGACTCTGAAACTATTTATGGCAAAAAGTTCAGAAAGACATCATGCTATCTTTGGAAAGATGGGATACGCCTATGGAATCATGCTTAATATCGGACAGCCCAATTCTTATTTTCACAGTGGTTATATAAAAGGTTCTCCCTCATTAAACATCTATTATCCGGACACCAAAACCTCCGTAATCATTCTTTCTAATATTGCAGATGAGGAAAAAGGAAAAGGAGTGATCTTCCGGCCTCATATTGAAGTAAAAAAGATTACAGATAATCTTGAAAATACACTTACACAGCTTAGATCAAAAAATTAA	MIKNLLFLTLFPFLFSCTTETPKIAPVDKKAIVDSTIAAFQKTLLEQQIDSTFKKYHFNGSIAVFKDTLPLYRRENGYSDFKRKTKIDSNTIFAIGSVSKQFTAVLILLQMEQGKLNVTDKASKYLKEFQTKEYENITIHQLLNHTSGLNLMGGKLMFKSGSNFFYSNDGFNTLGKIVEKVSGKSYDENVLELFKKAGMKHSSTGDIFEGNNFASAYLGTPGKFQEVPNMPKRLGGREIGIPAGGILSTIQDLHLWNNALYSGKILKPETLKLFMAKSSERHHAIFGKMGYAYGIMLNIGQPNSYFHSGYIKGSPSLNIYYPDTKTSVIILSNIADEEKGKGVIFRPHIEVKKITDNLENTLTQLRSKN				NA	NA	NA	NA	NA
BMS003_01269	720			hypothetical protein	ATGATGACTGAAATACAAGAAAATAGAATTACGGATTATCTGATATCTCAGGAGCTTTCATTAGATATTCTGGTAGAAATCAGAGATCATATGATCAGCCAGATTTCGGATATTCAATTCAATGAAAATATTGGTTTTGAGGAAGCTTTCTCAAAAGTGAAAGAATCCTGGGGTGGAGAGTTTAAAATGGTCAATTACCTGTTATTTTATCCGGCTAAAATTCCCTTGATTGCCAAGAGAATTATTCAGGAGAAATACAGTGGACTTTTCAAAAAATCTTTGATGGTAGGTGTTCTGGCTTTTGCTGTTAATCTAGTGCTGGTTTTTATGTCAGGAAATCAGGAACAGTATGATCTGTTTTTTAAACTGCAGAATGGCTCATTTGTATCAGCAACGATAGTGGTCTGGATTTTAAATTATAAAATCTGGAAATATATCAAAGCTGACTTTAAATACAAAGGGAAATCTCTTTATACGATGTATCAGCAGAATCTGGGATTAATGGTTGTTTGTGCCAGTTCCATGACACAGGTGGCAATAAGGAGCGGACACTATGCTTACCGGTTTTTCAGGGAACAGGATTATACTGATGTTACAGGGGCTCTCATGACTTTACTTATTCCTTTTGTATTACAGGTAGCACTTGTTTTTGCGTTATTCAATTTTATTGAGCATAAAAAGAACTTAGTGAAAATGCAGGAATTCCTGAAGTCGGCTTAA	MMTEIQENRITDYLISQELSLDILVEIRDHMISQISDIQFNENIGFEEAFSKVKESWGGEFKMVNYLLFYPAKIPLIAKRIIQEKYSGLFKKSLMVGVLAFAVNLVLVFMSGNQEQYDLFFKLQNGSFVSATIVVWILNYKIWKYIKADFKYKGKSLYTMYQQNLGLMVVCASSMTQVAIRSGHYAYRFFREQDYTDVTGALMTLLIPFVLQVALVFALFNFIEHKKNLVKMQEFLKSA				NA	NA	NA	NA	NA
BMS003_01270	357			hypothetical protein	ATGCATAAGTTTGCAATATATACAAACCATTCTATGAAAAAGAATAGTCTTTATAAAGGTACCCTGCAGAATATTATTTTGAAACTCCTTTCAAGAGAGGTTAAAATGTATGGATATCAGATTACCCAAAGAGCCAAAGAACTTACTCAGGGTGAGTTAGAAATGACGGAAGGCGCGCTTTATCCATTACTCCACAAACTGGAAAGTGATGGGATGATCATTTCCGAAATTCAAAAGGTCAATGGTAGAGACAGAAAATACTATCTGCTCACTGAGAAAGGGAAAAACCAACAGACAGAGCAGGAAAATGAGATGAAAAGTTATTTATTCAACTTACAGGCAATATTCAATATATGA	MHKFAIYTNHSMKKNSLYKGTLQNIILKLLSREVKMYGYQITQRAKELTQGELEMTEGALYPLLHKLESDGMIISEIQKVNGRDRKYYLLTEKGKNQQTEQENEMKSYLFNLQAIFNI				NA	NA	NA	NA	NA
BMS003_01271	564	thpR		RNA 2',3'-cyclic phosphodiesterase	ATGTATATAAATGTAGTGCAAAAAATTTTAATTTGCTGTATGAAAAAAATGTATTTCATAGCGATTTATCCTCCTCAGCAGATTATTGAAGAAGTGAAAGCTTTTAAAAGAGATTTAGCAGTTCATTATAGCAATTCCAAAGCGTTGAAAAATGAAGCACACATCACCCTTTTCCCTCCTTTCTCCAGAGAAATCGAACAGGAAGATGATATTCATATTGCTTTTCAGAAGATCAATACGGAAATAGACCCTTTTGAAATAGAACTGAATGGTTTTGGAAGTTTTCCCAATCCTAAAAGCCCTGTTTTATTTGTTCAGCCGGAAAACAACCCACTGTTAATAGAGCTTTATCATAATGTAAAACAGCAGTTTAATTTTGGAAAATATTCTTTTAATCCACATCTAACTGTAGGATACAGAGATTTGAGCTGGGAGAATTACCTCAAAGCCTGGGAAAAGTATAAATCTAAAGAATATAAAACTAAATTCCTAGTTGACAAAATTTTGCTTCTGCGTCATGAAGAACACTGGATTCCTATCGCAGAAAAGAAGCTTACAAAATAA	MYINVVQKILICCMKKMYFIAIYPPQQIIEEVKAFKRDLAVHYSNSKALKNEAHITLFPPFSREIEQEDDIHIAFQKINTEIDPFEIELNGFGSFPNPKSPVLFVQPENNPLLIELYHNVKQQFNFGKYSFNPHLTVGYRDLSWENYLKAWEKYKSKEYKTKFLVDKILLLRHEEHWIPIAEKKLTK				NA	NA	NA	NA	NA
BMS003_01272	1359			hypothetical protein	ATGAAAAAAGTTCTATTTTCCCTTCTGATAGGAAGCAGCTGCTTTGCACAGACATTCGAGACAGTTCCGCTTTTGCAGAACGGAGATAACAGTAAACGTGTGATTATAGCTGTATTAGGAGACGGATTTACTGCAGCACAGCAAACAGCTTTTACCACATCTGCTCAGAACACAATTAATTATCTTTTTACAAAAAGCCCCTATACTGAATATAAAAACTATTTTAATGCTTATGCTGTAAAAGTAATTTCTACAGAAACAGGAGTTAAACATCCGGGGACGGCAACAGACGTTACGGAGCCTGTGATCCCGGTTACCAACCCTAATAATTATCTTGGTTCTACTTTCGATGTGGGAGTTCACAGATGTATATACAGTAATACAACAAACAAAGTAGGGCAGGTTTTGGCAGCTAACGTCCCTGATTATGATATCACTTATGTATTAGGTAATTCTACAGAATACGGAGGTTGCGGAGGAACTTATGCCTTTGCATCATTAAATGGCTCTTCAAACGAAATTGTGGTACATGAACTGGGGCATTCCTTTGGAAAGCTGGCTGATGAATACTGGTTCTCAGGATCACTTGAGTCCCCGAATAAAACTCAGAACTCTAATCCTGCTACCATAAAGTGGAAAAACTGGGTAGGATTAAATGGAGTAGGAATATATCCTCACGCTGAAAGCCCTACATGGTTCAGACCTCACCAGAGTTGTGAAATGAGGTATCTTAACCAGCAGTTTTGCTCTGTGTGTAAAGAAGCGATTATTGAGAGAATCCACTCTTTGGTCTCTCCTGTAGATTCATATACACCGGCAAACAATACCTCAGTAGATGCTACATCCAATGTTACGTTCACTGTTAATGAAATTCTTCCTGTTCCTAATACATTGGTCAATACCTGGACTTTGAATGGGACATCACTCGGATTAACGGGAAGTTCAGTCACCATTACTCCCGGACAGCTTAATAACGGGAACAATACTCTGACCCTTTCCGTGGTAGATGATAATCCGCTTCTGAAAGTTGATAATCACAGCACACTTCATGTGACCAATATTACCTGGACACTGAGTAAATCTACTCTTAGGCTTTCAGAAGTAAAAGCAGAAGAAAGACGTTTCAGTATTTACCCGAATCCTACAGACGGTGAGTTTTTTATTAAGGTGAAACAGGGTTTTTCAAAGGATGTAAAAGTAGAAGTTTATGATGCTTCAGGAAAACTCATCCCATCCAGATTTGAATTGAACGACTCCGGAGTAAAGGTTGATATTAAAAACTATCCCGCAGGCACATATCTTTTACATGTCAAAGAAAATAAAAACCTGATTCTTTCTCAGAAAGTCATTAAAGAATAA	MKKVLFSLLIGSSCFAQTFETVPLLQNGDNSKRVIIAVLGDGFTAAQQTAFTTSAQNTINYLFTKSPYTEYKNYFNAYAVKVISTETGVKHPGTATDVTEPVIPVTNPNNYLGSTFDVGVHRCIYSNTTNKVGQVLAANVPDYDITYVLGNSTEYGGCGGTYAFASLNGSSNEIVVHELGHSFGKLADEYWFSGSLESPNKTQNSNPATIKWKNWVGLNGVGIYPHAESPTWFRPHQSCEMRYLNQQFCSVCKEAIIERIHSLVSPVDSYTPANNTSVDATSNVTFTVNEILPVPNTLVNTWTLNGTSLGLTGSSVTITPGQLNNGNNTLTLSVVDDNPLLKVDNHSTLHVTNITWTLSKSTLRLSEVKAEERRFSIYPNPTDGEFFIKVKQGFSKDVKVEVYDASGKLIPSRFELNDSGVKVDIKNYPAGTYLLHVKENKNLILSQKVIKE				NA	NA	NA	NA	NA
BMS003_01273	492			hypothetical protein	ATGAAAAATGTATTTAATGTACTCATTGTTCCCGTTTTTCTGTTTTGCAGCTTTCAGAAAGAAAATAGAGGATCTCAAATTGGGAAATTGAATTTGGAATCGCAAACAAAAAAGAGTGACAGAATTATTTATTTATTTTTTAAGGCAGATAAAGATCAGTCAGGGAATGCAACAATAACATTCCAGAGCAGTAAAATTGCCGATGGAAGATTGAAGCAGGTTTCTGTTTTTGAAAGAAATAATATTCGTAAAGGAGATCTTATCATCAGCCTTACCGGATCAGACGGAAAAGAAGTAGCTCAGCAGCTTGTGAAAGATCCTTTTAATCCTGAACTGGAAGTCTATGAAAAAGAAGGGATCACAAGGCATAAAGCGACTCTTCAAAACACAGAATTCAGCACAAGATTTTCGTACTCAGAAAAAGTTCAGATAGTAAGGGTTGAAAAAGCCACCGAAGACGGAGCACAATTATTATTCACACAAAAACTATAA	MKNVFNVLIVPVFLFCSFQKENRGSQIGKLNLESQTKKSDRIIYLFFKADKDQSGNATITFQSSKIADGRLKQVSVFERNNIRKGDLIISLTGSDGKEVAQQLVKDPFNPELEVYEKEGITRHKATLQNTEFSTRFSYSEKVQIVRVEKATEDGAQLLFTQKL				NA	NA	NA	NA	NA
BMS003_01274	555	ruvC	COG0817	Crossover junction endodeoxyribonuclease RuvC	ATGATTTCAGAGAAAATAATTTTAGGTATTGACCCGGGAACTACTGTAATGGGATTTGGTATTATCTCCGTAAAAAAAGGAAAAATGGAGATGGTCTCTATCCATGAGCTTATTTTAAAGAAGTATCCCAACCATGAAACAAAACTCAAATATATTTTTGAAAGAACATTATCACTTATTGACGAGTTTCATCCTGATGAGGTCGCTCTGGAAGCTCCATTCTATGGGAAGAACGTGCAAAGTATGCTGAAACTTGGGCGTGCACAGGGAGTTGCTATGGCAGCCAGCCTCTACCGAAATATACCTATCACCGAATATTCTCCCAAAAAAATTAAAATGGCGATTACCGGAAACGGAAATGCCAGTAAAGAACAGGTAGCCGGAATGCTCCAAAATCTGTTAAAGCTAAAGGAATTCCCTACAAAATATTTAGATGCTTCCGATGGTCTTGCGGTAGCAGTTTGTCATCATTTTAATTCCGGAACTGTTACAGATACCAAATCATACTCCGGATGGGAAAGTTTTCTGAAACAAAATCCGGATAGACTGAAGTAA	MISEKIILGIDPGTTVMGFGIISVKKGKMEMVSIHELILKKYPNHETKLKYIFERTLSLIDEFHPDEVALEAPFYGKNVQSMLKLGRAQGVAMAASLYRNIPITEYSPKKIKMAITGNGNASKEQVAGMLQNLLKLKEFPTKYLDASDGLAVAVCHHFNSGTVTDTKSYSGWESFLKQNPDRLK				NA	NA	NA	NA	NA
BMS003_01275	1071			hypothetical protein	ATGAAAACAAACCAACAAACTATAAATCAAGGGACTCATAAAATAAACTGGTTCCAAAAGTTTCTGATGATATGCTCCGGGGGGAACATTCATATTTTAAGAAAGACTCCGAGTGAATGGAACAAGTTTTCCGGAATTGGGGGGATTGTACTTTTCACTGCAGTATTTGCTACTTTGTCTGCAGGCTATGCCATGTATACCGTATTCGATAATATCTGGGCTTCTGTAGGATTTGGCATTCTATGGGGTTTAATGATCTTTAATCTTGACCGTTATATTGTTTCTTCCATCAAAAAAACAGGAACGTGGTGGAATCAGATTCTGATGGCCATTCCCCGACTTATACTTGCTACATTTCTGGGAATTATCATTTCTAAGCCATTAGAACTTAAAATTTTCGAAAAGGAAGTCAATAAGCAGCTGAATACCATTATCCAAAGGAATAAAAAACAGCTTCAGGGTGAAATGAACGGAAGAATTCTTCAGCAGAGCGGACCTTTTGAAACAGAAAAACAACAGATTTCAGGAAAAATTGCCCAGTATCAGCAGGCATACGATTCTGCTTCAGTAGAACTTGAAAAAGAAATTCTGGGAAAACAATCCGGATTAACCAGTGGAAAAGAAGGTTACGGACCTAATGCCAAACGTAAACAACAATTGAAGGAGCAGCGCAGGCAGGATCTGGAAAATTATCAGAAACAGGCAGCTCCAAGGCTTGAATATCTGGATAAAGAAATTTCAAAGGTATATACTAATCTGGAAACTGAGAGAAAATCTACGGAAACTTTTGAAGACAAGTTCAATGGATTTGCAGCAAGGCTTCAGGCATTGGATGAACTTGGAAAAAACTCTGCGATCATAGGGCTTGCAGCAACTTTCATCATGGGCTTATTCATCTGCCTTGAGATTTCTCCGGTACTTGTAAAACTTATTTCTCACATAGGACCTTATGATTATCTTTTAGAAAAAACGGAAAATGATTTCAGACTGTATTCCAAAGAGAAAATAGAAAAAGGAAATGTTCTGACTGATTTCAGAATCGATGATTTTAAGGATAATTTAAAGAATTAA	MKTNQQTINQGTHKINWFQKFLMICSGGNIHILRKTPSEWNKFSGIGGIVLFTAVFATLSAGYAMYTVFDNIWASVGFGILWGLMIFNLDRYIVSSIKKTGTWWNQILMAIPRLILATFLGIIISKPLELKIFEKEVNKQLNTIIQRNKKQLQGEMNGRILQQSGPFETEKQQISGKIAQYQQAYDSASVELEKEILGKQSGLTSGKEGYGPNAKRKQQLKEQRRQDLENYQKQAAPRLEYLDKEISKVYTNLETERKSTETFEDKFNGFAARLQALDELGKNSAIIGLAATFIMGLFICLEISPVLVKLISHIGPYDYLLEKTENDFRLYSKEKIEKGNVLTDFRIDDFKDNLKN				NA	NA	NA	NA	NA
BMS003_01276	1878			hypothetical protein	ATGAAGAAAACTATCCTTTGTGGGGCATTGTTACTATCCCTTTCATTATCTGCACAGCAAAAAAAAGAATGGTGTGACTTTGATAATGAACAGAGAGTACACCAAAAGCAGAATGCGGAAATTGATGAAATGATTCGCAATATCCGAAACAAGATTCTTAGCAGTAATCAGAATACTACAGCTAAAAATGGAAGTGCAAACCCATTTAAAATTGTAAATGGAGTTTACGAAATTCCTGTAGTAGTACACGTAATAGTGCCTACAGGTTCTGCTATCGGAACAGCTTATAATAAGACTGATGCCGATATTCAGGCATGGTTGGACCGTTGTAATCAAATGTATGCAGGTACATATCAGTGGAGCCAGGGAATTCCTGCGGATTTTGGTACTGCTGCAACAATGCCGATCAAATTAGTATTAGCCAAGAGAGACCCTAACTGTAATGCAACCACAGGGATTATCCGATATAACGGAGGAAGTCTTCCAGGATATGACGCCAATGGCGTAAACCGTTCCGGTACTGGAGGGGTTACCACTGCTCAGGTTAAAACAATTGCGCCACACTGGCCGGAAGCTTCTTATTTTAATATCTATATTATGAATAAAGTAGATGGAGGAGGACAGTATGGAATTATGGGTTGGGCAGGATTGCCTCAAAATCCGGATTCATCATATGAATCTTTTATGAAATCTTTTGTAGTTACATTACAGGATGATATTACTCTGGCTCACGAATTCGGACACAGTATGGGGCTGCTTCATACATTTGGTAATGCTAATGCCCAGCCACCACAAGGAACTACTTCTACAACTTACTGCCCTGCACAGACCTATAATGATTGTACGAAAGATGATGATCAGGTTTGTGATACAGAAAGATCAAGAAGTTTACTAAGTGACTTCCCCGCTCCTACCAATAATACTATGAACTATTGTACAGGTACAAACTATCAGGGAGTACAGTACAATATGATGAATTATACCAATCCAACCGCATTCAAGTTTACAAATGGTCAGCATGACAGAGCTGCCCTTTATTTCTTTTTAATGAAAGGGGGGTTAAGTACTTCATTGGGAGCAACTGCTCCTTCTACAGCATCTGCAATTGGAACACCTATTCCAGCTGCTTGTAATCCTAGTGGTATAACAACTCCAAGTAATTACTTTGTAGGACCTACCTTAGTGAAATTAGGAGATATTAATAATGCTTCTACAGGATACTGGCAGTCTTCAGCTAATTTTTATGAAGATTATACAGGGGCAAGCTGTCTGAGAGCTACATCTACTGAACTTTCAGCAACGGGGACTCATAACCTTCAGATAAACGTGTCTGATTCCTATAATGATGTGAGAGTATGGATTGACTATAATAATAACGGAACTTTTGAAGCCTCTGAACTTGTTGGTTCAGCTGACAATATCATTGCAGATCCTACTACAATTATCGGTACTTATAGTACTACGATTACGGCTCCAGCTTCTGTAGTCTTAAATACTCCACTGAGAATGAGAGTTCTTGTAGATGATGAGAACCCTAATATGACTCCTTGCGGACAATTAATGTATGGTCAGGTTGAAGACTATACCGTAAAATTTGTTACCAATTTGGGAACAAATGAAGTGAAGGCAGATAATGGTGATTTGATAATTTATCCTAATCCGGTTGTAACGGGGGATAATATCTTCATCAAAGCTAAAAATGGTAAAAACCTAAAAGTTTCTATTTCTGATATGTCGGGAAGATTGGTGGCAAGTCCATCTGTAACCGAAGAAGGAAACGGAATTTATAAAGTAAGCCAGCAGCTTGAGAAAGGAGTGTATATGATCCAGGTATCTAACGGAAAAGATTCTAAATCTTCTAAATTGATCGTTAAATAA	MKKTILCGALLLSLSLSAQQKKEWCDFDNEQRVHQKQNAEIDEMIRNIRNKILSSNQNTTAKNGSANPFKIVNGVYEIPVVVHVIVPTGSAIGTAYNKTDADIQAWLDRCNQMYAGTYQWSQGIPADFGTAATMPIKLVLAKRDPNCNATTGIIRYNGGSLPGYDANGVNRSGTGGVTTAQVKTIAPHWPEASYFNIYIMNKVDGGGQYGIMGWAGLPQNPDSSYESFMKSFVVTLQDDITLAHEFGHSMGLLHTFGNANAQPPQGTTSTTYCPAQTYNDCTKDDDQVCDTERSRSLLSDFPAPTNNTMNYCTGTNYQGVQYNMMNYTNPTAFKFTNGQHDRAALYFFLMKGGLSTSLGATAPSTASAIGTPIPAACNPSGITTPSNYFVGPTLVKLGDINNASTGYWQSSANFYEDYTGASCLRATSTELSATGTHNLQINVSDSYNDVRVWIDYNNNGTFEASELVGSADNIIADPTTIIGTYSTTITAPASVVLNTPLRMRVLVDDENPNMTPCGQLMYGQVEDYTVKFVTNLGTNEVKADNGDLIIYPNPVVTGDNIFIKAKNGKNLKVSISDMSGRLVASPSVTEEGNGIYKVSQQLEKGVYMIQVSNGKDSKSSKLIVK				NA	NA	NA	NA	NA
BMS003_01277	1461	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGTCTATTCATAACAAAATTGTAGAGACAGCCATCACTTTCGATGACGTTCTTCTAGTCCCTTCTTATTCAGAAGTTTTACCTAACCAGGTTTCATTAAAATCAAGACTTACCGACAAAATTACGCTGAATGTTCCGATAGTTTCCGCTGCGATGGACACTGTTACTGAAGCTGATCTGGCAATTGCTTTAGCAAGAGTCGGAGGGTTAGGATTTATCCACAAAAACATGACAATTGCTGAGCAGGCAGCTCAGGTAAACCGTGTAAAGCGTTCCGAAAACGGAATGATCTCTGATCCGGTTACACTATCCAAAGATCATACTTTAGGTGAAGCTAAAGACCTTATGTCAAGATATAAGATCTCCGGCCTTCCGGTAGTAGATGCTGATAATGTTCTTATAGGGATTATTACCAACAGAGACGTGAAATATCAGGAAAATCTTGATATGAAAGTAGAAGAGATCATGACCAAAGAAAACCTGATCACTTCAGATAAAGATACCAATCTTGAAAAAGCCAAAGAAATCCTTCTTAAGAACAGAGTTGAAAAACTTCCTATCGTAGATAAAGATAACAAGCTTGTAGGTTTAATTACCATTAAGGATATCGACAATCAGTTGGAATATCCTAATGCTAATAAAGATGGAAATGGACGCCTTATTGTAGGAGCTGGAGTAGGAGTAGGAGAAGATACACTGACAAGAATTGAGGCTTTGGTACAGGCGGGTGTTGATATTGTAGCCATTGATTCTGCCCACGGTCATTCTAAAGGAGTTTTAGATAAGATTTCCGAAATCAGAAAAGCATATCCAAACCTTGATATTGTAGGTGGAAATATTGTAACTGCGGAAGCTGCCAAAGATCTTATCGCAGCAGGAGCAAACGTATTGAAAGTAGGGGTAGGGCCAGGATCTATCTGTACAACCAGAGTAGTTGCAGGAGTAGGAGTTCCTCAGCTATCCGCAATCTATAACGTGTACGAATATGCTAAATCTCAAAATGTAGCGGTAATTGGTGATGGTGGTATCAAACTTTCAGGAGATATCGTAAAAGCGATTGCCAGTGGAGCTGGAGCAGTAATGCTGGGTTCTCTTTTAGCAGGTACAGACGAAGCGCCGGGAGAAGAAATTATTTTCCAGGGAAGAAAATTCAAATCTTACCAGGGAATGGGAAGTCTTTCAGCAATGAAGAGAGGAGGTAAAGAAAGATACTTCCAGAGTGAAGCTAAAAAATTCGTTCCGGAAGGAATTGAAGGAAGAGTTCCGCACAAAGGAAAACTGGAGGATGTTATTTTCCAGCTGACAGGAGGTCTTAGAGCTGGTATGGGATACTGTGGTGCAAAAGATATTGAATCACTTCAAAAAGATTCCAAACTGGTAATGATTACCGGTAGCGGATTGAAAGAATCTCACCCACATGATGTAATTATCACACAGGAAGCTCCAAATTATTCTTTATAA	MSIHNKIVETAITFDDVLLVPSYSEVLPNQVSLKSRLTDKITLNVPIVSAAMDTVTEADLAIALARVGGLGFIHKNMTIAEQAAQVNRVKRSENGMISDPVTLSKDHTLGEAKDLMSRYKISGLPVVDADNVLIGIITNRDVKYQENLDMKVEEIMTKENLITSDKDTNLEKAKEILLKNRVEKLPIVDKDNKLVGLITIKDIDNQLEYPNANKDGNGRLIVGAGVGVGEDTLTRIEALVQAGVDIVAIDSAHGHSKGVLDKISEIRKAYPNLDIVGGNIVTAEAAKDLIAAGANVLKVGVGPGSICTTRVVAGVGVPQLSAIYNVYEYAKSQNVAVIGDGGIKLSGDIVKAIASGAGAVMLGSLLAGTDEAPGEEIIFQGRKFKSYQGMGSLSAMKRGGKERYFQSEAKKFVPEGIEGRVPHKGKLEDVIFQLTGGLRAGMGYCGAKDIESLQKDSKLVMITGSGLKESHPHDVIITQEAPNYSL	PGPT0021445_4134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
BMS003_01278	507			hypothetical protein	ATGATGAAAACTCTTAAAAACATTTTTCTCTCCATTCTGGCAATCGGGCTCATACAATCGTGTACTGTTTCAGAAAAACCGAACATAGACTTTTTCCAGAATTCAAAATATGATTTCAGAGGAGTGCAGTTTGCAAGTATTAATGTGCCTATGGTGCTGGCTAAATCTTATATTAAGAAAGCCTTGAGAGAAGAAGGAGAAAGCGAAGAAACGATTGAGCTTGTAAAGAAGACCTCTAAAATCAAAGTGCTTACCGTAACGAACGGAAGTAAAGAAATGCTTAATGATTATGCCCAGTTTTTAAACAGGAACCATTATGAAGAATGGGCGAGTATAAAACATGATGGAGATGATATCAATATCCGCGTAAAACAGGATGGTGAGACTATCAAAAACATGCTCATTACAGTGGGTTCAAGCAAAAATGAAATGGTATTTGTAGACGTGAAAGGAAATTTTACTGCGAACGATATCTCAAAAATGATTAATTCTGTTTCAGATAAATAA	MMKTLKNIFLSILAIGLIQSCTVSEKPNIDFFQNSKYDFRGVQFASINVPMVLAKSYIKKALREEGESEETIELVKKTSKIKVLTVTNGSKEMLNDYAQFLNRNHYEEWASIKHDGDDINIRVKQDGETIKNMLITVGSSKNEMVFVDVKGNFTANDISKMINSVSDK				NA	NA	NA	NA	NA
BMS003_01279	1287			hypothetical protein	ATGAAAAAAATATTTTTTATAATAGCGCTAATGTTAAGCAGCTTTGCAACATATTCTGCACAGACTGAAAAATTGGATAAGCTTTTTCAGGATTTTGAAAAAAAAGGAAGAGTAACTTCTATTAATATCAAAAAACCGATGTTCAAGTTATTGAACACCATTGATGTTGATGATGCCTATATCGGAAAGATAAAACCTATTCTGAATGAGGTGGAGGGACTTAAAATTCTGATTATTCCAAAAATTACATTCCCGGATCGTTTAAAAAACGAGAATCTTGCGAATATAAAAATGAATGAAGAAAAAACAGAGAGAATAAATCAGGCTTTAAACGCTCTCAACTTCAATGAACTGATGTCTATGAGCAGTGACGGAACCTCCATGAAATTTCTGGCTGAAGACGAAAAGGACAACTATCTGGAAAATCTGGTTTTCAACGTAGATTCTAAAGAAGAGAATATCATTTTTATTCTTAACGGAAAAATGAAAATGTCTGATGTGAATAAGATCATTAATTCCGGGGAAACAAGTGCTTCTACTATGACCAGTACCATGAGAAGCAGCCTTACATCAGATAACACTTCTTCTTACCTGAATGGAGATAGCAGAAATGTAGGTGAGTTTTCAAAAATCGATGCCAGTGTGGGAGTAAATGTTACATTCAAACAGGAAAATACCAGAAGTGTAAAAGTAATTGCAGATGCAGATAAACTTCAATATGTTATCACGAAAGTAGAAAACGGTGTTTTAAAAATATATGTAGACAATAAAGGAGTTAGAAATCTGAGATTTAAAAATCTGAATGTTAACGTTTCTGCTCCTGGTATTAATGCTGTAAAAACATCATCAGGCAGTGTATTTACAGCAGTGAATCCTGTTACAGAAAAGAATTTGGCGATTGAGGCAGAATCTGGTTCCATTATTAAAGGAACCTTCAATGTGAATCAGGCAACAGCAGTGGCAGTAAGCTCAGGTTCTGTATTGGATGTAGATATTAAAACCCCTAAACTGACATTGGATACTTCCAGTGGTGCAAGTATTAGCTTATCCGGAGAGGCCGCTTCAGCAGTGATAGATATCAGTAGTGGAGCATCCTGTAAAGCTGATGATCTTAAGATCGGTACAGCTGTAGTGGAATCTACTTCAGGTGCAAGTCTTTCTCTGCTGGTAACAGATAAACTGAAAGTAAGTGTTTCCTCAGGAGCCTCTGTAAAACTGAGAGGAAACCCGGAGCTGGATGCTAAAGTGGATAAAATTTCGGGAGGAAGTCTCAGACAGATCAAATAA	MKKIFFIIALMLSSFATYSAQTEKLDKLFQDFEKKGRVTSINIKKPMFKLLNTIDVDDAYIGKIKPILNEVEGLKILIIPKITFPDRLKNENLANIKMNEEKTERINQALNALNFNELMSMSSDGTSMKFLAEDEKDNYLENLVFNVDSKEENIIFILNGKMKMSDVNKIINSGETSASTMTSTMRSSLTSDNTSSYLNGDSRNVGEFSKIDASVGVNVTFKQENTRSVKVIADADKLQYVITKVENGVLKIYVDNKGVRNLRFKNLNVNVSAPGINAVKTSSGSVFTAVNPVTEKNLAIEAESGSIIKGTFNVNQATAVAVSSGSVLDVDIKTPKLTLDTSSGASISLSGEAASAVIDISSGASCKADDLKIGTAVVESTSGASLSLLVTDKLKVSVSSGASVKLRGNPELDAKVDKISGGSLRQIK				NA	NA	NA	NA	NA
BMS003_01280	687			hypothetical protein	ATGAAAAAAGATCAATTACAAGATAAATACAACGAAATCTTCCGGGATATTAAAGAAGAAAAAATGGACTGGAGCTTTGAAGACTTTCTTCAGGATGCAGAAGGGGCAGAGCCGGAAAAGCCTGCAGCACCTGTTATTCCATTGGATGAAAAGAAAAAGCCTTCCTTTCCTAAATGGTTCTGGATGGCCGCCAGTGTGATGCTGCTTCTCGGCATTGGGGTATTTCTTAACTATAATAACTCTGATACAGCAGATGTGCAGGATAGAGAAAAACTGGTAAAAGATGAGATCTTGAAACAGAAGTCAGGATTTATTGAAGAAAATAGTGATCATCAGGGACAGGTGGCTGTAAATCATACAGATTCTATTTCCGGAGTAAAAAAAGATTCTGTCTTTCAGGATAACCAGATGGCAGAAAAAGACGTTATGGATGAAATCCTGCCAAAAAGAGGAAGACTTAAAAAGGAAACAAGACCCAGATATGTCAGCAATACCTCAAATAGCCAAAGTATAAATGATTCTGCATCGGCATACAATGACTCTTATGTGATTGTAAACGGAAAAAGAATCAGCAGTGAAAAAGAAGCCCTGGATGTTACCAGATATTCCTTTATGAAATTAGGAACTGAGTTTAAGAAAACAGTAGCATCCTCCCAAAAAAATGAAAATATTGACATCGAATATTAA	MKKDQLQDKYNEIFRDIKEEKMDWSFEDFLQDAEGAEPEKPAAPVIPLDEKKKPSFPKWFWMAASVMLLLGIGVFLNYNNSDTADVQDREKLVKDEILKQKSGFIEENSDHQGQVAVNHTDSISGVKKDSVFQDNQMAEKDVMDEILPKRGRLKKETRPRYVSNTSNSQSINDSASAYNDSYVIVNGKRISSEKEALDVTRYSFMKLGTEFKKTVASSQKNENIDIEY				NA	NA	NA	NA	NA
BMS003_01281	510	sigW_2	COG1595	ECF RNA polymerase sigma factor SigW	ATGACCCAAGAAACTTTCAAGAATACGGTGTTTATTCTCAAAGACGAGATGTATCGTTTTGCGAAGCGGTTTGTCATGAGCAGTGATGAAGCGGAAGATGTAGTACAGGATCTCATGATGAAGTTTTGGCAGAAAAGGGATGAGCTGGAGCAATTCGGGAATTTTAAATCCTATGCGCTGAAGTCTGTCCGCAACGAATGCCTGAACCGGCTGAAGCATCATGATGTAAAGATTGGCTTTGCAGATATGCAGCTTCATCGCTCGGAGCTTTACAGTATGGAAGTTGATAACCTTAAGGAACATATTGTAGGATTTATCAATCAGCTCCCCGAAAAACAAAAGATGGTCATCCACTTGAAAGATGTAGAAGAATATGATGTTTCCGAAATTTCTGAAATGCTGGAAATGGAGGAAAATGCAGTAAGGGTAAACCTTATGCGTGCAAGACAAAAAGTAAAAGAACAAATCTCACAACTGATGAGCTATGAAAAAAGATCAATTACAAGATAA	MTQETFKNTVFILKDEMYRFAKRFVMSSDEAEDVVQDLMMKFWQKRDELEQFGNFKSYALKSVRNECLNRLKHHDVKIGFADMQLHRSELYSMEVDNLKEHIVGFINQLPEKQKMVIHLKDVEEYDVSEISEMLEMEENAVRVNLMRARQKVKEQISQLMSYEKRSITR				NA	NA	NA	NA	NA
BMS003_01282	1161			hypothetical protein	ATGCAATTAGTATTTTCAGATGCACAATATTGGGAAGACTTTCTTCCGCTTACCTTTACACGCCCGGTTGCTGCTATGCGATGCGGAATTCTTACATTCTCTGAAAGATGGCAGAAAATCCTTGAAAATAGCGAGGTTTCATACTTCACAGAAATGTATCTTCAGGATAAATTCAAAAGTCCGGAGGAAAAAGAAAGTCTTTTTTTAGTTCCGAATTTTCTTCCTACTGAGACTGTAATTCAACAGATTAAAGATCTTAAGCAAGGAGAAGCTCTGGTTTACGAAGACGAATTGATTGCAGCCAGAATCAACATGAAAGGCTTTTCTCTGAACCAGATTGAAAAAATGACGGATATCAAAGAAGAACTTGTTTTCTTCAAAAGACCAAAAGATCTGTTTTCTTATAACCATCACGCTATTGATTTCGATTTTGAACTGCTTACCAAAGGAAGAACTTCACAGGAGTTATCTTCTACAAACGGATTTTTAGGAGATAAAAAAGATCTTTTCATTGAAGAAGGCGCCGAAATTGAATTTTCTACCCTGAATACTAAAACCGGGAAAATTTATATCGGGAAAAATGCTGAGGTAATGGAAGGATGCCACCTGCGCGGGCCTATTGCATTAGGAGAAGATTCCAAGTTTAATCTAGGGGCTAAAATTTACGGCGCTACCACTATCGGGCCTCACTGTAAAGTAGGAGGAGAAGTGAATAATATTATCATTTTCGGGTATACAAGTAAAGGACACGAAGGATTTGTAGGAAATTCAGTGATAGGAGAATGGTGCAACTTTGGTGCAGATACCAATTCTTCCAACCTGAAAAATAATTACAGCCACGTAAAACTTTGGAACTACAGAACAAAAGCATTTGAAGATACAGGCTTACAGTTTGCAGGTCTGATTATGGGAGACCATTCCAAAACAGCCATCAATACTCAGTTGAATACAGGAACGGTAATTGGAGTCGCTTCCAATATATTTAAGCCGGGCTTTCCACCAAACCTTGTGGAAAACTTTTCATGGGGCGGATTGAAAGATGATGAAAGATTTAAGCTTGATAAAGTATATGAAGTGGCAGAGAGAGCCATGGCAAGAAGAAAAGTCGCTTTAACAGAAGAAGATAAAGCGATTCTGAAACATATTTTTGATACGTATTAA	MQLVFSDAQYWEDFLPLTFTRPVAAMRCGILTFSERWQKILENSEVSYFTEMYLQDKFKSPEEKESLFLVPNFLPTETVIQQIKDLKQGEALVYEDELIAARINMKGFSLNQIEKMTDIKEELVFFKRPKDLFSYNHHAIDFDFELLTKGRTSQELSSTNGFLGDKKDLFIEEGAEIEFSTLNTKTGKIYIGKNAEVMEGCHLRGPIALGEDSKFNLGAKIYGATTIGPHCKVGGEVNNIIIFGYTSKGHEGFVGNSVIGEWCNFGADTNSSNLKNNYSHVKLWNYRTKAFEDTGLQFAGLIMGDHSKTAINTQLNTGTVIGVASNIFKPGFPPNLVENFSWGGLKDDERFKLDKVYEVAERAMARRKVALTEEDKAILKHIFDTY				NA	NA	NA	NA	NA
BMS003_01283	252	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAAAACGGAATCCACCCAGAAAATTATAGACTTGTTGTTTTCAAAGATATGAGTAACGACGAGGTGTTTCTTTGCAAGTCTACTGCAGAAACAAAAGACACTATCGAGTATGAAGGACAAGAGTATCCTCTAATCAAAATGGAAATCTCTTCAACTTCTCACCCTTTCTACACTGGTAAAGTAAAACTAGTTGACACTGCAGGTAGAGTTGATAAGTTCATGAACAAATACAAAAAATTCGCTAAGTAA	MKNGIHPENYRLVVFKDMSNDEVFLCKSTAETKDTIEYEGQEYPLIKMEISSTSHPFYTGKVKLVDTAGRVDKFMNKYKKFAK	PGPT0014325_1682	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS003_01284	1410			hypothetical protein	ATGAAATTCAAAATATTACTGGCTTTTTCCTTCTGGATGTTACTGGTAACTGTATCATGTAATAAGGATGATATAGCATTTGATAGCCCTACGCAGGAACTGAGGTTCTCAAGAGACACAGTATTCTGCGATACAGTTTATCATCAGATACGTTCAGAAACCTATGTTGTGAAGGTATATAATAATGAAGATAATGATATCATGATCCCAAGAATAAATCTGGAACAGGGATCTGCTTCATTGTATAGAATTAACGTGGATGGAAAACCCGGTTATGATTTTCAAAATGTTCCTTTAAGAAAGAAAGACAGTCTTTATATATTTGTTGAAATTGCTCCGGAAGCCACCGGGCCTGAAGCTATTGCTGAAGACAAAGTTCTTTTCACCACCCCTGCCGGGCAACAACACGTAACCTTATTCTCTGTGGTTCAGGATGCAGAATTTTTTATCCAGACCCCTGGCAATCCTAATATAATAACCAGCTCTACGACATGGAATAATAATAAAGCAAAGATCATCTACGGAGATCTTACCATCAATCCCAATGTAACCCTTGATATAAATCCCGGGACTAAGGTCTATTTCCACAAAAACAGTGGTATGAAAGTTTCTTCCGGAGCCTTTTTAAATATTAACGGAACCCAGACTGATCAGGTGATTCTTCGTGGTGACAGAAACGATCCTTATTATGATACGATTCCTAAAAACTGGAATTCTATCAGAATGGAAGCCAATTCTACCCTTAAAATGAATCATGCCAGACTTTTCGGAGGAACAAGAGGACTGGATATGAGACAGACTAATGCTACCATTACCAACTCTTTTATCCACACTTTCTTTGAATACGGAATTTATGCTGTAGGTTCTACCGTGAATGCCAACAATCTTGTGATGAACAACTGTGGTTTATCCTGTGTAGGGATTTTCCTGGGTGGAAAACACAGCTATACCCATGCTACAATTGCGAATTATTCTAAAACAATGAGTTCTCTTGACAGAGCAGGAATTTTTGCAGCCAATGAATGGAAGAATGATGCTGGGCAAACACAACAGGGAGCTTTGCAGCTGCTCGATATAAAAAACAGTATCATATATTCTGACAAAGATGATGCTGTACATTTTGAGCAGACTCCGGGACAGCAGTTTGAATTTTTACTTCAGAATTCATTAATCAAATATACCAGTGCAACGGGAGCAGGCTTCACTTTTGACAATAATCCAAATGTGATACAAACTACTAAAAATACAGATCCTGAGTTTGTCAATTACTTTATGGCTAAAATGAATTTAAGAGTAAAATCTACCTCTCCAGCCATAGGAAAAGGTAATACAGCTGTAGCAGCAACAGTACCTTTAGATATTGTGAATGTTTCAAGAACAACCAATCCAACTTTAGGAGCTTATCAATAA	MKFKILLAFSFWMLLVTVSCNKDDIAFDSPTQELRFSRDTVFCDTVYHQIRSETYVVKVYNNEDNDIMIPRINLEQGSASLYRINVDGKPGYDFQNVPLRKKDSLYIFVEIAPEATGPEAIAEDKVLFTTPAGQQHVTLFSVVQDAEFFIQTPGNPNIITSSTTWNNNKAKIIYGDLTINPNVTLDINPGTKVYFHKNSGMKVSSGAFLNINGTQTDQVILRGDRNDPYYDTIPKNWNSIRMEANSTLKMNHARLFGGTRGLDMRQTNATITNSFIHTFFEYGIYAVGSTVNANNLVMNNCGLSCVGIFLGGKHSYTHATIANYSKTMSSLDRAGIFAANEWKNDAGQTQQGALQLLDIKNSIIYSDKDDAVHFEQTPGQQFEFLLQNSLIKYTSATGAGFTFDNNPNVIQTTKNTDPEFVNYFMAKMNLRVKSTSPAIGKGNTAVAATVPLDIVNVSRTTNPTLGAYQ				NA	NA	NA	NA	NA
BMS003_01285	327	ypjD	COG1694	putative protein YpjD	ATGGAAATTACCCAGTTACAACAGCAGGTAGATGAATGGATCAAAACCATTGGAGTAAGATACTTTAATGAACTTACCAATATGGCGATGCTGACAGAAGAAGTAGGCGAAGTAGCAAGAATTATTGCCAGAAGATATGGTGAGCAAAGCGAAAAAGAAAGCGACAAGACTAAAGATCTTGGTGAAGAACTGGCAGATGTACTTTTTGTAACTTTATGCCTGGCCAATCAGACCGGAGTCAATCTGCAGGATGCTTTTGACAAAAAAATGAAAATCAAAACGGACCGCGATAAAGACCGGCATCAGAATAACGAAAAATTAAAATAA	MEITQLQQQVDEWIKTIGVRYFNELTNMAMLTEEVGEVARIIARRYGEQSEKESDKTKDLGEELADVLFVTLCLANQTGVNLQDAFDKKMKIKTDRDKDRHQNNEKLK	PGPT0012850_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS003_01286	1221	aroA	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGAAGCTAGAAAAATCAAAATTATCAGGTGATAAAACAGTACAGATCAGCGGTTCGAAAAGTATTTCGAATCGTTTATTGATTCTGGAAAGTCTCTTTAGTAATATAAAAATCGGAAATCTATCCAATTCTCAGGATACTCAGCTGCTGAAAAAAGCATTATCCGAGAATACAGATGTGGTAGACATTCATCACGCAGGAACGGCAATGCGTTTTCTTACTTCTTATTATTCTATTCAGGAAGGAAAGAAAACTATTCTTACCGGTTCCGGAAGAATGAAGGAAAGACCCATCAAAAATCTGGTAAATGCTTTGAGGGATCTTGGAGTAGAAATTGAATATATGGAGAATGAAGGATTTCCTCCTTTAAAAATTACCGGAAGAAAGATCACTCAGACTTCAGTAAATGTTCCTGCCAATATTTCAAGCCAGTTTATCACATCTTTACTTCTTATCGCAGGAAAACTAGAAAACGGTTTGGTCATTAATCTTGTAGGCGATGTTACTTCAAGATCATATATTGAAATGACCCTTGATATTCTGACCAGATTTGGCATTCAAAGCAGCTTTGAGGGAAATACCATCAAAGTAGAACCTTTCACACCTGATCACTCCAAAGTGGTACATTATGAAGTGGAAAGCGACTGGAGCTCGGCTTCTTACTTCTACTCTATCTGCGCATTGGGAAGAAAAACGATTCACCTGAAAAGTTTTTATCAAGCATCAACACAAGGGGATTCTGCAATCGCCAATATTTATGAAAAGTTTTTCGGAATCAAAACTTTATTCTCTGAAGACGAGCATAAATTAACCCTGGAACCTCAGCCTGATTTTTCTTTCCCGGAAAAGATTGTCCTGGATATGAACAACTGTCCGGATATTGCACAAACTCTATGTGTAACAGCAGCAGCTTTAAAAATCCCTTTTGAAATTTCCGGATTGGGAACCTTAAGAGTAAAGGAAACCGACAGACTTCTTGCATTATATAATGAACTTAAAAAACTGGGGACTGAAACGGAAATTACAGATTTAACCATTCAATCCATCAGTTTTGGAGAAGCTGAAGATGATATTTCGATCAAAACGTATCAGGATCACAGAATGGCCATGAGCTTTGCTCCATTCTGCCTGATTAAAGAACTGAATATTGAAGATGAAGATGTAGTAGAAAAGTCTTATCCAATGTTTTGGAAAGATCTTGGAAGTATATTGACTCATTAA	MKLEKSKLSGDKTVQISGSKSISNRLLILESLFSNIKIGNLSNSQDTQLLKKALSENTDVVDIHHAGTAMRFLTSYYSIQEGKKTILTGSGRMKERPIKNLVNALRDLGVEIEYMENEGFPPLKITGRKITQTSVNVPANISSQFITSLLLIAGKLENGLVINLVGDVTSRSYIEMTLDILTRFGIQSSFEGNTIKVEPFTPDHSKVVHYEVESDWSSASYFYSICALGRKTIHLKSFYQASTQGDSAIANIYEKFFGIKTLFSEDEHKLTLEPQPDFSFPEKIVLDMNNCPDIAQTLCVTAAALKIPFEISGLGTLRVKETDRLLALYNELKKLGTETEITDLTIQSISFGEAEDDISIKTYQDHRMAMSFAPFCLIKELNIEDEDVVEKSYPMFWKDLGSILTH	PGPT0012850_4986	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS003_01287	684			hypothetical protein	ATGATGAAAGCTTTCTTTTCCTTTTTGGCTGTTTTATCTTTTTCGATTTTATCTGCTCAGACTGTGAAAAATTTTTTGGTTCCGAAAGGATATACCCAGATTGCAGAAGCCAAAGGTGATCTTGACAAAGATGGAAAAGATGAAATGATATTAGTCTTTGATACAAACATAAAAGCATCAGACGACCGAAATCCGGAAGGCGGCGCAGACTATAAAAGGGTTTTCTATATCCTGAAAAATGAGAATAGCGGACTAAAAATCTGGAAAGAAAATTCCGGCATTCTTTTCTCAAGCGGAACAGGATTCTATCCTTCTGACAATACGCTTGAAATCAGTATAAAAAATAACACTCTTCGTATCACCCAATCATTTTTTACCAATTCCAGACACACACAGAAATATAAACATAGTTTCAGGTTTCAAAACGGAGATTTTTATCTTATAGGATCATATGATCATTTTGAAGATACCTGTGATTTCAGCTTCACCAATGAAATCAATCTTTCTACAGGCAAAGCGATTATTGACAGAGAATATTCATCCTGCGATGATGATGCTAAAATACCCGAAAACTTTCATAAAGTGTTTACTCACAAACTTCAGAACCTCATCAAAATGAATGATTTTAAAATCGGGGAACACAAGTTTAAAATTCCCGGCTTGAAGGAGTATTTTGTTTTTTAA	MMKAFFSFLAVLSFSILSAQTVKNFLVPKGYTQIAEAKGDLDKDGKDEMILVFDTNIKASDDRNPEGGADYKRVFYILKNENSGLKIWKENSGILFSSGTGFYPSDNTLEISIKNNTLRITQSFFTNSRHTQKYKHSFRFQNGDFYLIGSYDHFEDTCDFSFTNEINLSTGKAIIDREYSSCDDDAKIPENFHKVFTHKLQNLIKMNDFKIGEHKFKIPGLKEYFVF				NA	NA	NA	NA	NA
BMS003_01288	999			hypothetical protein	ATGTTCAAACAAAGCATGAAACGTATGACAGCGATCACTCTTGGGGTGGTTACTGCATCTATCTTTTTTTCCTGTTCCAATGACAGCCTTATCGAAAGAGATTCTAGTGAAAACAATTTAGCTTCTTTGGCAAAAACCAACAGCAGAACTTCTTTAGCACCTATCGAGATGAATAGCTGGATGTCTGGACTTCAGGATAATATCTCTATTTCAAAAATCTCCATTCCCGGAACTCATGATTCCGGAGCACGTGTAGACGCCCCTGTTCTATCAGGTACGGCTAAAACTCAAGACCTCAGCATTGCAGAACAACTGAATGCAGGAGTCCGTTTCCTGGATATACGTTGCAGACATATTGACAATGCTTTCACCATTCACCATGGAGCAATTTACCAAAATCTGAATTTTGATGATGTGCTTAATGCTTGCTATGCGTTCCTTAACAGCCATCCATCAGAAACAATCATTATGTCTGTAAAAGAGGAATATGATGCTTCCAACACGACCAGAAGCTTTGAACAGACATTTGATTCTTACGTGCAGAAAGACCCTTCTAAATGGGATCTTGGCGCAAATATTCCAACGCTGGGTTCTGTAAGAGGAAAGATAAAGCTATTAAGAAGATTCTCTTCAGGAACAACCAAGGGGATCAATGCTTCACCATGGGCGGATAATACCACTTTTGATATTAACAATTCAGGGGTACTGTTGAAAGTACAGGATTACTATAAGGTAACCAACAATGATGACAAATGGAATGGGATTTTCAACCTGCTTAATGAAGCTAAAAATGATACGAACGGTAAGCTTTTCGTGAACTTCACCAGCGGTTACAAGCCTGGAATCTTCGGAATCCCCAGCATTCCTACGGTATCGAACAATATTAATCCAAGGCTTAAGACATTCTTCCAAAACAATATTCAGGGATCATTTGGGATAATGCCGATTGACTTTGTGAATGCTGAGTTGTCTGAATTAATCGTTAAGACCAATTTCTAA	MFKQSMKRMTAITLGVVTASIFFSCSNDSLIERDSSENNLASLAKTNSRTSLAPIEMNSWMSGLQDNISISKISIPGTHDSGARVDAPVLSGTAKTQDLSIAEQLNAGVRFLDIRCRHIDNAFTIHHGAIYQNLNFDDVLNACYAFLNSHPSETIIMSVKEEYDASNTTRSFEQTFDSYVQKDPSKWDLGANIPTLGSVRGKIKLLRRFSSGTTKGINASPWADNTTFDINNSGVLLKVQDYYKVTNNDDKWNGIFNLLNEAKNDTNGKLFVNFTSGYKPGIFGIPSIPTVSNNINPRLKTFFQNNIQGSFGIMPIDFVNAELSELIVKTNF				NA	NA	NA	NA	NA
BMS003_01289	1827			hypothetical protein	ATGAAATTATCAAAAATATTAGCTGTACTGGCTTTGGCTGTTTTTTCTGAAAATCAGGCACAAAATTATTTAAACTACAATGTCGGGAATGCCCATTCTCATAATGACTATATGCAGGAGGTCCCTTTTTGGCAGGCTTATTATGCCAATTTCGGATCTATTGAGGCAGATGTTTTTCTGGTAAACGGGAAACTTTGGGTAGCTCATACCGAAAAGGAACTTTCGGCAGACAGAACATTGGAAAATCTTTACCTAGACAATATTTCAAAACAGATTAAACTGAACAAAGGAAATATTTATCCTGATGCCAATAAAAAGCTTCAACTGCTGATTGATATTAAACAGGATTATAAAACATCATTGGATGCTTTGGTCAATACTTTAAAGAAATATCCGGAGATCACAGGAAATTCGGGAATTAAAATTGTCATTACCGGAGGAAGACCTCAGCCTGCAGATTTTAAAAATTATCCGAGCTATCTTTACTTTGATGGAGATCTTGATAAAAACTATTCCGAAGATCAGCTGAAAAGAATCGGGATGTTCAGTGCAGATCTTCCGGGACTGGTTAAATGGAACGGAAAAGGAATTCCAAGAGATGAAGAAACTCAAAAGATTAAAACTGCTGTAGACAAAGCTCATGGTCAGCAGAAACCGGTTCGTTTTTACGGAGCTCCGGATTTTCCCAATGCATGGGTAAACCTGATGGATTTAGGAGTAGATTATATCAATACCGATCATATTCCGGATCTTAAAAAATTCATGAATACTATTCCGAAAAATTTTTATAAAAATACAAAGGAATATACTACTTATACTCCAACTTATCAATCAGACGGTATAGAGAAAAAAGTAAAGAATGTAATCCTTCTTATTCCGGACGGAACTTCTTTACCCCAATATTATGCCGCCTTTACAGCGAATAAAGGAAAGCTTAATGTTTTCAACATGAAATCCACAGGCCTTTCCAAAACCAACTCATACAATGCTTACATTACAGACTCAGCACCGGGTTCTACAGCGTTTGCAACAGGTGTGAAAACCAAAAATACTTTTGTAGGGGTTGACAATATGGGAAAAGCGCTGGTACAGATTCCTGATATTATTGCTGAAAAAGGGATGGTTTCCGGTCTTATTTCCACGGGTGATGTTACAGATGCTACGCCTGCAGATTTCTATGCACACTCAGATAACAGAAACAGTTCAGAACCTATTCTGAAAGATTTTGCCGCTTCAAAAACAAAAATATTGATTGGTGGCCCTACAAGTGGATTGTCTAAAGAGAATATTCAGAAATTCAAAGATGCTAAAATAGATCTCTATCATGATTTAAAATCAGTAACTAAAATAAACAACCGAACCTTGGTGATTGATCCCATGGCTTCACAAAGAATAACCAATGGAAGAGGAAACTGGCTGGCTGATGCATTTGATCTTACGTTAAATGATTTAAAAAATAATAAAAAAGGTTTCTTCATGATGATTGAAGCCTCCCAGACAGATGGAGGAGGCCATAGCAATAACATAGAACAGCTGGTCACAGAATTATTAGATTTCGATCATGTGGTTGGGAAGGCCATGAAGTTTGCTGATGAAAATAAAGAAACCTTAGTAATTGTAGTAGGTGACCATGAAACAGGAGGTTTAACCCTTTTGGACGGAAGTCTGAAAGACGGCTGGGTATTCGGGAATTTCAGTACGAATGACCATACTTCCATTCCGTCAAGTGTTTTTGCATACGGACCGAATTCAAAAGAATTCACAGGATTGTTCGAAAATACTGAGATCTTCAACAAAATACTGGCTGCTTACGGCATTCAAAAATAG	MKLSKILAVLALAVFSENQAQNYLNYNVGNAHSHNDYMQEVPFWQAYYANFGSIEADVFLVNGKLWVAHTEKELSADRTLENLYLDNISKQIKLNKGNIYPDANKKLQLLIDIKQDYKTSLDALVNTLKKYPEITGNSGIKIVITGGRPQPADFKNYPSYLYFDGDLDKNYSEDQLKRIGMFSADLPGLVKWNGKGIPRDEETQKIKTAVDKAHGQQKPVRFYGAPDFPNAWVNLMDLGVDYINTDHIPDLKKFMNTIPKNFYKNTKEYTTYTPTYQSDGIEKKVKNVILLIPDGTSLPQYYAAFTANKGKLNVFNMKSTGLSKTNSYNAYITDSAPGSTAFATGVKTKNTFVGVDNMGKALVQIPDIIAEKGMVSGLISTGDVTDATPADFYAHSDNRNSSEPILKDFAASKTKILIGGPTSGLSKENIQKFKDAKIDLYHDLKSVTKINNRTLVIDPMASQRITNGRGNWLADAFDLTLNDLKNNKKGFFMMIEASQTDGGGHSNNIEQLVTELLDFDHVVGKAMKFADENKETLVIVVGDHETGGLTLLDGSLKDGWVFGNFSTNDHTSIPSSVFAYGPNSKEFTGLFENTEIFNKILAAYGIQK	PGPT0002570_230	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
BMS003_01290	1509			SusD-like protein	ATGAAATTTTTCAATAAAATATTGTTAGTATCAGGAATATCCGTTATGCTTCTGTCATGTACAGGAGAGCTGGATGTACAGCCGGAAGGAACCCCTACGGAAGCCAGTTTCTGGAAAACAGAAAACGATCTGATTACCGGAGCAAATGCTATGTATAAACCTTTGTTTGACAGTGAATTTTACGGAAGAGGTTTGTTCTGGTTTATCAATGCCAGTGATGACATGGTAACCGGAAGAGCCAAAAGTGAAGCAGATAATGCTAAAAACTTCAGCAGTAATTATATCGCTGCAGGAGATCTTGAAACCCAATGGAACAAAAGATATAATGTAATCGGGGTTGCCAACCGTGTGATCCGTAATGTTGATAATATTCAGACATCACAGGCTATTAAGAATAAATACCTGGGAGAGGCCTTGTTTATGAGCAGCAGAATGTATTTTGAACTGGCTTACTCTTACGGGAATGAAAAAGCCGGAGTTCCTATTATTGACCGCTCAAAAGATCCGGATCCAAACCCGATCCCAAGGGCAGCTAATGTAATGGAAAACTATACTTACATTGTCAATGACCTGAAAAGAGCTGCCGAATTATTACCTACTCAGGCAGAACTTCCTGCAAAAGATTACGGAAGACCTCATAAAGCAGCCGCATGGGCATTGTTAGCAAAAGTATATCTGTTTATGAAAGACTGGAATAATGCCGAGTTCTGGGCTAATGAAGTAATGACCAAAGGAAACAGAGCCTTGCTGGGAAATTTTGCCGATGTTTTCAAAGCTGAAAACAACTACAGCTCGGAATACATCTGGTCTGTTCCGGGAACTCCTAAATTTACAGCCTGGGGAAGTATTCTTCCGGGCGTAATGCTTGAAAATAAAGGGTGGGGAGAATATAACGGTTGGGGGTATTTTCAGCCCACTAAGGAATTGTTTGATGAATATGAGGCAGGAGATCTTAGAAGAAGTGCTACCATTCTGAAAACAGGGGATCAGTTTACTTTTAACGGAAAGGTAAGAACATATGCCTCCACTAATTCTCTTACCGGATACCAGTTCAACAAATATATGGATGCCTTCAAATATCAGCTGAACAGCGGTCATGTAAGTGCTAACGGAGATTATCCATGTACAGACCTTGCCGTTCCGATTATGCGTTATGCTGAGGTAATTCTGATCAAAGCAGAAGCTTTGCTAATGCAGGGGAAATCTGCGGATCAGGAAATCAATATGATCAGAGTACGTGCAGGTTTATCTCCGAAAAACGGATGTACATTGGCTGATCTGAAACATGAAAGACGTTGCGAACTGGCAGGTGAATGGGCAGACAGACACAGAGACCTTGTACGTTGGGGAGATGCGCAGGCAGCTTATGCAAAACCTCTGCATGGCATCAACGGACAGGTAGTATGGGCAGCCAGAAGCTTTAATCCCGCTATACATAATGTTTGGGCAGTTCCACAGGCTGAAATCGTAAACAGTCACGGGATCATTAAACAAAATGAAGGCTGGTAA	MKFFNKILLVSGISVMLLSCTGELDVQPEGTPTEASFWKTENDLITGANAMYKPLFDSEFYGRGLFWFINASDDMVTGRAKSEADNAKNFSSNYIAAGDLETQWNKRYNVIGVANRVIRNVDNIQTSQAIKNKYLGEALFMSSRMYFELAYSYGNEKAGVPIIDRSKDPDPNPIPRAANVMENYTYIVNDLKRAAELLPTQAELPAKDYGRPHKAAAWALLAKVYLFMKDWNNAEFWANEVMTKGNRALLGNFADVFKAENNYSSEYIWSVPGTPKFTAWGSILPGVMLENKGWGEYNGWGYFQPTKELFDEYEAGDLRRSATILKTGDQFTFNGKVRTYASTNSLTGYQFNKYMDAFKYQLNSGHVSANGDYPCTDLAVPIMRYAEVILIKAEALLMQGKSADQEINMIRVRAGLSPKNGCTLADLKHERRCELAGEWADRHRDLVRWGDAQAAYAKPLHGINGQVVWAARSFNPAIHNVWAVPQAEIVNSHGIIKQNEGW				NA	NA	NA	NA	NA
BMS003_01291	2889			TonB-dependent receptor P3	ATGAATGTATTTAAAATCCCTGTCTCAGTAACTTATTTAACGGGAAGGGTATTACTTATTGGTGCAATATCAGCTTCACCGATGTTCCTCGCTCAGAAAAAAGACAGCTTAAAAGAAAAATCCATCGACGAGATTGTTGTAGTTGGATATGGAACACAGAAAAAAAGTAAAGTTTCCGGGGCTGTTTCGGAGGCTTCGCTGGATAAGCTTACTTCCAGATCTCTGTCCGGAGTAGGAGAAGTACTTCAGGGGAAAGCTCCCGGAGTAACTGTAGTGAACGAAGGTGGAGATCCAAACGGAGCACCTAAGGTAAATATTCGTGGTCTGGGAGGGATCAATGGTGAAACTCCTCTGTATGTAGTGGATGGAGTAGTTTTCAACGGAACCCCTTCTATTAACCCAAACGATATTCAGGATATTTCTGTACTTAAAGATGCTGCAGCAGCCATTTATGGGGCTAGGTCTTCCGGAGGGGTTATTCTTATTACCACTAAAAAAGGGAAAAAAGGAAATCTTACGGTAGATCTTGATGTTAAATACGGGATCAATGAAGCATGGAGGCTGAAAGAATCACTGAATGCAGCCGAATTTCAGGATGTGATGTATAAAGCATATGAAAATGCCGGAAAACTGGGAAGCTTACCAATTGCTTTTAACCCTACCCAATATCCGGACGGAAGAATCACCAGAACAGACTGGATGAAAGAAATTTTCAGAACGGGTACTATTCAGGAATATAATGTAAATCTGAGCGGAGGAAGCGAAAAATCCAGATATTTTGTGGGAATGAACCACAGAAGCCTTGAAGGAATCTTACTCAATACTCAGGCAAAACGATACAATTTCAGAGTCAATTCTGAACATAAAGTAAAAGACTGGCTGACGATGGGAGAAAACATGTATTATAATTACTCTGATGGAAACACAGCCGATACTAAGAGTGGATATACAGGAGCTTTGGTTGCTGCCATGTACTATCCACCAAATGTTCCGGTATATACTCCTAACGGAGCATTCTCAGGATTGCCGATTGATGTGGCAGGCGGATATGGAGATATGATCAATCCGGTAGCTTATCTTAAAAGAATCAGTATCAGAAATCCTACCCACGAAATTTTAATCAATCCTTATGCTGAACTTACCCTGGCGAAAGGTTTAAAATTCCGCTCCAACTTCTCACAGACCTTTAAACTGGGAGATGTGAAAAACTTTACATACAGGGTTTTGGAGATAGGAAAAATTTTTGATACCAACAATTTGGAATACCAGTCTAATAACTCTTCCACAGCGCTTGCAGAACAGTTACTGACTTATAAGATTTCTGCGGGACAGCATAATTTTGATGTACTTGGAGGTTTTACATTCCAGAAAACAGTTGATGATGGTTTTGTGGCAAAATCGTATGATTTCAGAAGTGAAGCTGAGGTTTTCCAACACCTTCAGAATGCTGCGGATACCAATAAAGATGTTTCCAGTTACAGGTTCAAACAGTCTTTGGTTTCTTATTTGGCGAGGGTAAACTATGATTATGCAGGAAAATACATTGTAAGTTTATTGGGAAGACGTGATGGTTCTTCTCTGGTAGCTAAGCAGAACAGATTTGCCAATTACTATGCTGTTTCCGGTGCATGGTTGGTTTCAAAAGAAAACTTTATGCAGGATATTTCCTGGCTGTCAAGCCTGAAACTGAGAGGAAGTTATGGTATTCTGGGTAACCTTGGAGGAATTTCACCACAGGCCGTAAATCCATTGATGACCAGAGATAATAATATTATTTTCGGACAGGATCCTTCTCAGAATATTGCATACTACGCTACCACACGCCCGAATCCGGATCTGAAATGGGGTAAATCTGAGCAGACTAACTTCGGGGTAGATGCCTCCTTCCTTCATAACAGCCTTTCCTTACAGTTCGATTACTTTGTAAAGAATTCCAAAGACCAGATTTTCAACGTAAGCTTACCAAGTACGGCAACATATAATAATCAGTATGTGAATGCGGGATTATTCCAGGATAAAGGATACGAATTGGGAATCAATTATAACAAGGTGATTTCTGATGACTTTACGTTCTCCGTAGGAGCTACCATGAGCCAACTAAAAAATACGGTGAAGCAGCTTGCCAATGTAGACGAGATCTTTATCAATGATAACGGAGTAAGAGGAGTATTGAAACCAACCCGTGTGAAAGTAGGAGATCCTCTGTATTCTTTCTATGGTTATAAGACTGGCGGTATTTTCCAGACTCAGGAAGAAATCAACAATTATAAAGATGCGAACGGAAATCTTATCCAGCCGAATGCTAAACCTGGTGATATCAAGTTCCTGAAAAAAGAAGGAAACACAGGAGTGCTTAATAATAATGACTTCGTCAATCTTGGAAGCCCATATCCTAAATTTTCATATGGATTCTCTTACAATATGACCTGGAAAAACTTTGACTTGAATTTATTCTTCCAGGGAGTATACGGAAATAAAATATTCAACGGAATGAAGTTTATTTCTTTGAACCCGGGTGGAACAGGGCAGAATTATAATATGGACAGAGATATCCTGAATGCATGGACTCCACAGAATACCAATACCGATATTCCAAGGCTGGTACACGGTGACCTGAGTGGAAACTACTCAAAAGTATCAGATTTCTATGTGGAAGACGGATCTTACCTAAGACTGAAAAACCTTACCATAGGTTATTCATTACCAAAAGAACTGTACAGCAGGCTGGATGTAAACAAAGTGAGAATTTATGTGACTTCCAATAACCTGTTTACAATTACGAAATATACAGGATTTGATCCTGAAGTAGGAATGAACTCTTACGGAGTAGATACAGGAAGATATCCTCAGGCACGCTCATTCATCTTTGGAGTAGAGATCGGATTATAA	MNVFKIPVSVTYLTGRVLLIGAISASPMFLAQKKDSLKEKSIDEIVVVGYGTQKKSKVSGAVSEASLDKLTSRSLSGVGEVLQGKAPGVTVVNEGGDPNGAPKVNIRGLGGINGETPLYVVDGVVFNGTPSINPNDIQDISVLKDAAAAIYGARSSGGVILITTKKGKKGNLTVDLDVKYGINEAWRLKESLNAAEFQDVMYKAYENAGKLGSLPIAFNPTQYPDGRITRTDWMKEIFRTGTIQEYNVNLSGGSEKSRYFVGMNHRSLEGILLNTQAKRYNFRVNSEHKVKDWLTMGENMYYNYSDGNTADTKSGYTGALVAAMYYPPNVPVYTPNGAFSGLPIDVAGGYGDMINPVAYLKRISIRNPTHEILINPYAELTLAKGLKFRSNFSQTFKLGDVKNFTYRVLEIGKIFDTNNLEYQSNNSSTALAEQLLTYKISAGQHNFDVLGGFTFQKTVDDGFVAKSYDFRSEAEVFQHLQNAADTNKDVSSYRFKQSLVSYLARVNYDYAGKYIVSLLGRRDGSSLVAKQNRFANYYAVSGAWLVSKENFMQDISWLSSLKLRGSYGILGNLGGISPQAVNPLMTRDNNIIFGQDPSQNIAYYATTRPNPDLKWGKSEQTNFGVDASFLHNSLSLQFDYFVKNSKDQIFNVSLPSTATYNNQYVNAGLFQDKGYELGINYNKVISDDFTFSVGATMSQLKNTVKQLANVDEIFINDNGVRGVLKPTRVKVGDPLYSFYGYKTGGIFQTQEEINNYKDANGNLIQPNAKPGDIKFLKKEGNTGVLNNNDFVNLGSPYPKFSYGFSYNMTWKNFDLNLFFQGVYGNKIFNGMKFISLNPGGTGQNYNMDRDILNAWTPQNTNTDIPRLVHGDLSGNYSKVSDFYVEDGSYLRLKNLTIGYSLPKELYSRLDVNKVRIYVTSNNLFTITKYTGFDPEVGMNSYGVDTGRYPQARSFIFGVEIGL				NA	NA	NA	NA	NA
BMS003_01292	789			hypothetical protein	ATGACCATCATCATAACAGGAACCTCATCAGGAATAGGGTTTGCATTGGCCGAATATTTTGGTAAAAAAGGACATAAAGTATACGGATTAAGCCGAAAACATACGGAAAGCGAATACTTCAAATCTATACCCACTGATGTGACCGATAACACCGCTGTTCACAATGCCATCGCTGAGATTTTAAAAACAGAAACAAAAATTGATGTTCTGATCAACAATGCAGGAATGGGAATGGTAGGTGCCGTAGAAGATTCTACGAAAGAAGATATTCTGAGGCTTTTCAGCCTGAATCTTGCCGGACCTGTACAGATGATGAGTGCTGTTCTTCCGAACATGCGTGAACATAAATTCGGAAAGATCATCAATGTTTCCAGCATCGGAAGTGAAATGGGGCTGCCTTTCCGCGGATTTTATTCTGCTTCAAAATCGGCATTGGATAAAGTAACGGAAGCCATGAGGTATGAAGTATACCCATGGAACATTGATGTTTGCTCACTGCATCTGGGAGATATTAAAACCAATATTGCAGACAACAGAGTCATTGCACAGGTTTCCCAGCCTTATAAAAATGTTTTTGATAAAGTGTATGCCTTGATGAACTCTCATGTGAATGACGGAACTGAGCCTTTGGAAGTTGCAGAATACATTGAAAAACTTTTAGCAAAAAATAAGTGGAAAGCTCATTATTATTTTGGTAAATTCGGGCAGAAAATCGGGGTTCCGTTGAAATGGATTCTTCCACAGGGAACTTATGAGAATTTGATGAAAAAATATAATAAACTGAGCTAG	MTIIITGTSSGIGFALAEYFGKKGHKVYGLSRKHTESEYFKSIPTDVTDNTAVHNAIAEILKTETKIDVLINNAGMGMVGAVEDSTKEDILRLFSLNLAGPVQMMSAVLPNMREHKFGKIINVSSIGSEMGLPFRGFYSASKSALDKVTEAMRYEVYPWNIDVCSLHLGDIKTNIADNRVIAQVSQPYKNVFDKVYALMNSHVNDGTEPLEVAEYIEKLLAKNKWKAHYYFGKFGQKIGVPLKWILPQGTYENLMKKYNKLS	PGPT0012850_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS003_01293	1611			hypothetical protein	TTGGGATTGAAACTGTTTCTGAAAATATTTTTTGTACTGTTCTGCGTTTTCATACAAGCGCAGAAGAAGCAGTATTGGCTGATTGATACGGAAACCAAAGTCAGAAAAAAGGTAAAAGATTCTACTTCTGCCGTAAAGTTTCTGGACTCATTGGCCCAAAGTAATTATTTCTTCACCCAGCTGAAAGACGTAAAAGTAAAAGGTGACAGCACCGAAATTTTCTATGATAAAGGGAAAAATTTTAATGAAACGTATGTAAACCTTACAGATTCCCTTGCACAGCAATTAAAGATCCATAAAGATTTTTTCACTAAAAATTTAGACTCCATTAAGAAAAGTATCAACAAGACTTATATTGATGAAGGCTATTCTTTCAGCAGAATCAAATCCAGATATAAAGGACAGAAAAACGGTTATCCGATTGTAGAACTGGACATCAATAAGAATGATAAAAGAACGATAGATGGTTTTGTAGTTAAAGGGTATGAAAAAGTTCCTAAAAGGTTCATCAAAAATTTAGAAAAGGAGTTTAAAGGTAAAAACTATGATGACAAAAACCTTCTGGCTATTAACAAAAACTTTCAGAGCCATCCTTTTCTTACCCTGGAGCGGCAGCCACAAACTTTATTTACGAAAGACTCTACGAATATCTATCTCTTTCTGGAAAAGAAAAAGACCAATACCTTTGATGGAGTGGTCGGTTTCGGGAATGATAAAACTTCTAAGTTTACCTTAAACGGAACAATGAATGTCAATTTCAGAAATATGTTTAATGGCTTTGAAACCGTCAATCTATATTGGCAGAGAAACCCGGATAAAGGACAGACTTTCGATCTTAGAGTGGATATTCCATACCTTTTTAAATCGAATGTCGGGATGGATACGAAGGTAAATATCTACCGACAGGATTCTACATTTGCCAATGTAAAATTCCTGCCTGCTTTTTATTACCACATCAATAACCGGAATAAAATCGGTTTGAGAGCGACTCTGGAAACCTCTACTATTATTGATACATTATACGTTCAGGGAAAAGATTATAACAAAAAAGGAATCGGGATATGGTATGAAATGACAGAACCCACTGATATTGATCTTTTCCTTTACAAAACAAGGATCAATGCGGGATATGATTTTTTAACAACCACCTATTCTAAGGATAATATCAAAGCCAATCAAAACCAGTTTTATTTCTTTGGAGAACACAATTACCATATTTCAGGAAACCACTTTCTGAACATCAAAGGGGAAGGTGCCATGATGGATTCTAAAATAGAGTTTTCTGCTAATGAATTATATCGTTTCGGAGGTTGGAATTCTATGCGGGGATTCAATGAAAACTCCCTTGCCGCCGATTTTTTCTATTACGGAAGTCTGGAATACAGGTACCTGATCGGCAGCCAGGCATTCTTTGACTTCTTTGGGCAATATGGACAGCTCAATAATAAATCGCTGAAGGTAAAGCCCAAGCTCTATAGCGTGGGACTCGGTTTCAATTTCTTCATTCCTATTGGTCTGATGAGCTTCCAGCTGTCTAATGGTAACGAATTCGGAAATCCTTTTAAGTTTAATGATATTAAAATCCACTGGGGAATCCTGAGTAGGTTTTAG	MGLKLFLKIFFVLFCVFIQAQKKQYWLIDTETKVRKKVKDSTSAVKFLDSLAQSNYFFTQLKDVKVKGDSTEIFYDKGKNFNETYVNLTDSLAQQLKIHKDFFTKNLDSIKKSINKTYIDEGYSFSRIKSRYKGQKNGYPIVELDINKNDKRTIDGFVVKGYEKVPKRFIKNLEKEFKGKNYDDKNLLAINKNFQSHPFLTLERQPQTLFTKDSTNIYLFLEKKKTNTFDGVVGFGNDKTSKFTLNGTMNVNFRNMFNGFETVNLYWQRNPDKGQTFDLRVDIPYLFKSNVGMDTKVNIYRQDSTFANVKFLPAFYYHINNRNKIGLRATLETSTIIDTLYVQGKDYNKKGIGIWYEMTEPTDIDLFLYKTRINAGYDFLTTTYSKDNIKANQNQFYFFGEHNYHISGNHFLNIKGEGAMMDSKIEFSANELYRFGGWNSMRGFNENSLAADFFYYGSLEYRYLIGSQAFFDFFGQYGQLNNKSLKVKPKLYSVGLGFNFFIPIGLMSFQLSNGNEFGNPFKFNDIKIHWGILSRF				NA	NA	NA	NA	NA
BMS003_01294	3141			hypothetical protein	ATGAAGAAAACTTTAGCTACTTTTGCCGTTTTTTTACTTCCCCTTTATTTTTCTGCTCAGGAAATCAATATCTCCGGAAATGTAAAATCTGAAAACGGTTCTAGTGTTTCCGGTGTGAACATCACCGATAAAAACACAGGAAAGACTGCTACTACCGATGAAAATGGTAATTTCACCATTTCCGCAAACCCAAAAGACATTCTTGAATTTTTTGCTCCGGATTTCTCTGTTTATACCGTTGAGGTTTCTTCCCAAAAACAGTATTCCATTGTTTTAAGAAAGACCAACGAAAAGCAGATTGAAGGCGTTGTCATTACTGCATTAGGTATTGCCAAAAAGAAGGAAAAAATCGGATATTCTACTCAGGAAGTGGGAACGAAACAGTTTGAAACCATCACCACGCCAAGTATAGGGAATTTATTCTCCGGACAGGTAGCCGGTCTGAATGTTTCCAATCCGACAGGAATGCAGCAGGCTCCCCAGTTTACCCTGAGAGGAAATTCCAACCTGGTTTTTGTAATTGACGGTGTGATTGTGGAAAAAGAAGTTTTCCAGAATTTAGATCCTAATAATATTGCAAATATTAACGTATTAAAAGGTGCTACTGCTTCCGCTCTATATGGTTCAAGAGGTCGTTACGGAGCTGTTTTGATCACAACAAAAAGTGCTAAAAAGAAAGGCTTTTCTGTAGAATTTTCTCAGAACACCATGATTACAGCAGGTTTTACAAACCTTCCTAAAACCCAGACAGAATACGGAAACGGTTCACACGGAAAATATGAATTCTGGGACGGAGCTGATGGCGGAGTTAATGACGGAGATATGATTTGGGGACCAAAATTTGTTCCCGGCTTACAGATTGCCCAATGGAACAGTCCGATCAGAGATAAAGTAACAGGCCAGGTAGTTCCCTGGTATGGAGCTGTGACAGGAACTCAATATGATGATAAATCAAGATATGAAAGAGTTCCGATTGACTGGAAATACCATGATAACTTAAGTACTTTTTTAAAGCCTGCAGTTATCAACAATAATAATTTTGCAATAAGTTATAGAAATAACAAAGATGTATACAGGTTCTCCGGAAATTTCATGAATTATGATGACAGAGTTCCAAACTCTTATCTTCAGAAATACGGAATCAACTTTTCTTCTGAAAATCATCTTGGAGATAAATTAATCTTTGATACGAAATTCAATTTTAATCAGGCATTTACTCCTAATATCCCTAACTATGATTACAACCCAAGCGGACACATGTACACCATTCTGATTTGGATGGGAGGTGATGTAGACGGAAAAGCCCTGAAAAATCATATGTGGATTCCGGGAAGAGAAGGAACAGCACAGGCTAACTGGAACTATGCATGGTACAACAATCCATGGTTCGGAGCTGAATACTATAAAAATCAGAACAGAACAAATATCATCAATGCACAGACAGGTTTAGAGTATAAAGCAACACAGGATCTTTCGGTAAAAGGAAAAATATCCCTTGTGGAAAACCACAGCAAAACGGAAGTATTAAGTCCTTATTCTTATTTCAACTACAGTGCACCAAGAAGTGGAGGGTATATCTTAAGGGATAATAAAACATGGAATCTCAATTATGATGTGCTGGCAACTTACAAGAAAAAAATATCTGAAAATTTTGACTTTACCATCAATGCCGGAGGGTCAGCTTTCTATTATAAAAACAACAGTAATGAAAGATCTACAGACGGATTGAAAATTCCTGAAGTGTATACTTTTGAAAACTCTATCGGAGCTCTTAAAAACTATACCTATCTGAAGGAAAAGTTAATTTACAGTGCCTATTCTACTATTGATATCGGGTTGTATAATGCTTTCTTCATCAATATTTCAGGACGTAATGACTGGTCTTCCACACTGCCTAAGGCCAACAGGTCTTACTTTTACCCTTCTGCTTCCATCAGTGCCGTTATTTCAAACCTGGTAAAATTACCGGAGTCTGTTAATATGCTGAAGCTTTCCGCTTCATGGGCAAAAGTAGCCTATGACTTCCAGCCTTACGCCATCAGAAATTACTACCTGAATAATCAGGGAATCACATTTAACGGAAATCCTACCTATTATTATCCAACCACACTGAATGTAGAAAATTCTCTGAAGCCGGAGCAGACAAAATCTTATGAATTAGGATTAAGCGCAGGCTTCCTGAATAACAGAATTACTTTAGATGCCACGTATTTCAGGACATTAGATTATAATAATATCCTTCAGTTCCCGGCCGCTGAATCATCTGGTTTCACTTCTCAATATGTAAACGGGAATGAATATACTACGAAAGGTTTTGAAGTTTCCCTTGGTTTAGTTCCGGTAAAAACTGCTGACTTTAGCTGGAAAACATTGATCAACTGGAGTACTTACGAGCAAAAACTGACTTCCATTTATGACAATATGCCTAACTACAAAAACATTAAGTTAGGTGAAAGAATGGACAGCTATTATGATTATACCTGGCAAAAATCTCCGGACGGAAAAGTCATTCTTGATGCCAATTCAGGAATGCCGACAAGAGCTAATAATCCAAGTAACCTGGGACACTTCAATCCGGACTGGACTTTCGGTTTCAATAACACATTCAAGTACAGGAAATTTACTTTAAATATCGGAATTGACGGAAGCATCGGTGGTGTAATGAGATCTCAGGTAGTAGAAAAAATGTGGTGGGGAGGAAAACATCCTAATTCTGTAGCCTACAGAGATCTTGAATATGCAAATCCGGGAACATATTATTTTGTACCGGATGGTGTTAACTATAATCCGGCAACAGGGCAGTATACTCAGCACACAAAAGCCATCAGTTTCCAGGACTGGGCACAGAATTATCCATACAAAGCAAGAGTAACACAGGACGAAAGTGAAGAGTTTGCCAATGTTTTCGACAGAACATTCATCAAGCTGAGATCTGTAGTTCTGGAATATGATTTCTCATCATTACTGAATCCGAAAGGAATGGTGAAAGGTTTCACTGCCAACATTTCTGCCTATAACCTTGCTATGTGGAAAAAATCAAAGAACCTTTATTCTGACCCGGATTTCCAGGCAAAAACGGAGAATGATATCCAGGATCCGTCCAGCAGATGGTTTGGAATCGGTTTTAATCTTAAGTTTTAA	MKKTLATFAVFLLPLYFSAQEINISGNVKSENGSSVSGVNITDKNTGKTATTDENGNFTISANPKDILEFFAPDFSVYTVEVSSQKQYSIVLRKTNEKQIEGVVITALGIAKKKEKIGYSTQEVGTKQFETITTPSIGNLFSGQVAGLNVSNPTGMQQAPQFTLRGNSNLVFVIDGVIVEKEVFQNLDPNNIANINVLKGATASALYGSRGRYGAVLITTKSAKKKGFSVEFSQNTMITAGFTNLPKTQTEYGNGSHGKYEFWDGADGGVNDGDMIWGPKFVPGLQIAQWNSPIRDKVTGQVVPWYGAVTGTQYDDKSRYERVPIDWKYHDNLSTFLKPAVINNNNFAISYRNNKDVYRFSGNFMNYDDRVPNSYLQKYGINFSSENHLGDKLIFDTKFNFNQAFTPNIPNYDYNPSGHMYTILIWMGGDVDGKALKNHMWIPGREGTAQANWNYAWYNNPWFGAEYYKNQNRTNIINAQTGLEYKATQDLSVKGKISLVENHSKTEVLSPYSYFNYSAPRSGGYILRDNKTWNLNYDVLATYKKKISENFDFTINAGGSAFYYKNNSNERSTDGLKIPEVYTFENSIGALKNYTYLKEKLIYSAYSTIDIGLYNAFFINISGRNDWSSTLPKANRSYFYPSASISAVISNLVKLPESVNMLKLSASWAKVAYDFQPYAIRNYYLNNQGITFNGNPTYYYPTTLNVENSLKPEQTKSYELGLSAGFLNNRITLDATYFRTLDYNNILQFPAAESSGFTSQYVNGNEYTTKGFEVSLGLVPVKTADFSWKTLINWSTYEQKLTSIYDNMPNYKNIKLGERMDSYYDYTWQKSPDGKVILDANSGMPTRANNPSNLGHFNPDWTFGFNNTFKYRKFTLNIGIDGSIGGVMRSQVVEKMWWGGKHPNSVAYRDLEYANPGTYYFVPDGVNYNPATGQYTQHTKAISFQDWAQNYPYKARVTQDESEEFANVFDRTFIKLRSVVLEYDFSSLLNPKGMVKGFTANISAYNLAMWKKSKNLYSDPDFQAKTENDIQDPSSRWFGIGFNLKF				NA	NA	NA	NA	NA
BMS003_01295	1521			hypothetical protein	ATGAAAAATAACATAAACAAAGCGAAAGGGCAAAAAGGCAAAACAGCGAAAGGATTAATGAAGGCTATCTTTGCTACAGGACTTCTCACACTGGCTTCATGTGAATCCAACCTTGATACCATCAATGAAAACCCAAATGACCAGGCAAGCATTGATCCTAAATTTCTTCTTACCTATGTGGAAAAGTATACATTCAAGGTAGACGGTGATAATATGTACGCTTCAAGAATGATGATTGGTACTGATGGTGAAAACGCATATCAGTATATGAAATGGAACGACGCATCCTTTGAAGTCTACACAAAAGGACTTCTGAATACAGGAAAAATGATGCAGGAAGCAGATAAGATCAATAATAAAAACTATGCTGCCATTGGTAAATTCCTGAGAGCCTATCATTTTTTCAATATCAGTTTGAAAGTTGGAAGTGCTCCGTATTCTGAAGCTGCAAAAGGAGAATCCGGAATTACGCAGCCTAAATATGATACGCAGGAAGCAATCATGTCCGGAATTTTATCAGAATTAAAAGAAGCCAATGATCTTATTAATACCAATGACAAAATTGAAGGAGACATTGTCTACAACGGGGATGCTTTAAAGTGGAAAAAACTGATCAATTCATTCCGTCTGAAAATACTGATCACTTTATCTAAGAAAACTACAGTAGGAAGTTATAATATTGCTACAGAATTCGCTTCTATTGCAGGAAGCCAGTCTCTTATGACTTCTATTGCAGACAATGGGGAACTTAAGTTTGCTGATGCAGCAGACAGCAGATATACAATGTTTAACAACAGTGGATACGGTTCCAGTCTGTATATGGCAGACTATTTCATCAATATGTTCAAAGACAGGCATGATCCCCGTTTATTTACTTTTGCAGCACAGACTACAGGAGCTAAAGAAGCTGGAAAACCAATCACAGATTATACAGGGTACAACGGAGGAAATCCTACGTCACCTTATTCTGATAATGCTGCACTGATCACAGCAAAAAATATTTCTAAAGTAAACGACCGCTTTTATAAAGATCCTACCAATGAGCCAGCTTCTGTATTAAGCTATTCCGAACTTGAGTTTATTCTGGCTGAAGCTGCAGCAAGAGGCTGGATTTCCGGATCAGCAAAGACACATTATGATAACGCAATCAAAGCAAGTTTCAGTTTTTATCAAAATTATGTAAAAAATTCGGGACAATATTTCTCAGGTTTTGATGTGAACCAATATCTGGCAACCCCTTTGGTAGTTTACAATAATGCTGATCCTCTTCAGACTCAGCTTGAAAAAATCATGACTCAAAAGTACATGACAATGTTCCATCAGGCACAATGGACTTCTTATTATGATTACCTGAGAACAGGATATCCCAATTATCCTCTAAAAGCAGGGGTGGCTGCACCATTCAGATTCAGATATCCGCAATCGGAATACAGCTACAACAGCAACAACTTAAAAGCTGCTCTGGCTGCTCAGTATGGAGGAAATGATAATATCAACTCCAAACCCTGGTGGTTACAATAG	MKNNINKAKGQKGKTAKGLMKAIFATGLLTLASCESNLDTINENPNDQASIDPKFLLTYVEKYTFKVDGDNMYASRMMIGTDGENAYQYMKWNDASFEVYTKGLLNTGKMMQEADKINNKNYAAIGKFLRAYHFFNISLKVGSAPYSEAAKGESGITQPKYDTQEAIMSGILSELKEANDLINTNDKIEGDIVYNGDALKWKKLINSFRLKILITLSKKTTVGSYNIATEFASIAGSQSLMTSIADNGELKFADAADSRYTMFNNSGYGSSLYMADYFINMFKDRHDPRLFTFAAQTTGAKEAGKPITDYTGYNGGNPTSPYSDNAALITAKNISKVNDRFYKDPTNEPASVLSYSELEFILAEAAARGWISGSAKTHYDNAIKASFSFYQNYVKNSGQYFSGFDVNQYLATPLVVYNNADPLQTQLEKIMTQKYMTMFHQAQWTSYYDYLRTGYPNYPLKAGVAAPFRFRYPQSEYSYNSNNLKAALAAQYGGNDNINSKPWWLQ				NA	NA	NA	NA	NA
BMS003_01296	2346			hypothetical protein	ATGAACAGAAGAAAATTTTTAGAAAAATCAAGTCTTTTATTAGCGGGATTAGGAACTTCAAGTGTTCTCCATCCTTCCATTTTAAAAGCATTAGCCATTGATCCGGCTGCACAGTCTACATTTTATGATGCGGAACATGTTGTAATCCTGATGCAGGAGAACCGTTCATTTGACCATGCTTTTGGTGCACTTAAAGGGGTAAGAGGCTTTTTAGACAAAAGAGCTTTCATAAAACAGGATGGTCATTCTGTATTCTTTCAAAAAAATGATAAAGGAAAATATGCCTCTCCTGCCCGTTTGGATTTAAGAAATACCAAATCAACGTGGATGAGCTCACTGCCACATTCATGGGCAGATCAGCAGAAAGCCCTGAACAAGGGAAAATTTGACCAATGGCTTCAGGCAAAAGCTTCAGGCAATAAAGATTATAAAAATATTCCGCTGACATTGGGGTATTATAACCGTGAAGATCTCCCATTCTATTATCAGCTGGCAGACGCATTTACCATATTCGATCAGTATTTCTGCTCTTCCCTTACCGGAACTACTCCCAATAGGCTGTTCCTTTGGTCAGGTACATTGAGGGAACAGCAAAACGGAAAAGTAAAAGCCAATGTTGTGAATGAAAATATTGATTATGACAAAGCAAGACAGGCAAAATGGAAGAGCTTTCCTGAGATTTTAGAGCAGCAGAATGTTTCCTGGAGAATTTATCAGAACGAAATCAGCCTTCCAAAAGGGATGTCCGGCGAACAGGAAGCCTGGTTAAGCAATTTTACCGATAACCCAATTGAATGGTTTTCAAAGTTCAATGTCAAATTCTCAAAAGGATATTATCAGAATATTCCCAATATCATTGCTTATCTGAAAAAGGAGCTTGAAAAAAATCCTAAGCAGAAAGAAAGATTGGAAGCTATGCTGGCTGAAGTTCAGGAAGACCAGATAAAATACCATCCGGATAATTATTCCGGGCTTTCGAAAGAAGAAAAAAACCTTCACGAAAAAGCTTTCACCACTAATGTCAATGATCCTGATTACTGGAAACTGGAAATCGGAAAGGATGAAAATGGTGAAAGACTTGTTGTTCCGGAAGGTGACGTTCTGTTTCAGTTCAGAAAAGATGTAGAAGAGAAAAAACTTCCGCTGGTTTCCTGGCTGATAGCACCGGAACATTTTTCTGACCACCCCGGATCACCATGGTACGGAGCATGGTATATTTCCGAGGTCTTAAATATTCTGACCAAAGATCCTGAAACATGGAAAAAGACAATATTTATCATCAATTACGATGAAAATGACGGATATTTCGATCACGTACTTCCTTTCGCTCCACCGGTGAATCCCAGCCAGCCTGTAGATATGAACGGAAAAGAAGGAGTAGAATATGTGGATAGATCCCAGGAATATATGAGCAATCCTTCTTTGAAAAGTTATGAAAAAATAGAAGGAACTGTTGGATTAGGCTACAGAGTACCCATGATCATCGCTTCACCGTGGACAAAAGGCGGATTTGTAAATTCCGAAGTATCAGATCATACTTCAGTACTGCAGTTTCTGGAGAAATTTATCATGAAGAAATTCAAAAAGAATGTTCATGTGGATAATATCAGTGATTGGAGAAGAGCGGTATGCGGAGATCTTACCTCTGCGTTCAATTCTTCCAGTGTAAAAGCTCCGCAGATGGATTATCTGAATCAGAAAGATTATACTAAAACCATCAATGCGGCTAAAAATAAACCCGTTCCTGATCTGAAATGGTATTCTGAACATGATCTTCATGATAATCTGCTTGAAATTCAGGAAAGAGGGTTGAAGCCATCCAATCCGCTTCCTTATAATTTCCTGGTCAATTTAGAAGGTGAACAAATAAAAATGGTCAATTTAAAAGAAAATGGTGTTCCGCTTTTAATTTATGACAGAACCCAATTTGAAAGTAATAATTATCATTTTTCATATGCCTTATATTCTAAGCAGGAATTGTCTCATGCTGTGCATTCCGGAGCATATGATTATGAAATTTTTGGTCCCAATGGTTTTTTCAGGAAATTTAAAGGACAGAATATATCCGAATTAGAGGTCATTTTGGTAAATACAGCTCCAAAAAGTCAGGTTGAACTGATCATCCGAAACTATAAAAAGAAAAATTTTTCCATCAGCTTAGAAGACCTGTATGGGAAAACCCGAAAAACAATTTCTGTACAAAAGCCTGAAGAAAAGATATCAGTCGATCTTGAGAAAAACAAAGGCTGGTATGATTTGAAAATAACGCTGAACAGCTATATATGGCATTTTGCAGGAAGAATAGAGACCGGAAAAGTATCTGTTTCTGATCCGCACTGGGCATAG	MNRRKFLEKSSLLLAGLGTSSVLHPSILKALAIDPAAQSTFYDAEHVVILMQENRSFDHAFGALKGVRGFLDKRAFIKQDGHSVFFQKNDKGKYASPARLDLRNTKSTWMSSLPHSWADQQKALNKGKFDQWLQAKASGNKDYKNIPLTLGYYNREDLPFYYQLADAFTIFDQYFCSSLTGTTPNRLFLWSGTLREQQNGKVKANVVNENIDYDKARQAKWKSFPEILEQQNVSWRIYQNEISLPKGMSGEQEAWLSNFTDNPIEWFSKFNVKFSKGYYQNIPNIIAYLKKELEKNPKQKERLEAMLAEVQEDQIKYHPDNYSGLSKEEKNLHEKAFTTNVNDPDYWKLEIGKDENGERLVVPEGDVLFQFRKDVEEKKLPLVSWLIAPEHFSDHPGSPWYGAWYISEVLNILTKDPETWKKTIFIINYDENDGYFDHVLPFAPPVNPSQPVDMNGKEGVEYVDRSQEYMSNPSLKSYEKIEGTVGLGYRVPMIIASPWTKGGFVNSEVSDHTSVLQFLEKFIMKKFKKNVHVDNISDWRRAVCGDLTSAFNSSSVKAPQMDYLNQKDYTKTINAAKNKPVPDLKWYSEHDLHDNLLEIQERGLKPSNPLPYNFLVNLEGEQIKMVNLKENGVPLLIYDRTQFESNNYHFSYALYSKQELSHAVHSGAYDYEIFGPNGFFRKFKGQNISELEVILVNTAPKSQVELIIRNYKKKNFSISLEDLYGKTRKTISVQKPEEKISVDLEKNKGWYDLKITLNSYIWHFAGRIETGKVSVSDPHWA	PGPT0023510_191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHOLIPASE_ACTIVITY,PGPT0023510-plc-K01114	NA	NA
BMS003_01297	579			hypothetical protein	ATGAAAAAATTAAATTTAACAGTTGCAATGTCTTTATTTGCATTTGCTCTGTCCGGGAATCTGAGTGCACAGGATACCAATACAGACAACCATACAGTTACCATTTCTATTCCCGAAGTTGCGTTGGTTGATATTGAACCTGCAGCTACCAAAAACATCACTCTTGGATTCACAGCTCCTACTGAAGCAGGAAATCCTATTATTCCGGATGCGGCCAACACTACTTTGTGGCTTAATTATTCTTCAATCAAATCCGTTGCAGATCCTACACGTAATGTAAGTGTAAAAATGAATGCTCTCGTTCCTGGAGTAGACCTTCAGGTAACCGCTGCAGCCGCTACAGGATCAGGAGCCGGAACATTGGGTACATCTGCTGGTCTGTTGACACTAAGTGCAGCCGATCAGACTATTATTTCCGGAATAGGAAGTGCTTATACAGGAAACGGTGCCAATAACGGGCACAATCTTACCTATGCACTTGCTGCAGGAAGTGGTCCGGGCGGTGTAGCAGCTTATGAAGATTTACAGGCAACAGCCTCTGTAGCAGCTACTGTCACTTATACAATATCCGATAATTAG	MKKLNLTVAMSLFAFALSGNLSAQDTNTDNHTVTISIPEVALVDIEPAATKNITLGFTAPTEAGNPIIPDAANTTLWLNYSSIKSVADPTRNVSVKMNALVPGVDLQVTAAAATGSGAGTLGTSAGLLTLSAADQTIISGIGSAYTGNGANNGHNLTYALAAGSGPGGVAAYEDLQATASVAATVTYTISDN				NA	NA	NA	NA	NA
BMS003_01298	780			hypothetical protein	TTGATCACCCTGATTTTGCAGTTCAGCTTTTTACATGCCGGCATTGTGATTCTCAACGGGCTTACGCATTCTTACAAAATAGAAAACGGAAAAGTTTATAAAGGAAAGGTTTCCATTGAAAATACAAGCAATATCCCCCAGACTGTCAAATTATTTCTACAGGATTTTGCTTACCATGCTGACGGAACAATCAATTATACTCCATTACATACCAATAAACGCACCAATGGAGAATGGATAAAACTTAACACAAACCTTGTTACTCTGAAAGGCAAAGAAAAGGCAGATGTGCTTTATGAAATAACCGTCCCCAATCAAACCATAGATCCCGGAAGCTACTGGAGTGTCATTATTGTAGAACCTATAGAGGATATAAAGCCCACTGACAGCAAACCAGGAGTAAGCATCACTTCTGTTATACGATACGCTATCCAGATCATTACAGATATTGAAGCCGAAAAAGCCAGACCGGATCTTAAGTTTGAAAGTGTAAAAGTAGAAAAACAGGAGGGAAAGCAAACGGTAAAAGTTGCAATAGCCAATAACGGAAATCTTTATTGCAAACCTACAACGGCTATTGAAATCTATAACCGGAAAACCGGTGAAAAGCTAGGAACTTATTCAAGTTTAACAATGGGACTGCTACCTGACACCTCTAAAACATTTTATATTGATATCAGTAAAATCCCTCCGGACAAATACAAAGCCACTATAATAGCTACAGATGAAGAAGAGAATGCATTTGCACTCAATGTGGAATTAGAAGTAAAAAATGATTAG	MITLILQFSFLHAGIVILNGLTHSYKIENGKVYKGKVSIENTSNIPQTVKLFLQDFAYHADGTINYTPLHTNKRTNGEWIKLNTNLVTLKGKEKADVLYEITVPNQTIDPGSYWSVIIVEPIEDIKPTDSKPGVSITSVIRYAIQIITDIEAEKARPDLKFESVKVEKQEGKQTVKVAIANNGNLYCKPTTAIEIYNRKTGEKLGTYSSLTMGLLPDTSKTFYIDISKIPPDKYKATIIATDEEENAFALNVELEVKND				NA	NA	NA	NA	NA
BMS003_01299	2652			hypothetical protein	ATGCCGGGAATGTCTACTTCTATTCCTTTCACATTAGAGAATAATTCAGCTGAGAACAAAACTTATGAAATTTCAGTTGCTACTTCCAGCTCCACTATTACGCCCATATTAGCAAAAGGAGAGTTTCAGATTGCCCCTCATGAGACATCAGTTTATCTGGTTCCCTTGCGTATTGCTGCAGAAACAGCTCAGGGTAATTATTCCGTAACTTTGAATATCACCGACCGTTCCAACGGAATATCCTTTACAAAAACATCAGAAATAACAGTTTCTGGACACAGAAATCTTTCTGTCACAGCTCTTGATTCACCGGAATTTGTAAGAGCAGGAGAAGTTATACGAGCTACTTTTCTTTTAAAGAATAATGGCAATATAAAAGAGCATATTATGTTGGAAAGTAAAAATGCAGTACTTAATGGTGAATCTTCATTAGCTTTAGAACCCAATGAGTCAAAAATAATTTCCATACATAAATTAACAAATCCGGATCTCAGGCAAAATGAATTCCAGAATCTAAACCTTTCTGTCTATTCAACTGGTAATCCCGAAGAAAATCAGAGTGTTTACTCGAGCACTCAGGTGATATCGGTAAGACCTTCTGAAGAAGATATTTATCACCGGTTACCTGTTGCAGTTTCAATGTCATTTATCGGAATGCAGAATATGGGAGTCTATAATGATGGTTTTCAGGGAGAGGTCTATGGTAAAGGTACATTTGATAAAGATCATAAAAACCAGGTTGAATTTCGGGCAGTCACCCATAATCCTGTAGAATTAAACACATTCACCCGGTATGAAGAATATTTTTTGAACTATAAACGGGAGAGACTGTCTGTGCATCTTGGTGATAAGACTTACTCTTCATCGTACTTAACAGAGTTTGCGAGATATGGACGCGGGGCAGAAATCCGGTTCGATTTTAATAAAGTGAGTCTGGGCGGTTTTTATAATCATCCCAGGTTTTTCCGGGACATAAAAGATGAGTTTAATTTTTATTCCACTTTCAAAATCCGGAAACAGTCTGAGGTTTCTGTCGGATACTTTTATAAAATTCCACGAAAGGGAGAAATCAGGTATGGAGATGCCGTTCTGGATTCTGAAGCACATCTTCCCTACACTAAGGGAAAATTCAAAATATCAAAAAACATTAATATTTCCGGAGAATTTGCTTACAGTAGTACAAACAAAACTGATGGGGCAGCTTATATGCTACAGGCTGACGCAGTTTTTGAAAAGCTCAACGGAAGCTTAATGTTTGTAAAAGCAAGCCCGGAATTTGCCGGATACTTTACAAACACCAATACTTTTAATGGGAATATTTCTTATAATATTACCAAAAAACTAAGCGTTTTTGCCAATTATATGCAGGATGCCAAAAACTTTCAGCGTGATACTTTATTATTGGCTGCTCCCTATAGAAAATATTTCCAGTACGGACTACAATATAAATACATACCCAGCGGTTTTATCATCCTGAATAACGGCTACCAAACATACAAAGACCGTTTAGAACCCAAGCAGTTTGATTATTATGAACGTTTTTTTAAGATCAGCATCAATCAGCAGATCGGAGTATTTCAGGTAAATATTGATGGTCAGTTTGGAAAAACAGATAATTATATGACAGGGTTTAGTGGTAATTCAAGTTTCTATTCAGCCAATCTCTCATTTCAGAAATTCAGAACCTCATTTAATGTATTTGGAAGCTATGCAGTCAGTTCAAGATATCAGCTCGAAAACCAGAAAAACTTTTATTATGGAGCAAGGATTTTCAGCCGGTTTTCTGATAAGACAAGCCTGAGTCTCTTTTATCAGAACAATTATATGCCTGAAGAATACTTCAAAGACAGAAATTTATTTGAACTTCTGTTCCACCAGCAGCTATTTCCCGGAAATGAACTGGATCTTTCCGGCAGGTACTCATTGCAAAGAGGAGCCATTGGAGATAAGGACTTTATATTCTCCATGCGGTATACATGGCGTCCTAATATTCCGGTACAGAAAACTGCTGATTATGTCACTTTATCCGGGAATATCAGTAATCTGGGAATAAAAAATACGGAAGGAATAAGATTGATGCTTGGAAGCTATTTATCCGCTACAGATAAGAATGGTAATTATATATTTAAAAATGTGATTCCCGGCAATTACTTTCTGGAAATAGATCGTTCAACAACAGAAATCAATGATATTCCTACACAGACTTTCCCGGCTGCTATTTCTCTTATTAATAAAGAAAATGTATTAAATTTTGGATTAACAACAGCTTCTAATGTCAAAGGGCACATCCGGTTCTATCAGACAGAAGAGAAAGATCCGACAGATACAGAACTATTAAAAGCGGTAAAGAGTAAAAAGAAAAAAGAAAGTATTATTGTAGAAGCAGTCAGTAATGATCATACTTATCGTAAAATCTGTTTCATAGGAGAGGATTTTGACTTCACTTACCTTAGACCGGGCGACTGGATCGTGAAAGTATATCGTAATGGACTTGATAAGCGTTATAAAATTTCAACTGATAAATTTCAATTTACTTTAAAACCGGCAGAAACAAAGAAATTAAACATCAATGTTGTCAAACAGCAGATAGAAATCAAATACCAAAAGGAATCCTTAAAAGTAGGATATAATGAAATAAAAAAGAAGAAATGA	MPGMSTSIPFTLENNSAENKTYEISVATSSSTITPILAKGEFQIAPHETSVYLVPLRIAAETAQGNYSVTLNITDRSNGISFTKTSEITVSGHRNLSVTALDSPEFVRAGEVIRATFLLKNNGNIKEHIMLESKNAVLNGESSLALEPNESKIISIHKLTNPDLRQNEFQNLNLSVYSTGNPEENQSVYSSTQVISVRPSEEDIYHRLPVAVSMSFIGMQNMGVYNDGFQGEVYGKGTFDKDHKNQVEFRAVTHNPVELNTFTRYEEYFLNYKRERLSVHLGDKTYSSSYLTEFARYGRGAEIRFDFNKVSLGGFYNHPRFFRDIKDEFNFYSTFKIRKQSEVSVGYFYKIPRKGEIRYGDAVLDSEAHLPYTKGKFKISKNINISGEFAYSSTNKTDGAAYMLQADAVFEKLNGSLMFVKASPEFAGYFTNTNTFNGNISYNITKKLSVFANYMQDAKNFQRDTLLLAAPYRKYFQYGLQYKYIPSGFIILNNGYQTYKDRLEPKQFDYYERFFKISINQQIGVFQVNIDGQFGKTDNYMTGFSGNSSFYSANLSFQKFRTSFNVFGSYAVSSRYQLENQKNFYYGARIFSRFSDKTSLSLFYQNNYMPEEYFKDRNLFELLFHQQLFPGNELDLSGRYSLQRGAIGDKDFIFSMRYTWRPNIPVQKTADYVTLSGNISNLGIKNTEGIRLMLGSYLSATDKNGNYIFKNVIPGNYFLEIDRSTTEINDIPTQTFPAAISLINKENVLNFGLTTASNVKGHIRFYQTEEKDPTDTELLKAVKSKKKKESIIVEAVSNDHTYRKICFIGEDFDFTYLRPGDWIVKVYRNGLDKRYKISTDKFQFTLKPAETKKLNINVVKQQIEIKYQKESLKVGYNEIKKKK				NA	NA	NA	NA	NA
BMS003_01300	534			hypothetical protein	ATGATTTTGATCCGTTCCATAGCATTATTAGTATCATGTATTCTATGTGGTTCTCTTTACTCCCAAACGGCAAGTACTACTGTGACCATAACACTACCCGTAGTAACGTTAATGGACATTGAACCTGCAGGAAGTATTACCCTGAATTTTACAGCTCCTACTGAAGCCGGAAATGCTTTAACAGTTCCTGCCCCCAATACATCAAAATGGATTAATTACACTTCTGCGATTACTTCCGGAGGACTTACCAGAAGAATTACAGCATCTATCAATACACTCATTCCTGGTGTCAATATAAGGGTTCAGGCCGCAGCTGCTTCCGGAGCAGGAGGAGGAACATTAGGTACTTCGGCGGGTCAGGTTATTCTCACCACTACTCCAACTACCATTATCAGTGGCATCGGAGGTGCATATACAGGCAATGGCGCTAACAATGGTCATGCACTTACTCTTTCTTTAGCTACGAATACTTATGCAAATTTACAGACTCAAACCAATACGGCTATTGTTATCACCTACACCATCACAGAATAA	MILIRSIALLVSCILCGSLYSQTASTTVTITLPVVTLMDIEPAGSITLNFTAPTEAGNALTVPAPNTSKWINYTSAITSGGLTRRITASINTLIPGVNIRVQAAAASGAGGGTLGTSAGQVILTTTPTTIISGIGGAYTGNGANNGHALTLSLATNTYANLQTQTNTAIVITYTITE				NA	NA	NA	NA	NA
BMS003_01301	570			hypothetical protein	ATGAAAATCAAAGGTCCCTTTCTGAAAAAACAGTTCTTAAAAAAATATCTATACCTTATTGCTTTAATAATGGGAAGTTATATGGAGGGGCAAACTATAAATATAGCAGGATCCAACTGGACTGTAAGCGTACCCGTGATCACGGAGGCAGGAAGCAACTATACAGGAACTTATGATAATCCCAGCCAACTGACTCTATCTGGTAATTTACCCGGATCTTTCCTAAACCTTCTGACAAGTTCCGGAGCCAAAATCAGTATGCATTATGTTCCTACAACCTGGAACAGTAATCTTCATCTCTATGCAAAAAGAAGTGGAGGAACTGCAACCATCAATGGTCTTTGTATTTTATGTACTGCTACAATCAACGGTGGAACTGCAGCTTTTATTGAAATACCACAGGTATCATCTTCAACATTATCCACAATTACCTTTACTGGAGTATTAGGTCTCGGGAACAGTGTAACTTACTCAGGTATCAATGTACAGCTGGAAATAAGTGGTGTTTCTGTGACAATTCCTGCCGCAACTTACAGCGCACAGATAGTTTTTACCATAGGGCCCAATTAA	MKIKGPFLKKQFLKKYLYLIALIMGSYMEGQTINIAGSNWTVSVPVITEAGSNYTGTYDNPSQLTLSGNLPGSFLNLLTSSGAKISMHYVPTTWNSNLHLYAKRSGGTATINGLCILCTATINGGTAAFIEIPQVSSSTLSTITFTGVLGLGNSVTYSGINVQLEISGVSVTIPAATYSAQIVFTIGPN				NA	NA	NA	NA	NA
BMS003_01302	183			hypothetical protein	ATGAATAAAAAAGGAAACACCAACAAGAAAGAATCTGCCAACACCGCAGAAACCCAAAAGCAAAATCAGGATTTCCAGGATATTCCTGCCGCTTCGAAAAAGACCAATCCGCCTGATATTGATAAGGAAGATATCCAAAAGTCTTCCAAAAATAAATCAGGAAAAACGGATAATACAAAATGA	MNKKGNTNKKESANTAETQKQNQDFQDIPAASKKTNPPDIDKEDIQKSSKNKSGKTDNTK				NA	NA	NA	NA	NA
BMS003_01303	606			hypothetical protein	TTGAGAAACTACAAAACAATATTATCCTTTGTAGCAGGTGCCGGAGCGATGGTACTGCTGTTTTTTGGTCTAAAATCCTGCCTGAATACTGGAAATAAAACTGAAAAGTCAGATTATTATATCCTGACCAATCAGATTTCCAAGATGAATAAAATGGTGGTAATGGAACAGAATACTTCCAGCATGCAGAAAACCAAAATGGGCTATGAAGTCTTTGGGAAAGAAGTTTCCAGCAACAGTATTATTACTTACACAAAGACCAATGCCCAGGTTTCCTATGATCTTAACAAAATGAAGATCGAGGTAGATTCTATCAACAAAAAACTGATTATTACCGAGCTTCCTGATGCTGAAATAAGAATTACTCCGAGTGTTGAAATCCAATCTTTGGATGATTCTTTCTTTAACAGGATTTCCGAGAAGGATATTAAAAATGTTACCCGGAAAGCTAAGGAAACCGCAGAAAAATCTATTGATCAGAATCAGTTGAGGTCTGAAGGACGTAAACAGCTGATGGAAAACCTCAATAATATTTTTGTTCTGGCTAAAGCTTTAAATTACGAAATAGAGGATAAAACCGGAAAAATTGGTATTTTGGGTCTTTAA	MRNYKTILSFVAGAGAMVLLFFGLKSCLNTGNKTEKSDYYILTNQISKMNKMVVMEQNTSSMQKTKMGYEVFGKEVSSNSIITYTKTNAQVSYDLNKMKIEVDSINKKLIITELPDAEIRITPSVEIQSLDDSFFNRISEKDIKNVTRKAKETAEKSIDQNQLRSEGRKQLMENLNNIFVLAKALNYEIEDKTGKIGILGL				NA	NA	NA	NA	NA
BMS003_01304	564			hypothetical protein	ATGAAAAAATTTATTACCAATGTTGTTGTCTTTTCAAGCCTTTTTTTAGCGGCACAACAGTTGAGTGCCCAAAAAGTAGTGGTAAACCGTGAGGTTGACACTCAGAAAGATGGCAAAATGCTTTTAGGTGCCCAGCTAAAAGAGCAGTTTTTGAAAGCTCCTTATGCTGATTGGTATGTGAAAGAACATGATGAGTATGCTATTGACAAACAAGCTGTAAGTGAATTAAGAAAAGGAAAACTCGGGAGTTATGATATCATTGTTTTCATGGGAACATGGTGTGAAGACAGCCACAGAGATTTTCCAAGATTAATGAAAATACTGGAAGAAGCCAACTACCCTGAAAGCAAACTGACTATTATTGCGGTAAACCGTAAAAAAGAATCTCCTGCCGGAGAAGAAAGTCTTTATAATATCCAGAAAGTTCCTACCATTATCCTGAAAAGATACGGAAAAGAGATTGGCCGAATCATAGAAATGCCTACTACAGGATATATTGAAAGAGATTTAGTTCAAATTTTGAAAAAGAATGACTCCTCTGTCTTCAAAGAAATTTTTAAATAG	MKKFITNVVVFSSLFLAAQQLSAQKVVVNREVDTQKDGKMLLGAQLKEQFLKAPYADWYVKEHDEYAIDKQAVSELRKGKLGSYDIIVFMGTWCEDSHRDFPRLMKILEEANYPESKLTIIAVNRKKESPAGEESLYNIQKVPTIILKRYGKEIGRIIEMPTTGYIERDLVQILKKNDSSVFKEIFK				NA	NA	NA	NA	NA
BMS003_01305	468			hypothetical protein	ATGGATAAAATTGATAGTCTGAACCAAGTAGCAGAATTCCATACTACTTTCAAAGCCCCTATTTTAGAGACCCCACAAATTCCTTCTCCGGAAAGATGTAACCTGAGAGTAGAGCTTTTACAGGAAGAATTAAACGAACTGAAGCAGGCCATTGCTGACAATAATATTGTAGAAATTGCTGACGCACTATGTGACCTTCAGTATGTTTTGAGTGGTGCTGTACTGGAATTCGGACTTGGCAGCAAATTTGTAGAGCTATTCAACGAAGTTCAGCGTTCCAATATGTCGAAAGCATGTGACAATGAAGAACAGGCAAAGGAAACTGTTGAATTTTACAAAGAAAAGGAAGTAGAATCTTTTTATGAGAAGTCAGGAGAAAAATTCAATGTTTACAGACAGGCAGATCATAAAGTATTGAAAAACAAACACTACTCTCCTGCTGATTTGAAATCAATTATCGAAAAATAA	MDKIDSLNQVAEFHTTFKAPILETPQIPSPERCNLRVELLQEELNELKQAIADNNIVEIADALCDLQYVLSGAVLEFGLGSKFVELFNEVQRSNMSKACDNEEQAKETVEFYKEKEVESFYEKSGEKFNVYRQADHKVLKNKHYSPADLKSIIEK				NA	NA	NA	NA	NA
BMS003_01306	420			hypothetical protein	ATGTATTCAATATCAGAAAAAATAAACATAACCGGAAAAGCTTCCGTTGAAAAAAGCACTTTTATTAATGATCAGGCTCTTCCTTCAGCGATAACCACTTTCATCTGCTGTGATTGCGGGAACAGAAATACAATTGCAATAGCACCTTACGAATCCGGTTTTCCTGTCCTGCAACTGTACCATGAAGACAAGGTTTTATCTAAAAGTGAATTGTTAAAACACGGAATCGTCAACGGAACCTCTCAAAGAATGTTTCATTTTGGAGAACTGACCGTGAATGATCTTCCTACTTTATATTTTGGTACATATTGTTCTTCCTGCCATTCAAAATACATCTGTATATTCAGCTATGGAGAAAAACAGCCGGGATTGATGATATTGAATATCTCAGGACTCTGGAGATATGAAGAATTAAAATAA	MYSISEKINITGKASVEKSTFINDQALPSAITTFICCDCGNRNTIAIAPYESGFPVLQLYHEDKVLSKSELLKHGIVNGTSQRMFHFGELTVNDLPTLYFGTYCSSCHSKYICIFSYGEKQPGLMILNISGLWRYEELK				NA	NA	NA	NA	NA
BMS003_01307	714			hypothetical protein	ATGAAACATTTATTTAAGTACATCTTCTTTTTGACCATTACTTCGTTATCGGTTGCCTGTAGCTCAGACAATGATGAGGTAATGGATGTCAATCCGGACATTAAAATAGTATTCTACAAAAATGCTGATGAGCTGGCCGCAACTTATGAGAATAACAATCCGGTAAGTGAGGCCATCAAAAATCAGGCATATGATCTGTATAAGCGAGGAAAATGGAGTGAATTGGAATCACTTTTTAAAGCTAACAATTTAAACGGCGGGTGGCCACCAGCAAACGGAGGCTACAATATCGTTGACGATGTTCCTTTACAGGTTGGACAGAAATTTGACAGATACAGCGGAGCTGTAGGCAACTACAACGGAAATGGTGTTCCTACTTTAGGCGGAAGCTTTACAAGCCCGATCATCAACGGATATATATATACTTTCACGCAAAGAGCTTTAAACCAGGCTGAAGATAAATACGACTTCTATTATGAAATTGATGTTTTGAATAACTCCATGCAGTTTAAAACCCAGACAGCAGACATTATTCCCTGGTTCAGCCAGGCAGGGAAAGGAAAACAGACTATGTGGAAAATCCCTGTTGACATCAATACAGGATACCAGAAAACATGGAACAAACTTGCAGAAGAAGGTTACATAAAAATCACCATTAAGAAAAGTCCAAGCGGAAAATACCCTAACTTAGTAGGCACGGTTATTCAGCCATAA	MKHLFKYIFFLTITSLSVACSSDNDEVMDVNPDIKIVFYKNADELAATYENNNPVSEAIKNQAYDLYKRGKWSELESLFKANNLNGGWPPANGGYNIVDDVPLQVGQKFDRYSGAVGNYNGNGVPTLGGSFTSPIINGYIYTFTQRALNQAEDKYDFYYEIDVLNNSMQFKTQTADIIPWFSQAGKGKQTMWKIPVDINTGYQKTWNKLAEEGYIKITIKKSPSGKYPNLVGTVIQP				NA	NA	NA	NA	NA
BMS003_01308	2202			hypothetical protein	ATGCTTGCATTGCCAGGCATTTCTTTCGCACAGACTGACTATTTATGGGCCTCAGTCTCCTCCAGAATATCTTCTCCCATTTTTGAAAACATGTTATCTTTTGAAAATCCACAGCTTTATCATCTGGATATAAATGGATTAAAAAATGTATTGACAAAAGCTCCCCAAAAATTAAAGGAGAAATCTCAGGTTATTATCTCCTTTCCTAATTCAGCAGGTAAAATGGAAAACTTCAAGGTAACAGAAAATTCTAATTTCGAACCTGAACTGGCCGCTAAATATCCGGATATCAAATCTTATATTGGCGTAGATACAGAAAACCCTGCCTCAAAGGTTTATTTCAGTATTTCTTCCCTAGGGCTTTCTTCTATGGAAATGTACCGTGATAAATCTGCCGTTTTTATTCAACCCTACACCAAAGATCTTTCAACTTATATCATTTACAAAAAGTCTGACAGAAAAAACAATTTGAATAAATTCGAATGTAAAGTTTTAGACATAGCTCAAAAAAGGAGTTCAAATTTCACAACCAATAAAAGCGCAGATGATGCTATATTAAGAACATTCAGACTTGCTCTTTCCTGTACCGGAGAATACACTTCTTATTTCGGAGGTACAAAAGCTCAGGCATTAGCAGCTATGAACAATACTATGACCCGTGTAAATGGTATTTTTGAAAATGATTTCTCAGCAAGAATGGTTCTGATTGCCAACAATGACGAGATTATTTATACCGATGCTACTACAGACCCTTATTCTTCCTCTTCACAGATGAACAACTGGAATCTGGAACTTATGAATACATTAAGCTCTACTATCGGAAACGGCAACTTTGATGTAGGTCATCTTTTCGGAAGGGATGGCGGTGGCGGTAACGCAGGCTGCATAGGATGTATCTGTGATAACAATATGTCAACCTTTGAAAATCAGGGTGTAACCTATCCTAGTAGCTACAAAGGGAGCGGATATACTTCTCCTGCAAACGGCATTCCCTCAGGAGATACTTTTGATATTGATTTTGTAGCTCATGAAATGGGACATCAGTTCGGAGCAAACCATACATCATCTTTTCGTACTGAACCGGGATTAAAACCTGTGGAACCAGGTTCAGGATCTACCATCATGGGATATGCAGGCATAACCGATTATGATGTTCAGAATAATTCTGATCCATTTTTTCATATTTTAAATATCGAACAGGTTACCAACACAATTAAAACAAAAAACTGTTCTGTTAATTCTCCTACAGGGAATTCAATTCCTACAGCCAATGCAGGTCTTGATTATATTATCCCCAAAAGCACTCCTTTTATGCTTACAGGAACCGGAGCCGATGCAGACGGAGATCCGCTTACCTATATATGGGAGCAAATGGATATTGGAACGTCTTCTGAAACCGGAGTTAATTCTGCAGCAAAAGACTCAAAAAAAGCAGGACCTATATTCAGATCCTGGAGACCTTCAGATTCTCCGGTAAGATATTTCCCTGTAATGTCTTCTATTTTAGCAGGCTCCAACAAGACAGCAGGAACAGAAATTGATGTAGAGGCTCTTCCATCTGTAGCCAGAACTTTAAATTTCATATTCACCGTTCGTGATAACAAGCCCGGAGGAGGCGGAAACAATTATGATGATACCGAGATCACCGTCAACCCAGCTGCCGGACCATTCATGATCACATCGCAGAATACCGCAATATCATATATCCAGGGAAGCTCACAAACAGTTACGTGGGATGTGGCAGGAACCACAGCCAACGGCATCAATACAGCCAATGTAGACATATTATGGTCAACAGACAATGGTAATACATGGATAACATTACTGGCTGGAGTACCTAACAGTGGCTCACAGACCATAACAATTCCCGATACACTAACAAATTCCGGAAGAATTATGGTAAAGGGAAGCAATCATATTTTCTTTGATATTAATAATGCCAATATTTCTGTAAAATCAGCGGATGACACTTCTTCAGACAGCAATACATCATCCACAGAAATCAAACTGTATCCCAATCCTGTGAAAGATATTCTTACCCTTACCAACACCCGTAATGAAGAATATAAAATCTACGATATGTCCGGAAGACTTGTAAGCGGAGGAAATCTGGAAAGTGGAACTGTAAATGTCAACAAACTGACCAATGGAACTTACACTATTCAGGTTGGAGAGTTTGCAAAACAATTCATTAAAAAATAA	MLALPGISFAQTDYLWASVSSRISSPIFENMLSFENPQLYHLDINGLKNVLTKAPQKLKEKSQVIISFPNSAGKMENFKVTENSNFEPELAAKYPDIKSYIGVDTENPASKVYFSISSLGLSSMEMYRDKSAVFIQPYTKDLSTYIIYKKSDRKNNLNKFECKVLDIAQKRSSNFTTNKSADDAILRTFRLALSCTGEYTSYFGGTKAQALAAMNNTMTRVNGIFENDFSARMVLIANNDEIIYTDATTDPYSSSSQMNNWNLELMNTLSSTIGNGNFDVGHLFGRDGGGGNAGCIGCICDNNMSTFENQGVTYPSSYKGSGYTSPANGIPSGDTFDIDFVAHEMGHQFGANHTSSFRTEPGLKPVEPGSGSTIMGYAGITDYDVQNNSDPFFHILNIEQVTNTIKTKNCSVNSPTGNSIPTANAGLDYIIPKSTPFMLTGTGADADGDPLTYIWEQMDIGTSSETGVNSAAKDSKKAGPIFRSWRPSDSPVRYFPVMSSILAGSNKTAGTEIDVEALPSVARTLNFIFTVRDNKPGGGGNNYDDTEITVNPAAGPFMITSQNTAISYIQGSSQTVTWDVAGTTANGINTANVDILWSTDNGNTWITLLAGVPNSGSQTITIPDTLTNSGRIMVKGSNHIFFDINNANISVKSADDTSSDSNTSSTEIKLYPNPVKDILTLTNTRNEEYKIYDMSGRLVSGGNLESGTVNVNKLTNGTYTIQVGEFAKQFIKK	PGPT0022155_4104	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
BMS003_01309	2931			hypothetical protein	ATGAAAAAACAATTAACGCTGATTGGAATGCTCCTTGTTTCGGGTATTTCTTTCGCACAGGCTGACCGTCTTTGGTCTGAAGGTTCCAGAAAAACTTCATCAGAGATTTTTGAAAACAAAACCGGCATCACCAATCCAAAGGTATACAACCTGGATATCAACGGATTGAAAAATGCACTGGCAAAAGCTCCCAAAAGACTAGCAGTAGGCGAAAAATCAGAACTCATCATCTCTTTTCCGAATTCTGAAGGCAGAATGGAAAATTTTAAAGTGAGAGAGAATTCCAATTTTGCCCCTGAGCTGGCAGCAAAATATCCGGATATCAAATCCTATGTAGGACAAGGTCTGGATGATCCAAATTCCACAGTCTATTTCAGTATTTCTCCACTCGGACTGTCTTCTATGGAAATTTACGGTGATAAATCTGCAGTTTTCATCGAGCCCTACACAAAAGATCTTTCTTCCTATGTAGTGTACAGAAAATCTGACAAAAAAGATGATCTTAACAAGTTTGAATGTACAGTGGTAGATGCTGCACAGAAAGGAGTTTCCAATTCTGCTCTTGCTGCAAGACCTAATGCTGATGATGCCAAACTAAGAACATTCAGACTGGCACTATCCTGTACCGGAGAATACACCGCTTACTTTGGAGGTACAAAAGCTCAGGCTTTAGCTGCAATGAACACCACGATGACCCGTGTAAACGGTGTTTTTGAAAAAGATTTTGCAGCCAGAATGGTTCTGATTGCCAACAATGATTCCGTTATCTACACCAATGCCTCTACAGACCCTTATTCTTCTGCTTCAGGGATGAGCAACTGGAATTCTCAATTGCAGAGCACTCTGACGTCTGTAATTGGTGAAGCTAATTATGACATCGGACACCTGTTCGGAGCTTCAGGTGGCGGCGGAAATGCAGGATGCATTGGCTGTATCTGTACAAACGGATCAAAAGGAAGCGGATATACTTCTCCTGCAGACGCTATTCCTTCAGGAGATAATTTCGATATTGACTATGTGGCTCACGAAATGGGACATCAGTTTGGCGGAAATCACACATTCTCTATGAGCAATGAAGGGACAGGAGCTAATATGGAGCCCGGATCCGGATCAACTATCATGGGTTATGCAGGAATTACCAGCCAGGATATCCAGCCCCATTCTGATGCATTCTTCCATGCAATAAGCATTCAGCAGATCACGAATAATATCAAAGCTAAAACTTGCTCTGTTAATACCAACACCGGAAATTCAATTCCTACAGCTAACGCAGGTTCAGATTATACAATTCCAAAAGGAACTCCATTCGTTCTTACCGGTACAGGAACAGACGCTGACGGCGATTCTCTAACCTACATCTGGGAACAAATGGACAATGCTTCTTCTTCTCAGACAGGAGCAAGTTCAGCTGCAAGTGCTACAAAAACATCGGGTCCAAACTTCAGATCATGGACGCCTACAACATCTCCTGCAAGATATTTCCCGAGAATGGCTTCTATTTTAACCGGAGCAACAACTACAGCCGGTTCTGAAATAACAGTAGAAGCTCTTTCCTCAGTTGCCAGAACATTAAACTTCAGATTTACCGTTCGTGACAACAAAGCAGGAGGTTCAGGAAATAATTCTGACGATGCCGTAATCACTGTTAACGGAACTGCAGGACCATTCAGCATAACTTCTCAGAATTCAGCCACAACATATGCAGGAGGAAGTTCTCAAACTGTTACATGGAATGTAGCAGGAACTACAGCTAACGGAGTAAATGCTGCCAATGTAGACATTCTTTGGTCAACAGACAGCGGAAACACATGGACCACCCTATTAGCAGGAACTCCAAATGACGGCTCACAGGCTGTGACTATTCCAAATTCTAATACAAGTACAGGAAGAATTATGGTAAAAGGATCAAATCACATTTTCTTTGATGTCAACAATGCCAATATCTCTGTAAATGCAGGTTCGGGAACTCCTGATACAACAGCTCCTACAGCACCTACTCTTGCTGCTTCTGGAACTACTGCCACTACAACCAATCTTTCATGGTCTGGCGCTACAGACAATGTGGGAGTTACCGGATATGATGTATATCAGGGAGCTTCATTAATTGGTTCTACAGCCTCTACTACTTATACCGTAACAGGACTTACTCCGTCAACAACGTATTCTTTCTCTGTGAAAGCAAAAGATGCAGCAGGAAATGCATCTGTTTCCAGCAATACAGTAAGCGTTACTACTCTTTCAGGAGGAACTGTTTCATACTGTTCTGCATCAGCAAACAATACAGCTGATGAAAGAATCGGAAATGTAAAATTCGGGTCTATTAACAATACTTCTACAGGAACTGCAGGTTATGAAAACTTCACTTCAGTTTCTACTAATGTTACAAGAGGAAGCTCTTACACAATTTCCATTACTCCAGTCTGGACTTCAACAAAATATAGTGAAGCATATGCTGTTTACATTGATTACAACGGAGACGGTGACTTTACAGACAGTGGAGAACTAGCATGGACAAAATCAGGATCTACCACCAGCCCTGTTACAGGATCTATTACAATCCCATCTACAGCATCTATCGGATCTACAAGAATGAGAGTAATTATGAAGTACAGCTCAATCCCGACTTCTTCATGCGGAACATTTACCTATGGACAGGTAGAAGATTATACCCTTAATATTGTTTCTTCAGGAAAAGGAGATCTTCAGGATACAAAAGACCTGATCACAGATGTGAAGCTTTATCCAAACCCTGTGAGAGATATGCTTTATATTTCAAATACGACTTCAGAAGATTATAAAATCTTTGATATGGGTGGAAAACTAATTGACTCAGGAAAACTTCAGCGAGGATCTGTGAACGTAAGCAATCTTATCAAGGGTGCTTATATGATTCAAATTGGAGAATCTGCTAAGAGATTTATTAAAAATTAA	MKKQLTLIGMLLVSGISFAQADRLWSEGSRKTSSEIFENKTGITNPKVYNLDINGLKNALAKAPKRLAVGEKSELIISFPNSEGRMENFKVRENSNFAPELAAKYPDIKSYVGQGLDDPNSTVYFSISPLGLSSMEIYGDKSAVFIEPYTKDLSSYVVYRKSDKKDDLNKFECTVVDAAQKGVSNSALAARPNADDAKLRTFRLALSCTGEYTAYFGGTKAQALAAMNTTMTRVNGVFEKDFAARMVLIANNDSVIYTNASTDPYSSASGMSNWNSQLQSTLTSVIGEANYDIGHLFGASGGGGNAGCIGCICTNGSKGSGYTSPADAIPSGDNFDIDYVAHEMGHQFGGNHTFSMSNEGTGANMEPGSGSTIMGYAGITSQDIQPHSDAFFHAISIQQITNNIKAKTCSVNTNTGNSIPTANAGSDYTIPKGTPFVLTGTGTDADGDSLTYIWEQMDNASSSQTGASSAASATKTSGPNFRSWTPTTSPARYFPRMASILTGATTTAGSEITVEALSSVARTLNFRFTVRDNKAGGSGNNSDDAVITVNGTAGPFSITSQNSATTYAGGSSQTVTWNVAGTTANGVNAANVDILWSTDSGNTWTTLLAGTPNDGSQAVTIPNSNTSTGRIMVKGSNHIFFDVNNANISVNAGSGTPDTTAPTAPTLAASGTTATTTNLSWSGATDNVGVTGYDVYQGASLIGSTASTTYTVTGLTPSTTYSFSVKAKDAAGNASVSSNTVSVTTLSGGTVSYCSASANNTADERIGNVKFGSINNTSTGTAGYENFTSVSTNVTRGSSYTISITPVWTSTKYSEAYAVYIDYNGDGDFTDSGELAWTKSGSTTSPVTGSITIPSTASIGSTRMRVIMKYSSIPTSSCGTFTYGQVEDYTLNIVSSGKGDLQDTKDLITDVKLYPNPVRDMLYISNTTSEDYKIFDMGGKLIDSGKLQRGSVNVSNLIKGAYMIQIGESAKRFIKN	PGPT0022155_4173	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
BMS003_01310	498			hypothetical protein	ATGATTAAACAAGCCTTATTAGGTGAATTTCTGCATGAAGCAGAAAACACAAGAAAAATTTTAAAAGCAATCCCCGACAGTGCTTTAAATTGGAAACCATCTGAGAAAAACTGGACAACAGGTCAGCTGGCTTCTCATATTGCAGAAGTTTATAACTGGTATGAATCCACTTTCAATCAGGATGTTTTTGACATGGGTACTTATAAGTATGATAAAGGAGATATTTCCAAAGCAGAAAATATTGTTGCCAAGTTTGAGGAAAATGTAGCAAAAGCTCAGAAAGTCCTTGAAAACTCTGATGAAAATGCTTATTTCAACGAATGGAAAATGGAAATGGATGGTAATGTACTTTTCCCTCCCATGCAAAAAATTCAGGTAGTAAGGGCTTTTCTTTACAATCATTTGTATCATCACAGAGGAGAACTGGTTGTCTATTTAAGATCAACAGGAAATAAAGTTCCGGGACTTTACGGTCCTACTGCTGATGATAATATGTAA	MIKQALLGEFLHEAENTRKILKAIPDSALNWKPSEKNWTTGQLASHIAEVYNWYESTFNQDVFDMGTYKYDKGDISKAENIVAKFEENVAKAQKVLENSDENAYFNEWKMEMDGNVLFPPMQKIQVVRAFLYNHLYHHRGELVVYLRSTGNKVPGLYGPTADDNM				NA	NA	NA	NA	NA
BMS003_01311	1140	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGAATACAGAGACTATTGACAACATCAAAATGATAGCGGAGACGGCTAGAGAATTTGCAGAAAAGAACATCAGACCGAATATTATGGAATGGGATGAAAGCCAGACTTTTCCAAAAGACTTATTCCACCAGTTAGGTGAGATGGGTTTTATGGGAATTGTTGTTCCTGAACAATACGGAGGTTCCGGCCTGGGTTATCATGAGTATGTTACAATTCTGGATGAAATTTCTCAGGTTGACCCCTCTATCGGTCTTTCTGTAGCAGCACACAACTCTCTTTGTACTAATCATATCTATGAATTCGGAAATGAAGAGCAGAGGCACAAATGGCTTCCTCAGCTAGCTTCAGGAAAAGTAATCGGAGCCTGGGGACTTACAGAGCACAATACAGGTTCAGATTCAGGAGGTATGTCTACCACTGCCGTAAAAGATGGTGATGAATGGATCATTAATGGAGCCAAAAACTTTATCACTCATGCTATCTCAGGAGATATTGCCGTAGTTATGACAAGAACGGGCGATGTAGGTGCTAAAAATAACTCTACAGCTTTTGTTTTAGAAAAAGGAATGCCTGGATTTACCTCAGGAAAAAAAGAAAATAAACTGGGAATGCGTGCTTCTGAAACAGCAGAATTAATTTTTGATAATGTGCGTGTGCCAGATTCTCACCGCTTAGGAGAAGTTGGAGAAGGATTCAAGCAGGCTATGAAAGTATTGGATGGTGGTAGAATTTCTATTGCTGCCTTAAGTTTAGGGACTGCAAGAGGAGCATACAAAGCTGCTTTGAAATATGCAAAGGAAAGACATCAGTTCGGGAAACCTATTGCAGATTTCCAGGCAATCAACTTTATGCTGGCTGATATGGCAACAGAAATTGATGCAGCAGAACTTCTTATTCAGAGAGCTTCTACTTTGAAAAACGCAAAACAGAAAATGACAAAAGAAGGAGCAATGGCTAAGCTGTATGCTTCGGAAGCTTGTGTCAGAATTTCCAATAATGCAGTTCAGATCTTTGGAGGATACGGTTATACAAAAGATTTCCCGGCGGAAAAGTTCTATAGAGACTCTAAGCTTTGTACCATCGGTGAAGGTACTTCTGAGATCCAGAGACTGGTTATCGGAAGAGATATTACCAAATAA	MNTETIDNIKMIAETAREFAEKNIRPNIMEWDESQTFPKDLFHQLGEMGFMGIVVPEQYGGSGLGYHEYVTILDEISQVDPSIGLSVAAHNSLCTNHIYEFGNEEQRHKWLPQLASGKVIGAWGLTEHNTGSDSGGMSTTAVKDGDEWIINGAKNFITHAISGDIAVVMTRTGDVGAKNNSTAFVLEKGMPGFTSGKKENKLGMRASETAELIFDNVRVPDSHRLGEVGEGFKQAMKVLDGGRISIAALSLGTARGAYKAALKYAKERHQFGKPIADFQAINFMLADMATEIDAAELLIQRASTLKNAKQKMTKEGAMAKLYASEACVRISNNAVQIFGGYGYTKDFPAEKFYRDSKLCTIGEGTSEIQRLVIGRDITK	PGPT0002285_780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS003_01312	1914			hypothetical protein	ATGAAAAAAATTTTACTTCCTATTCTTTTAATTTCCTCTTATATTGCTGCGCAGGCACCTGCCGGTTATTATAACGGAACAGCCGGATTGACGGGATACGCCCTGAAATCAAAGCTTCACGATATCATTTCGGAGAAAATGATCAACTGGCATTATGATGATCTTAAAGGTTATTATGGACAGACAGATCTTGACAAATATTATGACCACGATGCTTCCAATACTCAGTATCTGCTGGATATCTATTCTGAGATCCCTTCAGGCACGGATGCTTATGAATATACGGTAGATCAGATAACAAGTACAGCAGGTTCTGAAGGGCTGGGATATAACAGAGAACATATGATGCCGCAAAGTACCTTCAGTACAAGCTCATCCATAAGCGATTATCCTATGTATTCGGATCTGAATTTTATTATCCCGGTTGATGCTTATATCAATCAGCGGAGGAACAATTACCCTTATGGAGAGGGTGGAAATACTAATTTCTATAATTTTACAAACGGTTCCCGAATGGCTAATGCTGCTATTCCAAACTATCCTTATACAGGAAGAGTATATGAGCCTATTAATGAGTTTAAGGGTGATGTTGCAAGAACTTTACTGTATTTTGCGGTAAGATATGAAGGAAAATTAGGTTCGTTCAATACAGCTTACAGCACATCTGCGAACATTACCCCGGCTACAGACCAATGCCCGCTTGACGGAACAGAAGAAAGAGCTGTTGATCTTCCATATATTGCCATGCTGAAGCAATGGAGTGCTGCAGATCCTGTTTCACAAAGAGAAATCGACAGAAATAATGCGATCTATACCATACAGAAAAACAGAAATCCATTTATAGACCATCCCGAATGGATTGATATGATCTGGTCTGAAACACCGGATAATGTAGCGCCTGCTGCTCCGGGATCGCTGGTTTCAACACAGCAGAATGCTTATTTCGTTAATTTGAACTGGGCGGCTTCTCCTGATGCTGATGTTTTGGGATACAGAATTTATATGAATGGCTCTACAACTCCTGTAGCAGTTACCAAAGGAACATCTATAAGTATTGACCATTTAAGTCCGTCAACTTCTTATACCTTTACCGTAAAAGCTTTTGATAAAGGATATCTGGAGTCTCCGTTCAGTAATACCATTACAGCTTCTACGATAGCTTCGGATTCTTATGCGCCGGATCTTATGATCACCAAATATATTTCCGGAACCAATACAGATTTCGTTAAAAATAACGCTCTGGAGATTGTTAATAAAACAGGACATGAAGTTAATTTAAATAATTACAGAATCAATATTCAGTTCAGAAACAGCAGCTCAGGAGCTTACTATAGCGGAGATACCTATGAACTGGAAGGTAAAGTAGGAAATAATGAAACGTTTGTTATTTTAAATCCAAAAGGTACTTTATCATGCTATACCAGTGACCAGGCAAAATTTGCAACAGCTTCTGATCCTATGACATTTTCCGGAGGAAACTATGTAGAGCTGGCTTACAATAAAACGGTGACAGTGGATGCTATTGGAACGAAATTTACAATCAACAATAATGGAAATTTGTCTTTATACAGAAAGAGTACTGTCAATCAGCCAAACAGTACATTCAGTATAGGGGAATGGGATTCTTATCCTTCCAATTACTGTCAGAATCTGGGAGGGACATTATCTACAGCAGAGCTGATTGCTGCTCACAAAGAATTTACAATTTATCCGAATCCGGTTTATGATAATCTTTATGTGAACGGAGAAACGCAAAATATACAAACCGCCCAGATCATAGATCTTTCAGGGAAAATTATTTACACAGAGAAAGATCCTTTCAGAAATAAGAAAAATATTTCTGTACAGGGAATTCCGGCAGGTATATATTTCTTAAAGCTTGATGAGAAAGCACATCAGTTTATTAAAAAGTAA	MKKILLPILLISSYIAAQAPAGYYNGTAGLTGYALKSKLHDIISEKMINWHYDDLKGYYGQTDLDKYYDHDASNTQYLLDIYSEIPSGTDAYEYTVDQITSTAGSEGLGYNREHMMPQSTFSTSSSISDYPMYSDLNFIIPVDAYINQRRNNYPYGEGGNTNFYNFTNGSRMANAAIPNYPYTGRVYEPINEFKGDVARTLLYFAVRYEGKLGSFNTAYSTSANITPATDQCPLDGTEERAVDLPYIAMLKQWSAADPVSQREIDRNNAIYTIQKNRNPFIDHPEWIDMIWSETPDNVAPAAPGSLVSTQQNAYFVNLNWAASPDADVLGYRIYMNGSTTPVAVTKGTSISIDHLSPSTSYTFTVKAFDKGYLESPFSNTITASTIASDSYAPDLMITKYISGTNTDFVKNNALEIVNKTGHEVNLNNYRINIQFRNSSSGAYYSGDTYELEGKVGNNETFVILNPKGTLSCYTSDQAKFATASDPMTFSGGNYVELAYNKTVTVDAIGTKFTINNNGNLSLYRKSTVNQPNSTFSIGEWDSYPSNYCQNLGGTLSTAELIAAHKEFTIYPNPVYDNLYVNGETQNIQTAQIIDLSGKIIYTEKDPFRNKKNISVQGIPAGIYFLKLDEKAHQFIKK				NA	NA	NA	NA	NA
BMS003_01313	606			hypothetical protein	ATGATAGCGGTCATTACCGGTGATATTATAAATTCACAGCATGCGGATACTGAAGTTTGGATTACCAGACTTAAACATCTTCTCGAAAAATGGGGAAGCGCTCCTCACACATGGGAAATCTACAGAGGAGATGAGTTCCAGTTTAAATGTAAGATTGATGACGTTTTCTGGCGTTTTCTAGCCATAAAATCTCTTATTAAAAGTCAGGAAAATTTAGATGTAAGAATGGCCATAGGTATTGGTGAAGAAAGTTTCTCTTCTGAAAAAATTACAGAATCCAATGGTACAGCTTATGTAAATTCCGGAAGGCTTCTTAATGATCTTAAAAATGACGGGCATACTGTTGCTATCAAGACATCGAGTGACCCTGTGGACAGAGATCTTAATATTCTTTTGAAATGGTCGTCCAAAGACTTTGATAACTGGACGATGGCTACAGCGGAAATCATTCATGAAATGATCATGAATCAGGATATCACTCAGGAAGATCTTGCTAAGAGATTTGCCATTTCACAGTCTTCGGTAAGCCAGAGACTGAAACGAGCCAATTATGAGCTCATCGTGGAAACCAATCAGTATTTCAGAAAGAAAATCTCAGAACTATAG	MIAVITGDIINSQHADTEVWITRLKHLLEKWGSAPHTWEIYRGDEFQFKCKIDDVFWRFLAIKSLIKSQENLDVRMAIGIGEESFSSEKITESNGTAYVNSGRLLNDLKNDGHTVAIKTSSDPVDRDLNILLKWSSKDFDNWTMATAEIIHEMIMNQDITQEDLAKRFAISQSSVSQRLKRANYELIVETNQYFRKKISEL				NA	NA	NA	NA	NA
BMS003_01314	696			hypothetical protein	ATGATCTTTATCAAACTCATATTGGCACATCTACTCGGAGATTTTATACTTCAGCCAAATTCATGGGTTGCAGATAAGGAAAACTATAAACTGAAAAGTAAGTTTTTATACCTTCATGTTCTGATTCACATTATTTTAAACCTTATTTTTCTTTGGGATCTTCAGCTTTGGTGGGTTGCAGTATTGGTGGGAATTACCCACTTCATTATTGACGCAGCCAAGCTTGTTTTTCAAAATATAAAGACTAAGAAAATATGGTTTTTCATAGACCAGTTATTGCATGTTCTGGTGATTGCAGGGATGTCTTTTTATTTCCGGGAATTCAGTTTCGGATTTTTACAGGATAATGAATTTTTAAAGATCATTATGGCGGCACTGTTTCTTACAACACCTGCGTCTATTTTTATCAAAATCTTACTGTCATCATGGACTCCCGCTCCGGATGGCACTAATACTATTCAAACCGAATCTTTATCAAGTGCCGGAAAATATATCGGAATTTTAGAACGCCTGCTGGTTTTCACCTTTATTATGGTGAATCATTGGGAAGGCGTAGGTTTCATGGTGGCTGCCAAATCTGTTTTCAGATTCAGCGATCTTGCACAGGCAAAACAGAGAAAGCTTACAGAATACGTACTAATTGGTACACTGCTGAGTTTCGGACTGGCTGTCTTAACAGGAATAATAATAAAATAA	MIFIKLILAHLLGDFILQPNSWVADKENYKLKSKFLYLHVLIHIILNLIFLWDLQLWWVAVLVGITHFIIDAAKLVFQNIKTKKIWFFIDQLLHVLVIAGMSFYFREFSFGFLQDNEFLKIIMAALFLTTPASIFIKILLSSWTPAPDGTNTIQTESLSSAGKYIGILERLLVFTFIMVNHWEGVGFMVAAKSVFRFSDLAQAKQRKLTEYVLIGTLLSFGLAVLTGIIIK				NA	NA	NA	NA	NA
BMS003_01315	723	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGAGTCAAAAGAAAGAAATGTTGTACGAGGGGAAAGCAAAACAGGTATTTGCTACCGATAATCCTGATGAAGTAGTAGTACGTTTCAAAGACGATGCTACAGCATTTAATGCTCAAAAAAGAGGTCAGGTAGATCTTAAAGGGGAAATGAATAACGCCATTACAACCCTTATTTTTGAATACTTAAATGAGAAAGGGATCAAAACTCATTTCATCAAAAAATTGGACGAAAGAGAGCAGTTGGTAAGAAAAGTTTCTATCATTCCTTTGGAAATGGTGGTAAGAAACTATTCTGCCGGAAGTATGGCACAAAGATTAGGAGTGGAAGAAGGAATCAAATCTCCGGTAACCATCTTCGATATCTGCTACAAAAAAGATGAGTTGGGAGATCCGCTTATCAATGATCACCATGCTGTTTTCTTAGGTGCGGCTACTTACGAAGAGCTTGACGAAATGTATGAGTTATCTTCAGATATCAATGACATTCTTATCGACCTGTTTGACAAAATCAATATCATCCTGGTAGATTTCAAAATCGAATTAGGTAAAACTTCAGACGGAGAAATTATTTTAGCAGACGAAATCTCTCCTGATACCTGTAGACTTTGGGATAAAGATACTATGAAGAAATTAGATAAAGACAGATTTAGAAGAGACTTGGGAGAAGTTACAGAAGCTTATGTTGAAATCTATAACCGTCTTAAGAATCTTTTACAGAAATAA	MSQKKEMLYEGKAKQVFATDNPDEVVVRFKDDATAFNAQKRGQVDLKGEMNNAITTLIFEYLNEKGIKTHFIKKLDEREQLVRKVSIIPLEMVVRNYSAGSMAQRLGVEEGIKSPVTIFDICYKKDELGDPLINDHHAVFLGAATYEELDEMYELSSDINDILIDLFDKINIILVDFKIELGKTSDGEIILADEISPDTCRLWDKDTMKKLDKDRFRRDLGEVTEAYVEIYNRLKNLLQK	PGPT0021565_3575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS003_01316	1500	purF_1	COG0034	Amidophosphoribosyltransferase	ATGAAAAGTTTAGACATTCATAAAAGTGAATATTTAAAACAGTTTGAATCCCAGACTTACGGAAGGAATCTTTTCAGAACTCAGGAAGAGGAAAGACTGGATGCTCCTAATGAAGAATGTGGGATCTTCGGATTGTATTCGGATAATGATCTGGATACTTTCTCGCTTTCACAGTTCGGACTTTTTGCATTACAGCACAGAGGTCAGGAAGCTTGTGGTATTTCCGTTTTAAAAGAAGGGAAAATCACCAACATGAAAGACGAAGGACTGGTTTTGGATGTTTATAAAGAAATTCAGGAACCTGAAACTTTTATGGGAAATTCTGCAATTGGGCATACCCGTTATACTACTGCAGGAGATAAAAAGAAATATAACTTCCAGCCATTTTTCGCAAAAAACGAATATGACCAGATTATACTTTCTATAGCACATAACGGTAACCTTACCAATGCAAAAGAATTAAAAGCGGAATTAGAAGCGGAAGGAGTGGTTTTCAGAGCGACTTCCGATTCTGAAGTGATCCTGAGACTGATCCAGAAAAACCTTGATTTAGGTCTTCGTGGTGCCATTAAAGCAACTATGGAAAAGATCGAAGGAGCTTATTCCGTAGTCGGAATGACCAGAAATAAATTCTTTGCATTCAGAGATTTCAACGGAATCCGTCCGTTGGTATTAGGTGCTATTGACGAAAAATCTTATGTGGTAGCTTCAGAATCTGTTGCACTGGATGCTGTAGGTGCGCAATATGTACGTGATATTCTTCCAGGCGAGATCATTTATACCAATGAAAATGAACCGGGAAAACTTCATTCTTATATGATGGATGAAGAAAAAGGAAAGCAGAGAATATGTTCTTTTGAATATATTTATTTTGCAAGACCTGACTCTACCTTAGAAAACATCAATGTATATGAGATCAGAGAAAAATCTGGAGAGAAGATCTGGGAACAGGCTCCCGTAGAAGCAGATTTGGTGATTGGAGTTCCGGATTCCGGAGTCCCTGCTGCCATTGGTTTCTCCAAAGCTTCAGGAATACCTTTCCGTCCTGTTTTGATCAAAAACAGATATATCGGAAGAAGTTTTATTGTTCCTACACAGGAAATGAGAGAAAGAGTGGTAAACCTTAAGCTGAACCCGATCATCTCTGAGATGAAAGACAAAAGAGTTGTCATCATTGATGATTCTATCGTTCGTGGAACAACATCCAAAAGACTGGTTAAAATATTGAAAGATGCAGGCGTAAAAGAGATTCACTTCAGAAGTGTTTCTCCACCTATTATCGCTCCGTGTTATCTGGGAATTGATACTCCGTCTAAAGATGATCTGATCTCTGCCAATATGTCTACAGAAGAACTTAAAAACTATCTGGGAGTAGATTCCTTAGAGTTTTTAAGCATAGACAATCTGAAAGACATCTTAGGATCAGCTAATCACTGTTTCGGATGCTTTACAGAAGAATATCCTGTAGGAAAAGGAGAGGAGGTAGATTTATTCAATTAA	MKSLDIHKSEYLKQFESQTYGRNLFRTQEEERLDAPNEECGIFGLYSDNDLDTFSLSQFGLFALQHRGQEACGISVLKEGKITNMKDEGLVLDVYKEIQEPETFMGNSAIGHTRYTTAGDKKKYNFQPFFAKNEYDQIILSIAHNGNLTNAKELKAELEAEGVVFRATSDSEVILRLIQKNLDLGLRGAIKATMEKIEGAYSVVGMTRNKFFAFRDFNGIRPLVLGAIDEKSYVVASESVALDAVGAQYVRDILPGEIIYTNENEPGKLHSYMMDEEKGKQRICSFEYIYFARPDSTLENINVYEIREKSGEKIWEQAPVEADLVIGVPDSGVPAAIGFSKASGIPFRPVLIKNRYIGRSFIVPTQEMRERVVNLKLNPIISEMKDKRVVIIDDSIVRGTTSKRLVKILKDAGVKEIHFRSVSPPIIAPCYLGIDTPSKDDLISANMSTEELKNYLGVDSLEFLSIDNLKDILGSANHCFGCFTEEYPVGKGEEVDLFN	PGPT0020225_2822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
BMS003_01317	708			hypothetical protein	ATGAAGAAGTTATTTTTAGGAATAGCATTAACTGCTGGTACACTAGCTTTTGCTCAGGAAACAGAAACTAAAACAGTAAATGCATCACCACTAAAAAAAGATGTTCAACCCGTTAGATTCGGGATTAAGGCAGGAGGAAACTCGTCTTATTTCAGTCAGCAGAAGTTTGGTATTAATAGTCAGCAATTAGGATTTCATGCAGGTGCATTTGTGAATATTCCTATTTCAAAACAATTCAGCTTTCAACCTGAAGTTTTATACAACCAGATGGGGGCAAAAGATGTTATCTCTTCCCTGGAAACCGATAACGGAGTTACGAATGTAAAAACTAAAGTTCAGGACAGAGTAAAGATGAACTACATTTCAGTTCCATTAATGGTTCAAATGAGACCTATTGATAAGTTTTATATTGAAGCTGGACCGGAATTCAGTTATTTCATCAACGGAAAAAATAAAGGAGAAAAAACTGTAGCAAGCACTACAGGAGGGGTTACAACAACTACTTCAAGTTCTCACACTGAGGATATCGACAAAGATCAGATCAACAAATTTAACTTCGGATTAGGTCTTGGTTTAGGATATGATATCACTTCCAACATCGGAATCAGTGCAAGATATGTAAACAGTCTGACAAAAATTGATAAAAGCAAACCTGCCGCTGAAAACAATAACAGAGTATTTCAGTTAGGACTGAACTATAAATTCTAA	MKKLFLGIALTAGTLAFAQETETKTVNASPLKKDVQPVRFGIKAGGNSSYFSQQKFGINSQQLGFHAGAFVNIPISKQFSFQPEVLYNQMGAKDVISSLETDNGVTNVKTKVQDRVKMNYISVPLMVQMRPIDKFYIEAGPEFSYFINGKNKGEKTVASTTGGVTTTTSSSHTEDIDKDQINKFNFGLGLGLGYDITSNIGISARYVNSLTKIDKSKPAAENNNRVFQLGLNYKF				NA	NA	NA	NA	NA
BMS003_01318	648			hypothetical protein	ATGAAAAAGTTAATTTTAGGATTAGCGTTAACTGCAGGAACATTCGCATTCGCTCAACAGACAGGAAACACGTCTTCTAATCCGGTAACATTCGGGGTAAAAGGAGGAATGAACGTATCTTCATTATCTAACGGTGCAGACCTAAGTGACTCTAAATCAAAAATCGGCTTTAATGCAGGAGTTTTTGCTAATATTCCATTAGCAAGTTCTTTTAGTGTGCAGCCTGAGGTTATTTACAATGATTTGGGTTCAAAAGTAACCAGAGAGTATTCCGTACTTGGAAATAACTATAAAAGTGAATATTCAAGAAATTTAGGATATGTTGCTGTTCCAGTAATGTTCCAGTATAATGCGACCCCTGCGTTCTTCCTTGAAGCAGGTCCGGAATTCGGATTTCTTGTAAGCGCTAATGATAAACTAAAAAGCTCAACAAACAATAGTAATAGCACACAGATTTCAAGCCTTAACAAAGATGATTTCCAAACATTTAACTTTGGTATTGGTCTTGGTGCAGGATATTATTTCACTCCTAATTTAGGGATCACAGCAAGATATACAGCCGGTCTTACTGATATTTACAAAAACAACTCTGGTGATGCTGTAAAAAACAATGTATTCCAGGTTGGTTTAGCTTATAAATTTAAATAA	MKKLILGLALTAGTFAFAQQTGNTSSNPVTFGVKGGMNVSSLSNGADLSDSKSKIGFNAGVFANIPLASSFSVQPEVIYNDLGSKVTREYSVLGNNYKSEYSRNLGYVAVPVMFQYNATPAFFLEAGPEFGFLVSANDKLKSSTNNSNSTQISSLNKDDFQTFNFGIGLGAGYYFTPNLGITARYTAGLTDIYKNNSGDAVKNNVFQVGLAYKFK				NA	NA	NA	NA	NA
BMS003_01319	1047	aroB	COG0337	3-dehydroquinate synthase	ATGATAACAATATTAAACGATAATTTTTCTCAGCTCAATGCGTTTCTTCACGAAAAGACTTTCAGTAAAATCTTCATCCTTGTAGATGAAAATACTCATGAATACTGTCTTCCCGTTCTTTTAGGCAATATGGAAACAGACCTTGGCTTTGAAATTTTGGAGATTGAAGCCGGAGAAGAAATGAAGAATATCCAGACAGCCAATCAGCTGTGGGAAATTCTTACGGAAATGCAGGCAGACAGAAAGGCACTGGTTATCAACCTTGGCGGCGGCGTGATTACTGATATGGGTGGGTTTGTTGCCTCTACCTATAAAAGAGGAATACAGTTTATCAACATCCCGACTACTCTTTTATCCATGTGTGATGCTTCTATAGGAGGAAAAACAGGTATTGATCTGATGCATTATAAAAATATGGTGGGCACTTTTGCTTTTCCGGAACAGATTTTTATTTTTCCTAAATTCTTAGAAACATTACCTTTTAAAGAATTAAGAAGCGGATTTGCAGAAATGCTCAAACATGGATTAATTGCTGATAAAAATCATTGGGATCTACTGATTCAGATCCGTAAGCTGGAAGTAGAAACGGTAATTCCGCATATTCAGACTTCTATGAATATCAAGCAGGATGTTGTCAATAAGGATTTTCATGAACAGAATATCAGAAAAACCCTGAATTTCGGACATACTATAGGCCATGCGGTAGAAAGCTTATGCTTACAGCAGGGAAATCCAATCCTTCATGGTGAAGCCGTTGCAATGGGAATGATTACGGAAGCGCATCTGGCTCATCTTGAGAATCTTATTTCTGAAGAAGATGCAAAAGTGATTATTGAAAACACTCAGAGATACTATCCTTATCTTGATATCAATGATTTTAAAGATGAAGATATTACCGCTTTATTGCTGAATGATAAAAAGAATACAGACAGTAAGATCAATTTCTCTCTGCTTTCTGCCATTGGTTCGTGTACTTACGACCATCAGTGCAGTCAGGAAAACATTCTTGAATCACTATCATTTTATAGAAAACTGAATGATGCTTAA	MITILNDNFSQLNAFLHEKTFSKIFILVDENTHEYCLPVLLGNMETDLGFEILEIEAGEEMKNIQTANQLWEILTEMQADRKALVINLGGGVITDMGGFVASTYKRGIQFINIPTTLLSMCDASIGGKTGIDLMHYKNMVGTFAFPEQIFIFPKFLETLPFKELRSGFAEMLKHGLIADKNHWDLLIQIRKLEVETVIPHIQTSMNIKQDVVNKDFHEQNIRKTLNFGHTIGHAVESLCLQQGNPILHGEAVAMGMITEAHLAHLENLISEEDAKVIIENTQRYYPYLDINDFKDEDITALLLNDKKNTDSKINFSLLSAIGSCTYDHQCSQENILESLSFYRKLNDA	PGPT0012865_4371	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
BMS003_01320	1182			hypothetical protein	ATGAGCAGAGATAATAATAATTCAGACAGACCAAAGAGACCAAGAATTTCAACCAAGAAAAGTTCTGATGATTCTCGTGCTTCCAGATCTGGAAATTCTTCAGGATCAAAGCCTTTCAAGAAACCGTTTTCTAAAGACGGAGGAAGAAAAGGACCAGAACATCAGGGATCCAACTCAAGATTTGAAAAGAAACCTTTCAAAAGAAATACAGACAGCTTCGAAAATTCCAATGACGATTTTGGATCAAAATCTGAAAGAAAACCTTATATCACAAATAAAAGTGAGAGCTATGAGAAAAAATCTTTCGGAAAACCTAAAAGAGGCGGAAGAAATTTCGATACCAGAGATAAGTATGAAAGAGGCAGCCTGAAATACGGAAGAAGACCCTCTAGCGGAGATGAAAGAAATGACGACAAAACAAGATCTTTTGTACAGAAAAGAAGGCTGAACAAAATTGAAAAAGACGTTCATAAAGACAGCATCCGTCTTAATAAGTATATTGCTAATTCCGGAATCTGCAGCAGAAGGGAAGCTGATGAACTGATTACCCAGGGATTGGTAGAAGTCAACGGAAAGGTAGTAACTGAAATGGGATATCAGGTACAGAAAACAGACAGAGTAGTTTTTGACGGACAAAGCATTACTCCTGAAAAACCTGTTTATGTACTTTTGAATAAGCCAAAAGGTTATATTTCTACTACAAAAGACGATAAGGCAAGAAAAACGGTAATGGATCTTGTAGCGAACGCTTCTCCATACAGACTTTTCCCGGTGGGAAGACTTGACCGTTCTACAACAGGAGTTATTTTATTGACAAATGACGGACATATGACAAAAAAACTGACGCATCCGTCTTTTGATGCTAAGAAAATTTATCATGTAACGTTGGATAAAAAGCTTACTGGTGAAGATCTACGTCTTATTGCAGAAGGAATTCGTCTTGATGAAGGAGTAGCTGTTGTTGATCAGATTTCATATATTGAAGGGAAACCTAAGAATGAAATCGGAATTGAGATCCATATCGGATGGAACCGTGTTATCAGAAGAATTTTCCAAAGATTAGGATACGAGGTGGAATCTTTAGACAGAGTAATGTTTGCAGGATTAACGAAGAAGAATATCAAGAGAGGACACTGGAGAATCCTAACCGAACTGGAAGTGAATAACCTTAAAATGCTTTAA	MSRDNNNSDRPKRPRISTKKSSDDSRASRSGNSSGSKPFKKPFSKDGGRKGPEHQGSNSRFEKKPFKRNTDSFENSNDDFGSKSERKPYITNKSESYEKKSFGKPKRGGRNFDTRDKYERGSLKYGRRPSSGDERNDDKTRSFVQKRRLNKIEKDVHKDSIRLNKYIANSGICSRREADELITQGLVEVNGKVVTEMGYQVQKTDRVVFDGQSITPEKPVYVLLNKPKGYISTTKDDKARKTVMDLVANASPYRLFPVGRLDRSTTGVILLTNDGHMTKKLTHPSFDAKKIYHVTLDKKLTGEDLRLIAEGIRLDEGVAVVDQISYIEGKPKNEIGIEIHIGWNRVIRRIFQRLGYEVESLDRVMFAGLTKKNIKRGHWRILTELEVNNLKML				NA	NA	NA	NA	NA
BMS003_01321	606	pncA	COG1335	Nicotinamidase	ATGAAAAAAGCATTAATAATAGTCGATGTACAGAATGATTTTTGTGAAGGCGGAGCACTTGCAGTCCCTGGAGCCAATGAAATTATTCCCTATATCAATCTCCTGATGGAGGAAAATGAATATGATCAGGTGGTTTTGACACAAGACTGGCATCCTGAAGGTCATAAGAGTTTTGCAAGCAGTAATGGCAGGAAGGTAGGAGAAAGTATTATTTTAAATGGTGTTCCCCAGTTTATGTGGCCAGATCACTGTGTGCAGGGAACTTTCGGGGCAGAATTTCACAAAGACCTGAACAGGGATAGAGTAACCCACATTGTACAAAAAGGTAAAAATATAGAAATAGACAGCTACAGCGGTTTCCAGGATAATAATCACTTTATGAAAACCGGACTGGATGATTTCTTAAAATATCACGATATTCAATTGGTAGAAATCGTAGGATTGGCATTAGATTATTGCGTTAAATTCACGGCGCAAGATGCTGTGGCCAGTGGATATGTAACTTGTCTTCATTTCAACGGAACGCGTGCTGTAAACGTAAAACCGGACAACGCCAGAGATGCAATCTACGACATGATTGAAAAAGGAGTAACAGTCTTAGGGTAA	MKKALIIVDVQNDFCEGGALAVPGANEIIPYINLLMEENEYDQVVLTQDWHPEGHKSFASSNGRKVGESIILNGVPQFMWPDHCVQGTFGAEFHKDLNRDRVTHIVQKGKNIEIDSYSGFQDNNHFMKTGLDDFLKYHDIQLVEIVGLALDYCVKFTAQDAVASGYVTCLHFNGTRAVNVKPDNARDAIYDMIEKGVTVLG	PGPT0013470_1383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
BMS003_01322	1143	rhlE_1	COG0513	ATP-dependent RNA helicase RhlE	ATGTCATTTGAGTCTTTAGGATTATCACACAATATTATTCGTTCTGTTAAAAAATTAGGGTATTTAAAACCATTTCCCATTCAGGAGCAGGCTGTTCCCGTTATTTTGCAGGGGAAAGATCTGATGGGAATTGCACAGACAGGTTCCGGGAAAACAGCTTGTTTTGTGATGCCAATTTTAGAAAAATTGCAGAATGCGGAAGTTAAAAAAGACCGTAATGTTCAGGTTTTAATATTGGTTCCTACGCGTGAGCTGGCGATTCAGATAGATGAAGTCTGCAGGGCTTTTACAGAAAACCTGAAGAGGGAAGTGCGTACAATGGCAGTTTATGGAGGGGTTTCCATCAATCCACAGATGAAAGGAATGTTTGGGGTAGAAGTTTTGATTGCTACGCCGGGACGTTTGCTGGACTTAATTGATCATAATGCGCTGAGTATTTCGGGAATTAAACATCTGGTGATAGATGAAGCCGATAAAATGTTTCAGCTGGGATTTGGTGAAGAAATGAATAAGCTTTTTGCCATGATGCCTGTAGCAAAACAGACTATTCTATTCTCAGCGACTCTAAATGATAAAGTTGCTGAAATGAAAGAACGTCTTTCCATCAATCCTACGATAATTGAAATTAAAAAAGAAGAAGTTGAAATTGATAATATTGAACAGCTTGCTTACCATGTTGCTCCGGAAAACAAAGGTCCTTTTTTACGATATTTAATTAAGGAAAAGAAAGTAGAGAAAGCGCTTGTTTTTGTTTCCTCCACAAGATCTGCAGATAATCTGGTAGAGAAGCTTAAAAAGAATAAAATAAAAGCCGTAGCGATTCACAGCCAGAAATCGCAAGGAGCAAGAAGAAATAACCTGGAAGAATTTAAGGTAGACGGAGCTCAGATTTTGGTGGCTACCGACTTAATTGGCCGTGGAATTCATATTGAATCCCTGCCATGTGTTATCAATTACGAGTTGCCGCGTTCTCCATTAGACTATATCCACCGAATTGGTAGAACAGGTCGTGCCAATGAAAAAGGAACCGCAATCAGTATTCTGACGGATGATGAATTGCAGCATTTCAGAGTTATTCAAAAGAAAATGGGCAGAAAAGTGATCCTCCAAAGAACAGAAGGTATTGATTTACACGGATATTAA	MSFESLGLSHNIIRSVKKLGYLKPFPIQEQAVPVILQGKDLMGIAQTGSGKTACFVMPILEKLQNAEVKKDRNVQVLILVPTRELAIQIDEVCRAFTENLKREVRTMAVYGGVSINPQMKGMFGVEVLIATPGRLLDLIDHNALSISGIKHLVIDEADKMFQLGFGEEMNKLFAMMPVAKQTILFSATLNDKVAEMKERLSINPTIIEIKKEEVEIDNIEQLAYHVAPENKGPFLRYLIKEKKVEKALVFVSSTRSADNLVEKLKKNKIKAVAIHSQKSQGARRNNLEEFKVDGAQILVATDLIGRGIHIESLPCVINYELPRSPLDYIHRIGRTGRANEKGTAISILTDDELQHFRVIQKKMGRKVILQRTEGIDLHGY	PGPT0013740_4471	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS003_01323	537	yfiT		Putative metal-dependent hydrolase YfiT	ATGAGTGATTTAGAGAAAAAAAAGTTTCCAATAGGTCAGTTTGAAGCTCCTGAAAACATTTGTGACACCACATTGGATACTTATATCAAAGTGATCAAAGACTTTCCCGGAAAACTGAAAAATCTCATTGAACATTTTACAGACGACCAGCTGGATACGCCTTACCGGGAAGGAGGGTGGACGGTAAGACAGCTTGTAAACCATCTTTCAGATAGTCATATGAACAGTTTTATCCGTTTTAAACTGGCTCTTACAGAAGATAATCCTACCATAAAACCTTATGATGAAGCTAAATGGGCTGAGCTGCAGGACAGTTTTCATATGCCTGTAAAGCCGGCTATGAGAATGCTGAAAGGAACACACCAGAGATGGGTAACACTTCTTAAAAGCCTTACCAATAAACAGTTTGAAAGAACTTTCCATCATCCCGAGCATAATAAAAACTATAATTTAAGAGAGAGTCTTGCTTTATACGTTTGGCATTGTAATCATCATTTTGCCCATATTGAAAATCTGAAGATAGAAAAAGGTTGGTAA	MSDLEKKKFPIGQFEAPENICDTTLDTYIKVIKDFPGKLKNLIEHFTDDQLDTPYREGGWTVRQLVNHLSDSHMNSFIRFKLALTEDNPTIKPYDEAKWAELQDSFHMPVKPAMRMLKGTHQRWVTLLKSLTNKQFERTFHHPEHNKNYNLRESLALYVWHCNHHFAHIENLKIEKGW				NA	NA	NA	NA	NA
BMS003_01324	366			hypothetical protein	ATGAACGTATGCCAAATGCTAAAGCATTGTGATCTTGTTCTTCAGGTGGCATTGGGAAAGATTGAACTTCCATGTATTAACGTCTTTTTTGAGACAATAGGGATCTTTACCAAGACAGAAATGTATGTTTTCAATAATGGAATTCCCAGAAATATGCCTACTTTTCAAAAACTAATCGTTAATTTTGAGTGTGATTTTGATGTATCAAAAACCAATCTGCTGAAAACGCTGGAGGAATTCCGGGAAGCCTGTGAAAAAGACAGTCTGCCGGAACACCACAGGTTATTCGGTACAATGACTGAAAAAGACTGGACATTTTTAGAATACAAACATCTTGATCATCATCTAAAACAATTTAATGTATGA	MNVCQMLKHCDLVLQVALGKIELPCINVFFETIGIFTKTEMYVFNNGIPRNMPTFQKLIVNFECDFDVSKTNLLKTLEEFREACEKDSLPEHHRLFGTMTEKDWTFLEYKHLDHHLKQFNV				NA	NA	NA	NA	NA
BMS003_01325	381			hypothetical protein	ATGAGTTTTTTTGATAAAATATTTGGTGGAAAAAGTGAAACCCCGGAACAGAAAATATTCTGGAAAAAGATAGAGTCTGAAGAAGATCTTGCTAAAGCTATAGAAGATTCTTTTCAGAATAAAATAGCCATATTTAAACATTCAACAAGCTGTTTTATCAGCAGAACAGTATTGAAAAACTTTGAAAAAGAAGTTGAAAATTCTGATCAGGAAGTACATGTTTACTATCTGGATTTATTGGCTCACAGACCTGTTTCTAACAAAATAGCAGCCGATTTTGAGATCCGACATGAAAGTCCGCAGCTAATTGTAATAGAGAACGGGAAACCTGTAAACAATGCTTCACATCAGGATATTTCTTTAAGCCAGATTGTATCATGA	MSFFDKIFGGKSETPEQKIFWKKIESEEDLAKAIEDSFQNKIAIFKHSTSCFISRTVLKNFEKEVENSDQEVHVYYLDLLAHRPVSNKIAADFEIRHESPQLIVIENGKPVNNASHQDISLSQIVS	PGPT0015028_47	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
BMS003_01326	597			hypothetical protein	ATGAAGAATATAAATAATTATTTAGCTAAGGTTTTAAATGTTCCTCTTCAAAATGTGAACACCTGCAGCCTGCATTATGAAGTAAAGAAAATTCCTAAAAACCAGTTTCTTCTTCAGTATGGAGAAATCTGCCGTCATATTTTCTTTGTGGAAAAAGGGCTGCTGAAGATGTATTCTATTGATAAAAACGGGAAGGAACATATTATACAGTTTGCCCCTGAAAGCTGGCTTATTTCTGACAGAAGCAGTCTTTACTTCAATGAAAAGTCCATTTATTATATAGAAGCGGTGGAAGATTCGGAAGTTCTGTTTCTACATCCTGACTTCTTTAATAAACTGGTAGAACAGTTCCCGAACAGTATTGAAAGAAGTGATTTCCTTCTTCAGAAACACATCAGAAGCCTTCAGAACAGGATCAATTCTTTACTGGGAGAGACTGCAGAAGAAAGATATATGAAGTTTATTAAAATGTACCCGGATTTACTTCTGAGAGTTCCACAATGGATGATTGCATCCTACTTGGGAATTACTCCTGAGAGCCTAAGCCGTGTAAGAAAAGAACTGGCGAGAAAAAATTTCGTTCCTGATAATAAGTAG	MKNINNYLAKVLNVPLQNVNTCSLHYEVKKIPKNQFLLQYGEICRHIFFVEKGLLKMYSIDKNGKEHIIQFAPESWLISDRSSLYFNEKSIYYIEAVEDSEVLFLHPDFFNKLVEQFPNSIERSDFLLQKHIRSLQNRINSLLGETAEERYMKFIKMYPDLLLRVPQWMIASYLGITPESLSRVRKELARKNFVPDNK	PGPT0000515_2909	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_01327	1422	norG	COG1167	HTH-type transcriptional regulator NorG	ATGAGCAAAGAATTTTTATACACAGAAATCGCAGACGGGATCGCAGGACAGATCAGAAACGGTATTCTAAAGACGGGAGACAGACTTCCTTCTGTAAGAATGCTGTGCCAGGAACATCAGGTTAGTATGAATACAGCCAAACGCGTTTTCCTGGAGCTGGAGTCTCAGTCTTTGGTAGAATCTAAACCACAGTCCGGTTATTTTGTAAGCCAGTTATTATCCGCAAAGCTTCCATTGCCGGAAGTAAGCCGCCCTTCATTGATTGCCAATAATGATGAACCGGATGAACTGATCAGTAAGGTCTATGAAAATATGGGAAAAAAGGATCTTACTTTTTTCTCGATCGGGATTCCGTCAGGAGATCTGCTGCCTCAGGCCAAACTGAAGAAAGAAATTGTAAACGCCATCAGAGAATTAAAAGAAGGAGGTACAGAATATGAAGAACTTCAGGGAAATCTGAAGCTCAGAAGGATGATTGCCATACGGTCTCTGCAATGGGGAGGAAACCTGAGTGAAAACGATCTGATTACCACCAATGGCGGAATGAATGCGCTCTCTTTCTGTTTAATGGCTTTAGGAAAACCCGGAGATACCATTGCAATTGAAAGTCCCTGTTATCCGGGAATCCTGCAACTTGCCAACGGACTGGGCTTAAAAGTAATGGAACTTCCCACCCATCCTACTACCGGAATTGAAATTGAAGCTCTGAAAAAAGTGATCCCAAAAATAGACATATGCCTGCTTATTCCTAACTTCAATTCTCCTTTGGGAAGCTGTATGCCTGATGAAAATAAAAAAGAAATTGTAAAAATACTTTCAGAAAATAACATCCCGCTGATAGAAGATGATGTATACGGAGATCTGTATTTTGGTTCCAGCCGTCCGAAATGCTGCAAATCTTTTGATAAAGAAGGAAATGTGCTGTATTGCAGTTCAATTTCAAAAACCTTAGCTCCCGGTTATCGCGTAGGTTGGATTGCTCCTGGAAAATATAAAGACAAAATACTTAAACTTAAGCTCCTTCACTCTACTTCTTCTATTTCTATTGTAAATGAAGCGGTGGCCAACTTTTTGAAATCGGGGAAATATGAAAAACATCTTCTGCAGCTTCGCAGAACATTGCAGTTCAATTATCAGAATTATGTTCAGACCATTGCAGAATCTTTTCCGGAAGGCACAAAAACCAGTCGTCCGCAGGGAGGTTTATCTTTATGGGTAGAATTTGATAAAAAGATCCGAACCACAGAATTATACGATCTTGCCATAAAACAAAACATCAGTATTGCTCCCGGAAGAATGTTTACCTTTCAGGATCAGTTTGAAAACTGTATGAGACTTTGTATAGGACTTCCATGGACAGAAAATACCCAGGAAAAACTCAGACAAGTTGGTCATCTTGCCAAAAAGATTTATTTGAAGTAA	MSKEFLYTEIADGIAGQIRNGILKTGDRLPSVRMLCQEHQVSMNTAKRVFLELESQSLVESKPQSGYFVSQLLSAKLPLPEVSRPSLIANNDEPDELISKVYENMGKKDLTFFSIGIPSGDLLPQAKLKKEIVNAIRELKEGGTEYEELQGNLKLRRMIAIRSLQWGGNLSENDLITTNGGMNALSFCLMALGKPGDTIAIESPCYPGILQLANGLGLKVMELPTHPTTGIEIEALKKVIPKIDICLLIPNFNSPLGSCMPDENKKEIVKILSENNIPLIEDDVYGDLYFGSSRPKCCKSFDKEGNVLYCSSISKTLAPGYRVGWIAPGKYKDKILKLKLLHSTSSISIVNEAVANFLKSGKYEKHLLQLRRTLQFNYQNYVQTIAESFPEGTKTSRPQGGLSLWVEFDKKIRTTELYDLAIKQNISIAPGRMFTFQDQFENCMRLCIGLPWTENTQEKLRQVGHLAKKIYLK				NA	NA	NA	NA	NA
BMS003_01328	885			hypothetical protein	ATGATGACAAAACAATTATCAAAAGATGAAAATATAAGTGGATGGATCAATGGTTTTATAGGGGTAGTGCTGTTTAGCGGAGGATTACCGGCAACAAAACTGGCTGTAATGGAAATGAGCCCTACCTTTGTAACAATAGTTCGTGCAGCGGTTGCAGGAGTGCTGGCTCTCATTGTCTTATCTGTGGGTAAAGAAAAACGTCCTGTCAAAAAAGATGTAATGCCATTGCTTCTGGTTTCTTTTGGGTGTGTGGTGGGATTTCCGCTTCTTTCTGCATTGGCTCTTCAATATCTTACTTCTGCTCATTCTATAGTATTTTTGGGAATGCTTCCTTTAGCTACAGCAATCTTCGGAGTTTTGCGTGGGGGCGAAAGGCCTCATCCTGTATTTTGGTTCTTTTCGGTTTTAGGTAGCCTTCTTGTGATTGGATATGCCGTTTCACAGGGAATATCTGCTTCCCCCATTGGCGATATTCTGATGCTTCTTGCCGTTATTTTATGTGGTATGGGGTATGCTGAAGGGGCAAAGCTATCCAAAACATTAGGAGGCTGGCAGGTCATTTCCTGGGCTTTGGTACTGGCACTGCCCATTATGCTTCCTTTATTCTTTCTTTATTTTCCTGAAGATATTGGAGCTGTCAGTTTCCAGGGATGGTTTGGGCTGGCTTACATTTCTCTTTTCAGTATGTTTATTGGTTTTATTTTTTGGTATAAAGGCCTTGCTCAGGGGGGAATTGCTACGGTAGGACAGTTGCAGCTGCTTCAGCCATTCTTTGGCCTGGCACTGGCTGCATGGTTTCTTCATGAGCAGGTAAGTTTGGGAATGCTGGGAGTGACGGTAGGGGTGATCTTATGTGTTGCCGGAACTAAAAAGTTTGCTAAATAA	MMTKQLSKDENISGWINGFIGVVLFSGGLPATKLAVMEMSPTFVTIVRAAVAGVLALIVLSVGKEKRPVKKDVMPLLLVSFGCVVGFPLLSALALQYLTSAHSIVFLGMLPLATAIFGVLRGGERPHPVFWFFSVLGSLLVIGYAVSQGISASPIGDILMLLAVILCGMGYAEGAKLSKTLGGWQVISWALVLALPIMLPLFFLYFPEDIGAVSFQGWFGLAYISLFSMFIGFIFWYKGLAQGGIATVGQLQLLQPFFGLALAAWFLHEQVSLGMLGVTVGVILCVAGTKKFAK				NA	NA	NA	NA	NA
BMS003_01329	222			hypothetical protein	ATGATCAATTTTTTACAATTGAAAACCTGCAACATTTTGATTATTAAAGACAAAAACCCCGTTTCAGAGAGAAACGGGGACTTTCTGCAGACAGCACCAAAGGGTATTGAGCTGCCATTTATAACTGTATTCCTTAGTTATTTAGCAAACTTTTTAGTTCCGGCAACACATAAGATCACCCCTACCGTCACTCCCAGCATTCCCAAACTTACCTGCTCATGA	MINFLQLKTCNILIIKDKNPVSERNGDFLQTAPKGIELPFITVFLSYLANFLVPATHKITPTVTPSIPKLTCS				NA	NA	NA	NA	NA
BMS003_01330	597	aadR	COG0664	Transcriptional activatory protein AadR	ATGGTTATCGACGAGAACATTTTGATTTCAGCGGGAGCAGAAACGAGACGTTATACCCCTTCAGAAAATCTATTCTGTGAAGGGGATATTCCTAATTATTACTATCAGATCATTAAGGGAGAGGTAAAACTCAACAATTATAATGAAGAAGGCAAAGAGTTTATTCAAAACATTTTATCTAACGGAGAAAGCTGTGGAGAATCTATTCTTATTATAGAAAAACCTTATCCTATGAATGCTGAAGCTATTACAGAATGTACTGTCCTGAGGCTTCATAAATCTGTTTTTTTCAATATGCTGCAGCAGTCTCCGGAATTATGGCTGGAAGTGAGCAGTTTTCTTTCGCAGCGTCTTTATTATAAATTCATCATGATGCAGAGTTTATCATCTCAGAACCCTTCTATACGATTGAGAGGATTGATGGATTATCTTAAAAGTTTTCAAAAAGATTTAAGCCCTTATTCTTTTTTGGTTCCGTTAACGAGGCAACAGATGGCAAGTCTCACCGGTCTTTGTGTAGAAACGGCTATAAGAACCATTAAGCATATGGAAAGAGATAAAATTGTAAGAATTGAAAACCGTAAAATTTTATACTAA	MVIDENILISAGAETRRYTPSENLFCEGDIPNYYYQIIKGEVKLNNYNEEGKEFIQNILSNGESCGESILIIEKPYPMNAEAITECTVLRLHKSVFFNMLQQSPELWLEVSSFLSQRLYYKFIMMQSLSSQNPSIRLRGLMDYLKSFQKDLSPYSFLVPLTRQQMASLTGLCVETAIRTIKHMERDKIVRIENRKILY	PGPT0015075_4571	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
BMS003_01331	615	fnr	COG0664	Anaerobic regulatory protein	ATGAAAACAATAAGCTGCATGAATATTGACGAAAAGCTTCTCTACTCATTCGGGGCAGAAGAAAGGGATTATAAAAAACGTGAAATTGTTTTTAAAGAAGAAGATCATGCACTTTATTATTTTCAGATCAGTGAAGGAAAGGTGAAGCTTAATAATTATAATGAGGACGGGAAAGAATTTATCCATAATATTCTGGGCAAGAAACAGAGTTTTGGAGAAGCTATGATTTTTCTTAATCAGGATTATCCTATCAATGCCGTATGTATTGAACCCTCCAGTATTATAAGATTACCCAAGAATAATTTTCTTGAAATGATCAGCCAGCATCCCCGTCTTTCTCTGGAAATGAATGCCTGCCTTTCTCAGGAAGTTTTTTATAAATTGAAAATGATGCAGAGTATGGCTTCTCAAAATCCGGTACAAAGATTAAGAGCTTTATTAGATTACCTTAAGAGTTATCATGATGAAGACTGCCACCAGTGTTTTCATATTGCGTTTACAAGACAGCAGATTGCCAATCTTGTAGGTCTGCGTGTAGAAACTGTGATAAGAACCTTAAAGAAAATGGAGAAGGAAGGTATGCTGAGTTTAAAAGACCGTAAAATTTTGTATTAA	MKTISCMNIDEKLLYSFGAEERDYKKREIVFKEEDHALYYFQISEGKVKLNNYNEDGKEFIHNILGKKQSFGEAMIFLNQDYPINAVCIEPSSIIRLPKNNFLEMISQHPRLSLEMNACLSQEVFYKLKMMQSMASQNPVQRLRALLDYLKSYHDEDCHQCFHIAFTRQQIANLVGLRVETVIRTLKKMEKEGMLSLKDRKILY	PGPT0015075_4567	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
BMS003_01332	228			hypothetical protein	ATGGCCGATAAAACCACACCCCAAAACAATATTCGCTCTAAGGAAAGAAAAACGGAAAATGATGATGGATTAATGAAGGAAAATGAGCGAGAAAAAGCCCTGCTTCACACATTTTTTGTAAGTGCTATCCAAAATATTTATCATAGCGAAAATGAATGCTGGGAACAAACAGATATTACCGGCAGATCTGTCAGTTGTAATGAGAAGCAGAGAAGATTAAAAGAGTAG	MADKTTPQNNIRSKERKTENDDGLMKENEREKALLHTFFVSAIQNIYHSENECWEQTDITGRSVSCNEKQRRLKE				NA	NA	NA	NA	NA
BMS003_01333	303			hypothetical protein	ATGAACTCTCAGAAAATCATAAATACCCTGAAGCATAAAGAATTTATAAAAATAGTTCATCAGGGAAACTGTTTTGAAAACGGAGCAGCTGTCTATGTCAAAGAAATCCGGGAAAATATCTTTCTTCTGTTTATTATCCTGAAAGATATTGAGATTGAAAATATACAGGCATTAATTGCCCATTTTGACAGCTTCAGCAGCATCGGGCTTAAAGAACCGGAACAGATCATGTTTTATCTGTCAATTAAAGATAAAAATGACCTCCATTATTTTGAACAGTATCTGAAAGCCCCCAATAACTAA	MNSQKIINTLKHKEFIKIVHQGNCFENGAAVYVKEIRENIFLLFIILKDIEIENIQALIAHFDSFSSIGLKEPEQIMFYLSIKDKNDLHYFEQYLKAPNN				NA	NA	NA	NA	NA
BMS003_01334	789	rhaR_5		HTH-type transcriptional activator RhaR	ATGAAATGTGGACTGATTGAAAAAACGGAAAGCCATTTTGTAGATTCTATAGAAAAAGAAGCTTATGTATGGTGCGAAAAAAACTGGAAACATGATGATTATGAACACAGACACAACCGTGCTCAGCTTACCTTTGTGGAAGATGGTTATCAGTATTTTCACATCGACAGGAAAATTTATCTTGTTCCACAGCATCACGTCATCTGGATTCCTTCAGAAAAAGCCCACAAAATAACTTCTGAAGCGCAGACGGTTAATCTCATGGTTTTTCTATTCAAAACTGTTTTTGAGGATGAGTTTTACCAGAATGTTCAGGTATTTGCCGTTCCGTCCGTATTAAAGGAGATGCTTTTGTATGCTTCAAAATGGAACCAGTCTCTTGACGAAAATGAGGAACAGGATATCTTCTTTAAAGCTATTTTAAAGAGTCTTCCTAACTTCTGCAAAGAAAGCAGTGGTCTTGAAATTCCGGTGCCTACAGATACCAGATTGATTCCTGTGTGCAATGATATCAATTCTAATTTTAAATATAACCTGAATATTGATTCTTTAGCTGAAAAAGCACAAATGTCTGTGAGAAGTCTCCAGAGAATCTTTAAAAATGAAACAGGAATTACTTTACAAAAATACCTGCAGCTGACAAGAATTTTAAAAAGCATTGAACTGATTGATACCAAACAGTATACTTTGAGTGAAGTTGCATATAAAGTGGGATATCAAAGCCTTTCAGCATTCACTTCATCTTATTTTTCGATCATGCAGACAAAGCCCAAAGTGAACAAAAGTTAA	MKCGLIEKTESHFVDSIEKEAYVWCEKNWKHDDYEHRHNRAQLTFVEDGYQYFHIDRKIYLVPQHHVIWIPSEKAHKITSEAQTVNLMVFLFKTVFEDEFYQNVQVFAVPSVLKEMLLYASKWNQSLDENEEQDIFFKAILKSLPNFCKESSGLEIPVPTDTRLIPVCNDINSNFKYNLNIDSLAEKAQMSVRSLQRIFKNETGITLQKYLQLTRILKSIELIDTKQYTLSEVAYKVGYQSLSAFTSSYFSIMQTKPKVNKS				NA	NA	NA	NA	NA
BMS003_01335	1080			NAD(P)H dehydrogenase (quinone)	ATGGCACAAAATAAAGCGAAAATATTGGTTCTTATCCATTCAGACAATGGGGGAACTTACGAGCTGGCAAAAGAAATAGCCAAAGGAATTGAAAGCGAAAATACTGCTGTTTCCACAATAAAATTAGTCAAAGCATCACAAAACCCCAACCTGAAAAATCTTCCGGTAGCAACAGCGGATGAATTAATATCTTATGACGGTATTGCTTTTGGCTCACCGGTTTATTTCGGGAATATCAGTACCGGGATGAGTGAGTTTTTATCCAAAACAGTTGATTTATGGACGAAGCATGCATTGGAAGGAGTTCCGGCTACAGTTTTCATGTCTGCCGGAAGTGGAGCAGGAAAAGAGCTTGCTCTTCAGGCATTCTGGAACAGCCTTGCTGTACACGGAATGATATTGGTATCTAACGGAATTCTTGGAACTGAAGAATTGAACAAAGCCATTCCACAAGGAAATACCGTGTTGGGTGTCACCAGCATGGCTTCTTTGAAAGATGTGGAAAGACCTACGAAAGGAGAACAAAATATTGCTGAATTACAGGGAAGAAATTTTGCAAAAGTAGCCTTGGCATTAAAAGATACACGTCCGAAAAAAACGACAGCCGTTGCTGACAATCATCAGAATTTCAATGAAATATTAAAACAGAAAAATATTACACTTCCACAGGTTCCTAAACCGGCAGGAAGTTACCAGCCATTCGTCCGTTCCGGAAATCTGGTTTTTATCAATCAGGTAGCTTTGAAAGACGGAAAAATTTTTAATCCCGGAAAATTAGGCGTAGAAGTTAACGAGCAACAGGTAAGAGACGCTACAAAAGTAACTATGCTGAATGTCCTTTCTGTTTTGAATGAAGCTGTAGGGGGAGATTTAAGCAGAGTGAAGCAATGTGTTCAGCTGACAGGAATTTTCAATACCAAAGATGATTACACAAAGCATGCAGATCTGATGAACGTGGCTTCTGATCTGGCTGTTGAAGTCTTCGGAGATAAAGGAAAGCATGCCAGGGCTACTTTGGGGGCATCTTCTATTCCTGTGGGTTCTTCAGTAGAAATTCAGGCGGTTTTTGAAGTAGAGTAA	MAQNKAKILVLIHSDNGGTYELAKEIAKGIESENTAVSTIKLVKASQNPNLKNLPVATADELISYDGIAFGSPVYFGNISTGMSEFLSKTVDLWTKHALEGVPATVFMSAGSGAGKELALQAFWNSLAVHGMILVSNGILGTEELNKAIPQGNTVLGVTSMASLKDVERPTKGEQNIAELQGRNFAKVALALKDTRPKKTTAVADNHQNFNEILKQKNITLPQVPKPAGSYQPFVRSGNLVFINQVALKDGKIFNPGKLGVEVNEQQVRDATKVTMLNVLSVLNEAVGGDLSRVKQCVQLTGIFNTKDDYTKHADLMNVASDLAVEVFGDKGKHARATLGASSIPVGSSVEIQAVFEVE	PGPT0009460_30	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS003_01336	1431	gabR	COG1167	HTH-type transcriptional regulatory protein GabR	ATGCTACGACCTTGGAAATTGGAATTAGAAATTGATAAAAAGCTTGATAAAGCAGTTTATCTACAGATTGCGGATACTATCATCACTGATATCCGCTCAGGAAGATTAAAAGCAGGAGATGCGCTTCCCGGAAGCCGAAACCTTGCACAGACCTTAAAAATCAACAGGAATACTGTTGTAGAAGCCTATCAGGTCCTGATTAATGAAGAATGGGTAATTTCGAAAGAAAGAAAAGGTATTTTCGTATCGGAAGAGCTTCCTGTTTTACATGAAAAAAATGCAGGGTCACTGCATGATTCTCAAAATCAACAGATAATACCAAGCAAAGCCTTAATCAATTTCGATGATGGTCATCCGGACAGTAAAATTGCTCCTGTAACAGAACTGGCAAGAGCCTACAGGCAAATCTTCAGCATCAAAGCAAAATGGCAGATGATGGGGTATGGAGATGAGCATGGCGATATAGAATTCAGAAGAATGATCTCTCAGATGCTGAATCATCAGCGTGGAATGCATATCCATGAAAATGAAATTTCTATTACCCGGGGCAGCCAGATGGGAATGTTTCTGACCGCTCAGAGCCTTTTAAGCCCCAATGATTATGTTATTGTAGAAGATCCAGGGTATCAGCCTGCATGGCAGGCATTCCAGTATGCCGGAGCACAGCTGCTGACTGTGCAGGTAGACCAGGAAGGCATCAGTGTTGAAGCTGTTGAAAAGCTTTTAAAACAACATCAGAATGTAAAGGCAATATACATTACTCCTCACAGGCAATATCCAACGACAGCTACTTTGAGCCTGTCGAGAAGATTAAAACTTATTGAACTGTCAAACCAGTACAATATGACTATCATAGAAGATGATTATGATAATGAATTTCATTTCGGATATCGTCCTATTCTTCCGATTTCAAGCTTTCCTGAGCTGCATAATTACGTGTATGTCGGAACTTTAAGCAAGGTGGTAGCACCCGCTTTGAGAATCGGTTATCTGGCCACTAAAAATCGGGAACTGCTGAAAAAAATTGGTGATCTGAGAAAGATTATTGATGTACATGGAGATGTTATCATGGAACAGGCGGTTCTTCAGCTGATTAAGGAAGGTGCGGTAAAAAAGCATATCAGAAAAGCTACCGTTCATTATAGAAACAAAAGAGATTTCGTTTTTGAATTGTTAAAGAAGCATATGCAAGATATTGCAGATTTCACCTTGCCTGAAGGGGGTCTTGCTTTTTGGATTATTCCTAAAATACAATTGGATTGGGATATGGTAACGGCTTTGTTATTAGAAAAAAACATTAAGATTATTCATCCTAAACAATACAGTCAGAATCAGGTGAATGGATTCAGACTAAGCTATGGCGCTCTATCTGAGGAACAGCTGGAACAGAACATTCCTATTATTTTAGAGATTATTTCTAAGTTTTCTTAA	MLRPWKLELEIDKKLDKAVYLQIADTIITDIRSGRLKAGDALPGSRNLAQTLKINRNTVVEAYQVLINEEWVISKERKGIFVSEELPVLHEKNAGSLHDSQNQQIIPSKALINFDDGHPDSKIAPVTELARAYRQIFSIKAKWQMMGYGDEHGDIEFRRMISQMLNHQRGMHIHENEISITRGSQMGMFLTAQSLLSPNDYVIVEDPGYQPAWQAFQYAGAQLLTVQVDQEGISVEAVEKLLKQHQNVKAIYITPHRQYPTTATLSLSRRLKLIELSNQYNMTIIEDDYDNEFHFGYRPILPISSFPELHNYVYVGTLSKVVAPALRIGYLATKNRELLKKIGDLRKIIDVHGDVIMEQAVLQLIKEGAVKKHIRKATVHYRNKRDFVFELLKKHMQDIADFTLPEGGLAFWIIPKIQLDWDMVTALLLEKNIKIIHPKQYSQNQVNGFRLSYGALSEEQLEQNIPIILEIISKFS	PGPT0016790_3373	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
BMS003_01337	456			hypothetical protein	ATGGACAAAAAACAATTCAGTTCTAAAGACTTCCACGAAACTTTTGCAAGACCAAAGTATGTAAAACCAAGTCATCTGATCCATAAAAATGTAGAAAATGCAGGAGAGCACAATCAGTTTTCAACAGAAAGAAAGCATCCGGTTTTCTTTGTGGATCTTCCCAGTAAAAATGTAAGCATGACGATTGGAGGATTAACTCCCGGACAGCAAACCAACAGACATCGTCATACTTATGAGACAGTATTATTTGTCATTGAAGGAAAAGGCTGGACAGAAGTAGAAGATGAAAGGGTACATTGGGAAGCTGGTGATGCTGTATATATACCTTCCTGGGCTTGGCATAAACACCAGAATGTAAGCGACACAGAATCTGCCAAATATATTGCCTGCGAAAATACTCCTCAATTGCAGAACTTAGGAGTTGCATTGAGGGAAGAAGAAGGCAGAGACCTTTAA	MDKKQFSSKDFHETFARPKYVKPSHLIHKNVENAGEHNQFSTERKHPVFFVDLPSKNVSMTIGGLTPGQQTNRHRHTYETVLFVIEGKGWTEVEDERVHWEAGDAVYIPSWAWHKHQNVSDTESAKYIACENTPQLQNLGVALREEEGRDL	PGPT0002080_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS003_01338	897	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAAAAATGTACCATTCAGAGGGATTATAGCTTATCCTATAACCCCTTTTGATCACAATGAAAAAGTAGATATTCCTCTCTTTAAACATTTGGTAGAAAGGCTGATCACTTCCGGAAGTCATGGTATTGCTCCCTTGGGAAGTACAGGGGTAATGCCTTACCTGTCTGACGAAGAAAAGGAAGAAGTGACAGAAGCTACTTTACAGCAGGTAAAAGGAAGAATTCCCACACTTGTAGGAGTTTCCAATCTTACGACAGAGAAAACCATTCACCATGCCCGGTTTGCCGAGAAAGCAGGAGCTGATGCGGTAATGATTATTCCTATGAGCTACTGGAAGCTTACTGACGATGAAATTGTAACGCATTATGATGCTGTAGCCCGTAAAATATCTATCCCGATTATGGCTTATAATAACCCTGCAACAAGTGGAGTAGATATGTCTCCGGCTTTATTGAAAAGACTGCTTGAAATTCCGAATGTAACCATGATCAAAGAAAGTACGGGAGATATTCAGAGAATGCATTATCTGAGAAGAGAACTGGGAGAGGAAGTGGCTTTCTATAATGGTTCAAATCCTTTGGCTCTGGCTGCATTTTCTGCAGGAGCAAGAGGATGGTGTACTGCAGCTCCGAACCTTATTCCTGAACTGAATATCAGCCTTTACAATGCCGTAGAAGAAGGGGATCTTGAAAAAGCAAAAACGATTTTCTATCAGCAGTTTGATCTTTTAAAATTTATTGTAAACAAAGGATTACCAAGAGCTGTGAAATCCGGGCTGAATATTCTGGGTGAAGATGGCGGAAATTTAAGAAGCCCTTTAAAGCCTTTACATGAAAAGGAAACGGAAGAATTAAGAAACATTATTAAACCCTTATTAATTAGTACAGTCGTATGA	MKNVPFRGIIAYPITPFDHNEKVDIPLFKHLVERLITSGSHGIAPLGSTGVMPYLSDEEKEEVTEATLQQVKGRIPTLVGVSNLTTEKTIHHARFAEKAGADAVMIIPMSYWKLTDDEIVTHYDAVARKISIPIMAYNNPATSGVDMSPALLKRLLEIPNVTMIKESTGDIQRMHYLRRELGEEVAFYNGSNPLALAAFSAGARGWCTAAPNLIPELNISLYNAVEEGDLEKAKTIFYQQFDLLKFIVNKGLPRAVKSGLNILGEDGGNLRSPLKPLHEKETEELRNIIKPLLISTVV	PGPT0002080_6099	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS003_01339	138			hypothetical protein	ATGAAAAAGTCCATTGACAGAAACAGAATTGAAGACACTGAAAAGGCAGGTGTAAAATCTATGCCTGCTTTGATAACTCCTAATGGGAATGTTCTTCATATTAATTCTGGAGCGCCTATGGAAGATTTGAAAGGTTAG	MKKSIDRNRIEDTEKAGVKSMPALITPNGNVLHINSGAPMEDLKG	PGPT0013201_4784	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS003_01340	216			hypothetical protein	ATGATTATCGATCCTTTTGGAGATGTGATTGCAGAATGCCGTTCCTGGGAAGACAGTTTTGAATCGGCTGTCATTAGTCCTGAAAAACTTACTCAGGCAGGAGGGTATCGCTATATTAAAGCCCGAAGACCTGAATTATACAGGGATATTATTGGAAAGAAGCATTTATCTGAACAAAAAGTAGTATGGCTTAATGATAAAGATTCTCTTCTGTAG	MIIDPFGDVIAECRSWEDSFESAVISPEKLTQAGGYRYIKARRPELYRDIIGKKHLSEQKVVWLNDKDSLL	PGPT0008885_386	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
BMS003_01341	645			hypothetical protein	GTGTTTATAGCAACCAAAGATATTACCATCCAAAATGAAACTTTGACTCTGACCAATCAGCGGGCGGCATTTTGGCAACAGGAAAAAGCCTTGATTCTTTCAGATCTGCATATTGGGAAAACCGCTCATTTCCGTAAAAATGGGATTGCACTGGCCAATCATATTATGAAAAGCGATCTGGAAAGATTATCAGCGCTGATTGAATATTTTCAGCCGGAGAAATTCATCGTGGTTGGAGATTTACTTCATGCCGGAGACAATTCTGATGTGGATGAATTCTGCACGTGGAAAAGCCAATATTCTGACATACAGTTTTATCTCATTGAAGGAAACCACGACCATATTTCGAAAGCGCTGGAGGAAAAGCTATGTTTTAATCACAAAGCTGAATACCTTGAAATGGGTGATATTAATTTTATTCATGATTTTGATACCACCAAATCCGGATTTCAGATTACCGGACATATTCACCCGGGAATTGTACTGAATTCTGCAGTGAAAAATATAAGGCTTCCCTGCTTTGCTCTAAGCAGCAACCAGTTATTATTACCAGCATTTAGTGAATTTACCGGACTGGACACGAAAAATCTGCCTAAGAAAAGTACATTTTTTGTGTTTACAGATGCGGAGATTTATGAAATTTAA	MFIATKDITIQNETLTLTNQRAAFWQQEKALILSDLHIGKTAHFRKNGIALANHIMKSDLERLSALIEYFQPEKFIVVGDLLHAGDNSDVDEFCTWKSQYSDIQFYLIEGNHDHISKALEEKLCFNHKAEYLEMGDINFIHDFDTTKSGFQITGHIHPGIVLNSAVKNIRLPCFALSSNQLLLPAFSEFTGLDTKNLPKKSTFFVFTDAEIYEI				NA	NA	NA	NA	NA
BMS003_01342	603	gpmA	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGGAAAAATTGTTCTTAGTCCGTCACGGACAGTCACTCTGGAATCTTGAAAACAGATTTACGGGATGGAAAGATATCGATATAACTGAAGTTGGTATTGAAGAGGCAAAAAAAGCAGGTCTCGCTTTAAAAGGAGAAAGAATAGATATAGCATTCACATCTGCACTCATCAGAGCTCAGCATACCTTATCCATTATCCTGGATGAAATAGGAAATCCCAGCATCCCGATTATCAAAGATAAAGCGCTGAACGAACGTTCTTACGGGAACCTTGAAGGGCTTAACAAAGCTGAAACCGCTCTGAAATACGGTGATGAGCAGGTTCATCTCTGGCGCAGATCATATGATGTGGTCCCTCCTGGCGGAGAAAGCCTTAAAGATATCTATAACAGAGTAATACCTTATTTTGAAAGCCAGATAAGACCGTTGTTAAAACAGGGTGAAAATGTACTGATTGTAGCCCATGGAAACAGTCTTCGTGCTCTTATTATGTATCTGGAGCATCTTTCTCCTGAAGAGATTTTGGAAAGAGAAATTGCAACAGGAATTCCTCTGACTTATGTTTTTGATGAAAAATTTCATGTAAGCCGGAAGGTTGGCTAA	MEKLFLVRHGQSLWNLENRFTGWKDIDITEVGIEEAKKAGLALKGERIDIAFTSALIRAQHTLSIILDEIGNPSIPIIKDKALNERSYGNLEGLNKAETALKYGDEQVHLWRRSYDVVPPGGESLKDIYNRVIPYFESQIRPLLKQGENVLIVAHGNSLRALIMYLEHLSPEEILEREIATGIPLTYVFDEKFHVSRKVG	PGPT0018030_3705	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018030-gpmA-K01834	NA	NA
BMS003_01343	2451	srmB		ATP-dependent RNA helicase SrmB	TTGGCAGCTTTCGAACATACCACCGGATTAAAGATCATTCAGCAATGGATGACCGATAAAGGTATTGCCCCATTTAAATTTCAGCTGGAAACCTGGAAGAAATTTGGAAACGGATACAGCGGAATGGTGGTTGCTCCTACCGGTTTTGGAAAGACTTTTTCTGTTTTTTTAGCTTTAATTTCAGATTTTCTGAATCATCCCGGACAATACAAAAAAGGCTTGAAAATGCTATGGATAACACCACTGCGTTCTCTCTCCAAAGATATTGCAAAGGCTATGCAGGAAGCTATTGATGAAATCGGCCTCGACTGGACTGTAAGCGTAAGAAACGGAGATACTGACCCAAAAGTAAGACAGCAGCAGGTCAAAAAAATGCCTGAAATTCTTGTCGTAACTCCTGAAAGTCTCCATTTGCTTTTGGCTCAGAAAAATAATGAAACATTTTTCAGGGATATGAAATGTGTAGCCGTTGATGAATGGCATGAATTATTGGGTTCAAAGCGTGGTGTCATGGTAGAACTCGGAATCTCACAACTTAAAAAATATGTCCCGAAGATCAAAATCTGGGGAATCACCGCAACCATCGGAAATCTGGATGAAGCTATGGAAGTACTTATTCCATATGATATTAAAAAGACAAAAATTACTGCCAAAGAACATAAGAAAATAGATATTCTCCCTGTTTTTCCGGACGAAATCGAGATATTACCATGGGCAGGACATCTTGGAAGCAAGCTTGCAGATAAAGTAGTTCCCATTATTCTGGAATCAAAATCTACCATTGTATTTACGAATACCAGAAGCCAGAGTGAAATGTGGTATCAGCTTTTGCTGGATGCTTATCCTGATTTTGCTGGTCAGATTGCCATCCATCACAGTTCTATTGATGCTCACCTGAGAATCTGGATTGAGGAAAATTTAAGCTCTGGAAAATTAAAAGCCGTGGTTTCCACATCATCTCTTGACCTTGGAATTGATTTTAAACCTGTAGATACGGTTATTCAGATTGGTTCTGCCAAAGGCGTTGCGCGTTTTCTTCAGAGAGCCGGGCGCAGTGGTCACTCCCCTTTTGAAACCTCAAAAATATACTGTGTTCCTACCCATTCTCTGGAACTGATTGAAGTTTCAGCGTTAAAAGAAGCTGTAAAACAGAAAGTAGTTGAGCCCAGAGAACCACAAGTCTTATGCTTTGACGTATTGGTTCAGTTTCTGATGACACTGGCAGTTGGAGACGGTTTTTACCCTGATGAACTGTATGAGAGAATCAAAAAAGTATATGCCTTTCAGGAAATGCTGGACGAAGAATGGAAAAGCACTCTGGAATTTCTTACCATTGGCGGCAGTGTGCTGAAAAGCTATGAAGAATTCCACAAAGTTGTCATCATGGAAGATGGACTCTATAAGGTAACTTCCAGAAAAATCGCCATGCTTCACCGAATGAATATGGGCGTCATTGTGAGTGATGCCATGCTGAAGGTAAAATTTATTTCCGGTGGCTATATCGGAATGATTGAAGAATATTTTATTTCAAAACTGAAAAAAGAAGAAAAATTTATTCTGGCCGGACGGACACTGGAAGTAGTAATGATCAAAGATATGACAGTATATGTAAGAGCTGCTAAAGGAAAAGCTTTAGTTCCAAGTTATCTTGGCGGAAGGCTTCCTTTGAGTTCCAATCTGGGACATTTTTTAAGAGAAAAATTATCCCATGCCTTAAACCCTAAAGCTTCGGAAAAAGAACTTAAATTTTTGCATCCTCTCCTAGTTAATCAGGAAAAAAACTCACATATTCCCAAAGAAGATGAATTTCTGGTCGAAATGATCAAAAACCGTGAAGGATATCATCTGTTCATGTATCCTTTTGAAGGGCGTATGGTACATGAAGTAATGGCCGCTCTTATCGCTTATCGTATCTCAAAACTGGCTCCTATTTCCTTTTCTATAGCGATGAATGATTATGGATTTGAGTTGTTCAGTGATAAAGAAATTCCATTAAATGAAGAGAACCTGCAACAGATTTTAACCCGGGATAATCTGATGAATGATGTGATTACAAGCATCAATTCTGCCGAAATGGCAAGAAGAAAATTCAGAGATATTGCAGTAATTTCAGGCATGGTGATTCAAAATTATGCAGGACAGCAGCGCTCTAATAAATCTTTGCAAAGCTCTGCCGGACTCATTTTTAAAGTACTGGAAGACCATGATACAAACCATTTTCTAATAAAACAGGCATATACAGAAGTCTTTAATATGCAGTTCCAGGAACAGCGATTGGCAGAAGCGTTTAAAAGAATCGAAAAATCTGAAATTATCTTGAAACATTCCCGTTCTTTTACCCCGCTCAGCTTCCCGATTAAAGTAGACAGCCTAAGACAGACCCTTTCGAGTGAAGGGCTGGATGCAAGGATTAAAAGAATGCTGAAACTGTCTGATATAAGCGATCTTTGA	MAAFEHTTGLKIIQQWMTDKGIAPFKFQLETWKKFGNGYSGMVVAPTGFGKTFSVFLALISDFLNHPGQYKKGLKMLWITPLRSLSKDIAKAMQEAIDEIGLDWTVSVRNGDTDPKVRQQQVKKMPEILVVTPESLHLLLAQKNNETFFRDMKCVAVDEWHELLGSKRGVMVELGISQLKKYVPKIKIWGITATIGNLDEAMEVLIPYDIKKTKITAKEHKKIDILPVFPDEIEILPWAGHLGSKLADKVVPIILESKSTIVFTNTRSQSEMWYQLLLDAYPDFAGQIAIHHSSIDAHLRIWIEENLSSGKLKAVVSTSSLDLGIDFKPVDTVIQIGSAKGVARFLQRAGRSGHSPFETSKIYCVPTHSLELIEVSALKEAVKQKVVEPREPQVLCFDVLVQFLMTLAVGDGFYPDELYERIKKVYAFQEMLDEEWKSTLEFLTIGGSVLKSYEEFHKVVIMEDGLYKVTSRKIAMLHRMNMGVIVSDAMLKVKFISGGYIGMIEEYFISKLKKEEKFILAGRTLEVVMIKDMTVYVRAAKGKALVPSYLGGRLPLSSNLGHFLREKLSHALNPKASEKELKFLHPLLVNQEKNSHIPKEDEFLVEMIKNREGYHLFMYPFEGRMVHEVMAALIAYRISKLAPISFSIAMNDYGFELFSDKEIPLNEENLQQILTRDNLMNDVITSINSAEMARRKFRDIAVISGMVIQNYAGQQRSNKSLQSSAGLIFKVLEDHDTNHFLIKQAYTEVFNMQFQEQRLAEAFKRIEKSEIILKHSRSFTPLSFPIKVDSLRQTLSSEGLDARIKRMLKLSDISDL				NA	NA	NA	NA	NA
BMS003_01344	1581	lig		DNA ligase	ATGAGACATTTTGCAGAACTTATCAACGCATTGGAAACCACCAATAAAACCAATGCTAAAATTAATGCCATCATAGATTATCTGGAACGTGCTCCTGATGAAGATAAAGTATGGTTTATTGCCTTATTTACAGGAAAAAGACCCAAGAGAAATGTCAATACCAATTACATGAAAGAATGGGCGCTGGAGATTACAAAACTTCCTTACTGGCTGTTTCAGGAATCTTATTCTTCCGTGGGTGATTTTGGAGAAACGTTATCATTAATTCTTCCGCCTCCGCAGGAAAAGATAGAGCGTTCATTATCAGAATGGATGAATGATATTGTCAGTTTAAAAGGTAAAACAGACGCAGAAAAAAAAGAATTTGTACTGCAATCATGGAATGGGCTGGATTATACCGAACGTTTGATTTTCAATAAATTAATTGGCGGCAGCTTCCGGATCGGCGTATCAGATAAAACATTGATCAATGCTTTGACTAAATTTTCAGGGCAGGAATCCAGTGCTTTGATGCACAGTTTAATGGGAAAATGGCTTCCGGATGAAGTTTCCTTCAAAGAACTTGTTGAAGCAGAAAATGTAAATCCCAACAACTCAAAACCGTATCCATTCTGCCTTGCCTATCCTTTGGAAAAAGAAACTGAAAAATTGGGAAATCCCGATGAATGGCTGGTAGAATACAAATGGGACGGAATACGCGGACAAATCATCCGGAGAAACGATGAAGTCTTCATCTGGTCAAGAGGTGAAGAACTCGTGACAGAGCAATTTCCAGAAATTACAGAAGTCGTAAAGGCCATGAAGGGCAACTTTGTCATAGATGGCGAAATACTTGCGGTAAAAAACGGTAAGGTTTTAAATTTTAACGAATTACAGAAAAGATTAAACAGAAAAACTTTAACTAAAAAAATGCTCTCGGAAATCCCGATAGAGGTTTTCGTCTATGATTTATTAGAACTGGAAGATAACGATTTGAGAGAAAAACCAATCTCCGCAAGAAGAGCTTTACTGGAAGAATTATTGCTGAATGAAAATCCCGAACGAATCCGTATTTCCAAAAGTCTGGATTTTGAAAAATGGGAAGAATTAAATGCTCTTCGTGAAAATTCAAGAGAGGTAAACAGCGAAGGATTGATGTTAAAACAAAAGAACTCATCTTATCATTCCGGAAGAAAAAAAGGAGACTGGTGGAAATGGAAAATCAATCCGTTGACCATTGATGCAGTTCTTATTTATGCCCAAAAAGGCAGCGGAAGACGAAGCGCTTATTACACCGATTATACTTTTGCCGTGAAAAACGGAGATACTTTGGTAACCATCGCTAAAGCTTATTCCGGGTTGACAGATAAAGAAATCATGGAAGTGAGCCGGTTTGTGACCAAAAATGCCATTGAAAAATTTGGACCTGTAAGAACCGTAAAAGCAGAACTCGTTTTCGAAATTGCTTTTGAAGGCATAGGTTTCAGTAACCGTCATAAAAGCGGTGTAGCCCTACGATTTCCAAGAATTGTGAGATGGAGGAAAGACAAAACCGTAGACGAAATTGATAATTTGGAAGAGATTAAAAAATTAATACAGTAA	MRHFAELINALETTNKTNAKINAIIDYLERAPDEDKVWFIALFTGKRPKRNVNTNYMKEWALEITKLPYWLFQESYSSVGDFGETLSLILPPPQEKIERSLSEWMNDIVSLKGKTDAEKKEFVLQSWNGLDYTERLIFNKLIGGSFRIGVSDKTLINALTKFSGQESSALMHSLMGKWLPDEVSFKELVEAENVNPNNSKPYPFCLAYPLEKETEKLGNPDEWLVEYKWDGIRGQIIRRNDEVFIWSRGEELVTEQFPEITEVVKAMKGNFVIDGEILAVKNGKVLNFNELQKRLNRKTLTKKMLSEIPIEVFVYDLLELEDNDLREKPISARRALLEELLLNENPERIRISKSLDFEKWEELNALRENSREVNSEGLMLKQKNSSYHSGRKKGDWWKWKINPLTIDAVLIYAQKGSGRRSAYYTDYTFAVKNGDTLVTIAKAYSGLTDKEIMEVSRFVTKNAIEKFGPVRTVKAELVFEIAFEGIGFSNRHKSGVALRFPRIVRWRKDKTVDEIDNLEEIKKLIQ				NA	NA	NA	NA	NA
BMS003_01345	1023			hypothetical protein	TTGAAATTAATCACATTTACAAATAAGGGAATTTACTGTCCACAGGGAAAATTCTATATAGATCCCTGGAGACCCGCAGATATGGCCGTTATCACCCATGGTCATGCCGATCATGCCCGCTGGGGAATGAAAAAATACCTTTGTCACCATTTTACCAAACCTATTCTGCATCAGAGAATCGGAACAGATATCGAATGCCAGAGTGTAGAATATGGAGAAGTAATTACCATCAATGGAGTAAAACTATCCCTTCATCCGGCCGGACATATCATTGGTTCTGCGCAGATAAGGCTTGAGTATAAAGGATATGTGACAGTCATTTCTGGAGATTATAAAGTTCAGGAAGACGGACTGAGCACTCCTTTTGAGCTGGTAAAATGCAATGAATTTGTCACTGAAAGTACCTTTGGCCTGCCAGTTTACAACTGGCTGGAAGTTCCGGATTTAAATAAAAAACTTCAAAACTGGGTACTGAAAAATAAAGAAAATAATAAAACTTCTGTTTTTATAGGCTACTCTTTAGGCAAATCCCAGCGGATTATGAAAGCAGTAGAAGAATTAGGAAAAATATACGTACACTATTCCATCGGAAAGCTTAATGAAGCCTTTGAAACAGTGGGAATTCATCTTCCTGAATATACCATTGCAGATTTCAGGGAACGCCCAAAAGAAATGGAACACGAAATTGTCATTGTACCCCCAGCTTTACTCGACAGTAATGTCATCAGGAAAATTCCGGATCCCGCCACAGCAATCTGTTCCGGCTGGATGCAGGTACGTGGTGCCAGAAGATGGCGAAGTGCAGACGCAGGATTTGCCATGAGTGATCATGCAGACTGGAAAGGATTATTACAAACTGTAAAAGCAACCGAAGCAGAATTGGTGCACGTTACTCACGGACAGACGGAAGTTTTCTCAAAATATCTGAATGAAATAGGTGTAAAAGCAGACGTTGTAGAAACTCTTTACGGTGAAGATGAAGAAGAATCTGAAAAAGAAACCCCAGAAAATCCAGAATCATGA	MKLITFTNKGIYCPQGKFYIDPWRPADMAVITHGHADHARWGMKKYLCHHFTKPILHQRIGTDIECQSVEYGEVITINGVKLSLHPAGHIIGSAQIRLEYKGYVTVISGDYKVQEDGLSTPFELVKCNEFVTESTFGLPVYNWLEVPDLNKKLQNWVLKNKENNKTSVFIGYSLGKSQRIMKAVEELGKIYVHYSIGKLNEAFETVGIHLPEYTIADFRERPKEMEHEIVIVPPALLDSNVIRKIPDPATAICSGWMQVRGARRWRSADAGFAMSDHADWKGLLQTVKATEAELVHVTHGQTEVFSKYLNEIGVKADVVETLYGEDEEESEKETPENPES				NA	NA	NA	NA	NA
BMS003_01346	1449			hypothetical protein	ATGCTTAAAATTAAGACATTCCTTGTAATTTTTATCACAACTTCTTTTTTCGGCTTTGCTCAAAACTGCAATTGTGAAAGTAATTATCAGTGGGTGAAAAAGACCTTCGAGGAAAATGATGCAGGATATCAGTATGTCATTGATAAAAAAGGAGGTTCAGCTTATCAGGCACATAATGATGAGTTTCTGAAAAGAATCAAAAATGCAAAATCCGAAACAGAATGTTATCAGACAATATATGATTGGCTTAAATTCTTCAGATCCGGTCATTTTTCAATATCAAAAATAGAAAATAAAACGACTGAAGCTCCGCCAGCAGTCAATGAAAATCCCCAAACAGAATGGGTAAAAATAGATGTTGAAAAGTTCAAAAAAGAATCTGTATCTAAAAAGGATTCAGATATTGAAGGGATCTGGGCAGTTGAACCTTATACTATAGGTATTAAAAAGATTGGAGAAACCTACAAAGGCTTCATTATTGAGTCCGGAGCGGAAAACTGGAAACCTAATGAGTTGAAATTGACTTTTAATGCTGATAAAACCAAAGGAACATACTATTTAAGAAATAAATCTGGTCAGGAAATAAACAACATAAGGTTAGTTGGAAAAAACTATCTTGAAATTAATGATTTTACACTGAAAAGAGTTTCCCCAAAATTTGAAAAAGAGGAAGGAATTGAAACGTATTATGAAGCTATTATGGCCTCAAAACCTTTCCTGAAAGAACTTAACAAAACTACATTACTGTTGAGAATCCCTTCATTCAATGGTGTCTTGAAAAAAGATATAGACAGTATTATTACTGCCAATCAATCTAAAATTGAAAGTACGGAAAATCTTATTATTGATATCAGAAATAATGGCGGCGGTAGTGATGGCAGTTTTGCAAAAATTATTCCCTATCTGTATACTAATCCTATCAGAAGTGTCAGAACACAATTTTATTCTACAAAGCTGAATAATCAGAGAATGTTAGACCTTTATGAAAATTACCAGAAATACGGCATCCCGTCAGAAGAAAGAGAATATTTAAAGAAAGCTTATGATAAACTCAGCCAGAACTTAGGCAAGTTTGTAAGTTTACAGGACGATGGAAATATAGTAGGAATCAATAAAATGGATAAAGCTTCACTCTATCCAAAGAATGTAGGAATTATCATCAATAAAGGAAACGGAAGTACTGCAGAAGAGTTTTTACTGGCCGCAAAGCAAAGTAAAAAAGTAAAGCTTTTCGGGACAACCACAGCCGGAGTTTTGGATATCTCTAATATGTATTTCGTTAATTCTCCTTGCAACGAGTTTAAATTCGGATATGCACTCTCCAAAAGCTTCCGTATTCCTGATATGGCCATTGACGGAAAAGGCATTCAGCCAGACTACTTCATTGATAAAACCATCCCGGATTACCAATGGATTGACTTCGTAAACGATGTACTGAATGAAAAATAA	MLKIKTFLVIFITTSFFGFAQNCNCESNYQWVKKTFEENDAGYQYVIDKKGGSAYQAHNDEFLKRIKNAKSETECYQTIYDWLKFFRSGHFSISKIENKTTEAPPAVNENPQTEWVKIDVEKFKKESVSKKDSDIEGIWAVEPYTIGIKKIGETYKGFIIESGAENWKPNELKLTFNADKTKGTYYLRNKSGQEINNIRLVGKNYLEINDFTLKRVSPKFEKEEGIETYYEAIMASKPFLKELNKTTLLLRIPSFNGVLKKDIDSIITANQSKIESTENLIIDIRNNGGGSDGSFAKIIPYLYTNPIRSVRTQFYSTKLNNQRMLDLYENYQKYGIPSEEREYLKKAYDKLSQNLGKFVSLQDDGNIVGINKMDKASLYPKNVGIIINKGNGSTAEEFLLAAKQSKKVKLFGTTTAGVLDISNMYFVNSPCNEFKFGYALSKSFRIPDMAIDGKGIQPDYFIDKTIPDYQWIDFVNDVLNEK				NA	NA	NA	NA	NA
BMS003_01347	630	cat3		Chloramphenicol acetyltransferase 3	ATGAAGATTGTAGATATAGACAACTGGAACAGAAAAGAACATTTTGAATTTTTTTCTCATATGGCAAGCCCTTATTTTGGATTGACAACAGAGGTAGACTGTACAAAGGCCTACGATATCGCAAAAGAAAAAGGATATTCATTTTTTGCCTATTATTTTCACAAATCTATGGTGGCGATCAATACAGTAGATGAGCTTAAACTCAGAATTATTGACGGACAGGTGGTACAGTTTGACACAGTGCATGCCGGCAGTACAATAGGAAGGCCGGATGGTACTTTTGGTTTTTCATACACTCCCTTTTCAGAAGATTTTGAAACCTTCAATACAGCTTTGCAGGAAGAGATAAGAGGTGTGCATGCTACTACAGGACTGAGATTAAGTAATGAAAGGCTGGGGAAGGACCATATCAGACATACCACTATTCCATGGAATTCTTTCAGTGCTATATTGCATCCTACAGATTTTAATACTACAGAATCTGTCCCTAAAATTGCTTTTGGAAAATTCAATATCCGGGAAGGCAAAAAATATCTTCCTGTTTCTATAGAAGCTCATCATGGGCTGGCAGACGGAATTCACCTTGCCAGATACCTGGAAGAATTCCAGAAACAGCTGGATCAAAAATAA	MKIVDIDNWNRKEHFEFFSHMASPYFGLTTEVDCTKAYDIAKEKGYSFFAYYFHKSMVAINTVDELKLRIIDGQVVQFDTVHAGSTIGRPDGTFGFSYTPFSEDFETFNTALQEEIRGVHATTGLRLSNERLGKDHIRHTTIPWNSFSAILHPTDFNTTESVPKIAFGKFNIREGKKYLPVSIEAHHGLADGIHLARYLEEFQKQLDQK	PGPT0028030_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028030-catA-K19271	NA	NA
BMS003_01348	342			hypothetical protein	ATGAAAAATAAAAAAACTGAAACTGATTTAGAAAATTTAAATCAAAAAATTCGTGTACAGGACGAAATAATGACATTAGCCAAAAGCAATTCTCCCCGTCTCCTGAGTAAATTCCGACTGGTTTATCCTGATTTTTTTAAAAGGTTATCTGATATACAGCCTTCCCTTAAAAATTCTGAACTGATCTTCTGCATTTACCTTAAGCTCAATATGACCACTAAGGAAATTGCAACCTATATTTTTGTAACTCCAAAAGCAATACAGAACAGGAAAAACAGGATCAGGAAAAAACTGAACATTCCTTCTGAATTTGACATCTATAAATGGTTTAATGAAATTTAA	MKNKKTETDLENLNQKIRVQDEIMTLAKSNSPRLLSKFRLVYPDFFKRLSDIQPSLKNSELIFCIYLKLNMTTKEIATYIFVTPKAIQNRKNRIRKKLNIPSEFDIYKWFNEI				NA	NA	NA	NA	NA
BMS003_01349	777			hypothetical protein	ATGAAAAACTTTTTGGATATTGGAAATATTGAGGAAATTTGCATCATGAAAATTATTCCACTCAAAGAAGGCAGTTTTTCGGCAAGTAAAACCAAAGACTTTACGCTTTTAACAGAAGAAAATTCTGATACAATCGGAGGAATCAAAATGTCTGTTCAGCCGTTTCTTATCATTACTGAAAACGATTATATCCTTTTGGATGCCGGAATTGGCTGGAAAAATAAGTCCGGAGCAACCGTGGTTTCAGAAATTCTTGAAAGAGAAAATATCCGTCCCGGGCAAATCACAAAGTTATTGCTGTCCCATCTTCATAAAGATCATATTGAAGGGGCTGTAAAGCTTACAGAAAATGGTTTCGAAGCTGCTTTTCCAAATGCTCAGATCTATATTCAGAAACGTGAGCTTGATTTTGCGATGGAAAAAAAAGGAAATCCTTCTTTTGATCTTGATATACTGGAAAAACTGATTCAGCTTCCTAACATTACGTGGATGAATGAAGACAAGGGGCAGATCACAGATGAAATTTCCTATGAAGTGGTAGGCGGACATACTCCTTTTATGCAGGTTTTCTGGATCAGGGAAAATGAGGAAACGGTATTCTATGGAGCCGATGATCTTCCACAGGCTTCCTATTTAAAATATCACTTAGCCTATAAAAGTGATTTTGATGGTAGAAAAGCAATGGAATTAAGACTTCAGTGGGAAAAAGAAGCAAGAGAAAATAATTGGAAAATCCTTTTGTATCATGATCTGGATAAAGCTATAGTAGAAGTTTAA	MKNFLDIGNIEEICIMKIIPLKEGSFSASKTKDFTLLTEENSDTIGGIKMSVQPFLIITENDYILLDAGIGWKNKSGATVVSEILERENIRPGQITKLLLSHLHKDHIEGAVKLTENGFEAAFPNAQIYIQKRELDFAMEKKGNPSFDLDILEKLIQLPNITWMNEDKGQITDEISYEVVGGHTPFMQVFWIRENEETVFYGADDLPQASYLKYHLAYKSDFDGRKAMELRLQWEKEARENNWKILLYHDLDKAIVEV				NA	NA	NA	NA	NA
BMS003_01350	1185			putative transporter	ATGCAGGAGAGTTCTTCCCATGGTATTTCCCGGACTGTGATCTGGCTTATGGCTGTTATTTCCGGGCTTGTGGTCGCCAACAATTATTATAACCAGCCTTTACTGGCCCTTATTTCTGAAGAACTTCAGGTTTCCGAGAGTGCTGCAAGTAAAATTTCTGTCCTTACGCAGATCGGGTATGCATTGGGATTGCTGTTGATAGTTCCGTTGGGAGATAAATTTTTTCGCAAGAAATTAATTTTAATTGATCTGTTTCTGGTTTTCGGGTCGCTTTTATGGATGACTTTTGCCACTCAGTTGTGGATGCTGTATGCTGCCAGCTTACTGATTGGAGCTACATCGGTTATTCCGCAGCTGTTTGTTCCTATTGCCGCAGAGCTTTCGTCAGATAAAGAAAAATCCTCCAACATCGGATTGGTCATGTCCGGACTATTACTCGGAATTCTTCTGTCCCGTTTTGTAGGTGGAATTGTAGGAGAAGTCTGGGGCTGGAGAGCGATGTTTGGTATTGCTGCAGGGCTGATGATCCTGGTTTGGCTGGCTGTTTATAAAATGCTGCCGGAATTGTCTCCCAACTTTAAAGGAAGCTACAAAGAGCTGATGCGTTCTGTTGCTCAGCTTGCCAAAACACAACCGATTCTTCAGCTGGCATCATTCCGTGGAGCTATGGCATTTGGGTCTATGTGTGCTTTGTTTACCACACTAGTTTTTCATATGGAGAAACCTCCTTTTAATGCAGGATCATCTGTAGTGGGAAGCTTTGGATTAGCAGGTGCTGTAGGAGCTTTAGCTGCAGCCAAAGTGGGGAAATTACAAAAGTATCTGGATATTAACAGGATTATACTATATTCTTTACTGATCATTATTGGAAGCTGGGGTTTTACCTATTTTGCAGGAGAAACGTATTGGGGATTAATTATAGGAGTAATTCTTGTGGATCTGGGGGTACAGTCGAGTCACATTATGAATCAGACCAATTATTTTCTGATTAAATCAAACGCTGTCAACAGGCTGAATACTGTGTATATGGTATCCTATTTCATCGGAGGATCTCTGGGAACCTGGCTGGCTTCTATTGCCTGGCAGAAGGCTCAGTGGACTGGTGTCTGTTTTGTAGGAACGGTATTTGGAGTATTGGCTTTAATCGCACATATATTATTTTGTAAAAGAGTCAATAAAGTATAA	MQESSSHGISRTVIWLMAVISGLVVANNYYNQPLLALISEELQVSESAASKISVLTQIGYALGLLLIVPLGDKFFRKKLILIDLFLVFGSLLWMTFATQLWMLYAASLLIGATSVIPQLFVPIAAELSSDKEKSSNIGLVMSGLLLGILLSRFVGGIVGEVWGWRAMFGIAAGLMILVWLAVYKMLPELSPNFKGSYKELMRSVAQLAKTQPILQLASFRGAMAFGSMCALFTTLVFHMEKPPFNAGSSVVGSFGLAGAVGALAAAKVGKLQKYLDINRIILYSLLIIIGSWGFTYFAGETYWGLIIGVILVDLGVQSSHIMNQTNYFLIKSNAVNRLNTVYMVSYFIGGSLGTWLASIAWQKAQWTGVCFVGTVFGVLALIAHILFCKRVNKV				NA	NA	NA	NA	NA
BMS003_01351	381	yybR_2	COG1733	putative HTH-type transcriptional regulator YybR	ATGGGCAAGATAAAAGAAAACTCAACGAATAATATCAACAAAAAGTATATCCAGGGATGCGATCTGAGCTATGCGGTATGCAGAATCGGGGGACGTTGGAAACTGATTATTTTAAACAAATTAAAAGATGGAAAATTACGTTTCAGTGAAATAAGAAACTCTATTTCCGGAATAACGGAAAGAATGCTGACGCTTCAATTGAGAGAACTGGAAAAAGAAAGTTTGGTAAAAAGAACTGTCCATGCGGAAGTTCCACCAAGAGTAGATTATGAACTGACAGCTATTGCCAGAGAGCTGATCCCTATCTGGAAACAGCTTGATGAATGGGGTGGAAAGCACAGGGAAATGATGCAGGCACAAGAAAATACTGGAGAATTATAA	MGKIKENSTNNINKKYIQGCDLSYAVCRIGGRWKLIILNKLKDGKLRFSEIRNSISGITERMLTLQLRELEKESLVKRTVHAEVPPRVDYELTAIARELIPIWKQLDEWGGKHREMMQAQENTGEL				NA	NA	NA	NA	NA
BMS003_01352	930	nlhH_1	COG0657	Carboxylesterase NlhH	ATGCAATTAACGCCTAAAATAACACAGATTTTAAATCATTTAGAAACCATACAACCCTTCAATCCACAGGATTCTTTAGACGGAGCACGCAAATTCCTTGAAACCATGTCTCTTCAGCTTAGTGGTAAGAAAGAACCGGTAGCTATGATTGAAGAACTGAGTATTCAACAAGAAAATCATCAGATTCCTATCCGAATTTATCGTCCTAAGGGAAGAGATGCTCAACAGTTATCAGCTATTATTTATATTCATGGAGGATGGTTTATTGCAGGTGGGTATGAAACACACGATGCTGTAGTCCGCAAATTGGCTAATAAAACAGGATCTGTAGTGATTTTTATAGATTATCGTCTTGCTCCCGAACATCCTTTTCCGGCAGGTTTAAATGATTGTATGGACGGTGTAAAGTGGGTTTTTGAAAATGCAGAATCTCTGGGAATTGATCCTGATAAAGTAGGAATTATTGGCGACAGTGCCGGAGGAGCTTTGTCAACGGCAGTTTCTACACAATTAGGAAAACAGTTCAAATTTCAGGTATTGATTTATCCTGCAGTAGATAATCAATTGAACTCAAAGACTTGGGAAACCTATGAAAATGGTCCGGTTCTTAATAAGCAGGGCGGAATAGAAGCCTGGGCTGGTTATCTTCCGGAAGAAGAAAAAGGTAATCCTCTCGCGACTCCTGTTTTGATCAAAGATTTTAAAGAAACGCCGCCTACCTTAATCATTCTTGCAGAACATGATCCATTATTGGATGATGGAAAACAGCTTTCTGAAAATATGAAAAATGCAGGTATTGAGCTTAAAACAAGCTTTTACAAAGATATGGTTCACGGATTTATGCATATGGGAGAACTATTGGAAGAAGTACAGTCAGCAGTAGATGAAATAGCTTCTTTTGTCCATCAAAATTTAAAATCTGACAAATAA	MQLTPKITQILNHLETIQPFNPQDSLDGARKFLETMSLQLSGKKEPVAMIEELSIQQENHQIPIRIYRPKGRDAQQLSAIIYIHGGWFIAGGYETHDAVVRKLANKTGSVVIFIDYRLAPEHPFPAGLNDCMDGVKWVFENAESLGIDPDKVGIIGDSAGGALSTAVSTQLGKQFKFQVLIYPAVDNQLNSKTWETYENGPVLNKQGGIEAWAGYLPEEEKGNPLATPVLIKDFKETPPTLIILAEHDPLLDDGKQLSENMKNAGIELKTSFYKDMVHGFMHMGELLEEVQSAVDEIASFVHQNLKSDK				NA	NA	NA	NA	NA
BMS003_01353	1167	pbuE	COG2814	Purine efflux pump PbuE	ATGAGGAAATATGCATACATTGGATGCCTCGGGTTTATAGCCGTTATTACAACAGAATTTGGGGTAATCGGAATTCTTCCGCAGATTGCAGAGCATTACAAGATCAGTATAGACAAAGCTGGGTATCTCTTAAGTGCTTTTGCTTTAATCATTGCCCTTACAGGACCTTTTATGATCTTGCTTACCTCAGGTTTTGATCGCAAGAAAATAATGCTCTCGGCTATTTTCATGTTTCTGATTACAGGATTTGTGTCTTCTTTTTCACCTCCTTTCTGGTTGTTGATGCTAGTGAGAATTTTACCGGCATTCCTTCAGCCCGTCTATATTGCGACAGCATTATCCGTAGCGGTATCTCAGGCAGATCATCGAAAAAAGAATGAACTGATGGGAATTGTTTTTAACGGAGTAGCCATTGCCATGGTAACCACCGTTCCATTTGCTACGTGGATTGCAGGGCTTTGGTCCTGGGAGTATTCCTTCATGATTCAGACTATTGTGAGTCTGATTGCTCTGGCTGTTATTTATTTCATGCTTCCTGCAATGCCTGTGAAAGAGAAGAAGTCCTATGGAAATCAGATCAGAATATTGAAGCAGCCGCCATTTGTATTAAGTACACTGACTAATTTTTTCATGATTACGGCATGGTTTTCTACCTACAGTTATTTTGCAGATTATCTGAACAAAGCCAAAGGAATGGATACTTCAATGGTAAGTTATATGCTCTTGTTATTTGGAATTATCGGAGTATTTGCCAATGGAGTAGCCGGAAAAATGCTTAATAGAAATGTGGCAGGCACCACTGCTATTTTTCTTTCCGGAACTATTGTAGTGCCTGTTCTTCTCTATTTTTCTGATGGAAACTTATGGGCTACAATTACCGTTATCGGAATTTGGGGATTTTTGTATTCACCTAGCTTTTTGAATGCATCCACCTATATGATTTCTTCAGCACCGGACTCACTGGAATTTGCTAACAGTCTTGCCACCTCATTCGGAAACCTGGGGGTGACGGTAGGAACTACAATCGGAGGATGGTTGATCGTTACAAAAGGAGTAGAGTATATCCCATGGATAGGTCTTGTTTTCGGGCTTCTTGCATTTCTTATGATGATTGTAAAAGGGATCATAGAGAAGCGAAGTCAGGTACTTTCCACTTGCCAGAATTAA	MRKYAYIGCLGFIAVITTEFGVIGILPQIAEHYKISIDKAGYLLSAFALIIALTGPFMILLTSGFDRKKIMLSAIFMFLITGFVSSFSPPFWLLMLVRILPAFLQPVYIATALSVAVSQADHRKKNELMGIVFNGVAIAMVTTVPFATWIAGLWSWEYSFMIQTIVSLIALAVIYFMLPAMPVKEKKSYGNQIRILKQPPFVLSTLTNFFMITAWFSTYSYFADYLNKAKGMDTSMVSYMLLLFGIIGVFANGVAGKMLNRNVAGTTAIFLSGTIVVPVLLYFSDGNLWATITVIGIWGFLYSPSFLNASTYMISSAPDSLEFANSLATSFGNLGVTVGTTIGGWLIVTKGVEYIPWIGLVFGLLAFLMMIVKGIIEKRSQVLSTCQN	PGPT0028991_946	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
BMS003_01354	702			hypothetical protein	ATGAAAATAGAAATCTGGTCGGACGTGATGTGTCCGTTTTGTTATATCGGAAAGAATAATTTTGAGCAGGCTTTGAATAAGCTTCCTTTTAAAGATGAAGTGGAAATAGAGTGGAAGAGCTTTCAGCTGGATCCAAGCTTAGATCCGAAAGAAACTCAGGATACCATTCAATATTTCAGAGAAAAGAAAGGATTTCCTGAAGCTCAGGCTACCCAAATGCTTGGTCAGGTAACCCAAATGGGAAAAGGAGCAGGAATTGATTTTAATTTTGAAAAAACTCTAATTACCAATACTTTCAGTGCTCATAAATTGCTTCATTTGGCTAAAAAGCACAACAAATCCAATGAGATGGAAGAAGCATTATTTATTGCTCATTTTATTGACGGTAAAAATGTAGGAGATACAGAAGTTTTGGTTGCTCTTGCTGAAAGTTTAGGAATTGATAAAGAAGAGGCAAGACAGGCGGTTACAACAGATCAATTAGATTATGAGGTAAATCAGGATATTCAGGAAGCGAGAAACAATGGTATTTCCGGAGTTCCTTTCTTTGTTCTGAATGGTAAATATGCCGTTTCTGGTGCTCAACCTGCAGAGGTATTTGAAAATGCACTTCAGCAAACTTATAAAGAAACGGTGAGTCCGTTTAAGGATCTTTCCGGTGAGAACGGAGCTTCCTGCGATGCAGACGGATGCAGCATTTAA	MKIEIWSDVMCPFCYIGKNNFEQALNKLPFKDEVEIEWKSFQLDPSLDPKETQDTIQYFREKKGFPEAQATQMLGQVTQMGKGAGIDFNFEKTLITNTFSAHKLLHLAKKHNKSNEMEEALFIAHFIDGKNVGDTEVLVALAESLGIDKEEARQAVTTDQLDYEVNQDIQEARNNGISGVPFFVLNGKYAVSGAQPAEVFENALQQTYKETVSPFKDLSGENGASCDADGCSI				NA	NA	NA	NA	NA
BMS003_01355	1014			hypothetical protein	ATGAAAAAAATATATTTTCTTTTGCTATCTCTTTACTCCATCGCTTTTTTTTCTCAAAGCAAATATGATAAAGAGATTGACTATCTAAGAAAAAATTGTAATCAGGAAGCATTAGATAAAGCAAAAAAGATGTATTCCGAATTTCAAGCTATACAAATGGATAATTCTTTTGATACTACCTTAAAGGATTATTATGAATTTTTAGAATCAACAAAATGCAGAAAATTTGATCTAATATTATTTTCAGTATGGGAAAAAGATAAAATAATTAATGAGAGAGTGTTTAAGTCTTTTTTTTATAATTCAGATGAAAATTATAAGATTTTTATTAATGGATATATTCAAAAGAAGAGATTCATATTTGTTAATTCTGAAAGTTTAGATCAGGGAATAGATGATGAACTGCAGCTTAAAATGTTGAAATATGTTGAATCACACTCAAAAAATGATTTAAAGGAAGTTATTAGTATTAATATTGAAAAACTGAAAGGTCACGAACTTACTCATTTTATTTCAACTGTAGAAAATGGTTTTGATCTCAAAGAATTTCAGAAAGAGTTAATCAACAAATCATACCATGTAGAATATCCTTTTGATCTCGACTTTTTAATATCCAAACTGATCTATTTAAAAGTTAATAATTCAACAATTGAGAACATTTTAAATAATAAAAAGAATATTTGGGATAAAGGAAATTGGTCTGAAAAATTTTGGAGTTTGATAAAAAGCCAAGGTTTTAACGTAAATGCAGATTTATCCTATACAATAGATGATCAGGGTAAAAAGAAATACAATATTAAAGAGTATATCAAAAACCAACAAAGAAATAATATGATTGGTGAAAAGCCATTACTATTCATTAACCATAGTCTCGTTAACTATAATGAAAACTCTTTGATTGAAATGTTGGAAAAGCTTAATATTAAAGATATTCAAAGTGAATCTAAGGATCAGAGTGTGAGTTTATATGGATCCGGAGGAACTCAAGGGGTTTTAATGATATTGACCCATTAA	MKKIYFLLLSLYSIAFFSQSKYDKEIDYLRKNCNQEALDKAKKMYSEFQAIQMDNSFDTTLKDYYEFLESTKCRKFDLILFSVWEKDKIINERVFKSFFYNSDENYKIFINGYIQKKRFIFVNSESLDQGIDDELQLKMLKYVESHSKNDLKEVISINIEKLKGHELTHFISTVENGFDLKEFQKELINKSYHVEYPFDLDFLISKLIYLKVNNSTIENILNNKKNIWDKGNWSEKFWSLIKSQGFNVNADLSYTIDDQGKKKYNIKEYIKNQQRNNMIGEKPLLFINHSLVNYNENSLIEMLEKLNIKDIQSESKDQSVSLYGSGGTQGVLMILTH				NA	NA	NA	NA	NA
BMS003_01356	582	mtnN		5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGATAAAAATTAACACCGAAACTCATTATTCAATTGATGATACCCTTTTTGTTTTTGCATTAGATTCCGAAGCAGGAACCGTTTTTGATGATAAAAACAAATTAATTACAGGCATCGGAAAAGTAAATGCAGCGATTGAATTAACCAAAGAAATTTATACCAAAAAGCCTAAACTGATCGTGAATTTAGGTTCTGCTGGAAGTAAAGGATTTCACAAAGGCGAAGTAGTATGCTGCACAAAATTCATCCAGAGAGATATGGATGTAAGAGGATTAGGATTTAAACTTTATGAAACACCTCTATCCGGAGTGCCACCTGTATTGGAATACGGTCTTAAAATGGATACCCTGAAAGAAGGAATCTGTGGAAGTGGTGACAGCTTTGAAATGAACCACTCCGAAACCGATTATAATATTGTAGATATGGAAGCCTATCCATTGGCGTTGATTGCCCAAAAGGAAAATATTCCGTTTCTATGTCTGAAATATATCTCTGATGATGCGGGAAGTGATGCAGCAGACGACTGGAGTGTACAGGTACATCTGGCTTCTGAAGCATTTAAGAAAATTCTTTTTTCGTAA	MIKINTETHYSIDDTLFVFALDSEAGTVFDDKNKLITGIGKVNAAIELTKEIYTKKPKLIVNLGSAGSKGFHKGEVVCCTKFIQRDMDVRGLGFKLYETPLSGVPPVLEYGLKMDTLKEGICGSGDSFEMNHSETDYNIVDMEAYPLALIAQKENIPFLCLKYISDDAGSDAADDWSVQVHLASEAFKKILFS	PGPT0014320_3048	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
BMS003_01357	522	paiA	COG0454	Spermidine/spermine N(1)-acetyltransferase	ATGAGTTCAATCATTATCAACAAAGCCTCGTCTGAAGATGTAGAAATTGTGCAAAGTTTAGGTATACTCACCTTCACAGAAACTTTTGCAAAAGATAATACAGAGGAAGCCATGAAAAAGTATCTGGAAGAAAGCTTTAATACTGAAAAAATAAAATCTGAGCTCAATAATTCTGATTCCCATTTCTATATTGCCTGGGAAGAAGACAATCCTGTCGGTTATCTGAAAGTCAATTCGGGTAAGGCACAGACTGAAATTCAGGATGAAAACGGACTGGAGATTGAAAGAATTTATGTCAAAAAAAGCCATCATGGAAAGAAAATAGGTCAGCTGTTGTATGACCAGGCATTAGAAACGGCTCAGCAACTCAAGAAATCCTATCTATGGCTGGGAGTATGGGAAGAAAATCTGAAGGCTTTACAATTTTACAGAAAAAACGGATTTGTCAAGTTTAATAAGCATATTTTCAGACTTGGAGAAGAAGAACAGACAGATTTGATGATGAAAAAAATGCTGGATTAA	MSSIIINKASSEDVEIVQSLGILTFTETFAKDNTEEAMKKYLEESFNTEKIKSELNNSDSHFYIAWEEDNPVGYLKVNSGKAQTEIQDENGLEIERIYVKKSHHGKKIGQLLYDQALETAQQLKKSYLWLGVWEENLKALQFYRKNGFVKFNKHIFRLGEEEQTDLMMKKMLD	PGPT0007785_636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
BMS003_01358	576			hypothetical protein	ATGAACAATTCAGAATTTATAAAGCACATCAATCAGTATTATCCTTTATCCGAAGAAACAATTCAGGCTTTATTGAATATCTGCACAGAAGAATACTACAACAAAAATGATCTTCTGCTGGAAGCTGGTTCTATGGCCAGATATTATTATTTTGTAAAATCCGGATTGATAGGATATTATACTGTAGACGAGCTGGGTAACAGCATTTATAAAATATTTTTCGAAGAAAACAGTTTTGTAGCTTCCACAGCTGCTATTGTTAAAAATGAGCCCAGTGATTTCAGTATCATTGCTCTGGAAGACTGTTCTGTGATACAATATTCTGCAAAAGCCTACCGTAAATTATTGGAAAAATACCATGATCTGGCTCTTTTCCATCTGTATTATCTGGAGAGAAACTGGGTCGTAAATAAGGAACCACTGGAAGTCTCCCTCAAATATGAAACTGCAAAACAAAGGTATTTACAGTTACTGGAAAAGCCAACCTTATATAACAGGCTGAAACAGCACCATATTGCTTCTTATCTGGGAATTACCCCCACACAGCTGAGCCGGATCAAAAAGGAGATCAACTGA	MNNSEFIKHINQYYPLSEETIQALLNICTEEYYNKNDLLLEAGSMARYYYFVKSGLIGYYTVDELGNSIYKIFFEENSFVASTAAIVKNEPSDFSIIALEDCSVIQYSAKAYRKLLEKYHDLALFHLYYLERNWVVNKEPLEVSLKYETAKQRYLQLLEKPTLYNRLKQHHIASYLGITPTQLSRIKKEIN				NA	NA	NA	NA	NA
BMS003_01359	930			hypothetical protein	ATGTTGAGGCTTTTATTCTTTTTCTGCCGGAATTTTGCTCTGTCAGAAGGTCATTGGTACATTATATGTTTTATAACTAAAAGACTTGTGACTATTATTAATTCAACATTTTTCAACATGAAGAAGCTTATCAACATTGTATTTGTACTGACAGCATGCATTCAGCTATCAGCACAAAAAATTATTCATCAGGAAATTTTCAGTCCGAAAATGAATAAAAAGATCAAAACAGTTATTATTACCCCAAATCTGCAGCCTGATACAACCTATCCCTCTGTTTATATCCTTCATGGCTTCAGTGGTAATCCGGACAGAATCATTAAGCAGGATATTCCGGATCTGGTAAAAAAAGCGCAGGAATTTAAAACAATTTATGTACTTCCGGACGGTAATTATAGCTCATGGTACGTTGATAGTCCGATCGATAAAGATTCGCAATATCAAACCTTTATTGGAAAAGAACTGGTAGAATTTATTGATAAGAATTATCCGGTAAAAGCAGAGAAAAGATTCCGGGGAATTTTGGGATGGAGTATGGGAGGTTACGGAGCCACCAATATCGGAGTTACTTATAATAAAACATTTGGTATTGTAGGAAGTTCTTGCGGAGCGCTGGATTTCAATTCTTTCGGAGAAGGGTACCAAAAATATATGGTGAATAAAGTGTTGGGACCGCTGGAATCTATCAATCCTAATTTTCTTACAGACAGCAAAATAAAGTTAATGGCAGGGGCAGGACAACAATATATTTTTGATTGTGGTACAGAAGATACCCAAATGATCACGATGAACCGGAATTTTCATAAAAAACTGACCGAAATGAAGATCCAGCATCTTTACAGTGAATCTTTGGGTGGACATGTTACCGAATACTGGAGCAGATCATTATCTGAACAATTGTCTTTGTTTGATAGGTTTTTTAAACAGTAA	MLRLLFFFCRNFALSEGHWYIICFITKRLVTIINSTFFNMKKLINIVFVLTACIQLSAQKIIHQEIFSPKMNKKIKTVIITPNLQPDTTYPSVYILHGFSGNPDRIIKQDIPDLVKKAQEFKTIYVLPDGNYSSWYVDSPIDKDSQYQTFIGKELVEFIDKNYPVKAEKRFRGILGWSMGGYGATNIGVTYNKTFGIVGSSCGALDFNSFGEGYQKYMVNKVLGPLESINPNFLTDSKIKLMAGAGQQYIFDCGTEDTQMITMNRNFHKKLTEMKIQHLYSESLGGHVTEYWSRSLSEQLSLFDRFFKQ				NA	NA	NA	NA	NA
BMS003_01360	1098			L-lysine 4-hydroxylase	ATGAATTCTATAGAAATTTTAGATAAAGACTGTTTAACAGCGGTAAAACTGCTTCCTACGGTCATAGAAGTCACCTCTCAGGAAAGAAGAATGATAAAAGATGCGGCGCTGCATCTTCAGAAAAAATATGATAATTATGAAAACCGTGATTTTATAAAGCATGTACACCAGCTGGCGTCTTATTTCTTACCGGAGAGAATTTTAAATATAGCGGCTGATTTTGCGAGTGACTTTTCAAAAAATCAGTATGGTGCACTGATCTTTACAGGATTAATGGATATCGATCAGGAGGATATAGGATCTACCCCTCCCAATTGGCAGGCCGCAGATTATTCAAAGTTTAATTTATATGGTTTTGCCTGTGCACTTATTCATGGGGCACTTCCTTCAAAACCTGTTCAATATTATTCACAGCGTAAAGGCGGCGGATTGATCCATGCCATTATTCCCGACGAAAAAATGAAGGAAACGCAGACAGGATCAGGATCTTCAACAGATTTATATGTACACACAGAAGATGCTTTTCTGAAACATCAGGCTGACTATTTAAGCTTTATGTATGTAAGAAATGAGGAGCAGGTTCCTTCTACCCTTTATTCTATCCGTTCTCATGAATCTATCGGGGACAATTACCGACCTCTTTTTGAGCGTATTTACAAAATACCTAAAGATGCTAATCTTGAAACGGGAGAAAATGAAGAAGAGACATTAGATTCTGTATTGTATGGTAATTACAGCCTTCCGTTTATGAGATTTGATGCCGCTGAACAGCTTTTCAATTCCAGTATAAGGCAGTCGGAGGAGGCACATAATAAGCTTCATGAATTCTGGGAAGAAGCCAGACATTTGATTTATTCAGGATTCACACCTCAGGCCGGAGATGTTATTCTGGTTAATAATCATCTATGTGCTCACGGAAGATCAGCTTTCCGTGCAGGAGTAAGAAATATTGACGGTATAGAACAGCCATGCGAGAGAAGAATCATGCTTCGTATGATGAGCAAAGTGAGCCTTATCGATATGAGAGCACACACGCTTACGGAAGATCCGTTCTTTGTGATAGAAGAACATTTAGGTAAAAACTTTCAACACTTTTAA	MNSIEILDKDCLTAVKLLPTVIEVTSQERRMIKDAALHLQKKYDNYENRDFIKHVHQLASYFLPERILNIAADFASDFSKNQYGALIFTGLMDIDQEDIGSTPPNWQAADYSKFNLYGFACALIHGALPSKPVQYYSQRKGGGLIHAIIPDEKMKETQTGSGSSTDLYVHTEDAFLKHQADYLSFMYVRNEEQVPSTLYSIRSHESIGDNYRPLFERIYKIPKDANLETGENEEETLDSVLYGNYSLPFMRFDAAEQLFNSSIRQSEEAHNKLHEFWEEARHLIYSGFTPQAGDVILVNNHLCAHGRSAFRAGVRNIDGIEQPCERRIMLRMMSKVSLIDMRAHTLTEDPFFVIEEHLGKNFQHF				NA	NA	NA	NA	NA
BMS003_01361	1527	ddc	COG0076	L-2,4-diaminobutyrate decarboxylase	ATGAACAACAATTTAATATCCCTGGGAGAGCTCGCAAGCTCCACTTCACCTCACATTTCGGGGAATTTTGGGAATATTTTTCACCCTGACAATTATGATCATTATCGTAATGCTGTCAACAGTACTTTAGACCTGGTTCAGGAATTTCTTCACAGAAACAACAAACCTTTCAGTGGTATAGAAGCTAAAACAATGAAAGGAATGGTACAACAGATTGATCTTAATCAAAAACTTTCCACTTATAATGAGCTTCTGACAGAAGTAGATAATATTTATGTGAAACACGCCACCGCTTTTCACCTTCCACAATATGTAGCTCACCTTAATTGTCCTGTAGTAATCCCGGCATTGGCAGGAGAAATCCTTGTAAGTGCTATTAATTCTTCACAGGATACTTATGATCAGAGTGCAGGAGGAACCTTTATGGAAAGAAAACTGATCGACTGGACTGCTGGTCAGATTGGATATAATACGAATGAAAGCGATGGTGTTTTCACCGCGGGGGGCTCACAGAGTAATTTAATGGGATTGGTCATGATGCGTGACTGTTTTTCTCAGAAAAGATATCATCACAATATTAAAATGGATGGTCTGCCAGCAGAGGCAAGCCGTTTCAGAATATTTGTTTCAGATAAATCTCACTTCAGCAATCTGAAAAATGCGTCCATTATGGGACTGGGTGAGAAAAGTATTGTTAAAGTTCCTACAGATGACCGTTTCCGTATGGATATTTCTCTTTTGAAAAAATACATTAAGAGAGAAGAACAGCTGGGAAATATTCCTATTGGTATTGTAGCAACAGCTGGAACCACAGACTTTGGAAATATTGATCCACTAGATGATATCGCTAATATTGCAGAACAATATAACATCTGGATGCACGTAGATGCCGCTTACGGTTGTGCTTTACTATTAAGTGAAAAATACCGTGATCTGATCAACGGAATTGAAAGAGCGGATTCTGTAACGATTGATTACCACAAATCATTCTTTCAGCCTATCAGCAGCAGTGCTTTTATTGTTAAAAATAAAAAAGAACTGCTGATTCTTAAACATCATGCCGATTATCTGAATCCGAAAGAAATGGACGAAGAGGAGATTCCGGCGCAGATCAATAAATCCATTACTCAGAGTACAAGAAGATTTGATGCTTTAAAACTTTGGTTTACCATAAGAATGATGGGGAAAGAACAGTTGGCAGAATACACAGACACCGTGATTGATCTTACCAAAGATGCAGCTGCAATGATTACGGAAGATGCAGATTTTGAACTTCTTTCAGATTCGGATTTAAGTGTTCTTGTTTTCAGATATGTAAATCCGGAAATCAGTGATCTGAATGCACTGAATCAATACATTAAGATGAAACTGTTCTACAGCGGAGAAATCCTTGTAGCAAGTACAAAAGTGGATGAAAACTTCTATCTGAAGTTTACGTTCCTGAATCCGATTACGACTACGGAAGACATTCATCAAATTCTCACCACAATCAAAAATCATGGAAAAGACTTTAATTCAGAAAAATAG	MNNNLISLGELASSTSPHISGNFGNIFHPDNYDHYRNAVNSTLDLVQEFLHRNNKPFSGIEAKTMKGMVQQIDLNQKLSTYNELLTEVDNIYVKHATAFHLPQYVAHLNCPVVIPALAGEILVSAINSSQDTYDQSAGGTFMERKLIDWTAGQIGYNTNESDGVFTAGGSQSNLMGLVMMRDCFSQKRYHHNIKMDGLPAEASRFRIFVSDKSHFSNLKNASIMGLGEKSIVKVPTDDRFRMDISLLKKYIKREEQLGNIPIGIVATAGTTDFGNIDPLDDIANIAEQYNIWMHVDAAYGCALLLSEKYRDLINGIERADSVTIDYHKSFFQPISSSAFIVKNKKELLILKHHADYLNPKEMDEEEIPAQINKSITQSTRRFDALKLWFTIRMMGKEQLAEYTDTVIDLTKDAAAMITEDADFELLSDSDLSVLVFRYVNPEISDLNALNQYIKMKLFYSGEILVASTKVDENFYLKFTFLNPITTTEDIHQILTTIKNHGKDFNSEK	PGPT0013725_387	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
BMS003_01362	2409			hypothetical protein	ATGGAAAAGACTTTAATTCAGAAAAATAGAACAGGGGAAAAAGCCCGGGAAATTACTTTCAGAATTCTGTTGAACGGAATGCTGAGAGAACTGGGAAACGGAAAATTCTATCAGGGCGTTCCAAAATATGATCTTCTCACGGCAAAAGCACTTCAAAACAGTGATTATTCATTGTTTATGAGGTTTGAAATGAAAAAAAGCGGACTGTTTTTATTTGCTCCGGTTTCTTATCGTTCCGAAACTCTTTTTCATGAATACGGATCTGTTTTGTGGGCGGTAGATCATCAAAATCAGGAAGTTTTTGAAGTTAATGATCAAAAGCTTACTGAACTGGTTTATACAGAACTTTCTGAGACTACCAACGAAACGGGTTTCAGAAACTTTGTGGAAAGAATTCAGAGCAGCTTAAGAAATCTGGAACTGACAACAGAAGCTTGTCTGCAGGATGATCAGTTGTTGACCTATTCTTTCCTGGAATCTGAACAAATGCTTCCTGCGGGGCACAATCTGCACCCTTTCACCAAATCAAGAATGGGATTCTCTGAGGAAGAACAGCTTTTATACGGTCCCGAATTCGGGAAAGGGTTTCAGCTGGATTATTTCCTGATTCACAAAGACTGCATCACGGAAAAGTCTCTTCCGGGAATTTCAGCAAAAGAAATCTTCGAAAAATGGACTTCTTTACCGGAAAGCTACGATTTTGAAAACATCAATGATTTTTATATAGTTCCATGCCATCCATGGGAGGCACAGTATCTTTTATCAACAGCAGAATACCCTGAAATGTTGGGTTCTGGGAAAATTATTCACATTGGACCATTGGGAGAGGATTTTTATGCAACTTCTTCCATAAGAACGGTGTATAATCCTGATTTCAGCTGGATGTTGAAATTCTCTCTGCATGTTTTAATGACAGGCTCTGTGAGAACAAACAGCTTAAAAGATCTCAACAGAGGATATGCTTCGGCTATTTGGTGGCAGCATCAAAAAGCTTCATTTGAACAAAACTTCTCGAATTTTAAATTATTATTGGAACCTTCCACGCTAAGCGTTCATTATGAAGGAAAAAATATGGACAGTCTGAATATACTGCTCCGCGAAAATCCTTTTTCCAATGAAGATAAAGTCATTCTGTTAGCAAGACTTTGCCAGGATGAATCTACAGATGGGTTCAATTTTACGATGCATTTCTTCAAAAATGTTGCGAATCAATTGGGTGTAGATGCTGAAAAAGCAGCTATTATCTGGTTTGAAAAGTATGTAAACCTATTGCTTTCTCCTTTAAACAGATTGTACAATCAATTAGGCATGGCTCCTGAAGTTCATCAGCAAAACTTACTTGTTCAATTGGATAATCAACTTCTTCCTGAATCTATTTATGTAAGAGACGGGCAAGGATATCTGATCAAAGAAAGCTTCAAAGGAAAATATGAATCTCTGATCAAAGATTATCCTGAAGTAGATGATCTTTTCATCAGGGATGAGCGTCTTTTGGACATTATTTCTCACCATCTTTTGGTAAGCAACCTGAGTGCACTGATTGCTTCCATAGGCAAAACAGGACTGGTTAAAGAAAGAAGACTAATTCATATTCTGTACAGAGAGTTTGAAAATCTTCATGAAACTGAACCTTCCTCATTAACGGAGTATGCTTTGAATCAAAGATATTGGGCAGTAAAATCAAACCTTCAGTCGGCGGTTGCTGATGTAGACGGAGGCGTGAATGCTTCTTCTATTTCATATGCTAAAGTTCCGAACCTTCTTCACAAGCATTTCTTCTCGGATCAGTTAATCAATCCACAGGGAACAGAAGTTTTCTTTAAAAGATATTTCCAGAAAGAGGATGTAACCATGAGTATGCGTCCTATAGATCTTGAAAATGACCTTGAAATGCTTCATGAATGGTTCAACCGTGAACATGCCGTAAAAATCTGGCAGATGAACTGGCCGATAGACGAACTGGAAACGTACTACAGACTAATGCTTCCAAATGATGAAGCACACAGTTATATTATTGCAGGAAACGATGAACCTTCTTGTAATATTGAGGTGTATTGGGCTTGCAGAGATATTGTAGGCGATTATTACGAAGTGCTGCCTACCGATTACGGAACGCACCAGTTCATTGCACCTATTGATCCTAAAAAGAAATTTGTCTCTCCGTCTACTCAATCTATGGTTGACTATGTTTTTGCACAGCCACAGGTAGGAAAAATGGTAGGAGAAGGATCTGTAGACTCTCTTGCTTCTATGATGAACAAAGCCCATGTAGGCTTCAAAGTAGATAAAGTAATAGAAATGCCTCATAAAAAAGCCAATCTGAACTTCTGTTACAGAGAATGGTACTGGGAAAAATTCCCACAGAATAAAGAGGTACAAATCACCACAAACATCACAAAAAATGACTAA	MEKTLIQKNRTGEKAREITFRILLNGMLRELGNGKFYQGVPKYDLLTAKALQNSDYSLFMRFEMKKSGLFLFAPVSYRSETLFHEYGSVLWAVDHQNQEVFEVNDQKLTELVYTELSETTNETGFRNFVERIQSSLRNLELTTEACLQDDQLLTYSFLESEQMLPAGHNLHPFTKSRMGFSEEEQLLYGPEFGKGFQLDYFLIHKDCITEKSLPGISAKEIFEKWTSLPESYDFENINDFYIVPCHPWEAQYLLSTAEYPEMLGSGKIIHIGPLGEDFYATSSIRTVYNPDFSWMLKFSLHVLMTGSVRTNSLKDLNRGYASAIWWQHQKASFEQNFSNFKLLLEPSTLSVHYEGKNMDSLNILLRENPFSNEDKVILLARLCQDESTDGFNFTMHFFKNVANQLGVDAEKAAIIWFEKYVNLLLSPLNRLYNQLGMAPEVHQQNLLVQLDNQLLPESIYVRDGQGYLIKESFKGKYESLIKDYPEVDDLFIRDERLLDIISHHLLVSNLSALIASIGKTGLVKERRLIHILYREFENLHETEPSSLTEYALNQRYWAVKSNLQSAVADVDGGVNASSISYAKVPNLLHKHFFSDQLINPQGTEVFFKRYFQKEDVTMSMRPIDLENDLEMLHEWFNREHAVKIWQMNWPIDELETYYRLMLPNDEAHSYIIAGNDEPSCNIEVYWACRDIVGDYYEVLPTDYGTHQFIAPIDPKKKFVSPSTQSMVDYVFAQPQVGKMVGEGSVDSLASMMNKAHVGFKVDKVIEMPHKKANLNFCYREWYWEKFPQNKEVQITTNITKND				NA	NA	NA	NA	NA
BMS003_01363	1317	iucD	COG3486	L-lysine N6-monooxygenase	ATGACTAACGAAGCCGTATACAATGTAATAGGCATAGGTATAGGCCCTTTTAATCTGGGACTTGCCGCATTATCTAATCCGATTTCGGAACTGAAAACCCTTTTCCTGGACCAGAGAGATGGTTTCGACTGGCACCCGGGACTGATGATTGACCATGTAACTCTGCAGACTCCATTTTTATGTGACTGCGTTTCCATGGCTGATCCTACCAATCATTTGAGTCTTTTGAATTATCTGAAAGAAACCGGAAGACTGTATAAGTTTTTTATCAGAGAAGATTTTTTCATTCCGAGAAAAGAATACAACCGTTACTGCCAATGGGTAATTGAACAGCTTCCACAATGCCGTTTCTCTACTCAGGTAGTGGATATTACTTATGAAGACGGTCTATATCATGTAACTACGATTCACACCAAAACCAAAGAAACTACGGTTTTCAAAACAGAAAGATTGATTTTAGGTACAGGAACACAGCCTCATATTCCTTCTTTCATTCCGAAGGATGATTCACGTGTTATTCATACAAGTTCTTATCTGTATAGAAAAGAAGAGCTTTTATCTCAGGGTAAAAAAATAGCGATTATCGGTTCTGGCCAGAGTTCAGCAGAAGTTTTTTATGACCTTCTTCAAAACAGAAATGAAGAAACGCACTTGGGATGGTACTCCCGTCCGGACAGATTTTTCCCCATGGAATATTCTAAGTTGACGCTGGAGCTTACTTCACCTGATTATGTAGAATATTTCTATAACAGAAGTGAGTCTGTAAGGAAAACCATTTTAAGCAAACAGCAAGCACAGTTTAAAGGAATCAATTATGATCTGATCAATGATATCTACGATTTTATTTATGATCTGAATATTGACAATGCTGATCCTAATCTTAAAATTATCCCGAACAGCCAGCTGAATAGAGTAGACAACAGCAATCCTGACTTCATCAATCTTGAGTTTACCCAACTGGAACAGGAAGTACCTTATGATCAGGAAGCTGATTATCTGATTTTAGGAACAGGATACCGCTATCACGAGCCTGCATTCTTACAAAATATTCAGGATAGAATAAAGAGAGATTCCAGCGGATTGTTTGATGTGAACAGAAATTATTCAATAGACCACAACGGAGGCGAAATCTATGTGCTTCATGCTGAAGTACATACCCATAGCTATATTTCTACTGATCTTGGAATGGCTGCATACCGTAATTCCTACATCATCAATGATATTTTAGGGAGAGAGCATTATAAAATTGAAAAGAGAATTGCTTTCCAGGATTTCGATGTAGAAAAATATGCTGATTTACCAACTGCCAAAATTTAA	MTNEAVYNVIGIGIGPFNLGLAALSNPISELKTLFLDQRDGFDWHPGLMIDHVTLQTPFLCDCVSMADPTNHLSLLNYLKETGRLYKFFIREDFFIPRKEYNRYCQWVIEQLPQCRFSTQVVDITYEDGLYHVTTIHTKTKETTVFKTERLILGTGTQPHIPSFIPKDDSRVIHTSSYLYRKEELLSQGKKIAIIGSGQSSAEVFYDLLQNRNEETHLGWYSRPDRFFPMEYSKLTLELTSPDYVEYFYNRSESVRKTILSKQQAQFKGINYDLINDIYDFIYDLNIDNADPNLKIIPNSQLNRVDNSNPDFINLEFTQLEQEVPYDQEADYLILGTGYRYHEPAFLQNIQDRIKRDSSGLFDVNRNYSIDHNGGEIYVLHAEVHTHSYISTDLGMAAYRNSYIINDILGREHYKIEKRIAFQDFDVEKYADLPTAKI	PGPT0031170_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BISUCABERIN__BIOSYNTHESIS,PGPT0031170-bsbB-NA	NA	NA
BMS003_01364	1812	iucC	COG4264	Aerobactin synthase	ATGAACACCAACTTAAAAAATACAGTAAGCCAGGAAAACTGGAATCAGGCTAACAGAAACCTAATGGCTAAAACCATCGCAGAGCTGATGCATGAAGAGCTTCTAAAGCCTGTGGTAACCTTTGAAAATAAAAACGGATATACTGTTTTTACCCTTGAAACCGGAGTTGAAAATATTATCTACAGCTTCCGCGGACAGGAAAGAATGATGGATTACTGGCACATTGATAAAGACAGCATTACAAAAACAGAAAACGGTGAAGATTTGTCTTCTGTAGATGTAGCAGCTTTCTTCCTCGAAATGCAGACTGTTTTTGACTTAGATCCTTATACCATTGCAAGATACACAGAAGAATTACTGCATACGCTGTATTGTGATGCTTTAATCTTATCAAGAGGAGTGATGTCTTCAAAAGATCTAGCGGATGCAGATTATCAAACTGTAGAGCATAATATGACCGGACATCCATGGGTAATTGTGAACAAGAGCCGATTAGGTTTTTCTCCACGTGATCTTAAAACATTTGCTCCTGAAGCTGATGAAAATTTAAAAGTAATCTGGCTGGCTTCTCATAAAAGCAGGTCGTCATTCCAGTCTTTGGAACATATCAACAGAGATGAGTTTTATCGTTCTGAAATAGGAGAGGATTTATACAATGATTTTCAGCAGCAGCTGTTGAACAAAAGAAAAGTTGTTGAAGATTATCATTTTATTCCTGTGCATCCGTGGCAATGGGAGCATAAGCTTCAGATTCATTTTGTGGGAGATATTGCTTCCGGACTTTTAATCCAATTGGGTGAAGGTATTGATACGTACAGTCCGCAGCAAAGTATCCGGACTTTATTCAATGTAGATCATCCTAAAAAGAGATACCTGAAAACGGCTGTTTCTATTCTGAGCACAGGAAATATCAGAGGATTATCACCTAAGCAGATGAAAATTGCTCCAGCCATTACAGATTGGGTAAAAGGTTTAATTAAAGATGATGCATACCTTGAGAATAAAGAAACTATTTTCTTAGGAGAAGAGGCAGCAATCACCTATCTGCATCCACAATATGGAGCTATTGCGAGCGTACCGTATCAATATAATGAATTCCTTGGCGCATTATGGAGAGAAAGTGCTGAAAATTATCTGAAAGAAGATGAGCAAATGGTAACCATGGCCTCTTTACTTTATGTAGATGAAAATGGAGTTCCATTGGTTCAGGCATTTGCAGAAAAAGCGGGTGTTAGTATCAAAGAGTGGATTGAAAGCTATCTTGATGCCTATCTTACACCTTTGCTGCATATCTATTACACGCATTCATTATGTGTAACGCCACACGGAGAAAACATTATGGTGGTTTTGAAAAACGGAGTTCCGAAGAGAATCGTAATCAAAGACTTTGTAGATGATATTGTACTTACTACAGAAGCCAGAGAAAAGCTTCCTGCACACCTTGCGGACGGTTTGATCCAGTCTTCCAACAAAGAAAATATCCCGTTGTTTATTTTGCTTGGAGTCTTTGATGCCTTCTTCAGATATCTGTCGAATGCGCTGCATACTTATTCCAACTTTAATGAAGAAACATTCTGGGAACTGGTTCACAACTGTGTAGAAAATTATAAAGCTGAGAATACCCACCTTCAGGAAAGATATGAAAAGTATGACCTGTACGTGCCGGCATTTAAAAGATTCTATATCAACAGTCTGCGTCTGAAAAATAACGGTTACAGTGAGAACAAAGCATTTGCTATTCCGAGAAAAGACGGAGCACTGCCTAATCCGCTGTATCAGATTGCCAATAAAAATTCAGTAGCAGCAGTATGA	MNTNLKNTVSQENWNQANRNLMAKTIAELMHEELLKPVVTFENKNGYTVFTLETGVENIIYSFRGQERMMDYWHIDKDSITKTENGEDLSSVDVAAFFLEMQTVFDLDPYTIARYTEELLHTLYCDALILSRGVMSSKDLADADYQTVEHNMTGHPWVIVNKSRLGFSPRDLKTFAPEADENLKVIWLASHKSRSSFQSLEHINRDEFYRSEIGEDLYNDFQQQLLNKRKVVEDYHFIPVHPWQWEHKLQIHFVGDIASGLLIQLGEGIDTYSPQQSIRTLFNVDHPKKRYLKTAVSILSTGNIRGLSPKQMKIAPAITDWVKGLIKDDAYLENKETIFLGEEAAITYLHPQYGAIASVPYQYNEFLGALWRESAENYLKEDEQMVTMASLLYVDENGVPLVQAFAEKAGVSIKEWIESYLDAYLTPLLHIYYTHSLCVTPHGENIMVVLKNGVPKRIVIKDFVDDIVLTTEAREKLPAHLADGLIQSSNKENIPLFILLGVFDAFFRYLSNALHTYSNFNEETFWELVHNCVENYKAENTHLQERYEKYDLYVPAFKRFYINSLRLKNNGYSENKAFAIPRKDGALPNPLYQIANKNSVAAV				NA	NA	NA	NA	NA
BMS003_01365	1404	yeeO	COG0534	putative FMN/FAD exporter YeeO	ATGAGGAAATTCCTGCATATACTAAAAGAAGGAGCGGTTTTTACGTATGGAGCCATAGCCGGAAAGAAAGTTGAACTGACTTCCGGAAGTATCAACCGTTCCATCTTTAGTCTTGCCATTCCCATGGTGATGGAACTTGTCATGGAATCTGTTTTTGTGAGTGTCAATCTGTTGATTATTGCAAAATTAGGAGACAAGGTTCTTGGTCTTGTGGGAATTACAGATAACTACATCAACTTTGCCTATGCCATTGCAGTAGGTTTGGGAATTGCAGCAGCAACCCTTACCGCCAGAAGAGCGGGTGAAAAAGATAAAGAAGGAATGGGCAGAACAGCTCAATACATCATCCTGCTGGCTCTGTTTTTTGCAGTGCTTATTGGTGGGGTTTCCTGCTTTTTCGCATCAGAAATTGTTGGTTTTCTGGGAATCAATGCCAGTACGGTAACCGAAGGCGTTTCTTTCTCAAGACTGGTCTTCCTGAGTATCGGGCTTGTGATTCTCCGCTTGTCTGTCAATGGACTTTTCAGAGGGGCTGGTGATGCCGATATTGCCATGAAATCACTTTGGATCTGCCATATTTCTAATATCATTTTTGCAGTGATCCTTGTTTTCGGATTAGGATTTATACCTGCTTTTGGATTGATGGGATTGGCGTATGCTACAGTTTTATCAAGGCTTTTAGGGGTTTTATATCAGGCTTTCGTATTTGCCACAGCAAAAACCAGCATCAGTATCAGAGTTCCTTTTCAGCTTGATATTCCATTACTGCAAAAGATTCTGAAAATAGCTTTTGGAGGGTTGGTTCAGTATATCATCCCAACATCCAGCTGGCTGATTATGGTGAAGATTATCTCCACTTTCGGAACTACAGCACTTGCAGGATATATTATTGCCCAGCGTATTGCTTCGGTAGCTACGATGCCTGCCTGGGGAATAGGAAATGCTGCCGGAGTTCTTACAGGTCAAAATCTGGGTGCCGGAGAACCGGAACGTGCTGAAAAAACTGTCTGGAGAGCCGGAACCATCAATATGACTTATCTGGTACTTGTAGCCTTATTCTGGCAGATTGCAGCGGAATATGTGGTGAAATTTTTCACTACAGAACCGGAAGTTGCCAGATATGCGGTTCAATACATCCATGTGGTATCGATGGCGTATCTGCTGTTAGGATTTACCATGGTAATCAGCCGTGCTCTGAATGCGGCCGGAAACATATTACAGGTAACGTTGTTGTATCTCGTGATGTTTTATGTGATTCAGCTTCCGCTGGCTTATCTCTTAGGAGTAAGATTTCAGTGGGAACTGAGAGGAATATTTACTGCCATTGTTTCTTCGGAAATAGTTTTGGCTGTACTATTCCTCATGATTTTTAAAAATGGAAAATGGAAAACTATAAAAATTTAA	MRKFLHILKEGAVFTYGAIAGKKVELTSGSINRSIFSLAIPMVMELVMESVFVSVNLLIIAKLGDKVLGLVGITDNYINFAYAIAVGLGIAAATLTARRAGEKDKEGMGRTAQYIILLALFFAVLIGGVSCFFASEIVGFLGINASTVTEGVSFSRLVFLSIGLVILRLSVNGLFRGAGDADIAMKSLWICHISNIIFAVILVFGLGFIPAFGLMGLAYATVLSRLLGVLYQAFVFATAKTSISIRVPFQLDIPLLQKILKIAFGGLVQYIIPTSSWLIMVKIISTFGTTALAGYIIAQRIASVATMPAWGIGNAAGVLTGQNLGAGEPERAEKTVWRAGTINMTYLVLVALFWQIAAEYVVKFFTTEPEVARYAVQYIHVVSMAYLLLGFTMVISRALNAAGNILQVTLLYLVMFYVIQLPLAYLLGVRFQWELRGIFTAIVSSEIVLAVLFLMIFKNGKWKTIKI				NA	NA	NA	NA	NA
BMS003_01366	246			hypothetical protein	ATGAACACTACAGAAGAATTTTATGAAATTATCGCCTCTGCCATCGCTATAAAGAAAGAATTGGTAGATGAAAAATTAACGTATCAGGAAATCCCGGAATGGGATTCTATGTCTCATCTTCTTATCGTAGAAGCGCTTGAACAGTTTTATCAGATCAAGTTTGATTTTAACGATATTCTGGAGATGGGAACCGTCGGAAAGATTCGCGAAAAAATGAAAAAATACGATGTATTCGTAGAAAACTAA	MNTTEEFYEIIASAIAIKKELVDEKLTYQEIPEWDSMSHLLIVEALEQFYQIKFDFNDILEMGTVGKIREKMKKYDVFVEN				NA	NA	NA	NA	NA
BMS003_01367	1389	menE		2-succinylbenzoate--CoA ligase	ATGAAAATTTTAGAAAATGTAATTGCCAATAAGAACTTGGGTTTTGCAGATGCTTCCACCGGTACAACAATACCGGTGGGAACACTGTACCGGTCTTTAGGCTTAAACCCCGTAGAAAAGGGGCTGCTCTTTTTATACAATGACAATCAGTTGTCAAGTATTGAAGTGCTGCTCAATTTTTACGGAACAACGCACACCATTGCGGTACTGGGACAGAAACTGCATGAGGAATTCAAAGAACGTATTGAGGCAGAATACCGTCCGAAATACATCTTTGATCCGCAAAGAGAAGCCATTGAAGGATACACTCTGAAAGCATTCTCAGACAACATCAGCATCTTCGCAAAGGATGATTATAAGAGTGAAGTTACCATTCATCCCGACATCAAAATCCTTTTGAGTACTTCAGGGACAACAGGTGTTCCGAAGCTGGTTAAATTATCTGATGAAAGCCTTTATCAGAATGCATTGAGCATCCTTCAGTACATGCCGATTCAGGAAACCGATGTAGTTCCTTTAAATGTTCCGATCAACTTTGTATACGGATTCTCTATTTTCACAACGAACTGTATGCGCGCAGGAAGAATCGTATGTACAGATAAAGACATTATGCAGAAAGCATTCTGGGACGAAATGGAGGAGTACGGTTACAGTACTTTGGGCGGAGTTCCTTTCCTTTATGAAAACCTGAACAGAATAGGATTCTTCAGAAAAGACTCTCCAAGTTTGAGATATTTTACCCATACCGGAGGCGTGATCAACGCTGAATTGAGAAAAACTCTATTCTCTTATTGTCATGAATTTAAAAAAGAATTCTTTGCACAATACGGACAAACGGAAGCAGGAGGAAGAATGGCTTACCTTACTACAGAAGGATTGCTGGAAGAAGAAACATCAATCGGAAATGTGGTAGAAAGAGGAAGCTTCAAAATTGATCCTGAAACGGATGAATTGCTGTTTTCTCATGTCAGTATTTTCGGAGGCTATGCCAATAAACTGGAAGATCTTGTTACTTATGAGCAACCTTCTGTACTGCATACCGGAGATACCGCGAGAAAAGGTGAAAACGGAATTTATTATATCACAGGTAGAATAAAACGTATCATGAAGCTTTTCGGAATACGTCTTAATCTCGATGAGGTAGAATTTATCCTTAAAAATGAAATGCAGGGCAATACTTTCGTTTGTCTGAATGCCAATGATAAAAAAATCGTGGTATTGTATGACAATCCGGAAATAGATCCTCAGATCATCACCGAAACCATTAAAAATAAACTGCGTATTAACCCGCAATATGTACGCACAGAACGTATAGAATCATTCCCATTATCACAAAACGGTAAAATAAACTATCCCCTGTTACAAAACTTACAGCATGAAAACATCTAA	MKILENVIANKNLGFADASTGTTIPVGTLYRSLGLNPVEKGLLFLYNDNQLSSIEVLLNFYGTTHTIAVLGQKLHEEFKERIEAEYRPKYIFDPQREAIEGYTLKAFSDNISIFAKDDYKSEVTIHPDIKILLSTSGTTGVPKLVKLSDESLYQNALSILQYMPIQETDVVPLNVPINFVYGFSIFTTNCMRAGRIVCTDKDIMQKAFWDEMEEYGYSTLGGVPFLYENLNRIGFFRKDSPSLRYFTHTGGVINAELRKTLFSYCHEFKKEFFAQYGQTEAGGRMAYLTTEGLLEEETSIGNVVERGSFKIDPETDELLFSHVSIFGGYANKLEDLVTYEQPSVLHTGDTARKGENGIYYITGRIKRIMKLFGIRLNLDEVEFILKNEMQGNTFVCLNANDKKIVVLYDNPEIDPQIITETIKNKLRINPQYVRTERIESFPLSQNGKINYPLLQNLQHENI	PGPT0008380_15866	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS003_01368	2442	cntO_4		Metal-pseudopaline receptor CntO	ATGAAAACATCTAAAACCCTTATATTACTTCTTGGTCTTGCTTTATCTTCCAACTCGTTTTCTGCACAGCAGGGCGACAGAATTCATGGCAAAATCATGCTGTCTGAAAAAGCACCGGTAAAAAATGCTATTTTAAGGCTTGTCAACACGTCTTATCAGGCAAAAACCAATAATTTAGGAGAATATTACTTTGAAAATGTGCCACCTGGAGAATATACGCTTCAGGTGGTTTTAAATGACATCGAGCTGATGAGAGAACCCATCCACATTCAGAAAAATGTCTATGAAATCCCTGCGATCTATGCTCCTTTACACAATAATGTGATTGAAGGAATTACAGTATATGCAGTGAGCAGAAATAAATTTTTGGATAAAGACAGTACTTCAGTGGCTAAAATGCCTTTGAAAGTGCTTGAAAATCCACAGGCTTACACCAGCATCAACCAGCAGATCATGAAGGAACAGCTTACTTACGATATTTCGGAAGTATTGAAAAACGTTCCGGGTATGGTAAAAATGCAGGGAAGCCCGGGAAGAGGTTCAGGAGACGGAAGTTTCTACTACAGCCTCAGAGGATTCCCTACCAAAGTATCCATGGTAGACGGAGTTCCTGCAACCACTAACGGTGAGATTGATCCTTCAGATATTGAACGCCTGGAAGTGATCAAAGGACCTTCAGGAACGCTGTACGGAGGTGCTGTGACCTCTTTCGGAGGTTTAATTAATGTGGTGACCAAAAAACCGAAAGATTATTTCGGAGGGGAAGCTTCTTATCTGATGGGAAGCTATAATCTGAACCGTGTAACCGCCGATGTGTACGGCCCGATTACAGAATCCAGAAATATGTTATTCCGTTTGAATGCTGCTTATCAGTATCAGAACGGATTCAGGGATTCTGAATTCAGAAAGTCATTTTTTGTGGCACCTACAGTAAGTTATCAGGTTAATGAAAGATTGAAATTCAACTTAGGCGCTCAGATCTATAATTACGAAGGAACCAATACACCAATTATTTTCCTTGCGAGAACAAGACCTTACTTCGCCCACAATCCGGACGAACTAGGATTTGATTGGAAAAGATCATATTCCAACAATGATATGACCTTAAAAGCTCCGTCTATCAATGTAAAAGCAGAGGCGAATTACAAAATTTCAGATCAATGGACTTCACAGACATTGCTTTCAAGAAACTTCAGAAAAACGGAGGGATTGTATCAATATCAGTTTATCAGAGGAAATGCAAGTGATGCAATGCTGGAACGTAATGTACAATGGCAGAACTCAGAAGCTTCTTCTACAAGTATTCAGCAGAACTTCAATGGGGAATTTAACATCGGAAAAATTAAAAATAAAGTACTGATCGGATTAGATTATTTAAATCAATCTATCAACAATAATCATTCTCCGATTGTAGTCTTTGATAATGTCAATGGACAGAGCTTAGAAGGTTATCCGAATATTTCCAGAGACCTTGCCCTTCAGAAAATCCAGGCATTTACTCAGGCTGCTATTCAGGCAGGTAAAACACCTTTAGTTAGAAATACTTCCGCCTCCAATATTTATGGAGCCTATATTTCAAATGTTACTTATATTACAGACCGTTTGATCACGCTATTAAGCTTACGTATGGATCATTACGAAAGTAAAGGACAACTTAACTTAAATAACAATACGAGAACCGGAGATTTTAATCAGACTGCATGGTCGCCAAAAGTAGGAATTGTATACCAAATCCTTAAAGACCAGTTATCTGCTTACGGTAACTATATGAACGGTTTCAGCTATACAGCACCTGTGGCACAGCAGCTCCCGGACATTAGCGGGGAAATGAAACCTCAGATGGCGAATCAGTGGGAAGTAGGAATCAAAGGAAATCTTTGGAGAAATAAAATTAATTTCACCGTTGGATATTATGATATTCTTGTAGATAACATCCAGAGAGGAAGCGGTGTAATTCGTGACGGAAAAGAGTACAACATTGTTATTCAGGATGGAAAACAGAGAAGTAAAGGTATTGAAATTGAAACCATTATGAACCCTGTTCAGGGATTAAACATTATGGCCGGATATAGCTACAACCACAGCCGGTATGAAAAAGCAGACCCTAATGTAGATGGACGCCGTCCGGAATCTGCAGGCCCTGCCAATGTATTCAATTCATGGATCAGTTATATTCTTCCTATCAATGGACTTCAGGGACTTGGAGTAGGTTTCGGGGTAAACCGTGTTGGAAAACAGATTACCGGAAACAAAACCGTTACCGGACAGTTTGCATTCCCGGCTTATACTTTAGTGAACGCTTCCATCTCCCTTGAAAAAGAAAGATACAGATTGGGATTTAAAATGAATAATCTGGGCAATGCGCAATATTTTGCGGGACAAGGAGTGATTGTCGCTCAGATGCCTCGTAATTTTGTTGCTGAGGTAAGCTTTAAATTTTAA	MKTSKTLILLLGLALSSNSFSAQQGDRIHGKIMLSEKAPVKNAILRLVNTSYQAKTNNLGEYYFENVPPGEYTLQVVLNDIELMREPIHIQKNVYEIPAIYAPLHNNVIEGITVYAVSRNKFLDKDSTSVAKMPLKVLENPQAYTSINQQIMKEQLTYDISEVLKNVPGMVKMQGSPGRGSGDGSFYYSLRGFPTKVSMVDGVPATTNGEIDPSDIERLEVIKGPSGTLYGGAVTSFGGLINVVTKKPKDYFGGEASYLMGSYNLNRVTADVYGPITESRNMLFRLNAAYQYQNGFRDSEFRKSFFVAPTVSYQVNERLKFNLGAQIYNYEGTNTPIIFLARTRPYFAHNPDELGFDWKRSYSNNDMTLKAPSINVKAEANYKISDQWTSQTLLSRNFRKTEGLYQYQFIRGNASDAMLERNVQWQNSEASSTSIQQNFNGEFNIGKIKNKVLIGLDYLNQSINNNHSPIVVFDNVNGQSLEGYPNISRDLALQKIQAFTQAAIQAGKTPLVRNTSASNIYGAYISNVTYITDRLITLLSLRMDHYESKGQLNLNNNTRTGDFNQTAWSPKVGIVYQILKDQLSAYGNYMNGFSYTAPVAQQLPDISGEMKPQMANQWEVGIKGNLWRNKINFTVGYYDILVDNIQRGSGVIRDGKEYNIVIQDGKQRSKGIEIETIMNPVQGLNIMAGYSYNHSRYEKADPNVDGRRPESAGPANVFNSWISYILPINGLQGLGVGFGVNRVGKQITGNKTVTGQFAFPAYTLVNASISLEKERYRLGFKMNNLGNAQYFAGQGVIVAQMPRNFVAEVSFKF	PGPT0003790_10032	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
BMS003_01369	1188			hypothetical protein	ATGAAATTAAAGTTTAGAAAAATTGCATATCAGTTACATCTATGGCTCGGACTAACGTCCGGGCTTATAGTTGTTATCATGGCCGCTACAGGATGTATCCTGGCTTTTGAAGAAGAATTAAAACATATTGTTCACCCCAACAGATATTACGTTGAAAGCATCGGAAGAAACAAACTTTCCCTGTCTGAACTTACGGGAAAAGCAGAAAAAGCACTTCCAAAAGATTTAAAAGTCAAAAGAGTAGTCATGCCTTCTGATCCCTCACGAACGTATATATTCCGTACCTTAAAAATGGATAACGAAGCATGGACGTATTGGGGAACTTATCTTTATTATTACCGGATTTACGTAGATCCTTACACCGGGAAAGTACAGGAAGTAGAAGATGCCAAAAAAGATTTCTTTGAAATTGTACTGGATCTTCACAGAAGGCTTCTGCTGGGTGAAAAAATAGGGAAAACGATTACCGGTTATTCCGCATTGATATTTGCTGTAATCCTTCTATCGGGGCTCGTGATATGGTATCCCCGAAAAATGAGTAAAGCCATGCTGAAAGGGATGTTTTTCATTAAAATATCTGCCAATTGGAAAAGGATTAATTATGACGCTCATAATGTACTGGGATTCTATGCCGTGATTCCTTTACTCTTAATCTCTTATTCTGCATTGATATGGAGTTTTGAAGATGTAGACAAATGGGTAAAGAACACACTGAACGGAAACATTCCCACAGAAAAGAAAGCCAAAAGTACCATCCCTTCCGAGGAATTTTCAAACCGGGAAAATATTCTCAATCTCATCGGAAGTACTATGGAAAAAGGATTGAAAGACAAGAAATCAGCACTAGTCAATTTTCCAAGATCGGAAAAAGGAACCTATTATGCTGAGCTGACTTATGACGGAAGGCAATACAGAAATGAACATTTTAATTTTGATCAATATTCAGGAGAAGTTTTAAAATCTCAATCGTATAGAAACAAAAATATCGGATATGGAACCGCATTAAGAGAAAGAAATTATGATCTTCATACCGGAAGCATCCTGGGACTGGCCACCAGAATTATCTATTTTCTGGCCGCCATTATTGCACTGTCACTCCCGATTACCGGATTCATTATTTATTTGAATAAGAAAAAGAAGAAACCAAAACATAAGAAAAACAAAGTAGTTTTTCCTTCTCATCATTAA	MKLKFRKIAYQLHLWLGLTSGLIVVIMAATGCILAFEEELKHIVHPNRYYVESIGRNKLSLSELTGKAEKALPKDLKVKRVVMPSDPSRTYIFRTLKMDNEAWTYWGTYLYYYRIYVDPYTGKVQEVEDAKKDFFEIVLDLHRRLLLGEKIGKTITGYSALIFAVILLSGLVIWYPRKMSKAMLKGMFFIKISANWKRINYDAHNVLGFYAVIPLLLISYSALIWSFEDVDKWVKNTLNGNIPTEKKAKSTIPSEEFSNRENILNLIGSTMEKGLKDKKSALVNFPRSEKGTYYAELTYDGRQYRNEHFNFDQYSGEVLKSQSYRNKNIGYGTALRERNYDLHTGSILGLATRIIYFLAAIIALSLPITGFIIYLNKKKKKPKHKKNKVVFPSHH				NA	NA	NA	NA	NA
BMS003_01370	1491	tauR	COG1167	HTH-type transcriptional regulator TauR	ATGGATAGTCCGGTTAAGATTCCTTATGAAAGTTTTATAAAAATTGATAGAAAGTCGGAAACTTCTATCTATATGCAGATTGCCAATCAGCTTATCAATGCTATTCAGAGAGGGGTTTTGCCTTTCGGAACGAAGCTTCCCGGGACAAGAACATTCAGTGAAATGCTGGAAATCCACAGAAATACTGCCGTTGCGGTTTACGAAGAGCTTTCAGCGCAGGGCTGGACGGAGAGTTTTCCGAATAAAGGAACATTTATTATTGGAAAAGATCAGGAAAAGTCTGTCAAATTAAACGATTTTAAGCAGAATAACCTCCAAAACTATCCTGTTTCGACTGGTTTTTCATTCAAAACCTCCAATATTCTGGATAATCCTTTTGAGCATTCGGACTGTGAGTATGTTTTTAATGATGGGGTGCCGGATATCCGTTTAACTCAAATCGGACAGCATTCCCGGTTTTACAGTTCTATTTTGAAACGTAAATCAAGCCAGAAAGCTTTTGGCCATTATAATCATGACGGTAGTGAATTTTTTAAAGAACATTTATCCCAATACCTGAATCTTTCCCGAGGGCTTCCTATTTCCAAGAATAATCTGCTGATCACCCGAAGTACGGAAATGAGTATTTATATTGTTTCTGAAATTCTTCTCTCGGCTGGTGATACCGTATTAGTAGGAACTTTGAGTTATTTCTCCGTCAATATGATCTTTATGAAAACTGGGGTTGACATTGTTTCCATTCCCATTGATGAGGAAGGAATTATAGTGGAAAGCGTAAGAGAAGCCTGTAAAAAGCAGAAAATACGGATGCTTTATCTGACACCTCATCACCACTATCCTACTACCGTTGCTTTGAGCGCTCAGAGAAGATTTGAGTTATTGGAATTGGCCAATGAATACGGATTTATTATCCTGGAAGACGATTATGATTATGAATTTCATTACGATAAAAGTCCTATTCTTCCTTTAGCCAGTGCAGATACGAATGGAATGGTGATCTATATCGGCTCTTTCGGGAAATCGTTAGCTCCGGGATTCAGGACAGGATTTATTGTTGCTCCTGAAAATCTGATGACAGAAATGCGTAAATATCTTGGAATTATTGACCGTCAAGGCGATATTCTCATGGAAAGAGCACTCGGAGAAATGATTGCAGAAGGAGAAATCAACCGTTATCTGAAAAAATCTTTAAAAGTATATCAGGAAAGGCGTGATTATTTTTCTGAATTACTGAAAGAAAATTTAGGTGATTTTATTACTTTTCAAAGACCTTCCGGAGGGCTTGCCATATGGCTGGAATGGAAGATTCCACTGAATCTGATGCAGCTGAGCAGGAACTGTGCAAAAGACAATCTTTTCATTCCAAAGACTTTGCTATATCAGAATAAAGGGCTTACAGCTATGCGTCTGGGATTTGGAGATCTTAATTTTGAAGAGATGAATAAAGGGATTGAGGTTTTTACTAAAAATGTGAAGGGATTGCTTGGGTAA	MDSPVKIPYESFIKIDRKSETSIYMQIANQLINAIQRGVLPFGTKLPGTRTFSEMLEIHRNTAVAVYEELSAQGWTESFPNKGTFIIGKDQEKSVKLNDFKQNNLQNYPVSTGFSFKTSNILDNPFEHSDCEYVFNDGVPDIRLTQIGQHSRFYSSILKRKSSQKAFGHYNHDGSEFFKEHLSQYLNLSRGLPISKNNLLITRSTEMSIYIVSEILLSAGDTVLVGTLSYFSVNMIFMKTGVDIVSIPIDEEGIIVESVREACKKQKIRMLYLTPHHHYPTTVALSAQRRFELLELANEYGFIILEDDYDYEFHYDKSPILPLASADTNGMVIYIGSFGKSLAPGFRTGFIVAPENLMTEMRKYLGIIDRQGDILMERALGEMIAEGEINRYLKKSLKVYQERRDYFSELLKENLGDFITFQRPSGGLAIWLEWKIPLNLMQLSRNCAKDNLFIPKTLLYQNKGLTAMRLGFGDLNFEEMNKGIEVFTKNVKGLLG	PGPT0016790_1394	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
BMS003_01371	624			hypothetical protein	ATGGAATTTCATCATCTGTTAAAAAAAATTGTACAGGAAGGAAACACCCACGCCAAATGGCTGAACACGCTTTCTTTTATGGAAAATGCCGGTGCAAGAAAAATATCAAAATGTGAACATCCAACATTGGTTTCTCAGATCCAGCTGAAACATGCTGCTGAAGAGCACCGCCACGCTTATTATTTAAAAAAGCAAATCGGGAAAATAAACCCTGAACTCTGCAAAACCTACGAAAGCACAGAACTTCTGGCACCAATTGCAACAAGCCAATATCTCCACTCATTGGATATGAAAGCCTGTCGTTATCTTCAGAAAGCTTTCAATCTTGATAAGGTAGATATTAAATATGCAGCCTACCTTTTTGTAACCTATGCTATTGAGGTTCGTGCAGATGAGCTTTATCCTGTTTATCAGCAGGCGCTTACCGAAGCTTCTTCTAAAATTATGGTCAAATCTATTATTCTTGAAGAAGAGGGACATCTGGAAGAAATGATTCATCAGCTTAATGAATTTTCACCAGACTGGAAGCACCATGCAGACCATATTCTGACGATAGAAAAAGAACTGCATGAAGAATGGATCAATGCGATTACTCAGGAAGTAGCTCAGCTGAATTATGCTTAA	MEFHHLLKKIVQEGNTHAKWLNTLSFMENAGARKISKCEHPTLVSQIQLKHAAEEHRHAYYLKKQIGKINPELCKTYESTELLAPIATSQYLHSLDMKACRYLQKAFNLDKVDIKYAAYLFVTYAIEVRADELYPVYQQALTEASSKIMVKSIILEEEGHLEEMIHQLNEFSPDWKHHADHILTIEKELHEEWINAITQEVAQLNYA				NA	NA	NA	NA	NA
BMS003_01372	1110	bioF_1		8-amino-7-oxononanoate synthase	ATGCTTAACAATACCTTCCGTTTCCAGGAGTCTTTGGATAAAAGAGAAGAAGAAGGAATATTAAGGCGTTTGCGCCTTCGTGCTGATGGAATTGATTTTTACTCCAATGACTATCTTGGATTTGCAAGAAGTAAAGAACTTCAACATTTACTACTGCAAAAGATTACGGATAATCCTCAACTGCTTTCCGGAAGTACAGGTTCAAGGCTGATTAGCGGAAACAGTGATATGGCAGTTTCTGTGGAAAAGGATATCGCTCAAAAACATCAGTTTGAGTCTGCATTGCTTTTTCCATCCGGATATAATGCGAATCTGGCTTTGTTTTCTGCGCTTCCCAGTCGTCACGATACCGTTATTGTGGACGAACAGATCCATCGTTCAGTACATGATGCCTGTAAACTTTCGAATGCTAAAAAACTGAAATTCAGACATAATGACCTTAAAGATCTTGAAAATATTTTAAAAAGACATGAAGGTCATTGTTATATCGCGATAGAAAGTCTTTATTCAATGGAAGGAGATCTTGCTCCTATTCAGGAAATTGCTTCGATTGCAGGTAAATATAAAGCCTCTTTGATTGTTGATGAAGCCCATGCATTCGGAGTTTTTGGATATGGATTGATTGAGAAACATCAGTTACAGAATCAGGTTCCGGCAGCCGTTGTGACCTACGGAAAAGCTCTTGGTGCTCATGGAGCAGCAATTCTTTGCAGTGAAACAGTGAAATCTTACCTGATCAATTTCGCAAGTCCGTTCATTTATACCACATCAGCACAGGATTTTCAGTGGATGAGTATCAAAACAGGATATGAATTTTTAGATCAAAATCATGAACTGGCGGAAAAACTTCAGAATAACCTCAAAGTTTTCCGAAGCAGAAATTTACAGTCTCCATCAGCAGAAACAAGCCCGGTTCAGGCGATTATAATCCCGGACAACCAAAAACTGAAAGCATTACAGCAAACTTTATCTGAGGAAGGGTTTTTAACCTATGCCATATACAGTCCTACAGTAAAAGAAGGAAGCGAACGGTTAAGAATATGCCTTCACAGCTTTAATACAGAAGAAGAAATTGTAAAACTGACGGAAATTATTAAAAAATTTATTTAA	MLNNTFRFQESLDKREEEGILRRLRLRADGIDFYSNDYLGFARSKELQHLLLQKITDNPQLLSGSTGSRLISGNSDMAVSVEKDIAQKHQFESALLFPSGYNANLALFSALPSRHDTVIVDEQIHRSVHDACKLSNAKKLKFRHNDLKDLENILKRHEGHCYIAIESLYSMEGDLAPIQEIASIAGKYKASLIVDEAHAFGVFGYGLIEKHQLQNQVPAAVVTYGKALGAHGAAILCSETVKSYLINFASPFIYTTSAQDFQWMSIKTGYEFLDQNHELAEKLQNNLKVFRSRNLQSPSAETSPVQAIIIPDNQKLKALQQTLSEEGFLTYAIYSPTVKEGSERLRICLHSFNTEEEIVKLTEIIKKFI	PGPT0022095_4027	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
BMS003_01373	615	bioD1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAAATTATTTATAACAGGAATAGGAACCGAAATAGGAAAAACAGTCTGTTCAGCCATTTTGGTTCAGCATTTTAAAACAGAATACTGGAAACCCATACAGTCCGGAGATCTTCATTATACGGACAGTCATAAAATTGAAGCCTGGACAGATACCGACTTTTGCCACCCGGAAACTTACCGTTTACAGCTGGCTGCATCACCCCATCAGTCCGCAAGAGAAGAAAATATCACCATCAATCTGAATGATTTTCAACTTCCAAAAACAGCAAGCCCATTAATTGTAGAAGGGGCCGGAGGACTTATGGTGCCCATTTCAGACACTACTTTTATGATCGATCTTATTGAGGAATTAAATATTCCTGCAGCGCTGGTAGTAAGAAATTATTTAGGCTGTATTAATCACAGTTTACTATCAATCATTGCATTACAACAAAGGGAGATTCAGCTGGAATATTTAATTCTTAATGGAGATTTTCCGGAAGATACAGAAAGAGTGATCTGCAGTTTTATCGAAAAAGAAACAAAAATTATAAAGATTCCTGAAATCAAAACTACTGATAAGGAATCTATACAACATGCAGCAAAGCAATTAACAATAACAAAAATATCATAA	MKLFITGIGTEIGKTVCSAILVQHFKTEYWKPIQSGDLHYTDSHKIEAWTDTDFCHPETYRLQLAASPHQSAREENITINLNDFQLPKTASPLIVEGAGGLMVPISDTTFMIDLIEELNIPAALVVRNYLGCINHSLLSIIALQQREIQLEYLILNGDFPEDTERVICSFIEKETKIIKIPEIKTTDKESIQHAAKQLTITKIS	PGPT0022115_3403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
BMS003_01374	984	bioB	COG0502	Biotin synthase	ATGGATACAAAAACAACATTGAGAAACAACTGGACTAAAGAGGAAATTGAGGAAATTTACCACCTTCCTCTGATGGAACTGATCTATAAAGCAGCCACCGTACACCGTGAATGGCACGATCCTTCTGAAGTGCAGATTTCAACACTATTATCCATCAAAACCGGAGGATGCCCGGAAGACTGCTCATATTGCGGGCAGGCAGCCCGTTATCACACGGATATCAAAGTACAGGCTTTATTACCTACAGAAACTGTAATTGCCCACGCTCAGAAAGCAAAAGACTCCGGATCATCAAGATTCTGTATGGCAGCGGCCTGGCGTGAAGTTCGTAATAACCGTGATTTTGACAGAGTGATTGATATGGTAAAAGGCGTAAACGATCTTGGTCTGGAAGTTTGCTGCACGCTGGGAATGCTTACCGAAGAACAGGCTGTCAGACTTCAGGAAGCAGGTTTATATGCTTATAATCATAATCTTGATACTTCCGAACAGTATTATGAAGAGATCATCTCTACCAGAACTTTTGACAATAGGATCAATACCATCAATAACGTAAGAAAAGCAGGGATCACAGTATGTTCCGGAGGAATTATCGGGCTTGGTGAAACGCATAGAGACAGAATTTCAATGCTTCTTACATTGGCAACGATGCCAAAACATCCGGAATCTGTTCCAATTAATGCATTAGCAAGGGTAGCGGGAACTCCATTAGCAGATAATGAAAAAGTAGATACCTGGGAAATGGTAAGAATGATTGCTACAGCAAGAATTGTAATGCCTTCTTCTATGGTGAGATTGAGTGCCGGACGTATAGAAATGACCGAGACAGAACAGGCCTGGTGCTTTATGGCAGGAGCTAATTCCATTTTCACGGGAGAACGAGAAACATTATTGGTAACCCCTAATCCGGGAGTTTCAGAAGATATGCAGATGCTGCAGACATTAGGACTGAAGCCTATGATGAAAAAAGAAACATGCTGCTAG	MDTKTTLRNNWTKEEIEEIYHLPLMELIYKAATVHREWHDPSEVQISTLLSIKTGGCPEDCSYCGQAARYHTDIKVQALLPTETVIAHAQKAKDSGSSRFCMAAAWREVRNNRDFDRVIDMVKGVNDLGLEVCCTLGMLTEEQAVRLQEAGLYAYNHNLDTSEQYYEEIISTRTFDNRINTINNVRKAGITVCSGGIIGLGETHRDRISMLLTLATMPKHPESVPINALARVAGTPLADNEKVDTWEMVRMIATARIVMPSSMVRLSAGRIEMTETEQAWCFMAGANSIFTGERETLLVTPNPGVSEDMQMLQTLGLKPMMKKETCC	PGPT0022120_3527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
BMS003_01375	93			hypothetical protein	ATGAGTGATGAAATTGGATTTAACAATAATTTAGTTGAATATGTTGTCGTAAATGTTGGATTAATCGCAAAGGGGCGCAAAGTTTTATCATAG	MSDEIGFNNNLVEYVVVNVGLIAKGRKVLS				NA	NA	NA	NA	NA
BMS003_01376	1293	bioA		Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGAATACAATAACAAAAGAAATCAGCCTTCAAAAAAGAGATAAAGCGGTCAATTGGCATCCGTATACCCAGATGAAAACAGCTGATGATGCCATTCCTATTGTAAAAGGAAAAGGAATTTACCTGTATGATAATGAAGGAAAACAATATCTGGATGTTGTTTCATCATGGTGGGTTACTTTGCACGGGCATTCTCATCCTTATATTGCACAACGTGTTTTTGAACAGTTGAATACACTGGAACAGGTTATTTTTGCAGGATTTACGCATGAGCCTGCGGTACAGCTTTCAGAAAATCTACTGAAACTTCTTCCGGCTGGCCAGGAAAAGGTATTTTATTCTGATAATGGTTCCACGGCAGTAGAAGTTGCTTTAAAAATGTGTATTCAATATGCTTACAATAAAGACAAAAAGAAAACGAAAATTTTAGCTTTTAAGAATGCTTATCACGGAGACACCTTCGGAGCCATGTCTGTAAGTGGAAAGAGTTTCTGGACAAGACCTTTCGAAAGCATGCTGTTTGAAGTTATTTTCATTGATACTCCCAATGCTGAAAACCTGGAAAGTTTACACATACAGATCAAAGAGCTTGCTGATGAAGTGGCATGTTTTATCTATGAACCACTGGTTCAGGGAGCTGCCGGAATGCTTATGTATAAAGCTGAAGACCTTAGTCAGCTGATGAAATTCTGTAGGGAAGAAGGCGTTCTTATGATCCAGGATGAAGTGTTTACAGGATTTGGAAGAACAGGTAAGCTTTTCGCAGCAGATTATCTTACGGAAAAACCGGACATTATGTGCTTTTCAAAAGGACTGACAGGAGGAACCATGCCAATGGGAATCACAACCTGTTCCAATGAAGTTTATAATGCTTTTCTTTCTGATGACCGTTATAAAACATTATTCCATGGGCATTCGTTTACAGCCAATCCTTTAGCCTGTACCGCAGCTCTTGCCAGCATGGAACTACTACTTACAAACGAAACTCAAATGAATATCAACCGCATCACTCATCAACATTCAGAGTTTGTGAAAGCGCTGGCTTTACATCCTCATGTAGAAAAGGTACGTCAGATCGGAACTATTTTAGCCTTCGATTTTAAAACCGGGAATGATACTTCTTATTTCAATGAAATAGGGAAGAAGCTTTACAATGAATTCTTAAAAAGAGGGATTATCATGAGACCATTGGGCAATGTAATATATCTGGTTCCTCCGTATTGTATTACTACCGAAGAACTGGATTTTGTCTATCAGAATATTATGGAAGTTCTGGATCAGTTTAAAGAGTAA	MNTITKEISLQKRDKAVNWHPYTQMKTADDAIPIVKGKGIYLYDNEGKQYLDVVSSWWVTLHGHSHPYIAQRVFEQLNTLEQVIFAGFTHEPAVQLSENLLKLLPAGQEKVFYSDNGSTAVEVALKMCIQYAYNKDKKKTKILAFKNAYHGDTFGAMSVSGKSFWTRPFESMLFEVIFIDTPNAENLESLHIQIKELADEVACFIYEPLVQGAAGMLMYKAEDLSQLMKFCREEGVLMIQDEVFTGFGRTGKLFAADYLTEKPDIMCFSKGLTGGTMPMGITTCSNEVYNAFLSDDRYKTLFHGHSFTANPLACTAALASMELLLTNETQMNINRITHQHSEFVKALALHPHVEKVRQIGTILAFDFKTGNDTSYFNEIGKKLYNEFLKRGIIMRPLGNVIYLVPPYCITTEELDFVYQNIMEVLDQFKE	PGPT0022100_1852	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
BMS003_01377	555			hypothetical protein	ATGAAAAGAATCATTATTTTGATGTCCTGTGTACTAAGTACATGGGTAACTGCACAGACAGCACTACCACCCACGATTCAAAGATCCAACACCACATCCCGCGGACTTACCGTCAATTCGAGAAAAGGAATATTAATTGAAAAGAAAATCAGCAACCTGGGTAAGTTTAGAAACCTGAATATTCAAAAAATAGTATCGAAGGATGTATCTGATAATTCATCAGAAAGTTTCATGGGTATTATGTATGAATATGAAACCTTTGATGAAATAGCCAAAAAGACTTTCACGGTTGATAAAAATGAGTTGGGAAAACTGATTCAGGCTCTTCAGACTGTGGAGCAGAAAGAAAACGAAAAAGCGAATCAGGAAACCAAATATAAGTTTGTCACGATGAGTAATATTGAATTCGGAAGTGTTTATAGGGAAAAACTTTCTTCATGGGTCAACTATATAAAAATTCCGTCACATTATTTAAACCAGAATTTACTGGAATTCAGTAAGGATGAACTGAAAGAGCTGATTGGTATTTTGAAAAAAGCAGAACAGGAGCTTTAA	MKRIIILMSCVLSTWVTAQTALPPTIQRSNTTSRGLTVNSRKGILIEKKISNLGKFRNLNIQKIVSKDVSDNSSESFMGIMYEYETFDEIAKKTFTVDKNELGKLIQALQTVEQKENEKANQETKYKFVTMSNIEFGSVYREKLSSWVNYIKIPSHYLNQNLLEFSKDELKELIGILKKAEQEL				NA	NA	NA	NA	NA
BMS003_01378	315	hxlR_1	COG1733	HTH-type transcriptional activator HxlR	ATGAATTTTGAAGAATTTAAAAACTGTGGATTAAGGCGAAGTCTGGATATTCTTTCAGGCAAATGGAAACCACTGATCCTGCATAATCTTTTTGAAGAAGATCAGGTACGTTTTGTAGAAATGTGGAGAAATATGCCTCGTGTTTCCAAGAAAGTGCTTGCAGAGCAGTTGAAACAGCTGGAGGAAGACCTTATTATTGAACGTATTGAAGTTTATAACTTCCCACCGGAAGTTTATTATAAATTAACTGAAAAAGGACAAAAGCTGGGACCTATTCTTTCCGAACTTCATTCATGGGGAAATGAGCTGAGATAA	MNFEEFKNCGLRRSLDILSGKWKPLILHNLFEEDQVRFVEMWRNMPRVSKKVLAEQLKQLEEDLIIERIEVYNFPPEVYYKLTEKGQKLGPILSELHSWGNELR				NA	NA	NA	NA	NA
BMS003_01379	843			hypothetical protein	ATGGTTAACCTTTTGGTAACCTTCGATTGTTTTACCTTCAGCAGGCAATATCTTTGTTCTGCAAACATACTTAAAATGAAATTACAATTATGGCGCAATGCAACATTGCTGTTAAATATCGATGGAACTTCCATCCTGGTAGATCCAATGCTTGGAGAAAAAGGTTCGGGAGGAAAAATGCCTATGACTGACATTGAATTATTGAACCCATTGGTAGATCTGCCTTTCAGTAAGGAAGAACTGGGTATGCAATTGAAAAAAATAGATGCAGTTGCTGTAACCCATCTTCACCCTGATCATTGGGACTCTAAGGCTATTGAACTTCTTGATAAAAATATTCCGGTCATCTGTTCAGATGCTATTTCGAAACAAATTGCAGAACAAGGCTTTACAAATATCATTAGGGTAAATGATTCTATACAATGGAAGAATATTGAGATATCTATCACCAAAGGCCAGCACGGAACCGGGGAAATTGGAGAAATGATGGGAATAGTAAACGGTTTTGTCTTCAAAAAAGAAAATCAATCAGTTTACATCGCAGGAGACACTATCTGGTATGATGATATCGCAGAAGAAATTGACAGACATAAGCCACAACATATCATTGTAGCAGGGGGAGCAGCCACCTTTTCAGTGGGAGATCCTATTATTATGACTGGTGAAGACATTATAAAAGCCTGTAAATACGCTCCGAAAGCCTCCGTTTGGGTCACTCACCTGGAAGCAGTAAGCCATTGCAGAGAAGACCGGGAATTCACACGAAAAAAAATAAATGAAAATGGACTAGACAAAAGATGCTTCGTACTTGATGACGGACAGGAAGTTGTACTACAGTTTTAA	MVNLLVTFDCFTFSRQYLCSANILKMKLQLWRNATLLLNIDGTSILVDPMLGEKGSGGKMPMTDIELLNPLVDLPFSKEELGMQLKKIDAVAVTHLHPDHWDSKAIELLDKNIPVICSDAISKQIAEQGFTNIIRVNDSIQWKNIEISITKGQHGTGEIGEMMGIVNGFVFKKENQSVYIAGDTIWYDDIAEEIDRHKPQHIIVAGGAATFSVGDPIIMTGEDIIKACKYAPKASVWVTHLEAVSHCREDREFTRKKINENGLDKRCFVLDDGQEVVLQF				NA	NA	NA	NA	NA
BMS003_01380	1203	yycB	COG2807	putative transporter YycB	ATGAAGAATGAAGGTAAAAAAAATACTTCGTATGTTTTATTAATCATTAATGTTCTTGTTGTTGTATTAATCTCCAGCAATCTCCGTTCACCTATTGTAGCTGTTGCTCCTGTATTGGGAGAAGTGAGAGGTGCTTTGAATCTGGACAACTTTCAGGTGAGCCTGCTTACTTCTATTCCACTGTTTATGTTTGCTGCATGTTCTGTTTTGGTCAGCCGGTTTTCCAATACATTTGGGATAAGTAAGCTTCTTATGTATTCTCTGATTATTTTAAGCTTCGGGCTGTTTCTCCGGATTACCGGATCTCTCTGGCTGTTGTTTTTAGGATCTGTGTGCATTGGCTTAGGAATATGCATTGGGAACGTGGTTACTCCGGGATATGTAAAGAATAATTTCCCGAAACAGATTGGTCTTATGACAGGGATTTTTGCCGTATCCATGAATTTAACTGCAGCATTGGCTTCCGGATTCAGTGTAAAAATCGGAGAATTGACAGGTTTTGGATGGAGAGGCTCTCTGGGAATCTGGCTGGTGATTGCGGCGTTAGGTTTTCTGGTTTTATCATTGGAGTTTATATTTAATAAAAGAAATCCGGTTCAACCCAGGGCAGCGCTCAGTACTTCAGATTTTAATATGTTCAAATCTGCTCAGGCCTGGAATATCAGTATTTTTATGGGACTGCAGTCTTTGTTTTATTATTGTCTGGTGGCTTGGCTTCCTTCATTTCTTGCTGATTTTCATATGCAGGAGGAAAGCTCGGGCTGGGTGTTCTTTGTGATTCAGATTACAATGATTCCTGCGACATTCTGCTGCCCTATCATTGCCGGTAAGATGAAAGACCAGAGGCTGATGATCCTTTTTATCTGTACATTGATGTTCGGAAGTACGATGATGTTTGTTTTTCTAAAATCACAATGGATTTATATTAACGCCGTAATGATAGGAATTTCTAATGGGTTATCTTTCAGTCTGTCAATCCTGTTTTTTTCTACGAGAACGAAAAGCAGCATCAATGCTGTTAAAATATCAGGAATGGCACAGTCTGTAGGATATCTGATTGCAGCATTCGGGCCTCCATTATTTGGAAAATTACACGACTGGGATATTTCCTGGAACAGTTCATTTTATCTGTTGAGCTGTGCGGTACTGCTGATGCTGTATTTTGGAATGAAAGCAGCCAGAAATAAATATGTGGAGGATTAA	MKNEGKKNTSYVLLIINVLVVVLISSNLRSPIVAVAPVLGEVRGALNLDNFQVSLLTSIPLFMFAACSVLVSRFSNTFGISKLLMYSLIILSFGLFLRITGSLWLLFLGSVCIGLGICIGNVVTPGYVKNNFPKQIGLMTGIFAVSMNLTAALASGFSVKIGELTGFGWRGSLGIWLVIAALGFLVLSLEFIFNKRNPVQPRAALSTSDFNMFKSAQAWNISIFMGLQSLFYYCLVAWLPSFLADFHMQEESSGWVFFVIQITMIPATFCCPIIAGKMKDQRLMILFICTLMFGSTMMFVFLKSQWIYINAVMIGISNGLSFSLSILFFSTRTKSSINAVKISGMAQSVGYLIAAFGPPLFGKLHDWDISWNSSFYLLSCAVLLMLYFGMKAARNKYVED	PGPT0005211_1627	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
BMS003_01381	780	nimR_2		HTH-type transcriptional regulator NimR	ATGATCACCAACGGAAATATAAAAATAGATGAACTGGAAAAGCCTTACTTTGTATGGTTTGAAGAAAACTGGATTCATGATAACGTTCTTCATCATCATCAGAAAGGGCAATTGGTTTATGTAGAAAGCGGATTTCAATATATTACGATTGAAGAAAAAATCTACCTTCTTCCCCAGAATCATGCAGTATGGATTCCTCCAGATGCCGTCCATAAGACCAATTCCCACTCTGAAAAGATAAAACTGATGATCATGTTTGCAGATATCAGTACCAAGGAATCTTTCTATCATGAGGTGACTGTGTTTTCTGTTCCCCCTGTTTTGAAGGAAATGATAAAATATGCAGAGAAATGGTCTAAACTCATGACTTCAGACAATGATGAAAACCTGTTCTTAAAAGCCCTTTTCAATGAACTTCCGAGATTTGTAGAACATTCTCTTACACTTCATATCAGCCTGCCGAAAGATCAGCGTCTTACCAAAGTTATAGAGTATCTTCATAATCATTATCATCAAGAAATTAAGATGGAGGATCTCAGTGACTCGGCACTTTTGTCTTTCCGTACCCTGGAACGAATTTTCAAAAAAGAAACCGGGCTCACCTTAAGCAAATACCAGCAGATGCTTCGGATTATTAAAAGCCTTGAGCATTTAAGCTCCGGAAATCTCACCATTTCTGAAACAGCATATAAAGTAGGATATAGGAGCGTACAGGCATACACCAGAAGCTTTTTTTCTGTAATGCAGTTCAGGCCGACAGATTTTATCAAAACAATCTAG	MITNGNIKIDELEKPYFVWFEENWIHDNVLHHHQKGQLVYVESGFQYITIEEKIYLLPQNHAVWIPPDAVHKTNSHSEKIKLMIMFADISTKESFYHEVTVFSVPPVLKEMIKYAEKWSKLMTSDNDENLFLKALFNELPRFVEHSLTLHISLPKDQRLTKVIEYLHNHYHQEIKMEDLSDSALLSFRTLERIFKKETGLTLSKYQQMLRIIKSLEHLSSGNLTISETAYKVGYRSVQAYTRSFFSVMQFRPTDFIKTI				NA	NA	NA	NA	NA
BMS003_01382	333			hypothetical protein	ATGATGTATGTACTGGCTACCACCAATGCGGGGGAAGTACTGAAAGTACCTATGTTTGTTGAGCATTTCATGGAATACCACGGAAGCTTTTCAGAATTTGTAATGGAACATTATGATAATCACAAACAGGATTCTGACTGGGATACAGATCAGAAACTGCCGTTTATCAATCCTCCAATCGTTCTTACGGTGCATGCCCAGCTTCCTGAGCTTTCATTTGAAATAAAAAAACCTAGAGAAATTACTGTTTCTAAGAAAAGCAGTATCTACAAGGAAAAAGATTTCTCCAATCAATATCTTTCTCAGATTTTCCAGCCTCCACGGCATTCTTAA	MMYVLATTNAGEVLKVPMFVEHFMEYHGSFSEFVMEHYDNHKQDSDWDTDQKLPFINPPIVLTVHAQLPELSFEIKKPREITVSKKSSIYKEKDFSNQYLSQIFQPPRHS				NA	NA	NA	NA	NA
BMS003_01383	4338	mdtC_1		Multidrug resistance protein MdtC	ATGTTAAATAAAATTATTGAGTTTTCTGTAAAGAATAAACTCATCATTGCTCTGTTTACAGTGGCACTCATTCTTTTTGGGGTTTATGAAACCACTAAACTTCCCATTGATGCACAGCCGGACATTACCAATAACCAGGTTCAGATCATTACAACTGCTCCTTCATATGGTGCAGCAGATATAGAACGTCTTGTTACATTTCCTATCGAGCAGGCTACAAGCAACATCAGCGGAATTACGGAACTGAGAAGTTTCTCACGATTCGGACTTTCATTAGTGACTGTCGTTTTTGATGACAATACTGATGTATACTGGGCTCGCCAACAGGTTCAGGAACGCTTGCAGCTTGTTCAGGACAATATCCCGGCAGGAATCGGAAAGCCGGAACTGGGGCCTATTTCTACCGGGTTGGGAGAGATTTTCCAATATGTAGTAAGAGCCAAAAAAGGATACGAAAATGTATATGATGAAACGGAACTGAGAACTATTCAGGACTGGGTAGTCAGAAGACAGCTCCTTGGAACAAAAGGGGTGGCGGATGTCAGCAGTTTCGGAGGAAAATTGAAACAATATGAAATTGCCATTAATCCTAACAGGTTACAGGCATTTAACATCAATATCAACGATGTTTTTGCAGCACTGGAAAGAAATAACCAGAACACCGGAGGTGCATATATTGAAAAGAAAGAAACCGTTCTTTTTATCAGAAGTGAAGGGCTTCTGGGAAGTACGGAAGATATTGGAAGCATTCAGGTAGCGGAAACGAAAGAAGGCATTCCTGTGCACATTAAAGATGTAGCGTCTGTGAAGATCGGTTATGCAACAAGATATGGTGCTATGACTTATAATGACACCGGGGAGGTTTCCGGAGCAATTGTTCTGATGCTGAAAGGAGAAAATGCCAATGTAGTAATCGGAAATATTAAGCAGAAACTGGAGAAAATTCAGGAATCATTGCCTGAAGGAGTGGTAATTGAACCTTTTCTGGACCGTGCTAAGATGGTTAATAACACGATCAGCACTGTAAAAACTAATCTGATGGAAGGCGCACTGATTGTCGTTTTCATTCTGGTTTTATTTCTGGGCAATGTCAGAGCAGGGTTATTGGTGGCTTCAGTCATTCCTTTAGCAATGCTTTTCGCTATTATCATGATGAATATTTTCGGTGTGGGAGGAAATCTGATGAGCCTTGGAGCATTGGATTTCGGTCTTATTGTAGACGGAGCCGTCATTATTGTGGAGGCTGTGCTGCATCAGCTCGCCCATAAGAAGCATTTTGGAAAAGATAATATGCTCAGCAAAAAAGAAATGGATGACCAGGTTTCAAGCTCTGCTACCAAAATGGTTAACAGTGCGGTTTTTGGTCAGATCATTATCTTAATCGTATATCTTCCGATTTTTACGCTTCAGGGAATTGAAGGTAAAATGTTCAAGCCTATGGCTCAGACCGTTGCATTTGCCCTGATAGGAGCGTTTATTCTTTCCCTTACATATATTCCCATGATGAGTTCTCTGGTATTAAGCAGAAAGAAAAAGGAAAAAGAAAACATTTCAGACCGCATTATGGGCAAAGTGGAAACCGGACATCAGAAACTTCTGATGAAAGCTCTTAAATTCAGAAAAACTATAATCATTGGTGTAATGATTCTGTTTGCAGGAGCTGTTTTTACCCTTTCCAGAATGGGTGGAGAGTTTATTCCATCTCTGGAGGAAGGAGACTTTGCAGTTGAAATGAGGATCCTTCAGGGAAGTAATATCAATGAAACCAAGAAAGCCACCACTCAGGCGGCTCATATCCTCTTAACTCAGTTTCCTGAAGTACAGAAAGTAGTAATGAAGATCGGTAGTGCAGAAATTCCTACAGAACCCATGCCGATGGATTCCGGAGATATGATTGTTGTTTTGAAACCTAAAAAAGAATGGACTTCTGCAAAATCATTCCCGGAACTTTCAGACAAAATGAGTAAAGCATTAAGTGTTATTCCCGGACTCACAACAAGTTTCCAGTTTCCGGTACAAATGCGCTTCAATGAGTTGATGACCGGAGCCAGACAGGATGTGGTATGTAAAATTTATGGCGAAGACCTGGACAGCCTTGCCAACTACGCCAAAAAAATCGGAAGCATTATCAATACGGTAAAAGGAGCTCAGGATCTTTATATTGAACCTGTAGTTGGCGCTCCGCAGGTTGTGATTGATTATAACCGTTCCGAACTTTCCCGATATAATATTTCGGTAGCAGATATTAACAGGGTGATCAATATGGCTTTTGCCGGACAAACTGCCGGTGCCTTATATGAAGGAGAAAAAAAGTTTGATATTGTGGTGAGGATGGATAATGAACATAAAAAAGATATTACCAGTATCCAAAATCTTTTGGTTCCCACTTCTTCAGGAGAGCAGATTCCATTGTCACAGCTTGCTAAAGTGGAACTTAAAAACAGTCCGAACCAAATTCAGAGAGAAGATACCAAAAGAAGAATCATTGTTGGGTTCAATGTAAGAGGAAGAGATGTTCAGAGTATTGTGGAAGAACTTCAGCAAAAAGCAGACAAAAGCCTGAAACTATCGCCGGGATATACCATTTCATATGGAGGTGCTTTTGAAAATTTAAATGAGGCTAAAGCCAGATTAGGTATAGCCGTTCCTATTTCATTAGTGATGATTTTCCTGTTACTGTTCTTTGCTTTCGGTTCTGTAAAACACAGCTTACTGATCTATACAGCCATTCCTTTATCTGCAATAGGTGGTGTTTATTTTCTGGCGTTGAGAGGTATGCCTTTCAGTATCAGTGCAGGGGTAGGATTCATCGCTTTATTTGGCGTTGCTGTACTTAATGGAATTGTTTTGATATCAGAGTTTAACCAATTGAAAAAGAACGGAATATCCAATACCAGCAGAATTGTACTCATAGGCACAAAAATCAGGCTTCGTCCGGTTCTAATGACTGCTTTTGTAGCTTCTCTGGGATTCCTTCCCATGGCGATCAGCAACGGTGCGGGAGCAGAAGTGCAGAGGCCGCTGGCAACGGTAGTTATTGGAGGATTAATGCTTGCAACACTTTTAACGCTGTTTGTACTCCCAATTTTATACGTCCTGTTTGAACATATTAATAAAAATAAAATGAAATTCTCAAAAAAGATCAATTATAAAAAACTGTCTGTTTTCTTACTGTTATTGTCCTTCGGAATCGATCAGGCTCAGGAAAACATCACTTATGATCAGGCTTTGGAAAAAGCATACCAGCAGAATGGTACTCTTAAAAATTCAAAATTAGTATCAGATTATCAGGAAAAGCTGAAAGCCAGCTATCTGAACATTCCCCAGCTGGAAGTTACCGGTGGATTTGGACAAATTCAGGGAGAGGAAATGGATAATTCATTCGGGATCTCTCAAAGGTTCAGCTTTCCGACAGTGTATTCAAAAAGAAAGCAAATGCTGGATGCGGAATGGTCTGCCAGTGTGATCAGCCGGAACCTGACCAAAACACAGCTTACCAAAGAAGTAACGGACGTTTTCTACAGAATACTTGTACTTCAGGAGAAAAAAAAAGTACTGGAATACATCAGCCAGCTGTATAATAACTTTGCAGCCAAAGCCGGATTAAGATTAAAAAAAGGGGAAGCCAATATTCTGGAGGAATCCACCGCTGAAATCCAGAAAGAACAAATACAAGTCCAGTTGAATACCCTTGAAAATGATCTGAATATCGCAAAGCTCCAGCTGCAATTGCTGCTTCAGTCTACAACACCTTATCAACCCATTGCAGAGAAACCTACAATGAACATTGGTCTTCAGATTTCGGAAGAAATGGTAAAACAACACCCTGAACTTCAATATCTGCAGCAACAGATCAAAATAGGTGAGGCCGAAGTACAGCTTGAAAAAAGCAGGCTGATTCCGGATCTTCTGATAGGATACACCAATCAGAGTATGAAAAACATCAATAACAGCCGTTTCAATTCGGTTCAGGTAGGTGTAGGAATTCCATTGTTTACCAAAGGACAAAGAGCTTTGGCAAAGGCAGCACAGACTAAAATTGCCATCTCTGAAAATCTATATCAGAGAAAAGAAATTGAGCTTAAAAACAGATTGAATCAACAGTTAAGTAATTACATGAATCAACAGCGGATCATAGAAAATTACGAGCAAAAACAGCTTCCAAAATCCGAAACCATTCTGAAAACCGCTCAGAAACAGATGGAAGTAGGAGAAATAGATTATCTGGACTGGGTAATACTGGTCAATCAGGCCGTTAAAACCAAGGCAGATTATATTGATCAGCTGGAAAAACTTAATCAGATCGGAGCTGAACTTCAATTCTTAATTTCAAAATAA	MLNKIIEFSVKNKLIIALFTVALILFGVYETTKLPIDAQPDITNNQVQIITTAPSYGAADIERLVTFPIEQATSNISGITELRSFSRFGLSLVTVVFDDNTDVYWARQQVQERLQLVQDNIPAGIGKPELGPISTGLGEIFQYVVRAKKGYENVYDETELRTIQDWVVRRQLLGTKGVADVSSFGGKLKQYEIAINPNRLQAFNININDVFAALERNNQNTGGAYIEKKETVLFIRSEGLLGSTEDIGSIQVAETKEGIPVHIKDVASVKIGYATRYGAMTYNDTGEVSGAIVLMLKGENANVVIGNIKQKLEKIQESLPEGVVIEPFLDRAKMVNNTISTVKTNLMEGALIVVFILVLFLGNVRAGLLVASVIPLAMLFAIIMMNIFGVGGNLMSLGALDFGLIVDGAVIIVEAVLHQLAHKKHFGKDNMLSKKEMDDQVSSSATKMVNSAVFGQIIILIVYLPIFTLQGIEGKMFKPMAQTVAFALIGAFILSLTYIPMMSSLVLSRKKKEKENISDRIMGKVETGHQKLLMKALKFRKTIIIGVMILFAGAVFTLSRMGGEFIPSLEEGDFAVEMRILQGSNINETKKATTQAAHILLTQFPEVQKVVMKIGSAEIPTEPMPMDSGDMIVVLKPKKEWTSAKSFPELSDKMSKALSVIPGLTTSFQFPVQMRFNELMTGARQDVVCKIYGEDLDSLANYAKKIGSIINTVKGAQDLYIEPVVGAPQVVIDYNRSELSRYNISVADINRVINMAFAGQTAGALYEGEKKFDIVVRMDNEHKKDITSIQNLLVPTSSGEQIPLSQLAKVELKNSPNQIQREDTKRRIIVGFNVRGRDVQSIVEELQQKADKSLKLSPGYTISYGGAFENLNEAKARLGIAVPISLVMIFLLLFFAFGSVKHSLLIYTAIPLSAIGGVYFLALRGMPFSISAGVGFIALFGVAVLNGIVLISEFNQLKKNGISNTSRIVLIGTKIRLRPVLMTAFVASLGFLPMAISNGAGAEVQRPLATVVIGGLMLATLLTLFVLPILYVLFEHINKNKMKFSKKINYKKLSVFLLLLSFGIDQAQENITYDQALEKAYQQNGTLKNSKLVSDYQEKLKASYLNIPQLEVTGGFGQIQGEEMDNSFGISQRFSFPTVYSKRKQMLDAEWSASVISRNLTKTQLTKEVTDVFYRILVLQEKKKVLEYISQLYNNFAAKAGLRLKKGEANILEESTAEIQKEQIQVQLNTLENDLNIAKLQLQLLLQSTTPYQPIAEKPTMNIGLQISEEMVKQHPELQYLQQQIKIGEAEVQLEKSRLIPDLLIGYTNQSMKNINNSRFNSVQVGVGIPLFTKGQRALAKAAQTKIAISENLYQRKEIELKNRLNQQLSNYMNQQRIIENYEQKQLPKSETILKTAQKQMEVGEIDYLDWVILVNQAVKTKADYIDQLEKLNQIGAELQFLISK	PGPT0004965_246	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
BMS003_01384	1152	czcB_1		Cobalt-zinc-cadmium resistance protein CzcB	ATGCATTTCAAGAATATATCCCTATACAGCCTTGTCTTACTCCTTACTTTATCTTCATGTTCAGGAAAAAAGGAAGAAGAAAAAACAGTTTACGAAAACACTCAATTTTCTAAAAACGACAAAAATACAGTTCATCTTACAGAAAAACAGATTCAGTCTGTAGGATTGACAACAACAAGTATTCAGAACAGAAATATGGAAAAGCTGGTGAGACTGAACGGAAAAGCAGAAATTGCACCGTCTCACATCAGTTTGGTTTCCAGTATTATGGGAGGGCATATCAAGTCGATCAATGTCATTAATGGAAGCCATTTCAGCAAAGGACAGGTGCTTGCAGTAGTAGAAGATCCGCAGTTTATACAGTTGCAGCAGGATTATCTGGTGACCAAAGCACAGCTTGAAGCCGCAAGACTGAATTTTAACCGCCAGAAAGACCTTAATACAAGCAAAGCGAGCAGTGATAAGATCATGCAGACCGCTCAGGCAGATTATTCTACTTTGAATGCCACTTTAAAAGGGCTGGAAGAAAAGCTGAAAATCATCGGAATCACTGCCAAAGGTCTGAATACCGGAAATATCAGAAGTAAGATCAATATCTATGCTCCGTTTACAGGTTTTGTAAGCAAAATTCTGGTGAATAACGGACAGTATATCAATCCGGCAGATACTTTATTTGAACTGATCAATCCGGCTGGATTGCTTTTAGAATTGAAAGTTTTTGAAAATGATGTGAATGATGTAAAAGCAGGACAGGAAATTGTGGTGTATAACAATCAGAATCCGGATATAAAATCAAATGCCAAAATTGTAAGCGTAGTTCCAAGTATTGAAAACGGAGGTTCTGCAACGGCAATCGCCAAATTATCTTCTGTGAATACTGAATTTGTAAAAGGAATGTACGTAAATGCCGAAGTGAATATCAGCAGCCGTTATACAACAGGGCTTGCTAACGAAGCAGTAATTTCTTTTGAAAACAAAAATTATGTTTTTGAAGACCTTGGTAAATCCAATTATAAAATGATTCCCGTACTGACCGGAATTTCAGATGACCAGTTTACAGAGGTATTAAAAGCCGATTTTTTAAAGGATAGGAAAATTGTACAGAAAGGAGCTTACAGCCTTCTGATGATGCTTAAAAATAAAGCAGAATAG	MHFKNISLYSLVLLLTLSSCSGKKEEEKTVYENTQFSKNDKNTVHLTEKQIQSVGLTTTSIQNRNMEKLVRLNGKAEIAPSHISLVSSIMGGHIKSINVINGSHFSKGQVLAVVEDPQFIQLQQDYLVTKAQLEAARLNFNRQKDLNTSKASSDKIMQTAQADYSTLNATLKGLEEKLKIIGITAKGLNTGNIRSKINIYAPFTGFVSKILVNNGQYINPADTLFELINPAGLLLELKVFENDVNDVKAGQEIVVYNNQNPDIKSNAKIVSVVPSIENGGSATAIAKLSSVNTEFVKGMYVNAEVNISSRYTTGLANEAVISFENKNYVFEDLGKSNYKMIPVLTGISDDQFTEVLKADFLKDRKIVQKGAYSLLMMLKNKAE	PGPT0004970_1857	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
BMS003_01385	1842			hypothetical protein	ATGAATAACAAAAGAACTTTTATCAAAAACTTTATGACAAAAAAAACTTTGCACAATTTCCATATTCCGGTAATGGGACTGGCTTATACCATAGACAGCCCTATTCGTGTTGCCCAGTATGGAATTTCTTCCGTCATCTCCATCATTGATGATGAAATTCTGGAAAAAATGAAGAACTTTTACAACAAAAAGTTCAACCTTGATTATTTCGGGATCTCAACGAAAACAGAAGATTACAGGGCAAAAAGAGTTACCGCTTATCTGGATATGGTAGACGATATCGTGAATGAAAAATTTGAATCTTTCAAACAGGAAATCAGCAAAAATAAAGAGGCCTTGAAGGATTTCATGGCCATGCTTCCGAATACTTCAGACCTTAAAAACAGTCTTCAAAATCTGATCAATCAAAAAGACAACTGGAGTTCCAATATCAAAAACTTCATAGAATCCAATTTAAAACCGGGAAGTATTGATGTCAATATCATGACGAAAGTAGATAAAGACAACTATCAAAACAATGAACAGCTTCCTGTTATCTACAATGATGCCCATGCATCACTGCGCGGATTTGCCAAAAGCAAATTATCATCATCAATGGTGCTTTCCGCAGGCATGAACCCCCGTTTATACAGCTATATGGAAGAATTTGAAGACTTTTTTCCGGATGAAAACGGGAAGATCAAAAAGAAAATAATCCTTAAAGTAAGCGACTTCCGCTCTGCCATGATTCAGGGAAACTTTCTTGCCAAAAAAGGGTTGTGGGTATCAGAATACAGAATAGAATCCGGGTTGAATTGCGGAGGCCATGCATTTGCTACCGAAGGGATGCTTCTGGGCCCTATTATGGAAGAATTTAAGCAAAAAAAGAATGATCTGATTCAATCCGCTCATTCCTTAATGACAGCTGCTTTGGAACAAAAAGGAAAACCCACAGTTTCTGAACCTTTAGAAATGAAAATTACCGTTCAGGGTGGAGTAGGAACTTCTGAAGAGCATGATTTTTTATTGGCCCATTACAATGTGGACAGCGTAGGATGGGGCTCCCCATTTTTACTGGTACCCGAGGCTACTTCTGTAGATAAAGAAACACGGAATCTGCTTTTAAAATCAAAAGAGAAGGATTTTTATCTGAGTAATATTTCTCCTTTGGGAGTGCCTTTCAATACGGTAAAAGGAACATCCAATGAAATATTAAAGCATGAGAAAGAAGCAAAAGGAAAATACGGAAGTTCGTGTCCCAAAAAGCTTTTGGCTCTCAGCAAAGAGTTTTCTCAGGAAGGTACCTGTACCGCATCTAAAAAATATCAGGATATCAAACTGAAAGAATTGGATGACAGTAAGGAAACATTAACTGAAAGGGAATTCAATAAAAGAAAATCTGAAATTACCGATAAAGCCTGCTTATGTGTAGGACTTGTGAATGCTGCATACATGGAGCAGAACCTCGAGATCAAAGGTGAAAAACAAGGTGTTGTGATATGCCCGGGTCCGAATATTGCTTTTTTTGATAAGGAAGTTTCTCTTTCGGATATGGTAAAACATATCTACGGAAACACCAACATTCTTTCTGGCAACCAACGCCCGAATATATTCATCAATGAATTGAAAATGTATGTAGATTATCTGAGGAAGGAAATTACTGAATCTACTGTACAGATTACCCATTCACAGACAAAAAAATGGAATGCTTTCAGGAAAAATGTTCTTGAAGGGATAGCCTATTATCATGATCTTTTTAAAGCATCATCATTCTTCAGCAACGGTTTATCAACCATCAATATGCAATTAGAGGAATACAAACTTCAGCTTATTGCTATTGACATTCCTCAGGTTGAAAAATAA	MNNKRTFIKNFMTKKTLHNFHIPVMGLAYTIDSPIRVAQYGISSVISIIDDEILEKMKNFYNKKFNLDYFGISTKTEDYRAKRVTAYLDMVDDIVNEKFESFKQEISKNKEALKDFMAMLPNTSDLKNSLQNLINQKDNWSSNIKNFIESNLKPGSIDVNIMTKVDKDNYQNNEQLPVIYNDAHASLRGFAKSKLSSSMVLSAGMNPRLYSYMEEFEDFFPDENGKIKKKIILKVSDFRSAMIQGNFLAKKGLWVSEYRIESGLNCGGHAFATEGMLLGPIMEEFKQKKNDLIQSAHSLMTAALEQKGKPTVSEPLEMKITVQGGVGTSEEHDFLLAHYNVDSVGWGSPFLLVPEATSVDKETRNLLLKSKEKDFYLSNISPLGVPFNTVKGTSNEILKHEKEAKGKYGSSCPKKLLALSKEFSQEGTCTASKKYQDIKLKELDDSKETLTEREFNKRKSEITDKACLCVGLVNAAYMEQNLEIKGEKQGVVICPGPNIAFFDKEVSLSDMVKHIYGNTNILSGNQRPNIFINELKMYVDYLRKEITESTVQITHSQTKKWNAFRKNVLEGIAYYHDLFKASSFFSNGLSTINMQLEEYKLQLIAIDIPQVEK				NA	NA	NA	NA	NA
BMS003_01386	291	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAAAAAAGAAAAATCAAAAACACTGATTTAATGATTGCTCCAATCAATTTCGGAGGCAATGTTTTTGGATGGACACTGGACGAGAAACAGTCTTTTGATATACTGGACCGCTTTACGGAAGCCGGATTCAATTTTATAGATACTGCAGATACCTATTCATGGTGGGTGAACGGGAAAGGCGGGCAGTCTGAAGAGATCATCGGAAAGTGGATGAAAAGCAGAGCTAACCGTAATGACATCGTTTTAGCAACCAAAGTAGGCTCAGAAACGAAAAGAACACGGCTATGA	MEKRKIKNTDLMIAPINFGGNVFGWTLDEKQSFDILDRFTEAGFNFIDTADTYSWWVNGKGGQSEEIIGKWMKSRANRNDIVLATKVGSETKRTRL	PGPT0017540_51	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
BMS003_01387	615	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	TTGCAAAGGCTTCAGACAGATCATATTGATCTTTATTATACCCATTTTGATGATAATACTACTCCTATAGAAGAAACGCTTTCAGCATATGATGAAATTATTAAAGCTGGAAAGGTACGCTATATTGCGGCTTCCAACTTATCACCGGAACGTTTGAAAGCATCATTTGAATCTGCAGAAAAGAATAATCTTCCTAAATATGTTGCTTTACAGCCTCATTACAATTTAATGGAAAGAGAAGGTTTTGAGCAAAATTATGCCCCTCTTGCAGAACAGTTTGATGTAAGTGTATTTCCTTATTGGTCTCTGGCAGCAGGTTTCCTGACGGGTAAATACCGTGATGAAGCAGATCTTACAAAAAGTGCGAGAGGCGAGGGGGTAAGAAAATATTTAAACCCTAAAGGACTCGAAGTTCTAAAAGCACTGGATCAGGTAAGTGCAAAACATAATACCACTCAGGGAACAGTTTCTCTGGCATGGTTATTATCTAATCCATTAATTACAGCACCTATTGTAAGTGCTACCAGTGCATCACAGCTTGAGACAGTATTTAATGCGCCAAAACTTATTTTGGATCAGGAAGATATCGATCTGCTGAATAACGCAAGCAACTAA	MQRLQTDHIDLYYTHFDDNTTPIEETLSAYDEIIKAGKVRYIAASNLSPERLKASFESAEKNNLPKYVALQPHYNLMEREGFEQNYAPLAEQFDVSVFPYWSLAAGFLTGKYRDEADLTKSARGEGVRKYLNPKGLEVLKALDQVSAKHNTTQGTVSLAWLLSNPLITAPIVSATSASQLETVFNAPKLILDQEDIDLLNNASN	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
BMS003_01388	1848	clcB_1		Voltage-gated ClC-type chloride channel ClcB	GTGAAAATTCACAACAAAAAAAAGTACCTGAGCTTCCTTAAATTCAAAAGAGATTTCCAAAAATACGGACTAGAAAAAGCACGAAGCTATGAGCTTATTCTGCATTGGCTGAACAACAGGCTGAGCAGAAATCAGTTTCTTGTTCTTTCCGGTATTTTGGTAGGCTGTACGGCTGGTCTTGCAGGAGTTATCCTGAAAACTCTTGTACATAATATTCATTATTTTATTACCAATAAAGTTCATTTTGAATATCAGATATTGTTTTATATTGTTTTTCCTTTTTTAGGAATTGTTCTGACTACGATGATTGTTCTTACAATATTTAAAGGTCAGGATCGTAAAGGAATCGGTGCTATTTTATACGAAATTGCGCAGAATTCCAGTATTGTGGCATCTGTTAAAATGTATTCTCAGGTAATACAAAGTGCAGTTACCGTAGGATTGGGAGGTTCTGCAGGATTAGAAAGTCCTATTGCGGTTACCGGAGCTGCTATTGGATCCAATTATGCGCAGACCTACAGACTGAGCTATAAAGAACGTACTTTATTGCTTGCTGCTGGGGCTACAGCCGGTATTGCATCAGCTTTTAATGCTCCTATTGCCGGGATTATGTTTGCCTTTGAAATTCTTTTGACCGGAGTAGTTTTCACAGATTTCATTCCTTTGGTAGTTGCAGCGGTCTGCGGCAGTCTTTTGTCAAGGATCCTGCTTCAGGAAGATGTTCTTTTCAGGTTTTATACCAGAGATCCGTTCAACTATAAAAATGTTCCGTATTATCTTATTTTAGGAATTGTTACAGGCGTATATGCCCGTTACTTCGTAATTATTTCTCAAAAAGTGGAGCATTTTATAAAAGAGCTTCAGCTTTCGAGAATGCGTAAAGCAATGTTCGGAGGAGCTGTACTTTCCCTGTTATGCGTTCTTTTTCCTCCGCTGTTCGGGGAAGGATATGAGACCGTAAAGGCTTTTACTAACGGAAATACCTATTCTATTATTGAAAACAGTTTTTTCAGATATTTTGAGATCGGAGACTGGACAATTATTGTTTTTCTGGTTCTGGTCTTGCTTTTAAAAGCATTTGCAACCTCATTTACCATATTCAGTGGAGGAAATGGTGGTAACTTTGCCCCTTCTCTCTTTGCCGGAGGAACTCTGGGTTATTTATTTGCACTGGTATGCCAGCACTTAGGTTTTACAGATGTTCCCGTAACCAACCTTGTGCTCGTAGGAATGGCAGGTGCCATGAGCGGCGTATTATATGCCCCGCTTACCGCTATATTTCTGATTGCAGAATCAAGCTTTGGATATGATTTGTTTATTCCCCTCATGATAGCTTCTATTATGTCTTACCTCATTGCAAAATGGTTTTCCCCGATATCTCCGGAATTGAAATCATTAGCCGATGAAGGAAAAATATTTACAAATAAGCATGATAAAAACCTTCTTTTCGCTTTAAGAACCGAAGATTTTATTGATAAATATTCACAGACGATTAATGAAAGTGATTCTGTTACAGAACTGTTTGAGATGGTAAAGAACGGAAATAAAAATATTTTTGCCGTTGTGGATGAAAACAGAAAACTAAAAGGGGTTCTTACTTTAGATGATATAAGGCCTTACCTTTTTAACAAAGAAATTGAAACTTCCCAGATTGTTGCCCAGATCATGAAAGCTCCACCTGCAATCCTTTCCCGGAAAAATAAGCCGCTGGATATCCTGCAGACCTTTGATGATGCAGGAGTATGGAATTTACCTGTAGTGAGTGAGAATAATGATTTTATCGGGTTTATCTCAAAATCTTCAATATTAATGAGCTACAGACAGCTTCTGAAAGAATATTCTGATTAA	MKIHNKKKYLSFLKFKRDFQKYGLEKARSYELILHWLNNRLSRNQFLVLSGILVGCTAGLAGVILKTLVHNIHYFITNKVHFEYQILFYIVFPFLGIVLTTMIVLTIFKGQDRKGIGAILYEIAQNSSIVASVKMYSQVIQSAVTVGLGGSAGLESPIAVTGAAIGSNYAQTYRLSYKERTLLLAAGATAGIASAFNAPIAGIMFAFEILLTGVVFTDFIPLVVAAVCGSLLSRILLQEDVLFRFYTRDPFNYKNVPYYLILGIVTGVYARYFVIISQKVEHFIKELQLSRMRKAMFGGAVLSLLCVLFPPLFGEGYETVKAFTNGNTYSIIENSFFRYFEIGDWTIIVFLVLVLLLKAFATSFTIFSGGNGGNFAPSLFAGGTLGYLFALVCQHLGFTDVPVTNLVLVGMAGAMSGVLYAPLTAIFLIAESSFGYDLFIPLMIASIMSYLIAKWFSPISPELKSLADEGKIFTNKHDKNLLFALRTEDFIDKYSQTINESDSVTELFEMVKNGNKNIFAVVDENRKLKGVLTLDDIRPYLFNKEIETSQIVAQIMKAPPAILSRKNKPLDILQTFDDAGVWNLPVVSENNDFIGFISKSSILMSYRQLLKEYSD	PGPT0004990_287	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS003_01389	675	ctrA		Cell cycle response regulator CtrA	ATGAAAATTCTTATCATTGAAGATGAAGTGGCGCTTGCGCAAAGTATTTCCGAATATCTTTCCGGAGAAAATTACCTCTGTGAAACGGCAGCTACATTCAGTGAAGCGATGAGTAAAATAGAAGTATTCGATTATGAATGTATATTACTGGATATTATGCTGCCGGATGGAAATGGTCTTACAGTTCTGGAAGAATTAAAAAAACAGCAGAAGCAGGACGGTGTGATTATTATTTCCGCCAAAAATGCCCTTGATGATAAAATTGAAGGACTGAAGCTGGGTGCTGACGATTATCTTACCAAACCTTTTCACCTTTCTGAGCTTATGGCAAGGGTATATTCTGTTATCCGCCGAAAACAGTTCAGCAGTTCCAATGTGGTAAAACAAAATGAGCTTCAGATTGACTTATTAGCTAAAACGGTGGCTGTAAACGATGAATATATTTCTCTGACCAAGAAAGAATTTGATCTCTTAATTTATTTTATCGGAAACAAGAATAAAGTTATTTCCAGGAGTACCCTGGCAGAACACCTTTCAGGAGACTTTGCAGATATGCTTGACAATCATGACTTTGTATATGCTCACGTAAAAAACCTTAAGAAAAAGCTCTATGACGCAGGATGCGGGCATTATCTTAAAACAGTTTATGGAACAGGGTATAAGTGGGAAAGCTAG	MKILIIEDEVALAQSISEYLSGENYLCETAATFSEAMSKIEVFDYECILLDIMLPDGNGLTVLEELKKQQKQDGVIIISAKNALDDKIEGLKLGADDYLTKPFHLSELMARVYSVIRRKQFSSSNVVKQNELQIDLLAKTVAVNDEYISLTKKEFDLLIYFIGNKNKVISRSTLAEHLSGDFADMLDNHDFVYAHVKNLKKKLYDAGCGHYLKTVYGTGYKWES	PGPT0022440_2	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
BMS003_01390	357			hypothetical protein	ATGAGTGAAAAGAAAAATGTGTTGAAAGATAAAAGTTTTGATTTTGCTATAAGGATTATTAATCTTTATAAATATCTTTCAACTGCTAAGAATGAATATGTTCTGAGTAAACAGTTGTTAAGAAGCGGAACAGCAGTAGGAGCTTTAGTAAGAGAAGCACAGAATGCTGAAAGTAAAGCTGATTTTGTTCATAAACTTGCCATTGCTCAAAAAGAATGTGATGAATCTATTTACTGGATCGAGCTTTTATTTCGGACAGATTATTTATCATCCACCGAATATGAGAGCATCAGTAATGAAGCCACAGAAATATTAAAAATAATCCGAAGTATCATCATTACAACAAAAAATAAATAA	MSEKKNVLKDKSFDFAIRIINLYKYLSTAKNEYVLSKQLLRSGTAVGALVREAQNAESKADFVHKLAIAQKECDESIYWIELLFRTDYLSSTEYESISNEATEILKIIRSIIITTKNK				NA	NA	NA	NA	NA
BMS003_01391	1287	sasA_4		Adaptive-response sensory-kinase SasA	GTGAAGCCTCTACTTAGCAAAACCACAAAACCTTTTCTTATCTACGTGCTTATGGTACTGATGATCAGTATCCCTGTATATTATTTTGTGGTAGATACAATCTGGAAAAATGAACTGGATGAGCATAATCAGATTATTGTAGAGAAAACAGCTTATGAATTTAACCAGCTGCTGCTTTCGGAAGAAGCGCTGGACAAAAGTCTGGAATTGTGGAACCACATCCAGCCTGAAACAAATATTGAAAGAATTTTGCCCAGTCAGGTAAAACAGGACAGTGTTTATACTTACGAAAAACACCTTCCCTTTATTTCGGAACAGAAAAAGGAACGTTACCGATGTCTTGAAAAAGTAATTTATCTTCATAACCAGCCTTATCTGTTTACCATACAGACGAATATTGAGGAATCTCATGAAACCATAGCTGTAATTGCGATGATTACCATTTTCTTTTTTGTGATGATCGTTGTCGGGCTTTTATATCTTAACCGAAGACTCTCTTCGTCTATATGGAAACCTTTCAGAAGTACGTTGGATCAGCTGAAAACGTTTAATCTTAACAGTCAGAATGTCATAGAATTTCCGGCTTCTGATACTACTGAATTTGAAGAGCTTAATCAATCCCTTTATAAGCTTATAGAACGTAATGTTTCTACTTATAAAACCCAGAAAGAATTCACTGAAAACGCATCCCACGAATTGCAGACTCCACTGGCAATTATTAAAAACAAACTGGACCTTTTACTTCAGGATCAGAACCTTACTGAAAAACAATACAGCATTGCTGAAGATATGAACAGAGCGCTTACAAGAAGTTCCCGTATCAATAAAAATCTTTTGCTGCTTGCTAAAATTGATAATAACCAGTTCGACAGCTCGGAAACTATTTCGTTTGATCTTTTGCTTCATCAAAGCATTGATATTCTCAGAGAACATTTTCATCAAAAGAATATTTCAGTTACAGAGAACATTTCAAACGAGGTAAAGGTAAACGGAAACAATATTCTGACAGAGATTTTAATTAATAATCTTATCATCAATGCGATTCGGCATACGGTTGTCGGAGGCAGTATTTCTATACAACTTACTCATTCTGTTTTTGAGATTTCCAATTCAGGAGCTGAAGAACTGGATACGGATTTATTATTCAAAAGATTTTCAAAACTTTCAACGGATAACAGCGGAAGTGGGCTGGGACTGTCTATTATTCAGGAAATCTGCAGGTTTCATCAGTGGAATATCAGTTATAGGTTTGAGAATCATCATCATGTTTTCTCTGTTAAATTATAG	MKPLLSKTTKPFLIYVLMVLMISIPVYYFVVDTIWKNELDEHNQIIVEKTAYEFNQLLLSEEALDKSLELWNHIQPETNIERILPSQVKQDSVYTYEKHLPFISEQKKERYRCLEKVIYLHNQPYLFTIQTNIEESHETIAVIAMITIFFFVMIVVGLLYLNRRLSSSIWKPFRSTLDQLKTFNLNSQNVIEFPASDTTEFEELNQSLYKLIERNVSTYKTQKEFTENASHELQTPLAIIKNKLDLLLQDQNLTEKQYSIAEDMNRALTRSSRINKNLLLLAKIDNNQFDSSETISFDLLLHQSIDILREHFHQKNISVTENISNEVKVNGNNILTEILINNLIINAIRHTVVGGSISIQLTHSVFEISNSGAEELDTDLLFKRFSKLSTDNSGSGLGLSIIQEICRFHQWNISYRFENHHHVFSVKL	PGPT0003920_1305	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
BMS003_01392	756			hypothetical protein	ATGAGAACAATAAACAAAGTTGCAGCCGTAACCCTTCTCTTCTGGCTGATGAAAATAGTAGCCACCACGTTGGGAGAGACTTTGGGTGATTTTATTTCTATGACGCTTAATCTGGGCTATGCAGTAGGTATTCTGGTTACCCTGTTGTTCTTTATCGTCATTTTATCTGTACAGCTTGGTGTGAAAAAATATATTCCGGCCGTCTACTGGATGGTAATTATAGGAACAACCACCTTAGGAACTGAAATATCAGATTGTATCGACAGAACACTGAAAACCGGATATCTTACAGGCAGTTTAATTTTACTTTCCGGTCTTTTGCTTTCTTTGTTTTTATGGTACAAAAAGTATGGCAACCTTCAGGTATATCCCATCTTTGAAAAGAATAAAGAAATCTATTACTGGACTGCCATTTTATTTTCCAATAGCCTGGGTACTGCTTTTGGCGATTTTCTGAGTGATAATTTAGGACTCGGATATATGACCGGAGCTTTAATTACCGGGCTCATTATCCTGGCTGTAGTGGGGCTTCATTATACCACGAAGATCAATCATGTGATCCTGTTCTGGATTGCTTTTGTTTTTACCAGACCATTTGGGGCTACTTTCGGAGATCTTTTAACCAAACCGTTAGCGAAAGGAGGTCTGGATCTGGGAACTCTCAATGCTTCTCTGATATCTCTTGCTCTGATGGTATTGATGATCATTATCTCACAAAGAAAACACAACCGGGAATTACCCCTTCAAAACAAATAA	MRTINKVAAVTLLFWLMKIVATTLGETLGDFISMTLNLGYAVGILVTLLFFIVILSVQLGVKKYIPAVYWMVIIGTTTLGTEISDCIDRTLKTGYLTGSLILLSGLLLSLFLWYKKYGNLQVYPIFEKNKEIYYWTAILFSNSLGTAFGDFLSDNLGLGYMTGALITGLIILAVVGLHYTTKINHVILFWIAFVFTRPFGATFGDLLTKPLAKGGLDLGTLNASLISLALMVLMIIISQRKHNRELPLQNK				NA	NA	NA	NA	NA
BMS003_01393	2421	btuB_6		Vitamin B12 transporter BtuB	ATGAATAAAACAGCCCTGCTATTTTTTCCGGCCTGCATGATGGTTTCTTCTCTGGTTTCTGCGCAGACAGCTTCTGTTACAGCTTCAGGAAGAATCATAGGTATAGACAAAACAGCATTACCCTATGCTCATATTATTTTAAAAAAAGAAAAAGACAGTACTTTTACAGCCGGAACAATTACCAATGAAGACGGCAGATTTTCTCTTACCGGAATAAAACCGGATCATTATCTTCTGGAAACCTCACTCACTGGATATAAGACGCAGATACACCCCATTTTTATAGGTAGCCTCTCTGAGTTTCTGGAGATTCCTACGATTGAGCTTGTTCTGCAACAGGAAACGGAAAACAAAATAGAAGCCATCACCATTACAGCTTCCAAAAAGAATGAAATAGACAGCCGTCTGGACAAGAAAACCTATTCTGTAGCTGATAATATCAGCCAAAGCGGCGGCTCCGTATTACAAAGCATGCAGAACCTACCCGGAATCACCGTACAGGATGGTAAAGTACAGCTTAGAGGTAATGATAAAGTAACAGTTCTGATTGATGGCAAACAGACAGCTCTTACAGGTTTTGGAAGTCAGACCGGGCTGGATAATATTCCTGCTTCCTCAATTGATAAAATTGAGATCATCAACAATCCTTCCTCAAAATATGATGCGAATGGAAATGCCGGAATCATCAATATCATTATGAAAAAAAATAAACAGAACGGATGGAATGGAAAAGCAGGATTTACCACAGGATTAGGCTCACTTTGGGTAAGAAAGGAAAATCTTCCTACCATAAGACCTCAATACACGCTCACTCCAAAGATTAATCCCTCATTGTCTGTTAATTACAGAAAAAACAAAGTCAATATATTTTTGCAAGCCGATAATCTGTATACGGAAACACTGAATAAGAATGAATTTGTAACCCGTACTTATGATGACGGAACAGTGATCAATTCACAGCTGAAAAGAAACCGAAACACCAATTTCTTCACCACCAAAGCCGGAATAGACTGGAATATTGATCCTCAAAATACCTTAACCATCTCAGGAATGTATGGAAATGAAAAGATCATAGACAGAGGAGATCAGCCGTTTTTTAATGGGGATATGTCTCAGCGCCTGCGTCTTTGGCAGTTTCTGGAAGATGAGCTGAAAACAACCGTGATGGGAACTGCTTCTTATCAGCATAAATTCAAAGAAGCCGGACATGTACTGAACATGGGATTCAATTATACTTTTCACAGAGAGGATGAAAAGTATTTCTATGATAATTATCTGCCTTCTTCTACCGGAACTGATGCTTTTAAATTATTATCGGATGAACAGGTGTACGATTTTAATGTAGATTATATAAAGCCATTGAAATACGGACGAATTGAAACCGGAATTAAACTGAGAAGCAGAAATATTCCTACCAATATGAACTTTATTCCGGGAGCAAACTCCGTTTTGGATGTTTCTGCGGGTGGAAAAGCAGATTATAAAGAATTTATTCCGGCCGTGTACGGAAATTATGTTTTTGAAAATGAAAAATGGGAAGCAGAATTAGGCCTTAGACTGGAATATGTAAAAATTCAGTATAACGTAAATCCTAACCATCCTACGTATAAAAGTGACGGATACAATTACACCCAGCCATTCCCAAATTTCAGGCTTGCTTATAAACTTGATGACCGTAATAAGTTCTCTGTTTTCTATAACAGAAGGGTAGACCGCCCGAATGAAGTGGATATAAGAATTTTCCCAAAATATGATGATGCAGAGATCATTAAGGTAGGGAATCCCGCATTACGTCCTCAGTTTACAAATTCCATTGAACTTGGATATAAACACAATTGGGACAGCGGATATTTGTATTCTGCTTTGTACCATCGCTTTGCCAACGGAACCATCACCAGAATTTCCAGTATTGTTCCGGGAAGCACACTTATTTATGCCATCTTCCAAAATGCAGGAAAAAGCTATAATACCGGACTTGAAACAATTTGGAATCAAAAAATATCGGATATTTATTCCATGAATGTCAACGGGAATATATACCGTAACCAGATTGATGGATTTACTGTACAGAATCTGTATCCTCAGCCTAATACGTTCTCTGCAGATCTGCAAACCGCGATCTCGGGGAATGTTAAGATGAATAATGTTTTTCATTTCTCCAAAGGGTTAAATATGCAGTTTACCTTGGTGTATCTGGCCCCGGATATTATTCCTCAGGGAAGAATACAGTCAAGATTCTCAGTGGATGCAGGAGTAAAGAAAGCCATTCAGAAAGGGAAGGGGGAACTCTTTTTCAACGCTTCGGATCTGCTCAACACCATGTTGATCAAAAAGTCTGTACAAGGTAACGGATTTGCTTATACCAGCAATGATTACTACGAAACCCAGGTGGTTCGTTTGGGATACAGCTATAAATTTTAA	MNKTALLFFPACMMVSSLVSAQTASVTASGRIIGIDKTALPYAHIILKKEKDSTFTAGTITNEDGRFSLTGIKPDHYLLETSLTGYKTQIHPIFIGSLSEFLEIPTIELVLQQETENKIEAITITASKKNEIDSRLDKKTYSVADNISQSGGSVLQSMQNLPGITVQDGKVQLRGNDKVTVLIDGKQTALTGFGSQTGLDNIPASSIDKIEIINNPSSKYDANGNAGIINIIMKKNKQNGWNGKAGFTTGLGSLWVRKENLPTIRPQYTLTPKINPSLSVNYRKNKVNIFLQADNLYTETLNKNEFVTRTYDDGTVINSQLKRNRNTNFFTTKAGIDWNIDPQNTLTISGMYGNEKIIDRGDQPFFNGDMSQRLRLWQFLEDELKTTVMGTASYQHKFKEAGHVLNMGFNYTFHREDEKYFYDNYLPSSTGTDAFKLLSDEQVYDFNVDYIKPLKYGRIETGIKLRSRNIPTNMNFIPGANSVLDVSAGGKADYKEFIPAVYGNYVFENEKWEAELGLRLEYVKIQYNVNPNHPTYKSDGYNYTQPFPNFRLAYKLDDRNKFSVFYNRRVDRPNEVDIRIFPKYDDAEIIKVGNPALRPQFTNSIELGYKHNWDSGYLYSALYHRFANGTITRISSIVPGSTLIYAIFQNAGKSYNTGLETIWNQKISDIYSMNVNGNIYRNQIDGFTVQNLYPQPNTFSADLQTAISGNVKMNNVFHFSKGLNMQFTLVYLAPDIIPQGRIQSRFSVDAGVKKAIQKGKGELFFNASDLLNTMLIKKSVQGNGFAYTSNDYYETQVVRLGYSYKF				NA	NA	NA	NA	NA
BMS003_01394	810			hypothetical protein	ATGAAAAAACAGTTTCAAAAAACACTGATATACATAATGATTTTGACTTCGGCTATAAATCAAATCAACGCTCAGAATACCAGTGATACGGTAAACATTCAAAAACCTGTACAGGATACTATCCTCACGACGGAAATTCAAAAAAGTACTCTGAATTATAAAAGTCTGATCATTCCTACTGCATTTATTGCCTATGGAGTAGCAGGTCTTTCCATCAAGAATCTGAAACAGCTTAATCTATCTACTAAGACTGAGATCAATGAGCACCAACCTACACAGATACAACTGGATAATTATACCCAATATGCTCCGGCAGTAATGGTATATGGGCTTAATGTCATGGGAATAAAAGGAAAACATAATCTGAGAGACCGTACCATCATTTATGCTTCTTCACAGCTGATTGCAGCAGCATTTACCATGCCTTTAAAATATCTGGTAAAAGAAGAAAGACCGGACGGATCCAATACTTTATCTTTTCCTTCAGGGCATTCCGCCACTGCATTTTCTTCAGCACAGTTTATGTTTCGGGAATATAAGGACACTAATTTCTGGCTCAGTATTTCAGGATATCCGTTTGCTGTTTTCACCGGAGTATACAGAATGCTGAATGATAAACACTGGCTGGGAGACGTAGTGGCAGGAGCCGGATTCGGAATTCTTTCTACAGAGCTGGCTTATTGGCTATTTCCCAAAATTGATAATGTATTACGAGGGAAAAATAAAGGTAAAACTTCACTATCTTCCACAATGGTGATGCCTTTCTATCAGAATAAAATTGTTGGGATTGGCCTTGTAAAAACCTTTTAA	MKKQFQKTLIYIMILTSAINQINAQNTSDTVNIQKPVQDTILTTEIQKSTLNYKSLIIPTAFIAYGVAGLSIKNLKQLNLSTKTEINEHQPTQIQLDNYTQYAPAVMVYGLNVMGIKGKHNLRDRTIIYASSQLIAAAFTMPLKYLVKEERPDGSNTLSFPSGHSATAFSSAQFMFREYKDTNFWLSISGYPFAVFTGVYRMLNDKHWLGDVVAGAGFGILSTELAYWLFPKIDNVLRGKNKGKTSLSSTMVMPFYQNKIVGIGLVKTF				NA	NA	NA	NA	NA
BMS003_01395	804			putative oxidoreductase	ATGAGCAGTTATTTCGATCATAAAGTCATTTGGATCACAGGAGCGTCATCAGGCATTGGAGAAGCTTTGGTGAAAGAGCTTTCCAGGAACAGCAATGCTAAAATCATTCTTTCCTCTAGAAAAGAAGAACAGCTTCAATCAGTGGCTGAGAGAGCTGGTCTGAATAAAGATCGGTATACGGTAATTCCTTTAGATCTTAAAAATTATATGGAAATGCCTGCCATTGCAGCCAAAGCATTGGAACAGTTCGGAAGGATTGATATTCTGATTAATAATGCGGGACTGTCACAACGCTCATTAGCCATAGAAACAGATATTGAAGTGGATAAACAGCTCATCGATATTGATTATATCGGAACCGTAGCCCTTACAAAAGCAGTGCTTCCCTATATGATCAGAAATAAAGGAGGGCAGATTGCTGTTGTATCCAGTCTTATGGGAATATTTGGAGCTCCTATGAGAAGCGGGTATGCCGGTGCAAAACATGCATTACATGGATTTTTTGATGCCTTGCGGGCAGAATTATTCAGTAAGAATATTAAAATTACGATCATTTGTCCGGGCTTTATACAGACAGATATTTCTATTAATGCTGTTACCGGAAACGGCTCATCACAGGGCACCATGGATGATGCCACAAAGAATGGAATGCCTGTCGATATTTTCGCAAAAAAAATGCTGTATGCTATTGAGAAACAGAAAAGACAAAAAGCTATAGGAGGTAAAGAAGTAATGGCTGTTTACCTCAAGAGATTCTTTCCGGATATATTGGCAAAAATAATCCGTAAAGCCAAAGTAGTGTAA	MSSYFDHKVIWITGASSGIGEALVKELSRNSNAKIILSSRKEEQLQSVAERAGLNKDRYTVIPLDLKNYMEMPAIAAKALEQFGRIDILINNAGLSQRSLAIETDIEVDKQLIDIDYIGTVALTKAVLPYMIRNKGGQIAVVSSLMGIFGAPMRSGYAGAKHALHGFFDALRAELFSKNIKITIICPGFIQTDISINAVTGNGSSQGTMDDATKNGMPVDIFAKKMLYAIEKQKRQKAIGGKEVMAVYLKRFFPDILAKIIRKAKVV	PGPT0030485_3078	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS003_01396	1659		COG3573	KsdD-like steroid dehydrogenase	ATGGAAGATCAATTCCAGCCTGATGCTATTATTATCGGAACCGGACTGGCAGGGCTTACTGCTGCTATGGAAATTACCAATGCGGGAAAAAAAGTACTGCTTTTGGATCAGGAAACGGAACAGAATATTGGTGGACAGGCATTCTGGTCATTCGGAGGATTATTTCTGATCAATTCACCACAGCAAAGAAGAATGGGAATCAAAGATTCTTATGAACTGGCATTGCAGGACTGGAAAGGAACAGCTGGTTTTGACCGTCCGGAAGACCACTGGCCCCGTCAATGGGCTGAAGCTTATCTTAAATTCGCTGCTGGTGAAAAGTATGAATACATTTCCAAACTGGGAATCAAGCTGATGTTTATGGTAGGCTGGGCAGAACGTGGTGATGGTTCTGCAACTGGTCACGGAAATTCTGTGCCCCGCTTTCATGTGAGTTGGGGAACAGGAACAGGTGTTGTAAAACCTTTTGTGGAAAAAGCTTATAAAGCTAAGGAAAAAGGACTGCTTCAGATGAAATTCAGACATCGGGTAACTGAAATCATTACTGAAAGCGGAAAGATAAAAGGGGTGAAAGGAGATATTCTGGAAAATGACATTCAGGAAAGAGGTGCTGCAACGAACAGAAATATAATTTCTCTATTTGAATACACAGCTCCGAATATCATCATCGCTTCCGGAGGAATTGGTGCCAATCATGAACTGGTAAGAAAAAACTGGCCGGAAAGATTGGGAAAAGCACCCGAAAATATGGTATGTGGCGTTCCTGCTTACGTGGATGGAAAGATGATAGGCATTGCTGAAAATACAGGCGCCCATATCATTAATCCGGACAGAATGTGGCATTATACGGAAGGGTTACAAAACTGGAACCCTATCTGGCCCAATCACGGAATCCGCATATTGCCTGGACCTTCATCGCTATGGTTTGATGCTAAAGGTGAACGTCTCCCCGCTCCTTTTCTCCCTGGATTTGACACCTTAGGAACTTTACAGCATATCCAGGAAACAGGATTTTCCTATTCGTGGTTTATTCTTACCCAGAAAATTATCAAAAAGGAATTTGCCCTTTCTGGCTCTGAACAGAATCCGGATATTACGAATAAAGATTATGGGCTTTTTCTGAAAAGGATCTTGGGTAAAAAAGCACCCGGACCTGTAGAAGCATTCAAAGAACATGGAAAAGATTTTATTGTATCAGATAACCTGGAAGATCTGGTTAAAAGAATGAATGGACTGGCAGGAAATAACCTGTTGAAATATGAAAAGATAAAATCTCAGATTGAAGCCAGGGATCGGGAGTTAGACAATAAGTTTTCAAAAGACACTCAGATTAATTACATCAGAAACACAAGAAATTATTTAGGAGATAAATTAGGAAGAGTTGCTGCTCCGCATAAAATATTAGATCCCGAAAACGGACCTTTGATTGCTGTACGTCTCAATATTTTAACCCGAAAAACATTGGGCGGAATAAAAACCAATCTGAATGGTCAGGTATTGAGAGAAGATGACAGCATTATTGAAGGATTGTATGCAGCCGGAGAAGCGGCGGGCTTTGGTGGTGGTGGAATGCACGGTTACAGAGCTCTGGAAGGAACATTCTTAGGAGGTTGCATATTCTCAGGAATGAAAGCCGGAAAATACATTGCCGGACTTTAA	MEDQFQPDAIIIGTGLAGLTAAMEITNAGKKVLLLDQETEQNIGGQAFWSFGGLFLINSPQQRRMGIKDSYELALQDWKGTAGFDRPEDHWPRQWAEAYLKFAAGEKYEYISKLGIKLMFMVGWAERGDGSATGHGNSVPRFHVSWGTGTGVVKPFVEKAYKAKEKGLLQMKFRHRVTEIITESGKIKGVKGDILENDIQERGAATNRNIISLFEYTAPNIIIASGGIGANHELVRKNWPERLGKAPENMVCGVPAYVDGKMIGIAENTGAHIINPDRMWHYTEGLQNWNPIWPNHGIRILPGPSSLWFDAKGERLPAPFLPGFDTLGTLQHIQETGFSYSWFILTQKIIKKEFALSGSEQNPDITNKDYGLFLKRILGKKAPGPVEAFKEHGKDFIVSDNLEDLVKRMNGLAGNNLLKYEKIKSQIEARDRELDNKFSKDTQINYIRNTRNYLGDKLGRVAAPHKILDPENGPLIAVRLNILTRKTLGGIKTNLNGQVLREDDSIIEGLYAAGEAAGFGGGGMHGYRALEGTFLGGCIFSGMKAGKYIAGL				NA	NA	NA	NA	NA
BMS003_01397	429			hypothetical protein	ATGAAGTATTTGTTTATCATGGTATGTCTTGTCTGTTCGGTTTTCAGTCAGGCACAGCAAAAACAGGATCCATGGAAAGACAGCCAGCTGATGGATCCTGCATTACTGGCTTCCAGAATTGAGAAGCATAAAACAAAAGATCTGGTGATTATTTCAGTAGGTCCAGAAGCTATCATCAAAGGTTCTGTAGACATCGGACCGACCCATGAGCCTGAAAATCTGGAAAAATTGAGAAACTTTCTTAAAGATGTTCCGAAGAACAGAGAAATTGTGATCTATTGCGGATGCTGTCCTTTTGTAAAGTGCCCCAATATACGTCCTGCATTTGCATTGCTGATGGAATTGGGTTTCAAAAATGCGAAGCTGTTAAATCTCCCGAAAAATATCAAAACAGACTGGCTAGATAAAGATTATCCTACAAATGATTAA	MKYLFIMVCLVCSVFSQAQQKQDPWKDSQLMDPALLASRIEKHKTKDLVIISVGPEAIIKGSVDIGPTHEPENLEKLRNFLKDVPKNREIVIYCGCCPFVKCPNIRPAFALLMELGFKNAKLLNLPKNIKTDWLDKDYPTND	PGPT0002045_5687	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
BMS003_01398	513	resA_3	COG0526	Thiol-disulfide oxidoreductase ResA	ATGATTAATATGAAAACGTTTTTTACCATACTATTTTTAATGCTCTTTTCAGGATATGGTACTGCTCAGAATAAAATAGAGATAGGGAAAAAAGCTCCTGAAATTATAATGACCAAAGCAGACGGAACTTCTTTTTCTCTTTCCACATTAAAAGGAAAAATGGTTCTGATTGACTTTTGGGCAACATGGTGCGCACCATGTGTAGAGGAACAGCCTCAACTGAAAACGATGTATGATACCTACTCAGAACAGGTTAAAAACAACCAGTTTGAAATATTGGGAATTTCTTTAGACAAGAATAAGGAAAGCTGGCAGAAAGCAATTGACAGGTTTCAGATCAACTGGATACAGGTCAGTGATCTGAAATTCTGGAGAAGCCCTGTAACAAAGCTTTACGAAGTGGATGAACTACCTTTTAATGTCATCATTGACGGAGAGGGAACCATTGTAGCTAAAAATCTTCATGGCCAGGAGCTGGAAGAATTTATTAAGAAAAGTCTGCTCCCAAAATAA	MINMKTFFTILFLMLFSGYGTAQNKIEIGKKAPEIIMTKADGTSFSLSTLKGKMVLIDFWATWCAPCVEEQPQLKTMYDTYSEQVKNNQFEILGISLDKNKESWQKAIDRFQINWIQVSDLKFWRSPVTKLYEVDELPFNVIIDGEGTIVAKNLHGQELEEFIKKSLLPK				NA	NA	NA	NA	NA
BMS003_01399	120			hypothetical protein	ATGTTTATTAAATCACTAAATATTGAAATATTTAATATTCCCTTAAAACAGAGTTCAACAATAAAAGTTACGGTTGGTTATGAAACCAATACTTTTATCCCTTTTTATTTCTTTATTTAA	MFIKSLNIEIFNIPLKQSSTIKVTVGYETNTFIPFYFFI				NA	NA	NA	NA	NA
BMS003_01400	318	gdx	COG2076	Guanidinium exporter	ATGAACTGGATAGCATTAATTATCGCAGGAATTTTTGAAATCGGATGGCCTTTAGGGCTCAAATTATCTCAGCAGCCGGAAAATAATAAATGGAGCTGGATTATATTTTCGGTTGTATGTATGGCTATAAGTGGCGGATTTCTCTGGTATGCCCAGAAACATATTCCCATAGGAACAGCCTATGCGGTCTGGACAGGGATTGGCGCTGTAGGAACACTGTTGGTGGGAATTCTGTTTTTTCATGACTCTGCAAGCGTTTTAAGATTACTTTCTGCCCTACTGATCGTAGTGGGAATTGTTGGTCTTAAACTATTTTAA	MNWIALIIAGIFEIGWPLGLKLSQQPENNKWSWIIFSVVCMAISGGFLWYAQKHIPIGTAYAVWTGIGAVGTLLVGILFFHDSASVLRLLSALLIVVGIVGLKLF	PGPT0028785_1802	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
BMS003_01401	1395	pepP	COG0006	Xaa-Pro aminopeptidase	ATGTTTTCAGCACAAACTTATCAAGACAGAAGGTCAGTATTACAAAGAACTGTGTCTAACGGAATCTTATTATTTCTTGGAAATATAGAGAATCCCGTGAACTTTGAGCATAATCCTTATTATTTCCGTCAGGACAGCACCTATTTATACTATTTCGGAATTCAGGAACCCCGCATTGCAGCTATTATAGATATTGATGATAATAAAACCATTGTTTTCGGAGATGAACTAAGTATCGATGATATTGTATGGATGGGCAGGCAGGAAACCTTGAAAGAAAAAAGTCTGAAATCCGGAGTACAGGGAACTTTACCTTATGCAGAGCTTTCTCAATATATTGCAAAAACAAAAGCTTCAGGAAGAAAAGTACATTATCTGCCTCCCTATCAGTCTTCCAATAAAATTTTGCTGGCAGATCTTCTGGGGATTAAAATTACAGAACTACAACCTTCTGTGGAAATGATTAAAGCTATTGTAAAACAGCGCTCTATCAAAGAACCTCAGGAAATTGTTCAGATAGAACAGGCGGTGAATGTATCCAATGAAATGCATTTGCTGGCAATGCGTCTGGCTAAACCAGGGATGAAAGAATACGAAATTGCCAATGCCATCCAATATTTTGCGGCCAATAAAGAATGTCAGATGTCTTATCCTCCCATTGTAACCATAAATGGTGGAATTCTGCATAATCATTATCGCCTTAACACGATGAAAGAAGGTGATCTGTTTCTGAATGATTCCGGGGCGGAAACTTCGATGGGATATGCCGGAGATCTTACCAGAACATTTCCTGTAAGCAAAACTTTTACCACAAAACAAAAGGAAATGTATGAAGTGGTTCTGAATGCTTTTAATCAAGCTCAAAACCTTCTGAAACCAGGAATACGATTTAAAGATATTCACCTCAAAGCAGCTCAGCATCTGGTAGAAGGACTTATTGATCTTGGATTGATGAAAGGAAACCCTGAAGATGCTGTAAAGAATCATGCTCATACCCTGTTTTTTCAGTGTGGACTCGGGCATATGATGGGATTGGATGTACACGATATGGAAGATCTTGGAGAACAATATATTGGCTATACCGAAGCAGAGCCCAAAGATACCAAAACATTCGGGCTTAAATCTTTACGTTTAGGTAAAGAACTGGAATCCGGCTTTGTAGTAACGGTTGAACCCGGTATTTATATGATTCCGGAACTGATAGATATGTGGCAGGCTGAAAATAAAAATGCAGACTTTATTAACTATGATACAGTCAATGAATACCGGAATTTCGGAGGAATCCGTGTAGAAGATGATTTCCTGGTTACAGATAACGGCTACAGACTCCTTGGAAACGGTTTGATTAAAACCGTTGAAGACATTGAAAATTACAGAGCTGAACATTTAGCATAA	MFSAQTYQDRRSVLQRTVSNGILLFLGNIENPVNFEHNPYYFRQDSTYLYYFGIQEPRIAAIIDIDDNKTIVFGDELSIDDIVWMGRQETLKEKSLKSGVQGTLPYAELSQYIAKTKASGRKVHYLPPYQSSNKILLADLLGIKITELQPSVEMIKAIVKQRSIKEPQEIVQIEQAVNVSNEMHLLAMRLAKPGMKEYEIANAIQYFAANKECQMSYPPIVTINGGILHNHYRLNTMKEGDLFLNDSGAETSMGYAGDLTRTFPVSKTFTTKQKEMYEVVLNAFNQAQNLLKPGIRFKDIHLKAAQHLVEGLIDLGLMKGNPEDAVKNHAHTLFFQCGLGHMMGLDVHDMEDLGEQYIGYTEAEPKDTKTFGLKSLRLGKELESGFVVTVEPGIYMIPELIDMWQAENKNADFINYDTVNEYRNFGGIRVEDDFLVTDNGYRLLGNGLIKTVEDIENYRAEHLA	PGPT0006770_3663	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
BMS003_01402	885	rhaR_6		HTH-type transcriptional activator RhaR	ATGATGAAGAGTCTCCAGTTTTCTGTTCCTGCCGATACCAACAAAAGTATCCGCATTCAGGAAGATATAATGCCTAATTTCTATCCTTATTTCCACCGTCATACAGAAACACAGATCATGTGGATTCTTAAAGGCCATGGAACACTGGCCATAGAACAGAATCTCTTTAATTTTGAAGCAGGTGATATTTTCTATCTGGGAGCGAATCAATCTCATGTATTCAGAGGTAATTTTGAGAAAAATGAAAAACAGAAGGTTCATTCCATTTCTATTTTTTTTGATCCTCATAAAAAGATCGCTGCATTTTTCGACTTGCCGGAGTTTGAGGAACTTAAAAATTTTATCAATCAGTCAGAAGTAGGCTTTCAGGTAGCTTCCAAACTAAAAAAAAATATCGCAGAAGATATTGCTGCACTGCAAAAGACAAAAGGAGTGGATCAGATTATCGATTTTATAAGAATTTTAAATCATCTGATGCAAAACAGGCATTTGCATATTCCGTTATCTTCAGAAAAGAATCTGCCTAATCCTATTTCTGATACGGATCAAAGAATTATAGATGCACAGACTTTTATCAAGAAAAATTTTGCCCAGCATAAACTAACCCTTGACCTCATTGCCAAAGAAGCCTGTATGACACCTCAGGCTTTTTGCCGGTCTTTTAAAAAACGTACCCGCATTACTTATATTGAATACCTCAATGAACTTCGTGTACAACGGGCCTGCAGACTATTAACTGCCAGTAATATGTACAGTATTTCTTCTGTTGCGTTTAATAGCGGTTTCAATAGCCTTACCAATTTTAACCGGGTCTTCAAATCCATTATGAAATATTCTCCTAAAGAATACCTGAAGCACTACAAAGAGGCTACTATAGAGCAATAA	MMKSLQFSVPADTNKSIRIQEDIMPNFYPYFHRHTETQIMWILKGHGTLAIEQNLFNFEAGDIFYLGANQSHVFRGNFEKNEKQKVHSISIFFDPHKKIAAFFDLPEFEELKNFINQSEVGFQVASKLKKNIAEDIAALQKTKGVDQIIDFIRILNHLMQNRHLHIPLSSEKNLPNPISDTDQRIIDAQTFIKKNFAQHKLTLDLIAKEACMTPQAFCRSFKKRTRITYIEYLNELRVQRACRLLTASNMYSISSVAFNSGFNSLTNFNRVFKSIMKYSPKEYLKHYKEATIEQ				NA	NA	NA	NA	NA
BMS003_01403	924	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGTACAAAACTAAACTGGGAAGGTATTTATCCCGCTGTATTAACGCCTTTTACAAAAGAAGGTGAGATAGACTTTGACATGTTTGCTATCAATACAGAAGCCCAGATTAAAGCAGGTGTTCACGGGATTATCCTTGCAGGAACATTAGGAGAAGCCAGTGCTTTGGAAACAGAAGAAAAATTTGCACTGCTGAAATACGCAAAAAAGATAACGCAGGGAAGAATTCCTGTTATTCTTAATCTTTCTGAAAACACTACCAAAAATGCTATCAACTTTGCCCAGAAAGCCAAAGAATTTGGAGCAGACGGGCTTATGCTTCTTCCGCCAATGCGCTACAAAGCCGATAACCATGAAGTTGTTGAGTATTTTAAAGCAGTAGCTTCTGCTACAGATATTCCTATCCTTATTTATAACAATCCCATAGATTATGGAATATATGTTTCCCTTGAAATGTTTGAGGAGCTTATTGAATATCCGACCATTCAGGCTGTAAAAGAATCGACAAGAGATCTGGCGAACGTAACCAGAATGATCAACCGTTTTGGAAAAAGGATCAAAATTCTTGGAGGAGTAGATACTATCTGTCTGGAAACCCTGATGCTTGGAGCAGACGGTCTTGTGGCGGGTCTTGTAGATGCGTTTCCTAATGAAACCATGGCGATGTACAACCATGTGAAAGCCAATGAATATGATAAAGCTGTAGCGATCTACAGATGGTTTATGCCATTACTGGAGCTGGATATTCACCCTAAACTTATCCAGTATATTAAACTGGCTGCAACAGCAGAAGGGATAAGCAATCCGTATGTAAGAGCTCCGCGTCTTGAACTTCATGGCAAAGAAGCTGAAAAAATTCAAAAAATCATTGAAGAAGGCAGAGCTAATCGTCCCGTATTATTAATTCCAGAACAACAAATATGA	MSTKLNWEGIYPAVLTPFTKEGEIDFDMFAINTEAQIKAGVHGIILAGTLGEASALETEEKFALLKYAKKITQGRIPVILNLSENTTKNAINFAQKAKEFGADGLMLLPPMRYKADNHEVVEYFKAVASATDIPILIYNNPIDYGIYVSLEMFEELIEYPTIQAVKESTRDLANVTRMINRFGKRIKILGGVDTICLETLMLGADGLVAGLVDAFPNETMAMYNHVKANEYDKAVAIYRWFMPLLELDIHPKLIQYIKLAATAEGISNPYVRAPRLELHGKEAEKIQKIIEEGRANRPVLLIPEQQI				NA	NA	NA	NA	NA
BMS003_01404	1491			Alpha-ketoglutaric semialdehyde dehydrogenase 2	ATGATAGAAGAAACATCAACACAAAATATTGATAAAAGAATCCAGAGGGCTGCTGAAGCCTTTCAGTTTCTTAAAAACACGACCGTCACTGAACGGGCAGAATTTATGAATGCTGTCGCTGATCGGATTGAAGCTTTGGGAGAAGAACTTTTGACAGTTACTCATGCCGAAACTTCATTGCCTTTATCCAGACTTATTGGTGAAAAAGCCAGAACTGTAGGACAATGGAGAAGCTATGCAAAAGCTGTTGCTTCCGGGATATATACAGAAGCCAGAATTGATCTTGCCCAGCCTGAAAAACAAAAAGGAGATCTTAGAAAATACAATGTAGGCATTGGACCTGTTGTTATTTTCGGAGCCAGCAATTTTCCATTTGCATTTTCTACTGCTGGAGGAGATACTGCCAGTGCTATCGGTGCAGGTTGTCCTGTCATTATAAAAGCACATCCGGCACATCCTCAGACTTCACAAATGATGGCTGATGCTATAAGTGCGGTTGTTACAGCCTTTGGATGGCCTGAAGGAGTTTTTAGCCATATTACCGGAACATCCTATGAAATCGGAGCTTATTTAGCTCAGCATAAAGACATCAGGGCTGTTTCGTTTACCGGTTCTTTCCAGGGTGGAAAGGCTCTGTTTGATATAGCAAACCGTCGTGAAAATCCTATTCCGGTATTTGCAGAAATGGGAAGTATCAATCCTGTATTTGCTTTTCAAAACTTGCTTGAAAACAAAGCAGAAACATTAGCCAAAGAATATATTGCTTCTTTAACGTTAGGAGCAGGACAGTTCTGTACCAATCCGGGAGTGTTTATTGCTTTGAAAGGGAAACCGCTTGACCGCTTTACCAATGTATTAAAAGAAGAAGTTCAAAACGTGAATCCCGCTACAATGCTTCACAAAGGAATATTGGAAAGTTTTGAAAAAAACAGAAAAAATGCAATAGAACAGGTTGATGTTGAAATGATTACATTGGAAAATACAGAAACAGTAGATTATAAGGTAAGTGCTTCAGTGATAAAGACAAATGCCAAAACATTCCTGAATAATCCTGTATTGAGTGAAGAAGTCTTTGGTCCGTTTGGTGTTGTTGTAGCGTGTGAAACAGACGAAGAACTCATGAAAATTGCCCAAGAATTAAAAGGACAGTTGACAATTACTGTAGCCGCTACCCATGAAGATGTACGTAGTAATGATACACTGATCCATATTCTCAAAGATAAATGCGGAAGGCTACTATTCAATGGAATGCCTACAGGAGTGGAAGTTGTGTACGCCATGCAGCATGGTGGTCCGTTTCCTTCTACTACCGATTCCCGTTTTACCTCTGTAGGACCGGATGCTGTCAAGCGGTTTGTTCGTCCAATTTCTTTCCAGAACTGGCCGGATGAATTTCTACCCGAAGAGCTTAAAAATGACAATCCGTTACAAATAAGCAGAATGGTGGATGGAGCAATGAATTCAGAATCATTAAAATTACAGACAACATGA	MIEETSTQNIDKRIQRAAEAFQFLKNTTVTERAEFMNAVADRIEALGEELLTVTHAETSLPLSRLIGEKARTVGQWRSYAKAVASGIYTEARIDLAQPEKQKGDLRKYNVGIGPVVIFGASNFPFAFSTAGGDTASAIGAGCPVIIKAHPAHPQTSQMMADAISAVVTAFGWPEGVFSHITGTSYEIGAYLAQHKDIRAVSFTGSFQGGKALFDIANRRENPIPVFAEMGSINPVFAFQNLLENKAETLAKEYIASLTLGAGQFCTNPGVFIALKGKPLDRFTNVLKEEVQNVNPATMLHKGILESFEKNRKNAIEQVDVEMITLENTETVDYKVSASVIKTNAKTFLNNPVLSEEVFGPFGVVVACETDEELMKIAQELKGQLTITVAATHEDVRSNDTLIHILKDKCGRLLFNGMPTGVEVVYAMQHGGPFPSTTDSRFTSVGPDAVKRFVRPISFQNWPDEFLPEELKNDNPLQISRMVDGAMNSESLKLQTT	PGPT0018165_1357	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
BMS003_01405	999		COG3938	4-hydroxyproline 2-epimerase	ATGAACAGAACATTTTTTTGTATAGATTCTCACACCTGTGGATGTCCTGTACGTCTTGTTGCAGGTGGTGCTCCTATTTTAAAAGGGAATTCCATGATGGAACGCCGGCTTCACTTCATGAAAGAATACGACTGGATACGAAAAGGATTGATGTTTGAACCTCGTGGTCATGATATGATGAGTGGAAGTATCCTATATCCTCCTGTAGATGAAAATAATGATATTGGAGTTCTGTATATTGAAACCAGCGGATGCCTTCCCATGTGCGGACATGGTACTATTGGAACGGTTACCATTGCTATTGAAGAAGGGCTTGTTGTTCCTGAAATTCCGGGAAAATTACGTCTGGAAACCCCAGCAGGACTTATTCTCATCGATTATATACAGGAAGGGAAAAAAGTAAAATCGGTAAAACTGACGAATGTAAAGTCTTTTCTGTATGCTGAAAACCTTGAAGTTGAATGTCCGGATCTGGGATTAATAAGTGCCGATGTAGCTTATGGCGGAAACTTTTATGCCATTATAGATCCTCAGGAAAACTTTAGAGATATTTCTGATTTTACAGCCAGCCAGCTCATCCATTATGGAAAACTCATCAGAAAACTACTCAATGAAAAATATACATTCATTCATCCGGAAATTGAGCACATTACCGGATTAAGCCACATTCAGTGGACAGGCAACCCTACAGATCCTAAAGCCAGCGGAAGAAATGCAGTATTGGTGGGTGAAAATGCTTTAGACCGTTCACCTTGCGGAACGGGAACTTCGGCAAGAATGGCACAATGGTATGCTAAGGGAAAACTGAAAGAAGGTGAAGAATTCATTCATGAAAGCTATATCGGTTCACAGTTTATCGGGAGAATTGAAGGAACCACTACTGTTGATGGAAGACCAGCCATTATCCCTTCAGTAGAAGGCTGGGCCAGAATTACCGGCTATAATCATATTATTATTGATGATGAAGATCCTTATTGGCAGGGTTTTCAGGTGATGTAA	MNRTFFCIDSHTCGCPVRLVAGGAPILKGNSMMERRLHFMKEYDWIRKGLMFEPRGHDMMSGSILYPPVDENNDIGVLYIETSGCLPMCGHGTIGTVTIAIEEGLVVPEIPGKLRLETPAGLILIDYIQEGKKVKSVKLTNVKSFLYAENLEVECPDLGLISADVAYGGNFYAIIDPQENFRDISDFTASQLIHYGKLIRKLLNEKYTFIHPEIEHITGLSHIQWTGNPTDPKASGRNAVLVGENALDRSPCGTGTSARMAQWYAKGKLKEGEEFIHESYIGSQFIGRIEGTTTVDGRPAIIPSVEGWARITGYNHIIIDDEDPYWQGFQVM	PGPT0014235_342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014235-lphA-K12658	NA	NA
BMS003_01406	1266	dadA_2	COG0665	D-amino acid dehydrogenase	ATGACACAGAATAAAGGAAAAGCACTGATTATCGGTGCAGGAATAGCAGGACTAAGCTCAGCGTATTACCTTTTACAGAAAGGATGGCAGGTGGAAATTCTGGAACAAAATGACCTTACCAACAACTGTTCCTATGGGAATGCAGGAATGATTGTGCCCAGCCATTTTATCCCATTGGCAGCACCGGGAGTCGTTTCTCAGGGAATACGCTGGATGTTTGACAGTAAAAGTCCGTTTTATGTAAGGCCTACACTCAATTCTAAACTAATCTCCTGGGGATTGAAGTTTTTGAAACATTCCAACCAGAAGCATGTTGATCATTCTGCGGCAGCCATCAGGGATCTCAACCTGGCAAGCAGCAGGCTTTATAATGAGATTGCAGGAAAAGACGAATTTGATTTTGAGTTGAATCAAAATGGTATTCTAATGCTCTATAAAACAGAGAAAGTAGCAGAAGAAGAGATAGAACTGGCTTACAAAGCCATCAATATGGGATTACCTGTTGATATTCTGGATCAATCAGAAATTCAGGAGCTGGAGCCCAATACTCAGTTGGATGTTATCGGAGGAATCAATTATAAATGCGACGGCCATATGAATCCTGTAAAGTTGATGAAACAAATGATCTCTTATCTAATAAACAAGGGTGTCATTTTCCATACTCACCATCAGGTAACAGGCTTTAAAACTTTTGGAAATACTATTAAAACAGTCATTGCCAATGGTAAGGAATTTACCGCAGACCAATTTATCATGACCGGAGGTTCATTCTTACCTGAGCTTGCTCAAAAAGCAGGTATTAAAATTCAATTAATGCCTGGAAAAGGGTATTCATTGATGCACCAACCGGAAAACCCTCTCAATACATTGGAGCATGCCGCTTTATTACTCGAAGCCAGAGTAGCAGTCACTCCTATGAACGGACAGATCCGTTTCGGCGGAACTATGGAGCTGGCTTCCCATCAGGATAAAATTAATATGAAAAGGGTAGAAGGAATCATCCAATCCATTCCCAAATATTTACCCGATTTCAAGGTTGAAATTCCGAAAGAATCAGAAATCTGGTTTGGGTACAGACCCTGCGCACCGGATGGACTTCCTTACCTGGGACAGTCTTCCAAACTCAAAAACCTGATTATTGCAGGCGGTGGCGGAATGATGGGACTAAGCTTAGGACCCATTTTTGGAAAAACAGTTTCAGAACTTGCCAATGACCAAAAGCCAACGGTTGAGATAAAGATATTCAACCCTGAAAGATTTAGTTAA	MTQNKGKALIIGAGIAGLSSAYYLLQKGWQVEILEQNDLTNNCSYGNAGMIVPSHFIPLAAPGVVSQGIRWMFDSKSPFYVRPTLNSKLISWGLKFLKHSNQKHVDHSAAAIRDLNLASSRLYNEIAGKDEFDFELNQNGILMLYKTEKVAEEEIELAYKAINMGLPVDILDQSEIQELEPNTQLDVIGGINYKCDGHMNPVKLMKQMISYLINKGVIFHTHHQVTGFKTFGNTIKTVIANGKEFTADQFIMTGGSFLPELAQKAGIKIQLMPGKGYSLMHQPENPLNTLEHAALLLEARVAVTPMNGQIRFGGTMELASHQDKINMKRVEGIIQSIPKYLPDFKVEIPKESEIWFGYRPCAPDGLPYLGQSSKLKNLIIAGGGGMMGLSLGPIFGKTVSELANDQKPTVEIKIFNPERFS	PGPT0020315_1445	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
BMS003_01407	2145			hypothetical protein	ATGAAAAAATTTAAATTACTACTAATTGTTTCCCTATTTCCAATAATAGGTTTTGCTCAGGAAAACAGACCTCGTGAGTGTAAAGCAGATGAAATGATGAAAAAACATTTTGAACTGCATCCTGAATCAAAGGCTGAATATGAAAAATTTGAAAAATACACTCAAGATTTCATAAAAAAAATGAGATCAGACAAAAATTCATTGAATAAGTCAATCAATAATCCAACCTACATTATCCCTGTGGTTTTCCATGTGTATGGAGAATCTCAAAGTAATGTAAAAGTAAATTACCAAAAAGTAGTCGACTTACTGGAACAAATCAACTTAAATTTCAATGGCATCAACACTGATTCAAACACTGTAGATCCTGACTTCCAATCTATCAGAGGAGCGTTAAGCATTGAATTTCGCTTAGCTAAAATTGATCCAACCGGAAAAGCAACAAGTGGAGTGGTATTTCACCCTTTCAAAGGTGGATATGGCAATGGAGGCGGATACGATACAGAAATTGGCTCAGATGCATGGGATAATTCAAAGTATATGAATGTATATATCCAAAATGACCTATATGCTGATAAAGATTTATACCAATCAGGAGTGGCATGGTATCCGGATTCATATATGACTTCAGTAAATACGGCGAGGGTTGTGTATAATGGGCGTTATATATTTGATGCCGCAGGAACAGTATCTTCAAACGAGTTTTCTGATACATTCACTCACGAATTTGGACATTGGTTGAATCTTCAACACACGTTCAATGTTCTTTGTTCAACTGCAAACCCAGGTAATGATGGTGACGGAGTTGCTGACACCCCTGTAGAAAATAATTCTTCCGGATTAGGATGTACAGCCGGCAACAATTGTCTTGGACAAAAAGTAAACGTTGAAAACTATATGGGATACAACGGTTCTGCCGGTTGTTATAAAATGTTTACCAATGGACAGGTTAACAGAATGCTGGCAGCATTAAACCATCCTTCAAGAATAAATTTATGGCAGCCTGCCAACTTAGCTGCAACCGGAGTTGCTAATACTCCACCTAGGCTAACCCTTAGCAACAGTACATTTACAGAAAACTTAGACAATAATGGTAGGGTGTCATTAGATGGAACAGTAGCCTCAGCTCCTAAATCAACAATTACATTAAATTCAGCAACATTTGCCGTACCAAATGGAACAACTCTTACTGCAGGAACACATTTTACTTCTTCATTACCAGCAGGACTAACAGCAAGTATAGTAGTTACAAGCCCTACTACTGCTGCACTTACCATAAATGGTGCTGCAACCAGTCACCCTAAAAGCCAGGTCCTGAATTCATCAATTACATTCCTGAATCCGGCTATAACAGGAGGCACAACTTCACTAGGGTCAACGACAGCTTTGGCATTAACTTTTTCTTATAAAGATCCTTATAAAATAGTTACAGGAACTCCTCTGGAAAGCTATGCCAACCCAACACCAACAACCGTAACAACCAACTCCGGAGCACCTTGGAAATATTTTATCATTAACCCGGAACTTAGTGATGATGCAGGATATGGTGCTTGGTATTATGCTGCCAATCAATTAAAATTGGAAACCTACTGGAAAGGATTAGTTTGCGAAACAGGAACACGAAATATCAGTTTAATTCCGGCTTGTACCACCATAACCAATGCAAATAATATAGGGTATCCAACTTGGACTCCCGGACAACTGGATGTGTATACTCCTACCTATACTACCTGGTCCGGAAAAACAGCTTATGTTGGTTTTAGAAATCAATTCGATGGCTACAGCATTAACGGTTATTTCAAAGTGATTGTGGGGGCAAATGGTTCAAATTATTCTGTCACTGCGTTTGCATATAATACACAACCATATGGCAGTATTACAACACCTTGTACACTATTATCCACTGCAGACGTTGATACAACAAACACAGAAACATCTATCTATCCAAATCCGGTCTCTGATGTATTGACAATTAAAACAAAAGGTGAAATTAAATCAATTTCTGTTTACAACATGTTTGGAAGAAAAATGAATGCTAAAATTATTGGTGATAAGGTTGATGTTAAAAACCTCCTAAGCGGAACTTATTTAATTGATATTGAAACTTCTTTAGGAAAGTCTTCTCAGAAATTCATTAAAAAATAG	MKKFKLLLIVSLFPIIGFAQENRPRECKADEMMKKHFELHPESKAEYEKFEKYTQDFIKKMRSDKNSLNKSINNPTYIIPVVFHVYGESQSNVKVNYQKVVDLLEQINLNFNGINTDSNTVDPDFQSIRGALSIEFRLAKIDPTGKATSGVVFHPFKGGYGNGGGYDTEIGSDAWDNSKYMNVYIQNDLYADKDLYQSGVAWYPDSYMTSVNTARVVYNGRYIFDAAGTVSSNEFSDTFTHEFGHWLNLQHTFNVLCSTANPGNDGDGVADTPVENNSSGLGCTAGNNCLGQKVNVENYMGYNGSAGCYKMFTNGQVNRMLAALNHPSRINLWQPANLAATGVANTPPRLTLSNSTFTENLDNNGRVSLDGTVASAPKSTITLNSATFAVPNGTTLTAGTHFTSSLPAGLTASIVVTSPTTAALTINGAATSHPKSQVLNSSITFLNPAITGGTTSLGSTTALALTFSYKDPYKIVTGTPLESYANPTPTTVTTNSGAPWKYFIINPELSDDAGYGAWYYAANQLKLETYWKGLVCETGTRNISLIPACTTITNANNIGYPTWTPGQLDVYTPTYTTWSGKTAYVGFRNQFDGYSINGYFKVIVGANGSNYSVTAFAYNTQPYGSITTPCTLLSTADVDTTNTETSIYPNPVSDVLTIKTKGEIKSISVYNMFGRKMNAKIIGDKVDVKNLLSGTYLIDIETSLGKSSQKFIKK	PGPT0022155_2738	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
BMS003_01408	492			hypothetical protein	ATGAAATATAAAAACGACACCATCACTATCCGTGAATTTACTCCTGAAGAATTCCCTTTATTCTCTACTCTTTTCAAAAATGAAAATGTAACCCGGTATCTTCCGTACAAAACCCAGGAAGAATACAAAGAAATGTTTGACAAAGCATTGGCAGATTACCAAGAAAGTCCATTCAGCAGATGGGGAATATTTAATTCCGAAAACCATGATTTTGTAGGAATGTGTCTTGCCAGAATCTTTCTGGATCATCCGGAACAGGTAGAAATAGGGTATACCTTAGGAGAAAGTTACTGGGGAAAAGGCCTGGGAACAGAAGTCTGTAAAGCGCTTGTTGACTATTGTATTTCGTTGGATCCTCATAAAGATATTGTTGCGGTAACCGACCTTGATAATATCGGATCTCAAAAAGTACTTCTGAAAAGCGGTTTCAGCAGAACTGAAAACCTTGTACGAGAGAATGAAGAACTGGCTTACTTTATTTTACAGAACTAA	MKYKNDTITIREFTPEEFPLFSTLFKNENVTRYLPYKTQEEYKEMFDKALADYQESPFSRWGIFNSENHDFVGMCLARIFLDHPEQVEIGYTLGESYWGKGLGTEVCKALVDYCISLDPHKDIVAVTDLDNIGSQKVLLKSGFSRTENLVRENEELAYFILQN				NA	NA	NA	NA	NA
BMS003_01409	417	iscR		HTH-type transcriptional regulator IscR	ATGATGTCGAAACGTTGCAAATATGCGCTTAAAGCAATGGTCAGATTAGCAAGGAATTATAACCAGGGCTTTCTGCCAACTTCCGTTATTGCACAGGACGAAAACATTCCCAAGAAATTTCTGGAACAGATTCTTCTCGAACTTAAAAGAGCCAAATTGGTCAACAGTAAGCAGGGTAAAGTAGGTGGATATTATCTCCTGAAATCACCTGATGATGTCTCATTAGCAGATATTTACCGTATTTTCGATGGTCCCATTGCGCTTACCCCATGTGTTTCTTTAAACTTTTACGAAGCATGTGACGACTGTGTAGACGAAGCAGTCTGTTATCTGAGAAAAGAATTAATGATCGTTCGTGAGAAGACCAGAAAAAGCATGATGGAAGCCACTCTTACTAAATTTATTAACAAGAGGTAA	MMSKRCKYALKAMVRLARNYNQGFLPTSVIAQDENIPKKFLEQILLELKRAKLVNSKQGKVGGYYLLKSPDDVSLADIYRIFDGPIALTPCVSLNFYEACDDCVDEAVCYLRKELMIVREKTRKSMMEATLTKFINKR				NA	NA	NA	NA	NA
BMS003_01410	714	cysH		Thioredoxin-dependent 5'-adenylylsulfate reductase	ATGAATAACAGTCTGGAACATGAATACGAAAAACTTGTAAAAGAGGCTAGTGGAGCTTCTTTTGAAACGAATGGGCTTGAAATACTGACTGAAAAATTCCCGGGTAAAGTGATTTTTTCAACCAGTTTCAGTTACGAAGATCAGGTCATCACTCATCTGATAAAAGATTTAAATATTGAAATATTCACCCTGGATACAGGAAGGCTTTTTGAACAAACTTATGAAACATGGACTTCCACCAAGGCTTTTTTTAAAAAGAACATCAAAGCTTATTATCCGGATACGGAAGAACTCAGAGATTTTGTCACAGAAAATGGTCCTGATTCTTTCTATCAATCCGTAGAGAAAAGGAAAGCATGCTGTACCATCCGTAAGGTTCATCCTTTAAAAAAAGCACTGGAAGGATATAAAGTCTGGATTACCGGTCTGAGAGCCGAACATTCTCCCAATAGACAGAATATGCCTCAGCTGGAATGGGATCCGGATAACAGGATCATAAAATTTCATCCCATCCTTCACTGGACCACAGAACAGGTGACAGCGTATGTAAAGGATCATCATTTACCTTACAATCATCTTCACAAAAAAGGATTTGTAAGCATAGGATGTGAACCCTGTACCAGAGCGATCAAAGAAGGGGAAGATTTCAGAGCAGGCCGTTGGTGGTGGGAAGATGCCAACAAAAAAGAATGCGGTCTGCATATTCATCAATAA	MNNSLEHEYEKLVKEASGASFETNGLEILTEKFPGKVIFSTSFSYEDQVITHLIKDLNIEIFTLDTGRLFEQTYETWTSTKAFFKKNIKAYYPDTEELRDFVTENGPDSFYQSVEKRKACCTIRKVHPLKKALEGYKVWITGLRAEHSPNRQNMPQLEWDPDNRIIKFHPILHWTTEQVTAYVKDHHLPYNHLHKKGFVSIGCEPCTRAIKEGEDFRAGRWWWEDANKKECGLHIHQ	PGPT0002785_2702	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS003_01411	909	cysD	COG0175	Sulfate adenylyltransferase subunit 2	ATGTCGATACATCAGTTAAACTATTTAGATCAGTTAGAAGCCGAATCTATTTATATATTAAGAGAAGTAGCAGGTCAGTTTGAGCGTCCGGCTTTATTATTCAGTGGAGGAAAAGACAGTATTGTACTGGCTCATCTAGCGAGAAAAGCTTTCTTTCATGGGAAAATTCCTTTTACGTTTGTGCATGTAGACACCGGGCATAACTTTCAGGAGGTATTGGATTTCCGGGATCAGCTGGTAAAACAGTTAGACGTGAATCTGGTAGTCAGAAAAGTGGAAGATACTATAAAAAGTAAAAAACTGACTGAGGCTAAAGGTAAATTCCCAAGCAGAAATTGGCTGCAAACCTACACGCTTCTTGATACGATTGAAGAATTTGAATTCGATGCCTGCATAGGAGGTGCCAGACGAGATGAGGAAAAAGCCCGTGCTAAAGAAAGAATCTTCTCAGTCCGTGATGAATTCGGGCAGTGGGATCCTAAATTGCAGCGTCCTGAGCTTTGGAATATTTTCAACGGAAAAATCCACAAAGGAGAAAATGTAAGAATTTTCCCTATCAGCAACTGGACAGAGCTTGACATCTGGAACTATATCCGAAGAGAAAAAATAGCACTCCCTTCCATCTATTTCTCGCATGAAAGAGAAGTAATTGACTTCAACGGACAGTGGCTTGCCAATTCTACACATGTCGTATTGGAACCGGAAGACATTATCACCACCAGAAAAATACGTTACCGTACCGTAGGAGACATGACCTGCACTGCTGCAGTTGAGTCCAGTGCTGTAACAATAGATGCTGTCATAGAAGAAATAGTAGCCACCAGAATTTCAGAACGTGGCGAAACCAGGATAGACGACAGGGTAACAGAAGCCGCCATGGAAGACCGAAAAAAAGGAGGCTATTTTTAA	MSIHQLNYLDQLEAESIYILREVAGQFERPALLFSGGKDSIVLAHLARKAFFHGKIPFTFVHVDTGHNFQEVLDFRDQLVKQLDVNLVVRKVEDTIKSKKLTEAKGKFPSRNWLQTYTLLDTIEEFEFDACIGGARRDEEKARAKERIFSVRDEFGQWDPKLQRPELWNIFNGKIHKGENVRIFPISNWTELDIWNYIRREKIALPSIYFSHEREVIDFNGQWLANSTHVVLEPEDIITTRKIRYRTVGDMTCTAAVESSAVTIDAVIEEIVATRISERGETRIDDRVTEAAMEDRKKGGYF	PGPT0002405_2018	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
BMS003_01412	1239	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGGATATATTAAGATTTATAACAGCAGGAAGTGTAGATGACGGTAAAAGTACCCTTATCGGCAGACTGCTTTACGATAGCAAAAGTATTTTACAGGATCAGTTGGAAGTCCTTGAAAAACATTCAAAAAACAAAAATGAAGACGGGGTAGACCTTGCTCTTTTAACGGATGGTCTGCGTGCAGAAAGAGAACAGGGAATCACTATTGATGTTGCCTACCGTTATTTTTCAACCGCAAAAAGGAAATTTATTATAGCTGATGCTCCCGGGCACGTGCAGTATACCCGTAATATGATCACCGGAGCATCCAACTCTGATCTGATGGTTATTCTGATTGATGCCCGAAAAGGGGTGATTGAACAGACCAGAAGACATTCCATCATCGCTTCTTTATTACAGTTGAAAAAAGTAGCTGTAGCCATTAATAAAATGGATATGGTAGATTATTCCGAAGAAGTTTTTGAAAATATAAAATCAGAATATACAAAAATTGCAGAAAATCTGGGTTTAAATGATGTCAGTTATTTCCCAATTTCAGCATTAAAAGGAGATAATATCGTTTCAACATCTTCGAGGACAGAATGGTACGAAGGAAATTCTCTTCTGGAATATCTTGAACAAGTAACACTGCATGAAGAAAAAAATAACGGAAGCCGTTTTCAGGTTCAGTACGTGATTCGTCCTCAGACTGAAGAATTGCATGATTACAGAGGATATGCCGGACAGATATTAAGTGGAAAGTTTACAAAAGGTGATAAAATCCATATTCTTCCTGCGGATCTGACCACTGAAATTACCAAAATTGAGATCAATGGTATTGAAAAAGACGAAGTTTTTGAAGGTCAACCAGCCGTTATCCACTTGGCTCACGATGTAGATATCAGCAGGGGAGATATTTTTGCCACGGAAGAACATGTTCCCACGGTTGAAAAAGACCTTGAAATTCTTTTATGCTGGCTGGATCAGAAACCGTTGCAACCAGGAAATAAATACCTTCTGCAGCAAAACAGCAGACTTGTCAAAGCCGTTGTAAAAGAAGTAGATTACAAGATCAATGTGAATACTCTTATAAGGGAACAGGCCGATGGTGAAATTAAACTGAATGAAATTGTAAAAGTTACCCTGCGAACGGCACAGCCTTTGGTCTATGACAGCTTTACCAATAACAAAACAACGGGCTCTGCCATTCTGGTGGATGAAACGTCCAATTCAACGGTAGCAGCCTGTATAATTCAATAG	MDILRFITAGSVDDGKSTLIGRLLYDSKSILQDQLEVLEKHSKNKNEDGVDLALLTDGLRAEREQGITIDVAYRYFSTAKRKFIIADAPGHVQYTRNMITGASNSDLMVILIDARKGVIEQTRRHSIIASLLQLKKVAVAINKMDMVDYSEEVFENIKSEYTKIAENLGLNDVSYFPISALKGDNIVSTSSRTEWYEGNSLLEYLEQVTLHEEKNNGSRFQVQYVIRPQTEELHDYRGYAGQILSGKFTKGDKIHILPADLTTEITKIEINGIEKDEVFEGQPAVIHLAHDVDISRGDIFATEEHVPTVEKDLEILLCWLDQKPLQPGNKYLLQQNSRLVKAVVKEVDYKINVNTLIREQADGEIKLNEIVKVTLRTAQPLVYDSFTNNKTTGSAILVDETSNSTVAACIIQ	PGPT0002400_1872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002400-cysN-K00956	NA	NA
BMS003_01413	831	dapH_1		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGGCAATTTCCGATCAATTAACAGAGAGAATTCATCAGACCAAGCAAAATAATATTCATGGATTCTTTGATAAAATAAAGACCAAAAAATGGGTGAAGGATTTGTATGAAACACTTTTCCTTCCTCAGAATGATAATACGGAAGATCAGCTGAAAAGAAATTTTGAAGCCCTTCAGGAAACTATTTCAGACCTTATCAATACGGTAACAGGAGATAAAATCCTTACTGAAAAACAGGTCAGTCAGTTTTTTGAAGCCGTGCCGGAATTATATGATCAGCTGGTTCTGGATGCAAAATCCATTTTGGAGTTTGATCCTGCCGCCGATTCTCTGGAAGAAGTCTACCTGGCATATCCCGGCTTTTTTGCCACGTATGTCTATCGTATCTCGCATCAGCTCTGGAGTCAGGAAGTGAAAATTTTACCAAGGGTCATCTCAGAATATGCCCACAGCAAAACCGGAATTGATATTCATCCGGGAGCAACGATTGGAAAGTCTTTTTTTATTGACCACGGGACAGGAATTGTGATCGGAGAAACAACCGTTATCGGTAACAATGTCAAAATCTATCAGGGAGTAACCCTCGGAGCATTGAATGTTTCCAAAGAAAAAGCTCACCAGAAAAGACATCCCAACATAGAAGATGATGTAATTATCTATTCGGGAGCAACCATTCTTGGAGGTGAAACAACGATTGGCAGAGAAAGTATTATCGGAGGAAATGTATGGGTTACACAGGATGTTCCGGCCAACTCTCTGGTTTATCATAAAAGCGAAATAAAAATAAAGGATAACAGTTCATTACCGGAATCATTAACCTTTGTAATTTAA	MAISDQLTERIHQTKQNNIHGFFDKIKTKKWVKDLYETLFLPQNDNTEDQLKRNFEALQETISDLINTVTGDKILTEKQVSQFFEAVPELYDQLVLDAKSILEFDPAADSLEEVYLAYPGFFATYVYRISHQLWSQEVKILPRVISEYAHSKTGIDIHPGATIGKSFFIDHGTGIVIGETTVIGNNVKIYQGVTLGALNVSKEKAHQKRHPNIEDDVIIYSGATILGGETTIGRESIIGGNVWVTQDVPANSLVYHKSEIKIKDNSSLPESLTFVI	PGPT0020265_1715	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
BMS003_01414	912	cysK		Cysteine synthase	ATGAAATTTCAGAATGCATTGGAAACGATTGGTAATACACCCGTCGTAAAAATTAATAAACTCTTCAGTTCAGATCATGAAGTCTGGATCAAACTTGAAAAAAACAATCCTGGAGGAAGCATTAAAGACAGAATTGGCCTGGCCATGATAGAAGATGCAGAAGCTAAAGGATTATTAAATAAAGACAGCGTTATCATAGAGCCTACCAGCGGAAATACAGGAATAGGACTCGCTTTGGTAGCTGCCGTAAAAGGATATAAGCTCATCCTTGTCATGCCGGAAAGCATGAGTATAGAACGCCGCAAAATCATGGAAGCTTACGGAGCAGAATTCGTGCTTACTCCAAGAGAAAAAGGAATGAAAGGCGCTATTGAAAAAGCCAATGAACTGGCTGAAGAAACCCCTAATTCATGGATTCCGAGACAGTTTGACAATCCTGCCAATGTAAAAGTACACGTAGAAACAACTGCTCAGGAAATTTTAAAAGACTTCCCGGACGGTCTGGATTATATCATTACAGGAGTAGGAACCGGGGGACATATCACCGGAATAGCAAAAACAGTAAAAGAAAAATATCCTAATGTAAAAGTAATTGCTGTAGAACCGGAATTATCTCCTGTACTAAGCGGAGGAAGCCCGGCACCACATCCGTTACAGGGATTAGGAGCAGGCTTTGTACCATCCATCCTGGATATTACTCTTTTGGACGGAGTGATTACAGTAGGCAAAGAAGAAGCTTATGAATATGCTCTTAACGCTGCTAAAAAAGAAGGCCTTTTTGTAGGAGTTTCCACAGGAGCCGCTTTAGCAGCCATTGCCAAACAGTTACCGGAAATACAACCTAACGCTAAAATCCTTACCATCAATTATGATACAGGGGAGAGGTATCTCTCTGTAGAAGGACTCTTCTAA	MKFQNALETIGNTPVVKINKLFSSDHEVWIKLEKNNPGGSIKDRIGLAMIEDAEAKGLLNKDSVIIEPTSGNTGIGLALVAAVKGYKLILVMPESMSIERRKIMEAYGAEFVLTPREKGMKGAIEKANELAEETPNSWIPRQFDNPANVKVHVETTAQEILKDFPDGLDYIITGVGTGGHITGIAKTVKEKYPNVKVIAVEPELSPVLSGGSPAPHPLQGLGAGFVPSILDITLLDGVITVGKEEAYEYALNAAKKEGLFVGVSTGAALAAIAKQLPEIQPNAKILTINYDTGERYLSVEGLF	PGPT0002810_7289	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
BMS003_01415	846	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGAAAACAAATATAAAATCACCAAAGGTCTTCCTTATCGGTGCAGGGCCCGGCAACCCTGAACTGATCACTGTAAAAGCAGTAAAAGCTATCACAAAAGCAGACGTCATTTTATGCGACCGCCTTGTAAGTCCGGAAATTCTGGAAACCTACGTTAATGAAAACACAGAAATCATCTATGTAGGCAAAGAATGCAGCAAAAATGCTTCCACCCCTCAGTCTCATATCAATGCTTTGATGGTGGAATATGCCTTTCAGAATAAAACTATTGTAAGACTGAAAGGAGGAGACGTTTCTATATTTTCTAATATCCTTGATGAATTGCAGGCTTTAAAAGAAAATCACATACCTTATGAAATCATTCCGGGAATTACAGCCGCTTTAGGAGCTGCGGCTTTTGCAGGGATGCCTTTAACAGCCAGAGGATATTCTACATCCGTTCGTTTCCTGACGTATTATAAATCGGAAATCGTAAGCGAAGAATACTGGAAAGAGCTGGCTTTGACCAATGATACCCTTGTTTTCTATATGTCTAAAGGAAATCTTACTCCTCTTGTGGAAAAACTGAAAGCACTTCAGATTTCAGGTGATAAAAAAATTGCAGTCATTGAACAGGCTACAACACCATTCCAAAAGGTATATACCTCATCATTTGATGATTTTAATGAAAAATTCGGGGACAAAAACTTTGCTTCACCTTCATTGGTAGTAGTGGGTAAAATTGTGAATCTCCACGAAGAGTTTTCATGGCTTGAAAATGCCGAACAGGAAGGTCTTTATTTTAAATCTGTGGAAAATGGAAGTATAATCCCTACCACTCAAAATTTCTTTGAATATGCTGTCTGA	MKTNIKSPKVFLIGAGPGNPELITVKAVKAITKADVILCDRLVSPEILETYVNENTEIIYVGKECSKNASTPQSHINALMVEYAFQNKTIVRLKGGDVSIFSNILDELQALKENHIPYEIIPGITAALGAAAFAGMPLTARGYSTSVRFLTYYKSEIVSEEYWKELALTNDTLVFYMSKGNLTPLVEKLKALQISGDKKIAVIEQATTPFQKVYTSSFDDFNEKFGDKNFASPSLVVVGKIVNLHEEFSWLENAEQEGLYFKSVENGSIIPTTQNFFEYAV	PGPT0003685_612	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
BMS003_01416	1713	cysJ	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGCTGTCTGAAACTAAATTAAATGTATTAAAACAAATATCCGGAGACCTCTCCAGAGATGAAGCTATCTGGGCAAGCGGATATCTTGCCGGAATTGCCGGAGGATCTTCATTCACAGCCGTTCTGCCGCCACAGGAAACGAATACTATTGTCCAGAATGCTGTAAAGAAAATAACCCTGGCTTATGGTACGGAAACCGGAAACAGTAAAAAGCTCGCTACAGCCCTTGCAGGTATCGTTAAGAAAAAAGGACTTCAGATAAAACTGGCTGACCTTTCCCAATACAAGCCTAAAGATTTGGCAAAAGAAGAATTCTTTTTTGTAGTGATCAGCACTCAGGGAGAAGGTGAACCGCCAGCGCTTGCCAAAAAGTTCTACGATTATATTTATGAAAATGAAATTAATCTCAGCGGATTAAAATATGGAGTATTGGCATTGGGAGATAGTAGTTATCCTTTATTCTGCCAAACCGGAGAAGATGTGGATTCACGTTTTGAAATATTGGGTGCTCAGCGTATTATTCCGTTAAAAAAATGTGATACTGATTACGAGCAGGAAGCTTCCCATTGGATAGAACATGTACTCGAAACCGTGAATAAAACTACTGCTCAGAGTATAAAAAATGTTTCAGTTCCAAAGGTTTCTACCGGAAGGAAGAAATATCAGGGAAAAGTTTCAGCCATCATCAATCTGAATGATATCACTTCTGAAAAAGAAACGTATCACATCGAAATTGAAACTGAAGAAGCGCTTGCCTATCAACCAGGTGCTGCTTTGGGGGTAATTCCATTCAATTCAAAAAAAATAGTGCAGGAAATCATTACCCTCACAGGAATTGATCCTCAGAAAAAAATAGAAACATCAAAAATTACGGATACGGCAGAAGAGCTTCTGTACAGGCATCTTAACATCAGCTATTTACTTAAATCTGTAGTAGCTCAATATGCAAAAATAACGGGACATTCCATCCCTGAAGTCAGATTAAGTCTTCTTGATCTCCTTAGAATTTACCCGGTAAAAAATGCAGATGAATTTGAAGACATCATTCAGATATTAACCGCTCAGTCACCTCGTCTGTATTCCATTTCTTCCTCTGTGGAAGCTCATGGGGATACGGAAATTCATATTACTGTTGCGAAATCAGAATTCTTTATTGATCATCAGAAACATAACGGATTATGCAGTGGTTTCTTGAGTGAATTCCAAGAAGGAGAAGAGGTGGAATTTTATATCCAGGAAGCAGGGCATTTCAAATTGCCGGAAGCGGATAAAGATATCATCATGATTGGTCCGGGAACAGGTATAGCTCCTTTCAGATCTTTCCTTTGGGAACGTGATGCTACGGGAGCAGAAGGAAGAAACTGGCTGTTTTTCGGAGACAGAAATTTTGTATCAGACTTCCTTTATCAGGCAGAACTTCAGGATTTTCTTAAAACAGGCAGCCTGACGCATTTAGACCTTGCCTTTTCAAGAGATACCGCTGAAAAAGTATATGTTCAGCACAGATTGGAACAAAACGCTCAGGAAGTATTTTACTGGCTGGAAGGCGGAGCATCTGTGTATGTATGCGGAGCTAAAGAACCAATGGCTTATGACGTAGAACAGACCCTTCTCACCATCATTCAGAATGAAGGAAAACGCAGCAAAGAAGAGGCTGTAGTTTACCTGGAAGAAATGGAGCTGAGCGGCAGATATGCGAAAGATGTGTATTAA	MLSETKLNVLKQISGDLSRDEAIWASGYLAGIAGGSSFTAVLPPQETNTIVQNAVKKITLAYGTETGNSKKLATALAGIVKKKGLQIKLADLSQYKPKDLAKEEFFFVVISTQGEGEPPALAKKFYDYIYENEINLSGLKYGVLALGDSSYPLFCQTGEDVDSRFEILGAQRIIPLKKCDTDYEQEASHWIEHVLETVNKTTAQSIKNVSVPKVSTGRKKYQGKVSAIINLNDITSEKETYHIEIETEEALAYQPGAALGVIPFNSKKIVQEIITLTGIDPQKKIETSKITDTAEELLYRHLNISYLLKSVVAQYAKITGHSIPEVRLSLLDLLRIYPVKNADEFEDIIQILTAQSPRLYSISSSVEAHGDTEIHITVAKSEFFIDHQKHNGLCSGFLSEFQEGEEVEFYIQEAGHFKLPEADKDIIMIGPGTGIAPFRSFLWERDATGAEGRNWLFFGDRNFVSDFLYQAELQDFLKTGSLTHLDLAFSRDTAEKVYVQHRLEQNAQEVFYWLEGGASVYVCGAKEPMAYDVEQTLLTIIQNEGKRSKEEAVVYLEEMELSGRYAKDVY	PGPT0002795_2152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS003_01417	1677	cysI	COG0155	Sulfite reductase [NADPH] hemoprotein beta-component	ATGAACAAAGATAAAGAGAACCTTTCACCGGTAGAAAAGATTAAAACCGGCAGTAACGGGCTCAGAGGAACTTTAAAGGAAAGCCTGGCAGATAACTTTACCGGAGCCATCAGAGAAGATGACCAGACTCTGATCAAGTTTCACGGAATGTACCAGCAGGATGACAGAGACCGAAGGGAAGAACGTGTCTCCAAAAAGCTGGAATGGCTGTACTCTTATATGATCAGATTAAGACTTCCCGGTGGTTTCTTAACACCGGAACAATGGGTAGGACTGAATGAAACCGCTGAAGACCATTCTACAGGAACCATAAAAGTAACCACAAGACAAACCATTCAGCTGCATGGTATTTTAAAATCTCATTTAAGACCTACCATTCAGAGCTTCAATCTGCAGCATCTGGATTCTATTGCGGCCTGTGGAGATGTCAACAGGAATGTAACCTGTACAGCCAATCCTTCGGAATCACCTTTGCAGCAGGAAGCTTATGAACTGGCAGGAAAAATCAGTGAAATGTGTCTTCCCAAAACCAAATCTTATTACGATATCTGGATTGATGATGAACTTCTGATAGACCGAAAAGCAGAAGAAGATCCTCTGTATCAGGACAGATACCTACCGAGAAAGCTGAAAATAGGAATTGCTGTTCCACCTAATAATGATGTGGATGTATTCATCAATGATATTGCCTTAATCGCAATTATCGAAAATGATAAAATCGTTGGCTACAATATTGCCGCCGGAGGAGGATTAGGTGCTACGCATGGAAATGAAGCCACTTATGCACGTCTTGCTTCCATTCTTGGATTTGTGGATACGGAAGAAAAAGTATTAAAAGCCGTTTACGAAATCATCACAGTACAAAGAGATTTCGGAAACAGAAGCGACCGAAAATTATCAAGACTAAAATACACGATTGATAAATTGGGTATCGATCAATACAGGGCTGAAGTAGAAAAGAGAACAGGATTCAGCTTTGAACCTGCCAGAGAATTTAAGTTTGAGCAGAGAAAAGACCGCTACGGCTGGATTCAGAATCATGAAGGAAAATGGTTCTATACCGTATTTGTAGAGCACGGAAGAATTCTTAACACAGCGGAATATCCTTTAAAATCAGGATTATTGAAAATCGCACAGACCGGAAAAGCCAATTTCCGTTTCACCTGTAACCAAAATCTTATTCTGGCTGATATTGAGGAAAAAGATAAACCTGAAATTGAACATATTTTAAAAGAGCACGGAATTTCAGACTATACCAATAGTGCAAGTGCCTTACGTAAAAACTCTGTTGCCTGCGTGGCCCTGAACACCTGTTCACTGGCTTTGGCGGAAGCACAGCGTTATTTGCCTTCATTGGTAACAAAAATAGAAGCTATCCTTGAAAAATATGGACTGCTGGAAGAAGATATCACCATCCGTATGACTGGCTGTCCAAACGGTTGCGGAAGATCTCCCAACGCTGAAATCGGATTTGTGGGGACAGCTTATGGTAAATATAACCTACACATAGGTGGAGATCGTCTGGGAATGCGGCTGAATAAAAAATTTAAAGAAAACATTGGTGAAGAAGAAATTCTTACCACGCTGGATGAGCTTTTCGGAGTTTATGTACAGAAAAGACTTGCAGAAGAAACATTTGGTGATTTTTCATACCGTTATTTACACAACCTAAATTAA	MNKDKENLSPVEKIKTGSNGLRGTLKESLADNFTGAIREDDQTLIKFHGMYQQDDRDRREERVSKKLEWLYSYMIRLRLPGGFLTPEQWVGLNETAEDHSTGTIKVTTRQTIQLHGILKSHLRPTIQSFNLQHLDSIAACGDVNRNVTCTANPSESPLQQEAYELAGKISEMCLPKTKSYYDIWIDDELLIDRKAEEDPLYQDRYLPRKLKIGIAVPPNNDVDVFINDIALIAIIENDKIVGYNIAAGGGLGATHGNEATYARLASILGFVDTEEKVLKAVYEIITVQRDFGNRSDRKLSRLKYTIDKLGIDQYRAEVEKRTGFSFEPAREFKFEQRKDRYGWIQNHEGKWFYTVFVEHGRILNTAEYPLKSGLLKIAQTGKANFRFTCNQNLILADIEEKDKPEIEHILKEHGISDYTNSASALRKNSVACVALNTCSLALAEAQRYLPSLVTKIEAILEKYGLLEEDITIRMTGCPNGCGRSPNAEIGFVGTAYGKYNLHIGGDRLGMRLNKKFKENIGEEEILTTLDELFGVYVQKRLAEETFGDFSYRYLHNLN	PGPT0002790_1508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
BMS003_01418	132			hypothetical protein	ATGAAAAATATAAAACATGGGAACTTTCTGCAGAAAGCAGATATCATTGCATCCACCTATTTCCACTATGCAGCAGATCCTGAAATCAGGAGACTGTATGATCTGGCTTTTATTTATGACTTAAAACGGTAA	MKNIKHGNFLQKADIIASTYFHYAADPEIRRLYDLAFIYDLKR				NA	NA	NA	NA	NA
BMS003_01419	1518	cysG		Siroheme synthase	ATGAGTAATTCATTATATCCCATATTTTTAAAACTTGATCATCTGTCACTTCTGATCATTGGTGGTGGCAAAGTTGCTCTCGAAAAACTGGAATCTGTTCTGGGCAATTCACCGGAAACATCTGTCAGACTGGTTGCTAAAGAAATTATCCCGGAGGTCAGAACCTTACAAAATCAGTTTTCTAATATAACCCTGCATGAAAGGCCTTATAATGACAATGATTTTAATGATGCAGATCTCGCCATTATTGCAGTAAATGATATTGAACTGGCCGGGGAAATCAGAGAAAAAGCTCAGCAAAAAAATGTGTTGGTTAATATTGCAGACAAACCGGATCTGTGCGATTTTTATTTAGGTTCTATTGTAAAAAAAGGAAATCTTAAAATAGCCATTTCCACCAATGGAAAATCTCCCACCATTGCCAAAAGACTCAGAGAAACCTTTACTGAAGTGATCCCTGACGAAATGGATCATGTTTTGGACAATATGCAGCATATCCGTAATCAGCTGACAGGGGATTTCAATTACAAAGTAAAAGAGCTTAATAAGATTACAACAGAATACCTGTCTGAGGGAAAAATTTCCTCAAAACCGGATATGGAAATTGAAAAACTGATCAATATTACCAAAATGGCTCAGAGAAAAGCTAATATTTATCTTGCCATCATTGGTGTTTTACTTCTTTTCGGGTTATTCGGGCTTGTTGTGTACCAATTCAATCTTTTCGGTGATATTCAGTATTTTCTGAATAAGGACGGCCACATTTTTTACTGGATGCTGTTTGCCGGTTTTATGGCTGAGATTGTTGCAGGCTCTATGGGGATGGGATACGGAGTCATATGTACAACAATACTTTTACTGCTGAATGTTCCGCCACCCGTTGTGAGTGCAAGTATTCATTCCGCAGAGTCATTTACTACTGCAGCCGGAAGTTTCAGTCACTATAAACTGGGAAATGTTAATAAAAAAATGGTGTGGGTCTTATTTCCATTGGCTATTGTTGGTTCTGTTATCGGAGCTTTAACGTTGTCCCATTATGGAGAACATTACGCACATATCGTAAAGCCTGTTATTGCCTGTTATACCTTATATCTTGGAATCAATATATTAAAAAATGCATTCAAGGATAAAAAATCAGGACAGGTAAGAACAAAGCGAAGAACCAATCTCAGAGTATTGGGATTGGCAGGTGGTTTTATTGACTCTTTTGCGGGAGGCGGATGGGGTCCATTGGTGACAGGAACCCTCATCAAAGAGGGAAGGATTCCCCGTTATGTAGTAGGAAGCTCTACTGTTGCCAAGTTTTTACTGACGATAACAAGTGCCATTACGTTCATTTTCACGATTGGTATTCACCATTGGAATATTGTTTTGGGGCTTTTGCTGGGTGGTGTTTTTACGGCTCCATTCTCTGCAATGCTTACATCAAAACTTCCAACAAAGAAAATGTTCATTGTAGTTGGAGTAGTTGTAATTCTCATGAGTCTTATTACGATCACCAAATCATTTTTATCATAA	MSNSLYPIFLKLDHLSLLIIGGGKVALEKLESVLGNSPETSVRLVAKEIIPEVRTLQNQFSNITLHERPYNDNDFNDADLAIIAVNDIELAGEIREKAQQKNVLVNIADKPDLCDFYLGSIVKKGNLKIAISTNGKSPTIAKRLRETFTEVIPDEMDHVLDNMQHIRNQLTGDFNYKVKELNKITTEYLSEGKISSKPDMEIEKLINITKMAQRKANIYLAIIGVLLLFGLFGLVVYQFNLFGDIQYFLNKDGHIFYWMLFAGFMAEIVAGSMGMGYGVICTTILLLLNVPPPVVSASIHSAESFTTAAGSFSHYKLGNVNKKMVWVLFPLAIVGSVIGALTLSHYGEHYAHIVKPVIACYTLYLGINILKNAFKDKKSGQVRTKRRTNLRVLGLAGGFIDSFAGGGWGPLVTGTLIKEGRIPRYVVGSSTVAKFLLTITSAITFIFTIGIHHWNIVLGLLLGGVFTAPFSAMLTSKLPTKKMFIVVGVVVILMSLITITKSFLS				NA	NA	NA	NA	NA
BMS003_01420	390			hypothetical protein	ATGAACAATACAAAAACAGCCTATTTTTTCCTTCGTGTATCTATGGGAATCAACCTTTTAGGACACGGATTGGTCCGTCTCGTAAAATTGCAGGACTTTGCATCAGGAATGATGAAAGGTTTTGAGACAAGCTGGCTTCCACGGCCATTGGTGCATCTCTTCGGAGCTACACTTCCCTTCCTGGAGTTTATCATCGGATTACTGCTGATGATTGGTTTGAAGACCCGTATTGCTGCTATAGCAGGTGCTTCTTTGATTATTCTGCTGCTTTTTGGGAGCAGTACCATTGAAAATTGGGAAGCAATGGGTATCCAGATGATCTATGCAGGGTTATTCTATATTCTGATCAGCAGAATTGATGACAATTATCTTGCTTTGGACAGGAAATAG	MNNTKTAYFFLRVSMGINLLGHGLVRLVKLQDFASGMMKGFETSWLPRPLVHLFGATLPFLEFIIGLLLMIGLKTRIAAIAGASLIILLLFGSSTIENWEAMGIQMIYAGLFYILISRIDDNYLALDRK				NA	NA	NA	NA	NA
BMS003_01421	984			hypothetical protein	ATGAAATATATAAAACAATCTGTATTATTACTTGCTTCAACAGCCCTTTTAATGTCCTTTTCTGACCGTAATGACGGAGATCAGAAAGGTAAAAAGGAACATCATGAAAAACAGGTTTCCACCAAAAAATACTGGCCGAATGGAGCTCAGCTGGTTATTTCTGTTTCTATGCAGTTTGAAACTGGCGGGCAGCCGGAAGGTGCAGAAAGCCCTTTCAGCGGAACTCCTTTACCTAAAGGCCAGCCTGATCTTCCGGCAGAAAGCTGGTACCGTTACGGCGGAAATGAAGGGATTTACAGAATGCTGGATTTATGGAAAAAATATAATATTAAAGTAACATCTCATGTAGTGGGAACCGCTGCTCAAAAATATCCCGATGTGGCCAAAGCTATTGCAAACGGAGGCCATGAAATTGCAGCTCACGGCATTGCATGGGATAACCAATGGAATAAGAGTTATAATGATGAACTGAATTTTGTAAAGAAAGGCGTAGATATTGTGGAAAAAATTACCGGGCAAAAAGCTGTAGGCTATAACAGCAACTGGCTGCGAAGAAGTCCCAATACCCTTAAAGTATTACAGGATCTTGGTTTTCTCTATCATATCGATGATCTGAGCCATGATGAACCTTTTATTACCAAAGTAAAAGGGAAAAATTTTGTTGTCATTCCCTATACACTACGTAACAACGATATTGTTAATATTGAGGGCAAGCACTGGAGCCCAGATCAGTTTTTAGCTCAGCTGAAATTTGAATTTGACCGTCTTTATGATGAAGGAGCTTCAAAGAGAAGAATGATGAGCATCAGCTTTCACGATAGAATTGGTGGAACACCCGCTATGGTGCATGCCATGGAGGAATTCATCAAATATACCAAAGAAAAACAGGGCGTAGTCTTTATGAGAAAAGATGATATTGCCAAAATGGTCATGAATGATCCTGATACTCTAATTGATAATAGTGAAGAAAAGTTTAATAAGTAA	MKYIKQSVLLLASTALLMSFSDRNDGDQKGKKEHHEKQVSTKKYWPNGAQLVISVSMQFETGGQPEGAESPFSGTPLPKGQPDLPAESWYRYGGNEGIYRMLDLWKKYNIKVTSHVVGTAAQKYPDVAKAIANGGHEIAAHGIAWDNQWNKSYNDELNFVKKGVDIVEKITGQKAVGYNSNWLRRSPNTLKVLQDLGFLYHIDDLSHDEPFITKVKGKNFVVIPYTLRNNDIVNIEGKHWSPDQFLAQLKFEFDRLYDEGASKRRMMSISFHDRIGGTPAMVHAMEEFIKYTKEKQGVVFMRKDDIAKMVMNDPDTLIDNSEEKFNK	PGPT0012156_258	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS003_01422	918	rhaS_4		HTH-type transcriptional activator RhaS	ATGAATAAACAGGCTGTATATATTGTAAAAATTAATGGTAAATTTGTAAAAATTCATTCTCTCATGAAACGGATCGTTAACTTCAGTCCTTTTAATGTTTTCAGTATTGAAAAGGAAACCTGGGATGTAGAATATCACAATCATAACTTTTATGAACTGATTATCATAGAAAACGGAAAAGGGTTTCACCATCTCAATAATATTACTTTCCCTTATAAAAAAGGAGATGTTTTTCTCCTCAGACCCAGTGATGGTCATGAATTTTCTATTAAAAGCAAAACGAAATTCATTTATATTAAATTTACAGAACAGTATATCTGGGAAACTCTTCTTTCCAATAAGAAAAATGAACTCAAAAAAGTTGTTCAGCTCCTGATGGAAGATCATTCTTTTGTTTATGAATCAGTAATTAAAAGTAAAACAGACAGGGTACACCTGTTACAGCTTGGCCGGATTCTTCTTCATGAATTCAGTCATAGGAATACCTATAATAAAGAGATTACCTCCGATATTTTTTCAGGGATTATCACCATCCTGATCCGTAATACGATGAATACAGTCACCACCAAAAACTGGATCGCTCACAATATAAGCAGAATTGAGAAAATTCTGTATTATATTAATGTCAATGCTTTGGATGCTGATAAAATGAAAATTGAAAATCTTGCCAAAGAGTTTATGCTTTCTCCTAATTATATCAGTATTTATATAAAAAAACAGACAGGCTTCTCCATACAGCAGCATATTATGCGGCATAAAATAAAAACTGCGGAAAAACTTCTGGTTCAAAGCCGCTACAACATCAGTGAAATTGCAGACAAACTGGGCTTTAATGACGCCAGCCACTTCAATAAAATATTCAAAGGATATAAAGAAATGTCCCCCTCCGAATACAAAAAGAAATCAACAGGAAAATAA	MNKQAVYIVKINGKFVKIHSLMKRIVNFSPFNVFSIEKETWDVEYHNHNFYELIIIENGKGFHHLNNITFPYKKGDVFLLRPSDGHEFSIKSKTKFIYIKFTEQYIWETLLSNKKNELKKVVQLLMEDHSFVYESVIKSKTDRVHLLQLGRILLHEFSHRNTYNKEITSDIFSGIITILIRNTMNTVTTKNWIAHNISRIEKILYYINVNALDADKMKIENLAKEFMLSPNYISIYIKKQTGFSIQQHIMRHKIKTAEKLLVQSRYNISEIADKLGFNDASHFNKIFKGYKEMSPSEYKKKSTGK	PGPT0017780_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017780-rhaS-K02855	NA	NA
BMS003_01423	492			hypothetical protein	ATGCCGACTGACGCTTCTCATAAGCTGATTCCGATGACAACTTTCGTGTTGGAATATTACTCGCACGAAGGATATGCAGATCTTCAGATTTTAAATCTGATGAATAACTATGCCAATTTTTTAAAGAAGCGTTTGACTCTTGGAATGTTCGTTCCTGTAGACCGTAAAGGAAATATACTGAAAGAGCCTAAAAATTATACTGAATGGAAATCTCTCAATCATAATGACGGGAAAAGAACGGATGTTACCGGATTTGAAGAATATGCTGAGTATCAGAAGGCCGAGCAGAACTGTATGTTTGAGGGGTTTAAAGTGGATTACAACGGATATTCAAAAGTAAGAATCATAGCTTCATATGATCCTTCTATTGAACTGTCTTTTAATAAAAATGATCTGATCCCTACAGGATTCAATGATGCAGAGTCACTTACCGTTTTTGATGATATCTTTTTAACATCCAGTGCATTAAAAGCAATTGGTATTAAAAGGTAA	MPTDASHKLIPMTTFVLEYYSHEGYADLQILNLMNNYANFLKKRLTLGMFVPVDRKGNILKEPKNYTEWKSLNHNDGKRTDVTGFEEYAEYQKAEQNCMFEGFKVDYNGYSKVRIIASYDPSIELSFNKNDLIPTGFNDAESLTVFDDIFLTSSALKAIGIKR				NA	NA	NA	NA	NA
BMS003_01424	117			hypothetical protein	ATGAAAGTTTGTCCTAAAATTATTGTTATTCAGAATGGGTATAAATTCCATCCTAATCTCCTGCTTCCGTTGGGTAGCGTAAATAAAAATACTATTTTTATCACCCCAAAAAAGTAA	MKVCPKIIVIQNGYKFHPNLLLPLGSVNKNTIFITPKK				NA	NA	NA	NA	NA
BMS003_01425	1233			hypothetical protein	GTGGATACAAATTATAATATGTTGAATAAGATACTATTGGCAGCTGGTTTCATTCAGTGCTGCTTCTTTAATATCCAGGCTCAGAGTGCCGGAGTTCACCCGGTCTATACCTCCGAATGGGGTCATCTTTATCGGGAAAGCGGGAAAAATAAGGATCTTTTGGGAATATTTTCTACAGAAGCTCCTGTTTACGTTCTGGATTCTACCCAAACACAGTATAAAGTACAGGTAAGTAACGGAGATATTGGTTTTATAGACCGTCAGCCCCTTCAAAAAAGCATGCGTGGGAAAAAATCTGCAGGTGAACCCGCCCAGTATTTTTACAGAGGAAAAGAAGGCTATCAGTGTCCGCATTTCTATGTACAGGTATCAGAACTTCGTGTCAGAAAAGCTCCTGATACAGAAAGTACCGCAACCCGCAGAGCTCCATTAAATGAACTGGTTTGTATTGATTACGTTCCTTTGTATCAGGATGGCTGGGTATATATTGGCGATCATTTCCATGAAAACCCTGAATATATTCAAATGAAATACCTGGGAACAGAACTTACCTATGACAAAATTCTGAAAGACTATCTGGCTGTAAAAGGAAAGAACAGGGAAAAAGAACTTACTCTGGCTGGAAGACTGCGTGAAATGGCATGGCTGGAAGATAAGAACCTTAAACAGGCCTTAGGCTACTGGAAAGAATCCTACACCCATGCAGAAGTAGAAAATCCAAAAGTAGATATCAATTTTGAACTTCTTCTGGCAGACCAATTTGCAAAAAAACCGGAAACTGAAGCTTATGAAAAGAAGCTGAAAGCATTGAAAATGCATTTCACATGGAAAGAAGCCCAACTTTTTGACGGGAAAATTACAGAAGCACAGGTGAAACAGCTGGATATGCAGAAAGTAAAAGACATTCCCAATACCCCTGAATGTGGCTGGGAACCTCAATATTTTTACAGAACACCTGGTATCATTGTAGCCTTTGAGGAATATAAAGAAAAAGTTTCCGGAAGTATTTACAAGATGACTTTTAGCAACGGTGAAGCTGTGATTATGGGAAATGAACGCATAGATTCTCATTATGATGAAAAAGATTTTGTAACTCGTTTTGGTGATCTGCTCTCAGCACGCTGGATTTCTTCTCCACATGAATATTACATTCAGAATGGAGATGCCGGACTCTTTATTTTTACATTTAAAGAGGGGAAACTTTTCAGCTATGAATGTATGTATTATTGCTAG	MDTNYNMLNKILLAAGFIQCCFFNIQAQSAGVHPVYTSEWGHLYRESGKNKDLLGIFSTEAPVYVLDSTQTQYKVQVSNGDIGFIDRQPLQKSMRGKKSAGEPAQYFYRGKEGYQCPHFYVQVSELRVRKAPDTESTATRRAPLNELVCIDYVPLYQDGWVYIGDHFHENPEYIQMKYLGTELTYDKILKDYLAVKGKNREKELTLAGRLREMAWLEDKNLKQALGYWKESYTHAEVENPKVDINFELLLADQFAKKPETEAYEKKLKALKMHFTWKEAQLFDGKITEAQVKQLDMQKVKDIPNTPECGWEPQYFYRTPGIIVAFEEYKEKVSGSIYKMTFSNGEAVIMGNERIDSHYDEKDFVTRFGDLLSARWISSPHEYYIQNGDAGLFIFTFKEGKLFSYECMYYC				NA	NA	NA	NA	NA
BMS003_01426	486			hypothetical protein	ATGTCATTTATTACACCGGAAGGAGCCAGGAAGGCTCAGCTATCCCTATCCGAAAGGGCACCCGTTGCTCATGCTATCCTCTCAGGAGAAGAAAATATTTCGAAATACAACAGTGGAGTATGTCATGATGTGGTAGCCTATGCATTGTATATGCGAGGTGCCAGGATAAGTCCTACTCAGCTTGCAGAATCAGCAGGACAGAAATGGTTAACCTTATTTAACTATCCGGCAGGAGAAAAATGGGACGGATATACTCCCATTCCGGCAGGAAAAGCCATTGGTTTTTACAGGCTTATTGATAAAACGTTCTTCCATTCGGCTATTACTACCGGAAACGGAAATGAAATAAGATCTGTAAACGGATTTTCATTAGGATCAGCATGGACTGTACCTGTAGATATGAAATGGGTATTAGGCAAAAAAAATTCTGATGGAACCTTCAATTATGACGGAACCAAAATAGAAGTCTATATCTCTTCCTTATGA	MSFITPEGARKAQLSLSERAPVAHAILSGEENISKYNSGVCHDVVAYALYMRGARISPTQLAESAGQKWLTLFNYPAGEKWDGYTPIPAGKAIGFYRLIDKTFFHSAITTGNGNEIRSVNGFSLGSAWTVPVDMKWVLGKKNSDGTFNYDGTKIEVYISSL				NA	NA	NA	NA	NA
BMS003_01427	390			hypothetical protein	ATGAAACAGGTCAGAAATACACATGCCAAAACTGAGATTTTAAACCTTATTAATGGCTCAGATATAGCCCTTACCCACTCGGATATTCAGAAGAAACTGGGAGATTTATGCAATAGAGTAACCATTTACAGGGTTCTGGAGAGGCTTGAAAATGAAGGTGCTATCCATAAGATTGTCAATATAGACGGGGTGGTGAATTTTGCAAAATGCAGTGGGAAATGTACTCATGAACAGCATTTTCATAATCACGTTCATTTTAACTGCAAAGAGTGCCATTCTGTAACGTGCATAGAGAATGCCATTCCGGAAATTACTTTACCGGAGCATTTTATTGCCCAGGAATATAATTTTATTATCAGCGGTATATGCCCGAAATGTGCTGATGCGTAA	MKQVRNTHAKTEILNLINGSDIALTHSDIQKKLGDLCNRVTIYRVLERLENEGAIHKIVNIDGVVNFAKCSGKCTHEQHFHNHVHFNCKECHSVTCIENAIPEITLPEHFIAQEYNFIISGICPKCADA	PGPT0003880_5260	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS003_01428	339			hypothetical protein	ATGAAATCAAAAATCCTTGATGCTGTAGGAATCTCCGCTGCTGTTTTGTGCCTGATTCATTGTATTGTCTTTCCGTTATTATTGATTGTTCCACTGGGAATATCGCATAACCCCTATATAGATCTGGCTTTCCTTTTCATTGGTGCCGTTGTGGTATTTAGAGTAACGAAGAAAATGGAAAACCGCTGGCTTAAGTTTCTGTTCTGGATATCCATTGGCCTCATTTCCACTTCTATACTGGCAGATTTTCTTTTTGAAGTCCATATTCCTCTGATTTATGTGGGAGCTGCAGGTTTAATTACAGGCCATATCATCAATTTTAAAAATCATAAACATTAG	MKSKILDAVGISAAVLCLIHCIVFPLLLIVPLGISHNPYIDLAFLFIGAVVVFRVTKKMENRWLKFLFWISIGLISTSILADFLFEVHIPLIYVGAAGLITGHIINFKNHKH				NA	NA	NA	NA	NA
BMS003_01429	1203	yciC	COG0523	Putative metal chaperone YciC	ATGACGAAAAAACTTCCTGTAACGGTACTCAGTGGTTTTTTAGGAGCCGGTAAAACCACATTACTGAATCATATTCTGCACAACAGACATGGCTTAAAAGTAGCTGTAATTGTGAATGATATGAGTGAAATCAACATAGATGCACGCCTGGTCGAAAATCAGAATACCCTTTCAAGAACAGAAGAAAAACTGGTAGAAATGAGTAACGGATGTATCTGCTGTACACTCCGTGAAGATCTGATGGTGGAAGTAGAACGTTTGGCGAATGAAAACCGTTTTGATTATCTCCTTATCGAAAGTACGGGAATCAGTGAGCCCATTCCTGTAGCTCAAACCTTTACCTATACAGATGAAGAAAGCGGAATAGATCTTTCCCGTTTCAGTTACGTTGATACGATGGTAACGGTAGTAGACTGTTTCAATTTTATGAAAGATTTCGGCTCTGATGAATTGCTGATGAATCGTGATCTTACGGATATGGAAGGAGATTACAGAACTATTGTCAACCTTTTGACCGATCAGATTGAATTTGCCAACGTAATTATTTTAAACAAAACAGACCTTATCAATACTGAAACACTTGGCTTTTTAAAGGCTGCCATCAAGAAACTGAATCCGGAAGCTATCCTTTTACATTCAGAGTTTGGAAAGATTGATCCTCAGAAGATTTTAAATACCCGGCTTTTTGATTTTGATAAAGCACAGGCTTCAGCAGGCTGGCAAAAAGAATTACAGTCAGAACACCATACTCCGGAAACTGAAGAATATGGAATAAGTTCACTGGTATTCAGAGATAAAAAACCATTTCACCCCTTAAGGCTCTGGGAATACCTGAATCATCATTATCCGGAAGGAACCATCAGGGCTAAAGGTTTGTTCTGGTTGGCGTCAAGACCTGATGATGCATTGAATTTCTCTCAGGCAGGAGGTTCTTTCCGGCTGGAAAAAGCTGGAGTTTGGTGGAGTAGCATGCCTTTGAACCACAGGGTGCAGTATTCTTCATTTGTAGAAAATCAGGAATTTATAGAAAGCAGATGGGACAAAAACTGGGGTGACAGGATTAATGAGCTTGTGTTTATCGGGCAGAATTTAGATAAAGATCAAATGCTATCAGATCTTCAAAACTGCCTTATTAATGATGTAGAAAAAGAAATGTTTGATCAAAATATAACTTTTGAAGACCCGTTTCCAGAGAATATTTAA	MTKKLPVTVLSGFLGAGKTTLLNHILHNRHGLKVAVIVNDMSEINIDARLVENQNTLSRTEEKLVEMSNGCICCTLREDLMVEVERLANENRFDYLLIESTGISEPIPVAQTFTYTDEESGIDLSRFSYVDTMVTVVDCFNFMKDFGSDELLMNRDLTDMEGDYRTIVNLLTDQIEFANVIILNKTDLINTETLGFLKAAIKKLNPEAILLHSEFGKIDPQKILNTRLFDFDKAQASAGWQKELQSEHHTPETEEYGISSLVFRDKKPFHPLRLWEYLNHHYPEGTIRAKGLFWLASRPDDALNFSQAGGSFRLEKAGVWWSSMPLNHRVQYSSFVENQEFIESRWDKNWGDRINELVFIGQNLDKDQMLSDLQNCLINDVEKEMFDQNITFEDPFPENI				NA	NA	NA	NA	NA
BMS003_01430	1398	phoA	COG1785	Alkaline phosphatase 4	ATGGACAGAAGAAAATTTCTAAAAGGCTCAGCATTACTTTCAGGATTATTGACCTTATCACCATCTGATCTCTGGAGTTCCGGAAAAAATACTGAACGGTATGGGAAAGAACAAGCTAAGAACATCATCTTCATGGTAAGTGACGGAATGAGCCTGGGAACACTATCAATGGCAGATCTTTATTCAAGAAATATTTTGGGAAAAGGAAGTAACTGGCTTAATCTTTATCATGACCAAAAGGTAAACCGTGCTTTAATGGACACTGCTTCAGCAAGCTCTATTGTTACAGATTCAGCAGCTGCAAGTTCAGCCTTTGGAGGTGGAATAAGAGTAAAAAACGGGACACTGAATATGGGAGCTAATGGAGAAAAGCATCTTCCTATATGGCGGAAGTATAAAAAGGCCGGAAAGAAAGCCGGCTGTGTGACGACTGTAACCATTACCCATGCTACGCCAGCAGGCTTCTGTGTTAATTCTTCAAAAAGAAATGCTGAACCCCAGATTGCCGAAATGTATGCTGAACTGGAGCTCGATGTACTTTTAGGAGGCGGAGATGAGTTTTTTAACCCTGCCAAAAGAGAAGACAAAAAAGACCTCTATTCGGTATACGGCCAAAAAGGATACAGAATCCTGAAAACACAAAATGATCTGAAAGAAATAAAAAAAGAGGAGAAGCTATTAGGTATTTTCAGTACAGGGGCATTGCCTTATAGTATTGACAGAACCAATCTTCCGGAACTGAAAAATACTCCGACTCTTGCTGAAATGGCCAGCACAGCTATCAATCAGATGAAAGATCATCCCGAAGGTTTTGTCCTCCAGGTAGAGGCCGGAAAAGTAGACTGGGCTGCCCACGCCAATGATGTGGCTGCACTCATTCATGACCAGCTGGCTTTTGATGAAGCCATAAAAACAGTGATGGATTTTGCAGAAAAAGACGGTAATACTTTAGTTATTATCACTACAGATCATGGAAACGCCAATCCGGGAACGATTTACGGGAATGATGCTACAAAAAATTTCAACAGCATTTCAGGATATAAGTATACCAATGAATACATCCTGAACAAAATTCAGAAAGATTATTCCGTAAAAGACATTAAAGACTGGATTTATGAAGGCAACAAAATAACCCTGAATGATGATGAAGCCAAACATCTTCTGAGCTTCTACCATGGGCTTGAAAAAGAGGAAGAAGGATTGTATAATTATAAGAAACTGCCTTTTAAGTTTTACTCGGACATTCAGAAGAAAAGAAACTCTGTGGGATGGGTCAGCATGGATCATTCCGGAGATTATGTGGAAGTAGCAGTTTATGGCCCTGGAAATGAACATCTGCAGCCCTTTATTAGAAATACAGATTTGCATGATCTGATGCTCAGGGCTTGCACTCTATAA	MDRRKFLKGSALLSGLLTLSPSDLWSSGKNTERYGKEQAKNIIFMVSDGMSLGTLSMADLYSRNILGKGSNWLNLYHDQKVNRALMDTASASSIVTDSAAASSAFGGGIRVKNGTLNMGANGEKHLPIWRKYKKAGKKAGCVTTVTITHATPAGFCVNSSKRNAEPQIAEMYAELELDVLLGGGDEFFNPAKREDKKDLYSVYGQKGYRILKTQNDLKEIKKEEKLLGIFSTGALPYSIDRTNLPELKNTPTLAEMASTAINQMKDHPEGFVLQVEAGKVDWAAHANDVAALIHDQLAFDEAIKTVMDFAEKDGNTLVIITTDHGNANPGTIYGNDATKNFNSISGYKYTNEYILNKIQKDYSVKDIKDWIYEGNKITLNDDEAKHLLSFYHGLEKEEEGLYNYKKLPFKFYSDIQKKRNSVGWVSMDHSGDYVEVAVYGPGNEHLQPFIRNTDLHDLMLRACTL	PGPT0002570_2873	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
BMS003_01431	615	yttP		putative HTH-type transcriptional regulator YttP	ATGAAAAAAATAGATACCAGTACCGAAGAAAAAATAAAAGAGGCAGCACGTACTGTGTTTTATAAAAAGGGATTTGCAGCGACAAGAACACGGGATATTGCAGAAGAAGCAGGAATCAACCTTGCATTGCTCAACTATTATTTCAGAAGCAAAGCAAAGCTTTTTGAGATAATTATGATAGAAACGATGTCCGGATTTTTTCAGAATTTAATGACAGTACTGAATAATGAAAAGACAAGTATTGATGAGAAAGTAGTAGAAGTGGTAGGAAAATATATTGATCTTATCATTAAAGAACCCGAAATTCCAACCTTTATCATCAGTGAACTTCGCAATAATCCTAATCTTCTTCTGCAAAAGATACCTCTGAAGGAAGTCATAGAGACATCCGGATTTTTAAAGCAACATCAGGAAGCTGTAAAGAACGGAAAAATTAAAGAGCCTAACCCTCTGCATTTTCTGATCAATATACTCGGGCTTACCGTATTTCCTTTTATTGCCAAACCCATGCTGCTGGGAAGCAGTACATTGAATGACAAAGAGTTTGAAAAGCTGATGCTGGAACGTAAAAAACTTATTCCTGTGTGGATAAAAGCCACCATGGCAGCAGGATAA	MKKIDTSTEEKIKEAARTVFYKKGFAATRTRDIAEEAGINLALLNYYFRSKAKLFEIIMIETMSGFFQNLMTVLNNEKTSIDEKVVEVVGKYIDLIIKEPEIPTFIISELRNNPNLLLQKIPLKEVIETSGFLKQHQEAVKNGKIKEPNPLHFLINILGLTVFPFIAKPMLLGSSTLNDKEFEKLMLERKKLIPVWIKATMAAG				NA	NA	NA	NA	NA
BMS003_01432	1287			hypothetical protein	ATGTGTAGAAAATTTCAAATACCTCTGCTTACCCTTGTTTTGAGCTTCACGGCGGTAATCCCTCTGAAAGCACAGTCTGCATCGTTAACACTTGAAGAATGCTATGTCTTGGCAAAAGAAAACTATCCTGCAGTCAAAAAATTAGGAATTTTAGCAAAAGCGGCCAATTATACTATAGATAATGCCAATAAAGGCTATCTTCCCAAAATTTCAATTACCGGTCAGGCAACTTACCAGTCCCAGACCATTAATTTCTCCGATGCATTAGGCGCTCTTCCTATAAATGCAGCACTTCCATCTCTGAGTAAAGACCAATATAAAATCCAGGGAGAAGTAGATCAGTTATTATATGACGGAGGAGTAATACATAATCAGAAAGAGCTTACAAAAGCCAATACCGAACTGCAGACCCAGAATATAGAGATCTCCTTATATACCTTGAAACAGAGAATCAATACTTTATTTTTTTCCATTCTGCTAACCAATGCTCAGATCAAACAGAATGAGATCAAAAAAGCAAGTCTGCAGACACAGGTAAAAAAAGCCGAAGCAGCTTTGAAATACGGAACAGCATACCGCAGTAATGTAGATGAACTGAAGGCAGAAGTCCTGAATACAGATATGGCCGGTACAGAATATAAATCCAGCCGAACCGCTTATTTGAAAATGCTTGGGATCTTCATTGGAAAAGAGCTTTCTGACTCTTCAATATTAGAATCTCCGGAACCGGAACTTCTCTCGTCAGAGATCAGCAGACCGGAACTGAAGGGTTTTGATCTTCAAAAATCAGTATACACGTTACAGGAAGAACAGCTTAAATCTGACCTTATGCCCAAGGTAAGCGCTTTCTTTCAGGGAGCATACGGAAGACCTACTCTTAATATTATTGAAAATAAATTCGGGCCATGGTTTATTACCGGCGTAAGATTCAGCTGGTCTCTGGAAAGCTTATATACTTCTTCCAATAAAAAACAAATTCTTGAACTGAACAGAAAAACTACAGATACTGATAAAGAGACATTTTTGCTCAATACCAAAATGGATATGGCTCAGCAGGAAGAAAATATTAAAAAATACCGTAACCTGCTGGAACAGGATAAAACTGTAATCAGCCTGCGCCAATCTGTCACTCAATCAGCAGAAGCTCAGCTCGCCAATGGGGTAATTACCACTCATGAATATATTCAGAAACTCAATACAGAACATCTTGCCAATCAGACCATGATTCTCCATCAGATTCAGCTGTTACAGGCCAGATATAATCAGAAATTTATTTCCGGAAATTAA	MCRKFQIPLLTLVLSFTAVIPLKAQSASLTLEECYVLAKENYPAVKKLGILAKAANYTIDNANKGYLPKISITGQATYQSQTINFSDALGALPINAALPSLSKDQYKIQGEVDQLLYDGGVIHNQKELTKANTELQTQNIEISLYTLKQRINTLFFSILLTNAQIKQNEIKKASLQTQVKKAEAALKYGTAYRSNVDELKAEVLNTDMAGTEYKSSRTAYLKMLGIFIGKELSDSSILESPEPELLSSEISRPELKGFDLQKSVYTLQEEQLKSDLMPKVSAFFQGAYGRPTLNIIENKFGPWFITGVRFSWSLESLYTSSNKKQILELNRKTTDTDKETFLLNTKMDMAQQEENIKKYRNLLEQDKTVISLRQSVTQSAEAQLANGVITTHEYIQKLNTEHLANQTMILHQIQLLQARYNQKFISGN	PGPT0003600_4976	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
BMS003_01433	927			hypothetical protein	ATGAAAAAAATCATCATACTAAGTGCTTTAGCTCTGCTAAGTGCATGTAAACCCAAAGACGATTTCGATGCTTCAGGAAATTTTGAAGCAGATGAAGTAATTGTTTCTGCCCAGCAAAACGGAGAATTAATTTCTTATTCTGTACAGGAAGGAGACAGGCTTAAAGCAGGAACTCAGGTGGGACAGATTGACGTTACAATGGCTGAACTTCAAAAACAGCAGGCAGAAGCCAGCATTGAAGCTTTACAGCAAAAAACAAGCAATACCCATGAACAGGATCTGCTGGTAAAAAAACAGCTGGCAGTACAGGAAGCACAGCTGGATCAGCAGCTTCATGAACGTACCCGTACAGCAAATCTTGTAAAATCGGATGCTGCAACCCGGAAACAGCTGGACGATATTGATGCTGCAATCGTACAGTTGAAAAAGCAGATTGCCGTTACACGTCAGCAGCTTTCCGTTAATACTTCCAACAACAGTACTCAGAACAGAAGTATTTTAAGTGAAAAAGCACCTTTGGAAAAGACGGCTGCACAGTTTCAGGAACAGATTAATAAAGGAACAGTTATCAATCCTGTCAGCGGAACGGTATTGGTTAGCTACGCGCTGAAGGGAGAAATGCAGACTATTGGAAAACCGCTGTATAAAATAGCAGATATCAGTACTCTTGATCTCAGAGCTTATATTACCGGAACGCAGTTGCCACAGGTAAAACTCGGCCAGAAGGTAAAAGTAAGGATCGATCAGGGAGAAAAAGGATTTAAAGAATACCCCGGAATTATTACATGGATTTCAGATAAATCGGAATTTTCCCCAAAAACCATTCAGACCAAAGACGAAAGAGCCAATCTTGTCTATGCCATCAAAATACGGGTAAAAAATGACGGCTACTTAAAGATAGGAATGTATGGAGAAACAGTATTTTAA	MKKIIILSALALLSACKPKDDFDASGNFEADEVIVSAQQNGELISYSVQEGDRLKAGTQVGQIDVTMAELQKQQAEASIEALQQKTSNTHEQDLLVKKQLAVQEAQLDQQLHERTRTANLVKSDAATRKQLDDIDAAIVQLKKQIAVTRQQLSVNTSNNSTQNRSILSEKAPLEKTAAQFQEQINKGTVINPVSGTVLVSYALKGEMQTIGKPLYKIADISTLDLRAYITGTQLPQVKLGQKVKVRIDQGEKGFKEYPGIITWISDKSEFSPKTIQTKDERANLVYAIKIRVKNDGYLKIGMYGETVF				NA	NA	NA	NA	NA
BMS003_01434	930	ybhF_1	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGTTTTCCATTACCGTAAAAAATATAATTAAAACCTACAATGGCATCAAGGCAGTAGATGATGTTTCTTTTGATGTGAAGAAAGGAGAGCTTTTTGGCCTTATCGGACCTGATGGAGCCGGAAAAACTTCCCTGTTCCGGATTCTGACCACTCTTTTACTGGCAGACAGCGGAACGGCAGAAGTGGAAAGCCATGATGTGGTAAAAGAATATCAGACCATCAGAAATAAAGTAGGGTATATGCCCGGAAAATTCTCACTGTATCAAGATCTTACCGTTGATGAAAATCTGAATTTCTTTGCCGCTATTTTTGAAACTTCTATTCAGGAAAATTACGACCTGATTAAAGATATTTATGAACAGATCAAACCATTCAGTAACCGGCGGGCAGGCAAACTCTCCGGTGGAATGAAACAGAAACTGGCATTGTGCTGTGCTCTGATTCATAAACCGGAAGTATTGTTTCTGGATGAGCCCACAACCGGAGTGGATGTTGTTTCCAGAAAAGAATTCTGGGACATGCTGGCAAAGCTTAAGGAACAGAACATCACCATTCTGGTATCAACACCTTATATGGATGAAGCAAAACTTTGTGACCGCATTGCTTTGATACAGAATGGAAAAATAATGTCTGTAGATCAACCCGAACACATCGTAAACAACTTTCCAAAAACACTTTTTGCAGTTAAAAGTAAAAATATCTATCCCTTGTTGGAAGCCCTTCGCACGGACAAAGATGTTGAAAGCTGCTATGCATTTGGAGAATATCTGCATCTCACCCTCAAAGAAGCCGGAAAACAGCAGACTGTAATAGATATTGCCGGAAGGTATCATCCGGAAGGTTTGGAAATTATGGAAATAACACCCACTATTGAAGACAGCTTTATCCGGCTGATGCGTGAACAAAAAGAAATAAACCATGGAGAATAA	MFSITVKNIIKTYNGIKAVDDVSFDVKKGELFGLIGPDGAGKTSLFRILTTLLLADSGTAEVESHDVVKEYQTIRNKVGYMPGKFSLYQDLTVDENLNFFAAIFETSIQENYDLIKDIYEQIKPFSNRRAGKLSGGMKQKLALCCALIHKPEVLFLDEPTTGVDVVSRKEFWDMLAKLKEQNITILVSTPYMDEAKLCDRIALIQNGKIMSVDQPEHIVNNFPKTLFAVKSKNIYPLLEALRTDKDVESCYAFGEYLHLTLKEAGKQQTVIDIAGRYHPEGLEIMEITPTIEDSFIRLMREQKEINHGE	PGPT0006725_12550	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_01435	744	ybhF_2	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGGAGAATAAAGCCATTATCTGTAGAGATCTCACCAAACAGTTTGGAGACTTTAAAGCTGTTGATGCTATTTCTTTTGATGTAGATCAGGGGGAAATATTTGGTTTTCTCGGAGCTAACGGAGCCGGAAAAACCACCGCCATGCGAATCCTTTGCGGACTATCATATCCTACTTCAGGAACCGCATCAGTGGCAGGATTCAATGTATATAAGCAACAGGAACAGATCAAAAAAAACATTGGCTATATGAGCCAGAAATTCTCACTGTATGATAACCTTACCATTCTGGAGAATATTGAGTTTTATGGCGGTGTGTATGGTGTTTCACGCAAGGATATAAGGACAAGAAGTGCAGAGCTGGTTTCTACACTGGGCTTAGAAAACGAAGCTAAAAAACTGGTAGGAGCCCTGCCACTAGGATGGAAGCAGAAACTGGCATTCTCTGTTGCCGTCTTTCACAAACCTAAAATTGTATTTCTGGATGAGCCGACAGGAGGTGTGGATCCTATTACCAGAAGACAGTTCTGGGATATGATTTATCAGGCTGCCGCAGAGGGTATCACAGTGTTTGTCACCACTCATTATATGGATGAGGCAGAATACTGTAACAGGATCTCCGTCATGGTAGATGGAAGAGTGGAAGCTATGGATACTCCTTCTAACCTTAAGAAGAAATTTAATACGCAATCAATGGATGACGTATTTTATGAACTGGCAAGAAGAGCCAAAAGATCAGGTGATTAA	MENKAIICRDLTKQFGDFKAVDAISFDVDQGEIFGFLGANGAGKTTAMRILCGLSYPTSGTASVAGFNVYKQQEQIKKNIGYMSQKFSLYDNLTILENIEFYGGVYGVSRKDIRTRSAELVSTLGLENEAKKLVGALPLGWKQKLAFSVAVFHKPKIVFLDEPTGGVDPITRRQFWDMIYQAAAEGITVFVTTHYMDEAEYCNRISVMVDGRVEAMDTPSNLKKKFNTQSMDDVFYELARRAKRSGD	PGPT0006725_21317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_01436	1107	ybhR_1	COG0842	putative multidrug ABC transporter permease YbhR	ATGAAACAGCTATTCGTATTCATAAGAAAAGAATTTTATCATGTATTCAGAGACAGAAGAACACTGCTGATTCTTTTCGGTCTGCCTGTTATTCAGATCATTCTTTTCGGGTATGCATTGAGCAGTGAGGTCAAAAATATCGGAATTACTGTTTTGGATAATGCCCATGACATTCAGTCTGAGCAGATCATTTCAAAAATAAGGTCAAGCTCCTATTTCCAGATGCAGGAATCTTCACTAAACTATATGGATATAGAAAAAAAGTTCAGGGAAGGAAAGATAAAATGTGCTGTGATATTTCCTCTTAATTTCGGATCAGATCTTTATACTGCTGCCGGAGCGCAGATCCGTATTATTGCGGATGCTTCAGATCCGAATACTGCTACTATTCTTACCAATTATCTCACTGCAATGATCGTAGACTACCAACAGCAGCTCAATCCCAATATAAAACCTTCCTATAAGATTATTCCAGAAATGAGGCAGCTTTATAATGAAGATCAGAATGGATCCCTCAATTTCATTCCGGGCGTTATTGCACTTATTTTTATGATTGTAAGTACTGCCTTAACCTCGGTGGCTGTTGTCCGTGAAAAAGAACTTGGCACCATGGAAATATTGCTGGTATCACCTTTCAAACCTGTTATGGTATTGGTAGCAAAGGCAATTCCTTATCTCGTCCTGTCTCTTGTTAACTTTATCATTATTCTCCTTCTCTCTGTTTATTTATTGAATGTAGAGATCCGTGGCAGCCTCATTCTGTTATTTGCAGAAAGCATATTATTCATTATTACCTGTCTCTCATTAGGTTTATTGATATCTAATATTACCAGCTCCCAGCAGACCGCCATGCTGATTTCCATGATGGGAATGATGCTTCCCACCTTATTATTAACCGGATTTATGTTTCCGGTAGAAAATATGCCTGTCATTTTTCAGATGATATCCAGGATTCTGCCCTCAAGATATTATTATGATATTGTAAAAGCAGTTATGCTCAAAGGACTTGATTTCAGATATGTATGGAAAGAAACGCTGGTTTTACTGATCATGTCGGCAGGATTGCTGGCACTTGCTCTGAAGAAATTTAAAACCCGACTGTCATGA	MKQLFVFIRKEFYHVFRDRRTLLILFGLPVIQIILFGYALSSEVKNIGITVLDNAHDIQSEQIISKIRSSSYFQMQESSLNYMDIEKKFREGKIKCAVIFPLNFGSDLYTAAGAQIRIIADASDPNTATILTNYLTAMIVDYQQQLNPNIKPSYKIIPEMRQLYNEDQNGSLNFIPGVIALIFMIVSTALTSVAVVREKELGTMEILLVSPFKPVMVLVAKAIPYLVLSLVNFIIILLLSVYLLNVEIRGSLILLFAESILFIITCLSLGLLISNITSSQQTAMLISMMGMMLPTLLLTGFMFPVENMPVIFQMISRILPSRYYYDIVKAVMLKGLDFRYVWKETLVLLIMSAGLLALALKKFKTRLS	PGPT0006730_7205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_01437	1125	ybhR_2	COG0842	putative multidrug ABC transporter permease YbhR	ATGAAAATAATGGTATTCATATTGAAAAAAGAATTTCGTCAGATATTCAGGGATAAAATTATCCTTGCCATGATGTTTGCAATGCCTACAGTACAGCTGATTATTATGCCGCTGGCGGCAAATTTTGAGGTAAAGAATATTCATATAGCCTATGTAGACCATGACCACAGCAGCTATTCTCGGAAATTACTTCATAAAATTACATCTTCCGGCTATTTTAAACTGGCAGGAAATCCTGATTCCTATAAAAACGGATTAAAAATGATTGAAGAAGGAAATGCTGACCTTGTTTTGGAAATCCCTCCCGGATTTGAACGAAACCTGGTGCGCGAAGGAAATCAGAAGGTAAACCTTTCTGTAGATGCAATCAATGGAACAAAATCAGCATTGGGAGGAAGCTATTTGCTGTCTGTTATCAATGATTTTAACAGCAGTTTAGATGTTAATGTCAAATTATCAGCCGGAAAACCGGATATTTCTTCTGCAAAAATTATTATTAAGGAAACCAATTGGTATAATCCCAGAGCAGAATACAAATACTATATGGTTCCGGGTATACTGGTACTTCTTCTCACCCTGATCGGTGGTTTCATCACTGCTCTGAATATTGTAAAAGAGAAGGAAATAGGAACAATTGAACAAATCAACGTAACCCCAATAAAAAAATGGCAGTTTATTTTAGGCAAACTGATTCCTTTCTGGATTGTAGGAATGATTGTTTTTACCCTTGGACTTATTGTAATGTACGGTATTTATGGTATTTTTCCGGAGGGAAGCCTTCTCACCCTATATCTTTTTGCCGCAGTTTATCTTATTGCCTTACTGGGATTGGGACTGCTGATATCCACTTTTGCCGATACACAGCTGCAGGCCATGTTTATAGCCTATTTCTTTATGATGGTATTCATGCTGATGAGCGGTTTTTTCACCAATACGGAAAGTATGCCGGACTGGGCAAGAAAAATGTCAGACCTTACACCGGTAACGCACTTTATTAAAGTAGTAAGACTCATTGTTTTGAAAGGAAGCCGATTCTATGAACTGCAAACCGAATTTTTCTACCTGATAGGCTTCGCAGTTGTACTGAATGGGCTTGCAATCTATAATTACAGAAAGACAAACTAA	MKIMVFILKKEFRQIFRDKIILAMMFAMPTVQLIIMPLAANFEVKNIHIAYVDHDHSSYSRKLLHKITSSGYFKLAGNPDSYKNGLKMIEEGNADLVLEIPPGFERNLVREGNQKVNLSVDAINGTKSALGGSYLLSVINDFNSSLDVNVKLSAGKPDISSAKIIIKETNWYNPRAEYKYYMVPGILVLLLTLIGGFITALNIVKEKEIGTIEQINVTPIKKWQFILGKLIPFWIVGMIVFTLGLIVMYGIYGIFPEGSLLTLYLFAAVYLIALLGLGLLISTFADTQLQAMFIAYFFMMVFMLMSGFFTNTESMPDWARKMSDLTPVTHFIKVVRLIVLKGSRFYELQTEFFYLIGFAVVLNGLAIYNYRKTN				NA	NA	NA	NA	NA
BMS003_01438	3906	rcsC_2		Sensor histidine kinase RcsC	ATGAAGAAGTATCCAATTCCTGCGAATGAAGAAGAGCGAATAAAGAAACTGGAGTTTTTTAACCTTTTAAATCTGGAAAAAGATCCCCAGTTAGATATTTTCGCAGAAACAGCATGTCTGGTGACTGACTGCCCTGCAGCGCTTATTGCCATGATGGAAAGTGAAACCCAAACCATTCAGAGCTGTGTGGGACTTTCCCTTGATTTCGTAGACAGGAAAAATACATTATGCCAGTATTCTATTGCAAGTGGGGAAGTGGTAGTCATTAATGATACTTTATCAGACGAAAGATCTTATGATAATCCACTGATCCTGGCAGGAGGAATCCGTTTTTATTTGGGAATTCCACTCATTGATGATGAAGGATTTGTATTGGGAACAATGTGCGTTATTGATTATAAGCCTAAAACGATTACTGACGATCAGGTTTCAACCCTGAAAAAAATAGGGGAGGCAATCACAAAAATCCTTATGGGAAAAAGGAAGAACATCCAGGCTGAATATTTTCAGCAGACCTTTACTATTTCCAATAACCTGATCTGTGTTCTGGATAAAGACTTTTTACTGAAAGATATTAACCCTACTTTCGAAAAAACATTTCAACGGAATAAAAATCAGATCCTTAACCAGAGTTTTCTAGAACTCATAGGAAGTCATAACTATCAGCTTCAAATACTTGCCCAGGATCTTCCCAAAAATGATGAAGAAGTAACATTTACCACATCAACAAATATTGATGATACTCAAACCATTATTATTGAATGGTATTTAAAGCTTAATCAGGATCACGCTGAAATTTTTTGTTTCGGAATTAATATTACCCAGCGAATCGAAGAAAAGCTAAAATTGGAAAGTTCTGAACGCCGCTTCAGAAGCTTCTTTGAAAATGCAATAGGATTGATGAGTATGCATGATATGGAAGGAAATATCATCGCTGTCAATGAAAAAGGAAGAGAAACCCTGCTATATTCTGCAGAGGAAGTGGAAGATCTGAATTTAAAAGATCTGGTTCCCGAAAAAAACTGGCCTCTCCTTGAACAATACCTGGAAAGGATCAACAAAAACCGGGAAGATTTCGGCACCATGATCCTTAAGACCAAAGAAGGCGAAGAAATAATCTGGATGTACCACAATCTTGTGGAAATCAATAAAGAAGGACAACCTTATGTAGTAAGTACCGCACTGAATGTTACCGAAAGAGTGACTTTGGAAAAAGATCTGGTTCATACCAAAAAAATGCTGGAACAGACCAGTGCTGTTGCACAGGTAGGAGGCTGGGAAGTAAATCTGAAAAATAATACGGTTACCTGGTCACAGTCTACCAGAGAAATCCATAAAATGGATAAAAATTTTCACCCTGATTTTGATAATGCACTGGGTTTCTACAGTGAAAAAAGCAGGGAAAAGCTGGAATTTTTATTTGAAAAAGCGGTAAAAGAAGGTGTTCCCTATGATGAAGAACTACAGCTTGTACGAAATGACGGGGTAATAATCTGGGTAAGGCTGAAAGGCATACCGGAATTTGAAGACGGAATATGCACCAGAGTCTATGGAATCATACAGGATATAGATGCCTTCAAAAAAGTTTATCTTGAACTGGCCAGAAAAGAAGCCATGCTACAGTCATTTGTCACCTATGTTCCTTCTACAGTGGCCATGTTTGACAAGGAACTCAATTATCTGTCAGTAAGCAGAAGCTGGAAAGAGGAATTTCAGATGAATGACATCAGGCTTATCGGAGAAAATATGTTTAAAATCTCACCTAATGTACCGGATGAGAGAATAAAAATATACAAGGATGCACTTGCAGGAAAAGCCTACAAAAATGAGGATATGGCAATAGAAGTTCCTGGGAAAGAAGTCATTCAGCATTACAATATAGAAGTTACACCATGGTATCTTTCCAGCAATGTTATAGGCGGTATTATTGTTTCTGCACAGAATATTACAGCTTCTGTAAAAATTAATAAAGAGCTTAAAAACGCTAAGAAAATGGCAGACATTGCCAGCAAAACCAAATCAGAATTCTTAGCTAACATGAGCCATGAAATCCGGACTCCTCTGAATGGCGTCATCGGTTTTTCTGATCTCCTGTTAAAAACCCCCTTGAACGAAATACAGACTCAATATCTTAATTATATCAATGAATCCGGTGAAAATCTGTTAAGCATCATCAATGATATTCTTGACTTTTCTAAAATAGAATCCGGAAAAATGGATCTTTCTATTGAAAAAGCCAATGTATATGATATTGTCAGCCAGGTAATCAATGTAATTCTTTATCAGTCTCAGAAAAAGAATATAGAATTACTCTTAAATATAGAACAGGGACTTCCTGAAACCATCTGGCTGGATGAATCGAGGTTGAAACAGATTCTGATCAACCTTCTTGGAAATGCTGTGAAGTTTACAGAACAGGGAGAAATAGAGCTTAAAGTAGAGAAACTGAATATTGACAGCGAGAATATCACCCTTAGATTTTCAGTACGGGATACCGGGATTGGCATTCCTAAAGAAAAGCAGCAGCATATTTTTAATGCTTTCACTCAGGAAAACAGCTCTATCAGTAAACGGTACGGAGGAACAGGCCTCGGACTTACCATTTCCAATAATATCCTGAACTATATGGGAAGCAGCCTGTCCTTAGTAAGTGAGCTTCAGAAAGGCTCTGTTTTCTATTTTGATATCCAGGTTCCTTATGAAATATCTGACCGCCATGAGGACGAAGACCTGAAAATCAATAAAGTGCTTATTGTAGATGACAATGAGGCCAACAGAATTATTATTCAGCATATGCTTGCTTATAAAAATGTAGATTCAAAGCTTGCTGCCAATGGAATGGAAGCCCTTCATACACTGCTTACAGGAGAGCGCTTTGATGTCATTCTGATGGATTACCATATGCCTGTCATTTCCGGACTGGAAACAATTGAAAAAATAAAAGAGCTATTTAAAAGACAAAATGAATCTTCCCCTCTTATCATCCTGCACACCTCTTCTGAGGAACATGACGTGATCAATTCTTTCCGTCAGGAAAACAATTCATATTTCCTGCTGAAGCCTATCAAGTCTGAAGAACTCTACAAAACCCTGAAACAGGCGGTAAAAAACACCGAAAAAGAAATAGCAGGCATCTTACAGCCGGAAACAGAAACATCAGTACTCATGCAGTCCCCTCAGGTTTTACTTGTAGATGACAATCCGGTCAATATGGTTCTGAACAATAAAATGATAAGCTCACTGATTCCTGATGCACAGCTTACAGAAGCTACGGATGGCCTTCAGGCATGGCAGCTGTGTAAAGAAAAAACATTCAATCTCATTTTAATGGATGTTCAGATGCCGGTAATGGATGGTATAGAAGCTACAAAAAAGATCCGTCTAATGCCGGAGTATTCCAATGTCCCTATTATTGGTGTGACAGCAGGCAACGTATTGGGTGAGAAAGAAAGATGTCTGGATTCCGGAATGAGTGACTTTCTTCCTAAACCTTTAAGACAGGCAGACCTTCTGGAAATGCTGAAGAAATATATCATGAATGAAAACAATTTATCAGCTGAAGATTTTATAACCCAGGAAAACTATCTTGATGTAAAACTCCTAAACGAGCATATAGGTGATGATGAAGATTTCAAAAAGATATTCCTGGATCTTGTGACACAGGAACTTAATCAGGCCGAGGAAAATATCAGAAAAAGTACAGCTGAAAAAGACAGTGCCAATCTGAAACGGATTCTTCACAAACTCAAAGGAACAGCGGGAACAGCCGGATTGGTAAGACTTATGGAACGTACTGCCGACTGGGAAAAGAAAACCGAATCCAACATGGATTTTGTTTCCATGGAAAAAGAAATGATCCGGGAAATAGTAACAGGGTTACAATTAATGAGAAATTTAATACAATAA	MKKYPIPANEEERIKKLEFFNLLNLEKDPQLDIFAETACLVTDCPAALIAMMESETQTIQSCVGLSLDFVDRKNTLCQYSIASGEVVVINDTLSDERSYDNPLILAGGIRFYLGIPLIDDEGFVLGTMCVIDYKPKTITDDQVSTLKKIGEAITKILMGKRKNIQAEYFQQTFTISNNLICVLDKDFLLKDINPTFEKTFQRNKNQILNQSFLELIGSHNYQLQILAQDLPKNDEEVTFTTSTNIDDTQTIIIEWYLKLNQDHAEIFCFGINITQRIEEKLKLESSERRFRSFFENAIGLMSMHDMEGNIIAVNEKGRETLLYSAEEVEDLNLKDLVPEKNWPLLEQYLERINKNREDFGTMILKTKEGEEIIWMYHNLVEINKEGQPYVVSTALNVTERVTLEKDLVHTKKMLEQTSAVAQVGGWEVNLKNNTVTWSQSTREIHKMDKNFHPDFDNALGFYSEKSREKLEFLFEKAVKEGVPYDEELQLVRNDGVIIWVRLKGIPEFEDGICTRVYGIIQDIDAFKKVYLELARKEAMLQSFVTYVPSTVAMFDKELNYLSVSRSWKEEFQMNDIRLIGENMFKISPNVPDERIKIYKDALAGKAYKNEDMAIEVPGKEVIQHYNIEVTPWYLSSNVIGGIIVSAQNITASVKINKELKNAKKMADIASKTKSEFLANMSHEIRTPLNGVIGFSDLLLKTPLNEIQTQYLNYINESGENLLSIINDILDFSKIESGKMDLSIEKANVYDIVSQVINVILYQSQKKNIELLLNIEQGLPETIWLDESRLKQILINLLGNAVKFTEQGEIELKVEKLNIDSENITLRFSVRDTGIGIPKEKQQHIFNAFTQENSSISKRYGGTGLGLTISNNILNYMGSSLSLVSELQKGSVFYFDIQVPYEISDRHEDEDLKINKVLIVDDNEANRIIIQHMLAYKNVDSKLAANGMEALHTLLTGERFDVILMDYHMPVISGLETIEKIKELFKRQNESSPLIILHTSSEEHDVINSFRQENNSYFLLKPIKSEELYKTLKQAVKNTEKEIAGILQPETETSVLMQSPQVLLVDDNPVNMVLNNKMISSLIPDAQLTEATDGLQAWQLCKEKTFNLILMDVQMPVMDGIEATKKIRLMPEYSNVPIIGVTAGNVLGEKERCLDSGMSDFLPKPLRQADLLEMLKKYIMNENNLSAEDFITQENYLDVKLLNEHIGDDEDFKKIFLDLVTQELNQAEENIRKSTAEKDSANLKRILHKLKGTAGTAGLVRLMERTADWEKKTESNMDFVSMEKEMIREIVTGLQLMRNLIQ				NA	NA	NA	NA	NA
BMS003_01439	357	saeR	COG0745	Response regulator SaeR	ATGCTGATTCTAATCGCCGAAGACGACGAACTGATTCTAAAAACAATTGAACATAAATTATTAAAAGAAGGACATGAGGTAATCCTGACCCGAAATGGAAAAGATGCCATAGAAACCCTGAAAACCAAAGATGTAGACCTGACTATCACAGATATTATGATGCCGTTTGCCTCCGGAATTGAAATACTTTCAGCCATTAAAAACATGAATAAGCAGATCCCGGTGATCATGCTTTCCAGCATGGGGCAGGAAGAAGTAGTACTGAATGCATTTGATCTCGGAGCTGCCGATTTTATTGTGAAACCATTCAGTCCCAATGAACTGATATTAAGAATAAAAAGATTTTCTTCAAAATAA	MLILIAEDDELILKTIEHKLLKEGHEVILTRNGKDAIETLKTKDVDLTITDIMMPFASGIEILSAIKNMNKQIPVIMLSSMGQEEVVLNAFDLGAADFIVKPFSPNELILRIKRFSSK	PGPT0002665_2189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
BMS003_01440	1068			hypothetical protein	ATGTTTCTTACCACTTCTGTCCATTTTCTTTTTCTTGTTTTTCTGGGGATGCTGTCTTTAGTACTCTTACTTATCATAGTTGTACTTATCTACAGCTTTTATCAGTACAGAGAATCTGTTCAGATTTTCAGATGGTCGGAAGTGATCAATAAAAAGATCTCGGAAGTAATTGTATATGACGAAGAGGAAATATTGGCAGACAGTACATTTTTAACAGTTTCCGGCAATTCTTCATTCAGGAATCTATTCCTTCAGAAACTGGTAGAATCTGAGAAGAAGTTCTCCGGCGCAGCACAAAATAAAATAAAAGACCTTTTCCTGGAATATGGTCTTAAAGAAGAAGCATTGAAAAAGCTCAGCCAGAAGAAAGAACACCTGATTACAGGAGGAATCCAGGAGCTTACGACAATGCATGTAGAAGAGGCATTACCAAAAATTTCTACATTTTTAAACCATCCTTCGCCACAGGTTTATCAGGAAGCACAATATGCAATGGTTAATTTTAAAGGATTTGAAGGTCTCCATTTCCTGAACAGCATTTCATCAAAAATATCAGAATGGCAGCAGCTTCGTTTGCTTATTTCCATCACCCACGTTCCTGAGAACTCCGGCGACAGTATTAAAGGCTGGCTGGAAAGCTCTAATGATTCCGTTGTCATTTTTACCCTTAAACTGCTAAGAAAGTTTCAGATACTCTCTCTCTATCCTGTAGTAACTGATGCATTGGATCATTCTTCTGTCGAAGTACGCGTGCAAGCAGTACAAACCATGTTATCACTGGAAAATTCATCAACCATTGCCCTTCTTATGGAAGTTTATTCTCATCAGCCGGTTGAAGTCCGGAAAGAAATTCTTAAAGTCATGAAGAAGTCGAAAGATCAGTACAGTACAGACTTTCTTAAGGATCAACTGCTGAACAATGCTGATTCTGCCATAAAGGTGTATGCTGCAGAAGCATTATGCAAACTTGAAAAGCGGGAATACCTGAAAGAAATATCACAAAGTGAAACTTCTTCTGAAGAGTTAATTCAAATCATTAAATACGCATTGCAGGAAAAAATATGTTAG	MFLTTSVHFLFLVFLGMLSLVLLLIIVVLIYSFYQYRESVQIFRWSEVINKKISEVIVYDEEEILADSTFLTVSGNSSFRNLFLQKLVESEKKFSGAAQNKIKDLFLEYGLKEEALKKLSQKKEHLITGGIQELTTMHVEEALPKISTFLNHPSPQVYQEAQYAMVNFKGFEGLHFLNSISSKISEWQQLRLLISITHVPENSGDSIKGWLESSNDSVVIFTLKLLRKFQILSLYPVVTDALDHSSVEVRVQAVQTMLSLENSSTIALLMEVYSHQPVEVRKEILKVMKKSKDQYSTDFLKDQLLNNADSAIKVYAAEALCKLEKREYLKEISQSETSSEELIQIIKYALQEKIC				NA	NA	NA	NA	NA
BMS003_01441	3438			hypothetical protein	ATGTTAGAACTCTCACATATCATCTATGAAGTTGTTATCTGGCTGTTTATGATTTACGGAACAGCAGTAACCCTTATCTATGGCTGGATAGGAATTTATGCACTGGGCGCTGTACTGCGTTATAAAAAAGAAAATACGTTTACAGACTACAGAATCATCGCAGCAAATCCCAACGCCCCGGTATTCAGTGTTATTGCTCCGGCCTATAATGAAGGAATGACTATTGTGGAGAATGTACGTTCCCTTTTATCTCTTTATTACCATAAACTGGAAATCATTATTGTAAATGACGGAAGCAAGGATGATTCCATGCAAAAGCTCATTGAAGCTTACCAACTGGAATCCATAGCTTATTTCATTCAGGGAAAAATAGAAACCAATGCTGTAAGAGGAGTTTATAAAAGTAAAAACCCGGCCTTTAAAAAACTGATTGTTGTTGATAAAGAAAACGGGGGGAAAGCAGATGCGTTAAATGTAGGAGTAAACATATCTTCCGGTGAATATCTGGTCTGCATTGATGTTGACTGTATTCTGGAACAGGACTCCATTTTAAAGCTTGCAAAACCCATGCTGGAGCAGACCGACAAAAAGTTTATTGCCTGTGGAGGAGTCATTCGCCTGGCCAATAATTGTGTCATTGAAAACGGAAAAGTAGTAAGCGTCAACATGCCGAAAACACTCCTGGGAAGAACACAGGCATTAGAATACATCCGGGCTTTTGTACTCGGACGTATGGCGTGGTCCCGGGCATCAGGCCTGATCCTGATCTCCGGTGCCTTTGGAGTTTTTGATAGAAAAATTGTCCTGGAATGTGGCGGTTATGATAAAAATACAGTAGGAGAGGACATGGAGCTGGTCGTAAGAATGAGAAAGTACATGGAGGAAAAAAATGAACCCTATGAAGTACTTACGATCCCGGATCCTCTATGCTGGACAGAAGTTCCCGAATCCAAAGATGTTCTTAAAAAGCAACGAAACAGATGGATGCGCGGAACCATGGAAACCCTATGGAAACACAGAAAGCTGATGTTCAATCCCAGGTACAGAAAATTAGGAATGATCAGTCTTCCCTATTGGTTCTTTTTTGAATTTCTGGGGCCGCTCATCGAATTTTCAGGGTATATCATCTTTATTATATTTTTAGTACTCGGAATTATCAACTGGCCGTTCTTCATCGTTCTTTTTGCCCTCGTGATCTCAATGGGCTTTCTCTATTCCATCTATGCAATATTAGTGGATCTTGTAAGCCATCAGGTCTACACCAAAAGAAAAGATTTTTTCAGATTGATTTTCACTGCCTTTTCAGAACCTTTTTATTTTCATCTGATCGTAGTAAAAGCAGGAGTGAACGGATTTATAGATTATTTTAAAAAATCCCATGGCTGGGGTGAAATGACAAGGCAGGGTTTCAACCAGAGTACACAGCATCTGCCTCTGAAAGAAAGAGTATATGCTATTCTTCAGACTGGTCTTAAAAAATGGGGAATGCTTGCACTGGTTTTCTTTGCTTTATTTTTAACAGGAGTAACTGCAGAATCGCTTTGGTACAGATATATCTTTCCAAAATTTGAAACATCAGCCATCATCGGTAATCTTTTCGTAGAAAATATTTTATTTGCCCTTAAGCTTACATTCTGTACAGGACTTGTCTATCTGATTATCAATTTTATCAAAGAAGGCTGGGCCAGGATTCTGGGAATTTTAACATTGCTTATTGTAGCAGTTATACAGTATATTTTGTTCCTGTATTTTTCCGAAACCCGTAATGTATTGGGCGCAGATATTTTATACTACAGCAATGAAGAGATGAAACAGATCTTACAGGCAAGCGGAATGCTCAACTTTAAAAACTTTATGTTACTGGGAGTTTTGATAGCCGGTTCTCTCATTCCTTTATGGTTTTCTGGTAAAGCAGCTCTGAAATCCATGTATCCGGGATTGGTAATATTAATTTTAGGATTGGTATCATTTTTCATTCCCTCCAATATAGCCGGATCTAAGATTCTGAGCTCAACAAGTGAATTTAACCAAAATGCAGCAAGAAGTAAATGGGCTTATTTCCTGAAATCCAATGAAGACAATTTCATGAGTGATCATCCGGAATTAACTGATTTACTGGGGAAAAATGAAGATTTCACCGCCAATTCAGAAATGATTGATAAAAATTTTCCGTTCTGGAGAAAAGAAAGCACACCGGATTTCCTGGGATCTTACTTTAACAGATCTGAGAAGACTCCTAATCTTGTTTTCCTTGTGATGGAAGGCTTCGGACATGCCTACACCTCACCGAAAGGATACATCGGCTGCTTTACACCTTACCTTGATTCTTTATCAAATAAGAGTCTGTATTGGGAAAACAGTCTGAGTTCTGCAGGAAGAACATTCGGAGCATTGCCGTCACTGACAGGATCACTTCCTTTCGGAAAAAACGGATTCCTTGAAATAGAAGATACACCGGAAAACTTCAATCTTTATAACATCCTTAAAGCCAACGGGTTCGAAACAGGATTTTATTATGGAGGTCACGCATCATTTGACCATTACCGTGAGTTTCTGGAATACAGTGGAGTAGACCATATCGTAGACGAAGCCTCGTTCAGCAGCCCCTACCGCAAGCTCCCTGCCAAGAACGGCGAAAGCTGGGGATATGAAGATCAGGCTGTATTAGCTAAAATGCAACAGCAGCAAAAACCACAGAACCAGCCGTATTTCAATATGATCCTTACACTTTCAACGCACAATCCTTTTTTAATCAACAATAGGGATCATTATGAAAAGCTGTACAGTCAAAGGCTTAATTCGGGAATTTTAACACCGGAACAGAAAAAATGGGCAGCCGCTCACAAAGATCAGCTTATTTCGGTACTGAATGCTGACGATGCTCTTAAAGACTTCTTTAAAAACTACAGTAAAAGACCGGATTTCAGGAATACAATTTTTGTCATTACAGGGGATCACAGTATGCCTGAAATTACATTAGAATCAAAAATTGACAGATACCATGTACCTTTACTGATCTATTCACCATTGTTGAAAGAATCAAAACGATTTTATAAAACTGTAAGTCATTTTGACCTTGCACCATCCATTTTAGCGTATTACAGAAATAATTATACCATCAGTACACCTTCTACAGTAACATGGGTAGGAAGAGGTCTATCTGCAGATTCTGAGGTAAACAGAGCCGGAATTCCTATGATGCAAAGCAAAAACCAGCTTATCGATTTTGTGTCTGAAAAATATTATATCCATGACGGGCAGCTTTTCACTCTTAAAAATATGGAAGAAGATGCAGCCAATGACCCCTCGGCTATGAATACAATTAACAACAGATTCAATCAGTATAAAAGCATGAATGCCCGGTTCTATTCCACGAAAAAACTGATGCCGGATTCGGTAATGGTTAATTTTAAGAAAAAAAAACAATCGAAGTTTTAA	MLELSHIIYEVVIWLFMIYGTAVTLIYGWIGIYALGAVLRYKKENTFTDYRIIAANPNAPVFSVIAPAYNEGMTIVENVRSLLSLYYHKLEIIIVNDGSKDDSMQKLIEAYQLESIAYFIQGKIETNAVRGVYKSKNPAFKKLIVVDKENGGKADALNVGVNISSGEYLVCIDVDCILEQDSILKLAKPMLEQTDKKFIACGGVIRLANNCVIENGKVVSVNMPKTLLGRTQALEYIRAFVLGRMAWSRASGLILISGAFGVFDRKIVLECGGYDKNTVGEDMELVVRMRKYMEEKNEPYEVLTIPDPLCWTEVPESKDVLKKQRNRWMRGTMETLWKHRKLMFNPRYRKLGMISLPYWFFFEFLGPLIEFSGYIIFIIFLVLGIINWPFFIVLFALVISMGFLYSIYAILVDLVSHQVYTKRKDFFRLIFTAFSEPFYFHLIVVKAGVNGFIDYFKKSHGWGEMTRQGFNQSTQHLPLKERVYAILQTGLKKWGMLALVFFALFLTGVTAESLWYRYIFPKFETSAIIGNLFVENILFALKLTFCTGLVYLIINFIKEGWARILGILTLLIVAVIQYILFLYFSETRNVLGADILYYSNEEMKQILQASGMLNFKNFMLLGVLIAGSLIPLWFSGKAALKSMYPGLVILILGLVSFFIPSNIAGSKILSSTSEFNQNAARSKWAYFLKSNEDNFMSDHPELTDLLGKNEDFTANSEMIDKNFPFWRKESTPDFLGSYFNRSEKTPNLVFLVMEGFGHAYTSPKGYIGCFTPYLDSLSNKSLYWENSLSSAGRTFGALPSLTGSLPFGKNGFLEIEDTPENFNLYNILKANGFETGFYYGGHASFDHYREFLEYSGVDHIVDEASFSSPYRKLPAKNGESWGYEDQAVLAKMQQQQKPQNQPYFNMILTLSTHNPFLINNRDHYEKLYSQRLNSGILTPEQKKWAAAHKDQLISVLNADDALKDFFKNYSKRPDFRNTIFVITGDHSMPEITLESKIDRYHVPLLIYSPLLKESKRFYKTVSHFDLAPSILAYYRNNYTISTPSTVTWVGRGLSADSEVNRAGIPMMQSKNQLIDFVSEKYYIHDGQLFTLKNMEEDAANDPSAMNTINNRFNQYKSMNARFYSTKKLMPDSVMVNFKKKKQSKF	PGPT0018645_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS003_01442	1233			hypothetical protein	ATGAAAAGATATCCTTCCTTTTTATTAGCATTACTTTTTCCGATGACAATGTATGGACAGCAGAATCTGACTGCTGATGAATTGTTCCTTAAAGCCCGTAACACCGCTTTTGAACAGAAGGACTATACTACATCTATAACACTGGCCAAAGAAGCACTGGAAAAAGCTCCCGATTATACAGATATTTCCATTTTTCTGGGAAGGTTATATACCTGGAATAAAGATCTGGATGCAGCAAGAGCCATATTTGAAGACCTTGGAAAAAGAGAGGTTCAGGATGAAGATTATTTTCTTGCGTATGCCTCATTGGAATACTGGAACGACCAGAATACAAAGGCTATTGAGATTATAGATAAAGGACTCTCCTACCATTCCAAATCTGAGGCATTACTGCTGCTGAAAACAAAAGTATATTTTGGAATGGATAATTATGAGGAAGCTGATAAAGCGGTAAAGACTCTTTTATCCATCAACCCCAAAAATACGGAAGCAAGAGCTCTTGCAGTAAGAATAAATGACCTTTCATCTAAAAATGCCCTTGGAATTATTTATAATTATTCCCATTTTGACAAGCAGTTCGATAACGACTGGCATATCGTAGGAGTAAGTTATAAGAGAATCACTCCTATAGGTTCTGTGATTCTTCGTGGTAACTATGCGAACAAGTTTGCGCAGGGAGGCACTCAGATTGAGCTGGAAGCTTATCCAAGACTTTCAAAAATGTTCTATCTGTATGTGGGGGGAGGATATTCTGATGATGTAGGCCTGTTCCCCAAATACCGCACCGGAGTTTCTCTGAATGCCAATCTTCCTCATAGTTTTGAAGCAGAGCTGGGTTACCGCCAGCTTTATTTCAGTAACAATATCTGGATGTACACTGCTTCCGTAGGAAAATATTACAAAAATTTCTGGTTCAATCTGCGAACTTATATTACTCCGGACAGTAAGAATATTTCACATTCTTATACGGGAACGGTACGATATTACACAAAAGGGGCTCAGGATTATCTTGCCTTTCAGATCGGAACGGGAATAAGCCCGGAAGAATACCGAAATAACCTTCTGGAAAACGAAACCTTTAAGCTTAAAACCTTTAAAGTAGGAGCTGAATATAATTTTTCATTCCGTACTCATCTGTTTTCTGTAGGAGCAATGTATTATAACCAGGAATTCCGTCCGGGTGAGAAAGGAAATCAGTTTGATATTACTTTAGGCTATACCCGAAAATTTTAA	MKRYPSFLLALLFPMTMYGQQNLTADELFLKARNTAFEQKDYTTSITLAKEALEKAPDYTDISIFLGRLYTWNKDLDAARAIFEDLGKREVQDEDYFLAYASLEYWNDQNTKAIEIIDKGLSYHSKSEALLLLKTKVYFGMDNYEEADKAVKTLLSINPKNTEARALAVRINDLSSKNALGIIYNYSHFDKQFDNDWHIVGVSYKRITPIGSVILRGNYANKFAQGGTQIELEAYPRLSKMFYLYVGGGYSDDVGLFPKYRTGVSLNANLPHSFEAELGYRQLYFSNNIWMYTASVGKYYKNFWFNLRTYITPDSKNISHSYTGTVRYYTKGAQDYLAFQIGTGISPEEYRNNLLENETFKLKTFKVGAEYNFSFRTHLFSVGAMYYNQEFRPGEKGNQFDITLGYTRKF				NA	NA	NA	NA	NA
BMS003_01443	789			hypothetical protein	ATGTCTATTTTTTCAAATAATATACGCTTTTTAAGAGCCAGAAGGAAGCTCTCTCAACAGAATGTAGCAGATGAACTGATGATTTCCAGAGTACGGTATTCAAAATACGAAAACGGAATCTCCGAACCTCCCATAGAACTGCTGGTGAAAATCTCTAAGTATTTTCATGTAAGCATTGATCTTATGCTGTCTGTAGACCTTGAAAAACATCCGGTGGATGAAATGCTGAAACTCCCGGACAACAGAATTGTTCTTCCGGTTGCTGTAGATACTCAGGGAAATGATACAATAGAAATTATTCCTCAGAAAGCTTCAATGGGATATCTGGAAGGTTACAGTGATATAGATTATATAGAAAGCCTTCAGCGCATAGCTCTTCCTTTCCTTACCAACGGTAAATACAGAGCTTTTCCTGCAGATGGAGATTCCATGCCTCCTTTCAGAAGCGGGTCATATATTGTAGGAAAATATGTAGAAGGAATCAGTGAACTGAAACAGGGAAAAACCTATGTTTTTGTAACCCTTAATGACGGAATTACTTATAAACGTTTTAAGGAAAAGAAAGAAAATGCTATCTGTGTAAGTGCAGACAACTCTTTTTATGAGCCTTATGATATTCCGTTTGAAGAAGTGGTAGAAATCTGGCAGTATGCTTCAGGAATTTTCCCGGAAGATTTTGAACCGGGTGACTATGAAAGCTACAATTTTAAAGAGATGTTCCGTGAGCTGAGAAAGGATATCAGAGATCTGGATAAAAAGGTTTCAGGGCGACGCCGTAAGCAATCTTAA	MSIFSNNIRFLRARRKLSQQNVADELMISRVRYSKYENGISEPPIELLVKISKYFHVSIDLMLSVDLEKHPVDEMLKLPDNRIVLPVAVDTQGNDTIEIIPQKASMGYLEGYSDIDYIESLQRIALPFLTNGKYRAFPADGDSMPPFRSGSYIVGKYVEGISELKQGKTYVFVTLNDGITYKRFKEKKENAICVSADNSFYEPYDIPFEEVVEIWQYASGIFPEDFEPGDYESYNFKEMFRELRKDIRDLDKKVSGRRRKQS				NA	NA	NA	NA	NA
BMS003_01444	285			hypothetical protein	ATGAAAAACTTAAAAAAATTAGACAGAAACGAATTAAAAGCTATTTCAGGTAACGGATTATTAGATCCAATCGGTGGACTTATCGGTGGACTAGGAGGAGTAGTTGGAGGAGTAGTAGAAGGGGTAGGAACTATCGTTGGCGGTGTAGTTAGTGGAGTAGGTTCTACAGTAGGTGGTGTAGTAGGCGGTGTAAGCACTGTTGTTACTAACACTTTATGCCAAACACAATGTGTTGTTAATGGCGTAATCCACATTAAATTACTTGAGTGTGGTTCTACTTGCTAA	MKNLKKLDRNELKAISGNGLLDPIGGLIGGLGGVVGGVVEGVGTIVGGVVSGVGSTVGGVVGGVSTVVTNTLCQTQCVVNGVIHIKLLECGSTC				NA	NA	NA	NA	NA
BMS003_01445	954			hypothetical protein	ATGAGAAACAATATTTACACTTTGTTATTATTATTTTTATTCACAAGCATTAATGCTCAAGACTATTCAAAATTAATAAGTGAAGCTAATAAATTATATGAAACAAAAGATTATAAAATGTCTACTGATCTATATAATAAAGCTTTTAAAATTGAAAGCAAAAATCCAAATCACTTATATAATGGTGCATGCGCATCTTCTTTAGCAGGAAATACAAAAAAAGCATTTAAATGGCTGAACTTATCAATAGAAAAAGGCTGGACAAATCTAAGACACTTAAATTCTGATACTGATTTAGAAAATTTACATTCAAAAAAAGAATGGGGGAAAACAGTTGAAAAGTTAGAAAAAAAATTAGAGTTAATAGAAGCCAATTATGACAAACCAATGCAGGCTGAATTGTTGGCAATTTTTGACGAAGACCAAAAATATAGAATTCAAATGAATGAAACACAGAAAAAGTTCGGTATGGATTCTAAAGAAATGAGTGAGCTTTGGAAAATAACAAATCAGAAAGACTCACTCAATTTATTAAGAGTAAAAAAAATATTAGATGAAAAAGGTTGGGTGGGTAAAGACAAAGTTGGTGCACAGGCCAATAGTGCATTATTTCTTGTCATTCAACATTCAGATTTGGAAACGCAAAAAAAATATTTACCCATGATGAAAGAAGCTGTCACAAAAGGAAATGCAAATGCAGGTTCTTTAGCTTTGTTAATTGACAGAATAGAAATTCGAGAAGGTAGAAAACAAATATACGGAAGCCAAATAGGAACCAATCCCAATAATAAAACTCAATATGTTTTGCCTTTAATTGATCCTGACAATGTAGATAAAAGAAGAACTGAAGTTGGTTTAGGTTCAATTTCTGATTATGTTAAAAATTGGAATTTAATCTGGGACGTTGAAAAGTATAAAAATGAATTACCCGAATTAGAAAAATTAAATAAATAG	MRNNIYTLLLLFLFTSINAQDYSKLISEANKLYETKDYKMSTDLYNKAFKIESKNPNHLYNGACASSLAGNTKKAFKWLNLSIEKGWTNLRHLNSDTDLENLHSKKEWGKTVEKLEKKLELIEANYDKPMQAELLAIFDEDQKYRIQMNETQKKFGMDSKEMSELWKITNQKDSLNLLRVKKILDEKGWVGKDKVGAQANSALFLVIQHSDLETQKKYLPMMKEAVTKGNANAGSLALLIDRIEIREGRKQIYGSQIGTNPNNKTQYVLPLIDPDNVDKRRTEVGLGSISDYVKNWNLIWDVEKYKNELPELEKLNK				NA	NA	NA	NA	NA
BMS003_01446	771			hypothetical protein	ATGAATAAAATTTTAACAGTTCTCAAAACCTTGATTGCCTATCTCAAAAGGCCTGCTCTTTATCCCGAACTTGGCAGGAAAATCATTAAAAACACTTTAAACAGAAAAAGCCCTTTTAAAGGAAAAGAAAAAACAAATTCCTGGGCCGCCTCCATAGCCGTTACTCAAAAAGAGGCAGTTTCCCGACTTTTCTCTATGGATACCGATAATTTTAAAGAAAAATATGCTGATATCCTGAAAAAAGCAGATCAGAGAGAAAAAGAATGCCCTATTAAAATGGGAGGTCCCGGTGCGCTGGAACTTATTTATTATGCATGTGAATTTACCCTGGCACAGGATGTTCTTGAAACAGGTGTGGCTTATGGATGGTCTTCTTTAGCAGTTCTGCTTTCGCTTCAGAAAAGAAACGGTACACTCTATAGCTCAGATATGCCCTATCTTGCTCAGGACGGAGATCAATATGTAGGATATGTTGTTCCTGAAAACCTCAGAAAAAATTGGAAATTATTTCGTTTTGCAGATAGAGAATCTTTACCCAAAATTTTTAAAGAAGCTTCTTCTTTTGATGTCTTCCATTATGATTCTGATAAAAGCTACAACGGAAGAATGTGGGCTTATCATCAACTGTATGACAGGATGAAACCCGGTGCAGTATTTATTAGTGATGATATTGGTGACAATTCTGCTTATCAGGATTTTTGTAATGAAAAAAATATTGACACTACTGTTGTGGAATACAGTGGAAAATACATTGGTGTTTTTATAAAATAA	MNKILTVLKTLIAYLKRPALYPELGRKIIKNTLNRKSPFKGKEKTNSWAASIAVTQKEAVSRLFSMDTDNFKEKYADILKKADQREKECPIKMGGPGALELIYYACEFTLAQDVLETGVAYGWSSLAVLLSLQKRNGTLYSSDMPYLAQDGDQYVGYVVPENLRKNWKLFRFADRESLPKIFKEASSFDVFHYDSDKSYNGRMWAYHQLYDRMKPGAVFISDDIGDNSAYQDFCNEKNIDTTVVEYSGKYIGVFIK				NA	NA	NA	NA	NA
BMS003_01447	234			hypothetical protein	ATGAAAAGAAAAATAAGAATGAACAGCAGCAAATATAATGAACTGCGCAATCGTAACCTTACGGTTTTCCTCAAATCGTTTTCAAGAGCGTATGGAAAAATAGTGTATTTCCCGGAAATAAGAATAGCAGGGAAGTGGGTACAGCAATGTGGTTTTCAGGCAGGAGATAAAATACTGGTTACTGTAAGCAGAAACCAGATAATCCTGGAAAGGGAAGTAGATTACGAAGGATAA	MKRKIRMNSSKYNELRNRNLTVFLKSFSRAYGKIVYFPEIRIAGKWVQQCGFQAGDKILVTVSRNQIILEREVDYEG	PGPT0027290_539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SymR-SymE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027290-toxin_symE-K19048	NA	NA
BMS003_01448	339			hypothetical protein	ATGCTGGGAATCAAACAGGAAGCATTGGCTTTTGAACTGGGAGACGATTGGAACCAAAAGAAAATCTCCCTTTTAGAGCAAAAAGAAACCGTAGAATCTGATATTCTGGCGCAGGTAGCTCAAATTTTGAAAGTTCCTGCAGAAGCGATTGAGAATTTTGATGAGGAGCAGGCAGTGAATATTATTTCTAATACCTTCAACGATCAATCAAACGGTTATAACTACTATCCTAATTTCAATTTCAATCCTCTTGACAAGATGGTTGAGCTTTATGAGCGCATGCTTCAGCAGCAGAAAGAGATGATTGAGAAATTAGAGAGGTTGATTGAGAGGAAATAA	MLGIKQEALAFELGDDWNQKKISLLEQKETVESDILAQVAQILKVPAEAIENFDEEQAVNIISNTFNDQSNGYNYYPNFNFNPLDKMVELYERMLQQQKEMIEKLERLIERK				NA	NA	NA	NA	NA
BMS003_01449	2115	prc_2	COG0793	Tail-specific protease	ATGATGAAAAATTTTAAAACCATTCGTTTTTTACTTCTTTTTCCGCTAACATTTTTGGTATTCAGTTTCCGGCCTCCCATCAGTGAAGAAGAAAAGATGCAGATCATCATGGTTAATACAAAGAATATCCTGTCTTATCTGCATTACAGCCCAAAACCTATTAATGACGCTTACTCAAAAGAAGTCTATAAACAGTATTTTGAATCAATAGATCCTACAAAAACCTATTTTCTACAATCCGATATGGATGAGTTCCGTACATATGAAACCAAACTGGATGATTACCTGGGTACCGGAGATTTGACTTTTTATAAACTGACAGTCGATAAATTGTATCAAAGAATCGATGAAATTGATAAAATGACCAAGCATATTTTCAGTAAACCCATTAATCTGGAAGAAGATGAAACCCTGACTTTGGAGCCCAAACTGAAAAATGCACCAGCCAATAAACAGCAGCAGTATACTGAATGGAGAAAATACGTAAAATACAATATTCTGCAGGAAATAGAATCTATGAACAGGAAAAGCGAAGAAAAAAAGAAAGAGGATTCTGACAATAAAGAAAACAGCACTAAGCCCAAAGTACTGAGCCAGAATGAAAAGATAAAAAAAGCGACAGAAAATGTGAAAGATCTTCTGGAAGAAAAGTTTATCAGATTCAGGAAAAGGCAAAAAATGGATTGGTTTACCGTATATATAAATGCCTATACTCATGTTTTTGATCCGCATACCAATTATTATTCACCACAGGGCAAAGAAGATTTTGATACAGACTTCAAAGGAAAAATAATCGGGATAGGTGCAGTAGTTCAGGAAAAGAAAGGAAGCCTCTATATCGGTACATTAGCCATCGGAGCTCCGGCATGGAAGTCAAAGCAGCTGACTGAAGGTGATAAGATTTTAAAAATAAAATCTACACCCAATACAGATCCTGTAAATGTTGCTGATATGCTTTCCAGCGAAGCCATAAGATTAATCAGAGGTGAAAAAGGAGTACCCATTACTTTAACGGTACAGAAAAAAGACGGAACTATTCAAGACGTAATCCTGATCCGCGAAGAAATAACTCTTGAAGACACCTTCGCAAAAAGTATTATTGTAAATGCCTCCGGTAAAAAATACGGATTGATCAATTTACCAAAGTTCAATGCTGATTTTGAAGATAAAGACGGAAGAAATGCTTCTGACGATATAAAAAAAGAGATCATCAAACTTAAGGAGCAAAATATCCAGGGAATTGTTCTTGACCTTAGAAATAACGCCGGAGGATCTTTAACAGAAGTAGGCGACATTATGGGGCTTTTCATGGATGCAGGCCCTTATGTACAGGTGAAGGATGGAAATGGAAAGGTGACAACCTTAAAAAATAAAAATGAAACTCCAATCTGGAACGGCCCGCTTGTGATTCTTCAAAATGAATTATCTGCTTCTGCAGCAGAAATCTTAGCAGGTGTAATGCAGGATTACGGAAGAGCAGTTATTATGGGATCTCCCGTATCCTACGGGAAAGGAACTGTGCAGGTATTTGTAGATCTGAACAGGTTTTTAAACACCCAGGAAGACTTTGGATCCATAAAACTGACCATTCAGAAATATTATAGAATAACCGGAGAGTCTACCCAGAGAAAAGGAGTAAGCTCAGATATCCCAATGAAAGATATTTTTTCTTATGCAGACATTGGTGAAAAATATGATGACTATGCATTAGCCTGGGATAAAGTACCGGGAACAAGCTTCAGCAAACAAAGCCTTCTCAATATCCAGGCCTTGCAGAGAGTAAGTGAAGAAAGAATGGCTAAAAACGATAATTATAAGCTATTACTTAAATATGCCCAATGGAGAGAAAATCTGGGTAAAGAAAAAACAGTACCTCTAAGCATGCAAAGATACAGTGACCTGATGAAGCAGAGGAAAACCAAGGATGATCAATTCAAAGCTTTAAAAACATTAGAAAGCGGCCTTACATTCACCCTATATCCGAATGATATTGAAAGAGAAAAAAATGATACAACATTCAAAAACAAATCTGAAGCCTGGGTTAAAAATCTGCAAAAAGATCTATATCTGCAGGAAGCAATAAATATCGTTAGAGATATTGAAGTAAGATCTTAA	MMKNFKTIRFLLLFPLTFLVFSFRPPISEEEKMQIIMVNTKNILSYLHYSPKPINDAYSKEVYKQYFESIDPTKTYFLQSDMDEFRTYETKLDDYLGTGDLTFYKLTVDKLYQRIDEIDKMTKHIFSKPINLEEDETLTLEPKLKNAPANKQQQYTEWRKYVKYNILQEIESMNRKSEEKKKEDSDNKENSTKPKVLSQNEKIKKATENVKDLLEEKFIRFRKRQKMDWFTVYINAYTHVFDPHTNYYSPQGKEDFDTDFKGKIIGIGAVVQEKKGSLYIGTLAIGAPAWKSKQLTEGDKILKIKSTPNTDPVNVADMLSSEAIRLIRGEKGVPITLTVQKKDGTIQDVILIREEITLEDTFAKSIIVNASGKKYGLINLPKFNADFEDKDGRNASDDIKKEIIKLKEQNIQGIVLDLRNNAGGSLTEVGDIMGLFMDAGPYVQVKDGNGKVTTLKNKNETPIWNGPLVILQNELSASAAEILAGVMQDYGRAVIMGSPVSYGKGTVQVFVDLNRFLNTQEDFGSIKLTIQKYYRITGESTQRKGVSSDIPMKDIFSYADIGEKYDDYALAWDKVPGTSFSKQSLLNIQALQRVSEERMAKNDNYKLLLKYAQWRENLGKEKTVPLSMQRYSDLMKQRKTKDDQFKALKTLESGLTFTLYPNDIEREKNDTTFKNKSEAWVKNLQKDLYLQEAINIVRDIEVRS	PGPT0015095_458	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS003_01450	327			hypothetical protein	ATGAATTTAAGAAGAGATGTATTTCAGGCAATAGCAGATCCTACAAGACGATCTATACTGATGCTGGTGGCAGCACAGTCGATGACAGCAGGAGCCATTGCCTCCAATTTTGATACGGCGAGACCTACGGTTTCAAAACATATCCAAATCCTTACAGAATGTGAACTGCTGAGATCTGAACAAAACGGCAGAGAAATTATCTATCACCTAAATCCTAATAAAATGAAAGAAATAGCCGATTTTATAGAACCTTTCCGCCAAATGTGGGACGAAAAATTCAACAAGCTGGAAAGTGTAATGAAAGCATATCAGAATAGAGAGGGGTGA	MNLRRDVFQAIADPTRRSILMLVAAQSMTAGAIASNFDTARPTVSKHIQILTECELLRSEQNGREIIYHLNPNKMKEIADFIEPFRQMWDEKFNKLESVMKAYQNREG				NA	NA	NA	NA	NA
BMS003_01451	474			hypothetical protein	ATGGAACTTAAAACAAAAATCCAGGCAGAAGACGGTAAACAGGAAATCTTTATTATCAGAGAATTTGACCTTCCTGTGGAACTGCTCTTCAAAGCCTATACAGAAGCAGAATTTTTCGAACAATGGATGGGAACTAAAGTAACCAAATTCGAAAACAAACAGCACGGAAGTTACCGTTTCGAAACTTCAAACCCTCAGGGTGATGTAGTTTTCAGCGCCCATGGGACCATTCATGACATTGTTCAGAATGAGAAGATTATAAGAACTTTTCAGATGGAAAACACGCCTTTTCCGGCTCAGATTGAGTTTTTAGAATTTGAAAAAGTAACGGATACCAAGAGCAAAATTACAATCCAAACCATCTATAAATCGGTAGAATTCAGAGATCAGCATCTGAAGATGTCATTTGCACAGGGTATTAATATGGCACATAACCGTTTGCAGGAATTATTAGGGGAAGGAAGCAGGAGATAA	MELKTKIQAEDGKQEIFIIREFDLPVELLFKAYTEAEFFEQWMGTKVTKFENKQHGSYRFETSNPQGDVVFSAHGTIHDIVQNEKIIRTFQMENTPFPAQIEFLEFEKVTDTKSKITIQTIYKSVEFRDQHLKMSFAQGINMAHNRLQELLGEGSRR				NA	NA	NA	NA	NA
BMS003_01452	579			hypothetical protein	ATGAATCCAAAAGTTAATTTTTTCTTTAATAATGCTAAGCAATGGAAAACAGAATTTGAAAAGCTGAGAAACATTGCGCTAAGCACAGAGCTAGTAGAAGATTTAAAATGGGGTTGTCCCTGTTATACTTACGAAGGGAAAAATATTTTCCTGATCCACGGTTTTAAAGAATATTGTGCACTTCTCTTTTTTAAAGGAGCTTTGATGAAAGATCCCGATCATATCCTGATCCAGCAGTCGGAAAATGTACAGGCGGCCAGGCAGATTCGCTTCACAGATGTAGAGCAGATTAATGATCTGGAAAAAATTCTTCAGGCTTATATGTTTGAAGCCGTTGAAATTGAAGAATCAGGAGCTAAAGTTGAAATGAAGAAAACAAAAGAGTTTGAAATAGCCGAAGAGTTTCAAAGTAAACTGAATCAAAATCCTGCATTACATGAAGCTTTCAAAGCATTAACTCCGGGAAGACAAAGAGCCTACCTACTCCACTTTTCCTCTGCAAAACAGTCCAAAACCCGTGAAGCACGCATTGAAAAATGCATTCCACACATTATGAACGGAATAGGATTAAACGACTAA	MNPKVNFFFNNAKQWKTEFEKLRNIALSTELVEDLKWGCPCYTYEGKNIFLIHGFKEYCALLFFKGALMKDPDHILIQQSENVQAARQIRFTDVEQINDLEKILQAYMFEAVEIEESGAKVEMKKTKEFEIAEEFQSKLNQNPALHEAFKALTPGRQRAYLLHFSSAKQSKTREARIEKCIPHIMNGIGLND				NA	NA	NA	NA	NA
BMS003_01453	399			hypothetical protein	ATGAACACACCACAACAATCACAAAAAAGAACAAAAATCATCTATTGGATATTCACCCTTTGGATGGCTTTGGGAATGGTTTCCACTGCTATTGTTCAACTCATGAAAAATAAAGATGAACTGGCTAATTTTACCAATCTCGGCTACCCTTCTTATCTGATGACCATCATCGGAGTATGGAAAATTCTGGGCGTAATTGCTATATTGATCCCTAAACGCTTGTTGTTGAAAGAATGGGCTTATGCAGGATTTTTCTTTGTCATGTCAGGAGCTGTGATTTCCCATTTGATCGTGGGTGACACGGCAGGAAGAACTTTTCCGGCAGTATTATTATTGATGCTGGTTTTTATTTCCTGGTATTTCAGACCTGCAGGCAGAAAAATCAATATTATTGATTAA	MNTPQQSQKRTKIIYWIFTLWMALGMVSTAIVQLMKNKDELANFTNLGYPSYLMTIIGVWKILGVIAILIPKRLLLKEWAYAGFFFVMSGAVISHLIVGDTAGRTFPAVLLLMLVFISWYFRPAGRKINIID				NA	NA	NA	NA	NA
BMS003_01454	837	lgt_3	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGAATTTATTATATATCAATTGGGATATTAATCCCGAAATCGTCAATATTTTAGGACTTCCTATAAAATATTACGGATTACTTTTCCTTGCAGGGCTTGTTTTATCACTCAATATTTTAAAAAGAATTTATAAAAAGGAAGGTCTCAGCACGCAGGCTCATGAAGCTTTATTCTCCTATGCATTGATAGGAATTTTAGTGGGTGCCAGACTCGGGCATTGTCTTTTTTATGATTTTGATTATTATTCCCAGCACCCGATTGAGGTATTTTTACCTATTCAGAAAGGGGTGGACGGAGTTTATCATTTTACAGGCTTTGCAGGTCTTGCCAGTCATGGCGGTGGTATAGGACTGGTGATTATGCTTCTTATTTATGCAAGAAAATTTTCTATCCCGTTTATGACCGTTTTGGATGCCATAGCGATTGTACTTCCACTGGGAGGTACTTTTATCAGGCTTGCCAATCTTATGAATTCTGAAATCATAGGAACTCCTACTCATGTTCCGTGGGCTTTCATTTTCCGTCAGGTAGATGATCTTCCGAGACATCCTGCTCAGCTTTATGAATCCATCTCTTATTTTATTATTTTCCTTGTTGTGTATTTTATTTACAGGAAAAATATTTTTAAGATCGGAAAAGGGTTTTATTTCGGAATCAGTATTTTATTGATCTTTATTATGAGAATTCTGATCGAGTTTATTAAAGTGGATCAGGTAGAATTTGAGCACGGAATGCTCCTGAATATGGGACAGCTTCTGAGTATCCCATTTGTTTTTCTCGGATTATTCTTTATCATCAAAAGTATCATGGAAAAAGGAAAAGCGAAAGCGGCTTAA	MNLLYINWDINPEIVNILGLPIKYYGLLFLAGLVLSLNILKRIYKKEGLSTQAHEALFSYALIGILVGARLGHCLFYDFDYYSQHPIEVFLPIQKGVDGVYHFTGFAGLASHGGGIGLVIMLLIYARKFSIPFMTVLDAIAIVLPLGGTFIRLANLMNSEIIGTPTHVPWAFIFRQVDDLPRHPAQLYESISYFIIFLVVYFIYRKNIFKIGKGFYFGISILLIFIMRILIEFIKVDQVEFEHGMLLNMGQLLSIPFVFLGLFFIIKSIMEKGKAKAA				NA	NA	NA	NA	NA
BMS003_01455	1005	cytR	COG1609	HTH-type transcriptional repressor CytR	ATGAGACGTATTACGATTAAAGATCTGTCCAAATTTTTGTCATTATCTACCTCTACCATCTCCAGAGCGCTGCTTCATGATAAAAATGTGAATGAAGAAACAAGAAAAAGAGTACTGGATGCGGCAGAGAAACTGGGTTATAAACCGAACCTTACCGCTTTGAATTTACAGTCCGGACAATCCAGAACCATTGGGTTTGTGGTACCGGAAATGATTACTCCTTTTTCCTCTACGGTTTTGAAGGGAATTCAGAATATTTTATATCCTCTGGGATACCGTATCATCATCACTCAGTCTGATGAGGATCCTCTTATTGAAAGAAAAAATCTTCAGCTCCTGGAAGAGTTTAATGTGGATGCTATTATTATTAATCTCTGCCATGAAACCCACAATAATGACATATACCAAAGTATTATGGATCAAGGAATTCCTTTAATATTCTTCGACAGAATTCCCCACAAATCCCTGGATGTTTCAAAGGTAATTATTGATGATTCTATTAAAGCTGCATTAATGGTGGAGTACTTAATTAAAACCGGAAGAAAAAGAATTGTTCATATCATGGGACCTTCAACCATCCGAAATGCAGTAGAAAGGGTGAATGGCTACAAGCGTATTCTGATGAAATACAATATTTTTGACGAAAATCTGATTATCCACACGGATGGAATGACTTTCGAACATGGAAAAAAAGCGGTTAAGCAGCTATTAAATAAGAATATAGAGTTCGACAGTATTTTTGCTTTTAGTGACACCCTAGCCATGGGAGCAATGAATCTTCTTCTTGAACAGAAAGTAAGAATTCCTGATGAGGTAGCTATAGCAAGCTTTTCTGGTACGGAATTATCAACAATGGTATTTCCTCAGCTAACCAGCGTACAGCAGCCCTTGGAAAAAATGGGGGAAGCTGCAGCAGAACTTGCATTGGAAAAGATCAAAAACAATATGCTGCCAAGCAAATCCATATTAATGGACGCAGAACTGGTTTACAGAGCTTCCACTTAG	MRRITIKDLSKFLSLSTSTISRALLHDKNVNEETRKRVLDAAEKLGYKPNLTALNLQSGQSRTIGFVVPEMITPFSSTVLKGIQNILYPLGYRIIITQSDEDPLIERKNLQLLEEFNVDAIIINLCHETHNNDIYQSIMDQGIPLIFFDRIPHKSLDVSKVIIDDSIKAALMVEYLIKTGRKRIVHIMGPSTIRNAVERVNGYKRILMKYNIFDENLIIHTDGMTFEHGKKAVKQLLNKNIEFDSIFAFSDTLAMGAMNLLLEQKVRIPDEVAIASFSGTELSTMVFPQLTSVQQPLEKMGEAAAELALEKIKNNMLPSKSILMDAELVYRAST	PGPT0017992_12196	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
BMS003_01456	1437	por	COG0246	Polyol:NADP oxidoreductase	ATGAGTATGATTTATTATAATTATGATGTGTCGGAAATCCGCACAGGAATTTTACATATTGGAGTAGGGAACTTTCACAGGGCTCACCAGCAGTTTTATACTAATCTACTGCTCGATCACGAAGATCAGACGGATTGGGGAATTTGTGGAGTATGTCTGCTGCCGTCAGATGAGAAGATCGTAAAGAATTTAAGAGCTCAGAATCTTCAGTATTCTCTTACTGTTTGTGGAAGAAACGGAAAAGATGAGGTGTATAAAATAGGTTCTTTAAAAGAGTTGATCTGGGGAGTAGAAGACCCGGTGGCTGTTGTGAAAAAAATAGCAGATGCTTCTGTTAGAATCATCACTTTGACCATCACAGAAGGAGGCTACAACCTTGATAAAGAAACCGGAGAATTTATATTGGATGATGAAAAAATACAACATGATCTCAATAATCCTTCCAGTCCTACTACTGTTTTCGGCTTTGTTGCAGAAGGATTGCGCCAAAGAAAAATGCAAAGTGCAGGAGCCATCACGATACTTTCATGCGATAACCTTCAGCATAACGGAAATACGGCAAAAAGAGCTTTTATGTCATTCATAGAAGCACAGGATGCAGAACTGGCAGCATGGGTAAAAGAAAATGTAACCTTCCCGAACAGTATGGTAGACCGTATTACTCCGGCCACAACTCCGGAAGATGTAGAAAGATTAAACAAACGAAACGGAACAGATGATCTGGCTCCAGTATATTGTGAGGACTTTACACAATGGGTAATAGAAGAGGATTTTATTGCAGGAAGACCAGCCTGGGAAAGAGTAGGTGTAGAATTTACGAATGATGTAACCGCATTTGAAAATATGAAATTAAACCTGCTGAATGCTTCCCACACCCTCTTATCTTATCCGGCTTTCTTAATGGGTTACCGCAAAGTAGATCAGGCGATGGAAGATGAAAATCTTGTGAAATTCATCAGAGATTTTATGGATAAAGACATCACACCTTTTGTCCCTGCTCCGGAAAATACAGACCTGGAAAAATACAAACAGACATTGATCGAAAGATTTGCCAATCACAGCGTAAGCGATCAGGTAAGCCGTTTGTGCTTCGACGGAATTTCAAAATTCCCGGTGTACATCGTTCCCAATCTTGATAAAATGATAAAAGGGGCAAAAGATATTTCCAGACCTGCTTTTCTTATTGCTTCCTACAGGCATTATCTTAAATATAAAAAAGATGATCAGGGGAATACATTTGAAATAGCAGAACCCTGGATTACAGAGAATGATCAAAAGCTTATTGTCAGTGAAAATCCACAGGATTTCCTGGAATTGTCAGCTTTTAAAGGAGTTCAGCTCAAAGCTTCTGAACAGTTTATAAAACAGTACACCCGCTTTGTAAAAGATATAAAAAATTCAGGAACCTCTTTGGTTCTGCAATCCATCATAAAATAA	MSMIYYNYDVSEIRTGILHIGVGNFHRAHQQFYTNLLLDHEDQTDWGICGVCLLPSDEKIVKNLRAQNLQYSLTVCGRNGKDEVYKIGSLKELIWGVEDPVAVVKKIADASVRIITLTITEGGYNLDKETGEFILDDEKIQHDLNNPSSPTTVFGFVAEGLRQRKMQSAGAITILSCDNLQHNGNTAKRAFMSFIEAQDAELAAWVKENVTFPNSMVDRITPATTPEDVERLNKRNGTDDLAPVYCEDFTQWVIEEDFIAGRPAWERVGVEFTNDVTAFENMKLNLLNASHTLLSYPAFLMGYRKVDQAMEDENLVKFIRDFMDKDITPFVPAPENTDLEKYKQTLIERFANHSVSDQVSRLCFDGISKFPVYIVPNLDKMIKGAKDISRPAFLIASYRHYLKYKKDDQGNTFEIAEPWITENDQKLIVSENPQDFLELSAFKGVQLKASEQFIKQYTRFVKDIKNSGTSLVLQSIIK	PGPT0018400_663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
BMS003_01457	1347	fucP_1	COG0738	L-fucose-proton symporter	ATGCAGATAAATCAAGGTATAACCCCTTCAGACAACAAGACAAACAATGCTATACTGCCGTTTGTCATTATTACGTTTATCTACTTTATTGTCGGTTTTTTAACGACAGTAAATGAACAGCTACAGGCACCGCTGAAATTTACTTTTCTGAGCCATGCGGGCAGCCTGAAAAACACGTTTACTACTTTGATTTCCTTTTTCTTCTTTTTAGGATATCTTCTGAACGGAACACTGGGAAGCAGATGGGTGAATGCCTTCGGATATAAGAATACCATTTTGCGCGGGCTTTTCTTTATGATTTCCGGCCTTTTCATGTATCTGTGCTCATCATGGGTTGGTGACCACTTTCCTGATCTGAAATTCAGCATAAAAGATGCCGTTATTCCTGTTGGATTTATCGTTTTTGTTATCGGTTCTTATTTGATGGGAACCTCTGCGGCAATCATTCAGGTGGTGGTGAACCCTTATGCTGCTTCCTATGAACTGAAAGGAACTCAGCCCGTACAGCGCTTGAATATCCTGACGGCTATCAATTCTATCGGAACTACTTCTGCTCCTTTTTTCGTTACTGTAGTGATGTTCAGTGGAATTTCCATTGAAAATATAGAAATCAGACAGCTTCTGCTTCCGCTTTCTGTATTGATTGTCTGCATACTTACAGTCATGATCATCACGAAAAGACTTCATCTTCCTGATTTGGCTCACACAAGAGTCGTTGGCGAAGAAAAACTGGAGAGAAGTATCTGGTCGTTCAGACACTTTGTATTAGGAGTTTTAGCCATCTTTTTTTATGTAGGAACCGAAGTGGCTATTGGCGCTAATATTAATCTTTATGCTTTTGAGCTGATGGATTCCGGTCATCCCATCACCTTTTTCGGAAAAACAGATATCATTGTCGGAGGAATGGATTTAGGAATTCATGCATTATTATCAACACTCTATTGGGGAGGTTTTCTGGTAGGAAGAGCGATATCAAGTTTCTTCAGTAAGATTTCTGCAAGAACTCAATTAATTACCACCACCGTGCTTGCAACCATACTTGCTCTGGTATCGATGATCACTCAGAACCTTTGGTTTCTTGTCGCCATAGGACTTCTGCATTCATCCATGTGGAGCTGTATTTATACCCTTTCCATTAAAGGCTTGAACAAATATACCTCAAAAGCATCCGGTATTTTTATCTCTGCCGTATTCGGTGGAGCTGTATTTACCCTTATTCAGGGAGGTTTAGCTGATATTTTAGGATCATGGAGATGGACCTGGTGGCTTACCGTAATCTGCGAACTGCTTATGCTTACTTACGCCTTGTTCGGATCGCGTATCAGAGAAAAAGACCTTATTCACTAA	MQINQGITPSDNKTNNAILPFVIITFIYFIVGFLTTVNEQLQAPLKFTFLSHAGSLKNTFTTLISFFFFLGYLLNGTLGSRWVNAFGYKNTILRGLFFMISGLFMYLCSSWVGDHFPDLKFSIKDAVIPVGFIVFVIGSYLMGTSAAIIQVVVNPYAASYELKGTQPVQRLNILTAINSIGTTSAPFFVTVVMFSGISIENIEIRQLLLPLSVLIVCILTVMIITKRLHLPDLAHTRVVGEEKLERSIWSFRHFVLGVLAIFFYVGTEVAIGANINLYAFELMDSGHPITFFGKTDIIVGGMDLGIHALLSTLYWGGFLVGRAISSFFSKISARTQLITTTVLATILALVSMITQNLWFLVAIGLLHSSMWSCIYTLSIKGLNKYTSKASGIFISAVFGGAVFTLIQGGLADILGSWRWTWWLTVICELLMLTYALFGSRIREKDLIH	PGPT0016725_474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS003_01458	726			hypothetical protein	ATGTTAAAAAACTACTTACTACTTCTTTCCTCTTTTGTAGGAACCTGCTTAAGTGCACAGGAAGTACATTCAGCATTGCAGCTTAGAAACAGCCATTTATGGCGCGGAATTGAAGTTTCTGCCGGACTTATTTATACCGGAGATTTACATCTTGATTATAAGAATTTTTATGCAGGATTCTGGGCCGGCGGTAATGTTGATGGTTCCTATAAAGAATTCAATAATTATATAGGATACAAGAATAAACATCTTACGCTGGAATTATGGGATATTTATAACTTTTCACCAGATGCTACTTATAACAATAAGGAGTTTTTTAATTATTCTGCGAAAGAAACCGGGCGTTTTTGGGACTTCCGATCTTATTACACCATAAGTGATCAGTTTCCTTTGGTGCTCAGCTGGAATACGGTTGTTTTCGGAAGAGACAGAAACAGTGAAAACACAGGAAATAAATATTCATCATTTGTTTCGGGAGAATATCCGGTGTATAAAAAAGATAACCTTGAAGTAAGAGGGAGAGTAGGCTATGCTTTTGCCTTAGACAGTCATGGAGAAAAGAATAATTTCTTTGCTAAAGATTCAGGTTTCAATGAGATAAGCCTTATCGTTTCGAAAAGCTTTACCATTGAGGGTTATAAAATTCCTGTGGGAATATGGGGGATGTGGAATCCGGTGAACAATAATGCTTTTCTTCAGTTTTCTGTGCAGGTTTATTCATTCTGA	MLKNYLLLLSSFVGTCLSAQEVHSALQLRNSHLWRGIEVSAGLIYTGDLHLDYKNFYAGFWAGGNVDGSYKEFNNYIGYKNKHLTLELWDIYNFSPDATYNNKEFFNYSAKETGRFWDFRSYYTISDQFPLVLSWNTVVFGRDRNSENTGNKYSSFVSGEYPVYKKDNLEVRGRVGYAFALDSHGEKNNFFAKDSGFNEISLIVSKSFTIEGYKIPVGIWGMWNPVNNNAFLQFSVQVYSF				NA	NA	NA	NA	NA
BMS003_01459	921	scrK	COG0524	Fructokinase	ATGGAATATAAAAAAAATAAAGCAGTATGTTTTGGAGAAGTGCTCTGGGATATTTTTCCGGGAGAGCAGAAAAGAGTAGGAGGTGCACCTTTTAACGTAGCCTATCATCTTTCCAAAATGGGCGTAGAAGTCAATATGATAAGCAGTATCGGTAATGATCAGCTTGGGAGTGACCTTCTGGATAAAATGAAAAACTGGAATATTCCTGCAGATCATGTCCAGATTAATACAGAATACCCAACAAGTACGGTAATTGCTACGGTAGATGAAAATAACGATGCTCATTATGATATTGTGGAAGATGTAGCATGGGATTTTATTGAAGCAACTCCGGAAAATCAGGAAATTCTAAAAACAACGGATGCATTGGTATTCGGAACATTGGCTGCCAGAAATGAGAGATCCAGAAATACCTTGTTTCAGTTGCTTGAACTTAGCAATTATAATGTCTTTGATATCAATCTCAGAGAACCTTATTATGAAGTGGGAATGATTAAAGATCTGCTTCACAAAACCCATCTTGCTAAATTCAACAAAGCAGAAATGCGCATGATGCTTGATTTTTTAGGAAAAGAATATACCACGGAAGAAGATGGTATAAAATATCTGCAGGATAAGTTTGATCTTGAAGAAATTATCATTTCCAAAGGAAGCAAAGGAGCTCTGTACGCTTGTGGCAGTAGTTTCTATTTATATCCTACTATACCGGTTACCGTAAAGGATACTGTGGGAAGCGGAGATTCATTCTTAGCAGGATTTCTTTCCAAAAGATTAGAAAAAGGAGCTACCGTTCATGAAATAATGACTCAGGCTGTTTCACTCGGTGCATTCATTACCTCACAGGAAGGCGCATGTCCGGAATATTCATTAGGCGATTTTATCAGATTTAAAAATGAACACCCTCTATCAGTTTTAAGCTAA	MEYKKNKAVCFGEVLWDIFPGEQKRVGGAPFNVAYHLSKMGVEVNMISSIGNDQLGSDLLDKMKNWNIPADHVQINTEYPTSTVIATVDENNDAHYDIVEDVAWDFIEATPENQEILKTTDALVFGTLAARNERSRNTLFQLLELSNYNVFDINLREPYYEVGMIKDLLHKTHLAKFNKAEMRMMLDFLGKEYTTEEDGIKYLQDKFDLEEIIISKGSKGALYACGSSFYLYPTIPVTVKDTVGSGDSFLAGFLSKRLEKGATVHEIMTQAVSLGAFITSQEGACPEYSLGDFIRFKNEHPLSVLS	PGPT0017625_3147	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
BMS003_01460	750			hypothetical protein	ATGATTCTTGATGAAACATTTGGTAACTTTATACTGCTACCAAAAACAAAATTTATGCATCATCCGCTGGAAAAACATTATGTAAACAGAGTAGGCTGGCTTCGGGCAGCTGTATTAGGCGCAAATGACGGATTATTGTCTACCACAAGTATTGTTATAGGGGTTGCAGCAGCAGAACCGGAACGTCATATCATTATTCTTGCCGCTTTGGCAGGAATGATTGCCGGAGCAATGTCTATGGCCGCCGGAGAGTATGTTTCCGTAAGCTCACAGGAAGATACAGAAAAGGCAGATCTGATTCGTGAACAACGCGAACTGGAGCAAATGCCCGAAATAGAACTCAGAGAGCTGGCAAAAGTCTATGAAAACAGGGGTTGTACCAAAGAAACAGCTATGCAGGTTGCTATTGAGCTTACAGAACATGATGCGCTTGGAGCGCACGCCCGTGATGAGTTGGGAATCAATGAAATTACCCAGGCAAAGCCTTTGCAGGCAGCAATAGCTTCGTTCTGTTCATTTGCGGTAGGAGCTTTATTACCATTTACTGTTTCTCTTTTAGCACCTCTTAAGCAAATGGTTTATTTTCAATATGGACTTTCAATCATATTTTTAATGCTTTTAGGAGCGGTTTCTGCCCGAGCCGGAGGTTCCAATATCAAAATAGCTGTATTGAGGATATGTTTCTGGGGGACTGTGGCAATGGGAGTTACGGCACTAGTGGGGCATGTTTTTGGGGTGAATGTAGCATAG	MILDETFGNFILLPKTKFMHHPLEKHYVNRVGWLRAAVLGANDGLLSTTSIVIGVAAAEPERHIIILAALAGMIAGAMSMAAGEYVSVSSQEDTEKADLIREQRELEQMPEIELRELAKVYENRGCTKETAMQVAIELTEHDALGAHARDELGINEITQAKPLQAAIASFCSFAVGALLPFTVSLLAPLKQMVYFQYGLSIIFLMLLGAVSARAGGSNIKIAVLRICFWGTVAMGVTALVGHVFGVNVA				NA	NA	NA	NA	NA
BMS003_01461	792	rhaR_7		HTH-type transcriptional activator RhaR	ATGGGATTAATTAATTCACTACCAGATATTGATAAGAACGATAAAAGTGTATTTGTAATGCATGAAAAATCTGAAAAATTGATCCCGGTTCATAGACATACCAAAGGACAACTTAGTTATGTTGAAGGAGGTATCGCTTATATTACTATAAATAATCGGACATATGTTGTTCCCGCAAGACATTTCTTCTGGATTCCGCAGGGTTTGGAACATATTTTACAAATTGGTCATTCTGCAACAGTATTACGATCATTATATTTCTTTGCTCATGACGATTTGTCTGATCCTTTTTTCAGTCGTCTTGGTATTTATCCTGCCACAGAACTTTTAATACAAATGATCAAGTATACTGAAATATGGGATGAGAGACATGTAATATCTACTGATGAAAATTTTGAATTTTTAGTAGCATTAAAAAAAATTCTACCCAAAACCCATCAACAACCCTTGCCCATTATTCTTCCTGCCACCAAAAACAAGATGACTAGGAATATTGTTTCTTATCTTGAATGTACAATAGAAGAAAAACACAGTCTTGCTAGTATAAGTAAAAAATTTGGATTGAGTGAACGCTCTCTATCGCGTCTTTTTAAAACAGATTTGGATATTTCTTTTCTCCAATACTTAAAAACTTTAAGAATTATTAAGGCCATTGAACTTCTTCTTAATACAAATAAGTCCATTAATGAAATTGCATATAACGTGGGTTATAATTCTGTAAGCTCATTTAGTGATACTTTCCGCGAATTTACCAGATCGAGACCTTCAGATTTAAGGAAATTAAATAATTGA	MGLINSLPDIDKNDKSVFVMHEKSEKLIPVHRHTKGQLSYVEGGIAYITINNRTYVVPARHFFWIPQGLEHILQIGHSATVLRSLYFFAHDDLSDPFFSRLGIYPATELLIQMIKYTEIWDERHVISTDENFEFLVALKKILPKTHQQPLPIILPATKNKMTRNIVSYLECTIEEKHSLASISKKFGLSERSLSRLFKTDLDISFLQYLKTLRIIKAIELLLNTNKSINEIAYNVGYNSVSSFSDTFREFTRSRPSDLRKLNN				NA	NA	NA	NA	NA
BMS003_01462	1323			hypothetical protein	ATGAAAAATTATCTCACTGGATTTCTAATGTTTGGAATAACTTTTTCGACTTGGGCCCAGAGTTCTGTTTGGAATGCAGACACATTAAAACTCTCACTAAAAGACGCTTGGAACAAAGCAGAGGAACACAGTCGCGATATTAAAATAAAACATTTGGAAGTGGGTATTTCTGCTGAAGAAGTAAAAGATCTTAGAGCGGAGCGGCTTCCCGAAGTGCAGATAAAAGGAAGTGCAGAAAAAGCAAGCAATATACCGATTTATGAAAATGGCTTATTTTCAAAACCAAGTCAACATGAAGTAATACATACACTCTACAGAGCAGGTGCTGATTTTTATCTTAATCTCTATAATGGAAATAAACTTAATCTACAAATTAAAGAAGAAAAAATACTTCACGAGATTTCTGAAATTAACAGAGAGCAAACTGTTTCTGATATTCACTACAAGACGGCTGCTTTGTATTTAGACTTACAAAAAATATTAATTTTCAGAAAACTTATAAAAGAGGATATTGAAGACCAAAAAAAACAGCTGAAAGAAATACGTAGCTTATTAAAAAACGGTGTTGTACTAAAGAGTGACGTTTTGAGAATAGAGCTTGAGCTCTCCAGACGTGAAATGGCATTAATTACGATAGAAAATGATATTCTTATTGCTACTCAAAAACTGAATATTATTATTGGAGTTCCTGACGAACAAATTGTAGTTCCAGACGAACCGGCTTACATTTGGAACAATACCACCTCCTACGAAGAATATTTAAAAACGGCCTTAGAACATTCATTTGATTATCACATTTCAGAACACAAAACAGAGCTCAGTAAAATAAAAATAGATCAAATTAAAGCTAATGTAAGACCCAAAATTGGAATGTATGGAGAATTTTATTATGCAAATCCACAAATTTTCTTATTTCCTTACAATCCATATTGGTATTCTTTGGGGGTAATAGGGTTAAGAGCATCTTTCAATTTATCATCTTTTTATCATAATACCCATAAGGTAAGAGCTGCCAAAATAGAGTTTGAAAAAGAAGAAGAAAGTTATAAAAATACCGAAGATAAGGTAAGACAACAAGTAAAAGAAGCTTACCTGAGGTATCAGGAGGCTTTAGAACAGATAAAAGTTGCTGAGGCTAATCAGGCTCATGCGAAAGAAAATGCAAGAATTATTAAAAATACTTACTTTAATCAGACTTCTTTAATTACAGATTTGTTAGATGCAGATGTACAACTTCTGCAGACAAAGTTCGAGCTTGAAGCAGCAAAAATAATGGCACAAAATAAATATTACTTACTACAAAATATAATAGGTATTTTATAA	MKNYLTGFLMFGITFSTWAQSSVWNADTLKLSLKDAWNKAEEHSRDIKIKHLEVGISAEEVKDLRAERLPEVQIKGSAEKASNIPIYENGLFSKPSQHEVIHTLYRAGADFYLNLYNGNKLNLQIKEEKILHEISEINREQTVSDIHYKTAALYLDLQKILIFRKLIKEDIEDQKKQLKEIRSLLKNGVVLKSDVLRIELELSRREMALITIENDILIATQKLNIIIGVPDEQIVVPDEPAYIWNNTTSYEEYLKTALEHSFDYHISEHKTELSKIKIDQIKANVRPKIGMYGEFYYANPQIFLFPYNPYWYSLGVIGLRASFNLSSFYHNTHKVRAAKIEFEKEEESYKNTEDKVRQQVKEAYLRYQEALEQIKVAEANQAHAKENARIIKNTYFNQTSLITDLLDADVQLLQTKFELEAAKIMAQNKYYLLQNIIGIL	PGPT0003600_3934	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
BMS003_01463	1059	emrA_3		Colistin resistance protein EmrA	ATGAAAAAAAAATATACGGTAACTGATAGATTTGTTACTAAAATTACAGGGTGGATTGCAAGTTTAATTCTTTTGGGGCTTATAGTTTGGGGGGGAGGATCCTTAATGGATTATTATAAATATGAGCAAACAAATGATGCACAAATACAAGAGTATGTTAATCCTGTTATTTCTAGGGCTGGAGGCTTTATAGTTGATGTTAAGTTCGAAGAAAATCAAAACGTAAAAAAGGGAGACACAATTTTGGTGATTGATAATAGAGAATATGTTCTTCAACAAGAACAAACACAAGCATCTCTTGCAAAAGCTGAGGCTCAGCTTGTCGTTTTAGGAAGTACAATTAATACATTGGAAAATGAAGCTTCTTCTTCTCAAGCACAGATTGCCGCAAATAAAGCGAAGGTATGGAAACAAGGATTGGATTACGATAGATATCTGAAACTATATAATGAAGAATCTGCTACTAAACAACAAGTCGAAAAAGTTCAGGCACAACTTGATGTAGATAAAAGTGAATATAGATCATCTCAAGAAAACTACGCTGCATCAGTTTCAAAAATAGAAGATATTCGCGCAGAAAGAAATGTTGTAAAGGCTGAAATTCAAAGGTTGAAATCATTGCTAAATAGACATAAATTAGATGTTACTTATACGTACATTACAGCTCCTTATAATGGCAGAATGGGAAGACGTACAGTTGAAGTGGGTCAAATGATTGATGCAGGGGAAACTCTTGCTTTTATTGTAAATGACGATACAGATAAATGGGTCGTTGCAAATTATAAAGAAACTCAAATTAAAGATATGAGAATAGGTGATGAAGTAAAAATTATCGCAGATGCATATCCTGAAAAAGAGTTTAAAGGAACTATTATTTCTCTTTCACCTGCTACGGGTTCTAGTTTCTCGTTACTCCCACCTGATAACTCTACAGGTAATTATGTTAAAATTGTTCAACGTATACCCATAAGAATACGAGTAGATGGTTCGAGGAAAGAAATAGATGTTTTAAAGGTAGGTATGAATGTTAACGTATTTGCGTCTAAAAAGCATAGTTAA	MKKKYTVTDRFVTKITGWIASLILLGLIVWGGGSLMDYYKYEQTNDAQIQEYVNPVISRAGGFIVDVKFEENQNVKKGDTILVIDNREYVLQQEQTQASLAKAEAQLVVLGSTINTLENEASSSQAQIAANKAKVWKQGLDYDRYLKLYNEESATKQQVEKVQAQLDVDKSEYRSSQENYAASVSKIEDIRAERNVVKAEIQRLKSLLNRHKLDVTYTYITAPYNGRMGRRTVEVGQMIDAGETLAFIVNDDTDKWVVANYKETQIKDMRIGDEVKIIADAYPEKEFKGTIISLSPATGSSFSLLPPDNSTGNYVKIVQRIPIRIRVDGSRKEIDVLKVGMNVNVFASKKHS	PGPT0013750_2997	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
BMS003_01464	1590			hypothetical protein	ATGAAGACAGCAATCCCAATATTTAAATCTTGGATTCCTGACTGGATGGTGAAAATAGTACTTTTCAGTATGACCCTACCTGGAATTGTGATTTTCTTTCTTCCTCTAGCTAACATCAATGCAGCAGCAGGCTATTATGGAAGTGAACCCGCAGATATGCAGTTTGCAGTGGCTCTTTTTTACGCCGGATACGTAGGATTTTATTCTCTGGAAAGAAGGTTCTTTACTTTTCTAGCTGCGAAAGAATATTTTATAATTTTTACTACTCTGCAAATGCTTGCTTGTTTGGTATGTTACATTACAAAAGATGTTTATATATTATTTCCCGTAAGGTTTATACAAGGAATGTTGTTTGCATCCAATGTGAATATCTCTTTATCTTTAATGTTTACAAGGTTGAAAAGTGAACGTGCGAGAGAAATTGGTTTTTCAGTATTTTTTGGAACTTTGCTCTGTGCTTTGCCTTTCAACAATTTGGTTACCGCGGAATTAATAGATTCTTACAACTTTAACATCGTTTTTAAGTCTGCAATATTCTCCTTCTTTCCGGGTTTACTGTTTATAATAACAGGAATGAATTCTTTTCGGTTACACGTTAAATTTCCTTTATACAAATTGGATTGGCAAAGCTTTGTAATGTACAGTGCTATTCTGTCACTTATAGGTTATATTACCATATTTGGACAAGAGTACTATTGGCTTGATGATGTCAGGATTTCCGGTAGTGTATTAGCTATAATAATTCTGTTAATTATTTCTATATTTCGTCAGAAATCATTGAAGCGACCCTATATCAATTTACGTATTTTTTCTTATCGAAATTGTAAAGTAGGTTTAGTTGTGCTTTTTGTTATGTATATCTGTCGGTTTGCGTCAGGTATTACCAATAGCTATTTCACGGGAGTATTGAAGTTTGATCCTTTTTACCTCTCTTACATGAATGTTTTTAATATTTTAGGGATAATAGCTGGAGTTATTATTTCTGCTGCGATGATTCTGCAGAAAAAAAGAATCAGAAATATTTGGTTATTAGGATTTTGTTTATTGTTTGTTTTCCACGTAAGGATGTATTATCTTTTTGATATACAAGCTGATGAATTTAATTATTTTCTACCATTATTTCTTCAGGGAATGGGTGTAGGTTTTATTATGGTACCCACAATTGTTTATATTATTGCCTCTGTACCAGTCTCGTTAGGTCCATCTGCTGCTGCTGCTGCATTAGCTATAAGGTATTTTGGTTATGCTGTAAGTATTGCTATTATAAATTATTTCGAGCTTTTCAGAAAAAGTATGCATTATAATGCTTTTCAGGATCATTTAACAAAAATAGATCCTATGGTAAAAAACTTTTTGCATAAGCAAAATACAAAACTTAGTACCAAAGGTATGCTGGAGGGAATATCTTCTAAAGCTTCTGAGAAATTACTTATTAAAAATCTTACTATGCAAACACAGATCCGTTTTGCTATGGATTATTATGAGATGATGGCTATTTTCTTATTAATCATTATGGTACTTATTGCAATATTCCCGTATGTTAATAGGACTCGTGTATATCTTAGATCCCGAAGACTTTCACCGGCTTAA	MKTAIPIFKSWIPDWMVKIVLFSMTLPGIVIFFLPLANINAAAGYYGSEPADMQFAVALFYAGYVGFYSLERRFFTFLAAKEYFIIFTTLQMLACLVCYITKDVYILFPVRFIQGMLFASNVNISLSLMFTRLKSERAREIGFSVFFGTLLCALPFNNLVTAELIDSYNFNIVFKSAIFSFFPGLLFIITGMNSFRLHVKFPLYKLDWQSFVMYSAILSLIGYITIFGQEYYWLDDVRISGSVLAIIILLIISIFRQKSLKRPYINLRIFSYRNCKVGLVVLFVMYICRFASGITNSYFTGVLKFDPFYLSYMNVFNILGIIAGVIISAAMILQKKRIRNIWLLGFCLLFVFHVRMYYLFDIQADEFNYFLPLFLQGMGVGFIMVPTIVYIIASVPVSLGPSAAAAALAIRYFGYAVSIAIINYFELFRKSMHYNAFQDHLTKIDPMVKNFLHKQNTKLSTKGMLEGISSKASEKLLIKNLTMQTQIRFAMDYYEMMAIFLLIIMVLIAIFPYVNRTRVYLRSRRLSPA	PGPT0029220_781	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
BMS003_01465	408			hypothetical protein	ATGAAATTAAAACATATATTAATTATTCTTTTGATATTAAATGGTCTTTTTTCCTGTAATAATGATGACAATACTTTTCATCTGAAAACAGTGAAGCTTCTTGAATATTCAAAGAATTTACCCGAACAAAAGCTGTATATAAAAGCTTTTTCTGATGATTTACCAGAGTCGATTGCGCAAACTGAAGAATATCCAAGTACATTACCATTGCCGGCAACTCTAAAAATGTATCCTTCGCCAAGCATGAACCTATACGGGAAAAATTACCACCTGGAGCTTTGGGGCGGGATTTCAGGATATATTGGAAGGTGTGATATTGATATGGATGACTATAAAATTGTTTTCCCTATTGATATGGAAATTGAAAACGATAGTTTAAGTATTTCGATGCAAGGCACCTGGGACTAA	MKLKHILIILLILNGLFSCNNDDNTFHLKTVKLLEYSKNLPEQKLYIKAFSDDLPESIAQTEEYPSTLPLPATLKMYPSPSMNLYGKNYHLELWGGISGYIGRCDIDMDDYKIVFPIDMEIENDSLSISMQGTWD				NA	NA	NA	NA	NA
BMS003_01466	366			hypothetical protein	ATGGAGGAAATAAGAATTTTTAGTGAAACTATATCAGAACTCCTAGACAGTGGGTATCTTTTACAAAATGAACTAACGGAATATTTAAATTTAATACAAAATATTAAAACAGAAGGTTCTGAAATTCCAGCTTCTGGGTTCAAAGTTGATAAAATATATAAATGTTATGACGATAATTCTGAAATAATTTATGTTTTTGCAATATCAAATCCAAATAACAATATAAAAGGAATAACTACTTCAATTCGCGTAGATGAAAACATTATTGAATTCTCGGAATTGTTCAAGAAAATTAGAAAAGGAATAGAGAAATTCGGAAATTATGTTTTTGGAATAAATAATAATAAAATATTTTATCACTTATGA	MEEIRIFSETISELLDSGYLLQNELTEYLNLIQNIKTEGSEIPASGFKVDKIYKCYDDNSEIIYVFAISNPNNNIKGITTSIRVDENIIEFSELFKKIRKGIEKFGNYVFGINNNKIFYHL				NA	NA	NA	NA	NA
BMS003_01467	1458			hypothetical protein	ATGTCAGAAATAAATGAAGAAGTCGTTCGCGGCGGACAGGGGCAAGTTTTAAACCCTGAGACCTATAGAGATTCTATAGGAACAATGGAACAATCAGGTAAGAGAAAATGGGTTTTTCCAAAAAAACCAAAGGGTAAATACACTAATTACAGAGATCTAGTAAGTTATACTCTTTTGATTATGTACTTTGTCATTCCATTTATTAAAATTAATGGAAACCCTTTCTTTTTGTTAAATGTCATTAATGGTGAATATTTTATTGCGGGGCAACCTTTCTATCCGCAGGATTTTTTTATTCTTACCCTAGGTGCTATTGCTTCTCTTATTTTCATTATTGTTTTTACTATTGCCTTTGGAAGAATTTTTTGTGGTTGGATATGCCCTCAAACAATTTTTATGGAATCAGTCTTCCGAAAAATAGAGTTTTGGATTGAGGGTGATCGCAATAAACAAATGAGACTTGATCGACAGGAATGGAATACTGAAAAAATTTGGAAAAGGACTCTAAAATGGTCTATTTATATTATCATTTCTCTCATCATAACCCACATTATGTTTATGTATATTGTTGGTTACGAAAAAGTGTTTAAAATTATCTCGGAAGGACCATTTGAGAACATCACCAACTTTATTGTTATGATTCTTTTTACAGCCACTTTTTATTTTGTATTTGCATGGTTTCGAGAGCAGGTTTGCACATTGGTTTGTCCATATGGAAGGTTACAAGGTGTACTAATTGATAAGGAAACTATTAATGTATTTTATGATTTCAAAAGAGGTGAAAACCGCTCTAAATGGAGAAAAGGGGAAGACAGAAAAGTTACAGGAAAAGGTGATTGTATCGATTGTTATCAATGTGTTGCAGTTTGTCCTACTGGAATCGATATTAGAGACGGACAGCAATTGGAATGCGTAAATTGTACTGCATGTATAGATGCATGTGACGAAATAATGGAAAAAGTAGGTTTGCCAAAAGGTTTGATCAGATACGCATCAGAAAAAGAGATTGAGACCGGGACTCCTTATAAGTTTACTAGCAGAATGAAAGGTTTTGCAGCAATTCTGATATTGCTGATCGGGTTCCTTGGATTCCTTCTGTCAAGCAGAGGTGATATGGAAGCGAAGTTTATCAAACCTGCAGGTAGTACATTTTTTGTAAGAGAAGGAAAAATTATCAATACGTATAATTACACATTTCTTAATAAGACAAATAATAAAAAAATTGTTACTATAAAAGTTATCGAACCGGCACATGCTGAAATTAATTATAGTGCTTCTAGTAAAATAGTCGTAGATCGTGATAAAATATCAAAAGGAACCATCAACATCAGCTTTCCAGAATCACAAATGAATCTTTCCAAACAGAATATTACTATAGGTGTATATGATTTAAATGGGAAGTTAATTGATTCTTATCAGACTTACTTTGAAGGGCCTTTTAAATTACAAATACCTTAA	MSEINEEVVRGGQGQVLNPETYRDSIGTMEQSGKRKWVFPKKPKGKYTNYRDLVSYTLLIMYFVIPFIKINGNPFFLLNVINGEYFIAGQPFYPQDFFILTLGAIASLIFIIVFTIAFGRIFCGWICPQTIFMESVFRKIEFWIEGDRNKQMRLDRQEWNTEKIWKRTLKWSIYIIISLIITHIMFMYIVGYEKVFKIISEGPFENITNFIVMILFTATFYFVFAWFREQVCTLVCPYGRLQGVLIDKETINVFYDFKRGENRSKWRKGEDRKVTGKGDCIDCYQCVAVCPTGIDIRDGQQLECVNCTACIDACDEIMEKVGLPKGLIRYASEKEIETGTPYKFTSRMKGFAAILILLIGFLGFLLSSRGDMEAKFIKPAGSTFFVREGKIINTYNYTFLNKTNNKKIVTIKVIEPAHAEINYSASSKIVVDRDKISKGTINISFPESQMNLSKQNITIGVYDLNGKLIDSYQTYFEGPFKLQIP				NA	NA	NA	NA	NA
BMS003_01468	177			hypothetical protein	ATGATTCCTCAAAACTTTAAAGACATTTTAGCAAATACTGATTATGCAGGATTTTATCAAACGTTATCCATGATTATTTTTTTATTTTTTTTTGTTATTCTCATACTTTATGTTTTCACAAGACCAAAAAAATTTTATCATGAAGCAGAGCGTGCTCCCCTCCGTGATGATCAATAA	MIPQNFKDILANTDYAGFYQTLSMIIFLFFFVILILYVFTRPKKFYHEAERAPLRDDQ	PGPT0000154_303	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
BMS003_01469	2262			hypothetical protein	ATGGAAACACAGAATTTTTACTATGATAACACCATAGTACGTGCATTTTTATATGCAACAATAGTTTTTGCGTTAATAGGATTCGTCTTTGGACTGACTGCAGCTCTGCTTTTGTTTTACCCTGAACTGCCTGAATTCATTTTTGGGACAGATGACCAATCTATTCATATCTTGAGAAACGGAGGTATCCAAGCATTGATAGATACTAATGGAGCCTTCGGATTTGGTCGAATAAGAATGTTGCATACAAATACTGTAATCTTTGCATTTGTTTGTAACAGCTTTTTTATTGGGGTATACTACTCTGTACCTCGCCTCTTAAAAACAGAAATGTTTAACAAAACATTAAGTTGGATTCATTTTTGGACGTGGCAGTTAATGGTCGTAGTAACATTTATTACTTTCTTCATGGGAATCAATACATCAAAGGAATATGCGGAACATGAATGGCCAATCGACATACTTCTTACTTTTTCATGGGTAATTTTTGGACTTAATATGTTCGGAACCATCACAAAAAGAAGAGTTAGACATCTATATGTTGCAATTTGGTTTTATTTGGGAACTTGGATTGCAGTAGCAATGCTTTACATATTCAATAACCTTGAAGTTCCCTTATCATTTACGGGGTGGAAATCATATTCTGCGTATGCTGGAGTAAAAGATGCTATTGTACAATGGTGGTATGGTCACAACGCAGTTGCATTTATTTTAACCACTCCAATTTTGGGATTAATGTATTATTTTTTACCAAAAGCAGCCGAACGGCCTGTTTTTTCGTATAAACTCTCAATTATTCATTTCTGGTCGTTAATTTTTGTGTATATCTGGGCAGGACCACATCATCTTCAATATACAGCAATACCAGCATGGGCACAAGCTGTAGGTACTGGTTTTTCAATTATGCTGATTGCCCCATCATGGGGAGGAATGCTGAATGGACTATTGACTCTGAGAGGATCTTGGGATAAAGTACGAGAAAATCCTATTTTAAAATTCTTTGTCGTTGCAGTTACTTGTTATGGTATGGCAACTTTTGAGGGACCACTACTGGCGACTAAAAACATCAACAAAATTGGTCACTTTACCGATTGGGTGATAGGTCATGTTCACCTTGGAGCATTAGGATGGAATGGTTTTATGGCTTTTGGAATGATCTACTACCTTATTCCAATCCTATGGAGAACAAAAATATGGTCTGTTAAGCTGGCGAACTGGCATTTCTGGTTAGGAACTTTAGGAATTATTTTCTACGCAGTACCAATGTATATTTCAGGATTTACACAAGGATTAATGTGGAAACAATTTAACCCGGATGGGACATTATTATGGAAAAACTGGTTAGATACAGTAACGGCAATTATCCCTTATTTTAAAATGAGATTTTTAGGTGGGTTATTTTACTTTTCAGGTGCTATCTTAATGGTCATTAATCTTACAGCTACTATTAGAAAAGGCTCTTTCCAAAAAGAAGTGCCTGCCGAAGCACCGGCCTTAGCCAATATTAGTAATAAAAGGAAAGAGGGAGAAGGTATCCATCTTTGGTTGGAAAGATTGCCCGTCTTATTCACAGTGTTATCTTTTATTGCAGTATCAATTGGAGGAGCTGTAGAAATTATACCAACTTTAATGCTTAAACAAAATATACCGACAATTTCAGCAGTAAAACCATATTCCCCATTAGAATTAGAAGGTAGAGATTTATACATCCGCGAAGGCTGTAATGCCTGTCACTCTCAAATTGTAAGACCATTCCGAGATGAGATTGTAAGATTTAATGGCAAAAACGGCCAGTATTCTAAGGCTGGGGAATTTGTTTATGACAGACCATTCCTTTGGGGTTCAAAAAGAACAGGACCAGATTTACATAGAGAAGGTGGTAAAAACCCAAGTTCTTGGCATTATAAACATATGTATAACCCTAGGTCCACATCCGCCGGTTCTATCATGCCTCGATATCCATGGCTAATAGCCAATAATTTAGATCGATCTAAAATGATCGATAAGCTAAAATTTATGAAAAATACATTTGATGTACCTTACACAAAAGCCCAAATTGATTCAGCTGATAAATGGGCCGATAATCAGGCATCTATAATAGTGAAAGATATTTTTTCGGAAGCTACAGACTTGAAAGAAGCCTACGCCAAAAGGCCACAAGGTGAACTAGAAAAGAAAGAAATTATAGCCCTTATAGCCTATCTGCAAAGATTAGGTACAGATATAAAAACAAGCGATATAAAAACAGCTGGTAACAATTAA	METQNFYYDNTIVRAFLYATIVFALIGFVFGLTAALLLFYPELPEFIFGTDDQSIHILRNGGIQALIDTNGAFGFGRIRMLHTNTVIFAFVCNSFFIGVYYSVPRLLKTEMFNKTLSWIHFWTWQLMVVVTFITFFMGINTSKEYAEHEWPIDILLTFSWVIFGLNMFGTITKRRVRHLYVAIWFYLGTWIAVAMLYIFNNLEVPLSFTGWKSYSAYAGVKDAIVQWWYGHNAVAFILTTPILGLMYYFLPKAAERPVFSYKLSIIHFWSLIFVYIWAGPHHLQYTAIPAWAQAVGTGFSIMLIAPSWGGMLNGLLTLRGSWDKVRENPILKFFVVAVTCYGMATFEGPLLATKNINKIGHFTDWVIGHVHLGALGWNGFMAFGMIYYLIPILWRTKIWSVKLANWHFWLGTLGIIFYAVPMYISGFTQGLMWKQFNPDGTLLWKNWLDTVTAIIPYFKMRFLGGLFYFSGAILMVINLTATIRKGSFQKEVPAEAPALANISNKRKEGEGIHLWLERLPVLFTVLSFIAVSIGGAVEIIPTLMLKQNIPTISAVKPYSPLELEGRDLYIREGCNACHSQIVRPFRDEIVRFNGKNGQYSKAGEFVYDRPFLWGSKRTGPDLHREGGKNPSSWHYKHMYNPRSTSAGSIMPRYPWLIANNLDRSKMIDKLKFMKNTFDVPYTKAQIDSADKWADNQASIIVKDIFSEATDLKEAYAKRPQGELEKKEIIALIAYLQRLGTDIKTSDIKTAGNN				NA	NA	NA	NA	NA
BMS003_01470	885	rhaR_8		HTH-type transcriptional activator RhaR	ATGAAGGAGGTTTATCCAACATTTGAAATTGAAGGTCTGTCGACGTGTAATTCAATTAATGAAGTATTTACCATTGATAGATTTTCAGAATTTTTAGATCAAAATCCTGGAACAACAAAAGTTCATCGCCATTCTTTTTATCATGTTACCTATTTTGTAAAAGGATATGGTGAAAATTTAATCGACTTCAAAACATACGACGTTGCTCCAGAAAAGATTTTTTTTATGCGTCCGGGACAGGTTCATAGTTGGAGATTGGATGAAAATACAGAAGGTTATGTAATTAATTTTTCCACTACTTTTTTTGATCAGTTGAAGATCAATTCTTCGTTAATTGATCAATTTCCATTTTTTAATTTATTTGAAAGTGATCAGATGGTAAATATTTCAAAGCAAAACCAACGTAAGTTGAAAGTTTGTTTTGAAAATATTATTACAGAAATGACCGACATTCAATCTTGGTCACAAATAATGATAGCATCTTTAATACTTCAGATTTGTGCACTTGCTGGAAAAGATACTATCTCCAAAACTATATTTATTAACACGAATTATAATTCTTTAATATTAAAGCAGTTTATAGAGATTTTAGAAACTAATTTTCATCAATATAAATTACCCAAAGATTATGCAACTTTTCTAAATATAACACCTAACCAATTGAACTTTATATGTAAGCAACAAATTAACCTATCAGCTGGTGAAATTATTAGAAATAGGATTATTCTGGAAGCTAAAAGACTTTTGGTGAATTTTGATTTATCAATTACAAATATTGCTGAAGCATTAAATTATTCAGACCCGTCTTACTTTGTAAAATTTTTTAAAAAATATACATCATTTACCCCCGAGGCCTTCCGAAAGCAATATTATAATAAGTATTAA	MKEVYPTFEIEGLSTCNSINEVFTIDRFSEFLDQNPGTTKVHRHSFYHVTYFVKGYGENLIDFKTYDVAPEKIFFMRPGQVHSWRLDENTEGYVINFSTTFFDQLKINSSLIDQFPFFNLFESDQMVNISKQNQRKLKVCFENIITEMTDIQSWSQIMIASLILQICALAGKDTISKTIFINTNYNSLILKQFIEILETNFHQYKLPKDYATFLNITPNQLNFICKQQINLSAGEIIRNRIILEAKRLLVNFDLSITNIAEALNYSDPSYFVKFFKKYTSFTPEAFRKQYYNKY				NA	NA	NA	NA	NA
BMS003_01471	600	crp_1	COG0664	cAMP-activated global transcriptional regulator CRP	ATGATTTCTGAAAAACATATAAAAGATTATAATTACAATATCACGCAGTATAGTAGTGGAGATTTTATCTATGAGGAAAATTCAACCTGTAAGAGTTATTTTCAAATTATATCAGGAACGGTCAAGCTTAATAATTACAGTGAAGATGGAAAAGAATTCATTCAGAATATTATCAATGCACCACAAGGATTTGGCGAAGTCTTATTATTTATTAATGAAAAGTATCCAACTAATGCCATAGCCTTAACAGATTGTGATATTATACAGATTTCTTCCAAAGATTTTTTTAAACTGTTGACTGAATATCCTAAATATGCGATAGAAATTAACAAAAGCCTTTCACGCAGGTTATATTATAAAATGATCATGTCTCAACATATATTTTCTAATGACCCTACTACGAGACTTAAAACTTTAATGAATTATTTTAAGAATATCTATTGCATAGAAAATGGTTTAAATTCCGAATATATTGTTCCGTTAACCCGCCAACAGATGGCAAATCTAACCGGATTGCGTGTAGAAACTGTTATACGAACTATTAAATTAATGGAAAAAAATAATCTGCTGAAGATAAAAAAAGGATTAATTTACTATTAA	MISEKHIKDYNYNITQYSSGDFIYEENSTCKSYFQIISGTVKLNNYSEDGKEFIQNIINAPQGFGEVLLFINEKYPTNAIALTDCDIIQISSKDFFKLLTEYPKYAIEINKSLSRRLYYKMIMSQHIFSNDPTTRLKTLMNYFKNIYCIENGLNSEYIVPLTRQQMANLTGLRVETVIRTIKLMEKNNLLKIKKGLIYY	PGPT0015075_4568	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
BMS003_01472	1734			hypothetical protein	ATGAACGAACTTCTTAATGAGCCTGGTTTACAAATTACAATTGTTCTTTTTTTGATTCCCATCATTTTTGCACTTATTCTTATTTTAATAAGAGTAAATCGGATGATTTCTGATACATTGAAAAAAAAAGAACTTAAAAGGATATATGAGCATCTGAGTCATCTGCAGCCAGGCGAAATTTCTGCGTTGGAGGAACGAAAAAAAGAACTTGAATTCCAACTTTCAGGAAACGAACTTTCCGCAAATAAGCAAGTAAAAGACCCGCGTGGGTTAATAGACCAAGCAAATGAAATTCATGAAATCCGTTTTCTGCAAACCAAAAGAGAGGAGGGAAGGAATATTAAAATTCCGGATGAGGAAAAAAAATTAATCCTTTGGTTTCTTGGCACTAGTGTATTCTGGCTTTTTATGGGAACCACGGTTGGTGAATATCTTGGAATAAAATTTGTCGCTCCGGATGCTGACCATATCAGCTGGTTGAGTTTCGGAAGGCTTAGACCCGTACATACCAATATGGTTTTTTGGGGATGGGCATCTATGGCAATGGTAGGTTTCTCATATTATGTCATTCCAAGGGTGGGAAATACAAAAATTTTCAATCTTAAGATAGGATATGTGACTTTAATATTAATGAATTCTGCTGTATTTCTTGGTAGCGTTTGCTTAATGGCGGGAATCAATAATAGTGGCGGAGAGTACAGGGAATATATCTGGCCAGTTATGTTACTTTTTGCTACAGGAATTATAATTAGTATTTATAATCATATCAATACGATCGCGTTCCGAAAAACAGAAGAAATCTATGTTTCCAATTGGTATGTAGTCTCGGCTATGATGTTTGTTGTAGTCATATTGGTGGTTGCTTATCTTCCATTTTGGCAAGACGGTTTGGGAGAAACCATAACGCAGGGTTATTTTATGCATCAGGGAGTGGGGATGTGGTTTATGTTTTTCAATTTGGGATTAATGTATTATTTTCTTCCACAAGAGTTGAACAGTCCGGTGTATTCTTATAGTTTGAGTATACTTGCGTTTTGGACACAGATTTTATTTTATACTCTCATTGGGACACATCATTTTATTTTTAGTGCTATCCCATGGTGGATGCAGACTATTGCTATTGTTGCTAGTGTGGGCATGGTGATTCCTGTTGCAGCAGGCAGTATTAATTTTATGATGACAATTCGTGGGTCATGGCATCGCTTGAAACTGAGTTATGTACTACCTTTTTATGTAGTTTCTATTATTTTTTACTTTACAGGCTCAATGCAAGGAACGGCAGAAGCTTTCAGATCTACCAATCTATTATGGCATTTTACTGATTTTACGGTAGCCCATTCACACTTAACGATGTACGGGATTATTACATTTATGCTATGGTCTTTCACTTATACCTTAGTACCAAGACTTACTTCATGTGAACCACCAAGTATTACCGTCGGATTACATTTTTGGTTAGCTTTGGTTGGGGTTTTAGTATATACCGTTTCACTAATGATAGGCTCTACAGAAAAAGGAATGATGTGGATGGAGAAACAACCGTTTATTGAAGGAGTTATGCATATGATGCCTTTCTGGCTCTGGAGAGCGATCGGGGGAACAATGATGTGGTTGTCACACATCATCTTTGCTTATAATTTTTACAGAATGATAAAGCCCAAAAAAGAAATTAAACTTCCTCAGACACCAGACGATATTTTAGAAATCATTCACAATAAAAAAACAAAAGCATAA	MNELLNEPGLQITIVLFLIPIIFALILILIRVNRMISDTLKKKELKRIYEHLSHLQPGEISALEERKKELEFQLSGNELSANKQVKDPRGLIDQANEIHEIRFLQTKREEGRNIKIPDEEKKLILWFLGTSVFWLFMGTTVGEYLGIKFVAPDADHISWLSFGRLRPVHTNMVFWGWASMAMVGFSYYVIPRVGNTKIFNLKIGYVTLILMNSAVFLGSVCLMAGINNSGGEYREYIWPVMLLFATGIIISIYNHINTIAFRKTEEIYVSNWYVVSAMMFVVVILVVAYLPFWQDGLGETITQGYFMHQGVGMWFMFFNLGLMYYFLPQELNSPVYSYSLSILAFWTQILFYTLIGTHHFIFSAIPWWMQTIAIVASVGMVIPVAAGSINFMMTIRGSWHRLKLSYVLPFYVVSIIFYFTGSMQGTAEAFRSTNLLWHFTDFTVAHSHLTMYGIITFMLWSFTYTLVPRLTSCEPPSITVGLHFWLALVGVLVYTVSLMIGSTEKGMMWMEKQPFIEGVMHMMPFWLWRAIGGTMMWLSHIIFAYNFYRMIKPKKEIKLPQTPDDILEIIHNKKTKA	PGPT0001055_46	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
BMS003_01473	996			hypothetical protein	ATGGATTTTTTTAGTGATCATAAGAAACTTTTTTCTTCAGCATTGGCATTTTTCCTTTTTCTGACCCTGTTTATATGCATATTTCCTGCATTGAACAACCAAAAAGTATATCAACCTTTACAGGGAAGTAAACCTCTTACAGAAGAAGAAAGCCGTGGGAAATCAATTTATATCCGTGAAGGTTGTGTAGCATGTCATACTCAGCAGGTTCGTAATGTAGACATGGACCAAGTATTCGGTAACCGTCCAAGCCTGGCTGTAGATTATGCCAGAAACAAAAGACTCAATCTTTTCCAGAATACTGCTACCCTCATGGGAACAGAAAGAACAGGTCCCGATCTTACCAATATCGGAGCCCGACAATCTAGTAAAGACTGGCAATACTCCCACCTATTCAACCCCAGATCTGTAGTTCCCCAATCGATCATGCCTTCTTATAAATGGTTATTCCTAATTAAAGATCAACTTGATCCTGGAGATAAGGAAATCAGTCTTTCTGACGCGTTTAAAAAAGGAATTAAAGGAAAAGTTGTTCCATCAAAAGATGCCAGTGACCTGGTGGCATATCTTCTCAGTCTTAAACAGACCGAACTTCCTAAGAGTACTCCGGCAAGAGAATTTTTGTACAAAAAAGAAGAGAAAAAAACTGAAGGAAGTGTTGGAGGAGATAATCTTCCTGATGGAGAAGCTTTATTTGTAGCCAATTGTGCCACCTGTCACCAGGCAACCGGAGAAGGAGTTCCGGGAGCATTCCCACCATTGAAAGGTGACAAAGTAGTCTTAGGAGATAATTTGGAACTGTATGTTACTATTATTATGAAAGGATATAACGGTCTGGCACCTCAATTTGGAGAAATGCCAGCAGTAGGGACCAATGCTAATTTCAAACCTGAAGATGTGGCTGCTATCATTAATCATGAAAGAACAAGCTGGGGAAATAATGGTAAGAAAGTAACTGCTGAAGAAGTAAAAACAATCATGGATAAAATAAAATAG	MDFFSDHKKLFSSALAFFLFLTLFICIFPALNNQKVYQPLQGSKPLTEEESRGKSIYIREGCVACHTQQVRNVDMDQVFGNRPSLAVDYARNKRLNLFQNTATLMGTERTGPDLTNIGARQSSKDWQYSHLFNPRSVVPQSIMPSYKWLFLIKDQLDPGDKEISLSDAFKKGIKGKVVPSKDASDLVAYLLSLKQTELPKSTPAREFLYKKEEKKTEGSVGGDNLPDGEALFVANCATCHQATGEGVPGAFPPLKGDKVVLGDNLELYVTIIMKGYNGLAPQFGEMPAVGTNANFKPEDVAAIINHERTSWGNNGKKVTAEEVKTIMDKIK	PGPT0000152_55	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
BMS003_01474	261			hypothetical protein	ATGAAAAAATTAAAGTTTATAATTCCTATTTTTGTTCTTTGGACTGAATATGTTCAGGCTTGTGATGCCTGTAGGCTTCAGCAACCCAAAATAACCCAAAACTTTACACATGGTACGGGTCCTGAATCAAACTGGGATTGGGTTATTGTGACAATTATTACAATAATTACCCTAGGAACATTGTTTTATTCTTTCAAATTCTTAATCAAACCAAACGAGAATAGCAAGAAACATATCAAAAATAATATATTGGATTTTTAA	MKKLKFIIPIFVLWTEYVQACDACRLQQPKITQNFTHGTGPESNWDWVIVTIITIITLGTLFYSFKFLIKPNENSKKHIKNNILDF				NA	NA	NA	NA	NA
BMS003_01475	402			hypothetical protein	ATGTCAAAACATAATGCCGTAGTCTTTTTATATATAGATGAGGAACCGAATCCTATTGCTGAACTTCAGACTCCTATAGTTTTCAATCTCGATACCACGAAATTGGCAGACGGAGAACACACTTTAAAAATTGTTAGCAAATTTGATAATAAAGAAGGCCTGAAAATTACTCGTTTTAATGTGCGTAATGGACCGATCATTCATATGGAGGGGCTATCTAACAATGAAACCGTCAACGGAATATTACCATTGATGATCAATGCGTATGATACAGGTAGAAATCAGAGTTTTATTATTAAAGGAAGTGAAAACCCGAGAACTATTCCAGTTTGGGTTTGGGTTATCGCTTTGATATTTATAGCTTGGGCAGCTTTTTATATTGTTACGAATTTTAGTCTTTAA	MSKHNAVVFLYIDEEPNPIAELQTPIVFNLDTTKLADGEHTLKIVSKFDNKEGLKITRFNVRNGPIIHMEGLSNNETVNGILPLMINAYDTGRNQSFIIKGSENPRTIPVWVWVIALIFIAWAAFYIVTNFSL				NA	NA	NA	NA	NA
BMS003_01476	366			hypothetical protein	ATGAAAATAAAACTCAAAAGAATCTATGAAACTTTTTCTCCTACAGATGGATACCGTGTTTTAGTAGATAGATTATGGCCTCGAGGAATCTCTAAAGAAAATGCCCATATTGAAGAATGGAATAAAGAGTTAGCTCCTTCTAATGAACTCCGAAAGTGGTTTCACCATGATCCTAAACTTTGGAAGGGTTTTTCAGAAAAATACGAAACCGAACTCAAAGAAAATGGTTCTGGAAAAGAATTTCTAAATCGAAATAAAAAACAAGATATCATCACTTTGGTCTATGGTGCTAAAGATGAGCAGCATTGCCATCCTTTGATTTTAAAAAAATATTTAGAAAATTTGATTTTAAATGATAAAATATGA	MKIKLKRIYETFSPTDGYRVLVDRLWPRGISKENAHIEEWNKELAPSNELRKWFHHDPKLWKGFSEKYETELKENGSGKEFLNRNKKQDIITLVYGAKDEQHCHPLILKKYLENLILNDKI	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
BMS003_01477	1251	clcA_1	COG0038	H(+)/Cl(-) exchange transporter ClcA	ATGAAAAGAAAAAGCATACAAAGACACCATTATTTCAGATTAATTTTAATTTCTATCATAATAAGTATCTGCGCTTCTTTTCTAGGATACTCATTAAAGTTAATTACTGAATATTTTCAAAAGCTCATATTTCATTTTGCAGAAGAAGAAAATACCTTAATTTTTATTTTTCTGCCAACGATTGGGATTACAGCAATCTACTTTTTAAGAAAATACTTTTTTTTGAATAGAAAAAATAAAGGAATCACCGAAATTTACAAAACTCTTGATCAAAGAAAAAATCATCTACCTCTTTTCAAGATTCCATCACATTATTTTAATGGATTTCTTACTGTAATCTTCGGCGGTTCCACAGGAATTGAAGTATCTACGGTCGTTGCAACAGCAACTCTAGGAAATACGATATACGAAAAACATTTTTCTGCAAATATTTATAAATTGGAACTTATTAGTGCTGGGGTTGTTGCTGGGGTAAGTATTTTATTTGGAAGTCCAATTGCTGGGTGGCTTTTTGCTATGGAAGTAATTGCAAGAAAGTTTAATAAAACACTTTTTATAAGCTGTACTGCATCTGCTACCATTTCCGCTATTTTTCTTTGTTTTATAAAAAGTGAACCATTACTCTCTTTTGAAATTACTGGATGGAAATGGACTGCGCTTCCGTTTTTTGTAATCTTAAGTTTATTAGGAGGTGTTTTATCTGTTTATTTTACAGTTTTAGTTATTAAGATTAAAGATTTTTTTTCAGGAATTTCCAATAATTTTTTGAGGGTAAATTTAGGAGCTTTAATTGTAGGGGGGCTAATATTTTGTTTTCCGTTTTTGTATGGCGATAGTTATCATTCATTATCGGAAATTCTCAACCATCCCAAGAGCTACTCCTTTCTTTTTCTTCTTTTTCTAATTTTATTAAAACCATTAGCTTCTGCTCTAACTCTTGGCGCTGGAGGAGATGGTGGTGTTTTTGCGCCTAGTATTGTTGCAGGTGCATTCTTGGGACTTACCTTTGCTCTTTTTTGCAATACTTTTTTTGGAACATCTTTAATTTATGTAAATTTTGTGTTGGTTGGGGCTGCCGCTACTTTATCAGCATCTATTTATGCTCCTTTAACTGCACTTTTCTTGGTATGTAATCTAGCACCTAACGGATATGTGTTATTCTTTCCAGTATTATTAGGATGTTGGGCTTCGCAAAACTTAGCTAGGAGAATTATACCCTATAATGTATATTCATATGATATTAAAAGCTAA	MKRKSIQRHHYFRLILISIIISICASFLGYSLKLITEYFQKLIFHFAEEENTLIFIFLPTIGITAIYFLRKYFFLNRKNKGITEIYKTLDQRKNHLPLFKIPSHYFNGFLTVIFGGSTGIEVSTVVATATLGNTIYEKHFSANIYKLELISAGVVAGVSILFGSPIAGWLFAMEVIARKFNKTLFISCTASATISAIFLCFIKSEPLLSFEITGWKWTALPFFVILSLLGGVLSVYFTVLVIKIKDFFSGISNNFLRVNLGALIVGGLIFCFPFLYGDSYHSLSEILNHPKSYSFLFLLFLILLKPLASALTLGAGGDGGVFAPSIVAGAFLGLTFALFCNTFFGTSLIYVNFVLVGAAATLSASIYAPLTALFLVCNLAPNGYVLFFPVLLGCWASQNLARRIIPYNVYSYDIKS	PGPT0004990_2611	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS003_01478	228			hypothetical protein	ATGCAAACTGATTCGTTGTTATTTATCAATCCAAATGTGGTATTAAAACCTTTCGAAACAATTGGAGGGCAAATCATGAATTTTAATAAAGACTTTTACTGTGTAGAAATCCATGACCAGGAAGTAGCCTGTGATGGAATATTATACAATAATGTCTTTGAAATCCCATCTATTAATTTGAATCAAGAGCAGTCTGCTGACATCCAAAGGATCATAGGGGAAATCTAG	MQTDSLLFINPNVVLKPFETIGGQIMNFNKDFYCVEIHDQEVACDGILYNNVFEIPSINLNQEQSADIQRIIGEI				NA	NA	NA	NA	NA
BMS003_01479	453			hypothetical protein	ATGAAACGTAACAAAAATATAATTCTTCTTTCACGGGATCATCATTTCGGATTGCTTTGCAGCTGGAAAATCAGACAAGGACTGAAGAAGGAAATTGAAACGGACAGAATTAAAAAGTATATTCTTCACTTCTGGCACAATTATCTGGAAGAACATTTCAGAGAAGAAGAACAGATCCTTTGTGCTTATCTTGAGGATGAATATACTGAACGCATCCGGTCAGAACATGCTCAGATAAAGGTACTGGCTTCTCAAATCGAACACTCGGAAGATACCCGTCTGCTTTCTGATTTTGCGGAACTTCTTGAACAACATATCCGTTTTGAAGAACGGAACTGGTTTCCCCATTTGGAGGAAAAACTTAACAATGCTGTTCTGAACTGGATCGGAAAAGAACTGGATCATATTCACCCTGAGAAAAAAGAGGTGTATGCTGATGAGTTCTGGAAATAA	MKRNKNIILLSRDHHFGLLCSWKIRQGLKKEIETDRIKKYILHFWHNYLEEHFREEEQILCAYLEDEYTERIRSEHAQIKVLASQIEHSEDTRLLSDFAELLEQHIRFEERNWFPHLEEKLNNAVLNWIGKELDHIHPEKKEVYADEFWK				NA	NA	NA	NA	NA
BMS003_01480	2244			hypothetical protein	ATGACACCTAAAAAACTTTGGATAGGACTTGCTATTGTGATGATTGCCTCATTTGCAGTTCTTATATTTTACGGAACCGAAATCTATAGAAAAGTTCCTCCGATTCCGGATCAAATAGTAAGTGCGGACGGTACAGTGATTGCCACGGGGCAGGACATTAAAGATGGTCAGAATGTATGGCAGTCTATTGGAGGACAGACCGTGGGAAGCATCTGGGGACATGGCGCTTATATTGCCCCTGACTGGACTGCCGATTATCTTCATCGGGAAGCGGTTCTTCTGCTTGACGAACTGGCCAAAAAGGAAGGTAAGACATACAAAGAACTTCCTGATGATGAACAGGCAAAGTATCAGGTACTGCTGAAAAAGGAGCTCCGTACCAATACTTTCAATGAAAATAAAAATGAGATCGTCTTTTCTCCTGAAAGAGCAAAAGTACAAAAGCAACTTTCTCAATACTACTCCAGATTATTCATGAATGATCCTTCCATGTCGGAACTGCGTGATCAGTATGCCATTCCCCAAAATACCATCAAAGATAGAGGAAGGATGGCCAGAATGAATGCCTTTTTTGCATGGAGTACCTGGGTTTGCATCACAGAAAGACCCGGAGATGATGTCACCTATACCAACAACTGGCCTCATGATGAGGCTGTAGGAAATGTTCCACCTCCATCGCTTCACCTGTGGTCAGGATTCAGTGTATTGTTACTGTTGGCTTGTGTTGGACTTCTGGTATTTTATCACGCAAGGAATAAAGAGGAAGAAATCAACGAAGCGCTTCCTCTTGAAGATCCTCTGCGGAATATGAAGCCTACTCCATCTATGAAAGCTACTTTAAAATATATCTGGGTGGTTGCCTTACTAATCCTGGTTCAGATGCTTGCCGGAGTCATTACAGCCCATTATGGAGTCGAAGGAAGTGGTTTCTACGGCATTCCTTTAGATCAGTTTCTTCCTCAATCTGTTTCCAGAAGCTGGCATGTCCAACTGGCAATATTCTGGATTGCTACCTCATGGCTGGCTACGGGATTGTATATAGCACCAGCGGTTTCAGGATATGAGCCCAAATATCAGAAATTGGGTGTCAATGTATTGTTTGGAGCGTTACTGATCGTTGTGTTAGGATCTTTAACCGGGCAATGGCTGGGAGTGATGCAAAAATTAGGGTTGGTAGATAACTTTTTATGGGGACATCAGGGATATGAGTATGTAGAACTGGGGAGAATCTGGCAGATTTTATTGCTGATCGGGCTGATTCTCTGGCTGATTTTGATGGTAAGAGCATTACTTCCTGCTTTAAGACGTAAAGACGGAGACCGCCACTTACTCCTTTTGTTTACTCTTTCTTCTGTAGCAATTGCCATGTTCTATGGCGCCGGTCTGATGTATGGAAGGCAAACTCATATGGCTATTGCCGAATATTGGAGATGGTGGGTTGTACACCTTTGGGTAGAAGGTTTCTTTGAAGTTTTTGCTACCGTAGTGGCGGCATTCTTATTTACAAGATTGGGATTATTACGCCTGAAATCCGCTACCAATGCCGTATTATTTTCTACTATTATTTTCCTTGGCGGAGGTATTTTAGGTACTTTCCATCACCTGTATTTCAGCGCTACGCCTACTGCTGTGCTTGCTTTGGGGGCTACCTTCAGTGCATTGGAAATTGTACCTCTTGTCCTGATTGGTTATGAAGCCTATCAGAATTATCAGCTCAGCAAATCTACAAAATGGATTCAGGATTACAAATGGCCAATATATTGTTTTATCGCCATGTGCTTCTGGAATTTCCTAGGAGCAGGAATCTTCGGATTTGCCATCAATCCTCCGATTGCCCTGTATTATATCCAAGGATTAAACACAACGGCCGTTCATGGCCATGCTGCCCTGTTCGGCGTATATGGAATTTTAGGAATCGGATTAATGATGTTTGTCCTCAGAGGTCTGTACCCGGACCGCCAATGGAATGACAAATTAATTGGTTGGGCTTTCTGGCTGACCAATATCGGATTATTGGTTATGGTGACGATAAGCCTTCTTCCTATAGGTATTATGCAATCGGTAGCCTCTATTAAAGAAGGATACTGGTATGCCCGTTCCGCAGAATTTATGCAGACGGATATCATGCATTTCTTAAGATGGATGCGGGTTCCCGGGGATATTTTACTAGCTGCCGGAGAATTTCTGCTGGTTGTTTTTATCATCGGGTTAAAATTCGGCTGGTCATTGAAAGAAAAACGATAA	MTPKKLWIGLAIVMIASFAVLIFYGTEIYRKVPPIPDQIVSADGTVIATGQDIKDGQNVWQSIGGQTVGSIWGHGAYIAPDWTADYLHREAVLLLDELAKKEGKTYKELPDDEQAKYQVLLKKELRTNTFNENKNEIVFSPERAKVQKQLSQYYSRLFMNDPSMSELRDQYAIPQNTIKDRGRMARMNAFFAWSTWVCITERPGDDVTYTNNWPHDEAVGNVPPPSLHLWSGFSVLLLLACVGLLVFYHARNKEEEINEALPLEDPLRNMKPTPSMKATLKYIWVVALLILVQMLAGVITAHYGVEGSGFYGIPLDQFLPQSVSRSWHVQLAIFWIATSWLATGLYIAPAVSGYEPKYQKLGVNVLFGALLIVVLGSLTGQWLGVMQKLGLVDNFLWGHQGYEYVELGRIWQILLLIGLILWLILMVRALLPALRRKDGDRHLLLLFTLSSVAIAMFYGAGLMYGRQTHMAIAEYWRWWVVHLWVEGFFEVFATVVAAFLFTRLGLLRLKSATNAVLFSTIIFLGGGILGTFHHLYFSATPTAVLALGATFSALEIVPLVLIGYEAYQNYQLSKSTKWIQDYKWPIYCFIAMCFWNFLGAGIFGFAINPPIALYYIQGLNTTAVHGHAALFGVYGILGIGLMMFVLRGLYPDRQWNDKLIGWAFWLTNIGLLVMVTISLLPIGIMQSVASIKEGYWYARSAEFMQTDIMHFLRWMRVPGDILLAAGEFLLVVFIIGLKFGWSLKEKR	PGPT0000350_563	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000350-norB-K04561	NA	NA
BMS003_01481	726	ytfE_1	COG2846	Iron-sulfur cluster repair protein YtfE	ATGAATACAAGAACAGATTTAATAGGAAATATGGTAGCCGAAGACTTCAGAACCGCTGCTATCTTTAAAAGACATGGAATCGATTTCTGCTGCAAAGGCGGAAGAACGATAGAAGAGGCCTGCAGCAACAAGAAACTCGATCCTGAAAAAATTTATGCAGAACTGGAGGCAATCCCAAAAAACGAAAGCTCTTCCATCGATTTCAACAGCTGGCCACTGGACCTTCTGGCAGATTATATTGAGAAAACGCACCATCGTTATGTAGAAGAGAAAACTCCTGTCTTGCAGGCCTTCCTGGATAAACTATGTAAAGTTCACGGGGGCAGGCATCCTGAATTATTCGAGATCAACACCTTATTTAATGAATCAGCCCACGACCTGGCCGCTCATATGAAAAAAGAAGAGCTTATTCTGTTTCCTTTTGTAAGAAATATGATTAAAGCTAAAATATCAGGCAGCCATCTGTCACAACCAGCGTTCGGCACCGTGGAAAACCCGGTGAATATGATGCAGCATGAGCATACTGTGGAAGGAGAACGCTTCAGAAAAATAGCGGAGATCACAGATGAATATCTTCCCCCTGCCGATGCCTGCAACACATACAAAGTAGCCTTTGCCATGCTCCAGGATTTTGAAAATGATCTGCACAAGCATATTCATCTGGAAAACAATATTCTTTTCCCAAAGGCCATTCAGCTGGAAAAAGAATTTACTGTTGAATCTTAA	MNTRTDLIGNMVAEDFRTAAIFKRHGIDFCCKGGRTIEEACSNKKLDPEKIYAELEAIPKNESSSIDFNSWPLDLLADYIEKTHHRYVEEKTPVLQAFLDKLCKVHGGRHPELFEINTLFNESAHDLAAHMKKEELILFPFVRNMIKAKISGSHLSQPAFGTVENPVNMMQHEHTVEGERFRKIAEITDEYLPPADACNTYKVAFAMLQDFENDLHKHIHLENNILFPKAIQLEKEFTVES	PGPT0012950_187	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
BMS003_01482	423			hypothetical protein	ATGAAAGCACAACTTATAAATATAGCAATGATTTTGAGTGTATTAGCAATAAACTTATCATGCTCTGACAAAAGCGGAACAACTCCTATACCAGTACCTGAACCTTCCACAGGACAGGCGCCGTCTCAACCTGTCAGTACCCTCGAACCGGCTGTTGCCCCAAACACTTCCGGTGATCCCGGCCTTACATTGATTGAAGGAGCTGATTGCCTTGCCTGTCATAAAATAGATGCCAAATTAATCGGGCCTTCTTACCAGGATGTAGCTGTAAAATACACCGAAAAAGATATTGATCAGCTGGCTCAGAAAATCATTGACGGAGGAAAAGGCAACTGGGGGGATATTCCGATGACGCCTCATGAAGGATTAAGCAAAGACGACGCTCAACAGATGGTAAAGTACATTCTTTCGCTCAAAAAGTAA	MKAQLINIAMILSVLAINLSCSDKSGTTPIPVPEPSTGQAPSQPVSTLEPAVAPNTSGDPGLTLIEGADCLACHKIDAKLIGPSYQDVAVKYTEKDIDQLAQKIIDGGKGNWGDIPMTPHEGLSKDDAQQMVKYILSLKK	PGPT0004005_1810	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS003_01483	777			hypothetical protein	ATGAAAACAGATCCTATTGAAAAAATGTCCGCCCACTGGCTGCTGGCCAAGATCGGTAAAAAAGTCCTTCGTCCGGGAGGTTTAGCGCTTACCCGAGAGATGCTGGCTATGCTGAATATTACCCTCGGTGATCGTGTAGTCGAATTTGCTCCGGGTCTTGGTTTTACCGCAAAACTCACTCTGGAAAAAAATCCGGCATCTTATATAGGCATTGATGCCGAACAGGAGTCTGTAAACCTGTTGAAAAAGAATTTCAAACATACTTCTGCACAATTTCAACTGGGAAATGCGGCACAGAGTTCACTAGCTGATCAATCCGCCGATAAAGTATATGGTGAAGCTATGCTGAGCATGCATGCCGATCACAGAAAATCTGAGATTATTCAGAAAGCTTCAAGAATCCTGAGACCTAAGGGCTTTTATGCCATCCATGAGCTGGCCCTCGCTCCTGACAGTCTGGATGAAAATGTAAAATTACAGATTCAGAAGGAGCTCGCTTTAACCCTGAAGGTAAATACCCGTCCACTCACCATTCCGGAATGGACTCATTTACTGGAAAAAGAGGGATTTAAGGTTTTAAAAACAGAAACAGCACCGATGCACCTGTTGGAAATTAAAAGAATAATCAGCGATGAAGGCTTTTCCGGATTCCTGAAAATCGCGGGAAATGTAGTCATGCAGCCTAAAATCCGTTGCAGGATAATGCAAATGAGAAAAACATTCAAAAAATTTGAGAACAACCTTTGTGCGGTGTCCATTCTTGCACAAAAAGTATAA	MKTDPIEKMSAHWLLAKIGKKVLRPGGLALTREMLAMLNITLGDRVVEFAPGLGFTAKLTLEKNPASYIGIDAEQESVNLLKKNFKHTSAQFQLGNAAQSSLADQSADKVYGEAMLSMHADHRKSEIIQKASRILRPKGFYAIHELALAPDSLDENVKLQIQKELALTLKVNTRPLTIPEWTHLLEKEGFKVLKTETAPMHLLEIKRIISDEGFSGFLKIAGNVVMQPKIRCRIMQMRKTFKKFENNLCAVSILAQKV				NA	NA	NA	NA	NA
BMS003_01484	462			hypothetical protein	ATGAAACTCTATCTTAAAAATCCTGTTATACTCATGTTATTTTGCCTTATGGCAGGAATGTTTATAACAGTAAGCTTCGTAGAAACTCCCCTGAAGTTTCAGGTAGAGGGAATAACCCTTTCAACAGCTTTGGGGCTGGGAAAACTGATGTTCGGAATCTCTACAAAAATACAGGCCCTATTTCTGATCCTGATTCTGATATTCATGACAATTAGCCAGAACCACTATACAAAATTTGATTTTACAATCATCATTGTTTTACTTTCTATCCTAGTCTTAGAACAGTTTTGGATGCTTCCGGTTTTAGATGAACGGGCAGATCTTATTTCATCCGGTAAGCCACTGGCTCCTACTCCGCTGCATGATTGTTTTATTTATGCCGAAACATCAAAAGCCATTATTCTGATCCTGGCTGTTGTATTACAATTTAAAACCCAACCCAATGAAAACAGATCCTATTGA	MKLYLKNPVILMLFCLMAGMFITVSFVETPLKFQVEGITLSTALGLGKLMFGISTKIQALFLILILIFMTISQNHYTKFDFTIIIVLLSILVLEQFWMLPVLDERADLISSGKPLAPTPLHDCFIYAETSKAIILILAVVLQFKTQPNENRSY				NA	NA	NA	NA	NA
BMS003_01485	432	nsrR		HTH-type transcriptional repressor NsrR	ATGTTTTCCAAAACCTGCGAGTATGCTTTAAGAGCTTTAATTTATATTGCCCAGCAGTCTAAAAATGACAGCAGGGTCGGAATCAAAGACATTTCAAAGAGCATTAATTCTCCTGAGCATTTTATCGCGAAAATCCTTCAGGACCTGAGCAGAAAAGGATTTGTACAATCCGCAAAGGGACCGAATGGAGGTTTCTATATGGATGAGAAAAACCTGGACACCAATATTGCTGATATTGTTAGGGAAATTGACGGTGATAAACTGTTTTCCGGATGCGGACTCGGGCTCGATCAATGCTCTGAAATTCATCCCTGTCCTCTCCATAACCAGTTTAAAAGTATCAGACAGGATCTTCGCATTATGCTTGAAACATCCAAAGTACAAATGTTTGTAGATAACCTGGATTTAAAATTGACCTACCTTAAGGCATAA	MFSKTCEYALRALIYIAQQSKNDSRVGIKDISKSINSPEHFIAKILQDLSRKGFVQSAKGPNGGFYMDEKNLDTNIADIVREIDGDKLFSGCGLGLDQCSEIHPCPLHNQFKSIRQDLRIMLETSKVQMFVDNLDLKLTYLKA	PGPT0013005_1423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
BMS003_01486	897	rhaS_5		HTH-type transcriptional activator RhaS	ATGAGCAATTCCATCAATTTTGAGACAGTGGATGATTATAATCAATTTAATAATCAGGAAACTTTACATCCTTTGGTAAGTGTGATAGATTTTTCAAAAGCGCATAAAAGGACCGGGTCTAAAATGTACTTTAATCTGTACTGTATTTTTTTAAAAGATGTGAAATGCGGTGACCTCAAGTACGGTCGGGCAACTTATGATTACCAGGAAGGAACGTTGGTTTTTGTTTCTCCGGGACAAATTGTTGATGTAGAAAATAAAATTGACATCTATCAGCCTTTGGGACACGGATTAGTTTTTCATCCGGATTTAATCAAGGGAACTTCTTTAGCTAAAAGTATTTCTGAATACGGTTTCTTCGGATATCAAACCAATGAAGCATTGCACCTCTCTAAAAAAGAGCAGCAAATGGTTTTGGAAATGTTCGCTGATATTCAATTTGAATTGAGCCGGCCAGTGGATAAACACAGTAAAAAAGTTATCACATCAAATATTGAGCTTTTTCTTAATCATTGTGACCGCTTTTATGACCGTCAGTTTATTACGCGGGAAAATGTCAATAAAGGTATTTTAGAAAAATTTGAAGAATTATTAAACAACTACTTTTCATCTGAGAAACCTAATACCGTAGGGCTTCCATCTGTAGCTTACTGTGCAGATGAATTACATTTTTCACCCAACTATTTTGGAGATCTGATTAAGAAAGAAACAGGAAAAACTGCACAGGAATATATTCAGAATAAAATTATTGATGTTGCCAAGGAAAGAGTTTTCAACATTGATCAATCTATTGCTCAGATTGCTTACGAATTAGGATTTAAATATCCACAGCATTTTATCAGACTTTTCAAGCAGAGAACGGGTGTCACTCCTAATGAATATAGAAGTTTGAATTAA	MSNSINFETVDDYNQFNNQETLHPLVSVIDFSKAHKRTGSKMYFNLYCIFLKDVKCGDLKYGRATYDYQEGTLVFVSPGQIVDVENKIDIYQPLGHGLVFHPDLIKGTSLAKSISEYGFFGYQTNEALHLSKKEQQMVLEMFADIQFELSRPVDKHSKKVITSNIELFLNHCDRFYDRQFITRENVNKGILEKFEELLNNYFSSEKPNTVGLPSVAYCADELHFSPNYFGDLIKKETGKTAQEYIQNKIIDVAKERVFNIDQSIAQIAYELGFKYPQHFIRLFKQRTGVTPNEYRSLN				NA	NA	NA	NA	NA
BMS003_01487	852	yvgN	COG0656	Glyoxal reductase	ATGAAAAAAGTAATATTAAACAACGGATTAGAAATGCCAATTTTAGGATTTGGAGTATTTCAGGTACCGGATCCTGCGGAATGTGAAAAAGCTGTTATTGATGCTATCGACACTGGATATAGATTAATAGATACTGCTGCATCTTATGGAAACGAGCAAGCTGTTGGTAATGCGATCAAAGCCAGCCAGGTTGCAAGAGAAGATTTATTTATAACAACAAAGCTTTGGGTGCAGGATGCTGGATATGAAAATACATTAAAAGCTTTTGAAACATCATTGAAAAAACTTCAGTTGAATTATCTGGATTTATATCTTATTCATCAACCTTATGGAGATGTATTTGGTTCTTGGAGAGCAATGCAGGAATTGTATAAACAAGGAAAAGTAAGGGCTATAGGTGTTTCCAATTTTCATCCGGACAGGATCGCAGATTTAATTGCCAACAGTGGATTTACACCGGTGATCAATCAAATCGAGACTCATCCTTTCCATCAACAGGCTGAAACACAAAAATTCCTAATTGAAAATAATGTACAGATAGAATCCTGGGGACCTTTTGCAGAAGGAAAGAATGATATTTTTAATAATGAAGTTTTAAAAACAATCGCAGAAAAATATAACAAATCTGTAGCTCAGGTGATTTTGAACTGGTTAACAAGCAGAAATGTTATCGTTATTCCAAAATCGGTAAGAAAAGAAAGGATGGCTGAAAATTTCAACATTTTCGATTTTGAACTTTCTTCTGAAGATATGAATGCTATCGCCACTTTAGATACTACTTCCAGTCTTTTCTTTGACCATAGAGATCCTAATATGGTTAAATGGCTTAGTGAAAGAAAATTGGACTTTTAA	MKKVILNNGLEMPILGFGVFQVPDPAECEKAVIDAIDTGYRLIDTAASYGNEQAVGNAIKASQVAREDLFITTKLWVQDAGYENTLKAFETSLKKLQLNYLDLYLIHQPYGDVFGSWRAMQELYKQGKVRAIGVSNFHPDRIADLIANSGFTPVINQIETHPFHQQAETQKFLIENNVQIESWGPFAEGKNDIFNNEVLKTIAEKYNKSVAQVILNWLTSRNVIVIPKSVRKERMAENFNIFDFELSSEDMNAIATLDTTSSLFFDHRDPNMVKWLSERKLDF	PGPT0001320_745	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
BMS003_01488	171			hypothetical protein	ATGAATAGAAGAGATATAATAAAGACAGCTGGTTTAGCAGCCGTTGGAAGTACATTGCAAACTTTCAATTCCATACTTAAAGCAAATACAATTGATCATAAATTGTCAGAAGGAATATCACCTTTTGTACAGCAATTTTCCGATGTGGAAGCGCCTTTAAAAACAAAATAA	MNRRDIIKTAGLAAVGSTLQTFNSILKANTIDHKLSEGISPFVQQFSDVEAPLKTK				NA	NA	NA	NA	NA
BMS003_01489	984	iolS_2	COG0667	Aldo-keto reductase IolS	ATGGAAAAAAGATTATTAGGAAATAACAAATTAGAGATTTCCGCATTAGGATTAGGATGTATGGGATTAAGTTTTGGTTATGGAAAAGTAACCGAAAAACAGGAAGCGATTCAGTTAATAAGAACCGCTTTTGAAAATGGCGTAACTTTTTTTGATACAGCTGAATGTTATGGCCCATTCACTAACGAAGCATTAGTTGGAGAAGCATTGAAACCTTTTAGAAAAGATGTTGTAATGGCCACCAAATTCGGATTTGAAGATGGAGATTCTATAAAGGGCTTAGACAGTAGCCCTGCAAGAATTAGAAAAGTGGTAGAGGATTCTTTGAAAAGACTACAGACGGATTATATTGATTTATTTTATCAGCATAGAGTTGACCCAAATATTCCGATTGAAGATGTTGCCGGAACGGTAAAAGATTTAATTACGGAAGGTAAGGTCAAGCATTTTGGTCTTTCGGAAGCTGGGGTGGAAACGATTCGCAGAGCACACGCAGTACAATCCGTAACCGCTTTGCAAAGTGAATATTCTTTGTTTTACCGTGAACCTGAAAAAGAAATCATTCCTACATTAGAAGAATTAGGAATCGGATTTGTTCCGTTCAGCCCATTAGGCAAAGGTTTTTTAACAGGAGCAATCAATGAAGAAACAAAATTTGAGGACTCAGATTTTAGAAATATTGTGCCTAGATTCTCTGAAGAAAACAGAAAGGCAAACCAGGCCTTAGTAGATTTATTAAAATCAATTGCAATGGAGAAAGAAGCTACTCCTGCTCAGGTTGCTTTAGCTTGGTTGCTGGCTCAAAAGAGCTTTATTGCTCCAATTCCCGGCACTACCAAATTACATCGTTTAAAAGAAAATATTGGCGGAGTTGATTTAAAACTGAGTTCTCAGGATTTATCTGAAATCGAAGATGCTCTTTCTGTAATTAAAGTTGTTGGAGAAAGATATCCGCAGCACTTAAAAGAAAGGGTCGGAAAATAA	MEKRLLGNNKLEISALGLGCMGLSFGYGKVTEKQEAIQLIRTAFENGVTFFDTAECYGPFTNEALVGEALKPFRKDVVMATKFGFEDGDSIKGLDSSPARIRKVVEDSLKRLQTDYIDLFYQHRVDPNIPIEDVAGTVKDLITEGKVKHFGLSEAGVETIRRAHAVQSVTALQSEYSLFYREPEKEIIPTLEELGIGFVPFSPLGKGFLTGAINEETKFEDSDFRNIVPRFSEENRKANQALVDLLKSIAMEKEATPAQVALAWLLAQKSFIAPIPGTTKLHRLKENIGGVDLKLSSQDLSEIEDALSVIKVVGERYPQHLKERVGK	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
BMS003_01490	1071			hypothetical protein	ATGATAAATAAAACAATGAAATATTTAAGCTTAATTACCTTAATTTTAGTCTCCAATTTTTTTGTTAAGGGACAAAATAAGGTGGCACAAAAACCAATTACTATTGCATCACAAGGCAATTTTTCTGCTGGAGGTTCGGTTATCAAAAGTGATGGCGTTTTCGATCCTTTAAAACCATGGAATGTTCCTCAAGGTGGGCAAACAAGACACGGAGATCACGCTGATGTTTTTTACCAAATTCCTGTAAAACCTAAAAAACTTTCGATGGTTTTCCTGCACGGTTATGGACAGTCCAGACGAAGCTGGCAGACCACAGCGGATGGAAGAGAAGGTTTTTCCAATCTATTTTTAAGAAAAGGTTATAGCGTTTATCTGGTTGATCAACCAGGTCGTGGAGAGGCAGGGCAAACTACAAAACCCGGACAAATTAGCGGTACGCCAGATGACCAGACTTGGTTTACCCAATTTCGAATGGGTCTGTACCCCAAATTCAATGAAGGCGTTCAGTTTCCAAAAGACAGCACTTCTATGGATCAATTTTTTCGTATGATGACACCGAACACAGGAAATGTAGATGAAACAACGATTGTAAATGCAATGTCTTCAGTTATGGATAAATCCGGAAACGGGATTCTTTTCACGCATTCGGCAGGATGTTCACCAGGATGGAAAACAGTCATTAAGAACGAAAAAATTAAAGCTGTCGTTGCCTATGAACCCGGAGGATTCACTTTTCCGGAAGGAGAAGAGCCTGAAGGGAACCGAGGAGGAAAGGGAGTTCCGATGAACGAATTTATGAAACTGACCAAGATCCCAATTGTTGTTTATTACGGGGATTATATTCCAAGTGAAGAAACTAATGCAGCATCACTAAACTTTTGGAGAAATGTTTTAGCAACTGCAAGACAATGGGCAAAAGTTGTCAATAGTCACGGGGGTGATGTTACTATTGTTCATCTTCCGGAATTGGGCATTAAGGGAAATACTCATTTTCTGATGTCTGATTTGAATAATGTAGAAGTTGCAGAGTTATTATCAAAATGGTTGAAAGAGAAAGGTTTGGATAAGTAA	MINKTMKYLSLITLILVSNFFVKGQNKVAQKPITIASQGNFSAGGSVIKSDGVFDPLKPWNVPQGGQTRHGDHADVFYQIPVKPKKLSMVFLHGYGQSRRSWQTTADGREGFSNLFLRKGYSVYLVDQPGRGEAGQTTKPGQISGTPDDQTWFTQFRMGLYPKFNEGVQFPKDSTSMDQFFRMMTPNTGNVDETTIVNAMSSVMDKSGNGILFTHSAGCSPGWKTVIKNEKIKAVVAYEPGGFTFPEGEEPEGNRGGKGVPMNEFMKLTKIPIVVYYGDYIPSEETNAASLNFWRNVLATARQWAKVVNSHGGDVTIVHLPELGIKGNTHFLMSDLNNVEVAELLSKWLKEKGLDK				NA	NA	NA	NA	NA
BMS003_01491	630			hypothetical protein	ATGAAAAAGTTGAAAAATTTTGGTGTATGGTTTTGTGCAGGACTTCTAGTGTTATCATCTTGCTCAAAAGCTCAGAAATCAATGTCTGAACAAAAGGAAATGTTGAAAGACAAAAATGTATTGATTGTTTACCTATCACGAACAAAAAATACAAAAACAATTGCCGACATCATTCATCAAAATACCGGTGGAACCTTAATTGAGTTGGAATTACAGAATCCTTATCCCGAAGATTACAAAGCAATTGTAGATCAGGTGGCGAAAGAAAATGACACTAATTTTTTACCTCCGCTTAAAACAAAGATTGACGATATAGAAAAATATGATGTGATCTTTTTGGGGTTTCCAACCTGGGGAATGCAATTACCACCTCCGATGAAAAGTTTTTTGAGCCAGAACAATTTTAAAGGGAAAACAATTATTCCTTTTAATACCAATGCAGGTTATGGTATTGGAAGCAGTTTTGACACCGTGAAAAAGCTAAGTCCTGGCAGTACAATATTAGAAGGCTTTACGATCAAAGGTGGTGTTGAGCGGGATGGTATTCTGTTCGTAATGGAAGGAAAGAAGAAAATTGAAGCAGAAAAGAAAGTAAAAGAATGGCTTACCAGGATCGGAATGTCTAAATAA	MKKLKNFGVWFCAGLLVLSSCSKAQKSMSEQKEMLKDKNVLIVYLSRTKNTKTIADIIHQNTGGTLIELELQNPYPEDYKAIVDQVAKENDTNFLPPLKTKIDDIEKYDVIFLGFPTWGMQLPPPMKSFLSQNNFKGKTIIPFNTNAGYGIGSSFDTVKKLSPGSTILEGFTIKGGVERDGILFVMEGKKKIEAEKKVKEWLTRIGMSK				NA	NA	NA	NA	NA
BMS003_01492	741			hypothetical protein	ATGAAACAATTGAAGTATTTCATTTTAATAATTCAGATAATGAGTGTTTCACTTTTTGCAACTGATATGAAAGCACAACAATTAACAACACCAAGTAATCATTTAAGTGAAAAAGATAAAAGTACCATTGCTATTTCCTCACTTACAGCGCAAGGTAAATTGAAAGAATTAAAAGGTAGCTTAAATTCCGCTCTTGATTCCGGCCTAACTATTAATGAAATAAAGGAAATTTTGGTACATACCTATGCTTATTGTGGTTTTCCGAGAAGCATAAGAGGATTACAGACTTTTATGGAAGTTCTTGATGAAAGAAAGGTGAAAGGTATTAATGATATTGTTGGAAAAGAAGCTTCGCTTATTGATAATGAAAACAACAGGTATGAACGGGGAAAGGAAATTCTTGGCCAACTTACCCAAACAAAGCAACCAGAGAAACTTTCGGGTTATTCAGCTTTTGCACCTGCAATTGACGCTTTTTTAAAGGAACATCTATTCGCAGATATTTTTGAGAGGGATGTTTTGACTTATGCTCAAAGAGAATTGGTGACGATTTCTGTAATCAGTGCTATTGGTGATGCTGAACCAATGTTGCAATCTCATTTAGGGATCTCGTTAAACGTTGGATGGTCACCAAAGCAGTTGAAGGAATTTGTTACTGTTGTCAGCTCTACTATTAATAAAGAAAAATCAAATGCGACCAAAATGGTTTTAAATCAGGTTTTAGAAAATAAGCCTAAATAA	MKQLKYFILIIQIMSVSLFATDMKAQQLTTPSNHLSEKDKSTIAISSLTAQGKLKELKGSLNSALDSGLTINEIKEILVHTYAYCGFPRSIRGLQTFMEVLDERKVKGINDIVGKEASLIDNENNRYERGKEILGQLTQTKQPEKLSGYSAFAPAIDAFLKEHLFADIFERDVLTYAQRELVTISVISAIGDAEPMLQSHLGISLNVGWSPKQLKEFVTVVSSTINKEKSNATKMVLNQVLENKPK	PGPT0005005_554	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
BMS003_01493	1083	ycjY_1	COG1073	putative protein YcjY	ATGAAAAAGATAATAATGTCAATGACAGCATTAATTATTATAGCAACAAGCTTTATTATTAATGCACAAACAAAAAAAACAAAAATGGAAAAAATTGAAGTTGTCAAACATAATAATCCTTTCGGGTTGGTTTATGATGATGCAATCAAAGAAAATGTAACAGGAAAAGTAAATATTTATCCTGTAAAGTATAAATTGAATGGAATTGATATTGCTGCCAATGTTTACACACCGGCAAATTATGATCCTTCAAAAAAATATGCAGCAATCACTGTCGCACACCCAAATGGAGGTGTTAAGGAACAGACAGCAGGACTTTATGCACAACGCTTAGCGGAAGCTGGTTATATTACCATTGCTGCAGATGCATCTTATCAGGGAGCAAGTGGGGGAGAACCTCGTCACACCGATAGACCTGTCTATAGAACAGAAGACATTCACGGAATGGCAGATTTTATTTCGCAATATCCCGGAGTTGATATTAATCGAATCGGAGCATTCGGTATCTGCGGCGGCGGTGGTTACACATTGAAAGCTACTCAATCGGACAAAAGATTTAAGGCTGTCGCTACTTTAAGTATGTTCAATTCTGGAGAAGTAAGACGTAATGGATTTATGAATTCTGGTTTGAATACTATTCAGGAGCGTTTGAAACAAGCTTCCGATGCAAGGGCACAGGAAGTAGCGGGTGGTAAAATAATATATTCAGGTGTGGCAAGTATTACTGATGAAGAAATTCAGAAAACAAATACGGATCTCTATCGGGAAGGTTATATTTATTATTATCGCACCAATGCTCATCCCAACTCTACTTTTTTATATCCCACAAGCAACTTGTTAGATTTAATGACTTGGGATGCTGCGGACAATATGGATTTGATTAATCAGCCTTTATTGATGATAGCTGGAGGTAAAGCTGACACCAAATATATGACCGATGAAGCTTTTCAGAAAGCAGTAAATGCAAAAGGGAAAGAACTATTCATCATTGATGGTGCCACGCATATCCAAACGTATTGGAGACCTGAATATGTAGAAAAAGCAGTGAAAAAACTGACTGAATTTTTTGGAAAAAATCTATAA	MKKIIMSMTALIIIATSFIINAQTKKTKMEKIEVVKHNNPFGLVYDDAIKENVTGKVNIYPVKYKLNGIDIAANVYTPANYDPSKKYAAITVAHPNGGVKEQTAGLYAQRLAEAGYITIAADASYQGASGGEPRHTDRPVYRTEDIHGMADFISQYPGVDINRIGAFGICGGGGYTLKATQSDKRFKAVATLSMFNSGEVRRNGFMNSGLNTIQERLKQASDARAQEVAGGKIIYSGVASITDEEIQKTNTDLYREGYIYYYRTNAHPNSTFLYPTSNLLDLMTWDAADNMDLINQPLLMIAGGKADTKYMTDEAFQKAVNAKGKELFIIDGATHIQTYWRPEYVEKAVKKLTEFFGKNL				NA	NA	NA	NA	NA
BMS003_01494	462			hypothetical protein	ATGAAACAAGTAGTTACATTACTTTTATTAGTATTCATTGTATCGAGTTGTTGTAGTAAGTCCACATTAGAAATCAGCACGCACACGATTTTTCCGAAAGGTGAAAAAGTAACCAATAACAATTTTACAGGTAATGTCTGGTTGCAAATGCTGGGTCAGGATGAGCAGTCACTTAGTACGGGTGTGGGTAATGTAACTTTTGAACCCGGAGCGAGAACCAAATGGCATCTCCATCCCGGTGGACAGATTATCCTAGTAACTGATGGTGTAGGATATTATCAGGAAAAAGGGCAGCCGAAAAAGATTTTACATAAAGGAGATGTTATCAAATGTCCTGCAAATGTTGAGCATTGGCACGGTGCTAGTGAAAATTCATATTTCGTTCAGATTGCAGTCACTGATAATAAGAAGGGTTCGGTCGAATGGTTACAACCTGTGACAGAAGAAGAGTATCATAAGTAA	MKQVVTLLLLVFIVSSCCSKSTLEISTHTIFPKGEKVTNNNFTGNVWLQMLGQDEQSLSTGVGNVTFEPGARTKWHLHPGGQIILVTDGVGYYQEKGQPKKILHKGDVIKCPANVEHWHGASENSYFVQIAVTDNKKGSVEWLQPVTEEEYHK	PGPT0005005_66	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
BMS003_01495	588	fixK	COG0664	Nitrogen fixation regulation protein FixK	ATGCTGATAAAAGAGGAGCTTTTGATGAACTATGGAGCTAAAACTGTAAATTTTACAAAGGGAAAATATGTATTTAAAGAAAATGATGACGTAGTCTCTTATTTTCAAATTTCAACAGGAACTGTGAAGATTGTCAGTGAGAAAAAAGCGGGTCGTGAATTTATTCACAACATTTCTATTCAAGGTGATTGTCTAGGAGCACTTTTCCTGTTCTTAAAACATCCATATTCTGTAAGTGCCATTGCAATGGAGAACTCTAGGATAATCAAATTGGAAAGATTGGGCTTTGATTTAATGCTAAAAGATAATCCCAAAATACTGTTAGATTTATACAAATATACCGCAGAAAATATGCATTATACCTACCTGATGAAAGGATTTGCATCAGAAAGCCCGTCAGAAAAAATAACGAATCTATTCAACTACTTAAAAAAATCAAAACCTCCGACTGATTCTTATCAAGTATTTCTCACCAGACAGCAAATTGCATCGCTAACAGGATTACGAGTGGAAACTGTTATAAGAACAATTAAAAAACTGCAAAATCTAGGAATACTCCTGGTTATCAATCGCAAAATATTTTATTAA	MLIKEELLMNYGAKTVNFTKGKYVFKENDDVVSYFQISTGTVKIVSEKKAGREFIHNISIQGDCLGALFLFLKHPYSVSAIAMENSRIIKLERLGFDLMLKDNPKILLDLYKYTAENMHYTYLMKGFASESPSEKITNLFNYLKKSKPPTDSYQVFLTRQQIASLTGLRVETVIRTIKKLQNLGILLVINRKIFY	PGPT0015075_4566	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
BMS003_01496	954			hypothetical protein	ATGCAAAAGTCATTGTACATAACTCGTCCCCATTCCCAAACTACAGACCTGCATTCAGCTCCGCAGGTGAGGATTGCTTATTTTATTATGATCCATCATAAACCTGATACATTTAAAGAAATGTTTCAAAAAATTTATACAAGGGATCAGTTTTACCTTATTCATATCGACCGGAAAGCAAAAGCAGAATTTACAGAAGAAATACAATTATATTTAATACACTTCCCCAATGTGTATATTTTGGAAAGCATGAATATTGTGTCCGGAGGATTTAGTATGATCCGGGCTGAACTTAATGCGATGGAATATCTTTTGAATGTAAGTCATGACTGGGATTATTTTATCAACCTGAGTGGTGAAGACTCCCCAATCAAGTCACAAAATATTATACGTCAATTCCTTACCGTTAATAACGGAAGAAATTATCTTTTTTATTATGACCAGAAATTTTACAGGCCTGATACACTGCAAAGGATACAAAATCATTTTACAGAGCTAACCCATAAAATATCTTCATTTATTTATAAAAGAGAATTTATGAAGGAAGTTATACCTTATATTGGTGGGAAATGGCTTATCCTTACAAGAGAAACCTGTGTATTTTTAACCAATAATAAAAGGGTAATGGATTTTGAAGATTATTACCTTCACACTCTTTTACCAGCTGAATCATTTTTCCAGACAGTACTCCTCAACACAGCCTTTAGTGATATTATTGTGAATGATGATAAAAGAGCAGTCATTGAAAAAACTTTTTTTAGTAAAGACCAATATGCTGACAACTTCATAGAAACTCTAAAATCCTCCAATGACCTTTTCATCAGAAAAATAGATGATAAAACAAATAAAAATATTCTAAAATATATTAATGACACTTATCTTCTTCCTTTACCTGAAATTAATGAAGTTCAAAAAGAACTTAAGAGAAATGATCACGATGACAAATGGTCATAA	MQKSLYITRPHSQTTDLHSAPQVRIAYFIMIHHKPDTFKEMFQKIYTRDQFYLIHIDRKAKAEFTEEIQLYLIHFPNVYILESMNIVSGGFSMIRAELNAMEYLLNVSHDWDYFINLSGEDSPIKSQNIIRQFLTVNNGRNYLFYYDQKFYRPDTLQRIQNHFTELTHKISSFIYKREFMKEVIPYIGGKWLILTRETCVFLTNNKRVMDFEDYYLHTLLPAESFFQTVLLNTAFSDIIVNDDKRAVIEKTFFSKDQYADNFIETLKSSNDLFIRKIDDKTNKNILKYINDTYLLPLPEINEVQKELKRNDHDDKWS				NA	NA	NA	NA	NA
BMS003_01497	1218	rhlE_2	COG0513	ATP-dependent RNA helicase RhlE	ATGAAGAAAAAAGATTTTTTTATTCATCATTATGATACACCAATTCAAATTCTGAAAAGGGAATTTGCTTACAAAATATCGGGAAGACCGAACATTATGATGAGTTTCAAAAATTTAAATTTAATCAATCCCATTATCCGTGCTGTAACAGAAGCAGGGTATTCTAAGCCAACTGAAATACAGTATACAGCAATACCCCATATTCTTGCAGGAAAAGATATTATAGGATGTGCCCAGACAGGTACAGGAAAAACGGCAGCATTTGCAATGCCTATTCTTCAGTTGTTAAAAAAATATACCCCTGATCATAAAGAGATCAGAACATTAATACTTACACCGACCCGGGAATTAGCAATACAGATTGAAGAGAATTTTGCTGTGTACAGCAAATATTTACCTTTATCACAACTCTCTGTTTATGGAGGAGTCCCAGCGGGCGGACAGCTTGCGGCTCTTAGGAAAAGAGTAGATATTCTGGTGGCTACACCTGGCAGATTGCTGGATTTGGTTAATCAAAGACATATTGATCTTTCTAAAATAGAAATATTTGTTTTGGATGAAGCAGACAGAATGCTTGACATGGGGTTTATCAATGATGTCAAAAAAGTTTTAAAGCTGATTCCCCAGAAAAGGCAGACCTTATTTTTTTCGGCCACAATGCCTTCAGGTATAAGAAAATTTGCGGAAACAATTCTGAATAATCCTGTAGAGGTTACTGTAACTCCGGTATCTTCAACCGCACAAACGGTGAAACAATCCGTTTATTTTGTGGAAAAAAGAGATAAGACGGGTTTGTTGATTGATTTATTGCAAAATGAAAATATGAGGCGTTCACTGGTTTTTACCCGTACTAAGCATATTGCCAATAAGCTGGTACAGCAATTGGAAGGAGTAGGGATTTTTGCTGCAGCGATTCATGGGAACAAATCTCAGACCGCAAGACAGAATGCACTTGATGATTTTAAAAGCAGTAACATTAAAGTATTGGTAGCTACAGATATTGCAGCCAGAGGTATTGATATTGATGATCTTCCACATGTAGTAAACTATGAGCTTCCCAATATTCCTGAAACGTATGTTCACAGGATCGGAAGAACCGGAAGGGCAGGAACGGAAGGTACCGCTATTTCATTTTGCGATACCGATGAGCGCTTAGATCTTAAAAATATTCAAAAACTGATAGGATTCACAATGCCGGTCAGATCATTTTATAAATAA	MKKKDFFIHHYDTPIQILKREFAYKISGRPNIMMSFKNLNLINPIIRAVTEAGYSKPTEIQYTAIPHILAGKDIIGCAQTGTGKTAAFAMPILQLLKKYTPDHKEIRTLILTPTRELAIQIEENFAVYSKYLPLSQLSVYGGVPAGGQLAALRKRVDILVATPGRLLDLVNQRHIDLSKIEIFVLDEADRMLDMGFINDVKKVLKLIPQKRQTLFFSATMPSGIRKFAETILNNPVEVTVTPVSSTAQTVKQSVYFVEKRDKTGLLIDLLQNENMRRSLVFTRTKHIANKLVQQLEGVGIFAAAIHGNKSQTARQNALDDFKSSNIKVLVATDIAARGIDIDDLPHVVNYELPNIPETYVHRIGRTGRAGTEGTAISFCDTDERLDLKNIQKLIGFTMPVRSFYK	PGPT0013740_4534	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS003_01498	195	cspA	COG1278	putative cold shock protein A	ATGCAACAAGGCACAGTAAAATTTTTCAATGAAGCAAAAGGCTTCGGATTTATTTCTCCTACAGACGGGAGTAAAGATATATTTGTACATTCTTCAGGATTAGACACAAGATCAATCCGTGAAAATGATAAAGTCGTTTTCGATGTACAAAAGAGTGATAAAGGTTTAAATGCGGTTAATGTAAAACTGGCATAA	MQQGTVKFFNEAKGFGFISPTDGSKDIFVHSSGLDTRSIRENDKVVFDVQKSDKGLNAVNVKLA	PGPT0014675_10068	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS003_01499	474		COG2030	putative enoyl-CoA hydratase 1	ATGATTATCATTAACAATTTTATTGAGTATAAGGCTTTCGAAGGACAAATGGTTGGGTTTTCTGACTGGCACACCATAGATCAGAATCAAATCAACAGGTTTGCAGAGGCAACTTTAGATGACCAGTGGATCCATATTAATAAAGAAAGAGCTGAAAAAGAAGGCCCGTTCAAATCTACTATTGCTCATGGCTATTTGCTTTTATCGCTGATCCCTTATCTCTGGAAACAAATTGCTGAGGTGAGAAACGTAAAAATGGAAATCAATTATGGAATTGAGAATCTTAAATTTGGTCAAGCTGTAACTGTAGGTAGTGATGTAAAACTTCAGGCAACTGTAAAATCTGTCACCGACCTCAGGAGAACCATAAAAGTAGTGGTAGAAGCAAAACTTTTGATAAGAAATCAATCTAAGCCCGCTTATACAGGAGACGTTATTTTTCTATATCATTTTTTAGAAGAAAATAATAGGTAA	MIIINNFIEYKAFEGQMVGFSDWHTIDQNQINRFAEATLDDQWIHINKERAEKEGPFKSTIAHGYLLLSLIPYLWKQIAEVRNVKMEINYGIENLKFGQAVTVGSDVKLQATVKSVTDLRRTIKVVVEAKLLIRNQSKPAYTGDVIFLYHFLEENNR	PGPT0015281_39	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015281-nodN-NA	NA	NA
BMS003_01500	249			hypothetical protein	ATGAAAATAATACACCTTTTTCATTTTAAAAACTCAATTTTCCGTAAAATCCCTTTCTTCAAAGAAGACGATAGGATGAAAAGTGATGTAATAGAACTCGATATAATGAATATTGAAATAGTAACCGAGTATATTGTTAAAGCCCATGATAGTTTTACTTTTGAGAACACATCCAATACTGATCTTTTATCAATGTGTAAAAAAGCCCAAAAAACGATAGAACATTACTTTGTCGTAAGATTGGAATGA	MKIIHLFHFKNSIFRKIPFFKEDDRMKSDVIELDIMNIEIVTEYIVKAHDSFTFENTSNTDLLSMCKKAQKTIEHYFVVRLE				NA	NA	NA	NA	NA
BMS003_01501	336			hypothetical protein	ATGAAACATCAAGAAGTTGAAAAATCAAAAGTATATCTTATCAGTCAGATTGTGGAATACATATCGAATTCTGTAGTCAGTAAGACCATATTAGAAAAATTACCTTGCAATATCAGCGCTTTAGCATTTGATGAAAAAGAAGGATTATCTGAAAAAACTTCTCCTTTTGACGCATTTGCACAAATTATTGAAGGTAAGGCAGAAATTATTATAGACGGAGCCACTTATTTTATGGAAGAAGGTGAGTGTATTATTATTCCTGCCCATAAATCTCATTCTATAAAAGGAAATAAACGCTTTAAGATGATCGTAACAATAATAAGAAGCGATAATTAA	MKHQEVEKSKVYLISQIVEYISNSVVSKTILEKLPCNISALAFDEKEGLSEKTSPFDAFAQIIEGKAEIIIDGATYFMEEGECIIIPAHKSHSIKGNKRFKMIVTIIRSDN				NA	NA	NA	NA	NA
BMS003_01502	213			hypothetical protein	ATGGACAAAAACAAAGACGACAAATTTTTCAAAACTCCTGGAGACTGGATTGAGCAGTCAAAACAACTGAAAGAAAAATTTTCAACATTAACGGACTACGACCTGAAGCTTGAAGAAGGGAAAGAAAGGGAGATGCTGGAAAGAATCGGAAATAGATTAAGAAAAAACCGTGAAGAAGTTCTCAATATTATCAAAGAAATCAATCTTTCATAA	MDKNKDDKFFKTPGDWIEQSKQLKEKFSTLTDYDLKLEEGKEREMLERIGNRLRKNREEVLNIIKEINLS				NA	NA	NA	NA	NA
BMS003_01503	1098	chaA_1	COG0387	Sodium-potassium/proton antiporter ChaA	ATGAATATAAAAAAATATTTATGGATGTGGACTTTTTTAGTTCCTATTCTGGCGTGGCTTTCTTATATTGGAAATACTGTTTTTTCTTCAGGGTATTACTCTGTGATTCTTGCTTTATTTTTGATGGGAAGTGTTTTGGCAGCGGTGTATCATTCCGAAGTTATTGCCCATCGCTTGGGAGAGCCATTTGGAACCTTGCTTCTGGCATTTGCCATTACGGTCATAGAAGTAGGACTTATTATTTCTATTATGATGGGAGCAAAAGGCTTAGAAACCATTACCCTTGCCAGAGATACGGTTTTTGCTGCCGTAATGATAATCCTTACCGGAATCATTGGGAGTTGTATTGTGATAGGTTCCTTAAGATACAGAGAACAGAGCTTTACATTACAGGGAGTAAGTACGGCACTCATTACGCTTACGTCAGTTATTATTTTTGTGCTTATTCTCCCCAATTATACGGTGAGTCATCTCGGAGGCGAATATACATCCTTTCAATTGCTTTTTATCGCCTTGATTTCTTTAGGACTTTATCTTGGATTTACTATGATCCAAACGTTTAGACATCGAAGCTTTTTCATTTCTCCAGAGAACAAACTATCCAAAAATCAGCCAGTACAAGATAATCATGAAATGATTTCCCGAAAACAATTGTATATCAGTTGTATATTGTTACTATTATCCCTGGGAATAGTCGTTTTATTGGCAAAGCTTCTTTCAAAGGATGTTGAGCATATAGTGGTTTCCGCAGGTGCCCCAAAATCTCTTGTAGGGATCATTATTGCAGGTATTGTTCTCCTTCCTGAAGGGGTGGCTGCGTTCAGGGCTGCGAAAAGTGATGAGATCCAAACCTCATTAAATCTGGCTTTTGGTTCTGCTTTGGCTAGTATCGGGCTGAGTATTCCTGCCATCGCTATCATATCTGTAATAACCGGTATAAGAATGACATTAGGAATAGATATTAAATCAACAATACTTTTGGGGCTGTCTCTTTTTATTATTACCGTCTCACTGGCAACAGGCAGAACCAATATCATGCAGGGAATTGTACTGATCGCTATTTTTTTAATTTACCTTTTTATTACGATAGTTCCATAA	MNIKKYLWMWTFLVPILAWLSYIGNTVFSSGYYSVILALFLMGSVLAAVYHSEVIAHRLGEPFGTLLLAFAITVIEVGLIISIMMGAKGLETITLARDTVFAAVMIILTGIIGSCIVIGSLRYREQSFTLQGVSTALITLTSVIIFVLILPNYTVSHLGGEYTSFQLLFIALISLGLYLGFTMIQTFRHRSFFISPENKLSKNQPVQDNHEMISRKQLYISCILLLLSLGIVVLLAKLLSKDVEHIVVSAGAPKSLVGIIIAGIVLLPEGVAAFRAAKSDEIQTSLNLAFGSALASIGLSIPAIAIISVITGIRMTLGIDIKSTILLGLSLFIITVSLATGRTNIMQGIVLIAIFLIYLFITIVP	PGPT0013985_1906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
BMS003_01504	351	hemH_1	COG0276	Ferrochelatase	TTGAATTTGCCACGAGAAAAGACTATTATCTCTTTTCAGTCAAGATTAGGAAAAGACAGATGGATCGAACCTTATACTGATCAAACCTTAGAGATAATTCCGTCAAAAGGCGTTGAAAATCTTGCTGTGGTATGTCCTGCATTTGTGTCTGACTGTCTCGAAACACTTGAAGAAATTTCGGTGGAAGGAAAAGAACAGTTTTTGCATGCAGGAGGAAAAAACTTCCATTATATTCCATGTCTTAATGATGATGATCGATGGATAGAGGCGATAAAACACTTTGTGAAGAAAAACTTAATCAGTTTTATCTCATTTGAGTATCGGGTGATGATATTTTACTATCCTCATTGA	MNLPREKTIISFQSRLGKDRWIEPYTDQTLEIIPSKGVENLAVVCPAFVSDCLETLEEISVEGKEQFLHAGGKNFHYIPCLNDDDRWIEAIKHFVKKNLISFISFEYRVMIFYYPH	PGPT0008485_2740	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
BMS003_01505	681	anr_1		Transcriptional activator protein Anr	ATGGTTTCAAAATTTATTTTTAATAATCAATATCTTTTTAACGAGCTTCCTGAGTATGATAAAAACCTACTCATTACTGCCATGAAAAGTAAAAACTACCGTAATCATGAAGCTATATTTACAGACGGCACAAAGCCCACCGGTATTTACTATTTAAATGAAGGTAAAATAAAGAAGTACAAAGTAGACAATGATGGAAGAGAGCAAATCATTTACATTTACAGTTCGGGTGAATTTTTCGGATATTCTGCTATTTTAAGTAATGAGACTTATGGAGATACCACATTAACCCTTGAAAATTCTGTCATCTCATTTATTTCAAAAGATGATTTCTTAAATATCCTTAATCAGTCACCAGTTTTTTCAAGACTCTTATTAAAATCCCTTAGTCACGAGTTTAGTGTCATGGCTAATCTCATGGCAGTCTTATCACACAGAACCGTTAGAGAACGGGCTGCTCTCAGCTTATTGATCCTTCATGATAAATATGCATCTAACGAGTCCAAAGAAAATGTTTTTATCACGCTATCCCGAATTGATCTGGCCAATATGGTGGGGACAGCAAGAGAAACCTTAGCCCGTATTCTCAATGATTTTAAACAAGATAATTTTATTAAAATTGAAGGACGCAAAATACAATTAATCAACATTGAACAATTGGTTCGTATTGCTAATTTTTAA	MVSKFIFNNQYLFNELPEYDKNLLITAMKSKNYRNHEAIFTDGTKPTGIYYLNEGKIKKYKVDNDGREQIIYIYSSGEFFGYSAILSNETYGDTTLTLENSVISFISKDDFLNILNQSPVFSRLLLKSLSHEFSVMANLMAVLSHRTVRERAALSLLILHDKYASNESKENVFITLSRIDLANMVGTARETLARILNDFKQDNFIKIEGRKIQLINIEQLVRIANF	PGPT0015075_1408	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
BMS003_01506	1026	cbs_1	COG0031	Putative cystathionine beta-synthase	ATGAGTAATGTTTACGATAATATCCTTGGCCTAATAGGAAACACTCCTATGGTGAAGCTAAATACTGTTACAAAAGATATTCCTGCAACCGTTTATGCCAAGTTAGAGTCATATAATCCTGGACATTCCACTAAAGATAGAATTGCACTTCATATTATAGAAAACGCTGAGAAAAAAGGCTTATTAAAAGAAGATTCTGTAGTTGTAGAAACTACTTCCGGAAATACCGGTTTTTCTATTGCAATGGTTTGCATCATTAAAGGATATAAATGTATACTTGCTGTAAGTGACAAGACAAAGCCAGAAAAAATAGCTTATCTTAAGGCACTTGGAGCAACAGTGTATATATGCCCTGCCAATGTACCTGCAGATGACCCAAGATCTTATTATGAAGTTGCTAAAAGAATCGCTTCGGAAACACCAAATTCAGTTTACATCAATCAGTATTTTAATGAACTAAATATTGATGCTCACTACCAGACAACCGGACCTGAGATTTGGGAACAGACAGAAGGTAAAATTACTCACCTTTTTGCCTGTACTGGAACAGGTGGAACTTTATCGGGATCAGCAAAATTTTTAAAGGAAAAAAATCCTGATATCAAAGTAATTGGTGTAGATGCTGATGGATCTATTCTTAAAAGCTATCACGAGACAGGAGAAATTCATAAAGAAGATGTTCATCCTTATCAGATTGAGGGAATGGGAAAAAATTTAATTCCTTCTGCCCTGCTTTTTGATAAAATTGATGAGTTTGTGAGAGTAAATGATGAGATGTCTGCTTACAGAATCCGCGAGATTGCTTTGAAAGAAGCTATTATGGGAGGTTATACAACCGGAGCGGTTACTCAGGCATTGATGCAATATGCACAATCTCATGAATTTGCTGAAAACGATATTGTCGTTTTAATATATCCGGATCATGGGTCAAGATACATTACAAAAGTGTACAGCGATAAATGGATGGCAGAACAGGGATTCGTCAACAACTGTGTTCATAATTACGATGAAGTTTTCCAACTATAA	MSNVYDNILGLIGNTPMVKLNTVTKDIPATVYAKLESYNPGHSTKDRIALHIIENAEKKGLLKEDSVVVETTSGNTGFSIAMVCIIKGYKCILAVSDKTKPEKIAYLKALGATVYICPANVPADDPRSYYEVAKRIASETPNSVYINQYFNELNIDAHYQTTGPEIWEQTEGKITHLFACTGTGGTLSGSAKFLKEKNPDIKVIGVDADGSILKSYHETGEIHKEDVHPYQIEGMGKNLIPSALLFDKIDEFVRVNDEMSAYRIREIALKEAIMGGYTTGAVTQALMQYAQSHEFAENDIVVLIYPDHGSRYITKVYSDKWMAEQGFVNNCVHNYDEVFQL	PGPT0020005_1790	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
BMS003_01507	720			hypothetical protein	ATGTTTAGACATAGAGGAAAAAACAGGACTTATTTTCATAATATTAAATTAGCATCACTTCTTTCCTTTGTTGCAGGGACAGTCAATATTGTAGGGGTATTATCAATTAAGATATTAACTACAAACATTACAGGGCATTTTGCTTTTTTTTCCGAGGAAGTAGTATTGAAGGATTATTATGATGCAGCACTCTACCTTTTATTTATCGGATGTTTTTTAGGGGGAGCTTTCAGTTCCAGCCTTCTGGTAGAATTTGTATCCCGTTTCAGAAAATTCCAATCTCACTTTATTCCCTTATTAATAGAAATTTTTATTTTGGGTTTCATAGGACTATTTGCCGATTTTAAAATAATAATCAGTCCCAATATGATAGCCTGCCTTTTACTTTTTGCAATGGGGCTACAGAATTCTTTAGTAACAAGAGTATCTCAGTCCGTTGTAAGAACAACACATTTAACAGGAATCTTTACTGACTTGGGAATAGAAATGTCCAAATTATTTTTTTACGGAAATGCTATTTCGTATAGCCAGCTTAAAAAAAGCATTATGTTAAAAATTGTAATTGTATTATGTTTTTTTTCTGGAGGGGTAATAGGCGGTTTTACTTATGAAGTCTTTCATATAAAGACATTATTGTTTTCTGTTGGAATACTTTTCTTTGTGATCTGGTATGATAGGTTATTATATAAATATTATGTATTGAAAAGAAAATTAAGATGA	MFRHRGKNRTYFHNIKLASLLSFVAGTVNIVGVLSIKILTTNITGHFAFFSEEVVLKDYYDAALYLLFIGCFLGGAFSSSLLVEFVSRFRKFQSHFIPLLIEIFILGFIGLFADFKIIISPNMIACLLLFAMGLQNSLVTRVSQSVVRTTHLTGIFTDLGIEMSKLFFYGNAISYSQLKKSIMLKIVIVLCFFSGGVIGGFTYEVFHIKTLLFSVGILFFVIWYDRLLYKYYVLKRKLR				NA	NA	NA	NA	NA
BMS003_01508	579			hypothetical protein	ATGATACATATACAAAAAGAACTTACTAAAACAGGATTCAGTATTAATCCGTTAAGCTATATTATCAAAAAAAAACAAGGAAAATCAGATTTTAATACATTAGAATATTTTTGTATTTTATTTACACTTGATGACCTAACCATTGCTCTTGAAGATCAAACTTATTACATAAAAGGAAACAGTGTTGTGTTTATCGGACCGCATAAGAAGTTCTCATTTAGTGATTATAAAACACAAGAAATATATATGTTCTCTTTTTCCTCTCTTTTCTATGAACATCATTCTAATAATCCTACTTGTCTATATTCGATCTTATTTTTTAATTCAAGAAGGAATATTTTTGTTTTCCCTTATCTTCATGCAACCAAAGATATGATTAGACATTCGTTGATAGACCGACTCTATAACTTTCAAAGTAAAAATAAAAAGCTTTTTATTTCTGCGGCTTATACAACAATTAAATCCCTAATTCTTGATGCATCATTAGCTCTCAATAATAGAATAAACAATACGGCTGAAACCTCAGATGTCAATACTGATATATTAACATCTTTCAATGTGAAAATTAGCCAGAACTAG	MIHIQKELTKTGFSINPLSYIIKKKQGKSDFNTLEYFCILFTLDDLTIALEDQTYYIKGNSVVFIGPHKKFSFSDYKTQEIYMFSFSSLFYEHHSNNPTCLYSILFFNSRRNIFVFPYLHATKDMIRHSLIDRLYNFQSKNKKLFISAAYTTIKSLILDASLALNNRINNTAETSDVNTDILTSFNVKISQN				NA	NA	NA	NA	NA
BMS003_01509	1593	pckA_1	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGAATCATTTAGAAAGTTTAAAAGAGTTAGGAATTCAATCTGCAAAAGAGATTTTTTGGAATCTATCAGAAGCACAGTTAATTTCACAGACCTTAAGGAAAGGGCAGGGTATTATAACAGACTCAGGAGCATTGGCTTGTGATACCGGTGAGTTTACGGGACGTTCCCCAAAAGATAAATATGTAGTCTTAGATGATACAACTCAAGATTCTGTTTGGTGGGGAGATATAAACCATTCTTTTTTGCCGGAAGATTTTGATAAATTATACAATCGTGTAGTGGAACACCTTTCACAAAGTGATCTTTATGTTAAAGATGTTTATGCGTGTGCAAAATCTGAATATCGTTTAAATATAAGGATTATCACAGAAAACCCATGGCAAAGTTTATTTGCCAATAACTTGTTTTTAAGATTTAATAAAAAAGAGCTTGAATCATTTAAGCACGAATGGCTTATTCTTACTGCCCCAAGTTTCAAGGCTGTTCCGGAAACTGATAAGACCGGTCGGCATAACTTTACCATTATCAACTTCACAAAAAAAATCATTCTTATTGGAGGAAGTGCTTATACAGGTGAAATTAAAAAAGGTATTTTTACGGTATTGAATTATATTCTTCCCCATGAGAAAGAGGTCCTATCTATGCACTGTTCTGCCAATATTGGAGAGAATGGAGATACCTCCGTATTTTTCGGACTTTCAGGAACGGGAAAAACTACCCTTTCAGCGGATCCGTCCAGAAAATTAATTGGGGATGATGAGCATGGATGGGATGACGAGAATGTTTTTAATTTTGAAGGGGGATGTTACGCTAAATGTGTGAATTTAAGCCAAGAGAAAGAGCCTCAAATTTTTTCGGCAATTCGTCAGGGTACTTTGCTTGAAAATGTACGTTTTTTTGAGGGAACAGATATTGTTAATTATGATGATACTTCCGTAACTGAAAACACAAGAGCTGCCTATCCGATCGACTTTATAGATAACGCCATCCATCCTTCTGTTGGAGGTGTTCCCAATAATATCTTTTTTTTGACGTGCGATGCTTTTGGTGTATTGCCTCCAATTTCAAAATTAACAACGGGTCAGGCGATGTATCATTTTATTTCTGGATATACGGCAAAAGTAGCTGGAACTGAAGCGGGAATTACTGAACCACAGACCACGTTTTCAGCATGCTTTGGAAAACCTTTTCTTCCTCTTCATCCTACAAAATATGCTGAACTTTTAGGGAAAAAGCTAAATGAGAATAAAGTAAACGTGTGGCTTATTAATACAGGTTGGTCTGGGGGCTCTTACGGAGTAGGGGAACGTATAAAGTTGTCATACACGAGAGCTATGATCACTGCAGTATTAGAAAATAAATTAGAAAATGTTGATTTCATCAGTGATGATGTCTTTGGACTTCAAATGCCGGTACAGTGTGAAGGAGTTCCTTCTGAAATCCTGAATCCAAAAAATACTTGGACAGACTCTTCTCAATATGATCAAAAGGCTATCCATCTTGCTACTCAATTTATGGAGAATTTTAAAGAGTTTGAGTCTTTTGCTAATAATGAAATTATAGAGGGAGGTCCTGTCCAAAAAAATAAATAA	MNHLESLKELGIQSAKEIFWNLSEAQLISQTLRKGQGIITDSGALACDTGEFTGRSPKDKYVVLDDTTQDSVWWGDINHSFLPEDFDKLYNRVVEHLSQSDLYVKDVYACAKSEYRLNIRIITENPWQSLFANNLFLRFNKKELESFKHEWLILTAPSFKAVPETDKTGRHNFTIINFTKKIILIGGSAYTGEIKKGIFTVLNYILPHEKEVLSMHCSANIGENGDTSVFFGLSGTGKTTLSADPSRKLIGDDEHGWDDENVFNFEGGCYAKCVNLSQEKEPQIFSAIRQGTLLENVRFFEGTDIVNYDDTSVTENTRAAYPIDFIDNAIHPSVGGVPNNIFFLTCDAFGVLPPISKLTTGQAMYHFISGYTAKVAGTEAGITEPQTTFSACFGKPFLPLHPTKYAELLGKKLNENKVNVWLINTGWSGGSYGVGERIKLSYTRAMITAVLENKLENVDFISDDVFGLQMPVQCEGVPSEILNPKNTWTDSSQYDQKAIHLATQFMENFKEFESFANNEIIEGGPVQKNK	PGPT0001405_1963	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
BMS003_01510	384	gcvH_2		Glycine cleavage system H protein	ATGGAAATTCCTGAAAATCTTTTGTATACAGAAGACCATGAATGGGTGAGAGTAGAAAATGATATGGCATATATTGGAATCACAGATTTTGCACAACATGAATTGGGTGATATTGTATATGTTGAAATCGAAACGCTTGGAGAAAAGTTACAGCAGCATGACGTATTTGGGACCGTTGAAGCAGTGAAAACAGTATCGGATCTTTTCTTGCCGATTGCCGCTGAAGTAATGGAAATCAATCCGAAGTTGGAATCAAATCCTGAATTAGTCAATTCTGATCCTTATGGAGAAGGATGGATGATTAAAATAAAAGTCAATAATCCAGCAGATACTGAAGGACTTTTGACCACCGAGTCATACAATTTGTTAATAGGTTTATCATAG	MEIPENLLYTEDHEWVRVENDMAYIGITDFAQHELGDIVYVEIETLGEKLQQHDVFGTVEAVKTVSDLFLPIAAEVMEINPKLESNPELVNSDPYGEGWMIKIKVNNPADTEGLLTTESYNLLIGLS				NA	NA	NA	NA	NA
BMS003_01511	1101	gcvT_2	COG0404	Aminomethyltransferase	ATGGAAACAGTAAAAATCAAGAAAACGCCATTTAATGCACTCCATCACTTATTAGGAGCGAAAATGGTTGACTTTGCAGGATATGAAATGCCTGTTCAATACAAGGGTATAAACCATGAACATGAAATTGTAAGAAATAAGGTGGGGGTATTTGATGTTTCTCATATGGGAGAAATTCTCATACAGGGAAAAGAGGCTTTGTCGTTAATCCAGAAGATTACGTCCAATGATGCTTCAAAACTTTTTCCGGGAAAGGTGCAATACAGCTGTATGCCTAATGACACTGGAGGAATAATTGATGATCTTTTAGTGTATATGATCAGTCAGGACGATTATTTATTGGTCGTCAATGCATCAAATATAGAAAAAGACTTAAACTGGATCCAGGGACAGAATTCCTTTGATACACAGGTTAGCAATATTTCGGATTCTATTTCATTATTAGCGGTTCAGGGACCCAAAGCAGAACAGGTCTTACAAAAATTGACAGATATCAGTCTGAAAGACATGGAATATTATACGTTTACTATCGGTGAATTAGCGCATATTCCTAATGCTTTACTATCTGCCACTGGATATACTGGAGCGGGAGGATTTGAAATATATGTGGAAAACAGATATGCCGCACATATATGGGAAGCTCTTTTTGAAGCAGGAAAAGAAGAAGGAATAGAGCCCATCGGTTTAGGAGCCAGAGATACGTTACGGTTGGAAATGGGCTACTGTTTGTATGGGAATGATATTGATGATTATACTTCTCCTTTAGAAGCTGGGCTAGGCTGGATTACTAAATTTAATAAAGACTTTGTTCATAAGGGGTTCTTAAAAATTCAAAAAGAAAAAGGAGTATCCAAAAAGTTAGTAGGCTTTGAAATGGAAGATAAGGGAATTCCACGTCATGGCTATGAAATTTGGAATGGGAATCATGAAATTATAGGAACCGTTACTTCAGGAACTATGTCACCGACCCTTAAAAAAGCGATTGGAATGGGATACATCTCCGTTGAAAATTCGGCTGTAGGAAATGAAATTTTCATTAATATTAGAAATAAACCAACAAAAGCAATAATTGTGGCTTTTCCATTTATTAATGTAAAATAG	METVKIKKTPFNALHHLLGAKMVDFAGYEMPVQYKGINHEHEIVRNKVGVFDVSHMGEILIQGKEALSLIQKITSNDASKLFPGKVQYSCMPNDTGGIIDDLLVYMISQDDYLLVVNASNIEKDLNWIQGQNSFDTQVSNISDSISLLAVQGPKAEQVLQKLTDISLKDMEYYTFTIGELAHIPNALLSATGYTGAGGFEIYVENRYAAHIWEALFEAGKEEGIEPIGLGARDTLRLEMGYCLYGNDIDDYTSPLEAGLGWITKFNKDFVHKGFLKIQKEKGVSKKLVGFEMEDKGIPRHGYEIWNGNHEIIGTVTSGTMSPTLKKAIGMGYISVENSAVGNEIFINIRNKPTKAIIVAFPFINVK	PGPT0008130_3192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS003_01512	597			hypothetical protein	ATGATTTTTGAATACCTTAAATTAAATATGGATATTGATGACAATGCTTTTAATGAAATATATCCTGAACATATAAAAGCTTTGTCACAACGTCATTGGACTCCTGTTGCTGTTGCTAAGATGGCTGCTAAATATTTAGTTGATGATACCAATAGAAGAGTCTTGGATATTGGATCCGGAGCGGGTAAATTTTGTCTTGTGGGAGCAGCTTCTACAGATGGTATATTTTACGGAATTGAGCAAAGAGCATCTCTAACTAAAATATCAAAAAAATTAGCCGATAAACACAATATAAATAATGTTGATTTTATTAATGTAAATATAAAAGATGTCTCTTTTTTAGAATACGAAGCATTCTATTTTTTTAATTCTTTTTATGAAAATATAGATACTTCTTGTTCCATTGATGATACAATTATTCATGATAGAGATTTATACTACGATTATTCGGCATATGTGAGGGAACAGCTTGATGCAACACCTATTGGAACGAGGCTTGTTACTTATTGGAGTAAATGGGACGAAATTCCTAACAGTTTTACTCTAGTAGATACCGCTTGTAATAAGTTATTGAATTTTTGGGAAAAGGTATTTTGA	MIFEYLKLNMDIDDNAFNEIYPEHIKALSQRHWTPVAVAKMAAKYLVDDTNRRVLDIGSGAGKFCLVGAASTDGIFYGIEQRASLTKISKKLADKHNINNVDFINVNIKDVSFLEYEAFYFFNSFYENIDTSCSIDDTIIHDRDLYYDYSAYVREQLDATPIGTRLVTYWSKWDEIPNSFTLVDTACNKLLNFWEKVF				NA	NA	NA	NA	NA
BMS003_01513	426			hypothetical protein	ATGGAAAAGGATGTAACATATTACAAGGAACGATTACAAAATTTATTGAGTAATAGCTTTCCAGAATTAGTTCCTAACACAGCATTAATAGAGCAGCGTTCCCAATGGGCGAAAATTGTATATGATGGTGCTATAAGGTCTGGAAGTTCGATTGAGCAATGTGAATATTATACGGATCACATCCTTTTTGAGAAATTTCATTTTTCAAAATTCGAGACCGTTTCAAATATTATCAACAATAACTTTGGAAATCTCATGAAACATGATGAGCTAAAGTCATTTAGTCTGAAAATGTTAAAATTATGCGCCCCTATATTTGATAAATATGAACTTAGTGATGATTTTGCCTATACCTATGATTTTGATAAACTTTGCATGGAAATAACAGCTTCAATCCTTAGTTGGATTAACCAATATGAATTCTAA	MEKDVTYYKERLQNLLSNSFPELVPNTALIEQRSQWAKIVYDGAIRSGSSIEQCEYYTDHILFEKFHFSKFETVSNIINNNFGNLMKHDELKSFSLKMLKLCAPIFDKYELSDDFAYTYDFDKLCMEITASILSWINQYEF				NA	NA	NA	NA	NA
BMS003_01514	534			hypothetical protein	ATGTATCAACATGAAGCTAAAGGCAATTGGTTTTGGTTCGAAAGTTATCTTACTTACGGAAATAGCGTATTGCCGGAAGCTTTATTATTTGCTTGGGTTGCTACTAAAAATGAAATATATAAGGAAATAGCGAAACAGTCTTTTGCTTTTCTCTTGTCTAAAATAATTGTCAACGATACTATAAAAGTGATTTCTAATCAAGGCTGGTTACAAAAAGAAAGCAAGGAAAACAATAGATCGAATGGTGGAGAACAGCCTATTGACGTGGCTTATACTATTCTTGCATTAGCTTCATTTTATAAGATTTTAGATAATGAAAAGTATTTTCAGATGATGCACAATTCCTTTAATTGGTTTCTTGGAAAAAACCAGTTAAACCAAATTATTTACAATCCTGTAACCGGAGGTTGCTATGATGGGCTTGAGAAAAACAACGTGAATATTAATCAGGGAGCAGAATCTACGGTCAGTTATCTTATGGCAAGAATTAGCATGGAATTTCCAACAGATTTTAGAACCTCAGACAATTTATAA	MYQHEAKGNWFWFESYLTYGNSVLPEALLFAWVATKNEIYKEIAKQSFAFLLSKIIVNDTIKVISNQGWLQKESKENNRSNGGEQPIDVAYTILALASFYKILDNEKYFQMMHNSFNWFLGKNQLNQIIYNPVTGGCYDGLEKNNVNINQGAESTVSYLMARISMEFPTDFRTSDNL				NA	NA	NA	NA	NA
BMS003_01515	1467	mshA_1		D-inositol-3-phosphate glycosyltransferase	GTGGCCGTTTCCTTTCTGGAATTGGCTGAAAAGATCAATAGAAATGACAATATCCAACTGGTAATGCTTCAACACGAGTTTGGCTTTTTTAATGAAGCCCAAAACGGATTATATCTTTTCCTACAAAACTTAAAGAAAGAAATCATTATCACCTTTCATACTGTACTTCCCAATCCAGATATAGAATTCAAAACAAAAGTGAAAGACCTCGCAGATTTTTCCAAGTCAATTATCGTAATGACAGACATCTCCGCGGAAATGCTTTCAAAAGATTATAATATTTCTTCTGACAAAATTACCGTCATTCCGCACGGAACACATTTGTTACCTTTTACAGATAAAAATGCATTGAAAGAAAAGTATGGACTTAAAAATAAAAAGGTGTTGTCTACATTTGGGTTATTGGGTTCAGGCAAAAATATTGAAACCACCCTGAAAGCTTTGCCCAAAATTATTGCTCAGAATCCTAATGTCATTTTTCTAATTCTTGGCAAGACGCATCCTGCTATCGTGAGAAATGAAGGCGAAAAGTATCGTTATCTTTTAGAGGATCTTACCTGCAAACTTCATCTGGAAAACCATATCCGTTTTATTAATGAATATTTACCCTTACCTGAATTATTAGAGTATCTTCAACTTACCGACATTTATCTTTTCACTTCAAAAGACAGAAATCAGGCAGTAAGTGGTACTTTTTCCTATGCTATCAGTTGCGGGTGTGCCATTGTTTCTACTCCTATTCCACATGCTTTAGAAGTTTTAAAAGAAGAAACAGGAATAATCATTGATTTTGAAGCCCCAAAACAATTGACTTTTGCTGTTAATACTTTATTGAAAAATGAAAATAGTCGTGAAAAATTACGCATAAAATCTTTGCAAAAAATGGCTCCGACCGCTTGGGAAAATTCGTCTATTTTACACGCTTTATTATTTCAGAAATTCAGAAACAGCAATGCAAAACTCAAATATACCTTACCTAAATTCAATCTTGATCATATCCAAAATATAACTACAGATTTTGGAATGATACAATTTTCCAAGATCAGTGAACCAGATATTGATTCCGGTTATACCCTGGATGATAATGCACGTGCAATGATCGTTATTTGCCAACATTACAAAGCCAGCAAAAACAAATCTGATCTGCAATTAATTTCAATCTATTTAAATTTCATTAAATTTTGTCAACAAAAAGATGGCAGTTTCCTAAATTATGTGGATAAGGAAAAACAATTTACCCAACAGAATTACGAAACCAACCTTGAAGATTCTAACGGAAGAGCGATATGGGCTTTGGGTTATTTAATTTCATTAAGAGAAATTTTACCACAGGAATTTTATGAACTCGCAGAAGCCATGCTTCAAAAAAACTTGGTTTTTGCTGAAAAAATATATTCCACCAGAGCCATAGCTTTTATTATAAAAGGACTGTATTACCAGAATTCTGAAAAAACATTCCTTTATTAA	MAVSFLELAEKINRNDNIQLVMLQHEFGFFNEAQNGLYLFLQNLKKEIIITFHTVLPNPDIEFKTKVKDLADFSKSIIVMTDISAEMLSKDYNISSDKITVIPHGTHLLPFTDKNALKEKYGLKNKKVLSTFGLLGSGKNIETTLKALPKIIAQNPNVIFLILGKTHPAIVRNEGEKYRYLLEDLTCKLHLENHIRFINEYLPLPELLEYLQLTDIYLFTSKDRNQAVSGTFSYAISCGCAIVSTPIPHALEVLKEETGIIIDFEAPKQLTFAVNTLLKNENSREKLRIKSLQKMAPTAWENSSILHALLFQKFRNSNAKLKYTLPKFNLDHIQNITTDFGMIQFSKISEPDIDSGYTLDDNARAMIVICQHYKASKNKSDLQLISIYLNFIKFCQQKDGSFLNYVDKEKQFTQQNYETNLEDSNGRAIWALGYLISLREILPQEFYELAEAMLQKNLVFAEKIYSTRAIAFIIKGLYYQNSEKTFLY				NA	NA	NA	NA	NA
BMS003_01516	909			4-O-beta-D-mannosyl-D-glucose phosphorylase	ATGATAGAAATAAAAAAAGAAGGAATCATCCTCAGGAAAACCGACTTAAGCTTTGAGAGCGAAGGAGTTCTAAACCCAGCTGTTATTCAGGAAAACGGAAAAATACATTTGTTTTACCGCGCCGTTGCCAAAGGTAATTTTTCAAGCATCGGATATTGTATACTATCTAATCCTCTTACTTTAGAAAGCCGATCAGACTCTCCAATTATTCTTCCTGAATTTGAATATGAAAAACATGGCATCGAAGATCCCAGAATCGTAAAAATAGATGATTTGTTTTATCTTACATATACAAGTTACGACGGCATTAATGCTTTAGGAGCATTGGCCACTTCTAAAGATTTGAAATCTTGGAAAAAAGATAGGATTATTGTTCCTAGAATCCCCTATGAGAAGTTTAAATGTTTATTAGAATCTGAAGGTTTAATCCCTGAAAAATATAAAAGATATAATGAATTTCAGATCAGTCATACAGATAGTGTTCCTATCTTTTTATGGGACAAAAATCTGATTTTTTTCCCAAGAAAAATAAATAGTAAATTTTATTTTCTCCACAGAATAAGACCTGATATTCAAATTGTAAATGTAGAAAACATTCAAGATTTAAACTTTGAGTTTTGGGAAGATTATTTTTCTCACTTTAAGAATCACATCTTTTTATGTCCCAAATATGATCACGAATCCAGCTATATTGGTGGCGGGTGTCCACCCATAGAAACGGAATACGGATGGCTGCTAATCTATCATGGAGTTCATGATACCGTCGACGGATATGTTTATAATGCCTGTGTAGCCCTACTGGATCTTAAGAACCCCGAAAAAGAAATTTGCAGACTTCCTTATCCTCTTTTTGAGCCGGAGAAAGAATGGGAAATTAAAGGTGGCCGTTTCCTTTCTGGAATTGGCTGA	MIEIKKEGIILRKTDLSFESEGVLNPAVIQENGKIHLFYRAVAKGNFSSIGYCILSNPLTLESRSDSPIILPEFEYEKHGIEDPRIVKIDDLFYLTYTSYDGINALGALATSKDLKSWKKDRIIVPRIPYEKFKCLLESEGLIPEKYKRYNEFQISHTDSVPIFLWDKNLIFFPRKINSKFYFLHRIRPDIQIVNVENIQDLNFEFWEDYFSHFKNHIFLCPKYDHESSYIGGGCPPIETEYGWLLIYHGVHDTVDGYVYNACVALLDLKNPEKEICRLPYPLFEPEKEWEIKGGRFLSGIG				NA	NA	NA	NA	NA
BMS003_01517	132			hypothetical protein	ATGTTAAAAGGAAAGGAAACAAAGAAAAAATCGGATAAAACGCCTCCTTCAAAATCAGCAAAAGAGAAACGACAAGACAAACAAGATAAAAAAAGAAACAAAGAAAATGAAAGTCGCAATGCTGCTACCTAA	MLKGKETKKKSDKTPPSKSAKEKRQDKQDKKRNKENESRNAAT				NA	NA	NA	NA	NA
BMS003_01518	540			hypothetical protein	ATGGTGAGCCTGCGTTGTAAAATGGTTGTTCATCAGGAGCTGGAAAAACTAGGTATTAAAAATGCTGTGGTAGATCTTGGTTTGGTAGAAATATTGGATGATATTAGTGTTAAACAAAGGCTTATGCTGAAAGAAAATCTTTTGAAAACAGGGCTTGAACTATTGGATGACAAAAAAAGTATTTTGATTGAAAAAATAAAGAATACTGTCACAGAAATGATTCATCATTCAGAATCTCTTCCAAAAGAAAATTTCTCAGACTATATCAGTAAAAAACTTGGCTATGATTACACCTATCTAGCCAATACATTTTCTGAGGTAAAGGGAATAACTCTTCAGCATTTTATCATAATCAATAAAATTGAAAAGGTAAAAGAGCTGCTTTTGTATGATGAGCTTAATCTTACTGAAATTTCCTATAAACTCAATTACAGTAGTGCTGCTCATCTTTCCAATCAATTCAAAAAAATAACAGGGCTTTCTCCATCATTTTATAAGCAACTCAAACATAAACGTCTTAAAAATCTGGAAGATATTTAA	MVSLRCKMVVHQELEKLGIKNAVVDLGLVEILDDISVKQRLMLKENLLKTGLELLDDKKSILIEKIKNTVTEMIHHSESLPKENFSDYISKKLGYDYTYLANTFSEVKGITLQHFIIINKIEKVKELLLYDELNLTEISYKLNYSSAAHLSNQFKKITGLSPSFYKQLKHKRLKNLEDI				NA	NA	NA	NA	NA
BMS003_01519	222			hypothetical protein	ATGATGAATACCAATCCTACTAAAAGCACGAAAGCTTTTAAAATAAAAGGAGATTGGAAGCAACAATCTCATCAGTTGAAAGAACAGTTCTCTCTGCTTAAAGATTCGGACTTGATGTTTGAGACAGGAAAAGAGAATAAATTACTGGAAAGGATAGGAAATAAATTAAGCAAAAACCGTGAAGAAGTTATTAAAATTCTTAATGACACTCAGCTTTTATAA	MMNTNPTKSTKAFKIKGDWKQQSHQLKEQFSLLKDSDLMFETGKENKLLERIGNKLSKNREEVIKILNDTQLL				NA	NA	NA	NA	NA
BMS003_01520	222			hypothetical protein	ATGAGATCAGCTGAAACTTTCCAGAATCTTACAAGAAAAATTTTTAAGGTGACAACTAAAATACAGTCTTCATATCCCGAATTATATTTCCTGCTAAATGAAACTCCATTATTTATGTCATCCAATGAGGCGAATATTACAATACAAGATCTCAAGCAATATCTTACTACGATAAGAATGCAACTTATTACGTTTGAGAAAGATAAAAAAATGAAATTATGA	MRSAETFQNLTRKIFKVTTKIQSSYPELYFLLNETPLFMSSNEANITIQDLKQYLTTIRMQLITFEKDKKMKL				NA	NA	NA	NA	NA
BMS003_01521	258			hypothetical protein	ATGAAAACTATAACTTTATATAGATTTAAGGATTCGGTAACCCAGAAAATTCCCTTTTTGGAGGGAAAATCTATGCTCAATTCTTCTGAAATTGATATTTTAGATACGGAAAAAGTTATTGAATATATGATTGAAGTATCTGATGATTTTGATTTTGAAAACTATGACACTACTGAACTCATAGCATTATGCAATACTTCGAACAAATTTGTTGAACATCATTTTGTTACACGCTTGAATGATTATGATGTTATATAG	MKTITLYRFKDSVTQKIPFLEGKSMLNSSEIDILDTEKVIEYMIEVSDDFDFENYDTTELIALCNTSNKFVEHHFVTRLNDYDVI				NA	NA	NA	NA	NA
BMS003_01522	2301			hypothetical protein	ATGAAAATTTCGGATTTCAATAATAGAGGTTCTGCTCCTGCACCAATTAAAATGAAATATTTTGAAGCATCTATAAATGATTCAAGAAAAACAGTTGAAGAACGTCTTGCAACAATAAGAGAAGTAGGAAGAGTTGCCGCTGAAAAATTTCCAAAACAATATAGAAGTATTCAGGAGTGGTTCCAAAAATACGATCAACCCAAATTACTCTCTTTTTGTTTTTACTATTTCCTGACATCTGAGATAGGATATGATGAAGAGGCCATCACGGGAAAATTGGAGTTTCCACCATTCTATCAGGAATTATTGCAGGCCTTCTCGTTAACAATACCTCGTTCTTATGAGGCAGCACCATTTTCTAACGAGGTCAGTACCTTCAAAAAAGGTTTGCAAGAGATGGGTGAATTGTACAGAACTAAACAATTACAGTTTCCAGATTCGGTATTAACTGCAGAAGATCTTCCTCATCATCTGATCAGAACTGAAATGATTATGCAGACGACTGCTGTCCGAAATTGGTCGTATGATCATAAAATGAAGAAGGTAACTACAGATATTGCAAAAAAAATAGCATCTAATTTTATAGAACATCATGGTTTTGATCCCGTTGCTTTTTTGGAGCTTTTATATAAAATGACCGAAATGGTCGAAGAAAAGATTAACGAACATAGATTGAAAACAAAAGAGTTCTGTACACCATCCTCTTACAGATCTGTTATAGAAAACTATGAATCCCTTTTTCCAGTTGATAAAATGCCTAAGGAAAATCATGATCATCTATGGAAACATTTCGATAAAAATCTTCGAAATCTCAAAGCAATGTTTCTTATGCATTCTGATTATTTTTTAGAAAAAATATTCTCCTTTGATTTTAAAACTTTAGCTTCTTATACAAGCATTTCCGAGGAGAAATTAAAGGAAATATTTCAAAAAATAAGTTTTGAATTTGGTGATTTAAAGGATGCTGAGGTTGATCATTTTTTATTAGGAAATCCTGTTCAGGAAAAACCATTTATAAGAGTATCTGATGATACTGTATTCAGTACTATGTATTCAGTAATGACTCATTTTAGCATGGACTTATTGGAAAATTTCTATGCTGAAAACAACAAACTTCGACAAAAATATACTATTGCAAGAGGAAGCTATCTTGAGCAAGAAATAAAGAGTCTTTTCGAAAAAGCTTTTCCACAAGCTCAAATATTTGCAGGCAGTCAGTGGATAGGGAGTGACGGAAAACAATACGAAAATGATTTACTGGTAATTGTTGATAGGTTCGCATTGGTAATTGAAGCAAAAGCAGGAATGGTGAGCGCACCTGCAAAAAGAGGAGCACCTGAAAGACTATTTCGAACTCTCCAAGAACTGATTGAAGATCCTTCGGAGCAAGCACTTCGCTTTATAGAGTTTCTAAATGAAAATCGAGGCGATTTATCATTAAAGGTAAAAAAGGGACCAAACAACAGATTTAATTCTGCTGATATTACATATTTTATTCCGTTAGGGGTTACCTTATCACATCTTGGAATGACAAGTACAAATCTTAAACAGTTGATAAGAGCAGGTGTGACAAAAAGAAGTATCGAAGAGCTTGTAACTTCTATAAGCCTTACTGACCTTGAGGTTGTACTTGATCTTTTACCACAAACAGCCGAAAAATTACATTACTTTCAACGAAGACGAGAATTGGAAGCGAATATAGAATACATGGGCGATGAATTGGATCTTTTAGCTTGGTATTTGGATGATGCATTTAATCTAGGTAAAGACCAAGAAAAATATGGTCTTTTTAAGATGGACCTAAAATCTAAAGAACTGGATAACTACATTATCGGTTCTGCAAAAAACGAAAACGTGATCAAACCAGGTTTACGTCGAAGCCAGTGGTGGAAGGACATCTTGAACAGGCTTGAGAAGATGCAACCTCAAAATTGGTTAGAAATCTCGTACCTGCTTCACAATATTAATTTTGAAGATCAGAATACACTAATACAGATGAGAGATCGTCTTGCACAAGATGTTAAAATGGGTAATACGAAACAAAGACACAACTGGATATTATTGCAAACCGGAGAAAAAAAACGACAATTTAGTATTGCAGTTTATTGTTATACTGACAGTCTAAAGGATGAAAGGAACGATATGATCCACACTATTTTAGAAAGTGATGATATGGAGGGAATGAAAGGTACTTTGGTCATCGCCATTAATGTTGATAGACAACACTACCCTTATAGCAGTTTAGCCTTTAGAAATGCTCCCGAGCTTTTTGAGACTCCTTATTTAAAAACAAAAGATTAA	MKISDFNNRGSAPAPIKMKYFEASINDSRKTVEERLATIREVGRVAAEKFPKQYRSIQEWFQKYDQPKLLSFCFYYFLTSEIGYDEEAITGKLEFPPFYQELLQAFSLTIPRSYEAAPFSNEVSTFKKGLQEMGELYRTKQLQFPDSVLTAEDLPHHLIRTEMIMQTTAVRNWSYDHKMKKVTTDIAKKIASNFIEHHGFDPVAFLELLYKMTEMVEEKINEHRLKTKEFCTPSSYRSVIENYESLFPVDKMPKENHDHLWKHFDKNLRNLKAMFLMHSDYFLEKIFSFDFKTLASYTSISEEKLKEIFQKISFEFGDLKDAEVDHFLLGNPVQEKPFIRVSDDTVFSTMYSVMTHFSMDLLENFYAENNKLRQKYTIARGSYLEQEIKSLFEKAFPQAQIFAGSQWIGSDGKQYENDLLVIVDRFALVIEAKAGMVSAPAKRGAPERLFRTLQELIEDPSEQALRFIEFLNENRGDLSLKVKKGPNNRFNSADITYFIPLGVTLSHLGMTSTNLKQLIRAGVTKRSIEELVTSISLTDLEVVLDLLPQTAEKLHYFQRRRELEANIEYMGDELDLLAWYLDDAFNLGKDQEKYGLFKMDLKSKELDNYIIGSAKNENVIKPGLRRSQWWKDILNRLEKMQPQNWLEISYLLHNINFEDQNTLIQMRDRLAQDVKMGNTKQRHNWILLQTGEKKRQFSIAVYCYTDSLKDERNDMIHTILESDDMEGMKGTLVIAINVDRQHYPYSSLAFRNAPELFETPYLKTKD				NA	NA	NA	NA	NA
BMS003_01523	990			hypothetical protein	ATGAAAAAACTACTGTTCCTTTGCTTCACTGTGACCGGACTTTACCCCGCACAGGATGTTTTGCTTTCAGATATCAATCCTTCAAATTTTAATCAGGATTTTTCTGAGTATAATCAGGAAACGGCACTATTCTGTGCACAGATCTCTGAAGTGGCTTACTGGGATGAGCGTAATATTGAAATTCTGAAGCAACGGGCAAATCAGACCTATCCCGAAAATAAGATAAGTTATACTTTAATTGATGACTCTTATGGAATTCATCATAACCAAGTGCTGTTATGGGCAAATAAAAACTTTATGTTAGTTGCATTTAGAGGGACTGAACCTTCTGTTCTTAAAGATTGGCTTACAGACTCAAAATATTGGAACTATGAGAATGCAGATGGTTATGATGAAGAATTATCCTATCTGCCAGCTGGCCATGGTGGATTCAGAAAATCCCTTACACGTTTAATGCAAAAGAAAAATCTTATTGAGGAAATCAAAAAGAAAATTAATGTGGTGAATCCGCAAGCTGATCTAAAAACATTCCCTATTTACTTAACCGGACATTCTCTCGGTGCAGCACTCGCACAATTGTTTATTGTGCCACTACGATACCACCAGCTGAATTTTAAAGGTGCATATCATTTTGCACCACCATTAGCGGTTACCTGCCAGATGAATGCAGAATTGAGAGAGAAATATGGATCTGTTGTCTATGATATTGTAAACTATAAAGATTCTGTGCCAAGAGCCGGACGTAATGGAACCGCTCATTTTGGAAAATTTTATCGTATTTGCAATGACGGTCTGGTTTATAAAGAACAGGAAGCTTATGTGAGATTCAGACTTTCGGAATATTTTAACGAGTTTAAACTTCATGCCCTGAAAAGTCATATTGATCTGCTCAGAAAAAAAGAGAATATTGCAACGCTAATCAATCAAAGGTCAGAAGGTCATTTTCCTTGCATGGAACTTAAAGGAAAGGTGCGAGAGTTGTGCCAGTAA	MKKLLFLCFTVTGLYPAQDVLLSDINPSNFNQDFSEYNQETALFCAQISEVAYWDERNIEILKQRANQTYPENKISYTLIDDSYGIHHNQVLLWANKNFMLVAFRGTEPSVLKDWLTDSKYWNYENADGYDEELSYLPAGHGGFRKSLTRLMQKKNLIEEIKKKINVVNPQADLKTFPIYLTGHSLGAALAQLFIVPLRYHQLNFKGAYHFAPPLAVTCQMNAELREKYGSVVYDIVNYKDSVPRAGRNGTAHFGKFYRICNDGLVYKEQEAYVRFRLSEYFNEFKLHALKSHIDLLRKKENIATLINQRSEGHFPCMELKGKVRELCQ				NA	NA	NA	NA	NA
BMS003_01524	282			hypothetical protein	ATGAATATCGAAAGAACAGAATTTATAGCCTGGATGGAGAGAATCATGGAAAGATTTGATCTACTGAAAGAGCAAATGCTTAAGAACCAATCCAGATTTATAGAAGTAGACGGGGAGCAGCTTCTGGATAACCAGGATGTTTTACAGCTTTTAAAAATAAGTTCCCGATCATTACAGCGGTACCGGACTGATAAAAAGCTACCATATTATACCATTAGCGGGAAGCTGTATTATAAGCTTTCTGATGTCCATCAATTGATCAGAGAATGTTTAAACTCTTGA	MNIERTEFIAWMERIMERFDLLKEQMLKNQSRFIEVDGEQLLDNQDVLQLLKISSRSLQRYRTDKKLPYYTISGKLYYKLSDVHQLIRECLNS				NA	NA	NA	NA	NA
BMS003_01525	1434			hypothetical protein	ATGGAAAATGAATTGATAAACGCTCAGGAGTCCGATGAACTCAAACCATCAACAGACACACTCCTTGTCCTGAATATTCATACCAATCAGGTTGAAATGGTCAAAGGAATTGATAAAGATGGAAACCTTCAAAAAGTTCCTCCACAAGAAAAAAAGGATAAAGACCCGCTGATCAGCGTTGATAAACATGGAGATATTTTCTCCAACTTCTTTTCCAATTTTTACCGGCAGCTTAAAAATCCTACGCATTTCAACTTTTTCAAAGTTTCGGAGTATGATGCCGTCAATACGGCTCAGGATCTTCAAAAATATATTGATCAGGCATCACCTGAAGAAAAAGAAAAGCTGAAAGGCTACGAAGTTTTACCTCAACACAATAACAATCCAAAAAATCAAAATACAATGGACAACAACACAGACAATCAGGAATATCGTTTTCAGCCTGAACAGATCGACTGGAAAACGATGGAAAAATTCGGACTTAATCAGGAAAAGCTTGAAAAAATGAATGCGATGGATGCATTACTTAGGGGATTTAAAACCAATACACTAATTCCCATCACCATTAATCTGGGAACGGCGGTTAGTAAGATGGATGTTCGGCTATCTCTTCAGACAGGAGATACAGGACAGGTTGCCGTTCATCTGCACGGAATCCGAAAAGAGCCCAGTCTCAATAATAAATTCCTGGGTCACCAGTTCACGGATGAAGATAAAAAAAATCTTAAGGAAACCGGGAATATGGGTAGGGTAGTAGATCTGGTCAATCCTAAGACGGATGAAATTATTCCATCGGTTATAAGCCGTGACCGACTCACCAATGAACTCGTAGCTTATCGAGCGGAGTACATGAAAATCCCTCATGAAATCAAAGGAATTAGGCTTGATGAACATCAGAAACAAACCCTGCTGGAAGGAGCACCATTGTATCTGGAAGGTATGACCTCTAAAAAAGGAGAACCTTTCGATGCCACCGTACAGTTCAATGCAGATAAGCGGTATGTAGAGTTTATATTCAACAATAACCACACACCACAACAAAGTCAACAACATCATCATAACCAACAACAAACTCAACCTACGGATCAAGAAGCACCCAAAGTATTCAGAGGAAAAGAATTGGACGATTCACAGTATGAAAAGTTCAAAGCCGGGCAAACCGTGTACGTTGACGGTCTTACCGATGCTAAAGGTAAAGCCTATCAAGGTTATATTACCTTCAACAAAGAGACTTCCAAAACCGACTTTTCATTCACTCATCCTAATAAACTTAAAGAGCAGGCAAAACCTACAGAAGATCATAAAACCCAAACTGCTGTTAATTCTCAGGGTAAAACCAATGAAGCTACTAAAAATGTGAAGAAGCCTTTAGAATCAAAACAGCAGGAAGATCAGCAAAAAAAGGTTAGAAAACCAAGAGGACCCAAACTATAA	MENELINAQESDELKPSTDTLLVLNIHTNQVEMVKGIDKDGNLQKVPPQEKKDKDPLISVDKHGDIFSNFFSNFYRQLKNPTHFNFFKVSEYDAVNTAQDLQKYIDQASPEEKEKLKGYEVLPQHNNNPKNQNTMDNNTDNQEYRFQPEQIDWKTMEKFGLNQEKLEKMNAMDALLRGFKTNTLIPITINLGTAVSKMDVRLSLQTGDTGQVAVHLHGIRKEPSLNNKFLGHQFTDEDKKNLKETGNMGRVVDLVNPKTDEIIPSVISRDRLTNELVAYRAEYMKIPHEIKGIRLDEHQKQTLLEGAPLYLEGMTSKKGEPFDATVQFNADKRYVEFIFNNNHTPQQSQQHHHNQQQTQPTDQEAPKVFRGKELDDSQYEKFKAGQTVYVDGLTDAKGKAYQGYITFNKETSKTDFSFTHPNKLKEQAKPTEDHKTQTAVNSQGKTNEATKNVKKPLESKQQEDQQKKVRKPRGPKL				NA	NA	NA	NA	NA
BMS003_01526	2088	topB_1	COG0550	DNA topoisomerase 3	ATGAAAGCAATCATCGCAGAAAAACCAAGTGTCGCAAGAGAAATCGCACAATTACTAGGAGCCCATGAAAAGAAAGATGGTTATCTATCCGGTAACGGATACTGTGTCACTTGGGCATTGGGACATTTGATATCGTTAGGAATGCCAGAAGATTATGGTATAAGAGGCTTTAACAAAGCCTCTTTGCCTATCTTTCCCAACCCTTTTATTCTAACTCCCAAAAAACTAAAGAAAGCAAAAGGCTATGAGCCTGATCCTTCCGCTTTAAAACAACTCAACACCATACAACAAGTCATCAAGCAATGCAGCAGTATTATTGTCGCCACAGATGCAGGAAGGGAAGGAGAGCTGATCTTCCGTTATATCTATCATTACCTACAATGCAACAAACCTTTTGAAAGACTCTGGATCAGTTCCCTGACAGAAAAAGCAATACAGGACGGTTTTAAAAACCTTCAGCCAGGCGATGCTTTTGACGGTTTGTATCAGGCAGCTAAAGCCAGAAGCGAAGCGGACTGGCTGGTAGGCATCAATGCAACTCAGGCATTAACCATCGCAGGAAACCAAGATGTTTATTCACTAGGCAGGGTACAGACGCCAACCCTTGCTTTAATCTGTCAACGGTTTCTTCAGCATCAAAACTTCACCAAGCAAAAATACTTTCAAATCCAGCTCAGCCACAGAAAAGAATATACAGACTTCACCAGCCTTTCACTATTACAATGGGAAGAAAAAAAGCAGGCAGAACAAATCCAAAAGTCTATAGAGCGAGAGGGTAGAGCTGTTGTAGAAGATGTATCTGTTAAAACAGTACAGGAGCAATCTCCCTTGCTTTTCGATCTTACTGAACTCCAGAAAGAAGCCAACAGGAAACTGGGGCTTTCTGCTGATGAGGTTTTACAAACAGCCCAAAGCTTATATGAAAAACAGTTCATCACTTATCCCAGAACCGGCAGTAAGTATATTCCTGAAGACTTATGGACTGATATACCTGAGCTGGTCAGAATACTGAATCAGACCGAACCCTTCAAAGCCGCCATAACCCATTTAAAATTCGGAAACTTCAACAAGCGGATCGTCAATGATCTAAAAGTTACTGACCATCACGGATTACTCGTAACGACCAAAACACCTTCTGCACTTAGCGCTACCGAAAAAGCCATTTACGAGATGATTGCTTACCGGTTATTGGAATCGCTATCCCACACCTGTATAAAACAAGTCACCCAAATCCAGATAAAAGTCCATCATTACGAATTCCAGATCAAAGGATCAAAAATACTCAATCAAGGCTGGCGAGCCATCAAAGGGATTCTTTCTGACAATGAAAATTCCGATAATAAAAATGAAGTCCTTACTGAACTTCCGGAATTCAAAACAGGAGATGAGCTGAAAATCTCAAAAACAGAATTATTAGAAAAAGTAACACAACCTCCCAAACTTTATACAGAAGCTGACCTCTTATCAGCGATGGAAAATGCAGGCCGATCTATTGAAAACAAAGAAGAGCAGAAAGCACTCTCCAATATCGGTATCGGAACCCCAGCAACAAGAGCTTCTATTATCGAAACGCTGCTCAGCAGAAACTATATCACCAGAAAAAGCAAAGCATTAATTCCCACTGATAAAGGCTTACAGGTTTACAACCTGGTCAAAGACAAAAAAATAGCCAATGTCCAAATGACCGCAGAATGGGAAATAGCACTGGATAGGATTGAAAAAGGTGAATTCAACAAAGACCAATTCATCAACGACATCCAAGACTACACAGCAGAAATCACCAACGAACTTTTATCACTCCATATTCCCCAAGAAAACATCCCACAACTCAAATGTCCCAAATGCCAACAACACGATCTTATTATCAAAGATAAAATCGTCAAATGTCCAGATGAGCAGTGCAACTGGATTCTCTTCAGAACCATATGCGGAGTACAACTCAGTATTAAAGATCTTACTTTACTATTAACTCAAAACAAAACATCATTAATCAAAAACATGAAAAGCAAAAACGGTAAAAAGTTTGATGCTTACCTATTACTGAAGGATGATTTCAGTACATCATTTGAATTTATAAACAAGAATTAA	MKAIIAEKPSVAREIAQLLGAHEKKDGYLSGNGYCVTWALGHLISLGMPEDYGIRGFNKASLPIFPNPFILTPKKLKKAKGYEPDPSALKQLNTIQQVIKQCSSIIVATDAGREGELIFRYIYHYLQCNKPFERLWISSLTEKAIQDGFKNLQPGDAFDGLYQAAKARSEADWLVGINATQALTIAGNQDVYSLGRVQTPTLALICQRFLQHQNFTKQKYFQIQLSHRKEYTDFTSLSLLQWEEKKQAEQIQKSIEREGRAVVEDVSVKTVQEQSPLLFDLTELQKEANRKLGLSADEVLQTAQSLYEKQFITYPRTGSKYIPEDLWTDIPELVRILNQTEPFKAAITHLKFGNFNKRIVNDLKVTDHHGLLVTTKTPSALSATEKAIYEMIAYRLLESLSHTCIKQVTQIQIKVHHYEFQIKGSKILNQGWRAIKGILSDNENSDNKNEVLTELPEFKTGDELKISKTELLEKVTQPPKLYTEADLLSAMENAGRSIENKEEQKALSNIGIGTPATRASIIETLLSRNYITRKSKALIPTDKGLQVYNLVKDKKIANVQMTAEWEIALDRIEKGEFNKDQFINDIQDYTAEITNELLSLHIPQENIPQLKCPKCQQHDLIIKDKIVKCPDEQCNWILFRTICGVQLSIKDLTLLLTQNKTSLIKNMKSKNGKKFDAYLLLKDDFSTSFEFINKN				NA	NA	NA	NA	NA
BMS003_01527	141			hypothetical protein	ATGAATACAATCGAAGCAATCAAGCCAGGCCCCAAGCCTAAAAAACCAGATGGAGAACCTGACAGAAGAAGAAGGGTAACCCCTCCCAATCAACCTAAGCATCCAAAGCTAAAACCTCACGAGCACGAAAAAGGGGATTAG	MNTIEAIKPGPKPKKPDGEPDRRRRVTPPNQPKHPKLKPHEHEKGD				NA	NA	NA	NA	NA
BMS003_01528	408			hypothetical protein	ATGAAAAAATCATTACTTTATCTTGTATTACTTCTCTCCGTTATTTCATGTACCAACTATTACACTGTTAGACTACAGGAAGACACGCCTCTTTACTACAGCAGTGACAGCAGCAAATCAGTTACCACTATTCCTAAAGATACGGAAGTTTTCATGTCTTCAAAAGCTGGTAAGAAAAATTACAGCAAACTTAAATGGGGAAATTATTACGGGTGGGCCTATAAGCCCAGCTACACAGCTTATAGTGACTATTCTAAAACCTCATCGTATTCTTCTCCATCAGTAAGATCATCCTCTAGTTACAGTTCTCAATCAAATTCAGGCGGATCAGTACATGTTAAAGGTTATACGCGAAAAGATGGAACTTATGTTAGACCACATACAAGAAGCGCTCCTAGAAGGAGGTAA	MKKSLLYLVLLLSVISCTNYYTVRLQEDTPLYYSSDSSKSVTTIPKDTEVFMSSKAGKKNYSKLKWGNYYGWAYKPSYTAYSDYSKTSSYSSPSVRSSSSYSSQSNSGGSVHVKGYTRKDGTYVRPHTRSAPRRR				NA	NA	NA	NA	NA
BMS003_01529	1473			hypothetical protein	ATGGCAATTGAAAAATCTACAGGTTATACTGAAACAGAAAGAATATTAGCAAAACTATGTGATGCTACTTTCTTAAAACTATGGTCTTATCCAAATCCTTACAAAGAAGATACAAAGGAATTGTGTGATTTAATGGCTGTCTTTGACAATAAGATTTTTTTATTTTTTGATCGTGAAAGTAGGAAATTTGATAATTTGGAGGGTGATATTGATGTGCAATGGAAACGCTGGCACAAAAATGTAATTGAGAACCAAATAAGAACAGCGGAAGGAGCAAGAAGATATGTACTTGAAAATCCCGATAAAATATATTTGGACAGTAAAAAAACAACACCTTTTCCGATACTCATACCTCATGAAAATTTAACTATATATAGTATTATTATTGCTCATGGAGCAGCGGAAGCTTGTTTGCGGCATTCACCCGAAAATATTAACGGAAGTCTTGCTGTAACTTACAGTAAAAGGGAAAAATTAGGGCTTGATATTCCTTTTCTCGTGGAGCTAGATAGTAATAAACCTATTCATATTTTTGATACCTTTAATTTAGAAATCATTCTTAAAGAATTAGATACTGTATACGATTTTTCTGAATATCTTTCAGAGAAAGAGAAGGCTTTAAAGCACTATGAAAGTATTACTTATTGCGGAGAAGAAGATCTATTAGCTAATTACTTTCAAAACTTTGATGCGGTAAAGCAAAAGCATTTTGTTGGAGTAATAGATGAAAAAGCAACCAGCATTATGATTTCCGAAGGTGGGTGGAACTCCTTTGAAAATTCAGCTTTGTACAAAAGCAGAAAAGAAGCAAATAAAACATCTGAAATGTGGGATAATTTACTTCAATATACTACACAAAATGCCTTAGATCAAACTCTTAAAGGAAATAGTAACATCTTTAAAGGTGAAAGCGCTATTTGTGAAATGGCCAAAGAACCTAGATTTTTTAGAAGAACCTTGTCTGATCTTATGATACGAGCTATAGAGGGATTTCCTGGAGATGGGACAACGCTTATGCGTAATTTATCTATTATGCCATCCTTTTATAAAAATAGAGTTTATGTCTTTTTACAATTACACGATCCCAGAAATAAGGATTACGATAATGAATATAGACCTAAAAGACAAGCGCTGCTTGAGATTGCCTGTGGTGTGACAAAAAACAAATTTCCTAAATATGAAAAAATAATAGGGATTGCTTTTGACGCTCCTAAATTTACTCAAACCAATTCTGAGGATTTCATTCTGCTTAACGCAAAGGATTGGTCCGAAGACGATATTTTGTATTATTCGGATGCAAATAAAAACATTAATTTCTTAGAAACTAAAAAAATGGTTCGGGAAACATTAACTGTTAGGGATTTTCCAATTAACAATAATTTGAGCCGTCATAAAAAAATTGGTAGAAATGACCAATGTCCTTGCGGCTCTGGAAAAAAGTATAAGAAATGCTGTATTGGTATCAAGAAGTAA	MAIEKSTGYTETERILAKLCDATFLKLWSYPNPYKEDTKELCDLMAVFDNKIFLFFDRESRKFDNLEGDIDVQWKRWHKNVIENQIRTAEGARRYVLENPDKIYLDSKKTTPFPILIPHENLTIYSIIIAHGAAEACLRHSPENINGSLAVTYSKREKLGLDIPFLVELDSNKPIHIFDTFNLEIILKELDTVYDFSEYLSEKEKALKHYESITYCGEEDLLANYFQNFDAVKQKHFVGVIDEKATSIMISEGGWNSFENSALYKSRKEANKTSEMWDNLLQYTTQNALDQTLKGNSNIFKGESAICEMAKEPRFFRRTLSDLMIRAIEGFPGDGTTLMRNLSIMPSFYKNRVYVFLQLHDPRNKDYDNEYRPKRQALLEIACGVTKNKFPKYEKIIGIAFDAPKFTQTNSEDFILLNAKDWSEDDILYYSDANKNINFLETKKMVRETLTVRDFPINNNLSRHKKIGRNDQCPCGSGKKYKKCCIGIKK				NA	NA	NA	NA	NA
BMS003_01530	2559	recD2_1		ATP-dependent RecD-like DNA helicase	ATGCAAAAATCTACTCCACAAACCTTTAGAAAAGAAGCAATCTATATTGATGGTAAAGACCGAACTGATGAGATAGAATCTTATTCTTTTGAGGGTAATAAGTGTGTAGTGGTATATAAAAGCAGTGGGAAAGCCTATTCTTATCCTCAACATAGAATTAAGATGGTAAGATCTGCTATTCAAAGTGAGAGAGCAGGAAATATTTTTTCTTATCTAAAGGCGATTGCAGAAAGTGTTGGTCTGAAGACCGAGGAAGGCAATAATATTCTTGCCAATAGCTATGGGAGTATCCGTTTTATTCCTGAGACTTCAATTCTTTACAATTATCTTAATGGGAAAGAACCCGAAAAGAATTATCACGCCTCTCCTATTGAAATCTTTCCTTTTGGTTTTAATCTGAGTCAGAAAACGGGAGTTGACAATTCGTTTTCAAATCCGTTAAGTGTTATTGAAGGTCCTCCCGGAACAGGAAAGACCCAGACGATTCTTAATATTATTGCCAATGCTGTGATGAATAATCAGAGTGTGGCTGTTGTTTCAAGCAATAATTCGGCGACAAAAAATGTTTTTGAGAAACTGGAGAGCAACGGAGTTTCTTTTATAGCAGCATTGTTGGGAAGCAGCCAGAATAAAAAAGAATTTATCGATGCTCAGACTGAAATCCCGGATCTGTCAGATTTTAGATTAAAGGAAGAACAGGAACAAGTCCTTATTCAGTCTACTTCCCTTCTTTTTATTGAACTTGCTGAAAAGTTAGAATTAAAGAATGAACTGGCTTTGCTCAAACTGGAAATAGATAAAATCCAAACAGAGCATCAGCATTTTACGGATGATATCACTTTGGCAACTGAAATCCGTTTTAAAAAGAATGTCAGTTCAGATCAACTACTTTCTTTATGGATTACATTGGAAGAGTATGAGAAAACAGGTAAAAAGTTTTACTGGTGGCGAAAACTGATATTTCCTTTTCTATATGGGGTAAGAGATAAGATTTTTTATACCTTATCCTATGAAGAGATGATCAGGATTGTCCAGTCAAAATACTATGGGGTAAAAATTTCAGAGCTTGATCTCAGAAAGCAAGAGCTGCAAAATACGCTACAACATTTTTCCTTCCATGATAAAATGAAAGAATATACTGAAGGATCGATGCAGCTGTTTAAAAACAAACTTCACCAAAAATATAAAGGAGAAAAACGTTCAGAATATACCGAATGGGATCTCCGTTTTAAATCAGAAGAATTTATTAAAGATTATCCTGTCATTATGAGTACCACCTACTCATTAAGAAGAAGCCTTGCTGAAAATGTAGTCTACGATTATGTGATTGTTGATGAATCTTCACAGGTGGATCTTGCTACAGGTGTGCTCGCATTATCCTGTGCAAAGCAAGCAGTTATTGTTGGAGATTTAAAACAGCTTCCCAATGTAGTGGATTCTGAAACAGCAGAGAATACAGATCAGATCTTTAAGAACTATGATATTCCGCAACCTTATCGTTATTCCAGTCATAGCTTGCTGTCTTCCATTACGGAAGTATTTCCGGAAGTACCTAAAACGCTCTTAAAAGAACATTATCGCTGTCATCCTAAAATCATTGATTTTTGTAACCGCAAGTTTTATAATGATCAGTTGATTATTCTTTCCGAGGGACAGACGGAAAGAGAACCTTTATTAATCTATAAAACAACTGAAGGCAACCATGCCCGGCAAAGAGAGAATCAGCGGCAGATTGACGTAATTATTCAGGAAATCATTCCACAACAAAAGCTGGAAGGTGTCAATCTGGGAATTGTAACCCCTTACCGTAATCAGACCTTAGCTTTACAAAGAACTTTTCAGGGAACAGATATTAAAGCTGATACGGTAGATAAATTTCAGGGAAGAGAAAATGATGTGATCATTCTCTCTACAGTAGATAATGAAATCTCTGAATTTACTGATAATCCGAACCGATTGAATGTAGCCATTTCCAGAGCCAAAGATCAGCTGATACTATTAGTGAATGGAAATGAAAGTGACAATGACACCAATATCTCAGATCTGATCCGCTACATTGATTACAATAACTTCACAGTAATAAACAGTGAAGTACATTCTATTTTTGATTACCTGTACAAAGGGTATGAAGAAAAAAGAAGAGCCCTTTTATCTGATCAAAAAAAGAAATCTGTTTTCGACAGTGAGAATCTCATGTATGCGTTAATCAGGGAAGTATTGTCCGAAGATCAATTTTCAAAATATGGCGTTATTCTGCATCACCCGCTTAGAAATCTATTATTAGATTTTTCCAGATTAAATCCTGAAGAAGAAAAATATGCTAGACATCATGCCACACATCTTGATTTCCTAATTTACAATAAGCTGGGGAAAAATCCTGTATTAGCCATAGAAGTTGATGGATATAAATACCATAAACTGAAAAGCCGACAAGCCGAAAGGGATATCATGAAAAATGAGATCCTGGAGAAGTATAGAATTCCGTTGGTAAGGTTTTCGACGACGGGAAGTGGGGAAAGAGAGAAGCTGATAAGCGCACTAAAAACATTAATGGGCTAA	MQKSTPQTFRKEAIYIDGKDRTDEIESYSFEGNKCVVVYKSSGKAYSYPQHRIKMVRSAIQSERAGNIFSYLKAIAESVGLKTEEGNNILANSYGSIRFIPETSILYNYLNGKEPEKNYHASPIEIFPFGFNLSQKTGVDNSFSNPLSVIEGPPGTGKTQTILNIIANAVMNNQSVAVVSSNNSATKNVFEKLESNGVSFIAALLGSSQNKKEFIDAQTEIPDLSDFRLKEEQEQVLIQSTSLLFIELAEKLELKNELALLKLEIDKIQTEHQHFTDDITLATEIRFKKNVSSDQLLSLWITLEEYEKTGKKFYWWRKLIFPFLYGVRDKIFYTLSYEEMIRIVQSKYYGVKISELDLRKQELQNTLQHFSFHDKMKEYTEGSMQLFKNKLHQKYKGEKRSEYTEWDLRFKSEEFIKDYPVIMSTTYSLRRSLAENVVYDYVIVDESSQVDLATGVLALSCAKQAVIVGDLKQLPNVVDSETAENTDQIFKNYDIPQPYRYSSHSLLSSITEVFPEVPKTLLKEHYRCHPKIIDFCNRKFYNDQLIILSEGQTEREPLLIYKTTEGNHARQRENQRQIDVIIQEIIPQQKLEGVNLGIVTPYRNQTLALQRTFQGTDIKADTVDKFQGRENDVIILSTVDNEISEFTDNPNRLNVAISRAKDQLILLVNGNESDNDTNISDLIRYIDYNNFTVINSEVHSIFDYLYKGYEEKRRALLSDQKKKSVFDSENLMYALIREVLSEDQFSKYGVILHHPLRNLLLDFSRLNPEEEKYARHHATHLDFLIYNKLGKNPVLAIEVDGYKYHKLKSRQAERDIMKNEILEKYRIPLVRFSTTGSGEREKLISALKTLMG				NA	NA	NA	NA	NA
BMS003_01531	804			hypothetical protein	ATGGGAAATTATATTAAGGAAATTAAAGCACTTTTAATTTTTGGTTTACTCGGATTTTTAGTAGTTGGCTTTATATTTATTCTAGCCTACTTTAAAATAGACTATTATTTTTACTTCTCTTTTATTGCATATATTTTAATTTGTATGATACTTATGGTATTGTCTACTATACTAAAATCTGCATTACTAAAAAAAATTATACAAATTATTCTAATACCAGCAAATTTAATTTTAAGTATTGGAACAATATTTATTCCTTTCATGTTTATACTTATCCACCTCTTTTATTATTTTGGCATTCCTCTTTTAGTTCCCATAATACTTTTAGAGTCATTGGATTTTTTCAAGATTGCATTTATTGAAAATAAGGAGACAAAACTGTACGTAGAATTTACTTCAACAGTTTTTATTGCAGTCTTATTTAATTATCAACTTCGAAAAGTAATTTATAGAATTTCACCTGCAAGAATCAATACTTCTAAGAAATTAAAACCATATGAGCTAGATAAATTAACCGATTATTTACTATCTGAAAATAATGTTAGATTTCTTATTTATAGTCTCTATGTTTTTTTACTGATAATAATTAATTTTGAAAATTTTGAAAATAAATCTTTAAGTAAAAGTCTTATTACTGATAAGTCTATTCTCCAATCTTTCGTTACATTTATAGCACTTGACCGCGCCTTAGCATTGCTAAAACAATTAGAATTTAAACCATCTGACTTCCTCAATAAAATAATTAAATCCATTCTTAATAAATACCAAGATTTAAATAAAACCGAAAATAATGAGACACTCTGA	MGNYIKEIKALLIFGLLGFLVVGFIFILAYFKIDYYFYFSFIAYILICMILMVLSTILKSALLKKIIQIILIPANLILSIGTIFIPFMFILIHLFYYFGIPLLVPIILLESLDFFKIAFIENKETKLYVEFTSTVFIAVLFNYQLRKVIYRISPARINTSKKLKPYELDKLTDYLLSENNVRFLIYSLYVFLLIIINFENFENKSLSKSLITDKSILQSFVTFIALDRALALLKQLEFKPSDFLNKIIKSILNKYQDLNKTENNETL				NA	NA	NA	NA	NA
BMS003_01532	1086			hypothetical protein	ATGAAACATACCGAATTATCTACAAAACAGGATCTTGCAAACTATTTAAGATGCGATGTAGCATTTCTAGAAAAAGCTATTGACGAAGATTATTTTATTCGTAATATGGACACATTCGATTCTGAAGAAATTTTGCTCTCTTCTTTAAAAGGCAATATTGCAGTGTATAGATTTAACTTAAGAAAGAAGGGATATAACGGTGGATATAGAACTGTACATAGAATTTGGACTGCGCAATTAAACAACTCATTAAAAATTTTAAATTCATATTTAACTCAGATTTTCAAACCGTTGGAAATTGTTCATGGCTTCGTTAAAGGAAAAAATATTAAATCCAATGCTCAATCACATTTGGCAAAAAAGATTATTTTATCTGTGGATATCAAAGACTATTTCGAAAATATCACCGAAGAAATGGTTAAAAATGGTTTAATGAGTTTAGGCTACCAGGAAGATATCTCATTGTGGATTGCTAAAATAACAACTATAAATAATCAACTTGTACAGGGGTTTTGTACTAGCCCAACTTTGGCAAATATTGTCACTCATAAATTGGATAAAGATCTAAAAAAATTATGTGCTAAAGATATCACTTATACTAGATATGCTGACGATCTATACTTTTCTTCCAACACAAAGGAGATTCCTTTAGAAAATATAACCTCATTAATAGAAAAGCACAGTTTTGTTTTAAATAATAAAAAAACGAAGTTCATGAAAAGAGGTCAAAAGCAATATGTTACTGGTTTAACTACTTTTGATTCTAATATTCCAAGAATTTCAAAACAAAGAAAACGGAATATTCGTTTGGAAATTAATTACATAACAAAGTTTGGTTATGCTGCACATGCTAAACACAGACTAATTAAAAGAGGAGAAGATCCGAATGGTCTGGATTTCTTTAATAAAATAGGTGATGAAATAACATTAATACGCAATAGACTTTACGGCTGGCTACATTTTATACAGTCAATTGAACCACAGTTTGCTAAAAAATATTATAAAAAATTAAATAATGTTGGTAAAAATTCAGTTTTGAATTCAAACCTTAGCGAAATACTAAAACAATTAAGACAAAATATGTAA	MKHTELSTKQDLANYLRCDVAFLEKAIDEDYFIRNMDTFDSEEILLSSLKGNIAVYRFNLRKKGYNGGYRTVHRIWTAQLNNSLKILNSYLTQIFKPLEIVHGFVKGKNIKSNAQSHLAKKIILSVDIKDYFENITEEMVKNGLMSLGYQEDISLWIAKITTINNQLVQGFCTSPTLANIVTHKLDKDLKKLCAKDITYTRYADDLYFSSNTKEIPLENITSLIEKHSFVLNNKKTKFMKRGQKQYVTGLTTFDSNIPRISKQRKRNIRLEINYITKFGYAAHAKHRLIKRGEDPNGLDFFNKIGDEITLIRNRLYGWLHFIQSIEPQFAKKYYKKLNNVGKNSVLNSNLSEILKQLRQNM				NA	NA	NA	NA	NA
BMS003_01533	732			hypothetical protein	ATGGACGAAAAAAAAACTAATTACTTTTATATTGATGAATCAGGAAATATCAATAATAATTCTAATATATTCATTCATGGTTGTATAAAAACCGATAGTCCACAAACTATAACAGATGCATTGGTTAAATTAAAAACAGATATTCAAAGTTCAATTTATTATGACGATATCAAAAAAATAATTCTAAAACAAGGATTTCACGCTACCGAAAATAATATGGATATCCGCGCTGAAGTTTATAAGATATTACCTCTACTGGATTACAGAGCATATTTTGTAATTACAAATAAAAACACTGTTTTTTTTACGGAGAAAATGAAAACTATGGATGAATCTGATTTTTTTGCATATTCCCTTAAAAAACTTTTAAAAGACAGAATTGAGGCACACAGATACGAAAAAAATATCTTCATCTTTGAAACAATTGAATTAAAAAGAAATTCACTTAATAGGATTTTGACAGATTTTTTCTCGCATTATGACAAAAAAATTGATTGTGAGTTCATTATCGTTGGAAAAGAAGAAGAGAATCTGGCAATTGTAGATTACTTAAATTTTCTTTTTTACCATATATTTAGTGATGATAAACCATTTCCAAGGATGAAACTAAATTTTAATTTAGTAGCACCCAAGATTGCTTTGGTAAATTATTCGCATAAAAATCTTTTCTTTTCAAGGCAAAAAAAAGAAGAATTTCAGGTATCTTTACAAAATCTGCAAAAAAATTATTAG	MDEKKTNYFYIDESGNINNNSNIFIHGCIKTDSPQTITDALVKLKTDIQSSIYYDDIKKIILKQGFHATENNMDIRAEVYKILPLLDYRAYFVITNKNTVFFTEKMKTMDESDFFAYSLKKLLKDRIEAHRYEKNIFIFETIELKRNSLNRILTDFFSHYDKKIDCEFIIVGKEEENLAIVDYLNFLFYHIFSDDKPFPRMKLNFNLVAPKIALVNYSHKNLFFSRQKKEEFQVSLQNLQKNY				NA	NA	NA	NA	NA
BMS003_01534	726			hypothetical protein	ATGGCACAATCTAGCATAGAATGGACAGAAATGACTTGGAATCCCACAACTGGCTGTGATAAAATATCAGCTGGGTGCAAATTCTGTTATGCAGAAGTAATGTCAAAAAGATTACAGGCAATGGGTGTCGAAAAGTATAAGGATAATTTTGAGATAAGAATACACGAAGATGCTTTGAAAATTCCATACACGTGGAAAAATTCTAAGGTAGTTTTTGTAAACTCTATGAGTGATTTATTTCATAAAGATATTCCCCTAGACTTTATAAAGAAAGTTTTTAAAGTAATGAATAATAATCCTCAACACGTTTTTCAAGTCTTAACAAAACGTGCGGAGAGGCTTTTTGAATTACATACAGAATTGAAATGGACTCATAATATCTGGATGGGTGTTTCTGTCGAGAACGAAAAGGTAAAAGACAGAATTGATTATCTGAGACAAACAAATGCTAAAGTAAAATTCTTATCGCTAGAACCTTTAATTGGACCTCTCCCTAATTTAAATCTTGAAAAAATAGATTGGGTAATTGTTGGAGGTGAAAGTGGTTTTAAATCTAGACCAATGGATGCAGACTGGGTTATTGACATTCAAGAACAATGTGATAAAAATGAAGTAGCATTCTTTTTTAAACAATGGGGTGGTAAAAATAAGAAAGCTAGCGGACGTATTCTAAATGGTCGAACATATGACGAGATGCCTGAAATTGAACTACAACGTAGCGTATAA	MAQSSIEWTEMTWNPTTGCDKISAGCKFCYAEVMSKRLQAMGVEKYKDNFEIRIHEDALKIPYTWKNSKVVFVNSMSDLFHKDIPLDFIKKVFKVMNNNPQHVFQVLTKRAERLFELHTELKWTHNIWMGVSVENEKVKDRIDYLRQTNAKVKFLSLEPLIGPLPNLNLEKIDWVIVGGESGFKSRPMDADWVIDIQEQCDKNEVAFFFKQWGGKNKKASGRILNGRTYDEMPEIELQRSV				NA	NA	NA	NA	NA
BMS003_01535	858			hypothetical protein	ATGAATCAATTTGGAGGAAATTGGAGCGAAAATAAGATTGAAATTTTAGTAGAGTATGCAGGTGCATATCTTACTATAATGAAAAAATATGCAGATAAGTACAATTGGCAATTATTATATTTTGATGGTTTTGCAGGATCTGGCCACATTAAAGGAGATGATGACCAACAACAGCCAATTGTAGGTGCTGCAACAAGAATCCTGGAGATCAACGAACCCAGAAGTTTTGATATATATTATTTTGTTGAAAAAGAAAAAGATTTTGCAGATCTTTTACGCAAGGTAACAGTGGAAAGTTTTCCTGAAAAAAAAATTTTTATTGCAAATACTGATTGCAATGAAAAAATAGAGTCCTTAAGTAAATTTTTAACCACTAAAAAAGGAAAAGGATTCAAATCACTCGCTTATATTGATCCATATGGTATGCAGCTTAATTGGAAATCTTTACAAACATTAGAAAGACATTCTGTCGATGTTTGGATTCTAGTTCCAACAGGAATGGGTGTAAATAGACTTTTAAAAAAAGATGGAAATATTTCAGATGCTTGGTTGTCAAGATTAGAAAATTTTTTAGGAATGACAAAAGACGATATACTACCATATTTCTATCAAGAAAAAATTGTTTACACTCTCTTTGGTGAAGAAACTAAAATTTCTAAAGAAAATAATGCTATTGAAAGATCGGCACAGTTATATGAAGACAGACTAAAAAGTCTTTTTAAATTTGTATCGAAACCATATATTTTAAAAAATAAAATGAACTCTGTTATGTTTCATCTTTTTATGGCTTCAAATAATAAACATGCAGTAAAAATTGCTAATGACATAACTAAAAAATATAACAATGGCACAATCTAG	MNQFGGNWSENKIEILVEYAGAYLTIMKKYADKYNWQLLYFDGFAGSGHIKGDDDQQQPIVGAATRILEINEPRSFDIYYFVEKEKDFADLLRKVTVESFPEKKIFIANTDCNEKIESLSKFLTTKKGKGFKSLAYIDPYGMQLNWKSLQTLERHSVDVWILVPTGMGVNRLLKKDGNISDAWLSRLENFLGMTKDDILPYFYQEKIVYTLFGEETKISKENNAIERSAQLYEDRLKSLFKFVSKPYILKNKMNSVMFHLFMASNNKHAVKIANDITKKYNNGTI				NA	NA	NA	NA	NA
BMS003_01536	255			hypothetical protein	ATGGCAACAAACTCTGAAAAAATTGCATTTCTAACAGGTTTCGGAAAAAGAGTTCAGGCTTTAAGAGAAGAAAAACAACTTAGCCTTAGGCAATTGGCGCAAAATTGTGAAATCGACTATAGCGATATAAGCAAAATTGAAAAAGGTTTGAGAAATATTCAAATGTCAACAATATTAGAACTATCAAAAGGACTAGATGTACCTCCCCAAGAATTATTTAATTTTATTATAAATGAAAACCTAGCTAATAGTTAG	MATNSEKIAFLTGFGKRVQALREEKQLSLRQLAQNCEIDYSDISKIEKGLRNIQMSTILELSKGLDVPPQELFNFIINENLANS				NA	NA	NA	NA	NA
BMS003_01537	2994			TonB-dependent receptor P26	ATGAAAAATTCCTATTACAATATAGGAGGCATTTTCTTTGGGCTCATGTTTACCGCTGTAAGCATTACTACAACTGCCCAGACACGCACTATTTCCGGTACCGTAACCTCATCAGGTAAACCTTTGCAGGGAGTTGTAATCTCCCAAGAAGGCAGTGATCAGGTAACAATGACCGTTAACAATGGAACCTACACCTTACAGGTTTCAGCAGAAAATACCATCCTATTGTTCAGACACCCTGATTATGCTGAAGAAAAATTCACAGTCACTAATCAGACCGTCGTTAATATCAGCTTAGAACAAAAAGTAAAGGGAATCGAAGAAGTTATTCTCAACGCTGGCTACTACAAGGTTAAAGACAAAGAAAGAACCGGTAGTATCGCCAAAGTTTCAGCAAAAGATATAGAAAATCAGCCTGTCACCAACGTACTGTCAGCGGCACAGGGAAGAATGGCAGGAGTCAGTATCACCCAGAATTCAGGAACTCCCGGAGGTGGATTTGATATTCAGATCAGAGGAAGAAACAGCCTTCGGACCCGAAGCAATTCGGTAATCGATGGCAATCAGCCGCTCTATATTATTGATGGTGTTCCGGTGGGTACGGGAATCAGTTCCTCCTATGCCGGAAGTATCCTTCCCAATGCAGACATTAATCCGTTAAACAGTATAAATCCTAACGATATTGAAAGTTTCGAGATTCTGAAAGATGCGGACGCTACTGCTATCTATGGTTCAAGAGGTGCTAATGGAGTGGTATTGGTAACCACCAAAAAAGGGAAAAAGGGAAAGGTAAAACTGACCCTGAACTCCTCCTATGGTCTGAGCCATGCCATTTCAAACCTTAAAATGATGAATACTGCTCAGTATCTTGATATGAGAAAGCAGGCATTTGCCAACAGCAATATCTCTGTCTATCCTGCCAATGCCTACGACATCAACGGAACCTGGGATTCCACCCGTTATACCGATTGGAGAAAAGAACTGATTGGCCATTATGCCGCTCTGTCTAATACCCAGCTGTCACTTAGTGGGGGAAGTGAAAATACTAATTTCCTGCTCAGTCTTGGTCATAATGAACAAACCACGGTGTTTGGCAGGGATTTCAGGTACAGAACCAATACCGTTTCAGGAAATATCAGCCACAGGTCTGCTGATCGAAAATTCAGTTTCAACTCATCCAATATTTTTACCGCAACAGACAATAATCTGATTAGCTCTGATGCGACAAGACAGTCGTATATTCTGGCTCCCAATGCACCCGCTCTTTATGATGCGGAAGGTAACCTTAACTGGGAAAACAATACGTTTACGAATCCCGCAGCGGCTTTTGAGAACTCCTATTCCAATAACAATCTGCAATTCCTTAACAACATCAGTATGGAGTATGAAGCTTTTGAAAACTTTAAGCTCAAGCTCAATGGAGGTTTAACCTATCAGACTTTTGAAGAATGGTCACTCCGTCCGAGTACAGCATATAGCCCTTCTGCTGGAGCAACACCTCTCAATTCCATGTCTTCAAAATCCAACCAGAACAGACTGTCTATGGTGATAGAACCCCAGATAAGCTGGATGTACAGAGCAGGTAACCATAAATTTGATATTCTGGTGGGAGGTACTTATCAGAGAGATGTTTCAGACCGAGGTGAAATTCAGGGGTCTGGTTTTGAGAGTAATGCCTTTATCTATAATATAGGTGCTGCAATTAATAAAGTCGTCCTTGACCAGATCAGTACAGAATACCGATACGGTGCTTTTTTCGGCAGAATCAACTATCAGTACAATAAAAAATATATCCTTAACATCACTGGAAGAAGGGACGGCAGCAGCCGATTTGGTCCCAATAATAAATACGCCATGTTCGGTGCTGTTGGGGCAGCATGGTTGTTTTCGGAAGAAGATTTTATGAAGAACATCTCATGGCTCAGTTTTGGAAAGCTGAGAGGGAGTTATGGTTCGTCGGGAAGTGATAATATCGGGGATTACCAATACCTCGATACCTTTGCCACGGCTAACCTCATCTATAACGGCAGCACAGGACTGGCTCCAACAAAACTCTACAATCCTGATTTCAGCTGGGAAAGAACCGTTAAAACAGAAGCTGCTCTTGAACTTGGATTGTTCAACAACAGGCTTAACCTAAGTGCTGCGTATTACCGAAACCGCTCAGGAAATCAATTGGTAGGCTATCAGCTTTCCTCAGTAACGGGATTCAGCAGTGTGCTGGCCAATCTGGATGCTGTTATTCAGAATACAGGATTTGAATTTGAGGCCAGCGGAGAAATTATCAGGAAGAAAAATTTTTCATGGAAAAGTTCTTTCAATATCACTATTCCACGAAACAAGCTGATTTCCTTTCCTGGACTTGAAGGTTCATCCTATGCCAATACCTATGTGATCGGACAGCCTGTAAATATTGTTAAACTCTACCAGCTTCAAGGGGTAAATCCTACTACCTTGGTCTATGATTTTACCGATTTCAATGGCGACGGAAAGATCGCATCACCGGATGACAGGCAGGTGATCAGAAATCTTGGACAGCAGTTTTACGGAGGGCTAAGCAATGAGTTGCGCTACCGAAACTGGAACTTTTCATTTTTGTTGCAGTTTGTAAAGCAGCAGAGCCGGAACTATAACTCAGCAATGTCTTCACCGGGCATTATGGCGAATCTCCCGGTAGAGGCATTGAATGTATGGTCGCCTTCAAATCCCAACGGTCTTTATATGCCGTACCGTTCAACGTCAAATTCTTCACACAGCCTTTTTCAAAATAGTGATGCCAGTGTTTCTGATGCTTCATTTATAAGGCTTAAAAATGTGCAGCTTACCTATAATCTCTCTTTTAATTCAGGTTTTTTTAGGGAAGTAAAGCTTTATTTTCAGGGGCAGAACCTCTGGACGTGGACGAAGTTCTTTGGAATTGATCCCGAGATGACTTCTTTTGGATTCCTGCCTCCTTTGAAAACGTATTCATTGGGCATTCAGCTAACGCTGTGA	MKNSYYNIGGIFFGLMFTAVSITTTAQTRTISGTVTSSGKPLQGVVISQEGSDQVTMTVNNGTYTLQVSAENTILLFRHPDYAEEKFTVTNQTVVNISLEQKVKGIEEVILNAGYYKVKDKERTGSIAKVSAKDIENQPVTNVLSAAQGRMAGVSITQNSGTPGGGFDIQIRGRNSLRTRSNSVIDGNQPLYIIDGVPVGTGISSSYAGSILPNADINPLNSINPNDIESFEILKDADATAIYGSRGANGVVLVTTKKGKKGKVKLTLNSSYGLSHAISNLKMMNTAQYLDMRKQAFANSNISVYPANAYDINGTWDSTRYTDWRKELIGHYAALSNTQLSLSGGSENTNFLLSLGHNEQTTVFGRDFRYRTNTVSGNISHRSADRKFSFNSSNIFTATDNNLISSDATRQSYILAPNAPALYDAEGNLNWENNTFTNPAAAFENSYSNNNLQFLNNISMEYEAFENFKLKLNGGLTYQTFEEWSLRPSTAYSPSAGATPLNSMSSKSNQNRLSMVIEPQISWMYRAGNHKFDILVGGTYQRDVSDRGEIQGSGFESNAFIYNIGAAINKVVLDQISTEYRYGAFFGRINYQYNKKYILNITGRRDGSSRFGPNNKYAMFGAVGAAWLFSEEDFMKNISWLSFGKLRGSYGSSGSDNIGDYQYLDTFATANLIYNGSTGLAPTKLYNPDFSWERTVKTEAALELGLFNNRLNLSAAYYRNRSGNQLVGYQLSSVTGFSSVLANLDAVIQNTGFEFEASGEIIRKKNFSWKSSFNITIPRNKLISFPGLEGSSYANTYVIGQPVNIVKLYQLQGVNPTTLVYDFTDFNGDGKIASPDDRQVIRNLGQQFYGGLSNELRYRNWNFSFLLQFVKQQSRNYNSAMSSPGIMANLPVEALNVWSPSNPNGLYMPYRSTSNSSHSLFQNSDASVSDASFIRLKNVQLTYNLSFNSGFFREVKLYFQGQNLWTWTKFFGIDPEMTSFGFLPPLKTYSLGIQLTL	PGPT0003415_38	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS003_01538	1374			SusD-like protein P25	ATGAAATCAATATTCAATAGTATAATAATGGCAGTGCTCATCTATCTGATGAGTACCGCTATATCGTGTGAAAAAATGCTGGAAGTAGAGTTGCCTGACAATCAGATGTTGTCAGAAACCGTTTTCAGTGATACTCAGACTGCCAACGCCGTATTATCTGGACTGTATGCCGGATTGTGGGAATCATCACCTGTTACAGGTGATCAAAGCGGAAGGCTTTTGGGTCTTTATACTGATGACCTGACCTATTATGCAGTCAGTGCCACTAATGGACTGCCTGAATTATCCAATAATACACAGATTGATTCCAATCAGTTTGTCAGTTCGTTCTGGAATGCTGCTTATCAGAAAATATATGTCAGCAATTCCATACTCGAAGGGCTGGAAGGAGCAGATCATATTCCGGCAGCTGATAAAGCAAGGATAAAAGGGGAGACCCTGGTTATCCGCTCTTTGCTCTTTTTCTATGTTCAGCAGGTTTATGGAGATATTCCTTTTCCTGTGACCACCAATTATATGATCAATCAGAGCATTTCAAAAACACCTTCTGCAGAAGTGCTGATGAGAATTGAATCTGATGTGAAGGAAGCTATTGAACTGCTTTCTGATACATACCAAAATAATGAACGCATTTATATTAATAAAAAAGCAGCCCAGCTTCTTCTGGGCAAAGTTCAGATGCAGCAGCTGAAATGGAGTGAGGCAGAAGCCACCTTGAAAACAGTAGTTCAGAGTCCGCTGTATCAGTTTCAAAATGATATCACCAAGGTCTTTCTTAAAAACGGCAGCCATATTATCTGGCAGCTCAAGCCTAAGAACAATGGGGATGCGGTAAAGGAAGCAACGATTTACTATTTTGTTAATGCTGCTCCAACCTCTATGGCACTTTCCGCATCTCTGGTCAGCTCGTTTCAGAATGACCTTCGCAAGCAATATTGGATGGGATCTGTTACAGTTGGGGGCAACACCTGGTACAGAGCGGAAAAATACAAAGCAAGATCTTCCAACTCCACAGAAAACTCCATTGTCTTCAGACTGGAAGAGGCCTATTTACTATTGGCAGAGGCTCTGGCTCAACAAAATAAAATGTCAGAGGCCCTACCGTTTATTAACCCGATCAAACAAAGGGCAGGACAGCCATTGCTAGGCAGTTCTGTTACACAACAGCAGCTTCTTGAGGAAATCCTTGATGAAAACAGAAAAGAGTTTTTTACAGAAATGGGACATCGGTTTCTCGATTTGAAAAGAGCAGGAAAGCTTAATGAACTACAGCAGACCAAACCCAACTGGAAAGATCAACATAAAGTATGGCCTCTTCCGCAACAGGAACTGCTGCTCAATCCCCATCTGAATCCTCAAAATTTAGGTTACTAA	MKSIFNSIIMAVLIYLMSTAISCEKMLEVELPDNQMLSETVFSDTQTANAVLSGLYAGLWESSPVTGDQSGRLLGLYTDDLTYYAVSATNGLPELSNNTQIDSNQFVSSFWNAAYQKIYVSNSILEGLEGADHIPAADKARIKGETLVIRSLLFFYVQQVYGDIPFPVTTNYMINQSISKTPSAEVLMRIESDVKEAIELLSDTYQNNERIYINKKAAQLLLGKVQMQQLKWSEAEATLKTVVQSPLYQFQNDITKVFLKNGSHIIWQLKPKNNGDAVKEATIYYFVNAAPTSMALSASLVSSFQNDLRKQYWMGSVTVGGNTWYRAEKYKARSSNSTENSIVFRLEEAYLLLAEALAQQNKMSEALPFINPIKQRAGQPLLGSSVTQQQLLEEILDENRKEFFTEMGHRFLDLKRAGKLNELQQTKPNWKDQHKVWPLPQQELLLNPHLNPQNLGY				NA	NA	NA	NA	NA
BMS003_01539	2493			hypothetical protein	ATGAGAGTATATTGTTTAATTATTCTGCTGTTTTCTCTGCATTGCTTTAATGCACAGAGGTCGATTAATGAATTGGACCAGTGGATGTCGCGTTTCTCAACGATGATAGGTCAGATGAAGGTATCTGAAGATCAGAGATTCGTTTTGGTGACTAAAATGTACGCGAATAATTCTGATTCAGTTCTTGTGTTTGACCGCCAATCGGCAGTCATTCCATCCGATACCATTTTAAAAAAGAACAACATCAGTTTTCTGAACAATTATACGGTCTTTGTTTCAGGACCGGGTAGGGCTGAATTAATTGAGCTGAAGTCCAAAAAAAGAGAAATTTATGATAGTGTACAGCGATGCAGTGTCAATGAAACCCTGAAGCAATATGTCATACTGGGTACTGATAAAAACCTGAAAATCTATAATGCCAAAGGAAAAGTGCTTCACCATGAGGCGGGAACATTGAACTATACTATTTCGGAGCAGGGACAGGTTTATATTCTTGCTGAAAGTGGAGGATTTCATAAAATATTGAAATGGAATGGAAGTACTATGAAATTGCTTTATTCTACTGCAAATCACATTGTTGCGATGGATCTTTTAGAATCAGAGAGATTTATTGTTATAAGGGAAAATGAAAAAACAGATCCCAATGGAAAGACCAGGATCAGATTGTTAAGAGTATCAGACGGACAGCTGTTTCATAACAACCTGATCAGCCTAGGAGAAGCCCAAAACATGAAAGTAACTGAAGCAGGTCATACTGAAACTTTTTTGATTGATATTTCCGTCAAGAACCTCCCCGAGAAAATTGGAAAACTTGAAATATGGTATGGAGGAGACAAATATCTGCGCAATAAGGACCAAGGGCTGATTGAGCATCAGTGTATGGTATGGAATGTTAAAAATAATCAAGTTCATTCAATCCCTCCCAAATCAATGCAGGTTTATGTAGCGACAGACAATCCACGTTATTTTTGGACCTATAATGCCAGGGAGGACAATGATTACCGTGGATTTAGAAGCCTGAATGTATATCGATATGACCTTTTAGAAAACAAATCTGAACTTGTTTTTGAGAATGCCTCAGAAATGGTCATAGGAAAGGACAGTCGTTACACCATTGGATTTCTGATGTATAAGAATCAATGGATGGTATACGATCATCTGTTAGAGCAGACAAAAATAATCGATTATAATGGAATACTAAACTATCCTATCTTTATGCCGGATAGTAGTTTGCTCTTTACAGCAGGAGACCGACTGATCAATTATCATCTGGAAACAGGTGTGTTAAAAACAGGATTCAAACAAGAGAACAGCAAAATCAGCTTTCATGAATACAGTGGGAAAATGATTCATCAGATGGAGTCTTTTAAGATAACACGACGAACTATTGAAATGTCTCAACCGTTGATGCTGCATATAAGGAGAGAAGATCATAATGATTCCGGATATTATTCTTTTTATAAAGGTAAACTCAAGAAAATACTGCCATACAGCAGCAACAGAATCAAAATGTTCTCATATAAGGGCAGGCATGATTTAATGTATTCGATCGAAGAAAACTACAATCTGTCTCCACGGCTGTACAGCAAAAGCAAGTCATCAGGTCAAAAGAAGGTACTTTATACAACCAACCTTCATGATAAAGAAGCGATAGACCTGCAGCAGGATGTTATTTCATACACCAACAGTGAAGGTAAGGACCTGAAAGGAGTTCTATATTATCCCATTAAATTCGACAAGACAAAAAAATACCCTTTGGTGGTACAGGTATACAGTATTCAGCATGATGAGTTCAACAAATACCTGTATCCCGCCTGGGGACCCAGTGGATTCAATATTCGACTGCTTCTTGAGAACGGTTATATGGTTTTTCAACCGGACATTGTTTCAGATAGAAGGGGGCCTGGAATTTCGGCACTTGATTGTGTTCATTCCGGACTGGATGCGATTCAAGGAAATGTAAATATTGACTTCAGGCGTATGGGTTTGACAGGACACTCATTCGGTGGTTATGAGACAAATTTTATTGCTACCCATTCAGAAAGGTTCGCAGCCTATGTCTCGGGGGCAGGTCTTAGTGATATTATGAATACTTACTTTTCATTTAATGAACTGTTTAAAATAGCAGACTATTCAAGATTTGAAACAGGGCAGTTTTCAATGGGAGTTTCTTTTTCAGAGGATAAGGATCTGTATTATAAAAATAATCCCATCAATTTTATTGAGAAAGTCAACGCACCTGTATTGCTTTGGGCAGGTAAGAAAGACACGAATATTCCGCCAACGCAAACCATGAGCTTTTATATGGGATTATTAAGAAACACAAAAAAGGTGATAGCACTAATGTATGCAGATCAGGAACACACCTTCAAGAAAAGTTCCGAAGACATCAGGGATCTTAATACTAAAATCTTGGAATGGTGGGACTATCACCTGAAAAGCCGGAAAGATATAGAATGGATCGATAAAGAAATGAAAAGGGACGCAGAATAG	MRVYCLIILLFSLHCFNAQRSINELDQWMSRFSTMIGQMKVSEDQRFVLVTKMYANNSDSVLVFDRQSAVIPSDTILKKNNISFLNNYTVFVSGPGRAELIELKSKKREIYDSVQRCSVNETLKQYVILGTDKNLKIYNAKGKVLHHEAGTLNYTISEQGQVYILAESGGFHKILKWNGSTMKLLYSTANHIVAMDLLESERFIVIRENEKTDPNGKTRIRLLRVSDGQLFHNNLISLGEAQNMKVTEAGHTETFLIDISVKNLPEKIGKLEIWYGGDKYLRNKDQGLIEHQCMVWNVKNNQVHSIPPKSMQVYVATDNPRYFWTYNAREDNDYRGFRSLNVYRYDLLENKSELVFENASEMVIGKDSRYTIGFLMYKNQWMVYDHLLEQTKIIDYNGILNYPIFMPDSSLLFTAGDRLINYHLETGVLKTGFKQENSKISFHEYSGKMIHQMESFKITRRTIEMSQPLMLHIRREDHNDSGYYSFYKGKLKKILPYSSNRIKMFSYKGRHDLMYSIEENYNLSPRLYSKSKSSGQKKVLYTTNLHDKEAIDLQQDVISYTNSEGKDLKGVLYYPIKFDKTKKYPLVVQVYSIQHDEFNKYLYPAWGPSGFNIRLLLENGYMVFQPDIVSDRRGPGISALDCVHSGLDAIQGNVNIDFRRMGLTGHSFGGYETNFIATHSERFAAYVSGAGLSDIMNTYFSFNELFKIADYSRFETGQFSMGVSFSEDKDLYYKNNPINFIEKVNAPVLLWAGKKDTNIPPTQTMSFYMGLLRNTKKVIALMYADQEHTFKKSSEDIRDLNTKILEWWDYHLKSRKDIEWIDKEMKRDAE				NA	NA	NA	NA	NA
BMS003_01540	273			hypothetical protein	ATGAAAAAAATTCTTTTTCCTGTCATCCTGGTAGCACTGGGAACAGGGTCAGCTTTTGCCACCATGTTGGCAAAGAAGAGTACACGAGCTTTAGAGCCGGCTTACAGAATTGTTAGCTTAGGTGGTGGTCAGTTCCAATGTGAGGATGCTGATCAGGAATGCAGCAATATCGTTTCCGGTGATGTCTGTGAATGGGCACTGGATACCAGCGTTGAACTGCATAGAATCGGTTCAGGCACGATGTGTGGAACACCACTTTATAAAATTCCTTAG	MKKILFPVILVALGTGSAFATMLAKKSTRALEPAYRIVSLGGGQFQCEDADQECSNIVSGDVCEWALDTSVELHRIGSGTMCGTPLYKIP				NA	NA	NA	NA	NA
BMS003_01542	1521			hypothetical protein	ATGAAAAACGTACAAAATATCTTTATCAAAACTGTTTCCTGCTTTTTTATTCTGTTGTTTGTGTATGCAAGTGTGAGCAAATTGCTTGATTTTGAAAACTTTCAAGTACAGATTGCTCAGTCACCTTTACTAAGTGCTTATGCAGGTATTATTTCTTATGCTGTTATTATTGTAGAATTAATTATTGTACTATTATTAACTTTTCCAAGCAGGAGATTAATCGGATTATACTTATCAACTGCCTTAATGTCAGCATTTACGATCTATATATTTCTCATTCTAAATTACAGTGACTTTGTTCCTTGTTCCTGTGGAGGGATCTTGGAAAAAATGGGATGGACTGAACATCTGATTTTTAATATTCTGTGTGTAGTTATAGGAGGTCTATCTGTTCTCATCATGGGAAGAGCAAATCATAAGACTCACCGTAAAACGGCATTGATCTTAGGAATTTCCAATATTTTGAGTTGTATTCTTGTCATTGTTTTGTTTTTTAAGTCAGAATACATTATAAAACAGGAAAACAATTTTACAAGAAGATTTCTGATGCATCCTATTTTAAAAGTAAAAAGTATGGATCTGGAGAACCATTCATTTTATTTTGCTGGTGCTAAAAATGAAGAGCTTTACTTAGCTAACCGAAGCCTCCCTCAAAATTTATTAGCAGTTGATTCACTTTTAAAAAAAGCTGTAAATAAAAAGATTGATCTGGAACTCAGCAAATATCCATTTAAAAAAATAGAGATTAAAGTTAAAGATCACCATTATTATATCTATGATGGAAATGTACCCATCATATTAAAAGGCAAATTAGGTGATGCAAAAAACAAAGTAATCAGTTTTAACGATGCATTCTTTAGCCAGCTTGAAATTATTGACAGTAATAAAATTGCCATTCGCACCCTCTCATCTCAAACCAGGAATTTAACGCTGGGAACTATTTTAATCAATCACAATGGCAAAAATCAGGTGACACTGCATCCTGATTTACTTGAAAAGCAGTTGGATGGTTTTTTTGATTCTGACGGCTATCTTTCATCTGATCCTATAAGACCGACTGTCAGCTATATCTACAGTTACAGAAACCAGTTTCTTGTCATGAACCATTCAATGCAGCTTATTCACAGATGGAGAACTATTGATACGACTAAAATCGCACAGATTAAAGTAACATCGCTATCCAATGGAAAATCTAAAATGTCTAAACCTGCACTAAAAGTTAACGGGCATGCGATCGTATACAGAGGTCTGTTATTTAACCCCGCTCAATTAAGAGGAAGACATGAATCTTTAGACAGGTGGAAGGCAAGCAAAGTTATCGATATCTATAGTACCGCATCTCAGGAATATATTGGCAGCATGTACATCGACAATATTAAAAATAACAGCATGTCAGATTTTAGAGTCACCGATGAGCATTTGTACGCAATTATTGGAAATCAGCTGGTACAATATAAACTTACCCAGCCCCTGAAAAAACATTTTAAAAACGGGGAAGCCGAAAACCGTGTTTTAGAGTAG	MKNVQNIFIKTVSCFFILLFVYASVSKLLDFENFQVQIAQSPLLSAYAGIISYAVIIVELIIVLLLTFPSRRLIGLYLSTALMSAFTIYIFLILNYSDFVPCSCGGILEKMGWTEHLIFNILCVVIGGLSVLIMGRANHKTHRKTALILGISNILSCILVIVLFFKSEYIIKQENNFTRRFLMHPILKVKSMDLENHSFYFAGAKNEELYLANRSLPQNLLAVDSLLKKAVNKKIDLELSKYPFKKIEIKVKDHHYYIYDGNVPIILKGKLGDAKNKVISFNDAFFSQLEIIDSNKIAIRTLSSQTRNLTLGTILINHNGKNQVTLHPDLLEKQLDGFFDSDGYLSSDPIRPTVSYIYSYRNQFLVMNHSMQLIHRWRTIDTTKIAQIKVTSLSNGKSKMSKPALKVNGHAIVYRGLLFNPAQLRGRHESLDRWKASKVIDIYSTASQEYIGSMYIDNIKNNSMSDFRVTDEHLYAIIGNQLVQYKLTQPLKKHFKNGEAENRVLE				NA	NA	NA	NA	NA
BMS003_01543	237			hypothetical protein	ATGAAAAAGTTTATCCCTTTTTTTAGCATAATGATCGCAGCAGTTTGTCTACAAAACTGTACACATCGAGATGAAGATATGATTTCAAATAATGAATATATTGAAAAATCAGAGCCCACAATAAATGGCTTAGTAATGAAACAGGATTCTGCTAAATCCATAGAAGTCACTGAAGATCCCGGAACAAAAGATCCTCCTGTTAGAGACGGTGATAATTGGCGGCTTACTCAGGATTAA	MKKFIPFFSIMIAAVCLQNCTHRDEDMISNNEYIEKSEPTINGLVMKQDSAKSIEVTEDPGTKDPPVRDGDNWRLTQD				NA	NA	NA	NA	NA
BMS003_01544	1704			hypothetical protein	ATGAAAAAGTTTTATTGCTTTCTCATCTTATTTCCTGTTTTTTCACAATTTTTATTTTCACAAAAGAAAGAGGAAAAAACTTTCAGTGAAATTAGAAAGCCTTATGAAAAAATGGCAATAGATGACATTCATGCAATGCCTTATGTAAAACTGTACATTGAGAAAGCAAAAAAAGAAAATAATTTTTCAAAGCTGATTCAAGGGTATAGAGATGCAAGACAGTTTGACTATAAAAACAAGATGAAGTATGCTGACAGTGCGCTTACTGTCAGTTTGCAGCATGGAAGCCAAGATGACATCAGTAAAGAATATTTAAGCAAGGGAATCATCTATTATTTTTATCAAAAAAAATTTAAGCTGGCTTTAAATGAATATATTAAAGCCTATACGCATTCAAAAGGCTCAAAAGATGAGTACCATAGGTATAAAGTCATTTATCATTTAGGAATTGTAAAAAGTCATTTGGGCTATTATGATGACGCAATGAACCATTTTCTTGAATGTACTTCGTTTTACAGGTCAAAGCTGAATGAAAACCATCATGAAAATGAACAGTTTAACTATGAGAAGGCGTATCTCAACTGCTTACATCAATTGACTGTCCTCAACAGATATCTGCATCATTTTGCCAAGAGTGATAGTTTAAGCAATTTAGGTTATCGGCTAACTGCCAATAATAGTGATTTTGTACTTGAAAAAAGCTATTTCCTAAAATGCATCGGAATTTCCAGATTTCATCATAAAGATTATGTTGGTGCTCAGGATCACTTGCAAAAATCTTTACCCAATATTCTAAAGAGAAATGATTTCGCCTGGGCTTCTGTAGTATATTATTACCTGGGTAAAACATATGAAGCACAGGATAATGTAAATAGGGCTGTAGGATGTTATAACAAAATAGATTCTATTTTCAATAAACATGATTTTATACTTCCAGAGGTCTATAAGAGTTATCACTATCTTATCGATCATTATAAAGATAAAGACCTCGAAAAGCAACTGTACTATACCAATCAGCTTTTAAAAGCTGACAGTTTAATCAGTAAAGATTTTCCCTATTTATCCTTGAAACTTCATAAAGATTTTGACCGACGTACACTGATGGATGCAAAAGAAGAAATCGAGAGATCCAGTACTAAAAAAATAGTATTGGCTCAGATACTTATTGCTTCAGGAAGTGTAGTTCTTGGTTTTTTTGTTGTCCGGTATCGAAGAGATCAAAAGATAAAAAAACAATATCAGCTTCTTCAAAAGAGAATTGCTGAAGGAAAATATAATATGAATGATATTTTAAGAGAAGAAATGATAGAGCTGCCTGTAAGAAAGACCTCTCTTACCCCGGAAATGGGTTTAGAAATAAAAGAAAAACTTCAGAAGTTTGAGCAGGAGCAACATTTCAAAAAGAAAGGGATTACACAGAAAAGTATTGCTTTAAAGCTGGGAACCAATTCCCACTATCTTTCGGTTTATATCAATGAACAAAAAGGGATGAATTTTAATAAATACATGGCTGAACTGAGAATTAATTATATCACTAACCTGCTTAATACCAACAGTAAATATTTAAATTATACTATCGAGGCGCTGGCTGATGAATGCGGTATAGCGGCACGCCAGAACTTTTCAAATCTGTTCTTTGATATCAATGGGATCAGACCTACTGATTATATAAAGAATCGGAAAAAAGAACTGGGTATTAGTTGA	MKKFYCFLILFPVFSQFLFSQKKEEKTFSEIRKPYEKMAIDDIHAMPYVKLYIEKAKKENNFSKLIQGYRDARQFDYKNKMKYADSALTVSLQHGSQDDISKEYLSKGIIYYFYQKKFKLALNEYIKAYTHSKGSKDEYHRYKVIYHLGIVKSHLGYYDDAMNHFLECTSFYRSKLNENHHENEQFNYEKAYLNCLHQLTVLNRYLHHFAKSDSLSNLGYRLTANNSDFVLEKSYFLKCIGISRFHHKDYVGAQDHLQKSLPNILKRNDFAWASVVYYYLGKTYEAQDNVNRAVGCYNKIDSIFNKHDFILPEVYKSYHYLIDHYKDKDLEKQLYYTNQLLKADSLISKDFPYLSLKLHKDFDRRTLMDAKEEIERSSTKKIVLAQILIASGSVVLGFFVVRYRRDQKIKKQYQLLQKRIAEGKYNMNDILREEMIELPVRKTSLTPEMGLEIKEKLQKFEQEQHFKKKGITQKSIALKLGTNSHYLSVYINEQKGMNFNKYMAELRINYITNLLNTNSKYLNYTIEALADECGIAARQNFSNLFFDINGIRPTDYIKNRKKELGIS				NA	NA	NA	NA	NA
BMS003_01545	846			hypothetical protein	ATGGTAACAAAAACTATTTTTAAAAGAGCTTCGAAGTTATTGGAGGATCTGGACCTAAAGATTAACGAAGTCAATGCTGACGGAAATGATCTGATCAAAATTTCAGAAAAGGCATTACTTATTATTGATGAGTCGATAAGGAAATTAAAACTTCTGGTTTCCAACCATCATTTTGATCATATTGCTGAAGAAGTGTTGTTTTTTAAAAAACTGAAACCGCAGTTTATCTCAAAATTTATTTATTATTCTGCAGTACTGGATATTGAATCTCATAAGCCGGCTGCCGGAAATAAGACCTTAAAAAAATATTATGAAGCAGAACAGGAAAAATTGAAAGACTTTTATTTGGAGCATTCTGAATTTTACAGTTACTATAAACGGGAAGCAACCTATCTTGATCATAAAATATTTGTTCGCAATTCCTACGACCTAAAAATGAAGCTATCATCCGGATTTTATAATTATGATCCGAGTTTTACAACTTCCCACGATCATATGATCGCCAGATTTATTTCCAATCAGCAGTTCGATCAGTATTTAAAAAAGCAAATTGAAAATTCAAATGATAACTTTACGGCAAAAGTATTTTCTCCTTTGAGCTGGTCGGGATCAAAGGTCGGTCTTATAGAGCTTATCTATGCACTTTACCAGATGCGTTGTTTTAACGGCGGTAATATAGAGTTAAGCGAAGTCATAAAATTTACAGAAAAGTCATTGGATTGCGATTTAGGTAACTTTCATAAAACCATCTTTGAAATCCGTAACCGAAAACAGGGACCAACCAAATTCCTTCAATTGGTGAGTGAAAATTTGAATCAATATTTTTTAAACAGTGATGCTGAGTAA	MVTKTIFKRASKLLEDLDLKINEVNADGNDLIKISEKALLIIDESIRKLKLLVSNHHFDHIAEEVLFFKKLKPQFISKFIYYSAVLDIESHKPAAGNKTLKKYYEAEQEKLKDFYLEHSEFYSYYKREATYLDHKIFVRNSYDLKMKLSSGFYNYDPSFTTSHDHMIARFISNQQFDQYLKKQIENSNDNFTAKVFSPLSWSGSKVGLIELIYALYQMRCFNGGNIELSEVIKFTEKSLDCDLGNFHKTIFEIRNRKQGPTKFLQLVSENLNQYFLNSDAE				NA	NA	NA	NA	NA
BMS003_01546	2001			hypothetical protein	ATGCAGGGTGAAGAAGATTTAAGAGGGCTTGCCAAAATCATGGCATTTATGCGAGCGGTCAGTATTATTATGGTACTAATGCATCTGTATTGGTTTTGTTACGGATTTTTTGCACAGAAACAATGGACACTGGAACTCATCAATAAGATTCTTTATAATTTTAACAAAACAGCAGGGTTATTTTCTCATACCATATACTCTAAGCTGTTCGCAATAGTTTTACTGGCTTTGAGTTGCCTCGGAACAAAGGGAGTCAAAAATGAAAAGATCACTTGGAAAAAAATTAGTATTGGTTTTTCTATTGGTTTTGTCTTATTCTTTTTAAACGCAATTATTTTACAACTTGATACCAGCTTTTCAGCTCTACTTTATATTCTCTCTACCGGCTCCGGATACATCTTCCTGATGCAGGCAGGAGTCTGGATAAGCCGTTTACTCAAAACAAACTTAATGACAGATGTTTTTAACAATGAAAATGAAAGCTTTCAGCAGGAAACCCAATTACTCTATAATGAATACTCTGTTAACCTTCCTACACAATTCTATTATCAAGGGAAGTGGCATCAGGGATGGATTAATGTGGTGAATCCTTTTCGTGCCACCATTGTCTTAGGAACTCCAGGCTCAGGAAAATCCTATGCTGTAGTCAACAACTACATCAGACAACATATCGAAAAAGGATTTTCCATGTATATCTATGATTTTAAATTCGATGATTTGTCTACTATTGCGTACAACCATCTTCTCAATCATTCTGATGCTTATACCGTTAAGCCGAAATTCTATATCATCAACTTTAACGACCCTAGAAAAAGCCATCGATGTAATCCTTTAAACCCCGATTTTATGACGGATATATCGGATGCGTACGAAGCGGCTTATACCATTATGTTAAACCTGAATAGAAGCTGGATCCAGAAACAGGGTGACTTCTTTGTCGAAAGTCCCATTATATTGTTAGCTGCAATCATATGGTTTCTTAAAATTTATGAAAACGGCAGATACTGCACTTTTCCACATGCCATTGAACTGTTGAACAAAAAATACGAAGAGGTCTTTACGATATTAACATCTTATTCGGAATTAGAGAACTACCTCTCTCCTTTTATGGATGCATGGCAAGGGGGTGCACAGGATCAACTGCAAGGGCAAATTGCGTCTGCAAAGATTCCTTTATCAAGAATGATCTCACCACAATTATACTGGGTAATGACAGGAGATGACTTTTCTTTAGATATCAATAATCCAAATGAGCCTAAAATTCTCTGTGTTGGAAATAATCCTGATCGTCAGAACATTTATTCTGCTGCTCTTGGGCTATACAATTCAAGAATTGTTAAACTGATCAATAAAAAAGGACAGTTGAAGAGTTCTGTCATTATTGACGAGCTTCCCACTATTTACTTTAGAGGTCTGGATAATTTAATTGCTACTGCCAGAAGTAATAAAGTTTCCATATGCCTTGGATTTCAGGATTTTTCTCAGTTGACAAGAGACTATGGAGAAAAGGAAAGTAAAGTGATTCAAAATACAGTCGGCAATATTTTTAGCGGACAGGTAGTTGGGGAAACAGCAAAAACCTTATCTGAACGTTTTGGAAAAATACTGCAAAAAAGACAAAGTATATCTATTAACAGGAATGACGTTTCCAACTCCATTTCTACCCAATTGGACAGTTTGATACCTGCTTCGAAGATTTCTACTTTGACACAGGGTTTTTTTGTCGGTGCTGTATCTGATAACTTTGATGAAAGGATTGAGCAGAAAATTTTTCATTCGGAGATTGTTGTGGACAGTATTAAGCTTTCTGAAGAAACGAAAAGCTATCAGCAGATACCGCAAATCCGATCCTTTATTGAAAAAGACGGGAATGATTCTATGACCAGGCAGATTCAAGATAATTACCGAGAAATTAAGTCAGATATTCTAAGCATCATCACGGATGAAATGGATCGAATAAAAAATGATCCTGATTTGCAGCATTTATTGAAATCGGATTAA	MQGEEDLRGLAKIMAFMRAVSIIMVLMHLYWFCYGFFAQKQWTLELINKILYNFNKTAGLFSHTIYSKLFAIVLLALSCLGTKGVKNEKITWKKISIGFSIGFVLFFLNAIILQLDTSFSALLYILSTGSGYIFLMQAGVWISRLLKTNLMTDVFNNENESFQQETQLLYNEYSVNLPTQFYYQGKWHQGWINVVNPFRATIVLGTPGSGKSYAVVNNYIRQHIEKGFSMYIYDFKFDDLSTIAYNHLLNHSDAYTVKPKFYIINFNDPRKSHRCNPLNPDFMTDISDAYEAAYTIMLNLNRSWIQKQGDFFVESPIILLAAIIWFLKIYENGRYCTFPHAIELLNKKYEEVFTILTSYSELENYLSPFMDAWQGGAQDQLQGQIASAKIPLSRMISPQLYWVMTGDDFSLDINNPNEPKILCVGNNPDRQNIYSAALGLYNSRIVKLINKKGQLKSSVIIDELPTIYFRGLDNLIATARSNKVSICLGFQDFSQLTRDYGEKESKVIQNTVGNIFSGQVVGETAKTLSERFGKILQKRQSISINRNDVSNSISTQLDSLIPASKISTLTQGFFVGAVSDNFDERIEQKIFHSEIVVDSIKLSEETKSYQQIPQIRSFIEKDGNDSMTRQIQDNYREIKSDILSIITDEMDRIKNDPDLQHLLKSD				NA	NA	NA	NA	NA
BMS003_01547	1254			hypothetical protein	ATGATCGCTAAAATTGGAAAAGGTGAAAACCTATGGGGTGCGCTTACCTACAATCAACAGAAGGTAGACAACGAAAAAGGAACTGTTTTATTCACTAACAAGATTCCTGATTTATGGGATCGACCTTATTCGGTTAGATTTTTTCATCAGTATTTTGAACCCTACTTGATTGCCAATAACAAAACTGAAAAACCGGTAAGACATATCTCACTTAATCCTGATCCTGAAGATAAGGTTAATGACAAAGATTATCGGGAAATGGCTCAGCAATATATGCAGGAAATGGGTTATGGAAATCAACCGTATGTTGTTTTTAAACATACTGATATTGACAGAACTCACATTCATATTGTGACCACCTGTGTCCAGATCGACGGAAAGAAAATATCAGATCGATATGATCACCCCCAATCAATGGAAACCTGCAGAAAACTGGAAAGACAATACAACTTAAAAGTTGCTGGTGAGAATAGAAATTTAAATCAAAACTCTATTTTTAAACCTATAGATTATACTAAGGGGAATATCAAAACACAATTATCCTCGATACTACGACACATTCCTCAAACCTACAGCATTCAAAGTATAGGTGCATATAACGCTTTACTCTCTCAATTCAATATCTCTGTTGAAGAAATTAGCGGAGAGCTTCATGGTAAAATGAGAAAAGGAATGGTCTATTTTGCAACGGATAAAAATGGAAAAAAAATAAGTTCCCCTTTTAAATCATCCCTTTTTGGTAAGTATGCAGGAGTAGAAAATATTCAGGTGCTTATTGAGAAGTCAAAAGTGAAAATGAAAAATGATCCTTCAAAATTCATTCTAAAAAGAACTATTGAAACAGCAATGAGTACCAGCAGAACTGAAACTGCGTTTAAAAAGCAACTGCTTGAACAGGGAATCGCTACGGTCATACGAAAGAATGATGATGGAAGGATCTACGGAATTACATTCATAGACCATAACTCCAAATCTGTTTGGAATGGTTCACAGTTGAGTAAAGAGCTTTCAGCCAACTCATTCAACAAACTGTGGAATGAGGTAGAAACAAAGCCTGAAACCAGTTCATATAGTGATTATAAAAGTGATTTATCATTTGAAAAACCTTTAGAACATTTCTTTAGCAATAACAGCTACGCAGTATTTGACGGATTTTTTAATGACTTATTATCTTCAGATACTAACGAGGATCAGGAGGAACAAATTTTTGAATCACAAATGAAAAAGAGACAAAGAAAAAGAAGAAAAAAATAA	MIAKIGKGENLWGALTYNQQKVDNEKGTVLFTNKIPDLWDRPYSVRFFHQYFEPYLIANNKTEKPVRHISLNPDPEDKVNDKDYREMAQQYMQEMGYGNQPYVVFKHTDIDRTHIHIVTTCVQIDGKKISDRYDHPQSMETCRKLERQYNLKVAGENRNLNQNSIFKPIDYTKGNIKTQLSSILRHIPQTYSIQSIGAYNALLSQFNISVEEISGELHGKMRKGMVYFATDKNGKKISSPFKSSLFGKYAGVENIQVLIEKSKVKMKNDPSKFILKRTIETAMSTSRTETAFKKQLLEQGIATVIRKNDDGRIYGITFIDHNSKSVWNGSQLSKELSANSFNKLWNEVETKPETSSYSDYKSDLSFEKPLEHFFSNNSYAVFDGFFNDLLSSDTNEDQEEQIFESQMKKRQRKRRKK				NA	NA	NA	NA	NA
BMS003_01548	435			hypothetical protein	ATGGACGTAAATAAAAAAAGCAAAGGCGGGCGTAAGCCCAAGCTTAATCCAAGTAAAAACAGGCATGTATTTAGACTTACGGATGAGGAAAATATAAAGTTTTTAAATTTATATGAGGCTTCCGGAATGAGTAACAAAGCGAAATTTATTACAACAATTTTATTTCAGAAAGAATTAAAAATTGTAAAAGTGGATATTTCAACAATAGATTATCATACCCAATTGACCAAATTCTTCTACCAATTCCAGTCGATTGGAAACAATTATAATCAGATTGTAAAAATTTTATACCGAAACTTCACGGAGAAAAAAGCGTCTTTCTATCTCTTTAAACTGGAAAATCATACCAGAGAACTAGCTTTAATTGGTAAGCAGATTATAGAACTCACCAAAGAATTTGAACAAAACCATATTCAAAAAACTTCCGAAAAATGA	MDVNKKSKGGRKPKLNPSKNRHVFRLTDEENIKFLNLYEASGMSNKAKFITTILFQKELKIVKVDISTIDYHTQLTKFFYQFQSIGNNYNQIVKILYRNFTEKKASFYLFKLENHTRELALIGKQIIELTKEFEQNHIQKTSEK				NA	NA	NA	NA	NA
BMS003_01549	768			hypothetical protein	ATGAAAACAAAGAACCAACCCACAATTATTGCATTTTCCACTCAAAAAGGAGGGGTAGGAAAAAGTACATTTACCACACTTATGGCAAGTCTCCTTCATTACCGGATGGGGTATCAGGTCGCTGTATTTGACTGTGACTTTCCTCAGTACAGTTTACTCCAGATGAGAGAGCGGGATTTAAAAATGGTGATGCAGAATGAGATTTTAAAAAAGATCGCTCACAAACAATTTACGAGTATTAATAAAAAAGCGTATCCCATTTTCCAGAGTAAAGCCGATCAGGTTTTAGAGGATATAGATGCTTATGTTGAAGGATCTGAAACAATTCCTGATGTTATATTTTTAGATCTACCGGGAACTGTGAATACCGCCGGGATTTTAAAAACTTTGACGAAAGTCCATTATATTTTTTCACCCATTACTGCGGATCGTGTTGTGCTGGAAAGTACGTTAAGTTTCACCGATGTTCTAACCAATGTGTTGATGAAAGAAACTCAAACGGGAATCCGGGCAGTCCATCTTTTCTGGAATCAGGTGGATGGAAGAGAACGGACGTTGCTCTACAAAAACTACAGTAAAGTGATTTCAGATTTAGGGCTGCCACTTATGGAAACAAGCATTACAGACAGTAAAAGATTTAGAAAGGAAGGAGAGGCTATTACAAAGACTGTTTTCCGATCGACTTTACTGCCTGCAGATCCTAAATTGTTAGCTCAGTGCAGGCTGGATCAATTTGTAGAAGAATTTTTAGGAATTGTAAAACTATAA	MKTKNQPTIIAFSTQKGGVGKSTFTTLMASLLHYRMGYQVAVFDCDFPQYSLLQMRERDLKMVMQNEILKKIAHKQFTSINKKAYPIFQSKADQVLEDIDAYVEGSETIPDVIFLDLPGTVNTAGILKTLTKVHYIFSPITADRVVLESTLSFTDVLTNVLMKETQTGIRAVHLFWNQVDGRERTLLYKNYSKVISDLGLPLMETSITDSKRFRKEGEAITKTVFRSTLLPADPKLLAQCRLDQFVEEFLGIVKL				NA	NA	NA	NA	NA
BMS003_01550	396			hypothetical protein	ATGGAATATGAAAAAAATAACAATGATGATAGGGGGATCGATGAACAATATCTGATGTCCATTATGGCAGGAAGTCCTAAGAAGGAAGTTATTTCAAAAACTGATGATCCTCCAAAGGAGAAGGGTGAAGCAAAAAATAAGTTGAAGAATAAAAAAACATCAGATTTAAGTTATGTTGAGCAGTTTCTTACTCATCATACAATGACTAAGCGGGGTGATAAAAGTATCTATATCCGTCCTGAATATCACGAGCGCCTCTCGCGTATTATTCAAATCATTGCCGATGACCAGATTTCTCTGTATGCTTATCTGGATAATATACTGGCGTATCATTTCGAAATGTTTGAAAAGGAAATTACTGATGATTTCAATAAAAAATACCGTCCCATTTTTTAA	MEYEKNNNDDRGIDEQYLMSIMAGSPKKEVISKTDDPPKEKGEAKNKLKNKKTSDLSYVEQFLTHHTMTKRGDKSIYIRPEYHERLSRIIQIIADDQISLYAYLDNILAYHFEMFEKEITDDFNKKYRPIF				NA	NA	NA	NA	NA
BMS003_01551	618			hypothetical protein	ATGGAAAAAATAATCATTACAGGTTTATTAATCGCTATCATTCTAATTCTTATCGACAGAAGATTCCCAGTCAATGTCCGTGCGAAAGATAGGGGTAATACTAAGAAAAGTTCTCCACCGATAATGGGAGATATTAAGCAAACAAAAAGAAAAGGTTGGCCAGTTGAAGCCACTGAAAGCCACCTTGAATTTACTTCATTAGCAGAAGATAATTTTGAATCAGAAACCAGAGACGGGAAAGCTGAGGATGTAACCGAGAATAAAAACCTTGATGATATTCTAATCAAGGATAATTGGGGGCAGGAGGAAGAGGATTGGAAGTATCAGGACTCTAATATCGAAAGCGGTTTTGCTACAGGGGTTACCTTTCAGGAATTGAGTACTGCGGGTCAGCTGTTACAGCGGAAAATGCTGGAACCTGATTTAGAACAGCAAGCAGTTGCTATAATTCAAAAAATTCATGGGACCGAGCTTTTTGATCTTTTGGAGAATTCGTTGGGGGAGGCTTCGAAGCATATTTCAAATTTGTTAAGTCAGAGCATTTCGAATGATGTTGAAGGCATATCTTCCAGTTACAAAGATGGTGTTGAAGGTTTCGATATTGGGGAGTTTGTTTAG	MEKIIITGLLIAIILILIDRRFPVNVRAKDRGNTKKSSPPIMGDIKQTKRKGWPVEATESHLEFTSLAEDNFESETRDGKAEDVTENKNLDDILIKDNWGQEEEDWKYQDSNIESGFATGVTFQELSTAGQLLQRKMLEPDLEQQAVAIIQKIHGTELFDLLENSLGEASKHISNLLSQSISNDVEGISSSYKDGVEGFDIGEFV				NA	NA	NA	NA	NA
BMS003_01552	975	yhcG_2	COG4804	Putative nuclease YhcG	ATGGATAAAAGGTTCACAGATATTATTGAGCTCATCAAACAGTCTCGTAACAATGCGATAAGAAAAGTCAATGAGGAACTCATCGATCTATACTGGAATATTGGTGAGTATATCAGCAAAAAGGTTGAGCTGAGTGAATGGGGACAGTCTGTGGTTAAAGAACTTTCTCAGTTTATCCAGACTCATGAACCTGAACTAAAAGGTTTTTCGGATAAGAATCTTTGGAGAATGAAGCAGTTTTATGAGACTTACAAGGAATTTCCAAAAATCTCAACACTGTTGAGAGAAATCAGCTGGTCTCATAATCTGTCCATATTCTCCAGATGTAAATCAATCGAAGAAAGGGAATTTTATATCAAGTTGACCAAACAGGAAAATTATAGCTTCCGGGAGCTAGAGAGACAGATATCCAGCAGCCTTTTTGAAAGAACGATGATTGGAAATTCAAAACTCTCAACAGTGTTGAGAGAAACTAACGCTGATATAGTCAATACATTTAAAGACAGCTATGTATTTGACTTTTTAAATCTGCCTGAAACATTCAATGAAAATGATCTCCAAAAAGGTTTAATTGAGCAGATGAAAAATTTTATCCTGGAGTTAGGACGGGATTTTCTTTTTATCAGCGAAGAGTACAAAGTACAGGTCGGAAATTCTGATTTTTATATCGATCTCTTATTCTTCCACAGGGGGCTGCAATGCCTTGTCGCTTTCGAACTGAAAGCAGATAAATTCAAACCCGAACATCTGGGTCAGCTTAACTTTTATCTGGAAGCGCTGGACAGGGATGTTAAACGTCAGAACGAAAATCCAAGCATCGGCGTACTGCTTTGTAAAGACAAAGACAGCGAAGTAGTAGAATATGCGCTGAGTAGAAGTCTTTCTCCGACAATGGTTTCTGAATACAAAACGCAGCTTCCCGACAAAAAGGTTCTGCAGAAAAAACTGCATGAATTGTTTGATAACAGATCTTAG	MDKRFTDIIELIKQSRNNAIRKVNEELIDLYWNIGEYISKKVELSEWGQSVVKELSQFIQTHEPELKGFSDKNLWRMKQFYETYKEFPKISTLLREISWSHNLSIFSRCKSIEEREFYIKLTKQENYSFRELERQISSSLFERTMIGNSKLSTVLRETNADIVNTFKDSYVFDFLNLPETFNENDLQKGLIEQMKNFILELGRDFLFISEEYKVQVGNSDFYIDLLFFHRGLQCLVAFELKADKFKPEHLGQLNFYLEALDRDVKRQNENPSIGVLLCKDKDSEVVEYALSRSLSPTMVSEYKTQLPDKKVLQKKLHELFDNRS				NA	NA	NA	NA	NA
BMS003_01553	306			hypothetical protein	ATGAAAAAACAAAGAAAAAAATTGCTGTATGCTGTTTTAGCATTGGTAACAATTAATTCGGTATTTGGTCAAGGCAATGGTTCAGCCGGGATTAACGAAGCTACACAGATGGTCACTTCTTATTTTGAACCCGCTACCCAATTAATTTACGCCATCGGTGCAGTCGTCGGACTCATCGGAGGCGTAAAAGTCTATAACAAGTTCAGCAGCGGTGACCCTGATACCAGTAAAACTGCTGCCAGCTGGTTTGGAGCATGTATCTTCTTAATTGTTGCCGCAACCATTCTTCGCTCATTCTTCCTTTAA	MKKQRKKLLYAVLALVTINSVFGQGNGSAGINEATQMVTSYFEPATQLIYAIGAVVGLIGGVKVYNKFSSGDPDTSKTAASWFGACIFLIVAATILRSFFL				NA	NA	NA	NA	NA
BMS003_01554	333			hypothetical protein	ATGAATACCTATCATATCAATAAAGGAATAGGAAGGACGGTAGAGTTCAAGGGACTTAAAGCGCAATACCTCTTTATCTTCAGTGGAGGACTCTTAGGAATATTGATCTGTATCATGGTTATGTATATGGCAGGAGTCAATACCTATCTGTGTTTAATTCTCGGAGGATTCAGCAGTGGACTTCTTACCTGGCAGACTTTCGCACTGAATAGAAAATACGGGGAACATGGTCTGATGAAATTAGGCGCACACAAGAAGCATCCAAAATACATCATCAGTCGAAAGAGTATTTATCGGTATCTGAAAATTAACCGTAAAAGAACAAACATATGA	MNTYHINKGIGRTVEFKGLKAQYLFIFSGGLLGILICIMVMYMAGVNTYLCLILGGFSSGLLTWQTFALNRKYGEHGLMKLGAHKKHPKYIISRKSIYRYLKINRKRTNI				NA	NA	NA	NA	NA
BMS003_01555	2520			hypothetical protein	ATGAGAAATTCTTCCAAAGCAGCAACCTTGGAAAGCAAATTTCCACTGCTTGCGATTGAAAATGATTGTATCATTTCAAAGGATGCTGATGTGACCATCTGCTTTAAAGTCAGACTCCCTGAACTTTTTACTGTCGCTTCCGCTGAGTATGAAACCATGCATTCCGCTTGGTTCAAAGCCATTAAAACACTCCCGGATTTCACCATCGTTCACAAACAGGACTGGTTTATCAAAGAAAACTACAATCCTGATTTGTCAAAAGAAGATCAGAGTTTTCTTTCCAAATCATTTGAAAGACATTTCAATGAAAGACCCTTTTTAAATCATTACTGCTACTTGTTCATCACAAAAACAACTAAGGAAAGAATGCGGATGCAGAGTAACTTTTCATCACTATGCAAAGGAAAGCTTATTCCGAAAGAGATTAAGGACAAAGAAGTCATGAATCGATTTCTTGAAGCGGTCGATCAGCTGGAGCGGATTATGAATGACAGCGGTTATATCCATCTGGAAAGGATGACAGAAGATGAGATAGCAGGAACTTCCGAGAGGTCAGGACTACTGGAACAGTATCTGACTCTATCCCGTGAAACCCATCCGTCATTGCAGGACATCAAATTAGGCTCAGAAGAAATGAGAATTGGTAACAACCGGATTAGTATGCATACCTTATCGGATACGGAGGATTTGCCAGGTACTGTTTCATCACACAGCCGTTATGAAAAGTTAAGCACCGATCGCACCGACTGCCTTCTGTCATTTGCTTCTCCGGTGGGACTTCTGCTAAGCTGTAATCATATTTATAATCAATATTTATTTATTGACAACAGTGATGAGAACCTCCGCCAGTTTGAAAAATCTGCAAGGAATATGCACTCTTTAGCAAGATACAGCAGAGCCAATCAGATCAATAAGGAATGGATAGAAAAGTATTTGAATGAAGCACATTCTTTCGGGTTACAATCTATCCGCGCTCATTTTAATGTAATGTCATGGTCTGACAATTCTGCTGAATTCAAGCAGTTAAAAAATGATACAGGTAGTGCGCTAGCCTTGATGGAATGTAAGCCCCGTCATAATACCACGGATACAGCTACTTTATATTGGGCAGGAATACCCGGTAATGCAGGAGATTTTCCGAGTGAAGAAAGCTTCTACACATTCATCGAACCTGCTGTGTGTTTTTTTACAGAGGAAACCAACTATCAGGATTCACCTTCACCTTTTGGGATCAAAATGGCTGACCGTTTGACCGGAAAACCGATTCATCTGGATATTTCAGATCTGCCGATGAAACAGGGGATTATTACCAATAGAAATAAGTTTATCCTTGGTCCATCGGGCAGTGGTAAATCATTCTTCACCAACCATATGGTGCGACAGTATTATGAGCAGGGAGCGCATGTCCTTCTTGTAGATACCGGAAATTCCTACCAGGGATTGTGTGAACTTATCAGGGGAAAGACGAAAGGAGAGGATGGAGTATATTTCACCTATACAGAAGACAATCCTATTGCTTTCAATCCATTCTATACTGATGACGGCGTTTTTGACATCGAAAAAAGGGAGAGTATCAAAACCTTGATTCTGACCCTGTGGAAAAGAGATGATGAGCCACCGACCCGTTCAGAGGAAGTAGCCCTTTCCAATGCAGTCAGCGGATATATCGAAAGGATTAAATCAAATGACGAGCATCCTTCTTTCAATGGATTCTATGAGTACGTCAAAGATGATTATCAGAAAGTACTGGAGCAAAAGAAAGTCAGGGAAAAAGACTTTGATATAGCCAACTTTCTCAATGTACTGGAACCTTACTACAGAGGCGGGGAGTATGACTATCTGCTCAATTCAGAGAAACAGCTGGACTTGTTATCCAAGCGTTTCATTGTCTTCGAAATCGATGCTATTAAAGATCATAAAATTCTATTTCCTATTGTAACCATTATCATAATGGAGGTCTTTATCAATAAGATGCGAAGACTCAAAGGAATCAGAAAACTCATCCTCATCGAAGAAGCCTGGAAAGCCATTGCCAAGGAGGGGATGGCTGAGTATATCAAGTACCTGTTCAAGACCGTCAGGAAATTCTTCGGAGAAGCCATTGTGGTAACTCAGGAAGTCGATGATATCATTCAGTCACCGATTGTGAAAGAAAGTATCATTAATAATTCGGATTGTAAGATTCTTCTTGACCAAAGAAAGTACATGAACAAGTTCGATGATATTCAGGCGATGCTGGGATTGACTGATAAAGAAAAGTCCCAGGTGTTGTCGATCAATATGAACAACGATCCGAGAAGATTGTATAAAGAAGTCTGGATTGGACTGGGTGGAACGCACTCTGCAGTCTATGCCACTGAAGTTTCAACAGAAGAGTATCTAGCTTATACTACTGAAGAAACGGAAAAGATGGAGGTGATGAACCTTGCATCGGAACTTGACGGCAATGTCGAACATGCCATCAAGAGGATTTCTCTTAAGAGAATCAAATCGAATAGAAAAGACAATTCAATCATTTAA	MRNSSKAATLESKFPLLAIENDCIISKDADVTICFKVRLPELFTVASAEYETMHSAWFKAIKTLPDFTIVHKQDWFIKENYNPDLSKEDQSFLSKSFERHFNERPFLNHYCYLFITKTTKERMRMQSNFSSLCKGKLIPKEIKDKEVMNRFLEAVDQLERIMNDSGYIHLERMTEDEIAGTSERSGLLEQYLTLSRETHPSLQDIKLGSEEMRIGNNRISMHTLSDTEDLPGTVSSHSRYEKLSTDRTDCLLSFASPVGLLLSCNHIYNQYLFIDNSDENLRQFEKSARNMHSLARYSRANQINKEWIEKYLNEAHSFGLQSIRAHFNVMSWSDNSAEFKQLKNDTGSALALMECKPRHNTTDTATLYWAGIPGNAGDFPSEESFYTFIEPAVCFFTEETNYQDSPSPFGIKMADRLTGKPIHLDISDLPMKQGIITNRNKFILGPSGSGKSFFTNHMVRQYYEQGAHVLLVDTGNSYQGLCELIRGKTKGEDGVYFTYTEDNPIAFNPFYTDDGVFDIEKRESIKTLILTLWKRDDEPPTRSEEVALSNAVSGYIERIKSNDEHPSFNGFYEYVKDDYQKVLEQKKVREKDFDIANFLNVLEPYYRGGEYDYLLNSEKQLDLLSKRFIVFEIDAIKDHKILFPIVTIIIMEVFINKMRRLKGIRKLILIEEAWKAIAKEGMAEYIKYLFKTVRKFFGEAIVVTQEVDDIIQSPIVKESIINNSDCKILLDQRKYMNKFDDIQAMLGLTDKEKSQVLSINMNNDPRRLYKEVWIGLGGTHSAVYATEVSTEEYLAYTTEETEKMEVMNLASELDGNVEHAIKRISLKRIKSNRKDNSII				NA	NA	NA	NA	NA
BMS003_01556	633			hypothetical protein	ATGAAAAATTTAATCATTAAAACCTTAATGGTAGCATTTTTTGCTGCCGTAACCTATACAAAAGCACAATTTGTCGTAACAGACCCCGCAAACCTGGCTTCGGGAATTTTGAACTCAGCCAATGAAATTGTACAGACTTCATCGACAGTATCCAATGTCGTAAAAAACTTCAATGAAGTTAAAAAGGTGTATGAACAGGGTAAGGAGTATTATGACCAGCTGAAAGCCATTAATAATCTGGTCAAAGATGCCAGAAAGGTTCAGCAGACTGTTCTTTTGGTAGGTGATGTTTCTGAGATGTATGTGAATAATTTCGGTAAAATGCTGAGTGATCCCAACTTCAATGCGCAGGAATTAGCTTCTATTGCCAATGGTTATTCTGCGCTTCTTACCGAGAGTACTGAGCTATTGAAAGAACTCAAAGAGATCATCACGTCTAACGGTCTTTCTCTGAATGATAAAGAAAGGATGGATGTTGTTGACCGGGTTTATAAAGAGGTCAAAGCGTATCATAATCTGGTAAGATACTACACCAATAAAAATATTTCGGTCAGTTATCTCAGAGCAAAAAAACAGAATAACACCCAAAGGGTGTTAGATCTTTACGGAACCTCTAATCAAAAATACTGGTAA	MKNLIIKTLMVAFFAAVTYTKAQFVVTDPANLASGILNSANEIVQTSSTVSNVVKNFNEVKKVYEQGKEYYDQLKAINNLVKDARKVQQTVLLVGDVSEMYVNNFGKMLSDPNFNAQELASIANGYSALLTESTELLKELKEIITSNGLSLNDKERMDVVDRVYKEVKAYHNLVRYYTNKNISVSYLRAKKQNNTQRVLDLYGTSNQKYW	PGPT0025445_807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025445-trbJ-K20266	NA	NA
BMS003_01557	993			hypothetical protein	ATGGAACCAAGCAACTTACATGAAGTCCTACGTTCCGTTTATGAGGAAATGATGCCGATGTGCGCTGATATGGCTGCTGTGGCAAAAGGGGTCGCAGGATTAGGCGCTTTATTCTATGTAGCACTAAAAGTCTGGCAGTCATTGAGCCGTGCAGAATCGATTGATTTGTTTCCCATGCTGAGACCTTTTGCCATAGGCATCTGCATTATGTTTTTTACCACATTGGTTTTAGGAAGTCTTAATGGGGTAATGAGTCCCATCGTTCAGGGAAGCCATTCAATGCTGGAGAATCAGGTCTTGGATATGAACGAGCTGCAGCAGAAAAAGGATCTTTTAGAACGAGAAGCGATGCTCAGGAATCCGGAGATGGCTTATCTTATTTCAAACGAAGAATTTGACAAGAAGCTGGAAGAGCTCGGATGGTCACCATCGGATCTGGTCACGATGTCCGGAATGTATATTGAACGAGAAATGTTTGCCATCAAGAAAGATATCAGAGATGGTTTTCGTGAATTTCTTGAAATTCTGTTTCAATCGGCAGCCTTAGTTATTGATACCATCAGAACCTTCTTTCTGATTGTCCTTTCAATATTAGGACCTATCGCATTTGCCATTTCTGTATGGGATGGTTTCCAAACAACTTTAACCCAGTGGCTGACCAGGTACGTTAGTGTTTACCTATGGCTTCCTGTTGCTGATATTTTCAGTGCCATTCTTGCCAAGATACAAACCTTGATCTTAGAACGGGATATCGAGATGCTCGCAGATCCCACCTTTATTCCTGATACTTCCAATACGGTATACATCATCTATATGGTGATTGGGATCATAGGTTATTTTACGGTGCCAACGGTGACTGGCTGGGTAATTCAGGCAGGAGGTGCAGGCAACTTTATGCGTAATGTGAACCAGACTGCCACGAAATCAGGTAATGTCGCAGGAGCGGCAGTAGGTTCTGCGACGGGTAATATTTCGGGAAGATTATTAAAATAA	MEPSNLHEVLRSVYEEMMPMCADMAAVAKGVAGLGALFYVALKVWQSLSRAESIDLFPMLRPFAIGICIMFFTTLVLGSLNGVMSPIVQGSHSMLENQVLDMNELQQKKDLLEREAMLRNPEMAYLISNEEFDKKLEELGWSPSDLVTMSGMYIEREMFAIKKDIRDGFREFLEILFQSAALVIDTIRTFFLIVLSILGPIAFAISVWDGFQTTLTQWLTRYVSVYLWLPVADIFSAILAKIQTLILERDIEMLADPTFIPDTSNTVYIIYMVIGIIGYFTVPTVTGWVIQAGGAGNFMRNVNQTATKSGNVAGAAVGSATGNISGRLLK				NA	NA	NA	NA	NA
BMS003_01558	624			hypothetical protein	ATGGAATTTAAAATATTAAGAAATATTGAGAGCAGCTTCAAACAGATCCGTTTGTTTACATTCGTTTTTGCGGTGTTGTGTTTTGGAATTGTAGGGATTGTGGTATTCAAATCCTATCAGTTTGCCGAAGAGCAGCGTCAAAAGATCTATGTGTTGGATAACGGCAAATCATTGATGGTAGCCCTTTCACAGGATATGTCGATCAACAGACCTGTAGAAGCAAGAGAGCATGTGAGACGATTTCACGAATTATTCTTCACCATTGCCCCAGATAAGAAAGCTATTGAAAGTAATGTCAAAAGGGCTTTCAATTTGGCTGATCAATCCGCATTCAATTACTATAAAGACCTTCAGGAAAAAGGTTACTATAACAGAATCATTTCAGGTAATATCCAGCAGAGAGTTGAGGTAGACAGTGTCGTTGCCAACTTTGATAGTTACCCTTATGACGTAAAAACTTATGCAAGACAATTCATTATCAGGTCCAGCAATCTTACCATCAGGAATTTAATTACCAACTGTTCATTGGTTAATTCTGTACGGTCTGACAGCAATCCTCAGGGATTTATCATTGAAAAATTCAACGTGCTTGAAAACAGAGATGTCGAAACTGTTGAACGCTAA	MEFKILRNIESSFKQIRLFTFVFAVLCFGIVGIVVFKSYQFAEEQRQKIYVLDNGKSLMVALSQDMSINRPVEAREHVRRFHELFFTIAPDKKAIESNVKRAFNLADQSAFNYYKDLQEKGYYNRIISGNIQQRVEVDSVVANFDSYPYDVKTYARQFIIRSSNLTIRNLITNCSLVNSVRSDSNPQGFIIEKFNVLENRDVETVER				NA	NA	NA	NA	NA
BMS003_01559	303			hypothetical protein	ATGTCGAAACTGTTGAACGCTAATAAGATCGATATGAAAAAACTAAGAGATACACTCGAAAATTATGTTGTAAAGATTGATACACACTGGAAATCTCTTCCGGTAGAGCGACAAAAATTCCTGACCAAGGTTTTCTTTGGTGGTTATGTTTTGATAACCGTCATCGTCATTGTCAATATCTGTATTTCTACAGGTCAAAGAAGTAATACCATTTCTATCAATCATATTGATGGCATTTCTAAGAAACCTATCGAAAAAGGATCGAAGCATAATGAAATAGTAAACTCATCCACTAAAAAATAG	MSKLLNANKIDMKKLRDTLENYVVKIDTHWKSLPVERQKFLTKVFFGGYVLITVIVIVNICISTGQRSNTISINHIDGISKKPIEKGSKHNEIVNSSTKK				NA	NA	NA	NA	NA
BMS003_01560	1299			hypothetical protein	ATGAAAGATTCAGAGAAAATTAGAGTGACAGAAAATGATCTCTCCCAAAATTCTAACGGAGTGAATGATCATCCCAAGGCTCAATGGGAAAGATTAAAGAAACCTTTCATCTACTTTTTGATGGCTACTGTATGTGCATCTTGCTTTTATCTCATCTTTAAGCCCAAAACCGATCATACCATTATTGAAGAGGCTGGCTTTAATGCAGCTATTCCACAGGCAAAAGACGGTCAATTGCAGTCTGATAAGCAAAAGGCTTATGAGCAGCAGTTATTAGAGCAAAAGAATGAAGAAAAGAGAAATTCAATAACAACTTTATCAGATTACTGGAATGACCAGAACGGTGTAAACTATAATAGCAACCCACCTTCTTCAACATCCACTAAAAGTGTACTTCAGCAATCCGATCAGAATGCTCTGAACAGTTATCGAAATGCACAGCAGACCTTAAGCTCATTCTATAATCGGGATAATCAGGAGGTCAATAACCTAAGGAAAGAAATTTCAAGGCTAAAGAATGAGTCAATGCAAAATCATGCTGTTTCTGTGGGTCTGGGAATGAACGACCAGTTAGAGCTCATGGAAAAATCGTATCAAATGGCTGCTAAGTATCTTCCAACGACGCCAAAGCAGGAAAAACCAGCAGAAAAAGAAGAGGTCGAAAAGCCAATGGAAAAGAAGGTTAAACTGACTTCAGCAATACCGGTACGTTCCAATGTTGTTTCCTCATTATACAGAGACCGGTCGGATAGTGCTTTTATCGCAGGTTTGAATCAGAATAGATTTTATGACAGTCAAAATGATTCAGAAAACTCGGTTCAAACAAAAAACGCAATAAGAGGTGTGGTCTATGAAACTAAGACTTTGGTCAATGAAAGTACATTATCTATAAGGCTTTCAGAAGCGATGAAAGTCGGACGAGCTGAAATTCCAATTGGAAGTTTACTGATTGCAGTAAGCAAATTTCAGGGTGGGAGGCTTCAGTTAAAAATATCTTCCATTCAATCTCAAGGTAATATCTATCCTGTAGAAATCAATGTTTATGACACCGACGGTCAGATGGGATTGTATGTTCCTTATTCAGCGGAGCAGAATGCGGTAAGCGATATTGTAGCTAATATGAGCCAGACTTCAGGCACCAATATTATGATGACCCAATCTGCAGGGCAGCAGATTGCAGCTGATCTGAGCAGGGGAGTGGTACAGGGACTGTCGGGTTATTTTCAGAAGAGAGTCAGACAATTGAAAGTAACTGTAAAAGCTGGCCATCAGGTCTTCCTCTTACCCAAAAATAACTAA	MKDSEKIRVTENDLSQNSNGVNDHPKAQWERLKKPFIYFLMATVCASCFYLIFKPKTDHTIIEEAGFNAAIPQAKDGQLQSDKQKAYEQQLLEQKNEEKRNSITTLSDYWNDQNGVNYNSNPPSSTSTKSVLQQSDQNALNSYRNAQQTLSSFYNRDNQEVNNLRKEISRLKNESMQNHAVSVGLGMNDQLELMEKSYQMAAKYLPTTPKQEKPAEKEEVEKPMEKKVKLTSAIPVRSNVVSSLYRDRSDSAFIAGLNQNRFYDSQNDSENSVQTKNAIRGVVYETKTLVNESTLSIRLSEAMKVGRAEIPIGSLLIAVSKFQGGRLQLKISSIQSQGNIYPVEINVYDTDGQMGLYVPYSAEQNAVSDIVANMSQTSGTNIMMTQSAGQQIAADLSRGVVQGLSGYFQKRVRQLKVTVKAGHQVFLLPKNN				NA	NA	NA	NA	NA
BMS003_01561	903			hypothetical protein	ATGAATACACAAAAGAGTCATTATATTCTCATTATGCTATTACTTCTATTAGTAAGCAAGGCATTTGGGCAGGATTCTGTGACAACTTATATTTCCTTGGAACAGGCAAAATTAAACCCTTTCAGGATACAAGTTACCTACAATAAAACCAGCCATGTGATTTTTCCATCACCCATACGATATGTTGATCTGGGTAGTGAATTGTTAGTTGCCAATAAGGCGGAACCTATCGGAAATGTTCTCCGGATTAAATCGGCTGTAAGAGATTTTGAAGAGGAAACCAATTTTTCGGTTATTACTGAGGATGGAAAATTTTATAGTTTTGATGCATCTTACAGTTCTTATCCCGATATATTAAGCTATGATTTGGTAAAACTTCAGAGAGGTATTGAAAGGCAATATGCTACTGATGTATTATTTGAAGATCTTAAAGGAAGCTCAACTACTCTGACAGAGCTTATTATAGAAAATCTTTACAGGAAAAGCAACAGAACTATTAAGCATATTGCTTCGAAAAGCTATGGAATTGAGTTTTCAGTCAGAGCACTGCACGTTAATGACAGCAAGTTTTATTTCACATTGCAGGTTAAGAATCAAAGTAATGTGGGGTATGCTATTGAATGGGTCAATTTTAAAATTGTCGATAAAAAGAACTTAAAGCGAACGGTCGTTCAGGATAAGATTTTAGAGCAGGTTCGTACCTATTTCCCGGAAAGGATAATAGCTGATCATTCAGACAGTAAAGGGATTTATATGCTTGATCAGTTTACACTCTTAAAAGATCAGGTTTTGGAGATTGAAATTCTGGAAAAGAATGGGGGAAGGCATCTGAAAGTACAGCTTGAAAATGAAGATCTTGTTCATGCAAGATTGATAAACAGTTTAACCATTAAAACGGAGTAA	MNTQKSHYILIMLLLLLVSKAFGQDSVTTYISLEQAKLNPFRIQVTYNKTSHVIFPSPIRYVDLGSELLVANKAEPIGNVLRIKSAVRDFEEETNFSVITEDGKFYSFDASYSSYPDILSYDLVKLQRGIERQYATDVLFEDLKGSSTTLTELIIENLYRKSNRTIKHIASKSYGIEFSVRALHVNDSKFYFTLQVKNQSNVGYAIEWVNFKIVDKKNLKRTVVQDKILEQVRTYFPERIIADHSDSKGIYMLDQFTLLKDQVLEIEILEKNGGRHLKVQLENEDLVHARLINSLTIKTE				NA	NA	NA	NA	NA
BMS003_01562	561			hypothetical protein	ATGCACAAAATATTTTTAACGGTCATCTTCATGATGATAATGGGTAGCAAAATATTTGCTCAACAGATGATTCCTAAGCAAATTGGTGTTGAATTTACCTATTCGGTATTTCCAAAATCTCCAGAAAAGCAAAATTATATGTTTAGTACGGGGCTTGTTTCTTACTCGAAGAATGGTAATTACTTTTTTGGACTGGCAGAATATGGTAGAAAATATTATAAATACACTAGCTGCGATATTCCGATAGATACATTCCTGCTGAGTGGTGGTTACAGTTTTTATCTATGGGGAGACTTCATGCGAAATGTCAATCTTAATCTGGGAATTGGAGGTCTTGTTGGTTATGAACAGGTTAATAGAGGCAATGAATTGCTATATGACGGTTCAATGTTAACAGCAACGGATAATTTTATTTACGGATCAAATGGTAAGCTATCTATTGAAAGCTATCTGACCGAGCATTTAGTTTTCTTGGTCAACGGACAACTTCGCTTTTTGAAAAATAGCCAAATGGCTAATTTTCACTCTCTGCTGGGGGTTGGAATAAGATATAATTTCTAA	MHKIFLTVIFMMIMGSKIFAQQMIPKQIGVEFTYSVFPKSPEKQNYMFSTGLVSYSKNGNYFFGLAEYGRKYYKYTSCDIPIDTFLLSGGYSFYLWGDFMRNVNLNLGIGGLVGYEQVNRGNELLYDGSMLTATDNFIYGSNGKLSIESYLTEHLVFLVNGQLRFLKNSQMANFHSLLGVGIRYNF				NA	NA	NA	NA	NA
BMS003_01563	447			hypothetical protein	ATGAAAAATATAATTAATACAGCTAAAATACAATTAAAGTGTTTCTTGCTACTATTTGTGATTGGACTACTTGTACAATCATGTGAGAAAGATGATTTGGAAATTCAGCAGAATTATCCTTTTAAGGTGTCGGTTATGCCTGTTCCTAAGGATATCGCTAAAGATGAGTATGTGGAGATCCGTATCAAAATTATTCCTGAAGGTAATTTTGCTGACACCAAATATTATCTTCGATATTTTCAGTTTGAGGGAGCAGGAAAGCTGCAGTATTATAACACTCAACCTTACTTTCCTAATGATATTTATCCTCTTTATGAGAAAGAGTTCAGATTGTATTATACTTCAACTTCTGAAGTTTCACAATCATTTACGGTATGGCTCTCAGACAGTTTTGGAAATGAGGAGAAAATTGAATTTCAATTCAACAACAAAAAGCTAAACGGATAA	MKNIINTAKIQLKCFLLLFVIGLLVQSCEKDDLEIQQNYPFKVSVMPVPKDIAKDEYVEIRIKIIPEGNFADTKYYLRYFQFEGAGKLQYYNTQPYFPNDIYPLYEKEFRLYYTSTSEVSQSFTVWLSDSFGNEEKIEFQFNNKKLNG				NA	NA	NA	NA	NA
BMS003_01564	444			hypothetical protein	ATGAAATATAATATCGTAAATGAGATCAAATTGATCTACGCAAGAAAAGGAAATGCTGAAAAAAAAGTACTGAACTCCCAGGATGCTACAGATATTTTCAGGGAACATTTTGATGCAGATCAGATCGACTACAGAGAGTCATTTTACTCAATGTATATGAATCAGGCTAACAAGGTCTTAGGAATACAAAAAATATCAGAATCTGGAATTACCTCTTCTCTTGTTGACATCAGAATCATCATGCAGGGAGCTCTATTATGTAATGCCGTATCATTTATTATAGCCCATAACCATCCTTCCGGAAACCTTACACCTTCTCGCGAAGACATAGGCATCACACAAAAAATAAAGGAGGCTGCCCAACTACTAAATATTAACCTGCTTGATCATTGTATAATAACTTCAACCGACTCCTTCTCTTTCTCCGATGAAGGTATTTTATAA	MKYNIVNEIKLIYARKGNAEKKVLNSQDATDIFREHFDADQIDYRESFYSMYMNQANKVLGIQKISESGITSSLVDIRIIMQGALLCNAVSFIIAHNHPSGNLTPSREDIGITQKIKEAAQLLNINLLDHCIITSTDSFSFSDEGIL				NA	NA	NA	NA	NA
BMS003_01565	162			hypothetical protein	ATGGAGAAGAAAGTTGAAATTAGTAACATTACCATAGAGGAGATTATCAAGATTTTTAAAGAAGAGGAGGGAATTGAATTAAGCATTGAGGAGGCGAAAGATATTTTAAGCTTTCTGACGATGCTCTTAAAAATTACCATTAAGAGTTTTTTAGAACAATAA	MEKKVEISNITIEEIIKIFKEEEGIELSIEEAKDILSFLTMLLKITIKSFLEQ				NA	NA	NA	NA	NA
BMS003_01567	768	phnP	COG1235	Phosphoribosyl 1,2-cyclic phosphate phosphodiesterase	ATGAAGTTGAAATTTTTAGGAACTGGTACTTCTCAAGGTGTACCCGTTATAGGCTGTACATGTGAAGTGTGTACTTCAGAAAATCCCAAAGACAAACGTTTACGTTCTTCCGTGATGGTAATTACGGAAGAAAATAAAAAAATACTGATAGACTGCGGTCCGGATTTCAGACAGCAAATGCTTACCAACCACGAACATAACGTAGATATTGCGTTGATTACCCATGAACACAATGACCATGTTATAGGGCTGGATGACATGCGTCCATTGATTTTTAAAAGCGGAAAAGATGTTCCGCTGTATTGCTATTCAAGAGTTGCTCATGAAATAAAAAACAGATTTCCCTACGCTTTTGCAGACGTAAGATATCCCGGTGCACCCGCTTTTGAACTTCATGAAATTGAAAATAAACCTTTTCACGTGCTGGATACGGAAATCACCCCTGTGGAAGTAATTCATTATAAAATTACTGTTTTCGGCTATAAATTTAAAAAACTGGCTTACATTACGGATGCCGGATTTATTTCCGAAACAGAAAAGGAAAAATTAAAAGATCTGGACATTCTGATCTTAAACTGCATCAGGAAATTTGATCCCCATCCTGCCCATTTTATTCTTCCTGATGTTATTAAATTATTTGAAGAGCTAAAACCTAAGCAATTATTTTTAACCCACATCAGCCATCATTTAGGACTGCATGATATTGAAGATAAGCAGCTTCCTGCCGGAATGCACCTTGCCTACGATGGTCTGGAACTTAATTTTTAA	MKLKFLGTGTSQGVPVIGCTCEVCTSENPKDKRLRSSVMVITEENKKILIDCGPDFRQQMLTNHEHNVDIALITHEHNDHVIGLDDMRPLIFKSGKDVPLYCYSRVAHEIKNRFPYAFADVRYPGAPAFELHEIENKPFHVLDTEITPVEVIHYKITVFGYKFKKLAYITDAGFISETEKEKLKDLDILILNCIRKFDPHPAHFILPDVIKLFEELKPKQLFLTHISHHLGLHDIEDKQLPAGMHLAYDGLELNF	PGPT0002480_1119	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
BMS003_01568	1428			hypothetical protein	ATGTATCAGAAACTAACTCCTAAACAAAAAGCATTAACAATTAATCTAGATCCTACTATTTATGGTACTTTCGCAGAAATTGGAGCAGGGCAGGAGACTGTTCGCCACTTTTTTAGAGCAGGGGGAGCTTCCGGTACGATTGCTAAGGCAATGTCTGCTTATGACAAAGACTTTAGTGATGCCATCTACGGAAAAGAAGTAAAAAACAGGTACGTTACCCAGAACAGGCTTCGCAAAATGCTTCGATATGAAGTAGCTTTGATTGAAGAGAGAATCTCAAGAGATAATAATCCGGACAGGAAATTCTTTTCTTACGCCAACACGGTAACCACCATCAATTTTGACAAAACTGTAAAAGGCCACGGCTGGGTAGGGATTCGTTTTCAGACCAAAGAAAATGAAGATTACAATGAAATCGTCATTCACGTAAAATTCAAAGAAAATGATGCCACTCTTCAGCAGGAAACACTAGGAAATCTGGGGGTAAATCTAATTTTCGGAGCTTTCCATTACTTTGATAATCCAAGAACTCTTGTAGAATCTCTTTACGATGATATTGCAAAAGATAACCTGGAAATTGACATGATCGACTTTAGCGGACCTGCATTTGCGTATGTTGATAACAGGCTGATGTCTCTTCAGCTGGTAAAGAATGGAATGACTGATGCGGTGATCTTCAATTCTCAGGGTAACAATATGCTTCCGGCAGATGTATTGTACAAGAAGAATATTTTCGCAGTAAGGGGAAGTTTCAGACCGGTAACGAAAGTGAACATTGATATGCTTAAAAACGGTATGGATATGTTCTTCAAAGATGCCATCTGTACCCATGAAGAAACAGAAGTCCTTATTGAAATCACCATTTCCAATCTGAGGGCAGACGGAGATATTGATGAAAGAGATTTCCTTGACAGGGTAGATATTCTCGGGAAACTGGGCTATACTGTAATTATTTCGAATTTCTCTGAGTATTACAGGCTGATTGATTATTTCGCTTCCTACACAAGTGGAGATATTGGGGTAGCAATGGGAGTAAATAATCTGTTGATGGTATTTGACGAGAAATATTATAAAAATCTTTCCGGCGGAATCCTTGAAGCATTCGGGAAATTTTTCAGAAACGGAATGAGGGTATATCTGTATCCTTATAAAGACCCTGAAACCCATCAGTTACTGGATTCTTCAAATCTTAAAGTGGAGGAAAACCTTAAAGAACTTTATAAATACTTCAAACATAACAACCGTATTGTAGATATTACAAACTATAATCCGGAGTTTTTGGAAATTTATTCCAGAGAAATATTGAGAAAAATTGCATGTTGTGCAAAAGGATGGGAAACTCAGGTTCCTGAAGGGGTAGCAGAAATGATCAAAGAGCGTGGAATGTTCGGATATAAAGAAGAGCTTTCCTTAAAACAATTCTCTTAA	MYQKLTPKQKALTINLDPTIYGTFAEIGAGQETVRHFFRAGGASGTIAKAMSAYDKDFSDAIYGKEVKNRYVTQNRLRKMLRYEVALIEERISRDNNPDRKFFSYANTVTTINFDKTVKGHGWVGIRFQTKENEDYNEIVIHVKFKENDATLQQETLGNLGVNLIFGAFHYFDNPRTLVESLYDDIAKDNLEIDMIDFSGPAFAYVDNRLMSLQLVKNGMTDAVIFNSQGNNMLPADVLYKKNIFAVRGSFRPVTKVNIDMLKNGMDMFFKDAICTHEETEVLIEITISNLRADGDIDERDFLDRVDILGKLGYTVIISNFSEYYRLIDYFASYTSGDIGVAMGVNNLLMVFDEKYYKNLSGGILEAFGKFFRNGMRVYLYPYKDPETHQLLDSSNLKVEENLKELYKYFKHNNRIVDITNYNPEFLEIYSREILRKIACCAKGWETQVPEGVAEMIKERGMFGYKEELSLKQFS				NA	NA	NA	NA	NA
BMS003_01569	450	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGTCAGAATTAAAGAAAAGACTTTCCTCAATTCTTGAAAGTCCTAAACATAATACAGAAGAAAAACTTGAAAAAGTCTGCCACCTGTTGGATCAGGAAATTCCTTACTTCAACTGGACGGGGTTTTATTTCAAAAACGGAGATAAGGATGAATTGATTTTAGGCCCTTATGTAGGAGCTCCCACAGATCATACCATTATTCCTTACGGTAAAGGAATCTGCGGCCAGGTTGCGGTTTCCAATGAAACATTTGTAGTGCCGGATGTACATGAAGAAAGCAATTATTTAAGCTGTTCCATAGATACAAAAGCAGAAATTGTAGTTCCTATTTTTAAAGACGGAAAAAACATCGGTCAGATCGATATTGATTCTCATACCATTGATCCTTTTACAAAAGAAGACCGTGAACTGTTAGAATGGCTTTGTAATGAAGTTTCTAAGGTTTTATAA	MSELKKRLSSILESPKHNTEEKLEKVCHLLDQEIPYFNWTGFYFKNGDKDELILGPYVGAPTDHTIIPYGKGICGQVAVSNETFVVPDVHEESNYLSCSIDTKAEIVVPIFKDGKNIGQIDIDSHTIDPFTKEDRELLEWLCNEVSKVL				NA	NA	NA	NA	NA
BMS003_01570	468			hypothetical protein	ATGTCTGGTACAGTTATATTATCTGAAGGGGAAGAATTCGATCACGTTATACAGGAAGTTTCAAAACATATCAACCTGTATGTAATGGCTTTTGAAAAAGAGGAAAGAACCATTGCACGCCTGGATAAACGTGAAAATATGTATGGTGGAAACGGAACAGTATACATGATACAGATGTTTGACCAGGAAGAACTGGCGAATAACCGCCTGGCGGCTTATATGGTTTTACTGAATAAAGGTGATGAATCGGGATTTCATACGCACAGCCTAAGAAATGAACAGGAACTGTATGTTGTGGTACATGGTGACGGAGAATATAGAGAAAGAACCGGAACAGATGGTGCAATACGCAAGAAAATGCTTCAGAAAGGTGATATTACAGCCATCAGTTCTATAGGATATCATTCTATTGAAAATACAGGAGATGAACCTTTAATTATGTTTGTAATTACCACTAATAATCCATAG	MSGTVILSEGEEFDHVIQEVSKHINLYVMAFEKEERTIARLDKRENMYGGNGTVYMIQMFDQEELANNRLAAYMVLLNKGDESGFHTHSLRNEQELYVVVHGDGEYRERTGTDGAIRKKMLQKGDITAISSIGYHSIENTGDEPLIMFVITTNNP				NA	NA	NA	NA	NA
BMS003_01571	741	btuF		Vitamin B12-binding protein	ATGAAAATCGTTTCACTTGTACCTTCTATTACTGAGGCTTTATTTGACCTTGGACTTACTGAAAATGAAGTTGTAGGCAGAACAAAATTCTGTATTCATCCTCAGAATAAAATAAAAAATGTAGCTGTAATCGGAGGTACCAAGAATATCAATATTGAAAAAATAAAAGCATTACAGCCGGATCTTATTCTTGCCAACAAAGAAGAGAATGTAAAAGAACAGGTAGAAGCTTTAATGGACGATTACAAAGTAATGGTCACCAATATTGACACGATTGAGGATAATTATTATCTGCTTAAAAATCTTGGAAAACTTTTTGGAAAGGAAGACAGAGCTCAGCTATTCAATCTTAAAATTTATGATATTCTGAATCAGGCTAAGCTGGATGCTCCTGTTAAAGCCGCTTATCTCATCTGGAATAATCCTTATATGACTATTGGTTCAGATACCTTTATTCATAGGATTTTATCTGAAATTGGTTTCGAAAATATTTTCAAGGACAAAACCCGTTATCCTCAGATCACTGCTGAAGATCTGGCAGATGCGGATGTCATTATGCTTTCTTCCGAACCATTTCCGTTTAAAGAAAAACATATTGAAGAACTACAGGCTTTCTATCCTGATAAAAAGATTATGATTGTGGATGGAGAAGCGTTTTCCTGGTATGGAACTCATATTGCGAAATGTGAGCATTATTTTAAAGAACTTCTTGCAGAAATTCATTCTATGCAGCAAAGCTAA	MKIVSLVPSITEALFDLGLTENEVVGRTKFCIHPQNKIKNVAVIGGTKNINIEKIKALQPDLILANKEENVKEQVEALMDDYKVMVTNIDTIEDNYYLLKNLGKLFGKEDRAQLFNLKIYDILNQAKLDAPVKAAYLIWNNPYMTIGSDTFIHRILSEIGFENIFKDKTRYPQITAEDLADADVIMLSSEPFPFKEKHIEELQAFYPDKKIMIVDGEAFSWYGTHIAKCEHYFKELLAEIHSMQQS	PGPT0003765_11391	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
BMS003_01572	1323		COG2239	Magnesium transporter MgtE	TTGAATTCTAGAGACGAACTTATCTTCAATCCTGCCGATATTGCCGAAACTCTCAGCGAACTTCATGCTGATGAGAGGCTTCTCGCCTTCCTGAAGGTTCCGAAAGAGTACAAAGCTGAAGTTTTCTCACATCTTGACCCTGATTTCCAGGAAGATACTATCAGAAGCATCGGAAGTGATGAAGTTTCCGAAATTCTGAATGCGATGACTCCGGATGACAGGACTGCTCTTTTTGAAGATTTTCCGGATGAGCTGATCAAGTATTCCATCAACCACCTGAATCCTCAGGAAAGAAGAATTGCTTTAAAGCTTCTTGGATATAACTCAGATTCTATTGCCCGTCTGATGACTCCTTATTATATCCAGATCCGTAAGGAATGGACGGTAAAAAGATGTCTTCAGCAGATCAAAAAGGTAGGAAAAAGAGTGGAAACCATGAACTATCTGTATGTAGTGGATGAAAGAAACCGTCTGATTGATGACCTTGCTATCGGAACTTTACTATTAGAGGAGGAAGATACGCTTGTTTCAGACATTACAGACAATCATTTTGTAGCGATTACCACTACTACTTCCAAAGAGGATGCGGTAACGTATTTTGAAAAGTATGACCGTGGTGCTCTTCCTATTATTACGGAAGCAGGTGTTTTAGTAGGAATCGTAACTATTGACGACATTCTCGATCAGATTGAACAGCAGAACACGGAAGATATCCAGAAATTTGGGGGATTGGAAGCATTGGATCTTCCTTACATCCAAACTTCATGGACAGAAATGATCAAAAAAAGGGCGACCTGGCTGATCATTTTATTTGTTTCGGAGATGCTTACAGCTTCAGCAATGGGATATTTTGATAAGGAAATTGAAAAGGCCGTTGTTCTTGCCTTATTTGTCCCACTGATTATCTCCAGTGGAGGAAATTCAGGATCACAGGCAGCAACATTGATCATCCGTGCGATGGCTCTTCAGGAGATCAGCCTGAAAGACTGGTGGTATGTCATGAAAAAAGAAATAATCTCCGGATTATGCCTTGGAGCTATTTTGGGAGTTATCGGATTTATCAGAATTATGCTTTGGCAGCAGATAGGTCTTTTTGATTATGGCCAATACTGGGTATACGTTGGACTGAGTGTTTCCGTTTCCCTAATTGCCATTGTATTGTGGGGAACATTATCCGGTTCCATGATCCCATTTGTCTTAAAGAAACTTAATCTTGACCCAGCTACCTCTTCTGCTCCGTTTGTAGCCACTTTAGTGGATGTGACGGGACTTATTATTTATTTTACCGTAGCCGGGCTTTTCTTAACCGGAAAACTTTTGTAA	MNSRDELIFNPADIAETLSELHADERLLAFLKVPKEYKAEVFSHLDPDFQEDTIRSIGSDEVSEILNAMTPDDRTALFEDFPDELIKYSINHLNPQERRIALKLLGYNSDSIARLMTPYYIQIRKEWTVKRCLQQIKKVGKRVETMNYLYVVDERNRLIDDLAIGTLLLEEEDTLVSDITDNHFVAITTTTSKEDAVTYFEKYDRGALPIITEAGVLVGIVTIDDILDQIEQQNTEDIQKFGGLEALDLPYIQTSWTEMIKKRATWLIILFVSEMLTASAMGYFDKEIEKAVVLALFVPLIISSGGNSGSQAATLIIRAMALQEISLKDWWYVMKKEIISGLCLGAILGVIGFIRIMLWQQIGLFDYGQYWVYVGLSVSVSLIAIVLWGTLSGSMIPFVLKKLNLDPATSSAPFVATLVDVTGLIIYFTVAGLFLTGKLL	PGPT0013995_3735	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS003_01573	549			hypothetical protein	ATGAAAAAAATTATATTCTTTACAGCGGTTACCACTCTTTTATTCATCGGATTTACTTCGGTAAAAGCCCAGAAGAATGCTGATGATAAAATAAAAAAAGTTCTTTACTTCAATCCTGAGGTAGAACCTGATATCGACGAAATAAAAGAGCCTACCAACAACGCTTTCTTTGATGCCGTTACAGATAATTTCAGTAACAGAAGAAATAAAATGCTCAGGGCAGAGGTTCAGGTTTCCTTTGACAGCATAGACAAACAGACTATTGTAGATTATTGTCTCAACAATGACGCAGATTTTGCCATTGTTTCCAAAGTGAGATATTTCAAAGTAGGGTTTGGTAAATATGTTTTCTCCAATCAGGTGGTTGTAAGCATGAAACTTTTTGGTGCTGACGGAAACCTAGTCACAGAAACAGATTATGATACCTACCGAAAAAATATGCGCCTGCTGGGGTCTACAGTAAATTCTATTAAAATAGGAACCGAAGGAGCAATAAAAGGAATCATTAAGAAACTGAGAAAACTGAAACCGACAGAGGCAGAGCTGTGA	MKKIIFFTAVTTLLFIGFTSVKAQKNADDKIKKVLYFNPEVEPDIDEIKEPTNNAFFDAVTDNFSNRRNKMLRAEVQVSFDSIDKQTIVDYCLNNDADFAIVSKVRYFKVGFGKYVFSNQVVVSMKLFGADGNLVTETDYDTYRKNMRLLGSTVNSIKIGTEGAIKGIIKKLRKLKPTEAEL				NA	NA	NA	NA	NA
BMS003_01574	270	rpsO	COG0184	30S ribosomal protein S15	ATGTACTTAACAACAGACAAAAAGCAGGAAATTTTCGCAAAACACGGAAAATCTGCACAGGACACAGGAAGTGCTGAAGGACAGATCGCTCTTTTCACTTTCAGAATCAACCACTTATCTCAGCACTTAAAGGCTAACCGTCATGATTTCAACACAGAAAGATCTCTAGTGAAATTGGTAGGTAAGAGAAAAAGTTTACTAGATTACCTTAAAAACAAAGATATCGCAAGATATAGAGCAATTATTGCTGAACTAGGTTTAAGAAAATAA	MYLTTDKKQEIFAKHGKSAQDTGSAEGQIALFTFRINHLSQHLKANRHDFNTERSLVKLVGKRKSLLDYLKNKDIARYRAIIAELGLRK				NA	NA	NA	NA	NA
BMS003_01575	360			hypothetical protein	ATGAAAATACAGTTAAAGCTTGAATACGCTGCATTTCTACTGTTAGGAATATATGCTTTTGCCCAAACAGGATATTCCTGGTGGTGGTTTGCCGGTTTATTCCTTGCACCTGACATTTCTATGTCAGGATATACAGTTAATACAAAAGTGGGAGCTTTTTGTTATAATCTCTTTCATCATTTTGGAGTGGCCATCGTCATTTATTTGGTGGGGACAGCTCTATCTCTACCCTATTTACAGGTTGCTGGGGCTATATTATTTTCCCATTCTGCATTTGACAGAATTCTGGGCTATGGCCTGAAGTATCCGGATAGTTTTCAGAATACGCATCTTGGAAAGATTGGAAAGAACCCGGAGTGA	MKIQLKLEYAAFLLLGIYAFAQTGYSWWWFAGLFLAPDISMSGYTVNTKVGAFCYNLFHHFGVAIVIYLVGTALSLPYLQVAGAILFSHSAFDRILGYGLKYPDSFQNTHLGKIGKNPE				NA	NA	NA	NA	NA
BMS003_01576	1422	fucP_2	COG0738	L-fucose-proton symporter	ATGACTAATAAAGAAGTACAATCTCAAAGCAGGAATTATACGGTTCCGTTGATTACCATCACCCTGCTGTTTTTTATGTGGGGATTCATCACCTGTATGAATGACATCCTGATTCCCTATCTGAAACAACTTTTCAATCTTACGTTTTTCGAATCCATGCTGGTACAGTTCTGTTTCTTCGGAGCTTACTTTATCGGCTCCGTGATCTATTTTATGATCTCTATTACGAAAGGAGATCCTATCAATAAACTGGGTTATAAAAAAGGAATCCTGTTCGGAATTTTTCTGGCAGCTTTAGGCTGTGTCCTGTTTTATCCGGCAGCTACTTTTTCTTACTATCCGCTGTTTTTAGGGGCTTTGTTTATTCTGGGACTGGGCTTTACGGTATTACAGATTACAGCCAACGCTTATGTTTCACTGCTGGGAAGTGAAGAATCTGCATCCAGCCGGCTGAATATGACTCAGGCATTCAATGCATTCGGAACAACGATTGCTCCGGTACTTGGAGGGCATCTTATTTTTGAGTTTTTCTCTTCTCCGGACGGCTCTTTCAGTGTAGTAGCGACCAGAATTCCTTATCTCATTTTTGCCGTTATCCTTTTATTGGTAGCTCTGTTGATTTCAAGGGTGAAACTGCCTTCATTCCAGATGGGCGAAGAGGAAATCGTAAAAGGCTGGGGAGCACTTGAGTACAGCCACCTGAAATTCGGGGTATTTGCCATGTTCTGCTATGTAGGCGGAGAAGTTGCTGTAGGAAGTTTTATCATCAGTTTCTTGGAACAGCCACAGATTATGGGCTTTAATGAGATCATCAGTAAGAATTATCTTTCTCTTTACTGGGGAGGAGCTATGATTGGTCGTTTTCTTGGCGCCATCTCTTTAAACCAGTCTTTAAGTCAAAGTAAAAAGGCTGTTTATATGCTGGGAGCAGCAGCTGCAGTTTTCCTTGTTATTTTCAGTATTGTCAATCTTACCTTTAGTCAGATTAGTTTTTTCATTGTCTTTATTATCCTTAATTTCATTGCTTTTTTCATTGGTAAAGCGGCTCCGGCAAGAACATTATCCATATTTGCAGCCATCAATGTAGGATTACTGATTTCTGCTATGATGAATGATGGCGAGCTGGCGATGTACAGTATTTTAGGAATCGGAATATTCAACTCTATTATGTTTTCTAATATTTATACACTGGCTATTTCAGGACTTGGAAAATATACCAGCCAGGGATCTTCCTTAGTGGTAATGGCCATTCTGGGAGGAGCCATTGTACCTATTTTCCAGGGATATCTTGCCGATCAGTTTGGGGTACAGCATTCATTTATTATTCCTGTATTCTGCTATCTGGTTATTCTGATCTTTGGAGGTTATTGTACCAGATATTTGGGCCATGTTGAGAGCACCAAATCCAAATCAGGTCATTAA	MTNKEVQSQSRNYTVPLITITLLFFMWGFITCMNDILIPYLKQLFNLTFFESMLVQFCFFGAYFIGSVIYFMISITKGDPINKLGYKKGILFGIFLAALGCVLFYPAATFSYYPLFLGALFILGLGFTVLQITANAYVSLLGSEESASSRLNMTQAFNAFGTTIAPVLGGHLIFEFFSSPDGSFSVVATRIPYLIFAVILLLVALLISRVKLPSFQMGEEEIVKGWGALEYSHLKFGVFAMFCYVGGEVAVGSFIISFLEQPQIMGFNEIISKNYLSLYWGGAMIGRFLGAISLNQSLSQSKKAVYMLGAAAAVFLVIFSIVNLTFSQISFFIVFIILNFIAFFIGKAAPARTLSIFAAINVGLLISAMMNDGELAMYSILGIGIFNSIMFSNIYTLAISGLGKYTSQGSSLVVMAILGGAIVPIFQGYLADQFGVQHSFIIPVFCYLVILIFGGYCTRYLGHVESTKSKSGH	PGPT0016725_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS003_01577	2241	pnp	COG1185	Polyribonucleotide nucleotidyltransferase	ATGAGTATACCTCAAGCGTTTACAGAAACGATTACCCTTGCAGACGGAAGGGAAATCACTATTGAAACGGGAAAGCTGGCTAAGCAGGCTGACGGATCTGTAGTGGTAAAATGTGGCGGAACAATGCTTTTAGCAACTGTTGTAGCCAATAAAGAAGCCAATCCTGGTGTAGACTTTTTACCATTAACGGTAGATTACAGAGAAAAATTCTATGCAGGTGGAAGAATTCCTGGAAATTTCTTCCGTAGAGAAGCAAAACCATCGGATGATGAAGTGCTTACAATGAGATTGGTGGACAGAGTATTACGTCCTCTTTTTCCTGAAGATTTCCATGCGGAAGTACAGGTGATGATCTCATTAATTTCTTACGATAAAGAAGTAATGCCTGAAGCATTAGCAGGTTTGGCAGCTTCTGCAGCTATTGCAATTACAGATATCCCTTTCAACGGGCCAATGTCTGAAGCAAGAGTAGTAAGAATTGACGGACAATTGGCCGTAAACCCCAGCTATGAAAATTTATTAAAATCAGATATCGACATTATGGTTGGAGCTACTAAAGACTCCATCGTAATGGTAGAAGGTGAAATGAAGGAGATCTCCGAGCAGGAAATGCTTGAAGCGATCAACTTCGCTCACGCTGAGATCAAAAAACAGATCGAAGCTCAGGAGAGATTAGCTGAAAAAGTAGGTAAATCTTTCCCTAAAAGAGAATACAGCCACGAAGATCACAATGAAGAAATTCGTGAAAAAGTATGGAAAGAGTGCTATGATAAAGTGTATGAAGTAGCAAAAACTCCATCTAACAAAGAAGAAAGAGGAGAAAAATTCAAAGCAGTTCTTGAAGAATTCTTAGCACAATATGCTGAAAATGAAGAAGAATTGGCAAGAGTAACTCCTTTCGTTAAAGTATATTACCATGACGTAGAGAAAGAAGCAATGCGTCAGATGATCCTTGAAGACAATATCCGTCTTGATGGTCGTGATCCTCAGACAATCCGTCCTATCTGGTCCGAAATTGATTACCTTCCTGGAGCTCACGGTTCCGCTATCTTTACAAGAGGGGAAACTCAGTCTCTTACAGCAGTAACTCTAGGTTCTGTAAAAGACGCGAACATGATCGACAGCGTAATCACGCAGCACGACGAAAGATTTTTCCTACACTATAACTTCCCTCCATTCTCTACAGGAGAAGCAAGACCTCTAAGAGGTACTTCAAGAAGAGAAGTAGGACACGGAAATTTAGCTCAAAGAGCTCTTACAGCAGTGATTCCTGCAGAAAACCCATATACCATCAGAATTGTTTCCGATATCTTAGAATCTAACGGTTCTTCTTCAATGGCAACAGTTTGCGCAGGTACATTAGCACTGATGGATGCAGGGGTTCAGATTACAAAACCTGTTTCAGGGATTGCAATGGGTCTGATCACTGATACAAAATCAGGTAAATTTACCGTACTTTCTGATATCTTAGGAGATGAAGATCATCTTGGAGATATGGACTTCAAAGTAACTGGTACAGCAGACGGTATTACCGCTTGTCAGATGGATATCAAAATCCAGGGACTTTCTATGGACATCATGGAAAAAGCTTTGATGCAGGCTAAAGACGGAAGATTACACATTCTGAACAAAATCACAGAAACGATTTCTGAGCCAAGAGCAGATGTGAAGCCTCATGCTCCGAAAATGGTAGTAATGGAGATTCCGAAAGACTTCATTGGTGCTGTAATCGGGCCTGGTGGGAAAATTATCCAACAATTACAGAAAGACACTGAAACAGTTATTGCTATCGAAGAAATCGGAGAAATCGGACGTATCGAGATTGCAGGAACAGACAGAGAAAAGATCAACGCGGCTATTGCCAAGATCAATGAAATTACTTTCGTACCGGTTGTAGGCGAGGTTTACAAAGGTAAAGTAGTGAAAGTAATGGATTTCGGTGCATTCGTAGCTATTGCTAAAGGAACAGAAGGACTTCTTCATATTTCTGAAATAGAATGGGCACGTTTAGACAAAGTTCCATATGCGGAAGGTGATGAAGTAGAAGTGAAGTTCATGGGTTACGATGACCGTAAGAAAATGAAGCTTTCCCGTAAAGTTCTTTTACCAAGACCTCCGAAGCCGGAAGGAAAACCAAGACATGAAGGACAGGGAAGACCTGAGGGGCAAAGAAGACCTGAAGGACAGAAACCACAAGGTGAGAAGCCAGTGGAAAACCAAACTCCTTCTAACGAAGCTTAA	MSIPQAFTETITLADGREITIETGKLAKQADGSVVVKCGGTMLLATVVANKEANPGVDFLPLTVDYREKFYAGGRIPGNFFRREAKPSDDEVLTMRLVDRVLRPLFPEDFHAEVQVMISLISYDKEVMPEALAGLAASAAIAITDIPFNGPMSEARVVRIDGQLAVNPSYENLLKSDIDIMVGATKDSIVMVEGEMKEISEQEMLEAINFAHAEIKKQIEAQERLAEKVGKSFPKREYSHEDHNEEIREKVWKECYDKVYEVAKTPSNKEERGEKFKAVLEEFLAQYAENEEELARVTPFVKVYYHDVEKEAMRQMILEDNIRLDGRDPQTIRPIWSEIDYLPGAHGSAIFTRGETQSLTAVTLGSVKDANMIDSVITQHDERFFLHYNFPPFSTGEARPLRGTSRREVGHGNLAQRALTAVIPAENPYTIRIVSDILESNGSSSMATVCAGTLALMDAGVQITKPVSGIAMGLITDTKSGKFTVLSDILGDEDHLGDMDFKVTGTADGITACQMDIKIQGLSMDIMEKALMQAKDGRLHILNKITETISEPRADVKPHAPKMVVMEIPKDFIGAVIGPGGKIIQQLQKDTETVIAIEEIGEIGRIEIAGTDREKINAAIAKINEITFVPVVGEVYKGKVVKVMDFGAFVAIAKGTEGLLHISEIEWARLDKVPYAEGDEVEVKFMGYDDRKKMKLSRKVLLPRPPKPEGKPRHEGQGRPEGQRRPEGQKPQGEKPVENQTPSNEA				NA	NA	NA	NA	NA
BMS003_01578	1071			hypothetical protein	ATGACCATCCAAAACCTAAAAAACAAAAACCTCCTCCTCTTCGAAGCCATTTCCGGAAGCCGGGCTTTTGGGTTGGCAACGGAAAATTCTGATACGGATATCCGTGGGGTATATTATCTGCCGAAGGAAGATTTCTTTGGTCTGAATTATATTCCGCAGATTTCCAATGAAACGAATGATATCACCTATTATGAAATCGGGAGGTTTGTAGAACTGCTGCAGAAAAACAATCCTAATATTCTGGAAATTCTGGAAAGCCCTGAGGATTGTATTCAATACAAACATCCGTTGATGGATCTATTGAAAACTGAAGATTTCCTATCCAAACTATGCAAAGATACCTTTGCAGGCTATGCTGTTTCACAGATTAAAAAAGCAAAAGGTCTCAATAAAAAGATTGTAAATCCGATTGATAAAGAAAGAAAATCAATCCTGGATTTTTGTTTTATTTTGGAAGGCCAAGGTTCTGTACCGTTGAAAAAATGGCTGGATGAGGATGGTTTATCACAGGAAAATTGTGGATTGATAAATATTGATCATACAAAGGGAATGCATGCTTTATTTTATGACGAATCGGGGACATTGGGGTATAAAGGAATTATTCAGAATGAAGAAGCAAATCAGGTTTCCTTATCATCCGTTCCCAAATATGAAAAACCAGTCGCTTATCTGTTCTGCAATCTGGATGTCTACTCTGTGTATTGCAAAGATTACAGGGAATATTGGAAATGGGTTGCTGAGCGCAATGAAGACCGTTACAATATCAATCAAACCCATGGACAGAATTACGATAGCAAGAACATGATGCACACCATCCGGCTGCTACAGTCCTGCGAACAGATTTTTAAAACCGATTCACTGGCAATCCGCGTAGAAAACCGTGACGAACTCTTAGACATCAAAGCAGGAAACCAGTCTTATGAAAATGTCATGCAAAAAGCAGAAAATCTGATACAATCTATAGAAAATCATTATTCCACTTCCAGTCTACCCGACTCTCCGGATCTGGAGAAAACAACAAAAATCTTAGTTCAGATAAGAGAAAAACTGTATCATAATAATGAATTATGA	MTIQNLKNKNLLLFEAISGSRAFGLATENSDTDIRGVYYLPKEDFFGLNYIPQISNETNDITYYEIGRFVELLQKNNPNILEILESPEDCIQYKHPLMDLLKTEDFLSKLCKDTFAGYAVSQIKKAKGLNKKIVNPIDKERKSILDFCFILEGQGSVPLKKWLDEDGLSQENCGLINIDHTKGMHALFYDESGTLGYKGIIQNEEANQVSLSSVPKYEKPVAYLFCNLDVYSVYCKDYREYWKWVAERNEDRYNINQTHGQNYDSKNMMHTIRLLQSCEQIFKTDSLAIRVENRDELLDIKAGNQSYENVMQKAENLIQSIENHYSTSSLPDSPDLEKTTKILVQIREKLYHNNEL				NA	NA	NA	NA	NA
BMS003_01579	762			hypothetical protein	ATGAAATTTGAAGAAATTGAAGCTTTAATGAGAAGAAATGAAAGCCTTTCGGAACAGTATATTCTGCCAGAAAATTTTATTATTGTAAGATTAGATGGAAAAGGATTTACTAAGCTCACCAAAGAAAAACTTTCGCTTGAAAAACCATTTGACCAAAAGTTCACTCAGATAATGGTTGATACTACAAAACATCTTTTTAATATTGGTTTTAAGGTAATATATTGTTATACTCAAAGTGATGAAATCTCTCTTCTGATTCATAAAGAAGATAATACTTTCAATAGAAAAGTAAGAAAGATCAACTCTGTTTTGGCAGGAGAAGCCAGTGCTTTTTTCAGTCTGAAATTTCAGGAAATCTGTGTCTTCGACTGTAGAGCCATTGCTATTCCTAACCAAAAAATGCTTCTGGACTATTTTTGCTGGAGACAGGAAGATTCTCACAGAAATTCACTTTCCGCTCATTGTTACTGGACATTGAGAAAAAATGGATTGAATGCTAAACAAACCACTGCAAGAATTGAAAAAATGTCACAATCCGATAAAAATGAGTTACTTTTTCAGTATGGAATTAATTACAATAACCTTCCATTATGGCAAAAACGAGGGGTTGGAATTATAAATAAGGAAATGAAAAAGGAAGGCTTTAACCCTATTACTAAAGAACCTGTTGTTTATTTGAGAAATGAACTGTTTGTTGAAAATGAATTGGCAGCACGTGAAAATTACAGAACATTTTTAAAAGAAATTTTTGAAAATATTTAA	MKFEEIEALMRRNESLSEQYILPENFIIVRLDGKGFTKLTKEKLSLEKPFDQKFTQIMVDTTKHLFNIGFKVIYCYTQSDEISLLIHKEDNTFNRKVRKINSVLAGEASAFFSLKFQEICVFDCRAIAIPNQKMLLDYFCWRQEDSHRNSLSAHCYWTLRKNGLNAKQTTARIEKMSQSDKNELLFQYGINYNNLPLWQKRGVGIINKEMKKEGFNPITKEPVVYLRNELFVENELAARENYRTFLKEIFENI				NA	NA	NA	NA	NA
BMS003_01580	435			hypothetical protein	ATGGAAATGATTATCTTCATCGGGATTCCGGCAAGTGGAAAAAGTTCCTTTTACAAGGAGCTTTTTTTCAACTCACATATAAGAATCAGCATAGACCTGTTGAATACACGAAACAAAGAAGGAAAGTTACTTCAATACTGTTTCGAAACACAATCAAAAATGGCGATTGATAATACGAATGTAACCAAAGAAAGCCGGAAAAAATATATAGAATTTGCTCAACAAAATAAATATGAAGTTATTGGATATTATTTTGACAGCAACATTCAGGATTGTATGGAACGGAATAAAAACAGAAAAGATTCCATTAATGAAATTGGAATAAAAGCTAAATATAAAGAGTTAGAAAAACCTCTAATTGAAGAGGGTTTTTCCAAAATATTCAGTGTGAAAATTATGGAACAAAAATTTGAAATCAGCGATTATGAAATTTGA	MEMIIFIGIPASGKSSFYKELFFNSHIRISIDLLNTRNKEGKLLQYCFETQSKMAIDNTNVTKESRKKYIEFAQQNKYEVIGYYFDSNIQDCMERNKNRKDSINEIGIKAKYKELEKPLIEEGFSKIFSVKIMEQKFEISDYEI				NA	NA	NA	NA	NA
BMS003_01581	732			hypothetical protein	ATGAAAAATATAATCGCTCTGTCTCCCATGTATACGGAAGATAGTAATAATTTAAAGAAAGCATCACTCAATTCTTCTTACGAGCTAAGCCGCTTCAATGCAAAATGGAATGTTCTCGAAGAATTTCGTGCGGATGTAATGGCGGTATATGGTGAAGATATTTATGCCGAAATTGTTGCGGAACAGTGTAATCTGACATTAACAAAACCTGATGATAATTGGCTTTCAAAAATCTCAGAAGAGTTTACAAAGCGGAAAATTTCTTACGGAAAGCTGAAAGATTTCGTACATGAAGAAAATATTTTCATCAAATGCTCAGATTTTAAAAGCTTCAAAGCAGGAGTTTTTGATAAAGTTACCAATATCAAAGGTTTTGACACACTGGATCCAGAAAGCATGGTTTTCACTTCGGAAGTCGTAGAATGGGAACTTGAAGTGAGATGTTTTGTTTTAAATAATGAAATTAAAACCTATTCTTCTTATTGGCGAAATGACACTTTCGATACCAATCAACTTTCAGAAAGAGAAAAAGAGGATATGTTTCAATTCTTTGAATCTTTTATTCAAAAGTACTCTTCTACTCTTCCTATTAGCATTGTACTGGATTTTGGAATTATAAAAGGAAAAGGCTGGGCTTTGATTGAAGCAAATCCTGCCTGGTGTTCAGGATTGTATGCATGCGATGCAGAGAAGGCTTTGGAAGCGATTGTGAATAGCTGTATTAAAAATTGA	MKNIIALSPMYTEDSNNLKKASLNSSYELSRFNAKWNVLEEFRADVMAVYGEDIYAEIVAEQCNLTLTKPDDNWLSKISEEFTKRKISYGKLKDFVHEENIFIKCSDFKSFKAGVFDKVTNIKGFDTLDPESMVFTSEVVEWELEVRCFVLNNEIKTYSSYWRNDTFDTNQLSEREKEDMFQFFESFIQKYSSTLPISIVLDFGIIKGKGWALIEANPAWCSGLYACDAEKALEAIVNSCIKN				NA	NA	NA	NA	NA
BMS003_01582	828	cobB_2	COG0846	NAD-dependent protein deacylase	ATGAAAATAATATTAGAAACACTTATACAGGAAACTTTACAAAAAGAGAAAAGAAATCTTTTCTCTTTTCTTACTGGTGCTGGAATTTCCTCAGAAAGTGGACTTCCTACTTACAGAGGAAATGACGGAATATGGATAAAAGGAACAAAATATCATCAACCGGAAGAATTTGGAACATTTCGGTATTTTAGTCAGAACCAGGAAGAAGTTTGGCAGTACAATCTTTTCTGGAAGAAACTCATTGAAGAAGCCCAGCCTAACACCGGACATTTTGTTCTTGCAGAAATAGAAAAAATACTGAAAAAACAATTCCAACTCATTACTCAAAACATAGATGGTCTGCACCACAGGGCAGGAAGTCAAAAAATTTTCGAAATACATGGAAACAAACAAAACGTTCGTTGTAGTTCCGGATGTAATGGCATTTTTCCGATGCCTTCAGAATTAAAGTCTAAAGAGCTGACGGAAGATCTTACGGAAAAAGATATGCACCTTTTGCGTTGTCAGGATTGTGGAGACTGGCTCCGCCCCAACACTTTATGGTTTGATGAATCGTACAACGAAAAGCTTTATTTTCTGAACTCTACGCTAAAGGCTGCAAAGAACACTAGAATTCTTTTTATAATAGGAACTTCCGGAGCCACTACATTACCGCAAATAATTGCAGAGAAGGTTTTACAATACGGTGGTTACCTGATAGAAATTAATACTGAAGAAAACAGCCATTTTTTTGAACGCTTTTCAAGAACAAAAAAATATATGTTGATCAAAGAAAAAGCAAGTGATGGTTTAATCAAGATTAAGGAAATGATAGAAAAACACATTTAA	MKIILETLIQETLQKEKRNLFSFLTGAGISSESGLPTYRGNDGIWIKGTKYHQPEEFGTFRYFSQNQEEVWQYNLFWKKLIEEAQPNTGHFVLAEIEKILKKQFQLITQNIDGLHHRAGSQKIFEIHGNKQNVRCSSGCNGIFPMPSELKSKELTEDLTEKDMHLLRCQDCGDWLRPNTLWFDESYNEKLYFLNSTLKAAKNTRILFIIGTSGATTLPQIIAEKVLQYGGYLIEINTEENSHFFERFSRTKKYMLIKEKASDGLIKIKEMIEKHI	PGPT0013485_298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
BMS003_01583	750			hypothetical protein	ATGACACCAAAAATACTTGAAAAAATAAGAGAAATTGAAACTACACGCAGTGTAGAAGTCCTTCTTGCCGTAGAATCAGGGAGCAGAGCTTGGGGATTTGCATCTCCTGACAGTGATTATGATATACGGTTTATATACCGTCACGACAAAGATTGGTATCTTTCTCCCTGGGATAAGGATGAAACGATAGAATTTATGACAGAAGATAATCTGGACGGCTCCGGCTGGGATCTGCGAAAGACTTTTCATCTTTTGCTGAAATCGAATGCGGCTTTGCTGAGTTGGTTCTACTCTCCTGTCGTTTATAAAGCAGATGAAAAGTTTGTAGAGCTGTTCAGGCCTTTGGCTGATGCCTCCTTTTCTCCGGTAGCAGTTTCTTACCATTATCTGAGTATGAGCAAGAAATATCTGGAAGCATGCCGAAGTGATGAAGTAAAATTAAAAAGTTATTTTTATTGCTTACGAACAACATTAACAGGAAAGTGGATCATAGAGAAAGGAACGGTTCCTCCTGTATTGTTCAGTGATCTGCTTGTGTTAACACATGATACAACCAGACGAAAAATAGAAGACCTCGTTGCCTTAAAAGCTACCAAAGGAGAATCTTACTACCATCCGAACGATTGGGAACTGTTTGATTTCCTGGAGAAAACAATAGCTGAGAATGAGGAAAAGGCGAAGAGTTTGAAGGGAGGAAAGGCGGATAAAGGGGAGATGGAGAGAATTTTTAGAGATATCCTAAATTTATAA	MTPKILEKIREIETTRSVEVLLAVESGSRAWGFASPDSDYDIRFIYRHDKDWYLSPWDKDETIEFMTEDNLDGSGWDLRKTFHLLLKSNAALLSWFYSPVVYKADEKFVELFRPLADASFSPVAVSYHYLSMSKKYLEACRSDEVKLKSYFYCLRTTLTGKWIIEKGTVPPVLFSDLLVLTHDTTRRKIEDLVALKATKGESYYHPNDWELFDFLEKTIAENEEKAKSLKGGKADKGEMERIFRDILNL				NA	NA	NA	NA	NA
BMS003_01584	1005	cobT		Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGTTATCATCAGAATTACAGCATAAAATTGATTTTAAAACAAAACCATTAGGTGCATTAGGACATCTTGAGCATATTGCCCACAAAATCGGAATGGTTCAGAAGACCACTTCACCTCAGTTACTGAATCCTCATATGGTGGTTTTTGCAGCCGACCATGGGATTGCCACGGCAGGGGTAAGTGCCTATCCACAGGAAGTAACCTATCAGATGGTGATGAATTTCCTGGGCGGAGGGGCTGCTATCAATGTATTTTGCAGGCAGAATGATATTACAATCACAATCGTGGATGCCGGAGTGAATTTTGATTTTCCGGAAGGGTTGAATCTGGTGGATAAGAAAGTCAGAAAGTCCAGTCGTAATATTCTGGAAGAGCCGGCCATGACCCCCGAAGAATATCAGCAGGCCCTTAAAAATGGAAAAGATGTGGTTGATGATATTGCAGGAAAAAGCTGTAATATTATTGGTTTCGGTGAAATGGGAATCGGGAATACTTCCGCTTCTTCTTTAATGATGAGTAAACTTTTCGATATTCCGATTACCAACTGTGTCGGACGAGGAACGGGACTGAATGACCATCAGCTGGATAATAAGATCAGTATATTAAATGAAGCCATTGAAAAATATCCGGCTGAAATGACTGAGGATCAAATTGCCCAGACTTTTGGCGGATTAGAAATTGTACAAATGATCGGGGCAATAGAAGAAGCTTATCATCATAACATGCTGATCATGGTAGATGGATTTATTGCAACGGTAGCTGTAGCTACGGTCTGGAAAAAGAATCCTGAAATTCTGAATAACTGTATCTTCTGTCATGTAAGCAATGAAAATGCCCATCCTCAGCTGTTGGGATTAATGAGAGAGCAGGCTATTCTCAATCTGAATTTACGTCTCGGAGAAGGAACAGGCTGTGCATTGGCGTATCCGATTATTCAGAGTGCAGTTAATTTCCTGAATGAAATGTCCAGCTTTGAAGATGCAGATGTATCAAATAAAAATTAA	MLSSELQHKIDFKTKPLGALGHLEHIAHKIGMVQKTTSPQLLNPHMVVFAADHGIATAGVSAYPQEVTYQMVMNFLGGGAAINVFCRQNDITITIVDAGVNFDFPEGLNLVDKKVRKSSRNILEEPAMTPEEYQQALKNGKDVVDDIAGKSCNIIGFGEMGIGNTSASSLMMSKLFDIPITNCVGRGTGLNDHQLDNKISILNEAIEKYPAEMTEDQIAQTFGGLEIVQMIGAIEEAYHHNMLIMVDGFIATVAVATVWKKNPEILNNCIFCHVSNENAHPQLLGLMREQAILNLNLRLGEGTGCALAYPIIQSAVNFLNEMSSFEDADVSNKN	PGPT0004595_2376	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
BMS003_01585	783	cobS	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGAAAGCTATAAAAAATGAACTGATTTACTTTGCCACCGCACTCATGTTTTTCACAAGAATTCCGGTTCCCTTTACCATACCGTATTCCAGTGAGATTATGAATAAATCTCAAAAATATTTTGCCTGGGTAGGATTGGTCATAGGATTCATAAATGCATTGGTTCTCTATCTTTCCACATTACTTTTTAATCTTGAAATTGGAATTGTTCTCATGATGATTTCCAATGTCTTACTGACCGGAGCTTTTCATGAAGATGGTTTTACAGATATGTGTGACAGTTTCGGAGGCGGATACGGAAAAGAAAAAATACTGACTATCATGAAAGACAGCCGGGTAGGAGCGTATGGAACGATCGGTATTATTCTGCTTTTTGCTTTAAAATTCTACAGTATTCAGTCATTGGGGATGCGTGATCCGGTGGGAGTTTTATTCATTGTTATTCTAGGGCATACAGTAAGCCGTTTTATTTCAGGAACAATGATTTATACTCATCAATATGTGACTGATATTGATGCCAGCAAGTCGAAACCTTTAGCCAATAAACCATTGGATAGAAAGGCTTTAATTGTAGGATTTACAAGTGTCTTAATTGCTTTTTGCCTGATTCCGGACTGGTATTTGATTTTTGCATTTGCCTTGGCGTATGTAGGGAAAGCGTATATGGGCTGGTATTTTAAAAAACATATCGGCGGTTATACAGGTGATTGTCTGGGGGCAGTACAGCAGGTTTGCGAAGTTTTATTTTATTTAGGAACAATCATCGTATGGAAATTCATGTAA	MKAIKNELIYFATALMFFTRIPVPFTIPYSSEIMNKSQKYFAWVGLVIGFINALVLYLSTLLFNLEIGIVLMMISNVLLTGAFHEDGFTDMCDSFGGGYGKEKILTIMKDSRVGAYGTIGIILLFALKFYSIQSLGMRDPVGVLFIVILGHTVSRFISGTMIYTHQYVTDIDASKSKPLANKPLDRKALIVGFTSVLIAFCLIPDWYLIFAFALAYVGKAYMGWYFKKHIGGYTGDCLGAVQQVCEVLFYLGTIIVWKFM	PGPT0004590_695	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
BMS003_01586	555	cobC	COG0406	Adenosylcobalamin/alpha-ribazole phosphatase	ATGGAAATTCATGTAATCCGTCATACCGCTGTAGAAAATCCTGAAAACCTGTGTTACGGTTTTGCTGACATGCCTTTACGGAAAGATTATATGAATGATTTTAAATCGCTGGATACTGATGATCATTATGATGTAATTATTTCAAGTCCTTCCAATCGATGCCGCCTTTTAGCCGATTATTTTACATTGGATTATCAAACTGACGAAAGACTCCGCGAGATGAATTTCGGGAACTGGGAAATGAAAAAATGGGTGGATATTCCCGAAGAAGAAATCAACCCATGGTACGAAGATTTTATCCATATAAAAGTTCCGGGAGGAGAAAGTCTTCTCGAAATGCAAACCAGAGTTCTTAACTTTTGGCAGGAATTGATTCAGAAAAAAGATGTAGAAAAAGTACTCATCATTTCTCATGCCGGAGTCATTCGTTTGATTCTTCAATCTGTGCTTCAGTTTCCATTAGAGAATATGTTTGCGATTCAGATTGATTATGGGAAAAAAGTGATTATTAACATGAATAATGGGATTTTCTCTGTTAAAAAGGTGAATGTATAA	MEIHVIRHTAVENPENLCYGFADMPLRKDYMNDFKSLDTDDHYDVIISSPSNRCRLLADYFTLDYQTDERLREMNFGNWEMKKWVDIPEEEINPWYEDFIHIKVPGGESLLEMQTRVLNFWQELIQKKDVEKVLIISHAGVIRLILQSVLQFPLENMFAIQIDYGKKVIINMNNGIFSVKKVNV	PGPT0004650_1663	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
BMS003_01587	771			hypothetical protein	ATGAAAACACTACAATTATTCAATGCGGTACTGGCCAGAAAATCTGATGAAAAGCCATTTATTTCTAGTGATGGACTCATCATTGAATCCGATGCGTTATGGGCAAAAAACGAGATCATTTCTTATTATGCAAAGGAAAAACTGAATGGTAATGATTTAAATAAAACCTTTCATAAATCCTGGGAGAAAATAAAGAATACTTCCAGATTTGATTTATTCTTTGAAAAAGTCAGCCATTACCTTTCAACGTATGGAAGTAATTTTCAAAGTGAAATTTATATTCCCAATGAAATACTGAATGTTCCAGACATGAAGCTGGTCTTTAAAGTCATTAAAGCTTATTCTGTGGAAGAAATGCAGGAAAAATGTCTTTCACTTTTGAGATCAGGAATTGCTTTAAAAGAAGAAACCATTGATGATTTGCTTTATATTTTACATACAGACCTGGAATATGATTTTACGGGGAAAGAAAATATCAGAAATAAAGAAGCAGTTATGAAAATAGCTGATCAGTATGATATCTATCCTGAAAATCCTGTTGAGTTTTTCCGTTATGTTATTTATAAAACAACGAATACTACACTTTTAATCAAAAATGATCATCTGATTGATTTAATCAGACAAAGTAACTATAACCCAACGTATCTGTTTGAAAGTTTTGGAATGGAAAAAATGGCGGAAATTTTCATTACCACAGAAAAAGCAGAAGCTGATTTTGATTTCTCACTGGAAAGCCTGGAAAAAGATAGTTTTATCAAGGTTTTTAAATAA	MKTLQLFNAVLARKSDEKPFISSDGLIIESDALWAKNEIISYYAKEKLNGNDLNKTFHKSWEKIKNTSRFDLFFEKVSHYLSTYGSNFQSEIYIPNEILNVPDMKLVFKVIKAYSVEEMQEKCLSLLRSGIALKEETIDDLLYILHTDLEYDFTGKENIRNKEAVMKIADQYDIYPENPVEFFRYVIYKTTNTTLLIKNDHLIDLIRQSNYNPTYLFESFGMEKMAEIFITTEKAEADFDFSLESLEKDSFIKVFK				NA	NA	NA	NA	NA
BMS003_01588	1383			hypothetical protein	ATGGAATTTAACGGAAATCATTTAATCGGATTAGGATATAGACCAGCAAAATGGTTTAAAGATGCTATCAGCTATATCAACGAGAATAACCTGGATGAACATCAGATTGCAGAATATCTGGTACAGTTCAAACAGCCGGATATCATTCCGCTTCATGATGCAGCTAAAGATTTTATGATCAACATCCGTGCAGAACACGAAAGTGAAAATGATAATGTGGAAAAAGTAATCAGAACCATGAAAATTCTGATGAAAACCCCTACGCTGGTTGGAGGAGCTTTAATGCCGGACGCCTGTCCTACAGGTCCTGAAGGTCAGATTCCGGTGGGAGGTGTAGTGGTTGCCCAAAACGCTATTCACCCGGGATTCCATAGCGCTGATATCTGTTGTTCTGTAATGTTAACAGATTTTGGAAAAACCAATCCTAAAGATGTTCTGGATGCAGCTCATTCTATCACTCATTTCGGATACGGAGGAAGACCAAGGGGTGAGCAGATGCCGATGTCTCAAGAACTAATGGATGCTTTCAGAGAAAATAAATTCTTAAATGATGAAAAACTGATCAGCATTGCCCGTTCTCATATAGGAACCCAGGGAGACGGAAATCACTTCCTTTTCGTTGGAATTTCCAGAAAATCAGGAAATACCATGATGGTAACCCATCACGGATCAAGAGCTCCGGGAGCTGCTTTATATGACAAAGGAATGAAGGTGGCCAACCGTTTCAGACAGGAAATTTCACCAGAAACACTGAGAGAAAATGCCTGGATTCCTTATGATACTGAAGAAGGTAAATCTTATTGGGAAGCCCTGCAATTGATAAGACAATGGACAAAAGAAAACCATACTTCTCTTCACGATGCCGTGCTGAACAAGCTGGAAATAGAGAAGGAAAACAGATATTGGAATGAGCATAACTTCGTTTTTAAAGATGGAGACCTTTTTTATCATGCAAAAGGAGCTACTCCGCTGGATGATAAATTTATGCCTGATATTACAGGACCCAGACTGATTCCTTTGAATATGGCAGAACCGGTACTGATTGTTCAGGGAAAAACGAATGAAAGAAACCTTGGTTTTGCCCCGCACGGAGCAGGAAGAAATTTCAGCAGAAGCCAGCATAAAAGATCTTTGGCTCATAAAACAACTGAAGAAATTTTCAATGAGGAAACAGCAGGATTAGATATCCGTTTCTACTCCAATGAAATTGATATTTCTGAACTTCCGAGTGCTTATAAAAGTGCAAAGAACGTAAGAGCACAGATAGAAGAATACGGACTTTGTGAAGTACTGGATGAAGTCATGCCTTATGGATGTATCATGGCCGGAGACGTTCAGAAGAATGCTCCGTGGAAGAAAAAGAAGAGATTCAGAAAAGCATAA	MEFNGNHLIGLGYRPAKWFKDAISYINENNLDEHQIAEYLVQFKQPDIIPLHDAAKDFMINIRAEHESENDNVEKVIRTMKILMKTPTLVGGALMPDACPTGPEGQIPVGGVVVAQNAIHPGFHSADICCSVMLTDFGKTNPKDVLDAAHSITHFGYGGRPRGEQMPMSQELMDAFRENKFLNDEKLISIARSHIGTQGDGNHFLFVGISRKSGNTMMVTHHGSRAPGAALYDKGMKVANRFRQEISPETLRENAWIPYDTEEGKSYWEALQLIRQWTKENHTSLHDAVLNKLEIEKENRYWNEHNFVFKDGDLFYHAKGATPLDDKFMPDITGPRLIPLNMAEPVLIVQGKTNERNLGFAPHGAGRNFSRSQHKRSLAHKTTEEIFNEETAGLDIRFYSNEIDISELPSAYKSAKNVRAQIEEYGLCEVLDEVMPYGCIMAGDVQKNAPWKKKKRFRKA				NA	NA	NA	NA	NA
BMS003_01589	336			hypothetical protein	ATGGTATTATTAGAACAATTAAAACATTTCCCGGAAACAATCCAGTTTAGTGATGTGATCAATTATATTGATGAGCATTATGAATTTACACCTACTGCTTTTCAAAATGGTGATACTACCAATCAGGCAGGGCAGAACAATGGTTCATGTAAAGTTTTCAGCTTTGCGAGCATCAAGGATCTTACGAAAGAAGAGACGCTTTGGCTTTTTGGTGAGTTTTACAGAGAAGATGTTTTGAAAAACCCGGAAGGAACTGATCATCAGAATATCAGAAATTTTATAAAATTCGGTTGGGAAGGGATTACTTTTGACGAAAATGCTTTGAGAGAGAAATAA	MVLLEQLKHFPETIQFSDVINYIDEHYEFTPTAFQNGDTTNQAGQNNGSCKVFSFASIKDLTKEETLWLFGEFYREDVLKNPEGTDHQNIRNFIKFGWEGITFDENALREK				NA	NA	NA	NA	NA
BMS003_01590	1014			hypothetical protein	ATGTCATCTAATAAAAATGCACTCATCCGGTATAAAACACTGGATAAGTGCCTTAAAAACAAATACCGGAAATATATGCTGGAGGATCTCATTGATGAATGCTCAGAAGCATTGTTTGAGTTTGAAGGGAAAGAGTCTTATGTAAGTAAGAGGACGGTTCAGCTTGATCTTCAGAATATGCGGAGTGAAAAATTCGGGTATGAAGCTCCTATTGAAGTCTACGAAAGGAAATACTACCGTTACAGTGATCCGGAATACAGCATACATAATATCTCAGTAAATGAAAGTGATCTGAAGGCGATGAATAATGCTGTTCAGATTTTAAAACAGTTCAAAGACTTTTCCATGTTCAAGGAGATGAATGGGGTAATTCAGAAACTGGAAGACTCTATCCATTCAACCAGCCAGAAATCAATTATTCATCTGGATAAAAATGAGCAGTTAAAAGGCTTGGAGTATATTGATATCCTGTATGAAAGTATAACGAATAAAAAAGTACTGAAAATTCTTTACAAAAGCTTTACAGCAAGGGAATCCAATATTTTTACGGTGCATCCGCAGCTGTTAAAGGAATTCAATAACCGTTGGTTTCTGATCTGCCTTTACAAACAGAAAATGTATAATCTGGCGCTGGACAGAATGGAAAGTATTGAAACAGATGAAACGCTTCAGTATATTGACAAACATCTGGATGGAGATGAATATTTCAAAGATATCGTAGGTGTAACGGTTGCAGAATCAATGCAGCCAAGAAATGTGGTTTTCTGGGTAGATGCCGGGAATGCTCCTTATGTAAAAACAAAGCCGTTGCATAAAAGTCAGGAGATTATTAACGAAGATTATGAGGGAACACTGTTTAAAATATGTGTTCAGATCAACTTTGAGCTGGAAAGATTACTGCTTGGGTTTGGTGACAGTTTAATTGTTCATAAACCCCGTAAGTTAAGAATGAGAATGGAAGAAAAATTTAAAACAGGAAGTAAAAACTATCAGAATCTTATTGTTCCTGAGTAA	MSSNKNALIRYKTLDKCLKNKYRKYMLEDLIDECSEALFEFEGKESYVSKRTVQLDLQNMRSEKFGYEAPIEVYERKYYRYSDPEYSIHNISVNESDLKAMNNAVQILKQFKDFSMFKEMNGVIQKLEDSIHSTSQKSIIHLDKNEQLKGLEYIDILYESITNKKVLKILYKSFTARESNIFTVHPQLLKEFNNRWFLICLYKQKMYNLALDRMESIETDETLQYIDKHLDGDEYFKDIVGVTVAESMQPRNVVFWVDAGNAPYVKTKPLHKSQEIINEDYEGTLFKICVQINFELERLLLGFGDSLIVHKPRKLRMRMEEKFKTGSKNYQNLIVPE				NA	NA	NA	NA	NA
BMS003_01591	138			hypothetical protein	ATGAAATCAAGAATATTTAAAGCATTAATTGCAATCTTAGCACCCATAGCGATAGAATATATTGTTAAAAAAATATCTGAGAAACTTGATAAAAAAGATGATCAGAATGAACAAGAACCAAAGCAGATTACAGCTTAA	MKSRIFKALIAILAPIAIEYIVKKISEKLDKKDDQNEQEPKQITA				NA	NA	NA	NA	NA
BMS003_01592	1296			hypothetical protein	ATGGCAACGGTAAAATACTATCTGCGTAGCAAAACAAAAGGCAGCGCAATTCAGATTCAGCTATCAATATCTAAGGATCTTAAAATGCGAAATTCTACAGGCTTGCAGATTGATTATTCAGATTGGAGCGATAAAACCTCTCTTCCCAAACAAAACAATCCCCACAATAAAAATCTGAGTGCAGAACTTGTTGATTTAAAGAAATTTATATTGGAATCCTATAATCAAGATTTTACCAACGGTGTTCTATTTGATTCGCACTGGCTTAAAAATAAGATTAGTCTTTTTTTTGAGAGAATAGATGTAAAAACCAGCGATGATATTGTGGTCAATTACATGAAAAACTTTAACGAGCTTCGGGCATTGGCTAAGACGAAAAAGACTACCGATCATCAATACCTTATGCTAGAAGATAAATTTTTAAGATTTCAGAATATTCATAAGAAGAACTATGTCTTTGCTGAGGTAGACAAACGGGTAATGCTTGAATTTAAGAACTGGCTTATGTCCAAAGACAAGTTAATGGAATCAACTGCTAATAGAACCTTAAAAAACCTGAAAACAGTATTGCTTGATGCCAGAGCAAACGGCAAGCTGCTTCACCCTCAGGTTGATAAGTTTACCATTGAGAGTGTAACCTCTATAAAAGTATTTTTAAACTTTGAGGAACTTTCAAAAATCAAAAACGCAAATATTATAGGGAAAGACTTGCTTCATGCCCGTGACTGGCTTTTAATTGGCTGCTATACAGGACAACGTGTAAGTGACCTGCTGGATATGACCTCATCAAAAATTTTCACTAAAACAGATTCTGAAGGTGAAAGTTACCGTTTTATAGACCTTGTCCAGCGTAAGACAGGTAAAGATGTGAGCATACCCATCCATGATGAGGTTGAACAGATTCTTAAAAAGTATGGGGATCATTTTCCTCCACTATTCAGGGGTGCAACTTTAAATAGTAATGCAACCCGTTTTAACAGCCTTATTAAGAAGGTCTGTGAGTTTTCCGGCATCAACCAGATTTTAAAAGGCAGGATCTATGATGACAATCTAAAACGCAATGACATTGTAGAGACAGAAAAATACAATCTGGTAAGTACCCATATTTGCAGAAGAAGTTTTGCTACCAATTTCTACGGTGACAAAAGATTTACTACACCACAGGTCATGGCTATTACAGGACATAAAACAGAAACCACTTTTTTACAGTATATTGGTAAAACCTCATCAGACCATGCTTTGAATACGGCAAAAACCTTCAGGGAAATCAAAGACCAACAGGAGAAAACATCATAA	MATVKYYLRSKTKGSAIQIQLSISKDLKMRNSTGLQIDYSDWSDKTSLPKQNNPHNKNLSAELVDLKKFILESYNQDFTNGVLFDSHWLKNKISLFFERIDVKTSDDIVVNYMKNFNELRALAKTKKTTDHQYLMLEDKFLRFQNIHKKNYVFAEVDKRVMLEFKNWLMSKDKLMESTANRTLKNLKTVLLDARANGKLLHPQVDKFTIESVTSIKVFLNFEELSKIKNANIIGKDLLHARDWLLIGCYTGQRVSDLLDMTSSKIFTKTDSEGESYRFIDLVQRKTGKDVSIPIHDEVEQILKKYGDHFPPLFRGATLNSNATRFNSLIKKVCEFSGINQILKGRIYDDNLKRNDIVETEKYNLVSTHICRRSFATNFYGDKRFTTPQVMAITGHKTETTFLQYIGKTSSDHALNTAKTFREIKDQQEKTS				NA	NA	NA	NA	NA
BMS003_01593	567			hypothetical protein	ATGCATAAAAACACAAATATTATTGTTTTGCTTAACCATTTAGGCAGGATCGGTGAAGTTGATTTACAATATATAGAAGAACAGTTTACGGATTTACCCATTGTCCTTAAAGAGACCAGATCTGACAAAGAATATAATGCAAATTTTGAAGACTTCTCCCTTCAGGTATTTTATAGTTTTTCATCTCCCTTTTTGGCTGCACTGATCCATCATGAAAAAAGCCTTGAGATTTGGAAGTCCTTTAAAACCGTTTTATCCTATACCCGCAATAAGATAAGGTATGAAATCTATTCCCGGGAAAAGAATGGTCTTCCCATATTAAAACCTATTACCTTTGGTCTTCACGTGGTTATGGATACCAATACAAGCTATAATTTTGAATTAAGCAGAATATATAGTGAAAAGCTTTTTGAGGTGTCGCTGGATCGAATCTTAACTTTTTTATCTGATCAGTCCCCCAATGAAAAATATGAGCTGCCTTTGTATGTAAGATTTTCAGCAGACAAAAAACGATGGGAGGCAGAATCTTTTGAAGAGTATCTTTTAAGAAAAAGCAGGAGCAACTAA	MHKNTNIIVLLNHLGRIGEVDLQYIEEQFTDLPIVLKETRSDKEYNANFEDFSLQVFYSFSSPFLAALIHHEKSLEIWKSFKTVLSYTRNKIRYEIYSREKNGLPILKPITFGLHVVMDTNTSYNFELSRIYSEKLFEVSLDRILTFLSDQSPNEKYELPLYVRFSADKKRWEAESFEEYLLRKSRSN				NA	NA	NA	NA	NA
BMS003_01594	1284			hypothetical protein	ATGGAAGTTCCATTGTATGAAAGTCTGGAAGATTTCAAAGACAATTATCTGGCAGATTTCTCCTTTCAGGCGGAAGTGAATATTTTGAAGTACCTCTCTATGTTAAAAAAGAGTTACAATACGTATATTGAAAAATGTAAGAACCTGAACGAGAAGGGAGATTCCAGCCTTTTTACCTTATTTGATATGATAGGTGAGCTGGAATGTCTTCTGCCTTACCAAAGTTCATTCATCCTTAAAAATGATCTTCTGGAAAAGTTTAATCCCAGAGGATATACTAATGATGATTTTATCATAAATCCCGAGCTTTTGGGAGAATGTGTTGATTTTGGAAATATCCCAGGGGATGAGAGGGAAGAATTCTATAAGAAAATTCGTGATTTGTTTATGTTAAAAAAAAGAATTTCCTACAAACAGTCCCTATTTTCAGAAAGAATGGAAAACTTTTATCAGATTATAGCCTTCATAGATGAGCAGATCGAGCTTGAAAAAACTCTACTGCTGAGGTTTGAAGATCTTACTAAAAAATCAAATGCGGATAAGAATATTGATTTAGACAGCTGGGAGCTTTTTAATCATATCCGGTATAATGATGTAGGTTATCTGGAAAGGAGCCGATATTTAAAAGATATTACAGAGAATTATCACCCTGACCTTTTGAAATCTCTTTTAAAAGACCTTGAATTTTACCTTTTTATTGAGAAGGATCAGAAGGAAGCAGAATACGATTCGGATGAGATCGCTCAGGCCATTAAAGAACGTGAAGCCAAAGAGCTTCCTGTTCCTCGTTTAGATATAAGACCTGAGCATCTTTTAACAGATCGACAGAAAGAAATAAGAGAAACCCATACAAAAGAGAACGGAGAAAAAGAAACGGTTTGTATTGATTTGGAAAGCTTACTGTTTCCCTTTGAATTTTTCTCTTTGTATGAATTCCAGCGCAGTATCATAAGAAAGATTAAAGAACTCTCTCCACAGGAAAAAGAACCTCAGTCCGATATAGATATTTCAGAATTGAAGACCAGTAAAACCCAAAGTATAGCCTTACTGCATCATACCGGAATCCTGGACTTTTTAAGAACCCAGTATCCAACCTTATCAGATCGTCAGCTGGCAGGCTTTTTTGAGTTTCTGACTAAGGAGCCGATCACAGTAAGAAATCAGAGCAGTCAGTTTACCAGCGATAAAAAGTCTGTTAAATATCCTATCAAAAATAAAAAAGATATAGAAGATCTGGACAGGCTGCTGGTTTCGTTTGGAATGAAAGAGAGAAGAATTTTGTAA	MEVPLYESLEDFKDNYLADFSFQAEVNILKYLSMLKKSYNTYIEKCKNLNEKGDSSLFTLFDMIGELECLLPYQSSFILKNDLLEKFNPRGYTNDDFIINPELLGECVDFGNIPGDEREEFYKKIRDLFMLKKRISYKQSLFSERMENFYQIIAFIDEQIELEKTLLLRFEDLTKKSNADKNIDLDSWELFNHIRYNDVGYLERSRYLKDITENYHPDLLKSLLKDLEFYLFIEKDQKEAEYDSDEIAQAIKEREAKELPVPRLDIRPEHLLTDRQKEIRETHTKENGEKETVCIDLESLLFPFEFFSLYEFQRSIIRKIKELSPQEKEPQSDIDISELKTSKTQSIALLHHTGILDFLRTQYPTLSDRQLAGFFEFLTKEPITVRNQSSQFTSDKKSVKYPIKNKKDIEDLDRLLVSFGMKERRIL				NA	NA	NA	NA	NA
BMS003_01595	285			hypothetical protein	ATGAAACAGCTACAGTTTATTGGTATGGAACCTTATGATCTAATTCAGGAAATGAGAAGAGAGCTTATTCCTGATATTAAAAGAGAACTTAAAGAGGAATTCCAGCCTAAAGAACCCACCGTGTATTTAACCCGTCAGGAGGTTTGTGATCTTCTTTCTATTGATATGAGTACCCTTCACCGTTGGCGAAAAGATGGTATTCTAACGGCTTACGGTCTTGGGAATCGGATTTACTTTAAGAGAAAAGAGATTGAAGCTCTTATTGAAAAAAACAGACTGAAGTAA	MKQLQFIGMEPYDLIQEMRRELIPDIKRELKEEFQPKEPTVYLTRQEVCDLLSIDMSTLHRWRKDGILTAYGLGNRIYFKRKEIEALIEKNRLK				NA	NA	NA	NA	NA
BMS003_01596	1545			hypothetical protein	ATGAAATTAAATCCTGTATTTGAAGACCTGAATGATCCTGCTACCATCATTAATCATGTTCGGGGGCTGGTAGAGAAAAGCCGGGAGAAAGTCCCCCACACTGAAATTCTGGAAAAGCTGAAAGAAGAGTTTGAAGAGCTGGATTTTATGCTTCTGGTATTTCCACAGGTAGAGAAGCTCCGGGGAGAATTAGAAAAGCTTCCCCGGGAAAGTGAGAAGGCTAACCTCATCCGTAAAGCACTCTCACAGTTAAAGCTGAATCAAAAGCATTATCTGATCCTTTCCATAGAGCACGTGATAAGGCTTGCAGAAAAGAACCGCTGGGGATTATGTAAGAATCACGATTTTATCTATCTCTATAACGGAACATTCTGGAATGAGCTTGATAAAGAACATTTTCAGAAGTTTTTGGGTGAAGCTTCAGAACAGATGGGAGTTCCAAAATTCTCTGCCCGGTTTTACCAATTCCGGGAGCAGCTTTTTAAACAGTTCCTTTCTACTGCTTATTTGCCTATTCCTGGGAATAATAAGGATATGGTGCAGATTAATTTACAAAACGGAACTTTTGAAATAAGTCCCAATGGTACAAACTTAAGACCCTTTAACCGATCGGATTTTATGACTTATCAGTTGCCTTTCAGCTACGATCCCAAGGCAGAAGCCCCACTTTTTGAAGCCTATTTACATAAAGTACTGCCAGAGAGAGAAAGGCAAAATGTTTTAGCGGAGTATCTGGGTTTTGTCTTCATTAAGCATGGCAGTAATGCCTTAAAAGAAGAAAAGGCACTGATTCTCTATGGGACAGGAGCCAATGGGAAGAGTGTATTTTTTGAAATTGTGAATGCCTTGTTAGGAGAAGAAAATGTAAGCAGCTATTCACTACAGAGCCTTACCAATGATAATGGGTATTTCAGGGCGAAGATTGCTAATAAGCTGGTGAACTATGCCAGTGAAATTAACGGAACGCTGGAAGCATCCATCTTTAAGCAGTTGGTATCCGGTGAACCTGTAGAAGCCAGACTTCCCTACGGACAGCCTTTTACCTTAAAACAGTATGCCAAGCTGATTTTTAACTGTAATGAACTTCCTAAAGACGTGGAACATACCAATGCTTATTTCAGGAGGTTTCTGATCATTCCTTTTGATGTTACCGTTCCACCAGAGGAGCAGGATAAAAACCTGCACACTAAAATCATTGAAAATGAACTCTCAGGAGTCTTTAACTGGGTACTGGAAGGATTGAACAGGTTATTGAATCAGAAAAGGTTTTCAGATTGTCAGGCAGCTCAAAAAGCGGTTGAGCGGTACAGAATGGAGAGTGACAGTGTTCGGATGTATCTGAGTGAATATAATTACAACCCCTCTGTCAAAGAAGAAATCCCATTACAGGACATGTACAAAGAATACAAGTATTTCTGCGAGGATAACGGATTTAAAGCCTGTTCACTCAGAACCTTTGCTGATCGATTAAGAAACTCGGGATACCAGACAGAACGCAGAAAGTATGGAACGATTATAAATGCAGAAAAAAAAGATTGTTTTTGA	MKLNPVFEDLNDPATIINHVRGLVEKSREKVPHTEILEKLKEEFEELDFMLLVFPQVEKLRGELEKLPRESEKANLIRKALSQLKLNQKHYLILSIEHVIRLAEKNRWGLCKNHDFIYLYNGTFWNELDKEHFQKFLGEASEQMGVPKFSARFYQFREQLFKQFLSTAYLPIPGNNKDMVQINLQNGTFEISPNGTNLRPFNRSDFMTYQLPFSYDPKAEAPLFEAYLHKVLPERERQNVLAEYLGFVFIKHGSNALKEEKALILYGTGANGKSVFFEIVNALLGEENVSSYSLQSLTNDNGYFRAKIANKLVNYASEINGTLEASIFKQLVSGEPVEARLPYGQPFTLKQYAKLIFNCNELPKDVEHTNAYFRRFLIIPFDVTVPPEEQDKNLHTKIIENELSGVFNWVLEGLNRLLNQKRFSDCQAAQKAVERYRMESDSVRMYLSEYNYNPSVKEEIPLQDMYKEYKYFCEDNGFKACSLRTFADRLRNSGYQTERRKYGTIINAEKKDCF				NA	NA	NA	NA	NA
BMS003_01597	1593			hypothetical protein	TTGTTATTTAATGCATTATGGTTACAGGGTGAAGCGGGTGTAGCAGGTGAAGCAAGAAAAACAAAAAATATTTTTACGAAAATGAAAACAGAGTATTTGTATATCCTAGAGAAAGGGAGCAAAAAATTTCCTTGTCCTGAGTGCGGGAAAAGAAGCTTTGTGAGGTATATAGATACAGCAACCAGAGAATATCTGCCTAAAGATTATGGACGCTGTGACCGTGAGAGTAAATGTGCTTATTACCTTAATCCTTATCTGGACGGATATACAGCAATGATACAGGAAGAGAAACAAGGAGTTACCAGAGCTGCTAAATTGGATTCTGTAAAACAGCCATATGTTTACTCCAGGCAAAGACAGTTGAATCCATCCAAAACTCATAAAGAGACCAAGACTGTTTATTTTGATTTTAAAAACTTTAAAGAGACATTAAAGCCTGAAGGTTATGAGAAAAATATTTTTATTCAAAATCTTTTATCTCAGGTAAGGTTTCCTTTTGGGGTAGATGAAGTTACAAAGGTTATAGAACTATACCGATTAGGGAGTATTACAGAAGGCTACAGAGCCGGAGCTGTTACCTTTCCTTTCATTGATCTTCAGGGGAATATCAGGACAGTACAGGTCAAAGAGTTTGATATTACCAACCATACCACAGGTACAGATTTTCTGCATTCTATGTTAGAAAAAAGCTATACAAAAAATAAAGAACCTTTACCGGAATGGTTAAAAGCATATGCCTGTAATGAGAAAAAAGTTTCATGTTTATTTGGAGAACATCTTTTGAAGAAATATCCGTTTAATCCGGTTGCACTCGTAGAAGCCCCCAAGACGGCAGTATATGGATCACTGTACTTTGGATTCCCGGAAGAGAATTCCCATAACCTCATCTGGCTGGCTGTCTACAATAAAAGCAGTTTTTCTTTTGATAAGCTGAAGGTATTACAGGGAAGAGAGGTATATGTATTCCCTGACATGTCAAAAGATGGGAGTACTTTCAGTGAATGGGAAACTAAAGCCAGAAAGATAGAAAGAGAATTATCCGGCACATCTTTTATATTTTCAGATCTGTTAGAGAGTCTCGCCTCAGAAAAGGATAAAAGTAAAGGCTATGACCTTGCTGATTATTTAATACAAAAGGATTGGCGGTTGTTTAAAAAAGAGACCTTACAAATCAAAACAGAATCTCATCCAGAGCCTGAGAGTGAAAGTAAATCTGAAGACCAATCTGAAAAGATGATAACCATAACAAAAAATCAAAACGATGAAACACAACCTATAAAAACAGATGAAGCTTCCAACCCAATTGTAACAGCTAGAATACTGATAGGAAGTCATAAAAAACCGGATGAGAAGAAATTTAGAAAATATGCTGAAACCTGGAATAAGGAGATTCAGACACTTGAAAATTTCTTTACTGATACAGAAATTCCAGGTAACCCCATCCAATTTAATGCATACGGCAATATCTCAGATGTTCGGGAATTTATTAAAAGTCATCTTTCAGTGGTAAAGGCTAATAACGGAAACCCTATATTTTTACCTTATCTGGGCAGATTACAGCAGCTCAGAAACAGACTTGGGGTACCCAATTAA	MLFNALWLQGEAGVAGEARKTKNIFTKMKTEYLYILEKGSKKFPCPECGKRSFVRYIDTATREYLPKDYGRCDRESKCAYYLNPYLDGYTAMIQEEKQGVTRAAKLDSVKQPYVYSRQRQLNPSKTHKETKTVYFDFKNFKETLKPEGYEKNIFIQNLLSQVRFPFGVDEVTKVIELYRLGSITEGYRAGAVTFPFIDLQGNIRTVQVKEFDITNHTTGTDFLHSMLEKSYTKNKEPLPEWLKAYACNEKKVSCLFGEHLLKKYPFNPVALVEAPKTAVYGSLYFGFPEENSHNLIWLAVYNKSSFSFDKLKVLQGREVYVFPDMSKDGSTFSEWETKARKIERELSGTSFIFSDLLESLASEKDKSKGYDLADYLIQKDWRLFKKETLQIKTESHPEPESESKSEDQSEKMITITKNQNDETQPIKTDEASNPIVTARILIGSHKKPDEKKFRKYAETWNKEIQTLENFFTDTEIPGNPIQFNAYGNISDVREFIKSHLSVVKANNGNPIFLPYLGRLQQLRNRLGVPN				NA	NA	NA	NA	NA
BMS003_01598	336			hypothetical protein	ATGTTTGTAAGAAGTACTTTTTCAGAAGCAAATTTGACAACCATTGGACAGACAGGAGTTCAGTCTCCTGATGTTATAAGACCTACATTAATGAGTTTCCAAGTAGCAGGTCCATACAATGGAGGACAGAAATATAATGTTGCTACAGGAGCTATACAAATTAATAATACATCCGGAGCAGCTAAAACTTATAGATATATTGTTGGGAATACCCAAGCCAGTGGTACTGTATCGGGAGCAAGATTAACAGGAGTAGGAGGATCATGGTCAGAAAATGGGATCAGTCTCAAAAGTTGGGGGGTAATGTTTAGTAGATGTATCTTTGTATTATGCTAA	MFVRSTFSEANLTTIGQTGVQSPDVIRPTLMSFQVAGPYNGGQKYNVATGAIQINNTSGAAKTYRYIVGNTQASGTVSGARLTGVGGSWSENGISLKSWGVMFSRCIFVLC	PGPT0022155_4752	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
BMS003_01599	1002			hypothetical protein	ATGGTATACACCAATATAGGAAGTATATTATGTGGACTTGACAGAAACAAAGAAAGTCTGGAATATCTTGATAAAGCTAAAAAAGAGCTACTCTCTATTAATGATCCCTTCCTGAAAGCCAATTTATACAATGAATATGGAAGAAACTATACAGGTCTGGGGCTATATGAACAATCCAATGCTGCATTTGACCAGGCAACATCTTATATAAATAAAATTACCAATTCTAAACAGAAAGAATTTGCCCTGGCATACAACTATTCATGGAAACAGCAGAACTTTCCCAAAAATAAAAATAATGATTCTTTACAGGCTATAAAGAAGAAAGTAATGGGTGTAAAACCTGATATTACCTCTTATACAAGAACAGCAGATAAATTTATTGCCGATAAAAATCATTTAGACTCTGCTGAATATTATATGAATAAGGCACTTGCTCTTTCCAAAGATGCCTCTGATATTGAAAAAGCAACGGCCTGGTTCAGCTATGGAGATCTTTTTAATGTAAAAGGAAATAAAGAAAAAGCGCTAGAATATTACCTAAAATCACTTGATGTATTTCAAAAAAAAGAAAATAATCGAACCTCCTTACTGACTGTTTACGATACGATTTCAAGCGTTTATAAGTCTTTAAATGACATTGAGAAATCCAATGATTACCTGAAAAAGTATAATATCCTTAATGAGAAGATCAACAAAAATGCAAAAGAAGCGATAAATCTTGCTGTTAATAAACTGATTGAATTAAAACATGAGGAAAAAGGAAAAGAAAGAAAGATGTTCTATGTTGTAGTCCTGATCATTATAGTATCATTTAGTCTGCTATTATACTTCATCAGAAAAGTTTATATTAAAAAAGCATTAAAAAAAGACAAAATCCTTGAGAAGAAAACTATTGAAACTGATGTTCTTAAATTGAAAGTAAATAATTCATTTGATGAAATTGTCCAACTAATGGAAAATAGGAGCCTATTGTTTCTGATCCGCTTTAAAGAAGTATAA	MVYTNIGSILCGLDRNKESLEYLDKAKKELLSINDPFLKANLYNEYGRNYTGLGLYEQSNAAFDQATSYINKITNSKQKEFALAYNYSWKQQNFPKNKNNDSLQAIKKKVMGVKPDITSYTRTADKFIADKNHLDSAEYYMNKALALSKDASDIEKATAWFSYGDLFNVKGNKEKALEYYLKSLDVFQKKENNRTSLLTVYDTISSVYKSLNDIEKSNDYLKKYNILNEKINKNAKEAINLAVNKLIELKHEEKGKERKMFYVVVLIIIVSFSLLLYFIRKVYIKKALKKDKILEKKTIETDVLKLKVNNSFDEIVQLMENRSLLFLIRFKEV				NA	NA	NA	NA	NA
BMS003_01600	633			hypothetical protein	ATGGCTAATTTATTTCAAACCCTTACGAACACAGTAAAACACTGGTATATTCCATTAATCTTCGGAATTATTTTCCTGATCTGCGGTTTTTATGTATTCAGTGTACCTCTGGCAACGTATGTTACCCTTTCTATTTTTTTCAGTGTTTCATTCTTATTTTCGGGAATTACAGAGATATTCTTTTCCTTACAAAACAGTAAATCTCTGCAGGGGTGGGGCTGGTTTCTTGTAAGTGGATTACTAACAACAGCAATAGGGGGTTATCTTATCTCAAATCCCCAGATATCAATGACGGTACTTCCGTTTGTAATAGGTTTTACTTTGCTGTTCCGTTCATTTCAATTATTAGGCTTTGCATTTGACCTGAAAAGCATGAGAATAATGAGTTGGGGAAATGTAGCTTTGGCGAGTGTAGGAGGCATAATATTTTCCCTGTTGCTGATATTCAATCCGGTATTTACAGGGATTTCATTGGTTACTCTTACCGGGGTTTCTTTTATTTTCATGGGAATTGCTTCCATTATGCTTGCTCTGGATTTAAGAAAAGTCAAAAAAATTCCGGGAAAAGTAAGTCAGGAACTAAGGGATAAGATCAGGTCTATACAGGAAGAAATTGATGAGCTTAAGAAATAA	MANLFQTLTNTVKHWYIPLIFGIIFLICGFYVFSVPLATYVTLSIFFSVSFLFSGITEIFFSLQNSKSLQGWGWFLVSGLLTTAIGGYLISNPQISMTVLPFVIGFTLLFRSFQLLGFAFDLKSMRIMSWGNVALASVGGIIFSLLLIFNPVFTGISLVTLTGVSFIFMGIASIMLALDLRKVKKIPGKVSQELRDKIRSIQEEIDELKK				NA	NA	NA	NA	NA
BMS003_01602	1419	aroP	COG1113	Aromatic amino acid transport protein AroP	ATGAGCAACGAAAATAAAACAGGACAAAACGAGACTTTAGTTAGAGGATTAACAAATCGACATATACAATTAATTGCCCTCGGAGGTGCCATAGGAACAGGGTTGTTTCTGGGAATCGGACCGGCAGCAGTACTGGCAGGGCCATCCGTAATTTTAGGCTATGCTTTGGCTGGAATTATTGCCTTTTTTATTATGCGTCAGCTGGGTGAAATGGTAGTTCAGGAACCTGTTTCCGGAAGTTTTAGCTACTTTGCCTACAAATATTGGGGAAATTTTCCAGGTTTTGCTTCCGGATGGAACTACTGGATTCTCTATATTCTGGTAAGTATGGCAGAGCTCACGGCAATCGGGCATTATATTCACTTCTGGTGGCCGGAAATACCGCTCTGGGTTTCCAGTTTATTCTTCTTTGTGGTAATCAATGCGCTTAATCTTGCTTCCGTAAAGGTGTATGGAGAAACAGAATTCTGGTTTTCCATTGTCAAAGTAGTGGCTATTATTGCAATGATTATTTTCGGTGTATATCTTTTAATAAGCGGCACAGGAGGAGAAAAAGCAACTATTACCAATCTGTGGAACGATGGCGGATTTTTCCCGAAGGGATTATTTAATAAAACAGAGGACGGATATTCGGGATTATTTGCCGCAATGGCAATGATCATGTTCTCATTTGGTGGACTTGAACTTATTGGTATTACTGCCGCAGAAGCAAAAAATCCGGAAAAAACAATTCCACAGGCAACTAATCAGGTGATCTATAGAATTCTTATTTTCTACGTGGGAGCTTTGGTAATCTTATTCTCGCTAAGCCCTTGGAGAGATATTACAGAAGGATCCAGTCCATTTGTAATGGTGTTTCAAAATCTGAATGGTCTTGAATTCAGTCTTTTTGGTAAAGTGATTCAGTTCAATACATTAATCGCGAATGTTCTTAACCTGATTGTTTTGACCGCTGCTTTGTCAGTATATAACAGCAGTGTTTACAGCAACAGCAGAATGCTTTTCGGATTGGCTCAGCAGGGGAATGCTCCGAAATTCCTGAGAAAGCTGAATAAAAACTCTGTTCCTACCAATGCGATTATTGTGTCTTCATGTTTTGCCGGAATTTGTATTATCATCAATAAATTGGTTCCGGAAAAAGCTTTTGAATATTTGATGGCTTTGGTGGTATCTACTTTGATTATCAACTGGCTTATGATATGTTATACGCATTTAAAGTTTAAGAAATCAATCAATACGGACGGAATTCAGTCAAAATTCCCATCTATATTTTATCCGATATCCAACTATATCTGTATTGCATTTTTGGTTTTGATCTTAGGGCTGATGAGTATTACAGGAATGGAAATTCAGGTGATTCTGATTCCGATATGGATTGGTTTTTTGTTCGCCATGTATAAATTGTACAAACCGAATTAA	MSNENKTGQNETLVRGLTNRHIQLIALGGAIGTGLFLGIGPAAVLAGPSVILGYALAGIIAFFIMRQLGEMVVQEPVSGSFSYFAYKYWGNFPGFASGWNYWILYILVSMAELTAIGHYIHFWWPEIPLWVSSLFFFVVINALNLASVKVYGETEFWFSIVKVVAIIAMIIFGVYLLISGTGGEKATITNLWNDGGFFPKGLFNKTEDGYSGLFAAMAMIMFSFGGLELIGITAAEAKNPEKTIPQATNQVIYRILIFYVGALVILFSLSPWRDITEGSSPFVMVFQNLNGLEFSLFGKVIQFNTLIANVLNLIVLTAALSVYNSSVYSNSRMLFGLAQQGNAPKFLRKLNKNSVPTNAIIVSSCFAGICIIINKLVPEKAFEYLMALVVSTLIINWLMICYTHLKFKKSINTDGIQSKFPSIFYPISNYICIAFLVLILGLMSITGMEIQVILIPIWIGFLFAMYKLYKPN	PGPT0020807_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020807-aroP-K11734	NA	NA
BMS003_01603	294			hypothetical protein	ATGAAAGTATGTGGACAAAATATCAGGAAAATACGTAGGAGCAGAGATCTTACGCAGGAATACATGGCTTTTGAAATGGGAATTTCCCAAAAGGCTTATTCCGATATTGAGAATTCCAAGGTGAAGATTAACCTGGAGGTACTGACTAAGATATCCGATATTTTAGACATCAAGCCATCCGACATTTGTAGTATTTCGCATAAGTGTGGAAATGATGAATATGAAGATAAATATCAAAGCTTGCTGGAATACATGAAAAAGAATAATATTTCAGTTCCCAAAGAGTTCTTATAG	MKVCGQNIRKIRRSRDLTQEYMAFEMGISQKAYSDIENSKVKINLEVLTKISDILDIKPSDICSISHKCGNDEYEDKYQSLLEYMKKNNISVPKEFL				NA	NA	NA	NA	NA
BMS003_01604	2280			hypothetical protein	ATGGAGACGCAAAAATTTAATTATGACAATAATATTGTCAGAGCATTCCTCTATGCGACTATCGCATTCGGACTTGTAGGATTTCTGCTGGGGCTTACAGCCGCACTGATGCTTTTTTATCCTGAATTACCTGAATTTTTATTCGGTACGGATGATACAACTATTAAAAGCTTAGCTTCGGGTAATATTCAGGGACTGATCAATACTCAGGGAGCAATGGGCTTCGGAAGAATCAGAATGCTTCATACAAGTGCTGTAATTTTTGCTTTCGTCTGTAATTCCTTTTTCTGTGGGGCTTACTACAGTATGCAGAGACTACTTAAAACCAGAATGTACAGTGATACCCTTTCATGGCTTCACTTCTGGTCCTGGCAGTTTATGATCGTAAGTGTAGTGATCACGTTCCTTATGGGAATCAATACGTCTAAGGAATATGCCGAACACGAATGGCCTATTGATATCTTAATTGCATTCTCATGGATCATCTTCGGAATCAATATGTTCGGAACGATTGCCAAAAGAAGAGTAAGACATTTATATGTAGCTATCTGGTTCTATATGGCCACCTGGATTGCTGTAGCCATGCTCCATATCTTCAACAACCTTGAAGTTCCTTTATCTTTCACAAGCTGGAAATCCTATTCTGTATATGCAGGCGTAAAAGATGCATTAGTACAATGGTGGTACGGGCACAATGCAGTAGCATTCGTACTAACCACCCCTGTATTAGGTCTGATGTATTATTTTATGCCAAAAGCTGCTCAGCGACCGGTATTCTCATATAAATTATCCATTATTCACTTCTGGTCGCTGATCTTTGTATACCTTTGGGCCGGCCCTCACCACCTGCAGTATACCGCTTTACCTGCATGGGCACAGGCAGTGGGAACCGGATTCTCCATTATGCTTATTGCACCATCATGGGGAGGAATGCTGAATGGACTTCTTACCTTAAGAGGAGCGTGGGATAAAGTAAGGGAAAATCCGATCCTTAAATTCTTTGTAGTGGCTGTTACATGCTATGGTATGGCTACCTTCGAAGGACCTTTGTTAGCAACAAAATCATTAAATAAAATTGGCCATTATACCGACTGGGTTATCGGGCACGTACACATTGGTGCACTCGGATGGAATGGTTTTATGGCATTCGGAATCGTTTATTACCTGGTTCCTATCATGTGGAGAACGTCCCTTTGGTCAAAAAAATTAGCAAACTGGCATTTCTGGCTGGGGACATTAGGAATTATTTTCTATGCAGTACCCATGTATATTTCAGGTTTCACACAGGGATTGATGTGGAAACAATTCAACCCGGACGGAACACTGTTATGGAAAAACTGGCTGGATACTGTAACAGCTGTCATTCCTTACTATAAAATGAGATTCTTAGGAGGGCTGTTCTATCTTTCAGGAGCTATCCTGATGGTTGTAAATGTTATTAAAACCATTAAAGCCGGTTCATTCCAGAAAGAAGTTCCTGCAGAAGCTCCTGCTTTAGCTAATATAGGAAGTTCAAGAAAAGAAGGTGAAGGTTTACATCTTTGGCTGGAAAGAACTCCTACTCTCCTTTCCGTATTAGCTTTCATCACAGTAGCAATCGGTGGATTGGTGGAGATTGTTCCTACCCTGTCACTGAAGCAAAGTGTTCCTACAATTTCAGCTGTAAAACCCTATACTCCATTAGAACTGGAAGGAAGAGATTTATATATCCGTGAAGGCTGTAATGCCTGCCACTCTCAGATGATCAGACCTTTCCGTGATGAAGTGGTAAGATTTGAAGGAAAAAACGGACAGTATTCCAAAGCGGGAGAATTCGTATATGACAGACCTTTCTTATGGGGGTCTAAAAGAACAGGGCCGGATCTACACAGAGAAGGAGGAAGAAATCCGGATTCATGGCACTTCAAACATATGTATAACCCAAGAATTACTTCTGCAGGTTCCATTATGCCACGTTTCCCATGGTTAATTACCAATAAACTGGATAAAACACAAATGGTGGACAAAATGAAACTGATGAAGAATGCCTTTGATGTTCCTTATACAAAAGCGCAGATAGATTCTGCCAACCAATGGGCAGACAATCAGTCAAAAGCAATTGTACAGAGAATTTACGCTGAAGCAGCAGACGTAAAAGATCAGATGGTAAAAGAAAAAACAGCAAAAGGATCGGCCTATGTACCGCTTGAGCAGAGAGAAATTGTAGCAATGATAGCCTACCTGCAAAGATTAGGTACAGACATTAAAACAACACAGGTACAAACTGCAAGCGTAGAGTAA	METQKFNYDNNIVRAFLYATIAFGLVGFLLGLTAALMLFYPELPEFLFGTDDTTIKSLASGNIQGLINTQGAMGFGRIRMLHTSAVIFAFVCNSFFCGAYYSMQRLLKTRMYSDTLSWLHFWSWQFMIVSVVITFLMGINTSKEYAEHEWPIDILIAFSWIIFGINMFGTIAKRRVRHLYVAIWFYMATWIAVAMLHIFNNLEVPLSFTSWKSYSVYAGVKDALVQWWYGHNAVAFVLTTPVLGLMYYFMPKAAQRPVFSYKLSIIHFWSLIFVYLWAGPHHLQYTALPAWAQAVGTGFSIMLIAPSWGGMLNGLLTLRGAWDKVRENPILKFFVVAVTCYGMATFEGPLLATKSLNKIGHYTDWVIGHVHIGALGWNGFMAFGIVYYLVPIMWRTSLWSKKLANWHFWLGTLGIIFYAVPMYISGFTQGLMWKQFNPDGTLLWKNWLDTVTAVIPYYKMRFLGGLFYLSGAILMVVNVIKTIKAGSFQKEVPAEAPALANIGSSRKEGEGLHLWLERTPTLLSVLAFITVAIGGLVEIVPTLSLKQSVPTISAVKPYTPLELEGRDLYIREGCNACHSQMIRPFRDEVVRFEGKNGQYSKAGEFVYDRPFLWGSKRTGPDLHREGGRNPDSWHFKHMYNPRITSAGSIMPRFPWLITNKLDKTQMVDKMKLMKNAFDVPYTKAQIDSANQWADNQSKAIVQRIYAEAADVKDQMVKEKTAKGSAYVPLEQREIVAMIAYLQRLGTDIKTTQVQTASVE				NA	NA	NA	NA	NA
BMS003_01605	888			hypothetical protein	ATGAAAACGAGAACCCCTATTTCAATATACATCGCAACAACGATAGGTTTAACGATCATGGCCTTTGAAATGTTTGCCGGAGATTCAGGATATTTTTCTTCTCCTTTTTTCTGGGCGCTGATATTAATCGCCATTATTCTTCTGCTGATCATGAATTCTATTGGAGACCTGGTAGAAAATGAAAGCTTCAACAGACTATCCGAGGAAGAGAAAAAACAATATCTGGAAGAGAAAAAAGTTCCTTATTACCAGAAATTATGGAATTCTGCCTTCAAAAAACAAACCGCTACGGAAGAAAAAGATATTCTCATCGACCATGGTTTTGACGGAATTACAGAGCTTGACAACTCTCTTCCGAAATGGTGGATCGGTCTGTTCTGGTTCGGGTGTATCTTCTGTGCTGTATATCTGGCAGCATTCTCTTTTACAGATTATGCCCACCCGGATGCAGAGTACACGAAAGAAGCAAAAACAATGCTGGCTTCCATTGAAGAATATGAAAAAAGCGCACCTCAGATCAATCTGGAATCGGCAAAATACAGCGCTGATAATATTGCGGAAGGACAGGAGCTTTTTAAAACAAACTGTGTAACCTGTCATGGAGACGGTGGAAAAGGAGGTATAGGCCCCAATCTTACGGATACCCACTGGATCAATATTAAAGAAAAAAGCTTATTTAAAAATGTCTTCTGGATGCTTGAAAACGGCTCTCCAAATAATCCTACCATGAGACCTTTCATCAAAGATGGAACCATTACCGGAAGAGATGCAGAAAAGATTGCCGCTTATATTTATCACATCAACCAGGAAACTGCTCCTATCACTACAGCACAGGGCGGTGCCGCTCCTCAGGGAGAAGAAGTGAAATGGGAAAACGGAAACAACTAA	MKTRTPISIYIATTIGLTIMAFEMFAGDSGYFSSPFFWALILIAIILLLIMNSIGDLVENESFNRLSEEEKKQYLEEKKVPYYQKLWNSAFKKQTATEEKDILIDHGFDGITELDNSLPKWWIGLFWFGCIFCAVYLAAFSFTDYAHPDAEYTKEAKTMLASIEEYEKSAPQINLESAKYSADNIAEGQELFKTNCVTCHGDGGKGGIGPNLTDTHWINIKEKSLFKNVFWMLENGSPNNPTMRPFIKDGTITGRDAEKIAAYIYHINQETAPITTAQGGAAPQGEEVKWENGNN	PGPT0000153_1134	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
BMS003_01606	5055			hypothetical protein	TTGTTAGAAACCTCATCGCATTTGAAACTGAAAATCAACACTACAAAACTCTTAAGGCGTATTGCAATAACCTTTATTTCGATATTGGTTTTTCTTACCCTGTTGATCCTAAGCTTAAGGCTTCCTGCCGTTCAAAACTTCATCAAAGACAAGCTCATTGTTTATCTGGAGAAAAAAATCAAAACTCCCGTAAGCCTTGAAAGGGTCTATATAGGATTTCCCAACAGCCTTGTTATGGAAAACCTCTACCTTAAAGGACAGGATGTAGATACTCTTCTTGCCGTTAAAAAGCTGGATGTAGGGCTGCATATGATGAAACTTCTTAATTCTACGGCGGATATTACCTCAGTCAATATGGAAGGTGCGCGTGCTCATGTGGTACGAAAACAGGATGGCAAATTCAATTTTGATTATATCATTGATGCTTTTGCCTCAACAGATAAGGAAGAAAACCCTTCCAAACCATTTATTATTTCTCTTGATAAAATCAATTTAAATGATATTGGAGTAACTTTTAATGACCAGCAGTCAAAGAATGATATTCAACTCTACTTTAAATCTTTCGATACCAGAGTCAAAACTTTTGATCTCAGCAAAAACAATTATGCGGTTAATGATATTAATCTTGACGGATTAAAATTAAAGCTAAAGCAGGGACTTGTAGAAGAGGTTGCTAAAAAGGTAGAGAAAAAAGTAGATTCTCTCAATGAAAAAAAAGCAATGAATATTGGGTTGAGAGGCATCAAGCTTACTCATTTTGATATTGATTACGGTGATGAAAATACCAAAACATTTGCAAAAGTAATCTTCAAAGAACTGAGCACAAAGGTCAATAAACTTGATCTTGAAAATAATGCTTACAATGTTTCGAATGTATTTCTTTCCGGCGCAGATATTAATGCCAATCTTTATCTTCCCGCTCAGAATGCCAATCCAAAAGCAACAAAAGAGCCTGAAGTTTCTAAAGCATCTGATCAGGATAAAGCCATGAAACTTCTCTTAGGAAAACTCGTTCTCAATGATGTAAAGGTCAATTATAACAATACCGCCATTGCTCCAACGAAACAAGGAATGGACTTCAACCACCTTAATTTTTCAAAAATGAATGTGGAAGTAAGAAGCTTCAAAATGGAGAACAATACTTTTGCCGGAACAGTGAACACGGCAGAAATCAAAGAAGGCAGAGGCCTGGATATCCAAAAATTCAATACTGATTTTGTCTACGCAGAAAAAGAAGCGTACCTGAAAGATCTTTATCTTCAAACCCCGAAAACGATATTGCGTGATGAGATTATTTTAAACTACAATTCTATTGATCAGCTCAGTTCAAACTTAGGTGCTGTAAAGATTTCAGCCAATATTAAAGATTCAAAAATAGGATTCTCTGATATTCTGTATCTGGTTCCGACTTTAAAAAATACAGTTCCATTCAACAAATATCCGAATGCTATTCTTAATGTGAATGCCAATGTAAAAGGAAGCGTGAACGATCTTTTCATTCAGGATCTGAAAGTTTCCGGGCTGGATCAGTTGAGGGTAATGGCTTCCGGAAAGATCAAAAATGCCATGAATCCGGATCAGCTGTATTATGATCTGAGAATCGGGGAATTTTCTTCCGGTGCCAAAACGATATTTAATCTTGTTCCAAAAAATACAATCCCTTCCAATATTTCGCTTCCTTCCCATTTCAGCATCAAAGGAAATGCAAAAGGAACGACCAAAGTGGTGAATACAGATCTTAACCTTTACTCTACTTTGGGGAATGCCGCAATTATAGCGCAGGTAGACATGCGCAAAAAAAACCATGAATTGTATGATATAAAGGTCAATCTTCAGGGAGTGCAGGTTGGAAAAATTATTCAGAATAAAGATATTGGCGCTATTACCGCACAGATTGCTGCGAAAGGAGAAAGCTTTGATTTTAAAAATGCCAATGCCGACTTAAAAGGTCATGTTGCTTCCGCAGTCTACAAAGGATACCGCTATCAAAACATGAACCTTAACGGAAAAATTAATAAAGGAGCTTATCATGTGGTTTTGGATTCAAAAGACCCAAATGCCAGTTTACAGCTGACCGCTTCCGGAGTATATGATGAAAAAAATCCTACGGTAAAAGTAAATGGAGAAGTCATCAAACTGGATGTCAACAAGCTTGGTTTCTATGAAAAGCCAATGATTATTGCCGGAAAAATTGATGGAGATTTCACCAGCTTAGACCCGAATAACCTTAATGGTTATTTAAACCTTAAAGATTTTGCATTCTCTGATACAAAAGAGGTTTATCCGGTACAGGAAGTGAATCTGAAAGCTTCATCCACAACAGATTCTACGCAGATTATCTTCAATTCGCAGATCGCAGATGTAGAGCTGAAAGGTAAATATAAACTGACTCAGATTTTTGGTGCTTTAACGAAAACCGTGAATCAGTATTACCAGTTCCAGAAACCGGATAACAAACAGAAAACTGATCCGGGACAGCATTTTACCTTTACAGCAAAAATCAAAAATGATGATCTGATCAGAAAATTTGTGCCGGATCTGAAAGATTTTGAAACCATCAATCTTGTAGGAAATTATGATGCAGATTCTCAAAAAATTGAAATTGACGGGCAGATCCCAAGATTATTATATGGTGAAAACACCATTGAAAAAGGAGCTTTAAAAGTCACCAATGAAAATCAGGCATTGCAGTACAGCCTGAATGTTGCTGCATTGAAAAGTTCAAGTTTTTCTTTAAACAAAATAAACATTGATGGAGATGTTGCAGACAATACCATCCGATACAATGTCACCACAAAAGACGAGAAAGATACTACCCAGTTCCTGATTGCAGGAAATGCAAAATCGTTGAATGACATTACCGAAATATCTTTAAACCCGGACGGATTAAAGCTCAATTACACAGATTGGAACGTTGCTGAAAACAACAAAATCCAGATCAGTAATAAAGGAGTTCTGGCAGATAATTTTATCTTATCCAATGGAAACAGCCAAATTACCGTTCAGTCTGAAAGTAACAGTCCGAGCAGTCCTTTAAACATTTCGTTGAAAGATTTTAAAATAGAAACCATTACGGAACTGATTAAAAAAGATACTGTTCTGGCAAGAGGAACTATCAACGGAACGGCACAGCTTCGGGATGTGACGAAAAAAATGACTTTCAATTCTGATCTGAATATTTCAGACTTAATTGTGTACGGAAGCCCTGTCGGAAATCTTGCGGTAAAAGTAAATAATGCTTCACCGAATGTTTTAAATGCAGATATTGCCCTTTCCGGAAACAACAATGATGTAAAAATCCTGGGTGATTATAATACATCTTCCAGTACTTTTGATCTGAATATGGCCATTAACCAGCTTCAGATGAAGAGTATTCAAGGATTCTCCATGAATGCCATTACGAATACAGAAGGATATCTTTCAGGAAATTTAAAGATCACAGGAACAGCTGACCAACCTAATATTTTAGGAAAAGTAAAATTCAATGATGCCGGATTAGAAATTGCAAAAACAGGAAGTGATTTCAGACATCTGAGTGATGAAATAGATTTTACCAGCCGTGGAATTGAGTTTGATCAATTCAAAGTCAAAGATAAAGACGGAAATGCTCTGGTTGTAAACGGACAGGTTCTTACTCAAACTTACAGAGATTTTGCCTTTAATCTGGATGTGAATGCCAAGGACTTTAAAGTTGTCAATTCAGAAAAATCGAATGATGCGATGATGTATGGGATTCTGGCTATTGATGCCGGACTTCATATCCGCGGAAACCTGGATCTTCCAAAAGTAGACGGAAAACTGAAAGTAGCAGACAACACGGATTTCACTTTTGTGCTTCCTCAGTCTTCCCCATCTTTACAGGAGAGAGACGGTATTGTAGAATTTGTGGATCAGGATCAGGTTGTTTTAAATAAAACTATTAAAGCAGATTCTCTTAATGCGCAAAGCCGTATCAAAGGAATGGATGTAAGCGTCAATATTGAAGTAAGCAAAGAAGCCAAGCTTTCTATTATCATTGATAAAGTAAACGGTGATTTTGTAAAACTTCAGGGAGAAGCGGAACTTACAGGCGGAATTGATCCTTCAGGAAAAATGACATTGGTAGGAGTTTATCAGGTAGAAAAAGGAAGCTATGATCTTTCTGTAAGCTTGCTTAAACGTAAGTTTGATATTCAGAAAGGCAGTACCATCACCTGGACAGGTGAGCCTACGATGGCTCAAATGGATATTACGGCGGTCTATAAAACAGAAGCCGCTCCTATTGACCTTGTAGAGCAACAGGTAGGTACAGAAAATGGCGGAACTTCTCTCATGAATCAATTTAAACAGAGAATACCATTCAATGCTTTATTGAAAATGAAAGGTGAACTTTTGAAACCTCAGCTTACATTTGACATTACTACGGAAGAAAAAAACAATTCTATCTCTACGAATGTAAAAGATGTTGTCGATCAGAAACTTGCCCAGCTTAGAACTCAGGAGTCTGAAATGAATAAACAGGTATTTGCATTACTGCTACTGAACCGTTTTATTGGAGAAAACCCATTTGAAAGCAGTGCCGGAATGTCTGCAGAAACCATGGCCAGACAGAGTGTAAGTAAGATTCTTTCTCAGCAATTGAACAATCTCGCTTCCGGGCTGATTAAAGGAGTAGATCTTAATTTTGGTTTAGATTCTACAGAAGACTATTCCAGTGGAGAAAAAAACACAAGAACCGATCTGAATGTAGATATCAGTAAAAAATTATTAAACGATCGTCTGAAAGTAACCGTAGGAAGTAATTTCGGACTGGAAGGGCAGGCTCGTCAGAATGAAAACATGACGAATATTGCAGGTAACGTTTCTGTAGATTACAGCCTTTCCAAAGACGGAAGATATATGCTGCGTGCTTACCGTAAAGATGAATATCAGGTGGCTCTTCAGGGGCAGATCATAGAGACCGGAGTAGGATTCATTATTACATTGGATTATGACAAGTTCCGGGAGATTTTCCAGAAATCTAAAGAGAAGAAGCCGAAAAAAAATCAAAATAATCAGGTGGTAGAGTTTAAATAA	MLETSSHLKLKINTTKLLRRIAITFISILVFLTLLILSLRLPAVQNFIKDKLIVYLEKKIKTPVSLERVYIGFPNSLVMENLYLKGQDVDTLLAVKKLDVGLHMMKLLNSTADITSVNMEGARAHVVRKQDGKFNFDYIIDAFASTDKEENPSKPFIISLDKINLNDIGVTFNDQQSKNDIQLYFKSFDTRVKTFDLSKNNYAVNDINLDGLKLKLKQGLVEEVAKKVEKKVDSLNEKKAMNIGLRGIKLTHFDIDYGDENTKTFAKVIFKELSTKVNKLDLENNAYNVSNVFLSGADINANLYLPAQNANPKATKEPEVSKASDQDKAMKLLLGKLVLNDVKVNYNNTAIAPTKQGMDFNHLNFSKMNVEVRSFKMENNTFAGTVNTAEIKEGRGLDIQKFNTDFVYAEKEAYLKDLYLQTPKTILRDEIILNYNSIDQLSSNLGAVKISANIKDSKIGFSDILYLVPTLKNTVPFNKYPNAILNVNANVKGSVNDLFIQDLKVSGLDQLRVMASGKIKNAMNPDQLYYDLRIGEFSSGAKTIFNLVPKNTIPSNISLPSHFSIKGNAKGTTKVVNTDLNLYSTLGNAAIIAQVDMRKKNHELYDIKVNLQGVQVGKIIQNKDIGAITAQIAAKGESFDFKNANADLKGHVASAVYKGYRYQNMNLNGKINKGAYHVVLDSKDPNASLQLTASGVYDEKNPTVKVNGEVIKLDVNKLGFYEKPMIIAGKIDGDFTSLDPNNLNGYLNLKDFAFSDTKEVYPVQEVNLKASSTTDSTQIIFNSQIADVELKGKYKLTQIFGALTKTVNQYYQFQKPDNKQKTDPGQHFTFTAKIKNDDLIRKFVPDLKDFETINLVGNYDADSQKIEIDGQIPRLLYGENTIEKGALKVTNENQALQYSLNVAALKSSSFSLNKINIDGDVADNTIRYNVTTKDEKDTTQFLIAGNAKSLNDITEISLNPDGLKLNYTDWNVAENNKIQISNKGVLADNFILSNGNSQITVQSESNSPSSPLNISLKDFKIETITELIKKDTVLARGTINGTAQLRDVTKKMTFNSDLNISDLIVYGSPVGNLAVKVNNASPNVLNADIALSGNNNDVKILGDYNTSSSTFDLNMAINQLQMKSIQGFSMNAITNTEGYLSGNLKITGTADQPNILGKVKFNDAGLEIAKTGSDFRHLSDEIDFTSRGIEFDQFKVKDKDGNALVVNGQVLTQTYRDFAFNLDVNAKDFKVVNSEKSNDAMMYGILAIDAGLHIRGNLDLPKVDGKLKVADNTDFTFVLPQSSPSLQERDGIVEFVDQDQVVLNKTIKADSLNAQSRIKGMDVSVNIEVSKEAKLSIIIDKVNGDFVKLQGEAELTGGIDPSGKMTLVGVYQVEKGSYDLSVSLLKRKFDIQKGSTITWTGEPTMAQMDITAVYKTEAAPIDLVEQQVGTENGGTSLMNQFKQRIPFNALLKMKGELLKPQLTFDITTEEKNNSISTNVKDVVDQKLAQLRTQESEMNKQVFALLLLNRFIGENPFESSAGMSAETMARQSVSKILSQQLNNLASGLIKGVDLNFGLDSTEDYSSGEKNTRTDLNVDISKKLLNDRLKVTVGSNFGLEGQARQNENMTNIAGNVSVDYSLSKDGRYMLRAYRKDEYQVALQGQIIETGVGFIITLDYDKFREIFQKSKEKKPKKNQNNQVVEFK				NA	NA	NA	NA	NA
BMS003_01607	2328	bamA_2		Outer membrane protein assembly factor BamA	ATGAGTAATAAGTTCCATATATATTGTAAGTATCTGTTGGTTTCCGGAATGGCATCCACGGTAATCTCGTGCAGCAATACAAGGTTTTTGAAACAAGGCCAGATGCTGTACACAGGAGCCAAAGTAAAGATTGAAAACGATACGATTTCCAAAAAAGAAAAAAAAGATCTTCAGGCTGCACTGGAAGAAAATCTCACTCCTAAACCCAATTCTACATTTTTGGGAATGCGTCCCAAGCTGTATTTTTATAATATAGCCAAAGAACCGAAAAAAGATAAAGGTTTTAATTACTGGCTCAAATATAAAATAGGTGAAAAACCCGTTTTATTAGGAGATGTAGACCGTGAGTTCAATAAAGATATCATTGTAAATTATTCTGAAAATAAAGGCTATTTCAATGCAAGAGCTTCTTATGATACGGTTTCAAAAAATAAAAAAGCTCAGGTTATTTATACGGTAAGACCAGGTTCCAGATACCTGATTGATGGCGTAAAGTTCCAGAAAGATTCTACATTGGTCAATCAGGAAATCCAGGGTTTAACAAAAAGGACATTTCTTAAAAACGGAAAACCATTTGATCTGGATGTCATCAAAGCAGAAAGAGAAAGAATAGATAATGGTTTAAAAGAAAGAGGCTTCTATTACTTCCATCCTGATAATATTATCGTGCAGGCAGACAGTACGGTAAGCAAAAATCATAAGGTTGAGCTTAATGTAAAACTGAAAGACAATACTCCGGATTTAGCAACACAGCAATTCAGTATTAATAATGTTATTGTATTTCCCAATTACAACATTCAGGATGTAAAAGACGGAAAATATAGCATTCCGATGAATAAAGATTCTCTGTCCAAATATGCTTTTGATGATATTTATGTTATTGATCCGCAGCATAAATTCAAACCGAAAATTTTTGACAGAGCTTTATATTTCAAAAAAGGGGATCTTTACAACCGTTCCAATCATAATCTTACGTTGAACCGTTTGATCAGTTTGGGCGTTTTCAAATTTGTAAAAAATGAATTTGTGGTTTCGGATTCTTTAAGTCATAAATTTGATGCGTATTATTTATTAACTCCAAGACAAATCCAGTCACTTCGTCTGGAAGCGCTGGGAAGAACAAATTCCGCAAACTACGCAGGTAGTGAGCTTAACCTGAACTGGACCCACCGAAATTTCTTCAGAGGGGCAGAACAATTCAAAGCAGCGATCTTCGGAGCTTTTGATTTCCAGATGGGAGGTGCTCAGGATGCCAATAATATTTTCCGTGCAGGAGCGAATGCGCAGCTTTCTATCCCGAGAATTGTGGCGCCGTTCCGTTTCCATTCTTCCAGTGAATTTGTTCCGAGAACGAATATCACTTTGGGGTATGAATTCCAGAACAGAACAAAATATTACACCCTAAATAACTTCACCGGATCATTCGGATATCTGTGGAAAGAGAATGCCAGAAAAGAACATGAGCTGAAGGTGATTGACATTACATTGGTTTCTCCTGCAAATGTTACTGATGAATATAATAAAATATCTGCCGAAAATCCTGCGATGCAAAGAATTGTCCAAAGACAGTTAATTTTCGGTCCTACTTATTCATTCACCTACACCAACACCATGCTTCCAAAGACCAATACGGTTTATTATAAAGGAACGCTTGATCTTGCAGGAAATATTACAGGGTTGGTAACAGGAGCAGATGTAAAAAAAGATAAGGAAAAGAAAATATTTGGGATTCCTTTCAGCCAGTATGTAAAGATTGAAAATGATTTCAGATTCTATCATAAGTTCACTGAAAAATCTTCATTGGCAACGAGATTCATTGGAGGAATTGCCTATCCCTACGGAAATTCAGAGTTTATTCCTTTCTCCAAGCAGTTCTTCTCAGGAGGTAGTAACAGCATCAGGGCATTTCGTGCGAGAACATTAGGCCCGGGAAGTTTTGATCCGAGAACTATTAAGCAGGGAGCTTATTTTGATCAGTCCGGAGACATTAAACTGGAATTAAATGCGGAATACCGCGCCAATCTCTATAAATTTTTAAATGCTGCCGTGTTTGTAGATGCCGGAAATATATGGCTGCTTCACGACGATGATAAAAGACCGGGCGCTAAGTTTTCAAAAGACTTTTTAAATGAAATTGCGGTGGGAGCCGGAGTAGGTCTGAGACTGGATTTTTCTATCCTTATTTTAAGACTGGATCTTGCCATGCCACTGAGAGTTCCTTACTATCAGAAAGGAGACAGATGGGCCTTTGATAAAATTAATTTCGGAGACTCAAGCTGGAGAAAAGATAATCTAGTTCTGAATATTGCCATTGGATATCCTTTTTAA	MSNKFHIYCKYLLVSGMASTVISCSNTRFLKQGQMLYTGAKVKIENDTISKKEKKDLQAALEENLTPKPNSTFLGMRPKLYFYNIAKEPKKDKGFNYWLKYKIGEKPVLLGDVDREFNKDIIVNYSENKGYFNARASYDTVSKNKKAQVIYTVRPGSRYLIDGVKFQKDSTLVNQEIQGLTKRTFLKNGKPFDLDVIKAERERIDNGLKERGFYYFHPDNIIVQADSTVSKNHKVELNVKLKDNTPDLATQQFSINNVIVFPNYNIQDVKDGKYSIPMNKDSLSKYAFDDIYVIDPQHKFKPKIFDRALYFKKGDLYNRSNHNLTLNRLISLGVFKFVKNEFVVSDSLSHKFDAYYLLTPRQIQSLRLEALGRTNSANYAGSELNLNWTHRNFFRGAEQFKAAIFGAFDFQMGGAQDANNIFRAGANAQLSIPRIVAPFRFHSSSEFVPRTNITLGYEFQNRTKYYTLNNFTGSFGYLWKENARKEHELKVIDITLVSPANVTDEYNKISAENPAMQRIVQRQLIFGPTYSFTYTNTMLPKTNTVYYKGTLDLAGNITGLVTGADVKKDKEKKIFGIPFSQYVKIENDFRFYHKFTEKSSLATRFIGGIAYPYGNSEFIPFSKQFFSGGSNSIRAFRARTLGPGSFDPRTIKQGAYFDQSGDIKLELNAEYRANLYKFLNAAVFVDAGNIWLLHDDDKRPGAKFSKDFLNEIAVGAGVGLRLDFSILILRLDLAMPLRVPYYQKGDRWAFDKINFGDSSWRKDNLVLNIAIGYPF				NA	NA	NA	NA	NA
BMS003_01608	936			hypothetical protein	ATGATCAAAACTGCTAAATTTTTCTGGGAAGTTCTAAAAGATACGTTTACGGAATGGAACAATTCTTCTGCATCAAAAGATTCAGCAAGTCTTGCTTACTATGCCATCTTTTCCATACCGGGATTATTGATCATCATTATCTGGGTACTGGGGAATTTCTTTGGTGAAGAAGCTATCCGTGGGCAGATCAGCACACAGATCAGTGGTATTATGGGTCCGGACGTAGCTAAAAGTATCGAAGGAATGCTGGCCGGTGCTCTTATTGATAAAAAGAATATTTTTATGAAAGCGGTAGGAGTCGGATCATTGGTTTTTGGTTCTACCACCCTCTTCTTTCAGCTTCAGCATTCTTTAAATACCCTTTGGGAAGTAGAAGCAGCTCCCAAAAAGGCTTTACTTAAATTTTTACTGGACAGGGCCAATTCTTTAGGGATGATCCTTATCCTGGGATTTCTTCTAATGATTACCATGGTTTTATCTTCTTTAATCAGTTTGTTTAATACCATTATCACTCAATATTTTGGCTTTGAGACCTATATGTTGGTAGAAACAGTAAATTTTGCAGTAGGTTTTGGACTTGTGATGCTCTTATTTGCTTTAATGTTTAAAGTATTGCCTGATGTTTTGGTCAGCTGGAAACCGGTATGGAAAGGGGCATTTCTGACTACTGTTTTATTCACTCTCGGAAAGTTTTTATTAAGCCTTTATTTCAACCAGGTAAAACCTACTTCGGCATTTGGTGCTGCGGGAACCGTTATTCTGATTATGATGTGGATTAATTATTCCTGTATGCTGATATTCTTCGGAGCAGAATTTACCAAAGTTTATACTTACAAAAAAAGATATAAAGTAGTTCTTTCCAAACATGCACGATGGACACCTGCTAAACTATATGCGGATAGTCTGAAACAGATGAATGGGGAGGATAAGACGTAA	MIKTAKFFWEVLKDTFTEWNNSSASKDSASLAYYAIFSIPGLLIIIIWVLGNFFGEEAIRGQISTQISGIMGPDVAKSIEGMLAGALIDKKNIFMKAVGVGSLVFGSTTLFFQLQHSLNTLWEVEAAPKKALLKFLLDRANSLGMILILGFLLMITMVLSSLISLFNTIITQYFGFETYMLVETVNFAVGFGLVMLLFALMFKVLPDVLVSWKPVWKGAFLTTVLFTLGKFLLSLYFNQVKPTSAFGAAGTVILIMMWINYSCMLIFFGAEFTKVYTYKKRYKVVLSKHARWTPAKLYADSLKQMNGEDKT	PGPT0014525_4304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS003_01609	1758	argS	COG0018	Arginine--tRNA ligase	ATGAATATTAAAGATATAATAGAAGAAAAACTTTCGGAAGTGATTTTAAATGTATACCAGTTAAAAGACATTAAGCTGGAAGTTCAGGAAAACAAAACGGAATTTGAGGGCGATTTTACCATTGTCACTTTTCCGTTGGTAAAGCAGTTGAAAAAAAATCCTGAAAGTATCGGTGTTGAATTAGGTGAAGCTTTGACAGAGACGGATCTTTTTGAAAGCTTTAACGTAGTAAAAGGTTTCCTTAATGTAAAGGTGAAAAACCAATTGTTTATAGATAATTTCAGATCTGTAAGCAAGAATTTTTCTACTATAGAAAAGAAAAATGCTACCGTAATGGTAGAATATTCTTCACCGAATACCAATAAGCCACTGCACTTAGGACATATCAGAAATAATTTATTAGGATTCTCGGTAGCCCAGATCTTACAAGAAGCGGGGTATGACGTGATCAAAACTCAGATCATTAATGACAGAGGAATTCATATCTGTAAATCAATGTTGGCCTGGGAGAAATTCGGAAACGGAGCAACTCCTGAAACTACCAATACCAAAGGAGATAAATTTGTTGGAAACTATTATGTGGAATTTGACAAAAACTATAAAAAAGAAATTGCAGAGCTAGTAGAACAAGGTGTAGGAGAGGAGCAGGCTAAAAAAGATGCTCCTGTAATGAAGGAAGCTCAGAAAATGCTTTTAGACTGGGAAAACGGCGATGAAACGGTAAGAGCACTTTGGGCTGAAATGAATTCATGGGTTTACAAAGGATTCAATGAAACCTATAAAAGATTAGGTGTTGATTTTGACCAGGTTCAATATGAAAGCAATACGTATATTCTAGGAAAAGACCTTATCCAGGCTGGATTGGATAAAGGTGTTCTGTATCAGAAAGAAGACGGTTCTGTTTGGTGTGACCTTACAGATGAAGGGCTGGACCAGAAACTTTTATTACGTTCAGACGGAACATCTGTTTATATGACGCAGGATCTTGGAACGGCAGTGGAGCGTTTTAAGCAAAATAATATCCAGAAACTAATTTATACCGTAGGAAACGAGCAGGATTATCACTTCCAGGTTTTATTTAAAATCCTGAAAAAATTAGGATATGAATGGGCAGACCAGTTATTCCACCTTTCTTACGGAATGGTAGAGCTTCCTGAAGGTAAAATGAAATCCCGTGAAGGAACTGTAGTGGATGCGGATGACCTGATGCAGGAAATGTATGAAACGGCAAAATCTAAAGCTCAGGAGCTAGGAAAATTAGAGAGCCTTTCAGAAGAAGATAAAGAAGCATCTTATGAAACAGTAGGACTGGGAGCATTGAAATATTTCATGCTTAAAGTAGATCCTAAGAAAAAAATGCTTTTCAACCCTGCAGAAAGTATTGACTTCAACGGAAATACAGGTCCATTCATTCAATATACCTATGCCCGTATTCAGTCATTACTGTCTAAAGCAGGTACTTTACAGTCAGAAACTGCTGATATTGAATTAAATCAATCTGAAAAAGAATTGATTATGCAGCTGACCAACTTTAAAACTGTTGTAGCCAAATCAGCGGAAACCTTAAGTCCGGCTTTAGTAGCCAACTATGTATATGATCTTGTAAAAGCATACAACTCTTTCTATCAGAATAATCCGATTCTGAATCAGGAAGATGAAAACGTAAAACAATTCCGTTTAAATATCTCAGATATCACAGCAAAGACGATCAAAAAATCGTTGGAACTGCTTGGAATCGGAACCGTAAACAGAATGTAA	MNIKDIIEEKLSEVILNVYQLKDIKLEVQENKTEFEGDFTIVTFPLVKQLKKNPESIGVELGEALTETDLFESFNVVKGFLNVKVKNQLFIDNFRSVSKNFSTIEKKNATVMVEYSSPNTNKPLHLGHIRNNLLGFSVAQILQEAGYDVIKTQIINDRGIHICKSMLAWEKFGNGATPETTNTKGDKFVGNYYVEFDKNYKKEIAELVEQGVGEEQAKKDAPVMKEAQKMLLDWENGDETVRALWAEMNSWVYKGFNETYKRLGVDFDQVQYESNTYILGKDLIQAGLDKGVLYQKEDGSVWCDLTDEGLDQKLLLRSDGTSVYMTQDLGTAVERFKQNNIQKLIYTVGNEQDYHFQVLFKILKKLGYEWADQLFHLSYGMVELPEGKMKSREGTVVDADDLMQEMYETAKSKAQELGKLESLSEEDKEASYETVGLGALKYFMLKVDPKKKMLFNPAESIDFNGNTGPFIQYTYARIQSLLSKAGTLQSETADIELNQSEKELIMQLTNFKTVVAKSAETLSPALVANYVYDLVKAYNSFYQNNPILNQEDENVKQFRLNISDITAKTIKKSLELLGIGTVNRM				NA	NA	NA	NA	NA
BMS003_01610	1428			hypothetical protein	ATGAAAAAAACATTTTTTTTAATAATAGGATTAATGATAGCTTCTTTAAGCATCACATCATGTGAAAGAGATATAACATCTCTGAATATTGATCCGAAACATCCTACAGTTCTTCCTTCTGGGAATTTATTGGCAACGGGACAGTATCAGTCATTTTATTATATGTATACAGGAGGGGTAAATAATAATAATTACAGATTTTTTGTACAGCAATGGACTGAAACTACTTATACTGATGAAACGAATTATGATTTAATCACAAGGAATCAACCAAGAAATCACTACAATAGAATGTATGTATATTCATTGAATAACTTTCATCAGGCTATGGAAAACCTTCAGAAAGAAGGGATTACTGATGCTTCTGTTTATAATAACAAATGGGCAACACTTGAAATTTCCTCTATTTTTGTATGGGAAAATGTGGTAGACACTTTTGGAGATGTACCTTATTCTCAGGCATTACAGGCTGCTGACGGACAATTTGCTCCAAAGTATGATGATGCAAAAAGCATTTATATGAGCTTACTGTCCAGGCTGGACGCTGCAGTAACTAAGATAAATACTTCTTCTCAGGGATATTCTGAGGATTTGATTTATGGTGGTGACATGTATAAATGGAAAAAGTTTGCTAATTCAATAAAATTAAGATTAGCTATGAATTTGGCAGACGTAGATCCTGCCGTATCTAAAGCTGCTGCAGAAAGTGCAATTTCTTCAGGGGTTTTAGCAAGTAATTCAGATTCCTATTCCATGATTTTTTCAGGAGGAACGTTTACAAATCCAGTATTTGATGATCTTGTTGCATCAGGAAGAAATGATTTTGTTCCTTCAAATGTTGTAGTTGATTTTATGAATACGAATAATGACCCTAGAAGAGCAGCTTGGTTTACTACTGTTGGAGGTATATATAAAGGAGGGGTTTTTGGATCGCTTAACCCGTTTGGTAACTATTCGCATTTGAACTCTACTTTATTATCCAGCACAGCTCCTGCAAACTTACTAAGCTATGCTGAAGTATTATTTTTACAGTCCGAAGCTGCTGCAAGAGGATATAATGCAGGAAATACGGCTACAGCACTATATAATTTGGCAATTTCTGCATCAATGAGTGAGAGCGGTGTTTCCATTGCCGATGCAGCCACTTATATTGTAGCTAACCCATATAATGTTGCGAACTGGAAGACTTCTATAGGAAATCAGGCATGGATAGCTTTATTTAATAGTCCATTTGCTGCTTGGAATTTTACAAGAAGGCTGGATGCACCGGCTTTTGTTAATCCTCCTAACTCAAAAACGGAAGGCGTTCCGGTTAGAATGATTTACTCTGATCAAGAATATGTACTTAATAAAGCAAATGTAACAGCTGCAGCTACTAAAATAGGTGGAGACAAGGCTACTACAAAACTATTCTGGGATAAATTCTAA	MKKTFFLIIGLMIASLSITSCERDITSLNIDPKHPTVLPSGNLLATGQYQSFYYMYTGGVNNNNYRFFVQQWTETTYTDETNYDLITRNQPRNHYNRMYVYSLNNFHQAMENLQKEGITDASVYNNKWATLEISSIFVWENVVDTFGDVPYSQALQAADGQFAPKYDDAKSIYMSLLSRLDAAVTKINTSSQGYSEDLIYGGDMYKWKKFANSIKLRLAMNLADVDPAVSKAAAESAISSGVLASNSDSYSMIFSGGTFTNPVFDDLVASGRNDFVPSNVVVDFMNTNNDPRRAAWFTTVGGIYKGGVFGSLNPFGNYSHLNSTLLSSTAPANLLSYAEVLFLQSEAAARGYNAGNTATALYNLAISASMSESGVSIADAATYIVANPYNVANWKTSIGNQAWIALFNSPFAAWNFTRRLDAPAFVNPPNSKTEGVPVRMIYSDQEYVLNKANVTAAATKIGGDKATTKLFWDKF				NA	NA	NA	NA	NA
BMS003_01611	2988			TonB-dependent receptor P3	ATGAAGAAACTAACAATGAGTCTGATTGTTTTGGTGTTGTCTTCGTCTGTTGCTATTGTAAATGCCCAGCAGAAGAAAAACGATTCCGCTACACAGACAAAAGAAATTGAGGGGGTGGTTGTGACTGCACTGGGCATTAAAAGAGAGAAGAAGTCATTAGGATATGCCTCTCAGGAAATTAAAGCGGATAAGCTGACCGAAGGTACTGCCAAAACAGGCAATGTATCAGACCTATTATCCGGAAAAGCGGCAGGTGTTTTGGTAAATAGTAACGGGAACTTTGGAGGGTCTACAAACATTGTTATTCGTGGTATTAAGACTCTGCAAGGAAGTAATCCGTTAATAGTTATTGATGGATCTCCTGTAAATAACTCGTCTACTAACGGTGCGAATTTTGATCTGGGGAATGCATTGTCAGATATTAATCAGGAAGATATTGAATCAATAAATATTCTAAAGGGGGCTGCTGCATCTGCATTATACGGTGAGAGAGGTTTGAATGGGGTAATTGTAGTTACTACAAAAAGCGGAAAAGGCAAAGATGATGGATCCTGGGGAGTCACAATTAATTCAGGAGTACAGGCCGGGTTTATAGATAAATCTACTTTTCCTACCTATCAAAAACAATATGGAGCAGGTTATGATCCCAGCTTTTATTCAGGGACAGCTTCAGATGGCCTCGATTATGCTAATTTCTCTGAAGACGCATCTTGGGGACCTAAGTTTGACCCAAATCTTTTAGTATACCAATGGGACTCTTTTGATCCATCTTCCCCTAATTATGGGAAGGCAACCCCATGGGTTGCCGCTAAAAATGGTCCAATAAAGTTTTTTGATACTCCCGTAACTTATGCAAATACGCTAAGTTTAGAAAAAGGAACAAAAGCTTCAAATTTTACTTTGACCTATGATAATATGCTGTCTAATGGTCTGCTTCCTAATTCTGACTTAAAGAAAAATACTTTATCTGCAAAAATCAATTATGATTTTACCCCCAAGCTTCATGCAACAGTTTATTCTACCTTGACACTGCAAAATACGAAGGGGAGAAATGAAACAGGATATTCGGATAATATAGTTACAGGATTTAGACAATGGTGGCAAACTAATGTAGACGTTAAAGCTCTTGAAAGTGCCTATATTAATAATAATGATAGTAATTTCACATGGAATAGGGTTTCCGCAGATGAAGGGAAGCCTATATTTTGGAATAACCCTTATTTCCAAAGATATCAAAATTATGAATCAGACAGAAGGACAAGAAGTTTTAGTTACGCACAGGTAAAATATGATATCACAAGAAATATAGGATTAACAGGTAAAATATCTTATGATAGATCTAATGTTTTGATAGAAAATAGATTGGCTGTTGGTTCATTGGCTCAGGCATTTGGTGCTTCAGCGAAAGATGTCAGCTCTGGCTATGCAAGACAGGATATTGATAGAAATGAGGTAAACTATGACTTAATTGCTAATTACAAATTTGATATTACGCCTGATCTTAACGTTAGTGGAGTACTAGGGGGAAATGTTAGAAGGAATTATTACAATACCCTATATGCCTCTACAGAAGGAGGGCTAAATGTACCTGGGCTTTACTCCTTAGGAAATTCTAAAGCAGCTGTTTTAGCGCCAATAGAAAATGAATATACTACACAAACAAACAGTGCTTATGCAACAGCTTCTTTTGATTTTAAGAAGATGTTTTATTTAGATGCAACTTATAGAGTTGATGAGTCTTCAACTTTACCAAAAGGAAACAATGTATATGGTTATCCATCTATAACAGGATCTTTAATTTTATCGGAATTGGTGAAGCCTTCATTTCTTAATTTCTGGAAAGTGAGAGCAAATTATGCGGAAGTAGGAGGAACAGCTGACCCATATCTTTTAAATGCATCATATACTAGTGCTGGAATTTTTGGTGATACGGGAATTTTTGCCAGCCAGACAATTCAGCCAAATCAAAAATTGAAACCGCAAAGATCAAAAGAAGTAGAATTTGGTATGGAAGCTCAATTCTTCAAAAACAGACTTTCTTTTGATGTGGCTTATTATAAAACCAGAACATTTGATCAGATTATTTCTAACCTTCCTATTTCTTCAGGTGCAGGATTATTGGGAGCTTCTGTAAATGCCGGGCAGATTAATAATGAAGGTGTAGAAGTACAATTAGGACTTGTTCCAATAAAGTCTAATGATTTTACATGGAATATTGATGTAAACTGGGCGAAAAATAAAAATATAGTAGTAAGTCTGCTACATAATGAAACTACAGATGTTTCTAATATATTATTAAATAGTTTCCAGGGAGGAGTTTCATTAAATGCAAGAGAAGGGGAAGCATGGGGAACTTTAATAGGCTCTGATTATGTATATTTAGATGGCAAGCCTGTAATTGATCCTAATACGGGAAGATTCCTCAAACAGAATAACCAGATCATAGGTAATGCCACCCCAGATTGGACAGGTGGTGTTAGAAACTCATTGAGTTATAAAGGATTTACATTCAGTTTCCTAATTGATGTTAAACATGGAGGCGATGTATTTTCTCTAGATCAATATTACGGTTTGGCTACAGGTTTATATGCTGAAACTGCTGATTACAGAGAGTCAGGAACTGTTTGGGAAGGTGTAAACCCAAATGGACAAACTAATACTACAGTAACTGTTAATCCTTCTGCATTTGGAAGTATGGATGGGTATGCGCGTATGCCTGCAAAAAGATTTGTTTATGATGGGTCTTATGTTAAGTTAAGAGAAGCAAGTATAGGGTATACCATACCTAAATCTGTTTTGGCAGGAACATTTATCAATATGGCAAAAATTTCTATTGTAGGCCGTAATCTTTGGATTATCCATAAAAATCTTCCTTATGCTGACCCTGAAGCAATGGTTGGGGGAAGCTCTATCAGATCTTATGGCTACTCTACAGGGACACTGCCTACAACAAGAAATATAGGAATTGATGTAACATTCAAATTTTAA	MKKLTMSLIVLVLSSSVAIVNAQQKKNDSATQTKEIEGVVVTALGIKREKKSLGYASQEIKADKLTEGTAKTGNVSDLLSGKAAGVLVNSNGNFGGSTNIVIRGIKTLQGSNPLIVIDGSPVNNSSTNGANFDLGNALSDINQEDIESINILKGAAASALYGERGLNGVIVVTTKSGKGKDDGSWGVTINSGVQAGFIDKSTFPTYQKQYGAGYDPSFYSGTASDGLDYANFSEDASWGPKFDPNLLVYQWDSFDPSSPNYGKATPWVAAKNGPIKFFDTPVTYANTLSLEKGTKASNFTLTYDNMLSNGLLPNSDLKKNTLSAKINYDFTPKLHATVYSTLTLQNTKGRNETGYSDNIVTGFRQWWQTNVDVKALESAYINNNDSNFTWNRVSADEGKPIFWNNPYFQRYQNYESDRRTRSFSYAQVKYDITRNIGLTGKISYDRSNVLIENRLAVGSLAQAFGASAKDVSSGYARQDIDRNEVNYDLIANYKFDITPDLNVSGVLGGNVRRNYYNTLYASTEGGLNVPGLYSLGNSKAAVLAPIENEYTTQTNSAYATASFDFKKMFYLDATYRVDESSTLPKGNNVYGYPSITGSLILSELVKPSFLNFWKVRANYAEVGGTADPYLLNASYTSAGIFGDTGIFASQTIQPNQKLKPQRSKEVEFGMEAQFFKNRLSFDVAYYKTRTFDQIISNLPISSGAGLLGASVNAGQINNEGVEVQLGLVPIKSNDFTWNIDVNWAKNKNIVVSLLHNETTDVSNILLNSFQGGVSLNAREGEAWGTLIGSDYVYLDGKPVIDPNTGRFLKQNNQIIGNATPDWTGGVRNSLSYKGFTFSFLIDVKHGGDVFSLDQYYGLATGLYAETADYRESGTVWEGVNPNGQTNTTVTVNPSAFGSMDGYARMPAKRFVYDGSYVKLREASIGYTIPKSVLAGTFINMAKISIVGRNLWIIHKNLPYADPEAMVGGSSIRSYGYSTGTLPTTRNIGIDVTFKF				NA	NA	NA	NA	NA
BMS003_01612	447			hypothetical protein	ATGAAGTTTGTGATCGGGCTTATTGCCATAATGGGAGTTGTTTCTTGCAGCAATGACGACGACCGTACAGTTGTAAATGAGAATGTAAGTATTGATGGAACCTGGAAGCCCTATAAGTATGAGTTTAAAGGTAAAGAAATCATGTTAAGTGATTGTGAGAAAAAAGGACTAATATTTATAAATCCAGATTTTTCAGGATCTTATGAAAGGTATGATGTATCTTCTTCCGGAAGCTGTAATCTGTTTGATTCTTTTGGAGGGAAATGGACTTTTGATAAAATGTATCAGACATTAACTCTTACCTATACCGAAGCGGGAGTCTCCAAGACATTGAAAAAAGAAATTGATTCCTATTCCAATACCGAGTTAAGAATTAATGACAACAGTAAAAACTTGGATGGTACACCTGGAAATGACGACGCTGTACTCATTTTCAGAAAAGAATAA	MKFVIGLIAIMGVVSCSNDDDRTVVNENVSIDGTWKPYKYEFKGKEIMLSDCEKKGLIFINPDFSGSYERYDVSSSGSCNLFDSFGGKWTFDKMYQTLTLTYTEAGVSKTLKKEIDSYSNTELRINDNSKNLDGTPGNDDAVLIFRKE				NA	NA	NA	NA	NA
BMS003_01613	1494			hypothetical protein	ATGAAAAAGATACTTTTAATATTAAGCCTAATTTCTTTAACGGTGGTCACTACTTCTTGTGAACGTGACATCACATCTCTGAACGAAGACCCTAAGCACCCGTCAGTAGTGCCGTCAGGATTATTAGTAGCAAGTGCAGAGCAGGAATTAATATCACAATTATTAACACCTAATGTTAATAATAATATTTCACGGTTTTTTACTCAGCAATGGGCACAGACTACCTATATCGACGAATCAAACTATGATATGGTTACAAGACCTATCCCAAGAAATCATTATAACAGATTAATGGCATCCAGTTCGGCTATTATTCATTCGCCAGGGGTTCTCTCTGCTCTTAGAGATGCAAAACAATTTCTTCAGAATGAAGGAATGAGCGCTGCAAAAAAAGCTAATAATGAAGCTATTATTGAATTGATTAGCGTATATGCATGGGCAAATTTGGTTGATACCTATGGGGACATTCCTTATTTTGGAGCTTTAAAAGCTGTTCCGGGAAATTCAGGGCCTTCAGAAATTCCTTATGACGATGCAAAAACAATTTATTTGGATCTGATCAAAAGAATTGATGCTGCTACAGCAATGATCAATACTAGTGAAAGTGGTTATACAGATGATTTGTTCTATAAAGGGAATATGGCTAATTGGAAAAAAATGGGAAACTCTTTAAAATTCAAATTAGGAGTTACTCTTTCAGATGTTGATCCTGCATTAGCAAAAGCTACTGCTGAGGCTGCCTATACCGCAGGTTTATTCGAAGGTAAAGATGATAACTTTGGATTAACAGCTTTTCCATCAGGATTATTTGCTAACCCTATTTATCAGGAGGTAGTGCAATCTGGTAGAAATGACTTTGTTCCATCAGAAATGCTAGTAAACTATATGAACTCTACTTCAGACCCTAGAAGAGGAAAATGGTTTACTCAAGTAGGTGGAGCCTATGTAGGAGGGGTTTATGGATCTGGAAACTCGTTTGGAGCATATTCACATATGACATCTCCAAAACCTAATGATGTGGGAGAGGATGGTTACATGCTTATTGCAGAGAATGCCCAAGGATTCTTGTTAGATTATTCAGAGATTTCATTCTTGAGAGCTGAGGCTGCAGCACGTGGCTTTAGTGTAGGAGGAACAGCTGCGGGGCTGTATGGAGAAGCTATCACTGCCTCCATGACAGAATATGGGATTGCTCCTGCATCTGCAGCTACATTCATCGCTGCAAATCCTTATGATGCATCAAACTGGAGAAAATCTATCGGTTTCCAGGCTTGGGTTGCAATGTTTAATAAAGGATTCCAGGCATGGAATTTTGCAAGAAGATTAAACTACCCTGTATTTGAAAATCCGGAAGATTCTTCAGTAGAAGCTGTTCCGGTAAGAATGAAGTATTCTGATCAGGAATATTTGCTCAACAAAACTAATGTTGAAAAAGCTGCTGCAAAAATTGGAGGAGATAAAGTATCAACAAAAGTTTTCTGGGACATAAACTAA	MKKILLILSLISLTVVTTSCERDITSLNEDPKHPSVVPSGLLVASAEQELISQLLTPNVNNNISRFFTQQWAQTTYIDESNYDMVTRPIPRNHYNRLMASSSAIIHSPGVLSALRDAKQFLQNEGMSAAKKANNEAIIELISVYAWANLVDTYGDIPYFGALKAVPGNSGPSEIPYDDAKTIYLDLIKRIDAATAMINTSESGYTDDLFYKGNMANWKKMGNSLKFKLGVTLSDVDPALAKATAEAAYTAGLFEGKDDNFGLTAFPSGLFANPIYQEVVQSGRNDFVPSEMLVNYMNSTSDPRRGKWFTQVGGAYVGGVYGSGNSFGAYSHMTSPKPNDVGEDGYMLIAENAQGFLLDYSEISFLRAEAAARGFSVGGTAAGLYGEAITASMTEYGIAPASAATFIAANPYDASNWRKSIGFQAWVAMFNKGFQAWNFARRLNYPVFENPEDSSVEAVPVRMKYSDQEYLLNKTNVEKAAAKIGGDKVSTKVFWDIN				NA	NA	NA	NA	NA
BMS003_01614	2994			TonB-dependent receptor P26	ATGAAGAAACTAACAGCAAGTCTTCTTGTTTTAGTATTATCTTCTTCTATAGCTGTTGCAAATGCTCAGCAAAAGAATGATACTGTTAAAACAAAAGAAATTGAGGGGGTGGTTGTAACCGCACTCGGGATTAAAAGAGAGAAAAAATCTCTTGGTTATGCTTCTGAAGAAGTTAAAGCTGCAGAATTAACCGGTGGTACTACCAATACCGGTAACGTAGCATCTCTTCTTTCAGGTAAGGTGGCCGGACTACAGGTAAATACAAATAACAACTTTGGCGGATCTGCAAACCTTTTGATCAGAGGATACAAATCTCTTTCAGGAGGGTCTCCACTTATTGTAATTGATGGATCCCCTGTGAATAATGGAAGTGTTACAGGAAGTGTTTTTGATTATGGAAACTTCTTATCAGATATCAACCAGAATGATATTGAAAGTATAAATGTTTTAAAAGGAGCTGCAGCTTCTGCTTTATACGGAGAAAGAGGAAGTGATGGTGTAATTTTGATTGTTACTAAAAACGGACGTGGAAAACAAGACGGCAGTTGGGGAGTAACATTGAACTCAAACATCAATGTAGGTTTTATTGATAAATCTACTTTCCCTAAATACCAGTCAAGATATGGAGCCGGTTATGGTCCTCTGTATGGAAACGATGGTGAGGAATATTTCAACTATGATCCAGACACTGGAGAGTTTCAGGTGCCATTTACTGAAGATGCATCTTATGGAGCTGAGTTCAACCCTAACTTATTAGTTCGTCAATGGTATTCTTATGATCCAACCTCCCCTTATTATGGGATGGCAACACCTTGGGTTGCAGCTAAAAATGGACCGATTAAATTCTTTGAAACTCCGGTAACTTATGTTAACTCAATTTCCTTAGAGAAAGGAAATAAATCATCGAATATATCTTTGTCTTACTCAAATATGCTTTCCAATGGGTTATTACCAAATTCAGATTTGAGAAAAAATAACCTAACAGCAAAGTTCAGTTATGACTTTACAGACAAACTACATGCCACAGTATTCTCAACTTTAACAATTCAGGATACGAAAGGTAGAAATGAAACGGGATATTCCGATAATATTGTGACTGGTTTCAGACAGTGGTGGCAGACGAATGTCGATATTTATGAATTAAGAGATGCTTATGCCAGAACGAATAACAGTAATAATACTTGGAACAGAACTTCTGGTGAAAATGGAACTCCCGCATATTGGAATAACCCATATTTCCAGAGATATAATAACTATCAAACGGACTCCAGAACAAGAACATTCAGTTATGCTCAGTTGAAGTACGATGTTTCTAGAAATTTCGGGATTACAGGGAAATTATCTTATGATAACATGCAAATGCTGATTGAAGAGAGATTGGCTAATGGCTCGCTACCGCAGGCTTTTGGTGCTTCAGGAAATAATGTAACGTCAGGATATTCCCGTCAGGATGTAAGAACTTCTGAAACCAATTTTGATTTATTTGCTAATTATAAGTTCGATATCATAGAAGATTTAAATGTTAGTGGTATCGTAGGAGGGAATGTAAGAAGAAACCTAAGTGATGTAGTATATGCAAGTACAGAAGGTGGTCTTGCAACTCCAGGATTATATGCAATCTCCAACTCTGCAAGTCCAATCATCCCGCCGGATGAAAACTATGCGAAATGGCTTACATCCAGTTTATATGCAACTGCTTCTTTCGGATACAAGAATTTATTATTTGTAGATGGAACATATAGAGTAGACAGAAGTTCAAACCTTCCAAAAGCTAATAATACTTATGATTACTATTCTGCAACAGGATCTTTAATTCTTTCAGAATTATGGAAACAAAAATGGCTAAGCTTCTGGAAAGTAAGAGCCAATTATGCAGAAGTAGGTTCCTCAACAGTGAATTATCAGCTAAATAATACCTACAGAGTACGAGGAGGATTTGGAAGTACGGGATTGGTAGATCAGTCATACTTCTTAGCGAATCCAGATCTTAAACCGCAAAGATCAAAAGAAGTGGAATTCGGTATGGAAGCTCAATTCTTAAAAAACAGATTAGGCTTTGATATAGCCGTTTATAAAACACGTACCCTTGATCAAATCATCAATCTTCCGGTTTCTTCAGCTACCGGATATAGAACATTCCTTGTCAATGCGGGACAGATTAATAACAAAGGTATTGAAGTTCAGTTAAATGGTACGCCAATTAAAAACTCAAATTTTAGTTGGGATATTAATGTCAACTGGTCTAAAAACGAAAACGAAGTAGTTTCTCTATATGGTGATTCTCAAAATTATTTATTAGCACAATATCAAGGAGGAGTTTCTTTAAATGCAAGAGTTGGTGAAGCATTTGGAGCTTTGGTAGGTTCAGATTATGTTTATAATGATAATGGAGAGCGTGTAGTAGATCCTGCTAACGGTAGATATTTAAGAAATCCAAATCAGGTAATCGGTAATATTACGCCGGACTGGATTGGCGGTATAAGAAACAGCTTTACTTATAAAGGGGTTTCTGTTAGTTTCCTGATTGATATCAAACATGGTGGAGATGTATTCTCAACCGATATGTATTATGGTCTTGCTACCGGTTTATATGAAGAAACAGCTGTAGGTGATTACAGAACAGCCGGGGTTATTAATCCTGGTGTAAATCCTAACGGACAGGTAAATACTACTCCTACAAGTTCACCTGATATTTTTGGTAACGTAGACGGATATAGAAGAATGCCAAATAGCAGATTTGTATATGATGCTTCGTATGTCAAGTTGAGAGAAGCCAGTATTGGGTACAGTCTTCCAAAATCAATTCTTGCCAATACTTCTATACAGGAGGCTAAAATTTCTTTAGTTGGAAGAAACCTTTGGATTATCCACAAAAATTTACCTTACGCAGATCCTGAAGCAGGAACAGGAAACGGGTTGGATTCAAAAGGAAACTCTATTGGGGTTCTTCCTACAACACGTGATATCGGTATCAATGTAACCCTAAAATTCTAA	MKKLTASLLVLVLSSSIAVANAQQKNDTVKTKEIEGVVVTALGIKREKKSLGYASEEVKAAELTGGTTNTGNVASLLSGKVAGLQVNTNNNFGGSANLLIRGYKSLSGGSPLIVIDGSPVNNGSVTGSVFDYGNFLSDINQNDIESINVLKGAAASALYGERGSDGVILIVTKNGRGKQDGSWGVTLNSNINVGFIDKSTFPKYQSRYGAGYGPLYGNDGEEYFNYDPDTGEFQVPFTEDASYGAEFNPNLLVRQWYSYDPTSPYYGMATPWVAAKNGPIKFFETPVTYVNSISLEKGNKSSNISLSYSNMLSNGLLPNSDLRKNNLTAKFSYDFTDKLHATVFSTLTIQDTKGRNETGYSDNIVTGFRQWWQTNVDIYELRDAYARTNNSNNTWNRTSGENGTPAYWNNPYFQRYNNYQTDSRTRTFSYAQLKYDVSRNFGITGKLSYDNMQMLIEERLANGSLPQAFGASGNNVTSGYSRQDVRTSETNFDLFANYKFDIIEDLNVSGIVGGNVRRNLSDVVYASTEGGLATPGLYAISNSASPIIPPDENYAKWLTSSLYATASFGYKNLLFVDGTYRVDRSSNLPKANNTYDYYSATGSLILSELWKQKWLSFWKVRANYAEVGSSTVNYQLNNTYRVRGGFGSTGLVDQSYFLANPDLKPQRSKEVEFGMEAQFLKNRLGFDIAVYKTRTLDQIINLPVSSATGYRTFLVNAGQINNKGIEVQLNGTPIKNSNFSWDINVNWSKNENEVVSLYGDSQNYLLAQYQGGVSLNARVGEAFGALVGSDYVYNDNGERVVDPANGRYLRNPNQVIGNITPDWIGGIRNSFTYKGVSVSFLIDIKHGGDVFSTDMYYGLATGLYEETAVGDYRTAGVINPGVNPNGQVNTTPTSSPDIFGNVDGYRRMPNSRFVYDASYVKLREASIGYSLPKSILANTSIQEAKISLVGRNLWIIHKNLPYADPEAGTGNGLDSKGNSIGVLPTTRDIGINVTLKF				NA	NA	NA	NA	NA
BMS003_01615	585	rnhB	COG0164	Ribonuclease HII	ATGGAGTTAATAAAAAACTGGTCAAACCATTATATCGAAGCCGGATGCGATGAAGTAGGAAGAGGATGTTTAAGCGGACCTGTAGTAGCAGCAGCAGTAATTTTAGATGATAACTTTCAGCAAAATCTGATTAATGACTCAAAAAAATTAACCTTCAAAACACGCATGGAGCTGGACAGCTACATCAAAGATAATGTGAAAAATTATGCCATAGCAGAGCTTCCGCCTTCTTTTATTGATGAGCATAACATTCTTAATGCTAGTATTCATGCAATGCACCGTGCTCTGGATCAACTAACAATAACACCTGAACTTATTTTAGTAGATGGCAATAAGTTTCACCCCTATAACTATATTCCTCATCAATGCATCATTAAAGGAGACTCCAAGGTTCTATCTATTGCTGCAGCCTCAATTCTTGCAAAGAACTACAGAGATACATTAATGATTCAACTGCATGAAGAATTTCCGGAGTATGGCTGGGATACCAATTTCGGCTATGCCACAAAAAAACATCAGGAAGCACTTATTAAGTTCGGACCTACCATCCATCACAGACAATCATTTAGATTGAAATATGATTAA	MELIKNWSNHYIEAGCDEVGRGCLSGPVVAAAVILDDNFQQNLINDSKKLTFKTRMELDSYIKDNVKNYAIAELPPSFIDEHNILNASIHAMHRALDQLTITPELILVDGNKFHPYNYIPHQCIIKGDSKVLSIAAASILAKNYRDTLMIQLHEEFPEYGWDTNFGYATKKHQEALIKFGPTIHHRQSFRLKYD				NA	NA	NA	NA	NA
BMS003_01616	1800	yidC		Membrane protein insertase YidC	ATGCAACAAAACAACGGAATCGATAAGAAACAAATGATTAGTTTCGCGGTTTTATGCCTGGTTCTCTTCGGTTTTATGTTCTATTTCCAGAACAAACAAATGAAAGAAGAGGAGTTAAAAGCTCAGCAGCAGAAAACGGAACAGGTAAAAAATGCCGTAAAACAAACTCAGGCAAACAATATCAATCCAAATGTAACTCCTAATGCAATCCAGACTGCAAGTCTTGGGAATAATGAATTGAAACTTGAATTTTCAAGCTTAGGAGGGCAGGTTTCCAAAGTAGAGCTTTTAAAATATAAAGCCTACAATCACAAAACAGACAATGCAGATCAGCCCCTTTATCTGATCACTAAAAATAACTCAAACTACGGTTTTCAGTTTAAAGACAAAACAGGAAAGGTTATCAATACTAAAGATTTAGTTTTCTCACCTGCTGTTAATGGAAATGCCGTAACCTTAACTGCGGATTATAATGGCGCTGTTATTCAGTTTATTTACACATTACTTCCTAAATATACTCTTGATTTCAAAGTAAGAACTCAGGGACTTTCTAAAATTACTTCTGATAACAAAGCAGATTTTATCTGGGATTATAATGTAAGAAACTTAGAAAAAGGTAGAGCTCAGGAACAGTCTCATTCAGAATTTTCTTATGCTTTCAATAATTATAAAGACTATGATTATGATGGAAGAACAACCATGGAAGAAGAGAAAGAAACTCTTAACTGGATTGGGGTAAAACAGCAGTTTTTCTCTTCTGTAATAGAAGCTAAGAACGGATTTACCCAAAGCAAAGGAAACCAGGAAACTGTTGAAGAAGGAGAGTATTTGAAGAAATTCAACTACGAAGGTTTTGTTCAGATGACCGGAAGTGAGCTAAACCAGGATTTTACATGGTATTTCATGCCTTTGGATTTGCCATTGCTTAAATCTTATGACAAGAACTTTGATGAAATCCTTCCGCTAGGTTGGTCATTCATTGGAGCAATGAACCGCTATTTCTTCATGTGGTTATACAGTATTATTGCTGCTTGGGGGTTATCTGCAGGTTGGGTTATTTTTGTCATGACGATCATTGTAAAACTGATCTTATCACCTATTATGTATAAGCAGCACAAATTAAGTGCAATGATGAAGGTGATCCGTCCGGAAATTGATGAGGTAAATGCTAAATTTAAGGATGCTGATCCTATGAAGAAGCAGCAGGCAACGATGGAAGTTTACAGAAAAGCAGGAGTGAATCAGATGGCAGGATGCTTACCTGCATTGGTTCAGATTCCGATTTTCTATGCCTTATTCCGTTTCTTCCCGAACTTTATCGATCTTAGAGGTCAGGGGTTCTGGTTTGCAAAAGACTTAACGGCTTATGATGATTTGATTAAGCTTCCGTTTAAAGTTCCTTTCCTTGGAGATCACTTAAGTATTTTTGCATTAGCCTGTACCATTGTTATTTTGATCTATACGGTAATGACTTCTGGAAATATGCAGCAGCCTCAGCAGGAAGGAATGCCAAATATGAAAGTATTAATGTACATCTTCCCGGTTACATTCTTATTTTTCCTTAATACTTCCGCTTCAGGTCTTTCATGGTATTATTTTGTATCGAATGCTATTAATATCTTAATCATCCTTGTTATTAAGTACGTGATTCTGGATGAAAAGAAAATTCATGCTCAGATTCAGTCTAATAAGGAAAAACCGAAAGCAGAAGGTAAGTTCCAGAAAAGAATGAGAGAGATGATGGAGAAAGCTCAGGAACAGCAAAAAGCTCAGGAGCAGCAGAGAAATAAAAAGAAATAA	MQQNNGIDKKQMISFAVLCLVLFGFMFYFQNKQMKEEELKAQQQKTEQVKNAVKQTQANNINPNVTPNAIQTASLGNNELKLEFSSLGGQVSKVELLKYKAYNHKTDNADQPLYLITKNNSNYGFQFKDKTGKVINTKDLVFSPAVNGNAVTLTADYNGAVIQFIYTLLPKYTLDFKVRTQGLSKITSDNKADFIWDYNVRNLEKGRAQEQSHSEFSYAFNNYKDYDYDGRTTMEEEKETLNWIGVKQQFFSSVIEAKNGFTQSKGNQETVEEGEYLKKFNYEGFVQMTGSELNQDFTWYFMPLDLPLLKSYDKNFDEILPLGWSFIGAMNRYFFMWLYSIIAAWGLSAGWVIFVMTIIVKLILSPIMYKQHKLSAMMKVIRPEIDEVNAKFKDADPMKKQQATMEVYRKAGVNQMAGCLPALVQIPIFYALFRFFPNFIDLRGQGFWFAKDLTAYDDLIKLPFKVPFLGDHLSIFALACTIVILIYTVMTSGNMQQPQQEGMPNMKVLMYIFPVTFLFFLNTSASGLSWYYFVSNAINILIILVIKYVILDEKKIHAQIQSNKEKPKAEGKFQKRMREMMEKAQEQQKAQEQQRNKKK	PGPT0024530_859	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
BMS003_01617	1608	pyrG		CTP synthase	ATGAGTAAAAAGAATACAAAGTACATCTTTGTGACAGGAGGTGTAACTTCATCTTTGGGAAAGGGAATCGTTTCTGCTTCTCTGGGACTTCTGCTAAAATCACGCGGCTTTAATGTAACGATCCAAAAATTAGATCCTTATATCAATATCGACCCGGGAACTTTGAATCCTTACGAGCACGGAGAGTGTTATGTGACTGAAGATGGTGCGGAGACGGATCTGGATTTAGGCCACTATGAGCGTTATCTTGATGCTCCTACATCCCAAAATAACAACGTTACTACAGGAAAAATCTACCAGACTGTAATTGAAAAAGAAAGAAAAGGAGATTTCCTTGGAAAAACAGTTCAGGTAATTCCTCATATTACTAACGAGATCAAACGTAGAATTAAAATTCTTTCAAAACAGAACTACGATATCATCATTACGGAGATCGGAGGAACTGTGGGGGATATAGAATCTTTACCATACATTGAAACTGTACGTCAGCTGAAGTGGGAACTGGGAGAGCGTAATTCTATGGTGATTCACCTTACTTTACTGCCTTATCTGGCTTCCAGTGGAGAATTAAAAACAAAACCATCCCAACACTCCGTTCGTCAGTTGATGGAAAGCGGGATCATGGCTGATGTTTTAGTGTGCAGAACAGAGCATAAAATTCCTAAAGATCAGAGAGCAAAGCTGGCTCAGTTCTGTAACGTTCCTTTGGATAACGTTATTGAATGTAAAGATCTTGAAACAATCTATGAAGTTCCAATGTATCTTCAGAAGCAGAACTTCGATGATGTAGTACTCAAAGAGCTGGATCTGAAAAGTGATAAAGACGCAGATCTTAAAGACTGGAAAAGTTTCCTTAAAAAATTCCAGAATCCTAAGAAAACAGTTGAAATTGCATTGGTAGGAAAATATGTTTCCCTTCAGGATTCTTATATTTCTATTGCCGAAGCATTCAAGCATGCAGGAGCAGACCTTGAAACTGAAGTAAAGGTAAGATGGGTATACAGTGGAGATATTACAGAAGAAAATATCAAAGATACTCTGAAAGGTGTGAATGGTATTCTTGTAGCTCCAGGTTTCGGAGACAGAGGAATCGAAGGAAAAGTTCTTACGGCAAAATACGCAAGAGAAAATAAAATTCCAATGTTGGGAATCTGTTTAGGAATGCAGATTATGACGATTGAATTTGCCAGAAATGTTTTAGGACATACAAAAGCCAATTCAATGGAATTTGATACTGCAACTCCGGATCCGGTAATTTCTTTGATGGAAGAACAGAAAAATGTAGTAGATAAAGGAGGAACAATGCGTCTTGGAGCTTGGAAATGTTCTTTGAAAAACGGATCTGAATTATACAACATCTACGAAACCAAAAATATTTCTGAAAGACACCGTCACCGTTATGAATTCAACAGTGATTATCTTCAGGAGTTTGAAAAAAATGGTTTCCTCGCTACAGGAACCAACCCTGAAACAGGTTTGGTAGAAGCCCTTGAACTTCCGGATCACCCATTCTATGTGGGAGTTCAGTATCACCCGGAATACAAGAGTACAGTAGCTACACCGCATCCTTTATTCAGAGCTTTCATCAAAGCTTGCGAAAAGAAATAA	MSKKNTKYIFVTGGVTSSLGKGIVSASLGLLLKSRGFNVTIQKLDPYINIDPGTLNPYEHGECYVTEDGAETDLDLGHYERYLDAPTSQNNNVTTGKIYQTVIEKERKGDFLGKTVQVIPHITNEIKRRIKILSKQNYDIIITEIGGTVGDIESLPYIETVRQLKWELGERNSMVIHLTLLPYLASSGELKTKPSQHSVRQLMESGIMADVLVCRTEHKIPKDQRAKLAQFCNVPLDNVIECKDLETIYEVPMYLQKQNFDDVVLKELDLKSDKDADLKDWKSFLKKFQNPKKTVEIALVGKYVSLQDSYISIAEAFKHAGADLETEVKVRWVYSGDITEENIKDTLKGVNGILVAPGFGDRGIEGKVLTAKYARENKIPMLGICLGMQIMTIEFARNVLGHTKANSMEFDTATPDPVISLMEEQKNVVDKGGTMRLGAWKCSLKNGSELYNIYETKNISERHRHRYEFNSDYLQEFEKNGFLATGTNPETGLVEALELPDHPFYVGVQYHPEYKSTVATPHPLFRAFIKACEKK	PGPT0021215_4944	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS003_01618	570			hypothetical protein	ATGAAAAAAGTATTTTTATCTTTTGTGTTTGTGCTTGTAAGTGTTGTTACTTTTGCACAGGGTACCTGGGACGTAGATCAGATGCATTCTTCTGTTAACTTCAATATTAAGCATATGGGGATTAGCTTTGTACAGGGAAGGTTTGATAAGTTTGACGGAAGAGCAGCTACCAGTGGTGCTAATCTGGATAATGCAGATGTAAGTTTTTCTGTAAGTGTTGCTTCAATTAATACAGGTGTAGATGTAAGGGACAGACATCTTATAGGTGAAGATTTTTTTGATGTGGCGAAACATCCGATCATTGAATTTAAAAGTTCTTCCGTTACAAAAGATAAGAACAACAATTATATCGTTAAAGGGAAACTGACAATGAAAGGAGTGGAGAAAGAAATCTCTGCACCTGTCATCTTCGGTGGTATTACGAAGAATAAGGAAGGAAAAGAAATTATGGGAATTCAGACAAAATTTACAGTAAACCGCCTGGATTATGGAATCAAATATGACCCGACAGCAGCCGGCATCGCAAAAGATGTTGAAGTAACAGCTTATTTTGAGCTGGTAAAGCAATAA	MKKVFLSFVFVLVSVVTFAQGTWDVDQMHSSVNFNIKHMGISFVQGRFDKFDGRAATSGANLDNADVSFSVSVASINTGVDVRDRHLIGEDFFDVAKHPIIEFKSSSVTKDKNNNYIVKGKLTMKGVEKEISAPVIFGGITKNKEGKEIMGIQTKFTVNRLDYGIKYDPTAAGIAKDVEVTAYFELVKQ				NA	NA	NA	NA	NA
BMS003_01619	1350	radA	COG1066	DNA repair protein RadA	ATGGCAAAACTGAAAACAGCATATTTCTGTCAAAACTGTGGATCTCAATACTCCCAATGGATGGGACAATGCAAGAACTGCGGACAATGGAATACTTTAGTAGAAGAAGTGGTAGAAAAGCCTTCTCACAAAACACCTCCCTTCTCAAAAACCAAGCAGCATGTGATCAATATTGTTGAAGTGGAAACAAGTGAGGAACCGAGAATAAAAACTCCTTCCGAAGAGCTGAACCGTGTTTTAGGAGGCGGGATTGTTTTAGGTTCTGTTACCCTGATTGGTGGTGAACCGGGAATCGGAAAGTCTACTCTGCTACTTCAGCTTGCGCTGAAAATGAAGAAAAAGATATTCTATGTTTCCGGAGAAGAAAGCGCTTCTCAGATTAAGATGAGGGCAGACAGGCTGACGGATATTCAAAATCCGAACTGTTTCCTGTTCACTGAAACTTCACTAGAAAAAATTCTTCATGAAGCAAAAAAACTGGAACCTGATTTCATGATCATAGATTCCATTCAGACGCTGCAGTCTCAGCTGATAGAAAGTTCTCCGGGAACCGTATCTCAGATCAGAGAATGTTCCAACGAGATTATCAAATATGCCAAAGAAAATAATACGCCTGTATTTCTTGTGGGTCATATTACGAAAGACGGGCAGATTGCAGGGCCAAAGGTTCTGGAACATATGGTGGATGTAGTTCTGAATTTCGATGGAGACCGAAATCACCTTTTCAGATTGTTAAGAGCTAATAAAAACCGTTTCGGCTCTACTTCCGAGATTGGAATTTATGAAATGATCTCACAAGGATTGAAAGAGATTAAAAACCCTTCTGAAATTCTGATCACCAAGAAATTTGAAGAACTTTCCGGTAACTCCGTTGCCGTAACACTGGAAGGAAACCGACCTATGCTTCTGGAGATTCAGGCATTGGTAAGTACTGCTGTTTACGGAACACCTCAAAGAAGCTGCACCGGTTTTGATTCCAAAAGGCTGAATATGCTTTTGGCCGTACTGGAAAAAAGAGCAGGTTTTCAATTGGGAGCAAAAGACGTTTTCCTGAATATTACCGGAGGGATAAAAACAGATGATCCGGCACTGGATCTGGCTGTCATAGCTTCTGTACTTTCATCAAATGAAGATATTGCCATCTCAGAACATTACTGCTTTGCCGGAGAAATCGGATTAAGTGGTGAGATACGTCCTGTGGCACAGATAGAACAGAGAATTACCGAGGCCGAAAAGCTGGGGTATGAAAAAATATTTGTTTCCAATCTTAATAAAATTCCGAAGAGAAAATTTGGTATAAAAATAGAAGAAGTGAGTAAGATTGAGGATTTTCATGAGAGACTTTTTTAA	MAKLKTAYFCQNCGSQYSQWMGQCKNCGQWNTLVEEVVEKPSHKTPPFSKTKQHVINIVEVETSEEPRIKTPSEELNRVLGGGIVLGSVTLIGGEPGIGKSTLLLQLALKMKKKIFYVSGEESASQIKMRADRLTDIQNPNCFLFTETSLEKILHEAKKLEPDFMIIDSIQTLQSQLIESSPGTVSQIRECSNEIIKYAKENNTPVFLVGHITKDGQIAGPKVLEHMVDVVLNFDGDRNHLFRLLRANKNRFGSTSEIGIYEMISQGLKEIKNPSEILITKKFEELSGNSVAVTLEGNRPMLLEIQALVSTAVYGTPQRSCTGFDSKRLNMLLAVLEKRAGFQLGAKDVFLNITGGIKTDDPALDLAVIASVLSSNEDIAISEHYCFAGEIGLSGEIRPVAQIEQRITEAEKLGYEKIFVSNLNKIPKRKFGIKIEEVSKIEDFHERLF	PGPT0014905_4120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
BMS003_01620	594	acpH	COG3124	Acyl carrier protein phosphodiesterase	ATGAATTATCTGGCGCATTCCTTTCTTTCTTTCACTGACGGGCAGATTGTAGGGCAGTTTCTCGAAGATTTTATTCCCAACAGGGACCGTTTTTCTTTCCCGAAAGATATTCAGGACGGGATTACCCTGCACAGAGCTATTGATACATTTACAGATTCTCACCCTGCCATTCATGAAGCAAAAAAAGTTTTTTCTCCTTTAGTAAGGCTATATGCCGGGGCATTTGTGGATGTTTCTATGGATTACTTTGTGGCCAATGACTTTTCTTTACATACTCTGGCAGAATGGAAAGCCCATTCTCTTAAGGTTTATAGTATTCTGAACGCCAATATGCAATGGCTACCTGAAAACTTCAGAAAAATGCTTGTTAAAATGGAACATGATGACTGGCTTTATAATTATCGTGAAGACTGGGGAATCAAATTCAGTATTCAGAATGTACTGAATAAAGCAAAATACCTTGATAAAGACATTCCTGTTTTTGAAGCTTTTTTGAAGAACAAGGATCATCTTCAGCAATGTTATAACGATTTTTTTCCTGATTTGCTAGCTCATGCAAAAGGAATTAATACGCTGATTCAGTTGGAAAATTAA	MNYLAHSFLSFTDGQIVGQFLEDFIPNRDRFSFPKDIQDGITLHRAIDTFTDSHPAIHEAKKVFSPLVRLYAGAFVDVSMDYFVANDFSLHTLAEWKAHSLKVYSILNANMQWLPENFRKMLVKMEHDDWLYNYREDWGIKFSIQNVLNKAKYLDKDIPVFEAFLKNKDHLQQCYNDFFPDLLAHAKGINTLIQLEN	PGPT0008850_444	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
BMS003_01621	516			hypothetical protein	ATGTTGCGAAAGTTTTTTTGGAGTTTTCTTTTATTGTTAATGGCCGTTTTTCAGAGTTTTACGAGCGGTGAAGCTTTTCACCCTTATCATGTAGGATCTGTAGAAATTAATTATAATTCAAAATCCAGAACATTTGAAGTGACAGGAAGATTTTTCCTTGATGACATGGAAAACGGTTTAGGAAAGAAATATGGCGGAGCTTTTCATTTTAACGATGAAAAATACAAGGCAAAACTGAATGATGCATTACAGAAATACTGTGCAGAATATTTCAAATTGAAAACTGACGGTAAATTTGTAAAGATCAATTATATAGGCTACGAAGAAGATCAGGAATCTGTAAATATCTTCATGGAATCAGAGCCTGTAGCCACCCCTAAAAAAGTAGAAACCGCAGTAAGTTTTTTGTATAACCTTTTTGATGATCAGATCAATATTGTTCATATCATTGTGAACGGACAAAGAAACAGTGAAAAGCTTACCTATCCTAACCGTTATCTTTATAAACAGTTTTAA	MLRKFFWSFLLLLMAVFQSFTSGEAFHPYHVGSVEINYNSKSRTFEVTGRFFLDDMENGLGKKYGGAFHFNDEKYKAKLNDALQKYCAEYFKLKTDGKFVKINYIGYEEDQESVNIFMESEPVATPKKVETAVSFLYNLFDDQINIVHIIVNGQRNSEKLTYPNRYLYKQF				NA	NA	NA	NA	NA
BMS003_01622	3219			hypothetical protein	ATGGATATAAAAAAATTATTCTTTACAAAAGTACACATTTCGCCCGGAGGAACGAAGCTTCTGAGAAATGCAACAGCAGCCTTTTTAGGATTATATTCCTATGCTTTTTACGGACAGGTTCAGAAACTGGACTCCCGATTCGATATTTTACTGAAAAATAAGGAAAGTATAGCCAATGGAAGAGTCATTAAAGAACTGGAACGCCCAGACATGAAACTTGATCAACATTTGGTGGTAACTTCAAATGGGGCTCAAACCATGTATTCCTGTATTATTTATACTAAAGAACCGGAAAAGCTAAAAGCAGACGGATTTTTGGTACAAAGCCAGCTTCCCGATTTTTCTACAGCTTTAGTTTCTATTGAAGATCTTGAAAGACTGACAACGCTTCCGTATGTAACTTCCGTAATGGGGCCTTCATTTGATGAATTACATAATGATACAAGCAGAGCGCAATCCGGAGCAAGTCTTTTGCAGGATGGCGTTTTTAATAATACCGCTTATAACGGCACAGGTGTACTAGTAGGGATTTATGACAGTGGGATAGACTGGAAGCACCCGGATTTCAGAAAAACTGATGATCAGACAAAAAGCAGAATTGTCTCTATCTGGGATCAGACACTGACTGCACAGGCAGGAGAGACGGCACCTACAGGGTTTTCAACAGGGGTAGAATATACAAGAGCACAAATTGAAGATGAACTGGACGGAACTCCTACAGGTTTCGTTCGTGAAAATGATACCAATGGACACGGAACCCACGTTTCAGGTACAGCAGCCGGAAATGGCGCTGCTTTTACGGATAAAAGACATAAAGGATTCTCATCCGATGCAGATATAGTATTTGTAAAAGGTGGTAACGGATCTTTTCCTACAACAAATACTATTAATGCTTTAACTTATTTCAAAAATGTAGCTACAGCTCTTAATAAACCTATTGTTGTCAATATGAGTATCGGTGGCCAGGGAAGTGCACATGACGGAACTTCCAGCCATGAAGTAGCGGTAAACAATTTTACCACTTCAGGAGCAGGAAGAGTAGTTGTTATTTCAGCCGGAAATGATTACGGAGCTAACCTTCACAGAAAAGTTGATATTGCAGCCAATGCTTCGCAGACTTATAATTTTACCGTAGCAAGCAATACTTCTGCTGCTACAGTTTTTTCATTCATTATGTATGCCAATGACAATACTCCCGTTACAGCTAAGTTAACGACTCCTGATGGGCAGGAGTATACCCAGAATATAAGCAGTAATACCGCTCATAGTATACTGGGAGGTGGTCTTACAGCAACGATGTATAACTACTGGAGCAATGACAATAATAAAAGATACGTTCAGCTGATCATCACCAGAACTTCAGGAACAACTAATGTTCAGGGAGATTATGCCCTGGAAATTACCAATAACGGAACTCAGCAGATTACAGCCCATGGATGGCTGTATAGCCAGGGAGTACAGACCACTTTGCAAAACGGAGATAATGAATATATTGTAGGATCTCCGGGGAATGCTTCTAATGCTATTACCGTAGCATCATATATGGGAAGAGCAAGCTGGTATAGCGGAACCAGCGGGTATTATACCCTTACTCCGCAGGAATCTATCTCTTCATTCAGTTCGCAGGGGCCCCGGGTAGACGGGTTTCAAAAACCTGACATTGCAGGTTCAGGACAAAATGTAATTTCTTCCAGATCTGCAGATTCTTCTCCTGGCAGTACAAGTATTATTGCCGGAACTGATTATTATGTAAAAAATCAAGGAACAAGTATGTCTTCACCTGGAGTAGCAGGAGCCGTAGGACTATTGCTTCAGGCCAATCCTTCTTTAACAGCAGCACAGGTGAAAGCACGTCTTACGGCTAATGCAAGAACGGACGGTGCAACAGGTACTGTTCCAAACATGAGATGGGGATATGGTAAGCTGGATATTTATAAAGCCGTTACTGATGAATTAGGATGTGTGAAATCCAATTTTGAGACAGTAGGTTATGATGAACCTTATATTATTGCCAATACAGAATCTAATTATTATTTTGATAATATAGCCCTTGCGGTAAGATATACGCCGACATTAACCGGAAAACTGGGTGGTTTTTCATTCCTGACGGGTACTTCACTTCCTTCAGATATTCCTGTGGATATTCAGATCAGAAAAGTAGATGCCAATGGTAATCCGGGAGATATTATTGCTACCAAAACCATTACGTCATGGCTTAATAATACCCAAAGATTTACCTGGAACTATGTAAATCTTTCCGATTTGAATGTACAGATGGTAACCGGAAAAGAATTTTATATTGTCGTAAATGGATTAGGTGGAAGAATTGCCATGAAAGCTGAGAATGCTGTGGTAAATAACAGATCCAAGACCTCTACAGATGGTACGACATGGACTTCGAGAACCTTTGATCTTAAAATGAGAGCTGTAATCTATGAGAATGTAGCAGAGGTAAAGAATTTAGCAACTTCCAATCAAACAAAAGTAAGCGCAGTAAATAGTGGATATAATTATTTTACAAATGCCTGCCAGCTTATTTCAAGAGTTGAAAAAGAAACCGCAAGTACAGTAACAGGAAATGTGACTTCAAAGGTATGGGTAGATAATGCGCAGCCGAACTACGTGGCCAGAAGATATGAAATCAATTCTGATACAAACACTACTACTGCAACCGGAAAAGTAACTTTATACTTTAAGCAGAGCGATTTCGATGCTTATAACCTGACAAGTGGAGTGAAATTACCTACTTCACCTACCGATGTTGCCAATAAAGCCAATCTTCTTATTGAAAAATATACAGGAACAAGTACTACAGGTACCACAGCTTCTTTTGGCGGAACGGCAACAGTTATTACTCCTGATATTGCAGATATTATCTGGAATGATACGTACCAATATTGGGAAGTAAGCTTCCAGACAACAGGCTTTGGCGGATATTTTGTAAAGACAGGAACAACACTGGGAACAGCTGATGTTAAGATCAATTCAGAAGTGAACATCACTCCAAATCCTGCTAAAGATTTTGTAAATGTAACATTGGGCAGACATTCCAAAGGAGCTGTAACCATTTATGATGCTTCAGGAAAATTGGTTAAAACCATAAATGTGAATGCTGATTCAGGTAAGATTAATGTTTCAGAACTGGTAAAAGGAGCTTATCTGTTTACCATTGTACTGGATGATAATACAAAAATTACGAAAAAAGTAATTAAAGAATAA	MDIKKLFFTKVHISPGGTKLLRNATAAFLGLYSYAFYGQVQKLDSRFDILLKNKESIANGRVIKELERPDMKLDQHLVVTSNGAQTMYSCIIYTKEPEKLKADGFLVQSQLPDFSTALVSIEDLERLTTLPYVTSVMGPSFDELHNDTSRAQSGASLLQDGVFNNTAYNGTGVLVGIYDSGIDWKHPDFRKTDDQTKSRIVSIWDQTLTAQAGETAPTGFSTGVEYTRAQIEDELDGTPTGFVRENDTNGHGTHVSGTAAGNGAAFTDKRHKGFSSDADIVFVKGGNGSFPTTNTINALTYFKNVATALNKPIVVNMSIGGQGSAHDGTSSHEVAVNNFTTSGAGRVVVISAGNDYGANLHRKVDIAANASQTYNFTVASNTSAATVFSFIMYANDNTPVTAKLTTPDGQEYTQNISSNTAHSILGGGLTATMYNYWSNDNNKRYVQLIITRTSGTTNVQGDYALEITNNGTQQITAHGWLYSQGVQTTLQNGDNEYIVGSPGNASNAITVASYMGRASWYSGTSGYYTLTPQESISSFSSQGPRVDGFQKPDIAGSGQNVISSRSADSSPGSTSIIAGTDYYVKNQGTSMSSPGVAGAVGLLLQANPSLTAAQVKARLTANARTDGATGTVPNMRWGYGKLDIYKAVTDELGCVKSNFETVGYDEPYIIANTESNYYFDNIALAVRYTPTLTGKLGGFSFLTGTSLPSDIPVDIQIRKVDANGNPGDIIATKTITSWLNNTQRFTWNYVNLSDLNVQMVTGKEFYIVVNGLGGRIAMKAENAVVNNRSKTSTDGTTWTSRTFDLKMRAVIYENVAEVKNLATSNQTKVSAVNSGYNYFTNACQLISRVEKETASTVTGNVTSKVWVDNAQPNYVARRYEINSDTNTTTATGKVTLYFKQSDFDAYNLTSGVKLPTSPTDVANKANLLIEKYTGTSTTGTTASFGGTATVITPDIADIIWNDTYQYWEVSFQTTGFGGYFVKTGTTLGTADVKINSEVNITPNPAKDFVNVTLGRHSKGAVTIYDASGKLVKTINVNADSGKINVSELVKGAYLFTIVLDDNTKITKKVIKE	PGPT0020990_121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020990-vpr-K14647	NA	NA
BMS003_01623	579			hypothetical protein	ATGCAGGATTTTCTTTTTTATTTACACCTTGGATGGGAACACATCATCTCTCTGGATGCCCTGGATCATCAGTTATTTGTTCTGGCACTTATTGCTGTCTATTCCTATAATGACTGGAAGAAAATTCTGATTCTGGTTACCGCATTTACCATAGGACACTCCATTACATTAACTCTAAGTATTCTGGATGTTTTCAGAGTTCCTTCTGACTGGGTTGAGTTTTTAATTCCTCTGACTATTGTTCTGACTTCATTAGATAATATTATCATGAAAAACCAGAAGCAGACCCTCATGCGGGCCAACTACTACCTTGCGCTGATCTTCGGACTTGTTCATGGAATGGGTTTCGCCAATACAGCAAGAGTAATGATTGCCAAGAGCCAGAGCATTGCATTGCCTCTCCTTGGGTTCAATATAGGTCTTGAACTTGGACAGATCGTTATTGTAGCCGCCATTCTAATCATTCTTTTCATTCTGCTTGCTATTTTTAAAGTGAATAAAAAAGACTGGATTTTATTTGTCTCTTCAGGTGTATTTGCTCTTTCCTTAAAAATGACTTTGGAAAGAATTCCGTTTTAA	MQDFLFYLHLGWEHIISLDALDHQLFVLALIAVYSYNDWKKILILVTAFTIGHSITLTLSILDVFRVPSDWVEFLIPLTIVLTSLDNIIMKNQKQTLMRANYYLALIFGLVHGMGFANTARVMIAKSQSIALPLLGFNIGLELGQIVIVAAILIILFILLAIFKVNKKDWILFVSSGVFALSLKMTLERIPF				NA	NA	NA	NA	NA
BMS003_01624	2388			hypothetical protein	ATGAAACTAAAAGTTGTTATACTTTCACTTTCTGTATTTGCATATACAGGTTTCACCGCACAAAATATTCAGAATAACCCGGGCAGCAACCATGGCAACAAGTTTGAGCAGCTGGGAACTATTCTGCCTACACCCAACATCTACAGAACGGCTTCAGGAGCTCCCGGACACGGATACTGGCAAAACAGAGCCGACTATAGCATTTCCGCTTATCTGGATGAGGATAAAAGAAATCTGAAAGGTTCGGAAACCGTTACTTACTACAACAATTCTCCGGATGAACTGGATTATATCTGGCTGCAGCTTGATGAAAACGAACACTCAAGCATCAGAAATGCAGGATATGACAATTCATCTGTACTTCGTCCTTCCACTACAGATCAGCAGCTTAAGGTTTCTGAACTTCCCGTGAAAGACAATGGCTATGGAGTAAATCTTGAAAAAGTGACTGATGCTTCAGGAAATCCTTTGAAGTATACTGTCAACAAAACGATGATGCGTATTGATCTTCCTAAGGTTTTGAAAAAGGGTGAGAAATTCGTTTTCAAAGTAGACTGGAACTACAATCTTTCCAACAGAATCAAAATGGGAGGCCGTGGAGGCTATGAAAATTTCCCTGAAGACGGCAACGATCTTTATACTATGGCACAATGGTATCCAAGAATGTGCGTATACAGTGACTTCCAGGGATGGCAAAACCATCAGTTTACCGGAAGAGGTGAATTTGCTTTGGTTTTCGGAGATTTTAAAGTTTCTGTGAATGTTCCTGCCGATCATATTGTAGGGGGAACAGGAGAATGTAAAAACTACGATCAGGTGCTTACAGCTGATCAGCTTTCAAGATACAGAAAAGCTGAAAACGCAGCTGAACCTATTGAAATAGTAACATTGGATGAAGCTAAAAAAGCAGAGAAAAACCATTCAAAGCAAAGAAAAACATGGGTTTTCGAAGCGAAAGATGTCCGTGATTTTGCATGGACTTCTTCCAGAAAATTTATCTGGGACGGCATGCGCGTAACAATTCCCGAAAACAATAATAAGGTAATGGCCATGAGCTTCTATCCGAAAGAATCTTATGGACTTTACAGAAAGTTTTCTACAAAAGCGGTTGCGCATACCATCAAAACCTATTCGGAATTTACAATCCCTTATCCCTATCCGGTAGCACAGTCTGTAGAGGCATCCAACGGAATGGAATATCCTATGATCTGTTTCAATTTCGGAAGAACGGAAAAAGACGGAACGTATTCTGAAGGAACCAAAAACGGAATGATAGGGGTAATCATCCACGAGGTTGGCCACAACTTCTTTCCTATGATCATCAATTCTGATGAGAGACAATGGGCATGGATGGACGAGGGCCTGAACACTTTTACAGAATACCTTACAGAAGAGAAATGGGATAATAAATTCCCATCCAAAAGAGGTCCTGCATGGACGATCGTAGATTATATGAAACTGCCAAAAGATCAGCTGGAGCCTATTATGAGCAATTCGGAGAATATTGTTCAGTATGGTCCGAACGCGTATTCAAAACCGGCTACAGGACTGAATATTCTACGTGAAACCATCATGGGAAGAGAACTTTTCGACAAAGCTTTTAAAACGTATGCTAAAAGATGGGCATTCAAGCATCCTGAACCTGCAGATTTATTCCGTACCATGGAAGATGCCAGCGGTGAAGATCTTGACTGGTTCTGGAGAGGATGGTTCTACGGAACAGATCCTGTAGATATTGCGATTGATAAAGTGACGGTTGCGGTTCCTAACCTTGAAACGGATCCAAAAACGGCTGCTGAAATAAAATATCAGGTTGAAAAACCTTTGGTAAGCAGTTTCGAAGATCTTTCAAAGATCAGAAACAGAGAAGATAAGAATATCAAGTTCTATGTAGATGGTGATAAAGATGCTCAGGATTTCTATTACAGATATGACCGAGGTCAGGAAAAGGTAGATAATAATAAGGAATATACCATCAAAACTGGAGCTGGCCTTCCTTTAGACTCTAAGGATAAAGAAAAGTTCAAGAATATTACAGGATATCAGATTGATTTTGTGAACAAAGGTGGATTGGTAATGCCTATCATCCTTGAATTTACTTTTGAAGACGGTTCAAAATTATATGACAAGTCTGCTGCTCAAATATGGAGGCTGAATGAACAAAAAGTTTCCAAGACCTATTATTTTGATAAGAAAGTAAAATCTATCCAGCTGGATCCGATGAGAGAAACAGCTGATATTGATACAACCAATAACTTCTGGAGCAGCGCAGGATCCGGGACTGAAACTTCAAAATTCCAGCTCTTTAAGCAAAAGCAGGAAGCACGTTCTGTGAGAGGAGGTTCCACAGGAAAGGTTAATCCGATGCAGGCAGCAGGAAAGAGTTAA	MKLKVVILSLSVFAYTGFTAQNIQNNPGSNHGNKFEQLGTILPTPNIYRTASGAPGHGYWQNRADYSISAYLDEDKRNLKGSETVTYYNNSPDELDYIWLQLDENEHSSIRNAGYDNSSVLRPSTTDQQLKVSELPVKDNGYGVNLEKVTDASGNPLKYTVNKTMMRIDLPKVLKKGEKFVFKVDWNYNLSNRIKMGGRGGYENFPEDGNDLYTMAQWYPRMCVYSDFQGWQNHQFTGRGEFALVFGDFKVSVNVPADHIVGGTGECKNYDQVLTADQLSRYRKAENAAEPIEIVTLDEAKKAEKNHSKQRKTWVFEAKDVRDFAWTSSRKFIWDGMRVTIPENNNKVMAMSFYPKESYGLYRKFSTKAVAHTIKTYSEFTIPYPYPVAQSVEASNGMEYPMICFNFGRTEKDGTYSEGTKNGMIGVIIHEVGHNFFPMIINSDERQWAWMDEGLNTFTEYLTEEKWDNKFPSKRGPAWTIVDYMKLPKDQLEPIMSNSENIVQYGPNAYSKPATGLNILRETIMGRELFDKAFKTYAKRWAFKHPEPADLFRTMEDASGEDLDWFWRGWFYGTDPVDIAIDKVTVAVPNLETDPKTAAEIKYQVEKPLVSSFEDLSKIRNREDKNIKFYVDGDKDAQDFYYRYDRGQEKVDNNKEYTIKTGAGLPLDSKDKEKFKNITGYQIDFVNKGGLVMPIILEFTFEDGSKLYDKSAAQIWRLNEQKVSKTYYFDKKVKSIQLDPMRETADIDTTNNFWSSAGSGTETSKFQLFKQKQEARSVRGGSTGKVNPMQAAGKS				NA	NA	NA	NA	NA
BMS003_01625	138			hypothetical protein	ATGAAAAATGCTAAATTACTGAGCAGAGATGCTCAAAAAACAATCAATGGCGGAATTGCAGCAAGACTTGTATGCTGCGAACGCGACGACAATGGAAAATGTACTTTATGGATCGGGCCGGGACAAAACTGTCCATAA	MKNAKLLSRDAQKTINGGIAARLVCCERDDNGKCTLWIGPGQNCP				NA	NA	NA	NA	NA
BMS003_01626	699	lytR_2	COG3279	Sensory transduction protein LytR	ATGGCTAATCTGACTATCGTAAATGTAGATGATGAATATCCTGCATTGCAGCTTGTAAAACAATATTGCGATCAGCTTGAAGAAGTTGAATTACTGGCTTCATTTCAGAAGCCAGAGGAGGCATTGGCTTTTCTGAAAGCGAATAAAGTAGATCTGGTGGTTTTCGATATCAATATGCCCGGAATCAATGGGGTAGAGCTTTTGCAGCAGCTTCCCGATCCGCCGTTGTGCATTTTCCTTACGTTGGAAACCAAATATGCAGTGAAAGCATTTGAGCTGGATGTCGTTCATTATCTCATAAAACCTGTAGATTTTGATACTTTTAAAAAAGCGGTCAATAAAGCAAGAGATTTTGTTCAGTTTAAAAACCCGGCGAGCAGCCAGCATCAGGAAGATTATATTATGTTCAAATCCAATTATGTGATGAACAAAGTCTTTCTTAAAGATATTCTATGGATACAGGGATTTGGCGAATATATTGTATTGATGACTCCTCTGAAAAAATATATGATCTTGGAGAGAATGTCCAACTTTGAAGAGAAATTTCAGCATTTCGGGTTTATCAGAATTCATAAGTCTTATATTGTATTGTCAGAGCATATCAACTCTTATAACTCCTCTCATGTTTTTTTGAAAAACGGAGAAGAGCTTCCGTTGGGACGAACTTATAAAAAGAATTTAAAAGCCCATTTAAGTTAA	MANLTIVNVDDEYPALQLVKQYCDQLEEVELLASFQKPEEALAFLKANKVDLVVFDINMPGINGVELLQQLPDPPLCIFLTLETKYAVKAFELDVVHYLIKPVDFDTFKKAVNKARDFVQFKNPASSQHQEDYIMFKSNYVMNKVFLKDILWIQGFGEYIVLMTPLKKYMILERMSNFEEKFQHFGFIRIHKSYIVLSEHINSYNSSHVFLKNGEELPLGRTYKKNLKAHLS				NA	NA	NA	NA	NA
BMS003_01627	1113			hypothetical protein	ATGTTTTTAATCATTAACTTTATTGTTATATTATTGATTATCAGAATTTTATTTAGTGGTAAGATTCTGGAAAGTCTTATGAGGTACCGTTGGAAATTTTTGTTGAGGTTTCAGCATGTATTTTTCTTTTTCATCTTCATTTTGATGACCTATTTCACCGAAAACTACTTCCTGGATTCAACTCAGCTGGTGATAAGCATTATTTTGAATACAGTTTTTAATGTCGGAATTTATTATCTGGTGTATTATTACCTGGTTCCCCGTTTCTATTTATCCAATAAGTATCCGGAGTTTATCTTGTATGCTTTAATCTCTTTTTTGGTGTCCAGTCTTTTCAGAATTTTGTGGGAGCCTGCGGTTTTCCGGATGGATTTCAGCGGAAAAGGTTACCATGTAGGGTTTCTGTACAATGTATACATCTCACAGGCGATAATCATTCTGGTAGGTGCTTTTTTGGGAATTACGAAAGACAAGTTTCTGATAGAACAGGATGTGATCACCCTTGGAGAGGAAAAAGATCAGCTTTATCTTGATTTGCTGAAATCTAAACTGAACCCGCACTTTCTTTTAAATACCCTTAATAATATATATGCCAACAGTTTTACCCATTCAGAGAAAACATCGGATTCTATTTTGCAGTTGAGCAGACTTCTGAAGTATATTATTTATGACAGCGGAAAAGAAAAGGTAACGGTTTCTCAGGAATTTTCTTCCCTGAAAGCGCTTGCCTCTTTATATCAGCTTAAATATAATAATCAGCTTGATATTATGATGGATATTGAAGATCAGGAAGAATTTGATATTGCTGAAATTCCGTCTGCTATATTGCTTACGTTATTTGAAAATGCTCTGAAACACTCGGCAATAGGGGAAGATGCTCACGGTTTTGTAAAACTGTTCTGTAAAATTGAACGCTCTGAACTGTATTTTGAAATTATAAATTCTGTAGGAAAAGATAGAATTCATCCGGTTGAATCCAATTATCACGGATTGGGTAATGAAGCAATTATTCATATATTGGAAAAATTTTATCTGGATCAGTATGAATTTTATTCCGGTCCGAAAGAAAAAGATCAATATAAAATTGCTTTAACAATTACTATCAATGGCTAA	MFLIINFIVILLIIRILFSGKILESLMRYRWKFLLRFQHVFFFFIFILMTYFTENYFLDSTQLVISIILNTVFNVGIYYLVYYYLVPRFYLSNKYPEFILYALISFLVSSLFRILWEPAVFRMDFSGKGYHVGFLYNVYISQAIIILVGAFLGITKDKFLIEQDVITLGEEKDQLYLDLLKSKLNPHFLLNTLNNIYANSFTHSEKTSDSILQLSRLLKYIIYDSGKEKVTVSQEFSSLKALASLYQLKYNNQLDIMMDIEDQEEFDIAEIPSAILLTLFENALKHSAIGEDAHGFVKLFCKIERSELYFEIINSVGKDRIHPVESNYHGLGNEAIIHILEKFYLDQYEFYSGPKEKDQYKIALTITING	PGPT0026305_2490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_01628	606			hypothetical protein	ATGTGGTTTCAGTACCTCATGTCGGCAAAGATTACCGATAAAAGTACTTTAACTGCACTTGCTCAATACCGATCCTTTGATCTGGCCTATGACACGAGACTTTTCCTTATGAATGCCTATGTAGATTATCAAGTGGCAGAAAATATAAAACCTGCAGCAGGAGCTATGTTTCTGATCCTAGAGTCTTATAATACCGACGATTCTAAAAAGATAAGATATGAAAAAAGACCTTTCCAACAGGTAACTGCTGATTATCATATTGGCAGAACATCCATTGCAAACCGTCTCCGTGTAGAGGAACGTTTTATCAGTAACCCTGATGAATTTGAGGTAAGGATCCGTTATCTGATCTCTGTCAAAATACCTTTCAGTAAAAAAGGGCAAAAAGAAAAGTTCTATGGTATTCTTAAAAATGAAATAAGAATGAATGTTGATAAATCAGAACCCTTCGACAGTAATCGGATTACGGCAGGTCTGGGCATAAAATTGGGGAAGAGCTCCGCTCTGGAACTCGCCTTCATCAATCAGCTGGAAACCCAAAAAACAAGTAATTATGGATTTATAGGTTTCAGAAACAGTTTTGACTGGAGAAAAAAGAAACAATAA	MWFQYLMSAKITDKSTLTALAQYRSFDLAYDTRLFLMNAYVDYQVAENIKPAAGAMFLILESYNTDDSKKIRYEKRPFQQVTADYHIGRTSIANRLRVEERFISNPDEFEVRIRYLISVKIPFSKKGQKEKFYGILKNEIRMNVDKSEPFDSNRITAGLGIKLGKSSALELAFINQLETQKTSNYGFIGFRNSFDWRKKKQ				NA	NA	NA	NA	NA
BMS003_01629	1287	citN	COG2851	Citrate transporter	ATGCTTACATTTCTTGGTTTTTTAATGATTTTCATCTTTATGATTCTCATCATGAACAAAAAGATGACTCCGCTTACCGCTTTAGTCCTTGTACCTGTTTTTATAGCTGTAGTGGCAGGATTCGGTCCTGATCTTGGGAAAATGATGAAAGATGGGGTAAAAGAAATAGCCCTTACGGGAGTTATGCTGATTTTTGCCATCCTGTATTTCAGTCTTATGATTGACACAGGGCTTTTTGAGCCACTTGTGAATGCCATACTAAAGGCTGTAGGAGATAATCCTGTAAAAACAACCATCGGAACCGCCCTTCTCACCACTTTGGTTTCTTTAGACGGCGATGGCTCTTCCACCTACATTATTGTAGTGGCAGCATTACTCCCGCTTTATAAAAAACAAGGCATGAACCCTCTGGTTTTAACCTGTATTATCATGCTTGCAGGTGGTATTATGAACATTTTACCGTGGGGAGGCCCTACTGCAAGAGTAATGAGCTCTCTTAAACTGGGGCACACTGAAATATTTGTTCCTATGATTCCGGTCATGCTGATCGGGCTGGTATGGGTGTTTTTTGTTGCGTATATTCTGGGAGTGCGGGAGAAAAAAAGAATAAGCAAACATGGAAAATATACCAAATACAGCGGACAGGATATTGCCGGTGAAAATGACCCGGCATTAAGACGTCCGAAACTTATCATTATCAACCTGATCCTTACCCTTGTTCTGCTTGGCGTTATGATTCTGGATATTATTCCTTTGGGAATTGCCTTTATGATTGCCTTCTGTATAGCTTCCCTGATTAATTATCCTAAACTGAAAGACCAGCAGAAAATCATCTCAAAACATGCTGGAAATGCTTTATCCGTAGCCGGAATGATCTTCGGTGCAGGAATTTTCACAGGAATCCTGAATGGAACCGGAATTATGAATGCGATGGGAAACAGCATTATCAATATTGTTCCTAAAACCTGGGGCGGCTATCTGAATGTCATTACTGCCGTCTTCAGTGTACCGCTTACCTTTTTCCTTACCAATGATGCTTATTATTTCGGAATATTACCTGTGATCACAGCTACAGGCAGCCAGTTGAATATTCCTCCTGATATTTTGGGACGGGCAAGTCTTGTAGGGCAAGCTTCCCATTTACTGAGTCCTTTGGTTCCTTCCACTTACCTGCTGGTGTCTCTGGCTGGTGTAGAGTTCTCTGAACATCTGAAATTTACTTTAAAATGGGCCATAGGATCATCAATTGTAATGTTACTGAGTGCATTGGCTCTTGGTATTATATAA	MLTFLGFLMIFIFMILIMNKKMTPLTALVLVPVFIAVVAGFGPDLGKMMKDGVKEIALTGVMLIFAILYFSLMIDTGLFEPLVNAILKAVGDNPVKTTIGTALLTTLVSLDGDGSSTYIIVVAALLPLYKKQGMNPLVLTCIIMLAGGIMNILPWGGPTARVMSSLKLGHTEIFVPMIPVMLIGLVWVFFVAYILGVREKKRISKHGKYTKYSGQDIAGENDPALRRPKLIIINLILTLVLLGVMILDIIPLGIAFMIAFCIASLINYPKLKDQQKIISKHAGNALSVAGMIFGAGIFTGILNGTGIMNAMGNSIINIVPKTWGGYLNVITAVFSVPLTFFLTNDAYYFGILPVITATGSQLNIPPDILGRASLVGQASHLLSPLVPSTYLLVSLAGVEFSEHLKFTLKWAIGSSIVMLLSALALGII	PGPT0001500_1094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
BMS003_01630	1212	dctA_1	COG1301	C4-dicarboxylate transport protein	ATGATGAAAACGGCTAAGCAAAAAACATTTACCGACTCTTATCTAAGAAACCTTACGCTTTATGTATTCACAGCAATTATCTGCGGAGCACTGACCGGTTATTATTTTCCGGAAATCAGTAAACATCTGGAAACGGTAAGCAATTACTTTTTTATGCTGCTTGAAGTTTTGATTATTCCGGTTATTTTCATTGCCGTAACATATGGGGTAAGCTATATCTTCAGCACCAAAAATGCTTTTAAGATTGTAAGCCAGATGATTCTGTATTTTTTAATCATCACATCTGTAAGTATTTTATTAGGAATCGGATCTGGGCTTCTTTTGAAACCAGGTGCCAACACAGGAATTATTATATCTTCACACAACGTACTTCCTGAGAGGTTTTTAACCAAAACAACAAACCCGTTTCACATCAGCAATTATATCCTTTTTCTTTTAATATCTATATCTGCTGGAATCCTGATTGGCCTCTCAAAGAAAAAGAATAACATTCTTAAAACCATAGACGTAGGAAGAAATTTGTTTTTTAAACTGATCAAATATGTTTACATCTTTCTTCCCATAGTCATTTTCTCCAATATCGCTTATGGAATCTCTGTATACGGAATTAATACACTGCTTCCATTAAGTAAGATTGTGGCCACAGTGTATCTTACCAGTGTATTTTTTATTTTCGGAATACTGGGCGCTATCACCACTTACTTTAAAATTAACCTTTGGGATTTTCTGATCAGCATCAAAGAAGAAATTATTCTTGTAGTGGCTACATCTTCATCAAAGACTGCCTTCCCAATGATTTTTGATAAAATGGAATCACAGGGCTATGACCGGAAAATCCTTCGTCTTATTATTCCTCTCGGATACAGTTTTAATCTGGCGGGAGCGTGCATCTATCTTTCTATTTCATGCATTTTCCTTATCCAGTTTTATAATATTCCTCTTACGGTAAAAGATTATTTCTGGCTTTTTATCACCATTTCAATTGCTTCAAAAACCGCTTCGGGAGTTCCGGGCTCAGGCTTCCTTGCCCTGATGTTTACCCTAAGCCGGTTTGGAAAAATTCCTACCACAGATCTTGCGCTGTTATACAGTGTAGACCGCTTTATGAATGAGGCCAGATCGGTTACCAATTTCATCGGCATTTCAGTTTCTGCTGCCATCATTTCAAAACTTAATCAAAATTCTATTCCCTTAAAAAATGATATTTCCTGA	MMKTAKQKTFTDSYLRNLTLYVFTAIICGALTGYYFPEISKHLETVSNYFFMLLEVLIIPVIFIAVTYGVSYIFSTKNAFKIVSQMILYFLIITSVSILLGIGSGLLLKPGANTGIIISSHNVLPERFLTKTTNPFHISNYILFLLISISAGILIGLSKKKNNILKTIDVGRNLFFKLIKYVYIFLPIVIFSNIAYGISVYGINTLLPLSKIVATVYLTSVFFIFGILGAITTYFKINLWDFLISIKEEIILVVATSSSKTAFPMIFDKMESQGYDRKILRLIIPLGYSFNLAGACIYLSISCIFLIQFYNIPLTVKDYFWLFITISIASKTASGVPGSGFLALMFTLSRFGKIPTTDLALLYSVDRFMNEARSVTNFIGISVSAAIISKLNQNSIPLKNDIS	PGPT0001450_2565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS003_01631	792			hypothetical protein	ATGATATTTCCTGATTTTACACACCTCTTCAATGACATCTTAGAAAACCCTGCAAAATCGATTGCTATTATCGGTAACCTTATCCTTATCGAAAGCCTTCTTTCCGTAGACAATGCAGCAGTATTGGCAACCATCGTGATGGATCTGCCAGAAAATCAAAGAAAAAAAGCCTTGAAATACGGAATTCTCGGAGCTTATGTATTTCGTGGACTGGCTCTTATTTTTGCATCCGTACTGATTTCCGTATGGTGGCTAAAACCGCTGGGAGGATTGTACCTGCTCTATATTTCCTTTGACTGGTTCATCAAAAAAATTAAGAACACAAATGATGATGAAAATCCAGAAGAAAACCCGAACAAAGAATCCAGCTGGCTGTATAAAAATTCGATCGGCCTGCTGGGACAATTCTGGGCAACGGTTGCTATTGTAGAAGTCATGGATCTTGCTTTTTCCATAGATAATGTTTTTGCAGCAGTGGCTTTTTCAGACAATTTACTTCTGATTACGCTGGGAGTATTTATAGGAATTCTAGCGATGAGATTTATTGCGCAATGGTTTGTTCGCCTCATGCAGGTATTTCCTTTCCTGGAAACGGCTGCTTTTGTAGTCATTGCTATTTTAGGAATTAAACTAAGCTTGTCGTTATATGAGCACTTCTGCCCTGCTACGGCATTCGCTCAATTTTTAGCCAGCCATACCATGGAAATTTTGGTTTCCGCCATTACCGTTCTTCTGTTTGTAGTACCTGTAGCTACGAGTTATCTTTTCGGATTCCCAGTCCGCAAAAAATAA	MIFPDFTHLFNDILENPAKSIAIIGNLILIESLLSVDNAAVLATIVMDLPENQRKKALKYGILGAYVFRGLALIFASVLISVWWLKPLGGLYLLYISFDWFIKKIKNTNDDENPEENPNKESSWLYKNSIGLLGQFWATVAIVEVMDLAFSIDNVFAAVAFSDNLLLITLGVFIGILAMRFIAQWFVRLMQVFPFLETAAFVVIAILGIKLSLSLYEHFCPATAFAQFLASHTMEILVSAITVLLFVVPVATSYLFGFPVRKK	PGPT0003866_25	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
BMS003_01632	279	groS1	COG0234	10 kDa chaperonin 1	ATGTCAGTAAACTTTAAACCATTGGCAGACAGAGTTCTGGTAGAGCCAATAGCAGCAGAAACTAAAACAGCTTCAGGAATCATTATCCCGGACACTGCAAAGGAAAAGCCGCAAGAAGGTACTGTAGTGGCAGTAGGTCCCGGTAAAAAAGACGAACCTACAACGGTTCAGGTAGGTGACAAGGTACTTTATGGTAAATATTCAGGTGCTGAATTGAAGTTGGAAGGTAAAGATTACTTAATCGTAAGAGAAGCTGATTTATTGGGAATCATCGGGTAA	MSVNFKPLADRVLVEPIAAETKTASGIIIPDTAKEKPQEGTVVAVGPGKKDEPTTVQVGDKVLYGKYSGAELKLEGKDYLIVREADLLGIIG	PGPT0014565_5206	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
BMS003_01633	360			hypothetical protein	ATGAGAGACTACAAAAAATATGATACCTGGAAAATTTCTCATGAATTGGTAAAAGAAATTTATATTATTTCTGAAAATTTTCCTAAATCTGAGCTTTTTGGTCTTACTTCTCAAATAAGAAGGGCAGCCGTTTCTATTCCTACCAATATCGCAGAAGGCTGTGGTAGATCCACAGATAAGGAATTTGCAAGATTTTTAGAAATAAGTATAGGTTCTACAAACGAAACCGAATATCTTCTTTTTCTTTCTTGTGATTTAGGATTTACTTCTGAAGATAAAATAGCAGCACTTAATGTAGCACTCAATTTAACCCGGCAAAAACTTATACAACTTAGAAAAAAATTATTAAATAATAATTAA	MRDYKKYDTWKISHELVKEIYIISENFPKSELFGLTSQIRRAAVSIPTNIAEGCGRSTDKEFARFLEISIGSTNETEYLLFLSCDLGFTSEDKIAALNVALNLTRQKLIQLRKKLLNNN				NA	NA	NA	NA	NA
BMS003_01634	1626	groL	COG0459	60 kDa chaperonin	ATGGCAAAAGAAATAAAATTCGATATTGAATCAAGAGACGCTCTAAAGAGAGGAGTAGATGCATTGGCTAATGCAGTAAAAGTAACTTTAGGTCCTAAAGGGAGAAACGTGGTAATCGAAAAATCTTTCGGTGCTCCACATGTAACTAAGGATGGTGTTTCTGTAGCTAAAGAAATCGAACTTGAAGATAAAGTAGAAAACATGGGAGCTCAGATGGTAAAAGAAGTGGCTTCCAAAACTAATGATATTGCAGGAGACGGTACTACTACCGCTACTGTATTGGCACAGGCTATCGTAAGAGAAGGTCTTAAGAACGTAGCTGCTGGTGCTAACCCAATGGATCTTAAAAGAGGGATCGACAAAGCTGTAACACAGGTTGTGGCTAACCTTAAATCTCAATCTCAGGAGGTTGGAGATTCTTCAGAAAAAATCAAGCAGGTTGCTTCTATCTCGGCTAACAATGATGATACGATCGGTTCTCTAATTGCTGAGGCTTTCGGAAAAGTAGGTAAAGAAGGAGTAATCACTGTAGAAGAAGCTAAAGGTACTGATACAACAGTAGATGTTGTAGAAGGGATGCAGTTCGACAGAGGATACCAGTCACCTTACTTCGTGACTAACCCTGAGAAAATGGTAGCAGAAGTAGAAAACCCATATATCCTTTTAGTAGAGAAGAAAATATCTTCAATGAAAGAATTACTTCCGGTTCTTGAGCCAATTGCACAAGGTGGTAAGTCTTTATTGATCATCTCTGAAGAAGTTGAAGGGGAAGCTTTAGCTACTTTGGTAGTAAACAAATTAAGAGGTTCTCTTAAAATTGCTGCTGTAAAAGCTCCGGGATTCGGAGACAGAAGAAAAGCAATGTTAGAAGATATCGCGATCCTTACAGGTGGACAGGTGATCTCTGAAGAGCAAGGTTTCACTATGGAAAACATCTCTTTAGATATGCTTGGAACTGCTGAGAAAGTAACGATCGACAAAGACAACACAACAGTTGTAAACGGTGGTGGTGATGAAGCGAAAATCAAAGGAAGAGTAGCTCAGATCAAAGCTCAGATGGAAACTACTACTTCTGACTACGACAGAGAGAAACTTCAGGAAAGATTAGCTAAGTTAGCTGGTGGTGTTGCTGTACTTTACGTAGGTGCTGCTTCTGAAGTAGAAATGAAAGAGAAAAAAGACAGAGTAGATGATGCACTACACGCTACAAGAGCTGCTGTAGAAGAAGGTATTGTTGCAGGTGGTGGTGTTGCTTTAGTAAGAGCAATCTCTTCACTAAACGAACTTTCTGGTGCTAACGCTGACGAAAATACAGGGATCAAAATAGTGAAAAGAGCTATCGAGGAGCCATTAAGACAAATCGTTGCCAACGCAGGTGGAGAAGGTTCTGTAATTGTTGCCAAAGTAGCAGAAGGATCAGGAGACTTCGGATACAATGCTAAAACTGACGAATACGTAAACATGCTTGAAGCAGGAATCATTGACCCAACTAAGGTAACAAGAGTTGCCCTTGAAAATGCAGCTTCTGTTTCAGGAATGCTTTTAACAACTGAATGTGTAATCACTGAAGTGAAAAAAGACGAACCAGCTATGCCAATGGGTGGTGGAATGCCGGGAATGATGTAA	MAKEIKFDIESRDALKRGVDALANAVKVTLGPKGRNVVIEKSFGAPHVTKDGVSVAKEIELEDKVENMGAQMVKEVASKTNDIAGDGTTTATVLAQAIVREGLKNVAAGANPMDLKRGIDKAVTQVVANLKSQSQEVGDSSEKIKQVASISANNDDTIGSLIAEAFGKVGKEGVITVEEAKGTDTTVDVVEGMQFDRGYQSPYFVTNPEKMVAEVENPYILLVEKKISSMKELLPVLEPIAQGGKSLLIISEEVEGEALATLVVNKLRGSLKIAAVKAPGFGDRRKAMLEDIAILTGGQVISEEQGFTMENISLDMLGTAEKVTIDKDNTTVVNGGGDEAKIKGRVAQIKAQMETTTSDYDREKLQERLAKLAGGVAVLYVGAASEVEMKEKKDRVDDALHATRAAVEEGIVAGGGVALVRAISSLNELSGANADENTGIKIVKRAIEEPLRQIVANAGGEGSVIVAKVAEGSGDFGYNAKTDEYVNMLEAGIIDPTKVTRVALENAASVSGMLLTTECVITEVKKDEPAMPMGGGMPGMM	PGPT0014570_5846	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
BMS003_01635	339			hypothetical protein	ATGTCAAAAAAAATTAATTCTTTATTCATTCCTCTTAGAGTAAATTTCAGGAAACATGGACCTGAAATTGCTGAAGACGTTTTTTACAGGTTTCACCCAGCAACATTAAATGTAGGTTCAGAGATTTGTGTCTTTTGTAAGGTGCAAAAGAAATTAACAAAAGAACATGTTCTCCCAAAATGGCTATTTCAAAATAAAACAAATATTGGATTCGAAATAAAAGTAAATCAGCAATCAATTTCTTATTTAAAAAGCGTCGTACCAGCATGTGAAAATTGTAACAATTCAATTTTAGCAGAGATCGAAAAAAAAAATAATATTTATTTTAGAAAATCTTAA	MSKKINSLFIPLRVNFRKHGPEIAEDVFYRFHPATLNVGSEICVFCKVQKKLTKEHVLPKWLFQNKTNIGFEIKVNQQSISYLKSVVPACENCNNSILAEIEKKNNIYFRKS				NA	NA	NA	NA	NA
BMS003_01636	762			hypothetical protein	ATGAAAAAACTTGAAAATAAACCTTTAACAGAATTTAGTAAACTATCAATTCAGGTTCAATCAACGAAAAAAGTAGATTTGTCAACTTCTGGGTTACCTTCAAAAGAACAAGAAGAACTTGTAAAAAAATTATTTCAAGAAATAGGAAAGTTAAAAGATAGTGGTAAGATTATTTTAGCCCAAAGTACTGGTTCAGAATCATATGTAATGGCGAAGATAATTCCAAGTAAAGCCAAGAATAATACTCTTGTATTTCCAGAGCCAAATCCAGTAACTATATATTATAATTGCGCAATTACACATTTAGAAGGTTCAATAGATTTACAAGCCAAAATAATTAAGAATTCTTGGAGTCCTTTAGATTTATATAATGAATTTATAATTTTTTTCAGCGAATCTTTTCAAGGAATTACTCAACTTTTAATGTCTCTTGAAGCATTATTTAATCAATTAATTCCTGATGATATTCAATTAATAAGAGATGAAAAAACTCTAACTAAAAGAGATATTGAATGGAAAGATTTCAAAGAAAAATATCGATATATTCTTCCTTTAATCAGTGAAGTAAATATATATCTGGATCATAATGAGGATTATCAAAATATAATAAGATTAAATGATATAAGGAATGATTTAATACATTTAAAATCCATTAAACAAGAAAATTTCACATACTATCAAACTTTATTTAAAACGTTAATTGATTTAGATTATAAGCGCTTTGCAAATTCAGTTCATAATATTATAATTTTACTCCAATAA	MKKLENKPLTEFSKLSIQVQSTKKVDLSTSGLPSKEQEELVKKLFQEIGKLKDSGKIILAQSTGSESYVMAKIIPSKAKNNTLVFPEPNPVTIYYNCAITHLEGSIDLQAKIIKNSWSPLDLYNEFIIFFSESFQGITQLLMSLEALFNQLIPDDIQLIRDEKTLTKRDIEWKDFKEKYRYILPLISEVNIYLDHNEDYQNIIRLNDIRNDLIHLKSIKQENFTYYQTLFKTLIDLDYKRFANSVHNIIILLQ				NA	NA	NA	NA	NA
BMS003_01637	234			hypothetical protein	ATGGATAGAATTGAATTTAGAATAGCTTTTGGTAAAAGAGTTGAAAAATTTAGAAAGAAGTTGGGATTAAGCTATCGGGAGTTAGCTCAAAAATGTGACGTAGACCATAGTAATATCAGCAAAATTGAAAAAGGAGAAGTTGATTTGAGAATTTCAACAATACAGGAACTATCTAAAGGCTTAGAAGTTCATCCTCAAGAATTATTCGATTTCAAAATAGATGAGAAATCCTGA	MDRIEFRIAFGKRVEKFRKKLGLSYRELAQKCDVDHSNISKIEKGEVDLRISTIQELSKGLEVHPQELFDFKIDEKS				NA	NA	NA	NA	NA
BMS003_01638	666			hypothetical protein	ATGGTACAATGGAGTGTACAATCCATTGCGGCTTTAGGGCTTGAAAAAACACAAATTCTATCATATTCATTGGCTTGTATGGGCAGGAAGTTCAGGCGGACTTCCTCCTTTACAGCCAGTAAAAAATCGTACAATAAAAATATGACAAAAAATAAAACAGACTTTCAATCCCCGCTTGGGAAAAGCCGAAAAAAACATTACGGCTTACAGCAGATGGAAGTATTTTTTCAGCTCAATGATCTGGCAGCATCCAAAAAACTTTTAAACAGCATTATGAGCTATGCCCTTAAAAGAAATAGCTGGATAAAAGAAGATCCGTCTGTTATTTATCATTTTCATCAGGCGATACGTTCATTTATCCGTGCAGGCTACCTTATCGTGCTGAAGGAAAAGAAATTGGTAGTCAATGCTCAGTTGGAGGATGTTCCTCCGTTGGTTCTTGGCTTGCTTACGGAGAAAGAATATCATAATCCTTTATTGGTGTTTAAAAAAGCTTTCAAAGAATACAGCATCAAAGAATTTGATTATTTTATTTCCGGAATGGTCTATTTCTCAATGGGAATCTATGATAAACTACCAGAAAGAAATATGATAAACCCGTATATTCATCTGATTAAAATGCTGGATGCAGCATATCTTATTATTAAAAGGAAAGGGAAAATATAA	MVQWSVQSIAALGLEKTQILSYSLACMGRKFRRTSSFTASKKSYNKNMTKNKTDFQSPLGKSRKKHYGLQQMEVFFQLNDLAASKKLLNSIMSYALKRNSWIKEDPSVIYHFHQAIRSFIRAGYLIVLKEKKLVVNAQLEDVPPLVLGLLTEKEYHNPLLVFKKAFKEYSIKEFDYFISGMVYFSMGIYDKLPERNMINPYIHLIKMLDAAYLIIKRKGKI				NA	NA	NA	NA	NA
BMS003_01639	642			hypothetical protein	ATGAAAACAAATTGCAACAAATGTAAAAATGAAGTGATTACTCTAAACTTTTCTGAAGAACAAAAGCTTGATCTTTATATTTTGATGCAAAACGATTTAAAAGTATTTGCTGAAAAAAAATTAATTGACGAATTCAATGTAGACAAAAATGAAGCAAAAATTATTATTCAACATTTAAACAATAGAAATGGCAGATGTGCAGCATGTGAGTTTGAAAAATTGAATGGAGAATATATTGAATGTCCCAATTGTGGTGCTTTTAATTATAATCTTAATGAACCCATGTTTAATTTAGAATTTTGCAATCATTTAGAATGGTCTCTGGATTTTAATAATATTGAAAATGAAAAGATAAAATATTATACGAAGACTTTTTGGTGTGATGGTATAAATCCTTTACCAGAAGACACAAAATCTCTACTTTATCATAATATTGAAAAAAACAGGCAAATAATAACAAAAGCCTGGATTGGATATAATGGCAATGAAATTTATGAAATGAAAATCAAGTTTGGGAAAAAAGCTATAGAAAATTATAAAAATAATAAAAGTTTAATAGAATGCATTCCAGAAAATAATGAAAATCCGAATTGGATAAAGTTATTTATGGAAGATAAAAAGATTGAAGTTCAATTAAAATAA	MKTNCNKCKNEVITLNFSEEQKLDLYILMQNDLKVFAEKKLIDEFNVDKNEAKIIIQHLNNRNGRCAACEFEKLNGEYIECPNCGAFNYNLNEPMFNLEFCNHLEWSLDFNNIENEKIKYYTKTFWCDGINPLPEDTKSLLYHNIEKNRQIITKAWIGYNGNEIYEMKIKFGKKAIENYKNNKSLIECIPENNENPNWIKLFMEDKKIEVQLK				NA	NA	NA	NA	NA
BMS003_01640	663			hypothetical protein	GTGGAAATAAAAACAAAATCCACCAACACTCTAATTTCCTATCCCCAGACTTTCTCTTATCTTTGTTTCAATAACGATCTGAACAATACTGACGATGTAATAACATCACCACAAAATATGGCAACAAAAGAAGAATTCTGGGATAGGAAAAAGAAATTAAATGATGATTTTTCCGTGATGGGCTCTGTAGCCAATCCTGCAACTGAAGAACAAATTAAAAAATATGAAGAAAGCACAGGGTTTAGCTTCAGTGAAGATATTAAGGATTTTCTGACCTCATTCGGTTCCTTACTTTTTGAAGTCAAAGAAGAGATCTGGAAACGTCCCCAGGAATTTGATGTTCTTCCAAGCTGGAAATTCGGATATGGCTTTTTTGTGTACGGACTTTCGCAGGATGAAGAAATGCCTTCATGGATGGGATTTGAAGAAAAACATCAGGAAGCCCTTGAGTATAAAGAAAAACCATTGGGACAATTATTTTTCAAGCGCAGCGGAAATCTCTACAGAGCCTATACCGACAACGGAGTGATAAAAATTGAGTATGACAAATACGACGAAGAAGATTACGAAGTATTTGAAGGAAATATTTATGATTTTTTAATTGAAGAAATTAATAATTTAGAACAGGATTATCTGGAATATATCAACGAAGAAAAACCCTGA	MEIKTKSTNTLISYPQTFSYLCFNNDLNNTDDVITSPQNMATKEEFWDRKKKLNDDFSVMGSVANPATEEQIKKYEESTGFSFSEDIKDFLTSFGSLLFEVKEEIWKRPQEFDVLPSWKFGYGFFVYGLSQDEEMPSWMGFEEKHQEALEYKEKPLGQLFFKRSGNLYRAYTDNGVIKIEYDKYDEEDYEVFEGNIYDFLIEEINNLEQDYLEYINEEKP				NA	NA	NA	NA	NA
BMS003_01641	1089	nanM		N-acetylneuraminate epimerase	ATGTCTGTAGGCAGAGGTGCCATCACCAGTGTCATTGTGGATGATAATATCTATGTAAGCAATGGATATCAGGAAACCGGAGGCAATGCCAATTATATTGAAAAATATAATATTACCAATAACAAATGGAGTGTTCTCAATGCTACGCTGAGTCCCAAAAAGTTTGCTAATTCGGAGATTTACGATAATAAAATCTATATTTTTAACGGTTGGGGAAACAGTCATCTTGAAATTGTAGACCTCGAAACCCACAAGGTAATGAAGGGAGCCGTTAATCGTTCCTATACAGGAAATGCAGGTTCTGCCATCCATAATGGTAAAATATATGTGTTTGGTGGCAGTGGACTCAACGGAGCTGCCACCACTGTATTTTCTAATAGATTTCAGTATTATGATATTGCGTCAGATACATGGCATCCATTACCTAATATGCCTAAAGCCAGAGAGGCCAAGGGCAAAATTGTAAATGATAAACTGTATGTCATTGGTGGTTTTAATGGTACTCCGTCCCGTCTGATCAATGTTTATGACCTCAACACCAACCTCTGGACCAATCAATACACAATGCCTGCGGGGATATCCGGACACACATTAGCGGTATCCGGCGATAAGATTTTTATTGCAGGCGGTTTTAATAATCAAGCTTTTCTGGCCTATTTTGATACTACAACCAATAAATTCCATCAGTTATCCTCCAATATGATTCCCAGAAGACACGCGGCAGCGGAAGTTCATAACAACAAATTATACATCATCGGCGGAAGTACAACATCTTCAACAAAATCAGCTATTAAAAGCATACAGGTGGCAAATATCAGTGATAGCACACTTGCCAATACAGCCAATGAAAACCGTATATTGGAAACAAAAGTTTATACCAATGTGCATAGAGACGGTTTTATCATCAGCAATAAAAATAACAGCAATCAGTTTGAATACACCGTTTACTCCACAGATGGAAAGCAGATCAGCAAAGGTTTTGCCTATTATAATAAAACGATAGGCCTATCCGGAGTACAACCAGGAAACTACATTTTCAGTTTTAAAGATGAGAAAGAGTTTTTGCAGCAGGTTAAAATTTTCAGATAA	MSVGRGAITSVIVDDNIYVSNGYQETGGNANYIEKYNITNNKWSVLNATLSPKKFANSEIYDNKIYIFNGWGNSHLEIVDLETHKVMKGAVNRSYTGNAGSAIHNGKIYVFGGSGLNGAATTVFSNRFQYYDIASDTWHPLPNMPKAREAKGKIVNDKLYVIGGFNGTPSRLINVYDLNTNLWTNQYTMPAGISGHTLAVSGDKIFIAGGFNNQAFLAYFDTTTNKFHQLSSNMIPRRHAAAEVHNNKLYIIGGSTTSSTKSAIKSIQVANISDSTLANTANENRILETKVYTNVHRDGFIISNKNNSNQFEYTVYSTDGKQISKGFAYYNKTIGLSGVQPGNYIFSFKDEKEFLQQVKIFR				NA	NA	NA	NA	NA
BMS003_01642	411			hypothetical protein	ATGATACATATCCATATTGATAAAATTAAAGAGAAGTGGACCAATGAAAATATCAAACTAAGTCCACCCGCAACACCAGAATCCATTAAAACAGTCGAAGAAATGATTGACTTTCATTTTCCGAATGATTTTAAAGAGTTTTATTTAAAGCTGGATGGATTTGAAGATTGGGACTGGACAAAGAATATGTTTTCCATCTGGCCATTAGCAAGAATTCTGGAGGAATATCATAATGAAAATGATAAGAGTTTCATTGTATTTGCAGACTATCTGATTAACGCGCATCATATTAGTTTTGTAAAAGGCAAAAACGGAGTGTTTAAAAATACTGGTGAGATACCTGTGAGGATTGCAGATACTTTTTCCGAAGCAATCTTTCTGATCAATTCGGATGCTGATATTCTGTATTGA	MIHIHIDKIKEKWTNENIKLSPPATPESIKTVEEMIDFHFPNDFKEFYLKLDGFEDWDWTKNMFSIWPLARILEEYHNENDKSFIVFADYLINAHHISFVKGKNGVFKNTGEIPVRIADTFSEAIFLINSDADILY				NA	NA	NA	NA	NA
BMS003_01643	327			hypothetical protein	ATGAAAATTGAATTAAAAACACTACTTTCAATCGAACACGAAGAGTTTCCTAAAGTTCTTGAGATCGATATTGATGAAAATTCATCGTCAATTGGAGAACTTATCTCTAAGATTCATGAATTGACAAATATTCCTACCCATATAGAACTGAAGTGGGATGATCAAATTGAAAATATATCCTGCATGCATTATGTATTAGAAAAGAAAGAATATGATGAGTATATTATGATTACAGATTTAGAAGAAAAAATTTGTAATTTTCCTAAGCACGGGCAAGGCGGATCGTTATTCTTATTCATAGAAGGAACCACTAGCCTTGTCAATTAA	MKIELKTLLSIEHEEFPKVLEIDIDENSSSIGELISKIHELTNIPTHIELKWDDQIENISCMHYVLEKKEYDEYIMITDLEEKICNFPKHGQGGSLFLFIEGTTSLVN				NA	NA	NA	NA	NA
BMS003_01644	696			hypothetical protein	TTGTCAATTAATTATACCTGGGGAGAGGATCTCAACCATCTGGAAATAGCAGAAAATCTAAGGCAGGGAAATTCTTTAATCATAATAAAAGGTTTTCCACTAGATGACGATGAATTACAGGTATTCACCAGTCGTTTAGGAGTTGTATTAAACGAAAAGCGGAATAATAACGGAAAAGCAGTTTTTGATGTAAAAATAATCTGTCGCAATAATTTTTTCACATCCATTGCCAATTCAAATTTAATTTTCCCTCTACATACGGACTGTGCTGATTTCGATACCATTCCCAACACTATAGGATTGCTGTGTGTGGAACCTGCAAACGAAGATCAGGGTACTAATAACTTTTTGCTATTAAATAACCTGCTAAAACATTTATCAGAGGATGAAAAACAGAAACTTTTGAACAAAAAGTGGAAATTCAGAAATGTGGAAAGAAGTATTTTGGAAGAAAAAAACGGAAAATATAAAATCTGCTATGACAGAATTACGATGGAATCTTTTTCAAATCTTACGCCCACTGAAAAAGAAGAACTAAGCAATCTGGATAAACTGTTCAATCATCTTTCTTTTAATATTAAATTAGAAAAAGGCGATTTGATTTTATTTAGAAATGATCTTATGCTTCATGGCCGAAGTTCTATTGATATCTGTTCCAATAGATTGGTAAAAAGGATTAGATTTACTATACATTAG	MSINYTWGEDLNHLEIAENLRQGNSLIIIKGFPLDDDELQVFTSRLGVVLNEKRNNNGKAVFDVKIICRNNFFTSIANSNLIFPLHTDCADFDTIPNTIGLLCVEPANEDQGTNNFLLLNNLLKHLSEDEKQKLLNKKWKFRNVERSILEEKNGKYKICYDRITMESFSNLTPTEKEELSNLDKLFNHLSFNIKLEKGDLILFRNDLMLHGRSSIDICSNRLVKRIRFTIH				NA	NA	NA	NA	NA
BMS003_01645	567			hypothetical protein	ATGCTCATAGAAAACAAAGGAATAAAAACAGACCTGTTTTACGTCCCTCCATTTACACTAAATGCAGGAGAAATTATTATTATAAATCTTTCCAACGGAGCGCACTTTTATAAAACGGAAATGTTTCTTAAGGATCTATTTTGTGGTAAGACATACCATGAAGATGTTATCATCCATAAAAAAATGACTTTTGTTGAACATTTCAGAGAATCGAAATTTAGAGACATTTTTTATCCTATGACCGTTGGAAAATATTTAAAGAAGAATGCAAATCCCACCAGTCCTTATACCGAAAAAATTTATGAGACGGAATGGATCAATAAAAAAATAAAAGTCAATACCCTTACAGGTAGCCCAAGACGATTACTATCATTGTATACTACTCTTTCAAATACAAATAATATTATTTTTGATTTAGTTGGACTAGGCCTTGATGAAGCCCAAGAAACGTATAAAATAGTACAAGAAGTAGTAAAAAAAGGAGGTTCAGCAATTTTACTCGACGGATATGATGATATGAAAAATGAATGTACGAAATACATTGAGCTGCAATGGACAAAAGCATAA	MLIENKGIKTDLFYVPPFTLNAGEIIIINLSNGAHFYKTEMFLKDLFCGKTYHEDVIIHKKMTFVEHFRESKFRDIFYPMTVGKYLKKNANPTSPYTEKIYETEWINKKIKVNTLTGSPRRLLSLYTTLSNTNNIIFDLVGLGLDEAQETYKIVQEVVKKGGSAILLDGYDDMKNECTKYIELQWTKA				NA	NA	NA	NA	NA
BMS003_01646	660			hypothetical protein	ATGAAAAAAGCATTTAAATTTCTCACTCATCTAAAGGAAAACAATAATCGGGAATGGTTTGCTGAGCACAAATCTGAATATGAAGCTATTGTAAAAGAAAATAAAGTTCTTTTTACACATATCTATAATGAGCTTCAGGAGCATGATCAGCTGAAAGGAATTCATATTTTCAGAATTTACAATGATGTTCGTTTTTCCAAAGACAAGACACCGTATAAAACCAATTTCGGAGTTGGATATTCCCGTTCAAAACCTATGCTGAGAGGAGGATATTATATTCAGCTGGAACCGGGTAACAGCTTTGTGGGAGGTGGTTTTTGGGGGCCTGAAGCCAAAGATTTACTGCGTATCCGTAAAGAATTGGAAATCAGCACCACAGAAATTGAAAAAATTATCTCAGACAAAACTTTTGTAAAATATTTTAAAGAGATTAAAGGAGGTTCTGTAAAAACAGCACCACGGGGTTTTGATAAGAATCATCCGGCTATAGATTTAATAAGAAAAAAGCAGTTTCTGGTGATGAGGAATTTCACCGATAAGGAAGTTTTATCTGACAGTTTTCAAAAAGAAGCGATGCTAACCTTGCTGGCAATGCGCCCATTTTTTGATTATATGAGCGAAATTCTGACTACGGATCTGAACGGAGAACCTTTATTTTAA	MKKAFKFLTHLKENNNREWFAEHKSEYEAIVKENKVLFTHIYNELQEHDQLKGIHIFRIYNDVRFSKDKTPYKTNFGVGYSRSKPMLRGGYYIQLEPGNSFVGGGFWGPEAKDLLRIRKELEISTTEIEKIISDKTFVKYFKEIKGGSVKTAPRGFDKNHPAIDLIRKKQFLVMRNFTDKEVLSDSFQKEAMLTLLAMRPFFDYMSEILTTDLNGEPLF				NA	NA	NA	NA	NA
BMS003_01647	555			hypothetical protein	ATGAAAAACATCTTATTATTCATTATCACTACTTTTATACTTTTGAGTTGTTCTGAAAATTCACAAAAAACAAAATTACTGAACTTTGACAGCTTTACAATTCAAGCACCCAAGGATTGGAAAAAAACAAAATCGAATTCTTACGATAGCAATGCCGGCATCATTGTCACAAAAGACAATGATACCATTTTTTACGATTATGGACCTTATTCATATTCATTAGAAGAAAACGTCACAATTATCAGCAGAAAAGATTTCAACGAACTTCTAAAAGTGAATCCAAACGCTGGTACAACAGAATTTATTGTCATTGATAAAAATGCCAATAGAGAAGATTTTATTAAAAGTAAAATAACCTATCAAAAAATTGATGGATACAGGGCAAAAATATTAGAACCAAAAAAAGTTGGAAAAGGAATAACCGGAATTTATATAGACAGCCTCAAGACTGGATCAATAGGAAAAATAAGCTTTAACTTATATGGAACAAACCTATCAAAACAAAGCCAGACAGAACTTCTAAACGTTATTCATACTTTACAGTTTTCCCACTAA	MKNILLFIITTFILLSCSENSQKTKLLNFDSFTIQAPKDWKKTKSNSYDSNAGIIVTKDNDTIFYDYGPYSYSLEENVTIISRKDFNELLKVNPNAGTTEFIVIDKNANREDFIKSKITYQKIDGYRAKILEPKKVGKGITGIYIDSLKTGSIGKISFNLYGTNLSKQSQTELLNVIHTLQFSH				NA	NA	NA	NA	NA
BMS003_01648	465			hypothetical protein	ATGAATCAAAATCAACAATATGAAGACTTCTTTCAACAAAGCAGTTCATATTACCTTGAAAAACTAAACCTTTTTGAAAAAGGGAAAAAATTTACCTTTAACTACGCTGCTTTTATTTTTGGAGTGTTTTGGTTCCTCTATAGAAAAATGTATCTGGAAGCCATACTCATTTACTCCTTATTCTATATTGAAGACTATTTTGAAAGTTTTTTCTTAGCCAGAGTAATCGGAATAGAACAAACCAAACTGGTTAGCTATAGTGTTTCAATCATTATACTCATTATAATAGGCTTTTGTGGAAATCTTCTTTACTTCAACAAAGCAAAAAGAACAATAAAAAAAGCAGAGGAAAAATTCCCGGAATATGAACTGCAAAAAGAATATTTAAACAAAAAGGGAGGAACAACCCTTCTGTATGCAATTATTTTATTGATTATAATCATTGCAGCAACAGCTTTGAGTTAA	MNQNQQYEDFFQQSSSYYLEKLNLFEKGKKFTFNYAAFIFGVFWFLYRKMYLEAILIYSLFYIEDYFESFFLARVIGIEQTKLVSYSVSIIILIIIGFCGNLLYFNKAKRTIKKAEEKFPEYELQKEYLNKKGGTTLLYAIILLIIIIAATALS				NA	NA	NA	NA	NA
BMS003_01649	771			hypothetical protein	ATGACAGAATATACTATTTCGTTTTCTAATATAAAAAACACCAACTTTGGAATAAAACCCATCTGTCATTTTATCCTGCCCTTTCTGATTTTTTCGTGCATATGCTGTAAAAAAGTTCAGGATAATGACCGTTTTATTACCTATCGGGCAAATCCTGAGAAACAAAACATAACGATGTTCTGGAAAAGTAATACAGGAGAAATACTTAAAAGTATAGATCACCTGAACCAATATGTTCAATTTAAAAATGAAAAATTAGTTTTTGCGATGAACGGCGGGATGTTTGAGCCAGACAATGCTCCGAAAGGTTTGTATATCGAAAATTTTAAAATACTAAAATCCATAGATACACTACAGGGTATGGGAAATTTTTATCTTCAGACTAACGGAATATTGTATGTGACCCAAAACAATCAAGCTGGAATTGTTGAAACTAAAAAATACAGACAGTATAAAGACATCAGATACGCCACCCAGTCCGGGCCAATGTTGATCACAAATGGAAAAGTCAATCCAATTTTCCAGAAAGATTCTAAAAATCTGAATATCAGAAACGGTGTAGGAATTCTGAACAACGGAGAGCTTATTTTTGCTATGTCTAAGGAAGAAATCAGCTTTTATCAGCTGGCGGCATACTTTAAAAGCTTAGACTGTAAAGAGGCGCTCTATCTTGATGGATTTGTCTCAAGAACTTATCTCCCCGCAAAAAACTGGATGCAGAAAGACGGAAATTTTGGAGTGATTATAGGGGTTACAGAATCTTTAAAATAA	MTEYTISFSNIKNTNFGIKPICHFILPFLIFSCICCKKVQDNDRFITYRANPEKQNITMFWKSNTGEILKSIDHLNQYVQFKNEKLVFAMNGGMFEPDNAPKGLYIENFKILKSIDTLQGMGNFYLQTNGILYVTQNNQAGIVETKKYRQYKDIRYATQSGPMLITNGKVNPIFQKDSKNLNIRNGVGILNNGELIFAMSKEEISFYQLAAYFKSLDCKEALYLDGFVSRTYLPAKNWMQKDGNFGVIIGVTESLK				NA	NA	NA	NA	NA
BMS003_01650	519			hypothetical protein	ATGAAAAAAATAATTGCAGCCGCAAGCCTGATCTTAGTTCTTACTCTTTTTTACTATCCTGTTTTTGATGATAAAAAAATTTCATTTGCCATTATTTTTCTTTGCTGTGTTGTTCTTATATTTTCAGTAGCAAAATGGTATTCTCCTGGTTATAAAGAAAATTATGAGTCATTCGAAAAAGAAATGGATGACCTGCATAAATTTGACGGGATCTTCAAGTACACAAACGAAGGTTTTTATTTCAAGCAAAATAATGAAACCGAATTTATAAAATGGGATGAAGTCATTTCAGTGTATTCATTTACCATTCCTTCTCCATTTGATGAGTGGCAATCCGGGCTGGAGGTTATTGTCTATGAAAAAAGTTATGAATTTGATTACAAAGTAACACCCGGCGTAATAAAATTAAAAGATCAACTTTCTTCAAATCTTCCCACTTGGGAACTGGATTCACCAACGGTTAGAATCAACAATTTTGGGCTTGAGAAGACCCTGCTGTTTGAAAGAAAAACCGTATAA	MKKIIAAASLILVLTLFYYPVFDDKKISFAIIFLCCVVLIFSVAKWYSPGYKENYESFEKEMDDLHKFDGIFKYTNEGFYFKQNNETEFIKWDEVISVYSFTIPSPFDEWQSGLEVIVYEKSYEFDYKVTPGVIKLKDQLSSNLPTWELDSPTVRINNFGLEKTLLFERKTV				NA	NA	NA	NA	NA
BMS003_01651	504			hypothetical protein	ATGCCAATCACTATTAAAATAAAGAACAAGACTAATTGGGTGGTTACCATTGTACTGGGTTTTGGTTTATTGATGGCTTCTTTTATTATTCTGATTATTATTCCTCTTACAACTCTTCAGGAGCAAGGGTTTTATGCTGTTATAAACTTTTTTTCGTCTGTTATTCCTTTTGCTGCTTTTTTTATACTGTTCTTATATTTCTGGCTATGGAATACCTTTGGAAAAATAATTCTCACTATTGAACCCGAACAAATAGCAATCCGATATAAAAACAAGTTGTTTACAAAGCCAAGGATCTATCTAAAAAAAGACATTCGGCAGTTTCTGGTAAAAGATTTCAAAGTAGAAAAGTCTAAATTGGGCACTCGTTATCACTTTTCTCTGAGTGGCTCAACCTATTCTGTTGTTCTTACACACAATGGCAACGAAATAAGAATTGTTGATTGGATTACCGAAACCAAAGCCAGTGAAATAGTAGATGAAATAAAAAAAATGGGGTATTAA	MPITIKIKNKTNWVVTIVLGFGLLMASFIILIIIPLTTLQEQGFYAVINFFSSVIPFAAFFILFLYFWLWNTFGKIILTIEPEQIAIRYKNKLFTKPRIYLKKDIRQFLVKDFKVEKSKLGTRYHFSLSGSTYSVVLTHNGNEIRIVDWITETKASEIVDEIKKMGY				NA	NA	NA	NA	NA
BMS003_01652	162			hypothetical protein	ATGGTTATATCTTTACCGAAACAAAAAAGAAATTTCATAGCAGAGTTTCATTCTGAAAATTTCAGAAACACTAAACTTTACAGAACTTTACCACACGAATTTGGACCTTATATTCATTACTTGGAAATTGTTGAAAGATCTGGATATAAAGATAAATTCTAG	MVISLPKQKRNFIAEFHSENFRNTKLYRTLPHEFGPYIHYLEIVERSGYKDKF				NA	NA	NA	NA	NA
BMS003_01653	384			hypothetical protein	ATGCCTCATTTTATTATAGATTGTTCACAGGATATTCTACAGCAGAGAACACCAGACGAGTTAATGGATGCCGTTTACAGAGCAGCTGATGCTACAGGCCTGTTCGTCACTCATGACATCAAAGTAAGGCTTCAGCCCTATCAGTATTACAGATTAGGTGAAGGTAAAAAAAACTTTCTGCATGTCTTTGGATATATCATGCAGGGTCGCAGTACGGATCAGAAAGCTCATCTTTCACAACAGGTCAGTACACGGCTTTCAGAATTATTGCCTGACATCTCTTTTCTTTCTGTAAATATCGGTGATTTTGAAGCCGCAACTTACAGCAACAAAGCACTCATCAATCCTGAGAATACAAACAAAAACAGGCATTTCGGATTATAA	MPHFIIDCSQDILQQRTPDELMDAVYRAADATGLFVTHDIKVRLQPYQYYRLGEGKKNFLHVFGYIMQGRSTDQKAHLSQQVSTRLSELLPDISFLSVNIGDFEAATYSNKALINPENTNKNRHFGL				NA	NA	NA	NA	NA
BMS003_01654	504			hypothetical protein	ATGAGCCTAAAAACATTAGTCAACAAAACCGTACAGTATAACAATTGGGTAGTTAATAAGTATATCGACTGGTTATCCACAAAGTCTGATGAACAGCTAAATCAGGAGACAATTTCAAGCTTTCCGACTATTTTGAAAACACTACACCACATCTGGCAATCTCAGGAATACTGGTGGAGTCATATTTCTGAAAAGAATGATTTTGATTTTACTAAAACAACAGAAACCACCAGCAAGGAAGATATTTTCGACGCGATAAGAAAAAATTCACAAATGTTGGTAGATTATGTGGAAAGCTTATCTGAGGAAGATCTTTCAAAAAATGTAAAGGTAGAATCCCAATGGTTTCAATGTGATTTTTCCAAGTATGAATATATCCAGCATGCCATCATCCATGGAACCTATCACAGAGGGCAGATCGTAACAATGGGAAGAAATATCGGAATCACGGATGCTCCCATGACGGATTTTAACTTCTGGAATATTTATAAAGACCAGCAATAA	MSLKTLVNKTVQYNNWVVNKYIDWLSTKSDEQLNQETISSFPTILKTLHHIWQSQEYWWSHISEKNDFDFTKTTETTSKEDIFDAIRKNSQMLVDYVESLSEEDLSKNVKVESQWFQCDFSKYEYIQHAIIHGTYHRGQIVTMGRNIGITDAPMTDFNFWNIYKDQQ				NA	NA	NA	NA	NA
BMS003_01655	780	ydjP	COG0596	AB hydrolase superfamily protein YdjP	ATGGAAAAATATGCAGCATCATCAGACGGCCAGAAAATTTATTATAAAGAATCCGGAAATGGAAATACAACCCTGCTCTTCATTCATGGATGGCTTGGAAATACTGAATGGTGGGATGTTCAGCAAAAATATCTGAACAGCCAATATCATATTGTACAAATGGATCTTGCAGGGCACGGAAAATCTGATTCTTCAAGACAGGAATGGACGAGCGCCCGATATGCAGATGACATTAAAGCAGTTGCCGATACTGTCGAATCAGATGAGATCATTCTTGTAGGACATTCTATGTCCGGAGCCTATGTACTTGAAGCATCGTTGAAAATTCCGCAGGTAAAAGCCTTGATACTGATTGATACACTGAAAAATTTAGATGAAGCTTTTACGGAACAGCAGGCCGAAGAAATTTTATTCACACAGTACATGAAAGATTTTAAATATGCTGTGGAAAACTTTTTGCCTCAATACCTCTTCGTTGATCAAACTCCTGCTCATGTAAAAGAAAGATTGCAACACGAATTTCTTCAGAATGATCCAAAACTAGCCATCAATCTTCTCAGACCTCTATATAAAACAGATTTCAACACCATTGCAAAACAAGTTCAAATACCTGTCATCGCTATCAATTCTGACGCCTCTCCTACTGATCCGGAAGCCAACCGCAAATATTTGAAAAACTATGATTATGTTACTATTGAGGAAGTCGGGCATTATCCTATGCTGGAAAAGCCGGATGAATTCAATGTTATTTTAGATGATGTTCTGAAAAGATTAAATTAA	MEKYAASSDGQKIYYKESGNGNTTLLFIHGWLGNTEWWDVQQKYLNSQYHIVQMDLAGHGKSDSSRQEWTSARYADDIKAVADTVESDEIILVGHSMSGAYVLEASLKIPQVKALILIDTLKNLDEAFTEQQAEEILFTQYMKDFKYAVENFLPQYLFVDQTPAHVKERLQHEFLQNDPKLAINLLRPLYKTDFNTIAKQVQIPVIAINSDASPTDPEANRKYLKNYDYVTIEEVGHYPMLEKPDEFNVILDDVLKRLN	PGPT0013125_2873	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS003_01657	648	ribB	COG0108	3,4-dihydroxy-2-butanone 4-phosphate synthase	ATGGAAAAATTATTAGAACAATTCGGAGCTACCTCCAAAGAGCGTGTAGAAAAAGCACTTCAGACATTACAACAGGGAAAAGGCATTCTATTAGTAGATGATGAAAACCGCGAAAACGAAGGTGATATCATCTTTCCTGCTTCCACTATTACAGAACAGGACATGGCACTTCTGATCCGCGAATGCAGCGGCATTGTCTGCCTGTGCATTTCTGAGGAAAAAAGCCGCCACCTCAACCTTCGTCCGATGGTGGAAGATAACAACTCAAAAAATCAAACCGCATTTACCATTTCTATTGAAGCCAGAGAAGGTGTAGAATCAGGGGTTTCTGCAAAAGACCGAGTAACAACGATCAGAACTGCCGTAGCAGAAAACGCTGTGGCAGAACACATCGCAAGTCCGGGACATGTATTCCCATTAATTGCCAGAAAAGATGGAGTATTTGAAAGACGCGGCCATACGGAAGGGAGCGTAGATCTTGTAAAAATGGCCAACCTGGGAGACGATGCCGTACTTTGTGAGCTTACCAACGAGGACGGATCTATGGCAAGACTTCCGGAAATCGTAGATTTTGCTATCAAAAAAGGAATGAGCGTTGTTACTATTGAAGACATCTATGCTTATCGTAAAATGATCATGAGCAACTAA	MEKLLEQFGATSKERVEKALQTLQQGKGILLVDDENRENEGDIIFPASTITEQDMALLIRECSGIVCLCISEEKSRHLNLRPMVEDNNSKNQTAFTISIEAREGVESGVSAKDRVTTIRTAVAENAVAEHIASPGHVFPLIARKDGVFERRGHTEGSVDLVKMANLGDDAVLCELTNEDGSMARLPEIVDFAIKKGMSVVTIEDIYAYRKMIMSN	PGPT0008600_957	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
BMS003_01658	240			hypothetical protein	GTGAAAAAAGAAAATTCTGTGGTTTATCCTAACCCTGCGAAAGACTTTATTGGTTTCAAAGGAAATACTGAAAACTACTCTAAAGCAAATATCTACAGCCTGGATGGAAAACTGGTTAAAACCTCAGAGATAAAATCCGGAAACATTCAGATTTCAGATCTTCCACCAGCTTCTTATTTCATTGAGCTCAGTGGAAAAAATACCGCGGACAAAAAGAACACAAAGTTTATTAAGAAATAA	MKKENSVVYPNPAKDFIGFKGNTENYSKANIYSLDGKLVKTSEIKSGNIQISDLPPASYFIELSGKNTADKKNTKFIKK				NA	NA	NA	NA	NA
BMS003_01659	2085			hypothetical protein	ATGAAAAAAACTATATATACCATTTTCTTTCTTTGCGGAGTTTTAATGTACTCTCAGGAGAAGAAAAATGATACAGCTGATGCAGTGGCACCGAAAGAGATTCAGGAAGTTATTTTAAAATCACAACGCAAAAAGCAGTTTGCAGATAAGGCTGTATATACTTTTGACAAAGAGGCGCTGGAAAAAGCGCGCTATGCAAAAGACTTACTCCGCACTCTTCCGGAATTACAGCTGGATCCGGTTTCCAATACCATTACCAGTACCAAAGGAGGAACTACATTATTCCTTATCAATGGTATTGAGGCTACAGATATGCAGATCCGGAGTGTAGCTCCCGGTGAAGTTGTGAAAGTGGAGTATTATGATATTCCTCCTGCCAGATGGGCAACAAGAGCAGATACAGTAGTGAATATTCTGACGAGATCCATAGAAACAGGGTATGTTTTCGGAGCTGATGTTTCTACGGCTTTAAATACAGGATTTGTGAATGGTTCTGCTTACGCAAACTATACAAAAGGGAAAAATAATTTCGGACTGGAATATGCTCTCAACCTTAGGGATTATAGTGACAGAAGGGTAAACAGTATCTATGATTATCAGCTGAACGGAACGCATTACCGGTCCGACGAAAACAGGAAGGATCATATCGGGTATACTTTCCAGAATGTTGTCTTGCGCTATACAAGGCTTGTTCCGGATAATTATGCTTTTCAGGCTAAGCTGAATATGGATATTTTCAGCAGATTTTCAAAAGGTGTTGGCCAGAGTGTCTTTACCGAAGATAACCTGAAAGAAGAACACAATATGTTTAAAAATAACGGTTCAGAGTATGTAATTCCTAAGCTGGATCTTTATTATTCCAAAAAGATCAGTGAAAAGGATGAACTGAGTATTAACCTGGTAGGATCTCATTATACTACAAATACTACAGAAACAGCCAAAGAATGGATTGTGGGTTCAGGGCTGTCCGTATATAACAATGATATGGACCTGAAAGCCAGGCAAACGAGTCTGGTGGGAGAGCTTGCTCACAGTCATGATTTTAAAGCCGGGAAGCTTTCTTCGGGGTACCGGATTTCGAGATCTTCTATCTCCAATGATCTGAATAATCTTGCAGGATATTCTGAATACAGCGTTATCTATCTGGAACAGTATTTTTATACGGAATTTGCCGGAAAAGTGAATAAATTCAGCTACCGTATCGGAGCAGGACTTACCAATATCCACAACAAAAGTGCAGAAAATACTTTTGATGAATGGACTTTTACGCCGAAAGTTATTTTAGCGTATCAGGTTAAAGGAAATCAGAATCTTCGTTTTACAGCAAGTTACAATCCGGTAAGCCCTTGGAGTAATGCTTTGAGTAGCAATGTGGTGCAGCTGGCGCCTAATATTGTTCAGAGAGGAAATCCGTTTCTGGAATCCCAGCGGGTATTTTCTAACAACCTGACCTATTCTTTTAATAATAAATATTTTGATTTTAATGCAGGCTTGTTTTACAGGTATACCAACAGGGTTATCAATCAATACTATGTTCAGGATGATGTATTGAGAGGGTATGCCCTGACTTATGAAAACGGTAGAAACGGGCAAAGATATGGGGTTCAGTTAACAGGATCTTATAAACCATTTGGAAACAGTTTACTTGTTATAAAAGCAGTCATCACCCCAACTTCAGAGACGGTAAGAACAGGCAAAGGGGCTCTGATCAAAAATGATTATTTAGGAAATTATTTTTCCCTTTCTTCGGAATATAAATCGTTTTCAGTGCAGTACCAGTTTAATATTCCTGTTTACAGCCTAAGTGGGGCGTTCCTCAATACGAATGAAAATCAGAATAATATTTTTGTGAGCTATAAACACAAAAACTGGACATTCTCCACCGGAATGTACTGGATTGGAATGCCTTCAGAGTACAAAACGAAAAGCCTGCCGGAAAGTTTAGTAGATTACAAAGTCAATACACAGATCATGAACAATAAATCAATGTTTGTATTGGGACTGAGCTATGATTTTTCCAAAGGTAAAAAGACGGAAATTCAGCGGAAACTTAATAACGAAACAGCTCCTGCGGCTACTTTTTAA	MKKTIYTIFFLCGVLMYSQEKKNDTADAVAPKEIQEVILKSQRKKQFADKAVYTFDKEALEKARYAKDLLRTLPELQLDPVSNTITSTKGGTTLFLINGIEATDMQIRSVAPGEVVKVEYYDIPPARWATRADTVVNILTRSIETGYVFGADVSTALNTGFVNGSAYANYTKGKNNFGLEYALNLRDYSDRRVNSIYDYQLNGTHYRSDENRKDHIGYTFQNVVLRYTRLVPDNYAFQAKLNMDIFSRFSKGVGQSVFTEDNLKEEHNMFKNNGSEYVIPKLDLYYSKKISEKDELSINLVGSHYTTNTTETAKEWIVGSGLSVYNNDMDLKARQTSLVGELAHSHDFKAGKLSSGYRISRSSISNDLNNLAGYSEYSVIYLEQYFYTEFAGKVNKFSYRIGAGLTNIHNKSAENTFDEWTFTPKVILAYQVKGNQNLRFTASYNPVSPWSNALSSNVVQLAPNIVQRGNPFLESQRVFSNNLTYSFNNKYFDFNAGLFYRYTNRVINQYYVQDDVLRGYALTYENGRNGQRYGVQLTGSYKPFGNSLLVIKAVITPTSETVRTGKGALIKNDYLGNYFSLSSEYKSFSVQYQFNIPVYSLSGAFLNTNENQNNIFVSYKHKNWTFSTGMYWIGMPSEYKTKSLPESLVDYKVNTQIMNNKSMFVLGLSYDFSKGKKTEIQRKLNNETAPAATF				NA	NA	NA	NA	NA
BMS003_01660	753			hypothetical protein	ATGAAAAAAGTATTCATATTAATTCCGTGCTTCCTGTTTTCTATTTTGGGAGCTCAGGAAATTCAAAACAGCCCGGCAGAAAAGATGAATATCATCAAGACCAATGTCACAGCTTATACATTCAGAAATATTAACCTGTCTTATGAACGTGCCATCACCCAATGGTTTTCTTTGAATATAGGATTCGGAACAATGCCGGAAGGGAAAGTTCCTTTCATTAATGCTTTCCTGAAAGATGAAGATGAGAAAAGATTTCAGAATCTGAAAGTAAAAGCAACTAACTTTACGATAGAGCCCAGGTTTTATATAGGAAAAGGGTATGGAAAAGGATTTTATTTTGCTCCATATTATCGCTATTCCGATGTTTCCTCCAATAATTTTGATTTTTATTATGACTACAATGGTCCTGATGGAAATACCTATCCAATTCCATTGAAAGGACAGGGAGATACAAAAGGGAACAGCGGTGGATTGATGCTTGGTGTACAGTTCTTTTTGACTAGAAGCCAGAATCTTATACTTGATTTCTGGATTGCGGGAGCACACTATGGAAGCGGGAGTGGTGATTTTACCATGACCTCAGATTATGTACTGACTCCTGATATGCAGGCTCAGCTTAAAAAAGAAATTGAAAATCTGGATATTCCATTTGTAAAATATACCGTGGAAACCAATGCCAATGGTGCCAGAATAAAAGTGGACGGTCCCTGGGCAGGCTTCAGAAGCGGACTTTCAATAGGTTATAGATTTTAA	MKKVFILIPCFLFSILGAQEIQNSPAEKMNIIKTNVTAYTFRNINLSYERAITQWFSLNIGFGTMPEGKVPFINAFLKDEDEKRFQNLKVKATNFTIEPRFYIGKGYGKGFYFAPYYRYSDVSSNNFDFYYDYNGPDGNTYPIPLKGQGDTKGNSGGLMLGVQFFLTRSQNLILDFWIAGAHYGSGSGDFTMTSDYVLTPDMQAQLKKEIENLDIPFVKYTVETNANGARIKVDGPWAGFRSGLSIGYRF				NA	NA	NA	NA	NA
BMS003_01661	1293	kgtP		Alpha-ketoglutarate permease	ATGAATTCAACCTCTATTACCACAGGCCAAAGAATCAAAGCCATTATAGGCGGATCTATCGGAAATCTTGTTGAATGGTATGACTGGTATGCCTACGCAGCGTTTGCCATTTATTTCTCTCATTCATTCTTCCCGGATTCTGACCTGAATGCTCAACTGATGAATACTGCCGGAATATTTGCTGTAGGTTTTCTTATGCGTCCAATTGGCGGATGGATGTTTGGAAGTATTGCGGATAAAGTCGGAAGAAAAAAAGCAATGACCCTTTCTGTTCTTCTTATGTCTTTTGGTTCTTTGCTGATTGCCCTTACTCCTACTTACCAGTCTATTGGTATTTTAGCCCCACTATTACTTTTGCTGGCCAGATTACTTCAGGGTCTGAGTGTTGGTGGTGAATACGGCGTTTCCGCAACCTACCTCAGCGAAATGGCTACCCAGGACAGAAGAGGTTTTTATTCAAGTTTTCAATATGTCACACTGATTGGCGGACAGCTCATAGCATTGGGAATTCAGCTTATTTTACAGAAATTATTATTAACAGAAGCCCAACTTGAGGAATGGGGATGGAGAATTCCTTTTGTAATTGGAGCTATGCTCTCCATTATTGCATTATACCTCCGGGCAAACCTTCATGAGACTGAAGCTTTTGAGAATAAAAAAGAAGTCAGCGAAAGGAAAAAGGGAACCCTAAAAGAGCTTCTGAAACACCCAAGAGCTCTGCTTACAGTGGTAGGGCTTACTTTAGGAGGAACTCTGGCTTTTTATACCTATACCACTTATATGCAGAAATTCCTGGTTAATACCGTACATCTTACAAAGGAAGAATCTACATTAGTCTCTTTTATTTCACTTTTTATTTTTGCATGTCTTCAACCTGTATTCGGAGGATTGTCTGACAAAATAGGAAGAAGACCGCTCCTGTTAGGTTTTGGTATTCTGGGAACTTTATGTACCGTTCCTCTTCTTACAGCGTTAAGTACCACAGCTTCAATATGGGGTGCATTTTTTCTGATTATGGCTGCTTTAATTATTGTAAGTGGCTACACATCCATCAATGCCGTAGTAAAAGCTGAGCTTTTTCCTTCCGAGATCAGGGCGCTTGGTGTGGGCTTACCCTATGCCATTACTGTTGCGGTATTTGGAGGAACTGCAGAATATATTGCGCTTTGGTTCAAACAAATCGGTTCCGAAGAATATTTTTACTGGTATATTACCGGATGCATCCTTTTCTCTTTAATTGTTTATATCGGGATGAAAGATACCAGGAAGACCTCTACACTGGATAAAGACTAA	MNSTSITTGQRIKAIIGGSIGNLVEWYDWYAYAAFAIYFSHSFFPDSDLNAQLMNTAGIFAVGFLMRPIGGWMFGSIADKVGRKKAMTLSVLLMSFGSLLIALTPTYQSIGILAPLLLLLARLLQGLSVGGEYGVSATYLSEMATQDRRGFYSSFQYVTLIGGQLIALGIQLILQKLLLTEAQLEEWGWRIPFVIGAMLSIIALYLRANLHETEAFENKKEVSERKKGTLKELLKHPRALLTVVGLTLGGTLAFYTYTTYMQKFLVNTVHLTKEESTLVSFISLFIFACLQPVFGGLSDKIGRRPLLLGFGILGTLCTVPLLTALSTTASIWGAFFLIMAALIIVSGYTSINAVVKAELFPSEIRALGVGLPYAITVAVFGGTAEYIALWFKQIGSEEYFYWYITGCILFSLIVYIGMKDTRKTSTLDKD	PGPT0001525_1189	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
BMS003_01662	213			hypothetical protein	ATGAGTAGTATCCAAGATGAATTTAAAGTCTTCAAAGACGAATTAAGAAAGTTGAATATCGAAGTACAGAAAGTTGTAAAAGTAGGAAACGGAAGTATGGATTTCCACGAAGTTTTCTATAAATCGCCGAGGTATGAAGAGGTAAAAAGCATATACGTCCAGCGTCATAACCTGGATAGTATGATTGAAAAATTTAAACAGGCCTATCACTAA	MSSIQDEFKVFKDELRKLNIEVQKVVKVGNGSMDFHEVFYKSPRYEEVKSIYVQRHNLDSMIEKFKQAYH				NA	NA	NA	NA	NA
BMS003_01663	675			hypothetical protein	ATGAATATTAAAGCATTCTTCTCCTTATTCTCTCTAATCATGCTTACTTTCCTTCATGCTCAGAAAATGGAATTTAAGGCTCCTGATTATGCTGCCATTCAAAAAAATATTGAGGATAAAAATTCAGAATTCTATTATCCGAAGCTTTTAAAAAGATTAAAACAGAACGATACGCTGTTTACCGGCAATCAATACCGCCATCTTTACTTCGGTTATACTTTTCAAAAAGCATATCAACCCTATAAAACAGGAAGGAAAGCTGAAGAAGTGGCCAAATATTACCGTGGAGAAGGTATTTCACAAAAAGATCTTTCAAAAGGAATTCAGCTGTTTCTGGACGCATTGGACGAAAACCCGCTGGATCTGCGAGCCATGAACTATCTTGCTTATCTCTATCATTTAAATAATGACGATGCTACTGCTGAAAAAATTGCAGGAAATTTCCATGGTTTATTGAACGCTATTCTTACTTCCGGTGATGGACTGAAATGTGAGACAGGCTTTCACGTCATTTCTGTTACAGATGAATATGTACTTCTGAACAGGTTTCAAATGGAAACAAAATCCCAAAGTATGAAAGGAAAATGTGATTACCTGGAGTTTGAAAAAGACAAATATAAAATTCCCGGGTTTTATTTTGATATCAGCAGATTTTATGGAAGAATAGTAGATTAA	MNIKAFFSLFSLIMLTFLHAQKMEFKAPDYAAIQKNIEDKNSEFYYPKLLKRLKQNDTLFTGNQYRHLYFGYTFQKAYQPYKTGRKAEEVAKYYRGEGISQKDLSKGIQLFLDALDENPLDLRAMNYLAYLYHLNNDDATAEKIAGNFHGLLNAILTSGDGLKCETGFHVISVTDEYVLLNRFQMETKSQSMKGKCDYLEFEKDKYKIPGFYFDISRFYGRIVD				NA	NA	NA	NA	NA
BMS003_01664	852	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAAAAAATTCACTTTCCTTCTTATCATCATGTTATTTTTTTTAGCGGTATGCAATATATTCGGGCAGGAAACAAAATATCCTTTCGAAGTAAAGAAAACCGGAAAAGGGAACCAGTCTTTACTATTCATTCCGGGATTTGCTTCTTCCGGAGATGTTTGGAACGAAACCACCGCAAAGTTTGAAAAAGATTTCACCTGTTATACTTTAACAATGGCTGGATTTGCAGGAGCAAAACCACAGGCAGATGCCAGCTTTAAAGACTGGGAAAAAGAAATAGCAGCTTACATCAGAAATAATAAAATAGACAAACCTATTCTCATCGGACACAGTATGGGAGGCGGTCTTGCTTTGGCCATCGCAGCCGACTATCCTGAACTTGTTGGAAAAATCATAGTTGTAGATGCATTGCCGTGTCTGGCAGCAATGGCTGATCCTAATTTTGTATCAAAAGAAAATAATGACTGCTCCTCTACTATTGCTCAATTAACCGCTATGAATGATGAACAGTTCCGCAAAATGCAGACCCAAACGATGCCACGTCTGCTGGCAGATACTTCTATGCAGGAAACGGTGATTAACTGGAGCATGAAATCTGACCGAAAAACGTTTGCTAAAATGTACTGTGATTTTTCCAATACTGATCTGAGAGAGAAAATAAAAGATATCCAATGTCCTTCTCTTATTCTTCTGGAATCTTTTTTTGCAAACCTTAAACCCACGATTGAAGGGCAATATAAAAATTTAAAAAACACCAATATGCAGTACGCTTCAAAGGGATTACATTTCATCATGTATGATGACAAAGAATGGTATTTTAATCAGCTTACTCAATTTTTATCTGTGAAATAA	MKKFTFLLIIMLFFLAVCNIFGQETKYPFEVKKTGKGNQSLLFIPGFASSGDVWNETTAKFEKDFTCYTLTMAGFAGAKPQADASFKDWEKEIAAYIRNNKIDKPILIGHSMGGGLALAIAADYPELVGKIIVVDALPCLAAMADPNFVSKENNDCSSTIAQLTAMNDEQFRKMQTQTMPRLLADTSMQETVINWSMKSDRKTFAKMYCDFSNTDLREKIKDIQCPSLILLESFFANLKPTIEGQYKNLKNTNMQYASKGLHFIMYDDKEWYFNQLTQFLSVK				NA	NA	NA	NA	NA
BMS003_01665	471	sigM_1	COG1595	ECF RNA polymerase sigma factor SigM	ATGGCATTTGAAGAGATATATGAACTCTACTGGCAAAGGATATACCGTCTTTGCATGGGATATGTGAATGATACCGACCTTGCTCAGGATCTTGCCCAGGAAACCTTTATCATCGTCTGGCAGCAGCTCCCGAAATTCAGGAATGAATCCAGCGTAGGAACATGGATTTTCAGAATAGCTTCCAATAATTGCCTCCGGCAGATCGAAAAGGAAAAGAAATTTGCCAAAACAGATCTACCCATCAATCTGGAAGAGAAAAAGCAGGAATCTATGGAACCTCAGATCCAGATGCTCTATCAGTTTATTTCTGAGCTGCCTGAAACGGACAGAATTATTATTTCATTGGAACTGGAAGAGGTAAAACAAGCTGAAATAGCTCATATTGTAGGGCTTTCGGAATCCAATATCAGGGTAAAGATTCACAGGATAAAGGAAAAATTAACTCAAAAGTTTAAAGAAAATGGCTACTAA	MAFEEIYELYWQRIYRLCMGYVNDTDLAQDLAQETFIIVWQQLPKFRNESSVGTWIFRIASNNCLRQIEKEKKFAKTDLPINLEEKKQESMEPQIQMLYQFISELPETDRIIISLELEEVKQAEIAHIVGLSESNIRVKIHRIKEKLTQKFKENGY	PGPT0014960_12142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_01666	594			hypothetical protein	ATGGCTACTAATATAGATTTCAAAAACATATGGAAGCAGCAGACTTCCAACAAACCCAATATGGAAGAGCTTCTCGGAAAACTGAAAAAATTCAGAAACCAGAATCTGCGCAGGCTTATCCTTGCCAATATCGGATTAATCACAACTTCATTATTAATTCTTTTCATCTGGTACCGTTATCAGCCTGAAATGATTACCACAAAAATTGGAATCCTGCTTGTGGTTCTGGGTATGGTTATTTTCCTGTTTGCCTATAACAAAATGTTTATGATATTTTATAAAATAGACCAGACTCGGTCTAACAGTGAGTATCTTCAAAGTTTATATGTGGTAAAAAATAAGCAGAAATTGATGCAGACTACCATCCTCAATCTGTATTTTATCATGCTGTTTCTGGGAATTTGCTTATATATGTATGAATACACTTCGAGAATGACCCTTGGCGCAGGTATTCTGACCTATGCTATAACATTTGCCTGGATCGCATTCAACTGGTTTTATCTGAGGCCACGAACCATAAAGAAGCAACAAGGAAAACTTGATGAATTAATTAATAAATTTGAAGAGATTAATAATCAATTAAAAGAATCATGA	MATNIDFKNIWKQQTSNKPNMEELLGKLKKFRNQNLRRLILANIGLITTSLLILFIWYRYQPEMITTKIGILLVVLGMVIFLFAYNKMFMIFYKIDQTRSNSEYLQSLYVVKNKQKLMQTTILNLYFIMLFLGICLYMYEYTSRMTLGAGILTYAITFAWIAFNWFYLRPRTIKKQQGKLDELINKFEEINNQLKES				NA	NA	NA	NA	NA
BMS003_01667	615			hypothetical protein	ATGATTTCTTCCGACCACAAAAACCACTGGGACAATGTATATGAAACCAAAAATCCTGATCAGGTAAGCTGGACCCAGAAAAAACCACAGACCTCACTTGACTTCATCCTTTCTTCAGGACTGGGAAAAGATGCCAGCATCATCGATATTGGTGGTGGAGACAGTAACCTTGTTGATTTTCTTCTTGAGGAAGGCTATGAAAATATTACCGTGCTTGATATTTCTGCAAAAGCTTTAGCAAAAGCACAGAAAAGACTTGGAGATGCAGCTGATAAAGTAAAATGGATTGTTACAGATATTACTGCTTTCGAACCTATGGAAACTTATGACATCTGGCATGACAGGGCAGCTTTTCATTTTCTTACAACACCGGAACAGGTTTCAAAATATATTAACATCGCAGAAAGAAATGTGAATGATTTTATGATCATCGGAGCTTTTTCTAAAAACGGGCCTGCAAAATGCAGCGGATTAGATATTCAGCAATATGATGAAGATTCATTATCAGAAAAATTTGAAAAAAGTTTCAAAAAAACAAAGTGTATTACAGAAGATCACACAACACCTTTTGAGACAATTCAGAATTTTGTTTTTTGCAGTTTTAAAAAGCATTGA	MISSDHKNHWDNVYETKNPDQVSWTQKKPQTSLDFILSSGLGKDASIIDIGGGDSNLVDFLLEEGYENITVLDISAKALAKAQKRLGDAADKVKWIVTDITAFEPMETYDIWHDRAAFHFLTTPEQVSKYINIAERNVNDFMIIGAFSKNGPAKCSGLDIQQYDEDSLSEKFEKSFKKTKCITEDHTTPFETIQNFVFCSFKKH	PGPT0015277_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015277-nodS_like-NA	NA	NA
BMS003_01668	1758		COG1132	putative ABC transporter ATP-binding protein	ATGAAAAAACAAGATACCTGGGGAATTATAAAAAGGCTGTTCTTTATCGGAATGAAATTTCGTTCATGGTTCATCCTTACTCTTATCATTTCTATATTTCTTTCTATAGTTTCTACTTACAGACCCTATCTTACCATGCAGGTGGTGGATAATGACATTACAAAGCTGCATGATAAGGCTTTGATGATGAAACATATCTATATCCTTGTGGGATTGGTGTTTGCTGAAACGATATTAAACTTTTTCCTGGTTTATTTTTCAAATTTTATCTCGCAAAATGTGATCAGGGATATCAGAGAGCGTTTATATACCAAGCTTATTTATTTCAAAACATCATTTTTTGATAAAACGCCCATCGGACAGCTGGTAACGCGTGCGGTAGGTGATGTGGAAACTATTGCAACGGTATATACAGATGGTTTCCTGATGGTCTTCGGAGATATTCTGAGAATTCTGTTTGTACTGGTGATGATGTTCAGTACCAATGTTCACCTGAGTTATATTACGTTAGCTATTTTACCTTTAATGGTGGTTATCACAAGATTCTTTCAGAAAAGACTGAAAAAAGCTTTTGGGGACGAGAGAAACTGGACTGCCAATCAAAATTCATTTGTTCAGGAAAGACTGGCAGGGATGTCGATCATTCAGGTCTTCAACAGACAGGAATCTGAGTTCAAAAAGTTTGATGATATTAATATTACGCTGAAGGGAGCATTGCTGAGAACTGTATTTATTTTCTCACTATTCTTTCCTGTAGTAGAACTTATTTCTTCATTATTTATAGGATTTATTCTTTTCTATGGAGGATATATCACGATCAGTGCCGGGGTGGTAATTGCATTTATCCAGTATATTTCAATGCTGATCCGTCCTTTAAGACAGATTGCAGACCGTTTCAATAATATCCAGCGAGGGATTGTAGGAGCAGAAAGAGTATTAGGGCTAATGGATGAAGAAAACTCAATGCCGAATAACGGAACGGTGAAGAAAGACCACTTTGCCGGAAAAATTGAATTCCAGAAAGTACATTTTGCGTACGATGAAAAGCAGGAAGTACTGAAAGGGATTGATTTTAAAGTAAATCCGGGAGAAACAGTAGCTATCGTGGGTGCAACTGGCGCCGGAAAATCTACCATTATCAGTCTGATCACGAGATTATATGATATCAATTCCGGAAATATTCTGATTGATGATGTGGATTTAAAAGATTATGAGCTTTATAATCTTAGAAGTCATATTGGAGTCGTATTACAGGATGTTTTCCTTTTCCACGGAAGTATTTTTGAAAACCTTGCCTTTGGGGATGATAGTATTACGCTTGATAAGATAAAGGCAGGAGCAAGAGAAATTGAAGTTGATGATTTCATACAGCAGCTTCCAGGAGGATATGATTATGTAGTGAGTGAAAGAGGATCATCCATATCTTTAGGCCAGAGACAATTGTTGTCTTTCCTGAGAGCCTATTTGTCAGATCCGAAAATTTTAATTCTGGATGAAGCCACATCTTCCATTGATCATGAAAGTGAAAAACTTATTCAGAGAGCTACAGAGAAAATTACCAAAAACAGAACTTCCATTATTATTGCCCACAGACTTTCCACTATTGAAAAGGCAGATAAGATCATTGTGATGGAGCATGGTAAAATTGTAGAGGAAGGCAAACATCTTGAGCTTCTTGATAAGAATGGATACTATGCCACGCTTTACAAAGCTCAGCTTCGCCATGAAGTGGAAATGGAAGAAGAAAAAGAAGCATAA	MKKQDTWGIIKRLFFIGMKFRSWFILTLIISIFLSIVSTYRPYLTMQVVDNDITKLHDKALMMKHIYILVGLVFAETILNFFLVYFSNFISQNVIRDIRERLYTKLIYFKTSFFDKTPIGQLVTRAVGDVETIATVYTDGFLMVFGDILRILFVLVMMFSTNVHLSYITLAILPLMVVITRFFQKRLKKAFGDERNWTANQNSFVQERLAGMSIIQVFNRQESEFKKFDDINITLKGALLRTVFIFSLFFPVVELISSLFIGFILFYGGYITISAGVVIAFIQYISMLIRPLRQIADRFNNIQRGIVGAERVLGLMDEENSMPNNGTVKKDHFAGKIEFQKVHFAYDEKQEVLKGIDFKVNPGETVAIVGATGAGKSTIISLITRLYDINSGNILIDDVDLKDYELYNLRSHIGVVLQDVFLFHGSIFENLAFGDDSITLDKIKAGAREIEVDDFIQQLPGGYDYVVSERGSSISLGQRQLLSFLRAYLSDPKILILDEATSSIDHESEKLIQRATEKITKNRTSIIIAHRLSTIEKADKIIVMEHGKIVEEGKHLELLDKNGYYATLYKAQLRHEVEMEEEKEA	PGPT0029045_1886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029045-mdlB|smdB-K18890	NA	NA
BMS003_01669	345			hypothetical protein	ATGATAGGAATTTTTATTTTGATTGCTGCATACAGATATTATGCTCGATTAGCAGAAAAGTTTGGAAAAACAAAATGGCAGTACGGTCTTTTGGCAATTGGTGTTTATCTGGGAACTCAGATTATTTTAGGCCTCAGTTATGGTGCTTATATCGCGTCAACAGATCCTGAGTCTCTGGAAAATGTAAACTATACAGGTTTTTCCGGAATTAATCTGTTAAGCTGGTTACTTTCTCTGGCAGCTGTGTGGGGTGTTTATAAATTCCTTGAAAATAAGTTGATCAAGGAAAGGCCAGCAAAGTCTGTAATTGAAATTGAAGAAATAGGAAGGACTACTGATCAGTAA	MIGIFILIAAYRYYARLAEKFGKTKWQYGLLAIGVYLGTQIILGLSYGAYIASTDPESLENVNYTGFSGINLLSWLLSLAAVWGVYKFLENKLIKERPAKSVIEIEEIGRTTDQ				NA	NA	NA	NA	NA
BMS003_01670	732	truA	COG0101	tRNA pseudouridine synthase A	TTGAGATACTTTATTGAATTTTCTTACAACGGAAAGAATTATTTCGGCTATCAGATACAGCCGGATGCCATTTCTGTACAGGAAGAACTGGAAAAAGCGCTGTCCACTATTTTGCGTGAAGAGATTAAAACTACGGGAGCGGGAAGAACAGATACAGGCGTTCACGCCAAAAAAATATTTGCCCACTTTGATACGGAAAAAGAGCTGGATGATCAGCTTCCGCGAAGACTGAACAGTTTTCTTCCGCCTGATATTTCTATTAAAAGGATTTTCCCTGTAAAAGATGATTTTCATGCCCGTTTTGATGCTACATACAGAACCTATGAATATTATATCTCACTGGAAAAGAATCCGTTTACCCAGGAATCTGCATGGCAGCACTGGAAAAGAGGCCTGGACATAAATGCGATGAATGAAGCCTGCAGAATTCTTTTTGAATATGAAGATTTTACCAGTTTTGCCAAATTAAAGACCGATAATAAAACCAATATCTGCAAGATATATAAAGCAGAATGGGAGCAGAACGGAACAGAACTGAAGTTTACTGTTTCTGCCAATCGTTTTCTCAGAAACATGGTTCGTGCTATTGTGGGAACAATGGTAGAAATAGGAACAGGAAAGCTGAAACCGGAAGACCTTCGTAAAGTGATTGAAGATAAAAACCGTAATGCTGCCGGTACTTCAGCGCCGGGACACGGGCTTTATCTGGTAGATGTGGGGTACGAATTTTAA	MRYFIEFSYNGKNYFGYQIQPDAISVQEELEKALSTILREEIKTTGAGRTDTGVHAKKIFAHFDTEKELDDQLPRRLNSFLPPDISIKRIFPVKDDFHARFDATYRTYEYYISLEKNPFTQESAWQHWKRGLDINAMNEACRILFEYEDFTSFAKLKTDNKTNICKIYKAEWEQNGTELKFTVSANRFLRNMVRAIVGTMVEIGTGKLKPEDLRKVIEDKNRNAAGTSAPGHGLYLVDVGYEF				NA	NA	NA	NA	NA
BMS003_01671	1026	lpxK	COG1663	Tetraacyldisaccharide 4'-kinase	ATGAAAAGATGGTACCTTTATCCTTTTTCCCTTGGTTATCATTTGGTAACGGGTATCCGGAACACAATGTATGATCTGGGAATTTTTAAGGCAACGAAATTCAAGACACCGATAATCAATGTCGGGAATCTTTCTGTGGGCGGAAGCGGGAAGTCACCTATGGTGATGTACCTTGCCCAGTTCTTATCCAAACATTACAGAACCGGCGTGCTTTCACGTGGTTACGGAAGACTTACCAAAGGCTATGAAGTAACGAACTACGAAAGCAACTACAAAATGGTAGGCGATGAAGCGATGCAGCTTTTTGAACGTTTTAAAAACCGTTTTGTCATTGCAGTTTCCGAAGAACGCGTGCCTGGAGCCAAGAAAGTAATTGATGATATGGATCTTGAAGTTCTGGTATTGGATGACGCTATGCAACACAGAGCCATCAAAGCTGGATTCAATATTCTGATGACCGATTTTAATGATCCTTTTTTCAAGGATTATCTTCTTCCTGCCGGAGACCTGAGAGAATCAAGATCCGGATATAAAAGAGCCAATATCATCATGGTCAGCAAATGCCCTGATGAACTGACGGAGGAAACAAAAAGGTATTATATTTCCAGAATAAAACCTTCTTACGGTCAAAAAGTATTCTTTTCATCCATCGGCTATGACGAAAATGTGTACGGAAAAGATAAAATGCTTCCGGATAACAACCTGAATTATTACGATATTTTACTGATCACAGGAATTGCAAATCCAAAACCTCTTCTGGAACACCTTGCAAAATTCTCAAAAAGAGTAAAACATTTAAAGTTCAGAGATCATCATAATTTCACGGATGATGATATTAAAAAAATCCTTGCGGAGTATAAAAAATTAGGAGAATATAAACTGATATTAACCACAGAGAAAGACTATGTACGTCTGAAAACTTTTGACTATCTTAGAGAAATTGTTTACTACTGGCCTATCAATGTACTTATTGATAAGAAAGAAGAATTCAATCAAATCATCTTAGATTATGTTAGAAAAAATTAA	MKRWYLYPFSLGYHLVTGIRNTMYDLGIFKATKFKTPIINVGNLSVGGSGKSPMVMYLAQFLSKHYRTGVLSRGYGRLTKGYEVTNYESNYKMVGDEAMQLFERFKNRFVIAVSEERVPGAKKVIDDMDLEVLVLDDAMQHRAIKAGFNILMTDFNDPFFKDYLLPAGDLRESRSGYKRANIIMVSKCPDELTEETKRYYISRIKPSYGQKVFFSSIGYDENVYGKDKMLPDNNLNYYDILLITGIANPKPLLEHLAKFSKRVKHLKFRDHHNFTDDDIKKILAEYKKLGEYKLILTTEKDYVRLKTFDYLREIVYYWPINVLIDKKEEFNQIILDYVRKN	PGPT0022380_1120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS003_01672	816	punA	COG0005	Purine nucleoside phosphorylase 1	ATGTTAGAAAAAATTAAAGAGACTGCAGATTTTATTAAAAATATTATTCAGGAAACTCCTGATTTTGCAGTTGTTTTAGGATCCGGATTGGGAAAGTTACAACATGAAGTAGAGCCGATCCATGTTTTAGAGTACAAAGACATTCCTCATTTTCCACAGACTACAGTAGCCGGACATACAGGAAAACTGATTTACGGAATCCTGGAAGGAAAAAAAGTACTGATGATGAGCGGACGTTTCCATTATTATGAAGGACATTCTATGGAAACAGTTACTTTCCCGATAAGAGTTTTTCATTTGCTGGGAATCCAAAACCTTATTCTTTCCAATGCCTGTGGTGGTGTAAACCCAACTTACAGCGTTGCAGATATCGTCATTTTGAAAGATCATATCAACATGATGCCTGAGCATCCTTTACGCGGAAAAAATATTGATGAGTTTGGACCACGATTCGTGGATATGAGCGAACCTTACAACAAAAAAATGATTGCCACAGCAGAACAGGCTGCTGCAGATCACCAAATAAAAATCCATCAGGGAGTTTACGTTGCCCTTCAAGGTCCTACTTTTGAAACTCCGGCCGAATATGGAATGATCAAAGCCATTGGTGGGGATATGGTAGGGATGAGCACCGTTCCTGAAGTCATTGTTGCCAGACATATGGAAATGGATGTTTTCTGTATTTCTGTCATCACAGATCTTGGCGGACCGGATGTCGCTTTTGCCGTTTCCCACGAAGAAGTTCTGAATGCAGCCAACAAAGCAATGCCCAACGTAATTGCCGTTGTCAAAGGTTTAATTAAAAACTATCAATAA	MLEKIKETADFIKNIIQETPDFAVVLGSGLGKLQHEVEPIHVLEYKDIPHFPQTTVAGHTGKLIYGILEGKKVLMMSGRFHYYEGHSMETVTFPIRVFHLLGIQNLILSNACGGVNPTYSVADIVILKDHINMMPEHPLRGKNIDEFGPRFVDMSEPYNKKMIATAEQAAADHQIKIHQGVYVALQGPTFETPAEYGMIKAIGGDMVGMSTVPEVIVARHMEMDVFCISVITDLGGPDVAFAVSHEEVLNAANKAMPNVIAVVKGLIKNYQ	PGPT0013380_1800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
BMS003_01673	492			hypothetical protein	ATGATGGGTATTTTTGGAATAAGTTATTCACAAAAGGTTCCTGCTGTCCTAAAAAAAGGATTTTCAAAAGAAGCATTACAACAGAAACTTCAAGATAAAGATGGAAAAGCCATTACCATCAAGCAGATTCTGGATCAGCATAAAGGAAAAGTTTTAGTGATTGATTTCTGGGCGGGCTGGTGTAGAGACTGTTTAAATGCACTTCCGAAAGCTAAGGAATTAGAAGAAAATAACAAGAATATTGACTTTGTATTTCTGTCATTAGACCGTTCAAAAGAAGGATTTGAAAAAAGCCTGGAAAGATTTGATATGAAAGACAAAGAAAACTATTGGTTTTCTACAGGATGGAAAAATGATTTTAATAATTACGTAGACCTTAACTGGATACCAAGATATATGGTAATTGATCAGAAATCTTCTATTGCAAAATATTATGCAATATCACCCGAAGACCCTGAACTTCAGCAGACCATAGACAAGCTTTTAAAATAA	MMGIFGISYSQKVPAVLKKGFSKEALQQKLQDKDGKAITIKQILDQHKGKVLVIDFWAGWCRDCLNALPKAKELEENNKNIDFVFLSLDRSKEGFEKSLERFDMKDKENYWFSTGWKNDFNNYVDLNWIPRYMVIDQKSSIAKYYAISPEDPELQQTIDKLLK				NA	NA	NA	NA	NA
BMS003_01674	456			hypothetical protein	ATGATCACAAGAGAAGCCACAGAAAAGGATTTAGAAATCCTATTAGAATTTGAGCAGGGAGTTGTTACTGCCGAACGACCATTCAACAGTACATTGATTGAAGGAGAGATTCATTATTATGACTTAAAACATCTGATACAATCTCCGGAAGCAACCGTAATTGTTGCCCAAGAAAATAATGAAATCATTGCATCAGGATATGCCCTGATTAAAAAAGCTACGAAAGATTATTATCAGTTTAAAGAATATGCCTATCTCGGCTTTATGTACGTAAAGCCTGAACACAGAGGTAAAGGGATCAACAAAGTGATTACCAATGAACTTATTTCCTGGTCAAAATCAAAAGGTATCAATGAGGTAAGGCTGGATGTTTACGCACAAAATGAATCTGCTATAAAAGCTTATGAAAAAGCAGGTTTTGAACCTCATCTTCTTACCATGAGACTGAAAGAGTAA	MITREATEKDLEILLEFEQGVVTAERPFNSTLIEGEIHYYDLKHLIQSPEATVIVAQENNEIIASGYALIKKATKDYYQFKEYAYLGFMYVKPEHRGKGINKVITNELISWSKSKGINEVRLDVYAQNESAIKAYEKAGFEPHLLTMRLKE				NA	NA	NA	NA	NA
BMS003_01675	1056	dinB	COG0389	DNA polymerase IV	ATGGATGCATTCTATGCTTCTGTGGAGCAGCATGATAATCCTACATTAAAAGACAAGCCCATAGCGGTAGGAGGACAGCACCGAGGCGTAGTGGCCGCAGCAAGTTATGAAGCCAGAAAATTTGGAGTCCGTTCTGCAATGCCCAGTAAAACAGCCAAAGAGAAATGTCCACAGCTTATTTTTGTTCCTCCACGGTTTGCCAGATATAAAGAGATCTCCAAGAAGATCCGGGAAATTTTCTATGAATATACGGATCTGGTAGAGCCCTTGTCTCTGGATGAAGCTTATCTGGATGTCACAGAGAATAAAAAAGGAATGGAATCTGCCAACCTGATCGCCAAAGAAATTCGTCAGAAAATTTTTGAACAAACCGGATTAACGGCTTCTGCAGGAATTTCGATTAATAAGTTTCTGGCTAAAGTAGCTTCCGATATTAATAAACCAAATGGCCAGAAAACCATTCATCCTGACAAAATAGAGCATTTTCTGGAAGAACTCCCTGTGGAAAAATTTTATGGAGTTGGAAAAGTGACGGCTAACAAAATGTTTAGTTTAGGAATTTATAAGGGAAAAGATTTAAAAAAGAGATCACTTGAGGATCTGGTAAGACTCTTTGGAAAATCCGGCCAGCATTATTATAATGTGGTACGAGGGATTCATACTTCAGAAGTAAAACCTCACCGGATTCAGAAAAGTGTGGCTGTAGAAAGAACTTTTTTTGAAGATCTTCTGGATGAACAACAGATCAATGAAAAACTGGAAAGCCTTGCACAGGAAATTCATCAAAGATTACAGAAAAATAATATTCTCGGAAGAACTTTAACGTTAAAAATAAAATATAAAGACTTCTCTCTTTTCACAAGAAGCATCACAAAGGAAGATTATTTTTCTTCACCGGAACAGTATTATAACACCGGAAAAAAACTTTGGGAGCTTCGTCCTTTTGATAAAGCTGTCCGCCTGCTAGGATTGTCTCTATCCCACCTGAATACGGAAGAAAAAAAGCAGGTTTCGGTTCAACTAAAAATCCCGTTTGAGGAATTCGAAAATGAATAG	MDAFYASVEQHDNPTLKDKPIAVGGQHRGVVAAASYEARKFGVRSAMPSKTAKEKCPQLIFVPPRFARYKEISKKIREIFYEYTDLVEPLSLDEAYLDVTENKKGMESANLIAKEIRQKIFEQTGLTASAGISINKFLAKVASDINKPNGQKTIHPDKIEHFLEELPVEKFYGVGKVTANKMFSLGIYKGKDLKKRSLEDLVRLFGKSGQHYYNVVRGIHTSEVKPHRIQKSVAVERTFFEDLLDEQQINEKLESLAQEIHQRLQKNNILGRTLTLKIKYKDFSLFTRSITKEDYFSSPEQYYNTGKKLWELRPFDKAVRLLGLSLSHLNTEEKKQVSVQLKIPFEEFENE	PGPT0014881_4841	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
BMS003_01676	1473	amyA	COG0366	Cytoplasmic alpha-amylase	ATGAATCCAACCATGATCCAATTTTTTCACTGGTATTCTGAAGGAGACGGAAAATTGTGGAAAGAAGCCGAAAAACAGGCCAGATATTTAGCAAAACTTGGAATTACTTCTGTATGGTTTCCTCCTGCATACAAAGGAACAAATGGTGGTTATTCTATCGGCTATGACGCCTACGATCTGTATGATCTTGGAGAATTTGATCAAAAGGGAACTCTTCCTACCAAATACGGCACTAAAAACGAGTATACAAAAGCAATTAAAGCTTTAAAGAAACAAAATATACAGATCATTGTAGATATTGTTCTGGGGCATAAAGCCGGTGGTGATGAGCTGGAAAAATTCAAGGTCGTAAAAGTAGATGAGGAAAACAGGGAAAAGATAATTTCTGATATCTTTGAAATAGAATCTTATACGAAATTTATCTTTCCGGGAAGAGGAAAAAAATATTCTGATTTTGAGTGGAACTTTACCTGTTTCAGCGGTGTAGATTATGCCGAAGGGATAGATTCCCACATCTTTAAAATACAGTCCGAATATGGTAATGACTGGGAAGAAATGATTGATGATGAAAAAGGAAACTATGATTACCTGATGTATAATGACATCGAGCACCGGAATCCTTTTGTACGGGAAGAACTCAACACCTGGGCAAAATGGTATTTTGATGAGACTGATTTTGATGGAGTAAGACTGGATGCTTTAAAACATATTTCCTTTGATTTTTATAAAGAGTGGCTTACCCTGCTTCGCTCCAATTCCGGAAAAAATATTTTCGCAGTAGGAGAATACTGGGCTCCGGGGTATCTTCATCTGCTCCAAAAATATATTGAAGTAACAGACGGATGTATGAGCCTTTTTGACAGCTCACTACAAAATAATTTCCATACAGCTTCCAGAGAGGGAAGTTCTTATGATCTCCGAAGAATTTTTGATGAAACTCTTACCCAGGCAGATCCTATGCATTCTGTGAGCCTGGTAGCCAACCATGATACTCAGCCTTTACAGGATCTTGAAGCTCCTGTAGAGCCTTGGTTCAAACCTATTGCTTATGCCCTTATTTTATTGAGAAAAGACGGTTATCCGTGTATATTTTACCCGGATCTTTATGGTGCTCATTATGTGGATAAAGACAGGGAAGGCAATGATCAGGAAATATTCATGCCCAAAGTAAACGGTATTGAAGAATTACTAAAAGCAAGAAAAGGTCATGCTTATGGTGACCAGCATGATTATTTTGAAGATGCTAATTGTCTCGGCTGGGTACGTACAGGAGATGATGAACATACCGGGTGCGCTGTGGTTTTGAGCAATAAAGATTCTTATAATAAACCTATGGAAGTGGGAATGCTTTATGCCGGTAAAAAATTCAAAGACCTGCTGAAACGGTTCAAAGAGAAAGTAACCATTGATGAAAATGGGTGGGGAGATTTCCCTGCCCCGGCAGGAAATGTGAGTGTCTGGATTCCTGAGTGA	MNPTMIQFFHWYSEGDGKLWKEAEKQARYLAKLGITSVWFPPAYKGTNGGYSIGYDAYDLYDLGEFDQKGTLPTKYGTKNEYTKAIKALKKQNIQIIVDIVLGHKAGGDELEKFKVVKVDEENREKIISDIFEIESYTKFIFPGRGKKYSDFEWNFTCFSGVDYAEGIDSHIFKIQSEYGNDWEEMIDDEKGNYDYLMYNDIEHRNPFVREELNTWAKWYFDETDFDGVRLDALKHISFDFYKEWLTLLRSNSGKNIFAVGEYWAPGYLHLLQKYIEVTDGCMSLFDSSLQNNFHTASREGSSYDLRRIFDETLTQADPMHSVSLVANHDTQPLQDLEAPVEPWFKPIAYALILLRKDGYPCIFYPDLYGAHYVDKDREGNDQEIFMPKVNGIEELLKARKGHAYGDQHDYFEDANCLGWVRTGDDEHTGCAVVLSNKDSYNKPMEVGMLYAGKKFKDLLKRFKEKVTIDENGWGDFPAPAGNVSVWIPE	PGPT0018575_2600	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS003_01677	168			hypothetical protein	ATGAAAACGGACAAAGAGTTCAAAGTAAGAAAACTGAATCGTCAGGAGTTAAAGAGCTTAAAAGCCGGAGATATTAACAGAGGCAGAGTATGCTGTACATCCAATGAAGATGGACAATGTTGCGAATGGGCTATAGATGTCTGGAATTGCAGATACATTTACTGCTAA	MKTDKEFKVRKLNRQELKSLKAGDINRGRVCCTSNEDGQCCEWAIDVWNCRYIYC				NA	NA	NA	NA	NA
BMS003_01678	1341	aqdA2		putative N-octanoylanthranilate hydrolase AqdA2	ATGACACCCAATCAGCAAGATATCACTGTTTTTGAGACCCGTTTCGGAAGAATTTTAGCATTAAAAGAGGAAGGAATTATCAGAGCCCGAAGCATCCGTTACGCCTATTCTGAAAGATTTAAAAAACCTGTTGCGGCAGAACCTTCTTTATCTTCCGTAATTATTTCTCCAGAAAAAACTCCCGTATGTCCGCAGGCTCTGAGTCCGCTCGTAGAAAAAATGATTGGAGTAACACCTGTGGAAAGTTTTGAGGCTGATGAATCTACCCAATATCTTTCCATAACCCGTCCGGAAATTATACCCGAAAGCATAAAAATCCCCGTTGTAGTCTGGATTCACGGAGGATCTCATGAAATAGGCTGTGGAGATCTTGCTACCGCAGATCCTGCCGAATGGGTAAAAGAGCAACATATTATTGTGGTTACTGTTTCATATCGTTTAGGATTATTTGGCTTTTTAGGTGGCGATGGAAAAAGACCTGCCAATCTAGGGCTGCTGGATATCATTGAAGCATTGAAATGGATAAAAACCAATATTGCAGATCTGGGAGGAGATGAAAACAATATCACCCTTTTCGGACAGTCTTCAGGTGGTGATGCCATTGCCCATTTAATGATATCAAAAGGTATAGATGGTTTATTTCAACGTTTGATTATCCAGAGCGCTCCTTTAGGATTAAGGCATCAAAGACAGAAAATGTCTGCAGAATTTCTGAAGAAAACTGAAATCTTAAAAGATGAAACGGATGTTTTGAAAATGATGGATGAATATGGTAAATTTTTACCGTCAGTGATGAAGTATGGTTTGAAAGCAGCAATGCCCTTTGGTACTCAATACGGATATTTTCCTTTGTGTACAGAAGAAGATTCGGTGAAAATGTGGAAAAAGAATGCTCAGAAATTTGATGTCCTGATTGGCTTGAATAATGATGAAACTGCCTTTTACCTTAAAACCTCTGAAGCTCTCAATAAATATTTCGGAAAAGGATTGGGCTTAAAAATCATGGATAAAACTGTTGAAAAAACTACAGAATTTATCTACGGAAATCCGGCAAAACAGTTTGCACAAAATCTGGCTGATGCCGGAGGAAATGTATATCTCTTCAGAATTCATTCAAAATTGAAAGACAACCCTATTGGAGCACCACATTGTATTGATCTTCCTTTAATTTTTGGAAATGAATCTGCCTGGAAATCTTCCGGATTGCTGAAAGATATTCCCTGGAGTCGTATTCATGAGAATGGTAAAAAGCTGAGAGCGCTCTGGGCTGAATTTGCACGCTCCGGAAAAATATCAGATTCCTCCGAACGACCGGAAATTTTGGAACTGCGAAAGATGTAG	MTPNQQDITVFETRFGRILALKEEGIIRARSIRYAYSERFKKPVAAEPSLSSVIISPEKTPVCPQALSPLVEKMIGVTPVESFEADESTQYLSITRPEIIPESIKIPVVVWIHGGSHEIGCGDLATADPAEWVKEQHIIVVTVSYRLGLFGFLGGDGKRPANLGLLDIIEALKWIKTNIADLGGDENNITLFGQSSGGDAIAHLMISKGIDGLFQRLIIQSAPLGLRHQRQKMSAEFLKKTEILKDETDVLKMMDEYGKFLPSVMKYGLKAAMPFGTQYGYFPLCTEEDSVKMWKKNAQKFDVLIGLNNDETAFYLKTSEALNKYFGKGLGLKIMDKTVEKTTEFIYGNPAKQFAQNLADAGGNVYLFRIHSKLKDNPIGAPHCIDLPLIFGNESAWKSSGLLKDIPWSRIHENGKKLRALWAEFARSGKISDSSERPEILELRKM	PGPT0030515_2649	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
BMS003_01679	903			hypothetical protein	ATGGAAAATCAGGAGGTTGAAATCTATAATACGGTCTCAGAATATAATAAAATGGCGAATCATGAAACCCTGCATCCGCTGGTAAGTGTCATAGATTTTTCCAAATCCGATCCTATTTATCAGTATAGAAGAAAATTTGGATTTTATACCGTTTTTCTGAAAGACGTTATGTGTGGGGATATGCAATACGGGAAACACAGCTACGATTATCAGGAAGGAACATTAGTATTCATTGCTCCCGGACAGACCTATGGAATTTATAACAAAGACAGATCTGTTCAGCCGGCAGGTTTTGCCCTGATCTTCCATCCGGATTTAATAAAAGGAACCAACCTAGGGAAGAATATGAAAGACTATTCCTTTTTCTCTTATGATGTACATGAAGCGCTCCACCTTTCAGAAAAAGAAAGAGAAGTGGTGCTGGATTGCTTTAAAAATATTAAACTGGAACTGGAACAGGCCATTGATAAACACAGTAAATCTTTAATTGTTAATAATATTGAACTGTTCCTGAATTACTGCATGCGTTTTTATGACCGTCAGTTTATTACAAGAGACCATATCAACCAAGGTGTCATTGGGAAATTTGAAAACCTGGTGGATGATTACTTGAAATCTGAAAACCCAAAGAATATAGGATTTCCAATGGTTAATTATTTTGCAGAAAAACTGAATCTGTCAGCCAATTATTTCGGAGACCTGATCAAAAAAGAACTGGGGATTTCCGCACAGGAATTTATCCACAATAAACTGATTGATATTGCTAAAGAACAGATCCTGGATCAGTCAAAAACGATCAGTGAAATTTCTTATGATCTGGGTTTTAAATATCCACAGCATTTTACAAGACTGTTCAAAACCAAAGTGGGTATTTCTCCGAGTGAATATAAAATCCTGAATTAG	MENQEVEIYNTVSEYNKMANHETLHPLVSVIDFSKSDPIYQYRRKFGFYTVFLKDVMCGDMQYGKHSYDYQEGTLVFIAPGQTYGIYNKDRSVQPAGFALIFHPDLIKGTNLGKNMKDYSFFSYDVHEALHLSEKEREVVLDCFKNIKLELEQAIDKHSKSLIVNNIELFLNYCMRFYDRQFITRDHINQGVIGKFENLVDDYLKSENPKNIGFPMVNYFAEKLNLSANYFGDLIKKELGISAQEFIHNKLIDIAKEQILDQSKTISEISYDLGFKYPQHFTRLFKTKVGISPSEYKILN	PGPT0017485_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_01680	450			hypothetical protein	ATGTATAAGTTTTGTTTAAGTGAAAGTGTCGACTTTTGTACCGTTATGGAAACTTTTAATACCAACATTTTTCCGAAAGGGGAAAAAGCTCCTTCAGATTATTTCTCCGGAGGAACAGCTTGGGTTCATATTCTGAAACCCAATGAAGATAACCTGAACTGCCAGATCGGAAATGTAATTTTCGAACCGGGATGCAGAAATAACTGGCATTCTCATGGATGCGGACAGATTTTAATTGTAACTTCAGGAAAAGGATATTATCAGGAAAAAGGAAAGCCTGTGCAGATTTTAATTCCTGGAGATGTTGTTAATATTCCTCCTGATATCATTCACTGGCATGGAGCTGCTCCGGATAGTAAATTTACCCATATTGCCATTAATCCTAATACACAAAATGGGATTGTAGAGTGGCTGGAACCTGTCACGGATGAAGAATATCATAATGTATAA	MYKFCLSESVDFCTVMETFNTNIFPKGEKAPSDYFSGGTAWVHILKPNEDNLNCQIGNVIFEPGCRNNWHSHGCGQILIVTSGKGYYQEKGKPVQILIPGDVVNIPPDIIHWHGAAPDSKFTHIAINPNTQNGIVEWLEPVTDEEYHNV	PGPT0005005_44	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
BMS003_01681	1053	adhC2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGAGTACAATTACAGTAAAAGCTTATGGTGCAGAGTCTACCACAGCAGATCTGAAAGAAATGAATATTGAAAGAAGAGAAGTAACCCCAAAAGATGTAGAGATTGAAATCCTATACTGCGGGGTATGCCACTCTGACCTTCATACAGCAAGAAACGACTGGGGCGGATCTTTGTATCCTGTAGTTCCGGGACATGAAATTGTAGGAAGAATCACCAAGGTAGGAAGCGAAGTTTCCAAATTTAAAGTTGGAGATCTTGCAGGTGTAGGATGTATTGTAGATTCGTGTGGACACTGCGACAGCTGCCAGCATGATCTTGAGCAATATTGCCTGAACGGATTCACCGGAACATACAACGGAAAAGACAAACATTTGGGAGGTCATACTTTCGGAGGCTATTCTCAAAAGGTGGTTGTGGATTCTCACCACGTTTTAAAAGTACCTGAAAATCTTGATCTGGCAGCAGTAGCGCCACTACTTTGTGCAGGTATTACCACATGGTCTCCTTTAAAACACTGGAATGTAGGTTCTGGTTCTAAAGTAGCCGTTGTAGGATTGGGAGGTCTTGGTCATATGGCAATAAAATTGGCAAAAGGACTGGGAGCAGAAGTTACTTTATTCTCCAGAACTCCGGGAAAAACTGAAGATGCTAAACAATTGGGTGCTGATCATGTCGTTATTTCTACAGATGAAGCACAAATGGACTCTGTAAAAGGAAAATTTGATGTGATTATTGATACGGTTCCTTATTTTCATGATGTCAATCCGTATGTGGCTACTTTAAATATTAATGGAACTCATGTTCTGGTAGGATATCTTGGAGGTTTAGAGCCTATTCTGAATACCGTTCCTATGATTTTGGGAAGAAAATCGGTGGCTGGATCGGTAATTGGTGGTATTGCTGAAACTCAGGAATTACTGGATTTCTGTGGAGAACACAATATTGTTTCGGAAATTGAGATCATCAAAATGCAGGAAATCAACGAAGCGTATGAAAGAATGCTGAAAAGTGATGTAAGATACCGTTTCGTTATTGACATGCAGTCTTTATAA	MSTITVKAYGAESTTADLKEMNIERREVTPKDVEIEILYCGVCHSDLHTARNDWGGSLYPVVPGHEIVGRITKVGSEVSKFKVGDLAGVGCIVDSCGHCDSCQHDLEQYCLNGFTGTYNGKDKHLGGHTFGGYSQKVVVDSHHVLKVPENLDLAAVAPLLCAGITTWSPLKHWNVGSGSKVAVVGLGGLGHMAIKLAKGLGAEVTLFSRTPGKTEDAKQLGADHVVISTDEAQMDSVKGKFDVIIDTVPYFHDVNPYVATLNINGTHVLVGYLGGLEPILNTVPMILGRKSVAGSVIGGIAETQELLDFCGEHNIVSEIEIIKMQEINEAYERMLKSDVRYRFVIDMQSL	PGPT0024430_1046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS003_01682	429			hypothetical protein	ATGACAGCGATCAAAGAAAGCTCAACCATTCAGGAGAATAAAAAAACAGTACAGGATTGCCCTGTAATGTACGTTATGGAAAGAATCGGAGGATTTTGGAAACCGATTATCTTGTTTAATCTTTCCACAGGAGAAAAAAGATACAGTGAATTGAAAAAAGCAATTCCTGCAGTAACAGAAAAAATGCTCATTCAGCATTTGAAACAGCTTGAAGCGGACGGACTCATTATCAGAACAGCAAAACCTGTAGTGCCACCTCATGTGACCTATAAATTGAGCGAAGCCGGCAATGAACTGGCTCCCGTTATTGATGCCATGGCAGCTTGGGCGTTTCAGGACATGGAAAGAAATGATATCAAATGTGCCGAAGGAAACAGATACATCACAAATCAGGATCAGAATGCTTTTAGCCAAAACCTGAAAAAATAA	MTAIKESSTIQENKKTVQDCPVMYVMERIGGFWKPIILFNLSTGEKRYSELKKAIPAVTEKMLIQHLKQLEADGLIIRTAKPVVPPHVTYKLSEAGNELAPVIDAMAAWAFQDMERNDIKCAEGNRYITNQDQNAFSQNLKK				NA	NA	NA	NA	NA
BMS003_01683	879			hypothetical protein	ATGAAAATTATAATCACAGGATCGCTAGGAAATGTAGCTAAGCCATTAGCACAGCAGTTAATTGCCGAAGGGCACAATATTACCATAGTAAGCAGCAGCGATGCCAGAAAACAGGATATTGAATCTCTGGGTGCAACGCCAGCTATAGGATCTATCACAGACGTTGATTTTTTAACACAAACATTTGAGGGAGCAGATGCCGTTTTTGTGATGACTCCTCCTGCAATCAGCCCGGATAAGATTGTGGAAAACACTACGAACGTAGGAAAAAATTATGCTGAAGCATTGAAAAATACGAATGTAAAAAGAGCTGTCATGTTAAGCAGCGTTGGTGCTGAGTCTCCGATAGAAAACGGTCCGATTGCAGGTCTTCACAATATTGAAAAATTATATAATGATGTGGATAGTACTTCTTTTACTTTTTTAAGAGCCGGATATTTTTATAATAATTTTTTCAATGACATTCCTTTAATTCAAAATGCAGGAATCATTGGAGCAAATTATCCTGCAGATGTTGAAGTGCCTATTGTACACCCTACTGATATTGCCAAAGCCGCTGCTGAAGAACTGGTAAAAGACGGAAATTCCAACAATATCAGATATATTGTAAGTGATGTAAGAAAAGCTTCTGATTTTGCGAAGGTTCTGGGAACTTCTGTTCATAAGCCTGAACTTCCATGGGTAGAATTCTCCGATGAAGATTCTTTAAACGGAATGCTTCAGGCAGGATTACCTGAAGATATGGCTCAATTGTATGTTGAAATGGGGAGAGGAATAAGAACCGGTGTTGTGCAGAAAGATTTTATAGATCACGGTTCTCCTGTTACAGGAAGTGTTAAATTAGAAGATTTTGCGAAGGAGTTTGCTTCTCAGTTTTAA	MKIIITGSLGNVAKPLAQQLIAEGHNITIVSSSDARKQDIESLGATPAIGSITDVDFLTQTFEGADAVFVMTPPAISPDKIVENTTNVGKNYAEALKNTNVKRAVMLSSVGAESPIENGPIAGLHNIEKLYNDVDSTSFTFLRAGYFYNNFFNDIPLIQNAGIIGANYPADVEVPIVHPTDIAKAAAEELVKDGNSNNIRYIVSDVRKASDFAKVLGTSVHKPELPWVEFSDEDSLNGMLQAGLPEDMAQLYVEMGRGIRTGVVQKDFIDHGSPVTGSVKLEDFAKEFASQF				NA	NA	NA	NA	NA
BMS003_01684	1284			hypothetical protein	ATGAAGCGAGGAATCCATTTTTTACTGCTGCTAATTTCCTTTACAGCTTTTGCGCAACGGGCAAATATTGATACTGCCCAGGTCGTTATACCGGGAAGAGAGAACAGCACAGAAGCACAGTCAAAACCTTATGTGATCATGATATCAACGGATGGTTTCCGTTATGATTATGCCAGGAAATATAATGCTGAAAACCTTTTAAAACTGGCTAATGGCGGTGTAAAGGCTGAAGCAATGATTCCAAGCTATCCAAGTATTACTTTCCCCAATCACTGGAGTTTAATCACCGGGCTTTACCCTTCTCATAATGGTTTGATAGATAACTTTTTCTATGATTACAAGAGAAAGGAAAACTACGCAATGAGCAATAAAAAAAATGCTGAGGACGGAAGCTGGTATGGAGGAATTCCACTTTGGGGACTTGCTGAAAAACAAGGTATGGTATCAGCCTCTTTAATGTGGGTAGGATCTGCAAGTGATGCCGGAGGAATGAGACCAACTTATTATTATCCTTATCACGAAAAATTTACCCCTTCTGAAAAAGTAGAAAAAGTAGTCAACTGGCTGAAACTGCCGGAAGATAAAAGACCCCACTTTATTTCATTATATTTCCCGGAAGTAGATGGGAGCGGGCATCATTTTGGCCCGGATACCAAAGAAACAGAAACTGCTGTCCACCTGATAGATCAGGCAATTGGTGATCTTGTTCAGAAAGTAAATGATTTAGGATTAAAAAATGTCAACTTTATTTTTGTTTCCGATCATGGAATGATCAAAGTAGATGGAGGTACCCCTTTGGAAATCCCGGCTATTCTTTTTGATAAAAACAGATTTGATTTTTACAATTCTCAGACTTTACTGAGAGTTTACGTTAAAAACTCAGATGAGGTAAAAGCAGTTTACAAAGAATTGAAAGCTAATAAAACAGATGATTACGAAGTATATCTCGATAAAAAACTTCCTAAATACCTGCATTTTGCTACAAGAGATGATCAGTACAACAGAATAGGACAGATTCTTCTGATCCCGAAAGCACCAAAGATTTTTCTGGAAAAAGGTAAGAAAACATCTGTTGGAAAACATGGTTACAACCCAAAACTAGTTCCGGAAATGAAAGCTACTTTCTTTGCCTGGGGACCTGAGTTCAAAAATAATCTGGTGATTGATGAATTTGCGAACGTTAATGTTTATCCTTTAGTTGCTGAGGTTTTAGGATTGAGAATAGATCAGCCTATTGATGGAAAATTGAAAGTCTTAAAGAAAACACTGAAAGAGAAGAAATAA	MKRGIHFLLLLISFTAFAQRANIDTAQVVIPGRENSTEAQSKPYVIMISTDGFRYDYARKYNAENLLKLANGGVKAEAMIPSYPSITFPNHWSLITGLYPSHNGLIDNFFYDYKRKENYAMSNKKNAEDGSWYGGIPLWGLAEKQGMVSASLMWVGSASDAGGMRPTYYYPYHEKFTPSEKVEKVVNWLKLPEDKRPHFISLYFPEVDGSGHHFGPDTKETETAVHLIDQAIGDLVQKVNDLGLKNVNFIFVSDHGMIKVDGGTPLEIPAILFDKNRFDFYNSQTLLRVYVKNSDEVKAVYKELKANKTDDYEVYLDKKLPKYLHFATRDDQYNRIGQILLIPKAPKIFLEKGKKTSVGKHGYNPKLVPEMKATFFAWGPEFKNNLVIDEFANVNVYPLVAEVLGLRIDQPIDGKLKVLKKTLKEKK				NA	NA	NA	NA	NA
BMS003_01685	846			hypothetical protein	ATGGAATTCAAAACCTTAGCCCATATCACAACAGATGAACTTTTATCAGTGTTCAACCATTCATTTTCCGACTATGTGATTCCCTTTCATCTCACCAAAGAAGTACTTGTCTCAAAGATCGCTGCTGAAAAACTGGATATGAATATTTCTGCCGGAGCATTCGAAAATGAACAACTGGTAGGTTTTATACTCCAGTCTGAAAAAATTGAAAATGGAGAAAAAATAATCTATAACGGAGGTACAGGTATTGTTCCTGAGTGCAGAGGTCTGGGTTTAGTGAGAAAAATGTATGATTTTATTATTCCTCTTTTGAAAGAAAGGAATGCTGATGTATTGCTTCTTGAAGTGATAGAAGGAAACAAGGGTGCCATCAGAGCCTATGAAAACCTAGGTTTTACGATTGTCCGAAGATTGCTTTGCTTTAATGGAAATATTAAAAAAGGGAAAGAAAATACCGGAATATCCATTAAAGACCTGAAAACCTTTCAATGGGAGGTACTCCGTTCTTTCTGGGATATTGAACCTTCCTGGCAGGGATCTGTATTTGTACTTGAACCTATGCCGGAAAACTATATCACTTTAGGAGCTTATGAGGGTGAAAAGCTGGTTGGATATATCGTTTACGATCCTGTTTCAAGAAAAGTATATCAGTTTGCAGTAGATAAGAATTACAGAAATAAGGGAATAGGAACAATGCTTTTTAATGCTATTCTTGAAAAGAACGGAGGGCAGGCTGTTGCATTGAACAACGTAGATGATTCTTCGGAGCATACTAGCAGATTTCTTAGTAAAAAAGCAGGACTGAACAACTGGCTGTCACAATTTGAAATGAAGAGATCTGTTTAA	MEFKTLAHITTDELLSVFNHSFSDYVIPFHLTKEVLVSKIAAEKLDMNISAGAFENEQLVGFILQSEKIENGEKIIYNGGTGIVPECRGLGLVRKMYDFIIPLLKERNADVLLLEVIEGNKGAIRAYENLGFTIVRRLLCFNGNIKKGKENTGISIKDLKTFQWEVLRSFWDIEPSWQGSVFVLEPMPENYITLGAYEGEKLVGYIVYDPVSRKVYQFAVDKNYRNKGIGTMLFNAILEKNGGQAVALNNVDDSSEHTSRFLSKKAGLNNWLSQFEMKRSV				NA	NA	NA	NA	NA
BMS003_01686	750			hypothetical protein	ATGAAAAAAACTTTACTTGCACTTAGTTTAGCTCTTGCTAATTTTGCATGGGCACAGTTTTCGTCGGGCACTGTAAACCTCCCCAATACAGCGATGACGGTGAAATTAGACACAACTCCATCTGGTGTAACGATTACAGTAACAGGAGACAGCAATTCTATGATGGGAATTGGTTTTGGCACTACGGGAATGGCACCTGGTGCGGATGGTTTTATTTATAACTCTTCTGCCAACAGAGATTATTCTTTCAGTGGAATTCCTAACACACCTTCAGCCGATGCTTCTCAGGACTGGACAGAAACTTCCAACACTGTATCCGGATCTACAAGAACCGTAGTGGCCACAAGATCACTTTCCGGTGGGGCAGGGGACTTTGCTATTGCCAATGCTGCTGGAACAATAGATATTTTTTATTCCCGTAAAAGTGGCGGAACATCTTTAGGATATCATGATGCAGGAAGGGGATATGCTACATTAACAATGGCAGCGGCTACTTTATCTACCCACGAAATTGCCGCCAATAGCCAAAAGGTAAGCCTTTACCCTAATCCGGCAAAATCAACGGTTAATTTCAAAAACTTTGACAAGATAAAATCCATTGATATCTACGAAGCAACAGGAAGAAAAGTATTGTCGGTAAAACCAGAGGGAGAAAGCATCAGTATCGAAAACCTGAAGTCAGGAAGCTATTATCTTGAAATCCAGCTTAAAGATGGAAGTACATCTTATGAAAAACTGATTAAAGAATAA	MKKTLLALSLALANFAWAQFSSGTVNLPNTAMTVKLDTTPSGVTITVTGDSNSMMGIGFGTTGMAPGADGFIYNSSANRDYSFSGIPNTPSADASQDWTETSNTVSGSTRTVVATRSLSGGAGDFAIANAAGTIDIFYSRKSGGTSLGYHDAGRGYATLTMAAATLSTHEIAANSQKVSLYPNPAKSTVNFKNFDKIKSIDIYEATGRKVLSVKPEGESISIENLKSGSYYLEIQLKDGSTSYEKLIKE				NA	NA	NA	NA	NA
BMS003_01687	525			hypothetical protein	ATGAGACACGTAATCTTAATATTAGGACTGTTCTTGAGCTCATTAGTATCTGCTCAGGAAAAGGTGAAATCAATATTTGATATTGCAAGAAGTGGGACTGTAACTGAAGTACAGGAGTTGATGAAAAAAAATCCGGATGTGATTAATCAGATCAACGAGAACGGATTTTCACCGCTGATTTTAGCTTGTTACAGAGGAAATGTAATTGTCGCCGATTTTTTGATTGATAATGTAAAAGACGTAAACTACAAAAGCCGTGAAGGAACTGCATTGGCAGGTCTTGCCATTAAATACAACAAAGACCTGGTAGAGCATCTTTTAAAGAAGAAAGCAGATCCGAATATTGCAGACGAGACAGGATACACCCCCTTATTCTGGGCTGTAAAATCTGGAAATAAAGACCTGACAGAGCAGCTGCTGAGATACAAAGCAGATAAAACAAAAAAAGATTCAATGGGAATGACTCCTTTTGAATATGCATTACAAACCAATAACAAAGAAATTATTAACCTTTTAAAAAATTGA	MRHVILILGLFLSSLVSAQEKVKSIFDIARSGTVTEVQELMKKNPDVINQINENGFSPLILACYRGNVIVADFLIDNVKDVNYKSREGTALAGLAIKYNKDLVEHLLKKKADPNIADETGYTPLFWAVKSGNKDLTEQLLRYKADKTKKDSMGMTPFEYALQTNNKEIINLLKN				NA	NA	NA	NA	NA
BMS003_01688	546			hypothetical protein	ATGAAAAAATTAGCACTATTAAGCGTATTGCTCCTTTCTGCAGGATACGCTTCAGCACAAAAATACAGTTCTAAAACAGGGAAGGTAACTTTTGAAGCGTCAGTTCCTTTATTTGATGATATTTTTGCTCAGGATGAAAATAATATTGTCATTCTTAATGCAGACAATGGTGAAATGGCGTCTGTGTCAAATGTTAAGAACTTTCATTTTAAAACAAAATTAATGGAAGAGCATTTCAATGAAAGCTATGCTGAGTCTGCAAAATACCCGAAAACAACTTTCAAAGGGAAAATTGTCAATTTTGATAAAACAAAGCTTGCTGCAAGTCCTCAGAAATATACGGTTCAGGGAACTCTTAACTTTCATGGCGTAGACAAAGCCGTTACTTCTGCCGCTACTTTATATGCAAAAGATGGAAAAATCTATATGCAGGGAGGATTTGTAGCCAGACCGGTAGATTATAAAGTAACCATTCCTAAAATGGTTACCAAGAAAGTTGCTGAAAATGTCAATATTGAATACAACTATATAATGGTGAAACAATGA	MKKLALLSVLLLSAGYASAQKYSSKTGKVTFEASVPLFDDIFAQDENNIVILNADNGEMASVSNVKNFHFKTKLMEEHFNESYAESAKYPKTTFKGKIVNFDKTKLAASPQKYTVQGTLNFHGVDKAVTSAATLYAKDGKIYMQGGFVARPVDYKVTIPKMVTKKVAENVNIEYNYIMVKQ				NA	NA	NA	NA	NA
BMS003_01689	309			hypothetical protein	ATGCTACTGATGGCTTGCGACAGCAGAACTTATGAAGAGATTTCTGATAATACACCTATCACTACAAACGTAAAATACACAGCAGAGGTAAAACCAATTGTGGATAACAGCTGCATAAGCTGTCATTCCGCAGGGAGCTTTAAACCGCTGGTTACGTATGATCAGGTTAAAAATAATATAGACGGAATTCTGGATCGTATCCAAAGACCTAACGGTGACCCCGGGAAAATGCCACAGGGAGGCTCTCTCTCTGCAGCCCAGATCAATATTTTCATCAAATGGAAAGCTGACGGATTAAATGAAAATTAA	MLLMACDSRTYEEISDNTPITTNVKYTAEVKPIVDNSCISCHSAGSFKPLVTYDQVKNNIDGILDRIQRPNGDPGKMPQGGSLSAAQINIFIKWKADGLNEN				NA	NA	NA	NA	NA
BMS003_01690	843			hypothetical protein	ATGACAAAAACTCTCTTATTTTTGTCAGTATTTTCCTCAGCTCTTGTCTTTGCACAGGAGGATCTGTTGAAAGATATTGACACCGTTCAAACCAATACAGAAACCTCACAACCTGCCTTCAAAGCACTTCAGATTGTTACAGGGCAATCTACAAAATTAGCCGCCAGAAAAGAATGGTATATTATTGTTGCTCATAGATTTGGGGATATAAGCGCAGGATTTAAAGACTTTTTCGGGCTGGATCATGCTTCCACCAAATTAGGCGTGATCTACGGTATTTCAGATGCTGTATCTGTAAGCCTTTCCAGAGAAACGAACATGAAAACTTTTGAAGGAGCAGTGAAATACAGACTGGTAAAACAAAGTGAAAACTTTCCGGTGAATATCGTGGGGTATAATGTAATGGGTGCCAATACTGAGCTGGATAAAGATACTTATCCGTATCTTAAATTCAGCGACAGGCTTTCTTACCTTACACAGGCACTCATCTCAAGAAGATTCAGTGACAAGCTTTCCGTACAGCTTACGCCTTCCTTTGTTCATAAAAACCTTTACGAACCCACCATTGAAAACAAAAATCAGTTTCTGGCAGGTTTGGGAGGACGTTACAAAATTTCAAAAAGAGTTTCTGTGAATGCAGAATACTTTGTGAACTTCGACGATCACAGTTTTTATAAAAACCCTTTATCATTGGGGGTAGATATAGAAACCGGGGGACATGTTTTCCAGCTTTTACTTACGAACTCCCAGATAAATTCAGATATAGGATATCTTACCAATGCTACAGGAAGATGGGGAAAGGGACATATTTTCTTTGGGTTTAATCTTTATAGAGTTTTTTAA	MTKTLLFLSVFSSALVFAQEDLLKDIDTVQTNTETSQPAFKALQIVTGQSTKLAARKEWYIIVAHRFGDISAGFKDFFGLDHASTKLGVIYGISDAVSVSLSRETNMKTFEGAVKYRLVKQSENFPVNIVGYNVMGANTELDKDTYPYLKFSDRLSYLTQALISRRFSDKLSVQLTPSFVHKNLYEPTIENKNQFLAGLGGRYKISKRVSVNAEYFVNFDDHSFYKNPLSLGVDIETGGHVFQLLLTNSQINSDIGYLTNATGRWGKGHIFFGFNLYRVF				NA	NA	NA	NA	NA
BMS003_01691	651			hypothetical protein	ATGGTTAATAACTCTTTTTTTGTAGATAAATTTGGATTTTTAGGATCCGACTTTTTATCTGAGCTGGAAAAGCATGCTGTTGTTATTGATATAAAAGCAAAAACTGAAATCATAAGAGAAGGACAGAAAAATAAGTTTGTACCTTTCTTAATAAAAGGCTCTATCAAGGTTTTTACCCTTAATGACGGAAGAGAGTTGATCTACTATTATATTAAACCTAAAGATAGCTGTCTGATGACTTTTTCATCCATTCTTACAGATTATATCAGCAGAGTATATGCCATTGCGGAAGAAGACTCTGAAGCAATCCTTATTCCCGTTTCTATCATGCACGAATGGCTCATCAGGTTTCCGGAAATCAATAAACTTTTTTATCATGAGTATGACCGAAGATTTTCAGAAGTCATGAATATGGTAAATGACGCTGTTTTCCACAAGCTTGATAAAAGAGTTCTGAATCATATTAAACAACAGATTTCATCCACAGGAAACAATCCTATTAAGATCACCCATCGTGAAATTGCCAACAGTTTGGGTACTTCCAGAGAAGTGGTAAGCAGAGTTTTGAAAAAAATTGAAAGCGAAGGCGAAATTGTTCAGACTAAAGAAGGTATAAAAGTTACTGTAAATGAAAATGTTAGGATGGTCTAA	MVNNSFFVDKFGFLGSDFLSELEKHAVVIDIKAKTEIIREGQKNKFVPFLIKGSIKVFTLNDGRELIYYYIKPKDSCLMTFSSILTDYISRVYAIAEEDSEAILIPVSIMHEWLIRFPEINKLFYHEYDRRFSEVMNMVNDAVFHKLDKRVLNHIKQQISSTGNNPIKITHREIANSLGTSREVVSRVLKKIESEGEIVQTKEGIKVTVNENVRMV	PGPT0000515_2467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_01692	306			hypothetical protein	ATGGACAACAATCAAAATCCACAAGACGGAAACATCAACATCGAATTAAACGAAATGGTAGCTGCTGGTATCTATGCTAACTTAGCATTGGTAAACCACTCTCCATCTGAATTTGTAGTAGACTTTATTCAGTTGATGCCAGGTGTTCAGCAAGCTAAAGTAAGATCAAGAGTTATTCTTGCTCCACTTCACGCTAAAAGAGTATTAAGCGCTCTTCAGCAGAATATCGCTAACTACGAGCAGCAGTTCGGAGAAATCAAAGAAGTTGAGCCTTTCGTATTAGGAGGAAACAACGTACAAGCGTAA	MDNNQNPQDGNINIELNEMVAAGIYANLALVNHSPSEFVVDFIQLMPGVQQAKVRSRVILAPLHAKRVLSALQQNIANYEQQFGEIKEVEPFVLGGNNVQA				NA	NA	NA	NA	NA
BMS003_01693	4266	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	ATGTCAAATAAAAATAAATCAAGTAGATTTAATAAAATAACCATCGGTTTAGCTTCACCGGAGTCTATCTTACAAGACTCAAGAGGGGAGGTTTTAAAACCGGAAACTATTAACTACAGAACTCACAAGCCTGAAAGAGACGGGCTATTTTGTGAGAAAATCTTTGGTCCTGTAAAGGATTACGAATGTGCTTGTGGTAAATACAAGAGAATTCGTTACAAAGGGATCGTTTGTGACCGTTGTGGAGTAGAAGTTACTGAGAAAAAAGTAAGAAGAGAGAGAATCGGGCACATTAACCTTGTAGTTCCAATTGCACACATCTGGTATTTCCGTTCATTACCAAACAAAATCGGATACCTTTTAGGAATTCCTTCTAAGAAATTAGACATGATCATCTACTACGAAAGATATGTAGTGATTCAGCAGGGTATTGCTAAGAAGTTAGACGGTTCTGATTTTGAAAATATGGAATTCCTTACAGAAGAAGAGTACCTTGACATCATGGAAACTCTTCCTGTAGAAAACCAGTATCTTGATGATTCTGATCCAAACAAATTCATTGCCAGAATGGGTGCTGAAGCTGTAGAAGATCTGTTAAAAAGAATTGATCTTGATGCATTGTCTTTCGACTTGAGACACAAAGCTCACAACGAAGGTTCAAAACAAAGAAGAACTGAAGCTCTTAAGAGATTGAACGTTGTAGAAGCATTAAGAGGTGCTAATACAAGAATGATCAACAGACCAGAGTGGATGATCATGCGTGTACTTCCTGTTATCCCACCAGAACTAAGACCATTGGTTCCATTGGATGGAGGACGTTTCGCAACTTCTGACTTGAATGACCTTTACAGAAGAGTTATTATCAGAAATAACCGTTTGAAGAGATTATTGGAGATCAAAGCTCCTGAAGTAATCTTGAGAAACGAGAAGCGTATGCTTCAGGAATCAGTAGATTCATTATTCGATAATACAAGAAAATCTTCAGCCGTAAAATCTGAATCAAACAGACCATTGAAATCACTTTCAGATTCATTGAAAGGTAAGCAAGGTCGTTTCCGTCAGAACCTACTAGGAAAAAGGGTTGACTACTCTGCGCGTTCGGTAATTGTTGTAGGTCCAAACTTACAGCTTCACGAATGTGGTATTCCTAAAGATATGGCAGCTGAACTTTACAAACCATTCATCATTAGAAAACTAATTGAAAGAGGTATTGTAAAAACAGTAAAATCTGCAAAGAGAATTATCGACAGAAAAGAACCGGTAGTTTATGATATCCTTGAAAACGTGATGAAAGGTCACCCTGTTCTATTGAACAGAGCACCTACGCTTCACAGACTGGGTATTCAGGCTTTCCAACCTAAGATGATCGAAGGTAAGGCAATCCAGCTACACCCATTAGTAACTACGGCATTCAACGCCGATTTCGATGGTGACCAGATGGCGGTACACTTGCCGCTAGGACCAGAAGCGATCCTTGAAGCTCAGTTATTGATGTTAGGTTCTCAGAACATCTTGAACCCGGCAAACGGTTCTCCAATTACAGTACCATCTCAGGACATGGTTCTTGGTCTTTATTTCATGACTAAAGAATTAAGCTCTACAGAGACAATGAAAGTAAAAGGAGAAGGTCTTGCATTCTATTCTCCTGAAGAAGCAGAAATTGCTTACGCTGAAGGAAGAGTATCTTTAAATGCTAAAGTAAGATGTAGACTACCAATCAAAGAAGACGGAGAAATCGTTACAAGATTGATCGAGACTTCTGTAGGTAGAATCCTATTCAACCAGATTGTACCTAAGCAGGTAGGATATATCAATGAACTTTTGACTAAGAAATCATTGAGAAACGTTATCGGTAAGATCCTTGCTGATACAGATTTCCCTACCACTGTGAAGTTCCTTGATGCAATGAAAGATCTAGGGTATTCAAACGCATTCAAAGGAGGTCTTTCTTTCTCACTAGGAGATATTGTAGTTCCTGTTGAGAAAAAGCAGATGATTGCACAATCCATCGAAACTGTAGACGAAATTAGAGCTAACTATAACATGGGTCTAATTACCGATACAGAACGTTATAACCAGGTAATCGACGTTTGGACCAATACCAACGCCGGATTAACTGAAATGATCATGAGCAGAATGAAAACTGACCAAGGTGGTTTCAACTCTGTATATATGATGCTTGACTCTGGAGCGAGGGGTTCTAAAGAACAGATCCGTCAGTTATCAGGAATGAGAGGTTTGATGGCAAAACCGCAGAAAGCCGGTTCTACCGGAGCGGAGATCATCGAAAACCCGATCCTTGCTAACTTTAAGGAAGGTCTTTCGATTCTAGAGTACTTTATCTCTACCCACGGTGCTCGTAAGGGTCTTGCGGATACCGCTCTTAAGACAGCCGATGCTGGTTACTTAACGAGAAGATTGGTAGACGTTGCTCAGGACGTTATCGTTACAGAAGACGACTGTGGAACATTAAGAGGTACAGAAGTTACTGCACTTAAGAAAAATGACGAGATTGTTGAAAGAATCTCTGAAAGAATCTTAGGTAGAGTATCACTTCATAATATTTACGATCCTGAAACTGACGAGCTTATTGCAAGTGCAGATCAGGTGATCATTGAATCTTTGGCGAAGAGAATCGAAGAAGCTGGATTAGAAGCTGTGGAGGTTCGTTCACCATTAACTTGTGAAGCTAAGAAAGGTATCTGTGCGAAATGTTACGGTAGAAACTTAGCAACAGGTAAAGTGATCCACATGGGTGAAGCGGTAGGTGTAATTGCAGCACAGTCAATTGGGGAACCAGGTACTCAGCTTACGTTGAGAACTTTCCACCAGGGGGGTACTGCAGGTAACGTATCAGAAAACCCATCTATCGTTGCAAGAAGAGATGGTATCGTAGAAATGGATGAGGTAAGAACAATTACTTCTGAAGATGAAAACGGTAATACAGCTGAGGTTGTAGTGTCTCGTTCAACAGAATTCAGATTAGTTGCTGATAATGAGTCCAGAACTCCATTAATGGTAGCTAACGTACCTTACGGATCTATATTATCTGTAAAACCAGGTGATAAAGTGAAGAAAGGAGATACAATCTGTAGATGGGATCCGTATAACGCGGTTATCATTGCTGAAACTTCAGGTAAGGTAGAATATGAGGATATCATCCAGGGTATTTCATTCCAGCTTGAAATTGACGAACAGACAGGATTCGAAGAGAAGGTAATCTCTGAATCTAGAAATAAGAAAGCCGTACCTACCTTGAAAGTGGTAGACTCTAAAGGAGTTGAGCAAAAAGCTTACAACTTACCGGTAGGAGCCCACTTAATGGTTAACGATGGTGAAAAAATTAAGGCTGGTAAAGTCCTTATCAAGATCCCGAGAAAATCTGCAAAAGCAGGGGATATCACCGGAGGTCTTCCGAGAGTTACCGAATTATTCGAAGCAAGAAACCCTTCAAACCCAGCGGTTGTTACTGAAATTGACGGGGTAGTTTCTTACGGAAAAATCAAGAGAGGTAACCGTGAACTTATTGTTGAGGCTAAAACTGGAGAAAGAAAAATTTACCTGGTAAAACTTTCTAACCAGATTCTTGTTCAGGAGAATGACTTCGTAAGAGCAGGTTCTCCGCTTTCTGACGGTTCTATCACACCGGAAGATATCTTAAGAATTAAAGGGCCAACAGCCGTTCAGGAATACTTAGTAAACGAGATTCAGGAAGTTTACCGTCTACAGGGGGTAAAAATTGATGATAAGCACTTCGAAATTATCGTAAGACAGATGATGACGAAAGTATCTATCGTAGATGGAGGTGATACTCAATTCCTTGAAGGAGCTCTTGAGCACAAGTATGATTTCTTGGAAGAAAACAACAGAGTATTCGGTCTTAAAGTAGTAGTAGATGCCGGTGATTCTAAAGAATTCCAACCAGGTCAGATGATTACTGCAAGAGAATTAAGAGACGAGAACTCTAAGTTGAAGCGTGAAGACTTAAGCCTGGTAGAAGTAAGAGAAGCTCTTCCTGCTACTGCAACTCCTGTACTGCAAGGTATTACAAGAGCAGCACTTCAGACGAAGTCATTCATGTCTGCAGCATCATTCCAGGAAACAACTAAAGTTCTTAACGAAGCTGCGGTTGCTGGTAAGATAGACGATCTTAACGGTCTTAAAGAAAATGTAATTGTAGGACACAGAATTCCTGCAGGTACAGGTCTTAAAGAATATCAGAACGTTATTGTAGGTTCTAAGAAAGAATTCGAAGACCTTAACTAA	MSNKNKSSRFNKITIGLASPESILQDSRGEVLKPETINYRTHKPERDGLFCEKIFGPVKDYECACGKYKRIRYKGIVCDRCGVEVTEKKVRRERIGHINLVVPIAHIWYFRSLPNKIGYLLGIPSKKLDMIIYYERYVVIQQGIAKKLDGSDFENMEFLTEEEYLDIMETLPVENQYLDDSDPNKFIARMGAEAVEDLLKRIDLDALSFDLRHKAHNEGSKQRRTEALKRLNVVEALRGANTRMINRPEWMIMRVLPVIPPELRPLVPLDGGRFATSDLNDLYRRVIIRNNRLKRLLEIKAPEVILRNEKRMLQESVDSLFDNTRKSSAVKSESNRPLKSLSDSLKGKQGRFRQNLLGKRVDYSARSVIVVGPNLQLHECGIPKDMAAELYKPFIIRKLIERGIVKTVKSAKRIIDRKEPVVYDILENVMKGHPVLLNRAPTLHRLGIQAFQPKMIEGKAIQLHPLVTTAFNADFDGDQMAVHLPLGPEAILEAQLLMLGSQNILNPANGSPITVPSQDMVLGLYFMTKELSSTETMKVKGEGLAFYSPEEAEIAYAEGRVSLNAKVRCRLPIKEDGEIVTRLIETSVGRILFNQIVPKQVGYINELLTKKSLRNVIGKILADTDFPTTVKFLDAMKDLGYSNAFKGGLSFSLGDIVVPVEKKQMIAQSIETVDEIRANYNMGLITDTERYNQVIDVWTNTNAGLTEMIMSRMKTDQGGFNSVYMMLDSGARGSKEQIRQLSGMRGLMAKPQKAGSTGAEIIENPILANFKEGLSILEYFISTHGARKGLADTALKTADAGYLTRRLVDVAQDVIVTEDDCGTLRGTEVTALKKNDEIVERISERILGRVSLHNIYDPETDELIASADQVIIESLAKRIEEAGLEAVEVRSPLTCEAKKGICAKCYGRNLATGKVIHMGEAVGVIAAQSIGEPGTQLTLRTFHQGGTAGNVSENPSIVARRDGIVEMDEVRTITSEDENGNTAEVVVSRSTEFRLVADNESRTPLMVANVPYGSILSVKPGDKVKKGDTICRWDPYNAVIIAETSGKVEYEDIIQGISFQLEIDEQTGFEEKVISESRNKKAVPTLKVVDSKGVEQKAYNLPVGAHLMVNDGEKIKAGKVLIKIPRKSAKAGDITGGLPRVTELFEARNPSNPAVVTEIDGVVSYGKIKRGNRELIVEAKTGERKIYLVKLSNQILVQENDFVRAGSPLSDGSITPEDILRIKGPTAVQEYLVNEIQEVYRLQGVKIDDKHFEIIVRQMMTKVSIVDGGDTQFLEGALEHKYDFLEENNRVFGLKVVVDAGDSKEFQPGQMITARELRDENSKLKREDLSLVEVREALPATATPVLQGITRAALQTKSFMSAASFQETTKVLNEAAVAGKIDDLNGLKENVIVGHRIPAGTGLKEYQNVIVGSKKEFEDLN				NA	NA	NA	NA	NA
BMS003_01694	3822	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	ATGAGTAAAACAAAATCAACAACTCAAGGAAATCCGAGAATTAATTTCTCATCAGCGAAAGGAAAAATCATCACTCCGGACTTTTTGGATATCCAAATTGAATCTTTCAGAGAATTTTTCCAGCTTGATACACTTCCTGAAGCCAGAAAGACAGAAGCTCTTTACAAGACTTTCCAAGAGAATTTCCCAATTACGGATTCAAGAAACCAATTCGTATTAGAATTCTTAGACTATCTGGTAGATTCTCCACGTTATTCAATTGATGAGTGTGTGGAAAGAGGACTTACTTATTCAGTTCCTCTAAAAGCTAGACTTAAACTATATTGTACTGACCCGGAACACGAAGATTTCCAGACAGTGGTTCAGGACGTATACTTAGGTCCGGTTCCTTATATGACGCCAAGTGGTTCTTTCATCATCAACGGTGCTGAGAGAGTTATCGTTACGCAGCTTCACCGTTCACCTGGTGTATTCTTCGGACAGACTTACCACGCAAACGGAACCAAACTTTACTATTCAAGAATTATCCCTTTCAAAGGATCTTGGATGGAATTTACAACAGATATCAACAGCGTAATGTACGCATATATCGACCGTAAGAAAAAATTACCATTAACAACTTTATTAAGAGCCATCGGGTACGAATCTGATAAGGATATCCTTCAGATCTTTGACCTTGCTGAAGAAGTGAAAGTTTCTAAAGCTGCCCTTAAGAAAGTGGAAGGGAGAACATTGGCTGCGAGAGTATTGAACACCTGGTTCGAAGACTTCGTAGACGAAGATACAGGTGAGGTGGTTTCTATCGAAAGAAACGAAATCATCTTGGATAGAGAAACTATTCTTGAAAAAGAACACTTAGATCTAATTCTTGATGCTGGTGTGAAATCAATCCTGATTCACAAAGAAAACAGCAACGAATTCTCTATCATCCAGAATACATTACAAAAAGACCCTACTAACTCTGAAAAAGAAGCGGTAGAGTATATTTATCGTCAGTTAAGAAATGCAGATCCGCCAGATGAGGAAACTGCAAGAGGAATTATTGAAAAATTATTCTTCTCTGAGCAGAGATACTCTTTAGGTGAAGTAGGACGTTACAGACTAAACAAAAAATTAGGTCTTAACATTCCTACTACAACTGAAGTTCTTACAAAAGAAGACATCATTGCTATCGTAAGACACCTGATAGAGCTTGTAAACTCTAAAGCTGAGGTTGATGATATCGACCACTTATCAAACAGAAGAATTAAAACTGTTGGTGAGCAATTAGCTGGACAGTTTGGGGTAGGTCTTTCAAGAATTGCAAGAACAATCAAGGAAAGAATGAACGTTAGAGATAACGAAATCTTTACTCCTCTTGACCTTGTAAATGCTAAAACATTAACATCTGTCATCAACTCGTTCTTTGGTACCAACCAGCTTTCTCAGTTCATGGACCAAACCAATCCTTTGTCAGAGATCACTCACAAGAGAAGATTATCCGCACTAGGGCCTGGTGGTTTATCAAGAGAAAGAGCAGGTTTCGAGGTTCGAGACGTTCACCATACTCACTATGGAAGAATTTGTCCGATTGAAACTCCGGAAGGACCAAACATCGGATTGATTTCATCTTTAGGGATCTATGCAAAAATCAACAACTTAGGTTTCATCGAAACTCCATATAGAAAAGTAGAAAATGGTAAGATTGATCTTAGCGCTGATCCTATTTACTTAAATGCCGAAGACGAAGAAGATAAAGTAATTGCTCAGGCAAACGTTGAATTAAGTGATAACGGTGAATTCGAAACAGACAGAATTATTGCAAGATTGGATGGTGACTACCCGGTAGTTGAGCCATCTCAGGTTAACCTTATTGATGTTGCTCCAAACCAGATCTCTGGTATTTCTGCATCATTAATTCCGTTCCTTGAGCATGATGATGCGAACCGTGCATTGATGGGATCTAACATGATGCGTCAGGCCGTTCCTCTATTGAAGCCACAGGCTCCAATCGTTGGTACAGGGCTTGAGCAACAGGTTGCAAGAGATTCAAGAATCTTAATTAACGCTGAAGGTACAGGTACAGTACAGTACGTAGATGCTGACAGAATCGTTATTAAATATGAAAGAAGCGAAGACGAGGATTTAGTACAATTCGAGTCAGCTACTAAAACATACAACCTTACTAAGTTCAGAAAAACTAACCAGAGTACAACTATTACCCTAAGACCAAACGTAAGAGTAGGCGATGTAGTGGAAAAAGGACAGGTACTTTGCGACGGTTATGCTACTGAAAAAGGAGAATTGGCTCTTGGTAGAAACTTAGTGGTAGCGTTCATGCCTTGGAAAGGGTACAACTTCGAGGATGCAATCGTAATCAACGAAAAAGTTGTACGTGAAGACTGGTTTACTTCAATCCACGTAGATGAGTATTCTCTTGAAGTTCGTGATACCAAATTAGGTATGGAAGAACTTACAGCAGATATTCCAAACGTATCTGAAGAAGCTACTAAAGATCTTGACGAGAACGGTATGATCAGAATCGGTGCTGAAGTGAAGCCTGGAGATATCATGATTGGTAAAATTACTCCAAAAGGTGAATCTGACCCGACTCCTGAAGAAAAACTTCTTAGAGCAATCTTCGGTGATAAAGCTGGTGATGTGAAGGATGCTTCATTGAAAGCTGACTCTTCATTAAGAGGAGTTGTGATCAACAAGAAATTGTTCTCAAGAAACATCAAAGACAAAAAGAAAAGAACTGAAGAAAAACTTAAACTTGAAGAAATTGAAAACACTTACAAGGCTAAGTTTGACGAGTTGAGAAATACATTAATTGAAAAATTAAATACACTGGTAAGCGGTAAAACTTCTCAAGGGGTACAAAATGACCTTGACGAAGAAATCATCGGTAAAGGTGTGAAATTCACTCACAAGTTATTAACTTCAGTTGAAGATTATGTAAACGTTAGCGGTTCAGACTGGACAGTAGACGCTGACAAGAATGAATTGATCAAACAATTAATTCACAATTACAAAATCAAATATAACGACATCCAGGGAGTTAAAAACCGTGAGAAATTTGCTATTTCAATCGGAGATGAGCTTCCGGCAGGTATCATGAAGCTGGCTAAAGTTTACATCGCTAAGAAACGTAAACTGAACGTAGGAGACAAAATGGCAGGACGTCACGGTAACAAAGGTATCGTTTCAAGAATCGTTCGTGAAGAAGATATGCCATTCCTTGAAGACGGAACACCAGTAGATATCGTATTGAATCCACTAGGGGTACCTTCCCGTATGAACATCGGTCAGATCTATGAAACAGTCCTTGGATGGGCTGGTCAGAAACTGGGTATGAAGTTCGCTACACCAATCTTCGATGGAGCAAGTCTGGATCAGATTACGGAGTATACAGAGAAAGCAGGTCTTCCTAAATTCGGTCACACTCACCTTTATGATGGTGGTACCGGAGAAAGATTTACTCAGGCTGCAACAGTAGGTATCATTTACATGTTGAAACTAGGACACATGGTAGATGATAAAATGCACGCACGTTCTATCGGTCCTTACTCATTGATTACTCAGCAGCCGTTAGGAGGTAAAGCTCAGTTCGGAGGTCAGAGATTCGGAGAGATGGAGGTTTGGGCACTTGAAGCATTCGGTGCATCGAATATCCTTAGAGAGATCCTTACTGTGAAGTCGGATGACGTGATTGGTAGAGCAAAAACTTATGAAGCTATTGCAAAAGGTGAATCTATGCCTGAACCAGGTATTCCGGAATCATTCAATGTATTACTTCACGAGTTACAAGGTCTTGGATTAGACGTAAGATTGGAGGAGTAA	MSKTKSTTQGNPRINFSSAKGKIITPDFLDIQIESFREFFQLDTLPEARKTEALYKTFQENFPITDSRNQFVLEFLDYLVDSPRYSIDECVERGLTYSVPLKARLKLYCTDPEHEDFQTVVQDVYLGPVPYMTPSGSFIINGAERVIVTQLHRSPGVFFGQTYHANGTKLYYSRIIPFKGSWMEFTTDINSVMYAYIDRKKKLPLTTLLRAIGYESDKDILQIFDLAEEVKVSKAALKKVEGRTLAARVLNTWFEDFVDEDTGEVVSIERNEIILDRETILEKEHLDLILDAGVKSILIHKENSNEFSIIQNTLQKDPTNSEKEAVEYIYRQLRNADPPDEETARGIIEKLFFSEQRYSLGEVGRYRLNKKLGLNIPTTTEVLTKEDIIAIVRHLIELVNSKAEVDDIDHLSNRRIKTVGEQLAGQFGVGLSRIARTIKERMNVRDNEIFTPLDLVNAKTLTSVINSFFGTNQLSQFMDQTNPLSEITHKRRLSALGPGGLSRERAGFEVRDVHHTHYGRICPIETPEGPNIGLISSLGIYAKINNLGFIETPYRKVENGKIDLSADPIYLNAEDEEDKVIAQANVELSDNGEFETDRIIARLDGDYPVVEPSQVNLIDVAPNQISGISASLIPFLEHDDANRALMGSNMMRQAVPLLKPQAPIVGTGLEQQVARDSRILINAEGTGTVQYVDADRIVIKYERSEDEDLVQFESATKTYNLTKFRKTNQSTTITLRPNVRVGDVVEKGQVLCDGYATEKGELALGRNLVVAFMPWKGYNFEDAIVINEKVVREDWFTSIHVDEYSLEVRDTKLGMEELTADIPNVSEEATKDLDENGMIRIGAEVKPGDIMIGKITPKGESDPTPEEKLLRAIFGDKAGDVKDASLKADSSLRGVVINKKLFSRNIKDKKKRTEEKLKLEEIENTYKAKFDELRNTLIEKLNTLVSGKTSQGVQNDLDEEIIGKGVKFTHKLLTSVEDYVNVSGSDWTVDADKNELIKQLIHNYKIKYNDIQGVKNREKFAISIGDELPAGIMKLAKVYIAKKRKLNVGDKMAGRHGNKGIVSRIVREEDMPFLEDGTPVDIVLNPLGVPSRMNIGQIYETVLGWAGQKLGMKFATPIFDGASLDQITEYTEKAGLPKFGHTHLYDGGTGERFTQAATVGIIYMLKLGHMVDDKMHARSIGPYSLITQQPLGGKAQFGGQRFGEMEVWALEAFGASNILREILTVKSDDVIGRAKTYEAIAKGESMPEPGIPESFNVLLHELQGLGLDVRLEE				NA	NA	NA	NA	NA
BMS003_01695	2595			hypothetical protein	ATGACCAAAAAATTATTCGATAAGCTGACTGCTATGCTGATGACATTGATAATGTCTGTAGCGGTATTTGCACAGCAGGGCTATGAACCAATCCGTGGAATGGGTGTGGAGGCAAAACCGGTAAACAATTCAGGAATCTGTCTTGTGTGTTATAACGGGAGCATGAATCCTGTAGTAGATGCCAGCCTGGATAATAGCGTAAGCATGGGGAATTTTGCTTCCATTTTAAGTGGAAACGGAATCTCCGTAAAAAATAAAAATACAACTTACCCTGCGGGATATATTACAGGTTTCAATGTAGACCTCGGAACAAGTTTTATTACTGTTGATCTGTTAAGCTCTTTGAGAATCAGTACCTATAAAAATGGCGTTCTTCAGGAAACGACTACCAGCAGCACGCTTTTATCAGTACCTGCATTCGGGGGAAGTAAAAACAGAATATTCCTTCATTTCAAGACCTCAAAAGAGTTTGATGAAGTAAGATTATATCAGACCAATGTTGTTTCAGTGTTCAGTGCAATGAATGTATATTATGCATTCGCATTTGATCCTGCAAAAATCCCTACAGATAACAATGGTATTTGTGATGACATCATTGCCGGAAGTGGTGTTGATGGAAATGTATCCGGAAGCAGCAGTTTCCTTGCTCCGCTTTCGTATGTTCAGAATAAAGAAAGAATAGGAGACGGAAATAAAAACTCTTATGGATCAATAGTACTGCCGGTTGGATTATTGGGGTCTTATTCAGTAGGGGTTCTTGATAAAAACCAGAAATATCCGGCAGGGAACAGAACAGGTTTTGTTATAGAACCGGATGACCAGGGCAAATTGCTCAGTGCAGAATTCTTGAAAAATATTACGATAGAAACTTATCTTTTCGGTCAGCTGCAGGATTCAAAACAGCTGTCTGACGGAGGAGGTTTAATTAATATAAAAGTATTGGGTTACGGTTCAGGAAAACAGAAAGTTACTTTAACAACTACTAAGCCTTTCAACGAAGTAAGATTGAAAGTTACCCAAACAGTAGGGTTTAACCTGGGAGCACTGAAAGTATATTATGCTTTTGAAGAACCTGTTTCCTGCGATTGTGATGATAAGATCCAGACAAGTGGTTCTGCTGTTCCCGGAAACCTGGTTACAGGTACTGCATGGACATCGGGTCCGGGATTCCTTGGTCTTATTTTGGCTAAAATGACCAATCCGGGAGCTATTGTAGACAATAACCCTTCCAATTATGCTACGGCTACTGTGCCTGCTGCATCTATTTTTAGTCTTTTCTCAGCATTTGCCACAGTAGGTACAAACACGGTGCTTCCTGTTAATACAATGGCTGGATTTACTGTAGAAAAAGCAGGAAATCTTCTTGGAGTGAGTGTTCTTGAAAATATTACGGTAACATTATATAACGGAAATACTTTGACTGATACTTTCACAAGTTCGGGAAGCCTTATCAGTGGAAATTTCTTTACTACAAATTCAAATAAATTCTATGTTGGTGGTAAGGCTACAAAGCCTTTCAACCGTATTAAGATTACTTTCAACAGCGGTACGGCTATCCGTATTCCTCAGAATTACTATATCTATAACGCTTTTGCGAGCAGAGATGATGACAATGACGGTGTTCCGAACTGCTTTGATCAATGCCCGGGAGGAGATGACAGCATAGATAATAACGGAAACGGAATCCCGGACTGTGCCGAAGGATGTACAGCTGTAAATGATAAATCTCCTGTGCTGGATACAGATGGTGACGGTATTGTGGACGCTTGTGACCTGGATTCTGATAATGACGGAATTCCGGATGCTGTGGAAGACTTTGATAAAAATGGCAAATTCCAGGATGATGATAATGAGGGAGATATCCTGTTAACTCCGGTATTGGGAGACTCTGTTCCTAATTATTTAGACCTGGATTCTGATAATGACGGTATCCTGGATTTATTTGAATCTGGAATTCCAGCCTCGGTAATCAACCAGATCGATGCGGATCACAATGGAATTATTGATGCCAATGTTCCGGTAGGTAAAAACGGAATTGCTGATATTCTTGAAACTTCACCTGACTCAGGAGTGTTGAAATATCCAATCAAAAATACAGATGGTGATGATAAGCCGGACTTCCTGGATATTACTTCCAATGGTTCAGATCCTGACCTTTATCAGATCGGAAAAGCAAATCTTGATACGTTAGGAGGAGGATTTATCTCTACCATTGATGATAAAGACAAAGATGGTATTCAGGCAGTGGTAGATACAGACCTTGTGAAAAGAGGGTCTCCGGATTCGCCGCTTTCACCTTATGCTTCATTGCTGAAAAATGCTGTCAGTGCTTCAAAAATTTCTACAAAAGATATTGCAGAAGCGGCCAATGATGTAAAAATATATCCGAACCCTGTAAAAGCAGGAGAAGATCTAAGGATTACATCAGCGGAAGAAGGAGTGTATACTTTGTTCTCGGCACATGGGCAGGTAGTTAGGACAGATAAGTTTAATGCCTATACCGGTATTGATACATCTTCACTTCCGGCAGGCGTGTATATTATTAAAATAGAAACCAAATCGATGATAAAATCTTATAAGGTTATTGTGAAATAA	MTKKLFDKLTAMLMTLIMSVAVFAQQGYEPIRGMGVEAKPVNNSGICLVCYNGSMNPVVDASLDNSVSMGNFASILSGNGISVKNKNTTYPAGYITGFNVDLGTSFITVDLLSSLRISTYKNGVLQETTTSSTLLSVPAFGGSKNRIFLHFKTSKEFDEVRLYQTNVVSVFSAMNVYYAFAFDPAKIPTDNNGICDDIIAGSGVDGNVSGSSSFLAPLSYVQNKERIGDGNKNSYGSIVLPVGLLGSYSVGVLDKNQKYPAGNRTGFVIEPDDQGKLLSAEFLKNITIETYLFGQLQDSKQLSDGGGLINIKVLGYGSGKQKVTLTTTKPFNEVRLKVTQTVGFNLGALKVYYAFEEPVSCDCDDKIQTSGSAVPGNLVTGTAWTSGPGFLGLILAKMTNPGAIVDNNPSNYATATVPAASIFSLFSAFATVGTNTVLPVNTMAGFTVEKAGNLLGVSVLENITVTLYNGNTLTDTFTSSGSLISGNFFTTNSNKFYVGGKATKPFNRIKITFNSGTAIRIPQNYYIYNAFASRDDDNDGVPNCFDQCPGGDDSIDNNGNGIPDCAEGCTAVNDKSPVLDTDGDGIVDACDLDSDNDGIPDAVEDFDKNGKFQDDDNEGDILLTPVLGDSVPNYLDLDSDNDGILDLFESGIPASVINQIDADHNGIIDANVPVGKNGIADILETSPDSGVLKYPIKNTDGDDKPDFLDITSNGSDPDLYQIGKANLDTLGGGFISTIDDKDKDGIQAVVDTDLVKRGSPDSPLSPYASLLKNAVSASKISTKDIAEAANDVKIYPNPVKAGEDLRITSAEEGVYTLFSAHGQVVRTDKFNAYTGIDTSSLPAGVYIIKIETKSMIKSYKVIVK				NA	NA	NA	NA	NA
BMS003_01696	1134			hypothetical protein	ATGAAAAACAAATTATTAACCATCGCTCTTTTTTCAATTGGCTTGCCGGTATCAGCTCAGATAGGGATTGGGACGGAATTACCTCAGGCAACCTTTGATATTGCAGGATCACCTTCTAATGCAAGCAAGCTTGATGGGGTGATAGCCCCAAGACTTACCGGTGTACAATTAAAAGCCAAGAATTATACTGCCGCCCAAACCGGAGCAATAGTATATGTTACAGCAGCTGAATCTGCACCTACAGGACAAACCGTAGATGTCGTTGAACCGGGCTATTATTATTTTGACGGAACCAAATGGGGACACTTAAGCGGAAACTGGCGAACAGTAGGTAACGCTGGAACAACCGCTACAACCGCTGCCTTGGGAACAGATATTAGTGCCGGGAATTATTTGGGAACAAATGACGGGCAGAATCTGGTTCTGTCTACTCAGAAAAATGTAAAAGGAATTCTGGACATTAACGGAACCCTGAGGGGAGGTAATGCTAACTCTGCCACAGGTCCTTATGCTTCGTTTACATGGGGATCCAATAATATTCTTACAAACAGTACCTCTTCAAATATAGCCTTAGGAAAAGATAATACAGTTTCTGCACAGGGTAATTTTCCAGCAGTAGCTGTTGGACTGAATAATACAGCAACTAACGGAGCCAAAGTAATAGGAAATAACAATAGTGCCACAGGAGCTAACAACCTTGTATTTGGAAACCTGAATACTGTAACAGGGCTTACAGGACTTACTATTGGAAACAATCATACAAATAGTGGCGGTATAGCTATTGGAAGTGGAAATATAACATCATTGAACAATATAGCTGTCGGTTCTGCAAACACGGCAAATGGTACAGAAGCTTTTGCTATAGGATTTTCCGGTCAGGCAGCTGCAGGACAAATGGTTTATGCCAACAAAGCACATATTTTCTTCAATAAAAATAATGGGACAGATACCATATTAGGGATTAATATGATTCCTACGGCCGCTACTTCTACGGGTGCCGCAGTTCAGATGAAAGGAATTGCTTCCGGAGCTAACGCTGCCTGTACGGCTGCTGAAGAAGGAGCAATACGGTATAATACAACTGCTAAAGTACATGAGGGCTGCAATGGGAGTAACTGGAAAGCACTTTACTAG	MKNKLLTIALFSIGLPVSAQIGIGTELPQATFDIAGSPSNASKLDGVIAPRLTGVQLKAKNYTAAQTGAIVYVTAAESAPTGQTVDVVEPGYYYFDGTKWGHLSGNWRTVGNAGTTATTAALGTDISAGNYLGTNDGQNLVLSTQKNVKGILDINGTLRGGNANSATGPYASFTWGSNNILTNSTSSNIALGKDNTVSAQGNFPAVAVGLNNTATNGAKVIGNNNSATGANNLVFGNLNTVTGLTGLTIGNNHTNSGGIAIGSGNITSLNNIAVGSANTANGTEAFAIGFSGQAAAGQMVYANKAHIFFNKNNGTDTILGINMIPTAATSTGAAVQMKGIASGANAACTAAEEGAIRYNTTAKVHEGCNGSNWKALY				NA	NA	NA	NA	NA
BMS003_01697	519			hypothetical protein	TTGGATAGAAATTACTTTCTTTCCTATAGCCATAGAATTGCATTTCTGTTATTTTTGGCGGCTATGGGAAATTTAAATGCTAAGTTTATATCTGTTACGATGACAAAGCCGGAGTTATCATATTATACAGATATCAATGGTCGTTTGCAGTGGCGCTTAGCTGGTGTCTCATCTCATATATGTGCTGAAACGGAAAATGCAGCCGTCTATAATATATCAGCCCATCAAAAGAAAGTTTATTTATTCTATCATAAAGTTTCACAATATCATTTTCCTTTCTTTAAGAGCGGTGATCTTCATATGTTATTAAGTGCATTTGGAGATGTAAAACCCAATACCTTATTGAATAGTTGGGGGTATTCATATCAGAGAGATAATGAAGACCTTTTCCCGCTAATTGAAGAAACAAAAAAGTTCTGTAATAATTCCGTTAAATTGGTTGACGGCTTTAAGTTTATTATTAAAATTCCCGATAAACTTATTGTTTCTCCTATTTCATCCTACTTCTTACAATTTTAG	MDRNYFLSYSHRIAFLLFLAAMGNLNAKFISVTMTKPELSYYTDINGRLQWRLAGVSSHICAETENAAVYNISAHQKKVYLFYHKVSQYHFPFFKSGDLHMLLSAFGDVKPNTLLNSWGYSYQRDNEDLFPLIEETKKFCNNSVKLVDGFKFIIKIPDKLIVSPISSYFLQF				NA	NA	NA	NA	NA
BMS003_01698	153			hypothetical protein	ATGTTAATTATTAACAAATCAATAATAATAATAAAATATATTGAAATCAGATTTAATAATATTAGATTACTATTGAATAATAAAACACATATTTACAAAGACTTACATACAAAAAAAAGAGTCCGGACAATGTCCGGACTCCTATATTTATAA	MLIINKSIIIIKYIEIRFNNIRLLLNNKTHIYKDLHTKKRVRTMSGLLYL				NA	NA	NA	NA	NA
BMS003_01699	369	rplL	COG0222	50S ribosomal protein L7/L12	ATGTCAGATTTAAAAAATTTAGCTGAAACGCTAGTAAACCTAACTGTAAAAGACGTAAACGAATTAGCTGCTATCCTTAAGGATGAGTACGGAATTGAGCCAGCTGCTGCTGCTGTAGTAGTTGCTGCAGGTGGAGCAGGTGATGCTGCTGAAGAAAAAACTGAATTCGACGTAATTCTTAAGTCTGCAGGTGCTTCTAAATTAGCTATCGTTAAATTAGTAAAAGATTTAACTGGTGCTGGTCTTAAAGAAGCTAAAGATATCGTAGACGGAGCTCCTGCTGCAATTAAGCAAGGTGTTTCTAAAGACGAAGCTGAAGCTCTTAAGAAGCAATTAGAAGAAGCTGGTGCTGAAGTAGAATTGAAATAA	MSDLKNLAETLVNLTVKDVNELAAILKDEYGIEPAAAAVVVAAGGAGDAAEEKTEFDVILKSAGASKLAIVKLVKDLTGAGLKEAKDIVDGAPAAIKQGVSKDEAEALKKQLEEAGAEVELK				NA	NA	NA	NA	NA
BMS003_01700	585			hypothetical protein	ATGACAAAAGACCAAAAAGTTGTAGCAATACAAGAGATCAAAGATTTGCTTCAGGATGCAAAAGTAGTATACGTAGCAGATTTAGAAGGTTTGAACGCAGGTAAATCTTCAGATTTCAGAAGACAGGCTTTCAAGCAAAATATCAAAGTAAAAGTTGTAAAAAATACTCTTTTACAAAAAGCAATGGAGCAGATTGAAGGAGTAGATTACTCTGAAATGTTCCCATCTTTCAAAGGAAACTCAGCATTAATGATTGCTGAAACAGCTAACGCTCCTGCGAAATTAATCAAAGATTTTAGAAAGAAAGAGGAGAAGCCTGCTTTGAAGTCTGCTTTCGTACAAGAAACGTTCTATGTTGGTGACAATAACCTTGATACTTTAGTAAGCATCAAGTCTAGAGAAGAAATGATCGGTGAAATCATCGGATTACTTCAGTCTCCAATCCAAAGAGTTGTTTCTGCTCTTCAAAACAAACCTGAAACAGTAGAAGCTAAAGCTGAAGAAGCGGCTCCTGCGGTAGAAGAAACTCCTGCTGAAGCTCCGGAAGCTGCAGCAGAAAGCACTGATGAAACAAGTGCTGAATAA	MTKDQKVVAIQEIKDLLQDAKVVYVADLEGLNAGKSSDFRRQAFKQNIKVKVVKNTLLQKAMEQIEGVDYSEMFPSFKGNSALMIAETANAPAKLIKDFRKKEEKPALKSAFVQETFYVGDNNLDTLVSIKSREEMIGEIIGLLQSPIQRVVSALQNKPETVEAKAEEAAPAVEETPAEAPEAAAESTDETSAE				NA	NA	NA	NA	NA
BMS003_01701	693	rplA		50S ribosomal protein L1	ATGGCAAAATTAACTAAAAAGCAAAAGGAAGCTTTAAGCAAAGTAGAAAAAGGAAGAATCTATAACCTTGAAGAAGGTTCAGCTCTTGTAAAAGAAGTGAACACTACAAAGTTTGATGCTTCTGTAGATATCGCTGTAAGATTAGGTGTAGACCCTAGAAAAGCAAACCAGATGGTAAGAGGTGTTGTATCTCTTCCTCACGGTACTGGTAAAGATGTTAAAGTATTAGCTCTTGTAACTCCAGATAAAGAAGCAGAAGCTAAAGCTGCTGGTGCTGACTATGTAGGTCTTGACGAATATTTACAAAAAATCAAAGAAGGTTGGACAGACGTTGACGTTATCGTTACTATGCCAGCTGTAATGGGTAAATTAGGTCCATTAGGTAGAGTATTAGGTCCAAGAGGTTTAATGCCAAACCCTAAATCAGGAACTGTAACAATGGAAATTGGTAAAGCAGTAACTGAAGTAAAAGCAGGTAAAATTGATTTCAAAGTAGATAAGTATGGTATTATCCATGCTGGTATTGGTAAAGTATCTTTCGATGCTGCTAAAATCAAAGAAAATGCTCAGGAATTAATCCAGACATTGATCAAAATGAAACCAACTGCTGCTAAAGGAACTTATGTGAAGAGTATCTATTTATCTTCTACAATGAGCCCAGGTATTGCAATTGATACAAAATCTGTTAACTAA	MAKLTKKQKEALSKVEKGRIYNLEEGSALVKEVNTTKFDASVDIAVRLGVDPRKANQMVRGVVSLPHGTGKDVKVLALVTPDKEAEAKAAGADYVGLDEYLQKIKEGWTDVDVIVTMPAVMGKLGPLGRVLGPRGLMPNPKSGTVTMEIGKAVTEVKAGKIDFKVDKYGIIHAGIGKVSFDAAKIKENAQELIQTLIKMKPTAAKGTYVKSIYLSSTMSPGIAIDTKSVN				NA	NA	NA	NA	NA
BMS003_01702	444	rplK		50S ribosomal protein L11	ATGGCTAAGAAAGTCTTTAAAATGGTAAAGCTTCAGGTGAAAGGTGGCGCAGCTAACCCTTCTCCACCAGTAGGTCCAGCATTGGGTTCTGCAGGTGTGAACATCATGGAGTTTTGTAAGCAATTTAACGGAAGAACCCAAGATAAGCCAGGGCAAGTTTTACCTGTAGTAATTACAGTATACGAAGACAAATCTTTTGAATTCGTTATTAAAACTCCACCTGCAGCAATCCAGCTAATGGATGCAGCTAAGATCAAGGGAGGTTCTGGTGAACCAAACAGAAACAAAGTAGGTTCTGTAACTTGGGAACAGGTAAAGAAAATCGCTGAAGATAAAATGGCGGATCTTAACTGTTTTACAATGGACTCTGCTCTTTCTATGGTTGCAGGTACTGCTAGATCTATGGGATTAAGAGTAACAGGAACTAAACCAACTAACGCTTAA	MAKKVFKMVKLQVKGGAANPSPPVGPALGSAGVNIMEFCKQFNGRTQDKPGQVLPVVITVYEDKSFEFVIKTPPAAIQLMDAAKIKGGSGEPNRNKVGSVTWEQVKKIAEDKMADLNCFTMDSALSMVAGTARSMGLRVTGTKPTNA				NA	NA	NA	NA	NA
BMS003_01703	669			hypothetical protein	ATGAAAAAGAAAATTTATATCACCATAATCATGTGTCTTGGGATATTTTTGAATGCCCAAAAAGTAAAAGTAGGAATAAATATTGCAAATCCTGCAGAAACACTTGATGTTAACGGAAAAACCTATACAAATTCTTTATACCTGAGAGATCCGGGAGAACCTACCATGACAGGTGGCAGCTTTTTAGCCACTTCACAGAATGGCCTGCAGTTATATGATCCGTCTCTGGAAAGCAGCGGATTATTTAATTATCTTAAACTTACCCTTACCGGAGTATCCGGAGCAGGAATTACAGATTATGATACCAAGATTGATGCAAACAACTTTCTTGTAATCCTTCATAATTATTCCTTCAAACTGAATGACGGTACTACAAATGTGGTGCTTGATTATGGAGATAATGGAGTGAATGACAACAAACAGGGATCACCGGATGTGGTCGCTTTCAAAAGTAATGGAACATGGCATATCAGAGCCCGGTTTACAGACAGCAGAATTATTGCGTTAACGTCATCCAATCCATCCAGAACTTATAACAACTTTACCGTTGATCTTTATCTGATGGCATACAGAAGATTGATTGAAAAGCATAATATCAGTGATATCAATGCGAATCTTGGAGGAAATGACGGCTCTACTCAGAAGCTTATTACACCATCAGGTTTTTAA	MKKKIYITIIMCLGIFLNAQKVKVGINIANPAETLDVNGKTYTNSLYLRDPGEPTMTGGSFLATSQNGLQLYDPSLESSGLFNYLKLTLTGVSGAGITDYDTKIDANNFLVILHNYSFKLNDGTTNVVLDYGDNGVNDNKQGSPDVVAFKSNGTWHIRARFTDSRIIALTSSNPSRTYNNFTVDLYLMAYRRLIEKHNISDINANLGGNDGSTQKLITPSGF				NA	NA	NA	NA	NA
BMS003_01704	648			hypothetical protein	ATGAAAAAAATTATTGCAATACTCTTTACGGGTTTTGCTGTTGTAAGCGCAAACGCGCAAGTAGGAATTAATACTAATACACCCAAAGGAACTCTCGATGTTGAAGGAGAAACATTAGTAGAGTCTTATTTAATAGATACAGAGAACACAAAGGCAAACGGAAACTATCTTTTGCTTACCCGTTCTAAAGATACTTCACCAGTAGGTAAGATTAAGCTGTTGGATATATCGCTCCGTAATGTAGCCCCTGTAAATATGTATAATGTAGTGTTGACTAATGTGAGACAGGATGAAGTTGTGAGCCTCAATACAGGATTAGAGGTTAATAAATATGTAGTGGCAATTACAGGTGCTGTTTTTACAGGAGCGGTTTCAGCGGCAAATATGACAACTACTCCCAAATCATACGGCTCGTATGCAACTGAAGTTACCCAGATAGCCAGCGGAGGCAAAAATTATCATGCTATTAATTTAGCTTTTAAAGGTGCCGGAACTGTTTCTTCCCAAAACGGAACCTGGACACTTACTTTGAATGTCTTTGAAAAATCATTAGTTAAAGACTGGGGAACTTTTAACGGTTCCGTTTCAGCATCTGCCTCACCGGGATATTCAGGGGTATCAACCAATACACCTTTAGGACTTCAATAA	MKKIIAILFTGFAVVSANAQVGINTNTPKGTLDVEGETLVESYLIDTENTKANGNYLLLTRSKDTSPVGKIKLLDISLRNVAPVNMYNVVLTNVRQDEVVSLNTGLEVNKYVVAITGAVFTGAVSAANMTTTPKSYGSYATEVTQIASGGKNYHAINLAFKGAGTVSSQNGTWTLTLNVFEKSLVKDWGTFNGSVSASASPGYSGVSTNTPLGLQ				NA	NA	NA	NA	NA
BMS003_01705	699			hypothetical protein	ATGCTTACTTGTATGGTTTCAATAAATAGAAAGTCTGAATTAGTTGTTGAAACACAAGTCTTATATAAACACAACCCAATGACAAAAATTATTTCGATGATCATTATCGTGGGAACATCTGTGCTTACAAGTGCGCAGGTTGGTATCAATACTACGAAGCCGGAAAAAGAACTTTCCGTGAACGGCACAATGAAGACATCAGGAGTTGTTTTGAAGCAGCCCATGGAGAAACTGAAAGCAGACGAAAATTACACTTTCATTATCAAATCTCCGGCTCCTGAAAACAAAATTACAGCGTACAATGACTCTTTTGTACCCAATTCTCCGGCTCCGATTAACCTTATTCAATTCAAAATTACCTGTGATCCGTCAGATAAGGATTGGGTAAATCAGTATGACACAAAGATCAATTCAAACAAATTTCTGGTAGTCATCTCTTCTTTTGGATTTACACAGCCTACAAGAACTTTTTCTGCAGACTGGCTTACGCCAATGCCTCAGATCTTTGCCTATTCTTCGGGAGGAACATGGAAGCTTAAGGCAGATTACCAGGGATTCGCTCCTGATAATTCTTTTCCTACAGGAGTCTGGACGCTAAATTTACTGGTATTTGACAGGTCATATGCCAAAGATTTTAATGCTTCACAGAATCTTAATGCTTCAACTACTGGTGCTGCTGCAGCTCCATTAATCCAATAA	MLTCMVSINRKSELVVETQVLYKHNPMTKIISMIIIVGTSVLTSAQVGINTTKPEKELSVNGTMKTSGVVLKQPMEKLKADENYTFIIKSPAPENKITAYNDSFVPNSPAPINLIQFKITCDPSDKDWVNQYDTKINSNKFLVVISSFGFTQPTRTFSADWLTPMPQIFAYSSGGTWKLKADYQGFAPDNSFPTGVWTLNLLVFDRSYAKDFNASQNLNASTTGAAAAPLIQ				NA	NA	NA	NA	NA
BMS003_01706	543	nusG	COG0250	Transcription termination/antitermination protein NusG	ATGAGCGAATTGAAATGGTATGTGCTGAAAGCAATCAGCGGACAGGAAAATAAAGTGAAAAACTATATTGAGACAGAAATCAAACGTTTAGGATTTGAACAGTACGTTACTCAAGTGGTTATTCCTATGGAAAAGGTAATCCAAATTAGAAACGGTAAAAAAGTTCCTAAAGAAAGACCTTACTACCCTGGCTACCTGATGGTTGAAGCTGACCTGATGGGAGAGATTCCTCACGTTATCAAGAATATCCCAGGAGTTATTTCTTTCTTAAGCTTAACAAAAGGAGGTGATCCTGTTCCAATGAGAAAATCTGAGGTTAACAGAATGCTTGGAAGAATGGATGAACTTTCAGAATTTGCAAGCGATGTTGAGATTCCTTATGTAGTAGGTGAAAACGTTAAAGTAATCGATGGCCCTTTCAACGGATTCAACGGTACAGTTGAGAAAATTCTTGAGGACAAAAAGAAAATTGAAGTTTCTGTACTGATCTTCGGTAGAAAAACTCCAATGGAACTTAGCTACATGCAAGTAGAGAAAGTATAA	MSELKWYVLKAISGQENKVKNYIETEIKRLGFEQYVTQVVIPMEKVIQIRNGKKVPKERPYYPGYLMVEADLMGEIPHVIKNIPGVISFLSLTKGGDPVPMRKSEVNRMLGRMDELSEFASDVEIPYVVGENVKVIDGPFNGFNGTVEKILEDKKKIEVSVLIFGRKTPMELSYMQVEKV				NA	NA	NA	NA	NA
BMS003_01707	207			hypothetical protein	ATGAGTTCATTTGTCGATTTTTTAAAAGGTTCTTATAACGAATTCAGACATAAGGTTGAATGGCCAAAGTGGGCTGACCTTCAGTCTTCTACAATCGTAGTGACTATTGCGACAGTGATTCTGGCATTATTTACCTTTGGAGTTGATGAATTGTTTTCAAAGGCAATCAGCAACATAATAGGAATGCTAATCAACTTGTTCAATTAA	MSSFVDFLKGSYNEFRHKVEWPKWADLQSSTIVVTIATVILALFTFGVDELFSKAISNIIGMLINLFN	PGPT0025715_2592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
BMS003_01709	1188	tuf	COG0050	Elongation factor Tu	ATGGCAAAGGAAACGTTTAATCGTAACAAACCACACTTGAACATTGGTACTATTGGTCACGTTGACCATGGTAAAACTACACTTACTGCAGCTATCAGTAGTGTATTAGCTAACAAGGGTCTTGCTGAGAAGAAAGATTTCTCTTCTATTGACTCTGCTCCAGAAGAAAAAGAAAGAGGTATCACTATTAATACAGCTCACATCGAGTACGAAACTGAAAACAGACACTATGCGCACGTTGACTGTCCAGGTCACGCGGACTATGTTAAGAACATGGTAACTGGTGCTGCTCAGATGGATGGAGCGATCTTAGTATGTGCTGCAACTGATGGACCAATGCCTCAAACTAGAGAGCACATCCTACTTTGCCGTCAGGTAAACGTACCAAGAATCGTTGTTTTCATGAACAAAGTTGATATGGTGGATGATGCTGAGCTTTTAGAGCTAGTTGAACTTGAACTTAGAGATTTATTATCTACTTACGAATATGACGGAGATAACTCTCCAGTAATCCAGGGATCTGCTCTTGGTGCTCTTAACGGAGACGAGAAGTGGGTTAAGACTGTTGAAGAATTAATGGAAGCAGTTGATACTTGGATCGAGCAGCCTGTTAGAGATCAGGATAAAGCATTCTTAATGCCAATTGAAGACGTATTCTCTATTACAGGTAGAGGTACTGTAGCAACTGGTAGAATCGAGGCTGGTGTTATCAACACTGGTGATCCAGTTGATATCGTAGGTATGGGTGACGAAAAATTAACTTCTACTATTACAGGAGTTGAGATGTTCAGAAAAATCCTAGACAGAGGTGAAGCTGGTGATAACGTAGGTCTATTGTTGAGAGGTATTGAAAAAACTGACATCAAGAGAGGTATGGTTATCGCTAAGAAAGATTCTGTTAAACCACACAAAAAATTCAAAGCAGAGGTTTATATCCTTTCTAAAGAAGAAGGTGGACGTCACACTCCATTCCACAACAAATACCGTCCTCAGTTCTACGTAAGAACTACTGACGTTACAGGTGAGATCTTCTTACCAGAAGGTGTAGAAATGGTAATGCCTGGTGATAACTTAACAATCACTGTTGAATTACTTCAGCCAATTGCTCTTAACGAGGGTCTTAGATTCGCGATCAGAGAAGGTGGTAGAACAGTAGGTGCAGGTCAGGTAACTGAAATCATCGACTAA	MAKETFNRNKPHLNIGTIGHVDHGKTTLTAAISSVLANKGLAEKKDFSSIDSAPEEKERGITINTAHIEYETENRHYAHVDCPGHADYVKNMVTGAAQMDGAILVCAATDGPMPQTREHILLCRQVNVPRIVVFMNKVDMVDDAELLELVELELRDLLSTYEYDGDNSPVIQGSALGALNGDEKWVKTVEELMEAVDTWIEQPVRDQDKAFLMPIEDVFSITGRGTVATGRIEAGVINTGDPVDIVGMGDEKLTSTITGVEMFRKILDRGEAGDNVGLLLRGIEKTDIKRGMVIAKKDSVKPHKKFKAEVYILSKEEGGRHTPFHNKYRPQFYVRTTDVTGEIFLPEGVEMVMPGDNLTITVELLQPIALNEGLRFAIREGGRTVGAGQVTEIID	PGPT0015245_4020	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS003_01710	1104			hypothetical protein	ATGATGAATAAATTAAAAGAACTTCCCTTCACCAGCTACCATCCCAGCTATGAGTTCCTGGCATTTTACAGAATATTCTTCTCCTTGTTCTTATTATGGGTTGGGATAGCAGATAACAGCTGGATTCATTCTATTCCTAGCAGTGCAATGCATCCGCCCATCAGTATACTGTCATTTATAGACTTCATTCCTTCAGAGTCATTTTTTGTGGTATGTCGGTTTATAATGCATATGTGCCTGTTATTAATACTGATAGGGTATAGGCCGAGAATATTTGCTATACTTTATATGGTTCTGTATATAGTAACCAACAATTATGCTTATTCTTTTGGAAAAATAAATCATGACTTTATTTATACGCTGCCCCTTTTGATAATGGCATTTTCACCATGGAACAGGATATATAGTTTCTTTCCTGAGCCTGAAAAAGAAACGGACAGACTGTCTAAATCATGGCCGATGTTTATGATGAGCCTGATCTTTAGCTTCGGAATGTTTACTGCAGGATTTGCTAAGATTTTAGGAGGCTGGCTCAATATGGATACTCAGTATACGCAGATATTTTTCAATCAGTATCGGTATATTATAGGATGGAATGATCTTCTTTCAGGTTTTTATGATGGTGTCAGGTCTAGGCTGTTCTGGAAGATCCTGGATTATTCTACAGTTATTTTTGAAACTGTTTTTATTATTTCCTTCCTTTCCCCCAAATTTTTCAGGTGTATGCTTGTAGGAGCTATTATTTTTCATATTAACGTTTTATTGATGCTGAATATCTCCTTTATGTTCTCTATAGGGCTGTATACCCTTTTTATTCCTGCTTATCTGCTTCCTGTAGATTTCAGGAACAAGGTAAAAGCCATATTGGTAAGAATATTTGATCAGAAATACAGAGCCAGAGCAATGGTATTGGTCATTCTGTTTTTATTGTTATTAGGCTTTTTCAATATCAATGCTGTAGATTTTGTATTCAATAAATTTTTCAATTATATCTCTCTTGTTTTTGGGAAGTATTCTGTTCCATTGATCATTATGGGCGGGTACTTGATACTGGGACTTTATCTATTCAAAAGATCACTGAGAGCAGCTGATGCAAAACAGTGA	MMNKLKELPFTSYHPSYEFLAFYRIFFSLFLLWVGIADNSWIHSIPSSAMHPPISILSFIDFIPSESFFVVCRFIMHMCLLLILIGYRPRIFAILYMVLYIVTNNYAYSFGKINHDFIYTLPLLIMAFSPWNRIYSFFPEPEKETDRLSKSWPMFMMSLIFSFGMFTAGFAKILGGWLNMDTQYTQIFFNQYRYIIGWNDLLSGFYDGVRSRLFWKILDYSTVIFETVFIISFLSPKFFRCMLVGAIIFHINVLLMLNISFMFSIGLYTLFIPAYLLPVDFRNKVKAILVRIFDQKYRARAMVLVILFLLLLGFFNINAVDFVFNKFFNYISLVFGKYSVPLIIMGGYLILGLYLFKRSLRAADAKQ				NA	NA	NA	NA	NA
BMS003_01711	561			hypothetical protein	ATGGAACGCTACAAAAAAACGGTTCTCTTCGCATTCGGTTTCTTAATCGTGCTGCTCCCATTACAATTGATCTTTAAGATTAATATTGAAGAAACTTATCCTTCATTTAATTTTCCGGGATTTTCTTCATATCCCATAAGAGATGGAAAATATATTAAATTTACCAAAACAACTTCCCATGTTTTTTTTAAAGACGGGTCAGACAGTATTTTAGTTAAAAATGATTATCTGGGAGACAAAATACCAAGAACAATACAGATTACCCTTATTCAGAATTTATTATTTCCCAGAGAATATCCGGTTTTAGATGACCGGCTGAATGCTTTACCTCCTTATAAGAAAAAGCTTTATCTGATGAAAAAATCTATTCTTAACAGGAATATTAAAAAAGTAGATTTAGACGAAAGTAAAAAATTTATTGTGGAAAAGATGAAACAAAGATTTCATGGTAAAGAGGTGGCAGGTATGCAGGTGATCAATGAAACTGTAGATTTTGATATCACCACAAGGAAAATGGGTGAAACAGCTGTTCAGGATACCATATTGAATTTCCGATTTTAA	MERYKKTVLFAFGFLIVLLPLQLIFKINIEETYPSFNFPGFSSYPIRDGKYIKFTKTTSHVFFKDGSDSILVKNDYLGDKIPRTIQITLIQNLLFPREYPVLDDRLNALPPYKKKLYLMKKSILNRNIKKVDLDESKKFIVEKMKQRFHGKEVAGMQVINETVDFDITTRKMGETAVQDTILNFRF				NA	NA	NA	NA	NA
BMS003_01712	3099	czcA_1		Cobalt-zinc-cadmium resistance protein CzcA	ATGAATAAATTCATAAAAAATATAATCGCTTTTTCATTAAAGAATAAAGCATTTACCTTTATCTGGGTTGCGATTTTAGCCATCTCCGGTTTTATAAGTTTCAAAAATATGCCTATTGAAGCCTTTCCGGATGTAACCAATACCCAGATTGTAATCATTACCCAGTGGAATGGACGTAGTGCGGAAGAAGTAGAACGTTTTGTCACGACACCCATTGAACTGGCAATGAGCCCGGTTCAGAAGAAAACAAGTGTGAGAAGTACCACTATGTTTGGACTTTCCATTGTTAAAATTCTGTTTGATGACGGGGTGGACGATACTTTTGCCAGAAATCAGGTCAATAACCAGTTAAGAACCATTAGCCTTCCTGATGAAGTAGACCCGGAAGTACAGCCACCCTACGGGCCAACCGGTGAGATTTTCAGATATACGCTGGAAAGTAAAACAAAAGATTCCCGGACACTGCTTACCCTGCAGAATTGGGTAATAGACCGTGCTTTAAGAGGTGTTCCCGGTGTAGCGGATATCAATGTTTTCGGAGGTCAGGATAAAGTTTTTGAACTAAGTATTGATCCGAGAGCATTGGAAAAGTACAATCTGACTCCGCTTCAGGTATATGATGCTGTTACCAAAAGCAACCTGAATGTAGGAGGTGATGTCATTGAAAAAAACGGTCAGGCTTATGTAGTAAGGGGGATTGGTCTCGTAAAATCCGTGGCGGATATCGGAAATATTACCATTCAGAATGACAGCGGGAATCCAGTTTTGGTTAAAAATGTAGCGGAAGTTCATGAAAGCTCTATGCCCAGAGTGGGACAGGCGGCTCTGAATCATCATGACGATACCGTGGAAGGAATTGTTGTGATGAGAAAAGGAGAAAATCCACGGGAAGTTTTAGTAGGGGTAAAGGCTAAAATTAAAGAGCTTAACGAAAAAATACTTCCGAAAGATGTCAAAATGGTTACTTTCTACGACCGGGACAACCTGATGGATTTTACAACACATACCGTAATGCACAATCTTATTGAAGGGATTGTACTGGTAACGGTGATCGTTTTGATCTTCATGGCGGACTGGAGAACGACTCTTATTGTTTCTATCATCATCCCTTTATCTCTATTATTTGCATTTTTATGTTTAAAACTGGCTGGGATGAGTGCTAATCTGCTTTCATTAGGAGCGGTAGACTTCGGGATCATCATTGACGGAGCCGTCGTCATGGTGGAAGGTCTCTTTGTAATGCTGGATCATAAAGCGAAGCGTTACGGGATGGAGAAATTTAATAAACTTGCCAAAGGAGGATGGATCAAGCAGACCGGAACCGGATTAGGAAAGGCCATTTTCTTTTCAAAATTAATTATCATCACCTCTCTGATTCCTATCTTCTCATTCCAAAAAGTGGAAGGGAAAATGTTTTCTCCCCTGGCATTTACCCTTGGGTTTGCTTTAATGGGAGCTTTGATATTCACCTTAACACTGGTTCCTGTTCTCTCTCATATCCTTTTGAACAAAAATGTAAAAGAAAAACATAACCCATTTGTTAACTTCTGGGACAGAATTGTTTTGAAAGGCTTTAATCTGACATTCGGGTACAAAAGAATAAGCATGATCATTGCGGTCTCCTTTCTGGCTGTTACTTTGTTTTCCGGGAAATTTTTAGGAACAGAATTTTTGCCTCAGTTAAATGAAGGTTCGCTTTGGATTACTGCAGAAATGCCTATGAGTTCATCATTGAAAGAATCTCTGAAAACAGCGGATCTTTTAAAGAAAGATATTATGAGCTTTTCTGAAGTCACAGATGTTCTTGCACAGACGGGAAGAAGTAATGACGGAACCGACCCCAACGGATTTGGGTTCGTACAGTTTGCCGTGAACCTTAAGCCAAGAGAAGAGTGGAGGCGTAAGATCACTTACGATGAATTGATTAATGAAATAGACAAAAAGCTTAGAAGCTATCAGGGAATTACCTTCAATTATTCCCAGCCTATCTCGGATAACGTAGCAGAAGCTGTGGCAGGTTTCAAAGCAGAAAATGGAATCAAAATCTATGGTGATAATCTGGAAACGCTGGATAAATTAGCCCATGAGGTTTTACTGAAGATTAAAGATGTAAACGGTGTAAAGGATCCCGGAATCATTAAAAATATCGGACAGCCGGAAGTAAGTGTTGTTTTGGATAGAGATAAAATGGCTGCTTACGGTGTAATGCCGGCAGATGCACAAGCTGTACTGGAAATGGCTTTTGGCGGAAAAACAGCTTCAGAAATGTTTGAAGGTGAAAGAAAATTCCCAATCCGTCTGCGTTATTCACAGGAATACAGAACCAATGAAAATGATATTGCAACCCTGATGGTCCCTACGCAAGATGGAGCAAAGATTCCTTTGAAAGAAATAAGCACCATTGTTAAAGATAACGGAGCGGCATTTATCTACAGAGACAATATCAAACGATATATTGGAGTCAAATTTTCAATTCGTGACAGAGATTTGGGAAGTACTATTGCTGATGCTCAGAAAAAGGTGGAAACTATTGAACTGCCGGATGGCTATTCCGTGGGGTGGACAGGGCAGTTTGAAAATCAACAGCGTGCGTCGCACAGGTTGGCACAGGTAGTTCCGGTAAGTATTGTGATGATTTTCTTCCTGCTGTTTATTCTGTTCGGAAATATGAAAGATTCTCTTCTGGTATTAGCAAATGTACCTTTTGCTTTAATAGGAGGAATTATCGCGTTGCATGTTACCGGAATTAATTTCGGAATATCTGCCGGAGTAGGAATGATTGCCCTTTTAGGAATTTGCATACAGAACGGAGTGATCCTGATTACAGAATTCCATCAGAATGTTAAAAACGGCCTTGACCTGGATACGGCTATATTAAATGGGGTAAAATCCCGGACCAGACCTGTAATTATGACAGCGCTTATGGCTTCCATAGGGCTTATGCCGGCAGCTTTGTCTACAGGAATAGGATCAGAATCCCAAAAGCCTCTGGCCATTGTAATTATTGGAGGACTGATCACAGCAACAGTACTTACGTTACTTATTTTCCCGATTATCTTCTGGATTTTCAACAGGACAAAAAAACTCAGTCAGATTTAA	MNKFIKNIIAFSLKNKAFTFIWVAILAISGFISFKNMPIEAFPDVTNTQIVIITQWNGRSAEEVERFVTTPIELAMSPVQKKTSVRSTTMFGLSIVKILFDDGVDDTFARNQVNNQLRTISLPDEVDPEVQPPYGPTGEIFRYTLESKTKDSRTLLTLQNWVIDRALRGVPGVADINVFGGQDKVFELSIDPRALEKYNLTPLQVYDAVTKSNLNVGGDVIEKNGQAYVVRGIGLVKSVADIGNITIQNDSGNPVLVKNVAEVHESSMPRVGQAALNHHDDTVEGIVVMRKGENPREVLVGVKAKIKELNEKILPKDVKMVTFYDRDNLMDFTTHTVMHNLIEGIVLVTVIVLIFMADWRTTLIVSIIIPLSLLFAFLCLKLAGMSANLLSLGAVDFGIIIDGAVVMVEGLFVMLDHKAKRYGMEKFNKLAKGGWIKQTGTGLGKAIFFSKLIIITSLIPIFSFQKVEGKMFSPLAFTLGFALMGALIFTLTLVPVLSHILLNKNVKEKHNPFVNFWDRIVLKGFNLTFGYKRISMIIAVSFLAVTLFSGKFLGTEFLPQLNEGSLWITAEMPMSSSLKESLKTADLLKKDIMSFSEVTDVLAQTGRSNDGTDPNGFGFVQFAVNLKPREEWRRKITYDELINEIDKKLRSYQGITFNYSQPISDNVAEAVAGFKAENGIKIYGDNLETLDKLAHEVLLKIKDVNGVKDPGIIKNIGQPEVSVVLDRDKMAAYGVMPADAQAVLEMAFGGKTASEMFEGERKFPIRLRYSQEYRTNENDIATLMVPTQDGAKIPLKEISTIVKDNGAAFIYRDNIKRYIGVKFSIRDRDLGSTIADAQKKVETIELPDGYSVGWTGQFENQQRASHRLAQVVPVSIVMIFFLLFILFGNMKDSLLVLANVPFALIGGIIALHVTGINFGISAGVGMIALLGICIQNGVILITEFHQNVKNGLDLDTAILNGVKSRTRPVIMTALMASIGLMPAALSTGIGSESQKPLAIVIIGGLITATVLTLLIFPIIFWIFNRTKKLSQI	PGPT0004965_2207	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
BMS003_01713	1086	czcB_2		Cobalt-zinc-cadmium resistance protein CzcB	ATGAAAACATATATTATCTCTGTATTGATGATCTGTTCATTATTGGCCTGTTCAAAAAAAGAGGAAGAGAAAAACATGCACGCTAAAAAAGGATTTGAGCTCAGTAATACAATGCTGAACTCTATTTCTCTGGCAAAAGTTGAAAGAAAGAATATAGAAGATGAATACAGCTTTTACGGAAAGATTTCTGCAGACAAGAATAGTTATATAGATGTTTACCCGCTGGTAGGAGGAAACGTAATGAGTGTAAATGTAGAATTGGGAGACTATGTAAAAAAAGGGCAGGTGCTGGCAACCATCAGAAGCACCGAGCTTGCAGAAATTCAGAAAGATGTAAGTGATGCTAAAACAGATCTGGTAGTGGCAAAAAATAATCTTCGTGTTGCGAAAGAGCTTTATGAAGGGAAACTGAATACAGAAAGAGATGTTCTGGAAGCCCAAAGCCAGTTACAGAAAGCCGAAGATCAGTTGCAGCGAGCTGCCGCCGTAAGTACGGTGTATAATGTGAAAACCGGAAATATTTACAGTGTTGTAGCGCCCATCAGCGGTTATATTGTTCAGAAAAGTATCAATAAAGACATGCAGCTGAGAAGTGACAGAAGTGATAATATTTTTGATGTGGCCAATACTACCCATGTATGGGCGATTATGAATGTTAATGAATCTGATATTGATAAAATCAGTCTTGGAATGAAGGCACAGGTTTCCACGCTTTCTTATCCGGATAAAGTTTTTGACGGTAAAATTGATAAAATATTCAAAATTATTGACCCGCAGACCAACACCATGCAGGCAAGAGTAGTCCTTGATAATGCCAGCGGACTTTTGATTCCGGATAGTAAAGCAACCATAAAAGTTTCAAGCCTGGAAAATAATACGACACTTACCGTTCCATCCAAAGCTGTGATCTTTGATGATAATAAAAGCTTTGTGGTGATTTTCAGATCCAGAACAGACGTTAAAATAAGAGAAATCAAAGTACTGAAACAGGTAGGTGATGTCACTTATATTGAAGATGGACTGAAAGAAGGAGAAGAAGTAATTACAAATAATCAACTGCTGGTATACCGTTCGCTGAGCAGCTAG	MKTYIISVLMICSLLACSKKEEEKNMHAKKGFELSNTMLNSISLAKVERKNIEDEYSFYGKISADKNSYIDVYPLVGGNVMSVNVELGDYVKKGQVLATIRSTELAEIQKDVSDAKTDLVVAKNNLRVAKELYEGKLNTERDVLEAQSQLQKAEDQLQRAAAVSTVYNVKTGNIYSVVAPISGYIVQKSINKDMQLRSDRSDNIFDVANTTHVWAIMNVNESDIDKISLGMKAQVSTLSYPDKVFDGKIDKIFKIIDPQTNTMQARVVLDNASGLLIPDSKATIKVSSLENNTTLTVPSKAVIFDDNKSFVVIFRSRTDVKIREIKVLKQVGDVTYIEDGLKEGEEVITNNQLLVYRSLSS	PGPT0004970_2459	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
BMS003_01714	1242	czcC_1		Cobalt-zinc-cadmium resistance protein CzcC	ATGAACAGAATTGCAGTGCTGTGCCTCGCCGTTTCCTCATTCATGGCGGCACAACAGCAGATGTCTCTTTTGGAATGCGAAGAAGCTTTTCAGAAGAACAACCTCCAGCTGCTCGCCGAACAATATAACATCAATATGGCCGATGCGGATATTCTGCAGGCTAAAATCTGGGAATTACCTCAATTAAGCGGGCAATTTAATGCTTACAATCCTCAGGACAAAAAAGTTTTTGATGTAGGACATTCTAAAGGAGCAGGAATTACCCAGCTGATTTATATGGGAGGCAAAAAGAAAAACGAAATTGCCTTTGCCAAATCCAATAAAGAACTTGCTCAGCTTCAATTCTCACAACTGCTGGTAGATTTAAGATCTCAGCTCCGCTCTGCCTATTTCAATCTTTATTATGAAAAACTAAAGCTGGAGAATACCAACAGACAATTAAGCTATATGAATGATCTTTTAAATGCTTATCGTGTACAGTCGGCAAAAGGAAATGTATCCCTTAAAGATGCTGTCAGACTGCAGAGTATTGTGATCCAGCTGAATCATGATAAACTGGAGATTAATAAAAATATTCTGGATTTTGAACAAAATCTGAAAGTTTTAACAGGAGTTTCGGAAGATATAGAACCTGGGATGTCAGAAACCGAAGCTAAAGAAGCTCTCACGGCACAGCCTTTTGGTGATGAAGAAGAACTGAAAAACAAAGCGCTGGAAAATAATGCTGACTATCGTTACAATTTGAAGCTTATTGATAACGGTAAACTATATGCACAATGGCAGAAGTCACTGAATGTACCGGATGTTACCGTAGGTGCTGCATGGGACCAGGCAGGAGGAACTTTTAATAATGAAGCGAATTTGACCCTGGGAATTCCTTTGCCTTTATGGAAGGTCAATCAGGGAAATGTAGTAAAAGCCAACTATGCCATTCAGCAGAATCAGAAAAATGCAGATTTTCAGAAGCTGACCCTGGAAACGAAGGTTCAGTCTGCTTATAAAATATGGAAAACACAATATGATCAGCTCCTGGATGTAAAAACTACTGATCTTCAGAATATGGAACTTGTGTATAACGGAATGCTGAACAATTTCAGAAAAGGAAATGTCAATCTGATTGAATTCACAGATTTTATGGATAGCTACAGGCAGACAGCCCTTCAGATCTATGATATGAAAAATGAAATCATGCAGTCCGCAGAGCAGCTTAATCAATTAGTACAAACGAAAATCTTCTATTAA	MNRIAVLCLAVSSFMAAQQQMSLLECEEAFQKNNLQLLAEQYNINMADADILQAKIWELPQLSGQFNAYNPQDKKVFDVGHSKGAGITQLIYMGGKKKNEIAFAKSNKELAQLQFSQLLVDLRSQLRSAYFNLYYEKLKLENTNRQLSYMNDLLNAYRVQSAKGNVSLKDAVRLQSIVIQLNHDKLEINKNILDFEQNLKVLTGVSEDIEPGMSETEAKEALTAQPFGDEEELKNKALENNADYRYNLKLIDNGKLYAQWQKSLNVPDVTVGAAWDQAGGTFNNEANLTLGIPLPLWKVNQGNVVKANYAIQQNQKNADFQKLTLETKVQSAYKIWKTQYDQLLDVKTTDLQNMELVYNGMLNNFRKGNVNLIEFTDFMDSYRQTALQIYDMKNEIMQSAEQLNQLVQTKIFY	PGPT0004975_2178	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
BMS003_01715	1377	sasA_5		Adaptive-response sensory-kinase SasA	ATGTCTTTAAAAAGAAAGATAGCTTTAACGATCAGCATTGCCTTTTCATTACTTTTTGGAATGGTGATGGCGGTTATCTATTTATCTTTTAATGATTTCAGAAGAGATGAGTTTAAAGAAAGATTCAGGCAGAGGCTTGAATTTACTTCCCATTTTATCTCAAAATCCAAAGACTTTGAAGAAGAGGCACCTGTTTTCTTTAATGAAAATTCTGATAATATTCTTTTGAATGAAAAGATTTTAATTTTCAATGAGAAGAAAGAATTGATCTACAGTACGATCAAAGACAGGAATGTTATCTGGGATAGTGCTATGCTTAAGGAGCTTGATAAAAAGAAAATCATCTATACAGAAAAAACCATTCCGGAGATTTATGCCGCTCTCAGGAACATCAATGGTGAAAATTACTATATTCTTACAAGTGCCTTTGATACCAATGGAAAATCGAAGCTGGGTTATCTTAAATATCTTTTGATTACCGCTTATGTGATGAGTACGATGCTGATTGGTTTTTTCAGTTATTATTTTGTAGAGAAGTTTCTTCGTCCTCTGGAAGATCTGAACAAGGAGATTTCTGAAGTTACAGCCCATAAGCTTACAACTCAGATTCCTGTTGAGCAGTCTAATGATGAAGTCAGTGTTTTAGCAAAATCTTTTAATACAATGATCGGAAGGCTGGATGATGTATTCCAGTCTCAAAAAGACTTTACGGCAAGTGCTTCCCATGAGATCAGAACCCCTATTACCAGGATGGCTTTCCAGCTGGAGAACCTCATTAAGTTTGAGGAGCATTCTCCGGAAACCCTTTCTTCTTTACAGCAAATTCAGAGAGATGTGTATCAGCTGTCAGACCTGACAAATTCACTTTTGCTGCTTACAAAATTTGACAAAGAAAATATTCAGAGTATTTATGAGGAAGTAAGAATTGATGAAGCCATCTTTGAAGCATTTGAAGCAGTAGAGAAAAGCTATCCACAGCTTAAACTTGATTTCATGATCAATGAAGAGAGCTCTGAAAATGCCTTTCTTACCATAAAAGGAATACAGTCTTTATTGGTAATTGTATTTATTAATCTGTTTAAAAATGCAGCCGTATATTCAGACAATGCAGAAGTGAATGTCCTGATTACCGAAACCAATGAGAGTCTTTCTACTGAGGTTATTTCTCACGGAAATACCATTTCTGAAGAAGAACAGACGAAACTGTTTGAAGCTTTTACAAGGGGAAATAACGCACAGAACATATCAGGATCAGGTCTGGGACTTAGAATTGTTAAAAGAATTCTGGAATATCACGATGCTGATATCGTATATTCTTCTCCCGAAGAGTATATCAATAAATTTACTTTATTTTTTAAAAAACAGATTGAAAAGTAA	MSLKRKIALTISIAFSLLFGMVMAVIYLSFNDFRRDEFKERFRQRLEFTSHFISKSKDFEEEAPVFFNENSDNILLNEKILIFNEKKELIYSTIKDRNVIWDSAMLKELDKKKIIYTEKTIPEIYAALRNINGENYYILTSAFDTNGKSKLGYLKYLLITAYVMSTMLIGFFSYYFVEKFLRPLEDLNKEISEVTAHKLTTQIPVEQSNDEVSVLAKSFNTMIGRLDDVFQSQKDFTASASHEIRTPITRMAFQLENLIKFEEHSPETLSSLQQIQRDVYQLSDLTNSLLLLTKFDKENIQSIYEEVRIDEAIFEAFEAVEKSYPQLKLDFMINEESSENAFLTIKGIQSLLVIVFINLFKNAAVYSDNAEVNVLITETNESLSTEVISHGNTISEEEQTKLFEAFTRGNNAQNISGSGLGLRIVKRILEYHDADIVYSSPEEYINKFTLFFKKQIEK				NA	NA	NA	NA	NA
BMS003_01716	681	mprA_2	COG0745	Response regulator MprA	ATGAATATTCTTTTATTAGAAGATGATCTCATTCTGTCTGCGGAATTGTGCAGATTTTTAGAATCAAATAATTTCAATTGTGATAAGATCTACGACGGGGAGACTTTTCTTCGTCAGATAAAAAACAATACCTATGATCTGTATCTTCTGGATATTAATGTTCCTAAAATGAACGGGCTTGATGTTTGCCAGACAATCCGTTCTTTTGACAAAAATACTCCTATCATTATCATCTCCGCCTATGGAGATATCTCTGATAAAAAAGATGCCTTCACCAGGCTGGCTGATGATTATCTTGTAAAGCCATTCCAGTTTGAGGAACTTCTGCTAAGAATTAATTCCTTGCTAAGAAGAAAAGCACCTTCTGATAGTTCCGATCAGGATATTTTAAGAATTGATGACCTTATTATCAATAAAACCGAACAGAAAGTTTATCGTGGAGGTAATGAAATAGCCCTTACATTAAAAGAATTTCAGCTGTTGGTTTATCTTGCGGAAGCGCAGGGAAGAACAGTTTCCAAACAACAGATCACAGAACATGTATGGGAACACAATTTTAATACGAATACCAATACCGTGGAAGTTTATATCAATTTCCTGAGAAAAAAAATTGATAAAGATTTTAAAATAAAACTGATCCATACCCGTTCAGGTTTCGGATACTACCTAAGCCCATTATAG	MNILLLEDDLILSAELCRFLESNNFNCDKIYDGETFLRQIKNNTYDLYLLDINVPKMNGLDVCQTIRSFDKNTPIIIISAYGDISDKKDAFTRLADDYLVKPFQFEELLLRINSLLRRKAPSDSSDQDILRIDDLIINKTEQKVYRGGNEIALTLKEFQLLVYLAEAQGRTVSKQQITEHVWEHNFNTNTNTVEVYINFLRKKIDKDFKIKLIHTRSGFGYYLSPL	PGPT0004105_959	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
BMS003_01724	291			hypothetical protein	ATGAAGATTTCAGTACAATCAATTGGTTTAACTCCACACGAACCACTAGAATCACACATTGACAAAAAAGTAAGCAAATTAGATACCTTCTATGACAAGATTCAGGAGTGTAAGGTATTTTTGAAAGTTGAAAATAATTCGGATAAAGCTAATAAAACGGCCGAGATTATTTTAGCGGTTCCTGGAGATGATATCGTAGTTAAGAAAACAACTACAACTTTTGAAGAAAGTCTGGACCTTTGCGTTGATACTGCTAAAAAGCTACTAATCAAGAAAAAAGAAATGGCATAG	MKISVQSIGLTPHEPLESHIDKKVSKLDTFYDKIQECKVFLKVENNSDKANKTAEIILAVPGDDIVVKKTTTTFEESLDLCVDTAKKLLIKKKEMA				NA	NA	NA	NA	NA
BMS003_01725	891	xerC_2	COG4973	Tyrosine recombinase XerC	ATGATGCTGGAAAAGTTTTTAGAATACTTACAATTTGAAAAAAGATATTCTCCTCATACCATCACAAGCTACAAAAAAGATCTTGAAGACTTTTCCTATTTCCTTCTCCGGACAGAATCTTCCAATGATTTGGCTATAGCAGACAAGAAGATTATCAGAAATTTTATTGTTGAACTAAGTGAAAATGATATTTCCAAGAGAAGCATCAATAGAAAATTATCTTCCCTTCGCAGTTTTTACCTTTTTCTTTTAAAAATAGGTGAAATTAAGGTTTCTCCTACTGAAGGGATTTCTTCCCTTAAGTTTTATGCTGAAAAACAGATTCCTATGTCTAAGGAAGAAATGGAAGATCTTAATGAAAGAGTCTTTGAACAGTTACATGATGTGCTTGAAAAATGCATCATGGAGGTTCTTTATCAGACAGGAATGCGTAAAGCTGAACTTTGTGGCCTGATATTTGAGAATGTTGACTTATATGGAAATGAATTAAAAGTCATAGGAAAGGGGAATAAAGAAAGGGTAATTCCTATTTCCCATGAATTGTCTGAACTCCTTAAAGGTTATCTGGAAATAAGAAATCCGCAGACAGAATTTAAATCATATTTTTTCGTCAATAAGAAAGGGAAAAAACTCAACGAAAAATTTGTTTATGTGGTAGTTAATAAGTACCTTAGTCTTATAACAACGAAAGAAAAAAAAAGTCCTCACATCCTTCGGCATAGCTTTGCTACACACGTTTTGGATAATGGGGCGGAGATCTCCAAAGTAAAAAAAATATTAGGGCATTCCAGTCTTGCCAGTACTCAGGTCTATACGAATGCTAATATTGAACAATTGAAAAAAGTGTTTAATCAGGCTCACCCTCGAGCATCAAAAAAAGAAGAATTATGA	MMLEKFLEYLQFEKRYSPHTITSYKKDLEDFSYFLLRTESSNDLAIADKKIIRNFIVELSENDISKRSINRKLSSLRSFYLFLLKIGEIKVSPTEGISSLKFYAEKQIPMSKEEMEDLNERVFEQLHDVLEKCIMEVLYQTGMRKAELCGLIFENVDLYGNELKVIGKGNKERVIPISHELSELLKGYLEIRNPQTEFKSYFFVNKKGKKLNEKFVYVVVNKYLSLITTKEKKSPHILRHSFATHVLDNGAEISKVKKILGHSSLASTQVYTNANIEQLKKVFNQAHPRASKKEEL	PGPT0021995_2342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
BMS003_01726	198			hypothetical protein	ATGTTAATAATTCCAGTAAAAGATGGTGAATCCATCGACAGAGCTTTAAAAAAATACAAGAGAAAATTTGATAAAACAGGAACTGTTCGTCAATTAAGATCTAGACAACAGTTTATTAAGCCTTCTGTAACTTTGAGACAAGCCAGACTAAAAGCGGCTTACAAACAAAGAGCACTTAGCAAAGAAGAGCAGGCTTAA	MLIIPVKDGESIDRALKKYKRKFDKTGTVRQLRSRQQFIKPSVTLRQARLKAAYKQRALSKEEQA				NA	NA	NA	NA	NA
BMS003_01728	1314			hypothetical protein	ATGGCCATAAAATTTTTTATTCGGGTAAAATCAGGGATAAAGTCTACAATTTATTTCCGTTATAATAGAGGCAGAGAGTTTGAAGTAACTTTAAAAACGCCTTACTCAATCAACCCTACTAACTGGGATGATAAAAATGAATGTTATAATACAAATGGAATTAAGAAAAATCCTAAAACTCCATTAGAGAAAAACCTCATCACAGAAATTTCATTACTAAATAATAATCTCGCATTATTAAAATCTGAGGTTTCCATTTTCTTAACAAACAATCTACAAGCAGACAAAGAAGATATTAAAGACTTTTATACAAAAAAATATTTTCCCGAAAAAGAAAAGCCAAAAACAACCAAGGCAACTATACCGACTAGTTTTTCCGAATTTATAGATTACTATATTAAAGAAAAAAGTAAACGAATTGAAGGAAAGCAAGACCCGATTACGGAAGCAACACGTAAAAAATTAATCACTATAAAAAACCGAACTATCTTATTCGATAAGAAATTGCTCGTAAAAAATATTAATGATGATTTTCGGGACGATCTAACAGAATGGATGCAATTTGAAAAATATAGTGCGAGTACAATTATAAAAGATTTAAAATATATTAAAACTGTTTGTAGCTTCGCATCCAAAAAGAAAGTAGAGGTAAATAGTGAAGTTTTACATTGGGAGTTTATGAAGGCTAAACAAACCTACACACCACCTATTCTTACCTTTATAGAACTAAAACAAATACAATCCACCATATATCCGCATGATTATTTAAACAATGCGAGAGACTGGATGATTATAGGCTTTTATACTGGTGCCAGAGTTTCCGATTTACTGAATTTTGATGTTACAAATATTGTTGATGATAATATTTTAAAATTCCAACAAAAGAAAATACAAAATCAAACTCATGATGTTGAAGAATACATTTTTCTACATCCAGAAGTTTTGAAAGTTTTAGAAAAAAATGGCGGTCAATTTCCACGAAAAATTTCAGACGTAAAATTAAACCTTTATATTAAAGAAGTTTGCAAAATAGCTGGTTTAACACAGAAAATGATTGGAGGAGTCAAAAATAAGGAAGAAGGAAAACAAGGGAAAAAGATTGTCAAAGAATATGAAAAATGGGAACTTATAACAACACATATATTCCGTCGTTCTTTTGTAACTAACTTTATTGACATATTAGGAAAAGAGAACATTAAAACTCAAACAGGTCATAAAACAGATGATATGGTAAATCTCTATAATAAAACTGAGAAAATAGATAAAGCAAGAAAGGTTGGAGAAAAAATGGAAACCTTTTTAAAAATAGTCTAA	MAIKFFIRVKSGIKSTIYFRYNRGREFEVTLKTPYSINPTNWDDKNECYNTNGIKKNPKTPLEKNLITEISLLNNNLALLKSEVSIFLTNNLQADKEDIKDFYTKKYFPEKEKPKTTKATIPTSFSEFIDYYIKEKSKRIEGKQDPITEATRKKLITIKNRTILFDKKLLVKNINDDFRDDLTEWMQFEKYSASTIIKDLKYIKTVCSFASKKKVEVNSEVLHWEFMKAKQTYTPPILTFIELKQIQSTIYPHDYLNNARDWMIIGFYTGARVSDLLNFDVTNIVDDNILKFQQKKIQNQTHDVEEYIFLHPEVLKVLEKNGGQFPRKISDVKLNLYIKEVCKIAGLTQKMIGGVKNKEEGKQGKKIVKEYEKWELITTHIFRRSFVTNFIDILGKENIKTQTGHKTDDMVNLYNKTEKIDKARKVGEKMETFLKIV				NA	NA	NA	NA	NA
BMS003_01729	867			hypothetical protein	ATGAACAGTCAACTTCCAGAATTAAAAATAAGGTTCGAAGGAGCATTATCTGAATTAGCTAGCTATTTACCTCTACTTGAATTGATGACATCATTTTCAAATGAAAATAATATAAAAAATAATTTTTCATTATTTACAGAGACAATAAAAGATATCAGTCTAAAAAGCTTAAACTATTTTAGTGAAAATTATTCCATTGATAATATTATTAGTGACGCAAAATTATATTTGACCAACGATGAATTGTTTCGCTTTTATGACAATATTAAAAGAACATTTGAGTTCAAAAAAATGTTGTTAATTAATATAACCAACTATTTAAATACAATACTAACTTATACACAAGAAGAAATCAACCAAACTCCTCTTGGATTTCCTAAAGAGTTAGAAACTATTTTTATAAATAATTACACTGGAGGCAATTTAACACTTCCTATATTCGGCGCTTCACCAGATAAATACTTTCCCACAGAATTAGTTAATAGTATTGAACAAATTTTCAATCAATTCGAAGATCATATTAATTTAATTATAAAGTCCCCAGAATATGAAATTGAAAATAACATAAAAGAGATTGAAAAAAAAGATAATAACAAAATAGTTTCAAAACTTACAAATTTACAAGCAATCGGATATTTATTTACAGAATTAATTAATAAAGGAATCATCGAACCTAGAAGAAGAGCAGGAAAAGAAAGTCCTCAGAATATTGCGAAAATGATTTTGGAACATTTTCATTTTGAAGATTTAGAAGAACAACCTAAAGTTGAGGACATAAGAAAAACACTTTTTAATGACAATAAACTTTCTAATGATAAAATGCAATTATTTAAAATTCCAAGTCTGAAACAATTAAATGGAAAATAA	MNSQLPELKIRFEGALSELASYLPLLELMTSFSNENNIKNNFSLFTETIKDISLKSLNYFSENYSIDNIISDAKLYLTNDELFRFYDNIKRTFEFKKMLLINITNYLNTILTYTQEEINQTPLGFPKELETIFINNYTGGNLTLPIFGASPDKYFPTELVNSIEQIFNQFEDHINLIIKSPEYEIENNIKEIEKKDNNKIVSKLTNLQAIGYLFTELINKGIIEPRRRAGKESPQNIAKMILEHFHFEDLEEQPKVEDIRKTLFNDNKLSNDKMQLFKIPSLKQLNGK				NA	NA	NA	NA	NA
BMS003_01730	285			hypothetical protein	ATGAGCGCAATACAGTTTATAGGAACAACACCAAATGATTTAATAAATGAAATAAAAAATGCTCTCCTTAAAGAATTAAAAGAGCAACTCGTAAAAGATTTTCAACCCAAAGAACCTACAGAATACCTTACACGTTCCGAGGTTTGTGAACTTCTTCAAATTGATCTTAGCACTTTACATAGATGGCGTAAAGATGGAACACTTACCGCATATGGAGTTAGAAATCGTGTGTATTTTAAACGCTCCGAAATTGACGACTATATTAATAAAAATAAGCTTACGTAG	MSAIQFIGTTPNDLINEIKNALLKELKEQLVKDFQPKEPTEYLTRSEVCELLQIDLSTLHRWRKDGTLTAYGVRNRVYFKRSEIDDYINKNKLT				NA	NA	NA	NA	NA
BMS003_01731	1008			hypothetical protein	GTGGAAACAAAAAGGGATTGCTCAGGCAGTCCCTTTTTGTTCAAATATGTAATAGTGGCAACCATCACACTTGGCAAAATTACAAAATTTATGATAGATCATATTAAACTATCTATCTTTTGCCAAAATATAATACAACGTTTATTTAATCATCATGACTTCATTAAATGCAAGCCTTTAAACCGTAATTATTATAGTTTTTGTCATAAAAACATAGGCACTAAATTACGCTTTGATTTCCGTAAAGCTATGGAGAAAAGAAAAGTTATTGGTTATCATCATTTAGAAATAAATATTTTTCCTCATTATCATTTTAATAATTACAAGCATAATGGTAATGATTTTAGTCCTATACATTGTATTAGAGTAATAAAAGAAATTTTAAATTTGGCTGGGATAGAAAAATCTGAATACTTGAATTTAAATATTGTCAATATTGAATTTGGCGTAAATATCATTCCCGTTATAAACGTAAAAACGGTGATTGACAACATACTATATTCAACTAGAAAAAAATTTATAAACCCAATCGCAAAATATAAATATTATAAAATATCGGATTCAACTTCCTATAAACAAATAAAGGCTTATGCAAAAGGATTTCATTGCCAAGAACAATTGAAAGTACCAGAGATTAATCCAAATACCTTTCGGTTCGAAATTAAAAGTAAACAGTCAAAATACATTAAACAATTAGGAATCAGAAATGTATGTAATTTATTGGACATAAAAAATTACTATCCTTTAATGAATGAACTCGTTACAGAATGGGAGAATACCTTAATATTAACTACTCAACCTAATTTTAAAAAATTAAAAGCTGTTGAGGTTGAGTTCATTGAAAGTGTCAATAACATTAAATATTGGAGTAAATTAATTACTTGTGAAATTAATAGAAACAAATTCAATCGCTATAAGAAAAAATACAATCGAATATTAAAGAATGCAAATAGCTTTCATTATCATATTGAATCATTAATCAAAAATAACTTTTCTTATTATAAATGA	METKRDCSGSPFLFKYVIVATITLGKITKFMIDHIKLSIFCQNIIQRLFNHHDFIKCKPLNRNYYSFCHKNIGTKLRFDFRKAMEKRKVIGYHHLEINIFPHYHFNNYKHNGNDFSPIHCIRVIKEILNLAGIEKSEYLNLNIVNIEFGVNIIPVINVKTVIDNILYSTRKKFINPIAKYKYYKISDSTSYKQIKAYAKGFHCQEQLKVPEINPNTFRFEIKSKQSKYIKQLGIRNVCNLLDIKNYYPLMNELVTEWENTLILTTQPNFKKLKAVEVEFIESVNNIKYWSKLITCEINRNKFNRYKKKYNRILKNANSFHYHIESLIKNNFSYYK				NA	NA	NA	NA	NA
BMS003_01732	1110			hypothetical protein	ATGAATTTTGAACAGATCTATTGTCAAACCCCCGATTTCCCAAATCGCTATATTTCCCCTGAAAAATTATTTTCTTACCTACAGACCAATCTCAGCGATTATATTCAGGAGATCGGAACATCCTATTTAGATAAACCTATTTATCAGTTAAGCATCGGAACCGGAAAGATCAACGTATTGGCCTGGTCGCAGATGCACGGAAATGAATCCAATGCTACGCATGCTATGCTTGATCTTTTAGTAAGCCTTGATAAAGCTCCGGAAATGAAAGAAGATTTATTCAGTAAAATACAACTTGATTTTATTTTCATGCTGAATCCGGACGGATCTGAAAAATGGACGAGGCTGAATGCTGCCGATATTGATCTGAACAGAGATTTTCATAACGAAGCAAGCAAGGAGATTAAATTTCTGAAAAAAGCTGCGGTTTCCAAGAAATATGACTATGCATTAAATCTTCATGAGCAGAGAACCATTTTTACTACGGATGGTATCCATCCTGCCACACTTTCTTTTTTGGCCCCCTCCGAAAACATAGAACGTACGGTGACTGAAAACAGGAAAAAATGTATGACCATAATCGGAAATGTATACAACCATTTGAAAGAAATGATTCCTAATCAGATCGGAAGATATTCTGATGAATTTTATCCGACTTCTACAGGAGATAATTTTATTAAAGCCGGAATGCCGACAATTTTATTTGAAGGCGGACATTTTATAGATGACTATACCAGAAAGGGAACAAGAAAATATTATACAATTGCCCTTTATTATGCATTGAAAGCTATCAGCGAGCTGAACTCTGCCACTACAGGCTGGGAAACTTACCTTGAAATTCCTGAAAATCTTGAAACGCATTATGATCTTATTTACAGAAATGTAAGATTGAATACAGATCATGAATGTATTTTGGATATTGCCGTTCAGTATAGAGAAATAAAAGAAGAAGGGAAGAGCGAAATTTCATTTATTCCTTTTGTAATGGAAGCAGGAGATGTTAAGAAAAGAAAAGGCTGGAAGGAAATAGACTGTACCGGAAAGAAATTTATTTCTGCCACTAAATATCCAAAACTGGATTCTGTGGTGGATTTTACAATTGAAGATTAA	MNFEQIYCQTPDFPNRYISPEKLFSYLQTNLSDYIQEIGTSYLDKPIYQLSIGTGKINVLAWSQMHGNESNATHAMLDLLVSLDKAPEMKEDLFSKIQLDFIFMLNPDGSEKWTRLNAADIDLNRDFHNEASKEIKFLKKAAVSKKYDYALNLHEQRTIFTTDGIHPATLSFLAPSENIERTVTENRKKCMTIIGNVYNHLKEMIPNQIGRYSDEFYPTSTGDNFIKAGMPTILFEGGHFIDDYTRKGTRKYYTIALYYALKAISELNSATTGWETYLEIPENLETHYDLIYRNVRLNTDHECILDIAVQYREIKEEGKSEISFIPFVMEAGDVKKRKGWKEIDCTGKKFISATKYPKLDSVVDFTIED				NA	NA	NA	NA	NA
BMS003_01733	537			hypothetical protein	ATGAGTTTAAATGAAAGGATTTCCAAAATTATAGAGTATTCTCATCTTACTCCTTCTGAGTTTGCTGATGAGATTGATGTACAGCGTTCCTCCATTTCGCATATTACTTCCGGAAGAAACAAACCATCTCTGGAGTTTATCATAAAAATAAAATCCCGTTTTCCGGAGCTTCTGTGGGACTGGCTCGTTACGGGTGAAGGTGAGATGCTGAAATCTCAGCTGCCCGAAACAGAGATTAGCGAAGAATATTCCGAAGAAGAGAAAACAAAAACTACTCCACTACCCGATCTTTTTACGATGATGAATGATGATGATGAATTCGGGAGTGATGAAACGGAAACAGAAATCCCAAAAACAAGTTCCGGAGAATCGTTTATAACGTCCAAGGATAAAGCACCGGAAAAAATATCGGATTCTCAGCGATTAGGAAATTCCAGTGATCAAATTTTAGGACAACTATTTGGAAATCAACAAAGTAAAATAAAACGCATTGTTCTGTTCTATGAAAATGGAAAATTCGAAAGTTTTGAGCCTTAA	MSLNERISKIIEYSHLTPSEFADEIDVQRSSISHITSGRNKPSLEFIIKIKSRFPELLWDWLVTGEGEMLKSQLPETEISEEYSEEEKTKTTPLPDLFTMMNDDDEFGSDETETEIPKTSSGESFITSKDKAPEKISDSQRLGNSSDQILGQLFGNQQSKIKRIVLFYENGKFESFEP				NA	NA	NA	NA	NA
BMS003_01734	1170			hypothetical protein	ATGCCCATTTTTAACGATACTAAAGTTGCATTTGCAGACAAGTCTGATGCACAATTGAAAAAGGCTTACTGGATGTTTAAAATGATTGAACAGCCCGCTCTTACCAGCCTTGGAACATCTGTCCTTAATTTTACAGTACACAACAACTTTCCTTTCGTTACCGGAATTGTAAAAAGTACCTTATTTGCACAGTTTTGTGGTGGCGAAACCCGTGAAGAAAGTATGAAAGTGGTGAAACAGCTGTTCAAAAGAGGAGTTGGAAGTATTTTTGACTACTCTATTGAAGGGAAAGAAGATGAAGCAACTTTTGATGCTGTTTGCCAGGAGATTAAAGATATCGTAAGATTCTCAGTCGGAAACCCGGCAATTCCTTTTATTGTGTTTAAACCTACGGCTTTCGGAAGAATTGATCTTTATGAAGCAGTTGGAAAAGGAGCAGAGCTTACTACCAGCCAGAAAGAAGAGTGGGAAAGAGTAGTGAAAAGATTTGATGAAGTATGCAGGCTTTGCCACGAAAATGATAAAAAGGTAATGGTAGATGCCGAAGAAACCTGGATGCAGGATGCCGCAGACCACCTTTGCGAAGAAATGATGGAGAAATATAACCAGGAAAAGCCTATCGTTTGGAATACCATTCAGATGTATAGAACGGGAAGGCTGGAATATATGGAAGCTAATCTTCAGAGAGCAAGAGAGAAGAACTACTTCATAGGATACAAAATTGTTCGTGGTGCTTATATGGAGAAAGAAAGAGCCAGAGCAGCAGAAAAAGGCTATGCAGATCCTATTCAGCCTAATAAAGAAGCTTCAGATAACAATTATAATGCAGGAATTGATTTTGTGATGAATCACTTGGATAAAGTTTCTGCATTCTTCGGAACCCATAACGAGATCTCTTCGGAGCTGATTATGGATAAGATGAAAGCAAAATCTCTGGAAAATGATAATCCACACGTGTATTTTGGGCAGCTTTACGGAATGAGTGATAATATCACGTTCTATTTGTCTGATAAAGGCTATAATGTGGCTAAATATCTTCCATATGGACCAGTGAAGGATGTTGTACCTTATCTGACGAGAAGAGCCCAGGAAAATACCTCTGTAGCCGGACAAACCGGAAGAGAACTGGGATTGATTAAAAATGAACTGGAAAGGAGAAAGAAACAATAG	MPIFNDTKVAFADKSDAQLKKAYWMFKMIEQPALTSLGTSVLNFTVHNNFPFVTGIVKSTLFAQFCGGETREESMKVVKQLFKRGVGSIFDYSIEGKEDEATFDAVCQEIKDIVRFSVGNPAIPFIVFKPTAFGRIDLYEAVGKGAELTTSQKEEWERVVKRFDEVCRLCHENDKKVMVDAEETWMQDAADHLCEEMMEKYNQEKPIVWNTIQMYRTGRLEYMEANLQRAREKNYFIGYKIVRGAYMEKERARAAEKGYADPIQPNKEASDNNYNAGIDFVMNHLDKVSAFFGTHNEISSELIMDKMKAKSLENDNPHVYFGQLYGMSDNITFYLSDKGYNVAKYLPYGPVKDVVPYLTRRAQENTSVAGQTGRELGLIKNELERRKKQ				NA	NA	NA	NA	NA
BMS003_01735	930			hypothetical protein	ATGAATTCTGAAAAAGAAACTTTCCAATCTAAAAACTATGTATCAAAATCTCTATTTTACAGATTTTCGCAATTCGTGGGCTTTCTTCTCGGAGCGCGTTTTTTTGTGGCAGCGCTGTTAACGTTTGCCCTGTATGTTTCTACTTTCTTCCTGTTCAATCAGGATGAATCTTTCCGGAAATTCGTCTTTGATTTCAAAGTACACGGTATTATTTTCTGTACCGTTCTTACCATACTCGCTGGAGGAATCATCAACCAGTTTTATGATCTGGAAAAAGATCATGTTGTAAAACCTTTCAGAACAAGAGTTCAGAGCTTCATCAAGCAGAAATATTTTCTCTACGCCTATCTGGCACTCAGTGCTATTTCTTTAGGAGTAGCGTGGATGATTTCCCACAATGTATTTGTTTTTTTTGTGGTATATCAGTTTTTTATGTGGTTTTACAGTCATAAACTGAGCAGAATACTGATTTTAAATAACCTTACCTTCGTCAGTCTTACCCTATATCCTTTCTTTGGAATGATGGTATATTATGAAACCTTTTCCAAAAAAGTATTTCTGATGGCTGTCTTTCTTTTCCTGATCTTATTATGTATTGATATTGTAAAAGATACGCTTACTAAAAGTGTAGATAAAACATTTGGCTATACTACTATTCCCAATTATTTTAAAAGCAGAAATACTAAAATAATTCTTACTGTTTTATTGATGATTACCATGGCCGTTTCTATGAAAATCATCACTAAAACAGGAGTTACCGGATTCATGGCGTATTATTTTGCAGGAGGGCTTTTTGTTATGATAGTATGTATCTATCTCCTTATCAATGCTTCCAGAAGGGCTAACTTCTTTACATTGAATATTTTACGATTTTGGGTTTTTATAGGAATTATTGCGATGCTTTTAAATGGGATAGAGCATAAATTATAA	MNSEKETFQSKNYVSKSLFYRFSQFVGFLLGARFFVAALLTFALYVSTFFLFNQDESFRKFVFDFKVHGIIFCTVLTILAGGIINQFYDLEKDHVVKPFRTRVQSFIKQKYFLYAYLALSAISLGVAWMISHNVFVFFVVYQFFMWFYSHKLSRILILNNLTFVSLTLYPFFGMMVYYETFSKKVFLMAVFLFLILLCIDIVKDTLTKSVDKTFGYTTIPNYFKSRNTKIILTVLLMITMAVSMKIITKTGVTGFMAYYFAGGLFVMIVCIYLLINASRRANFFTLNILRFWVFIGIIAMLLNGIEHKL				NA	NA	NA	NA	NA
BMS003_01736	927			hypothetical protein	ATGACCAACCCTTTATTTTATGCAAAAATAATTCTGTTCGGAGAATATGGAATGATTGAAGATTCCCAGGGACTTGTAGTACCTTACAGTTTCTATAAAGGAACTTTAAAGTTTTCAGATCTGAGTTCTGATTTTGAACTTAATTCCAACAGACATCTGCAGAAATATTCTGATTTTCTTACAAAGCTTGACCTTTCCGATGATTTTAAGTTGGATATCGAAAGCTTCAAAAACGATATTTCAAACGGACTTTTCTTTGATTCCAATATTCCACAGGGATATGGAGTGGGAAGTTCAGGAGCTTTGGTAGCGGCTATTTTTGAAAAATATTCAGTCAGTAAGCTTAATCCGGAGAACATTTCAAAAAATAATCTTAAAAAATTAAAAGCTGTTTTCGGAGAAATGGAAAGCTATTTCCATGGTAAAAGTTCAGGAATGGATCCACTGATCTGTTACATGAATCTGCCAATTCTGATCGAGAATAAAGAAAATTTAGACAGGGTAAATATTCCTGAAGGAGAAGAAGGAAAAGGCGCTATTTTTCTGATTGATTCCGGAATGACAGGAGAAACAGGACCTATGATCCAGATTTTCTTTGAAAAAATGAAGACAGAAGGTTTCCGTAAAACCCTGAAAGAAGAATTCATCCGTTACAACAACGCTTGTATTGAATCTTTCCTTAAAAAAGATATGAATCCTTTCTTCAGAAACCTGAAAAAATTGTCTCACTGGGCCTATGAACATTTTCGCCCAATGATCCCTGAAAGTATCTTTAATATCTGGAAAAAAGGACTGGATTCCAATGCCTATTATCTGAAACTCTGCGGTAGTGGCGGTGGCGGCTATATCTTAGGTTTTACCAAAGATTATGCAAAAGCAGAAAAAATGCTTGAAGGCTTCCAAAAAGAAGTTATTTACAGATTTTAA	MTNPLFYAKIILFGEYGMIEDSQGLVVPYSFYKGTLKFSDLSSDFELNSNRHLQKYSDFLTKLDLSDDFKLDIESFKNDISNGLFFDSNIPQGYGVGSSGALVAAIFEKYSVSKLNPENISKNNLKKLKAVFGEMESYFHGKSSGMDPLICYMNLPILIENKENLDRVNIPEGEEGKGAIFLIDSGMTGETGPMIQIFFEKMKTEGFRKTLKEEFIRYNNACIESFLKKDMNPFFRNLKKLSHWAYEHFRPMIPESIFNIWKKGLDSNAYYLKLCGSGGGGYILGFTKDYAKAEKMLEGFQKEVIYRF	PGPT0007570_1328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007570-mvaK1-K00869	NA	NA
BMS003_01737	2163			hypothetical protein	ATGAAAAAGTTTCTATTAATTTGCTTTTTGCAATGTTTTATTCTTAATTTTTCTCAAAATTTAAAGCCGGTTGCTCAAAAAGTTTCGGAATTTCATAAGCGGAAAACAGAAGTTAAAACCTACAATTTATTTGACGTTAATAACAATCCGGATAAAATAACCGAATACAAAAAAAGCGCAACAGATATCACGGTGATGTCTCTGAAATCTGTAGAGCTGAAAAGATTAATCAAAGAAAAACCTGATTTTCTTGAAATATCTTTTCCCTTTGATGGCGACAAACAGATTACTGTTGAAATGTACAAACATCAGATCTTGACTAACGATTTTAAAGTACTTACAGAGAAAGGAAAGACAGTAGAATATACTCCTGGAGTTTATTATCAGGGAATTGTAAAAGGGGATAATGCTTCAATTGCAGCCTTTAGCTTTTTTAATGATGATATTGTAGGAGTAGCTTCCACCCCTGAATTAGGAAATATAGTAGTAGGAAAAGCTAAAAATTCTGAAGATTTTGTAAGCTATTCAGATTCTAAATTAACAGGTTCTAATCCGTTTGCCTGTGATGTAGATGGACTGAAAGAAAATCAGGTTCAAAGACCTGTTTTTAACCCTAATAATACCAGTAAAAAGAAAACGGACAACTGTGTAAGAATCTACTATGAAGTAGGTTTCGGCCCATATACCCAAAATGGTAGCAATACTACCACTACAACCAATTGGGTGACCGCTATGCATAATAATGTGACAACGCTGTATGCTAATGAGAACGTGAATGTAGCTTTAAGCGAAGTTTTTGTCTGGACCACTACAGATCCTTATGCAGGGTCACCAAGCACCATTCTGAACCAGTTCAGAACAACAAGAACAAGCTTTAACGGAGATGTTGCACAGTTATTAAGAAATCCCGCTACAACAAGTATTGCTTATGTTAATTCATTGTGTACCAGTTACAAATATTCTTATTGCGGAATGAATTTAAACTATCAGAACGTACCTACTTATTCCTGGAATATAGAAGTAATGACCCATGAACTGGGGCATAATTTAGGTTCACCACATACACACTCTTGCTTCTGGAATGGCAATAATACAGCTATTGACGGATGCGGACCCGCATCAGGAAACAACGAAGGGTGTACCGCAGCTCTTCCTCCGGCAGGTGGCGGTACCATTATGAGCTACTGTCATTTGGTAAGCAGTGTAGGAATTAACTTTGCGAATGGTTTTGGCGTTCAGCCAGCAACACTGATCAGAAATACAGTGGATTCAAAAGGGTGTCTTGGAACTAATTGTACAACATCTTGTACTACAACCATTTCTAATCTTGCGATTAACAATATCACACAGAACTCAGCAAACGCTACTTTTACGGATGCTGCCTCTACATCATGGAAGTATAAACTGACAACAAGCAACGGAACTCCAATATCTTCCGGAAATGCAAATACACCGTCTTTTAATTTTACAAATCTTCAGCCCGCTACATACTACAGACTAAGTGTAGGAACAGATTGCAGCGGACCAAATGCTTTCCAGCTATCACAGTTATTTTTAACAGATGGAACATGGTGTGACGGAACTCAATTTTTAGATACGGGAGGTTCAACAGGACAGTATGGAGATAATGAAGAACTGGTAAAAACATTTTATCCAACTTCCGGTTCAGCAATGACGATGACATTTACAGCATTTGATCTGGAACAAGGGTATGATTTTATGTATGTATATAATGGATCTTCTACAGCTTCACCATTATTTGCCAACGGGAATAATCTGACGGGAAGCACACTGCCCGGAACTTTTACTTCCACAGATCCTTCCGGTGCCATTACGGTAAGATTTGTTTCTGATGGAGGCGTTACAGGAAATGGATGGAGTGTCAACTTCTCTTGCAGCGTTTTAGCCGTAGAAGACATCAATATAAAAAATAATTCAATTGAGATTTACCCAAATCCAGCCAAAAATATGATCATCTTGTCTTCAAAAGAAAGACTGAAAGGATATAAAATCTATGATGAAGCCGGAAGATTGTTAATTTCTGATTCTTCTTTAAAAGGGAACAAACAGGAAATAAATCTTTCTTCAATTCAGACAGGAAACTATGTGATTACCGTTGAAACAGAGACGCAAACCATCAACAAAAAGCTGATCAAACAGTAA	MKKFLLICFLQCFILNFSQNLKPVAQKVSEFHKRKTEVKTYNLFDVNNNPDKITEYKKSATDITVMSLKSVELKRLIKEKPDFLEISFPFDGDKQITVEMYKHQILTNDFKVLTEKGKTVEYTPGVYYQGIVKGDNASIAAFSFFNDDIVGVASTPELGNIVVGKAKNSEDFVSYSDSKLTGSNPFACDVDGLKENQVQRPVFNPNNTSKKKTDNCVRIYYEVGFGPYTQNGSNTTTTTNWVTAMHNNVTTLYANENVNVALSEVFVWTTTDPYAGSPSTILNQFRTTRTSFNGDVAQLLRNPATTSIAYVNSLCTSYKYSYCGMNLNYQNVPTYSWNIEVMTHELGHNLGSPHTHSCFWNGNNTAIDGCGPASGNNEGCTAALPPAGGGTIMSYCHLVSSVGINFANGFGVQPATLIRNTVDSKGCLGTNCTTSCTTTISNLAINNITQNSANATFTDAASTSWKYKLTTSNGTPISSGNANTPSFNFTNLQPATYYRLSVGTDCSGPNAFQLSQLFLTDGTWCDGTQFLDTGGSTGQYGDNEELVKTFYPTSGSAMTMTFTAFDLEQGYDFMYVYNGSSTASPLFANGNNLTGSTLPGTFTSTDPSGAITVRFVSDGGVTGNGWSVNFSCSVLAVEDINIKNNSIEIYPNPAKNMIILSSKERLKGYKIYDEAGRLLISDSSLKGNKQEINLSSIQTGNYVITVETETQTINKKLIKQ				NA	NA	NA	NA	NA
BMS003_01738	1491			hypothetical protein	ATGTCTGAAACTGAGAATCGACAGCCGAAAAACATAAAGAATAATCCGAAGATTATGAAAGCCTGGGCTGTATATGACTGGGCAAACTCCGTGTATTCCCTGGTTATTACCTCCACTATTTTCCCCATTTATTACTCTATCCTTACCACTGCTTACGAGAAAAAAGAATACGTGGCAGAAACCAAAACATGGATTGATGTTCCGGTAAGGCACACCATCAAAATTTTTGGAGAAGGATATCAGCCGGATGCCGTATACGGATATTCACTTACCATATCATTCTTTATCGTAGTATTATTATCTCCATTTTTATCTTCATTAGCAGATACTATCGGGAATAAAAAATCTTTCCTGCAGTTTTTCTGCTATCTGGGAGCAACATCTTGTATGGGATTAGCCATGTTTACGGGAATGCACAATGTATTTCTGGGGCTATTATTCAGTATAACGGCCAGTGTAGGTTTCTGGGGGAGTTTGGTATTCTATAACTCCTTCCTTCCGGATATTGCGACGCCGGACAGGCAGGATGCGCTTTCTGCAAGAGGATATGTGTACGGATACATTGGTTCAGTGGTTTTAGTAGTAATCTGCTTAGTACTGATTCAGGTTTTTGCCAAAGGAGCCGCTCAGCAGTTATTATTTACGAGGATCAGCTTCCTTTTAACAGGAGCATGGTGGTTCGGGTTCTCCCAATATACATTCAAGCATCTTCCTCAATTTGGAGATGTGAAAGATAAGCTTCCTAAAGATTTGGTGTTACTGAATTACAAAAATATCTTCAAAAAGCATGAAGAGCAGGGAGGATTCTTTGAAGTCTTTAAAGATAATCTGAGTTTCTATAAAGATATTGCAAAAGAAAGTTTCCATGAGCTGTTTAAAGTAGGAGGAGAGCTTTTCAAAGACCGAAATCTGAAATTCTTTCTGTCCAGCTTCTTCTTTTACAGTGTAGGAATGCAGACCATTTTCCTTATGGCAACCCTTTTCGGAAAGAGTGAGATTAATCTTGCTCAGGATAAGCTTATCGGAACTCTTTTGGTGATTCAGATTGAAGCCATTATCGGAGCTGTTATTTTCTCAAGACTATCCAAAAGAATTGGTAACAGAAATGTGATTTCAATTGCTATTATCCTTTGGATCATAGCTTGTCTTTGGGCTTATTTCCTGAATAAAGAAAACCCTACAGTAGAATATCAGTTCTATGGAGTGGCGGCAGTAGTAGGATTGGTAATGGGAGGGCTTCAGGCGATGTCCAGATCCACATATTCCAAATTACTTCCGGAAAACTCAATGGAAAACACTACTTATTTCAGTTTCTATGATGTATTGGAAAAAATTGCCATTATTATCGGAACATTCATTTTTGCAACATTAATTGAGCATTTCAACAATATGCGTATTGCAGCATTATCTATGACGATATTCTTCGCTGCGGGGCTCGTTTTAATCCGATTTCTGAAGGTTAAAATGAGAACTGATAGGGAAACATTATAA	MSETENRQPKNIKNNPKIMKAWAVYDWANSVYSLVITSTIFPIYYSILTTAYEKKEYVAETKTWIDVPVRHTIKIFGEGYQPDAVYGYSLTISFFIVVLLSPFLSSLADTIGNKKSFLQFFCYLGATSCMGLAMFTGMHNVFLGLLFSITASVGFWGSLVFYNSFLPDIATPDRQDALSARGYVYGYIGSVVLVVICLVLIQVFAKGAAQQLLFTRISFLLTGAWWFGFSQYTFKHLPQFGDVKDKLPKDLVLLNYKNIFKKHEEQGGFFEVFKDNLSFYKDIAKESFHELFKVGGELFKDRNLKFFLSSFFFYSVGMQTIFLMATLFGKSEINLAQDKLIGTLLVIQIEAIIGAVIFSRLSKRIGNRNVISIAIILWIIACLWAYFLNKENPTVEYQFYGVAAVVGLVMGGLQAMSRSTYSKLLPENSMENTTYFSFYDVLEKIAIIIGTFIFATLIEHFNNMRIAALSMTIFFAAGLVLIRFLKVKMRTDRETL				NA	NA	NA	NA	NA
BMS003_01739	1179	thlA_2	COG0183	Acetyl-CoA acetyltransferase	ATGAAAGAAGTATTCATTGTTTCCGCAGTAAGGACGCCTATGGGGAGTTTTATGGGAAGCTTATCAACAGTTCCGGCTACAAAACTGGGAGCAACTGCCGTAAAAGGAGCATTAGACAAAATTGGTTTAAGCCCTGATAATGTTCAGGAAATCTATATGGGAAATGTTCTTCAGGCAGGAGAAGGCCAGGCGCCGGCTCGTCAGGTTGCGATAGGAGCAGGTCTTTCAATCAATACACCTTCCACTACAGTTAATAAAGTTTGTGCTTCAGGAATGAAGGCTGTGACAATGGCTGCTCAGGCAATCAAGGCTGGTGATGCAGAAGTAATTGTTGCAGGAGGTATGGAAAACATGTCTTTAGTTCCTCACTATTACAATGCAAGAGTAGCTACCAAGTTAGGCGATATCAAAATGCTTGACGGAATGGTACTTGACGGTCTTACAGACGTATACAACAAAGTACATATGGGAGTATGTGCAGAAAAATGTGCGGTAGACTATAATATTACAAGAGAAGATCAGGATAACTTCGCGGTAGAATCTTACAAAAGATCTGCAAAAGCATGGAGCGAAGGTAAATTCAGCGAAGAAATTGTACCGGTTTCTATTCCTCAGAGAAAAGGAGAGCCCGTAATCTTTGCTGAAGATGAAGAATACAAAGCTGTAAACTTCGACAGAATTTCAACACTTCCTACTGTATTCAAAAAAGAAGAAGGAACAGTAACTGCTGCCAACGCATCTACTCTGAATGATGGTGCTTCTGCATTGATCCTTGTTTCTAAAGAGAAAATGGAAGAACTTGGATTAAAACCTCTTGCCAAAATCGTTTCTTACGCTGACGCAGCCCATGAGCCTGAAAACTTTACCACTGCTCCGGCAAAAGCTTTACCTATCGCTCTTAAAAAAGCAGGATTAGAAGTTTCTGATATCGATTTCTTCGAATTCAACGAAGCTTTCTCAGTAGTAGGATTGGCTAATAACAAAATCTTAGGATTAGATGCTGCTAAAGTAAACGTAAACGGAGGTGCTGTTGCTCTGGGACACCCACTGGGAAGTTCAGGTTCAAGAATCATCGTTACATTAATTAACGTATTGAAGCAAAATAATGCAAAATACGGTGCCGCAGCAATCTGCAACGGTGGTGGAGGTGCTTCTGCTATCGTAATTGAAAATATCTAA	MKEVFIVSAVRTPMGSFMGSLSTVPATKLGATAVKGALDKIGLSPDNVQEIYMGNVLQAGEGQAPARQVAIGAGLSINTPSTTVNKVCASGMKAVTMAAQAIKAGDAEVIVAGGMENMSLVPHYYNARVATKLGDIKMLDGMVLDGLTDVYNKVHMGVCAEKCAVDYNITREDQDNFAVESYKRSAKAWSEGKFSEEIVPVSIPQRKGEPVIFAEDEEYKAVNFDRISTLPTVFKKEEGTVTAANASTLNDGASALILVSKEKMEELGLKPLAKIVSYADAAHEPENFTTAPAKALPIALKKAGLEVSDIDFFEFNEAFSVVGLANNKILGLDAAKVNVNGGAVALGHPLGSSGSRIIVTLINVLKQNNAKYGAAAICNGGGGASAIVIENI	PGPT0008320_10276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS003_01740	414			hypothetical protein	ATGAACCTATTCAAAACATTCTCAGCAGGAATTTTGCTGATGGCTGCTGCACACACAAGTGCTCAGACAAAAACAGAGCAGAAAAAACCGGATAACCCGGTTAAATGTACCAATATAAAAGAAGGGAAGTTTGTGAGACCCAATTACCCGCAATCAATATGGTATATGACCATTAAAGACAATGTTCAGACTGAATATTTCAACAATGGAAAAGACTTTATCAAATCAACATTGGTTTTCGTGGATGACTGCAACTACAAAGCGATTGTAATGGAAAAATCTGATAAAAATGATCCCGCACAGGTAGGAGATGTTTTTAACAATAAAGTAGTAGCCACTCAGGATAATCTTCTGAAAGTGAATACGAAGATTGAAGGAACATCATTTGACATAGTGTACCTAAAAGTGAAATAA	MNLFKTFSAGILLMAAAHTSAQTKTEQKKPDNPVKCTNIKEGKFVRPNYPQSIWYMTIKDNVQTEYFNNGKDFIKSTLVFVDDCNYKAIVMEKSDKNDPAQVGDVFNNKVVATQDNLLKVNTKIEGTSFDIVYLKVK				NA	NA	NA	NA	NA
BMS003_01741	405			hypothetical protein	ATGAAAAATATTCAGTTATTAGGATTACTTTTAGTAATTATAGGTAGTTTTTTGCCTTTGGTACATGTGCCTGTCATCGGCAACTGGAACTATTGGAAACTTGATCATTACCTGGCCATTGCCTGCTGGATTTTTTCTGCATGTACCGTTTTTGGAATTGTCAATAACAGTGTAAAAATTGTAAGGCTTTTTGGTATTCTGCTTATTCTTTTATTTGCATTTACCATATTTGCCGTGAAAATGCAGTCTTTACAATATTTCAGCTTTTTACCCTTCAGATCCTGGCAGGAAACTTTTGCAGGAATCGTTAAGCTGAAATGGGGCTGGGTTGTAGAATTTTTAGGAGCTTTTATTCTGGTGTTTGCCGGAGAAAGCAAAAAAGTTAATAACAGAACACAAATATAA	MKNIQLLGLLLVIIGSFLPLVHVPVIGNWNYWKLDHYLAIACWIFSACTVFGIVNNSVKIVRLFGILLILLFAFTIFAVKMQSLQYFSFLPFRSWQETFAGIVKLKWGWVVEFLGAFILVFAGESKKVNNRTQI				NA	NA	NA	NA	NA
BMS003_01742	1383	nupG		Nucleoside permease NupG	ATGAATTTAAAATTACGACTGACCATCCTCAGTTTTCTCCAGTTTTTTGTTTGGGGAGCATGGCTGATTACGATGGCAAACTTCTGGTTTGGCACAAAACATTGGGACGGAACTCAGTTTGGAGCCGTGTTCGGAACAATGGGAATTGCTTCCATCTTTATGCCTACCATTACCGGAATTATTGCTGACCGCTGGATCAATGCGGAACGCATATTTTCAGTATTGCACATTCTTTATGGGGTTATTCTTTTCGTACTTCCTCATTCTGCAGACCCGAATTCTTTCTTTTCGGTAATGCTTGTAGCAATGTGTTTCTACATGCCTACAATAGCCCTGGCTAACTCCATTTCCTATACAATCCTGAAAAATAACAATCTGGATGTAGTAAAAGACTTTCCTCCAATCCGTGTATGGGGAACCATTGGTTTTATTGTTGCCATGTGGATCACCAACCTTAGCGGAAACAAAGCCACAGAAGGACAGTTTTATATTGGAGGTGCTGTAGCTATTTTCTTAGGAATTTATGCCCTTACACTACCAAAATGTCCGCCACAAAAGCTTATCGATAAAGATTCACCATTATCCGAACAATTAGGACTGAATGCTTTTAAGCTTTTCGGAAACTATAAAATGGCATTGTTTTTCTTATTCTCAATGCTTTTAGGAGCGGCACTTCAGCTTACCAATGCTTATGGAGATGTGTTCTTAAGTGAATTTGCCCATTTTCCGAAATATGCAGACTCATTCGTAGTACAGAGATCTACCATTATTATGTCAATTTCTCAGGTTTCAGAAACCCTGTTTATTCTGGCAATTCCTTTCTTTCTGAAAAAATTCGGAATCAAAAAAGTAATGCTGATGTCCATGCTGGCCTGGGTTTTAAGATTCGGGTTCTTTGCATATGGTGTTCCGGACGGGTTTGGACTTTCTTTAATCATACTTTCCTGTATCGTATACGGAATGGCTTTCGATTTCTTTAATATCTCAGGTTCACTTTTCGTAGAAACTACTACAGATAAGAAGATACGTTCTTCGGCTCAGGGATTGTTTATGATGATGACTAACGGTTTTGGAGCTGTTTTTGGAAGTTATATCGCAGGATGGGCTATTGATAAATTCTTTACCCATAAATTTACTACGGCATCAGATCTGTCCATTTATCTGGAAACAACACCGGATAATCCTACCTTTTTGGAAATTTTAAAGAACAGTTTCAATGCAGCTGTAAACTCAGACGGAACGCTTTCCTCTGTAGTAATGGTAAAAGACTGGCATCAGATATGGCTTTCTTTCGCTATCTATGCACTGGTACTGGCGATATTCTTCGGGATATTGTTCAAACACAAACATAATCCGGAAGATGTTTCATCCGTAAAACATTAA	MNLKLRLTILSFLQFFVWGAWLITMANFWFGTKHWDGTQFGAVFGTMGIASIFMPTITGIIADRWINAERIFSVLHILYGVILFVLPHSADPNSFFSVMLVAMCFYMPTIALANSISYTILKNNNLDVVKDFPPIRVWGTIGFIVAMWITNLSGNKATEGQFYIGGAVAIFLGIYALTLPKCPPQKLIDKDSPLSEQLGLNAFKLFGNYKMALFFLFSMLLGAALQLTNAYGDVFLSEFAHFPKYADSFVVQRSTIIMSISQVSETLFILAIPFFLKKFGIKKVMLMSMLAWVLRFGFFAYGVPDGFGLSLIILSCIVYGMAFDFFNISGSLFVETTTDKKIRSSAQGLFMMMTNGFGAVFGSYIAGWAIDKFFTHKFTTASDLSIYLETTPDNPTFLEILKNSFNAAVNSDGTLSSVVMVKDWHQIWLSFAIYALVLAIFFGILFKHKHNPEDVSSVKH	PGPT0021060_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021060-nupG-K03289	NA	NA
BMS003_01743	600			hypothetical protein	ATGGATTATAAGCAGCTAATTATTCGCGGAATATCGTACAGCCAGACACAATCAGGGGCGTACGCATTGTTACTGGAGCATGAAGAAACACATATAAAATTACCTGTTGTTATAGGAAATTTCGAAGCCCAGTCTATCTCTCTCGGACTGGAAAAAGATATTCATCCGCCACGTCCTCTTACTCATGATTTATTTACAAAATTTATAGTTTCTGCCAATTATGAGTTGATTTCTGTCATTATCTATCAGATTGTAGACGGAGTTTTCTTTTCAAATATCAATTTCAGAAATAAAGTTACAGAAGAAGAACTGATCCTTGATGCCAGAACTTCCGATGCCGTTGCAATGGCTGTAAGATTTGATGCACCTATATTTACTACCCAGCAGGTTTTAAATGAAGCGGGGATCTTGCTGGAGCTGGAAGACGTCTCAAAAGAAGACCAGTCCTTCTCCGAAACTGTACAGACAGAAGACAACCTGAAATCTCTTTCTATGGAAGAGCTTCAGAAATTATTAGACGAAGCCGTTAAAGAGGAAGATTATGATACTGCCCTTGAAATCCAGGAAGAAATCAAGAGAAGGAAAAAGAAAATTGACTAA	MDYKQLIIRGISYSQTQSGAYALLLEHEETHIKLPVVIGNFEAQSISLGLEKDIHPPRPLTHDLFTKFIVSANYELISVIIYQIVDGVFFSNINFRNKVTEEELILDARTSDAVAMAVRFDAPIFTTQQVLNEAGILLELEDVSKEDQSFSETVQTEDNLKSLSMEELQKLLDEAVKEEDYDTALEIQEEIKRRKKKID				NA	NA	NA	NA	NA
BMS003_01744	948	etfA	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCAGTATTCGTATACGCAGAAAATATAAACGGAGTTTACAAAAAAGCAGCTTTCGAAGCAGTTTCTTACGCTAAAGCTATTGCTGATAAAGCTGGAGATACCGTTACGGCAATCTCTGTAAACCCAACAGATTCTTCAGATTTATTATATAAATATGGAGCATCCAACGTTATCAATATCAAAGACGAAGGTCTTAAAAACTTCTCGGCAAAAGCTTTTGCACAGGCTGTAAGTGAAGTAGCAGACGGAAATATCATCGTTTTCCCTCATACTACAGATGCATCTTCTGTTGCTCCTATGCTTGCCGTAATGAAGAACTATTCTTTAATTACCAACGCTTTAGAAGCTCCTGAAAGCCTTACCCCTTTCCAGGTAAAAAGAAGAGCATTCTCAGGAAAAGGTTTCATGCATGCAAAAGCAGAAGGAAACGGAGTAATCGTTACAGTTTCTCAAAACGCTTTCGGTGTTAAAGAAAATGCAGTATCAGGTTCAGAAGAAGTAAAAAACTTATCGGTAGCTAATGAAGATACAAAAGTGATCTCTCACGAGCAGAGTTCAGGAAAATTAGACCTTAAAGAAGCTGAAATTGTTGTTTCTGCCGGTAGAGGAATGAAAGGACCTGAAAACTGGGGAATGATTGAAGATCTGGCAAACGTTTTAGGAGCTGCTACAGCATGTTCTAAACCCGTTTCTGATATCGGATGGAGACCTCACACGGAGCACGTAGGACAAACAGGTAAGGCAATTTCACCTAATCTTTACGTTGCTGTAGGGATTTCAGGAGCTATTCAGCACCTTGCCGGAGTAAACTCTTCAAAAACGATCGTAGTAATCAACAGTGATCCTGAAGCACCATTCTTCAAGTCTGCTGACTACGGAGTAGTAGGAGATGCTTTCCAGATTATTCCTGCGTTAACAGAGAAAATCAAAGCAATTAAAGGATAA	MAVFVYAENINGVYKKAAFEAVSYAKAIADKAGDTVTAISVNPTDSSDLLYKYGASNVINIKDEGLKNFSAKAFAQAVSEVADGNIIVFPHTTDASSVAPMLAVMKNYSLITNALEAPESLTPFQVKRRAFSGKGFMHAKAEGNGVIVTVSQNAFGVKENAVSGSEEVKNLSVANEDTKVISHEQSSGKLDLKEAEIVVSAGRGMKGPENWGMIEDLANVLGAATACSKPVSDIGWRPHTEHVGQTGKAISPNLYVAVGISGAIQHLAGVNSSKTIVVINSDPEAPFFKSADYGVVGDAFQIIPALTEKIKAIKG	PGPT0001040_3337	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
BMS003_01745	747	fixA		Protein FixA	ATGAAAATATTAGTTTGTATTAGTAGTGTTCCGGATACTACTTCCAAAATTAACTTTACAGCAGACAAATCTGCTTTTGACAAAAACGGAATTCAGTGGGTAATCAATCCATTAGACGAATTTGCGTTGACAAAAGCGGTTAAACTTCAGGAATCTCAGGGAGCAACAGTAACAGTTATCAACGTAGGAGATGCTGCTACAGAACCTGTGATCAGAAAAGCTTTAGCTATTGGTGCTAATGATGCTGTAAGAGTAAATCTTGATCCGAAAGACAGCTATTCTACAGCAAAAGAAATTGCAGCTGTAGCACAAAACGGAGGATATGACCTTATCCTTTGCGGAAAAGAATCTATTGACTATAACGGAGGATCTGTTCCTGGAATGGTAGCTCAGCTATTGAACCTGCCTTTCGTAAACGCTTCAGTAGGATTAGATGTAAACGGAAGCGAAGCTACTGCAGTAAGAGAAATTGAAGGAGGTAAAGAAACTATTTCTGTAAAATTACCGGCAATTATTGCAGGTCAGAAAGGATTAGTAGATGAAAAAGACCTTATCATCCCGAATATGAGAGGAATTATGTCTGCAAGAACAAAACCTCTACAGGTAGTAGAGCCTTCTTCTTCAGAAGTGAAAGTTCAGGGAGTATCTTATGACAGCGTTCCGCCAAGAGCAGCTGTGAAAATGGTTTCTCCTGACAATCTGGATGAATTGGTGAGATTACTTCACGAAGAAGCTAAAGTAATCTAA	MKILVCISSVPDTTSKINFTADKSAFDKNGIQWVINPLDEFALTKAVKLQESQGATVTVINVGDAATEPVIRKALAIGANDAVRVNLDPKDSYSTAKEIAAVAQNGGYDLILCGKESIDYNGGSVPGMVAQLLNLPFVNASVGLDVNGSEATAVREIEGGKETISVKLPAIIAGQKGLVDEKDLIIPNMRGIMSARTKPLQVVEPSSSEVKVQGVSYDSVPPRAAVKMVSPDNLDELVRLLHEEAKVI	PGPT0001035_4720	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
BMS003_01746	708	actIII		Putative ketoacyl reductase	ATGTCAGATCATAAAACAGCTTATATAACAGGAGGAACTAAAGGTATCGGTTTCGGGATTGCGAAAATTTTACTTGAAAATGGAATATCAGTAGCGTTTTCAGGAAGAAAAAGAGATGATGTAATGAAAGCGGAAGAAGAACTGAAGCAATATTCAGAAAATGTGTTGGGAATTGTTTCTGATGTAAGAAGTCTCCAAAGTGAGCAGGAAGCTGTAAAATATACCATAGAAAAGTTCGGTAGACTGGATTATATTATTGCGAATGCCGGACTGGGAATTTTTAAGCCCGTAGATGAACTGACGGCAGAAGAGTGGAATGATATGATAGAAACCAATCTTACCGGTGTTTTTTATACCTTAAAAGCTTCCGTGGAAGAGCTGAAAAAGACAGAAGGATATTATATTACCATTTCCAGCCTGGCAGGTGCCAATTTCTTTGAAAACGGAACCGGATACAACGCTTCAAAATTCGGGGTAGTGGGCTTTACACAGGCTGCCATGATTGATTTAAGAAAATACAATATTAAGTCTACGGTGATTATGCCGGGATCGGTAGCTACTCATTTCAATGGAAATATTCCGTCTGAAAAGGATAATTGGAAGATTCAGCCCGAAGATATGGGGAATCTCATATTGGATGTTTTAAAGATGAATCCAAGAGTTTTGCCTAGTAAAATAGAGTTTAGGGCAACAAAACCAGCGAAGTAA	MSDHKTAYITGGTKGIGFGIAKILLENGISVAFSGRKRDDVMKAEEELKQYSENVLGIVSDVRSLQSEQEAVKYTIEKFGRLDYIIANAGLGIFKPVDELTAEEWNDMIETNLTGVFYTLKASVEELKKTEGYYITISSLAGANFFENGTGYNASKFGVVGFTQAAMIDLRKYNIKSTVIMPGSVATHFNGNIPSEKDNWKIQPEDMGNLILDVLKMNPRVLPSKIEFRATKPAK	PGPT0003180_21484	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
BMS003_01747	924			hypothetical protein	ATGAAGAAACTTTACATTTTCGCAATTTCATTGATCTCAATATCATCTTTTGCACAGCAGACTATTTCTTTTGAAGCCAGTGAAGGATATACAGCAGGAAACATTAACGGGCAGCAGGGTTGGGTTACTACCAATGATGGAGGAACACCTCCTACATATTTGACAAGCCAGTTGGTATCAGCCGAAATAGCCAGTCAGGGCTCAAATAGTTTTAAAATAACACCGGATCCTCTTTTTGGTCCGCAGCAAAGTCCTGTAATGGGTGGGTTCTATACCTTTACTACACCATTAACGTATAATAGCTTTACAAAGTCATTTGATGTAAGACTTACACAAAAAAGTTCATCAAGCTCAGATTTTGTCTTTAGAACTGTAAGTACAGCAGGAGCAGGAGGAATTGTGACATATATTAATTTTTCCTACGACGGAAGAATTCTTCTTGCAACAGCAGGTTCAGCTAATTTGGTAGATACCAACCAAACCTGGAATCCCAACACATGGTACAGGGTGAAAGTAGTTTCTACAGCCACTGGAATCCAGTATTTTGTGAATGATGCGCTTATCTATACCGGGCAGCCTTATAGCAACAATAATATTAACAGGATGGATTTTGTACATGATAATTACGGAGGATCCGCCTATATTGATAATATAAAAATCAATAATGAAGCCGCATTATCTACAAAAGATGTGGTTAAGAATGATGTAAAACTCTCTGTTTATCCTAATCCGGCTACGGATGTTATAAAAATTACAGCTCCGGGCAAAATAAAACATGTTGAAGTCTATGATATGTCTGGAAAAAGAGTGGATGTAACACTGAATGGGGATCAGGTAAATGTAAGAAACCTGTCTTCCGGAGCATATTTACTGAATGTGGAAACAGAAGGAAGAAACTTTACAGAGAAGTTTATTAAAAAATAA	MKKLYIFAISLISISSFAQQTISFEASEGYTAGNINGQQGWVTTNDGGTPPTYLTSQLVSAEIASQGSNSFKITPDPLFGPQQSPVMGGFYTFTTPLTYNSFTKSFDVRLTQKSSSSSDFVFRTVSTAGAGGIVTYINFSYDGRILLATAGSANLVDTNQTWNPNTWYRVKVVSTATGIQYFVNDALIYTGQPYSNNNINRMDFVHDNYGGSAYIDNIKINNEAALSTKDVVKNDVKLSVYPNPATDVIKITAPGKIKHVEVYDMSGKRVDVTLNGDQVNVRNLSSGAYLLNVETEGRNFTEKFIKK				NA	NA	NA	NA	NA
BMS003_01748	921			hypothetical protein	ATGAAAAAATACTACTCAATTGCATTTTTAATGTTGTCAGTAGGTGTGTTCGCACAACAGGCAGTATCTTTTGAATTTAATGAAGGATTCAGTACAGGAAATATCAACGGACAGGCAGGATGGATCAGTACCCCTACAGGCGGAGTTCCTGAAAATGTAATGAATCAGATTATCAGCACAGACAAAGCCAGCGATGGAAATACTTCTCTGAAAATTGTAAAGGAAACAACCTACGGAACCCAGTCAGAACCTGTTATAGGAGGGTTTTATAACCTGCAGGCACCTCTTTCTTACAATAATTTTTCTGTGTCATTTGATATCAATATATCCCAGCTTAACGGCTCTGATTTTGGCTTTCAGGGAGTTAATGATATTGATGATCAAATGGTTGTGAGATTGGATTTTGATAAGGCAGGGTTTGTGAAAATTCTGAACACAATATCCGGCGTACAGGAACTGATATCCGTACCCTCAGCCTGGCTGCCCAACACCTGGTATAGATTCAAAGTAGTAGGAACTGCTGCAGAGATAAGATATTACCTTAATAATATTCTCATCTATACGGGAGCAGCCCCAGGTGCCGTGAATATCAGTCAGCTGCGTTTTGTACATAATAATGCATTAGGATCTGCTTATATTGATAATATTAAAATTAATACCGAACTGCTGGTTATGAGTGTTAAAGATTCAGATATAAAGACTAAAGAAATAGCTGTTTATCCTAATCCTGCCACTGATTTTATACATATTAATTCTTCTGCCAAAATAAAAAGTGTTGAGATTTATGACAAGTCGGGAAAGCTGATAAAGGCTGAAGCAGGTAATGATAAAATCGATGTAAAAGGTTGTCCGTCAGGTGTATATTTTATGAATATTAAAGCTGAAGGAAGAAATTTTACAGAAAAATTGATCATCAGATAA	MKKYYSIAFLMLSVGVFAQQAVSFEFNEGFSTGNINGQAGWISTPTGGVPENVMNQIISTDKASDGNTSLKIVKETTYGTQSEPVIGGFYNLQAPLSYNNFSVSFDINISQLNGSDFGFQGVNDIDDQMVVRLDFDKAGFVKILNTISGVQELISVPSAWLPNTWYRFKVVGTAAEIRYYLNNILIYTGAAPGAVNISQLRFVHNNALGSAYIDNIKINTELLVMSVKDSDIKTKEIAVYPNPATDFIHINSSAKIKSVEIYDKSGKLIKAEAGNDKIDVKGCPSGVYFMNIKAEGRNFTEKLIIR				NA	NA	NA	NA	NA
BMS003_01749	1380	dapE_1		Succinyl-diaminopimelate desuccinylase	ATGCAAGAGACATTAAATTACATTAACGAAAACAAACAGCGTTTCGTGGATGAATTATTTGAGTTATTGAGAATTCCTTCTATTTCTGCAGATCCCGCGTATAAAGATGACGTTTTGAAATGTGCAGATGTAGTGGCAGCACACCTTAAGAATGCAGGCGCGGATAATGTTGAAGTTTGCCAGACAAAAGGATACCCAATTGTTTTCGGGGAAAAGATTTTAGATAAAAATTTACCTACAGTATTGGTTTATGGGCACTATGATGTTCAGCCGGCAGATCCATTGGAATTATGGACAAAGCCGCCTTTTGAGCCTTATATTGAGAAAACTGAATTACACCCTGAAGGAGCTATCTTCGCAAGAGGTTCAGCTGATGATAAAGGACAGTTTTTCATGCATCTGAAGGCTTTTGAGGCTATGATGAAAACCAATGCTCTTCCTTGCAATGTTAAATTTATCCTGGAAGGAGAAGAAGAAGTAGGATCTGTAAGCTTGGGAGACTGGGTAAATGAGAATAAAGAAAAATTAGCCTGCGACTGTATCCTGATTTCCGATACTCATATTTATAGCAACGAACAACCTACTGTTACAACAGGCTTACGAGGTCTGAGCTATGTGGAAGTAGAAGTGGAAGGACCAAACAGAGACTTACACTCAGGGCTTTATGGAGGGGCAGTACCCAATCCTATCCACGTTCTTTCAAGAATGATTGCTAATCTGATTGATGAAAACGGTCATATTACTATTGACGGGTTCTACGACAACGTAGAAACAGTTTCAGACACAGACAGGGCTGAAATGAATAAATTAAAAGATAATCCGGAAGAATTCAAAAAGTCCATCGGATTAAGCAATATTGAAGGAGAAAAAGGATATACAACGTTAGAAAGAACATCTATCCGTCCTACTTTAGACTGCAACGGAATCTGGGGTGGCTATACAGGAGAAGGAGCTAAAACAGTAATTCCTTCCAAAGCTTTTGCTAAAATTTCAATGCGTTTGGTTCCTTACCAGACTCCTCAGGAGATTACAGAAAAATTTACAAAATATTTCGAAAAAATTGCTCCGGATACAGTAAAAGTGAAAATTACCCCTCATCACGGAGGTATGCCTTATGTTTTACCCACCAATACCAAAGAATTTGCAGCAGCAAAACAGGCAATGGAGTCCGCATTCGGAAAAGAAGTGCTTCCGTACAGAGGAGGAGGAAGTATTCCTATTACAGCTATGTTTGAGCAGGTTTTAGGAGCTAAATCAGTATTGATGGGCTTTGGACTGGATTCTGATGCAATTCACTCTCCAAATGAACATTATGGACTGTTTAATTTCTATAAAGGAATTGAAAGTATTCCAATGTTTTTTGAAAATTATTCAAAGTAA	MQETLNYINENKQRFVDELFELLRIPSISADPAYKDDVLKCADVVAAHLKNAGADNVEVCQTKGYPIVFGEKILDKNLPTVLVYGHYDVQPADPLELWTKPPFEPYIEKTELHPEGAIFARGSADDKGQFFMHLKAFEAMMKTNALPCNVKFILEGEEEVGSVSLGDWVNENKEKLACDCILISDTHIYSNEQPTVTTGLRGLSYVEVEVEGPNRDLHSGLYGGAVPNPIHVLSRMIANLIDENGHITIDGFYDNVETVSDTDRAEMNKLKDNPEEFKKSIGLSNIEGEKGYTTLERTSIRPTLDCNGIWGGYTGEGAKTVIPSKAFAKISMRLVPYQTPQEITEKFTKYFEKIAPDTVKVKITPHHGGMPYVLPTNTKEFAAAKQAMESAFGKEVLPYRGGGSIPITAMFEQVLGAKSVLMGFGLDSDAIHSPNEHYGLFNFYKGIESIPMFFENYSK				NA	NA	NA	NA	NA
BMS003_01750	264			hypothetical protein	ATGAAAAAATTAGTTATATGTTTAGCAATTGCAACGGTAGCGGTAAGCTGTAAAAAAGTTCCGCAGGGAGGAAGCAAAGCTACTTTGAAACTTGAAGAAGGAGTAGAAAGATATTCTGACGACCCTCAGGGAGGAGAAGCTCACGGACACGGTCATGAAGCAGCTGCAGCGGCTGAAGGACACAAAGAAGAAGCTCCTAAAGCAGACAGTACTGCTGCTGCAAAACCTGCTGAAGCTGAAGAGGCTCCAAAAGCTGAACACTAA	MKKLVICLAIATVAVSCKKVPQGGSKATLKLEEGVERYSDDPQGGEAHGHGHEAAAAAEGHKEEAPKADSTAAAKPAEAEEAPKAEH				NA	NA	NA	NA	NA
BMS003_01751	1173			hypothetical protein	ATGATTCACAATCTGGAAAAATCTGTGGGAAACAAAATATCAAACAAAGAAATCCAAAACTATATCAACGCAAATCTAAAAACAGATCTGCACTCATTGTTATTAAAAAAATCCCCATTTCCTGAGGTTTCTATGCCGGAAATTGTACAGCAGATCAAAGGAAAACAGGTGGCAGAGAGAAAGTTTCCCTTTTTATTAAAAGAAGGCATTCTTTTCCCGCCACAGCTTAATCTGGAACAGTCATCATCAGAAAAAACTGCACTTTATAAATCCGGAATTCTGAAAGGAAATACATTTATTGATCTTACGAGCGGTTTTGGTATTGATGCCTATTATCTGTCTCAAAACTTTGAGAATGTTACTTTAGTAGAACAAAATACCGAACTTTTAAAGATTGTTGAAAATAACTGGTTTGTCTTAGGCAGAAAAGCGAAATTCATTAACCTTAAACTTGAAGATTTTTTAGAAGAAAATAAACAGCATTTTGATGTTATTTATCTTGATCCGGCCAGAAGAGACGAACAGAAAAACAAAGTCTTTCTTTTAGAAGACCTGTCTCCCGACATTCTTGAAATTCAGGAAAAATTACGCTCTATTTCTGATCTTGTGGTAATAAAGCTTTCTCCGCTTATTGATCTTAAGTACCTTGTTTCGGTACTGCCGGGTATTTCAAGAGTTGATATTATTGCCCTGAAAAATGATGTGAAAGAAGTTGTTGTCTTTTTGTCTGGCGAAAATACTGATGAGATTATCTGTAATTGTGTGAACCTGGAAAGTGGGGAAACAGCTTTTGCATTCAGATTTGGGGAAGAAGAAACGGTCGGAGCAGAATATTCTGAACCTGAAAAATACATTTACATCCCCAATCACGCCATTCTGAAAGCAGGAATCTTTAATTTAATTTCTCAGAAATTCGGATTAAAAAAGCTTCACCCGAACAGTCATTTGTATACTGCTGCTGAGAAAAAAGAAAACTTTCCCGGAAGAATTTTAGAAATGGAAGTTATTGATTCTAAAAAGATTAAAAAGAAAGAGCAGTTCAATATCATTTCAAAAAATTATCCTTTAAAACCGGATGAAATCAAAAAGAAATATGGGCTGAAAGATGGAGGGGAACACTACCTTATTTTTACACAATCCAAAAAAGGGAAAATAATATTAAAATCAGTATAA	MIHNLEKSVGNKISNKEIQNYINANLKTDLHSLLLKKSPFPEVSMPEIVQQIKGKQVAERKFPFLLKEGILFPPQLNLEQSSSEKTALYKSGILKGNTFIDLTSGFGIDAYYLSQNFENVTLVEQNTELLKIVENNWFVLGRKAKFINLKLEDFLEENKQHFDVIYLDPARRDEQKNKVFLLEDLSPDILEIQEKLRSISDLVVIKLSPLIDLKYLVSVLPGISRVDIIALKNDVKEVVVFLSGENTDEIICNCVNLESGETAFAFRFGEEETVGAEYSEPEKYIYIPNHAILKAGIFNLISQKFGLKKLHPNSHLYTAAEKKENFPGRILEMEVIDSKKIKKKEQFNIISKNYPLKPDEIKKKYGLKDGGEHYLIFTQSKKGKIILKSV				NA	NA	NA	NA	NA
BMS003_01752	1164			hypothetical protein	ATGTCAAATACAGATATACTTTCGAACTGGGAAAATTTAGTCAAAAAACAGCTTAAAACAGAAGATATTTATCCTGTTTTAGAAAAACCGAATCTGGAAGGAGTAGAGGTGAAGCCTTTTTATACAGAAGTTCAGAAACCTTTGGTAAACCTGCCAAGAGTTGAAGAAAGTACCCATTTGGTAGCGAGATACCATGAAAGTCTGGAAGAAGAAGTATTTGCATTTATTCTTGATCAGAACGTGGAAAATCTTGATCAGAAAACCCTTTTTGTTAATAATAAAGAACTTGCAGGGCATATCAGTCCCAAAGAAGAAGATCAGTATTATTCTTTGATAGACGTCTTTAATGAAAAAGAAGGAATTATTGATGATCAGTTGGTAAAAGAATTATTGGCAAAAGACTTTAAAAGAAGTATTTGTGTAGATATTTCTTTGCATCAGAATGCCGGTGCTGCTATTTATCAGCAGCTGGGTATTGCTCTTGCAAAAGCTAAAGAATTGGTAGAGGCCTATGGAGCTGATATTTTAAATAAACTGATCTTCAGAATAGCCATAGGAGGAAGCTATTTCTTTGAAATGGCCAAACTGAGAGCCTTTAAAATTGTTTTTAACCAGTTTTCCAAAGAATACGGACTGGATGAAGTTCCTTACATCTTTGCAGAAACTTCACTCCGAAATAAAGCCGTTTCTGACAACGAAAACAACCTGATCCGTTCTACACTGGAACTCGCTTCCGCCATGATTGGTGGTGCCGATGCTGTATTTTCTAATAATTATCTTGTAGACAGAAGTACAGATAACGCAGAGGAAATATCTTTCAAACAGCAGATTGTTCTGGCTTACGAAAGTATTATCAATGTATTTGAAGATGCTTCCAACGGAAGTTATTACGTAGAAGATGTTACCCGTCAGTTTGCAGAAAAAGCCTGGAATTTATTTGTGGAAACAGAGGAAGCCGGAGGATATATTGAGCTATTAAAACAGGGAATTGTTCAGAAAAAGATCTATGATCACGCTATTGAAGAACAGCAATGGATTGAAGAAGGAAAAATAAAGCTGATAGGAGTGAATCTATACCCTAAATTGGACGTTAAAAAGTCAATTGGAGAGCTTTACAACGAAAAAGAAATAAAAGCCGTTCGTTGGGCTGAAATGTTTGAATAG	MSNTDILSNWENLVKKQLKTEDIYPVLEKPNLEGVEVKPFYTEVQKPLVNLPRVEESTHLVARYHESLEEEVFAFILDQNVENLDQKTLFVNNKELAGHISPKEEDQYYSLIDVFNEKEGIIDDQLVKELLAKDFKRSICVDISLHQNAGAAIYQQLGIALAKAKELVEAYGADILNKLIFRIAIGGSYFFEMAKLRAFKIVFNQFSKEYGLDEVPYIFAETSLRNKAVSDNENNLIRSTLELASAMIGGADAVFSNNYLVDRSTDNAEEISFKQQIVLAYESIINVFEDASNGSYYVEDVTRQFAEKAWNLFVETEEAGGYIELLKQGIVQKKIYDHAIEEQQWIEEGKIKLIGVNLYPKLDVKKSIGELYNEKEIKAVRWAEMFE				NA	NA	NA	NA	NA
BMS003_01753	357			hypothetical protein	ATGGAAGAAAATAACCTTATCAAAGACATTCAGCCGAAATCTGAAACATTCAAACTTATTCAGAAATATGTTTTGAATAAGTATACCATTACGATCTGTCTGTTTTTGGTATGGATGATTTTTTTCGATAAAACCTCATTTCTTGTTATTAATGAACTGAATGGTGAGATTCATAAATATGAAGATCAGCTGGAGTATTACAAAAAAGAATACGAGAAAAATGATGCTTTTTATAAAAAACTGATGAACAATAAATCAGAAAAAGAAAAGTACGCCAGAGAAAATTATTTTATGAAAAAGCCCAATGAAGAAATCTTCATCTTGGTGGTAGACAGCACAAAAGTGGCTAAGAAATAA	MEENNLIKDIQPKSETFKLIQKYVLNKYTITICLFLVWMIFFDKTSFLVINELNGEIHKYEDQLEYYKKEYEKNDAFYKKLMNNKSEKEKYARENYFMKKPNEEIFILVVDSTKVAKK				NA	NA	NA	NA	NA
BMS003_01754	615	udk	COG0572	Uridine kinase	ATGCTTGTAATAGGAATTGCCGGTGGTACAGGATCCGGCAAAACTACAGTTGTTGATAAGATACTTCAGCAGCTTGATATTGAGGGAATGAATATCCTCTCTCAGGATAATTATTATCATGACAACCAAGGTCTTACACTCACGGAAAGAGAAGCTTTAAACTATGACCATCCGAAATCCATAGACTTTGACTTACTGATAAAACATGTAAAAGCTTTAAAAAATAACGAGTCTATTGAACAGCCTATTTATAGCTTTGTTACCCATTCCAGAACAGGAGATCATGTTACTGTAGAACCTAAAAATGTATTGGTAGTAGAAGGAATTCTTGTTCTTACCAACAAAGAATTGCTTAAAGAATTTGATTTGAAAGTATTTGTTCATGCAGATTCTGATGAAAGGCTGATCAGGAGGATCAGGAGAGATACCCAGGAAAGAGGAAGAGATCTGAGCGAAGTATTACACCGCTATCAGACTACATTGAAACCAATGCACCAGGAATTCATAGAGCCGTCTAAAAATGATGCCGATCTTATTATTCCCAATATGAAGCAGAATTCCGTAGCCATTGATTTTTTAACTACCGTTATTAAAAATTCGTTGAAAAAACATTAA	MLVIGIAGGTGSGKTTVVDKILQQLDIEGMNILSQDNYYHDNQGLTLTEREALNYDHPKSIDFDLLIKHVKALKNNESIEQPIYSFVTHSRTGDHVTVEPKNVLVVEGILVLTNKELLKEFDLKVFVHADSDERLIRRIRRDTQERGRDLSEVLHRYQTTLKPMHQEFIEPSKNDADLIIPNMKQNSVAIDFLTTVIKNSLKKH	PGPT0021230_3835	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
BMS003_01755	306	clpS		ATP-dependent Clp protease adapter protein ClpS	ATGAGTTTTTATAACAGCATAAAAGATTACGAAAATCCGAAACGTCAGTACGAAGAAGAAGTCCTTGTTCTGGATGATACGGATGAAGTTTACAAACTGGTACTGCATAACGATGATATACATACATTTGATTATGTCATAGACTGTCTGATCGAAATATGCAAGCATACACTGGAACAGGCTGAGCAATGCACAATTCTGGTTCACTACAAAGGTAAATGCACTGTAAAAACAGGCTCAATGGATGTTTTGAAACCTATGCATGAAAAACTAATTTCGCGCGAATTAACAAGCGAAATCGTATAA	MSFYNSIKDYENPKRQYEEEVLVLDDTDEVYKLVLHNDDIHTFDYVIDCLIEICKHTLEQAEQCTILVHYKGKCTVKTGSMDVLKPMHEKLISRELTSEIV				NA	NA	NA	NA	NA
BMS003_01756	1359			hypothetical protein	ATGGACTCGGACATAGTCAGGCTTTTGCTGGCCTTATTTCTTGTTTTACTAAATGGCTTCTTCGTAGCCGCAGAATTTTCAATTGTTAAAGTTCGTTACTCACAAATTCAGTTAAAAGCCGCAGAAGGAAACTCTATGGCTAAGCAGGCAGAGCATATCATCAAACATCTTGATGAATATCTTTCCGCTACACAGTTAGGAATTACATTGGCATCCCTTGCCCTTGGTTGGGTGGGAGAAAGCGCCCTGCATCATATTGTTGAAAAAATTTTCCACTCACTTAATATAGAAATGAGCCAGGCTTCCGTTACTTCGGTATCACTGGTGATCAGTTTTGTATTAATTACCATTATGCACATTGTATTTGGTGAGCTTATTCCAAAATCAATCGCAATCAGGAAATCTGAAGCAACTACAATGGCAACAGCAGTTCCGTTGAGGGTTTTCTACACGATTTTTAAACCGTTTATCTGGTTAATGAACTCCATGTCAAATGGATTCTTAAGACTAGTTAAAATTCACCCCGCTTCCGAACAGGAAATTCACTCTACGGAAGAACTTCAGCTTTTGGTAAAACAAAGTGCAGACAGTGGTGAGATTGAAGAAGAAAACTATGAGATCATTAAAAATGCATTTGATTTTACAGATCACTCTGCCAAGCAGATCATGGTTCCAAGACAGAATATTACTTCCATAGACTTTGAAGAAGACGTTAATGATATTATCAATAAAATTATGGACAGCGGTTACTCCCGTATTCCCGTTTATATTGATTCTATTGATAATGTAATCGGAATTTTCTACACAAAGGAAATCATAAGAGAATTTGTGAAAAGAAAAGGAGATCTGGATCATGAAGACCTTAAAGACCTTATGCGTGATGCCTTTTTCGTGGTGGAGAGCAAAAAAGTTTCAGATTTACTGAAGACCTTCCAGCTTAAAAAGCAGCATATAGCTATTGTAATTGACGAATTTGGTGGTACCGAAGGAATTATTACCCTGGAAGACATTCTGGAAGAACTTGTAGGAGAAATTCAGGATGAAGAAGATGATGAAGAAAAAATTGTTGATAAAATAGCCGATAATACCTATTGGGTGCAGGCTACACAGCCTTTGGACGAGATTAACGAGTTTTTACCTAAAAGACTTCCTCTTTCCGAAGAAAGCGAGTATAACTCACTAGCAGGATTCATTCTTTATGAGCTGGAAGAAATCCCTGAAGAAAACCAGGAGTTTGATCTTGCAGACTATCATTTTAAGATTCTTAAAATGAATAACAAAAGTGTAGAACTTGTGGAGCTGATCTATCAGGAGCCTAATGCTATTGATCATCTTGCAGATAAAATAGGAGAAGTTTAA	MDSDIVRLLLALFLVLLNGFFVAAEFSIVKVRYSQIQLKAAEGNSMAKQAEHIIKHLDEYLSATQLGITLASLALGWVGESALHHIVEKIFHSLNIEMSQASVTSVSLVISFVLITIMHIVFGELIPKSIAIRKSEATTMATAVPLRVFYTIFKPFIWLMNSMSNGFLRLVKIHPASEQEIHSTEELQLLVKQSADSGEIEEENYEIIKNAFDFTDHSAKQIMVPRQNITSIDFEEDVNDIINKIMDSGYSRIPVYIDSIDNVIGIFYTKEIIREFVKRKGDLDHEDLKDLMRDAFFVVESKKVSDLLKTFQLKKQHIAIVIDEFGGTEGIITLEDILEELVGEIQDEEDDEEKIVDKIADNTYWVQATQPLDEINEFLPKRLPLSEESEYNSLAGFILYELEEIPEENQEFDLADYHFKILKMNNKSVELVELIYQEPNAIDHLADKIGEV				NA	NA	NA	NA	NA
BMS003_01757	864	atpG		ATP synthase gamma chain, sodium ion specific	ATGGCAAACTTAAAAGAAATACGAGGCAGAATTACGTCAATTTCATCTACGATGCAGATCACACGTGCTATGAAGATGGTTTCCGCAGCGAAACTTAAAAAAGCACAGGACGCAATCGTAATGTTAAGACCCTATTCTGAAAAATTACAGGAGCTTATCCAGAATGTAAATTCTAGCTCTGATCCTGATCAGATTTCTGTATATGCTCAGAAAAGAGAGGTTAAAAAAGTACTATTCATCGCTGTTACTTCAAACAGAGGTCTTGCGGGAGCTTTTAACTCTTCTATCGTAAAAGAGCTTAACCTTCAGTTCCAGAACAATGCTCAATACGAGGTTGAAGTTCTTCCTGTAGGTAAAAAAGTATATGATGCTGTAAGAAAAAACCGTACAGTATACGCTAATGGAAGTTCTGTTTATGATAACCTGAATTTTGATGCAGTTGCTCATATCACTGAAGGTGTAATGACAAGCTTCAAAGAAGGTAAATTTGACGAAGTTTATGTTATCTATAACAAATTCGTCAATGCTGCTACTCAGGAAGTAACTACAGAGCAGCTTCTTCCTATCTCAATGCCGGAAAATACTGAGCCACAGGTTGAAACAGATTATATCTTTGAACCTAACAGAGCTGAGATCCTGGATAATCTGATTCCGAAATCTATCAAAACTCAGGTTTTCAAAGCGATCTTAGATTCAGTAGCATCTGAGCACGGAGCGAGAATGACGGCAATGCACAAAGCAACAGACAACGCTCAGGCTTTAAAGAATGATCTTGTGATCTTCTATAACAAAGCAAGACAGGCTGCAATTACCAACGAAATCCTGGAAATTGTTTCCGGAGCAGAAGCTTTGAAAAATTCGTAA	MANLKEIRGRITSISSTMQITRAMKMVSAAKLKKAQDAIVMLRPYSEKLQELIQNVNSSSDPDQISVYAQKREVKKVLFIAVTSNRGLAGAFNSSIVKELNLQFQNNAQYEVEVLPVGKKVYDAVRKNRTVYANGSSVYDNLNFDAVAHITEGVMTSFKEGKFDEVYVIYNKFVNAATQEVTTEQLLPISMPENTEPQVETDYIFEPNRAEILDNLIPKSIKTQVFKAILDSVASEHGARMTAMHKATDNAQALKNDLVIFYNKARQAAITNEILEIVSGAEALKNS	PGPT0014297_3749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
BMS003_01758	1578	atpA	COG0056	ATP synthase subunit alpha	ATGGCAGAAATAAATCCGGCAGAAGTATCTGCGATCTTAAAACAGCAATTGGCCAACTTCGATACTCAATCAAATGTTGAGGAAGTAGGTACAGTTTTAACCATCGGTGATGGTATTGCTCGTGTATACGGGTTAGAAAACGTACAATACGGAGAGTTGGTGAAATTTTCTAGTGATGTAGAAGGTATTGTACTTAACCTTGAAGAAGACAACGTGGGTGTTGCTCTACTTGGTGAAAGTAAATTAGTAAAAGAAGGTGATACAGTAAGAAGAACAAACAGAATCTCTTCTATTAAAGTAGGAGAAGGTATGTTAGGAAGAGTAGTAGATACTCTTGGTAACCCAATCGATGGTAAAGGTCCTATTACTGGGGATTTATACGAAATGCCATTGGAAAGAAAGGCTCCTGGAGTTATCTTCAGACAGCCGGTAACTGAACCCTTACAGTCTGGTATCGTTGCAATTGATGCGATGATTCCTGTAGGAAGAGGTCAGAGAGAGCTTATCATTGGTGACAGACAAACAGGTAAAACTACTGTTGCTATCGATACGATCATCAACCAAAAAGAATTCTTTGATGCTGGCCAGCCAGTATATTGTATATATGTTGCTATCGGTCAGAAAGCTTCTACTGTAGCACAAATCGTTAAAACTCTTTCTGATAAAGGAGCTTTAGCGTATACGGTAATCGTTGCAGCTAACGCATCAGATCCGGTTCCAATGCAGGTATATTCTGCAATGGCAGGAGCTTCTATCGGTGAGTTCTTCAGAGACACTGGTAGACCAGCACTTATCGTTTATGATGATTTATCTAAACAAGCTGTAGCTTACCGTGAGCTTTCTCTACTATTGAGAAGACCACCGGGCCGTGAAGCTTACCCTGGAGACGTATTCTACCTTCACTCAAGACTATTGGAAAGAGCAGCAAAAGTAATCGCTGATGATAACATTGCTAAGCAAATGAACGATTTACCGGAGTCTCTTAAGCCAATCGTAAAAGGTGGTGGTTCATTAACAGCCCTTCCAATTATTGAAACTCAGGCTGGTGACGTTTCTGCGTATATCCCTACAAACGTAATCTCTATTACAGACGGACAGATCTTCCTTGAGTCTGATCTATTCAACTCAGGGGTTCGTCCAGCGATCAACGTTGGTATCTCTGTATCAAGGGTAGGAGGTAACGCTCAGATCAAATCAATGAAAAAAGTTTCTGGTACATTAAAACTTGACCAGGCTCAATATAAAGAACTTGAAGCGTTTGCTAAATTCGGTTCTGACCTTGATGCTTCTACTTTAGCAGTTATCTCTAAAGGAGAAAGAAACGTAGAAATCCTTAAGCAGCCGGTAAATGCACCACTTCCTGTAGAAAGCCAGGTAGCGATCGTATACGCCGGAACAGAAAACTTAATGAGAAACGTTCCATTAAACAAGATTAAAGAATTCCAACACGAATATATCGAGTTCCTGAGATCTAAGCACCCAGATACAATGGCTGCTCTTAAAGCTGGAAAAATCGATAATGATATTACAGGTGTTCTTAAGCAGGCAGCTAACGATTTAGCTTCTAAATACAACTAA	MAEINPAEVSAILKQQLANFDTQSNVEEVGTVLTIGDGIARVYGLENVQYGELVKFSSDVEGIVLNLEEDNVGVALLGESKLVKEGDTVRRTNRISSIKVGEGMLGRVVDTLGNPIDGKGPITGDLYEMPLERKAPGVIFRQPVTEPLQSGIVAIDAMIPVGRGQRELIIGDRQTGKTTVAIDTIINQKEFFDAGQPVYCIYVAIGQKASTVAQIVKTLSDKGALAYTVIVAANASDPVPMQVYSAMAGASIGEFFRDTGRPALIVYDDLSKQAVAYRELSLLLRRPPGREAYPGDVFYLHSRLLERAAKVIADDNIAKQMNDLPESLKPIVKGGGSLTALPIIETQAGDVSAYIPTNVISITDGQIFLESDLFNSGVRPAINVGISVSRVGGNAQIKSMKKVSGTLKLDQAQYKELEAFAKFGSDLDASTLAVISKGERNVEILKQPVNAPLPVESQVAIVYAGTENLMRNVPLNKIKEFQHEYIEFLRSKHPDTMAALKAGKIDNDITGVLKQAANDLASKYN	PGPT0014298_1059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
BMS003_01759	540	atpH_1	COG0712	ATP synthase subunit delta	ATGCTTACATCTAAAGTAGCTAAAAGATACGCACAAGGTTTACTTGATTTCACAAACGAGTCAGGTCAAACGGCTACTGTATTTTCTGAAATGAAAGATGTAGTAAAGGTAATGTCTGAATCTAAAGATTTAAACAAATTTTTCCTTACTCCTTACATTGATTCTAAAAAGAAAATAGAAGTAGCAAACGAAATTTTCAAAGGTTTATCTGTTTCTTCTCAAAATCTGATCAGATTGGTGATTAAACACGGACGTGAAAGCCAATTGAAAAATATCGCTCAGGAATTCATCAATAAAGTAGAAGACCTTAGTGGTGTACAGAGAGTAACGCTTACTACAGCAACTCCGCTTTCAAAAGAAAATCTTGACCAGATTTTAAGATCTACCAATCTTGTAAATGCTGATTCAAACTTTGATCTGAAAGTAAATGTGAAGCCAGAAATTCTTGGAGGATATATCCTGAGAGTAGGTGACCAGCAGGTAGACGCGTCTGTGAAGACAAAACTGAACCAAGTTAAAAAAGATTTCCAATTAAATTAA	MLTSKVAKRYAQGLLDFTNESGQTATVFSEMKDVVKVMSESKDLNKFFLTPYIDSKKKIEVANEIFKGLSVSSQNLIRLVIKHGRESQLKNIAQEFINKVEDLSGVQRVTLTTATPLSKENLDQILRSTNLVNADSNFDLKVNVKPEILGGYILRVGDQQVDASVKTKLNQVKKDFQLN	PGPT0014299_2852	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
BMS003_01760	498	atpF		ATP synthase subunit b	ATGGAATTAATTCATCAGTTTTCATCAGGATTATTTATTATCCAGTCTGTTATTTTTCTAGCATTATTATTCTTGTTAGGTAAATTCGCTTGGAAACCTATTTTAAAGTCTATCAATGACAGAGAAACATCTATTGTTGACGCTCTTAATCAAGCTAAATTAGCTAGAAAAGAAATGGAAACTTTAAAAGAGGATAACGAAAGAATCATTCGTGAAGCTAAAATCGAAAGAGATGCTATCCTTAAAGAAGCCAGAGAAATTAAAGACAGAATCGTAGGGGAAGCTAAAGATGTTGCTAAAGCTGAAGGAGACAAAATGATCGAAGCTGCAAAGCAGACTATCAATGCTGAGAAAAATGCTGCTATGGCAGATATCAAAACTCAAATTGGTACTTTATCTGTAAACATTGCTGAGTCTATCTTGAAACAAAAATTAGACAACAGCGAAGCTCAAAACGAATTAGTTCAAAATTATTTAAACAAATCAAACCTTAACTAA	MELIHQFSSGLFIIQSVIFLALLFLLGKFAWKPILKSINDRETSIVDALNQAKLARKEMETLKEDNERIIREAKIERDAILKEAREIKDRIVGEAKDVAKAEGDKMIEAAKQTINAEKNAAMADIKTQIGTLSVNIAESILKQKLDNSEAQNELVQNYLNKSNLN	PGPT0014301_3392	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS003_01761	195	atpH_2		ATP synthase subunit c	ATGGAAATCCCTAAAATTGTAGGTGCTGGTATCGTAGTACTAGGTGTAGGTATCGGTCTTGGTAAAATCGGAGCTGCTGCTCTTGAAGCTATCGCTAGACAACCTGAGCAATCTGGAAAAATCCAAACAGCTATGCTTATCGCAGCTGCACTTGTAGAAGGTGTTGCGTTTGCTGCTCTATTCGCAGTAAACTAA	MEIPKIVGAGIVVLGVGIGLGKIGAAALEAIARQPEQSGKIQTAMLIAAALVEGVAFAALFAVN	PGPT0014302_3308	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
BMS003_01762	1098	atpB		ATP synthase subunit a	ATGTTTAAGAAATTCGCAGTTTTATTCTACAGTATTTTTGTATTAAACTTAGTGTCTGCACAGCACGGTGAGGCTGCTGCTGGGGCAGCTCCTGCTCAAGAGCTTTCAGAGAAAGACAAAGTAAGCAAAGAAAACAAAGAGTTCATCGATCATCACTTGTTGGATGCTCATGATTTTACATTGATGGTTGATAAAGACGGTCACCACATCGGTTTCCCTCTTCCTGTTATTATTTATGACAAAGGTTTCCACTCTTTCATGAGTGACAAAGAAGGGTTCATGCACGGAGAACCTACTGAAGTAGATGGTTCTTTTTATGTATTACACCATGAGAAAATCTATAAGACTGATGCGGCCGGAACTATTACTCTGGATGACCACGGTCACCCAACGAACGAAAAGCCAATGGATCTTTCAATTACAAAAAGTGTACTGATCATTTTATTAGTGTCAATCTTTATGTTGGTGTTATTCGGGGGTATGGCTAAGTCTTATAAAAAATCAGTTGTTCCTACTGGAGCTGCAAGATTTTTAGAGCCGCTAATCATTTTCGTAAGAGATGAAGTTGCAATTCCAAATATCGGACACAAGTATAAGAGATTTATGGGTTATTTATTAACTGTATTCTTCTTTATTCTTTTCCTTAACGTTTTAGGATTAATGCCTTTCGGGATTAATGTAACAGGTAATATTACCATGACATTCTTCCTTGCAATCCTTACTTATTTGATTACGACGTTCTCAGCTAACAAAGATTACTGGAAACACATCTTCTGGATGCCAGGAGTGCCAGTTCCAATGAAGTTGATTATGCTTCCTATCGAATTATTAGGAACAATCACTAAGCCATTCGCATTGATGATCCGACTTTTTGCCAACATGACGGCAGGTCACATCGTAGTAATGAGTTTGATCGGATTGATCTATGTATTCAAGAATTTCATCGCAGGTGTTGCATTCCCATTCCTTACATTAGTAATTTATTTACTTGAGGTATTGGTAGCATTCCTACAGGCTTATATCTTCACAATGTTATCAGCTCTGTTTATCGGAATGGCAGTAGAAGAGCACGAGCACGAACATCATGCTGCTCACTAA	MFKKFAVLFYSIFVLNLVSAQHGEAAAGAAPAQELSEKDKVSKENKEFIDHHLLDAHDFTLMVDKDGHHIGFPLPVIIYDKGFHSFMSDKEGFMHGEPTEVDGSFYVLHHEKIYKTDAAGTITLDDHGHPTNEKPMDLSITKSVLIILLVSIFMLVLFGGMAKSYKKSVVPTGAARFLEPLIIFVRDEVAIPNIGHKYKRFMGYLLTVFFFILFLNVLGLMPFGINVTGNITMTFFLAILTYLITTFSANKDYWKHIFWMPGVPVPMKLIMLPIELLGTITKPFALMIRLFANMTAGHIVVMSLIGLIYVFKNFIAGVAFPFLTLVIYLLEVLVAFLQAYIFTMLSALFIGMAVEEHEHEHHAAH	PGPT0014303_211	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
BMS003_01763	372			hypothetical protein	ATGAAAATCAATCCTAATATTCTTGTTGTCATTTTATTTTTCCTGACGTTTCTGGTGCATTTTTCCCTTTGGAAATTTGTTTTTAACCTGAACGAAATTATCATCATTAAATTTTATCTTTTCCTGAGCGTCATGTTTATGATGATGATCACTCTTATTATTTTAATTAATAGAGTAGCACCGGAATTTTTAGGATTGTCAGTCATTGGTTTGATTCTTTTAAAATTCGGTTTAATGTACCTGATCAGAAAAAAACTGAACTTTGAAGTGATTCCAGGCTATAAATTTCATTTTATTATCCCATATTTTGTCCTGACAGCCCTGCTTACGTACTATGCCATCAAGCTGATTAATCATGATAAAAAACAGTAA	MKINPNILVVILFFLTFLVHFSLWKFVFNLNEIIIIKFYLFLSVMFMMMITLIILINRVAPEFLGLSVIGLILLKFGLMYLIRKKLNFEVIPGYKFHFIIPYFVLTALLTYYAIKLINHDKKQ				NA	NA	NA	NA	NA
BMS003_01764	1362	ffh	COG0541	Signal recognition particle protein	ATGTTTAATAGTTTACAGGATAAATTAGACAAGGCATTACACAATATTTCCGGTAGAGGAAAAATTACCGAAATCAATGTTGCGGAAACCGTAAAGGAAATCCGTAGAGCATTGGTAGATGCCGACGTTAACTATAAAGTTGCGAAAGATCTTACCAAAAGAGTTCAGGATAAAGCCTTAGGAGAGAACGTTCTTACTTCCCTTACTCCGGGACAGCTGATGACGAAAATTGTTCATGATGAACTGGTAGACCTGATGGGAGGTTCTCAAGAGGGGATCAATCTTTCAGGGAAACCTTCTGTAATCCTTATTGCAGGTCTTCAGGGGTCTGGTAAGACTACTTTCTCAGGAAAACTTGCCAATTATTTACAGACAAAAAGAAATAAAAAACCTTTATTGGTAGCCTGTGACGTTTATCGTCCTGCAGCGATTGACCAGCTGAAAGTTTTAGGAGGACAGATTAATGTTCCTGTTTTTACAGAAGAAGGTTCTACCAATCCTTCTACCATTGCTGAAAATGCGATCAACTTCGCAAAAGCAAATGGCCATGATGTAGTAATTGTGGATACCGCCGGTCGTTTAGCGATTGATGAGCAGATGATGAACGAGATCAAATCTGTACATTATTTCATTAAACCCAATGAAACGCTATTCGTAGTAGACTCTATGACAGGTCAGGATGCTGTGAATACAGCAAAAGCATTCAACGATGCTTTGAACTTTGACGGAGTTGTTTTAACAAAATTAGATGGTGATACAAGAGGGGGTGCTGCACTGACGATCCGTTCTGTGGTTGAAAAGCCAATCAAATTTATCTCTACAGGAGAAAAAATGGAAGCTTTAGATCTTTTCTACCCGGAAAGGATGGCAGACAGAATCCTGGGAATGGGAGACGTTGTTTCCTTAGTAGAAAGAGCTCAGGAGCAGTTTGACGAAGAAGAAGCGAAGAAACTTCACAAGAAAATTGCTAAAAACGAGTTCGGTTTTGATGATTTCCTTAAGCAGATCAACCAGATCAAGAAGATGGGTAACATGAAAGACCTTATGGGAATGATTCCTGGAGTTGGAAAAGCGATCAAAGATGTGGAAATCAGTGATGATGCATTCAAACACATTGAAGCGATCATTTATTCTATGACTCCTGAAGAAAGAAGAAGACCTTCTATCATCAATACACAGAGAAAAGGAAGAATTGCTAAAGGTGCCGGAAGAAAAATCGAAGATGTGAATCAATTGATGAAGCAGTTTGATCAGATGGGTAAAATGATGAAGATGATGCAAGGGCCTCAAGGAAAGCAAATGATGCAGATGATGAGCAAAATGCCGAATATGCCTGGAATGGGTGGAATGTTCGGAAAATAA	MFNSLQDKLDKALHNISGRGKITEINVAETVKEIRRALVDADVNYKVAKDLTKRVQDKALGENVLTSLTPGQLMTKIVHDELVDLMGGSQEGINLSGKPSVILIAGLQGSGKTTFSGKLANYLQTKRNKKPLLVACDVYRPAAIDQLKVLGGQINVPVFTEEGSTNPSTIAENAINFAKANGHDVVIVDTAGRLAIDEQMMNEIKSVHYFIKPNETLFVVDSMTGQDAVNTAKAFNDALNFDGVVLTKLDGDTRGGAALTIRSVVEKPIKFISTGEKMEALDLFYPERMADRILGMGDVVSLVERAQEQFDEEEAKKLHKKIAKNEFGFDDFLKQINQIKKMGNMKDLMGMIPGVGKAIKDVEISDDAFKHIEAIIYSMTPEERRRPSIINTQRKGRIAKGAGRKIEDVNQLMKQFDQMGKMMKMMQGPQGKQMMQMMSKMPNMPGMGGMFGK	PGPT0025750_3932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
BMS003_01765	666			hypothetical protein	ATGAAAAAAATCTTATTGGCGTCTGCAATCGCTCTATTTGCAGGCCTGAATGCACAAACTACATTCGGTGTAAAAGCCGGTTATGCCTTATCAAAATTGAATTCCAGCGACGATGGTTTTGCCTATGGTGGGTTCGAAGGCGGAATGAAATCCAAATCAGGATTTTATGTAGGGGGTTTGGTTGAGCATAAATTCAATAACAAATTTGCTGTTCAGGGAGAAGTAGAATATGCTAATCTGGGAGGAAAAGCAGAGGTTTCAACACCTGTAGGTGTTACTGTAACTGAAAAGATGAATCTTAACAGAATCGTAATTCCTGTATCTGCAAGATATTATGCAACCCCTGAACTGGGTATTTATGCAGGTCCGTATGTAAGTTTTAAGACCAATAACAAGGTGAAATTTCAAATGAGCGGTCCAAATGCAGGGATGGCAGATCCTTCGGGAATCAGAGAAGGGGAGCGTTATGTGGAAAATTACCTGAATGATACTTTAAAATCCACAGATTTCGGTTTGTTCTTAGGGGCTGATTATACTATTCATAAAGGATTATTCGTAGATGCACGCTACAGCTTTGGCCTAACGAATATGCTTAAAAATCCTGTAGATGGAGAAACATTAAAAATGAATTTCTTCCAGTTAGGAATAGGATACAGGTTTAAATAA	MKKILLASAIALFAGLNAQTTFGVKAGYALSKLNSSDDGFAYGGFEGGMKSKSGFYVGGLVEHKFNNKFAVQGEVEYANLGGKAEVSTPVGVTVTEKMNLNRIVIPVSARYYATPELGIYAGPYVSFKTNNKVKFQMSGPNAGMADPSGIREGERYVENYLNDTLKSTDFGLFLGADYTIHKGLFVDARYSFGLTNMLKNPVDGETLKMNFFQLGIGYRFK				NA	NA	NA	NA	NA
BMS003_01766	663			hypothetical protein	ATGAAAAAAATCGTATTGATGGGCGCTGTGGTGCTTTTCGGTTTGTCAAATGCACAGATTGCAAAAGGAACTTCTTATCTTTCAGGACAGGTAGGATATTATCACAATGAGAAAAATGAATTTGATAACAAAATAAAGGATGATGTGATCAAAATCCTTCCTGCAGTAGGGTATTTTGCGACTACGAATTTAGCCGTAGGGTTAGGTGTAGGCTATAAAAGTGCCGTTGCAAAATATAACGTAAGTGGTTCTGGTTTTGTTAATACAATTGAAATTAAAGAAACGAATAATGCATTTGTAGTAGCTCCATTCGTGAGAAAATACTGGACTTTATCTGATAAATTATACATCTTCGGACAACTACAGGTTCCGTTGGAATTTGGCCAGGAAAAACTGGATTTTAACAGTGAGGGTGACGGCGGAGATCCTATTCTTTCTGCTCCGTTTACACAAAAAAATAACTACACCAATATCGGAGTGAATATTAAACCGGGTCTGGACTATTTCGTGACTAAGAACTGGTCTATTGAAGCTACAATAGGAGAGTTTGGGTACAATACTTACAAAAGAGATATTGACGGCGCTAAAAGAAATAATAACTACAAGTTTGATGTTAATCTGGCTTCTGTGACTTTCGGGGTAAAATATGTGTTTGCAAAATAA	MKKIVLMGAVVLFGLSNAQIAKGTSYLSGQVGYYHNEKNEFDNKIKDDVIKILPAVGYFATTNLAVGLGVGYKSAVAKYNVSGSGFVNTIEIKETNNAFVVAPFVRKYWTLSDKLYIFGQLQVPLEFGQEKLDFNSEGDGGDPILSAPFTQKNNYTNIGVNIKPGLDYFVTKNWSIEATIGEFGYNTYKRDIDGAKRNNNYKFDVNLASVTFGVKYVFAK	PGPT0022210_846	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
BMS003_01767	669			hypothetical protein	ATGAAAAAAATATTATTAGCGGGTGCTGTTGCACTTTTCGGTTTATCAAACGCTCAGATTGCTAAAGGAACTACATATTTATCAGGATCTGTTGGTTATTCTCAGGTAGAATCTAACAACGGTAACGATAAAAAAGAAAACTTCAACGTATTACCTACGGTTGGATATTTCGTAAACACTAACTTAGCAGTTGGATTAGGAGTTGGATACCAAACTGAAAAAAACACTGTATCTACTACTGCAACTCTAGGAAACACTACAATCGTAAACGAGAGCGTAGTTAAAACTCCAGCTTTTGTTGTTGCTCCATTCGTAAGAAAATACTGGACTTTATCTGATAAGTTATATTTCTTCGGACAATTAGCAGTGCCAATGCAGTTTGGAAAAACTGAAACTGAAACTAGCTCTGTAGCTACAACTACAACTGGTTCAGGAACAACAGTTACTTCTAACTCTACTTCTACTGAAGCTAAATACACTAAAATTGGTGTTACTGTGAAGCCAGGTTTAGATTATTTCTTAAACAAAAACTGGTCTATCGAAGCTACTATCGGTGAGTTTGGTTATAACAACTACAAGCCAAAAGATGGTGATGCTACAAACAACTATAACTTCGGTTTGAATTTATCTTCTGTAACTTTCGGAGTTAAATATGTATTTGCAAAATAA	MKKILLAGAVALFGLSNAQIAKGTTYLSGSVGYSQVESNNGNDKKENFNVLPTVGYFVNTNLAVGLGVGYQTEKNTVSTTATLGNTTIVNESVVKTPAFVVAPFVRKYWTLSDKLYFFGQLAVPMQFGKTETETSSVATTTTGSGTTVTSNSTSTEAKYTKIGVTVKPGLDYFLNKNWSIEATIGEFGYNNYKPKDGDATNNYNFGLNLSSVTFGVKYVFAK	PGPT0022210_846	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
BMS003_01768	501			hypothetical protein	ATGAAAAAACTATTATTACTAGGTGCTTTTGCACTTTTAGGAGGAGCTGCCCAGGCGCAGGAAGGTTTTAAAATCGGTGGACATATTGGTGTTCCTGTATCTGATGCAAGTGATGTATCTTCGTTTACATTAGGAGTGGATGCTGCTTATATGTGGAATATTGCTAAAGGTCTTGACCTTGGGGTAACTACAGGATATTCTCATTTCTTCGGAAAAGATCACTTTGACGATTTCGGATTTATTCCTGTAGCTGTTTCCGGGAAATATAGATTTAAAGGAGCTCCTATCTTTGTAGGATTAGACCTTGGATATGGTATTTCTACAAAGGATGGAGTAGATGGTGGTTTCTATGCACAGCCTAAATTTGGATATCAAATGTCCAAAGGAGAGTTGTACATCGGTTACCAATCTATCAGCAATAAGCGTGACCTACCAGGATGGGGAAGCTATAGCTGGAATGTAGGAGCTGTTAACCTTGGTTATAATTTCTTTATAAAATAA	MKKLLLLGAFALLGGAAQAQEGFKIGGHIGVPVSDASDVSSFTLGVDAAYMWNIAKGLDLGVTTGYSHFFGKDHFDDFGFIPVAVSGKYRFKGAPIFVGLDLGYGISTKDGVDGGFYAQPKFGYQMSKGELYIGYQSISNKRDLPGWGSYSWNVGAVNLGYNFFIK				NA	NA	NA	NA	NA
BMS003_01769	666			hypothetical protein	ATGAAACAACTTTTACTTATCGCAGCGGTCGCTGTTATGGGGATTTCTGCAAACGCACAAGAATTTCGTTTTGGTCCAAAAGCCGGATACTCTTACTCTACCATTAAACTGAAAGGCGACGGGCAGTCTGAGACTTCAGATCCTTTACACACATTTTATATTGGTGGTATTGCTGAATATAAACTGAGTGATAAGTTTGCTATTCAGGGAGAACTTTTATATTCTCCACTGGGAGGAAAAGTAGATGTAGCTGAAGCTGATCCGGATGATCCGACCACTTTTTTAAATGTAAAAGCAAAGCAGACTTACCATACTTTATTAGTACCTGTTTCTGCTAAGTATTTTATCACCGAAGGACTGTCTGTTTCTGCAGGTGCAAGCTTTGGAATGATTCTTTCTGCAAAACAAAAGCTTACCGCTGATTTCGGATTTGGAATTCCGGGATTCGAGATCGATGCTAATGATGAGAGAGATATTAAAGACCAGATGAATACTTTGAACATTGCTCCATTCCTTGGTGCTGAATATGCATTGGAAAACGGATTATTCTTTGATGCAAGATACAACCTTGGTGTTTCTAACCTTGCTAAACATGCAGAAGGGAATGAAAAGCTGACAAATAGCTTTGTACAAGTAGGTGTAGGTTTCAAATTCGGAGGAAATTAA	MKQLLLIAAVAVMGISANAQEFRFGPKAGYSYSTIKLKGDGQSETSDPLHTFYIGGIAEYKLSDKFAIQGELLYSPLGGKVDVAEADPDDPTTFLNVKAKQTYHTLLVPVSAKYFITEGLSVSAGASFGMILSAKQKLTADFGFGIPGFEIDANDERDIKDQMNTLNIAPFLGAEYALENGLFFDARYNLGVSNLAKHAEGNEKLTNSFVQVGVGFKFGGN				NA	NA	NA	NA	NA
BMS003_01770	960			hypothetical protein	ATGTTTGAATTAACATATGATTTGGAAGATATCGACGCTAAAATCTTCTATGGAGTTAATAACCAATATTTCAACTTAATAAAATCAAGCTTTCCAACCATTAAAATTACAGGAAGAGATCATTTCATCTTTGCCATGGGAAATCAGGAAGCTTTAGACATACTGAAGCAAAAACTGGATGATATTGTCAGTTTTATTTCCAAAAACAATTCAATAGGGCTGAAAGACGTTGAAAACATATTGAATATTAAAGACGAAAACGAAAAGCAACTGGTATTCGATCAGGATATCATTGTCAAAGGAGTCAACGGAAAAGTTATTAAAGCTAAAACCACCAATCTTAAAAAACTGGTAAAGGAAACAGAGAAAAAAGATATGGTGTTTGCCATTGGGCCTGCGGGTACCGGGAAAACATATACCAGTGTAGCATTGGCAGCAAGAGCTTTAAGAGATAAAGAAGTAAAAAGAATTATCCTGACAAGACCGGCTGTAGAAGCAGGGGAGAGCCTGGGATTCCTTCCCGGTGACCTTAAAGAAAAGCTGGATCCGTACTTACAGCCTTTATACGATGCACTTCGTGATATGATTCCTCATGAGAAGCTGGAAGGCTTCATGGAGAAAAAGATCATTGAAGTAGCACCTTTGGCCTTTATGAGAGGGCGTACTCTGGATGATGCTTTTGTGATTCTTGATGAAGCACAGAATACTACTCATGCACAGATGAAGATGTTTCTTACCAGAATGGGGATGAATGCCAAGTTTATCATCACAGGAGATCCAAGCCAGATCGACCTTCCGAAAAATCAGCAATCCGGGCTTAAAGAAGCGATGAGAATCTTAAATGGAGTAAAAGAGATCGGGTTTGTACATCTTACAGAAGAGGATGTAGTAAGGCATCCGGTGGTAAGAAAGATTATTCTTGCGTATAATGATGAAGAGAAAAGATTAAGGAATGATTAA	MFELTYDLEDIDAKIFYGVNNQYFNLIKSSFPTIKITGRDHFIFAMGNQEALDILKQKLDDIVSFISKNNSIGLKDVENILNIKDENEKQLVFDQDIIVKGVNGKVIKAKTTNLKKLVKETEKKDMVFAIGPAGTGKTYTSVALAARALRDKEVKRIILTRPAVEAGESLGFLPGDLKEKLDPYLQPLYDALRDMIPHEKLEGFMEKKIIEVAPLAFMRGRTLDDAFVILDEAQNTTHAQMKMFLTRMGMNAKFIITGDPSQIDLPKNQQSGLKEAMRILNGVKEIGFVHLTEEDVVRHPVVRKIILAYNDEEKRLRND	PGPT0002700_3531	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS003_01771	828			hypothetical protein	ATGTCAATTATTACCCTTACTTCGGATTTCGGAAATTTAGATTACAGAGTTGCCGCTGTGAAAGGCAAAATTCTGTCTCTAAACCCTGAGGTTAATATTATTGATATAACCCACGATATCCAGGCATTCAACCTTATACAGACTTCGTATATTGTGAGAAATGCTTATAAATATTTTCCAAAAGGAAGCATACATATTCTTTCTGTAGACAGTTTTTACCACAAATCCAGAAAGAATATCATCTATAAAGCCGACGGCTCTTACTTTCTGGCGGCAGACAACGGACTTTTGAGCCTTATATTCTTCGATATTAAACCTGAAGCCATCTATGAACTTACGCTGAACAACCGTTTTGATGACGTCATCAATTTTACATCGACAGACATTTTTGTTCCTGCCGCAGTGCATCTTGCCAACGGAGGACTTCCTGAAGTCATAGGAAGAAAAATACATGCTGCGAAACAGCTGATGTTCCCCCGGGCGGTTTATAATGAATCGGAAAAGATGATCATTGGTGAGGTCACTTATATTGATAATTTCGGAAATATAATATCAAATATCAACAAAGATTTTTTCGAGAATATCAGTAAAGGCTACAAGAGTTTTACGATAAAATTCAGAAATTTAAGCCTGTCAAAAATATTTTCCAGCCATACAGAAGTAGTTTCAGACTGGAAAAGGGAGACGGAATTCCACGGACAGTCAGCTGCTATTTTCAATGATAGTCAGCTATTGGAGCTTACGATCTATAAAGGGAGCAAAAAAAACGGCGCCAAAAGCCTGTTTGGGCTGAATGTAGGCGAAAATATCTATATCGAATTCAGCTAA	MSIITLTSDFGNLDYRVAAVKGKILSLNPEVNIIDITHDIQAFNLIQTSYIVRNAYKYFPKGSIHILSVDSFYHKSRKNIIYKADGSYFLAADNGLLSLIFFDIKPEAIYELTLNNRFDDVINFTSTDIFVPAAVHLANGGLPEVIGRKIHAAKQLMFPRAVYNESEKMIIGEVTYIDNFGNIISNINKDFFENISKGYKSFTIKFRNLSLSKIFSSHTEVVSDWKRETEFHGQSAAIFNDSQLLELTIYKGSKKNGAKSLFGLNVGENIYIEFS				NA	NA	NA	NA	NA
BMS003_01772	1305	pdhC		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCAGAATACAAATTATTGCTTCCTTCCATGGGAGAAGGGGTTATGGAAGCGACAATTATCACTTGGTTATTCAATGAAGGTGATAACGTAAAGGAGGATGACTCCGTAGTAGAAATTGCAACAGATAAAGTAGATTCAGACGTACCGACACCAGTTTCGGGGAAAATCGTAAAAATTTTAAAGCAAAAAGATGAAGTTGCAAAAGTAGGTGAGGCCATTGCTATTTTAGAAATTGAAGGAGAAGGCGCAGCTTCAGAAGAAGTAAAAGCTGAAACGCCTGCGGCTCCGGATGCTGAAACTTTAAAAGCAATTGAAGAACCTTTACAGACAGTAGCTGCTTCAAATGTAGAATTCTCAGGAGACCTTTATCTATCTCCACTCGTAAAATCTATCGCACAACAGGAAAACATTTCTGAAACTGAACTGAAATCTATCAAAGGAAGCGGTCTGGAAGGAAGAATTACTAAAGAAGATATATTAGCGTATGTTGCTAACAGAGGAAGCAAGCCAGCTCAGCAGGCGGCTCCGGTACAGGCAGCTTCTACGCCACAACCGGCAGTATCTGCCCCGGCAGCTACCATTCCGGTAAGCGCAGGCGATGAGATTATTCCAATGGACAGAATGAGAAAGATCATCGCTGAAAACATGGTAAAAGCAAAACAAATTGCTCCACACGTTACTTCTTTCATTGAAACAGACGTTACCAACGTTGTAAAATGGAGAAATAAAAATAAAGCGGTATTCGAAAAACGTGAAGGTGAAAAACTGACTTTCATGCCTATTTTCGTAAAAGCTGTAGTGAAAGCAATCCAGGATTTCCCAATGATCAATGTTTCTGTAAATGGTGAAAACATCATCAAAAAGAAAAATATCAACATCGGTATGGCTACTGCCCTTCCGGACGGAAACCTTATCGTTCCGGTAATTAAAAATGCGGATCAGTTATCACTTTCCGGTCTTGCAAAAGCAATCAACGATTTAGCTTACAGAGCAAGAAACAAAAAATTAAGACCTGAAGATACTCAGGGAGCAACATACACCATTTCTAACGTAGGAAGCTTTGGAAACCTTATGGGAACGCCCATCATTCCACAGCCTCAGGTTGCTATTCTGGCCATCGGAGCTATCGTTAAGAAGCCTGCAGTTCTTGAAACTGCTGACGGTGATGTGATTGCGATCAGAAACCTAATGTTCATGTCTCACTCTTATGACCACAGAGTGGTAGACGGATCTCTTGGAGGAATGATGCTGAAGCATGTTCATGACTACCTTGAAAACTGGGATCTGAACACAGAAATATAA	MAEYKLLLPSMGEGVMEATIITWLFNEGDNVKEDDSVVEIATDKVDSDVPTPVSGKIVKILKQKDEVAKVGEAIAILEIEGEGAASEEVKAETPAAPDAETLKAIEEPLQTVAASNVEFSGDLYLSPLVKSIAQQENISETELKSIKGSGLEGRITKEDILAYVANRGSKPAQQAAPVQAASTPQPAVSAPAATIPVSAGDEIIPMDRMRKIIAENMVKAKQIAPHVTSFIETDVTNVVKWRNKNKAVFEKREGEKLTFMPIFVKAVVKAIQDFPMINVSVNGENIIKKKNINIGMATALPDGNLIVPVIKNADQLSLSGLAKAINDLAYRARNKKLRPEDTQGATYTISNVGSFGNLMGTPIIPQPQVAILAIGAIVKKPAVLETADGDVIAIRNLMFMSHSYDHRVVDGSLGGMMLKHVHDYLENWDLNTEI	PGPT0001535_1268	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
BMS003_01773	1353	clcA_2	COG0038	H(+)/Cl(-) exchange transporter ClcA	ATGCTGGAAATTTTCACCCTTATAAAAAAATCTCTCAAAAACTCTTTCGACAACATCCGTAACGAACAGCTGAAACAGAACCTGCTTCAGGCAGTTCCTTTTTGGATAGGATCTGTAATTACAGGTTTTTTTGCTGTGCTGTATGCTAAGATATTTGCCTGGGGTGAACATCTGATGAATTTTATATTTGACTGGCATTCTTGGATGATTTTTATTATTGCACCCATTGGATTTGTGTTATCCTGGTGGCTGGTGAAAGAATTTGCTCCCAATGCCAAAGGAAGTGGTATTCCGCAGGTGATGGCAGCTGTAGAACTGGCCAACCCGAAAGAACACCGGAAAATCCGAAATCTACTAAGTATAAAAATTATTTTTTTCAAAATATTGTCTTCCGTTATTCTCGTCATTGGAGGAGGTGTTGTAGGGCGTGAAGGTCCTACAATTCAGATTGCAGGTTCAGTTTTCAGAAAAGTGAATGAGTATCTTCCTGAATGGTGGCCAAAGATTTCCAAGAAAAACATGATTATGACAGGGGCAGCCGCCGGATTGGCAGCAGCCTTCAATACCCCGCTCGGAGGAATTGTTTTTGCAGTGGAAGAATTGTCTAAAACACATATCAATTACTTTAAAACAGCTTTGTTTACAGCTGTCATTATTGCCGGCCTTACTGCTCAAACACTGGCAGGATCTTATTTATATCTGGGATACCCGAAAACGAATGATGTTTCCTTAATGGTAATGTTTCCTATTGTATTGGTTGCAGGTACCGCAGGTATTCTGGCCAGTCAGCTATCTGTTACTATGCTTAAGCTCAACAGCTGGAAGAAAGATAAACTGAAAACAGATAAAGCCAATGTGATTTTCCTGGTCATCTGTGCATTAGTTATTGCTTCAATCGCTTATTTCATCAACAGAGAAATTCTGGGTTCGGGAAAAGAAATCATGGAGCGTATTCTTTTTACGCAAGACAAGCACGAAGAGTGGTATGTTCCGGTCCTGAGGATGCTGGGCCCTGCCCTGTCTTTCACTTCAGGAGGTGCTGGCGGAATTTTCGCTCCGGCTCTTACTGCAGGTGCCAGTATAGGCTCTGTCATTTCCGGAATTATTCATTTAACACCTAATGAAACTAATGTAGTGATCCTTGCAGGAATGGTGGCTTTTCTTACCGGAATTACAAGAGCGCCGTTTACTTCAGCCATTATTGTATTGGAAATGACGGACAGGCATTCATTGATATTCCATCTGATGCTTGCCGGAATGGTATCTTCCATTACATCCATCCTGGTAAGCAGACATTCATTGTATGATGTTTTAAAAGTGAATTTTTTATCGGAATTAAGAGAGAAGGATTAA	MLEIFTLIKKSLKNSFDNIRNEQLKQNLLQAVPFWIGSVITGFFAVLYAKIFAWGEHLMNFIFDWHSWMIFIIAPIGFVLSWWLVKEFAPNAKGSGIPQVMAAVELANPKEHRKIRNLLSIKIIFFKILSSVILVIGGGVVGREGPTIQIAGSVFRKVNEYLPEWWPKISKKNMIMTGAAAGLAAAFNTPLGGIVFAVEELSKTHINYFKTALFTAVIIAGLTAQTLAGSYLYLGYPKTNDVSLMVMFPIVLVAGTAGILASQLSVTMLKLNSWKKDKLKTDKANVIFLVICALVIASIAYFINREILGSGKEIMERILFTQDKHEEWYVPVLRMLGPALSFTSGGAGGIFAPALTAGASIGSVISGIIHLTPNETNVVILAGMVAFLTGITRAPFTSAIIVLEMTDRHSLIFHLMLAGMVSSITSILVSRHSLYDVLKVNFLSELREKD				NA	NA	NA	NA	NA
BMS003_01774	342	rpsF	COG0360	30S ribosomal protein S6	ATGAACAATTACGAAACTGTTTTCATTTTAACTCCCGTTCTATCTGAGGCACAGGTAGAGGAAGCAGTGAACAAGTATGTAGATCTTATCAAAGAAAAGAACTGCGAAATCGTTGCTAAAGAAAATTGGGGATTGAAAAAGTTAGCTTACCCTATTCAATTAAAAAAGAATGGGTTCTATACTTTAATCGAATTTAAAGGAGAAGGTACTGTAGTAGCTGATTTGGAATTAGCATTTAAGCGTGACGAAAGAGTAATCCGTTACCTTACTACAAAACTTGACAAGCATGCTGTAGAGTACGCTGTAACAAGAAGAGCTAAAGTAAAAGCAGCTAAAGCTTAA	MNNYETVFILTPVLSEAQVEEAVNKYVDLIKEKNCEIVAKENWGLKKLAYPIQLKKNGFYTLIEFKGEGTVVADLELAFKRDERVIRYLTTKLDKHAVEYAVTRRAKVKAAKA				NA	NA	NA	NA	NA
BMS003_01775	303			hypothetical protein	ATGGCAATAGATGAAATGGCTAAACAAGCCTCAGCAGGAGGAGAATCAGAAGTAAAATTCCTTACTCCACTTGATATCAATACAAAATCTGAAAAGAAATATTGTAGATTCAAAAAATACGGAATTAAGCACGTTGACTATAAAGATGCTGATTTCTTATTACAATTTGTAAACGAGCAGGGTAAAATCTTACCAAGAAGATACACCGGAACTTCTTTAAAATACCAAAGAAAAGTTTCTGCTGCTATCAAAAGAGCAAGACACCTTGCATTACTACCATACGTAGCTGACTTATTGAAATAA	MAIDEMAKQASAGGESEVKFLTPLDINTKSEKKYCRFKKYGIKHVDYKDADFLLQFVNEQGKILPRRYTGTSLKYQRKVSAAIKRARHLALLPYVADLLK				NA	NA	NA	NA	NA
BMS003_01776	498	rplI	COG0359	50S ribosomal protein L9	ATGGAAATTATCCTAAAAAAAGACGTAGAAAACTTAGGACTTGAGTTTGATACAGTAAACGTAAAGCCAGGTTATGCTAGAAACTTCTTAATCCCTCAAGGATTTGCTCTTTTAGCTACCCCTAAAAACAAAGCTGCTCTAGAAGCTACATTAGAAGCTAGAAAAGAAGAAGAAGCTAAATTAATCTCTGCTGCTAACGCTGTAGTTGAGCAATTGAAGAAAACTTCTATCACTATCCCTGCAAAAGTAGGTGCTGGTGACAAATTATTCGGATCTATCAACAATGCTGATCTATCTGCTGCTTTAGAAAAAGCTGGTGTTTCTGTAGAGAAAAAATACATCAAGATCCCTGGTAACACGATCAAGAGAACTGGTAAATTCGCAGCTCTTATCAGACTTCACAGAAATGTTGAGTACAACTATGAGTTTGATATCGTTTCTGACGCTCCAGTAGAAGCAGCTCCTAAAAAAGAAGAAGCTAAAACTGAAGAAGCTTAA	MEIILKKDVENLGLEFDTVNVKPGYARNFLIPQGFALLATPKNKAALEATLEARKEEEAKLISAANAVVEQLKKTSITIPAKVGAGDKLFGSINNADLSAALEKAGVSVEKKYIKIPGNTIKRTGKFAALIRLHRNVEYNYEFDIVSDAPVEAAPKKEEAKTEEA				NA	NA	NA	NA	NA
BMS003_01777	804	rhaR_9		HTH-type transcriptional activator RhaR	ATGAACAACAGCTATTTTAAGGAAGTAGAAGAAGAGGACGCCGAATTTTATATTTATCACATCCTTACCGGCAATGTGACTACTGAGATTCATTATCACAATTCTGCACAGTTGGTATATGCCGAGGGAGGTATTGTACACGTTTTTACAGATCAGAGACACTGGTATCTTCCTACAAGATGTTTTATGTGGATCCCTGCCGGAATTCCTCATTATATTTTTTCTGCCAGTCCCCAGGTTGATTTATACAATTTTTATTTCAAGAAAGAAGAAAATGAGAGTGGCTTTTTTGATGAAATCAATATTTATTCTGTAAATAATCTGTTGAGAGAGATGATTTTGTATACTAAAGAATGGGATGGGAAAATCACAAAAAATGATCCAGCTGAATACTTTTTTCTTAAAGCCCTTAAAGGTGTTCTGCAGGAGAAAAAACACAAACATCCTGCCTTTCCCATACAGCATCCATTTCCAAAAGATGAAACATTACTGAAGGTGGCAAGATATATTCATGCTAACCTTGAAAAGCCCCTTACCATTGAATCTACAGCAAAAGAATTCGGAATGAGTACAAGAACCCTTTCAAGGAGATTTAAAGAAATTCTGGGCATGAATTACGTCCGTTTCTTAAGAGCTCTGAGAATTACACGTTCCCTTGAACTGATGCTGGAAGGGAAATATAATATGTACGAAATAGCGATGATGGTAGGATATAACAGTCTGTCTTCTTTCAGTAACATTTTCAAAAAGGTCGTTGGAACTGCTCCTACGGAATATCAGCAGAAACTGAGAGGGGATAAGTAG	MNNSYFKEVEEEDAEFYIYHILTGNVTTEIHYHNSAQLVYAEGGIVHVFTDQRHWYLPTRCFMWIPAGIPHYIFSASPQVDLYNFYFKKEENESGFFDEINIYSVNNLLREMILYTKEWDGKITKNDPAEYFFLKALKGVLQEKKHKHPAFPIQHPFPKDETLLKVARYIHANLEKPLTIESTAKEFGMSTRTLSRRFKEILGMNYVRFLRALRITRSLELMLEGKYNMYEIAMMVGYNSLSSFSNIFKKVVGTAPTEYQQKLRGDK				NA	NA	NA	NA	NA
BMS003_01778	1335			hypothetical protein	ATGAATATCACATTGAACGCATGCCGGTATCTGTGCACTGCGTTGTGCTTATTATTGAGCAGCTTTTTACATTCACAGATGACAGATTACCAACATCTCGGCCTACAGCAGGCTGTAGAAATTGGTCTGAAAAACAACAGAAACATACAGATCAGTCATCTGAAACAGAAAATATCCGTTACCAGAGAAAATGATCTCAAAATGGAAAAACTTCCGGACATTGAATTCCACACAAGCTACAACCAGGTAACAAACCTTTTTCAGCATCAGAATGGTATTTTCAATAAAGCAACCCGATACGATGTGATCAACGGAATGTATGATTTTACATTATCTGCTTCCATTCCGGTATATATGGGCGGGAAAATAAAAAATGTAGAGAAGAAAGCAGCTGTTGATACTGAAATTTCGGCTTTAAAAACCCATATGGACGAGAGACAGCTTAAGATGGCCATCATTACTGCTTTTCTGCAGATCCATCATTTGAAAGAGCAACAGAACCTTATTAATGATAAAATGAAGGAGGATTCTGTCAATATCAAACAGGTAAAAGCCTTGAAAGCTAACGGAGTTGTAACAGTCAATGAAGTCTTAAGAACATCACTGCAGTTATCCAATCATAAAATGAGCTGGACAGAGCTGGATAATGATATTCAGATTGCAGAGCATAAACTGAAGACTATTCTTTCGCTTCCGGAAAATCAGGAAATGCATGTCAATACGAAAGATCTTATTTCGGACAATGCTTCGATTCCTTATTTGAATGAACTGACAGAAACAGCTTTAGGCAAAAATGAATCTATTGAAATCACCCACAAAAACCTTTCACTGAAAGAACTGGATCAAAAGATAACCAAAGCGAATTATTTACCCAAAATTACAGCTGGCGGAGAATACTTTTTAAAATACCCGAACATGATGTTCTTTCCCCCCGAACCGTATGCCTATCGTCTGGGAATGGTAGGTATAAATCTTACCTATCCTATCGAAAACCTGTACAAAAACAAATACAGAATGGAGGAAGCAAAACAAAATATTGATCTTGCTAAACTACAGATTGAAGAAAACGAGGAAAATGTAAGACATAATGTATACGAAGCGTATAAAAAGTTTGAAGAGACAGACCAGAAAGTAAAAATTGCGGAAGAAGCCATTAATCAGGCTAAAGAAAACTATCGTATCGTAAGAACAAAGTACGCCAACAAGCTAAGCCTTATCACCGAACTGATAGATGCCGACAACACTTATCTGGAAGCTGAATCTAATCTTATTTCCGTAAAAATTAACAGACAACTTAAATATTACCAACTCCAATATATGATTGGAAACTTATAA	MNITLNACRYLCTALCLLLSSFLHSQMTDYQHLGLQQAVEIGLKNNRNIQISHLKQKISVTRENDLKMEKLPDIEFHTSYNQVTNLFQHQNGIFNKATRYDVINGMYDFTLSASIPVYMGGKIKNVEKKAAVDTEISALKTHMDERQLKMAIITAFLQIHHLKEQQNLINDKMKEDSVNIKQVKALKANGVVTVNEVLRTSLQLSNHKMSWTELDNDIQIAEHKLKTILSLPENQEMHVNTKDLISDNASIPYLNELTETALGKNESIEITHKNLSLKELDQKITKANYLPKITAGGEYFLKYPNMMFFPPEPYAYRLGMVGINLTYPIENLYKNKYRMEEAKQNIDLAKLQIEENEENVRHNVYEAYKKFEETDQKVKIAEEAINQAKENYRIVRTKYANKLSLITELIDADNTYLEAESNLISVKINRQLKYYQLQYMIGNL	PGPT0003600_3635	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
BMS003_01779	1047	emrA_4		Colistin resistance protein EmrA	ATGGCACAAAAACAATTGACACAAAAAGAAAAAAGAATCAACAGATCCATTACTTTACTGGCCTGGATCCTGATCATCAGCGGAATCACAGGAATGGTCAGCTTTTATCTTTTTTCGAGAAAAAATGTCACGACAAATGATGCACAGATCGAACAATATATTACACCTGTATCCAGTAAGGTATCAGGTTTCATCAAAACGATACAGTTTAACGAAAACCAGTTTGTACATAAAGGAGACACTTTAATTGTCATTGACAACCGAGAATTTGTGAATCAGGTACATATGGCGGAAGCCAATCTTCACGCCAATACCGCAACTATAAGCACAATTGAAAGCGGCGTTAACACGAAAGAAAGTGATACCAAGATCATTGATGCCAAAATTGCTTCTGCCAAAATTGATATCTGGAAAACAGAACAGGAGTTTAAAAGATATAAAAACCTTTTGGCAGAAGATGCAGCTACAGAACAGGAGTTTGAGAATATAAAGGCTTCTTATGAACAGTCAAAAGCCAATCTTTTAGCTTTGGAACAGCAGAAAAATGCAGTAAGAGCAGGAGCCAGTGAGCAGCAGACCAAGGTTGCACCCATGAAAAGCCAGATTCAGCAGAGTTCTGCAAACCTTAATAACGCCAGACTCTATCTTTCTTATACTGTCATCACAGCTCCTTATGACGGATGGGTAGGAAAAAAGACCATTCAGGAAGGTCAGCTGATTAAAGAAGGACAAGCTTTGGTACAGATCGTGAGCAAAGAAAAATGGATCATTGCGAATTACAAAGAAACACAGCTTGGACAGATTGATCAGAGCAAGGAAGTGACTATTACAGCAGATGCTTATCCCGATGTGGAATTCAAAGGAAAGATTCTTTCTGTTTCTCCGGCTTCAGGCTCTCAGTTTTCATTGGTAAAACCGGATAATGCAACCGGAAATTTTGTAAAAATTGAACAGAGATTTCCTGTGAAAATTATTCTGGATCATAATAAAGATAACGAAAAACTGCTTTCCGGGATGAATGTTCTGGTGAGTGCGAGGAAGATATGA	MAQKQLTQKEKRINRSITLLAWILIISGITGMVSFYLFSRKNVTTNDAQIEQYITPVSSKVSGFIKTIQFNENQFVHKGDTLIVIDNREFVNQVHMAEANLHANTATISTIESGVNTKESDTKIIDAKIASAKIDIWKTEQEFKRYKNLLAEDAATEQEFENIKASYEQSKANLLALEQQKNAVRAGASEQQTKVAPMKSQIQQSSANLNNARLYLSYTVITAPYDGWVGKKTIQEGQLIKEGQALVQIVSKEKWIIANYKETQLGQIDQSKEVTITADAYPDVEFKGKILSVSPASGSQFSLVKPDNATGNFVKIEQRFPVKIILDHNKDNEKLLSGMNVLVSARKI	PGPT0013750_3247	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
BMS003_01780	1563			hypothetical protein	ATGCAGCATAATACAGTTTATCATAAATGGGTACCACAATGGCTGAAACTGCCACTTCTTATACTGGCACTGTTTCCCCATCTGATGTTGTTATCACTTTTACATTCCAACAGCGCCTTTACCTCTTCTTTTATGGATGCAGATTCTGATGACATCCAGTATTTAATGATTCTCATGTACGGAACATTGGTGGTTACTCTTTTAGTTTTACAGCGGTTTATGGCCTATTTCAGCGTCAAATATTACGTGTTGCTGATGGCTTCAGTTTCCATAGTTATTCTTTACATTTTATCCGTTACCAATGATTATCATATTATATTGTTGATTCGTTTTTTGGAAGGAATTTTCGGGTTACTGGAAGGAGCTATTTTCCTGCCTCTGATCATTGCCGAACTAAAAACAAGACATGCTAAAGTTCTGGCCTATCTCTTTATGTATACTATCATGCTGACCGGAGGAACCATTACCACTTCCCTGCTAAAATCAAGTATTGAAGATTACGATTTTCAGCATATGATCCTGATGATGGTGTATTTTCATGTATTTGTCCTGATTATTGGAACTGCCTTGTTCAACAGAAACAGATTTTTCCCTAAAAAGCCTTTATATCAATTGGATATTACCAGCTGGTTTTTACTTTGGGTCTGCCTGCAGGCTGGTGGTTATGCTATTATTTATGGTAAAAGGCTCATGTGGTTCGAGTCTGATATCATTATCATGTGTATGTTTATATTTCTCCTTTCGGGAGGATTATTTATACTTAAACAAAGGAATTCCAAGAGACCGTTGTTTCATTTCGAAGTTTTCAGTTCCAAAAACGTGATTGCAGGAATGATTCTTTTTTTCATTTTTTATCTGATCCGCTCCGGTCTGAATAATGTTTACAGCATCATGGCTACAGTATGGAAGTGGCCCTGGGATTATATTGTGAACATCCAGTACTGGAATGTAGCAGGAACTCTTTTGGGAATACTGCTATCTGGAATTTGTCTTGTTCGTGGAATTTCCTCAAGAATTGTTTTCTTTACCGGATTTCTGTTACTGGCAATAGATTGTGCATGGTTTACGTATACTTTTTATCCTGATACTACCCTTTCCACCATCTGTCCGCCTTTATTTTTGCAGGGCGTTGCTCAGGGATTATTATTCACACCGCTTGTTTTCTTTCTGATTTCAGGAACTCCGGAAGAATATGTATCCAATGCCACAGCATTAGGAACGACAACCCGCTTCTGGACTACCGCTATCGGATATGCCCTGATGCAGAATCTGATGCTTTTTTTAACATTAAAACATTCCAATATACTCAGTGCTAATTTTACGGATACCAATCCTGTATTTTACAATCAGTGGAATCAAATTTTCGGGACTAATATTTCGAAATTATCAGTGAATGATTCTTTATCCATGACAGCAGGAGCTTTTAAAGCTAAAATAACCGCTCAGTCTATTCTTCTTTCCAATATGGAAATTTTCACAGGATTATTCTGGCTGGCACTTGTTACAGCAATTGGGCTACTGTTGTATCATCCCGTAAAAATAGCAGTAAGGAATATCATGTAA	MQHNTVYHKWVPQWLKLPLLILALFPHLMLLSLLHSNSAFTSSFMDADSDDIQYLMILMYGTLVVTLLVLQRFMAYFSVKYYVLLMASVSIVILYILSVTNDYHIILLIRFLEGIFGLLEGAIFLPLIIAELKTRHAKVLAYLFMYTIMLTGGTITTSLLKSSIEDYDFQHMILMMVYFHVFVLIIGTALFNRNRFFPKKPLYQLDITSWFLLWVCLQAGGYAIIYGKRLMWFESDIIIMCMFIFLLSGGLFILKQRNSKRPLFHFEVFSSKNVIAGMILFFIFYLIRSGLNNVYSIMATVWKWPWDYIVNIQYWNVAGTLLGILLSGICLVRGISSRIVFFTGFLLLAIDCAWFTYTFYPDTTLSTICPPLFLQGVAQGLLFTPLVFFLISGTPEEYVSNATALGTTTRFWTTAIGYALMQNLMLFLTLKHSNILSANFTDTNPVFYNQWNQIFGTNISKLSVNDSLSMTAGAFKAKITAQSILLSNMEIFTGLFWLALVTAIGLLLYHPVKIAVRNIM	PGPT0028795_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028795-emrY-K07786	NA	NA
BMS003_01781	1437	aldH1_1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	TTGTTCATATTTCGTGATGGTAATATAACAGAGATTACTTCGTTTAACACAAAAGCTTACCCCATGGAAATTGAAAGTATTTTAATAAAGCAAAGAGATTTTTTCAAGACACAACAAACCAAAAGTCCTGCTTTTCGGAAAATGTACCTTGAAAAGCTTAAAAGTCTTATTATTTCTAATGAAAATATACTCTATGAAGCAATTAACAAAGATTTTGGAAAATCGAAATTTGATACTTTCACTACAGAATTGTCTTTTATTCTGAATGACATCAATTATTATATAAGAAACTTAAAATCCCTTTCAAAGCCTAAAAAAGTAAGTACCAATCTGGTCAATCAATTCGGAAACAGTAAGATTTATGCTGATCCATTGGGTTGTGTATTGGTCATCGGAGCATGGAACTATCCGTATCAGCTATCCCTTTCTCCCATTATTGCTGCCATGGCTGCCGGAAACTGCTGTATTCTTAAACCCAGTGAAATAGCTGAAAATACTATGAAAGCTATGGCATCCATCATCAATGAAAATTTTCCGCCTGAATACCTTTATGTATTTGAAGGAGGAATTGAAGAAACAACCACTCTTTTAAAACTGAAATTTGACAAAATATTCTTTACAGGAAGTACGAAGGTTGGAAAGATTGTTTACAAAGCTGCTGCAGAACATCTCACGCCTGTAACCCTTGAATTAGGCGGAAAGTCTCCGGCAATTGTCACAAAAAATGCCAATCTCGAAATAGCAGCAAAAAGAATTGTGTGGGGAAAATTCCTCAACGCAGGACAAACCTGTGTAGCTCCCGATTATCTTTTGGTAGAAGAAACCATTCAGGAACAGTTTCTGGAAATGCTCAGAAAATATATCAAGGAATTCAAATATGGTCAGGGTTCCGAGCAGTACACAAGAATTATTAACCAAAGGAATTTCCAACGACTGATAAAACTAATTGACCAGGAAAAGATCTATTCAGGTGGTTATTCTGATGAAGAGAAACTGTACATAGAACCTACGATTCTGAATCATATAGACTGGAATGATGAAATTATGCAGGAAGAAATTTTTGGTCCTCTCCTGCCGGTTATCAGCTTCCAGAATTACAATGCAGTACTGAATTCTGTTTTAGAACGGGAAAAACCTCTGGCTGCTTATCTGTTTACTAATGATATTGAAGAGAAGGAAAACTTTACGAGGAAATTATCTTTCGGAGGAGGCTGTATCAATGATACTGTAATGCATCTCAGCAATGACAATCTTCCGTTTGGAGGCGTTGGAAGTTCGGGAATAGGAAATTATCACGGAAAATATGGTTTTGAAACCTTTTCACACCCAAAAGCAGTTCTTGAAAAAGCGACATGGGGTGAACCAAACATTAAATATCCGCCTTATTCTGAGAAAAAATTAAGCTGGATTAAAAAATTAATGCAATTAATCCCTTAA	MFIFRDGNITEITSFNTKAYPMEIESILIKQRDFFKTQQTKSPAFRKMYLEKLKSLIISNENILYEAINKDFGKSKFDTFTTELSFILNDINYYIRNLKSLSKPKKVSTNLVNQFGNSKIYADPLGCVLVIGAWNYPYQLSLSPIIAAMAAGNCCILKPSEIAENTMKAMASIINENFPPEYLYVFEGGIEETTTLLKLKFDKIFFTGSTKVGKIVYKAAAEHLTPVTLELGGKSPAIVTKNANLEIAAKRIVWGKFLNAGQTCVAPDYLLVEETIQEQFLEMLRKYIKEFKYGQGSEQYTRIINQRNFQRLIKLIDQEKIYSGGYSDEEKLYIEPTILNHIDWNDEIMQEEIFGPLLPVISFQNYNAVLNSVLEREKPLAAYLFTNDIEEKENFTRKLSFGGGCINDTVMHLSNDNLPFGGVGSSGIGNYHGKYGFETFSHPKAVLEKATWGEPNIKYPPYSEKKLSWIKKLMQLIP	PGPT0006875_9846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS003_01782	198			hypothetical protein	ATGAAAAATCTAAAAAAATTATCTCGTGAAAAATTAAGATTAGTTTCGGGCGGAAAATCATGTGCTTCTTCTTGCTCTGACGGATCAATAGTATATGTTAGTTCATACAGTTCATGCATCAGTTACTCTGGAGGTGCGGCATGTTATGATGCTAATGGAAGAGGAGCAATACACGTAGAATTATGTGCGAGCAATTAA	MKNLKKLSREKLRLVSGGKSCASSCSDGSIVYVSSYSSCISYSGGAACYDANGRGAIHVELCASN				NA	NA	NA	NA	NA
BMS003_01783	618			hypothetical protein	ATGGTTCTATTTTTGCTGAGGGATATGTATTATTTTTTTTACTTTTATGTTATGAAAAAATGGACAATATTTGCTTTCCTGGGATTAAGTGCTTTCGCTTTTTCGCAAGATATTAAGAATTCACCCGATAATGGAAAACAGAAAACAGCTCTTATAGTACCTGCACAGCAAAATGAGCTGGAAGCAAAGAAAAAAGCGACTGAAGAAAAAGCTAAGCTTCCCAAGCCTTATAATCCAAAAGCGGATGCTCAGGCTGATATTAATAAATTAGTAGCTCAGGCTAAGAAAGAAGGAAAGAATGTGATGATCCAGGCTGGTGGAAACTGGTGTATTTGGTGTCTTCGTTTTAATAATTTCGTACAGACGACTCCTGAACTGAAGGAATTGGCAGATAAGAATTATGTATATTATCACCTGAATTATTCTCCGGATAATAAAAATGAAAAAGTTTTTGCTCAATATATTAATATTAAGGAGCAACAATTTTATCCTTTCTTTATTATTTTAGATCAATATGGAAAAAAAATCCATATTCAGCAAAGTGAAATTTTAGAAGATGGAAAGGGGTACAGTTTTCAAAAAGTAAAAGAGTTTTTAGAAAATTGGAAACCTAATTAG	MVLFLLRDMYYFFYFYVMKKWTIFAFLGLSAFAFSQDIKNSPDNGKQKTALIVPAQQNELEAKKKATEEKAKLPKPYNPKADAQADINKLVAQAKKEGKNVMIQAGGNWCIWCLRFNNFVQTTPELKELADKNYVYYHLNYSPDNKNEKVFAQYINIKEQQFYPFFIILDQYGKKIHIQQSEILEDGKGYSFQKVKEFLENWKPN				NA	NA	NA	NA	NA
BMS003_01784	885	lpxL		Lipid A biosynthesis lauroyltransferase	ATGAATTTTCTAATCAAAATATTATACCTGATCTCTAAACTTCCGCTTAAAATATTGTATATTTTTTCGGACATTATCTTTTTCCTCAATTATTATATTGTAGGATACAGAAAAGAGGTTATTACTCAAAACCTTAGAAAGTCCTTTCCTGATAAATCTGAAGAAGAAATCAGGGATATCCGAAAGAAATTCTATCTTAATTTCTCCGATTATCTGGTAGAAACCATAAAGTCATTCAGTATTTCGGAGACCGAATCCAGAGTGAGGATGCAGCATATCAACCAGCATTTATTCCATGAAGCTAAGGCAGAAGGTAAGAATATTATTCTTTTGGCAGGTCACGTTTTCAACTGGGAATGGATCAATGCACTGGCGACAATCATCCCACAAGCGCACTGTCATCCCGTTTACAGAAAAGTAAACAGTGATTTCTGGGAAAATCAGATGAAAAAAGTCCGGAATAAATTCGGAAATGAAGCACTGGAGGCCAATGAAGTTATCCTCAATATTTTCAGATCTAAAAACAACGGAGATTCTGCTTATATGTTTGTTGCGGATCAAACCCCTCACCATGCTCATGTTACTTACGGACTGGAGTTTCTTAACCAGCGAACTCCTGCTTTTATAGGATATGACAGACTTGCCACAAGGATGGATCTTGTTTTTATCTATTGTGAGATGAAAAAAGTGAAGCGAGGTTATTATCAGGTTAATTATCACAGAATATACCCGGATGGTGAAAAGTTCACAGAGAATGAAGTGGTGAGAAAATTCCATAAATTATTGGAAAACACTTTGAACAAATATCCTGATAACTACCTTTGGTCACACAGAAAATGGAAATACCAGGACTCTATTAAAAATTTTGATTCTGAAAAAAAATAG	MNFLIKILYLISKLPLKILYIFSDIIFFLNYYIVGYRKEVITQNLRKSFPDKSEEEIRDIRKKFYLNFSDYLVETIKSFSISETESRVRMQHINQHLFHEAKAEGKNIILLAGHVFNWEWINALATIIPQAHCHPVYRKVNSDFWENQMKKVRNKFGNEALEANEVILNIFRSKNNGDSAYMFVADQTPHHAHVTYGLEFLNQRTPAFIGYDRLATRMDLVFIYCEMKKVKRGYYQVNYHRIYPDGEKFTENEVVRKFHKLLENTLNKYPDNYLWSHRKWKYQDSIKNFDSEKK	PGPT0013315_2728	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
BMS003_01785	978			hypothetical protein	ATGCAGAAAAAACTGGCAGTTGCCATCTTAAACTGGAATGGCAGAAATTGGCTTGAAAAATTTCTTCCGGATGTGGTTCAATTTTCTCAGAATGCAGACATCTATGTGATAGACAATCTTTCTAATGATGATTCCGTTGAGTTTTTGCAAAAGAACTTCCCCACTGTAAACATTATTCAAAATGATAAAAACTATGGGTTTGCAGGCGGTTATAATGAAGGATTGAAATCTGTTACAAATGAATATTACTGTCTTCTGAATTCGGATGTAGAAGTTACAGAGAACTGGACAGAACCTGTGTTGGAGCTGTTGGAAAAAAATTCTTCCATTTCAGCGGTACAGCCTAAAATTTTATCTTATCATAACAAAAGTCATTTCGAGTTTGCCGGAGCTGCCGGTGGTTTGATCGACAACCTTGGATATCCTTATTGCAGAGGAAGAGTTTTCGATGATCTGGAAGAAGATAAAGGCCAGTATAATGATGAAGCACAAATTTTCTGGGCTTCAGGATGCTGTTTTTTTATCCGTTCAAAAGATTTTTGGGAGCAGAGTGGTTTTGATGCAAGATTCTTTGCACATCAGGAAGAAATTGACCTTTGCTGGAGACTCATCAATTCCGGGAAAAAGATTTATTATACCGGAAAAGCCCATGTATATCATGTAGGTGGCGGAACGCTCAATAAGCAGAGTGCACAGAAGACTTATTTAAATATCAGAAATAATCTTTCTATGATGCTTAAAAACCTTCCTTTTCCTCAATTGATCTGGCTTATCTTTTTGAGATTATGTCTGGATGGTGTTGCCGGAATTTATTTTGGTTTAAAGTATGGCTTTTCACATCTGTGGGCTGTCTTAAGAGCTCATTTTGGTTTTTATGCTCAGCTTCCTGGAACCTGGAAACTTCGCCAGAAACATCAGAAGAGTCAGTTTTATCAATCGAAATGGCTGATATTTAAGCATTTTTTAGGTGGCAGATGA	MQKKLAVAILNWNGRNWLEKFLPDVVQFSQNADIYVIDNLSNDDSVEFLQKNFPTVNIIQNDKNYGFAGGYNEGLKSVTNEYYCLLNSDVEVTENWTEPVLELLEKNSSISAVQPKILSYHNKSHFEFAGAAGGLIDNLGYPYCRGRVFDDLEEDKGQYNDEAQIFWASGCCFFIRSKDFWEQSGFDARFFAHQEEIDLCWRLINSGKKIYYTGKAHVYHVGGGTLNKQSAQKTYLNIRNNLSMMLKNLPFPQLIWLIFLRLCLDGVAGIYFGLKYGFSHLWAVLRAHFGFYAQLPGTWKLRQKHQKSQFYQSKWLIFKHFLGGR				NA	NA	NA	NA	NA
BMS003_01786	555	dinG_1		3'-5' exonuclease DinG	ATGGATTTCTGTGCAATAGATTTCGAAACGGCTACTCACGAGAAAAGTTCAGCTTGTGAGATGGGAATCTGTGTGGTACAGGATTCTAAAATTGTTGAAACAAAAACCTGGCTGATTAAACCTCCCAGTTTTCCTTATTTCAGCAAATTCAATATTGCGGTACACGGCATTCATCCTGAAGATGTAAAAGATGCACCTACCTTTGATGAAATTTGGTATGAAGCTCAGGACATGATGTATGGAAGCCTTATGATTGCTCATAATGCAGGTTTTGATGCTTCAGTTTTAAGAGGATGTCTGGAGCATTATGGGATGTTTACCCCCAAATTAAACTATTTGTGCAGCATTCAGCTTGCTAAAAAATCATGGAATTATCTTCCAAAATATGGACTAAAACCTTTGGCAGAGTATCACAAAATTGATTTCACCCACCACAGAGCTGGTGCAGATGCTGAAGTGTGTGCAAAGATATCTCTGCTGGCTTTTGAGAAATTGTTTCTCACCAGCAATGATGAAGTAAACGATTATATGAAAGCGAAGATCAAAAAGCTTTAA	MDFCAIDFETATHEKSSACEMGICVVQDSKIVETKTWLIKPPSFPYFSKFNIAVHGIHPEDVKDAPTFDEIWYEAQDMMYGSLMIAHNAGFDASVLRGCLEHYGMFTPKLNYLCSIQLAKKSWNYLPKYGLKPLAEYHKIDFTHHRAGADAEVCAKISLLAFEKLFLTSNDEVNDYMKAKIKKL				NA	NA	NA	NA	NA
BMS003_01787	390	apaG	COG2967	Protein ApaG	ATGATGTTTTCAAAAATGACTTCCAATATCAAAGTTTCAGTTATACCTGAATATGATAGTAAAAACAGTTATCCATCCGAAAACCGTTACGTTTTTAAATACAGTATCACGATAGAAAATGACGGAAGCTTTCCTATCAAAGTATTAAAAAGAAAATGGTTAATTTTTGATGTAGGATTCGGATACACAGAGATCATAGGTGATGGCGTAATCGGCTTGACTCCTGAAATAGGAACAGGTGAAAATTTCGCTTACTTCTCCAATGTAATGCTTCGTTCCGGAGTAGGAAATATGAGCGGAAAATACCTGGTTAAAAACCTGGAAACACAGGAGACTTTTGAGATTGATATTCCAAAATTCAATCTGTTGTCTGAAGTGTTGAGCAATTAA	MMFSKMTSNIKVSVIPEYDSKNSYPSENRYVFKYSITIENDGSFPIKVLKRKWLIFDVGFGYTEIIGDGVIGLTPEIGTGENFAYFSNVMLRSGVGNMSGKYLVKNLETQETFEIDIPKFNLLSEVLSN	PGPT0004665_600	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
BMS003_01788	1254	sucB	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGTCAGTTTTAGAAATGAAAGTTCCTTCACCGGGCGAATCCATTACAGAAGTTGAAATTGCAACTTGGCTTGTAAAAGATGGTGATTATGTAGAAAAAGATCAACCTATCGCCGAAGTGGATTCAGATAAAGCAACTCTTGAATTGCCGGCAGAACAAAGTGGTGTTATCACTTTAAAGGCAGAAGAAGGTGATGTAGTACAGGTAGGTCAGGTAGTTTGTTTAATTGATATGGATGCTGCAAGACCAGAAGGTGCTGCACCGGCTGCTGAAGCTCCAAAACAGGAAGAAGCTCCGAAAGCTGCTGAACCAGCTAAACAGGAAGCTCCAAAACCAGCTGCTCCGGTAGCTGCTCCACAAACTTATGCAACAGGAGCTCCATCTCCGGCTGCTAAGAAAATCCTTGACGAAAAAGGAATGGATGCTGCTCAGGTTTCAGGAACAGGAAGAGACGGAAGAATTACTAAAACTGATGCTGAATTAGCGGCAGTTCCTGCATTAGGAGGAAGTCCTATGACCGCTACAGGTGCCAGAACTACCACTACAACAAAACTTTCAGTTTTAAGAAGAAAAATTGCTCAGAGATTAGTTTCTGTAAAGAACGAAACGGCAATGTTAACGACTTTCAACGAAGTGGATATGTCTGAAATCTTTAGATTAAGAAAGCAATATAAAGAAGAATTTGCTCAAAAACACGGAGTAGGACTTGGTTTCATGTCTTTCTTCACAAAAGCGGTTACAAGAGCATTACAAATGTATCCGGATGTAAACGCATCTATCGACGGAGACTTCAAAGTAAACTATGATTTCTGCGATATTTCAATTGCTGTTTCAGGTCCTAAAGGATTAATGGTTCCGGTATTGAGAAATGCTGAAAATATGTCTTTTGCAGGAGTGGAAGCAAACATCAAAGATCTTGCTACAAAAGTAAGAGACGGTAAAATTACAGTAGATGAAATGACTGGTGGTACTTTCACTATTACCAATGGTGGTACTTTCGGTTCTATGATGTCTACACCTATCATCAACCCTCCACAATCTGCAATCTTAGGAATGCACAACATCATCCAGAGACCGGTAGCTGTTGACGGACAGGTAGTAATCAGACCAATGATGTACGTTGCTATGTCTTATGACCACAGAATTATCGACGGTAAAGAATCTGTAGGATTCCTTGTTGCGGTAAAAGAAGGTATTGACAATCCGGTTGAGATATTAATGGGAGGTGACGAAAGAAAAGGCCTTGGATTATAG	MSVLEMKVPSPGESITEVEIATWLVKDGDYVEKDQPIAEVDSDKATLELPAEQSGVITLKAEEGDVVQVGQVVCLIDMDAARPEGAAPAAEAPKQEEAPKAAEPAKQEAPKPAAPVAAPQTYATGAPSPAAKKILDEKGMDAAQVSGTGRDGRITKTDAELAAVPALGGSPMTATGARTTTTTKLSVLRRKIAQRLVSVKNETAMLTTFNEVDMSEIFRLRKQYKEEFAQKHGVGLGFMSFFTKAVTRALQMYPDVNASIDGDFKVNYDFCDISIAVSGPKGLMVPVLRNAENMSFAGVEANIKDLATKVRDGKITVDEMTGGTFTITNGGTFGSMMSTPIINPPQSAILGMHNIIQRPVAVDGQVVIRPMMYVAMSYDHRIIDGKESVGFLVAVKEGIDNPVEILMGGDERKGLGL	PGPT0001535_2041	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
BMS003_01789	2814	sucA	COG0567	2-oxoglutarate dehydrogenase E1 component	ATGGACAGATTTTCATTCCTAAACGCAGCTCATTCTCAGTTAATTGAGGATTTATACCAACAGTACTTAAAATTCCCGGACTCTTTAGAACCATCATGGAAAGCTTTCTTTCAAGGCTTCGACTTCGCTTTAGAGAACTACGGAGATGACGATAACATCCAGTTTATTCAGGCTTCAGCCAACGCTGCCCCGGCAGTACAACAGATTTCTCAGGCAGCATCCAACGGAGAGATTCCTGAGCATATCAAGAAAGAATTTAAAGTAGTAAACCTTATTGAGGCTTACAGAACCAGAGGACACCTATTCACGAAAACTAACCCGGTTAGAGAAAGAAGACACTATACACCTACGTTAGACATCGAAAACTTCGGTCTGTCTAAAGAAGATTTAAATACAAAGTTCAACTGTGCTGTAGAAACAGGAATGAAAGAGCCTGCTACTTTGGCAGATCTGATCAGACACCTGGAAAACATCTACTGTGATTCTATCGGGGTAGAATATATGCACATCAACAACGTTGAAGAAAAAGATTTCATCAAAAGATGGCTTCAGGTAAATGAAAACCACCCAAGTCTTTCTGCCAACGAAAAAACAGAAATTTTATTAAAATTAAACCAGGCAGTTGCCTTTGAAAACTACCTTCACACAAAATTTGTAGGACAGAAAAGATTCTCATTAGAAGGAGGTGAAACATTAATCCCGGCTTTAGATCAGCTGATCACAAGATCTTCTCAGTTAGGAGTAGACGAAGTAGTGCTGGGGATGGCTCACAGAGGCAGATTGAATGTTCTTACCAACATCTTCGGAAAATCTTACAAGCAGATATTTTCAGAATTTGAAGGTAAAGAATTTGAAGAAGATGTATTCTCAGGTGACGTTAAATATCACTTAGGATCATCTAAAAAGATCAAAACTGCTTCAGGAGAAGAAGTGTGTATCAACCTAACTCCGAACCCGTCTCACCTTGAAACGGTTGCAGCCCTTGTAGAAGGTATCTGCCGTGCAAAAGTAGATGATAAATACAAAGATTATTCTAAAGTATTGCCAATCATCATCCATGGTGACGGAGCTATTGCCGGACAAGGTATTGCTTACGAAGTGGCTCAGATGATGACCTTGGAGGGATACAGAACAGGAGGTACCGTTCATATTGTTGTTAATAACCAGGTTTCATTTACCACCAACTATATGGATGCCAGATCTTCAACATACTGTACAGACATTGCGAAAGTTACAGAATCTCCTGTAATGCACGTAAATGCTGACGATGCTGAAGCTGTAGTGCATGCCATCCACTTTGCGGCTGATTTCAGAGCAAAATTCGGAAAAGACGTTTATATCGACCTTTTAGGATACAGAAAATATGGTCACAACGAAGGTGATGAGCCAAGATTTACTCAGCCTAACCTATATAAAACCATTTCAAAACACCCGAATCCGAGAGAAATTTATAAAGATAAATTGCTTAAAGACAGCATTACTTCAAACGATGTAATTGCTAAGATGGAAACAGAATTCAAAGCTCTTTTAGATAAAGATTTTGATGCATCTAAAGAAATTGAGAAAAACGTAATGGACGTATTCATGGCTGAAGACTGGACTAACTATCCGATCGGGAAAAAAGGAGCCGTTCAGTTACCGGTAGATACAAAATATGACCTGGCGAAGCTGAAAGAATTGGCAATTAAAATGTCAACACTTCCAGCTGATAAAAAGTTCATCAATAAAATTACAAGACTTTTTGATAACCGTATCAAAGCTATTGAAGGAAACTCATTAGACTGGGCGCTAGGAGAGTGGCTGGCATATGCAACACTTCTTGTAGAAGGTCACAACGTAAGAATATCAGGGGAAGATGTAGAAAGAGGAACATTCTCTCACAGGCATGCCGTGGTAAAAACTGAAGATACGGAAGAAGAATATATTCCGTTAAGACATGTTTCTGAAAACAGGTTTGATGTATTCAATTCTCACCTTTCAGAATATGGTGTTCTAGGTTTCGACTATGGTTATGCAATGGCTTCTCCAAATACATTAACCATCTGGGAAGCTCAGTTCGGAGACTTCGTAAACGGAGCTCAGATCATCGTTGACCAGTATCTGGCAGCTGCAGAAGAAAAATGGAAAATCCAGGACGGACTGGTAATGTTACTACCTCACGGTTCTGAAGGACAGGGAGCTGAGCACTCATCAGCAAGACTGGAAAGATTCCTTACCCTTTGTGCTAACGAAAATATGATCGTAGCTAATATTACTTCACCAGCCAATTACTTCCACTTATTGAGAAGACAGCTGAAATGGTCATTCAGAAAACCATTAATCGTAATGAGTCCTAAATCTTTACTGAGACACCCTAAAGTAGTTTCACCAATAGAAGATTTTGCAAACGGAGCATTCCAGCCAATCTTGGACGATCCGGCAGCAGATCCTAAAAAAGTAGAAAAATTAGTTCTTTGTTCAGGTAAACTGTACTTCGAATTATTGGCGAAGAAAGAAGAACTTAACTGTGAAAATATTGCATTAGTAAGATTGGAGCAGCTATATCCGCTTCAGACAGATGCTATTGAAGCGATCTTCAACAAATATGAAAACAAAAAACAATTGGTTTGGGCTCAGGAAGAACCTGAAAACATGGGTGCCTGGTCTTATATCCTGAGAAACTTCAGAGATACAGGAATCCAGGTGGTTGCTCCGGTACCAAGCGGTGCACCAGCTCCAGGTAGCCACAAAATGTTTGAGAAAAACCAAAATGCAGTGATCAACAGAGTTTTCGACAGAGATGATGCACCTGCTAAAAGACCCGTTACAGCTTAA	MDRFSFLNAAHSQLIEDLYQQYLKFPDSLEPSWKAFFQGFDFALENYGDDDNIQFIQASANAAPAVQQISQAASNGEIPEHIKKEFKVVNLIEAYRTRGHLFTKTNPVRERRHYTPTLDIENFGLSKEDLNTKFNCAVETGMKEPATLADLIRHLENIYCDSIGVEYMHINNVEEKDFIKRWLQVNENHPSLSANEKTEILLKLNQAVAFENYLHTKFVGQKRFSLEGGETLIPALDQLITRSSQLGVDEVVLGMAHRGRLNVLTNIFGKSYKQIFSEFEGKEFEEDVFSGDVKYHLGSSKKIKTASGEEVCINLTPNPSHLETVAALVEGICRAKVDDKYKDYSKVLPIIIHGDGAIAGQGIAYEVAQMMTLEGYRTGGTVHIVVNNQVSFTTNYMDARSSTYCTDIAKVTESPVMHVNADDAEAVVHAIHFAADFRAKFGKDVYIDLLGYRKYGHNEGDEPRFTQPNLYKTISKHPNPREIYKDKLLKDSITSNDVIAKMETEFKALLDKDFDASKEIEKNVMDVFMAEDWTNYPIGKKGAVQLPVDTKYDLAKLKELAIKMSTLPADKKFINKITRLFDNRIKAIEGNSLDWALGEWLAYATLLVEGHNVRISGEDVERGTFSHRHAVVKTEDTEEEYIPLRHVSENRFDVFNSHLSEYGVLGFDYGYAMASPNTLTIWEAQFGDFVNGAQIIVDQYLAAAEEKWKIQDGLVMLLPHGSEGQGAEHSSARLERFLTLCANENMIVANITSPANYFHLLRRQLKWSFRKPLIVMSPKSLLRHPKVVSPIEDFANGAFQPILDDPAADPKKVEKLVLCSGKLYFELLAKKEELNCENIALVRLEQLYPLQTDAIEAIFNKYENKKQLVWAQEEPENMGAWSYILRNFRDTGIQVVAPVPSGAPAPGSHKMFEKNQNAVINRVFDRDDAPAKRPVTA	PGPT0001530_2637	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
BMS003_01790	1041			hypothetical protein	ATGCGTATTTTCAAAATATTAACTTTTATCATTATTCTGTTAGGAGGAGCTTATGCTGCTTCCATGTATTATTTTGTGGACGAAAGTAAAAACTTCACCATTGAGAAAGAAATTGATTATCCGGTAGATAAAGTTTTTGCCCAGTTTAATAATCTTCAGAATTTTACAAGATGGAACAACTTTTTTACCAGCTCACCATCCATAGATATTGATTATTATACGCCTTATGAAGGACAGGGAAGTGCCATCAGCTATGTAGATCCTAAAAATGATACTGATGGAGAAATGTTCATCAGATATGAAAATCCTAATAAAACACTGAAATATCAGCTTTTTGAGGATGAAAATGAAAATCCGACACTGGTTGATGTCAAATTCAAGTCCGTTTCAGCAGAAAGAACAAAAATTATCTGGTACGTACATACCCCAAAACTGCCAGTCTGGAAAAGAGTGGAAAACTTCTGGACAGAAGACCGTTTTGCCGAGAATATCAATAAAAGTATGGTGAATCTTAAAAACTCTTTAGGCAATAAAGTGGAAAAAGATAACCAGATGGCCGCCATTAAATATGACAGTCTTATGGTGGAAAATGAAGAAGATAAATTGCTTTTGGGAATCAATGTAAGTACATCAAACAAAAAAGACGCTCTTTACAAAAATATCGTGATGAATTATAACAAAGTCTATAATTTTGTAACGATGGATCTTGGGAAAAAAGATGATGAATTCGGGTATCCGGTCCTGATTACTGATGCGGATAATTACAAAGATAAGGAGGTTTCTTATTTCCTCGGAATTCCCCTTTCTAAAAAAATTGGAGTGTCGGATAATAATTTCAATTTTAGATCCGTAAATCCGTCTCAGAATTATGTAATTTACTACAAAGGGAATTATGAAGGACGAATTCGGGCAATTCAGCAGCTGATTCAGAAAGCTAAAAAAGAGGAGATGCGCTTCGGGGATATCCGCCAGACCTTTATTGAACGTCCGATGGAAGGCCAGAATGTGAATGTTAAGCTCTCATTATCAGTGTATAAGTAA	MRIFKILTFIIILLGGAYAASMYYFVDESKNFTIEKEIDYPVDKVFAQFNNLQNFTRWNNFFTSSPSIDIDYYTPYEGQGSAISYVDPKNDTDGEMFIRYENPNKTLKYQLFEDENENPTLVDVKFKSVSAERTKIIWYVHTPKLPVWKRVENFWTEDRFAENINKSMVNLKNSLGNKVEKDNQMAAIKYDSLMVENEEDKLLLGINVSTSNKKDALYKNIVMNYNKVYNFVTMDLGKKDDEFGYPVLITDADNYKDKEVSYFLGIPLSKKIGVSDNNFNFRSVNPSQNYVIYYKGNYEGRIRAIQQLIQKAKKEEMRFGDIRQTFIERPMEGQNVNVKLSLSVYK				NA	NA	NA	NA	NA
BMS003_01791	171			hypothetical protein	ATGCTGATCACTCTGATTGTATGTTTAACAATAATTAACCTGGTGAAGGGCGGGAAGCCGGATGAGGGAAGCTTGATGAGGGAAGCTGGAAGTTACTATTTGACAGTAATCGCTCGTAGATTTTTGATTGAAAATTTTTCAAACAATTGCATAAACCCGAATTTTATATAA	MLITLIVCLTIINLVKGGKPDEGSLMREAGSYYLTVIARRFLIENFSNNCINPNFI				NA	NA	NA	NA	NA
BMS003_01792	1269	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGAATCGAAATGTAATCTCCATAGTTTTAGGAGGAGGCAGAGGGACAAGATTATTCCCGTTAACGTATTCCAGATCAAAACCAGCTGTCCCTATTGCAGGAAAATACAGATTGGTAGATATTCCTATTTCAAACTGCCTGAATTCAGGACTGAATAAAATCCTGGTCTTAACACAGTTTAATTCCGCTTCTCTTAATTCGCATATTAAGAATTCTTACCACTTTGATATATTCAGCAAAGGCTTTGTCGATATTCTGGCTGCCGAGCAGAATGTAGAAAATGACAGTTGGTATCAGGGCACTGCTGACGCTGTACGCCAGTCTATGAAACACCTTGAAAAATATGACTATGACTATATCCTGATTCTTTCAGGAGATCAGCTCTATCAGATGGATTTCAGGGAAATGCTAGACTTCCATATTGAAAACGGAGGCGATCTTACCATTGCTACCATTCCGGTCAATGCGAAAGATGCTACAGGTTTTGGGATATTAAAATCCGATGATGAAGGAAATATTACCTCTTTCTACGAAAAACCGGATTATGATATGCTTACAGGCTTGAAATCTGAAGTTTCGGAAGGAAATAAGCATACAGGAAAAGAATATCTGGCTTCCATGGGAATCTATATTTTTACCAAGAATATCCTTAAAAAAATGTTTGAAGAAGGAGCTGGTGATGATTTCGGAAAAGATATCATTCCGAGTTCTATCGGAAAATACAAGACATTAAGTTATCAGTATGAAGGATACTGGACAGATATCGGAACCATAGAATCTTTCTACGAAGCCAATCTTGATCTTTGCCTGGATTTGCCTCAGTTTAACCTTTTCTCTTCTTCTCCTATCTATACCAGAGCAAGAATGCTTCCGCCGTCAAAAATCAATGGATCTTATGTAAGTAAAGCTGTTTTTGGAGATGGATGTATCATTATGGCAGATAAAATTGAGAATTCCGTCATCGGAAACAGAACAAGAATTGATAAAGGAAGTACCATTGTAAATTCCTATGTTATGGGGGCTGATTTCTACCAGAATACAACGGAAATTGTCATAAATGACAGAGCTGGCCGCCCTAATATGGGAATCGGAAAATACTGTTATATAGAAAAAGCGATTCTTGATAAAAACTGTTACATCGGTGACAATGTGAAAATCATCGGAGGAAAACATATTCCTGACGGTGATTATGGGACTTATTCAGTGCAGGACGGGATTGTAGTTGTGAAAAAAGGAGCAGTTGTAGCTCCGGGAACACATATCGGGTAA	MNRNVISIVLGGGRGTRLFPLTYSRSKPAVPIAGKYRLVDIPISNCLNSGLNKILVLTQFNSASLNSHIKNSYHFDIFSKGFVDILAAEQNVENDSWYQGTADAVRQSMKHLEKYDYDYILILSGDQLYQMDFREMLDFHIENGGDLTIATIPVNAKDATGFGILKSDDEGNITSFYEKPDYDMLTGLKSEVSEGNKHTGKEYLASMGIYIFTKNILKKMFEEGAGDDFGKDIIPSSIGKYKTLSYQYEGYWTDIGTIESFYEANLDLCLDLPQFNLFSSSPIYTRARMLPPSKINGSYVSKAVFGDGCIIMADKIENSVIGNRTRIDKGSTIVNSYVMGADFYQNTTEIVINDRAGRPNMGIGKYCYIEKAILDKNCYIGDNVKIIGGKHIPDGDYGTYSVQDGIVVVKKGAVVAPGTHIG	PGPT0025885_1709	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
BMS003_01793	210			hypothetical protein	ATGGATGTGCTGATTGTAAATAAAATGTTCAGGAATAAATTGAGAGATCACAATATTCCTATTGATGATGTGGACAAACAGGTTAAAGAACTTAATGATAGGGGAGAATATGAAGTGACAATAGTCAATTCAAATCTGAAATATGAAAATAAAGAGTGCTTTAAAGTAGCAGTAAACACTAAAAACAGAACAGTAAACATAATAAAATAA	MDVLIVNKMFRNKLRDHNIPIDDVDKQVKELNDRGEYEVTIVNSNLKYENKECFKVAVNTKNRTVNIIK				NA	NA	NA	NA	NA
BMS003_01794	324			hypothetical protein	ATGAGAAAGCTTTTTTCATTTCTATTAATAATAATTATAGTCTCTTCCTGTAAAAAAGAAGATGACGGACTCCGTAATGGTTATTTCTGGCTATATGGTGCTGGTCTTAAAGATAGATACGGAGAAGAAGCTGCCAATGGTATTTCTGAAAAATGGAAAATAAAAGCAGTAGATGCCGGCGGATGTATTATTGATGACGAGCTGGAAAAAAAGATAAACAGGGAGAATAAAAAAACTCTGGCCGCTATTACAAAAAAATACGGTAAAGGCTGGGAAGCAAAATATCATAAGGATATACATTTGCTACAAAAAGTGCAGATGTAA	MRKLFSFLLIIIIVSSCKKEDDGLRNGYFWLYGAGLKDRYGEEAANGISEKWKIKAVDAGGCIIDDELEKKINRENKKTLAAITKKYGKGWEAKYHKDIHLLQKVQM				NA	NA	NA	NA	NA
BMS003_01795	1407	glgA_1	COG0297	Glycogen synthase	ATGGTTATTTATCATTTAAGTACAGAATGTTATCCTGTAGCAAAAGTAGGCGGTCTGGCAGATGTTGTCGGGGCACTTCCGAAATATCAGAATAAAATAAAAGGAGTAGAGGCTAAGGTAGTGATGCCTTGGTATAATAAAGCCTTTGTCTATGATCATGAATTTGACCTGGTTTTTGACGGATTTATCCACCAGGGGCATAATATGCTGCAGGTTCAGGTGCTGAAAGAAAAGACAAATGTGTTGGGATTTGAGCTGTATATGGTGAAAATTCCAGGATTATTAGACAGAGAAAATCCTTATGGATATCAGGATGAAAGCTTCCAGTTTATGGCTTTTCAGCATGGGGTGCTGCATTGGCTGTGTGCTATGGAAATCCGTCCGGATGTACTGCATTGCCATGATTATCATACAGGTCTTGTCCCTTTTATGGTAGAGAACTGTTCGGAATTCGGATTTTTAAGAGGAGTAAAGACGATTGGGACCATTCATAACGGAGAATATCAGGGAATGATGAGCTGGAATATGGCCAATTATATGCCTTCATTCGATGCTTACAAATGGGGACTGATGGACTGGAATGGGTTTATGAATCCTCTGGCAAGCATGATCAAATGTGCTGATGCCTTTACCACCGTTTCCGAAGGGTATCTTGAAGAACTTTTTATCAGCTTCCGCGGACTGGAAAGCCTGGTTCGTCAGGAATTCGGAAAAGCCTACGGAATCATCAACGGTATTGACACCGAAGTCTGGAATCCTGAAACTGATCCGATGCTGGATTTTAATTTTAACAGCAAAAATGCAGTTGCTCAAAAAAAGAAAAATAAAGAAAAACTCTGCAAAGAATATGGCCTGAAACCAGAGCTTCCTTTATTCGCTTTTATAGGAAGATTTGCCACAGAAAAAGGTGCAGATCTGCTGCCGGATGTGGTTTGGCGAAGCATTAAACAGAGTTATGGTGCTTTAAATATTATGATTCTCGGATCAGGAAATGCCTATATTGAAAATAAACTGAAAGAATACAATTATACATATACCAACTTTGCCCTGGATTTGGGATATAAAGAACATCTTTCCCATAAAATATATGCCTCGGCAGATTTTCTTCTGATGCCTTCCAGAGTAGAGCCTTGCGGGCTGAATCAGATGTATTCCATGAGGTACGGAACTGTTCCAGTAGTAAGGTACACAGGAGGTCTGAGAGATACTGTAGAAGATATTTCAACGGGCGGAGCAGGGCTGAATTTTACCTATCCGGGGGTGGATGATGTTGTACATGCGATGAACAGGGCAATGGCAATTTATAATCAAAAAGGGGTTATGGAAGAACTTATCCATGCCAATATGAATTTTGATTTTGCATGGGAGAAATCTGCAGAAAAATACATAGCTTTATATAATAGCTAA	MVIYHLSTECYPVAKVGGLADVVGALPKYQNKIKGVEAKVVMPWYNKAFVYDHEFDLVFDGFIHQGHNMLQVQVLKEKTNVLGFELYMVKIPGLLDRENPYGYQDESFQFMAFQHGVLHWLCAMEIRPDVLHCHDYHTGLVPFMVENCSEFGFLRGVKTIGTIHNGEYQGMMSWNMANYMPSFDAYKWGLMDWNGFMNPLASMIKCADAFTTVSEGYLEELFISFRGLESLVRQEFGKAYGIINGIDTEVWNPETDPMLDFNFNSKNAVAQKKKNKEKLCKEYGLKPELPLFAFIGRFATEKGADLLPDVVWRSIKQSYGALNIMILGSGNAYIENKLKEYNYTYTNFALDLGYKEHLSHKIYASADFLLMPSRVEPCGLNQMYSMRYGTVPVVRYTGGLRDTVEDISTGGAGLNFTYPGVDDVVHAMNRAMAIYNQKGVMEELIHANMNFDFAWEKSAEKYIALYNS	PGPT0025880_3299	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
BMS003_01796	1947	glgB_2	COG0296	1,4-alpha-glucan branching enzyme GlgB	ATGAATTCTGTTAAGAGCTATACACTGTTCACCGATCATGATGTGTATCTTTTCAAAGAAGGTAGGCATTATAAACTGTATGGTAAATTTGGAGCACATTCCGCGGAAAAGGAAGGAGTGAAGGGAGTGTATTTTTCAGTTTGGGCACCCAACGCAAAAAAAGTTTCCGTGATCGGGAATTTTAATAACTGGAATCATAAAGATCATATTCTGTTCCCAAGATGGGATGAATCCGGCATTTGGGAAGGATTTATTGAGGGATTGACCTGGGGAACACTGTACAAGTATGCTATTGAAACACCAAGGGGCGAAATTCTGGAAAAAAGCGACCCTTATGCATTGAGCTGGGAGCAGAATATTCAGGCCGCTTCTCTAGTTTCTACCACCTGGTATGAATGGAATGACCAGGAATGGATGAATAGCCGCTGGAAAAAAAACAGATTGAATGCTCCTATATCAGTATATGAACTGCATCTGGGCTCTTGGGTAAGGGAGGGAGATCAGCCACAACGTTTTTTGAACTATAGAGATATTGCCAAAAAGCTGGTTCCTTATATAAAGGAAATGGGATTTACCCATGTAGAATTTATGCCCGTAATGGAATATCCTTACGAACCAAGCTGGGGATATCAGATTACAGGTTTTTATGCAGCAACATCGCGATTTGGTTCACCACAGGATCTGATGTTTCTCATTGATGAACTTCACAACAATGAAATAGGTGTTATTCTGGACTGGGTACCGTCTCATTTTCCCGGAGATGCTAATGGACTTCACCGGTTTGACGGATCTTATCTCTATGAACATGAAGACCCGAGAAAAGGATTTCATCCGGATTGGAAATCACATATTTTCAACTATGGAAGAAATGAAGTCAAATCTTTTCTGATTTCAAATGCTATGTTCTGGCTGGAACGTTATCATGCAGACGGATTGCGTGTGGATGCAGTAACCTCAATGCTTCACCTGGATTATTCAAGAAATGAAGGCGAATGGGAACCTAACATATATGGAACTAATGTAAACCTGGAAGCGAAAGCCTTTCTTCAGGAGTTTAATACAGCCGTTTATAAAGAATTTGGGGATAATATCATGACCATAGCAGAAGAAAGCTCAGATTTTCCCATGCTTACAAAACCTGTTCATGACGGAGGTGTAGGTTTTGGAATGAAATGGATGATGGGCTGGATGCATGATACGCTGGATTATTTCAAAGAAGATTTTCCTAACCGTAAATTTCATCATCACAAATTGACCTTTGCTTCCATGTATATGTATAATGAAAATTATATGATGCCTTTGTCCCATGATGAAGTCGTACACGGAAAAGCAAGCCTGATCTATAAAATGAAAGGCGACGAATGGCAGAAATTTGCCAATCTCCGTACCTTATATGTATATATGTATACTCATCCCGGAGCCAAGCTGCTTTTTATGGGCGATGAATTTGGGCAGACCAGTGAATGGAATTTTACCCGAAGCCTCGACTGGCATTTGCTGAAATATCCTGTTCACAAAGGAATGCAGGAGATTGTAAAAGAACTGAATCATCTGTACAGATCAGAAACGGCATTTTACGAAAATCAGTTTGATAAAAATGGTTTTGAATGGGTAGAAGCAGATGATCTGGAAAACTCAGTATATGTCTACCTAAGAAAAGGAAAAAGAAAAGACGATGTTCTGATGGTAGCTCTGAATCTGGCACCCAAAGTATTGGATTATAAAATCGGGATTCCTGCAGGAACACATTGGGAGGTTATTTTAAACTCGGATGATGAAAAATACAGCGGTAGCGGAGTAGAAACGGAGATCCTGGAAGAAAAGTATGAGGAATGGAGAGGACACCCGAAAACAATGACCTTGAAGCTGCCCCCATTGGCCGGAATTATTTTACGACAGAAGAAAGATAAAAAGTATAAATTACACAGAATTAAACACAAGAGATAA	MNSVKSYTLFTDHDVYLFKEGRHYKLYGKFGAHSAEKEGVKGVYFSVWAPNAKKVSVIGNFNNWNHKDHILFPRWDESGIWEGFIEGLTWGTLYKYAIETPRGEILEKSDPYALSWEQNIQAASLVSTTWYEWNDQEWMNSRWKKNRLNAPISVYELHLGSWVREGDQPQRFLNYRDIAKKLVPYIKEMGFTHVEFMPVMEYPYEPSWGYQITGFYAATSRFGSPQDLMFLIDELHNNEIGVILDWVPSHFPGDANGLHRFDGSYLYEHEDPRKGFHPDWKSHIFNYGRNEVKSFLISNAMFWLERYHADGLRVDAVTSMLHLDYSRNEGEWEPNIYGTNVNLEAKAFLQEFNTAVYKEFGDNIMTIAEESSDFPMLTKPVHDGGVGFGMKWMMGWMHDTLDYFKEDFPNRKFHHHKLTFASMYMYNENYMMPLSHDEVVHGKASLIYKMKGDEWQKFANLRTLYVYMYTHPGAKLLFMGDEFGQTSEWNFTRSLDWHLLKYPVHKGMQEIVKELNHLYRSETAFYENQFDKNGFEWVEADDLENSVYVYLRKGKRKDDVLMVALNLAPKVLDYKIGIPAGTHWEVILNSDDEKYSGSGVETEILEEKYEEWRGHPKTMTLKLPPLAGIILRQKKDKKYKLHRIKHKR				NA	NA	NA	NA	NA
BMS003_01797	1122			hypothetical protein	ATGAGGTTTGAACTTTATACAGAAGAAAAAGACGACAGGCCGGTATTTATCACCGGAAATTTCAACAGCTGGAATCCTAAAGATTACAATTTTCAGCTCAAACAAACAGATTCCTCCAATTATTTTATAGAAATTGAAGATCAGATGCTCACTGAAGAAATTGACTACAAATTTACCAAGGGAGGCTGGGAAAACGTAGAACTGGATCAGTATGGAAGCATAACACCTAACCGAAAAGTAAAAAAATCAGCAGGAAAAACTTCCGATACTGTACAAAAATGGAGATTAAACTGGGGGCCCTTCAAAGAAGAGTATTATCCTATTGCAGAAGTTATTTCAGAAAATTTTTATATTCCGCAGCTTGACCGTTACCGAAAGGTTTGGGCACTCCTCCCTTATGATTATCACGCAACCGATAAACGATATCCTGTTTTATATCTTCAGGATGCACAAAATCTGTTCAGTGAAGGAAGCAGCTTCGGGAATTGGGAAATCGACAAAAAACTATCCATTCTTGCAGAGTACGGACGTGGTGATCTTATCATCATTGCCATAGAACATGGCAGCGAAGAAAGAATTAAAGAATATATTTTTGATAATGATCATGTAGCCAACGGTTCTGAAGGAAAAAAATACATCCGTTTTATTGCAGATACCTTAAAGCCTTTTGTAGACGAAAACTACAGAACTAAAAAAGACCGTGACAATACAGGCATTGGAGGAAGTTCATTAGGTGCACTGATCAGTATATACAGTGGATTTCTTTATCCGGAAGTTTACTCCAAGCTGCTGATCTTCTCTCCTTCTCTTTGGGTAGAACCGAATAACAACTTCCCGATGATGAATTTCAGAGTTCCTTTTAAAACCAAGATTTATCTCTACGGCGGCGGTCAGGAAGGATCTAAAATGGTGAAAAGGATTCATATTTTTGAAGAGTACCTGAAAAGATGGGAAGAGAAAAAGCTTTTTGATTTTGAATTTAAAACCAATATTAACCCTGAAGGCACCCACAATGAATTTTACTGGTCGCAGGAGTTCCCGAGAGCGATAGAATGGCTATTCTACGATAATACGGAGAATCCGGTAGAAGTAAAACCACAACAACAAAGCATTAAAAACTAA	MRFELYTEEKDDRPVFITGNFNSWNPKDYNFQLKQTDSSNYFIEIEDQMLTEEIDYKFTKGGWENVELDQYGSITPNRKVKKSAGKTSDTVQKWRLNWGPFKEEYYPIAEVISENFYIPQLDRYRKVWALLPYDYHATDKRYPVLYLQDAQNLFSEGSSFGNWEIDKKLSILAEYGRGDLIIIAIEHGSEERIKEYIFDNDHVANGSEGKKYIRFIADTLKPFVDENYRTKKDRDNTGIGGSSLGALISIYSGFLYPEVYSKLLIFSPSLWVEPNNNFPMMNFRVPFKTKIYLYGGGQEGSKMVKRIHIFEEYLKRWEEKKLFDFEFKTNINPEGTHNEFYWSQEFPRAIEWLFYDNTENPVEVKPQQQSIKN				NA	NA	NA	NA	NA
BMS003_01798	1416	pepA		cytosol aminopeptidase	ATGAAACTTATCAATAAAAAAAACAAAAACTACACTCAGGTTTTCCATCTGTTTACTGAGGAAGAATGGGCAAAAAACGGCAAGAATTTCAATAAAAATATTTCTACTTTTTTTACAGGAAAGAAGTTCGAGGTTTTTGTGAATGCTCATGAAGAAGGAATCACTTATTTCATTGGATTAGGAAAATCTGCATTACAAAATTTTGAAATCCAGCAGGTAGCCGCCAGGTTTTCACAGACACAGAAAGAAAAACTACAGGCCGTACCTACTTTAGTGCTAGTTGATTTCATGAATGAAAAACAGTTCGAAGAATTTGTAAAAGGACTTTTAGCAGGAACTTACAATTATCCTTTTGATAAAAAACACACTTTCTGGAATGCAAAATTTGAGCTGCACTTTGAAAATTTAAGCCAGAAAAAGCTGGATCATATCCAGCAGAAAGCGGAGGCTCTAATTAACGGGCAGACTGCCTGCCAGGAATGGCTCAATAAACCTGCGAATCTGAAAAGACCGGATACATTAAGTACATATCTTAAAAATCTGGCCAGAAAATATGAATTAAAATATACCGTTTTTAACAGAAAGAAATGTGAGGAACTTGGATTAGGAGCATATCTATCCGTTAACCAGGGAAGTGCTTATGATGCGGCTTTCACTATTTTAGAATATAAAACTACGGTTAAAAATGCCAAAACTTTCGGACTGGTAGGAAAATGTATCTTGTTTGATACGGGAGGAATATCTATTAAAAGTTCTGCCAACCTTCACTATATGAAATCTGATATGGGAGGTGCTACAGCTGTTATAGGAACGCTGATTTATGCCGCTGAAATGCAGCTTCCGGTAAATATTATCGCTGTACTTCCTGTTACCGACAATGCTATTTCCGAAAAAGCCCTTCTTCCGAGTGATGTGATTACGGCTTATAACGGAAAGACCATAGAAGTGCTTGATACTGATGCAGAAGGAAGGCTGATTCTTGCAGACGGATTATCTTATCTTTCCCAAAATTATAAAACAGACTTTCTGATTGATCTGGCTACGTTAACCGGAAGCTCGGTAAGAATGTTTGGAGATACCTGCGCAGCCATGTTTTCCAATAATGAAGAATTGAAAAACAATCTGATTAAAAGTGGAGATCTAACCAATCAGAGAGTCTGGAATCTTCCATTATGGGATGTATGGAAAGACGATATTCAATCCGATGTGGCAGATATGAAAAACATCTCTTTAAAACCGATCGGAGACTGTATTATTGCCGCAAAATTTTTAGAACAATTCATTGAAAACCACACTCAATGGGCACATTTGGATATAGCAGGAGTAGCCTTTGGGAATGTAGGCTATGCCAAGGAAAAAGCAGCAACAGGTTTTGGGGTTCAGCTGCTCGTGAATTTAATTGAAAATTATCACTAA	MKLINKKNKNYTQVFHLFTEEEWAKNGKNFNKNISTFFTGKKFEVFVNAHEEGITYFIGLGKSALQNFEIQQVAARFSQTQKEKLQAVPTLVLVDFMNEKQFEEFVKGLLAGTYNYPFDKKHTFWNAKFELHFENLSQKKLDHIQQKAEALINGQTACQEWLNKPANLKRPDTLSTYLKNLARKYELKYTVFNRKKCEELGLGAYLSVNQGSAYDAAFTILEYKTTVKNAKTFGLVGKCILFDTGGISIKSSANLHYMKSDMGGATAVIGTLIYAAEMQLPVNIIAVLPVTDNAISEKALLPSDVITAYNGKTIEVLDTDAEGRLILADGLSYLSQNYKTDFLIDLATLTGSSVRMFGDTCAAMFSNNEELKNNLIKSGDLTNQRVWNLPLWDVWKDDIQSDVADMKNISLKPIGDCIIAAKFLEQFIENHTQWAHLDIAGVAFGNVGYAKEKAATGFGVQLLVNLIENYH				NA	NA	NA	NA	NA
BMS003_01799	1215			hypothetical protein	ATGGAGAAGAAAACAATTGTGTGTATTTCGTGCTATTACAAAGGCTACGATTTTATGGACGAAATGAAGAAGCTCGGCAATAAAATCATCCTTGTAACTTCCGAAAACCTCAAAGAAAAAAACTGGCCCTGGCATGCTATTGATGAAACATTTTATATGCCCGAACTAAAGCCATCCGTATGGAATCTGGAGCATCTGATTCAGGGGTTTTCTCATCTGATGAAAGCCAGAAAGGTAGATGCTGTAGTGGCTTTGGATGATTATGACGTAGAAAAGGCGGCATTAATCAGAGAGACATTCCGTATTCCGGGGATGGGCCAAACTACCCACCGGTATTTCAGAGACAAACTGGCTATGCGCCAAAAAGCAAAAGATTCCGGAATCAGTGTTCCTGAGTTTACAGCGGTATTCAATGATGATGAAGTGAACGAATTCACAGACCGTATTCCTGCACCATGGGTACTGAAACCCCGTTCCGAAGCTTCCGCATCAGGAATCAAAAAAATAACTTCCAAAGAACAGCTTTATGAGGCATTGGAAACATTGGGAGAAGAACGTCACCTTTTTTTACTGGAAAGCTTTAAACCCGGCGATGTCTACCATGTAGACAGCCTTACTTTTAATAAAAAAATTGTATTCACATCTGCTTCCAAATATCTGGCTCCTCCTATGCAGGTTTCCCATGAAGGTGGAGTATTCAGATCCAAAACTTTAGGAAGATATTCTGAGGAATTTAAGGCATTAGAAGAAATTAATGCCAGCGTACTTTCTAATTTCGGATTAATCAATGGTGCTACCCATACAGAATTTATCCGTGGAAAAGAAGATGGAAAATGGTACTTCCTTGAAACCTCCTCAAGGGTTGGAGGTGCTCATATTCCTGATCTGGTAGAAGCTTCAAGCAGCATCAATATCTGGAGAGAATGGGCTAAGATTGAAGATGCTCTTCTTAGAAGCAAAGATTACAGTGTTTCACCTCCTACAGGATATTATTCCGGGCTGATTGTAGCACTGATTAAAGATAAAGAACCCAACTACAGCAGTTTTGAATGTGAAGAAGTCGTAAAGTTTCTTCCCATAGATTATCACGTCGGAATTGTTTACAAGTCCGGCGATGCGTCAGTTGTGCAGGAAAGGCTGGATTCTGCTGCAGAAATGATTCATGCAGATATGCTGAATATTCTCCCTCCCAAAAGCAGCAAGCTCAGCTCCTAA	MEKKTIVCISCYYKGYDFMDEMKKLGNKIILVTSENLKEKNWPWHAIDETFYMPELKPSVWNLEHLIQGFSHLMKARKVDAVVALDDYDVEKAALIRETFRIPGMGQTTHRYFRDKLAMRQKAKDSGISVPEFTAVFNDDEVNEFTDRIPAPWVLKPRSEASASGIKKITSKEQLYEALETLGEERHLFLLESFKPGDVYHVDSLTFNKKIVFTSASKYLAPPMQVSHEGGVFRSKTLGRYSEEFKALEEINASVLSNFGLINGATHTEFIRGKEDGKWYFLETSSRVGGAHIPDLVEASSSINIWREWAKIEDALLRSKDYSVSPPTGYYSGLIVALIKDKEPNYSSFECEEVVKFLPIDYHVGIVYKSGDASVVQERLDSAAEMIHADMLNILPPKSSKLSS				NA	NA	NA	NA	NA
BMS003_01800	279			hypothetical protein	ATGAACCCTGATATTGATATTCAAAATGTTATCGAATTTATAATATGCAACTTACCCGAAGAATCATTTCTAACATGTAATTTAGAGAACATCAATTCCGGAAAATGGCAAAGCAAAGCATATTATCAGTTCATAGACTCAACCAATGCCAATAAACCAGGTTCAAAATGGATCTTTAAAGAAAATATCATTCTTGAACATCCAAAATTGGGAACTCTTGTATTGGATATTTTAGAAAAAGATCAGCTTGGAGGAATAGAATTTATCGAATTAATATAA	MNPDIDIQNVIEFIICNLPEESFLTCNLENINSGKWQSKAYYQFIDSTNANKPGSKWIFKENIILEHPKLGTLVLDILEKDQLGGIEFIELI				NA	NA	NA	NA	NA
BMS003_01801	714			hypothetical protein	ATGCCTCATATAGAACATACAGATTATTATTCACACATATTGGGAACAAGCCTCAAGGTAGAAGTAACCGGACATTATGGTCATCCTGTCATCATGTTTCCTACTTCCCAGGGACAATACACCCAAAACCATGATTTTCATCTCAATGGAAGTATCAACTGGTTTATAGAACAGGGAAAAGTAAAGCTTTATAATGTGCAGACCATCGACAGCTGGAGTTTTTATGATGATAAAATCTCTCCTCAGCAAAGAATCAGAAACTATGAACGGTATGTACAGTTTCTGATCAGGGAATTTGTGCCTTATATTCAGAAGCTTCACAAAACACATCGTGTAGCAGTAGCCGGAGCAAGTTTCGGAGGGTATCATGCTGCCAATTTTGCATTCAGATTTCCGGATGTGGTTTCCCATCTGTTTTGCCTTTCCGGTGCTTTCAGTATAAGAAATTTCATGGATGGCTATTCTGATGACACGGTATACTTCAACTGTCCAAGGGAATTTGTAAAAAATGATGAAGCCTGGAAATACAAACACATGCACATTGTGCTGAGCACTTCTGACCAGGACATCTGTAAAGAAAAAAATGTAGAAATGGCAGATATCTTAAGAGGAAAAGGCATAGACTTCTGGTATGACGAAAGAAAATGGATAGGCCACGACTGGCCGCTATGGAGAATGGTCTTTCCTAATTTTATAGGAGCATTCTTCTCTTAA	MPHIEHTDYYSHILGTSLKVEVTGHYGHPVIMFPTSQGQYTQNHDFHLNGSINWFIEQGKVKLYNVQTIDSWSFYDDKISPQQRIRNYERYVQFLIREFVPYIQKLHKTHRVAVAGASFGGYHAANFAFRFPDVVSHLFCLSGAFSIRNFMDGYSDDTVYFNCPREFVKNDEAWKYKHMHIVLSTSDQDICKEKNVEMADILRGKGIDFWYDERKWIGHDWPLWRMVFPNFIGAFFS				NA	NA	NA	NA	NA
BMS003_01802	954			hypothetical protein	ATGACAAAAAAAGTAGGAATTCTTTTCGGTATGGAAGACACGTTTCCCTGGGCATTTATAGACAAAGTAAATGAGCTTGGAGGTGGAGAAATCGTGGCTGAGCCTGTTAATATAGATAAACTGGAACAGGGGGCAGATTATGGTTATGCAGTGATCATCGACAGAATTTCGCAAGACGTTCCCTTTTACAGAGCTTATCTGAAAAATGCAGCACTTAACGGTACTTATGTGATCAACAATCCGTTTTGGTGGAGTGCTGATGAAAAATTTTTTAACAATGCCCTGATGACTAAACTGGGAATTCCGCTTCCTAAAACGGTTCTCCTTCCCTCACACGAAAGACCGGACAATACTTCAGAAACCTCATTCAGAAACCTGAAATTCCCTCATGACTGGGAATATATCTTCAATTATGTAGGATTTCCTGCCTATATGAAACCTCACGACGGTGGTGGCTGGAAAAGCGTTTACAGAGTAGAAAATCCGGATGATCTTTGGAACAAACTGGGAGAAACAGAACAGCTGGTAATGATGGTACAGGAAGAAATTATCTTTGATGATTATTACAGAGTATACTGCCTGGGCAGAAAATATGTTCATATTATGCCTTATGAGCCGAGAAACGCTCCTCATCTGAGATATGCCACTACGCATCAGACCCAGGGTAAAGAACTTGAAAAGCTACTGAAAACCATTCATGATTATACGATTAAAATGAATGAAGCTTTAGGATACGATTTTAATACGGTAGAATTTGCCGTAAGAGACGGAATTCCTTATGCTATCGACTTCTGTAACCCGGCTCCGGACGCCGACAGAAATTCTGTAGGAGAAGAGAATTTTGCATGGATCATAGAGCACGCTGCCAAACTGGCTATAGAAAAAGCTAAAGAATATGTTCCGGGGAAAGCTAATATTGCCTGGGGAACTTTTGTGAAAGATTCCATTGAATAA	MTKKVGILFGMEDTFPWAFIDKVNELGGGEIVAEPVNIDKLEQGADYGYAVIIDRISQDVPFYRAYLKNAALNGTYVINNPFWWSADEKFFNNALMTKLGIPLPKTVLLPSHERPDNTSETSFRNLKFPHDWEYIFNYVGFPAYMKPHDGGGWKSVYRVENPDDLWNKLGETEQLVMMVQEEIIFDDYYRVYCLGRKYVHIMPYEPRNAPHLRYATTHQTQGKELEKLLKTIHDYTIKMNEALGYDFNTVEFAVRDGIPYAIDFCNPAPDADRNSVGEENFAWIIEHAAKLAIEKAKEYVPGKANIAWGTFVKDSIE				NA	NA	NA	NA	NA
BMS003_01803	1122		COG2170	Putative glutamate--cysteine ligase 2	ATGCATCATCAGTTTACTATTGGAATTGAAGAAGAATATCAGATCATTGATGTTGAAAGCAGGGATCTTGTTTCTCACGTTTCAAAAATCATCGAAGGCGGCAAAGCTGTTTTAAGTGAAAACTTAAAGCACGAAATGCACGAATCCATGATTGAAATGGAAACGGGAATCTGCCAGAATATTCAGGAAGCAAGAGCAGAATTAACGAATTTAAGACGTCATCTCATTAATACCGCCCATGAGCAGGGACTGCGTGTTTCAGGAGGAGGTACTCACCCTTTTTCACACTGGTCTGAGAACAGTATCACTCAGGGAGAAAGATATATCAAGATTGTGGATGATATGGGAGATGTAGCCCGTGAAAACCTTATTTTCGGACTGCACGTTCACATTGGAATTCCCAATCGTGAAGAAGGCGTAAGAATTCAGAATGTCATGCGTTATTTCCTTCCTCACGTGTATGCTCTTTCTACCAATTCACCATTCTGGATTGGAAGATACACAGGTTTTAAATCGTACAGACAGGAAATTTTCGTAAAATTTCCAAGAACCGGTATTCCGAGTTATTTCAACTCGCTGGCAGAATTTGACAGCTATGTAGATCTTCTTGTAAAAACAGGAACCATCGACAATGCCAAGAAAATCTGGTGGGATCTGCGCGTTCACCCGTTCTATCCTACCATTGAATTCAGAATCTGTGACATGCCATTGAGAATTGATGAAACAGTATGTCTTGCTGCCATCATGCAGAGCCTCGTTGCCAAAATTTATAAACTTCATCAGCAGAATCTGAGCTTCAGAAGCTACAGAAGACTGCTCTTGAATGAAAATAAATGGCGGGCTTCCAAAAGTGGTATTGAATCTCATCTGATTGATTTCGGGAAAGAAGAATCTGTACCTTATCCTCATTTATTGAAAGAACTTCTTGAGTTTATTGATGATGTAGTAGACGACTTAGGATGCCGCAATGAAGTGGAGTATGCATGGAAGATCCTGGAAAACGGTACCGGAGCAGACAGACAGCTTCAGATCTTTAAGGAGACAGGGGATCTGACCAAAGTAGTTGATTATATGATCTCTGAAACGGAGTATGGCATAACACATGGTGAGCCGGCTTCATAA	MHHQFTIGIEEEYQIIDVESRDLVSHVSKIIEGGKAVLSENLKHEMHESMIEMETGICQNIQEARAELTNLRRHLINTAHEQGLRVSGGGTHPFSHWSENSITQGERYIKIVDDMGDVARENLIFGLHVHIGIPNREEGVRIQNVMRYFLPHVYALSTNSPFWIGRYTGFKSYRQEIFVKFPRTGIPSYFNSLAEFDSYVDLLVKTGTIDNAKKIWWDLRVHPFYPTIEFRICDMPLRIDETVCLAAIMQSLVAKIYKLHQQNLSFRSYRRLLLNENKWRASKSGIESHLIDFGKEESVPYPHLLKELLEFIDDVVDDLGCRNEVEYAWKILENGTGADRQLQIFKETGDLTKVVDYMISETEYGITHGEPAS	PGPT0026300_1125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS003_01804	834			hypothetical protein	ATGAAAGATATTCGAATTGCTCTGCTGGACATGAACAACAACCATGTAAATCAAGGTTTTAGAAATATTAAAGAGATTTCCGAAGCATTTCAGCAGAACTCTGAAGAAAATGTGTTGATCAAAACATTTGATGTGAGATTTAAAGATGAGATGCCGGAGATTGAAGATTTTGATATTTTCATTTCTTCCGGAGGTCCGGGAAATCCACATCGTGAAGGTCTGGCGTGGGAAGACAGATTTGCCCATTTTTTAGATTCTGTTTTTGAGCATAATCAATACAGTGAAGATAAAAAATACCTTTTTCTGATCTGCCATTCATTCCAATTGGCAAGCATTCACTGGAATCTGGGAAATATCTGCAAAAGAAAGTCTTATTCTTTCGGGGTAATGCCTGTTCATAAAACAGAAGAAGGTAAAGAAGAGTTTTTATTCAGAAATCTTAAGGATCCTTTTTATGCAGTAGATTCCAGAGCGTACCAGTTTATTGAGCCGGATCATGAGCGTTTTGAAGAACTAGGAATGACGATTATGGCCATTGAAAAATTCCGTCCTCATATCAATCTGGAAAGAGCGGTAATGGCGGTTCGTTTTTCAGAAGAAATATTCGGAACCCAGTTTCACCCTGAAGCCAACCCTGAATCTCTGATTGAGAATCTGAAAGATGAAAAGAACAGAGAAGCCATGATTGAAAATTTCGGAATGGAAAAATATCTTGAAACGATGGACAGAATAGATGATGAAGATAAAATCATTCTGACAAGAAATCAGATCCTTCCGAGATTTCTTCAGTTTGCAAAAAAAAACATTTTGAAAGAAGCTGAGTCTTTGGTTTAA	MKDIRIALLDMNNNHVNQGFRNIKEISEAFQQNSEENVLIKTFDVRFKDEMPEIEDFDIFISSGGPGNPHREGLAWEDRFAHFLDSVFEHNQYSEDKKYLFLICHSFQLASIHWNLGNICKRKSYSFGVMPVHKTEEGKEEFLFRNLKDPFYAVDSRAYQFIEPDHERFEELGMTIMAIEKFRPHINLERAVMAVRFSEEIFGTQFHPEANPESLIENLKDEKNREAMIENFGMEKYLETMDRIDDEDKIILTRNQILPRFLQFAKKNILKEAESLV				NA	NA	NA	NA	NA
BMS003_01805	1185			hypothetical protein	ATGATTCCAAAATACAGAAAACAGTACAATCAGGAGTTTTCGGAGGAAAAATACAGTCAATTAAAAGATATATTGCGGCAAAAAGGAGGAACCGCTCCTACTTTCAGAGTATCAGAAAGCCCTATTTTTCTGACTAAAGAGTTTGAGGCTAAGCTTATACATGCCAGCGAAAGCATCATCAGTCAGATTAAAGCAATGCCTGCAGAATTACTTCAAAAAGCTATTCCCGATAACTGCAGGGTTCCCAATGATACAGATCAGCCACATTTTTTCACCATAGATTTTGGAGTCTGTAAAAGCAAAAACGGGGAAATAGAACCTCAGCTGATAGAGCTTCAGGCATTTCCTTCTTTGTATGCCTTTCAGAAAGTATATGAAGAAACATTCTGTGAAGTGTATCCTTTTCTTTCTGAAATCAAAAATCCTATGCCTCATGAAACCTTTAAACATTATTTGAAGGAGTTAATTGTAGGCAATGAAAATCCAGAAAACGTAATTCTGCTTGAGATTTTCCCGGAAAAGCAGAAAACAGCCATTGATTTTGCTTTAACAGAGAAATTGTTAGGAATAAAAACAGTTTGTCTTACCAAAATAAAAAAAGAAGGCAGGAAGCTGTATTATGAAAATAATGGAAAGCTCACCGAAATCAAAAGAATCTACAATCGTATTATATTTGACGAACTGGACAATATTCCGGATCTTGTTACAGAATTTAATTTCCGTGAGGAAGTGGATGTTAAGTGGATCACCCATCCGAACTGGTTTTTTAAAATCTCAAAATTCCTTTTACCTTTACTGGATCATCAGTTTGTTCCGAAGAGCTATTTCCTTCATGAATTTCCGGAAAATGAAAATCTTGAAGATTTTGTATTAAAACCATTATTTTCATTCGCGGGAAGCGGAGTTAATTTGAATCCGACAAAAGAAATAACCAATGCCATTCAGGATAAAGAAAATTATATTCTGCAGAGAAAGGTAACTTATGAACCTATTTTTGAAGACATCAACGGAGAGTTTTCAAAGGCAGAGATCCGTTTATTATATATCTGGCGGGAAAATGACGAACGCCCTATCCTGTTGGAAAACCTGGGAAGAATGACCAAAGCCGCCATGGTAAATGTAGATTTCAATAAGAAAGATGCCATCTGGATTGGTAGCTCGAATGCTTTTTTTGCAGAAGGATAA	MIPKYRKQYNQEFSEEKYSQLKDILRQKGGTAPTFRVSESPIFLTKEFEAKLIHASESIISQIKAMPAELLQKAIPDNCRVPNDTDQPHFFTIDFGVCKSKNGEIEPQLIELQAFPSLYAFQKVYEETFCEVYPFLSEIKNPMPHETFKHYLKELIVGNENPENVILLEIFPEKQKTAIDFALTEKLLGIKTVCLTKIKKEGRKLYYENNGKLTEIKRIYNRIIFDELDNIPDLVTEFNFREEVDVKWITHPNWFFKISKFLLPLLDHQFVPKSYFLHEFPENENLEDFVLKPLFSFAGSGVNLNPTKEITNAIQDKENYILQRKVTYEPIFEDINGEFSKAEIRLLYIWRENDERPILLENLGRMTKAAMVNVDFNKKDAIWIGSSNAFFAEG				NA	NA	NA	NA	NA
BMS003_01806	1170	ampC		Beta-lactamase	ATGCAAAGTTTAAAAAACATATCGGTTGCGGTATTATGTCTATCTTTTTTGTCAGCCTGTAATTCTTCGAAAAAAAAGAAGGCTTCAGATTTTGATCATTATCTGGATACTCTGGTACAACCAGTGATGGAAAAAAATAAAATTCCGGGGTTAAGTATTGCAGTAAGTATAAATGGCGAACATACATTTTTCAATTACGGAATGGCTTCAAAAACAGACCGCATAGAAGTTACCAATACAACTTTATTCGAGCTGGGTTCTGTAAGCAAAACATTCACGGCTACTTTAGCCAGTTTATCGCAAGTGAACGGGACACTTAACTTATCTGATCCCGTGAGCAAATATATGCCTGAAATTAAAAATCCAGCTTTTGACCAAATAAAACTTTACAATCTGGGAACGCATACAGCAGGTGGATTTACATTGCAGTTACCTGATGAGATTACCAATAATGAACAACTCATTCATTACTATAATACATGGCAGCCTGATTATCAGGCAGGTACCCAAAGAATATACACCAATCCGAGCATTGGTCTTTTAGGAATTATTGCCGGAAAAACATTTAAACAGCCTTTCACAAAAGCAATGACTCAAAATGTATTTGCTAAAATGGGTTTAAATAATACTTTTTATGAAGTTCCGGCCGAAAATATGAGCCAATATGCATTCGGTTACAGTAAAAATGATGAACCGATCCGTGTAAATCCCGGAGTTTTAGCAGATGAAGCTTATGGAGTAAAATCATGCACACAGGATATGATTACTTTTGTAGACGCCAATATGGGAATCGGAAACATTGACAGTAAATTATCCGCAGCCATAATGAATACGCATACCGGATATTTTAATACCATAGAAATGACACAGGACCTTATCTGGGAACAATATAATTACCCGGTAACACTGGAACAGCTTCAAAAGGGGAATTCCGCGGATATGGCTTTTAAACCCAATCCTGTGAAAGAAATTCTTCCGCATCAGAAACCGCAACTTGATGTACTCATCAATAAAACCGGAGCGACCAATGGTTTTGGAGCATATGTAATGTATGTTCCTTCAAAAAAAATAGGCATTGTAATTCTTGCCAATAAAAATTATCCTAATGCTGAAAGGATTGATATTGCATATAAAATCTTATCCTATATAGAAAAATCTGAAAAACTATAA	MQSLKNISVAVLCLSFLSACNSSKKKKASDFDHYLDTLVQPVMEKNKIPGLSIAVSINGEHTFFNYGMASKTDRIEVTNTTLFELGSVSKTFTATLASLSQVNGTLNLSDPVSKYMPEIKNPAFDQIKLYNLGTHTAGGFTLQLPDEITNNEQLIHYYNTWQPDYQAGTQRIYTNPSIGLLGIIAGKTFKQPFTKAMTQNVFAKMGLNNTFYEVPAENMSQYAFGYSKNDEPIRVNPGVLADEAYGVKSCTQDMITFVDANMGIGNIDSKLSAAIMNTHTGYFNTIEMTQDLIWEQYNYPVTLEQLQKGNSADMAFKPNPVKEILPHQKPQLDVLINKTGATNGFGAYVMYVPSKKIGIVILANKNYPNAERIDIAYKILSYIEKSEKL	PGPT0028115_378	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
BMS003_01807	1419			hypothetical protein	ATGAAAAAGGCACTCTTTATTTTCTTTCTTTATTTTTCTATACAGTCTTATTCTCAACACTATACTCCTGCAAAGCTGGATAGTATCACAACGATCTATAAAAACAGAGGAGAATATGAAAAGGTATTTCAGTACAATATTGAAGGACTCCGGTATTATAAAGAAAATAATAATCCTGAAGGAGAAGCTTTAGCCAATATTAATATCGCCAATGCACTTTCTACATTCGATGAGCACCAGAAAAGCCTTCATTATCTGGATGAAGCTAAAAAACAGCTTAAATTAATTAATAACAATGGCCTGAATGCCAGACTGTGTAATGAAATTGCAAGAAACTATGCTTTTTTAGGGCTTTATAATCAGGCTAATATTCAGCTTAATAAATCTATAGAATATCTGAAGCATGCTCCTGATACAAAAGAGAACAGAAATGCTTTGCTTTTTGTGTATATCTGGAAGTGGTCTAATTTTGAAGATTTAAAACAGCCGGACTCTATTAAGGTAATGCGAAAAAAAGGATTAAAAACTTTTCCTAATGAACCTAAGATCTATGTAAGAATTGCAGAACAGTTTTTATCCCAAAAAAAACAGCTTGATTCTGTAGAATATTACCTGAATAAAGCATATGTATTAGCCGTAAACAATAACAGTTCTCTTCACGCTTTCGGAGCTATTGCTACAAGACGGGGAAATCTGTATACGCTGAAAAAAGATTATCCAAAAGCTCTTGAATATTATCAGGAATCTTTACCCATCTATCTGAAAATAAATCGTGGTGCAGATATTATAAACACGTATAAGAAAATTTATGAAACCTATCTGGCCTTACATGATATGCCTAAAGCCAACGAATATCTGACAAAATATACTGAACTTAATGACAGCATTCAGTCCGGAGAAAGAAAAGCGGTGGCTTCTGTTGTGAATAATCTTGCTATTGAACAGGAGAAAGAAAGGAATAACCTCTACCTTATCATTGCGGCCATTACAGGTATTGCCGCAACATCTATCATTGCTGTATTTACCATCAGGAAAAGGAATAGAAACAGGGAGAAGCTGTTTGAAGAACAGGAGAAACTCATCAGTGAAAAAATAATAGAAACAGATCAACTGAAAAAGAAAGTAGATACCTCTATTAATGATTTGGCTAAAATGGCTACAGCCAATAATCCTTTTTTCATAAGCAGGTTTAAAGAAGTGTATCCTGAATTTTATGAAAAACTGACTTCACAATATCCCGAACTTACCAATCATGATATAAAATTTATTGCTTATGTAAGGCTTAATCTGACCAATAAAGAAATCGGACAATGCGGAAATGTAACCGTAAGAGCGGTTGAGACCAAGAAATACAGGCTTAAGAAGAAACTCGAATTACCCACTGACATGGACTTTGGAACCTGGGTTTCAGAATTGTAA	MKKALFIFFLYFSIQSYSQHYTPAKLDSITTIYKNRGEYEKVFQYNIEGLRYYKENNNPEGEALANINIANALSTFDEHQKSLHYLDEAKKQLKLINNNGLNARLCNEIARNYAFLGLYNQANIQLNKSIEYLKHAPDTKENRNALLFVYIWKWSNFEDLKQPDSIKVMRKKGLKTFPNEPKIYVRIAEQFLSQKKQLDSVEYYLNKAYVLAVNNNSSLHAFGAIATRRGNLYTLKKDYPKALEYYQESLPIYLKINRGADIINTYKKIYETYLALHDMPKANEYLTKYTELNDSIQSGERKAVASVVNNLAIEQEKERNNLYLIIAAITGIAATSIIAVFTIRKRNRNREKLFEEQEKLISEKIIETDQLKKKVDTSINDLAKMATANNPFFISRFKEVYPEFYEKLTSQYPELTNHDIKFIAYVRLNLTNKEIGQCGNVTVRAVETKKYRLKKKLELPTDMDFGTWVSEL				NA	NA	NA	NA	NA
BMS003_01808	2631	cphA		Cyanophycin synthetase	ATGAAAATCGAAAAGATTCAGGCACTAAGAGGTCCTAATATCTGGAGCATCAGAAGAAAAAAGCTGATACAGATGAGGTTAGACCTGGAAGAGATGGAGGATTATCCTACCAATAAAATAGAAGGTTTCCGCGAGAGGATTGAAAAATTAATTCCTTCACTGATCACCCATCGTTGCTCAGAAGGAGTAGAGGGAGGCTTTTTCCATAGAGTGGAAACAGGAACCTGGATGGGGCACGTCATTGAGCATATTGCCTTGGAAATACAGACCCTGGCCGGAATGGATGTAGGGTTTGGAAGGACCCGTGAAACAAAAACCCCGGGAGTGTATAATGTGGTATTCAATTATCTTGAAGAAAATGCAGGTATTTATGCTGCAGAAGAATCTGTGAAAATTGCCGAAGCATTAATAGAAGGGAAAGATTATGATCTGAATGCGTGTATTCACCGTTTAAAAGAAATCAGAGAACATGTACGGCTGGGTCCGTCTACCGGAAGTATTGTAGAAGAAGCTGCTTCCAGAAGAATCCCGTGGATCAGGCTGGGAACAAATTCTCTGGTTCAGCTTGGGTATGGTGTCAATCAGCAAAGATTTCAGGCTACCATTACCGGAAAAACAAGTTCTATTGCTGTAGATATTGCCTGCAATAAAGAACTGACGAAAAGAATGCTTCACGATGCTGCTATTCCGGTTCCTATAGGTGATTTGGTAATAACTGAGGAAGAACTGGATAATGTGATCAAAAAAATTGGCTATCCGATTGTTTTGAAACCTTTGGATGGAAATCACGGAAAAGGCTCTTCCATCAATGTTAATGAATGGGAAGCAGCTAAAACAGGTCTGGAACATGCCAGAAAATATTCAAGAAAAGTAATTGTTGAGAAATATATTACAGGTTACGATTTTCGTATCCTGGTTATCAATAATAAAATGGTGGCTGCGGCTAGAAGAGTTCCTGCCCATGTTGTAGGGGATGGTGAACTGAATCTTCAACAGCTTATTGAAAAAGAAAATCAAGATCCAAGAAGAGGATATGGCCATGAAAATGTCCTTACTGAAATTGAAGTTGATAAAGATACACTGGAATTGCTTGATAAACTTCAGTACACCCTGGAAACAATTCCTCAAAGGGGAGAAGTAGTCTACCTGAAGTCAACGGCAAATCTTTCAACCGGAGGAACTTCCATTGATGTAACCGATATGGTGCATCCGGAAAATATAACCATGGCTGAAAGAATTTCAAAAATTATCGGATTAGATGTATGTGGTATTGATGTGATGGCGGAGAATCTTACCCAGCCTTTAAAGGAGAGCGGCGGAGCTATTATTGAAGTAAATGCGGCGCCGGGATTCAGAATGCACCTTGCTCCAAGCGAAGGATTACCGAGAAACGTTGCCGCGCCTGTCGTAGATATGCTTTATCCGCAAGGAAAACCTTTTACGATCCCAATTATTGCGGTAACGGGAACTAATGGGAAAACAACCACTACGAGACTTATCTCACATATTGTAAAAAGCAATGGGTATAGAGTAGGGTTTACCACTTCAGATGGGATTTATATTCAAAATACCATGCTGTCAAAAGGAGATACTACAGGACCTATTTCTGCAGAGTTTATCCTGAAAGATCCTACAGTAGAATTTGCTGTTCTGGAAACCGCCAGAGGAGGAATTCTACGTTCGGGACTTGGCTTTTCACAATGTGATATCGGAGTCTTAACCAATATTGAAGAAGATCATCTGGGAATGAATGATATCCATACTCTGAAAGATCTTACGAGGGTAAAGCGTGTTGTACTGGACAGCGTGAAGAAAAGCGGATGGAGCATACTGAATGCTGATAATGAATATTCTATGAAGATTGTAAACGATCTTGATTCTAATGTTGCAATCTTCAGTATGGATGAAACTAACCCTCACATTGTAAAATTTGCAAAAGAAGGGAAAATCACCTGTGTCTATGAAGAAGGTTTTGTGACCATTAAGAAAGGCGACTGGAAGATTAGAATAGGAAAAGCCAAGGATTTCCCTATTACCATGGAAGGGAAGGCCAGATTCATGATTGAAAATGTATTGGCAGCAAGTTTAGCAAGTTACCTTTATGGATTTGGGATTGAAGATATTTCCAATTCTTTAAGGACCTTTATTCCAAGTGCTCAGCTTACACCCGGAAGACTGAATGTTTTTAAATTTAAAAACTTTAAAGTTCTGATTGACTTCGCTCATAATCCTTCAGGATACGAAGCCATTGAAGATTATCTGAAAAATGTAGAATCTACAAAGAAAATCGGGATTATTTCCGGAGTTGGAGACCGAAGAGATAACGATATCAGAGAATGTGGAAAGATTGCAGGAAGAATGTTTGATCATATCATCATTCGAAACGAAAAACATCTTCGCGGAAGAACCGAAGAAGAGATCAACGGATTGATTATCGAAGGGATGCAGTCTGCCGGAAAAGATGTGAGCTATGAGATCATTCCTAAAGAAATAGAAGCACTGAAGCATGCTATGGGAATGGCAGAAGAAGGAACGTTTATCACAGCTCTGAGTGATGTTATTTCCAATGCAATTGATCTGGTACAGGAATATCAGGCGAGAGAACTATTGGAGGACGATAAAAACGGCTAA	MKIEKIQALRGPNIWSIRRKKLIQMRLDLEEMEDYPTNKIEGFRERIEKLIPSLITHRCSEGVEGGFFHRVETGTWMGHVIEHIALEIQTLAGMDVGFGRTRETKTPGVYNVVFNYLEENAGIYAAEESVKIAEALIEGKDYDLNACIHRLKEIREHVRLGPSTGSIVEEAASRRIPWIRLGTNSLVQLGYGVNQQRFQATITGKTSSIAVDIACNKELTKRMLHDAAIPVPIGDLVITEEELDNVIKKIGYPIVLKPLDGNHGKGSSINVNEWEAAKTGLEHARKYSRKVIVEKYITGYDFRILVINNKMVAAARRVPAHVVGDGELNLQQLIEKENQDPRRGYGHENVLTEIEVDKDTLELLDKLQYTLETIPQRGEVVYLKSTANLSTGGTSIDVTDMVHPENITMAERISKIIGLDVCGIDVMAENLTQPLKESGGAIIEVNAAPGFRMHLAPSEGLPRNVAAPVVDMLYPQGKPFTIPIIAVTGTNGKTTTTRLISHIVKSNGYRVGFTTSDGIYIQNTMLSKGDTTGPISAEFILKDPTVEFAVLETARGGILRSGLGFSQCDIGVLTNIEEDHLGMNDIHTLKDLTRVKRVVLDSVKKSGWSILNADNEYSMKIVNDLDSNVAIFSMDETNPHIVKFAKEGKITCVYEEGFVTIKKGDWKIRIGKAKDFPITMEGKARFMIENVLAASLASYLYGFGIEDISNSLRTFIPSAQLTPGRLNVFKFKNFKVLIDFAHNPSGYEAIEDYLKNVESTKKIGIISGVGDRRDNDIRECGKIAGRMFDHIIIRNEKHLRGRTEEEINGLIIEGMQSAGKDVSYEIIPKEIEALKHAMGMAEEGTFITALSDVISNAIDLVQEYQARELLEDDKNG				NA	NA	NA	NA	NA
BMS003_01809	891			hypothetical protein	ATGACGAAACCTGTTGGAAAATTAATAATTATTGGTGGAGCTGTAAACAAAGGAAGTTTTGCCGAGACCGATTATGATCAAAATATTGAAAAAAACCTTAATTTTTTTGAACGCGGAATCTTAAGAAAGATCATCAATGAATCAAAATTTAAGGAGAATTCTGTGATTGAAATCGTCACTACAGCTTCTCAAATTCCTCAGATTGTAGGCTCTGAATACAAAAAGGCCTTTGAGTTTCTTGGTGCTAAAAATGTAAATGTTCTTGATATCCACAACCGAGAAGAAGCCAATTCTGATGCAATGGTGGCAAGAGCCAATGCTGCGGATGTCATGATGTTCACCGGAGGAGACCAGCTGAGACTGACTTCTATTCTCGGAGGAACAAGATTTCACGATACTGTTTTATTAAAATACCAGGAACAGGATTTTATTTATTCGGGAACTTCTGCGGGTGCTGCCGCTGCTTCTGAAAACATGATCTACCAGGGGAGCAGTTCTGAAGCCCTATTGAAAGGAGAAATAAAAACCACTCAGGGACTGGGATTAATAGACAATGTTATTATTGACACCCATTTTGTACAGCGAGGGAGAATCGGGCGTCTTTTCCAGGCAGTTGTAAGCAATCCCAGAACTTTGGGAATAGGACTGGGAGAAGATACCGGACTTTTTATTCACAATGATATAATGACAGCAGTAGGTTCTGGTCTTGTTATCTTAGTAGACGGAAGATTCATTAAAGATACCAATCTTACCAACATCAATCTTGGAGAACCTATTTCTATTGATAATTTAACAGTACATGTGATGTCTATGAATGACCATTATGATCTCACAACAAAGACATTAACAATTGAAAATTCTCAGTTTAATCCAATACCACAAGATAGGTAG	MTKPVGKLIIIGGAVNKGSFAETDYDQNIEKNLNFFERGILRKIINESKFKENSVIEIVTTASQIPQIVGSEYKKAFEFLGAKNVNVLDIHNREEANSDAMVARANAADVMMFTGGDQLRLTSILGGTRFHDTVLLKYQEQDFIYSGTSAGAAAASENMIYQGSSSEALLKGEIKTTQGLGLIDNVIIDTHFVQRGRIGRLFQAVVSNPRTLGIGLGEDTGLFIHNDIMTAVGSGLVILVDGRFIKDTNLTNINLGEPISIDNLTVHVMSMNDHYDLTTKTLTIENSQFNPIPQDR				NA	NA	NA	NA	NA
BMS003_01810	876			Isoaspartyl peptidase/L-asparaginase	ATGGAACTCCGGAACCTGAAACCTATATCTACTATGAAAATCATTATCCACGGCGGTTTTTTCTCAGAAAGCGACCAAAGCCACGAAGTAAAAACTGCTAAACAGGACTCTTTAAAACGGATTGCTCAAAAAGCTTTTGACTATCTTACAACACATTCCGCTTTTGATACCGTTGCATATGCTGTTTCATTATTGGAAGATGATCCTTTATATAATGCCGGAATCGGTTCTCAGATCCAGAGTGACGGGGTTATCCGAATGAGTGCTGCCATTATGAACGGAGACACACAAAAGCTAAGCGGTGTGATCAATATCCAGAATGTACAGAACCCTATTTTTGTTGCCAAAGATCTTATAGGGGAAGATGACAGAGTTTTAGGAGGAAATGGAGCCAAAATCTATGCTACGGAAAATGGTTTCGAGAGCTTTTCTACTGAAATTCCTCAGAGGAGAAAAGAATATGAAGCCAAACTTGCCAATGGGGGAAAAGGGACAGTAGGTTGTGTAGCGATTGATCAGGAAGGGAAACTGGCTGTTGCCACTTCCACGGGAGGAAAAGGTTTTGAGATTCCCGGAAGGATTTCAGATTCTGCCACAGTGGCTGGAAATTATGCCAATGCCTTCTGTGCGGTGAGCTGTACCGGTGTAGGCGAAGATATTGTGAGCAATGCCACTGCTGCAAAAATTGTAACGAGAGTTACAGACGGAATGAGTCTTCAGCAGGCTTTCGGCAAAACATTTGATGAACTGAAAACTATTGATGGCTTCGCAGGTGCTATTGCTATTGATAAAAATGGAAATGTTTATCATCAGGATTCTTATCCTACTATGGTTTTCGCCAGTTATGATGGTGAAATCTTCAAGGTCTTTTCTTAA	MELRNLKPISTMKIIIHGGFFSESDQSHEVKTAKQDSLKRIAQKAFDYLTTHSAFDTVAYAVSLLEDDPLYNAGIGSQIQSDGVIRMSAAIMNGDTQKLSGVINIQNVQNPIFVAKDLIGEDDRVLGGNGAKIYATENGFESFSTEIPQRRKEYEAKLANGGKGTVGCVAIDQEGKLAVATSTGGKGFEIPGRISDSATVAGNYANAFCAVSCTGVGEDIVSNATAAKIVTRVTDGMSLQQAFGKTFDELKTIDGFAGAIAIDKNGNVYHQDSYPTMVFASYDGEIFKVFS	PGPT0020180_4294	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
BMS003_01811	237			hypothetical protein	ATGGGAAACAAAGGAAAAGGCTTACTAGCTTTATTAGGTTTAGGTGCATTAGCTTATTGGAAATATAAAAATTCAAGCCCTGAGGATCAACAGGCAGTAAAGGATAAAATCAATACAGCCAAAGATAATCTTAACAAATGGGGAAATGATCTTAAAAATAAAGCCAATGATGTTGCTTCCCAGGTTCAGAATAAAGTGGAGGAAGCCAAAACAAAGGCTGAAGATTCTCTTAGCTAA	MGNKGKGLLALLGLGALAYWKYKNSSPEDQQAVKDKINTAKDNLNKWGNDLKNKANDVASQVQNKVEEAKTKAEDSLS				NA	NA	NA	NA	NA
BMS003_01812	792	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGGAAAATTACTTAGAAATAAACAAAAATTCCTGGAATGCCAAAGTAGAACCACATCTGAAATCGGATTTCTACTTTGTAGATGAATTTTTAAAAGGAAGAACATCGTTGGACTCAATAGAGCTTGAGCTTCTTGGAGATATAAAAGGGAAAACAATTCTGCATCTGCAGTGTCATTTCGGGCAGGATTCCATTTCACTGTCCAGAATGGGAGCTAAGGTTACAGGAATAGACCTTTCCGATAAAGCCATTGATGCCGCAAGAGAACTTTCACAGAAATGTGGTACTGACACAGAATTTATCTGTTCAGACGTATATGACCTACCCAATGTTCTGGATCAGAAATTTGATGTTGTTTATACAAGTTACGGTACAATAGGATGGCTTCCTGATCTTGAGAAATGGGCAGGAATTATTGGTCATTTTCTAAAACCGGCAGGAAAGTTCATTATGGCAGAATTTCATCCTGTTGTTTGGATGTTTGATGATGATTTTACAAAAGTGACTTACAATTACTTTAATGAAAAGCCTATTATAGAAACATATGAAGGAACTTATGCAGATCAGTCTGCACCTATTGTTCAGGAGTATGTCATGTGGAATCACTCTTTGGCAGAAGTTCTTGATAATTTGATAAAAAAAGATTTGCAGCTCAATACTTTTAGAGAATATGACTGGTCACCATACCCTTGCTTCAGACATGTAGAAGAGTTTGAAACAGGGAAATGGAGAATTCCTCAGTTCGGAAATAAAATACCTGTTGTCTTTGCGCTTACCGCTCAGAAAAAGTGA	MENYLEINKNSWNAKVEPHLKSDFYFVDEFLKGRTSLDSIELELLGDIKGKTILHLQCHFGQDSISLSRMGAKVTGIDLSDKAIDAARELSQKCGTDTEFICSDVYDLPNVLDQKFDVVYTSYGTIGWLPDLEKWAGIIGHFLKPAGKFIMAEFHPVVWMFDDDFTKVTYNYFNEKPIIETYEGTYADQSAPIVQEYVMWNHSLAEVLDNLIKKDLQLNTFREYDWSPYPCFRHVEEFETGKWRIPQFGNKIPVVFALTAQKK				NA	NA	NA	NA	NA
BMS003_01813	849			hypothetical protein	ATGAACAATAATTGTGCATTGTGTAGTACAGAACTAACATCCATGGATACGCTTTTGGGCGAAAATAAACTTTCGGACGGTAATATTTTGTGCAATAAATGTTTAAACAGAGTAAGTGATATCAATGATGAGTTGCTGTACAACCTTAATAAATTCAGCATTAGTGATATCCATAAAATACTGACTGAAGAAAAAAATGAAGCAGTTCAGACATTAATGGCTGTAGAACAGAATCTTCCTGTAACAATAAACACCGGTTCCCGTCAGATCTCAAAAGAAGTTTACAAGAGAAGACATCAGAAAATAAAGAACGAGCTTGAAATGCTGAATGCTAATCTTTCCGTTTTTACCAAAGGAGAAATTAAAGAACTTCCTTATCTGATATCGGAAGAAGAGCAGATCATCGCCATTACAGATGCCCAGTTTGTCAACACGTTGGCCGCAGGGATATTAGTGGCAACACCCACAAGATTAATTTCTGTATCAAAAGCAATGTTTGGAGATGCAAAAATCAATGATTATCCGAACGAAACCATCAAGGCTGTAAGCTTTGTGTCACATTCAAAGTCCCCAATTATTAAATTACACCTTGATGAAAGGGTAGTAGAGTTTGAATGTTTCATGGATAAGGAAGATGCAGAGAAATTCTATGATAAGATAAAAGCTATTTATAATAATCCACAGGAAAAACGATCAAAACAAATAGATTCGGAAAATAAACGTGTTGCAGTTTCCTCTGAAGAAATTTTTAATCAGCTGGAGAAATTAGGAAAACTGAGAGAAAAAGGAATCTTAACCGATGGAGAATTTGCAGAACAGAAAAAGAAGCTGCTGGAACAATTACAATAA	MNNNCALCSTELTSMDTLLGENKLSDGNILCNKCLNRVSDINDELLYNLNKFSISDIHKILTEEKNEAVQTLMAVEQNLPVTINTGSRQISKEVYKRRHQKIKNELEMLNANLSVFTKGEIKELPYLISEEEQIIAITDAQFVNTLAAGILVATPTRLISVSKAMFGDAKINDYPNETIKAVSFVSHSKSPIIKLHLDERVVEFECFMDKEDAEKFYDKIKAIYNNPQEKRSKQIDSENKRVAVSSEEIFNQLEKLGKLREKGILTDGEFAEQKKKLLEQLQ				NA	NA	NA	NA	NA
BMS003_01814	180			hypothetical protein	ATGAATACTATTTGCGCATTGTGTGGTACACTGCTGACAGCTAGAGACATGTCTGTGGGTAAAAATAAACTGGCTGGCGGCGGTTATTTGTGTACAAAATACTTTACTAAAGCCATTACGATCAATAGAGACTTCATCAATACTCTCGATCAGTTTTATTTGCAGAAATTACAGGAATGA	MNTICALCGTLLTARDMSVGKNKLAGGGYLCTKYFTKAITINRDFINTLDQFYLQKLQE				NA	NA	NA	NA	NA
BMS003_01815	1353	hisS	COG0124	Histidine--tRNA ligase	ATGAAGCCAAGTTTAGCAAAAGGGACGAGAGATTTTACGGCACAGGAAGTTTCCAGAAGAAAATATATCATCAATATATTGCAGAATAATTTTGAATTATTCGGGTTTCAGCCACTGGAAACACCAAGCTTTGAAAATCTTTCTACGTTGACAGGAAAATACGGAGAAGAAGGAGACCGACTGATCTTTAAGATTTTAAATTCAGGAGATTATACTTCAGATGTTAATCAGGAAGATTGGGATCATAAAAACCATCAGAAACTGACTTCTCAGATTTCAGAGAAAGCTCTTCGCTATGACCTTACCGTACCTTTTGCGAGATTCGTAGCAATGAATCATGGTAAGCTTACATTCCCGTTCAAACGTTCCCAGATCCAGCCGGTATGGAGAGCAGACAGACCTCAGAAAGGAAGATACAGAGAATTTTATCAGTGTGATGCAGATGTAGTAGGAAGTGAAAGCCTGCTACAGGAAGTAGAGCTGGTTCAGTTGTATCTGAAATCTTTTGCAGACCTGAAAGTTCCTGTAACCATTCATATGAACAACAGAAAGATTCTTTCCGGATTGGCAGAATATGCAGGAATTACGGATAAGTTAATAGACTTTACTGTAGCATTAGATAAACTGGACAAAATTGGTAAAGACGGAGTTGTAAAAGAACTTTTGGAAAGAGAAATTTCTCAGGAATCTATTGATAAGCTGGATTTCCTATTCAGCCAGTCAGACGATGCACTGGAAAATCTTCTTCAGCTGAAAGAAAAATTTGTAGGAAATGAAATAGGCCTGAAAGGAGTAGAAGAATTGGAATATGTTCTTACACAGTCTCTTAATCTTGGTGTAGATATGCAAAACCTTGTATTCAATATCACTCTGGCAAGAGGCCTGGATTACTATACAGGAGCTATCTTCGAAGTGAAGGCAGATGAAGTTGCTATGGGCTCTATAGGAGGAGGAGGCAGATATGATAACCTGACCGAAGTGTTTGGAGTGAAAAACATTCCGGGAATAGGAATTTCTTTCGGGCTAGACAGAATTTATCTGGTAATGGAAGAATTGAATCTCTTCCCTGAAGAAGCTTCTTCTAAAATAGAATATCTGTTTGCTAATTCAGGAGGAGAAGAAACAACAGAAGCATTGAAACTGATCATGCAGCTGAGAGCAAAAGGAATTTCTGCAGAGCTATATCCTGAAAATGCAAAAATCAATAAGCAGTTTACCTACGCAGAAAAGAAAGGAATAAAAAATGTAGTATTCCTGGGGGAAGAAGAACTTAAAAATAATACGGTTACTTATAAAGATATTGAAGCCGGAGAAAAGAAAACGGTTTCTTTGGAAGAGTTCCTGGGAGAATAG	MKPSLAKGTRDFTAQEVSRRKYIINILQNNFELFGFQPLETPSFENLSTLTGKYGEEGDRLIFKILNSGDYTSDVNQEDWDHKNHQKLTSQISEKALRYDLTVPFARFVAMNHGKLTFPFKRSQIQPVWRADRPQKGRYREFYQCDADVVGSESLLQEVELVQLYLKSFADLKVPVTIHMNNRKILSGLAEYAGITDKLIDFTVALDKLDKIGKDGVVKELLEREISQESIDKLDFLFSQSDDALENLLQLKEKFVGNEIGLKGVEELEYVLTQSLNLGVDMQNLVFNITLARGLDYYTGAIFEVKADEVAMGSIGGGGRYDNLTEVFGVKNIPGIGISFGLDRIYLVMEELNLFPEEASSKIEYLFANSGGEETTEALKLIMQLRAKGISAELYPENAKINKQFTYAEKKGIKNVVFLGEEELKNNTVTYKDIEAGEKKTVSLEEFLGE				NA	NA	NA	NA	NA
BMS003_01816	456	rnd		Ribonuclease D	ATGATGAGAGTAAAAGTTTTTAAAATCAGGTTACCTGAAGAGTTTCTGTATAGAGATCAGAAATCGCTGGATAATTTCCTGGAATGTAATGAAATTATAAAGGTAGAAACAGCCTTTGTAAGTGATGAAAGATATTGGTCTGTAATATTGTATTTTGAAGATTTAAAACCTGCAAAGAATACAGTAAAAGAACCAAAAGCAGCTAAATATTCTGCAGAAAATGACCTTTTGAATGCAGACGAAGAAAAAATTCTGGATGCGCTGAAGCTTTGGAGATCAGAAAAAGCCAGGGAACATAATCTCCCTACTTACTTCATCGCCAGCAATAAAGAACTGATGTCTGTAGCCAAATATAAACCTGTGAAGAAAGAAGAACTGCTGGAGATCAAAGGATTCGGGAAACACAAAATTGAAAATTACGGAGAGGAGATCCTGGAAATTCTTGAAAGTATCTGA	MMRVKVFKIRLPEEFLYRDQKSLDNFLECNEIIKVETAFVSDERYWSVILYFEDLKPAKNTVKEPKAAKYSAENDLLNADEEKILDALKLWRSEKAREHNLPTYFIASNKELMSVAKYKPVKKEELLEIKGFGKHKIENYGEEILEILESI				NA	NA	NA	NA	NA
BMS003_01817	333	ssb		Single-stranded DNA-binding protein	ATGTCACTAAGAAACAAAGTAACATTAATTGGTTACACCGGTAAAGAAGTTGAAATAGTAAATTTCGATAATGGAAATACAAAAGCAAGTGTATCCTTAGCCACAAGTGATCATTACACCAATGCCAAAGGAGAGAAAGTAGAAGAAACGCAATGGCACAATCTTATTGCATTCGGGAAGACCGCAGAAATTTTTGAAAAGTATGTGCCCAAAGGAAAAGAAATTGCCATAGAAGGAAAGCTTACTTACAGATCATATGATGATAAAGACGGAGTAAAGCGGTATATCACAGAAATTCGTGTAGATGAAATCCTGTTGTTGGGAGGAAAATAA	MSLRNKVTLIGYTGKEVEIVNFDNGNTKASVSLATSDHYTNAKGEKVEETQWHNLIAFGKTAEIFEKYVPKGKEIAIEGKLTYRSYDDKDGVKRYITEIRVDEILLLGGK				NA	NA	NA	NA	NA
BMS003_01818	363			hypothetical protein	ATGCAAAAAGAAAAACTACGTACAGTAAGAAAAATGAAAGGATATACCCAGCAGGAATTGGCTGATGTAATCCCAACTGACGTCTCCAATTATAGCAGAAAAGAAAGCGGCAGTGTATCCATAACGCAGACAGAATGGCAAAAACTTGCAAAATTTTTACAAGTTCCTGTAGAGGAAATTTATGAAGAGGAAGAAGCAAAATTCATCATCGAGAATCCGGTTTTTACTGACAATACTGGAGTCAATGTAGGTAATAATATTGCTACAACAAATATCAGTAACGAATTAAGCATAGAAATTATTAAAACAATGCAGGAATATATTGGTCTGCTGAAAGAAGAAATCAATAGGCTGAAAAAATAA	MQKEKLRTVRKMKGYTQQELADVIPTDVSNYSRKESGSVSITQTEWQKLAKFLQVPVEEIYEEEEAKFIIENPVFTDNTGVNVGNNIATTNISNELSIEIIKTMQEYIGLLKEEINRLKK				NA	NA	NA	NA	NA
BMS003_01819	1026	mmcR		Mitomycin biosynthesis 6-O-methyltransferase	ATGAAAAAGCAACCCGTCAAACCGGAATTTACTTTTAAAATGTTTGAAGTACTGGGTGGTTTATGGCTGACCGGATGTGTAAAAACTGCTGCTGAACTCAATATTGCAGATTTGCTGGTTTCTGGGCCAAAGACAATATCCCAACTTGCTGAAGAAACACAATCCTATGAAACACCTTTGTATAGGATAATGAGAGCATTAAGCGGAGCTGGGATTTTTGAAGAATCAGAAAATAAAACTTTCGCTTTGAATGATTTTGGTGCGGCTCTGCAAACCGATGTTCCGGGAACGGCAAAAAACTTTGTATTAACAATCATGAATGAACATTTTCCCGGTTACGGAGATCTTACGTATGCTGTTCGGACAGGTAAAATTCCGTTTGAGCATATTCATGGGAAAGATATTTGGGGATTTTATAAAGAATTTCCGGAAATAGGAGACAATTTTGGAAAAGGAATGACAGGAATGTCCGGGATGGAGCTGAAGGGAATTATAGAAAATTATGATTTTCAACCTTATAAGAAAATTGTAGATGTAGGGGGTGGTAATGGTGTCATGATACACACTATTCTGAACAATGCTCCCGAAAGCACCGGGATTATTTTTGATGAAGCCAATGTGATTGAAAAAACAATTAAAATGATTCCTGAAACTCTTAAAGAAAGATGTTCTGTAGCTATAGGAAACTTTTTTGAGAAAGTTCCGGAAGGAGCAGATTTATATACCATGAAATGGATTATGCATGACTGGAGTGATGATGAATGTGTAAAAATTCTCCAAAACTGCTATCATGCAATGCCTGAAGGAGCAAGATTATTGATAATAGATGCTGTTATTCCTGATGACTCATTCAACAAGCCTCATATTGCCAAGCTTCTGGATATTGTTATGCTGGCATGTCTTACCGGAAAGGAAAGATCTCTCAGCGAATTCAAAATTATTATTGAAAGATCTGGTCTGAAATTTAACAGGCTGATCCATATTGGTACAGAAGCAAAAAGCATCATTGAATGTGAAAAATCATAA	MKKQPVKPEFTFKMFEVLGGLWLTGCVKTAAELNIADLLVSGPKTISQLAEETQSYETPLYRIMRALSGAGIFEESENKTFALNDFGAALQTDVPGTAKNFVLTIMNEHFPGYGDLTYAVRTGKIPFEHIHGKDIWGFYKEFPEIGDNFGKGMTGMSGMELKGIIENYDFQPYKKIVDVGGGNGVMIHTILNNAPESTGIIFDEANVIEKTIKMIPETLKERCSVAIGNFFEKVPEGADLYTMKWIMHDWSDDECVKILQNCYHAMPEGARLLIIDAVIPDDSFNKPHIAKLLDIVMLACLTGKERSLSEFKIIIERSGLKFNRLIHIGTEAKSIIECEKS				NA	NA	NA	NA	NA
BMS003_01820	261			hypothetical protein	ATGAAAAGGAATATCAATATTCTTGAGTTTCCTCTCAATCTGAGGCCTCCAAAGAAAGAACATGAGAAAGAGCCTGGAGTTCGGAAAATTCCGGGTTGGCTCAGAAAATTTGATTTTTACAGCAGAATAAACCCTACAACCATTTTCAGGTTGGAAGCTCCTGAATATTCTATGGATTTTGACAAAGAATCAAACATCAGAAATACAGACCAGATTATGATGAAAACAGAATCTATACTCACCCATTCGCAGAAAATTTAA	MKRNINILEFPLNLRPPKKEHEKEPGVRKIPGWLRKFDFYSRINPTTIFRLEAPEYSMDFDKESNIRNTDQIMMKTESILTHSQKI	PGPT0020100_1597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
BMS003_01821	594			hypothetical protein	ATGAAGAAGACGATCAAAAGAACATTCAGAGTTTCAAAATATGTGATCTATAAAGAAACACTTGTAGATTACAAAGAACATTTCTGGTCATTTTTGGGTGCATTTTTCGGAATCGGGATCATTGCATTCATCCAGTCTCATACTGTTACAGAAACTGAGAATATCTTTCTGATCGGTTCTTTTGGGGCATCATGTGTTCTTATTTACGGTGCTATACAGAGTCCTCTGGCTCAGCCCAGAAACCTTATAGGCGGACATGTTCTTTCGGCACTGGTAGGGGTTACCGTATATCAGTTCGTTCCTGATATCATCTGGATTGCAGCACCACTGGCTGTAGCATGTTCTATTGTTCTGATGCAATATACGAAGACTTTGCATCCACCAGGCGGAGCCACCGCCCTTATTGCTGTAAGCTCTACAGGGAAGATTCCGGAGCTGGGATATTGGTATGTTCTCTCCCCTGTTCTTTCCGGATGCATTATTCTCTTGATGGTAGCCTTATTTTTTAATAATATTACACCCAACAGAAGCTATCCTACCCACAGCAGCTTTAAAAAGCTGTTGAAGAAAAGATACACCCATCACTTAAAATAA	MKKTIKRTFRVSKYVIYKETLVDYKEHFWSFLGAFFGIGIIAFIQSHTVTETENIFLIGSFGASCVLIYGAIQSPLAQPRNLIGGHVLSALVGVTVYQFVPDIIWIAAPLAVACSIVLMQYTKTLHPPGGATALIAVSSTGKIPELGYWYVLSPVLSGCIILLMVALFFNNITPNRSYPTHSSFKKLLKKRYTHHLK				NA	NA	NA	NA	NA
BMS003_01822	345			hypothetical protein	ATGAATTGTCTGGAATGTGGCGAAAAAATCATCGGAAGATCGGATAAAAAATTCTGCAACGATGCCTGCCGGAACGCCTATAATAATAAGCAGAATAAGGATTCTAACAATCTGATGCGGAATGTAAACAACAGACTCCGTAAAAATTACCGTATCCTGATGGAAATCAATACTGATGGTAAAACAAAAGTTCCAAAATCCAGATTGGATGGCTTAGGTTTTGATTTCGATTATTTTACCAACCTGAAAGTTTATAAAAACGGCTCCGAATACAAGTTTATTTATGATTACGGATATAAAATTCTGGAAGATGATTTTGTACTGATTGTAAAAAACCAGGCATAG	MNCLECGEKIIGRSDKKFCNDACRNAYNNKQNKDSNNLMRNVNNRLRKNYRILMEINTDGKTKVPKSRLDGLGFDFDYFTNLKVYKNGSEYKFIYDYGYKILEDDFVLIVKNQA				NA	NA	NA	NA	NA
BMS003_01823	906		COG1090	Epimerase family protein	ATGAAAGAAATTGTCCTGATCACAGGTGCCGGTGGCATGATCGCCAAAGAACTGGCAAAAAAAATAGGTAAAGAATATGAAATCAGGTTTCTGACGCGAAAAAAAGTGCATGATCTTGAATATGAATGGGATATCAAAAAAGGAAGTATAGATGAAACTGCCTTTGAGAATGTTTCCCACATCATTCACCTTGCGGGTGCCAATATTTCGGAAAAGCGCTGGACTTCTGAAAGAAAAAAAGAACTGATATCCAGCCGTGTAGATTCTGCAGAATTGCTTAGAGCAACTTTAAGAAAAAATAAGATAAGGCTTAAATCTTTTATTTCCGCTTCAGGAATTAATTTTTATGGCACAGAAACTTCAGAAAAAATATACACAGAAAATGATCCTCCCGGTCATGATTTTCTAAGCGGGGTTGTGATGCTATGGGAAAAAGCGGCTGATGATTTCAAAGAGCAGGATGTGGCAGAAAGAGTGGTGAAAATAAGAACGGCAGTAGTTCTTTCTGAAAAAGACGGGGCATTAAAGAAAATGACGCCACCTATTCAAAATTATATTGGGTCTCCACTGGGAACCGGTCTACAATATATGCCATGGATTCATATTGATGATATCTGTTCTGTTTATGAATTTGCTTTAAAAAATTCAACAATGGACGGCGCATATAATGCTGTATCTCCTCAACATGCTACCAATAAAGAACTAACAAAAAAAATAGCTCAAGTACTTGACAAGCCTCTATTGATGCCCAATGTTCCCGGATTTATACTGAAACTTCTATTTGGAGAACTGGCTTCGGCTATTCTGGAAGGTTCCAGGGCTTCCTCAAAGAAACTTCAGGAGGCTGGTTTTCATTTTAAATTTCCGGATCTGACCGAAGCTTTGAAAGATCTACTAAAAAAGTAA	MKEIVLITGAGGMIAKELAKKIGKEYEIRFLTRKKVHDLEYEWDIKKGSIDETAFENVSHIIHLAGANISEKRWTSERKKELISSRVDSAELLRATLRKNKIRLKSFISASGINFYGTETSEKIYTENDPPGHDFLSGVVMLWEKAADDFKEQDVAERVVKIRTAVVLSEKDGALKKMTPPIQNYIGSPLGTGLQYMPWIHIDDICSVYEFALKNSTMDGAYNAVSPQHATNKELTKKIAQVLDKPLLMPNVPGFILKLLFGELASAILEGSRASSKKLQEAGFHFKFPDLTEALKDLLKK	PGPT0014730_1768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
BMS003_01824	582	nudK		GDP-mannose pyrophosphatase NudK	ATGAAAAACCCCAATATAACTCTATTAAACACAGAAATTCTTTCAGACAACTGGTATACCTTAAACAAAGTCACTTATTCTGTTCTGAAAAAGGACGGAACCACAGAAACCCAAAGCAGAGAAGCCTACGACCGTGGAAATGGTGCTGTAATCCTCCTTTACAACACGACTTCAAACACAGTAATCCTTACCAGACAATTCCGCTTACCAACCTACATTAACGGAAATCCTACAGGGATGCTTATAGAAGCCTGTGCCGGACTTTTGGATAATGATAATCCGGAAGATTGCATAAAAAGGGAAACAGAAGAAGAGACCGGATATAAAATCTCCAGGGTTGAAAAGGTATTTGAAGCCTATATGTCACCTGGTTCTGTAACGGAAATTCTTTATTTCTTTATTGCAGAATATTCCAGTGAAATGAAAATCAATGACGGCGGCGGGCTGGAAGAAGAGGGAGAAAATATTGAAGTTCTGGAACTCTCTTTTGAGGACAGTCTGAAAATGATTGACACAGGAGAAATAAAAGATGCGAAAACCATAATGCTTCTGCAACATTTGAGGATCAAAGGAATTATGTAA	MKNPNITLLNTEILSDNWYTLNKVTYSVLKKDGTTETQSREAYDRGNGAVILLYNTTSNTVILTRQFRLPTYINGNPTGMLIEACAGLLDNDNPEDCIKRETEEETGYKISRVEKVFEAYMSPGSVTEILYFFIAEYSSEMKINDGGGLEEEGENIEVLELSFEDSLKMIDTGEIKDAKTIMLLQHLRIKGIM	PGPT0017890_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017890-nudK-K12945	NA	NA
BMS003_01825	753			hypothetical protein	ATGATTGGGCTTAGTCTGGCCTTATCCATTACTATATGGGGGCAAAAAGCTCCTGCTAAAGCAAATAATCTGACCCCTTACAGCTATCAGACTTTCAATTGTGACAATCAAGGATATTTTGATCCGGCTAAATATAAAAAAGAAGAAATAGACGGGGTTAATAAACTTTTGTACCAGTTCAATGGGGTTGTTTTTGATACCAAACCTGTTTTTAAGCTTTCCCAGCTTGAAGAAATCCGTAAAAACAGAGAAACTTATTTGCAGGAACTTGAAAAGCAGTATGAAGAAAAGAAAAAGGAGCTCTATAGCCTTAAAGTAATAGATCTGCCCCAATGGAAAAAACTTCACCAAAAAACTATTGATTCTTTTGAGAATGAATACCAGCTGAACAAAGAAGAAATCATCGCTTATTCTGATCCTTCCACACTCAGAAACAGTAAATATTACAGTACCTGCAGAGAACAGATTGATGTAATATCTTCGCCAGACAGAGAAAAAATGTTTGCTGCCTGGAAGAACTATATCGAGCTTAAAAGTAAAAATAATGCAGACCCAAAAGGAGTAATGGCAAGATTTGAAGCTAAAATGAATGACCCGCAAAGAGAAGATTATGCACTGATAGATATGATTGGCCTTGGTTTTCATAACTGTGCCAACAGCAGCTTCAGACAAAAGCGCGATGATGAAGGAACAACTTACAAAGATTTTGATAAGATTTTCACGAAACTGAAAAGAACTTGTGATGAGCCATAG	MIGLSLALSITIWGQKAPAKANNLTPYSYQTFNCDNQGYFDPAKYKKEEIDGVNKLLYQFNGVVFDTKPVFKLSQLEEIRKNRETYLQELEKQYEEKKKELYSLKVIDLPQWKKLHQKTIDSFENEYQLNKEEIIAYSDPSTLRNSKYYSTCREQIDVISSPDREKMFAAWKNYIELKSKNNADPKGVMARFEAKMNDPQREDYALIDMIGLGFHNCANSSFRQKRDDEGTTYKDFDKIFTKLKRTCDEP				NA	NA	NA	NA	NA
BMS003_01826	447	dnaJ_2		Chaperone protein DnaJ	ATGAAAAAAATTGGTGAGCACAGAACGCTTCTTGGAGTAGATAAAAATGTTACTTTAAAAGAATTAAAGACCATTTACAGAAATGTGATGAAAGATACCCATCCTGATAAATTCATTAATGATGAAGCGGGAAAACAGGAAGCAGAAGAAAAAAGCAAATCTGTAATTGAAGCCTATCATTTTCTGGTAAGTATCAATCCTGAAACTCAGGAAAAATATAAAGAAGAATATACGGAAACCATTACAAAATCTAATATCCAGGATTTTTATCTGGAGAAATCAATTTTAACGGTTCAGCACCTGAACGGAAATATGTATGAGTATATGGGTGTTCCTAAAAACACTTATATCAAAATGATCAACGCCGATTCACCAAGCCGTTTTGCAAGAAGACACATCTATGGAAATTTTGTCTACAGAAAGTCCGGAGAGGCTATGGCAAATTAA	MKKIGEHRTLLGVDKNVTLKELKTIYRNVMKDTHPDKFINDEAGKQEAEEKSKSVIEAYHFLVSINPETQEKYKEEYTETITKSNIQDFYLEKSILTVQHLNGNMYEYMGVPKNTYIKMINADSPSRFARRHIYGNFVYRKSGEAMAN				NA	NA	NA	NA	NA
BMS003_01827	558			hypothetical protein	ATGTTAAAAAAAATATTTTATGTATCAGGTTTAGTTCTATTCTCAATAGTATCAGGACAGGAAGCTAAAAAAGAAACTGAAACTGTTAAAACTAAAATGGATGTTTTTGCATCAAAAACCGGAAGTATTACCAAATTTATTGATACAAAACTCCCTTATTTAAAAGCCTCTTTTGGATCTGCAGAAACAAGAATCCGAAAAATTTCAAACGGAACAGCTTCGGCTTATTTTTACCAGATTTCCAAAGAAGGGAAATACAGCAATACAACAGCTTCTATCGAGTATACTGATTTAACTGAAGTTTTAAAAGCATTAAAAGTGCTTCAAAATGAAGCTAATAATGATATTTTGTCCAATCCAGACTATCTAGAAAATAAGTTTGTTACAGTAGATGGCTTTCAGGCTGGATATTATATAGATAAGGGTAACGTGCATTGGTATGTGAGACTTGAAAAATATGGTTCTGATGCCACATTATTTATTGATAAATATGAGACTATTGAAATGGCTTTCAGTGAAGCTAAAAATAAAATAGACAGCCTTAAGGGAATAAAATAA	MLKKIFYVSGLVLFSIVSGQEAKKETETVKTKMDVFASKTGSITKFIDTKLPYLKASFGSAETRIRKISNGTASAYFYQISKEGKYSNTTASIEYTDLTEVLKALKVLQNEANNDILSNPDYLENKFVTVDGFQAGYYIDKGNVHWYVRLEKYGSDATLFIDKYETIEMAFSEAKNKIDSLKGIK				NA	NA	NA	NA	NA
BMS003_01828	3189	mdtC_2		Multidrug resistance protein MdtC	ATGAAGTTAGCAGAAATATCCATTAAAAGACCCTCGTTAGTAATTGTATTATTTACAATTCTGACGCTGGGAGGTATCCTGAGTTATACACTCATGGGATACGAATTGATTCCGAAGTTTGAGACCAACATGGTAACCATTTCTACGGTATATCCGGGAGCTTCCCCAGCAGAGGTGGAAACATCCGTTACCCGAAAGATTGAAGATGCCGTAGGTTCTCTGGAAAACGTAAAGAAAGTAGAATCTTCTTCATATGAAAGTTTATCCGTAATCATGGTTCAGCTGAACGATGGTGCTGATGTAGACTATGCCCTGAATGATGCCCAAAGAAAGGTAAATGCAATCCTTGCAGACCTTCCGGACGATGTGAAAGCACCCTCTCTGAACAAGTTCTCTTTAGATGACCTGCCAATCATTACGATGAGTATTTCATCTGATAAACTAAACAGTAAAGATCTTTACGACTTACTGGATAAAAAGATTGAACCTATTTTCTCCCGTGTAAACGGTGTGGCTCAGGTAGACCTTGTAGGTGGACAGGAGAGAGAAATTCAGGTGAATCTTGATGAGAAAAAACTGCAGGGGTACGGGCTTTCTATCGGAGACGTACAACAGGCAATCCTTTCATCAAACCTTGATTTCCCTACAGGAAGTCTGAAAACGAGAACTTCAAAATCTACGATCAGACTTTCAGGAAAATATAAGTCTATTGAAGAAATGAACAATCTTGTAGTTTCCAATAAAGATGGAGCTCAGGTACGTTTATCTGATATTGCAACTGTTTTTGACTCTCAGAAAGATGTGGAAAAGGTAGCAAGATTCAACCAGTTCCCTACCATTTTGATGCAGGTTAAAAAACAATCTGATGCCAATGCGGTATCAGTATCTGAAAGTGTTCAGAAAACCATTAATACAGTAGAAGAAGCCTATAAAGTACAGGGAGTAAAAGTAAAAATCGTAAACGATACTACAGAATTCACCCTTGAATCAGCCAACCACGTTATTTTCGACTTATTCTTAGCGATTATTCTCGTGGCCATTGTGATGTTATTATTCCTTCACAGTATCAGAAACGCATTTATCGTAATGGTTTCTATCCCGGCATCACTGGTGGCAGCGTTCATCGGAATGAACCTGATGGGATATACTTTGAACCTGATGAGTTTACTGGGGTTATCCCTTGTGGTAGGGATCCTGGTAGATGATGCGATTGTAGTACTGGAAAACATTTACCGTCACATGGAGATGGGTAAAAGTAAGATCAGAGCAGCTTATGACGGAGCTTCAGAGATCGGGTTTACCGTTGCTGCAATTACATTGGTAATTGTAGTGGTATTCTTACCGATTGCGATGAGTTCAGGTCTTGTAGCAAACATTTTGGCTCAGTTCTGCGTCACGGTAGTTATTGCAACCCTATTATCATTATTAGCTTCATTTACCATCATCCCTTGGTTATCATCAAGATTCGGTAAACTGGAACATTTGACAGGTAAAAACTGGTTCGAGAAATTCATTCTTTGGTTTGAAGGATTAATTGACAAGTTTACACACTGGATCACAGATATTCTTGAATGGTGTCTGAAAACAACATTGAGAAGAATATCAACTGTAGTGATCACGTTTATTGTTTTATTGAGTTCATTCATGCTGGTAGCATTCGGATTCATCGGAGGAGAGTTCTTCCCGCCAATTGACCGTGGCCAGTTCCTGGTACAAATGGAATTGTCAAAAGATGCAACCGTTGAAAAAACGAACCAGATAACACTAGATGTTGAGAAGTTTTTAAGAAACGATAAAGATGTTGTAGACCTTATTACAACAGTAGGACAGCAGTCTACAGGTTTTGGGGGTGCTCAGGCAACCACTTACCAGTCTGAGGTTCAGGTAAACCTTACTGATAAATCTGAACGTTCTGAAAGTACGAACATCAAAGCTGCGAAAATAAAAAGACAGCTGGAAGAAAAATTCACTGGAGTTGAATTTAAAACTGCACCAATTGGTATTATGGGAGCTGAAAATGCTCCGATTGAAATGGTTGTAACAGGACCTGATAATGAAACAGCAGTAAAAGAGGCAACAAGAATCTTAGAATTGCTGAAAAAAGTACCCGGAGCTGTAGATGCAGAATTGTCAACGGATACTGGTAGCCCGGAAGTTCAGGTAAGCATCGACAGAGATAAAATGGCTTCTCTAGGCTTAAACCTTTCAAGTGTAGGACAGACCATGCAGACTGCATTCAACGGAAATACAGACGGAAAATTCAGAGCGGGAGAATATGAATATGATATCAATATCCGGTTCGGAGATGTCAACAGACAATCTATTGATGATGTTAAAAACCTTATGTTTACAAACCCTCAGGGGCAGCAGGTTCGTCTAAGCCAGTTTGCTGATGTAAAAATGGGTTCAGGGCCAAGCTTACTTGAGCGTAGAGATAAATCTCCTTCTGTAAAAGTAAGAGCTAAAGCAGTAGGTAGACCGGTAGGGGATGTTGCCAACGAATGGGCAGATCAGTTCATGAAGAGCAACAAAAAACCAATAGGTGTAGATTATATCTGGAGTGGAGATATGGAAAACCAGCAGGAAGGTTTCGGTACGTTAGGAATCGCCTTATTAGCGGCTATCGTATTGGTATACCTGGTGATGGTTTCACTATATGACAGTTTTGTGTATCCGTTCGTAGTATTATTCTCTATTCCGTTAGCAATGATCGGGGTAATGGTAATTCTAGCTTTAACGGCCAATTCACTGAATATCTTCACCATGTTAGGGATGATCATGTTGATTGGTCTTGTAGCGAAAAATGCGATCCTTATCGTTGACTTTACGAATGCAAGAAAAGAAGCAGGAGCCAGCACTCACGATGCTTTGGTACAGGCTAACCACGCCCGTCTTCGTCCGATCCTGATGACTACCATTGCGATGATCTTCGGTATGTTACCAATCGCATTGGCAACAGGTGCCGGAGCTGAGATGAACAAAGGTCTTGCATGGGTAGTAATTGGTGGATTGACATCATCACTATTCCTTACATTGATCATTGTACCGGTAGTATACTCACTATTTGACTCTCTTTTAAGAAGAATGGGGCAACATAAAAAAGTAGACTATGAAGCTGAAATGAAAGCAGATTACGTACACAGAGAACTGAATGAAGACGGATTTACGCCTAAGCATTTAGATAAATAA	MKLAEISIKRPSLVIVLFTILTLGGILSYTLMGYELIPKFETNMVTISTVYPGASPAEVETSVTRKIEDAVGSLENVKKVESSSYESLSVIMVQLNDGADVDYALNDAQRKVNAILADLPDDVKAPSLNKFSLDDLPIITMSISSDKLNSKDLYDLLDKKIEPIFSRVNGVAQVDLVGGQEREIQVNLDEKKLQGYGLSIGDVQQAILSSNLDFPTGSLKTRTSKSTIRLSGKYKSIEEMNNLVVSNKDGAQVRLSDIATVFDSQKDVEKVARFNQFPTILMQVKKQSDANAVSVSESVQKTINTVEEAYKVQGVKVKIVNDTTEFTLESANHVIFDLFLAIILVAIVMLLFLHSIRNAFIVMVSIPASLVAAFIGMNLMGYTLNLMSLLGLSLVVGILVDDAIVVLENIYRHMEMGKSKIRAAYDGASEIGFTVAAITLVIVVVFLPIAMSSGLVANILAQFCVTVVIATLLSLLASFTIIPWLSSRFGKLEHLTGKNWFEKFILWFEGLIDKFTHWITDILEWCLKTTLRRISTVVITFIVLLSSFMLVAFGFIGGEFFPPIDRGQFLVQMELSKDATVEKTNQITLDVEKFLRNDKDVVDLITTVGQQSTGFGGAQATTYQSEVQVNLTDKSERSESTNIKAAKIKRQLEEKFTGVEFKTAPIGIMGAENAPIEMVVTGPDNETAVKEATRILELLKKVPGAVDAELSTDTGSPEVQVSIDRDKMASLGLNLSSVGQTMQTAFNGNTDGKFRAGEYEYDINIRFGDVNRQSIDDVKNLMFTNPQGQQVRLSQFADVKMGSGPSLLERRDKSPSVKVRAKAVGRPVGDVANEWADQFMKSNKKPIGVDYIWSGDMENQQEGFGTLGIALLAAIVLVYLVMVSLYDSFVYPFVVLFSIPLAMIGVMVILALTANSLNIFTMLGMIMLIGLVAKNAILIVDFTNARKEAGASTHDALVQANHARLRPILMTTIAMIFGMLPIALATGAGAEMNKGLAWVVIGGLTSSLFLTLIIVPVVYSLFDSLLRRMGQHKKVDYEAEMKADYVHRELNEDGFTPKHLDK	PGPT0016195_750	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
BMS003_01829	1062	mexA_1		Multidrug resistance protein MexA	ATGAAAAAAACTTTAATATATATCATCGTAGCAGCTGTACTGGTAGGTTTAGCCGCTTACAAGATTGCCGGTAACAAAGAAAAACAGACTCAGCAAGTAAAAGAAGTTGCCAAGCAGGTAGATAAAATCAATGTAAATATTGTAACTGTAAAAAGAGAAAATATTGATACAGACTACTCAGCCAACGGGACTTTCATTCCTAAGCAGGAAATGAATCAGTCTTCTGAAATCTCAGGACGTATCGTCAATGTTTTGGTAAAGGAAGGTTCAAGAGTAGGAGCAGGACAGGTTTTAGCAACTATTAAAAGAGATGCTATTGAAGTAGATGTTACTCAGGCGCAGAATAATCTTCAGAATGCGATCATGGACAACCAACGCTATGAAAACGCATACAAAACAGGTGGAGTTACAAAGCAGCAGCTTGATAACTCAAGGCTACAGCTGAAAAATATGCAGGCAGCAGTGAAGGCACAAAGCGTAAAAGTAAATGATACAAGCATCCGTGCGGGAATCAGTGGTACCATTAACAAAAAAATGGTTGAGCCGGGAACCGTAGTTTCTCCGGGAACATCAATGTTTGAAATCGTTAATATCAACAGTCTGAAACTTTCTGTTTTAGTAGATGAAAGCCAGATCGGGAAAATCCAGTTAGGTCAGGAAGTTCCGATTAAAGTAAACGTATTACCTGAAGACTCTTTCGTAGGTCGAATTACTTTCATTGCTCCTAAAAGTGATGCCTCTTTGAACTTCCCGGTTGAAATTGAAGTGCAGAACAGAGGAAACCTGAAAGCAGGTATGTATGCAACCGCTAAATTCAGTACCAACAACGGTGCAGAAACTCAGAATATGCTTACCGTTCCTGCAGAAGCATTTGTAAATGGTGTAAGCTCAGGGCAGTTATTCGTTGTTCAGAACGGTGTTGCTAAACTGATTAAAGTAACCATCGGAAAAGTTTACGGAGATAAAGTTCAGGTTCTAAGCGGATTGAATGGAGGAGAGCAGGTGGTAACCAGCGGACAGATCAACCTGGATAATGGATCTAAAGTGAATATTATAAAGTAG	MKKTLIYIIVAAVLVGLAAYKIAGNKEKQTQQVKEVAKQVDKINVNIVTVKRENIDTDYSANGTFIPKQEMNQSSEISGRIVNVLVKEGSRVGAGQVLATIKRDAIEVDVTQAQNNLQNAIMDNQRYENAYKTGGVTKQQLDNSRLQLKNMQAAVKAQSVKVNDTSIRAGISGTINKKMVEPGTVVSPGTSMFEIVNINSLKLSVLVDESQIGKIQLGQEVPIKVNVLPEDSFVGRITFIAPKSDASLNFPVEIEVQNRGNLKAGMYATAKFSTNNGAETQNMLTVPAEAFVNGVSSGQLFVVQNGVAKLIKVTIGKVYGDKVQVLSGLNGGEQVVTSGQINLDNGSKVNIIK	PGPT0003275_5903	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
BMS003_01830	1353	tolC	COG1538	Outer membrane protein TolC	ATGAATAGAAAACGTATAACTGCTACAAAGCTAAAAATTGGGATAGCTTCAGCATTTATGATTTTCGGCTCTACATTGATGTCTGCCCAGCAGCAGGTTTCCCTGCAGGAAGCAATAAAGCAGGCACTTCAGAATAAAGCAGAAGCTAAAAAAGCTGCTTTACAGATTAAAAAAGCCGAATATAAGATTGATGAAGCCAGAGCAGGAGCCTTACCTCAGATCAGTGCTACTGCAGGACTTACATACAATCCAATTATTCAGGAATCTTTACTGGAATTTGGAGGAGAGAAAATCAGAGCTCAGTTTGGGCAGCCTTGGGGTTCTACAGCTTCTGTACAACTTCAGCAGGCGATTTTTGATCAAAGAGTATTTACAGGACTTAAAGCGGCAAAATCAACAAGAGAGTTTTATGTACTGAATGCTCAATTAACCAATGAACAGATTATTGAGAATGTAGCAACAGCTTATTATCAGGTGTTTGTACAGGAGGAAAATCTTAAAACAGTAACCGCCAGCTATGCCAACACAGAAAAAGTAAGAAATGTTATTAAAAGTTTGGTAGATAATGGTTTGGCAAAATCAATTGATTTGGACAGGACAAATGTTCAGCTTACCAATATTGGCTCTAATAAACAGGCTTTAATCAACTCTGTTGAACTTTCAAAAAATGCCCTGAAGTTTTATATGGGAATCCCGATTTCTACAGACATCGAGCTCGAAGAAAAAGAAATCGAACCAAAACCTGAGCTGATTGCGAGCAACGTAAATCTTAATGACCGTACAGAGCTTAAAGTTTTAAATAAAAACAGGGAACTTTTGGTTTTCAATAAAAAAGCGACTGAAGCCTATCTTTATCCATCAGTAAATCTTACAGCTAACTACGGATGGGGAGCAAACGGAGCGAAATTCCCATTGACAAACGGTCTTAGTAGAGGTGTTCTTTGGAGCGACTATTCAGCAATTGGGTTGAATGTAAATATTCCTATTTTCACAGGAGGTGCTACAAAAGCGAAGATCAACCAGGCAGAAATTGATATTCAGGATCTTGATCTTGATATTGAAAATACTCAGTTGAGCTTAAGTTTAGACTATAAAAATGCAGTTACCAATATGGAAAATGCATTGATTAACCTCGAAAGCATGAAAGAAAATGTAGGATTGGCAGAAAGAGTTCAGGAAAATACTCAGTCGAACTATCAGTATGGATTAGCAACACTTACAGAAGTACTGGATTCTGAAAATGCTTTAACTCAGGCAAAGCAGAATTATTCTAATGCATTGTTAGATTACAAGCAGGCAGAGATCAAGCTGATAAAAGCTAAGGGTGAACTAAACACACTACAAAACTTATAA	MNRKRITATKLKIGIASAFMIFGSTLMSAQQQVSLQEAIKQALQNKAEAKKAALQIKKAEYKIDEARAGALPQISATAGLTYNPIIQESLLEFGGEKIRAQFGQPWGSTASVQLQQAIFDQRVFTGLKAAKSTREFYVLNAQLTNEQIIENVATAYYQVFVQEENLKTVTASYANTEKVRNVIKSLVDNGLAKSIDLDRTNVQLTNIGSNKQALINSVELSKNALKFYMGIPISTDIELEEKEIEPKPELIASNVNLNDRTELKVLNKNRELLVFNKKATEAYLYPSVNLTANYGWGANGAKFPLTNGLSRGVLWSDYSAIGLNVNIPIFTGGATKAKINQAEIDIQDLDLDIENTQLSLSLDYKNAVTNMENALINLESMKENVGLAERVQENTQSNYQYGLATLTEVLDSENALTQAKQNYSNALLDYKQAEIKLIKAKGELNTLQNL	PGPT0003600_2988	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
BMS003_01831	594			hypothetical protein	ATGTCAAATCAAGCAAAAAAAGACCAAACACAGGAATTGATCAAGGAGACAGCGAAGAATTTGTTCTTTGTGAAAGGAAAATTTGATGCTACTACGCAGGAGATTGCAGATGAAGCCGGAGTGAACAGAACTCTTATTAATTACTATTTCCGTTCAAGAGATAAGCTTATCCAGATCATCTTTGATGAAGCGCAGAGAGTAGAGCAGGAGAAATCGAAGATCATTCAGAATTCCGATTTACCTTTTAAAGAAAAGATGAGTCAGTTCATAGAAAGCAGTCTTTCTACGAGCCTCCAGTATCCGTATCTGGAAACGTATATCGTATCACAGATCAATAAAGGAACCTGCCATCAGAGAGAAATTGAAGAAGATATCCTGAATGATATGTACAAGGATATTGAAAAAGAAATGGAATTGGGAAATATTGAGAAAATGGCACCCGTTCAGTTTATTCTGAATATGGTTTCGCTATTGGTATTCCCAAGTGCTGTAAGACCATTATTTATGGAAAATTTATTAATTAATGATGAACAATATGATAAGATTATTTCTGAACGAAAAGAGATTATTATCAACATGTTGTTCAAAAATTAA	MSNQAKKDQTQELIKETAKNLFFVKGKFDATTQEIADEAGVNRTLINYYFRSRDKLIQIIFDEAQRVEQEKSKIIQNSDLPFKEKMSQFIESSLSTSLQYPYLETYIVSQINKGTCHQREIEEDILNDMYKDIEKEMELGNIEKMAPVQFILNMVSLLVFPSAVRPLFMENLLINDEQYDKIISERKEIIINMLFKN				NA	NA	NA	NA	NA
BMS003_01832	210			hypothetical protein	ATGACATCCGTCATGTTTTTGGATTTAAAAGTGGAATTAAAAAATTTTCCTCAGCAAAAAAATCACCAAAGAATTTCTATTGCGGAAAAATTCAGTAATAAACAATATCTCAGAGGAAAACAAAAAAAACGGGCAGAAATCTCTGCCCGTTTTTTATTTTATAGTAATTTGATTTTATCTTCCAGAATATCGATGATCTTATCTTTATAA	MTSVMFLDLKVELKNFPQQKNHQRISIAEKFSNKQYLRGKQKKRAEISARFLFYSNLILSSRISMILSL				NA	NA	NA	NA	NA
BMS003_01833	825	cvfB		Conserved virulence factor B	ATGCAACTCGGAAAAACTCAAACTTTAACAATTTCAGAAAAAATTAATTCAGGATGGATCCTTGTGGATGAATCCGGTGAAAAGGCTTTTCTACCTAAAATCTTTATTCAGGACGAAAAAGAAACAGGCGAAGAAGTTGAAGTTTTTGTCTATCAGGATGACGATAAATTGAAAGCAACAACAGAGATTCCATTAGCTGAAGTAGGTGAATTTGCGGTAATGAGCTGTGTACAAAGTCTTCCAAGCGGAGCTTTTATGGATTGGGGAATTATTAAAGATTTATTTATTCCCTACAAACAGCAGAAAACCAAAATTATTGAAGGAAAAAGATATCTGGTTTATATTTATGTGGATGAAGATATGGAACTCATTACGGGGACCACGAAGTTCAAGAGAAATCCTCAGTATGATGAGCTTCCGTTCAAGAAAGGTGATAAAGTAGATCTGCTTATGATGAATGAAAGTGAACTGGGTTGGAATGTTGTTATCAACAAACAATACATCGGTTTGATCTATGCTTCGGATGTTTTCAAAAAACTGTATCCGCTGTCAGAAGAGAAAGGATATATCAAAACCATACGTGAAGACGGGAAAATAGATGTCTCTTTACAGCCTGAAGGTTTTGAAAACATTGATGAGTTTAAGCAAAAGATTCTCAACAAGCTGGAAGAAAATTACGGACTTCTGTATGTGTCAGACAAATCTTCTCCTGAAGAAATTAAGGATGAACTTCAGATGAGTAAGAAAAACTTCAAAAAGGCAATAGGAGGACTTTATAAAGATAAGATCATCGATATTCTGGAAGATAAAATCAAATTACTATAA	MQLGKTQTLTISEKINSGWILVDESGEKAFLPKIFIQDEKETGEEVEVFVYQDDDKLKATTEIPLAEVGEFAVMSCVQSLPSGAFMDWGIIKDLFIPYKQQKTKIIEGKRYLVYIYVDEDMELITGTTKFKRNPQYDELPFKKGDKVDLLMMNESELGWNVVINKQYIGLIYASDVFKKLYPLSEEKGYIKTIREDGKIDVSLQPEGFENIDEFKQKILNKLEENYGLLYVSDKSSPEEIKDELQMSKKNFKKAIGGLYKDKIIDILEDKIKLL				NA	NA	NA	NA	NA
BMS003_01834	873			hypothetical protein	ATGAAAAAGATTTTTATAAGTTGGACGCTTTTGGTGGGGATCAGCTCATTGGCACAGGAAGCAGGAAAGGTAGGGGAATTATTAAAAAATGAAGCTTCTGCTACGGAGATGAGAACCTCTAAAAGCCAGGATGAAAGAAATAAAACTTTTGATCAGTCGGGATCTGGAAATACCCCCATTCCGCAAAGAAATGGAAATGGATCAGGAAATAGAATAAAAAATCCCAATTATCAGTGGGACAGAAACTATGGTTATGCAGAAGTATTTCTGAGAATTCCGGAACAGGGCTTTTTTACCGTTGAAGTAGGTGATCAGATGATAGCAAACAGTTCCGGTAAATACAGGTTTTTCGATCTGTCATCAGGAAGAATGCCTGTCTCAATCTACGAACACGGTTTTCTGATCTACAGAACAACTTTGATGCTTCGTAACAATAACAGAATGGTTTTGGACTTTTTCACCAATGAAGGTCTGTATCTGTTGGATTCTTATCCTCTTCAAAATCAGTATGGATTTAATGACTGGAACGATATCTGGAACAACCCCTACGGAAATCAGCCAGGAGGCGGATATCGCAATGGAAATGCAATGGATAATAACTCTTTCCGCCATTTTTTTGACACGATGATACAAAATGAAAGGTTTGATGATGGGAAAATCACTATGATTAATCAACAGATGCGTGTTTCAATGTTTACTTCTGCTCAAATAAGAGATTTGGTGAAAGCAATAAGTTTTGATAATAAGAAGTTGGCGCTAGCTAAATCTATATATCGTAACTGCGTAGACAAGGAGCACTACTTTATGGTGACTGATGCATTTGATTTTGAAAGCAGCAAACGTGAACTGATGGAGTATATTTCGAAATTATAA	MKKIFISWTLLVGISSLAQEAGKVGELLKNEASATEMRTSKSQDERNKTFDQSGSGNTPIPQRNGNGSGNRIKNPNYQWDRNYGYAEVFLRIPEQGFFTVEVGDQMIANSSGKYRFFDLSSGRMPVSIYEHGFLIYRTTLMLRNNNRMVLDFFTNEGLYLLDSYPLQNQYGFNDWNDIWNNPYGNQPGGGYRNGNAMDNNSFRHFFDTMIQNERFDDGKITMINQQMRVSMFTSAQIRDLVKAISFDNKKLALAKSIYRNCVDKEHYFMVTDAFDFESSKRELMEYISKL				NA	NA	NA	NA	NA
BMS003_01835	1404		COG1249	Dihydrolipoyl dehydrogenase	ATGAGTCAATTCGATGTTACCGTAATAGGTTCTGGTCCCGGTGGTTATGTTGCTGCTATCCGTGCAGCACAATTAGGTTTCAAAACAGCAATTATTGAAAAATATTCAACTTTAGGCGGAACTTGTCTTAACGTTGGATGTATTCCGTCAAAAGCGCTTCTTGACAGCTCTGAGCATTTCGAAAATGCAAAACACAATTTTGCAGGCCACGGAATTATCATCAATGAGCCGCAGGCAGATATCGCTAGAATGATTGAGCGTAAAAACGAGGTGATCAAACAAAATACAGATGGAATCAGCTACCTGATGAACAAAAATAAGATTACTGTTTTTGAAGGAGTAGGAAGCTTCGAATCTGCTACTCAGATTAAAGTTACGAAAAATGATGGTTCTTCTGAAATGATAGAATCTAAATATACAATCATTGCCACAGGTTCTAAACCATCTACACTGCCTTTCATCTCTTTGGATAAAGAAAGGGTAATTACTTCTACGGAAGCTTTGAACCTTAAAGAAATTCCTAAACATTTAGTCGTAATCGGAGGCGGAGTGATCGGTCTTGAGCTGGGTTCGGTATACTTAAGATTAGGAGCTCAGGTAACTGTTGTTGAATTTATGGATAAAATCATCCCTGGAATGGATGGAGCTTTAAGCAAAGAATTGACTAAAGTTCTTAAAAAACAAGGAATGAAGTTTATGCTTTCTACTGCGGTTTCTGCAGTTGAAAGAAACGGAGATACGGTAAAAATCACTGCTAAAGATAAAAAAGGTGAAGAAGTAGTTGTAGAAGGAGATTACTGTTTGGTTTCTGTAGGTAGAAAACCTTATACAGATGGTCTTGGTCTTGAAAAAGCAGGGGTAGAGCTTGATGAAAGAGGAAGAGTGAAAGTAAACGATCATTTACAGACTAATGTTGCCAATATCTATGCGATAGGTGACGTTATCAAAGGTGCTATGTTAGCTCACAAAGCTGAAGAAGAAGGAGTATTTGTTGCTGAAACTTTAGCCGGACAGAAGCCTCATATCAACTATAACCTGATTCCTGGAGTGGTTTATACATGGCCGGAAGTTGCAGGAGTTGGTAAAACTGAAGAGCAATTAAAAGAAGAAGGTGTAGCTTACAAAGTAGGATCTTTCCCAATGAGAGCGTTAGGTAGAAGCCGTGCAAGCGGTGATGTGGATGGTCTCGTTAAGATTATTGCAGACGAAAAAACAGATGAAGTTTTAGGAATGCACATCGTAGGAGCAAGAGCTGCAGACCTTATTGCTGAAGGGGTAATTGCTATGGAATTCCGTGCAAGCGCCGAAGATATTGCAAGAAGTTCTCACGCTCACCCAACCTATGCAGAAGCTATCAAAGAAGCTGCATTGGATGCTACAGCAAAAAGACCTATTCATATGTAA	MSQFDVTVIGSGPGGYVAAIRAAQLGFKTAIIEKYSTLGGTCLNVGCIPSKALLDSSEHFENAKHNFAGHGIIINEPQADIARMIERKNEVIKQNTDGISYLMNKNKITVFEGVGSFESATQIKVTKNDGSSEMIESKYTIIATGSKPSTLPFISLDKERVITSTEALNLKEIPKHLVVIGGGVIGLELGSVYLRLGAQVTVVEFMDKIIPGMDGALSKELTKVLKKQGMKFMLSTAVSAVERNGDTVKITAKDKKGEEVVVEGDYCLVSVGRKPYTDGLGLEKAGVELDERGRVKVNDHLQTNVANIYAIGDVIKGAMLAHKAEEEGVFVAETLAGQKPHINYNLIPGVVYTWPEVAGVGKTEEQLKEEGVAYKVGSFPMRALGRSRASGDVDGLVKIIADEKTDEVLGMHIVGARAADLIAEGVIAMEFRASAEDIARSSHAHPTYAEAIKEAALDATAKRPIHM	PGPT0001380_5988	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
BMS003_01836	387			hypothetical protein	ATGAAACTACTTATAATTGCCGTTTTTGTACTGAATTCTGTTGCGATAATGGCTCAGCAGAAAGCGATATCAAGAAAAGAATTATTAAAAACTGCTTTTGATCAGAAGGTTACATCCACAGAAATTCAGGAAATAACAATGGCAGCAGGACAAGGTGCTCCTGAACACCTGCATCCGTGCCCCGTTGTAGGAATAATCAATTCCGGCGAAGCTGTTTTTCAGATAGAAGGGAAGGAGAAAGTGATACTTCATGAAGGAGAGGCTTTTTATGAACCTAAAAATGTTAAAATTCTTCATTTTGATAATGCATCAGCTGAAAAGCCACTTGTCTTCACTGTAATTTACCTGAAAGAAGGAAATGAAGAAAATATAAAATTCATAAAATAA	MKLLIIAVFVLNSVAIMAQQKAISRKELLKTAFDQKVTSTEIQEITMAAGQGAPEHLHPCPVVGIINSGEAVFQIEGKEKVILHEGEAFYEPKNVKILHFDNASAEKPLVFTVIYLKEGNEENIKFIK				NA	NA	NA	NA	NA
BMS003_01837	345			hypothetical protein	ATGAATAAAATTCCCAAAATAGGATGCGCCTGTGAGAAACCCGATTTCAATTACACCGAATACAGAAGTTCAGAATTAGGAATAGATCATACAAACGGAAGATATGGAGAAGTAACAATTCAGCAGTGTAAGCTGTGCCAGAGAATATGGATTCATTATTTTGTGGAATATGAAAGTTTTTCCAAATCAGGACGATGGTACAAAGGAATTGTTTCGAAAAAAGACCGCCCCCAAATCACTCCTGAAAATGCTGTGGAATATCTGGAAAGTCTTGAATGGTATGTCTGTGGTGGATCTTTTTTTGAAAGTACAGGCGAATTTGGACAAGGAAAGCTGAATGTATAA	MNKIPKIGCACEKPDFNYTEYRSSELGIDHTNGRYGEVTIQQCKLCQRIWIHYFVEYESFSKSGRWYKGIVSKKDRPQITPENAVEYLESLEWYVCGGSFFESTGEFGQGKLNV				NA	NA	NA	NA	NA
BMS003_01838	1083	pglJ_1	COG0438	N-acetylgalactosamine-N,N'-diacetylbacillosaminyl-diphospho-undecaprenol 4-alpha-N-acetylgalactosaminyltransferase	ATGATGAAAAAAATATCTGTCATATTTATTCTGCCGGATTTAGAAACCGGAGGAGCAGAAAGAATTGTTACTACCATAGCGAACCATCTTTCCCGAGATCGGTTTGAGCCCAAGATTTTGCTTTTACGTAAACAAGGCGGATACCTTAATTTTCTGAAAAAAGATGTTGAAATTATTGACATTAATACAGAAAGAATAAGACATTCATTAAGACCTATTTTAGGAGAAATATACAGAAGAAAACCCGATATTGTTTTCTCTGGTTTTGGTGAGGTGAATGCTTATCTGTCCCTGTTTATCAAGCTGTTTCCGAGAACAAAATTCATTGCCCGGGAAACCAATGTTGTAACACAGCATGTAACCCGTAAGGAGATTAAATTTTTCTATAATTTTTATAATAACTATCAGAGAATCATTGCTCAGAGTGATGATATGATGAAAGATCTTGTCGATAATTTCAATATCAAAAAGAAAAAAATTGTTAAGATCAATAATCCTGTAGACTTTGATTTTATTGAAGATAAAGTTGCATTATCTTTAAAACCGGAGTGCTTCAAATACAATTACAAAAATGTAGTGGCTATTGGAAATTTATCTTCCAGAAAAGGATTTGATAACCTGCTGAAAGTATTTTCCAGACTGAAAAATGAAAACATTATCCTTCATATTTTAGGAGACGGAAAAGACAAAGATCTTTTGCTTCAGACAAAAGATCTATTAGGATTAAAAAAAGTGATCTTTCATGGCAGGCAGGAAAATCCTTACCAATACCTGAAATATGCAGATTTATTTGTGCTTTCATCCAGATATGAAGGATTTCCCAATGTACTTCTGGAAGCCGGAGCCTGCGGAACTTATTCCCTGGCCAATAACTGTCCCGGAGGAATTAACGAAATTATCCAGCAGAATGTAAATGGCGAAGTGGCCAATATTGAAAACTATGAAGGTTTTGCTCAGCAGATAGTAAAAGTGCTCCAAAGCAATTATAACCGGGATGCTATAAAAAATTCAATTAAATCCAGATTTTCGAAGAATATTATTCTTGATAAATATGAAAAGGTTTTGCTGGATCTGGTGAAATAG	MMKKISVIFILPDLETGGAERIVTTIANHLSRDRFEPKILLLRKQGGYLNFLKKDVEIIDINTERIRHSLRPILGEIYRRKPDIVFSGFGEVNAYLSLFIKLFPRTKFIARETNVVTQHVTRKEIKFFYNFYNNYQRIIAQSDDMMKDLVDNFNIKKKKIVKINNPVDFDFIEDKVALSLKPECFKYNYKNVVAIGNLSSRKGFDNLLKVFSRLKNENIILHILGDGKDKDLLLQTKDLLGLKKVIFHGRQENPYQYLKYADLFVLSSRYEGFPNVLLEAGACGTYSLANNCPGGINEIIQQNVNGEVANIENYEGFAQQIVKVLQSNYNRDAIKNSIKSRFSKNIILDKYEKVLLDLVK				NA	NA	NA	NA	NA
BMS003_01839	2205	recQ	COG0514	ATP-dependent DNA helicase RecQ	ATGAGCGCAAAAAAAGCCAATTTATCAGGCGAATTGAAAAAGTATTTTGGGTTTTCTACATTTAAGGGCCAGCAGGAACAGATTATAGACAACCTATTGAGTGGGAAGGATATATTTGTTTTAATGCCTACAGGTGGTGGGAAATCATTATGTTACCAGCTTCCGGCACTTATTTCGGAAGGTACGGCAATAGTAGTTTCGCCCTTAATAGCGTTGATGAAAAATCAGGTAGATGCGGTGAATGGTCTTTCATCTGATGATGGAGTAGCACACGTATTGAATTCATCACTAAACAAAACGCAGACCAAACAGGTTTTTGATGATATCAAAAGCGGCAAAACCAAACTTCTGTATGTTGCTCCTGAATCATTAATTAAAGATGATTACCTGGATTTTTTGAAAGAAGTAAAAATATCCTTCTTTGCTATCGACGAGGCCCACTGTATTTCAGAGTGGGGGCATGATTTCAGACCGGAATACAGGAATCTGAAACAGATTATAGACAAAATTGCCAATGTCCCGGTGATTGCTTTAACGGCTACTGCTACTCCTAAGGTTCAGGATGATATCCAGAAGACTTTAGGAATGACTAATGCTTTGGTTTTTAAGGAAAGTTTCAACCGTCCTAATCTATATTATGAAGTATGTCCTAAAATTAATATAGATAAGGAAATCGTGAAATTTATCAATCAGCATAAAGGAAAATCAGGAATTGTATACTGCCTTAGCCGAAGAAAGGTTGAAGAATTTGCCCAGCTTTTGCAGGTAAACGGAATCAATGCGCTTCCCTATCATGCGGGTCTTGACCAGAAAGTGAGAGTGGCCAATCAGGATAAATTCCTGATGGAAGAAGTTGATGTAATTGTGGCTACCATTGCCTTTGGGATGGGAATTGATAAACCGGATGTACGCTTTGTAATTCATTACGATTTTCCGAAATCACTGGAAAGCTATTACCAGGAAACCGGAAGAGCCGGAAGAGACGGAGGAGAAGGGCACTGCCTGGCATTCTATGATCCGAAAGATATTGAAAAACTGGAGAAATTCCTGGCACAGAAACCCGTTTCTGAAAGAGAAATCGGATTACAGCTTTTAAATGAAGTCGTAGGCTATGCTGAAACTTCAATGAGCAGAAGACAGTATATTCTGTACTATTTTGGAGAAAGCTTTGACCCTGTAAACGGAGACGGCGCTAAAATGTGTGACAATTCATCCAATCCTCCAAAATTAAAAGATGCCACCGCAGACCTTAAAAAATCCCTGAAGCTGATTAATGATACCGGAGAAAAATTCAAAGCCAAAGATCTGATATCAGTTATTGTAGGAAAAGAAAATGCAGTGACTAAATCTTATAAGCTTGAACAGAGCTCTCATTTCGGTTTTGGGAAAGAAGAAAAAGATAATTACTGGAAAACAATTCTCAGACAGGCAACCGTTCAGAGTTTTTTACAAAAAGATATTGAAACGTATGGCGTTTTAAAAATTACAGAAAAAGGAAGAAATATCCTGAATGGTAAATCCAAAGATGTATTTTTAATTGCTGAAGACAGAGAATTTGATCTTACTCAGGCAAAAGCAGAAAGTGATCAGGTACAGCAGCAGGCTGGCGGAGGTCTGGATCAGAACCTTTTCAATCTGTTGAAAGAACTGAGAAAGAAAGTAGCCAAAAAACATGGAATTCCACCATATACAGTGTTTATGGATCCAAGTTTGGAGGATATGACTGTTCAATATCCCATTACGGTAGATGAAATTACCAAAATCTATGGAGTAGGCGAAGGAAAAGCTAAAAAATACGGTAAAGAATTCGCAGACTATATTAAAACATATGTAGAAAATAACAATATAGAACGTACTCAGGATATGGTTCTGAAACAGGTGGCTAATAAATCCAGCCATAAAGTTTTCATTATCCAGAGCACTGATAAAAAGATTGATCTTGAAGATATTGCGAGAGCTAAAAACCTTTCTATGGATGAACTTCTGAAAGAAATGGAAAGAATCGTATATCAGGGGACAAAGCTGAATATCGACTACTATATTGAAGATAATTTTGATGAAGACATCGTAGACGGATTTATGGAGTTCATGAACGAATCTGAAAGCGACAGTATGAAAGTGCTGCTGGACGAGTTCGGAGATGAATTGTCTGATGAAGAAGTGAGGATGCTGAGAATCAAATTCATCAGTGATGTCGCAAATTAA	MSAKKANLSGELKKYFGFSTFKGQQEQIIDNLLSGKDIFVLMPTGGGKSLCYQLPALISEGTAIVVSPLIALMKNQVDAVNGLSSDDGVAHVLNSSLNKTQTKQVFDDIKSGKTKLLYVAPESLIKDDYLDFLKEVKISFFAIDEAHCISEWGHDFRPEYRNLKQIIDKIANVPVIALTATATPKVQDDIQKTLGMTNALVFKESFNRPNLYYEVCPKINIDKEIVKFINQHKGKSGIVYCLSRRKVEEFAQLLQVNGINALPYHAGLDQKVRVANQDKFLMEEVDVIVATIAFGMGIDKPDVRFVIHYDFPKSLESYYQETGRAGRDGGEGHCLAFYDPKDIEKLEKFLAQKPVSEREIGLQLLNEVVGYAETSMSRRQYILYYFGESFDPVNGDGAKMCDNSSNPPKLKDATADLKKSLKLINDTGEKFKAKDLISVIVGKENAVTKSYKLEQSSHFGFGKEEKDNYWKTILRQATVQSFLQKDIETYGVLKITEKGRNILNGKSKDVFLIAEDREFDLTQAKAESDQVQQQAGGGLDQNLFNLLKELRKKVAKKHGIPPYTVFMDPSLEDMTVQYPITVDEITKIYGVGEGKAKKYGKEFADYIKTYVENNNIERTQDMVLKQVANKSSHKVFIIQSTDKKIDLEDIARAKNLSMDELLKEMERIVYQGTKLNIDYYIEDNFDEDIVDGFMEFMNESESDSMKVLLDEFGDELSDEEVRMLRIKFISDVAN				NA	NA	NA	NA	NA
BMS003_01840	960	kdsD	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGGATAGAACCAACATTATATCAATTGCAAAAAGCACTTTAGAAATAGAAATTTCTGAACTAGAAAAATTAAAAAACAGAATTGATGACCAATTTGCGAGGGCTGTAGAGATTATTCACTCGGCAAAAGGAAAGCTGATCGTTGTGGGAATTGGAAAATCTGCCCATGTGGGGAACAAAATTGTTGCTACACTGAATTCTACAGGTACACCTTCTCAATTTTTACATGCATCGGAAGCTATTCATGGTGATCTTGGTGTAATTCAGAAACAGGATGTTGTTTTATGCATTTCCAATTCCGGAAATTCTCCTGAAATTGCGAATCTGGTTCCTTATTTAAAAGATTATTCTTCTGCTCTTATCGGAATGACAGGAAATAAGACCAGTAAACTGGCTGAATTTTCTGAAGTTATCCTGGATACTCATGTGGATATTGAAGCCTGCCCCAATAAGCTGGCTCCTACAAGTTCTACAACTATTCAGATGGCACTGGGAGATGCTTTGGCTGTTGCGCTAATGGAGCTGAATGATTTTAAGGCTAATGATTTTGCAAAATTCCACCCGGGAGGAAGTTTAGGAAAAAACCTTACTTCCAGAGTTGAACAGTTTGTTTCTTCGCAAAAGCCACAGGTTACAGAGGAAGCATCTATCAGGGATGTTATTATTTCAATTAGCGGTTCAAGCCATGGGATTACTGTGGTAACCAATACTGATCAGATCATCGGGGTTATTACAGACGGTGATTTGAGGAGGATGCTGATGAAAGGAGAAGATATCAGTAAAGTTCTGGCTAAAGATATAATGTCTGCCCGTCCAAGAACCATTGAGAAGGATGCATTGGCTAAGGAAGCTATGAAAATTCTGAAAGAAAATAATATCGGTCAGCTTGTTGTAACAGAAAATGGAAAATATTTCGGGATTATAGATCTGCACAAACTGCTGGACGAGGGAATTAACTAA	MDRTNIISIAKSTLEIEISELEKLKNRIDDQFARAVEIIHSAKGKLIVVGIGKSAHVGNKIVATLNSTGTPSQFLHASEAIHGDLGVIQKQDVVLCISNSGNSPEIANLVPYLKDYSSALIGMTGNKTSKLAEFSEVILDTHVDIEACPNKLAPTSSTTIQMALGDALAVALMELNDFKANDFAKFHPGGSLGKNLTSRVEQFVSSQKPQVTEEASIRDVIISISGSSHGITVVTNTDQIIGVITDGDLRRMLMKGEDISKVLAKDIMSARPRTIEKDALAKEAMKILKENNIGQLVVTENGKYFGIIDLHKLLDEGIN	PGPT0023075_2670	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
BMS003_01841	828	tatC2	COG0805	Sec-independent protein translocase protein TatCy	GTGAGTGAAGGTAAAGACATGTCATTTCTTGGGCATATAGGAGAATTAAGAGGGCACCTGATCCGATCGATTATTGCTATCATAGTTGCTGCTTTTGTAGTAGGCTTTAACATCAACTGGATTATGGACCATATCTTTTTTGGACCTACCAGAAATGATTTCCCTACCTTTAGACTGGTTAATCATTTTTCAAGAATGATTTTGGGGGAAGACAGCATTCATCTGCCAAAGGACTTCCCGGTTCGTGTACAGAGGCTGTATCAGCAGTTCAATGTAATGATGGCTGTTTCTATTTTTGGTGGGATGGTAGCTGCATTTCCTTATATTGTTTGGGAACTGTGGCGTTTTATCAGCCCGGCCTTACATCCGAGAGAGAAAAAGAATTCCATTTATATCATCAATGCGGTATGGATGCTTTTCATGACCGGAGTGTTGTGTGGTTATTTTCTGATTCTTCCTTTTGCAGTTAATTTCGGAGTTATTTTTAAAATTTCAGATATTATTGTTCCGCTTTATGATTTGAGTGATTATACCACGCTATTTTTACAGGTAGTTTTGGGTATGGGGGTTATTTTCCTTTTCCCAATTCTGATCTATTTCCTTACCAGCATCGGTATTCTTACTCCTGCATTTATGAAGACCTACCGTCGCCATGCTATTGTTTTGATCATGGTAGTGGCTGCAATCATTACTCCGGCAGACGTTTTAAGTATGCTGATGGCAGCATTCCCACTTCTTATTTTGTATGAATTCAGTATTATGATGTGTACATTTACTTATAAGAAAGTACAAAAAAACAATGAAAACCTTCCTGCGGTTCAGGAATAA	MSEGKDMSFLGHIGELRGHLIRSIIAIIVAAFVVGFNINWIMDHIFFGPTRNDFPTFRLVNHFSRMILGEDSIHLPKDFPVRVQRLYQQFNVMMAVSIFGGMVAAFPYIVWELWRFISPALHPREKKNSIYIINAVWMLFMTGVLCGYFLILPFAVNFGVIFKISDIIVPLYDLSDYTTLFLQVVLGMGVIFLFPILIYFLTSIGILTPAFMKTYRRHAIVLIMVVAAIITPADVLSMLMAAFPLLILYEFSIMMCTFTYKKVQKNNENLPAVQE	PGPT0029295_1504	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
BMS003_01842	1632			hypothetical protein	ATGAAAAAGTTGTCATATACACTCTTATTGGCTTCAGGGATGGTTTTCGGGCAGTTCTTTGAAAAAGGTAAGGTTTTCACCAAACAAGATACTTTAAAAGGTTCCAATACTGAATTCAGAAATTTCTGGGATGTCAAGAAATATGATCTTTCCGTAGAGCCTGACTTCGAGCAGAAAAGTATCAAAGGAAATAATAAAATCAGCTTTGAGATCATAAAAGATGTTACCAATCCTGTTTTCCAGATTGATCTTCAGCAGCCGATGAAAGCAGATAAAGTGGAAGGTAACTTTCCGATTGCCAATTATAAGCAGGATGGAGACTTTATTTGGATTACAGCCAATAAAAAATTCAAAAAAGGAGAAAAATACACCATCAATGTTCTGTATTCCGGAAAACCTACGATTGCCAAAAACGCCCCGTGGGACGGAGGATGGGTTTTCACCAAAGATGAAAAAGGAAATCCATGGATGACTGCTGCTGATGAGGGAATAGGAGCTTCCATATGGCTTCCTACCAAAGATATCTGGAGCGATGAACCTGATAACGGAGTCATCATGAAAATTATAACTCCTAATGATCTGGTAGGTGTTGGTAACGGCAGACTCACTGATAAAAAAACAACGGGCAGCAAAACTACTTATACCTGGGAAGTTAAAAATCCGATCAACGCCTACTCCATTATCCCGAGTATAGGGAAATATGTCAATTTCAAAGATGTATTTGAGGGTGAAAAAGGAAAACTGGACCTGGATTATTGGGTAATAGACTATAATCTGGACAAGGCAAAAAAGCAGTTTCAGCAGGTAAAACCTATGCTCTCCGCATTTGAATACTGGTTTGGTTCATATCCGTTTTATGAAGATTCATACAAACTTGTAGAGTCTCCTCACCTTGGCATGGAACATCAGAGTAATGTAGCCTATGGAAACAAATATCAGAACGGCTATCTTGGAAGAGATCTTTCAGGGACGGGAGTTGGGCTAAACTGGGATTTCATTATTATTCATGAAAGCGGCCATGAGTGGTTTGCCAATAATATCACGGCAAAAGACCAGGCAGATATGTGGATCCATGAAAGTTTCACCAATTATTCCGAGACTCTTTTCACCGAAAAATTTATGGATAAAAAATCGGCTGACATCTACGTTCAGGGGATCAGGAAACTGATAGACAATGATGTTCCTATTATTGGCCAGTACGGCGTAAGAAATGAAGGCAGCGGAGATATGTATCCGAAAGGGGCCAATATGATTCATACCATAAGACAGGTAATAAATAATGATGAAAAATTCAGACAGATTCTAAGAGGATTGAATAAAGATTTTTACCATCAGACTGTTACCACTCAACAGATTGAAAATTATATTTCTTCAAAATCCGGCATTGATTTTTCTACTGTTTTTGACCAGTATCTGAGAACAACTAAGATTCCGACCTTTGAATACAGTCAAAATGGTGATACCCTGAAATTCCGGTATACGGATGTAGTAAAAAATCTTAAACTACCTTTAATCATTAATGGGGATCAAACCATCAGCCCAACGGAAGAATGGCAGACAATAAAACTTAAAAAAAACACCCCGGTAGAGCTTAACCCCAACTATTATATCAATTATACAATAATTAAATAA	MKKLSYTLLLASGMVFGQFFEKGKVFTKQDTLKGSNTEFRNFWDVKKYDLSVEPDFEQKSIKGNNKISFEIIKDVTNPVFQIDLQQPMKADKVEGNFPIANYKQDGDFIWITANKKFKKGEKYTINVLYSGKPTIAKNAPWDGGWVFTKDEKGNPWMTAADEGIGASIWLPTKDIWSDEPDNGVIMKIITPNDLVGVGNGRLTDKKTTGSKTTYTWEVKNPINAYSIIPSIGKYVNFKDVFEGEKGKLDLDYWVIDYNLDKAKKQFQQVKPMLSAFEYWFGSYPFYEDSYKLVESPHLGMEHQSNVAYGNKYQNGYLGRDLSGTGVGLNWDFIIIHESGHEWFANNITAKDQADMWIHESFTNYSETLFTEKFMDKKSADIYVQGIRKLIDNDVPIIGQYGVRNEGSGDMYPKGANMIHTIRQVINNDEKFRQILRGLNKDFYHQTVTTQQIENYISSKSGIDFSTVFDQYLRTTKIPTFEYSQNGDTLKFRYTDVVKNLKLPLIINGDQTISPTEEWQTIKLKKNTPVELNPNYYINYTIIK				NA	NA	NA	NA	NA
BMS003_01843	1857			hypothetical protein	ATGAGAAAAACAGTACTTAGTCTTGGTATTTTTGCTGCTTTTTTAGCAAATGCTCAGTCAATAAAAACAACCATTGATCTTGTCAATGTAAAAGATGATAAAGTAGCCGTTACGATGGAGTTTCCGAAAATGAAATCCAGGGATGTTAAATTTCATTTTCCCAAAACGGTTCCGGGTACTTATTCTGTAGATGACTATGGAAGATTTATAGAAGGAATTAAATTTTATGATAATAAAGGTAAAGAACTTACTTATACTAAAGTGAATGACAATACCTATTCATTGAAAAACGCACAGGGACTTTCCAAAATCTCTTATCTTGTGAATGACAGTTTTGATGACGAACTGGATACTTCAAAGCATAAAGCGGTATTTTCTCCGTCAGGAACAGATATTGAAGAAGGAAAAGTGTATATGATCAACACACACGGATTCGTTGGATATATAGATAATATGCAGGATGTTCCTTATCAGCTTGTCATTCAGAAGCCGGCAGACTTCTACGGGACAACAGCTTTGGTAGATCAGGACCAATCTGATAATACGGACACCTATACTCTTGCCAACTATGCCAAGGTAACAGATTCTCCGTTAATGTATACAAAACCGGATTATATTACCTTCAATGCAGGAGGAATGGATCTTGTACTGGGAGTATACTCTCCGACAGGAAAATACAAAGCTGCTGATTTTAAAGAGAATCTGGAAAAAATGGTTATTGCTCAGAAGAAATTTCTGGGTGACATGAATACCAATAAAAAGTATGCCATTATGCTTTATCTTTCCGGTGGTGACGGGCCTCATGTAAAAGGTTTCGGAGCACTGGAACATCATGAATCTACAAGTGTGGTTCTTCCGGAAGCAATGCCAAAAGATGCTATCGATAACACAATTACAGATGTGGTTTCCCACGAATTTTTCCATACCGTAAATCCGTTGAAAACACATTCGGAAGAGATTCATTATTTTGATTATGCAGATCCGAAAATGTCTCAGCATTTATGGATGTATGAAGGAGGAACAGAATATTTTGCCAATCTTTTCCAGATTCAGGAAGGTTTGATTAATAAAGATCAGTTCCTTGAAAGAATCGGAGAAAAAATTGCCAATTCCAAGAGCTATGATGATACCATGCCTTTTACGGTAATGAGTAAGAATGTACTGGTAGAACCTTATAAAGACCAGTACAGAAATGTTTATGAGAAAGGAGCTCTTTTGGCGATGTGTTTGGATATTGAGCTCAGAAAGCTTTCTAACGGGGAAATGGGATATCGTGATATGATCAGAAAACTGTCTCAGAGATTTGGAGAAAACAAACCTTTCAAAGATGATAAACTGATAGACGAACTGGTAACAGTAACCGGATATCCTCAGGTGAAAGACTTCTATAATAAATATATCGCAGGCAACCAGCCAACACCTTATGCACAGTATCTGAGTATGGTGGGTGTGGATATTAAAAAGCAGGAAAGCCATCCTATTTTCTGGTTTATTAAAGACCCGAACCAGACCGGTTTTGATGAAAAGACCAATGCTTTTGCTTTTGATGAGCATTCTGCCCTGTCTCCGTTTGCAAAAAGTATCGGATTCAAAATCACTGACCAGGTGCTTGCTTTAGACGGAAGAACCGTAGATATCAAAAAGGTTCAGGATTTCATTGGATATACCCAAACAATTAAAGACGGACAGGAAGTTACGGTAACTATTTTAAGAGATAATGCCGGCAAGAAAGAAAAGATGACCCTGAAAGGAAAAGCTATTCTGGATAAAATGACCCTGGAAACGCCTACATTCAAGGCAAATCCGACTCCGGAAGAACTGAAACTACAGACCCAGTGGCTTACTGGTAAAAAATAA	MRKTVLSLGIFAAFLANAQSIKTTIDLVNVKDDKVAVTMEFPKMKSRDVKFHFPKTVPGTYSVDDYGRFIEGIKFYDNKGKELTYTKVNDNTYSLKNAQGLSKISYLVNDSFDDELDTSKHKAVFSPSGTDIEEGKVYMINTHGFVGYIDNMQDVPYQLVIQKPADFYGTTALVDQDQSDNTDTYTLANYAKVTDSPLMYTKPDYITFNAGGMDLVLGVYSPTGKYKAADFKENLEKMVIAQKKFLGDMNTNKKYAIMLYLSGGDGPHVKGFGALEHHESTSVVLPEAMPKDAIDNTITDVVSHEFFHTVNPLKTHSEEIHYFDYADPKMSQHLWMYEGGTEYFANLFQIQEGLINKDQFLERIGEKIANSKSYDDTMPFTVMSKNVLVEPYKDQYRNVYEKGALLAMCLDIELRKLSNGEMGYRDMIRKLSQRFGENKPFKDDKLIDELVTVTGYPQVKDFYNKYIAGNQPTPYAQYLSMVGVDIKKQESHPIFWFIKDPNQTGFDEKTNAFAFDEHSALSPFAKSIGFKITDQVLALDGRTVDIKKVQDFIGYTQTIKDGQEVTVTILRDNAGKKEKMTLKGKAILDKMTLETPTFKANPTPEELKLQTQWLTGKK				NA	NA	NA	NA	NA
BMS003_01844	1176	sasA_6		Adaptive-response sensory-kinase SasA	TTGAGAAAATCCATATTTGCAAGACTGAACAACTGGATCATTTTTGTGGTAATGACTACTTTGGTTATCGCTATTGTAGTGGCTTCCACCTCGCTTATTAATTTTCTAAGAAAAGAGGAAATTAAAAGGATCAGCCTTCTTTCCAAAGCGATAAGAATACAGCAGGAAGTAAAGACTCCTGATACGGATGTTCTGGATCTTTTACCGGATATTCTCAATATCAATAATACGATTCCGTTTATTGTAACGGATAAATATAAAAACCCGATCCTTGATCTCGGATATTACAGAAATATTCCGGAAAGTACCATAAAAAATTCAGAAAAGCTTCAGGACCTGATCCGGAATATGGAAAAAAATTATGATCCCATTGAGATCAAAGTACCGGATGGAAATAATCAGTTTGTATACTATGATAATTCGCGTTTGCTTAATAATCTTCGGTATTCACCTTATATTTTAGGATTGTTTATTTTGCTGTATTTTGGTTTCTCTTTCTGGTTTTTCAAAACCATTAAGAAGACAGATGAGGGTTACCTCTGGGCTGGTTTGGCTAAAGAAACAGCTCATCAGATCGGAACGCCTTTATCTTCCATGATCGGATGGATAGAAATTATGAAGCTGGATAGTCCGGATTCGGAGGGAGTACATGAGATTGAAAAAGATATTGAAAGACTGAGAACCATCTCTGAAAGATTCTCTAAAATAGGTTCTGTTCCCGAATTGAATGACAGAGATTTTAATGAAACAATTCGGGAAAATTATGATTATTTAAAAACCAGAATTTCCAGAAAAGTTAATTTTACACTGCATCTTCCCAATTATACTGTTTTGGTGCCTCATAATAAAATTCTGATGAGCTGGGTGATTGAGAATCTGGTGAAAAATGCTGTAGATGCTATGAAAGGTGAAGGTGATATTACCATGTCTGTCTTTGAAAGGAATAAAAATATCCTCATTGAAGTAAAGGACAACGGAAGCGGAATGACAAAACAACAGGCAAGAAATGCTTTTAATCCAGGGTATTCTACCAAAAAAAGAGGTTGGGGATTAGGACTGTCGCTGGCCAGAAGAGTCATTCATGAATACCACAAAGGAGACATCAAAATTTCTCAGACTGAAGTAGGAAAGGGCAGTACCTTTAGAATAACAATCAGAAAAGAGGAAAATACTTAA	MRKSIFARLNNWIIFVVMTTLVIAIVVASTSLINFLRKEEIKRISLLSKAIRIQQEVKTPDTDVLDLLPDILNINNTIPFIVTDKYKNPILDLGYYRNIPESTIKNSEKLQDLIRNMEKNYDPIEIKVPDGNNQFVYYDNSRLLNNLRYSPYILGLFILLYFGFSFWFFKTIKKTDEGYLWAGLAKETAHQIGTPLSSMIGWIEIMKLDSPDSEGVHEIEKDIERLRTISERFSKIGSVPELNDRDFNETIRENYDYLKTRISRKVNFTLHLPNYTVLVPHNKILMSWVIENLVKNAVDAMKGEGDITMSVFERNKNILIEVKDNGSGMTKQQARNAFNPGYSTKKRGWGLGLSLARRVIHEYHKGDIKISQTEVGKGSTFRITIRKEENT	PGPT0025287_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025287-kinD-K13532	NA	NA
BMS003_01845	1374	dacC_2	COG2027	D-alanyl-D-alanine carboxypeptidase DacC	ATGAAAAAAACATTCACTGTTCTTGCGTTTTCTGTACAAATGGTAACGGCGCAGAATATTGCCCAAAAACTGGATAAAGCCACCAGGGATCTTATGGATTCTTCGGGGGCCATTTCTTCCGGTCTTTCATTTTATGTTTCAGACGAAAACGGTAATTTTATTTATGAATATCAGGGAAGTAAAGGCCTTTCTACAGCTTCTACACAGAAGATCTTCACTGCAGGAGCTGCATTGGAAGTCCTGGGGAAGAATTATACCTTCACCACTACCTCAAGCTATTCCGGAAATATATCAGGAGGAACGCTGAGCGGAAATCTTTTCATCAGTTCCAACGGTGATCCTACCTTGGGAAGCTGGAGATATGATACCTACAAACCTGAAAATTTCAAAAAGAAACTTATTGATGCCATTAAAAATTCAGGAATAACAAAAATATCCGGCGATCTGGTGATAGATGATTCTTATTTTGATCACCAGACCATTCCGGGAGGATGGCCCTGGGATGATCTGGGAAATTATTATGGAGCCGGAGTCTGGGGGATCAACTGGAAAGAAAATCAGTTTGATATCAATATCAACGGAGCAGATTTTAAAAGCTTTTCCTATCCGTTAGAAGGCGTAAAATGGCTGAATGATCTGAAAACCGGAGGCAGTTCTGACCAGAGTCTTATCTTCACAGCGCCTCATTCTGATGTAGCTTTGATTAACGGGATGCTTCCGGCGGGAAAAACCGTGACGGTTTCAGGATCTGTTCCTAATCCGCCACTACAGCTGGCAGTGGAAGTAAAACAGTGGCTGAAAGAGTCAGGAATTGAGCTTTCAGGGAAAGCAGTGACAAATTCACAGCTTGAAATAGAAGGAAAACAAGTACTGGAAGCTCCTAAAAATAATATTCTTCTTACTTATCAGTCGCCGACTCTGGATAAAATAGTGTATTGGTTTCTGAGAAAAAGTGTCAATATGTATGGTGAGACCCTGATTAAAGTCCTTGGAAAAGAGAAAAAGGGAAATCCGGGTTTCAAAAGCGGGGTATCTTACCTGAAAGAATTCTGGAAATCAAAAGGAATTAATCCCAATATGATCAATTTTGCTGACGGAAGCGGACTTTCTCCACAAAATTATGTGGCAGCAAAAGCAGAAGTACAGGCTCTTTTGTATGCTAAAAAACAATCCTGGTTTGAGGCATATTATGATGGGTTTCCCATTCAGCAGAACGGAATGAAAATGAAAAGCGGAACCATGAGAGATACCAAATCCTTTGCAGGATATCACACCGCAAAAGACGGGAAGAAATACGTGTTTTCGATTATTATCAACAACTATCAGGGGAGTGGAAATGCAGAGCTGCAGAAAATTCTGAATGTTTTAAAATAA	MKKTFTVLAFSVQMVTAQNIAQKLDKATRDLMDSSGAISSGLSFYVSDENGNFIYEYQGSKGLSTASTQKIFTAGAALEVLGKNYTFTTTSSYSGNISGGTLSGNLFISSNGDPTLGSWRYDTYKPENFKKKLIDAIKNSGITKISGDLVIDDSYFDHQTIPGGWPWDDLGNYYGAGVWGINWKENQFDININGADFKSFSYPLEGVKWLNDLKTGGSSDQSLIFTAPHSDVALINGMLPAGKTVTVSGSVPNPPLQLAVEVKQWLKESGIELSGKAVTNSQLEIEGKQVLEAPKNNILLTYQSPTLDKIVYWFLRKSVNMYGETLIKVLGKEKKGNPGFKSGVSYLKEFWKSKGINPNMINFADGSGLSPQNYVAAKAEVQALLYAKKQSWFEAYYDGFPIQQNGMKMKSGTMRDTKSFAGYHTAKDGKKYVFSIIINNYQGSGNAELQKILNVLK	PGPT0024035_2510	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
BMS003_01846	852			hypothetical protein	ATGGATAAAGAAGAAATAAAGCTTTTCATAGAACGGAATCTGAGTAATTTTTCAGTGAACAGTACCGGATGGAATGATTTGATCCGGAATTTGTTGTATGAATTTGCCATTGTGGGCTGGAATATGGAACATCGCGTGTTTGGCAAAGAAAAGTTTGGAGAATTGAGATGCTACACCTATTCTGAGAATGAAACCCTCAATGATGAGCTTAAAAAAATCAAGGATAAATATTCAGAACTTTCTGTCAGGACCTGTGAGATCTGTGGCAGCGAAGGAAAATTGAGAACAATAGATGCATGGCAGACCACATTATGCCTGATTCATTTTCTGGAACAGCAGCCGGTTATTGAAATTGATGCCAAACAGAATGTCAGAAGAAATAATAAGACGGTTCTGAATATAAAAAATATCATGAAAGCCGAAGTCGGATACGATCTTCAGAGATTACAGCTTTATACAGATCAAGAGGAGCCAGCTTATTTTTCCTGGCAGGAACCCAATTATTATCTGCTTTTGAGAACAATTCCTCTTTCACTTTTTCCGGAAGAAAATCAGAGTGAGATTACAACATTATTTCAAAGCTTACAGGATTGTGAAATATGTGGACATAAAGCAGTTCATCAAAGAAATTGTCTGCGCTGCCACAATGATTCCTGGAATGATTCCGGATATTTTGTTCAGGATTACGGAGAAAAATCAAACTATATAAAAGAATGTCAGATGGATATGTTCATAGATGAAGATGATTATGAGAAATATTTTAAAAATGACCGGTCTTTTGAAAAGTCTTCCGTCCATCAGATTCTTTTTAGCTCCCATGATCTCATTGAGTATAAAAAGCTTTTATTTTAA	MDKEEIKLFIERNLSNFSVNSTGWNDLIRNLLYEFAIVGWNMEHRVFGKEKFGELRCYTYSENETLNDELKKIKDKYSELSVRTCEICGSEGKLRTIDAWQTTLCLIHFLEQQPVIEIDAKQNVRRNNKTVLNIKNIMKAEVGYDLQRLQLYTDQEEPAYFSWQEPNYYLLLRTIPLSLFPEENQSEITTLFQSLQDCEICGHKAVHQRNCLRCHNDSWNDSGYFVQDYGEKSNYIKECQMDMFIDEDDYEKYFKNDRSFEKSSVHQILFSSHDLIEYKKLLF				NA	NA	NA	NA	NA
BMS003_01847	693	pepE	COG3340	Peptidase E	ATGAATATCATATTAGCTTCAACATCTACACTTTTTGGTGGAGAATATCTGGAATACTTGAGAGAAGAATTAATACAATTATATAAAGAAATTGACGAAATTGTGTTTATCCCCTTCGCAAGGCCAGGAGGAATTTCCCATGATGACTATACCGCAAAAGCACGTTCTTTCTTTGAAACCATCAATATAAAAGTAAGAGGACTTCATGAATTTGAAGATAAAAAAGAAGCACTGAACAATGCAAAAGGTTACTTTACAGGAGGCGGAAATACCTTTTTATTGGTTAAAACATTACACGAAGAAGGACTGATGTCTGTCTTAAAAGACAATGTATCAGGAGGAAAATCCTATCTTGGATGCAGTGCAGGAAGTAATATAGGAGGTCAGAATATGAAAACGACTAATGATATGCCAATCGTTTATCCGCCAAGCTTTGATTGCATGGGGCTGGTACCTTTTAATATTAATCCACATTATCTTGATCCCAACCCGGACTTGAAACATAACGGAGAAACCAGAGAAACACGGATCAGGGAATTTCTTACTCAGAATGATATGAAAGTGGTAGGTCTTAGAGAAGGAAACTGGATTAGGAGAACAGGAGAATCAATAACAGTTGAGGGAAAGGAGCTGACAAGAATTTTTGAAAAAGATAAAGAACCTTATGAAATTGAAGCAGGCAGCAAACTTTAA	MNIILASTSTLFGGEYLEYLREELIQLYKEIDEIVFIPFARPGGISHDDYTAKARSFFETINIKVRGLHEFEDKKEALNNAKGYFTGGGNTFLLVKTLHEEGLMSVLKDNVSGGKSYLGCSAGSNIGGQNMKTTNDMPIVYPPSFDCMGLVPFNINPHYLDPNPDLKHNGETRETRIREFLTQNDMKVVGLREGNWIRRTGESITVEGKELTRIFEKDKEPYEIEAGSKL				NA	NA	NA	NA	NA
BMS003_01848	543			hypothetical protein	ATGAAAATGAGCAAAATTAATAGTAAAAATCTTTTTTTAGGATTAATACTAGCGGGAAGTGTAAGTCTTGTAAATGCACAAACAACCCAGCCGGAAACATCAGCTTCCACGAGCCAGGCAACGCAGCCAACCATTGAGGATCTAAAAAAACAGATCGAAGCCAATCCGAAGGATGCAGAATCATTAGCAAAACTGGCTAATGCCTACCAGGAAGCATCAGACTGGCCTAACGCCATTGATACCTGGAAAAAAATATCGGTTTTATTACCGGACTGGGCTCCGTCTTATTACAGCCAGGCTTATGCCTATCAGTCTGCAAAAGATGACGCCAATGCAAAAATTGCCTATGAAAAGTATATTGCAACCGTAAAACCTGAAGAAGTGGAGCAAAATAAAAAAAATCTTGCATACGCTTATTTCTATCTGGCTTTTACCGAACAGCAGACGGATCCCGATAAAGCAAAAGAACATATCGCCAAGTCTATACAGTATGATCCTACCAACCAGGATGCTGTAAAGCTTAGTAAAACATTAAATTCTTAG	MKMSKINSKNLFLGLILAGSVSLVNAQTTQPETSASTSQATQPTIEDLKKQIEANPKDAESLAKLANAYQEASDWPNAIDTWKKISVLLPDWAPSYYSQAYAYQSAKDDANAKIAYEKYIATVKPEEVEQNKKNLAYAYFYLAFTEQQTDPDKAKEHIAKSIQYDPTNQDAVKLSKTLNS				NA	NA	NA	NA	NA
BMS003_01849	489			hypothetical protein	ATGAAAAACAACAGTTTCACAGCCTCATTGGAAATTATAGGGATCAATCCTTTTGTTTTTATTCCGGAAGATATTCTGGAAGAGATTTTTAATGAATCAGGGAGAAATAAAAGCCCTATTGCTGTAAAAGGAACCGTAAACGGGAAAGAATTTGAGCAAAACCTGATGAAATATCTGGGAGAATGGAGACTGTATATTAATCTGACCATGCTGAAAAATTCTCCGAAGAGGATTGGAGAAGTTATTGAAGTAGAGCTGGAATACGATAATTCAGACAGAAGTCTGTCCATTCCTCCTCAGTTGGAAAAAGCGATCAAAGAAAGCGCTCTGGCAACAAAGAATTTTGAAAATCTTACTCCTTCAAGAAGACATGAACTGATCCGATATATCAATCATTTAAAAACCGAGGCAAGTATCCGGAGAAATATTGAGAAAATAATCCGGCATCTGCATGGCGAAACCGATTTTTACGGAAAGAAGATTGAATAA	MKNNSFTASLEIIGINPFVFIPEDILEEIFNESGRNKSPIAVKGTVNGKEFEQNLMKYLGEWRLYINLTMLKNSPKRIGEVIEVELEYDNSDRSLSIPPQLEKAIKESALATKNFENLTPSRRHELIRYINHLKTEASIRRNIEKIIRHLHGETDFYGKKIE				NA	NA	NA	NA	NA
BMS003_01850	654	tal	COG0176	Transaldolase	ATGAAATTTTTTATTGACACAGCTAATTTAGAGCAAATCAAGGAAGCCAGAGATCTTGGAATTTTAGATGGAGTAACTACCAATCCAACATTAATGGCTAAGGAAGGTATTCAGGGAGCTGAAGCAATCAGAAACCACTATAAAACGATCTGTGAACTGGTAGACGGAGATATTTCTGCGGAAGTTCTTTCTACTACGTATGAAGAGATGATTAAGGAAGGAGACGAATTGGCTGCTATTCACCCAAATATCGTTGTAAAAATTCCGATGATCAAAGACGGAATCAAAGCTTTAAAATATTTTTCTGATAAGGGAATCAAAACGAACTGTACATTGATTTTCTCTCCGGGACAGGCACTTTTGGCTGCAAAAGCAGGGGCTACTTATGTTTCCCCGTTCCTGGGAAGATTAGATGATATTTCTACAGACGGTCTGAACCTTATCCAGGAGATCAGATTGATTTTTGATAATTATATGTTCGAAACTGAGATCTTAGCGGCTTCTATACGTCACTCAATGCACATCATCGACTGTGCTAAAATCGGGGCTGATGTTATTACATCTCCACTTCCTCCGATCCTGAGCTTACTGAAGCATCCTTTAACAGACAGCGGATTAGCTCAGTTTATTGCAGATTCTCAGAAATTAGCATAA	MKFFIDTANLEQIKEARDLGILDGVTTNPTLMAKEGIQGAEAIRNHYKTICELVDGDISAEVLSTTYEEMIKEGDELAAIHPNIVVKIPMIKDGIKALKYFSDKGIKTNCTLIFSPGQALLAAKAGATYVSPFLGRLDDISTDGLNLIQEIRLIFDNYMFETEILAASIRHSMHIIDCAKIGADVITSPLPPILSLLKHPLTDSGLAQFIADSQKLA	PGPT0017375_4673	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
BMS003_01851	891			hypothetical protein	ATGAAAAAAAATTATTTGCTTTTATTAGCTTTTTTAAGTGTTTTTGTGAATGCACAGGTTAACAGGTTTTTTTACGATTACAAATATATTTCCGACTCTACCAATAGAGCAGAAGTGAAAAGCGATATTATGTTTTTGGATATAGATAAAGACGGTTCCAAATATTACAGCCATGAAAAGTTTGTTTCAGACTCTACCATAAAAGCAGATATTGCCAAACAGCTGAAAGGAGGATTCGGAGGTAATATTAATATTAAAAGAAAGGCAAGACCGGGAACAATTAATAGCACGGTCACAAAAAAATATCCAGATTATACTGTTTCTTTCTCTGAAAATATAGGGAATACTGTTTATAAGATGCCGGAAGATAAAAAACCTGAATGGAAAATATTACCTGAAAAGGAGAAAATTGGAGAATATAATACTCAAAAGGCAATTACCAACTATGGAGGGAGAAGCTGGACAGCATGGTTTTCTACAGATATTCCATTTCAGGACGGACCTTATAAGTTTTATGGATTGCCGGGACTTATTGTGAAGATTGAGGATAAAACAGGATCCCATGTCATGACTTTGATTGGTAACAAAAAAACGGAAGCTGCGTCAGAAGAAAATCTTCAAATACCAGGTCTTACCACAATCGGTTTAGGAGGTAAAGAAATAGAAATCACTAAAAAGCAGTTTAAAAAAGCCTGGAAAGATTACCTGGCAGACCCTACAAAAGACATGAAACAAACCATGAGTACTCTTCCGGCAGGAGCAGTTGTGCAGATGAAAAATCAGGATGGGAAAAGTATTGATATGAATGAAGTGTATAGAGCTATTGAAAAAAGAGCAAAAGAAGAACGGTTAAAAAATAACAACAAAATAGAACCGGAACTGTATCAATAA	MKKNYLLLLAFLSVFVNAQVNRFFYDYKYISDSTNRAEVKSDIMFLDIDKDGSKYYSHEKFVSDSTIKADIAKQLKGGFGGNINIKRKARPGTINSTVTKKYPDYTVSFSENIGNTVYKMPEDKKPEWKILPEKEKIGEYNTQKAITNYGGRSWTAWFSTDIPFQDGPYKFYGLPGLIVKIEDKTGSHVMTLIGNKKTEAASEENLQIPGLTTIGLGGKEIEITKKQFKKAWKDYLADPTKDMKQTMSTLPAGAVVQMKNQDGKSIDMNEVYRAIEKRAKEERLKNNNKIEPELYQ				NA	NA	NA	NA	NA
BMS003_01852	1866			hypothetical protein	ATGGAAGCAATACTTTTATACTTTGGGAAAATTATTTTATGTTCGGGTGTAACGTTTTTGTACTATCAGTTGTCTTTAAAAGACAGGACATTCCATCATTATAACAGATTTTATCTGCTGGCAGCAATTGTAATTTCACTGTTATTACCGCTCATCAGAGTAGAAGATTTTACGATAGAGGTGAATAATGAGATGTATATGCTTCTTGACAAGATTCAGAATTTTAATACAGAAAAAAATATAAACAATGGTAACCTTTATTTTAACATTATTTTTTCAGCTCTGGGATTGGTTTCTCTCTATTTTTTAGGGAAACTGTTGTATGGGATTTTCAAAATCCAGCAGTTTAAAAACCAATTTCAGAAAGAAAGCTTTGACGGGATCAACTTTTACCGTACAGACCTTACCGAAGCTCCGTTTTCTTACTTTAAAAACCTTTTCTGGAAGAATACAATCACACTGCATTCTGATATCGGAAAACAGATTTTAAAGCATGAAATGGTACACATTGAACAGAAACATTCTTTTGATAAAATTTTTATCGAGATTATTACCTCTGTTTTCTGGTTCAATCCGTTTTTCCATCTCATTAAAAGAGAAATTAATTTAATCCACGAATATCTGGCTGATAAAAAAGCCGTAAAACAATCGGACACCAAAGCATTTGCGCAGATGCTTTTAGCAAGCCACTTTTCCGGAACACAGTTGCCTGTTACCAGTCCGTTTCTAAGTTCAAACCTCAAAAAAAGACTTAAGATGCTACAAAAACCAAAAACCAAGTTCGGATATGCGCGAAGAATTTTTGCATTACCGGTAGTATTCTCTATAGCTTTTGCTTATCTGGTAAATGCTAAAAACAGAGAAATTGAAGAAACCAATCTTTCTATAAAAAAAGTAGTTTCAGAAATCAAGAAAGATACGATAAGACCTGAAAAATCTGATCATGAAAAAATTGCAGAACTGAAAGCCGTATCACCTGAAGTCCATACAAAAATAGCTGGGCTTGAAAAGAAAATAAAAGAAAAAGAGAAAGAACTGGAAGGTCTGGATCCTGAAAGTGATTTCTTCAGTGATAAAATAGAAGAAATAAGTAATCTGGCATCAGAAATAGGAGAAATAGCCTCAAAAGTTGAAGTTGATCAGTATTTCAATTCTGCAGAATGGAAAAACCAGATGAAGGAGCTCGAAAATATGGAACCTCTTAGTAAAAAAGACCTCCGTAAAATAGAAAGAGCAGCAAAAAAAGCAGAAAGAGCCGCTGCAAAAATAGAAAACCTGCCACTTCCTCCGACACCTCCTAAAGCGCCAAAAGAACCTAAAATAACGTATTTTAAAACAAACAAAATTGTTAATTATAAAAGTTTAAGCGCTAAAGAGAAAGAAGAAATAAGTAAAGCAATGGCTGAAGCTAAAAAGGCGATGGAAGAAGTTGCTAAAGCAAGAATAGAAGGACAGAAAGCCTGGACAGAAGGAAACAGGGGCAGAGCAGAAGGCGAAAGAATCAGGATTGATGGGGAGAGAATTCGAAACGAAGTGGAAAAAGCCCGTGCAGAAGCTGAGAAAAGAGCAATCAGCTTCAGAGATGGCTCTTTTATTAAAGTAACCAGCGGATCACCTGATGTTATTGTAATGAATGCCGACTTTATCAAGAAAGATGGCAAAGGAAACATCGCAATGGATGGAGTGAAAAGGTTTAAGATAAGCGCTACTGACGATGTAAAATACAAGTATTATATTGATGGGAGAGAGGTTTCTAAAGATGATATTAATTCATTAGATACAAATAACATATCGAGAATCAATGTTAATACTCAGAAGAAAGGAGATTTTAGGCAGGGGGAAATAAAAATCGAGACAAAGAAATAA	MEAILLYFGKIILCSGVTFLYYQLSLKDRTFHHYNRFYLLAAIVISLLLPLIRVEDFTIEVNNEMYMLLDKIQNFNTEKNINNGNLYFNIIFSALGLVSLYFLGKLLYGIFKIQQFKNQFQKESFDGINFYRTDLTEAPFSYFKNLFWKNTITLHSDIGKQILKHEMVHIEQKHSFDKIFIEIITSVFWFNPFFHLIKREINLIHEYLADKKAVKQSDTKAFAQMLLASHFSGTQLPVTSPFLSSNLKKRLKMLQKPKTKFGYARRIFALPVVFSIAFAYLVNAKNREIEETNLSIKKVVSEIKKDTIRPEKSDHEKIAELKAVSPEVHTKIAGLEKKIKEKEKELEGLDPESDFFSDKIEEISNLASEIGEIASKVEVDQYFNSAEWKNQMKELENMEPLSKKDLRKIERAAKKAERAAAKIENLPLPPTPPKAPKEPKITYFKTNKIVNYKSLSAKEKEEISKAMAEAKKAMEEVAKARIEGQKAWTEGNRGRAEGERIRIDGERIRNEVEKARAEAEKRAISFRDGSFIKVTSGSPDVIVMNADFIKKDGKGNIAMDGVKRFKISATDDVKYKYYIDGREVSKDDINSLDTNNISRINVNTQKKGDFRQGEIKIETKK				NA	NA	NA	NA	NA
BMS003_01853	366			hypothetical protein	ATGAAAATTCAGACTTTAACAAAAGCAGAAGAACAGGTAATGCAGTATTTATGGAAATTAGAAAAAGGCTTCCTGAAGGATGTGCTGGATCTTTTCCCGGAACCTAAGCCGCATACCAATACTGTTTCTACCATTTTAAAAGTATTGAAGGATAAAGAATTTGTAGACTATCATGTACACGGAAGACAGCATGAGTACTTTCCGCTGGTTTCAAAAGAGCAGTACTCCGGGAAGACCATGAAGAGCCTTGTGAAAAACTATTTTAAAGGTTCTTATAAAAGTGCCGTTTCATTTCTGGTAGAAAAAAATGAAATGACGGTAGAAGACCTTGAGATGTTATTAGATGAACTCAAAAAGAAAGATTAA	MKIQTLTKAEEQVMQYLWKLEKGFLKDVLDLFPEPKPHTNTVSTILKVLKDKEFVDYHVHGRQHEYFPLVSKEQYSGKTMKSLVKNYFKGSYKSAVSFLVEKNEMTVEDLEMLLDELKKKD	PGPT0028105_1000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028105-blaI-K02171	NA	NA
BMS003_01854	960			hypothetical protein	ATGGATAGTTTTTTGAAAAAATTAAAAACAAAAAATATTCTGGTGATCGTGCTTGCAGTTTTTATTGGCATTCAGTTTTACAGACCTGAAACTGTACAAAAGCCAATTACCGGTGAGATTCATGTTCCCAGTGATGTAAGGGCAATACTTCAACGATCATGTTTCGACTGCCATTCTAATCAGACAGATTTGAAATGGTTTGATCAGATTGCTCCGGCATACTGGCTGGTAGCAGATCATATTAAAAAAGGAAAAGAAGGCCTGAACTTTTCTGAATGGGATAAGCTGGCTCCTCCTGCACAAAATGCAAAACTTTGGGAAGCCTTTAACCAAATCAATCTGAAAGCAATGCCTCTTAAAAGCTACGAATTGCTTCATCCGGAAGCTAAGCTTTCTGAAAGTGATATTCGTATCCTGAAAAACTATGTGACATCGCTTGCGCCAAAACAAAAACCGGATACAGCAAAAGTTGCTGCTTATAACGAACAACTTAAGCAAGTTAATACAACTAATACAAAAGCATCCAAGCCATCATTACTACCCACAGCACTGAATGGAATCAGCTATATTCCTGATTATAAAAACTGGAAGCCAATAAGTTCCACAGAGAGGTTTGATAATGGTACCATGCGTATCATATTCGGAAATGATATTGCTGTAAAAGCGGCGCAAAAGCATAAAACAAATCCCTGGCCAGACGGAACCATATTCGCAAAAGTAGCGTGGGAACAGATCATAGACAGTGATGGAAATGTCACTACAGGAGCTTTTAAACAGATAGAATATATGATCAAGGATTCTAAAAAATTCGCTTCAACAAAAGGATGGGGATGGGCAAGGTTTTTATCTCCCCAACTTAAACCTTACGGAAAAACAGCAGGCTTTGCCAACGAATGCATCAGCTGCCATCTTCCTATGAAAGACAATGACTTTGTATTTACTTCTCCTATTAATCATTAA	MDSFLKKLKTKNILVIVLAVFIGIQFYRPETVQKPITGEIHVPSDVRAILQRSCFDCHSNQTDLKWFDQIAPAYWLVADHIKKGKEGLNFSEWDKLAPPAQNAKLWEAFNQINLKAMPLKSYELLHPEAKLSESDIRILKNYVTSLAPKQKPDTAKVAAYNEQLKQVNTTNTKASKPSLLPTALNGISYIPDYKNWKPISSTERFDNGTMRIIFGNDIAVKAAQKHKTNPWPDGTIFAKVAWEQIIDSDGNVTTGAFKQIEYMIKDSKKFASTKGWGWARFLSPQLKPYGKTAGFANECISCHLPMKDNDFVFTSPINH				NA	NA	NA	NA	NA
BMS003_01855	474			hypothetical protein	ATGAAGAACCTTATTGTTTATTTAATAATGTGTGTATTTATTGTGAGCTGCAGTTCCAAAAAAGAATACGAAGCCGTAAATAAAAATGCTTCTCTGCCGGAAAGCTTTGATTTTAACGCCCTGAATTTAAAGGTAGTAACATCTTCAATCAATCATAAAAAAAATACCATGATGACACTTTACGGTACTGATTCAGCGATTGATGACCTTAAAAATAATGCTGGAAAACTAAATAATAAAGAAAGGATATTGGCGCTCATCACCTGGTCTCAAAAGGAAGATCCTTATTGGTACGGAGCAAAAATCCCAAGTAATCTGCTGTCCGTAGAAATTATTAAAAGTAATCAGCCATTTTCGGAAAACTCAGAGATTCAGTATCAAAAATATGAAGGAAAGGATCTTAAAAAAACTTACGCAGACGGATCAGAAAGAATCCGTACAATTCTAAGCATGAAACCTTCAATAATGCCTTAA	MKNLIVYLIMCVFIVSCSSKKEYEAVNKNASLPESFDFNALNLKVVTSSINHKKNTMMTLYGTDSAIDDLKNNAGKLNNKERILALITWSQKEDPYWYGAKIPSNLLSVEIIKSNQPFSENSEIQYQKYEGKDLKKTYADGSERIRTILSMKPSIMP				NA	NA	NA	NA	NA
BMS003_01856	894			hypothetical protein	ATGGAAAAATTCACATTCAGTTCTAGTCTGGTAACAGGGTGCATTTCAGCAGCATTATTGCTTTTCACTTCCGTTGCTTGTTCTAAGGATAATCAGGATGAGTCATCTGATCCGGCCGTTAAGGAAGTACTGTTAAGAAATGATGCCAGCCTTGGAAATATCCTTACTGATAAAGAAGGGCACACTCTTTATTATTTTGCCAACGATGCTACTGCTACCAACAACTGTACCGGAGGATGTGAGCCGGTATGGCCTATCTTCAATGCAGATAATCTTTCTGCAGAAAAACTGGGTTCCGGATTAGAGCTTTCTGATTTTACCACAATAACAACAGGCTCGGGGAAAAAGCAAGTTACTTATAAAGGAAGACCTCTTTATTACTATGCGCCTTTAGTGAACGGAACCCACGTAAAAGAAGATGCAGGGAAAACCGGTGGAGAAAATATAGGAGGTGTATGGTTTGTGGCAAAACCTGACTACACCATTATGCTTACCAATACACAGCTTGTAGGACATGACGGAAAAAACTACACGTCCACTTATACGGAGGGCACAGGAAAAACATTGTATTTTACTGATGCGAAAGGAGTAACGTTGTATACCTTTAAGAATGACAAACAAAATAAGAACAATTTTACAACTTCTGATTTTTCCAATAACGGAATTTGGCCTATTTATGAAACGGATAAAATTGTAGTCCCTTCCGGACTGGATAAGACACTTTTCGGGTCTATTACCGTATTTGGAAGAAAACAGCTTACGTATAAAGGCTGGCCTCTTTATCACTTTGGTCAGGATAATATGGTGATGGGATCTAATAAAGGGGTTTCATTTCCAGCTCCGGGCGGTATCTGGCCGGTACCTGTAAAGAATATGGCAGCAGCTATGCCTTAA	MEKFTFSSSLVTGCISAALLLFTSVACSKDNQDESSDPAVKEVLLRNDASLGNILTDKEGHTLYYFANDATATNNCTGGCEPVWPIFNADNLSAEKLGSGLELSDFTTITTGSGKKQVTYKGRPLYYYAPLVNGTHVKEDAGKTGGENIGGVWFVAKPDYTIMLTNTQLVGHDGKNYTSTYTEGTGKTLYFTDAKGVTLYTFKNDKQNKNNFTTSDFSNNGIWPIYETDKIVVPSGLDKTLFGSITVFGRKQLTYKGWPLYHFGQDNMVMGSNKGVSFPAPGGIWPVPVKNMAAAMP				NA	NA	NA	NA	NA
BMS003_01857	1053			hypothetical protein	ATGATCTATGCAAAATATATAAACACAAACGGAAGAAAAGTATTCAGGATTGACCCGAGAATCATTCTTTTCAGTGCTCTTTTTATGGGGATTCTGGCTTCAGTACCCAAAATACTCCGCATACATATTACTTTGGGAGAACTGATGATAGACTTCTCCATTTCTTTTTTATTTTCGCTGTTTGTATGGTATTTCAATATCTATAGTCTGCCTAAGTTTTCTATTCAGAATATATCCACCCGATTTTTTAATAAAAAACTGCTGATCAGCTTATCAATAGGAGTAGTCGTAATGGCGGCAATAGTACTGATTCATCATATCATATTTCCGAAGTACGGGTTTAATACCATGGTACTGATGTATGAATTCCGGGGAGTACTGATCAATCTTACAATTTATATGTTCCTGTATCTTTTGTATCAGACTTATAATTCCCAGCAGATTAAGTTCGAGCTGGAACAGATCAGAACAGATAATCTCAATGCCCAATATGAACTGTTGAAACAGCAGATCAATCCACACTTTTTGTTCAACAGCCTCAATACACTGAAGTCAATGATCGACATAAAGGATGAAAACTCCGGGGATTTTGTAGTCAGACTGGCGGATTTCTACCGTTTTACTTTAGACAACAGAAAAATGGATCTCATTCCGTTAAAAAAAGAGCTTACAATATTGGATGCCTATGTTTTTCTGCTGATATCCAGATTTGAAGATGGTATAGAGTTTAAAATAGATATTCCGGAAGAACTCTTAAATTCTTACATTCCTCCGTTTACGCTGCAGCTGCTGTGTGAAAACTGCATCAAACATAATATTGTGTCACTGGCCAATCCTTTAATCATAAAATTATACAGTGATCAGGGCTATATTGTTATTGAAAATAATTTTCAGCCCAAGAATATTCCGCAGGAATCTGCAGGAATAGGAATTGAAAACATCAGAGAACGTTACAAGCATTTTGCTGAAAAGGAACTGACCATATTACAAAATGAGCAAAATTTCACCGTCAAATTACCCATAGTAGATGAAAATTTTAGTAATAGAAGATGA	MIYAKYINTNGRKVFRIDPRIILFSALFMGILASVPKILRIHITLGELMIDFSISFLFSLFVWYFNIYSLPKFSIQNISTRFFNKKLLISLSIGVVVMAAIVLIHHIIFPKYGFNTMVLMYEFRGVLINLTIYMFLYLLYQTYNSQQIKFELEQIRTDNLNAQYELLKQQINPHFLFNSLNTLKSMIDIKDENSGDFVVRLADFYRFTLDNRKMDLIPLKKELTILDAYVFLLISRFEDGIEFKIDIPEELLNSYIPPFTLQLLCENCIKHNIVSLANPLIIKLYSDQGYIVIENNFQPKNIPQESAGIGIENIRERYKHFAEKELTILQNEQNFTVKLPIVDENFSNRR	PGPT0026305_2242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_01858	768			hypothetical protein	ATGAAAATTTTAGTAATAGAAGATGAGATAAAAACCGCAAAGGCATTGGGGCGAATGATTGTTGCTGTTCAGCCTGAAGCTACCATAGTTCAGTATATTGAAAGTGTTGCCATAGCCGTTGAATATCTTTCCGGTCCTGAGATTCCGGATGTGATATTTATGGATATTCAGCTGGCAGACGGAAACTGTTTTGAAATATTCAGCCGGGTGAGCATAAAAGTTCCTGTTATTTTCTGCACTGCCTTTGACGAATATGCTGTAGAAGCCTTTAAAAGTAACGGAGTAGATTATATTTTAAAACCTTTCGAGAAGAAAGATATTCAGTCTGCTTTTGAAAAAATCAATAATCTTAAAAATTTCTTTCAGCATTCACTTTCTCCAGGCCGGAAACTGGAAGATATTCTGAGTAATCTTACAACAGGAAGAGGTAAAACCAATTTTCTGGTGTTTTCCAACAATAAATACAATAATATCTCCATCGACAGAATTGCCTGCTTTTACAGTCAGTTTGGAAGTACTGTACTGGTAACTTTTGATCAGAAAGAATATTCAGTCCCTCAGTCATTGGATGAAATAGGTCAGCTGGTTTCAGGAACTCAGTTTTTCAGGATCAACAGACAATATCTGATCAACTTTACAGCGATTGTTGAAGTGGAACATTATTTTTCACGAAAGCTTCTTGTCAGCTTGAAAATTACAACCCCTGAAAAACCGTTGGTTACTAAAGATAAAGCCTCACGTTTTCTTCAGTGGCTTGAAGAACGGTAA	MKILVIEDEIKTAKALGRMIVAVQPEATIVQYIESVAIAVEYLSGPEIPDVIFMDIQLADGNCFEIFSRVSIKVPVIFCTAFDEYAVEAFKSNGVDYILKPFEKKDIQSAFEKINNLKNFFQHSLSPGRKLEDILSNLTTGRGKTNFLVFSNNKYNNISIDRIACFYSQFGSTVLVTFDQKEYSVPQSLDEIGQLVSGTQFFRINRQYLINFTAIVEVEHYFSRKLLVSLKITTPEKPLVTKDKASRFLQWLEER				NA	NA	NA	NA	NA
BMS003_01859	672			hypothetical protein	ATGGATCAAAAAAATAATATTGCAGACGGATTTATTCGCCGTAAATTTGGTTTTCTGGGTGAAGACTTTCTGGAAGAGGTCAGAACTCATGGGATCTATGAAAAAATAGAGGCACGACAGGAAATTATACAGGAAGGAGACCGGGTCAAATATGTTTTGTTTTTAATAAAAGGTGCCATTAAGGTCTATTCCCTCAATGATGGCCGTGAACTTGTATACTACTATATTGGTGATGAAGAAAACTGTCTGATGACTTTTTCGTCAATTTTTAACAATAATATAAGTAAGGTCTGTGCCATCACGGAAGAAGACTCTGAAGTACTTCTGATCCCACTGGCTGCCATGAGCAGATGGCTGGTAACATTTCCCGCCATTAACAAAATATTTTTTCATGAGTATGAACGAAGATTTTCAGCGGTAATGGATATGATTAACGAAGCCATGTTCCATCATCTGGATACAAGAGTACTGAATTATATTAAACGAAAAGTGACTCTGGCAGGAAATCAACCTGTTAAAATAAAGCACAGAGAAATAGCAGGAAGCCTGGGAACTTCAAGAGAAGTGGTGAGCAGAGTGCTGAAAAAAATCGAAAATGAAGGCAAGATCTTTAAAGATGAAAAAAGCAGAATATTGGTTACAGATCAGACGCCTGTATCATTAAATAAATGA	MDQKNNIADGFIRRKFGFLGEDFLEEVRTHGIYEKIEARQEIIQEGDRVKYVLFLIKGAIKVYSLNDGRELVYYYIGDEENCLMTFSSIFNNNISKVCAITEEDSEVLLIPLAAMSRWLVTFPAINKIFFHEYERRFSAVMDMINEAMFHHLDTRVLNYIKRKVTLAGNQPVKIKHREIAGSLGTSREVVSRVLKKIENEGKIFKDEKSRILVTDQTPVSLNK	PGPT0000515_2479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_01860	567	btuE		Thioredoxin/glutathione peroxidase BtuE	ATGAAAAAAATACTTTTTATCGGAATGGTGCTTATTGGAATTATAAGCCTTTCATCATTTATTAAATCAGACGATTCTACAGGTTCCAAGCCTGCAAAATCAATTTATGATTTTAAGATTGAATCCATAGATGGCGGAAAAATTGATTTTTCTGATTACAAAGGGAAATATATTCTTATTGTAAACACGGCGTCCAAGTGCGGATATACTCCTCAATACAAAGGATTAGAGCAGCTTTACAAAGATTATGGTGACAAACTGGTTGTTGTAGGTTTTCCATCTGATAATTTTGCTGATCAGGAGTTTCATGACAATATGGAGATCAAATCTTTCTGTGAAAAGAATTATGGGGTAACTTTTCCTCTTACCACATCTGTAGATGTAAAAGGCTCAAAAATCACTCCTGTATTTGATTTTCTTACCCACAAATCTCAAAACGGAGTAATGGACGCAACCATAAGCTGGAATTTCAACAAGTTTCTGATCAGCCCTGAAGGAAAATTACTGGAGCATTTTGATTCTAAAGTAGTTCCTGAAAGTGATAAGATCATTCATTATTTTAAATAA	MKKILFIGMVLIGIISLSSFIKSDDSTGSKPAKSIYDFKIESIDGGKIDFSDYKGKYILIVNTASKCGYTPQYKGLEQLYKDYGDKLVVVGFPSDNFADQEFHDNMEIKSFCEKNYGVTFPLTTSVDVKGSKITPVFDFLTHKSQNGVMDATISWNFNKFLISPEGKLLEHFDSKVVPESDKIIHYFK	PGPT0013115_1692	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS003_01861	582			hypothetical protein	ATGAAAAGATATAATTTATTGATTGTACTATTACTGCTTATTTTCAATCTTACTACAGCACAAAAGAAAGGCTCTCCGGCAGCCGATCTTAGCATACTAAAAGATACGAAATCAAAAATTGAAGCTACCGTTCCATTGGTAATTCAGCATCTTCAGACTATTGCTACTAAAGAAGGTGATAATAATATTGTCAACAACGGAAAAATAGCACTGGGTAAAGAATACGGTATTTTAGAATCTGAATGGTTTTTATACAGAAACAATATGAAGAACTGCATTCTGAACAATTCTTCTAAGAAAGCTAAGAAATGCATGGAATATCATAATAATATGCTTAGAGGCACGATGATCAACTACAATAACTACATTACCAATCTTACAAGAAAGAACGGATATCTTGGTGTAGAAGGTGATACAAAGTTTGATTTCAAGCCTGCGGACATCGCTACAAAATTAAGCGAAGCCTATTTCAATGCAAATGCTGCTACAGGAAGAATGAAGGCTGATCAGAAAAGAGATTTTTTAGGGCAGACCATGTCTGATGATAACAAACTTACTCCTTATGCCCAACTGGCACAATAA	MKRYNLLIVLLLLIFNLTTAQKKGSPAADLSILKDTKSKIEATVPLVIQHLQTIATKEGDNNIVNNGKIALGKEYGILESEWFLYRNNMKNCILNNSSKKAKKCMEYHNNMLRGTMINYNNYITNLTRKNGYLGVEGDTKFDFKPADIATKLSEAYFNANAATGRMKADQKRDFLGQTMSDDNKLTPYAQLAQ				NA	NA	NA	NA	NA
BMS003_01862	453			hypothetical protein	ATGAATTACAGCATTAAAAAAGCAAGTTTAGAGGATCTTGATGAAACGGCAGAATTATTTAATCTTTATCGTGTCTTTTACAGACAGGAATCGGATATTGAAAAAGGAAAGACTTTTCTTAAAGAACGGTTTTTAAATAGCGAATCTGATATTTTTCTTGCATTAGCTGATGGTAAAGCTGTGGGGTTTGTACAGCTTTATAAGCTTTTTCACTATACTAAATTACAAAAACAGTGGCTTCTGAGTGACTTATTTGTTCATTCCGATTACAGAGGAAAAGGTCTTTCTGTAGCATTGATTGACCGAAGCAAACAATGGTGTGAAGAAACAGGAGCATGCGGGCTGATGCTGGAAACAGAGAAAACGAATGATATCGGAAATACATTATATCCACGCTGTGGATTTGAGTATGACGGACTTCATAATTACTATCACTGGTGGAAGAAGATATAA	MNYSIKKASLEDLDETAELFNLYRVFYRQESDIEKGKTFLKERFLNSESDIFLALADGKAVGFVQLYKLFHYTKLQKQWLLSDLFVHSDYRGKGLSVALIDRSKQWCEETGACGLMLETEKTNDIGNTLYPRCGFEYDGLHNYYHWWKKI				NA	NA	NA	NA	NA
BMS003_01863	714			hypothetical protein	ATGAGAGACATTATCCAAAAAATAGAAAATACAGACTGGCAGTGCCTTACAGAAGCAATGCATGAAAACGGATATGCAGTAATTCCTGATTTATTATCAGATAATCAATGTGAACTATTAAAATCCAGCTATGATCATTCTATGCTTTACAGAAAAACAGTAGTTATGGCAAGACATCGTTTCGGATTGGGGGAATATAAATATTTTAATTATCCTCTTCCTGAAATCATTCAGACCATACGGACAAATATATATCCGCATTTGGCTTCTATAGCCAATTCATGGTTTAAAGCTTTACAAATTAATACCCGATTTCCGATTGATCATCAGGAGTTTATACAGCAATGTCATAATAATGGACAGGGAAAAGCGACTGTTTTAATCCTGAAATATCAGAAAGGAGGTTTTAATACTTTGCATCAGGATTTATATGGAGATATCTATTTTCCCATTCAAATTGTATTGATGCTCAGTGAACCTGATCATGATTTTACTGGAGGAGAATTTGTTCTTACCCAACAGATTCCCAGAGCACAGTCAAAAGCTATAGTTTTAAAACCTAAAAAAGGAGATGTGCTTATTTTTACCACCCAGTTCAAACCCGAAAAAGGTACGAAAGGATATTACAGAGTCAATATGAAACATGGAATAAGTGAGGTAAAAGAGGGAAAGCGCTATGCTCTGGGAATTATCTTTCATGATGCAATCAGCTAA	MRDIIQKIENTDWQCLTEAMHENGYAVIPDLLSDNQCELLKSSYDHSMLYRKTVVMARHRFGLGEYKYFNYPLPEIIQTIRTNIYPHLASIANSWFKALQINTRFPIDHQEFIQQCHNNGQGKATVLILKYQKGGFNTLHQDLYGDIYFPIQIVLMLSEPDHDFTGGEFVLTQQIPRAQSKAIVLKPKKGDVLIFTTQFKPEKGTKGYYRVNMKHGISEVKEGKRYALGIIFHDAIS				NA	NA	NA	NA	NA
BMS003_01864	1467	cysS	COG0215	Cysteine--tRNA ligase	ATGCAATTAAAAATATATAACTCGCTTAAAGCAGAAAAAGAAATATTCAAACCTATTTTAGACGGAAATGTAGGAATGTATGTCTGCGGACCTACCGTGTACAGCAATGTTCACTTGGGTAATGTGAGGACTTTCCTTTCTTTCGATTTTATCTACCGTACCCTGATGCATTTGGGATACAAAGTAAGATATGTAAGAAATATTACTGATGCAGGTCACCTTACCGATGATGGAAATGTTGATAACGACAGATTCGTAAAACAGACCAGACTTGAAAAGCTGGAACCTATGGAAATTGTACAGAAATATACCGTAGACTTTCACAAAGTACTGGATATGTTCAACCTACTTCCTCCAAACATCGAACCTACCGCTACAGGACACATTGTAGAACAGATCGAATTAACTCAAAAACTGATCGAAAGAGGTTTTGCTTACGAAAGCAACGGTTCAGTATATTTTGATGTATTGGAATACAATAGGAGAGGTTTGAACTATGGTGAACTTTCAAAACGTAATATAGAAGAGCTTTTCGCCAATACCAGAGACCTTGACGGACAAGGTGAAAAGAAAAACCCACAGGATTTTGCATTGTGGAAAAAAGCATCACCAGCCCACATCATGAGATGGAATTCCCCTTGGGGAGAAGGTTTCCCGGGATGGCACCTTGAATGTACTGCAATGAGTACTAAATATTTAGGTGAAACATTCGATATCCATGGAGGAGGAATGGATCTTAAATTTCCTCACCACGAATGTGAAATTGCACAGGGGAAAGCTTGCAATGATGCCGCACCTGTGAATTACTGGATGCACGCCAATATGCTGACAATGAACTCTCAGCGTATGAGTAAATCTACAGGGAATTATATTCTTCCAATGCAGTTGGTTACCGGTGATAATGACTTCTTTGAAAAACCTTTCCATCCTTCAATTGTACGTTTCTGCTTCCTGCAGGCACATTACAGAAGTGTGTTGGACATTTCAAACGATGCCATGATTGCCAGTGAAAAAGGATTTATCAGATTAATGGAAGCAGTGAAAGTATTGAACTCTATTACTCCTGATGATACAAAACAATCAGGTTTCAGCCTGAAAGAATGGAAAGATAAAGCCTATGAAGCTTTGACAGATGATTTCAATTCACCAATCCTTATTGCACACCTGTTTGAAGCAGTCAAATACATTTTTGCTCTGAACGATAATAAAGAAACGATCTCAACAGAAGATCTTGAAGACTTGAAAACTACACTCAATGCGTTTATCTTTGATGTTTTAGGATTGCAGACCATAGAAGAAAACAACAATGAAAAACTTGATCAGACCTTAAAAGTTTTGATCGAATTGAGAAACCAGGCCAGAAAATCCAAAAACTTCGAGCTTTCAGATCAGATCAGAGACAAACTGCTTGCAGAAGGAATCGAATTAAAAGATGGAAGAGACGGAACATCATACGTTCTGAACTAA	MQLKIYNSLKAEKEIFKPILDGNVGMYVCGPTVYSNVHLGNVRTFLSFDFIYRTLMHLGYKVRYVRNITDAGHLTDDGNVDNDRFVKQTRLEKLEPMEIVQKYTVDFHKVLDMFNLLPPNIEPTATGHIVEQIELTQKLIERGFAYESNGSVYFDVLEYNRRGLNYGELSKRNIEELFANTRDLDGQGEKKNPQDFALWKKASPAHIMRWNSPWGEGFPGWHLECTAMSTKYLGETFDIHGGGMDLKFPHHECEIAQGKACNDAAPVNYWMHANMLTMNSQRMSKSTGNYILPMQLVTGDNDFFEKPFHPSIVRFCFLQAHYRSVLDISNDAMIASEKGFIRLMEAVKVLNSITPDDTKQSGFSLKEWKDKAYEALTDDFNSPILIAHLFEAVKYIFALNDNKETISTEDLEDLKTTLNAFIFDVLGLQTIEENNNEKLDQTLKVLIELRNQARKSKNFELSDQIRDKLLAEGIELKDGRDGTSYVLN	PGPT0002985_1838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS003_01865	432			hypothetical protein	ATGAACTACCAGATCCTTAAAAATATTGTTGATGCCGAACTTCAGAGATTTCAAAACATCTCGGAAGAAGAATGGTCGTATAGAAGTTCTTCGGAAAAATGGTCCAAAAAAGAAATTATTGGTCATCTTTGTGACAGCGCTTTTACAAATATCCGTAGATTTGTTGTGACCCAATACAAAGAGAACGAAAACATTGTATATGATCAGGATTTTTGGGTAAAAGCTCAGAACTATCAGAACGTTCCTGCTTCAGATCTTCTTAATCTGTGGAAATCTTTGAACTATCAGATTGTTCATATCGTAGAAAATATCCCGGACGAAGCATTACAGAGAACCTGTGATACGACCAAAACAGAGCCTCGGGTCTATACATTGGAGTTTATTATTGATGATTATGTAGATCATTTACAGCATCATTTAAAAGCGATTTAA	MNYQILKNIVDAELQRFQNISEEEWSYRSSSEKWSKKEIIGHLCDSAFTNIRRFVVTQYKENENIVYDQDFWVKAQNYQNVPASDLLNLWKSLNYQIVHIVENIPDEALQRTCDTTKTEPRVYTLEFIIDDYVDHLQHHLKAI				NA	NA	NA	NA	NA
BMS003_01866	666	folE	COG0302	GTP cyclohydrolase 1	ATGGTTGATTTTACTGATAACGACGATGATATTTTCACAGGAAAAGAACATACGCCTATAAGGGAAGATGCTTTTGATAAATCGCCACAGGAAAAAATTGAAAAAATTACTGGGCTTTTTGGCGAGATTATGGAAACACTGGGAATGGATATGACAGATGATTCTCTGAAAGACTCTCCAAGACGTGTTGCCAAAATGTATGTGAACGAGATCTTCGGAGGTCTTCTTCCTGAAAACAAACCAGGAATCTCCACATTCTCCAACAAATACAAATACCGCCAGATGTTGGTAGAGAAGGATATTACGGTATATTCTTTCTGCGAACATCACTTTTTACCCATCATAGGAAGAGCTCACGTAGCTTACATTTCGAACGGAGAGGTGATTGGTCTTTCAAAAATTAACAGAATTGTAGATTACTATGCGAAAAGACCACAGGTTCAGGAAAGATTGACCATGCAGATTGTAGACGCCTTGAAAGAAGCTTTGGGAACAAAAGACGTAGCCTGTATTATTGATGCAAAACACCTTTGTGTAAACTGCAGAGGAATAAAAGATACGGCAAGTTCGACGATTACTGCGGAATTAAGCGGGATTTTCAGAACAAACCCTATTACAAGACAGGAATTCTTACATTATGTTGGAAGCCATGCAAAACTGGATTAA	MVDFTDNDDDIFTGKEHTPIREDAFDKSPQEKIEKITGLFGEIMETLGMDMTDDSLKDSPRRVAKMYVNEIFGGLLPENKPGISTFSNKYKYRQMLVEKDITVYSFCEHHFLPIIGRAHVAYISNGEVIGLSKINRIVDYYAKRPQVQERLTMQIVDALKEALGTKDVACIIDAKHLCVNCRGIKDTASSTITAELSGIFRTNPITRQEFLHYVGSHAKLD	PGPT0007875_1503	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS003_01867	1152	yghO_1		Protein YghO	ATGATTATTGTCGAAGAAGTACAAAACAAACTCCATAAAAGGGAATTTCTGGAATTCCCAGCCCGCCTTTATCAATCCGACAAAAATTATATCCGGCCTTTAGATAAAAATATTGAGGAAATTTTTGATCCTGAAAAAAACAAATTCTTTAGAAATGGGGTTTGTAAAAGGTTTCTGTTTAAAAAGAATGGCAATATTGTTGGTAAAGTAGCTGTTTTTGTAAATGGCTGTTATGAGCAAAAGCAGCCTACGGGAGGAATTGGTTTTTTCGACTGTATTAATGATCAGGAAACGGCCAATTTTATTTTTGACCATTGTAAAAAGTGGCTTCAGGAGAAAGGGATGGAGGCAATGGACGGGCCTATCAATTTCGGAGAACGGGATAAATTCTGGGGGCTTCTGATTGAAGGTTTTGCTGAGCCTTTGTTTGGCATGAATTACAATTTCCCTTATTACAAAGATCTTTTTGAAAATTATGGGTTTCAGATTTATTTTGAGCAGCTATGCTTTACCAGACCTGTTTTTGCGGAAGTTTCGAGGATCTTTACGATTGCTCATGAGAAGAACAGAAGAAATCCTGCTATTTCTGCACAGCCTATGAAGAAAAACAATCTGCCCAAGTTTGCCAGGGATTTTACAGAAGTCTATAATAAAGCATGGTCTTCTCATGGTGAAGGAAAGCATCTGGAAGAAGCAAAGGTTCTGAAAATGTTCAACACCATGAAACCTATTATCAATGAGCATATTTCCTGGTTTGTATATGAAAATGAGAAACCAATTGCCATGTGGATCAATATCCCTGACCTCAACCAGTGGTTTAAATACCTGAACGGAAAATTCGGAATTTTTGAAAAGCTTAAATTTCTATTGCTGAAACGCTTTAAAAAGAACGAAAAAATGGTGGGGCTTGTTTTCGGTGTTGTACCCGAATGGCAAAAGAAGGGCATTGATGGGTATATGATCTGGGAAGGAACTCAGCATTTAAGAAAGTATACTGATTTTACCATTACAGAGCTTCAGTGGATTGGGGATTTTAATCCTAAAATGATCAAGATTGCAGAAGCCCTTGACACCAGTATTACCCGAAAACTGGCTACTTACAGATATTTGTTTGACAGGAATAAGGAGTTTGAGAGGCATACCGGACTTTAG	MIIVEEVQNKLHKREFLEFPARLYQSDKNYIRPLDKNIEEIFDPEKNKFFRNGVCKRFLFKKNGNIVGKVAVFVNGCYEQKQPTGGIGFFDCINDQETANFIFDHCKKWLQEKGMEAMDGPINFGERDKFWGLLIEGFAEPLFGMNYNFPYYKDLFENYGFQIYFEQLCFTRPVFAEVSRIFTIAHEKNRRNPAISAQPMKKNNLPKFARDFTEVYNKAWSSHGEGKHLEEAKVLKMFNTMKPIINEHISWFVYENEKPIAMWINIPDLNQWFKYLNGKFGIFEKLKFLLLKRFKKNEKMVGLVFGVVPEWQKKGIDGYMIWEGTQHLRKYTDFTITELQWIGDFNPKMIKIAEALDTSITRKLATYRYLFDRNKEFERHTGL				NA	NA	NA	NA	NA
BMS003_01868	960	metF	COG0685	5,10-methylenetetrahydrofolate reductase	ATGAAGATAACAGAACACATTAAAAATGCAAATGGAAAAACTTTATTCTCCTTAGAAGTTGTTCCGCCACAGAAAGGAATCGGGATTGAAGACCTTTACACGAATATAGATCCGTTGATGGAATTCAAACCACCTTTCATTGATGTTACAACATCCAGAGAAGAATACATTTATCTGGACAAAGGAAATGGTTTGATGGAGCGCCGTATTACAAGAATGCGCCCGGGAACACTGGGAATTTGTGCCGCTATTCAGCATAAATATAACGTAGATACAGTACCACATCTTCTTTGTGGAGGTTTCACCAAAGAAGAAACAGAATATCTGCTGGTAGACTGTATGTACCTTGGGATAGATAATGTAATGGCTCTAAGAGGAGACGCCATGAAAGGGCATCAGTATTTCGAACCTACTCAGGGAGGGCATGCCAGTGCGATGGATCTTGTGAATCAGATTAATGACCTGGGAAGAGGAAAATATCTTCATAATGAGGAACAGGTTTGTGATGAATTGAATAAATTCTGCATCGGTGTTGCCGGATATCCTGAAAAGCATATGGAAGCCCCTTCCATGAATTATGACCTCAAGTGGCTGAAACAAAAAGTAGATGCCGGAGCAGATTATATCGTTACCCAAATGTTTTTTGACAATAAAAAGTATATAGAATTCGTTCAGAAAGCAAGAGAGATGGGAATTACCGTTCCGATTATTCCGGGAATAAAACCTATTGCCACTAAGAAACATTTGAAAATCCTGCCACAGGTATTCAAAATAGATCTTCCCGAAGAACTTATCAGCGAAGTGGAAAATGCGAAGAATAATGAAGCCGTGAAGCAGATCGGAATAGAATGGTCCATAGCTCAATGCAAAGAACTGCTGGATTTCGGAGTTCCTGTTTTGCACTTTTACTCTATGGGAAAAAGTGATAATATTAAAAAAGTAGCCGGTGAGCTATTCTAA	MKITEHIKNANGKTLFSLEVVPPQKGIGIEDLYTNIDPLMEFKPPFIDVTTSREEYIYLDKGNGLMERRITRMRPGTLGICAAIQHKYNVDTVPHLLCGGFTKEETEYLLVDCMYLGIDNVMALRGDAMKGHQYFEPTQGGHASAMDLVNQINDLGRGKYLHNEEQVCDELNKFCIGVAGYPEKHMEAPSMNYDLKWLKQKVDAGADYIVTQMFFDNKKYIEFVQKAREMGITVPIIPGIKPIATKKHLKILPQVFKIDLPEELISEVENAKNNEAVKQIGIEWSIAQCKELLDFGVPVLHFYSMGKSDNIKKVAGELF	PGPT0008160_652	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS003_01869	2661	metH_1	COG0646	Methionine synthase	ATGAAATATTTAAGATTATCAGGCCTCGAGCCTCTTATCATAACGCCGGAGAGTAATTTCATCAACGTTGGTGAAAGGACAAACGTTGCCGGCTCTAAAAAATTTCTAAGACTGATCAAAGAAGAGAAATTCTCTGAAGCATTAGATATTGCCCGCCATCAGGTAGAAGGTGGTGCCCAGATTCTGGATGTCAACTTTGATGATGGATTGATCGATGGAAAAGCATCGATGATCAAATTCCTGAACTTAATTGCCTCTGAACCGGATATCGCAAGAATTCCGATCATGGTAGATTCTTCCAAATGGGAAATACTGGAAGCAGGTCTTCAGGTAGCGCAGGGGAAATGTGTCGTGAATTCTATCAGCTTAAAAGAAGGCGAAGAAGAATTTATCAAACATGCCAAAGCCATTAAAAGATATGGAGCGGCAGTCATTGTCATGGCATTTGATGAGGTAGGGCAGGCAGACAATCTTGAACGAAGAATCGAAATTTCAAAACGTTCCTATGATATTCTGGTAAATCAACTTGGTTTTCCGGCAGAAGACATCATTTTCGATTTAAATATTTTTCCGGTGGCAACAGGAATGGAAGAGCACAGAAGAAATGCCATCGATTTTATTGAAGCGACTCGCTGGGTAAGACAGAACCTTCCTTATGCCTCTGTAAGTGGAGGAGTGAGCAATGTTTCATTCTCTTTCCGTGGAAATGATACCGTAAGAGAAGCGATGCACTCCGTATTTCTTTACCACGCAATCCAAGCAGGAATGAACATCGGTATCGTGAATCCGGCAATGCTTGAAGTGTATGACGAGATCAATAAAGAATTACTGGAGCTTGTAGAAGATGTCATTTTGGATAAAAGAGAAGATGCCACAGAAAGACTTCTTGACTATTCCGAAAAGCATAAGTCTGTAAAGAAAGAAAAGACCGAAGATCTGGAATGGAGAAACAATCCGTTACAGGAAAGAATTACCCATGCTCTGGTAAAAGGAATAGACCGTTTTATTGAAGAAGATGTAGAAGAAGCAAGGCAATTGGCAGAAAGACCGCTGCATGTCATTGAAATTAACCTGATGACCGGAATGGGGGTAGTAGGAGATCTGTTTGGAAGCGGAAAAATGTTCCTGCCTCAGGTCGTGAAGTCCGCAAGGGTAATGAAAAAAGCAGTAGCTTATTTACAGCCTTTCATTGAAGAGGAAAAAGACGGTTCAAAACCTGCCAGCGGAAAAATATTAATGGCAACAGTAAAAGGTGACGTTCATGATATCGGTAAAAATATTGTGAGCGTTGTTTTGGGTTGTAACAACTATGAAATCGTTGACCTTGGAGTGATGGTTCCTGCTGAAAAGATTATCCAGACAGCTATTGAAGAAAAGGTAGACGTTATTGGTTTAAGTGGATTGATTACCCCAAGTTTGGATGAAATGGTGTATATCGCTTCAGAATTAGAAAGACAGAATTTAGATTTTCCATTATTAATTGGTGGTGCTACAACTTCAAAAGCACATACCGCAGTGAAAATCGATTTAAAATATAAAAATGCTGTCGTTCACGTAAATGATGCCTCAAGAGCCGTAAACGTGGTAAGCTCATTGCTGGGTGACAGAAATAAAGAATACGTTTCGGATTTAAAGAATGACTATTCCGATTTCAGAGAAAAATTCCTGAACAGACAGGTAGATAAAGATTATGTCTCTATTGAAGAAGCAAGAGAAAATCATTTTAAAATTGATTGGGAAAATGAAGAGATCTTCACTCCGAATACAATAGGAATAAAAGTAATTGAAAATCAGGATCTAAGAGAACTTCTCCCTTTTATCGACTGGTCTCCGTTTTTCAGAAGCTGGGATCTTCACGGAAAATACCCGAATATCTTAGAAGATGAGGTAGTAGGTGCTCAGGCAAAAGAATTATTCAAAGACGCTCAGGTAATCCTGAAAAGAATTCTGGATGAGAAATTATTGACAGCAAAAGCCATCTTTGGAATCTTTAAAGCCAATTCCAATGAATCCGATGATATCTTGATTTTTGATGAAAATAATAATGAACAGGCCAGGTTTTTAACCTTAAGACAGCAGGCTCAGAGATCAAAAGGGAAAGACTATCTGGCGCTAAGTGATTTCATTGCTCCTCAAAGCTCAGGAAAAACCGATTACGTGGGAGCATTTTGCGTAACAACCGGATTTGGAACTGATGAACTGTCCAACGAATATGAAAAAGCCAATGATGATTACAACTCCATCATGGTGAAAGCTCTTGCAGACCGTTTTGCAGAAGCCTACGCAGAATTTTTACATAAAAAAGTAAGAACAGAATACTGGGGATATGCCAATCAGGAAACTTTAAGCAATGAAGAACTTATCGCCGAAAAATATAAAGGAATCCGTCCGGCACCAGGTTATCCGGCTTGCCCTGATCATTTGGAAAAGAAAACCATCTGGGATCTTTTAAAAGTAGAAGAAAATACAGGCGTTTTCCTTACGGAAAGCCTTGCTATGTTCCCAACAGCATCTGTTTCCGGATATTATTTTGGAAGCCCGCATGCCAAGTATTTCGGATTAGGAAAAATTACAGAAGACCAGCTTGAAGATTATGCCGCAAGAAGAAGTTGTAGCATCCAGGAAGCGAGAAAATGGTTGTCACCAAACTTAGCAGATTAA	MKYLRLSGLEPLIITPESNFINVGERTNVAGSKKFLRLIKEEKFSEALDIARHQVEGGAQILDVNFDDGLIDGKASMIKFLNLIASEPDIARIPIMVDSSKWEILEAGLQVAQGKCVVNSISLKEGEEEFIKHAKAIKRYGAAVIVMAFDEVGQADNLERRIEISKRSYDILVNQLGFPAEDIIFDLNIFPVATGMEEHRRNAIDFIEATRWVRQNLPYASVSGGVSNVSFSFRGNDTVREAMHSVFLYHAIQAGMNIGIVNPAMLEVYDEINKELLELVEDVILDKREDATERLLDYSEKHKSVKKEKTEDLEWRNNPLQERITHALVKGIDRFIEEDVEEARQLAERPLHVIEINLMTGMGVVGDLFGSGKMFLPQVVKSARVMKKAVAYLQPFIEEEKDGSKPASGKILMATVKGDVHDIGKNIVSVVLGCNNYEIVDLGVMVPAEKIIQTAIEEKVDVIGLSGLITPSLDEMVYIASELERQNLDFPLLIGGATTSKAHTAVKIDLKYKNAVVHVNDASRAVNVVSSLLGDRNKEYVSDLKNDYSDFREKFLNRQVDKDYVSIEEARENHFKIDWENEEIFTPNTIGIKVIENQDLRELLPFIDWSPFFRSWDLHGKYPNILEDEVVGAQAKELFKDAQVILKRILDEKLLTAKAIFGIFKANSNESDDILIFDENNNEQARFLTLRQQAQRSKGKDYLALSDFIAPQSSGKTDYVGAFCVTTGFGTDELSNEYEKANDDYNSIMVKALADRFAEAYAEFLHKKVRTEYWGYANQETLSNEELIAEKYKGIRPAPGYPACPDHLEKKTIWDLLKVEENTGVFLTESLAMFPTASVSGYYFGSPHAKYFGLGKITEDQLEDYAARRSCSIQEARKWLSPNLAD	PGPT0008135_3159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS003_01870	1092			hypothetical protein	ATGGAAAAGCCAATTTACTTAAAAGATTCGGAGGATGTCAGATTATTTAATGAATTGAGAAAGAAAGTGAACCAAAGAGTAGGAACCATTTCTGAGAACAGAGATATCTACATTCAGATTAAAGCAATACTGCTGCCACTGATCTATATAGGTTTATATTTTCTGGCTGTTCTGAATGCCGAAAAGCATTGGGTTTATATTCTGAGCTTTATTTTGATGGGAATTTCCTTGGTCTTGATTTATTTAAACTTAATCCACGAAGCAGCCCATAACAATATTTATAAAAGTAAAAGACTGAACGGGCTGGTTCTTCACATTTTTGATTTTATAGGAGCTAACTCCTATATCTGGAAAAAAAGACATATTGCAAGCCATCATGCATACCCTAACGTAGATGGATGGGACACGGATATCGAGCAGAGCGGATTGCTTTTAATTGTACCGTGGATCAAAGCGAAAGGAGTACAGAAGTACCAGGATAAGTTTTTCTTTTTAGTCTATCCGTTGTATTTGTTCAACTGGATGTTTATAAGAGACTTCCGGGACTTCTTTGATAAGGAAAGAGTCATTTTAAAAACCCAGGGAAAAATACCCGCTATTGAAAAAGTGAAAATGATAAGTTGTAAGCTGTTCTATTTCTTTTATCAGATTGCGGTTCCCATAATGTTCTTTAAAGTATCGATAGGATTAGCTTTAGGAGCATGGTTTTTACAGGTGATATCAGCAAGTATTTTTGCATTGTTTGTTTTACTGCCTTTGCATCCGCTTCCTGATAATGCCTTTCCAAAATTAAATAAAGAGAATGGTCTTCCGTTTAGCTGGCTTCATCATCAGTTTGAAGTGACCAATGATCTCAAAGAAAATAACTGGCTGGTAAGAAATGTGTTGGGAAATTTCAACTTTCATGTTGCCCATCACCTGTTTCCGAATTACAGCTATATGTATTACAACGAAATTACAGAGGAAATAGAGGAGTTTGCTAAAGAACATGGTTTAACATATAAAAGATTTCCACTGATTACAGCTTTAAGTAAGCATAGGGATCTATTGAGGCAGAATGCCAATAATGCCTATTATATTTTAGAAGAATAA	MEKPIYLKDSEDVRLFNELRKKVNQRVGTISENRDIYIQIKAILLPLIYIGLYFLAVLNAEKHWVYILSFILMGISLVLIYLNLIHEAAHNNIYKSKRLNGLVLHIFDFIGANSYIWKKRHIASHHAYPNVDGWDTDIEQSGLLLIVPWIKAKGVQKYQDKFFFLVYPLYLFNWMFIRDFRDFFDKERVILKTQGKIPAIEKVKMISCKLFYFFYQIAVPIMFFKVSIGLALGAWFLQVISASIFALFVLLPLHPLPDNAFPKLNKENGLPFSWLHHQFEVTNDLKENNWLVRNVLGNFNFHVAHHLFPNYSYMYYNEITEEIEEFAKEHGLTYKRFPLITALSKHRDLLRQNANNAYYILEE	PGPT0009575_293	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-LINOLENIC_ACID_PRODUCTION	PLANT_SIGNAL-LINOLENIC_ACID_METABOLISM	PLANT_SIGNAL-LINOLENIC_ACID_BIOSYNTHESIS,PGPT0009575-desB|desD|desA-K00508	NA	NA
BMS003_01871	1011	metH_2	COG0646	Methionine synthase	ATGAAAAATTCAGAACAATTATATAAAGCTTTATCCGAAAGAATTTTAATTCTTGACGGTGCCATGGGTACCATGCTTCAGAGATATAAATTTGAAGAAGAAGATTATCGTGGAGAACGTTTCAAAGATTGGGAACATCCTGTAAAAGGAAATAATGACCTGCTTTCCCTGACGCAGCCTCAGGCGATTGAAGAAGTTCACAAAAAATATCTGGAAGCAGGAGCTGATATCATAGAAACCAATACGTTTTCAGGAACTACTATTGCGATGGCAGATTATCATATGGAAGATCTGGTATACGATCTGAACTATGAGTCAGCAAAAATTGCCAGAAAAGCCTGTGACGAATACACTGCAAAGAATCCGGACAAACCGAGATTCGTAGCTGGATCTATAGGACCTACAAACAGAACGGCAAGTTTAAGCCCCGATGTTAATGATCCAGGATACAGAGCTATCACTTTTGAAGAATTGAGAGTCGCTTACAAACAACAGTGTGAAGCTTTGCTGGACGGAGGTTCAGACATCCTGCTGGTAGAAACCATCTTTGATACTCTGAATGCAAAAGCTGCTTTATTTGCTATAGATGAATTACAGGACGAAAGAGGGATTAAGATCCCAATCATGGTTTCCGGAACCATTACCGATGCTTCCGGAAGAACTTTGAGCGGGCAGACAGCAGAAGCATTCCTTATCTCAGTTTCTCACCTGAATTTACTAAGTGTAGGTTTCAATTGTGCACTGGGAGCAGATCAGCTTACTCCTTACCTTGAAACACTAGCTCATAATTCAGAATTCTACGTTTCAGCATATCCGAATGCCGGTTTACCGAATGCTTTCGGAAAATATGACGAAACCCCTGAAGATATGGCGAGGCAGATCAAAGAATATGTTGAGAAAGGCTTAATCAATATTATCGGAGGCTGTTGCGGTACAACACCCGAACATATTAAAGCGATTGCTGACCTGGTGGAGCAATATGAACCAAGGAAATTGAAGAAATTTGTGTGA	MKNSEQLYKALSERILILDGAMGTMLQRYKFEEEDYRGERFKDWEHPVKGNNDLLSLTQPQAIEEVHKKYLEAGADIIETNTFSGTTIAMADYHMEDLVYDLNYESAKIARKACDEYTAKNPDKPRFVAGSIGPTNRTASLSPDVNDPGYRAITFEELRVAYKQQCEALLDGGSDILLVETIFDTLNAKAALFAIDELQDERGIKIPIMVSGTITDASGRTLSGQTAEAFLISVSHLNLLSVGFNCALGADQLTPYLETLAHNSEFYVSAYPNAGLPNAFGKYDETPEDMARQIKEYVEKGLINIIGGCCGTTPEHIKAIADLVEQYEPRKLKKFV	PGPT0008135_4437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS003_01872	1161	mgl_1	COG0626	L-methionine gamma-lyase	ATGGAAAATTTTGAAACATCAGCAATAAGAACCCAAACGGAAAGATCTCAGTTTGATGAGCATTCTACACCGCTCTATCTTACCTCCAGTTTTATATTTCAGGATGCGGAAGATATGAGAGCAAGTTTTGCAGAAGAAAAACCTAAAAACCTATACAGCCGTTTTTCTAATCCCAACGTAACAGAGTTTACAGACAAGATCGCTAAAATGGAAGGTGCAGAAGCAGGATATGCCTTTGCAACAGGAATGGCAGCTATCTATTCTACATTTGCCGCATTATTGAATGCTGGAGATCATATCGTGAGCTGCCAGTCGGTATTCGGATCTACCCATACTTTGTTTACCAAGTATTTCCCGAAATGGAATATTGAAACCTCTTACTTCAAGGCGGAAGATGCTGCGAATGTAGAGCAATACATTAAACCTAATACCAAGATCTTATACCTTGAAACACCTACTAATCCGGCTATTGAAATTCTGGATCTTGAGTTTTTCGGGCAGATCGCAAAAAAGCATAGTCTTATTTTTATTGTAGATAACTGTTTTGCAACACCTTATCTTCAGCAGCCTATCAAGTACGGTGCAGATATTGTTGTGCACTCAGCGACAAAACTGATTGACGGACAGGGAAGAGTTTTAGGAGGAATAGCCGTAGGAAAAGAAGACCTGATCAGAGAAATTTATCTTTTCGCAAGAAATACAGGACCTGCATTGTCTCCTTTTAATGCATGGGTACTATCAAAAAGCCTTGAAACATTGGCAATCCGGGTAGAAAAGCACTGTGAGAACGCATTGAAGGTAGCTGAGTTTTTAGAAAGTCATCCTAATGTTGAACTGGTAAAATATCCATTCCTGAAATCCCACCCAAGTTATGAAGTAGCCAGAAAGCAGATGAAGCTTGGAGGAAATATCGTAGCATTTGAAATAAAAGGTGGGATAGAAGGAGGAAGAGCCTTTTTAGATAAGATACAAATGTGTTCATTATCCGCTAACTTAGGTGATACAAGAACGATCGTTACTCACCCGGCATCTACTACCCACTCTAAATTATCAGACAAAGAAAGAAACGAAGTAGGAATTACGGCGGGATTGGTTCGTTGCTCAGTAGGGCTGGAGAATGTAGAAGATGTCATTGCAGACATGAAACAGGCTTTGGATTAA	MENFETSAIRTQTERSQFDEHSTPLYLTSSFIFQDAEDMRASFAEEKPKNLYSRFSNPNVTEFTDKIAKMEGAEAGYAFATGMAAIYSTFAALLNAGDHIVSCQSVFGSTHTLFTKYFPKWNIETSYFKAEDAANVEQYIKPNTKILYLETPTNPAIEILDLEFFGQIAKKHSLIFIVDNCFATPYLQQPIKYGADIVVHSATKLIDGQGRVLGGIAVGKEDLIREIYLFARNTGPALSPFNAWVLSKSLETLAIRVEKHCENALKVAEFLESHPNVELVKYPFLKSHPSYEVARKQMKLGGNIVAFEIKGGIEGGRAFLDKIQMCSLSANLGDTRTIVTHPASTTHSKLSDKERNEVGITAGLVRCSVGLENVEDVIADMKQALD	PGPT0020020_1030	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS003_01873	1539	thrA_1	COG0460	Bifunctional aspartokinase/homoserine dehydrogenase 1	ATGAAAAATGCTAACGAAATAAAATTTTTGAAGAACAGATCAATCGTCAAATTTGAAGGAGAAGATTTCCTGGGAGAAATCGGGATTGACGGACGAATTTTTAAAGCGCTTACTTTAGCGCGTATCAGTGTTGGGGTAATTTCTCAACAGGCTGTAGAAAACGGAATTTCTATTCTGGTTCATGAAAATGATGCAGAGAAGGCTGTAGCTTGTCTTATCGATGAATTCGAGACAGAAAGAAAATCAGGAAAAGTTTCCCAAATTTACAGCATCAACAATGTTTCTGTGATTGGCTTTGTTGCAGAAGACTTTAATAAAGTTTTTGCAGAGCTTGCAAGAAATAATGTTTTCCCATTGCTTTTGAATCAGGTAGCAGGAGAAAACAGAGTCAATATCGTGGTGACTTCTTCGCAGGATGAGAAAACAAGAAACATCATAGAATCCGAAATTTTCAAAAAACCGAAGACGGTTCATCTGGCTATCATTGGTCACGGAAATGTAGGAAAGACTTTGATAGAGCAGGTGCTTGAATCTGCAGAAGAAATTAAAAAACGGAAAAAAATAGACCTTAAAGTAGTTGCTGTAGCCAACTCAAAGAAAATTGCCTTCAACAAAAAAGGATTTGATGCCAACTGGAGTAATGAGGTTTTAACAGCAGAACATCCATCGAATGTTGAAGAGTTAATTAATTTCTCCAATGAAAATCAATTGGAAAATCTGATTGTTGTGGATAACACAGCAAGCAAAGATTTTGTGAAAAACTACCACGCTTTGGCAGAAAACGGTTTTGACCTGGTATCTTCCAACAAAATTTTCAATACCCTTCCGATTGAAGAATACAGAAAACTAAGATATACGTTGAGTAAAAACAACAGACGTTATCTGTATGAAACTAATGTGGGTGCTGGTTTGCCTTTAATTGATACCATCAAGTTACTACACCTTTCAGGAGAAAATATCACAAGAATCAAAGGAGTATTTTCCGGAACCTTAAGTTATGTCTTCAATAATTTTTCTTTGAGAGACGATAAATTCTCAACCATCATCAACGAAGCTTTGGAAAAAGGATATACAGAACCGGATCCGAGAGAAGACTTATCAGGAAATGATGTGGCAAGAAAATTATTGATCCTGGCGAGAGAATTAGACTTAATCAATGAATTCGGAGACATCAATATTCAGAATCTTGTTCCGGAAAGCCTGCTTGAAGTTTCAAAATCAGAATTCCTGTCAAGATTGGAAGAGCTGGATGAAGAATATCAGAAAATAAAAGAAAATCAGGAACCAGGACATGTATTGAGATATGTAGGTGATCTGCACGGAGACTTACAGAAAGATAAAGGCGAGCTGGATGTAAAACTGGTTTCTGTTCCTGCAACTTCCGCATTAGGACAATTGAAAGGTTCAGACTCTATCTTTGAAATCTACACAGAAAGCTATGGAGAAAATCCAATTGTGATTATGGGAGCCGGAGCTGGAGCACAGGTAACAGCAAGAGGAGTATTCGGAGATATTTTAAGAGTAAGTGAAACGAAATAA	MKNANEIKFLKNRSIVKFEGEDFLGEIGIDGRIFKALTLARISVGVISQQAVENGISILVHENDAEKAVACLIDEFETERKSGKVSQIYSINNVSVIGFVAEDFNKVFAELARNNVFPLLLNQVAGENRVNIVVTSSQDEKTRNIIESEIFKKPKTVHLAIIGHGNVGKTLIEQVLESAEEIKKRKKIDLKVVAVANSKKIAFNKKGFDANWSNEVLTAEHPSNVEELINFSNENQLENLIVVDNTASKDFVKNYHALAENGFDLVSSNKIFNTLPIEEYRKLRYTLSKNNRRYLYETNVGAGLPLIDTIKLLHLSGENITRIKGVFSGTLSYVFNNFSLRDDKFSTIINEALEKGYTEPDPREDLSGNDVARKLLILARELDLINEFGDINIQNLVPESLLEVSKSEFLSRLEELDEEYQKIKENQEPGHVLRYVGDLHGDLQKDKGELDVKLVSVPATSALGQLKGSDSIFEIYTESYGENPIVIMGAGAGAQVTARGVFGDILRVSETK	PGPT0020160_1324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020160-thrA-K12524	NA	NA
BMS003_01874	939	metXA	COG2021	Homoserine O-acetyltransferase	TTGAAAACAGAACTAAACTATATAAATCTTACGTATCAAGCTTATTCCCAAAAGGAATACCATATTTCATTAAGCTATCAGCTTTTTGGGAAAGATCTGTTTACAGCCCCTATCATTTTAATCAACCATGCTCTTACCGGAAATTCAAATGTATCCGGAGAAAAAGGCTGGTGGAAACAGCTGGTAGGAGAAAATCAGATTGTTGATACCGATCAATATACTGTTCTGTGCTTCAACATACCAGGAAACGGATACGACGATTTTTTAATTGAAGACTATGAAGACTTCACCCCCTCAGATATCGCTGCGATATTTCTGAAAGGACTTGAAGCCTTACATATCAAAAATTTGTATGCTATTATCGGAGGCTCTCTGGGAGGAGGGATTGCCTGGGAAATGCTTGCCAAGCAGCCGGATCTGGCAGAAATATTTATTCCAATAGCCTGTGATTACAGAACACACGACTGGCTTCATGCACAATGTCTGGTTCAGAAATTTTTATTGAATGATAAAGATGAACCATTACAGAAAGCGAGAATTCATGCCATGTTGTGCTACAGAACTCCACAGTCGCTCAATGACAGATTTCAAAACCAATATAATAAGGAAAAACAACGCCTGGAATCAGAAGACTGGTTGGTTTATCATGGTAGAGCTCTAAACGAAAGGTTTAGTTTAAAAGCTTATAAGCTGATGAATCATCTCCTGATGAATATAAACGTTGCTGAAGCAGCACTGGAGAATATACAGGCACGAATGCACATGATCTCCGTAGATACAGACTTATTCTTCCCGGCTTCTGAAATCCGAATGTGTTTTGAAAACTTAAAAGAGAAAAATAAAGATGTTTCTTATCACGAGATCCAATCTATACACGGGCATGATGCCTTCCTAATGGAATATCAACAATTAAATAATATCATAAAAAATATTTTATAG	MKTELNYINLTYQAYSQKEYHISLSYQLFGKDLFTAPIILINHALTGNSNVSGEKGWWKQLVGENQIVDTDQYTVLCFNIPGNGYDDFLIEDYEDFTPSDIAAIFLKGLEALHIKNLYAIIGGSLGGGIAWEMLAKQPDLAEIFIPIACDYRTHDWLHAQCLVQKFLLNDKDEPLQKARIHAMLCYRTPQSLNDRFQNQYNKEKQRLESEDWLVYHGRALNERFSLKAYKLMNHLLMNINVAEAALENIQARMHMISVDTDLFFPASEIRMCFENLKEKNKDVSYHEIQSIHGHDAFLMEYQQLNNIIKNIL	PGPT0020160_45	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020160-thrA-K12524	NA	NA
BMS003_01876	2616			hypothetical protein	ATGACCGCTGAAAAAGATAGATTACAAGATACCAAATGGAAAAACTGGGGACCTTATGTAAGCAACCGGCAGTGGGGAAATGTACGAGAAGACTATAGCCCGAACGGGAATGCCTGGAATTTTACCAATCATAATAATGCCGAAAGCTATGCTTACCGCTGGGGTGAAGAAGGCATTGCCGGAATTTCTGATGTAAAGCAGATTTTATGTTTTGCACTTTCGTTTTGGAACAGGAAAGACAAAATGGTAAAAGAGAGGTTCTTCGGATTGAGTAACCCTCAGGGGAATCATGGGGAAGATATTAAAGAAATCTTTTATTATCTGGATAATACACCTACTCATAGCTATATGAAAATGGTTTATAAATACCCGATCAATGAATTTCCCTACGATGAGCTTGTCGCAGAAAACGGAAGACGCAGTAAAAAGGAACCGGAATATGAGCTATTCGATACCGAAATTTTTGATAATGATGAATATTTTGACATTTTCATAGAGTATTGTAAAGCTGATCACAATGATATCCTTGCCAGAGTGACAATCTGTAACAGAAGTCAGCATGTAGCGCCTATTCTGGTTGCACCTACTGTATGGTTCAGAAACAACTGGAAATGGGGGTATAATACTTATAAAGGAGAAATCAATGCTTCTCCTGACGGAAGTATCAATATTGGGCACGACAGCATTTCGATCAAGAAATTCTATTCCAGAAATTCAAACGCCGAAAGTGTATTTTGTGATAATGAAACCAATACTTCCAGGCTTTACGGAGCTCCTGTAGCTGAAGGCACTTACTTCAAGGATGGAATCAATACTTTCATTACTCATAAAACGAACACGGTAAATCCCGAAAAACGGGGAACAAAAGCTTCTTTTCTGATTGATGAGCTTATTGGAGCCGGAGAATCAAAAGTTTTTGAATTCAGATTATGTCCGGATGAGACTGATGAGCCTTTTGAAAAGTTTGATGAAACTTTCAATACCCGACAGGCCGAAGCTGAAGAGTTTTATAAAGAAATTCAGAATGATACCATCAATGAAGATGAAAGAAATGTCCAGAGACAGGCTTTTGCAGGACTTCTCTGGAACAAGCAGTTCTATCATTACAATATCGGAAAATGGCTGAAGGGCGACCCTAACTTTGAAGCACCAAGAAATTTCAACGAATATGTAAGAAACACAGAATGGAATCATCTCCATAATAAGGATATCATTTCTATGCCTGATAAATGGGAATATCCCTGGTATGCTACATGGGATCTGGCATTTCACTGTGTCCCTTTTTCTATCATTGATGCAGAATTTGCCAAAGGACAGCTTTTACTACTTACCAAAGAGTGGTATATGCACCCTAACGGTCAGCTTCCTGCCTATGAATGGAATATGAGTGATGTGAATCCGCCTGTACATGCGTGGTCATGCTTCCGTGTTTTCAAAATTGATGAAAAAACTAATGGAAAGCCGGATTTATTATTCTTAGAAAAAGTATTCCAGAAACTGCTTCTTAATTTTACCTGGTGGGTGAACCGAAAGGATAAAAACGGAAAAAACATCTTTGGCGGAGGTTTCCTTGGTCTTGATAACATAGGTGCTTTTGACCGGAATATGGAGCTAAAAGACGGCCAGCATCTTGAGCAGGCAGACGGAACAAGCTGGATGGCGATGTATGCGCTGAATATGATGCGTATTGCAATGGAACTTGCCCAATATTACCAGGTGTATGAAGATATGGCCATCAAGTTTTTTGAACATTATCTTTATATCGCTGAGGCTATGGAAAACCTGGGTGAAAACACGAAAGGTCTCTGGAATGAAGAAGATGGATTCTTCTATGACGTATTGCAGCTTGGAAACGGTGAAAGTGTTTCTTTGAGATTAAGAAGTATTGTCGGTTTGATTCCTATGTTTGCGGTTGAGATTGTAGACCACCGTTTACTGGAAAAGATGCCGAATTTCAGAACCCGAATGGAATGGATTTTAAAAAATAAACCGGAATTGACCAAACTTGTTTCTCACTGGGACGAAGAAGGATACGGACGGAAACATCTGATGAGCATCCTCCGTAAAAACAGACTGACAAAGGTACTGACCAGAATGCTTGATGAGAATGAGTTTCTGAGCTCTTACGGAATCCGTGCGATGTCTAAGGTATATGAGGAAAATCCTTTTGTTTTCTCTGTACATGGAACAGAAAACATGGTATACTACACTCCTGCAGAAAGTGACAGCCGCATGTTTGGCGGAAACAGCAACTGGCGTGGCCCCATCTGGTTTCCTATCAATTTTCTGATTGTGGAAAGTCTGCAACGCTTCCATTATTACTATGGAAACAGCCTGAAAGTAGAACTTCCAACAGGAAGCGGTGATAAAAGAAACCTTGATGAAGTAGCCCAGAATATAAGCAAACGACTTTGTTCTCTATTTTTAAAGGATGAACATGGGCAAAGGGCTTTCAACGGAGGTAATCCAAAGTTCAATTATGATGAACATTTCAGGGATTATATTACTTTCTTTGAGTACTTCCATGGAGATAACGGCCGTGGTGTAGGAGCATCCCATCAGACGGGATGGACAGCTACCGTGGCGAAACTGATCAAACCAAGACTTACCTTTTAA	MTAEKDRLQDTKWKNWGPYVSNRQWGNVREDYSPNGNAWNFTNHNNAESYAYRWGEEGIAGISDVKQILCFALSFWNRKDKMVKERFFGLSNPQGNHGEDIKEIFYYLDNTPTHSYMKMVYKYPINEFPYDELVAENGRRSKKEPEYELFDTEIFDNDEYFDIFIEYCKADHNDILARVTICNRSQHVAPILVAPTVWFRNNWKWGYNTYKGEINASPDGSINIGHDSISIKKFYSRNSNAESVFCDNETNTSRLYGAPVAEGTYFKDGINTFITHKTNTVNPEKRGTKASFLIDELIGAGESKVFEFRLCPDETDEPFEKFDETFNTRQAEAEEFYKEIQNDTINEDERNVQRQAFAGLLWNKQFYHYNIGKWLKGDPNFEAPRNFNEYVRNTEWNHLHNKDIISMPDKWEYPWYATWDLAFHCVPFSIIDAEFAKGQLLLLTKEWYMHPNGQLPAYEWNMSDVNPPVHAWSCFRVFKIDEKTNGKPDLLFLEKVFQKLLLNFTWWVNRKDKNGKNIFGGGFLGLDNIGAFDRNMELKDGQHLEQADGTSWMAMYALNMMRIAMELAQYYQVYEDMAIKFFEHYLYIAEAMENLGENTKGLWNEEDGFFYDVLQLGNGESVSLRLRSIVGLIPMFAVEIVDHRLLEKMPNFRTRMEWILKNKPELTKLVSHWDEEGYGRKHLMSILRKNRLTKVLTRMLDENEFLSSYGIRAMSKVYEENPFVFSVHGTENMVYYTPAESDSRMFGGNSNWRGPIWFPINFLIVESLQRFHYYYGNSLKVELPTGSGDKRNLDEVAQNISKRLCSLFLKDEHGQRAFNGGNPKFNYDEHFRDYITFFEYFHGDNGRGVGASHQTGWTATVAKLIKPRLTF				NA	NA	NA	NA	NA
BMS003_01877	420	yhfA	COG1765	Protein YhfA	ATGAAAATTACACTTAACAGAATAAACGACGATTTTTTATTTGAATGTACCAATGCTCAGGGAAATTCCATTCTTTTGGATAATACTTCCCAGCCGGGTGCAAAAGGAGTTTCTCCAATGGAAAGTGTTCTGATGGCAGTAGCAGGCTGCAGCGGAATAGATGTAGTTTCTATTCTTAAAAAGCAGCGTCAGGAAATCAAAAGCTTTCAGGCAGAAGTAGAAGGAGAAAGAGTACAGGTAGATGATGCGAAACCTTTTAAATCTATTAAGGTGAAGTTCCTTTTGGAAGGAGAAATTGATCCTAAAAAAGCACAGAAAGCTGCAGAACTTTCTTTTGAAAAATACTGTTCTGTATCAAAAACGCTGGAACCGAATGTAGAAATCGGGTACGAAGTATATGTGAACGGAGAGAAAATTTAA	MKITLNRINDDFLFECTNAQGNSILLDNTSQPGAKGVSPMESVLMAVAGCSGIDVVSILKKQRQEIKSFQAEVEGERVQVDDAKPFKSIKVKFLLEGEIDPKKAQKAAELSFEKYCSVSKTLEPNVEIGYEVYVNGEKI				NA	NA	NA	NA	NA
BMS003_01878	1323			hypothetical protein	ATGAAAAACTTATACATCAATACACGTTTCTTTTTTACACTCATCGGAGTGGGGATTCTGTATGTCCTGGCATTTTTCTTTCCGGTGCTGATGTGGGTAGCCCATATCACACTCCTGATTTGCTTTCTGTCGGCAATGGTAGATTTTCTATTGCTTTTTAATCAAAAGAATGCACTACGGGTTCAAAGGATTCTGCCGGAAAAACTCTCCAACGGAGATGAGAATTTTGTGAAAATTGACATCAAAAATAATTACAGCTTTACCATACACACTAAGATTATTGACGAAATTCCGTTCCAGTTTCAGAAAAGAGATTTTCTCATCAAAAAACAGATTGCTTCAGGAGCGAACACCTTTTTTCAATATACTTTAGAACCTAAAGAAAGAGGAGAATATCATTTTGGAGCGTTGAATGTGTATGCATCATCACCATTGGGATTCATCTCAAAAAGATTTATTTTCCAGAAAGATGCTATGCTGCCTTCTTATCCGTCTTTTATTCACCTCAGAAAATATGAGCTTATGGCCATTCAGAGTGAATTTTTATTAGGCGGAATAAAGAAAGTCAGAAAGCTGGGACACACTATGGAATTTGAGCAGATCAAAGAATATGTTCCCGGAGATGATATCAGAACAATCAACTGGAAAGCAACCTCCAAGGCCAACCGTCTGATGGTAAACCAGTTTCAGGATGAAAAATCACAGCGTATTTTTATGCTGATTGATAAAGGAAGAACCATGAAAATGCCTTTCAATGGATTAAGCTTGCTGGATTATTCCATTAATGCGACAATGGCATTGTCTCATATTATTTTGAGAAAAGGAGACAGAGCCGGAATGATGACGTTTTCCAAGAAAGCTGAAAATAAAATTGCCGCTGATAATAAATCCGGACAGCTGAAAAAAATCTCTGAAGCACTTTATAATATTAAAACAGATTTCTTCGAAAGTGATTTCAACCGTTTGTATCAGGATGTAAAATATTCCATCAATCAAAGAAGCTTAATTTTGCTTTTCACCAATTTTGAGACATTGGATGGATTGAACCGACAGTTAAAATATCTTCGAGGAATCGCCAAAAACCATTTGCTGGTAGTAGTATTCTTCAAAAACTCAGAACTGCAGACGCTGATCAACAAAAATCCTGAAAACATGCAGGAGATCTACGATGAGATCATTGCTGAGAAATTTGAGTTTGAAAAGAAACTGATCATTCAGGAACTCCGTAAATATGGAATTTATACGGTCTATACCCTTCCTGAAAATTTGAATATCGATGTTATCAATAAATATCTGGAGATAAAAGCAAGAGGAATTTTATAA	MKNLYINTRFFFTLIGVGILYVLAFFFPVLMWVAHITLLICFLSAMVDFLLLFNQKNALRVQRILPEKLSNGDENFVKIDIKNNYSFTIHTKIIDEIPFQFQKRDFLIKKQIASGANTFFQYTLEPKERGEYHFGALNVYASSPLGFISKRFIFQKDAMLPSYPSFIHLRKYELMAIQSEFLLGGIKKVRKLGHTMEFEQIKEYVPGDDIRTINWKATSKANRLMVNQFQDEKSQRIFMLIDKGRTMKMPFNGLSLLDYSINATMALSHIILRKGDRAGMMTFSKKAENKIAADNKSGQLKKISEALYNIKTDFFESDFNRLYQDVKYSINQRSLILLFTNFETLDGLNRQLKYLRGIAKNHLLVVVFFKNSELQTLINKNPENMQEIYDEIIAEKFEFEKKLIIQELRKYGIYTVYTLPENLNIDVINKYLEIKARGIL				NA	NA	NA	NA	NA
BMS003_01879	351			hypothetical protein	ATGGCAAATTTTAAAGAGCTTTTAGTTTGGCAGAAATCGATTGATTTTGTTACTGAAATTTATAGAATTACAGAAACTTTTCCTAAAGCCGAAATCTACGGATTGGTATCACAAATCAGAAGAGCAGCTGTTTCCATCCCCTCCAATATTGCAGAGGGTAACTCGAGACGAAGTAAACTGGATTATCTACAATTTTTAAAAATAGTAAGAGGCAGTTGTGCAGAGGTGGAAACCCAGTTAATAATTTCAAAAAATCTCGGGTTTTTAAATGAAGATGATTATTTGAAACTCAATGAAAGGATTATAGAAATATCCAAAATGTTGAACAGACTTATTAATTCCTTACAATAA	MANFKELLVWQKSIDFVTEIYRITETFPKAEIYGLVSQIRRAAVSIPSNIAEGNSRRSKLDYLQFLKIVRGSCAEVETQLIISKNLGFLNEDDYLKLNERIIEISKMLNRLINSLQ				NA	NA	NA	NA	NA
BMS003_01880	1032			hypothetical protein	ATGGAAAATTTTGATAACCCCAATATAGAAAATCAGAACCCTGTCAATCTTAATAGGCAGGAAGAGCAGTTTCAGTCAAGAATAGATATGATTGAGCTCCGTACAAGCCTGGATAAAGTAAAATCTGAGATAGGAAAAGTAATTGTAGGGCAGGAGAAGATGATTGAACATCTTTTGGCTGCATTGCTTTCAAATGGGCATGTCCTTATAGAAGGGGTGCCGGGAGTAGCCAAAACAATCACTGCAAAATTATTAGCTAAAACTATTGATGTAGGTTTCAGTAGAATCCAGTTTACACCGGATCTGATGCCTTCTGATATTTTAGGTACATCCATATTCAATGTGAAAAATTCAGAATTTGAATTTAAAAAAGGACCTATCTTCTCCAATTTCATCCTGATTGATGAGATCAACAGATCACCTGCCAAAACGCAGTCTGCATTATTTGAAGTAATGGAAGAAAGACAGATCACAATGGATGGTACACGTTATACGATGGAAGAACCTTTCCTTGTCATCGCTACGCAAAACCCGATTGAACACGAGGGTACATACCGACTTCCGGAAGCTCAGCTGGATCGTTTTCTATTCAAAATAGAAGTAGGATACCCTAATCTTGAACAGGAAATCGCGATCATTAAAAATCAGCACGAAAGTAAAAAAGAAGATAAAACAGAAGGGATTAACCGTGTTATCAGTGCAGAACAGTTGAAAAACTATCAGCATCTGGTAAAAGAAATCATTGTGGAAGCCCAACTGATGGAATATATTGCTAAAATTATCATCAATACCAGAGAAAATCAATTCTTATATCTGGGAGCTTCTCCAAGAGCTTCACTGGCACTTCTTACGGCTTCAAAGGCATTTGCAGCAATAAGAGGAAGAGATTTTGTTACTCCGGAAGATATTAAAGAAGCAAGTTATGCTGTTTTAAGACACAGAGTAATTGTATCTCCGGAAAGAGAAATGGAAGGCCTTACCGCTGATGAAATTATCCGTCAGATTTTAGAAGGAATAGAGATTCCAAGATAG	MENFDNPNIENQNPVNLNRQEEQFQSRIDMIELRTSLDKVKSEIGKVIVGQEKMIEHLLAALLSNGHVLIEGVPGVAKTITAKLLAKTIDVGFSRIQFTPDLMPSDILGTSIFNVKNSEFEFKKGPIFSNFILIDEINRSPAKTQSALFEVMEERQITMDGTRYTMEEPFLVIATQNPIEHEGTYRLPEAQLDRFLFKIEVGYPNLEQEIAIIKNQHESKKEDKTEGINRVISAEQLKNYQHLVKEIIVEAQLMEYIAKIIINTRENQFLYLGASPRASLALLTASKAFAAIRGRDFVTPEDIKEASYAVLRHRVIVSPEREMEGLTADEIIRQILEGIEIPR				NA	NA	NA	NA	NA
BMS003_01881	1158			hypothetical protein	ATGAATAAAACTTTCAAAACATATGCTGTAATTTTCATTATTGTGATGATTGTTTTGGCATTGCTTGAAGTTAACAAAAAAGAAACAACAGACTGGCGGAAGAATTTTGATCTGAACGAAAAGTCTCCGTTCGGACTATTTGTTTTTAATAATGAAGCCAAAGATCTTTTTAAAAATAATCTGAAGAAGATAGAGCAGGCTCCTTACGAATATTACAGCCAACACAAAAAATCGCCTCACAATATTATTGTTATTGAAAATAATATCGACAGAGAATCCTGGAATAAAATTCTGTCTCAGGTATCCGAAGGATCAGATGCCATGCTGATGGTAACCCGCATGCCGAAAGAAGTTTCAGACAGCATCGGATATTATGATTCTGAAATCTCTTTTCAAGAAGAAAATGTACTGAAGCTTACGGATAAAAAATTCCAGAATGATTTTATTAAACTTGATAAATTTCCATCCGGGAGAGGGTTTTCATTCATCAAACCTAAGGTAGAAGTGCTGGGGAAAACAGTAGAGAGTAAGAATACGGATCAGGCCAACTTTATCAAGGTGAAATTTGGGAAAGGGCATATTTATGCACATGTAGAACCTCTTTTTCTAACGAATTATTACCTTTTGAAACCCGGAAATGTAAAATATGCTCAGGATGTGTTTTCATATTTACAGGATAGGGAAACCCTTTGGTTTGTTGCTAATAAAAGTACTGCATCCCGTTTCTTTATGAGATTTGTACTGTCTAATCCAACTTTAAAATATGCCTGGTGGGTGTTTTTGGGAGGCTTTATCCTTTTCATTTTCTTTAATGCAAAAAGAAAGCAAAGAATAGTACCTGTAGAAGAGCCGTTAAGAAATACTTCGCTGGATTTTGTGAAAAGTATTGGAAATCTGTATCTTCAGGAAGGCGATTTTCATGATATGATGGCAAAAAAAGCACAGTATTTTCTGAATAAAGTAAGAATGGACCTGTTGATAGATACTCAGAATTTGGATGAAGAATTTGCCAAAAAATTACATCTGAAAACAGGAAAACCTGTAGAAATGATAGATGAAGCAATAGTGCTTATTAAAAAAGCACAGGATCCTTACGCCAGTGTAATGAAGGAAGACCTTACAAGGATTAATAAGCTCCTTGATGAAATACTTAAATAA	MNKTFKTYAVIFIIVMIVLALLEVNKKETTDWRKNFDLNEKSPFGLFVFNNEAKDLFKNNLKKIEQAPYEYYSQHKKSPHNIIVIENNIDRESWNKILSQVSEGSDAMLMVTRMPKEVSDSIGYYDSEISFQEENVLKLTDKKFQNDFIKLDKFPSGRGFSFIKPKVEVLGKTVESKNTDQANFIKVKFGKGHIYAHVEPLFLTNYYLLKPGNVKYAQDVFSYLQDRETLWFVANKSTASRFFMRFVLSNPTLKYAWWVFLGGFILFIFFNAKRKQRIVPVEEPLRNTSLDFVKSIGNLYLQEGDFHDMMAKKAQYFLNKVRMDLLIDTQNLDEEFAKKLHLKTGKPVEMIDEAIVLIKKAQDPYASVMKEDLTRINKLLDEILK				NA	NA	NA	NA	NA
BMS003_01882	768			hypothetical protein	TTGTTTTTTTTCTCTCTTGGGCTGGTTCACGCTCAGGATGATAATGCTGATTCCGATGATCTGATAGATTCATTATACACCACCGGACATTACAGAAATATGCTGCGTGCAGATTCTGTGCTGATGAAAAATCCGGTCTCAGAAAATGAAGTGTATCCGAAAACATTCAAAGAAAATATTCCGTCCAGATATAAAGGAAATGAATTTGATTATTCCGTATCAAAACCGAGAGAATCTTTCTTTCAAAAGCTGATGCGAAAAATTAATCAGATTATACAGGGTATTTTCGGGGAAACAGCACTCACTAAGTCGACAACGCTTACTACTGTTCTTATTCGTCTGTTTGCTATTATTCTTGTAGGATTTCTGCTTTATTTCATCATTAAATACATCATGGGAAAAGATGGGAATTTTATTTTTGGTAAAAAGAATAAAAAACTGGATCTCAATGTACAGGAACTTCATGAGAATATCCATGAAATCAATTTCCCTGAAAGTATTGCAAAATTTGAACATGCAGAAGATTACCGTTCTGCAGTCCGTTACCAATTCCTGCTGGTTCTTAAAAAGCTAAGCGATAAAAAACTGATCAACTGGAATCCGCAAAAAACAAATAAGGACTATGCCGCAGAGCTTAAAGCCCCTCATCTGAAAAACGAATTTTCTAACCTTACTTATATCTTTGATTATGTCTGGTACGGAGAATTCAATATTGAAGAAGAAAGCTATCAGAAATTTAAAAATCAGTTTCAGGCATTTAAACCATAA	MFFFSLGLVHAQDDNADSDDLIDSLYTTGHYRNMLRADSVLMKNPVSENEVYPKTFKENIPSRYKGNEFDYSVSKPRESFFQKLMRKINQIIQGIFGETALTKSTTLTTVLIRLFAIILVGFLLYFIIKYIMGKDGNFIFGKKNKKLDLNVQELHENIHEINFPESIAKFEHAEDYRSAVRYQFLLVLKKLSDKKLINWNPQKTNKDYAAELKAPHLKNEFSNLTYIFDYVWYGEFNIEEESYQKFKNQFQAFKP				NA	NA	NA	NA	NA
BMS003_01883	963			hypothetical protein	ATGATACAATTTTATAAAAAAAGAGATTTTGGAACTTTTATCAGTGACAGTTTCAATTTTTTCAAGTTATACGGGAAGAATTATTTCAAAAATTATATTCTGATCAACGGCTTGCTTCTGATCTTAATGGTGATAGTTGTGATTTTTGGATATAAAGAACTCTTTTCACAGATATTCGGATCCAATCTTGGTGGTGAAGCGTATTATTTTGAACAATATTTTTCAGAAAACTCCGGAATGTTGATTACAGTAGGACTATTGACTTTCCTGCTTTTCATGGTTCTGATGATTGTTAATTATCTTTACCCTGTTTTTTATTTAAAAAGAATTGCTCAGGGTGCAGAAAAGATAAAAGCTGATGAAATTCTGAATGATTTTAAAAGCAATGCTGGAAGAATTGGCAAGTTGTGTCTGGGAATGATCTTTATCGTTACTCCGTTGGTATTGTTTGTGGTAGGATTTTCTTACATTTTGATTTTTATTATTATCGGGTTGTTTCTGATCCTGCTGCTTTATCCCACAATATTTAATTTTACTACCTTTCTGATGTATGATTATTTTAATTCGGACAGAGGCTTCTGGGGCAGTCTGAGCTATGCTTTACGCTCTCAGTTTTCTTACCCTAACGGAAGTGAGAAATCACCCTACTGGAAATATTGGGGATCTGCATTTGTGATGTTTATTATTATTTATATGATAACATCTGTATTCACATTTATCCCGATGATATTCTTTTACGGATCGCTTCTTACTTCTGCTCCGGATGGGAATTTTGAGCAGAATCCTTTTACCGGAGCTGCGGGTGTCCTGTTTTTTGTATTGTATGGATTTTCGATGCTACTTTCATTTTTTCTTTCAAATCTGATGTATGTGAATTCAGGACTGATGTATTATGACAGCAGAACAGATCTTCACCAGAAAGCAGAACTGGCAGAAATAGATACGATTGGAATCAATGAATAA	MIQFYKKRDFGTFISDSFNFFKLYGKNYFKNYILINGLLLILMVIVVIFGYKELFSQIFGSNLGGEAYYFEQYFSENSGMLITVGLLTFLLFMVLMIVNYLYPVFYLKRIAQGAEKIKADEILNDFKSNAGRIGKLCLGMIFIVTPLVLFVVGFSYILIFIIIGLFLILLLYPTIFNFTTFLMYDYFNSDRGFWGSLSYALRSQFSYPNGSEKSPYWKYWGSAFVMFIIIYMITSVFTFIPMIFFYGSLLTSAPDGNFEQNPFTGAAGVLFFVLYGFSMLLSFFLSNLMYVNSGLMYYDSRTDLHQKAELAEIDTIGINE				NA	NA	NA	NA	NA
BMS003_01884	984			hypothetical protein	ATGAGAGAAGTTTATTTCATTAAACAAAATAAAGAAAAATGGTTGGGAATAGAACAGGTTATACAAGGGAAAATTAAAAAAAATCCTGATGACCTGTCTTCGTTGTACATCAACCTGATCAACGATCTTTCTTTTGCCCAGACTTATTATCCCAAAAGTAATACCACTGTGTATCTGAATCATTTATCTGCTCAGATTTTTCAGAAGATCTATAAAACAAAAAGGGTAGAGGAGAACAGGTTGGTTTATTTTTTTAAAACAGAAGTTCCGCTGCTGATGTATCAGTACCGGAGATATCTGATGTACGCATTTCTCTTTTTCATTTTATTTACATCAATTGGAGTGCTATCTGCGATTTATGATAAAGACTTTGTCAATATCATTTTGGGTGAAGGGTATGTGAATGAAACCATAGAAAATATTAAAAATAATAATGCTGTAGGGGTTTATCAGAGTGGAAGCACATGGGGAAGCACCATCGGGATTATCTTTAATAATATTCAGGTTGGAGCAAAACTATATATCTACGGCATTGCAGGAGGAGTGGGGACATTGTTTGCATTGCTCTCCAACAGTGTGATGCTGGGGGCTTTTCAATATTTTTTCTATGACTACGGAGCATTGAAAGACAGTGCAAGAGGAATTTGGCTTCACGGAGTTTTTGAAATTTTTGCCATGGTGGTAGAAGCCATGTGCGGATTAATTTTGGGTGCTTCTATTTTATTCCCGAGAACTTTTTCAAGGTTCAATTCTTTTAAAAAAGGATTTAAAGATTCATTTAAAATATTTTTAAGTACTGTTCCTTTCACCATTTTTGCAGGAATTATAGAAGGCTATGTCACCAGGCACGCATTAAAGATGCCCTTAATTTTGAACCTGATCATTATTTTGGGTTCACTGGCAATTATTGGATTTTACTATTTTGTATATCCGTCTGTAGTCTATAAAAAAACTAATCAACACATCCATGATACAATTTTATAA	MREVYFIKQNKEKWLGIEQVIQGKIKKNPDDLSSLYINLINDLSFAQTYYPKSNTTVYLNHLSAQIFQKIYKTKRVEENRLVYFFKTEVPLLMYQYRRYLMYAFLFFILFTSIGVLSAIYDKDFVNIILGEGYVNETIENIKNNNAVGVYQSGSTWGSTIGIIFNNIQVGAKLYIYGIAGGVGTLFALLSNSVMLGAFQYFFYDYGALKDSARGIWLHGVFEIFAMVVEAMCGLILGASILFPRTFSRFNSFKKGFKDSFKIFLSTVPFTIFAGIIEGYVTRHALKMPLILNLIIILGSLAIIGFYYFVYPSVVYKKTNQHIHDTIL				NA	NA	NA	NA	NA
BMS003_01885	750			hypothetical protein	ATGTCTCAAATTGCGATAAATACCTCACAAAATGTAAATATTAATTTTAATATTGCAGGCGTAGGAGAAAGGATGCTTGCCTTCATTATTGATCTTCTGATCAGGATCGCTTATGTAGTGATTATCCTGTATCTGTTCTTCAGTATTTTTGATTTGGGATATCTGTTAGACGGCCTTGATGGCTGGTCCGTAAGGGCTGTATATCTTATCCTTACCTTTCCCATCTATATTTACCCTCTGGTTTTGGAAAGCCTTATGGAAGGCCAGACTCCCGGGAAAAAACTGATGAAAATCAAAGTGGTGAAGATTGACGGCTACCAGGCCAGCTTTGCCGATTATATGATACGATGGGTTTTCAGAATTGTAGATGTTTCTTTTGCCGGTGTGATAGGGCTTATTTCTATGATTGTTTCTAAAAATAACCAACGTCTTGGCGATATTGCTTCCGGAACGGCTGTAATTTCTCTGAAAAACAACATTAATATCTCTCATACCATTCTGGAGAATATTCATGAAAACTATGTTCCTTCTTTTCCCCAGGTGATTGCTTTGAGTGATAATGATATGAGAATCATCAAAGACAATTATACCAAAGCTTTGAAGGTAGACGACCGCCAGATTATCAATAAACTATCCAATAAAATCAAAAGTATTCTGAAGCTGGAAATAGATCCCACTAAAATGACGGAGAGACAGTTTATCAACGTTATTATTAAAGACTATAATTACTATACGGGAAAAGATAATTAG	MSQIAINTSQNVNINFNIAGVGERMLAFIIDLLIRIAYVVIILYLFFSIFDLGYLLDGLDGWSVRAVYLILTFPIYIYPLVLESLMEGQTPGKKLMKIKVVKIDGYQASFADYMIRWVFRIVDVSFAGVIGLISMIVSKNNQRLGDIASGTAVISLKNNINISHTILENIHENYVPSFPQVIALSDNDMRIIKDNYTKALKVDDRQIINKLSNKIKSILKLEIDPTKMTERQFINVIIKDYNYYTGKDN				NA	NA	NA	NA	NA
BMS003_01886	291			hypothetical protein	ATGAAATTTGAAAATAACAAATCCGGAAACGGCGGTGTTCTTACTTTAAATAACGAAACAAAAGAAGTGGGAAGACTTACCTATACTATTTTCCCTGAAGATCATAAATTCATCATCTCTTTTGTATTGGTACACCCTGAATTTGAAGGCAGAGGAATGGGAAAATATTTAGTGGAAGAAGCTATTAAGTTTGCCAGAGAAAATAATTGGAAAGTATATCCGCACTGTTCTTATGCAAGATCTGTGATGATGAGAATGAGTGATGTAGACGATATTTTTTTAAAGAATTAA	MKFENNKSGNGGVLTLNNETKEVGRLTYTIFPEDHKFIISFVLVHPEFEGRGMGKYLVEEAIKFARENNWKVYPHCSYARSVMMRMSDVDDIFLKN				NA	NA	NA	NA	NA
BMS003_01887	972			hypothetical protein	ATGAAGATTTTGTACGCATTCCAGGGTACCGGAAACGGGCATGTTGCCAGGGCACAGGAAATTATTCCTCTTCTCAAGAAGCATGCATCTGTTGATACATTGATCAGTGGACACCAGTCGCAATTAAAGGCCGATTTTGACATTAATTTCCAATACAGAGGTATTTCTCTTCTTTATAACAAAACAGGCGGTTTATCCTACCGAAAAACGTTTACAGAAAATAAATTCCTTGAAGCAGCCAAAACAGTAAGAGAACTGGAGCTGTCACAGTATGATCTGATCATCAATGATTATGAACCTTTGACAGGCTGGGCTTCCAAGCTGAAAAAACTTCCGATGATAGAGCTCAGCCATCAGGCTTCCATGAGTTTTGCGGAAACTCCAAAGCCAGAGAAGAAAGATTTTCTGGGGGAAATAATTTTAAAATACTATGTTCCCAGTGAAAGAAAAATTGGTTTTCATTTTGAGAATTATCATCCACAGATCAAAAAACCGGTAATCAGAAGAAAGATCCGGAATCTTAACCCTTACAAACAGGGATATTATCTTGTTTATCTTCCAAGTTTTGCGGACGAAAACATCATTAAGGTGTTAAGGAAAATTCCTGTGGAATGGAAAGTGTTTTCAAAATACAGCAAAGTACAGGTGAAAGTGAAAAATGTGGAAGTATTTCCTATTGATGAAAGCAAGTATCTGAAATACTTTGAAGGCTGTGACGGAATTTTGTGCAACGCAGGTTTTGAAAGCCCGGCAGAAGCCTTGTTTATGGATAAAAAACTATTCGTGATTCCTATCCACAATCAATATGAACAGGAATGCAATGCATGTGCTCTTGACAAAATGGGAATCCCCAATTCCAAGGTTTTAAATCTTCAGGAAATTATGGAGTGGGTAGCTTCTGACCACCATCTTAAAGTAGATTATCCGGATGATATTGAAGATATCCTGGTGAATGAGGTTTTAATTCTTTAA	MKILYAFQGTGNGHVARAQEIIPLLKKHASVDTLISGHQSQLKADFDINFQYRGISLLYNKTGGLSYRKTFTENKFLEAAKTVRELELSQYDLIINDYEPLTGWASKLKKLPMIELSHQASMSFAETPKPEKKDFLGEIILKYYVPSERKIGFHFENYHPQIKKPVIRRKIRNLNPYKQGYYLVYLPSFADENIIKVLRKIPVEWKVFSKYSKVQVKVKNVEVFPIDESKYLKYFEGCDGILCNAGFESPAEALFMDKKLFVIPIHNQYEQECNACALDKMGIPNSKVLNLQEIMEWVASDHHLKVDYPDDIEDILVNEVLIL				NA	NA	NA	NA	NA
BMS003_01888	825	lpxH_1		UDP-2,3-diacylglucosamine hydrolase	ATGAAAAGAAACGTTGAATTAGTTGTTATATCGGATGTTCATTTGGGAACTTATGGATGTAAGGCTAAAGAATTGTTGAGATACCTCAATTCTATCCAGCCTAAAACGTTAGTTTTAAACGGTGATATTATTGATATCTGGCAGTTTAAAAAGTCTTACTTCCCTAAACCTCATTTGAAAGTAATCAGAAAGATACTTTCACTGGCTACCAAGAACACAGATGTTTATTACATTACGGGTAATCATGATGAAATGTTCCGTAAGTTCACAGATTTTGAGCTTGGAAAACTTAAAGTCTGTAATAAAGTCTGTCTGACTATAGATCAGAAAAAAGCCTGGATATTTCATGGTGATGTTTTCGATGCATCCGTCCAGCATTCCAAATGGATCGCCAAACTTGGCGGAAAAGGGTATGATCTCCTTATTATTATCAATAATGTTGTAAATTGGTTCTTAGAAAAAATGGGTAGAGAGAAATACTCCTTTTCTAAAAAGATTAAAAATAATGTGAAAAAAGCGGTAAAATATATCGGAGATTTTGAACTTACAGCTTCTGAACTGGCTATTGATAACCAGTATGATTATGTGGTGTGTGGACATATTCATCAGCCGCAGATTCGAGAGGTAGTCAATAAAAAAGGAGCCTGTACTTATTTGAATTCCGGTGACTGGATTGAAAATCTGTCTGCTTTAGAATATCATGATAAAGAATGGAAGATATTTTATTATGATGAACATAAACACTTATTGAAAGATGATGAAGTGGAAGAAATCCCGGAAATGGATAATTCTGCTCTTTTAAAAATTGTAACCAACTTTTCCTAA	MKRNVELVVISDVHLGTYGCKAKELLRYLNSIQPKTLVLNGDIIDIWQFKKSYFPKPHLKVIRKILSLATKNTDVYYITGNHDEMFRKFTDFELGKLKVCNKVCLTIDQKKAWIFHGDVFDASVQHSKWIAKLGGKGYDLLIIINNVVNWFLEKMGREKYSFSKKIKNNVKKAVKYIGDFELTASELAIDNQYDYVVCGHIHQPQIREVVNKKGACTYLNSGDWIENLSALEYHDKEWKIFYYDEHKHLLKDDEVEEIPEMDNSALLKIVTNFS				NA	NA	NA	NA	NA
BMS003_01889	741		COG0217	putative transcriptional regulatory protein	ATGGGAAGAGCATTTGAATATAGAAAAGCTTCTAAAATGGCCAGATGGGACAAGATGGCCAAAACATTCTCCAAAATAGGAAAAGATATTGCGTTAGCTGTAAAAGCAGGTGGAACAGATCCTGAATCTAATCCCGCATTGAGAAGATGTATCCAAAACGCAAAAGGGGCAAACATGCCTAAGGATAACGTAGAAAGAGCCATTAAGAAAGCGAGTGGTGCAGACGCAGAAAACTATGAGGAGATCACGTATGAAGGTTATGGACAGGGTGGTGTTGCATTCTTTGTAGAATGTACTACAAACAACACGACAAGAACTGTAGCCAATGTAAGAGCGGTTTTCAACAAGTTTGATGGTAACCTTGGTAAAAATGGTGAATTAGCATTTATCTTCGACAGAAAAGGAATTTTCACAATCGATCTGGCTCAGATTAAAATGGACTGGGATGATTTTGAAATGGAAATGATTGACGGTGGAGCAGAAGATGTAGAAAAGGATGAGGAGGAAGTGATGATCACAACCGCTTTTGAAGACTTTGGTTCTTTATCTCACAAGCTTGATGATCTTGGAATTGAAGCGAAAAGTGCGGAGCTTCAGAGAATTCCAAACAATACAAAAGAAGTGAACGCAGATCAGTTCAAAGCTAATATGAAAATGCTTGAGCGTTTCGAGGAAGATGATGACGTTCAAAACGTTTACCACAACATGGAAATCACAGAAGAGCTGATGAACTCTCTATAA	MGRAFEYRKASKMARWDKMAKTFSKIGKDIALAVKAGGTDPESNPALRRCIQNAKGANMPKDNVERAIKKASGADAENYEEITYEGYGQGGVAFFVECTTNNTTRTVANVRAVFNKFDGNLGKNGELAFIFDRKGIFTIDLAQIKMDWDDFEMEMIDGGAEDVEKDEEEVMITTAFEDFGSLSHKLDDLGIEAKSAELQRIPNNTKEVNADQFKANMKMLERFEEDDDVQNVYHNMEITEELMNSL				NA	NA	NA	NA	NA
BMS003_01890	1500	pal_2		Peptidoglycan-associated lipoprotein	ATGAAAAATCTAAAATTAGGAATTTCAGCATTGGCGCTTACTGTTGCCTCTACTGTTTTCGCACAGACTACCAACAATCCGTGGTTGATCGGGGTTGGTGCTCATGCTGAAAACCATGTAGCAGCAAGAAGTAACTTCAGTAATACGTTCTCTGCTAACAATTTGACGAAAAATATGTTCAATGTGAACAATTTTTCTATTACGCCTCCATTATCTAAGTTAACAGTTGCTAGAAACGTTGGTAAAGGTTTAGTAATTGACTGGCAGACTTCTGTTGGAAATGTTGAAAACAAAAGATTCAACATGGGGAAAGAATTTTTCCTAATGACAGGTCTTGGTTTCCAGGCTCACGCTGCAGGTCTTTTATGGAACGAAGAATCTTGGTTTGATCCATATTTAAGAGTTGGTGCTAACTACTTAAGACATGACTATACAGCTCTTACTTTCCCTAGAACATCTGTAGATGCTAACGGGAATCCAATCGAAAACGTAGTTAACGGTAAAGATGGTAACGAAAACGGTAAAGCTAACCACTTTGCTTTAGCAACAGGTGCTGGTGCTAACTTCTGGGTTACTAAGAACTTTGGTCTTGGTGTTCAGGGTGATTATGTATCAACTCCAGGTGACCACTCTACAGTGGCTAACTTCTGGCAAGCTTCTGCTTCTATCTTATTCAGATTTGGAAACAGAGATAGAGATAAGGATGGTATCCTAGATAAAGATGACCTTTGTCCAGATACTCCAGGTTTACCAGAATTCCAGGGATGTCCTGATACTGACGGTGACGGAGTTCCAGATAAAGACGATCAATGTCCAGACGTGGCAGGTCCAGTTGAAAACAACGGATGCCCTTGGCCAGATACTGACGGTGATGGTGTAATCGATAAAGATGACGCTTGTCCTACAGTAGCAGGTCCTGCTGAAAACAACGGTTGTCCTTGGCCAGATACAGACGGTGATGGTATCCTAGATAAAGATGATGCTTGTCCTACTGTTCCAGGTCTTCCAGAATACAACGGATGTCCTAAGCCAAAAGATGTAACAGCTATCGAAGTTGAAGGGAAACTTAAAGCAGTATTCTTTGATTTCAACAAAGCTACAATCAGAGCTGAATCTAAAGGTGCTTTAGATACTGCTGCTGAAATCATTAAGAAAGATGGAGGTAGATTCCTATTAGTTGGTGAAACTGACAAAAAAGGAAGTGATGCTTACAACTTGAAATTATCTAAAGAAAGAGCTGCTGCTGTAGTTGCTGCTTTAGATGCTAGAGGTGTAGATGTTAACGCATTAAAATCAGTTGGTATTGGAGAGCAAAATGCTAAAGTTGCAGAATCTGCTTCTGATGCTGAAAGACAAGCTGATAGAAAAGTAACTGTTAGATACGTAGGTGATGACAGTGAATGGAACAAATATCAAAAATCTGATGTTGTTGCTCCAGCAAAAAAAGCTACTAAAAAAGCTCCGGCTAAGAAAAAAGTAGTTAAAAAGAAAAGAAAATAA	MKNLKLGISALALTVASTVFAQTTNNPWLIGVGAHAENHVAARSNFSNTFSANNLTKNMFNVNNFSITPPLSKLTVARNVGKGLVIDWQTSVGNVENKRFNMGKEFFLMTGLGFQAHAAGLLWNEESWFDPYLRVGANYLRHDYTALTFPRTSVDANGNPIENVVNGKDGNENGKANHFALATGAGANFWVTKNFGLGVQGDYVSTPGDHSTVANFWQASASILFRFGNRDRDKDGILDKDDLCPDTPGLPEFQGCPDTDGDGVPDKDDQCPDVAGPVENNGCPWPDTDGDGVIDKDDACPTVAGPAENNGCPWPDTDGDGILDKDDACPTVPGLPEYNGCPKPKDVTAIEVEGKLKAVFFDFNKATIRAESKGALDTAAEIIKKDGGRFLLVGETDKKGSDAYNLKLSKERAAAVVAALDARGVDVNALKSVGIGEQNAKVAESASDAERQADRKVTVRYVGDDSEWNKYQKSDVVAPAKKATKKAPAKKKVVKKKRK	PGPT0022215_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS003_01891	462	smpB	COG0691	SsrA-binding protein	ATGATGAAGATTGAGAAAACAGTTAGTATATTAAACAGAAGAGCCCGTTTTGAATATGAAATTCTTGAGGAATATGAAGCCGGAATGGTTTTGACGGGCACAGAAATAAAATCTTTGCGTTCTTCTAAAGCATCTATCACAGAATCGTTCTGTCAGTTTATTGATGGGGAGTTATACATCATCAACATGATGATAGATGAGTATAAATTAGGAACTTTTTACAACCACAAAACAAAAAGGGAACGGAAATTGCTGTTGCACAAAAAAGAATTACAAAAACTTGAAAAAAAGTTAAAGGATGCTGGGAACACCATAATACCTTTAAAATTATATATCACTGACCGAGGTAAAGCAAAGGTGCTGATAGCGCTGGGTAGAGGGAAAAAGCTTTTCGATAAAAGAGAGGCGATAAAAGATAGAGAAAATAAACGAAACCTGGACAGAATATTAAAGAAAAGTTAA	MMKIEKTVSILNRRARFEYEILEEYEAGMVLTGTEIKSLRSSKASITESFCQFIDGELYIINMMIDEYKLGTFYNHKTKRERKLLLHKKELQKLEKKLKDAGNTIIPLKLYITDRGKAKVLIALGRGKKLFDKREAIKDRENKRNLDRILKKS	PGPT0014355_3254	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
BMS003_01892	1623	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGTTAACAGTATCTAACTTATCTTTACAATTCGGGAAAAGAGTTCTTTTTGACGAGGTAAATATTATGTTTACCAAAGGAAACTGCTACGGAATCATCGGAGCAAACGGTGCGGGAAAGTCTACATTCCTGAAAATACTAACAGGAAAGCAGGATCCTACAACAGGACATGTATCTCTGGAACCAGGGAAAAGAATGTCAGTTTTGGAGCAGGATCACTTTGCTTATGATCAGTTTACTGTTCTTGAAGCTGTTTTAAGAGGTAATAAGAAATTATTTGAGATAAAAGAGGAAATGGATGCGTTATACGCAAAAGAAGATTTCTCTGACGAAGACGGTATCAAAGCCGGTGAACTAGGTGTAATTTATGATGAAATGGGTGGCTGGACTGCAGAGTCTGACGCTCAGACTATGCTTTCCAACGTGGGAATCACGGACGATATGCACTGGCAGCTGATGAGTGAACTTGAGAACAAAGACAAAGTAAAGGTTCTTTTGGCTCAGGCACTTTTCGGGAATCCTGATGTATTGATTCTGGATGAGCCTACCAACGACCTTGACATTGATACCATTTCATGGCTGGAGGATTTCCTTGCAGACTATGAAAACACCGTAATCGTGGTATCTCACGACCGTCACTTCTTAGATACGGTATGTACGCACATTGGTGACCTTGATTATTCTAAGCTTAACCTTTACACAGGTAACTACTCTTTCTGGTATCAGGCTTCTCAATTGGCAACAAGACAAAGAGCTCAGGCAAACAAGAAAGCTGAAGAGAAGAAAAAGGAACTTCAGGACTTCATTGCAAGATTCAGCTCTAACGTTGCTAAGGCAAAACAGGCTACTGCAAGAAAGAAGATGATTGACAAATTAAATATTGACGATATCAAGCCTTCTTCAAGAAGATATCCTGCTATCATCTTCGAAATGGAAAGAGAGGCTGGAGACCAGATTTTAGATGTAAAGGGTCTTGAGAAAACAAAAGACGGAGAATTACTATTCTCTAATATTGATTTGAACCTTAAGAAAGGTGACAAAGTCGCTATTCTTTCCAAAAACTCTTTAGCCATTACAGAATTCTTCGAAATTCTGGCTGGAAATGTAGAAGCAGATAAAGGAACCTTTGCCTGGGGAGTTACAACCAATCAGTCTCACATGCCTTTGGATAACACCAACTTCTTCCAGGAAGACCTAAGTTTGGTTGACTGGTTGAGACAATTTACCAAAAATGATGAAGAGCGCCACGAAGAATTCGTAAGAGGATTCCTTGGAAGAATGCTATTCTCAGGAGACGAAGCATTGAAATCTTGTAAAGTACTTTCCGGAGGTGAAAAAATGAGATGTATGTTCAGCAGAATGATGCTTCAGAAAGCTAATGTTCTTTTACTAGATGAACCTACCAACCACTTAGACCTTGAAAGCATCACTACTTTGAACAACTCCTTGTCTAACTTCAAAGGGAATCTTTTACTGGCATCTCATGACCACGAAATGCTTTCAACAGTCTGTAACAGAATTGTTGAACTGACTCCTACAGGAATTATTGACAGAGAAATGACTTATGACGAATACCTTGCTGATAAAAAGGTAAAAGAATTAAGAGAAAAAATGTATTCTTAA	MLTVSNLSLQFGKRVLFDEVNIMFTKGNCYGIIGANGAGKSTFLKILTGKQDPTTGHVSLEPGKRMSVLEQDHFAYDQFTVLEAVLRGNKKLFEIKEEMDALYAKEDFSDEDGIKAGELGVIYDEMGGWTAESDAQTMLSNVGITDDMHWQLMSELENKDKVKVLLAQALFGNPDVLILDEPTNDLDIDTISWLEDFLADYENTVIVVSHDRHFLDTVCTHIGDLDYSKLNLYTGNYSFWYQASQLATRQRAQANKKAEEKKKELQDFIARFSSNVAKAKQATARKKMIDKLNIDDIKPSSRRYPAIIFEMEREAGDQILDVKGLEKTKDGELLFSNIDLNLKKGDKVAILSKNSLAITEFFEILAGNVEADKGTFAWGVTTNQSHMPLDNTNFFQEDLSLVDWLRQFTKNDEERHEEFVRGFLGRMLFSGDEALKSCKVLSGGEKMRCMFSRMMLQKANVLLLDEPTNHLDLESITTLNNSLSNFKGNLLLASHDHEMLSTVCNRIVELTPTGIIDREMTYDEYLADKKVKELREKMYS				NA	NA	NA	NA	NA
BMS003_01893	1809	recJ	COG0608	Single-stranded-DNA-specific exonuclease RecJ	TTGGAGCACGAAGATAGCCCTTTTTTAACAATTATTAAGTCAAAACTTAGTTCCGGATCTTTTCAGAATGCTATTTTTTTTCCTTATTTTTGTGAAATGAGTCAAAAATGGATTTACAAGCCCGAACCCGATGAGGAAGTTGTGGACAGACTAAGTTCGTCACTTGGTTTTGGTACTTTTGAATCTAAACTTCTCGTTTTAAGAGGTATTGACAACTACCAAAAGGCCAGAGAATTCTTCAAACCGAATCTTACCGATATACATAATCCGTTTTTAATGGCAGATATGCAAAAAGCTGTAGAGCGCATTGCCACTGCAATTGAGAATGGTGAAAAAATATTGGTATATGGTGACTATGATGTGGACGGAACCACGGCTGTTGCTTTAATGTACCTTTACCTCAGCAAAATTGTTGAGAAAAAATATCTGGATTATTATATTCCGGACAGAAATTCTGAAGGATATGGAATTTCTACAGAAGGTATTGATTTTGCCAAAGAAAATGGTTTTTCATTAATCATTGCACTGGACTGTGGGATCAAGGCAATTGATATGATCAATTATGCCCGTAATCTGAATATAGATTTTATTATCTGTGACCACCATCTTCCGGGTGAAGAAATTCCTAATGCTGCCGCAGTACTTGATCCTAAAAGAAATGACTGCCGCTATCCGTTCAAAGAACTTTCAGGATGTGGGGTCGGGTTCAAGCTTTGCCAGGGACTTAATACGATCTATAAATTACCGGAAGCAGAGTTATTTGAACTGACTGATCTTCTGGCGATCTCCATTGCAGCAGATATTGTTTCCATGACCGGAGAAAACAGGGTTCTCGCTAAAATGGGTTTAAAAACACTCAGAAAGACAAGAAACCTCGGATTAAGGCTGTTGATTCCTGAGGATAAGCTTTCTCATTTTGAAATTTCCAATATTGTTTTCGAAATAGCTCCTAAAATTAATGCTGCCGGAAGAATATCTCATGGTAAAGCAGCAGTAGAGCTAATGGTTTCTGATAATCTGAAACATGCCAACCAGATTGTCAATGATATCATGAACCTTAATGATGAAAGAAGGGAACTGGATATGAACTCTACACTTTCTGCATTGAATCAGATTATAGAATCTCAGCAGGAAACAAAACATACCACCATTGTTTATCATCCTGAATGGAACAAAGGAGTAATTGGTATTGTTGCTTCAAGGCTTATTGAAACCTATTATAAACCTACACTTGTGTTTACCGATGGGAATAATGGTGAGATGGTGGCTTCAGCAAGATCTGTTTCTGATTTTGATGTGCATGAAGCTCTTGATATGTGCTCTGAATATTTTCTTAAATTCGGGGGACATCATGCTGCTGCAGGACTTTCGATGGAGAAAGATAAGTTTGATGCCTTCAAGGAAAAATTTGAACAGGTTGTTTCTGAAAAAATACAGGAGCATCAGAAAGAGCCTTCCATTACGATTGATACGGAAATCAGGATTGATGAAATCAACAGAGAATTTATCAATTTTCACAGAAAACTGGCACCTTTCGGGCCTCATAATATGAAACCTATTTTTACACTGACTGATCAGAAGCTTTCAGGATATGTAAAAACAATGGGAAAAGATAATAATCACCTGAAATTTTATATCAAACAGGAATCTACAGGACGAAATATTGAATGTGTAGGATTCAAGCTGGGACAGTTTGTGGAAGATTTTAAAAATAAAAATTTTGATCTTGCTTTTACTTTGGAAGAAAATCACTGGAAAGGCAATGTCACCCATTATCTTAATATCAAAGATGTAAAATTTAGGGATTAA	MEHEDSPFLTIIKSKLSSGSFQNAIFFPYFCEMSQKWIYKPEPDEEVVDRLSSSLGFGTFESKLLVLRGIDNYQKAREFFKPNLTDIHNPFLMADMQKAVERIATAIENGEKILVYGDYDVDGTTAVALMYLYLSKIVEKKYLDYYIPDRNSEGYGISTEGIDFAKENGFSLIIALDCGIKAIDMINYARNLNIDFIICDHHLPGEEIPNAAAVLDPKRNDCRYPFKELSGCGVGFKLCQGLNTIYKLPEAELFELTDLLAISIAADIVSMTGENRVLAKMGLKTLRKTRNLGLRLLIPEDKLSHFEISNIVFEIAPKINAAGRISHGKAAVELMVSDNLKHANQIVNDIMNLNDERRELDMNSTLSALNQIIESQQETKHTTIVYHPEWNKGVIGIVASRLIETYYKPTLVFTDGNNGEMVASARSVSDFDVHEALDMCSEYFLKFGGHHAAAGLSMEKDKFDAFKEKFEQVVSEKIQEHQKEPSITIDTEIRIDEINREFINFHRKLAPFGPHNMKPIFTLTDQKLSGYVKTMGKDNNHLKFYIKQESTGRNIECVGFKLGQFVEDFKNKNFDLAFTLEENHWKGNVTHYLNIKDVKFRD				NA	NA	NA	NA	NA
BMS003_01894	585	nadD	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGAAAAAAATCGGTTTATTTTTCGGATCATTCAACCCTATTCATATCGGACATCTTATTCTGGCTAATTATATTCTGGAAAATTCTGATATGGATGAACTTTGGTTTGTGGTAAGCCCACAAAACCCTTTCAAAGACAAAAAATCTTTACTGAAAGACCATAACAGACTTGATATGGTACAGCTTGCAATAAAGAATTATCCGAATATGAGAGCTTCCAATGTAGAGTTTTCTCTTCCAATACCGAGCTATACTATTGACACCCTCACCTATCTCCATGAAAAGTATCCTGAATATTCTTTCAGTCTCATTATGGGAGAAGATAACCTGAAGAGTCTTCACAAATGGAAAAACTCTGATATATTGATCAAAAATCATCATATTATTGTTTACCCCAGAGTATTTGAAGGAGAAAAGAAAGATTCCGATTATTTACAGCATGAAAATATTTCTCTGATAAAAGCACCTGTAATAGAGCTTTCTGCTACGCAAATCCGGAATATGATCAAGAATGGTAAAAATGTAAGACCAATGCTGCCACCTGAAGTTTTTGAATATTTGGATGGTAGTAATTTTTATCAATAA	MKKIGLFFGSFNPIHIGHLILANYILENSDMDELWFVVSPQNPFKDKKSLLKDHNRLDMVQLAIKNYPNMRASNVEFSLPIPSYTIDTLTYLHEKYPEYSFSLIMGEDNLKSLHKWKNSDILIKNHHIIVYPRVFEGEKKDSDYLQHENISLIKAPVIELSATQIRNMIKNGKNVRPMLPPEVFEYLDGSNFYQ	PGPT0013435_3773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS003_01895	804			hypothetical protein	ATGAAACTGTACTTATTTTTATTCTCTGTTCTTTTGCAAAGTTGTTTATATGCCCAGGAATCAACAACTTTAAAAAGTGACTCTCTTAAAGAATTACAGAAAATTGCTATTGCTGAAAGAAAAAGCTATAATAAAAAGCATTGCAGCGAAGATTCAATCAGGGCTGTCAAAGATTCGGAAATTCAAAACAAATATTTCATCAATATTGCAGCTCCCGATGGTGATAAGTTTTTGCCAGGCGAAGAACTCAAAACGATTTTAAAAAAGTATAATATTATTTGGGGCGGAGAATGGATGGGCAGTGATATAGGCTGGTATTTCGATGAATGTTATTACCGGATGATGACTAAATTAACTAAAAATAAATTTGGTGAAGATTTCATTGATAGTCTCGTTAAAGAATCTGTTGCCATGTATGTAAAAAAACACCCTGATAAAATATTTGATTACGATGAACATGCTGAATGGTCCTATAAAGGAAACTACCTTAGCTATACAGATGACAATGATCAATTAAATAAGGATTTCTTCAATAGTTTTACTTATCCGGAAGGTTATGAAAATTACAATCCTTCTTTTCAAAAATATCGTTCAAGTACTGTGGTTACGCTCACATTAGATCAAAATGGAAAGGTTTTGAAGAATCAATTTAGTCATGATATTTATAATGATCACAATTTGAAATACATCCCATATTTTGAAAAAGAGATCAAAAAGTTTATAAAATACACTAAATTTGAGCCTGTAAAATACAGAGGATATCCCGTAAAAAGCAAAACATCCTTTTTTATCTATTATAAATAA	MKLYLFLFSVLLQSCLYAQESTTLKSDSLKELQKIAIAERKSYNKKHCSEDSIRAVKDSEIQNKYFINIAAPDGDKFLPGEELKTILKKYNIIWGGEWMGSDIGWYFDECYYRMMTKLTKNKFGEDFIDSLVKESVAMYVKKHPDKIFDYDEHAEWSYKGNYLSYTDDNDQLNKDFFNSFTYPEGYENYNPSFQKYRSSTVVTLTLDQNGKVLKNQFSHDIYNDHNLKYIPYFEKEIKKFIKYTKFEPVKYRGYPVKSKTSFFIYYK				NA	NA	NA	NA	NA
BMS003_01896	339			hypothetical protein	ATGGACTTCATCGAAAAAATTTTTTCAAAATATTCTCAGGAAAAAATCATCAAATGGTTTAAGCAGATTTGTCTTGCCGAAGCTGTTTCATGTCTTTTACTGTATTGTGTTGCGATGATCTGGATCCGATATGATGAAAACTTATATTCTATTATCTTCATCAGCGTTATTGGGAGTTTACACGGTTTGTTTTTTACACTTTACCTTTTGTTATGCCTTCCTGCCAGAAAAATTTATAATTGGGATGATGAAGATTTCGTTTTTGCTTTATTATCTGCATTTTTCCCTTTTGCCACGGTTTGGGTAGATAAAAAGCTGGCTCGTTTCGACAGAGAATAA	MDFIEKIFSKYSQEKIIKWFKQICLAEAVSCLLLYCVAMIWIRYDENLYSIIFISVIGSLHGLFFTLYLLLCLPARKIYNWDDEDFVFALLSAFFPFATVWVDKKLARFDRE				NA	NA	NA	NA	NA
BMS003_01897	2262			hypothetical protein	ATGAAAACTCAAATTCTTATTGCAGCACTATTTTTCGGTGGACTTGTAACTGCCCAGCAGAAAAAAGACAATGTGAAAGTAAATGCTATTGATGCAGTAAATATCAAGAAACAGGTTTTCAAAAAGCAAGGAGACCGTTTGGTATACGATGTAGCTTCCTCATCTATTGCTAAAGGGACGAATACCTTTAATCTTTTGAAGCAGACACCGATGATCTCCAGCATAGATGGAAAAACACTGAAGATTTTGGGAAAAAATGATGTGGTAATCTATATCAACAATAAAAAAACCAATATGGATTCTGAGGCATTGATTGAAATGCTGAAAGCTACTCCATCAGAAGATATACAGAAAATTGAAGTCATTACGGTTCCGGGGAGTGAATTCCAGGTTGAATCCAAAGAAGGGGTGATCAATATTGTAATGAAAAGAATTAAAAATAACGGCTACAACGGGACACTGAAAATGCAGGATGAACAGGCCTATTACAACAACCCAAATGCAGGAGTTTCTTTTAATTTCAGACAAGGAAAATGGTCCGGAAATTCTAATTTCAGAACGGGAAGCTGGACAGAAAGACAAAAATATACGCTGTCTAATGGTGATTCTACCTTCAGAAATGAGTCTTACGGATTTAACAATGATCCCAACAAAAATTACAGCGGAGGCTTCAATATTGATTATGAAATCAATAAGAAACATAGCCTGGGATTTTCTTATAATATGAGATATAACAAAAGTTTCAATTCTGTACTGGATGTTACCAACTGGCAAAATGGAACTTTAAACAACAGAACGGTCAATAATGAGGATGCACAAACCAGAAATCATTCTTTCAATTTAAATTATGAAATGAAAACAGATTCTCTGGGAAGTAAGCTTACATCAAATGTATCTTATTTATGGTTCAACAGGGATAAGGTAAGCTTCAATGAAAGTTTCCCGCTGGACAATGATCCTGATAACAACTATTCTGCTTTACATCAGTCAGTTCCACAAATCATCAACAACTATGCGGCCAATATAGACTATCTGAAAAAGACTGCCAAAGGGACAACATGGTTAATGGGAGTAAGTTACAATCACACTAACACGGATAATGATACCAAGCAAGATAAATTAATAGGTAATAATTTTGTGGTAGATGCTAAGCAAACCAATCATTTCATTTATAAAGAAAATATTTTGGGAGTATATCTGAATTATGAAAGAAAACTGACCGAAAAGATATCCGGAAAAATAGGTGCCCGCTATGAGATGACCAGGAGTACAGGTGATATTGTAAACAAAACAGGTTTTGAAAGAAATTATAATAACTTTCTTCCTTATCTGAATTTAAACTATGCCATTAACCCGGACCATAACCTAAGCTATACCTTTTCCAGCAGGATCAGAAGACCGAGATTCTGGGAACTGAATCCTTCCAGAACGTATTTTACCCCAACCAACTATACGCAGAACAACCCTTTTATTTTAGCAGCTAAATTCTATAACCAGGAACTGAACTATATGTATAAAAATGCGTTCTATGCCAATCTTAGCTTTAATATGGTAGAAGATGCATCTGCTTCTGACATGCTTCCGTTACAGGGAACTTTAACAGCTCCAAAAAGGGATGGAAATGGAAACATAATTTATGATCCCAATGGTAATATGATGATGGAAACAACAAGATTCCTAAGATATATAAGAACCAATTATGGTAAAAACAGAGAGCTTGCTCTTACTCTGGGAATGAACAAATCCTGGTTCAAAGATATCTGGACTACTAACTACTCAGTCAACTTAGGATATGTAAACTACAAAGGCGGGGTATGGGAAGATCCAACGTCTCAACTAGGTCAGTACGAAACTGAGTCACTGGATCCTTATATCATTGATGTAAAAAACTATAATATGTCTGCTACGATCAATAATGTCATCCGCCTTTCTTCCAAAAAAGACTGGTTCTTAGGGGTTAATTACTATTTTGCCAGCCAGGCTGCCATGGAAGGCGGTATGATAAAAGCAAGACAAAGCTTTGACTTCAACCTTAAGAAAATCATTGGTAAATGGACTATTGTAGGAGAGGTTAGCGACTTATTCAATCAAAGCTTCTACAGAGTTGAAGGAGTTCAGCCTAACGGAAAGTACAATAATATTACCAACTTCAATTATCCAAAACTTATAAGTATAGGAGTTACTTACAATTTCGGAAATCAGAAGCTGAAAAAAGCAAGGGAAATGAAATCAGCTAATGATGCTGTAAAATCAAGAACCTAA	MKTQILIAALFFGGLVTAQQKKDNVKVNAIDAVNIKKQVFKKQGDRLVYDVASSSIAKGTNTFNLLKQTPMISSIDGKTLKILGKNDVVIYINNKKTNMDSEALIEMLKATPSEDIQKIEVITVPGSEFQVESKEGVINIVMKRIKNNGYNGTLKMQDEQAYYNNPNAGVSFNFRQGKWSGNSNFRTGSWTERQKYTLSNGDSTFRNESYGFNNDPNKNYSGGFNIDYEINKKHSLGFSYNMRYNKSFNSVLDVTNWQNGTLNNRTVNNEDAQTRNHSFNLNYEMKTDSLGSKLTSNVSYLWFNRDKVSFNESFPLDNDPDNNYSALHQSVPQIINNYAANIDYLKKTAKGTTWLMGVSYNHTNTDNDTKQDKLIGNNFVVDAKQTNHFIYKENILGVYLNYERKLTEKISGKIGARYEMTRSTGDIVNKTGFERNYNNFLPYLNLNYAINPDHNLSYTFSSRIRRPRFWELNPSRTYFTPTNYTQNNPFILAAKFYNQELNYMYKNAFYANLSFNMVEDASASDMLPLQGTLTAPKRDGNGNIIYDPNGNMMMETTRFLRYIRTNYGKNRELALTLGMNKSWFKDIWTTNYSVNLGYVNYKGGVWEDPTSQLGQYETESLDPYIIDVKNYNMSATINNVIRLSSKKDWFLGVNYYFASQAAMEGGMIKARQSFDFNLKKIIGKWTIVGEVSDLFNQSFYRVEGVQPNGKYNNITNFNYPKLISIGVTYNFGNQKLKKAREMKSANDAVKSRT	PGPT0003790_15694	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
BMS003_01898	2253			hypothetical protein	ATGAAACGTATAATTTTGTCAATGTCCATCGTATTCGGTACCTGCGCATTTGCTCAAGAAAAGAAAGCTGATACGGCAAAAACAAAAAATATAGAAGGAATTACCATCACAAAACAGGTTTTCAAAAAACAAAGTGACCGTTTTGTATATGATGTAGCCGCTTCTCCTGTAGCGAAGGGAAATACCACTTTTGACCTTCTGAAGCAGACCCCATTATTGTCTTCCACGGATGATAAGACGTTGAAAATTGCCGGAAAAAATAATGCCCTGATCTATATCAACGGAAGAAAAACCAATATGGATTCTGAGTCTCTGGCTCAGTTCCTGAAAAATACTCCGGCAGAAAACATTCAGAAAATTGAAGTGATCACCGTTCCCGGAAGTGAATATCAGGTGGAATCATCTGATGGAATCATCAATATCGTTTTAAAGAAAAAAATGAGCGACGGTCTGAACGGAAACATGAGAATGTCCAATACCACCAATAAATACAACGGAAGCCAGGCCAGCTTCTCTGCCAACTACAGAAAAAATAAACTGGGAGTAAGCGCAAGCCTTAGCGGTGGTGAAAATATAGAACCACAGACCTATACTTTAAGAAACGGTACTGCCACAACCTCTAACGAATCAACAGGAGATATTGATGATCCGAATAAAAATATCGGGGGGTATCTGAATATTGATTATCAGCTGAATGACAAAAGCAATCTGGCTTTATCCTGGAATACCTGGGCTAACAAAAGCTATAATTCAACAGTCAATCTTTTCAATACCATCAGAACAGAAAACGATACAAAATATACATGGTCTAAAAACAAAGAAGATGCAAGATCTTATAACAATTCATTAAACTTAAATTATGAATTAAAAACCGATTCTCTGGGCAGTAAACTTAATGTAAATGCCGCATATCTAAATTATAAAAGGTTTCAGTTTACAGACAACAGAACGTATATGTCTGATGCGAATATGGAAACTGGAAATATGACAACACAGGTATTTCAGGATCTTCCTCAGATCATTAATAACTTCTCCGGAATGGTAGATTATATTCAGAAATTTAAGAATGACCTGACGATCTCCGTAGGAGGAAATTACAACAAAACCAAAACAGATAACGATTCTAAAAACATAACGTATTTTTTTGACCCTGCAAAAGATCCGGACCCAAGACCAAATCACTTTATCTATGATGAAAATATTTATGGGGCCTACCTTACTGTAGAAAAGAAATTCTCGGATAAAATTTCCGGAAAAATTGGTGCCAGATACGAGATTACAAACAGTTTGGGAACTTCTGACAATGCTCCTACAGAAGAACTTAAGAGGATTGAAAGAAATTACAACAACATCCTTCCCTATTTGAGTTTTAACTATGCAATCAATGATAAAAATAATATTTCGTACTCCTTTTCAAGCAGAATGAGAAGACCTAGTTTCTGGGAAATCAATCCTGTAAGAAATATCCTTACAGATGATAATTATACGCAGAACAACCCATTTGTGAAAGCAGCATCTACTTATAATCAGGAATTTACGTATATGTTTAAAAATTCATACTTCCTGATTTTAAACCATTCTTACATTAAAGATGCCATCACTCAGGTTCCGCTGCAGGGATATCCTGTATCTCCTGATGGTACGGTGGGTGCGAATCCTGTATTGAGATACATCAGAACCAATTTTGGAGATAAGCAGGAAATGTCTGCCATGGTAGGTATTCAGAAGTCATTTTTCAAACAGTACTGGACGACCAACTTTAATATCGGAGTGCAGCATAATATCAACAACGGAAGTCTTGATGTGGACCCTACTACAGGAGACCGGTTCAGAAACCAGGACGGTAAGGATATTGTTTACACCAACAAAACGAATTCTACCAGTCTTTTGATTCAGACCAACAACACCATTCGTCTTGATAAAAAGAAAACCTGGTTCTTCGGAGTTAATTATTTCTTCGTAGACAAGCAGCAGATTGAGCTTGGATTACTGAAAGGTTTAATGAGTTTAGACCTCAGCCTTAAGAAAATGTGGAATGACTGGACCTTTGCAGTCAATGTAAATGATGTACTGAACACCAACATCGTTAAAATTGAAGATTTTCAGGACAACGGAAATTATAATTACATCCACCAAAACCGCTATAACAGAAGCTTAACGGTAAGCCTTACTTACAATTTCGGAAATAAGAAAGTGAAAAAAGTAAGAGACATAGAAGGAGCATCAGATGCTATTAAAAGCAGAACAAGATAA	MKRIILSMSIVFGTCAFAQEKKADTAKTKNIEGITITKQVFKKQSDRFVYDVAASPVAKGNTTFDLLKQTPLLSSTDDKTLKIAGKNNALIYINGRKTNMDSESLAQFLKNTPAENIQKIEVITVPGSEYQVESSDGIINIVLKKKMSDGLNGNMRMSNTTNKYNGSQASFSANYRKNKLGVSASLSGGENIEPQTYTLRNGTATTSNESTGDIDDPNKNIGGYLNIDYQLNDKSNLALSWNTWANKSYNSTVNLFNTIRTENDTKYTWSKNKEDARSYNNSLNLNYELKTDSLGSKLNVNAAYLNYKRFQFTDNRTYMSDANMETGNMTTQVFQDLPQIINNFSGMVDYIQKFKNDLTISVGGNYNKTKTDNDSKNITYFFDPAKDPDPRPNHFIYDENIYGAYLTVEKKFSDKISGKIGARYEITNSLGTSDNAPTEELKRIERNYNNILPYLSFNYAINDKNNISYSFSSRMRRPSFWEINPVRNILTDDNYTQNNPFVKAASTYNQEFTYMFKNSYFLILNHSYIKDAITQVPLQGYPVSPDGTVGANPVLRYIRTNFGDKQEMSAMVGIQKSFFKQYWTTNFNIGVQHNINNGSLDVDPTTGDRFRNQDGKDIVYTNKTNSTSLLIQTNNTIRLDKKKTWFFGVNYFFVDKQQIELGLLKGLMSLDLSLKKMWNDWTFAVNVNDVLNTNIVKIEDFQDNGNYNYIHQNRYNRSLTVSLTYNFGNKKVKKVRDIEGASDAIKSRTR	PGPT0003790_16047	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
BMS003_01899	966			hypothetical protein	ATGCTATTAAAAGCAGAACAAGATAAAGATTATCTTTCTTCATATTCAATTATTCTTACGGTATCCGCTGATTCTTTTCAGCGGATTTTTTTATATTTAATAGCTATGAAAAAAAACGTACCCTTTATTTTAATTTCTCTTAGCCTGCTTTTTCTTTGGACAGGCTGTACAGAAAAAAAGATAAAATTAGCTGAGAATATCAGCTTTGACAAGGAAAAGAACATTCAATACGGAAAGAGTTCTGAACAGGTAATGGATCTTTATATTCCGGACAAAAAACAAGAGTATAAAAAAGATATTTTCATCATTATTCATGGGGGTGGCTGGCATGGTGGGAATAAATCGCAGCTCACTTTTTTCACCCTTTCTATGATGCAGAAATTTCCTGATCATATTTTTGTTAATATGAATTACAGACTGGCATCAGAAACCGAGTATGGACTTCCGAATCAAATGAATGACATTAAAGATGTTTCTGCTTTTTTAGAAAAGAAATTGGGTTACAATCCTACACTCATATTATTGGGAAACAGTGCCGGCGCCCATTTATCTATGTTATATTCCTATAAATTCGATATTGATAAAAAAGTAAAAGCTGTTATTAACATTGTTGGACCTGCTGACCTTTCAGATCCTGGTTTCAAAAACTATCAGGAATATTCTTTCGTGGAAAGAAGACTTGTAGATCCTCACGTAACGAAACCGGGAATTTCCAGAATAGATTTCGCCAGCCCTGTCAAATGGATCAATGAAAACTCCCCTCCTACTTTATCTTATTATGGAAATTCGGATCGTGTTATTCCTTCTACACAAGAGAAAATATTAGATTCCGTTTTACAAAAGAACCATATACTCCACGAGTCCTATCAATTTAATGGTGGGCATCTGGATTGGGATAAACATCCAAATGATCAGTTCCTGATCCATAAAATAGAAGCATTTCTTAAGACCACAGAGAAAAAATAA	MLLKAEQDKDYLSSYSIILTVSADSFQRIFLYLIAMKKNVPFILISLSLLFLWTGCTEKKIKLAENISFDKEKNIQYGKSSEQVMDLYIPDKKQEYKKDIFIIIHGGGWHGGNKSQLTFFTLSMMQKFPDHIFVNMNYRLASETEYGLPNQMNDIKDVSAFLEKKLGYNPTLILLGNSAGAHLSMLYSYKFDIDKKVKAVINIVGPADLSDPGFKNYQEYSFVERRLVDPHVTKPGISRIDFASPVKWINENSPPTLSYYGNSDRVIPSTQEKILDSVLQKNHILHESYQFNGGHLDWDKHPNDQFLIHKIEAFLKTTEKK				NA	NA	NA	NA	NA
BMS003_01900	1755			hypothetical protein	ATGAGACAATATTTTCTTTCATTAGCAATTTTTCTTGGAATGATTGTAGGGGCTCAGCAGAAAACGTTCTGTAATCCCATTAATATTGATTATGGTTATACGCCTTTCGCTTCTTTTTCAAAACAGGGGAAACACCGTGCTACGGCAGATCCGGTGATTGTTAATTTTAAGAATAAACTGTTTCTTTTCTCCACCAATCAGGAAGGATACTGGTACAGTGATGATATGCTGGACTGGAAGTTTGTGAAAAGAAAATTTTTAAGAGATAATAAGTATACCCATGACCTTAATGCTCCGGCTGTATGGGCTATGAAAGATACTCTGTATGTCTTTGGCTCAACCTGGGAGCAGGATTTCCCGATCTGGAAAAGTACAAATCCTACCAAAGACGACTGGAAAATTGCAGTGGATACTTTGAAAGTGGGAGCTTGGGATCCGGCATTCCATTATGATGAAGATAAAAATAAGCTTTATCTGTACTGGGGTTCAAGTAACGAATGGCCATTGCTTGGAACGGAGGTGAAAGTAAAAAGTCTTCAGTCTGAAGGTTTTGTGAAACCTATCATTAAGCTAAAACCTGAAGATCACGGATGGGAACGTTTCGGGGAATACAATGACAATGTTTTTCTTCAGCCTTTTGTAGAAGGAGCATGGATGACAAAGCACAACGGAAAATATTATATGCAGTATGGTGCTCCGGCAACGGAATTCAGTGGGTATTCTGATGGAGTGTATGTAAGCAAAAGTCCTCTGGAAGGCTTCGAATATCAGCAGCATAATCCATTTTCTTACAAACCGGGAGGTTTTGCGAGAGGAGCCGGGCACGGAGCAACGTTTGAAGATAATTATAAAAACTGGTGGCACGTTTCCACGATCTTTATTTCTACCAAAAATAATTTTGAAAGAAGACTCGGGATCTGGCCTGCCGGCTTTGATAAAGATGATGTGATGTATTGTAATACAGCTTATGGTGATTATCCAACTTACCTTCCGCAGTATGCACAGGGCAAAGATTTTACAAAAGGTCTTTTTGCCGGATGGATGCTGCTGAATTATAATAAACCTGTTCAGGTTTCATCCACTTTGGGAGGTTACCAGCCCAATTATGCTGTAGATGAAGATATCAAAACTTACTGGAGTGCCAAAACCGGAAATTCCGGAGAGTGGTTCCAGACGGATTTAGGGGAAGTTTCTACCATCAACGCTATTCAGATCAATTATGCGGATCAGGATGTAGAGTTTATGGGGAAAACCTTGGGGAAAATGCATCAATATAAAATTTACGGCTCTAATGATGGTAAGAAATGGAATGTGATTGTGGATAAAAGCAAAAACACAAAAGATGTTCCACATGATTATATTGAGCTGGAACAGCCTGCAAAAGCCCGTTTTCTGAAAATGGAAAACCTGAAAATGCCAACAGGTAAGTTTGCATTAAGCGGTTTCAGAGTGTTCGGAAAAGGAGCGGGGAAACAGCCTGCTAAAGTGGAAGGTTTTGTGCCTTTAAGAGCTGATCCGAAAAAATACGGTGAAAGAAGAAGTATCTGGATGAAATGGCAGCAGAATCAAGATGCAGACGGTTATGTAATCTATTGGGGAAAATCTCCGGATAAAATGTACGGTAGCATTATGGTATACGGAAAGAACGAATACTTCTTCACAGGAGCAGACAGAACAGATGCTTACTACTTTCAGATTGAAGCTTTCAATGCGAATGGGGTTTCAGAAAGAACTGCTGTTGCAAAGTCAGAATAG	MRQYFLSLAIFLGMIVGAQQKTFCNPINIDYGYTPFASFSKQGKHRATADPVIVNFKNKLFLFSTNQEGYWYSDDMLDWKFVKRKFLRDNKYTHDLNAPAVWAMKDTLYVFGSTWEQDFPIWKSTNPTKDDWKIAVDTLKVGAWDPAFHYDEDKNKLYLYWGSSNEWPLLGTEVKVKSLQSEGFVKPIIKLKPEDHGWERFGEYNDNVFLQPFVEGAWMTKHNGKYYMQYGAPATEFSGYSDGVYVSKSPLEGFEYQQHNPFSYKPGGFARGAGHGATFEDNYKNWWHVSTIFISTKNNFERRLGIWPAGFDKDDVMYCNTAYGDYPTYLPQYAQGKDFTKGLFAGWMLLNYNKPVQVSSTLGGYQPNYAVDEDIKTYWSAKTGNSGEWFQTDLGEVSTINAIQINYADQDVEFMGKTLGKMHQYKIYGSNDGKKWNVIVDKSKNTKDVPHDYIELEQPAKARFLKMENLKMPTGKFALSGFRVFGKGAGKQPAKVEGFVPLRADPKKYGERRSIWMKWQQNQDADGYVIYWGKSPDKMYGSIMVYGKNEYFFTGADRTDAYYFQIEAFNANGVSERTAVAKSE	PGPT0018665_236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-XYLOSIDASE,PGPT0018665-xynB-K01198	NA	NA
BMS003_01901	924			hypothetical protein	ATGCAAACAACAGATACAGTATTAATGATAGAGCCGATTGCATTCGGTTACAACGCTGAGACAGCAAAAAATAATTATTTTCAGGTAGAACAGACAGGATCTGATATTCAGTCAAAAGCTTTGGCTGAGTTCAGTACTTTTGTTGGGAAGCTGAGAGGAAAAGGAATTAATGTGATCACCATAAAAGATACCTTAGATCCACATACTCCTGATTCTATCTTTCCCAACAATTGGGTGAGCTTCCATAAAGATGGGAAAGTGGTTTTATACCCGATGTTCGCTTCCAACAGAAGAGTGGAAAGAAGAGACGACATTATTGAAACTATCGGAGCTCAGGGATTTGAAGTGGTTGAGGTAGATGACTGGTCTTTCTCTGAAACCCAGGGACATTTCCTGGAAGGAACGGGAAGTATGATCTTTGATCACGATAATAAAATTGCTTACGGTTCCGTGTCTTTAAGACTGGATGAAAAACTGTTCAGAGAATTCTGTTCAAAATACGGATTTACTCCGGTTGTTTTCCATTCATTCCAGACGGTAGGGACAGAAAGACTTCCTATCTATCACACCAACGTCATGATGTGTGTGGCAGATCAATTTGTGGTAATCTGCCTGGATTGTATTGACGATGAGCTGGAAAGAGAAAAAGTAGTGGAAACTATTAAAGGTTCAGGAAAGGAAATCATCGAAATTTCAGAAGAACAGATGCAGCAGTTTGCAGGAAATATGCTTCAGGTTCAAAACAAAGACGGTGAGAAATTCCTGGTGATGAGCCAGACAGCATACCAGTCTTTATCTTCAGAACAGGTAGCTGCTATTGAAAAATACTGCGAAATTATTTATTCTGACCTGAATACTATTGAAGTAAATGGTGGTGGAAGCGCAAGATGTATGCTTGCTGAGGTTTTTCTTCCAAAAAAATAA	MQTTDTVLMIEPIAFGYNAETAKNNYFQVEQTGSDIQSKALAEFSTFVGKLRGKGINVITIKDTLDPHTPDSIFPNNWVSFHKDGKVVLYPMFASNRRVERRDDIIETIGAQGFEVVEVDDWSFSETQGHFLEGTGSMIFDHDNKIAYGSVSLRLDEKLFREFCSKYGFTPVVFHSFQTVGTERLPIYHTNVMMCVADQFVVICLDCIDDELEREKVVETIKGSGKEIIEISEEQMQQFAGNMLQVQNKDGEKFLVMSQTAYQSLSSEQVAAIEKYCEIIYSDLNTIEVNGGGSARCMLAEVFLPKK				NA	NA	NA	NA	NA
BMS003_01902	915	arcA		Arginine deiminase	ATGAGACTAAACATTAAAAACGAAACGGGGAGGCTGAAGTCAGTAGTTCTAGGCCAGCCTAATTCATTGGGACCGGTTCCCACACTGGAGGAAAGCTATGACGCAAAGTCATATTACTCAATCGAACACAATATCTATCCTAAAGAAGAGGATATTATCAATGAAATGAACGCTTTTGAAGCGGTTTTAAAAAAGTATAACGTTGAAGTACTGCGTCCAAGTATCATCAAAGATTATAACCAGGTTTTTTCAAGAGATGTAGCTTTTGTGATCGATGATAAGATGATCATTTCCAATGTGATTGCAGACAGAGCAGACGAGCAGGAAGCATACAAAAGTGTTTTTGAGAAAGTAGCATGGAGAAAAATCATTAATCTTCCGGAAACAGCACATATTGAAGGAGGAGATGTAATTGTGTGGAATGATTTTATTTTCATTGGAACCTGCTTCAGCGAAGATTACAGAAACTATAAAACAGCAAGAACCAATGAATATGCCATTGAAATCCTGAAAGAATATTTTCCCAAAAAAAGAATCATTGATCTGGAACTGAAGAAAAATGATAAAGTTCCGTTTGAAGGGATTCTGCATCTGGATTGTACATTTAATCCCGTAGGAGAAGACAAATGTATCATTTATAAAAACGGGTTTGTGGATGAAAGTGACTACCGTTTAATCATCGATATTTTTGGAGAAGAAAACTGCTTCCACATCAATGATGAAGAGATGTTTGAAATGTTTCCGAATATATTCTCTATTGCTCCCGATGTAGTGGTTTCAGACAAAGCATTTACAAGAATGAACGACCACTTGAAAAATGAGTGGGGAATGACCGTTGAAGAAATTCCTTACAGAGAAATATCTAAAATGGGAGGTTTGTTGAGATGCTCTACAATGCCGCTTGTGAGGGAGTAA	MRLNIKNETGRLKSVVLGQPNSLGPVPTLEESYDAKSYYSIEHNIYPKEEDIINEMNAFEAVLKKYNVEVLRPSIIKDYNQVFSRDVAFVIDDKMIISNVIADRADEQEAYKSVFEKVAWRKIINLPETAHIEGGDVIVWNDFIFIGTCFSEDYRNYKTARTNEYAIEILKEYFPKKRIIDLELKKNDKVPFEGILHLDCTFNPVGEDKCIIYKNGFVDESDYRLIIDIFGEENCFHINDEEMFEMFPNIFSIAPDVVVSDKAFTRMNDHLKNEWGMTVEEIPYREISKMGGLLRCSTMPLVRE	PGPT0020075_1535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478	NA	NA
BMS003_01903	165			hypothetical protein	ATGAACAAGAACAATCCGGTGCTGAAAAATGCACAAAAACTAGGAAGAGAGCAACAAAAATCAGTAATGGGAGGAGCTCCGATTTCAACAAGCAGAAGATGCTGCGAATGGGATGATACTGGAAAATGTTATATCTGGACATGTGACAGATGCCAATGCCCATAA	MNKNNPVLKNAQKLGREQQKSVMGGAPISTSRRCCEWDDTGKCYIWTCDRCQCP				NA	NA	NA	NA	NA
BMS003_01904	1287	gltA2	COG0372	Citrate synthase 1	ATGTCAGACAACAAAGTAATATTGAATTACGACGGTAATTCATATGAATATCCAATCGTGGATAGTACTATCGGAGACAGAGGGATTGATATTTCAAAATTAAGAGACCAGACAGGTTTGATCACTCTGGATTTAGGGTATAAAAATACGGGAGCTACTATTAGCGATATCACTTACTTAGACGGAGATAAAGGAGAATTATTCTACAGAGGTTACCCAATTGAGCAGATTGCTGAAAAATCTAACTTCACTGAAGTAATGTATCTTTTATTACATGGAGAATTACCTACTCAGGATCAGTTTACTTCATTCGACAAAAATATTAAACAATATAATTTCATCGCAGACGAAATGAAAAAAATCATTGATGTTTTTCCTCGTTCTGCTCACCCTATGGGAGTTTTATCTTCTTTAACTTCTGCTTTGACAGCTTTCAACCCAAAGGCTGTAAATGTAAACTCCAAAGAAGAAATGGATCACGCTGCGGAGCTTATGATCGCTAAGTTCTCTCACCTTTGTGCATGGACTTACAGAAAAACTCAAGGTTTACCATTAAATCACGGTGATAACAACCTGAACTATGTAGAGAACTTCTACAAAATGGCATTCAGATTACCAAACGCTGATTTCGAAATCGATCCGGTAGTTGTAAATGCTTTAGATAAATTACTAATCCTTCACGCAGACCACGAACAAAACTGTTCTACTTCTACAGTAAGAATGGTAGGTTCTGCTCATACAGGTCTTTTCGCTTCTATCTCTGCCGGAGTATCTGCTCTTTGGGGACCTCTTCACGGAGGAGCTAACCAGGCTGTAATCGAAATGCTTGAACTTATTGAGAAAGATGGAGGTGACGTAGCTAAATATGTTGCTAAAGCTAAAGATAAGAATGATAGCTTCCGCTTAATGGGATTCGGACACAGAGTTTACAAAAACTTCGACCCAAGAGCAAAAATTATCAAGAAAGCAGCTGATGATATCCTTAAAGCATTAGGTATCCAGGATAAAGCTCTCGATGTTGCAATGCAGTTAGAAAGAGTAGCTCTTGAAGACGAGTATTTCATAGAAAGAAAACTATATCCAAATGTAGACTTCTATTCAGGTATCATCTACAGAGCGTTAGGAATTCCTACAGAAATGTTTACAGTAATGTTTGCATTAGGAAGACTTCCGGGATGGATTTCTCAATGGAAAGAAATGAGACTGAAAGGAGACCCTATCGGAAGACCAAGACAGGTTTACCAAGGAGCTCAGAAAAGAGATTATATCGACATCGCAAGCAGATAA	MSDNKVILNYDGNSYEYPIVDSTIGDRGIDISKLRDQTGLITLDLGYKNTGATISDITYLDGDKGELFYRGYPIEQIAEKSNFTEVMYLLLHGELPTQDQFTSFDKNIKQYNFIADEMKKIIDVFPRSAHPMGVLSSLTSALTAFNPKAVNVNSKEEMDHAAELMIAKFSHLCAWTYRKTQGLPLNHGDNNLNYVENFYKMAFRLPNADFEIDPVVVNALDKLLILHADHEQNCSTSTVRMVGSAHTGLFASISAGVSALWGPLHGGANQAVIEMLELIEKDGGDVAKYVAKAKDKNDSFRLMGFGHRVYKNFDPRAKIIKKAADDILKALGIQDKALDVAMQLERVALEDEYFIERKLYPNVDFYSGIIYRALGIPTEMFTVMFALGRLPGWISQWKEMRLKGDPIGRPRQVYQGAQKRDYIDIASR	PGPT0001455_3559	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
BMS003_01905	1293	eno	COG0148	Enolase	ATGAGTGCAATTTCTTACATAGAAGCAAGACAGATTTTAGATTCCAGAGGAAACCCTACCATAGAAGTAGATGTGTTTACAGAAAGTGGAGCTATGGGCCGTGCTGCTGTACCTTCAGGAGCATCTACAGGAGAACATGAAGCAGTAGAATTACGTGACGGTGGTTCAGAATACCAGGGAAAAGGAGTTCTGAAAGCTGTTGAAAATGTAAAAGAAGTAATTGCAGAAAATTTAGTAGGACAGCCGGTTTTCGAGCAAAACTATATCGATCAGATTATGATTGATCTTGACGGAACACCTAATAAAGGTAATCTTGGTGCTAATGCTATTCTTGGTGTTTCTCTGGCAGTGGCTAGAGCCGCAGCTGCAGAATTGGGAATGCCTCTATATAAATACGTAGGAGGAGTAAATGCAAATACACTTCCTGTTCCAATGATGAATGTAATCAACGGTGGATCTCACTCGGATGCTCCTATTGCATTCCAGGAATTCATGATCATGCCAGTAAAAGCAGATTCTTTCTCTCACGCATTGAGAAAAGGAACTGAAATTTTCCATAACCTAAAATCGATCCTTAAAGGAAGAGGTCTTTCTACAGCAGTAGGTGATGAAGGAGGTTTTGCGCCTACTTTCAACGGAACAGAAGATGCTTTGGATACTTTACTTCAGGCTATCGAAAAAGCTGGATACAAACCTGGTGACGACATCATGCTGGCACTAGACTGTGCAGCTTCAGAGTTCTACAAAGACGGAACTTACGATTACAGAAAATTCGAAGGAGACAAAGGAGCTCACAGATCAAGAGAAGAGCAGGTTTCTTACCTTGCAGAATTGGCCGCTAAATATCCTATCATCTCTATCGAAGACGGTATGCAGGAAGATGACTGGGAGGGATGGAAAATGCTTACAGATAAAATCGGTGACAGAGTACAGTTGGTAGGTGACGATTTATTCGTAACAAACGTAGACAGATTATCAAGAGGAGTAAAAGAAGGTATTGCCAACTCCATCCTTGTCAAAGTAAACCAGATCGGTTCTCTTTCTGAAACAATGGCTGCTGTACAAATGGCTCAGAATAACAAATTCACTTCAGTAATGTCTCACAGATCAGGAGAAACTGAAGATTCTACAATTGCTGATTTAGCTGTAGCAATGAACTGTGGACAGATCAAAACAGGTTCAGCTTCAAGATCAGACAGAATGGCAAAATACAACCAGCTATTGAGAATTGAAGAAGCTTTAGGCGAAACTGCAATTTTCCCAGGATTGGAAGCTTTTAAAATCAAAAGATAA	MSAISYIEARQILDSRGNPTIEVDVFTESGAMGRAAVPSGASTGEHEAVELRDGGSEYQGKGVLKAVENVKEVIAENLVGQPVFEQNYIDQIMIDLDGTPNKGNLGANAILGVSLAVARAAAAELGMPLYKYVGGVNANTLPVPMMNVINGGSHSDAPIAFQEFMIMPVKADSFSHALRKGTEIFHNLKSILKGRGLSTAVGDEGGFAPTFNGTEDALDTLLQAIEKAGYKPGDDIMLALDCAASEFYKDGTYDYRKFEGDKGAHRSREEQVSYLAELAAKYPIISIEDGMQEDDWEGWKMLTDKIGDRVQLVGDDLFVTNVDRLSRGVKEGIANSILVKVNQIGSLSETMAAVQMAQNNKFTSVMSHRSGETEDSTIADLAVAMNCGQIKTGSASRSDRMAKYNQLLRIEEALGETAIFPGLEAFKIKR	PGPT0018050_3190	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
BMS003_01906	330			hypothetical protein	ATGAAAACTCTTATTAACGACAGTATCGGAGATTTAGAAACTGCTCTGAAAAACAACACGGATCTTCAGGAAAAATTTAAAACCAATCCTGTAGAGGCTATCAAAAATGTGAAAGTCAGAAATCCGGAAACTACAGATTACTGGATCTATAGAATTATAGTAATTATGCTTGGTGTGGCAATTATAGCCATCATTGCAGGGCTTATTATTATTTCTGCGGGGAATAGCGGAGAGTCCAAAGACAATCAGATGGTAACAATCTTTGCTACCATCTCATCAGGAGCAATAGGAGCTTTGGCGGGACTTTTATCCCCTACACCCAGAAAATAA	MKTLINDSIGDLETALKNNTDLQEKFKTNPVEAIKNVKVRNPETTDYWIYRIIVIMLGVAIIAIIAGLIIISAGNSGESKDNQMVTIFATISSGAIGALAGLLSPTPRK				NA	NA	NA	NA	NA
BMS003_01907	789			hypothetical protein	ATGAAACAATTGCCGGACACAATAAGATTGGCTTATATCATTGCCGTTATTCTGTTAATAACTTTCGTTATTTTCATTATTTTGATCGTTGTTTTGTATAATAAAAGACAGCTCTTTTTTATTCAGCAGCAACAGCTCAAAGAAGCTGAACACCAAAACCAGCTTCTTCAAAAAGAACTCGAAAAGCAAAAAATTCTGGAACAGGAAAGAGAACGGATTTCTCATGATATGCATGATGACCTTGGGGCAGGAATTTCCGCATTAAAACTTCAGGCAGAATTTCTGAAACAGAAAGCAGCAGATGATGATTTGCAAAGTGATATTGATGAACTTCTGAAAACCTCAGAAGAAATGAATATTTCCATGCGAGAAATGCTATGGAGTCTGAACTCAGGAAATGACACCTTGGGAAGCTTTATTGATTATGCCCTATTGTATACCGGAAATTTTTTAAAGAAAACAAAAATAGTACTGCAGTCAGAATGTGGAGATATGATTCCTGAAACACCGGTTTCCACAGAAATGAGACGTAATCTTTTTCTCTGTTTGAAAGAAGCCGTTAATAACGTATACAAACACAGCCATGCCAATACCTTAAAACTATCATTTTCGCAGGAAAAAAATAACTTTTCAATGAAAGTTTCTGATAACGGAAGCGGGATCTCAGATGGACAGAAAGAAGGGAACGGCCTCCGAAATATGAAAAGAAGAATGAATGAGCTATCCGGAGAATGTCATATCTTATCCGGAAATTCAGGAACCAGTCTGATTTTCAGTATAAAATTATAA	MKQLPDTIRLAYIIAVILLITFVIFIILIVVLYNKRQLFFIQQQQLKEAEHQNQLLQKELEKQKILEQERERISHDMHDDLGAGISALKLQAEFLKQKAADDDLQSDIDELLKTSEEMNISMREMLWSLNSGNDTLGSFIDYALLYTGNFLKKTKIVLQSECGDMIPETPVSTEMRRNLFLCLKEAVNNVYKHSHANTLKLSFSQEKNNFSMKVSDNGSGISDGQKEGNGLRNMKRRMNELSGECHILSGNSGTSLIFSIKL	PGPT0017900_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-FUCOSE_PERCIPITATION|SIGNALLING,PGPT0017900-fusK-K20263	NA	NA
BMS003_01908	579			hypothetical protein	ATGGTTTTAGCCGGAAAGAAAGGCCTTTCCGGCCAAAACTATTTTGTGGTTTTCTTATTGCTGTCACTGTGCCTGGAACTCTATGGGCATTATAAAATATATATCCAGGAATTTGACTTTGCCTATCTCTTTAATTACTACAGTATTTTTCTGATTATATTTTTTAACAGATACTATGCAAAGGTTTTCCCTCAAAAGCTCAAAACATTTTTCCTTTATGTCCTCATTGTGATGCTCGTCTATATTGCTCTGTTTGTCAGGTTTTACAGTGAAAACTATGAAAATACATTGGGAATATTAGTCTGTTTCTATTTTATCGTTAATGCACTGGTTTGGTTTTATATCAGACTGAAAAATTTTGACGAAATAAAAATCTTTAATGATCCGCATTTCTGGGTTTCCTGTGGATTACTTTTTTGGAGCATCTTTTTTATTTTCAGATCCATCCCCATGTTTTTTCTTCAGGATAATGATCCAGGGTTTCTGCAAATTTTAAAAATGATGCAGTATTGCGTTAATATCATCATGTATGGAATGTTCTATATTGCTTTAAGGAAATTTGCGGATAACGGAAAATAA	MVLAGKKGLSGQNYFVVFLLLSLCLELYGHYKIYIQEFDFAYLFNYYSIFLIIFFNRYYAKVFPQKLKTFFLYVLIVMLVYIALFVRFYSENYENTLGILVCFYFIVNALVWFYIRLKNFDEIKIFNDPHFWVSCGLLFWSIFFIFRSIPMFFLQDNDPGFLQILKMMQYCVNIIMYGMFYIALRKFADNGK				NA	NA	NA	NA	NA
BMS003_01909	846			hypothetical protein	ATGGAGACATTAGAGTTAAAAAATTCCGAATTTGGGACAGAGGCTATTGGAAACAAACTAGCGAATCTGGTAAAACGAAATAAAGATAAAACTAATCCCTTAGTTGCTGCGGGATATATGGATCATGATATAGGAATTATGTTCATGTTTCAGGCAAAAAAAGGAGTCTTAAATAATTCCGGAGCTACATCCAAGCAGGTCAATCCGTATCTCGATAGCTATTTTGTAGACATCAGTACTTTTGAAGTTTTATACAATACATTTAGCTCTCGGGGTAATGATGTTAAATTTGAATTTATTTTTATTACTCAAAAAGAATATATCAATTATACAGGTAATACAAATGTTCCAACCGGTGCCAATGAGTTTTTATACTTTGTTGTGACTCCCATGGATTATAATGATAATCCGCTTGGACATTATATCATCTTCAATTTGGGACATAAGTTTGAGCTCGATAAAGATGTTATTAGTTTTAAAGAAGCTGAATCTATGCGTACTAAATATCAGTCATCAGAATTTTATATTAGGATGAGTGCGTATAGCAATCCATTGTCGCAGGCATTGGGTATTAGTTATACCTGGGCCGATATCAATAATATATTACAAGAAAGGAATATTGAAGGACGCCTTTACAAAGAGGTTAAATTTATTCCGGGTGAGGTAATAGAGTTAGAGATCATCAAAGATTATTTTAAAGACAATCCCTATTATGTTTTCGATGCCGATGCGTATGAAGTCGCCTATAAAAACAATGAAAAAAGACTTACTATGATCGGAAGATATCTGCCGGATGATCTTATAGGAAAAGAAGGATTTTTTGATATGGGCTCGCTATATCCATAA	METLELKNSEFGTEAIGNKLANLVKRNKDKTNPLVAAGYMDHDIGIMFMFQAKKGVLNNSGATSKQVNPYLDSYFVDISTFEVLYNTFSSRGNDVKFEFIFITQKEYINYTGNTNVPTGANEFLYFVVTPMDYNDNPLGHYIIFNLGHKFELDKDVISFKEAESMRTKYQSSEFYIRMSAYSNPLSQALGISYTWADINNILQERNIEGRLYKEVKFIPGEVIELEIIKDYFKDNPYYVFDADAYEVAYKNNEKRLTMIGRYLPDDLIGKEGFFDMGSLYP				NA	NA	NA	NA	NA
BMS003_01910	633	liaR	COG2197	Transcriptional regulatory protein LiaR	ATGAGCATTTCCATTGCCATAGTAGAAGACGAGAAAAACTACAACAATGCGTTGAAGAAGGTTATCAATTACCAACAGGATATGAAGGTAATTGCTCAGTTCTTTGATGGAAATGATGCCATGCAAAATCTTCCTGATATTTCCCCGGATGTAGTGATGATGGATATCCAGCTACAGGATATGCTGGGAATAGAAATCATAGAGAAACTCCGAAAAGATATGCCTAATACACAATTCATCATGTGTACCAGCTTTGATGATGATGAAAAGATTTTTAATTCTTTAAAAGCAGGTGCCATGGGATATCTCGTAAAAGGAGAAAGCATGGATAAAATACTGTCTTCCATCCGGGATGTTTACGGCGGGGGAGCACCCATGAGTTTTTCCATAGCCCGCAGGGTTCTTAAACATTTTGAAAGAAGCCTTCTGGAAATAAAAGGTTTCGATGAGCTTACCGGGCGCGAAAAGGAAATTCTTGAACTTCTTTCTGAGGGACTTCTTTATAAAGAAATAGCGGATAAAAAATGTATCAGTATAGATACGGTTAAAAAACATGTTGGCAATATCTACAGAAAACTCCACGTAAATAATAAAGTGGAGGCAATCAATAAATTTAACAATTTTAAAAACTAA	MSISIAIVEDEKNYNNALKKVINYQQDMKVIAQFFDGNDAMQNLPDISPDVVMMDIQLQDMLGIEIIEKLRKDMPNTQFIMCTSFDDDEKIFNSLKAGAMGYLVKGESMDKILSSIRDVYGGGAPMSFSIARRVLKHFERSLLEIKGFDELTGREKEILELLSEGLLYKEIADKKCISIDTVKKHVGNIYRKLHVNNKVEAINKFNNFKN	PGPT0014870_468	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
BMS003_01911	435			hypothetical protein	ATGAAAAAAGGTCTTTTAGCACTTGGTGCTGTACTTACATTAACGGCTGTAAGCTGCAAGAAAAGTGAAAGCGGAAACAAAAGTGTTATCAAAACAGACAGCTCCACAACTGTAGTTACAGATAATAACGGAAAAATAGATTCTGTGACGCAAGGCTCTTCTATGGTAGACATTAACGGACAGAAAACCGAAAAAACAGATTTTGTTTATAAAGCTACAGACGGAACGTTAGTAAAAGTGATATTCAAAAACGATCCTAAGGAAAGTACAGTTGCCATTACCAGCAATAAGAGAACATTTACGTTACCTAAAACAGAAACCAATGGTGATGAAACAATTTATAAAAAAGATGATATGACCGCAAGGGTAAAAGGAGACAGCCTCCACCTTGAACAGGGTAATAATGTTATTGAACTGAAAAGAACCAAGATCTAA	MKKGLLALGAVLTLTAVSCKKSESGNKSVIKTDSSTTVVTDNNGKIDSVTQGSSMVDINGQKTEKTDFVYKATDGTLVKVIFKNDPKESTVAITSNKRTFTLPKTETNGDETIYKKDDMTARVKGDSLHLEQGNNVIELKRTKI				NA	NA	NA	NA	NA
BMS003_01912	825			hypothetical protein	ATGATCATTTTAAAGGATAAGTTGGAAAAAACAGTTTCCGGGGAAAGCATTAGCTTTATAGAGACACCCAATAAAGAGGGAATTATTATTCCGGAATATATAATCATTCATTTTACTGCAGGAAGAAGTACAGAAAATACGATAAACTGGTTTAAAGATCCTAAAGCAAAAGCTTCGGCTCATATCATTATAGATGGTGATGGCAGAGTTACTCAGATGATTGAATTCAATAAGAAAGCCTGGCACGCCGGAAGAAGCCGGTGGGCAGACCGCTCAGGGTTCAATGACTTTTCTATTGGGATAGAACTTGAGAATCCGGGAAAACTTACCAAAGTAAATGAAAGATTTTATGCATGGTTTGAAAAAGAATATTCCAAAGATGTAGTTGTGACAGCTAAACATAAACATGAAAATGAAGTATCTTACTGGCATAGCTTTACAGAAAAACAGTTGGAAATATGTTTCCAGGTTTGCAAATTGCTGATGGAAACCTATACGATCAAAAATATTCTGGGACATGATGATATTGCACCTTTCAGAAAAAGTGATCCGGGGCCGGCATTTCCTATGGACTGTTTCCGGGCAAAACTGTTAGGAAGGGAAAATAATGGAGCGGATATGTATAACGTGAATACCGAATATGCCAATGTAAGAAATGGTGCAGGAACTGAATTTGAAATGGTAGCTCAGCTTCAAAAGGATACCCCGGTGGAATTTATTAAGAGCAAGCTGGGGTGGTTTTATGTATATGTTTTATTTGATCCGGCAAGAGATGGTGAGCCTGTTTATGGATGGATCAACAGTGATTTACTGAAAAGGATCTGA	MIILKDKLEKTVSGESISFIETPNKEGIIIPEYIIIHFTAGRSTENTINWFKDPKAKASAHIIIDGDGRVTQMIEFNKKAWHAGRSRWADRSGFNDFSIGIELENPGKLTKVNERFYAWFEKEYSKDVVVTAKHKHENEVSYWHSFTEKQLEICFQVCKLLMETYTIKNILGHDDIAPFRKSDPGPAFPMDCFRAKLLGRENNGADMYNVNTEYANVRNGAGTEFEMVAQLQKDTPVEFIKSKLGWFYVYVLFDPARDGEPVYGWINSDLLKRI	PGPT0019115_1084	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
BMS003_01913	519			hypothetical protein	ATGAGACACGGTAAAAAATTCAATCACTTAGGAAGAACAGCTTCTCATAGAAGTGCTTTACTTTCTAATATGGCTTGTTCTCTAATTGAGCATAAAAGAATCAACACTACTGTAGCTAAAGCTAAAGCTTTAAGAGTATATGTTGAGCCTCTATTAACAAAAGCAAAAGAAGATACTACACACAACAGAAGAGTAGTATTCTCTTACCTTCAAAATAAATTTGCGGTTGCTGAATTATTCAGAACTGTAGCTCCTAAAATCGCTGAAAGAAACGGTGGTTATACAAGAATCATCAAGACAGGATTCAGACCAGGTGATGCTGCTGATACTGCTCTTATCGAATTAGTAGATTTCAACGAGCTTTACAACCCTAATGCTGAAGAGAAAAAAGCTACAAGAAGAAGCAGAAGATCTACAACGGCTAAAAAAGCTGAAGCAGTAGTTGCTGAAGCTCCTGCAGTAGAAGAAAAAGTAGAAGAAGCTAAAGCTGATACTACTGAAGAAAAAACTGAGGAATAA	MRHGKKFNHLGRTASHRSALLSNMACSLIEHKRINTTVAKAKALRVYVEPLLTKAKEDTTHNRRVVFSYLQNKFAVAELFRTVAPKIAERNGGYTRIIKTGFRPGDAADTALIELVDFNELYNPNAEEKKATRRSRRSTTAKKAEAVVAEAPAVEEKVEEAKADTTEEKTEE				NA	NA	NA	NA	NA
BMS003_01914	996	rpoA	COG0202	DNA-directed RNA polymerase subunit alpha	ATGGCAATTTTACAATTCATAAAACCCGATAAAGTAATTTTACTTAACTCTGATGAATTTAAAGGTCAATTTGAATTCAGACCTTTAGAACCAGGTTTCGGGCTTACAATCGGTAATGCTTTGAGAAGAGTGTTGCTTTCTTCTCTGGAAGGATACGCTATTTCATCTATCAAAATAGAAGGTGTAGAGCACGAATTTTCAACTATTCCAGGAGTAATCGAAGACGTTACCGAAATTATTCTTAACCTTAAGCAGGTAAGATTAAAAGCTGCAGCAGAAGGCCAGGCTAACGAGCAGGTTGTTGCTAAAGTTTCAGGTCAAACGGTTATTACTGCTGGTGATTTAGGGAAGTCTATCAATGGATTCGAGGTGCTAAACCCGGATTTAGTGATCTGCAACCTAAACAGTGATGTAACTTTCGAAATTACTTTCAATATTGAAAAAGGTAGAGGGTATGTTCCTTCTGAACAAAATAAGTCAAACAATGCTCCGGTAGGAACTATTGCCATCGACTCTATTTTTACGCCGATCAAGAAAGTACAATACAGCATTGAAAATTATCGTGTAGAGCAAAAAACAGACTACGAAAAACTTGTATTAGATATAGAAACTGACGGGTCTATCAGCCCTCAGAATGCTTTAACTGAAGCTTCTAAGATATTAATCTATCATTTCATGCTATTCTCTGATGAGAGAATCACGCTTGAAACGGAAGCCGTAAAAGCATCTATCCAGTACGATGAAGAAACTCTTCACACAAGACAACTTCTTAAGTCTAAACTAGCAGATATGGATCTTTCAGTAAGAGCTCTTAACTGTTTGAAGGCTGCAGAAGTAGAAACTCTTGGAGAACTGGTTTCTTACAGTAAGTCTGATTTGATGAAATTCAGAAATTTTGGTAAAAAATCTTTGACAGAACTAGAAGAATTAGTGCATTCAAAAGGTCTTAACTTCGGTTTCGACGTTGCAAAATATAAGTTAGACGCTGATAAATAA	MAILQFIKPDKVILLNSDEFKGQFEFRPLEPGFGLTIGNALRRVLLSSLEGYAISSIKIEGVEHEFSTIPGVIEDVTEIILNLKQVRLKAAAEGQANEQVVAKVSGQTVITAGDLGKSINGFEVLNPDLVICNLNSDVTFEITFNIEKGRGYVPSEQNKSNNAPVGTIAIDSIFTPIKKVQYSIENYRVEQKTDYEKLVLDIETDGSISPQNALTEASKILIYHFMLFSDERITLETEAVKASIQYDEETLHTRQLLKSKLADMDLSVRALNCLKAAEVETLGELVSYSKSDLMKFRNFGKKSLTELEELVHSKGLNFGFDVAKYKLDADK				NA	NA	NA	NA	NA
BMS003_01915	609	rpsD		30S ribosomal protein S4	ATGGCAAGATATATTGGACCTAAAACTAAGATTGCTAGAAAGTTTGGTGCTGCAATCTACGGAGATGACAAAAACTTCGAAAAAAGAAAGAACCAACCGCCAGGACAACACGGTCCTAACAAAAGAAGAGGTGCTAAGAAATCAGAATATGCAGTTCAGTTGGCTGAAAAACAAAAAGCTAAATATACTTACGGTATCTTAGAAAGACAGTTTGCTAACTTATTTGAAAAAGCACACAGAAGTAAAGGTGTAACAGGGGAAGTTCTATTACAACTTTGTGAATCAAGATTGGATAACGTAGTATACAGATTAGGTTTTGCTAAAACAAGATCTGGAGCTAGACAATTAGTTTCTCACAGACACATCACTGTGAACGGAGAGATTCTTAATATCCCTTCTTACTTGGTAAAAGCTGGTGATGTAATCGCTGTAAGAGAAAAGTCTAAGTCTCTTGAAGTTGTTACCAATGCATTGGCTTCTAAGTCAAACTATGAGTGGTTACAATTCAACGATGAGAAGAAAGAAGGTACCTTCATTTCTGCTCCTGAAAGAATCCAGATTCCGGAGGACATTAAGGAAAACCTTATCGTCGAACTTTACTCTAAATAA	MARYIGPKTKIARKFGAAIYGDDKNFEKRKNQPPGQHGPNKRRGAKKSEYAVQLAEKQKAKYTYGILERQFANLFEKAHRSKGVTGEVLLQLCESRLDNVVYRLGFAKTRSGARQLVSHRHITVNGEILNIPSYLVKAGDVIAVREKSKSLEVVTNALASKSNYEWLQFNDEKKEGTFISAPERIQIPEDIKENLIVELYSK				NA	NA	NA	NA	NA
BMS003_01916	390	rpsK		30S ribosomal protein S11	ATGGCAAAACAAACTAAAGTAGTTAAAAAAAGAAAAGTAAAAGTTGAAGCTATTGGCGAAGCTCATATTCAGGCTTCTTTCAATAACATCATCATTTCTTTAACAAATAAAAACGGAGAGGTTATCTCTTGGGCTTCTGCCGGTAAAATGGGTTTCAGAGGTTCTAAAAAGAATACTCCATTTGCTGCTCAGATGGCAGCTGAAAATTGCTCTGCTGTAGCTCACGAAGCTGGTTTAAGAAGAGTAAAGGTGTTTGTGAAAGGTCCAGGTGCAGGTAGAGAATCTGCAATCAGATCTATCCACAATTCAGGAATTGAAGTTAGCGAAATCATTGATGTGACTCCTATGCCACACAATGGATGTAGACCACCAAAAAGAAGAAGAGTTTAA	MAKQTKVVKKRKVKVEAIGEAHIQASFNNIIISLTNKNGEVISWASAGKMGFRGSKKNTPFAAQMAAENCSAVAHEAGLRRVKVFVKGPGAGRESAIRSIHNSGIEVSEIIDVTPMPHNGCRPPKRRRV				NA	NA	NA	NA	NA
BMS003_01917	378	rpsM	COG0099	30S ribosomal protein S13	ATGGCGAGAATTGCAGGTATTGATTTACCAAAAAACAAAAGAGGTGTTATCGGTTTAACTTACATCTATGGAGTAGGAAGAAGTACTTCTTCTGAAATCCTTAAAGCTGCCGGTATCAGCGAAGACAAGAAAGTCAACGAATGGAATGACGATGAATTGGCTGCAATCAGAACATATATCTCTGAAAACGTAAAAGTAGAAGGAGAATTAAGATCTGAAGTGCAATTGAACATCAAGAGATTGATGGACATAGGATGCCAACGAGGAATACGTCACAGACTTGGATTACCTTTAAGAGGCCAGAGAACGAAAAACAACTCTAGAACACGTAAAGGGAAGAGAAAAACTGTTGCTAACAAGAAAAAAGCTAGTAAATAA	MARIAGIDLPKNKRGVIGLTYIYGVGRSTSSEILKAAGISEDKKVNEWNDDELAAIRTYISENVKVEGELRSEVQLNIKRLMDIGCQRGIRHRLGLPLRGQRTKNNSRTRKGKRKTVANKKKASK				NA	NA	NA	NA	NA
BMS003_01918	216	infA	COG0361	Translation initiation factor IF-1	ATGGCAAAACAAAAACATATTGAACAAGATGGCGTGATCGTGGAAGCACTTTCGAACGCCATGTTCCGTGTAGAGCTGGAAAATGGGCACATCCTTATTGCTCATATCTCCGGCAAAATGAGAATGCATTATATTAAACTTTTACCTGGAGACAAGGTAAAACTAGAAATGTCTCCCTATGATTTGACAAAAGGGAGGATCACATTTAGATATTAA	MAKQKHIEQDGVIVEALSNAMFRVELENGHILIAHISGKMRMHYIKLLPGDKVKLEMSPYDLTKGRITFRY				NA	NA	NA	NA	NA
BMS003_01919	1380	secY	COG0201	Protein translocase subunit SecY	ATGAAAGAATTTATACAAACACTTAAAAATATATGGAGCCTAAAGGAATTAAGAGATAAAATTCTCTTTACGTTAGGTATTATCCTTGTGTATAGATTCGCATCTTATATCTCACTTCCTGCAATTAACCTTGCAGAAGTGGGAGATCTCTTAGAGCATTATAAAAATCAAGGCGGTAACAAGCAAGGAGCAGGTCTCCTTGGCTTGCTTTCGTCGTTTACGGGGGGAGCTTTCAGCCACGCTTCCGTAATGGCGTTGGGTATCATGCCTTATATTTCTGCTTCTATTATTGTTCAGTTGATGGGAATGGCTATTCCTTATCTTCAGAAGCTTCAGAAAGATGGAGAGTCAGGTAGAAATACATTGAACCAAATTACAAGATGGTTAACTATTGGAGTTTGTCTGGTACAGGCACCTTCTTACTTAACTTCTATTACTCAATTATTCTTACCGTATGCTCAATTCCAGTCTGCATACTATGTAGAGCCAAATTCTATCATGTTCTGGTTACCAAGTATTGTAATATTGGTTGCCGGTTCAGTATTCGCAATGTGGTTAGGTGAAAAAATCACCGACAAAGGTATCGGAAACGGTATCTCTATCCTTATTATGGTGGGGATCCTTTCAAGATTACCGGAAGCATTCGTTCAGGAAATAGCCGTGCAGAATGGAAAAGGAGGAATGGGATCTATCATGATCCTTATTGAAGTATTATTCTGGATGTTGGTAGTTCTTTTAGCAGTGATCTTATCAGTAGCTGTTAGAAAAATTCCGATTCAGTATGTAAGCAGAGCTCAAGCAAGAGGAGGTGTAAACAGAAATCTTATGCAGGGAGCAAGACAATGGATTCCATTGAAAGTAAATGCTGCTGGTGTAATGCCGATTATCTTTGCTCAGGCATTGATGTTCGTACCAGGATTATTAACAAAATTCGATGAGTCTAACACTTTTCTTGCAGGTTTCAAGAATGTTTTTAGCTGGCAGTACAACGTATTGTTTGCGCTATTAATTATTATCTTCTCATTTTTCTATACTGCGATTACAATTCCGGTAAACCAGATGGCTGATGACTTGAAGAGAAATGGAGGTTTAGTACCGAAAGTAAGACCCGGTAAAGAGACAGCTGATTATTTAGATGATATTTTATCAAAAATTACCTTGCCAGGTGCAATTTTTTTATCTATCTTTGCAGTCCTTCCAGCAATTGTGCATGGAAGCTTTGTTCAGACAGATGCGTTTGCCCTATTTTTCGGGGGAACGTCACTATTAATTATGGTGGGTGTAATTTTAGATACAGTTCAACAGATTAATACATATCTGCTGAACCATCACTATGATGGCTTAATGCAGTCTAAATTATCAAGAACGACTGGATATTAA	MKEFIQTLKNIWSLKELRDKILFTLGIILVYRFASYISLPAINLAEVGDLLEHYKNQGGNKQGAGLLGLLSSFTGGAFSHASVMALGIMPYISASIIVQLMGMAIPYLQKLQKDGESGRNTLNQITRWLTIGVCLVQAPSYLTSITQLFLPYAQFQSAYYVEPNSIMFWLPSIVILVAGSVFAMWLGEKITDKGIGNGISILIMVGILSRLPEAFVQEIAVQNGKGGMGSIMILIEVLFWMLVVLLAVILSVAVRKIPIQYVSRAQARGGVNRNLMQGARQWIPLKVNAAGVMPIIFAQALMFVPGLLTKFDESNTFLAGFKNVFSWQYNVLFALLIIIFSFFYTAITIPVNQMADDLKRNGGLVPKVRPGKETADYLDDILSKITLPGAIFLSIFAVLPAIVHGSFVQTDAFALFFGGTSLLIMVGVILDTVQQINTYLLNHHYDGLMQSKLSRTTGY	PGPT0025725_492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
BMS003_01920	450	rplO	COG0200	50S ribosomal protein L15	ATGAATTTAAATAACATACAACCTGCTGCAGGATCTACTTTCAACTCAAAGAGAATTGGTAGAGGTCAAGGTAGTGGAAAAGGAGGTACTTCAACAAAAGGACACAAAGGTCAGAAAGCTAGAGCTGGTTATTCTCAAAAAATCGGTTTCGAAGGTGGACAGATGCCTTTACAAAGAAGATTACCTAAATTCGGATTCAAAAACGTAAACAGAAAAGAGTTTAGAGGAGTTAACCTAGACACTATTCAAACTTTAATTGAGAACAAATCCATCACTGGAGATATCACGAAAGAAGTTTTAGTAGAAAACGGGATAGTTTCTAAAAACGAATTAGTGAAAATTATGGGTAGAGGAGAATTGAAATCTGCGGTTTCAATCTCTGCTGACAAATTCACTAAATCTGCTGAAGAGCTTATTGCTAAGGCAGGTGGAAAAGCAATTACCTTATAA	MNLNNIQPAAGSTFNSKRIGRGQGSGKGGTSTKGHKGQKARAGYSQKIGFEGGQMPLQRRLPKFGFKNVNRKEFRGVNLDTIQTLIENKSITGDITKEVLVENGIVSKNELVKIMGRGELKSAVSISADKFTKSAEELIAKAGGKAITL				NA	NA	NA	NA	NA
BMS003_01921	177	rpmD	COG1841	50S ribosomal protein L30	ATGGCAACAATTAAAGTAAAGCAAGTAAGAAGCGCTATTGGTAGAACAAAAACCCAAAAGAGAACGCTTGAAGCATTAGGATTAAAAAAACTTCACCAAGTTGTAGAACATGAAGCTACTCCTTCCATCTTAGGAATGATCGCTGCTGTAGGACACTTACTTGAAGTTCAAAAATAA	MATIKVKQVRSAIGRTKTQKRTLEALGLKKLHQVVEHEATPSILGMIAAVGHLLEVQK				NA	NA	NA	NA	NA
BMS003_01922	522	rpsE	COG0098	30S ribosomal protein S5	ATGTTAGGACTAGATAATATAGAAAGAGTAAAACCGGGAGGATTAGAATTAAAAGATCGTCTCGTAGCTGTTAACAGAGTAACAAAAGTAACAAAAGGAGGTAGAGCTTTCGGATTTTCTGCTATTGTTGTAGTAGGTAACGAAGAAGGTGTTATCGGTTTCGGTTTAGGAAAATCTAAAGAGGTTGCTTCTGCAATTGCTAAAGCAGTTGAAGACGCTAAGAAAAACCTAGTTAAAGTTCCTGTAATGAACCACACTATCCCTCACCAAACTACTGCTAGATACGGTGGTGCAGATATCTTCTTAAGACCTGCTTCTCACGGTACAGGATTGATCGCCGGAGGTGCGGTAAGAGCGGTATTGGAATCTGCTGGTATTCACGATATCCTTTCAAAATCTAAAGGATCTTCTAACCCTCACAACGTAGTAAAAGCTACTTTCAAAGCGTTATTAGACATCAGAAGACCTGAAGAAATCGCTAGAATGAGAGGAGTTTCTCTAAGTAAAGTGTTTAACGGTTAA	MLGLDNIERVKPGGLELKDRLVAVNRVTKVTKGGRAFGFSAIVVVGNEEGVIGFGLGKSKEVASAIAKAVEDAKKNLVKVPVMNHTIPHQTTARYGGADIFLRPASHGTGLIAGGAVRAVLESAGIHDILSKSKGSSNPHNVVKATFKALLDIRRPEEIARMRGVSLSKVFNG				NA	NA	NA	NA	NA
BMS003_01923	354	rplR		50S ribosomal protein L18	ATGGCATTAAGTAAATTAGAAAAAAGAATAAGAATCAAAAGAAGAGTAAGAGGGAAAATCTCTGGATCTTCTGAATTGCCAAGATTATCTGTATATAAAAGTAATAAGGAAATTTACGCTCAGTTAATCGACGATAAAAATGGTAAAACTTTAGCATCAGCTTCTTCCAGAGAGAAAGGTGTAGACGCTAAAGGTACTAAGACTGAAGTTTCTGCTGCTGTTGGTAAAGCTATCGCTGCTAAAGCTATCGCTGCAGGAATCGAAAGTATTGTATTTGACAGAAACGGATTCGTATACCACGGTAGAGTAAAAGCTCTAGCTGATGGTGCAAGAGAAGGTGGACTTAAATTCTAA	MALSKLEKRIRIKRRVRGKISGSSELPRLSVYKSNKEIYAQLIDDKNGKTLASASSREKGVDAKGTKTEVSAAVGKAIAAKAIAAGIESIVFDRNGFVYHGRVKALADGAREGGLKF				NA	NA	NA	NA	NA
BMS003_01924	546	rplF	COG0097	50S ribosomal protein L6	ATGTCAAGAATTGGTAAAGCAATTATAACAATTCCAGCTGGAGTTACAATCACTGAAAATAACGGTGTAGTAACTGTAAAAGGAGCAAAAGGAGAACTTTCTCAAGAGCTTACAGCAGGAATTACTTTAGAACAAAAAGATGGTGAACTTAACGTAAACAGACCATCTGATTCTAAACAACACAAAGCACTTCACGGTTTATACAGAGCGTTAATCGCAAACATGATCGTAGGTGTAAATGAAGGTTTCGAAAAGAAACTAGAACTAGTAGGGGTAGGATACAGAGCTTCTCACGCAGGTCAAAAACTTGAGTTAGCTTTAGGATTCTCTCACGGTATCGTATTAGAACTTCCAAGTGAAGTAAAAGTTGATACATTGACTGAAAAAGGTAAAAACCCAATTATTACTTTAACGTCTCACGACAAGCAACTTCTAGGAATGGTTACTGCAAAGATCCGTTCTTTCAGAAAGCCTGAGCCATACAAAGGAAAAGGTGTGAAATTCGTAGGAGAAATTGTTAGACGTAAAGCTGGTAAATCTGCTTAA	MSRIGKAIITIPAGVTITENNGVVTVKGAKGELSQELTAGITLEQKDGELNVNRPSDSKQHKALHGLYRALIANMIVGVNEGFEKKLELVGVGYRASHAGQKLELALGFSHGIVLELPSEVKVDTLTEKGKNPIITLTSHDKQLLGMVTAKIRSFRKPEPYKGKGVKFVGEIVRRKAGKSA				NA	NA	NA	NA	NA
BMS003_01925	399	rpsH	COG0096	30S ribosomal protein S8	ATGGTAACAGATCCAATTTCAGATTTCCTAACAAGAGTAAGGAACGCACAAAGCGCAGGCCACAAAGTGGTGGAAATTCCTGCATCGAAAATCAAAAAGGAGATTACTAAGATCTTATTTGATCAAGGGTATATCTTAAACTTCAAGTTTGAAGATAACGCTGTTCAAGGAGTGATCAAAATCGCTTTAAAGTACGATAAGCAAACCAACAAACCAGCTATCAAGTCTATTCAAAGAGCTTCTAGACCAGGTTTGAGACAGTACAAAGGTTCTACTGAACTTCCAAGAGTACTAAACGGTTTGGGTATTTCTATCATCTCTACTTCAAAAGGAGTAATGACTGACAAGAAAGCTAGAGAAGAGAAAGTAGGCGGTGAAGTAATCTGCTATGTTTATTAA	MVTDPISDFLTRVRNAQSAGHKVVEIPASKIKKEITKILFDQGYILNFKFEDNAVQGVIKIALKYDKQTNKPAIKSIQRASRPGLRQYKGSTELPRVLNGLGISIISTSKGVMTDKKAREEKVGGEVICYVY				NA	NA	NA	NA	NA
BMS003_01926	270	rpsN2	COG0199	Alternate 30S ribosomal protein S14	ATGGCTAAAGAATCAATGAAAGCGCGTGAGCGCAAAAGAGAAGCACTAGTTGCTAAATACGCTGCTAAAAGACAAGCTCTTAAAGAAGCTGGTGATTACGAAGGACTTCAAAAATTGCCTAAAAATGCTTCTCCTGTAAGATTACACAACAGATGTAAACTGACAGGTAGACCAAGAGGATACATGAGAACGTTCGGTATTTCCAGAGTAACTTTCAGAGAAATGGCAAACAACGGACTTATCCCGGGAGTTAAAAAAGCTAGTTGGTAA	MAKESMKARERKREALVAKYAAKRQALKEAGDYEGLQKLPKNASPVRLHNRCKLTGRPRGYMRTFGISRVTFREMANNGLIPGVKKASW				NA	NA	NA	NA	NA
BMS003_01927	552	rplE		50S ribosomal protein L5	ATGGAATATATAGCAAGACCCAAAAAAGCATATAAAGAGACAATTGTTCCTGCAATGATGGAAGAATTCGGGTATAAGTCAGTAATGCAAGTACCTAAATTAGAGAAAATCGTTGTATCACAAGGTTTAGGTGATGCTACTGCAGACAAAAAAATCATTGACTATGCTGTAGAAGAGCTTACAAATATCACTGGTCAAAAGGCTGTTGGTACGATCTCTAAGAAAGACGAAGCTGCTTTCAAATTGAGAAAAGGTATGCCGGTAGGTGCAAAAGTTACCCTTAGAGGAAACCAGATGTATGAATTCTTAGACAGACTTACTTCTTCTGCTTTGCCTCGTATCAGAGATTTCTCTGGAATCAAAGCTGATGGTTTCGATGGTAGAGGTAACTACAACTTAGGTATTACTGAGCAGATTATCTTCCCTGAAATCGTAATTGACAAAGTGAAAAAAATCCAGGGGATGGACATCACTTTCGTTACTACTGCGAAAACAGATAAAGAAGCTAAAGCATTATTAACTCACTTCGGTTTACCATTTAAAAAGAACTAA	MEYIARPKKAYKETIVPAMMEEFGYKSVMQVPKLEKIVVSQGLGDATADKKIIDYAVEELTNITGQKAVGTISKKDEAAFKLRKGMPVGAKVTLRGNQMYEFLDRLTSSALPRIRDFSGIKADGFDGRGNYNLGITEQIIFPEIVIDKVKKIQGMDITFVTTAKTDKEAKALLTHFGLPFKKN				NA	NA	NA	NA	NA
BMS003_01928	327	rplX	COG0198	50S ribosomal protein L24	ATGTCAAAGTTAAAAATAAAAAGAGGAGATAACGTAATCATTACTACTGGTAAGAAAGATATCAAAGGTAAGACCGGTGAAGTTATTGAAGTGATCAAGAAAGAAGGAAGAGACCCTAGAGTAGTTGTTGCAGGACTTAACATCATCAAAAAACACGTTAAGCCTTCAGCTTCAAATCCTCAAGGAGGAATCGTTGAAAGAGAAGCTTCTATTCATATCTCAAACGTAGCTTTAGTTGGTAAAGACGGAAAAGCTATCAAAGTAGGTTACAAAATCGAAGGAGATAAGAAAGTAAGAATCAACAAAAAAACGGGTGAAACTTTATAA	MSKLKIKRGDNVIITTGKKDIKGKTGEVIEVIKKEGRDPRVVVAGLNIIKKHVKPSASNPQGGIVEREASIHISNVALVGKDGKAIKVGYKIEGDKKVRINKKTGETL				NA	NA	NA	NA	NA
BMS003_01929	369	rplN		50S ribosomal protein L14	ATGTTACAAACAGAATCAAGATTAAAAGTTGCTGATAATACAGGTGCAAAAGAAGTACTAGTTATCAGAGTTCTGGGAGGAACCAGAAGAAGATATGCTTCAGTTGGTGATAAAATCGTTGTTACTATCAAGGATTCTACACCATCAGGAAACGCTAAAAAAGGTCAGGTATCTAAAGCTGTAGTAGTAAGAACTAAAAAAGCAGTAAGAAGAAAAGATGGTTCATACATCAAGTTCGACGATAATGCTTGTGTATTACTAAACGCAGCGGGAGAAATGAGAGGAACGCGTGTTTTCGGACCGGTTGCTCGTGAGTTGAGAGACAAAGAATATATGAAAATCATTTCATTAGCTCCTGAAGTACTTTAA	MLQTESRLKVADNTGAKEVLVIRVLGGTRRRYASVGDKIVVTIKDSTPSGNAKKGQVSKAVVVRTKKAVRRKDGSYIKFDDNACVLLNAAGEMRGTRVFGPVARELRDKEYMKIISLAPEVL				NA	NA	NA	NA	NA
BMS003_01930	255	rpsQ	COG0186	30S ribosomal protein S17	ATGGATAGAAATTTAAGAAAAGAAAGAATCGGAGTGGTTTCCAGCAATAAAATGGAAAAAACTATTGTTGTTAGTGAAACTACAAGAGTAAAACACCCGATGTACGGTAAATTCGTTTTGAAAACGAAAAAATATACTGCACACGACGAGAACAACGAATGCACAGAAGGTGATACAGTTCTTATCCAAGAAACTAGACCTTTGAGCAAGAGCAAGAGATGGAGATTAGTAAGAATCATTGAAAAAGCTAAGTAA	MDRNLRKERIGVVSSNKMEKTIVVSETTRVKHPMYGKFVLKTKKYTAHDENNECTEGDTVLIQETRPLSKSKRWRLVRIIEKAK				NA	NA	NA	NA	NA
BMS003_01931	186			hypothetical protein	ATGAAAAAAGCTGATATTAAAAATTTAAGCGCGGGTGATATTCAAACTCAATTAACTGAAGCAAAAGCTCAATATTCTAAATTGAAATTGGCTCATGCAATCAGCCCAATTGAAAACCCGATTCAAATCAGAGATTTGAGAAAAACAATCGCAAGACTAAACACTGAGTTAACTAACAAACAATAA	MKKADIKNLSAGDIQTQLTEAKAQYSKLKLAHAISPIENPIQIRDLRKTIARLNTELTNKQ				NA	NA	NA	NA	NA
BMS003_01932	426	rplP	COG0197	50S ribosomal protein L16	ATGTTACAACCAAAAAGAACCAAATTCCGTAGAGTTCATAAGATGAAGATGAAGGGGAATGCCCAAAGAGGTAGTCAACTTGCTTACGGAACTTTTGGGATCAAAGCAACGGAAGGAGCTTGGATCACTGCAAGACAGATTGAAGCAGCTCGTATCGCTGCGACAAGATATATGAAGAGAGAAGGTCAACTATGGATCAAAATCTTCCCGGATAAGCCAATTACCAAAAAACCAGCGGAAGTACGTATGGGTAAAGGTAAAGGTGCTGTAGAATACTGGGTAGCTGTAGTAAAGCCAGGTAAAATTATGTTCGAAGTAGGTGGAGTTCCTTACGAAGTTGCGAAAGAAGCTCTTAGACTTGCTGCACAAAAATTACCAGTAGTTACTAAATTCATCGTTGCTAACGATTTTGTTAAACCTCTATAA	MLQPKRTKFRRVHKMKMKGNAQRGSQLAYGTFGIKATEGAWITARQIEAARIAATRYMKREGQLWIKIFPDKPITKKPAEVRMGKGKGAVEYWVAVVKPGKIMFEVGGVPYEVAKEALRLAAQKLPVVTKFIVANDFVKPL				NA	NA	NA	NA	NA
BMS003_01933	750	rpsC	COG0092	30S ribosomal protein S3	ATGGGACAGAAGACAAATCCAATTGGTAACAGATTAGGTATCATCAGAGGATGGGATTCTAACTGGTTTGGTGGAAACGATTATGGAGACAGAATCGCTGAAGACTACAAAATCAGAAGATACCTTGAAGCTAGATTATCTAAAGGTGGTATTTCAAAAATTTATATTGAAAGAACTTTAAAATTAGTTACAGTAACTATTACGACAGCTAGACCGGGACTTATCATCGGTAAAGGAGGTCAGGAAGTTGATAAATTGAAAGAAGAGTTGAAGAAACTTACAGGTAAGGATATTCAAATCAATATTTTCGAAATCAAAAGACCTGAATTAGACGCTGTACTGGTTGCTGATAGTATTTCTAAGCAAATTGAAAACAGAATTTCTTACAGAAGAGCTGTTAAAATGGCAATGGCTAGTACTATGAGAATGGGTGCTGAAGGTATCAAAGTTCAAATCTCTGGTAGATTAAACGGAGCTGAAATGGCAAGATCAGAATCTTTCAAAGAAGGAAGAATTCCATTGTCAACTTTCAGAGCTGATATTGATTACCACTGGGCAGAAGCTCACACTACTTACGGTAGACTAGGTGTAAAAGTTTGGATCATGAAAGGTGAAGTTTACGGTAAAAGAGAACTTTCTCCACTAGTGGGACAACAGAAAAAAGGAGGTCAGTCAGACAGAGGAAACAGAGGAGGAGACAGAGACAACAGAAGACCTAGAAAAAACAACAACAATAACAATAATAATTAA	MGQKTNPIGNRLGIIRGWDSNWFGGNDYGDRIAEDYKIRRYLEARLSKGGISKIYIERTLKLVTVTITTARPGLIIGKGGQEVDKLKEELKKLTGKDIQINIFEIKRPELDAVLVADSISKQIENRISYRRAVKMAMASTMRMGAEGIKVQISGRLNGAEMARSESFKEGRIPLSTFRADIDYHWAEAHTTYGRLGVKVWIMKGEVYGKRELSPLVGQQKKGGQSDRGNRGGDRDNRRPRKNNNNNNNN				NA	NA	NA	NA	NA
BMS003_01934	399			hypothetical protein	ATGGGATCAAGAAAACAAGATAGTTCAATCGCAAGAAAAGAAGCTAACAAAGACGTTGTAAAAGCTTCATTAAATAATTGCCCGTCTTCTCCAAGAAAAATGAGATTAGTTGCTGATATCATTAGAGGAGAGCAGGTAGACAAAGCACTTTATATCCTAAAATATTCTAAGAAAGATGCTTCTAACAAGTTAGAAAAATTACTTCTTTCTGCTATGGCTAACTGGCAAGTGAAAAACGAAGGTGCAGACATCGAGGAAGCAAACCTTATCGTTAAAGAAATATTTGTGGATAGTGCAAGACAATTGAAGAGACTAAGACCAGCTCCACAAGGTAGAGGGTATAGAATCAGAAAAAGATCTAACCACGTTACATTAATCTTAGGTAACAAAGAAAATTAA	MGSRKQDSSIARKEANKDVVKASLNNCPSSPRKMRLVADIIRGEQVDKALYILKYSKKDASNKLEKLLLSAMANWQVKNEGADIEEANLIVKEIFVDSARQLKRLRPAPQGRGYRIRKRSNHVTLILGNKEN				NA	NA	NA	NA	NA
BMS003_01935	279	rpsS	COG0185	30S ribosomal protein S19	ATGGCAAGATCACTTAAGAAAGGACCGTTCATTCATCATACTTTAGATAAGAAGGTTCAGGCAAATATAGAGTCTGGTAAGAAGACAGTTATCAAAACTTGGTCTAGAGCATCTATGATCTCTCCGGACTTCGTAGGACAAACTATTGCTGTACACAACGGGAAATCTTTTATCCCGGTTTATGTTACAGAAAACATGGTTGGTCACAAGTTAGGCGAATTTTCTCCAACAAGATCTTTCAGAGGTCATGGTGGTAACAAAAATAAAGGAAGCAGATAA	MARSLKKGPFIHHTLDKKVQANIESGKKTVIKTWSRASMISPDFVGQTIAVHNGKSFIPVYVTENMVGHKLGEFSPTRSFRGHGGNKNKGSR				NA	NA	NA	NA	NA
BMS003_01936	822	rplB	COG0090	50S ribosomal protein L2	ATGTCTGTTAGAAAATTAAAACCTATCACCCCGGGACAGAGATTCAGAATTGTAAACAATTTTGAGGAAATTACTACCAACAAACCAGAGAAATCTCTAACAGTTGGTATTAAAAAGTCAGGTGGACGTAACCAAACAGGTAAAATGACCATGCGTTACACCGGAGGTGGACACAAAAAGAAATACAGAATTATTGACTTCAAAAGAAACAAAGCAAACGTTGAAGCAACTGTAAAATCTGTAGAATACGATCCAAACAGAACTGCATTTATCGCTTTATTAGAATACGCAGACGGAGAGAAGAGATATATCATCGCTCCAAACGGTATCAAAGTTGATCAGAAAGTAGTATCAGGAGAAAGCGTTGAACCAAACGTAGGTAACGCAATGAAATTGAAAAATATTCCATTGGGTACTGTAATCTCTTGTGTTGAAATGAAGCCTGGACAAGGTGCAATTTTAGCAAGAAGTGCTGGTTCTTCAGCTCAATTAACTTCCAGAGATGGTAAATATGCAATCATCAAATTGCCTTCAGGAGAATCAAGAATGATCCTTACTGAATGTATGGCAATGATTGGATCTGTTTCCAACTCAGATCACCAATTAACTGTATCAGGTAAGGCTGGTAGAAGCAGATGGTTAGGTAGAAGACCAAGAACAAGAGCGGTTGTAATGAACCCGGTAGATCACCCAATGGGTGGTGGTGAAGGACGTTCTTCAGGAGGTCACCCAAGATCTAGAAACGGTAAACCAGCTAAAGGTTACAAAACTAGAAAGAAAAACAAAGTGTCTAACCGTTACATCGTATCTAAAAGAAAATAA	MSVRKLKPITPGQRFRIVNNFEEITTNKPEKSLTVGIKKSGGRNQTGKMTMRYTGGGHKKKYRIIDFKRNKANVEATVKSVEYDPNRTAFIALLEYADGEKRYIIAPNGIKVDQKVVSGESVEPNVGNAMKLKNIPLGTVISCVEMKPGQGAILARSAGSSAQLTSRDGKYAIIKLPSGESRMILTECMAMIGSVSNSDHQLTVSGKAGRSRWLGRRPRTRAVVMNPVDHPMGGGEGRSSGGHPRSRNGKPAKGYKTRKKNKVSNRYIVSKRK				NA	NA	NA	NA	NA
BMS003_01937	291	rplW	COG0089	50S ribosomal protein L23	ATGTCAGTTATTATTAAACCAGTTATTTCAGAAAAGGCTAATTACCTTACAGATTTAAGAGGTTCTTATTCTTTCTTAGTTAATCCTAAGGCGAATAAAATCGAGATCAAAAAAGCTGTTGAAGCAGCTTACGGTGTAAAAGTAGCAGACGTTAACACAATGATTTATGCTCCGAAGGTTTCTTCGAAATACACTAAAAAAGGTCTTCAAGTAGGAAAGACAAACAAATTGAAAAAAGCGGTAATCAAACTTGCTGAAGGTGAGGTTATCGATATTTTTGCTGTAAATTAA	MSVIIKPVISEKANYLTDLRGSYSFLVNPKANKIEIKKAVEAAYGVKVADVNTMIYAPKVSSKYTKKGLQVGKTNKLKKAVIKLAEGEVIDIFAVN				NA	NA	NA	NA	NA
BMS003_01938	630	rplD		50S ribosomal protein L4	ATGGAACTAGTAGTATTAAATACATCAGGAAAAGAGACCGGAAGAAAAGTAACTCTAGACGAAACAGTATTCGGAATTGAGCCAAATCAGCACGCGGTTTACTTAGAAGTTAAACAGTATCTTGCTGCTCAAAGACAAGGTACTCATAAAGCAAAAGAAAGAAGCGAAATTACTGCTTCTACTAAAAAGCTTAAGAAGCAAAAAGGATCAGGATCTGCTAGATACGGGGATATCAAATCTCCAGTATTCAGAGGTGGAGGTAGAGTATTCGGGCCAAAACCAAGAGACTACAGATTCAAATTGAACAAAGCTCTTAAGAGATTAGCAAAAAAATCTGTTTTATCTCAAAAAATGAGAGACAACAGCATTAAAGTTTTAGAAGATATGAGCTTTGAAGCTCCTAAGACTAAAGATTTCATCAATGTATTAAACGCATTGGAACTTAACGGTAAAAAATCTTTATTCGTTCTTCCTGAAGCTAACAAGAATGTGTATTTATCTTCAAGAAACTTGCCTAAAGCTAAAGTAATGAACTTCAACGAGATCAGTTCTTACGATTTAGTAAACGCAGGTGAGATTATTTTCTTTGAAGGTGCAGTTGAAAAATTCCAGGAAAATTTAAAGAAATAA	MELVVLNTSGKETGRKVTLDETVFGIEPNQHAVYLEVKQYLAAQRQGTHKAKERSEITASTKKLKKQKGSGSARYGDIKSPVFRGGGRVFGPKPRDYRFKLNKALKRLAKKSVLSQKMRDNSIKVLEDMSFEAPKTKDFINVLNALELNGKKSLFVLPEANKNVYLSSRNLPKAKVMNFNEISSYDLVNAGEIIFFEGAVEKFQENLKK				NA	NA	NA	NA	NA
BMS003_01939	627	rplC	COG0087	50S ribosomal protein L3	ATGTCAGGTATTATTGGTAAAAAAATCGGTATGACATCTTTGTTTAACGAAGAAGGAAAAAACATTCCTTGTACAGTTATTCAAGCTGGTCCATGCTCGGTTTTACAGGTCAGAACCATTGAAAAGGACGGCTATAAAGCTGTTCAGTTAGGTTTCGATGACAAGAGTGAGAAGAACGTTGGTAAAGCGTTAGCTGGTCATTTTAAAAAGGCTGGTTCTGCTCCTAAAGCTAAATTGGTTGAATTTTACAGAGAATTCGTTGATGAAGTGAAAGTAGGAGAAGAAGTAAAAGTTGATTTATTCGCTGAAGGTGAATATGTTGACGTAACAGGAACTTCAAAAGGTAAAGGCTTCCAGGGTGTTGTTAAGAGACACGGATTTGGAGGTGTAATGCAGGCAACTCATGGTCAGCACAACAGACTTAGAGCTCCAGGTTCTATCGGTGCTGGTTCAGACCCTTCAAGAGTATTCAAAGGGATGAGAATGGCTGGAAGAATGGGAGGTAAGCAGGTAACTGTTCAGAACCTTCAAGTGTTAAAAGTTGATCAAGAACAAAATCTTTTAGTAGTAAAAGGTGCTGTTCCGGGAGCTAAAAATTCTTATGTAATTATCAGAAAATGGAACTAG	MSGIIGKKIGMTSLFNEEGKNIPCTVIQAGPCSVLQVRTIEKDGYKAVQLGFDDKSEKNVGKALAGHFKKAGSAPKAKLVEFYREFVDEVKVGEEVKVDLFAEGEYVDVTGTSKGKGFQGVVKRHGFGGVMQATHGQHNRLRAPGSIGAGSDPSRVFKGMRMAGRMGGKQVTVQNLQVLKVDQEQNLLVVKGAVPGAKNSYVIIRKWN				NA	NA	NA	NA	NA
BMS003_01940	765	srlR	COG1349	Glucitol operon repressor	ATGGAAAAGCTACTACCAAGGCAGGACGAAATACTAAAAGAGCTTGAGGAAAAAGGACATGTGCTTGTTCAGGACCTGTGTGAAAAGCTCAACGTTTCTTCGGTTACGATTCGAAAGGATCTGAACTATCTCGAAAGTCTGGGGCTTCTTTTCAGAAATCATGGAGGAGCGAGTAAACAGGTGAGGTATGCTTATGAAAAAAATGTGGGTGAGAAAGAAAGTATTAATGTAGAAGCGAAACAGGCTATTGCAAAAGCAGCTTTGTCTTTGATTCAGGAAAATGACAGTATCATACTGGCTTCCGGAACTACAATGCATTATCTGGCAAGAATGCTGGTGAATTTTGGTCCGCTTACGGTGCTTACATCTTCTTTGAGGGTAGCGATTGAGCTTTGTAATAATCCTGACATTAATATTATACAGCTTGGAGGCGAGGTGAGAAAAAGCTCCACTTCTATAGTGGGTTCTATTTCAGAAGGAATCCTTAAACAGTTTTCCTGTAATAAGCTTTTTCTTGGAGTAGACGGCATTGATCCGGAGTTTGGAATCAGTACTTCTAATGCTGCAGAAGCTCACCTGAATCAGATTATGATGGAATGTGCAGATAAGACTGTGATTCTTGCAGATTCTTCGAAGCTAAATAAGAAGGGGTTTGGAAAGATTGCTGCTTTGGATAAGGTGGATTATCTGATTACAGATAATGGTATTTCCGCTGAAAACAGAGCTGAACTGGAAGAAATGGGTGTGAATATTATGGCTCAATAA	MEKLLPRQDEILKELEEKGHVLVQDLCEKLNVSSVTIRKDLNYLESLGLLFRNHGGASKQVRYAYEKNVGEKESINVEAKQAIAKAALSLIQENDSIILASGTTMHYLARMLVNFGPLTVLTSSLRVAIELCNNPDINIIQLGGEVRKSSTSIVGSISEGILKQFSCNKLFLGVDGIDPEFGISTSNAAEAHLNQIMMECADKTVILADSSKLNKKGFGKIAALDKVDYLITDNGISAENRAELEEMGVNIMAQ	PGPT0017955_809	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
BMS003_01941	1599	glpD2	COG0578	Glycerol-3-phosphate dehydrogenase 2	ATGAAACGAAACGAAGAACTCAATAAGTTAACCAATGTAAAAAAATGGGACTTTATTGTCATAGGAGGAGGAGCCAGTGGTTTAGGTTCAGCATTAGACGCGGTAAGCAGAGGATTTAAAACACTGCTGCTTGAATCTCATGACTTTGCGAAAGCAACATCCAGCAGAAGTACCAAATTGGTGCACGGCGGAGTCAGATATCTTGCCCAGGGAGATGCCGGATTGGTAAAAGAGGCCTTGAAAGAAAGAGGATTATTAGCAAAAAACGCAGCCCATATTGTAAAAAATCAGTCATTCATTATCCCAAACTATACATGGTGGGGAGGAATTTATTATAAGATAGGACTGTCTGTTTATGACTTCCTTGCCGGGAAACTAAGTTTGGGCAAAACAAAATACATCAGCAAATCAAAAACCATTGAAAAACTTCCAACTATTGAACAAAATCACTTAATGAGCGGTGTTGTTTACCAGGACGGACAGTTTGATGATGCCAGACTTGCAGTAAATCTTACCCAAACCATTATAGAAAAAGGAGGAAGCGCTGTTAATTATGTAAAAGTGATCAACCTTTTGAAAGATGCTTCTGATCAAGTAATTGGAGTGGTTGCGGAAGACCAGTTTACAAAGCAGCAATATCAGGTTCATGGCAAAGTAGTCATTAACGCTACCGGAGTATTTACAAATGACATTCTTAATATGAACAATCCTAAGCACGGTAAATTTGTTGTACCAAGCCAGGGAATTCATCTTGTATTGGATAAGTCTTTCCTGAAAAGTGATGATGCCATTATGATTCCGAAAACTTCAGACGGCAGGGTTTTATTCGTCGTTCCATGGCATGACAGAGCTTTGGTAGGAACTACGGATACTCTTTTAAAGGATGAAAGTTTTGAACCTCGTGCCCTGGAAGAAGAAATCAGCTTTGTTTTAAACACAGCAAGACAATATCTGGCTAAAAAGCCGACCCGTGAAGACGTAAAATCTGTTTTTGCAGGACTCCGTCCACTTGCCGCTCCCAAAGATGGAAGCAAAAACACCAAGGAGGTTTCCCGAAGCCACAAAGTTGTGACTTCAGAAACAGGATTAATTTCCATCATCGGCGGAAAATGGACTACTTACCGTAAAATGGCAGAAGATACCATAGACGAAGCGATGAAAGTTCACAGACTGGGAAACAGCCCATCTAAAACAGAGCATCTTTCCATTCACGGGAATATAAAACCAGAACAGGTAGACAGAACCAATCATCTGTATGTTTACGGATCCGATATTCCAGCCATTAAAGCATTGCAGCAAAGCAATCCCCGTTATGCTCAAAAAATCCACCCAGATCATCCTTTCACTGTAGCAGAAGTAGTATGGGCTGTAAGAACAGAAATGGCAGAAACTATTGAAGACATTCTCGCCAGAAGAGTGCGACTGTTATTTCTGGATGCAAGAGCCGCTATAGACAGTGCCCACAACGTAGCAAGAATCATTGCTGAAGAAAAAGGATATTCCGAAGAATGGGCTCAGCAGCAGGAAAACGAATTCATTGAATTGGCAAGAGGATATTTATTAACTCCTTATTCACCTAAAGTTATCAACCTAAATTAG	MKRNEELNKLTNVKKWDFIVIGGGASGLGSALDAVSRGFKTLLLESHDFAKATSSRSTKLVHGGVRYLAQGDAGLVKEALKERGLLAKNAAHIVKNQSFIIPNYTWWGGIYYKIGLSVYDFLAGKLSLGKTKYISKSKTIEKLPTIEQNHLMSGVVYQDGQFDDARLAVNLTQTIIEKGGSAVNYVKVINLLKDASDQVIGVVAEDQFTKQQYQVHGKVVINATGVFTNDILNMNNPKHGKFVVPSQGIHLVLDKSFLKSDDAIMIPKTSDGRVLFVVPWHDRALVGTTDTLLKDESFEPRALEEEISFVLNTARQYLAKKPTREDVKSVFAGLRPLAAPKDGSKNTKEVSRSHKVVTSETGLISIIGGKWTTYRKMAEDTIDEAMKVHRLGNSPSKTEHLSIHGNIKPEQVDRTNHLYVYGSDIPAIKALQQSNPRYAQKIHPDHPFTVAEVVWAVRTEMAETIEDILARRVRLLFLDARAAIDSAHNVARIIAEEKGYSEEWAQQQENEFIELARGYLLTPYSPKVINLN	PGPT0006775_3015	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS003_01942	1497	glpK	COG0554	Glycerol kinase	ATGAATGAAAAACTAATTCTCGCTCTTGACCAAGGAACAACTTCCTCCAGAGCGATTCTCTTCAACCACAGCGGAGAAATCAAATATGTATCGCAAAAAGATTTCGAACAGATATTCCCTACTCCGGGATGGGTAGAACATGATCCAAACGAAATCTGGTCATCACAAATCTCCGTAGCAGCAGAAATTATAGCGAAAGCAGGAATCTCCGGACTGGAAGTTGCCGCCATCGGGATTACAAATCAGCGTGAAACTACTATTGTTTGGGACAAAGAAACCGGTGAACCTATCTACAACGCCATTGTATGGCAGGACCGCAGAACTTCAAAATATTGTGACGAACTGAAAGAACAGGGACACGCAGAGAAGATCAAAGAGAAAACAGGACTTGTTCTGGATGCTTACTTTTCAGCAACCAAACTGAAATGGATTCTTGATAATGTAGAAGGAGCAAGACAAAAAGCTGAAGAAGGAAAACTATGTTTCGGAACGGTTGACACATGGCTTGTCTGGAAGCTTACCCGAGGGAAAATGTTTATCACAGATGTTTCCAATGCCAGCAGAACAATGCTTCTGAACATTCATACGCTGGAATGGGATCATGATTTGTTGGAATTATTCAACATTCCAAAAGCTATTCTTCCGGAAGTAAAACAAAGCAGTGAAGTGTATGGTGAAACGGCTACTACTCTATTCTCTACCAAAATCCCGATTGCAGGAATTGCAGGAGACCAGCAGGCTGCTTTATTCGGGCAGATGTGTACTACTCCGGGAATGGTAAAAAACACGTATGGAACAGGATGCTTCTTATTAATGAATACAGGAACGGAAGCTGTTTCCTCTAAAAACAACCTATTGACAACCGTAGCCTGGAAAATCAATGGAGAAGTAAACTATGCACTGGAAGGAAGTGTATTTGTGGGAGGTGCAGCTATTCAGTGGCTGAGAGACGGTCTTAAAATTATTCATTCTTCTGATCAGGTGAACGAACTGGCTGCTTCTGTCCCAGATAATGGTGGTGTGTATTTCGTACCTGCACTGACCGGTCTTGGAGCTCCTTACTGGGATCAGTATGCCCGCGGAACTATTGTAGGAATCACCCGTGGTACTACTGACGGACATATTGCAAGAGCAACACTGGAAGGAATTGCATTTCAGGTATATGATATTGTAAAAGCCATGGAAGCAGATTCCGGAAGAGCCAGCCTTGAATTAAGAGTAGATGGAGGTGCTTCTGCAAGTGACCTTCTGATGCAGATACAGTCTGATCTTTTCGGATTTAAAATCACAAGACCTAAAACTCTTGAAACAACAGCACTGGGTGCCGCTTACCTTGCCGGACTTGCTGTAGGATACTGGAAAGACGTTGCGGAGATTCAGTCTCAATGGATTGTAGACAAAGATTTTGATCCTCAGTTGGAAAGAGAACAGGTTGATAAGATGGCACACTCATGGAAAAAAGCCGTATCACGTGCTCAAAGCTGGATAGAAGATTAA	MNEKLILALDQGTTSSRAILFNHSGEIKYVSQKDFEQIFPTPGWVEHDPNEIWSSQISVAAEIIAKAGISGLEVAAIGITNQRETTIVWDKETGEPIYNAIVWQDRRTSKYCDELKEQGHAEKIKEKTGLVLDAYFSATKLKWILDNVEGARQKAEEGKLCFGTVDTWLVWKLTRGKMFITDVSNASRTMLLNIHTLEWDHDLLELFNIPKAILPEVKQSSEVYGETATTLFSTKIPIAGIAGDQQAALFGQMCTTPGMVKNTYGTGCFLLMNTGTEAVSSKNNLLTTVAWKINGEVNYALEGSVFVGGAAIQWLRDGLKIIHSSDQVNELAASVPDNGGVYFVPALTGLGAPYWDQYARGTIVGITRGTTDGHIARATLEGIAFQVYDIVKAMEADSGRASLELRVDGGASASDLLMQIQSDLFGFKITRPKTLETTALGAAYLAGLAVGYWKDVAEIQSQWIVDKDFDPQLEREQVDKMAHSWKKAVSRAQSWIED	PGPT0018435_3774	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS003_01943	732	glpF	COG0580	putative glycerol uptake facilitator protein	ATGACCCCATTTATTGCAGAAGTTATCGGGACGATGCTTCTTATATTGTTAGGCAACGGTGTTGTAGCCAATGTTGTCTTAAAAGATACGAAAGGAAATAATTCCGGATGGATCGTTATTACTACCGCATGGGCACTCGCCGTTTTTGTAGGAGTAACAGTTGCCGGCCCAATAAGTGGGGCTCATCTGAACCCGGCTGTAACCATTGGACTCGCTATGGCAGGTAAATTTTCATGGGATTTGGTTCCTTCTTATATCACCGCTCAAATGATCGGAGGAATGCTGGGTGCTTTTCTGGTATGGCTTTTCAATAAAGATCATTTTGCGATTACAGAAGATGAAGGTGCTAAGCTGGCTTGTTTCAGTACAAGTCCCGCTATCAGAAAAACATCTTCTAACCTGATCAGTGAGATCATCGGCACATTTGTTCTGGTATTTGTTATTTTTCATTTTTCTGATCCAAGTATTTCTTTACAGGCAGATCCGACAGCCAAAGTAGGATTGGGTAGCGTAGGAGCTATCCCGGTTACCTTTCTTGTATGGGTAATAGGATTGTCACTTGGAGGTACTACAGGATATGCCATTAACCCCGCAAGAGACCTTGCACCAAGAATTATGCATGCTATCTTACCTGTAAAAGGAAGCAGTGACTGGTCATATGCCTGGATTCCTGTGGCAGGCCCTGTGGCAGGAGCTGTTATCGCAGCAGTTTTATACGGATTTCTAAAATAA	MTPFIAEVIGTMLLILLGNGVVANVVLKDTKGNNSGWIVITTAWALAVFVGVTVAGPISGAHLNPAVTIGLAMAGKFSWDLVPSYITAQMIGGMLGAFLVWLFNKDHFAITEDEGAKLACFSTSPAIRKTSSNLISEIIGTFVLVFVIFHFSDPSISLQADPTAKVGLGSVGAIPVTFLVWVIGLSLGGTTGYAINPARDLAPRIMHAILPVKGSSDWSYAWIPVAGPVAGAVIAAVLYGFLK	PGPT0004760_1915	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
BMS003_01944	810			hypothetical protein	ATGAAAAAAATCTTAAAGGGAATCTTCCTTCTTGCTTTAGGCACAGGAAGATTATTTTCACAGGAAAGCGGCGAAACCAAGGAAACCAAAGAAGGAAGACTTGATTTTACAGCGAACATTCAGAACAACCACTTATGGAGAGGGCTTATTATTACAGATAAACCCGTTGTAATGGGAAATCTTTCTTATGCCTTAGATGCGGAGAAGAAATGGAAGATAGGAATTTGGGGTGCATCTGCATTAGCGGATGATAAGGATAATACTCATTATAAGGAAATCAACTATTATGTTCAATATTCTGACGGACGTTTTTATATTGGATTATGGGATCTTTACAACTCCCGAAACATCAATACAGCTGTAGCTGCTGATGATATCTTCAGCTATTCGCAGAGAAGAACAGCCCATATTATTGATTTGAGAACCAACTATACTTTCGGACCTTCATTCCCGATCAATATTGAAGCAGACATTATGCTGTATGGTGGTGCCAATGCGGGAGAAGTTATTCTGGAAGCTGACGGAAGCTACAAAAAGAACCGATATTCTACCTATGTTCAGGCAAGCTATCCTGTCATCAAGGGACAGAAAGTAAATCTGGATGCATTTGTAGGTGCCGGATTTGCGCTCAACGACAAAACATTTTTATATGGCAATGGCAAAAACAGCTTTGACATCGTCAATATAGGGGTAAAAGCTGGAAAAGTGGTAAAGATTACTGATCATTACAGTCTTCCTGTATCCATGATGGCCATGTGGAATCCATCTAATAAATACGCAAGAATCCAGCTTGCGGCAACTGTTTTTTAA	MKKILKGIFLLALGTGRLFSQESGETKETKEGRLDFTANIQNNHLWRGLIITDKPVVMGNLSYALDAEKKWKIGIWGASALADDKDNTHYKEINYYVQYSDGRFYIGLWDLYNSRNINTAVAADDIFSYSQRRTAHIIDLRTNYTFGPSFPINIEADIMLYGGANAGEVILEADGSYKKNRYSTYVQASYPVIKGQKVNLDAFVGAGFALNDKTFLYGNGKNSFDIVNIGVKAGKVVKITDHYSLPVSMMAMWNPSNKYARIQLAATVF				NA	NA	NA	NA	NA
BMS003_01945	423			hypothetical protein	ATGAAAAAGATTTTCAGTGCAGTGATTCTGTGTATCAGTATTTTTACTTTGGCTCAGCAGGCAAAAGTTCCTTTTACCGGGCACAGAAACTTTGATATAATAAAAGGATACAGTGGCACCGGAACTCCTCATTATTATGTGGATATCAAAAATAACGGTGATGTACATTTTGGATATGTTCAGGTGAATCAGGCAAGCGGAGAAGAAACAACAGAAGAAATAAAGGCCGGAAAATATGCTCCTAATAAAGTAATGAAGGTAGCTTTCAGGAAATATGAAGAGACTTTTTGGGTGAAATTTGACAAAGATAAAATTTACCTTACGGACGAAAGAGGAAATATTCTCCATCTTGAAGACTGCTGCTCAGCACGCGAAAGTACTGATAAAGAAACCTGTAAGTGTGAAAGTGAACTTTACAAGTAG	MKKIFSAVILCISIFTLAQQAKVPFTGHRNFDIIKGYSGTGTPHYYVDIKNNGDVHFGYVQVNQASGEETTEEIKAGKYAPNKVMKVAFRKYEETFWVKFDKDKIYLTDERGNILHLEDCCSARESTDKETCKCESELYK				NA	NA	NA	NA	NA
BMS003_01946	1008			hypothetical protein	ATGCTTATTTTTGAACAGCGATTCATTCCCATGAAAAATTTTAAACTTTTATTTCTGCTTATCCTTTTTCTTATTGTGTCATGCAGCAAGAAAGAAGATCACCCTTACACGTTTTATTACTGGAAAACCAAATTAAAGCTTGACGGTGAAGAGAAGAAAGCACTGAACAAATCCACTGTTCCTTATTTGTACACCAGATTCTTTGATGTAGATAAAGTGAACGGAAAATTTCAGCCGGTGGCAGTCATTACCAAAGACCTGAGTTTTCAGACCAATAAACAGATTGTCCCAACGGTCTTCATCACCAATCAGACTCTGTTAGGTATTTCTGCGGAAGAGATCAAATTTCTGGCGGAAAGTATTCATAATTTAGTTCAAAAGAAAGCGGAAGAATATCATCTGAAAACCAATAATGAAATTCAAATTGACTGCGACTGGACTGCCGGAACAAGAAACGATTATTTTAAATTCCTGAAAGAACTCAAAAGAGTTTCCGGAAAAGAAATCACCTGCACACTCCGTCTTCATCAGGTGAAAAATAAAAAACAAACAGGAATTCCTCCTGTGGAAAAGGTATATCTGATGTGCTATTCTACTTCATCACCTCTGGAAAGATCTGATAAGAACTCCATTCTGGATGTAAATATCCTGAAGAGCTACCTTTCGAAAATGGAAGACTACCCTATCAAAAAAATTGAAGTGGCTCTTCCTATTTATTCCTGGGGAATTGTTACCAACCATTTAGATAAACATAAACTGATTAATGCCTTGTCTAAAAGAGATCTTGAAAACCCCAACTTTAAAAAGATTTCCGATCATGAAATTGAAGTTTTGAAAGACGGATTCTACTTTGGAAGTTATTTAAACAAAGGCTTTACCATAAAGGTAGAGGAAATTTCTGAAGAACAGCTTGAAGATGTTATTCAGTTTTTGCAGAAAAAAATCCCACATTTTACTATTATTTATTATCAATTAGATAGTAAATTTGTATTAAACCGAAAATTTTAA	MLIFEQRFIPMKNFKLLFLLILFLIVSCSKKEDHPYTFYYWKTKLKLDGEEKKALNKSTVPYLYTRFFDVDKVNGKFQPVAVITKDLSFQTNKQIVPTVFITNQTLLGISAEEIKFLAESIHNLVQKKAEEYHLKTNNEIQIDCDWTAGTRNDYFKFLKELKRVSGKEITCTLRLHQVKNKKQTGIPPVEKVYLMCYSTSSPLERSDKNSILDVNILKSYLSKMEDYPIKKIEVALPIYSWGIVTNHLDKHKLINALSKRDLENPNFKKISDHEIEVLKDGFYFGSYLNKGFTIKVEEISEEQLEDVIQFLQKKIPHFTIIYYQLDSKFVLNRKF				NA	NA	NA	NA	NA
BMS003_01947	2724			hypothetical protein	ATGAAAAAGTACATTCTTTCACTTGCGGTTGTATCACTTTTCTATACACAATCTGACGCCTGCGCGTGGTCAGATCCTGATTATGATTACTTCAACCTTTTTACCCAGAGCATCATTAAGGACAAGGCTTATCTTCCTTTCCTGCACAACTATTCCAGCAGATTTTATGGAGGATATAACCCATCACTGATTCCTGATGACAATATCGAAACCTGGAAAAAGTTCTTCAATAATCAGCTTAGCTATTCTGAAACCCGGGATCTGGTGTATAAGATCAGTATGAACGATCTGAATGCATTAAAAAACGGAAATCCTACCAATCCGCTTTTACAAAAACTGGGCATTGGATTTTATCAAAAGTATAAGGAAGGTATTGATTATTTAATTGAAGCCAAATATCTTGAACCTTATATGAGCATCAATTATGTTGAAAGTGAAAACTCATTCTATTACTACAGAGATACCAACAGAAAAAATGCTACCGCTCTGGACTATAACAAAACCATTGCTGCTTTAACCTCTTTGTATAATGCTGCCAGAAATCCAGAAGTAAAGCAACGCTATGGTTATCAGCTGGTACGCCTGAATCATTATACGAGAAACTATGATTCTGCAGTGCAGGCTTTCAAAACCTATGTTGCTCCTATAGCACTAAAAGGAACGGTTTTCTTTATGTCCCTTGATCAGCTGGCGGGAGCACAGAGAGGATTGGAAATGAACAGCGATGCCAACTGGAATTTTTTCCAGGTATTCATGAACAGTAAAGACCGCAAAGAATCTGCATTTGTTTCTATGAAACTTTCGGATACGGCATCATTCAGCAATATTCTGAAAAGAGCCAGCACAAATGAAGAAAAGAATATGGCTTATTTTCTTTTAGGATATGAGGACTTCAACAATCCTATTCCGATGATGGAAAAGATGTATGAAATCAATCCTGATTCCGAGATTCTGAAAGTAATGACCGCAAGAAGCATCAATGAGCTTGAAAGAAGCTATCTTCCTACTTATTATTATACTTCAGACGCTCAAAAAGCAGAAGCAAAAGAAAATTCAACGGATAAAACTTCAAAAAACACATCAGCAGATCAGAAAAAAACTGAAGTGAAAGAAGAAAAACTTTCTTTCTGGCAGAAAATTGTAAGGTTCTTTAAAAATCTTTTCAGCAGCTCCAAATCTAAAAAAGCAGGTGATAATGCTAAGGCAGACCAAAGTGATGATGAACTGTTCAGCAATCCGGACAGAATTCCATTCTATAACAGAACGGCTTATTATTATGACGAGAAAACTCAGGACTTCCTTGACAGCCTGGAAAAATTCACGGATAAAACCAAAGAAAAGTCTAAAGACGAATACTGGCAGATTGCAGATGCTTATCTTAAGTTTTTAAAGAAAGACTATAAAGCAAGCTCTGAAATTCTGAATGATATCAAAACGGCCAATCCTGAATATCTGGAAGAGATTAAAAGGATGAAAGTTCTTAATGATATTGTTTCCCAGCCTAAAATTGATGCAGAATATGAAGATCACCTAATGAAAGATTATGCTGAGTATTTTGTTGAGAAAAAAGTAGTGAAAGATACGGCTACAACAGATAATTTTGATTATTATGGAGAAGTACCGTCTACTGTGGATTTCCTTAAAGATGTTATTGCCAACCGCTATTTCCTTCAGGGAGAGGATGGAAAATCTTTCCTGATGAACAATAAACTTTCAGATCTCCAATATAACCCGAACTCCAGTCTGGTAAAAAGTGTGGAAGAATTTTACAGAAAAGCTGATAAAACTCAGTTTGAACAGCAGATCATTGCTAAAAATATGGACAGTGTAGGTAATATTGATGCATTCTTCAGTACTATTTACGGAGACAGGGCAATGAGACTTGCTGACTTTGAGAAGGCGAGAACCTATTACGAAAAAGCAAAAAGTTTTGCTGGGATTCCAAGACAAAATTACGAATGGACAGAAAAGAATGGTCAGACCATTACTCCAAAACAGTATGCTCCTTCAGAATACAACGGGTTTAAAAACATTTCAAATCTTGTATTCGGGCATAATGTATGGGAAAGTTTCGGAAGTCCTGACACCGAAAGCATGAAAGCAGAAAACTACTCTGACTTCCCTTTCATCAAAACAAGTATGGATAAACTTGAACTGGCAGATGCACTGATTCAACTGAAAAAGATCGGAAACGGCACAGATGAAAAAGCAGCAAAAGCCAATCAGCTTATCGGAAACTTACTATACAATACTTCTATTTTAGGGTATTACCGTCAATTATTTGTCATGGATATTGACAACAGTAACGGAGGTAAGTACGATTTCTGGAATACTGACAGAAAGAACCCTTACAAGTATTATTATAAGAACTTCCTGGATACATCTTATATTGAACCTGATAATTTTGACCTGTCCATCAATTACTATCAAAAGGCACTTAAGCTTTCTGACAATAAGGAAGAAAAGGCAAGAATTTTATTCCAGATGGCAAGTGCTGAACAGGGTAAATATTACCAGTATGAAGCGAAAGCTCCAAAAGATTTCGATTATTCTGATCCTAAATGGTCTGAAAAGGAAGATGCCAGACAAAAGGAAATGGACTATCTTAAAAACCAGAAATACAGGACCTATTTTGCACAGTTAAAAGCTCAGTATTCTGGTACTGAAACAACGAAGAACTTAATGGGAAGCTGTAGTTATTTCAGTTATTTTATGAGGCAATAA	MKKYILSLAVVSLFYTQSDACAWSDPDYDYFNLFTQSIIKDKAYLPFLHNYSSRFYGGYNPSLIPDDNIETWKKFFNNQLSYSETRDLVYKISMNDLNALKNGNPTNPLLQKLGIGFYQKYKEGIDYLIEAKYLEPYMSINYVESENSFYYYRDTNRKNATALDYNKTIAALTSLYNAARNPEVKQRYGYQLVRLNHYTRNYDSAVQAFKTYVAPIALKGTVFFMSLDQLAGAQRGLEMNSDANWNFFQVFMNSKDRKESAFVSMKLSDTASFSNILKRASTNEEKNMAYFLLGYEDFNNPIPMMEKMYEINPDSEILKVMTARSINELERSYLPTYYYTSDAQKAEAKENSTDKTSKNTSADQKKTEVKEEKLSFWQKIVRFFKNLFSSSKSKKAGDNAKADQSDDELFSNPDRIPFYNRTAYYYDEKTQDFLDSLEKFTDKTKEKSKDEYWQIADAYLKFLKKDYKASSEILNDIKTANPEYLEEIKRMKVLNDIVSQPKIDAEYEDHLMKDYAEYFVEKKVVKDTATTDNFDYYGEVPSTVDFLKDVIANRYFLQGEDGKSFLMNNKLSDLQYNPNSSLVKSVEEFYRKADKTQFEQQIIAKNMDSVGNIDAFFSTIYGDRAMRLADFEKARTYYEKAKSFAGIPRQNYEWTEKNGQTITPKQYAPSEYNGFKNISNLVFGHNVWESFGSPDTESMKAENYSDFPFIKTSMDKLELADALIQLKKIGNGTDEKAAKANQLIGNLLYNTSILGYYRQLFVMDIDNSNGGKYDFWNTDRKNPYKYYYKNFLDTSYIEPDNFDLSINYYQKALKLSDNKEEKARILFQMASAEQGKYYQYEAKAPKDFDYSDPKWSEKEDARQKEMDYLKNQKYRTYFAQLKAQYSGTETTKNLMGSCSYFSYFMRQ				NA	NA	NA	NA	NA
BMS003_01948	501			hypothetical protein	ATGGGAAAAATGAACCATAGCTTTTTTGAGAAATTTTCAAACTGGGCCGCTAAATTTACAGGAAGTCCGTATGCTTTTATAGGAGCTTTTCTTATTGTAGTAATATGGGCGGTTTCCGGACCTTTTTTTGACTATTCCGAAACCTGGCAGCTGGTAATCAATACCGGAACAACAATCATTACTTTTCTGATGGTATTCCTGATCCAGAAAGCTCAGAACAAAGATTCCAAAGCCATACAAATAAAACTCAACGAACTTATTGCTGCCCATGAAAAAGCAAGCAATCGTATTGTGGATATTGAAGATTTGACGGAAGCAGAATTGGACCAGCTTCACATCTATTATGAAAAGCTTGGCGAGCTTGCCAAAAAAGATGCTGATATCCATACGTCTCATTCCATAGATGCAGCAAAGAGAAATCAGGATTACAAATATGAATTCTTTAAGAGGAAGCATGAAGAATGGATGCAGAAGCAGGCACAAAAAAAGGAATCAAACTGA	MGKMNHSFFEKFSNWAAKFTGSPYAFIGAFLIVVIWAVSGPFFDYSETWQLVINTGTTIITFLMVFLIQKAQNKDSKAIQIKLNELIAAHEKASNRIVDIEDLTEAELDQLHIYYEKLGELAKKDADIHTSHSIDAAKRNQDYKYEFFKRKHEEWMQKQAQKKESN				NA	NA	NA	NA	NA
BMS003_01949	288			hypothetical protein	ATGAAAATTATAAGAACAGTATACCTGGTATTGATTGCCGGAGCTGGTTTAGCTGCATGTTCCGAAGAACATTTGTCTGAAGAAGAACTGAAAACTGCCAGAGAAAATATTGAAAAACATTACAATAATCCTAAAAGCATATACACCTGGGGTAACATTTCTCCCTGGAAGGATCATTGGAATAATACCTCATTTTATCCAAAACCTTTTCCATCTGCGATCGGAAAAAGTATAATAGCAGAAGAAAAACAAAACCTTGAAAACCGTTTTTCAGGAAAAGTCAAATAA	MKIIRTVYLVLIAGAGLAACSEEHLSEEELKTARENIEKHYNNPKSIYTWGNISPWKDHWNNTSFYPKPFPSAIGKSIIAEEKQNLENRFSGKVK				NA	NA	NA	NA	NA
BMS003_01950	2256	cntO_5	COG1629	Metal-pseudopaline receptor CntO	ATGAATAAAGTAGTATCCTTTTCTCTGCTATTATTGGGTGGAGTTCTGGCCAATGCACAGAAAGTAAATGATTCGGTAAAGCACAAGAAAATTGAAGAAGTAGAACTGTTTGGAGAGAAAAAGAAACAGCCGCAAGGGCTGGATGCCATTACAAGACTACCGTTGAAAACCAGAGATCAGATTCAGAGTATTTCAGTAATCTCCCATAAAGCTATTGAAGAATTAGGAGCACTTACAGTCACCGATGTTGCCAAAAACGTTCCGGGAGTAACCTTGTTTTCAAGTTATGGCGCAGGAAACGAAAGTATGTCTATCAGAGGATATCGCGGAGTTCCCGTATTGAAAAACGGAGTTCAGCTGGATTCTGATTTCCGTACTGCGGGGATGATCACAGATATGCAGGGGGTAGAAAGTATTCAGGTTATCAAAGGATCTGCTGCCATTGGCCAGGGAATTGGAAACGGATTGGGATCTGCAGGAGGAGTAATCAATGTGGTGACGAAAAGACCACAGTTTATTGATCAAACCAATGTAGGTTTCCGTTACGGAAGCTGGGATTTTTACAGACCTACAGTAGACTTCCAGAGAGTATTGGATTCTCAGGGAAAAATAGCTGTGAGGTTCAATGGAGCATATCAAAATAATAATTCATTCAGAAGTCATGTAAAAGGAGAAAGAATCTATGTAAACCCGTCTATCGCTTTCCGTCCGGATGATAAAACATTAATTAATGTGGAAATGGATTATCTTCATGATAAAAGAACACCGGACAGAGGAACAATCAACCTTGCTCCGGGAACTGTAGAAGCATTATACCATATGCCAAAAGGAAAGTTCTTAGGATATGCATCAGATTACTCAAAAACAGAAGCATTCAACTTTGCTACTACAATTGTGCGTAACCTTACAGATCAATTAAAAGTAAGAGCCGCTTTTGTTAATTCTGTAAGCAATTCAGATTCCGAAGCTTCATCCGTATCATTACCGGCCGGTGAAACCAACTATAATATCAGACAGCGTACCATAGGAAAATCACAGAGTGAAGATATCAATAAAGTTTTACAGTTAGACTTCATCGGAGAACAGATAAAAACAGGATTTATTAATCATACCTTCCAGGTAGGTTTTGACTGGCGAGAAACAGAAACTTCATCTACAACCTACGAAGCTTATAAAAATTCAGTTGCACCCGGGAATTTAATTACTGCACGTGCTACAAAGATCGGAAATACAACCTATGCTGCTAATCCTCTGGATATTTTTGATGTAGTGAACGGAAGTATCCCGAACCAGCTTCCCGTAAATGTTGTTTATAAAAGCCTTGGAAGATCAAACCCAGTACTGACGCCAAGTATCGGGGCTATGGCTCAGGATGTAATGACGATCGGGAAATATGTGAAGGCTCATTTAGGACTTCGTTACAGCAGATTGAATGGTTCTGCCAATGAATCTGTAGATACATGGAATCCTAATTTCGGATTAATTGTTTCTCCGCTTCCAAATGTAAATATATTCGGGTCATATACTACTACCACCTCTTTAAGATCTTCAAACAACTTCCTTTTAGAAGGGGGAAGAGTAGGGCCTTCCATGACCAAACAGTGGGAAGCAGGCATTAAATCAGACTGGTTTAATGAGCGTCTCAGATTTAATGTAACAGTATTTGACATTAAGACCGATCATCTTTCTTTCACCATCCTTGATGAGAATTATAACCCGGTTGTGATCAACAAACAAACCATGTACGGTCTTGCAGGAAATCTCAGAAGAAAAGGTGTAGAAGTAGAATTGATCGGAAGAATTCTTCCCAATCTTCAGGTGATGTCGGGGTGGGCTTATCTGGATGCGCAGTATCAAGACAGCCCTGCTTATATGAATGGTTCAGCGCCTATGAATGCCCCTAAACATACAGCAAACGGATGGTTGAATTATAAATTCAATAAAGGAACCTTATCGGGACTTGATGTAGGGGCGGGAATTTATTATGTAGGAAAAAGACCGGTTGATGAATGGACTCAGAAAACATTTACAGCAGGTCACCTGAACAGTGTGAAGCCTGGAGATAAACCTTTCGATATGCCGGAATACACTACAGTAGATGCTCAGGTAGGATATTCTCTGAAAAATGGAATGGGAGTAAGAGTATTTTTCAATAATATTTTTGATACTGTAGGGTACAGCTCTTATTTCAGAGGAGGGTACATTGATCAGATCCAGCCAAGAAACTTTGCGGTACAGGTAAACTATAAATTTTAA	MNKVVSFSLLLLGGVLANAQKVNDSVKHKKIEEVELFGEKKKQPQGLDAITRLPLKTRDQIQSISVISHKAIEELGALTVTDVAKNVPGVTLFSSYGAGNESMSIRGYRGVPVLKNGVQLDSDFRTAGMITDMQGVESIQVIKGSAAIGQGIGNGLGSAGGVINVVTKRPQFIDQTNVGFRYGSWDFYRPTVDFQRVLDSQGKIAVRFNGAYQNNNSFRSHVKGERIYVNPSIAFRPDDKTLINVEMDYLHDKRTPDRGTINLAPGTVEALYHMPKGKFLGYASDYSKTEAFNFATTIVRNLTDQLKVRAAFVNSVSNSDSEASSVSLPAGETNYNIRQRTIGKSQSEDINKVLQLDFIGEQIKTGFINHTFQVGFDWRETETSSTTYEAYKNSVAPGNLITARATKIGNTTYAANPLDIFDVVNGSIPNQLPVNVVYKSLGRSNPVLTPSIGAMAQDVMTIGKYVKAHLGLRYSRLNGSANESVDTWNPNFGLIVSPLPNVNIFGSYTTTTSLRSSNNFLLEGGRVGPSMTKQWEAGIKSDWFNERLRFNVTVFDIKTDHLSFTILDENYNPVVINKQTMYGLAGNLRRKGVEVELIGRILPNLQVMSGWAYLDAQYQDSPAYMNGSAPMNAPKHTANGWLNYKFNKGTLSGLDVGAGIYYVGKRPVDEWTQKTFTAGHLNSVKPGDKPFDMPEYTTVDAQVGYSLKNGMGVRVFFNNIFDTVGYSSYFRGGYIDQIQPRNFAVQVNYKF	PGPT0003790_15903	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
BMS003_01951	306	rpsJ	COG0051	30S ribosomal protein S10	ATGTCACAAAGAATCAGAATAAAACTAAAATCTTACGATTACAACTTGGTAGACAAGTCTGCTGAGAAAATCGTAAAAACGGTAAAGGCTACTGGTGCTGTTGTAAACGGACCAATTCCATTGCCAACTAATAAGAGAATCTTCACAGTGTTGAGATCTCCGCACGTAAACAAGAAAGCAAGAGAGCAATTCCAACTTTCAGCTCACAAGAGACTAATGGATATCTACTCTTCTTCTTCTAAGACTGTTGATGCTCTAATGAAATTAGAACTTCCTTCAGGTGTAGACGTTGAAATTAAAGTGTGA	MSQRIRIKLKSYDYNLVDKSAEKIVKTVKATGAVVNGPIPLPTNKRIFTVLRSPHVNKKAREQFQLSAHKRLMDIYSSSSKTVDALMKLELPSGVDVEIKV	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
BMS003_01952	2118	fusA_1	COG0480	Elongation factor G	ATGGGAAGAGATCTTAAATTTACAAGAAATATTGGTATCGCTGCTCACATTGACGCAGGTAAGACTACCACTACAGAAAGAATTCTATTCTATACAGGGGTAAACCACAAAATTGGAGAAGTTCACGATGGTGCTTCTACAATGGACTGGATGGAGCAGGAAGCAGAAAGAGGTATTACTATTACTTCTGCAGCTACCACTTGTTCTTGGAACTTTCCAACAGATCAAGGAAAACCTGTTGCTGATACTAAACCTTACCACTTCAACATCATTGATACACCGGGACACGTTGACTTCACTGTAGAAGTAAACAGATCTTTAAGAGTATTGGATGGATTGGTATTCCTATTCTCTGCAGTAGATGGAGTAGAGCCTCAGTCTGAAACAAACTGGAGACTTGCTGATAACTACAAAGTGGCAAGAATGGGATTCGTAAACAAAATGGACAGACAAGGTGCTGACTTCCTTAACGTGGTAAACCAGGTTAAAGAAATGTTAGGATCTAACGCAGTTCCAATCGTTTTACCAATCGGTGCTGAAGAAGATTTCAAAGGTGTTGTAGACTTAATTAAAAACAGAGCAATCATCTGGGATGAAGCAGGACAAGGAGCTACTTTCGAAGTAGTGCCAATTCCTGAAGATATGAAAGATGAAGTTCTTGAATATAGAGAGAAACTAGTAGAAGCTGTTTCTGAATATGACGAAACTTTGATGGAGAAATTCTTCGAAGATCCGGATTCAATTACAGAAGAAGAAATCAATGCTGCATTGAGAGCTGCTACTATCGATTTATCTATTATCCCAATGACTTGTGGTTCTTCATTCAAGAATAAAGGAGTACAGTTTATGTTGGATGCAGTATGTAAATACCTTCCTTCTCCATTAGATAAAGATGATATCAAAGGTACTGATCCAAGAACAGACGCTGAGATCACAAGAAAACCATCTGTAGACGAGCCTTTCTCTGCATTAGCATTTAAGATTGCTACTGACCCGTTCGTGGGAAGATTAGCATTCTTCAGAGCTTACTCTGGAAGACTGGATGCAGGTTCTTATATCTTGAACACCCGTTCAGGTGATAAAGAAAGAATCTCCAGAATCTATCAGATGCACGCTAACAAACAAAATCCGGTAGAATATATTGAAGCTGGAGATATTGGTGCAGCAGTAGGATTCAAGTCTATCAAAACTGGTGATACGATGTGTGATGAGAAAAACCCGATCATTCTTGAATCTATGGTTTTCCCAGATCCGGTAATCGGTATCGCTGTTGAGCCTAAAACTAAAGCTGACCAGGATAAAATGGGTAACGCTTTAGCTAAATTAGCAGAAGAAGATCCTACGTTTACTGTTAGAACTGACGAAGCTTCTGGACAAACGATCATCTCTGGTATGGGTGAGCTTCACTTAGATATCATTGTAGACCGTATGAAAAGAGAGTTCAAGGTTGAAGTAAACCAAGGACAACCTCAGGTAGAATACAAAGAAAACTTAACAAAAGTTGCTCAACACAGAGAAGTTTACAAAAAACAATCTGGTGGTAAAGGTAAATTTGCTGACATTGTATTTGAACTAGGACCTGCAGACGAAGGTAAAGTTGGTTTAGAATTCATCAATGAGATCAAAGGTGGTAACGTTCCTAGAGAATTTGTTCCTGCAATTGAAAAAGGATTTAAAGCTGCAATGAAGAACGGTCCTTTGGCTGGTTTCGAAGTTGAAGGTATTAAAGTTACTCTTAAAGATGGATCTTTCCACGCAGTGGATTCTGATGCTCTTTCATTTGAAATGGCTGCTAAATTAGGATTTAAAGAAGCGGGACGTGCTGCTAAACCAGTAATTATGGAGCCTATTATGAAACTGGAAGTTGTAACTCCGGAAGAATATATGGGTAACATCATTGGTGACCTTAACAAGAGAAGAGGTACTATCAGTGGTCAGGAAGAGAAAAACGGTGCTGTTGTAATCAAAGGTTCTGTTCCACTTTCTGAAATGTTTGGATACGTAACTACTCTAAGAACACTTTCATCAGGAAGAGCTACATCTTCTATGGAATTAGAGAAGTACCAGGCTACTCCACAAAACGTTGCTGAAGAAATCATAGCTAAAGCAAAAGGTTAA	MGRDLKFTRNIGIAAHIDAGKTTTTERILFYTGVNHKIGEVHDGASTMDWMEQEAERGITITSAATTCSWNFPTDQGKPVADTKPYHFNIIDTPGHVDFTVEVNRSLRVLDGLVFLFSAVDGVEPQSETNWRLADNYKVARMGFVNKMDRQGADFLNVVNQVKEMLGSNAVPIVLPIGAEEDFKGVVDLIKNRAIIWDEAGQGATFEVVPIPEDMKDEVLEYREKLVEAVSEYDETLMEKFFEDPDSITEEEINAALRAATIDLSIIPMTCGSSFKNKGVQFMLDAVCKYLPSPLDKDDIKGTDPRTDAEITRKPSVDEPFSALAFKIATDPFVGRLAFFRAYSGRLDAGSYILNTRSGDKERISRIYQMHANKQNPVEYIEAGDIGAAVGFKSIKTGDTMCDEKNPIILESMVFPDPVIGIAVEPKTKADQDKMGNALAKLAEEDPTFTVRTDEASGQTIISGMGELHLDIIVDRMKREFKVEVNQGQPQVEYKENLTKVAQHREVYKKQSGGKGKFADIVFELGPADEGKVGLEFINEIKGGNVPREFVPAIEKGFKAAMKNGPLAGFEVEGIKVTLKDGSFHAVDSDALSFEMAAKLGFKEAGRAAKPVIMEPIMKLEVVTPEEYMGNIIGDLNKRRGTISGQEEKNGAVVIKGSVPLSEMFGYVTTLRTLSSGRATSSMELEKYQATPQNVAEEIIAKAKG				NA	NA	NA	NA	NA
BMS003_01953	477	rpsG		30S ribosomal protein S7	ATGAGAAAGACAAAAGCGAAAAAAAGACCGTTGTTACCAGATCCGAAATTTAATGATCAATTGGTAACGAGATTCGTAAACAACTTAATGCTTGACGGTAAGAAGTCAATCGCATTCAAAATTTTCTATGATGCACTAGATATCGTAGAAACTAAAAAAGGAGATAACGAGAAAACAGCCCTTGAAATCTGGAAAGATGCACTTACAAATGTAATGCCTCACGTAGAAGTACGTTCCAGAAGAGTAGGTGGAGCTAACTTCCAGATCCCTATGCCAATCAGAGCTGACAGAAAAATTTCTATGGCAATGAAATGGTTAATCAAATATTCTAAAGCTAGAAATGATAAGTCTATGGCTTTGAAATTAGCTAACGAAGTTGTAGCTGCTTCAAGAGAAGAAGGTGCTGCTTTCAAAAAGAAATCTGATACTCACAAAATGGCGGAAGCTAACAAAGCTTTCTCACACTTCAAATTCTAA	MRKTKAKKRPLLPDPKFNDQLVTRFVNNLMLDGKKSIAFKIFYDALDIVETKKGDNEKTALEIWKDALTNVMPHVEVRSRRVGGANFQIPMPIRADRKISMAMKWLIKYSKARNDKSMALKLANEVVAASREEGAAFKKKSDTHKMAEANKAFSHFKF				NA	NA	NA	NA	NA
BMS003_01954	414	rpsL		30S ribosomal protein S12	ATGCCTACTATTCAACAATTAGTAAGAAAAGGAAGAGCCACGCTTGCCAAGAAGAGCAAATCGGCTGCCCTTGATTCTTGTCCACAAAGACGTGGTGTATGTACGAGAGTATATACAACTACACCTAAGAAACCTAACTCTGCACTTAGAAAAGTTGCAAGGGTAAGACTTTCTAACGGTAAAGAAGTTAATGCCTATATCCCGGGCGAAGGACACAATCTTCAAGAGCACTCGATAGTATTGGTTAGAGGCGGAAGGGTGAAAGACCTACCGGGAGTACGTTACCACATCGTAAGAGGTGCATTAGACACAGCTGGTGTAAATGGAAGAACACAGAGAAGATCTAAGTACGGAGCTAAGAGACCTAAACCAGGACAAGCAGCTGCTGCTCCTGCAAAAGGAAAGAAAAAATAA	MPTIQQLVRKGRATLAKKSKSAALDSCPQRRGVCTRVYTTTPKKPNSALRKVARVRLSNGKEVNAYIPGEGHNLQEHSIVLVRGGRVKDLPGVRYHIVRGALDTAGVNGRTQRRSKYGAKRPKPGQAAAAPAKGKKK				NA	NA	NA	NA	NA
BMS003_01955	270			hypothetical protein	ATGTATATATTTATTTTTTTAAGTGAGATACAATCACCGCCTCCATTAGGTATTGCAGGAAGCATTGTTGCTGTGATGGATAGTGTATCAATTATATATCTCAAATTTACGAAATATCATGCCGAACTCTCTCTGTTGTTAATAGATCATAACTATAAGAAAGTTTTTAAATATAGTTTGGATATATGGAATGATCTTTTGGGGATGAGAAATGGTAAGGACTATATGGTAAAAGAAAAATTTCATAATTATTTAATACTCATTTTTTAA	MYIFIFLSEIQSPPPLGIAGSIVAVMDSVSIIYLKFTKYHAELSLLLIDHNYKKVFKYSLDIWNDLLGMRNGKDYMVKEKFHNYLILIF				NA	NA	NA	NA	NA
BMS003_01956	477		COG0783	putative protein	ATGAAAAATGCTAGTATTATTGGCCTTAAAGAAGCCGATTGTAAAAAAATTTCAGGAAAATTAAATGTACTGTTGGCAAACTATTCTGTATTCTATCAGAACACAAGAGGTTCTCACTGGAATATTAAAGGAGAGCAGTTCTTCACTCTTCATCCAAAGTTTGAGGAATTGTATAACAGTCTTGTATTAAAAATTGATGAAATTGCAGAAAGAATCCTGACATTAGGAGCAACTCCTGCACATAATTATTCAGATTATCTAAAGGTAGCAACCATTAAAGAGAGTAAAGAAGTAACTGACGGCACGAAAAGCGTTGAGCAAATTCTAAGCTCATTCAAAGTAGTGATTGATCTGCAGAGAGAACTTTTAGACATCACAGATAAAGCTGGAGATGAAGGTACAAATTCTCAGATGAGCGACTATATTACCGAACAGGAAAAAGAAGTTTGGATGTACAATTCTTATCTCGGGAAATAA	MKNASIIGLKEADCKKISGKLNVLLANYSVFYQNTRGSHWNIKGEQFFTLHPKFEELYNSLVLKIDEIAERILTLGATPAHNYSDYLKVATIKESKEVTDGTKSVEQILSSFKVVIDLQRELLDITDKAGDEGTNSQMSDYITEQEKEVWMYNSYLGK	PGPT0004055_2714	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS003_01957	1179	pncB2	COG1488	Nicotinate phosphoribosyltransferase 2	ATGAATGACGTAAGACTAAACTCTATCCTTGATAATGATTTTTATAAAATAACCATGCAGAATGCTGTGGTAAAGTTATTCCCAAGTTCTATTGTAAAATATGAATTTATCAACAGAGGAAAACACCACTTTCCGGAAGGATTTGATGTTGCTTTGAGAGAAGCTGTTAATAAAATGGCCGAACTAAAACTTACGAAAGACGAAAAAAAGTTCATGGCAAGAACATGTCCTTATATAGATTTGCCTTATCTTGATTTCCTTGAGGGTTACCATTATGATCCGTCTGAAGTAAAAATCCATCAGGAAGGCGGTGATCTTTCCGTGATTGTGGAAGGTCTTTGGTACAGAACTATTCTTTGGGAAGTACCATTACTTGCATTAATCAGTGAACTTCACTATGAAATGAACCATATGGAAAGGGATTCCAACAGTGTTGTAATGAGCAGAACAATAGAAAAGGCTGACTCACTAGGCAGACTTGGGGTAACGTTTGCTGAATTTGGAACAAGAAGAAGACATTCTTATAAGGTACAGAACCTGGTAATGGAAGCTCTGACCCAGAAAAAGGATTCAACTTTTATCGGAACCTCGAATGTTCATTTTGCCATGAAATACGGTGTAAAACCAATCGGAACCCATGCACATGAGTGGTTTATGTTCCACGCAGCTGAATATGGATTCAAGATGGCCAATGAATTGGCGCTGGAACACTGGGTAGATGTTTACAGGGGAGATCTTGGAGTAGCTTTGTCTGATACTTATACCACAAATGTATTTTTCCAGCAGTTCGACAAAAAATTTGCAAAACTTTTCGATGGTGTTCGTCATGACAGTGGTGATGCTCTGGAATTTGCAGATAAAACCATTGCCCATTATCAAAGAAACGGCATCAATCCTATGTTTAAATACATTATTTTCTCAGATGCATTAAATCTTGAAAAAGTAGAAGAAATTACCAATTACTGCAGAGGAAAAATTGGGATCTCATTCGGAATTGGGACCAACCTCACTAATGATGTAGGATTGAAGCCAATGAATATCGTGATGAAACTGATCGGTGTACAGGCTCCCAATAAAGAATGGATTCCTACGGTAAAACTTTCCGATGAACATGGTAAATATACCGGAGATCCAAAGATGATTGAACTGGCGAAAGAATTTTTAAGAATTAAAGATTAG	MNDVRLNSILDNDFYKITMQNAVVKLFPSSIVKYEFINRGKHHFPEGFDVALREAVNKMAELKLTKDEKKFMARTCPYIDLPYLDFLEGYHYDPSEVKIHQEGGDLSVIVEGLWYRTILWEVPLLALISELHYEMNHMERDSNSVVMSRTIEKADSLGRLGVTFAEFGTRRRHSYKVQNLVMEALTQKKDSTFIGTSNVHFAMKYGVKPIGTHAHEWFMFHAAEYGFKMANELALEHWVDVYRGDLGVALSDTYTTNVFFQQFDKKFAKLFDGVRHDSGDALEFADKTIAHYQRNGINPMFKYIIFSDALNLEKVEEITNYCRGKIGISFGIGTNLTNDVGLKPMNIVMKLIGVQAPNKEWIPTVKLSDEHGKYTGDPKMIELAKEFLRIKD	PGPT0013375_4271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
BMS003_01958	471			hypothetical protein	ATGAAAACAAGCACATTACTACTCGCAGGTCTTCTCATATCAACATTTTCCGTTGCTCAGAAAAAGAAAACGGAAAAACCTAAATATAATCACGAACTGGCAACTTCTTTAGGAGCCGACAAATATGGGATGAAACCTTATACGATTGTCATGCTGACAACAGGTTCTGCTAAAATTGAAGACAAAGCCAAAATGGGCGAACTCATGAAAGGTCATATGACCAATATCGGTAAACTGGCAGATGAAGGCAAAATTGTCGTAGCCGGACCTTTCCTAGAAAAAAATAAAGAAAACTACCGTGGTATGTTTATTTTCAACACCAAATCTAAAGAAGAAGCTGAGCAATGGGTCAAAACCGATCCTGCAGTTCAGGCTGGTATTTTTAGCTATGAAATTTTCCCTTGGTACGGTTCTGCAGCATTACCTTTATATCTTAAACATCATGATGAAATTGCAAAAGAAAACCCTTAA	MKTSTLLLAGLLISTFSVAQKKKTEKPKYNHELATSLGADKYGMKPYTIVMLTTGSAKIEDKAKMGELMKGHMTNIGKLADEGKIVVAGPFLEKNKENYRGMFIFNTKSKEEAEQWVKTDPAVQAGIFSYEIFPWYGSAALPLYLKHHDEIAKENP				NA	NA	NA	NA	NA
BMS003_01959	771			hypothetical protein	ATGAAATTGCAAAAGAAAACCCTTAAACAATATAAAGCACAGACTCTATTTGTACTTTTGTCATTATTAATAATAAGCTGTGAAAACAAGACATCAATTTTTGAGTTTACCACTGAAAAGATTGACAAAGATATTGTAGATGATCTCAAAAGTTTAAAAGACTTACCTCCTTTCGGATTACTTTATAGCGATACAAATTACGAAGTATGGAAAACCTGTTCCGGAGAATGGGGAGGGACTATATATTTTAAGAATAAAAAATCAGGGAAAATATATCATGCACAAGCAACCTGTCCTGTTTCTGTCAATAAAATTAATCATAAGTATTATATATCAAATTCCATGTCACATCTTTCTGGAAATTCAGGCATTCTGGAAATTACTGATCCTGAAAAAATGGAACAGACTCCTAAAATTCCTCTTTATCGTCCTGATATTAATACAAGGGAATACGAATCCCACTCATCAAAGGGAACAAAAAAAATGACAGATACTGCCGGAACCATTATAATGTCAAGCTTTGTATACAAACAAAGATTATATTCAATTCTATTAAACTACGGAACTATGCGAGCTACAATCTCAGAACTCCGGGGTAGCAAATTATATACAATACAGGAAATTGATAAAGATCTTTTTTCTGAAGACCCTATAATTATAAAGGAATCAGAAACTCATCAGAAAATCTATCTCCAGCATCCCAAACCTGGTATTCTTGAAATTAAGGAAAATAAAATCAAGTTTATTTCTTATACAAAAAGTAAAAAATAA	MKLQKKTLKQYKAQTLFVLLSLLIISCENKTSIFEFTTEKIDKDIVDDLKSLKDLPPFGLLYSDTNYEVWKTCSGEWGGTIYFKNKKSGKIYHAQATCPVSVNKINHKYYISNSMSHLSGNSGILEITDPEKMEQTPKIPLYRPDINTREYESHSSKGTKKMTDTAGTIIMSSFVYKQRLYSILLNYGTMRATISELRGSKLYTIQEIDKDLFSEDPIIIKESETHQKIYLQHPKPGILEIKENKIKFISYTKSKK				NA	NA	NA	NA	NA
BMS003_01961	237			hypothetical protein	ATGAAAAAATTAAACATCACAAAACTTTCGAGAACAGAACTGAAAGATGTATTCGGCGGAACTCTCTATCCGGCAGAGTGTCCCGGAGGATGCCATGGTGAAGGCATGATCAGATGCCCAGATGGCACAACAACAATGACTAACTTTATATGCATGGGAGGAACCTGCCAACCGGCTGCCATGTGTAAGCCACTGGTTCTTGAACCTTTTCCTGATTCTATTATAATAACACCATAA	MKKLNITKLSRTELKDVFGGTLYPAECPGGCHGEGMIRCPDGTTTMTNFICMGGTCQPAAMCKPLVLEPFPDSIIITP				NA	NA	NA	NA	NA
BMS003_01962	756			hypothetical protein	ATGAAAACCATTGAGGAAGTTCTGAAAAAACTGGATGAAATTATCATCTGGTGTAAGGAAAATAAGAACCCTGCCGGATATTTTGCCTGTACCTACCGAATTATGACGGCACAGGTTCTGAAAGGAATTCAGCAGAAAAAATTTGAAGATAATGCAAGAATGACTTTGCTTGACATTGCTTTTGCACAGAGATATCTTCAGGCATGGGAAAGCTACAGCAAAGGGGAAAGATGCAGCAACTCATGGTACATCGCTTTTGAAGCCTCTAAAAACAATAATCTTTTGATTTTGCAACATATATTTCTTGGCATGAATGCTCACATCAATCTGGATCTGGGAATCTCTGCAGCTTCTATTATGCCTTACCGGAAAATAAATCCATTGAAAAAAGATTTTGAGAATATTAATACCGTCATAGCTTCCATCAATCAGAATGTACAGGATTCTTTGAATAAAATCTGTTATCCTGTTGATCTTATCGACAAACTTTCAAACGGAAAAGATAATGCTGTACTAGATTTTGCTATTTCCAAAGCAAGAGATACTTCCTGGGCAACAGCTGTGATTGCTTCCAATACTCCAAATTTCCTAAGAGAATCTGTAATTGGTATTGTTGATTACGCAGCCGCTAAAGTTGCAACCCAGATTCTGAACCCAAAAATCCTTACTCCTTCTCTTTTAAAAGAGCTAAAAAAATTTGAAAGTAGTGATGTAGTCAAGAGTATTGAGATTTTAGAATCTACAAAAAACTCATAA	MKTIEEVLKKLDEIIIWCKENKNPAGYFACTYRIMTAQVLKGIQQKKFEDNARMTLLDIAFAQRYLQAWESYSKGERCSNSWYIAFEASKNNNLLILQHIFLGMNAHINLDLGISAASIMPYRKINPLKKDFENINTVIASINQNVQDSLNKICYPVDLIDKLSNGKDNAVLDFAISKARDTSWATAVIASNTPNFLRESVIGIVDYAAAKVATQILNPKILTPSLLKELKKFESSDVVKSIEILESTKNS				NA	NA	NA	NA	NA
BMS003_01963	3099	czcA_2		Cobalt-zinc-cadmium resistance protein CzcA	ATGCGAAAATTTGTACAGAATATAGTTTCCTTCTCTTTAAAAAACTCATTGATCGTTCTTTTGGGGACTTTTCTTTTGCTGGCAGGAGGAATCTATTCCTATATGCGCACTCCTATTGAAGCATTTCCGGATGTTACCAATACAAGAGTAAGAGTTATTACTCAATGGCCGGGAAGAAGTGCTGAGGAAATTGAAAAATTTGTCACTTTGCCTATTTCCAAAGAAATGAATGCCATTCCGAACAAAACTTCGGTACGTTCTATTTCCTTATTCGGGTTGTCTGTGGTGACGGTTATTTTTGATGATCATGTCAATGATTTTTATGCACAGCAATATGCTTCCAATAAACTCGGAAATGTAGAACTGCCTGCAGGAGCAGAATACAGTATTGAGCCTCCTTCGGGAGCTACCGGTGAAATTTACAGATATATTATCAAGAGTAAACTTCCCATCAAAGAAGTAACCGCTATTCAGGACTGGGTGGTGGAAAGAGAATTGCTTGCCGTTCCCGGCGTGGCAGATGTTGTAAGCTTTGGTGGAGAAGAGAAAACCTATGAAATAAAAATTAATCCTACAGAATTACACAATTACGACCTTTCCCCCCTGGACGTGTATGAAGCAGTTTCGAAGAGTAATATCAATGTAGGAGGAGATGTAGTGGCAAAAGGAGATCAGGCTTATGTAGTGAGGGGGATTGGTCTTTTGGAGAAAAAAGAAGATATTGAGAATATTCAGATCGAGGTAAAAGGAGCCACCCCAATTTTGGTAAAACATGTTGCGGAAGTAAAAGTTTCAGCAAAACCAAGATTAGGACAGGTAGGGTATAACAAAGAAAATGATGTTGTAGAAGGAATTGTGATCATGCTTCGTGGTGAAAACCCAAGTGAAGTCATTGCAAAACTGAAAGACAGAATAGAAGAACTGAATGGGGGAGAACTTCCCGGTGATGTTCAGATTGTTCCGATCATTGACCGTACAGAACTTGTGAATACAACGGTTCATACCGTTTCCAAAAACCTTATTGAGGGAGTCATCCTGGTTTCCATCATTGTATTTATTTTCCTTTACAACTGGAGAACCACTTTCATTGTAGCATCAGTGATTCCTTTGGCTTTCCTGTTTGCTATTATTATGTTGAAAATCCAGGGATTGCCGGCGAACCTGATTTCTATGGGAGCACTGGATTTCGGATTGCTTCTGGAAGGGACATTGGTAATTGTAGAACACGTCTTTGTCGCCCTCGAGCTTAAAGCGAAGAAGATTGGACTGCGGAGATTCAATAAAATTTCAAAATTAGGAATCATCAAGAAAAGCGCAGGAAGTGTGGCAAGCTATATTTTCTTTGCTCTGTTGATTCTTATCGTTGCCCTGATGCCGATTTTCTCTTTCCAGAAAGTAGAAGGAAAAATGTTCTCTCCATTGGCATTTACACTAGGGTATGCATTATTAGGATCGTTGATCTTAAGCTTGACTTACGTTCCGGCAATGTGTAAACTTTTGCTGACTAAAAATATTGAAGAAAAAGAAAACTTTATTTCTAGATTCTTCAGAGTCAATATTTATAGAATCTACGAATTCAGTGACCGTCACAAAAAAGGATTCATTATTGGTTTCGTTGCTTTGCTTGCCATTTGTGGATGGAGATTCTCCAATTACGGATCCGAATTCTTACCCAAACTGAACGAAGGCGCAATTTACGTAAGAGCAACACTCCCAAACAGTGTCAATCTGGATGAATCTGTACGGTTGACCAAAGAAATGAAGGAGATTCTCATGAAGTATGATGAAGTAAAATTTGTCATGACTCAAACAGGTCGTCCTAATGACGGAACCGATCCCACCGGATTTTTTAATATCGAATTTAACATCCAGCTGAAGCCGGAAAATGAATGGAAGAAAAAAATATCCAAAGAAGAACTTCTTGAAGAAATGAGAGTTTCCCTTGAGAGATTTCCGGGAATCAATTTTGGATTCAGCCAGCCGATTCAGGATAACGTGGAAGAATATGTAGCAGGAGTAAAAGCGCCGCTTGTGATTAAAATTTTTGGAAATGATCTTTTTGAACTTGAAAATTATGCTAATAAAGTAGCCAGTTCCATCAGAACCGTTCCGGGAATATCAGACGTGAATGTTTTCAAAAATATTGGACTTCCGGAATTAAGAATACAGCTTCACGATTCTAAAATGGCAAAATATGGTGTTTCTACGGCAGATGCACAGGCCGTAATCGAAATGACGATCGGAGGACAGGCTGCTACCAAGTTTTACGAAGAAGAAAGAATGTTCGACGTAATGCTTAGGTTTGAAAAACAATACAGGGACACTCCTGAAAAGATGGGTGATATTCTCATCCCGACTCAGGATAATAAAAAAGTTCCGCTGAAAGAAATTGCCACCATTGATTATCATACCGGGCCATCATTTATTTACCGTGAAGGAAACAGCAGATACATCGGAGTTGGATTTAATATCGAAGGGCGTGACTTAGGGAGTGCCATTCAGGAAGCCAAGGCGAAAGTAGATAAAGAGGTAAAGCTTCCGAAAAATCATAAAATGACGTGGGCCGGAGAGTTTGAAAGTAAGGAAAGAGCCGCAAAACAGCTGGCTATGGTTGTACCGATTTCTTTAGTTCTTATTCTGATGCTGTTGTATTTCAACTTCGGAAATATAAAAGACACGCTGATTTCTTCCATCACATTGGCATTTGCTTTTATCGGAGGATTTTTATCCCTTTGGTTTACGGGAACTATCTTCGGAATTTCAGCAGGAATTGGTTTCATCATCCTCTTCGGAGTGGCAACCATAGACGGTATCGTCCTGATTGGAGTGATGAAAGAGAACTTGCAAAACAGAATGTCGCTCAAAGAATCTATTGCTCTGGGAGTCAAAAGCAGAATCCGTCCAGTTGTGATGATCGCGCTGATGGGATCTATGGGACTTCTTCCGGCAGCGATGTCAAACGGAATGGGCTCTGAAATTCAGAAACCTTTAGCCATTATGATTGTAGGCGGACTGATCGTGTGTATGCTGCTGTCATTTACAATACTGCCAATCATTTTCCATTATGCCTACCGTAAAAAGCATAAGGAAGCAATATAG	MRKFVQNIVSFSLKNSLIVLLGTFLLLAGGIYSYMRTPIEAFPDVTNTRVRVITQWPGRSAEEIEKFVTLPISKEMNAIPNKTSVRSISLFGLSVVTVIFDDHVNDFYAQQYASNKLGNVELPAGAEYSIEPPSGATGEIYRYIIKSKLPIKEVTAIQDWVVERELLAVPGVADVVSFGGEEKTYEIKINPTELHNYDLSPLDVYEAVSKSNINVGGDVVAKGDQAYVVRGIGLLEKKEDIENIQIEVKGATPILVKHVAEVKVSAKPRLGQVGYNKENDVVEGIVIMLRGENPSEVIAKLKDRIEELNGGELPGDVQIVPIIDRTELVNTTVHTVSKNLIEGVILVSIIVFIFLYNWRTTFIVASVIPLAFLFAIIMLKIQGLPANLISMGALDFGLLLEGTLVIVEHVFVALELKAKKIGLRRFNKISKLGIIKKSAGSVASYIFFALLILIVALMPIFSFQKVEGKMFSPLAFTLGYALLGSLILSLTYVPAMCKLLLTKNIEEKENFISRFFRVNIYRIYEFSDRHKKGFIIGFVALLAICGWRFSNYGSEFLPKLNEGAIYVRATLPNSVNLDESVRLTKEMKEILMKYDEVKFVMTQTGRPNDGTDPTGFFNIEFNIQLKPENEWKKKISKEELLEEMRVSLERFPGINFGFSQPIQDNVEEYVAGVKAPLVIKIFGNDLFELENYANKVASSIRTVPGISDVNVFKNIGLPELRIQLHDSKMAKYGVSTADAQAVIEMTIGGQAATKFYEEERMFDVMLRFEKQYRDTPEKMGDILIPTQDNKKVPLKEIATIDYHTGPSFIYREGNSRYIGVGFNIEGRDLGSAIQEAKAKVDKEVKLPKNHKMTWAGEFESKERAAKQLAMVVPISLVLILMLLYFNFGNIKDTLISSITLAFAFIGGFLSLWFTGTIFGISAGIGFIILFGVATIDGIVLIGVMKENLQNRMSLKESIALGVKSRIRPVVMIALMGSMGLLPAAMSNGMGSEIQKPLAIMIVGGLIVCMLLSFTILPIIFHYAYRKKHKEAI	PGPT0004965_2184	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
BMS003_01964	1116	czcB_3		Cobalt-zinc-cadmium resistance protein CzcB	ATGAACAGAAATATTACCAAATACAGTGCTGCAGCTTACCTGTCTGCCCTTATTGTTTTTACAGGCTGTGTCGGAAAACAGGAAAATAAAGAAGCTGAAAAAGGCTACTGCATCAGCAAAGAGCTTAAGAAAGATATTAAGTTGGCTAAAGCAGAAATGCTTCCCATAGAAGAAAGCATTACCCTTACCGGAGAAGTGGAAAGCAATTCTGATAAAACGGTTCCCTTCGTAAGTCTTGTGGACGGAGTGGTGATGGATACCTATTTTTCCCTTGGTGATTATGTAAAAAAAGGACAAACGTTGGCAAGCGTAAAAAGTACAGCTGTGAATGAAATGCAGGATGACACTCAAACTTTGCAGGCTCAGTTGACAGTTGCGAAAAGAAAGCTGTCTTCCGTAGAAGCCATGTATAAAGATGATATTGCCTCTCAGAAAGATTTGCAGGAAGCACGTTCAGAAGTAGCCATACTGCAATCCAATATTTCCAAGACGCAGAAAAATATGCAGCTGTATTCAGCGGGAGGAAATACCATTCAGATAAAAGCTCCGGCAGACGGATATGTTATTTCAAAGAATATTTCCAAAGGAATGCCTGTTACCGCAGGAGGAGATCAGCTGTTTACCATTTCCAATCTGGATAAAGTGTGGGTAATGGCCAATGTGTATGCTACCAATATGAGGCATGTCTATGTAGATCAGCCCGTAGTGGTGAAAACGCTTGCTTATCCTGATGAAAGTTTTTCAGGGAAGATTAATAATATTTCTCAGGTTTTTAATGAAAATGAAAGAGTGCTTAAAGCTAAGATCATTATGGATAATAATGGTATGAAGTTGAGGCCGGGAATGTCAGCGGATGTTGTATTACCCATCAATTCACAAAACAAAAGCGCATTGGCTATTCCTGCAAAGGCTTTGATCTTTGATAATAATCAAAGTTATGTGGTTGTGTATAAAAAGGACTGTGAACTTGAGATCAGACCCGTAGCGGAAATTGCTTCCAACAGCCAGTATATTTATGTAGAAGGTAATTTAAAACAAGGTGAAAATGTGATCGCTTCCAACGGGCTGCTGATCTATGAAAACCTGAAAAACCAATTAAATAACTCCACGAAGTAA	MNRNITKYSAAAYLSALIVFTGCVGKQENKEAEKGYCISKELKKDIKLAKAEMLPIEESITLTGEVESNSDKTVPFVSLVDGVVMDTYFSLGDYVKKGQTLASVKSTAVNEMQDDTQTLQAQLTVAKRKLSSVEAMYKDDIASQKDLQEARSEVAILQSNISKTQKNMQLYSAGGNTIQIKAPADGYVISKNISKGMPVTAGGDQLFTISNLDKVWVMANVYATNMRHVYVDQPVVVKTLAYPDESFSGKINNISQVFNENERVLKAKIIMDNNGMKLRPGMSADVVLPINSQNKSALAIPAKALIFDNNQSYVVVYKKDCELEIRPVAEIASNSQYIYVEGNLKQGENVIASNGLLIYENLKNQLNNSTK	PGPT0004970_2198	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
BMS003_01965	1275	czcC_2		Cobalt-zinc-cadmium resistance protein CzcC	TTGAAGAAGCTATTTTTTACACTATTTTATATTCATTGTTTCAGTTTCTTTTCAGCACAGATTTCAGATACCCTGAAAATTGGCAGAAAGGAAGCTGAAACTATTTTTCTGGCTAAAAACTTAGATCTCATCGCTCAGAAACTTGAAATTTCACAAGCTGAAGCAAGAGCTGTTCAGGCTAAATATTGGCCTAATCCCACATTGAGTATCAGCGAAGTCAATCTATGGAGAACCTATGATATAGAAGAACAACCGGCACTGATCGGAAGCTGGGGAAAGAATACCCAGATTTCTGCAGAGATAGAACAGGTGATTCAGACTGCAGGCAAAAGACGAAAAAATATTGAACTCCAGAAAATAGAAGTGGAAGGAGAGAAGTATGAACTGCAGGAAGTTTTGCGTGAACTTAAAAAAACACTCAGAAATACTATTACCGAAATTCTTTACAATCAGGAACAGCAGAAAATTTATGAGGGGCAAATTGCTTCCATTGAGAAATTAACGAAATCCTACAATAATCAATTAAACCTTGGAAATATCAGTAAAGCTGAATATGTTCGATTAAAAGCACAGGAAATTGAATTCAAAAAGAAACTGATTTCATTAAAACAGGAAATTGAAGATCAGCAGGTAGAGCTTAAAGCCTTATTGATGCTGCCTTCCCAATCTTATCTGGTGATAACAGATTCATTTGTGATGCCTGAAAAACAACTTTCTGAACTGGAAGTGACTCAGTGGATAGACAAGGCAAAAGAAAACCGTCCGGACATTATGATCTCGAAAAATAAAGAGAAACACGCGGCCAAAAATCTGGAAATTCAGAATGCCATGAAAACTCCCGATGTTGCAGTTTCTATAGGGTACGACCGCGGAGGAAATATCATGAAAGACTTTATAGGATTAGGTGTTTCTATGGATCTTCCCATTTTTGACCGTAATAAAGGAAATATCCAGGAAGCTAAGCTTGAGATAGAGAAAAGTAAACTGGAAACCCGCAAAAATATGCTGAAATCCGAGAACGAAATTGTCTCTGTTTTCAGAAACTATATCAGAACACAGCAGGTTTCAGAAGAGATCGATGACAATTACGAATCTACACTGGATGGTTTGCTGGTAAGCCACGAGAAAAACTTCAGACTAAGGAATATCAGCATGTTGGAATACATGGATTTTCTGGATACCTACATCGGAAATAAAATGATTATCCTGGACACAAAAAAAGAGCTTAATCAATACTACGAAAACCTGCAGTATGTTGTAGGACAAGATTTATAA	MKKLFFTLFYIHCFSFFSAQISDTLKIGRKEAETIFLAKNLDLIAQKLEISQAEARAVQAKYWPNPTLSISEVNLWRTYDIEEQPALIGSWGKNTQISAEIEQVIQTAGKRRKNIELQKIEVEGEKYELQEVLRELKKTLRNTITEILYNQEQQKIYEGQIASIEKLTKSYNNQLNLGNISKAEYVRLKAQEIEFKKKLISLKQEIEDQQVELKALLMLPSQSYLVITDSFVMPEKQLSELEVTQWIDKAKENRPDIMISKNKEKHAAKNLEIQNAMKTPDVAVSIGYDRGGNIMKDFIGLGVSMDLPIFDRNKGNIQEAKLEIEKSKLETRKNMLKSENEIVSVFRNYIRTQQVSEEIDDNYESTLDGLLVSHEKNFRLRNISMLEYMDFLDTYIGNKMIILDTKKELNQYYENLQYVVGQDL	PGPT0004975_1457	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
BMS003_01966	1362	sasA_7		Adaptive-response sensory-kinase SasA	ATGACTCTCAGAAACAGGTTTACCCTTATTTCAAGCCTTTCATTCGGCATTGTTTCTATCATCACATCTGCGGTGATATTCTTTGCCTATTATGACAGTACCAAGATTTTTTATTTTGAAAAGCTAAGAAATACGGCTCTTATTTCTGCTATTTATTATCTTGAAAAAGATGAACTTCCGAAAGACCGCCATGCTCAGATCAAAAAAGAATACAATCACCTGATTCAGAATAACAGGGTAGCGGTTTATAATCAGAATAATGAAGTGACTTTTGGGCATAACCTGAACGACAAGAATATAAAGCTTTCCCATTTGCAGGCTGTCCGGAATAATAAAGGAATACAGTTTATGTCTGATAATCAGTTCTACTATGGGATTTTTTATCCGGATAATCAGGGAGATTTTGTGGTTTTTGTAAAATCGTCAAACGATTCTTTCCAGTCGCAGATCCTGAGGCTGGCTATTATTATGGTTTCTGTGCTGGTAGTTGGCTTGCTTGCTATTTATTTTCTGAGCAGATATCTTTCCAAGGTAGTTTATAAACCTATTTCCAATGTAGTGGAACGCATCAATAAAGTGGATTATAATAATATTTCTACGGCAATTACTTCTACCAATACTAATGATGAGATTGAAGATCTTATTAAATCATATAATAAACTGCTGGGCAGGATTTCTGAAAATGTACTTTTACAACAGAACTTTATCAACTATGTTTCTCACGAGTTTAAAACCCCTTTAGCTGCTATTTCCGGAAATCTGGAAGTCTTTGCCCAAAAAGACCGCACACCGGAGGAGTATAAGGAAGTGGCAAAAGAGTCATTGGAAAACGTATATGAGATTGAAAATATTCTCAACAATCTTTTGCTGATGTCCGGAATGACAAAGCTTGAATCTTCGCACAAACCCATGAGGGTGGATGAGCTGATCTGGAAGATTTATGAAAAATTAGAACCGAAAGCAAAAGAAAATAATTCCTCTATTAAGATACAGCTAAAGATAGCAAAACCTGATTTATTGGAATTTCCGGGAAATGAGACACTTTTATATCTTGCATTGTACAATATTGTAGAAAATGCCATCAAGTATTCCTATGACAAACCTGTGGTAATTACATTATCAGAAAAGAATAATCAATTGTATATAGAGGTAAAGGATGAAGGGAGAGGAATTCCGGCTGATGATCTTCTGAAAATAGCTGAGACTTTTTACAGGGGGAAAAATGTAGATGCGGTGAAAGGGAGTGGTATTGGTTTATCACTTTCAAAAAGTATCTTTGATCATCATCATATTATAATGAAAATTGATTCTGCTGTGAATGTTGGAACAAGCGTTCTTCTAGAATTTCCTGTTAATTCTTGA	MTLRNRFTLISSLSFGIVSIITSAVIFFAYYDSTKIFYFEKLRNTALISAIYYLEKDELPKDRHAQIKKEYNHLIQNNRVAVYNQNNEVTFGHNLNDKNIKLSHLQAVRNNKGIQFMSDNQFYYGIFYPDNQGDFVVFVKSSNDSFQSQILRLAIIMVSVLVVGLLAIYFLSRYLSKVVYKPISNVVERINKVDYNNISTAITSTNTNDEIEDLIKSYNKLLGRISENVLLQQNFINYVSHEFKTPLAAISGNLEVFAQKDRTPEEYKEVAKESLENVYEIENILNNLLLMSGMTKLESSHKPMRVDELIWKIYEKLEPKAKENNSSIKIQLKIAKPDLLEFPGNETLLYLALYNIVENAIKYSYDKPVVITLSEKNNQLYIEVKDEGRGIPADDLLKIAETFYRGKNVDAVKGSGIGLSLSKSIFDHHHIIMKIDSAVNVGTSVLLEFPVNS	PGPT0004980_1491	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
BMS003_01967	675	czcR		Transcriptional activator protein CzcR	ATGAATATTTTGTTGGTAGAAGATGATCAAAGAATCAGCAATTTCCTGATAAAAGGCCTTTCCGAGGCTGGTTATAATGTGACCCTTGCAGATTCCGGAGAAAAGGCACGAGAGCTTCTTCATACCTATGGTTTTGATATTATTTTAATGGATATTATGCTTCCCGGACTGGATGGGATGCAGCTCACCCAGCTTATCAGATTTAAAGGAAACTATACCCCAATCCTCATTCTGAGTGCATTGAACAGCCCTGATGATAAAATCAAAATGCTGGATTTGGGTGCTGATGATTATTTATCAAAACCCTTTCACTTTGAAGAACTTATTTCAAGGATTAAAGCCTTAACGAGAAGAAATAAACTGAGCTATCAGAAGGAAGATCAATATTTATCATGCGGAAATATCGTTATTGATACCGATCTTCATAAAGTTACCCAGAATGATAAGGAAATAGAATTTTCTCCTACGGAATACAAGCTTTTTACTTTCCTGATGGAAAATAAAAATAAGGTGCTGAGCAGAACCCAGATTTTGCATAAGGTATGGGGAATTGATTTTGATAATACGACAAATCTGGTGGATGTTTATATTTCCTACGTCCGTAACAAAATTGATGAAACAGGGCAGAAAATTATTCACACCGTAAAAGGAACAGGATATCTAATCAAGGACTGA	MNILLVEDDQRISNFLIKGLSEAGYNVTLADSGEKARELLHTYGFDIILMDIMLPGLDGMQLTQLIRFKGNYTPILILSALNSPDDKIKMLDLGADDYLSKPFHFEELISRIKALTRRNKLSYQKEDQYLSCGNIVIDTDLHKVTQNDKEIEFSPTEYKLFTFLMENKNKVLSRTQILHKVWGIDFDNTTNLVDVYISYVRNKIDETGQKIIHTVKGTGYLIKD	PGPT0004105_440	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
BMS003_01968	1506			hypothetical protein	ATGGAGATGATATATTTAATTATTGGGTTGTTTGCCGGTATTATACTGGGTGCGGTTATATTATATTTTGCCTTGAAATCATCAATGGTTTCAAGAAGTACATATGATACACTGAACACTTTATCGATAAAGACTCAGTCTGATCTTGAAAATTCTGAGTTGAAGATTCAGGAGCTTCATCAGAATATCAGTAAAGAGAAAGAAGCCCATATGCAGCAGCAGGATCTTCTGGATGATCTGAAAAATGAATTTTCTAAAATCTCCGCCGAATATTCATCGTTAACTATTCAGTTTCAGGAGTTAAAACAAATCAGTCAGAGACAGACTTCCCAGATAGAAACCCACATTCTTGAAAAGCAGACGCTTTTTGCGAAAAACTCCGAGCTTTCTGCCAAAAATGAAGGTCTCCAACAATCTCTTGATACACAAAAAGAGGAAATCGTCAAGATTCAGGAAGATTCTAAACTTCAGTTTGAAAACCTTGCCAATAAAATTTTAGAAGAGAAAACGGAAAAATTTACTACCTTAAATCAAAATAACTTAAAAAATATCCTTGAGCCTTTTCAGGAGAAAATTGCTGACTTAAAAAACAAAGTCAACGAAGCCTATGAAAAAGAAAATAAAGAGCGTTTCTCTCTGGCTGAAAAAGTAAAGGAACTGGCAGAACTGAACCAGCAGATTTCCAATGATGCCAAAAAACTGACCCGTGCCCTGAAAGGAGAAAGTAAAACCCAAGGGAACTGGGGCGAGATGATCCTTGAAAGTATTCTTGAGAAATCAGGATTGGTAAAAGGAAGAGAATATTTCCTGGAACATGAATTACGTGATCAAGATAACAAAGCTTTATTCTCAGAATTCTCCGGAAAGAAAATGCGTCCTGATGCTGTTGTAAAATACCCTGACGAAAGGAATGTCATCATTGATTCAAAAGTATCTCTGACTGCTTTTACAGAATTGGTAGATGAAACCGATCCAGATGTTTACGCTATAAAACTAAGCCAGCACCTTGGATCTATAAAAAACCATATTAATCAACTCAGTCAAAAAGCATACGATGACTATGGAAAATCATTGGATTTCGTGATGATGTTTATTCCGAGTGAACCGGCTTATATTGCAGCCATGCAGGCAGACCAGAACCTTTGGAACTATGCCTATGAAAGAAGAATCCTTTTGCTTAACCCAAGTAATCTGATCACTTCTCTTAAGCTGATTGCCGATCTTTGGAAACGTGAATATCAGAACCGGAATTCTATAGAAATTGCTGAGCGGGGGGCCAAACTTTATGATAAATTTGTAGGTTTTGTAGAAAATCTGGAAAAGATAGGCCGAAATCTGGATCAGGCAAAAAATGTATTCAATGATGCTTACAAACAGCTTCATACCGGAAATGACAACCTAGTGATCCAGACTCAAAAGCTGAAGTCATTAGGTATTAAAAACAAAAAAGAGCTGCCTCAAAGTCTTATCGACAACGGCAATTTTATTGAACCAGCAGAAAACTAA	MEMIYLIIGLFAGIILGAVILYFALKSSMVSRSTYDTLNTLSIKTQSDLENSELKIQELHQNISKEKEAHMQQQDLLDDLKNEFSKISAEYSSLTIQFQELKQISQRQTSQIETHILEKQTLFAKNSELSAKNEGLQQSLDTQKEEIVKIQEDSKLQFENLANKILEEKTEKFTTLNQNNLKNILEPFQEKIADLKNKVNEAYEKENKERFSLAEKVKELAELNQQISNDAKKLTRALKGESKTQGNWGEMILESILEKSGLVKGREYFLEHELRDQDNKALFSEFSGKKMRPDAVVKYPDERNVIIDSKVSLTAFTELVDETDPDVYAIKLSQHLGSIKNHINQLSQKAYDDYGKSLDFVMMFIPSEPAYIAAMQADQNLWNYAYERRILLLNPSNLITSLKLIADLWKREYQNRNSIEIAERGAKLYDKFVGFVENLEKIGRNLDQAKNVFNDAYKQLHTGNDNLVIQTQKLKSLGIKNKKELPQSLIDNGNFIEPAEN				NA	NA	NA	NA	NA
BMS003_01969	768	trmH_1		tRNA (guanosine(18)-2'-O)-methyltransferase	ATGTTGATAGAAAGTTTTCAAAACGATAAAATAAAAAACGTCACTAAGCTCCTTACTGACAACAGGTTTCGTAAAAAATCAAAAGTTTTTGTAGTAGAAGGCCAGCAGGAAAATGAAAGAGCCATGCAGTATGATTTTGAACCGTTGGAGTTCTTTATCTGTGAAAATATCTTTACAGGAAGCCTTCCTGATGAAAAAACCCATTATGTAAGTGAAAAAGTATATGAAAAAATAGCTTACAGAGGGAGCTCTGAAGGGATTATCGGAATTTATACGGCAAAAGAAACCCCACTTTCTTCATTTGTTCCTCAAGAAGATTCTACAGTAATTATTGTTGAAGGCGTAGAAAAACCCGGGAATCTTGGAGCTATTTTAAGAAGCTGTGAAGCTTTTGGAGTAGATGCACTGATTGTGGCTGACGGTAAAACCGACTTCTACAATCCAAATGTAATAAGATCCAGTGTGGGATGTTTATTTGGAATGGAAGTCTATCAGGCTGAAAATGAAGAGACATTGGAGTTCCTGCAAAAAAACAGCTTCAATATTTACACAACGCTTATGGACGAAAGTGCAGAAGATCTTTATAAGAGAGATTTCAGACAACGTTCTGCAGTATTATTCGGTACGGAACATTCCGGATTGAGTGATTTCTGGATCGGGAAAGGAAAAAATACGCTGATTCCGATGGCGGGAAGTATTGATTCTTTGAACCTGAGCAATGCAGTAGCTATTACCTGCTATGAATCTTTGAAACAGAAGAAAGGATAA	MLIESFQNDKIKNVTKLLTDNRFRKKSKVFVVEGQQENERAMQYDFEPLEFFICENIFTGSLPDEKTHYVSEKVYEKIAYRGSSEGIIGIYTAKETPLSSFVPQEDSTVIIVEGVEKPGNLGAILRSCEAFGVDALIVADGKTDFYNPNVIRSSVGCLFGMEVYQAENEETLEFLQKNSFNIYTTLMDESAEDLYKRDFRQRSAVLFGTEHSGLSDFWIGKGKNTLIPMAGSIDSLNLSNAVAITCYESLKQKKG				NA	NA	NA	NA	NA
BMS003_01970	330			hypothetical protein	ATGAAAAAGTCATTATTCGTAGCTGCTATCGCTGCAATCTCTCTAGTTGCTTGTAAAAAAACTGAAGCTACTGCTACTGAAGGTACAACTGATTCTGCTGCTGCTTCTGTAGCTGATTCTGCTGCTGTAGTTTCTGATTCTGCTGCTAAAGTTGTTGATTCTGCTGCAACTACTGCTGTAGAAGCTACTAAAGATGCTGCTGCTGCTACTACTGCTGCTGGTGCTGAAGTTGCTAAAGATGCTGCTAAAGGAGCTGCTGACGCTGCTAAAGGAGCTGCAGATGCTGCTAAAGGAGCTGCTGAAGCTGCTAAAGATGCTGCTAAGAAATAA	MKKSLFVAAIAAISLVACKKTEATATEGTTDSAAASVADSAAVVSDSAAKVVDSAATTAVEATKDAAAATTAAGAEVAKDAAKGAADAAKGAADAAKGAAEAAKDAAKK				NA	NA	NA	NA	NA
BMS003_01971	1182			hypothetical protein	TTGACAGATTTAGATCTATTACACTTTGAGCAATTAAAAAAGGATGTTCAGGGTCAATACTTAAAAGAATATACCCCTTCACAGGATGATATTTCCAAGTGGAAAGGTATAGATATTATATATTTTCAGGAAGACCTTCGGAAAAAAGCGAAAGGAAACATCAGTGAAAAGTCATTTTACACCTATTTTAAAACTTCACCAGTTACTAAACTGCCAAGGATAGACATGCTCAATTTACTGAGTATTTATGCAGGTTACGACTCCTGGTATGAATTCAAAAAACAGCATCTTTTTGCAGGTGAGCTGCTCCTGGAAAATGAAAATCTGGAAGAAGAAGAAATTGACGAACTTGAAAAAACAGTTTCTTCAGCTCCTGAAATTCCAAAAACCGAAATTCAGCCTAAGAAAAACGAAATCAGCTCCTCAGAAAACATTGATTTACAAAAATCAATAACTGATAATCAAAGAATTACACAAAACAGAATGAATAAAGGCGAAATTAAAACTTCACCTGTTCAGCCAAAGAAAAATTTCTTCAAAAAGAATGCATGGGCACTTATTACTTCAGTTCTGATTACAATTACCGGTCTCTTAGGTTTTAAGGATGTACTTTTTTCAAAAACTTACAAATATTGTTTCATTGATAAAGACAGAGGTGTTTCTGTGATCAATACCTTAGAAATAATGGTAGTGAAAGAAAATGAATCTCCATTGATGTATAAAATAAAACCTGGCGAGTGTTTCTATTATTCTACCAAGGATAAAAATTTAAAAATGCGCATCAGTGCACCTTTCTACGAACCTCTGGAGGTAAACCGAAATTTAGAAAATGCACCTGAAGAAGAAAAGATAGAGCTAAAACCGGATGATTATAAAATGGCCGTCTATTATTTCTCCATAAAAGACATTAAAGGAGGAAATCCTGAAGAACAGGTTGCTCTCATTAAGCAGAAAAGAAACCAGCTTGAAAACCTGATCAGCAGCAATGCTGTAATTTATCAGGTATACGACAATGATACCTATGGGATAGAAAGACTGGACAAACAGAAATATATCACTTTGGTAACTACACCTACAACCTCTCTGAAAAACCTGAATGTAATAGAAATGAAAAAGGATAACAAAGGTAAAATTGTATCCATCAAATTTAAAATTGCTACCACAGATGAAAAGAATAAATAA	MTDLDLLHFEQLKKDVQGQYLKEYTPSQDDISKWKGIDIIYFQEDLRKKAKGNISEKSFYTYFKTSPVTKLPRIDMLNLLSIYAGYDSWYEFKKQHLFAGELLLENENLEEEEIDELEKTVSSAPEIPKTEIQPKKNEISSSENIDLQKSITDNQRITQNRMNKGEIKTSPVQPKKNFFKKNAWALITSVLITITGLLGFKDVLFSKTYKYCFIDKDRGVSVINTLEIMVVKENESPLMYKIKPGECFYYSTKDKNLKMRISAPFYEPLEVNRNLENAPEEEKIELKPDDYKMAVYYFSIKDIKGGNPEEQVALIKQKRNQLENLISSNAVIYQVYDNDTYGIERLDKQKYITLVTTPTTSLKNLNVIEMKKDNKGKIVSIKFKIATTDEKNK				NA	NA	NA	NA	NA
BMS003_01972	582			hypothetical protein	ATGAAAAGAATAAATAATTTTTTAATTTTCACCGTACTTCTGACGTTATTTATTGCCTGTAATAATAAAACATCAGAAGTAAGCGACCTCGATAAACTACGAAACAGCAACAATGAAAAAAGCTATCCTGCTGTACAGATGGACAGTATGCAAGCCATCAACTCCATTACCAAACAGAAAGTTCAGGAACTTCTTGATCTGTCTACCCTATACCTTAGCGGAAACAGAAATACAGAAATAGATACTGTGATCTATTCGCAGATGGAAAGCTATTTTCATAAACCGGATTCCCTGACATTCAAAAGATTGCTGAAAGAACTGGACAGCATGAAAGTAAAAACGGCAAAAGTAAGCAACCTGAATGTATACAAAGGGTTCTATAAAAAAGACACATTAGACTATGCCAAATTTAATGTGGAATATTTTGACAATAAAAACAAGTCTCTGGGAAACTTTGAAAAAAATGTGCAATACATACTGCTTTCTACGTCAAAACTTAAAAAAGAATTCAAATTTTATTTCCTAGATTTCTATTCCGAACCAATTAAGAAAGACAGTACTTCTGTAGGTGTAACCAAATAG	MKRINNFLIFTVLLTLFIACNNKTSEVSDLDKLRNSNNEKSYPAVQMDSMQAINSITKQKVQELLDLSTLYLSGNRNTEIDTVIYSQMESYFHKPDSLTFKRLLKELDSMKVKTAKVSNLNVYKGFYKKDTLDYAKFNVEYFDNKNKSLGNFEKNVQYILLSTSKLKKEFKFYFLDFYSEPIKKDSTSVGVTK				NA	NA	NA	NA	NA
BMS003_01973	576			5-formyltetrahydrofolate cyclo-ligase	ATGCTAAAAGCTGAGCTTAGAAAAAAATACACACAAAAAAGAAAAGCCTTGTCTATTGATGAGGCTTTCTTGTTATCAGAGAAGATTTTTGATAATTTTATTCATTATTTCAAACCTGAAGAATCGGAGAAAGTGCATATTTTCATTCCCATTCCGGCAAGAAAAGAAATTGATACCCGAATCTTTATTCAATATTTTTTAACACAGAATATCCGTGTCTATGTGCCTAAAATTGTTGGAGATCGGCTTATTGCTATAGAAGTTTTTGAAAATACTGTTTTTGAAACCAATGGCTGGGGTATTTCAGAGCCGGTTTCCAATGAAGATTCCGGAGGAAATGTATTTGACTATGTAATCACACCTCTCTTGTATTGTGACAGAAAAGGAAACAGAGTAGGGTATGGAAAAGGTTTCTATGACGGATTGTTCCGCAATATAGCTGCTGAGACCAAAAAAATCGGAGTCAATTATTTTGACCCCGATGAATATGTGGATGATGTCTGGGAAAATGATATTCCCCTGGACTATTTGGTTACACCTACAGAAGTACTGTCTTTCTTAATTGGTTCGGAATAG	MLKAELRKKYTQKRKALSIDEAFLLSEKIFDNFIHYFKPEESEKVHIFIPIPARKEIDTRIFIQYFLTQNIRVYVPKIVGDRLIAIEVFENTVFETNGWGISEPVSNEDSGGNVFDYVITPLLYCDRKGNRVGYGKGFYDGLFRNIAAETKKIGVNYFDPDEYVDDVWENDIPLDYLVTPTEVLSFLIGSE	PGPT0008170_3859	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
BMS003_01974	1362	glpE		Thiosulfate sulfurtransferase GlpE	ATGCAACTGTATAACACCTTAAGCGCAGAAGAAAGAGCTCAGCTTATTGATGAAGCCGGTAAAGACCGTCTTACTTTGTCTTTCTATGCGTATGCCAAAATCGAAGACCCCAAAAAATTTCGCGACGAATTATTTATAGCCTGGAATGCACTTGATGCGCTTGGTCGTATTTATGTTGCTACAGAAGGAATCAATGCTCAGATGAGTGTTCCTGCAGACCAGTTTGAGGCTTTTCGTGATACGCTGGAAGTGTATGACTTCATGAAAGGAATCCGTTTGAACGTAGCGGTAGATCAGGACAATTATTCTTTTTTAAAATTAACCATAAAAGTCAGAAACAAAATTGTTGCTGATGGCTTGAATGACGAAACTTTTGATGTTACCAACAAAGGAATCCATTTAAAGGCTACAGAGTTCAATAATTTATTAGAAGACCCTAATACGATTGTCGTAGATTTCAGAAATCACTACGAAAGTGAAGTAGGGCACTTTGAAGGAGCAATTACTCCGGATGTGGAAAATTTCAGAGAAAGTTTGCCGATTATTAATGAACAGCTACAGGATTTTAAAGAAGATAAAAACCTTTTAATGTATTGCACCGGAGGAATCCGTTGTGAAAAAGCCAGTGCTTATTTTAAACATCAGGGCTTTAAAAATGTTTACCAGTTAGAAGGTGGTATCATTGAATATACACGTCAGATAAAAGAAGAAGGCATTGAAAGTAAGTTTATCGGTAAAAACTTTGTATTTGATCATCGTTTAGGAGAAAGAATTACAGATGATATCATTGCACAGTGCCACCAATGTGGAAAACCTTGTGATAATCATACCAATTGCGCAAATGATGCCTGTCATTTGTTATTTATCCAATGTGACGAATGTAAAGCTGCTATGGAAAACTGCTGCTCTACAGAATGTCTGGATACCATCCATTTGCCTTGGGATGAGCAGGTGAAGCTGAGAAAAGGACTTCAGGTCGGAAATAAAGTATTTAGAAAAGGAAAATCGGATGCTTTGAAATTCAAAAACTCCGGAGATTTATCTGCTAAACCTTTAGCAAAAGCCGAAATAAAGAATATCCGCCAAAAGATTGCTGTTAAAAAAGAATTAATAGGGAAAGCAGAGCACTATTATTCAAAATCAAAAATTGCACAGTTCTTAATTGAAAACAAAGATCTTTCAGTAGGAGATCAGGTACTGATTTCAGGTCCTACAACAGGTGAGCAGGAATTTACCATTACGGAAATTTATGCTAACGGAGGTCCCTGCGAAACGGCAAAACCTGGAGATCAGATTACTTTTGAACTTCCGTTCAGAGTTCGTTTGTCTGATAAACTGTATAGAATTATGCAGAATGCATAA	MQLYNTLSAEERAQLIDEAGKDRLTLSFYAYAKIEDPKKFRDELFIAWNALDALGRIYVATEGINAQMSVPADQFEAFRDTLEVYDFMKGIRLNVAVDQDNYSFLKLTIKVRNKIVADGLNDETFDVTNKGIHLKATEFNNLLEDPNTIVVDFRNHYESEVGHFEGAITPDVENFRESLPIINEQLQDFKEDKNLLMYCTGGIRCEKASAYFKHQGFKNVYQLEGGIIEYTRQIKEEGIESKFIGKNFVFDHRLGERITDDIIAQCHQCGKPCDNHTNCANDACHLLFIQCDECKAAMENCCSTECLDTIHLPWDEQVKLRKGLQVGNKVFRKGKSDALKFKNSGDLSAKPLAKAEIKNIRQKIAVKKELIGKAEHYYSKSKIAQFLIENKDLSVGDQVLISGPTTGEQEFTITEIYANGGPCETAKPGDQITFELPFRVRLSDKLYRIMQNA	PGPT0013330_49	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
BMS003_01975	1536	degQ	COG0265	Periplasmic pH-dependent serine endoprotease DegQ	ATGAAGAGTACTTTAAAAAAACTATTACCATTTGCAGTAGTTGGAGTCATTTCCGGAGCTACTACCGTTGGAGCATTACAATATTTCGGTCATAGCTCCAACAATGGAGATCAGTCTTATTTCACAGCAGCGGCACCCAATACCTCATTCGCAGGAATGAATACAGGAGCAGTAGGTGACGATTTTGTAAAAGCAGCTAAAACAACCGTTCCGGCTGTAGTTACCATTAAAAACTACCAAAACAGAACTGCAAGCAGGGCTTCAGAACAGGATTTGTTTGACTTCTTCTTTGGAGATCCTTTTGGAGGAAGAGGCCAGCAAAGACAGAAACAACAACAGCAGCAGGCTCCCGATAACATGCCATCAGGAATGGGTTCAGGGGTAATCATCTCTCCGGACGGTTATATTATTTCCAATAACCACGTGGTAGCAGGAGCTAATAAACTGGAAGTAGTACTAAGCAACAAGAAATCATACATTGCCACTTTAGTAGGAACTGATCCTAATACAGATATCTCTTTATTAAAGATTGAAGAAAAAGGGCTTCCCTATTTAAATTTTGCAAATTCTGACAATATTGATGTGGGCCAGTGGGTACTTGCAGTAGGAAATCCTCTAGGGTTAAACTCTACAGTAACAGCAGGTATTGTCTCTGCTAAAGGAAGAGGTATCGGAATCCTTGGAAGCCAGGGAAAAGCAGCTAACCCAATCGAAAGCTTCATTCAGACGGATGCAGCGATCAATCCGGGTAACTCAGGAGGAGCTTTGGTGAATACGAATGGTGAGCTGATCGGGATCAACTCTGCGATCCAGTCTACTACAGGGTATTATCAGGGATACGGATTTGCTGTTCCTTCCAACCTTGCAAGAAAAATTGTAGAGGATATCAAGAAATTTGGAATTGTACAGAGAGGATTCTTGGGAGTTCAGTCTTTGGATCTTTCAAATGATCAACTGGTAACTTCCTACAACAAGCAGTTCAAAACGAATCTGAAAATAGGTTCCGGAATTTACATTACAGGATTTGGTGAAAACAGTGGTGCTGAAGATGCAGGATTGAAAAAAGGAGATGTGATCACCAAAGTAGACAACTACGATATCACAGACTTTGCTGATCTTTCTATGTCTATCGGAAGCAAACGCCCTGGTGATAAAGTACAGGTAAGTTATTTAAGAAACGGCAAATCAGCTACTACTTCTGTAACGCTCAGAGACCAAAAAGGAGGTACTTCAACCAGAACAAAAGCAGACCTTAGCGTAACAGAAAAAATCGGATCAGAATTCCAGAACATCGATGACAGAACGAAAGCTTATTACGGATTAAACAGTGGAGTGGTTGCGAAAAATGTTGTAGAAGGAAGCGAAATAGCTAAAGCAGGAATTGTAGATGGTTATATTGTCACAGAAATCAATGGTAAGCCTGTAAATTCACAGAAAGATGTGGAAAGCTTACTGAATAAATTCTCCGGAACTGTACAAATAAAATATATGGACGACTACGGAAGAAGTTACCAAAGAGGATTTAAAATGCCTTAA	MKSTLKKLLPFAVVGVISGATTVGALQYFGHSSNNGDQSYFTAAAPNTSFAGMNTGAVGDDFVKAAKTTVPAVVTIKNYQNRTASRASEQDLFDFFFGDPFGGRGQQRQKQQQQQAPDNMPSGMGSGVIISPDGYIISNNHVVAGANKLEVVLSNKKSYIATLVGTDPNTDISLLKIEEKGLPYLNFANSDNIDVGQWVLAVGNPLGLNSTVTAGIVSAKGRGIGILGSQGKAANPIESFIQTDAAINPGNSGGALVNTNGELIGINSAIQSTTGYYQGYGFAVPSNLARKIVEDIKKFGIVQRGFLGVQSLDLSNDQLVTSYNKQFKTNLKIGSGIYITGFGENSGAEDAGLKKGDVITKVDNYDITDFADLSMSIGSKRPGDKVQVSYLRNGKSATTSVTLRDQKGGTSTRTKADLSVTEKIGSEFQNIDDRTKAYYGLNSGVVAKNVVEGSEIAKAGIVDGYIVTEINGKPVNSQKDVESLLNKFSGTVQIKYMDDYGRSYQRGFKMP	PGPT0015105_1311	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
BMS003_01976	456			hypothetical protein	ATGAATTTTTTAAGAAATACAATTGCGGTTCTGGTAGGTCTTGGTATTGCAGGGCTTATTATTACTCTTGGTATAAGAGCTTTTCCGCAATGGGTAACTTTTGAGGCTTTTGCTCCGTTTGAACACTGGCAAAGGTTTCTTTTCAGCATGAAAGATGATAAGACGTTCTTCGGTTTCCTTTTGTTTATTTCAGGATTGGGAACTACAATTGGGGGAGTGGCAACAGCTATTATCGTAAAATATGCTAAAGTAGCCTATGCTATTCTGATCGGGTTTATAATGCTCTTTATTGCAATGCTGGATGTGATTGTTTTTCCTTATCATCCTACATTTTATAAGATCTCTATTTTCCTTACCTTTTTTCCGTTTTCCTGGATTGGCGGTAAGATTGTAGAAGTTATCTACGAGCGGAATAAAAAGAAAAGTATCGCTGAAAAAATGAATAAACCTAAATAA	MNFLRNTIAVLVGLGIAGLIITLGIRAFPQWVTFEAFAPFEHWQRFLFSMKDDKTFFGFLLFISGLGTTIGGVATAIIVKYAKVAYAILIGFIMLFIAMLDVIVFPYHPTFYKISIFLTFFPFSWIGGKIVEVIYERNKKKSIAEKMNKPK				NA	NA	NA	NA	NA
BMS003_01977	381	yabJ_1	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGAAACAAATAATAAACACAGCTAATGCACCTGCAGCTATCGGTCCTTATTCACAAGCTAATATGGCCAATGGAGTTCTGTATATCTCCGGACAGATTCCTGTAGATCCTGCAACGGGTAAATTGGTAGAAGGTATTGAAAAAGAAACGCACCAGGTAATGAAAAACCTTGAGGCAATTCTTACTGAAGCTGGTATGACTTTTAAAAATGTTGTAAAAGCTACTATTTTCCTGAAGAGTATGGATGATTTTGCTGTAATGAATGATATCTATGCGTCTTACCTGGATTCAGAAAGTTATCCGGCACGTGAAACAGTACAGGTTTCATGTTTGCCTAAAAATGTGGATATCGAAATTTCTATGATCGCACATCAGGATTAA	MKQIINTANAPAAIGPYSQANMANGVLYISGQIPVDPATGKLVEGIEKETHQVMKNLEAILTEAGMTFKNVVKATIFLKSMDDFAVMNDIYASYLDSESYPARETVQVSCLPKNVDIEISMIAHQD	PGPT0020030_3133	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
BMS003_01978	2586	lptD_1		LPS-assembly protein LptD	TTGGCCAAAACCGTCTTCAAAAATATATTACAAATTTTAATTATCCTAATTTTTAACAATTTTTTAGCACAGAAAACTCCTGAAAAATTGCCTAAAAATGCGGTTAATGATACTATTTCCAAAAAGGATACCATAGTTGTAAAAAAAGAAGCTTTAGATGATGTTCTTCGTACAAAAGCGGATGATCAGAGAAGAGATGTTCCGAAAAAAATGACTTTCCTGAACAAAAATGCCCAGGTAAAGTATCAGGATATGCAGATTGATGCAGATTATATTTCTATTGATGATAATAAAAACCTGGTCTACGCCAGAGGAAAACAGGACTCTTTAGGGAGAATCATAGAACCTGTAATTACTACACAGGCCGGGAAAAAATACGAGACCAATGAATTCAGCTATAATACAAAAACCAAGCAGGCTATTGCTTTCAATGCACGTACAGAAGAAAGTGAAGGGGTTATTATAGCGCAGAAGACCAAAAAATATAACGACTCCGTATTCGCGATGAGAAAAGCGGATTATACAACGGATGATTATTTCATTAAGAAAAAAGATACGGCTGCGGATTATTTTATGAGAGCTTATAATATTAAGCTGATTAAAACCAAAAATAAGTCCCAGATCGTTACAGGTCCTATCCAGATGTTTATTGAGCAGGTGCCTACACCACTTTATCTTCCGTTTGCCATTTTGCCGTTTTCGGCTAAAAGAGCGGCAGGTATCCTGATCCCGAGTTTCGGGGAAAGGGAAGATGTAGGATTTTTCCTTAACGGAATTGGATATTATCAACCGATTGGAGAACACTTTGACCTTAAAGTTTTAGCAGATATCTATACCAAAGGAAGCTGGAACTTACGTCCACAGGTGAATTACCAGAAGAAATACCGTTACTCTGGAAACTTTACAGCGGATATCGGGACTATGGTGAGAGGTATCAAAGGATTGGATGATTATACCAGAAACAGTACATACAGGATCAACTGGACACACTCTCAGGATTCTAAAGCGAACCCTTTCCTGACATTCAGCGCTTCCGTGGATATTGTAAGCACGAAGTTCTACAACAACCCGCTTAATAATAACTATATTTTCAATCAGAACGTGCTGAATACCCAGCAGAACTCTACGGTAACTCTTACCAAAAGATTTCTGAAGCTTCCGATGACGATTACAGGAACCGCATCTTATTCACAAAACTTTGCAACAGGACTGGCAGATCTTCGTCTTCCGCAGATGAACGTTGCGATCAATCAGTTCTATCTTTTCAAATCAAGAACAGGAATCAGACAGGGACTTCTTGAAAATATTACCGTGAATACAGGATTTAACCTTACCAATTTCGTCAATACTCAGGAAAATGAGTTGTTTAAAAAAGAAATGTGGGACAAGATGCAGACCGGGCTTAAGAATAATATCGCATTGGCAACCAATACGACATTGGCTAAATATTTTACGTTCAGTTTAGGTGCAAATATTGATAATGCCCTGACGACAAAAACCCTGAACAGATATTATGATCCGGTAAAGAACGTTACAGTTGATGAAATCAACAAAAACCTTACAGGATACTCTACTTTCTCTACTACGGCCAGTCTTCAGACAACCCTTTATGGAATGATGAAATTCAAAAAAGGATCTGCAGTAGAAGCGGTAAGGCATATGATGACTCCAAGTATTGGGTTTACATATTCTCCGGATTTCTCAAGTCCTAATTTCGGATATTACAAAAACTATTATAATGCTAGCGGAGCGCTGACTCCTTATTCTATTTTCGAAAAAGGAATTATCGGAAGCCCGTCTAGCGGGATGGTAGGCGCTCTTGGTTTCAATATCGGTAACAATATCGAGATGAAAGTAAAATCCAAGAGTGATTCTACAGGAGTGAAGAAAGTCAAGATTTTTGAATCTTTAAACCTTTCAGGAAGCTATAATTTTGCAGCTAAAGATCACCCCTGGTCTGTATTCACCATTAACGGGCAGTCAAATTTCTTCAATAATAAGCTTACCGTAAATACCAGTCTTTCATTGGAACCTTATAAAATTGATTTTTCTTCAGGACAGGATACTGGTGTAAGAACAGAACAATTCGGACACTTTAGCGTGCAGGGATTTAATGTTCAGTTATCTTATCCTTTAAGCAGTGAAATCTTTGGGCAGAAGACAGATTATGCTAAGAAATACTCCTCAAAAGGAGAAGTCCGAAATGAAAATTATTATTTTGATGATGATCATTATGCTCATTTTGATCAGGCATGGACTTTAAATGTTAGTGCAAACTATCAATACTCCAAAGGATTAAGCAGGTTTGCCAATAAACTTGCATCCATTGGATTAGACGGGAGTATCAAGCTGACACCTTACTGGAATATCAACGGAAGCACGCATTATGATATGGTGACTAAACAATTGGCGTATACAAGAATTGGTTTTTCCAGAGATCAGCGAAGCTTTACCATCAATTTCAACTGGGTTCCTTTCGGACAGTATAAGGTATATGACTTCTTTATCGGAATAAAAGCCAATATCTTAAGTGATGCATTGAAATATAAAGACAGAAGTTTTACTCAGCCTAATGCACCTTTCTAA	MAKTVFKNILQILIILIFNNFLAQKTPEKLPKNAVNDTISKKDTIVVKKEALDDVLRTKADDQRRDVPKKMTFLNKNAQVKYQDMQIDADYISIDDNKNLVYARGKQDSLGRIIEPVITTQAGKKYETNEFSYNTKTKQAIAFNARTEESEGVIIAQKTKKYNDSVFAMRKADYTTDDYFIKKKDTAADYFMRAYNIKLIKTKNKSQIVTGPIQMFIEQVPTPLYLPFAILPFSAKRAAGILIPSFGEREDVGFFLNGIGYYQPIGEHFDLKVLADIYTKGSWNLRPQVNYQKKYRYSGNFTADIGTMVRGIKGLDDYTRNSTYRINWTHSQDSKANPFLTFSASVDIVSTKFYNNPLNNNYIFNQNVLNTQQNSTVTLTKRFLKLPMTITGTASYSQNFATGLADLRLPQMNVAINQFYLFKSRTGIRQGLLENITVNTGFNLTNFVNTQENELFKKEMWDKMQTGLKNNIALATNTTLAKYFTFSLGANIDNALTTKTLNRYYDPVKNVTVDEINKNLTGYSTFSTTASLQTTLYGMMKFKKGSAVEAVRHMMTPSIGFTYSPDFSSPNFGYYKNYYNASGALTPYSIFEKGIIGSPSSGMVGALGFNIGNNIEMKVKSKSDSTGVKKVKIFESLNLSGSYNFAAKDHPWSVFTINGQSNFFNNKLTVNTSLSLEPYKIDFSSGQDTGVRTEQFGHFSVQGFNVQLSYPLSSEIFGQKTDYAKKYSSKGEVRNENYYFDDDHYAHFDQAWTLNVSANYQYSKGLSRFANKLASIGLDGSIKLTPYWNINGSTHYDMVTKQLAYTRIGFSRDQRSFTINFNWVPFGQYKVYDFFIGIKANILSDALKYKDRSFTQPNAPF	PGPT0023298_263	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
BMS003_01979	1287			hypothetical protein	ATGTACAAACAAAATTTTAAAATAATTTTATCATTTCTCCTTATCCTTACCAGCAACTTTATTTTCTCTCAAAAGAAGTTTACCATTGTTCTGGATGCCGGACACGGAGGAAGTGATCATGGAGCCAACAGGGCTTATTCTGATATTGGAAGAATTGCAGAAAAAGACATTACACTTGCCATTACTTTAAAAGTAGGTGCATTGTTAGAGAAAAACAGAGATTTCAAAGTAATATACACCCGTAAAATTGACGAATACCCTTCTCTGTCTGACAGAACCAATCTGGCCAACAGAAGCAAAGCAAACCTTTTTGTATCCATTCACTGTAATTCTTCCCAAAGACCTACGGCCTATGGGACTGAAACCTACGTACAGGGACCTAACCAGAATGATGAAAACCTGGAGGTTGCCAAAAGAGAGAATGATGTGATCTTCCTGGATGAAAAAGATAAGCAGGTATTCGGATCTTATAATCCTGATTCTCCTGAATCATTAATTGCATTAAAACTTCAGCAAAGTAAGTATCTGGAATCAAGTCTTCTTTTGGGGGGATTAGTGGAGGATAACTTCGTTAATAAAGATAAAAGATTCTCAAGAGGTGTTTTCCAGAAAAACCTTCATGTTCTTCGTATGAACGCCATGCCATCTGTACTGATAGAAACAGGATTTATCAATCATCCGGAAGAAAGCCATTATATTGCGTCAGACAAAGGACAGACTGAGATTGCAGAAAGTATTTACAATGCAATCATAGACTATAAAAAAGCTATTGACAGAAAATCCGGAGGTTCTTTTGCCGTAAAAAAATCGGAGCCTGAGAAGCCTGCAGAAGTTCCTTTGAAAAATGATTTCAGAATTCTATTGATGAGCTCGCCTATGAAATACACTGAAAATGACCCCGCTCTTAAGGGGCTGAACTATATTCTTACCCTTAAAGAAAACGGACAGTACAAATATTACTATGCTGTAACGAATATGGCTTCGGTAAAAGACATTAATCTTAAAACAGCAAAGGATGCCGGTTTTAGAAATGCTTTTGCTGTAGGGTTTATGCCTAATCAAAGAATCAGCATGGGGTATTATACTATAGAGGTATACTCCGGAGACAAACTGAATGGTAATTCTTACATTCTTCAGAACCTTAAAGATGTTGAAAGAAATAAGGATAGTGGTGTATTCTATTATACCTATGGAAAGGTCTATACATTAGAAGATGCCGTAAAACTTCAAAAAGATGTTGAGGCTAAAGGAATCAAAAACACTGTAATACAGAAAGTCTACAAATAA	MYKQNFKIILSFLLILTSNFIFSQKKFTIVLDAGHGGSDHGANRAYSDIGRIAEKDITLAITLKVGALLEKNRDFKVIYTRKIDEYPSLSDRTNLANRSKANLFVSIHCNSSQRPTAYGTETYVQGPNQNDENLEVAKRENDVIFLDEKDKQVFGSYNPDSPESLIALKLQQSKYLESSLLLGGLVEDNFVNKDKRFSRGVFQKNLHVLRMNAMPSVLIETGFINHPEESHYIASDKGQTEIAESIYNAIIDYKKAIDRKSGGSFAVKKSEPEKPAEVPLKNDFRILLMSSPMKYTENDPALKGLNYILTLKENGQYKYYYAVTNMASVKDINLKTAKDAGFRNAFAVGFMPNQRISMGYYTIEVYSGDKLNGNSYILQNLKDVERNKDSGVFYYTYGKVYTLEDAVKLQKDVEAKGIKNTVIQKVYK	PGPT0024160_2868	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS003_01981	348			hypothetical protein	ATGAAAAACCAATTGAGAGAGGAAATAATTCAAAATGTATTAAAGACATTGAATCAGTTAAGTTTTCAGTATGAAAATACAGAAGATGAAATAGAGCATATGAAGAAAGGATTATATTTTGAAAAAAGAAAAATGTATGATAATAGAGAATGGGGAAGTTATGTAACGACAATATATCATAACGTATTTGATATACCTACACCATACTATTGTATTATAGATGCAGAAACATTACAGTTAAAAGGTCTTCAAACAGATCATGGAGTTTTTGAAATTATTTATGATAAACAAGGTAAGCCTGTAAAAATGAAATTCATAAGCCCTTCATTCCCTTATGATAAACAATAG	MKNQLREEIIQNVLKTLNQLSFQYENTEDEIEHMKKGLYFEKRKMYDNREWGSYVTTIYHNVFDIPTPYYCIIDAETLQLKGLQTDHGVFEIIYDKQGKPVKMKFISPSFPYDKQ				NA	NA	NA	NA	NA
BMS003_01982	357			hypothetical protein	ATGGAAGATAAAACTAAAGAAAAACTACTTATAGAGATTGCTTTAACAACCTTAAATCAATTGAAATTTAGTTATGATAAGAAAAAAGAAGAACTTGAATCTATGACTGCTTATTATAATGAAACAGAAAAAATGTTTGATGAAAAAGAATGGGCTTACTATAGTGTTTCTTTTTATACAGAATATAATGAAGTATTTGGAGAAGCAAAATTATGTACTTGTTACATAGATGCTGAAACAATGAAAGTAAAAGGGATTCAGGTTGACCATGGAGTATGGGAAATTATTTACAATGATAAAGGAGAAGCAAAGAGTAAAAAATTCATAAGTCCTTCATTTCCTTATGGTAAACAGTAG	MEDKTKEKLLIEIALTTLNQLKFSYDKKKEELESMTAYYNETEKMFDEKEWAYYSVSFYTEYNEVFGEAKLCTCYIDAETMKVKGIQVDHGVWEIIYNDKGEAKSKKFISPSFPYGKQ				NA	NA	NA	NA	NA
BMS003_01983	2145			hypothetical protein	ATGATACAAAGATTAAATTATGTCTTGAGTAGAAACCTTGACAGTCCTTATGGAAAAAACAGTGTGTTTTTTGAAACATTTGTTGTTCCTCCCGAAGATTTCGATAAAATCCCCGAAACTAAAGAAATAGATCGCATAAAATATACTTTCATACTATGTAAGAGTGGTGTTGAAGTGTTTGATAGATACGAAAAAGAGGGGGTAGAAGAGAAACAATTTAAAGTTTTCTATGAAGAAGATGACCCTAAAAAAAGTAACTTTTTTGGCACTGCCTGTCGGATAAAAATGGGAAAAGATGCCAAAAACTTCTTTAACAGAATTTATAGTAATAATCAAAATACCACATATGTAACTCCAACAGAATCAATAACAGTAAGTGGGTTTGACAACCTTGTTAGAGAACTTGCAGATGATACAAAGATAAACGAAACTCTTTTAAAGGGTGCAATCTATCTGGAAATTGCTGAACAAAGTAAACTTAATGAGGTCTATAAAAAGGTATTCTCATTAAACAATCAGTTGGCAGACTGGATGAGAGGAGGCATAGAAACCATTGAGAAATGGAAATTTACTGAGGAAAATTATGATTACATCAAGTATTATGTAAACCCGATGTACAGCACCTATCAAAACAAAATAGGAGCTAGTGGTTTCTTAAAACAGGAAGTGAAATATAAGCCGATTATTCCTGTTTCCATTGCTGCCCAAGAATATAAAACCATGCAAAACGCTTCTGAAATTGCAGCAGCAGGATTTAGCAGATTTAAAGAGTTTACCAACTATTTTGAAGAGGTTTCTTTGGCAATAGTCACAACCGTAGTAAAGGTAACACCTACTATTACGGATGATATTTTCTTAGCTGTTGTTTTCTATTTAAAAAATTTCATTGAAGATAATATCCCTGAAAGTATAAAAAACGTCTATAACAAGCTCAAAGTTTTTTTTAATGAAATATTGGAGGTTTTTTCAGGTATTGGTGCTGTTATCATGGAGAAAGTCGATCGAGAAGTTGCAAAAATTAACGCTTTTTTATGTGGTCTGCTCAACGGTTTAATTTCTTTGGCTCAAACCGTTATTATGCTGTTAGCAATGGTTACGGATAAAATTCCTTTTTTGGAGATGGAAAAAATGAGTCCGTTAGAGTTGGCAAAACATCAAGAGAAATTAGAATTTATAGAAGATTTTGTAGATTTATTTGCAAAAAACTCTAAAGAATTTTTTGAGGGTATTAAAAATCTCTTTAGTGACGGAAAGATATGGAAAGAAATTTCTCAGTTCTTTGATATGCTGAAAAAGAAGTTCATCCAAATAAAAGACCTGAATGAGTATTTTTGGGCATACTTCATTGGTGCTGTTGCTTTTGAACTTATCTTAGATGCTATTATTGCATATTTTACAGGAGGTAGTTCTTTAGTAGCACAAACTTCTGCGAAGATCAGCAGAATAACTGCCAAAGTAGATCAGGCAGGAGCAAAGGCTCTTAATTTTGGAAAAGGTTTAGGAAAGAAAGTTGCTAATTCGGCAAAAGACCTTTATAAATGGTTAGAAAGAGAATTTTTGGAATTGGTAGAAGCGATAAAGAATGGAAGATTAGCAAATTACTTAAAGACAAAATTTAATCAATTATTAGGCAGAGAAGAAGAGGTCTTTGACGAATTGTTAGATGAGTTAGGATGGGAAGGAAAAGAAGCAAGTAAGCGTGGGAAATTCTTGGGCAGAGAATACATGAACAACAGGCAGATGAAAGCCCTTGAAAAATACATTGCAGAAATTTTGGGAGATGTAGGAGTAGTTATGCGAAAAGGAGAAGATAAGTTTTTAGATGCCAGTGGAGCTCAAGCAGGTTTCTCTCCAATGAGCAGAGAGTTATTTTTTAGAAGAAGATTTACTTTTTATGAGGCTTTTCACGAAATACAACATGCTTTGGAATTTAAACTTTTGGGAAAAGAAGCCTATTTGGAGGGAGCTACTGGAACAAGAATAGAGCAGCGCATAAGAACTTATAAACGAGAAAAATATGTGTATAATAAAATAATGGAAAAGAAGCATTTGTTTAATGAGTTGGAATTAAAAGATGCTGATAGAGTTTTAAATATAGCTATTAAAAGACTTGAGGAACTTGGTATTAACGTTGAAAATTTATAA	MIQRLNYVLSRNLDSPYGKNSVFFETFVVPPEDFDKIPETKEIDRIKYTFILCKSGVEVFDRYEKEGVEEKQFKVFYEEDDPKKSNFFGTACRIKMGKDAKNFFNRIYSNNQNTTYVTPTESITVSGFDNLVRELADDTKINETLLKGAIYLEIAEQSKLNEVYKKVFSLNNQLADWMRGGIETIEKWKFTEENYDYIKYYVNPMYSTYQNKIGASGFLKQEVKYKPIIPVSIAAQEYKTMQNASEIAAAGFSRFKEFTNYFEEVSLAIVTTVVKVTPTITDDIFLAVVFYLKNFIEDNIPESIKNVYNKLKVFFNEILEVFSGIGAVIMEKVDREVAKINAFLCGLLNGLISLAQTVIMLLAMVTDKIPFLEMEKMSPLELAKHQEKLEFIEDFVDLFAKNSKEFFEGIKNLFSDGKIWKEISQFFDMLKKKFIQIKDLNEYFWAYFIGAVAFELILDAIIAYFTGGSSLVAQTSAKISRITAKVDQAGAKALNFGKGLGKKVANSAKDLYKWLEREFLELVEAIKNGRLANYLKTKFNQLLGREEEVFDELLDELGWEGKEASKRGKFLGREYMNNRQMKALEKYIAEILGDVGVVMRKGEDKFLDASGAQAGFSPMSRELFFRRRFTFYEAFHEIQHALEFKLLGKEAYLEGATGTRIEQRIRTYKREKYVYNKIMEKKHLFNELELKDADRVLNIAIKRLEELGINVENL				NA	NA	NA	NA	NA
BMS003_01984	321			hypothetical protein	ATGCCGGATTTAAAAATACAGGAAGCGAAACTTCTTTTTAAGAAAATCCACTCTAACCCAAAAAGTTATGATTTAAAAATCAATGAAGACGGGATTACAGGCAAAGATGATAAAATCAGTTTCAGGCTTTACAGGACTGGAGAAAGGGTTGCCTTTGAAGTAACAATTGACGAACTTACTTTCACCAATACAACTGGGGAATGGAACAACGCACTGATCATGCTGGGAAATACGATCAAGAAAATAGAAAAAGAACAGGAAAATTTAAAAATAGAACAGGCAATAGATAAGCTTAGAAAGTACCTTTCAGAAGAAAATTAA	MPDLKIQEAKLLFKKIHSNPKSYDLKINEDGITGKDDKISFRLYRTGERVAFEVTIDELTFTNTTGEWNNALIMLGNTIKKIEKEQENLKIEQAIDKLRKYLSEEN				NA	NA	NA	NA	NA
BMS003_01985	276	rpsT	COG0268	30S ribosomal protein S20	TTGCACTCACATTTAAACGATATGGCAAATCATAAATCAGCACTAAAGAGAATCAGACAAAACGAAACTAGAAGACTTCGTAACAGATATTACCACAAGACTGCTAGAACAGCTTTAAAAGCTTTAAGAAATGAAGAGAACAAAGCTGCTGCTACAGAACAACTGCCAAAAGTTATCGCTTTATTGGATAAATTAGCTAAGAAAAATATTATCCACAAGAACAAAGCTGCTAACTTGAAAAGCAAATTGACAAAGCACGTTAATAAATTAGCGTAA	MHSHLNDMANHKSALKRIRQNETRRLRNRYYHKTARTALKALRNEENKAAATEQLPKVIALLDKLAKKNIIHKNKAANLKSKLTKHVNKLA				NA	NA	NA	NA	NA
BMS003_01989	774			hypothetical protein	ATGAAAATTAATTTATTTTTGGGAAAACATTTCTCTTTTAAAGCCGGACTAATGGCTTTATTTCTATTTTCTGCAAGCTCTTTATCTTTCGCTCAGAACAGAATTTATGCACACGCTCAAAGTTCCGGTGTATTCGGAGTAGCATGCCTGGGATGCCGTGTAGACAATCCGTTGAATGCTGTAGGATTTAACGAGGACGATTATTCAACAATGGTCTTGGGAACGGCTTTATTAGGAGGAATTCAGCAAACCCTGATCTTTCCGGATCTGAGATCAGACACAAGACTTGTTGTAGGAATAGGAACAGATAATATTCCTTTATCTGTACAGTTATTAAGCGGTGTAACGCTTGAAACCATGAACGGAGGAACTTCTAATGACGACCGAAGAACAATAGATGTAAGTCTTCTTAAACTCGGAGCAACCCCTAACAGAGGAACCGTGGAATTCAAGCCTGCAAAACCTTATGATGGAATAAGAATCGGTTTAACCGGAGGTGTATTAAGTCTTGGCGGCGGATTCAGAATCTATTACGCTTATCAGGATCCATTGGCTAATATTATAGCGCACAGTCAGAATAGCCAGGTTACTCTTGGCGGAAATGTTCCTGTAGAAGGTTCGGAGATCACCCTATATAATACTTCAGGAAAAGAAGTGTTCCGTTCTACAGTAAAATCGAATACATTTGAATCTAAACAGCCGGAAGGAGTTTATATAATGAATATACAAACGAAAGAAGGAAAAACTTACTCTAAAAAGATTATCATAAAATAA	MKINLFLGKHFSFKAGLMALFLFSASSLSFAQNRIYAHAQSSGVFGVACLGCRVDNPLNAVGFNEDDYSTMVLGTALLGGIQQTLIFPDLRSDTRLVVGIGTDNIPLSVQLLSGVTLETMNGGTSNDDRRTIDVSLLKLGATPNRGTVEFKPAKPYDGIRIGLTGGVLSLGGGFRIYYAYQDPLANIIAHSQNSQVTLGGNVPVEGSEITLYNTSGKEVFRSTVKSNTFESKQPEGVYIMNIQTKEGKTYSKKIIIK				NA	NA	NA	NA	NA
BMS003_01990	792			hypothetical protein	ATGAAAACTTATTTATTACTTAGCCAACGCACTATAAAAGTGGCATTTTTGGCATCATTCCTATTTTTAACAAGCGCAATGTCTTCAGCACAGATTGTAAAAACCTATGCAAGCAGCCAGACCAATCAGGTCCTTGGAGTTTGCTTAGGCTGTGGTGTATTGAACCCTCAAAATGCTGTAGGGAGCAACGAAAATGACTACTCTACTTTACAGGTTTCAGTGGGTCTTCTTGCAAGAACGGAACAGACATTAATTTTCCCTACTACCAATATTGCGAACAATACCAATAAACTTGTTCTTGCTATTGGCTCAAACGGAACTCCTTTATCTGCTCAGGTACTAGGCGGAGTATCTATTGAAACATTTAACGGCGATGTTTCCAATAACGATTACACAAGTCTTGCCACAAAATTGATCAACCTTGGAGCCGGGGATCCAAGCAAAGGTGAAATTGAGATGACCATGAACATTCCTTTCGACCGAATCAAAATTAATGTGAACTCAGGATTACTGAATATTGGCGGAGAGCTGAGAGTATACTATGCTTATCAGTACAAAGATCCGTTCATTAATTTCATGGCTCACAACAGCCAGGATGGACTGTTTACTCTTGATAAAAATATTTCAGCAGAAGGTTCAGTGGTTACTTTAACCAATACTTCCGGAAAAGAGGTATTCCGTTCTAAGCTTACATCTAATACTTTTAATACAAAACAGCCACAAGGAGTATATATTATGAAACTTCAGACAAAAGAAGGTAAAACATACTCTAAGAAAGTGATCATCAAATAA	MKTYLLLSQRTIKVAFLASFLFLTSAMSSAQIVKTYASSQTNQVLGVCLGCGVLNPQNAVGSNENDYSTLQVSVGLLARTEQTLIFPTTNIANNTNKLVLAIGSNGTPLSAQVLGGVSIETFNGDVSNNDYTSLATKLINLGAGDPSKGEIEMTMNIPFDRIKINVNSGLLNIGGELRVYYAYQYKDPFINFMAHNSQDGLFTLDKNISAEGSVVTLTNTSGKEVFRSKLTSNTFNTKQPQGVYIMKLQTKEGKTYSKKVIIK				NA	NA	NA	NA	NA
BMS003_01991	2259			hypothetical protein	ATGAAAAAGTTTTATCTTTTTATGATGCTTTTTCTGTTGGCATGTTTATCAAATGCACAGATAAAAGTTCAGGGTGTACCCAGAAATGATATTTCAGGGATCAGCAATCTTAATACCACTACAATCAGTTTTTCTGATATTCAGTATTGGGTAGGATCAGGAGCCAATCAGGCAGCTTTTGTAGTACAGTGGAATGACAGCAAAAACCCGGATGCGATGGTTTGGGGATTCAAATGGGACGGAAACGCTACAGGAGAAGACATGCTGAAAGCTATTGCTAAAGCAGATCACAGACTCTACACTTTGCTATATCAGGGAACACAGTTTGGATCAGCAGTTGGAGGAATCGGATTTGACCTTAACGGACAAAATACTAACGCACTGATCAAAAACGGAAATGCCACTTATCCATTATATCCGGTAAATGGTTTTGTCAATACAACAGCTTATGATTTTGACAGCTATACCATTGTAAATGCTGCTAATGATCACTGGCAATCCGGCTGGACTGTGAACGGATATTGGTCGTATTGGGTAAAAAACCCGGCAGATGCTGATTTCGGATATTCTAGTGTTGGAGCTTCTTCACGTGTATTAGAAAACGGTTCATGGGATGTTTGGAACTTTAATGTAGGATTTAGTCAAACTCCTGTTTCTTCTACTATCACTCCTGTTTCTCCATATGTAGCTTCCAATAACTTTACCAACGGATATTTCATGGTAAACGAAGAGTGGTTTGGTCATACTAACGGTTCTGTGAACTTCATTGACAATAATGGTCAGATCAATTACCGTGTGTACAGTAACGTAAACAACAATCATGCTTTTGGAGCTACTACACAATACGGAACAATCTATGGAGATAAATTCTATTTTGTATCAAAACAGGCTGCTGACGGAGGAGATACTCAGTATACTCCAGGAGGAAGACTTGTGGTAGCCAATGCTCAGACGATGCAGAAAATTGCAGGATTCAATAACATCGGAGGAGGGGATGGAAGGTCTTTTGTAGGGGTGAACGAGCATAAAGGATATATTGGTACTTCTACAGGAATCGTTCTTTTCAATATTGACAATTTACAGGTAGGCGCTCTGATTGCCGGTACAGGCGGAACCGGGCAGATCGGAAACATGATCCGTACTTCACAATATGTGTTTGCTGTGAAACAAGGTGCTGGAATTTTAGTCATTGATCCTAATACAGACACGGTAGTGAGTACCATTGCAGGAGGTTTCTATTCTGTTGCTCAGGCTAAAGACGGGAGTGTATGGGGGATTCAGGACCAAAAGCTGATCAGCATCAATCCGATCACTTTTACAACACAGGTGTATAATATTCCTACAACGAAGTATATCGGAGACTGGGGAGCATGGAATGCCGGTAAATTTTCAGCAAGTAATAAAGAAAATGCTTTATACTGGATCAATTCAATCAGCAGCTGGAGCTCAGGAACACAGATCGTAAGATTTGATGTTACTACGAAAACATTTAATGAGAATTTTGCTGCTATTCCTGGACAGACAGGGCAGTTTAAACAGATTCCTTATGGTGCAGCTCTTCGTGTAAATCCTATTACCGGAGAATTGGTACTGAATACGACAGAAAGCGGATACGGAGCTCATTATCAGAAAAACTGGATTCATACTTATGATATGACAGGAGCGCTTATCAATACAAAAACACTGGATGATTATTATTGGTTTCCTTCACTGACGGTATTTACCAATAATTCAGTTCCGGTAGTAAGCAATACTTTACCTTCTCAGGTAACAGCCGGAAATACTACATCGATTGATCTGAAGTCAATAGTTGCTGATGCTGATAATATGTCTGTATCGGTAGTGAAATCTATAAAATCAAACAGCAATCCTACGGTAATTTCTGCTTCTATTAATAATAACGACGAATTGGTTCTCACACCGCTTAATTCAGGGACTTCTGAAATAGTGATCGGGTTTAATTCAAATGGTAAACTGATAGAAAAAACAATTACTGTAAACGGTACAGCTTCCACTTTAGCTACTGCTGAGGTGAAAAAGCTGGAGTTCGGTATCTATCCTAATCCTGTTACTGATATCCTTACTATTAAAACACAGGAGAAAATCCGGAATATTGCTGTTTATGATGCTTCAGGAAAGGTTGTTAATGTACAGCTGAATAACGGACAGATCAATGTAAGTGCACTTCCAAAAGGTATTTATATTTTGAAAGCTGCTACTGATAAAGCTGTATATCAGCAAAAACTTATCAAAAACTAA	MKKFYLFMMLFLLACLSNAQIKVQGVPRNDISGISNLNTTTISFSDIQYWVGSGANQAAFVVQWNDSKNPDAMVWGFKWDGNATGEDMLKAIAKADHRLYTLLYQGTQFGSAVGGIGFDLNGQNTNALIKNGNATYPLYPVNGFVNTTAYDFDSYTIVNAANDHWQSGWTVNGYWSYWVKNPADADFGYSSVGASSRVLENGSWDVWNFNVGFSQTPVSSTITPVSPYVASNNFTNGYFMVNEEWFGHTNGSVNFIDNNGQINYRVYSNVNNNHAFGATTQYGTIYGDKFYFVSKQAADGGDTQYTPGGRLVVANAQTMQKIAGFNNIGGGDGRSFVGVNEHKGYIGTSTGIVLFNIDNLQVGALIAGTGGTGQIGNMIRTSQYVFAVKQGAGILVIDPNTDTVVSTIAGGFYSVAQAKDGSVWGIQDQKLISINPITFTTQVYNIPTTKYIGDWGAWNAGKFSASNKENALYWINSISSWSSGTQIVRFDVTTKTFNENFAAIPGQTGQFKQIPYGAALRVNPITGELVLNTTESGYGAHYQKNWIHTYDMTGALINTKTLDDYYWFPSLTVFTNNSVPVVSNTLPSQVTAGNTTSIDLKSIVADADNMSVSVVKSIKSNSNPTVISASINNNDELVLTPLNSGTSEIVIGFNSNGKLIEKTITVNGTASTLATAEVKKLEFGIYPNPVTDILTIKTQEKIRNIAVYDASGKVVNVQLNNGQINVSALPKGIYILKAATDKAVYQQKLIKN				NA	NA	NA	NA	NA
BMS003_01992	1194			hypothetical protein	ATGAATAAAAATACCTTTACTTATTTAAAAATCGGAGTTTTATCCCTTTTGCTTGTAGGAGTGATAGCCTGTAAACATGATGACGAAGATGAATTTACATTTAATGGCCTTGATGATTCCTATACCATTGAACGTTTGAGAGTATTGAATATTCCTACCAATGCATTAGGATCGGTTGTGTGGAGTATTAATGATTCCATTATTTCTGAAAATTCAGAACTTGAATTTATCAGCCCGACTGCCGATGCTTATCCTTTGACTTTAAAGATTAATAATAAAGGGAACGAACAGGTTTTTCATTCCAAAATAATCGTTACCAAAGAAAAAACACCTTATAGTAAGTACATTTCCAAAGTATTGGAGTTCCGTCCTGCTGTAGGGCAGTTCATGAACGAGATTCCGGAATATGTACCGGGAAATACCGCTGCCAGCATGCTTCAGAAAGCCAATGAATCATTAGTGGGAGGCAATTCTACTATGATCAGCCTTGGAGGATATGGTGGCTATGTAGTTTTCGGTTTTGATCATACCATTCCCAATCTGAATGGGCGTGATTTTAAAGTACTGGGAAATGCATTCTTTGGAAATGATGCGGCAGATGAACGTTCAGGATCTTGTGAACCGGGAATTATTATGGTAGCCTACGACCGGAATAAAAACGGAAAACCCGATAATGATGAATGGTACGAAATAGCAGGAAGTGAATACTTCAAAAATACCACAGTAAAAGATTACAGCATCACCTATCATAAACCTAACGAAAATAAAACACCTGTACCCGGAACCGAATTCTGGCAGACCGATGTAGAATATATCAAATGGAATGACAATCTGGGAAATCAGGGATTTAAAACAAAAAATACTTTCCACGCACAAAGCTATTATCCTTTATGGTTTACAGATCCTTCTTACAGCTTTTCAGGAACCAGACTGGCCAATAATTTCTTCGACCAGAACGGAGACGGATCCTATTGGGTAGGAAAATCATACGAGTTCGGGTATGCAGATAATGCTCCGAATACGGATGAAGCCTCCAATATTGATATTTCCTGGGCGGTAGACAGAAACGGAAAATATGTAAAACTTCCGGGAGTCGATTTTATGAAAATATATACGGGAGTCAATCAGGAAGCCGGCTGGCTTGGTGAAGTTTCTACAGAAGTGGCGGGAGCCTACGATTTACATTTCAAATAA	MNKNTFTYLKIGVLSLLLVGVIACKHDDEDEFTFNGLDDSYTIERLRVLNIPTNALGSVVWSINDSIISENSELEFISPTADAYPLTLKINNKGNEQVFHSKIIVTKEKTPYSKYISKVLEFRPAVGQFMNEIPEYVPGNTAASMLQKANESLVGGNSTMISLGGYGGYVVFGFDHTIPNLNGRDFKVLGNAFFGNDAADERSGSCEPGIIMVAYDRNKNGKPDNDEWYEIAGSEYFKNTTVKDYSITYHKPNENKTPVPGTEFWQTDVEYIKWNDNLGNQGFKTKNTFHAQSYYPLWFTDPSYSFSGTRLANNFFDQNGDGSYWVGKSYEFGYADNAPNTDEASNIDISWAVDRNGKYVKLPGVDFMKIYTGVNQEAGWLGEVSTEVAGAYDLHFK				NA	NA	NA	NA	NA
BMS003_01993	1134			hypothetical protein	ATGAGAAAACTAAACTTTTATTTTTTATTTCTGGTCTTAGCTTTTCTTACATCTTGCCGTACAGATGAAATTATTGTCCGTCAGGAAGTGGTAGAAGGACTTCCTTCAGAAAATACGGCAATAAAAGGCTTTTATATGCTCAATGAAGGAAACATGGGAAGTAATAAATGTACCCTTGATTTTTTTGATTATACCAAAGGAACTTATTACCGGAATATTTACGCAGAAATCAACCCCAATGTCGTAAAAGAGTTGGGAGATGTAGGAAATGATATAAAGGTCTACGGAAGCAAACTCTATATCGTTGTGAATGTTTCCAATAAAATTGAAGTGCTGGATGCTAAAACAGCTAAACGTATTACATCTATTCCTCTGCAAAACTGCAGGTATCTTGCCTTCAAAGATGGGAAAGTGTATGCCAGCAGTTATGCCGGGCCTGTAGCCATTAATCCCAAAGCACCAAAAGGAAAAGTCGTGGAAATTGATACCACTTCTCTTTCCATCCAGCGTGAAGTAGTGGTAGGATATCAGCCGGAAGAAATGGAAATTGTGGGTAATCAATTGTTTGTTGCCAACTCCGGAGGATACAAAGCTCCTGATTATGACAATACTGTTTCGGTAATCGATCTTAATACTTTTACAGAACTTAAAAAAATAAATGTTGCCATCAATCTTCACCACATTAAAAAAGATAATTACGGTGATCTCTATGTAACCTCAAGAGGAGATTACTATAATGTTCCTTCCAGTCTTTATTTAATAGATGCAGCTACAGGAACGGTCAAGAAAGATTTTCATCTCTCCGTCAGTGAAATGACAATTGTGAATGATAAACTCTATTTCTATGGTAATGAATTCAATTACAATACCCACAGTTACAAAAAAACATTTGGAATCATTGATGTAAAAACAGAACAGATCATCGCCAACAGAATTTTCGATAAAGAATATGAAGATGCAATTAAAACACCCTACGGAATTGCCGTAAACCCCATCACAGAAGATATCTACATGACAGATGCCAGAAATTATGTATCCATGGGATTTGTGTATTGCTTTGATAAAAACGGACAATTTAAATGGAAAACGGAAGGCGGAAATATCCCTGCCCACTTCGCTTTTTTATACAAATAA	MRKLNFYFLFLVLAFLTSCRTDEIIVRQEVVEGLPSENTAIKGFYMLNEGNMGSNKCTLDFFDYTKGTYYRNIYAEINPNVVKELGDVGNDIKVYGSKLYIVVNVSNKIEVLDAKTAKRITSIPLQNCRYLAFKDGKVYASSYAGPVAINPKAPKGKVVEIDTTSLSIQREVVVGYQPEEMEIVGNQLFVANSGGYKAPDYDNTVSVIDLNTFTELKKINVAINLHHIKKDNYGDLYVTSRGDYYNVPSSLYLIDAATGTVKKDFHLSVSEMTIVNDKLYFYGNEFNYNTHSYKKTFGIIDVKTEQIIANRIFDKEYEDAIKTPYGIAVNPITEDIYMTDARNYVSMGFVYCFDKNGQFKWKTEGGNIPAHFAFLYK				NA	NA	NA	NA	NA
BMS003_01994	2034	btuB_7		Vitamin B12 transporter BtuB	ATGGCGGCAAAACTAACTACTTCTGCAATTCAAAAAGCTGTTTTCACAATACTGGTGATCACATCTCAACTTTTGTCTTCCCAAACCAGGAAAAAAGACAGTCTTCAGGAAGAGACCATTAAAGGAATTAATCTTTATAAAAAGAATTTTAAAGAAATTCTTCCTGCACAAACCCTGCAGGGCGAGCAGCTGGAAAGACTGAACAGTCATTCCGTTGCAGATGCTTTACGATATTTTTCCGGTGTTCAGATCAAAGACTATGGAGGATTGGGTGGTTTGAAAACCATTAATATCCGTAGTATGGGAAGCCAGCATGTAGGTGTTTTCTATGATGGAATTCAATTGGGAAATGCCCAAAACGGACTGGTAGACTTGGGAAGATATTCTTTGGACGATCTGGAAGAAATATCATTGTATAACGGACAGAAAAGTGAGATTTTTCAACCGGCAAAGGACTTCGGATCTTCAGGATCTATCTATTTGCAGCCTAAAACACCTGTATTTAAAGGAAACAGAAAAACCAATCTGGTTATAAGAGCAAAAAGTGCTTCCATTGATCTTTTCAATCCTTCATTCCGATTGGAACAGAAGATTTCGGACCGGGTCTCTGCCAGCTTCAGTGGAGAATTTATGCAGAGTGACGGAATTTACAGATTTCGATACGCAAAGAAATATCCTGATGGTCAGCAGGCTTATGATACCATTGCAAAAAGACAGGATTCGGACATTAAAGCAAAACGTTTTGAAACGTCTCTCAACGGAATTTTAAATAACGGAAGCTGGAATATCCGTGGCTACGGTTATATTTCAAACCGCGGAATGCCGGCGCCTATTGTTAACGGACGTTTCGAAGGAAGAGGAGCGAGGCTTTCCGATGAGAATTATTTTGTACAGGCTAATCTGAGAAAAAAACTGTTCCCAAAATTTGAAACTCAGCTGAAAGCAAAATTCGCTTACGATTATACCCATTTTATGGATACGGTTCGTTCGCAGTCTATCATTTATACCGATAATACCTATATCCAGAGAGAGCTTTACCTTTCTTCATCCAATATTTATTCAATCACCCCTAATTGGGATGTCAGCCTGAGTGGAGATTTTCAGTACAATAATCTGGATGCCAATCTGGATAACTTTTCTTATCCTACCCGTTACACAACACTGGTAGCATTGGCAACAACGTACCAGTGGAACAGGTTCAAAATTCTTGGAAGCCTTTTAGGAACCTTTACCTTTGAGGAAGTAAGAAAAAACAAAAGACCGGGAGATACCAGAGAATGGACTCCTGCCGTTTTTATGAGCTATCAGCCGGAGATAATTCCGGAGCTTACTCTCAGAGCCTTCTATAAAAGAATTTTCAGGCTTCCTACCTTCAATGACTTGTATTATACCAATATCGGAAATACGTATCTGAAACCGGAATTCACCAATCAGTATGATGTAGGATTTACTTATCAGAAGAATTACAACAACCGTTTCTTTAAAACCTTTTATGCCAAAGTAGATGGTTACTATAACAAAGTACAGGATAAAATTGTAGCTGCCCCTAACGGAAGTATGTTCCGATGGCTGATGATGAATCTTGGAATGGTTGAAATCATTGGAGCAGATGTAAATGTACAGACTGAATTTCAGGTGGGAAAAGTAAATTTTAGACCATTGCTTTCTTATACTTACCAAAGCGCAAGAGATGTGAGTGATCCGGAAGATACTTTCTACCGCAATCAGATCCCTTACACACCGTGGCATAGCGGTTCTTTTAGTCTGATGGCAGATTATAAAGACTGGAGTTTCAATTACAGCGCAATGTACGTAGGGGAGAGGTATGATGTGAATCAGGATAATATTCAGTACAATTATGTACAGCCCTGGTATACCCATGATCTGTCAGTTCAGAAAAAATTCAACTGGGCCAATCATCAATTCAAAGTAAGCCTTGAGGCGAATAATATTTTCAATCAATACTATGATGTGGTTCTCAATTATCCGATGCCCGGAAGAAATTTTAAACTTATTCTAAACTTCACCTTATGA	MAAKLTTSAIQKAVFTILVITSQLLSSQTRKKDSLQEETIKGINLYKKNFKEILPAQTLQGEQLERLNSHSVADALRYFSGVQIKDYGGLGGLKTINIRSMGSQHVGVFYDGIQLGNAQNGLVDLGRYSLDDLEEISLYNGQKSEIFQPAKDFGSSGSIYLQPKTPVFKGNRKTNLVIRAKSASIDLFNPSFRLEQKISDRVSASFSGEFMQSDGIYRFRYAKKYPDGQQAYDTIAKRQDSDIKAKRFETSLNGILNNGSWNIRGYGYISNRGMPAPIVNGRFEGRGARLSDENYFVQANLRKKLFPKFETQLKAKFAYDYTHFMDTVRSQSIIYTDNTYIQRELYLSSSNIYSITPNWDVSLSGDFQYNNLDANLDNFSYPTRYTTLVALATTYQWNRFKILGSLLGTFTFEEVRKNKRPGDTREWTPAVFMSYQPEIIPELTLRAFYKRIFRLPTFNDLYYTNIGNTYLKPEFTNQYDVGFTYQKNYNNRFFKTFYAKVDGYYNKVQDKIVAAPNGSMFRWLMMNLGMVEIIGADVNVQTEFQVGKVNFRPLLSYTYQSARDVSDPEDTFYRNQIPYTPWHSGSFSLMADYKDWSFNYSAMYVGERYDVNQDNIQYNYVQPWYTHDLSVQKKFNWANHQFKVSLEANNIFNQYYDVVLNYPMPGRNFKLILNFTL	PGPT0003740_340	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS003_01996	948			hypothetical protein	ATGAAGAAGATTATAGTAATAGTAAATTTGATCCTGTTGAGTCAGTATCAGGCAAAAACCATTAGAGACAGTGCGTATATTGCTCCGGAAACCTTTAGCAGATTCGATTTTGATGATGATTGTGATGCCTGTGGTTGTGCAGCAGGAAACGGATCTTCCGGCTTTGAATCTCTGCTGAATCCACAGTTCGTCGGAATCAAATACTTTGCACAACATTATAAAGCCAAGGAAAACTTATTTGTAAAAGACCTTACGCAGGATCAGTACTTCAATACCCTCCAGCTTTGGGGAAAAATTCCATTGACTAAAAAACTGAGTGTTTACGCAAGCCTTCCCTTCCATTTCCATGAAAAGAAAACCATGCAGGGAGATATTAAAATCAATGGAATAGGGGACTTGAATCTTATGGGAATTTACCAGCTGATGAGTTCTAAAGATAATTTTCATCACCTGAGTGGAGGTTTAGGCGTGAAAATTCCACTTGGAAAGTTTGATGAAAAAGGAGCATCCGGCGTTAACCCTAGTTTTCAGCTGGGAACCGGAAGCTGGGATTATCAGGCAGCTTTGAATTATAAATTTCAGAAAAATAAAGTCGCAGTTTTGGTTAATACAGATTATACGATCAAAACAGAGAATAAGAAAAACTACCGTTTTGGAAACCAGTGGAACTATGCTGCAACAGGTTTTTATCAGATTGCAGGAAATGAAAAATCTATTTTTTCTGTAAAAACGGGAGTTCAGGGTGAAGTCTACGCTCAGAACAAACAGTTTGATGAAGCCCTTCCCAATACGGCTGGAAGTGCTTTGTACGGAAAACTGGGATTTGAAGCTTCTTATAAAAAACTCAGTTTGGGAAGTGAGATCATGCTTCCTATGTACACGCATCTGGCAGGAGGAGATATTGAGGCTAAATCAAGATTCAGTGTTTTCCTGAATATTGGGATTTAA	MKKIIVIVNLILLSQYQAKTIRDSAYIAPETFSRFDFDDDCDACGCAAGNGSSGFESLLNPQFVGIKYFAQHYKAKENLFVKDLTQDQYFNTLQLWGKIPLTKKLSVYASLPFHFHEKKTMQGDIKINGIGDLNLMGIYQLMSSKDNFHHLSGGLGVKIPLGKFDEKGASGVNPSFQLGTGSWDYQAALNYKFQKNKVAVLVNTDYTIKTENKKNYRFGNQWNYAATGFYQIAGNEKSIFSVKTGVQGEVYAQNKQFDEALPNTAGSALYGKLGFEASYKKLSLGSEIMLPMYTHLAGGDIEAKSRFSVFLNIGI				NA	NA	NA	NA	NA
BMS003_01997	1083			hypothetical protein	ATGTGCATAATGACTAATATATTCACAATATCCAATAGAGGGCATTTCCGCTCTCTTTGGATTTTTATAATTCTGACCAGTATTTTGATTTCTTGTTCTGATGAATATGAAGGTATTCCCATAGATAAAGACGAAGTATACAGCCTGCAAAGCCCTTTAGGATTTCCTGAAATGACTTTTGATATTACCGGGAATCCTGTTACCGTTAATGGTGTAGCTCTTGGGAAAAAACTTTTTTATGAAGGAAGATTATCCAGGAATAATACCATTTCATGCGGATTCTGCCATATTCAGGAATATGCTTTCACTCACCATGGGCATAACGTGAGCCACGGAATTGATGACAGGTTAGGAATCCGAAACGCACCTCCTATTCAGAATATGGCTTTTCTTAAAAACTATACATGGGATGGGGTAAGCCATAACCTGGATGAAAGATCATTAGTTCCTATTACCACAGATTTTGAGATGGATAGTTCTCTTCCTGAAGCTGTTGGGAAGCTTAATAGTGATGCAAAATATAAAAAAATGTTTAAAGCCGCATTTGGCGATGAGAATATTACAGGAGAACGTATTCTCAAGGCTATATCTCAGTTTATGGCAACAATGATCTCGGCGGATTCAAAATATGATCAGATGAAAAAGGGTACTGTATCATTTACTGATGAAGAAACACAGGGAATGGTTTTGTTCGGGCAGAAATGTGCATCCTGTCACAGTGGTGAACTTTTTACTGATGAAAGCTATCGTAATACAGGAATGTATTATAATGCCCAGTTTGATGACAGAGGAAGATACAGAGTTACCTTAGATTGGAATGACAATATGAAATTCAGGGTTCCCAGCTTAAGAAACGTTGAATATACAGCCCCTTATATGCATGATGGACGGTTTTATACACTGGAAGCAGTCATGAATTTTTACTCAGACAATGTTGAAAACCAGCCAAACCTTGATCCCCTTTTAAAACAGAATGGACATACTGGTATTCCTATGACGGGTCAGGAAAAACAGTATATTATCGCTTTTCTTAAAACACTTAGTGATAAAAGCTTTACCACCAATCCAAAATTTGCAGAATAA	MCIMTNIFTISNRGHFRSLWIFIILTSILISCSDEYEGIPIDKDEVYSLQSPLGFPEMTFDITGNPVTVNGVALGKKLFYEGRLSRNNTISCGFCHIQEYAFTHHGHNVSHGIDDRLGIRNAPPIQNMAFLKNYTWDGVSHNLDERSLVPITTDFEMDSSLPEAVGKLNSDAKYKKMFKAAFGDENITGERILKAISQFMATMISADSKYDQMKKGTVSFTDEETQGMVLFGQKCASCHSGELFTDESYRNTGMYYNAQFDDRGRYRVTLDWNDNMKFRVPSLRNVEYTAPYMHDGRFYTLEAVMNFYSDNVENQPNLDPLLKQNGHTGIPMTGQEKQYIIAFLKTLSDKSFTTNPKFAE				NA	NA	NA	NA	NA
BMS003_01998	831			hypothetical protein	ATGAAAATTTATAAATTTTTATCACTATTCTTTATTGCCTTTACTGTATTCTCTTTTGTAGCCTGCGAAAGCAGCCGGGATGACGATATTGCACAGGATACCACACCCGGAAAACTTCAGATCAAATTTGAGAACGGATTCAATAATCTTGGAGACATTGTACTGAACCAAACTACTCAGACCTCATCAGGCGGTCAAAAACATCAGTTTTCTACTCTTAAATATGTCATTAGTAATATCACACTTATTGATGAGAACGGAGGAGAGTTCAAATACCATTATAATGATCCGGATAAAGGAGCTTTCATTGTGGATCAGGCAGAAGCTGTTGCAGGGATTAACTATATTAATCTCACAGATATTCCCCAGAATAAATACAGGAAGATCAGAATTGGTTTAGGGATCAGCCAGACTGCTTATCTTATAGGACAGGATGGACAGGGAATTTTCTGGCAGAAGGCTAAAACAGCTGGCATGGCATGGTCCTGGGCTGCCGGATATATTTTTACCAAACTGGAAGGTAAATACGGCTCTTCCTCTGCAGATACCAACTTTATGAACCACTGTGGAAATATGGGGAATGTTACGGCCAACAGTACTCCAGATCTTTACCGTGAGATCACTCTGGATTTACCAGTTACGGCAAGAGTAACCAAAGATATAAGACCTTCTGTTCATATTCTGGCAGACCTTAATCAGTATTTAAGCGGGCAGACTGCTTTAACGCTGGATAGTGGTAATAATATGGCAATGGGATCCAGTCAGCATCTTGTGAATGTGACTGACAACATTACAAAAATGTTTAAAGTAGATCATGTGCATAATGACTAA	MKIYKFLSLFFIAFTVFSFVACESSRDDDIAQDTTPGKLQIKFENGFNNLGDIVLNQTTQTSSGGQKHQFSTLKYVISNITLIDENGGEFKYHYNDPDKGAFIVDQAEAVAGINYINLTDIPQNKYRKIRIGLGISQTAYLIGQDGQGIFWQKAKTAGMAWSWAAGYIFTKLEGKYGSSSADTNFMNHCGNMGNVTANSTPDLYREITLDLPVTARVTKDIRPSVHILADLNQYLSGQTALTLDSGNNMAMGSSQHLVNVTDNITKMFKVDHVHND				NA	NA	NA	NA	NA
BMS003_01999	369			hypothetical protein	ATGAAAATATTGTACAGCATACTTTTTACCTTCTATATGGTGCTAAGACCTTTAGTACCTATGGTAGAGTATGCTGTAAATTATGATTACATTGTAAAAGTTCTCTGTGTTAATAAAAGCAGACCGGAGATTCACTGTAACGGAAAATGTTACCTGAGTAAAGAACTGGCCAAAACCAATGATTCGGAATCTTCACCTTTTCAGAAACTCAAAAAATCAGGACAGAAAATCCTTGATACCTATATACTGCCTGAAACCACAGAGACCAATGCTACGGAAAAACAGCCGTTTTTCAATTTCAATTTTAGCTATGAAACAGCCTATTCTTTTCTGTTTCTTACCTATATTTTCAAACCACCGGTTTTTTAA	MKILYSILFTFYMVLRPLVPMVEYAVNYDYIVKVLCVNKSRPEIHCNGKCYLSKELAKTNDSESSPFQKLKKSGQKILDTYILPETTETNATEKQPFFNFNFSYETAYSFLFLTYIFKPPVF				NA	NA	NA	NA	NA
BMS003_02000	675	sodA1_1		Superoxide dismutase [Mn] 1	ATGAAGATTTTGAAAATAGCTGCTTTAAGTGCAGTTTTCGCGGCTCAGTTTACGCTGGCACAGTTTAAGCAGACGCCTCTGCCATATGCTTATAATGCTTTGGAGGGAAATATTGATGCCCAAACAATGGAAATTCATTATTCAAAACATGCTGCGGCGTATGTAGCCAACCTGAATAAAGCTATTAAAGGAACTCCACAGGAAAAAGAAACCTTGTTTCACATTCTTTCCAATGTTTCAAAACTGTCTGCCGCAGTGAGAAATAATGCAGGAGGACATTACAACCATGAACTGTTCTGGACTGTTCTTACGCCTCAAAAAAATACACAGCCTTCAGCAAAATTAGCAAAAGCCATCACGGAAACTTTTGGGAGCATGGATGCTTTTAAAGAAAAAATGGCTAAAGCCGGAGCAGACCGTTTCGGATCGGGATGGGCATGGCTTTCTGTGGATAAAAACGGAAAACTATTCGTTTCTTCTACTCCTAATCAGGATAATCCTTTGATGGATGTAGTGGAAGAAAAAGGAACACCCATCTTCGGGATTGATGTCTGGGAACATGCATATTATTTAAAATATCAGAATAAAAGGGCAGATTATCTTACCGCTATCTGGAACGTTACGAACTGGAAAGAGATCAGCAGAAGATATGAAGAAGCTGTAAGCAGGAAATAA	MKILKIAALSAVFAAQFTLAQFKQTPLPYAYNALEGNIDAQTMEIHYSKHAAAYVANLNKAIKGTPQEKETLFHILSNVSKLSAAVRNNAGGHYNHELFWTVLTPQKNTQPSAKLAKAITETFGSMDAFKEKMAKAGADRFGSGWAWLSVDKNGKLFVSSTPNQDNPLMDVVEEKGTPIFGIDVWEHAYYLKYQNKRADYLTAIWNVTNWKEISRRYEEAVSRK	PGPT0004190_1496	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
BMS003_02001	678			hypothetical protein	ATGCCAAAAAATAAAAAATCGGATAATAAAAGTAAAGTGATCATACCTATCGCTTTATTTGCATTGCTTTTCCTTGGAATAGGTGTGGGAATGGGGTATTTTAAAAAGAACCTTTATACCGTGATGAAGGTTCCTGATTTTGAACTTACAGATCAGAACAGTAAAAAAATCACGAATAAGGATATGCTGGGAAAAGTATATCTCGTAGAGTTTTTCTTCAGCAAATGCCCTACCATATGTCCAGTGATGAATACTAATATGAAGGCTATTCAGAATCAGGTCAATGATCCGAACTTCGGCATTATCTCCATCAGTATAGATCCGGAAAATGATACGCCTGCAGCATTGAAAGAACATGCTCAAAGAATAGGTGCAAGCTCTCCGAACTGGCACTTTCTGACCGGAGACCGTACCTATATTGGCAATCTTGCTGATCAGTTTAATATCTACGTTGGTGATAGAGAAGATGAAGGAGAAAGCCTTAATCACAGCGGAATGATTGCGCTGGTAGATCAGAACGGAAATATCCGATGCAGATACAACAAAGAAAATATGCCTATTCTGTATTATTCAGGATTAAACTATGACGATCCGGAAGGGAAAAATCCAAGATTAAACGGGAAGTATCACCCGGACAGAGAAATTCTGATTGAAGATATTAAGAAATTATTGAAATAG	MPKNKKSDNKSKVIIPIALFALLFLGIGVGMGYFKKNLYTVMKVPDFELTDQNSKKITNKDMLGKVYLVEFFFSKCPTICPVMNTNMKAIQNQVNDPNFGIISISIDPENDTPAALKEHAQRIGASSPNWHFLTGDRTYIGNLADQFNIYVGDREDEGESLNHSGMIALVDQNGNIRCRYNKENMPILYYSGLNYDDPEGKNPRLNGKYHPDREILIEDIKKLLK				NA	NA	NA	NA	NA
BMS003_02002	276			hypothetical protein	ATGAAATTTCCTATTATTTTGACTGCCCTGATGTCAATAGTATTACTCTCGTGCGCAAAAGAAACACCTCAGGTAAAGCATGCAAGCCGTATGGACTCTTCCGGAAAGAATGTGGAAAATGTTCAGGTAGTGAATGAAGAAGACCCTATCTGCCACATGAAAACAGTGGGATCTGTTAAAGATACAGCCGTATATAAAAATAAAACGTATGGTTTTTGTAGCGTGTACTGCAAAGATGAATTCAAAAAAAGCCCTGAGAAATATGCCAAAAAATAA	MKFPIILTALMSIVLLSCAKETPQVKHASRMDSSGKNVENVQVVNEEDPICHMKTVGSVKDTAVYKNKTYGFCSVYCKDEFKKSPEKYAKK	PGPT0007280_2887	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS003_02003	552			hypothetical protein	ATGGAAGATATACAACTTAGTTCATCAAGCCAGGCCATAGATGTCCTGATCGTAATTGACACAGATTATGTACGAGCAAACTATAAAAATCCCAGTACAGATCCAAACAAGCCTGTAGGAATTGACCATAACAGCCAGCATATGATTGTTTCAAATGCCAATGCCATCTCAGGACAGGGTTCTGCTGACCTCAACTTCAGTGCAAGAGCCGGGGATGTAGTTTCTTTCAGAGGAACTTCAATCTATCAGAATTCAGATGATGCAGTTATTATTTATAATATTAAATACTGGTCCGGGGATCAGGTCTTTAATAATTTCGTATACAATTCTGTGAGAAGAAAGCAGGCTGCTGTACCGGATGTAAATTCCTTAAACGGCCTTCCTGCCACCTTTGCAGATATCACTTTTGCCAGTATAGACTCTAAAGTAAGAGCGACAGGAAAAGAGAACTTCTATGTACAGTTTGGACTTTATATTTTAGATCCGAATGACAGTAATAAACAAATTTTGTACGGTTACTTTTACTGGGATCCAACAATTACAGTTAAATAA	MEDIQLSSSSQAIDVLIVIDTDYVRANYKNPSTDPNKPVGIDHNSQHMIVSNANAISGQGSADLNFSARAGDVVSFRGTSIYQNSDDAVIIYNIKYWSGDQVFNNFVYNSVRRKQAAVPDVNSLNGLPATFADITFASIDSKVRATGKENFYVQFGLYILDPNDSNKQILYGYFYWDPTITVK	PGPT0012385_43	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,PGPT0012385-aidA-K20275	NA	NA
BMS003_02005	495			hypothetical protein	ATGATTGTAAATCTATTAATTAAGATGAAAAAACTTTTATATATATCAGGAATTTTAACATTTTTTGTGTTAATGAGTTTTATGTATGTAGACTTTTTCTCTTCAATGACCAAAGTGGATTATATTGATGGAAGCAAGACATTGAAGTTTACCACAAAAATGAATACCAGCCATATCTCTGACGCTATTAAAATCAACCCTAATACGGCAGGATTTGAGGCAGAGGTAAAAAAATACGTGAACAATAATTTTGATGTATTTGTCAATGGAGCTCCTAAAACGATAACCTTCACAGGAAGTCAGGTCAGCGGAGAAACTGTATGGGTATATTTTGAAACCGGAGGTATTTCGGAGATCAATACCTTAAAGATTAAAAATACAATTCTTCTAAGCACTTTTCCTAAGCAGATCAATCTGGTGAATATCGCCTATAAAGGCAGCCAGAAAACAATGAATTTCCAAAGAGGAAAAGAAGTAAACGAAGTTTCTTTTTAA	MIVNLLIKMKKLLYISGILTFFVLMSFMYVDFFSSMTKVDYIDGSKTLKFTTKMNTSHISDAIKINPNTAGFEAEVKKYVNNNFDVFVNGAPKTITFTGSQVSGETVWVYFETGGISEINTLKIKNTILLSTFPKQINLVNIAYKGSQKTMNFQRGKEVNEVSF				NA	NA	NA	NA	NA
BMS003_02006	753			hypothetical protein	ATGGAAATTGATGGAACTAGGGATGAAAGTTTAGTAAATCCGGAATTTGACATTAACGAAACAAAACTGCACAACAGTTTTAGACAAAAAACCTGGGACGAAACGATTACCAAAGACAGCTGGATGGTCTTCAAGGTCATGGCTGAATTTGTAGATGGCTATGAGAAACTGGCTAAAATAGGCCCATGTGTCTCTATATTTGGTTCTGCCCGGCTGAAACCGGAGAACAAATATTATGAAATGGCAGTAGATATTGCTGAAAAAATCACCAGGCTGGGCTTCGGAATTATTACCGGAGGTGGGCCCGGGATTATGGAAGCTGGAAATAAAGGAGCTTTCAATGCTAAAGGGAAATCTATCGGACTTAATATTGACCTTCCTTTTGAACAGCATTTTAACCCTTATATCAATAAATCCTATTCCATGAACTTTGATTACTTTTTTGTAAGAAAAGTAATGTTTGTAAAATATTCTCAGGGATTTGTTGTAATGCCCGGAGGTTTTGGTACATTGGATGAACTTACAGAAGCAATGACACTGATTCAGACCAATAAGATTGGGAAATTCCCCATTGTTTTGGTTGGCAGTGAATTCTGGAGTGGATTATTGGACTGGTTCAAAGCAACTTTGTTAAAAGAAGGCATGATTGCAGAAGATGATCTTGACCTTTATCGCGTGGTAGATACCGCTGATGAGGCTGTAGCACATATTAAAGCTTTTTATGATAAATATTCTGTGAATGTAAATTTTTAA	MEIDGTRDESLVNPEFDINETKLHNSFRQKTWDETITKDSWMVFKVMAEFVDGYEKLAKIGPCVSIFGSARLKPENKYYEMAVDIAEKITRLGFGIITGGGPGIMEAGNKGAFNAKGKSIGLNIDLPFEQHFNPYINKSYSMNFDYFFVRKVMFVKYSQGFVVMPGGFGTLDELTEAMTLIQTNKIGKFPIVLVGSEFWSGLLDWFKATLLKEGMIAEDDLDLYRVVDTADEAVAHIKAFYDKYSVNVNF				NA	NA	NA	NA	NA
BMS003_02007	714	murU	COG1208	N-acetylmuramate alpha-1-phosphate uridylyltransferase	ATGAAAGCTTTAATCTTCGCTGCAGGAAAAGGAACCAGACTTAAACCGTTTACAGATCATCATCCGAAAGCTTTAGCCAAAGTAAATGAAGTTCCGCTTCTGGAAAGAAATATCACTTACCTGAAAAGTTTCGGAATAACCGATTTTGTGATAAACATCCATCATTTTGGAGATCAGATTGTTGATTTTCTGAATAAAAACGATAATTTCGGATGCAGGATTGAAATTTCGGATGAAACCAATGAGCTTCTGGAAACAGGGGGCGGCTTGATTTTTGCAAGAAAATTCCTGGATCACGGAGAAGATTTTTTAATCATGAATGCTGATATCCTCACCAATCTGAACATCAATGCATTGGTAGAATACCACAAAAAGATAAAAGATTTTGCTACTTTAGCGGTTTCGGACAGAGAAAGTTCGAGAAAACTCCTTTTCAATGATGATATGGTTTTGAGAGGCTGGCTGAATGTACAAAGCGGTGAACAAAGGCTGGCTGAATTCAATAAAGGCTTTAAAGCCCTTGCTTTCAGTGGAATTCATTGTATCAATCCTGTCATCTTTGAAAAAATAAAAAGAACAGGCAAATTTTCTGTTATGGAAGAATATCTGGATTTGATGCAGACCGAGCACATTCACGGTTTTGTTCATGACAGTATTCTTATTGATGTCGGAAGACCCTCATCCGTAATGGAAGCCGAGAAACATTTTAAATAA	MKALIFAAGKGTRLKPFTDHHPKALAKVNEVPLLERNITYLKSFGITDFVINIHHFGDQIVDFLNKNDNFGCRIEISDETNELLETGGGLIFARKFLDHGEDFLIMNADILTNLNINALVEYHKKIKDFATLAVSDRESSRKLLFNDDMVLRGWLNVQSGEQRLAEFNKGFKALAFSGIHCINPVIFEKIKRTGKFSVMEEYLDLMQTEHIHGFVHDSILIDVGRPSSVMEAEKHFK	PGPT0019055_700	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
BMS003_02008	408	yvcJ	COG1660	Nucleotide-binding protein YvcJ	ATGCTACACATCGAGATACACAGTTTTTCTTACAAAAAAGGAGGAATTCCTAAGGACAATTCAGGAAACGGCGGAGGTTTCGCTTTTGACTGCCGCGGAATTTTAAACCCCGGAAGAATAGAAGAATATAAAATCCAGACCGGAAATGACTCCGGTGTTCAGGAATATCTGGAAACTAAAACGGAAATGCCAAAATTTTTAGAATTGGTAAAATCCCTTGTTTCTATCAATATTGACGACTATCTTGTGAGAGGTTTTGAGCACCTGCAGATCAATTTCGGATGTACTGGCGGGCAGCACAGATCTGTATATTCTGCTATCAAAATTGCAGAATTTATCAAAGAAAAATATCCTGAAGGAACTAAAGTAACTCTTCACCACGATGAGCAACCGCAACTGAATCAATAA	MLHIEIHSFSYKKGGIPKDNSGNGGGFAFDCRGILNPGRIEEYKIQTGNDSGVQEYLETKTEMPKFLELVKSLVSINIDDYLVRGFEHLQINFGCTGGQHRSVYSAIKIAEFIKEKYPEGTKVTLHHDEQPQLNQ	PGPT0019050_230	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
BMS003_02009	405			hypothetical protein	ATGACCAAAAAAGAAGTTACTCAACTGTCATATGAAATTACAGGCTTTGCTATTAAAGTCCATAAGGCACTTGGTCCTGGCCTGCTTGAAAGTGTATATGAAGAATGCTTAAAGATTGAACTTCTTAAAAATGGTTATGATGTTAAACAACAATTATATTTTCCCATCAATTATGAAGGAATAGAAATTGAGACAAAGCTTGTTGTAGATCTTCTCGTCAACGATATAATTATTATAGAGTTAAAAACCGTGGAAGAAGTTTTACCCATCCATGAAGCACAATTACTCACTTACATGAAAGTTCTTAAAAAGCCACAGGGACTTCTTATTAATTTTTTCTCTAACAATATTACAAAGTCAATGAAACCTTTTATTAATGAATTTTTCAAAGAGCTTCCTGACTAA	MTKKEVTQLSYEITGFAIKVHKALGPGLLESVYEECLKIELLKNGYDVKQQLYFPINYEGIEIETKLVVDLLVNDIIIIELKTVEEVLPIHEAQLLTYMKVLKKPQGLLINFFSNNITKSMKPFINEFFKELPD				NA	NA	NA	NA	NA
BMS003_02010	1026			hypothetical protein	ATGACTTCTGAAAACGCAAAACGATTTTTTGAAAACCATCTGGGTAAAAAATCTTCCGAATTCATCACATTAGCTCAAAGCGGCTCTGCTAGGGTCAATTTTCTGGTCACTTCCGGCACTGAAAAATACATTATCACTTATAATGAAAACATTCCGGAAAACGAGAGCTTTCTTTACTACTCCGAAATATTTTCAGGTCTGAATCTTAATACACCTTCCATTCTTGCTGTTTCTGAAGACAGAAAAATGTACGTCCAGGAGTTTTTAGGCCAGCATACACTCTCTGAGGTGATCACAAAGGAACAGCTGTCCTCCAATGTAAAAACCTTGGTGAAGCGGACACTGGAAAAACTTTTCCAGCTGCAGATACGGACACAGGGAAAAATAGACTTTTCAAAAACCTTTGAATACGAAAATTATGATGAGCTTCCTGTGATTCATGATCTTTATTATTTTAAAAACTTTGTGGCAGATTTTCTGGAGCTTGAATACAATAAATCTACCCTTCTGAAGGAATTCAAAAAGATTGCAGTACTCATTGAAAATCTTGAACCTAAAGGAATTATGATCCGTGATTTTCAGGCTAGAAATATCATGGTGAATGAAAAAAATGAAGTTTCTTTCATAGATTATCAGTCTGCTATGAAAGGGCCGTTAATGTACGATGTTATTTCTTTTCTTTTTCAGGCTAAAGCCAATTTCCCAGAAGATTTCAAACAGGAAATGCTGGAATTTTATATGCAGCTGTTCGAAGATTCTGAAACAAGAATTCAACTGAAAAATGCAGTGATGCCCATTCAGATGATGAGATTTTTACAGGTTTTAGGAGCATACGGATTCCGGGGACTGATCCAGAGAAAACAACATTTCATGGCCAGTCTGGAAAAAGGAATTCAGAATATAACACAGTTCGCCGATTCGTGGGAATACATAAATCATTATCCGGAACTGAAGAAAGTAATCAAGCAGCTGACATCAGAGAAAGCAAAGCAAAAAATTGAGGAAATAATAAGTTTAAACCATTAA	MTSENAKRFFENHLGKKSSEFITLAQSGSARVNFLVTSGTEKYIITYNENIPENESFLYYSEIFSGLNLNTPSILAVSEDRKMYVQEFLGQHTLSEVITKEQLSSNVKTLVKRTLEKLFQLQIRTQGKIDFSKTFEYENYDELPVIHDLYYFKNFVADFLELEYNKSTLLKEFKKIAVLIENLEPKGIMIRDFQARNIMVNEKNEVSFIDYQSAMKGPLMYDVISFLFQAKANFPEDFKQEMLEFYMQLFEDSETRIQLKNAVMPIQMMRFLQVLGAYGFRGLIQRKQHFMASLEKGIQNITQFADSWEYINHYPELKKVIKQLTSEKAKQKIEEIISLNH	PGPT0019050_822	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
BMS003_02011	531			hypothetical protein	ATGCTGAAAGACTTTAAACCTGTTTTAGGTATCCTATTGCGTTTTATCATTGTTTATCTGGTACTGCTTTTTGCTTACCAGCTTTACCTTAATAGTGGTAAAGACTCCGGTCTGGATTCTTTTTCAAGGATAATTGCAAATCAGGTGGCTTCTATACAGAACGTCCTGGGGTATCCTACGCAACTTTATGATGACGCAAAGAATGAGCAGGTTTGGTTTTATGTAAAGGATAGATATGAAACCAGAATGGTGGAAGGTTGCAATGCTATTTCTGTCATCATTCTGTTTGTGTCCTTTATTTTTGCATTTTATAAAGAAGCAAAGACTTTTGTTTTTGCGGGAGTAGGATTGGTTTTATTGTATATCATGAACCTCCTTAGAATTGTTGGACTGAATATTGTGATGTCTGATTATGAGCAGTATGGAAAAATATTTCACGATTTTATTTTCCCTGCTGTTATCTATGGAACGGTTGTTTTACTTTGGCTGGTTTGGATTAAATTTTTTGCTTTAAAACATGAAAATTCTTAA	MLKDFKPVLGILLRFIIVYLVLLFAYQLYLNSGKDSGLDSFSRIIANQVASIQNVLGYPTQLYDDAKNEQVWFYVKDRYETRMVEGCNAISVIILFVSFIFAFYKEAKTFVFAGVGLVLLYIMNLLRIVGLNIVMSDYEQYGKIFHDFIFPAVIYGTVVLLWLVWIKFFALKHENS				NA	NA	NA	NA	NA
BMS003_02012	447			hypothetical protein	ATGAAAATTCTTAATTGGCTTCTGGTGATAGCAGGAATCTGCGGATTAATAGGTGTGAGGGCTCTGGAAGATACCCTTTTTTATGATCCTTTCCTGAATTACTTTCATGAAGCAAATAAAAATATTGAATTCCCTGTATTTGAATGGGGAAAACTGATTGGCGGGCATCTGTTGAGGTTTCTTTTGAATCTTATATTTTCCTGCCTGATTATTTACGGCTTATTTAAGAACAGGCAATGGACATTTCAGGGTGCTGTAATGATTACAATTGTTTTTATCATTTCTCTAATCATTTATCTGTATTGTATTTCTGACAGATTCGAAATTGGTTACCTGTTTTCTTTTTATATGAGAAGGTTTGTCATTCAGCCTTTGATCATTATGCTGATTGTCCCGATGTTTTATTACAGGAAGCAAATGTCTGATAAAGAAAACGGAGGGAATTAA	MKILNWLLVIAGICGLIGVRALEDTLFYDPFLNYFHEANKNIEFPVFEWGKLIGGHLLRFLLNLIFSCLIIYGLFKNRQWTFQGAVMITIVFIISLIIYLYCISDRFEIGYLFSFYMRRFVIQPLIIMLIVPMFYYRKQMSDKENGGN				NA	NA	NA	NA	NA
BMS003_02013	999	mneP	COG0053	Manganese efflux system protein MneP	ATGAATACCCAGAAAAATACCCACAAAGAGAAAATAGGATTCCAAAAGCTTATTGCTACATTTGGTATCATCCTTTTCATTGGAAAGATTATTGCCTGGAAGCTCACTAATTCCGATGCCGTTTTTTCCGATGCCATGGAAAGTATCGTCAATGTTATCAGTGCATTCATGGGACTTTATTCCCTTCATCTTGCCGCCAAACCTAAAGATGAAGACCACCCTTACGGCCACGGTAAAGTAGAATTCGTAACCTCCGGTATTGAAGGAGCTCTTATTGCGATTGCCGGAGTTATGATCATCTATGAAGGAGTTCATAGCCTTATCGTAGGAAAAACACTGAGTAAAATTGATCTCGGAATATGGATCATTGCAGCCACGGCGGTAGTAAATTATCTCCTTGGGTATATTTCTATCAAAAAGGGTAAAAGGGAGAATTCCCTGGTTCTTATTTCATCCGGTAAACATCTTCAGTCGGATACCATTACAACGCTTGGGGTAGTAGCAAGTTTAATTATTGTTTATTTTACCAAAATCTATTGGCTGGATTCAGCAGTTGCTTTAAGTTTTGGTCTTTATATCATATTTATAGGTTATAAAATTGTACGAAAGTCTTTAAGTGGTATCATGGATGAGCAGGACCCTGAAATATTAAATCAGGCCATTAAAATCCTTGAAGAAAACAGAAAGACAGAGTGGATTGATGTGCACAATATGAAAATTCAGCAATTCGGTTCCTCTCTTCATATTGATGCCCATATTACCCTTCCCTGGTATTATGATCTTCGCGATGCTCATGGAGAAATGGAAAAAGTAATTATTCTTCTTGCTAAAAAGATGAAACGGACCATTGAATTCAATTTTCATATGGATGACTGTAAACCTATTTCATGCCCGGTATGCCAGATCAAAGACTGCCCTGTCCGGGAAAAAGACTTTATAAAGCGTGTAGAATGGACACCTGAAAATGTAACAAGTGTATACAAACATACTATAGAATAG	MNTQKNTHKEKIGFQKLIATFGIILFIGKIIAWKLTNSDAVFSDAMESIVNVISAFMGLYSLHLAAKPKDEDHPYGHGKVEFVTSGIEGALIAIAGVMIIYEGVHSLIVGKTLSKIDLGIWIIAATAVVNYLLGYISIKKGKRENSLVLISSGKHLQSDTITTLGVVASLIIVYFTKIYWLDSAVALSFGLYIIFIGYKIVRKSLSGIMDEQDPEILNQAIKILEENRKTEWIDVHNMKIQQFGSSLHIDAHITLPWYYDLRDAHGEMEKVIILLAKKMKRTIEFNFHMDDCKPISCPVCQIKDCPVREKDFIKRVEWTPENVTSVYKHTIE				NA	NA	NA	NA	NA
BMS003_02014	993	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAAAGTAGCTGTAGTAGGTTCAACAGGAATGGTTGGACAAGTTATGCTTAAAGTTTTGGAGGAGAGAAACTTCCCTGTAACAGAATTAATCCCGGTAGCATCCGAAAGATCTGTAGGCAAGAAGGTGAAGTATAAACAGAAGGAATTTACCATCGTAAGCATGAAGGACGCTATAGCTGCCAAACCGGATATCGCAATCTTCTCTGCGGGAGGTTCTACTTCTCTGGAGTTCGCTCCTTTATTTGCAGAAGCGGGAACAACAGTAATTGATAATTCTTCTGCATGGAGAATGGATCCTGACAAAAAATTAGTCGTTCCTGAAATCAATGCGGATGTTTTAACAAAAGAAGATAAAATCATTGCAAATCCGAACTGTTCTACCATTCAGCTGGTAATGGTTCTTGGACCTTTGAACAAAAAATATGATTTAAAAAGAGTAATTGTTTCTACCTATCAGTCTGTAACAGGGACTGGAAAAGCTGCTGTAGACCAACTAAACGGCGAAATCAGCGGAGATGATTCTACTGAAAAAGTATATCCTTATCAGATCTTCAAAAATGCGTTGCCACACTGTGATGTATTTGCAGATGATGATTACACAAAAGAAGAGATCAAACTGATGAAGGAACCTAAGAAAATTTTAGGAGATGATACCTTCAACTTAACAGCAACAGCGGTAAGAGTACCGGTGCAGGGAGGACATTCTGAAAGCGTGAATATCGAATTCGAAAATGAATTTGAACTGGATGAAGTAAGAAAAATCTTATCCGAAACCCCCGGGGTTATCGTAATGGATGACGTGAAAAATAACCACTACCCGATGCCACTGTACTCTGAAGGAAAAGACGAAGTTTTCGTTGGAAGAATCAGAAGAGATCTGTCACAGCCCAAAACGCTCAACCTCTGGATCGTAGCAGACAATCTGAGGAAAGGAGCAGCAACAAATGCTGTACAAATTGCAGAGTATATTGTAGCAAACAACTTAGTATAA	MKVAVVGSTGMVGQVMLKVLEERNFPVTELIPVASERSVGKKVKYKQKEFTIVSMKDAIAAKPDIAIFSAGGSTSLEFAPLFAEAGTTVIDNSSAWRMDPDKKLVVPEINADVLTKEDKIIANPNCSTIQLVMVLGPLNKKYDLKRVIVSTYQSVTGTGKAAVDQLNGEISGDDSTEKVYPYQIFKNALPHCDVFADDDYTKEEIKLMKEPKKILGDDTFNLTATAVRVPVQGGHSESVNIEFENEFELDEVRKILSETPGVIVMDDVKNNHYPMPLYSEGKDEVFVGRIRRDLSQPKTLNLWIVADNLRKGAATNAVQIAEYIVANNLV	PGPT0014045_5438	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS003_02015	432			hypothetical protein	ATGGATTTTTACAACATTTTACTTAATGCCCATAAAGGATTCGGGTATCTTGAGATTCTTTTGGTAACATTATTTGTCATTGCTCTTTTAGCTACCATGTTCGGTTTCAGTGGAAAAGTGAACAAATTTCTTAAGAAAACAACCCTGTTCACAATGATTTTCTTCCACGTTCAGTTTTTATTGGGGATCATTATGCTGATCACCACTTTCAGCAAAGGATTAAATATGGGAGAAGTAATGAAAAATGCAGCATTGAGATTCCAATATGTTGAACATCCATTCTCTATGCTTATTGCAGCCGTTTTGATGACTATTGTCAACAAAAAAGTAAAATCCAACGATACTATTTCCTTAGGAGTAGTCATCATGGGGCTGATTGCAGTAGGTTTATTTGCATTCGCATTCCCTTGGACAAGAGTCTTTGGGGCTTAA	MDFYNILLNAHKGFGYLEILLVTLFVIALLATMFGFSGKVNKFLKKTTLFTMIFFHVQFLLGIIMLITTFSKGLNMGEVMKNAALRFQYVEHPFSMLIAAVLMTIVNKKVKSNDTISLGVVIMGLIAVGLFAFAFPWTRVFGA				NA	NA	NA	NA	NA
BMS003_02016	2619	btuB_8		Vitamin B12 transporter BtuB	ATGAAATTAATCAACAAATCAATACTAACTGCGGTTATTACATTATCTACAGCTAGTGTTTATTACGCTCAACAAGTTCAGGACACAGTGCAAACTAAGTCTAAGGACATTGAAGAAGTAATTCTACAAGGTGTTACGGATATCGCAAAAGACAGAAAAACACCAGTAGCAGCCTCTACTATTAAGGCATCTCAACTTATTGAGAGATTAGGAAATCAGGAATTACCTGAAATTCTAAATACTACTCCATCTGTTTATGCTACAAAATCAGGTGGTGGTTTTGGTGATGGAGGACTTACCATCAGAGGATTTGAATCAAGAAACATTGCTGTAATGGTAAACGGTATGCCTGTAAATGATATGGAGGGTGGTACTGTTTATTTTTCCAACTGGACAGGATTGTCTGATGTAACAAGTACACTACAGGTACAAAGAGGTTTAGGTTCTTCTAAATTAGCAATTGCGTCTGTTGGGGGTACAGTAAACTTCCTTACCCGTTCTGCTGATATGAAAAAAGGAGGGGTAATCAGATTAGGTGTTGGTAACAATGATTATTTAAAAACTTCATTTGCTTATAATACCGGAAAGTCTGAGAACGGATGGTCTTCATCTTTCCTTATGAGCAGACAATCAGGAGGAACATATATTGAAAACACAGATTATGAAGCTTATGCTTACTATTTCGCATTAGGTTGGGAACCTAACAAGAAACATAATTTCCAGTTTACTTTAACTTCTGCTCCTCAATGGCATGATCAGAGAACATTCTCTCCTACTATTGCCAACTATATAAAATACAACCCGGATCAGGACGGAACACCTTACAGACAATATAACTCTGATTTTGGTTACTATACTGATGCTACAGGAAGAAAAGTAGCTTTAGCCAACAGAGCAAATTATTATGCTAAACCAGTAATGATGTTAAACTGGGATTGGACAATGAATGAGAAATCCAAATTAAGTACAGTTCTATACATGTCAAATGGTAGAGGTGGTGGAACCGGTGATTTAGGAAGAGTTGGTGGAAAATCACTAACTTCATTCTATGACAATATGGGGCACTTCAACTATGATGCAGTGTTTGCAGCAAATCAAGCTGTTGATGTAAATGCAGCAGCGGCAGGTAGTACTTTAATTCGTAGAGCAAGTATCAACTCTCACAACTGGTACGGAATCTTGGCAAATTTCCAGCATAAAATTAATGATAACTGGAACTTCTCCATCGGTACAGATGACAGATATTACTATGGATACCATTATCAGGTAGTTTCTGATCTTTATGGAGCTGCAGGTTATAAAGAAGGAAAAAACAACAATGTTTCTCCTTACGTAGTTAACCAGGTTTATGATTATAAAAAACTTTCATGGAATCCATTTGGAGGAAAGACTGCTCCAATTGGTGATCAGATTGGATACAGTAACGACGGTGAAGTACTTTGGTACAGTGCATTTGCCCAGGTAGAATATTCTAAAAATAACTTATCTGCATTCTTACAAGGGTCTGTTTCTAACCAGGGATATCAGAGAATTGATAACTTTGTTAAAGATGGTGTAACGAAACAGCAAGGACAGATTGTTAATACAAAAACAGGATTCAAAAACCTTTTTGGATATAATATTAAAGGGGGAGCCAACTATAACATTGACAACCACAATAATGTATTTGCAAATATTGGTTACTACAGCAAACAGCCGTTCATGAACTCTGTTTATCCAAGTAACTTCCAGGTTCTTAACCCAACTTTAACCAATGAAAAAATCTTCTCTGCAGAAGTTGGTTATGGATTCAGATCTCCGAAATTAAGTGCGAACGTAAACCTTTACAGAACTGAATGGAAAGACAGATGGTTCAGAAGAGGAGGAATGACTTTTGAAATAGTAGATCCTTCTGCACCAAACGGAACTTCAACAGTAACAGGATATGCTGAAATCAGTGGAATTACACAGGTTCACATGGGAGTGGAATTTGATGCGGTTTATAAACCTACTCATTTCTTAGAAGTACAGGGTATGTTCTCATTAGGAGATTTCAAATATAAAGGTAATGCAAGTGGTGCTACTTTTGATGACAACAACAATCCTGTAGTTGTTTCAGGAAGTGCTTCCAACAATACGACCCTTTATCTGGACGGAGTAAAAGTAGGAGGAAGCAGCAGCAATAGTATCCCTCAGCTAACAGCTTCATTAGGGGCTACTATAAAGCCTGTAAAAGATTTAAATATCTTTGGTACATGGAGATATACTGGTAAAGTATATTCATCTATTGATCCAGGAGCATTCTCTAAACCAGAAAACCAAGAGAGAGGTACTCTTCAGTTACCTGATTTCAACCTATTTGACCTAGGTATTTCTTATAAGATCAGATTAAAAGATTCATCTAAGTATTTTACAGTGGGAGCAAATGTCTATAATGTATTCGATACGACTTATATCTCTGATGGAGCTACCAACATTTTTGGAAGTGATTCACCTACAACATTAGCAGATGGAAGCCAGAATACTCAAAAGAAAACTTATGAGCAGTTAGGCTATATGTATGACGGAATTGCTACAGGTAACAGAGTTTATTTCGGATTCGGAAGAACATGGGCAGCCAACTTATCATTCAACTTCTAA	MKLINKSILTAVITLSTASVYYAQQVQDTVQTKSKDIEEVILQGVTDIAKDRKTPVAASTIKASQLIERLGNQELPEILNTTPSVYATKSGGGFGDGGLTIRGFESRNIAVMVNGMPVNDMEGGTVYFSNWTGLSDVTSTLQVQRGLGSSKLAIASVGGTVNFLTRSADMKKGGVIRLGVGNNDYLKTSFAYNTGKSENGWSSSFLMSRQSGGTYIENTDYEAYAYYFALGWEPNKKHNFQFTLTSAPQWHDQRTFSPTIANYIKYNPDQDGTPYRQYNSDFGYYTDATGRKVALANRANYYAKPVMMLNWDWTMNEKSKLSTVLYMSNGRGGGTGDLGRVGGKSLTSFYDNMGHFNYDAVFAANQAVDVNAAAAGSTLIRRASINSHNWYGILANFQHKINDNWNFSIGTDDRYYYGYHYQVVSDLYGAAGYKEGKNNNVSPYVVNQVYDYKKLSWNPFGGKTAPIGDQIGYSNDGEVLWYSAFAQVEYSKNNLSAFLQGSVSNQGYQRIDNFVKDGVTKQQGQIVNTKTGFKNLFGYNIKGGANYNIDNHNNVFANIGYYSKQPFMNSVYPSNFQVLNPTLTNEKIFSAEVGYGFRSPKLSANVNLYRTEWKDRWFRRGGMTFEIVDPSAPNGTSTVTGYAEISGITQVHMGVEFDAVYKPTHFLEVQGMFSLGDFKYKGNASGATFDDNNNPVVVSGSASNNTTLYLDGVKVGGSSSNSIPQLTASLGATIKPVKDLNIFGTWRYTGKVYSSIDPGAFSKPENQERGTLQLPDFNLFDLGISYKIRLKDSSKYFTVGANVYNVFDTTYISDGATNIFGSDSPTTLADGSQNTQKKTYEQLGYMYDGIATGNRVYFGFGRTWAANLSFNF	PGPT0003790_5697	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
BMS003_02017	861	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGAAAAGACCAGCATACGTAACAGATAAAGCATTAAAGACATTCATAAAAAGTGCCCTTGAAGAAGATATTCAGGATGGTGACCACTCTACCCTTTCTACCATTCCGCAGGATCTAATACAAAGTGCCAAGCTTTTGGTAAAACAAGACTGTATCCTTGCAGGAGTAGAGCTTGCTGAAATCATTTTTAAAGCATTTGACAAAAACCTGAAGGTTGAAATTTTTATTAAAGACGGAACTCCTTGTAAATTCGGAGATGTAGCTCTTATCGTAACAGGAAGCGCAAGATCTATTCTTTCTACAGAAAGATTTGTTCTTAACTGCATGCAAAGAATGAGCGGTATTGCAACGCTTACCCACGAATGGGATTCAAGATTAGTAGGGACAAAAACTAAACTTTTAGATACAAGAAAAACCACTCCAAACTTCAGAATGTGCGAAAAATGGGCTGTTGCCATTGGAGGAGGAACCAATCACAGATATGGCCTTTATGACATGATCATGCTGAAAGACAACCACATAGATTACAACGGAAGCATCACCAATGCCGTTGCAATGGCAAAGGATTACGTTAAAAAAAATAAGAAAAAGCTGAAAATAGAGGTCGAAACAAGAAACCTGGAAGAAGTACAGGAAGCTATTAATGCAAAAGTTGACAGAATCATGCTTGATAATATGGATGTGAAAACAATGAAGCAGGCTGTAAAAATGATCAACGGTACATGCGAGTCCGAAGCTTCAGGTGGAATTACCCGCGAAATGCTGAAAGAAATAGCATCAACAGGGGTTACATACATCTCTGTAGGAGCCCTTACACACTCTGCTGAGAATATAGATTTGAGTCTCAAAGCAGTGAAATAG	MKRPAYVTDKALKTFIKSALEEDIQDGDHSTLSTIPQDLIQSAKLLVKQDCILAGVELAEIIFKAFDKNLKVEIFIKDGTPCKFGDVALIVTGSARSILSTERFVLNCMQRMSGIATLTHEWDSRLVGTKTKLLDTRKTTPNFRMCEKWAVAIGGGTNHRYGLYDMIMLKDNHIDYNGSITNAVAMAKDYVKKNKKKLKIEVETRNLEEVQEAINAKVDRIMLDNMDVKTMKQAVKMINGTCESEASGGITREMLKEIASTGVTYISVGALTHSAENIDLSLKAVK	PGPT0013370_2292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS003_02018	645			hypothetical protein	ATGGAAATATTTAACCTGAGGATTCTTACTATTATTAATATTTTATATTTTTTAAGAATACTAATGATAGTTATTGGTTTTATTGCTTTTTCATTCCTAATTTCAGGGTTTAAGCATCATAATTTAGATTATTTTGTGGGTTGGGCATCTTTTATTTCATTCATAGTTTTTGGAAAAGATCTATTTAATTATGTAAAGAAAACTATCATTTCCAAAGCAAAACACCCGCTCCCATTGAATTTATTATGCAACATTCTACAGTTAGGGAAACCGTATCATTTCGGAGAAGATAAATTTAATCTGGATGAAATCATCAATGATAATAAACTTCCTCTGACGTTTTATTACATTAATAATCACCAACATCCGATTTTACAATTTAATAAAAACAAAATTCTTTTTCATGGTCGAGACTATGATTGGAAAACGTTCAACTGGAAATATTTTTTCTATTCTGAAGAGCCTCATAGCTATAGAAAAAGAAATGGAAAATATATCATAGAATTTACCGGCACAGATAAAGATAATATCCGAATAAAAAACAAAATCGAGTTTGAGAAAATAAAAGCTGATGGAAATGAAGTAATTTTGCTTTTTATAATTCATGATTTGTTATTCGGAACAAAAGCATCTTACTATTACTAA	MEIFNLRILTIINILYFLRILMIVIGFIAFSFLISGFKHHNLDYFVGWASFISFIVFGKDLFNYVKKTIISKAKHPLPLNLLCNILQLGKPYHFGEDKFNLDEIINDNKLPLTFYYINNHQHPILQFNKNKILFHGRDYDWKTFNWKYFFYSEEPHSYRKRNGKYIIEFTGTDKDNIRIKNKIEFEKIKADGNEVILLFIIHDLLFGTKASYYY				NA	NA	NA	NA	NA
BMS003_02019	1572	nadB	COG0029	L-aspartate oxidase	ATGATAAAAGCGGATGTATTAGTAATCGGTTCCGGCATTTCCGGACTTTCCTATGCCATTAAAGTTTCTGAACAGCTCCCTGATGCCAAAATCATTATTGTAACAAAATCTGACGAGGACGAAAGTAACACCAAATATGCACAAGGTGGACTGGCAGTTGTTACAGATTTTCAAAATGATAATTTCCAAAAACATATTGATGATACCATGCGTGCCGGAGACGGAGAAAACAAACGCGATGTTGTAGAAATGGTAGTAAAAGAAGCCCCTGCAAGATTCAACGAAATTGTAGAATGGGGAGCTCAGTTTGACATGAAGAACGGCAAATTTGCTTTAGGAAGAGAAGGAGGTCATACTGAGAACAGAATTGTTCACCACAAAGATATCACAGGATTTGAAATTGAAAGAGCTTTACTGGAAACAGCTAACAGCAGCCCAAATATTGAAATCCTCGACCATCATTATGTAATTGATATCATTACCCAACACCATGTTCCCGGAAAAGAATTGAATGAAGGAGACATTCACTGCTACGGTGCCTATATTCTGGATGAAAACTCCAAAAAAATCAAGAAAATTACTTCTAAAATAACACTGGTTGCCACAGGAGGTGCCGGACATGTTTATAAAAACACTACCAATCCTACAATTGCCACAGGAGACGGAATTGCTTTTGTAGCCCGTGCCAAAGGAAATGTTTCCAATATGCAGTATTATCAGTTTCACCCAACAGCTTTGTATAGCAAAATGGATGGAATGCTGTTTTTAATTTCAGAAGCCGTTCGTGGAGACGGTGCAAAATTAAGAACCAAAAAAGGCGAAAAATTCATGCATAAATATGATGAGCGAGAAGAACTTGCCTCAAGAGATATTGTTGCAAGAGCTATTGATGCTGAAATGAAAATTACCGGAGACGAATTTGTAGGCTTAGATTGTAAGGAAATGAATCATGAAAAATTCTTAGAACATTTCCCGAATATTTACAAGAAGTGCAAAGACGAAGGAATTGATCCTTTTACCCAACTCATTCCTGTTGTACCCGCCTGCCACTATCTGATGGGAGGAATAGAAGTTGACAGAGACGGACAGTCATCCATCAGAAATCTTTTTGCTGTGGGGGAGTGTACCAATTCCGGACTTCATGGCGCCAACAGACTTGCTTCCAATTCATTACTGGAAGGTTTAGTCTTCGGACATAATGCAGCTATGAAGACCGTAAATCTTCTGAATGAAAACAGCTTTAACTTTGATGATCTTAAAGCCGTTCCGGAATGGAATGAAGAAGGAATGAAAATAATGGACGAAATGGTTATCATCAGTTACCTAAGAAAACAGCTACAGGAAATGATGAGTGATCTGGTAGGCATCGTAAGAAGCGACAGACGTCTTAATATGGCATTGCAGAAACACCAGGAAATTGCTGCTGCTGTGGATGAAATCTACCACTACTCTATTCTTTCTCCACAACTTTCAGAATTGAGAAACCTAACAACTGTTGCACACCTTATCATTACCCAGTCTATGGAAATGACAGAGAACAAGGGAGCATTTTACAATAAAGATTTAGCTTAA	MIKADVLVIGSGISGLSYAIKVSEQLPDAKIIIVTKSDEDESNTKYAQGGLAVVTDFQNDNFQKHIDDTMRAGDGENKRDVVEMVVKEAPARFNEIVEWGAQFDMKNGKFALGREGGHTENRIVHHKDITGFEIERALLETANSSPNIEILDHHYVIDIITQHHVPGKELNEGDIHCYGAYILDENSKKIKKITSKITLVATGGAGHVYKNTTNPTIATGDGIAFVARAKGNVSNMQYYQFHPTALYSKMDGMLFLISEAVRGDGAKLRTKKGEKFMHKYDEREELASRDIVARAIDAEMKITGDEFVGLDCKEMNHEKFLEHFPNIYKKCKDEGIDPFTQLIPVVPACHYLMGGIEVDRDGQSSIRNLFAVGECTNSGLHGANRLASNSLLEGLVFGHNAAMKTVNLLNENSFNFDDLKAVPEWNEEGMKIMDEMVIISYLRKQLQEMMSDLVGIVRSDRRLNMALQKHQEIAAAVDEIYHYSILSPQLSELRNLTTVAHLIITQSMEMTENKGAFYNKDLA	PGPT0013355_2548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
BMS003_02020	627			Putative NAD(P)H nitroreductase	ATGAATTATTTGGAAGCTTTAAGCAGAAGATATTCTGTAAAAAAATTCAACCATCAGATTATTCCTCAGGAAACCCTTTACAATATTCTTGAGTCAGGAAAGCTGTCCGCCAGCTCGCTGGGACTTCAGCCCTATAAAATTGTGGTTGTTGAGAGTGAAGAAATGAAACAGAAACTGATTCCGGCTTTCTATAATCCTTCTCAGATTTCCACCTGTTCTCATCTTATTGTCATTATTTCAAAGAAAGTTATTGAAGAGAACTATATCCGAGGCTATTTTAATCATATTTCTGAAGTAAGAGATACTCCTCTTGAAAAACTTGATCCTTTCAGAAACAGCATTAACCAGCATATCAACCAGAAAACACAGGATGAAATTTTCAACTGGGCAGAAAAACAATCCTATATAGTATTGGCTAATCTTATGTACGCCGCTGCTATAGAAAATATAGACTCCTGCCCCATGGAAGGTTTCCGCCAGGATCTCATAGAAGAAATTCTAAATGTAGACCCAGAAACAGAAAAAGTAACCGTTACCCTCGCTTTAGGCTACCGTTCTGAAGAAGACTACTTCCAGCACATGAAAAAAGTAAGAAAACCAAACGAAAAATTGTTTAAATTTATTTAA	MNYLEALSRRYSVKKFNHQIIPQETLYNILESGKLSASSLGLQPYKIVVVESEEMKQKLIPAFYNPSQISTCSHLIVIISKKVIEENYIRGYFNHISEVRDTPLEKLDPFRNSINQHINQKTQDEIFNWAEKQSYIVLANLMYAAAIENIDSCPMEGFRQDLIEEILNVDPETEKVTVTLALGYRSEEDYFQHMKKVRKPNEKLFKFI	PGPT0005925_697	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS003_02021	2259			hypothetical protein	ATGAAAAAAGATATACTCATTTTTGTACTGACTATCTTATTATGCTTACCGGGAAGATTATTTTCACAAACATACCAGCTTACCGGAAACCCTGTAAATACAACGGGCTGGGATCTTGTCTCTGACGCTATCGTAAGCGGAGACTTTATAAGACTTACAACCGATCAGACGAGCAAATATGGAGCAGTAAAATTATCCACCCCTATCACACTCAGCTATTGCGATAAATGGAAAGTGGAATTCGACTTCAGAATTGACGGAAACGGAACTACACAATTTGGCAAAGGAGACGGTTTTACCTTCTGGTATCTTGCCAATCCACCAACAGGATTTGTATCCGGAGGAGGGTTAGGTATTCCAGCTAATGCTTCCGGGCTGATGGTTGGTTTTGATATTTTCAATAATACCACAGAAGGCCAGATGAGTAAAGTACATATACTTTACGGAACTAATAATACTGCCGGTAACAATATTGAATATAATACAACTCCGGGAAGCACCTTCCACTCTCCGGATCTTATTGCCACTAACCCATTTGTAGGAGACACTTACAGACATGTTGAAGTAAATGGAGAAACAGACCTTACCAACCCTACAAACTGGATTATCAAGGTAAGAATAAACGGCACACTTATCGTAGACCAATCTTTTGCCCCATCAGGAGGAGCAGTAGGAATGTCGCAGGGATATTTTGGCTTCTCTGCAGCAACGGGAGGCGCCAGTGCAAGACATTCTATTAAAAACGTTAAAGTATTTGTGGACAAAGTTCCTATTTTAAGCAATACTATTTCTCCATTCGTATGTACAAATCCTGCTACAGGTAATGGCACGGTAGACCTTACTTCTTACAACTCTCAATTTGTAAATAACCCCGGAAATTATATTTTTACCTACTATGTATTAGGAAGTTCTACTCCTATAGCCAATCCTACAAGTTTCCAATATTCAGGAAATACAACAATTAAGGTAATTGTAAAAGATCCCAGTTCTACACTCTGTGACAATGGTGACGGAGTCATTCAGCTTAATCCGACTCCATTTGCAGCAACGGATGCAAGCCTTACAGAGTGTAATAATAACAATGCAGGAACAGCTACCTTTGATCTGAATTCTGCAGCAGTAACAACTGTAGCCGGAGTAACCAAGGAGTTCTACCCTACTTTATACGATCTTAATAATGGAACAAACCAGATCACAAACCCTTCTGACTATGCTTCTGCAGCAGCCACAATATATGTAAAAGTAACAACACCCCAAGGCTGCGTAAGTACATCTAAAATTACACTGAACATTTATCCTATTGTAGTTGTTAATGACACTGAGATAAAGTCCTGTTTCATTGAAACCAACCCATCTATGGCATCATTCAACCTATTAGGAGCTATTGTTTCTCAAGGCGGACTTACGAAAGAATACTATCCTTCTTTAACAGATGCTATCAGCGGAACTAATGCAATAGCTAATCCTGCTGCGTATATTGCCCCTAACGGAGTTGCTTATATTAAAGTATTTGATGCAAACGGATGCTATTCTATTGCTAAAGTTACTTTAACAGTAATACCTCCTGTTTACTCAAGAACTTTACATGACCAAACAATCTGTATAGAAAATACTACAACCTTAGATGCCGGAGCCGGCTTCAAAAGCTATGAATGGAGCACCGGAGCAACAACACAGTCTATCAAGAATGTAGGAGTAGGTACATATTGGGTAAAACTTAAAACCGAAGACTGTATCACTACACAAAAGGTAACCGTATACCCATCTGATAATCCAGTGATTACCACAGTTGATATTTCAGGAAGCACAGTAACGGTATATGCCAACGGCGGAACTCCTCCTTATCAGTATTCTATGGATAATATTAACTGGCAGGACTCCAATGTATTTACCAATATTGCCAGAGGAGAAGCAAAAGTATATGTAAGAGACGGCTATAACTGCGTTCCCGTAGAAGTCAATATCACAGTACCTAACCTTATCAATGTGATTACCCCTAATGACGATGGTATTAATGATTTTGTAGATTATTCTGCATTGTCCAATAAACAAAATCTGGAAATAGCGATTTTCGACAGATATGGCTATAAAATGTTCCAGGCAGATAAAACCAACGGTTACAAATGGGCAGGAACTACCAACGGAAGCAAAAAAGTTCCTACCGGAAATTACTGGTATTCTGTTTCCTGGAATGAAAATAACAAAAACAGCACTCCGATAAAATTCTCAGGCTGGATTGTTGTAAAGAACAGAGAATAA	MKKDILIFVLTILLCLPGRLFSQTYQLTGNPVNTTGWDLVSDAIVSGDFIRLTTDQTSKYGAVKLSTPITLSYCDKWKVEFDFRIDGNGTTQFGKGDGFTFWYLANPPTGFVSGGGLGIPANASGLMVGFDIFNNTTEGQMSKVHILYGTNNTAGNNIEYNTTPGSTFHSPDLIATNPFVGDTYRHVEVNGETDLTNPTNWIIKVRINGTLIVDQSFAPSGGAVGMSQGYFGFSAATGGASARHSIKNVKVFVDKVPILSNTISPFVCTNPATGNGTVDLTSYNSQFVNNPGNYIFTYYVLGSSTPIANPTSFQYSGNTTIKVIVKDPSSTLCDNGDGVIQLNPTPFAATDASLTECNNNNAGTATFDLNSAAVTTVAGVTKEFYPTLYDLNNGTNQITNPSDYASAAATIYVKVTTPQGCVSTSKITLNIYPIVVVNDTEIKSCFIETNPSMASFNLLGAIVSQGGLTKEYYPSLTDAISGTNAIANPAAYIAPNGVAYIKVFDANGCYSIAKVTLTVIPPVYSRTLHDQTICIENTTTLDAGAGFKSYEWSTGATTQSIKNVGVGTYWVKLKTEDCITTQKVTVYPSDNPVITTVDISGSTVTVYANGGTPPYQYSMDNINWQDSNVFTNIARGEAKVYVRDGYNCVPVEVNITVPNLINVITPNDDGINDFVDYSALSNKQNLEIAIFDRYGYKMFQADKTNGYKWAGTTNGSKKVPTGNYWYSVSWNENNKNSTPIKFSGWIVVKNRE				NA	NA	NA	NA	NA
BMS003_02022	2259			hypothetical protein	ATGAATAAAAATCTATTATTGTATTTATCTGTTTTTTTACTCTGTATAGCCGGGAAGTCCTTTGCACAGACTTATCAGCTTACCGGAAACCCAGTGAACACTACTGGATGGACGATGGTTTCCCCTACTCAGGTTAACACAGATTTTATTCAGCTCACCCCGGACGCCAACAACCAATCCGGATCCATCAGACTGAATGACCCCATCAACTTAAAATACTGCGATAAATGGAGAGTGGAATTTGATTTCAGAATGGATTCCAACCAAACCTCTAACGGGGACGGAATTGCCTTCTGGTATCTCGCTAACCCACCTGTTGCAAGTGTACTGGGATCCGGCCTTGGAGTATCCCAAAATGCAGTGGGACTTGTTGTAGGATTTGACACCTATAATAATACCACAACGGCAACAATGAGTAAAGTTCATGTTGCTTACGGACAAGTTCAAAATACAACCGACACCAATAATGTTGAGTTCTTTAATGTTCCCGGAAGCTCCTTCCACTCACCAGATCTTAATACCACACAACCTTTTCAGGGAACTACTTTCAAGCATGTAGAAGTTACCGCTCAGGTAGATCCTTCCACTCCCACCAGCTGGATTATCAAAATAACCATAGATGGCAATGTAATTTGCAACCAATCTTTCGCTCCCTCAGGTACAGCTGCTGCAATGACGGTTGGATATTTCGGGTTTTCCGCATCTACAGGAGGAGCAAGATCAAGACATTCCATTAAAAATGTAAAAATTTATACGGATAAAGTTCCAATTTTGCAGAATTCAGCAACTCAGTCTTTCTGCCCTAATCCTACTACCGGATATGGATCTGTAAATCTGACTTCTTTCAATTCTCAATTTGTAAGTAATCCTTCCAATTATACATTTACTTACTATCCGCTGGGAAGTTCCACCCCTATTGCCAATCCTGCAAATTATCAGTTTAATGCCAACACAACCGTTACCGTTGTTATTAAAGACAATGCCGGACTTCTCTGTGATAACCCGGATGGTAAAATATTATTGGTTCTTGCTCCTTTCGTAGCAGAAGACAAAACCATTGCAGTATGTAACAACAACAAAGCCGGAACAGCAGCCTTCAACCTGAATACAGCACCTGTTACAACCGTTCCAGGGGTAACTAAAAAATATTATAAAACATTAGCAGATCTCAATGCAGACACGAATGAAATCCAGAATCCCGGCAACTATATTTCTGCTCCGGGAGAAGTTTATGTAAAAGTTACAACTCCACAGGGATGTACAGGTTCAGCAAAAATTACACTGGCCTTTTATCCGGATACTCCTGTGAATGAAGCTAGCCTCAGATCGTGTTTCATTGAAAATAATATCACGAGTGCCATCTTTAATTTAACATCAGCAGACGTTACTACATTAGGAACAGGAGCTTCAAAAAAATATTACACATCGATAGCAAATGCTCTGGAAGGCACCAACGAAATCATGAACCCGCTGCAGTATTTATCTACCAGCACAGCTGTGTATGCAAAAGTAACAGATGCCAACGGATGTTTCAATATTGCTAAAATCAACCTTATTGTATTACCGCCTGTACCGTCTTCTATTTTGAAAGACAAAACCATTTGCATTGGTGAAAAAACCGATCTGGATGCAGGCCCCGGGTTTGATGGCTATGAATGGAACACAGGAGCCACTACCTCATCTATTAAAGATGTAGGCGTAGGCACTTACTGGGTAAAACTTCAAACCGGAAGCTGTATCACAACTCAGATTGTGAATATAAAAGCATCTGCAAATCCTGTAATTTCCAGCATTGACATTAACAATAATACGATCACTGTAAATGTAGCCGGAGGAACTCCCCCTTACCAATATTCTGTAGATGGAGTAAATTGGCAGACCAGCAATACATTCACAGGTCTGGCAAGAGGAGAAGTAAAAGTTTATGTAAAAGATTTTTACAACTGTACACCCGTTGAAGTTCAGATTACAGTTCCGAACCTGGTGAATGCCATCACTCCAAACGGTGATAATGTAAACGACTTCATCGACTATTCAGCACTTGCTTATAAGAAAAACCTGATCTTCATTGTTTACGACAGATATGGCAATAAGCTGTATGAAGCCGGAAAAATGAGAAACTTTACATGGGACGGAACAGCTTCCGGTAAAAAAGTCCTTACAGGAACTTACTGGTATACCATTTCATGGAACGAAAACAATAAAGACAATACTGAAACTAAATACTCAGGCTGGGTATTGGTTAAAAACAGAGAATAA	MNKNLLLYLSVFLLCIAGKSFAQTYQLTGNPVNTTGWTMVSPTQVNTDFIQLTPDANNQSGSIRLNDPINLKYCDKWRVEFDFRMDSNQTSNGDGIAFWYLANPPVASVLGSGLGVSQNAVGLVVGFDTYNNTTTATMSKVHVAYGQVQNTTDTNNVEFFNVPGSSFHSPDLNTTQPFQGTTFKHVEVTAQVDPSTPTSWIIKITIDGNVICNQSFAPSGTAAAMTVGYFGFSASTGGARSRHSIKNVKIYTDKVPILQNSATQSFCPNPTTGYGSVNLTSFNSQFVSNPSNYTFTYYPLGSSTPIANPANYQFNANTTVTVVIKDNAGLLCDNPDGKILLVLAPFVAEDKTIAVCNNNKAGTAAFNLNTAPVTTVPGVTKKYYKTLADLNADTNEIQNPGNYISAPGEVYVKVTTPQGCTGSAKITLAFYPDTPVNEASLRSCFIENNITSAIFNLTSADVTTLGTGASKKYYTSIANALEGTNEIMNPLQYLSTSTAVYAKVTDANGCFNIAKINLIVLPPVPSSILKDKTICIGEKTDLDAGPGFDGYEWNTGATTSSIKDVGVGTYWVKLQTGSCITTQIVNIKASANPVISSIDINNNTITVNVAGGTPPYQYSVDGVNWQTSNTFTGLARGEVKVYVKDFYNCTPVEVQITVPNLVNAITPNGDNVNDFIDYSALAYKKNLIFIVYDRYGNKLYEAGKMRNFTWDGTASGKKVLTGTYWYTISWNENNKDNTETKYSGWVLVKNRE				NA	NA	NA	NA	NA
BMS003_02023	477	rnhA	COG0328	Ribonuclease HI	TTGAGAATCGAAATTTATACTGACGGAGCTTGCAGCGGGAATCCGGGAAAAGGCGGATATGGAATCCTCATGCGTGTTCCTGAAAAAAATTACCAGAAAACGTTTTCTAAAGGTTTTCGGAAAACGACCAACAACAGAATGGAACTTCTGGCGGTCATTACTGCATTGGAAAAACTGAAATCTACAGAAAATGACATCCATGTATATACCGACAGTAAATATGTATCCGATGCCATCAATCAACACTGGATTGCCGGATGGATCAAGAGAGGTTGGAAAAATGTAAAAAACCCTGATCTCTGGAAAAAATTTGTTGAACTCTACAACAAACACAGCCCAAAAATGCATTGGGTAAAAGGCCATGCCGGACACTTTGAAAATGAGCTTTGCGACAAATTAGCAGTTGCTGCAGCCAACTCACCAGATCTCGAAATTGACACTTATTTTGAGAGCCTTGATAGTAATTCTCTATTTTAG	MRIEIYTDGACSGNPGKGGYGILMRVPEKNYQKTFSKGFRKTTNNRMELLAVITALEKLKSTENDIHVYTDSKYVSDAINQHWIAGWIKRGWKNVKNPDLWKKFVELYNKHSPKMHWVKGHAGHFENELCDKLAVAAANSPDLEIDTYFESLDSNSLF	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
BMS003_02024	1584	dnaC	COG0305	Replicative DNA helicase	ATGGCGCAGAAAGAAACATTATCATCCCTGACACACGGAAACTTTGCAAAAGAATTGTCTATTGCGGATGGAAAAATGCCTCCCAATGCAGTGGATTTTGAAAGACTTGTTATCGGAACTTTTTTGATTGACAAAAAAGGTCTCGACCATTCCATTGACCTTCTTACCCCGGAAGTATTTTATGATCCGAGACACCAGGTCATCTTTTCTACCATCTTAAAGCTTTATGAAGGTAACCACCCGGTAGATTTAATGACCATTATTCAGGAACTGAAAAAAGAGGACAAACTAAGCCAGGCAGGTGGTGATCACTATATTATTGATCTGACAATGGGAGTAAGCTCATCCGCCCATATTGAATATCACGTGCGTGTTATTCTTGAAAAATATATCCTAAGAAGCCTTATCAATGTTTCTGCCAACGTGATTGATTCTTCCTATAAAGAATCGACGGATGTTTTTGAACTTTTGGATAAAGCGGAACAATCTTTCTTTGAAATTACCAACGGAACAATTAAGAAGGGATTTGATACTGCCAATTCATTAGTAAAGCAGGCTATTGATACCATTAAGTCTTTAAAAGATAAGCAGGGACTTTCCGGTGTACCTTCAGGATTCAGAGATGTGGATAAGGAAACCGGCGGATGGCAGAATTCTGACCTCATTATTATTGCAGCCCGTCCGGCGATGGGTAAAACGGCGTTCCTTCTTTCTATGGCAAGAAATATTGCAGTAGGTCACAAGATTCCTATGGCACTATTCTCTCTCGAGATGGCATCAGTACAGCTTATCACCAGGATGATTGCTTCTGAAACAAGAATCTCTTCCGAGAAATTAAGAAAAGGAACCCTGGATGATGAAGAATGGCAAAGACTATTCTCTAATGTTTCTGAATTGGAAAATGCTCCTTTATATATTGACGAAACCCCTTCCCTTTCTATATTCGACTTCCGTGCAAAATGCCGAAGACTTGTAATGCAGCACGGAGTAAGACTTATCATGGTGGATTACCTTCAGCTGATGACCGCAGGAGGTGGCGGAAAAGGAGTTGGAAACCGTGAACAGGAAATTTCCATGATCTCCCGTTCATTAAAAGCAATTGCAAAAGAACTTAACGTCCCGGTAATTGCGCTTTCTCAGCTTTCAAGAAGTGTGGAAGCCCGACCAGGAAAAAGACCTCAGCTTTCAGATCTGAGGGAATCCGGAGCCATTGAGCAGGATGCGGATATTGTATCTTTCATCTTCAGACCGGAGTATTATAAAATTACGGTTTGGGATAATGACGAGGAAGGACAGGAAACTTCTACGGAAAACCAGGCCGAACTGATTATTGCAAAACACAGAAATGGTGCTACAGCGGATGTCAGATTATCTTTCCTGAAACATTTTGCAAAATTCGGTGACATTGAGGCAGCCTTTGATGGTGCAGGAGGAGGATATCCTTCCAACTTTGGAGAACCAAGCGGCTTCGACAAAATTAAAACAACCATTCAGCCAGGGGCAGCATTTGACCTTCCGGACAGCTCAAAACTTTCCGGTTCATCAATGAATGACTTTGATGACGATGATGATTTTCCTTTTTAA	MAQKETLSSLTHGNFAKELSIADGKMPPNAVDFERLVIGTFLIDKKGLDHSIDLLTPEVFYDPRHQVIFSTILKLYEGNHPVDLMTIIQELKKEDKLSQAGGDHYIIDLTMGVSSSAHIEYHVRVILEKYILRSLINVSANVIDSSYKESTDVFELLDKAEQSFFEITNGTIKKGFDTANSLVKQAIDTIKSLKDKQGLSGVPSGFRDVDKETGGWQNSDLIIIAARPAMGKTAFLLSMARNIAVGHKIPMALFSLEMASVQLITRMIASETRISSEKLRKGTLDDEEWQRLFSNVSELENAPLYIDETPSLSIFDFRAKCRRLVMQHGVRLIMVDYLQLMTAGGGGKGVGNREQEISMISRSLKAIAKELNVPVIALSQLSRSVEARPGKRPQLSDLRESGAIEQDADIVSFIFRPEYYKITVWDNDEEGQETSTENQAELIIAKHRNGATADVRLSFLKHFAKFGDIEAAFDGAGGGYPSNFGEPSGFDKIKTTIQPGAAFDLPDSSKLSGSSMNDFDDDDDFPF				NA	NA	NA	NA	NA
BMS003_02025	2148			hypothetical protein	ATGAAAAAAATACTACTTCTTTTTATTTTATTGATAACACAATTGGCCTACTCGCAGTCAGACTGTATCACAGCAATACCTATCTGTGGTAATTCTGACATTTCCTACACCCCTTCAGGCCCGGGGAACATTATAGAAATTCTGAACCAAAACGGAGGCTGCCTAAGCACCAATGAAAGGTATACTGTTTGGTATACTTTCACGGTATCCACCCCAGGTACACTTGCATTCAAAATAAAGCCTAATGACCAGTCTGATGATTATGATTTTGCAGTCTATGGCCCCACAGCAAACGGCTGTGCTTCCTTACAGAATGCAGATCATGTTTTCATACAGCCAATAAGATGTAACTACAGCGGTACTCCGGGAGACACAGGTCTTGATCTTGCTCTTGCTCCGCCTGCCGTATTCCCTACCAACCCTCCTGGTGTTACATCCAGCATGAACAATGGTAAATGGAGCCCTTATCTGGACGTATTAGTAGGCCAGACCTATTATTTGGTTATTGACAACTTCAGCAGATCCACGAACGGATTTTCTTTAGAATGGTCAGGTACTGCAAGTTTAAGTTCCGCATTCAACGACCCGGCTCTTTCTCCCAATCCATTTATAGCTCCGGGAATTCCGGCAGCTAATCCTAATGATCCTAACCAGGTGATGGTTTGTGCACTACCAACTCAGTTTGATTTTTCAACACTTTCTGCAGCTATCATCAATGGTAACAGCTCCAACTTTGTAGTTACATATCACAAAACCACCAATGATGCGCTTACGGGACAAAACCCTCTTACAATAGCAACTGTAGACGGAACAACAACGTATTATTACAGAATTGTATATCAAGATCCTACTAATCCAAACAACCCTATCAACGGCTGTTTCATAACCGGGAAATTCAAGTTTGTGAATGTAGGTATTACGGCAAATACAGCTACCCTATATTCCTGTAATAACAATGGGGCAGGTACTGCAAAATATGATTTAACAACAGCCAATATATTTGGTGGAAGCGGAGCTACAATCAAGTATTACGCTACCGTTGATGATATGAATGCAGACATCAACGAAATTATCGATCCTGTTAACTACATTTCTCCGGAAGCTACTATATATGCAAAAGTAATTTCCAGCTTCGGATGTATAGCAACTACTACGATCAGACTTTTATTCTACCCAACTGTGGTGTTAAAAGATGCGGTGCTTCAAAACTGTTATATTGACAATGATGTGACCCGCTCAACTTTTGACCTGTCAAAAGCTGATATTGGCGTAGCTGTTCCTACTCCTACCGGAACCATCATTAAATATTATACCTCAGTAGCTGATGCTAAAGCACAGACTAACCCGATAGCAACCCCATTCAATTACCTTTCAGAAAGCAAAACGGTATACGCAAGGGTAGACAATGACAAGCAATGCTATTCAATTACCAAAATAGAACTGGTTGTATTACCCCCAGTAAAATCGGCTGTATTAAAAGATAAAACAATTTGTGCTGAAAGCAAAACAACATTAGATGCAGGTCCTGGATTTGTAAGCTACGAATGGAGTACAGGAGAAACATCACAGTCTATAAGCAATGTACCAGTAGGAGCATATTGGGTTAAACTTCAGACCGGAAACTGCTTCACCCTTCAGGAAGTACGTATACACCCAAGCCTTCAGCCTGTAGTTTCAGGGATCGAAATCTCAAATAATAACATCACCGTTACAGCGACTGGTGGAGTTCCTCCTTACCAATACTCTGTAGACGGTATCAACTGGCAGGATTCCAATGTCTTCACGGGGCTTCCAAGAGGAGAAAATACAATCTATGTAAAAGATACTTACAACTGTAACCCTATCCAGGTAACTGTGACAGTTCCTAACCTTATCAATGCTATCACTCCTAATGGGGACAACATTAATGATGTTATCGACTATTCTGCGCTGGCATATAAGAAAAACCTTGTCTTCATTGTGTATGACAGATACGGAAACAAACTTCATGAAGCCAACAGAATAAACAACTTCACATGGGACGGAACAGCTTTCGGTAAGAAAATCCCAACAGGAACTTACTGGTATACGATCTCCTGGAATGAAAACAATAAAAACAATACCGAAACCAAATACTCAGGTTGGGTACTGGTAAAAAATAAAGAATAG	MKKILLLFILLITQLAYSQSDCITAIPICGNSDISYTPSGPGNIIEILNQNGGCLSTNERYTVWYTFTVSTPGTLAFKIKPNDQSDDYDFAVYGPTANGCASLQNADHVFIQPIRCNYSGTPGDTGLDLALAPPAVFPTNPPGVTSSMNNGKWSPYLDVLVGQTYYLVIDNFSRSTNGFSLEWSGTASLSSAFNDPALSPNPFIAPGIPAANPNDPNQVMVCALPTQFDFSTLSAAIINGNSSNFVVTYHKTTNDALTGQNPLTIATVDGTTTYYYRIVYQDPTNPNNPINGCFITGKFKFVNVGITANTATLYSCNNNGAGTAKYDLTTANIFGGSGATIKYYATVDDMNADINEIIDPVNYISPEATIYAKVISSFGCIATTTIRLLFYPTVVLKDAVLQNCYIDNDVTRSTFDLSKADIGVAVPTPTGTIIKYYTSVADAKAQTNPIATPFNYLSESKTVYARVDNDKQCYSITKIELVVLPPVKSAVLKDKTICAESKTTLDAGPGFVSYEWSTGETSQSISNVPVGAYWVKLQTGNCFTLQEVRIHPSLQPVVSGIEISNNNITVTATGGVPPYQYSVDGINWQDSNVFTGLPRGENTIYVKDTYNCNPIQVTVTVPNLINAITPNGDNINDVIDYSALAYKKNLVFIVYDRYGNKLHEANRINNFTWDGTAFGKKIPTGTYWYTISWNENNKNNTETKYSGWVLVKNKE				NA	NA	NA	NA	NA
BMS003_02026	2106			hypothetical protein	ATGATCAACATGAAAAAATATCTACTCGTTTTTTTAATTTTCTTAGCTCAAATGGCTTTTGCACAGCAGGACTGTACTTCTGCCATACCGATATGCAGCGATGCCGCTATTTCTCTTACGCCTAATGGCTGGGGGAATGTTAAAGAAGGTCAGGTAGGATGCCTTGGGCCTAACGGAGAAAGTAATTCCATTTGGCTTACTTTCAGTATAGAGACTGCAGGAACGCTAACTTTTGTAGTAACTCCTACAGGCCCTACCGCAGTAGGGATTGACTATGATTTTGCCTTGTATGGCCCCAACCACAACTGTGCCAACACTACAGCTACTCCATTAAGATGTTCTTATGCGGGTGTGAATGCTAGTATTATAAACCCTACCGGGCTTAATATGACTTCTACCGACACAACTGAAGGAGGAGGAGGAGACGGTTATGTAAAATATATTGATGTGCTTCCCGGACAGGTATATCATCTTCTTTTAAATAACTATTCCCCACTAGTAGCTCCATTTACCTTAACTTTTGGTGGAACAGCTAAACTTCTTACTCCGTTCGACAATAACTCGGCGCAGGTTTATCAGCCTAATCCGTTTTTACAACCTGGCCCTACTCAAAACGGAGAAATCCCTGTATGTGGTAAAATTGTAAACTATGACTTCTCTACATTTTCTGCACAGATCTTAAATTCCAACCCTAACTTTATTGTAAAGTATTATGCATCAGCAACGGATGCCCTGGATGACACCAATGCAATTACAGCACCTACCAATATTAACGTAGCCACAACTTACACTTACGCAATCAGCTATGTTGATCCAAACAGTCCAACCAGCTTCCTGAATCAGTGTAGAGATTTTGGACAGATAAAATTCATTGATAAATCTTTTACACTGAATCCTGCTACACTTACCTCTTGCAGCAACAACAATTCAGGAACTGCAATGTATGATCTGTCTACAGCAACTGTAGGTGCCGCTCCTAATCATATTTTAAAGTATTATCCTTCCATGTATGACCTTACTAACGGAACTAATGAGATTACCAATCCTTATACGTTCGTTTCTGCAGAAGGTTCAGTATTTGTAAAAGCCATCAACGAATTTGGATGTACAGCGCCCGCAGAAATCACTCTTAAATTCTATCCTTTGGTTACAGCGACAGATGCCTCTATAAGATCCTGCTTCATAGAAGCAAATCCTTCTACCGCTTCATTCAACCTTGCAAACGCTCCTGTTACAAGCCCTACGGGAGCTACCACCAAGAGATACTTCCCATCACTGACAGATGCAATAGATGCAACAAACGAGATTTTAGGATTTAACAATTATATTGCTCCCAATGGATTTGTATACGTTAGAGTATCAGACACCCGCGGATGTTATACTGTTGCAAAAATTGCCTTAACGGTAATTCCCCCTGTGACATCAAGCGTTCTGCAGGATAAGATTATCTGTATGGAAGACACCACAACTCTTGATGCCGGCCCAGGTTTCAACAGCTACGAATGGAGTACGGGAGCAACTACTCAATCCATCAAAGATGTAGGAGTGGGAACCTACTGGGTAAAACTAAAAACAGGAGAATGTATTGCAACGCAAAAAGTAACAGTATATCCTTCTGAGCAGCCGGTTGTAACTAATATTGATGTTTCCAATACCACATTAACAATCAATGTAATAGGAGGAACACCGGATTACCAGTATTCTATGGATAAAATCTTATGGCAGGCTTCTAATACGTTCTCTAATGTAGCAAGAGGAACTTACAAGGTATATGTAAAAGATGCTTATGACTGCGAACCTATTGAAGTCACAGTAGTGGTTCCTAATCTTATCAACATGATTACTCCAAACGGAGATGGCGTGAATGATGTAGTAGATTATTCTGCAATGGCAGGCAAACAAAACCTTACATTGAGTATCTTTGACAGATATGGAACAAAGATACACCAGGGTGACAAATCCAACGGATACAAATGGGACGGAACTATTGCAGGGAAGAAAATACCAACAGGCACATATTGGTATTCCGTAACCTGGAATGAAAATGACAAGAAGAATACTGCTTTCAAGTTTTCGGGATGGATTGTCGTAAAAAACAGAGAATAA	MINMKKYLLVFLIFLAQMAFAQQDCTSAIPICSDAAISLTPNGWGNVKEGQVGCLGPNGESNSIWLTFSIETAGTLTFVVTPTGPTAVGIDYDFALYGPNHNCANTTATPLRCSYAGVNASIINPTGLNMTSTDTTEGGGGDGYVKYIDVLPGQVYHLLLNNYSPLVAPFTLTFGGTAKLLTPFDNNSAQVYQPNPFLQPGPTQNGEIPVCGKIVNYDFSTFSAQILNSNPNFIVKYYASATDALDDTNAITAPTNINVATTYTYAISYVDPNSPTSFLNQCRDFGQIKFIDKSFTLNPATLTSCSNNNSGTAMYDLSTATVGAAPNHILKYYPSMYDLTNGTNEITNPYTFVSAEGSVFVKAINEFGCTAPAEITLKFYPLVTATDASIRSCFIEANPSTASFNLANAPVTSPTGATTKRYFPSLTDAIDATNEILGFNNYIAPNGFVYVRVSDTRGCYTVAKIALTVIPPVTSSVLQDKIICMEDTTTLDAGPGFNSYEWSTGATTQSIKDVGVGTYWVKLKTGECIATQKVTVYPSEQPVVTNIDVSNTTLTINVIGGTPDYQYSMDKILWQASNTFSNVARGTYKVYVKDAYDCEPIEVTVVVPNLINMITPNGDGVNDVVDYSAMAGKQNLTLSIFDRYGTKIHQGDKSNGYKWDGTIAGKKIPTGTYWYSVTWNENDKKNTAFKFSGWIVVKNRE				NA	NA	NA	NA	NA
BMS003_02027	612			hypothetical protein	ATGAATAAACTTTTATTAATTTTAAGCTTTTTCATTGCAATTTTCTGGACCAAAGCCCAGACCATCAGTGATAAAGCGTTAACACAGGCTGTCTCACAGCTCAACACTTCCAAATCAGCCAGTGATTATAACAATCTTTTCAATAAATTTTCAGCAGCAAAAACTACTGAAACATGGCAGGCTAATTATTATGCTGCAACTGCATTATACCTTAAAAATGAAAGCCTGATAAAGAAAGTACCTGGCGCCAGCCTTATGGATGATAATGCTTTAGCAAGAAAAATAGCTACAGGAACATGGACTATACAAAAAGACAATGCTGAGGTCAACATATTACTGGCCTTATTGTACGTTCAGAAAATGCAGATCGACGGCTCTCAAAGTAATCAGCCAGACCTGGATGTCATCTCTCAAAGCATCGCAAAAGCTGAAGCAAACTCTGCCAACAATCCAAGACTAACCGTTCTTAAAGCAAAAATCAAAGAAAAATCGGGAGATAAACCCAATGCCGACATTTTATACCGTAAAGCTTTAGGCGAATTTTCCAACCAAAACTCTTCAGACAGCAAATCTCCTTCATGGGGAAAGCAATTGGTACCCTCTGTACAGTAA	MNKLLLILSFFIAIFWTKAQTISDKALTQAVSQLNTSKSASDYNNLFNKFSAAKTTETWQANYYAATALYLKNESLIKKVPGASLMDDNALARKIATGTWTIQKDNAEVNILLALLYVQKMQIDGSQSNQPDLDVISQSIAKAEANSANNPRLTVLKAKIKEKSGDKPNADILYRKALGEFSNQNSSDSKSPSWGKQLVPSVQ				NA	NA	NA	NA	NA
BMS003_02028	1236	entS_1		Enterobactin exporter EntS	ATGATTTCCTTTACCCCGTTACAAACATTACAAAATGTTGAGTTCAGAAATCTTCTTACCGGAAGGTTTTTTATTGTTTTAGCTTTCAGAATGCTTGCCACTTTACTAGGATGGTGGGTGTATCAATTAACAAAAGATCCTTTTTCAATAGGCCTCATCGGACTTTCGGAGGTAATTCCCGCTGTAAGCTGTGCGCTGTATGCCGGGCATGTTATTGATATGAACGAAAAAAAGAGGCTGCTTCTCATCTGTAATTATGCTTATATTTTTCTGATCGGGCTTCTGCTAGTTCCGGCATTCCTTGATGTAGAAATGCATTTCACAGGTCATCAGATTACGTATTATATTTATGGAGTTATTTTTTTTACAGGAATAGCCAGGGCTTTTATAGGGCCTATTGTTCCTTCTATGATTCCTAAAATTGTAAAGAAAGAGAATCTTCCTAATGCGGTTACTCTGAACCAGGCTACCTTCCTGATCTCTTCCGTTTGCGGACATGCCATTGGGGGTGTTCTCATCGGGTTTATAGGTGTAAAATGGACACTGGTTGCTATTCTGGCTTTGATATTTGTTGCTTCATTATTTTTCTGGCAACTTCATAAACAGCATTCAGACTACAAAAAGGAGACCGTGAATGTAGTGGAAAGTATGCGTGAAGGAATTTCTTATATTTTCAAAACCAAAGAAATACTGGGTGCTTTATGTCTAGATATGTTTGCTGTACTTTTTGGTGGTGCGGTAGCTATGATCCCTGTATTCGCAACGGATATCTTAAATTCAGGAGCTGAAGGTTTCGGCCTGCTGAATGCGGCTTCAGATATTGGTTCCATGTGCATTATCACTATTTTATCTATTGTACCTCTTAGAAAAAATCAGGGAAAAATACTTCTTGCTGTTGTTACCGGGTTTGGTCTTTGTATCATTGGATTCGGTCTTTCCAAACTATACTGGCTGTCTTTTATGTTCCTTGTGATGAGTGGAATGCTTGATGGAATTTCTGTAGTTATCCGGGGCACCATTGTACAGTTAAAAACACCGGATCATATCAGAGGACGTGTTTTGAGTGTGAATTCAATTTTCATTATGTCCAGCAATGAAATGGGACAGTTTGAAAGCGGGCTTATGGCCAAATTATTAGGAGTCGTACGCTCTGTCGTATTTGGAGGATGCATGACTGTTCTGGTTGCTTTGCTTGTGGGAAGCACCAATCCTAAACTGAGAAAAATGCAATATTAA	MISFTPLQTLQNVEFRNLLTGRFFIVLAFRMLATLLGWWVYQLTKDPFSIGLIGLSEVIPAVSCALYAGHVIDMNEKKRLLLICNYAYIFLIGLLLVPAFLDVEMHFTGHQITYYIYGVIFFTGIARAFIGPIVPSMIPKIVKKENLPNAVTLNQATFLISSVCGHAIGGVLIGFIGVKWTLVAILALIFVASLFFWQLHKQHSDYKKETVNVVESMREGISYIFKTKEILGALCLDMFAVLFGGAVAMIPVFATDILNSGAEGFGLLNAASDIGSMCIITILSIVPLRKNQGKILLAVVTGFGLCIIGFGLSKLYWLSFMFLVMSGMLDGISVVIRGTIVQLKTPDHIRGRVLSVNSIFIMSSNEMGQFESGLMAKLLGVVRSVVFGGCMTVLVALLVGSTNPKLRKMQY				NA	NA	NA	NA	NA
BMS003_02029	363			hypothetical protein	ATGAAAGCATCTGTACTGTTGAAATCGTCTTTACTAACATCTCTATTTGTTATTACATCTTGTGCTACTACAAAATACAGCGATGATATTTCAAAAAACAATTACTCAAATCTTGAAGCCGGAAAGATATATAAAGTGACCATGAGAGATGGCTCTCCGAAGCAGACCATCTTATTCAGAAACGTTGTTGGTGAAAACATTGTAGGTACAGCCGGCAAAAAAGACAGTACAGAAGTAATTATTCCCAAATCCAATGTAGCTGCCGTAAAAGACAGAAGAAAAGCAAGAATTGCTGCAGGAGCTACACTTATTGGAGCTGCCGGAGTTGCGGCTATTGTATTGAGTTCATCAAGAGCTGACTAA	MKASVLLKSSLLTSLFVITSCATTKYSDDISKNNYSNLEAGKIYKVTMRDGSPKQTILFRNVVGENIVGTAGKKDSTEVIIPKSNVAAVKDRRKARIAAGATLIGAAGVAAIVLSSSRAD				NA	NA	NA	NA	NA
BMS003_02030	1500			hypothetical protein	ATGTTAAATTTCTTCAAGAAAAAAGTGGCGCTGATCTGGGCAAAGAAACATGTTCAAAAAGCGGAGGATTTCAAAAAAAATGCTGAGAAAGACCAGGAGAAATTACTGCTTTCTCTGGTGAATACGGCTCAAAAAACACTTTTTGGGCGGGAACACGATTTTGAAAACATCCATTCTGTAAAAGAATTCCAGGACAGAGTTCCCATAGCCGACTATGAAGATCTGAAGCCTTATATTGAACGGGTAAAAAAAGGGCAGGCCAATATTTTATGGAAGGAAACACCTGAATATTTCGCCAAAACTTCCGGAACCACTTCCGGATCAAAATATATTCCGATTTCCAAAGAGGGAATGCCTTTTCAGATTGCCGGAGCACAAAGTGCCTTATTTCATTATATCAGTAAAAAAAATAACGCAGATTTTGTGAACGGAAAAATGATTTTCCTGCAAGGCAGCCCGGAGCTGGAAGAAGTTTTTGGAATAAAAACAGGAAGACTATCCGGTATTGTAGCGCATCATATCCCAAATTACCTGCAGAAAAACCGTTTACCAAGCTGGGAAACCAATATTATGGAAGACTGGGAAGCAAAAGTGGAAAAGATCATAGACGAAACGGAACGCGAAAACATGACTTTGATTTCCGGAATTCCGCCATGGCTTATCATGTATTTTGAAAAGCTTACAGAAAAACATGGTAAAAAGATCAAACAGCTTTTCCCCAACCTTCAGCTTATTGTAACCGGAGGAGTCAACTATGAGCCTTATCGTGATAAAATGGAAGAGTTACTGGGAGGAAAAGTGGATATTGTTCAGACTTTTCCTGCTTCTGAGGGCTTTTTTGCATTCCAGGATGATTATACCAAAGAGGGCCTTCTGCTATTGACTAATCATGGAATTTTCTATGAATTTATTCCTTTGGAAGAATATGGCAAGCCTGAGGCGAAGAGATTAACATTAAAAGAAATTGAGCTTCATAAAGATTACGCACTGATTCTTACAACCAATTCCGGATTGTGGGCGTACTCTATAGGAGATGTGGTGAGATTCATCAGTAAAGATCCGTACAGAGTATTGGTGAGTGGAAGAACAAAGCATTTCACTTCGGCTTTCGGGGAACACGTGATCGCATTTGAGGTGGAAGAAGCTATGAAAGCTACCCTTGAAAAATACCCTGCGCAGATTACAGAATTCCATCTTGCTCCACAGGTAAACCCGGAACAAGGACTTCCTTATCATGAATGGCTGATTGAATTTGAAAAAGAACCTGAAAATCCGGAATTATTCAGAAATGAGCTTGACCAGCAGCTCAGAGCAAGGAATACGTATTATGATGATCTTATTTCCGGAAATATTTTACAGAAACTACAGATTACCCGGCTTAAAAAGAATGCTTTTCATGAATATGCAAAATCACAGGGGAAACTGGGAGGTCAAAACAAAACTCCAAGGCTAGCCAATGACAGAAACATTGCAAATCTATTAGAAATTTACAAATTTTAA	MLNFFKKKVALIWAKKHVQKAEDFKKNAEKDQEKLLLSLVNTAQKTLFGREHDFENIHSVKEFQDRVPIADYEDLKPYIERVKKGQANILWKETPEYFAKTSGTTSGSKYIPISKEGMPFQIAGAQSALFHYISKKNNADFVNGKMIFLQGSPELEEVFGIKTGRLSGIVAHHIPNYLQKNRLPSWETNIMEDWEAKVEKIIDETERENMTLISGIPPWLIMYFEKLTEKHGKKIKQLFPNLQLIVTGGVNYEPYRDKMEELLGGKVDIVQTFPASEGFFAFQDDYTKEGLLLLTNHGIFYEFIPLEEYGKPEAKRLTLKEIELHKDYALILTTNSGLWAYSIGDVVRFISKDPYRVLVSGRTKHFTSAFGEHVIAFEVEEAMKATLEKYPAQITEFHLAPQVNPEQGLPYHEWLIEFEKEPENPELFRNELDQQLRARNTYYDDLISGNILQKLQITRLKKNAFHEYAKSQGKLGGQNKTPRLANDRNIANLLEIYKF				NA	NA	NA	NA	NA
BMS003_02031	270			hypothetical protein	ATGAAAAAAATTTTATCAGCAATGTCTTTAATCCTTGGATTAGGACTTGCAACTGCTCAGCAGACTGTTCCCGCTACCAGCGCAAAACCTCACCATACTGTAAAAACTACAGCAAAAGCAGCTAAGCCTGCAATGGATGCGAAAGCAGCTAAACCGGAACAACCGGCAGCCAAAATGAAAAAAGACGGCACCCCGGATAAGAGATATAAAGAAAACAAGCATCTGAAAAAAGACGGTACTCCGGATAAAAGATACAAGGTCAATAAATAA	MKKILSAMSLILGLGLATAQQTVPATSAKPHHTVKTTAKAAKPAMDAKAAKPEQPAAKMKKDGTPDKRYKENKHLKKDGTPDKRYKVNK				NA	NA	NA	NA	NA
BMS003_02032	396			hypothetical protein	ATGAAAAAAGCAATTAAAATCTTAGGAGTGATGCTACTGCTGGTATTTACAGCAGTATCTTTTTCATCATGCAGTAAGGATGATGATCCCGTAAATAACGAATTTTTTGCAGGAACGTATAAAGGGAACATTTCCTATAAAGATGGAAGCTCTACCACTATCAGCACAGACAACGGAAGTGTATTTGTAACGAAGATCGCCAGTGGCACCAAATATAACTTTGCCTTCTCTAACAGCATTCCGGATCTTAACGGGATAGAATTCAATCAGGAAGGAGATCATACTCTTGTTATGATAGGTTCTACTGCAACCTCTTATATAAGGATTGACAATAATGTTCTGAAAATCCTGTATGTCAAAGATGGCAAAACGTGGACAGCCAACTGTACGCGCTAG	MKKAIKILGVMLLLVFTAVSFSSCSKDDDPVNNEFFAGTYKGNISYKDGSSTTISTDNGSVFVTKIASGTKYNFAFSNSIPDLNGIEFNQEGDHTLVMIGSTATSYIRIDNNVLKILYVKDGKTWTANCTR				NA	NA	NA	NA	NA
BMS003_02033	3477	mfd		Transcription-repair-coupling factor	ATGATGCTGTTTTTCGGAGGGAGAAAAAAATATCCGTACCTTTGTATATCAATAAACGATTTCGGAAAACTCCCGAAATCGCTTTTGTCGTTTATACCAATACTATTTATGCAATTAAAATCCATCAACGAAAAGTTTCTTCCAGATCTGATGCAGAAAGAGTTCGGGAAAGAAGTTTTCACCCGGTTAGAAAACAGTCAGCATATTGCTGTAAAAGGAAATGCAGGATCTTCAGTTTCTATTTTTGTGGCTGAGCTTTTTCTGGTTCAGAAGAAAAATATTCTTTATCTGGTAGATGATAAAGAGGATGCTTTGTATGCCAATACAGAGATGGAAGATCTTCTGGGGAAGGATAAAGTGCTTTATTTCCCGGCAACCCATCTTGAACCCTACCAGGTAGAAAAAACTCAAAATGCCAATTTGGTTTTAAGAACCGAAGTTCTCAATAAGATCAATTCCGGAAGATCTCCAAAAGTTATTGTGGCCTATGCCGGAGCTTTGTCTGAAAAAGTTTTGAAAAAAGAAGACTTTAAAGCAATTTCTCATCATATCAAAGTAGGTGATCAGCTGGATTTTGATTTTGTGGACGAGTTGCTCAATCATTATCATTTTCAGCAGGCCGATTTCGTTTCGGAACCGGGAGAGTTTTCTGTGAGAGGAGGTATTGTGGATGTATTTTCCTATTCGTATGAAAAGCCTTACAGGATTACCTTTTTTGGAAACGAAGTGGAAAGTATTAAAACCTTTGATATCGAAACTCAGCTTTCTGTAGATAAAGTGAAAGATTTTCAGCTGGTTTCCAATATGAATTTCTCTGTAACGGGAAGCCGGGTGTCATTGCTTCAGTTATTGCCTGAAGAGAGTTTTGTGGTTTCTAAAAATGGGATGATAGGAATGCAGAAGATCAGAACATTCTATGAAAGGTCTCTGGAGAAATATGATACATTAAGTAAAGATATTGCCCACAGGACACCGCAGGAACTTTTCATCTCGGATCAGGAGTTTTTATTTGATTATAAAAAATTTAAAACAGTTGATTTCGGAGGAGCAGTTATTGAAGGTCTGAAAGAAGTTACAGAAATCAAAATGGAGCAGGTACCGCAGCCTTCATTCCATAAAAATTTTGAACTGCTGATTGAAGATATTGAAGAAAAACAGAATAGCGGATTTGATACCTGGATTTCTTTTTCAACAGAAAAACAGAAAGAAAGACTGGAGTCTATTTTTGAGGAACTGGAGCATGAGCTTCCTTTTAAAAGTTTTAAATCTGAACTGCATGAAGGTTTCGTAGATAACGGACACAAACTGCTTGTGTATACGGATCACCAGATTTTTGACCGTTATCAGCGATATAAAGCGAAAAATACTTTTGCCAAGTCAGAACAGCTTACCCTGAAAGATCTGATGTCTTTGAAAATAGGAGATTATATTGCTCATATTGACCATGGAATAGGGAAGTTTATGGGATTGGTAAAAGTGAATAATGACGGTAAAATTCAGGAATGTTTTAAACTGACTTATAAAAACGGTGACCTGTTGTATGTAAGTATTCACTCTTTGCATAAGATTTCAAAATATAACGGGCCGGACGGAAGAGAGATTGTATTAAGCAAGCTGGGTTCTCCAACCTGGAAATCATTAAAGCAGAAAACAAAAGCTAAGGTAAAGCAGATTGCATTTGACCTTATTCAGTTGTATGCACAGAGAAAAACAGCTAAAGGCTTTGCGTACACACCAGATTCTTATCTGCAGAATGAGTTGGAGGCAAGTTTTATCTATGAAGATACTCCGGATCAGGAAAAAGCAACCATAGATGTTAAAAGAGATATGGAAGCTGATACCGTGATGGACAGGCTTGTTTGTGGTGATGTAGGTTTCGGTAAAACGGAGGTTGCAATCCGTGCGGCATTTAAGGCAGCTACAGACGGTAAACAGGTTGCCGTATTGGTTCCTACCACTATTCTTGCGTTTCAACATTACAGAAGCTTTAAAGAAAGACTTAAAGATTTTCCGGTGAATGTTGCCTATGTCAACAGATTCAGGACGGCTAAACAAAAATCAGAAACTTTAGAAGCTTTAAAGAATGGAAAAGTAGATATCATCATAGGAACACATCAGTTGGTAAGCAGTTCCGTGAAGTTCAAAGATCTTGGGTTACTGATTATTGATGAAGAGCATAAGTTTGGTGTTTCAGTAAAGGATAAACTGAAGACACTGAAAAATAATGTGGATACCCTTACTCTTACGGCAACTCCTATTCCAAGAACTCTGCAGTTTTCTCTGATGGCGGCAAGAGATCTATCCGTAATTAAAACACCTCCGCCAAACAGACAGCCGGTAGATACGCAGTTGATTGGATTTAACGAAGAAACCCTTCGTGATGCGGTTTCTTATGAGCTTCAGCGAGACGGCCAGGTATATTTTATTAATAACAGAATTGAAAACCTCAAAGATATTGCAGGGCTTATCCAAAGACTTGTTCCGGACGCAAGAGTCATCACAGGGCATGGGCAGATGGAAGGAAAACAGCTTGAAAAGAATGTGCTGGACTTTATGGATGGAAAATATGATGTTCTTGTTTCCACTACTATTGTGGAAAGCGGAGTGGATGTTCCGAATGCCAATACTATCTTTATCAATGATGCCCAAAGATTTGGAATGGCAGATCTGCATCAGATGAGAGGAAGGGTAGGACGTAGCAACAGAAAAGCTTTTTGTTATCTCATTACACCTCCCTATGATATGATGACTTCCGATGCCAGAAAGCGCCTTGAGGCTATTGAACAGTTTTCTGACCTGGGAAGCGGGTTCCAGATTGCGATGAAAGATCTTGAAATTCGTGGAGCAGGAGACCTTTTAGGTGCTGAGCAGAGCGGATTTATAAATGAAATGGGATTTGAAACCTATCAGAAGCTAATGCAGGAGGCGCTTGAAGAATTAAAAGATGATGCTGATTTTGAAAAGCTATTCGAAAATGAAGAAGACAGGAAGAAACTTTTCAAGTCTGTAAAGGATGTCAATATTGATACTGATCTGGAACTGATGCTACCGGACTTCTATATATCTAATACAGAAGAAAGATTATTGCTCTACCAGAAAATTGCAGAAATCAGCAATGAAAAAGATCTTCACAAGTTTGAGCTTGAGTTGATTGACCGTTTTGGAGCGTTGCCGAAAGAAGCAGTGAATCTTCTGAAAAGTGTTTCCCTGAAATGGCTGGCTGCTGATATCGGTTTTGAGAAAATAGTTATGAAAAATGGAGTATTCCTGGGTTACTTCCCCGGAAACCCTCAGGATAAGTTCTATCAGACGGACAGATTCAGGCATATTATTAATTATTTAACCCGTAATCCTGCCGAAGCACAGCTTAAGGAGAAGTCCGGAAAAGAGGGTAACCAGCTGATGATGAGGAAAGAAAGGGTAAAGAACGTAGATGAGGTTAATATGCTTCTTAAAGCTATTATTGAAGGTAATTAA	MMLFFGGRKKYPYLCISINDFGKLPKSLLSFIPILFMQLKSINEKFLPDLMQKEFGKEVFTRLENSQHIAVKGNAGSSVSIFVAELFLVQKKNILYLVDDKEDALYANTEMEDLLGKDKVLYFPATHLEPYQVEKTQNANLVLRTEVLNKINSGRSPKVIVAYAGALSEKVLKKEDFKAISHHIKVGDQLDFDFVDELLNHYHFQQADFVSEPGEFSVRGGIVDVFSYSYEKPYRITFFGNEVESIKTFDIETQLSVDKVKDFQLVSNMNFSVTGSRVSLLQLLPEESFVVSKNGMIGMQKIRTFYERSLEKYDTLSKDIAHRTPQELFISDQEFLFDYKKFKTVDFGGAVIEGLKEVTEIKMEQVPQPSFHKNFELLIEDIEEKQNSGFDTWISFSTEKQKERLESIFEELEHELPFKSFKSELHEGFVDNGHKLLVYTDHQIFDRYQRYKAKNTFAKSEQLTLKDLMSLKIGDYIAHIDHGIGKFMGLVKVNNDGKIQECFKLTYKNGDLLYVSIHSLHKISKYNGPDGREIVLSKLGSPTWKSLKQKTKAKVKQIAFDLIQLYAQRKTAKGFAYTPDSYLQNELEASFIYEDTPDQEKATIDVKRDMEADTVMDRLVCGDVGFGKTEVAIRAAFKAATDGKQVAVLVPTTILAFQHYRSFKERLKDFPVNVAYVNRFRTAKQKSETLEALKNGKVDIIIGTHQLVSSSVKFKDLGLLIIDEEHKFGVSVKDKLKTLKNNVDTLTLTATPIPRTLQFSLMAARDLSVIKTPPPNRQPVDTQLIGFNEETLRDAVSYELQRDGQVYFINNRIENLKDIAGLIQRLVPDARVITGHGQMEGKQLEKNVLDFMDGKYDVLVSTTIVESGVDVPNANTIFINDAQRFGMADLHQMRGRVGRSNRKAFCYLITPPYDMMTSDARKRLEAIEQFSDLGSGFQIAMKDLEIRGAGDLLGAEQSGFINEMGFETYQKLMQEALEELKDDADFEKLFENEEDRKKLFKSVKDVNIDTDLELMLPDFYISNTEERLLLYQKIAEISNEKDLHKFELELIDRFGALPKEAVNLLKSVSLKWLAADIGFEKIVMKNGVFLGYFPGNPQDKFYQTDRFRHIINYLTRNPAEAQLKEKSGKEGNQLMMRKERVKNVDEVNMLLKAIIEGN				NA	NA	NA	NA	NA
BMS003_02034	822			hypothetical protein	ATGAAAAAAATTATATATTGCTGCGCGGCTGGATTTCTTTCTTTCTATGCCAACGCACAGGTGGGAATCGGTACTGCAAAACCGAAATCTATTCTTGATGTGAATGGGAAAACCACCTTAAGAAAAGAACTTAGAGTAGGTGGCACTTCAACTCAGCCAGGAAATGCAGGGTTGAACGGCCAGGTTTTGGTTTCTCAGGGTGAGGGTTTGCCTCCTGTATGGAAATCTTTGAATGTTTCCTTTATGGAAGAGGGACAGTATAAGCTGGTTAATTCTTATCTGTCATCAGATCAGTTAGGTGTAATATCGCTTTCTAATGGTGTTGCCGGGGATAATATCTACACAAACAAAGTGGGAGATAATGTAACCGACGCAGCGAAAGGAAACTGGAAAAAAATTGATGGTCTTAAAAATACATTTACGATCAAAAACGGAAAAAACAGAATCACGTATCAGTTCCAGACGGGAATTGAAATGAAAGCGCAGTCATCTACTACTATAGAAAATGTCAGGTTTGCCTGCGGTGTATTCAGAAATGGATTGTTGGTGGCTGTACGTCCGGATAGAATTGCTTCTAATAACAATTCGGGAAAAAATGGTCTTCAGGACTATATATTTACCCTTAATTATACCGAACAAAATGTCCCTGTAGGTGTTCATAATATTGAAATTGCATGCAGAAAAATTGATACTTCAAATTCTACTTCAGAATTTGCGATCGGACGGAACGTTCAGACTTCAAGCGGAGTTTCCAGTGCATTTACTTTAGAATCTACCATGAAAATGGATATTATAGAATACGTGAGCTATAAAAACAACTAA	MKKIIYCCAAGFLSFYANAQVGIGTAKPKSILDVNGKTTLRKELRVGGTSTQPGNAGLNGQVLVSQGEGLPPVWKSLNVSFMEEGQYKLVNSYLSSDQLGVISLSNGVAGDNIYTNKVGDNVTDAAKGNWKKIDGLKNTFTIKNGKNRITYQFQTGIEMKAQSSTTIENVRFACGVFRNGLLVAVRPDRIASNNNSGKNGLQDYIFTLNYTEQNVPVGVHNIEIACRKIDTSNSTSEFAIGRNVQTSSGVSSAFTLESTMKMDIIEYVSYKNN				NA	NA	NA	NA	NA
BMS003_02035	822			hypothetical protein	ATGATGAAAAAACTATTATCAACGCTGCTTTTTACCATGGGACTTTTGGTAACGGCTCAAGTAGGAATAAAAACTGATTCTCCGAAAGCAGAATTGGATGTGAACGGGGATGTCAATTTCAGAAATAAGATTGGTGTTCTTAATGCTTCTGATAACACGATATTTCAGGGTAATAATGATCAGCTTCTGGTTTCCAGAGGGGAAGGGTTTTCACCGGTATGGAAATCACTTCGTATCCCTGAATATGAACCGAATAAATTTTATCTGATTTATAATAACTCTTTCTCTGATAAAGTAGGGGTTAGCTTTACATCTTCTGATGATTCCTCAGTTGGTTTCTCTTCAAGGGGGGCTACTTTTACCAAAGGAAAAGAGCTTAGTGCACTTCCTGATTTTAAAAAAATAAATGGCCTTTCAAAGACGATCAGCGTATTCAGCTCTCAAAGCAAAGCTTACTTCCAGTTTGAGACAGTAGTACAGGCTAATTTTCAAGCTGTAGGTAGTACAGATACTTCAATAGACTATGCATGCGGTATTTTTGTAGATGGAAAACTCGTGAACCTTAGACAAAGAAACTTAAAGGCAAACAATAGCTTATATCCGTTTCTTACCCATACTCAGATCGGAATTGTAGATAACCTTGCACAGGGAAATCATCTGGTAGATGTTGCCTGTACAAGACTGGGATCTTATGGAGCTTCCAGCTATACCCTTAGAATAGGAACTAATACCAATAGTAATATTAATGATTTTATTGCTCAGTCGTCTCTGAAAGTAGATGTATATGAAGTTCCGGAAGTGTTTAACAGTATTATAAACTAA	MMKKLLSTLLFTMGLLVTAQVGIKTDSPKAELDVNGDVNFRNKIGVLNASDNTIFQGNNDQLLVSRGEGFSPVWKSLRIPEYEPNKFYLIYNNSFSDKVGVSFTSSDDSSVGFSSRGATFTKGKELSALPDFKKINGLSKTISVFSSQSKAYFQFETVVQANFQAVGSTDTSIDYACGIFVDGKLVNLRQRNLKANNSLYPFLTHTQIGIVDNLAQGNHLVDVACTRLGSYGASSYTLRIGTNTNSNINDFIAQSSLKVDVYEVPEVFNSIIN				NA	NA	NA	NA	NA
BMS003_02036	738			hypothetical protein	ATGAAAAAAATACTATTTGCAGCATCAATTTTTTTAACTGTTACTGCCTCGGCTCAAGTAGGTATTAATACTCCTAATCCGACCAATATGCTGGATGTGAACGGAGATCTTAATATCAGAAAAGAATTAAGAACAGGAGGTACGGATGTATTGAAAGGATCTGCCGGAACAGCGGGAGATATTCTGCATAATAATACTGACTTAAGTACAAATGACTGGAAAGCCATAAAAATTGCCGATGGACAGGGAAGTATGTCCGTGTTTTCAATTAATACCGTTGCAGACAAAACTGGGGTAACCTTTTCCGGAAGTAACGGATCTACTAACCCTTATAATGAAGGGGCTGCCCTGACTTCCGACTGGTCTGTGCTTACAGGAACTATGGATAGTTTCTCTGTGACGAATCAAACAAATAAAGCTACTTTTTCATTCCAGACAACAGTGCAGAAAACTGGATCCAATTCTGTCAGCTTTGCATGTGGAGTGTTTGTAGATAATCAGTTGAAAGCCGTTAGAACAGATGTTTTGCTTGGGGATCCCGGAGCCTATAGAATTTTTAATCTGAATGCTACGCTTACTAATCTTACCCCTAAAAATGATTATAAAGTAAAAGTAGCCTGTACAAAAAGAGCAATTTCCGGATCTACACTCGGAATAGGTACTGCCGTGAATACAACGTACCTCAATAGTGATATGTCACAATCTGTTTTGACAACATCCATATTGCAGCCTTATTAA	MKKILFAASIFLTVTASAQVGINTPNPTNMLDVNGDLNIRKELRTGGTDVLKGSAGTAGDILHNNTDLSTNDWKAIKIADGQGSMSVFSINTVADKTGVTFSGSNGSTNPYNEGAALTSDWSVLTGTMDSFSVTNQTNKATFSFQTTVQKTGSNSVSFACGVFVDNQLKAVRTDVLLGDPGAYRIFNLNATLTNLTPKNDYKVKVACTKRAISGSTLGIGTAVNTTYLNSDMSQSVLTTSILQPY				NA	NA	NA	NA	NA
BMS003_02037	876			hypothetical protein	ATGGTAAAAAACTATTTTTTTAAAATGTTTGCCGGTATTGCTTTTCTTGGGCTGCTGGCAGCATGTAATACTACCTCGGATCCCACGGAATCCATCCCGAATCCGGATGATGGACCGCCACCTAAAAAGGTTTTAGCAAAGGTTAGCTCTAATAATGTTTCTCAGGAAGAGTATACTACAATGGCCGTAACCGGAGATTTGCAGGCTGCGGTATCTAAAGATGAATTTGCTTCCGGAAATGCCTATTTTACAGGAACGGTTACATATACCAACAAGGATATTACTAAAATAAAATATGTAAGTTCTGCTGCATCCAGCCTTGTTTATGAATTTAATATTGTTCCGGATAATACAGGGAAAAAGATTTATAATGCAACCTCTACAGCCACAGGTGCTACTCCGTCTGTTTCTGTAGTAAGTGACTATGCATTTACCTATGATTCTGTAACCAGCAAGCTTACTAAGATTCTTGAGAAAAGAAAAGAAGGAGGAATCAGTGCTTATAACAGATTTATTGATTATACTTTTGTGTATAACGGAAATAACGTTATACAGGTAGTTTGTTCTAAAGGATTATTAGATATCAACGGAAATCCAAATATGGCGACAGCAGTAATAAGTAAATACAGCTTTCAGAACTATGATGCTCAGAAGAGCCCTTATTCTACGCTGCCATCCGTTTATTTCATTACACGAAGTCTGATCAACCCGGCTAATTTCTACAAAATATCTCCGAACAATCCTACTTCAATGTTTATAGAGCTTCCGCCACCAGCCGTACCTGTGAATACAGCTCAAAGTTATTCTTATGATAATCAGGGGTATGCAGTGCTTGAGAAAAATCAGGATATGACCTTTACCTATAAAAATTTATAG	MVKNYFFKMFAGIAFLGLLAACNTTSDPTESIPNPDDGPPPKKVLAKVSSNNVSQEEYTTMAVTGDLQAAVSKDEFASGNAYFTGTVTYTNKDITKIKYVSSAASSLVYEFNIVPDNTGKKIYNATSTATGATPSVSVVSDYAFTYDSVTSKLTKILEKRKEGGISAYNRFIDYTFVYNGNNVIQVVCSKGLLDINGNPNMATAVISKYSFQNYDAQKSPYSTLPSVYFITRSLINPANFYKISPNNPTSMFIELPPPAVPVNTAQSYSYDNQGYAVLEKNQDMTFTYKNL				NA	NA	NA	NA	NA
BMS003_02038	933			hypothetical protein	ATGAAACAAATTTTCTATTTTATTTTACTCATCGCAGGTTTTTCCTCAATACATTCCTGCAAGAATTTACAAGATGAGGATGGGAATCCACTGCTGGATATTAACGATACAGGAGGCTTAAGCGGCCCCAGAGCATTATACAGAGAAATCACAGATAAAGATACCATTGCAGAATATCAGTACAGCGGTCTTCTTGTGACTAAAGTACTTACAGACAGTGCTTCAGTAACTAATATTATGTACAGTGGTGATAAAATCAGTCAGATTAACTTTAATGGTTTCCTGGATCTTGACGGAAACGGGCAACTTGATAAGGACAGTGTATCTTACACTCAATTATTTACTTACGCAAATAATAATAAGCTTCAGAAGATTTCTGAAAACCGTTCAATTTTCAGAAGACCTCCGCCTATAATACCGGGAGATCCTCCGGGACCACAGACTTTGTTTAGAAAAGAGAAAATATCTTACGAGACATTTTATAGTGTTTCTACAGGGAAACTTGATTCTATCATTATGAAAAACGGTCCGGATGTACCTGGAGGTTCACTTACTTTCACAGACTATTCTAAAACATCATATACTTATGTAGGTGACAATGTATCTAAAGTGCTGAGATATTACGGAACAATGTCTGGTAATGCAATGGGACCTGTTACCAGCAAATACAGCTACGAATACTATGCATATGACGATCAGGTGAGCCCTTTCACATTGTTGCCACATGTATATAAAATCTCAAGACTGTTATCTACAATAATTAATGATAAAGAAAGTCTTATCTTATCTCCAAACAATCCTAAGAGATGGTCGGTAACAGATCTTACACCACCTATTCCAACTCCGATTGTGAAGAGTACCAATTACGTTTATGATCCCCAGACTTATATGACAAAAGGATATGGCGTTAATTACATCTATAAACCACAATAG	MKQIFYFILLIAGFSSIHSCKNLQDEDGNPLLDINDTGGLSGPRALYREITDKDTIAEYQYSGLLVTKVLTDSASVTNIMYSGDKISQINFNGFLDLDGNGQLDKDSVSYTQLFTYANNNKLQKISENRSIFRRPPPIIPGDPPGPQTLFRKEKISYETFYSVSTGKLDSIIMKNGPDVPGGSLTFTDYSKTSYTYVGDNVSKVLRYYGTMSGNAMGPVTSKYSYEYYAYDDQVSPFTLLPHVYKISRLLSTIINDKESLILSPNNPKRWSVTDLTPPIPTPIVKSTNYVYDPQTYMTKGYGVNYIYKPQ				NA	NA	NA	NA	NA
BMS003_02039	564	pth	COG0193	Peptidyl-tRNA hydrolase	ATGAAATATTTAATTGTCGGGCTTGGTAACAAAGGCTCAGAATATGAAAATACAAGACACAATATAGGTTTTAAAGTAGCCGAAAAAATAGCTGAAACACTCGACGTATCATTCAATACTTCCAATTTTGGCTGGCTGGCAGAAGGAAAACATAAAGGCAGAAAAGTTTTTGTCCTTAAACCGGATACCTATATGAACCTTTCCGGTAATGCAGTGAAGTACTGGATGCAGAAAGAAAATATTCCTTTGGAGAATGTCTTGATTGTTACTGACGATCTGGCTTTACCTTTCGGGACTTTAAGAATGAAGGGAAAAGGTTCAGATGCAGGACACAATGGGCTTAAAAATATTAATGAAGTATTGCAGACTCAAAACTATGCAAGACTGCGATTTGGGATCTCTGCGGATTTCGCTGCCGGAAGACAGGTAGATTATGTTTTAGGAACATGGAATGAAGAAGAATCAGAAAAGCTTACAGAGAGAATTGAAACCTCTGCGAAGGCTAGTCTTTCTTTCGTTTTTGCAGGATTAAATAATACAATGTCTGCTTTTAACGGGAAATAG	MKYLIVGLGNKGSEYENTRHNIGFKVAEKIAETLDVSFNTSNFGWLAEGKHKGRKVFVLKPDTYMNLSGNAVKYWMQKENIPLENVLIVTDDLALPFGTLRMKGKGSDAGHNGLKNINEVLQTQNYARLRFGISADFAAGRQVDYVLGTWNEEESEKLTERIETSAKASLSFVFAGLNNTMSAFNGK				NA	NA	NA	NA	NA
BMS003_02040	636	mtcA2	COG0288	Carbonic anhydrase 2	ATGAAAGCACATACATACGAAACTCAGTCAACGATTACTCCTGAGAAAGCATTAGAATTCTTAAAAGAAGGAAACCAAAGGTTTGTAAACAATCTTAAAGCAAACAGAGACCTTCTGGAACAAGTAAATGCTACCCGTGAAGGACAATGGCCGTTTGCTGTAGTTTTAAGCTGTATAGACAGCCGTACTTCCGCAGAACTTATCTTTGATCAGGGATTAGGAGATATTTTCAGCATCAGAATTGCCGGTAACTTTGTTAATCAGGATATTCTTGGATCTATGGAATTTGGCTGCAATGTTGCAGGTTCCAAGCTTATTGTAGTTCTGGGGCACACAAAATGCGGTGCATTGAAAGGAGGTCTTGATGCTGCACAAATAGAAGGGCTGGGAATGGATAACCTTAACCACCTTATCAATCACTTCAACCCAATCATCAATGAGATCATTGAAGATAATGAAGAACGTTCATCAAAAAACAGCTCTCTTCTGGAAAGACTGAATCAGCAAAATGTAAGAAGTGCCATTGAAGATATCCGTAAGCAAAGCTCAACACTTAAAAACCTTGAAGCAGAAGGTAAAATTAAAATCGTTGGAGCCAATTATGATGTCGAAACAGGTGCTGTAATGTGGTTATAA	MKAHTYETQSTITPEKALEFLKEGNQRFVNNLKANRDLLEQVNATREGQWPFAVVLSCIDSRTSAELIFDQGLGDIFSIRIAGNFVNQDILGSMEFGCNVAGSKLIVVLGHTKCGALKGGLDAAQIEGLGMDNLNHLINHFNPIINEIIEDNEERSSKNSSLLERLNQQNVRSAIEDIRKQSSTLKNLEAEGKIKIVGANYDVETGAVMWL	PGPT0002415_4881	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS003_02041	1593			hypothetical protein	ATGAAAAAGACATCATTAATAGGAGGAATCAAGGAAAATTTTCCTTCAGGACTCGTGGTATTTTTAGTAGCACTTCCATTGTGTTTAGGAATTGCTTTAGCATCAGGTGCTCCCCCATTATCCGGTATTATTTCCGGTATTGTAGGCGGCCTGGTAGTAGGAACAATCAGTAATTCAAACATTTCCGTTTCCGGACCAGCAGCGGGTCTGACAGCGATTGTTTTGACAGCAATAACAGATCTTGGAGCATTTGAACTCTTTCTTTGCGCAGGGATCATAGCAGGACTTATTCAATTGATCCTAGGGTTTGTAAGAGCCGGAAGTATTTCCAACTATTTCCCGAATAACGTGATTGAAGGAATGCTTGCTGCCATAGGAATCATTATTATTTTAAAACAGATTCCGCACGCATTAGGATTCGACAAAGATTATGAAGGACATGAATCTATCTTTGATAATGGTCTTAACTTCGGATATTTTGCAGAATTATTCGGAGCTATCCACCCGGGAGCTATCGTTATTACTCTGATTTCCGTAGCAATTCTTGTTGCCTGGGACAAAATACATGTACTGAAAAGGATGAAAATGCTTCCCGGAGCCTTGGTGGCAGTAATTGTAAGTATCCTATTGAATCAACTCTTTAAGATGTCCGGAAGCTCTTTAGCTATTCAAACCCAGCACCTGGTTTCATTACCGGTTCCGCAATCTTTTGATGATTTTAAAAATCTGATTACAACCCCTGATCTTAATGGTTTTACCAATCCTAAAGTCTGGATCGTAGGAGCAACAATTGCCATTGTAGCCTCTATTGAAACATTACTTTGTATTGAGGCTTCAGACAGATTAGACAGGCAAAGAAGAATTACGGATACCAATCTCGAGCTGAAGGCTCAGGGAATCGGAAACCTTGTGAGTTCTTTCATTGGCGGACTTCCTATGACTTCTGTAGTTGTAAGAAGTTCTGCAAATGCAAATGCGGGAGCTACCTCTAAAGTATCAACAATCATTCATGGTGTGTTTTTATTGATATGCGTGCTTTCTATTCCTGTTGTATTAAATCTAATTCCACTGGCTACTTTGGCTGCCGTATTAATATTAGTAGGATATAAACTGGCAAAGCCTGCTACATTCAAACATTTCTGGCATTTAGGAAAATTCCAGTTTATCCCATTCGTAGCAACGGTGGTAGCAGTGGTAGCCACAGATTTATTAAAAGGAGTAGGAATTGGTCTTGCCATCTCAGTTTTTTATATTCTTCAGGGAAATATGAAGAGAGCTTATTATCTTAGCAGAGAAAGGCTGGATGATGCAGACGGAATCAATATAAAACTGGCTGAAGAGGTTTCATTTTTAAATAAAGCTGCAATCAAAAAAACACTTAAAAACATAAAACCCAACTCAACGGTTATCATTGATGCCAAAAATACCTCTTATATTGCAACAGATGTACTGGAAATGATTCAGGATTTTGCCAATATACGCGCCAAAGAGCAAGACATCAGTGTAGAGCTATTAGGCTTTAAAACGTCATACAGAGATTACGAAAGAAGTGAAGATTCACATATCTTAGTAACTCATAAGAGGGCCATGTAA	MKKTSLIGGIKENFPSGLVVFLVALPLCLGIALASGAPPLSGIISGIVGGLVVGTISNSNISVSGPAAGLTAIVLTAITDLGAFELFLCAGIIAGLIQLILGFVRAGSISNYFPNNVIEGMLAAIGIIIILKQIPHALGFDKDYEGHESIFDNGLNFGYFAELFGAIHPGAIVITLISVAILVAWDKIHVLKRMKMLPGALVAVIVSILLNQLFKMSGSSLAIQTQHLVSLPVPQSFDDFKNLITTPDLNGFTNPKVWIVGATIAIVASIETLLCIEASDRLDRQRRITDTNLELKAQGIGNLVSSFIGGLPMTSVVVRSSANANAGATSKVSTIIHGVFLLICVLSIPVVLNLIPLATLAAVLILVGYKLAKPATFKHFWHLGKFQFIPFVATVVAVVATDLLKGVGIGLAISVFYILQGNMKRAYYLSRERLDDADGINIKLAEEVSFLNKAAIKKTLKNIKPNSTVIIDAKNTSYIATDVLEMIQDFANIRAKEQDISVELLGFKTSYRDYERSEDSHILVTHKRAM	PGPT0002415_255	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS003_02042	300			hypothetical protein	ATGAAATTCTGGAGTATTATTGTATTAACGTTTTTTCTGAATTTTACAGCGCTGCCAGGCATAGCTGCGGTAGCAGGCTGGGATATTGCAAGAACGAATGTCATCATCAATGAAGAAGAGCCTCATTCTCACCCATCCTCATTTATTGTTTACGAAAAGACTATTCCGAAGCCTTTGGATGTATTTGATTATCTGAAGTTTTCCGAACCTGACGTTCAGGGCGTGTCTTTTGTACTGATAGATGATTCTTTTCATCTTTCACCTTTACTCACTATATTTTCTCCGCCTCCGGAAGCGTAA	MKFWSIIVLTFFLNFTALPGIAAVAGWDIARTNVIINEEEPHSHPSSFIVYEKTIPKPLDVFDYLKFSEPDVQGVSFVLIDDSFHLSPLLTIFSPPPEA				NA	NA	NA	NA	NA
BMS003_02043	669	can_1	COG0288	Carbonic anhydrase 2	ATGTCACAATCGTACGAGGTTATTTTCGAAAACAACAAAAAATGGGTAGAGTCCAAAGTAGCTGAAGATCCAAACTTCTTTGAAGAACTTGCAAAAACTCAGCATCCGGAGTTCCTTTACATAGGATGTTCGGATAGCAGAGCTACCGCGGAAGAACTGATGGGAGCAAAACCCGGAGAAGTATTTGTTCACAGAAACATTGCTAATGTTGTCAATACTTTAGATATGAGTTCCACAGCTGTCATTCAGTATGCGGTAGAACATCTGAAAGTAAACCACATTATTGTTTGCGGACATTACAACTGTGGTGGTGTAAAAGCAGCGATGACCCCTCAGGACCTCGGATTGCTGAATCCATGGCTGAGAAATATCCGTGACGTTTACAGACTGCATCAGGCAGAGCTGGATTCTATTCAGGACGAAAACAGACGTTATGACAGACTTGTAGAACTTAATGTTCAGGAGCAGTGCATTAACGTAATCAAAATGGCCTGTGTACAGGAAAGGTATATCTTAGAAGAACGACCTATAGTACACGGCTGGGTATTTGACCTTAGAACAGGTAAAATCATTGATCTGGAGATTGACTTTGAGAAAATCTTAAAAGACATCCAAAAGATCTATAATCTTACAGGTTCTGATTGGGTGATGAGCAGAAAAGCTAAATAG	MSQSYEVIFENNKKWVESKVAEDPNFFEELAKTQHPEFLYIGCSDSRATAEELMGAKPGEVFVHRNIANVVNTLDMSSTAVIQYAVEHLKVNHIIVCGHYNCGGVKAAMTPQDLGLLNPWLRNIRDVYRLHQAELDSIQDENRRYDRLVELNVQEQCINVIKMACVQERYILEERPIVHGWVFDLRTGKIIDLEIDFEKILKDIQKIYNLTGSDWVMSRKAK	PGPT0002415_3077	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS003_02044	555	dapH_2		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGGCTGATTATTCTATCATTCAAAAAGACTTTTACAGGGAAAGCGGAAAATGGCTTTCAACATTTCAGATCTGGAAAAAGTGTATCAATCCTAATCTGCATTTTGTATATGTTTTACGAATGGCTCAGAAATATCGGAAAACGCCGGTTCTGAACACTTTCTGGAGAGTTGTTCTAAGACATTATCAAATCAAATACGGATTTCAGATTTATCCTGAAACCCAGATTGGGGAAGGTTTTTATCTGGGACACTGGGGAAGCCTTGTGATTAACCCCAAAACGATCATTGGCAAGAACTGCAATATTGCCCAGGGAGTTACCATCGGTCAGCAAAACCGTGGCAAAAATGAAGGTTCACCCGTGATTGGGGATGAAGTATGGATAGGAACAAATGCCGTTATTGTTGGAGCTGTCACTATCGGAAATAATGTATTGATTGTTCCCAACTCTTATGTTAACTTTGATGTTCCCTCCCACTCTGTTGTCATAGGGAATCCAGCTAAAATCATTCCTACAGCCGATGCGACTATGGAGTACATCAACCGTAAAGTATAG	MADYSIIQKDFYRESGKWLSTFQIWKKCINPNLHFVYVLRMAQKYRKTPVLNTFWRVVLRHYQIKYGFQIYPETQIGEGFYLGHWGSLVINPKTIIGKNCNIAQGVTIGQQNRGKNEGSPVIGDEVWIGTNAVIVGAVTIGNNVLIVPNSYVNFDVPSHSVVIGNPAKIIPTADATMEYINRKV	PGPT0020265_5251	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
BMS003_02045	1245			hypothetical protein	ATGCTTATATCAAAGAAAATCTCCCTCACAAATATAAAAAAGCGAGAAAAATTAAATAAATTTGCTATTGTAGCTATAACATACAAAAGAACAAATTTGAAAAAGAAAAAACTCCTCATTCGAATAGGCTCATTACGTCATGGTGGTGCTGAAAAAGTATTAATCAATTTTTTGAAGCATCTTCCTCCTGACAAATATGAAGTTGATCTTCTGTTAAATCTCTATTCAGGATTATACATTAAAGAGGTGCCGTCATGGGTAACTTTATATTACCTTACAAAAGGAGAAATGATAACGACCAACAGGCTACAGGATATTCCTATAAAAGCCTACAGAGTTCTCTATCAGAAAATGTTTCTGTGGTTTCCATCCCTGCTTTATAAATTTGTCTTAAAGAATAAAAAATATGATGTAGAGATTGCCGCCATACATGCAATGCATCAGGAAATATTATCCAGCCCGCAAAAAGATTCCAAAAAGATCATCTGGGTACAGAATGACATTTTCAACTTAAAGGAATATACTCCGGAAGTGATCAGACAGTTTTTTAAGTTTGATAAAATTCTGGTAATTTCCAATAAACTGCAGGATGGGATGTACAAGCTTGCAAGGGATGAAGCAGAGAAAGCATCAGTCATTAAAATTTTCAATCCTATCGACAAAAATGATACGTTAAGAAAAGCAGATGTTGACATCAACGATTATCCATTCAAAAATGATCTTCCTACTTTTGTAACGGTGGGAACCGTATATCCTCAGAAAGGCTACGACAGGTTACTGAATGTTCATAAAAAGCTTATTGATGAAGGGGTAAAACATCAGCTTCTGATCATTGGGGACGGCTATGACTTTGATAATATTCAAAATCAGCTCAATACCCTGGGGCTTCAGGATACCGCAAAGATGCTTGGCTTTAGCAGCAACCCTTACCCTTATATGAAAAAGGCAGATTTCTATATCATGTCTTCAAGACATGAGGGATTCCCTACTATTATTGCAGAAGCACTTATCCTGAACAAACCCATTTCTGCCACAGATATTTCCGGAATCAGAGATCTTCTGCAAAACGGAAAACTGGGAAATATAACAGAGAATTCTGAAGAAGGAATATATGAAGGAATGAAAAAATTTCTTACAGATAAAAATATCACTGAAGAATACAAAAAACATATCTCACAAACCGAGCTGCCGTTTGTACTGGAAAAATCTGTAGAACATCTTCAGAAAATAATTGATGAAGTATAA	MLISKKISLTNIKKREKLNKFAIVAITYKRTNLKKKKLLIRIGSLRHGGAEKVLINFLKHLPPDKYEVDLLLNLYSGLYIKEVPSWVTLYYLTKGEMITTNRLQDIPIKAYRVLYQKMFLWFPSLLYKFVLKNKKYDVEIAAIHAMHQEILSSPQKDSKKIIWVQNDIFNLKEYTPEVIRQFFKFDKILVISNKLQDGMYKLARDEAEKASVIKIFNPIDKNDTLRKADVDINDYPFKNDLPTFVTVGTVYPQKGYDRLLNVHKKLIDEGVKHQLLIIGDGYDFDNIQNQLNTLGLQDTAKMLGFSSNPYPYMKKADFYIMSSRHEGFPTIIAEALILNKPISATDISGIRDLLQNGKLGNITENSEEGIYEGMKKFLTDKNITEEYKKHISQTELPFVLEKSVEHLQKIIDEV				NA	NA	NA	NA	NA
BMS003_02046	570	dapH_3		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGATATTAATATTAAGAATTTTATTAAAAATAAACTCTCTCTATCATGATTTTTTGAATAGAGCCAGTCTTGAGGTCGCAAAATACAGAGGCATGAAAGTAGGTAAAAACTTCAACATGCCTGATAAAGTCTACTTCGGAACGGAACCTTATCTTATAGAAATTGGTGATAATGTGAATATTGCAGGAGATGTAAGATTTGTCAATCATGGTGGAACCACCACTCTATTGAGAAGGCTTCCCGGATATGAAGATGCAAGAATACTTGGAAGAATAAAAATCGGAAACAACTGTACAATTGGCCTTAATGCTGTCATCATGCAGGATGTGCAAATTGGAGATAACTGTATTTTAGGAGCCAACTCAGTATTATCGCAATCTATGCCCCCCAATACAGTCTTCATTGGAAATCCGGCACAATTTCTCTGTACGATTGAGGATTATGGAGATATTGTACTGAAAAACAACCCGGAATATCCGCGGGAATTGGAGAAAGACAGGAAGAAGCTCGATGCTTATATCAAAGAAAATCTCCCTCACAAATATAAAAAAGCGAGAAAAATTAAATAA	MILILRILLKINSLYHDFLNRASLEVAKYRGMKVGKNFNMPDKVYFGTEPYLIEIGDNVNIAGDVRFVNHGGTTTLLRRLPGYEDARILGRIKIGNNCTIGLNAVIMQDVQIGDNCILGANSVLSQSMPPNTVFIGNPAQFLCTIEDYGDIVLKNNPEYPRELEKDRKKLDAYIKENLPHKYKKARKIK				NA	NA	NA	NA	NA
BMS003_02047	969	fabH_3		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGAAAATTTCAAAAATAGAATATTATCTTCCTCAGCAAGTGTTAACTAATGAGGATCTTGAGAAATTGTTTCCCGAATGGAGTTCTGAACGTATTCAGGAAAAAGTAGGTATTTCCCAGCGCCATATATCTTCAGATAATGAAACTGTACTGGATATGGCTGTACAGTCTTCAGAAAAAATTTTCGAAAGCTATGACCGTAGCAAAGTTGATTTTATTTTGTTCTGTACCCAAAGTCCTGAATATTTTCTGCCTACAACGGCTTGTATTTTGCAGGACAGATTGGGGCTTAGAAAAAATATTGGTGCTCTGGATTTTAATCTTGGCTGCTCAGGATTTGTATATGGACTGGCCTTTGCAAAAGGATTGATTTCTGCAGGCATTGCTAAAAGTATCCTTTTGGTAACTTCAGAAACCTATACAAAACATATTCACCCTGATGATAAAGGAAACCGGAGTATATTCGGGGATGCCTCTGCTTCGGCAATTATTGAAAAATCTGATGCCAATGATTATCAGTTTTGTCTGGGAACAGACGGAAGTGGTGCAGAAAACCTTATTGTAAAGCAAGGTGCATTCAAAAAAGACTTTGAGCTGAATCCTGAACATGAGTTCAGCCCTGAAAATATCTATATGAACGGTCCTGAAATTTTTAATTTTACCATAGAAAATATTCCGGGGTTAGTAAAAGAGACGCTGGAAGTAAACGGGATGATGATGGATGATATTGATCATTTTGTTTTTCATCAGGCCAATTCTTTTATGCTTAATTATTTAAGAAAGAAAACAAAAATTCCGGCGGAAAAGTTCTATATTGACATGGAAAAGACCGGGAATACCGTTTCTGCAACCATACCTATTGCTCTTAAAAATATGATGGATAAAGGAATGCTGAAGGCAGGTGACAAAGTTTTAATGGCAGGCTTCGGGGTAGGATACTCGTGGGGCGCTACGATAATGGAAATTTAG	MKISKIEYYLPQQVLTNEDLEKLFPEWSSERIQEKVGISQRHISSDNETVLDMAVQSSEKIFESYDRSKVDFILFCTQSPEYFLPTTACILQDRLGLRKNIGALDFNLGCSGFVYGLAFAKGLISAGIAKSILLVTSETYTKHIHPDDKGNRSIFGDASASAIIEKSDANDYQFCLGTDGSGAENLIVKQGAFKKDFELNPEHEFSPENIYMNGPEIFNFTIENIPGLVKETLEVNGMMMDDIDHFVFHQANSFMLNYLRKKTKIPAEKFYIDMEKTGNTVSATIPIALKNMMDKGMLKAGDKVLMAGFGVGYSWGATIMEI	PGPT0008355_5736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS003_02048	234			hypothetical protein	ATGAAAACATCCGTTTTTTTAGAAAAACTACAAGAGGAGCTGGAGGAAGATAACACATTAACAACCGAAACGAATTTGAAATCTCTGGAAAGCTATGACTCTATCAGCCTGCTTTCTGTGATCGCATTTGTAGATGAAAATTTCAACAAAAAAATTGATACAAAGCATTTCAAAGATATTGAAACCGTTTCAGACTTAATGGATGTTATTGGAAAAGAAAATTTTGAAGATTAA	MKTSVFLEKLQEELEEDNTLTTETNLKSLESYDSISLLSVIAFVDENFNKKIDTKHFKDIETVSDLMDVIGKENFED	PGPT0011375_7107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS003_02049	759	lvr		Levodione reductase	ATGGATGCTTTCTCATTAAAAAATAAAATTATTCTCATTACAGGCGCTTCTTCCGGGATCGGAAGAAGCTGTTCTGTAGAATGCAGTAAGAGTGGTGCAGATCTTATTCTTGTTGGAAGAAATCATGATGAACTGCTGAAAACTGTTTCTATGCTAGATCCTGAAACGAAAGCGGAAATCATAACAGAAGATATTGCCCAATCTGAAAATCTTGAAGCCATTATTGCTGATAAAGTTTCTGCTTTAGGTAAAATATCAGGATTTATACACTGTGCCGGAATCGAAAAAACTTTACCTTTAAAAAAACATAACGCTAAGTTATATCAGGATATTTTTGCAATCAATGTTATCGCCGGACTTGAAATTGCCAAAATATTATCTTTAAAGAAATATAAAGATGAAACTTCCAGCTTTGTATTTATTTCTTCTGTTGCAGGAATGGTAGGAGAGGCAGGGAAAGCTGCATACTCTGCAAGTAAGGGAGCTGTTATTTCGGGAGTTCGTTCTTTGGCTATGGAGCTTTCAAGAAGTAATATCCGGGTCAACAGCATAAGCCCGGCTATGGTAAATACCCCGATTCTGGAAAAAATGTTTAAAGATATTGGTGAAGAGGCTTCATCGGAGATCATCAAAAAGCACCCGCTGGGAATAGGAGACCCTAAAGATGTAGCGAATGCCTGTATTTTTCTGTTATCTGATGCCTCAAGATGGGTTACCGGAACCAACCTGGTAGTTGACGGGGGATATTCCGCCCAATAG	MDAFSLKNKIILITGASSGIGRSCSVECSKSGADLILVGRNHDELLKTVSMLDPETKAEIITEDIAQSENLEAIIADKVSALGKISGFIHCAGIEKTLPLKKHNAKLYQDIFAINVIAGLEIAKILSLKKYKDETSSFVFISSVAGMVGEAGKAAYSASKGAVISGVRSLAMELSRSNIRVNSISPAMVNTPILEKMFKDIGEEASSEIIKKHPLGIGDPKDVANACIFLLSDASRWVTGTNLVVDGGYSAQ				NA	NA	NA	NA	NA
BMS003_02050	1158	pglJ_2	COG0438	N-acetylgalactosamine-N,N'-diacetylbacillosaminyl-diphospho-undecaprenol 4-alpha-N-acetylgalactosaminyltransferase	ATGACTTTAAATAAAAAAATAAAAATTCTGTTCAGACACCGCTCCATGGAAATGGGAGGCGTAGAAAAAGTACTTCTGAGCCTTCTTAACAATCTCAACCCTGAAAAATTTGAAATAACAGTATGCCTTACCCTAAACCAGGGTAAATTGCGAGATGAAATTCCTAACCATGTAAGAAAAATATACCTTACGGATGGCAAAGAAGATTTTTCCGGCAATTCTCTTTTACAGAAACTTCAGCTTGTTAAGAGAAGACTGAAGCTGAGAAAACTGAAAAACAACCCTGCCATTGCAGACCGGCTTATCAATGATACTTTTGATATAGAAATCGGGATGGATTACAGAGATTATGATGCAATCCTGAATTCTACCCATACAAATTCAAAAAAGATAGGATGGTCTCATTCTGAGATCAATGTTCCTAAATTTCAGCCTCTGGTTCCGAACATTTTAAAGAGTTTTCCGCAATTTGATCATATAGTCTACTGCTCTCATAAGATAAAAGATATGATGCATGAATACTATCCGGATCTGAATTATCCGGCTGAAAGTGTTATCATTAATCCTATTCCTATTGAAGAAATAAAGCGCAAAGCAGAAGAAAAACTTGATAATTTCCCTGAAGGACCTGTTTTTGTCTCTATCGGAAGGCTTCATTCAAGAAAAGGATATCATAAGCTTATTGAAGCTCATACAAGGCTTATCAATGAAGGTTTCCATCATACAATTATTGTTGTAGGTGATGGTGGTGAAATGAAAAACCTTAAAGAACAGGCGGTGGCTAATAATGTTGAGAACACATTCATTCTGGCAGGAAATCAAATGAATCCTTATCCTTACATCAAAAAAGCAGATTATTTTGTTCTTCCTTCAGAATCTGAAGCATGGCCGTTGGTGATTGCGGAAGCATTAATTCTTCAGAAACCTATTGTAGCAACCAATGTAGGAGATGTGGGACTGATGATTAAAGATAAGGAAACAGGGTACCTCATCAGCTATGATGTTGATGAGATATACAAAGGAATCAAGGCATTCCTTACAGACCCTGCTCTTGTTCTTCATATCAGAGAAAATCTCAGGAATATTGAAAGTCAGTTTGACAATAAGAAAATATTTGACAGTGTTGAAAGTATTATAGAAACACTCCACAGAAAATAA	MTLNKKIKILFRHRSMEMGGVEKVLLSLLNNLNPEKFEITVCLTLNQGKLRDEIPNHVRKIYLTDGKEDFSGNSLLQKLQLVKRRLKLRKLKNNPAIADRLINDTFDIEIGMDYRDYDAILNSTHTNSKKIGWSHSEINVPKFQPLVPNILKSFPQFDHIVYCSHKIKDMMHEYYPDLNYPAESVIINPIPIEEIKRKAEEKLDNFPEGPVFVSIGRLHSRKGYHKLIEAHTRLINEGFHHTIIVVGDGGEMKNLKEQAVANNVENTFILAGNQMNPYPYIKKADYFVLPSESEAWPLVIAEALILQKPIVATNVGDVGLMIKDKETGYLISYDVDEIYKGIKAFLTDPALVLHIRENLRNIESQFDNKKIFDSVESIIETLHRK				NA	NA	NA	NA	NA
BMS003_02051	807	hyaD		Hyaluronan synthase	ATGAAGTTCTCCATCCTTATTGCACACTATAATAACGCACTCTTTTTCAAAGACTGCTTTGATAGTATCATGACTCAGACTTATACCAACTGGGAGGTCATTATTGTAGATGATTGCTCTGATGAATCAGAAAAAAAGGCAGTAAAAGAAATGATCTCCGCTGACCCAAGATTTTCTTTTTATGAAAATACGGTCAATAAAGGCGTAGGATATACCAAAAAAAGATGTGCAGAACTGGCAACAGGTGATATATGTGGCTTTGTTGACCCTGATGATGCCTTAACACCTGAAGCCTTAGAAGAAAGCATAAAAGCCTTTACAGATAAAAATATTGTAGCTGCTTACTCTCTTTTTCATATCTGTAGTGAACAATTGGTTCCTGAAAAACTATTTCCGTATACAAAAAAAATAAAAAACAGAAATCCTGTTTTTTTTAATATAAGATTTGAAGTAGCCCATTTTTTTACCTACAGAAAAAAAATCTATGATCAGACCGAAGGAATAGATGACAGCCTTAGCTCATCCGTAGATCAGGATCTCTATTTAAAATTGTACGAAAAAGGAGACTTTTATTTTATAAAAAAATCTAACTATCTGTACAGAATCCACGCTAAAGGAGTTTCTCAGGATAAAAAAAAGAAAGAAAAACTACGTAAAAACTGGCATATTGTATTGTATAATACTCTTAAAAGAAGAAATATAGACCACATATATGGTACAGATATTGATAAAATTGATGATCTGCCTGACTTTATTTTCAACAAACAAAACACATTTCTTTCAAAAATTATAAGAAAGTTCTCATGA	MKFSILIAHYNNALFFKDCFDSIMTQTYTNWEVIIVDDCSDESEKKAVKEMISADPRFSFYENTVNKGVGYTKKRCAELATGDICGFVDPDDALTPEALEESIKAFTDKNIVAAYSLFHICSEQLVPEKLFPYTKKIKNRNPVFFNIRFEVAHFFTYRKKIYDQTEGIDDSLSSSVDQDLYLKLYEKGDFYFIKKSNYLYRIHAKGVSQDKKKKEKLRKNWHIVLYNTLKRRNIDHIYGTDIDKIDDLPDFIFNKQNTFLSKIIRKFS				NA	NA	NA	NA	NA
BMS003_02052	546	lpxD_1		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGCTTTATGAAATTCTAGCAAAACTTCAACGAAAAAGTCAGATTTCACTTCTCAGAAAACACCCAAATGTTTCCTTTAAGGAAATAAAGCTTGGAATCAGCAACCATTTTATTCTTCATGGGAATTTAAAAAGGGTAAATATCGGAGAAGGGGTCAGCTTCAGGAACTATGTTCACGTTCTTATACAGCAGAATGCCAGCCTGGAAATCGGAAATAATTTTTTCATGAACAATTTTTGCTCCATCAATTGCCTGGACAGTATTTCCATAGGTGAAAATACGTTATTCGGAGAGAATGTAAAACTGTATGATCACAATCATGCCTATGAAACTCATCCTAACTTTAAGTTATATTCTTCTGAATTTACCACTGCACCTATCAAAATCGGGAAAAACTGCTGGCTTGGCAGCAATGTCACCGTACTGAAAGGGGTTACTATAGGAGATAACTGCATTATAGGAGCAGGCTGCACTATTCATAAAGACATTCCATCCAATACAACAGTAATCAATCATCAGGAATTAATATTCAAGACACATCCATAA	MLYEILAKLQRKSQISLLRKHPNVSFKEIKLGISNHFILHGNLKRVNIGEGVSFRNYVHVLIQQNASLEIGNNFFMNNFCSINCLDSISIGENTLFGENVKLYDHNHAYETHPNFKLYSSEFTTAPIKIGKNCWLGSNVTVLKGVTIGDNCIIGAGCTIHKDIPSNTTVINHQELIFKTHP				NA	NA	NA	NA	NA
BMS003_02053	948			hypothetical protein	ATGTTTTTATATAAAATAGATTATATTTCCAATCTTTTTTTGAGGGCGAATGTGGGAGTCAGTTATTTTTTTATGCTTTCGGGCTTTATTATGATTGTTGCTTACGGTCAGAAGCATAAAATAGACTACTTAGATTTTTATAAAAACAGGTTTGCAAGAATTTACCCATTGTATATATTGGGGCTTTTGCTGTATTTTATAACAAGATATCATCTTTTTGACATTGGTAAGGTTCTTTTATACGGATTGGGAATACAAAGCTGGATTCCCGGGGAAGCCATGATCTTAAATTTTCCGGGTTGGTCTATTTCAGTAGAATTCTTTTTCTATCTGCTTTTTCCTGTACTATACAATTATTTTTATTCCAAAAAGAATAAAACGATCTGGATCTTTACCATTGCCATCTGGATTGTTACCCAGATCTTTTCAAACTGGTATCCTACTTTAGAAATATATAAGGGTCCTCATACTAAAAGTCACGAATTCCTATATTATTTCCCTTTATGGCATCTCAATGAGTTTCTGATCGGAAACCTTGCAGGGCTTTATTTTATTAAGAATTTCAGGCAAAAGAAGTATGATCTTCCTATCATTCTGCTTTTTCTGCTTGTCATAGTTTCGCTGATGTTTATTCCTATGTTTTACCATAATGGCCTGATGGCTTTACTATTCGTACCGGTTATTATTCTGATCTCCTCTAATAACGGATGGCTCACAAAACTGTTTTCACAGAGACCTTTGGAATATCTGGGTGAAATAAGTTATGCCATATACATTGTTCATATTCCGGTTCTTTACATTTTAAGGGAAATTCTTCGGGAATATACACCAGGAATTGATACTGTTTTCTTTGTGTATATCATCGTTTTGTTGATGAGCTCAGCACTATTCTATCAATTTATTGAAAAACCTTTGCGGGATTATTTAAAAAAAGTAAAAATCAGATAA	MFLYKIDYISNLFLRANVGVSYFFMLSGFIMIVAYGQKHKIDYLDFYKNRFARIYPLYILGLLLYFITRYHLFDIGKVLLYGLGIQSWIPGEAMILNFPGWSISVEFFFYLLFPVLYNYFYSKKNKTIWIFTIAIWIVTQIFSNWYPTLEIYKGPHTKSHEFLYYFPLWHLNEFLIGNLAGLYFIKNFRQKKYDLPIILLFLLVIVSLMFIPMFYHNGLMALLFVPVIILISSNNGWLTKLFSQRPLEYLGEISYAIYIVHIPVLYILREILREYTPGIDTVFFVYIIVLLMSSALFYQFIEKPLRDYLKKVKIR				NA	NA	NA	NA	NA
BMS003_02054	1434	patA	COG1696	Peptidoglycan O-acetyltransferase	ATGCTATTTAACTCAATTGGCTTTTTAATTTTCCTCCCGGTTGTATTTATATTGTATTGGTTTGTTTTCAGGAAAAAATACCAACATCAGAATTTATTATTACTGGTGGCAAGTTTCTATTTTTATGCTTGTTGGGACTGGAGATTCCTGTTTTTGCTGATGTTTTCCATTGGACTGGATTATGTTTCCGGACTTCAGATCGAAAAAAGTAAGACGAAGAAAGAAGCGACATTCTGGTTAACACTCAGTATCGTTATTAATTTAGGGTTTCTCGGATTTTTTAAATACTATAATTTCTTTGTAGAGAGTTTTGCAGAACTCTTGAACGGATTTGGATTTAAAGTCAACGTATGGTTATTAAATGTTGTCCTTCCGGTAGGGATTTCCTTTTATACGTTTCATGGTCTTTCCTATGTTATTGATATTTATAAGAAAAGAATTAAGGCAGAAACCAACTTTATAGATTATGCCGTATTTGTAAGCTATTTTCCATTACTTGTTGCAGGCCCTATTGAAAGAGCAACCCATCTTTTACCCCAGATTCAGAAGAAAAGAATCTTTAATTATGAGCAGGCTGCAGATGGAATGAGACAGATTTTGTGGGGATTCTTCAAAAAAATGGTCATTGCAGATAATTGTGCACCTATTGTTAATGATATTTTCACGAACTTCCAAACGGAAAGCCCGGCTAATCTGGCGATGGGAGCTGTTCTTTTTGCGTTCCAGATTTATGGGGATTTTTCCGGATATTCAGATATTGCACTAGGTGTTTCAAGATTGTTTGGAATAGAGCTTCTGAAAAACTTTGCTTTTCCTTATTTTTCAAGAGATATAGCGGAATTTTGGAGAAGATGGCATATTTCCCTTTCTTCCTGGTTCAGAGACTATCTTTATATACCTTTAGGAGGAAGTAAAGGAGGGTTGATGATTAAGATAAGAAATACATTCATCATCTTTCTGGTCTCCGGATTTTGGCATGGAGCCAACTGGACATTTATCATTTGGGGAGGATTGAATGCTCTGTATTTTATGCCTTTATTACTTGCTGATAAAAACCGTCAGAACCTTGAAGTTGTAGCAATGAATAAGCTGCTGCCTACTTTTAAAGAGGTTTTTAAGATTCTGCTTACTTTTGGACTTACCTGTTTTGCTTGGATTTTCTTCAGAGCAGAATCTGTAACCCAGGCTGTGTCATACATTAAAAGAATTATTGATCCTGTTTTATTCTCGATTCCGAAACCATTTCCTGTTAAAATCCTTTCCCTCATCACAGTAATGTTAGTGATTGAATGGATGAATAGAGGTCAGAACCATGGGTTGGAAATTGACAGGTTTAACCTCTGGATAAGAAAGATATTGTATCTGTTATTCATCTATATTATTCTACGTTACGCCAATTTCGGGAATAATGAATTTATCTATTTTCAGTTTTAG	MLFNSIGFLIFLPVVFILYWFVFRKKYQHQNLLLLVASFYFYACWDWRFLFLLMFSIGLDYVSGLQIEKSKTKKEATFWLTLSIVINLGFLGFFKYYNFFVESFAELLNGFGFKVNVWLLNVVLPVGISFYTFHGLSYVIDIYKKRIKAETNFIDYAVFVSYFPLLVAGPIERATHLLPQIQKKRIFNYEQAADGMRQILWGFFKKMVIADNCAPIVNDIFTNFQTESPANLAMGAVLFAFQIYGDFSGYSDIALGVSRLFGIELLKNFAFPYFSRDIAEFWRRWHISLSSWFRDYLYIPLGGSKGGLMIKIRNTFIIFLVSGFWHGANWTFIIWGGLNALYFMPLLLADKNRQNLEVVAMNKLLPTFKEVFKILLTFGLTCFAWIFFRAESVTQAVSYIKRIIDPVLFSIPKPFPVKILSLITVMLVIEWMNRGQNHGLEIDRFNLWIRKILYLLFIYIILRYANFGNNEFIYFQF	PGPT0026125_1107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
BMS003_02055	954			hypothetical protein	ATGAATTTATCTATTTTCAGTTTTAGCATGAAAAAATTTTTATTTAAAATATCATTTTATATCGTTGGAGTTCTATTGGTATTCGGAACTTTAGGATGGTTTGCAGATGGAAATACAGATGACAACTACATGCATTTTGCGGTGAAAAAGCCTCAGAACATTATTTTAGGAGACTCCAGAGGATCGCAGGCTGTGGTTCCGGGTATTCTCAATAAAAAGCTGGGTAAGGAGTTTGATAATTTTTCATTAAATGTAGTGCAGTCTCCTTACGGAGAAGTTTATTATAAAGCTTTACAGCGAAAATTAGATCCGGAAACCAAAAACGGATTGTTCATCTTAACCGTTGATCCCTGGAATTTATCCTTACATAAAAGTATAAAAAAGTCTAAGGATTTTCCGGAAGAACATTCCCCGTTAAAAGACATGTATTTCTATGACCTGTCACCCAATTATGAATACCTGTTGAAAAACTATACCCGAAGCTGGTTTAAAATTTACACGGAAAGGGAAGAGGAAGTTGGCAGATCTAATACCTATCTGCATAAAGACGGATGGATGGAAGTAACAGTCAATATGCAAAAAGACTCGGTGGCAAAAAGAGAAACTGAGAAAGTAAATTTTTATAAAGAGCTGGTTCAAAAGCAGAATATTTGTCCAATCAGGCTTAAGGCATTGGAAGATATTATTACATTCCTTAAAAATAAAGGAACCGTCTATCTGGTGAGAATTCCGGCTTCAGAAAAAATAATGAAACTGGAAAGCTCATATTCTCCTGATTTCAATGAAAAAATGGAGCAAATCTCAAAAAAATATCAGGTGAAGTTTTTTGATTTTTCATCAAAATATAATGATTATATGTATACAGACGGAAATCACATGTATAAAGAATCTGGTAAAGTAATGACCTCTCAAATTGCAGATTCTATTCTTACAGATAGCAAAATCTTAAAATAA	MNLSIFSFSMKKFLFKISFYIVGVLLVFGTLGWFADGNTDDNYMHFAVKKPQNIILGDSRGSQAVVPGILNKKLGKEFDNFSLNVVQSPYGEVYYKALQRKLDPETKNGLFILTVDPWNLSLHKSIKKSKDFPEEHSPLKDMYFYDLSPNYEYLLKNYTRSWFKIYTEREEEVGRSNTYLHKDGWMEVTVNMQKDSVAKRETEKVNFYKELVQKQNICPIRLKALEDIITFLKNKGTVYLVRIPASEKIMKLESSYSPDFNEKMEQISKKYQVKFFDFSSKYNDYMYTDGNHMYKESGKVMTSQIADSILTDSKILK				NA	NA	NA	NA	NA
BMS003_02056	939	arnC_3		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGAAAATTTCTGTAATAATTCCCGTTTATAATGCCGAAAAATATGTTTCTCAGGCAGTAGAATCCGCCCTTCAGTTTGGAGAGGTATATGAAATTATTCTGGTGGAGGATAAATCTCCTGATAATGCTTTACAGGTATGTGAAGATCTTGCAACAAAGTATGACAGAGTAAAGCTTTATCAACATCCTGACAAAGGAAATCACGGAGCCGGTGCCAGCAGAAACCTGGGAATAGAAAAAGCGGAAGGTGACTTCATCTCATTCCTGGATGCTGATGATTACTATCTCCCCAACCGTTTTGATGCGGAAAAGGAGCTTTTTAAAAATGATGATGTAGATGGTGTCTATGGCGCAATTGGTGTTCATTATTATTCAGAAAAAGCAAAAGAGCAGTATTACAAAATGTTTGAAGATCGTTTAACGACCGTTTACCAAAAGCAAAATCCCACAGACGTATTTCCCGGACTGCTTAATATGAGAGGAACCTTCGGTCTGTTTAGTCTGGATGCTCTCACCATCCGGAAAAGTTCTCTGAAAAACATGAAATATTTCTTTAAAAGCCATTTAAGACTTCATCAGGATACGGAGTTTATATTCAGACTTTCTTATTACCTGAAGCTATATTCTGGGATTATAAACAGTGCCGTAGCTGTAAGAGGTGTACATGAGAACAATAGAATTACCAAAGTAGACCGCCGGGGAGTAAGACCAGCCTCAACAAGAGTTGTATTCTGGGCGGAAGTAAACAAATGGGCAGAAAGTGAAAATTCCCTTCCCGAAGAGATCAAACTCCATATCAAAAGAGTTTATAGAAGTTTCCTGATCGCCAATGCTCCTTTCCTTAAAAAATGGGGAATGATCTCCAAATATTTATTGACAGATTACCCAAGCATACGTTCAGGGCTTTATAATATTAATTTCAGAAAGTATTTGTTTTGA	MKISVIIPVYNAEKYVSQAVESALQFGEVYEIILVEDKSPDNALQVCEDLATKYDRVKLYQHPDKGNHGAGASRNLGIEKAEGDFISFLDADDYYLPNRFDAEKELFKNDDVDGVYGAIGVHYYSEKAKEQYYKMFEDRLTTVYQKQNPTDVFPGLLNMRGTFGLFSLDALTIRKSSLKNMKYFFKSHLRLHQDTEFIFRLSYYLKLYSGIINSAVAVRGVHENNRITKVDRRGVRPASTRVVFWAEVNKWAESENSLPEEIKLHIKRVYRSFLIANAPFLKKWGMISKYLLTDYPSIRSGLYNINFRKYLF				NA	NA	NA	NA	NA
BMS003_02057	936			hypothetical protein	ATGCTTGAAATTTCAGTCATCATACCAGTATATAATGCTTCTGAATTTTTAGAAAAAGCAGTAAACTCAGCTTTGCAGTTTAGTGAAGTGAAAGAAGTGATATTAATAGAAGATCAATCAACGGACAATTCTTTGGAAGTTTGCCGGAGATTGGCTTTAGAGAACTCAAGAATTAAATTATATCAACATCCTGATAAAGGGAATCACGGAGCAGGAGCCACGAGGAATTTAGGCTTGGAAAAAGCGCAGTCTGAATTCGTTGCTTTCCTTGATTCTGATGATCATTATCTTTCCAACCGCTTTGATGCTGAGAAAATAATCTTCAACAATCTGAAAATAGAAGGAACTTTTGGAGCAATTGGTGTAGAATATTTATCTGAAAAGGGGAAAGAAGAGTTCCAGAAAAAATTTAATAACACATCTCTTACAACAGTCAACTATCCTGCAGAAGGAAAAGAGATTTTTAAAGGACTACTGGGTTTAACCTCTAAAACTTTCGGTACATTCTTTCATCTGAATACTTTAACGATCAGAAGATCTTCTGTTATTAACAATAATTTATGCTTCAACGAAAAACTTCGTGTACATCAGGACTCGGATTTTATCATTAAGCTGGCTTATAATTGTTATTTGAAATCAGGAAATATTACCGAAGCTGTTGCTGTAAGAGGAGTTCATGATAACAACAGGATTACGAAGATAAAAACATATTCCAAAGAATACAATGAGCGTCAGTTTTTGCTGTGGAGCTCTTTGTATGAATGGTCAAAAACAAAAGAGTTGGATACTGATGCAAAGCAACGTTTTTATTTACAGAAAAAAGCCTTTGAACTTTCCACTAAAAAAGGATTCTCAAAAATTCTGGACTTATTCTTTACAGCTTTACGATCTCCCAACATCCTGAAAACACGATATAGATTCACATACTACAATTGA	MLEISVIIPVYNASEFLEKAVNSALQFSEVKEVILIEDQSTDNSLEVCRRLALENSRIKLYQHPDKGNHGAGATRNLGLEKAQSEFVAFLDSDDHYLSNRFDAEKIIFNNLKIEGTFGAIGVEYLSEKGKEEFQKKFNNTSLTTVNYPAEGKEIFKGLLGLTSKTFGTFFHLNTLTIRRSSVINNNLCFNEKLRVHQDSDFIIKLAYNCYLKSGNITEAVAVRGVHDNNRITKIKTYSKEYNERQFLLWSSLYEWSKTKELDTDAKQRFYLQKKAFELSTKKGFSKILDLFFTALRSPNILKTRYRFTYYN				NA	NA	NA	NA	NA
BMS003_02058	1797	asnB_1	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGAATAGCCGGAATAATAGCCGCTAATGCTACAAATTATGAGACCGAGATCAGGAAAATGACAGATGCTATTGCGCATCGCGGTCCGGACTCCTCTCACCATGAATTCTACGAAAATGCGGCTTTAGGACATCGCAGACTCTCCATTATAGACCTTTCCGAAAATGGGAAACAGCCTATGTTTTCCAATACCCAAAAAGAATGCGTTGTTCTGAATGGTGAAATCTATGGGTATCAAAGTATTAAAAACCAATATTCAGAATACCCTTATCACGGAAGTTCAGATACGGAAGTTATTCTTGCTATGTATCAGAGGAAGCAGGAAAAACTGATCCATGATCTTCCGGGAATGTTTGCCTTTGCCATTTGGGATCAGGAAAAACAGCAATTATTCTGTGCAAGAGACCGTTTTGGAGAAAAGCCGTTCTATTATGCGATCGGGAAAAACAATGAATTCATTTTTGCTTCAGAAATCAAAGCAATCTTAGCATCCGGGTTGGTTCAGCCTAAAGTAAGCTATGAAGCCCTCTCCCATTATTTACAATACGGTTATGTAAGTTCATACCAAAGTATTTACAGTAACATTTTCACTTTACCTCCTGCTCATCAGCTGATCTGGAAAGATGGAAAAATTACAGTCTCCCGCTATTACAGCTTGCCTTCAAAAGATAGAAAAATAAATCTGTCTGATGCAAAAGAAGAATTTATTTATCTTTTGAAAAATGCCGTAAAAAAACAGCTTATTGCTGACGTAGAAGTAGGAAGCTTTTTAAGTGGCGGACTAGATTCCTCCTCCATTGTGGCTTTGGTGGATGAATTTTTACCTCATCAAACCACTATTAGCTTCGGATATGATCACGAAGACAGTGAACTGAAGTATGCAAAAGAAATTGCGGATAAATACAATACTCATCATGTTGAAATCCATGAACAGAAAAAGGACCTTGCAACGTCTTTATTAACTATTACTCCTTTCCTGGATGAGCCTTTTGCAGACAGATCCTGCATTCCGCATTTTGAGATCTGTAAAAATGCGAAAGAAAATCTGACAGTAGTTCTTTCCGGTGATGTGGGAGATGAATTATTTGGCGGATACAATTTCTATACCGTTGAAAATCAATTAAAAAACCATTTCAGTTATAAAAACATCCTAGCCCAATTCGGATTAAAACTTTATCAGAATGTAAAGCAAACCTCTTTTATTACCCAGAAGAACATGGAACATTCTGATATTCTGGATTTTCATCAAAATTTTGTACGGAATTTTTTCAGTAAAGAAGAAAGAAATTTATTAGGAATAACAACAGATTATCAACAGCCTTACAGCTTCAATCCTCATCCGGATTCATTGAATGATATTATGCGAGTAGACCTTGAGAAATTTGTTCCTGGAAATATGATGGTAAAATCTGACAGAATGGCTATGGCCAATTCACTAGAAGTACGTACACCCTTTTTAGATATAGATTTTGCTGAATTCTGTATCCAATTGCCGGAACAGCTGAAGCTTGATAATGAAAATGATAAGATCATTCTTCGTGAAACAATGAGTTCTTATTGGACGGAAACCATCAGAAACCGCCACAAACAAGGTTTCGGAATGAATATTGAAAACTGGTTTGAAGAAGATAACCTGATCAACCTTTCAAATGATCTGCTGAAAGATCCTAACCAAAAGGTTTTTAATTTTATTGACTTTAATGCAGCTCAAAAGTTCCTGGATAAAGGGCAGAAACATTGGAATTTATTACAATTGGCTCTTTGGGCTCATAACAACCAATCTGTACTATAA	MCGIAGIIAANATNYETEIRKMTDAIAHRGPDSSHHEFYENAALGHRRLSIIDLSENGKQPMFSNTQKECVVLNGEIYGYQSIKNQYSEYPYHGSSDTEVILAMYQRKQEKLIHDLPGMFAFAIWDQEKQQLFCARDRFGEKPFYYAIGKNNEFIFASEIKAILASGLVQPKVSYEALSHYLQYGYVSSYQSIYSNIFTLPPAHQLIWKDGKITVSRYYSLPSKDRKINLSDAKEEFIYLLKNAVKKQLIADVEVGSFLSGGLDSSSIVALVDEFLPHQTTISFGYDHEDSELKYAKEIADKYNTHHVEIHEQKKDLATSLLTITPFLDEPFADRSCIPHFEICKNAKENLTVVLSGDVGDELFGGYNFYTVENQLKNHFSYKNILAQFGLKLYQNVKQTSFITQKNMEHSDILDFHQNFVRNFFSKEERNLLGITTDYQQPYSFNPHPDSLNDIMRVDLEKFVPGNMMVKSDRMAMANSLEVRTPFLDIDFAEFCIQLPEQLKLDNENDKIILRETMSSYWTETIRNRHKQGFGMNIENWFEEDNLINLSNDLLKDPNQKVFNFIDFNAAQKFLDKGQKHWNLLQLALWAHNNQSVL	PGPT0020150_3996	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS003_02059	756			hypothetical protein	ATGTCCATTGTAAAAAAAATAAAAAACAAAATAAAATTGTTTTCCCACTCAGGCTCTAATTATTATTGTCCTTTTTGTGGCTATAAATCCAAAGATCTGGAAATCGTAGGTCATGATTTACCTGTATTAATAGAAAAACAGGTAGTTGGTGGTGGAAGAAGAGCAGCCGGATGCTATAAATGCAAGTCCAGAGACAGAGAAAGACTTTTATATGCTTTTATTATTGAAGAATTACAACTTCCTAAAGAAACATCCATATTACATATTGCACCGGAACCTAAGTTATCAAAAATACTTTTAGGTCAGAATTTCAAAGAATATATTTGTGGAGACCTCTTTACAGAAGGATACCGCTACCCCGAATATGTAAAAAACATCAATGTTCTGAACATTCCCTATGCAGACAGCCATTTTGACTTAGTTATCTGCAACCACGTTCTGGAACACATTCCTGAAGATACAAAAGCAATGAAGGAAATTTTCAGAGTACTGAAACCCGGAGGAAAAGCAATTTTGCAAGTTCCTATTTCAAAAAATAATCTACATACCCACGAAGATTTTACCATCTCTGATCCTAAAAAGAAAGAAGAGTTGTTTGGTCAGTTTGATCATGTGAGAATTTATGGACAAGATTATATCACACGCTTAGAAAGTGTAGGTTTCACCGTAAATAGAATCAACGTTTCAGATAAGTTCAAAAAATTCGGGGTAAATCCTGATGAAGATATTTTTTTCTGTGAGAAAAAAATGTCATAG	MSIVKKIKNKIKLFSHSGSNYYCPFCGYKSKDLEIVGHDLPVLIEKQVVGGGRRAAGCYKCKSRDRERLLYAFIIEELQLPKETSILHIAPEPKLSKILLGQNFKEYICGDLFTEGYRYPEYVKNINVLNIPYADSHFDLVICNHVLEHIPEDTKAMKEIFRVLKPGGKAILQVPISKNNLHTHEDFTISDPKKKEELFGQFDHVRIYGQDYITRLESVGFTVNRINVSDKFKKFGVNPDEDIFFCEKKMS				NA	NA	NA	NA	NA
BMS003_02060	921			hypothetical protein	ATGCCTAAGATTTATGTTATCATTGTCACTTATAACGCTATGAAATGGGCGGAGAAATGTTTTAGAAGCTTAATACAGTCTTCTGTCCCTGTCAACTGCATTGTGATAGACAATGGTTCCTCAGATGGCACTCAGGAATATATAAAAAAAAATTTTCCGGAGGTAGATTTTATTCAGTCGGAAAAAAACCTGGGTTTCGGAAAAGCGAACAATATAGGGATAGAAAAAGCGTATAAGGAAGGTGCAGATTTCTTTTATCTGATGAATCAGGATGCATGGCTTTATCCGGATAGCTTAGGAAAGTTATTAACGGTTTATAATGATTATCAAAATAAAGACGAGGTTGGAATTATAAGCCCAATGCACATCAATGGAACAGAAAAACAGCTTGATATTTTCCTTGATAAGTACATTGCCATTAATTTTGAGAAAACCAGATTGATTTCGGATTTATATTTCCAAAGCCTTAAGCCTTTTTATGAAGTAAAATTCATTAATGCCGCTCATTGGTTTATTCCAAGACATACCATAGAAACTGTAGGCGGTTTTAATCCTTATTTTTTCCATTACGGTGAAGACGTGGAATATGCAAATCGTATTCACTTTCACAAAAAGAAAGTCTTGCTTGTACCGGAAAGTAAAGTGGTTCATGATGGGAAACAGTCTCTAAGCAAGGTAGATTATAATAAATATGCTGATCTAAGTGTAGAAACCAATATTATTAACCCCAATCTTCCCAATGCATTTCAGTTGGAGAAAAAAGCCCTGAAACAAAGTATGATTAAGAATATTTTTACCGGAAAAATCAGTATTTACAAGCAATTATTACAGAAATATAGAAAAATATCCTCCGAGAAAGAAAAATTAATTGAAATTAAAAACAAAGTACAACAAACCGCCCCCACTTTTTTGAACGTATAA	MPKIYVIIVTYNAMKWAEKCFRSLIQSSVPVNCIVIDNGSSDGTQEYIKKNFPEVDFIQSEKNLGFGKANNIGIEKAYKEGADFFYLMNQDAWLYPDSLGKLLTVYNDYQNKDEVGIISPMHINGTEKQLDIFLDKYIAINFEKTRLISDLYFQSLKPFYEVKFINAAHWFIPRHTIETVGGFNPYFFHYGEDVEYANRIHFHKKKVLLVPESKVVHDGKQSLSKVDYNKYADLSVETNIINPNLPNAFQLEKKALKQSMIKNIFTGKISIYKQLLQKYRKISSEKEKLIEIKNKVQQTAPTFLNV	PGPT0024205_447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGL-RHAMNOSYLTRANSFERASE_ACTIVITY,PGPT0024205-wbbL-K16870	NA	NA
BMS003_02061	666			hypothetical protein	ATGATCATAGGTTCCGGGCTCATAGCCAATGCTTTAAAAAATATAGACTCCGACAGTATGCTTTTTTTTGCTTCCGGAGTTTCCAACTCACTCGAAACCAGAAATTCAGAATTTGAAAGAGAATTCTCTCTTTTAAAAAATACCCTTGAAAATAATAAAGGTAAATTAATCTATTTCTCCACGCTCAGCATTCATGATCAATCCAAACAGGACAGCTTTTACGTTCTTCACAAACTAAAAATTGAAGATTATATCAAAACCCATTCAGATGATTATTTGATCTTAAGAATCGGTAATATCGTAGGAAATGGGGGGAATCCAAATACATTATTCAATTTTCTTAAAACCCAGATCGTTAATAATAATAAATTTGTCCTGCATAGTAAAGCAAGAAGATTATTATTGGACATTGACGATATTTCCAGGTTTTTGAACTCCAATTGCATTCATATAAAAAACGAGACCATTAATTTTGCTTATCCCTATTATTATGATTTAAAGCAAATTGTGGCAGCCATTCAGAAAAAAATGGATAAAACTGCTGATTATGAAACGACAAATGAGGGTGATTTTTATAAAGTATCTTTTGACGAAAATACCAATAATTTCTTCTCAGGAATTAATGAAGATGACTATTTACAAAGCCTAACTGAAAAATATATCTAA	MIIGSGLIANALKNIDSDSMLFFASGVSNSLETRNSEFEREFSLLKNTLENNKGKLIYFSTLSIHDQSKQDSFYVLHKLKIEDYIKTHSDDYLILRIGNIVGNGGNPNTLFNFLKTQIVNNNKFVLHSKARRLLLDIDDISRFLNSNCIHIKNETINFAYPYYYDLKQIVAAIQKKMDKTADYETTNEGDFYKVSFDENTNNFFSGINEDDYLQSLTEKYI				NA	NA	NA	NA	NA
BMS003_02062	939			hypothetical protein	ATGATTCCCACAGTAAGCATCTGTATTACAACTTACAATCACGAAAAATACATCGAAGAATGCCTGAACAGCATATTTTCGCAGAACTTTGACCACACTTATGAGGTCATTATCTGTGATGATAACTCATCAGACAATACAGAAGGCATCATTCGCAGAATAATATCTGAAAATCCTCTCGGAAACAGAATAAGATATTTTAAGAATGTTCCCAACCTTGGATATGTGAAGAATACCCTGTTCTCCTTTTCTCAGGCTTTAGGAAAATATATTGCCATCTTAGATGGTGATGACTGCTGGATCAATAATTCTAAAATTCAGCAACAGTTTGATTTTTTAGAATCCAATCCTGATTTTTCAGCAGTAGGAACAGATTCTACGGTAGTATATGAGGATATGCCTTTACCTGATCATTCTTTTTCAAATCATGCAGGACACGCTCTTAATAAAGAAAACTTAACAGATATAAAAATTTGCCAGACCTCCACTTTTTTTTTCAGAAAAGAAATTTTAAAAGATGATTTCCCTACCGGCATCATTTCAGCAGACCGGTGTCTATATCTTCTTGCCGGATGCTTTGGTAAAATCAAGGTGCTTCCGGGAGAAATGGCAATATACAGGCAATTCAGTTCCAGCATTTCTAAAAATGTAACATACGAAGCCATGAAAAAAGACTTTGCCATTATTCCTTTTATTAAAAAATATGGCCCGGAATATAAAACCTCCAGTTTAAATATGTATTTTTATTATGCATTAATGTCTTATTCTACGGCTATTTCCAAAGGAAATTTTTTCAAAGCATGTATGGGGTACTTCTTCTATAATGTATGGTCTAAGTTCTCACTGAACCCATTAAAATTATACTCTGTTTTAAAATGGACCAGACATACCATCAAACAGAAATATGAAATTAAAAAACAAAAGCATAGTTTTGTCTAA	MIPTVSICITTYNHEKYIEECLNSIFSQNFDHTYEVIICDDNSSDNTEGIIRRIISENPLGNRIRYFKNVPNLGYVKNTLFSFSQALGKYIAILDGDDCWINNSKIQQQFDFLESNPDFSAVGTDSTVVYEDMPLPDHSFSNHAGHALNKENLTDIKICQTSTFFFRKEILKDDFPTGIISADRCLYLLAGCFGKIKVLPGEMAIYRQFSSSISKNVTYEAMKKDFAIIPFIKKYGPEYKTSSLNMYFYYALMSYSTAISKGNFFKACMGYFFYNVWSKFSLNPLKLYSVLKWTRHTIKQKYEIKKQKHSFV				NA	NA	NA	NA	NA
BMS003_02063	846			hypothetical protein	ATGGATAATTCTCCTTTATTCTCTATACTTATCGCCAATTATAACAACGGCAGATATTTTAAAGACTGCTTTGAAAGCATTCTCTCCCAAACGTACCCCCAATGGGAGGTTATTATTGTAGACGACCACTCTACCGATAATTCTGTAGAAATCATACAACAGATTATAGGAAATGATAAGCGCTTCAAGCTTCATATAAATGAAAAAAACGGAGGATGCGGTTTTTCCAAAGAGAAATGTGCAGCACTTGCCCTGGGTGAAATATGTGGATTTCTTGACCCTGATGACATCCTCACTCCTAATGCATTGGAAAGAATGGTCCAGAGCCATCTGCAGTACCCGGAAGTAGCCCTCATCCACTCAAAATGCTACATTTGTGATGATAACCTGAATCCGGTAAAAGAATACACAAATGGAAAAAATGTGCAGAGAAGAGATGATTTTCTGAATATGGAAGGAGAAATTTTTCAATTTGCCACTTATAAAAATTCTTATTATAAAAAAACAACAGGGATAGACCCTTATTTTCAACGGGCTGTTGATCAGGACCTTTACCTTAAGCTTTACGAAACAGGAGAAACCCTGTATCTGGATGAGTTTTTATATTTATATCGTATTCATTCTGGCGGTATTTCAACCAACAACAATATCAGGAAAGCAGAATACTGGCGTTGGGCGGTCAACATGAAAACAGCGGAAAGAAGGAATATAAATATTGAAGATGCTTTTGTTGCCAACTTTGCACAAATGCGCCAACTGGAAAACTTTAAACACAAATACTATTCCTTAAAGAAATTCGAACCTGTACAGAACTTTTACCTGAGTATTAAAAAATTATTCAAGTGA	MDNSPLFSILIANYNNGRYFKDCFESILSQTYPQWEVIIVDDHSTDNSVEIIQQIIGNDKRFKLHINEKNGGCGFSKEKCAALALGEICGFLDPDDILTPNALERMVQSHLQYPEVALIHSKCYICDDNLNPVKEYTNGKNVQRRDDFLNMEGEIFQFATYKNSYYKKTTGIDPYFQRAVDQDLYLKLYETGETLYLDEFLYLYRIHSGGISTNNNIRKAEYWRWAVNMKTAERRNINIEDAFVANFAQMRQLENFKHKYYSLKKFEPVQNFYLSIKKLFK				NA	NA	NA	NA	NA
BMS003_02064	1152	wecF		TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase	ATGCCTGATATCTATCATTTTTGTGAAGACGAAAAGTTTATCAATTCTGCCTACAGGCAGTTTGAGACTTTATATACCGGTGAGAACAGGTTTTTGGTATATGGGGTAACAGATGGCCAGACAAGACATATTACCCTTACCGAGCATTTCTCTTTTATCACCGATTTTGAAACTGCTTTTAAAGAAATTCCAGACAAAAGCATTGTTATTTTTCATAGTCTTCCAAGCTCAGTGATTCCACATCTTCATCATTTACCCAAAGCGGTGAAGACGATTTGGTTTATTTTTGGTTTTGAAGTATATCTTGATCCCCTCTTCTATTCAGAAGATCAGTCGTTGGATACTCTTACTCGAAAAGAATTCGGCCAGCCAAACCCAAATTCCTTAAAAAAACGCATAAAAGAGATAGCATGGCCTTATTTCAGAAAAATAAAACCTGATCTTTATCTTACTTTTAAAGAAAGAAAAAGAGAAAAGCTGAAAAGAATAGATTATTTTGGAAGCTCTTTCCCGGAAGAATATAAGCAGATCTGCAAAATTCTGCAGCTGACACGCCCTTCTTTCGATTTCTGGTATTACCCTATAGAAAATATCCTGGATATTCATGCTTCTGTAAACAATGAAAAGGAATATATACTCATTGGAAATTCCGGTTTTAAAACCATTAATCACCTGGATATTTTTGAAAAACTCAGACAGCTCAAAGTAGAAAAGCAGAACATAAAAGTTCCTTTTTCCTATGGTAATCCGGATTATATGGCTAAAATAAAAAGTCTTACAGATCTTCCTCACAATACTATTGATTTTATTGAAGATTTTTATCCTTTACAGGAATATAACCTTCTGTTATCAAAAGTAAAAACAGCCATCTTCAACACAAGAAGACAACAGGCTGTAGGCAATATCATTGCTCTACTTTATATGGGAGCCAAGGTATTCATCAGTGAGAAAAATACCTTCTATCACTATCTGAAAAGAAATAAAATTATTGTTTTTTCCTATGAAAAAGACCTTAACGAAAAAAGCGTAGTCCAGGGATTACCTTCTTCGGAAATTGAGAAAAACCGACAGTTACTATATGAACTTCTTAACGAAAAAAAATTAGAATCCGAACTTAAGCATTCTATTGAAAATATTAAACACAATGGATAA	MPDIYHFCEDEKFINSAYRQFETLYTGENRFLVYGVTDGQTRHITLTEHFSFITDFETAFKEIPDKSIVIFHSLPSSVIPHLHHLPKAVKTIWFIFGFEVYLDPLFYSEDQSLDTLTRKEFGQPNPNSLKKRIKEIAWPYFRKIKPDLYLTFKERKREKLKRIDYFGSSFPEEYKQICKILQLTRPSFDFWYYPIENILDIHASVNNEKEYILIGNSGFKTINHLDIFEKLRQLKVEKQNIKVPFSYGNPDYMAKIKSLTDLPHNTIDFIEDFYPLQEYNLLLSKVKTAIFNTRRQQAVGNIIALLYMGAKVFISEKNTFYHYLKRNKIIVFSYEKDLNEKSVVQGLPSSEIEKNRQLLYELLNEKKLESELKHSIENIKHNG	PGPT0023230_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023230-wecF|rffT-K12582	NA	NA
BMS003_02065	1143	wecE	COG0399	dTDP-4-amino-4,6-dideoxygalactose transaminase	ATGATACCATTTAATAAACCATTCATTGCAGGAAATGAATTACTATATATTGAAGAAGCGGTAAAAAGCGGTAAAATATCCGGAGATGGAATTTTCACAAAAAAATGTCATACTTTTTTTGAAGACAAGTTCGGTTTTCAGAAAGTATTGCTTACCACTTCATGTACAGATGCTCTGGAAATGGCAGCCATCTTATGTGATATAAAGCCAGGAGATGAAGTTATAGTTCCCAGCTATACCTTTGTTTCTTCTGCCAATGCATTTGCCTTACGCGGAGCAAAGATTGTCTTTGCAGACTCTTACGAAGATAACCCTAACATTGACCCTGATCAAATAGAAAAACTAATTACCAATAAAACCCGTGTAATTGTCCCGGTACATTACGCAGGAGTAGCATGCGACATGGAAAAGATCATGGAAATAGCTCAAAAACATAAATTATTGGTTATAGAAGATGCTGCACAGGCTATAGACAGCTATTACACTTTTTCGGATGGAAACAAGAAAGCATTAGGTTCCATAGGAGATTTCGCTGCTTTCTCTTTTCACGAAACCAAAAATATTATTGCCGGCGAAGGAGGTATGCTGGTCATCAATAATCCTGAATATAATAACCGTGCTGAAGTCATTCGAGAAAAAGGGACCAACCGAAGTGCTTTTTTCCGTGGAGAAGTTAATAAATACGGCTGGGTAGATTTAGGATCCTCATTTTTGCCATCAGAAATTATTTCCGCTTTCTTATATGGACAAATCGAAAAATTAGATGAAATACAGTCTAAAAGAATAGCTATCTGGAATAATTACTACAAAGGGTTAAAAGATCAGGCTGCAAAAGGAAACTTTAAAATCCCTTCTATCCCGGATTATGCTACCAATAATGCACATATGTTTTATATTATCTGTAAAACATATGAAGACAGAACCTCTCTTATACAATTTTTGAAACAACAGGATATTCACCCGGTTTTTCACTACCTAAGTCTGAACAAAAGTGAATATTTCCTGAAAGATAATGATCTCATCAACATTCCTCATTCTGATAATTTTACAGATTGCCTGCTGAGATTACCCTTTTATTTTGAATTAACAGAAGCTGAACAAAATCAAATCATCAAACTGATCAACGAGTTTTATAATGCCTGA	MIPFNKPFIAGNELLYIEEAVKSGKISGDGIFTKKCHTFFEDKFGFQKVLLTTSCTDALEMAAILCDIKPGDEVIVPSYTFVSSANAFALRGAKIVFADSYEDNPNIDPDQIEKLITNKTRVIVPVHYAGVACDMEKIMEIAQKHKLLVIEDAAQAIDSYYTFSDGNKKALGSIGDFAAFSFHETKNIIAGEGGMLVINNPEYNNRAEVIREKGTNRSAFFRGEVNKYGWVDLGSSFLPSEIISAFLYGQIEKLDEIQSKRIAIWNNYYKGLKDQAAKGNFKIPSIPDYATNNAHMFYIICKTYEDRTSLIQFLKQQDIHPVFHYLSLNKSEYFLKDNDLINIPHSDNFTDCLLRLPFYFELTEAEQNQIIKLINEFYNA	PGPT0022845_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022845-wecE|rffA-K02805	NA	NA
BMS003_02066	1140			hypothetical protein	ATGGAATCAAAAAAAAGCATTTTTTTTGGCGGATTAAATGAGTTACGGGCAATTGCTGCATTGGCAGTAATCTTTCACCATATTGAACTTTTTAAACACAGAGACAACATTGTCAGTTTATTTGACTGGAAATGCACAGCATATTTCATTGAGCATCTTGGAAAAAACGGCGTGTATCTTTTCTTTGTACTCAGCGGGTTTCTTATTACTTACCTTCTTATCACCGAAAGAACAAAGAATAATAGTATTGATTTTAAAAAATTTTACCTGAGAAGAGTATTCAGAATATGGCCTCTATATTATATCATCTTTGGTATATCCATATTCCTTATTCCTTTGATAGCAGGTTCATCTGATATATTTTCTCTCACCTCATCCTATTTTTCCAGAATACAAAACCCTTCTAATTACGACTTAAAAACCATACTTTTATACATTTTCTTTCTCCCGAATCTGGCTCTGAAATTAGGAAAAGTACTTGTAGGTGCTTCACAATCCTGGTCTGTAGGAGTAGAAGAACAGTTCTATATTCTGTGGCCTCTTATTGTTGCATTTTTTAAGAGAAAAATATTGCCTTTCATTTTCGGAGTGATTTTAATTATTTTTATACTGATTAATCTTCAGTTCCCAAAATCAACCTTAGGTTTTATTGCCAATGTAATTCCTTTTGAGTTTATGGCAATCGGCGCAATCGGCGGATATTACTATTCAGAATATAAAGAAATCATCACAAGATATACTAAAAGCAGAGCAATATATTTCGTTATACTGCTGTTAATAGGTATATTCGCCTTTGTACCTATTTTTAATCTCTATCTGCAAAATATTATTTCAGGATTTATTTTTCTGCTTTTAATATTAACCAGCATCAACCAATCGAACAGAAGTATTTTCAGGAACCATTTCTTTTCATTTTTAGGAAATATATCTTACGGAATATATATGTATCATCCTTTTGTAATGTTTTTGGTTTTTCCTGTTTCTTATAAATTACTTCAATTGTATGATAATATATTTATATTTCATATTTTTATCTACCTATTTGTTCCATGTATAACTATATTTATCAGTTATTTTTCTTTCAAGTATATTGAAAAGTTTTTTATAAAAATTAAAGATTCTAAATTCAAAACACTATGA	MESKKSIFFGGLNELRAIAALAVIFHHIELFKHRDNIVSLFDWKCTAYFIEHLGKNGVYLFFVLSGFLITYLLITERTKNNSIDFKKFYLRRVFRIWPLYYIIFGISIFLIPLIAGSSDIFSLTSSYFSRIQNPSNYDLKTILLYIFFLPNLALKLGKVLVGASQSWSVGVEEQFYILWPLIVAFFKRKILPFIFGVILIIFILINLQFPKSTLGFIANVIPFEFMAIGAIGGYYYSEYKEIITRYTKSRAIYFVILLLIGIFAFVPIFNLYLQNIISGFIFLLLILTSINQSNRSIFRNHFFSFLGNISYGIYMYHPFVMFLVFPVSYKLLQLYDNIFIFHIFIYLFVPCITIFISYFSFKYIEKFFIKIKDSKFKTL				NA	NA	NA	NA	NA
BMS003_02067	633	lpxD_2		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGAAACGAATTGCCATCATAGGTTCCGGTCATTTAGGACAACAGATTGCCTATCATATACATCATGACAGTAATGATAAAGTGGTGGCTTTCTTCGATGAATTTCAGCCAAAAGGTATTCTGGTTGATGACATTCCCGTTATCGGCGGGAATAATGATATTATTGCAAAATATCAGGAAAATGAATTTGATACTGTTCTGATTGCAATCGGCTATAAGCATATTGATATAAAAAAAGATCTGTTTCTCAGACTCGATGGAAAAGTACCCTTTCATAAATTTGTTCATTCCTCTGCCTATGTAGATCCGTCTGCAACAATCGGATGTGGAACAGTAGTCTATCCGGGATGCGTTATAGATCAGAAAGTCAGGATTGAGGATAATGTGCTAATAAATATTTCCTGTACAGTGGCTCATGATTCCACAATAGGAAAACATTCATTCCTCTCCCCTTCCGTAGCAATTGCCGGTTTTGTGAGAATTGAAGAGCGATGTATAATAGGAATCAACTCCACTATTATAGATAATATCTCGATAGTACCCAAAACCCAGATAGGCGGTGGCAGCGTGGTCATTAAAGACATAAATACACCAGGATTATATGTAGGAAACCCTGTGAGATTTATAAGATAA	MKRIAIIGSGHLGQQIAYHIHHDSNDKVVAFFDEFQPKGILVDDIPVIGGNNDIIAKYQENEFDTVLIAIGYKHIDIKKDLFLRLDGKVPFHKFVHSSAYVDPSATIGCGTVVYPGCVIDQKVRIEDNVLINISCTVAHDSTIGKHSFLSPSVAIAGFVRIEERCIIGINSTIIDNISIVPKTQIGGGSVVIKDINTPGLYVGNPVRFIR				NA	NA	NA	NA	NA
BMS003_02068	636			hypothetical protein	ATGGAAGTTTTATTACTTGATGCAGCCAACACCCTGATTCACAAACCTTCTTTGTGGGACAAAATTCTGGAAGTACTTGAAAAAAATGGTCATTTTGTCGAAAAAGATCATTTGATCCTGAGACATAAAATTTTATCCGAAATCATTAATTTTCCGGACAGAACTTCCAAAGAATTTTACTCAGAATTCAATTCAGAATTATTACTGGCGTTAGGCATTATACCAACGGATGAGATTTTGAGGGAGTTATTTAACAGTTGCTCATATCTTCCCTGGGTAGCTTTTGATGACTGTAAAGCGTTAAAAGAATTAAATATAAAAAAAGCCGTTTTATCAAATTTCAATTCCACTTTGAAGAATTTAACGGATGAATTGATTGGTAAGGATATTTTTGATGAAATCATCATTTCAGAAGCTGAAAAATGTAGAAAACCGTCTTTAGATTTTTATCAGCTTGCTATCGAAAGACTTCAGGTAGATCCTGAAAACATTTTATATATTGGTGATTCCCTAAAACTGGATATTATCCCGGCAAAAAAACTGGGAATGAATACATTACTGATTGACAGAGAAAATATCTTCCCATATGCAAAAAACAAAATTTCAGACTTTGAAGAAATAAAACAGTATATATGA	MEVLLLDAANTLIHKPSLWDKILEVLEKNGHFVEKDHLILRHKILSEIINFPDRTSKEFYSEFNSELLLALGIIPTDEILRELFNSCSYLPWVAFDDCKALKELNIKKAVLSNFNSTLKNLTDELIGKDIFDEIIISEAEKCRKPSLDFYQLAIERLQVDPENILYIGDSLKLDIIPAKKLGMNTLLIDRENIFPYAKNKISDFEEIKQYI				NA	NA	NA	NA	NA
BMS003_02069	981			hypothetical protein	ATGGAAATCAAAACAGTATTAGTTACCGGAATCGGAGGTAATGTAGGACAAGGTATTTTAAGAAATATTCATAAAACTAAATTTCCTATAAGGTTAATAGGCTGCAACGTTACTGATTTCTCTGCCGGAAATCATCTTTGTGATGCTTTCTATAAAGTTCCATACGCCATGGCTGATAATTATATAGAAACAATCAACTCCATTGTAAAACATGAACAAGTAGACCTTATCGTTCCTTCAACGGATTATGAAGTCTATTATTTGGCATTAAACCGGGAAAAACTTGAAACTAAAGTTGCGGCTAGCCATGTAAATACATCAAAAACTTACCTGGATAAATATTTATCTTACCTGTATCACAGAGATAATGATCTGCCTTTTGCAAAAGCCTTCTTACCCAAAGATTACCCCGCAGGAAAATTCAGAGATTATATTGTAAAACCGAGAGAAGGAAGAGGTTCCAGAGGTTTACACATTAATCCGGAAGACTTATCCGTATTTGATGATACCTATATGGTTCAGGAGCTGATAAAAGGTAAGGAAATTACCACGGCTTTTTATGTCAATCGAAAGAATGAATTACATGGATTCATCAATCTTGAGCGTACATTAGAAAACGGAGCCACTAACGAATGTATTGTGAACAGAACATTTGATAAAGAACTGGAAGCCATATTAAAAAAGCTTATTGCTAAAAATAATTTTACAGGAAGTGCCAATCTTCAGTCTATTGTGGATTCTGAAGGAAATATTGTTCCTTTTGAAGTAAACTGCCGGATTTCGGGAACCAATTCCATCCGTTCTAATTTTGGGTTTGAAGATGTAAAGTATACGCTGGAAGAATATCTTTACGATACAGAGCCAAGTGAAGCCAATATCACAGAAGGTATTGCAGTAAGAATTTTAATGGATGTTATTTATCCACTGCAAAATGATATTGATAGCTTAAAAGACAACTCATCACCCCATTACATTTTCTAA	MEIKTVLVTGIGGNVGQGILRNIHKTKFPIRLIGCNVTDFSAGNHLCDAFYKVPYAMADNYIETINSIVKHEQVDLIVPSTDYEVYYLALNREKLETKVAASHVNTSKTYLDKYLSYLYHRDNDLPFAKAFLPKDYPAGKFRDYIVKPREGRGSRGLHINPEDLSVFDDTYMVQELIKGKEITTAFYVNRKNELHGFINLERTLENGATNECIVNRTFDKELEAILKKLIAKNNFTGSANLQSIVDSEGNIVPFEVNCRISGTNSIRSNFGFEDVKYTLEEYLYDTEPSEANITEGIAVRILMDVIYPLQNDIDSLKDNSSPHYIF	PGPT0021150_6033	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS003_02070	822			hypothetical protein	ATGAAAGTATTGATTGTAGGTGCAAATAGTATCTTATCTAAACAATTGATCCTTCAACATGCGGATGATGAAGTAGATGTTTTATACAGCAGCAAACCATCCGATCTCACAGCTCGTAATTTTCCGGTTACGGATATAGAAAAGCTAGCCCCTGATCATGATATTGTTTATATTGTAAGTGCTGTTATATCAAACGACAGAGATGACATTGGTGAGTTATATGAGGTCAATGTAAAACTTGTCAAAACCATCTGCACGCTTTTCAACCGTTCAAAAATCATTTATTTTTCTTCCGTTGCTGTTTATGATGCCATTAAAACAGGAGTCATTAATGAAAAAACATTACCCGCCCCGCAATCCTTCTATGGAATCAGCAAACTATGGGGCGAGAAAATTGTTAAACAGCATCCACAATATGGTATTATAAGAATTTCTTCGATGTACGGAACAGGAATGAAAGAAACGACTTTTTTACCAAGAATTATTGAATCCGCCATACAAGAAAACAACATAACACTTTTAGGAGAAGGAACAAGGAAACAAAATTATATCCATGCAAAAGATGTAGCCTCACTCGCTAAAAAGACAGCAATACAGAATGAGAATTTGGTTTTATTAGGCGTTTCTCCTAAAAATCACAGTAATACAAAAGTTGCACAGCTCATAAAAGGATTAACAAATTGTATGATAAATTACAGAGGAGAGGACCTTTCAAGATCACTGGAATATACACAGTCTGACCATCCCTTATATCAGTACAATTTCACCTCGTTAGAACAAGGAATAAAAGAATTATTAGAATGGAAATCAAAACAGTATTAG	MKVLIVGANSILSKQLILQHADDEVDVLYSSKPSDLTARNFPVTDIEKLAPDHDIVYIVSAVISNDRDDIGELYEVNVKLVKTICTLFNRSKIIYFSSVAVYDAIKTGVINEKTLPAPQSFYGISKLWGEKIVKQHPQYGIIRISSMYGTGMKETTFLPRIIESAIQENNITLLGEGTRKQNYIHAKDVASLAKKTAIQNENLVLLGVSPKNHSNTKVAQLIKGLTNCMINYRGEDLSRSLEYTQSDHPLYQYNFTSLEQGIKELLEWKSKQY				NA	NA	NA	NA	NA
BMS003_02071	1884			hypothetical protein	ATGAAAAAACTTGTCAATAAACTTTATAATAAGAAGATTTCCGGACTAGGTTTATCTGTTTTCAGAATTATGTATGGTATGGTTCTGCTTGCAGAAATTATGCAGATGTACTATTTCAGGCATTTGATTTTTGACAAAATCCCTTATCTGGATCCTGCAGAAATTAATTTTGGAATTCCGATTGTTATTTGGAGTATTTCTGTTATTCTTATCATTGTAGGGTTATTTACAAGAATTGCAACAGTTATCAATTATATATTATCCCTAATACTCATCGGTTCTATTCATACGTATGAATACCATATGTTTTATGCATTTATGGGGATTAATTTTTTACTTGTTTTTTTACCGGTTTCCAGAAATTTATCATTAGATCGTTTGCTTACTACATACAAATATTCTAATACCCGGTTCAGATATTATCCACCAAGGGAAGTGAGTGTACTGAGTTATTATATTATCATTTTAGCCGGAGTTGCTTTTGTCTATTTTGATTCTATATTTTTTAAATATTCTTCTCATTTCTGGAGAGCAGGATTAGGATTATGGCTTCCAAGCTCTGTTCCACAGACAGCTTTTATCCCTATCAATTGGCTGTTGGATCAAAAATATCTGGTCATACTTTTAGGATATCTTACGCTAATTTTTGAAACGGTTTTCCTTTTCACATTTTTTAGAAAAAAATGGAGGCTTCCATTACTTATTATTGGCATTGGATTGCATCTGGGAATTTTGATTTGTTACCCCATTCCGTGGTTTGCTTTCGGAATGTGTGCAATTTATATTCTGATGGTCCCTGTAAGTTATTGGGAAAAGCTTTTCAAAAACCTGGAAAGCAAAAAACCAAATGTAATTTTTTATTATGACGGAGAATGTCCTTTGTGCAACAGAACCAAACTTACTATAGAGCATTTTGATATACAAAAACGTGTAGAGTTCCAGACGGTACAGTATTATGCGGAAAAAAATGAACTGCTGCAAAATATTCCTTACGATAGTTTATTAGATGACATCCATTCTATAAAAAATAACAAAATATATAAAGGACTGGATACCTACATACAGGTTTTTGATTCCATTCTCTATTTAAAACCGATAAGTTGGTTAATAAGACTTCCGGGAATTTACCAGATCGGGCAAGCAGTTTATGGATATATTGCAGAAAACAGAAATACTGAACGCTGTACGGAAGATAACTGTGGCTATATTCCACCTACCCTTCCTCCAAAAGATGAAGAATTAAAACTTCTTCACAATTTTACATTAAAAGATTTAAAAATAAGCATGATTACATTAGGATTATCAGTCATGATCCTTTTGCAAGTCATTGTTTCTTACAATTCTCCCCTGAATAAAATAATAAGAGAAAAGATCGGTTTTGAAAATAACAACGTCAACCAGAAAATAGAAAATTTCTCTTCTTTCATTGAAAAAAATACCAAAGTAGTATTGGGTATTACAGGACATGGTGTTTTTATGGATTATCATTTCAGTGAATATAACCATGATATTTCTGTAGTTTATTTAGACAAGCATAATAATAAAGAAATATGGCTTCCTATTATTGATAAGGACGGAACTCCTGGAAATTATCTCTTTGGTCCCATATGGGCTAAGTGGTCTTTCAGGGTTAATCATAATAAGATCAATCAGAAAAAACTAGAGAAAGGCATTCGTGATTTTACTGCTTTTTGGGCAAAAAAGAATCACATCAACTTAAATGATGCTACTTTTATTATTAAGGTAAAAAAGATAGATACTCCGCACAATTGGGAAAAGGATTTCCTGAAAAAGCAAATGCAGAAACCGTGGATGGATGTAGGAGCTGCAAAATGGCATGACATGGAATATTCAATACAAATTCCTGAAATTGAAAAGTTATAG	MKKLVNKLYNKKISGLGLSVFRIMYGMVLLAEIMQMYYFRHLIFDKIPYLDPAEINFGIPIVIWSISVILIIVGLFTRIATVINYILSLILIGSIHTYEYHMFYAFMGINFLLVFLPVSRNLSLDRLLTTYKYSNTRFRYYPPREVSVLSYYIIILAGVAFVYFDSIFFKYSSHFWRAGLGLWLPSSVPQTAFIPINWLLDQKYLVILLGYLTLIFETVFLFTFFRKKWRLPLLIIGIGLHLGILICYPIPWFAFGMCAIYILMVPVSYWEKLFKNLESKKPNVIFYYDGECPLCNRTKLTIEHFDIQKRVEFQTVQYYAEKNELLQNIPYDSLLDDIHSIKNNKIYKGLDTYIQVFDSILYLKPISWLIRLPGIYQIGQAVYGYIAENRNTERCTEDNCGYIPPTLPPKDEELKLLHNFTLKDLKISMITLGLSVMILLQVIVSYNSPLNKIIREKIGFENNNVNQKIENFSSFIEKNTKVVLGITGHGVFMDYHFSEYNHDISVVYLDKHNNKEIWLPIIDKDGTPGNYLFGPIWAKWSFRVNHNKINQKKLEKGIRDFTAFWAKKNHINLNDATFIIKVKKIDTPHNWEKDFLKKQMQKPWMDVGAAKWHDMEYSIQIPEIEKL				NA	NA	NA	NA	NA
BMS003_02072	1269	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGCTGGCTTTAAAAGCGGAAAATATATCAAAACAATACAGACTGGGACAGGTGGGAACAGGTACTCTTTCTCATGACCTGAACAGATTCTGGCACAAAGTAAGAGGAAAAGACGATCCTTATCTGAAAATTGGAGAAGCCAATGACAGAACAACAAAAGGCAAGTCTGAATATGTGTGGTCTCTTCGTGATATTAATTTTGAAATAGAACAAGGGGATGCCGTTGGAATCATTGGAAGAAATGGTGCCGGAAAATCCACGTTACTAAAACTATTAAGCAAGGTTACTAAGCCTACTACAGGTAAAATTTATACTCAAGGTAGAATTGCATCACTGTTAGAAGTAGGCACAGGCTTCCATCCTGAAATGACAGGTCGTGAAAATGTATTTCTGAATGGGGCTATCCTGGGAATGACCCGAAAAGAAATCAAACGTAAATTTGATGAAATCGTTGACTTTTCCGGAGTGGAAAGATATATTGATACTCCCGTAAAAAGGTATTCTTCGGGGATGTATGTACGGCTCGCATTTGCTGTAGCCGCTCACTTAGAGTCTGAAATTCTTATTGTAGATGAAGTTCTGGCTGTGGGGGATGCAGATTTTCAAAAGAAATGTCTTGGAAAAATGGGTGACGTTACCAAAGGAGAAGGAAGAACTGTATTATTCGTGAGCCATAATATAGGTGCTGTAAAAGCCCTGTGCAACAGCGGAATTTATCTGAAGAACGGAACACTGTTGTATCAGGGAGAAATTGAAAATACCATCACAAAATATTTAACGGATACTTCCGGAAATATTGGAGAACCTATCCTTAATCGTGAAGATAAAATAGGAAATAAAAAAGTGGAAGTAGCAGACGTTAAGTTTAGAAACTCCATGAAAGAAATTACTACTGAAATCTTATCCGGTGATTATTTACAGATAGAGTTTGATATCATTAATCATGGTAATATTAATCTGGACGAGCTGATTGTTGCCTGTGGATTCACGGATAAATATGAAAGTAAAATAGTTACATGGGTGTCTGACGAAATGATTTTTAGTGTATCTGCTCCTGATAAAATTATTCTGGAAATTCCGAACTTCAACCTGAGAGCCGAGAATTATCTGTTCACTTATCAGATTTCTCATAAAACAACCAAACCTCAGGACTTTTGTGATGTTCTGCATAATGCAACCGCTTTAACGGTTATGGAAGCTGATTTTTTCAATTCCGGAAAAAAAATAAGACCCGGAAGCTCTTTATTGCTGAATGCCAATTTTAAATAA	MLALKAENISKQYRLGQVGTGTLSHDLNRFWHKVRGKDDPYLKIGEANDRTTKGKSEYVWSLRDINFEIEQGDAVGIIGRNGAGKSTLLKLLSKVTKPTTGKIYTQGRIASLLEVGTGFHPEMTGRENVFLNGAILGMTRKEIKRKFDEIVDFSGVERYIDTPVKRYSSGMYVRLAFAVAAHLESEILIVDEVLAVGDADFQKKCLGKMGDVTKGEGRTVLFVSHNIGAVKALCNSGIYLKNGTLLYQGEIENTITKYLTDTSGNIGEPILNREDKIGNKKVEVADVKFRNSMKEITTEILSGDYLQIEFDIINHGNINLDELIVACGFTDKYESKIVTWVSDEMIFSVSAPDKIILEIPNFNLRAENYLFTYQISHKTTKPQDFCDVLHNATALTVMEADFFNSGKKIRPGSSLLLNANFK	PGPT0023305_687	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
BMS003_02073	849			hypothetical protein	ATGAATGAACCACAACAAACGTGGAGTGAGACGATTGATGCAGATCATTCGTTATTCGACCTGAAGCTAAAAGAAGTCTGGAGATATAAAGATCTTGTTTATATGTTTGTAAAAAGAGACTTTGTATCAAGCTTTAAACAGACTATTTTAGGCCCTATCTGGTTCTTTATCAATCCCATATTAACTACAATTGTTTATTTAGTTGTTTTCGGAAGAATAGCAAATTTACCAACAGACGGAGCACCTCCATTATTATTTTATCTGGCAGGTGTTACTCTTTGGAATTATTTTTCAAGTTCATTATTAGGAACCTCATATACTTTTACAGGAAATGCAGGAATCTTTGGAAAAGTTTATTTTCCAAGACTCGTTACCCCCCTATCTATTGTTATCTCAAACTTAATGCGTTTTGGAGTACAAATGCTGCTTTTTATCATTGTGTGGGTCTATTATCTCAGTAAAGGAGAAGTATCTCCCAACATATGGATACTTGCCACTCCTTTTCTCATACTTCTTATGGCTCTTTTTGCTTTAGGAATGGGAATGATATTTTCTTCACTTACTACCAAATATAAGGACCTCAACATGCTGTTGGGCTTTGGGGTAAGTCTTTATATGTATACAACTCCGGTCATTTACCCGGTATCTTCACTTTCAGGAATTTTTAAAAAATTAGCATATTACAATCCGTTGTCCGGTATTTTTGAGTGCTTTAAATATGCCTGGATTGGTGTCGGAGATTTCTCACCATTAATGCTGGGGATCAGTACAATCATCATTCTTATTCTTTTATCTATAGGAATCGTTGTTTTTAATAAAGTTGAAAAAACTTTCATGGATACTGTGTAA	MNEPQQTWSETIDADHSLFDLKLKEVWRYKDLVYMFVKRDFVSSFKQTILGPIWFFINPILTTIVYLVVFGRIANLPTDGAPPLLFYLAGVTLWNYFSSSLLGTSYTFTGNAGIFGKVYFPRLVTPLSIVISNLMRFGVQMLLFIIVWVYYLSKGEVSPNIWILATPFLILLMALFALGMGMIFSSLTTKYKDLNMLLGFGVSLYMYTTPVIYPVSSLSGIFKKLAYYNPLSGIFECFKYAWIGVGDFSPLMLGISTIIILILLSIGIVVFNKVEKTFMDTV	PGPT0023304_600	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
BMS003_02074	864	rmlA	COG1209	Glucose-1-phosphate thymidylyltransferase	ATGAAAGGAATAATATTAGCCGGAGGATCCGGAACAAGACTTTACCCTCTAACCATTGCCGTAAGCAAGCAACTGATGCCTGTTTATGATAAGCCCATGATCTATTACCCGCTTTCCACGCTTCTTTTAGCCGGAATCAAGGATATTCTGATTATTACTACTCCACATGACCAGGATGGCTTTATCAAGCTTCTGGGTGATGGATCCCAAATCGGATGTAATATAGAGTATGTTGTACAGCCCAGCCCAGATGGTTTAGCACAAGCTTTTATTCTGGGGGAACAATTTATTGGTAATGACCCTGCTGCACTGGTACTGGGGGACAATATTTTCTATGGCTCTGAAATGGGAACTTTGCTGAAAAACAAAACCAATCCGGACGGAGGAGTTGTTTTTGCATACCATGTTGCTGATCCGGAAAGGTATGGTGTTGTAGAGTTTGATAAAGACCTGAAAGCCGTTTCTATTGAAGAAAAACCTTTGAAACCGAAGTCAAATTATGCTGTTCCCGGATTGTATTTTTATGATAATGATGTGGTAGAAATCGCCAAAAACATCCAGCCATCCGCAAGAGGGGAACTCGAAATTACAGATGTAAACAATGTTTATTTGAGGAAAGGCAAACTTGAAGTAGGAGTTTTAGACAGGGGAACAGCATGGCTGGATACAGGAACTTTTGACTCTCTTCATGATGCTTCAGAGTTTGTAAGTGTCATTGAAAAGAGACAGGGATTTAAAATTGGCTGTATTGAAGAAATTGCGTTCAGGAACAAATTCATTAATGAAGAAAAACTTCTAGAAACCGCTGCCAAATATGGTAAAAGTGGCTATGGAGAGTACCTGAAACAACTTATCGGTAAATAA	MKGIILAGGSGTRLYPLTIAVSKQLMPVYDKPMIYYPLSTLLLAGIKDILIITTPHDQDGFIKLLGDGSQIGCNIEYVVQPSPDGLAQAFILGEQFIGNDPAALVLGDNIFYGSEMGTLLKNKTNPDGGVVFAYHVADPERYGVVEFDKDLKAVSIEEKPLKPKSNYAVPGLYFYDNDVVEIAKNIQPSARGELEITDVNNVYLRKGKLEVGVLDRGTAWLDTGTFDSLHDASEFVSVIEKRQGFKIGCIEEIAFRNKFINEEKLLETAAKYGKSGYGEYLKQLIGK	PGPT0022600_4378	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
BMS003_02075	1080	rfbB	COG1088	dTDP-glucose 4,6-dehydratase	ATGAAGAATATAATCATTACAGGAGGTGCCGGATTCATTGGCTCTCATGTTGTAAGAGAGTTTGTAAAAAACAATCCGGACACCAATATCATCAACCTTGATGCTCTTACTTATGCCGGGAACTTAGAAAACTTAAAGGACATTGAAAATGAACCTAATTATGTTTTCGAAAAAGCAGACATTACGAAACCTGAAGAATTGAGAAAGGTTTTCGAAAAATACAATCCTGATGCCGTTGTACATTTAGCCGCAGAAAGTCATGTAGACAGAAGCATTACAGATCCAATGGCATTTATCAATACCAATGTAAACGGAACAGCTAACCTTCTGAATCTTTGCAAAGAGTTCTGGACATTAAATCCTGAACATACGCACGGCAGATTCCCGGATGAAAAAAGAAATAATCTTTTCTATCACATTTCTACTGACGAAGTATACGGAAGCTTAGGCGAAACCGGATTCTTTTTAGAAACCACATCATATGATCCCCAATCCCCATATTCTGCTTCAAAGGCCGCATCCGACCATTTGGTAAGAGCTTACGGAAACACTTATGGCATGCCCTTCATTGTCTCCAACTGTTCCAATAATTACGGCCCGAATCATTTTCCTGAAAAACTGATTCCTCTTTGTATTTCGAATATCATCAACGAAAGACCTCTTCCTATTTATGGAGACGGAAAATATACAAGAGACTGGTTATTTGTCATTGACCACGCCCGAGCTATTCATCAGATTTTTAATGAAGCAAAAACCGGTGAGACGTACAACATCGGAGGGTTTAACGAGTGGCAGAATATTGATCTTGTAAAAGAACTGATCAGCCAAATGGATGCCAGACTGGAAAGACCGGAAGGCTATTCTGAAAAACTGATCACTTTTGTCAAAGACAGACCAGGCCACGATAAGCGCTATGCTATTGATGCCACAAAATTAAATAAAGATTTAGGCTGGAAACCGTCAGTAACTTTTGAAGAAGGACTGGCAAAAACCATAGACTGGTATCTTGAAAATAAAGAATGGCTTGAAAATGTAACTTCAGGAAATTACCAGGATTACTACAGTAAGCAATACAATTAA	MKNIIITGGAGFIGSHVVREFVKNNPDTNIINLDALTYAGNLENLKDIENEPNYVFEKADITKPEELRKVFEKYNPDAVVHLAAESHVDRSITDPMAFINTNVNGTANLLNLCKEFWTLNPEHTHGRFPDEKRNNLFYHISTDEVYGSLGETGFFLETTSYDPQSPYSASKAASDHLVRAYGNTYGMPFIVSNCSNNYGPNHFPEKLIPLCISNIINERPLPIYGDGKYTRDWLFVIDHARAIHQIFNEAKTGETYNIGGFNEWQNIDLVKELISQMDARLERPEGYSEKLITFVKDRPGHDKRYAIDATKLNKDLGWKPSVTFEEGLAKTIDWYLENKEWLENVTSGNYQDYYSKQYN	PGPT0022625_786	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
BMS003_02076	1314	tuaD	COG1004	UDP-glucose 6-dehydrogenase TuaD	TTGAATATAACAATTGTAGGAACAGGTTATGTAGGACTGGTTACAGGAACAACCCTTGCAGAACTTGGCAATTCAGTATACTGTGTTGATATTGATGAAAAAAAAGTAGAGGGTATGAAAAACGGCGTAGTTCCCATCTATGAGCCGAACCTTGAGGAAATGTTTCTTAGAAACATTCAATCTGAAAGATTATTTTTCACTACCGACCTAAAAGAGGCTTTAGACAAAAGCGAAGTAATATATCTTGCGTTACCTACCCCTCCGGGTGAAGATGGTTCTGCAGATTTGTCTTATGTTCTTCAGGTAGCCAATAATATTGGTGAGCTGATGAATGACTACAAAGTGATTGTTAATAAGAGTACCGTTCCTGTAGGAACTGCCGACAGAGTAAGAGAAAAAATCTCTGCTAAAACAAGTATCCCTTTTGACGTAGTTTCAAACCCTGAATTTTTAAGAGAAGGCTTTGCCGTTGAAGACTCAATGAATCCCTCCAGAGTAGTCGTAGGTGCAAGCTCCCAAAGAGCAAAAGACATTATGTCTAAAATTTACCAGCCTTTTACCAATACAGGAATTCCCATTATCTTTATGGATGAGAAATCATCAGAACTTACAAAATATGCAGCAAACTCATTTTTAGCGGTAAAAATTACCTTTATGAACGAGATTGCGAATTATTGTGAAAAAGTAGGTGCAGATGTAGATAAAGTAAGGCTTGGCATGGGTAGTGACGACAGAATCGGGCATAGATTTTTATTTCCGGGAATCGGATATGGTGGGAGCTGCTTTCCAAAGGATGTAAAAGCTCTTATAAAATCCGGAAAACAGGAAGACTTCAACTTCCAGATTCTTGAAGCTACTGAAAGTGTGAATACCTCCCAGAAAGTTATCCTTGTCTCTGAGATTGAAAAATATTTCGGAGGAAATATACAAGGGAAGAAAGTTGCAATGTGGGGGCTTGCCTTCAAAGCCAATACAGACGACATCAGAGAAGCCTCATCTTTAGATAACATTGCCCTTTTATTGGAAAAAGGAGCAGAAGTTACAGCATATGATGCTGTTGCTGAAAGCAATGTTCAGAAGCTTCTTGGAAACAAGATACAATATGCCAAAGGAATGTATGATGCGCTGGAAGATGCAGATGCATTATTTATTGCTACAGAATGGCCTGAGTTTAAAAATCCAAATTTTGAACTGATGGCCAGAAAAATGAAAAACAAAGTCATTTTTGACGGGAGAAACATGTATCCACTGGAAATCCCGGAACAGAATGGATTTTATTATAAAAGTATAGGAAGAAAGACCATCACAAAATAA	MNITIVGTGYVGLVTGTTLAELGNSVYCVDIDEKKVEGMKNGVVPIYEPNLEEMFLRNIQSERLFFTTDLKEALDKSEVIYLALPTPPGEDGSADLSYVLQVANNIGELMNDYKVIVNKSTVPVGTADRVREKISAKTSIPFDVVSNPEFLREGFAVEDSMNPSRVVVGASSQRAKDIMSKIYQPFTNTGIPIIFMDEKSSELTKYAANSFLAVKITFMNEIANYCEKVGADVDKVRLGMGSDDRIGHRFLFPGIGYGGSCFPKDVKALIKSGKQEDFNFQILEATESVNTSQKVILVSEIEKYFGGNIQGKKVAMWGLAFKANTDDIREASSLDNIALLLEKGAEVTAYDAVAESNVQKLLGNKIQYAKGMYDALEDADALFIATEWPEFKNPNFELMARKMKNKVIFDGRNMYPLEIPEQNGFYYKSIGRKTITK	PGPT0017855_3772	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
BMS003_02077	468	rimP		Ribosome maturation factor RimP	ATGGAGTTTAGAAAAAGAATTGAAGAATTATTAAATGAATTCCTTGAGACCAGAAAAGATCTGTTTCTTATTGATCTTAAAATTTCTGCAGGGGATGATATTACAGTGATTTTGGATGGTGATAATGGAGTTTCTTTGCAGGACTGCCTTGATGCAAGCCGTGCAATAGAATTCAATATGGATCGTGAGGAGCATGACTTCAGCCTTCAGGTGATGTCTGCAGGATTAAGCGAGCCGCTAGCAACACCAAGACAGTTCAGCAAAAATATTGGAAGAGAGATTGAGGTAATGCTGGAAGATTCTTCTAAAATTGAAGGAGAATTGTCGAAAGTAGATGAAGAGAAGATCACACTTACTTTACGTTACCGCAAACCGAAAGATATCGGTAAAGGAAAAGTAGATGTAGAAGAGGAGAAAGAGATTTCTTACTCTGAGATCAAAAAAGCATTAGTAGTAATTAAATTTTAA	MEFRKRIEELLNEFLETRKDLFLIDLKISAGDDITVILDGDNGVSLQDCLDASRAIEFNMDREEHDFSLQVMSAGLSEPLATPRQFSKNIGREIEVMLEDSSKIEGELSKVDEEKITLTLRYRKPKDIGKGKVDVEEEKEISYSEIKKALVVIKF				NA	NA	NA	NA	NA
BMS003_02078	1236	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGGATAATATAGCGTTGATTGAATCCTTTGGTGATTTTAAAGACGAAAAAGGGATCAGTAAGATTGATCTTATGGCAATTATTGAAGACTCACTGAAGACTCTTTTAAGAAAGAGATTTGACTCAGATGATCATTTTGATGTGATTGTAAACCCGGATAAAGGAGATTTTCAGATATTTTTAAATAAAACAATTGTAGAGGACGAAATGTCTGAAGATGACGATTTGGAAATTGAAATTTCTGAAGCAAAGAAGATTGACCCTACCTTCGAAGTAGGTGAGGACTTTACAATGGAAATTCCTGTTGCCCAATTGGGAAGAAGAAATATTCTTACCCTTAAGCAGATTCTGGCTACAAAACTTCAGGAGCACAATAATGCAATGCTGTATGAGCAGTTTAGAGATAAAATTGGAGAAATAGTCGTAGGAGAGATCCACCATATCCGTCACAAACATGTGATTCTGCTGGATGATGAAGGGAATGAATTTATTTTACCAAAAGAAAACCAGATCCCATCCGATTTCTTTAAAAAGGGTGAGAATATCAGAGCTATTGTTGAGACAGTAGATTTCAAAGGTTCTAAACCACAGATTATTATTTCCAGAACTGCACCTAAGTTTCTTGAGAAATTATTAGAGCTGGAAATTCCTGAAATCCAGGACGGAACAATTATCCTGAAAAAGGTAGTGAGAATTCCTGGTGAGAAGGCGAAGATTGCAGTAGATGCTTATGATGACAGAATTGATCCGGTAGGAGCTTGTGTTGGGGTAAAAGGATCCAGAATTCATGGTGTTGTAAGAGAGTTGAGAAATGAAAACATCGATGTTATTCAGTGGTCTAAAAACCCTGAGATTTTGGTGAAGAGAGCATTAGGAAATGTTACAATTAACAAAATTGAAATCAATGAGGAGACCAGCTATGCGTTGGTATATACTCCGGTTGAAGAGATTTCTAAGGTAATCGGAAAACAAGGTCAAAATATCAGACTGGCTTCTTGGTTGACAGGATATGAGATTGATGTATACAGAGAATCCAGCGAGGATGATGACGTAGAATTGAAAGAATTCAACGATGATATCGAGCAGTGGATTTTGGATGAGTTTAAGAAAGTAGGACTTACAACTGCAAAATCAGTATTGGATAAAGAGACTGAGAGTCTTTTAAATATGGTAGACCTTGAGGAAGAAACCATCGAAGAGGTTAAACGTATTTTGAGAGAAGAATTTGAAGATTAA	MDNIALIESFGDFKDEKGISKIDLMAIIEDSLKTLLRKRFDSDDHFDVIVNPDKGDFQIFLNKTIVEDEMSEDDDLEIEISEAKKIDPTFEVGEDFTMEIPVAQLGRRNILTLKQILATKLQEHNNAMLYEQFRDKIGEIVVGEIHHIRHKHVILLDDEGNEFILPKENQIPSDFFKKGENIRAIVETVDFKGSKPQIIISRTAPKFLEKLLELEIPEIQDGTIILKKVVRIPGEKAKIAVDAYDDRIDPVGACVGVKGSRIHGVVRELRNENIDVIQWSKNPEILVKRALGNVTINKIEINEETSYALVYTPVEEISKVIGKQGQNIRLASWLTGYEIDVYRESSEDDDVELKEFNDDIEQWILDEFKKVGLTTAKSVLDKETESLLNMVDLEEETIEEVKRILREEFED				NA	NA	NA	NA	NA
BMS003_02079	2967	infB		Translation initiation factor IF-2	ATGCCAAAAATTAGATTAAATAAAGCGGTTAAGGAATTCAACATTTCGATGTCCAGATTAGTAGAGTTTTTACAGTCAAAGGGTTTCGAGGTTGAAAGCAATCCTAACGCTCAATTGGAAGAAGCGGCATATTCTGCATTGGAGGCTGAGTTTGCTAAAGACGGCGAACAAAGAAAGGCTTCCCATGAGGTGGTGATCACTAAAGTTCCGGAAGAAAAGCTGGAAATTGAAGAAAAGAAAACCCCTGAAGTGATAAGAGCTAAAGCAAATAAACCAGAAACCAGAATTTTAGGTAAAATAGATCTAGAACCTAAGAAGCCTGAAGTTGAGGAAGCTCCTGCAGCTCCTGTGGCTCCTGTTGCGACACCGGTTGAAGAAAAGAAAGAAGAAATCGTGAAAGAAGAACAGCCGGAAGTTAAAGCAGCTCCTGAAAAACAGGAATTTAAAGTTTTGGATAAAATTGATTTGTCTCAAATAGAATCTAGAAACAGACCTGTGAAAAAAGACAAACCAAAAATGGAGGAGAAAAAAGAAGAAGTAAAGCCTGTGGAAACAATAAAAGAAACTCCAAAACCTGCTGTTGTTGAGGAGAAAAAGGTGGAGACTCCAAAAGCTGATGCAGAACCTGAATCTCAGGAACCACAGAAAATCGAGACTGTTTATCAGAAGCTTGATGGTCCTAAGATTGTCGGAGAAAAGATCGACTTAACTCAGTTTGCACCAAAACCAGGTTCTGGAGCGAAAAAGAAAAGAAAGAGAATTGAAAAACCTGGTGGCCAGAATAACCAACAAGGCCAGGGAAATAATCAAAACTCAGGAAATAATAACCAAGGTGGTCAGGGCCAAGGAAACCGTCAGCATAATAACAACGGTGGACAAGGCGGAAATCGCCAGGGTCAAGGCGGTCAAGGAAACCGTCCTCAAGGTCAGGGTGGCCAGGGCGGAAACCGTTTTGGTAATAACCAGGGTAGCGGAAACCGTCAGGGTCAAGGTGGTGGCTTCAAGAAAGGAGGCCAAAACAACAGGCCTGGGCAAAGAGTTATGCCAGTGGAGTTAACTGACGAGCAAGTTAAAAACCAGATCAAAGAAACATTAGAAAAACTTACGAACAAAGGAGGTAAATCTAAATCTGCAAAACACAGAAAAGACAAAAGAACCTTCCGTAGAGAGCAGGATGAGCGTCAGCAGGAGCTTGAAGCACAAGACAGAACGCTGAAAGTAACAGAATTCATCACAGTAGGTGAATTGGCAAGTTTAATGAACGTTTCTCCTACTGAAGTAATTTCTGCTTGTTTCTCATTAGGTGTAATGGTTACCATGAACCAAAGACTTGAAGCAGATACCTTATTATTAGTAGCAGATGAATTTGGTTATAAAATCGAATTCTCAGATGCAGACCTTGAAGATACAGATTCAGAAGAAGAAGTTGATACAGAAGACAGCTTGTTGCAGAGAGCTCCTGTAGTTACTGTAATGGGACATGTAGACCACGGTAAAACTTCATTATTGGACTACATCAGAAAAACGAACGTTATTGCTGGTGAATCCGGAGGAATTACTCAGCACATTGGTGCTTATAATGTGAAATTGGAAAACGGTCAGAGAATTACATTCTTAGATACGCCTGGTCACGAAGCCTTTACGGCGATGAGAGCTAGAGGTGCCCAAATCACAGATATTGCAATTATTGTAATTGCTGCCGATGATGATGTGATGCCACAGACAAAAGAAGCCATAGCTCACGCTCAGGCTGCACAGGTTCCAATGATTATTGCCATCAATAAAGTTGATAAGCCAAATGCAAACCCTGATAACATCCGTCAGCAGCTTTCAGGATTAAACCCTCCGGTTTTAGTGGAAGAATGGGGTGGAAATGTTCAGGCACAGGAAATTTCAGCTAAATTTGGTAATAATGTAGATGTGTTGCTTGAGAAAGTTTTACTACAGGCAGAAATGCTTGAATTAAAAGCAAATCCTGAACGTTCCGCAAACGGAGTTGTTATTGAAGCTTCTTTGGATAAAGGAAGAGGATATGTAGCAACCATGTTGGTACAGACCGGAACTTTAAGAGTTGGTGATTATGTAGTAGCAGGTAAAAATCACGGTAAAGTAAAAGCTCTACTTGATGAAAGAGGTAAAAATCTTAAAGAAGCAGGCCCTTCAATTCCTGCAACAATCTTAGGATTGGACGGAGCGCCTACGGCAGGTGATAAGTTTCGTGTATATGCTGATGAAAGTGAAGGTAAAGCCATTGCAAACAAGAGAGAACAATTACAGAGAGAATTATCAATCAGAACTAAAAAGCATACCACGCTTGAAGAGTTGGGTAGACGTATTGCTTTAGGAGAATTCAAAGAATTGAACATTATCCTTAAAGGAGATGTGGACGGTTCTGTGGAGGCGCTTTCTGATCAGTTGCAGAGATTATCTACGGAAGAAATCAGTGTGAAAATCCTTCATTCAGGTGTTGGGCAGATTACTGAATCTGATATTAACTTAGCAGCTGCATCAGATGCCATTATCATCGGATTTAACGTAAGAGCTGGTGCTAATGCAAAAGAGCTTGCAGATCGTGAAGAAATTGAGATCAGAACATATTCTGTTATCTATAAAGCAATTGATGAAGTAAAAGAAGCAATGGAGGGAATGCTTTCTCCGGAAATTCAGGAGCAGGTAATCGGTAATGTGGAGATCCGTGAAGTATTCAAGATTTCTAAAGTAGGAACAATTGCAGGTTGTATGGTTCTTACCGGAAAAGTGACGAGACAGTCTAAAGTACGTTTGCTGAGAGATGGTATTGTTAAATTTGACGGAGAGCTTGAAAGCTTAAAGCGTTTCAAAGACGATGTTAAAGAAGTCACAAAAGGTTATGAATGTGGTCTGAACCTGAAAGGTTATAACGACATTGAAATCGGTGATATTCTTGAAGTTTACGAAGAAGTTGCTGTTAAGAAGAAACTAAAATAA	MPKIRLNKAVKEFNISMSRLVEFLQSKGFEVESNPNAQLEEAAYSALEAEFAKDGEQRKASHEVVITKVPEEKLEIEEKKTPEVIRAKANKPETRILGKIDLEPKKPEVEEAPAAPVAPVATPVEEKKEEIVKEEQPEVKAAPEKQEFKVLDKIDLSQIESRNRPVKKDKPKMEEKKEEVKPVETIKETPKPAVVEEKKVETPKADAEPESQEPQKIETVYQKLDGPKIVGEKIDLTQFAPKPGSGAKKKRKRIEKPGGQNNQQGQGNNQNSGNNNQGGQGQGNRQHNNNGGQGGNRQGQGGQGNRPQGQGGQGGNRFGNNQGSGNRQGQGGGFKKGGQNNRPGQRVMPVELTDEQVKNQIKETLEKLTNKGGKSKSAKHRKDKRTFRREQDERQQELEAQDRTLKVTEFITVGELASLMNVSPTEVISACFSLGVMVTMNQRLEADTLLLVADEFGYKIEFSDADLEDTDSEEEVDTEDSLLQRAPVVTVMGHVDHGKTSLLDYIRKTNVIAGESGGITQHIGAYNVKLENGQRITFLDTPGHEAFTAMRARGAQITDIAIIVIAADDDVMPQTKEAIAHAQAAQVPMIIAINKVDKPNANPDNIRQQLSGLNPPVLVEEWGGNVQAQEISAKFGNNVDVLLEKVLLQAEMLELKANPERSANGVVIEASLDKGRGYVATMLVQTGTLRVGDYVVAGKNHGKVKALLDERGKNLKEAGPSIPATILGLDGAPTAGDKFRVYADESEGKAIANKREQLQRELSIRTKKHTTLEELGRRIALGEFKELNIILKGDVDGSVEALSDQLQRLSTEEISVKILHSGVGQITESDINLAAASDAIIIGFNVRAGANAKELADREEIEIRTYSVIYKAIDEVKEAMEGMLSPEIQEQVIGNVEIREVFKISKVGTIAGCMVLTGKVTRQSKVRLLRDGIVKFDGELESLKRFKDDVKEVTKGYECGLNLKGYNDIEIGDILEVYEEVAVKKKLK				NA	NA	NA	NA	NA
BMS003_02080	2820			TonB-dependent receptor P3	ATGAATGTTAAATTACGTGTATTAAGTGCTGGAGCCCTGTTCTTTTTGGGGCAAGTTGTCACTGCACAAACAAAAAAAAATGATACCATAGGTAAAGAAAAACAGATCGAAGAAGTAGTAGTTACGGGATATCGTACTAAAAAAGCTGATGAAATAATTCAAGCGCAGTCTGTTGTTTCGGCTCAAGAGCTTTCTCAACAACAAGCTACTTTATCTATGACAAATATGCTTCAAGGAAAAGCTCCTGGGGTTTTTGTACAGGCAAGTAGTGGTCAACCAGGAAATGGTGGTGCAATTACTATCCGTGGTTTTTCAGGTTTATCTAATTCTGATCCATTAATCGTAATTGATGGTCAATATTCTTCAATTGCTCAGTACAATGCATTAAATCCAAGTGATGTAGAATCTGTTACTATTTTGAAAGATGCTGCTTCAACATCTCAATATGGTTCAAGAGCTTCTGCTGGGGTTATTGTGGTAACAACAAAAAAAGGAACAAGTGGTAAGACCTCGTATATGTTCCAAACTAGATTTGGATTTTCGAAAAAAGTTTCTGACAAGGAGCTGAATTTCAAAATGATGGATGCTGGTCAAAAGCTAAATTGGGAAAACTCAATCGCTGATGCAGTAGGAATTGAACAATGGTCTCCTGCTGAAATTGCACAATTGTCGGCATTAAACCATGATTGGCAAAAGGATGTAACACAAAGCTCTTCAGAGGAATCTTACCTATTCAGTGCAAGTGGAGGGAATAATAAAAACCTATTCTACTATTCATTAGGATATGACCATAACTCTGGTATAATCCGTTATCTGGATGGTCTTAAAAGGTATACAGCCAGATTTAATTTTGAAAGTCAATTATCAGACAAACTTAAATTAGGATTAAATTCTTCTGTTCAGTATCAAATAACTCAAAATCAAAGGGATAGGTATAATGCTCAGAACCCTATCTATTTTATGTATGCTGCTAACCCATATGAAACAGTACTTGATGATGATGGGAACTATAATTTGACTGGTGCAGGATTTCCTGTTTTAGAAGCATTACAAAAAAACCCTAATTATAACAAAAACCTAAGAATTAATGCAAGTGTTTTTGGTGAATATAAATTCACAGATTATCTTAAGTTCAGATCTACATTGTTAGGAACTTATGCACAATTGAAAACACCTTCAGCTATATTTAATGGGTCTTTTCTAGATACAGTTTTAGGGTACAAGGGTTGGTTATCTCTGGCTAATAATGATTTATTTAACTATACTCTTAACAATAGACTAGACTTTGATAAAACTTTCGGAGATCATGGTATTAGCGCTACTGCATTCCATGAATTCTATTATGGGCTGACAAATACAATGTCTGCTTCAAAGCAAGGACTTAATAATACATTATTGGATCCTTTCCAGCTATCAAATTATGCAACTCCACTTACTTCTACGGGGGCTAAAAATGTATATACTTTGAATTCATTTGCAGGATTATTAGACTATAATTTTGCTAAAAAATATTTCTTAAGTGGATCCTTAAGAAGTGATGCAAGTTCAAGGTTTGGAGAAAATAATAAGTATGGTACTTTCTGGAGTGTAAGTGGAGGATGGAATATTGCTAAAGAAAATTTCTTAAGTGGTACAAGATTGAGCACTTTGAAGTTAAGAGCTTCTTATGGTACTGTTGGAAATGATGCTGCTATTCCGGATTATCAAAATTATGATTATGCTTCCTTTGGTCTATATGGAAGTACTCCTACAACCTTTATACAAACAAAAGGTAATCCTGATTTGAAATGGGAAGTTGCAAAAATGCAAAACTATGGAGTAGACTTTGTTTATGGAAATAGATTAAGAGGATCGTTTGAATATTTCTCTACTAAAAGATCTGATTTCTTACAACTGGTTACAGGTGCAGATAACACTGGAGGGTATGATTTCTACAGAAATGTTGGAGATATGCAAAACAAAGGTATAGAAGCTGAACTTTCTTATGATGTTATTAAGAACTCAAATATAACATGGAATTTACATGGTAATTTAACCAATGTTAAAAACAAGTTGTTAGCGCTAAAAGATGGTGAAACAGAAAGGGTTACAGGAGCTTACGGTGACAGTGTTCTTAAAGTTGGAGAAATACCTTATCTGTTTAAAATGGTTAGATATGCAGGGGTAAATCCTGACAATGGGGAAGCTCTATACTATACAAATAGAGAAACTGCTACTCAAGGAGAAACTTTCTATAATCTGGAAGGAGGAAAAGCAACAAATGTTTACAATACATCAGATGCTGAAATTCTTTATGGTAAATCACCTTTCCCTAAATTGTTTGGTGGTTTCGGAACATCTTTTAAATATAAGAATTTTGATCTGGCTGCTGAATTTTCATATAAATATGGAGGTTGGGCTGTTAACTATGCTGAGTTAGATAGATTAGATCCTGCTCAATATAATACGAACAAAAGTACTGATGCAGTTAATTTCTGGCAAAAACCAGGTGATACTAATGTGCTTCCTGCCCCAACTGCACAAGGTTTAACAAGTACGGATTATTTCTTACAAAAAACAGATTATATTAGATTTAGAAGTTTAAGCGTAGGTTATACTTTTGATAAAAACTTCTTAGGGGATAAATCTTTTATTGAGTCATTCAGAGTATATGTACAAGGTCAAAACTTATATATCTGGACAAAATTCAAAGGAGATCCTGAAGCTGCAGTTGGTTTAGCTGAAAGTAATTCAGCAGCTAATTATGTACCTAATTCGTATTATGCTTATACATATCCAATTCAAAAGACATTCTCAATTGGTTTTGATATAAAATTCTAA	MNVKLRVLSAGALFFLGQVVTAQTKKNDTIGKEKQIEEVVVTGYRTKKADEIIQAQSVVSAQELSQQQATLSMTNMLQGKAPGVFVQASSGQPGNGGAITIRGFSGLSNSDPLIVIDGQYSSIAQYNALNPSDVESVTILKDAASTSQYGSRASAGVIVVTTKKGTSGKTSYMFQTRFGFSKKVSDKELNFKMMDAGQKLNWENSIADAVGIEQWSPAEIAQLSALNHDWQKDVTQSSSEESYLFSASGGNNKNLFYYSLGYDHNSGIIRYLDGLKRYTARFNFESQLSDKLKLGLNSSVQYQITQNQRDRYNAQNPIYFMYAANPYETVLDDDGNYNLTGAGFPVLEALQKNPNYNKNLRINASVFGEYKFTDYLKFRSTLLGTYAQLKTPSAIFNGSFLDTVLGYKGWLSLANNDLFNYTLNNRLDFDKTFGDHGISATAFHEFYYGLTNTMSASKQGLNNTLLDPFQLSNYATPLTSTGAKNVYTLNSFAGLLDYNFAKKYFLSGSLRSDASSRFGENNKYGTFWSVSGGWNIAKENFLSGTRLSTLKLRASYGTVGNDAAIPDYQNYDYASFGLYGSTPTTFIQTKGNPDLKWEVAKMQNYGVDFVYGNRLRGSFEYFSTKRSDFLQLVTGADNTGGYDFYRNVGDMQNKGIEAELSYDVIKNSNITWNLHGNLTNVKNKLLALKDGETERVTGAYGDSVLKVGEIPYLFKMVRYAGVNPDNGEALYYTNRETATQGETFYNLEGGKATNVYNTSDAEILYGKSPFPKLFGGFGTSFKYKNFDLAAEFSYKYGGWAVNYAELDRLDPAQYNTNKSTDAVNFWQKPGDTNVLPAPTAQGLTSTDYFLQKTDYIRFRSLSVGYTFDKNFLGDKSFIESFRVYVQGQNLYIWTKFKGDPEAAVGLAESNSAANYVPNSYYAYTYPIQKTFSIGFDIKF	PGPT0003415_59	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS003_02081	1458			SusD-like protein P2	ATGAAAAAAATAAAATATATACTAGCAACATTAGTTGTTTTAACTGTATTTAATTCTTGTGATAGAGAATTGGAGCAAGTTTCCCCACAAAAGGTACTTACTGAAGCTTCATTTTCTGATGTGGCATCATTTCAGTCTGCTGTGAATTCCGCTTATGATGCATTAAAAAGTAATGGATATTTTTCAGGTGATACAAGTCAGTTAGGTATTCCGGATGAAATTTCTGATAATCTTATTATCAGTCCAACAGGTAGACAGACTAACTTTTTAGCATATAACTGGAACATTTCAGGAAATGTTGGGTCTGTTACGAATTTATATATCACAGGTTACCGAGCGATCAGTAATGCGAATCTTCCGCTGTCTTATATTAATAACTTACCAGACGGAGCTGCTAAGAATGATATTATAGCTCAATGTAGAGCTGTTAGAGCTTTGATTCATTTTGATTTAGTTAGAGCATATTGTAAAATACCTACACAAAGTTCAGATGCTGGTGCATCAATAGGAATTGATTATGAGGATACTTTCGATCCTTATGGAACTTCTGCAGGACGTAAGTTAACGGTTAATCAGGTTTATGATAGAATTATTGATGATCTGAACTATGCTGTTACTAATATTACAACATCAACTCAAAATAAAGGAAGACTTACTAAACCTGCAGTTTTAGGGTTGTTGTCAAGAGTATATCTATACAAAGGTGATTATCAAAATGCTATTACTTTAGGACAGCAAGCGATTGCTGCTTCAGCTAGTGTTGGAACTTTAAGTAATTTTCCTCTAATTTGGTCTTCCAATAATGTTGATGGAGTGTTATTTAAGGTATTTAATTCAACAACAGAAGCTGTTACAACAGGTGTGGTATATCAGCAAGGGGCTACGGCTACGGGAGGAAATATTCGTGCAGAATATGTGGTTCCAAAATCCCTTTATGACTTATATTCAGCAACTGATATCAGAAAGAATGCATATATCAGACAGAGTACCTATCAGGGAGCATTGAGAAATAATGTGATAAAATGGGCTGTGAATACTGGAGATGCTACACCTTTAAATGTTGTGGAGGTTAAATATCTAAGAACAGCAGAAGTGTATCTAAACGTAGCTGAAGCAGCGTTCAAAACAGGGAATGAAACATTAGCAAATACTCTTTTAAATACTCTGAAAGCTGAAAGATATACAGGTTATTCTCCTGTAACTTTAACAGGAACTGCTTTATGGAATGAAATTATGCTACAAAGAAGACTGGAACTTGCTTTTGAAAATGATAGATTCTATACCCTTAAACGTTTAGGTCTTGGATTGCAGAGAACAGGTGAAGGTGCAAATGTTGATGGAACAGGAGTTGCTCCTACAACTCAAAGTGTTGCAGCAAGCGACTATAGATGGCAATGGCCAATTCCACAATCTTCTATTAATAAAGATGCTGGATTACCACAAAACCCTGGTTATTAA	MKKIKYILATLVVLTVFNSCDRELEQVSPQKVLTEASFSDVASFQSAVNSAYDALKSNGYFSGDTSQLGIPDEISDNLIISPTGRQTNFLAYNWNISGNVGSVTNLYITGYRAISNANLPLSYINNLPDGAAKNDIIAQCRAVRALIHFDLVRAYCKIPTQSSDAGASIGIDYEDTFDPYGTSAGRKLTVNQVYDRIIDDLNYAVTNITTSTQNKGRLTKPAVLGLLSRVYLYKGDYQNAITLGQQAIAASASVGTLSNFPLIWSSNNVDGVLFKVFNSTTEAVTTGVVYQQGATATGGNIRAEYVVPKSLYDLYSATDIRKNAYIRQSTYQGALRNNVIKWAVNTGDATPLNVVEVKYLRTAEVYLNVAEAAFKTGNETLANTLLNTLKAERYTGYSPVTLTGTALWNEIMLQRRLELAFENDRFYTLKRLGLGLQRTGEGANVDGTGVAPTTQSVAASDYRWQWPIPQSSINKDAGLPQNPGY				NA	NA	NA	NA	NA
BMS003_02082	1944			hypothetical protein	ATGAAGTACATCCTTTTCATACTCTTGTCTTTAAGTTTTGTAGCCAGGGCTCAGGTTGTTAATAAAGCAGGAGCCAAGTCCCAGACTAAAAAAGAAGAAGACACGCTGGTGATAGACTCCGGGAAAAAAGATTCCCTGAAAATTTTCAAACCTACTATTAATGATTACCAGTATCAGACTCAGTTTTCTGAAAAAAAAGTTTTTGATACCGTAATGACGTTTGATAAAACTTATATCTTTTCACAACAAAATAATAAAGATAACTTCGGAAGAATACAGCCTGCCAACATTGGTTCAGGATTCAACCCGCTTGTATTCGAAATCAATGCGGAGGAAAATCTTTCCTTACTGCCATCCAATAAATCTTATATGATTATTGGAGCCAATGATGTGAAATACTACGACGTAAAAACACCTACCGCATCATTTATTTATCATAATGCAATGCGAAACGGAGCAGCTCTGAAATCTACTTACACTCAAAATATAGGAAAAAGATTCAATTTTGCACTTGAATACATGGGACTTCGTTCTCAGGGGCTTTACAGAAATTCCTTATCAGCCAATAATAATACTTTATTCTCTGGACACTATGTTTCAAAAAGCGGAAATTATGAGCTTTTCGCCCATTATCTTCATCAGAATGTAAACAACCAGGAAAGTGGGGGAATTACTGAAGATAACCTGTTTCAGAGTGGGGACAGTAATTACAGCAACAGACAAAATGCTCAGGTAAGCTTGGCTTCTTCCAGCTCACAGTTTGCTTACAGAAGATATTATCTGAGTCATCAGTTTACACCATTTAATGCAGAGAAATTTCCTTTCAGTATAAGACATACCCTTTCTCATCAGGGAAATAAATATTATTATAATCAGTCAACTGCGGAAGCTTATTGGTATGATGACCCTACGGACTTAGTCAATGGTTTCCCACTTACTACAAAAAAATATTCAGAAAATTTCAGTAACACAGTAAGCCTGGTTTTTAATAATGAAAAATTGAAACTGGATGCTGGTGTACGTTATCAGATCATTAAGTTGGGAGCAACAGATATTGCGGCTATTAATAATGGATTCCCTTTTCCGAATGAAATTAAAGAAAACAGAATCGGTGCTGTAGGAAACTTACAGGTAAAACTTTGGAATAAAATTCAGCTGAACTCCTTTCTTGAATTTTCAAACGGGAGTCAGTTTAAAAGCTATCTTAAAACAACCAATAACCTGAAATTTGAACCCATCAAAGATTATTTTGTTAACGCGAAAGTAAATTTCCAAAGCGCATACCCTTCATTCAATTATTTATTGAATACTTCTGTTTATAGCAATTTCAATTATTATCTTGAAAATGCGAAGAACCAGTCGGTTACTGAAGTAGGAGGAAGCATTAACCTAAAATGGTTTAAAACTGAAATCTTTGCTAATTATTTCAGAATAGATAACTATACGTACTTTGACAGCAGCATGAGCCCGAAGCAAAGTGATAACCCTGTGAATATCTCTCAGATCGGAGGAGAAGCTACATTCAGCTTCCGTAAATTCCATCTGAATACAAGACTGCACTTCCAGAATACTTTAACGAATAAAGAAATGCTTCCTTTACCAGGTTTCATTGGCAGAGCCAATTTCTTCTATCAGACGCAGGCATTTAAAAAAGCAGCAGAAATTCAGGCAGGGGTTAAAGTATATTACTTTTCCAAATTCGCTTCAAGAGAATATTTCCCTGTTCTTAACGAATACATTCTTCCGAGAGCAGATTCATTCTCCATTGGAGGGCAGCCTATCGCCGATATCTATATTAATATGAAAGTGAAAAAGATGTTCTTTTTCATAGAAGGGCAGCAGATAGGAACCGTTATTTCCAACAACAAAGCATATGCATTTCCACATTATCCCGTATATGATTTCAGACTGAATATCGGGATCGTGTGGTATTTGTTCAACTAA	MKYILFILLSLSFVARAQVVNKAGAKSQTKKEEDTLVIDSGKKDSLKIFKPTINDYQYQTQFSEKKVFDTVMTFDKTYIFSQQNNKDNFGRIQPANIGSGFNPLVFEINAEENLSLLPSNKSYMIIGANDVKYYDVKTPTASFIYHNAMRNGAALKSTYTQNIGKRFNFALEYMGLRSQGLYRNSLSANNNTLFSGHYVSKSGNYELFAHYLHQNVNNQESGGITEDNLFQSGDSNYSNRQNAQVSLASSSSQFAYRRYYLSHQFTPFNAEKFPFSIRHTLSHQGNKYYYNQSTAEAYWYDDPTDLVNGFPLTTKKYSENFSNTVSLVFNNEKLKLDAGVRYQIIKLGATDIAAINNGFPFPNEIKENRIGAVGNLQVKLWNKIQLNSFLEFSNGSQFKSYLKTTNNLKFEPIKDYFVNAKVNFQSAYPSFNYLLNTSVYSNFNYYLENAKNQSVTEVGGSINLKWFKTEIFANYFRIDNYTYFDSSMSPKQSDNPVNISQIGGEATFSFRKFHLNTRLHFQNTLTNKEMLPLPGFIGRANFFYQTQAFKKAAEIQAGVKVYYFSKFASREYFPVLNEYILPRADSFSIGGQPIADIYINMKVKKMFFFIEGQQIGTVISNNKAYAFPHYPVYDFRLNIGIVWYLFN				NA	NA	NA	NA	NA
BMS003_02083	1587	bshC	COG4365	Putative cysteine ligase BshC	TTGAAAACAATTAATAAAATATCATTCAACGATATAGAAAACATCCCTCAGCTCGTAAAAGATTTTTTAAATCAGAATATTGAAGGATTTGAAAATAATACATTTTCTTTAGATCATTTCAGGCAACAAATTCACCTGAAAAAAGACTCGTTCTCATCCACACAGAGAGCGATTTTATCTGATGTGTTCGAAGATCAGCTTTCTGGGCTCTCCCTTTCTTCAAGACAAAGAGAGAATCTCGATCTCCTTAAGCTGCCCAATACATTTACAATTACCACAGGACATCAGCTGAATCTGTTTTCAGGACCTGTGTTCTTTGTGTATAAAATTCTTCAGACCATCAAGACATGTACTTATCTGAAAGAGAATTTTCCCGATTTTAATTTTGTTCCAATATATTGGATGGCTTCGGAAGATCATGATTTCGCAGAGATCAACCATTTTAAGACTGAAAATAACTATTACGAAACCAATGAAAAATCAGGAGGTCCGGTTGGCAGAATTGAGATCACAGATACCTATTTTATTTCTGAATTTGAAAAAGAATTCAAAGATTCTGTTTTCGGAACAGAGCTTATTCTGATGATGAAGGAAGCTTATAAAGCAGGAAATACTTTGACAGATGCTATTAAAATTCTTGTAAACCGTCTTTTTTCAGAATTCGGACTTCTGATACTGGATGGAGATTCTGGAGCACTTAAAAACCAGATGAAGGAGATTTTTAAAGATGAGCTTCTGAACTTCAGTTTACAGAAAACTGCTGAAAATAAAGTGAAGTTTCTGACAGAAAAGTATGGAAAGGTTCAGGTTAATCCTCGTGAAATAAATCTGTTCTATCTTTCTGAAACCAGAGACAGAATAGAATTTAACGGACAGAAATATATCATTGTAGATAAATTGATTCAGTTTACGGAAGAAGAAATTCTTGCCGAATTGGAAAGCCGTCCTGAAAAATTCAGTCCTAATGCTTTAATGCGTCCTGTATATCAGGAAAATGTATTGCCTGATCTGGCTTATATAGGAGGAAATGCTGAAATCATGTACTGGCTGGAGCTGAAAGATTATTTCTCAAAAATTGGCATTCCTTTTCCTGTCCTGATCCCAAGAAACTCCATGCTTTTCCTTAAAGAAAAAACGTTAGGGAAAATTGAAAAGCTGGATCTTAAAATAGAAGACTTCTTCCGGAATTTTACTGTACTTACCAATCAGAAAATTTTAAAAGATAATCCGGTTTTACAATTACTGGAAGAGAAAGAAGAATTGCTGATCAGTAACTTTTCAGCACTGAAAGCTTCAGCAGAAACTACTGAAAAATCTTTTGGGAATATGGTAAAAGCAGAAGAGGTGAGACAATTAAAGTCATTCAAAAGAATGAAAAAACGGCTGCTTCATGCTGAAAAAATAAAACAGAATGAATTGCTGGAAAGACTTGAAAACCTATTTTTGGATGTTCATCCCGCAAAAACATGGCAGGAAAGAGTTTATAATTTTAGTGTGTTCTTTTCAGATTATGGCTATTCGTGGCTTGAAAATTGTTTGGAAGAAATGGTGGTTCAAGATTCAAAATTAATAATTGTTGCCATTTAA	MKTINKISFNDIENIPQLVKDFLNQNIEGFENNTFSLDHFRQQIHLKKDSFSSTQRAILSDVFEDQLSGLSLSSRQRENLDLLKLPNTFTITTGHQLNLFSGPVFFVYKILQTIKTCTYLKENFPDFNFVPIYWMASEDHDFAEINHFKTENNYYETNEKSGGPVGRIEITDTYFISEFEKEFKDSVFGTELILMMKEAYKAGNTLTDAIKILVNRLFSEFGLLILDGDSGALKNQMKEIFKDELLNFSLQKTAENKVKFLTEKYGKVQVNPREINLFYLSETRDRIEFNGQKYIIVDKLIQFTEEEILAELESRPEKFSPNALMRPVYQENVLPDLAYIGGNAEIMYWLELKDYFSKIGIPFPVLIPRNSMLFLKEKTLGKIEKLDLKIEDFFRNFTVLTNQKILKDNPVLQLLEEKEELLISNFSALKASAETTEKSFGNMVKAEEVRQLKSFKRMKKRLLHAEKIKQNELLERLENLFLDVHPAKTWQERVYNFSVFFSDYGYSWLENCLEEMVVQDSKLIIVAI				NA	NA	NA	NA	NA
BMS003_02084	1923			hypothetical protein	ATGATAAAGAGGTTTTTTATTCTATCCAGTTTATGTATGGTTTTGGGTGTTTCGGCTCAGAGATCGCATACAGTTGTGCAAGGTGACAACCCTTACAACATTGCAAAAAGGTATGGAATGACTGTAGATGAATTGCTGAAGCTAAACCCAAAACATAAAGATGGAAAACTGGCTATCGGAGATGTTTTAACCATAAAATCAGACAAAATAGCTACAACAGTTGCAACCAAATCTGCACCGGTAGAAAAAGCAGCTGTTAATACAAATGCTTCTTCTTTAGGTAAAATTGTACTCCAGCCAAAGCAGACCATTTATGGCATCACAAAACAATACAGAATTTCTGAAACTGATTTGAGGAAATTGAATCCGGAGTTGGATTCTCATATGAAAATTGGAGATGAAATAACCTTACCTCTTGCCAGTATCAAAAAATATGGCGGAACTCAGCAGGCTGTAGCGGCTGAAAAACATGTTGAAGCGGCCGTAGAAAAAACAGCAGCAGAAGGAGAATCTTATGTGATTCAGTCTAAAGATAATTATTACAGAATTACAAAAAAGTTTGGAATAAGCCAGCAGGACCTTTATGCTTTAAATCCGGGATTGGAAGAAAAAGGACTTCAACCTGGTGATACCATTACAATAAAGAAAACAAATACTACTACTGTTGCTGATGCTTCAAATTCAAAAACGAAAATAGATTCAGGGAACGAAAAGTCAGTTACCCTTTCCAATATTGCGGCAGGTGATGATTATGTAACCTATACTGTTCAGCAGGGAGATACGGTATTTTCTATTATTAATAGATTTGGCGTATCCATAGATGAGCTTATCGCCCTTAATCCTGAACTTTCACACGGTTTGAAGACCGGAATGGTTCTGAAGATCAAAAAACAGGATGCAGCATATGTGAAGAAAAATGGAGATGCACTTAGTGTTATCCTGATGCTTCCATTTGGATACAGTACCAATGAGACCCAGTACAGAGGAATGGCTCTTGACTTCCTGACAGGAGCTAAGCTTGCTATTGAAAGAAATGCAAGAGGAGGACAAAAGCTGGATGTCAAAGTAGTAGACTCAGGAAATGAAGCATCATTTAAAAATTCTTTAACGCAGATTAATCCTGACAATACAGACCTTATTATCGGCCCATTCTTTAAATCCAATGTGATTGATGTCCTTGATTTTACTAAAAATCAGAAAATTCCGGTTGTAGCGCCATTTGCTAACTCCCCGGAACTATATAACTATAATAGCCTGATTATTGTTGAAACTAACAATCAGACCTATGCTGATAAAATTGTAGAAGAAGTAAAAGGAGTTTACTCGGATCAGAAAATATATATAGTTGCAGATGCTAAAAAAGAAGATGCCAACTATATTAAAGCAGGCCTTGAAAAAGCAGTGAAAAACCCTAATATCATCATCGTAAACTCTCCGGCAGATATTCAGCCGGATCAGAATATGATGACAGGGCAGTCTGCACCGGTTATTGCTATCTTAGCGAATGATGATAACGCAGCAGGTGATGCTTTTGCTAATAGAATCATTGCAATTTCTAAAGAAGTACAGGGAATGAAAGCCTTCAGTATGTTCTATTCTCCGGTTTTTGAAAAGAGAGTAGATGAGCTTAGCCAGGCAAACCTGGTGTATCTGATGGATAGAAAAATCAATACAGACGGTAATTTTGAAAAAGAAATTCTGGCTGCTTATAAAAGCAAATACTGTAAAATTCCACCAAAATATGCTATCGTAGGTTTTGATATTGTCAACGACATGTTAACCAGAGAAAATAAAAAAGGAGAGATCTTTAAGCAGATGAATAAAGTTCAGACTCAGCTTGCTACAAAATTTGAGTTTGTAAAATCTAAAGCTAATGGTGCTTATGTAAATACCGGTTATAGAGTAATCAGGTTAGTACCTTAA	MIKRFFILSSLCMVLGVSAQRSHTVVQGDNPYNIAKRYGMTVDELLKLNPKHKDGKLAIGDVLTIKSDKIATTVATKSAPVEKAAVNTNASSLGKIVLQPKQTIYGITKQYRISETDLRKLNPELDSHMKIGDEITLPLASIKKYGGTQQAVAAEKHVEAAVEKTAAEGESYVIQSKDNYYRITKKFGISQQDLYALNPGLEEKGLQPGDTITIKKTNTTTVADASNSKTKIDSGNEKSVTLSNIAAGDDYVTYTVQQGDTVFSIINRFGVSIDELIALNPELSHGLKTGMVLKIKKQDAAYVKKNGDALSVILMLPFGYSTNETQYRGMALDFLTGAKLAIERNARGGQKLDVKVVDSGNEASFKNSLTQINPDNTDLIIGPFFKSNVIDVLDFTKNQKIPVVAPFANSPELYNYNSLIIVETNNQTYADKIVEEVKGVYSDQKIYIVADAKKEDANYIKAGLEKAVKNPNIIIVNSPADIQPDQNMMTGQSAPVIAILANDDNAAGDAFANRIIAISKEVQGMKAFSMFYSPVFEKRVDELSQANLVYLMDRKINTDGNFEKEILAAYKSKYCKIPPKYAIVGFDIVNDMLTRENKKGEIFKQMNKVQTQLATKFEFVKSKANGAYVNTGYRVIRLVP	PGPT0024010_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024010-lytF|cwlE-K19223	NA	NA
BMS003_02085	876	fabD		Malonyl CoA-acyl carrier protein transacylase	ATGAAAGCACTTGTATTTCCAGGGCAGGGTTCTCAGTTCGTAGGAATGGGAAAAGAATTGTATGATTCTAGAAAAGATATTAAAGATCTGATGGAATCTGCCAATGAAATTTTAGGTTTCGACATTCTCTCTATTATGTTCAACGGGACGGATGCGGATCTTAAGAAAACAGAGGTTACCCAGCCTTCAATATTTATACATTCAGTAGCAGCATTAAAAGCCGTAAATGGTCTTGGTGCCGAAATGGTAGCAGGACACTCTTTAGGAGAGTTCTCAGCTTTGGTTGCTAACGGAGTTTTATCCTTTGATGACGGTTTGAAATTAGTTTCCGAAAGAGCGAAAGCAATGCAGGAAGCTTGTGATGCAAACCCAAGTTCTATGGCAGCTATCTTAGGTTTAGATGATGCTAAGGTGGAAGAAATCTGTTCACAGATAAACGGTATCGTGGTTCCGGCAAACTATAACTGTCCGGGACAATTGGTAATTTCAGGAGAAACATCTGCAGTAGAAGAAGCCTGTGTAAAGCTTAAAGAAGCAGGAGCAAAAAGAGCATTGTTATTACCGGTAAACGGAGCTTTCCATTCACCTTTAATGCAACCTGCTCAGGAAAGATTGGCGGCTGCTATTGAAAAAACAAAATTCAGAAAAGCAACTATTCCTGTGTATCAGAATATCACGACAACAGCAGTGACCAACCCTGACGAGATCAAGCAAAATCTGATCGCACAGCTTACCGGTCCTGTAAAATGGACACAGTCTGTTCAGAATATGATTAAAGACGGTGCTTCTAACTTCGTAGAAGTAGGACCAGGAAAAACCCTTCAGGGACTGATCAAGAAAATTGACGGATCTGTAGAATCTACTTCTGCAATCTAA	MKALVFPGQGSQFVGMGKELYDSRKDIKDLMESANEILGFDILSIMFNGTDADLKKTEVTQPSIFIHSVAALKAVNGLGAEMVAGHSLGEFSALVANGVLSFDDGLKLVSERAKAMQEACDANPSSMAAILGLDDAKVEEICSQINGIVVPANYNCPGQLVISGETSAVEEACVKLKEAGAKRALLLPVNGAFHSPLMQPAQERLAAAIEKTKFRKATIPVYQNITTTAVTNPDEIKQNLIAQLTGPVKWTQSVQNMIKDGASNFVEVGPGKTLQGLIKKIDGSVESTSAI	PGPT0008350_5554	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
BMS003_02086	906			hypothetical protein	ATGAATGCGATATTTTCACCAGGCAAGCTTATGCTTACTTCAGAATATTTCGCAATAGATGGAGCTCTTGTCTTAGCGGTACCAACCAGGCTGGGACAAGAGTTTTTTTTTGAAGAAATAAAAGACGGAAAGTCACTTATTCTTTGGGAAGCCTATCATCAGAATACATTATGGTTAAGAGCTGTCATTGATTATAAAAACTGGCAGATCTTAGAGACCAATATTCCATCAAGCGCTGAATTTATTACCAAAACATTACAGAATGTTCAGCAGCTTTCTAACAGTAAATTCAAAGCTGATCTTACTTATCATTTAAAAACAAACCTTCAGTTTCCGGCAGATTACGGACTCGGAAGCAGTTCTACCCTGATGAACAATCTTGCAGAATGGGCAGAAATAGATCCTTTTTATCTTAATACAATCAGTTTGGGAGGCAGTGGGTATGATATTGCTGTGGCAAAGGAAAAATCTGCAGTTCTTTTTCAAAGTAAACCTGAGATAAAATATGAGAAAGTAGATTTCAATCCATCCTTTAAAAATGAACTGATTTTTATACATTTAAATCAGAAACAGGACAGTAGAGAAGGAATCAATTTTTACAAGTCCAAAAAAAAGTCTCCGGAACTGGTGGATGAATTTTCAGATCTCACAAAAAAAATATTGTTATGTAATGAATTGGAAAATTTTTCCGAACTAATGATGATTCATGAGCGTAAAATCGCAAAATTTCTTGAAATTTTGACAGTTAAAGAAAAATTCTTCTCAGATTGCCCTTCTTTTGTTAAAAGTTTAGGCGCATGGGGCGGAGATTTTGTAATGAGTGCCAAATTTGGGGACTATCAGAACTATTTTTGGGAGAAAGGTTTTACAACCGTTTTGGAATGGGAAAACATAATTGATTTATAA	MNAIFSPGKLMLTSEYFAIDGALVLAVPTRLGQEFFFEEIKDGKSLILWEAYHQNTLWLRAVIDYKNWQILETNIPSSAEFITKTLQNVQQLSNSKFKADLTYHLKTNLQFPADYGLGSSSTLMNNLAEWAEIDPFYLNTISLGGSGYDIAVAKEKSAVLFQSKPEIKYEKVDFNPSFKNELIFIHLNQKQDSREGINFYKSKKKSPELVDEFSDLTKKILLCNELENFSELMMIHERKIAKFLEILTVKEKFFSDCPSFVKSLGAWGGDFVMSAKFGDYQNYFWEKGFTTVLEWENIIDL				NA	NA	NA	NA	NA
BMS003_02087	1617	pckA_2	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGAAAAACACTAAAATCATCCAGGATTTAGAGAAATTAGGGATTAAAGGAAACTATGAGGTAGTGTATAATCCTTCTTACGAAGAATTATATCAGGCTGAGGTTTCTCCTGAAAATCAGGGGTTTGAGCAAGCTGAGCTTACAGAGTCTGGCGCAGTATCGGTAAAAACAGGAATTTTCACAGGTCGTTCACCTAAAGACAGATATATTGTTCAGGATGATGTTACAAGAGATACAATTTTCTGGGATGGTAAAGTAAATTTACCTACAACCGCAGAAATTTTCGGTTCTTGTAAAGAACTAGTGATGAACCAGCTTTCTGGAGCTAAGAAGATTTACGTAGTAGATGCATTCTGTGGAACAAATGCAGACACAAGACTTAAAGTAAGATTTATTGTTGAGGTAGCATGGCAGGCACATTTCGTGACCAACATGTTCATCCGCCCTTCTCACTATGAACTTGAAAACTTTGGTGAGCCGGATTTCACTGTAATCAACGGATCAAAAACTACCAACCCGAACTGGGAAGCGCAGGGATTACACTCTGAAAACTTCATCATGTTCAACCTTACAGAAAAACTACAGATCATCGGAGGTACCTGGTACGGTGGTGAGATGAAGAAAGGAATGTTTGCTATGATGAACTATTACCTTCCATTAAAAGGTATGGCTTCTATGCACTGTTCTGCAAACGTAGGAGAAAAAGGTGATGTTGCTTTATTCTTTGGTCTTTCAGGAACGGGTAAAACTACTTTATCAGCAGATCCTAAAAGATACCTTATCGGTGACGATGAGCACGGATGGGATAACAACGGAGTATTCAACTATGAAGGAGGATGCTACGCTAAAGTAATTGACTTATCAGAAGAAAAAGAACCGGATATTTTCAGAGCGATCAAAAGAGATGCACTTCTTGAAAACGTTGTTATTAACAATGGAGTAGCAGATTATACAGATGGATCTATCACAGAAAATACAAGAGTTTCTTATCCAATCTATCATATCAACAAAATTGTATTACCTTCTAAAGCAGGTCATGCTAAGAAGATTGTATACCTTTCAGCAGATGCATTCGGGGTACTTCCTCCAGTTTCTATCCTGAATGAAGATCAGGCTCAATACCACTTCCTTTGCGGTTATACCTCAAAATTAGCCGGGACTGAAAGAGGAATTACAGAACCTCAACCATCTTTCTCACCTGCATTTGGTGAAGCGTTTCTTACATTACACCCAACAATGTATTCTAAAACATTGATCGGTAAAATGCAGGAACACGGTGCTAAAGCATATTTAGTGAATACAGGTTGGAATGGTACTGGAAACAGAATCTCTCTGAAAGATACAAGAGCAATCATTGATGCAATCATTGATGGATCTATTGACAATGCTCCAAAAACTCAGGTTCCAATTATGAATCTTGAGATTCCTACTGAATTGCCAAACGTTTCTACAGGTATTTTAGATCCTAGAGATACGTATGAAAATGCTTCAGACTGGGAAGAAAAAGCAAAAGATCTTGCTTCAAGATACATCAAAAACTTTGAGCAGTATTGTGATACTGAAGAAGGTAGAAAATTAATTGCTTCCGGACCTCAATTGCAGGAACAGACAATTTAA	MKNTKIIQDLEKLGIKGNYEVVYNPSYEELYQAEVSPENQGFEQAELTESGAVSVKTGIFTGRSPKDRYIVQDDVTRDTIFWDGKVNLPTTAEIFGSCKELVMNQLSGAKKIYVVDAFCGTNADTRLKVRFIVEVAWQAHFVTNMFIRPSHYELENFGEPDFTVINGSKTTNPNWEAQGLHSENFIMFNLTEKLQIIGGTWYGGEMKKGMFAMMNYYLPLKGMASMHCSANVGEKGDVALFFGLSGTGKTTLSADPKRYLIGDDEHGWDNNGVFNYEGGCYAKVIDLSEEKEPDIFRAIKRDALLENVVINNGVADYTDGSITENTRVSYPIYHINKIVLPSKAGHAKKIVYLSADAFGVLPPVSILNEDQAQYHFLCGYTSKLAGTERGITEPQPSFSPAFGEAFLTLHPTMYSKTLIGKMQEHGAKAYLVNTGWNGTGNRISLKDTRAIIDAIIDGSIDNAPKTQVPIMNLEIPTELPNVSTGILDPRDTYENASDWEEKAKDLASRYIKNFEQYCDTEEGRKLIASGPQLQEQTI	PGPT0001405_1206	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
BMS003_02088	408	aroQ	COG0757	3-dehydroquinate dehydratase	ATGAAAGTTTTGATCATCAATGGCCCTAACCTCAATCTGTTAGGCACAAGAGAACCGGAAATCTATGGAAATGTTTCTATGGAAAGCTATTTGGAAAATTTAAGATCCGAGTTTCAGGCTCATGAATTAAAATATTACCAGTCTAATATTGAAGGAGAGCTTATCAACAGACTTCAGGAGGATGATTTTGATGCAGTAGTAATCAACCCGGGAGCTTTTACTCATTATTCTTATGCAATTGCAGATTGTCTAAAAAATATTAGAAAACCAAAAGTAGAAGTTCACATCAGCAATATCTATAAAAGAGAGGAATTCCGACAGAAATCTGTAACAGCCGCTAATACGGATGCTGTTTTATCTGGCTTTGGAATGGATGGATATAGATTGGCTTTATTGAGTTTAAAGTAA	MKVLIINGPNLNLLGTREPEIYGNVSMESYLENLRSEFQAHELKYYQSNIEGELINRLQEDDFDAVVINPGAFTHYSYAIADCLKNIRKPKVEVHISNIYKREEFRQKSVTAANTDAVLSGFGMDGYRLALLSLK	PGPT0012905_4147	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
BMS003_02090	2934			TonB-dependent receptor P3	ATGATTAGCAAGAATTTATTCACTTCTAAGGCCTGGATACCTCCGGTTGCTGCATTTTTTCTGGGATTGACCAGTCTCAATGCACAAAACTCCAAGCCGAAAAAAGATAGCCTGCAAGAAAAAGAGATTGATGAAGTAGTAGTGGTAGCCTACGGAAAGGCTAAGAGGAACAGCTATACCGGTTCTGTGGCGACAATATCCAGCGATAAAATTAATAACAGACCTGTTACCAATATTACTAAAGCGTTGGAAGGACAGGTTGCGGGAATTCAAACGACCAGCGCATCTGGACAGCCAGGAGCTGTTTCTACCATTCGAATCAGAGGGATTGGCTCCATCAGTGCTTCCAGTGATCCGTTATATGTAGTAGACGGAATTCCTTTCGATGGAAATCTGAACTCTATCAGTCCGAGTGATATTGAATCCATCAGTGTTCTGAAAGATGCTACAGCAAGTGCTTTGTATGGTTCAAGAGGAGCTAACGGGATTATTATCATCACTACAAAGTCAGGTAAAAAAGGAGAGGCAAAAGTCAATTTTAATATCAGCCAGGGATTCTCAGGAAGAGCGGTGAAAGATTATGAACAGGTTAATACAGACCAATATTTCCAATTGTACTGGGAAGCATTGAGAAATGGATATCAATCCGGAAAAGTGAATGCTCAGCAAGCTGCCCAAATGGCAACGGACAACCTTGTTTCTTCATTGGGGATTAATCCTTATGGAACAAGTTATCCAAAACCGGTAGGAACAGATGGAAAGCTGTTACCAGGTGCATCAGCACTTTGGAATGACGACTGGAGAGATATCTTACAAAGAGTGGCCTCAAGAAACCAGGTAGACCTAGACATCAGTGGCGGAAGTGAGAAAAGCAATTATTTCTTCTCTCTGGGGTATCTGGATGATAAAGGAATGGCGATTGAATCAGGATATAAAAGATACAATACCCGATTAAAGATCAATTCTGAAGTCAAAAAATGGCTGAATGTAGGAGTGAATTTAAACTATACAAACAGTATTCAGCAGGCTCCGACTTCTTCGGATTCGAAAGCAAGCAATATCATCAATGCGGCAAGATTTATTCCTTCATTTTATCCTTATTATGAAAGAAATCCGGACGGAACTTATATTTTAGGTGCTGATGGAAATCCAACTTATGATTTTGGAAAATACAGACCTACGAATGCCCTTCAGAATCAGAATGCTGCTGCAACACTGCCTTTAGACAAAAACGATAATAAAGAAGATAACTTCTCCGGAAAGGGGTTTATGGAATTTACTTTCTTACCGGAGTTGAAATTCAAAACAAGTTTCTCTGTTGATTTGGTTAATTATAATGGTCATTATTATTCAAATCCATTATTGGGACAAGGAGCTGAAACAGGAGGTTCGGTGACGAAAACCAATACCAGAACACTATCTTATACAACGAGTAATATTCTTACCTATGATAAGAAATTGGGAAAACACCACATCAATGCTTTGGCAGGACATGAATTCTATAAATACGATTATCAGACCATTTCAGGAACAAGAAGTCAGTTTTCACTGCCTTATTACTATGAACCGGATGCTGCTTCTCTATTGGGAAGTTTCAGTGGAAACAGCAATAAATTAAGTTTATTAAGTTTCCTTGGAAAAGTAGAGTACGATTATAACAATACCTATTTCCTGTCAGCTTCAGGAAGAGCAGACAGCTCTTCAAGATTTGAAAAGGATAACAGATGGGGGAGATTCTGGTCAGTAGGAGGTTCATGGAAGATTTCTAATGAGGAATTTATTAAAAGCCTGAATGTATTCAACCAATTGACATTGCGTGCGAGTTATGGAGGTCAGGGGAATGATAAATTGCTTCGACCCAACGGGCAGCCACTTTATTATGCTTATCAGGAACTATACAGATTTATCAGCCTTGGTGGTGAACCTGGAACAACGCTGGAAAAAACATCAACCAATAATGTAAAATGGGAGACCAACCTTAATTTAAATGTAGGATTAGAGTTTGCTATTCTGAATAACAGAATTAAAGGTAATATCGAATACTTCAAAAGGCAAAGTCAGGATCTTCTGTTTAACATGCCGGTTGCGCCGTCATTGGGAATCAGTGATTATCCTGCAAATATCGGAACTATTCAGAATACAGGGTTTGAATTTTCATTATTCACAACACCTATTAAGAATGATGATTTCCAATGGAATGTAGATGTGAATTTAAGTACTTTAAACAACAAGGTGACCAAATTACCTGGAGGTTCACTTGTGGTAGGAACAAAGCTATTAACTGTAGGAGGTTCTGTATATGATTTCTTTATTCCTGAATGGGCTGGGGTAGACCCAAGTAATGGAAAACCTTTGTGGAAAACATTTTCTACAGATGCCAGCGGAAACTCAGTGGAAGGAACGACTTCGGAATATTCAAAAGCGACAAAACTGTTGCAGGGTTCTGCATTGCCTAAGCTGACAGGAGGAATCAGTACAAGTATCAATTATAAGAATTTTGATTTCTCAGGGTTGTTGACATTTAAAATTGGAGGAAAAATTCTTGACAATGACTATACTTCCATCATGCATAACGGAAGTGCGGGAGGACGTGCATGGAGCGCAGAAATGCTAAACAGATGGACTCCGGATAATCCTAACACGGATGTTCCTGGATTGAGTACAACAACAAATAACTGGACATCAACCTCTTCAAGATTCCTTTACTCCGGTACCTATGCAAGACTTAAAAATGTAAGCTTAGGATATACACTTCCTGAAGATTATTTTGAGAAAATCGGATTGAAAAAGTTCAGAATTTATATTCAGGCAGAAAACCTTCTGACCTTCTATAAACATAAGGGAATGGATCCTGAACAGGCTTTGGACGGAACAACGTATTACAGATATCCTGCAATGAGAACCATCACTTTTGGTCTTCAGGCAACGCTTTAA	MISKNLFTSKAWIPPVAAFFLGLTSLNAQNSKPKKDSLQEKEIDEVVVVAYGKAKRNSYTGSVATISSDKINNRPVTNITKALEGQVAGIQTTSASGQPGAVSTIRIRGIGSISASSDPLYVVDGIPFDGNLNSISPSDIESISVLKDATASALYGSRGANGIIIITTKSGKKGEAKVNFNISQGFSGRAVKDYEQVNTDQYFQLYWEALRNGYQSGKVNAQQAAQMATDNLVSSLGINPYGTSYPKPVGTDGKLLPGASALWNDDWRDILQRVASRNQVDLDISGGSEKSNYFFSLGYLDDKGMAIESGYKRYNTRLKINSEVKKWLNVGVNLNYTNSIQQAPTSSDSKASNIINAARFIPSFYPYYERNPDGTYILGADGNPTYDFGKYRPTNALQNQNAAATLPLDKNDNKEDNFSGKGFMEFTFLPELKFKTSFSVDLVNYNGHYYSNPLLGQGAETGGSVTKTNTRTLSYTTSNILTYDKKLGKHHINALAGHEFYKYDYQTISGTRSQFSLPYYYEPDAASLLGSFSGNSNKLSLLSFLGKVEYDYNNTYFLSASGRADSSSRFEKDNRWGRFWSVGGSWKISNEEFIKSLNVFNQLTLRASYGGQGNDKLLRPNGQPLYYAYQELYRFISLGGEPGTTLEKTSTNNVKWETNLNLNVGLEFAILNNRIKGNIEYFKRQSQDLLFNMPVAPSLGISDYPANIGTIQNTGFEFSLFTTPIKNDDFQWNVDVNLSTLNNKVTKLPGGSLVVGTKLLTVGGSVYDFFIPEWAGVDPSNGKPLWKTFSTDASGNSVEGTTSEYSKATKLLQGSALPKLTGGISTSINYKNFDFSGLLTFKIGGKILDNDYTSIMHNGSAGGRAWSAEMLNRWTPDNPNTDVPGLSTTTNNWTSTSSRFLYSGTYARLKNVSLGYTLPEDYFEKIGLKKFRIYIQAENLLTFYKHKGMDPEQALDGTTYYRYPAMRTITFGLQATL				NA	NA	NA	NA	NA
BMS003_02091	1494			hypothetical protein	ATGAAAAAATTAAAATATATATCGTTTGCACTTATCGGATTTTTGTCACTGGCAAGCTGTGAAAATGATCTGGACACTGCGCCAACGGATCAGGCCAATAGTGTAGAGGTTTTCAAAACAGCTGAAAGTGCAGAAACAGTGGTGAATGGTACCTGGGCGAAATTTAATAATGACGGAACAACGTACGCCAATATCGGTTATTCCACCGTTTTAAGAGCCAGTGATGCGATGGGAAGTGATGTGGCAGTGCTGACTAATAAATATGGTTTTGCTTCTACCTACGCCTTTACGGAAATGGTGAACAGTACAGCAAGTCGTCCGTTGTTTATCTGGACTATGTTGTATTCTACCATCAATAATATGAATAATGTGATTACAAGAATTGATGGAACAGAAGGAAGCCAGAAGAAAAAGAATCAGGTGAAAGGACAGGCAAAAGCATTACGTGCTTTCTGTTATCTGAATCTGGCAAGTTTTTATCAGTTCAGTTACCTGAAAGATAAGTCGGCTTTGACAGCTCCTATTTATACTGAACCTTCTACAACAAGTACGATAGGGAAGAAAAGAGCAAGCCTTGAGGATATTTATACTTTGATTAAAAGCAATCTTACGGATGCTGATAACCTGTTGAAAAGTTACACAAGAAATAATAAGGATAAGATCAACCGTGCTGTAGTGAACGGCCTTTTGGCGAGAACTTACCTGAATACCGGTGAATGGAGTAAGGCTTCAGCATCTGCGAAAATTGCAAGAGAAGGATTTCCATTGATGGCTCCTGAAAAATATAAGGATGGATTCAATGATATCAACAATGCTGAATGGATCTGGGGACACGGGCAGACTCAGGAACAGTCTGATGAAAGTTATGCTTTCCATTATCTGGATGTTTCTTCATCAGGAAGTTATTATTACAGCTTTATGGCGGATCCTTATTTTAAAGATCTTTTCGATACTAATGATATCAGATCCCAGCTGTTTTCATGGGATGGACAGAAAGGTAGAGAAGGATTACTGAGATATGCTAAGTTTAAATTTAAACCCACTCTTATTGCAGATATTGTCTACATGAGAGCTGCAGAAATGTATCTGATCGAAGCAGAAGCCGAAGCCAGAAACGGAAATGTTTCTCAAGCGGTAGCAGTATTGAATCAGTTGAAATCTGCCAGAAATGCTAATATTTATTCTGGATCATTGTCACAGAATGCGGTAGTAGATGCCGTTCTGATCGAAAGAAGAAAAGAATTATTCGGAGAAGGATTCTCCCTTTCAGATATCATCAGAACTCAGGGTACAGTAGTAAGAAAACCGTTTGTAGATGCTGACGGTAAACCAATAAAAGTTCAGATCACTACACCGGACGGAACTGTGAAAACAGTAGATGGTAAAGGGCATTCTGTTCTTGACTTCCCTGATAAATCTGCTTTTACCCCAAACAGCAATTATTATTTATTCAGTATTCCACAGAGAGAATTTGAAAACAACCCGAACTTATAA	MKKLKYISFALIGFLSLASCENDLDTAPTDQANSVEVFKTAESAETVVNGTWAKFNNDGTTYANIGYSTVLRASDAMGSDVAVLTNKYGFASTYAFTEMVNSTASRPLFIWTMLYSTINNMNNVITRIDGTEGSQKKKNQVKGQAKALRAFCYLNLASFYQFSYLKDKSALTAPIYTEPSTTSTIGKKRASLEDIYTLIKSNLTDADNLLKSYTRNNKDKINRAVVNGLLARTYLNTGEWSKASASAKIAREGFPLMAPEKYKDGFNDINNAEWIWGHGQTQEQSDESYAFHYLDVSSSGSYYYSFMADPYFKDLFDTNDIRSQLFSWDGQKGREGLLRYAKFKFKPTLIADIVYMRAAEMYLIEAEAEARNGNVSQAVAVLNQLKSARNANIYSGSLSQNAVVDAVLIERRKELFGEGFSLSDIIRTQGTVVRKPFVDADGKPIKVQITTPDGTVKTVDGKGHSVLDFPDKSAFTPNSNYYLFSIPQREFENNPNL				NA	NA	NA	NA	NA
BMS003_02092	387			hypothetical protein	ATGAATAAATACATTCTATTAATTTCGCTATGCTTACTAACAACAAGTTGTGTTTCAAGCAATTTTGAAAATTACCAATCAATTGATAACTTAAAAAAAGATAAAGACTATTATGAAATTAAGGAAAAAGATGGCAAAATTAATTATATAAAAGTAGGTCTAAATACTATCCAAAATATACAAAACAGCTATTTTATATACATTGTTTTAAAAAGTAAAACTAGTATCGCCACAAACATTCGATCTACGACTTTCGGAAAGATAGATACACCTCCTAACGAAAGGATCTACCTTAAGAAAATTGATAGAAGAAAACTGGTCACAGATACTGTTTACATCAATTTTCCAAACAAAGTTTACACATTTTACTACAAAGAAAATTTATAA	MNKYILLISLCLLTTSCVSSNFENYQSIDNLKKDKDYYEIKEKDGKINYIKVGLNTIQNIQNSYFIYIVLKSKTSIATNIRSTTFGKIDTPPNERIYLKKIDRRKLVTDTVYINFPNKVYTFYYKENL				NA	NA	NA	NA	NA
BMS003_02093	288			hypothetical protein	TTGTTAAATGCAGACGAAAATATTCCTATAAGTTCATTTAGAAGAGAAATTACTTGGGGAAATAATGTAGCTACTTTTGGAGCTGAAGGAGCATTTACCGATCCCTCTACATTTGGTCATGAGTTTGGCCATATATTCCAAGTATATGAACAAGGCTGGACAAATTTTCAGGTAAAAGGAATATGGGAACAGCTCTTCATGAAAGGAAATCCATATGAGACTTTTGGAACCAACGAATACAATGCTCAACAAATGTTTAATATGTATAAAATATCTAAAGATGAATAA	MLNADENIPISSFRREITWGNNVATFGAEGAFTDPSTFGHEFGHIFQVYEQGWTNFQVKGIWEQLFMKGNPYETFGTNEYNAQQMFNMYKISKDE				NA	NA	NA	NA	NA
BMS003_02094	120			hypothetical protein	ATGAGTATTTCACAGATTGAAAATCCGCCTCATTTTAAATTAAAACAAGACGGATTAAAGTTAAGTATTTTTAATTTTGATAATAAAGCCAATCGGTTTTATAATCACTACACCCACTAA	MSISQIENPPHFKLKQDGLKLSIFNFDNKANRFYNHYTH				NA	NA	NA	NA	NA
BMS003_02095	453			hypothetical protein	ATGTATAAGTTTATTTTAGTTTTTTTAGTAAGCTTTGCATCTGCTCAACAGACCTGTAAGCTATCTTTTTTCAATAGCTCACTTTCAGAAAATGGGGAAATAGTGTTTACTATTAAAAATATTAAGAATAAAAGAATAAAAATTCCAAAACAATATTCTGATATATGGGCTAGACCAATAAATATGCAGGTATATAATGATGATAAAAAAGAATATCAGGATACAAAATATGTAGCTGATGATATAGATTGTTTTGAAGCTAATGGTTGTTTTGGTAAAATGATATGTCTTAAAAGAGAAGAATCCAAACAATATAAAATTAAAATTATTCCCGGAACAATTTCAAGAGCCTTTAAAGAAAAGAAAAAGTATAGATTTATGTTATCCTTTGATACTTATTTATTTAGTGGGTGTAGTGATTATAAAACCGATTGGCTTTATTATCAAAATTAA	MYKFILVFLVSFASAQQTCKLSFFNSSLSENGEIVFTIKNIKNKRIKIPKQYSDIWARPINMQVYNDDKKEYQDTKYVADDIDCFEANGCFGKMICLKREESKQYKIKIIPGTISRAFKEKKKYRFMLSFDTYLFSGCSDYKTDWLYYQN				NA	NA	NA	NA	NA
BMS003_02096	402			hypothetical protein	ATGCAATTAAACACCCTTAAAACAAAATTTGCAGTAAATATTTTTGTAATCTGTATTCTTACCAGTTGTAATAAGAAGTCTAATCTAGATAACCAAATTACTATAAAAATAACTTCTACTGACAATAAGACTAAACAACCTCGAATTAATGCATATGATACTATAGATGTAAGAATAGAGGAAAATGGATATCTAACAAAATCTTACAAGAAAGTTGGAGAATATGTAACAGATTCTACGGGTTCGGTTACAATTAAAATAGATCATACCAAGGGATACAAATTTTTACTAAGAAAAAAGGGGTTTTACGGATCCGAAAGTTTTGGTAAACCATTCAGTAAAGAAAAATTAAAGGATGGTCAAGAAGTAAATATTGAAGCTATATCTTTAGAAAATAGATAA	MQLNTLKTKFAVNIFVICILTSCNKKSNLDNQITIKITSTDNKTKQPRINAYDTIDVRIEENGYLTKSYKKVGEYVTDSTGSVTIKIDHTKGYKFLLRKKGFYGSESFGKPFSKEKLKDGQEVNIEAISLENR				NA	NA	NA	NA	NA
BMS003_02097	1167			hypothetical protein	ATGAATGGAAGATTATATGATCCACTGTTAAGAAGATTCTTAAATGCAGATGAGAATATTCAGGATCCTTATAATACCCAGAATTACAACAAGTATGGGTATGTAATGAATAATCCGTTGATGTTTAATGACCCGAGTGGGGAATTCTGGCAATTTTTAGCAATTCCTATTGTCAAAGCGGTACTTTTTGCTGTAGTCTCTTACACTGCTACTGTTTTAATTACTGGTGCGAAGTTTAATATTCTCAACTTATATTCTACGATTGTAATGAGTATGATAAGTGCCGGAATAACAACTGTTATAGGGGATGTCTTTTCTACTGCTACAGCAAGTATAGGAAATGAAGCTTTAAAAAGTCTCGTTCATGCAGGAGTACAGGGAACACTGAGTTTTATGCAGGGAGGTAATTTCCTTACTACGGCTGCCAGTGCATTTTTGGCAAGTGCAGTATCTTTCGGATATGGACAAGCAGTTGGAGATGCATACAGTGGTGTAGGACAGGTTGCATTCAGCATGCTTTCAGGTGGTGTTGGCTCTGCCCTTACCGGAGGTAATTTCTGGGAAGGTGTGAAGATTGGTGCTATTGTGGCTATTTTTAACCATATGATGCATCAGATTAGCAAGCCAAAGTATGTGGTTGCGGGTATTTATGGAGCAGGAGGTCACGAAGCAAGTGGTAATCCAGATTTAGAAGCGTTAGTTGAGAGCCAAGGAGGGAGGATGTTTACAAGTTCTGTTGGCGGTGGAGATGATGATATCATTGACTATTTAGTGAATGGTCGTAATGAAGGCAAACAAATAAAAATTTATGGACATAGTCGTGGCGGTGCAGCAGCGGTGAGAATAGCAAATAAATTAGGAGATATGAATATTCACGTTGCTGAAGTAAATTTATATGATCCTGTAGGAATGTATTTTGGAGGAGATTTTGTGTTCAAACATCCAAACGTAATGAAGGTAAATAATTATTACCAAAGAAATCCTACAGATAATTTAAAGTTTGCTATGAAATTTGAATTCGCTGATAATCCGTTTATAGGCAGTCCTGTTAGTGGAAAGTTTCAATGGCCTGTAATTAATAATGTAAATTTAACAGGAAAATACTATAGACCTGGTGTATTAATAAACCATCTAAATATCACAGACTATGCAATTAAACACCCTTAA	MNGRLYDPLLRRFLNADENIQDPYNTQNYNKYGYVMNNPLMFNDPSGEFWQFLAIPIVKAVLFAVVSYTATVLITGAKFNILNLYSTIVMSMISAGITTVIGDVFSTATASIGNEALKSLVHAGVQGTLSFMQGGNFLTTAASAFLASAVSFGYGQAVGDAYSGVGQVAFSMLSGGVGSALTGGNFWEGVKIGAIVAIFNHMMHQISKPKYVVAGIYGAGGHEASGNPDLEALVESQGGRMFTSSVGGGDDDIIDYLVNGRNEGKQIKIYGHSRGGAAAVRIANKLGDMNIHVAEVNLYDPVGMYFGGDFVFKHPNVMKVNNYYQRNPTDNLKFAMKFEFADNPFIGSPVSGKFQWPVINNVNLTGKYYRPGVLINHLNITDYAIKHP				NA	NA	NA	NA	NA
BMS003_02098	714			hypothetical protein	ATGTTCAAGAAAATATTTTTATTAATTATTCTAATTTCATTAATAAGCTGTAAAAAAGAAAACGTAAACTGTGAAGAAAAATTTAGTGAAATTTATGGTAAAAGATGGTCATTATGGTTTGGTTTTGAAAGTATAGGAGTAACGTCCAATAATAATTTTACTGAAAAAGAATATAAAAAGCTAAGAAAAGAAACAAATGACAGTTTGTTTATAATGATAAATTGTGCATTAAAGCAGAATAAAAACAATGAGATTTTGTACTTATACAAAATGAAGCAGCTTTATTTATCGGACAGCTTAAACAAAGTAGAACCTTTTTTTAAAACTGTAGACAGAAAAATAGTGAAAGATGATATTTATTTTCAGCTTTCTTTATACAATTTACTTTGTAAAGAATTGCTGACAAAGCAAAAACCTACAGAAGAATATAAAAAATTATTGAAATCTTATTCACTAGCATTAAAATTTATCTATAAAAGTACAGGAATAGAAGAGTTTTTGATTTATCTTATTGATAATGATCTTGAAGGATTCAAAAAAAAATTAGCAATAAAATATCCTGATACCGGTTCGGTAACCATAGAATATGAAAATGGCAAAGAGACTGTAGTAAAAGAGACTAATTCTAATTCCATATTAACTGAATATGAAAAAAACAGAGAATCTATAATAAAAAATATAATGATGAGAGGAGACGGATTTGTTTTCGATTAA	MFKKIFLLIILISLISCKKENVNCEEKFSEIYGKRWSLWFGFESIGVTSNNNFTEKEYKKLRKETNDSLFIMINCALKQNKNNEILYLYKMKQLYLSDSLNKVEPFFKTVDRKIVKDDIYFQLSLYNLLCKELLTKQKPTEEYKKLLKSYSLALKFIYKSTGIEEFLIYLIDNDLEGFKKKLAIKYPDTGSVTIEYENGKETVVKETNSNSILTEYEKNRESIIKNIMMRGDGFVFD				NA	NA	NA	NA	NA
BMS003_02099	648			hypothetical protein	ATGACGGGAGTTGTTTTAGGAGGGATTTCCTCTACCATTACCGGTGGAAATTTTTGGGAAGACGTGAAGATTGGAGGTCTTGTCGCGGGATTTAATCACACGTTGCATAAAATCAGTAGCGATATTAGTGATGGAGGACCACGTAAGCCCATAAAAAGTAGAAGAAAGATAAGTAAAGAAGAATCTCTTTCTTTAGTAAAAGGAAGAAGAGGAGGACAGTCTGTTATTACGCCAGAAAATCCCGGTAATCAAGTAGGAAATGGAAGAGGGGTGTTTGTTCCTACAGGTTCCCAAAGTATGGTTACAGCAGATATAACTTATTATGACGATGGTACTGTAGATATAAATATGACTACAGAAGTGTCAAGAGTGAATACTACTGGTTCTTATATTGCGAGATATGAAGTTGTAGGCTCAAATGGCAATATTATCAATACGGGTTATTTAGTAAATAAGCAATATGGAATAAGCCCAAGAATGGATTATCTCACATTTAGTCCAAAAAATGGTTACACTGTTTTGTCGACCGCAAGATTCAACAATATACCATTAAATTCAACACTAAGAGTAAATGTAGGTCTTACTCACCAAATTCCCGCAGGCGCCACAGGTGTTATATCAACAAGTCATATAATAAAAATAAAATAG	MTGVVLGGISSTITGGNFWEDVKIGGLVAGFNHTLHKISSDISDGGPRKPIKSRRKISKEESLSLVKGRRGGQSVITPENPGNQVGNGRGVFVPTGSQSMVTADITYYDDGTVDINMTTEVSRVNTTGSYIARYEVVGSNGNIINTGYLVNKQYGISPRMDYLTFSPKNGYTVLSTARFNNIPLNSTLRVNVGLTHQIPAGATGVISTSHIIKIK				NA	NA	NA	NA	NA
BMS003_02100	516			hypothetical protein	ATGTTAATTACAAATTATAAAAACATTTTTTTTTGTGCTTCTATGCTACTTGTGCTAAATTGCTGTAGCACTAATAAAGAGCCAAGAAACGGAAAAGATTTAAAAAAAATAGAACTATTATTATCTAAACATAAGAGATATGCTTTTATGGACTTATATGAAAAATCTAACCAGCAAGAAGAAAAAAAACACCACATAAAAAAATGTGATTCCTTATTCGATTTATCTTCTAATGAGATATATAATGAAAATTGTTTAAAAATGGATTTTTATTCTGACGACCATAAATCATATGATGATGAGAATTACGATTTATTAATCTCAAAATGGCTTAACAAAGATTATCCTCCTTATATGCCCGTAGATAATCCAAATGTCAAAACAACAATGACTTTGAAAAAAGCGTTAGATTTTTATGAAAGCAAAGATTTGAATAAGTATATAGATTCTTTAAGAAATGTGTTTCACAAAAAATATAAAGAACATAATTTAAAAAGTATAGACTGTGTTGAATAA	MLITNYKNIFFCASMLLVLNCCSTNKEPRNGKDLKKIELLLSKHKRYAFMDLYEKSNQQEEKKHHIKKCDSLFDLSSNEIYNENCLKMDFYSDDHKSYDDENYDLLISKWLNKDYPPYMPVDNPNVKTTMTLKKALDFYESKDLNKYIDSLRNVFHKKYKEHNLKSIDCVE				NA	NA	NA	NA	NA
BMS003_02101	6672			hypothetical protein	ATGAAACTTTACGATAAGAAAATACAAGTATTTTCATCATTCATACTGTCCTTGTGTTCGGCATTGGGTTTTTCACAGACCATACTGTATCAGGCAGAAAGTACCTCAAGAACGGTTCAGGATCCACAAACAGTGGTGTTAGCTCAGGGATTTTATGCTTCTTCCAGCTCATCGAATCCATTTGTAGCTAAGATCGGTCCAGCTACTGAGAATCCGGGAGGTGGTCCTACCGATTCAAATGCGGGGGCAACTAATCCATCTGGAACGACAGCTCCTGCTGGGAAAAGTTTTCATGATACCAAAGGAAATATAGAAGTAACAGGAGCAGGACAATTGCAATTTACATTGCCTATTGCTTTACCTCCGGGAATTAAATCTGTAGCTCCACAGATTAATCTTGTATATACTAGTGGTTCATCTAACGGAATTTCCGGTTATAGTTGGAATTTATTAGGATTAACAGCTGTATCAAGAACCGGAAGAACCGTAGAAAAAGATGGAGAAGCTAAAGGTGTGCAATTAGATGAAACAGATTATTATAGCTTTAACGGACAAAGACTAATTCTAAAATCAGGAGAATATGGAAAGGACGGGGCAGAATATGTGACAGAAAAATACTCTAATATCAAGATAAAGTCTATTGGAGCAATCACCGGACAGCTGTGGAAAGGTCCTGAATACTGGGAAGTAATTTTTGAGGATAGTTCACAGGCTTGGTATGGGGCAACCACCTCGGGGCTTAGTAATGCAAGAACTCCTATCGAATATAATATTGTAAAATGGAAAGATAGTAAAGGTAATTATATCACTTATAATTATTTGCAGACAGGTCTTTCAAATATTTCTACGATTTCAAGCATTCAATGGGGAGGGAATGAAACACTGGGCAAGCCACACTTTAACACAATAGATTTTACTTACATTAACAGAAGTTTAGCCGAAGATTCTTATATAGGAGGAACTCGTTTTTTACAAACTCAACTTTTATCTGAAATTAAAGTAAGCTCCAATGGAAGTCAATTTAAAAAATATACAATCGATTACCAGCAGAACGGGATGAATTATCAGGCAGTTAATAAAATAACGGAATACAACGCTGATAATAATGCTGCCAATCCGGTAGCTTTTACCTATCCTGCTCCAACACAGCAAAATTTAGAGTTCTCCAACAATAATGTAGATAGCTTTGAAAACGTAAAGTTATCAGGAGACTTTAATGGTGATTCCTATCTGGATTTTATTATGAATAATGGTACAGTGAAACTTGGAGGGCCAAATGACACTTATACCGATGTTTCCACAGGTAAAATCTTTAATGCTGAAGCTAAAGTTATCAGTACGTTGTTAGATGAAGAGGGGCAAATTCATAACGGAAATGGGATTGTTCAATATGAAGGAGGAAAAGTAGTGGGCTATATTTTTAGGGGTAATACTTTTGTCAAAGTATTTGAAAAGGTGGTTTATATTGATCCAAATTGTACATATCAGGGAGGTGGTGTAGGTTGTCGTGTAACAATGGCTTCATTCAATGAAGGAGATATCAATGGAGACGGCATTTCAGATGTATTTGTGAAAATCAATAAAGAAATCTGCCAGTTTGAACCAACACCCGGATGTAATGATTTAACCAAAACAACTACATCCACGTCTGACGATACAATTAATAGACCACCTCCATGTCATGAATTAAATTGTTATACTTATTTAGTTGGAAATTATATTGTTGACTTAAAAAATGCTAACAATCCTTTATCAACCTATGCAGTTGATTCTGGAATCAACGAAAGTTCCTATTACAAGCAGCAATATTTGGATGTAGATGGAGATGGGAAAGTAGATATTATTGATGTCTCCAATACTGCTTATACGGTATTTGAATTTGTAAAAACAGCTCCTACTCAATACCTGAAGAAAATTAGGTTTACAGGGAGTTTGGCTGAGACAAAAGCTCCGGAATCTCCGTTATTATTCGGAGATTTTAACGGTGACGGAAATCTTGATTTCACCATTCCAACCACGGATACACAGGAAAAAGATAACTGGAGATTTTATATGGGAACTGAAAAAAGATTTTCCAATTTTCTAAAAACCAATTTTTTGAAATACAGAAAACCTAATGACTACCAAAATAGTAATTACCCTACTTTTAATATATACCAGCATGTGTATTCGGTGTCAGACATCAATAAAGACGGGAAATCAGATATTGTACATATTCTCCCTTTTAACAAAGCGGGGCAGGTAAATTCAAGCGGACTTATACTTAACCGATACTTTGGCTATACAATTGATGCTTATACAGCTAACGGAGTTACAACAAATGGCAGCCCTGATTTCTTTACCAGCTATACGTATGGAGGATATAATTATGTAACCACCGATGTTGGCAATTTTACACTATTTTCTCCGATTACTTCACAGGTTAAAATTAATAGTAACTATTATGATATTTTCTTATTCTGGAAAGAAAGGATGCACAAGCTTAAATCTCCTTCTTCTGTTGGAAATTTGTCCCGAGTACAAACCATTACTCAGGGAGGAATTACAACATCAGCAGATTATTTAGAAATAATCCCGAATAATCCTCTTAATCCTAATTTTTACCAAAAAGTTAAAAAAGAATATTACCCTTATTTTTCTTTAAGCAGGGTTGATCAATCCTATGCTGTATCTCAGTTAAGACAAGAAGGAAGAAAGCAGGATTTCCGATACAGAGGTATGACCGGGCATATGCATGGAAAAGGGATGATGGGGTATCATCAATCTGCCCGCTCGTCATGGTATGCTGACGGATTTGAAAATATCAAAATCTGGTCTGGAGCAGAAATGGATCCTCTTTTTGATGGGCTTCCGGTAAAAGAATGGAGCATAAAGACCAATGACGAATCCAAAATATTCCCTGCGGATATTTCTGAAAACAACACCCAGTTATTAAGTTTTAAATCTACTGTTTACCAAACAGATAAGCTATTAAACGGACAAGTCGTAACAGGGGCAATTGCTGATGCCGATAAACCAAAGGTGATAACTGCTACTGTTCCTAAAAGCACCAAAACTAAAGATTTTTTAACAGGTACAACAACAAACACTTCAATCACGTACGGAGATTATTATCTTCCACAGCAAAGTATTACCAACGTAAATAATGGTTATGCAGTCACTACATCCAATTTTGAATATATTCACAATTTAGCCGGAATTGGCGCGGATTATTTTGTAGGCCGCCCGGAGTCAAAAACAGAAACAATTCAGGCTTATGGCGATACAAAATCAGTTAAAGAAGAATACACGTACGAAAACAATCTGTTAAAAATCTTAAAAACCTGGAACCGGGACAATACAGGATATTTATTGGAAACTTATAATTACGATAGTTTTGGAAATATTACCGGAAAAATAACCAGTAATAGTATTGATTCCCAAACTCAGACAGAAGCAAGCGTATATGATCCGAAAGGAAGATTTGTTGTAAAGAAAACAGATAATTTAGGACTAGAAACTAATATTGAATATAATGATTGGGGACAGATAAAAAAACAAACCGATGCATTAGGTAACACGCTTGTTAACGTTTATGATGGCTGGGGGAAATTATTGACTTCAAAAACCAATTTAGGAGGAACTACTACCTATAAATATGAAAGAGATGATAACGCTAATCTTATTGTTATTCAATATAATCCTGATGGAGATATTTCAAAAAAATATACTAACAAATTAGGACAAGATTATAAAACTTCTACAAAAGCTTTTGGGCAGGGACAATTTGTTTCCCAAGAGACTCAGTATGATGTTTTAGGTAGAAAAATCAAAGAATCCGAGCCTTATTTTGAGGAGCAAAGTGCCAATCAATGGAATACAATTACTTATGATGATTCCGTGTTTCCTATCACAAAAGCAATCGCTACCTCATTCAATGGTAAGCAGATGGAAACAACCGTTTCAGGCTTGACAACGACTATCAAAGAGCTCAACGGTTATGGAAGAACTACTTCTAAAACCACTGATGCGTTAGAAAATGTTATTTCCTCAACGGATAAAGGAGGAACTATTCAATTCGCATATAATGCAGCCGGAGAGCAGATTAAAGCTCAATATGCGGAAAATATTGTTACGACAAAATATGATTCCTGGGGGAGAAAGTCAGAATTCAATGATCCTTCTAACGGATTATATAAATATGAGTATGATGGTTTCGGGCAGCCGAAAAAGATTATCAGCCCAAAAGGAACTAAGGAGTACACGTACAATAGTTTAGGACAATTAATTTCTCAAAAAGAGTTGTCGACAACAGATGGAGGCCAGGCTACAAATAAAACTATTTCTTATACCTATGACAATAAAGGCCGGGTCATTTCAAAAGGCGGAACATCAAAAGGAAAGTCTTACAGTTCTAATATCAGTTATGATCCGCAGGGAAGAGTATTGTCTTCATCTGAAAGTAGCAACGGAAAATATTTTATTCAGAAAGGAATCACGTATGATGATAAAGGAAGAGTAATTTCCTATGAAAAGCAACTCTATTCATCAGGATTACTCACAAAAGTACAGATAGAAAATGTGTATAGTAATTGGAATGGAGAATTGTATCAGGTAAAAGATAAAAATTCAGGAAAAACTCTTTGGGAGCTTAAAGAAACTAATGCTAAAGGACAAGCCTTAAAAGCTAAACTGGGAGCTGCTGATATCAATAATACATATGATATCAATGGTTTCCTTACGAATGTGAATCACTCTTCGGCAGTAAAACCAGGTATCCTCCAACTCTCTTATTCATTCAATGCTATAAAAAATGAATTAAATAGCAGAACAACAGGTGGAGACTTTAATATTGTTGAATCTTTCGATTACGATGATAATAATCGTTTGGTAAACTGGACAAATCCAGTTACGGGTATTAAACCTTCTTCAAACCGAAACGTTTATGATGTTAAAGGAAGGATCATGGAGAACGATCAGGTGGGAACCATGAAGTATGAAAATTCTGCGAAGATCTACCAGCCGACAGGAATGACTTTGAATGCAGCAGGAACACAAAATTATAACAATGATTTAATCCAGAGCATTGTTTATAATGAGAATAATGATCCTGTTTTTATTGATGGAATGAAAGGAGATGTTGCCTTCCAATATGGACTCACAAGTATGAGACAAAGGGTTACTTATGGAGGTAATTTCAGCAGCGATGGAGATGGAAAATTCACTAAATATTACAGTGAAGACGGAAGTTATGAAGTGGTAAGAGATAATACTACCGGACAGGAAAAACATATCATTTATATCGGAGGAACACCTTATGAATCAAATATTGTATATTTAAAGAACTTTACAGAGAGCAGCGGTTCTTATAAATTTTTACATAAAGATTATATCGGCAGTATCTTAGCAATTAGTGATGAGGCAGGAAATAAACTGGAACAAAGACATTTTGATGCATGGGGTAATTTCACCCATCTTCAAATAGGAAATGGAGCCATTATTACAGATAAGAATATCATTGATAATGCTTCGTTATTATTAGAAAGAGGCTACACCAGCCATGAACATTTTGCAGAGGTAGGAATCATCCATATGAACGGTAGATTGTATGATCCTTTATTAAGAAGATTCTTAAATGCAGATGAGAATATTCAGGATCCTTATAATACCCAGAATTACAACAAGTATGGGTATGTAATGAATAATCCGTTGATGTTTAATGACCCGAGTGGGGAATTCTGGCAATTTTTAGCAATTCCTATTGTCAAAGCGGTACTTTTTGCTGTAGTCTCTTACACTGCTACTGTTTTAATTACTGGTGCGAAGTTTAATATTCTCAACTTATATTCTACGATTGTAATGAGTATGATAAGTGCCGGAATAACAACTGTTATAGGGGATGTCTTTTCTACTGCTACAGCAAGTATAGGAAATGAAGCTTTAAAAAGTCTCGTTCATGCAGGAGTACAGGGAACACTGAGTTTTATGCAGGGAGGTAATTTCCTTACTGCGGCTGCCAGTGCATTTTTGGCAAGTGCAGTATCTTTCGGATATGGACAAGCAGTTGGAGATGCATATAGTGGTGTAGGACAGGTTGCTGTTGGAATGCTTTCTGGTGGTGTAGGATCTGCCCTTTCCGGAGGGAATTTCTGGGAAGGTGTGAAAATTGGGGGTATTGTGGCGTTGTTTAATCACACGTTGCATAAAATGTCGAATGGATTTGATAACGATGAAGAAAGTTTTGCAAAAAGATCTTTAACTGATGCTGAAAGACAAAAGATAGGAGAAAATTATCCTGATTATAAAAATTATCCTGATGCACATTCTGTTTATAAAGAAGTTGGAGGACCGCTTTATGATGAGTATTTAAAAAATCCCGATAAGTATATTAACACTTGTGCAATTAGATTAAGTGTGGCATTTGAAAAATCGGGAATTGATATTGGAGGTGACTATACAGGAGCGAAAGGAACAAAATATTATACAGCAGCAACCAGAATTGCGCAAGCTTTGGATTTAAGATTTATTTCATATGGACAAGGATATAATAAATCAGGTTGGGGAGTAAATGTTCAATACAAAGACAAAAGTTATACAGGAAGTGTATATCACGTTGATGTGGCTTTTATGAAAAATGGTCAAGGTGTATTTGGACATACTCTTTATTCGCCATACTATAATAAATTTTATTGA	MKLYDKKIQVFSSFILSLCSALGFSQTILYQAESTSRTVQDPQTVVLAQGFYASSSSSNPFVAKIGPATENPGGGPTDSNAGATNPSGTTAPAGKSFHDTKGNIEVTGAGQLQFTLPIALPPGIKSVAPQINLVYTSGSSNGISGYSWNLLGLTAVSRTGRTVEKDGEAKGVQLDETDYYSFNGQRLILKSGEYGKDGAEYVTEKYSNIKIKSIGAITGQLWKGPEYWEVIFEDSSQAWYGATTSGLSNARTPIEYNIVKWKDSKGNYITYNYLQTGLSNISTISSIQWGGNETLGKPHFNTIDFTYINRSLAEDSYIGGTRFLQTQLLSEIKVSSNGSQFKKYTIDYQQNGMNYQAVNKITEYNADNNAANPVAFTYPAPTQQNLEFSNNNVDSFENVKLSGDFNGDSYLDFIMNNGTVKLGGPNDTYTDVSTGKIFNAEAKVISTLLDEEGQIHNGNGIVQYEGGKVVGYIFRGNTFVKVFEKVVYIDPNCTYQGGGVGCRVTMASFNEGDINGDGISDVFVKINKEICQFEPTPGCNDLTKTTTSTSDDTINRPPPCHELNCYTYLVGNYIVDLKNANNPLSTYAVDSGINESSYYKQQYLDVDGDGKVDIIDVSNTAYTVFEFVKTAPTQYLKKIRFTGSLAETKAPESPLLFGDFNGDGNLDFTIPTTDTQEKDNWRFYMGTEKRFSNFLKTNFLKYRKPNDYQNSNYPTFNIYQHVYSVSDINKDGKSDIVHILPFNKAGQVNSSGLILNRYFGYTIDAYTANGVTTNGSPDFFTSYTYGGYNYVTTDVGNFTLFSPITSQVKINSNYYDIFLFWKERMHKLKSPSSVGNLSRVQTITQGGITTSADYLEIIPNNPLNPNFYQKVKKEYYPYFSLSRVDQSYAVSQLRQEGRKQDFRYRGMTGHMHGKGMMGYHQSARSSWYADGFENIKIWSGAEMDPLFDGLPVKEWSIKTNDESKIFPADISENNTQLLSFKSTVYQTDKLLNGQVVTGAIADADKPKVITATVPKSTKTKDFLTGTTTNTSITYGDYYLPQQSITNVNNGYAVTTSNFEYIHNLAGIGADYFVGRPESKTETIQAYGDTKSVKEEYTYENNLLKILKTWNRDNTGYLLETYNYDSFGNITGKITSNSIDSQTQTEASVYDPKGRFVVKKTDNLGLETNIEYNDWGQIKKQTDALGNTLVNVYDGWGKLLTSKTNLGGTTTYKYERDDNANLIVIQYNPDGDISKKYTNKLGQDYKTSTKAFGQGQFVSQETQYDVLGRKIKESEPYFEEQSANQWNTITYDDSVFPITKAIATSFNGKQMETTVSGLTTTIKELNGYGRTTSKTTDALENVISSTDKGGTIQFAYNAAGEQIKAQYAENIVTTKYDSWGRKSEFNDPSNGLYKYEYDGFGQPKKIISPKGTKEYTYNSLGQLISQKELSTTDGGQATNKTISYTYDNKGRVISKGGTSKGKSYSSNISYDPQGRVLSSSESSNGKYFIQKGITYDDKGRVISYEKQLYSSGLLTKVQIENVYSNWNGELYQVKDKNSGKTLWELKETNAKGQALKAKLGAADINNTYDINGFLTNVNHSSAVKPGILQLSYSFNAIKNELNSRTTGGDFNIVESFDYDDNNRLVNWTNPVTGIKPSSNRNVYDVKGRIMENDQVGTMKYENSAKIYQPTGMTLNAAGTQNYNNDLIQSIVYNENNDPVFIDGMKGDVAFQYGLTSMRQRVTYGGNFSSDGDGKFTKYYSEDGSYEVVRDNTTGQEKHIIYIGGTPYESNIVYLKNFTESSGSYKFLHKDYIGSILAISDEAGNKLEQRHFDAWGNFTHLQIGNGAIITDKNIIDNASLLLERGYTSHEHFAEVGIIHMNGRLYDPLLRRFLNADENIQDPYNTQNYNKYGYVMNNPLMFNDPSGEFWQFLAIPIVKAVLFAVVSYTATVLITGAKFNILNLYSTIVMSMISAGITTVIGDVFSTATASIGNEALKSLVHAGVQGTLSFMQGGNFLTAAASAFLASAVSFGYGQAVGDAYSGVGQVAVGMLSGGVGSALSGGNFWEGVKIGGIVALFNHTLHKMSNGFDNDEESFAKRSLTDAERQKIGENYPDYKNYPDAHSVYKEVGGPLYDEYLKNPDKYINTCAIRLSVAFEKSGIDIGGDYTGAKGTKYYTAATRIAQALDLRFISYGQGYNKSGWGVNVQYKDKSYTGSVYHVDVAFMKNGQGVFGHTLYSPYYNKFY				NA	NA	NA	NA	NA
BMS003_02102	468			hypothetical protein	ATGAAAAGAAAATTACTCTCACTATCATCTCTGATGATAGGATTCTTCGGTTTTTCCCAAACCGAAGTGTATTTCAAATATGATGAGGCCGGAAATCAGAGATACAGAGGAATCAACGCTGCTGGTAAAAAGGCTGAAGAGATTGTTTCAAAAGAATCAAAAGTAGCAGCTGTCACCAGACAAGCTCCTGTTATTGATGAAAAAACATTCATGAAACAAATACGCCTCTACCCCGTCCCTGTCAATGATTATCTTACCATAGACTGGACAGAAGAAGTAGATGGACTCATAGAATCCGTTTCATTGTATCAGCACAGTACAGTTCACTGGAAATTTCAGCAACAGAATATCCCAGACTTAAACCGCCAGGTTAAGATCAACATGACGGGTTATGACTGGGGAGTGTATGTTGTGCGCTTTACCCTAAAAGACGGCAGAGTTTTTAGTAAAAACATCACCAAACGATAA	MKRKLLSLSSLMIGFFGFSQTEVYFKYDEAGNQRYRGINAAGKKAEEIVSKESKVAAVTRQAPVIDEKTFMKQIRLYPVPVNDYLTIDWTEEVDGLIESVSLYQHSTVHWKFQQQNIPDLNRQVKINMTGYDWGVYVVRFTLKDGRVFSKNITKR				NA	NA	NA	NA	NA
BMS003_02103	849			hypothetical protein	ATGAAAACAAAATTATTTTCGATTGCACTCTTGGTGTCATCATTTACGTTTGCACAAAGCTGGAACATCACAGGAAATTCAGGAACTAATCCAACCAATAATTTTATTGGGACTACGGATAATCAACCATTAATTTTTAAGGCTAATAATATTGAGGATATGCGGATTAAATCTAATGGAAATGTAGGAATAGGGGTTATAAGTCCCGATGCTAAATTGCATGTGGCTAAGGATAATGTAAATAACCAAAATCTGGTTTTAGGAAAGTTTGCATCTGTTGGGCAAACCGGGGGTAGTGCTTTAGTCAGTTTGATATATAATAGTACTACTGCTAATCTGGAAGTAAATTCTACCTATTCAGGCAATGGCTTCAGATATGGAACTTATGGTGATTTTAATATTGAAAATGAGATTACAACCCCAGATTTTGGAGCGATTAATTTTATTACAAACAAGAAAGTACAACTTGCCATTAAGCCCAATGGAAATGCTTCATTACAGGGAAAATTTGAAGCCAAAGAAGTAAAGGTTACTTTAACTCCTACTGCCGATTTTGTATTTGATGAAAAATATGATCTTCCAAAATTAGAAGAAGTTGAAAAACATATCAAAGAAAAAAAGCACCTTCCTGAAATTGCTTCTGCTAAAGTAATGGAAAAAGAAGGAGTGAATGTGGGTGAGTTCCAAATAAAATTATTGCAGAAGATTGAAGAACTTACTCTTTATTCAATTGAGCAGAATAAGCAGATTAAACAGCTTCAAAATGAAAATGAAGTTTTAAAAGTCCAATCTGCTAAAATTGAAAAACTTGAGCAGCAGGTTCAGAAATTATTATCCACACAAAAATAA	MKTKLFSIALLVSSFTFAQSWNITGNSGTNPTNNFIGTTDNQPLIFKANNIEDMRIKSNGNVGIGVISPDAKLHVAKDNVNNQNLVLGKFASVGQTGGSALVSLIYNSTTANLEVNSTYSGNGFRYGTYGDFNIENEITTPDFGAINFITNKKVQLAIKPNGNASLQGKFEAKEVKVTLTPTADFVFDEKYDLPKLEEVEKHIKEKKHLPEIASAKVMEKEGVNVGEFQIKLLQKIEELTLYSIEQNKQIKQLQNENEVLKVQSAKIEKLEQQVQKLLSTQK				NA	NA	NA	NA	NA
BMS003_02104	333			hypothetical protein	ATGAACCTCTTAAGATGGATACTGGCATTTTATTTCATGGCACTCTCATTGATGCCATGTGAAGACACGTCCCATCCTCTGAATTCAGGAGATAATAAGGATAATAAGATTGCATTAAGCATTCATGGAGTTCATTCTACAGAAAGAGGAGATATCTGTTCTCCGTTGTGTGCATGCAGCTGTTGTCAGATAACAGTTTCAGCATTTAAAATGGATCCTTTATTGGAAATTCCAGAGCAGATTCCTGCTTACTTTTCAAAGAAGATTCTGTTCCACAAAAATGACTTTGCCTACCAGGTTTACGACCCAATCTGGCAACCTCCTAAAATTTAA	MNLLRWILAFYFMALSLMPCEDTSHPLNSGDNKDNKIALSIHGVHSTERGDICSPLCACSCCQITVSAFKMDPLLEIPEQIPAYFSKKILFHKNDFAYQVYDPIWQPPKI				NA	NA	NA	NA	NA
BMS003_02105	4362	mdtC_3		Multidrug resistance protein MdtC	GTGTTAGATAAAATCATAAAATTCAGTATCAAAAACAAGGTGATCATTGGTTTGATGACTCTGGTGCTGATCATCTGGGGAACGTGGAGTGCCACCAGATTACCTATAGATGCTGTACCGGATATTACCAACAATCAGGTGCAGATTATTACCGTATGTCCTACATTGGCAGGGCAGGAAGTGGAGCAGCTGGTTACCTTTCCTATTGAACAGAGTATTGCCAATGTTCCCGATATTCAGGAAACAAGAAGTATTTCAAGATTCGGACTTTCTGTAATTACAGTAGTGTTCAAAGAAAATGTAGATGTTTACTTTGCGAGACAGCTCATTAATGAACAGCTGAAAAACGCTGTAGAAGAAATTCCGAAAGGAGTAGGAACTCCCGAGCTGGCTCCCGTAAGTACAGGTCTTGGAGAAGTTTATCAGTATATTCTCCACCCTAAAAAAGGAAGTGAAAAGAAATATAATGCTAAAGAACTCCGTACCATGCAGGACTGGATCGTGCGAAGACAATTAAACGGAACGCCGGGAGTTGCGGAGATCAACAGCTTTGGAGGTGAATTAAAACAATATGAAGTGGCTATTGATCCCAACCGTTTAAAAGCAATGGGAACAAGCATCACTGAAATATTTACAGCCCTTGAAAAAAACAATCAGAATACAGGAGGAGCTTATATTGATAAAAAGCCCAACGCCTATTTTATACGTGGAATTGGTTTGGTTACCTCTTTGGAAGACATCAAAAATATTGCGGTTAAAAACGAAACAGGAAGTGTTCCGATTTTTATAAAAGATGTTGCTGATGTTCGTTTAGGAAGTGCCGTTCGTTACGGAGCATTAACCTATGACGGAAAAGTAGATGCCGTAGGTGGAGTCGTGATGATGCTGAAAGGAGCAAACAGTAATGAAGTGGTAAGCAATATCAAAGCAAAAATTCCGACCATTCAGAAATCTCTTCCCGATGATGTTATCATAGAACCATTTCTGGACAGAACAGACCTTGTAGACAGAGCGATTAATACCGTACAGAAAAACCTCATCGAAGGAGCTCTGATCGTTATTTTTGTTCTTGTAATTTTCTTAGGAAACCTGAGAGCGGGACTTATCGTAGCTTCAGCCATTCCGCTTTCCTTACTTTTTGCATTGGGAATGATGAATGTTTTCGGAGTAAGTGCCAATCTGATGAGTCTTGGAGCAATAGACTTCGGGCTGATTGTAGATGGTGCCGTGATTATTGTAGAAGCTACATTGCATCATTTAGGCGTAAGAAAATCTACCCGTGCATTGACGCAGTCTGAAATGGATGAAGAAGTATTCCTTTCTGCCTCAAAGATTAGAAGCAGTGCAGCCTTCGGAGAAATTATCATTCTTATCGTATACATCCCGATTCTTACTTTGGCAGGCGTGGAAGGAAAAATGTTTACTCCAATGGCAAAAACAGTAGGATTCGCCATTCTGGGAGCATTGATTCTTTCCCTGACCTATATCCCGATGATGAGTGCTCTCTTTTTATCTAAGAAAATTTCCCACAAAGAAACCTTCTCTGATAAAATGATGAACCGCCTGCAAAAGGTATATCAGCCATTATTACAGAAAGCAATCAAAGTAAAGTATATCATTGTTTCTGCAACAGCCGTTGTTTTTCTCTTCTCCGCTTTTATTTTTAAAAATATGGGTGGTGAATTTATTCCACAGCTTCAGGAAGGAGACTTTGCATTTCACTGTATTTTACCACAAGGAAGTTCACTCAGTCAGAGTATAGAAACCTCCATGCAGGCATCCAGAATTATCAAACAGTTTGATGAAGTGAAAATGGTCGTTGGGAAAACCGGTTCCGCTGAGGTTCCTACAGATCCAATGCCACCTGAGGCAACCGATATGATCGTTGTATTGAAACCTCAGAGTGAATGGAAAACGAAGAAATCCTACAACGAACTCGCGGATGAGATCAGTGAAAAACTGGAAACCATTCCAGGAGTATTTTTTGAGAAAAACCAGCCTATTCAGATGCGTTTCAATGAGTTGATGACCGGGATCAGACAGGATGTGGCGGTAAAAATCTTTGGTGAAAATCTGGATTCTTTAGCGGTATATGCGGATAAAGTTGGAAAAATTATTCAGACCGTAGATGGGGCGACAGCACCACAGATTGAAAGAGTGAGCGGCCTTCCGCAGATTAATGTTCAGTATGACAGAACGAGAATTGCCAATTATGGATTGAATATCGAAGATGTCAACAATGCTGTAAGTACAGCCTTTGCAGGAAAAGCAGCCGGACAGGTATTTGAAAATGAAAGACGTTTTGATCTGGTAGTTCGTTTAGACAGCCTTCACAGAACGGATATTTCAGATGTGAATAACCTGATGATTACTTCTGCTACCGGAGCACAGATTCCATTGTCACAGGTGGCGAATATTAGCTATAAACTAGGGCCGGCACAGATCAGCCGTGAGCAGGGAAAACGTAGAATTGTGATTGGGTTCAATGTAAAAGATCGTGATGTGGAAAGTGTGGTGAAAGACATTCAGGCAAAACTGAATAAAGTAAAACTTCCTTCCGGCTACTATTTTACCTACGGAGGCCAGTTTGAAAACCTTCAGGAAGCAAGCAAACGTCTGATGATTGCCGTTCCGGTATCGTTACTTCTGATTTTTATGCTGTTGTATTTCACCTTCCGTTCATTCAAACAGGCTGCACTGATTTTTACAGCCATTCCTATGAGTGCGATTGGTGGTGTATTTGCCCTTTTAGTAAGAGATATGCCGTTCAGTATCAGTGCCGGGATCGGATTTATTGCCCTTTTTGGAGTAGCGGTTCTTAACGGAATTGTTTTGATCGGAACATTCAACCAGTTAGAAAAAGATGGTGAAACCGATATTCTGAAAAGAGTATTTGAAGGAACAAAAACGAGATTAAGACCTGTGTTAATGACTGCTACAGTAGCTTCATTAGGGTTTTTACCAATGGCTATTTCTACCGGAGCGGGAGCAGAAGTACAGAAACCTTTGGCGACAGTAGTAATTGGTGGGCTGATAACGGCAACATTTCTTACATTATTTGTGTTGCCAATGCTCTATATCATTTTTAACACAAAGATTTTGAAAAGAAAAAATAATAATACGGGAACAATTACGGCCGTTCTTGTTCTAGGATTGATGATGTTGGGACAGACTTTTAAAGCACAGTCAAGACCGATTTCTGTAGAACAGGCAGTAGAGCAGGCAGTGAAAAATAATTTAACATTACAGTCAAAAGACTTAAGCATAAAATCTGCCGAAGCATTAAGGGCAACCGCAAAAGAACTCCCGAAATTAAGTTTTGAAGCACAGCTTGGTCAATACAACAGTCCGAAGTTTGACCAATCGTTTGCTATCTCACAAAGTATTCCTTTTCCAACATTGTTTAAAGCAAGAAAAGAATTAATCAATGAGAATATTAAAAGCAGGCAGATTGATAAGGAAATTACAGCCAATGAACTGATAAAACAGGTTCGCACTTACTATTATCAGATTGAATATCTTCAGTATAATAAAGCGCAGCTGACCAGTCTGGATAAATATTATGAAGAGTTTATCAGAATTGCAACCGTAAGATTCAAAGCAGGGGATATCAAAAAGATTGAAATCAGTACTGCAGAAACCCAGAAAGGAGAAATTGATCTGCTGCTCAGACAAAATGAAGTCTTTTTAAATAATGCCTACAAGAATTTAAAGACCTTGATGAACACCTCAGAAGATCTTGAAGTTCCGTTTAATAAAGATTATGCTCCTTTAAAAGCAGAAAATGTACTCGACAGTGCTATAGTTGCCAACAATCCTACGGTAAAAGCTTTTTACCAGGAAATGGAGATTGCTGAAAAAAATAAGAAAGTTGAAAAATCCCTCGGACTGCCTGATTTCAGCTTAGGATATACCAATCAGTCTCTGATAGGCCTTCATACCATCAACGGACAGGAGAATTTTTATAATTCAGGAAAACGTTTTCAGTCGGCAACAGTAGGAGTATCTATTCCATTGACATTTGGTGCTACAAAAGCGAGAATTCAGGCATTGGAATATGAAAAACAGGTCGCTGAAACCAATGCCAAGATGCAGAAGAAACAACTTACTGCTCAGTTAGAAAATGCGTTCAGCCAGTATCAGCAGGATTTACAGCAGTACGATTACTATACAAGTCAGGCACTTCCTAATGCAGAGAAAATTGTAAATGCAGCTCAGCTAGGATATAAAACAGGGGAGATTTCTTATGTGGAATATCTTTTTGCCCTGCAGACTGCCACGAATATCCAGTTAAAATACCTGGAATCTATCCAGCAGGTGAACCAATCTGTAGTTACTATTAATTCAATTATAAATAAATAA	MLDKIIKFSIKNKVIIGLMTLVLIIWGTWSATRLPIDAVPDITNNQVQIITVCPTLAGQEVEQLVTFPIEQSIANVPDIQETRSISRFGLSVITVVFKENVDVYFARQLINEQLKNAVEEIPKGVGTPELAPVSTGLGEVYQYILHPKKGSEKKYNAKELRTMQDWIVRRQLNGTPGVAEINSFGGELKQYEVAIDPNRLKAMGTSITEIFTALEKNNQNTGGAYIDKKPNAYFIRGIGLVTSLEDIKNIAVKNETGSVPIFIKDVADVRLGSAVRYGALTYDGKVDAVGGVVMMLKGANSNEVVSNIKAKIPTIQKSLPDDVIIEPFLDRTDLVDRAINTVQKNLIEGALIVIFVLVIFLGNLRAGLIVASAIPLSLLFALGMMNVFGVSANLMSLGAIDFGLIVDGAVIIVEATLHHLGVRKSTRALTQSEMDEEVFLSASKIRSSAAFGEIIILIVYIPILTLAGVEGKMFTPMAKTVGFAILGALILSLTYIPMMSALFLSKKISHKETFSDKMMNRLQKVYQPLLQKAIKVKYIIVSATAVVFLFSAFIFKNMGGEFIPQLQEGDFAFHCILPQGSSLSQSIETSMQASRIIKQFDEVKMVVGKTGSAEVPTDPMPPEATDMIVVLKPQSEWKTKKSYNELADEISEKLETIPGVFFEKNQPIQMRFNELMTGIRQDVAVKIFGENLDSLAVYADKVGKIIQTVDGATAPQIERVSGLPQINVQYDRTRIANYGLNIEDVNNAVSTAFAGKAAGQVFENERRFDLVVRLDSLHRTDISDVNNLMITSATGAQIPLSQVANISYKLGPAQISREQGKRRIVIGFNVKDRDVESVVKDIQAKLNKVKLPSGYYFTYGGQFENLQEASKRLMIAVPVSLLLIFMLLYFTFRSFKQAALIFTAIPMSAIGGVFALLVRDMPFSISAGIGFIALFGVAVLNGIVLIGTFNQLEKDGETDILKRVFEGTKTRLRPVLMTATVASLGFLPMAISTGAGAEVQKPLATVVIGGLITATFLTLFVLPMLYIIFNTKILKRKNNNTGTITAVLVLGLMMLGQTFKAQSRPISVEQAVEQAVKNNLTLQSKDLSIKSAEALRATAKELPKLSFEAQLGQYNSPKFDQSFAISQSIPFPTLFKARKELINENIKSRQIDKEITANELIKQVRTYYYQIEYLQYNKAQLTSLDKYYEEFIRIATVRFKAGDIKKIEISTAETQKGEIDLLLRQNEVFLNNAYKNLKTLMNTSEDLEVPFNKDYAPLKAENVLDSAIVANNPTVKAFYQEMEIAEKNKKVEKSLGLPDFSLGYTNQSLIGLHTINGQENFYNSGKRFQSATVGVSIPLTFGATKARIQALEYEKQVAETNAKMQKKQLTAQLENAFSQYQQDLQQYDYYTSQALPNAEKIVNAAQLGYKTGEISYVEYLFALQTATNIQLKYLESIQQVNQSVVTINSIINK	PGPT0004965_149	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
BMS003_02106	1311			hypothetical protein	ATGAAACCGCTGTTCATAAAACTTTCTGCCAGACCTATGAAAACGAAGGCTCACAGCATCAGACAAAATACATTTTTACTTATGAAACTCAAATATAATATCATCCCGCTTATCCTGATTTCAATCTTACTAACAAGTTGTGGAAAAAAAGAAGCTTCGGAAGAAAAAGCTCCTGAAAAAACAGAGCAGAAAGAACAGGCTCACGAAGAAGCTCCACAAACAATAGCTTCCCTTACAGAAGAGCAGATGAAATCTGTAGGAGTGGCTTTAGGAACCGTAGAAATGAAAGAGTTGACATCCACCATAAAAGCCAACGGTTTGCTGAGCGTGCCCAACAGTAATAAAGCGACCATCACTTCCTTGTACGGAGGAATCATCAAAACCATCAATATTCAGGTAGGGAGTATCGTGAAAAAAGGGCAGGTTATTGCAACCATTGCCAACCCGGAATATATCCAGCTTCAGGAAGATTATCTGACTACCAATAGCCGAATTACCTATGCAGAACAGGAATATAGAAGACAGAGGGAGCTTTTTGATAATGATGCAGGCGCAAAGAAAAATCTTCAGAGTGCCGATGCAGAGCTGAAAACCTTAAGAACAAAGAGAGCATCCCTTTTAAAACAGCTTCAGATGATGGGAATAAGCCCTGGAAAAGTCAGCAATGGAAATATGAAATCCGGTTTGGTAATCACAGCGCCCATCAGCGGAACAATCAGCAGTATTACCGCACAGATCGGAAGTTATGTAGATATTTCCTCTCCCGTTGCTACAGTGATTGATAACGGTTCTATTCATCTCGATCTTCAGGTATTTGAAAAAGATCTTCCTAAAATGAAAGTAGGGCAGATTGTTCATTTTAAACTGACGAACAATCCGGAAACCGAATATGATGCAAGAATTTACAGCATAGGCTCATCTTTTGAAAACGAAAGCAAAACCATCTCTATGCACTGCGAGGTGATTGGAAATAAATCCGGACTGATTGACGGAATGAATATCACCGGAATTGTAAGCCTTGATAAAAGTACAACCCCTGCAGTTCCTACAGAAGCGATTGTAGAAGCAGATGGAAAATATTTTGTATTTGTTCAGACCGATAAAAAAGCGGAAGAAGAACATGAAGAAAAAGGAAAACCACATCCGAAAACCTTAAACTTTGAAAAAATAGAAGTCGTAAAAGGAACATCAGATATGGGATATACTGCGATAACTCCGGTAGGAAATATTCCCGACAATGCAAAAATAGTCGTGAAAGGAGCGTTTTTCGTGAATGCAAAACTGGTAAATTCCGGAGAACATGAACATTAA	MKPLFIKLSARPMKTKAHSIRQNTFLLMKLKYNIIPLILISILLTSCGKKEASEEKAPEKTEQKEQAHEEAPQTIASLTEEQMKSVGVALGTVEMKELTSTIKANGLLSVPNSNKATITSLYGGIIKTINIQVGSIVKKGQVIATIANPEYIQLQEDYLTTNSRITYAEQEYRRQRELFDNDAGAKKNLQSADAELKTLRTKRASLLKQLQMMGISPGKVSNGNMKSGLVITAPISGTISSITAQIGSYVDISSPVATVIDNGSIHLDLQVFEKDLPKMKVGQIVHFKLTNNPETEYDARIYSIGSSFENESKTISMHCEVIGNKSGLIDGMNITGIVSLDKSTTPAVPTEAIVEADGKYFVFVQTDKKAEEEHEEKGKPHPKTLNFEKIEVVKGTSDMGYTAITPVGNIPDNAKIVVKGAFFVNAKLVNSGEHEH	PGPT0004970_1037	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
BMS003_02107	882			hypothetical protein	ATGTTATTAAACAAAAAAATATCAGTCTGGTATTTCATCCGTGAAATAAAAAACCAAATTCTGTTGATTGGAATTTTTGCCATCACTATTGGTCTTTTAGACGAATTACCATGGTTTCAAAAGATCTCTCTGCCTTTGAATATTCCTGCATTATTGGGAACAGCGGTATCATTGCTGCTGGCATTCCGTACTTCCCAGTCCTACGAAAGATGGTGGGAAGCCAGAACAGTTTGGGGCGCTATTGTAAATGATTCCAGAACTTTTGTGAGGCTGATTATCCAGTTTATGCCGTCAGGAGATGATAAAATAATAAAAGATTTTGCAGAAAGACAGATCGTCTGGACCTATGCGCTTGGAGAATCTTTAAGAAAGTTACCGTTTTCTGAAAAAGTGAAGCCGTATTTGGATCAGCATAAGATCAAAGCAGTCAATATTCCCAACGCAATTCTGGACGAGCATTCCAGACAGCTCAAAGAAATTGCAGCTTCCAAAGGACTGACTGATTTTCAGCAGATGCAGCTGAATGATATCATCACAAGACTATGTGACAGTATGGGAAAATGTGAAAGACTGAAGAATACGGTTTTTCCACGTTCTTACAGTGTTTTGGTTCATATTCTGATCTATGTTTTTGCGGCTATTCTTCCGTTTGGACTTGATGACTCTCAGTTGTTGGTAGAAATTGCAATCACTTTCCTGGTTCCGGTTACATTCATTGCCATTGAAAAAACATCCATCATTATGCAGGATCCTTTTGAGAATGGCCCTGTAGATACCCCAATGACTTCTCTGGCGCAGACCATAGAGATCAATATCAGGCAGATGATCGGAGAACAGCATGTTCCTCCCAAGAAAGAAAATACATCTTATTATGAAATGTAA	MLLNKKISVWYFIREIKNQILLIGIFAITIGLLDELPWFQKISLPLNIPALLGTAVSLLLAFRTSQSYERWWEARTVWGAIVNDSRTFVRLIIQFMPSGDDKIIKDFAERQIVWTYALGESLRKLPFSEKVKPYLDQHKIKAVNIPNAILDEHSRQLKEIAASKGLTDFQQMQLNDIITRLCDSMGKCERLKNTVFPRSYSVLVHILIYVFAAILPFGLDDSQLLVEIAITFLVPVTFIAIEKTSIIMQDPFENGPVDTPMTSLAQTIEINIRQMIGEQHVPPKKENTSYYEM				NA	NA	NA	NA	NA
BMS003_02108	420			hypothetical protein	ATGAAAAAAGATATAGAACACAAACTCATTGATAAAAATACCAAACCTACCAGTATGAGGATTTTGGTATATGATTTCCTAAGCTCTCAGGAAGCGGCTTTATCCCTTTCTGAAATAGAAAATCATTTTGAAAATGCTGACAGAATTACCATCTACAGAACATTGAAAACCTTTGAAGAAAAAGGAATTGTTCACAGCATTCAGGAAAATACAACCACAAAATACAAACTGTGCGAAGACGATTGTGATGAAAAAACACACAAAGACTGGCATCTGCATTTCTACTGTAAAATATGCAAGCAGACTACCTGCAAAGAAGATATTTCCTTCCCGGAAAACATCCAGACCAATTTCAGGATTGATGAAATAAGATTGTTCGCCAAAGGAATCTGCGAAAACTGTCTTGAAAGTTTGCAATAG	MKKDIEHKLIDKNTKPTSMRILVYDFLSSQEAALSLSEIENHFENADRITIYRTLKTFEEKGIVHSIQENTTTKYKLCEDDCDEKTHKDWHLHFYCKICKQTTCKEDISFPENIQTNFRIDEIRLFAKGICENCLESLQ	PGPT0003880_4138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS003_02109	1983	ziaA		Zinc-transporting ATPase	ATGGAAAAATGCTGTAGTACAATCCCCGAAAAACCTGATACAAAAGGACACAAATATAATCACTCAGAAGGAGACGGACATGACCATGACGGGCATGATCATTCTCACGACTCAGGAGATCAGACAGTCTTTCAGATGTTTCTTCCGGCCATTATATCCTTTGTGATCTTATTAATAGGGATTACTTTTGATAACTATATAAAACCCGCTTGGTTTACAGGCTGGCTACGTTTAATATGGTTCCTGGCAGCTTATATTCCTGTAGGATTTCCAGTATTAAAGGATGCCTATAAAAGCATCATCAAAGGAGATGTGTTTTCAGAATTCTTTCTGATGAGTATCGCAACCATTGGGGCTTTTGCTATCGGAGAATATCCTGAAGGAGTAGCAGTAATGCTGTTTTACGCAGTAGGAGAGGTATTTCAATCTATGGCGGTGACCAGAGCCAAAGGAAATATAAAAGCGCTTTTGGATCAGCGTCCTGATGAGGTAACGGTTATGGAAAATAACCAGCCAAAGACAATGAAGGCGAAAGAAGCTAAAATTGGAGACATCATTCAGTTGAAACCCGGTGAAAAGCTGGCGCTGGATGGGGAACTACTTTCAGAATCAGCTTCATTTAACACGGCAGCTTTAACGGGAGAAAGTAAACCCGATACCAAAAATAAGGGCGAGGTTGTTCTTGCCGGGATGATCAATATGAACAGTATTGCTCTGGTAAAAGTTAATACGGCCTATGAAGACAGTAAACTGAGCAAAATTCTGGAACTGGTTCAGAATGCCACAGCTCAGAAAGCACCTACAGAACTATTCATCAGGAAATTTGCTAAAGTATATACCCCCATCGTTGTATTTCTTGCTATAGGAATCTGTTTACTGCCCTATTTCTTCATGAGCGATTATCAGTTCAGAGACTGGCTGTACAGAGCATTGATCTTCCTTGTAATATCCTGTCCTTGTGCCCTTGTGATCTCAATTCCGTTAGGATATTTCGGCGGAATAGGAGCAGCAAGCCGAAACGGAATTTTATTCAAAGGAAGCAATTTCCTGGATAGCATTGCAGAGATTCAGAATGTAGTGATGGACAAAACAGGAACTATGACGGAAGGTGTATTCAAAGTTCAGGAAGTAAGCATGAGCTCTGAATTTAACAGAGAAGAAATCCTTCATATGGTTAATGTTCTTGAAAGTAAAAGTACTCATCCTGTTGCAACGGCAATCCATAATTATGTAGGAAAAATCAATCACAATATTCCTTTAGAAAATGTTGAAGAAATTGCAGGTCACGGACTGAAAGCAAGGGTTAACGGAAAAGAGCTTCTGGTAGGGAACTTTAAGCTGATGGATAAATTCGGTATCAGTTATGATCTTAACCATGCCAATATTGTTTACACAGTGATTGCAGTGTCTTATAACAATAAATTTGCAGGATATATAACGATTGCAGACAGTATAAAAGCAGATGCCAAAGAAACCGTAGACAATCTCCATAAAATGAATGTAAAAGCTACAATGCTGAGTGGCGATAAAAGTACCGTTGTGAGGTATGTCGCAGATCAGCTGGGTATTGACAGTGCATTCGGAGATTTGTTACCTGAAGATAAAGTAAATAAGGTGAAAGAGATCAAAGGTAGAAACCAAACCGTAGCTTTCGTAGGAGATGGAGTAAACGATGCCCCTGTAGTGGCTTTAAGTGATGTGGGAATTGCCATGGGAGGTTTGGGAAGTGACGTCACCATTGAAACCGCCGATGTTGTCATTCAGGATGATAAACCAGGTAAGATCCCAATGGCCATCAATATAGGAAAACAAACGAAAAAGATAGTTTGGCAGAATATCATCCTTGCCTTTGCGGTAAAAGCCGTTGTTCTCGTTTTGGGAGCGGGAGGGCTGGCAACGATGTGGGAAGCTGTTTTTGCTGATGTAGGAGTCGCATTGCTGGCTATTTTGAATGCCGTGAGAATCCAAAGAATGAAATTTTAA	MEKCCSTIPEKPDTKGHKYNHSEGDGHDHDGHDHSHDSGDQTVFQMFLPAIISFVILLIGITFDNYIKPAWFTGWLRLIWFLAAYIPVGFPVLKDAYKSIIKGDVFSEFFLMSIATIGAFAIGEYPEGVAVMLFYAVGEVFQSMAVTRAKGNIKALLDQRPDEVTVMENNQPKTMKAKEAKIGDIIQLKPGEKLALDGELLSESASFNTAALTGESKPDTKNKGEVVLAGMINMNSIALVKVNTAYEDSKLSKILELVQNATAQKAPTELFIRKFAKVYTPIVVFLAIGICLLPYFFMSDYQFRDWLYRALIFLVISCPCALVISIPLGYFGGIGAASRNGILFKGSNFLDSIAEIQNVVMDKTGTMTEGVFKVQEVSMSSEFNREEILHMVNVLESKSTHPVATAIHNYVGKINHNIPLENVEEIAGHGLKARVNGKELLVGNFKLMDKFGISYDLNHANIVYTVIAVSYNNKFAGYITIADSIKADAKETVDNLHKMNVKATMLSGDKSTVVRYVADQLGIDSAFGDLLPEDKVNKVKEIKGRNQTVAFVGDGVNDAPVVALSDVGIAMGGLGSDVTIETADVVIQDDKPGKIPMAINIGKQTKKIVWQNIILAFAVKAVVLVLGAGGLATMWEAVFADVGVALLAILNAVRIQRMKF	PGPT0004200_3170	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
BMS003_02110	864	rhaS_6		HTH-type transcriptional activator RhaS	ATGACCAATAAAATATTTAATATAAAAGAATTTGCATCCTATCTGAACGTTACCCAACCTAAGAATGATGATCTGCTTATTGTAAATTTTGAAAATGAACACAATATAAGGCTGAAATCAGACTCTGTGACCATAGATTTCTATCTGCTGGCAATAAAACCCCCTTTGGAAAAGAACTTTAAGACCATAGATTTTCTGGAAGATCAGGCAAAATCCTTTATGTATGTTGACTGTCCGCAGAATAATCTGGATTGGGATATTAATGTTCCTAAAGCAGGATATAATATTTTGGTAAGTGCCAAATATATCAACAAGCTTGCAAAAGAATATAATTTTCCTCATTATAACAATCATGAAGCTTTGTTCCTTACGAAAGAGGAGGAAGAAATTCTTTGGGATCTTTACAAAAAAGCATATAATGAATTCCAAAAGGAAAACTATTCCAGAGATATTATCCTGTCTTATATTACGTTGATACTGTCTTATACACAGGTGTTTTATGACAGACAATTTGATTCAAGAAGCAGTATCTACGATTCGGTGATTGATAATTTTTATGAAAACCTGAAACAGTACTTTAATAAAAAAGAAGAGGTTTCCGGTCTTCCGTCTGTTGCTTTTTTTGCACAGAAAGCCAATCTGTCGCCTAATTATTTTGGAGACCTGATCAAGCATTTTACTGGAGAATCGCCCATTGAACATATTCATAACTTTGTACTAAAACAGGCAAAAGACAAGCTCAAAAACAGTTCACTTTCCATTAGTGAAATCTCCTATAGCCTGGGGTTTGATTATCCCAATTACTTTGCAAGGTTTTTCCGTAAGAAAACAGGAGTATCTCCGAAAGTATTCCGGGGAATGTAA	MTNKIFNIKEFASYLNVTQPKNDDLLIVNFENEHNIRLKSDSVTIDFYLLAIKPPLEKNFKTIDFLEDQAKSFMYVDCPQNNLDWDINVPKAGYNILVSAKYINKLAKEYNFPHYNNHEALFLTKEEEEILWDLYKKAYNEFQKENYSRDIILSYITLILSYTQVFYDRQFDSRSSIYDSVIDNFYENLKQYFNKKEEVSGLPSVAFFAQKANLSPNYFGDLIKHFTGESPIEHIHNFVLKQAKDKLKNSSLSISEISYSLGFDYPNYFARFFRKKTGVSPKVFRGM				NA	NA	NA	NA	NA
BMS003_02111	918	ycjY_2	COG1073	putative protein YcjY	ATGTTACAAAAGAAAATCAGTATTAAAAACGGGAACGGACAAGGGATAACTTTATCAGCAATTGTTAGTTTCCCGGAAGGATTTGATGAAAATAAAAAATACCCGGCAATCGTAGTTTCTCATCCCGGTGGTGGTGTAAAAGAACAGGCTGCAGGACTATATGCAAAGAAACTGGCAGAAAACGGATGGCTTACCATTGCTTATGATGCTTCCTATCAGGGTGAAAGTACAGGTGAACCCCGTCAGCTGGAAAATCCTTATATCAGAACTGAGGATATAAGTGCAGTAATAGATTATCTGACTACGCTTCCTTATATCAATACAGAAAAGATAGGCGCAATGGGAATTTGTGCAGGAGCCGGATATACTGCGAATGCAGCTATTAATGACCACAGAATTAAAGCTGTAGGAATGGTAAGTGCTGTAAATATTGGTTCCATGTTCCGTAATGGATGGGAAAATAATGTAAAAGATGCAGATGCAATGCCTTATTTAATGGCTGGTGCCGGCGCAAGAACCAATGATGCAAAAGAAGGACTGCAGACAATGCCTTTGGCACCCATGAAAGAAGAAGATGCTCCCAATGAGGAATTGAGAGAAGCATGGGAATATTACCACACAGATCGTTGCCAATATCCTACAGCCCCGGGATGGGCGACCTTAAGAAGTCTGACTCAGATTATTACTTATGATGCTTACAACAAAGCAGACGCATTCTTCACACAACCTTTGCTTGCAATTGTAGGAAGTGTGGCAGGAAGCGCTTGGATGAGTGATGATCTTCTCAAGATTGCAGCCACTGCCGATAAGAAAAAATATATCATAGAAGGGGCAAACCACATGTCTCTGTACGACAGAGAAAATTATGTAAATGAAGCTGTTTCTCAGCTGACAGCTTTCTTTTCTGAAAAATTATAA	MLQKKISIKNGNGQGITLSAIVSFPEGFDENKKYPAIVVSHPGGGVKEQAAGLYAKKLAENGWLTIAYDASYQGESTGEPRQLENPYIRTEDISAVIDYLTTLPYINTEKIGAMGICAGAGYTANAAINDHRIKAVGMVSAVNIGSMFRNGWENNVKDADAMPYLMAGAGARTNDAKEGLQTMPLAPMKEEDAPNEELREAWEYYHTDRCQYPTAPGWATLRSLTQIITYDAYNKADAFFTQPLLAIVGSVAGSAWMSDDLLKIAATADKKKYIIEGANHMSLYDRENYVNEAVSQLTAFFSEKL				NA	NA	NA	NA	NA
BMS003_02112	927	ycjY_3	COG1073	putative protein YcjY	ATGAATACACAAAAAATAACATTTAAAAATATAGCTTGGGATAATGCGGGAATTTTGCATTTTCCAGCCGATTTTGATCAGAATAAAAAATATCCAGCCATTATCTCCATGCACCCGATCGGGAGCTGCAAAGAGCAGACTGCAGGAAATGTTTATGGTAAAGCCTTGGCAGAAGCAGGTTTTGTAGTTCTGGTATTTGATGCTTCTTTTCAGGGAGAAAGTGGAGGAGCGCCAAGATATATAGAAAACCCATATCAGCGTACAGATGACGTTCGTTATGCAATTGATTATCTGGAAACCCTGCAGTATGTGGATGCTGAAAGAATCGGAATATTAGGTGTTTGTGGTGGGGGAGCCTATTCTTTGAATATTGCTATGACTGAACGCCGTATTAAAGCGGTTGTCTCTATCACGGGAGTAAACTTTGGACGTTTGTTAAGGGATGGTTTTGCAGGTGGAAGTCCGATGGAAGTTTTGAACCAGATTGCTGCCCAAAGAATTTCGGAAACGAAAGGTGGAGATTTGTTGACTATCAATATGCTGCCTGAAAGTGTGGAAGCAGGTAAAGCTGCCGGTATTGAAGATATAGATGTACTGGAAGCTACGGATTATTATAAAACCTCAAGAGGGCAGACTAGCGGAGGAGCCACAAGTGCTGTTTATTCACGTTTAGGAATAGGAATGGGCTGGGATGCATTCTATCTTGCTGAAACCCTTTTGACACAGCCGATTCTGGTAGTAATAGGTGATAAACCGGGAGGTTTTGGAGCATACAGGGACGGATACGAAATTATTCGCCGTGCAGCATCAGAGAAAAAGGAATTATTGGTTGTAAAAGGTTTCTCACACTATGATCTTTATGATCAGCCGGAGCCAGTAAGGCAAGTATTAGAAAAGGTTATTCCTTTCTTCAAAGAGAATTTATAA	MNTQKITFKNIAWDNAGILHFPADFDQNKKYPAIISMHPIGSCKEQTAGNVYGKALAEAGFVVLVFDASFQGESGGAPRYIENPYQRTDDVRYAIDYLETLQYVDAERIGILGVCGGGAYSLNIAMTERRIKAVVSITGVNFGRLLRDGFAGGSPMEVLNQIAAQRISETKGGDLLTINMLPESVEAGKAAGIEDIDVLEATDYYKTSRGQTSGGATSAVYSRLGIGMGWDAFYLAETLLTQPILVVIGDKPGGFGAYRDGYEIIRRAASEKKELLVVKGFSHYDLYDQPEPVRQVLEKVIPFFKENL				NA	NA	NA	NA	NA
BMS003_02114	162			hypothetical protein	ATGAAAAAAAATGAACGTCAGGACAATATAACACATGCTGGCAAAATTAGCGAACGAGTAAAAGCATTGGAAGTCCTTGAAAAAGCAAAAAAAGTGCAGGGAAAAATTACATTTCTCCGTCAGGGAGTTGGGAGAAACTTTAAACCGAAAAATGAAGAGTAA	MKKNERQDNITHAGKISERVKALEVLEKAKKVQGKITFLRQGVGRNFKPKNEE				NA	NA	NA	NA	NA
BMS003_02116	486			hypothetical protein	ATGAATATAAATTACAGAAAACTTTTTCCTGAAGAAAGTAAAATATATAGAACGATCCGGCTGGAAAGTCTGGAAGAATTCCCAGAATCGTTTTGTGCTAACTATCAGGAAACTCTGAAAATTGAAAAATTCCGGATGGAAAATGACATTGAGCAGCAAACAGCTGAAAGATTTGTATTGGGAGCCTTTGCAGAGAAAAAGCTTATTGGGATTTGTGCTTTTGTGAAAGAAGAAAATAATGTGGGAACTCTTTATCAGATGTATGTAAAAAAAGAATATCAGGGAAAAAGTATCGGCTTGGGATTAATTGAAGCCATTATTGATGAAGCCCGTCAACAGTTTGGTAATATTGAAATACATCTGGAAGTCACCCCTGGAAATGAAAATGCCTATAAACTCTACAAAAAAGCTGGATTTGAGGAAGTAAAGAACACTTTTAATGAAAAATTCAGTTCCGCCATCACCATGAAATACATGTACAAATAA	MNINYRKLFPEESKIYRTIRLESLEEFPESFCANYQETLKIEKFRMENDIEQQTAERFVLGAFAEKKLIGICAFVKEENNVGTLYQMYVKKEYQGKSIGLGLIEAIIDEARQQFGNIEIHLEVTPGNENAYKLYKKAGFEEVKNTFNEKFSSAITMKYMYK	PGPT0007785_1567	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
BMS003_02117	1485			hypothetical protein	ATGGGAAAAATAAATTGGACCGATTTTAAACGTAAAAAGGAAAGCATCAGAAAAATAATAGTCTCTACAGTCTGTATGGGATTATATTTCAGTATACTTTCCTGCAGCCATGATTCTCATGATAAAGAAAAAGAAAATTTCGATATTTCTTTGTTGACTCAAAGTTCTAATCTTCAGCTATCCGGTGAATATGAAGCTTTCGTAAGGCTCAATATTGCATTTATGAAAAAGGCTGCTAAAATGAAGTATAAGGAGGGAAAAGGTCTCTGTTATCTGAATATGGCAGGTGTGAATGTTTCGGCAGGAAACTATGAAAAAGCCCGTTATTTTTTCAATAAAGCAGAGAAAGATCTGCAAAATTCAGGAAATGCCTATCATAAGGCAGCTTTCTATAATGACTATGGTTTTTATTATTCGCATCTTAGACTCAATAATAAAGCTATTGAATGTAATAGTAAAGCATTTCATTATTTAAAACAGGCAAAAAAAACAAAGCTTGTCCAGAAACTTCTGCCAAGACTTTATGTAAACAAAGGAATTTATTACGCATGGAAAGGGTGGATGGGAACCTCTTTAAAATGCTTTACCAAAGCCAACACACTTGAAAATTCTGCCTATACGAACTGTATGGTAGCCCAATACTATTTATTTATTCACAAACCGGATTCTGCAGGAATATATATTGCGAAAGCAGATGAAAAAATGGTAAGCCAGAAAACTACAGATGTAGAATCTCTCTGGGTATATTATACGATGGGATATTATTATAATGAAGTTGATGACAGCGAACAGGCTGAAAAAGCACTTAAAAAGGCATTTGAAATTAATATTAAAACCAGGCACACCTATTCTTCACATATAAAAGAAGTGTATAAGGCTTTAGCAGAGCTGTATAAGAAAAAGAACGACGGAGGAAAGGCTTATTTTTATCTGAAGAAATACATGGAGGAAGAGGGAAAGTATGATGCAGCACGTTTTGCTACGATGAATAAGGCTACCGAAGACTTTATGTCAGAAGCTAAGCAGGAGTCTGACTGGCATAAGAATGATCTGCCGCTATTTATTGCTTTGTCTATCACTGTTCTTACCGTATCAGGAGTATACGTCCGAAAGATGATCAATGGACTGAAACAGAAGAAAAATACATTGAAAGAGCAGACAGATGCATTGAAAAATAGTGTCCAGACCAAACAGTTGAAAGAAATTACTGAACTTGCCAGACGGAATGATTCTACCTTTCTGCTGAAGTTTAAAGAACTGTATCCTGAGTTTATAAAAGCGCTGCTGGAGATCAATCCTGACCTTGAAAATTCTGAACTTACATTCTGTGCTATGCTGAAACTGCGTTTTTCATCCAAAGAAATTGCAGACTATACCTTTGTACAACACAGATCTGTTCAGCAGAAAAAATACAGGATCAGAAAAAGATTGAATATCCCTGGAGAAACAGATATTTATGACTTTTTTGAAAACTTAACCGAATAA	MGKINWTDFKRKKESIRKIIVSTVCMGLYFSILSCSHDSHDKEKENFDISLLTQSSNLQLSGEYEAFVRLNIAFMKKAAKMKYKEGKGLCYLNMAGVNVSAGNYEKARYFFNKAEKDLQNSGNAYHKAAFYNDYGFYYSHLRLNNKAIECNSKAFHYLKQAKKTKLVQKLLPRLYVNKGIYYAWKGWMGTSLKCFTKANTLENSAYTNCMVAQYYLFIHKPDSAGIYIAKADEKMVSQKTTDVESLWVYYTMGYYYNEVDDSEQAEKALKKAFEINIKTRHTYSSHIKEVYKALAELYKKKNDGGKAYFYLKKYMEEEGKYDAARFATMNKATEDFMSEAKQESDWHKNDLPLFIALSITVLTVSGVYVRKMINGLKQKKNTLKEQTDALKNSVQTKQLKEITELARRNDSTFLLKFKELYPEFIKALLEINPDLENSELTFCAMLKLRFSSKEIADYTFVQHRSVQQKKYRIRKRLNIPGETDIYDFFENLTE				NA	NA	NA	NA	NA
BMS003_02118	1425			hypothetical protein	ATGACACGTATTTTTCTTGCTGTTTTACTTATTCTTTTGTTTTCCTGCCATTCTCATTCAAAAAAAGAGGCTGAACAGAAATTTGATGTTTCTTTATTGAGACAGAATGAAAAATTCAGGATTGCCGGAGAATACGATTCTTTGATTAACCTCAATAAAAGTTATTATAAGAAGGCTGATAAAATGAATTATGCTGATGGAAAAGCTCTATGTTATATCAACTTGGCCGAACTAAATATTTCACTTGAAAATTTTCAGAAGTCCCAGATCCTTTTTGACAATGCAAAAGAAATTCTGGATCATTCGGAAGATAATATACACAAAGCCAGGTTTTATAATGTTTACGGACGTTTTAATGTAGAACTCAGAAGACTAAACAAAGCTTTTCAGTATAACAATGAAGCCATGAGTTTTATCCAGAAGAGTGGTACATCAGAACTCAGAAATGATCTTCTTTTCAGCATTTATTTCAGACAGGCCGTTTATTTTACCCAAAAAAAGGACTACGAAAAGGCGCTTGAATATTTCCATAAAGCAAAAAAACTGGATGATACCAGTTTAACGGATTGTGCTATAAGTGATTATGTTTATATGCATAGAAATAAAGATTCAGCTTATAAATATGTAACAGTTGCTTATAATAAAGCAAATGAAAGAAGAAAAGAAGATGGTATCGCTTTGTACGCCAACACGATTATGGGAGAATATTATATTACCTATAAAGAATATGGCAAAGCAGAGGAAGCTCTTAAAAAAGCCCTGAAAATCAATGAGAAAACAAAACACATCTATGCCTATTATGGAAAGTATATCTATAATGATCTCAGGGTATTATATGAACGTACGGGAGATAAAGAAAAAGCATACTTTTATCTGAAAGCATATACTGATGCATACTCTAAAACCAATACTTCTTTATTGGCGACTATTAATCAGGATATGAAAGCTTTTATTACAGGAGCTCAAAAAGATGAAGATCAGCATTGGAGTAAAATATATTGGATTATCCTTTTATCATTGATAGGGCTTTCTTTATTAGGACTCTATGCATGGAGGATTATTCGTGCCTTGGGTAAAAGAAAAGAAGTGCTTACAAAAGAAGCTGAAAATCTGAAATTAAGGATGAATGACAACAAGCAGGAAGAGATCATAGAACTTGGTAAAAAGAATGATCCCGAATTTCTGGATCGTTTCAGAGAAGTTTATCCTGAATTCATAGAGCAGCTATTAACAATTAATCCCGGTCTTGAAAGCTCCGAACTGGTTTTTTGTGCTATGCTGAAACTACATTTTACTTCCAAAGAAATTGCAAGCTATACTTTGGTTCAGCACAGAAGTGTTCAGCAGAAAAAATACAGAATGAGAAAAAAACTGAATATTCCCAGCGAAACAGACATCTATCTCTTTTTCGATACTCTGAAATAA	MTRIFLAVLLILLFSCHSHSKKEAEQKFDVSLLRQNEKFRIAGEYDSLINLNKSYYKKADKMNYADGKALCYINLAELNISLENFQKSQILFDNAKEILDHSEDNIHKARFYNVYGRFNVELRRLNKAFQYNNEAMSFIQKSGTSELRNDLLFSIYFRQAVYFTQKKDYEKALEYFHKAKKLDDTSLTDCAISDYVYMHRNKDSAYKYVTVAYNKANERRKEDGIALYANTIMGEYYITYKEYGKAEEALKKALKINEKTKHIYAYYGKYIYNDLRVLYERTGDKEKAYFYLKAYTDAYSKTNTSLLATINQDMKAFITGAQKDEDQHWSKIYWIILLSLIGLSLLGLYAWRIIRALGKRKEVLTKEAENLKLRMNDNKQEEIIELGKKNDPEFLDRFREVYPEFIEQLLTINPGLESSELVFCAMLKLHFTSKEIASYTLVQHRSVQQKKYRMRKKLNIPSETDIYLFFDTLK				NA	NA	NA	NA	NA
BMS003_02119	3036			hypothetical protein	ATGAAAAAAAGAATTTTATTAGTTTGCGCATTAGCCTCTTGTTTTACTGCTTTCAATGCTCAGAGATGGGAATCTGCTTCCCAAAAATCTTCACAGATAAGAAAAGGTGTAGAAGTACAGTATTCTTACAGAGTAGACCTGAAGTCTCTGAGAGAAATGCTTAAAAATGCTGAAGAAACAGGTAAAAGCGTCAGGCCCGTTATTATTTCATTGCCAACAGCAGAAGGAAAGATTGAGAAATTTTCCGTTTACAGTAATCCTGTAATGGATAAGTCGCTGGCAGAAAGATATCAGTTAGGATCATATGTGGGAGTAGGTGTAGACGATCCGTCTAAGTATTTAAGATTCAGTACATCTCCGGACGAGATGCAGTCTATGATCATCAAAGATGGCATATTCCAGTTTATTGAGCCAATAAGTACTGATAAACAAACATATGGAGTTTTTTATAAAACCAGGGAAAAAGGAGATATCCATGGGTTTGGATGTGATACAGACGATAACCTTAAAGATATTGGTAAGCTGGTGGAAAACGGGAAGAAAATGCTTTCCAATGTAGGAATTACCAACAGACCTACAAATACCAAATATAGAACATTCAGAATGGCTATGGCAGCTACGGGTGAATATACTCAATTTCATGGAGGGACAGTTGCCGGAGCCGTAGCTGCTATTAATAATACAATGACAAGGATCAATGGTATTTTTGAGAGAGACTTCGGAGCCCATTTTAATGTTCTGGATCTTCCGGGAATCATTTATACTGATCCTGCTACCGATTTTTATACCCCTCCGGCTGCAGCAGCTGATCCATCCCTAAACTTACAGTTGCAGCAAAAACTTACAGCAGATGTAGGAAATGCAAACTATGATATCGGACACGTATTTCACTGTAATGCAGGACAAAGCAGAAATGGAAATGCAGGAGGAATAGGAATTGTGTGTACCAATCCTGCCACTGGTACTTCTTTAGCAAAAGGATCTGCTTTTTCAATGAGCCCTGATCCCGTAGGAGAAGTATTCGATTTAATGGCAGCTCACGAAATGGGTCACCAGTTGGGGGCTAACCATACTTTCTCTATGAGAACCGAAGCTTCAGGAGCCAATGTAGAGCCCTGGGGAGGAACAACAATCATGGGATATCCTGGAATTACACAGGATAACATCCAGGCAAATATGGATGGCTACTTTCATTATAAATCTATTTCTCAGGTATTAAATAATTTGGAATCCAAAGTAGGATGCGGCGTTGCTGTTGATATTGTAAACAATACTGCTCCGGTAATTACACCTCTGGTTAATTATGCCATACCTAAAGGAACAGCTTATTATCTGGATGCTGTAGCAGCAGATGCGGAAGGTGACCTCTTTAATTATACCTGGGAGCAATATAACAGTGTAGGAGACAGAAACTCCATTTCAGGAGATAGTGGATGGGGATACAATGCAGAAGGAGCTATCGCAAGATCATTACCGGGAACAGCTAGCGGAAGAAGATATTTCCCTAAGCTGGAAACAGTAATAAACGGTGTGTTGACAGACAAACAGGTCTGGGAAACCGTTTCCTATATCCCAAGAACATTGAATTATGCAGTGACTGTAAGAGATCAGAATGCCGTAAGACCAATGACCTCCACTGCGGAAACGGTGATAACAGTAGGTGCTGACGGGCCTTTCAAATTTAAAGGCCTTACAGTTGCATCAGTTTTATACAATGATGCATCCAATACCATCACATGGGATGTTGCAAATACCAATAATGCACCTTATAATGTAGCTGCTGTAAAAATAGATTATACAACCGACAACGGGACTACCTGGACAGATCTGATAGCTGCTACACCCAATACAGGAAGCTATGCCGTACAAATGCCGGCTAATGTAAGCGGTACTGTTAAATTAAGAATATCTGCAATAGGTAATATTTTCTATGCTGTATCTCCTGCCATAACAGTAGGAACAGCTCCTACTTCTGCCACAGCTGCTCCAACAGGAGTTTCTGTGATAGATACAGAAGTTTTTAAAACAACTGCCAGAGTATCATGGAACAACGTGTCAGGAGCTACTTATTCTGTCAAATATAGAAAAACAGGAGCTGCAAGCTGGTCGAATACAACAAGTACCACCAATTCTGTCTTGCTGTCGAATCTTGAAGATGAAACCAATTATGAAGTGCAGGTGGCAGCAGTTGTGAATAGTGTTCCGGGGGCATTCTCAACTGGTTATACCTTTAAAACAAAAGGATTGAGAACAGGTACGGATTATTGTTTAATGACCACAGGAGGAAACGGTGGAAGTTTTAATAGCGGTCTTATAAGACTTACATTATCTAATCTTGCTTATGTATTTACAGGGCTGGATGTTTATAAAACATATCTTGATTTTAGCGAAGATGCAACCAAAGTTGTAAACTTAACAAAAGGAACACAATATACTGCAAACTTTAGAAACCTTGCAGGAGGAAACTATAATGACTGGCTTGAAATATGGATAGATTACAACAGGAACGGAGTATTCGAAAGCTCTGAAAAAGTAGCAACTAACGGAGCACTTCCTGCCTATGTTGCCGCAGCACAGGCTTATCTTCGTGATGGAAATGTAACATTTACAGTCCCAGATACCGCTTATTCCGGAGATAAACTATTGAGAATGAGAGTAGCTAGTACTTTCTTTAATGCAGCCAGCGGACCTTGTGGAAGCCCTACCGTACCTGTAAATGGTGGTGGAATTGTTTCTGTAGGATCTTTCAGGGATTTCTCTGTAAAAATTTCGGAAAATGCTAACCTTGCTGTAAGAGAAGCCGCAGATACAAAATCATCAGAAATATCTATTTACCCTAATCCCGCAGATACATTTGTAGAAGTAAAAAATCTAAAAGGCAAAGCAGATTACAAAATATACAGTGCAGATGGAAGACTTGTTCAGGAAGGTGAAATTGATGGGAAAATCAATGTTGCTTCTCTGGTAAAAGGAATGTATGTGATTACGATAAAAGATGATAAAAATACTTACAACACCAAATTAATCAAAAAATAA	MKKRILLVCALASCFTAFNAQRWESASQKSSQIRKGVEVQYSYRVDLKSLREMLKNAEETGKSVRPVIISLPTAEGKIEKFSVYSNPVMDKSLAERYQLGSYVGVGVDDPSKYLRFSTSPDEMQSMIIKDGIFQFIEPISTDKQTYGVFYKTREKGDIHGFGCDTDDNLKDIGKLVENGKKMLSNVGITNRPTNTKYRTFRMAMAATGEYTQFHGGTVAGAVAAINNTMTRINGIFERDFGAHFNVLDLPGIIYTDPATDFYTPPAAAADPSLNLQLQQKLTADVGNANYDIGHVFHCNAGQSRNGNAGGIGIVCTNPATGTSLAKGSAFSMSPDPVGEVFDLMAAHEMGHQLGANHTFSMRTEASGANVEPWGGTTIMGYPGITQDNIQANMDGYFHYKSISQVLNNLESKVGCGVAVDIVNNTAPVITPLVNYAIPKGTAYYLDAVAADAEGDLFNYTWEQYNSVGDRNSISGDSGWGYNAEGAIARSLPGTASGRRYFPKLETVINGVLTDKQVWETVSYIPRTLNYAVTVRDQNAVRPMTSTAETVITVGADGPFKFKGLTVASVLYNDASNTITWDVANTNNAPYNVAAVKIDYTTDNGTTWTDLIAATPNTGSYAVQMPANVSGTVKLRISAIGNIFYAVSPAITVGTAPTSATAAPTGVSVIDTEVFKTTARVSWNNVSGATYSVKYRKTGAASWSNTTSTTNSVLLSNLEDETNYEVQVAAVVNSVPGAFSTGYTFKTKGLRTGTDYCLMTTGGNGGSFNSGLIRLTLSNLAYVFTGLDVYKTYLDFSEDATKVVNLTKGTQYTANFRNLAGGNYNDWLEIWIDYNRNGVFESSEKVATNGALPAYVAAAQAYLRDGNVTFTVPDTAYSGDKLLRMRVASTFFNAASGPCGSPTVPVNGGGIVSVGSFRDFSVKISENANLAVREAADTKSSEISIYPNPADTFVEVKNLKGKADYKIYSADGRLVQEGEIDGKINVASLVKGMYVITIKDDKNTYNTKLIKK	PGPT0022155_4022	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
BMS003_02120	1161	tetX2		Flavin-dependent monooxygenase	ATGCTGACAGACAATAAATCAATAGCAATTGTGGGTGGCGGTCCTGCAGGACTTACACTGGCAAGACTTTTACAACTGAAAGGTGCAGACGTAAAAGTATATGAAAGAGACTTCAATAAAAATGCCCGTGTACAGGGTTCTCCACTTGATATGCATGAGGATTCCGGGCTTACGGCCATCCGGAAAGCAGAATTGCTGGGGGAGTTTAAAAAAACTTACCGCCCCGGTGCAGACAGAACCCTGATTATGAATGAAAAGGCCGAAGTCTTTTTTAACGATCATGAAACTAAGCCTGAAGAGGATTTTGGTCATGAGCATTTCCGTCCGGAAATAGATCGTGGTCCTTTAAGAAATATGCTGCTGGATTCTTTACATCCTGAAACAGTAGTCTGGGACAGTCACTTTCTATCGATGGAACCTAAAGATGAAGGCTGGCTGATGCATTTTAAAAACGGCAGCTCAGCGTATGCAGATCTTGTCATTGCCGGAGATGGAGCCAACTCTAAAATCCGTCCCTACCTTACGGATATTAAACCGGTTTATTCCGGAATTATTATGCTGGAAGGAAATATTTCAAAAGACAATGCTCCTACAATTGACGCTATAATTAAAGGCGGAAAAATAATGGCATTTGGAAATTCCCAAAATATTTTGCTTGGTCAGAAGGATAATGGAGATCTCGGATTCTATGCAAGCTTTAAAGCTGATGAAAACTGGGCAGCTACCAGCGGTCTTGATTTTTCTGATAATACACAGATGTTACAATGGTTTCAGACAGAATATTCAGGATGGAGCTCTGTTTGGGAGGAACTTTTTAAAAATGCAAAAACACCTTTTATTCCACGTCTTATTTACTTTATGCCTTTGGATCAGACCTGGATAGCTCAGCCTAATGTAACACTTATAGGTGATGCAGCCCACGTAATGCCACCATTTGCAGGAGAAGGAGCTAATATGGCCATGCTGGATGCCCTTGAGCTGAGTGAATATTTAACAAACAATCGTTACAATAGTTTACAGGAGGCCATTTCTGATTACGAACAGGCAATGCGGAAAAGAGCGGCTATTGCCACGCAAGAATCTCTTGAAAACGGAGAACGGATGCATTCTGAAAAATCATTAGCTACTATGCTTGATTTTTTTAATGGTTATCTGGCTTAA	MLTDNKSIAIVGGGPAGLTLARLLQLKGADVKVYERDFNKNARVQGSPLDMHEDSGLTAIRKAELLGEFKKTYRPGADRTLIMNEKAEVFFNDHETKPEEDFGHEHFRPEIDRGPLRNMLLDSLHPETVVWDSHFLSMEPKDEGWLMHFKNGSSAYADLVIAGDGANSKIRPYLTDIKPVYSGIIMLEGNISKDNAPTIDAIIKGGKIMAFGNSQNILLGQKDNGDLGFYASFKADENWAATSGLDFSDNTQMLQWFQTEYSGWSSVWEELFKNAKTPFIPRLIYFMPLDQTWIAQPNVTLIGDAAHVMPPFAGEGANMAMLDALELSEYLTNNRYNSLQEAISDYEQAMRKRAAIATQESLENGERMHSEKSLATMLDFFNGYLA				NA	NA	NA	NA	NA
BMS003_02121	756			hypothetical protein	ATGGACAATGATTTCACTTATAATTTCATAGAACCAGATAAGGAAATTGCAGATTTTGTTGAAAATCTGGGAACTTTTCAGAATCATTCGGATAAGGCTAAAGAAGTGGTTATCATTCCTGACGGAAGAATTGATTTATTTTTCTCACAATCGGCTTCAGAGCCTTTTCATGTTACCCTTATCGGACTGGAAACGTATCCGGAACAAAGGTATATTGCACCTCATACTCTTACTTTTGTGATCAGTTTCAAACCTCTTGCTGTTGAATATATTTTAAATACTACCATTGCCGATTTATTAAATATCGGAAAAGAACTGGCTCCTGATTTCTGGAATTTTGAAGCTGATGACTTAAAAGATTTTAATCAATGCTGTATAAAAGCCACTCAAAAAATAAAAGAACTGCTTCCTCAGAAAACAGATGAGAGAAAACTCCGGCTTTTCGAGCTGGTTTATGTCTCTAAAGGTGAAATGAGCGTACAGGATCTTTCAGAAAAAACAGGCTGGAGCAGCAGGCAGATCAACCGTTATTTTACCAAACAGCTAGGCTTGTCGCTAAAAGCCTACTCTACTATTTTGCGTTTCCGGGCATCTTTGGAACATATTGCACAGGGAAAGCTTTTCCCGGAACTTAATTATACTGATCAGAATCATTTCATCAAAGAAGTGAAGAAATTTTCAGGGGTTGTGCCTAAAGAATTATCAAAAAACAAAAACGACCGATTTGTACTATTATCCGTATTGAAAGGACAATAA	MDNDFTYNFIEPDKEIADFVENLGTFQNHSDKAKEVVIIPDGRIDLFFSQSASEPFHVTLIGLETYPEQRYIAPHTLTFVISFKPLAVEYILNTTIADLLNIGKELAPDFWNFEADDLKDFNQCCIKATQKIKELLPQKTDERKLRLFELVYVSKGEMSVQDLSEKTGWSSRQINRYFTKQLGLSLKAYSTILRFRASLEHIAQGKLFPELNYTDQNHFIKEVKKFSGVVPKELSKNKNDRFVLLSVLKGQ				NA	NA	NA	NA	NA
BMS003_02122	1662			hypothetical protein	ATGACAATTTTATTGATTATTGTTTTGTTTATATTGATGCTCTACGCATTCAGTACATCAGGAAAGTTTAAAAAAGAATCTCTTCAAAAAGATACTCAAATTACAAATCTAAAAGGAGAGAATAACCATTTGAAAATGGAGGTTTCTAAATTACAGATTGATAAAAGTAATTTAAGCAGAAAAATAGCTGAATTATCACAACATAATGATGCATTGAGAAAGTATCAGGACATTATTGATATTAAAGTTGAATGCGATTACCTTCTTAAAAAGGCAGAAAGAGATAGCTTGAGATTAAGAGACAAGGCAGGACAAGAGCTTGCCAACGCACAGCTTGAAGCCCGTGAGCTTCGCAGGAATGTAAAGGAAACTACCGAGAAAAAAAGACGAGAGATTGAATTATTGTACGAAAATGCAGTAAACGAATCTAAGCGTATTGTTGATAATGCTGAAGCGAGAGCAGAATCAATAGGTGGGGATGCTTATCGAAGTTTAAGAGAATCAGATCAGATTGCGGATAGAATAAAAGCAATGAAAAATGTTATCGAAGGGTATGGTAATGAATATTTGATCCCTACTTATACTTTATTGGATGAATTAGCGGAAGACTTCGGACATAAGGAGGCTGGTGAAAATCTTAAAAAACTTCGACATAACAATAAGCTTATGATTGTTAGCAGACAAGCTGGTATCTGTAATTATATGGATGAATCAAGAAGAATTACTGCTATTGATTTTGTTATTGATGCTTACAATGGAAAGGTAGATTCTATTTTAGCATCAGTAAAGAAAGATAACTTTGGTATTCTGAAACAAAAGATGGACGATGCATTCCAGTTGGTAAACTTCAACGGACAGGCTTTTAGAAATGCCAGAATATCTGAGGTTTATCACAGTGCAAGAATTGAAGAACTAAAATGGGCAGTTGTTGCCCAGGAACTGAAATGGCAAGAACAAGAAGAGCAGAGACAAATTCGTGAGCAGATTCGAGAAGAAGAAAGAGCCCGCAAGGAATATGAAAAGGCTATTAAAGAAGCTGAAAAAGAAGAACAAACCCTAAAAAGACTTATAGAGAAGGCAGAATCGCAAGTAGCAAGGGCCAATGAAGAACAAAAGATACTTTTCCAGCAACAGCTTGAAGAGCTACAACAAAAGCTTACTCAAGCAGAAGAAAAAAATCAAAGAGCGATATCTATGGCGCAGCAGACCAGAACAGGGAATGTTTATATTATTTCAAACATTGGCTCATTTGGCGAGGATGTTTATAAAATTGGTATGACAAGACGTCTTGATCCTCTTGATCGTGTTCGTGAACTGGGTGATGCAAGTGTTCCCTTTGAATTTGATGTTCATGCTATGATTTATGCTGAAGATGCTCCGGCTTTGGAGAAACAGCTTCATAAGAAGTTTTTAAGAAACCAACTTAATAAAATTAATCCAAGAAAAGAGTTTTTTAAATTAAATATCCACGATATCAGAAATTACATTGATTCTATGGGTATTGGCTGTAAATGGACATTGGTAGCAGAAGCAAAACAGTACCGTGAAACATTAAAGCTCGAAGAAGATATGAAAACCAATAAACAGCTTGAAGCAGAGTGGGAACAATATCAGGAGGTTACAGACCCTGTTACTTATGATGAAGTTATGTCTGAAGAATAA	MTILLIIVLFILMLYAFSTSGKFKKESLQKDTQITNLKGENNHLKMEVSKLQIDKSNLSRKIAELSQHNDALRKYQDIIDIKVECDYLLKKAERDSLRLRDKAGQELANAQLEARELRRNVKETTEKKRREIELLYENAVNESKRIVDNAEARAESIGGDAYRSLRESDQIADRIKAMKNVIEGYGNEYLIPTYTLLDELAEDFGHKEAGENLKKLRHNNKLMIVSRQAGICNYMDESRRITAIDFVIDAYNGKVDSILASVKKDNFGILKQKMDDAFQLVNFNGQAFRNARISEVYHSARIEELKWAVVAQELKWQEQEEQRQIREQIREEERARKEYEKAIKEAEKEEQTLKRLIEKAESQVARANEEQKILFQQQLEELQQKLTQAEEKNQRAISMAQQTRTGNVYIISNIGSFGEDVYKIGMTRRLDPLDRVRELGDASVPFEFDVHAMIYAEDAPALEKQLHKKFLRNQLNKINPRKEFFKLNIHDIRNYIDSMGIGCKWTLVAEAKQYRETLKLEEDMKTNKQLEAEWEQYQEVTDPVTYDEVMSEE				NA	NA	NA	NA	NA
BMS003_02123	582			hypothetical protein	ATGAACAAATCATCACTTACTTCCTACTTTCATTCCTTATTCACTATCAAAGCTGAGGTGGTTGAGAAAATCACAGAAAAATTCAGCCATTTTGAGTTAAAACCGAATACTGTTTTGCTGGATAAAGATGCCATCAGTACCAAAACATACTTTCTGGAAAAAGGCTATGTGCGTTCATATATATTAAATGAAGATAATGAAGAGATCACAACTAATATTTATAAGGCTCCCTGCTTCGTTAATGATTTTCTATCCTTTTTCAGACAGCAGCCAACCAAAGAAATATATCAGACGGTAACCGAATGTATATTCTGGGAAACCGGCCTGGAAAATGTACAGCATAATTTTCATAATATTCCTGAATTCAGAGAGTTCAGCAGGCTTCTTTTTGTCCTTAATTATTATAATATTCATGACAGACTGATCGAAATGGCAAGTCAGAAGGCTTCCACAAGATATTTTAACCTCATGAAGAAAGATCCTGATATTTTCCAGCACGTTCCTCTGAAGATCATTGCTTCCTATCTTGGAATTAAAGACAGTTCGCTGAGCAGGATCAGAAGAGATATTCATAAGCTGTAA	MNKSSLTSYFHSLFTIKAEVVEKITEKFSHFELKPNTVLLDKDAISTKTYFLEKGYVRSYILNEDNEEITTNIYKAPCFVNDFLSFFRQQPTKEIYQTVTECIFWETGLENVQHNFHNIPEFREFSRLLFVLNYYNIHDRLIEMASQKASTRYFNLMKKDPDIFQHVPLKIIASYLGIKDSSLSRIRRDIHKL				NA	NA	NA	NA	NA
BMS003_02124	954			hypothetical protein	ATGAATAAAAAACATATTGTTGTTGTAGGATTAGGTGGAGTAGGCGGTTATTTTGGTTTCAAAATAAACCAGACCAATGAAGCTATCGGTAAATATATCGTTTCTTTTGTTGCCCGCAGAGAAACCTATGAGAAGGTAAAAGAAAACGGATTGATTCTGCTTTCTCCTGAGCATTCCAATTCACAAACGCATCCTAATGCTATAGTGCAGAATATCAATGAAATCGAAAATCCTGATCTGGTTTTGATTTGTGTCAAAGAATATGATCTTGAAAATGTCTGCAAACAGCTATTGCCAGTCATTAACAAAGATACTATCTTACTTCCGATGATGAACGGAGCCGATATCTATGACAGGATACGTACCGTAATTCCGGATCATACCGTTCTTCCAACCTGTGTTTATGTAGCTTCCCATATTAAAGAAAGAGGAACTGTAGAGCATAAGGGAAATGCCGGAAAAATTATTGTGGGAAGAGATCCTGAGCATTTTGAGGAACCGGTAGAATGGGTTACAAATGTATTGAGCGAAAGTAAAATAGAGTTTGAATTTAAAGATAATTCATTGAATGCTATCTGGACGAAATTCATATTTATCGCAAGCTTCGGATTGGTAACAGCCAAGCATAATTCTTCCATGGGAGCCGTATGTAATGATCAAGAACAAAACGATGAAGCGGCTGGAATTATGAATGAAATAAAACTGATTGCTGCCAAAAAAGAAATTGATCTTCAGGAAGATATCGTTAGTGCAACTTTCAAAAAGGCCTCTACTTTTCCTTTTGAAACTCCGACTTCTTTGCAGCTTGATATCAATTCAGGAAAGAAGGATAATGAGCTGGAACTGTTTGCAGGCGCGGTGTTAAAATATGGCTCTGAAGTAGGTGTAGAAACACCTTTTACCGAAAAAATATATACCGAAATTAAAACAAAACTTTTGGCTAAGGCCGAATGA	MNKKHIVVVGLGGVGGYFGFKINQTNEAIGKYIVSFVARRETYEKVKENGLILLSPEHSNSQTHPNAIVQNINEIENPDLVLICVKEYDLENVCKQLLPVINKDTILLPMMNGADIYDRIRTVIPDHTVLPTCVYVASHIKERGTVEHKGNAGKIIVGRDPEHFEEPVEWVTNVLSESKIEFEFKDNSLNAIWTKFIFIASFGLVTAKHNSSMGAVCNDQEQNDEAAGIMNEIKLIAAKKEIDLQEDIVSATFKKASTFPFETPTSLQLDINSGKKDNELELFAGAVLKYGSEVGVETPFTEKIYTEIKTKLLAKAE	PGPT0008745_2865	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
BMS003_02125	351	fdx_2	COG1145	Ferredoxin	ATGGCTATAAAAATAACAGATGCCTGTATCAACTGTGGAGCCTGCGAACCTGAATGCCCCAACTCAGCCATTTACGAAGGTGCTATCGACTGGCGCTGGAAAGACAAGACCAAACTTTCAGGACACATCATATTCCCTGATGGCAGTGAAGGTGATGCCGAAACTTATCATCAGGCTGTATCAGATGATGTTTATTATATTGTTTCCGGAAAGTGTACGGAATGTAAAGGGTTTCATGAGGAACCCCAATGTAAAGCCGTATGCCCTGTAGACTGTTGTATAGATGATCCTGATCACCGGGAAACGGAAGAAACCCTACTGGATCGGCAAAAATTTATGCACAGTGCTTAA	MAIKITDACINCGACEPECPNSAIYEGAIDWRWKDKTKLSGHIIFPDGSEGDAETYHQAVSDDVYYIVSGKCTECKGFHEEPQCKAVCPVDCCIDDPDHRETEETLLDRQKFMHSA	PGPT0003976_142	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
BMS003_02126	324			hypothetical protein	ATGGAGAACGAAATTACGATTACCGTTATCGACCAAAACGGTACTGCACATACTTTATTGTGTCCTTTAGAAATGGGGCTTACCCTTAAAGATATCTGCAAGGCTTACGAATTACCTATGGAAGCGCTATGCGGTGGTATGGCCATGTGTGCTACCTGTCACTGCTTTATTCTGAGTGAAACAGTTCCTCTGCCTGAAAAAAATGATATTGAAGAAGCTTTGCTATCAGAACTTTTTACTACTAATACAACCAGCAGATTGGCCTGCCAGATTTACCTTACAGCACAGATGGATGGACTTTCGGTAGAAATTGCTGCCAATTAA	MENEITITVIDQNGTAHTLLCPLEMGLTLKDICKAYELPMEALCGGMAMCATCHCFILSETVPLPEKNDIEEALLSELFTTNTTSRLACQIYLTAQMDGLSVEIAAN	PGPT0030805_972	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-MITOCHONDRIAL_FERREDOXIN,PGPT0030805-fdx|fdxB-K22071
BMS003_02127	558			hypothetical protein	ATGAAAGCAATCATATTCAACGGATCTCTGGAAAGACGAGCCTTATCTGCTTCCGGACTGATCTCGGACTATTTTTCGGAACATCTGAAAATGTTGGGAATTCAGAACGATATTTTTACCCTTGCGGATTCCGGTATTCCGTTATTTGATGTCACGCTTACCAAAACTCCTTTGGCAGTAGAACGCATGACCCAGATTTTCACAGATGCTGATCTGCATATCTGGTTAGCCCCTCTTTACCACGGAAGCATTCCGGGAGTAATGAAAAACTGTCTGGACTGGCTTGAAGTGACCGCCAACAGATACGAGCCCTATCTCACAGATAAAACTGTGGGTTTGGTTTGCTGGGCAGACGGCTTGCAGGCGATGCAGGGAATCAACGCCATGGATTCCATAGCCAAATCATTACGTGCCTGGCCATTGCCATACAGTGTTCCTATTGTAAGATCATCATTATTTGCTTCTGATCATCCTACTCAAATTTCGGATCTCTATTCCGTCAAATTTGATCAGCTTATCAGCATTGCAACTTCTAAAAAAGTGACGACTATCAACTAA	MKAIIFNGSLERRALSASGLISDYFSEHLKMLGIQNDIFTLADSGIPLFDVTLTKTPLAVERMTQIFTDADLHIWLAPLYHGSIPGVMKNCLDWLEVTANRYEPYLTDKTVGLVCWADGLQAMQGINAMDSIAKSLRAWPLPYSVPIVRSSLFASDHPTQISDLYSVKFDQLISIATSKKVTTIN	PGPT0004730_1011	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004730-arsH-K11811	NA	NA
BMS003_02128	501			hypothetical protein	ATGACTGAGGAAAGTTTTATCAATAAAGCAAAGGCTTCAGGTATTATTGCTCTTGACCTTTCAGACTACAAACCGACTACGGAAATTGTAGAACTGGATATCAAAGATCATCTTTTCATGGGAATGATTGTAAAGGAGAAAGAGTTTAAAGAATCAATTGCAGCGGTAGATTTTTCTGTATATAATGAAAAAGCAGTAGGAATCATCTGTTCCACAGACGCCATCATTCCACCCTGGGCGTATATGCTGATCATGGAAAAACTGTCTCCGTATGCTTCCTATGCTGATTTAAATAATGCAGAAAATATTCTGCTCGATCTTTGGAAACGCCGTCTCATCTATGCAGATCTGAAAAAGTACAGAAATCAAAAAGTGGTTGTCCGTGCAAGTACCAATCATGATCCTGCCCTTTATTTACTGGCAGCCGGATTATTGAGACCTCTGGTAAAAACACTGATGTATGGTGAAATAGGATTACCTAAAGTAATTTTTAAACAATAA	MTEESFINKAKASGIIALDLSDYKPTTEIVELDIKDHLFMGMIVKEKEFKESIAAVDFSVYNEKAVGIICSTDAIIPPWAYMLIMEKLSPYASYADLNNAENILLDLWKRRLIYADLKKYRNQKVVVRASTNHDPALYLLAAGLLRPLVKTLMYGEIGLPKVIFKQ				NA	NA	NA	NA	NA
BMS003_02129	627	sodA1_2	COG0605	Superoxide dismutase [Mn] 1	ATGAACCCATTTACATTACCACAATTACCCTATGCTTATGATGCTTCGGTACCTTTTATAGATAAAGAAACAATGACGATTCACCATCAGAAGCATCATCAGGCTTATGTAGATAATCTGAATGCTGCATTGGCGCAAACCAGTGAAATCAACCCGGATCTGGATTCCTTATTGCAAAGAATAAGTGAATACAGCCCTGCTGTAAGAAATAATGGCGGTGGTCACTATAACCACTCTTTATTCTGGGAAATTCTTTCTCCACAGCCTAAGCTTACTCCTGAAGGTATGCTTCATGATGCTATCACAGGCACTTTTGGAAGTCTTGATAATCTGAAAGCAGAACTGAAAAAAACTGGTTTATCTCAGTTCGGTTCCGGATGGGTGTGGCTTTTTGTAAAATTCAACGGATCTCTGGCCATTAGCTCCACTCCTAATCAGGATAATCCGATGATGGATGTTCTTTCGATGAACAGAGGCTTTCCTATTCTTGGAATAGATGTATGGGAACACGCTTATTACTTAAATTATCAGAATAAACGTGCTGATTATCTGGATGCTTTTTGGTCTGTACTGGATTGGTCTGCTGTAGAAAGAAAATATGAAGAAGCTTTATCAAAAGTAAGGTAA	MNPFTLPQLPYAYDASVPFIDKETMTIHHQKHHQAYVDNLNAALAQTSEINPDLDSLLQRISEYSPAVRNNGGGHYNHSLFWEILSPQPKLTPEGMLHDAITGTFGSLDNLKAELKKTGLSQFGSGWVWLFVKFNGSLAISSTPNQDNPMMDVLSMNRGFPILGIDVWEHAYYLNYQNKRADYLDAFWSVLDWSAVERKYEEALSKVR	PGPT0004190_2540	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
BMS003_02130	621			hypothetical protein	ATGAAGAAGCCGGCAGCAGATCGTATTCTGATGTTTTTAAAGATGAGAGGGGAAGTTACATCCCTTCTTATTGCTGAAGAACTGTCGATTACCAAAGAAGGAGCGAGAAAACATTTACTGAATCTTGCTCAGGAAGGATTGATCCGGTCTTCAGTGAAGAGCGAAGGAGTTGGCAGGCCATCTATTTACTATACCCTTACAGAAAAAGGATTGGCTCAATTTCCGGATACTCATGCAGATGTGACGGTTCAGATTTTGAAATCTGTGAAAAATCTTTTAGGTGAAAATGCTTTGGAATTATTGATCAGTGACCGGGAAAAAAATACCCATGAGCGCTATGAAAAGATACTTTCCAAGACAAAATCTCTTGAACAGCGCCTTGAATCCCTTGCAAAAGTCCGCAGTGATGAAGGCTATATGGCGGAATGGAAAAAAGAAGGCAAAGAATATTTTCTGATTGAAAACCATTGTCCAATATGTGCTGCTGCAATAGAATGTCAGGGTTTCTGCCGTGCCGAATTATCCAATTTCCAGTCATTGATAGGAAAGGATTACAAAGTGGAAAGGATAGACCATATCATTTCCGGAGGACAGCGCTGTGTTTATAAAATAAGCCAATAA	MKKPAADRILMFLKMRGEVTSLLIAEELSITKEGARKHLLNLAQEGLIRSSVKSEGVGRPSIYYTLTEKGLAQFPDTHADVTVQILKSVKNLLGENALELLISDREKNTHERYEKILSKTKSLEQRLESLAKVRSDEGYMAEWKKEGKEYFLIENHCPICAAAIECQGFCRAELSNFQSLIGKDYKVERIDHIISGGQRCVYKISQ				NA	NA	NA	NA	NA
BMS003_02131	648	hxpB	COG0637	Hexitol phosphatase B	ATGGCTTTACAGGCAGTAATATTTGATATGGACGGTGTTCTGATAGACTCAGAACAATTCTGGACCCAGGCGGAGCTTGATGTGTTTTCATTCTATGGAGTGCAGGTTACAGATGAATTGGCAGCACAAACAAAATATATGACCACTCAGGAAGTCACAGAGTTCTGGTATAAAAGATTTCCGTGGGAAAACTTTGATGCCTCTGATCTGGAAAATAAGGTAGTGACAAGAGTGATCGAAATGATACAGGATCAGGACTGTATCATGCCCGGAGTGCAGGAATTTATTAAAAATCTTAAAAATAAAGAGTACAAAATAGGGCTGGCCACTAATGCTCCTTTGAGGGTGGCTCATGCGGTTCTCAAGAAACTTCGGGTTCATGATCTTTTTGATACCGTTCATTCATCGGAGTTGGAGATTCAGGGGAAGCCTCACCCTGCTGTTTATCTTACTTCTGCAAAAAACCTGGGTGTTTCTCCTGAGCACTGTATTGCCATAGAAGACAGTCATTCAGGCTTAAAAGCTGCGAAAGAAGCCGGAATGCAGACCATAATTTTCACTAATAATAATGAAAGCATGCATTCAAACCTTGCCGATTTTAAAATCTTAGACTTTAATACAGATTTTCCAGCCGTATTTGGTGAATAA	MALQAVIFDMDGVLIDSEQFWTQAELDVFSFYGVQVTDELAAQTKYMTTQEVTEFWYKRFPWENFDASDLENKVVTRVIEMIQDQDCIMPGVQEFIKNLKNKEYKIGLATNAPLRVAHAVLKKLRVHDLFDTVHSSELEIQGKPHPAVYLTSAKNLGVSPEHCIAIEDSHSGLKAAKEAGMQTIIFTNNNESMHSNLADFKILDFNTDFPAVFGE	PGPT0018430_469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018430-hxpB-K24204	NA	NA
BMS003_02132	627			hypothetical protein	ATGAGCCCAACAGACTATACATTATTAAAGAAAATAAAATCAGGTGATCGCCCTGCATTTATGCTGCTGTATGACCGTTACTGGGATAGTCTATACCGTTTTGTTTTTGTACGGACACGTGATAAAGAAGTCTCTGAGGAAATTCTTCAGAACCTATGGATGAAGATTCTTGAGCATACAGACCAGATACAAACCGATGATACAGAAAGTGCCAAAGGCTATCTTCTTCGCCATCTTCATTACCGAATCATTGATTTTTACAACAGTTACAAAAAAGCCCCTCCTACTTTAAGTATTGATGAGTTTGACATTCCGAATGAAATTGAAATGGAAGATTCTGAGTATTTTGAAATCCTGGAAGAAAATGAGATCAGTGCTTTATTATCGATGATAGATGAAGTGGTCTCCCAGCTTCCTTCCACAGAACAGCAGGTCTACGATATGAGAATCCGGAAAAATATGTCCGTGAATGAAACCGCAGAAGCCCTGGGAATAAGCAATAAGACAGTAAGCAATAAATTAAGCAAAGCTTTGGGAGAAATCCGGGAAAAACTGAATCCGGAGTATCAGTCGTCTAAAAAACTGGTTTCTATTCTGTTGCTGATGGAAGTAATGACGAGGTATTGA	MSPTDYTLLKKIKSGDRPAFMLLYDRYWDSLYRFVFVRTRDKEVSEEILQNLWMKILEHTDQIQTDDTESAKGYLLRHLHYRIIDFYNSYKKAPPTLSIDEFDIPNEIEMEDSEYFEILEENEISALLSMIDEVVSQLPSTEQQVYDMRIRKNMSVNETAEALGISNKTVSNKLSKALGEIREKLNPEYQSSKKLVSILLLMEVMTRY				NA	NA	NA	NA	NA
BMS003_02133	948			hypothetical protein	ATGAAAAAAAGCTTGACCTATAAAAATATTGAAGCCTTTGTTTTCAGACTTTGGGAACGGGAAGTTTCGGAAGATAAAATTTCTGAAAAAGAGAATGAACTTTTAAAACAATGGAAAATCCAGGTTGAGAAAGATCTGGATATTGTTCATCTTAAAGAATCCAGACAAAGGATATTATCAGGGCTGGAACATTACTTTCCCCAAAGAGATATACAGTCTGCAAAAAGTTTTAAAGCCCATTTCTATAAAATTGCGGCAGCTATTGTTTTGTTGTTGTCATTGGGAGGCATTTTTACCTATACAATGTTCATTAAGCCGGATGTTTATCTTGCAAAATCTGAGAATCGGACGGTACATCTTGAAGACGGATCTGTAGTTACTCTTTTGCCGGGTGCTGAACTTACGGTTGCAAAATCATTTCCTGCATCCACCAGGGTTGTAGATTTAAAAGGAGATGCCATCTTTTCTGTTGCAAAGTCAAAAACACAGCCATTTATTGTTCGTGCGGATGGTTTCAGTACCAAAGTATTGGGAACGGTATTCAAAATCTCACAGTCCGGGAAGAAAAAAGCAGTTGATCTTTATGAGGGGAAAGTGGCTGTATCTTCTCCGGGTGTTCCGGTTTCTTTCCTGGCACCAAATCAGAAGTGGACCAATTTCGGGATTGCTCATACTACAGCAGTTATTTCATTGAAACCAGATAAAAATTCAACAAACAAAATTCCTGCAATATTATCTCTAAGCTTTAACGATGTCCCTCTAAAAGAAGTTGTAGCAGTTCTGGAGAGCAGTTATAATACAAAGGTTTTATATCCTAAAGATGCTGAGGATAAAAAAATCACAGCAGACTTTACCGGAGGAACGGTCAGCGAAAATATTGAATCACTGGCCTTCATCCTGGGGCTGGAAGTACAGAAAAAAGAAAATACCTATATCCTTAAGAAATAA	MKKSLTYKNIEAFVFRLWEREVSEDKISEKENELLKQWKIQVEKDLDIVHLKESRQRILSGLEHYFPQRDIQSAKSFKAHFYKIAAAIVLLLSLGGIFTYTMFIKPDVYLAKSENRTVHLEDGSVVTLLPGAELTVAKSFPASTRVVDLKGDAIFSVAKSKTQPFIVRADGFSTKVLGTVFKISQSGKKKAVDLYEGKVAVSSPGVPVSFLAPNQKWTNFGIAHTTAVISLKPDKNSTNKIPAILSLSFNDVPLKEVVAVLESSYNTKVLYPKDAEDKKITADFTGGTVSENIESLAFILGLEVQKKENTYILKK	PGPT0003910_4667	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
BMS003_02134	3288			hypothetical protein	ATGAAAAGTTTGAAATGTGGGATTACCATAGCAGCCTTATTTTTTACTGTAGCCGCAGAAGCTCAGGAGCTGGTTCAGAAAGTAACATTTTCTGTACCTGCCAACAGACCGTTGATTGAAGTTTTGGAAGAGTTTGCCGGAAAAACAGGGATGAGACTGGCTTATTCCAAGGTAGATATTAAACAGCTGAAAGTAAGAGGAGTGAAATGCGAAAATACTTCTGTAAACAACTGCCTGAAGGATATTACCAACGGACTTCCTGTGATATACCGACTGCATGGTGATCTTATTTCAATAAAATATGAAAGCTCAACTATTTCTGTACCGGGAAACGGGCGTATTTCCGGTAAAATAGTGGATGAGGTAGGAAATCCCATTACCGGAGCTGAAGTGAATATCGCTCAGAAAACTGTAAGGACAGACAATAACGGAGATTTTGTCATAGATCTTCCTTCGGGAACTTATAATCTCACGATAAAAGCTTCTAAATATAATACGCTGAAAGTTGAAAAATTATCTGTCAGCAACAAAGAAACCAATTCTGTTTCATTTGCTTTAAGCAGAGTTTCGGATAAAATTACAGACATCAAAGAAGTAGTGATTACCGCTGCCCGTAAAGCAGACACCCAGGCAGGCCTTCTTGCCCAGCAAAAGAAAGCAGCGCAGATGAGTGATGGTATTTCGGCAGAACAGATTTCCAAAACTCCGGACAGTGATGTGGGGGGGACGCTGAAAAGAGTAACAGGGATCACTACCATTGATAATAAATATGTGGTGGTAAGATCTATGGGAGAACGTTGGAACACAGCAGCCATGGATGGAATCAACCTGCCCAGTACGGAAGCTTATAATCAGAACTTTTCATTTGATATTATTCCTACGGCCATGGTAGAAAGCGTTGTGGTAAGCAAATCTGCCACTCCGGACATGAATGCCAGCTTTGCGGGAGGATATGTAGAAGTGAGGACGAAAGATATTCCCAATGAAAATTTTACAACGGTAACGATGGGAACTTCTTACAATGATCAGTCGGCATTCAAAGAATTTCTGACCCGCAAACGCGGAAAGTATGATTATTTCGGATATGATGACGGAACAAGAGATTTCCCGAAAGGATTAGAAGCAATGAACTGGACAGATCCAAGATTCTTTGAACAATCCAGGCAGTTTACCAATGACAATTTCAGCACCTATAAAACCACAGGTGATATGGGGTCTAATATACAGCTGGCATTAGGAAGAACGTATGCCCTAAAAAACAATAATAAATGGGGATTTGCCGGTGCATTTGTCATCAGAAATGAACAGAACAAACTGGATATTGACCACACGGGAAGAGGAAATTGGCTGGATACAACAGGAATGCCTGATGCCAATGGGCAGATTCCATTCTATAATTTTAAAAACAGCGGGGCTTCCTACAACTATAACTCTACACTCGCAGGAATGCTGAATTTCGGCTTTCAATTTGGGAAAAACAGAATCTCTTTCCGTAATTCTTATACCCATATTTTCGACAATACGCTGACAAGAGTAACAGGCTGGAATGAATACTCAACCGGCAGCGGAATGGCATCCAATGCAGAATTAGCCTATAATTATTTTTACAATGGAGTCGTTCCTAATAATGATCCTGCTCAGATCAATAATTTAGACAGGCCTTATACCGATAATACCAATTATCCGATTTTTCAAACCCTTTTGCAAAATAAGCTGGAAGGAAATCACAAATTTGGAAATACAGAAATAAGCTGGTTCGCTGCCCGTACAGGAGTGGCTTCCGATACTAAAGATTACACACAGTATATTACCCGGTATGATTTTATCGGAAATGAAATACTGACTTTTCATAAGATCTACAATTCCGGAGCAGATTTTTACAGAGGATATATTGAAAACAGAGAAACAGATTACAACTATGGAGCTTCTGTAAAGTGGGATATGGATGCCGGGAGTTTTAAAAATACTATTAAAACCGGATATGCCGGAGCTATAAAAAACAATACCAACCAACAGCAGAAGTTTTTTCTGCGTGTTGACGAAAACCGGGACGTTCCGAATAGCGAGAAGAATTATTTGACGATGTATGGTTCTCTTGCTGACTGGTTTGATGGTTCCCATTATGTTCCGGGTGGTATTGGCTGGGAAACAAGAGGACTCTATAAAAATGATAAGTATGAGGGTGAAGTGAATCAGCATGCAGTTTTTGTAATGTTTGACAACCGTTGGAAGAAATTAAGATTAGTTTGGGGACTTCGTGCAGAATATTTTAAGTATGATATGATTTCCCAGCAGCTGGATCCTTCCGATTCCAAATATATTACGAGAACAGCTATAGATGATAAGCCATGGCAGTGGATGCCTTCCGTGAATTTTACGTACAGTCCTACCAATAAAATTAACTTGAGGCTTGCTTATAATAAATCTGTCATCCGTCCTCAGTTTAATGAAAGAACAGGATTACCCTATTTCGATCCTATTGCCAATGGATTGATTTACAATACAGAATTAAGCTCATCGGTAATCAACAATTATGACTTTAAGTTTGAATGGTTTCCAGGTTTAGGAGAGATATTTTCTGCAGGATTGTATTACAAAAATATTGACAGACCTATTGAACGTGAAGGGCATATTTCAAGTGAAGGAAATCTATTTCTGTACAATGGAAATTCGAAAAATGCAAAATTGATAGGAGTAGAGGCAGAAGTCAGAAAAAGCTTAGGCTTTATCGCAGACGGAACTTTTCTGGAAAAACTTTTCATCAGCGGAAACTTTACCTATAACCATACGAAAGTAGTGGCTTTTAAAGACCTGTATAAAACCGGTGATAATGATGATACCTACGAAGTAAAACGACCGCTTTACGGACAAACACCTTATGCTTACAATCTTGGGCTGATCTATGACGGAACCCGTTTTGGGATGAGCTTTTTGTATAACGCAAAAGGAGACCAGTACATCACGGTAGGATATGCGTACAAAGGAGAGGAGATTCAGCGCCCTTATGCTGTAGCAGATGCTCAAATCTCTTATAAATTCCTTCGAAACAGAAACTTTGAAGTGAAGTTTAATGTAAGGAATCTCTTCAACAGGGTAAAAGAATATTATAACAACTTCAATTCTTACCTCGCTGCAAAAAATGGAGGCGGAAGTAATGTAGGAACAGAAAGAGAAGCGTGGGATCTTCTTCCGGGAGCAACAGATAGGTACGATAAAAATATTGATAAAATCATGTTTCGGGCGTACAGCGGAAGAATGTTCAGCCTGAGTTTAAATTATACTTTTTAA	MKSLKCGITIAALFFTVAAEAQELVQKVTFSVPANRPLIEVLEEFAGKTGMRLAYSKVDIKQLKVRGVKCENTSVNNCLKDITNGLPVIYRLHGDLISIKYESSTISVPGNGRISGKIVDEVGNPITGAEVNIAQKTVRTDNNGDFVIDLPSGTYNLTIKASKYNTLKVEKLSVSNKETNSVSFALSRVSDKITDIKEVVITAARKADTQAGLLAQQKKAAQMSDGISAEQISKTPDSDVGGTLKRVTGITTIDNKYVVVRSMGERWNTAAMDGINLPSTEAYNQNFSFDIIPTAMVESVVVSKSATPDMNASFAGGYVEVRTKDIPNENFTTVTMGTSYNDQSAFKEFLTRKRGKYDYFGYDDGTRDFPKGLEAMNWTDPRFFEQSRQFTNDNFSTYKTTGDMGSNIQLALGRTYALKNNNKWGFAGAFVIRNEQNKLDIDHTGRGNWLDTTGMPDANGQIPFYNFKNSGASYNYNSTLAGMLNFGFQFGKNRISFRNSYTHIFDNTLTRVTGWNEYSTGSGMASNAELAYNYFYNGVVPNNDPAQINNLDRPYTDNTNYPIFQTLLQNKLEGNHKFGNTEISWFAARTGVASDTKDYTQYITRYDFIGNEILTFHKIYNSGADFYRGYIENRETDYNYGASVKWDMDAGSFKNTIKTGYAGAIKNNTNQQQKFFLRVDENRDVPNSEKNYLTMYGSLADWFDGSHYVPGGIGWETRGLYKNDKYEGEVNQHAVFVMFDNRWKKLRLVWGLRAEYFKYDMISQQLDPSDSKYITRTAIDDKPWQWMPSVNFTYSPTNKINLRLAYNKSVIRPQFNERTGLPYFDPIANGLIYNTELSSSVINNYDFKFEWFPGLGEIFSAGLYYKNIDRPIEREGHISSEGNLFLYNGNSKNAKLIGVEAEVRKSLGFIADGTFLEKLFISGNFTYNHTKVVAFKDLYKTGDNDDTYEVKRPLYGQTPYAYNLGLIYDGTRFGMSFLYNAKGDQYITVGYAYKGEEIQRPYAVADAQISYKFLRNRNFEVKFNVRNLFNRVKEYYNNFNSYLAAKNGGGSNVGTEREAWDLLPGATDRYDKNIDKIMFRAYSGRMFSLSLNYTF				NA	NA	NA	NA	NA
BMS003_02135	1293			hypothetical protein	ATGAAAAGACTAACTCTAATTGCAGTGGCAGCATTATCTCTTACAGCTTGTCAACACGATCAACTGGCAGATTCATCATCTCCATTCGAAATGAAATCTACTTCTGCTGAATACCTTACAGCTTCTTCGCTTCCGGTAACCAGCGTAAGTGGTGCTATTACTACCAATACTACATGGAGTGGTGTAGTGGAATTAGATGGAGTTGTAACCGTAAAAGATGGTGCTACATTAACAATCCAGCCGGGTACATTCATTAAAGCTAAGCCAAACACAAATAATACAGCTACAGGAGTTTTGGTAATTACTAAAACAGGAAAAATCAATGCAGCAGGAACAGAAGCTCAGCCAATCATTTTCACCAGCTACAAATTGTTAGACGGAAATGAAGATACTACTGCTGCTCCAGGTGACTTCGGAGGGGTGATTATTTTAGGAGATGCTCCTACCAACACTCCTTTCACAAAAACAATTGAAGGATTATCCGGTCCTGATTTCTATTACGGAGGTACAAATGCTTCTCACAACGGAGGAACATTGAAGTATGTACGTATTGAATTCGCCGGGTACGATCTTTTGGCTCCGAACTCAGGAAACGAAATCAACGGTCTTACTTTAGGAGGTGTTGGTAACGGAACTACTTTGGATCATATTCAGGTATCTTTCGGAAAAGATGACTCTTTTGAATTCTTCGGGGGTACTGTAAACGCTTCAAACCTTGTATCTTTTGCTGCGGATGATGATAACTTTGACTTCGATAACGGATATACAGGAACTATCACTTGTGCATTAGCTTTGGCAGATTACAACTCTACGCATAGTCTTAGCGGATCTAGCCCTGATTCTAACGGGATCGAGCTTGATAACAATGCAGACGGTTCTTCTACATCATTGCTGACTCACCCGGTTATCAACAACCTTACCATCATCGGAGCTAAGAACTCAGATAAAGGAGCTTTGTATGAAAACGGTATCCATATCAGAAGACACGGAAGATTAACATTAAATAACGCTGTAGTGACAGGGTACCCTGTGGGAATCAAAGTAGAAGGTACAGGTTCTGAACTTTCTTCAGCTTCAGCATACAATACCATCCAGATTCACGGATTTACTACTTCTGTTACAGGTACTGGTACAGCGGGAATTCCTGCAGCTAACCTGTTAACTGGTACTCCTGCATCTTTATGGGGAATGAGCCAGCCATTCTTCAACGAAGGAAGCTGGAATGTGTCTCCAAGAAACTGTGGAAATTTCCAGGGACTTTGGACAAAATACAATTTCACAATTGTAGAATAA	MKRLTLIAVAALSLTACQHDQLADSSSPFEMKSTSAEYLTASSLPVTSVSGAITTNTTWSGVVELDGVVTVKDGATLTIQPGTFIKAKPNTNNTATGVLVITKTGKINAAGTEAQPIIFTSYKLLDGNEDTTAAPGDFGGVIILGDAPTNTPFTKTIEGLSGPDFYYGGTNASHNGGTLKYVRIEFAGYDLLAPNSGNEINGLTLGGVGNGTTLDHIQVSFGKDDSFEFFGGTVNASNLVSFAADDDNFDFDNGYTGTITCALALADYNSTHSLSGSSPDSNGIELDNNADGSSTSLLTHPVINNLTIIGAKNSDKGALYENGIHIRRHGRLTLNNAVVTGYPVGIKVEGTGSELSSASAYNTIQIHGFTTSVTGTGTAGIPAANLLTGTPASLWGMSQPFFNEGSWNVSPRNCGNFQGLWTKYNFTIVE				NA	NA	NA	NA	NA
BMS003_02136	924			hypothetical protein	ATGAAAAAAATAATTTTATCATCTGTTCTGTTTTTATCTCACCTGGCTGCAGCGCAGTCTCTGGTATGGGGAAATTCTTTTGATACATCAGCTGACCTTCAGGGATGGACGTTCCATGACCTGAACAGCAATGGCAATGGATGGGTACAGGGGCAAAATATCTACCACAACGGAACATCTCTGGCTTATGGAACCAATGGGGTTCTCCGTCACTCTATCAGTATGGTTCCAAGTGGAACTGCTACAGGCTTTGCAACAGAAAATGACTGGATTATTTCTCCTCAGATTGATCTTACGAATGCTGCAGGTACCATTACTTTGGCGGCCTATATCGGGAGACAGAGATCTACCCATACTATTGTTGCCAGAGATCTTTTTATCTATGTAAGCAATCCGCAGAAAGAAGTTCCTGCATTAGCTGATTTTCAGGCGATGACAGTAGATGCAGGAGGAAATGACATTCCAAGTCTTTATAAAATACAGGTAGGAGATTCAGCCAATCCATTTCCGGCAGATCTTACCCAGTTTGTAGAATCCCTTGTAGATCTGTCCGCTTTTGCAGGAAAGAAAATCTATATCGGAATGTGGGCCAACAGAAAGGCAAGCGGAAATAATATCCAGAATATCAATATTGATGAAATCGGAATCTATGCCACTTCATTTTTAGGAACTAAGGATGTAAAAAGAAACAAAATTGTAACACAAATAGCAGAGAACCCGGCAAAAGAATCTTTACAGCTGCATCTTAATCCGATATTGAAAGAAAATACTACTATAGTGAATGTCTACAATGCTGTTGGGCAAAAAGTGCTTACTGCTCCGTATTCCAAAGCTATTCATATAGCTGGTCTCATTTCTGGGGAATATATTGCAGAAATTACAGACGGGAAGACAACAGAAAGGTTGAAATTCATTAAAAAATAG	MKKIILSSVLFLSHLAAAQSLVWGNSFDTSADLQGWTFHDLNSNGNGWVQGQNIYHNGTSLAYGTNGVLRHSISMVPSGTATGFATENDWIISPQIDLTNAAGTITLAAYIGRQRSTHTIVARDLFIYVSNPQKEVPALADFQAMTVDAGGNDIPSLYKIQVGDSANPFPADLTQFVESLVDLSAFAGKKIYIGMWANRKASGNNIQNINIDEIGIYATSFLGTKDVKRNKIVTQIAENPAKESLQLHLNPILKENTTIVNVYNAVGQKVLTAPYSKAIHIAGLISGEYIAEITDGKTTERLKFIKK				NA	NA	NA	NA	NA
BMS003_02137	744			hypothetical protein	ATGAATAAAATCTTTGCATTACTACTATTTTTTACCGTGCTTTTTTCATGTACAGACAACAGTACAATGGAGCTGTATGATAAAATACAGAAATCCGGAGAGGTCACTATCAAAGGATTTTCCAAGCCTGATGCCATTCAGCTGAGGTTCAACGGAGAGCCTGTATCTATTGACGGAAAAACTTCCTATACCAATAAAATAGAAACCCAGCTTCAGTTTGTACTGGATCAGGGAGAAACCAATAAATTGTCTGTCTATAATAATGAAACAGGCACTGAAATTGCAAAATACAATATTACATATGACAATATAGATGAGTATAAAAACCTTTACTTTTTTAATCTTCCCGGAATTTATCTGCAGACCTATGCCGTAAAACCCCAGGTTAATCTGGGGAAAGTAGGTTTTGAATTTATTTTTCCCAATCTGGGAGAATTTTCGGGGACTTCTCTGAAAAATGTGAAAGGCATTCTGAAAAGAGAAAATGGGATAGTGCTTGCTGAGTTTGACAATATCGGGAGAGACAATTTTACAGCAGTGAAAATTTATAGCTTTTTCAGTTCAACAGCTCCTGTGTATCTTGAATTATACAAGCCGGGAACTGCAGAGCCTTACGCAGGATCTGAAATGATTCAGGTGAAATTAAAACAGCACACAGGAGCCAACATGATTGTCCTTCAGGAAAAGATGGAAAATGGAAAATGGGTAGTAAAAGGAGATATAGATGTAGCAGAATATCTTTAA	MNKIFALLLFFTVLFSCTDNSTMELYDKIQKSGEVTIKGFSKPDAIQLRFNGEPVSIDGKTSYTNKIETQLQFVLDQGETNKLSVYNNETGTEIAKYNITYDNIDEYKNLYFFNLPGIYLQTYAVKPQVNLGKVGFEFIFPNLGEFSGTSLKNVKGILKRENGIVLAEFDNIGRDNFTAVKIYSFFSSTAPVYLELYKPGTAEPYAGSEMIQVKLKQHTGANMIVLQEKMENGKWVVKGDIDVAEYL				NA	NA	NA	NA	NA
BMS003_02138	1341			hypothetical protein	ATGAAAAGCTTTTTAAAACTTCAGTGGATTGCTATCGCAGCCTTTCTCATTTCATGTACGAACAATAATTATGAAGGTATACCTGTTTTTCCGGAAGGAAGCACAGAAGCTGTGAATTTATGGGTTCAGGACAGTATGAAACGATATTATTACTGGGCAGATCAGATGCCCGCAAAGCCAGACTATAACCTTCCCGTAAAAGTTTTTTTTAAAAGTCTCCTGTCTTCCAAGGATCGGTTTTCTTATATGGTGAATACTGAAGATTCCTCTACCTATCCACGTTCTATCAGAAATATGTACGGGTTTGATTACTCTGTTGTTCAGCTTGCCAATAATGAAGTCGTTACCGTGGTGAAGCTGGTTCTGCAAAATTCTCCGGCATTCAATTCGGGGCTGGAAAGAGGAATGATCATTACCAAGATTAATGGAAAAACAATGACAGCCGCTAATGCAGAAACAATGGCTTCCTCTGTTAAAGATCATACCGTAATAGAACTTACCGTTGGAAAATGGGAAAACGGAGCCGTAACTGACGAAAAAAATATTACCATTTATTATGGTTTCTCTTTTGAACAGCCTGTTTTATCAAAAATTTTTGAGAAAAACGGTAAAAAAGCCGGATATCTGTATATTTATGACTTTCCGGACGGAATGACCCAAACGCTGTATCAGAAATTTGGAGAATTAAAAGCTGCCGGAGTACAGGAACTTATTCTCGATCTCCGCTACAATTATGGAGGTTCTGTATCATCCGCAGCTGCACTTTGTTCATTAATTCCCTCAGGGTTATCATCCGGATCACCATTTATCATTTTTAAAGGAAATAAAAACGGGGGTGAAGTAAAAAGAACATTTGCCCAACAGATCGCTTATGATCCCAAAGCTTTGGATTTTACAACTTTACGAACCCATGCGTTAGAACTTCAGAAAGTATTTATCCTCACATCGAACAGTACGGCATCCGCAGCAGAAATTGTTTTGAATAACCTGAAACCTTATATGCAGGTCATTCAGATAGGAGATGTTACGCTGGGAAAGGATATGGCAGGATTTGTAGTGGAAGATAAACGTAAACCGAGAAAAATTTCCTGGCAGATTCATCCTGTAATTTATAAAGTATTTAATGCCAATGGCGCCGGAGAATACAGCAATGGAATTTCGCCACAGCTCAGTGTCAATGAATTTACCAGTCTGCCATTATTGCCTTTGGGTGATCCTAATGAAACCCTTATTTCTTCTGCCCTTAACGGAGGTTATTTCAAATCTGCAGGACAGGAAAATAATGGAGGTACTAAGATCTTATTTCAAAGCGATGTACCACCAATGATGATGGGGAAATGA	MKSFLKLQWIAIAAFLISCTNNNYEGIPVFPEGSTEAVNLWVQDSMKRYYYWADQMPAKPDYNLPVKVFFKSLLSSKDRFSYMVNTEDSSTYPRSIRNMYGFDYSVVQLANNEVVTVVKLVLQNSPAFNSGLERGMIITKINGKTMTAANAETMASSVKDHTVIELTVGKWENGAVTDEKNITIYYGFSFEQPVLSKIFEKNGKKAGYLYIYDFPDGMTQTLYQKFGELKAAGVQELILDLRYNYGGSVSSAAALCSLIPSGLSSGSPFIIFKGNKNGGEVKRTFAQQIAYDPKALDFTTLRTHALELQKVFILTSNSTASAAEIVLNNLKPYMQVIQIGDVTLGKDMAGFVVEDKRKPRKISWQIHPVIYKVFNANGAGEYSNGISPQLSVNEFTSLPLLPLGDPNETLISSALNGGYFKSAGQENNGGTKILFQSDVPPMMMGK	PGPT0015095_5221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS003_02139	270			hypothetical protein	ATGCAGGGAATAGAACCAAAACTTCACATGAACCTGACCAGTCGTATTGAATATTACCGTTTGCTGATAGAAGCTGCGGAAGATCCTGAAAGCCAGCCTTCGGATGTAATTACCCAGATTTCAGAACTGGGTCATCTGTATGAAGAGTATTTGCTTAATAAGAAAAATCTGGAGAAGAGTATCAGAAACTACCGGGAATATCATAATGATTTAAGGAAAAAACTGACATCAAGATTGCGGGAATTAAGGAGAAAAGCAAGGCAGAAATAA	MQGIEPKLHMNLTSRIEYYRLLIEAAEDPESQPSDVITQISELGHLYEEYLLNKKNLEKSIRNYREYHNDLRKKLTSRLRELRRKARQK				NA	NA	NA	NA	NA
BMS003_02140	723			hypothetical protein	ATGGATTTTAATGAAACAGAATTTTCCGGTTATTTACAGGATTTTTGGCAGTTTTCCTGGCCGGATTGGGTGGTATTCAGCATGATTATTAATGTTTTTCTGTACCTGTTTTCTATAGGTCTGTATATGTTTATTGAAAAAACCTGCCGTAAAAGTACGTTACAGGAGAAAAGTCACCCTGTCACACGTTCTGATTTTTATCTCAGTCTGATTACTGTTTTATGCAACAGCTGTATACTGCTGTTGGGGGCTTTCTTATGGAAATACGGATGGATTGTGCTGCAACAAACTCAATCTGCAGTCGGAACCGTAGCAGAAGTTGTTGCTTTGCTTCTCTTGATGGATCTTCTGATGTATTTCTTCCATCTTGCGGCGCATTTGCCTTTTGTTTACAAAATTCTGCATGGAAAGCATCATGAACATATCAGTACCAATTTTTTGAGCCTTTTTGTTCTGCATCCTTTTGAAACCATAGGATTTGGATTAATGATGCTGGTTTTACTCATAGGCTATGATTTTTCTGTGATCTCTATATCAATATATCTTTTGCTTAATCTTATCTGGGGAACAGTAGGACATTTGAACAGAGAATTTTTTCCTGCTTCTTTTGATCGTTTTTTGGTAGGCACCACCAGATTTCACAATCAGCACCATCTGGATGAAAGTAAAAATTTTGGATTTTATACTTCTATCTGGGATAGATTATTTGGGACGTATAAGTAA	MDFNETEFSGYLQDFWQFSWPDWVVFSMIINVFLYLFSIGLYMFIEKTCRKSTLQEKSHPVTRSDFYLSLITVLCNSCILLLGAFLWKYGWIVLQQTQSAVGTVAEVVALLLLMDLLMYFFHLAAHLPFVYKILHGKHHEHISTNFLSLFVLHPFETIGFGLMMLVLLIGYDFSVISISIYLLLNLIWGTVGHLNREFFPASFDRFLVGTTRFHNQHHLDESKNFGFYTSIWDRLFGTYK				NA	NA	NA	NA	NA
BMS003_02141	1035	phy		3-phytase	ATGAAAAACATACATTATATACTGGCTCTTTCAGTTCTTCCTTTAGTGATCAACTGTACAGGGCAGAAAGAAGTAACAGAAAAATTAAAACCTACCGTTATTACAGAAACCGTTGTTCACGATACCGATGATCCTGCTATCTGGATCAATCCTCAGGACGCATCAAAAAGCATCATCATCGGGACAGATAAAGATACTGATGGAGGACTGTACGCCTTTGATCTTAACGGGAAAATCATCAATAAAGTCTTAGGATTAAAACGCCCCAATAATGTGGATATTGAATATAGTTTTGTGCTAAATGGTAAAAAAACAGACATTGCAGCCGTTACTGAAAGGGAAACCAATAAGGTAAAATTATATGCTCTTCCAGGTTTGAAAGAAGTAGGAGAAATCTCTGTATTTGACGGAGAATCAGAACGTGCCCCGATGGGGATTTCAATGTACAAAAACCCGGAAACAGGAGAAATATTTGTGATTGTCGGAAGAAAATCCGGTCCATCTGACGGTTACTTATGGCAATATAAACTTTCTGAAAAAGATGGTTCCATTACAGGAGAAGTTGTCCGCAAATTCGGGAAATACAGTGGTCTGAAAGAGATTGAAAGCATTGCTGTAGATGATGAAATGGGTTATATCTACTATTCTGATGAGCAGTTTGGAGTTCATAAATATTATGCAGATCCGGGAAAAGGCAATGAGGAATTATCCGTTTTCGGAAAAGGTGATTTTAAATCTGATGTGGAAGGTATTTCAATTTATCCTGTTTCCAAAGGAAAAGGATATATTCTGGTTTCAAATCAGCAGAATGATACCTTCAATGTTTATTTAAGAGAAGATCAGTCAAAAGGAAGGATTGCAGAAATTCCGGTTTCTACGCTGGAAAGTGATGGTTCTGAGGTGACGAATGTTAACCTGGGATCAAAATTTCCCAAAGGAGTTTTTGTTGCAATGAGTAATGGCAGGGTATTTCATCTTTACGACTGGAGAATGGTTGAAAAAGCAATACAATCAGCAATAAAAAATAATAAATAA	MKNIHYILALSVLPLVINCTGQKEVTEKLKPTVITETVVHDTDDPAIWINPQDASKSIIIGTDKDTDGGLYAFDLNGKIINKVLGLKRPNNVDIEYSFVLNGKKTDIAAVTERETNKVKLYALPGLKEVGEISVFDGESERAPMGISMYKNPETGEIFVIVGRKSGPSDGYLWQYKLSEKDGSITGEVVRKFGKYSGLKEIESIAVDDEMGYIYYSDEQFGVHKYYADPGKGNEELSVFGKGDFKSDVEGISIYPVSKGKGYILVSNQQNDTFNVYLREDQSKGRIAEIPVSTLESDGSEVTNVNLGSKFPKGVFVAMSNGRVFHLYDWRMVEKAIQSAIKNNK	PGPT0002580_578	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
BMS003_02142	2811	btuB_9		Vitamin B12 transporter BtuB	GTGAAGAAAATTTTTACGTCTGTTTTGTTTTGTGCCTCTATTTTTTTCTATGCACAAACCGGTTCTCTTTCAGGAAATATCAACGATGATTCGAAGATTGCACTGCCAGGAGCCAAAATATCCTTAAGTCCGGGAAATATCTATACCACATCAGATGAACACGGAAATTTTGTATTTCTGAATGTTCCCCCTGGAAGTTACACTATGAAAATTGATTATCTGGGTTATGGCATACATGAATATCATGTAACGGTAGAACCTGAGAAAAATACCCGCCAGAATATCATTTTCGACAAGAAAGAAACCTCAATTGCAGAAGTTGTTGTCTCCGGAGCTACATTAAAAAATCAGGCAAGAGCTTTAAACAAGCAAAAAAACAATGCCAATATTACCAATGTGATTTCATCGGATCAGATTGGTCGTTTTCCTGATGCCAATATCGGAGATGCTCTGAAAAGAGTTCCCGGAATCACAATACAAAACGATCAGGGTGAAGCCAGAAACCTTATCATCAGAGGACTTGCCCCTAATCTTAATTCAGTTACGTTGAACGGTGACAGAATTCCGTCTGCTGAAGGAGACAACCGTAATGTACAGATGGATTTGATTCCTTCCGATATGATTTCCACAATAGAAGTCAATAAAACCCTGACTCCGGATATGGATGCCGATGCCATCGGTGGTTCTGTAAACCTTATTACAAGGGCTTCACCGAACGGACAGAGAATTTCTGCAACAGTGGCCGGAGGATATAATCCTATCCGGGAAAAAGGAAATTATACAGCAGGATTTGTGTATGGAAACCGATTTTTGGATAAAAAGCTGGGTACTGTATTCAGTTTTTCCTATAATAACAATAATTTTGGTTCGGATAATATAGAACCTGTATGGAGCCAGGCGAATGATCTTGCACAAACCATTTATGTAAGCAAAATGGGTATCCGTTATTATAATGAACATCGCATCAGACACAGTTTTGATCTTAATATGGATTATGAATTCAATTCCAAAAACAAGATCTACGCTTCTGCGATGTACAATTTCAGAAATGATAAGGAAACCAGATTCGCACTGGGATATAAAATAAAACCTGTATACAATGCCGATGAAACTGAGATTACAGACTGGAAAGGGAGCATCACGAAACAAAATAAAGGAGGTGACGCCAATAATGACAACACCCGCCTGGAAAAACAGAAAGTTCAGAATTATGCATTAAGAGGAGAGCATTTACTAGGATCTAAAGTAGATCTTGACTGGTCAGTAAACTATGCCATTGCCAGTGAAGACAAACCGCATCAACGTTATATAGAGTTCGAAAACAGCAAGATGAATTTTGCTCCTGACCTCAGTAATCCTGAAAAACCCATGTTCAGTCTGCTGGCATCAGATAATCTGGACAGCTATAAACTGAGTGATCTCTCGGATGCCAACAGCTTTACCCAGGAAAAAGAACTGGGAGCAAAAATGAATGTACGTTTTCCGTTTTCCGTGATTGACGGTCAGAAAGGCAGGCTTCGTACCGGTTTCCGTATGCGTCTGAAGAAAAAAGAAAGAGAGAATGATTTCTATTCTTTTACCCCTGTCAACAGTATGGGAAGTCTTTTATCTGTACCAACCATACATCTTAATGGTCAGAACTTCCAGCCGGGTAATTATGTTCCTGGAACTTTTGTGGACCCTTCTTTCCTTGGAGCGCTAGATCTATTCAATCCCACCTTATTTAACGGCAAGCTCAAACCTGAAAAGTATCTTTCCAGCAATTACAGTGCGAAAGAGCAGATCTATGCCGGATATATCCGTTGGGATCAGGATTTTAATGATCAGTTATCCATGATCGTGGGTGCCCGTATTGAAACCACCCAAATTGATTATACCGGAAACTATGTGATGAATGAAAAGGATCTGGTAGGACAGATTAATAATACCAATACTTACACGAATGTGCTTCCCAATATTTCCTTCAAATATGTTCCGATGCAGGATCTTGTCCTTCGGGCAGCATTTACGACCGCTCTCGCCCGCCCGAATTATTACTCGTTGGTTCCTTACCTGAATGTTATCTCAGAAGATGAAATCGTAGCAGCCGGAAATCCGAACTTAAAAGCAACCTACGCTTATAATTTTGATTTTATGGCTGAAAAATATTTCAAATCCGTAGGGATTCTTTCCGGAGGTATTTTCTATAAAAACCTGAACGATTTCATCTATACCTATTCTAAAAGAAATTATACGGCCAATGACTTCGCCAATGATTTTGCAGGACAAACCAACCCGATTCCTGCCGGAGAAAGCAACTGGAAATTCACCCAGCAGCGTAACGGTGACAATGTAGATATTTATGGTTTTGAAGTCGCATTGCAAAGACAGCTTGATTTTATCCCGGGAGCCTTCTGGAAAGGGCTTGGAGTTTATATCAACTATACCTACACCAAATCCAAGGCAAAAGGAATTACCAATGAAGACGGAATAGAAAGAACAGATGTAGGGCTTCCAGGCGCAGCTCCTCATATGTTCAACGGGTCTCTTTCATGGGAAAACAAACGGTTTTCGGCAAGGGTTTCCATGAACTATGCATCTCATTATATTGATGAACTTGGCGGCAAAGCGTTTGACGACCGTTATTATGATAAACAGTTTTTCCTTGATGCCAATGCTTCCTACAAGATTACAAGCCAGCTGAGAATTTTCGCAGAAGCCAATAATCTGACCAATCAACCGTTAAGATACTACCAGGGAGTTCAAAGCAGAACCGCTCAGGCTGAATATTACAGACCCCGGTTTACAATGGGAGTGAAATTTGACTTTTAA	MKKIFTSVLFCASIFFYAQTGSLSGNINDDSKIALPGAKISLSPGNIYTTSDEHGNFVFLNVPPGSYTMKIDYLGYGIHEYHVTVEPEKNTRQNIIFDKKETSIAEVVVSGATLKNQARALNKQKNNANITNVISSDQIGRFPDANIGDALKRVPGITIQNDQGEARNLIIRGLAPNLNSVTLNGDRIPSAEGDNRNVQMDLIPSDMISTIEVNKTLTPDMDADAIGGSVNLITRASPNGQRISATVAGGYNPIREKGNYTAGFVYGNRFLDKKLGTVFSFSYNNNNFGSDNIEPVWSQANDLAQTIYVSKMGIRYYNEHRIRHSFDLNMDYEFNSKNKIYASAMYNFRNDKETRFALGYKIKPVYNADETEITDWKGSITKQNKGGDANNDNTRLEKQKVQNYALRGEHLLGSKVDLDWSVNYAIASEDKPHQRYIEFENSKMNFAPDLSNPEKPMFSLLASDNLDSYKLSDLSDANSFTQEKELGAKMNVRFPFSVIDGQKGRLRTGFRMRLKKKERENDFYSFTPVNSMGSLLSVPTIHLNGQNFQPGNYVPGTFVDPSFLGALDLFNPTLFNGKLKPEKYLSSNYSAKEQIYAGYIRWDQDFNDQLSMIVGARIETTQIDYTGNYVMNEKDLVGQINNTNTYTNVLPNISFKYVPMQDLVLRAAFTTALARPNYYSLVPYLNVISEDEIVAAGNPNLKATYAYNFDFMAEKYFKSVGILSGGIFYKNLNDFIYTYSKRNYTANDFANDFAGQTNPIPAGESNWKFTQQRNGDNVDIYGFEVALQRQLDFIPGAFWKGLGVYINYTYTKSKAKGITNEDGIERTDVGLPGAAPHMFNGSLSWENKRFSARVSMNYASHYIDELGGKAFDDRYYDKQFFLDANASYKITSQLRIFAEANNLTNQPLRYYQGVQSRTAQAEYYRPRFTMGVKFDF				NA	NA	NA	NA	NA
BMS003_02143	384			hypothetical protein	ATGAAACAATTTATCCAACAAGTATTCAAAGAAGTATTAGAAAATCCGGTATTTGACGAATCATTAATTGAGAAATATTTTTCAAAAGAATACATTCAGCTTGTAGATCATTCTCAGCTGAATTATGACCAATTTGTCCTGCACATCAAAAAGCTTAAAGAAAAAGTAGCCGGACAGAAGCTTGAAATTATCAGCCATGCTGAGAATGGTAATATTATCTTTACCAACCACATTGCAAAATCCACACTAAAAGACGGAAGTGAAGTTTTGCATAAGGTACTGGCAGAATTTACCGTTCACAACCATCAGATTATACGATGTGATGAATTGACTTTACTCGTGGAAGGAGATGAAACTGCAAAAAATTTAGGATCCGAAAGGTAA	MKQFIQQVFKEVLENPVFDESLIEKYFSKEYIQLVDHSQLNYDQFVLHIKKLKEKVAGQKLEIISHAENGNIIFTNHIAKSTLKDGSEVLHKVLAEFTVHNHQIIRCDELTLLVEGDETAKNLGSER				NA	NA	NA	NA	NA
BMS003_02144	534			hypothetical protein	ATGCATATTCCGGATATTCAATCTTTCTTAAAAACCGATCTTCATTTATTAACTGAAGTAACTTATCCTGCTAAAACAATTCTGCTTGAAGAAGGGAAAGTTTCTGATAAGATGTTTCTGATAAAAAACGGTGCATTAAGGGTATTTTTCTATCAGGACGGAAAAGAACTTACACTGGATTTTATAACGGAGAATCACGCTGTTTCATCTTTTGACAGTTTCCTGAACCGCACTCCCAGCGAATTTGTTATTGAAACACTGGAACCCGCTACGGTATATGAGCTTCATGCTGACACGTTTTACAGCCTCATGGAAAATCAGGAGTTTCAGAACACTTTTCATCCGCTTTTTTACAGACGTTTCAGTGAGATCAATAAACGGCTCATCTCCTTTATTAAGGATTCTCCTCAACAGAGATATCAACAACTTCTCAAAAACAGGCCAGAGCTTCTTCTCCGTTTCCCACAGCATTATATTGCCTCTTATCTCGGAATCACAAGCGTTTCATTAAGCAGAATACGCAACCGCAGGTAA	MHIPDIQSFLKTDLHLLTEVTYPAKTILLEEGKVSDKMFLIKNGALRVFFYQDGKELTLDFITENHAVSSFDSFLNRTPSEFVIETLEPATVYELHADTFYSLMENQEFQNTFHPLFYRRFSEINKRLISFIKDSPQQRYQQLLKNRPELLLRFPQHYIASYLGITSVSLSRIRNRR				NA	NA	NA	NA	NA
BMS003_02145	714			hypothetical protein	ATGTTTGAAAAACTGATTGATAGCTTTGAGAAGCTATGCCTGCAGATTATTATTGAAATATTGCTGGTTCCGGTAACCATTTTCAAATTATTCCGGGATCCCCGCCGCTGCTATGATCTTTCTGTACACGAGATGGAAAAGGAAGAAACCGAACGTTTTCAGGACTACCTCTCTCCCATTAAGCTTTCTGTTTATACCTCTGTAATTGTCTCTGTACTTTTAATGGATTATAGTGGTGAACACAATATCATTTCGAAGATCAAAGGATTAAGCATGGTGGAAAAAGCTCTGTTTATCTTTCTGATGAATAATATTACCTCAGTAGCATTCAGTGTAGCTTTATTATGGTACAAAAAAGAGAAAGTAAATACCGCTGCCTTCCGAACATTATTATTTTCATTCATTTATACCACAGTATATACATCTACTCCATTTTTCATATTGATTATTTCTGCAATGTTTTTAGGACAAACCCTGAATGTGGAAGCTTATCTGGATCATCTGGGCAAAATAAGTGAATATGGAACAAGAGATTATATATTTTTCCTGATATTTCTTGCTTTTACTATTATTATCATTATTGGTATCTTTAAGCTTTTCAAAGCCTTACATTATATCCTGAAGAATAACTTCAGTTATCATCCTTATGTCGTATGGTTTTTCACCATACTTTTCTTCCTTATTCAGCTTTACTACGCCAGAGGATTTATTTAG	MFEKLIDSFEKLCLQIIIEILLVPVTIFKLFRDPRRCYDLSVHEMEKEETERFQDYLSPIKLSVYTSVIVSVLLMDYSGEHNIISKIKGLSMVEKALFIFLMNNITSVAFSVALLWYKKEKVNTAAFRTLLFSFIYTTVYTSTPFFILIISAMFLGQTLNVEAYLDHLGKISEYGTRDYIFFLIFLAFTIIIIIGIFKLFKALHYILKNNFSYHPYVVWFFTILFFLIQLYYARGFI				NA	NA	NA	NA	NA
BMS003_02146	882			hypothetical protein	ATGGGAATAATCCTTAAACCAATTGATATTGTAGATGATATTTCACAAGAAGACTTCCGTGAAAAATATCTAAAGCCATGTAAGCCAGTGGTAATCAGAAATATGGCAAGAAAATGGCCTGCCTATCAAAAATGGACGATGGAATACATGAAGGAAGTGGTTGGCGATGTGGAAGTTCCCCTTTATGATAGTTCCAAGGCAGATCCTGCCGCTCCTATCAATACTCCGACAACGAAAATGCCTTTTCGTGACTATGTAGATCTTATTCAGAGAGAACCTACCGATCTGAGAATATTTTTCTTTGATCCTATAAAATTTGCCCCAAAGCTTCTGGACGATTATGTTCCGCCAAAAAATCTGATGGGAGGATTTTTGGATAAATATCCGAGTATGTTTTTCGGAGGAAAAGGTTCAGTGACTTTTCTTCATTATGATATTGATATGCCTCATATTTTCCATACCCACTTCAATGGCAGAAAACATGTCTTATTATTTGAATACAAATGGAAATCAAGACTGTATAAACTTCCGTATGCTACTTATGCACTGGAAGATTATGATATTGCCAATCCTGATTTTGAGAAATTCCCGGCATTGGATGGTATTGAAGGTATTGAGTGTTTTCTTGAACACGGAGATACACTATTCATGCCTACCGGCTGGTGGCACTGGATGAAATACCTGGACGGTTCTTTCTCTATTTCCCTGCGGGCATGGGACAAAAGCTGGGCTGTAAAGGCACATTCTCTTTGGAATCTTGCTGTTCAGCGTAACTTTGATAATTTCATGAAAGGACGATACAAAAAAAGGTATATGGACTGGAAAGAAAGAAAAGCGGTAGAAATAGCGAATAATGCATTAAAAAAAGGACTTCCTAAATAA	MGIILKPIDIVDDISQEDFREKYLKPCKPVVIRNMARKWPAYQKWTMEYMKEVVGDVEVPLYDSSKADPAAPINTPTTKMPFRDYVDLIQREPTDLRIFFFDPIKFAPKLLDDYVPPKNLMGGFLDKYPSMFFGGKGSVTFLHYDIDMPHIFHTHFNGRKHVLLFEYKWKSRLYKLPYATYALEDYDIANPDFEKFPALDGIEGIECFLEHGDTLFMPTGWWHWMKYLDGSFSISLRAWDKSWAVKAHSLWNLAVQRNFDNFMKGRYKKRYMDWKERKAVEIANNALKKGLPK				NA	NA	NA	NA	NA
BMS003_02147	1134			hypothetical protein	ATGAAACTAGGAATCTGTATATGTATTATGTTATCAGGTTTTGGAAATATCAATGCTCAGTCAGCAAAAATTGACCCTGAAAAGCTTCTTGAATATTATGAAACCCAACGTTATGCCGATGCTGCTGCCTATCTTCAGAATATTTACCCAACAGATACAGAGGACATTAAAGCCCTTTCGCAGATAGCTTACTGTAACATGATGGCTGGTAAACTGCCGGAAGCAGAAAAAAACTATCAGAAAATCAATACCATCCAACCGGATAACGTGCCTACTCTCTTCAGCCTGGCCAGCATCAATTCAAGACGTGGCAATACATCCAATGCCAAAGGGTATCTTCAGCAGATTATTGAACTTGACAGTCTCAATTTCAGTGCCTATAAACAGCTTGCTGCTTATGCAGATACTCCGGAATCCAAACTCAATTATCTGAAAAAAGCCAATTCCCTGAACAGTACAGATCCGGATGTAGCTTATGATCTTTCTTTGGCTTACAGTGGTCTCAAACAATTTAAACCCGCTTATGACTTATTGAAAACTGCGATAACCTCCGATATAGAAAATTTTACTTTACAGCAGGCCTTATTACCGGTTGCCAATCAGCTGGGCATGTATACCGAGGTTATTGAAATTGGTGAAAAACTTCTGAAAAATCATGCTGACGTAAATGTAATCAATGATATGGGACAAGCTTATTTTTATGTAAAAGACTACCAACAATGTATCAATCTTTATAAAATACTGGAAGAAATAGGTGTACAGAATGAAAGCACATTATATTTTACTACATTAAGTTATCGTGCACTGAAAGACTATAATAATGCCGCCATCTATGCACAAAAAACAATTAATGAAGCTGTTTCAGATCATACTACCCTCTATTATGCAGCACTGGCTGGGATTTATGAAGCCAAAAGTCAGTATAATGATGCAGTAGCAGCTTACAAAAGAGGGTTAACCTTTGGAACCAGTAATATTATTTATTACCGTCTGGGACTTCTTTATGACCTCAATCTGAAACAGCCGAAAAATGCGGCAGCTTATTATAAGCTATACCTTAAAAACAATCCCGATCAGGAAAAGGAAAAAGAGCAGATTCTGTATGTAAAAGGGAGAATGTCTGGCTTAAAATAA	MKLGICICIMLSGFGNINAQSAKIDPEKLLEYYETQRYADAAAYLQNIYPTDTEDIKALSQIAYCNMMAGKLPEAEKNYQKINTIQPDNVPTLFSLASINSRRGNTSNAKGYLQQIIELDSLNFSAYKQLAAYADTPESKLNYLKKANSLNSTDPDVAYDLSLAYSGLKQFKPAYDLLKTAITSDIENFTLQQALLPVANQLGMYTEVIEIGEKLLKNHADVNVINDMGQAYFYVKDYQQCINLYKILEEIGVQNESTLYFTTLSYRALKDYNNAAIYAQKTINEAVSDHTTLYYAALAGIYEAKSQYNDAVAAYKRGLTFGTSNIIYYRLGLLYDLNLKQPKNAAAYYKLYLKNNPDQEKEKEQILYVKGRMSGLK				NA	NA	NA	NA	NA
BMS003_02148	183			hypothetical protein	ATGGAAATAAAAACTGTGAGATCATTCCTTGATTATTATGAAAAAATAAGAGAAAGGACCAGCCGGATTATCGAAGCGGTTCCCCCTGAACATATTGATTTTACTTATAAATCTGGAAAATTTACCATCGGAGATCAGACCAATGTTTATCTTAAAAAAGTCTTGGAACTTAGAAAGCAATAA	MEIKTVRSFLDYYEKIRERTSRIIEAVPPEHIDFTYKSGKFTIGDQTNVYLKKVLELRKQ				NA	NA	NA	NA	NA
BMS003_02149	495			hypothetical protein	ATGAAGAAAATATTCTCTGAATTGAAAGGTTTCGTGGTGTTTAGTCCACAGCTTTTAGCAAAATATCTGGAAGACAATAATCTTTCAGGTAATAATATTTTAAAATATTTCGTAGAAAACGAACATGGAGATGAAATAACAAAATCAGGAATTGCTATTCCAATAATAGGAGTAGAAGAAGACCATTATACATTCTGTGTTTCAATAAATGATGAAAAGATTTTGAATGATGATGAGGTAGAGGTGGAGTCGAGAGGCTGGATATTTCAGACCAATAACAGTGAAGTAAAAATCGTAGGTATAGGTTATTTAAAGGATATTGCTGCTATTAACAACGAAAATAGTATAACCCTTTCCTTAGAAAATGGATGGTACTCTTTAAAAATACGGGGAGGAAATAAAAATGGTGAAAGATTATTTGAACTTAACATGCAAAAACAGGATATGCATCCTGTTTTTAGCGGAGATGTGACGACGGAATATTATTACGGGTAA	MKKIFSELKGFVVFSPQLLAKYLEDNNLSGNNILKYFVENEHGDEITKSGIAIPIIGVEEDHYTFCVSINDEKILNDDEVEVESRGWIFQTNNSEVKIVGIGYLKDIAAINNENSITLSLENGWYSLKIRGGNKNGERLFELNMQKQDMHPVFSGDVTTEYYYG				NA	NA	NA	NA	NA
BMS003_02151	195			hypothetical protein	ATGGTCACCAATGAGAATTTTTTCTTTGAGAGAGTTTTTGCTGCTGAATTCCATTGGTTTTTTGTTCAAGTAGTAGATTATATGTTTAATGAATTTTATGTTCCTGCTGTTTCATCTTTTCTAAATGGAATTATGGCTAGTTTAAGAATCACTATTTCCCAAATTCAAAATCCTCAAAGGAATTCGTGGAATTAA	MVTNENFFFERVFAAEFHWFFVQVVDYMFNEFYVPAVSSFLNGIMASLRITISQIQNPQRNSWN				NA	NA	NA	NA	NA
BMS003_02152	1305			hypothetical protein	ATGAAAATGCTCAAATTAATTATACACATTATATTACAAATAGTTTTTATTCCTGCTTTGCTGCTAATAGTATATTTGGGGCTAATATATCTTACAGATGGTTTTGGAAAGGGATTGTTAGCCGGTGCATTAAGTATTCTTGCAACGCTCGTTTTAGTGTTTTTAATTTATAAAAAAACTAAAAAATTTAAAACAAGATTGATTTTTGTTAGCTCATTAATACCAGGAGTTATCTTTGTTATATTTGTGGTTTATACTCTAATTCCCGTAGCTTCTTCTGGCAATATCTCTAAAATTGCTGAACTTAAGCAGGTTGAAGTAAGATATTGGAATTTAAAAACAGGAAGCAAAATTGCTTATTTCAAATTATCAGCAAATCCTCGTGTAATAAAAAAAACAGCGCCGATCATTTTTTTACACGGTGGTCCCGGTGCATATGTCAGACAGATTGATATCAATTTTTTCAAGCTGTTTACTGAAGAAGGCTATGATGTTTATCTTTACGATCAGGCAGGTAGCGGAAGAAGTAGTTTAATTCCTAAAAAAGAATATTCTGATGAACGTAATATAATGGATTTTGACGCAATTATTAACATCATCAATGCTAAAAAGTATATTGTTGTCGGTCAGTCTTATGGTGGATCTTTATTGGCTCACATTATGGCAAAAGAAAACCTTAGTAAAAGGATTTATAAAGCGATCTACGCTGAGCCCGGTTTAAGCGTAGCTTCCAATCTTACGGATGATGAGAAAATCTTTTCAAAATCGCATCAGGCACCAACCGGAGACATTAATTTACCTGTGAGACTGCTGATCTCTTTAATGATTTCTCCTAGAGGAGAATTCACTTCTCAAAATGAAATCATTAATTATGTTGTTGATCATGAAAAATTGATACAAGGTTTATTTGCCGAATCGTTTCCGCAAAAAGATGCGAAAAGAATTCCCAAAGTGGAAATTGGTATTATGAATTTCGCAGCGAACAGTATCATCAAGCTCAACGATCTAAAATCTCCTAAAGATCTTTATGAGTCTTATCAAAAATGTCATGTTCCTTCTCTTTTAATTTTAGGTGAAAGTTCCTATATAGAACGCAATGCTCCAATGGATCTTTTAAGAATAAATAATAATATAACAAGAGTGCAGTACATTAAGGGAGTTGGACATATTTTATGGAATGGGTTAGATGGCAACAACCTAGTAGTTAAGAAGGTGATTGATGATTTTTTGAACAATAGGGTATCAAATATCCCCAATTATCCCCAAAGATCTCAGATCAATGTTTTCTTACAACAAAGATTATAA	MKMLKLIIHIILQIVFIPALLLIVYLGLIYLTDGFGKGLLAGALSILATLVLVFLIYKKTKKFKTRLIFVSSLIPGVIFVIFVVYTLIPVASSGNISKIAELKQVEVRYWNLKTGSKIAYFKLSANPRVIKKTAPIIFLHGGPGAYVRQIDINFFKLFTEEGYDVYLYDQAGSGRSSLIPKKEYSDERNIMDFDAIINIINAKKYIVVGQSYGGSLLAHIMAKENLSKRIYKAIYAEPGLSVASNLTDDEKIFSKSHQAPTGDINLPVRLLISLMISPRGEFTSQNEIINYVVDHEKLIQGLFAESFPQKDAKRIPKVEIGIMNFAANSIIKLNDLKSPKDLYESYQKCHVPSLLILGESSYIERNAPMDLLRINNNITRVQYIKGVGHILWNGLDGNNLVVKKVIDDFLNNRVSNIPNYPQRSQINVFLQQRL				NA	NA	NA	NA	NA
BMS003_02153	540			hypothetical protein	ATGAAAACAATTACAGTACCAGGCAAAGAACAGGTTTCTTTAGAATCAAAAGCAATTCTGGAATCAGTGGAAAAAAAAATGGGGAAAATTCCGAACCTTTACGCAACGATAGGGTATTCTTCATCTGCATTAAAAGCAATGTTGGAAACGGAAGCATCTTTGGCTCACGATTCATCTTTTACAGCAAAAGAAAGAGAAGCCATCAACCTCATTGTTTCTCAGGTCAATCAATGTGATTATTGTCTTGCAGCACACACAACAATTGCAAAGATGAGAGGGTTCACCGAAGAAGATACACTAGAAATCAGAAAAGGAGGTTTTTCAGATGAAAAATCTGATGCCATCATTAAACTGGCACAGTCCATCGCCAATAATAAGGGAAGTGCAGAAAACAAAGTTTTAGAAAATTTCTTCAACGCTGGCTATGATGAAAAAGCTCTGATTGAGTTAACAGCATTGGTGGCATTGAGAAGCTTTACGAACTATGTGTTTGCCAATACACAGATTCCTATTGATTTTCCCTTGGCAAAAGCTATTTGA	MKTITVPGKEQVSLESKAILESVEKKMGKIPNLYATIGYSSSALKAMLETEASLAHDSSFTAKEREAINLIVSQVNQCDYCLAAHTTIAKMRGFTEEDTLEIRKGGFSDEKSDAIIKLAQSIANNKGSAENKVLENFFNAGYDEKALIELTALVALRSFTNYVFANTQIPIDFPLAKAI				NA	NA	NA	NA	NA
BMS003_02154	819	rhaR_10		HTH-type transcriptional activator RhaR	ATGAATATCCAGAATTTATACAGCCCCTATGATTTAGAGTTGCTTGAAATCCACAATTATGAGGCAAAGCCACATAAGAACACATTCTTTGAGATGGTTTTTGTTTTAGATGGTTCGGGATTTCAGATCATCAATGACCATCAATTGCCCTACGCACCAGATAAATTATTTTTAATATTTCCACAGGATAAGCATAGTTTTCAAATAGACTCTTTTAGCCGCTTTTTTTTCATCAGGTTTAATAATGACTATCTTAAAACACAAAACAGCCAGAACATCCGTGAACTGGAATATATTTTTAATAGCCACAACCACCTGCCGGGATGCATTCTCAAAACTGTTAACGACAAACCATTGATTCGCGCTGCGGTGGAGGCGCTCATCCGAGAAAAGGAAAACGATTCTCCTCACCGGGACCAGATTATTCAGCAATTGATTAATACAATCATTAGCTATGCTGCCCGCAATCTCACGTTACAGGAAAAGGAGGTGTTTAAAGGGCAAATTTCCGGTGTTATGCCCGTAATCAATTACCTGCACCAGCATATTTTTGAACCTGAGAAATTGAAAGTCAGCAATATAGCCCGAACATTTAATCTTTCACCGAAATATGTGGGGGAGTATTTTAAAAAACATACAGGGGAAAGCTTGCAGCAGTATATAATGTTATATAAATTAAAGCTAATTGAAAGTCGTTTAAAATATACAGATATGCGCATCAGTGAAATTGCTTTTGAATTCGGCTTTACAGATCAAAGCCATTTGAACAGGATATTTAAAAAGTATAAGGGAACTGTTCCCTCTGCATATCGGAAATAA	MNIQNLYSPYDLELLEIHNYEAKPHKNTFFEMVFVLDGSGFQIINDHQLPYAPDKLFLIFPQDKHSFQIDSFSRFFFIRFNNDYLKTQNSQNIRELEYIFNSHNHLPGCILKTVNDKPLIRAAVEALIREKENDSPHRDQIIQQLINTIISYAARNLTLQEKEVFKGQISGVMPVINYLHQHIFEPEKLKVSNIARTFNLSPKYVGEYFKKHTGESLQQYIMLYKLKLIESRLKYTDMRISEIAFEFGFTDQSHLNRIFKKYKGTVPSAYRK	PGPT0017785_268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
BMS003_02155	396			hypothetical protein	ATGAACGATGTATCTTATTTGATGCTACGCATATTAGCGGGTATCAGTTTTTTCGGGCACGGCTTGGTAAGAATACCAAAACTTAATGCATTTAGTCAATGGATGACCGGCGCCTTTTCAAAATCAATATTGCCACAAAGTTTAGTGACGCCTTTCAGCTACATATTGCCCATAGCAGAGTTTCTGATCGGATTGTTACTTCTTTTGGGATTATTTTCTGAGAAGGCTTTTGCCGCTGGATTTGTTGTCATGTTAGTATTGATGTTAGGTACATGCTTGATAGAAAATTGGGAGGCTCTGCCATCGCAGATGATTCATGCTTTAATACTTATTGTACTTTATCAATTTATTGCCGCAAACTCATTTTCACTGGATCATATCATCTTTAAAAAATAG	MNDVSYLMLRILAGISFFGHGLVRIPKLNAFSQWMTGAFSKSILPQSLVTPFSYILPIAEFLIGLLLLLGLFSEKAFAAGFVVMLVLMLGTCLIENWEALPSQMIHALILIVLYQFIAANSFSLDHIIFKK				NA	NA	NA	NA	NA
BMS003_02156	960			hypothetical protein	ATGACGGACAGAAGAACTTTTATAAAGCAGAGTAGCTTGCTTACCACAGCAGGAATTGTAGGAAGTGTGTTGCCATTTTCAACAATGGCACAATCAAAAAAAAGCAAAACAGATCCACAAAATCAAAAGTCAACATGGCTGGATGGTTCGCGTCTGGTCGTATCAGTATCAATGCAATTTGAAGCGGGCGGACAACCTGAAAATGCAGAAAGCCCTTTTCCTCAAAATATGGAAAGAGGATATAAAGATCTGCCGTCAGAAACCTGGTACCAGTACGGCTATAAAGAAGGAATACCTCGTATGCTTGATAACTGGGATAAACTGGGAATCAAAATAACATCACATATGGTCGGAAGTGCTGTGCTTAAAAATCCGTCGCTTGCTAAAGAGATTGTAGACCGTGGCCATGAGGCAGCTGCCCATGGAATGAATTGGGCAACACAATACACTATGGCTTATAACGAAGAGAAAAAGTTTATCAAGGATGGTGTAGATGCTATTAAAAAAATTACTGGCTTCAATGCAATCGGGTATAATGCCAATTGGTTACGACGCGGAGAAAATACGCTTAAGATTTTGCAGGAATTAGGTTTTTTATACCACATTGATGATTTAAGCAGGGACGAGCCCTTCATTCAGAAGGTAAATGACAAAGACTTTGTAACAGTTCCTTACACGTTGCGCTGCAACGATATCCAATTGATCGAGGGAAAAAATTTCTCAGCTGACCAGTTTGTAAATCAGGTCAAAATGGAATTTGACCAACTGTACGAAGAATCAGAAAATCGCAGAAGGCAGATGTCCATCAGCTTTCACGACCGTATTGGAGGCACACCTCAAATGGTTCAGGCAGCGAAGGAGTTATTTACCTATATTAAAAAACATCAGGGTGTAAGCTTCAAACGTAAGGATGAAATTGCACGTATGGCTTTGGAAGATAAGACTACAGTCAGGGAGTAG	MTDRRTFIKQSSLLTTAGIVGSVLPFSTMAQSKKSKTDPQNQKSTWLDGSRLVVSVSMQFEAGGQPENAESPFPQNMERGYKDLPSETWYQYGYKEGIPRMLDNWDKLGIKITSHMVGSAVLKNPSLAKEIVDRGHEAAAHGMNWATQYTMAYNEEKKFIKDGVDAIKKITGFNAIGYNANWLRRGENTLKILQELGFLYHIDDLSRDEPFIQKVNDKDFVTVPYTLRCNDIQLIEGKNFSADQFVNQVKMEFDQLYEESENRRRQMSISFHDRIGGTPQMVQAAKELFTYIKKHQGVSFKRKDEIARMALEDKTTVRE	PGPT0012156_258	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS003_02157	1074			hypothetical protein	ATGAAAACTACACTTAGCCTTTTTATATTATTTCATGTCTTCGGATCAGCGAATGCCCAACTTGAAAAAGTAATAACATCAGACGTTGTTTGGAATGGAGTTACAACAAGTTCAACCGGAAGGATCTTTGTCAATTTTCCAAGAATCGAAGGGGATACTGGCAAGAGAATCGGAGAAGTATTAAAAAACGGTACAATTATCCCGTATCCAGATGCAGAATGGAACAATTGGGAATCCGGAGCGGATGTTAACGAAAAATTTGTTAGAACCAATTCATTGAGGATTGGGCCGGATGGTTTGCTATGGGTTGTAGACACCGGAACACCGTCAATGGGACAAGATCCGCTATCAGAAAATGCCTTGAAATTGGTTTCAATCGATATTGCAACCAATAAAGTTCAACAGGTAATTCCACTCTCGGGAGTTACAAAATCTACAAGTTTTATTGATGATTTAAGGATTTCAGGAAATACAATTTATCTAACAGATGCGGGCAGTCCAGCCTTAATCATTTTAAATAAAAACACAGGGTCAGGAAGAAGAGTTCTGGAAAATCATCCTTCCACGACTGATAATTTACCCATAAGAGCGGAAGGGAAAATTATGAAGGATCAAAAAGGAAATGAGGTAAGAATTCATGCTGACCAACTGGAAATTTCCCCTGATGGAAAATGGCTGTATTTTCAACCTGCCAGTGGACCGCTCTGGCGAGTACCAATCCAATATCTGAATGATGAGAATCTACCTGAAAAAGATTTGGCATCCAAAGTGGAATTGTTCTATAAAACTCCATCTACTGGAGGAACAGCTATTGATACTGATGGAAATATCTATTTAAGTGATATAAACAAAGGTGAAATTATAAAAATTTCACCGGAAGGAAAAGAAAGTCTGGTTATTAAAGACAAACAGCTCCTTTGGGCAGATGCTTTATGGATTGATGACGATGGATATCTATGGATACCGACAGGTCAGCTGAACCGTCTGGCAACCTTTCAAGATGGGAAAAGCAAGGTGAAATTTCCGGTGGTAATCTATAAGATGAAAATCAACGCAAAGCCCGTAAAACACTAA	MKTTLSLFILFHVFGSANAQLEKVITSDVVWNGVTTSSTGRIFVNFPRIEGDTGKRIGEVLKNGTIIPYPDAEWNNWESGADVNEKFVRTNSLRIGPDGLLWVVDTGTPSMGQDPLSENALKLVSIDIATNKVQQVIPLSGVTKSTSFIDDLRISGNTIYLTDAGSPALIILNKNTGSGRRVLENHPSTTDNLPIRAEGKIMKDQKGNEVRIHADQLEISPDGKWLYFQPASGPLWRVPIQYLNDENLPEKDLASKVELFYKTPSTGGTAIDTDGNIYLSDINKGEIIKISPEGKESLVIKDKQLLWADALWIDDDGYLWIPTGQLNRLATFQDGKSKVKFPVVIYKMKINAKPVKH				NA	NA	NA	NA	NA
BMS003_02158	936			2-haloacrylate reductase	ATGAAAGCAATTGTATTAAAAGAAGCAGGAAACGTAGAAAATTTGGAATACGTTGAATTGGAAAAACCAACGATCAGCAGCGGCCAAGTATTGGTAAAGGTAAAAGCCATCAGCATTAATCCGGTTGATGTGAAAAGCCGTGCTGGAAAAGGAGTATATGGCAGAATAAAAACAGAAAATCCATTGATTTTGGGTTGGGATATTGCCGGAATTGTAGAAGAGACACAAAGTTCAGATTTTAAAGTAGGCGATGAGGTTTTCGGAATGATAAATTTCCCAGGACACGGAAAAGCATATGCAGAATATGTAGCAGCCCCGGCTAATCAACTGGCTTTAAAACCTCAAAATATTACTTTCGAAGACGCTGCGGCTTCGACTTTGGTTGCGCTTACGGCATATCAGGCTTTGGTTCACAATGCAGATGTTCAGCAGGGGCAAACGGTGCTGGTTCACGCAGCTTCAGGAGGAGTGGGTCATATTGCAGTACAGATCGCCAAACATTTAGGAGCGAAAGTGACGGGAACTTCTTCGGCAAAAAATAAAGATTTTGTCTTGGGTTTAGGTGCAGATTCACATATTGATTATCACGGTTTCGACTGGGGATCAGCTGGAAGAACTTTTGATTTTGTGCTGGATACAATTGGTGGAGAAAATATAGACCATTCTCTCGAAGTGACGAAAGAAGGCGGTTCTATCATCAGTATTCCAACAGGTCTGAATGAAGAAGTGACATCAAAAGCTGAATCTAAAGGGGTTAAAGGTTATTTTATTCTTGTACAGTCCAATGGTGAAGATATGAAGCAAATTGCTTCTTTATTGAAAAGCGGAGCTATAAAACCTCACGTTTCAAAAACATTTCCATTCGAACAAATGAGAGAAGCACATCTGGAACAGGAAACAGGCAGAACGGTAGGCAAAATCGTAATTACCCTGTAA	MKAIVLKEAGNVENLEYVELEKPTISSGQVLVKVKAISINPVDVKSRAGKGVYGRIKTENPLILGWDIAGIVEETQSSDFKVGDEVFGMINFPGHGKAYAEYVAAPANQLALKPQNITFEDAAASTLVALTAYQALVHNADVQQGQTVLVHAASGGVGHIAVQIAKHLGAKVTGTSSAKNKDFVLGLGADSHIDYHGFDWGSAGRTFDFVLDTIGGENIDHSLEVTKEGGSIISIPTGLNEEVTSKAESKGVKGYFILVQSNGEDMKQIASLLKSGAIKPHVSKTFPFEQMREAHLEQETGRTVGKIVITL	PGPT0013255_9624	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS003_02159	1131			hypothetical protein	ATGAACTTAAAAAATATAGCAATATTGGCCATAGCACTGGTTTCAATAGTTGCCTGCAGCCAATCTCCGAGCCGGACTGATGCAAAATCTAAAAGTGAAATTTCGACAGACAACAACGCACAATTAGAAGAGGTTTTCTCAGACAGTACTTATCAGTTAACTGGTGTTGCCGTTACAAAAAGTAACCGAGTTTTTGTGAACTATCCTTATTGGCTGGACACACATTCTTACTCAGTTGTTGAGGTGAAAGATGGAAACCCCATTCCTTATCCTGATGCAGAATGGAACAGTTTTAAAAAGGGCGAAGACGGTCAAAACAAATTTGTTACTGTGCAATCGGTCGTTACCGATAATAAAGGATTTCTTTGGGTAGTAGATGCAGCAGGAATCGGCCTTGGAAAAGTGTACCAGCACAGCAGTAAAGTTGTGAAAATCAATTTGGCAAACAATAAAATTGAGAGAATCTACAGATTTCCTGAAAATGTTGTGAACGAAGACGTTTACATCAATGATATCCGAGTAGACAATGACAATGGCTATGCTTACCTAAGCAATTCAAATACGGGCGGAATCGTAGTTTTGAATATTAATACAGGAGAATCAAGATTTGTTTTAGCCAATTCTCCGTCAGTTAAATCGGATCCGGATTACCATTTTTCTCCATTAGGAACCGAGCTTAAAAAAGGGGACGGTGCTTTGCTCAAAGTGAATTCTGATGGTATTGCATTAACCCCTGATAATCAATACTTATATTACAAACCGCTTACGGATAACCGTTTGTACAGAATTAAAACAGATGTGTTGAGAAATTTTAAAACAAGTGAAGATACTGTAAATAAAAGTGTGGAAGATCTAGGGAAATTCATCACCACAGACGGGATGATTTTTGACAAACAGGGAAATTTGTATCTGGGAGATCTTGAAAAAAGTTCAATTGTAAAAATTACTCCGGATCTGAAAATGCATACGATTGTAAAGGATGATAAAAAACTGATCTGGCCCGACAGTTATAGTATATCCGATGATGGATATCTGTACATTTCCAGCTCCCAGATTCAGTTGATGCCCTGGTTTCATAATGGTAAGGAACAGTTTAAAAAGCCTTTTAGAGTATTTAGAATTAAAATTTAA	MNLKNIAILAIALVSIVACSQSPSRTDAKSKSEISTDNNAQLEEVFSDSTYQLTGVAVTKSNRVFVNYPYWLDTHSYSVVEVKDGNPIPYPDAEWNSFKKGEDGQNKFVTVQSVVTDNKGFLWVVDAAGIGLGKVYQHSSKVVKINLANNKIERIYRFPENVVNEDVYINDIRVDNDNGYAYLSNSNTGGIVVLNINTGESRFVLANSPSVKSDPDYHFSPLGTELKKGDGALLKVNSDGIALTPDNQYLYYKPLTDNRLYRIKTDVLRNFKTSEDTVNKSVEDLGKFITTDGMIFDKQGNLYLGDLEKSSIVKITPDLKMHTIVKDDKKLIWPDSYSISDDGYLYISSSQIQLMPWFHNGKEQFKKPFRVFRIKI				NA	NA	NA	NA	NA
BMS003_02160	561	rclC_2	COG3059	Inner membrane protein RclC	ATGAAAAACTTTTTAAAGATCATAGCCGAGAGCCAAAGGAACCTTATAAATTTCCTCAGGATAGCAATTTTCGTGGTGATGGCCTGGATTGGAGGGTTAAAAGCCTTCCAATATGAAGCTGATGGGATTGTTCCATTTGTTGCAAACAGTCCTGTGATGAGTTTCTTCTATAACCATCCGGATGAATACAAAGCGCATAAAAATAAAGAAGGTGAACTAATTCCTGCTAATGTCAAATGGAATACGGAAAATGGAACCTACACGTTTGCTTATGCATTGGGTACTGCGATCGTTGTAATTGGTTTACTTACTTTGTTAGGCATCTGGTTTCCAAAAATAGGTCTGGCAGGTGGTTTGTTGACTTTCGGAATGTCCCTCGTTACACTTTCGTTTCTTATTACAACTCCCGAAGCTTACGTACCGGATATTGGCGGTACAGATTATGGATTTCCTTATTTATCGGGGGCAGGCAGATTGGTTATAAAGGATATTATAATGATGGCGGGTGGATTAGTAGTGGCTTCGGATGCAGCACAACGAATTTTAAAAAATTACAACTGA	MKNFLKIIAESQRNLINFLRIAIFVVMAWIGGLKAFQYEADGIVPFVANSPVMSFFYNHPDEYKAHKNKEGELIPANVKWNTENGTYTFAYALGTAIVVIGLLTLLGIWFPKIGLAGGLLTFGMSLVTLSFLITTPEAYVPDIGGTDYGFPYLSGAGRLVIKDIIMMAGGLVVASDAAQRILKNYN				NA	NA	NA	NA	NA
BMS003_02161	411			hypothetical protein	ATGAAAAAGCAACTATTAGCCGCTGTCTTTATGCTACTGGCACTGCGCGTCAGCGCACAACAGGTACAGCATTTTGAGCTGAAAACACTGCCGGTAAAACCAGTAAACGAACTACTAACGCGTGGGATGATTTCGGGAGAACAGGGAACAATCGGATATTTTGTTTATAAAAAAGGTGCTGTAGTCCCTACCCACCAGCATAGTAACGAACAATATTCGCTGATTACCAGTGGCAGTGTGAGGGTGAAAATTGGAGAAAAGGAATACATTGTAAAAGCAGGAGAAGGTATTATTATTCCATCCAATGTACCGCACAGTTTTACGGCTTTGGAAGACAACACGATTGATATTGATTTCTTTGCCCCGGCGCGAAAAGATTGGATAGAAGGAAATGACAATTATTATAAATAA	MKKQLLAAVFMLLALRVSAQQVQHFELKTLPVKPVNELLTRGMISGEQGTIGYFVYKKGAVVPTHQHSNEQYSLITSGSVRVKIGEKEYIVKAGEGIIIPSNVPHSFTALEDNTIDIDFFAPARKDWIEGNDNYYK				NA	NA	NA	NA	NA
BMS003_02162	996	yhfP	COG0604	Putative quinone oxidoreductase YhfP	ATGAAAAAAAAATATTTAGCATTTGAAGTATCAGAAGACACTTCGGGAATTTTTGTAAATAAAATAGTTGAGAAAGAACTCAGTGAAGATATCCCAGAAGGAAATGTTCTGATAAATGTAAAGTATAGTTCGCTCAATTATAAAGATGCCTTATCCGCCAATGGTAATAAAGGCGTCACAAGAAAATATCCGCACGTCCCTGGTATTGATGCAGCAGGTACTGTGGAAGTCTCTAATTCTGCGCTTTGGAAGAGCGGAGATCAGGTATTAGTGACAGGTTTTGATCTGGGAATGAATACCAATGGCGGATTCGGGCAGTTTATTACTGTTCCTGAAAGCTGGATTGTCAGATTACCGCCGGAGCTTTCCGTTAGAGAAGCGATGATATATGGGACGGCGGGATTTACAGCAGGACTATCCGTACAGGCATTATTACGCAACGGAATCACGCCCGAAAAAGGTGTTGTAGCTGTAAGCGGATCTACAGGTGGTGTCGGATCAGTGGCAGTTGCCATATTAGCGAAATTAGGATTTAAGGTGGCAGCGATCAGCTCAAAGGAGGACGCTATTTCTTTTCTGAAGTCACTGGGTGCTGACAAAATTGTAGCTAGAAATGATTTTGAAGACAAAAGTGGAAAAGCCCTCCTAAAACCACAGTTCGCAGCAGCCATTGATACCGTAGGCGGCAATATCTTAGCCACACTGATAAAAAGTCTGCACTATGAAGGTGTGGTCACAACCTGCGGAATGGTAGGTGGCGGAGAACTGAATACATCCGTTTTTCCTTTTATTTTAAAAGGCATTCAGTTGATTGGAATTGATAGTGTGGAAATTCCCCTGGAAAAAAGGCTTTCGGTCTGGGAGCATCTTGCTTCCGATTGGAAACCTGGGCAACTTAATGATCTGGCACACAATATAAGTTTAGCAGAGCTTCCTGAACATATTGATAGGATATATACGGGTAAAATGAAGGGAAGAGCTGTGCTCGAGCTGTAA	MKKKYLAFEVSEDTSGIFVNKIVEKELSEDIPEGNVLINVKYSSLNYKDALSANGNKGVTRKYPHVPGIDAAGTVEVSNSALWKSGDQVLVTGFDLGMNTNGGFGQFITVPESWIVRLPPELSVREAMIYGTAGFTAGLSVQALLRNGITPEKGVVAVSGSTGGVGSVAVAILAKLGFKVAAISSKEDAISFLKSLGADKIVARNDFEDKSGKALLKPQFAAAIDTVGGNILATLIKSLHYEGVVTTCGMVGGGELNTSVFPFILKGIQLIGIDSVEIPLEKRLSVWEHLASDWKPGQLNDLAHNISLAELPEHIDRIYTGKMKGRAVLEL	PGPT0002275_567	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
BMS003_02163	918			hypothetical protein	ATGTGGACAAAAGAAAACATACCTGATCTAACAGGGAAAACAGCACTTGTAACCGGGGGAAATACCGGAATCGGATACGAGACGGTTAAGGCGCTCTATGAGAAAGGTGCAAAAGTTACACTTGCGGCGAGGGATGAAATCAAAGCTTCGGATGCAATCCGTAACATTCAGGAAACTACAAAAGGAACGGGAATTTTGGAAACAGGGATATTGAATTTATCTAACCTTGCTGAAATAAAAACGTTCACAGATAAATTTAGGGCAAATCATAACCAGCTTGATATTTTAATCAACAATGCCGGAGTCATGATACCTCCGGCATCAAAAACCGATGACGGCTTTGAGTTGCAATTTGGAGTGAACTTTTTAGGGCACTTTGCATTGACAGGGCATTTATTTAGTCTACTTCAAAACTCATCTCATGCCAGAGTCGTTACACTTTCCAGTGGCGCCGCTACCTTTGCCAGCAATATTGACTTTGAAAACCTGAGATTGGAAAAGCCCTACAACGAATGGCAATCCTACGCGGTAAGCAAGCTAGCTGATATTCTTTTTGCATACGAACTGGACAGAAAATTAAAAGCAACAGACATCAATATTCTTTCAGTGGCGGCACATCCAGGGGTTACCAAAACCGATTTACAGCGTCACATTCCAATGGAAAGACTGGAAGGAATGTTCTCAGAATTTGAAGAAGTAATGGATCCCTGGCAAGGTGCTTTGCCATCTCTTTTTGCCGCAACGGATGTATCAGTAAAAGGAGGGGAATTTTTCGGACCGGATGGGAAAAAAGAATATGCAGGTTATCCTGCTTTGTCCAAGCACAGTACTCCAGCAATGAATGACAAAGAATTATCTGAAAAATTGTGGAAATATGCTGAAGAAGTAACCCACTTGGATTTTCATTTTCAAATCTGA	MWTKENIPDLTGKTALVTGGNTGIGYETVKALYEKGAKVTLAARDEIKASDAIRNIQETTKGTGILETGILNLSNLAEIKTFTDKFRANHNQLDILINNAGVMIPPASKTDDGFELQFGVNFLGHFALTGHLFSLLQNSSHARVVTLSSGAATFASNIDFENLRLEKPYNEWQSYAVSKLADILFAYELDRKLKATDINILSVAAHPGVTKTDLQRHIPMERLEGMFSEFEEVMDPWQGALPSLFAATDVSVKGGEFFGPDGKKEYAGYPALSKHSTPAMNDKELSEKLWKYAEEVTHLDFHFQI				NA	NA	NA	NA	NA
BMS003_02164	945	nlhH_2	COG0657	Carboxylesterase NlhH	ATGAATAATGAAAGTTTTAAAGAGAGACTGCTTCCAGAGATGAAATTCTTTGCCGACATGCCAACGGAACACTACAATGGTATCGATGACATTTTTGAAATCCGTAAGATACGATGGCCAGAACCGCCAGGCGAACTTCTTAAACAAGTTACATTTACAGATCAAGCTCTTTCAGCTACTGACGACAGGAGCATTATTACTCGGCTATATCGTCCTGTAAAGGATCAGGAAATTAAAAATATTGTAGTGTGGTGTCATGGTGGAGGTTTCTTTTCCGGTAATCTGGATACGGAACACATCAATTGTTTAAATATCGCAGCAGGAAGCAATTCAATAGTATATTCACCCGATTACAGGCTTGCACCTGAATTTCCGTATCCTAATGGGCTTGAAGATTGCTACACTGTACTAAATCATGCCATTTCTTATGCTGAAAAGCATGGGATTCCCAGCGTGATCGTTGGCGGAACTAGTTCCGGTGCAACCCTTGCGGCGGCTCTTACCCTACTTGCTCGCGACAGGGGACTGAAAGGAATAACCAAACAGATACTTCTTGTACCTCCAATTCTTCCGAATGCAGTAAATGCATCGATGGAAGAATTTGAAGAACTTAATGGAGGCTGGGATGCTGTCAATGCAAGGCTGATCTGGAAATACTATCTTGGTGAACAGATTACCGACAATAATGGCTATATGGCTCCCGGTTTAGCGCAGGACCTGTCAGATCTTCCACCTGCCTATGTTGTCACCGCGGAACTTGACCCATTGCGGGATGAGGGCGAGTGGTATGCATCAAGGCTATTAAAAAGTGATATAAAGGTTATACATAAAAATTACAAGGGAATAACCCACTATTTTTTGGCTGCAGCGGGATCGGAATTCTTTAAGGCATTTACTGAAGACCTGCTAACTGCGATTAACAGCCCAAATATATGGCTGGACTAG	MNNESFKERLLPEMKFFADMPTEHYNGIDDIFEIRKIRWPEPPGELLKQVTFTDQALSATDDRSIITRLYRPVKDQEIKNIVVWCHGGGFFSGNLDTEHINCLNIAAGSNSIVYSPDYRLAPEFPYPNGLEDCYTVLNHAISYAEKHGIPSVIVGGTSSGATLAAALTLLARDRGLKGITKQILLVPPILPNAVNASMEEFEELNGGWDAVNARLIWKYYLGEQITDNNGYMAPGLAQDLSDLPPAYVVTAELDPLRDEGEWYASRLLKSDIKVIHKNYKGITHYFLAAAGSEFFKAFTEDLLTAINSPNIWLD				NA	NA	NA	NA	NA
BMS003_02165	576	bm3R1		HTH-type transcriptional repressor Bm3R1	ATGCGTACTAAAGATGAATCTAAACTCCGTGCATTGTTTGCCAGCACGCTCGAGCTAGTTGCTGATACCGGACTTTCCGGCCTTACGATGTCAGCAGTTGCTAAGGGAGCAGGACTGGCCACAGGAACGACTTACCGTTATTTTAGCGGGAAGGATCAGCTCCTTTCCGCTTTATATCGGGATATAAAGAAAAACTTTAGCCAAGAGGTTTTTGAGCAAATACCGTACAGTGGTTCATTAAAGTCAAATCTCCGGGCAATGTGGGATAATTATCTGGATTTTTTGATTTTAAGACGTAAGGAAAGTATTTTTCTCCAGCAATTTAACCATTCGCCCTATATTAATGAAAAGGAAAATCTAAATCTGGCGTTAGAGGTCATGGATCCTCTTCTTGCGCTTTTCAGAGAAGGTACTCACAAAGAAATCCTCAGAACGGATGAAGAAGGACTGCTATTTCCTCTATTTGCAGCGTTTCTTGAACAGTGCGCCATAAAAATCATAGCCTCTCCTGATGAAGCGAAATCCGACATATCGAAGGCAGGTTTCGAAATGTATTGGAATGCAATAAGAGCATAA	MRTKDESKLRALFASTLELVADTGLSGLTMSAVAKGAGLATGTTYRYFSGKDQLLSALYRDIKKNFSQEVFEQIPYSGSLKSNLRAMWDNYLDFLILRRKESIFLQQFNHSPYINEKENLNLALEVMDPLLALFREGTHKEILRTDEEGLLFPLFAAFLEQCAIKIIASPDEAKSDISKAGFEMYWNAIRA				NA	NA	NA	NA	NA
BMS003_02166	891	rhaS_7		HTH-type transcriptional activator RhaS	ATGCAACATTATAAAACCCTTACTGACCTACATTTAGGAAATAATTGGGATCCACCGGAACATCCTCTCTTCAGTATGATTGGCTGTCAGTCTGCGTGCAAACTGGGAAACAGAGAGTTTACAACCGATTGCTATGTGATAGCTTTCAAGAAAATAAAGTCCGGAATTTTCATCTATGGACGTACACCGTACGACCATAATAACGGCTGTCTTTTTTTTGCAAAACCAAGACAGATTATCGAAATGAAAAACCTTGAGTTTGAGGAAAAGGGGTATATGCTCATGATTCACGAAGATTACCTAAATGGACACGAGCTATTCAAGGAAATTGAAAAATACAGTTTTTTTGATTATGAAGTGACCGAGGCTTTGCATCTTTCACCAAAGGAAGAGCAAATTATCTTAGAACTTCATTCGAAAATTCAGGGGGAGTATTTTAATAACCCGGATGAATATAGCCGAGAAATAATTCTGAGCCACATATCCTCAATTTTAAAATATGCACAGCGATATTACAAGAGACAGTTTCTCGACAGAGAGCAGGTAAACGGAAAAACTGCTTCCAAATTCAATGATGCATTAAGAAAATACATCAACGAAGGTTTAATGGCAAAAAACGGACTTCCGAACGTATCCTTTCTAGCGGAACAACTATTTGTTTCTCCGAGATACTTAAGTGATCTGCTAAAGCAGGAAACAGGAAAAACGGCTATGGAACTCATACATATTTTTATGATTTCCGAAGCTAAAAACCTGTTGAGGCTGGGAGAAAAAGGAGTAGCAGAAATCGCATATGAATTAGGTTTTGAAAATGCATCTTATTTCACAAGATTATTCAAGAAACAAACGGGGATGAAACCTCTGGAATTTAGAAAATCCCATATGAATTAA	MQHYKTLTDLHLGNNWDPPEHPLFSMIGCQSACKLGNREFTTDCYVIAFKKIKSGIFIYGRTPYDHNNGCLFFAKPRQIIEMKNLEFEEKGYMLMIHEDYLNGHELFKEIEKYSFFDYEVTEALHLSPKEEQIILELHSKIQGEYFNNPDEYSREIILSHISSILKYAQRYYKRQFLDREQVNGKTASKFNDALRKYINEGLMAKNGLPNVSFLAEQLFVSPRYLSDLLKQETGKTAMELIHIFMISEAKNLLRLGEKGVAEIAYELGFENASYFTRLFKKQTGMKPLEFRKSHMN	PGPT0017485_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_02167	825			putative oxidoreductase	ATGAGCAAAATAGTTTTTATCACCGGAGCATCAAAAGGATTTGGAAAATTATGGGCTGAAGCCCTTTTGCAAAGTGGAGACAAAGTGGCGGCAACAGCAAGAAATATTTCTGCCTTACAAGATTTGAAAGATAAATATGGAGACAATATTCTTGCTTTGAAACTGGATGTCAACAACAGAACAGAAGTTTTTGAAGTAACCGAAAAAGTAGAAAAATATTTCGGAAGAATTGATGTATTGATTAATAATGCAGGTTTTGGCCTATTCGGAACTACGGAGGAAACAACAGAGCGGCAGGCGAGAGATCAGATGGAAACCAATTTTTTCGGCTCGCTTTGGGCTGCCCAGGCAGTATTACCAGTGATGAGGAGACAAAAAGGCGGACATATTATTCAAGTTTCCAGCTTTTTGGGACTTACGACTTTACCGCTTTTAGGAATATACAACGCTTCGAAGTTTGCAGTGGAAGGATTAATTGAAACAATCGGCTTGGAAACAGCACATCTGGGAATTAAAACTACTTTAATTGAACCCAACGGATTTGCAACTGATTGGGCAGGAGTTTCTGCTATTCAGACTTCCTCAGACATAGCAGATTACAATCCTGTACGTACTGCTTTTGCTGAAAGCGGATCAGATCCTGACACTTGGGGGAAACCGGAAGCAACAATAGATCCTGTTTTAAATCTTATCGACAATCAAAACCCTCCGCAACGGTTACTTCTTGGTAAAATTGCCTACCATGCAATGAATGAAGTATATGCAAAAAGGCTGGAAGAAATCCAAAGTTGGAAAGAGGTAAGCATCGCGGCACACGGACATTAA	MSKIVFITGASKGFGKLWAEALLQSGDKVAATARNISALQDLKDKYGDNILALKLDVNNRTEVFEVTEKVEKYFGRIDVLINNAGFGLFGTTEETTERQARDQMETNFFGSLWAAQAVLPVMRRQKGGHIIQVSSFLGLTTLPLLGIYNASKFAVEGLIETIGLETAHLGIKTTLIEPNGFATDWAGVSAIQTSSDIADYNPVRTAFAESGSDPDTWGKPEATIDPVLNLIDNQNPPQRLLLGKIAYHAMNEVYAKRLEEIQSWKEVSIAAHGH				NA	NA	NA	NA	NA
BMS003_02168	588	yvdD	COG1611	LOG family protein YvdD	ATGAAATTAAATAGAATTACCGTTTTTTGTGGTTCTAGTTATGGAACCGAAGCAATATATGAAGAGACGGGTATTGAATTAGGGAAAATTTTAGCAATCGAAAATATTGGACTGGTTTATGGAGGTGCCAACGTCGGTTTAATGGGTAGTATAGCCGATAGTGTTATGAAAAATAACGGAACCGTAATCGGTGTATTACCTCATTTTTTGAAAAGAAAAGAAATTGCACATCAACATCTTTCAGAGCTTATTCTTGTAGATACTATGCATCAGAGAAAGACAAAAATGAATGAACTTTCTGATGGTGTTATTGCTCTCCCGGGAGGATTTGGAACATTAGAAGAATTGTTTGAAATGCTTACTTGGGCACAATTAGGGCTTCATCAGAAACCTATTGCTTTACTAAATATTGATGGTTTCTACAATGAACTTTTATCCTTTCTGAAAACAATGATTGATAAAGGGTTTCTTAAACAAATTTATTTTGATATGATTATAGTCGACAATGATATTTCTTCTTTGCTGAAAAAAATGAAAAATTTCAAAGCACCTACAGTAGCGAAGTGGATAACAAAAGAACAGATGTAA	MKLNRITVFCGSSYGTEAIYEETGIELGKILAIENIGLVYGGANVGLMGSIADSVMKNNGTVIGVLPHFLKRKEIAHQHLSELILVDTMHQRKTKMNELSDGVIALPGGFGTLEELFEMLTWAQLGLHQKPIALLNIDGFYNELLSFLKTMIDKGFLKQIYFDMIIVDNDISSLLKKMKNFKAPTVAKWITKEQM	PGPT0007225_498	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
BMS003_02169	912			hypothetical protein	ATGTGGACAAAAGAAAATATGCCTGATTTGACAGGTAAAACAGCCATTGTAACCGGAGCCAATACAGGCATCGGCTACGAAACGGCAAAGGCGTTATATGAAAAAGGAGCCAATGTAATTATTGCTTCAAGAGATAAAAATAAAATTGAAGCTGCCATTGAGCAAATTAAATCATCTACAATAGGAAATGGAACTTTAGAGGTTGGCATGCTGAATTTAGCAAATCTTGCACAGATAAAATCTTTTGCAGATGAATTTAAAAGCAGTCATTCAAAACTTGACATTTTAATCAATAATGCTGGCGTGATGATACCACCGGCATCTAAAACCGATGACGGATTTGAGTTGCAGTTTGGAGTAAACTTTTTAGGTCATTTTGCATTGACAGGACATCTATTTCCATTATTGAAAGCATCTCCAAATGCAAGAGTGATTACGCTTACCAGCGGGGCGGCAACATTAACAGATGGTATTGATTTTGAAAATCTGAAATTGGAAAAACCGTACAGCGAATGGCAGGCTTATGCGGTAAGCAAGTTGGCTGATATTCTGTTTACTTACGAACTCGACAGAAAAATAAAAGGAGCGGATTTAAAGATAATTTCTGCGGCTTCGCATCCCGGCGTTACCCGAACCGATTTACAACGTCATATTCCCGGAGAGCAATTGGAAGGGATGTTCGCTGAATTTGATGAAGTGATGCAGCCCTGGCAAGGTGCATTACCTTCTCTTTTTGCAGCTACGGATGCATCCGTAAAAGGAGGTGAGTTTTTCGGTCCTGATGGCGAGAAAGAATATTCAGGTTATCCTGCTTTGTCTAAGCATAATACCCCAACAATGAATGACAGAGAACTGGCTATAAAACTGTGGAAATATGCTGAAAATGAAACTCAAATAAAATTTTGGTCATAA	MWTKENMPDLTGKTAIVTGANTGIGYETAKALYEKGANVIIASRDKNKIEAAIEQIKSSTIGNGTLEVGMLNLANLAQIKSFADEFKSSHSKLDILINNAGVMIPPASKTDDGFELQFGVNFLGHFALTGHLFPLLKASPNARVITLTSGAATLTDGIDFENLKLEKPYSEWQAYAVSKLADILFTYELDRKIKGADLKIISAASHPGVTRTDLQRHIPGEQLEGMFAEFDEVMQPWQGALPSLFAATDASVKGGEFFGPDGEKEYSGYPALSKHNTPTMNDRELAIKLWKYAENETQIKFWS				NA	NA	NA	NA	NA
BMS003_02170	873	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase	ATGAACAAACAGAAAATAGTATTCATAACCGGAGCAACTGGAGGTATAGGAAAAGCCGCAGCCATTGCTTTAGCAAAGCAAAATTACCAGGTAATTATACACGGAAGAAATGAAGAAAAAGCAAATATAATTTGTGAAGAAATCAAGAGTATTTCAGGCAACGAAAACATAGCGTATATCGCTGGCAATTTGTTCCTGATGCAGGATGTAAAGAAAGTTGCAGACACCTTTAAGGCAAAGTATGACAGATTAGATGTCCTTATCAATAATGCAGGTGGTATTATGAGCAAAGAAAGAGAAGAAACGAATGAAAATGTAGAAACGACCATCGCCCTAAATCTCTTGGCTCCGTTTCTACTGACCAACTTATTATTAGACGTTTTAACCAAAAGTGAAGATGGCAGAATTATCAATGTTTCCTCTAACTCGCATCAGCTAAATGCAAAGCCCGATTTGAATGACATTGAATTAAAACAGAACTACAATCCGCTTGCCGCTTATGGAAATGCTAAACTGTATCTTATTTGGATAAGCCAGTATCTTTCCAACGAATTGATAGCAAAAGGTATAAAGAATGTTTCTGTCAACACGCTGCATCCAGGAGCAGTCGCTACCAATTTTGGTGTGAATAGTAATTTAGGAGGCTTGCTGAATTTCTTCGGGAAATTAGCCAGACCGTTTTTTAAAACACCAGAACAGGGAGCTGAAACGATACTTTACTTAGCAACTTCCAATGAGGGAAAAAACATTACCGGAAAATACTTTGAAAACAAAAAAGTGAAACAGGCTTCTCAAAAATATTACAGTATGCAAAGCGAAGCATTGATTTGGGAATATTGTAAGACAAAAACAGATGAACTATTAAACAAATAA	MNKQKIVFITGATGGIGKAAAIALAKQNYQVIIHGRNEEKANIICEEIKSISGNENIAYIAGNLFLMQDVKKVADTFKAKYDRLDVLINNAGGIMSKEREETNENVETTIALNLLAPFLLTNLLLDVLTKSEDGRIINVSSNSHQLNAKPDLNDIELKQNYNPLAAYGNAKLYLIWISQYLSNELIAKGIKNVSVNTLHPGAVATNFGVNSNLGGLLNFFGKLARPFFKTPEQGAETILYLATSNEGKNITGKYFENKKVKQASQKYYSMQSEALIWEYCKTKTDELLNK				NA	NA	NA	NA	NA
BMS003_02171	351	ytcD_2	COG1733	putative HTH-type transcriptional regulator YtcD	ATGTCAAAGAAAAAAGAACATCGTCAGTGTGATGCAGCAACGCTACGAGCTATTCGTGATGCAATGGAAACTCTAAACGGAAGTTGGAAGCTGTCCATATTATTAGCCTTGAAAGGTGGTGCAAAACGCTTTCGGCAAATTGCCAGAGAGGTAGAAGGTATCAGTGATAAAATGTTGTCTAAAGAATTAAAAGATTTGGAAACAAACTTATTAGTTAAGCGTACTGTTTACGATACTTTTCCGCCAACTGTTGAATATGACATTACCGAACACGCCGACACTTTGCAGGAAGTAATGCAGGCTCTTACCAAATGGGGAAAACTGCACCGGAAAAAAATCACAGGCTCTTAA	MSKKKEHRQCDAATLRAIRDAMETLNGSWKLSILLALKGGAKRFRQIAREVEGISDKMLSKELKDLETNLLVKRTVYDTFPPTVEYDITEHADTLQEVMQALTKWGKLHRKKITGS				NA	NA	NA	NA	NA
BMS003_02172	453			hypothetical protein	ATGCAAAAACGAGTAAACATCAACTCCGCAGAACCCAATGCTTTAAAGGCAATGATGGGTTTGGAAACTTATTTAGCACAGGTTTCCATTTCTAAAACAACCAAAGAGCTGATAAAAATACGGGCTTCGCAAATCAATGGCTGTGCTTATTGTATAGATATGCACACCAAAGATGCTTTGAAAAACGGCGAAACCAATCAGCGTATATTTTTACTGAATGCGTGGAAAGAAACCAACGCTATTTTTACCGATGAAGAGAAAACTGTTTTGACAATTACCGAAGAAGTAACCCTGATACATCAAAATGGATTATCAGACGAAACTTATGAAAAGGCATTACAGTTTTTCAATGAAAATCAAATTGCAGAAATAGTAATGGCGGTAATTACCATCAATGCTTGGAACAGAATTGCCATTATTGGACATTTTCAGCCAGGGCAAGGCTTTGCTTAA	MQKRVNINSAEPNALKAMMGLETYLAQVSISKTTKELIKIRASQINGCAYCIDMHTKDALKNGETNQRIFLLNAWKETNAIFTDEEKTVLTITEEVTLIHQNGLSDETYEKALQFFNENQIAEIVMAVITINAWNRIAIIGHFQPGQGFA				NA	NA	NA	NA	NA
BMS003_02173	381			hypothetical protein	ATGAATAAAGAAGATTTAATAAGCCTTACAAAAGAACATATACATGAGGCGACTCATTACAATGTAGAATTTTTGAAAAAAGTCTATTCAGATAATGTTATGTACGTGATGGTGAATGAAAAAGATGAAATCAGCACAATGAGTAAAACAGATTTGATAAATTATTTTACACACAGGCAAAATGCGGGAATGACTCCATTATCAGAAACCAGTGACTTTTTATATGCCGATGCTGATGAAAATACAGCTATGGTTATTGTAAATAGAGAAATGGAATTCAACGGGAGGTTAGAAAAAATGCTTTTTACATTAATCTGGGAAAAAACAGATGCGGGATGGATTATTTGTAAAGAATCGGTTTCGGTGAAGCCTATCGAATAA	MNKEDLISLTKEHIHEATHYNVEFLKKVYSDNVMYVMVNEKDEISTMSKTDLINYFTHRQNAGMTPLSETSDFLYADADENTAMVIVNREMEFNGRLEKMLFTLIWEKTDAGWIICKESVSVKPIE				NA	NA	NA	NA	NA
BMS003_02174	750	dauE		Aklaviketone reductase DauE	ATGCAATATATGAAAAATAAAATTCTTGTAACCGGAGGATCATCTGGGATTGGTTTAGGAATTGCCAAAAAGTTTTATGACAAAGGATGGAGTGTCCTTATTACTGGAAGAAACAAAGATAAGCTAAATGATATACTTGGCTCAATGCCTGGTATACACACCTTGGAATATAATAGCTCAGATGAACAACATATTCAAGAGTTAGTTCATTTTATTGAAAAACAATGGGATGGGAAATTGGATATTCTGGTTAATAGTGCTGGAAATGTAGAATTAGGAAGTTTGAAAGATCTCACTAAATCCTCTTTGCAAAGTATGTACGAAGCTCATTTAATTGGACCATCGCTACTTGCTTCAAAATGTTTGAATTATTTAGCCGCAACAAAAGGAAAAATCTTAAATATAACAAGCAGCCATGGCATTAAGACCTACCCTAATATTAGCGCCTATGGATCAGCTAAAGCAGGACTGAATATGTTAACAAAAATTTGGGCTTTAGAATTAGCACCTTTAGGAATTACAGTAAATGCGATAGCTCCCGGCCCTACGAATACGGATATACTAAATTCCGCAGGATTTGACGATGAAACAGTACTTGCTATTCAAAAAAGTGAAAAAAGCCAAATTCCACTACGACGTAGAGGAAATGTTGAAGACATAGTTTCTGCAGCAATGTTACTCTTAAATTCAGAAGCAGGTTGGGTTACAGGGACAATCATTCCTGTTGACGGAGGAATTTCAATATCATAA	MQYMKNKILVTGGSSGIGLGIAKKFYDKGWSVLITGRNKDKLNDILGSMPGIHTLEYNSSDEQHIQELVHFIEKQWDGKLDILVNSAGNVELGSLKDLTKSSLQSMYEAHLIGPSLLASKCLNYLAATKGKILNITSSHGIKTYPNISAYGSAKAGLNMLTKIWALELAPLGITVNAIAPGPTNTDILNSAGFDDETVLAIQKSEKSQIPLRRRGNVEDIVSAAMLLLNSEAGWVTGTIIPVDGGISIS				NA	NA	NA	NA	NA
BMS003_02175	354	hxlR_2	COG1733	HTH-type transcriptional activator HxlR	ATGAGTTATAGCAGAAGAACAACCATCAATTGTGAAAATAATCCAGAAGCAGATTGTACCATAGAAGCTTCTTTGTCTATTTTAGGAGGGAAATGGAAATTGAAAATCTATAAGGCATTACGTTCCGGAAAACCTTTACGTTTTACCGAGATAAAGGAAAGATTAAACCCGATTTCAGATAAAACCCTGACATTGCAACTTAAGGAAATGGAAGAGGACAAGCTTATATTAAGAGAAGTTTTTCCTGTCGTACCACCAAAAGTGGAATATCAATTAACAGATTTGGGAAAATCTTTGGAAGATATTTTTGTAGCATTGGAAAAATGGGGAAAAACCTACATAAATCAACGATAA	MSYSRRTTINCENNPEADCTIEASLSILGGKWKLKIYKALRSGKPLRFTEIKERLNPISDKTLTLQLKEMEEDKLILREVFPVVPPKVEYQLTDLGKSLEDIFVALEKWGKTYINQR				NA	NA	NA	NA	NA
BMS003_02176	171			hypothetical protein	ATGGAATTTGCCGGAATGTTTCAGGAAAAGAAATTTCGGAAGAAGCGGTTTATCGTACAACCTGATTTTGTTACCCCCTACCGCTATTATATCCTTGACGGAGCATTACGTTCTTTTATCGTTGACGATAACGGACAGGAGACCACTATTGCTCTGGCGATAGCAAACTGA	MEFAGMFQEKKFRKKRFIVQPDFVTPYRYYILDGALRSFIVDDNGQETTIALAIAN	PGPT0000515_2910	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_02177	249			hypothetical protein	ATGAACAAATTTTACAATGAAATATTATTTAAGCTGAAACCGGAAATTAAGGAATTAGAGATTGAAACCGACTTCCCAATACAACACATTGAAAGCGTCATACCCATTATTTTACAATGTCTTTCAGAATTAAAAGAGTATGTTTTAAAATACGGATTTGAGAATATGGAAGAGGAAATCAATTTTTTCAAATATCAGAAACCTGTTATCGTTGCAAACGGATTTATTACAGTCTCGAAGAGACTGTAA	MNKFYNEILFKLKPEIKELEIETDFPIQHIESVIPIILQCLSELKEYVLKYGFENMEEEINFFKYQKPVIVANGFITVSKRL				NA	NA	NA	NA	NA
BMS003_02178	1164			hypothetical protein	ATGAAAACATCCATTAATTTTAAAGCGGTTAAAGCAGATTCCGAGGCTCATAATTTTCGGAAGAAAACTTTTGACTATATCTGTAAAGAGCTGACACCCCTAAATGAATATTGGCAGGAGGATAAAATAGCGGACAGAATTCAAAAAATAGAAGCGTACTGTAAAGAAAAATCAGGAAGAAAATTACAGAAAAATGCCATGCCTGTTCGTGAAGCCGTAGTGGTGATTAAAGAAGACACCACCATGAGAGAATTACATGATCTTGCAAAAAAACTGGAACAAGAGCTTGGGATAAGAATATTTCAGATTGCCATTCATAAAGATGAAGGTCATGCTGATAAAGAAACCGGAGAATGGAAACCTAATTTCCATGCTCATCTAGTTGCAGACTGGCAGGATCAGAAAACAGGAAAAACTCTGAAACACCAATCTTTTCATTATTCTAAAATGCAGGATCTGGCAGCTGAGTGTCTGGGAATGGAAAGAGGAGTCTCAGGATCAGTCGGAAGACTGGAAGCCGTTGAATTCAAAATACAGAAAAAAGAAGAGGAATTAAAAGCATTGGAAGAGAAAATAGATACAATGAAAATGCATCTCAGTTCTGGAAAATTCAACGACCTAATTGTGAATGATACTAATTTTTTCGGAGTGCAGCAGATCAAGACTAAAGAGACGATCGCTAATTTTGGCAATACTTTTAAACTGTATAACACGGAATTACTCAAAAACGGTAATGAGCTCGATAGTAAAACCAAGCAGATTACAGAGTTTCGCAAAGAAATCACAGATCTAAAAAAAGAAAACACTCAGCTTAAAGGCAAAAACACATCACTTTTAACAAATGCAGATGTTTTTGCTTTGGAAAAGAAAAAATATTTGGACTCTGTTATAGATGCGCTGGAAAAGGCGATCCGTTTTCAGCGGTTTAAAAATCCTATGACTGACAGATCGGATGACAAGAATCTTTTGCAGGAGATGAATGAAATATGCAAAGAGTTTTCCCAAAAGAATCATATTCCTTTTTCTGCTTTAGAACAAATATTCACCATAACAGAATTGGCAGCAGGATTATTTTCACTTCTGAGACTGGGAGACGGAAATGATATTGAGCCGGAATACATTCCGGTACCCAAGAAAAAAAAGAAAAGAAGGAATATCAGGTAA	MKTSINFKAVKADSEAHNFRKKTFDYICKELTPLNEYWQEDKIADRIQKIEAYCKEKSGRKLQKNAMPVREAVVVIKEDTTMRELHDLAKKLEQELGIRIFQIAIHKDEGHADKETGEWKPNFHAHLVADWQDQKTGKTLKHQSFHYSKMQDLAAECLGMERGVSGSVGRLEAVEFKIQKKEEELKALEEKIDTMKMHLSSGKFNDLIVNDTNFFGVQQIKTKETIANFGNTFKLYNTELLKNGNELDSKTKQITEFRKEITDLKKENTQLKGKNTSLLTNADVFALEKKKYLDSVIDALEKAIRFQRFKNPMTDRSDDKNLLQEMNEICKEFSQKNHIPFSALEQIFTITELAAGLFSLLRLGDGNDIEPEYIPVPKKKKKRRNIR				NA	NA	NA	NA	NA
BMS003_02179	1032	dnaG_2		DNA primase	ATGAACTGCAAACAGCTCAACACGATAGCGTTGGAAGAAGTCCTGCGGGCACTCGGACACCTTCCAACGAAACAAACGGAAAAAGAAGCTTGGTATCTCAACCCTTTTGCCGTCGAATCCCAAGCCTCTTTTAAAGTTGACAGGCCGATGAACCTCTGGTACCTCTTTTCAGAAGGTGCGGGCGGTACTACTACCGATTTTATGCAGAAATATTTAAATACTTCTGTAAAAGGTGTCCTTGAATGGGCATCACAGCAAAATTTTTCTTCTTTTCACCAGCAAATAAATAGCTCAATTAGGAAAGTATCGCCCGAATATAGGATCGAAAAGGTAATAGCCCTGACAAATCCAAAACTTATAAACTATCTTCGGGATAGAGGGTTATCATCTAAAGTTGACCGTTATGTAAAGGAAATCTGGTATACCAATAAAGATAAACACTACTATACCATAGGATTCCAGAACCGTTCAGGTGGATGGGAGCTCCGCAATCCTTACCACAAGGGGTCATTACTGAACAAGGATATCTCTATATTGCAAATAAGTCCAGCAATCAAGAATGCTGAAAATTTAAAAGTTTATCCTGATAGAGCTCTTGCAGTATCTCATGACAATATCCCCGATAGAAAGGTTGTTGTACTGGAGGGCTTCATGGATGCGCTCTCGTTTATTGAGCTGAAAAGCAACTACCAGGGCGACCTGCTTGTTCTCAACTCGGCAAGTTTACTCAAACTCGCCATTAAGCTCCTCAAAGGATACAATGAAATCAGCCTATTTCTGGACAACGACAAGGCGGGGCGCAAATGCACCAAAGAAATTGTAAAGGCTTATCCCCATGCAAAGGACTTTTCCAATATCTATTCTGAGCATAAAGACTTAAATGAGTACCTCATGGAAAAGAGAGGGCAAAAGTTTGTAGCTACACCAAAGACAGAGTCTGCTGCGAAACAGGAAAATGAATGTGCAGAAAAACAGGAATCGTGCAAGGAAGAAAAAAACAGACCAACGAAAGGGTTGCGCAGAAGGATGTAG	MNCKQLNTIALEEVLRALGHLPTKQTEKEAWYLNPFAVESQASFKVDRPMNLWYLFSEGAGGTTTDFMQKYLNTSVKGVLEWASQQNFSSFHQQINSSIRKVSPEYRIEKVIALTNPKLINYLRDRGLSSKVDRYVKEIWYTNKDKHYYTIGFQNRSGGWELRNPYHKGSLLNKDISILQISPAIKNAENLKVYPDRALAVSHDNIPDRKVVVLEGFMDALSFIELKSNYQGDLLVLNSASLLKLAIKLLKGYNEISLFLDNDKAGRKCTKEIVKAYPHAKDFSNIYSEHKDLNEYLMEKRGQKFVATPKTESAAKQENECAEKQESCKEEKNRPTKGLRRRM				NA	NA	NA	NA	NA
BMS003_02180	279			hypothetical protein	ATGCAGACAACAAATCCATTTCAGATTATCCTTGATGAACTCAGACACATCAAACAGCTGATTGTTTCAATTCAGAATGAACCCGAAAAAGAACTTAGGAAGACCTATTACTCTATCAAGGAGTGCTCAAAAATACTTAAGCTCGACTATCAGACTGTACGTGCGCATATTCTTAAAGGCAATATAAAAGCCGAGCAGATCGGAAGGTTCTACAGAGTCAACCACGCTCATTTAATGGAAGCCCTCAGTGAGGTGAAATCACTTAAATACAAACGATAG	MQTTNPFQIILDELRHIKQLIVSIQNEPEKELRKTYYSIKECSKILKLDYQTVRAHILKGNIKAEQIGRFYRVNHAHLMEALSEVKSLKYKR				NA	NA	NA	NA	NA
BMS003_02181	417			hypothetical protein	ATGTTTAGATATGGTAAAATAAAGAATATGGAAAAAGAAATCATAAGAGATAGAGCAGGCAATCCTGTTTCTGTATTAATGGACTATCGGCAGTGGCTCCAAATAGAACAGTTACTGGAGCATCAGAAAATAAAGGTCAATGCGCCCGATAATCCGCTGGACTGGTACACCTTAACTGAGACTGCCAATTCCATACTTAATGACCTTATAGCATATACGGGCAGGGAACGCTTTTTAGAACTGGAAAAAGAGTTTCCCGACCAGAACAGGATGGACAGGTTATGGAGCCTGTTTAAAGAAATACAGGCGATAAACCGTAACACGGATAATTTTAAGGATGCCACGATCATGAAAGAGATTATCCTTACCTATGGTACCAAACTTAAAAGTGTGAACAATGGCCAGCAGCTCGTCTGA	MFRYGKIKNMEKEIIRDRAGNPVSVLMDYRQWLQIEQLLEHQKIKVNAPDNPLDWYTLTETANSILNDLIAYTGRERFLELEKEFPDQNRMDRLWSLFKEIQAINRNTDNFKDATIMKEIILTYGTKLKSVNNGQQLV				NA	NA	NA	NA	NA
BMS003_02182	906	pezT		Toxin PezT	ATGGCCAGCAGCTCGTCTGAGGAATTGAACATCCTAAAAAAACACTATGCTATTTCGGATGATCGGTTCCTGAAAATACTGACCGTTATAATTCTTCAGCTCACAGATGGGTATGTGCCTGTAAAAACCCCCAAAGTAATCATACTTGGCGCACAGCCGGGTGCTGGGAAAAGCCAGCTTCAAAAAGCCTCCGAAGATATGCTGGGAAGAAATGCGGTGGTGTGTAATGCGGATAATCTGAGAGATTTCCACCCGTTAGCCCTTGAAATAAAATCCAAATATCCTGAGCATTATCCTGAACTGACGGCTGTATATGCACAGAGGTGGAATGATCTTCTGGCTTCATATTGCAGGGAGAAAAAGCTAAATTATATACTTGAAACTACCTTTTCTTCAGGTGAACGTCTGAACAGTACCATCGCCCAATTAAAGCAGCATGATTATCAGGTAGACATCATGTTGTTGGCAGTAAGCCCACGTTTGAGCTTACTGGGTACTTATATGCGGTATGAAGATAATATCAGGGCAACAGGATTGGGCAGGGCGGTATCCAAAGAAGCACATGATAGCCGATATCATGCTATTCCGGCAACAATTGAAGCGATAACAAAGAATCCTCTTTATGATAATATCTATATATACTCCCGTTCCATCGTATTGGAATATACCGATCTGGTTGAGGGGGTTACACTGGTTGCGCATAATCCCGCAAGTGTTTTAAAGGTGTACAGGGAAGAAATAGATCGTCCGTGGTCAGACAGATTAAAAGAGTATTTTAAAAAGTCCTGCAATGACGTCTTCACAATGATGAGAAACCGTTCAGCCCACCCGCGGGAAATAGAGCGTTTCAGATCAGAACTAAATATAGTTATGCCGTCATCACCAAAAAGGGGGCGTAAAATGTAA	MASSSSEELNILKKHYAISDDRFLKILTVIILQLTDGYVPVKTPKVIILGAQPGAGKSQLQKASEDMLGRNAVVCNADNLRDFHPLALEIKSKYPEHYPELTAVYAQRWNDLLASYCREKKLNYILETTFSSGERLNSTIAQLKQHDYQVDIMLLAVSPRLSLLGTYMRYEDNIRATGLGRAVSKEAHDSRYHAIPATIEAITKNPLYDNIYIYSRSIVLEYTDLVEGVTLVAHNPASVLKVYREEIDRPWSDRLKEYFKKSCNDVFTMMRNRSAHPREIERFRSELNIVMPSSPKRGRKM				NA	NA	NA	NA	NA
BMS003_02183	741			hypothetical protein	ATGGATGAGAATAAACTATACGGCAAATGGAATTTTTGGCAGGAGATCATCGGTTATCCCCTCATGCTATATTACTGGATCAGGGGAAAGCAGATACAGCAATTATTATCCCATCGGATCGACAGGGCAAGGTTAAAAGCTGATAAAGTACTTTTAAAAAAGAAAAAGAAAGATGAGCTGTTGATCGAATATGAAAATATCTGTAATTTTTTCAGCTATCACTTCAAAAAGATCGACAGCTCAAGAAACCATAATTTTCAGGAGAAAATAGCCTACTGCCTTGAACAGTACAAAATCGAATCAAGCAAACAGCTCAGTGCCGCCCGTTTGATGATATTGCAGGAAAATTTTCTAAATGGTGCTGAAAATACCCTTTTCCTGTATTTTGCCCTCGAAGGCAAAGTAACGAGCGATATCCATCTATCCGATATCATCATTGGCAGGAAGAATACTGTACTTTTCCTGGATTTTCTCAGAGAAAACAAGTTCATTGATGAAAACAGCAATCTGCTTGTTGACAATAAATCTTCATTCATACGGCTGCACCGGTTTTTAAAAGATCATAAGATTATCAATCCCGATTTTCAGGATACCACTATTATTGAAGCTATGGAGAATGAATATGGAACTAATTTTGACAAAGGAACCTTTTCAAGGGCTATCATGGTTAAGCCCAATGAATTTGAACAAGTGCTTTATCAGAAATTGGCAAAAATCTTAAATCTGGAATATCAAGGCTAA	MDENKLYGKWNFWQEIIGYPLMLYYWIRGKQIQQLLSHRIDRARLKADKVLLKKKKKDELLIEYENICNFFSYHFKKIDSSRNHNFQEKIAYCLEQYKIESSKQLSAARLMILQENFLNGAENTLFLYFALEGKVTSDIHLSDIIIGRKNTVLFLDFLRENKFIDENSNLLVDNKSSFIRLHRFLKDHKIINPDFQDTTIIEAMENEYGTNFDKGTFSRAIMVKPNEFEQVLYQKLAKILNLEYQG				NA	NA	NA	NA	NA
BMS003_02184	1242	xerC_3		Tyrosine recombinase XerC	ATGAATTATACTTTTAAACTTAAAGAACCCAGCTCAGATAAGGAAACCCTTATTTATTTCCGTTCTTATTTCATAAGTGAAAATAAGAATTTTATCTATTCCACGGGAGAAAAAATTAAACCCGAAGAATGGGATTTTGAAAAAAGGCAACCCAATGATCTTAACGGAAGGACACGAAAGGCAGAAAACCACAGAAACATCATGAGGCAGCTTGACCGTTACAGCAGTTTCTTTGCTGAAATTGTTGACAGGCACAAAAACATGAAGGAGGAGCTCACCATCGATATTATCAGGCAGCGTTTTGATGAAAATTTTAAGAAGAAAAGGGTTAAGGATGATTTCTTCAGAATATATGATGAATTTATGCAGGAGAAAGAAGACGATTACTCCGGGAAGTCGATCTCAAAGTCGACAAAGGACAGGTATGACTATAATAAGAGGCTGTTACAGGATTTCCAGGAGCACCTGAAAATAAAGATTTCACTCGGTAACTTTGATGAAAAAGTTTACAATAAGTTCCTGAAGTACTGTATCGAGGTAAGAGACCATTCAGCCAATACCGTCCATCGGAATGTAGGACTGCTGAAGACTTTTCTGTACTGGGCATTAAAGAAAAAATACACGTATAACAATAGATTTATCAGCTTTCACAAACCCAAGAAATTCAGAACGGATGAAGTTGCCTTAAATTATGAGCAGGTCGAAGAGATATTCAATTATGATTTCAGCAGCAATAAACGGCTGGAACGGGTAAGGGATCTTTTTATATTTGGCTGCGTCACCGGAATGCGCTTCGGAAATTATAGCCGTATCTCCAAACAGGATATTCAGGGTGATTTCATACGTGTCATTGACCTGAAAAGTAAAACAAAAAGTCTTTCCATACCGCTGAATTCGATTTCAAGGGCTATTTTGGAAAAGTACGATTTTGATCTTCCCAATATATCCAACCAGAAAATGAACGAATTTATCAAGGAGGTATTTAAGGAAATGGAATTCAAGGATGAGATCAGGAAGACCATGAAATATGGTGATGAACTTATTGAAAAAAAATCCGAATTTTACAAAAGGATCTCCTCGCACACGGCCAGACGCAGCTTTATAACCATTATGAAAAATAATAGGGTTCCTGATAAAGTGATCATGAGCTACACCGGGCATACAAGCCTTGAGGTTTTTAATAATTATTACAGGCCCAGTGAGGATGATAAGGTAAACTATATGAATGAAGTCTTTAAATAG	MNYTFKLKEPSSDKETLIYFRSYFISENKNFIYSTGEKIKPEEWDFEKRQPNDLNGRTRKAENHRNIMRQLDRYSSFFAEIVDRHKNMKEELTIDIIRQRFDENFKKKRVKDDFFRIYDEFMQEKEDDYSGKSISKSTKDRYDYNKRLLQDFQEHLKIKISLGNFDEKVYNKFLKYCIEVRDHSANTVHRNVGLLKTFLYWALKKKYTYNNRFISFHKPKKFRTDEVALNYEQVEEIFNYDFSSNKRLERVRDLFIFGCVTGMRFGNYSRISKQDIQGDFIRVIDLKSKTKSLSIPLNSISRAILEKYDFDLPNISNQKMNEFIKEVFKEMEFKDEIRKTMKYGDELIEKKSEFYKRISSHTARRSFITIMKNNRVPDKVIMSYTGHTSLEVFNNYYRPSEDDKVNYMNEVFK				NA	NA	NA	NA	NA
BMS003_02185	540			hypothetical protein	GTGATAGAATTAAATTTAGACAACGAATCTCTGTTAGATAAAAATTCACTAAAAACAAAGATTATTGAATATTTTAATGAAATGGGATTCAAGAAAGTAAAAGTAATCAATGATACTTTTCGTATACAAAGAGGAAGTAAATTGATGAATTCACTTACATTAAACCCTTTAAATTGGAAAAGTGAAATTCTAATAGATATTAAAGAGAAAGATAAAAAACTAAAAGTAAAGTCTTCTTTTAGAATTTATATTGAAAATCAATTTGTTACTAAAAATGAAATCAATGTTTGGGAAAAGTTATTTGAAAATTATGAAAAAATTTTATCTCAAACTGAATTTAAATCTTCAGAAATAATTAATGAAAATAATAAAGCCAAAAAGATTAATTTAAAAATCATAATAATTTTGGTTTTAACGTTATTAATCTCTACAATAATTTCAACACTCATCGCTATTAAAGCCAATTTTCCATTAATATTTATATTTCCATTAATAGCAAGCATTTTATCATTATATTATTCGATAAAATATGTGAAATAA	MIELNLDNESLLDKNSLKTKIIEYFNEMGFKKVKVINDTFRIQRGSKLMNSLTLNPLNWKSEILIDIKEKDKKLKVKSSFRIYIENQFVTKNEINVWEKLFENYEKILSQTEFKSSEIINENNKAKKINLKIIIILVLTLLISTIISTLIAIKANFPLIFIFPLIASILSLYYSIKYVK				NA	NA	NA	NA	NA
BMS003_02186	144			hypothetical protein	ATGAAAAATTTAAAGAAAATCGAAAGACAGGAATTGAAAACAATTAAGGGTGGAATTGACTGCAGAGGTGGTCAATTATGTTTAATAGGAGGAAAATGGCAATGCATGCCATATGACGGATGTGGAGGTGGAAATCAGCCATAA	MKNLKKIERQELKTIKGGIDCRGGQLCLIGGKWQCMPYDGCGGGNQP				NA	NA	NA	NA	NA
BMS003_02187	861	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAAAAGTTTATTCAAATTCTCTGTATTTCTTGTTTTTACTGTTATTTTTACCACGTGCCGGTTATATGGACAACAGGCAAAACCTTCTGAAAGCGGTTATGCACCTGTTAATGGCATTAAAGTGTACTACGAAGTTTACGGAAAAGGGAAACCCGTTGTATTGCTGCACGGAGCGTTTATGACAATTGATATGAATTGGGGCGAATTAATTCCTGAGCTGTCTAAAAACAGAAAAGTTATAGCTCTTGAATTACAGGGACACGGACATAGTCCGTTCTCAGAAAGAAAATTATCACATTCCACTCTCGCAAGTGATGTCACAAAAGTTATGGACCATCTGAAAATTGATAAAGCAGATGTTGTAGGCTATAGTTTTGGAGGGGAAGTGGCTTATCAGTTGGCTATACAGAGTCCGGAAAGACTGAATAAGCTGGTTATTATTTCATCAACCTATAAAACTGATGGCTGGCTGCCTGAAGTAAATAAAGCCTTTGAAGGAATGAAACCTGATATCTTTACAAACAGTCCTCTTCATACTGCCTACAATGCTGTAGCACCTGATAAAACAAAATGGACAAAATTTCTGGAGCAGATGATGGCCTCTGCCGGACAGCCTTTTGATCTTGGTGGGGATAATATTGCTAAAATTTCGGCACCTGTTTTAATCATAGCTGGTGATAATGATGGACTGGATAAAACAGAACTGGCAAAAACCTATAAGTTATTGGGAGGTGACGTTTTTGCAGATATGGGAGCTGTGCCAAAATCTCAATTGGCTATTGCTCCGGGACAAACTCACGTGAGCCTGATGATGCAGACTGCAATGATTCTTAACTATCTGAATGGTTTTCTAAAATAG	MKSLFKFSVFLVFTVIFTTCRLYGQQAKPSESGYAPVNGIKVYYEVYGKGKPVVLLHGAFMTIDMNWGELIPELSKNRKVIALELQGHGHSPFSERKLSHSTLASDVTKVMDHLKIDKADVVGYSFGGEVAYQLAIQSPERLNKLVIISSTYKTDGWLPEVNKAFEGMKPDIFTNSPLHTAYNAVAPDKTKWTKFLEQMMASAGQPFDLGGDNIAKISAPVLIIAGDNDGLDKTELAKTYKLLGGDVFADMGAVPKSQLAIAPGQTHVSLMMQTAMILNYLNGFLK				NA	NA	NA	NA	NA
BMS003_02188	372			hypothetical protein	ATGATGGATGTAAAATTTGAAGCCGGAATTAATATCGCCATAAAAATTCCAAAAAATAAATATGAAAAAACGATTGCTTTTTACAGAGATATTTTAAAATTGGATGTTGAAGAAAAGCCCATCAAAAACCCTACTGTTTCCAGAACACATGAAGTAAAGTTCGGTCACAATATCCTTTGGCTGGATTGCGTAGACAATTACACCCATTCCGAAACCTGGCTGCAGCTTACTGTACCTGATGTGGAAATTGCTACCCGATATTTACAGTCAAATAGTGTAGAAACCTGTGATGAAATTGAAGAACTTCCTGAAAATATGCATTGGATTACTGATCCTGCAGGTACAGTGTTTAACCTGCAGGAAAAGAAATAA	MMDVKFEAGINIAIKIPKNKYEKTIAFYRDILKLDVEEKPIKNPTVSRTHEVKFGHNILWLDCVDNYTHSETWLQLTVPDVEIATRYLQSNSVETCDEIEELPENMHWITDPAGTVFNLQEKK				NA	NA	NA	NA	NA
BMS003_02189	543			hypothetical protein	ATGCAGAAGAAACCGTTCAATTTCCTTATAGCATTATTTTTTCTGATAGTAAGTACAAAAGTATTTTCACAGAAATCAGCAGCTTTAAATTCTTTATTGGATAAAAACTCAGAATTTGTTTTTCCCCAGACTGCAGATAAAATCTCAAAAGCACTGAATGTGAAAACTGTTTTCTATGAAGATGCCAATGAAGAAAAATATGCAAAATGGCTTATGAAAACAGGATTAGAGCTTTATTCCGGTCTGGGAAAAAGCAATACCGTTAATGAGATCTTTTTTAAGACTTCAGATCATAAACCTTTGGTGATAGAAGGGCTTCCTTTTGGTCTTGTCCTGAATAAAAGTACATTGCAGGATAGCAAAAACAGGTTCAGCAAATACAATGCAAAAACACAGAAACTAAATGCAGACAGTGAATTTCCGGGAGGTTCAAAACTGGTTTTTAAGAAAGGAAAACATTATGCAACTCTGCTTTTTGACAGCAAAAATCTATTGAAATCATTAGGTTTAACAACAGAACTTATAGACCCTGCGGCCAATTAA	MQKKPFNFLIALFFLIVSTKVFSQKSAALNSLLDKNSEFVFPQTADKISKALNVKTVFYEDANEEKYAKWLMKTGLELYSGLGKSNTVNEIFFKTSDHKPLVIEGLPFGLVLNKSTLQDSKNRFSKYNAKTQKLNADSEFPGGSKLVFKKGKHYATLLFDSKNLLKSLGLTTELIDPAAN				NA	NA	NA	NA	NA
BMS003_02190	462	decR	COG1522	DNA-binding transcriptional activator DecR	GTGGAACAACTCGATGATAAGGATCTCCAGCTGCTCAGGCTACTCCAGAAAAATGCTAAACTGACCGTTAAGGAACTTGCAAAAGAGGTGAACCTTTCTACCTCACCTGTTTTTGAAAGGGTAAAAAGGCTGGAACAGGATGGTTTTGTTAAAAGATATGCGGCTGTTCTTGATGCTGAAAAGCTAAACCGCGGATTTACGGTTTTCTGCCAGATCAAACTCAAAATTCACGACAGATCTGTGGGTTACGATTTTGTAAAAGAGATTTTAGAAATTGAAGAGGTTGCTGAGTGCTATAATATTTCCGGAGACTTTGATTTTCTTCTGAAAGTTCAGGTAAGAGATATGAAGCATTATCAGGATTTTGTGTTCAATAAACTTGGATCTGTAGATTCCATTGGGAGTACTCACAGCACTTTTGTGATGGCTGAAGTGAAAAACAATCATGGATTAACGATATAG	MEQLDDKDLQLLRLLQKNAKLTVKELAKEVNLSTSPVFERVKRLEQDGFVKRYAAVLDAEKLNRGFTVFCQIKLKIHDRSVGYDFVKEILEIEEVAECYNISGDFDFLLKVQVRDMKHYQDFVFNKLGSVDSIGSTHSTFVMAEVKNNHGLTI	PGPT0014049_218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS003_02192	2304	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGCAAACTCACATTCTTGGCTATCCGCGTATTGGTAGCAAAAGAGAACTCAAAAAAGCCTGCGAGCAGTATTGGTCAGGCAAAATCCTTTTGGAAGAACTTTTGAATACAGGAAGAAATATCTGTAACCAAAACTGGAATATCCAGAAAGAAGCGGGAATAGATCTTATCCCGTGTAATGATTTTTCCTATTATGATCAGGTATTGGATATGAGCCTTGTGGTAGGAGCCATCCCGACACGTTACCATGAAGTAGTGCTTAAAAAGAATAATTCTGAGCTGGATCTTTATTTTGCCATGGCAAGAGGGTACCAGAAAGATGGATTGGATATCACTGCCATGGAAATGACCAAATGGTTCGATACCAATTATCACTATATCGTTCCGGAATTTTATAAAAACCAACAGTTTAAACTAAGCTCAGATAAGATTTTCAATGAATTTGCCGGAGCAAAACAAGCCGGAATCTATGCAAAACCTGTCATCATCGGGTTGGTTTCTTATCTGTTGTTAGGAAAAGAAAAAGAAGAAGGGTTTGATAAGCTGGATTTAGCGGGAAATCTTCTTCCGGTATACACGGAGATTTTAACTAAACTTCAGGATCAGGGAGCTGAATGGATTCAGTTTGATGAACCTTTCCTTGCATTGGATTTAACCGAAAAAGCTAAAGAAACTTATCTTTCTGTTTATGCTGAAATAAGAAAACGTTTCCCAAAGCTGAAATTCATAGTAGCCACTTATTTTGACGGATTAAAAGACAACACCTCACTTGCCGCTTCACTTCCGGTGAACACACTACATATTGACTTGGTAAGAAATCCTGAACAGCTGGACGATATTTTAAATAGTATTCCGGAAAGCTTAAACCTTTCATTAGGGGTAATTGACGGGAGAAATATCTGGAAAAATGATTATGAAAAATCACTGTCTTTCATCAGAAAAGCTGTTGAAAAATTAGGATCTGAGAGAATTTTGATTGCACCATCATGTTCATTGCTTCATTCTCCCTGCGATCTTGATTTTGAAACCAGTCTTAAACCTGAGATCAAAAACTGGCTGGCTTTTGCCAAACAAAAAGTTGCGGAAGTAGTAACCCTTAAAGAACTGGCAGCAGGAACGGAAAATGCACAGATTCTAAAAGCATTCGAAGAAAATAAAAAAGCCATTGAAAGCAGAAGAACTTCTTCTCTTATCCATAATAACCAGGTGAAGCAAAGAGCAAATGCTGTTACCGAAAAGGATGCTCAAAGAATAAATACCTTCAAAATCCGTAAAGAAGAACAGCAGGAAGTATTGCAGCTTCCTTTATTCCCTACAACCACCATCGGATCATTTCCTCAGACAGCAGAAGTAAGAAGCTGGAGAGCCCAATTCAAAAAAGGAGAGCTTACGGCAGAGCAATATGATACTTTACTGAAGGAAGAAACTCAGAAAACAATCCGCTGGCAGGAAGAAATCGGTATAGATGTACTGGTTCATGGGGAATTTGAGCGTAATGACATGGTGGAATACTTTGGAGAACAGCTGGAAGGATTTGTTTTCACCAAAAACGGATGGGTACAAAGCTACGGAAGCCGTTGTGTAAAACCTCCTGTGATTTTTGGGGATGTTTCCCGACCGACTCCTATGACGGTTTATTGGTCTCAGTATGCACAATCTCAGACTGAAAAATGGGTGAAAGGAATGTTAACAGGTCCGGTTACCATTTTGCAATGGTCTTTTGTAAGGGATGATCAGCCTCGTTCCGAAACGTGTAAGCAAATTGCTTTGGCAATCCGTGATGAAGTAGTGGATCTGGAAAAAGCGGGGATCAGAATTATTCAGATTGATGAACCTGCAATCAGAGAAGGACTTCCGTTAAGAAAAACAGACTGGCAGAACTATCTGAAATGGGCGGTAGAAGCCTTCAGAATCTCAGCAAGCGGAGTAGAGGATGCTACCCAGATCCATACACATATGTGTTATTCTGAATTTAATGATATTATTGAAAATATTGCTGATATGGATGCCGATGTGATTACCATTGAATGCTCCCGTTCTCAGATGGAATTGCTGAATGCTTTTGCAGATTTTAAATATCCGAATGAAATTGGCCCCGGAGTATATGACATTCACTCACCAAGAGTTCCGTCAAAAGAAGAAATGATTGAACTGTTGAGAAAAGCTCAGAATGTAATTCCTGCCAGCCAGCTTTGGGTAAATCCGGACTGCGGACTGAAAACAAGACACTGGGATGAAACTGAAAAGGCTTTAATAGCGATGGTAGCCGCTGCTAAAGAAGCTTCTGTAGAATATGCACTTTAG	MQTHILGYPRIGSKRELKKACEQYWSGKILLEELLNTGRNICNQNWNIQKEAGIDLIPCNDFSYYDQVLDMSLVVGAIPTRYHEVVLKKNNSELDLYFAMARGYQKDGLDITAMEMTKWFDTNYHYIVPEFYKNQQFKLSSDKIFNEFAGAKQAGIYAKPVIIGLVSYLLLGKEKEEGFDKLDLAGNLLPVYTEILTKLQDQGAEWIQFDEPFLALDLTEKAKETYLSVYAEIRKRFPKLKFIVATYFDGLKDNTSLAASLPVNTLHIDLVRNPEQLDDILNSIPESLNLSLGVIDGRNIWKNDYEKSLSFIRKAVEKLGSERILIAPSCSLLHSPCDLDFETSLKPEIKNWLAFAKQKVAEVVTLKELAAGTENAQILKAFEENKKAIESRRTSSLIHNNQVKQRANAVTEKDAQRINTFKIRKEEQQEVLQLPLFPTTTIGSFPQTAEVRSWRAQFKKGELTAEQYDTLLKEETQKTIRWQEEIGIDVLVHGEFERNDMVEYFGEQLEGFVFTKNGWVQSYGSRCVKPPVIFGDVSRPTPMTVYWSQYAQSQTEKWVKGMLTGPVTILQWSFVRDDQPRSETCKQIALAIRDEVVDLEKAGIRIIQIDEPAIREGLPLRKTDWQNYLKWAVEAFRISASGVEDATQIHTHMCYSEFNDIIENIADMDADVITIECSRSQMELLNAFADFKYPNEIGPGVYDIHSPRVPSKEEMIELLRKAQNVIPASQLWVNPDCGLKTRHWDETEKALIAMVAAAKEASVEYAL				NA	NA	NA	NA	NA
BMS003_02193	798	exsA_2	COG2207	Exoenzyme S synthesis regulatory protein ExsA	ATGAGTGAAAACAAAATTCCTTTTCCTATTAATTATTCCTGCCATTTTTCAGAATTCCGGGAAGGAGAACAGTTTGCGCAGGTTCACAGTCTCGGCCTGGTTCTTTCCGGAGAAATGGAGCTGAATGATGGTATTGCGAAAACACTATTCAAAGAAGGTGAGCTTTATTCCGTAAGGAAAAACAGTTTATTGAAATTTGCCAAATATCCTCCTAAAAATGGTGAGATCAAAACCATCTCCATCTATTTTGATGATGCTATGCTTCATGACTTCAGCCGTGAATATGGATTTCAGGCAGAAAAAAAAGATCATGTTCCTGCTTATATAAAACCTGATCAAAAGACATTACTATCTTTTATGTATTCATTATTAGCCTATGAAGATCTTCCTGCTTCAGAAGAAATTCTACGGCTTAAACAGAAAGAAGCTTTACTGCTGCTGCTAAACTATGATCCGGGGCTTAAGGATATTTTATTTGATTTTTCTGAGCCGTATAAGATAGATATTGAAGCTTTTATGAATAAGAACTTTCATTTCAATGTGAATGTAGAACGTTTTGCTTATTTAACGGGGAGAAGTTTGTCTGCGTTCAAAAGGGATTTTCAAAAGATATTTGGAGTTCCGCCAAGACAATGGCTGCAGCTCCGAAGATTAAAAGAAGCTCATTTTCTTCTTACCCAAAAAGGTAGGTCCGTTTCTGATATTTACCTGGATCTCGGATTCGAAAATTTATCTCATTTTTCATTTGCTTTTAAGAAACAGTTTGGCTGTTCTCCAAGCTCATTACAGACAAAATAA	MSENKIPFPINYSCHFSEFREGEQFAQVHSLGLVLSGEMELNDGIAKTLFKEGELYSVRKNSLLKFAKYPPKNGEIKTISIYFDDAMLHDFSREYGFQAEKKDHVPAYIKPDQKTLLSFMYSLLAYEDLPASEEILRLKQKEALLLLLNYDPGLKDILFDFSEPYKIDIEAFMNKNFHFNVNVERFAYLTGRSLSAFKRDFQKIFGVPPRQWLQLRRLKEAHFLLTQKGRSVSDIYLDLGFENLSHFSFAFKKQFGCSPSSLQTK	PGPT0026220_502	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0026220-exsA-K20968	NA	NA
BMS003_02194	1416	ald		3-succinoylsemialdehyde-pyridine dehydrogenase	ATGAGACAGATTAATAAAATTTATGTAAACGGAGAATTCGTTACCCCAAAAGGGACAGAAACTTTTGATCTTATAAACCCAACGACCAATCAGAAAACAGGAGAGGTAGTCCTGGGAAATGAAGAAGATACCAAAATGGCGATTGCGGCAGCAAAGAAAGCTTTCAAAACATTTTCAAAAACAACAAAAGAAGAAAGAATCAGCTTTCTGAAAAAACTGCATGAAGCGGTAAGTAAGAGAGAAAATGAATTAATTTCTGCCATGGTAAATGAATATGGAGGAACATTGCAATTCTGCAGAATGAGTGTTCAAAATGCTATTTCTGCTTTTACAGCTACCATCAACACTTTAGAATCCTATGACTTCGAAAGAACTGTAGGACATTCCAAAGTTCGTTTTGAATCTCTAGGTGTAGTAGGAATCATTACTCCATGGAATGCCAGCAACAGCTTCATCTGTAATAAACTGGCCACCGCCATTGCTGCTGGATGTACAGCAGTTATCAAACCAAGTGAGATGAGTGCTGTACAAACTCAACTTCTTACTGAATGTTTTCATGAAGTAGGTTTACCGGAAGGAGTATTTAACATCGTCAACGGATTGGGAAATGTAGCTGGCGCTGAAATCACCCGTCATCCGGATATCGCCAAAATATCATTCACAGGCTCTACAATAACAGGAAAAGCAATTGCAAAAGGAGCTGTAGACACTATGAAAAGGGTGACCTTAGAGCTTGGCGGAAAGTCTCCAAATATCATTCTGGAAGATGCCGACCTTGATAAGGCAATCCCCATGGCTGTTTTCGGGGCTTATATGAATAACGGACAGGCCTGTATTGCTCCTACCCGACTTCTTGTTCCACAAAACAGACTGGATGAAGTAAATGAACTCGCTAAAAAAGCAGTAGAACAAGTAAAAGTAGGAAATCCTGGCGATGAAGATACTCTTATAGGTCCGATGGTAAGTGCCAAACAGTTTGAAAGAGTACAAAGCTACATCCGCCTTGGCCAGGAAGAAGGTGCTGTTCTGCTTGCAGGTGGCGAAGGGAAACCGGAAGGCCTTGAAAACGGTAATTTTGTAAAGGCTACTATTTTTACCAATGTCCGTAATGATATGCGAATTGCTCAGGAGGAAATTTTCGGGCCAGTACTGTCTATTATTCCTTATGCCAATGAAGAAGAAGCAATTGCAATTGCCAATGATACTACCTATGGTCTGGCAGCCTATATCAGCTCTGCAGATCAGGAACATGCGGAACGTGTAGCTGCCCAGATTGATGCCGGAAGAATCTGCATTAATGGATTTGCACATGATCCTTATGCTCCTTTCGGTGGGTTTAAACAAAGTGGTATCGGACGTGAGTTTGGAGTATTCGGGTTGGAAGCTTATCTGGAACCTAAGGCAATCCTTGCATAA	MRQINKIYVNGEFVTPKGTETFDLINPTTNQKTGEVVLGNEEDTKMAIAAAKKAFKTFSKTTKEERISFLKKLHEAVSKRENELISAMVNEYGGTLQFCRMSVQNAISAFTATINTLESYDFERTVGHSKVRFESLGVVGIITPWNASNSFICNKLATAIAAGCTAVIKPSEMSAVQTQLLTECFHEVGLPEGVFNIVNGLGNVAGAEITRHPDIAKISFTGSTITGKAIAKGAVDTMKRVTLELGGKSPNIILEDADLDKAIPMAVFGAYMNNGQACIAPTRLLVPQNRLDEVNELAKKAVEQVKVGNPGDEDTLIGPMVSAKQFERVQSYIRLGQEEGAVLLAGGEGKPEGLENGNFVKATIFTNVRNDMRIAQEEIFGPVLSIIPYANEEEAIAIANDTTYGLAAYISSADQEHAERVAAQIDAGRICINGFAHDPYAPFGGFKQSGIGREFGVFGLEAYLEPKAILA	PGPT0006875_8875	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS003_02195	402			hypothetical protein	ATGAAAAAGAACATTGATTTAGGAATGCTTATCACAAGAATAGCCATCGGGTTTCCGATGTCGGTTTACGGAATCAGTAAATTAATCCACGGAGTTGGGTTTATTGAAGATATGATGACCATGCATGGCTTGCCATCTTTCCTTGCTTATGGGGTGTTTGCAGGCGAAATAATAGCCCCTGTGATGCTGATGACAGGATTCCGGGTACGTCTGGCAGGATTAATTTTTGCTGTCAATTGCTTCACAGCCACTATTCTTGCCCAAACGGCTAATATTTTCAAGCTTAATGAATTTGGAGGCTGGGCTTTGGAGCTGCTTGTAATCTACATGCTTGTAAGCCTTAGCTTTTTCTTTTCCGGAGCCGGGAAATATGCAGTTTCTACTCAAAACAAATGGGATTAA	MKKNIDLGMLITRIAIGFPMSVYGISKLIHGVGFIEDMMTMHGLPSFLAYGVFAGEIIAPVMLMTGFRVRLAGLIFAVNCFTATILAQTANIFKLNEFGGWALELLVIYMLVSLSFFFSGAGKYAVSTQNKWD	PGPT0028505_5972	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
BMS003_02196	621			hypothetical protein	ATGAAGGCAAAAATTATCGTTATAACAACTCTTGCATCGGCTTCTCTTAGCCTGAATGCACAGAAACTTTCCTATACTCCTGATCTTGTTTCAGGGCACCGTTCCTATACTTATATGCACAATATCAATTATCAGCTGAATGACCGGTTGAAATTGAACAATCTTACCTTATTTGACACAGAATATACCAAAGACAAAGAAAATATATTCTTTATCAGAAATACCCTTACATATAGTTTTACCAAAAGACTGAGTGCTAACGGAGCATTTGGAATAAAAAATCCGGGAGCTTTCTTCAGTGCTTACCTCCAATACAAGATCACTCAGCCCTCATATTCTCTTTCCTATTCTATAGGAACTACTTATCAGAAAGGATTTTCTCTGGAACAGTCTATCTCATTTGAATATACGCCCTATCTGACAGAAAATTTTAAAGGCTATTTCAGTGTTCTGGCAATTGGAAATCTTGATGACAGCGGATATCCCAGAGGGTTACAATTTATCAGATTAGGGGTAAAACAGAATAAAATAATGTATGGACTGGCTTCCAATTTTGATCAGTTCAACAACGGAAAAAAGACCCTGGAAAATATAGGGGTATTTGTAAAATATAACTTTTAA	MKAKIIVITTLASASLSLNAQKLSYTPDLVSGHRSYTYMHNINYQLNDRLKLNNLTLFDTEYTKDKENIFFIRNTLTYSFTKRLSANGAFGIKNPGAFFSAYLQYKITQPSYSLSYSIGTTYQKGFSLEQSISFEYTPYLTENFKGYFSVLAIGNLDDSGYPRGLQFIRLGVKQNKIMYGLASNFDQFNNGKKTLENIGVFVKYNF				NA	NA	NA	NA	NA
BMS003_02197	603			hypothetical protein	ATGATGAATACAGATACAATACTTTCGCCACTCATAGAACACTTTAAAGAAATGGTCTCTTTAGAAGACAAAGATATTGACTGTATAACGTCAAAATTAGAAGTCATACATCTCAAAAAGAAAGAATATCTGCTTCGTGAAGGGCAGATTTCCAGACATATGCGTTTTATAGCAAAGGGAAGCCTGTATGCCTATCATATTGATGAAAAAGGAAAGGAAAATACCACTCAGCTGGGTATTGAAAACTGGTGGGTGAATGATCTTTACAGCTACCTGAGTGAGCTTCCTTCCAGAATGTTTATTAAGGCTAATGAAGATACCATCATCATACAGATCAGTAAAAGCAATCTGGAATTATTATACAGAGAGGTTCCCGCTATCTCTGAATTCTGGCGCCTGAAAATGCAGTCGGCCTACGTTACTTTGCAGGAAAGAACTTTCGAACATTCCCGCGTTGATGCTTACACCAAATACCGCGCCTTTGTAACTACCTACCGCAATATTGAACAGCGTTTTCCTCAATATATGATCGCTTCCTACCTTGGAATCACGGTAGAATATCTGAGTTATTTGAGAAAAAAACACCTGTCTGATGTTTCTTAA	MMNTDTILSPLIEHFKEMVSLEDKDIDCITSKLEVIHLKKKEYLLREGQISRHMRFIAKGSLYAYHIDEKGKENTTQLGIENWWVNDLYSYLSELPSRMFIKANEDTIIIQISKSNLELLYREVPAISEFWRLKMQSAYVTLQERTFEHSRVDAYTKYRAFVTTYRNIEQRFPQYMIASYLGITVEYLSYLRKKHLSDVS	PGPT0000515_2877	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_02198	414			hypothetical protein	ATGAACGTAGCGGATCTAAAAATCAAGAATTTGGTCGAGTACAAAAACCAGATTTATACGATCACTGAAATCTTTCACAATGTTGAGCAGGCTTATTTTGTTAAAATTGAAAATGATATTCAAAGTATTTCTGTTCCGGCAGCTTCCATCAAACCTATTAAAATAACAGAAGAATGGCTTGAAAAGCTGGGATTTTCAAGAACATACAGTTCGGAGCAGAGTATCCGGTACGAAAGACCGGAATCTTTTATAAAATACGATATAGACCTGAGTTCCAGAAAAATACTGGAAGGACTGAAAATATACGGGAACGCTATAAAATGCAGGTATATCCATGAGTTTCAGAATATTTTCTCAAGCTTATTCGGAAAAGATACAGCTTTACATTATGGTTATTTGAAAACAGAATCGTAG	MNVADLKIKNLVEYKNQIYTITEIFHNVEQAYFVKIENDIQSISVPAASIKPIKITEEWLEKLGFSRTYSSEQSIRYERPESFIKYDIDLSSRKILEGLKIYGNAIKCRYIHEFQNIFSSLFGKDTALHYGYLKTES				NA	NA	NA	NA	NA
BMS003_02199	1203	ynfM		Inner membrane transport protein YnfM	ATGAATTCATCTGAAAAAGCTGTTCAGGGAAGCTCACGTTTCCGATCTATAAAACTTTGTATTTTCTTTTCAGGACTTTCTGTTTTTGCACAGCTCTATCTTTTCCAGCCGATGCTGCCCATGGCTGCAGAACAGTTTGGAGTATCCGTAGGTGATACTTCCCTGCTGGTATCATCTTCAACGATAGGTATGGCATCAGGATTATTATTTTTTGCATTTAAAGCCGACAGCTATTCAAGAAAAAGCCTGATGGTCTTTTCCCTGATTTCGTCTGCACTGCTTACCATTATTTCTACCTGGATTCCAAGCCTAAGCCTTCTTATTGCTATAGGCGTTCTGAAAGGTTTTGTAGTTTCCGGAGTCTCTGCAGTTGCCCTTGCCTATCTTACAGAGGAAGTAGATGCTTTGGCAGTACCGGCAGCCATCAGCATGTATCTCAGCGGAAATACAATTGGCGGAATGAGTGGAAGGATAATGGCAACGTTATTTGCCGGAGAATTCGGGTGGCGCAATGCTGTTCTGCTGATTGGGATAGAAAGCTTCCTTCTTGGCGCTGTATTCTGGAAACTCTTTCCGGAATCAAGATTTTTCAATCCGCAGAAAACAGATTATCATCTTAAGGTAAAACAGATGAAGTTTTTCCTTACCAATCCTTATATGCTTCGTTTATATTTTACTGCGGCATTACTCATGGGCGTTTTTGTGAGTGTTTATAATTACCTGACATTCAGATTAGAGGCAAAGCCTTTTTCCTTAAGCCATTTTGTGATCGCCTTTATCTTCCTGATGTATATTTTCGGGGTTTTTGGAACAATGATCGTAGGCCGTCTTTCCAGAAGATTCCCTATGCATAATATTCTTAAAACATCTATCCTGTCTATGATTGCCGGAGCTGTATTACTGCTTTCTGAAAACATTTATATCCTTATTTTCGGGCTTGGTCTTTTTACATTGTCATTTTTTGCAGCCCATACTATGGCTAGCCAGATGACAGCGTTATATGCCAAACGTGGAAAATCTTCAGCCACTTCTATTTACTGGCTGTTTTATTATTTTGGTTCAAGTATTCTGGGAAGTGGTACAGGATATCTGCTTCATGCTTATTCATGGAATGTTTTCGTTGGTGTTCTTATCATATCTGTTATCATAGCCCTTTTTCTCACAACGTTCAATACCCTTCCAAAGGCAAGGATCAAAAACTAG	MNSSEKAVQGSSRFRSIKLCIFFSGLSVFAQLYLFQPMLPMAAEQFGVSVGDTSLLVSSSTIGMASGLLFFAFKADSYSRKSLMVFSLISSALLTIISTWIPSLSLLIAIGVLKGFVVSGVSAVALAYLTEEVDALAVPAAISMYLSGNTIGGMSGRIMATLFAGEFGWRNAVLLIGIESFLLGAVFWKLFPESRFFNPQKTDYHLKVKQMKFFLTNPYMLRLYFTAALLMGVFVSVYNYLTFRLEAKPFSLSHFVIAFIFLMYIFGVFGTMIVGRLSRRFPMHNILKTSILSMIAGAVLLLSENIYILIFGLGLFTLSFFAAHTMASQMTALYAKRGKSSATSIYWLFYYFGSSILGSGTGYLLHAYSWNVFVGVLIISVIIALFLTTFNTLPKARIKN	PGPT0017201_1462	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
BMS003_02200	957			hypothetical protein	ATGACCACCGAAAAAGACATAAAAATTGAACAATACAAAAGACAGCTGGTTTCTTATTATAACATTCTGATGTCTGTTATTCTTGCTGTATTTGGGCTGATATTTACCTTTATCATTCCGGATAAAATAATGGCCTGGTATCTTTTCGGAGGACTTTTTTTACTGGTATATACTTATCTGATTGTACGTAAAACATATTCGGTGAATTTTATGGTTCACTCTTACATCATTGTTGCAACCCTTTACAATTTTTACATCATGCTCGCTTTCTGGAACAATTCTATAGCAAGTTTTGTCTGGCTTATCCCTATTCCACTGGCAGCGTATGTTTTCTTTCAAAGGAAATATGTTTTTATTTACAGTATGTTTGTGTTGCTGAATATTGTTGCAGGTTATTTCATTTCCAGAGCCTTTAATTTCAAATTTCCGATACACAGACCTGAAGATGTAAGAGTTACGGACACTATTCTTATGATTTCCAATGTAGCTGTAATATCCCTTTTATTATATTTTAAGGATAAAATAAAAAGAGTTGAAATTTATCACGAAATTGAAGCAAAGAGCAAAAACACAACAATACAGCCAGTTCCTGTAGCAGAGAAAATACCATTTGCAGATGAACTGTTTGAGAAAATAGAACTTGTAATGAGTGAAAAACAGCTGTATAAAGATGTTAATTTTAATATTTCAAAGCTTTCCACGGAAATGGATATCAACAGCAGTTACATCTCAAAATCAATCCGTGCAAAAGGATATCCCAATTTTAATAATTATCTGAATATGCACAGAATTGAATGTGTAAAAAGGCTTCTTAGTGAAAATGACATTGAAAAGGTAACCCTTATGTATATCTATACAGAAGCGGGATTCTCTAACCAGTCTACCTTCAACAGGGTCTTTAAGCAGATGGAAAATATTACTCCTTCCGAGTACATCAGCAGCCTGCTGCTTCATTGA	MTTEKDIKIEQYKRQLVSYYNILMSVILAVFGLIFTFIIPDKIMAWYLFGGLFLLVYTYLIVRKTYSVNFMVHSYIIVATLYNFYIMLAFWNNSIASFVWLIPIPLAAYVFFQRKYVFIYSMFVLLNIVAGYFISRAFNFKFPIHRPEDVRVTDTILMISNVAVISLLLYFKDKIKRVEIYHEIEAKSKNTTIQPVPVAEKIPFADELFEKIELVMSEKQLYKDVNFNISKLSTEMDINSSYISKSIRAKGYPNFNNYLNMHRIECVKRLLSENDIEKVTLMYIYTEAGFSNQSTFNRVFKQMENITPSEYISSLLLH				NA	NA	NA	NA	NA
BMS003_02201	846			hypothetical protein	ATGAAGAAAATAAAATTAACTCTTGCCAGCATAATGATGTGTTTTTCAATGGCAGCATTTTCCCAGGTAGGTATCAATACAGATTCTCCTAAAGTAACATTACAAGTAGAAGGAAAACCGGACGTTGCTACGGTACCAGATGGGGTGATGGCTCCAAGAATGACCGGAGATCAGCTTAAAGCTAAAGATAACGTGTATCTTGCGGCTCAGACCGGCGCGTTGGTTTATATAACACAAGCGGTGACTGCTCCTTCTGTAAAAACAGCAAAAGTAGACAAAGCCGGTTATTATATGTTCAATGGAACAACCTGGAAATTTGCATTTGGAGGTGTAGATGATGACATTACCATCGGAGATTTGATTTATTACCATGGAAGCATTCCTGCAGGCACTTCGGGGGCTGCAACACTGGCCAGTACTTATCTTACCGATCTTCCTGTACTGGGAGGTTTCTTAAGACTTGATGCACAATTTAACGCCAGTTCTGCAGGTACAGGAGCGGCTACTACTTTTAATCCGAGACTTTATAATGTAGGAACTTCAGATGTGAAAATCTGGGTTTCGGAAATGTCTACCCATACCGGTGATTCTGATAACGGAAATATAAAACTGTCACCCGGAGCTTACAGACAGTTTGATGACGGTGTTTATCTTACCCAGACTCATAATGAAACCGTTACGTTTGATATTACTATACAGGAGCCGGAGCCAAGATGGTACAGAGTGTATTATGCATTTCGCGTAGATAACAAATCTACTACAGGAAGCAGTGATGCTACAACCACAGATTCCAATACGTCGGATAACACAAGAGAATTGTTTCTTTCTGTGCAAAGGCTATATTAA	MKKIKLTLASIMMCFSMAAFSQVGINTDSPKVTLQVEGKPDVATVPDGVMAPRMTGDQLKAKDNVYLAAQTGALVYITQAVTAPSVKTAKVDKAGYYMFNGTTWKFAFGGVDDDITIGDLIYYHGSIPAGTSGAATLASTYLTDLPVLGGFLRLDAQFNASSAGTGAATTFNPRLYNVGTSDVKIWVSEMSTHTGDSDNGNIKLSPGAYRQFDDGVYLTQTHNETVTFDITIQEPEPRWYRVYYAFRVDNKSTTGSSDATTTDSNTSDNTRELFLSVQRLY				NA	NA	NA	NA	NA
BMS003_02202	612	nreC_1	COG2197	Oxygen regulatory protein NreC	ATGAATGAAAGAATTTTAATTGCTGATGATCATTATGTAGTAAGGGCTGGAACCTCTTTGGTTCTTGAAACAGCTTATCCGGAGCTGAAAATAGATTTTGCAGAAAACTATGATCAGGTGAAAAAAAAGATTGGTTTTTCACGCTATGATCTTCTTATTTTAGATATTGACATGCCCGGAACTCAGTATAAAAAAATGATCCCGGAATTAAAAACCATACAGAATGATCTCAAAATTCTTATATTTTCAGGATATGACAAAGATGTTGCTATTCAGTACATCAGAGAAGGCGCAGAAGGATACCTGAACAAGCAAAGCAGTGAGGAAGAAATTAGAAATGCGGTGAAAACCGTGGTTGAAAAAGGGTATTTCTATCCTGCAGAACTGATTGGTCTTATTATTCAAAACAAAAGGGACAATCCTGTAGAAAAGCTTTCTTCCCGTGAATATGAAATCTTCAAGCTTCTTGCTGACGGAAACGGAAACCTGGAAATTGCCAACAGGCTTAATATCCAGATGTCTACAGTAAGCACGTATAAAAAAAGAATTTTCCAAAAGCTTAATGTAAGTAATATTGCAGAGCTGATTAAGGTATATGAAATGATGCATTAA	MNERILIADDHYVVRAGTSLVLETAYPELKIDFAENYDQVKKKIGFSRYDLLILDIDMPGTQYKKMIPELKTIQNDLKILIFSGYDKDVAIQYIREGAEGYLNKQSSEEEIRNAVKTVVEKGYFYPAELIGLIIQNKRDNPVEKLSSREYEIFKLLADGNGNLEIANRLNIQMSTVSTYKKRIFQKLNVSNIAELIKVYEMMH	PGPT0016090_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0016090-fimZ-K07688	NA	NA
BMS003_02203	975	luxQ		Autoinducer 2 sensor kinase/phosphatase LuxQ	ATGAGAGTTTGGGCATTTATTTTTGCTTGCATCTATTTAAAAGTTTCCGGACAGCGCCGCACTACACCGTGGCATAATATAGATAGTGGTATTTCACAAATTGAACCTCCTTTTTATCAGACAATTCTGTTCAGAGTGTCTGCAGCCGTTATTATTCTAGTTATCATTATTGTTATTTTTCAGTTAACAACCAATTTTTTACGAATAAAAAATAAAGCGTTAAAACAAATTGTTCACAATAAAAATTCTGAACTGAAAGAAACCTCTCTCCATCTGGAACTGGTAAAGAGCAATCTGCAGAAAGAAACAGAATATCAGAAAAAACTGGTAGAAACCATCAGCCATGACATTACTACTCCTATCAGATTCATTGCCATGCTTTCTCAAAAAATTCATGATTCTGACGATATAGAGCTTCAAAAGAAATATTTTGACAGTATTTACAAGTCTTCGGAACAGCTTTATCAGTTTACCCTGAATTTAAAAGAATATACAGAACTGTATAAAGCCGAAAATATTTTTGAAGAAAAAGAATATCCTATCAACAGAATTCTGGAAATCAAGAACCGGTTATTCTGTGAAATTGCGAAAGAAAAAGGAACCGTCATCACCAATATCGCTGAGCGTAAAGTGTATTCCAGGATCAATGAAAGTATCCTGACAGCTATTATCCATAATATTCTTGATAATGCTGTAAAAAATACTTGTAAAGAAAATATAACCTTAAATATTACAGATAATCCACAAAAATCCACAATAATAATTGCCGATACGGGAACCGGGATGTCTGCGGAGCAGATCAATACCTATATGAGCCTATTCAGAAATCCCAAACTGGAAACACCCAGCTTCAAAGGAAAAGGTCTTGGGCTGCACATGGTTATCCATCTGGTAAAAAAGATCGATGCTGAAATCAGTTTCAGGCAAAACAAACCTCAAGGCACTGTGGTAGAAATAACACTCAATAAAAACTAA	MRVWAFIFACIYLKVSGQRRTTPWHNIDSGISQIEPPFYQTILFRVSAAVIILVIIIVIFQLTTNFLRIKNKALKQIVHNKNSELKETSLHLELVKSNLQKETEYQKKLVETISHDITTPIRFIAMLSQKIHDSDDIELQKKYFDSIYKSSEQLYQFTLNLKEYTELYKAENIFEEKEYPINRILEIKNRLFCEIAKEKGTVITNIAERKVYSRINESILTAIIHNILDNAVKNTCKENITLNITDNPQKSTIIIADTGTGMSAEQINTYMSLFRNPKLETPSFKGKGLGLHMVIHLVKKIDAEISFRQNKPQGTVVEITLNKN				NA	NA	NA	NA	NA
BMS003_02204	339			hypothetical protein	GTGTTTTTTATCCCTTTCCTGTCTGTTGTAAAAGTTGATTTATTATTAAAAGTAATATTTAAATCTGTTGATTGGCAACTGTTTAATAAAGTGGCATTAATTTTGATCGGAGCTAGAAAACACAATGAAATGAATAAAGATAATTTTAACTATCTTATTGGGAAAACACGCCATGAAGTGAAAGCTGAAATGGGAGACGGATTCAATTTTTTTATGCACAATGTGTGGACATATCAGGTGGGGAAAACCTGGTTCGGGAAAAAGATTATTCTGTCAGTTCTGTTTATTGAGAATGAAGTAGTCAATATTACTTTGCGCAAAACTTTTAAAAGCTGCTAG	MFFIPFLSVVKVDLLLKVIFKSVDWQLFNKVALILIGARKHNEMNKDNFNYLIGKTRHEVKAEMGDGFNFFMHNVWTYQVGKTWFGKKIILSVLFIENEVVNITLRKTFKSC				NA	NA	NA	NA	NA
BMS003_02205	648			hypothetical protein	ATGAAGAAATTGTTTTTAGGCTTTTGCACCTTATTTATGATTCAAAAATTTTCTACCCAGACCCTGGAGAAAATGACATGGTTCAATGAACCTGAAAAATGGGAAATCAAGAATAACAGCCTCTCGATGCTGGTAACACCTCAGAGTGACTACTGGAGAGTTTCGCATTATGGGTTTACTGTAGATGATGCTCCGTTTTATTATACCACTTACGGAGGAGAATTTGAAGCCAAAGTGAAAATTACCGGAAATTACAAAGCCAGGTTTGATCAGATGGGGCTTATGCTGAGAACAGATAAAGAGCATTACATTAAAGCCGGAGTGGAATTTGTAGACGGGAAATACAACCTCAGCACTGTAGTAACACATAACAAAAGCGACTGGAGCGTTATTACTTTAGAAAAAACACCTCCTGCCATATGGATAAAAGCAGTAAGAAGACTGGATGCCGTAGAAATCTTTTACTCATTTGATGATAAAAATTATACATTGATGAGAAATGCTCCTTTGCAGGATAACACCCCTGTAATGGTTGGCTTAATGGCCGCTTGTCCGGACGGACAGGGATTCAATGCTGTTTTTGAACACTTCAAAGTAAAACATCTACCGGACGAGCGCAGATTAAGATGGCTTAAAAACAATAAATAA	MKKLFLGFCTLFMIQKFSTQTLEKMTWFNEPEKWEIKNNSLSMLVTPQSDYWRVSHYGFTVDDAPFYYTTYGGEFEAKVKITGNYKARFDQMGLMLRTDKEHYIKAGVEFVDGKYNLSTVVTHNKSDWSVITLEKTPPAIWIKAVRRLDAVEIFYSFDDKNYTLMRNAPLQDNTPVMVGLMAACPDGQGFNAVFEHFKVKHLPDERRLRWLKNNK				NA	NA	NA	NA	NA
BMS003_02206	738			hypothetical protein	ATGGAAATCCGTGAACAGCTCAGTGATAAATTGTTGAATAAAACTTCCCAAAAATGTCAGCTTGATATAGAGATCTACAGGCAGAGGGCATTAATGTATTCTCAGATGGAAGGAGCAATATCTGTATTGAGCGATATGCAGATGAATAAAAGCTATGTATATAAATCTGCAGCAGCTGAAGAGCTTGGATTCGGTAAAAGTGAAGATCATATGGAGCTGGATACTATCTGGGAGGATGAATTGCTGAAAAAAATACATCCGGACGACCGATTGAAGAAATACATTCATGAACTTCGTTTTTTCAAATTACTGGATGCTATGGATGCCGGGCAGCGGACGGCATACGGTGTTGTTTCAAAAATACGGATGAAAGATAAAAATGAAGAATACCGCTGGGTAAAACATCGTATGTTCTATATTTATTCTCCTAGTAACGGTAGGCTGAGACTGGCTCTATGTCTTTATAATATGGCCCTTTCTTCATCTTCCGTTCCCGATTTTATGATTGTTAATACCATAAAAGGAGAGGTGGTCGTAAAAGATAAACTCGATTACAAAAATATCCTGAGTCCAAGAGAACTGGAAATTTTAAAGTTTGTTGGAGACGGCTATGCAAGTAAAGAAATTGCAGATCTGCTTTCTATCAGTATTAATACTGTAAGCAGGCATCGTCAGAATATTCTTGAAAAACTAAAGGTGAAGAACTCTACTCAGGCTTTCAAAGACAGTTTTTATTGA	MEIREQLSDKLLNKTSQKCQLDIEIYRQRALMYSQMEGAISVLSDMQMNKSYVYKSAAAEELGFGKSEDHMELDTIWEDELLKKIHPDDRLKKYIHELRFFKLLDAMDAGQRTAYGVVSKIRMKDKNEEYRWVKHRMFYIYSPSNGRLRLALCLYNMALSSSSVPDFMIVNTIKGEVVVKDKLDYKNILSPRELEILKFVGDGYASKEIADLLSISINTVSRHRQNILEKLKVKNSTQAFKDSFY				NA	NA	NA	NA	NA
BMS003_02207	357	rhaS_8		HTH-type transcriptional activator RhaS	ATGATGAAAAGAAGCGAAGAAATCACCTTTCAGTATTTTGCCCTTCTGGATGATCATATCCAGGATGTGATCTCAGGAAATGTCCCGGAGTTTATGGAATTAAATCAGATTGCCAGCAAGCTTGCTATCTCTCATAAGCATCTTACAGATACTGTTAAAAAAGAGACCGGCCAGCATCCGTGTTCCTTTTATGATGAGAAAATTATTGATCAGATTAAACATATGCTCTTGTATTCTGATCAATCTGTAGCAGAAATTGCCCGTATCTTTACTTATGACCCATCCAATTTTTCAAAATTTTTCAAAAAAATGACCGGATTTACACCGGGGAAATTCAGGAACTCTAAAAAAGTTTAA	MMKRSEEITFQYFALLDDHIQDVISGNVPEFMELNQIASKLAISHKHLTDTVKKETGQHPCSFYDEKIIDQIKHMLLYSDQSVAEIARIFTYDPSNFSKFFKKMTGFTPGKFRNSKKV				NA	NA	NA	NA	NA
BMS003_02208	1257		COG0156	8-amino-7-oxononanoate synthase/2-amino-3-ketobutyrate coenzyme A ligase	ATGAGCATCAATTTCACAACAGCAACTATTAAAGACTTTGAGAATATACCAGACATTAATATGGCTCAAAGAGCTGAGATTTTTTATGAATATTTAGACTTTGTAAAGTCTAATGGGCACATGAACTACAGACTGAAGAATACTTCAGGAACCAATGCGGTACTAAATGTAAATATTTCAAATCAAAACAGAGAATTTGTTAGTTTTGTATCAAGTGATTATTTAGGATTTACGCAGCACCCGAAGGTAAAACAGGCAGCTATCGAAGGAATAGAAAAATATGGAACAGGAACAGGAGCCACACCTCTTATCGGTGGCTACTTTGATTACCATAATGCCTTAGAAAAAAGAATTTCAAGTTTTTTTAAAAGAACAGAAGATGAAGCCGTAGTATTTACTACCGGTTATACTGCTAATAGCGCTAGTTTACAGTGTCTGATGCAGAAAGAAGATCTTGCTATTTTAGACATGGCAGTGCATGCCAGTGTACATGAAGGATGTGCTTTTACCAATAAAAAAACATTTCCGCACAATAATCTGGAATCTTTGGAACACATTTTGAAGGTATCTGAAAATCTGTACCGTACGAAACTCGTTATTGTGGACGGAGTGTATTCCCAGGATGGTGATACCTCCCGTATTAATGAGATCTATAATCTTGTGAAAAAGTATAATGCCTTTCTAATGGTAGACGACGTACATGGCGTTGGTATCCTTGGAGAAACAGGCAGAGGTACTTTGGAGCAGGCTGGATTATTGGATAAAATAGACATCATCACAGGAACATTCAGTAAAACGTTTGGAAACCTGGGTGGATATGTTATTGCCGATAAAAAAATAGCCGCTTTTATTAGATTCCATTCCCGTCAGCAGATTTTCTCAGCAACAGCTCCGCCGTCATCCGCAGGAATTGTTAAAGCCATTGATTTAATAGACGAAGAACCTATCTGGAGAGAAAAACTCTGGAATAACATCAATTATTTCAAAAAAGGACTTGACGATTTAGGATTAGACACAGGAGTCACCTGTTCCGCAATCATTCCCGTGAAAATAGGAGATCCCTATGTAACAGGAGAAGCCGGAAAACTACTAATAGAAAAAGGAATTTACACCAACCCGATTCTCTATCCGGCTGTACCGAGAAAAGATGCGCGTATCAGGATGAGTGTAACAGCAAGACACGAAAAAGAACATCTCGACAAAACGCTTAATGCGTTTGATGATATTAATAAAAAATTGCATATTGCGAAAAAATAA	MSINFTTATIKDFENIPDINMAQRAEIFYEYLDFVKSNGHMNYRLKNTSGTNAVLNVNISNQNREFVSFVSSDYLGFTQHPKVKQAAIEGIEKYGTGTGATPLIGGYFDYHNALEKRISSFFKRTEDEAVVFTTGYTANSASLQCLMQKEDLAILDMAVHASVHEGCAFTNKKTFPHNNLESLEHILKVSENLYRTKLVIVDGVYSQDGDTSRINEIYNLVKKYNAFLMVDDVHGVGILGETGRGTLEQAGLLDKIDIITGTFSKTFGNLGGYVIADKKIAAFIRFHSRQQIFSATAPPSSAGIVKAIDLIDEEPIWREKLWNNINYFKKGLDDLGLDTGVTCSAIIPVKIGDPYVTGEAGKLLIEKGIYTNPILYPAVPRKDARIRMSVTARHEKEHLDKTLNAFDDINKKLHIAKK	PGPT0020495_457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS003_02209	633			hypothetical protein	ATGCCTAGAAAAGTAGTGCAGGGACCCATTAGGGACAAAGAAAAAACAAAACAAAAACTGCTTGCTGCAGTTGGTAAAATTTTAAGAGTAAAAGGATACTCCGGACTAAAAGTAAGTAAGATTGCCGCAGTGGCCGGATTTGATAAAAAATTGATCTATGAGTACTTTGGAAGTACAGATAAACTGATTGATGAGTATATCAAATCTCAGGATTACTGGAGCCAGGTCAACCAGGATGTTGATATGGATTTCTCTGACGGTGGGCACGAACTTACTAAAATGGTTGTATTAAACCAGTTCGAAAACCTGAAGAAAAATAAAGAACTTCAGAAAATTATCCTTTGGGAGCTTTCAGAAAGCAAGCCTATTCTTAAGAAATTAGTTGAACAGCGCGAGGAAGTAGGAGAAGTTTTATTTGGAAATATCTCAGATCCTTTCTTTGGCGAAGGAGTAGCTACAAGACACAGAGCAATTATGGCTCTGATTGTTTCAGGAGCTTACTATCTGAACCTTTATACAGGATATAACGCAAACAAATTCTGCGGTATTGACCTGAAAACCGAAGAAGGCAGAAAAGAGATTGAAGGCGCTATTGTTGAGTTGATTGACTTTGCATACAGCAAAAAAAAGTAG	MPRKVVQGPIRDKEKTKQKLLAAVGKILRVKGYSGLKVSKIAAVAGFDKKLIYEYFGSTDKLIDEYIKSQDYWSQVNQDVDMDFSDGGHELTKMVVLNQFENLKKNKELQKIILWELSESKPILKKLVEQREEVGEVLFGNISDPFFGEGVATRHRAIMALIVSGAYYLNLYTGYNANKFCGIDLKTEEGRKEIEGAIVELIDFAYSKKK				NA	NA	NA	NA	NA
BMS003_02210	1086	ruvB_2		Holliday junction ATP-dependent DNA helicase RuvB	ATGGAAAATTTTATAGTATCTGCAAGAAAATATCGTCCTCAAGAGTTTGATACAGTTGTAGGACAATCCCATATTACGGATACTTTAGAACATGCAATTGAAGAAAGTCAGTTAGCTCAGGCATTACTTTTTTGTGGTCCTCGTGGCGTGGGTAAAACTACCTGCGCAAGGATTCTGGCAAGAAAAATAAATGAGAAAGACGGCTCGGTTTCAGAAGACGGCTTTGCCTATAATATCTATGAGTTGGATGCCGCATCCAATAACTCTGTAGATGATATCAGAGAACTGATAGATCAGGTGCGTTTTGCACCTCAGGTTGGTAAATACAAAGTATATATCATAGATGAGGTTCATATGCTGTCTTCTGCCGCTTTCAATGCTTTCCTTAAAACGTTGGAAGAGCCGCCTGCTCATGCTATTTTTATTCTGGCAACCACGGAAAAGCATAAAATTATTCCAACAATTTTATCCCGCTGCCAGATTTATGACTTCAAGAGAATTACGATTGAAGACATCCAGAATCATCTGAAAAATATTGCCCAAAAAGAAAATATCCGGTATGAAGATGATGCGCTGTATCTGATTGCTCAAAAAGCTGACGGTGCACTAAGAGATGCGCTTTCCATCTTCGACAGGCTTTCTACCTTCTCCCAGAAAAATATTACGCTGGCAAAAGCTGCGGAAGTATTGAATATTCTGGATTATGATCAATATCTGAATATTGTGGATCTCGCCAAGGAAAATAAAATTCCGGAAGTGCTTTTTGCATTCAATGAGATTGTAAAAAAAGGTTTCGATCCTCATATTTTCATTGCCGGATTGGGAAATCATTTCAGAGACCTGATGATGGCTCAAAATGCTTCCACCATGGAACTTATAGAAGTGGGAGAGAAGACAAAAGCTAAATTTGTAGAACAGGGGCAGAAGTGGGCCGCCCAGCAGCTGATTGACGGCATTGAGATCTGCAACCATGCGGATATTAATTATAAAAATTCCAAAAACCCAAGACTTACGGTTGAAATTGCATTAATGCAGCTGGCTTCACTGACAGCTAATTTAGGCGATACTAAAAAAAAAAGTTCCTGA	MENFIVSARKYRPQEFDTVVGQSHITDTLEHAIEESQLAQALLFCGPRGVGKTTCARILARKINEKDGSVSEDGFAYNIYELDAASNNSVDDIRELIDQVRFAPQVGKYKVYIIDEVHMLSSAAFNAFLKTLEEPPAHAIFILATTEKHKIIPTILSRCQIYDFKRITIEDIQNHLKNIAQKENIRYEDDALYLIAQKADGALRDALSIFDRLSTFSQKNITLAKAAEVLNILDYDQYLNIVDLAKENKIPEVLFAFNEIVKKGFDPHIFIAGLGNHFRDLMMAQNASTMELIEVGEKTKAKFVEQGQKWAAQQLIDGIEICNHADINYKNSKNPRLTVEIALMQLASLTANLGDTKKKSS				NA	NA	NA	NA	NA
BMS003_02211	576			hypothetical protein	ATGCCGGAAAAAGCTCCGGAAAAAAAGGAAATTAAAACAGAACAGCCGACAGCAGTTTCAGATAAAGTAGAGGAAGCTACGGTAACGAAAACCACCAGACCATTATCAAGAGCAGGAATTTCTTCCGGTTTCAGCATCAATTCTTTCCTGAACAAAGAAGATAAAGTAGAAGAAACAGAAAATGTAACGGTAAGAACCGAAAATCTTCTCCAAAACCATTTTACAGACACAGATCTGCAGATGGAATGGAAAATTATGCTTAAGCAGCTTCAGGTGAAAAACAACTTTGTATTTAATGCCGTAAAAACCTTCAAGCTGGAAAAAGCTGAAGAAAATAAAATCAAAGTATTATTCCCTTCAGATTCTGCCAAAGTAGAATTTGATAAAATAAGTGGAGAATTTTTTAATCATTTTAAAAGAAAAATTCAGAACCATATTATCGAGATAGAATACGTCAGAGACGTTGAAAATCTGAAGATTGAGGTGGTGACGAAAAGAAAAATGTTTGAAAAATTTATAGAAAAAAACCCACTTTTGAAAGATCTTGATGATTTAATGAAGTTTGATTTGACATAA	MPEKAPEKKEIKTEQPTAVSDKVEEATVTKTTRPLSRAGISSGFSINSFLNKEDKVEETENVTVRTENLLQNHFTDTDLQMEWKIMLKQLQVKNNFVFNAVKTFKLEKAEENKIKVLFPSDSAKVEFDKISGEFFNHFKRKIQNHIIEIEYVRDVENLKIEVVTKRKMFEKFIEKNPLLKDLDDLMKFDLT				NA	NA	NA	NA	NA
BMS003_02212	1080	kdsA_1		2-dehydro-3-deoxyphosphooctonate aldolase	ATGAATTTAAATGATTTAAAAAATGAGTGGATCAATGAGCTTACACAGCCTTTAATGATTGCGGGACCATGTAGTGCGGAAAGTGAAGCTCAGATGCTTGAAACGGCTAAAAGGATTAAAGAATCCAATGCTAATGTATCTGTTTTCCGTGCCGGAATCTGGAAACCCCGTACCAAACCAAACGGTTTCGAAGGAGTAGGAGTGATCGGTTTGAACTGGCTGAAAAAAGTAAAAGAAGAATACGGTTTTAAAACAGCTACAGAAGTTGCCAATGCTCACCACGTATTTGCAGCCTTAGAAGCAGATGTGGACGTTCTTTGGATCGGAGCCCGTTCTACAGTAAATCCATTTACAGTACAGGAAATCGCCATGGCTTTAAGAGGTACAGACAAACCTGTATTCGTGAAAAACCCTGTTAATCCGGATCTTGCATTATGGATCGGAGCTTTGGAAAGACTTTTAGGCCAGGATATTAAAAACCTTGGAGCGATTCACAGAGGATTTTCAACATACCAGAAAACAAAATACAGAAATAACCCGAACTGGCAGATCGCTCTTGATTTCAAGAGCCAGTTTCCCAATATTCCAATGCTGATTGACCCTTCTCACATCTGCGGAAACAGAACTGGTCTTGCTGATATCACACAGGAAGCGCTTAACGTAGGATATCAGGGAGCAATCATTGAATCACACTGTAATCCCGATGAAGCTTGGAGTGATGCTTCTCAGCAGATTACACCGGAAGTTCTTGCAGATCTTATTGGTAACCTGAAAGTAAGAAGCTCTAATCTTGCAGGTTTTGAAGGAGAGATGGGAAGGCACAGAACTTTAATTTCAGATCTTGACTTCCAGTTAATTGAACTTCTTTCTCAAAGAATGAAAATCTCTGAAAAGATCGGTAAGCTTAAAAAAGAGAATGATATTGCGATCTTCCAGCCTGAACGTTGGAAGGTGATCACAGAATACGCTAATCAAAAAGCAAAAGAAACCGGAATGTCTCAGGAATTTATTGAAAAAGTTTTCAAAGCGATTCACGAAGAATCTATTGAAGTTCAGAATAATATTATGATCGAGAGATAA	MNLNDLKNEWINELTQPLMIAGPCSAESEAQMLETAKRIKESNANVSVFRAGIWKPRTKPNGFEGVGVIGLNWLKKVKEEYGFKTATEVANAHHVFAALEADVDVLWIGARSTVNPFTVQEIAMALRGTDKPVFVKNPVNPDLALWIGALERLLGQDIKNLGAIHRGFSTYQKTKYRNNPNWQIALDFKSQFPNIPMLIDPSHICGNRTGLADITQEALNVGYQGAIIESHCNPDEAWSDASQQITPEVLADLIGNLKVRSSNLAGFEGEMGRHRTLISDLDFQLIELLSQRMKISEKIGKLKKENDIAIFQPERWKVITEYANQKAKETGMSQEFIEKVFKAIHEESIEVQNNIMIER				NA	NA	NA	NA	NA
BMS003_02213	927	rsgA	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGAAAGGAAAAATCATTAAATCTACAGGCAGTTGGTACCAGGTTTTGGAATTGGAAACACATAAAATTTTCGAGGCCAGAATCAGGGGGAAATTCAAATTAATAAAAACCAGACTTACCAATCCGCTTGCTGTAGGAGATTTTGTCGAGTTTCAACTGGAACAGGATGATATCGCCTGGATCACGAAAATTGAACCACGCACCAATTACCTGATCAGAAAATCGGTAAACCTTTCAAAAGAAGCTCACATTATTGCTTCCAATATTGATCTGGCATGTTTTATCTTCACATTGAAGCATCCCGAAACATCTTTAGGTTTCCTTGACAGATTTCTGGCATGTTGTGAAGCTTATAATATTACCCCTGTCATCCTTTTTAATAAAATGGATGTCCTACATGAAGAAGAAATTGAGATTGTAAAAGATATTGAATTCCTTTATCAGGAAATTGGTTATGATACGCTGGAGATCTCATCCTATTCAAAACTGAATCTTGACCAGCTGCAGGAAATACTTAAAGACAGAACTTCTGTATTCTTTGGCCATTCCGGTTGTGGAAAATCTACATTAGTGAATGCTTTACAACCCGGATTGAACTTAAAAACATCTGAAATTTCAGACACCCACCTTAAAGGAAAGCATACAACTACTTTCGCACAGATGCATTTCTGGCACTTTGGAGGAAATGTTATTGATACACCCGGTGTTCGTGAATTTGCCATGATTGATATTGAAAAAGAGGAAGTACAGCATTACTTTCCTGAGATTTTCAAAAAGAGAGAAGAATGCAAATTTCATAACTGCCTCCACATTAATGAACCGAAATGTGCCGTTATTGACGCCCTTGAAACCGGAGAAATCCAGCATTCGCGTTATGCCACGTACGTTAAGCTGATGGATGAGGCAGAAGAGGCTTCCCAGAAATAA	MKGKIIKSTGSWYQVLELETHKIFEARIRGKFKLIKTRLTNPLAVGDFVEFQLEQDDIAWITKIEPRTNYLIRKSVNLSKEAHIIASNIDLACFIFTLKHPETSLGFLDRFLACCEAYNITPVILFNKMDVLHEEEIEIVKDIEFLYQEIGYDTLEISSYSKLNLDQLQEILKDRTSVFFGHSGCGKSTLVNALQPGLNLKTSEISDTHLKGKHTTTFAQMHFWHFGGNVIDTPGVREFAMIDIEKEEVQHYFPEIFKKREECKFHNCLHINEPKCAVIDALETGEIQHSRYATYVKLMDEAEEASQK	PGPT0009020_3389	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
BMS003_02214	123			hypothetical protein	ATGAAAATTCAAAAAAATATTAAAAGACCTGCAAACCGCCCTCATCACATTGAATTTACTTTTAAAATCAATAAAACCACAAAACATCTTACTGAAAACACCGAAGTATTAAGCCTTATTTAA	MKIQKNIKRPANRPHHIEFTFKINKTTKHLTENTEVLSLI				NA	NA	NA	NA	NA
BMS003_02215	417	ndk		Nucleoside diphosphate kinase	ATGTCTAACATTACATTCACTATGATTAAGCCTGATGCTGTTGCTGACGGACATATCGGTGCTATATTGGGTAAGATTGCTGAAGGAGGTTTCAAAATCAAAGCTTTAAAATTAACTCAGCTTACAGTGGCTGATGCAAAAAAATTCTATGAAGTACATGCTGAAAGACCATTTTATGGAGAATTAGTAGAATTCATGAGCTCTGGTCCTATCGTAGCTGCAGTTTTAGAAAAAGACAATGCAGTTGAAGACTTCAGAACATTAATTGGTGCTACTAACCCTGCAGAAGCGGCAGAAGGTACCATCAGAAAAATGTTCGCAAGAAGCATCGGAGAAAATGCAGTTCATGGTTCAGATTCTAACGAGAATGCATTAATCGAAGCTCAATTCCATTTTTCAGGGAGAGAGATTTTCTAA	MSNITFTMIKPDAVADGHIGAILGKIAEGGFKIKALKLTQLTVADAKKFYEVHAERPFYGELVEFMSSGPIVAAVLEKDNAVEDFRTLIGATNPAEAAEGTIRKMFARSIGENAVHGSDSNENALIEAQFHFSGREIF	PGPT0021210_4989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
BMS003_02216	1848			hypothetical protein	ATGAAAAACAGTCTGATCAAAGCTGTTTTCCTTGGATTAATATTATCTGTACATAATATTGACGCCCAGGTGAAAACTGCTGACAGCAGCAAAAAAATGGAATGGTTTAAAAATGCCAAACTGGGTATTTTTATTCACTGGGGAATTTATTCCGTTAATGGAATTTCGGAATCCTGGTCATTCTTCAACAATTATATTAATCATGAAAATTACATGAAACAGCTGAATGGTTTTTCAGCTTCAAAATATCAGCCGGAGCAATGGGTAAATCTGATTAAAGAATCCGGAGCCAAATATGCAGTCATTACCACCAAACATCATGATGGCGTAGCTTTATGGAACTCAAAAGCAGAAAATGCGACTACTATCCCTAAACAATCTTTGGCTCAAAAAGATGTTTTAAGTCCATTTATTTCTGCTCTGAAAAAATCGGGGTTAAAAACCGGACTTTATTTTTCTTTACCGGATTGGAGCCATCCGTATTATGATATCAACACCCGGACAAAAAAACGCTACGAAATCAAAAGTGATCCGAAACGCTGGCAGAATTTTGTCAGTTATTATCAGACTCAGCTTAATGAACTGTCTTCTCAGTATTCTCCGGATCTTCTATGGTTCGATGGTGACTGGGAACATACTTCTGAGGAGTGGAAAGCTCCGCAAACCCTTGATTTACTCAAAAAATACAATTCCAATATTATCATCAATTCAAGACTCAACAATCATGGAGATTATGACACTCCTGAACAGGGAGTTCCGGTCATTCCACCTAAAAATCCATACTGGGAACTTTGTTATACGATGAATGATTCCTGGGGATATCAACCCTATGACAGCGCATACAAAACACCCAATATGGTTGTCAGAACACTTGCGGATGTGATCAGCATGGGAGGAAATCTTCTTCTTGATATTGGTCCGAAATCAGACGGCACTATTCCGGAAGAACAGATTGAGATCCTGAAAAACCTGGGTAGATGGACATCTAAAAATCAGCATGCCATTTATGAAACAACCCGCGGAATTCCTTTTGAAAATTACAAGGGGAAATCATCCTTGTCTACCTCAAAAACATCTTTGTTTCTTTATCTGGAAGAAGCTAAAAATTTTACAAAGGTCTATGGATTAGAAACAAAACCTATTTCAGCAAAAATTATAGGAAACCCTTCCGCTGTTATTGCAATGGATCACAATCCTGAAAAAACACTGTTATTACAGTTTTCCAATGTAAAATTTGATAAGGATGTCACTGTTGTGGAACTCACCTTTGATACTCCACCTGTATTTTTAAAAGATTTTAAAACGGAAGAACATTCTCTGTCCGAAATTTTAGACAATAAGAAGGCACAGGAAGCGGTATACAATATTGCCAATATGCTTTATAATGGAAACAATTTACTGAGTTCTTCAGGACTTACAAGCGATGGCCTTGACATGAAAATCAGGAAAACACCCAAAACCAATCCGGAAACCCTACAGTGGATAAGCAAGCATGCAGAAGCACTTTTTGAAACAGAAAAAGGATTACCGGGCGGGCATTACTCAGGTATGAGTGCTTTGTCAAAAGACAAACAGACGCTTTATCTTTTTGTAGAAGGCACCCCTGCAGGTCCAATTGCTTTAAAAGGAATAAAAAACGGAATTGCCAGAATAAGAGTTGTGGGTGAAGGTACCATGCTGTCTCATACTATTTACAATAAACTTTACTGGAGTGACAGACCGGGAATTATTTATATTGATATTCCAAAGGAAAAACTTGATAAGCAAATGACCGTTATTGCTGTTTTACTGAATAAGCCTCTGGAACTCTACAGGGAAAATGTGGGAGCTATTGAAAACAACCTGTAA	MKNSLIKAVFLGLILSVHNIDAQVKTADSSKKMEWFKNAKLGIFIHWGIYSVNGISESWSFFNNYINHENYMKQLNGFSASKYQPEQWVNLIKESGAKYAVITTKHHDGVALWNSKAENATTIPKQSLAQKDVLSPFISALKKSGLKTGLYFSLPDWSHPYYDINTRTKKRYEIKSDPKRWQNFVSYYQTQLNELSSQYSPDLLWFDGDWEHTSEEWKAPQTLDLLKKYNSNIIINSRLNNHGDYDTPEQGVPVIPPKNPYWELCYTMNDSWGYQPYDSAYKTPNMVVRTLADVISMGGNLLLDIGPKSDGTIPEEQIEILKNLGRWTSKNQHAIYETTRGIPFENYKGKSSLSTSKTSLFLYLEEAKNFTKVYGLETKPISAKIIGNPSAVIAMDHNPEKTLLLQFSNVKFDKDVTVVELTFDTPPVFLKDFKTEEHSLSEILDNKKAQEAVYNIANMLYNGNNLLSSSGLTSDGLDMKIRKTPKTNPETLQWISKHAEALFETEKGLPGGHYSGMSALSKDKQTLYLFVEGTPAGPIALKGIKNGIARIRVVGEGTMLSHTIYNKLYWSDRPGIIYIDIPKEKLDKQMTVIAVLLNKPLELYRENVGAIENNL	PGPT0018775_402	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
BMS003_02217	222			hypothetical protein	ATGAAAATTCCGGCAATATTAATGGCAAGTTTACTGTCTGTAGGACTTTCTGCACAGACTTCAAAACCCAACGCCAAAACGAAAAAAAATGTTAAAAAAGTAAAGAAAGCAATTCCTGCGGATACCCTTGAGAAAAAGAAACCGGAAACTCCTAAGCCGGTTGTGAAAAAAGATACACTGGTGCTTCGGGAATATGGCTGCCCGGCATGCGGAATGGGATAG	MKIPAILMASLLSVGLSAQTSKPNAKTKKNVKKVKKAIPADTLEKKKPETPKPVVKKDTLVLREYGCPACGMG				NA	NA	NA	NA	NA
BMS003_02218	1086			hypothetical protein	ATGTTAGGACTATCAATGATGGCAGAGGCAGATTTTGTTTCTGCTATTTTGCCGTTGTTACAGAATAATTCCATTGATGTGCTGGAGTGGTCTTTTGATACCCTTTATCAAAACAACGAACCGGATTGGCTTCGTGATCTGCTGAATTTTTATGCCGACAATAACCGATTAATAGGACATGGAGTTTATTATTCCCTGTTTGATGCAAGATGGACAGGCAGACAGGAAGAATGGCTGAAAAAGCTTAAAGAAGAAGTCAGCCTGCGGAAATACAACCATATTACGGAGCATTTTGGTTTCATGAATACTGAGAACTTTCATCAGGGAGTTCCATTGCCTGTATCATTGCATCCAAAAACCTTAGAGATAGGGAAGGACAGACTGTACAGGCTTCAGGAAGCTGTAAATATTCCTGTGGGTATAGAAAATCTGGCCTTTTCATTTTCTGTGGATGATGTTAAAGAGCAAGGTGTTTTCCTTGATAAACTGACCGAAGATACTGATGGCTTTCTGATCCTGGATCTTCATAATATATATTGCCAATCCTGCAATTTTGAAGTGGAACTGCAGGAAATCATAGAATTTTATCCGCTGGATAAAGTGAAAGAGATTCATCTTTCCGGAGGAAGCTGGCAGGAGAGTGTTTACCGTAAAGGGAAAGTGAGGAGAGATACTCATGATGACGTTATACCGGAAGAGATTTTTTCTGCCCTGCCCTCGGTGTTGTCAAAATGTAAAAGTCTCGAATATATTATCATTGAAAGGCTTGGGCATACTTTGAAAACTGAAGAAGAAAAAGACAATTTCCTGAATGATTTTAAAAAAGTTAAAATCATTATCGAAACCTCAGACTGGAAAAAAAACAAAAGAAAGCCCTGGAATAAAAAGAAAGTAAAACTCGCAGAGAAACCTTTGGAAGATCTGGTATTGTCTGAAGAACAATCGAGGCTTACCCAACTTCTTTTTGACAATGCAGATGCAGCGGTTATTAAAGAACTTGACTTTCATTATTTTAAAACAGATACATGGGATCCTGAAATGATTCTTACCGCACAGAATATCATTAAAAAATGGAATCCTTATTAA	MLGLSMMAEADFVSAILPLLQNNSIDVLEWSFDTLYQNNEPDWLRDLLNFYADNNRLIGHGVYYSLFDARWTGRQEEWLKKLKEEVSLRKYNHITEHFGFMNTENFHQGVPLPVSLHPKTLEIGKDRLYRLQEAVNIPVGIENLAFSFSVDDVKEQGVFLDKLTEDTDGFLILDLHNIYCQSCNFEVELQEIIEFYPLDKVKEIHLSGGSWQESVYRKGKVRRDTHDDVIPEEIFSALPSVLSKCKSLEYIIIERLGHTLKTEEEKDNFLNDFKKVKIIIETSDWKKNKRKPWNKKKVKLAEKPLEDLVLSEEQSRLTQLLFDNADAAVIKELDFHYFKTDTWDPEMILTAQNIIKKWNPY				NA	NA	NA	NA	NA
BMS003_02219	492			hypothetical protein	ATGAAAATGTCAACACTCGTATTGATCATTACAGCTGTCCTCACTGCTTTGATAGGAGGACTTTTCTATGCTTATTCTTGTTCCGTTGTTCTGGGATTGGGTAAACTTTCTGATACCGAATACCTGAAGGCAATGCAGAACATTAACCGTGAAATTCTCAATCCTGTCTTTTTTATGAGTTTTATGGGAACGGTGATACTTCTTCCGGTGTCTGTTTTTTTGTTTCGCGGACATCAGCCTGTTTTTATTTTTCTTTTGTTGGCAACACTGGCTTACCTGATCGGGGTTTTCGGGGTAACAGTTGCGGGAAATGTTCCAATGAATGATGCTTTGGATAAGTTTGATATTTCCAATTCTACGGTGGAGTCCATCAGGCAGATGCGTGAAAACTTTGAAAACAGATGGAATTTCCTGAATAATATAAGAACTGTCTTTTCTGTTGTTTCGATCCTTCTTGTAGTCTGTGCCTGTGTATGGAATAAGGATATTTAA	MKMSTLVLIITAVLTALIGGLFYAYSCSVVLGLGKLSDTEYLKAMQNINREILNPVFFMSFMGTVILLPVSVFLFRGHQPVFIFLLLATLAYLIGVFGVTVAGNVPMNDALDKFDISNSTVESIRQMRENFENRWNFLNNIRTVFSVVSILLVVCACVWNKDI				NA	NA	NA	NA	NA
BMS003_02220	651	rpe		Ribulose-phosphate 3-epimerase	ATGAAAACGAAGCTTATTGCTCCATCCCTTTTATCAGCAGACTTTGGGAACCTGCAAAGAGACATTGAAATGCTGAACAACTCTCAGGCCGACTGGTTCCACATTGATGTAATGGACGGCAGATTTGTTCCTAACATTTCATTTGGTTTTCCTGTGATGAAAACTGTTCAACAGCATGCCAAAAAATTTGTAGATGTTCACCTGATGATCGTAGAACCTGAGAAATACGTTGATGAATTCATCAATCATGGTGCAGATCTTATTTCTGTACATTATGAAGCATGTACTCACCTTCACAGAACCATTCATCATATTCAGAGTAAGGGTGCAAAAGCGGGTGTCGTTTTAAATCCGTCCACTCCGGTATTAATGCTTGAAGACATTATTGCTGATGTGGATCTTGTATTGCTGATGAGTGTAAACCCAGGATTCGGAGGTCAGAAATTTATTGAGAATACTTATAAAAAGATTGCTGAAACCAAAGATCTTATCTTAAGCAACAACTCTACAGCGCTTATTGAAATAGATGGCGGCGTGAATCTCGACAACGCTTCGAAACTTTTTGAAGCCGGAGCTGATGTTCTTGTTGCCGGAAATGCTGTTTTCTCAACAGAAAACCCTGAAAGAACGATTGAACTTTTAAAAATTTAA	MKTKLIAPSLLSADFGNLQRDIEMLNNSQADWFHIDVMDGRFVPNISFGFPVMKTVQQHAKKFVDVHLMIVEPEKYVDEFINHGADLISVHYEACTHLHRTIHHIQSKGAKAGVVLNPSTPVLMLEDIIADVDLVLLMSVNPGFGGQKFIENTYKKIAETKDLILSNNSTALIEIDGGVNLDNASKLFEAGADVLVAGNAVFSTENPERTIELLKI	PGPT0017425_5201	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
BMS003_02221	300			hypothetical protein	ATGAAGTCTATTTCTGATTTAATAAAAAGACCAACCTTTATCTCTATTGTATTTATTACACTTGTAGGGCTAGGAATTCCTTTAATTGTCTATCAATTATTTACACTCGATCCCAGTGAAAGCTTAGGAATTACAATAGAAATAATTTTCTTTTTGGTACTGTTCGGGCTTCTCGTAATCGATAGATTTCTACTCATAAATATTAACAATAAAAAATTATCTGTGATAGAAGGAGTTTTAATAACAGGATATCTAATCTATTATTATTTCACTAATGACCGCTCATTTTCAATAGGATAA	MKSISDLIKRPTFISIVFITLVGLGIPLIVYQLFTLDPSESLGITIEIIFFLVLFGLLVIDRFLLININNKKLSVIEGVLITGYLIYYYFTNDRSFSIG				NA	NA	NA	NA	NA
BMS003_02222	1074	ysdC	COG1363	Putative aminopeptidase YsdC	ATGAAATTTGAAAAGAAATCTTTGAAATTTTTAGAAAATTATTTAAACACTTCGTCACCAACCGGTTACGAACATAAAGGACAGGAAGTCTGGATGAACTATATCAGACCTTATGTAGACAAAATAGAAGTAGACCATTACGGGACCTGTTATGGGATCATTAATCCGGAAGCTGAATTTAAAGTAGTGATTGAAGCCCATGCTGATGAAATTTCGTGGTACGTTAATTATATTACGGATGACGGATTGATCTATGTCATCAGAAACGGAGGTTCAGACCAAACAATTGCCCCCTCAAAAGTGGTTCATATTCACGGAGAAAATGGGATTGTGAAAGGAGTATTTGGATGGCCGGCTATTCATACAAGAGCCAATCAAAATGAACCTGCACCAAAAATAGAAAACATCTTTATCGACTGTGGAGCGACTTCCAAAAAAGAAGTAGAAGAAATGGGAATCTTTGTAGGATGCATGATCACTTATCCTGATGAATTCTTTGAAATGAATGACAGGTATTTTGTCTGCAGAGCACTGGATAACAGAATCGGAGGTTTCATGATTGCTGAAGTTGCCAGACTGTTAAAAGAAAATAAAAAATCTATTCCTTTCGGGCTTTATATTACCAACTCTGTACAGGAAGAAGTGGGCTTATACGGAGCAGACATGATTGCAGATACCATCAAACCTAATATCGCAATTGTAACAGACGTCACCCATGACACTACAACTCCGATGATTGAAAAGAAAAAAGAAGGTGATCAGAAATGCGGTGCCGGACCGGTAGTTTTCTTTGCGCCAAGTGTTCATCATACGATCAGAGAACTGATTATTGACACTGCAAAAACTAAAAAGATTCCTTTCCAAAGAGCGGCGGCAAGCAGAGCAACAGGAACGGACACAGATGCATTCGCTCATTCTAACGGCGGAGTACCAAGTGCGTTAATTTCCTTACCTTTGCGTTATATGCATACTACGGTAGAAATGGTTGCTAAAGAAGATGTAGGTAACGTTATTAAACTGATCTATGAAACCATTCTTAAGATCAAGCCTGAAATGAAACTGAAGTATCATTAA	MKFEKKSLKFLENYLNTSSPTGYEHKGQEVWMNYIRPYVDKIEVDHYGTCYGIINPEAEFKVVIEAHADEISWYVNYITDDGLIYVIRNGGSDQTIAPSKVVHIHGENGIVKGVFGWPAIHTRANQNEPAPKIENIFIDCGATSKKEVEEMGIFVGCMITYPDEFFEMNDRYFVCRALDNRIGGFMIAEVARLLKENKKSIPFGLYITNSVQEEVGLYGADMIADTIKPNIAIVTDVTHDTTTPMIEKKKEGDQKCGAGPVVFFAPSVHHTIRELIIDTAKTKKIPFQRAAASRATGTDTDAFAHSNGGVPSALISLPLRYMHTTVEMVAKEDVGNVIKLIYETILKIKPEMKLKYH				NA	NA	NA	NA	NA
BMS003_02223	741			hypothetical protein	TTGCGTTCAATTTTTGTTCTTATAAGTGTAAAAATAATGAATTTTAGTAAGATTATCTGCCTTTTTGTTTTCTTTTTTGGAGTCAGTGCTTTTGGTCAGAAGGATGGTATAGTGGCAAAACCACTCAATCAGTATCCGCCCGAATCTCTGAAAGTAGATGAATTTGGTAATAAGTATTATTATGACCAGCAGCAGAAGATTAAAGTTTATGAAATCAATGGAGAACCAGTAGTTGTATTGGATGAGTTGGTTTTGGTGAATAAGCCGAGATTTAACAATCAGCTGGATAAAAATTACTATTATTTCCTTAATAAAAAACTGTACAGAGTCTATCCGTTATTTGTAACCGCATTACAACAGTACAGAGACATTCAGGTAGATATGAATGATATGGACAGCAAAGCAAAAAGAAAGTTTGTAAGAGAAAGACAGAATATGCTTGCAGACCAGTATGAAAAACAACTGAGAGACCTTACAACTACCGAAGGACAGGTTTTTGCCAAGCTGATGAACAGAGCGACCGGAAAAAACGTATTTGAAATCATCAAAGAGTTAAGAGGGGGATGGAGTGCTTTCTGGTGGAATGTAAAAGGAAAAATGGCAGATATTGATCTGAAAGACCGCTATGATCCTCATACCAACAGAAGTGACGAGTTTATAGAATCTTTACTGCAGTCTAATTGGAATTCAGGATATCTTCAGCCTTATCCGGGAGCTAATGATTTTAAAGTTAAGAAATAA	MRSIFVLISVKIMNFSKIICLFVFFFGVSAFGQKDGIVAKPLNQYPPESLKVDEFGNKYYYDQQQKIKVYEINGEPVVVLDELVLVNKPRFNNQLDKNYYYFLNKKLYRVYPLFVTALQQYRDIQVDMNDMDSKAKRKFVRERQNMLADQYEKQLRDLTTTEGQVFAKLMNRATGKNVFEIIKELRGGWSAFWWNVKGKMADIDLKDRYDPHTNRSDEFIESLLQSNWNSGYLQPYPGANDFKVKK				NA	NA	NA	NA	NA
BMS003_02224	417			hypothetical protein	ATGATAGATAAGATCAACATTAGGGTGTATGCATGTGCGGTAAAAGATAAACAAGTTCTGACCTTATTTGAGGAATATGCCGGCGAACCTTTAATGAAATTTCCGGGTGGCGGATTGGAATACGGTGAAGGAGTACTGGAATGTCTGCATCGTGAATTTGATGAAGAGCTGAATGTAAAAATCAATGTTCTGGAACATTTCTACACTCAGGAAAACTTCCTGGTATCTCGTTTCAGAGAGAATGAACAGCTTCTTACCATATATTATATAGTAGACATCGTGAATGAGGAAGATTTTATTATTCTGGATCCATGTATAGAAAAAACAGAGTGGATTGATATAGACAGACCAGACAATCCTTTTCCCCTGCCAATTGATAAGATCGTATTTGATAAATTAAAAGAAAAATTCCTGTAG	MIDKINIRVYACAVKDKQVLTLFEEYAGEPLMKFPGGGLEYGEGVLECLHREFDEELNVKINVLEHFYTQENFLVSRFRENEQLLTIYYIVDIVNEEDFIILDPCIEKTEWIDIDRPDNPFPLPIDKIVFDKLKEKFL	PGPT0028060_378	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
BMS003_02225	675	mnmC_1	COG0665	tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	TTGAAAAGAGAGATAAAAACTACCAAAGACGGAAGTAAAACACTGTTTATCAATGGATTAAATGAAAACTACCATTCTCATCACGGAGCACTACAGGAAGCCGAACATGTGTTTATCAAAAATGGACTAAACTTAATAAATAATTGCGAAATTAATATTTTAGAACTCGGTTTTGGAACAGGTTTGAATGTTTTAGTAACAATTAATGAATATTTAAAAACTGACAAAAATCATGTCATCAATTATTTTTCACTCGAAAAATACCCCATAAATGAATCTGAAGTTAAGGATTTGGCATACTTTGAGCTTTTTGACAACCCTGAGTTCAAAAATATTTATCAGAAAATTCATCTGGCAGATTGGGAAAAGCCAGTAGAAATCATTAGTGGATTCAACTTAAAAAAGATAGAATGTGATTTTTTCGACCTTAGAGACATTGATCTTCCCAAAATCAACCTTGTTTACTTCGACTGTTTTGGAGCCAGAGTACAGCCTGATCTTTGGGAAAAACCATTATTTGAACTGGTTTCTGACAAAATGGCCATTAACGGATTATTAACAACCTACTCCTCTAAAGGGAGCGTAAGGAGAATTCTTCAGGATCTAAATTTTCAGGTAGAAAAAAAACAGGGTCCTCCAGGGAAAAGAGAGATGATTAATGCCATTAAATTGTAG	MKREIKTTKDGSKTLFINGLNENYHSHHGALQEAEHVFIKNGLNLINNCEINILELGFGTGLNVLVTINEYLKTDKNHVINYFSLEKYPINESEVKDLAYFELFDNPEFKNIYQKIHLADWEKPVEIISGFNLKKIECDFFDLRDIDLPKINLVYFDCFGARVQPDLWEKPLFELVSDKMAINGLLTTYSSKGSVRRILQDLNFQVEKKQGPPGKREMINAIKL				NA	NA	NA	NA	NA
BMS003_02226	1071	ilvE_2		putative branched-chain-amino-acid aminotransferase	ATGATAATTCAAAAAACTGAAAACTCCAGAATTTCTACATTTGACCCTAACAATTTTTCATTTGGCAGTACTTTCATTGATCATATGATCATTTGTGAGTATGAAAACGGAAAATGGGGTGATGTAAAATTAGTTCCTTACGGTCCTATTCCATTTACACCTGCCATGATGGGAGTAAACTATGGACAAGCTTGTTTTGAAGGTATGAAAGCCTATAAAGACAAAGACGGGCAGGTTTTCCTTTTCAGGCCTGAAAAGAATTTTGAACGTATCAATAAGTCGGCAAAGCGTCTTGCTATGCCTGAGGTAACTGAAGAAATGTTTTTAGACGGATTAAAAGCATTGGTAGATATAGACAGAGAGTGGATTCCACAGGGGGAAGGAATGTCACTTTATATCAGACCATTGATTTTTGCTACGGAAGAAGCTTTGAAAGCAAGAGTGTCTGAGAAATATATGTTTGCTATCGTTGCAACACCAGCAAAAAGCTACTATTCTGAGCCGGTATCTGTAAAAATCTCTGATCACTATTCAAGAGCTGCCAACGGGGGAGTGGGATCTGCAAAAGCTGCAGGTAACTATGCGGCTTCTTTCTATCCGACTCAATTGGCAATTGAAGAAGGGTATGAGCAAATTATCTGGACTGATGATGCTACCCACGAATATTTCGAAGAGAGTGGTACCATGAACGTATTTGTAAGAATTAATGATACTATCTATACTCCTCCAACTTCTGAAAAAATCCTTGACGGGGTAACAAGAGACAGCTTCATTCAGCTGGCAAAGAAAAGAGGAATTGAAGTAAAAGTAGAACCAATTCCTGTGAAAACAGTTATTGAAGCTCTAAAGAATGGTGAGCTTAAAGAAGTATGGGGAGTAGGTACAGCAGTAGTAACCACTCAGTTTCAGGCTTTAGGATATCAGGGTGAAAAATTGGCGCTTCCAAGATTATCTGATGAAGAAAGCTATGCTGCTCTTCTAAAGAAAGATTTGGTAGACCTTCAAAATAACCTTTCCGAAGATCCGTTCGGATGGAGAGTTATGGTAGATCATGCTCTTGAAACAGTTTAA	MIIQKTENSRISTFDPNNFSFGSTFIDHMIICEYENGKWGDVKLVPYGPIPFTPAMMGVNYGQACFEGMKAYKDKDGQVFLFRPEKNFERINKSAKRLAMPEVTEEMFLDGLKALVDIDREWIPQGEGMSLYIRPLIFATEEALKARVSEKYMFAIVATPAKSYYSEPVSVKISDHYSRAANGGVGSAKAAGNYAASFYPTQLAIEEGYEQIIWTDDATHEYFEESGTMNVFVRINDTIYTPPTSEKILDGVTRDSFIQLAKKRGIEVKVEPIPVKTVIEALKNGELKEVWGVGTAVVTTQFQALGYQGEKLALPRLSDEESYAALLKKDLVDLQNNLSEDPFGWRVMVDHALETV	PGPT0008860_2638	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS003_02227	477			hypothetical protein	TTGAGCTGCAATAGAAATACACAGACGGCACATCCTCCTGTAGGGGGTGTTTTAAGCCAAAAAGATCTGGATGTTTCTAAAAACAGGATGAAAAACCTTAATGTCATAGAAAGGAGCCAGATTCAGGATTGGATCAGTGACCAGTCTGTAAAATATTATCCTACGCAGCTTAATTACTGGGTAACGGTAGAAGGTTATGATCAGAGAGAAAGAAGAAAAGATGAATCTTTAATTTCTTATTCTTATGATCTCTATGATTTTGATCAAACTAAAATCTATGATCAGCCTTTTGAGAGAAGAGATGCTAAATTCGGGCACTTTGATGAATTGAGAGCAGTGGAGAACGCTTTGCGTTTTATCCATGATGGAGAGGAAGTAACGCTTTTGGTACCGTCTTCTTTGGCTTACGGAACCTACGGAGACGAAAAGAAAATAGATAACGACATTCCATTAATCATAAAATTAAAAGCCTTATAA	MSCNRNTQTAHPPVGGVLSQKDLDVSKNRMKNLNVIERSQIQDWISDQSVKYYPTQLNYWVTVEGYDQRERRKDESLISYSYDLYDFDQTKIYDQPFERRDAKFGHFDELRAVENALRFIHDGEEVTLLVPSSLAYGTYGDEKKIDNDIPLIIKLKAL				NA	NA	NA	NA	NA
BMS003_02228	1116			hypothetical protein	ATGAAATTGTTTAACAAGAATATAATTCTGGCAGCGGCAAGTATTTCGCTGATGAGTTGTACCCCAATTTATAAAAAAATGAACGTAGACAAAGAAACTTACGAAGGTCTTAATGACGGACTTTATGCCAATCTTCAAACTACAAAAGGTAACTTAATTGTAAAATTTGAAGATAAGAAAGCACCAGTAACTGTGGCCAACTTTATCGGTCTTGCAGAAGGGAAAATCGACAACAAAGCTAAGGCTAAGGGAGTTCCTTACTATGATGGAACTATTTTCCACAGAGTAATCAAAGATTTCATGATCCAGGGAGGAGACCCTCAGGGAACCGGAATGGGTGATCCCGGATATAAATTCGAGGACGAAAAAAATGATCTTAAACATACAGGAAAGGGAATTCTTTCTATGGCAAACTCTGGACCTAATACCAACGGTTCTCAGTTCTTCATCACTGAAGTGGCTACTCCTTGGTTAGACGGAAGACACACGATCTTCGGAAAAGTAGTAAAAGGTGATAATGTAATTGATGCTATTGCTAATGTTGAAAAAGGAGCTCAGGATAAGCCTAAAACTGACATCGTTTTAGAAAAAGTATCTGTTTTCAGCAAAGGTGACGAATACAAACACTACGATGCAGCTAAAACTTTCAACGAAGGAAAAGCTAAAATCGCAGAAAACAATAAAGCTTTCATCGCTAAAGAAGAAGCTGAAAAAAAGAAAAGAGAAGAAGAGTTCAAAGCTAACCAGGAGAAATTGGTTGAAAACCTAAAAGCTGGTATGCAAAAAACTGAATCTGGTCTTTACTATAAAATCACAAAAACAACTGACGGTAAAGCTCCAAAAGCCGGTGACAATGTATCTGTACACTATGCAGGTAAACTGGTAGACGGAACTGAATTCGATTCTTCATTCAAAAGAAACGAGCCTATCGAAATTCCAATCGGAATGGGAAGAGTAATCAAAGGATGGGATGAAGGTATCCTTTTATTAAAAGAAGGAGAAACTGCTACATTATTGATCCCGCCGGCAATGGCATATGGAGAAAGAGGTGCAGGAGGAGTGATTCCGCCAAACTCTTGGTTGGTTTTCGATGTTGAGCTTGTAAAAGTAAAATAA	MKLFNKNIILAAASISLMSCTPIYKKMNVDKETYEGLNDGLYANLQTTKGNLIVKFEDKKAPVTVANFIGLAEGKIDNKAKAKGVPYYDGTIFHRVIKDFMIQGGDPQGTGMGDPGYKFEDEKNDLKHTGKGILSMANSGPNTNGSQFFITEVATPWLDGRHTIFGKVVKGDNVIDAIANVEKGAQDKPKTDIVLEKVSVFSKGDEYKHYDAAKTFNEGKAKIAENNKAFIAKEEAEKKKREEEFKANQEKLVENLKAGMQKTESGLYYKITKTTDGKAPKAGDNVSVHYAGKLVDGTEFDSSFKRNEPIEIPIGMGRVIKGWDEGILLLKEGETATLLIPPAMAYGERGAGGVIPPNSWLVFDVELVKVK	PGPT0015110_51	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
BMS003_02229	576			hypothetical protein	ATGAAAATCAAATCACTTCTGTTGCTGTTCGTTCTGCTGTCGGTTACGGTTTTTTCACAGACTAAGGCCAATCCTGACGATGCAGTAATAAAAAAATCACTTACTTATTTTGTAAACAGTATTAAATCTAAGAAGATAGATCAGGCGGTAAGCTATATATATCCAAAATTCTTTACCATCGTTCCAAAAGAGCAGATGACACAGATTTTGAACATGACTTACAATAATCCATTCATGAAAGTTGAAGTGCAGGATTTAAAGTTTGGAGACATTGAAAACCCTGAACTCATTACCGGTGAATATTTTTCTATTACCCATTATTTTTTGAAACTGAAATGCAACGTAAGTTCATTAAATGATGAGATGAAACAAAAAATGAACAGTGCCTTAACAGCCAAATATGGTGCGAATAACGTAAAATATTTAGCCAATGAGGGTTCATATCTCATCAACGCCAATATGAAAGCCTGTGCTGTTTCAAATGATAAAAAGAAATGGAAATTTGTTATTCTGGAAAAGGAATATAAAAAAGAACTGGTAAAAGTATTACCGAAGAAAGTTCTTGATAAATTTTAA	MKIKSLLLLFVLLSVTVFSQTKANPDDAVIKKSLTYFVNSIKSKKIDQAVSYIYPKFFTIVPKEQMTQILNMTYNNPFMKVEVQDLKFGDIENPELITGEYFSITHYFLKLKCNVSSLNDEMKQKMNSALTAKYGANNVKYLANEGSYLINANMKACAVSNDKKKWKFVILEKEYKKELVKVLPKKVLDKF				NA	NA	NA	NA	NA
BMS003_02230	222			hypothetical protein	ATGTTTGATCTGAATTACGACCTCATAAAGAAAGAAATAGAATCAGAAGTATGTAAAGAACATGGTCTGCATCCAGAATTGCTAAAAACAGATGAAGGCTTCGGAATCAAAGCCTGCTGTGAACCTTTCAGAGAAGAACTCGTTGAAAAATCGGGTAAAATGATTGAAGAAGAAACTAAAAAGATCCTCGATGAAATGATGAAGGATCTGTTTAAAGAATAA	MFDLNYDLIKKEIESEVCKEHGLHPELLKTDEGFGIKACCEPFREELVEKSGKMIEEETKKILDEMMKDLFKE				NA	NA	NA	NA	NA
BMS003_02231	954			hypothetical protein	ATGAGTAATAAGTATAAAATTTGCAAGGTTGATGTTGTTTCAGTTTCTTTAAAATTTCATGGAAATTCAGGTAAGACTACGTTTGATGAGATTTTAAAGCATCAAGAAATTAATAACCAAGAAAAAATAATTAATCAAAAAGCAGTGCATTTTTCTATTTTAGAAGATCATGATGATTATATAATAGGTTTTATTAGGAGTACAATTGACAAAGATTTGCCAGCTAAGATACATAGGAAGACAAAAATAGTGTCTGCTTTAAATGTTGATAATGAAGAAGGAATTGTATATGGAAATATTTTATTGTTTTCTAAGAAATTAAATGTTCTGTTTTACGAAATAAATAAGAATAGTATTTATTTGGATTTGTTTCATAAATATATTTATAAATGTTTTCATGATTCAGTATTATTGAAAGAAGAGTATATTTTTGATACTAATTTTAGTACAATTTTTCGTAAGAATGAATATGAAAGAGCTTTGAAAATGGGTATTTATAAGAGTTTTAAAATGAAAGTATATCAGCCAAAGGCTTTGTTGAGGGATATTAAACAAATAAATTCCTCATTAGAAGAAAGAGTTGAACTTGATTTTTTGCCTGAAATACAAAGTGCTGCTGAGTTAAATAGTGATTTTGCAGAAATTGAATTTAATGTTAGAACTCCCAAAAAAACAGGAGGATTATATAAAGATAGAATTGAACCAATAATAAGAAATTTTAGTAGGCTATTGGGATATAATCAAGTTAGACAAAATATAAATTCAATAGAAGTTTGTGGCTATAATACAATGTCAGATAAAAAAATTCCTATTGATTTGGTAGGCGATGTTTATTCAACTCAATTTAGATTAGATGTACCAAGATTAGATTCTAATTTGCAGAAAGAAGAAAGAATTACGCGCATCAAAGCAACTTATGAAAAAGAATTTCCTATATTGGAAAACTATATATAG	MSNKYKICKVDVVSVSLKFHGNSGKTTFDEILKHQEINNQEKIINQKAVHFSILEDHDDYIIGFIRSTIDKDLPAKIHRKTKIVSALNVDNEEGIVYGNILLFSKKLNVLFYEINKNSIYLDLFHKYIYKCFHDSVLLKEEYIFDTNFSTIFRKNEYERALKMGIYKSFKMKVYQPKALLRDIKQINSSLEERVELDFLPEIQSAAELNSDFAEIEFNVRTPKKTGGLYKDRIEPIIRNFSRLLGYNQVRQNINSIEVCGYNTMSDKKIPIDLVGDVYSTQFRLDVPRLDSNLQKEERITRIKATYEKEFPILENYI				NA	NA	NA	NA	NA
BMS003_02232	498			hypothetical protein	ATGATAGATCAAAGATATATAAATGAAATAAATAAAGCTAAAATCAAAGCTTTTTTTAAAAAGATTTTGCCATATATTGTCTTTGCTATCTCTTTTGTGTTTTCTTATCATTTTAAATTCAAATACTCAGGTGATACAAATTTATTTAATGATAAACTTATAGATGTAAGTTCTATTTTTTTTGGAATTTTTATTGGTTGCTTGTACTTATTTGAAAAGTTTAGATCAAATGAAACATACAATGAATTTTTGAAATTTTGTAAAATATTATTATATCAAAATTTAGGAATAATAATATTTTCTTTTTTTATTATTTTAGTTAATGATGCTTTACCTATTGATGAAGTTAGGCTAATGAGTGATTATTATTTAGATATAAGATCTGCCATGTTTTCTATTTATATAGCCATGTTTGCAGTAACATTATTTAATATAATTGGTTTTATAAGGATCATTTTGATAATTCTTAAAGGATCAATGACAAAACCTGGGGACTAA	MIDQRYINEINKAKIKAFFKKILPYIVFAISFVFSYHFKFKYSGDTNLFNDKLIDVSSIFFGIFIGCLYLFEKFRSNETYNEFLKFCKILLYQNLGIIIFSFFIILVNDALPIDEVRLMSDYYLDIRSAMFSIYIAMFAVTLFNIIGFIRIILIILKGSMTKPGD				NA	NA	NA	NA	NA
BMS003_02233	1458	oprM_1	COG1538	Outer membrane protein OprM	ATGAACATGATGGAAAATTCGAAGACTAAAAATATAATCACAGCCGTTGCCGTATCACTTGTACTTGCAGGCTGTAAAGCACCGATGGCAACTGTCATAAAAGATGAAGTAAAAGAAAATATCCCTCAGAATTTTAATCAGGAAGAGCAACAGGACGCTAATAACAATAGCGGAACAACACCATGGAGACAGTTTTTTACAGATCCAAACCTGGTAACCCTTATTGAAACAGCTTTAAAAAATAATCAGGAGCTGCTGATCACTCTTCAGGAAATTGAAATTGCTAAAAGTGGTGTTTTAGCTAAAAAAGGAAGGCTTACTCCAACAGTTTCCGCAGGAGTAGGAACGGGGCTGAAAAAATCAGGCCGTTACACCAGCGAAGGAGCAGGTGATGCTACCACAGAAATTGAACCAGGAAAAGAAATGCCGGATCCGCTTGGAAATTTCGAAGCAGGGTTAAATGCAAGCTGGGAAATTGATATCTGGAAAAAACTCAGGACGGAGAAAGAATCTGCAGTAGCTCATTATCTTTCTACAGTGGAAGGGAAAAATTTTGTTTTGTCTAATCTTATCGAGGAAGTTGCTGATAATTATTATGAATTATTGGCTTTGGATAATCAATTGGATATTATACAGCAGTATATTAAACTTCAGCAAAGAGCTTTGGAAATTTCCAGGATTCAGAAAGAAGCTGCTGCTGCCACAGAATTGGCAGTGAAGAAATTCGAAGCAGAACTCGCAAAATCCAAGGCTGCAGAATATACCATCCGTCAGCAGATCACGGAGAAGGAAAACGAAATCAATGCGCTGCTGGGAAGATACCCACAGCCAATTGTGAGAGCAAAGGAAAACTTTATGTCTACCATTCCTCCTACAGTATATACCGGAATTCCTTCACAGCTATTGGCCAACCGCCCGGATATTAAACAGGCAGAATTGGAATTAAAGGCTTCGAAGCTGGATGTAGAAGCTGCAAGAAAAGAATTCTACCCTTCTTTGGAGATTTCTGCAACATTAGGGCTGGAGGCTTTTAAACCTTCCTATCTTGTTAAAATGCCGGAATCTATTGCTTATAATCTGGCAGGAGAACTGGCAGGCCCGTTGATTAATAAAAGTGCAATAAAAGCTAATTTCCAGACAGCAGATGCGAAACAGGTTCAGGCATTGTACGAATATGACAAAACCATTTTGAATGCCTATCTGGATGTTGCCAATCTAATGTCAAAGGTTAAAAATATAGATCAGTATTATCAATTAAAATCACAGGAAACCAAAGCCCTGGATCAGTCGATTGATATTGCCAATCAGTTATTCCGCAATTCAAGAGCAGATTATCTTGAGGTTCTTTTGAACCAGAGAGATGCACTGGATGCTAAATTGGAGCTTATAGAAGCAAAACAGAAGCAGCTCAGCACAGTAGTTGACATCTATAAAAGTTTAGGTGGAGGCTGGAAATAA	MNMMENSKTKNIITAVAVSLVLAGCKAPMATVIKDEVKENIPQNFNQEEQQDANNNSGTTPWRQFFTDPNLVTLIETALKNNQELLITLQEIEIAKSGVLAKKGRLTPTVSAGVGTGLKKSGRYTSEGAGDATTEIEPGKEMPDPLGNFEAGLNASWEIDIWKKLRTEKESAVAHYLSTVEGKNFVLSNLIEEVADNYYELLALDNQLDIIQQYIKLQQRALEISRIQKEAAAATELAVKKFEAELAKSKAAEYTIRQQITEKENEINALLGRYPQPIVRAKENFMSTIPPTVYTGIPSQLLANRPDIKQAELELKASKLDVEAARKEFYPSLEISATLGLEAFKPSYLVKMPESIAYNLAGELAGPLINKSAIKANFQTADAKQVQALYEYDKTILNAYLDVANLMSKVKNIDQYYQLKSQETKALDQSIDIANQLFRNSRADYLEVLLNQRDALDAKLELIEAKQKQLSTVVDIYKSLGGGWK	PGPT0009810_1112	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
BMS003_02234	3192	bepE_2		Efflux pump membrane transporter BepE	ATGTTCAAAAAATTCATTCGCAGACCAGTTCTGTCTATAGTAATCTCATTGATTATTGTATTTTTAGGGATATTGTCCTTGGTGAAACTTCCGGTGACACAGTTCCCTTCCATTTCTCCGCCCAAAGTAAATATTACCGCAGAATATCCGGGAGCCAACAACGAATTGTTGATTAAATCCGTAGTAATCCCCTTAGAAAGAGGGTTAAATGGAGTTCCGGGTATGAAATATATGACCTCAGATGCCGGAAATGATGGGGAAGCTTCCATTCAGATCGTATTTGATCTGGGAACAGATCCTAATGTAGCAGCAGTAAACGTACAAAACCGTGTTTCTTCGGTGGTTAATAAACTTCCGCCTCTTGTAGTGCGGGAAGGAGTAAAAATTACCCGTGAAGAACCCAATATGCTGATGTATATTAACCTGTACAGTGACGATCCTAAAGCTGACCAGAAATTCCTTTTCAACTATGCAGATATCAATGTAATGTCTGAATTGAGAAGGGTAAGCGGTGTAGGTTTTGCCGATATCCTGGGAACCCGTGAATATGCAATGCGTATCTGGCTTAAACCGGATAGATTAACAGCCTATAACATCTCAGCCGACGAGGTGATGGAATCTCTGAATGAGCAGAGTCTGGAAGCATCTCCTGGTAAAACAGGGGAAAGTTCAGGAAAACGCTCTCAGTCATTCGAATATGTATTGAAATATCCCGGTCGTTTCAATAACGAAAAGGATTACGGAAACATCATTTTAAAAGCGAAACCGGACGGGGAATCAGTAAGATTGAAAGATGTGGCTGATATAGAATTCGGAAGTTCCATGTATGATATTTATTCTACATTGAACGGAAAACCTTCTGCTGCAATTACTGTAAAACAGTCCTATGGATCCAACGCAAGTGACGTTATCAAAAATGTAAAAGCATTGATGAAAGATCTTGAAAAGAATAACTTCCCTAAAGGAATGCATTACGACATCAGCTATGATGTTTCCAGGTTCCTGGATGCATCTATGGAGAAAGTCATTCATACTTTGTTTGAAGCTTTCGTTCTGGTGGCTATTGTGGTATTCTTATTCCTTGGAGACTGGCGTTCAACGTTAATCCCAGCACTTGCTGTTCCGGTTTCATTGGTAGGAACATTTGCGGTGATGTCTGCTTTCGGAATTACCCTGAATATGATTTCCCTCTTTGCATTGGTAATGGCAATCGGGGTTGTGGTAGATGATGCGATTGTCGTAATTGAAGCCGTTCACGCCAAGATGGAAGAAAAACATCTTTCTCCGTTAAAGGCAACGGAAGAAGCAATGCATGAGATCAGTGGAGCCATTATCGCAATTACGCTGGTAATGGCATCCGTATTCATCCCGATTGCATTTATGTCCGGACCGGTTGGGGTATTCTACCGTCAGTTCTCTATCACCATGGCATCATCCATTATCCTCTCCGGGGTTGTGGCGCTTACTTTGACACCTGCATTATGTGCTTTGATCTTAAAAAATAACCACGGAAAAGAGAAGAAGAAAACTCCGGTTACTATTTTCCTGGATAAATTTAACAACCTGTTTACAAAAGGTGCAGGCAGATATGAAAAACTGCTGAATAAAACAGTAACAAAAAAGACAATAACATTACCATTGCTATTGGCATTTTGTGCCTGTACATTCTTCCTGAGCAACTCTTTGCCTTCAGGATTTATTCCGGCAGAAGACCAGGGGATGATCTATGCCATTATCCAGACACCTCCGGGGTCTACGTTAGAAAGAACCAATCAGATTGCCAGAGAACTTTTAAGAGAATCGGAAGATATTGATGGAGTACAGTCTGTTTCATCTCTTGCAGGATATGAGATTTTGACAGAAGGTACCGGATCCAACTCGGGAACCTGTTTGATCAACCTTAAAAGCTGGGAAGAACGTAAAGAATCAGCAGCAGAAATCATTGAAAAACTGGAGGAAAAAGCTAAAAATATTCCGGGAGCCAATATTGAATTCTTCCAGCCGCCTTCCGTACCAGGTTATGGAGCTGCGGGAGGTTTTGAGCTTCGTCTGCTGGATAAGGCGGGAAGTGGAGACTATCACAAAATGGAACAGGTAAGCAATGATTTTGTAAAGGAGCTTAAGAAGCGTCCGGAACTTGGATCAGCATTTACATTCTATTCTGCAAGTTTTCCGCAATATATGCTTAAGATTGATAATGATCTGGCAGAACAGAAAGGAGTCACTATCGAAAAGGCAATGGATAACTTATCTACGCTGATAGGTTCTAACTATGAAACGAGTTTTATCCGTTTCGACAGGCCTTATAAAGTTATTGTACAGGCAGGTCCTCAATATCGAGCCTTGCCGAGCGATCTTTTGAAACTCTATGTGAAAAATGATAAAGACCAGATGGTTCCATATTCAGATTTCATGAGATTGGAAAAAGTATATGGATTGTCGGAAATTACAAGGCATAATATGTATAACTCAGCAGAGGTGAGCGGAACTCCGGCACCAGGATACAGTAGTGGACAGGCTATCAAGGCGATCCAGGAAGTTGCAGATAAAACACTTCCTAGAGGATTTGGCATCGACTGGGCAGGTATTTCCAAAGATGAAGTAAGCAGGGGAAATGAAGCTGTATTTATATTCCTGGTATGCTTAGGATTTGTTTATCTGATTCTTTCTGCTCAGTATGAAAGTTTCATTCTTCCGCTTCCTGTTATTTTATCGCTTCCGGTAGGGATTTTCGGGGCATTTTTATGCTTAAAACTTTTAGGGCTGGAAAACAATATCTATGCGCAGGTGGCAATGGTTATGCTAATCGGACTTTTAGGTAAAAATGCCGTATTGATTGTAGAATTTGCCGTACAGAAAAAAGCGGAAGAAGGTATTCCGGTAGCTAAAGCAGCTATAGAAGGAGCAGCAATCCGTTTCCGTCCTATTTTGATGACATCATTTGCATTCGTTGCGGGGTTGATTCCGCTGGTGATTGCAACGGGACCGGGAGCAGTTGGTAACAGAACCATTGGTACTGCAGCAGCGGGGGGAATGTTGATCGGAACCATTTTCGGATTGATGATTATTCCCGGACTGTATTATATCTTCGGAACCATTGCAGATAAATCAAGACTGGCAAAATATGAAGAAGAGAATCCTTTAACAGAACAAACCGAACCTTATGAACATGATGGAAAATTCGAAGACTAA	MFKKFIRRPVLSIVISLIIVFLGILSLVKLPVTQFPSISPPKVNITAEYPGANNELLIKSVVIPLERGLNGVPGMKYMTSDAGNDGEASIQIVFDLGTDPNVAAVNVQNRVSSVVNKLPPLVVREGVKITREEPNMLMYINLYSDDPKADQKFLFNYADINVMSELRRVSGVGFADILGTREYAMRIWLKPDRLTAYNISADEVMESLNEQSLEASPGKTGESSGKRSQSFEYVLKYPGRFNNEKDYGNIILKAKPDGESVRLKDVADIEFGSSMYDIYSTLNGKPSAAITVKQSYGSNASDVIKNVKALMKDLEKNNFPKGMHYDISYDVSRFLDASMEKVIHTLFEAFVLVAIVVFLFLGDWRSTLIPALAVPVSLVGTFAVMSAFGITLNMISLFALVMAIGVVVDDAIVVIEAVHAKMEEKHLSPLKATEEAMHEISGAIIAITLVMASVFIPIAFMSGPVGVFYRQFSITMASSIILSGVVALTLTPALCALILKNNHGKEKKKTPVTIFLDKFNNLFTKGAGRYEKLLNKTVTKKTITLPLLLAFCACTFFLSNSLPSGFIPAEDQGMIYAIIQTPPGSTLERTNQIARELLRESEDIDGVQSVSSLAGYEILTEGTGSNSGTCLINLKSWEERKESAAEIIEKLEEKAKNIPGANIEFFQPPSVPGYGAAGGFELRLLDKAGSGDYHKMEQVSNDFVKELKKRPELGSAFTFYSASFPQYMLKIDNDLAEQKGVTIEKAMDNLSTLIGSNYETSFIRFDRPYKVIVQAGPQYRALPSDLLKLYVKNDKDQMVPYSDFMRLEKVYGLSEITRHNMYNSAEVSGTPAPGYSSGQAIKAIQEVADKTLPRGFGIDWAGISKDEVSRGNEAVFIFLVCLGFVYLILSAQYESFILPLPVILSLPVGIFGAFLCLKLLGLENNIYAQVAMVMLIGLLGKNAVLIVEFAVQKKAEEGIPVAKAAIEGAAIRFRPILMTSFAFVAGLIPLVIATGPGAVGNRTIGTAAAGGMLIGTIFGLMIIPGLYYIFGTIADKSRLAKYEEENPLTEQTEPYEHDGKFED	PGPT0016195_629	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
BMS003_02235	1086	bepF_2		Efflux pump periplasmic linker BepF	ATGATAAAAAGAGTTGCTTCGGGAATTGCGCTGAGTGCCCTTCTGTTGGCGGTTGGCTGCAATAAGAAAAAAGAAGAAAAAGAAGAAGTTATCGTATATCCGGTAACATCCCCTGTGGTAATGGATACCGTAATCAACAAAGAATATGTAGCCCAGATTCAATCTGTAAAAAACATTGAAGTGAGAGCTCAGGAAAAAGGGTTTCTGGAAAAAATCTTTGTAGATGAAGGACAATACGTACAGGCTGGACAAACATTGTTCCGAATTATGCCTAAACTCTATCAGGCAGAATTATTAAAAGCACAGGCAGAAGTAGAACAGGCTTCTATTGAACTGAAAAATGCAAGTACGCTGGCAGGAAACAACATCGTTTCCAAAAACGAAAGAGCAATGGCAAAAGCCAAGCTGGATGCAGCCAATGCAGAAATGAAACTGGCACAGATCCACCTTTCCTTTACTGATATTAAGGCACCGTTTTCCGGTGTTATCAACAGAATTCCTTTGAAACTGGGAAGTCTTGTAGACGAAGGAGACCTATTGACATCATTATCAGATAACACCAGTATCTATACGTATTTCAACGTTTCTGAGCCCGAATATTTAAGCTATCAGACTCACGTTGCAGACAGAGGAAGCAATCAGGTTTCCCTGATCACAGCCAATGGAGAAATGTATACACAAAAAGGAGAAATCCAGACTATTGAAGGGGAATTTGATAACGAAACCGGAAATATTGCTTTCCGTGCGAAATTCCCTAATCCTGATAAACTTTTGAGAAACGGAGAGACCGGGAAAATACAAATGGCTATGCCGGTTCACAATGCGCTGATTATTCCACAGAAATCTACTTATGAAATTCAGGATCAGAAATATGTATTTGTTATCGACAAAAACGGAGTGGCAAAATCCCGCAACATCAAAATAGCGTATGAACTGCCGGATCTTTATGTAGTAGGTTCAGGAATTTCAAAAGGAGATCAGATTCTTCTGGAAGGAGTACAGAAAGTGAAAGATGATCAAAAGGTGAAAACAAAATTCCAGGATCCTGAAAAAGTCCTTCAGTCATTGAAATTAAAAGCAGAGTAG	MIKRVASGIALSALLLAVGCNKKKEEKEEVIVYPVTSPVVMDTVINKEYVAQIQSVKNIEVRAQEKGFLEKIFVDEGQYVQAGQTLFRIMPKLYQAELLKAQAEVEQASIELKNASTLAGNNIVSKNERAMAKAKLDAANAEMKLAQIHLSFTDIKAPFSGVINRIPLKLGSLVDEGDLLTSLSDNTSIYTYFNVSEPEYLSYQTHVADRGSNQVSLITANGEMYTQKGEIQTIEGEFDNETGNIAFRAKFPNPDKLLRNGETGKIQMAMPVHNALIIPQKSTYEIQDQKYVFVIDKNGVAKSRNIKIAYELPDLYVVGSGISKGDQILLEGVQKVKDDQKVKTKFQDPEKVLQSLKLKAE	PGPT0003275_5273	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
BMS003_02236	441			hypothetical protein	TTGTTAATCCATGATGAAAATATCATAATCTGGGTGTACATTTGCAACTTCAAAATGAGAAACTTCGTAGTATACTTTTTAACCGGTATTTTTCTGCTGTTCGTAGTAGAAAGTAAAATCGATGTTAGAACCCTTCGAAATGACTACAATGGTCATTCTTCTCATCACATGCCTAAAAGAGCTAACCGTCTGAATCAGACTTTTGAAAAACTCTCTGTTCAGCAGGTGGCAGATACTGTAGACAATTCCACTTTAGAACTCACTGAAAATGATTTCCAGCTATCGGATGTATGGAAAGCCGTTGTGGTTTTTGCTGGTGTTTTCAGCCTGATCTATATTTTCGGATTAAAAAGCTTTAAACGGTCAAAACCGGATATTCACGGATTTGTTTTTGGTTGGGCAACCAAAAGATTTATTCTTATCCGTTCCATTAGAATTTAA	MLIHDENIIIWVYICNFKMRNFVVYFLTGIFLLFVVESKIDVRTLRNDYNGHSSHHMPKRANRLNQTFEKLSVQQVADTVDNSTLELTENDFQLSDVWKAVVVFAGVFSLIYIFGLKSFKRSKPDIHGFVFGWATKRFILIRSIRI				NA	NA	NA	NA	NA
BMS003_02237	393			hypothetical protein	ATGAAAAAATTATTAGTACCAGTCCTTTTCGGACTGACCATTATTTCCCTAACAGCGTGTAAACATCCGGGCAAAGAGGCTGAAACAATTACCTCTCATGCCCCCGAAAATACAGACGATATTTCCAAAAATGTGTATGTTGACAGCTATGGAGAAAAGATAGAAGTAACGATCAACAACACTAAAAATACAGCTACAATACATTTAAACGGTAAAACTTTTGATCTCAAAAAAAGTGATGGTTTACCTGAATATACAGCCTCCAATGAAGAGTATCAATATTCTGATATTAAGGGAAATATAACTTTCCTGAAAAAGAATGTAGATATGGTCCTATTCCATCTTAAACAGGCAAAAAAACAGTCTGGCCCGGCAAAAATGGCATCGTATTAG	MKKLLVPVLFGLTIISLTACKHPGKEAETITSHAPENTDDISKNVYVDSYGEKIEVTINNTKNTATIHLNGKTFDLKKSDGLPEYTASNEEYQYSDIKGNITFLKKNVDMVLFHLKQAKKQSGPAKMASY				NA	NA	NA	NA	NA
BMS003_02238	435			hypothetical protein	ATGAAAAGTTTATATTATTATTTATCGGCACTTGTTCTCGCAACGTTTTTAGTAGTTTCCTGTAAAACACAGAATTCACAAAAAGCGACTACTGATATCACAGGAAAAACATGGAAGCTTACTGAGCTTAACGGAAAGCCGATTGATCTTAAAAATCCTAAGAACAATCCTTATTTCAAGCTTAATATGAATGGTATGAGATATGAAGGACATGCCGGATGCAACGGATTGGGAGGAACTTTCGAGATCAAGCCTGAAATTATGAGAATAAAATTCAACCAGGGAATGTCTACTATGATGGCTTGTGAAGATCTGGATATTGAAAACCAGTTTACAAAAGCAATTCTTGCAGCAGACAACTACTCTGTAAATGGAAATACACTTACTTTAAATAAGGCAAGAATGGCTCCTTTAGCCAAATTTGTTCTTCAGTAA	MKSLYYYLSALVLATFLVVSCKTQNSQKATTDITGKTWKLTELNGKPIDLKNPKNNPYFKLNMNGMRYEGHAGCNGLGGTFEIKPEIMRIKFNQGMSTMMACEDLDIENQFTKAILAADNYSVNGNTLTLNKARMAPLAKFVLQ	PGPT0014615_457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668	NA	NA
BMS003_02239	261		COG4095	Sugar transporter SemiSWEET	ATGAATGAAAATATTTTAGGTATAATCGCCGGAATTCTTACTTCAGTTTCCATGATTCCCCAGCTCATTAAAGTAATCAGAGAAAAGAATGTAGAAGACATCTCTCTGCTTATGCTTTTGGTCCTTATTTCCGGACTTTCACTATGGGTATGGTATGGTTTTGAAAAAGATGAACTGCCTATTATTTTATCCAATACATTTGCAGTCCTGGTGAATGCAGGCCTTCTGATCTGCTATATCATTTACAATAAAAAAAAGTAG	MNENILGIIAGILTSVSMIPQLIKVIREKNVEDISLLMLLVLISGLSLWVWYGFEKDELPIILSNTFAVLVNAGLLICYIIYNKKK				NA	NA	NA	NA	NA
BMS003_02240	1035	mnmC_2		tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGAAAAATGTAGAATATATTATTGTAGGAGACGGATATGCAGGGCTTTTCCTTGCTCATCAGCTCATTAAAAATAAGAAGTCCTTTGTCATCTTTTCGGAAGGAAGAAAAAGCGCTTCACAGGTGTCTGCGGGTATTATAAATCCTGTTGTACTAAAGAAGTTTACCACCTTCTGGAAAGCACAGGAGCAAATAGACTTCCTTAAAGACAGCCTGAAGGAAATAGAATCTTACACCGGAGAAAACTATCTGATCAACGCTCCCATTCACAGAATATTTCATGATGAGAACGAACAGAATCTTTGGTTAAAAAAATCAGCGAATGAAGATTTGTCAGCTTTTCTGGATAAAAATTTTGATCGTTTAAACATAGTAAAAAACGATTTTCAGACCGGAAAGGTGAATCAGTCTGCAAGACTTCATGTTAATGGATTTTTCGGTGGTCTGTTTAATTATTTTGAAAAAAACGGTCATTTGGTGAAGGAAAAATTCGACTATACCAAATTGAGCCCTTCTGAATCTGTATACAAAGATTTTAATTTTAAAAATATTATTTTCTGTGAAGGAATGGGAGTAAAAGATAATCCGTTTTTTTCAGAAATATTGGTGAACCCGAATAAAGGTCATCATATAAAAGTGAAGCTTTCACAGCCAATCCCTGAAAACATAACGATTAAGAAAAAGCATTTCTTATTCCCGACCGGAAACGGACTTTATTTTTATGGCGGAACCTACGACAGAGAACAGCTTCATCATCATATTGATGAATCCGCAGTTGAACAATTGGTTAAAGGACTTTCAGAATTTTATCCTTATGACTTTGAAGTGGCAGAAGTACAGTTTGGTTTTCGTCCTACAGTAAAAGACAGAAGACCAATCATCGGAAGACATGAAACATTAAATAATCTCTATGTTTTTAACGGATTAGGTGCCCGCGGGATCCTGAATGGCTGTTATTTCGCAAGAGATTTATTCCGGTTTATAGAAGAAGGTACGCCATTGCATGAAGAAGTTTCAGTGAATAGGTTTCATTAG	MKNVEYIIVGDGYAGLFLAHQLIKNKKSFVIFSEGRKSASQVSAGIINPVVLKKFTTFWKAQEQIDFLKDSLKEIESYTGENYLINAPIHRIFHDENEQNLWLKKSANEDLSAFLDKNFDRLNIVKNDFQTGKVNQSARLHVNGFFGGLFNYFEKNGHLVKEKFDYTKLSPSESVYKDFNFKNIIFCEGMGVKDNPFFSEILVNPNKGHHIKVKLSQPIPENITIKKKHFLFPTGNGLYFYGGTYDREQLHHHIDESAVEQLVKGLSEFYPYDFEVAEVQFGFRPTVKDRRPIIGRHETLNNLYVFNGLGARGILNGCYFARDLFRFIEEGTPLHEEVSVNRFH				NA	NA	NA	NA	NA
BMS003_02241	939			hypothetical protein	ATGAAAAAATATATTAGCACCCTTTTAGTATTAGTTTCGGGATTGGCTTTTTCCCAAACTATTCTGAATGCATCCTCTCCGGAAGAGTTCAGACAGATGAGAGCGGAAAACAAACAAAAAGTTGGTGATACTATTGTAGATAAAACAGTAAAGCCTCTTGAATATGGTTTTGTAGAAGATAAAGATATCCTTAAAAGTATGTTTGTATGGGAGATCATTGATATGAATGATAAGATCAACCAGCCTTTCTACTATGATAATCCGGATGGCCTTCTTTCTACACCTACAAGATCTCTATACCAGTTATTATTGGATGCGGCTTTGAGTGGAAAGATAGAGCAGGTATATGATGATGAGAACTTTACAGTAAGACTTTCTCCTGAAGGAATTCAGAAAAGACTTGAAAAAGTAATCATCAATGATGCTGCTATTGATATCTTAAACTCCGGAAGGCAGCTTACAGAAGCAGAAAAGAAACAGTATACCGACGTATTTAAGACAACTACAGATAAAGTAAAAGTTCTTAAAATCATGGGTATGTGGTTTATTGATAAGAGAGACGGGCAAATGAAATACAGACCTCTTGGTATTGCTGCAATGGGACCAGATCCTGCAGTACAGGGAGTTATTGGTCCGGATGGTAGGCCTATTGCAGGTAACGATGAGCTTATTGACCTGTTCTGGATCTATTATCCAAGTGCTCGTGATATCTTGGCAAACAACTTTGTTTTCAACAGAAAAAATTCATCTGCTGATTTATCTTTTGATGACGTTATCAATGCGAGAAGATTCTCTTCTATCATTTATAAGTCTTCAGCTGGTTTAGGAGACGGTACTATTAAGGACTATATTCCTAAAAATGCTGATGAGCAGTTGGAAGAAAGTGACAGAATCAAAGCACAGATTCTTGAAATGGAAAATGATATGTGGAATTACTAG	MKKYISTLLVLVSGLAFSQTILNASSPEEFRQMRAENKQKVGDTIVDKTVKPLEYGFVEDKDILKSMFVWEIIDMNDKINQPFYYDNPDGLLSTPTRSLYQLLLDAALSGKIEQVYDDENFTVRLSPEGIQKRLEKVIINDAAIDILNSGRQLTEAEKKQYTDVFKTTTDKVKVLKIMGMWFIDKRDGQMKYRPLGIAAMGPDPAVQGVIGPDGRPIAGNDELIDLFWIYYPSARDILANNFVFNRKNSSADLSFDDVINARRFSSIIYKSSAGLGDGTIKDYIPKNADEQLEESDRIKAQILEMENDMWNY				NA	NA	NA	NA	NA
BMS003_02242	1593			hypothetical protein	ATGGCACAAGGAAAACAGACCCCTCGTCAGAAGATGATCAACCTGATGTATTTGGTGTTCATCGCGATGATGGCCCTAAATATTGATGCGGAAATCATCAGATCATATTATGACTCTACAAGAGCATTAAATGAAACCAGAACTCTCACAGAAAGAAAGAACGAGAAGATCTTTGAAAGAACATTAGAAGCTAAAGCTCAGCAAGTTCCGGATACTTACGCAGAACCTTGGGGACAATACAAAGTACTGAAATCCAAAATTGACGTATTGGTAAAATCTTCTCAGGATATCAAAGACCTGTTAAAAAAACAATCTGAGTTTCATGAAAAAGATCCTCAGACAGGAAAAGATATTGATGTAAGTGAGAACTTTGCTGCATTGAACAACAACGAAGCAACTACTGAATACTTCTTTAAAGAAGGTGATGAAAATACTCCTTCTAAAAATGCATTAGATCTGAAAGCTAAAATTGATGATGTAAGAAACTACATCAACGCTACTTTTGGAAATAATCCTCAACTTAAAGATTTAGTAGCGAGAGCTAACAAGTCCCTTATTGCAGAATATCCTAAAGGTACTTCTCCAAATGAAAAGACTTGGTTCCAAAATAAATTTTACCATCAGCCACTAATTGCTGCAATATCTAACTTGGAGATTATCCAAAATGATGCCAGAAATGTACAGTCTGATGCATTAGCATTATTACTTCAGGAAAAAGTAGATGCGAGTATCAAGTTCTCTAGCTATGAGCCAATTGTTTCAGGTCCGGTAGATATCCAGGCAGGAAAACAGGCTGAAGTAAAAGTAATGCTGGGTACTTATTCTAACAGTAATAAGATCAGTATTTCTGGTGTAGGTAAAGTAGAAAACGGTAAAGGTACAATTGCAATTTCAGGTTCTGGAATTGGTGAGCATAAACTAGGAGGTACAATTACCTTAACAGATGCTTCAGGTAAACCACAGTCTTTCCCTTGGACACATACTTACAACGTAATTGCAGGGCCAAGAGAAGTAAAACTTGAAAAAGGACTATTACTTTCTGCAGATAAAATGAATGTAATGTATAGAGGACTTGAGAACCCTGTTTCAGGATCAATCTTAGGTGCTGACAATTCTAAACTTTCATTATCTGCTCCAGGTGCTGCTGTAAGAAGTACAGGCCCAGGAAAATGGATTGTAAAACCAACTACTGGTAATACTGTTAAATTAACATTATCCGGAACAGACCCTTATGGTAAATCTGTATCTCAGGTATTTGAATATAGAATTAAGAATGTACCACCGCCACAAGGTCAGATCAGAGGAAGCAGTATAGTATCTATGCCAGCAACTTCTATCCAGAACCAGACGGTACAGGCAGCAATTCCTGACTTTGACTTCCCGGTTTCATTTACTGTAACTCAGTTTATGGTTAGAGTACCAGGTAGAGCAGCATTGCTTGTTCACGGAAATTCATTAAATGATGCAGCGGGATTAGTGAAAAATCTCAGATCAGGAGACGTAGTTTCTGTCTTTGATATTAAAGTTACTGCTCAAGGTTTAGATGGTCAGGTTATTAAAAATATTACTCCTATAATCATTAACATTCCATAG	MAQGKQTPRQKMINLMYLVFIAMMALNIDAEIIRSYYDSTRALNETRTLTERKNEKIFERTLEAKAQQVPDTYAEPWGQYKVLKSKIDVLVKSSQDIKDLLKKQSEFHEKDPQTGKDIDVSENFAALNNNEATTEYFFKEGDENTPSKNALDLKAKIDDVRNYINATFGNNPQLKDLVARANKSLIAEYPKGTSPNEKTWFQNKFYHQPLIAAISNLEIIQNDARNVQSDALALLLQEKVDASIKFSSYEPIVSGPVDIQAGKQAEVKVMLGTYSNSNKISISGVGKVENGKGTIAISGSGIGEHKLGGTITLTDASGKPQSFPWTHTYNVIAGPREVKLEKGLLLSADKMNVMYRGLENPVSGSILGADNSKLSLSAPGAAVRSTGPGKWIVKPTTGNTVKLTLSGTDPYGKSVSQVFEYRIKNVPPPQGQIRGSSIVSMPATSIQNQTVQAAIPDFDFPVSFTVTQFMVRVPGRAALLVHGNSLNDAAGLVKNLRSGDVVSVFDIKVTAQGLDGQVIKNITPIIINIP				NA	NA	NA	NA	NA
BMS003_02243	693			hypothetical protein	ATGTTTAAGACTAAAGATGCTTGGATGAATTTCTTTTATTCATTCGGTGCGGCAATTGTAATTCTTGGAGCTTGGCTTAAAATTACTCACATTACACTGGGACCAATCAACGGTAACATAGCGCTTACAGTAGGGCTTATTACTGAGGCGATTATCTTTATCATTTTCGCTTTTGACCCTCCAAAAACTGAAGAGTCTTATGCTTGGGAAAACGTTTATCCTGAATTATTAGATAAGCATGCCAACCCAAATCCTTTACACTCTAACGTAACAACAAAAAATACAAGCGCTCAGTTTGCTGAATTAGAAAACTCTCTTTCAAACAAATTGGATAAAATGCTTGAAGATGCACGATTAGATGTTCAATTATTCGAGAGATTAAGAACAGGGATTGATAAATTTTCAAACTCTGTAGATCAGATCAATCAGACCGTTGACGTATCTGCTTCTACTCATAAATATAATGATCAGTTGAACAAAGCTGCTCAGCATATGGAAAGCATGAACGCTCTTTATGCAATGCAACTGGAAAGCGGTAAAAAACAATCAGAATTTGCTAATAAATATGTAGCAGATATGCAGAAGTCTGCAGAGCAATCTGAGAAATTCAACCAAGAGCTACAAGGTTTAACATCTAATCTTAATAACTTAAATAGAGTTTATGGTGGTATGCTAACTGCTATGAAGTCTTAA	MFKTKDAWMNFFYSFGAAIVILGAWLKITHITLGPINGNIALTVGLITEAIIFIIFAFDPPKTEESYAWENVYPELLDKHANPNPLHSNVTTKNTSAQFAELENSLSNKLDKMLEDARLDVQLFERLRTGIDKFSNSVDQINQTVDVSASTHKYNDQLNKAAQHMESMNALYAMQLESGKKQSEFANKYVADMQKSAEQSEKFNQELQGLTSNLNNLNRVYGGMLTAMKS				NA	NA	NA	NA	NA
BMS003_02244	1422	egtB_3		Hercynine oxygenase	ATGAAAAGGATATTTCTTTTATTATTGTCTGCGTCGGTAGCATCGGTATCTTGTTCAGGTGGTGGCAGCTCTTCTGTAGGGAAGCCAGGAACAAAAGGAGAATTGATACCAAGAGAAAAAACTAAATCATTTGTTGCGGAAAGACCATACGGAATGGTTGCAATTCCTGCAGGTTCATTTGTTGCTGGTTTAGCAGACCAGGATCCGACAAATACACCTGAAAAAGCATCATTGAAGACTGTTACTGTTTCTTCTTTCTTCATGGATGAAGCAGAAACTACCAATGCGGAGTACAGATTATTTATCAACTATGTAAGAGACTCTATTGCGAGAACTTTACTTGCTGAAGCTGCCGGAGAAGGTGGTGATGAAGGCGGACGTAGAGGGGCCAGCATAGGAGATTATGCATATCTTGCTAAAAAAGAAGAGAATTTAACACCTTATCAAGAATATATGGAAGGCCAGGGTGGCCGTGAAGATGGAAGCTATGATGAAACCAAAAGATTAGATTGGAAAATTCCTTTACACTGGAGTACATCAAAATACCCGGATGTAGAATACGCAGAAGTTTTGGAATCTATGTATCTGCCATCTTCTTCAAGAATCGGAAACGAAAGAATTTTAGATGTCAGTAAGCTGAAGTATACTTACCGTTGGGGAGATATGGACGCTGCTGTAGCAGATAACGAAAGAGGAGCTAATTACCTGAGAAGTGAAAGTATCGCGATCTATCCTGATACTACAGTTTGGGTAAAAGATTTCCACTTTGCTTACAATGAGCCATTATTTGAACAGTATTTCTGGCACAAAGCTTACAAAGACTATCCTGTAGTTGGAGTAACATGGGATCAGGCAAGAGCTTACTGTAACTTCAGATCTAAATTGAAAACTGATTACAACGAAAGTTTAAAAAGAAAAAAACAAAGACCATTAGAGTTCCGTCTTCCAACTGAAACTGAATGGGAATATGCAGCAAGAGGTGGAATGCAAAATGCTACTTACCCTTGGGGTGGTCCATACTTAATGGATGACAGAGGTTGCTATCTGGCTAACTTCAAACCTAAGAGAGGTAACTACATGGAAGACGAGAAAAAAGGTACTTATACATACACAGCTCCAGTTAAGAAATTTAAGAAAAATGGGTTTGGGTTATTTGATATGGCTGGAAACGTTTCTGAATGGACACAGTCTTCGTTTAACAATTCTTCATACGGGTTCTCTTCTACGTTAAATCCTTCTACTAAAGATAAAAAGGATACGAAGAAGTCTGTAAGAGGTGGATCTTGGAAAGATATAGGATATGCCCTGATGACAGGTGCCAGAGACTGGGAAAGAAAAGATTCCGCAAGAAGCTATATCGGATTCAGAACTGTACAGGATATTCCTGAAGCAGCAGTTAAGCCAAGAAGAGTTAACAGATAA	MKRIFLLLLSASVASVSCSGGGSSSVGKPGTKGELIPREKTKSFVAERPYGMVAIPAGSFVAGLADQDPTNTPEKASLKTVTVSSFFMDEAETTNAEYRLFINYVRDSIARTLLAEAAGEGGDEGGRRGASIGDYAYLAKKEENLTPYQEYMEGQGGREDGSYDETKRLDWKIPLHWSTSKYPDVEYAEVLESMYLPSSSRIGNERILDVSKLKYTYRWGDMDAAVADNERGANYLRSESIAIYPDTTVWVKDFHFAYNEPLFEQYFWHKAYKDYPVVGVTWDQARAYCNFRSKLKTDYNESLKRKKQRPLEFRLPTETEWEYAARGGMQNATYPWGGPYLMDDRGCYLANFKPKRGNYMEDEKKGTYTYTAPVKKFKKNGFGLFDMAGNVSEWTQSSFNNSSYGFSSTLNPSTKDKKDTKKSVRGGSWKDIGYALMTGARDWERKDSARSYIGFRTVQDIPEAAVKPRRVNR				NA	NA	NA	NA	NA
BMS003_02245	1854	glmS	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGCGGAATAGTAGGATATACAGGTTTTCAGGACGCTTACGAAATTGTAATCAATGGTCTTAGAAGATTAGAATATAGGGGGTATGACAGTGCCGGAATTGTTTTAGAAAGTTCAGACAATAAGCTTGAAGTAGAAAAAACGAAAGGTAAGGTCGAGGATTTGGTGAATATTTCAAAAGATTTAAAAGGAACATCCAAAATTGGGATGGGGCACACCCGTTGGGCTACCCATGGAGTTCCAAGTGACAGAAACTCTCACCCGCATTTGTCAAACAACGGAAAAATAGCAATTGTCCATAATGGTATTATCGAAAATTATGATACTATTAAAACAATGCTTACTGAAAAAGGATTTACTTTCAAATCAGAAACAGATACTGAAGTATTGGTAAACCTTGTTCAGTATTTTATGGATATTAATGCCGAAACCGACTTTCCAACTGCTGTAAGATATGCGTTGAATGAAGTATACGGAGCCTATGCTATTACTGTGCTTCATGAAGACTATCCTGGAGTATTGGTGGTAGGAAGATTAGGTTCTCCTTTGGCAATCGGAATCGGAGATAAAGAATATTTTATTGCATCTGATGCTTCTCCTTTCGTAGAGTTTACAAAAGAGGCTATCTATCTTGAAGAAGGGCATATGGCTACCATTTCTCTTGAAAATGGAGTAGACATCAGAACCATCAATGAAAACTCTAAGATTGAGCCTGAAATTCAGGAGCTTAAATTGAGTCTTGAACAGATAGAAAAAGGTGGATATGAGCATTTCATGCTTAAAGAGATCTTTGAACAGCCTAAATCCGTACACGATACCATGAGAGGTAGGCTTCTTGTAGAGGAAGGAGTGATTAAAATGGCCGGGATCTGGGATCATGTTGAAAGATTCAAGAATGCTAACAGAATTATCATTATTGCCTGTGGAACTTCCTGGCATGCGGGTCTTATTGGAGAATATCTGATAGAAGAGTATGCAAGAATTCCTGTAGAAGTAGAATATGCATCAGAATTCAGATACAGAAACCCTATCATTACAGATAAAGATGTAGTAATTGCAATTTCTCAGTCAGGAGAAACAGCAGATACAATGGCTGCTTTGAAACTGGCAAAAGAAAAAGGTGCATTTATATACGGTATATGTAATGTTGTCGATTCTTCAATCGCAAGAATTACAGATGCCGGTTCATATACACATGCCGGACCGGAAATAGGGGTTGCTTCTACAAAAGCATTTACAGCACAGCTTACTATCCTTACTTTAATTGCATTTAAATTAGGAAAACACAACGGAAACTTAGGAAATGCTGAATTTATGAGCTTAATTTCTGAGCTTGATGCTATCCCTAAGAAAATTGAAGAAGTGCTGAATACGACCCATGAGCTGACTCAGAATATTGCAAAAGATTTTGTGACAGCTACCAATTTCCTTTACTTAGGAAGAGGGTACAATTATCCGGCAGCCTTAGAAGGAGCTTTAAAACTAAAAGAAATTTCTTATATCCATGCAGAAGGTTACCCGGCTGCAGAAATGAAACACGGTCCTATTGCCCTGATTGATGAAAATATGCCAATCGTGATCATAGCTCCTAAAAAAGGCCACTATGACAAGATTGTAAGTAACGTTCAGGAAATTAAAGCGAGAAAAGGAAAAATTATCGCTGTTGTTAATAAAGGAGACCGTCAGGTGAGCGAAATGGCAGATTATGTTATTGAAATCCCTGAAACTTCAGAGTGTTTCTCACCTATTGTTGCTTCCGTACCTCTGCAGCTGCTTGCTTATTATATTGCAGTATACAGAGGAGCTAACGTAGACCAACCGAGAAACCTTGCAAAATCTGTAACCGTGGAATAA	MCGIVGYTGFQDAYEIVINGLRRLEYRGYDSAGIVLESSDNKLEVEKTKGKVEDLVNISKDLKGTSKIGMGHTRWATHGVPSDRNSHPHLSNNGKIAIVHNGIIENYDTIKTMLTEKGFTFKSETDTEVLVNLVQYFMDINAETDFPTAVRYALNEVYGAYAITVLHEDYPGVLVVGRLGSPLAIGIGDKEYFIASDASPFVEFTKEAIYLEEGHMATISLENGVDIRTINENSKIEPEIQELKLSLEQIEKGGYEHFMLKEIFEQPKSVHDTMRGRLLVEEGVIKMAGIWDHVERFKNANRIIIIACGTSWHAGLIGEYLIEEYARIPVEVEYASEFRYRNPIITDKDVVIAISQSGETADTMAALKLAKEKGAFIYGICNVVDSSIARITDAGSYTHAGPEIGVASTKAFTAQLTILTLIAFKLGKHNGNLGNAEFMSLISELDAIPKKIEEVLNTTHELTQNIAKDFVTATNFLYLGRGYNYPAALEGALKLKEISYIHAEGYPAAEMKHGPIALIDENMPIVIIAPKKGHYDKIVSNVQEIKARKGKIIAVVNKGDRQVSEMADYVIEIPETSECFSPIVASVPLQLLAYYIAVYRGANVDQPRNLAKSVTVE	PGPT0017630_1560	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS003_02246	1635			hypothetical protein	ATGACTCATAATCTTAAAAGGACCTTCGCCATGCTTTTATTGGCGATTTTCGGAAGTACAATCCTTTATAACTGTGAACCCGATCCGGATTCTCTTGGGGAGCAGTTATTTAATAATGACGCAGCACAGGGTAATGAAGTTTCATATGACGTTATTGCGTACAACTATAATAATAATGATTCCATCAGAAGTGATGCTGCCAGATTGATCAATGGATTGAGCGATGCAGGTTCTGCTTTAACTGTAGGGGTTCTGGGAGCTTTTACAGAAGGCCAGTTCGGGATGCAGAGAGCTTCTTACCTGACTCAGCTGAGAATGCCCGTAGATAATTACGATTTTAACGGTGAAAACCCAAAAGTTGACTCTGTAGTTCTTGTTGTAAGACCTCCGGCAAATACAATTTCCAATACCTATTACTTTGAAGGAGATTCATTAAAGACAAATACATATACAAAAACGGATTTCCCGGTAGACGGTGAAGCAACGGAGGTTTCTATTGAGAAAAAAACTTATCCTGTACGTAAATACGGTAAAATAGGAGGAGGTTCAAAATCAATGAAGATCAACGTACATGAGATTACCACCTTCCTGGATTCAAATGATGACAGTTTCAAGCGTTCTAATAAGACTGTAAGTACCGGTGAATTGCTGGGTTCAGGAGTCTTTGACGGAAATGTAAGCGCAATATCCATTACCAAGAAATCTGACAATTCAGTTGTATTTACAGGAAATCTTGGATACAGACTGAAGCTTACCAATACAGACTTTTTCCAGACTCATATTCTTGATAAAAAAGGTAAGCCTGAACTTCAGGATGCTTCCAACTTTATCAGATATTTTAAAGGAATAAGAATTTCTGTGGATGAAACGGATAAATATCTTTACCAGTTCTCTCCGAATGATCTTGAACTTATCATGTACTATAAATATGATAAGACAGATAACGGGACAACAACAAGACCACAGACAACCCTTAAATTCAATATAGGAGGGCTGAATGCTCATATCGGACAGTATGAGTACAGCAGAAGCGGAACTCCGGTAGAAAGTGCATTGTCATCAATTAATACTGATGTTGGAGATGCAAAATTATACGTTCAGGGAATGGGAGGTCCTTCTGCAATTGTAAAAATTCCGGATGCAACAATTGCTGCTCTTAGAGATATCTATAACAAAGATAAAGCAGGTATTCTAAGCGCTAAAATCAGAGTCTATTTAGATCCGGCAAGCTGGAAAAATACAAACTCAACAGAAGACCGTAGGTTTACAGTAAATCCGACAGCCGGTACGCCTGTTGATTTCTCAAAACTAACCTTTACATCAGATTTATTAGCCGGGCTTGGTTTATATAATTATAATGCAGATAAAGGATATTATGATTTTATAGTGACTAAAACGATTAAAGATCTTGTTGAAGGAAAAAAAGAAACTGTTGACGGAGAAGAACAGCCGGTAACGAATAAACTTTTATGGGTCAGTGCAGGAACATTTGCTGCAAATGCTTCAGGAGTTCCTCTGGGAGTTCGTAATACAACAAGAGCATTTGATATGAACAGGGTTATTTTTACAGGTTCATCAGATAAAACGAATGCGAACAGAGTCCAGCTTAAAGTGACTTACGCAACAAAAAAATAA	MTHNLKRTFAMLLLAIFGSTILYNCEPDPDSLGEQLFNNDAAQGNEVSYDVIAYNYNNNDSIRSDAARLINGLSDAGSALTVGVLGAFTEGQFGMQRASYLTQLRMPVDNYDFNGENPKVDSVVLVVRPPANTISNTYYFEGDSLKTNTYTKTDFPVDGEATEVSIEKKTYPVRKYGKIGGGSKSMKINVHEITTFLDSNDDSFKRSNKTVSTGELLGSGVFDGNVSAISITKKSDNSVVFTGNLGYRLKLTNTDFFQTHILDKKGKPELQDASNFIRYFKGIRISVDETDKYLYQFSPNDLELIMYYKYDKTDNGTTTRPQTTLKFNIGGLNAHIGQYEYSRSGTPVESALSSINTDVGDAKLYVQGMGGPSAIVKIPDATIAALRDIYNKDKAGILSAKIRVYLDPASWKNTNSTEDRRFTVNPTAGTPVDFSKLTFTSDLLAGLGLYNYNADKGYYDFIVTKTIKDLVEGKKETVDGEEQPVTNKLLWVSAGTFAANASGVPLGVRNTTRAFDMNRVIFTGSSDKTNANRVQLKVTYATKK				NA	NA	NA	NA	NA
BMS003_02247	771	glgA_2		Glycogen synthase	ATGCCGAATCAAAAAATACTGTACATTACTACAGAGATGTATCCATATCAGGAAGACACAAATATGGCTGCAGTGGTAAACAAAATGGCACTTAAGATGCACCAAGAAGGCAATGATGTAAGAGTTTTTATGCCAAGATTTGGACAAATAAGTGAGAGAAAATTCCAGCTTCATGAAGTAATCCGTCTTTCCGGGATGAATATCATCATCAATGATCTGGACCAGCCTCTGATCATTAAAGTAGCGTCTCTTCCGGGGGAAAGACTTCAGGTTTACTTTATTGACAATGAAGAGTACTTCAAAAGAAAGCAATATTATTTCGATGATGAAGGAAATCCTTTCGATGATAATGACGAAAGAGCTATTTTCTTTGCAAGAGGAGTAATCGAGACTATCAAGAAGCTAAACTGGGTACCTGATGTTATTCATCTGAATGGATGGATGTCTTCTTTTGTCCCAATTTATCTTAAAACTTATTACGAATCAGATACTTATTTCAAAGACGCAAAAATTGTACTTTCTCTGTACAATGAGAAAGATGCTGATCTGGATAAAAAGATCGACGAAAAACTACAGTTTGATAATATTTCAGGATTAAAAGCGTTAGATAACCCAACAATTAAAAGTTTTGTTATCGAAAGTATGAACTATGTAAATACCGTTGTGAAAGGAGACGAATTTCTGGATGAAGATCTGGATAAAGCTTTCAACGAAACAGCTACCGAAAAATCGGAATATCTGGACGTAGATTCTATTAATCAACTTTATTAA	MPNQKILYITTEMYPYQEDTNMAAVVNKMALKMHQEGNDVRVFMPRFGQISERKFQLHEVIRLSGMNIIINDLDQPLIIKVASLPGERLQVYFIDNEEYFKRKQYYFDDEGNPFDDNDERAIFFARGVIETIKKLNWVPDVIHLNGWMSSFVPIYLKTYYESDTYFKDAKIVLSLYNEKDADLDKKIDEKLQFDNISGLKALDNPTIKSFVIESMNYVNTVVKGDEFLDEDLDKAFNETATEKSEYLDVDSINQLY	PGPT0025880_3787	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
BMS003_02248	849	panC	COG0414	Pantothenate synthetase	ATGGAAGTTATAAAAAACAGGAAAGTCCTTCAGGATTTCATTGAAAGACAGAAAGAAATGGGGAAGAGAATTGGCTTTGCTCCTACTATGGGCGCTTTACATAATGGTCATCTTTCTCTGTATGAAGAGGCTAGAAAAGAAAATGACCTTGTTATTTCTTCAATTTTTGTAAATCCGACCCAGTTCAACAATCCTGAAGATCTTGAAAAATACCCGAGAGACATTAACCGGGACCTGCTTATCCTTGAGAATTCTGGGCTTGTAGATGCTGTTTACATCCCAGAGGTAACTGATATTTACCCTGAAAAAACAGAAAGTCAGCATTATGATTTTGACGGACTGGAAAATGAAATGGAAGGAAAATCCAGACCGGGGCACTTTGACGGAGTGGGAACTGTTGTAGAAGAGCTTTTCAGACAGGTTCAGCCTGACAATGCCTATTTTGGAGAAAAGGATTTCCAGCAGCTGGCCATCATAAAAAAAATGGCAGAAAAAAAACATCTTCCTGTAAAAATAACCGGAGTTCCCATCTACAGAGCTGAAAACGGATTAGCACTGAGCTCAAGAAACCAAAGACTGCATGAGGACAGAAAAGAAGCTTCCAAAATTATTTATCAGACCTTAAAAAAAGTAAATGACTGGTTCAGAACTGTTACCATACCGGAAATCAAGGAAAGAGTAGCGGACATTTTTGATGATCAGCAGGGTATGAAGCTTGAATACTTCCTGATTGCTGATGAAAACACTCTACAGGAAACAGATTTCTTTTACAAAGACAGAAACTTCAGAGCGTTTATTGTAGTAGAGGTAGACGGTGTGAGATTAATTGACAATATGCATCTGGATTAA	MEVIKNRKVLQDFIERQKEMGKRIGFAPTMGALHNGHLSLYEEARKENDLVISSIFVNPTQFNNPEDLEKYPRDINRDLLILENSGLVDAVYIPEVTDIYPEKTESQHYDFDGLENEMEGKSRPGHFDGVGTVVEELFRQVQPDNAYFGEKDFQQLAIIKKMAEKKHLPVKITGVPIYRAENGLALSSRNQRLHEDRKEASKIIYQTLKKVNDWFRTVTIPEIKERVADIFDDQQGMKLEYFLIADENTLQETDFFYKDRNFRAFIVVEVDGVRLIDNMHLD	PGPT0008750_2730	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
BMS003_02252	516	aroK	COG0703	Shikimate kinase	ATGGTAATTTCATTGATCGGATACATGGGAAGTGGCAAATCTCACATTTCCAAAATATTAAGCGAAAAAATCAATTTTAAATTAATTGATCTCGATAAAGAGATTTCCAGAAGAAATAAATTAACCATTCCGGAAATATTTGAAAAAAAAGGTGAAATTTACTTTAGAAAACTGGAAAGGGAAACCCTGGAAGAGATATTGGCTTCTGAAGAAAATGTAGTTTTAAGTCTGGGCGGAGGAACTCCTGTTTATTATAATAACATGGAGATCATTAACCACAACTCCAAAAGTGTTTTTTTGAGAACTTCGATAGGAACTTTGGTAGAAAGACTTTCAAAACAGAAAGAAAAAAGACCGCTGATTGCTACTATTTCTGATGAGGACCTTCCTGAATTTATTGCAAAACATTTATTTGAAAGAAATCAGTTTTACAGTAAAGCCCAGTTCACTGTGGGTACGGATTCCAGAGATCCCGAGGATATTGTTTCTGAAATAATAGAAAAGCTCTATCTCTAG	MVISLIGYMGSGKSHISKILSEKINFKLIDLDKEISRRNKLTIPEIFEKKGEIYFRKLERETLEEILASEENVVLSLGGGTPVYYNNMEIINHNSKSVFLRTSIGTLVERLSKQKEKRPLIATISDEDLPEFIAKHLFERNQFYSKAQFTVGTDSRDPEDIVSEIIEKLYL	PGPT0012900_3783	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
BMS003_02253	441			hypothetical protein	ATGAGAATAGATAAATTTTTATGGAGCATTCGTTTTTATAAGACGAGAAGTATTGCAGCAGAGGAGATTAAAAAGAACAGAGTTTCTATAGGAACATCTGCCGTAAAGTCATCTAAAGAGGTAAAAGAAGGAGATACTATCAAGATCCGTAAAAATCAGATTGATTATAAAATAAAAGTAATTCAGATTCCTAAAAGCAGGATAGGAGCCAAATTGGTTCCGCTTCATATCCAGGATGTGACAGATAAAGAACAATACGAACTATTGAAACTTCGTAAAATGTCACAAGATTATTACAGAAATAAAGGAGAAGGAAGACCTACCAAAAAAGACAGAAGAGAAATGGACGATTATGTAGGTAACGACGTTGCTTCCGATTTTACAGACTGGGATGATTTCTTTGGAGAAACTGATAATGATGAAGAAGAAAACGAAGATTAA	MRIDKFLWSIRFYKTRSIAAEEIKKNRVSIGTSAVKSSKEVKEGDTIKIRKNQIDYKIKVIQIPKSRIGAKLVPLHIQDVTDKEQYELLKLRKMSQDYYRNKGEGRPTKKDRREMDDYVGNDVASDFTDWDDFFGETDNDEEENED	PGPT0014620_187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
BMS003_02254	774			hypothetical protein	ATGAAAAAAATATTTTTATATATCCTTGCAGGATCTTTGTGTTTTTCTGCCTGTAAAAAAGATGATGATGTGTCAACCTATGTAGAGCCGGAAGACATTACTACGCAAAACACCTATGATGATCAGGCCATTAAGAAATTCATGGATGAAAATTATCTGGATGCACAGGGAAATATAAAGGCGTTCAGCTCTACAGACACTGCAGATGATAATGAAAAGAAATTATCTGAACTGGATTATAAAACACTTCCTTCAGGAACTATTTACATCATTAGAGAGGGGGCACAGCCTGTTAATCCTACCGCAGATCAGACCATTAAAAGTGATGACATCCTTAAAGTAATGATGAAAGCGACTACTTATCTGGCGATCAATACAGACGGACAGTCTTCATTTACTGCTGCTACAGATTTCATGAATACAATCAATGGGACAGGAATCCCTGCTGTTGATCCAAAGTTCTATTATATTTCTAATGTGGAAGGCAAGGTAGATCCATTAATTGCTAATGCAACTACTGATGCGGCAAAACAAAAAAGTTACTATGAAATTGAAGGGTTCAGTGAAGCGATGCAAAAATTTACAGCATTTAAAGATTATTCTAGTTCTTCACCCTACAACCTACAGGGAGTAATTATTGTTCCTTCAAGAGCTGCTTTTGCAAGAGATCCTTATTTTCCTTACAACTATCCGGGTTACAGCCAGATAATCTCATTAAGAAATAAGACTTTTGTTTTCAACTTCCAGGTATACGAAAGGGCCAACAGACCATAA	MKKIFLYILAGSLCFSACKKDDDVSTYVEPEDITTQNTYDDQAIKKFMDENYLDAQGNIKAFSSTDTADDNEKKLSELDYKTLPSGTIYIIREGAQPVNPTADQTIKSDDILKVMMKATTYLAINTDGQSSFTAATDFMNTINGTGIPAVDPKFYYISNVEGKVDPLIANATTDAAKQKSYYEIEGFSEAMQKFTAFKDYSSSSPYNLQGVIIVPSRAAFARDPYFPYNYPGYSQIISLRNKTFVFNFQVYERANRP				NA	NA	NA	NA	NA
BMS003_02255	1518			hypothetical protein	ATGAGAGATAAGTTTTTATCTTGGGGAATTGTATTGGTAGCTGCTACATGGATTATAGCACTGCTGATCAGAGCGCATTACTGGATACCAACGCTGTTATCCGCCATTTATGCATTGGGTGTTTACAATGCTTACCAATCGAAACATGCTATTTTGAGGAACTTTCCTGTATTGGGATATTTCAGGTATTTTTTCGAAAGTATTTCACCCGAAATGCAGCAATACTTTATTGAGAGGGAAACAGACGGGAAACCGTTTCCAAGAAATCAGCGTTCTGCAGTATACAGACGTGCAAAAAATTTAAGCGATACCGTAGCTTTTGGTACGCAGCTGGAAGTGAATCACAGAAAATATGAAGGGATCAAGCATTCTATTTATGCCAAATCACCATCAGAAGAACTTCCGAGAGTATGGGTAGGAGGAGAGCAGTGTACACAGCCTTATCATGCCTCATTACTCAATATCTCTGCAATGAGTTTCGGAGCCTTGAGTGACAGAGCGCAGATTTCACTAAACAGAGGAGCCAAAAAAGGAAATTTTTATCATAATACAGGAGAAGGAGGAATTTCACCTTACCATATGGAAGGGGGAGACCTGTGCTGGCAGATTGGAACGGGTTACTTCGGATGCCGTGACGATGAAGGAAAATTCAACCCTGAACTGTTCACAAAATATTCAAATCTTCCTAATGTGAAAATGATCGAGATCAAATTATCACAAGGAGCAAAACCAGGCCATGGAGGAGTGCTTCCGGGAGTGAAAAATACTCCGGAAATTGCAGCTATCCGTCACGTAACACCGGGTATGACTGTTATTTCGCCACCATCACACACTTCATTCTCTGACGCAGCAGGACTGCTGAGGTTCGTACAGCACCTGAGAGAACTTTCAGGAGGAAAGCCTGTTGGGTTTAAACTTTGTATTGGTGATACCAAAGAATTTGAAGATATCTGTGTACAGATGAATGTACTGAAAATTTATCCTGACTTTATTACCATAGATGGTGCCGAAGGAGGAACAGGAGCAGCACCGCCGGAGTTTTCAGATGGTGTAGGAATGCCGTTGGAACCTGCTTTGATCTTTGTGAACAGAACCCTTAATAATTACAATGTAAGAAATAAATTAAGAGTCATTGCCAGTGGTAAAGTCCTTACCAGTCTGGATATTCTGAGAGCAATCTCAATGGGAGCAGATATGTGTAACAATGCCAGAGGATTTATGTTCTCTTTGGGGTGTATTCAGGCACTGAGATGTAACTCAAACAACTGTCCTACAGGAGTTGCCACACAGGATAAAATGCTTATCAAAGGGCTGGATGTGACTGATAAAGCAGAAAGAGTATATCACTTCCACAAAAATACACTTCATACCTGCAATGAACTGATTGCAGCTGCGGGAAGAAGCTCTTATGAAGAAGTAGATGCTACTATGTTCATGAGAGGAGATGAATTCGACCATCTTGCAGACCTTTACTTTCCGGATATTTTAGGGAATGTAAAACAGAAAGCAAGACCTTAA	MRDKFLSWGIVLVAATWIIALLIRAHYWIPTLLSAIYALGVYNAYQSKHAILRNFPVLGYFRYFFESISPEMQQYFIERETDGKPFPRNQRSAVYRRAKNLSDTVAFGTQLEVNHRKYEGIKHSIYAKSPSEELPRVWVGGEQCTQPYHASLLNISAMSFGALSDRAQISLNRGAKKGNFYHNTGEGGISPYHMEGGDLCWQIGTGYFGCRDDEGKFNPELFTKYSNLPNVKMIEIKLSQGAKPGHGGVLPGVKNTPEIAAIRHVTPGMTVISPPSHTSFSDAAGLLRFVQHLRELSGGKPVGFKLCIGDTKEFEDICVQMNVLKIYPDFITIDGAEGGTGAAPPEFSDGVGMPLEPALIFVNRTLNNYNVRNKLRVIASGKVLTSLDILRAISMGADMCNNARGFMFSLGCIQALRCNSNNCPTGVATQDKMLIKGLDVTDKAERVYHFHKNTLHTCNELIAAAGRSSYEEVDATMFMRGDEFDHLADLYFPDILGNVKQKARP	PGPT0014521_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014521-yerD-NA	NA	NA
BMS003_02256	1347	mtaB	COG0621	Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB	ATGTCTACTTTTCACAGAACTGCCGCGTTTCATACACTTGGCTGCAAACTTAACTTTGCAGAAACTTCTACTATTGCCCGTCAATTAACAGATGCAGGTTATGATAAAGTAAGTTTTGATGATAAGGCGAATGTATATGTTATCAATACCTGTTCTGTGACAGAAAATGCTGATCGTGAATGTAAACTTCACGTGAAGAGAGCAATGAAAGCAAATCCTGAAGGACTTGTAGTTATTGTGGGATGCTATGCACAGTTAAAGCCTGAAGAAATTTCACAAATTGAGGGAGTTGACCTTGTGTTAGGAGCAAAAGAAAAGTTCAATATTCTGAGCTACCTTGATGATCTGGAGAAATCTGAAAACGAAGGGGTTGTTCATTCATGTGAGATTGAAGAAACCGATTTCTTTATCGGAAGTTATTCTATCGGAGACAGAACCCGAGCTTTCCTGAAAGTACAGGATGGCTGCGACTATAAATGTACTTACTGTACTATTCCGTTAGCCAGAGGAATTTCTCGTTCAGATACTATCGAAAATGTTCTCAGAAATGCCACAGAAATTGCCGCAAAAGACATCAAAGAAATTGTTCTTACAGGTGTGAATATCGGTGATTATGGTAAAGGAGAATTTGGAAACAAAAAACATGAGCATACATTCCTTGATCTTATTTCAGAATTGGATAAAGTAGAAGGGATTGAAAGAATCCGTATCTCTTCTATTGAACCCAACCTTTTAAAGGATGAAAGTATAGAGCTGGTTTCTAAAAGTAAAAGCTTTGTACCCCATTTTCATATTCCGTTACAGTCCGGAAGTGATAATCTTTTGAAAAAGATGAAACGCCGTTACCTGACGAAACTGTATAATGACAGAGTTTATAAGATCCGTGAGGTAATGCCTGATGCGGCCATTGGTGTAGACGTTATTGTAGGGTTTCCGGGAGAAACAGAAGAGCTGTTTATGGAAACTTATAATTTCCTTACTGAACTTCCTATTACTTACCTTCACGTATTTACCTATTCTGAAAGAGAAAATACGGAAGCTGCCGCAATGGAAGGTGTAGTTCCTGTCGCAGAAAGAAAAAAACGTAATAAAATGCTTAGAATCCTTTCTGAAAAGAAGAAAATGGCATTTTATCAGACACAACTTGGAAAAACGCTTCCTGTTCTTTGGGAGCACGAAAATAAAGACGGTAAAATGTTCGGCTTCACAGAAAATTATGTGAGAGTCCAGAAAGACTTTGATTCTGCATCCGTCAATCAAATCGAATTTCTGAATTTAGAAAAAATCCTGTCAGATGGCACGGTTTCTGTGCAATCTTCTTACCAAAGTTTTTTAGCAAAAGCATAG	MSTFHRTAAFHTLGCKLNFAETSTIARQLTDAGYDKVSFDDKANVYVINTCSVTENADRECKLHVKRAMKANPEGLVVIVGCYAQLKPEEISQIEGVDLVLGAKEKFNILSYLDDLEKSENEGVVHSCEIEETDFFIGSYSIGDRTRAFLKVQDGCDYKCTYCTIPLARGISRSDTIENVLRNATEIAAKDIKEIVLTGVNIGDYGKGEFGNKKHEHTFLDLISELDKVEGIERIRISSIEPNLLKDESIELVSKSKSFVPHFHIPLQSGSDNLLKKMKRRYLTKLYNDRVYKIREVMPDAAIGVDVIVGFPGETEELFMETYNFLTELPITYLHVFTYSERENTEAAAMEGVVPVAERKKRNKMLRILSEKKKMAFYQTQLGKTLPVLWEHENKDGKMFGFTENYVRVQKDFDSASVNQIEFLNLEKILSDGTVSVQSSYQSFLAKA				NA	NA	NA	NA	NA
BMS003_02257	591			hypothetical protein	ATGAAAGACCTGTTTGTAAAACGTTTTGAATACTATAAATCGCTTGGTGATAAGACATTTGACCAGCTTACGGATGATCAGATGTTCTGGCAGTATAATGAAGAAAGTAATTCTATTGCCATCATTGTAAAACATATTGCCGGAAATATGCTGTCGAGATGGACCAATTTTCTGACAGAAGACGGAGAGAAACCCTGGCGCAATCGAGACGGAGAGTTTGTCAATACCTTTACCACCAAAGAACAGGTTCTGGATTTTTGGGAACAGGGCTGGAAATGTTTTTTTGAAGCCCTTGAAAAGATAAATGATGATAATCTCTATTCGGTAACGTATATCAGGGGAGAAGCACACCCGGTGATTGATGCTGTTCTCAGACAGCTGGCTCATTATCCCTATCATATCGGTCAGATTGTTTACATCGCCAAAATGATAAAAAATGAGGATTGGAATACTTTATCTATTGCCAGAAACCGTTCTCAGGAGTTTAATACTGAAATGAAAAATAAACTTTCAGATAAAGAACCGGAAGCTAATTCATCCCCGGTCTGCTTTCAAAACAGTACTGAAGTAAGGAACGAATATAAACAATAG	MKDLFVKRFEYYKSLGDKTFDQLTDDQMFWQYNEESNSIAIIVKHIAGNMLSRWTNFLTEDGEKPWRNRDGEFVNTFTTKEQVLDFWEQGWKCFFEALEKINDDNLYSVTYIRGEAHPVIDAVLRQLAHYPYHIGQIVYIAKMIKNEDWNTLSIARNRSQEFNTEMKNKLSDKEPEANSSPVCFQNSTEVRNEYKQ				NA	NA	NA	NA	NA
BMS003_02258	2103			hypothetical protein	ATGAGAAAACTTTTACTCTTTATACTTCTGTATATCTCTCATGCCTATTATTCCCAGGCAGATTGCGCCACGGCGCTTTCAGTTTGCGGAAACTCAAATATTACATACAGTCCTACAGGATACGGTGACATCAAAGAACTGGTGAACTCCGGAAGTTGTATAGATTTTACCGGAGAGCACAATTCTATCTGGTATAAAATTACAATTGCTACCGGGGGAACGCTTACTTTTGATCTGGTTCCCAATAACCCGGATGCCGATTATGACTGGGCCATTTTTGGCCCGAATGTAACCTGCGGAAACCTGGGGTCACCCATACGGTGTAATGCTGCAACGGTTATCGGGCCTGGTCCTGCAACAGGATTGAATATGACAAGTACTCTTTTGAGTGCTGCGGGAGGTTCTCTGACTCCTTACTGCAGATACCTGGATGTTTTACCAGGACAAACCTACTATTTGTTTATCGATAACTGGGTAAGCAGTACCAGCTCCACTACAGCTCCGTTTTCATTAACCTGGGGAGGAACAGCCACGCTGGCTTCTCCATTTACAGACCCGAATATTCAGACTCAGCCATTTAATCCTCCCGGAATTCCCGCAGCAAATCCTGCAGATCCAAGAGAAGTGGTAATATGTTCTCCTACAGCCTTATTTGATTTCTCTACCCTGTCTTCGGGAATTCTTAACGGAAATCAAAACTTTGGTGTCAGTTATCACCTGAGCCAGAATGACGCACTTACAGGAAATAATCCTATAACTGCTCCTATAACAGTAAATACAACGACTGTCTATTATTACAGTATCAACTATACCGATCCCACTAATACAACCAATCCGCTTAATAAATGTAAGCAGGTTGGAACATTTAAATTCAAAAACGGAGCTATAACAGTTAAAAATGTTACATTAACTGAGTGCAACAACAATAATGCGGGAACCGCCTTATTTGATTTAACAACTGCTGACGTCATCGCCAACCCGAATGTTACTAAAAAATATTATCATACGATGGCGGATCTCAATGCCGGAATCAATGAAATTACTACTCCTATGGCATTTGTATCTGCAGAAGGGATTATCTATGTAAAAGTAATATCTGAGTTTGGATGCGTTGCTATAGCTCAGATTACACTGAAATTTAATCCGGTAGTGGTAGTAAATGAAGTTACCTTGAGGTCATGTTTCATTGAAGCCAATCCATCCACAGCTTCTTTCAATCTTATAAACGCTTCGGTAACGGGACAGACAAATCCTGTTAAAAAGTATTACCCTTCACTGTCGGATGCTGTTAATCAGACCAATGAAATTCTGAATGCCAGTAATTATATTGCGCCTGATGGATTTGTTTATGTAAGAGTTTCCAATGCTCAGGGATGCTTTGCGGTAGCCCGGATTACCTTGGTAGTGATTCCTCCCGTATATTCTGATACACTTAAAGATGTAACCATTTGTGCGGAAGACCAGACAACGCTGGATGCAGGAGCAGGATTTAAAAGCTATGAATGGAGTACCGGAGAAACCTCCCGAACGATCAAAGCAGGAATCGGGGTATACTGGGTGAAGCTGAAAACCGGGGAATGTGTTGCTACACAAACCGTAAAAGTGATTCCTTCTGAACAGCCTGTTGTTTCCGGTATTGATATTTCAAATAATTCGATTACCATTTCAGTGATAGGTGGGAATCCGGCTTATAAATATTCAATTGATAATATCATTTGGCAGGATTCCAATGTTTTCAATAACCTTTCAAGAGGAGATCATAAAGTATATGTAAAAGATGCTTACAACTGCGATCCTATAGAAATAGGAATTGTGGTTCCTAATCTTGTCAACGTGATTACCCCTAATGCAGACGGAATAAACGATGTAATAGATTATTCTGCGCTGGCCAATAAGCAAAACCTGATTATGAATGTTTTTGACCGGTATGGAAACAAAATCTTCCAGGCAGACCGATCAAACGGTTATAAATGGGATGGTACCCAGGGCGGAAGAAGAGTGCCTACCGGAACATACTGGTATTCTATTACTTGGAATGAAAATGATAAGAAAAATACTTCAATCAAATTTAGCGGTTGGGTACTCGTGAAAAACAGAGAATAA	MRKLLLFILLYISHAYYSQADCATALSVCGNSNITYSPTGYGDIKELVNSGSCIDFTGEHNSIWYKITIATGGTLTFDLVPNNPDADYDWAIFGPNVTCGNLGSPIRCNAATVIGPGPATGLNMTSTLLSAAGGSLTPYCRYLDVLPGQTYYLFIDNWVSSTSSTTAPFSLTWGGTATLASPFTDPNIQTQPFNPPGIPAANPADPREVVICSPTALFDFSTLSSGILNGNQNFGVSYHLSQNDALTGNNPITAPITVNTTTVYYYSINYTDPTNTTNPLNKCKQVGTFKFKNGAITVKNVTLTECNNNNAGTALFDLTTADVIANPNVTKKYYHTMADLNAGINEITTPMAFVSAEGIIYVKVISEFGCVAIAQITLKFNPVVVVNEVTLRSCFIEANPSTASFNLINASVTGQTNPVKKYYPSLSDAVNQTNEILNASNYIAPDGFVYVRVSNAQGCFAVARITLVVIPPVYSDTLKDVTICAEDQTTLDAGAGFKSYEWSTGETSRTIKAGIGVYWVKLKTGECVATQTVKVIPSEQPVVSGIDISNNSITISVIGGNPAYKYSIDNIIWQDSNVFNNLSRGDHKVYVKDAYNCDPIEIGIVVPNLVNVITPNADGINDVIDYSALANKQNLIMNVFDRYGNKIFQADRSNGYKWDGTQGGRRVPTGTYWYSITWNENDKKNTSIKFSGWVLVKNRE				NA	NA	NA	NA	NA
BMS003_02259	798			hypothetical protein	ATGAAAAAAACGTTTTCTGAAGAAGATCTGATAAAGAATCTGAGTTTATATTACCTGAACCGGCATTTGAAAAAAAAGCCCATAGAGAAATACCACCGTACCATAGACGAATCTCCGCTTCATGACCGTGAAAAGTACAGAAAGAAATCTGAGATTCTTCTTCTCAACTCTTTTATGCATCATTTTCCCGATGTGAAATTTGAAAATCTTACCTGCGAGAGCCCGGACTTTATCGCAAAATTAAACGACAAAAAAATCGGAATTGAATTGACCGAAGTAATTAATCATCTGGAAATGAAAAAGGTGGAAAGTACTTTGAATAAAATGTTCCGTCAGGCAGAAATACTATTAGAACAGGAAGACACTACGAAATATCGTGGTGTTTATTTTTTAGAATTCCATACGGAAACAAAATTTGATAATCTGGAAGTACAGCAGGAAAACATTATCAATATTTATAAAAGCATTAAAAAAAATAAAGCAGTAGGATGTGTGAAAAGCATCAGAAAATCCTTTCACCGGAGGAATGTTTTTATCACCCATGAATACAGCATGAGCCTTTTTGACGAACTCTGCTCAGACAAAATTCTTGAACTCATTGAAAAGAAAAATGAAAAGTTTCCTTATTATGACACCTCTGTAGATGAATGCTGGCTGGTAATTGTCTCGGATATGAATTCTATCGCTTCCAGATATACTTTTATTCAGGATAAAGAACATCTGAAAGAAGTAAAAAGCCCTTTCCATAAAATATTCCACCTGGAAAATCTGTGTGGGAATATTACAAGTATTAAATGA	MKKTFSEEDLIKNLSLYYLNRHLKKKPIEKYHRTIDESPLHDREKYRKKSEILLLNSFMHHFPDVKFENLTCESPDFIAKLNDKKIGIELTEVINHLEMKKVESTLNKMFRQAEILLEQEDTTKYRGVYFLEFHTETKFDNLEVQQENIINIYKSIKKNKAVGCVKSIRKSFHRRNVFITHEYSMSLFDELCSDKILELIEKKNEKFPYYDTSVDECWLVIVSDMNSIASRYTFIQDKEHLKEVKSPFHKIFHLENLCGNITSIK				NA	NA	NA	NA	NA
BMS003_02260	1668	glgP	COG0058	Glycogen phosphorylase	ATGGATTTTAATAATTTCAGAATACCTTACAATATCAATCCTCAATATTCCAAAAAAACCGCCTATTTTTCGATGGAATTTGCTCTTGAGCAGGTACTTAAAATATATTCGGGAGGACTTGGTTTTCTGGCAGGATCTCATATGAGAAGCGCCTATAATCTTAAACAGGACCTTATTGGTATCGGGATCTTATGGAAGTTTGGTTATTATGACCAGGCTAGAAATCACGATCAGACTTTACAGCCTGTATGGACAAAAAAAATGTACAGTTTTCTTGAAGACACCGGAATAAAATTTCAAATCGAAATCCACAGTGCTCCGGTGTGGGTGAAAGTATGGTATCTTGATCCTGAAATTTTCAATACGGCTCCCATGTTTTTCCTATCTACAGATGTTCCGGAAAATGATCATGTTTCCAAAACAATCTGTCACAAATTGTATGATGCCAACGAATCTACGAAACTGGCACAATATATTCTGCTGGGAAAAGGAGGTGCTCAATTACTGGATGAACTGAATATTGAAAGAGATGTTTATCATCTTAATGAAGCTCACGGGCTTCCCGCAGCCTTTCATCTGTTAAAAAAATACAACGGTGATCTTAACAAGGTCAGAGAAAAACTTGTTTTCACTACGCATACTCCGGAAGAAGCAGGAAACGAAAAACATAATTTCAAATTGTGTTATGACATGTCTTATTTCTCCGGCTACAGCATGGAAGAAGTAAAAAAAATAGAAGGTTCTGATGATGATCGTTTCAATCATTCCCTGTGTGCATTAAGAATGGCGAGAATTGCAAATGGAGTTTCCCAGCTTCATGGTGTAGTCTCCAGAGCCATGTGGAGTAAATATCCCGGTATCTGTGAAATCACCTCCATCACCAACGCACAGGAGTTTAAATACTGGGCAGACAAACCTTTATACAATGCAAAGGATGAGAATGAACCCACTGTTTTTGACATCCGTAAAAACTATTTAAAAAAGCAACTTTTCAGTATTGTTGCAGATCAGACGGGGAATTTATTTGATCCTAATGTCTTTACGATTGTGTGGGCAAGAAGATTTGCCGGCTATAAACGTGCAGACCTTCTTTTACACGACAAATGGAGATTCTACAGGCTTCTGAACAATCCTAAATATCCGGTACAGATCATCTGGGCAGGAAAACCTTACCCAATGGACTACTCTGCTATTTCTACATTCAACACCTTGGTAGAAGAAAGCAAATATCATAAAAATATGGCCGTTCTTACAGGCTATGAGCTTTCTTTAAGCAAATCTTTGAAGCAGGGTTCTGATCTATGGCTTAATAACCCGAGAGTTCCCAGGGAAGCTTCCGGAACTTCCGGTATGACAGCAGCAATGAACGGTTCAGTCAACTTATCCACAGATGACGGATGGATTCCTGAATTTGCCAAACATGGAGAAAACTCTTTCGTTGTTCCCAAAGCAGACTATCACAATATGAGTATTTATGAACAGGACAATTATGATCTGAATACCTTATATGAAATTCTGGAGAACGAAATTCTTCCCGCTTATTATGACCGTCCTGACCAGTGGAGAAAAATCCAGCAGAGCGCAATGAATGATGTAAAAGATCATTTCAACAGCGACAGGATGGCGGATGAATATTACAAGGTACTTTATAATGAGGAAAAAGGTTAA	MDFNNFRIPYNINPQYSKKTAYFSMEFALEQVLKIYSGGLGFLAGSHMRSAYNLKQDLIGIGILWKFGYYDQARNHDQTLQPVWTKKMYSFLEDTGIKFQIEIHSAPVWVKVWYLDPEIFNTAPMFFLSTDVPENDHVSKTICHKLYDANESTKLAQYILLGKGGAQLLDELNIERDVYHLNEAHGLPAAFHLLKKYNGDLNKVREKLVFTTHTPEEAGNEKHNFKLCYDMSYFSGYSMEEVKKIEGSDDDRFNHSLCALRMARIANGVSQLHGVVSRAMWSKYPGICEITSITNAQEFKYWADKPLYNAKDENEPTVFDIRKNYLKKQLFSIVADQTGNLFDPNVFTIVWARRFAGYKRADLLLHDKWRFYRLLNNPKYPVQIIWAGKPYPMDYSAISTFNTLVEESKYHKNMAVLTGYELSLSKSLKQGSDLWLNNPRVPREASGTSGMTAAMNGSVNLSTDDGWIPEFAKHGENSFVVPKADYHNMSIYEQDNYDLNTLYEILENEILPAYYDRPDQWRKIQQSAMNDVKDHFNSDRMADEYYKVLYNEEKG	PGPT0018545_5021	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
BMS003_02261	189			hypothetical protein	ATGAGCAAAACGAAATATTCAGACAAAGCTCAGGATAAAGTAGGAAAAGTAATGCACGAATTTAAGGAAGGAAAACTGAAATCTTCTTCCGGACAGAAAGTGACCAGCAGAAAGCAAGCTATTGCTATCGGTATTTCTGAAGCAAGAGAAGAGGGTTTAAAAGTACCGCCAAAGAAAAAAAGCAAATAA	MSKTKYSDKAQDKVGKVMHEFKEGKLKSSSGQKVTSRKQAIAIGISEAREEGLKVPPKKKSK				NA	NA	NA	NA	NA
BMS003_02262	474			hypothetical protein	ATGGAAACGAATGCATACAACCAGAAACTGAATCGTTATGTATTAAATGATCAGATTATTTATACAGGTTTCTCCGGCTTCAATGATGCAGAAGAGTATGCTCATAAGAAAGGAGGAACATTGGTGGAAGTAGTGTTTAGAGACGGAAATGATAATCCCGAAATTACTGATGAAGAAGGTTTGATAGAAAAAAAACTTCATTATCATGTATATGCAGGTGATGAGTACAAATTTATTCATTCTTCAGATCCGGGATTCCGAAAATATGCAGATGAGCTTCAGAAAATAAAAGCCAGCAATGATAAAACCAGTCCGGATGAGCGATATTTTGCCAATTTTGAAATAGAAAATATAGAAGACCCGATTATTGTAATCAAAAATGATCACTTTGAATCTGTAACATCGAGAGAGCGTTCAAAATATTTGAAACACGCCTGTGTTTATGAACTAGGGGTATCCCTGCCAAAATCTTAA	METNAYNQKLNRYVLNDQIIYTGFSGFNDAEEYAHKKGGTLVEVVFRDGNDNPEITDEEGLIEKKLHYHVYAGDEYKFIHSSDPGFRKYADELQKIKASNDKTSPDERYFANFEIENIEDPIIVIKNDHFESVTSRERSKYLKHACVYELGVSLPKS				NA	NA	NA	NA	NA
BMS003_02263	2130	ptpA_1	COG1506	Prolyl tripeptidyl peptidase	ATGAAAAAACTTCTTTTAACTCTTACTGTGGCTGCCGTGTTTCAAAATATGTCAGCACAGGAAATTACTTTAGATAAAATATATTCAGGATATTACCGTGGAAAAGGGATCGCTGGAATCTCATCTATGAAAAACGGAGAGAACTATCTTGTAATTGAACCTTCAGGAATTGCAAAATATTCTTACAAAACTTCACAGAAGGAAGGAAATCTTGTGGATGGAAGGTTTGAAAGCTATATTTTTTCTGATGATGAATCCAAAATTCTTTTACAGACAGGAAGCCAGCCTATTTACAGACATTCTTTTCTGGGAAAATTTGATGTAAAAGATTTAAAATCCGGAAAAGTAATCAGTCTGAATGAAGGTAAAACAGTACAGGAGCCAACATTTTCTCCGGATGCAACCAAGGTGGCATTTATTTCTGATAATAATTTATTCTATCAGGATCTTACTTCAGGAAAAATCACCCAAATTACTACTGACGGTAAAAAGAATGCTATCCTGAATGGTCTGGCCGACTGGGTTTATGAGGAAGAATTCGGACATGCAAGACAATATGAATGGACAAAAAATTCTGATGCTATCGTATTTGTGAAGTCTGATGAAAGCCAGGTTCCGGAAATATATATTCCAATCTATGGAAAAAATCTTTACCCCGCTGAAATGCGTTATAAGTATCCTAAAGCAGGTGAGAAAAACTCCGTGGTATCAGCACAGCTATACCGTCTTGATAACGGAAAAACAATGCAGCTGAACTTAGGTTCTTTCAAAAACTACTACATCCCGAATGTGTTCCAGACTGCAAAACCGGACGAGATTGTTTTAATTACTTCTGAAAGAATTCAGAATGCTTCAGATATTTTAAAAGTAAATACCAAAACAGGAGCTGTTCAGAAATTATTCACTGAAACGGATGATAAATGGATTGATACAGACAGCCCGACTTTAGAATTCCTTGAAGATGATTCTTTCCTTTGGGCTTCTGAAAGAGATGGGAACCGCCATCTTTACTGGTATGACAAAGATGGTAAGCTTAAAAAGCAGATCACAAAAGGCAACTGGGAAGTAACGGATTATTATGGATTCAATCCAAAATCTAAAGAAATTTACGTTCAGACTACGGAAAAAGGAAGCATCAATAAGGTAGTTTCCAAAGTAAATATTGAAAACGGAAAGTCTCAGCTGATCTCTAATGCAGAAGGAAACAATTCTGCTAATTTCAGCAAAAATTATAATTATTTCATTGAAACGTCTTCTACCGCTGCAAGACCATACACTTTTGTTTTGAAAGACGGAAATGGAAAAGCAGTGAAAGAGCTTCAAAACAATAATGATCAGTTACAGAAATTAAAAGCGGATAATTTTGTTGAAAAAGAGTTTATTACCATTCCAAATGCTGCAGGAGATCAGATGAATGCCTGGATCATGAAGCCTAAAAACTTTGACCCGAATAAAAAGTACCCTCTGTTTATGTTCCAATATTCAGGACCGGGATCTCAACAGGTTGCCAATTCATGGGATAACGGAAATGCAATGTGGTTCAATCATCTTGTTCAGAAAGGATATATTGTGGCTTGTGTAGACGGACGCGGAACTGGCTATAAAGGGGCTAAGTACAAGAAAGTAACCTATATGAATTTAGGAAAATATGAGATTGAAGATCAAATCACGGCAGCTAAGTGGTTCGGGAATCAATCTTATATTGATAAGGGCAGAATCGGAATATTCGGATGGAGCTTTGGGGGTTATATGACCAGCTTGGCAATGACGAAAGGAGCTGATGTTTTCAAAGTAGGAATTGCTGTAGCACCGGTAACTAACTGGAGATATTATGATTCTGTATACACAGAAAGATTCATGAGAACTCCTCAGGAAAACCCTGACGGATATGATAAAAATTCACCAACGGAATATGCTAACCTATTAAAAGGAAAATTCTTATTAATCCACGGAACTGCTGATGACAACGTCCATTTCCAAAATTCTATGGAATTCTCCGAAGCTTTGATTCAAAATAAAAAACAGTTTGATTTCATGGCTTATCCTGATAAAAACCACGGAATTTATGGTGGGCAGACAAGACCTCAGCTGTATCAGAAAATGACGGATTTTATTGTGAATAATTTATAA	MKKLLLTLTVAAVFQNMSAQEITLDKIYSGYYRGKGIAGISSMKNGENYLVIEPSGIAKYSYKTSQKEGNLVDGRFESYIFSDDESKILLQTGSQPIYRHSFLGKFDVKDLKSGKVISLNEGKTVQEPTFSPDATKVAFISDNNLFYQDLTSGKITQITTDGKKNAILNGLADWVYEEEFGHARQYEWTKNSDAIVFVKSDESQVPEIYIPIYGKNLYPAEMRYKYPKAGEKNSVVSAQLYRLDNGKTMQLNLGSFKNYYIPNVFQTAKPDEIVLITSERIQNASDILKVNTKTGAVQKLFTETDDKWIDTDSPTLEFLEDDSFLWASERDGNRHLYWYDKDGKLKKQITKGNWEVTDYYGFNPKSKEIYVQTTEKGSINKVVSKVNIENGKSQLISNAEGNNSANFSKNYNYFIETSSTAARPYTFVLKDGNGKAVKELQNNNDQLQKLKADNFVEKEFITIPNAAGDQMNAWIMKPKNFDPNKKYPLFMFQYSGPGSQQVANSWDNGNAMWFNHLVQKGYIVACVDGRGTGYKGAKYKKVTYMNLGKYEIEDQITAAKWFGNQSYIDKGRIGIFGWSFGGYMTSLAMTKGADVFKVGIAVAPVTNWRYYDSVYTERFMRTPQENPDGYDKNSPTEYANLLKGKFLLIHGTADDNVHFQNSMEFSEALIQNKKQFDFMAYPDKNHGIYGGQTRPQLYQKMTDFIVNNL				NA	NA	NA	NA	NA
BMS003_02264	825			hypothetical protein	ATGAAAAACTTATTATTTATATTGTTGGGAACATGTATGATGTTTGCTCAGAACAATAGGTTCATCTATGAGGTGAAGTACAAGAAAGATTCAACCTCAAAAGATATTACCAGAGAAAATTATTATCTGGATGTTACAAAGGAGGATATAGCCTATTATAACAGACTGAATTATATTAGTGATTCATTATTTATTGCTACAGGGCAATATGCATTTAAAGGCAACAGACTGACTTCATTTTTAATAAAAAAGAATGATGATAATATATACCAAAACTATGAATATATAGGAGATGTGAATTTTTATAAAATGTCTGAGGAAGTCAGGCAACAGTGGACTATTACAGACAGTATAAAGATTTCTAATAATTTACTGATTCAAAAAGCTACTACACAGTTCGGAGGAAGAAACTGGATAGCATGGTTCACCAAAGATATCCCGATTCCTTACGGGCCCTATAAATTTAACGGTTTACCTGGATTGATTATGGAATTGTATGATACAAAAAAGAATTATTACTTTAATGTGATTAAGAGTGAAAAGATTCCGGATGATTATCAACGTAATTCATTAAATGCCTCTATATCCAGAGCCATTCCTGTTACTCAGAAAGAACTGAAAAAATTAAAAATAGATCTTTATTCCAATCCTTTTAAATATGTCTTGAATGGAAATTTGACTATGCGTGAAGGGCAGAAATTATTGTTAGAGGACGGAACAGTCTTGTCTAAAGAACAGCTGAAGCCAGCAGAAGCCAACGAAAGAAAAAAATTAAAAGCCTTTAATAATCCTATAGAACTGGATAAAGCAGTGAAATATCCTTGA	MKNLLFILLGTCMMFAQNNRFIYEVKYKKDSTSKDITRENYYLDVTKEDIAYYNRLNYISDSLFIATGQYAFKGNRLTSFLIKKNDDNIYQNYEYIGDVNFYKMSEEVRQQWTITDSIKISNNLLIQKATTQFGGRNWIAWFTKDIPIPYGPYKFNGLPGLIMELYDTKKNYYFNVIKSEKIPDDYQRNSLNASISRAIPVTQKELKKLKIDLYSNPFKYVLNGNLTMREGQKLLLEDGTVLSKEQLKPAEANERKKLKAFNNPIELDKAVKYP				NA	NA	NA	NA	NA
BMS003_02265	1563			hypothetical protein	ATGACACGCAAAAGTTATACTGCTGTTATCAATTATCTGGATGATCTTAAAATATATATTGATAAGGATGAGTTTGAACTTCAACTGGAAGGGCATCCCGATTTTCCAAGTCTTCTGGCATTTTCTGATGCTTTAAGCTTTTTCAATATTGAAAATTACAGTTACAGAATTGATAATGACGAAAAAGATATTTTACCAGAGGATTTTTTAGCTTTAGTAGAAGGGGAACTGACTGTTGTAAACAATAAAAATAACAAAATAACAGCCAATGGTTCTCCAACGGAAAGTTTTTTTTCAGAATGGGAAAATATAATACTGATTGTAGATCCGCCTGAAGAGCAGCCCCAGACAAAATCAAAATTGTGGTATGCCTCTATTAATTGGGGAATTTTAGCGCTGCTATTTCTGTTTCTTTTCGCATATGATTATTCTAATCTGGTTTTGAAATTGATCTTTGCGGCTACCGGACTTATCGGATTCATCTTTGCCCTTGAAGCTTACAAAAAAACGCATGGAAAAGGAACATTCATACCAGTAGGAGTATGTAAAAGTGATTACCTGAATACAGATTGTGATCTGGTTTTTAATTCAAAAAAATGGAAGATTTTTAATAAGATAGATTTATCTGAAATTTCACTCCTGTTTTTTACCAGTCAGATTGTTTGTTTTATTTTATTGAGTCTGGTAAAAAATATTGAATTCTTTTTTGAGATCTATCGGTATGGGTTATTTGCATTCCTTCCCGTTGCTTTCTTATCATTATTCTACCAGATATTTGTGGTTAAAAAATATTGCCCTGTCTGCATGGTAATCATAGCCTCTGTATGTATTCAGTTGATAGCTTCTAATCTTATTTTCTTTAAGAGCAACCCTATTGATAGTATTGCTGTAGCCTTATTTGCCATTGGCTGTTTCGGTTCACTTATGGTTTTGCTGAACCTTAGAACAAAAAATAAAAATGCTCAGAAAGATGAAAATACGCTTAAAAGAAATCTGAAATTCAGAAGAAACTATCAGTTTTTCAAAAATAATTTGTCTTTGCAGAAAAGGTTGGCCAATAAAGATTTTTCAAGTGCTTTTGTATTTGGAAATGAAAAAGCAGATCAGACTTTGACATTTATTACCAATCCCTTTTGTAAGCACTGCAAAGAATTTTATCCTGTTTTTCTGAAGTTGGTTAAAAAGTATTCTGATGAGCTGAGAATTAATATTTTCTTTGATATAGATCTTAGCAGGGATGATCTGGATAATAGAACGGTTCATGTGAATCTTACCAATATTTATATCAATAGCGAAAACAAAATAGAGTTTCTGGAAGCGTTGAGTGGATGGTATGATGTTCAGGGATATAGCGAAAACAAAAACGGCTGGTATAAAAAATACTCTAAATATTTTGGAAGTTCAGAGAATGCGCTAGAATTATTAAGAGGACACGAAAAATGGGTAAGCAGCAATAGTGTGCATTTTACACCCAATATCTTTATGAATGACATGGAATATCCCATTCAGTATGAGAGAGCAGATCTGGAGTTCTTTATCCCGGAATTATTATCTGAAAATTAA	MTRKSYTAVINYLDDLKIYIDKDEFELQLEGHPDFPSLLAFSDALSFFNIENYSYRIDNDEKDILPEDFLALVEGELTVVNNKNNKITANGSPTESFFSEWENIILIVDPPEEQPQTKSKLWYASINWGILALLFLFLFAYDYSNLVLKLIFAATGLIGFIFALEAYKKTHGKGTFIPVGVCKSDYLNTDCDLVFNSKKWKIFNKIDLSEISLLFFTSQIVCFILLSLVKNIEFFFEIYRYGLFAFLPVAFLSLFYQIFVVKKYCPVCMVIIASVCIQLIASNLIFFKSNPIDSIAVALFAIGCFGSLMVLLNLRTKNKNAQKDENTLKRNLKFRRNYQFFKNNLSLQKRLANKDFSSAFVFGNEKADQTLTFITNPFCKHCKEFYPVFLKLVKKYSDELRINIFFDIDLSRDDLDNRTVHVNLTNIYINSENKIEFLEALSGWYDVQGYSENKNGWYKKYSKYFGSSENALELLRGHEKWVSSNSVHFTPNIFMNDMEYPIQYERADLEFFIPELLSEN				NA	NA	NA	NA	NA
BMS003_02266	183			hypothetical protein	ATGAAAAAACTTGATTTAAAAAAGATGAAAGGAATTTTATCCAGAAATGAGCAAAGAAAAATTAAAGGAGGGATGGTAGCGCCTGATGCAGGTGTGGGATGTGGATGTACGAATGCTGCTTGCGCAAACACTCATAATGGTAATGGTGATTCTTACTGCAATGGTACTTTCTGCTGCGGGTAA	MKKLDLKKMKGILSRNEQRKIKGGMVAPDAGVGCGCTNAACANTHNGNGDSYCNGTFCCG				NA	NA	NA	NA	NA
BMS003_02267	1680	dtpA		Dipeptide and tripeptide permease A	TTGGGAAATTTGAAAATTGATTATATGAAGACTAAACATCCTAAAGGGTTACCTTATCTCTTTTTTACAGAAATGTGGGAACGTTTCGGGTACTACCTGATTCTTGGAATCTTTGTTCTGTATGTTATTGAACCTACTGGTATGAAAGGAGGACTTGGACTGCCAGACAAAACTGCTGATGATATTTTCGGAACCTATATTGCCTTAACCTACCTGACACCTTTCATTGGTGGGTTTCTTGCGGACAGAGTTTTAGGGTATATTAAATCTATTTACCTTGGTGGTTTTTTAATGGCCGCAGGATATATAGGAATGGGTGTTTTTAAAGATTTACCTTTGTTTTATGGCTCTCTGGCATTAATTATAATAGGAAACGGTTTCTTTAAACCAACTATTTCAACACTATTAGGAAATCTTTATTCCGAAGAACCTTATAAAGCCAACAAAGATTCAGGATATAATATTTTCTATATGGGAATCAATATCGGAGCATTTATCTGTAATATTATTGCGGCCTTTATGCGTAATAAATTTGGTTGGGGAGAAGCTTTCATCACAGCCGGAGTAGGAATGCTAATAGGGATGGTTATTTTTACGATCGGAAGAAAGCATTATATCCACGCTGCACAGATGAAGCCTGTACAGGAAGGAGATACAAAACTTTCAGAAATTCTGATCAAAGTATTCTTACCTGCTATTATTGCCGGGGCGATAGGTTGGTTTATTCCTGGCAATATCTTTGGAAGTGACAGTACAGATGCTTTTATTTTTGCATGTGTGCCTGTAATTTATTTTTATACTTCTCTTTACTTTAAAGCTAAGCCGGATGAAAAAGCATCTATCGGGGCATTACTTTCAGTATTTCTGATCAGTATGTTCTTCTGGGCGGTTTTCAAACAGAATGGTACTGCTCTGACGAGATGGGCGAATTATTATACGGACAGAAGCGTCCCTGCCTCCCTTGAAAAGCCACTGGAAGGTATTTATATGGTAGATGGCAAGAGCTATGAAGACAAAGAGACTCCGGTTTATGATAATCAATTCCGTTCCCAAAAAGATGATAACGGAGAAACGAAGAAAGAAATGGGAAAAGATGTCTATTTTAAGAACATTTCTCCTGAACAGCGTGCTACCCTTGAAAAAAATCCTGAAAATAAAGTCTATCTGTACAATACGGAATTATTCCAATCTATCAATCCGTTCTGGGTCATTGCGCTTACACCTGTTATTGTGGGATTCTGGGCTTTATTGAGAAGAAAAGGCAAAGAACCTTTAACACCTACAAAAATAGTATTGGGATTATTCATTTCCGGACTTTCCTGTCTTGTTATGGTATTAGCTGTAATGGCGGGAGAAAACGGAGCTGTAAAAGTCTCCCCCCTATGGCTGGTTGCCAGCTACGGAGTAATTACCATCGGGGAATTATGTCTTTCTCCAATGGGTCTTTCTTTTGTTTCCAAGCTTTCCCCTGCAAGAATTACGGCATTGATGATGGGAGGATTTTTCCTTGCCAATTCTGTAGGAAATAAGCTTTCAGGAATACTGGCAAGTACCTGGTACAGCTATGAAAACAAGACGAATTATTTTCTTGTAAACTTTGCTTTGTTAATATTTGCTACAGTTTTGGGCCTCTCTATGTTAAAAAGGCTCAACAAAATAATGAAAGAAAAAGGACATTAA	MGNLKIDYMKTKHPKGLPYLFFTEMWERFGYYLILGIFVLYVIEPTGMKGGLGLPDKTADDIFGTYIALTYLTPFIGGFLADRVLGYIKSIYLGGFLMAAGYIGMGVFKDLPLFYGSLALIIIGNGFFKPTISTLLGNLYSEEPYKANKDSGYNIFYMGINIGAFICNIIAAFMRNKFGWGEAFITAGVGMLIGMVIFTIGRKHYIHAAQMKPVQEGDTKLSEILIKVFLPAIIAGAIGWFIPGNIFGSDSTDAFIFACVPVIYFYTSLYFKAKPDEKASIGALLSVFLISMFFWAVFKQNGTALTRWANYYTDRSVPASLEKPLEGIYMVDGKSYEDKETPVYDNQFRSQKDDNGETKKEMGKDVYFKNISPEQRATLEKNPENKVYLYNTELFQSINPFWVIALTPVIVGFWALLRRKGKEPLTPTKIVLGLFISGLSCLVMVLAVMAGENGAVKVSPLWLVASYGVITIGELCLSPMGLSFVSKLSPARITALMMGGFFLANSVGNKLSGILASTWYSYENKTNYFLVNFALLIFATVLGLSMLKRLNKIMKEKGH	PGPT0021010_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS003_02268	1755	dtpT_1	COG3104	Di-/tripeptide transporter	ATGGATAATATTGAAGCATTGAGTCCGAAACCGGATGAATTTGTAGAGAATAAGAATTCCAGGCATCCTAAAGGATTATGGGTTCTCTTCGGAACAGAAATGTGGGAGCGTTTCAACTTTTATGGAATGAGAGCTCTTTTGACGCTCTTCATGGTAAATTCCTTATTAATAAAAGAAGCTGATGCAGCGATCATCTATGGTGGATTTCTAGCTTTATGTTATTTAACACCTCTTTTGGGAGGATTTATTGCTGATAAATATATAGGAAACAGGTATGCGATCATTATTGGTGGTTCATTAATGGCTATTGGGCAGTTTCTACTATTCATCAGTGCCTCTACTTTCTCTGCTGATATTGGCAGTGCTAAACTAATTATGTGGCTGGCATTATTCGTTATTATTTTCGGTAATGGATTCTTCAAACCAAATATTTCCTCAATGGTAGGAAGTCTTTATCCAAAGCAGGAAAAATCTAAACTGGATTCTGCTTTTACCATTTTCTATATGGGGATCAATATTGGGGCTTTCTTAGGTCAGTTTATCTGCCCGTACGTAGGAGATGTAAAAGATGCAACAACAGGAGTAAGAGATATCTTCGCTTTCAAATGGGGATTCTTAGCCGCTTCTATCGCAATGGTAATCGGAACGGTAACTTTCTTTATTCTTAAAAACAAATATGTAGTAACTCCTGAGGGAAGACCTATCGGAGGGTTACCGAAACATAATACAAGTGCTGACTTTGAAGAAGGAGAAACGCAAACTGCCAAGTTCTCAGGTCAGGCTTTAGGGATCACCGGAGGAATATTTGTCGTTTTATTCTTCCTTTTCAGATATCTTCTTGTAGGAGAGTTTGGGTTCAATTCCGTAGAAATGGGACAACTGATCAAAGGAATCATTTATCCGTTCATCTATTCGGCTGGTATTTCTCTTGCCTTTCTGATTATGTCTTCTGCTGAAAATAAGGTAGAAAGACACAGAATCTGGGTAATCTATATTGTATCATTCTTTATTATTTTCTTCTGGGCTGCATTTGAGCAGGCAGGGTCTTCATTAACGTTTATTGCAGATAACCAGACTGACAGAAATATTCTCGGATGGAATATGCCTCCTTCAATGGTTCAGATCTTTAACGGGATCTTCGTAGTAATTTTAGCAGTTCCATTCAGTTTAATCTGGGATAAATTAAGAGCAAGAGGAAAAGAACCTGTATCACCTTTCAAACAAGCAATGGGATTAGCATTAATTGCTCTTTCTTATTTCATCATTGCACACAATGTAAAAGATCTTGGAAATTCTGGTTTATTAGCAATCAAATGGTTAATGTTACTATATTTCATTCAGACTTGTGGTGAGCTTTGCCTTTCTCCAATTGGTTTATCATTGGTTGGTAAGCTCGCACCCAAAAGATTTGCTTCATTACTGTATGGTGTTTTCTTCATTTCTAATGCTGCCGGTTATGCATTGGCAGGTTCATTAGGAGCACTTATCCCTGCAACAGGTGATAAATTCAAAAAAGCTGAAGAAATAGGAGTTAATTTACAGGATGTTTTGGATAAAAAAGTAACACTCACAGCAGATCAGGTTGCTGCTTTTGATAAAGCTCAGCTTCCATTACACAACCCTACCTTTGTAGGATTTGAAATCCACAATCTATTCGAATTCTTCATGGTATTCGTAGTACTTTGTGGTATAGCTTCTGTAATTTTAGGTTTAATTTCACCTATCTTAAAGAAAATGATGCACGGTGTAAACTAA	MDNIEALSPKPDEFVENKNSRHPKGLWVLFGTEMWERFNFYGMRALLTLFMVNSLLIKEADAAIIYGGFLALCYLTPLLGGFIADKYIGNRYAIIIGGSLMAIGQFLLFISASTFSADIGSAKLIMWLALFVIIFGNGFFKPNISSMVGSLYPKQEKSKLDSAFTIFYMGINIGAFLGQFICPYVGDVKDATTGVRDIFAFKWGFLAASIAMVIGTVTFFILKNKYVVTPEGRPIGGLPKHNTSADFEEGETQTAKFSGQALGITGGIFVVLFFLFRYLLVGEFGFNSVEMGQLIKGIIYPFIYSAGISLAFLIMSSAENKVERHRIWVIYIVSFFIIFFWAAFEQAGSSLTFIADNQTDRNILGWNMPPSMVQIFNGIFVVILAVPFSLIWDKLRARGKEPVSPFKQAMGLALIALSYFIIAHNVKDLGNSGLLAIKWLMLLYFIQTCGELCLSPIGLSLVGKLAPKRFASLLYGVFFISNAAGYALAGSLGALIPATGDKFKKAEEIGVNLQDVLDKKVTLTADQVAAFDKAQLPLHNPTFVGFEIHNLFEFFMVFVVLCGIASVILGLISPILKKMMHGVN	PGPT0021010_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS003_02269	1512	dtpT_2	COG3104	Di-/tripeptide transporter	ATGAGCTTAACTTTAGATGAAATACAAAATTTCAAAGGAAAATATCCCAGACAAATCTGGAGCCTGTTTTTCTCTGAAATGTGGGAACGTTTCTGTTTCTACGGAATGCGTGGAATGCTGGTTTTCTTTATGATTTCACAGCTTAACTTCCATGAAAAAGAAGCCAACCTTCAGTATGGTGCAACCCAGGCTTTCGTGTATGCCTTTACTTTTGTAGGAGGTCTTTTTGCCGATAAAATTTTAGGATTCCGAAAATCCCTGTTTTGGGGTGGTCTCCTGATGATTGTAGGAAGTTTAATTCTGGCCACAGATCCCCACAAATTCTTTTTCTTAGGAATAGCGTTCACTGTGGTAGGGACAGGTTTCTTCAAACCTAATATCTCATCTATGGTGGGACAGCTTTATAAACCTAATGACTCAAGGGCAGATGCAGGCTTTTCGCTTTTCTATGCAGGGATTAATCTTGGGGCTTTATTAGGAGGTTATTTATGTATCGCCATTGGTAAAGGAGAATTTCTGAGCAATATTATTGCAGAAGAAATGAGATGGCATATTGCTTTCGGACTTGCTGCAATAGTAATGGTGGTGAGCTTAATTAATTTTGTATTTACTCAAAGAACATTGGGTACCATTGGTCTGCAACCAGGGCATCCTTTAGCAGAAATAAAAACCGCTCCGATACCGAAATGGAAGGAATACGGAGTATATGTTCTGTCATTGATTTTCGTTCCTATCATCATGACCATGGTAGCTAAGACAGAATATACAGATTACTTTATGTGGACAATCGGGCCATTAACCTTAATCTATTTATTCTATGAAATGTCTAAAGTAACAGCTGCAGAGCGTAAAAAACTTTGGGCAGCTTTGGTTTTCATTATCTTCTCAATTATATTCTGGGGAATCTATGAACAAAGTGGAGGTTCTTTAAGTATTTTTGCTGCGAAAAATCTGAATAAAGATCTTTTCGGATTAGACCCAAATGGGGTGAATAATTCAGGTGGCGCCTTCTTTATTATTTTCCTTGCTCCATTAATCGGACTTCTCTGGATCTGGCTTAATAAAAGAAAAATGGAACCCAACACGATTATCAAATTCGGATTAGGATTCATTTTCTTAGGATTAGGATATTACGTTTTGTTTGCAACGCGCCTGTTTGCAGACCTTCAGGGAATCACATCACTGAATTTCTTCACACTGGCATTGCTTATCATTACCCTTGGGGAATTATGCCTCTCTCCTATCGGATTATCCATTATGACCAAACTTTCTACTAAGAATCTTCAGGGAATGATGATGGGAATGTGGTTCCTTGCTTCAGCATATGGACAGTATGTTGCAGGAATTATCGGAGCCAGTCTTGCCACAGCAAAAGAAGGGTCTACTAACTATGATGAATTGATCACTTATACTGATGGATATAAACAATTAGGATTATATGCGATAATTGCCGGAGTGGTATTAATTTTGATATCTCCGTACGTGAAAAAATTAATGCAGGATGTAAAATAA	MSLTLDEIQNFKGKYPRQIWSLFFSEMWERFCFYGMRGMLVFFMISQLNFHEKEANLQYGATQAFVYAFTFVGGLFADKILGFRKSLFWGGLLMIVGSLILATDPHKFFFLGIAFTVVGTGFFKPNISSMVGQLYKPNDSRADAGFSLFYAGINLGALLGGYLCIAIGKGEFLSNIIAEEMRWHIAFGLAAIVMVVSLINFVFTQRTLGTIGLQPGHPLAEIKTAPIPKWKEYGVYVLSLIFVPIIMTMVAKTEYTDYFMWTIGPLTLIYLFYEMSKVTAAERKKLWAALVFIIFSIIFWGIYEQSGGSLSIFAAKNLNKDLFGLDPNGVNNSGGAFFIIFLAPLIGLLWIWLNKRKMEPNTIIKFGLGFIFLGLGYYVLFATRLFADLQGITSLNFFTLALLIITLGELCLSPIGLSIMTKLSTKNLQGMMMGMWFLASAYGQYVAGIIGASLATAKEGSTNYDELITYTDGYKQLGLYAIIAGVVLILISPYVKKLMQDVK	PGPT0021010_1872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
BMS003_02270	537	dsbD_4		Thiol:disulfide interchange protein DsbD	ATGAAGAAAATTTTAAGCATAGTATTCTTGTTTTTATTAAATTTTAGTTTTGCTCAGGTAAAATGGATGACTATTGATGAAGCTTTAAAAGCTCAGAAAGATAATCCCAAAAAGATACTGATTGATTTCTACGCAAACTGGTGTGGTCCTTGCAAAATCATGGATAAGCAAACCTACGGACATCCTGTGATTGCTCAGATTTTAAATGAGAATTACTATCCTGTAAAGTTTAATGCAGAAGAAAAAAAAAGCATTGAAATCTTTGGAAGAACATTTTCCAACCCTAATAGTACGGAGCACAGAAAAGGTAAAAATTCCCTGCATGAGTTTACCCAGTATATGAATGTGGGAGCTGTTCCCAGTACCGTCTTTCTGGATGAGCACGGAGGCCCTATCACTATTCTTCAGGGAGAACTGTCTGCCAAGGAGCTGGAGCCCTATCTCGAACTGATCTCAAAAGATCTGTTCAAAAAGATCAAGACAAGAGAACAGTGGGAAGATTACCAGAAAAAGTTCAAATCTAAAATCAAAGATTAA	MKKILSIVFLFLLNFSFAQVKWMTIDEALKAQKDNPKKILIDFYANWCGPCKIMDKQTYGHPVIAQILNENYYPVKFNAEEKKSIEIFGRTFSNPNSTEHRKGKNSLHEFTQYMNVGAVPSTVFLDEHGGPITILQGELSAKELEPYLELISKDLFKKIKTREQWEDYQKKFKSKIKD				NA	NA	NA	NA	NA
BMS003_02271	2088	recG		ATP-dependent DNA helicase RecG	ATGAATCTCGAAACCTCCATAGAATATGTAAAAGGAATAGGTCCGGAAAGAGCCAAACTCATCAAAAGTGTACTGGGCTTATCTACGGTAGAAGACATGTTGAATTTCTACCCTATCCGTTATCTGGACAAAAGTAAAATTTATACGGTTTCCCAGCTGAAAGAAGAAACCAGCCAGGAAATCCAGCTGAAAGGAAAAATTACAAACATACAGGAAATTCAGACCGGAAAGACCAAAAGATTGTCTGCAAAATTCAATGATGAAACAGGCAGTATGGATCTGGTTTGGTTTCAGTATTCCAAATGGCTTAAGGAGCAGCTTCCTGTTAACAAGGAAGTCTATATTTTTGGCAAGATCAATGTTTTCAACCGTCAGTTTTCTATGCCACACCCTGAAATAGAAGCGGAAGAAAATAAAGAGGGAGATACCCGTCTTAAACCTATTTATCCAAGTTCTGAAAAACTGACTAAAAGAGGATTGAATCAAAGATTTTTTCAGAATGCCCTGAGAAATATCTGCAGAGAAATTCCGAATCTTATTGAAGAAAATTTCCCGGAATATCTGATGAAAACGTTTAAATTCATGTCCAGACAGCACGCCTTTCTGAATGTTCATTTTCCAAAGGATACAGAACATTTCAATAAGGCTGATTACAGACTGAAGTTTGAGGAATCCTTCTTTTTTCAATTAGGATATGGCTTAAAGAAGCTTCATCATAAAACACAGTCTCATGGCAACCCATTCCCTATTATCGGAGATCATTTCAATGATTTTTATGAAAACTACCTTCCTTTTGAACTTACCAATGCACAAAAAAGAGTTTTAAAGGAAATCCGTATGGATATGAAGAGGCCGATTCAGATGAACAGGCTTCTGCAGGGTGATGTAGGTTCAGGAAAAACAATGGTAGCCCTTCTCACCATGCTTATTGCTATGGATAATGGTTTTCAGAGCTGTCTGATGGCACCTACTGAAATTCTTGCCCAGCAGCATTATAACGGGATCAAAGAACTTTTAGAAAAAACAGGAATCAATATCCGTCTTCTTACCGGTTCTACCAAAGCTGCAGAAAGAAGAATTATACATGAAGAACTGGAAAACGGGAATCTTTCTATTTTGGTGGGAACTCATGCTGTGTTGGAAGACAAGGTTAAATTCAAAAATTTAGGATTAGCTATTATTGATGAGCAGCATAGATTTGGAGTTGCGCAAAGGGCTAAACTTTGGGCTAAAAATAAAATTCCGCCTCATATTCTGGTAATGACCGCTACTCCTATTCCAAGAACGCTGGCCATGAGTTTTTATTCTGATCTGGATGTTTCTGTAATTGATGAAATGCCTGTAGGAAGAAAACCTATCATTACAGCTCACAGACGTGAAAAAGACAGACTGTATGTTTATAATTTCTGCAAAGATGAAATTAAAAAAGGCCGACAAATCTATTTCGTATATCCTCTCATTGAGGAATCTGAAACGTTGGACTATAAAAATCTGATGGAAGGACTGGAACACGTTATGGAGTTTTTCTCAGAATATAAGGTAACCATGCTTCATGGAAAGATGAAACCTGATGAAAAAGATGCTGCAATGACTTATTTTGCTTCCGGAAAAGCTGAAATTATGGTAGCCACTACTGTAATTGAAGTAGGAGTAAATGTTCCCAATGCTTCAGTAATGGTAATTGAAAGTTCAGAAAGATTCGGGCTTTCCCAGCTTCATCAGTTGCGGGGACGTGTGGGAAGAGGTGCTGAGCAGAGTTATTGTATCCTGATGACTTCGGACAAATTATCCAAAGAAAGCAGAACACGTATCAGGACGATGACAGAGACTAATGATGGTTTTAAAATTTCTGAAGTAGATATGCAGCTTCGTGGTCCCGGAGATATTCTGGGTACCCAGCAAAGTGGTGTGGTAGATTTTAAAAGACTGGATCTGATTCATGATTCGGCAATCATCAAGACTACAAAAAATACGGTAGAAAAAATTCTGGAAGCAGATCCTATGCTTTCCCGTCCTGACAATCTGATTATTAAAAACTATTATATCAGATATTACAAAGGAAAAAATAAGTGGAGTAAAATATCATAA	MNLETSIEYVKGIGPERAKLIKSVLGLSTVEDMLNFYPIRYLDKSKIYTVSQLKEETSQEIQLKGKITNIQEIQTGKTKRLSAKFNDETGSMDLVWFQYSKWLKEQLPVNKEVYIFGKINVFNRQFSMPHPEIEAEENKEGDTRLKPIYPSSEKLTKRGLNQRFFQNALRNICREIPNLIEENFPEYLMKTFKFMSRQHAFLNVHFPKDTEHFNKADYRLKFEESFFFQLGYGLKKLHHKTQSHGNPFPIIGDHFNDFYENYLPFELTNAQKRVLKEIRMDMKRPIQMNRLLQGDVGSGKTMVALLTMLIAMDNGFQSCLMAPTEILAQQHYNGIKELLEKTGINIRLLTGSTKAAERRIIHEELENGNLSILVGTHAVLEDKVKFKNLGLAIIDEQHRFGVAQRAKLWAKNKIPPHILVMTATPIPRTLAMSFYSDLDVSVIDEMPVGRKPIITAHRREKDRLYVYNFCKDEIKKGRQIYFVYPLIEESETLDYKNLMEGLEHVMEFFSEYKVTMLHGKMKPDEKDAAMTYFASGKAEIMVATTVIEVGVNVPNASVMVIESSERFGLSQLHQLRGRVGRGAEQSYCILMTSDKLSKESRTRIRTMTETNDGFKISEVDMQLRGPGDILGTQQSGVVDFKRLDLIHDSAIIKTTKNTVEKILEADPMLSRPDNLIIKNYYIRYYKGKNKWSKIS				NA	NA	NA	NA	NA
BMS003_02272	447			hypothetical protein	ATGAATAAAGAATTTCTGAACGTAATTGTAGCAGATAATGATGAAAAGAATTTAATTTCTTTTAAGAATATTCTGAAAGAGCTTAAGATCTCTATAAAAGTTCAGTGTTTCAGCAACGGAAAAGATTTAATGGAATATCTGAATAATGAAGATTCAGTAGTTCCTGAAATAGTCTTTATAAAATATACTATTCCCGGAAAAGAAAGTATGGAATGTCTGGGAGAGATTGAGTCTAACTCAAAATTCGGTAATATGATAACGGCCATTTTTTCTGAGCCGATTCCGGAAAATGAAATAGAAGAGATTTTTGTAAAAGGAGCTCATATTTTTTTTAAAAAACCTGACTGTTTTGAGCGTCTGAAAAAGGTGCTTACAGAAGTTATTACAATCAGTTGGCAGTACCATACTTCGGGATTGAATAAAGATCATTTCATCCTTAAAGTATGA	MNKEFLNVIVADNDEKNLISFKNILKELKISIKVQCFSNGKDLMEYLNNEDSVVPEIVFIKYTIPGKESMECLGEIESNSKFGNMITAIFSEPIPENEIEEIFVKGAHIFFKKPDCFERLKKVLTEVITISWQYHTSGLNKDHFILKV				NA	NA	NA	NA	NA
BMS003_02273	576			hypothetical protein	ATGTATGTTAAATTTGATTTCAATGCCCTTTGCAAAAAGGTATTGGACGAGAAACTTAAAGAGCACGGACTGAAGTACAGGCTGCTGAACTTCGGTGAAGTGGAATTCTATGAGCCCCTCACTCAGGAACAGCATAATCTTTTTAAGAAGAATCTGGAAGATTATGGTATTGAGATCATAGAAAGTCAGAAAACCACACTGGTACAGAAAATAAAAGACGCTATTGTAGAACTTGTATTTTCTGATGAGATTATTCCGGTAAAAGCATCGATATATATTTCTGAAAAACTGAATCACAGTTATGGCTACCTTTCCAATCTGTTTTCAGAAGTGGCATATACCTCTATTGAGAATTTTATTATTCTGCAAAAAATAGAACATGCAAAGGCCCTGATCATAAGAAACAAGCAAAGTCTTACGGAAATTGCCCATAAGCTGAATTATTCCAGTGTAGCACATTTAAGCACTCAGTTCAAAAATACAACAGGAATCACTCCATCCCAGTTTCAAAAAATTATTGGCAAAAGAAGAAGAGCTCAAAACGTAGCAGTAAACCCTAAAATGCAGTATGAATAA	MYVKFDFNALCKKVLDEKLKEHGLKYRLLNFGEVEFYEPLTQEQHNLFKKNLEDYGIEIIESQKTTLVQKIKDAIVELVFSDEIIPVKASIYISEKLNHSYGYLSNLFSEVAYTSIENFIILQKIEHAKALIIRNKQSLTEIAHKLNYSSVAHLSTQFKNTTGITPSQFQKIIGKRRRAQNVAVNPKMQYE				NA	NA	NA	NA	NA
BMS003_02274	504			hypothetical protein	ATGAAATTAAGAGAGGCAACCGCAGTGGATATCCCTTTAATTCAGGATCTGGCACGTAGATCATGGGAAAAAGCTTATGCAGAAATTCTTTCAAAAGAGCAGATGGAGTATATGCTTTCCGAAATGTATTCTGAAGCAGAGATTCTGAAGCATTTTCAAAACCCGCATTACCATTATTATCTTATCCAGGATGAAAATAATAATTCCTATGATGGGTTTATCGGATATGAGCATAATTATGAAGAGAAAACTACCAAGCTGCACCGTATTTATCTTATTCCTGAAAGTAAAGGAAAGGGATTCGGTAAAAAGGCACTTCAGTTTCTGAATGAGACGGTTTCTGAAAACGGAAATGAAAGAATTATCCTGAACGTGAATAAATATAATTCTGCCAAAAACTTCTACGAGTCCCAAGGATACAAGGTGTATAGCGAAGGGGTTTTTGATATCGGGAACGGATATGTGATGGATGATTATCTGATGGAATTTCTAATTCACTCATGA	MKLREATAVDIPLIQDLARRSWEKAYAEILSKEQMEYMLSEMYSEAEILKHFQNPHYHYYLIQDENNNSYDGFIGYEHNYEEKTTKLHRIYLIPESKGKGFGKKALQFLNETVSENGNERIILNVNKYNSAKNFYESQGYKVYSEGVFDIGNGYVMDDYLMEFLIHS	PGPT0007785_1346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
BMS003_02275	873	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGCATTTTAAAAGGAGTAGGTGTTGCATTGGTAACACCCTTTAATGAAGATTTATCCGTTGATTTTGACAGTTTAACAAGACTTGTTGAATACAATATTGAAAACGGAACCAATTATTTAGTAGTATTGGGAACTACGGCAGAAGCCGCAACGCTTTCTGCAGAAGAGAAGAAACAGGTAATTGAGCATATTATTAAGGTAAATAATAAACGTCTTCCTTTAGTTTTAGGAATTGGCGGTAACGATACTCTTGACGTCAAGAAACAGATTGAGCAAGCAGATCTTTCAGCATTTGAAGCGGTACTTTCAGTATCTCCATATTATAATAAGCCGAACCAGGAAGGTCTTTATCAGCACTATAAAGTATTAGCTTCCACAGGTAAAAATATTATTATTTATAATGTACCTTCAAGAACAGGACAGAATGTAGAAGCAGATACTACACTTCGCCTTGCAAAAGAATTCCCGAATCTATTCCTGATCAAGGAAGCTTCACCTAATATTTTACAGTATTTTGATATTCTGAGAAAGAAACCTGAAGGATTTTCTCTGGTTTCCGGAGATGATGAATATACATTACCGGTAACCCTTGCAGGAGGAGATGGGGTAATTTCCGTAATCGGGCAGGCATATCCAAAAGAGTTTTCCACTATGGTAAAGCTGGCTTTTGAAGGCAAAGTAAACGAAGCTTATGAAATTCACAATAAGCTGGTAGATATTACCCGTCTTATTTTTGCTGAAGGGAATCCTTGCGGAATTAAAGTAATTCTGGCTGAAAAAGGAATCATCAAAAATTTCTTGAGGCTGCCTTTAGTAAAAGCTTCCGAAGGACTTCATGCTAAAATCAAGGCTGAAATGGCAAACGTTTAA	MSILKGVGVALVTPFNEDLSVDFDSLTRLVEYNIENGTNYLVVLGTTAEAATLSAEEKKQVIEHIIKVNNKRLPLVLGIGGNDTLDVKKQIEQADLSAFEAVLSVSPYYNKPNQEGLYQHYKVLASTGKNIIIYNVPSRTGQNVEADTTLRLAKEFPNLFLIKEASPNILQYFDILRKKPEGFSLVSGDDEYTLPVTLAGGDGVISVIGQAYPKEFSTMVKLAFEGKVNEAYEIHNKLVDITRLIFAEGNPCGIKVILAEKGIIKNFLRLPLVKASEGLHAKIKAEMANV	PGPT0002080_8837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS003_02276	759			hypothetical protein	ATGAAAAATAAATTCTTATTAATAGGAATTGCCCTGATGTCCCTTACAGCATGCAAAACGGCTACTGTGCCGCAACTAATGACTGTAAAGACCCAGAAAAATATCTCTATTAATAATGAGCTAAAAAATGATGAGGAGTTTGTAAAATTTATTGAACCTTATAAGCAGAAACTGGACAAAGAAATGAACCAGAAGATCTCGCATACCAATGTGGATCTTACCAAGCAGGGCGATAACAGCAATCTGGGAAATCTTTTAGCTGACTATACATTTGAAGGAGGTAATGAATGGATCAAGGCTCATCTTAAGCAAAACGTAGACGCTGCACTTATCAATATCGGAGGAATCCGTACTACAATAGGAAAAGGAGATATTTTACTTAAAAATATTTTTGAAGTAATGCCTTTTGAAAATGAGGTTGTAATTGTAAAAATGAAAGGAGCAGATCTGCAGGAGCTTTTTGAATATTATGCAAAAACGCAGGTTAATAATCCTGTTTCTCATTTATACATTGAAACAAAAAACGGGCAGGTCACCAAATCTTTAATCAACGGAAAAGAAGCAGATCCGGCTCAAGATTATTATATTGCCACGTCAGACTATCTTGCGCTGGGCGGAGACAATATGAAATTCTTTGCCAAGGGAGAATCTATTGCAACAGGGATTAAAATGAGAGATTTATTTATTGATTATTTTAAGAAAAACCCTGAAGTTGCAGTCAGTTCTGATGTTCGTTTAAATTTTATCGGGAAGAAATAA	MKNKFLLIGIALMSLTACKTATVPQLMTVKTQKNISINNELKNDEEFVKFIEPYKQKLDKEMNQKISHTNVDLTKQGDNSNLGNLLADYTFEGGNEWIKAHLKQNVDAALINIGGIRTTIGKGDILLKNIFEVMPFENEVVIVKMKGADLQELFEYYAKTQVNNPVSHLYIETKNGQVTKSLINGKEADPAQDYYIATSDYLALGGDNMKFFAKGESIATGIKMRDLFIDYFKKNPEVAVSSDVRLNFIGKK	PGPT0013400_1748	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
BMS003_02277	951	yfkN	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	ATGGATAGAAAAAGTTTTTTAAAAGCAATGGGTGGCGGATCTTTAGCAATGGCTTTAGCTCCCAATATGATGATGGCAGAAGAATTACAGATTCTCAACTTAAAATCCGCCAATAAACTGACTATCCTTCATACCAATGATCAGCACAGCAGAATAGAACCTTTTGACGCAAGCTATACCAAAAATCCTAATCAGGGAGGTTTTGCCAGAAGAGCCAGCTTAATTCAACAAATCAGAAATCAGGAAAGCAATGTACTGCTTCTTGATTCAGGAGATATTTTTCAGGGAACTCCTTATTTCAATTTCTTTGGAGGAGAACTGGAATTCAAATTAATGTCCATGATGAAATATGATGCTTCTACCATGGGAAATCATGATTTTGACAATGGTCTTGACGGATTTTTAAAAGTACTTCCTAATGCGAAGTTCCCTTTTATCTGTTCCAATTATGATTTTAAAAACACAGTTCTTGACGGGAAAACTTCTCCATACAAGATCTTCAACAAGAACGGAATTAAAGTAGGAATTTTCGGAGTGGGAATTCAGCTGGATGGTCTTGTTGGTAAAAAACAGTATGGAGAAACCGTTTACTCAAATCCGATTGATGTAGCACAACATTATTCGAACTTCCTGAAAAAAGATCAGAAATGTGATCTTGTGATTTGTCTTTCCCACATCGGCTACGATTATAAAGACGAACCGGAAAAACTAAGTGATAAAATTTTAGCGGCCAATACGGAAAACATAGATATTATCTTAGGTGGCCATACTCATACATTCTTACCGGAACCTCAATCTTATACCAACAGGCAGGGCAAAAGTGTACTTGTAAATCAGGTTGGATGGGCAGGACTTCTTTTAGGTAGAATAGATTTTTATTTTGATATAAACAAAAACGTACAGCATATTTCCTGGAACAATCAGGCAATAAACAGCAGCATAACCGCATAA	MDRKSFLKAMGGGSLAMALAPNMMMAEELQILNLKSANKLTILHTNDQHSRIEPFDASYTKNPNQGGFARRASLIQQIRNQESNVLLLDSGDIFQGTPYFNFFGGELEFKLMSMMKYDASTMGNHDFDNGLDGFLKVLPNAKFPFICSNYDFKNTVLDGKTSPYKIFNKNGIKVGIFGVGIQLDGLVGKKQYGETVYSNPIDVAQHYSNFLKKDQKCDLVICLSHIGYDYKDEPEKLSDKILAANTENIDIILGGHTHTFLPEPQSYTNRQGKSVLVNQVGWAGLLLGRIDFYFDINKNVQHISWNNQAINSSITA	PGPT0013395_2595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081	NA	NA
BMS003_02278	2256			hypothetical protein	ATGAAAAAACTCTCTCTAATTTCTCTTGGTATTTTAGCATCTCTGCAATTTACAAAAGCTCAGGTCATTTCATCAAAAAAATGGGCAGATCTGTTTTCCTATAACAATGTCTTCGCAATGAAAGAAGACAATGGAAAAATTATTGCAGCCACAGAAAACGGAATATTCTATTATACAATCGCAACAGGAGAAATTACGAAGTTGTCCAAAGTTAATGGTCTGCATAATATAGGAATTACAGCATTCGATTATAATCCACAGACAAAAACCGGACTTATTGGTTATCAGGATGGCTCTATGGATGTCATCACCCCGCAAGAAATCAAATATATTGTTGATATTCCTATTGCCACAGGATATAACGGAAATAAAAAGATCAACCATATATCCATCACAGGAAATCAGGCCGTAATTTCAGTAGGTTACGGACTGTCCATATTTAATCTTGAAAATAAGGAGTTCGGTGACTCTGCATTTTTCCTTACCGGCGGAGTGTATCAGGCCAGTAATGAAGCTGCCATATTTGGAAACAAAGTATATTCTGTAACCGATACAGGCTTAAAAAGCCACCAGATGAATACTACTTTCCCTGTATATTCCACATGGACAACGGAAATTCCCGGATCTTTTAAACATATAGATTCGGAATCTGAACTGGCCTTTTCAAGCGCTACTGCTGCTTATATTTATAACAATGGTACCCCAATCCAACTGCCTACCACTTTTGAGAATATCCGTGATGTTGTTATTACATCCAATACTATAACTGTAACAGACAACAGGGTCTATACTTACGGAACAAACGGAGTGTCTCAGAACGCTGTAAGCCTTGGTGAAGAATGTAATACTGCACTCACAGCTGGCGGGAAAATTTTGGGAGGAACAGTACTTTCTGGTATAAAAGATGAAAGTAATAATACTTATAAACCTTCAGGACCTTATCTGAATATAGCCTATAACATCAATCTGTTTGATAATAATCAAATGCTTGTCTCTACAGGAGCGAGAACAAATAATTATAATCAGCCTTCCATAGATCCTAAGAAACCTGGATTCTATTACTTCAATGGTACAGAATGGATATATCCTTCATTCTTCATTAACAACCCACGCTTCATCAATGTTATGGATACTATAATAAGTCCTTTTAGTAATAATGAAGTATTTTTTACTAATTATACAATGTTTGATAACGGGGTTTACAGGATGAAATACGATGCTACAAGCAAAGACTTTGAGCTGGTAAAATATTATGATCTGGGGGCACAGCCCTATTACAGACGTCCTGTAGGATTTGCTACTGATAACCAGAGCAACCTGTTTGTTTCTTTTGGATTTAATGACGGAACTCCTTCTATGGGAATCTATGATAAAGCAGCTGACGATTTTGTTATCAAAAAAATTATTCTTGCCAGTGATGGTATTCAGAAGACCGTTTTTCATGAAAATATGCTTTGGACTCCATTACCAAGATCTAATAACTTCTGGGTATACGATTATAAAAATGCAACCAATCTTTCTGATGATACAGATTACATCCTTAATGAAAGCAATGGACTTCCGGGAAGCTCAACAGGAGCTTTATCTGTAGCTTTTGACAAATCTGGTGATGCATGGATTGGTACAAACAGTGGTTTAAGAATACTTCCCAATGCTTCCTCTGAAATCAAAGATTCTCACCCTACCATGGAACCTGTGGTAATAGAGCAAAACGGTCTGGGCGAAGAACTTTTCAGGGAATCTGCAATTCTCCAGATTGCCGTTGACGGAGGAGATTACAAATGGGTTTCTGTTGACGGAGGAGGTGTATATTATCTGTCTTCTGACGGGCAGAAAACGATTAAACATTTCACCAAAGAAAATTCACCGCTTCCTACAAACAGTGTTACTGATATAAAAGTTGATAAGAAAACAGGTAAGGTATATTTTGTAACGTATAATGGTATTGTAACATATCAGAGTGATGTTACGGATGTAACATCCAATTTCGGAGATGTAATGGTTTATCCTAATCCGGTTGTTTATTCTAATTTTAAAGGAAAAGTAACCATCAAAGGACTTGCTGAAAAGACCAATATCAGAATCGTAGATGCTGCAGGAAATGTAGTTCACTCTGCAGTAGCACGAGGTGGTTATTACGAGTGGGATCTTAATAATCAGAAAGGAACAAGAGTAGCATCAGGAATTTATTTTGTCCTGATGACCAATGAAGACGGTTCTGACAAAGCTACCGCCAAAATAGGAGTGGTTAATTAA	MKKLSLISLGILASLQFTKAQVISSKKWADLFSYNNVFAMKEDNGKIIAATENGIFYYTIATGEITKLSKVNGLHNIGITAFDYNPQTKTGLIGYQDGSMDVITPQEIKYIVDIPIATGYNGNKKINHISITGNQAVISVGYGLSIFNLENKEFGDSAFFLTGGVYQASNEAAIFGNKVYSVTDTGLKSHQMNTTFPVYSTWTTEIPGSFKHIDSESELAFSSATAAYIYNNGTPIQLPTTFENIRDVVITSNTITVTDNRVYTYGTNGVSQNAVSLGEECNTALTAGGKILGGTVLSGIKDESNNTYKPSGPYLNIAYNINLFDNNQMLVSTGARTNNYNQPSIDPKKPGFYYFNGTEWIYPSFFINNPRFINVMDTIISPFSNNEVFFTNYTMFDNGVYRMKYDATSKDFELVKYYDLGAQPYYRRPVGFATDNQSNLFVSFGFNDGTPSMGIYDKAADDFVIKKIILASDGIQKTVFHENMLWTPLPRSNNFWVYDYKNATNLSDDTDYILNESNGLPGSSTGALSVAFDKSGDAWIGTNSGLRILPNASSEIKDSHPTMEPVVIEQNGLGEELFRESAILQIAVDGGDYKWVSVDGGGVYYLSSDGQKTIKHFTKENSPLPTNSVTDIKVDKKTGKVYFVTYNGIVTYQSDVTDVTSNFGDVMVYPNPVVYSNFKGKVTIKGLAEKTNIRIVDAAGNVVHSAVARGGYYEWDLNNQKGTRVASGIYFVLMTNEDGSDKATAKIGVVN				NA	NA	NA	NA	NA
BMS003_02279	687	recO		DNA repair protein RecO	ATGAATTCACAAAACGGTTTTTTACTTTCATTTATCAAATATGGGGAAAATGATGCGGTATTGCATTGTTTTACAGAAGAAGAGGGTTTTCAAAGCTATTTTCTGAAAGGAATCTATGCTAAAAAGAATAAAAAGAAAGCCCTGCTGCAGCCGTTGAGCCAGCTTAATTTTTCTGTAAATCCGTCACGGGGTAATGGCATACCATCTGTTTCAAAATTTGAACTGGTAAAAAATAACGATATTTATACAGATATAAAGGTCAATACTGTTATTTTCTTTATCTCGGATTTTCTGAGCCATATTCTTAAGCATGAGAATAAAAATATTCCGATCTATTCCGGTATTGATCATCTTATCAGTGAGCTTACCAACAGAAATTATCAGGCTCACCTCCTGTTTTTGCTGGCTTTTTTAAAAATTCAGGGTGTTGCTCCATTGCTGAGTGAAGGGACATTTTTAGATCCGGAAACCGGAACTTTTTCCCAGAGAATAAGTCACCAGCTTTTTAATGAAGAAATCTCCATGCTGTGGAAAGAAGCCCTTTGTGCAGAAGATTTTTATGCCACAAAAATACATTCTTCCTTAAGAAAGGATTTTCTGGACAGCCTTTTGGTATACTATCATTATCACATCACTGATTTTAAAACTCCAACATCTCTGGAAATCATACAGCAGATATTCGAGTAA	MNSQNGFLLSFIKYGENDAVLHCFTEEEGFQSYFLKGIYAKKNKKKALLQPLSQLNFSVNPSRGNGIPSVSKFELVKNNDIYTDIKVNTVIFFISDFLSHILKHENKNIPIYSGIDHLISELTNRNYQAHLLFLLAFLKIQGVAPLLSEGTFLDPETGTFSQRISHQLFNEEISMLWKEALCAEDFYATKIHSSLRKDFLDSLLVYYHYHITDFKTPTSLEIIQQIFE				NA	NA	NA	NA	NA
BMS003_02280	2670			hypothetical protein	ATGTCGGAAAAGCAGAGAATTTCGGATGTCTCATGGAAAAAATGGGGATCTTATGTAAGTAACCGGGAATGGGGACTTGTCCGTGAAGACTACAGTGAAAACGGAGATGCTTGGAATTATACCAGTCATGACACTGCAGAAGCCAAAACCTACCGTTGGGGTGAGGAAGGAATCTGCGGTATCTGTGATGATCTTCAAAAGCTGGTGTTCTCTGTAGGATTCTGGAATAAGAAAGATAAGATGATAAAAGAACGCTTTTTTGGACTTACCAATGGGGAAGGGAATCATGGAGAAGATGTAAAGGAATATTTCTACTATCTGGACTCTACTCCTACACATTCCTATATGAAAATGCTGTATAAATATCCTCAGAACGCTTTTCCCTACGAAGACCTCATAAAAACCAATGCTTCAAGAGAGAAAAATGAAACGGAATATGAGCTGATTGATACAGGAATCTTTGATGATAATGAATATTTTGACATTTTTATCGAATATGCAAAAGAAAGCCAGAATGATATCTTGGTCAGACTAACAATAATCAATAAATCAGAAAAAGAAGCGCCCCTTTTACTATTGCCTGCCGTTTGGTTCAGAAATACCTGGAACTGGGGATATGATAACTACAAACCACAGCTGTATGCTGAAAATTCTGATCATATAAATGTTCGTCATCAGGATATTGAGATTAAAAATATATACGCAAAACAATCCTTAAAGACACTGTTTTGTGATAACGAAACCAATAATGAAAGGCTCTACCAGTCTTCCAATGAGTCCAGATACTGCAAAGACGGGATCAATAATTTTGTGATGACGGGAAATTCACAGTCTGTAAATCCCCGGAATACCGGAACTAAAGCTTCTTTTTTTATTGATGAAGATTTTTTGGCCGGAGAATCTAAAATATTTGAATTCAGACTTTCAGACAAGGACTTAAGAGAACCATTTAAAGACTTCGACTCTCTTTTTGAACAAAGACAGAAAGAAGCAGACGAGTTTTATGCGGAAATACAGAAAGGAATTTCTTCTGAAGATGAAAAACTAGTACAAAGACAGGCTTTTGCCGGGATGCTGTGGAACAAAATGTTCTATCATTACAATGTAGAAAAATGGCTGAAAGGAGACCCTTCCGAAATGCCTCCTCCAAAATCCCGTGAAAAAATCAGAAACTACGACTGGAAGCATCTCAATAACGAGCATGTCATTTCCATGCCGGATAAATGGGAATATCCCTGGTATGCAACCTGGGATCTCGCATTTCATGCCATCAGCTTTTCACTGATAGATCCGGATTTTGCAAAACATCAGTTAAAGCTTTTTCTATTTGAATGGTATATGCATCCTAACGGGCAGCTTCCTGCTTACGAATGGAATTTGAGTGATGTGAATCCTCCGGTACATGCATGGGCGGTTTTCAGAGTATTTAAAATTGATGAATATTTAAAAAATAAACCTGATCTGGAATTTCTTGAAAGTGCTTTCCAGAAGTTATTGATGAACTTTACCTGGTGGGTTAACAAAAAAGACCTGAATGGGAATAATATTTTTGAAGGAGGTTTTTTGGGACTTGATAATATTGGTGTTTTTGACCGGAATTCTGTTTTACCGAACGGTGAACAGCTGGAGCAGTCGGACGGGACGAGCTGGATGGCTATGTTTGCCCTGAATATGATGAGAATAGCCCTGGAACTGGCTCTTTACAATAAGGTGTATGAAGAGATGGCAATCAAATTTTTTGAACACTTTTTGGCTATTGCCCATTCGCTTGATAATATGGGGGATGAAAATTTTAGCCTTTGGAACGAGCAGGATGAATTTTTCTATGATGCAATAGCTTCCAGTGACGGAACACATATGTATCTGAAGTTAAGAACAATTGTAGGATTGATTCCGATGTTTGCCGTTGAGGTAATAGATGATGAAATGATTGAAAATCTTCCCGATTTCAAAAAAAGAATGAAATGGGTGCTGGATAATAAGCCTGAGCTCGCTTCCCTGGTTTCCAGATGGGAAGTTAAAGGTCAGGACTCCAAACACCTTTTGTCATTACTTCGGGGGCATCGCCTGAAAAGACTCTTAAGCAGAATGCTGAATCCAAATGAGTTTCTAAGCGATTATGGAGTAAGAGCCTTGTCAAAAGAATATGAAAATGATCCTTATACTTTAACCCTGAATGATACTAATTACAGTGTAAAATATACTCCTGCAGAAAGTGATAGCGGACTTTTCGGCGGAAACAGCAACTGGCGCGGTCCGGTATGGTTTCCTGTTAATTTCCTGATTATTGATAGTCTGCAGCGATTTTTCTTCTATTATAGCCCGGATTTTTTAGTGGAATATCCTACGGGAAGCGGAAGCTATTCAAACCTGGATCAGATTGCAGATGCTCTAAACAAAAGACTGGCTAAGATATTTCTAAAAGATGATAACGGAAAAAGACCGGTTCACGGGCAGTACGAAAGATTTCAGACCGATCCGGATTTTAAAGATTATGTCCTTTTCTATGAATATTTTCACGGAGATAACGGGCGTGGAGTAGGAGCTTCGCATCAAACAGGATGGACCGGACTTATTGCCAAGATTTTACAGCCAAGATTTTCCAAAAAAGAAACTGCAGAGGCTGAAACTGAAGTGCCGGAGGATGTTGAAAGAGCAAAAGGGAAATAA	MSEKQRISDVSWKKWGSYVSNREWGLVREDYSENGDAWNYTSHDTAEAKTYRWGEEGICGICDDLQKLVFSVGFWNKKDKMIKERFFGLTNGEGNHGEDVKEYFYYLDSTPTHSYMKMLYKYPQNAFPYEDLIKTNASREKNETEYELIDTGIFDDNEYFDIFIEYAKESQNDILVRLTIINKSEKEAPLLLLPAVWFRNTWNWGYDNYKPQLYAENSDHINVRHQDIEIKNIYAKQSLKTLFCDNETNNERLYQSSNESRYCKDGINNFVMTGNSQSVNPRNTGTKASFFIDEDFLAGESKIFEFRLSDKDLREPFKDFDSLFEQRQKEADEFYAEIQKGISSEDEKLVQRQAFAGMLWNKMFYHYNVEKWLKGDPSEMPPPKSREKIRNYDWKHLNNEHVISMPDKWEYPWYATWDLAFHAISFSLIDPDFAKHQLKLFLFEWYMHPNGQLPAYEWNLSDVNPPVHAWAVFRVFKIDEYLKNKPDLEFLESAFQKLLMNFTWWVNKKDLNGNNIFEGGFLGLDNIGVFDRNSVLPNGEQLEQSDGTSWMAMFALNMMRIALELALYNKVYEEMAIKFFEHFLAIAHSLDNMGDENFSLWNEQDEFFYDAIASSDGTHMYLKLRTIVGLIPMFAVEVIDDEMIENLPDFKKRMKWVLDNKPELASLVSRWEVKGQDSKHLLSLLRGHRLKRLLSRMLNPNEFLSDYGVRALSKEYENDPYTLTLNDTNYSVKYTPAESDSGLFGGNSNWRGPVWFPVNFLIIDSLQRFFFYYSPDFLVEYPTGSGSYSNLDQIADALNKRLAKIFLKDDNGKRPVHGQYERFQTDPDFKDYVLFYEYFHGDNGRGVGASHQTGWTGLIAKILQPRFSKKETAEAETEVPEDVERAKGK				NA	NA	NA	NA	NA
BMS003_02281	810	gdhIV	COG1028	Glucose 1-dehydrogenase 4	ATGGAAATATCACTTAAGAATCAGGTCGCAATAGTCACAGGAGCCTCCAGCGGAATCGGTTCCGGAATTGCAAAATCATTAGCTGCAGCAGGAGCCACAGTTATTGTCAACCATTCTTCGGAAAGATCTGCAGAAGATGCAAAAGCTGTTTTAAAAGAAATAACGGATGCCGGAGGAAAAGGAAAGACCTTTCAGTGTGATGTCTCCAAAGAAGATCAGGTAGTCAGGATGTTTCAGGATGTAGTGGCTGAATATCAGACCGTAGATATTCTGATCAATAATGCCGGAATTCAGAAAGATGCAAAATTCACAGAAATGACTTTTGATCAATGGAATGCTGTCATAAATGTGAATCTTACAGGACAGTTTCTATGCGCAAGAGAAGCCATTAAAGAATTTTTGCGACGTGGAATAGACCCTTCCCGTTCCATTGCCTGTGGGAAGATTATCCATATCAGTTCAGTACATGAAATTATTCCTTGGGCCGGGCATGCTAATTATGCTTCCAGCAAAGGAGCGGTCAGAATGTTGATGCAAACTCTTGCCCAGGAATATGGTGCAGACAAAATCCGTGTTAACTCAATTTGTCCGGGAGCAATACAGACTCCTATTAATCAAAATGCATGGAACACTCCGGAAGCTCTCAGTTCCCTTCTTACCCTTATTCCTTATAACAGAATCGGACAGCCACAGGATATCGGAAATTTAGCAGCGTTTCTTGTGAGTGATCTTGCAGATTATATTACAGGAACCAGCATTTTCGTGGATGGTGGAATGACTACGTTTGAGAGTTTTTCTACGGGAGGATAA	MEISLKNQVAIVTGASSGIGSGIAKSLAAAGATVIVNHSSERSAEDAKAVLKEITDAGGKGKTFQCDVSKEDQVVRMFQDVVAEYQTVDILINNAGIQKDAKFTEMTFDQWNAVINVNLTGQFLCAREAIKEFLRRGIDPSRSIACGKIIHISSVHEIIPWAGHANYASSKGAVRMLMQTLAQEYGADKIRVNSICPGAIQTPINQNAWNTPEALSSLLTLIPYNRIGQPQDIGNLAAFLVSDLADYITGTSIFVDGGMTTFESFSTGG	PGPT0014705_174	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
BMS003_02282	501			hypothetical protein	ATGAAGATATTTACCACCACTAATACCATGATACATTTAGAACTTTTTAAACAGGAAGATCTCCCCGGGGTAAGCTATGCCCTGGATGAAAATCAGATGCGCTTTACAGCAACCGCCCGGCAGGCTTTACAGAGTATCAGCGAACGGGATGATGAAGATGCATTTCCGGTAACGATATTTGAAAATGATATACCTGTCGGATTTTTTGTGCTTGATTTTGGAAAAGATAAACTTGATCTTACGGATAATGAAAACTCAGCTTTACTACGTTCTCTATCTGTAAATCCTCAGATGCAGGGCAAAGGAATCGGGAAAGCTGCTATGCTGGAGGTGGGTAATTTTGTAAGAAACCACTTTAAAACCTGTAATGAGATTGTACTTGCAGTCAACCAGAAAAATGACTCTGCTTACCATATTTATCTTCAGGCAGGATACATTTACGATGGCAAAACCAGAATCGGAAGAAGCGGTCCTCAATATCTGATGTACCAAAAACTTTAA	MKIFTTTNTMIHLELFKQEDLPGVSYALDENQMRFTATARQALQSISERDDEDAFPVTIFENDIPVGFFVLDFGKDKLDLTDNENSALLRSLSVNPQMQGKGIGKAAMLEVGNFVRNHFKTCNEIVLAVNQKNDSAYHIYLQAGYIYDGKTRIGRSGPQYLMYQKL				NA	NA	NA	NA	NA
BMS003_02283	618			hypothetical protein	ATGAAACAATATATAATACTTTTTCTACTGCTTCCGTTATGTGTTTTTTCTCAAAAAAAGTTGTCGAAGGAAGAGAAGGAAGTACGGAAATTTCAGAAAGAGCTTAATGCAGAATATCTTAACCCAAAAGAGACCCCGTTAAGAGGGGATAATTTTATCCGCTTTAAAGGTCATCCTTTCTTTCCTTTTGATGCGAAATACAGAGTTACCGCAAAGTTTGTGAAATCAAAAGATACCCAGCCTTTCGAACTTCCTACTTCTTCAGGAAAAACAAAAACGTATCAGGAATACGGAAAAGTAACTTTTACATTGGACGGTAAGCCTTATACGGTAACATTGTACCAAAGTCTAGACTTAATCAAACAGGAAAAATATAAAGACTATCTTTTCCTTCCGTTCCGTGATGCCACCAATGAAAAAGAAACCTACGGAGGAGGGAAATATATGGATCTTAAAATCCCGAAAGGAAATACCATTGTGCTTGATTTCAATCAATCCTATCATCCTTTCTGTGCTTATAACGCTTACGATTACAATTGCCCTGTGGTTCCTGAGGAAAATAAACTTCCTGTAGAAATCCGAGCCGGGGTAATGTATGAAGATATTTACCACCACTAA	MKQYIILFLLLPLCVFSQKKLSKEEKEVRKFQKELNAEYLNPKETPLRGDNFIRFKGHPFFPFDAKYRVTAKFVKSKDTQPFELPTSSGKTKTYQEYGKVTFTLDGKPYTVTLYQSLDLIKQEKYKDYLFLPFRDATNEKETYGGGKYMDLKIPKGNTIVLDFNQSYHPFCAYNAYDYNCPVVPEENKLPVEIRAGVMYEDIYHH				NA	NA	NA	NA	NA
BMS003_02284	402			hypothetical protein	GTGGAAGAAGTAATTGTAAAACCAGTTATTGCAAAGGAAATCCTGGAATCTCTTCAGGCAAAAACAGAAGAGGAGAAGCAGGTTATTGTACACTGTTGTTTTCCGGCATCACCGTTTTTGGGAAACCTGATCAGGATCTGGCATTCGACCTATCTTTTTGATAATCAGTCTGAGCACAGAAGTAAGCTGATTCATGCGGAAAATATTTCAATTTCCCCATATTGGACACCGGTTCCCTTTATGAAAGATTTTTGGTTTACCCTGATATTTTCCGGACTTCCCAAAGATTGTAAAAGCTTTGATTTGAAAGAAGTAATTCCTGAAGAAGGAGGCTTTTTTGTAGAATCAATTAAAAGAAATTCCTCTGATGTGTATCGCGTGAAAATATCAGAATCGTATTAA	MEEVIVKPVIAKEILESLQAKTEEEKQVIVHCCFPASPFLGNLIRIWHSTYLFDNQSEHRSKLIHAENISISPYWTPVPFMKDFWFTLIFSGLPKDCKSFDLKEVIPEEGGFFVESIKRNSSDVYRVKISESY				NA	NA	NA	NA	NA
BMS003_02285	1506	mqo1		putative malate:quinone oxidoreductase 1	ATGTCACAATCGCTTACAAGCAGAACACCGAAACCTAAATATGACGTTGTACTGATAGGCGGCGGAATCATGAGCGCCACTTTAGCAACGCTGCTTCATGAATTTGATCCAAATCTTGAAATCGCTATCTTCGAAAGGCTCGGAAGGTTTGCCAAAGAAAGCACAGCTGCATGGAACAACGCCGGAACAGGACACTCCGCTTTTTGTGAGCTAAACTATACCCCAGAAAAACCGGATGGGTCTATTGACATCACTAAGGCTGAAAGCATTGCAGAGCAGTTTGAAATTTCAAAACAATTCTGGGCTTATCTGATTACTAAAGGATATATTCATAAACCAAAAGAATTTATCAATTCCTGTGCGCATATGAGTCTGGTATTCGGAGAGAAAGATGCTGAATATCTAAAAAAACGTCACGATAAAATGGCAGGATCTGCCCTTTTCTCAGGAATGGAATTTTCTACAGATCATGAAAAACTGAGAGAATGGATTCCGTTGGTGATGAGTAAAAGAAATAAGTCTGAAGTAATGGCTGCCACGAAGATGGATATGGGTACGGATGTAAACTTCGGAACATTAACAAGGAAAATGGGAAGACATCTTCTGGAAGATTCTAATGTGGAAGTGTTCTTATACCACGAAGTGAAAGATATCAGCCCCAGAGAAAGCGGGAAATGGGAAATGAAAGTGAAAGATAGAATCCATAGCCACAAACAGGAAGTGGTGGCAGATTTTGTATTTATCGGAGCAGGAGGATATGCACTTCCGCTATTGGATAGTTCGGATATTAAAGAAAGTGAAGGATATGGAGGTTTCCCTGTTTCCGGACAGTGGCTGGTAAGCCACAATCAGGAGCTGGTAGAAAAACACCATGCTAAAGTATATACACAGGCTACCGTGGACGCTCCGCCAATGTCTGTTCCACATCTTGACCTCAGGATCATAGATGGGAAAAAAGCCCTTCTGTTTGGTCCTTTTGCAGGATTCTCAACCAAATTTTTAAGAGAAGGAAGTTATCTCGATCTTCCGGAGAGTGTAAATACCAAGAACTTAAAGTCACTTTTCGGAGCATGGTGGCATAATATTCCATTAACGAAATATCTGATCCAGCAGGTTGCCATGACGAAATCCCAGAGAATGCAACATTTAAGAGAATTTATCAAAGATGCTAAAGAAGAAGATTGGGAACTGAAAGTAGCAGGACAGAGAGTCCAGATTATCAAAAAAGATGAAAAAGAAGGAGGTAAGCTGGAATTCGGAACGGAAGTAGTGGTAAACAAGAGCGGAACAATTGCTTCTCTGTTGGGCGCCTCACCCGGCGCATCTACTGCAGTATATGCTATGCTGAATGTGCTGGAAAAGTGTTTCCCGGAAAAACTACATGGAGAATGGAAAGGAAAACTGCTTGAAATGGTTCCTTCCTACGGACAAAAACTGGCTGAAAATCCGGAACTGACCCATGAAATGAGAAATTATACCAAAGAAAAATTAGAATTAGAATATTAA	MSQSLTSRTPKPKYDVVLIGGGIMSATLATLLHEFDPNLEIAIFERLGRFAKESTAAWNNAGTGHSAFCELNYTPEKPDGSIDITKAESIAEQFEISKQFWAYLITKGYIHKPKEFINSCAHMSLVFGEKDAEYLKKRHDKMAGSALFSGMEFSTDHEKLREWIPLVMSKRNKSEVMAATKMDMGTDVNFGTLTRKMGRHLLEDSNVEVFLYHEVKDISPRESGKWEMKVKDRIHSHKQEVVADFVFIGAGGYALPLLDSSDIKESEGYGGFPVSGQWLVSHNQELVEKHHAKVYTQATVDAPPMSVPHLDLRIIDGKKALLFGPFAGFSTKFLREGSYLDLPESVNTKNLKSLFGAWWHNIPLTKYLIQQVAMTKSQRMQHLREFIKDAKEEDWELKVAGQRVQIIKKDEKEGGKLEFGTEVVVNKSGTIASLLGASPGASTAVYAMLNVLEKCFPEKLHGEWKGKLLEMVPSYGQKLAENPELTHEMRNYTKEKLELEY	PGPT0001440_996	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
BMS003_02286	1104			hypothetical protein	ATGAAAATTATTAGCTTCTTGGGCATATTGTTTGCGATTCCAACATTTGCCCAAAGCGGAAGTGTTGGAATCAACACGTCCACACCAGACCCCAGTGCAATTCTGCACATTGAGAACTTCAAGGGTACTCCAGCTACAGTGACTGCTACTATTTCAGGCGGGGCAGTCACCGGTATTACCATCAATAATGGAGGAAGCGGATATACTTCGGTACCTACCATTAATTTTTATGGCGGAGGACCCATTGTAAACGGAGGCACAAAAGCCCGTGCTACAGCAACTGTTACAGGAGGAGTCGTTACCGGCATCACGATTAACAGTGGAGGAAACGGATATACATCCGTACCTACAGTAACAGTTTCAGGAGGGAATAAAGGAATGTTGTTTCCTAATCTGGACCTTGCCAACCTGAACAGCACTACCACCCCGGTAGCATCCCCTGCCAATGGGCTTATTGGCTTTAATGGAGGGACTAACACCAACCGTAAAACACTGCATGTTTTCAATAGTACAACCAACTCATGGCAAAGTACAATTGATGCTAAGGATACTCCAAAAATTGCCTATATTGATTTTACAGGCTCATTGTCTGCACTGGACAATGCAGTGGCAGGTGCCAGTACTCCACTCATAGTAAATAATCCTGCTGTTTCCGGAGTATCGAACATCAGTGGATTTAAAGTTCTTCCGAATGCTTCTTCCGGATATTCTTTGATTCTACCGCAGGGAAATTATCTGGTAGAAGTTAACCTGAATTTAAACTCTCCCCAGGAAAGCCCGGCAGGTGTAAATGGTACTGCCCCACTATCAGGGAGCACTTATTATCTTATGGGATATTTTATAGATTTCTATCCGGATACCTATAATAATACAACAAATACTTTTACTGCAGTATCTGTTTCCAGAAAAGAAGTTCCGATTGTTTCAAAAGTGAATACCAACCACCTGGCTACATGGTCTTTCTATTATAACGTTCCTGCTAATGCTAATGCCAATATTATCGGTGGACTAAGAATGAGTCTGGGAAGAATGCAAAACAGTACATTTTACGATCTTGTAAATGTAATCCCTGCCGGATCTTATATTAAAATATCTCAGCTTTAA	MKIISFLGILFAIPTFAQSGSVGINTSTPDPSAILHIENFKGTPATVTATISGGAVTGITINNGGSGYTSVPTINFYGGGPIVNGGTKARATATVTGGVVTGITINSGGNGYTSVPTVTVSGGNKGMLFPNLDLANLNSTTTPVASPANGLIGFNGGTNTNRKTLHVFNSTTNSWQSTIDAKDTPKIAYIDFTGSLSALDNAVAGASTPLIVNNPAVSGVSNISGFKVLPNASSGYSLILPQGNYLVEVNLNLNSPQESPAGVNGTAPLSGSTYYLMGYFIDFYPDTYNNTTNTFTAVSVSRKEVPIVSKVNTNHLATWSFYYNVPANANANIIGGLRMSLGRMQNSTFYDLVNVIPAGSYIKISQL				NA	NA	NA	NA	NA
BMS003_02287	822			hypothetical protein	ATGAAAAAATGTTATATCCTGCTATTATTGATCTTAACACAGACTATATGTGCACAGGTTGCGATGGGCAAATCCACGGTAAGCAGTTCAGCTGTTCTGGATGTGGCATCTGCAACCAATAAGGGAGTTCTTCTTCCAAGAGTAGATATTATTGATATACTGAACAATACGTCTCCAATAAACAATCCGGCAGAAGGCCTTCTTGTGTACAACAAAGGAAATTCCATCAGCCCGGGTATTTACATCTGGAAAAATAACATGTGGAACCTGCTATCTGATACTTATAACCTTGTAAGCTATATGATGCTTCAGCGAACCACTGATTATTCTGTTTTGGGCGGTCTAGCCAACGGTACTTATAAAAATTTCAATGATGCAGCTTTTACTGTACTCTCGAATGATATCGGTGCTTTATACAATACCTCTAATGGAGTGATTACTCTTCCAGGAAACAGTGGTTATCTGGTAAACGTATGTCTGAATATCAGAACGGCTATTGAAAGTTCAACGGCCGGAATCGGAGGGACTCAGGTTCACCTGCATCAGTATCTGGTAAAGCTTGTAGATCCTGTGAGTGGAACTCAGTATGGCAAAACAATCAGCATCAATGCTCAGTCTATTGCCAGCAATAAAACACACACCCTGAATATGAGCTTTTCTTTTGTAACTACTTCAGCTTCACCCATTCTTTTATTACCTGCCATTGCTCACGACAATGGGGGAACTTATCAGAACGGAGCCGGAGGAACTTCTCCTAATAACGGAGAGATCATTATTACCAATGCGAAAGTTGATATCCAAAGATCAGCCCTTAACCAATAA	MKKCYILLLLILTQTICAQVAMGKSTVSSSAVLDVASATNKGVLLPRVDIIDILNNTSPINNPAEGLLVYNKGNSISPGIYIWKNNMWNLLSDTYNLVSYMMLQRTTDYSVLGGLANGTYKNFNDAAFTVLSNDIGALYNTSNGVITLPGNSGYLVNVCLNIRTAIESSTAGIGGTQVHLHQYLVKLVDPVSGTQYGKTISINAQSIASNKTHTLNMSFSFVTTSASPILLLPAIAHDNGGTYQNGAGGTSPNNGEIIITNAKVDIQRSALNQ				NA	NA	NA	NA	NA
BMS003_02288	771			hypothetical protein	ATGAAAGCATATATTTATATTGTCTGTATGATACTTTTCAGTACCTATGCAAATGCGCAGGTGGGCATCAATACAAATACACCCAATGCAAGCAGTGTCCTGGACATTAATTCTTCAAACAAAGGGGTTCTTTTTCCACAATATGACCTTATTGTTCTTAACAGCACTTCAACTCCCGTAGCTAACCCGGCAGATGGACTTATTATTTACAACAACGGAGGTGCCTCCACTTTTCCGAAAGGTTATTATGTCTGGATCAGAAATCAATGGCAACGCACTCTTATTGCAGGAAGTGAGCCTCAGAACATGTCTCTGCTTATAGGCCCAGGAGTATTAATTCCTACCGGAAGCACGAACAATACGTTGGGAAGCTTTACAGTAACGTCTAATAAAATTACAGGTGCATCGCTTGGTTCGGATAATTCAACCATTACACTACCGGCCGGAACGTATATTATTCGGTATTCGGTAGATGCAAGTAACTCCAATAGCAATACCGGTACAGCCAACACACAGTATTTCTCTCAGAATTTTACTTGTACCAGATCTTATTTAATTAATGCGGCTACCAGTGCTACGATTACAGAAGTTAATAGAATGTGTCAGCTGTCCAGTTCTTTTACTTTTTTCCAAGGAAGTTATTTTTTAACATTGGCTTCTCCAACAACTATACGTCAAAAGTTTGAGTTTGATACGGGTAATGGTTTTACAGCCAGCAACCTGAATGTAAGATCATCATTATCATTGGTAATCACCAAGATGGGTCAATAA	MKAYIYIVCMILFSTYANAQVGINTNTPNASSVLDINSSNKGVLFPQYDLIVLNSTSTPVANPADGLIIYNNGGASTFPKGYYVWIRNQWQRTLIAGSEPQNMSLLIGPGVLIPTGSTNNTLGSFTVTSNKITGASLGSDNSTITLPAGTYIIRYSVDASNSNSNTGTANTQYFSQNFTCTRSYLINAATSATITEVNRMCQLSSSFTFFQGSYFLTLASPTTIRQKFEFDTGNGFTASNLNVRSSLSLVITKMGQ				NA	NA	NA	NA	NA
BMS003_02289	1041	gpsA		Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGGCTAAAAAGAAAATTATTTCAGAATCTTCTAATCCAAAAAAGAATAAAAAGGATATTTCTGTAGGAGTTGTAGGAAGCGGAAGTTTTGCTACCGCTATCGTTAAAATGCTTGTTGAAAACTGCAAAGTAGTACACTGGTGTGTAAGAAGCGAATTTGTAAAAGGAGCTATTGAACTCCGAGGTCATAATCCGACTTATCTTACAGCTGCTCACTTTAATCTGAAAAGTTTAAAACTGACAACAGACATCAATGAACTGGTTTCTGCCTGTGATGTTATTGTCCTGGCAACGCCTTCTATTTATCTTTCTGATGCATTGGATAAAATGACGTGCGATTATTCAGATAAAATCTTTATTTCTGCTATCAAAGGAATCATTCCTAAAGTAAATGATGTCGTAGCACATTATCTTCGTGATGAATTTAAAATAGGTTTCAGAAACCAGGCCGTTATTGCAGGACCTTGTCACGCCGAAGAAGTTGCAATGGAAAGACTTTCTTACCTTACTATTGCCGCAGTAGAGGATGAAACGGCAGAAAAACTTGAGGGAATCTTCAGTTCAGACTTTATCAAAGTACATACAAGCAAAGATATTCTGGGAAATGAATACAGTGCAATCCTTAAAAATATTTTTGCGATAGGAGCAGGAATAGCAAGCGGATTAGGATATGGAGACAACTTTACCGCAGTGTTTGTGTCTAATGCGATCCGTGAAATGGAAACTTTCCTTGAAGCCATCTATGAAGCCCCAAGAGATGTAAATGAAAGTGCTTACCTGGGTGACCTTTTAGTAACGGCATATTCACTTTTCTCAAGAAACAGAAATCTTGGTAATCTTATAGGGAAAGGATACACGGTAAAATCTGCCATTCAGTCTATGAATATGGTGGCAGAAGGATACTATGCTGCTGATTCTATTTATAAAACAGCAAAACAGAAAAATCTTAAGCTGCCCATTATAGATACAGTATATGCCATTCTTTACGAAGGTAAAAATGCTGAAAAACAGTTTAAAAAACTGACGGCAAAGTTGAATTAA	MAKKKIISESSNPKKNKKDISVGVVGSGSFATAIVKMLVENCKVVHWCVRSEFVKGAIELRGHNPTYLTAAHFNLKSLKLTTDINELVSACDVIVLATPSIYLSDALDKMTCDYSDKIFISAIKGIIPKVNDVVAHYLRDEFKIGFRNQAVIAGPCHAEEVAMERLSYLTIAAVEDETAEKLEGIFSSDFIKVHTSKDILGNEYSAILKNIFAIGAGIASGLGYGDNFTAVFVSNAIREMETFLEAIYEAPRDVNESAYLGDLLVTAYSLFSRNRNLGNLIGKGYTVKSAIQSMNMVAEGYYAADSIYKTAKQKNLKLPIIDTVYAILYEGKNAEKQFKKLTAKLN	PGPT0024330_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
BMS003_02290	990			hypothetical protein	ATGAAAAAATTTCTAAACAGCAAGAAGAACGTAAACTTTCTCCTGGGAGGACTTTTACTAGTAGTTTTTGCACAGGGTGTCTTCATTGCGAAGCTCTTTTCTGAAAGAGATGACAAAACCTACGAAGTGAACCTTGTAAAAATTAACACTGAAAAAGACAGTGTAGATTATTTAAAAATGAAATCAGATCTTACTCTTGTAGATCAGACTGTTGCTCAGCTCAACTCCTTCCTCAAGTCCAAAGACATTACCAATGAAAAGCTGATGATGCTTAACAAGGACAGTATTTCAAATTCTATTTATCTATCCAAACAGGCTAACCGATACAGTCAATATCTGATGGATCTTCAGAAAAAACTGATGCAGGTTCCTTTAGGGATGCCTACTGACGGATATATTTCCTCTAACTTCGGTATAAGAAGAAATCCTATTCCGTATAAAACCGTTTTCGCTTTTGTAAAAACAAATACAGCTACAGAATCAAAACCTGCTGCAGCAAAGCCTGAAGTAAAAGCTGAACCGGTAGAGAAAATTATAGAACTTACAGACAGCTACGGAAATAAGAGAGAAGTAAAAGTGATGGTTACTCCAAAAGCCACTCCTGCTGCTGCTGCTCCTGCTGCTTCCGGCACAAAAACTGCTGCTGAAAAAAACAATACACCTGCCGAAGCTGATCAGATGCAGTTTCACAAAGGATTGGATATTGCTGTTGCCTACGGATCCGACGTCAGAGCTGCAGCTGCCGGAACTATTATTTTTTCAGGACAGAAAGGGGGCTATGGAAACTGTGTGATTGTTTCTCACGGAAATGGGCTGGCTACGCTATACGGACATTTATCTCAACTTGTTGCTAAAGTAAATGATCAGGTAAAAGTAGGCCAGGTCATTGCTAAATCTGGAAATTCAGGACGTTCTACAGGACCTCACCTTCATTATGAAGTACACAAAAACAATACTCCGGTTAATCCGAAACTGTTTATGAATTTATAA	MKKFLNSKKNVNFLLGGLLLVVFAQGVFIAKLFSERDDKTYEVNLVKINTEKDSVDYLKMKSDLTLVDQTVAQLNSFLKSKDITNEKLMMLNKDSISNSIYLSKQANRYSQYLMDLQKKLMQVPLGMPTDGYISSNFGIRRNPIPYKTVFAFVKTNTATESKPAAAKPEVKAEPVEKIIELTDSYGNKREVKVMVTPKATPAAAAPAASGTKTAAEKNNTPAEADQMQFHKGLDIAVAYGSDVRAAAAGTIIFSGQKGGYGNCVIVSHGNGLATLYGHLSQLVAKVNDQVKVGQVIAKSGNSGRSTGPHLHYEVHKNNTPVNPKLFMNL				NA	NA	NA	NA	NA
BMS003_02291	1098	nemA	COG1902	N-ethylmaleimide reductase	ATGAAAAAATTATTTCAATCCTATCATCTTAATGATATCCTTTTAGATAACCGGTTTGTAATGGCTCCCATGACGCGTAGCCGCTCTTCAGAAGGCTCTGTACCCAATGATCTTATGGCAGAGTACTATGGCCAGCGCGCTACGGCAGGGCTGATTATTTCTGAGGCTACTCAGATTTCTCTTCAGGGAATGGGGTATGCTAAAACTCCCGGTATTTATACCCCGGAACAGGTTGAAGGCTGGAAAAAAGTAACAGAAAATGTACACAAAAAGGGAGGTCATCTGTTTTTACAGCTTTGGCACGTAGGGCGGGTATCCTCTTCCGGCATTAATGGATTACAGCCTTTGGCACCATCAGCCATTCCTGCTGCCAATACCAGCGTATATATTTTTGATGGAGCTCCAGGTAATGATGCAACATTTATATCGGTAGAAGATCCGAAAGAAATGACAAAAACAGATATTCAGCAAACCATTAATGATTTTGCGGCCGGAGCAGAAAATGCGATAGAAGCAGGTTTTGACGGAGTGGAAATTCACGGGGCTAACGGTTATCTTATTGATCAGTTTTTGCGCAGTAATTCTAATATAAGAACTGATAAGTACGGAGGAAATGCAGAAAACAGAATTCGCTTTCTGATGGAGGTTACTGAAGCTGTTGCTAAAACAGTAGGTAAAGAAAGAACCGGTGTAAGGCTTTCGCCATTTATAAAATTTAAAGACATGGATGATCCTGAAATACTTGAAACAATGATGCTGGCTGCAGAAAAGCTTAATGAGCTGGGTATTGCCTATATTCATTTATGTGAAGCAGATTGGGATGATGCTCCGGGAATTCCATATTCGTTTAGAAAAGAACTTCGGGATAAATTCAAAAATACAATTATTGCTACCGGAAATAAGACTCCCTCCGAAGGCGAAGACTTACTGGAGCGGAACCTGGTGGATCTTATTGGTTTTGGGAGAAGATTTTTGACCAATCCTGACTATCCGGAAAGAGTAAGACAGAATGCTGCACTGAACGAAATTACAGATTCTCATACTCTATTCGGAGGTGGAGATGCCAGAGGGTATACAGACTATCCGTTCTTATCTTAA	MKKLFQSYHLNDILLDNRFVMAPMTRSRSSEGSVPNDLMAEYYGQRATAGLIISEATQISLQGMGYAKTPGIYTPEQVEGWKKVTENVHKKGGHLFLQLWHVGRVSSSGINGLQPLAPSAIPAANTSVYIFDGAPGNDATFISVEDPKEMTKTDIQQTINDFAAGAENAIEAGFDGVEIHGANGYLIDQFLRSNSNIRTDKYGGNAENRIRFLMEVTEAVAKTVGKERTGVRLSPFIKFKDMDDPEILETMMLAAEKLNELGIAYIHLCEADWDDAPGIPYSFRKELRDKFKNTIIATGNKTPSEGEDLLERNLVDLIGFGRRFLTNPDYPERVRQNAALNEITDSHTLFGGGDARGYTDYPFLS	PGPT0005930_1355	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS003_02292	1173			hypothetical protein	ATGATACAAAAGAAATTATGGTCATTATTAGCACTGTTGGGATTCATCAGCATATTTGCAGGGAATCTCAGGGTGAAAGTTTACAATCCGGGAACCAAAGCTATTTTTCCCATTACCTCTACCATTATTTATGGAGATAAAGAGGCCATACTTGTGGATGCTCAGTTCCAGAAGCAATATGCAGAACAGCTGGTGAAAGAAATAAAAGCTACAGGGAAGAGCCTGAAAGCCGTTTTTATTTCTCACAGTGATCCTGATTTTTATTTTGGCCTAGATGTGATTAAAAAAGCTTTTCCTAATGCTAAAATTATCTCAACAGCACAAACTGCTTATCTTATATCAGCTTCAAAAGATGATAAAATGGGAGTATGGAAACCACAGCTGAAAGCAGATGCACCATCGGAAATTATAGTTCCCGAAGCAGTTGTGTCTATTCCTGATCTTGAAGGAAACAAAATTGAAATCAGACAAAACCCGGAAGATCCGGCACACAGTTTTCTTTGGATTCCTTCCATTAAAACCATTGCAGGCGGAATTTCTGTTTCTGTAGGCTCGCATCTTTGGATGGCAGACACCCAGGATGCAAAAGCAATAGATCAGTGGATAGGGCAGATAGATGCTATGAAAGCACTGAATCCGGAAAAAGTTATTCCTTCCCATTTTGCTGAACTTTCCACATCACCACAATCTCTTGATTTTGTGAAAAGTTATCTGAAAAATTATAAACAGGCAGTTGCCGAAAACAAAACCTCATCTGCTATTGTAGATTTCATGGTAAAGAAATATCCTCATCTGCCAGGAAAAGAAGAACTGGAAATGGGGGTAAAGGTTTATCTTAAAGAAATGGACTGGGATCTTAAATCTCCATATCCGGCAATAGGCCGTAAAGTGGAAGTGGATTTCGGAGAAGTAAAATTCCTTCTTGATTTTAAAGACAATAAAACCATGACGTTTACAGGAACAGCCGGAAGTTCAAAAAACAGTACAGATACTGTGGAATATACGGTAGTAGAAATTGCAAAGAATATTTTTATGGTATACTGGCATGAACCTCATCTCGGGTTCAGTGTAACCCATATTCAGGATTATAATAAAAATATCATCTATTCAAATATTGCAGGTCCCGACGGAACATTTACCCATCCTAAAGGAACACTTAAGATCCTGGAATAG	MIQKKLWSLLALLGFISIFAGNLRVKVYNPGTKAIFPITSTIIYGDKEAILVDAQFQKQYAEQLVKEIKATGKSLKAVFISHSDPDFYFGLDVIKKAFPNAKIISTAQTAYLISASKDDKMGVWKPQLKADAPSEIIVPEAVVSIPDLEGNKIEIRQNPEDPAHSFLWIPSIKTIAGGISVSVGSHLWMADTQDAKAIDQWIGQIDAMKALNPEKVIPSHFAELSTSPQSLDFVKSYLKNYKQAVAENKTSSAIVDFMVKKYPHLPGKEELEMGVKVYLKEMDWDLKSPYPAIGRKVEVDFGEVKFLLDFKDNKTMTFTGTAGSSKNSTDTVEYTVVEIAKNIFMVYWHEPHLGFSVTHIQDYNKNIIYSNIAGPDGTFTHPKGTLKILE				NA	NA	NA	NA	NA
BMS003_02293	654			hypothetical protein	ATGAAAAAAGTAGCAGTAATCGGTGCAACAGGATTTGTAGGAGCACACGTAGTATCAGAATTAGCAGAGAGAGGATATGCGGTGGAAGCATTGGTAAGAGATGCATCAAAAGTAAAAACACAGGAAAATGTAACCGCTAAAAGTGTTGATGTAAACAACGTAAACGAACTGACTGAAGCATTAAAAGGAAGTGATGCGGTCATCAGCACATTCAACGCAGGGTGGACCAATCCTAATCTTTACAACGATTTCTTAAATGGATCAGAGAACATTGAAAAAGCAGTAGAACAGTCAGGTGTAAAAAGACTGATCGTTGTAGGTGGGGCAGGAAGCCTTTACACTCCGGATAATGTACAGATTGTAGATACCCCTGATTTCCCTGAAGCTTACAAACCGGGAGCAACAGCAGCAAGAGACTATTTAAATAAAATTAAAGAGAATAATACACTGGACTGGACATTCTTCAGCCCTGCCATCGAAATGAACCAGGCAAATGTAGGAGAAAGAACAGGAAAATACAGAACCTCATTAGAAACTCCGGTATTTGATGAAAATGGGAGAAGCCGCCTGTCTGTAGAAGATGTAGCTGTAGTTCTGGTTGATGAACTGGAGCAGAACAACCACATCCGTGAACGCTTTACAGCAGCTTATTAA	MKKVAVIGATGFVGAHVVSELAERGYAVEALVRDASKVKTQENVTAKSVDVNNVNELTEALKGSDAVISTFNAGWTNPNLYNDFLNGSENIEKAVEQSGVKRLIVVGGAGSLYTPDNVQIVDTPDFPEAYKPGATAARDYLNKIKENNTLDWTFFSPAIEMNQANVGERTGKYRTSLETPVFDENGRSRLSVEDVAVVLVDELEQNNHIRERFTAAY	PGPT0020900_203	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
BMS003_02294	411	ywnA	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGAACAATACAAGATTTGCTACGGCAGTACATATAATGACATTATTGGCAAAAAGTCCTCAGGAGTGGCTTACTTCTGACTGGATGGCCGGTAGCATCAATTTAAATCCGGTGATTATCCGAAAGGAGATCAGTGTATTGAGAGAAGCAGGGCTGATTATTAGCAGACAGGGAAAAGAAGGAGGCAGCCAGCTTGCAAAGAATGCAGGGACGATCACTATTTCGGAGATTTATAAAGCAGTAAAAAATACAGAAGTATTAGGTAAAAAAAATCAGAATCCTAATCCGGCATGCAGTGTTGGAAAGGAGATTAACAATCATTTAAATACCTTATTTGAAGAAACAGATCAATTGGTGGTAAACTTTTTAGGAGACAAGTCATTACAGGAATTCACGGACCAGTTTGAATAA	MNNTRFATAVHIMTLLAKSPQEWLTSDWMAGSINLNPVIIRKEISVLREAGLIISRQGKEGGSQLAKNAGTITISEIYKAVKNTEVLGKKNQNPNPACSVGKEINNHLNTLFEETDQLVVNFLGDKSLQEFTDQFE				NA	NA	NA	NA	NA
BMS003_02295	435	fklB	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGGGAGTAGCAGATATGTTATTTAAACGTAAAAAAGAATTGGCAGAAAAGAACCTAAAAGACGGTAAAGAATATATGGAGGAGTATGGTAAAAGAGAAAGCGTTGTGCAGTTACCAAGCGGCTTGCAATATGAAATCATCACAGAAGGAGACGGTCCTAAACCAGGTCCTAAATCTACTGTAAAATGCCATTATCATGGAACTACCATTTCCGGGAAAGTATTCGACAGCTCTGTAAAAAGGGGAACACCCGCATCTTTTCCTCTAAACAGAGTAATTTCAGGTTGGACAGAAGCACTTCAGCTAATGCCTGTTGGAAGCAAATGGAGACTGATTATTCCTCCGCATTTAGCCTACGGAGATCAGGAAGTCAGCAAAGAGATCGGACCAAACAGTACCCTTGTTTTTGAAGTTGAATTGCTTGATATTAAATAA	MGVADMLFKRKKELAEKNLKDGKEYMEEYGKRESVVQLPSGLQYEIITEGDGPKPGPKSTVKCHYHGTTISGKVFDSSVKRGTPASFPLNRVISGWTEALQLMPVGSKWRLIIPPHLAYGDQEVSKEIGPNSTLVFEVELLDIK	PGPT0015240_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015240-wecA|tagO|rfe-K02851	NA	NA
BMS003_02296	1008			hypothetical protein	ATGCCAAACCCACTAAAATATAATAAGAAGTTTGATGAACTGAATGAGGAGGAGAAAAAACTTCTGGAACTCCATAAAAAAACAGTAGCGGATTTTGTTGAACAATCCTCTTCCATCAGTGATGTCAATTATGCTACCAGGAATGTCCATGCTAAAACCTATGCGGTAGCAAAGGGTACATTTTGGATTGAACCCAATATCCCTGAATTACTGCAGCCTTTTTTTGATAAGGAAAAATTTGACCTTACCATACGGTTTTCCAATGCTCAGCTGAAGATTAAAAACTCAAAGAAGGATGTGCCTGCTTATGGTTTTGCAGTGCAAATCAGGGATGAAAGCGGAGTACTTCTTGCCAATTATCCGTTAGTCAATTTTCCATTATTCCCAATACAGTCTGTTTCTACTTTTCTGAAGCTTTTTACATCAGTTAACCGGTTGTATATGAAACAATGGAGCGGTTTATTTCCCATATTGATTCAGGGGATAAAAATGCTGCCTTCTTTATTAACGCAAGATATGCTCTGTAATTTATTCATGTTTATAGGAAAAAGAAATGATTTTATCCTGTCTTTCGATTATTATTCTGTAGGAGCATATCGTCTGGGAGATCAGATGATTAAAATAAAACTACATCCCAAATCTGTGGATAAAAATATGGGAAGAAAACGAAAGATTAAAGATTCGCTGAAAGATTATCTCCAGAAGAATGATTTCACAGCAGATGTTTTGATTCAGATTTGCTATGACCTTAAAGACCAGCCAATCAACAAGCTGAATATTGAATGGAAAAATTCTCCATTTATTAAAATCGGCGAAATAAAAATAGATCAAGATTCTTTGCTGGATTCCCGTAACTGCACAACTGAACTTCTTTCATTTAATCCTTTTGAAAGTAAAATATTTTTCCAGCCTGTAGGAAAGATACAAAAGCTGCGGGATGAAGCTTATAAAGTTTCTGTACAGACAAGGAGGAAAATTAATAAGCTGCTGCATGGAAAAAACGGATAA	MPNPLKYNKKFDELNEEEKKLLELHKKTVADFVEQSSSISDVNYATRNVHAKTYAVAKGTFWIEPNIPELLQPFFDKEKFDLTIRFSNAQLKIKNSKKDVPAYGFAVQIRDESGVLLANYPLVNFPLFPIQSVSTFLKLFTSVNRLYMKQWSGLFPILIQGIKMLPSLLTQDMLCNLFMFIGKRNDFILSFDYYSVGAYRLGDQMIKIKLHPKSVDKNMGRKRKIKDSLKDYLQKNDFTADVLIQICYDLKDQPINKLNIEWKNSPFIKIGEIKIDQDSLLDSRNCTTELLSFNPFESKIFFQPVGKIQKLRDEAYKVSVQTRRKINKLLHGKNG				NA	NA	NA	NA	NA
BMS003_02297	414			hypothetical protein	ATGGAACAAAAACATCCGCTTCCGCCATTCACCTTTGAAACGGCACTGGAGAAAATTCAACTGGCAGAAGATGCCTGGAACAGTCAGGATCCTGAAAAGGTATCCAAAGCATATACCATCCACAGCGAATGGAGAAATAGAAATACATTCGTGAATGGAAGAGAAGAAATTGTAGCATTTCTTCAGAAAAAATGGAAAAAAGAACTTCATTATAAACTGAAAAAAGAGTATTGGGCACATACAGATCATCGCATTGCTGTCCGCTTCGAATATGAGTATCAGACAAAAGATGGAAACTGGTTCAGAGCCTATGGAAATGAAAACTGGGAGTTTGATGAAAATGGTTTGATGGCGAAAAGATTTGCAAGCATCAATGATCTGGCTATCAAGGAAGAAGACCGGAAGTTTAGATAA	MEQKHPLPPFTFETALEKIQLAEDAWNSQDPEKVSKAYTIHSEWRNRNTFVNGREEIVAFLQKKWKKELHYKLKKEYWAHTDHRIAVRFEYEYQTKDGNWFRAYGNENWEFDENGLMAKRFASINDLAIKEEDRKFR				NA	NA	NA	NA	NA
BMS003_02298	528			hypothetical protein	ATGAAATCTCCAAAAGAAAGAATTATAGAAACCACCTTTCAACTGTTTGCCAGACAAGGTTATAATTCTACCGGTATTAACCAGATTATTTCTGAAGCACAAGTCGCCAGGGCCAGTTTCTATCAGTATTTTAAGTCCAAAGAAGATCTATGCGTAGAATTTCTGAATGTAAGACATGAATATTGGTTTGGCGAGCTCAATAATTTTTTGGCAAAAGAAAAAGATTCAAAATCTAAGATCATTAAAGCTTTTGATTTCCTGATTTATATGAATATGAAGGAAAGCTTCAGAGGGTGCAGTTTCCTGAATATTCTATCGGAAATACCGATGGATAATATTAAAATTTTAAGTGTTATTCAATCTCATAAAACAGATCTCAGAAGCTTTTTTTCAGAACTAATGAATAATGATATTCTTTCAGATCATATCTACATGCTTTTTGAAAGCAGTATCATAGAAAGTCAGCTTTTCAAGTCTAATGAATTCATTGAAAAATCAAAAAAGATAACCACCAATTTAATACAATGA	MKSPKERIIETTFQLFARQGYNSTGINQIISEAQVARASFYQYFKSKEDLCVEFLNVRHEYWFGELNNFLAKEKDSKSKIIKAFDFLIYMNMKESFRGCSFLNILSEIPMDNIKILSVIQSHKTDLRSFFSELMNNDILSDHIYMLFESSIIESQLFKSNEFIEKSKKITTNLIQ				NA	NA	NA	NA	NA
BMS003_02299	1086	alx	COG0861	Putative membrane-bound redox modulator Alx	TTGTACTCTGTACATCTATTGCTTTTATCATATAATAACATAACTCAAGTGGAAAAACATCAAAGTATTTTAGAGCTTCACCCAGGTCTGGTGTGGGGATTTGCGGTAACTGTCGTTATCATGCTGCTCCTGGACTTAGGGGTATTTAATAAAAAAAGTCACGAAGTCTCTTCCAAAGAAGCTACCATCTGGTCTATTGTGTGGATATCATTGTCTATGATATTTTCCGGAGTAGTTTATTGGGTTTTCAATCAAGCAGACGGACATGCTTTGGCGATAGAAAAATTTACGCAGTATCAGGCTGCCTATTGGATTGAAAAAGCCCTGTCTGTGGATAACTTATTTGTATTTATCCTGGTTTTCGGTTTCTTTAAAGTCCCGAAGTACCTTCATCACAAAGTTCTTTTCTGGGGAATCATTGGAGCCCTGATCTTCAGAGCTATATTTATCTTTGCGGGAGTAGGACTTATTAACCTGACCTATCTTCCTGAAATGAATATCTTCGGAGAAGCAGTAAAAATCAATGTTGTAATGACATTGTTCGGATTATTCCTTGTATATGCGGGGATCAAGTCATGGGGCGATGGAGGCGATGATGACGATGAAGATTACAGCAATACAGCAGGAGCAAAACTGATCAAAAGTTTCTGGAAAGTTTCCGACAATTATGATGGGGATAAATTCTTCACCATCCAGAACGGAATCAAAATGGCAACACCTCTTTTAGTAGTGGTAGGCGTTATTGAGTTTACAGATGTACTTTTTGCAGTAGATTCTATTCCTGCAATTTTTGCAATTTCAAATGATCCGTTCATTCTTTATACATCAAATATCTTTGCTATTTTAGGATTAAGATCATTATACTTCCTGTTAGCGAATTTTATTCACATGTTCAGCAAACTTCCGTACGGATTGGCCATTATCCTATCCTTTATTGGAGTTAAAATGCTTATTGCACCTTGGATTCATATTCCGTCTCCGGTTTCATTGGGAATCGTAGGAGGTGTCTTAGTGATCTCTGTTCTTTTATCCATCATTTTCCCTGAAAAAGAAGAAGAAAAGAAAGAAGAATTAGAAGAAAAATAA	MYSVHLLLLSYNNITQVEKHQSILELHPGLVWGFAVTVVIMLLLDLGVFNKKSHEVSSKEATIWSIVWISLSMIFSGVVYWVFNQADGHALAIEKFTQYQAAYWIEKALSVDNLFVFILVFGFFKVPKYLHHKVLFWGIIGALIFRAIFIFAGVGLINLTYLPEMNIFGEAVKINVVMTLFGLFLVYAGIKSWGDGGDDDDEDYSNTAGAKLIKSFWKVSDNYDGDKFFTIQNGIKMATPLLVVVGVIEFTDVLFAVDSIPAIFAISNDPFILYTSNIFAILGLRSLYFLLANFIHMFSKLPYGLAIILSFIGVKMLIAPWIHIPSPVSLGIVGGVLVISVLLSIIFPEKEEEKKEELEEK	PGPT0004905_241	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
BMS003_02300	609	yceC	COG2310	Stress response protein SCP2	ATGGCTATCAACTTACAAAAAGGTCAGAGAATAAACCTTAAAAAAGAAAATGGAGCTGAGTTATCCCAGGCTTGCGTAGGAATCAACTGGGGAGCAATTGAAAAGAGAGGATTTTTTGGAACTAAAAAAGAAGCAGTAGACTTAGACGGAAGCTGTATTTTATATGATTCAAACAAAAATGTTTTGGAAGTAATCTATTTCGGAAATCTTAAATCCAGAAACGGATCTGTAAGACACAGCGGAGATGATCTTACCGGTGACGTAGATGGTGATGACGGATTGGATAACGAAGTAATCACAGTAAATTTCAGTCAGCTGGAGCCTAATGTAGAGCATGTGGCAATGGTACTGAACAGCTACAGAGGTCAGGATTTCGGGACTATTCCTTTTGCTTCTATCCGTATTTATGAAGGATCACCTACCCATGTAAAAGAAGTTTTTGCAAAATATGATATTGCGAATGATGCTTCTTTCAAAGGGCATGTTGCTATGGTAATGGGGGTTTTCTATAAGAGAAACGGAGAGTGGAAATTCAATGCTGTGGGAGATCCTACTGCAGACAGAAAGCTGGAGCAGACGATCCAGACGGTACAGATGAATTACCTATAG	MAINLQKGQRINLKKENGAELSQACVGINWGAIEKRGFFGTKKEAVDLDGSCILYDSNKNVLEVIYFGNLKSRNGSVRHSGDDLTGDVDGDDGLDNEVITVNFSQLEPNVEHVAMVLNSYRGQDFGTIPFASIRIYEGSPTHVKEVFAKYDIANDASFKGHVAMVMGVFYKRNGEWKFNAVGDPTADRKLEQTIQTVQMNYL	PGPT0004915_82	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004915-terZ-K05791	NA	NA
BMS003_02301	948			hypothetical protein	GTGGGGGATGATGCAGCAACCATATTGTCACAAAGCAAAAGAAGATTAACAAAGCTTAAGCTTCTCGCTAATTTTTTTGAACATATTGATATCATATCAATTTATATCAAAACGGATATTATTCACAATCTGTTTCAGGAAAATACAGCTTTAGACTATAATAAACTGGAACTTTTCCACCTGCAGTATACAGACAGCCTCATAGAGCTTCTGACTAAAATTAAAAAGCAGAAGGAAAATGATATGCTGGCGGTCATCAATGAAATTAACATCAACAGTAAATATATTTCAGGTTTTGAAGAAAGACGGGTAGACAGTTTCCAGACCGACAGGAAGATGTACAGCGGTATATTTTCCCAGCATCTGAAAAATGTGTATAAAGACCTTACGGAAGACCGTTTTACTGCCAACTGGGAAAATGTACTGTACTTTCATAAAAAATATGCTCAGGAATTTTACAGAACCGTTGCAGATGAAACACTGCTGAAATCCGATTCTTTCCCTGCATATCAGTATAAAGACTATTCCATTGAAAGAAAACTTTTGGGAAGGCTTAATATACAGGGGTTTAAAGTTCGTTTTGTCTGCGGTTACCTGATCGGAACCCAGGATTATGAGCTTTTCAAAATCTTTCAGTCTGATGATCATTTTATTTTCAGTGTAGACGAAAAGAAATTGTATCTTTTTGACAAAGAACTTGATAAACTGGATGTTTCTGAAAATCAATCTAATCAGAGTTCCATTATTGATCAGCTGAGAAACAAAAATGAGCAACTGGAACAGAGTATGAATGAAAGAAAACGTATTTTACCGCCAGAAGTGGAAAATGTTTTGAAGGATTATATCAAAAACCTGGAAAATATGGACATTATGAGCAAAATATTCGATTTCGATGAGGAGACGAATATTCTGCGCGCAATGCTTAATTTGAACTTAAATAACAACTAA	MGDDAATILSQSKRRLTKLKLLANFFEHIDIISIYIKTDIIHNLFQENTALDYNKLELFHLQYTDSLIELLTKIKKQKENDMLAVINEININSKYISGFEERRVDSFQTDRKMYSGIFSQHLKNVYKDLTEDRFTANWENVLYFHKKYAQEFYRTVADETLLKSDSFPAYQYKDYSIERKLLGRLNIQGFKVRFVCGYLIGTQDYELFKIFQSDDHFIFSVDEKKLYLFDKELDKLDVSENQSNQSSIIDQLRNKNEQLEQSMNERKRILPPEVENVLKDYIKNLENMDIMSKIFDFDEETNILRAMLNLNLNNN				NA	NA	NA	NA	NA
BMS003_02302	1176			TelA-like protein	ATGGACAATCAGGAAAATCAACCCATAGATCCACTAGGATCCATAGAACCCCTTAAAACCTTTGAGCCTACTCCAATGGTTCCTCCAACTCCGGCTCAGCCCGTTCAGAATGCAGCACCGGCAGTTCTTGTGGACAGAGAGGGAAATGTAAATCTGACTCAGCTGCAGTCAGAAGAACGCCAGAAATATGAAGTTCTTGCGAATTCTATTGATGAAGCTAACCCAGGTTCCATTGTGAATTTCGGGGCAGAACTTCAGAAAACATTAACTAATCAGAGTGACAGCTTCTTAGGAAATGTAAGAAGATCAAACTCGGGAGAAGTAGGAGGGCTTATCAATGATCTCTTAGTAGAGCTTAATTATGTAGATGTAGAAGAGCTTAACGGAAATAAAGTGAAAAGTTTCCTGAGCAAATTACCATTCATGAAGAAGGTAATGACTCAGGTAGAAAACTTATTTGCAAAATATGATAAGATCATCAATAATATTGAGCAGATCTCTTACAAAGTAAATGCAGGGATCATTACTTCTACAAAAGATAATGCAGTGCTTCAAACCATTTTTGAAAGCAATGTGAATTCTATCAAGCAGATTGAAGATCTTGTAATCGCAGGAAATATCAGAATGGAAAGGGCTGCTGTAGAGCTTGCTCAGATGGAAGCGGCTCCTCAGAATTTTCAGGATTATCAGATTGCAGATAAAAGAGATTTCATTGCAAGGCTAGACAGAAGAATGGCTGACCTTAAAGTGGTACGTGTAATTATGATGCAGTCGCTTCCACAGATCAGACTGGTACAGAATAATAATGTTTCCATCGCAGAAAAAGCACAGACCATTCTTACCACTACGCTTCCGGTATGGAAAAACCAGCTTTCACTGGCTGTAGCAATGTACAGACAGCAGCAGAATATTGAAATCCAGCAGAAAGTATCTTCTACTACAGAGGAAATATTAAGAAAGAATGCAGAGCGCCTTGGTCAGAATTCAGTGAATGTTGCCAGAGCGAATGAGCAGACTATAGTGTCTGTGGAAACGCTAAGAGAAACAACATCGATGCTTATCAATACATTGAATGAAGTGAAGCAAATCCAGAAACAGGGTGCAGATAACAGAAGAAAACTGGATCAGGATCTTCAGACATTGGAGCATGAACTTAAAGCTAATGTCAGAGGTTAA	MDNQENQPIDPLGSIEPLKTFEPTPMVPPTPAQPVQNAAPAVLVDREGNVNLTQLQSEERQKYEVLANSIDEANPGSIVNFGAELQKTLTNQSDSFLGNVRRSNSGEVGGLINDLLVELNYVDVEELNGNKVKSFLSKLPFMKKVMTQVENLFAKYDKIINNIEQISYKVNAGIITSTKDNAVLQTIFESNVNSIKQIEDLVIAGNIRMERAAVELAQMEAAPQNFQDYQIADKRDFIARLDRRMADLKVVRVIMMQSLPQIRLVQNNNVSIAEKAQTILTTTLPVWKNQLSLAVAMYRQQQNIEIQQKVSSTTEEILRKNAERLGQNSVNVARANEQTIVSVETLRETTSMLINTLNEVKQIQKQGADNRRKLDQDLQTLEHELKANVRG				NA	NA	NA	NA	NA
BMS003_02303	558	yceD_1	COG2310	General stress protein 16U	ATGGCTATTAACTTACAAAAAGGACAAAGAGAAAACATTAACGCACCTAAATTTACTGTAGGTTTAGGATGGGATATCAATAATACTTCTACAGGAACAGCTTTTGATCTTGATGCCTCTTTATTTTTGCTTGGAGACGACAAAAAATTGATTTCAGATAATCATTTTATTTTTTATAACAACCTTGAATCTCCGGACAAATCTGTACTCCATACGGGAGATAATCTTACAGGAGAAGGAGAAGGAGATGATGAGCAGATCAAAATTGATCTTACAAAAATTGATAGTGCCATCAAAGAAATTACAGTAGTAGTAACCATTCACGAAGCGGAGTCGAGAAAACAAAACTTTGGACAGGTAAGAAATTCTTTTATCAGAATTTTCAATACAGACACGAATGAAGAGATCTTAAAATATGAATTAGACGAAGATTTCTCAATCGAAACGGCTGTAGAATTCGGAAGAATCTACAACAGAAACGGAGAATGGAAATTTGAGGCTGTAGGTGCAGGACAGAGAGAAGGACTTGAAAAATTTGTATCAATTTATCAGAAATAA	MAINLQKGQRENINAPKFTVGLGWDINNTSTGTAFDLDASLFLLGDDKKLISDNHFIFYNNLESPDKSVLHTGDNLTGEGEGDDEQIKIDLTKIDSAIKEITVVVTIHEAESRKQNFGQVRNSFIRIFNTDTNEEILKYELDEDFSIETAVEFGRIYNRNGEWKFEAVGAGQREGLEKFVSIYQK	PGPT0004910_1317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
BMS003_02304	825			hypothetical protein	ATGAATAAAAGATACAGCTTACACCACATTCATTCAGCGGATGAGTTCACTTTCTCGCCTGCGGAATACAGCTTTTTCAAGTATGGCGATAAGTCGTATGCTGAAAAATTTGCAAGAGAATTATTCAACGGATTTATTTCCGAAAATAAAGCACTTTTAGATACTGATAAAGAGATTGTAGTATTGCCAAGTCCATATATGGCGATTCCTACAGCATCCAATTTTTTATGCTTTTTCTTCAAGAAACATTTGGATTTTTATATGTTTCAGAATGGAAAGAAGTCAAGTATTTTATCTAAAATCAATCGTAACCATACTTATATCACAGATTACGGGAATCTTAATTTTGAAGACCGTAAAAATCTGATCGCAAATGATACATATTATATTGATAAGGATTTTTTGAGAGGAAAACTTTGTATTTTTATAGATGATATAAAAATAACGGGAAGTCATGAATATACAGTCAACAAAATCCTGAATGAATACTGTGTGGATGCAGATTTTATGTTCCTGTATTATGCAGAACTGATGAATTTTGATCTTGACCCGAAAATTGAAAATTTTTTCAATTACTATGCAGTAAAAAATGTAAATCATGTTGCAGAAGTAATGAATAAAGAAAGTTTTCAGTTCAATACGAGGATCGTAAAATATATTTTAGGGCTGGATTCAAGTAATTTTGATTATCTTACGTCTAAAGTAAAAAAAGAACAGATGGATCTGCTTTTGGAGCTTGCTATCAGTAACAATTATCATTTAATAAAAGAATACGAAAACAACATCAATACTTTAACACAAACGGAATTATATTATGGCTATTAA	MNKRYSLHHIHSADEFTFSPAEYSFFKYGDKSYAEKFARELFNGFISENKALLDTDKEIVVLPSPYMAIPTASNFLCFFFKKHLDFYMFQNGKKSSILSKINRNHTYITDYGNLNFEDRKNLIANDTYYIDKDFLRGKLCIFIDDIKITGSHEYTVNKILNEYCVDADFMFLYYAELMNFDLDPKIENFFNYYAVKNVNHVAEVMNKESFQFNTRIVKYILGLDSSNFDYLTSKVKKEQMDLLLELAISNNYHLIKEYENNINTLTQTELYYGY				NA	NA	NA	NA	NA
BMS003_02305	669			hypothetical protein	TTGAAAACAGATATCGACATTCATAACCACTGTCATTTTTCTTTTGACCTGTGGCTCACTTTAATCAAATCTCATCCTGAATTTAAAGCAAAAAGAGTTGAGCTGTTCTCCTCATTTTTCAATGTAAATAAACCGATGGGGGATGTTGCGAAAACCGTAAAATATTATGATGATCTTTGCAATACTATTAATGAGGTTACAGGAGGGAATATTGATACATTTGAGATTTACCTGATGATTTTGAGTGCTTTGAATGTAGATGTAAAACATTTGGATAAAGAAAAACTTGATGAATTTTATACAAAAAGTGAAGATCTGTTTCTGGAATATAAGCCGGTTGTGATTTTTGAAAATATTCACAGTTTTTTTGAGGATATCAAAAGGAAAGGGAAGACGATTAATATTCTGAGTAATACCGGATTTATTAAAGGGAGAACAATGAGGAAATTTCTGATTCATGAAAATCTGGATCAGTACATTGATTTCCATATTTATTCTGATGAGATCCACTGTTCCAAACCGAATCCACTTATTTTTCAGGAAGTGAAGAATAAGATCAAAGATCAGGATTTGCCGCTGCACCGGATCCTGCATATCGGAGACAATCCTGTAGCAGATTATCAGGGAGCAAAGAACTTCGGTTTCAGTGCCCATTTACTTAAACACTAA	MKTDIDIHNHCHFSFDLWLTLIKSHPEFKAKRVELFSSFFNVNKPMGDVAKTVKYYDDLCNTINEVTGGNIDTFEIYLMILSALNVDVKHLDKEKLDEFYTKSEDLFLEYKPVVIFENIHSFFEDIKRKGKTINILSNTGFIKGRTMRKFLIHENLDQYIDFHIYSDEIHCSKPNPLIFQEVKNKIKDQDLPLHRILHIGDNPVADYQGAKNFGFSAHLLKH				NA	NA	NA	NA	NA
BMS003_02306	2067	fusA_2	COG0480	Elongation factor G	ATGAAATACAACACACGAAATATAGGGATTATAGCACACGTAGATGCAGGAAAAACAACGTTAACAGAAAGGCTTTTGTATTACACAGGACTTATTCATAAAATCGGTAATGTAGATGATGGAAATACTACCATGGATAAAGACATCCAGGAAAGAAACAGAGGAATTACCATTTCATCGGCTGCGGTTTCCACACAATGGAAAAAAGACAATAAGGTTTATAACATCAACATTATTGATACGCCTGGACACATTGATTTCGCAGTGGAAGTAGAACGTTCTTTAAGAGTTCTTGACAGTGTTGTCGCAGTTTTCTGCGCTTCTTCAGGGGTACAGCCACAGACTGAAAATGTTTGGTTCCAGGCTGAAAAACACGGAACATCCAAAATCTGTTTCATCAATAAAATGGACAGAATTGGAGCAGATTTCTTTGCGGTTCTCAATGAAATAAAAACCAAACTGAATGCTGTTCCTTTAGCACTTCAGATCCCAATGGGAGCTGAAGCACATTTTGAAGGTGTTATTGATCTTGTTAAAATGAAAGCATTATACTGGAATGATGAAAACGGTGAAACCATTGTGGAAAAGGAAATTCCCGGTCATTATATTGCTGAAGCTGATGAATACAGGATAAAACTAATGGAAACTCTGGCAGAAAATGATGAAATGTTCTTTGATATTTTTATGGATACTGAACAAATAGCCACTGTTGAAATGATTTCAGAAGCTATACAAAGGGTCTGCAAATCCGGATCTGCCGTTCCTGTTCTATGCGGATCTGCTTTTAAGAATAAGGGAATCCAGCCTCTTCTGGATGCTGTGGTTACTTATCTTCCGGCTCCGGACCAGCTTGCTGATCTGCAGGGAAGAGATCCTCAAACGGAAGACGCAATAACACTGGAAAGAAATGAAGGAGCTACTTTTTCAGGGCTTGTTTTCAAAGTATTGATTGACAAACATATGGGAAGACTGGCTATGCTTCGTGTATATTCCGGAATGATACAATCCGGAGATACGATATTGAACGTAAGGACAGGCGAAAGTTTCAGAATTTCCAGGATTTTACAGATGCAATCGGATAAGACGTTATCACTAGATGAAGCTAAAGCTGGAGATATTGTGGCTTTAACAGGAATAAAGGATGCTAAAACCGGAGATTCTTTATCTTCTTTGAACAAGCCGATATTACTGGAAGCAATCACAATCCCCACTCCTGTGATCAGAGTTGCTATTGAGCCGAAAACGAATGGTGATGAGAAATCTTTCGGTTTTGTACTGGCCAAAATTCAGGAAGAAGATCCTTCATTAGTGGTTGAAAGAGACCCGCAGACCGGAGAAACTTTACTGAGTGGATTGGGTGAGCTTCATCTCGAAGTTACGTTAGAGAAAATCCGACTGAATCATGGTATTGAAATCAATCAGGGAAAACCTAAAGTTTCTTACCGTGAGATTCTAACAGAAACCAAAGTTCACAGGGAAAAGCTTTCCAAACAAAATGGAGGAAGTGGCCAGTTTGCTGATATCACTTTTGAAATTGGCCCGGGAAATGATAATGAACATGGATTGGATTTCGTCAATATGATCAAAGGAGGAGTTATTCCTACTGAATTTATCCCTTCTGTAGAGAAAGGATTCAAGGAAGCAATGGGACACGGTCCGTTGAAAGGATATCCTCTGGAAAACATGAAGGTGACTCTTCTGGATGGTTCTTTCCACGCTAAGGATTCCGCCGCATTTGATTTCGAAATTGTGGCAAAAGAAGGGTTCAAAGCAGCAGCAAAAGGATGTAGTCCCAAACTGATGGAACCCATCATGCAGGTAGAAATCCAAAGTATTGAAGAATATACGGGTGTAGTCACTGCGGATATTAACAGAAGAAGAGGAATCATTACTTCTATTGATGAAAAATCAGGAAGAAAGATTTTTGCAGCGGAAGTTCCGTTAGCCTCAACTTTCGGGTACATTTCTGATCTGAGAACATTGACAAGCGGAAGAGCTTCTATCAGCATGAAATTATCGCACTATGCTTTAGTACCTGATTTTATCGCCAATACATTAATAACCTAA	MKYNTRNIGIIAHVDAGKTTLTERLLYYTGLIHKIGNVDDGNTTMDKDIQERNRGITISSAAVSTQWKKDNKVYNINIIDTPGHIDFAVEVERSLRVLDSVVAVFCASSGVQPQTENVWFQAEKHGTSKICFINKMDRIGADFFAVLNEIKTKLNAVPLALQIPMGAEAHFEGVIDLVKMKALYWNDENGETIVEKEIPGHYIAEADEYRIKLMETLAENDEMFFDIFMDTEQIATVEMISEAIQRVCKSGSAVPVLCGSAFKNKGIQPLLDAVVTYLPAPDQLADLQGRDPQTEDAITLERNEGATFSGLVFKVLIDKHMGRLAMLRVYSGMIQSGDTILNVRTGESFRISRILQMQSDKTLSLDEAKAGDIVALTGIKDAKTGDSLSSLNKPILLEAITIPTPVIRVAIEPKTNGDEKSFGFVLAKIQEEDPSLVVERDPQTGETLLSGLGELHLEVTLEKIRLNHGIEINQGKPKVSYREILTETKVHREKLSKQNGGSGQFADITFEIGPGNDNEHGLDFVNMIKGGVIPTEFIPSVEKGFKEAMGHGPLKGYPLENMKVTLLDGSFHAKDSAAFDFEIVAKEGFKAAAKGCSPKLMEPIMQVEIQSIEEYTGVVTADINRRRGIITSIDEKSGRKIFAAEVPLASTFGYISDLRTLTSGRASISMKLSHYALVPDFIANTLIT				NA	NA	NA	NA	NA
BMS003_02307	1593	bicA	COG0659	Bicarbonate transporter BicA	ATGATAAAAAGAAAAGATTGTGTAGCATTGAGACAGTCCATACCTTTGCAAATCAATAAAAATACTATGAACTTATTCGACTTTTCGAAGAAAATAAACTACAAGAATGAATTGCTTGCGGGTTTTACGGTAGCAATGACGATGATCCCCGAATCTCTTTCATTTGCAATCCTTGCAGGATTGTCTCCACTTACAGGGCTGTATGCAGCCTTTATGATGGGGCTTGTAACAGCGGTTTTGGGAGGTCGCCCGGGGATGGTTTCCGGTGGGGCAGGAGCTACTGTCGTTGTACTGATTGCCCTTATACAATCTCATGGAGTAGAATACCTTTTTGCCACTGTAGCACTTGCCGGAATACTTCAGATGATGGTAGGGATTTTTAAACTGGGAAAATTTGTAAGACTTATTCCACAGCCGGTTATGTATGGGTTTCTGAACGGGTTGGCCATTATTATTTTTATGGCACAGATAGAGCAGTTCAAAATTACAGATAGTAACGGAGTTGTAAACTGGCTGCAGGGAATTCCTTTGTATATTATGGCTGGCCTGACTGTCCTGACTATTGCTATAGTTTATTTTTTTCCAAAAATCACAAAAGTTGTTCCTGCATCTCTGGTAGCCATTATCATTGTATTTGCTATTGTTCTTGGGTTTGATATTCCCACAAAAACGGTAGCGGATATTGCCCATATCAGTGGAAACCTTCCAAGTTTTCATATTCCGGTGATCCCTTTTTCTCTAGATACTTTACAGATTATTTTTCCTTATGCTTTAATTATGGCTGGAGTTGGCTTAATTGAATCTCTTCTGACATTATCCATGGTGGATGAAATCACAAATACAAAAGGAAGTGCAAATAAAGAATCCGTAGCTCAGGGACTGGCAAATATTACCAATGGCTTTTTTGGGGGAATGGGAGGCTGTGCAATGGTGGCACAGACACTGGTGAATCTGAATGCTGGTTCCAGAGCAAGATTATCCGGGATAATAGCATCACTGCTTATTTTGATCATTATTCTGTGCGGAGCGCCAGTAATTGAGAAAATTCCTATGGCAGCTTTAGTAGGTGTTATGATGATGGTGGCGATCAGTACCTTCCAGTGGGTATCGATCAGAATTGTTAATAAAATGCCCAAATCAGATATTTTTGTAGGAGTTGCCGTGGCTTTGATTACGGTGATTTTACATAATCTGGCTTTAGCTGTTTTGATAGGAGTGATCATTTCAGCATTGGTATTTGCCTGGGATAATGCTAAAAGAATCCGGGCAAGAAAACATGTAGATGAAAATGGTGTAAAGCATTATGAAATATACGGACCATTGTTTTTTGGTTCTGTGACGGCATTTACAGATAAATTTGATCCTATGAATGATCCGGATCAGGTATTTGTTGATTTCAAGGAAAGCCGTATTGTAGATATGAGTGCCATAGATGCTCTGGACAAATTATCCAGGCGTTATCAACAACAAAACAAAACATTACATCTGCGTCATCTCAGTGAAGACTGCCGGAAAATCCTTAAAAATGCAGAAGCTGTAGTGGAGGTTAATATTCAGGAGGATCCTACTTATAAAGTGATGCCGGAAAAATAG	MIKRKDCVALRQSIPLQINKNTMNLFDFSKKINYKNELLAGFTVAMTMIPESLSFAILAGLSPLTGLYAAFMMGLVTAVLGGRPGMVSGGAGATVVVLIALIQSHGVEYLFATVALAGILQMMVGIFKLGKFVRLIPQPVMYGFLNGLAIIIFMAQIEQFKITDSNGVVNWLQGIPLYIMAGLTVLTIAIVYFFPKITKVVPASLVAIIIVFAIVLGFDIPTKTVADIAHISGNLPSFHIPVIPFSLDTLQIIFPYALIMAGVGLIESLLTLSMVDEITNTKGSANKESVAQGLANITNGFFGGMGGCAMVAQTLVNLNAGSRARLSGIIASLLILIIILCGAPVIEKIPMAALVGVMMMVAISTFQWVSIRIVNKMPKSDIFVGVAVALITVILHNLALAVLIGVIISALVFAWDNAKRIRARKHVDENGVKHYEIYGPLFFGSVTAFTDKFDPMNDPDQVFVDFKESRIVDMSAIDALDKLSRRYQQQNKTLHLRHLSEDCRKILKNAEAVVEVNIQEDPTYKVMPEK	PGPT0003020_4215	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS003_02308	429			hypothetical protein	ATGTTATATAAAGAAATCCATATTGGAAAGTTTATTAAGGAGAGGGTAGATGAGAATGAAATAACAACAGAAAGGATATGCAAATTTTTGGGCAAAGATGAAGAAGCTGTCGAAATGATGTATGGCAGCAAATCTATGGATACAGACCTTCTTCTGAGATGGAGCAAGTTATTGGAATACGATTTTTTCAGACTCTACAGCTCACATCTGATTTTATACGCACCCCCTTCTGCCATTAACAAAAACCAGCAGAAATCTGACAAAACGCCTTATTTCAGGAAAAACATTTACACGCAGGAAATCAAAGACTTTATCATGAAAAGAATTATCTCCGGTGAAATGACCCAAAACGAAGTGATTAAAGAATACTCCATTCCGAAAAGCACACTCCACAGATGGCTTCAGAAGATTGATAATGCCAACGGATAA	MLYKEIHIGKFIKERVDENEITTERICKFLGKDEEAVEMMYGSKSMDTDLLLRWSKLLEYDFFRLYSSHLILYAPPSAINKNQQKSDKTPYFRKNIYTQEIKDFIMKRIISGEMTQNEVIKEYSIPKSTLHRWLQKIDNANG				NA	NA	NA	NA	NA
BMS003_02309	339			hypothetical protein	ATGCGTCCTAATTATAAGAAAATTTACCTGGATATGCTCAGGATAGAGCATCCTGAAAAACTAAAGGATCCAAAAATCAAAGAACTTCTTGAAAAGCTTAATACGAGTGATGATGTTCTTAAATTCAATGAAAAACTGTTCAAACAGTCCAGAGAAAATCAAAAACTAAAAACCTATGACAGGCAGACTATGCTAAAACTGTTGCAGTATCAGAGAAAGCACGGTCATTCTACGAGTTATATGTCACGGAAATATAAAATAAGCAGAACTACTCTCTCCAAATGGAAACTCATGTTTGAAGAAGAGCTTGAAGATACCATGAAAAATGCCGGTCAATAA	MRPNYKKIYLDMLRIEHPEKLKDPKIKELLEKLNTSDDVLKFNEKLFKQSRENQKLKTYDRQTMLKLLQYQRKHGHSTSYMSRKYKISRTTLSKWKLMFEEELEDTMKNAGQ				NA	NA	NA	NA	NA
BMS003_02310	840			hypothetical protein	ATGCATATACCAAGTAATCTGACTGAATTTTTATACTGGGTCAAAGAACGCACAGAAAAATTATGGTCTGTAAATAATGAAAACTGTCCTAAAGGATTTTATGGTGCCAAATGGCAAGGACTTTCCGAAGAACAGATTGACCAGATTGAGAGAAAATACAAAATCAGTTTTACATCCGAGCATAAAGAATTTCTAAAAATCCTTCATGCAATTGACAAAAAAGAAATTGTTGAATATGAATATGATGGAGAATTAATTACTGAAGAACGTGATTTCTTTTATAATTGGCTTGCTGATGAAAAGGAAGTTGAGGAAATAATAAAAGGTTCTTATAATTGGATGAAGCACGATGTTAATGAGAAGAGCCAGGTGTGGCTTAATTCATGGGGAATAAAACCTGCATCTTTGGAAAAGAGAATAGAGGTTTTTGAAGAATGGTTTTCTCATGTTCCTGCTCTTTTACCATTAACAGGTCTCCGATATATTGTAAGTGATGAGAAGCTTAAATGGAAACCCATTATTTCTATGGGATCTTCCGATATTATTGTTATGGGTTGGGATTTTAGGACTTACTTATTAAATGAAATAGGTAACCATCTTGATATCCATATTGAGGTCTTTGATGAAGAAGATCAAATGTTTTATCCGGAACTTATTGATGAGGTAAAGAATATATTTGATGAAAATTTTAAGTATGATGAAACCAAAGATATTCCTTACCTGAAAGAAAGGATTCTCTATTGGTCTTGTGGATGGAGGAGTTTCGGTTTAAATTATTATTCGGAGAATGCCAGCATTCATCCTATTGTCAAAACATATATTGCTGAAGAAGAAAAATAA	MHIPSNLTEFLYWVKERTEKLWSVNNENCPKGFYGAKWQGLSEEQIDQIERKYKISFTSEHKEFLKILHAIDKKEIVEYEYDGELITEERDFFYNWLADEKEVEEIIKGSYNWMKHDVNEKSQVWLNSWGIKPASLEKRIEVFEEWFSHVPALLPLTGLRYIVSDEKLKWKPIISMGSSDIIVMGWDFRTYLLNEIGNHLDIHIEVFDEEDQMFYPELIDEVKNIFDENFKYDETKDIPYLKERILYWSCGWRSFGLNYYSENASIHPIVKTYIAEEEK				NA	NA	NA	NA	NA
BMS003_02311	1545			hypothetical protein	ATGTTTGACAATAAAAAAACAGTAACCATGAAATTTAATTTTTTAAAAAAAGAAAATAAAGTAGTACAGAACTACGAAGGTGCAAAAGCATATGCTATGACGCCTGCAGAAGAATTGTATAGTGCTGTTGTTATAACAGAACTGTCAGATGCCAATTATGAAAAAGGAAATGACAGATTGGAAAGAATTCAGTCTCTGATCAAAAAAAATGATCCTGAATTTGTGGGAAAGCTGGCCGTATATGCAAGAAAAGATATGTATCTAAGATCTATCCCATTGGTTTTGACAACTGAATTGGCAAAGCAGACCTCAGGTACAGATCTTGTAAGCAAAACAGTAGATGGAGTTGTTCAGAGAGCAGATGAAATTGCAGAGTTGCTGGCATACTACCAGCTTGCCAACAAAAGAATAGATACCAAGAAACTGAACAAACTGTCAAAGCAGATTCAGAAAGGTCTGGTGAAATCATTCAATAAGTTTGATGAATACCAGTTTGCAAAATACAACAGAAAAGCAGAAGTAACACTGAAAGATGCATTATTCTTAGTTCACCCGAAAGCTAAAGATGAGAATCAGCAGGCTGTTTTCAACAAAATTGCTGATAACACACTGGAAACTCCTTATACATGGGAAGTGGAGCTTTCCGTTTTTGGTCAGACAAAATTTGCAAATAATGCAGAAAGACAACTGGCTTTCAAAAATAAATGGGAAGAATTGATCTTCAGCAACAAACTGGGGTATATGGCAACCATGAGAAACCTGAGGAATATCCTGGAAGCTAAAGTATCATCTGATGCGATGAACAAAGTGTGTAGATATCTTTCCGATGAAAGAGCAGTAACCAATTCAAAACAACTTCCATTCCGATTTCTGGCAGCTTACAGAGAATTAAAAAACTGTGATTCTTCTTATCTGTCATCAGTACTGGAAGCATTGGAAAATGCTGTTGTAGTGAGTGCCAGAAATATCAAAGGTTTTGGTTTTGAGACTTCAGTGGTGATCGCAGCCGATGTGTCAGGTTCTATGCAGAAAGCGGTTTTCGGTAAAAGTAAAATTTTACTGTATGATATCGGTTTGTTGATGTCTATGATTCTCCAGTCACAGTGTAAAAACGTGGTAACAGGTATCTTCGGAGACCGTTGGTTAAGAGTTCCAATGCCGAAAAACGGTATTTTAAGGAATGTAGATGCATTCTACAAACGTGAAGGTGAAGTAGGATATTCCACCAATGGTTATCTGGTTATTGAAGATCTCATCAAAAGAAGAGAGCAAGTAGATAAAGTAATGTTGTTCACCGATACTCAGATGTGGGATAGCACAGGAAACAGAAATTCCTTTGAAGACGTGTGGAAAAAATACAAAGCCATAGCTCCTCATGCGAAGCTGTATATTTTTGACCTGGCAGGTTATGGTACGCAGCCGCTTGATATCAGAAAAGATGATGTACACCTTATTGCAGGTTGGTCAGATAAAGTTTTCGATGTACTGAATGCGTTGGAAGACAAAAAATCTGCAGTGAAAATGATTCAAAAAGTAGTGCTGTAA	MFDNKKTVTMKFNFLKKENKVVQNYEGAKAYAMTPAEELYSAVVITELSDANYEKGNDRLERIQSLIKKNDPEFVGKLAVYARKDMYLRSIPLVLTTELAKQTSGTDLVSKTVDGVVQRADEIAELLAYYQLANKRIDTKKLNKLSKQIQKGLVKSFNKFDEYQFAKYNRKAEVTLKDALFLVHPKAKDENQQAVFNKIADNTLETPYTWEVELSVFGQTKFANNAERQLAFKNKWEELIFSNKLGYMATMRNLRNILEAKVSSDAMNKVCRYLSDERAVTNSKQLPFRFLAAYRELKNCDSSYLSSVLEALENAVVVSARNIKGFGFETSVVIAADVSGSMQKAVFGKSKILLYDIGLLMSMILQSQCKNVVTGIFGDRWLRVPMPKNGILRNVDAFYKREGEVGYSTNGYLVIEDLIKRREQVDKVMLFTDTQMWDSTGNRNSFEDVWKKYKAIAPHAKLYIFDLAGYGTQPLDIRKDDVHLIAGWSDKVFDVLNALEDKKSAVKMIQKVVL				NA	NA	NA	NA	NA
BMS003_02312	453			hypothetical protein	ATGATCAAAGGAATATATGAGACTCATATTCAGGTGAGCAATCTGGAAAATGCAGTACAGTTTTACACGGAAGTATTAGGATTACAATTAGCACATAGAGATGGAACCAGACCTATTGTTTTTTTATGGGTGGGAGAAGGGAAGAAATTTATGCTCGGATTATGGGAGCAGAAGGAAAATCTTCAGACCAGACATTTTGCTTTTTCCAGCAGTACGGAAGATATTTTGAATTACTCTGTAGAATTTCTTGAAAAAAAGAATTTAAAGCCATATAACTTTTTGAAAAACGGCAGCAGTGAGCCCATGGTATTTTCATGGATGCCTGCACTGGCAATTTATTTTAATGATCCTGATGGAAACCAGCTTGAGTTCATCTCTATCCTGGAAGGCGAAGGCAGACCGGAATTGGGAGTTCTCAGCTATGAAGAGTGGATAAAACAGACAGAAAACTGA	MIKGIYETHIQVSNLENAVQFYTEVLGLQLAHRDGTRPIVFLWVGEGKKFMLGLWEQKENLQTRHFAFSSSTEDILNYSVEFLEKKNLKPYNFLKNGSSEPMVFSWMPALAIYFNDPDGNQLEFISILEGEGRPELGVLSYEEWIKQTEN	PGPT0013300_1664	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
BMS003_02313	1335			hypothetical protein	ATGCTTATTTACAACTATTCAGGGGTGTCCTCTTTAGTAAAGAAGGGAGCTCTTGAAGAATTATTTCTTGCCCAATACAGTGAGATACATAAAAATACTGATGCCCCTTGTTTTTTCTGGGGAAATGTGAGTCAGCCCTTTATTTTAGCGCGGTGTCTCATTACGCTTTCCAACGTAGTGAAGTCTAGTTTTAGTCTGTCACCATTTCAGATGGCACTTCTTAAAGATCCCATAGTAACGGCAGGAAATGAAAGACTAAGGTTTGAAGGTTTTTCTCACTGTGCCGGAGTCTACGCAAGGGTGGATGTACTGCCGGATGGATTAGATGGTGAGTTCCTGGAAAACGGAACAACGAATGTGGACTTCAATCAACCTATGATAACTGCACTGGGAAGTATTCGTCCGAATGAAAAGATCCTGCTTTCTGTAGGTGATAAAGAAGTGGGGGTATACAGGGAACAGGAAAAGATAATAGAAAGAAAGGTGCCTTTACCCATAAAATGGATCAAAGGACTGGGAACGGTTCAGGTATATTTATCAGAATCCGAAAAACGCCATACTTTTAACAAAATTCAGACACAGCAGCTGTTCCGTGGAATGCCGAAAGGTGTTGTAAAAACAGATTATTATTTGATCGTGAGAGGAAATAAGCCCATTTTTTCTCCTGTAAAATCTGCAGATTCTGTCTGCATCGGGGGACTTCACAGGCTTCGTCTTTTAGAACCTCTTCTTCCTTATATTGATTGTATGCAGGTTTTTCCCCATATAAATATGCAGTCTGCCACATGGCAGCTCTATATGGGGAATATCCGGTTCAGCTTTTCTTTATCCCGAGAATGCTGGAGAGGCTTTTCCGGAGAAGGAGCGGTATTGGACAGCCTGGTTTCGGATGTTTCAGATAAATGGATTGATGCTTTGGATAAATATGCCTATGCCAATCAGTCTTTCAGTCCTGCCAGGCTGGCATTGGAAGAAAATATAAGTCTGGATAAAACTGAAAATATTACCGGAAGGCTTGCTGCAATGGGATTACTCGGATATGATCTTGATGACAGAACGTTTTTCTACCGCAGACTTCCTTTTAAATTAAGCCGTATTATAGGACTTAATCCCCGCATAAAAAATGCTGAAAAGCTTATAGAAGAAGGAAAAATAGAAATTTTAAATAACAATAAAGAAAGAACCGAAGCCAGAGTGGAAGGAACCGGTGTACATCACACCGTAATCATTGAAGAAGAAAGAGAACGTTGTACCTGTGAGTGGTTCAGTAAATATCAGGGAGAAAGAGGTCCCTGTAAACATGTATTGGCGGTAAAGAAACTGGTAAATATTTAA	MLIYNYSGVSSLVKKGALEELFLAQYSEIHKNTDAPCFFWGNVSQPFILARCLITLSNVVKSSFSLSPFQMALLKDPIVTAGNERLRFEGFSHCAGVYARVDVLPDGLDGEFLENGTTNVDFNQPMITALGSIRPNEKILLSVGDKEVGVYREQEKIIERKVPLPIKWIKGLGTVQVYLSESEKRHTFNKIQTQQLFRGMPKGVVKTDYYLIVRGNKPIFSPVKSADSVCIGGLHRLRLLEPLLPYIDCMQVFPHINMQSATWQLYMGNIRFSFSLSRECWRGFSGEGAVLDSLVSDVSDKWIDALDKYAYANQSFSPARLALEENISLDKTENITGRLAAMGLLGYDLDDRTFFYRRLPFKLSRIIGLNPRIKNAEKLIEEGKIEILNNNKERTEARVEGTGVHHTVIIEEERERCTCEWFSKYQGERGPCKHVLAVKKLVNI				NA	NA	NA	NA	NA
BMS003_02314	2697			hypothetical protein	ATGAAAGAAAGACTTTATGAAATCCTTAATAAGGAAAAAATACATGAGATTATCCCCTTTCTAAAAGAGCTTAGTATTGAAGAAAGGAAAACACTGGTGCCGTCTATCAAGAAAATGGACCGTGAAATCAGTAAAATTGTAATGACTAAAAATTCCTACCATACGGCAGGATCTGTGGATCAGCATTCCATTATAAATATTGCGTCATTTGTCTGCATGGACAAAAAGAATTTCGGTAAAAACTACTGGAGTCTTTTCCGTAATGCAGAACAGACAGAACAGATCCTGGAGTGGGGATGTCCGGATTGGTTTTCAGATTTTATCAATGAATCCGTAGAAGCAGAATTTACAGCATTTAATTATAAAGATATCCTGGGATGGACAGAGAAAGGCTATATTCAGCCTAAACCGGAATTGCTGGGACATCACCTGAGTAATTACCCGGCGGATCTGGATTGGCATCCTGAAACACTTAATACCCATTTTTGGTATCTGTGCGAATATCCCTCCAAATCCTTACCCTTCCGTAAAGAGTGGTTTCCTATCGTTCAAAAACTCATTACAGAAAAAAAAATTGAAAGAAAAAGATTCCTGAGAGAATGCCTTTTGGCTTCTAACAGAAACTTTAATAAAAATGTCACAGGCTGGTTCATGGATGCTTTTACATCATTAAAGCCAACAGAAGAAGAACTGACTGTTCTGCAGGGTGAATTACTTGCAGGACTGGCTTCCTCACAATCAAAAGCTGTGAATACAATTCTGTCCCATTTGAAAAAAATAGTGGGAACTCCTGAGTTTAAAAATAAAGAATTTTCACACTATCTCCCAAATCTGCTGAGCTCGGAAGTGAAAACAGTAGTAGTATCCAGTCTGGTACTTACTGAAAAAATATTTCAGCGAAAAAAAATGGATCCCGAAATGCTGGGAATGGCCTTAAGTACAGCATTTGTAAGCAAAGATGATGGTATACAGTCAAAAGCGGCAAAGATTATCCTTAAATATACTCAGGCTTCAGAAAATATGATAGAGGCACTTTCTCATTATTCTGATAATATTCTGACCAATATACGTCCTCTTTTGCTGAAATATATAATAGAAGAGCAATCGGAACTGGAAGCAATAGCTTCGGAAAAAATGGTACTTGCTGCAGATGAAAATGCGGTGCAGGTACTTCAGAGTTTTGAAGACCTGATGTTCTACCTTCCTCTGGCGATGGATGATCCTTATAGCTATCATTGTGATATTGCTTTGACGGGCTTTATCAAGTTTGCAGGTGATGTAGATGCTGAATCAGTAAAGCTTATAGAGCCTGTATTTTTGAAGGCCTGCAAAACCATTGCAAAATGGGAAGTTCCTTATCTTAATGTTTTACTGTGTAATGCTATTATTAATTATGGATTGACTCTGCTGGAAAAATATCCTGTTCAGCTTAAAAATCTGGAAAAAATATATCAGAAAACCAAAGAAGAGGAAACCACAAGAGAATCATATTCAACTTATCAGAAAAAATTAGGTCCAATAGAGGACGTAGGTGCAGACTGTCCTGCAAGGCAGGCGTTTAAGGAAATTGCTATTTACGCTCTTGAAAAAATAAAATCCGGAGATAAAATTCCTCTGCTGTTCCCAATTACCCATGCTCCATGCTGGATCTCTCCTTTAATTTTGGTAGAGAGACTGGAGAATTATCAGAATAATAATGTAGAGCCTCATCATCTGGATATCCAGCTGGCATTGCAGCGCTGTGCATTAGATGATACTTCAAAAGCAATAGAAGAAGTTGAAAAAAAGTTGAAAGGTGAATATAGAGAATTACTGCTTTTCTTCTTTGGTAAAAATAAAAGGCCGGAAGGCAAGTTTATACATCCTTCATGGTGGATGACTGCCGGAATTACCCGTTCACCTGAGACTATTTTTGAAGAATTCAGAAACTTCGGGTATGATAATATTCCTGTTGAATTCTTTTCAGGTGCTTACAAATGGAAAACCATTGATAATAAGAAAAGCTCATATTATCCTGTAGAACTGAAAATGATCATTCCAAAATATCATCTTGAGAAAAGAAAAGAACCTTTGTTCATGGAATATTTTGTAGCTGAGCAGAAAGAACTGAACGAGATTCCTGCGCTTATGCTGTGTTTCCCAAATACCCCTGCAAATGCATTAGCAAAGGTGATCAAACACTGTCTTTTCTATTCCGGAATTGCAGAAGTTTTTGAAAGAAATCTTGTTTTGAATACTGCAAATACCCTTTATCAGATCAAAAAACCTCTGGATGAAATAGGCTGTCTTTTCTTGGGAACTATTTTTCTGGACAGTGATAAGACCATCCGTGGAACAGCAGCTGAAATCTGGCTTGAACATGTTTCCTGCCAGATGATGGATAATGCGTTGCTGGGAAAAGTAATCGGCTTGCACGAAAAGCTGGAATGGGCACCCGTTAAAAGATTAACAGACATTATGCAGCATCATATGATGAATATCAGTAAAAATCATAATATTGCTCTGGAGGAGCTGATTTCTAATATTCTGTTTCAAATGGATGCACCCGTTACCAATCTGAAAAAAATTCTGGAGATCTACCACGAAGTATTGGCTTTGAATCATTCAGTAGCCCATATAGAAGTCATCGGAAAATTAAACAGCTGGAAAGAAAACTCTAGTCTGAAAAAAATCTGCAATCTTCTTCTGAAAAAATAA	MKERLYEILNKEKIHEIIPFLKELSIEERKTLVPSIKKMDREISKIVMTKNSYHTAGSVDQHSIINIASFVCMDKKNFGKNYWSLFRNAEQTEQILEWGCPDWFSDFINESVEAEFTAFNYKDILGWTEKGYIQPKPELLGHHLSNYPADLDWHPETLNTHFWYLCEYPSKSLPFRKEWFPIVQKLITEKKIERKRFLRECLLASNRNFNKNVTGWFMDAFTSLKPTEEELTVLQGELLAGLASSQSKAVNTILSHLKKIVGTPEFKNKEFSHYLPNLLSSEVKTVVVSSLVLTEKIFQRKKMDPEMLGMALSTAFVSKDDGIQSKAAKIILKYTQASENMIEALSHYSDNILTNIRPLLLKYIIEEQSELEAIASEKMVLAADENAVQVLQSFEDLMFYLPLAMDDPYSYHCDIALTGFIKFAGDVDAESVKLIEPVFLKACKTIAKWEVPYLNVLLCNAIINYGLTLLEKYPVQLKNLEKIYQKTKEEETTRESYSTYQKKLGPIEDVGADCPARQAFKEIAIYALEKIKSGDKIPLLFPITHAPCWISPLILVERLENYQNNNVEPHHLDIQLALQRCALDDTSKAIEEVEKKLKGEYRELLLFFFGKNKRPEGKFIHPSWWMTAGITRSPETIFEEFRNFGYDNIPVEFFSGAYKWKTIDNKKSSYYPVELKMIIPKYHLEKRKEPLFMEYFVAEQKELNEIPALMLCFPNTPANALAKVIKHCLFYSGIAEVFERNLVLNTANTLYQIKKPLDEIGCLFLGTIFLDSDKTIRGTAAEIWLEHVSCQMMDNALLGKVIGLHEKLEWAPVKRLTDIMQHHMMNISKNHNIALEELISNILFQMDAPVTNLKKILEIYHEVLALNHSVAHIEVIGKLNSWKENSSLKKICNLLLKK				NA	NA	NA	NA	NA
BMS003_02315	795			hypothetical protein	ATGCTTATTGATGAAGGTTTTGAGGTGATATATTTAAACTGTAAAATAAATAATATTACTCCTTTTCTCAGAAAGCTTGCACCAAAAGATAAAAAAGAAGTGGTTGCTCTTTTAAAAAAACATTATAAAAAACTGAGCCACAATACCATTTCTGTGTTGGCTTTTCTCACCTGCAGCAAAGCAGGAAATGGGTACAGAGAACAAAATCCCGGATATGATGAAATCCCGGCTGATTTTGTTATCGAATCATCTGAAATTAATCTTCCTGAAAATACCTCTTTCTTAAAGAATTTATTCAATTCTTATGATGGTGTTTATCATCATAACATGATCATATTTTTGGATATAATATCCCGTTTTTCGGGCTATGTTTTTACAGAGAAAAATAATAATATTTCATTAATCTCTGTATATCAGTTTGTTATAGGGGGTGCTGAAGTATGTCCAAATACCAAAATGAAGGTGAAATTACCTTTAAAGAATAGGTTAGTTTTGTTCCTGTATTCCGGACTGTTTAATATATATGAAACACTCTGTGGTACGGCTTTTGAAGTCCTTTTAAACAAGGAGTTTTCACATAATATTAAAGAAGAGAGGTGGAGAGGGCTAACTGATAAGAAGTCCGGTTTTGAATGTAATCCTGTAAAGACATTTATACATGGAATTTTAAACTTTATCAGTCTGATTATCAGATGTAATGTCATTTTTGAAAAATTGCTGATCCCATTCTTTCAGCCTTTGAAAAAACGGATTTTAATAGGAAGAAGCCCTGCGAGCTTGATGCTGAATGGCTAA	MLIDEGFEVIYLNCKINNITPFLRKLAPKDKKEVVALLKKHYKKLSHNTISVLAFLTCSKAGNGYREQNPGYDEIPADFVIESSEINLPENTSFLKNLFNSYDGVYHHNMIIFLDIISRFSGYVFTEKNNNISLISVYQFVIGGAEVCPNTKMKVKLPLKNRLVLFLYSGLFNIYETLCGTAFEVLLNKEFSHNIKEERWRGLTDKKSGFECNPVKTFIHGILNFISLIIRCNVIFEKLLIPFFQPLKKRILIGRSPASLMLNG				NA	NA	NA	NA	NA
BMS003_02316	426			hypothetical protein	ATGATAAGCACAGAATTGTTATTTTTAATAAACATCAACAAACTACAGTCTGTGATCGCCAGAAAATTTGATTCTCTGAGTGTTCATGGGCTGGGATTCAACGACTTTGTTATTCTTCATGTTCTTAATTCGGCGTCAGAAAGCAGGATGCGAAGAATAGATCTTGCTGAAAAAATCGGTATTACAGCATCAGGAGTAACCCGATTATTGAATCCATTGGAAAAAATCGGACTGGTAGCGAGAGAAACCAATGAAAGGGATGCCCGCGTAAGCTATGTGGTTATTACTCCTAACGGTAAAAAGATATTTGAAGAGGCTATAAAAAGTGCCGAGCATATTACTAAAGAAATTCTTTCTCCTAAAAAGGGTAAATCTTTAAAAATGATCAATGAGTTTTTATTTGATTTAGGCGGAAATATACAATAA	MISTELLFLININKLQSVIARKFDSLSVHGLGFNDFVILHVLNSASESRMRRIDLAEKIGITASGVTRLLNPLEKIGLVARETNERDARVSYVVITPNGKKIFEEAIKSAEHITKEILSPKKGKSLKMINEFLFDLGGNIQ				NA	NA	NA	NA	NA
BMS003_02317	345			hypothetical protein	ATGAAAAATGCATTAAAGAAACAGCTGAAAGAAAAAGCAAAAAATTACAGAACAACGATGGGAGTTCTTGCTGTTACCAATACATTAAACGGAAAACAATATGTTCAGGCATCTTTAAATCTAGAAGCACTGGTTAATAAAATGAAGTTTCTTTTAAATAGCGAAATGTTTGAGCATTCACAATTACAAAAGGAATGGACAGAATTGGGCAGTGATTCTTTTACTTTTGAATTTGCCGTAATCGTTCCGGATCAGAATAATGAATATATCAATTATCGTCAGGAGATACGAAAGGCTGAACAGGCATTCATATCAGAAAGCAACATGGAATTCTATTCATCATGA	MKNALKKQLKEKAKNYRTTMGVLAVTNTLNGKQYVQASLNLEALVNKMKFLLNSEMFEHSQLQKEWTELGSDSFTFEFAVIVPDQNNEYINYRQEIRKAEQAFISESNMEFYSS				NA	NA	NA	NA	NA
BMS003_02318	888	rdmC		Aclacinomycin methylesterase RdmC	ATGACGAAAATTATCCGTACAAAAGAAGTAGATCTATGCTACGAAATTTTTGGAGAAGATCAGCAGCAGAGTATTATATTAATTCCTGGATTAGGAAGTCAGATGATTCGTTGGGACATTGCATTCTGTGAGCTTCTGGTTGAAAAAGGGTTCAGAGTGATCCGTTTTGATAACAGAGATTCCGGAAGTTCTGTTTTTAATTCCAAAAGAGAAATCCCTTCTGACAAAAGTATTGAAGAAGTTTTTGCCACACTTAATAAAGAAGGAATTCCTTATTCTTTGATGGATATGGCGAATGATGTTATTGGTTTACTGGACCATTTAAAGATTGAAAAAGCTCATATTGCAGGGCGTTCTATGGGAGGAATTATTGCTCAGCTTTTAGGTTCATACTATCCTGAAAGGATTTTATCACTGACGATGATCATGTCTACCTCTTTGAATCCTTCCCTTCCCAAGCCTGATCCTGAAGTGATGACTATGATGACACAGGTGTCTGCGGATCCTGTCCTTTATAAAGTGGAATATTTGCGAGAGAAAATACGTTTTGCAAAGAAAATATCGGGTTCGGGATATGTTTTTGACCCGAATCAGGAAGAAGCTTTGCTTGAAGAGGAACTTACCCGTTCCCGGACAAAAAACGGAATCATCCGACAGCTTTCAGCAATGGTTTTTTTCCAATATGATGCTCAACTATTGAAGAAAATAGACGTTCCTTCTCTGATCATTCACGGAACAGATGATTTGATCTTTCATCCTGATTGTGGAAAAGATATTGCGGATACCATTCCTGATGCTGATTGGGTTTTGATAGAAGGCATGGGACATTCTATTCCTGCTGAGCTTTATAGTTTTATTAGCGACAGGATTTATGATTTAGCAAAATAA	MTKIIRTKEVDLCYEIFGEDQQQSIILIPGLGSQMIRWDIAFCELLVEKGFRVIRFDNRDSGSSVFNSKREIPSDKSIEEVFATLNKEGIPYSLMDMANDVIGLLDHLKIEKAHIAGRSMGGIIAQLLGSYYPERILSLTMIMSTSLNPSLPKPDPEVMTMMTQVSADPVLYKVEYLREKIRFAKKISGSGYVFDPNQEEALLEEELTRSRTKNGIIRQLSAMVFFQYDAQLLKKIDVPSLIIHGTDDLIFHPDCGKDIADTIPDADWVLIEGMGHSIPAELYSFISDRIYDLAK				NA	NA	NA	NA	NA
BMS003_02319	552			hypothetical protein	ATGAAAACAACAGAAAATATATTAATCGTCGACCTCGAAGCAACGTGTTGGAATAAGCGTCCACCCAGAGGTCAGGAAAGTGAGATCATTGAAATAGGAGTATGCATCATGAATGCAAAAACCGGTAGGATCTCCAAAAATGAGGGGATTTTAATAAAACCCCAATATTCAAAAATAAGCCCGTTTTGTACAGAACTTACCACGCTTACCCAAAATATGCTGGATCATGAAGGGATCATGCTGGATGATGCTTTCGATATCCTCAGAGCAGAATATGATTCCGAAGAACTGACATGGGCCAGTTATGGAAACTATGATCTGAATATGCTTCAGGACCAGGTAAGAAGATTCTGCACAGATTACCCTATGAGTGATGACCACATCAATGTAAAGACCTTATTTGGTGAAATTCATCCTACCATCAGGAAAAGTGTTGGGATGAACAGAGCTTTGGGTGAACTGGGTCTGACTTTAGAAGGTACTCATCACAGAGGAGTAGATGACGCTAAAAACATTGCGAAAATTCTGCATTGGTGTCTGAAGAATTATTAA	MKTTENILIVDLEATCWNKRPPRGQESEIIEIGVCIMNAKTGRISKNEGILIKPQYSKISPFCTELTTLTQNMLDHEGIMLDDAFDILRAEYDSEELTWASYGNYDLNMLQDQVRRFCTDYPMSDDHINVKTLFGEIHPTIRKSVGMNRALGELGLTLEGTHHRGVDDAKNIAKILHWCLKNY				NA	NA	NA	NA	NA
BMS003_02320	945	rbn_1		Ribonuclease BN	ATGTTACAGGCAGAAATAAAAAGTCTTTTAAAGGAAGACATCAGTATATTAATTAAAGTTCCAAATTCAGGAAAACATTATTTGTGTGATTGTGGTGAAGCAAGTTTGCTTACTGTAAAAGAAATACAGTCCGTATCGGCAGTATTCATCAGTCATACCCATATTGATCATTTTTCAAATTTTGATGGAATTTTCAGACATCAGATCGGAAGTGGAGAAAAAGTAGTGATTAACGGGCCAAAAAACATTCATCAACAAGTTGAAGCAAGGTTGAAATCTTACACTTGGAATTTGATTGACGAAAAAGCCATCGAATATGAAATCCGTGAGATTGTTTCAAAAGAAGAAATTAATGTGTACACCCTTCGTTCGCCACACTGGAATCCAGAATTCATAAAGACTCAATATTTCCTGTTTGAAGATGAACATGTCAACGTTGATTTTGCTATTCTTGATCATAAAACAGATTCAATTGCTTATTTATTTAAAGAAAAAGATACAATAAGTTTCAGTGAAAAAGCTTCTGATTTCAAAAAAGGTAAGTGGATCAGCGAATTGAAAATTGCATTTGAAAATAATGATGAAGAAAAAGAAATCGAAATTGAAGAAACGGCTTACAAAGCAGCAGATCTGTTTCATTTATTAACCCGTAATGAAGGTTTCAAACTTGGTGTAATCATGGATCATGCGGCGGATGAAAATAATGATGAAAAAATAAGAAAGGTATTTGGAGGAGCGGATCTTGTATATATTGAAAGCTTTTATAAAGATTCTGATCAGGAATTTGCGAAAATCAATTATCATAGTTTTGCCTCTGCATCAGGAAAAATAATGAATGAATGTCAGGTAAAAGAAGCTGTTCCCATTCACTTTTCTAGAAGATACACAGAAAGTGATCAGGAAGAAATTGAAACTGCTTTTTATAAAGCATTTCGTAAGGATTAA	MLQAEIKSLLKEDISILIKVPNSGKHYLCDCGEASLLTVKEIQSVSAVFISHTHIDHFSNFDGIFRHQIGSGEKVVINGPKNIHQQVEARLKSYTWNLIDEKAIEYEIREIVSKEEINVYTLRSPHWNPEFIKTQYFLFEDEHVNVDFAILDHKTDSIAYLFKEKDTISFSEKASDFKKGKWISELKIAFENNDEEKEIEIEETAYKAADLFHLLTRNEGFKLGVIMDHAADENNDEKIRKVFGGADLVYIESFYKDSDQEFAKINYHSFASASGKIMNECQVKEAVPIHFSRRYTESDQEEIETAFYKAFRKD				NA	NA	NA	NA	NA
BMS003_02321	1017			hypothetical protein	ATGATTTTCAAAACATATAACACTATAGAAAATGCTTACCAGGCCCGCGTGATCGAACAGATCAGAATTCAGGGTTTTGGGGATGAGGTTTTCATCGTACAGGAAAAAGTTCACGGAGCTAATTTCTCTTTCTTTACCGACGGAAAGGAAATTAAAATCGCGAAGAGAACTGCTTTCATCGAAAAAGATGAGAAATTTTTCAATGCCTATCAGATGTTGGAGCGTTACAGAAAAAATGTAATAGAAGTGTTTCAAAAAGTGAAAACCATTCATCCGGATGTTGAAACTGTAGTGATCTACGGTGAATTGTTCGGTGGCGGTTTCAAACATAAAGAAGTGGAACCCGTAAAAGATGCTGTGAAAGTACAGAAAGGTATTGAATATGCACCTTACAACGAATTTTACGCTTTTGATATTAAACTGAATGGAATTACCTATTTGGATACAGAAGTTGTCAATCCGATTTTTGATGAGACAGGATTTTTCTATGCTAAAGTCTTGTTTCAAGGAACGCTGGAAGAAGCTTTGAAATTCCCTAATGTTTTCAATTCACAAATCCCGGCTTGGCTTGGGTTACCTGAATTAGAGAACAATATGTGTGAAGGTACCATTGTAAAAACTTTGAAGACCCGATACTTTGGAAACGGAGCAAGAATCATCCTTAAAAATAAGAATGAAAAATGGGTAGAAAAGTCCAAAATGGTTAAAAAAGAGGCTAAAACTGTTCAGAAACAAGTTCATTTCAGCGAAAAAGCTCAGGGGATATGGGAAGAAATCCAAAAATATGTTACAACTAACAGATTGAATAATGTAGTAAGCAAAATTGGCGAATTCGAACCTAAAATGATAGGTAAGGTAATTGGCCTTTTTTCACAGGATATTTTAGAGGACTTCCAGAAAGACTTCCCGGCAGCTTTCACAGCTATTGAAAAAGAAGAGCAGAAAAGGATCAACAAAAAGTTGAATTCTTTAGTCATTGATTTTATAAAAGAAGAGTTAATGACTCTTAAAGTGTAG	MIFKTYNTIENAYQARVIEQIRIQGFGDEVFIVQEKVHGANFSFFTDGKEIKIAKRTAFIEKDEKFFNAYQMLERYRKNVIEVFQKVKTIHPDVETVVIYGELFGGGFKHKEVEPVKDAVKVQKGIEYAPYNEFYAFDIKLNGITYLDTEVVNPIFDETGFFYAKVLFQGTLEEALKFPNVFNSQIPAWLGLPELENNMCEGTIVKTLKTRYFGNGARIILKNKNEKWVEKSKMVKKEAKTVQKQVHFSEKAQGIWEEIQKYVTTNRLNNVVSKIGEFEPKMIGKVIGLFSQDILEDFQKDFPAAFTAIEKEEQKRINKKLNSLVIDFIKEELMTLKV				NA	NA	NA	NA	NA
BMS003_02322	564			hypothetical protein	ATGGACATTTTTAGGTTTATCCAAGATATAAAAACACATCTGAAACTCACATTTGACGATGTCGACAGATGGTTTGAAACAGATAGTAAAACGTTGAATCATCAGCCTTCAAATGGAGGCTGGACGGTTCAGCAGATTTTAGAGCATATTTATCTTACGAATTTTTACCTGCTGATCCTTATTGAAAAAGGTTCCAAAAAAGCAATGAAGAATTCTTTAGATCTTGATTTGCAATCTGAAATGAAAAACTACAGTTTGAACAAAGAAAATTTTGACAAAGTAGGGGAGCACGGTGCCTTTGAATGGATAAGACCAGAACATATGGAGCCGAAAGGAGAATTAAGCTTAGATGAAATCAGAAGCTTAATAAACCAACAATATCTTCAATGCTTACACTATCTTGAAGTAATGAAAAATGGGGAAGGTCTTTTGTATAAAACTGCAATGACAGTGAATGAGCTTGGGAAAATTAATGTATATGAATATATCTATTTCCTTTCGCTTCATGCCCAAAGACACATTACTCAGATGGAAAAAAACGAATCAGAAACGATTAAAAATTAA	MDIFRFIQDIKTHLKLTFDDVDRWFETDSKTLNHQPSNGGWTVQQILEHIYLTNFYLLILIEKGSKKAMKNSLDLDLQSEMKNYSLNKENFDKVGEHGAFEWIRPEHMEPKGELSLDEIRSLINQQYLQCLHYLEVMKNGEGLLYKTAMTVNELGKINVYEYIYFLSLHAQRHITQMEKNESETIKN				NA	NA	NA	NA	NA
BMS003_02323	372			hypothetical protein	ATGGAAAAAACAAAAAGATTATTATTTCTGGATGATATAAGATACCCTATTGAGGTCTATCATTATACTAAACAGGATGTTTTCCTCAGAAGCGATTGGCATATCGTTCGTAATTACGAACAGTTTGTCAGCAGGATTTTGGAAAAAGGACTTCCGGAAATGATTTCTTTTGACCATGATCTGGCAGACGAACATTATTTGACGCAGAATTCTCAGGAATTTGTTGAAAAAACAGGATATGACTGTGCGAAATGGCTGATAATATATTGTATGGACAATTATCTGGACCTTCCAAAATTCTATTGTCACTCTATGAATCCGGTAGGAAAGGAAAATATCTTAAGCCTGCTGCAAAATTTTAAAAAATTGTAA	MEKTKRLLFLDDIRYPIEVYHYTKQDVFLRSDWHIVRNYEQFVSRILEKGLPEMISFDHDLADEHYLTQNSQEFVEKTGYDCAKWLIIYCMDNYLDLPKFYCHSMNPVGKENILSLLQNFKKL				NA	NA	NA	NA	NA
BMS003_02324	777			hypothetical protein	ATGTATTTTCTAGTTCAGGCTAATGTATATTTAGATCCCGATCACTATAAAATTTTTGTTGCATTGGAAGAGTTAAATATAGATTATGATGTAATTAATATTCCTCCTGCTGCAGAAAAAATAGATTTCGAAACAGATAGAAAAGATGTTTTTGTATATGGTTCGGTGACAATTGCAAGATTGGCGAAACAAAATTCAGACTGGTTTCCAGGTTCTTTTTACGGAGGAAATCATCAGTATGAAATATACTCAAAATATTATGGTGAAAACCTGCTTAATGATAATGTTTCTGTTCATACAATTTCCGAGCAGTTGGATTGGAAAAAAGATGAAACTAAATTCATTAAACCATACAATGAAGCAAAAATTTTTACAGGAAAAGTTTTCACGGAAACAGAGTGGAAAGATTTTGTGTTTGAAGCTTTAGAATCTCAAAGTAATAGGATTAATAAAGATTCATTAATACAGGTTTCCGAAGCGAAGCGAACCATAAAAGAAGCAAGGCTTTGGATTGTTGGAGGGCAGGTTATTGATGGAGGTTATTATAAATTTAATGATAATGTACCTTTTGAAGAAAAAGTTTCAGAAGACGGATTGAGTTTCGCTAATGAAATGATAAAACTTTTTAATCTTGAAGAAGCTTTTGTAATGGATATTTGTTTAACGGACGAAGGTTGGAAAATTGTTGAAATAAATTGTATCAACAGCTCTGGATTTTATCCAAATACGAATGTGAAAAGCGTGATTAAAGCATTGAACATTTATTTTTCAAATTAA	MYFLVQANVYLDPDHYKIFVALEELNIDYDVINIPPAAEKIDFETDRKDVFVYGSVTIARLAKQNSDWFPGSFYGGNHQYEIYSKYYGENLLNDNVSVHTISEQLDWKKDETKFIKPYNEAKIFTGKVFTETEWKDFVFEALESQSNRINKDSLIQVSEAKRTIKEARLWIVGGQVIDGGYYKFNDNVPFEEKVSEDGLSFANEMIKLFNLEEAFVMDICLTDEGWKIVEINCINSSGFYPNTNVKSVIKALNIYFSN				NA	NA	NA	NA	NA
BMS003_02325	813			hypothetical protein	ATGAAAACAGTTTTAATCATTAATGGCGAAAAATATTGGAAAGAGTATTTTGCAGGATTTGATGTTGTGCAAAAAAAAGTTCAGACATCAGAATTCATCATAAAAGACTCTTTATTGTATGTAACAGATGTAGATGGAGTTTGCAAACCGGATATTATTTTCTGGAGATTGGGAGCAATCAATCCTGAGCCTAAATATAGGACTATTTTAGAACTGATAGAGTATTCGGGAGTTCCATGTGTAAATTCCGCTTCCACATTATTGATGGGATATGAAAGGCTCACTATGCTGAATATCCTTAGAAAAATTGATTTGCCAGTTATCAATTTTAATGTATCAACAAGTACTCAACATTTGAAAAATCTGGAAATGAAATTTCCTTTTGTAGTAAAAGTTGGAAATCATCATGGCGGATATGGTAAAAGCTTAGTTTCAACAGAGGAAAAATGGGAAGAATTGAAAGATTTACTGTTTATTCATCAGGATTATGTGACTATTGAAAAGTTTATTGATTATAAATATGATATTCGGTATCTGGCCATCAATGATAAAGTTTGGGCAATGAAAAGAAAAGGAAAATTTTGGAAAGCTAATTCTTTAACCCAAGAATATCAAATTATAAAGCCGGAAGATGAATGGATTGAAAAAGTAAAACTATTACAACATTATATTAAAGCGGATATTGTAGCGATTGATCTATTGGAAACAGAAAACGGAGAAAAAATAATTTTAGAATATAATGATATTCCAGGTCTTTCAGGGTTTCCTGAAGATGCAAAATTGGAATTGTCACAGACAGTGAAAAGTAAATAA	MKTVLIINGEKYWKEYFAGFDVVQKKVQTSEFIIKDSLLYVTDVDGVCKPDIIFWRLGAINPEPKYRTILELIEYSGVPCVNSASTLLMGYERLTMLNILRKIDLPVINFNVSTSTQHLKNLEMKFPFVVKVGNHHGGYGKSLVSTEEKWEELKDLLFIHQDYVTIEKFIDYKYDIRYLAINDKVWAMKRKGKFWKANSLTQEYQIIKPEDEWIEKVKLLQHYIKADIVAIDLLETENGEKIILEYNDIPGLSGFPEDAKLELSQTVKSK				NA	NA	NA	NA	NA
BMS003_02326	486			hypothetical protein	ATGGAAACGCAACAACAAAAATGGCAGAATATGAATGGAAAAATTTTCCAGAACTCTATCACACAGTTGGTAGAAGAAGCCATCCTCCGCGAACAGGCCAACGGACACCGTCTGAAAGTATGTGTGGGATCTGACTCTCATGTATATGGAGATGCCATCAGCTATGCTACGGCAGTAGTATTTATTCGTGAGGGAAAAGGAGCGTTTACCTTTATCAGAAAAGAAAGAGAAATACAGAGTATCAGTATCAAAGAACGAATGCTGAATGAAGTCAACAAATCCGTTGAAATTGCATACGCAATCTGCTCTGTGTTGGATGCTTATGGTGTGGAAATGGAGGTACACGCAGACATTAATACTGACCCGGATTTTAAATCTAATGTGGCATTAAAAGATGCAATGGGATATATTCTCGGAATGGGATATGTGTTTAAAGCAAAACCTTTCGCTTTCGCAAGTTCCAACTGTGCTGATATGATGGTGTAA	METQQQKWQNMNGKIFQNSITQLVEEAILREQANGHRLKVCVGSDSHVYGDAISYATAVVFIREGKGAFTFIRKEREIQSISIKERMLNEVNKSVEIAYAICSVLDAYGVEMEVHADINTDPDFKSNVALKDAMGYILGMGYVFKAKPFAFASSNCADMMV				NA	NA	NA	NA	NA
BMS003_02342	1023			hypothetical protein	ATGAATAGACAGAAATTTATAGACAAATTTATAGCAGCATTCGTGCTGTTGGCTATGTTTAAAGTTGTCGGGATTGTAGCCCAGCTATTTCATGAAAGTTTCTGGAGTGTGATAGGAACATTGGTTATTTTTCTGGTTGTTGCTTTTATAATCCTTATAGTGATCACCGCTTTAAAAGATAAAGAGCAAAACAACAGAAATTCAGCCGGAAGAAAAGGGAGTGGAAGTAGTAGTTTCTATCTGGAAAATTCACTCTTTGACAGAATCAGAAGCAAATACGAAGAACTGGCAGAAAAATACATTGCCGAAAAAGATTATAAAAAAGCGGCCAGAGTCTATATGAATCTTTTGCAGGACAACTACAGAGGAGCAAAAACACTTGAAAATGGAGGCTTCTACAACGAGGCGGCAGTAATATATCTTAAAAAACTGAATAATAAATCTGATGCTGCAGTTTGTTACGAAAAAGCAAAACAATACAAAAAAGCTATTGATCTTTACAAAGAAATGGAGCAGAAAGAAAAAGTAGGAGATCTTTATAAAGAAATCAGCGATATTAAAAATGCTCATTATTATTATCAGATGGTAGCAGATGATTATGTAGGTAACAGCCAGATGGTGAAAGCTTCTTTGGTTTATCGCAAAAAAATGGAAAAAACAGAAGATGCCCAGAAAGTGCTTTTGAAGGGATGGGAGGACGATAAAGACGCATTCAATTGTCTGAATAACTATTTTGCCAATATTTTCGATAGTAAAAAACTGGAATCTGAAATTCTGAATTTATACGAAAACACTCCGGCCTATAAAAAGATCACCTATCTGGAAGCCATGAAACATGAATTTAAGAAAGATCCGAAATTGCATGCAGCCACCAGAAATATAGCTTACGAAATCATTGCTGAAAAAGTAAATACACGCTCCGAAATTGTCAATGAACTGAAATTCTTTAATCCCCATGATGACGTAATTCTGAAAGACATCTCAAGATTTAAAACAGCAAGAAATAAAATGTTCAGGAATTAA	MNRQKFIDKFIAAFVLLAMFKVVGIVAQLFHESFWSVIGTLVIFLVVAFIILIVITALKDKEQNNRNSAGRKGSGSSSFYLENSLFDRIRSKYEELAEKYIAEKDYKKAARVYMNLLQDNYRGAKTLENGGFYNEAAVIYLKKLNNKSDAAVCYEKAKQYKKAIDLYKEMEQKEKVGDLYKEISDIKNAHYYYQMVADDYVGNSQMVKASLVYRKKMEKTEDAQKVLLKGWEDDKDAFNCLNNYFANIFDSKKLESEILNLYENTPAYKKITYLEAMKHEFKKDPKLHAATRNIAYEIIAEKVNTRSEIVNELKFFNPHDDVILKDISRFKTARNKMFRN				NA	NA	NA	NA	NA
BMS003_02343	1698			hypothetical protein	ATGGAGCTTAGAATAAAACCTTTCCCGAAAAATAACTATCCCAAAAAAGGACTTTTAATTAAAGGTTCTTCACCTGTGGTATGGCTTCGGGAAATGGAAACACTTGGGGTTAATTTAAGTCAGGTTATTTCTTTTGCTATTCCGGCAGATAGTCCCAACGTACTGTATGGATGTTTTCTCATTTTTAAGGATCATGCTCCACAGGAAATAGGTAGAAATGCTTACTTTCAACAGGTAGACGACAGGCTTTTCATTCCTGAAAATACCACCTTTTATCCCAGAATAAATTCCGAAGACTGGGTACAGCTTGATTGCCGTTTTCTGATCATGCATCCTGAATTCGGATTGGTAAAACTCTCTGAAGAAATAGACTGGGTTTTATTAATTCAACAGCCGGGTACAATAGATGAAACCATCAGAAAACCTCTGAATGGGGTTTCAATCCCTCAGAAAATACAAAGCTATACGGTGGAAATGGATGATGAAAAAGTAATGGAAACATTACAGCCAAAGCAAACCGAAGAAGAATGGATGAACAATCTGCCGTTTGACCTTAAAAAAGTAATGGCAGGAAATAAAAAAGAAATAGAAAAATATTTAAAATACATTGAAAAATACCCCGAAAGAGCAGTAGAATTAGGTGTTTCCCTTGATGTAATGGGGACTTCCAGAGGTGATGGCTTTGGTAAATTTACCTGGTTGGAAGGATTATTCGGAGGAGGTTCTGTAGGTAAAACGGAAAGTGCAGGAACAAAAAACTTCCGCAGAGTATTCTGGGCGGTCATTATTGCAGCTATCGTTTTAAAGATCGCATTACCTTCGGATAAAAACAATGCAGAGCAGGAAGAAAATATTTCTTCTTCAGGAACGGTAGTAAACAATGCGGTAAAAGCTCCTTCGGATATGATTGCCTTCCAGTCCGGAACGTCAGAAATTGACCTTAAGATAGATTCACTGTATCACCAGCAGAGAAAAGGACTATCCAAAGAGCTTATTCATGCGGGAATCATAGAATCTAAAACAAAAGAAGACAAAGAAAATTATAAAAAAGCGGGTGGCAGAGATGTAAGTGAAATAGGAATAGATATTGAAAAGCTTGTGAATAAAGAAAAACAAAGCAGAGATTCTCTCAAAACCATTTACACCAAAAAAATCACAAAGCATTTGGAAGAAAAAACAGAGAAGCTGAAGCGTAAAATTTCAGACTCTCTGAAACAATACACCAAAGGAAAGCCTGTCAACGGAGACGTAGTAAAATTTCTGCTGAAGAAAAGAAAAGCATTAATGGCTGATTCATTAGGAAAACTTTACGGTACATTGGATATCGTAGATCCTTCTTCTGCATCTTTTGATAAGACAAAAGTAAAAGCGATAGGTCCGGAAGGGAGTCCCTTAGAAAAAAAGACCCCGGTTTCAGATATCATATATATGGTCATCCTGATGATTGCCGGAGTAGGATTGTATTCTTTCCTGTTTAAAAATAAATCCTTAAATCTTGGCGGAGATAATGTCCCGGTCTGGGTAAAATTTATTTTAATTACAATTCTTGTAGCCATGCTTATATATTTATTTTATCCCTTGGTAAAAATGTTTGGGTACAACTGGTTTGTATGGGTTCTGGTCATTGGTGTAATGCTGCTCCTTTATCGCCTGTTTAGAGAAGATAAAACCATTTTAAACTCTGACGATGATGAATAG	MELRIKPFPKNNYPKKGLLIKGSSPVVWLREMETLGVNLSQVISFAIPADSPNVLYGCFLIFKDHAPQEIGRNAYFQQVDDRLFIPENTTFYPRINSEDWVQLDCRFLIMHPEFGLVKLSEEIDWVLLIQQPGTIDETIRKPLNGVSIPQKIQSYTVEMDDEKVMETLQPKQTEEEWMNNLPFDLKKVMAGNKKEIEKYLKYIEKYPERAVELGVSLDVMGTSRGDGFGKFTWLEGLFGGGSVGKTESAGTKNFRRVFWAVIIAAIVLKIALPSDKNNAEQEENISSSGTVVNNAVKAPSDMIAFQSGTSEIDLKIDSLYHQQRKGLSKELIHAGIIESKTKEDKENYKKAGGRDVSEIGIDIEKLVNKEKQSRDSLKTIYTKKITKHLEEKTEKLKRKISDSLKQYTKGKPVNGDVVKFLLKKRKALMADSLGKLYGTLDIVDPSSASFDKTKVKAIGPEGSPLEKKTPVSDIIYMVILMIAGVGLYSFLFKNKSLNLGGDNVPVWVKFILITILVAMLIYLFYPLVKMFGYNWFVWVLVIGVMLLLYRLFREDKTILNSDDDE				NA	NA	NA	NA	NA
BMS003_02344	2379			hypothetical protein	ATGGAATTAAAGGCCTATTTCCAGTCCTACGAAAACTACTTTTGGGAATGGAAAACAGATGAAGATGTTCCCGGAGATTGCGGGTATCATGACAACAATCTTCTCTCCGTGCCGGAGGTGGGAGCGATTGCTTATAGACCCTATATAATGGAAATTCTCAACCAGCTTCAGCCCGCGGGATGGCCTCCGTTCGGGGCATTACTTATGGTTTTATATGCCATGCAGGACGGTTATACAGATTTTGCCGGCCCGTTGAGACGTACAGCTGAGTTTTACAGTGGAGAGGATTTTGAATTCAATGCTGAAAAAGAAATTGAATTCCTGGAAAAAATAAAATCACTTCCTAAAGTCTATAAACAGAGGCAGAACAGAATTGTACTGCTTCAGACTATTTTCGGAAACGTACATAACAGATTATCTCCAGGTCTTTCCGATGGCTTTTTAAGATTCTATTACAAAAGACCACAGGAACTTGCTGCCAGTGCAGAAAAACAAGACGACGCTTCATCAGCTTTAAACAAAGATTTAAGTGCTTTGAATCTTAATGAAAAGTTTCCCACTGCACAATCCATTATTGATGCTATGAAAGGCTTGATGCATGAGCCTGAACTGGAAGATGAGGTGGTAGAAGAAGAAACCACGGTAGGTGACAATAAAGATTTCATCAAAGAATTAATTGAAGAACCAAAGACATTTCATGTAGGAAGCCTCATCAAAAGAATCTGGAGCGGGCTGAAAATTCCGATGAGACATCTTTCTCCCGGAGAACAACCCATCGGAGGAATTTCTGATATGACCAATAAAGGTGATTTTCACAGGATGCTTCTTTCCGAATTTGCCAATGAAGATGACGTTTTCATGAATCGTGTAGCCAATAATGAAGTCCTCTATATTCAGAGAGAAATTCCACCTGAAGAAAATATCTTTGAAAGAATTATCCTTATTGATACTTCCCTCAGAAACTGGGGAACTCCAAAAGTATTGGCCTATGCCTCGGCAATAGCCATTATAAAACATCCTAAAGCTCATTCTGAATGTAAAGTCTTTGCTTTAGGACAGGCAGGAATTCCTATTGAGCTCAACAAAGTGGAAGAGGTGGTGGAAAATTTGAATCAGGTAAGTCCGGTTCTGGAAGTTTCGGAAGCACTGGAGAAGTTTTTTAATGAAAATCATTCAGAAAAGGATATTGAAGTGTTCTTTATTACCCATCAGGATAATATGGCTGATGAGAAAATTCAGCGGGTCGTGCATCAGAACAGAGATCAGCTGAAATTTTTGGTGACAACGGCCTCAGATGGTGAAATTAATTTTTACAGGCATCATAAGGGAGCAAGAAAACACATCCAGAAAATAAAACTTCCGTTACAGGAGCTGTGGGCCAATCCGCCTCAGCAAAAACAATCTGTTCAGAATTTTAACGGAAAGAAAACAGATCTTCCGCAGAACTATCCGATTTTATTTCCAACGCCTGTCAATAAGATCGCCAAGTTTTTATATGATGGAGAATTTTTTATTCTGAGTTCAAAAAAACAATTGCTGAAGACCTATCTTTCTGATAATTATTACGACAGACACTCTTATGATTATTATAAGACCCATCATGGCTGTGAAGTTTTGTTTGATAAAATTTCCATAAAACCAAAGGGGCAGTTTGCCTTAGCAAAAAACAGACAGCAGCACTTTATTCTGTGTCAGTACCATCCTGATCAGAAAATACTATCAAAACTTAATCTTAATACCGGAGAATATTCTGACCAGAATCTTACGGGAATGTATATCCCGGAATCGTACAGGCTGATTTATTTTGGACGGAACTTTTATCTCCATCATCCGGACAATGCTACCCATTACAAAATCAATATGGAAGGAAATGTCTCCGTAGAGTCTATTACAGGAAAAGAGAAAGAATTTGAAAAAAATAATATAAAAGCAGAAGCAGAAGTTGCCAAGCTGAAAGGTAGCGGATTGAAAGTGATTAATAACTTCAATAAAATTGGAATCAACAGGTATGAAAATCTGGTTGTTTCCGGAAATGAATTATACAGTGCCTCGGAAAATACACTGGACTTTTCTAAAAACAAGTATGAGATCATAGTTTTCGCAGAACAGAACAAAAATAAATTTACATTCCCTGACGGAAGTGAAATCATTACCGATTCTCGGGGAATGCTTACCTTCCGAAGCAGTAACAAGAGCATCGAAGAATTTTTTATTCCGTCTACGCTGGGAGGCTTCCTCTCCCTGGCTACTTATACGGAATTCGGAGGATCAGAATACTATCTTCCGGAACACGCCCTGTTGAAAGTAAGAACACTGGATGATATGTGCGACAGGTTTTTAAAACCGTTTATAGAACAGATTTTGGATTATGGAGCTTAG	MELKAYFQSYENYFWEWKTDEDVPGDCGYHDNNLLSVPEVGAIAYRPYIMEILNQLQPAGWPPFGALLMVLYAMQDGYTDFAGPLRRTAEFYSGEDFEFNAEKEIEFLEKIKSLPKVYKQRQNRIVLLQTIFGNVHNRLSPGLSDGFLRFYYKRPQELAASAEKQDDASSALNKDLSALNLNEKFPTAQSIIDAMKGLMHEPELEDEVVEEETTVGDNKDFIKELIEEPKTFHVGSLIKRIWSGLKIPMRHLSPGEQPIGGISDMTNKGDFHRMLLSEFANEDDVFMNRVANNEVLYIQREIPPEENIFERIILIDTSLRNWGTPKVLAYASAIAIIKHPKAHSECKVFALGQAGIPIELNKVEEVVENLNQVSPVLEVSEALEKFFNENHSEKDIEVFFITHQDNMADEKIQRVVHQNRDQLKFLVTTASDGEINFYRHHKGARKHIQKIKLPLQELWANPPQQKQSVQNFNGKKTDLPQNYPILFPTPVNKIAKFLYDGEFFILSSKKQLLKTYLSDNYYDRHSYDYYKTHHGCEVLFDKISIKPKGQFALAKNRQQHFILCQYHPDQKILSKLNLNTGEYSDQNLTGMYIPESYRLIYFGRNFYLHHPDNATHYKINMEGNVSVESITGKEKEFEKNNIKAEAEVAKLKGSGLKVINNFNKIGINRYENLVVSGNELYSASENTLDFSKNKYEIIVFAEQNKNKFTFPDGSEIITDSRGMLTFRSSNKSIEEFFIPSTLGGFLSLATYTEFGGSEYYLPEHALLKVRTLDDMCDRFLKPFIEQILDYGA				NA	NA	NA	NA	NA
BMS003_02345	744			hypothetical protein	ATGGCAGAAGATTCTTCAAAGCGTTTAAAAGAATTCTGGGCGGAAATTCCCCGTGATGATGAAGATTTTCTGGGCTCAATCAGAGACTGGAAGAATATTCAGATTGCCGTGGATGATGAAACAGTCTGGCTGAAAGGTTTTACAGATGAGCAGTCGGAGTCCTCAGAAATACAGCAATTGCCGGATTTTGTTTTATATGAACTTCGTGATGGACTTTTATTCAGAAAAGAGGCATTGGTTCCAAGTAAAAAAATGAGAACAGCATTACTTTGGATTCCAATAGACAAGGCGTTGCAGCTTAGTCTTCCGCCTTCCAACCAAAACTATTTTGGAATTCAGGAACAGGTTCAGATAAAGCTGAAAGAAAGCAATGAAGAACAGCAGGTAATCGCTTTACTCAGCAATATTGATGATATTAAGGAAAGTATTATAGCATTACCCAAATTTAAACTTGAAAAGATAAAATGGACATTGCTGGGAGATAAAGCACTGTTTGTTGGGATTCCTTTACTCAGCTTTCCCGGAAAAACCTATTGGAGTAAAGACAGACATTTATTACCTGCCGGTCTGGATTTTGAATTTAAAAACGTAAGCACACTGTTGCAGCAGAAATATAATAAAGATCAGGAAGGATGGCTTATATGGGATGAAAAAGGGAACTGTCTTTTAATTAAAGATACCGATTTCCGTCCGTTGTCCGTAAGCTCATTCCGTCTTACCGAAAAATCAAGAGAATGGAATTAA	MAEDSSKRLKEFWAEIPRDDEDFLGSIRDWKNIQIAVDDETVWLKGFTDEQSESSEIQQLPDFVLYELRDGLLFRKEALVPSKKMRTALLWIPIDKALQLSLPPSNQNYFGIQEQVQIKLKESNEEQQVIALLSNIDDIKESIIALPKFKLEKIKWTLLGDKALFVGIPLLSFPGKTYWSKDRHLLPAGLDFEFKNVSTLLQQKYNKDQEGWLIWDEKGNCLLIKDTDFRPLSVSSFRLTEKSREWN				NA	NA	NA	NA	NA
BMS003_02346	1134	ravA		ATPase RavA	ATGAACCAGAATATAAATCAGCTTAATACAGTCCTAAACTACGTAAAAGATACTTTTGTAGGCAAAAATGATGTCGTAGATCTATTGGGAATATGCCTTTTGGCAAGAGAAAATGCCTTTTTATACGGACCTCCGGGTACAGCAAAATCAGCAATTGTAAGAACGCTGGCAAAAACAGTGAAAGACGGAAAGAATTTCGAATATTTATTAACCCGTTTTACAGAACCTAACGAAATCTTTGGACCTTTTGATATCAGAAAACTGAAAGAAGGTGAACTTCTGACCAATACAGAAGGAATGATGCCGGAAGCTTCCATGGTCTTCCTGGATGAAATTTTCAATGCCAATTCAGCTATTTTGAATTCACTCCTGACAGCGCTCAACGAAAAAATCTTTAAAAGAGGAAAAGAAACCAAACACCTTCCTGCACTCATGTTTGTAGGAGCCAGTAACGTTCTTCCTGAAGACGAAGCACTGAACGCTTTATTCGACCGTTTTTTGGTGAGAGTTAATGTAGATTACGTTAATCCTGAACTTTTGCAACAGGTTCTTTTAGCCGGAAGAAAACTGGAAAATGAAGAAGATACCGAAATTCCGGAAATTCATGCTGATGAGATCAGACAATTACAAAAACTGTGTAGAACTATAGATCTTAAACCCATTTATGAAGTTTACCTGAATACGATTATGAGTCTCAGAAATACAGGTATTACCATTTCAGACCGTAGAGCTGTAAAGCTTCAGAACCTGATTGCAGCAAGTGCACTGATCTGCGGAAGAAATGAAGCCGTACTTTCTGATCTGTGGGTTTTAAAACATATCTGGGATACGGAAGAGCAGATTGAAATTCTGGAAGGGATTATCAACAGGACAATCGAGAAAGATGATCATCCGGATTCCCATCCGCAGGCCATGCAGAACAAAACTCCCAACCCTGAGGAAGTTATGAAAGACGTAAAAATTCTTGTAGAAAAATGGAATGGAGGAACACTGAGTTTTGAAGAACAGAATGTAATAAAGGATAAACTGAGATATCTGCAGACCCGCTGCGACTGGATCAGAAATCAGGAACAGAAGCAGTATATCCAGCAAGAAATAGAAAGTTTATGGCAGAAGATTCTTCAAAGCGTTTAA	MNQNINQLNTVLNYVKDTFVGKNDVVDLLGICLLARENAFLYGPPGTAKSAIVRTLAKTVKDGKNFEYLLTRFTEPNEIFGPFDIRKLKEGELLTNTEGMMPEASMVFLDEIFNANSAILNSLLTALNEKIFKRGKETKHLPALMFVGASNVLPEDEALNALFDRFLVRVNVDYVNPELLQQVLLAGRKLENEEDTEIPEIHADEIRQLQKLCRTIDLKPIYEVYLNTIMSLRNTGITISDRRAVKLQNLIAASALICGRNEAVLSDLWVLKHIWDTEEQIEILEGIINRTIEKDDHPDSHPQAMQNKTPNPEEVMKDVKILVEKWNGGTLSFEEQNVIKDKLRYLQTRCDWIRNQEQKQYIQQEIESLWQKILQSV				NA	NA	NA	NA	NA
BMS003_02347	582			hypothetical protein	ATGAAAACGTATGAGAAAGTATTTGAATTTTTAACCGATTCCACAAAAGAAAAATTCCTGAAATGCCGTGAGCTGGTGATTAATGATCCGGAGTATGATCCCTATTCTGAAGATCTTGAAAACATGCAGAATTTACTGAATAAAGGGAAATTTGAAGAGGTTATACAATATGTCAATGTCAATATTCTGCTGAGTCCCAGAGCACATATTTATAAATATTTTGCTTACAAGGAACTGGATGATGAAAAAGGAAAGAATATTGAAATGACTATAGCACAAATTATTTTTGAATGCCTTGAAAAAACAGGAGACGGAACCAAAGATTCTCCCTATATTATCACCAGAATTTCTGATGAAAGAGATTTGGTGAGGCATCATTTCAATAAACAGGATGTTTCACAAAAACTGATCCGGGATGGAGACAAGATTATGGATGCACTTACTCTGAATGATGGTATGCAGCTGTATTTTGATATCAAAGATCCTTATCAGAGACTGGCTTTTTCATTCAGCAGAAGAAATAAACAGGCAGAAAATAAAGAAGAAGAAAAAGACCAGAAAAAAAAGTGGTGGAAATTTTAA	MKTYEKVFEFLTDSTKEKFLKCRELVINDPEYDPYSEDLENMQNLLNKGKFEEVIQYVNVNILLSPRAHIYKYFAYKELDDEKGKNIEMTIAQIIFECLEKTGDGTKDSPYIITRISDERDLVRHHFNKQDVSQKLIRDGDKIMDALTLNDGMQLYFDIKDPYQRLAFSFSRRNKQAENKEEEKDQKKKWWKF				NA	NA	NA	NA	NA
BMS003_02348	657			hypothetical protein	ATGGAAACCAAGTCACCGTTTTTAGACACGATCTTTTTGCTTCGTAAGGAAGAATGTATTACTCTTTTTTCAAACTTACAGAAAATTTCCCCTCAGGAAGAGATGGAAGCAGGAGATTATTTTGAAACAGAATTCGAAAAAGAAAGACTTGAGTTTTTGTCTGATCAAATAACCTGTAACAAAGAAGCTGCTGTATGGGCTGCAAAAATTCTCTACCATAGCGCACAGCTTTATCTCATAAGAGAAAATACAGAAAAAGATATTGAAAATCTTATTCCCGGATTCAAAGGAACAAGGGATGCCTCTTCCATATTATCCATCGACTTATCACTGAGATTTTTGCCACAGGTAATGATCGCACTAAATACTGTAGATCCTGAAGATCCGCTGATTGCCCTGCTGGAAAATATCCTGATGCAGTTTCACTATTCAGGAATAGGATATGATCTTGATCTGCAGAACGTAAACTGGAAGGAAGAATTAAAAGACAATACTTACCGGAAACTCTATCTGGAAAGAATTGTCGAAAAAAGAGATTATAAATTAGCGGAAATTCCGTTTATTAATAAACTGCTGGCCGCCGAATTCGGAATGCACAAAGAAGCATTCTGGCGGGAACTAAAAACTATAACCGAAGATAACCATGAAAACGTATGA	METKSPFLDTIFLLRKEECITLFSNLQKISPQEEMEAGDYFETEFEKERLEFLSDQITCNKEAAVWAAKILYHSAQLYLIRENTEKDIENLIPGFKGTRDASSILSIDLSLRFLPQVMIALNTVDPEDPLIALLENILMQFHYSGIGYDLDLQNVNWKEELKDNTYRKLYLERIVEKRDYKLAEIPFINKLLAAEFGMHKEAFWRELKTITEDNHENV				NA	NA	NA	NA	NA
BMS003_02349	1629	accD5	COG4799	putative propionyl-CoA carboxylase beta chain 5	ATGGACATCGAATTCAATAAACGAGAAGATCAGAACAGATTAAAATTATCTGAAATAAATCGCTTACTCACTGAAATCAAAAAAGGAGGTGGTGAGAAGAGGCTTCAAAAGCTTCGCGATGAAGGAAAAATGACAGCAAGAGAAAGAATAGATTATCTTCTCGATAAAAATTCAGATTCCATAGAAGTAGGAGCATTTGCCGGATACGAAATGTATCCAGAACATGGAGGTTGTCCCAGCGGAGGAGTTGTAGTTGTTATAGGCTACGTTTCCGGAAGACAGTGTATTATTGTAGCCAATGACGCTTCTGTAAAAGCTGGTGCCTGGTTTCCTATCACAGGAAAGAAAAACCTGAGAGCGCAGGAAATTGCTATGGAAAACAAACTTCCAATTATTTATTTAGTAGACTCAGCCGGTGTTTACCTTCCTATGCAGGATGAGATTTTCCCGGACAAGGAACATTTTGGAAGAATTTTCAGGAACAATGCAAAAATGAGTTCCATGGGAATCATTCAGATTTCTGCCGTTATGGGAAGCTGTGTCGCTGGAGGAGCTTATCTTCCTATTATGAGTGATGAAGCAATGATTGTGGATAAAACAGGTTCTATTTTCCTTGCCGGAAGCTATTTGGTAAAAGCTGCCATCGGGGAAAGCATAGACAATGAAACGCTGGGTGGAGCAACTACCCACTGCTCAATTTCCGGAGTAACAGATTATAAAGCGAAAGATGATAAAGATGCTTTGAACAGAATCAAAAACATCATGAAATCCATCGGAACAACCGAAAAAGCAGGCTTTGACAGAATAGAAAGTTTTCCACCAAAAGAAAATCCAGAAAATATTTTCGGAATTATGCCGGTTTCAAGAGCTGAGCAATATGATACCTACGAAATCATCAAATGTATCGTGGATAACTCAGAATATGAAGAATATAAGCCAGACTACGGTAAAAGTATCATCTGCGCAACAGCAAGAGTTGACGGCTGGTCTGTAGGCATTGTAGCCAACCAGAGAAAACTGGTAAAAAGCGGAAAAGGAGAAATGCAGTTTGGAGGAGTAATTTACTCAGATTCTGCAGATAAAGCTACCCGATTCATAGCAAACTGTAATCAAAGAAAAATACCATTGATCTTCCTACAGGATGTTACCGGATTTATGGTAGGTTCAAAATCAGAACATGGGGGAATCATTAAAGATGGTGCTAAAATGGTAAATGCTGTTTCTAACTCTGTAGTTCCTAAATTTACAATCATTACAGGAAATTCTTACGGAGCCGGAAACTATGCAATGTGTGGCAAAGCATATGACCCTAGATTAATTGTTGCATGGCCTTGGGCAGATTTAGCCGTAATGGGAGGTGCACAGGCGGCAAAAGTATTAGCCCAGATTCAGGAATCTACCTTAAAAAAACAGGGAAAAGAAATCTCCGAAGAAGAGCACAACGAAATTCTAGACAGCATTTCAAAAAAATATCAAAAGCAGACTGAATCTACCTACGCAGCTGCAAGATTATGGACAGATGCTATCATTAACCCGGCAGATACAAGAAAATGGATATCTATGGGTATCGAAGCTGCTAATCATTCTCCTATCACAGAGAAATTCAACCTGGGAATAATCCAAGTCTGA	MDIEFNKREDQNRLKLSEINRLLTEIKKGGGEKRLQKLRDEGKMTARERIDYLLDKNSDSIEVGAFAGYEMYPEHGGCPSGGVVVVIGYVSGRQCIIVANDASVKAGAWFPITGKKNLRAQEIAMENKLPIIYLVDSAGVYLPMQDEIFPDKEHFGRIFRNNAKMSSMGIIQISAVMGSCVAGGAYLPIMSDEAMIVDKTGSIFLAGSYLVKAAIGESIDNETLGGATTHCSISGVTDYKAKDDKDALNRIKNIMKSIGTTEKAGFDRIESFPPKENPENIFGIMPVSRAEQYDTYEIIKCIVDNSEYEEYKPDYGKSIICATARVDGWSVGIVANQRKLVKSGKGEMQFGGVIYSDSADKATRFIANCNQRKIPLIFLQDVTGFMVGSKSEHGGIIKDGAKMVNAVSNSVVPKFTIITGNSYGAGNYAMCGKAYDPRLIVAWPWADLAVMGGAQAAKVLAQIQESTLKKQGKEISEEEHNEILDSISKKYQKQTESTYAAARLWTDAIINPADTRKWISMGIEAANHSPITEKFNLGIIQV	PGPT0019845_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019845-atuC-K13778	NA	NA
BMS003_02350	879			hypothetical protein	ATGCATAAATTAGCGCTTTTCAGATTGCATTTAATAGTTTTTTTGTGGGGATTTACTGCAATTTTGGGAAAACTGATTCATGCCAATGCTCAGATTCTTGTATTTTACAGGATGCTGTTTGCTTCTGTTTTTCTTTTTGTATTCATCAGAGTTTTCAGGAAAGAAAGTATAAAGGTTTCAAAAAAGATATTCTTTCAGCTGGCAGCAATAGGTTTTGCCATGGCGCTTCATTGGTACTGTTTTTTTTATTCAATTAAAGTTTCCAATGTTTCTATAGCATTAAGCTGTCTTTCGTTATCAACACTTTTTGCCTCTATTCTGGAGCCTGTTATTTTCAAGAGGAAGATTGATGTTTCTGAAGTGGTAATGGGAACCATTATTGTGGCTTGTATATTATTAATCTTTAAAACGGAATTTCATTTCAAAGAAGGAATAATTTATGGGATTCTGTGTGCGGTGTTTGGAACTGTTTTTTCAGTATTTAACGGTAAAATGTTTGGTAAAACAAGCTCGGAGAATATTATTTTTTATGAAATTTTTTGTGGTTGGTTTATTTTGATGTTATTCTATCTGCTTTCGGGACAAATTTTTCAGATGAACGAAATAAACTATAGAGATCTGGCGTTAATATGCTTGTTAGCCAGTGTCTTTACCGCTTTTCCAATGTTGGAATCGGTGAATTTAATGAAATATATATCACCCTTTACTTTAATTTTAACAGTTAATTTAGAGCCGGTTTACGGAATTATACTAGCTTTTTTTATCTTTGGGGAATCAGAACATATGAGCCCTGTATTTTATATTGCTTCAGGTGTTATGATACTGGCAATCATTGCAAATGGATTAATAAAAGCCAGAAAAACTAAAAACTTAAACTAA	MHKLALFRLHLIVFLWGFTAILGKLIHANAQILVFYRMLFASVFLFVFIRVFRKESIKVSKKIFFQLAAIGFAMALHWYCFFYSIKVSNVSIALSCLSLSTLFASILEPVIFKRKIDVSEVVMGTIIVACILLIFKTEFHFKEGIIYGILCAVFGTVFSVFNGKMFGKTSSENIIFYEIFCGWFILMLFYLLSGQIFQMNEINYRDLALICLLASVFTAFPMLESVNLMKYISPFTLILTVNLEPVYGIILAFFIFGESEHMSPVFYIASGVMILAIIANGLIKARKTKNLN				NA	NA	NA	NA	NA
BMS003_02351	1083			hypothetical protein	ATGATGAAAAAATATTTTTTACTTGCATTTTCACTGCTCTTTGGGCTTTCTCAATCTCAGATTATCAGGAAATATTCCAATGAATTCTTAAATATCGGAGCCGGGGCAAGAGGACTTGCTATGGGAGGAGCAGTAATCACCAATCAGGATGATGTCTATTCTCCTATGTGGAATCCCGCAGGTTTAATGTCTATTGAAAAAGACTGGCAAGGGGCGGCAATGCACGCAGAATACTTTGAGTCTATCGCAAAATATGATTACCTGGCGTATGCAAAAGTACTTGAAGAAGGTGTTTTTGGAGTTTCAGTAGTGAGGCTTGGGGTAGATAATATTTTGAATACCACTCAAATGATTGATTCGGAAGGAAATATTGATTATGATAAAATCACTAAATTTTCTCAATCTGATTATGCTGCTATTCTTTCCTATGCATTCAGACCGGGTGGAAATCCTAATCTGGATGTGGGGGTGAATGCCAAGATCGTCTACAGAAATGTAGGTAAATTTGCAAGCGGTTATGGTTTCGGTTTTGATGTGGGGGCTATTTATAAAGCAGATAACGGATGGAAATTCGGGGGAATGGTAAGGGATATTACCACTACTGTAAACTTTTGGAGCATCAACCAGAAAGAACTTTCAACTGTTGTAAACGGGGAAGAATTCAACCCTGCTCCTAAGGATAAACTGGAACTTACAATGCCTAAGCTGAATGTAGGTGCCAGCAAGTTATTTGAGATCAATAGCAGTGTGTATGTATTACCGGAAGCAGGTATCAATGTGGATTTTGCTAAAACAGCATCATTGATTTCCACAGATTTTGCCAGCATCAGCCCATATGCCGGAGCTGAAATGGGATATCAGAAAATGATTTTTGTAAGATTGGGGATCAACAGATTTCAGTCTATTACAGATATAGAAGACCTTAAAAGAAAAGTTTCTTTCCAGCCAAGTGCAGGTATTGGGATCAGATACAGAGGACTTACACTGGATTATGCCATTACAAATTCAGGGATAGGCGGATCTAATTTCTACTCCAATTTCTTCTCACTGAAACTGGATATGGGAGCATTCAGAAATGATTAA	MMKKYFLLAFSLLFGLSQSQIIRKYSNEFLNIGAGARGLAMGGAVITNQDDVYSPMWNPAGLMSIEKDWQGAAMHAEYFESIAKYDYLAYAKVLEEGVFGVSVVRLGVDNILNTTQMIDSEGNIDYDKITKFSQSDYAAILSYAFRPGGNPNLDVGVNAKIVYRNVGKFASGYGFGFDVGAIYKADNGWKFGGMVRDITTTVNFWSINQKELSTVVNGEEFNPAPKDKLELTMPKLNVGASKLFEINSSVYVLPEAGINVDFAKTASLISTDFASISPYAGAEMGYQKMIFVRLGINRFQSITDIEDLKRKVSFQPSAGIGIRYRGLTLDYAITNSGIGGSNFYSNFFSLKLDMGAFRND				NA	NA	NA	NA	NA
BMS003_02352	747			hypothetical protein	ATGAAAAAGGTATCCGTATTGTTGATGGCTGTATGCTCAGCAATGATTTTTGCACAGAAAGTCTCGGATTACAAATATGTTGCAGTTCCTGAAAAATTCGAGACATTTAAGGAAGATTATAGCTTGAAAGATCTTTTCATTAAAGCTATGGTAGGGAAAAAATATATAGCACTTCCCGTAATTAAAGATGACTGGCCGGCTGCTGCTAAAAATAACTATTGTAATGTGGTTACTGCTGATATTCTGAATGATAAAAGTTTATTCAAAAATAAACTGATTGTCCGGTTTAAAGATTGTAATAATAAGATGATTGAGGAGTCCAAAGGAAGCTCAAATATCAAAGATTTTGAGCTAGGTTTACAGGATGCTTTAAGACAAGCTTTAATGAAAGTAGCTATCTCTAACCCTGTTGAGCTGTTGCCTGCTACCAAAACTGCTGTTACAACTGCTCAGAACTCATCATCTCCTGAACCTGTTGCTGCTCAGGTAACTTCTGAATCTAATAATTTCTCGAACGGTAAAATAAACCTTCAGAAAATACAGATTGATCCTAGTCAGTTCATTTTGGCTAAATCCGGCAGCTCTGTTCCGTTTGCTGCGTTCAAAACAACTTCTAAAGATGCTGTTTTCATTGTAAAGCTGGATAATGGAAATACAACAATAGGATATTTTGAAAACGGAAATATTGTGATAGATATCCCACAGGCAGACGGAAGATATTCCAAGGAAGTATTTGTGGCAAAATAA	MKKVSVLLMAVCSAMIFAQKVSDYKYVAVPEKFETFKEDYSLKDLFIKAMVGKKYIALPVIKDDWPAAAKNNYCNVVTADILNDKSLFKNKLIVRFKDCNNKMIEESKGSSNIKDFELGLQDALRQALMKVAISNPVELLPATKTAVTTAQNSSSPEPVAAQVTSESNNFSNGKINLQKIQIDPSQFILAKSGSSVPFAAFKTTSKDAVFIVKLDNGNTTIGYFENGNIVIDIPQADGRYSKEVFVAK				NA	NA	NA	NA	NA
BMS003_02353	1794	uvrC	COG0322	UvrABC system protein C	ATGAATCCTTCTTTAGAACTACAGCTCAAAACCTTACCATCCGAACCAGGCGTTTATCGTTATTATGATAAAAACGAACAGCTTTTGTATGTCGGGAAAGCTAAGAATCTTAAAAAAAGGGTTCTCTCTTATTTCAACAAGAATCTTTCCGGATACAGGATCAAAATAATGGTCAGCAAAATCCAACGGCTGGAAACAACCATTGTAAACAGTGAATATGATGCCCTTTTATTGGAAAACAACCTGATTAAGGAACATCAGCCGTTTTACAATGTCATGCTGAAAGATGATAAAACCTATCCCTGGATCTGCATTAAAAATGAAGATTTTCCAAGAATTTTCCTGACAAGAAATGTAATTAAAGACGGATCAGAATATTACGGTCCTTATGCTAAAGTGCGTCCTGCAAAAATTTTGCTGGATACAATCAAACATATTTACAAGCTCAGAACCTGTAATCTGAATCTTTCTCCTGCTAAAATTGCTGAAGGAAAATATAAAGTATGTCTGGAATATCATATCAAAAACTGCGAAGGACCTTGCGAAGATCTGGAAAGCAAGGAAGAATATGATGAAAAGATTGATGCCATCCGCGGGATTATCAAAGGTGAATTCCGGAAAGCAAAGGATTATCTGGTAAATCAGATGATGAAACTGGCTTCCAGCCTTCAGTTTGAAGAGGCTCAGATCATTAAGGAAAGACTTGATATTTTAGAAGATTATCAGGCTAAAAATACAGTAGTCAATCCGAATATTGATGATGTGGATGTTTTCGGAATGACCAGTGATGAAACAGCTGCCTATATCAATTTCTTTAAAATCAGAAACGGAAATATCATTCAGAGTTTTACCACAGAGATCAAAAAGATCCTCGAAGAAACAGATGAAGATATTCTGGAAGAGGCTTTGATAGAGATTCGTCAGAAATTTTCTTCTGATTCCAAGGAAGTTCTTTTGCCGTTTCATCTGTCTGTAGAAATTCCTAATGTAAAGCTGATTGTCCCAAAGGTAGGAGATAAAAAAAGAATCGTGGAGCTTTCTGAAAAAAATGCCAAAGAATATCGTCTGGAAAAGCTGAAACAGGTTCAGATTGTAGATCCTGAAAGACATACCAACAGAATTATGGCAGAAATGCAGAAACTTCTGAGAATGCCTGTGGAACCAAGACATATTGAAGGGTTTGATAACTCAAACATTCAGGGAACCAATCCTGTATCTGCATGTGTTGTTTTTAAAGATGGAAGACCCAGTAAAGCTGATTACAGAATTTTCCACCCTAAAACAGTGGAAGGGCCTAATGATTTTGCAACGATGGAAGAAGTAATCTATCGTCGCTACAAAAGAATGCTTGATGAGGGAGAAAACCTTCCACAACTGATTTTGATAGATGGAGGAAAAGGGCAACTTTCTTCTGCTGTAAAAAGTCTCAGACTACTGGGACTTTACGGAAAAATCACTATTGTAGGGATTGCCAAAAGACTGGAAGAGATTTTTTTCCCGGAAGATCCTATTCCTTTATACCTGGATAAAAAATCCGAAACATTAAAAATCCTTCAGCGCGTACGTGATGAAGCTCACCGGTTTGGAGTAAAACATCACAGAACCAGAAGGAAAAATTCTACCATAAAATCTGAACTGGAAGAAATTCCGGGTGTTGGAGAGAAAACTATTGAACTGCTTTTATCTAAACTGAAGTCTGTAAAACGTATCAAAGAGGCCAATCTGGAAACTCTGGAAGAAATTTTAGGGAAAAGTAAGGCTAAAGTAATTTGGGAGTTTTTTAATGCTAATTAA	MNPSLELQLKTLPSEPGVYRYYDKNEQLLYVGKAKNLKKRVLSYFNKNLSGYRIKIMVSKIQRLETTIVNSEYDALLLENNLIKEHQPFYNVMLKDDKTYPWICIKNEDFPRIFLTRNVIKDGSEYYGPYAKVRPAKILLDTIKHIYKLRTCNLNLSPAKIAEGKYKVCLEYHIKNCEGPCEDLESKEEYDEKIDAIRGIIKGEFRKAKDYLVNQMMKLASSLQFEEAQIIKERLDILEDYQAKNTVVNPNIDDVDVFGMTSDETAAYINFFKIRNGNIIQSFTTEIKKILEETDEDILEEALIEIRQKFSSDSKEVLLPFHLSVEIPNVKLIVPKVGDKKRIVELSEKNAKEYRLEKLKQVQIVDPERHTNRIMAEMQKLLRMPVEPRHIEGFDNSNIQGTNPVSACVVFKDGRPSKADYRIFHPKTVEGPNDFATMEEVIYRRYKRMLDEGENLPQLILIDGGKGQLSSAVKSLRLLGLYGKITIVGIAKRLEEIFFPEDPIPLYLDKKSETLKILQRVRDEAHRFGVKHHRTRRKNSTIKSELEEIPGVGEKTIELLLSKLKSVKRIKEANLETLEEILGKSKAKVIWEFFNAN	PGPT0014925_4180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
BMS003_02354	762			hypothetical protein	ATGAGAATGAAAACTCTACTGCTTGCTTTATGCGTTGCAGGTACCACTGTTTTTGCACAGAAAGTGAAATATTCTAAGGAAGAAAGAAAAGAAATGAACCGCTATCTTTTCAACGAGGGTTTCAATACGGCAACGGATAAAAAAGTTTCTACCATTATTTTAAAGGATAACACAGAATATCAGGGTTACAGCAAATCATGGGAAAAGCAGAAAGGGCAGATTCTTTCTATCACAATTGAAGATATAGATACAAAAAAGCCCATGAAATTTTCCGCAGCAGATATTGCTGAAATGTATTTATACCCTACAGAGAACGAAAAATCTATGAAAGCGGCAAAGTTTATTTCAAATATGAGAAATTACAGCACAAAAAAATACAGTAAGTCTGTAACAGATGATGCTGTTCTGTATGAGAATCAGATTGTTTCTTTGAAAAACAAAAAAGAACCAAGAGCTTTTCTAATGCAGGTTATCAATCCTGAGTTTAATGAGCTTATTTCCGTTTACCATGATCCGTTTGCCTCAGAAACAGCCACTACAGGCTTTGTAGGCGCCCCTGCATTTGGCGGCGGTGTTATCAAGTCTTATTATGTGAAGAAAGGCAATAAGGTAATGTGGCTTCATAAAGATGATTTTGAAGATAATTACGACTTTTTGTTTGGAGATAATCCGGAATTCATGAAAAAATATCCTAAGAATTCTGTAGAATGGAACTATTTAAGCTTTCTTATCTACCAGTATACGGACATGAACCACGGGTAA	MRMKTLLLALCVAGTTVFAQKVKYSKEERKEMNRYLFNEGFNTATDKKVSTIILKDNTEYQGYSKSWEKQKGQILSITIEDIDTKKPMKFSAADIAEMYLYPTENEKSMKAAKFISNMRNYSTKKYSKSVTDDAVLYENQIVSLKNKKEPRAFLMQVINPEFNELISVYHDPFASETATTGFVGAPAFGGGVIKSYYVKKGNKVMWLHKDDFEDNYDFLFGDNPEFMKKYPKNSVEWNYLSFLIYQYTDMNHG				NA	NA	NA	NA	NA
BMS003_02355	1488	hutH	COG2986	Histidine ammonia-lyase	ATGATATACGGAGTAGATGTTTTTACTTTCCATGATGTTCTGGAAATATGTAAAAAACCTAATAAAGCCAAGCTGAACAAAGCTGCAAAAGAACAGATCTTAAAATCTCAGAAAAATGTACAGAAAATAGTAGAATCCGACAGATGCGTATACGGAATCAATACAGGATTCGGACCTTTATGTGATACTAAAATTTCGGCTGACGAGACCGCACAGTTACAATACAACCTTATCATTTCTCATGCAGTAGGAGTTGGAAAGCCTATCGATAAAGAGTTTTCCAAAATCATGATGATTGCCAAAGTGCATGCTCTTTCCAAAGGTTTTTCGGGAGTTTCCCTGGAAGTAATTGAAAGAATGATCCTGATGCTGGAAAAAGATATCATCCCGGTAGTTCCGGAACAGGGATCTGTAGGAGCTTCAGGTGACCTTGCACCGCTTGCTCATCTTGTATTACCTTTATTGGGCTTAGGACAGGTTTGGGAAGGTGATCAGGTTTCAGAAACAATGGATGTTCTTAAGAAGCATAACCTGGAGCCTTTAGCATTAGGCCCAAAAGAAGGGCTGGGACTAATCAACGGAACTCAGTTTATCCTTGCTCATGCGATCAAAGGACTTGAAAAATTTGAATATTTATTAGATCTTGCAGATATGACAGCTGCCATGAGTATCGAAGCATACAGAGGTTCTGAAAGTCCTTTCAAAAAAGAACTTCACGAGATAAGACCTTTTGAAGGCAGCAAAAAAGTAGCCGCAAGAATGCTTAAGTTCCTGAAAGGATCACAAAATATGAAAGCTCACGAAGATTGTGAAAGAGTTCAGGATCCTTACTCCATGAGATGCGTACCTCAGGTTCACGGAGCCAGCAGAAATGCTTTTGAGCATCTTAAAGCTATGGCAGAAACTGAATTGAACTCTGTAACAGATAATCCTATTGTTCTAAGTGCAGAGGAATCTATTTCAGGAGGTAACTTCCACGGACAACTGATGGCATTGCCATTAGACTATGCTACATTAGCAGCAGCAGAATTAGGAAATATTTCAGACAGAAGAAGCTATCTATTATTAGAAGGAAAATACGGGCTTCCAAGATTATTGACAGAAAGTTCCGGTCTGAATTCAGGATTTATGATTCCTCAGTATACTTCTGCAGCTTTGGTTACAGAGAATAAAACATTATGCTTCCCTGCATCAGCAGATTCCATTCCTACAAGTTTAGGACAGGAAGATCATGTTTCTATGGGAAGTATTTCAGGAAGAAAATTCAATCAGGTACTTGGAAATCTTGTGAATATTCTGTCTGTTGAGTTGATGTTTGCAGCTCAGGGGCTAGAATTTAGAAGGCCGGCAAAATGCTCTAAATTAATTGAAGAAAACTTTACGATTCTTCGTTCTAAAGTTGCTAAGCTTGAAGATGACAGGCTTATCGGTAAAGATATGCTGGCAATTGCAGAATTGATTAACGAAAGAAAATTTGTTGTCAACTAA	MIYGVDVFTFHDVLEICKKPNKAKLNKAAKEQILKSQKNVQKIVESDRCVYGINTGFGPLCDTKISADETAQLQYNLIISHAVGVGKPIDKEFSKIMMIAKVHALSKGFSGVSLEVIERMILMLEKDIIPVVPEQGSVGASGDLAPLAHLVLPLLGLGQVWEGDQVSETMDVLKKHNLEPLALGPKEGLGLINGTQFILAHAIKGLEKFEYLLDLADMTAAMSIEAYRGSESPFKKELHEIRPFEGSKKVAARMLKFLKGSQNMKAHEDCERVQDPYSMRCVPQVHGASRNAFEHLKAMAETELNSVTDNPIVLSAEESISGGNFHGQLMALPLDYATLAAAELGNISDRRSYLLLEGKYGLPRLLTESSGLNSGFMIPQYTSAALVTENKTLCFPASADSIPTSLGQEDHVSMGSISGRKFNQVLGNLVNILSVELMFAAQGLEFRRPAKCSKLIEENFTILRSKVAKLEDDRLIGKDMLAIAELINERKFVVN	PGPT0020230_3641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS003_02356	447			hypothetical protein	ATGCGCATCCTCAGAACAGATTCCTCCAATATTGACTTTCAAAACCTTGTAAAATCTCTCGATGTCACTTTGTCTGAGCATAATGGAGAGAATGATGACTTCTTTGCTCAGTTTAATACCATTGATACTATCAAGAACTGTGTTGTAGCTTACGTAGATGATATTCCGGCAGCTTGCGGAGCCTTCAAGCCGTTTTCAGAAGATGCCGTAGAAATAAAAAGAATGTTTACCAATCCTGAATTCAGGAAAAGAGGACTGGGTTCAGCTATTGTAAAAGAACTGGAAAGCTGGGCCGCAGAATTGAACTTTAAAAAAGCAGTATTGGAAACCTCTCAGGATTTGAAAAGTGGGATCTCAGTATATGAAAAAAGTGGATTTTACAGGATTCCCAATTATGGGCAGTATATTGGGGTAGAACAAAGTGTCTGCTATGAAAAATTATTATAG	MRILRTDSSNIDFQNLVKSLDVTLSEHNGENDDFFAQFNTIDTIKNCVVAYVDDIPAACGAFKPFSEDAVEIKRMFTNPEFRKRGLGSAIVKELESWAAELNFKKAVLETSQDLKSGISVYEKSGFYRIPNYGQYIGVEQSVCYEKLL	PGPT0007180_957	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
BMS003_02357	1482			hypothetical protein	ATGAAAAAAACTGTATTCCTACTGGCAATATTTTTTGCTTTAAACTCGTGTTCCAGAGAAGAACTTCAGAACGAAAATGTAAAAACAGAAATGGCTCAGAAAGATCCGCTGACAGCAAAACAGATCAATGAAAGGATCAATCAGGCGATTAAAACGGACGGAACTTTCAACTGGAAGAATGAATCCGATCATTTTTTGTGGAGTGCCGTTTTCCGTGGAAACAAAATGGTATCCATAGGTTTTGGAGCTTCTAAGGATGATTTTGACAGAAGTAAATCTCCAAACAGTGCTGATATGGAAAAAGAAGTGCTTTCCGTTATCAGAAAATATGAAGAAAAAGAGGAACGAAATTTCCTTCTTCTTTCAGATCAGTATCTAAACCAGATGGATGTGGTGATTGAAAAAGAAGAAACAATTGCCGCTCTTAGACAAATGAAAAATATCCGATATATAGAGCCTGCAGATTATCATTATTTTGAATTCGAAGCTCAATATAATGCCGCAGCAAAATCTTCGGGAAGCGGTTCATCAGGATGCGGTTTTTCATCTTCTACATTAAGTACTGCAGACTATACCTCAACAACCCCTGGTGCAAAAATTCCATGGGCTTTCACAAAGCATAATATCCCTGATGCCTGGAGTTACAGTACAGGAGCAGGTGTCACCATTGGACTTATTGATACAGGAGTCTCTCCGGAACAGACCTTGCTGGGAGGGAGCTTTAATAATGGTGTCTCATCAGGAAGAACGATCAGTAAATTTGGCGTATATAACTCTGATGGATCCGGAGATCAGTGTGGGCACGGAACAAAAATGGCTTCCGTAATGGCTGCTCCTAGAAATAATGCAGGATTACCTGTAGGAGTAGCTTATAATGCGAATCTGATTACCTACAGAGCAGCAGAAAATGTTGTTTTGGAAACATCCAGTGAGCAGACTGCCGTAAAAACAGCTTTCACAGACTTGGGGAACAATACGAATGTAAAAATCATCTCTATGTCTATGGGGCATATATTCTCCGTGGGGAAAATAGAAGATGGTGTAAAATATGCTTATTCTAAAGGAAAACTGATCTTCTGTGCCGGAGGTACTTCTACCAGCTTCACGAGTTTTGTGGGAGTTATTTTCCCTGCATCAATGTCGGAAACTCAGGCGATAACAGGAGTAAAAGAAAATACTTCTAACCAGAAATGTAATGTTTGTCATTCAGGAAGCCAGATTGATTTTACCTTCCAGATGGAAAGATCTTCTGGAAATACCGTTCCTGTACTGAGTTATTACAATGGTCAGGCAGATTATGTAGGTGGCTCTTCGGTAGCTACAGCAGCTACAGCAGGAATTGCAGCTCTTGTTTGGGCTAAAAATCCATCATGGACAAGAGATCAGGTACTGAATAAAATGAGACAGTCTGCTACCTACTATTCCAATGTAAATTCAAGCTACGGTTATGGAAACATCAACGCTTTAAAAGCAGTACAGTAA	MKKTVFLLAIFFALNSCSREELQNENVKTEMAQKDPLTAKQINERINQAIKTDGTFNWKNESDHFLWSAVFRGNKMVSIGFGASKDDFDRSKSPNSADMEKEVLSVIRKYEEKEERNFLLLSDQYLNQMDVVIEKEETIAALRQMKNIRYIEPADYHYFEFEAQYNAAAKSSGSGSSGCGFSSSTLSTADYTSTTPGAKIPWAFTKHNIPDAWSYSTGAGVTIGLIDTGVSPEQTLLGGSFNNGVSSGRTISKFGVYNSDGSGDQCGHGTKMASVMAAPRNNAGLPVGVAYNANLITYRAAENVVLETSSEQTAVKTAFTDLGNNTNVKIISMSMGHIFSVGKIEDGVKYAYSKGKLIFCAGGTSTSFTSFVGVIFPASMSETQAITGVKENTSNQKCNVCHSGSQIDFTFQMERSSGNTVPVLSYYNGQADYVGGSSVATAATAGIAALVWAKNPSWTRDQVLNKMRQSATYYSNVNSSYGYGNINALKAVQ				NA	NA	NA	NA	NA
BMS003_02358	828	ygiD	COG3384	4,5-DOPA dioxygenase extradiol	ATGAACCTCAACGATCTTCAAAACATAAGCGACGGTTTTAAAAGCACACAGAGAATGCCTGTTTTATTTCTGGGACATGGTTCACCAATGAATGCCATTGAAGAGAATCAGTTTGTACAGGGATTCCGGAAAGCTGCTTCAGAAATTCCAAAGCCCAATGCAATTCTTTGTATTTCTGCCCACTGGTATACAGACGGAACTTTTGTAACCGCTATGGATATGCCGAAAACCATCCATGATTTTTATGGTTTCCCAAAAGCTCTTTTTGACGTACAGTATCCTACTCCCGGAAATCCGGAACTGGCAAGAGAAACGGCAGAATTACTTCTTCCCGCAGATGTGGAAGAAGACCACAGCTGGGGACTGGATCATGGCGCATGGTCAGTCATCAGACATATGTATCCTGATGCGGATATTCCGGTGATCCAGCTGAGCATTGATTATACCAAACCTTCTCAGTATCATTATGACCTTGCCAAAAAACTGAATAGGCTTCGTGAAAAAGGTATTCTGATCATAGGAAGCGGAAATATTGTACATAATCTCCGTCTCATCGACTGGAAAAATATAAATACGGTGGGAGTCGGCTGGGACTGGGCAGTGGAAGCCCGTGAAAAAACCAATAACTGGCTTCTTGACGGTAATTTTCAGAATATTATTGATTATCAGAAACAGGGAACTTTCTTACAGTATGCTGTTCCTACTCCTGATCATTATCTTCCTCTACTTTACACTTTAGGACTGAAAGATAAGTCCGAAGAGCTTAGTTTATTCAATGACGAGCTTATTGGTGGATCATTGAGTATGACGAGTGTAAGGATCGGATAG	MNLNDLQNISDGFKSTQRMPVLFLGHGSPMNAIEENQFVQGFRKAASEIPKPNAILCISAHWYTDGTFVTAMDMPKTIHDFYGFPKALFDVQYPTPGNPELARETAELLLPADVEEDHSWGLDHGAWSVIRHMYPDADIPVIQLSIDYTKPSQYHYDLAKKLNRLREKGILIIGSGNIVHNLRLIDWKNINTVGVGWDWAVEAREKTNNWLLDGNFQNIIDYQKQGTFLQYAVPTPDHYLPLLYTLGLKDKSEELSLFNDELIGGSLSMTSVRIG				NA	NA	NA	NA	NA
BMS003_02359	513			hypothetical protein	ATGGCAACAAAATGGATTTTAGACCCTACGCATAGTGAAATTACTTTCAAAGTAAAACACATGATGATCTCTAACGTAAAAGGAAGTTTCAGAACGTTCAATGCTGAAATTGAATCTGAAGACGAATTCTTTGCAAATGCAAAAACTACTGCTACGATCCAGACGGATTCCGTATTCACAAACAATACAGACAGAGATAACCACTTAAAGTCTGCTGAGTTTTTCAATGCTGAAGTACATCCTACCATCACTTTTGAATCTCAGGCATTAAATAACTCTATTGTTGGAAATCTTACCATCAACGGCATTACAAAACCTGTAAATCTTGATGTAGATTTCGGAGGAATTAATGTAGACCCATGGGGAAATACAAAAGCAGGTTTCTCTTTTGAAGGAAAGATCAGCAGAAAAGATTTCGGATTAAACTGGAATGCAGCTCTTGAAGCAGGAGGCGTAATGGTAAGTGATGATGTAAAAGTAGCCGGTGAATTACAGTTTGTAAAACAGGCATAG	MATKWILDPTHSEITFKVKHMMISNVKGSFRTFNAEIESEDEFFANAKTTATIQTDSVFTNNTDRDNHLKSAEFFNAEVHPTITFESQALNNSIVGNLTINGITKPVNLDVDFGGINVDPWGNTKAGFSFEGKISRKDFGLNWNAALEAGGVMVSDDVKVAGELQFVKQA				NA	NA	NA	NA	NA
BMS003_02360	2112	ptpA_2	COG1506	Prolyl tripeptidyl peptidase	ATGCTGGTTTTAGGCAGTTCAGCATTTGCCCAGACCCAGAAATTTACCATGGCAGAAGCTGTAAATGGAATGAGAACTAATCTTGCCGTGAAAAATATTTCCCAGTTTTCATGGGCTGCAGACGGAAAATCTTATATCCAGGCAGTAAAAGGCGGTTATTTGATTACAGATCTTAAAACCAGCAAACAAGACACTCTGATCTCACTGAGCCAACTGAACAGAAAACTTTCTGATGATAAGTTTAAAGCGGTACCACCCATTAAATTTACAGGGAATTCCAATGGGTATTTTACTACAGCTGGTAAAATGTCGTGGATTGAAAAATCAGGAAACGATTGGAAAATCAAAAGTACAGCAGTTATTGATCAGGATGCTGCCAATGTAAAAATGTTTGGTGATGGCCAGACTTTTGCCTTTACAGCAAAGAATAATTTATTTGTAAACAGAAACGGAAAAACTATTGCTGTGACCAACGAAGCTAATGAAAATATCATCAGCGGACAGGCAGTTCACAGAAATGAATTCGGAATTGATACCGGAATTTTCCCTGCTCCCAACTCCGAGAGCGTGGCTTTCTATAAAATGGATCAGAGCATGGTAGCAGATTACCCGATCATCGACTGGTCTGTAACGCCTGCCGTCAATCACAATATCAAATACCCAATGGCTGGCCAGACTTCTCACCAGGTGACATTAGGGGTTTTTAATATTAAAAATCAATCCACTACTTTCCTGAAAGTGGAGGGTGAAAAAGATCAGTATCTGACAGCCATTACATGGAGCCCGGATTCAAAATACATCTTTGTAGGGGTGCTGAACAGAGGACAGAATCATATGAAAATGAATCAGTATGATGCTGCAACAGGAGAATTGGTGAAAACCTTATTTGAAGAGACCGACAGTAAATATGTGGAGCCACAGCACCCGCTTATTTTCTTCCCGAATTCTAATACAGACTTCATCTGGCAGAGCCAGAGAACAGGATATAATCATTTGTTCCACTACAGCCTTGAGAAAGGACTGGTATCTCAAATCACAAAAGGAGACTGGCTGGTAACAGATATTTTAGGTTTCAATGAAAATAAAAAGGAAATCTATTTTACCTCAACAAAAGAAACTCCTTTAGAAAGACATTTATATAGAGTTAACTGGACGAATTTCAAGATGCAAAGGCTGGATAGTGCAGAAGGTATGCATATGGGAACTTTGAGCGGAGACGGAAATTATCTGTATGATGCTTACAGCAATGCTAATTCACCAAGGGTTGCCAACATTATCAATACTGCGAATTTAAAAACTACGAATATCCTTACTTCTGAAAATCCATTAAAGAATTACCAGAGACCGGAAATTAAAAACGTAACATTAAAGGCTGACGACGGAACTCCTTTGTATGGAAAGATCATTCTTCCAACCAACTTTGACCCGAATAAAAAATATCCAACTATTGTTTATTTATACAATGGACCACACTTACAGCTGATCACAAACAGCTTCCCTGCTTCAGGAAACCTTTGGTATGAATATATGGCTCAGAACGGATACATTATTTTCACCATGGACGGAAGAGGTTCTTCTAACCGTGGACTGAAATTCGAGCAGGCTGTATTCAGAAATCTGGGAACTACAGAAATGAACGACCAGATGAAAGGGGTAGACTACCTAAAGTCTCTTCCTTATGTAGACGAAGACAGAATGGGAATACATGGTTGGAGCTTCGGAGGATTTATGACAACCAGTTTCATGCTTCGTAAACCGGATGTATTCAAAGTAGGAGTAGCAGGAGGGCCAGTGATCGACTGGAGCATGTATGAGATTATGTACGGAGAAAGATATATGGATACTCCACAGGAAAACCCTCAGGGATATGCAACAGCTAATCTTTTGGATAAAGTGCAAAACCTGAAAGGGAAATTACTAATGATTCATGGAGCTCAGGATGATGTAGTAGTATGGCAGCATTCTATTAAATTCATCAAGTCAGCTGTTGATAACGGGGTTCAGTTGGATTACTTTACATATCCGGGACATCCGCATAATGTGATCGGGAAAGACAGGGTTCACCTGATGCAGAAAATCACAGATTATTTTGATTTGTACCTAAAGAAATAA	MLVLGSSAFAQTQKFTMAEAVNGMRTNLAVKNISQFSWAADGKSYIQAVKGGYLITDLKTSKQDTLISLSQLNRKLSDDKFKAVPPIKFTGNSNGYFTTAGKMSWIEKSGNDWKIKSTAVIDQDAANVKMFGDGQTFAFTAKNNLFVNRNGKTIAVTNEANENIISGQAVHRNEFGIDTGIFPAPNSESVAFYKMDQSMVADYPIIDWSVTPAVNHNIKYPMAGQTSHQVTLGVFNIKNQSTTFLKVEGEKDQYLTAITWSPDSKYIFVGVLNRGQNHMKMNQYDAATGELVKTLFEETDSKYVEPQHPLIFFPNSNTDFIWQSQRTGYNHLFHYSLEKGLVSQITKGDWLVTDILGFNENKKEIYFTSTKETPLERHLYRVNWTNFKMQRLDSAEGMHMGTLSGDGNYLYDAYSNANSPRVANIINTANLKTTNILTSENPLKNYQRPEIKNVTLKADDGTPLYGKIILPTNFDPNKKYPTIVYLYNGPHLQLITNSFPASGNLWYEYMAQNGYIIFTMDGRGSSNRGLKFEQAVFRNLGTTEMNDQMKGVDYLKSLPYVDEDRMGIHGWSFGGFMTTSFMLRKPDVFKVGVAGGPVIDWSMYEIMYGERYMDTPQENPQGYATANLLDKVQNLKGKLLMIHGAQDDVVVWQHSIKFIKSAVDNGVQLDYFTYPGHPHNVIGKDRVHLMQKITDYFDLYLKK				NA	NA	NA	NA	NA
BMS003_02361	1026	luxA	COG2141	Alkanal monooxygenase alpha chain	ATGGAATTAGGAATAGGAATGTTCGGGGATTTGGCTTTAGACCAATCTACCGGAAAATATAGAGATGCAGGAATTAAGATCCATGAAATACTGGATCAGGTAAAATTAATGGATGAGGTAGGAATTGATGTTTTCGCAATGGGAGAACATCACCGTCCGGATTATGCTGTTTCCTCTCCGGAAATCGTTTTGGCAGCGGCAGCAAGCATTACAAAAAATATAAAACTGGCCAGTGGAGTAACTGTTTTAAGTTCTTCAGAGCCGGTAAAAGTATATGAAGATTTTTCAACACTGGATTTAATTTCAGATGGAAGAGCAGAGATATTTGTAGGACGTGGGAGCTTCATTGAATCATTTCCGTTGTATGGCTATTCATTGAATGATTATGAACAGCTATTTGACGAAAAATTGGAATTATTACTGAAAATCAATTCTGAAGAAAATGTAAGCTGGTCAGGAAAACTTCGTGCTCCGATGGAAAATCAAACAGTTTACCCAAGAGCAAAGAATGACGGAAAACTTTCAATCTGGAGAGCTGTTGGAGGGACTCCACAGTCTGTTTTAAGTGCAGCACAGCTTGGAATGCCTTTAGTGGTGGCTATCATTGGAGGAATGCCTATCCAGTTCAGAAATCTGATCGAATTTTACAAACAGGAGTACCAAAAAGCAGGACATGATGTTTCGAAAATGCAGATTGCGGTTCATTCCCATACTTTTGTGAGTGATGAACAAAAAATAGTAGATGGGTATTTCCATAATTACAAATCTCAGATGGACAGAATTGGGTCTTCCAGAGGATGGGCTCCTTACACGAAAATGCAGTATGACGGAGGGAGAAGCAAGGACGGCGCATTATTCATCGGAAGTCCGGCTGAAGTAGCAGATAAAATTGCGTATATGAAGGAGATTTTCGGAATTACCAGATTTATTGGGCACATGGATGTGGGAGATCCTGCCCATGATGTGATGATGAAATCTATTGAACTATTCGGGAAAGAAGTAAAACCTGTCATTAAAGACTTATAA	MELGIGMFGDLALDQSTGKYRDAGIKIHEILDQVKLMDEVGIDVFAMGEHHRPDYAVSSPEIVLAAAASITKNIKLASGVTVLSSSEPVKVYEDFSTLDLISDGRAEIFVGRGSFIESFPLYGYSLNDYEQLFDEKLELLLKINSEENVSWSGKLRAPMENQTVYPRAKNDGKLSIWRAVGGTPQSVLSAAQLGMPLVVAIIGGMPIQFRNLIEFYKQEYQKAGHDVSKMQIAVHSHTFVSDEQKIVDGYFHNYKSQMDRIGSSRGWAPYTKMQYDGGRSKDGALFIGSPAEVADKIAYMKEIFGITRFIGHMDVGDPAHDVMMKSIELFGKEVKPVIKDL				NA	NA	NA	NA	NA
BMS003_02362	498			hypothetical protein	ATGAAAAAAATAAAACTCGCCTTCCGTATTGTTATTGATCAAAGCTCTGAAATGGTTTGGGATCGCTATGTATTTGATGATACCTATTTTGAATATAAAATTCAGCATCAGGCTTTTGATGAGAAAGAAAATCCCGTAAAGAATTATTGGGAGCTTCTTCAGAAAAATCCGAACGCCCGGAAAATCCCCTTTTTATTAAGCAGTGCTGCCAGCAATTATGTTTCGCAGTTGGGTGGAGTAATCAGAAGTCTTCCGGATGTTTTAGGAAATACATTCTTCCCATTTGATCAGTTTAAATTAGATCTGGTTTCTTCCCATCTTGAAGATCCTTCCAAACATACAATAGGACTTACTTTTTTCTCACCTGAGCTTTTACTGATTGATATTATTGACGGCAAATATCTTCTCAGCAAAGAAACAAATCCGGAAAATGGCACGGAAACGTTCATGCTTCCGTTTCATCCTCAAATGGCAATCGCCTATTACCACGAAATATAA	MKKIKLAFRIVIDQSSEMVWDRYVFDDTYFEYKIQHQAFDEKENPVKNYWELLQKNPNARKIPFLLSSAASNYVSQLGGVIRSLPDVLGNTFFPFDQFKLDLVSSHLEDPSKHTIGLTFFSPELLLIDIIDGKYLLSKETNPENGTETFMLPFHPQMAIAYYHEI				NA	NA	NA	NA	NA
BMS003_02363	648			hypothetical protein	ATGTTAATTCAAACCCCTTCAAAAATTTTCAAAAATGATTTCAGAATCTGGCAGGAAAACGAAAAAAGTACTGTTACAGAGCTTCTGAATAACGAAGAAAAAATACATACTTTACTTAGTGTAAAGGAGGTTATTCTGGATATTGAAGGAGAATTAAGACTCAGCTTTGAAGAAGAAAGAACTCTTCTCATACTGCCTTTGTACGGAGAAATTATCATTACAGATTTCTACGAAACAATTTCGGCAGGAATGTCTCTTACCCTGAATACCCAGAAAGGAAAAGATATTGTTATCAAAAATATGGTGTATCACGACCGGGCAGACCTTTTAATTTTTGAATTTAAAAAAGAAGAAAACACTCAGGACTACAGTAAAAATGAGCTGGACTTCACTCTGAACAACAATGTTTTCAAAATCTCAAAAACATTACAGCAGCCCAACTTCATAGGACTTTATAATGGCCGTGCAGAAGGATATTATGCATTGAAAGATGCCGGCAAAGCTATTTTCGGAATGGTTCTTAACGGTGCATTTGAATTTCAGAACAGACTGATGGAAAACCGTGATGCGATGCTGCTTTGGGATCTTGAAGAACTGGAATTTGAAGCTTTAAGTGAAAACGCCCTGATTCTTTTTATGGAAGTGTAA	MLIQTPSKIFKNDFRIWQENEKSTVTELLNNEEKIHTLLSVKEVILDIEGELRLSFEEERTLLILPLYGEIIITDFYETISAGMSLTLNTQKGKDIVIKNMVYHDRADLLIFEFKKEENTQDYSKNELDFTLNNNVFKISKTLQQPNFIGLYNGRAEGYYALKDAGKAIFGMVLNGAFEFQNRLMENRDAMLLWDLEELEFEALSENALILFMEV	PGPT0019980_6617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS003_02364	735			hypothetical protein	ATGAAAACAATGAATAGAAAAGGCTTTCTGAAAAGTCTTGGATTAGCCGGAGTAACAGCAGTTGCCGCTCCTCTTCTGATCCATTGCGGAAATGATGATGACATTATAGATTCATCGTCTGAAACCTCTACAGGATCCGGTTCTACAGGATGTTCTGTTACCAATACAGAAACCGAAGGACCTTTTCCAACAAAATCGCCATCCAGTCTGGTTCAAAGTAATATTGTAAGCGACAGAACAGGTGTTCCTTTTACCATTACCGTCACCGTACAGAATGTGAATGCCAGCTGTGCTGTTTTACAAGGTGCTTTTGTAGATATCTGGCACTGTGATAAAGACGGCAACTATTCTGAATATGGCGGAACAGGAATGCAGTCTACTGACTATACTACTGTTCATTTTTTAAGAGGCAGACAGACCACCGATGCCAATGGCCAGGTAAAATTCACTTCTATTTTTCCGGGTTGGTACAGCGGAAGAGCTACTCATATCCATGTTCACATTTATAATTCTGCAGGACAGTCTTTACTGGTGACTCAGATTGCATTTCCTGAGGCAAGTGACAGTGCGGTGGTACAGGTAGCAGCCAGTACAGGATACAAAGGAATGAGCGGTTACACCTACAATGCCAATGATAATGTATTCAGTGACGGAACCTCTAATGAGATGTCCACTATTACAGGAAGTGTAAGCGATGGGTTTACACTCACCCATACTATAAAAGTTTCAGGATAA	MKTMNRKGFLKSLGLAGVTAVAAPLLIHCGNDDDIIDSSSETSTGSGSTGCSVTNTETEGPFPTKSPSSLVQSNIVSDRTGVPFTITVTVQNVNASCAVLQGAFVDIWHCDKDGNYSEYGGTGMQSTDYTTVHFLRGRQTTDANGQVKFTSIFPGWYSGRATHIHVHIYNSAGQSLLVTQIAFPEASDSAVVQVAASTGYKGMSGYTYNANDNVFSDGTSNEMSTITGSVSDGFTLTHTIKVSG				NA	NA	NA	NA	NA
BMS003_02365	675	lytR_3	COG3279	Sensory transduction protein LytR	ATGATAAAAGCCATCGCTCTTGACGATGAAATTCTCGCCTTAAAAATCATTGAGAATTACGCCGGAAAAATTGAAAATCTTTCCCTTGAAAAAATTTTCAATACTCAAAGCGATGCCCAGAAATACCTTAACAAATTCCCTGTAGACCTCATCTTTCTGGACATAGAAATGCCTTCCAAAAACGGGATGGATTTCTACAAAAACATCTCCCAGAACACCAAAGTTATTTTTACTACAGCTTATTCAGAATATGCTGTAGATGCTTTCAGTATCAATGCAGTGGATTATCTTTTAAAGCCATTCTCTTTTGAAAGATTCAAAGCGGCTGTTGAAAAAGTAAAAACCAATACAGATATTGATGAAATAAAATACCTTTCCATACGTGCCGATTACAAGCTTCATAAAATCAACTACGATGATATTCTACTGATTGAGGGGCTGGATGATTATATCCAGATTCATTTAGCCAACCACTCAACTATTACCGCACGTTCCTCCATGAAAAATATTCTGGAAAAACTCTCTGAAAAAGATTTTGTAAGAGTTCACCGCTCTTATATTGTTCCCATACAAAGTATCAAAACCATTGTTAACCGCAGCATTCACATCGGAGAATTTATTATTCCTATCGGAGAAACGTATAAAGATATTGTGATGAAGATTGTGAACAAGTGA	MIKAIALDDEILALKIIENYAGKIENLSLEKIFNTQSDAQKYLNKFPVDLIFLDIEMPSKNGMDFYKNISQNTKVIFTTAYSEYAVDAFSINAVDYLLKPFSFERFKAAVEKVKTNTDIDEIKYLSIRADYKLHKINYDDILLIEGLDDYIQIHLANHSTITARSSMKNILEKLSEKDFVRVHRSYIVPIQSIKTIVNRSIHIGEFIIPIGETYKDIVMKIVNK	PGPT0026304_3446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_02366	1089			hypothetical protein	GTGAAAAAAATCGGGCAACATATTATCCTTATTCTGTTACTCTTAACAATTCCGGTTGTTTCTTCTCCTGATTTTGACGGAACATTGTCTGTTTTTAGGGTTTCCCCGTTCCAGAGAGAGTTTATCCGTTTCGTACTGGTTGTTATTTTTTTTTACTTTAATCTGAATCTTTTCCTACCTAAATTTTACAGCAAAAAGAAATACCTATTGTTTACCGTCTGTATTCTGATCTGTTTCGGAATTATGGTATTTGTTCCCAATTATCTTACCACAGGAAACAGAATCTCTGCCCAGGATTTTCCTATGCAGATGCAGCCTCATCCTGGAAACCCCAACGGAAACACGCCCCCTCCGCCTATGGAAAGAAGGTTTCCTGAAGGAAATTTTCAGCATAGAAATAATACATCTTACGGCCAGATGATCTTTTCATCACTTCTTCCTTTTCTCTTTTCCTTCCTATCTTCTCTTTTTATTTTTAGAAATATCGAGAAAAAAGAATTGGAACGTTCCAAGACCAAGGCAGAATTACTGAGCCTAAAATATCAGCTGCAGCCTCATTTTCTGTTCAATATTTTAAATTCTATTTACTCACTGGCTTTACTGAAATCTGATGATGCTCCCAACGGCATTCTGAAGCTCTCCAATGTGATGCGCTATGTGGTACAGGAAAGCAGTAAAGATCTGGTAAAACTCAGTAAAGAAATTGAATATATAAAAGATTATATAGCCCTTCAGCTGATCAGGACAGATAACAGCCTGGATTTTTCATATACAGAAATCGGAGAGACAAAAGAGTTACAAATTGCTCCATTTATTTTGGTTAACTTTATTGAGAATGCCTTTAAATATGGTTTTAATGCCGAAGAAAACTCTAAAATAGCAGTCAAAATAATTATTCAGGAAGAACAGCTTCATTTTTATGTTTTTAATAATATTGTGAACCGGAATATTACGGATGAAGAAAGTATGAAAGTAGGATTAAAAAACACTCTTGAACATTTACAACAGGCTTATCCCGGACTGCATTCACTGAACATGACCAATGATGGAAAGACTTTTGAAATCGATTTAAAAATTAATTTACGATAA	MKKIGQHIILILLLLTIPVVSSPDFDGTLSVFRVSPFQREFIRFVLVVIFFYFNLNLFLPKFYSKKKYLLFTVCILICFGIMVFVPNYLTTGNRISAQDFPMQMQPHPGNPNGNTPPPPMERRFPEGNFQHRNNTSYGQMIFSSLLPFLFSFLSSLFIFRNIEKKELERSKTKAELLSLKYQLQPHFLFNILNSIYSLALLKSDDAPNGILKLSNVMRYVVQESSKDLVKLSKEIEYIKDYIALQLIRTDNSLDFSYTEIGETKELQIAPFILVNFIENAFKYGFNAEENSKIAVKIIIQEEQLHFYVFNNIVNRNITDEESMKVGLKNTLEHLQQAYPGLHSLNMTNDGKTFEIDLKINLR				NA	NA	NA	NA	NA
BMS003_02367	3036			hypothetical protein	ATGATCCCCGTTCAATTAACTATCGAAGGACTTTATTCGTATCAGGAACGCCAGACTATTGATTTCCGAAATCTTACTGAAGCAGGACTGTTTGGAATTTTCGGGGCAGTGGGCTCCGGAAAATCATCAGTTCTGGAAGCAATTTCGTTTGCTTTATACGGCGAGACGGAACGTCTGAACATGCGTGATAAAAGAGCTTACAACATGATGAATTTAAAATCAAACAGTTCTTATATAGAATTTGATTTTGTAAATTATGAGAATAAATTGTTCCGTGCCACCCGTGATTTTAAAAGAAATTCCAAAAAATTTGAAGAGGTAAAGCCCAATGCGGTTACTTTTTATGAGCATATCAATGGAAAATGGATTCCTTTGGATCATTCCAATGCGGAAGCTATTATTGGATTAAGCTATTCCAACTTCAAAAGAACCATCATTATTCCGCAGGGACAGTTCAAAGAATTCCTTGAATTGGGTGCTGCAGAAAGAACGAATATGATGAAGGAGATCTTTAACCTTCAAAAATTTGACCTTCAGAACAATGTTTCTGCACTCAATGTAAAAAACAGATCCGAACTGGATCAGCTGGAAGGACAGCTCAAAGGTTTTGAGGAAATCAATGAGGAAAAAATTCAGATTCAGAAGGAACAGCTTACAGAAGAACAAAAACTTCTCTCTGAATCCAATGAAAAACTTGAAAAAATTTCCCGGACTTACCAACAGCTGAAAAACTTGAAAAGTGACTTTGACAGTTTACAGCAGAATAAGAAAAAATTCAGCAAACTTTCTGAAGAAAAGACTCAAATAGATGCTCTGGAAGTACAGGCAGAACTATACGACCGTATTTTCAGGCTCTTCAATCCTTTAATTATTGAGAAAAATAAACTTTCAAAAGAGATTTCGGACAAGCGAAATGAGAAGGAACAACACATCAAAATCCAGCAGGAAACTGAAAAGGCTTTTAATATTATAAAACAACAACTCACAACGCTAGAGCCTCGGTTTAAAGCATTAGAGCAATCCAAAATTCAGGAAAATGATTTGAACCTCATCATTCAAATCATAAAATTTTCTGAAGAAATTAAGATCCTGAATGAAAGGACTCAGAAAGGTGTAGAAAAAGTAAAAGAAGTTGATCTTCATAAAGAGAAAATTCAGAAAACAATTGACGAGCTTTCCGCACAAATTAAAATTTTAAAAGAACAAAAACTGGATTCTGCCCTGCTTTCTGAAGTGGGCAATTGGTTCATTCAGCAAAAGAATTTAAAAAAATCACTTCAGGAACAAACCGAAAAGATCGGGAAACATCAAAAACAAATAGGAGAAATTGCAGAAGAATTGAAACCTTTTGCTTATACCGAAAATTATAAAGAAGATTTCAGAATCAAAAAAGAAACCTTAGAGACTCAAAAAAAGGAACTTTCCCAAAAACTGGATCATCTCAAAATACAAAAAGAACTTTCCCGTTTTGTCAGTGAGCTTCATGATGGTGAGAATTGTCCTCTTTGCGGTTCTCAGGAACATCCGCATATGGTAGAATTTCATGATGTGAATGCTGAACTACAGGAAATTCAGGGAAAAATATCATCCACAGAACAGGAAGTTTCCACTATTCAAAAGCAGGAAGCAGAAATTGATAAAATTCTGGATCGAAAAAGAATCTTCGAAGAACAGCTTCTTTCGGAACAGAAAACTATCCTTCAAGTCCAGGAAAATATTGAAAAACACATCCAGAGTTTCACATGGAAAATATTCTCTCCTGATCAGGAAGAGGAATTTGAGAAAAAACGTGCAGATTCTTTTACACTGGAAAAAAAGATTGAAGAAACAGAACGTAATATAGCTGTAGAAAGGGAAAATCTTGACCGAGAGTCTAAAACACTGGAAAAATATAAAAGCGCTTTGGAAGCTTTCCGCCTGGAAGAAGTTTCTAAACAGGAGCAGATCAATATCAGTCGGTCCGGTCTTAAAATCCTGGATTGGAATCTGTATGCTCTAAAAGAAAAAGCTGAGATTGAAGAAACGTATCAAAAACTGGTACAATCCAACAAGGAAACTGAAGAAAAATACCAAAAGGCATTAGAGCAGGAAAAAATTCTTTCTCCAAAATTGGCAGAGCAAAAAGCTATTGTCAGTCAGTCTAAGAAGCAGATTACGGAACTTGAGAAGGAAATTTCTGCTAATGAAGAAGCTATTGCCACAGCTTTGGCAAGTCAGAATTTCACAGAATTCAAAGAGGTTGAGCATATTTTACTTCAGGAAATTGATGTTCAATTGGTAAGAGCAAAAGTTCAGCATTTCAAAGTTGAATTTGAAGCTTTAAAGAAATTCATCGGAGAGCTGGAATTGAAGCTGGAAGGACTTTCATTTGATAATGAGCAGTTTTCTCTGGCTGAACAGCAATTTCTTGAAGCGCAAAGAGAACAGAAAAAAATAAGTGATTCCGTAGTTACTAAAACGGCTGAAATAGACCGACTGGAAAAAGAGTTTGTGAAAAAAGAGGAACTTCTGAAAGAACTGGCAAAGCTTCAGAAACGTTCGGAAAACTTAAAAATCATGATGAACCTGTTTAAAGGAGCAGGTTTTGTACAATATGTTTCGTCTATTTATCTGAGACAGCTTTGTAATCATGCCAATGTACGTTTTCATCGAATGACAAGAAATCAGCTGAGTCTTCAGCTCAATGAAAATAACGATTTTGAAATCATCGATTACCTGAATGAAGGAAAAAGCAGAAGTGTAAAAACGCTTTCCGGAGGACAGGCATTTCAGGTATCTTTAAGTCTTGCTCTGGCATTGGCAGAAAGTGTGCAGGCCAATGCTCAGGCAGATAAAAACTTCTTCTTTATTGATGAAGGTTTCGGAACCCAGGATACGGAATCTGTAAATATTGTATTTGAAACCCTCACCAACCTGATGAAAGAAAACAGAATTGTGGGAATTATATCACACGTTGAAGAACTGAAAGAAAAAATTCCTATGGCTCTCAATATCGTTAAAGACGAAGAAAGAGGAAGTCTGATTGAGATTGTATAA	MIPVQLTIEGLYSYQERQTIDFRNLTEAGLFGIFGAVGSGKSSVLEAISFALYGETERLNMRDKRAYNMMNLKSNSSYIEFDFVNYENKLFRATRDFKRNSKKFEEVKPNAVTFYEHINGKWIPLDHSNAEAIIGLSYSNFKRTIIIPQGQFKEFLELGAAERTNMMKEIFNLQKFDLQNNVSALNVKNRSELDQLEGQLKGFEEINEEKIQIQKEQLTEEQKLLSESNEKLEKISRTYQQLKNLKSDFDSLQQNKKKFSKLSEEKTQIDALEVQAELYDRIFRLFNPLIIEKNKLSKEISDKRNEKEQHIKIQQETEKAFNIIKQQLTTLEPRFKALEQSKIQENDLNLIIQIIKFSEEIKILNERTQKGVEKVKEVDLHKEKIQKTIDELSAQIKILKEQKLDSALLSEVGNWFIQQKNLKKSLQEQTEKIGKHQKQIGEIAEELKPFAYTENYKEDFRIKKETLETQKKELSQKLDHLKIQKELSRFVSELHDGENCPLCGSQEHPHMVEFHDVNAELQEIQGKISSTEQEVSTIQKQEAEIDKILDRKRIFEEQLLSEQKTILQVQENIEKHIQSFTWKIFSPDQEEEFEKKRADSFTLEKKIEETERNIAVERENLDRESKTLEKYKSALEAFRLEEVSKQEQINISRSGLKILDWNLYALKEKAEIEETYQKLVQSNKETEEKYQKALEQEKILSPKLAEQKAIVSQSKKQITELEKEISANEEAIATALASQNFTEFKEVEHILLQEIDVQLVRAKVQHFKVEFEALKKFIGELELKLEGLSFDNEQFSLAEQQFLEAQREQKKISDSVVTKTAEIDRLEKEFVKKEELLKELAKLQKRSENLKIMMNLFKGAGFVQYVSSIYLRQLCNHANVRFHRMTRNQLSLQLNENNDFEIIDYLNEGKSRSVKTLSGGQAFQVSLSLALALAESVQANAQADKNFFFIDEGFGTQDTESVNIVFETLTNLMKENRIVGIISHVEELKEKIPMALNIVKDEERGSLIEIV				NA	NA	NA	NA	NA
BMS003_02368	1206	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAAAATCCTCCACACTGCCGACTGGCATCTGGGTAAACGTCTCGATCGTTTTTCAAGACTGGAAGAACAGGTTCTGGTCATGAATGAAATTGTTCAGATTGCCGATGAGCAAAACGTTGATTTAGTTTTAATTGCCGGAGATCTTTTTGACAATTTTAATCCAAGTGTAGAGGCTGCTGAACTTTTTTACAAAACATTAAAACGTTTATCACTGAACGGAAAACGTCCTGTGATTGCTATTTCCGGGAATCATGATTCTCCCAGCTTAATTAATGCTCCTGATCCTCTGGCAAGGGAATGCGGAATTATTCTCATAGGTCATCCCAAAGCGGAGATTGTTCCTTTCGGTACAGAATATTTCAACATTATAAATTCCAAAGAAGGTTTCATAGAGCTGAAAATTGATGGGATAAATTTTCCTGTAAGAATTCTTCACACGCCTTTTGCCAATGAGATCCGTTTAAAGGAATACTTTGGAGAAAATAAGGAAGAAGAAATCAACAACGTTCTTTCTCAGACCTGGAAAAACCTTGCTGACCAGTTTTGTGATGATTCCGGTGTGAATCTTCTGACGGCTCATTTATATATGAATAAGAAGGGTGCAGAAATTCTGGAAGAGCCGGAAGGAGAGAAACCCATTAAAATAGGGAATGCAGATCTTATTTTTTCAGACAGTATTCCGGAACAGATTCAGTATACGGCATTAGGCCACCTTCATGGTTTTCAGAATATAGGAACGAAAGAAAAACCTGTTATTTATTCCTCTTCTCCCCTATGCTACAGTTTCAGTGAAGCCGGGCAGACGAAGTATGTTTCCATTATTGAAGCAGAACCTGGAAAGTCTGTTTCTTACGAGAAAGAAGTCCTGAAAAACGGAAGAACTTTAAGCAGAAAAACATTTGCCTCCATTGATGAGGCTGTTCAATGGTTGGGTGAAAACCCCAATACATTTATTGAGCTTACGCTGGAAAGTGAAACATTTTTAACGGCTGATGAAAGAAGGTTAATTTATCAGTCTCACAACGGAATTGTCCACCTTATTCCCAAAGTAAGAAATCTGGAATTGGCAGAAGATCAAAACCATGAGATCAATTTAAGTCAGGATATTGATATTTTATTCAAAGATTATTTTAAATCTAAAAATGGCGGACAGGAAGCCAATGAAGAACTGATGAATTTGTTTAACGAAATTTTAAATGCATAA	MKILHTADWHLGKRLDRFSRLEEQVLVMNEIVQIADEQNVDLVLIAGDLFDNFNPSVEAAELFYKTLKRLSLNGKRPVIAISGNHDSPSLINAPDPLARECGIILIGHPKAEIVPFGTEYFNIINSKEGFIELKIDGINFPVRILHTPFANEIRLKEYFGENKEEEINNVLSQTWKNLADQFCDDSGVNLLTAHLYMNKKGAEILEEPEGEKPIKIGNADLIFSDSIPEQIQYTALGHLHGFQNIGTKEKPVIYSSSPLCYSFSEAGQTKYVSIIEAEPGKSVSYEKEVLKNGRTLSRKTFASIDEAVQWLGENPNTFIELTLESETFLTADERRLIYQSHNGIVHLIPKVRNLELAEDQNHEINLSQDIDILFKDYFKSKNGGQEANEELMNLFNEILNA				NA	NA	NA	NA	NA
BMS003_02369	153			hypothetical protein	ATGAGCAAAAACAACGAAGCGAACAGAAAAAAAAACAAAAAGAAAATTGATCAGAAAAAACGTAAAATACAAAATGCAGAAGCAGAAAGGAAAGCACGTTTAAAACAAATCCGGGAAGACTTCAAAGCAAGAGAAACTGACAGTAAACAGTAA	MSKNNEANRKKNKKKIDQKKRKIQNAEAERKARLKQIREDFKARETDSKQ				NA	NA	NA	NA	NA
BMS003_02370	249		COG4628	DNA-binding protein	ATGGAACAGCAATCCAAAGATCCCCTACACGGAAAAAGACTGGATGCTATCCTTGAAGAACTGGTAGACTATTATGAAGGTTTTGAAAGGCTGGGCGAACAGATCAATATAAAATGCTTTACAGATAACCCAAGCATAAGCTCATCTCTGAAGTTTCTGCGAAAAACACCATGGGCAAGAACAAAAGTAGAGAGCCTGTATCTCTTTATGCTGAGACAGAAAAAAAGAGACGAGGGTAGAAAAAAATAA	MEQQSKDPLHGKRLDAILEELVDYYEGFERLGEQINIKCFTDNPSISSSLKFLRKTPWARTKVESLYLFMLRQKKRDEGRKK				NA	NA	NA	NA	NA
BMS003_02371	501	slyD	COG1047	FKBP-type peptidyl-prolyl cis-trans isomerase SlyD	ATGACAATTGAAAACAATCACGTTGTAGCTGTAAAGTACATACTTCACACTATAGAACCAGATGGAAGTAAGATTCTTGTAGAAGAAACAACAACAGAAAATCCGCTTACATTTTTATATGGTGTGGGAATGATGATCCCTAAATTTGAACAAAATATCCTTGGTTTGAAAGCAGGAGATAAAGCTGCCTTTACGATTCAGCCTGAGGAAGCTTATGGAGAAAGACAACCAGATGCTATTGCACAATTACCGGTAGAAATGTTCAAAGAATCAGGTCTTCCGCCTGTGGGAGCTATTTTACCTTTATCTGATAATCAGGGAAATAACTTCCAGGCGTTTGTAGTAGAAATTACTCCGGAGGTTGTAGTAGCAGACCTTAACCACCCAATGGCAGGTAAAGTATTAGACTTCCAGGTTGAAGTTTTAAATACCCGCCCTGCAACAGAAGAGGAATTGTCACATGGACATGCCCACGGAATTGACGGAAACGAAGCTCACTAA	MTIENNHVVAVKYILHTIEPDGSKILVEETTTENPLTFLYGVGMMIPKFEQNILGLKAGDKAAFTIQPEEAYGERQPDAIAQLPVEMFKESGLPPVGAILPLSDNQGNNFQAFVVEITPEVVVADLNHPMAGKVLDFQVEVLNTRPATEEELSHGHAHGIDGNEAH				NA	NA	NA	NA	NA
BMS003_02372	285			hypothetical protein	ATGCGCTCAAGGTTCTCTGCTTTTGCCATTCCGAATGGTGAATATCTGATGGAGACTACCCTTCCGGGAAAAAGAAAATACCACAATAAAAAAGACTTACAGGAGTGGGGAGAAATCAACCAATGGACAAAACTGGAAATTATCAGGACTCCGGCTTTAAATCATGTAGAATTTAAGGCTTATTATACAGACCAGGACGGTCATCCCCAGGTTCATCATGAGTTTTCAGTTTTTCAGAAAATGCACGAACGTTGGTATTATGTTTCGGGGGAGTTTTTAGATTAG	MRSRFSAFAIPNGEYLMETTLPGKRKYHNKKDLQEWGEINQWTKLEIIRTPALNHVEFKAYYTDQDGHPQVHHEFSVFQKMHERWYYVSGEFLD				NA	NA	NA	NA	NA
BMS003_02373	2142	dcp	COG0339	Dipeptidyl carboxypeptidase	ATGAAGAATATTTCATCGGTATTATTAATTTCTGCTTTGGCGTTCAATCAATCTTGTACTACAATGAAACAGACCGATATTCAACAAGAGCTTCCGGCACCTGATCCCTCTTTATCTTCAAATCCGTTTATGAAGAAAAGCAAGCTTCAGTATGAAGCTCCGGAATTTGACAAAATCAAAAATGAGCACTTCAAGCCTGCTTTTGACTATGGCTTAAAGCAACATGAAGCTGAAATCATAAAAATTGCCAACAATCCGGCCGCCCCTACTTTTGAAAATACCATTGTTGCATTGGAAAAAAGCGGTGAAGTATTGAGAAGAGCCCAAATTGTATTCTCTAACCTTACCAGTGCGAATACCAACCCCACTTTGCAGGCTTTGGATGAAGAATATGCACCTATTTTTGCTGCACATTCTGATAAACTATTCCTGAATGAAAATCTTTATAAAAGAATAAAATCCATCAAAGAAGATGGTCTTGATTCTGAAAGCAAAAGACTTGTACAATATTATAAGCAAAATTTTGAAATAGCAGGTGCCAATCTTTCTGCGGCTGATAAAGAAAAGCTGAAGCAGATCAATCAGGAGTTAGCTTCTCTTTCTACACAGTATTCCAATAAATTATTGGAAGCGAGAAAGCAGGGAGGTGTATTTTTCTCTGATGCGAAAGAGCTTGATGGCCTTTCTGCGGATGAAATTGCAGCCGCTGCCTCTGATGCAAAAACAGCAGGACAGCCTGGAAAATATCTTCTGGCTTTGCAAAATACTACCCAGCAGCCTCTTCTTCAAAATTTAAAAAACAGAGCTACCAGAGAAAAACTGTTCAAAGCTTCATGGACAAGGGCTGAAAAAGGAGATGCCAACGATACAAGAGCAACAATTGAGCAGCTTGCTAAACTAAGATTAAAGAAAGCTCAGATTCTAGGTAAGAAAAACTTTGCTGAATGGAAGCTTCAGGATCAGATGGCAAAAACACCTGAAGCAGCTACTAAACTGATGAACCAGATTGCTACACCAGCCGTGGAAACAGCAAGACGTGAGGCAAAAGATATTCAGGATCTTATTGATCAGCAGAAAGGTGGTTTCAAGGTAGAGCCCTGGGACTGGAATTTCTATGCCGAGCAGGTAAGAAAAGCTAAGTTTGATCTTGATGAGAGCCAGATAAAGCCTTATTTCGAAATCACAACGGTTCTGGAAAAAGGAGTTTTCTTCGCAGCTGAAAAATTCTATGGACTGACTTTCAAAAAGAGAACAGATCTTCCTGTTTACCATCCGGATGTCGTAACATATGAAGTTTTCGATCATGATGGAAAATCTATCGCCATCTACTACCTGGATTTCTATACAAGAGATTCTAAAAACGGAGGGGCATGGATGAGTAATTTTGTTGAGCAGTCTTATTTATTAGGAACAAAACCTGTTATCGTTAACTGCTACAATTATCAGAAACCAGCTCCGGGGAAACCTTCATTAATTAGTTATGATGATGTTTCAACCATCTTCCATGAATTTGGTCACTCTATTCACGGAATGTTTGCCAGCCAGAAATACCCATCTCTTTCAGGAACGAATGTACCAAGAGATTTCGTGGAGTTCCCGTCTCAGATCAATGAGCACTGGGCTTTAGATCCTGTAGTACTGAAGAATTATGCATTACACTATGAAACAAAACAGCCTATTCCGCAAGCTTTGGTAGATAAGATCAAAAAAGCATCTACATTCAATCAGGGATACATGACTACCGAATTGGTGTCTGCTGCTGAACTGGATATGGATTGGCATACAGTAAGCAACGACAGCCAGTTTATTCCTGTTTTAGATTTTGAAAAGCAGTCTTTAGCGAGCCATGGATTTAATTTGGCAACGGTTCCACCAAGATATCACACACCTTATTTTGCTCATATCTGGGGAGGTGGATATTCTGCAGGATACTATGCTTATTTATGGTCTGAAACATTGGATAACGATGCATGGGAGTGGATCAGTAAAAATGGAGGGTTAACCAGAGAAAATGGTGACCGTTTCAGAAAATATATTCTTTCTGTAGGAAATTCTGTAGATTTGAATCAGGCATTCAGAGACTTTACAGGACATGATCCGGATATCAAACCTTTATTGAGAAACAGAGGGTTTATTAAATAA	MKNISSVLLISALAFNQSCTTMKQTDIQQELPAPDPSLSSNPFMKKSKLQYEAPEFDKIKNEHFKPAFDYGLKQHEAEIIKIANNPAAPTFENTIVALEKSGEVLRRAQIVFSNLTSANTNPTLQALDEEYAPIFAAHSDKLFLNENLYKRIKSIKEDGLDSESKRLVQYYKQNFEIAGANLSAADKEKLKQINQELASLSTQYSNKLLEARKQGGVFFSDAKELDGLSADEIAAAASDAKTAGQPGKYLLALQNTTQQPLLQNLKNRATREKLFKASWTRAEKGDANDTRATIEQLAKLRLKKAQILGKKNFAEWKLQDQMAKTPEAATKLMNQIATPAVETARREAKDIQDLIDQQKGGFKVEPWDWNFYAEQVRKAKFDLDESQIKPYFEITTVLEKGVFFAAEKFYGLTFKKRTDLPVYHPDVVTYEVFDHDGKSIAIYYLDFYTRDSKNGGAWMSNFVEQSYLLGTKPVIVNCYNYQKPAPGKPSLISYDDVSTIFHEFGHSIHGMFASQKYPSLSGTNVPRDFVEFPSQINEHWALDPVVLKNYALHYETKQPIPQALVDKIKKASTFNQGYMTTELVSAAELDMDWHTVSNDSQFIPVLDFEKQSLASHGFNLATVPPRYHTPYFAHIWGGGYSAGYYAYLWSETLDNDAWEWISKNGGLTRENGDRFRKYILSVGNSVDLNQAFRDFTGHDPDIKPLLRNRGFIK				NA	NA	NA	NA	NA
BMS003_02374	828			hypothetical protein	ATGAAAACAAGGACTTTATTTATTTTTTCAGCCTTAGTGATAATGGGCTCATGTAATGATAAACATGAGAACAGAAACAGGGATAGAGACGGAGACAGAAGTAATTGGGTAGAGAAAGTAGTAAGCAAAGAAAGTGGCCCGATACAGCATAAGGAATTTAATGGGGAATTTGATGAAATCCAGATTTCACAGGCTATTGAAGCAGAAATTATAAGATCTGAAACCGAAAAAGTGGTAATCTCTGCGCCTCAGAGTATCATCAATGAGATTCTTGTGGATAATGATGGCGGAAGACTTCATATTCATTATAAACCGGGGATCAGAGTAATGAATATCAGTAAGGTTACAGCTAAAATTTATGCAAAAGACTTTAAGAAACTTCTTGCCGATTCAGCAGCAAGAATTATCGTAAAAGATAAATTTACTCAGGAAAAAACAGATATTGAAATATCGAGTGCAGCCAGTATTTCAGGAGATCTTGAAGCTAATGATATGGATATCAATGTAAGCAGCAGCAGCAGCTATAATGGCAAAATATGGGCTGTAAACCTTGATATTGAATCGTCATCCGGGTCTACACTGGATCTTTCCGGAAAAGCAAAAAAAGCGGATATCAGTGCTTCTTCAGGCAGCAGTGTTTCAGCTAAAGATGTTATCGCAGATAATGTAGAAGCAGATGCTTCCAGTGGTGCCAGTGTTCAGATAAGCGCAGTTTCCAGTGTGAAGGCAGGTGCTTCATCCGGCGGAAGTGTGGATATCTCTAAAAAAGGAGAGCTTAAGAATGTGATTAAAGAAGAAAGTAGTGGCGGAAGTGTAAGCATCCAATAG	MKTRTLFIFSALVIMGSCNDKHENRNRDRDGDRSNWVEKVVSKESGPIQHKEFNGEFDEIQISQAIEAEIIRSETEKVVISAPQSIINEILVDNDGGRLHIHYKPGIRVMNISKVTAKIYAKDFKKLLADSAARIIVKDKFTQEKTDIEISSAASISGDLEANDMDINVSSSSSYNGKIWAVNLDIESSSGSTLDLSGKAKKADISASSGSSVSAKDVIADNVEADASSGASVQISAVSSVKAGASSGGSVDISKKGELKNVIKEESSGGSVSIQ				NA	NA	NA	NA	NA
BMS003_02375	1890	kefC	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGGAATCCAGCTTAGCGATGAACACATTAATTTTCCTGGGTGTAGCCATTATTATGGTTCCATTGGCAAGGAAATTAGGATTGAGTTCTGTCATCGGTTATATTATAGGAGGTATCATCATAGGACCTTATGCCCTTAAACTTACGGGAAATAATGTGAATGACATTATGCATGCCAGCGAGTTTGGAGTGATCATGCTTTTATTTTTGGTAGGCCTGGAACTTGAGCCCCGGAAATTCTGGGAGATGCGAAAAAAGATAATGGGTCTGGGGCTATCTCAAATGATACTTACCATTCTATTGCTTTTCTTAGTATTTACAAGTGTAGGCTGGAGAGTAGACAAGGCTATTGCTATTGCCATGTGTTTTGCCTTATCTTCCACCGCCATTGTTCTGCAGACTTTGCAGGAAAAGAATAATCTCAAAACCACAGCCGGAGAAGCCTCCTTCTCTACCCTTTTGTTTCAGGATATTTCGGTGATCCCTATTTTGGCCATACTTCCTATTGTAGCCAATTATAAAGCGAAACATCATGACAATGAAATTCAGATTCTGATTCAGAAACTCCCGGAATGGCTTCAGGCCGGAACTGTGATTTTCGGGGTAGCATTGCTTATTTTGCTGGGCAGATATGTCTTTGTCCCTTTCCTGCGTTATGTTTCAAAATCAGGAATGGCAGAGCTGTTAACCGCTTCTTCCTTATTCCTGGTTATCGGGGTTTCGGAACTGATGATTGTTATTGGTCTTTCCCCGGCATTAGGAGCTTTCCTTGCAGGCGTAATGCTTGCCAACAGTGAATTCCGTCATGAGCTGGAAGCTCAGATTGATCCTTTCAAAGGGCTGCTTTTAGCCGTGTTTTTCGTTAGCGTAGGTTCCACTATCAATTTTAATATTATTCAGAAAGATCCATTGTTTATTTTCAGTACTGTTTTTGCCGTACTGGCTGTAAAGTTTGTGGTTTTATATACTATTGGAAAAATTTTCAGGATAGATACCTCTCAAAACTTTTTTTATGCATTTGCTCTTTCCCAGGTGGGAGAATTTGCATTCGTACTGCTCAATTACGCCTCGGATCTTTATCTTTTAGGTCCTGAAATGAATGCACAGATGATGGCAGTCACTGCAATTACAATGTGTATCACCCCCATTCTTCTGATCATCAATGATAAGTTCATTACTCCAAAATTTATCAGAGAAATCCCTGAAAAAGAACATATTTACAATATTCTCGGCAGTGATATTACCCAAAAGAAAATCATTATTGTAGGTTTCGGACATTTCGGAAGTACAGTAGGACGTCTTTTAAAAGCCAACAAAATATCTGCAACTGTCCTGGATCGTGATTCTGACCGTGTGAAACTCCTCAGAAGCTATGGTTTTAAGGTATATTATGGGGATGCAACAAGAATTCCCATTCTAAGGGCAGCCGGAATTGAAGATGCTGAGATTCTGGTTTTGTGTCTGGATGATCCGGATGATAACAAATTCATTGCAGAACTTGTCCGCGAAAATTATCCTGATGTAAAAATTTTTGTGAGAGCAAAAAACAGGATTGACGCATATGATTATCTGAATAACGGAATCAATCATATATATCGGGAAACATTGGGAACAGCGGTTGATATGGCCGTAGATGTACTTCACGAAACAGGAATGAGGAAGTACGCAGCAAGACGTCTTGGGCAAAGATTTATGGCTATTGATAAAGCATCAGTCCGAAAGCTGGCAAGAATGAAGGAAAATAATGATGATATTACCCTGTTTACTACAAAAGAAATCCTCCAGCGAGAGGAGGAATTATTAGCATATGATAATCTTAATTTTGATAATAAAAATTGGGAAGATTCCTCATCCGCAGACGATGAAGATGAGGACGAATCCCAGGAATAA	MESSLAMNTLIFLGVAIIMVPLARKLGLSSVIGYIIGGIIIGPYALKLTGNNVNDIMHASEFGVIMLLFLVGLELEPRKFWEMRKKIMGLGLSQMILTILLLFLVFTSVGWRVDKAIAIAMCFALSSTAIVLQTLQEKNNLKTTAGEASFSTLLFQDISVIPILAILPIVANYKAKHHDNEIQILIQKLPEWLQAGTVIFGVALLILLGRYVFVPFLRYVSKSGMAELLTASSLFLVIGVSELMIVIGLSPALGAFLAGVMLANSEFRHELEAQIDPFKGLLLAVFFVSVGSTINFNIIQKDPLFIFSTVFAVLAVKFVVLYTIGKIFRIDTSQNFFYAFALSQVGEFAFVLLNYASDLYLLGPEMNAQMMAVTAITMCITPILLIINDKFITPKFIREIPEKEHIYNILGSDITQKKIIIVGFGHFGSTVGRLLKANKISATVLDRDSDRVKLLRSYGFKVYYGDATRIPILRAAGIEDAEILVLCLDDPDDNKFIAELVRENYPDVKIFVRAKNRIDAYDYLNNGINHIYRETLGTAVDMAVDVLHETGMRKYAARRLGQRFMAIDKASVRKLARMKENNDDITLFTTKEILQREEELLAYDNLNFDNKNWEDSSSADDEDEDESQE	PGPT0014395_1171	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
BMS003_02376	522	ywrO_2	COG2249	General stress protein 14	ATGAAGAAGACGCTGGTAGTATTTGCACACCCTTATCTGGAGCACTCCAATTCGAATGTAGAGCTCATCAATTTCTACGTTCGCCACCAGCATTACACCCTAAGAGATCTTTATGAAGAATATCCTGACTTTCACATTGCTGCTTTCAGAGAAAGAAAACGCCTTAAGAATTATGACCGTTTTGTATTTCAGTTTCCCCTGATATGGTTTGGAATGCCACCTCTTCTCAGATTATGGATTGATGAAGTTTTTGACAGAGACTGGCTTAAAGAGGGAGAATATAATCCACTGGAAGGAAAAGAAGTCTATATCCTGGTAACCACTGGCGGAAAAGAAAGATCTTTCAGTAAAAAAGGCACTTATCAGTATACCATAGACGAACTGATCAGCGGGCTGATTGTTTCATTAAAAGTCTTCAAGGCAGACATCAGGCACATCAAAATTGTATATGAAGCCAGCAAGCTTTCTAAAAAAGAAATTATTCTGCATAAAAAGGAATTCACAGAACTACTCAATCAATAA	MKKTLVVFAHPYLEHSNSNVELINFYVRHQHYTLRDLYEEYPDFHIAAFRERKRLKNYDRFVFQFPLIWFGMPPLLRLWIDEVFDRDWLKEGEYNPLEGKEVYILVTTGGKERSFSKKGTYQYTIDELISGLIVSLKVFKADIRHIKIVYEASKLSKKEIILHKKEFTELLNQ	PGPT0013810_666	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013810-kefG-K11748	NA	NA
BMS003_02377	813			hypothetical protein	ATGAAATTACGTTCTCTTAAAATAGTATTTTCATTTTTACTGCTCTGCTTTTACACATTTGTATCAGCACAATACACCATTCCTGAAAAACCGGCAGTTCTTTACCCTGTTTTTGATGAAGCAGGACTGCTTTCCCCGCAGGAAAAAGATGCCCTTAATAATAAACTGATCAAGTTTGCAGATTCTACCTCAACGGAAATTGAAGTAGTGATCATCCGCTCTACCAAAGGAGAAGATGTCAACTTTCTGGCAACCATGTTTGGCGAGAAATGGAAAATCGGGAAAAAAGGTGTAGATAACGGAGTGGTTTTCCTTATTGCCACAGAAGACAGAACCATGTCTATCCAGCAGGGACGCGCCGTAGAACAGTATCTTACCGCTTCAGTAGCAGGACAGATCTTAGATTACATTGTCACCCCCAATTTCAGAAAAGGACTTTGGTATGATGGGATCAACGGTGGAACGTCAGCTATTATGGAGGCCGTACAGGGAAAATTCAAGCCTGTTACCAATACAGCTCCTTCCGGCAACGGAAGCGCACTTAAGGTACTCATCATTGCCTTTATTATTTTCATCATTATTGCCATCCTTTTCGGTAACAGAGGAGGTGGACGTGGTGGAAATAATGATGACGATGATGATGTGATTATAACCAGAAGAGGACGCAGAAATTATCCTGGCGGTTTCTTCCCATTCCCGGGCAACTTCGGCGGCGGTGGCTTTGGCGGAGGAAGTTCCGGCGGTGGAGGCGGATTCGGAGGCTTCGGCGGTGGCGGAAGTTTTGGAGGCGGTGGCGCATCGGGAGGCTGGTAA	MKLRSLKIVFSFLLLCFYTFVSAQYTIPEKPAVLYPVFDEAGLLSPQEKDALNNKLIKFADSTSTEIEVVIIRSTKGEDVNFLATMFGEKWKIGKKGVDNGVVFLIATEDRTMSIQQGRAVEQYLTASVAGQILDYIVTPNFRKGLWYDGINGGTSAIMEAVQGKFKPVTNTAPSGNGSALKVLIIAFIIFIIIAILFGNRGGGRGGNNDDDDDVIITRRGRRNYPGGFFPFPGNFGGGGFGGGSSGGGGGFGGFGGGGSFGGGGASGGW				NA	NA	NA	NA	NA
BMS003_02378	429			hypothetical protein	ATGGGTAATTTCCTAACAAATCAACAGATCGCTTCCCTTGTGGAAGCGATTCAGTCTGCGGAAGATCATTCTACGGGAGAGATCAGGGTGCATATTGATTCCAATACAGAAACCCGTGATGCCAAAACGGCATTTGAGGTTTTCAAAAAATTGGATATGGATAAAACTACTGAAAGAAATGCGGTGCTTTTCCATGTCAATTTTGAACAGAAATACCTTACCATCATTGGAGATATCGGAATTCATGAAAAAGTAAAGCAGTCTTACTGGGATCATCTTCACGATTATATCACAGCCGAGTTTGCCAAAGGAAATTATTATCAGGCTCTGAAAAGCGGCATCCTGGAAACAGGTCTTGAACTCAAAAAATATTTTCCTGTAGAAGGAGAAAACCCAAACCAACTTCCAAATGAAATTACGTTCTCTTAA	MGNFLTNQQIASLVEAIQSAEDHSTGEIRVHIDSNTETRDAKTAFEVFKKLDMDKTTERNAVLFHVNFEQKYLTIIGDIGIHEKVKQSYWDHLHDYITAEFAKGNYYQALKSGILETGLELKKYFPVEGENPNQLPNEITFS				NA	NA	NA	NA	NA
BMS003_02379	606	lemA_1	COG1704	Protein LemA	ATGAAAAATAAAGGATGTCTGGGCGCAGGAACCATTGGTATTGCCCTTCTTATTATTGTTGCTATTCTGTTCTTCTGGGGGAAAAGCGGATATAACAGCTTTGTCAACAAAGAACAGACTGTGAATGCAAAATGGTCTAATGTAGAGACGGTATATCAGAAAAGGGCGAACCTTATTCCTAACCTGGAAAGAACCGTAAAATCGTATTCAAAATTTGAGCAGGAAACATTAACACAAGTTGTGGAAGCCCGTTCCAAAGCAACTTCTATTAACATTGACCCTACGAATATGACTGAAGCAGATCTTGCTAAATTCCAGGCAGCACAGGGAGAATTATCAGGTGCATTAAGCCGGTTGATGGCTGTAGTGGAATCTTATCCTAACCTAAAGGCAGATCAGCAGTACATTAACTTCCAGAGAGAATATACGGCTATCGAAAACAGTATCAGAACAGAAACTGTTTATTATAACGATGCTGCAAAGGATTACAACACTTCCATCAAGACTTTCCCGAATAATATTCTGGCGAACTTTACCAACTTTAAAGAAAAACCTTATTTCAAAGCTGACGCAGGTGCTCAGAAAGCCCCTGAAGTATTCAAATAA	MKNKGCLGAGTIGIALLIIVAILFFWGKSGYNSFVNKEQTVNAKWSNVETVYQKRANLIPNLERTVKSYSKFEQETLTQVVEARSKATSINIDPTNMTEADLAKFQAAQGELSGALSRLMAVVESYPNLKADQQYINFQREYTAIENSIRTETVYYNDAAKDYNTSIKTFPNNILANFTNFKEKPYFKADAGAQKAPEVFK				NA	NA	NA	NA	NA
BMS003_02380	498	dhfrIII		Dihydrofolate reductase type 3	ATGACGACAATAGTGGTGGCAATGGGAGAAAAAAATGAGATTGGTTTCGAAAACCAGTTGCTTTGGCATCTTCCCAAAGATTTGAAACATTTTAAAGATATTACTTCCGGGCATCCTGTGGTTATGGGAAGAAAAACATACGAAAGTATTGGAAGGCCTCTTCCGAACCGTACCAATATTGTTGTGTCGAGAAAGAAAGACTGGTTTGAAGAAGGAATTCTTATTGTAGGAAGCATCAAAGAAGCATTGAAATTTGCTAAAAAGATTGATGAAGAAGTTTTCGTTATTGGTGGCGGAAATATCTATGAGCAGACGATGGATGTGGTAGATAAGCTTGAAGTTACTTTAGTGAAAGCCGATCTTCAGGCAGATACATTCTTTCCGAAAATAGATGAAAAAGTCTGGAAAAAAACAAACGAAATCTTTCATGAAAAAGACGAGAAAAATGAATATGATTTCTGTTTTCAGACGTTTGAAAGAATTAAAAAAGAAGAATAA	MTTIVVAMGEKNEIGFENQLLWHLPKDLKHFKDITSGHPVVMGRKTYESIGRPLPNRTNIVVSRKKDWFEEGILIVGSIKEALKFAKKIDEEVFVIGGGNIYEQTMDVVDKLEVTLVKADLQADTFFPKIDEKVWKKTNEIFHEKDEKNEYDFCFQTFERIKKEE	PGPT0007945_2394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS003_02381	570			hypothetical protein	ATGAATAAATACATAAAAATTGCAGTAGCAGCAGTTCTTATCCTTTTAGGACTTTATATGATGATTTTCACAAGAAATCTTGGATGGGGTATTGTTGTTTTTCTTTTGGCTGCATTTCCGATCTTACTATTTTTTAAAAATGAGTATATTCTGTTGGCATTCTGGCAATTGAGAAAACAGAATATGGAGAAAGCCGGAGAATGGTTATCCAAAATAACGGATTATAAAACACAGCTTCATAAAACTCAATACGGATATTTTCATTATTTATCAGGATTGACACAAGCTCAGGATCATCCTGCTAAGGTAGAGCCTTTCATGAAAAAAGCTTTAGAATATGGTTTGAATATGAAGCACGACAGAGCAATGGCTACTTTAAATCTTGCAGCAGCAGCTATTTCTAAGGGAAGAAAACAGGAAGGGCAGAAGTTGCTGGAAGAAGCAAAAAGACTGGATAGCGCAGGAATGATGACAGATCAGATCAAAATGATGAAAGATCAGTTGAAGATGCCGACCATGCAGAAGCATATGCATAACCCGAATATGAGAAACAGAGGAAAATTCTTCTAG	MNKYIKIAVAAVLILLGLYMMIFTRNLGWGIVVFLLAAFPILLFFKNEYILLAFWQLRKQNMEKAGEWLSKITDYKTQLHKTQYGYFHYLSGLTQAQDHPAKVEPFMKKALEYGLNMKHDRAMATLNLAAAAISKGRKQEGQKLLEEAKRLDSAGMMTDQIKMMKDQLKMPTMQKHMHNPNMRNRGKFF				NA	NA	NA	NA	NA
BMS003_02382	636			hypothetical protein	ATGCACGAACAGTTCAATTTTGCAATAGAAGTCCTTGGGACTATTGCCTTTTCCATGTCAGGAAGTTTTGCAGCCATGCAGAAACGGCTTGATCCGTTCGGGGTGCTTATTATTGCATTTGTAACTTCCGTAGGAGGAGGAACTGTAAGAGATCTGTTGCTGGATATTCCGGTATTCTGGATGCATGATATTCTTATGTGCGCACTGATTCTGGTGACCAGTATTTTTTCCATGGTATTCAAGTCTCTTGAGAAAAATTTTAAAGTAACCTTATTTATCTTCGACAGCTTCGGTCTTGGATTATTTACCATAATCGGTGTACAGAAAGGACTGAATGCTGGCATACATCCTATGATCTGTATTGCATTAGGTACCATTACGGGATGTTTCGGAGGGATTATCCGGGATATATTGCTCAACAGAATTCCGCTGATCTTCAGGAAGGAAATTTATGCTACCGCCTGCATATTGGGAGGTTCTTCATTTTTGTTGATGACCAGATACACTGCCCTTTCTTATACTTTCATACAAATCTTCACTATTTTACTGATCGTTGCCATTAGAACATTCGCTGTGAAATACCACTGGCAGATACCTAAGTTTTATGGTTATGAACATAATAATTCGGAAATGTAA	MHEQFNFAIEVLGTIAFSMSGSFAAMQKRLDPFGVLIIAFVTSVGGGTVRDLLLDIPVFWMHDILMCALILVTSIFSMVFKSLEKNFKVTLFIFDSFGLGLFTIIGVQKGLNAGIHPMICIALGTITGCFGGIIRDILLNRIPLIFRKEIYATACILGGSSFLLMTRYTALSYTFIQIFTILLIVAIRTFAVKYHWQIPKFYGYEHNNSEM				NA	NA	NA	NA	NA
BMS003_02383	162			hypothetical protein	ATGTACATAGTGGTTGAAGAAATTCATGAAACTCAACTTTGGCTTGAAATTATTGAAGAGTTAGACTATGTAACTCCGGAAAAAATTTTACATTTAAAAGCAGAATGCGAAGAACTCGTAAAAGTTATGACCACATATAAGTTTAAATTATCTCAAATTTAA	MYIVVEEIHETQLWLEIIEELDYVTPEKILHLKAECEELVKVMTTYKFKLSQI				NA	NA	NA	NA	NA
BMS003_02384	465	coaD		Phosphopantetheine adenylyltransferase	ATGAAAATTGCTGTTTTCCCGGGATCTTTTGACCCAATTACACTAGGACATTACGACATTATAGAAAGAGCGGCTCCGCTATTTGATAAATTAATTATTGCAATCGGGCAGAATTCTCAAAAAAAATATATGTTTCCTCTTGAAAAAAGAATGGAATTTATTCAGAACTCTGTAGCAGAATTTCCCAATGTGGAAGTAGACTCATTCGAAGGCTTAACGGTAGATTACTGCTTTGAAAAAAATGCTCAGTACATCATCCGAGGATTGAGAAACCCAGCTGATTTTGAATTCGAAAAAGCGATTGCTCATACCAACAGAACGCTGGCTCATAAAAAACTGGAAACTGTATTTTTACTGACTTCTTCAGGAAAATCTTTCATCAGCAGCAGCATTGTAAGGGAAGTTATTACCCACGGCGGCGAATATGAACTGATGGTTCCTGACTCTGTGAGGGTGGAGAGATAA	MKIAVFPGSFDPITLGHYDIIERAAPLFDKLIIAIGQNSQKKYMFPLEKRMEFIQNSVAEFPNVEVDSFEGLTVDYCFEKNAQYIIRGLRNPADFEFEKAIAHTNRTLAHKKLETVFLLTSSGKSFISSSIVREVITHGGEYELMVPDSVRVER	PGPT0008825_4188	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
BMS003_02385	990	ddl	COG1181	D-alanine--D-alanine ligase	ATGGTTATGAACAAAAAAAGTGTTGCCGTAGTAATGGGAGGCTATTCTGATGAATATGTTGTTTCTTTAAAAAGCGGACAATTGATTTATGATTCTCTGGACAGAAATCTCTATGACGTATATAAAGTTGTAGTTCTTAAAGATGAATGGTATTTTTTAGGTGAAAATGATAAAAAATATACCATCAACAGAGGAGATTTTTCTGTGACTTTAGATAATGGGGAAGTTTTAAAATTTGATGTTTGTTTCAATATCATCCACGGAACTCCGGGAGAAAACGGAATTCTTCAGGCATACTGGGATGCTATTGGTCAAAAATATACAGGTTGTGATTTTTACCAGAGTGCCCTTACCTTCAATAAAAAAGACACTCTTGCCGTATTATCAAAGTATGGCATTCCTTCTGCAAAAAGTATTTATTTGAGAAAAGGAGAAGACATTAATGTAGAGGAAATTGTATCAGAATTAAATCTTCCATTATTTGTGAAGCCTAACCAATCCGGATCTTCGCTGGGAATTTCCAAAGTAAAAGAAAAATCTGAATTGCTTGCCGCTACTGAAATTGCATTCAAGGAAGATAATGAAATCCTGATCGAAAGTTTCCTGGACGGTATGGAAGTTTCTGTGGGAGTTATTGATTTTAAAGGTGAAACCATTGTGCTGGGAATTACAGAAATAGTTCCTACCAATGAATTCTTCGATTATGAAGCAAAATATGAAGGTGCTTCTGAAGAAATTACACCAGCCAGAATTGACGGAGAAACCACAAAAAGAGTGGAAGAAATTGCCAAAAGAGCTTACAATTCATTAGGCATGAGCGGTTTTTCAAGAAGTGAATACATTCTGATGAACGGAATTCCTTATATGCTGGAAATGAATACCAACCCGGGATTCTCTCCTGCAAGTATTCTTCCTCAGCAGGCAAAACATTATGGAATTTCCATTATGGATCTTTGTGGAAATGAAGTAGAAAAAGCGCTTAATAAATAA	MVMNKKSVAVVMGGYSDEYVVSLKSGQLIYDSLDRNLYDVYKVVVLKDEWYFLGENDKKYTINRGDFSVTLDNGEVLKFDVCFNIIHGTPGENGILQAYWDAIGQKYTGCDFYQSALTFNKKDTLAVLSKYGIPSAKSIYLRKGEDINVEEIVSELNLPLFVKPNQSGSSLGISKVKEKSELLAATEIAFKEDNEILIESFLDGMEVSVGVIDFKGETIVLGITEIVPTNEFFDYEAKYEGASEEITPARIDGETTKRVEEIAKRAYNSLGMSGFSRSEYILMNGIPYMLEMNTNPGFSPASILPQQAKHYGISIMDLCGNEVEKALNK	PGPT0020050_3456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS003_02386	1059			hypothetical protein	ATGCTTAAATCACTTTTCAATTGGAAAGTTTTACTGAATTTAGTAGTAGCCATCGGTGTTTTCGTAGGTCTTGTATGGCTTACGTTTCGCTGGTTGGAGTACCATACTAATCATGGCCAGGAAATTCCTGTTCCCAATATTGTAAATAAATCGGTACATGATGCCGTAAAAATATTAGATGATACAGGACTGGAATATGAAGTAGACAGTGCCAATTATAACCCGAAATACAGACCATTCCAGGTACTGCAGGTATATCCTTCACCAGGTTCCCGTGTAAAAGACGGAAGAACTGTAACACTGAAAGTAAATCCAAGAACATGGGCTCCTATTGCAGTTCCAAATGTTATCAATAAATATTCAGGTCTGGCATTCCAGAGACTGGATCAGGTAGGTCTTAAAATTGGAGATACGATTTATGAGCCTAGTATTCAGAAAGATGCTCTTTTAAGAATATTATATAAAGGAAATGCAGTAAATCCCGGGACTCGTTTACCCAGATTCTCTGTTATTGATGTAGTGGTAGGTTCCGGCCCTATGAGAAATATATCCATTCCTAATGTAGTAGGGCTTACGGTAAAAGAAGCCCGGGCTGTTATTACAAGGAGTATGTTTGAAGTAGGTTTGGTAGAATATGACGATGGAAGTAAAGATGAATCTGATATTATTTATTATCAGGATCCTGCTTCCGGAGATGTTCGTGATCAGGGAATGCAGATAGACCTTTGGGCAAGTAAGAAAACTCCGGCAGAACTGAGGGGAAAAATAGACCAGCTGAACTCTATCTACAGAATGAAAATAGATACTTCACTTCCTCCGGTAAGATATGAGGAAGTACATACTGCTCCAAGCTATGACGTTCCTCCGGCGCCAGCACCTGTAAGAGAAACATCAAGGCAGGAAGTTCCGAAGACAGAGACACCTGCTTCTAAACCTGCCGCTTCAGGAACTGAGAAGTCTAAAGCTTCTACCACTGTTCCTGCTACTGGAAATTCAGCCAAGCCGGCTGCATCCACCGCTGCCCAAAAGCCGAAAGCTAAGAAGGTAGTCGTAGAATAA	MLKSLFNWKVLLNLVVAIGVFVGLVWLTFRWLEYHTNHGQEIPVPNIVNKSVHDAVKILDDTGLEYEVDSANYNPKYRPFQVLQVYPSPGSRVKDGRTVTLKVNPRTWAPIAVPNVINKYSGLAFQRLDQVGLKIGDTIYEPSIQKDALLRILYKGNAVNPGTRLPRFSVIDVVVGSGPMRNISIPNVVGLTVKEARAVITRSMFEVGLVEYDDGSKDESDIIYYQDPASGDVRDQGMQIDLWASKKTPAELRGKIDQLNSIYRMKIDTSLPPVRYEEVHTAPSYDVPPAPAPVRETSRQEVPKTETPASKPAASGTEKSKASTTVPATGNSAKPAASTAAQKPKAKKVVVE				NA	NA	NA	NA	NA
BMS003_02387	1074	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGTCAGAAGATAACGAAGATTTTTTAGATGAAGAATTATTAGACTCCAACAGTATTGAAAACATCGATATTGATGAGGAAAATAAAGGATTGTACGAACATCTTAATATCACTGTAGACAGTAAGCAGGAACCATTAAGAATTGATAAGTTCCTTTTAATATACAGGCAGAATTCTTCAAGAAATAAAATTTCACAGACGTGCAGAGCCGGAAACGTTATCGTGAACGGAATACCAGTAAAGCAGAACTACCGTGTAAAACCGGGAGATCAGATCTCCGTACTGCTTGCTCATCCGCCCAGAGCCAATGTTATTATTCCGCAGGATATCCCGGTTCATATTATCTATGAAGATGATGATCTTGTAGTGGTAGACAAAGAAGCCGGAATGGTAGTGCATCCCGGACACGGTAACTGGGACGGAACATTGGTAAATGCTTTAGCTTTCCATTTTGAAAAGAATGGAGAGAAATCTGATCTTGACAGAGTAGGCCTTGTTCACAGAATTGATAAAGATACATCCGGACTACTGGTTATCGCTAAGAATGAATATGCACTGAGCTTCCTGGCCAAACAGTTCTTTAACCGAACTACGAAAAGACTCTATTGGGCTTTTGTTTGGGGAAATATGCAGGATGATGAAGGTACAATAAGAGGCCATATCGGAAGACATCCTAAAAACAGAATGCAGATGTCTGTTTATGAAGACGGAAGCCAGGGGAAACATGCTGTAACCCATTATAAAGTGCTGGAAAGATTCAAATATATGACCTGGGTAGAATGTAAGCTTGAGACGGGAAGAACGCATCAGATCCGGGCTCATTTCAAACATATCGGACATACTTTGTTTAATGATGAAAGATATGAAGGACATACACCTTTAAGAGGGGTAAATCTTCCGAAATACAAACAGTTTATTAAAAATGTCTTTGAAATCCTGCCAAGACATGCCCTTCATGCCCATACTCTCGGATTTATACACCCGACAACAAAAAAGGAATTATATTTTGAGAGCCCAATGCCCAAAGATATGGCGGATGCTGTAAAAAAATGGAGAAATTATTTAGAAAACTAA	MSEDNEDFLDEELLDSNSIENIDIDEENKGLYEHLNITVDSKQEPLRIDKFLLIYRQNSSRNKISQTCRAGNVIVNGIPVKQNYRVKPGDQISVLLAHPPRANVIIPQDIPVHIIYEDDDLVVVDKEAGMVVHPGHGNWDGTLVNALAFHFEKNGEKSDLDRVGLVHRIDKDTSGLLVIAKNEYALSFLAKQFFNRTTKRLYWAFVWGNMQDDEGTIRGHIGRHPKNRMQMSVYEDGSQGKHAVTHYKVLERFKYMTWVECKLETGRTHQIRAHFKHIGHTLFNDERYEGHTPLRGVNLPKYKQFIKNVFEILPRHALHAHTLGFIHPTTKKELYFESPMPKDMADAVKKWRNYLEN				NA	NA	NA	NA	NA
BMS003_02388	951			hypothetical protein	ATGAGAAAACTATATGCTATCGTATGTTTAGCTCTTTTGTCAAATGCATACAAAGCACAAGAATCACTACCATACTATCAGCAATATCTTTTGGATGGTGAGTTCCTGTTCAACCCAGCTCAATACGGAAAAACAGATTACGTACAGCTCAACGCCAATTATCAACAACAATTTTCAAAGTTCAACAATTCTCCGAATGTGCAGTCAATCGGGATGAACGCGAATATCTTTGATAGAGTGGGTGCTGGTATTTCCGTATTCAGAGACAGTAACGGACCTATCTCTGCGGGTGGTATCACGGCTGGTGCTTCCTATTTTATTCCGCTAAGTAGTGAAGGAGACAGAAAAGACCAGTTCTCTTTCGGTACTAGTGTTAATTTCTATAACATGAACTTTGATTATTCAAAAATTAATACTGAAGAAGGAGGAGACCCGTTATTGAGAGGTGAAGAAAGTAACATCTTCATGGTATATGCCAACTTCGGTTTGGCTGCTACCTATAGAGGTCTATTCGGAGGTGTTTCTGTGAATGACATTGCATTAAGTAATGATGCTTCTATCGTAAACAACTACGAACCTTCTCCAATTAAATTCTTCTTAAACTTAGGATATAACTGGAACATTGCTGACAATATTACTATTGCACCATCAGCATTGATCAATCTTAATACTAACTCAACGAGAATGATCGACTGGAACCTGATGGCAACATTCGCTAATGATATCAACGCATTCTCTTTCGGGGTAAGCTACAGAACGGTTCAGAACAGATTTGATAATCAGAATCTGAGTATTTCCCCAATTGTAAAAGTAAGATTCAACAAATTCATGATCGGAGCTACTTATAACCTTGGAATATCTGACATTCAGAGCTATGGTGGAAACAGCTTCATGATTGGTCTGGGTTATAACTTTGACAACTTTATTAATGCCAGAGGATTTAGATACTAA	MRKLYAIVCLALLSNAYKAQESLPYYQQYLLDGEFLFNPAQYGKTDYVQLNANYQQQFSKFNNSPNVQSIGMNANIFDRVGAGISVFRDSNGPISAGGITAGASYFIPLSSEGDRKDQFSFGTSVNFYNMNFDYSKINTEEGGDPLLRGEESNIFMVYANFGLAATYRGLFGGVSVNDIALSNDASIVNNYEPSPIKFFLNLGYNWNIADNITIAPSALINLNTNSTRMIDWNLMATFANDINAFSFGVSYRTVQNRFDNQNLSISPIVKVRFNKFMIGATYNLGISDIQSYGGNSFMIGLGYNFDNFINARGFRY				NA	NA	NA	NA	NA
BMS003_02389	1038	hemW	COG0635	Heme chaperone HemW	ATGCTTCGTGCCATGAAAACTGAAATACTGCTGAGAAAAGATGAATTGCAGAACAAAAATCTGAAATCCCTGTATTTTGGAGGCGGAACTCCTTCTATTCTTTCTGTTGACGAAATCAATTCTTTAATAGATGAAGTTTTAAAATATTTCAGTTTTGAAAAAGATATAGAAGTCACTCTGGAAGCCAACCCTGACGATCTGGATAATAATTTCCTAAAACAGCTGGCCGGCACACCCATAAACAGGCTGTCTATTGGAACTCAAAGTTTTTTTGAAGAAGATTTAAAGCTTATGAACAGAGCTCACAGTGCTTCCGAAGCAGAAAGCTCTATCAAACGTGCACAGGATTTCGGTTTTGAAAACCTGAGTATTGATCTGATCTATGGTTCACCAACATCCAATCTTGAGATATGGAAAGAAAATCTCAATAAAACAATTGCTTTGGAAGTTCCTCACATCTCGTCCTATGCATTGACCGTAGAGCCCAAAACAGCCTTGGAAAACTGGATATCAAAAGGGAAAATAAAAAGTCCCAAAGAAGAAGAGCAAAACAGAGAATTCTATTACCTGTCTGACTTTTTAAAAGATAACGGTTTTGAACATTACGAAGTATCCAATTTTGCAAAACCCGGCTTCTATTCACGCCACAATTCAGCCTATTGGAAATATCAGGAATATCTTGGTATAGGCCCTTCGGCACATTCGTATAACGGATTTGATGTCAGAAGCTGGAACATAGCCAATAATCAACAGTACATTAAGAAACTGAATGATAAACTTCCTGCTAAAGAAGAAGAAATCCTTTCTCAGGAAGATCAGTTTAATGAAATGATCATGATTGGTTTGCGTACCATTTGGGGGGTAGATATGGAAAGTTTAAAAAATAAATTTTCAGACAGAATGCTGGAGCACTTTCAGAGAGAAATCAAGTCCAAAATTGAGGAAGGTATTTTAATTATTGAAAATAATCATTTGAAAATTCCTGAGAGGCATTGGTTTATGGCAGACGGAATTGCTTCGGATTTGTTTATCATTTAG	MLRAMKTEILLRKDELQNKNLKSLYFGGGTPSILSVDEINSLIDEVLKYFSFEKDIEVTLEANPDDLDNNFLKQLAGTPINRLSIGTQSFFEEDLKLMNRAHSASEAESSIKRAQDFGFENLSIDLIYGSPTSNLEIWKENLNKTIALEVPHISSYALTVEPKTALENWISKGKIKSPKEEEQNREFYYLSDFLKDNGFEHYEVSNFAKPGFYSRHNSAYWKYQEYLGIGPSAHSYNGFDVRSWNIANNQQYIKKLNDKLPAKEEEILSQEDQFNEMIMIGLRTIWGVDMESLKNKFSDRMLEHFQREIKSKIEEGILIIENNHLKIPERHWFMADGIASDLFII	PGPT0003200_3689	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
BMS003_02390	831	racE	COG0796	Glutamate racemase 1	TTGAAAACGAAAAAACAAGATTATTCACATCTTTCACCAAGCCAGCCTATCGGAATTTTCGACAGCGGGGTAGGAGGTCTTACCGTTGCCAAAGAAATCAAAAGACTTCTTCCTAACGAAGACCTGATCTACTTTGGAGATACCAAGCATCTTCCTTACGGAGAAAAATCCAAGGATGCTATTATTGAATATTCTACAAAGATTACTAATTTTCTGCTGGAGCAGAACTGTAAAGCGATCGTAATTGCCTGTAATACGGCAACGGCTAATGCTTTGAATGAAGTAATGCAGTCTGTCGCAGGAAAAGTTCCTGTCATAGACGTTATTAATCCTGTTGCTGAGAAAGTATCTTACGAAATTCACAATAATGTTGGGGTCATTGCAACTAAAGCGACAGTGAACTCAGGGCTGTATAAAAAGAGCATCCGAAAACATAATAAATGGATCAAAGTAGATGAACTGGCAACACCACTATTGGTTCCTGCCATTGAAGAAGGTTTTAAAAACCATCCCATTACACATGCTATTATTTATAACTACTTAAGTAATAATAAATTAAAAAATATTGAAACGCTGATTCTGGGATGCACCCATTATCCTCTTTTAATAGATGAAATAAAACAATATTACGGAAACAGAGTTCGTGTAATAGACTCTCCGAATATTGTAGCCAATCATCTGAAGATCATTCTGGATAAGTATAATCTCTTAAATGATCATAATCCAAAACCTAATTATCATTTCTATCTTTCGGATATTACCAAGAACTTTGAGAAAATCTCTAAGAAGTTCTTCGGAAAAACCATCGACTTAGAATTGAAAGTACTATAA	MKTKKQDYSHLSPSQPIGIFDSGVGGLTVAKEIKRLLPNEDLIYFGDTKHLPYGEKSKDAIIEYSTKITNFLLEQNCKAIVIACNTATANALNEVMQSVAGKVPVIDVINPVAEKVSYEIHNNVGVIATKATVNSGLYKKSIRKHNKWIKVDELATPLLVPAIEEGFKNHPITHAIIYNYLSNNKLKNIETLILGCTHYPLLIDEIKQYYGNRVRVIDSPNIVANHLKIILDKYNLLNDHNPKPNYHFYLSDITKNFEKISKKFFGKTIDLELKVL	PGPT0020200_1479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
BMS003_02391	600		COG0778	Major NAD(P)H-flavin oxidoreductase	ATGAACTTTTTAGACCAAATGAAAAACAGATATACTGTAAAAAAGTATAACCCACAGGGAAAAATCAGTGAAGAGCAAATTGCAGCGCTTCAGGAGATCTTGAATTTAAGTCCATCATCCATTAACAGCCAGCCATGGAACTTTATTTTTGTAAATGATCCGGAACTGAAAAAGCAATTGGGTGATAAGTCTTACTTTAATAAAGAAAAAGTGTTGGACAGCAGCCATATCATTGTCTTTCAGGTAATCAAAAACATAGAAAACTTTGAAAAACAAATTGAAGAAAACCTCCCGGAAGGTTCTGTTAATTATTACCGGACTATGGTAAAGCCTAAGGGAGAAGAAGCTGTAAAATCATGGCTTGGGCATCAGGTATATTTATCTTTAGGTATACTTTTGTCTGCTTGTGCAGCAATGGGAATAGATTCTACTCCAATGGAGGGTATTGAGCCTGAAGGATATGATGCTGTTCTGAATAATGAAAAATACGAGACGTTATTTGCTGTAGTCATTGGGGAAAGAGATGAAGCAGATGCAAACCAGCCTAAATTTAATCCGAAGAAAAGGCTGAATGCTGAAAAAGTAATTGTAGAAGCGTAA	MNFLDQMKNRYTVKKYNPQGKISEEQIAALQEILNLSPSSINSQPWNFIFVNDPELKKQLGDKSYFNKEKVLDSSHIIVFQVIKNIENFEKQIEENLPEGSVNYYRTMVKPKGEEAVKSWLGHQVYLSLGILLSACAAMGIDSTPMEGIEPEGYDAVLNNEKYETLFAVVIGERDEADANQPKFNPKKRLNAEKVIVEA	PGPT0005925_911	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS003_02392	348	yybR_3	COG1733	putative HTH-type transcriptional regulator YybR	ATGTATACAATAGATAATAAATCTTATCCCTGCTGTACCAGCGTTACCATGAAATTTATAGGCGGGAAATGGAAAGCAGTAATTTTGCACCATCTTATTGGTGGAGCTAAACGTTATAATGAGATTAGAAAGTCCATTCCTACCATTACAGAAAGAACATTGAGTTTACAGTTAAAACAATTGGAAGAAGACGGAATTGTGGACAGAAAAGTTTTTACAGAAAAACCTCCTTTAGTGGTAGAATACGAATTAACAGACTTTGGAAAAACGCTATTGCCTGTTCTGGAAGCGATCACAAAATGGGGTGAAGCCGCTCCGGTGATCTCAAAAAAAATAACCAGGAATTAA	MYTIDNKSYPCCTSVTMKFIGGKWKAVILHHLIGGAKRYNEIRKSIPTITERTLSLQLKQLEEDGIVDRKVFTEKPPLVVEYELTDFGKTLLPVLEAITKWGEAAPVISKKITRN				NA	NA	NA	NA	NA
BMS003_02393	573	rsmD	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGTTCAGAATAATATCAGGCAAATGGAAAGCCAAAAAAATTGCCGCTCCCAAAAACTTTGATGTAAGACCTACCACCGATTTTGCAAAGGAGGCTTTATTCAGCATTCTGGAAAACAAATATGACATGCAGTCGATATCCGTGCTTGATCTTTTTGCCGGAATAGGCTCTATCACCCTTGAATTTGCTTCCAGAGGATGCCAGAATATTACTTCTGTGGAATTGAATCCAAAGCATACGGCATTTATCAATTCTACAGCAGCGGAACTTGACATGGCACTTCAGATCAATATGCAAAGAGGTGATGTATTTGACTGGCTTAAAAAATTCAGAAATAAAAAATCTTTTGAGATTGTTTTCTCTGATGCTCCTTTCGAAATGGAAGAGAAAAAATACCAAGAGCTGATTTCTCTGGTTTTAAATAATAAATATCTTAAAGAGAACGGAGTTCTTATTGTGGAACATCAAAGCCGTATGAAGTTTGATCATCCCAATTTAATAGATACCAGAAAATACGGAAACGTAAGTTTCAGTTTTTTTGAACCGAATAAAGAAGATAATCAGGAACTTTAA	MFRIISGKWKAKKIAAPKNFDVRPTTDFAKEALFSILENKYDMQSISVLDLFAGIGSITLEFASRGCQNITSVELNPKHTAFINSTAAELDMALQINMQRGDVFDWLKKFRNKKSFEIVFSDAPFEMEEKKYQELISLVLNNKYLKENGVLIVEHQSRMKFDHPNLIDTRKYGNVSFSFFEPNKEDNQEL				NA	NA	NA	NA	NA
BMS003_02394	717			hypothetical protein	ATGAACGTACTAAATTTACTTTTTACCAAAGACGGATTGATCTATCAGATTGTTAAAAACAAAAACATTCTGGAGGAAAAGTCTTATTTCGTTACAGAAGAGACACCAGCCGATCTTATTGAGCAGAAACTGGACGAGGTTCTTATTAAGCAGCGCTACGACGAAATCCAGGTGATTTCAGCCTTTAATCATTTTACGCTGATGCCGGAAGGTTTTTCCGAGCATGATGCAGGATTTGACCTCATTGCCTTCAATGCTCCTGCCGACAGAGAAAAGGAAGAGCTGATGCTTTCTATCAACAAAAAATTCAGCATTCAGTTTTATTATACTTTCCCGAAAAACTATTATAAGAAAATAAAAGAACTGGCAATTCCGGTTCATTTTAATTTTTCCGGGGAAAAGTTTTTAAGTTCCATCAATAATAAAACTGCCAAAGAAATTCATATCAATCTTTATCATAATCAGTGTGAGTTTTTTGCCATTGATAATAAAAAAATCATTCTTTATAATAATCTGGATGTCAATTCTGAAGTAGATTTTCTTTATTTCATTATGTTTACATTAAGCAAAATAGGCTTCGGAATTAATGAAACCAGTTTTTATGCTTATGGGGAAACTACGGAAAATGAAACGTTTATTTCCGAACTTCAGAAGTTTGTTAAAAACCTGAAAATTGTTTTTGACAATATTCCCAACAAGAATTTTATACTTAACTAG	MNVLNLLFTKDGLIYQIVKNKNILEEKSYFVTEETPADLIEQKLDEVLIKQRYDEIQVISAFNHFTLMPEGFSEHDAGFDLIAFNAPADREKEELMLSINKKFSIQFYYTFPKNYYKKIKELAIPVHFNFSGEKFLSSINNKTAKEIHINLYHNQCEFFAIDNKKIILYNNLDVNSEVDFLYFIMFTLSKIGFGINETSFYAYGETTENETFISELQKFVKNLKIVFDNIPNKNFILN				NA	NA	NA	NA	NA
BMS003_02395	495			hypothetical protein	ATGAAGATCGGCGATAAGGTTTCGGTAGTAGATGAAGATTTAAGCGGAGTAATTACTTCCGTGAAGGGGAGTATTGTAGTTTTTAAAGATGAATATGGCTTTACCCATCAATATCCGAAAGAAAAACTGGTTCCTAAAGATGCTGATCTCTATGAAAATATAAGAGTGGTAAGAAAAGCAGAACCTAAAAAAATCATTTCTAAGAAACATCAGAAAAATCATTTGGTTTTAGACCTTCATTTTCATAATTTGGTGAAGAATCCCAATGACTATGACAGCTTTGAAAGACTATTTATACAAAAGGAAAAACTGATTGAAGTAATTGAGTTTTGCAGAAAGAACAACCTGAAAAGGCTGGAAATTGTTCACGGCATTGGTGACGGCACTTTGCAGAGGATGGTTCTGGATGTATTGGAAAGCCAGGTCAATATTGATTTTTATAATAAGGAAATACTTCACCATCAATCGGGTGCGGTAATGGTAGAATTTCACTAA	MKIGDKVSVVDEDLSGVITSVKGSIVVFKDEYGFTHQYPKEKLVPKDADLYENIRVVRKAEPKKIISKKHQKNHLVLDLHFHNLVKNPNDYDSFERLFIQKEKLIEVIEFCRKNNLKRLEIVHGIGDGTLQRMVLDVLESQVNIDFYNKEILHHQSGAVMVEFH				NA	NA	NA	NA	NA
BMS003_02396	498			hypothetical protein	ATGACAAAAGTCCTTCTCCTTTCCGACTCGCATTCTTATATAGATGACAGAATTCTGGAATATGCTTCTCAGGCCGATGAAGTATGGCATTGCGGAGATTTCGGAAGTCTGGATATGATTGAACAGCTGGAAAAAATAAAACCATTAAAGGGTGTTTACGGTAACATTGATAATGCTAAAATTCAGGCAGAATTTCCGGAAGTAAACCGATTTTTCTGTGAAAAGCTGGAAGTTCTGATGATCCACATTGGAGGTTATCCCGGAAAATATACGTCACTCACAAAGAAAGAAATTGCAGAAAAGGCACCGAAATTGTTTATTTCCGGGCACTCTCATATTTTGAAAGCGATGTATGATGAGAAAAACAGCCTTCTCCATCTTAACCCCGGTGCCTGTGGAAAGCAGGGCTGGCATAAAGTGAGAACCATGATGCGATTTGTAGTAGATGGTGAGGAAATTAAAGATCTGGAAGTGATTGAACTGGGACCGAGAGTGTGA	MTKVLLLSDSHSYIDDRILEYASQADEVWHCGDFGSLDMIEQLEKIKPLKGVYGNIDNAKIQAEFPEVNRFFCEKLEVLMIHIGGYPGKYTSLTKKEIAEKAPKLFISGHSHILKAMYDEKNSLLHLNPGACGKQGWHKVRTMMRFVVDGEEIKDLEVIELGPRV				NA	NA	NA	NA	NA
BMS003_02397	450			hypothetical protein	ATGGCAATAAACAGATTATTGGTTTTCTTCTTTGTGATGATAAGCTGTAATTTATATTTTTCTCAGGATGTAACCATCAAAGACGATAAAGTTTTAGTGGATGGAAAACAGATCCTGAAAGCTGAAAAGATCAATGTGGCACAATATTCATTTTTCTCCATGAAAGATGATGAGGAAATTCTTCTTTACCGGTACATGGATAATGAAACGCCAAGATATGTAAATGATGATTATTTTATCCTGAACTTTCTCACGGAAAAAACAAAAGTAGAATCTACTGACCTTGGCAAAATCTCCAATTTCATGAATTCCAAAAAAGGAATGGAAAAACTGATAAAATGGTTATTGAAAGAAAGGGTCATTAATCATGATGGTGAGCTAAACCCAGACCGTGTAGCCGTATTTAAAGATAAATACCACGAAAACATTACTGAAAGAACCCTTAGATAA	MAINRLLVFFFVMISCNLYFSQDVTIKDDKVLVDGKQILKAEKINVAQYSFFSMKDDEEILLYRYMDNETPRYVNDDYFILNFLTEKTKVESTDLGKISNFMNSKKGMEKLIKWLLKERVINHDGELNPDRVAVFKDKYHENITERTLR				NA	NA	NA	NA	NA
BMS003_02398	513			hypothetical protein	ATGCTAATTTTAGCAGTGTTAAAACTTTACAATAAATCAGTTGTATTCATGAAAAAGCCTATTTGTATCTGTATTTTCTCCCTTTTCGCAATCAGTGGTATCAAAGCTCAGGACAGAACTGCCAGTCCTTTACTTTTGCAAACCTGGAATCTAAGTAAGATGGACACTTATATTTATACTTATGAGAAAAATGATGGGTTTGAGGCGAGAAGAGAAGGCATCAGGTTTCAGAAAAATGGAAAAATCACAGGAAATCTGATGAAATCAACACTAAGGTATGATATTTTGGAAGAGCCTGTTACCAAAAATGAAAAAGCAGACCGTTACATCGGGAACTGGAAAAAGGATTCAGATTCTACAGTGACAATAGTCTTCCCTTCCAACACTAATATGACCGGTACTTTTATTATTTCAAAGCTTACAGAGAATCAGTTGAAATTAAAGAAAGTTTTCAGTGCTAATATTGAAAAGAAACTTGATTCTATCAGGAAAACAAGAAATATTACTGATTAA	MLILAVLKLYNKSVVFMKKPICICIFSLFAISGIKAQDRTASPLLLQTWNLSKMDTYIYTYEKNDGFEARREGIRFQKNGKITGNLMKSTLRYDILEEPVTKNEKADRYIGNWKKDSDSTVTIVFPSNTNMTGTFIISKLTENQLKLKKVFSANIEKKLDSIRKTRNITD				NA	NA	NA	NA	NA
BMS003_02399	1545	dap_2		D-aminopeptidase	ATGAAACAGAAACTTTCTTTTTTCATTTTTCTTTTGACCGTAGGATTGGCTAATGCGCAGGTTGAAGAAAAAAAGCTGGATGAACTGATCCAAAATACCCTGAAAACCTTTGATGTACCGGGAATGTCGGTAGGAATTGTAAAAGATGGGAAAATGATCTACTCCAAAGGGTTTGGAGTGCGTTCTCTTACCACAAAACAGCCTATGGATGATAATACGTTAGTAGGTATTGCTTCCAATTCTAAAGGTTTTACATGTACAGCATTAGCCATCTTAGCAGATGAAGGAAAACTGAACTGGGATGATAAAGTTTCAAAATATATTCCCGAATTCCAAATGTATGATCCTTATGTTTCTCAAAATGTAACAATCAAAGATCTTATCACTCACAGAGCCGGATTAGGACTAGGACAGGGAGATCTTATGTTTTTTCCGGAAGGAGGAAGTATGACCGTGAATGATATTGTTCATAATGTAAGATATCTTAAACCAGAGAATCCATTCAGAACAAAACTTGATTATAACAACATTATGTTTATAGTGGCCGGAGAGGTTATTCACAGAGTTTCCGGATTAAGCTGGGCAGAATTTATTGAGCAGAGAATCATGAAACCTATAGGGATGACTTCAAGTTTCGGAAGTTACGACAGAGCAAAAGCTACAGCTAATAAAATTGATGCACATGCACCTGTAGACGGAAAAGCGATTGCTGTTCCTCATGATTGGAACGAGGCAGCCAATGCAGCAGGAGGAATCATGAGTAATATCAAAGATATGACAACCTGGGCAGAATTTCTGCTGAATAACTTCACCACGAAAGATGGTAAAAAGTTAGTTTCTGATAAAAATGTACAGCAGCTTTGGAGTTTGCAGATTCCAGAAAGAGTAGCAGTGAAAAATCCATATGACACAAGTTTTTACGGATACGGTTTAGGATGGTTCTTAAGTGATGTTAAAGGACACAAACAAGTACAGCATACAGGAGGATTAATCGGAACGGTTACCCAATTTACTTTAATTCCGGATATGAAGCTGGGAGTTGTGGTGCTAACAAACCAGCAGTCAGGTGCTGCATTCAACACAATTACGAATACTGTAAAAGATTCTTACCTTGGGGTTGCAGACAGAAACTGGCTGAAAACATACGGCGACAGAATGTCTAAAATGGAAGCTGAATTCAATAAACAGAAGAAAGAAGCTTTTGCTAACTCTGAAGCCTTCAAAAAAGAAAAATCTCTGCAGCCCAAAGCGGATCAGTTTATAGGAACATATAATGACGTTTGGTTTGGTGATGTGGAAATTGCCCAGCAGGGAAATACCTACAGAATTTCATGCAAAAACTCTCCAAGATTAAGAGGTGAATTGCTTCCTTATTCCAACAATTCATTTATTATCAAGTGGGACGACAGAAGCTATGATGCAGACGCTTACATTATTTTCAGCTACGATGAAAACGGAAAAGCAGAATCTGCAAAATTAAAAGCGATTTCTGATGTGACGGATTTCAGTTTTGATTTTGATGATCTGGATTTGAAAAAGAAATAA	MKQKLSFFIFLLTVGLANAQVEEKKLDELIQNTLKTFDVPGMSVGIVKDGKMIYSKGFGVRSLTTKQPMDDNTLVGIASNSKGFTCTALAILADEGKLNWDDKVSKYIPEFQMYDPYVSQNVTIKDLITHRAGLGLGQGDLMFFPEGGSMTVNDIVHNVRYLKPENPFRTKLDYNNIMFIVAGEVIHRVSGLSWAEFIEQRIMKPIGMTSSFGSYDRAKATANKIDAHAPVDGKAIAVPHDWNEAANAAGGIMSNIKDMTTWAEFLLNNFTTKDGKKLVSDKNVQQLWSLQIPERVAVKNPYDTSFYGYGLGWFLSDVKGHKQVQHTGGLIGTVTQFTLIPDMKLGVVVLTNQQSGAAFNTITNTVKDSYLGVADRNWLKTYGDRMSKMEAEFNKQKKEAFANSEAFKKEKSLQPKADQFIGTYNDVWFGDVEIAQQGNTYRISCKNSPRLRGELLPYSNNSFIIKWDDRSYDADAYIIFSYDENGKAESAKLKAISDVTDFSFDFDDLDLKKK				NA	NA	NA	NA	NA
BMS003_02400	894			hypothetical protein	ATGAACCAGGAAAAATATAACTTCACCTCATTATTTCTTTATGTCACAATACCGTTCCTTCTTTTCTCATGCCAGAAACAGAAGAAAACTTACTATGAATCTATTGCGCTGAATGATATAAAACTCTCTTCCTCTCCGAAACCCGGAAGCTGGCGCTATAATCATGATGAAAATTTCCAGACATTTGAAGATTTTCAAAAATCAAAAAAGATAAAGCCGGAATCCGGAAAAAATATTATTTATCTTCAACCTATCGGCACGTTTGATGTCCTTCAGAAAAAGGAAATAGCACTTACAAAAGAGTATTTAAAAATATACTACCAATTGGAGACAAAAATACTGCCTGCTCTATCCAATACGATCTTTCCTGAAAAAGTGAAAAGAGTTTCAAAAGAAGGACAGGAACAGATTCTTGCAGGATATGTACTGGACAGCATTCTGATCAAAAGAAAACCTAAAGATGCCGTAGTATTGATGGGAATTACAGAGAAAGACCTTTTCCCCAAACCAGAATGGAATTATATTTTCGGACTGGCTTCTTATGAAAATGGTGTAGGAGTAACCTCCATGTATAGGTTTGCAAACGGTCATTTAACCGATTCAAATTTCAATGTGAGTCTTTTAAGATTAGTAAAATTAAGTTCACACGAAATTGGTCATATGTTCGGAATCAGCCACTGCCTGAATGCCAACTGTGTAATGAATGGAACCAATTCATTATCGGAAACAGATTATCACCTGGCCAGGGCCTGCTCGCTTTGTCAAAGAAAACTCAATTCAAGCATCCATTATGATAATAAGAAAAGACTTCTTGAACTAAAAAAATTCTTTGAAAAACGACACCTCAATACAGAGCTTACTTTAACAAATCAGGATCTGAATCTGGTACAATAA	MNQEKYNFTSLFLYVTIPFLLFSCQKQKKTYYESIALNDIKLSSSPKPGSWRYNHDENFQTFEDFQKSKKIKPESGKNIIYLQPIGTFDVLQKKEIALTKEYLKIYYQLETKILPALSNTIFPEKVKRVSKEGQEQILAGYVLDSILIKRKPKDAVVLMGITEKDLFPKPEWNYIFGLASYENGVGVTSMYRFANGHLTDSNFNVSLLRLVKLSSHEIGHMFGISHCLNANCVMNGTNSLSETDYHLARACSLCQRKLNSSIHYDNKKRLLELKKFFEKRHLNTELTLTNQDLNLVQ				NA	NA	NA	NA	NA
BMS003_02401	477		COG2062	putative protein	ATGAAGAAACTCATCCTCGTAAGACATGCGAAAAGTGACTGGCCAGAGGAAACGGAGGACTTTGACAGACCTTTGGCAGACAAAGGTCTGGAGGATGCTATGCACATGTCCAGGTTCCTGAAAAACAATAATATTTCCATTGATCATTTTGTATCCAGTCCGGCAGTACGTGCGCTGAATACCTGTAAAATTTTTAATCAGGCCTATCAGCTTAACTGTTCTACCAATGAAAAATTATATAATCCCTCAGAAAGAAGTTTTGAATCTGTAATTTATGATCTGGATGACAATCTGAATTCGGTCGCTTTCTTCTCCCATAATAATGGAATTTCCAATTTTGCCAATTCCATTTCTGAAGATATTTTTCATTTTCCAACCTGCGGTGTAGCCGGTTTTGAAGTAGACTGTGAATCCTGGTCAGAATTCGATGGTGCTAAAAAGAAACTCCTTTTCTTTTATGAACCAGGAAAAATATAA	MKKLILVRHAKSDWPEETEDFDRPLADKGLEDAMHMSRFLKNNNISIDHFVSSPAVRALNTCKIFNQAYQLNCSTNEKLYNPSERSFESVIYDLDDNLNSVAFFSHNNGISNFANSISEDIFHFPTCGVAGFEVDCESWSEFDGAKKKLLFFYEPGKI				NA	NA	NA	NA	NA
BMS003_02402	417		COG0816	Putative pre-16S rRNA nuclease	ATGGGACAGATCCTTGCAATAGACTACGGAAAAGCTCGTTGTGGTATCGCTGCAACCGATGATATGCAGATTATAGCCAGTGGGCTGGAGACTGTAGAGAACCGTTCTTTAATGGAATTTTTGAAAAAATATTTCAGTGAAAACAAGGTAGATGAAGTCGTAATTGGGCTTCCCATAGATTTGAAAGGAAACGTTTCAGAAGTGGAAACGGATATTTTAAAATTCATAGAAGAATTTAAAAAAGAATTTTTGGAGATTCCGGTTCACCGTTTTGACGAAAGATTTACTTCCAAAATGGCCTCGTTTTTTATTTCCCAAAGTGGAAAAAATAAGAAAAAGAGGCAGGAAAAAGGTTTAATAGATAAAGTAAGTGCAACAATCATATTGCAGAATTTTTTAGAACAAAGATTAAGATGA	MGQILAIDYGKARCGIAATDDMQIIASGLETVENRSLMEFLKKYFSENKVDEVVIGLPIDLKGNVSEVETDILKFIEEFKKEFLEIPVHRFDERFTSKMASFFISQSGKNKKKRQEKGLIDKVSATIILQNFLEQRLR				NA	NA	NA	NA	NA
BMS003_02403	573	def1	COG0242	Peptide deformylase 1	ATGATTTTACCGATAAGAGCTTTTGGGGATCCTGTTTTGAGAAAAGTAGGAAAAGATATAGACAAAGACTATCCCGAATTACAGGAACTGATAGATAATATGTTCGAAACCATGTATAGTGCAAATGGCATAGGTCTTGCAGCGCCTCAGATTGGTTTGGATATCCGCCTGTTTGTAATAGATGTGACGCCTCTTGCTGAAGATGAAGACTATGAAGATATTAAAGATGAATTAGCAGAGTTCAAAAAAGTATTCATCAATGCACAGATTCTTGAAGAGTCCGGCGAAGAATGGAAGTTCAATGAAGGCTGTCTTTCTATTCCGGATGTAAGAGAAGATGTGAAAAGAAAAGGGACAATCGTTATTGAATATTATGACGAAAATTTTGTGAAACATACAGAAACTTTTTCCGATATTAGAGCCCGCGTAATTCAGCATGAATATGACCACATTGAAGGCGTTCTGTTTACTGATCACCTGAGCGCTCTGAAGAAGAAGCTGGTAAAAGGTAAGCTGACAAAAATCTCCCAGGGTGACGTAAACATCGGTTACAAAATGAGATTTCCAAAGTAA	MILPIRAFGDPVLRKVGKDIDKDYPELQELIDNMFETMYSANGIGLAAPQIGLDIRLFVIDVTPLAEDEDYEDIKDELAEFKKVFINAQILEESGEEWKFNEGCLSIPDVREDVKRKGTIVIEYYDENFVKHTETFSDIRARVIQHEYDHIEGVLFTDHLSALKKKLVKGKLTKISQGDVNIGYKMRFPK				NA	NA	NA	NA	NA
BMS003_02404	594			hypothetical protein	GTGCTGATTGCAGAATTTACAAAAAATAAAATTATGCTGTTAGAAAAAATAATTTCAATTTCTGGAAAACCAGGACTTTTCAAATTAGTTTCTCAATTAAGAAACGGATTCATCATTGAAGATGTTACCAACAAGAAAAAAGTAAGTATCGGAAACTCAAGTCAGGTAAGCTTACTGGATAATATTGCGATGTTTACATTTGAAAAAGAAGTTCCTTTGTTTGAAGTATTTGAAAATATTGCTAAGAACAACGATTATAAGGAAACTATTTCTCACAAATCTTCTGATGCAGATTTGAAAGATTTTATGTTAGCATCTCTTCCTGACTATGATACAGAAAGAGTATATTCTTCCGATATCAAGAAATTGGCTCAGTGGTATAACATCCTTCAGAAAGCAGGATATATCACTCCGGAAAGCTTTGTAAAAGCAGAACCTGAGACTTTAGAAGGTGAGCCTGCGGCGGCAGAAGAAGTTAGCATTGAAAAAGAAGCTAAAAAAGCTCCGAAAGCAGAAAAACCAGCTGCTCCGAAAGTGAAGGCTACTTCAGCTGCAAAGTCAGCTCCGAAAAGCACACACAGAAAACAAGGATAA	MLIAEFTKNKIMLLEKIISISGKPGLFKLVSQLRNGFIIEDVTNKKKVSIGNSSQVSLLDNIAMFTFEKEVPLFEVFENIAKNNDYKETISHKSSDADLKDFMLASLPDYDTERVYSSDIKKLAQWYNILQKAGYITPESFVKAEPETLEGEPAAAEEVSIEKEAKKAPKAEKPAAPKVKATSAAKSAPKSTHRKQG				NA	NA	NA	NA	NA
BMS003_02405	768	mazG	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGAATACGAAACAGGAAAAACTGGAAGCCTTTGGAAGATTACTGGATATTATGGATGATTTGCGCGAAAAATGCCCATGGGATCAGAAGCAGACATTGCAGTCCCTTCGTCATCTTACCCTTGAAGAGACTTATGAGCTCTCAGATGCTATTTTACAGGAAGATCTGCAGGAAATAAAAAAAGAGTTGGGTGATGTTCTGCTTCATCTGGTTTTTTATGCTAAAATTGGTTCTGAAAAAGAAAGTTTTGACATTGCAGATGTTATTAATTCCCTGAATGAAAAACTGATTTTCCGCCATCCTCATATTTATGGAGATGTTGAAGTAAAAGATGAAGAAGAAGTGAAACAGAACTGGGAAAAATTAAAATTAAAGGAGGGTAATAGATCCATTTTGGGTGGAGTTCCGAAAAGTCTCCCGAGTTTAGTGAAAGCGTACAGAATTCAGGACAAGGTAAAAGGAATCGGTTTTGAATTCCATGATGCTGAAGATGCATGGAAAAAGGTAGATGAAGAGATTCAGGAATTTCATGCAGAAACTGATCTGGATAAGAAAGAACAGGAGTTGGGTGATGTGTTTTTCTCGCTCATCAATTATGCAAGAATTTCAGGAATTAACCCGGATTCTGCTTTGGAAAGAACCAATCTGAAATTTATTTCAAGATTTCAAAAGATGGAAGTACTTGCTGAAGAGCAGGATCTTAAACTGGCAGATATGTCTCTTGAAGAAATGGATGTTCTCTGGGAAAAGGCAAAAAAGCTTTCATAA	MNTKQEKLEAFGRLLDIMDDLREKCPWDQKQTLQSLRHLTLEETYELSDAILQEDLQEIKKELGDVLLHLVFYAKIGSEKESFDIADVINSLNEKLIFRHPHIYGDVEVKDEEEVKQNWEKLKLKEGNRSILGGVPKSLPSLVKAYRIQDKVKGIGFEFHDAEDAWKKVDEEIQEFHAETDLDKKEQELGDVFFSLINYARISGINPDSALERTNLKFISRFQKMEVLAEEQDLKLADMSLEEMDVLWEKAKKLS	PGPT0021590_842	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS003_02406	873			hypothetical protein	ATGCTACGCTTTCTCATTTTACCTGCTTTGTTTTTATTGAGCTGTAACCCAAAAGCTCAGAACTCTCCTGCTAAAGAAGGCGAACTTCAAGTTCAGTTTTCCTTGCCGAAAAAATTAAAGGAAGTTTCCGGAATTACTTTATCTAAAGATAAGAATACTATTTGGCTGATAGAAGACAGAGGCAATAAAAATGCAGTATATGGGGTAAATAATAAGGGAGAGATGGTAGCAAAAGTACCGGTAGAAAATGCTGAGAATACAGACTGGGAGGATATCATCTCAGACACTCAGGGAAATATTTATATCGGGGATTTTGGGAATAATGATAATAACAGGCAGGATCTGGCGATCTTAAAAACAGACCTGAAAGACAGTAAGCAGACTGTGACGAAAGTTGTTCAGACGACCAAATTCCATTATCAGGGACAAACGGGGTTTCCTCCAAAAAAATCAAATCTGTTATATGATTGTGAGGCTTTTGTAGAAATGAATGGTAGTTTTTATTTATTTACTAAAAACCGAAGCAAAGGCTTTGACGGGACGTTCCTTGTATTCCAGGTACCTAATAAAGAAGGGGATTTTGAAGCGAAATTAATAGGTACACTAAAGCTTGATGGAGGGTATAATGATGCCGCCATTACATCTGCCACTATCAACAGTACGAAAGATAAAATTGTATTGCTTACGCATAAAAATGTTCATGTTCTTACCGGATTTACAGCCGACAATTTCAGCACTGCAAAAATTCAGAAAATTCCTTTACATCATAACTCCCAGAAAGAAGCCATTGTTTTTCTGGATGATAAGACCCTTATGATGGCTGATGAAAAGGGTAAAAATGAAGGAGGAAATGTGTATACATTCTCTTTTTAG	MLRFLILPALFLLSCNPKAQNSPAKEGELQVQFSLPKKLKEVSGITLSKDKNTIWLIEDRGNKNAVYGVNNKGEMVAKVPVENAENTDWEDIISDTQGNIYIGDFGNNDNNRQDLAILKTDLKDSKQTVTKVVQTTKFHYQGQTGFPPKKSNLLYDCEAFVEMNGSFYLFTKNRSKGFDGTFLVFQVPNKEGDFEAKLIGTLKLDGGYNDAAITSATINSTKDKIVLLTHKNVHVLTGFTADNFSTAKIQKIPLHHNSQKEAIVFLDDKTLMMADEKGKNEGGNVYTFSF				NA	NA	NA	NA	NA
BMS003_02407	690			hypothetical protein	ATGAAAACAAAACTATTAAGCGTAGCATTATTTGCTATGTCACTATTAACTTATGCACAAGTGGGTGTTCTGACATCAACCCCTAAAAAAACACTACATGTTAACGGATCTCTTCAGGTGGTGAAAGAAATTAATGTAGGAGGAGATGGCAATACAGCAGGATCTTCAGGAGTTGCGGGAGATTTTTTAAGTTCCAATGGTCCCGGGAATGCTCCGGAATGGAAATCTCTGGATTCTCAGGGTATCAGTAAAATGGTATTCATAGGGAATAAAAATAACACAGATCCCTCGAATACAACCACTTACCCTAATAGCCAAATCAATACTTTGCGTTATAATGTAGTAAACAAAGTTCTTGACACTTATATTAATTATGATACCAGTACTGGTATTTTTACAGTAAAAAAAGCAGGCTTCTATACTATTAACACTTATCTGACTTATGACTTGAATAGTAATCCAAATGGCGAGACCAGTGGTACAGCAATAAGTACAATTAATAAGATTAATGATACTATAGAAGTATCAAAAATATCAACCAATCACTCAGAAAGAACCCCATATGTATATCATACATTAACAGGTACCCGATTATTTGCTGTTGGAGAAACCTTTAAAGTAACCTGTGTTCATACAAGGCAGTATAAGTTGGGTACTTCAAACATTTCCGTTCAATATATTTCAGAATAA	MKTKLLSVALFAMSLLTYAQVGVLTSTPKKTLHVNGSLQVVKEINVGGDGNTAGSSGVAGDFLSSNGPGNAPEWKSLDSQGISKMVFIGNKNNTDPSNTTTYPNSQINTLRYNVVNKVLDTYINYDTSTGIFTVKKAGFYTINTYLTYDLNSNPNGETSGTAISTINKINDTIEVSKISTNHSERTPYVYHTLTGTRLFAVGETFKVTCVHTRQYKLGTSNISVQYISE				NA	NA	NA	NA	NA
BMS003_02408	720			hypothetical protein	ATGAAAAAAAAGCTATTCTACGTGGCATTATTTGTCATGTCCATGCATTTAAATGCACAAATAGGGATTAAAACATCAACTCCTCAAAATACATTACACGTCAACGGCTCACTTCAGGTAGTGAAGGATCTGAATGTAGGCGGAGACGATGGAACAAAAGGTAACTCTGGAAATAAAGGAGAAGTCTTAATGTCAAATGGAGAGGGAAATGCTCCGGTTTGGAAAACTATTGAATCTGAAAATTTTTTAAAGGTAGTATATGTCGGAAATAAAACAAACATAAGCCCAGCAAGCGGAAGCTATACAGGAACCCATTCTGCCCCGGTTAATACTCATGAAAGTTATTCACAGACTTATGTTTTCAATGTGAGTAATAAGATCGATACGGCGTATTTAAATTATAATTCCACAACAGGTCTTTTCACAGTAGTAAAACCCGGATTTTATAATATCGTCCCGTATGCTACCTATAATCTTAATCTCAATCCGTCAGGACAGACTGCAGGAACAGCTAACTCTTATATACAAAAGGTTTCTCCTACAGTTACCACACTTGCAGGTATCTCTACAGGACATGGAGAGCGCACTACAGGATTGAATCATAACCTTTCCTCTATTAATTTTTTCAATACAGGTGAAACCTTCAGGATACGTTGCAGATATACACAGGATTTCAGGCTATCCAGCGGAAATATTCATATCTCTTATCTCACACCTTAA	MKKKLFYVALFVMSMHLNAQIGIKTSTPQNTLHVNGSLQVVKDLNVGGDDGTKGNSGNKGEVLMSNGEGNAPVWKTIESENFLKVVYVGNKTNISPASGSYTGTHSAPVNTHESYSQTYVFNVSNKIDTAYLNYNSTTGLFTVVKPGFYNIVPYATYNLNLNPSGQTAGTANSYIQKVSPTVTTLAGISTGHGERTTGLNHNLSSINFFNTGETFRIRCRYTQDFRLSSGNIHISYLTP				NA	NA	NA	NA	NA
BMS003_02409	3717			hypothetical protein	ATGAATTTATCCTTTAAAACTCATCTAAAAAATACTTCTATTGTTCTTCGAACGGTAATGTCCGCAGGAGCGCTTTATTCCTGTGCTACCTATAACGTACAAAAGGGCAAAAACTTATTTGAAGTAAAAGATTCCGAAATAAAATCTGATAATGATTTTAAACTCTTTCTGATTGGAGATGCAGGAAACTCAGATGAACCTCAGGCACAAAAAACACTGGATTTACTGAAAAGCAAACTGGATGCTGCCGACAGCAATTCTATGCTGATCTTCCTGGGAGATAATATCTACCCGAACGGGATGCCCTCAAAAGCAGACAAAGATTATGCATCAGCCAAACAAAAACTGGAAAACCAGCTTGCCATTACTAAAAATTTCAAGGGAAAAACCCTGGTAATTCCCGGAAATCATGACTGGTACAACGGATTGGAAGGATTAAACACCCAGGAAGGGCTGGTAAAAAAATACTTTGATGATAAAAAAGCATTTCTACCTAAAAATGGATGCCCTATTGATGATATTAATGTATCTAAAGAAATCAAACTCATCGCTATTGATACTGAATGGGTGCTTGCCAACTGGGACAATTATCCGGGAATCAATAAGAACTGTAAGATCAAAACCCGTGAAGATTTTTTCACTGATTTTAAGGACCTTATCATTAAAAATCAGGATAAAAAAATTATTGTTGCCCTGCACCACCCTATCATCAGCAGTGGAACACATGCCGGTTTTAATTCTGCAAAATCCCATCTTTACCCTTTCAAAAGCAAAGTTCCTGTTCCTGTAGCAGCAAGTATAGTCAATATATTAAGAAGTTCTTCCGGAGCAAGTCCTGAAGATATCAATAACCAGCATTATGCAGATCTTGCTAAAAGATTGAAAAGTATCGTTCAGGATAAGGAAAATATTATTTTCGTCTCCGGACATGATCATAACCTGCAGTATCACGAAGATGAAAATATAAGACAGATCATCAGTGGAGCAGGCTCTAAAACAGATCCGGCAACCATCGTTGAAAAAACTGACTTTTCCTACGGAGGGAGCGGTTTTGCTGTTTTAAATTTCAGAAAAGATGAAAGTACCGATGTTGAATATTTTTCTACTAAAGATGCACAGCTTCAAAAGCTGACTCATATTTCCGTGATTTCCAAACCTGATGTATTCATTAATAATTTTCCCAATTCTTTTCCGGCAACATTTTCATCAACCATTTATCCGGTACAGCTTACAGAAAAGAGAAAGTTTTACAGATGGCTTTGGGGAGATCACTACAGGAGATATTATGGAATTCCTATTGAAGCTCCTACAGCCAATATTTCAGAACTGAATGGCGGATATACCCCCTTCAGGGAAGGCGGAGGAAATCAATCTAACAGTTTACGTTTGAAATCTGCAGACGGACAGGAATTTGTAATGCGTGGCATCAAAAAAAGCGCCATACGCTTTCTAAACAATATGGCTTTCCAGAAAAGCACATTGGGTGAAGAACTTGCGGATACATTCCCTGAAAAATTCCTTCTGGATTTTTATACAACCAATCATCCGTTTACTCCATTTACCATTGGAAATATGTCAGAAAAACTGAATATTTTCCACAGCAATCCAAAACTGTATTATATTCCCAAGCAACAGGCATTGGGAAGGTACAATGAAGATTATGGGGATGAGATGTACATGATCGAAGAACGTTTTTCTTCAGATCCGAAAACTCTTGCGTATCTTGACAATGCAAAAGATATTGTCTCTACGGATGATGTATTAAAGAATCTTAGCAAAAGTAATAAATACTCTGTTGACAGAGAATCATATATCAGGGCGAGGTTATTTGATATGCTTATCGGTGACTGGGACAGGCATTCTGACCAGTGGAAGTGGGCAGAATATGAAGTAGGTGACAAAGTAATCTACAAACCAATTCCTAAAGACAGAGATCAGGCATTCAGCAAATATGATGGTGCGGCCTTTAAACTCATTATGAATGTTCCGGCCATTCGTCATATGAAAACCTTTACCGAAGATATCAGCAGTGTTAAGTGGCTTGCTATGGAGCCTTATCCTATGGATCTCGTTTTCTTAAAAGCTGCAGACCAGAATGAATGGGAAGCACAGGCAAAATATATTCAGGAGCACCTCACTGATTCAGATATTGATGATGCCTTCCACAATCTTCCCAAAGAAGTACAGGACGATACCATTGCAGAAATACAGAGAAAACTGAAAGCAAGAAAAATAAAACTACAGACCTACGCAAGCCAGTATTATGATGTATTGCAGAAAAAAGTACCCCTGGCAGGAACTGTAAATCCTGATAAATTCATTATTACAAAAAACGGCCATTCCGTACTTGTACAGCAATATAAACTGGGCAAAAATAAAGATAAGAATGAGCTTGTTTTTGAAAAAACGTATCATGATTCAAAAACCAAAGAATTGTGGATCTACGGCCTGGAAGATGATGATACTTATATTGTAACCGGAAGCGGAAATCCTAAGATGACGATCAGACTGATTGGTGGATACAACCATGATACCTACAACGTTGCAGATGGAAGAAAAGTGAAGATTTATGATTTTAAATCACAGAAGAACACTTACAACTCAGGAAATGCAACCAGGAATATTACGGATGATTATGACATTAACAACTATAATTACAAGCACCCGAAATACAACTCTGTTGCAGGATATCCCAATCTGGACTACAACCCGGACGATGGTATTATTGTAGGAGTTCTTGCCAATTATACCGTAAATAATTTCATCCGTGATCCTTTTACTCAAAAACATAGTTTAAAGGCTAATTTTTATACAGCTACCGCAGGATTCAGTCTTACTTATAAAGGTGTATTTAAAAAGGCTATCTCTGGCTGGGATTTCAATTTGGATGCATTCTACACTACCCCAAGATTCTCTCAAAACTTCTTTGGACTTTCTAACGAGAGTGCTTATGACGAAGAAAATACAGAGCGAGAATACAACAGAGCCAGAATTTCCAAATTCAACTTTGCACCTTCTATTTCTCAGAAAAGCTGGATGAACCTCAGTCATCAGTTTCAGCTGACTTTTGAGGATAATAAGGTTCAGAGAAAAGCGGACCGTTTTATCAATCAGTCGCAGGATGTAAGACCAGGAGTCTTCAACAGCCAGCAGTTCGTGGGAGCCAATTATACATTTGGCTATAAAAATGCAGATAACGCAGCATTCCCTACTCTTGGACTGGAATTTATGCTTAATGCAAACTGGAAAGCAACTCTTTCAGACTTCAATAAAAACTTTGTAACCCTAAAAGGAAAACTTGCCGTAGACCACAGAATTGATAAGAAAGGAAAGTTTGTATTGGCCAATTCCAGTAACGTGATGTGGATCAATAACAATAATTTTGAATTCTATCAGGCTGCAGCTATTGGAGGTAACAACGGAATGAGAGCATTCAGAAATGAAAGATTCTCCGGAAGATCATATTTTACCAATAATTCGGAAATTCGATGGGATTTCGGAAGAGTAAGAAATAATATTGCTCCTGCCAATATGGGAATCCTTATCGGGTACGATATCGGCCGGGTATGGAATGACAGTGAGAACTCCAGAAAATGGCATCAGTCTGCCGGTGCCGGCGTATGGCTGAGCATTGTAGAAATGATGTCTGCAAGACTGAATTATTTCTATGGTTCTGACGGAGGAAGAATTTCCGCAGGAATAGGAATGAAATTCTAA	MNLSFKTHLKNTSIVLRTVMSAGALYSCATYNVQKGKNLFEVKDSEIKSDNDFKLFLIGDAGNSDEPQAQKTLDLLKSKLDAADSNSMLIFLGDNIYPNGMPSKADKDYASAKQKLENQLAITKNFKGKTLVIPGNHDWYNGLEGLNTQEGLVKKYFDDKKAFLPKNGCPIDDINVSKEIKLIAIDTEWVLANWDNYPGINKNCKIKTREDFFTDFKDLIIKNQDKKIIVALHHPIISSGTHAGFNSAKSHLYPFKSKVPVPVAASIVNILRSSSGASPEDINNQHYADLAKRLKSIVQDKENIIFVSGHDHNLQYHEDENIRQIISGAGSKTDPATIVEKTDFSYGGSGFAVLNFRKDESTDVEYFSTKDAQLQKLTHISVISKPDVFINNFPNSFPATFSSTIYPVQLTEKRKFYRWLWGDHYRRYYGIPIEAPTANISELNGGYTPFREGGGNQSNSLRLKSADGQEFVMRGIKKSAIRFLNNMAFQKSTLGEELADTFPEKFLLDFYTTNHPFTPFTIGNMSEKLNIFHSNPKLYYIPKQQALGRYNEDYGDEMYMIEERFSSDPKTLAYLDNAKDIVSTDDVLKNLSKSNKYSVDRESYIRARLFDMLIGDWDRHSDQWKWAEYEVGDKVIYKPIPKDRDQAFSKYDGAAFKLIMNVPAIRHMKTFTEDISSVKWLAMEPYPMDLVFLKAADQNEWEAQAKYIQEHLTDSDIDDAFHNLPKEVQDDTIAEIQRKLKARKIKLQTYASQYYDVLQKKVPLAGTVNPDKFIITKNGHSVLVQQYKLGKNKDKNELVFEKTYHDSKTKELWIYGLEDDDTYIVTGSGNPKMTIRLIGGYNHDTYNVADGRKVKIYDFKSQKNTYNSGNATRNITDDYDINNYNYKHPKYNSVAGYPNLDYNPDDGIIVGVLANYTVNNFIRDPFTQKHSLKANFYTATAGFSLTYKGVFKKAISGWDFNLDAFYTTPRFSQNFFGLSNESAYDEENTEREYNRARISKFNFAPSISQKSWMNLSHQFQLTFEDNKVQRKADRFINQSQDVRPGVFNSQQFVGANYTFGYKNADNAAFPTLGLEFMLNANWKATLSDFNKNFVTLKGKLAVDHRIDKKGKFVLANSSNVMWINNNNFEFYQAAAIGGNNGMRAFRNERFSGRSYFTNNSEIRWDFGRVRNNIAPANMGILIGYDIGRVWNDSENSRKWHQSAGAGVWLSIVEMMSARLNYFYGSDGGRISAGIGMKF				NA	NA	NA	NA	NA
BMS003_02410	1176			hypothetical protein	ATGAGCATTTTACAAAAAGCTAAAAATTATGTTGAAATCTTATTCAAAGATAAGTTATCTTTAGTATATTTTTATCATAATTTTATCCATACCGCCTATACAGTAAATAAGGCTGAGGAAATCATGAAAAATACTCCTGTTTCTGAAGAGGATCAGGAGAAAGTACTCGTTGCATTATGGTTTCATGATACGGGTTATATAGAATGTGCCCTAAACCATGAGGAGAGGAGTGTAGAGGTGATGAAAGCTTTTTTACACCAGGAAAATTATCCGGAAAATTATATTGCAGATGTTGAAAAACTGATCCTCGCAACTAAAATACAGTATGTACCTCAGAATTTACTGGAGAAAATTGTAAAAGATGCCGATTTCAGCCATTTTGCGGGACATGATTACAGCGAGATTTCCGATGCTTTGAGAAAGGAATGGGAATTAACCAACGTAAGATGTTTTTCTAATGAAGAATGGAATGCCGGAAACCTTGATATGCTGAAAAATAAGCATACTTTTTATACCGATTATGCTAAAGAAAACTGGGAACCTCTGAAAAAGAAGAATATCAAGAAGATAGAAAAGAAGCTGGAAAAAGAAGAAGAAAAAAAAGAAAACAAAAAGGAGATTCCGGAAGGGAAAAAAGAAAAAGAAAAATCTGACAGAAGTGTAGATACTTTATTCAGAGTAACGCTGAACAATCATACAAGACTGAGTGATATTGCGGACAGCAAAGCCAATATTCTTTTATCTGTCAATGCAATCATTATTTCAGTCTGTCTTTCTGTATTGGTTCCGAAGCTGGATGCTCCCAAGAATTCACATTTGATTCTTCCGAGTTTTATCCTATTGCTTTCAAGTGTGCTGACCATCATATTTGCCATTTTATCCACAAAACCTAATGTGACGAAAACTACATTTACCCCTCAGGATATTGTAAACAGAAAAGTAAACCTTCTCTTCTTCGGAAACTTTCAGCAGATGCTGTTTGATGATTATAACAATGCAATGAAAGATCTGATCAAAGACAGAGATTATATCTACGATTCTATGGTGAAAGACCTGTATTATCTGGGAAAAGTTCTTAACAGAAAATACAAGCTTTTGTCCATTACTTATAAAATCTTTATGGCTGGAATTATTATTTCCGTTCTGTCTTTCGGGGTGGCATTTCTCAGTCTTTAA	MSILQKAKNYVEILFKDKLSLVYFYHNFIHTAYTVNKAEEIMKNTPVSEEDQEKVLVALWFHDTGYIECALNHEERSVEVMKAFLHQENYPENYIADVEKLILATKIQYVPQNLLEKIVKDADFSHFAGHDYSEISDALRKEWELTNVRCFSNEEWNAGNLDMLKNKHTFYTDYAKENWEPLKKKNIKKIEKKLEKEEEKKENKKEIPEGKKEKEKSDRSVDTLFRVTLNNHTRLSDIADSKANILLSVNAIIISVCLSVLVPKLDAPKNSHLILPSFILLLSSVLTIIFAILSTKPNVTKTTFTPQDIVNRKVNLLFFGNFQQMLFDDYNNAMKDLIKDRDYIYDSMVKDLYYLGKVLNRKYKLLSITYKIFMAGIIISVLSFGVAFLSL				NA	NA	NA	NA	NA
BMS003_02411	2313			hypothetical protein	TTGGCTAATCTCTATAAAAAAGACGCTCCTTTTCAGGTTTATATATCATTCAAAAAATATTTGGATGTTCTGGAACATATCCGGTATAATGACCCATTGGAATACAGGGTTAATTATGCGGAGTCTCTCATTGAGAGCACCAGAAATTTTAAAGAGCTCAGAGATGGCTTTCAGGACACCACTTTTCTGGAACAGCATGAAGACCTTATCAGAATGCTTCTTGCCGATCTTTTCCCCACAGGCCTTACCAGAAACGAAATAAAAGCAGCAAGTATTCCGCTTTCCAACATTACCTTCAACTATACCGAAAGGTTTAAGGATATCCTTAAAGATGCCGGAAAAGATTTCGAAATAGAACTCAGGAACATTACAGATAATGAATTTTATGTATTCTGCTGCTGCCTGATTCTTCAGAGCTATTTTAAAAGAGATATAAAAAGTACGCTTCCATTCTATTATGATATTCCCAATAAGCAGGGAATCATGAAGCATTATAAGATTACCATTAATTCAGATTTTACGGAAATTACACCTACTGAAGATGCCAAAATTCCATCTGATGATGTTTTGGATATGCTGCTGGAAAATCTGGATGATTTTAAATTGTGGAAAAAGTATTTTCCATCTCAGTCCTGGCTACTGAAAGGGTTTACCATCATTTCACTGGTAGACTGTACCTCAGAAGTAGCACTTTCTGACCTGAAATCCAGCATGATAGAAATTGATCCTGAAGATATGAATCCCAATGAAAATCTGACGGAAATTTTCAAATCTTATTTTGATGTTCCAGAATTGAGTTTCGGACTGATGACTTTCAATAAAAAAGAGCAGAAACTGGATCAACTTCCCATTTATGAAAGTCTTCTTACCAATCATATCCTAGATTTCTGGATCAATGCCTTTGATGAAGAAACCCGTAAAACCACTTTTAATAATTTAAATCACAACTCAAAGCCCGTGGTTGTTTCTAATGTAAACAACCTGGACGAAAATGTAAAGCAGCTTCCTTCATTTAGTATTTTAAAGGATAATAATGTCAACAGTTTCATGGTAATTCCTATCATGAAAGACGGAGAGCTTCTTGCAATCATGGAGTTTACTTCTCCCATTGCCGGCAGTTTCAATGGTTTAAAACTTAAAAAACTGGAGTTTTTCACAGATATGGTTCTTTTCTCCCTGAACAGATTCTACTTTGAAAAAAACTATCAGATAGAAGCCATTATTCAGCGCGAATACACTACCATCCACGACAGTGTAGTATGGAAATTCAGAAATGAGGCTGAGAAATATTTTACAGCATCTCTTGGTAAAAAAATATATACTTTAAAGCAGATTACCTTCAAAAACCTAACTCCTTTGTTTGGTGTTTCGGATATCCGTTCTTCCTCGGAGAAGCGTTATAATCTGATGCTTCAGGATCTTAATCAGCAGATTGAATGGCTGAATGAAATTTTTGCACTCACCAATTCCGATTCGGAAAAATTTCTATTGGCACTGGATGTTTTTGAAAATGAACTGAACAATGAGATCAAAGCAGATACGGAACAGCGCTTTCAAAGGCTATTAAGAGACGAAATTCATCCTTTTTTACAGGGAAAACTGGAAATAAGAACTTCCAGAGAAACAAAAGCGAAAATTAAAGACTACTTTTCACATGTCTTCACACCTACTGATCTGTTTTACCATCACAGAAAAAATCTGGACGACTCTATCACACTGGTCAACCGGAAACTGGCAGATATGCTGGATGAAAGCCAGGTAAAAGCACAGGAAATTTTCCCGCACTACTATGAAAGATTTAAGTCTGATGGAGTGGAACATAACCTGTACATAGGACATACCATTGCTCCGGAGCTTCACTACACTTCAAAAGTCACCCACAAACTGAGATACTGGCAGCTGAAAACCGTCTGTAAAATGGAGCTTGAATTTCAGTCATTCAAAAAATATCTTCCTGTACAACTGGACATCGCTTCGCTGATTTTTGTGTATAATGAGAAAATAGACATCCGTTTCAGAATGGATGAAAAGCGCTTTGATGTAGACGGAGCATACAATTCTTATTACGAAATTATCAAGAAACGTCTGGATAAAGCACATGTTAAAGACTCTTCAGAACGTATTACTGCACCCGGGAAGATCACCATCGTCTATTTCGGAATGGAAAATCAGAAGGAATATCTTGACTACATTTCCAGACTCCAGAAGAAAGGAGTTTTGCAGCATGATGTGGAATTCTTAAAGGTAGAAGACCTTCAGGGAATTACAGGATTACTTGCATTGAGAGTTTCCTTTTCTCTTCCGCCGGAATAA	MANLYKKDAPFQVYISFKKYLDVLEHIRYNDPLEYRVNYAESLIESTRNFKELRDGFQDTTFLEQHEDLIRMLLADLFPTGLTRNEIKAASIPLSNITFNYTERFKDILKDAGKDFEIELRNITDNEFYVFCCCLILQSYFKRDIKSTLPFYYDIPNKQGIMKHYKITINSDFTEITPTEDAKIPSDDVLDMLLENLDDFKLWKKYFPSQSWLLKGFTIISLVDCTSEVALSDLKSSMIEIDPEDMNPNENLTEIFKSYFDVPELSFGLMTFNKKEQKLDQLPIYESLLTNHILDFWINAFDEETRKTTFNNLNHNSKPVVVSNVNNLDENVKQLPSFSILKDNNVNSFMVIPIMKDGELLAIMEFTSPIAGSFNGLKLKKLEFFTDMVLFSLNRFYFEKNYQIEAIIQREYTTIHDSVVWKFRNEAEKYFTASLGKKIYTLKQITFKNLTPLFGVSDIRSSSEKRYNLMLQDLNQQIEWLNEIFALTNSDSEKFLLALDVFENELNNEIKADTEQRFQRLLRDEIHPFLQGKLEIRTSRETKAKIKDYFSHVFTPTDLFYHHRKNLDDSITLVNRKLADMLDESQVKAQEIFPHYYERFKSDGVEHNLYIGHTIAPELHYTSKVTHKLRYWQLKTVCKMELEFQSFKKYLPVQLDIASLIFVYNEKIDIRFRMDEKRFDVDGAYNSYYEIIKKRLDKAHVKDSSERITAPGKITIVYFGMENQKEYLDYISRLQKKGVLQHDVEFLKVEDLQGITGLLALRVSFSLPPE				NA	NA	NA	NA	NA
BMS003_02412	1380	ndhB		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	ATGAGTGTTTTAATTATTGTTTTCCTAACGGCAGTTATTGCGTTATTTTCAGGAGTTTTTGAACAAGGAAAATTCGCAAGATACATTGGGATTTTGGGATTAATCATCGCATTGTACGTAAGTTTTATGCCGGAATGTTCGTTCTTCGACCATTACAGACATATGTATGAGTACAGTGACAATACAGCATTATTCACTAAAATATCAATCGTAACAACTTTATTGTTATTCTTCCTTGGAGGTTTTGCTTTCAGTAATCACAGAAGCCACCAGTCAGAATTATATGCATTAATGCTATTTGCTTTATGTGGAGGGATCATCCTTTTCGGATATCAGAACTTGGTGACGATGTTCCTGGGAGTTGAAATCCTTTCTATTCCATTATATGTAATGGCTGGAGCTAATAAAACTGATCTTAGATCCAACGAAGCTTCTATTAAATATTTCCTTATGGGTGCATTCGCAACAGGTTTCTTACTGTTCGGTATTGCATTCATCTATGGAAGTGCAGGAAGTTTTGATCTTTATAAGATTCATGATTTCGGAGTAGCTAATTCAGGGAATGTAATGTTCATCTTAGGAGTATTACTGATTCTTTGTGCATTGGCATTCAAAGTAGCTTTAGCACCTTTCCACATGTGGAGTCCTGATGTATATGCAGGTTCTCCTTCACTGATCACAGCTTTCATGGCGAGTGTGGTAAAGATCTCGGGATTCTTTGCCCTATTCAGATTGATGACGCTTGGTTTCACTGGGGTAACTCACGAGTGGATCAATGTTTTAGGAGTATTCCTAATCATTACTTTACTTTTGGCAAACGTTATGGGTCTTGCTCAGACGAATGCAAAAAGAATGCTGGCCTACTCTTCAGTTTCTCACGCAGGATATATCGGATTGGTATTCTTCGGAATGACAAGCCTTTCTACATACAATTTAGCGTTCTATTTATTCGCTTACTCTTTATCTACAGTAGGAGTTTTCATGTGTCTGATCTGGGTAGAGAAATTAAAGAGAGAAACTTCTTTCGGAGCCTTCAAAGGATTGGCGAAAACTGAACCTTTATTAGCAACAGCTGCAACGATCTCTATGCTTTCAATGGCAGGAGTTCCTTTAACAGCTGGTTTCATGGGGAAATTTGCTTTATTTTCCCAGGCAATGAACGGAGCTGCTTTCTTAGTATTGGTAGCTGTATTAGGGTCCGCCTTATCCATCGCTTACTATTTAAGACTGATCATTGCGATGTTCTTCTTTAAAGAATCAACATTCAAATCATCAGAAAAAGTAACACTTACTTACAATATCATTGCAGTAGTTGTTATTGTTTTGATCATTATCCTTGGAGTTTTCCCGGATATGTTTGCAAGAATATTCGGATTGTAA	MSVLIIVFLTAVIALFSGVFEQGKFARYIGILGLIIALYVSFMPECSFFDHYRHMYEYSDNTALFTKISIVTTLLLFFLGGFAFSNHRSHQSELYALMLFALCGGIILFGYQNLVTMFLGVEILSIPLYVMAGANKTDLRSNEASIKYFLMGAFATGFLLFGIAFIYGSAGSFDLYKIHDFGVANSGNVMFILGVLLILCALAFKVALAPFHMWSPDVYAGSPSLITAFMASVVKISGFFALFRLMTLGFTGVTHEWINVLGVFLIITLLLANVMGLAQTNAKRMLAYSSVSHAGYIGLVFFGMTSLSTYNLAFYLFAYSLSTVGVFMCLIWVEKLKRETSFGAFKGLAKTEPLLATAATISMLSMAGVPLTAGFMGKFALFSQAMNGAAFLVLVAVLGSALSIAYYLRLIIAMFFFKESTFKSSEKVTLTYNIIAVVVIVLIIILGVFPDMFARIFGL	PGPT0026860_3468	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
BMS003_02413	1464	nuoM	COG1008	NADH-quinone oxidoreductase subunit M	TTGCCTCTAGTAGGTTCGGGATTAGTTTTTGCCTGGAAGAATCATTCCAGCAAATATTTGGCGCTTGGAATTGCATTGGTACAAATGCTCCTTACGTTTTACGTACTTTCGGATTTTGATTTTACTCCGACAGTAGACAGCGTATTGCAGCATGAGATCAATTATCCATGGTCACAATTTATGAAGAGCTCTCTTCACTTCGGTATCGATGGGATGAGCATGCTTCTTTTATTATTGACCAACATTCTGGCTCCAATCATCATTTTATCATCTTTCAACGAAAATGTAAACTACAGAAATACATTCTACGGACTTATTCTGTTGATGCAGTTTGGTCTTGTAGGAGTATTCACTTCTTTAGACGGATTGTTGTTCTACATTTTCTGGGAAGTAACTTTGATTCCAATTTGGTTTATTGCCGGACTTTGGGGACAAGAGAATAAAAGGTTTGAATTCACTACGAAGTTCTTCGTATATACATTCGTGGGATCATTATTTATGTTAGCCGGATTGATCTATGTGTACAACCACGCTGCATCATTCGCTTTAACAGATTTATATAATGCTCAGCTGAATGAAGTACAGCAGACTGTGGTATTCTGGTTTATTTTCTTTGCTTTTGCAGTGAAATTACCGGTATTCCCTTTCCATACATGGCAGCCTGATACCTATACCTACTCTCCTACTCAGGGATCCATGTTATTATCAGGGATCATGCTGAAGATGGCAGTATATGGGGTAATGCGTTATTTACTTCCAATCACTCCACTTCCGATTGCCGGAATTTCCGGACAAATCGTAATTATTCTTGCTATTGTAGGAATTGTTCACGGAGCTTTGATCGCTATCATCCAGACGGATATGAAGAGAATCATTGCTTATTCATCTTTTTCTCACGTAGGATTGATGGTAGCAGGGATCTTTGCTTCTGCAGTAGTTACTTTAAGAGGAACTTTCAATGTAGAAGGAGCTGAAGGAGCTTTAGTACAGACTTTTGCACACGGTATCAACGTAGTAGGTTTATTCTACTGCTGTGATATTTTATATAAGAGATTTAAATCAAGAGACATCAGACAAATGGGCGGTTTGGCTAAAGTAGCGCCTAAGTTTGCCGTGTTGTTCCTGATCATTATATTAGGTTCAATGGGAGTTCCATTGACCAATGGATTCATCGGGGAATTTATTTTGCTGAAATCTGTTTATGATTTTAACGGAACAGCAGCAGTAATTGCTGGTCTTACGGTAATTCTTTGTGCAGTGTATTTATTGAGATTCTACGGAAAAGCAATGTTTGGAGAAGGCGATGAAGCCGTTTTAAGTACAGCAAAAGATTTATCTGGTGTAGAATTTTCTGTATTGGCAAGCTTAGCGGTTTTTGTGATTTTACTAGGTATTTTCCCACAACCGGTAATCGACATGGTGAGTAGTTCGGTGAAGTTTATCTACACAGCAATGGCTAATTAA	MPLVGSGLVFAWKNHSSKYLALGIALVQMLLTFYVLSDFDFTPTVDSVLQHEINYPWSQFMKSSLHFGIDGMSMLLLLLTNILAPIIILSSFNENVNYRNTFYGLILLMQFGLVGVFTSLDGLLFYIFWEVTLIPIWFIAGLWGQENKRFEFTTKFFVYTFVGSLFMLAGLIYVYNHAASFALTDLYNAQLNEVQQTVVFWFIFFAFAVKLPVFPFHTWQPDTYTYSPTQGSMLLSGIMLKMAVYGVMRYLLPITPLPIAGISGQIVIILAIVGIVHGALIAIIQTDMKRIIAYSSFSHVGLMVAGIFASAVVTLRGTFNVEGAEGALVQTFAHGINVVGLFYCCDILYKRFKSRDIRQMGGLAKVAPKFAVLFLIIILGSMGVPLTNGFIGEFILLKSVYDFNGTAAVIAGLTVILCAVYLLRFYGKAMFGEGDEAVLSTAKDLSGVEFSVLASLAVFVILLGIFPQPVIDMVSSSVKFIYTAMAN	PGPT0026850_2890	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
BMS003_02414	1914		COG1009	NADH-quinone oxidoreductase subunit 12	ATGGAGAATCTAGTATATGCAATAGTACTTTTACCACTTTTAGGGTTTCTTATTAACGGACTGTTCGGAAAAAATCTTCCAAAAATATTGGTAGGATCTCTGGCTACAGCTATGGTCTTTGGATCTTTCTGTATTGCGGTAAGTCTTTTCATGAATTTCAATTCTGAAAGCCAGCCTGTTATTGTAAAAGCTTTTGAATGGTTTAGAGTAAATGGTGTTCAAATCAATTTTGGATTCCAGATTGATCAGCTTTCATTAATGATGGTAATGATCATTACGGGTATCGGTTCACTGATCCACTTATACTCTATCGGATATATGAGTCATGATAAAGGATTCTATAAGTTCTTTACTTACCTGAATCTTTTCATCTTCTCCATGTTACTTTTAGTAATGGGAAGCAACTACCTTATCCTGTTTATCGGATGGGAAGGTGTAGGTCTTTGTTCTTACCTGTTAATCGGATTCTGGTATACTAACGAAGAATACGGTAAAGCAGCAAGAAAAGCTTTCATCATGAACAGAATTGGTGACCTTGCGTTATTGATCGGTATTTTCATGATCGCTTCTCAGACCAATGCTGTAGATTATCTTTCTGTAGCAGAAAACGCTTCAAAATTTGAATTAGACGGAACAGTGATTATCTTTATCACAGCGAGTTTATTCATCGGTGCTACCGGTAAATCTGCTCAGGTTCCATTATATACATGGTTACCGGATGCGATGGCGGGACCAACTCCTGTATCAGCGTTGATCCACGCGGCAACGATGGTAACAGCAGGGATCTATTTGGTAGTAAGATCTAACTTCTTATTTACTTTAGCACCTACAGTACAGGGAGGAATTTTATTCATCGGATTCTTAACGGCTGCTTTGGCAGGATTCTATGCACTACGTCAGAACGACATCAAAAAAGTATTGGCATATTCTACAGTTTCACAGCTTGGATTTATGTTCATTGCTTTAGGTCTTGGAGCCTATACAACAGCAATGTTCCACGTAATGACACACGCTTTCTTCAAAGCTTTATTATTCTTAGGAGCTGGTTCTGTAATCCACGCCATGAGCAACGAACAGGATATGCGTTTCATGGGAGGTCTTAAAAAATATATTCCTCTTACCCACGCTACATTCCTTATCGGAACATTAGCCATCTCAGGTTTCCCTTTATTATCAGGGATGATCTCTAAAGACGAAATTTTAGTAGCAGCTTTCGCTAAAAACCCTATCTACTGGGTAATCTTATTTGTTTTAGCGGCAATCACTGCAACTTATATGTTCAGACTATACTACCTGACATTCCACGGAGAATTCAGAGGTACTGAAGAACAAAAACACCACTTACACGAAAGTCCGTCTAATATGACATTACCATTGATCGTATTGGCTGTTCTTTCTGTAATCGGAGGTTTTATCAACCTGCCACACTTCATCGGTCACGGACATTATGCTAAGCTGATGGAATGGTTAAAGCCAGTTCTTACGGAACAAAGCTACAGCCAGATGGAAGCTACTCTTTCAGGAGTACCTTTCAATACTGAAATGATCTTATTAGCAGCTACAGTACTGATGTTCTTCACTGTATGGTTCATCGTTAGAAATACTTATGTAAGTAAGAAAAAGATGGCTGTTGCAGAGGAAAACTATACCGGATGGGAAAAGCTTTCTGCTAAGAAATTATACGTTGACGAACTTTACAACGCATTGATTGTAAAAACTGTTGAAGGATTAGGACGCGGAGGAAAAATGTTTGATAAGGGTATCTTAGACCGTTTTGTAAACTTTGTAGGTGATGGTGCTGAAGACAGCGGAAAAGCTATGAAGCGTGTACAGAACGGAAATGTAGAGACATATATCCTTATCATGTCTTTAGCTGTGGGAATTATATTAATTGTTAACTTTTTATTACAATAA	MENLVYAIVLLPLLGFLINGLFGKNLPKILVGSLATAMVFGSFCIAVSLFMNFNSESQPVIVKAFEWFRVNGVQINFGFQIDQLSLMMVMIITGIGSLIHLYSIGYMSHDKGFYKFFTYLNLFIFSMLLLVMGSNYLILFIGWEGVGLCSYLLIGFWYTNEEYGKAARKAFIMNRIGDLALLIGIFMIASQTNAVDYLSVAENASKFELDGTVIIFITASLFIGATGKSAQVPLYTWLPDAMAGPTPVSALIHAATMVTAGIYLVVRSNFLFTLAPTVQGGILFIGFLTAALAGFYALRQNDIKKVLAYSTVSQLGFMFIALGLGAYTTAMFHVMTHAFFKALLFLGAGSVIHAMSNEQDMRFMGGLKKYIPLTHATFLIGTLAISGFPLLSGMISKDEILVAAFAKNPIYWVILFVLAAITATYMFRLYYLTFHGEFRGTEEQKHHLHESPSNMTLPLIVLAVLSVIGGFINLPHFIGHGHYAKLMEWLKPVLTEQSYSQMEATLSGVPFNTEMILLAATVLMFFTVWFIVRNTYVSKKKMAVAEENYTGWEKLSAKKLYVDELYNALIVKTVEGLGRGGKMFDKGILDRFVNFVGDGAEDSGKAMKRVQNGNVETYILIMSLAVGIILIVNFLLQ	PGPT0026845_2114	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
BMS003_02415	330	nuoK	COG0713	NADH-quinone oxidoreductase subunit K	ATGGGAGAAGTAAATACATTTATACAAAGCATCCCTTTGGACTACTTCATCATTCTTTCATCAGTATTGTTCTGTTTGGGAGTAATGGGAGTATTGCTTAGAAAAAATGCTATTGTGATTCTGGGCTGTGTAGAGCTTATGCTGAATTCTGTAAACCTTTTATTGGCAGCTTTTTCAGCATATAAAGGCAACGGCGACGGACAGCTTTTAGTTTTCTTCATTATGGTGGTAGCTGCTGCTGAAGTAGCAGTAGGTCTGGCAATTATTGCTATGCTATATAGAAACACCCGTTCTGTAGATGTAAGTATATTTAATAAATTAAGAGGATAA	MGEVNTFIQSIPLDYFIILSSVLFCLGVMGVLLRKNAIVILGCVELMLNSVNLLLAAFSAYKGNGDGQLLVFFIMVVAAAEVAVGLAIIAMLYRNTRSVDVSIFNKLRG	PGPT0026840_265	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
BMS003_02416	498	nuoJ	COG0839	NADH-quinone oxidoreductase subunit J	ATGGATCAGTTTTTATTTTTCTTGGTGGCGTTTTTAGCAGTGGCAAGTGCGGTATATTTTGTATTTGCAAGAAATCCTTTATATGCTATTTTGTCATTAATTGTTACAATGTTTTCAATTGCCGGAATGTACATTCTTCTTAATGCGCAGTTCCTTGCAATTATACAGATCATAGTTTACGCAGGTGCCATTATGGTACTTTTCCTTTACATCTTAATGATGCTTAACCTTAATAAAGGAGACGAAAGTAAGAAGAACAATACTTTAAAATTTGTTGGAGTTTTTACAGCAGGTATTCTTTTAGTAGGTGTGTTGGGTGTTTTCAGAGGAGTAAGAGAAAACCACATTGTTGTTGAAAATGTAGACAGAGGTGTCGGTCTTACAAAAAACCTGGGTAGACTTTTGTTTAATGAATATGTTTTACCGTTTGAGCTTGCTTCTATCCTAATTCTGGCAGGTATTGTAGGCGCGGTATTAATCGGTAAAAAAGATTTATAA	MDQFLFFLVAFLAVASAVYFVFARNPLYAILSLIVTMFSIAGMYILLNAQFLAIIQIIVYAGAIMVLFLYILMMLNLNKGDESKKNNTLKFVGVFTAGILLVGVLGVFRGVRENHIVVENVDRGVGLTKNLGRLLFNEYVLPFELASILILAGIVGAVLIGKKDL	PGPT0026835_3071	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
BMS003_02417	558	ndhI		NAD(P)H-quinone oxidoreductase subunit I, chloroplastic	ATGAAACTTACAAACAGATCAAAAGTTGTTTCCAATAAAGAAATGACCCTTGCTGAAAAAATCTACCTTCCTGCCATCTTTACAGGGATGGGGATTACATTTAAGCATGCTGTAAGAACCGTGATAAAGGGTGCTCCCGCAGTATATTCGTATCCGGAAGTACAGAAACCAAGAACCACCATCTGGAGAGGCCAGCACGTTTTGAAAAGAGACGAAGAAGGCAGAGAAAGATGTACAGCTTGTGGACTTTGTGCGGTAGCTTGTCCTGCAGAAGCCATTACGATGACTGCTGCTGAAAGAACTAAAGAGGAAAAAGGTCTTTACAGAGAAGAGAAATACGCTTCAGTATATGAAATCAATATGCTAAGATGTATTTTCTGCGGTATGTGTGAAGAAGCTTGCCCTAAATCTGCCATCTATCTTACAGACAGATTGGTAGACGTGGAAACTAACAGAGGTTCTTTCATTTACGGAAAAGATAAATTAGTTGAAAAAATAAATGAAAGGATTGATATCACGACAAGACAATCCGAGAAACAAAAAAATGCGGTAAAATAA	MKLTNRSKVVSNKEMTLAEKIYLPAIFTGMGITFKHAVRTVIKGAPAVYSYPEVQKPRTTIWRGQHVLKRDEEGRERCTACGLCAVACPAEAITMTAAERTKEEKGLYREEKYASVYEINMLRCIFCGMCEEACPKSAIYLTDRLVDVETNRGSFIYGKDKLVEKINERIDITTRQSEKQKNAVK	PGPT0026830_904	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
BMS003_02418	1065	ndhA	COG1005	NAD(P)H-quinone oxidoreductase subunit 1	ATGGATTTACTTACATTTAAACTTATACTTGTACTAGCACTTTTCCTGCTATCGCTTACGATCGCAGCCTACTCTACCTGGGCAGAAAGAAAAGTAGCCTCTATCATGCAGGATAGAATTGGTCCTAACAGAGCCGGACCTTTCGGATTGCTGCAGCCTCTTGCTGATGGTGGAAAGTTTTTCTTCAAAGAAGACTTTACCCCTGCCAATGCAGAAAAATTCCTTTTCGTACTAGGACCGGCATTGGTAATGTTTATTTCATTGATTACAGGAGCTGTTATTCCTTGGGGTAAAAGTTTAAATATTGCAGGTACTTCTTTTGACCTTCAGGTTGCTAATATTGATGTTGGTGTGCTATTCATCATCGGAATGGCTTCCATCGGGGTTTACGGAATTATGATCGGAGGTTGGGCTTCTAACAACAAATATTCATTACTTGGTGCTATCCGTGCTTCTTCTCAGATGATTTCTTATGAACTGGCAATGGGATTAGCACTTCTTTCTATTATTATGATGTCTGGAAGCTTAGACTTGAAAGAAATTACTGAAAGCCAGACTACCGGAAAATTATGGGGCGTTATTCCTTGGGTTTCAGGGTTAAACTGGAATATTTTCTACCAGCCGATTGCATTCCTTGTTTTCTTTGTAGCCGCCTTGGCAGAAACCAACAGACACCCGTTCGATTTACCTGAGTGTGAATCTGAATTGGTAACAGGATACTCTACAGAATACTCTTCCATGAAGTTAGGTTTATATATGTTCGGAGAATATGTGAACATGTTTATTTCCAATGCTTTTATGGTTGTTCTTTTCTTCGGAGGGTATAACTATCCTGGCATTGAATGGGTAACCCAGAACTGGGGCGAGAATACTGCCGGAATCTTAAGTATTGTAGCATTCCTTACAAAAACAGTAATCGGAATCCTGATCTTCATGTGGATCAGATGGACACTTCCAAGATTCAGATATGACCAGTTAATGCACTTAGGATGGAAAACATTAATCCCAATGGCATTGGTAAATCTATTAATTACAGGAGCTGTAATTTTAGCGTTTGGAAATTAA	MDLLTFKLILVLALFLLSLTIAAYSTWAERKVASIMQDRIGPNRAGPFGLLQPLADGGKFFFKEDFTPANAEKFLFVLGPALVMFISLITGAVIPWGKSLNIAGTSFDLQVANIDVGVLFIIGMASIGVYGIMIGGWASNNKYSLLGAIRASSQMISYELAMGLALLSIIMMSGSLDLKEITESQTTGKLWGVIPWVSGLNWNIFYQPIAFLVFFVAALAETNRHPFDLPECESELVTGYSTEYSSMKLGLYMFGEYVNMFISNAFMVVLFFGGYNYPGIEWVTQNWGENTAGILSIVAFLTKTVIGILIFMWIRWTLPRFRYDQLMHLGWKTLIPMALVNLLITGAVILAFGN	PGPT0026825_1278	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
BMS003_02419	999	nqo3	COG1034	NADH-quinone oxidoreductase chain 3	ATGAGCGAAGAAGTTAAAAAATTCAAAATAACTATAGACGGACAGACTACCGAAGTTTTGCCTGGTACTTCTATTCTGGAAGCTGCAAGACAAATTGGTGGTAAATCTGTACCTCCTGCAATGTGCTACTACAGCAAATTGGAAACCAGTGGAGGAAGATGTAGAACTTGTCTGGTAGAAGTTTCTAAAGGATCTGAAGCAGACCCACGTCCTATGCCAAAATTAGTAGCAAGCTGCAGAACTAACGTAATGGACGGGATGGAAGTAAAAAATCTTACTTCTGAGAAAGCTCAGGAAGGAAGAAAAGCGGTTACCGAATTTTTATTGGTAAACCACCCGCTGGACTGCCCTATCTGCGACCAGGCAGGAGAATGTCATCTTCAGGACTTAGGATATGAGCATGGTGTGGAAAATACAAGAACAGAATTCGAAAGAAATACTTACGAAGCTGATGATCTTGGACCGAACATCAAATTAAATATGAACCGTTGTATTCTTTGCGCAAGATGCGTACTGACCGCTAACCAGCTTACAGAAACAAGAGAACACGGTATCCTTTTCAGAGGAGATCACGCTGAAATTTCAACGTATTTAAATAAAGCTTTAGACAATGACTTCATCGGAAACGTTATCGATGTTTGTCCTGTAGGAGCATTAACAGACAGAACAGCCCGTTTTGCAAGCAGAGTATGGTTTACAAAACCAATGAACGCAACTTGTAAATGTGATAAGTGTTCCGGAAAAGCTGTAGTATGGTTTAAAGGAGACGAAATTGTAAGAGTAACTGCAAGAAAAGATCAGTGGGGTGAAGTAGAAGAATTCATCTGTGATACATGCCGTTTCGAAAGAAAAGCTTTATCAGACTGGAACATTGAAGGTCCTAGACATATCGACAGACATTCTGTAATTTCATTGAACCACTACGAAAAGCCTAAAGATGAGCTAAGAGTTTTAGACAATCCTATGGCTAAAGAAATCAGTGAAAAAGACGAAAAATAA	MSEEVKKFKITIDGQTTEVLPGTSILEAARQIGGKSVPPAMCYYSKLETSGGRCRTCLVEVSKGSEADPRPMPKLVASCRTNVMDGMEVKNLTSEKAQEGRKAVTEFLLVNHPLDCPICDQAGECHLQDLGYEHGVENTRTEFERNTYEADDLGPNIKLNMNRCILCARCVLTANQLTETREHGILFRGDHAEISTYLNKALDNDFIGNVIDVCPVGALTDRTARFASRVWFTKPMNATCKCDKCSGKAVVWFKGDEIVRVTARKDQWGEVEEFICDTCRFERKALSDWNIEGPRHIDRHSVISLNHYEKPKDELRVLDNPMAKEISEKDEK	PGPT0026820_3162	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
BMS003_02420	885			hypothetical protein	ATGATGTCGAATCTTGTATTTGCACAGAACAAGAAAAATGATACTACAACTTATAACAGATCTGCAGAAGAAGATTTGTCATATTTGGTGAGTGAGAAAGAGCAGATTAAAGCTGAAAAAAAGGAAAAACCTTTACCATTAAGCAAAAAAGGTCAGGTTTTCGTGTTTTATGGATGGAACAGAGCTGCTTATAGTAATTCTGACATTCATTTTACCGGAAACGGATACGATTTTCAATTGAATAACGTAACCGCACAGGACAGACCTACAAAATTTGGAATTGTCTATTTTGATCCAAGCTGGTTTACTGTAACACAGTATAATTTCAGAATAGGATATTTCATTAAAGACAATCTGGCACTGGTACTTGGGATAGACCATATGAAATATGTAATGGATCAGAACCAGACTGTTGGTTTCAAAGGACATATTTCAGATCCTGAATATGCAGCAATGGTTCAAAACGGGCAGGTTAATCTTGCAGATGAGAAGTTCCTTACTTTTGAACATACAGATGGACTTAATTATGAAAACTTAGGTCTTGAGAAATACAAAAACCTTGTTCATAAGAAAAATATAGATTTAGTATGGTCTTATGGAGCCGGAATCGGATTTATGTTTCCGAAAAGTAATGTAAAACTTTTTGGTAATGAAAGAAGTGACCGTTTTCACGTTGCGGGTATGGGAACCGATATCAGATCCAGTCTTAACTTGGTATTCTGGAAAAACTGGATGCTGAGATTAGAAGGAAAAGCAGGTTATATCAATATGTGGGACATCAAAACCACGCTGAATAATAAGCCGGACAAAGCACGTCAGGATTTTGTTTTCGGACAGATTCTGGGAGGAATTGGATATACATTTAATACAAAGAAATATAAATAA	MMSNLVFAQNKKNDTTTYNRSAEEDLSYLVSEKEQIKAEKKEKPLPLSKKGQVFVFYGWNRAAYSNSDIHFTGNGYDFQLNNVTAQDRPTKFGIVYFDPSWFTVTQYNFRIGYFIKDNLALVLGIDHMKYVMDQNQTVGFKGHISDPEYAAMVQNGQVNLADEKFLTFEHTDGLNYENLGLEKYKNLVHKKNIDLVWSYGAGIGFMFPKSNVKLFGNERSDRFHVAGMGTDIRSSLNLVFWKNWMLRLEGKAGYINMWDIKTTLNNKPDKARQDFVFGQILGGIGYTFNTKKYK				NA	NA	NA	NA	NA
BMS003_02421	1359	nqo1	COG1894	NADH-quinone oxidoreductase subunit 1	ATGAGTAAAAAACTTTTACTTAAAGACGCACATATAGAAGGTATTCGCTACTTTGAAACGTACCGTAAACAGGGAGGTTACACAGCAGCTGAAAAAGCCTTGAAGATGACTCCTGACGAAATTCTTGAAGAAGTAAAAGCTTCAGGACTGAGAGGTCGTGGTGGAGCTGGATTCCCAACAGGAATGAAATGGAGCTTTTTGGCAAAGCCGGAAGGCGTTCCAAGACACCTTGTTGTGAATGCGGATGAATCTGAGCCTGGAACATTCAAGGACAGGTATCTGATGGAGTTCCTTCCTCATTTATTGATCGAGGGAATGCTAATTTCTTCTTACTGTTTAGGTTCCAATACTTCTTATATCTACATCCGTGGAGAATATTCATGGATTCCGGATATCCTTGAGGAAGCTATTGAAGAAGCCAAAGCAGCAGGATTTTTAGGTAAAAATATTTTAGGAACTGGTTTCGATCTTGAAATCTATGTACAGAGAGGTGGTGGAGCATATATCTGCGGTGAAGAAACTGCATTGCTTGAATCCCTTGAAGGAAAAAGAGGTAATCCAAGATTAAAACCGCCATTCCCGGCTGTAAAAGGTCTTTGGGAAAGACCAACGGTGGTAAACAACGTTGAATCTATTGCGGCAGTAGTTCCAATCATTGATATTACAGGTGCTGAATATGCTAAAATCGGAGTTGGAAGATCTACAGGAACTAAACTGATTTCGGCTTGTGGAAACATCAACAAACCAGGTGTATACGAAATCGATATGACAATCACTGTAGAAGAATTCATCTACTCTGATGAATATTGCGGTGGTATTAAAGATGGTAAAAAATTAAAGGCTTGTATTCCCGGAGGAAGTTCTGTTCCGATTGTTCCGGCTAATTTATTGTTGAGAACCGTGAACGGAGAGCCAAGATATATGAACTATGAATCATTGGCAGATGGTGGTTTTGCTACCGGAACTATGATGGGTTCAGGAGGTTTCATCGTTTTGGATGAAGACCAGTGTATTGTAGATCACACCATGACATTGGCAAGATTCTACAACCACGAAAGCTGTGGACAATGTACTCCTTGCCGTGAAGGAACGGGATGGATGTACAAGATTTTAAAGAAAATCGAGAAAGGAGAAGGAAAAATGGAAGATATCGATCTGCTTTGGGATATCCAGAGAAAAATCGAAGGAAATACGATTTGTCCGTTGGGTGATGCAGCAGCCTGGCCGGTTGCAGCAGCAATCCGTCACTTCAGAGATGAATTTGAATGGCACGTGAAAAACCCTGAATTGTCTCAGACACAAAACTATGGATTGGCACATTATGCAGATCCTATCCCGGCTGTTGAAAAGAATGCGTAG	MSKKLLLKDAHIEGIRYFETYRKQGGYTAAEKALKMTPDEILEEVKASGLRGRGGAGFPTGMKWSFLAKPEGVPRHLVVNADESEPGTFKDRYLMEFLPHLLIEGMLISSYCLGSNTSYIYIRGEYSWIPDILEEAIEEAKAAGFLGKNILGTGFDLEIYVQRGGGAYICGEETALLESLEGKRGNPRLKPPFPAVKGLWERPTVVNNVESIAAVVPIIDITGAEYAKIGVGRSTGTKLISACGNINKPGVYEIDMTITVEEFIYSDEYCGGIKDGKKLKACIPGGSSVPIVPANLLLRTVNGEPRYMNYESLADGGFATGTMMGSGGFIVLDEDQCIVDHTMTLARFYNHESCGQCTPCREGTGWMYKILKKIEKGEGKMEDIDLLWDIQRKIEGNTICPLGDAAAWPVAAAIRHFRDEFEWHVKNPELSQTQNYGLAHYADPIPAVEKNA	PGPT0026815_905	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
BMS003_02422	510	nqo2	COG1905	NADH-quinone oxidoreductase chain 2	ATGAGCGAAACAATAGCTTTTAAACCGGAAAGTTTAGCACAGGTACATAAAATTATCGCAAGATATCCTGAAGGAAGACAAAAATCTGCTCTTCTTCCTGTCCTTCACCTGGCACAGAAAGAATTTGGAGGATGGTTAGATGTTCCTGTGATGGATTATGTTGCCGGACTATTAAGTATCCAGCCGATCGAAGTATATGAAGTGGCTACTTTCTATACGATGTTCAATATGAAGCCGGTAGGTAAATATGTGCTGGAAGTTTGCAGAACAGGACCTTGTATGGTTTGTGGAAGCGAAAAAATTCTGGATCATATCAGAACCAAACTGAACATTAAAGACGGAGAAACTACTGAAGACGGTATGTTCACCTTAAAACCAGCTGAATGTCTCGGAGCATGTGGATATGCACCAATGCTGCAGCTTGGAAAATTCTTTCATGAAAATTTAACGATAGAAAAAGTAGATGAAATCCTTGATCTTTGCAGACAGGGACAAGTTGCTTTAGACTAA	MSETIAFKPESLAQVHKIIARYPEGRQKSALLPVLHLAQKEFGGWLDVPVMDYVAGLLSIQPIEVYEVATFYTMFNMKPVGKYVLEVCRTGPCMVCGSEKILDHIRTKLNIKDGETTEDGMFTLKPAECLGACGYAPMLQLGKFFHENLTIEKVDEILDLCRQGQVALD	PGPT0026810_1639	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
BMS003_02423	1224	nqo4	COG0649	NADH-quinone oxidoreductase subunit 4	ATGAAAGATAACTCATTATCTAATATACTAAACCAGTACGAAAGTAAGGAACAGATTGACGGACAATTATATACCCTGAATCTGGGACCTACCCACCCTGCTACGCACGGAATTTTCCAGAATATCTTAACGATGGATGGTGAAAGAATTCTTCACGCAGAGCAAACAGTAGGATATATCCACAGAGCATTTGAGAAAATTTCTGAAAGAAGAAACTATTCTCAGATCACTACCCTTACAGACCGTATGAATTACTGTTCTGCACCCATCAATAACTTAGGTTGGCACATGACAGTAGAGAAGCTGATTGGCGTGGAAGTTCCAAAACGTGTAGATTATATGCGTGTTATCTTGATGGAGCTGGCCAGAATCGGTGACCACCTGATCTGTAACGGGGTAACCGGAATGGACTCAGGAGCTATTACAGGTCTTACTTATATGTTCATCGAAAGAGAACGTATTTATGATATGTATGAACAGATCTGCGGAGCCAGAATGACGACCAATATGGGAAGAATCGGAGGTTTTGAAAGAGATTTCACTCCTAAGTTTCATGAGTTGCTGAAAGACTTCTTAAAAACTTTCCCACCAAGATTCAAAGAATTCTGTACTTTATTAGAAAGAAACAGAATTTTCATGGACAGAACCATCGGTACGGGAGCTATTTCTGCCGAAAGAGCATTAAGCTATGGTTTTACAGGTCCTAACTTACGTGCAGCAGGTGTAGATTATGATGTAAGAGTTGCACAGCCTTATTCCTCATACCAGGATTTTGACTTCATTATTCCTGTAGGAACTTCAGGAGATACTTACGACCGTTTCATGGTTCGTCAGCAGGAAATCTGGGAATCTATCAAAATTATCAAACAAGCATACGAAAACCTTCCGGAAGGGTCATTCCATGCGGATGTTCCTGACTTCTATCTTCCTGAAAAGGCAGATGTTTATCAGAAAATGGAAGCATTGATCTACCATTTCAAAATTGTAATGGGAGAAACTGATGTACCGAAAGGAGAAGTTTATCATGCTGTAGAAGGTGGAAACGGAGAATTAGGTTTCTATCTTGTGAGTGACGGAGGAAGAAGCCCTTACAGACTTCACTTCAGAAGACCATGCTTCATCTACTATCAGGCATACCCTGAAATGATTACAGGTTCTGTAATTTCAGATGCCATTGTAACAATGTGTAGTATGAATATTATTGCGGGAGAATTAGACGCATAA	MKDNSLSNILNQYESKEQIDGQLYTLNLGPTHPATHGIFQNILTMDGERILHAEQTVGYIHRAFEKISERRNYSQITTLTDRMNYCSAPINNLGWHMTVEKLIGVEVPKRVDYMRVILMELARIGDHLICNGVTGMDSGAITGLTYMFIERERIYDMYEQICGARMTTNMGRIGGFERDFTPKFHELLKDFLKTFPPRFKEFCTLLERNRIFMDRTIGTGAISAERALSYGFTGPNLRAAGVDYDVRVAQPYSSYQDFDFIIPVGTSGDTYDRFMVRQQEIWESIKIIKQAYENLPEGSFHADVPDFYLPEKADVYQKMEALIYHFKIVMGETDVPKGEVYHAVEGGNGELGFYLVSDGGRSPYRLHFRRPCFIYYQAYPEMITGSVISDAIVTMCSMNIIAGELDA	PGPT0026805_1547	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
BMS003_02424	495	nqo5	COG0852	NADH-quinone oxidoreductase chain 5	ATGACAAACGAATTTGTATTAGAAGCCATCACAAGAGAATTTCCGGAATCTGTCATTTCAAGCTCAGAACCTTATGGAATGCTGACGATTGAAGTGAAGAAAGAAGATATTAAGAAAATCATTCACTATCTGAAAGATTCATCACTGGAATTTAACTTCCTTACGGATATCTGTGGTATTCATTATCCTGAATTCCCTGAAAAGGAAATTGGTGTTGTATACCATCTGCATAATATGATGGCCAATTTCAGATTACGTCTGAAAATCTTTATGTCCAGAGAAAACATTGAAGTAGACTCTCTTGTAGAACTATATGCAGGAGCCAACTGGATGGAAAGAGAAACGTATGATTTCTATGGGATTAAATTTAAAGGACACCCGGATCTGAGACCTATTTTAAATATGGAAGACCTGGGATACCACCCAATGTTGAAGGAATATCGCCTTGAAGACGGTACAAGAACCGACAAGAACGATAGCATGTTCGGAAGATAA	MTNEFVLEAITREFPESVISSSEPYGMLTIEVKKEDIKKIIHYLKDSSLEFNFLTDICGIHYPEFPEKEIGVVYHLHNMMANFRLRLKIFMSRENIEVDSLVELYAGANWMERETYDFYGIKFKGHPDLRPILNMEDLGYHPMLKEYRLEDGTRTDKNDSMFGR	PGPT0026790_2516	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
BMS003_02425	561	ndhK		NAD(P)H-quinone oxidoreductase subunit K, chloroplastic	ATGTCAGATAAAAAACCAGTAATAAGAACAGATGCACCTGCTCCCGAAGGCTATGAAGGAGAAGGGTTTTTCGCAACAAAACTGAGCAGTGTAATCGGGATGGCAAGAAAGTTTTCACTTTGGCCGTTACCCTTTGCAACCTCTTGTTGTGGTATCGAGTTTATGGCTACCCTGAACCCGACTTATGATGCTTCAAGATTTGGTATGGAAAGAAACTCTTTCTCTCCAAGACAAGCAGATATGCTGATGGTTTGCGGAACTATATCAAAGAAATTAGGACCTGTCCTGAAAGAAGTGTACACCCAGATGGCTGAGCCGAAATGGGTGGTAGCAGTTGGAGCTTGTGCTTCCAGCGGTGGTATTTTTGATACGTATTCTGTACTTCAGGGAATTGACAAAATTATTCCGGTAGACGTTTACGTTCCCGGATGTCCTCCAAGGCCTGAACAGATCATTGAAGGTGTAATGCAGGTACAGGCTCTTGCAGAAAGCGAAAGCATCAGAAGAAGAGATATGCCTGAATATCAGAAATTATTAGATTCTTACAACATAAGCAACTAA	MSDKKPVIRTDAPAPEGYEGEGFFATKLSSVIGMARKFSLWPLPFATSCCGIEFMATLNPTYDASRFGMERNSFSPRQADMLMVCGTISKKLGPVLKEVYTQMAEPKWVVAVGACASSGGIFDTYSVLQGIDKIIPVDVYVPGCPPRPEQIIEGVMQVQALAESESIRRRDMPEYQKLLDSYNISN	PGPT0026785_1213	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
BMS003_02426	372	nuoA	COG0838	NADH-quinone oxidoreductase subunit A	ATGAATTTACCTGAAAGTTATATTCCAATCCTTATCCAGGCTGGTGTAGCAGTAGGATTTGTAGCTGTTTCTTTGCTTGGGGCACATTTCTTAGGCCCACAACAGAAAAAAGGAAACTCTGTAAAAAACCAAAGCTGGGAATGTGGAGTTCCTGTAGAAGGAAACGCAAGAACACCGTTTTCTATCAAGTACTTCCTGACTGCGGTATTGTTCGTACTATTCGATATTGAAATCGTATTCTTTTATCCTTACGCTGTCAACTTCAGAGAATTCGGTATGGAAGGTTTCCTTGCCGTGCTTACCTTCGTTGCGATCTTCTTCGTGGCGTTTTTCTATGTCTGGAAACGCGGTGCGCTGGATTGGGATAAATAA	MNLPESYIPILIQAGVAVGFVAVSLLGAHFLGPQQKKGNSVKNQSWECGVPVEGNARTPFSIKYFLTAVLFVLFDIEIVFFYPYAVNFREFGMEGFLAVLTFVAIFFVAFFYVWKRGALDWDK	PGPT0026780_1480	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
BMS003_02427	177			hypothetical protein	ATGAAACCACAACTCATTATTTTCGCTATCCTGATTGCTGGATTTATCAGTTACAATCTATTTTTCCAGTCACTGGATGACAGAACAAATACAGTAATCAATATTGCTTTTGCCAGTATTCTTTTTGGATACATTTCATTAATGGCCTACACTCTTTTGAAAAAAATGAAAAAATAA	MKPQLIIFAILIAGFISYNLFFQSLDDRTNTVINIAFASILFGYISLMAYTLLKKMKK				NA	NA	NA	NA	NA
BMS003_02428	1128	yghO_2		Protein YghO	ATGTCTACAATTTCAATTATTGAAGTAAAAACTACCGGCCAGCTCAAACAATTCGTAAGGTTTCCTATGGATTTGTATAAAAACAATCCTTACTATGTGCCGTCCTTTATCAATGACGAAATCAACATTTGGAATGCAGATGAAAATCCGGCACTTCAATATTCGGAAGCCAAACAATATCTGGCATACAGGAATGATAAGGTTGTGGGAAGAATTGCGGTTCTTATCAACCACAAAGAAGAGAGAGAGTTGGGAATTAAAAAGGTTCGTTTCGGCTGGATCGATTTTATTGATGATGCTGAAGTCTCAAAGGCACTTATTCAAAAAGCCATTGATTATGCTAAAGAAAAAAACACTGACAAAATTGAGGGACCTATGGGATTCACCAATCTTGATAAAGCAGGAATGCTTGTAAAAGGTTTTGATCAGCTGGCAACCATGATTGGCATTTACAACCATGAATATTATCCTCAGCACCTTGAAAAATTGGGCTTAACCAAAGAAAAAGAATGGGTAGAGTTTGAAATTATCTTCCCGGAAACCCTGCCTGAAAAAATCCATAAATTCAATCAGCTTATTTCCGAAAAGTACAAACTGAAGGTTTTAAAATTCAAAACCAAAGAAGAGATCATTCAGTATGTAGATCCTATGTTTGATCTTCTGGATGAGACCTACAAACACCTTTCCACCTACACTCCTATTTCGGACGAGCAGCGTAAAACATACAAAGAGAAATACTTCAAACTTATCGACAAAGATTTTATTGTTTGTATAGCTGATGAAAATAATCATCTGATCTCTTTTGCTATCACTATGCCTTCTTATTCCAAAGCATTACAAAAATCCGGAGGGAAACTGCTTCCTTTTGGATGGTGGCATTTTCTGCAGGCGGGAAAGAAAAACGACAGAGCGAATTTCTATTTGATCGGGATTCACCCTGATTACCAGAGAAGAGGAGTTACTTCTATCATTTTCAAAGAAATCTGGGACATCTTCAGAAAAAAAGGAGTGAAATTCCTGGAAACCAATCCGGAACTGGAAGAAAACAAAAGTATTCAGCTGTTGTGGCAGGATTACAATCCGGTAAATCATAAAAGAAGAAGAACCTATTCCATGGAAATAAAATAA	MSTISIIEVKTTGQLKQFVRFPMDLYKNNPYYVPSFINDEINIWNADENPALQYSEAKQYLAYRNDKVVGRIAVLINHKEERELGIKKVRFGWIDFIDDAEVSKALIQKAIDYAKEKNTDKIEGPMGFTNLDKAGMLVKGFDQLATMIGIYNHEYYPQHLEKLGLTKEKEWVEFEIIFPETLPEKIHKFNQLISEKYKLKVLKFKTKEEIIQYVDPMFDLLDETYKHLSTYTPISDEQRKTYKEKYFKLIDKDFIVCIADENNHLISFAITMPSYSKALQKSGGKLLPFGWWHFLQAGKKNDRANFYLIGIHPDYQRRGVTSIIFKEIWDIFRKKGVKFLETNPELEENKSIQLLWQDYNPVNHKRRRTYSMEIK				NA	NA	NA	NA	NA
BMS003_02429	711			hypothetical protein	ATGGCGGGTTATTATATCATTATTGGTATTTCGATGCTGGTGAGCTGGTGGGTTTCGTCCAGATTGAAATCGAAATTTGAATATTATTCCAATGTACACCTTAGAAACGGGCTTTCAGGAAAAGAAGTAGCGGAAAAGATGTTGAGAGATAATGGGATTAACGATGTTCAGGTAATATCGGTTCCCGGGCAGTTGACGGACCACTATAATCCGGCAGATAAAACCGTTAATCTTTCTGAAGGAGTTTATATGCAGAGAAACGCAGCTGCAGCTGCAGTAGCGGCTCATGAATGCGGACATGCAGTACAGCATGCTGTAGGATATTCAATGCTGAATTTACGTTCAAAACTGGTTCCTATTGTTAATATAAGTTCCAATCTGATGCAATTTGTTCTTATTGCTGGTATTGCCGTAATGGCAGCATCAAGAACTATTGAGAATCCTAATGGAAATACAACTGTTCTTGCTATAGGGGTAGCAATGTTTGCGGTGACAACGCTTTTTGCTTTTGTGACCCTTCCTGTGGAATATGATGCAAGTAACAGAGCTATGAAGTGGCTTAAAGATACCGGCACTGTAACGGCAGAAGAATTTGTGGGAGTACAGGACAGCCTGAGATGGGCAGCAAGAACATATGTAGTAGCGGCCTTAGGTTCACTGGCGCAGCTTCTTTATTGGGCATCTTTGCTTCTCGGTGGAAGAAGGGATTAA	MAGYYIIIGISMLVSWWVSSRLKSKFEYYSNVHLRNGLSGKEVAEKMLRDNGINDVQVISVPGQLTDHYNPADKTVNLSEGVYMQRNAAAAAVAAHECGHAVQHAVGYSMLNLRSKLVPIVNISSNLMQFVLIAGIAVMAASRTIENPNGNTTVLAIGVAMFAVTTLFAFVTLPVEYDASNRAMKWLKDTGTVTAEEFVGVQDSLRWAARTYVVAALGSLAQLLYWASLLLGGRRD				NA	NA	NA	NA	NA
BMS003_02430	606	yigZ	COG1739	IMPACT family member YigZ	ATGACGTTTGAATACAAAACCATAGAAAAACCTATAGAAAATACACTTTTAAAGGAAAAAGGAAGCAAGTTTATCGGATTTGCTTTCCCGGTAACCAATGAAAAAGAATTAAAGAACGCACTGGAAAAGATCAGGGAAGAACATCCTAAAGCTACACACCATTGCTATGCTTTCAGAATGGGTCTAAATGGAGAAAATTATCGTGCCAATGATGATGGCGAACCTTCAGGAAGTGCAGGATTACCTATTTACAATCAGCTATTGGCAAATGAAATTACAAATGTTCTGGTCATTGTTGTCCGTTATTATGGCGGAACCAAACTTGGTGTTTCAGGGTTGGTAAAAACCTATAAAGAATCTGCCAAAATTACATTGGAAGAAGCCCATATTATTACCCGAGAACTGGAAACAGAAGTAGAAATCCACTTTAACTTCAACCAGCAGAATACCATCTTTACACTACTTTCAAAATTTGATGCTAAAGTTTTGAATTTCGATGCCAATGAGAACTGCATCCTCACAGCCTCTTTGAAACTGGCGCAAAAAGAAAGCATCTCAGAAAAGCTTTCCGAGATGCAGTATGTTTCATTTGAATTTAATGATTAA	MTFEYKTIEKPIENTLLKEKGSKFIGFAFPVTNEKELKNALEKIREEHPKATHHCYAFRMGLNGENYRANDDGEPSGSAGLPIYNQLLANEITNVLVIVVRYYGGTKLGVSGLVKTYKESAKITLEEAHIITRELETEVEIHFNFNQQNTIFTLLSKFDAKVLNFDANENCILTASLKLAQKESISEKLSEMQYVSFEFND				NA	NA	NA	NA	NA
BMS003_02431	150			hypothetical protein	ATGAAAACCATTAAAGGAGGTATTTTTGTAACCTGTACGCTGCCTAACGGAGAGCCTACAAGATGCAGAGATAAATGTCCTCAGGATTTCTGCGGCTCAACAAGCTATATGTGTCTGATCCCAATGGATCTGTGCGGAGATGGAATTTAA	MKTIKGGIFVTCTLPNGEPTRCRDKCPQDFCGSTSYMCLIPMDLCGDGI				NA	NA	NA	NA	NA
BMS003_02432	1026	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGAACAACGACGAACTTTATATCAAAAGATGCATCGAACTGGCTCAGAAAGCCCTTGGCCAAACCTATCCCAACCCTCTTGTGGGAAGTGTGATTGTGCATAACGGGGAAATCATCGGAGAAGGATATCACCATAAAGCAGGAGAAAACCATGCTGAGATCAATGCCATCAATGCCGTTAAAAACAAACAGCTTATTCCGGAATCTACCATCTACGTATCTCTTGAGCCATGCGCCCATTATGGAAAAACACCACCATGTGCGTTAAAGATTAAAGAATTAGGGTTTAAAAAAGTGGTTATCGGCGCTATGGATTCCCATGATAAGGTGAATGGTAAAGGAAAAAAAATCATTCAGGATGCAGGAATTGAAACCGTTTCAGGAATTCTTGAAAACGAATGCATTGAACTGAACAAAAGATTTTTCACCTATCACGAAAAGAAAAGACCATATATCATTCTAAAATGGGCAGAATCCGGTGACGGTTTTCTGGATAAAGACTTTAAGCCAACCGCCGTTTCCAATACATTGGTCAATCAGTTTATTCATCAGTTAAGAGCGGACGAACATGCTATTTTGGTGGGAACTCAAACTGCATTGAATGACAACCCAAGTCTTACAGTAAGAAATGCCAAAGGCGTAAACCCTGTCAGAATTCTGATTGATTTTGACTTAAAAGTTCCTTCTCATTTCAACATTTATAATACTGAAGCAAAAACCCTGGTTTTAAATTCTGTGAGAGAAAGAGCTGAAGGACATGTTCGATTCATCAAAATCAATAAGAACAACTTTCTTCCGGAGCTTATGGAGGCTTTATACAAAGAACAGATTCAATCTGTCATCATTGAAGGAGGTCGTTTTACATTGCAGAAGTTTATTGATGGCAACCTCTGGGACGAAGCCATTGTCATTAAAAATGAAAATCTAAAGCTCGAAAATGGAACAAAAGCCCCGGAATTTAATCATACAGCCATTGAAAATGAAATTGTAAGGGATAACACTATTTCATTCTTTAAAGGAAAATAA	MNNDELYIKRCIELAQKALGQTYPNPLVGSVIVHNGEIIGEGYHHKAGENHAEINAINAVKNKQLIPESTIYVSLEPCAHYGKTPPCALKIKELGFKKVVIGAMDSHDKVNGKGKKIIQDAGIETVSGILENECIELNKRFFTYHEKKRPYIILKWAESGDGFLDKDFKPTAVSNTLVNQFIHQLRADEHAILVGTQTALNDNPSLTVRNAKGVNPVRILIDFDLKVPSHFNIYNTEAKTLVLNSVRERAEGHVRFIKINKNNFLPELMEALYKEQIQSVIIEGGRFTLQKFIDGNLWDEAIVIKNENLKLENGTKAPEFNHTAIENEIVRDNTISFFKGK	PGPT0008555_4120	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
BMS003_02433	1803			hypothetical protein	ATGACTACAGAAAACAATCTTTCTGAAAACGAAGAAAAGAAAAATCCTAACGAAGTATCTCAGGACATCTCAGAAAACACCGTTTCTCATGATGCAAACCAACATGAAGATGATCCGGAGCACATAGAAGAACATGAAGAGGAAGAAATTTCCCTTGCTGATGCTTTAAAGGAAATGGAAAAAATCATCAATACTCCTAATGCCGGTGAGAATTTCAAAAGGTTCAACCAGCTGAAAGAGAAAGCAAATCATTACATCCATGATGAAGTGGAAGATAAAAAGCATGAATATGTAGAAGGAGGAAACCCTGTTGAGAGTTTCAGCTATGAACATCCTTCCCAGGCTAAATATTCTGCATTGGTCAATATTTTCAGAGAAAAACATGACGATTTCCAGAAAGGACAGGAAGAAGAGCAGAAAAAAAATCTTGAGCATCGCCAGAATATTATCGAAAGACTTAAAAATCTTTACACGAGTTCTGAACCGGGAATCAATCTTTTTAAATCCATCCGTGAAATTAAAGAAGAGTGGTCAAAAGCAGGACAGGTTGCCAAATCTGAATTCAAAATCCTTAATAACAACTACTTCCACCATCTGAATCAGTTTTATCAGATGCTGGATCTTAACAAAGAATTTCTGGAGCAGGAATACAGCCATAATCTTGAAAAAAGAGAACATATCATTGCACGTGCCAAAGAACTGGAAAACGAACCCGTGATCCAGAAAGCACTGAATGAACTTCAATACCTTCATAAGCTTTGGAAAGAAGAAGCTGAACCTGTGGCAGAAGAATTCCGTGAGAAAACATGGGAAGAATTCAAAGAAATTTCAAACAAAATTCACGAAAGAAAATCTGAGCTTTCCGCTTCTATTGAAAAAGAACAGGGTGAAAATCTTGAAAAGAAAAATCAGATCATTGCTGAAATCAAGAAGCTTTCCGAACCTTCAGAAACTCCTAACCACAACTACTGGCAAAATGCCATTAAAAGAGTGGAAGATCTGCGTTCTGAATTCTTAAAAACCGGAAGTGTCCCAAGAAAACTATCCAATCAAAACTGGAATGATTTCAAAACTACCCTGAGAGGCTTCAATACAACGAAAAACAATTATTATAAATCATTGAAAGGATCTCAGCAGGCCAACCTTGAAGAAAAATTAAAGCTGATCCAGACCGCACAGGACAATATGAACAATGAAGAATGGGATATTGCCGTTCCGTTATTCAAAAAACTACAGGAAGACTGGAAAAAAATAGGACATGTTCCAAAAAGCATGACCAATAAAATCTGGGATGAATTCCGTGATGCCTGTAATGCATTCTTCAACAACTACAGAGAGAAAAGCAATACTTCTAACGATAACTGGAAAGAAAATTACAAAAACAAAAAAGCACTTCTTGACGAACTGAAAGAAGTTTCCAATGAAGAAGGCAGCATCGAAAAAATTGAGCAGATCAAAACTTCATGGAATAATATCGGCAAAGTTCCGAGAGATAAAATTTCAATCAACTCTGAATTCAACAGAACATTGAGAGAGAAGCTGAAGATAAACAAAATCAATGAACTTGAGCTCAAGGAAGAAGGACTGTCTGAAAACCAGCTTACAGATAAAGCAAGAAAGATCAAAAACCAGATCTCTGATCTTGAGGCAGAAATCGTAAAACTGGAAAACAACCTCTCTTTCTTCAACAAACCATCCAGAGAAAATCCTCTTTTAAAAGACACTTATAATACAATTGATGAGAAAAAATCTCATCTGGAAACATTGAAGCAAAATCTCCACAGCATTATCAGCGGAGAATAA	MTTENNLSENEEKKNPNEVSQDISENTVSHDANQHEDDPEHIEEHEEEEISLADALKEMEKIINTPNAGENFKRFNQLKEKANHYIHDEVEDKKHEYVEGGNPVESFSYEHPSQAKYSALVNIFREKHDDFQKGQEEEQKKNLEHRQNIIERLKNLYTSSEPGINLFKSIREIKEEWSKAGQVAKSEFKILNNNYFHHLNQFYQMLDLNKEFLEQEYSHNLEKREHIIARAKELENEPVIQKALNELQYLHKLWKEEAEPVAEEFREKTWEEFKEISNKIHERKSELSASIEKEQGENLEKKNQIIAEIKKLSEPSETPNHNYWQNAIKRVEDLRSEFLKTGSVPRKLSNQNWNDFKTTLRGFNTTKNNYYKSLKGSQQANLEEKLKLIQTAQDNMNNEEWDIAVPLFKKLQEDWKKIGHVPKSMTNKIWDEFRDACNAFFNNYREKSNTSNDNWKENYKNKKALLDELKEVSNEEGSIEKIEQIKTSWNNIGKVPRDKISINSEFNRTLREKLKINKINELELKEEGLSENQLTDKARKIKNQISDLEAEIVKLENNLSFFNKPSRENPLLKDTYNTIDEKKSHLETLKQNLHSIISGE				NA	NA	NA	NA	NA
BMS003_02434	648	aroE	COG0169	Shikimate dehydrogenase (NADP(+))	ATGCTGAAGAACTTCTCCTACGATATTTTTGATCTGAAAGAAATCAATGAAGTGGAAAATCTCTTTTCTTCCCCTGAACTTTTAGGGTTCAATGTTACTATTCCTTATAAAGAAAAAATAATTGATTATCTTGATGAATTAAGTGATGAAGCTGAAAAGATAGGAGCCGTCAACTGTGTTCTTATTCAGGATGGTAAAAAAACAGGATATAATACGGATGCTTTCGGGTTTGAAAAGACTTTACTTTTGCACAAAAAACCTACACAGGACAAGGCTTTGATACTGGGAAATGGCGGTGCTGCAAAGGCTGTTAAATATGCCTTGGATAAACATAACATCCCTTCTGTTACTGTCTCCAGAAGCACGGAAATCAATTTTGAAAATCTGAATAAAGAAACCGTTGCTGAGCACAAAATAATCATTCAATGTACACCCGTAGGTACTTTCCCGAATGTTAAAGAATGCCTGAATTTTCCTTTTGACGGGCTTTCTTCTGAACATCTGGTTATTGATCTGATTTACAATCCCAACTATACACAATTTATCATCAATGCCTCTGAAAAAGGAGCAAAAACTGTTAATGGATATTATATGCTTGAACAGCAAGCAGAAAAAGCATGGGAAATTTGGAATTTTCAAAAAAAATAA	MLKNFSYDIFDLKEINEVENLFSSPELLGFNVTIPYKEKIIDYLDELSDEAEKIGAVNCVLIQDGKKTGYNTDAFGFEKTLLLHKKPTQDKALILGNGGAAKAVKYALDKHNIPSVTVSRSTEINFENLNKETVAEHKIIIQCTPVGTFPNVKECLNFPFDGLSSEHLVIDLIYNPNYTQFIINASEKGAKTVNGYYMLEQQAEKAWEIWNFQKK	PGPT0012890_6573	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
BMS003_02435	1794			hypothetical protein	ATGAAACGAATTTTATCTTTTTTGGTTTTAAGCTTTGTATTTATAAATGGTCTGGCTCAGATTCCAGCCGGATATTATAATGCAGCAGCAGGCCTGAATGGTCCGGCCCTTAAAACAGCTCTTAAAAATATTATCAGTAATGGACACGTAGACCATGGCTATGGTGGTTTATGGACAGGTTATGCTACAACTGACCGTGATTACTTCTATGAAAATGACGGAACGATTTTGGATATTTATTCCGAAAATCCAAATGGTCCGGATGTATATGCATACACATTAGGAACAGACCAGTGTGGAACTTACTCTACTGAAGGACAATGTTACAACAGGGAGCACGTGATTCCTCAAAGTTTATTCAACAGTGCATCACCGATGGTCGCTGATATTCACTTTATCCGTCCTACAGATGGAAAAGTAAACGGAATGAGATCCAACTACCCTTATGGAATTGTAGGAACTGCTTCTTTTACTTCCAAAAACGGATCAAAATTAGGAAATTCTATATCTGCGGGATACTCAGGTACTGTATTTGAGCCAATTGATGCTTTCAAAGGAGATATTGCAAGAATGATTCTCTATTTCGTGACCAGATATGAAGATAAACTTTCAACCTTCTCTGCAGGAGGAGGCGGAATGCTTGGTAATACAACATTCCCGGGACTACAGCCTTGGGCACTAAATCAATATTTAGCATGGGATGCAATGGATCCCGTATCTCCGGAAGAAATTGCAAGAAACAACGCTTCTTATGTTTATCAGGGAAACAGAAACCCGTTCATAGACCATCCGGAATACGTTGCTATGATCTGGGGTACTCCGGTTGTTGATACACAGGCTCCTACTGCTGCAACAAACCTTATTGCCAACAATCCTACTTCAAACTCTATTGCAGTAAGCTGGACTGCAGCTACTGACAATGTAGGAGTAACCTCTTACCTGGTTTATGCAAATGGTTCTTTAAAAGCTACCGTTTCAGGAACAACAACTTCTACTGTTGTATCGGGACTATCTCCATCAACTCAATATACATTCTATGTCATTGCTAAAGATGCTGCAGGAAATTCTTCCCCACAAAGTACAACAGCAACAGAAACTACTCTTAGCGGATCTGCAGGAGGCGGAAGCTGTGGTACAGAAGACTTCAGTACAATACAGGATGGATCTTCTCCTGCATCCTCATATGCTACAAGAACATGGACAAACAATAATATAACATGGACTGCAACTCTGGCAAGAACAGATGAAACAATCAATGATAAAGCTGTCTGTACCAAAGGGACACTTACTAGTTCTGTTATTTCCGGAGGTGTTCAGACACTTACATTAACTACACAAAGAAAATACAGCGGAAACAATGGTAACCTGAATGTACTGATAAATAATGTTGTTGTAGGAACTATACCATACAGTACTGCTGTAACCACCACTACAATTAATGTAGGAGTAAGCGGTGATGTGACCATTCAGATTGCAAACCCAAGCAGCGGAGACAGAGTCGCAATGGACGATCTTAGCTGGACATGTGCTACAACATTAGCAACGGCAGAAACTAAAAAAGACAAATCAGAATTGACTATTTACCCTAATCCGGTAAAAAACAATGAACTGTTTGTAAAAGGAGAAAACCTTAGCAAAGTTTCAAAAGCTGACATCTATGATCTTTCCGGAAAATTGATTGAGACAATCGCCAGTCCTTTCAAAAATTCAAATAAGATTAGCCTTAAAGGTCTTACAAAAGGAACTTATATCCTGAAAACAGATAGTTCTTCTGCCAAATTTATTGTAGATTAA	MKRILSFLVLSFVFINGLAQIPAGYYNAAAGLNGPALKTALKNIISNGHVDHGYGGLWTGYATTDRDYFYENDGTILDIYSENPNGPDVYAYTLGTDQCGTYSTEGQCYNREHVIPQSLFNSASPMVADIHFIRPTDGKVNGMRSNYPYGIVGTASFTSKNGSKLGNSISAGYSGTVFEPIDAFKGDIARMILYFVTRYEDKLSTFSAGGGGMLGNTTFPGLQPWALNQYLAWDAMDPVSPEEIARNNASYVYQGNRNPFIDHPEYVAMIWGTPVVDTQAPTAATNLIANNPTSNSIAVSWTAATDNVGVTSYLVYANGSLKATVSGTTTSTVVSGLSPSTQYTFYVIAKDAAGNSSPQSTTATETTLSGSAGGGSCGTEDFSTIQDGSSPASSYATRTWTNNNITWTATLARTDETINDKAVCTKGTLTSSVISGGVQTLTLTTQRKYSGNNGNLNVLINNVVVGTIPYSTAVTTTTINVGVSGDVTIQIANPSSGDRVAMDDLSWTCATTLATAETKKDKSELTIYPNPVKNNELFVKGENLSKVSKADIYDLSGKLIETIASPFKNSNKISLKGLTKGTYILKTDSSSAKFIVD				NA	NA	NA	NA	NA
BMS003_02436	1206			hypothetical protein	TTGAAGAATATTGCATTTTACATAGCATCCAGATACCTTTTAGCTAAAAAAGGCAGTACTGCTGTTACGTTCATAACGTGGCTGGCTGTAGGTGCCATGACGGTTGCTGTGGCTGCAATGTTCGTAATTATTTCGGTCTTTTCGGGACTTGAAGACCTGAACAAAGACCTTATTTCCAATCTTCATGCAGATCTTACTTTAAAAAGCTCTTCCGGAAAAACCATCAAAAATCTGGAACAAGTCAATAAAGTATTACAAAACAATAAAGAAATCAGCAGCTTCTCTCGTGTTATTGAAGAAAAAGTATACATCAGCTTCAATGGAAAAGGTGATATCGCTTATTTAAGAGGGGTTGATTCAGCCTACGTTCAGGTAAACCCTATCAATAAAGAAGTATTCTACGGAACCTACCCGAGTTTCAAATATTCTAACGAAGTATTGATGGAAAACAGCCTGGATAACAGACTTTCTGTCCCTGTAGATTCTTCCAATCATTATGCTACAGTCTTCATGCCGAAACCAGGAACAGGAATCATCAATAAAGAGGAAGATATTTACAATAAAAAAGACATTCTGGTAACAGGCGTTTTCCCGGGAAAAGATCAGCTGGACAGCTATATCATCTCCCCTATTGAGCTTACCGAAGAATTGCTAAACCTGCCAAAAAAATCGGCTTATCAAATCGTAATTAAATTAAAAAATCCTGAGAATGCAGATACTGTGAAGCAAAACCTGATTTCTTCTTTGGGAAAAACTGTAGAGATCAAAACCAAGGAAGAAGAAAATGCTGCTTTCTGGAAAATGATCAATACAGAAAAACTATTCATTTATCTGATTTTTGCTTTAGTGATCTTCATTACCACATTTAATCTTGCCGGAGCAATTATTATCCTTCAGCTTGATAAAAAGGAACAGGCAAAATCTTTGATATCACTGGGCTTTCCTTTAAGCCACTTAAGAATGACCTACTTCTATACCGGAATTCTTATTGTTGTCTCCGGAATAATTACAGGATTGATTCTTGGAACTGCACTTTGTTATTTCCAGCTTTACACAGAATTCTTTAGAGCCAATGAAGTTCTGCCTTTCCCGGTAAAAATCGTAGGAAAAAATTATTTTATTGTAGCACTCACTGCATCCCTGTTTGGATTCAGCATTTCATGGCTCTTTTCCAAAATCAGTAAGGAATATATTACTAAGAGCTAA	MKNIAFYIASRYLLAKKGSTAVTFITWLAVGAMTVAVAAMFVIISVFSGLEDLNKDLISNLHADLTLKSSSGKTIKNLEQVNKVLQNNKEISSFSRVIEEKVYISFNGKGDIAYLRGVDSAYVQVNPINKEVFYGTYPSFKYSNEVLMENSLDNRLSVPVDSSNHYATVFMPKPGTGIINKEEDIYNKKDILVTGVFPGKDQLDSYIISPIELTEELLNLPKKSAYQIVIKLKNPENADTVKQNLISSLGKTVEIKTKEEENAAFWKMINTEKLFIYLIFALVIFITTFNLAGAIIILQLDKKEQAKSLISLGFPLSHLRMTYFYTGILIVVSGIITGLILGTALCYFQLYTEFFRANEVLPFPVKIVGKNYFIVALTASLFGFSISWLFSKISKEYITKS	PGPT0024510_3680	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
BMS003_02437	360	rbfA	COG0858	30S ribosome-binding factor	ATGGAAAGTAACAGACAAAGAAAAGTAGCACAGATCATTCAGGAAGACTTCGCAGAACTTTTCCGCAAACAGGCTGCAGACAGCAAACAGAGCATATTGGTATCTGTTTCAGATGTAAAAGTAACTGCTGACTTAGGGATTGCTAAGATTTATTTAAGCATTTTCCCACAGGAATTCCGTACCGCTGTGATGAAGGAGATTGAAGAAAACAAACCTCAATACAGAAACTTCATTGGCCAGAAAATGGCAAAACAGGTACGTATTATTCCACAACTTAACTTTTACCTGGATACCGCTCTTGATGATGTTGAAAGACTTGAAAAAGAATTAAGAGGCGAAGGTGACAATCCTGTTTTATAG	MESNRQRKVAQIIQEDFAELFRKQAADSKQSILVSVSDVKVTADLGIAKIYLSIFPQEFRTAVMKEIEENKPQYRNFIGQKMAKQVRIIPQLNFYLDTALDDVERLEKELRGEGDNPVL				NA	NA	NA	NA	NA
BMS003_02438	399	epi	COG0346	Ethylmalonyl-CoA/methylmalonyl-CoA epimerase	ATGAAGCTAGAACATATTGGCATTGCGGTAAAATCTTTAGGCGTTTCTGATGAACTTTTTGCCAGATTATTAGGAAAAGAATCCTATAAAAAAGAAACGGTGGAAAGAGAAGGAGTTGTTACTTCTTTCTATGAAACGGGAGAAAGTAAAATTGAGTTGCTGGAGGCTAGTAATCCTGAAAGTCCGATCTCTAAATTTATTGATAAAAAAGGTGAGGGTATCCATCATCTGGCATTTGGGGTTGAAAATATCCTTGAAGAAGTAAAAAGATTAAAAAAAGAGGGATTCCAGTTTATTTCCGAAGAACCGAAAGAAGGTGCTGATAACAAATTAGTTGTATTCCTTCATCCCAAGTCTACAAACGGTGTATTGGTAGAACTTTGCCAAGAAAAGCAATAA	MKLEHIGIAVKSLGVSDELFARLLGKESYKKETVEREGVVTSFYETGESKIELLEASNPESPISKFIDKKGEGIHHLAFGVENILEEVKRLKKEGFQFISEEPKEGADNKLVVFLHPKSTNGVLVELCQEKQ	PGPT0013300_3217	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
BMS003_02440	1149	xerC_4		Tyrosine recombinase XerC	ATGAGAAAGCCACCGATGAAAGCAATTATTAGAACTGACAAAGCTGATAAAACTGGTGCATGTCCTATATGTATTCAGATTTTAATAAATGGTGATAAAAAGCGAATATCAATTGGTGAAAAGATAAATCCTATTAATTGGGATACAAGTCTGGGAAGAGCTAAAGGAAAAGGCTTTGGTGATTTAAATGATATTATTGATAAAAGAAAAAGCACTTTAAATGAATTTTTTAGCCAATGCATATTTGCAGGGAAACCAATATCAAGTAATGATATTGATAATTTTCTAAAAGGCTTTAAGAATAATGACTTTTATGAGGTTTATGATTTAGTGCTTCGGCAAAAAACGAAGTTAAGTGAAGACACTCGTTATAAATATGGAGTTTTGAGGAGGAGGTTGAAAAAATTTCGTCCCAAAATTTCAGTTTCTGATATTGATAATGATTTTATTGTACAATTTGATCTTTTCTTGAAAGATTTGGGAATTGGAGAAGGTGGAATTTATAATCACCATAAATGTCTCAAGAGTATAATTAATTATGCTAAAATAAAAAAAACTATTAGCATAGAAAATCCATATCATTTTAAGTCAGTTATAGTAAAGTCACCTGAACATCGGAGTACTTTTTTAGATACAGACGAGGTAATTAAAATTACAAATTATAAATCTGAAGATGAAAATGATATTAATGCTAGAGATATGTTTTTGTTGTCATGTTATACGGGTTTAAGATATTCTGATCTCTTTACATTGAAACTTTCAGATATTAACTTCAAATCAGGAGTTTTAAGCAAGGTACAAGTTAAGACTAAAGAAAAACTAGAAGTTCCTTTAAGTCAGCAGGCGATAAACTTATTAAAAATTTATTCCATAAATAAAGAGAACGGCGAAAAATTGTTTAAAGAGGTTAGTAATCAGGTTGGCAATAGGATTCTGAAAAAGATTGCGAAAGAATGTGCAATTAATAAGAATGTGAGTTTTCACGTAGCACGCCATACTTTTGCTTCGTACTTATCAAATGGAAATTATGCCTCGGTCATAAATATAAGTAAGCTTTTAGGTCATAAAAATATTGCTAATACTCTCGTTTATACAAACACTAGTATTAATAATTTAAAAAGCGTGATGAATAACGTTCATTTCGGATAA	MRKPPMKAIIRTDKADKTGACPICIQILINGDKKRISIGEKINPINWDTSLGRAKGKGFGDLNDIIDKRKSTLNEFFSQCIFAGKPISSNDIDNFLKGFKNNDFYEVYDLVLRQKTKLSEDTRYKYGVLRRRLKKFRPKISVSDIDNDFIVQFDLFLKDLGIGEGGIYNHHKCLKSIINYAKIKKTISIENPYHFKSVIVKSPEHRSTFLDTDEVIKITNYKSEDENDINARDMFLLSCYTGLRYSDLFTLKLSDINFKSGVLSKVQVKTKEKLEVPLSQQAINLLKIYSINKENGEKLFKEVSNQVGNRILKKIAKECAINKNVSFHVARHTFASYLSNGNYASVINISKLLGHKNIANTLVYTNTSINNLKSVMNNVHFG	PGPT0022000_715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS003_02441	972			hypothetical protein	ATGGGAAACTTTTCTTATCTGATTCAGAAAAAATTTCGAGAGCTGAACTCAGAACAACAACGAATCTTTATCAACGAATTTGAAAGACGGAAAAAATCTTTAGGAATATCTTACCTGCTATGGTTTCTTTTAGGATGGCATTACGGTTACCTTAAAAAATGGGGCTGGCTTATACTATATATTCTTACCGTGGGAGGATTTTTTATTTGGGCAATTATTGATCTCTTCAGAATTCCTAATATGGTTGAACAATATAATAATGATCTTGCTTTAGAAATATTACGGGATATTTCGATCATGTTTCCTGATGAGGTTAGGGATTCAGATGATAAAGATGTTAATAAAAAGGCTGTAAATGACCTTTACATCACTCAAAAAATGAAGTCAGGAGAAAGTTATTCTTTTTATATCATAGTTGGCATAATCATCTTGTTTAGCGTTTCTGCTTTCTTCTTAAAGCCCAATAATACAGAGATGAAAAATAAGATTGTTGATGATATTATGACTTATCAGCCTCAACTTTTCAAAAGTATGAAAGATTTTTTTGCCGGTGAGAAACTCAATGAAAGGCAATCCCAAAGCTTCATAAATTTATTTCTATCAGGAAACGGTTATGAAAATAGTAAGGTATATGATGAAGACCTTGTTTTGTTAAGGAAATTAGTCTATAAAGATGAAAATGACAAACAAAATCTGATAACTGCTTACGGCTTCTTTGGTTTTACAAAGATTATATATGAGGATGAAAATCTAAAAGACAGAAAATTTGGAAGTTATAAAAATGAGCGGAAAACAAAACCTTATGAATATAGTGTGATAGAATCTCCGAATAGATATCAAAAATTTGAAAGACCTGATTCTGAAGAAAACGAAGCGAAATCTGAAATGAGAGAGAAAAATAAAGTATCCCAGAATTCTGAAGCCGAAACTAACCTTCCCAATCAGCAGGGGGATTCAATACAAATCAATTAA	MGNFSYLIQKKFRELNSEQQRIFINEFERRKKSLGISYLLWFLLGWHYGYLKKWGWLILYILTVGGFFIWAIIDLFRIPNMVEQYNNDLALEILRDISIMFPDEVRDSDDKDVNKKAVNDLYITQKMKSGESYSFYIIVGIIILFSVSAFFLKPNNTEMKNKIVDDIMTYQPQLFKSMKDFFAGEKLNERQSQSFINLFLSGNGYENSKVYDEDLVLLRKLVYKDENDKQNLITAYGFFGFTKIIYEDENLKDRKFGSYKNERKTKPYEYSVIESPNRYQKFERPDSEENEAKSEMREKNKVSQNSEAETNLPNQQGDSIQIN				NA	NA	NA	NA	NA
BMS003_02442	609			hypothetical protein	ATGAGAAAATTAATAATATTCATTTTATTCATTAATTATGTTCTGGCTTTTAGTCAGAAAAATATCAATGAGGAACTTGCAGAAGCTAAAAAGTTTGCCAATGAAATAATAGAAAATGATCCCGATAAAATTTTAAGCTACTATAAACTGAATAACGGTACTCTCAAAAAAGCAAACCCTAATAATGAAAATGAGGACGACGATAGTGAGATCATGATGTCATACAGAATTATTAAAAAAAATGATAAGATCATTTACATCAGCAAATCTGATAGCTTTTGGGGTATGGGAGACTGGAATAGTTCGCAGGACTTTTATTTTGATGAAAAAGGAGTTTTGCTCGGGGCTGTAAAAAAGGAGGACTGGTTTTTAGAAAACAAGTGTGCAAGGCAGATCAGATACCGTGGTATTTATAAAAATTATGGAAATCCCAAATTACACAGGATTGATAAGTTTTATAACGAAAACGATAAAGAGATCGATTTAGATTCTCCCAATTGTAAAAAAAGTAAAAAGGAAGCATTAGAAAATGCCGAAAGAACCTATAAAATCACCTTCAGAAATTTAGAAGGGTTTATGAAAGCTGAGAAAATCAAATATTACAAATAA	MRKLIIFILFINYVLAFSQKNINEELAEAKKFANEIIENDPDKILSYYKLNNGTLKKANPNNENEDDDSEIMMSYRIIKKNDKIIYISKSDSFWGMGDWNSSQDFYFDEKGVLLGAVKKEDWFLENKCARQIRYRGIYKNYGNPKLHRIDKFYNENDKEIDLDSPNCKKSKKEALENAERTYKITFRNLEGFMKAEKIKYYK				NA	NA	NA	NA	NA
BMS003_02443	1452			hypothetical protein	ATGAAAATTAAGTTTACTGTTTTGATTTTTATTCTCTTTGGGATAAGAGGAGTTGCACAAGTACCAGACTTTCTTGGTATCCCAAATCCTACTCCTTCTGTAAATAAAAATCCTGGTCTTAAATCTTCAAGTTCTGTAATTGTTAATTCCTCTGTTCTGCCAACGGAAAAGCCTTCTTTTGATGTAAAGTCTTCCCGTCGTGAAAATATTCATTCCCAAACGGAAAAAATGATTACGGAGGATATAAGACAAATGACGAAAGATGAAGAGAGAAGAATACAAAAGGAGAACTACGAAAAAGCGGAAGAAAAAGAAAACGCAATCTATAACTTTCCTTCGCTTTCAGGGAAAGCTGGTGTAAAATCTTATTATGAAGCATTCGATAAGCTTTCTTCTTTAGATAATGATAATTATTCTGTCGGAGAGGCAAACTTTATTGTAGAGAATGCCTATTTTGATAATAAAAAAAGCTTTGCGAAGTTCCTTTCCCAGACCAAAGAAACTGTAAAACTGTTAAAACGGAAAATGAAAGAGCTGAAATTTGATACTCTGAGTAATAGTGCTAAAAACCTGATGCTTTTTAAATTTCTTTCCGAAAATATGAATATTAAAGGGAAAACTCATAAAGCCCTAAAATATGATTTCGAGGATTACATGGGGAAAAAAGACTGGTCTAAAACTTTTGTAGATAAACTCGTAGAAAAAGGAAGCGGGCAATGTCATTCGATGCCTTTGTATTATTTGATTCTTGCCGAAGAATTGGGAGCCGAAGCCTATTTGTCCTATGCGCCAAACCATAGTTATATCCGTTTTATGGATGAAGAAGAGCAATGGATCGATGTAGAACTCACTAACGGAATGTTTACAGGAAGCTCGTTGATTTTGGAATCAGGCTATATAAAGTCCGAAGCCCTGCAAAACAAAATCTATATGAATAACCTTAATAAAAAGGAGCTGTTATCCCAGTTTTATACTGATTTGGCGAATGGCTATATTCATAAATACGGTTATGATAACTTCGTGTTTAAAACAATAAATAAAGCGTTGGAACTTTCTCCCAATAATATATATGCGAATATGATAAGAGCTAATTATGATATTTCCCGATTTGAACTCGCCATGAAAAATCTGGGAATTAACCCCAGGGATAAAGAAGACCTGCAAAACATCAGAAATTATCCTAAAGCAATTTTTCTTTTGAATAATGCGAACGAAAGGCAGGACAAAATAGAAAATCTGGGATATGAATTTATGCCTGAAGAAGCCTATGAGAGTTGGCTAAGCAACATGAAAAAAGAGGATAATAAACAAAAAAGTGAAGAGATTGCTGAGAGAATGAAAATAATTAATGCTCAAAAACAAAAAGAAAGAGTCGAAGCCTTAAAGAAATCTCCTCCTGTTAAGAAAGAAGAAAAACCTAAAACCAATGCAATTCCTAAAGAATGGCTTTAA	MKIKFTVLIFILFGIRGVAQVPDFLGIPNPTPSVNKNPGLKSSSSVIVNSSVLPTEKPSFDVKSSRRENIHSQTEKMITEDIRQMTKDEERRIQKENYEKAEEKENAIYNFPSLSGKAGVKSYYEAFDKLSSLDNDNYSVGEANFIVENAYFDNKKSFAKFLSQTKETVKLLKRKMKELKFDTLSNSAKNLMLFKFLSENMNIKGKTHKALKYDFEDYMGKKDWSKTFVDKLVEKGSGQCHSMPLYYLILAEELGAEAYLSYAPNHSYIRFMDEEEQWIDVELTNGMFTGSSLILESGYIKSEALQNKIYMNNLNKKELLSQFYTDLANGYIHKYGYDNFVFKTINKALELSPNNIYANMIRANYDISRFELAMKNLGINPRDKEDLQNIRNYPKAIFLLNNANERQDKIENLGYEFMPEEAYESWLSNMKKEDNKQKSEEIAERMKIINAQKQKERVEALKKSPPVKKEEKPKTNAIPKEWL				NA	NA	NA	NA	NA
BMS003_02444	1140			hypothetical protein	ATGATGAAAAATAAAAATTATCTACTACAACTAAGTTTTCTGATAAGCTTATTCCTTTGTAATCTTATTTATGCTCAGGAAGTAAAGAATGTTTTCTTGGAAAATACAGATAAAGAAAACCTATTTTACGAAGAAGCCTATCAGAACATTGATAATATGTTGAATGATAAGCAGGAATATAGCTTTAAAAATGCTGTATTTGGTGTAGAAAACGCGTATTATCAAGGAAAGCTAGATATACCTCATTTAGAAAGAGAAATAAGCTTTTTGAAAGCCTTTTCTGGTTCGATACTGAAAAGCCGAGAATTGAACTATTCTGAAAGTGATAAAGATAATGTAAGTAAATACGCTGCGATTTTTTCTATTATGTGCCAATCGCTCCCTGTAATGGTAAAAGATACCGTTGTTCAGTACAAACCTTTTAATTATGATTTTGAGGATGTATTTGGACATAAGGATATTTCTAACCTCTTTGTATCAAAATTACTATTGACGAAAAAAGGAAACTGTAATTCCATGCCGTATTTGTATAAAATCCTAGCCGAAGAATTAGGTGTAGATGTTAACCTTGCGCTAGCTCCAAACCATGTTTATATTAAGCACCGAATAAAAACGGTGGGCTGGTATAATACCGAGCTTACAAGCGGAATTTTCCCTGAAGATGGTTGGTTAATGGCTTCGGGGTATATTCATTTGGACGCTATAAAAAATGGAGTTTTCATGAAAGCTTTGAATAATAAAGAAAGTTTGGCGCTTTGTCTTTTTGATTTAGCTCAGGCTTACAACAAAAGTTTTCCCGAAAATGACGGAAGTTTTGTATTGAAGTGCACTCAACGAGCGGTTGAGGTTTATCCTTACTTTGCTAAAGCTTTGATATTGAAAGCTGAAACCCATAAGAAAATGTTTGAAAAGATCATGAAGGAAGAAAACCTAAGTACCGATAATCCTGAAAATATAAAACTTGCCTTGAGAAATCCTAAAGGAAAAGAATTGTTTGAAATCATGAAAAAAGAATACGGCTATATCTATGAAATAGGATACAGGCAGATGCCTGAAGAAATGTACTTGGATTGGTTGGTATCATTAAAAACAGAAAGAAGTAAATACGAGAATAAAAAATTAAATAACTTTGTAAAATAA	MMKNKNYLLQLSFLISLFLCNLIYAQEVKNVFLENTDKENLFYEEAYQNIDNMLNDKQEYSFKNAVFGVENAYYQGKLDIPHLEREISFLKAFSGSILKSRELNYSESDKDNVSKYAAIFSIMCQSLPVMVKDTVVQYKPFNYDFEDVFGHKDISNLFVSKLLLTKKGNCNSMPYLYKILAEELGVDVNLALAPNHVYIKHRIKTVGWYNTELTSGIFPEDGWLMASGYIHLDAIKNGVFMKALNNKESLALCLFDLAQAYNKSFPENDGSFVLKCTQRAVEVYPYFAKALILKAETHKKMFEKIMKEENLSTDNPENIKLALRNPKGKELFEIMKKEYGYIYEIGYRQMPEEMYLDWLVSLKTERSKYENKKLNNFVK				NA	NA	NA	NA	NA
BMS003_02445	1203			hypothetical protein	ATGAATATGAAAAGAAGTTTACAGATTACTCTGTTATTGTTAGTTACGCTAGGGATAAACGAAGCTTTTGCCCAGAAAAAGAATCTTTCCCGAACAAAAGCTGAAAAACCTTATGTAAATCCCGTGAAGCTTACAAAAGAAGAAAGAGCCAGACCTTACATGGATGAGGTTTTAAAAAGCCATGATCCGCTTACTCCTGAAGAGGCTGAAAGAAGAAGAAAAAACATTGAAGCGGGAAATCCGTTTAAGAAATACGGTTATTATCCGAAAGTAGCAACTTTGAGTAAAGGAAAATATTTAGAATTCCACGATATGGATAGTATTGTAAGTATAGGTTCTATCCGTTACAATAAAAAAACGAAAGATATTGTAGAGTTCAGGGAAATAGATTTGAGTGATCCCGATGCTCAGCCTTATTTAGATACGGCAGGAAGATGGTTTTCTCCTGACCCTTTGAGTGAGGAGTTTAGTAATTGGTCGCCTTATAATTTTGTATTTAATAATCCCATAAGCAATGTTGACCCTGATGGTAGAGCACCACTTACAGATTTTAAGTTGCTAAAAGATGGAACTGTTACTAGAGTTGATCCTAATGACGGTAGCGAAAAGAGAAGTGATGATAGATTATTTGCAACCGATAAAAAAGGAAATGTAGATAACAAAGTAAGTCCTGTAGTTGTAGATAAGGCGAAACCAACAGACGGTACTGTTATTAGTAGTTTAGCAACTAATTACGGTTTGAATGATACGGGATTTCCTAAAGGAATTAATTTCGGAAGAACTACAGATGCTTCGGATGCTGCGAATGTATTTACATTTGCTGCAAAAAATTCTGACGTAGAATGGGGACTGGATGCTTATAAAGTAGGAAAAGGAATATCATATACAATATATACTGGGCATAATGATGGTTTTACACCTCCCGATTTTCAAAATCAATCAATGTCTAAACTATTATTTGAAATACACTCACATAAAAATGTAAATGGCCCTTCACCAGTTAATGGTATGACTGACGGTGATTATGGTGTAGCAAGAGAAGGAGATAGAGTTTATTATAACAGAACCAAAAGTACTAATTATCCAGGGCATTATCTTTTTTATGCTCCTAATGGAGGTAAAAATACTCTGTGGAAATACTATTGGCATAATAACTCTAAAGTAAATGTAGGTTCTACAATTAATTTAAAATCGTTAAAATGA	MNMKRSLQITLLLLVTLGINEAFAQKKNLSRTKAEKPYVNPVKLTKEERARPYMDEVLKSHDPLTPEEAERRRKNIEAGNPFKKYGYYPKVATLSKGKYLEFHDMDSIVSIGSIRYNKKTKDIVEFREIDLSDPDAQPYLDTAGRWFSPDPLSEEFSNWSPYNFVFNNPISNVDPDGRAPLTDFKLLKDGTVTRVDPNDGSEKRSDDRLFATDKKGNVDNKVSPVVVDKAKPTDGTVISSLATNYGLNDTGFPKGINFGRTTDASDAANVFTFAAKNSDVEWGLDAYKVGKGISYTIYTGHNDGFTPPDFQNQSMSKLLFEIHSHKNVNGPSPVNGMTDGDYGVAREGDRVYYNRTKSTNYPGHYLFYAPNGGKNTLWKYYWHNNSKVNVGSTINLKSLK				NA	NA	NA	NA	NA
BMS003_02446	507			hypothetical protein	ATGAAAAAAATAATAATTCTCTATTCTTTGCTTTTATGCCTATTCAGTTGTAAAAAGGAAAATGAATATTTTGCATCAGATCAAATTTATAATACCGTTATTGAAAGTGTAGATAAAATACATGATGGTATTTCTAAAACAGATAGTGTGTTTTATGTTTTTAATAGATATGATACATTAATTGTTATGTCTTCTGAAAGCGAAAATATACTTCGCCCAACATATAATGTGAAAAAAGTAGGTTATTTTAAATATAAAAAAAATAAAATCATTGTTGTTGAACCCTATAAATCAAAATTTGAATTAATCGTTAAAGAAAATAAACTAGGTTTTGTAGATAATAATCTAAAGCCACCATATTATCATGGGAACGATTATCAAAAAGGTTTTGTTTATAAAATAAAAGATCTACAAAATTTAGAATTGGTTGATAAAGGAAATTTAATGAAATATTTCCAGCCAAATGCGGAGTATGAATATCTTCCACCTCCACCTCCTACAAAATGA	MKKIIILYSLLLCLFSCKKENEYFASDQIYNTVIESVDKIHDGISKTDSVFYVFNRYDTLIVMSSESENILRPTYNVKKVGYFKYKKNKIIVVEPYKSKFELIVKENKLGFVDNNLKPPYYHGNDYQKGFVYKIKDLQNLELVDKGNLMKYFQPNAEYEYLPPPPPTK				NA	NA	NA	NA	NA
BMS003_02447	270			hypothetical protein	ATGAAATCAATAAAAGAAAGACGGTTCCTGTTTTTACTGAACCGCACTAACAAACTTAAAAAAAGAATAGCAGTACTAGAATCTTTAGCATTAGAAAACATAAAATCCAAAGAGATTTTGACTGTAGAAGAGACATTGGAGTTATTCAACATAAGCCGATCAACATTTGATCGATTACGAAAAAAAGGTTTTAGAGTTTCTCAGCCCAATAGGAACGGGAAGATTTATGTTAATAGAGCAGAACTGGAAAAATTTTTACAAAAAAAGTAG	MKSIKERRFLFLLNRTNKLKKRIAVLESLALENIKSKEILTVEETLELFNISRSTFDRLRKKGFRVSQPNRNGKIYVNRAELEKFLQKK				NA	NA	NA	NA	NA
BMS003_02448	1125			hypothetical protein	ATGGTAGATTTAATTAAATTTTATCTTGAAAATGTATTGCTAAGCGATTATATCTTAGCAACAAAATTTATAAAAATAAGAGAGGAAGATGGATTTGAAATTTTTAAAGCTGACCCCGATATGATTTCTTTTTTGTCCCAAAAGGTAAAAGCTGAAAACTGTAGTTCACCAAAATCTGAAATTATAGTTCAACAAGAACATATTATCAAAAAGCTGTCATACCAGAATAAGTTTATCAGTTTTAAAAGAAAATTGAACGCAAAAAAAGGAAGATTGTCGGTTTGCCAAAACATAAGAAAAGACTTTATTCGTATCAAAAATTCAAATCCTTTTACTGACCTAAATTATCTGAATTTTGTTGAAATAATCGAAATGTATGCACACGAGTTCGGGATTGAAAAAGAAAAATTCTGGAAGGCAAAAATTACTCAGGTGGAATTGGGGGTAAATATCAGGTTTAATATGAATATAGCTTCTATTATGAGCAGTGTTTCAAGAATGAAAGGTATGGAAAATACGCTACGAATAGGAAATACTGTTAATTTCAAAAATCAAAAATATGAAGTCTCTGTATATGATAAATTAGAAAGAGAATCTCAACAAAATGAAGTTTTCAAAAACGCAAGCAAGGTGAGAAGAAAGCATTTGGTGAAAAAAATCTCAAAGAATAATAGCTTTGTTAGGATTGAGCTGAGAGTGAAGCGGGTTAGTCAATTTAATCGAGCTTCCATAAAAAATAAAATACAGACTCTGGAATCTATCAGGGAAAATTTTTATTCGCTGGGTAACGAATTATACAAACTTTTTGTTAATATCTCGTTTGTAAATGAAATTTCGCCAGATATTAGTCAGGGTCTTGTGAGGTCTCAGTTAAGAAGCAAGAGCGAAAAAGCTTTTGATGAATATCTGAAATTTCTAGGATTGAAATATTTTGGAGTTAAAAAGTTTATAGAGTTCGCATCTCCGATCTTGAATACAAATAATAGAAATAGATATCTTGCAAGTTTGGAAGATCTTTACAATCAATATAAAGGAGATGATGATTTTGTGAAAAAAGAATTTCATCGGAAATTATCAGCAAAGATCAATAAATTGACCGTGCCTGCTATTTCAAGTAGTAACTAA	MVDLIKFYLENVLLSDYILATKFIKIREEDGFEIFKADPDMISFLSQKVKAENCSSPKSEIIVQQEHIIKKLSYQNKFISFKRKLNAKKGRLSVCQNIRKDFIRIKNSNPFTDLNYLNFVEIIEMYAHEFGIEKEKFWKAKITQVELGVNIRFNMNIASIMSSVSRMKGMENTLRIGNTVNFKNQKYEVSVYDKLERESQQNEVFKNASKVRRKHLVKKISKNNSFVRIELRVKRVSQFNRASIKNKIQTLESIRENFYSLGNELYKLFVNISFVNEISPDISQGLVRSQLRSKSEKAFDEYLKFLGLKYFGVKKFIEFASPILNTNNRNRYLASLEDLYNQYKGDDDFVKKEFHRKLSAKINKLTVPAISSSN				NA	NA	NA	NA	NA
BMS003_02449	1509			hypothetical protein	ATGGATAATGCACTTTATAATATTCCAGATTCTTGGAAATGGGTAACTTTAGATGATATAGGTATTGTTGTTAGTGGAGGTACACCATCTACAAAAGAACCAGAGTATTGGAATGGGGATGTTCCTTGGATTACTCCTGCAGATTTGTCGGAAAGAGTAGATGTTTATATTTCTGAAGGAGAAAGAAATATAACTCAGTTGGGGCTTGATAATTCATCAGCATATCTCTTACCTGAAAATTCTGTTGTTTTTTCATCTCGTGCACCAATTGGTTACGTTGCGATTGCAAAAAATGCATTAGCAACAAATCAAGGTTTCAAAAATTTGATTTTATTAGGTAATTTAGTGAATGCAAAGTATCTTTATTACTATTTAAAAACAGTTAAAGAAGTTGCTGAAAGGATGGCAAGTGGGACAACATTTTTAGAACTTTCTGCAACTAAATTCAAGCAAATTCCTTTTCCTTTAGCTCCAACTAATATTCAAGATAAAATTGTTGAAAAAATCGAAGAATTGTTCAGCGAGCTCCAGTATGCAAAAAAGAATTTAGAAGATGCTTTAATTAAATTAGATCTCCAATTTCAAAAAACATTAAAGGAATATTTTTCTAAATATGATGGAATTAATTATAGGCTTTCTGAAATTGCAGAATGGGGATCTGGGGGCACTCCATCTAGAAAAAATAGCTCATATTTTAATGGTACTATACCATGGGTTAAGACTCAAGAACTTAAGAATAAATATATTAATGAAACTCAAGAATATTTAACCAATGAGGGGCTAAATAATTCGAGTGCTAAAGTTTATCCAAAAGGCTCTATTGTAATTGCTATGTATGGAGCAACAGTAGGTAGATTATCAATATTAAATATAGATGCTTGTACAAATCAAGCCTGTGCCGTTGGAGTAATTAAAAATTCGCAATTATTGAATGTTGAATATCTTTATTATTTTTTATTGGTTAATAAACAAAATTTAATTTCTCTAGCAAAAGGTGGTGCACAACAAAATATATCATTATCTGTTATAAAAGATTATGTTATAAACCTTCCTTTGATAGATGATCAAAATACTTTAGTAAATGATATCAACTTATTAAATACAGAAATTCTAAATCAGAAGCTCTATTTAGAGAAAGAGTTAAAAAGAACGAAATCTCTGTTTGAAAAAATTCTTCAAGAAGCTTTTAAAGGAGAATTAGTAGAAGTGAGTGAGGCTGAATCAATTAATGTTTTATTAGAAAGTTTGTCAAAAGAAAAATTTAAATATTTGAATGAACACAGTGAAAAAACTAAAAATAAAATAGTAGCTTCAAAAAAAAAGAAAGATTTACTCGAGGTTTTAAAAGTGGATTTTAAAAATGTAAATTTTTCTTTTAGTGATTTAATTAATACTAATTTTATGTCAATTGATGATCTAGAATTAGAATTTAAGGATCTTATCTCGAAAGGAAAAATTATAAAACAATACGATGAAGATTCACAAAGTATAAAATTTAAATTGACATGA	MDNALYNIPDSWKWVTLDDIGIVVSGGTPSTKEPEYWNGDVPWITPADLSERVDVYISEGERNITQLGLDNSSAYLLPENSVVFSSRAPIGYVAIAKNALATNQGFKNLILLGNLVNAKYLYYYLKTVKEVAERMASGTTFLELSATKFKQIPFPLAPTNIQDKIVEKIEELFSELQYAKKNLEDALIKLDLQFQKTLKEYFSKYDGINYRLSEIAEWGSGGTPSRKNSSYFNGTIPWVKTQELKNKYINETQEYLTNEGLNNSSAKVYPKGSIVIAMYGATVGRLSILNIDACTNQACAVGVIKNSQLLNVEYLYYFLLVNKQNLISLAKGGAQQNISLSVIKDYVINLPLIDDQNTLVNDINLLNTEILNQKLYLEKELKRTKSLFEKILQEAFKGELVEVSEAESINVLLESLSKEKFKYLNEHSEKTKNKIVASKKKKDLLEVLKVDFKNVNFSFSDLINTNFMSIDDLELEFKDLISKGKIIKQYDEDSQSIKFKLT				NA	NA	NA	NA	NA
BMS003_02450	1551			hypothetical protein	ATGAAATTAAGAAGATTAACTGTATATGATATTGATTATAAACCCTTGATGAGGAATGTTGATTTGTTTTTTGATAGGCAAGAAAGTGAATCAATCAATACAAACTGCTTTATAGGTATAAATGGAGCGGGTAAATCTCAAGTTTTAGAAATTATCGCGGAAATATTTTTATTTCTTGAAAATATTTATAGAAAAGAGAATCCTGTTAAAAATCTATTTTCACCATTTGCATTTAAAATTGAATATGAAATATTAAAAGATAAAGAATATTTAGTAACATTTGAATGTGATAAAATCAAATCAAAGTCTAAAGATATCATTGTAGAAGTTTTTAGCAAAAACGGAAATGATATTGTTAATGTTGATTTAACTAATATAGATTTATATGATTTTTTGCCAACAAAAATCATCGGGTATAGCTCTGGTGATAATGAAACGTTAAGTATACCATTTGATTCGTACTACGATGAATATGCACAATACACATATGAACGTGCTTTTGGTAAAATAAAAGGTAATGATTATGAGCCTAAATTGTATTTTATGAATTATAATACAAATTTAGGTATTACCATTAGTAGTTTAATATTTAGAGATGAAATTCCAGAGATTGATGTGATTCTTAGTACTTTAAATATAAAAGATTTAATCAGTTTTACAATTACAATTCAGACAAAGCAACCAGGAGCACCCAACAAGAGTAATGGAGGAGTAATTCTTACTGAAGAATTGGAAAATTGGAAGCAAAAATTAATTAATATTGCTGATATTAATATATATGAGGAGAAATACAATAAGCATACATTAAAGTTTACTCTAGATGAAGCTACCAGAAGAGCATTTAAAGATAATTTTTCTAATGCTTTAGAGCTTTACACTTGTCTGTATAAGTTTGAGTTACTTAATAATTTAATTGTAGATAAAGCCACTAGGCTTAAAATTAAAAATGAAAGAAAAGCACGAAGACTCGTAACTAAAATGCCTATTGTTTCAGATATTAATAAAGTATTGTATTATTCAGAATTAAAATTTAAATTACTTAATGATGAAAACATTGAGTATTTATCATTAAGTGATGGTGAACATCAATTTCTGAATGTTTTTGGGACAATTCTTATAATAAATCAAAATAACTGTTTATTTCTTTTCGATGAGCCCGAAACGCATTTTAATCCCATGTGGCGCCGTACTTTTATTAATGTATTAGAGAAAATTACTATTGGACGGTTTCAGGATGCCTATATTACAACTCATTCACCTTTTATTGTATCTGATAGTAAAAGAGAGAATGTTTTCATTTTTAAAAAGAATGAAGAAAAATTATTAATTGAAAATCCAACTAATGAAACTTATGGAGCTGCATTTGATAATATACTTGATATGGCATTTGATATACATGTGCCAATTTCAGAAAATTCTTTGAATTCTTTAAATGAACTTCAGAAAGAGAATGATCCAGAAAAAATTAATGAGGAACTTTCTAATTTTGGAGATTCATTAGAAAAAACATCTTTACGTAATCGTATCATTTTTTTGAATTCAAAAAAATAG	MKLRRLTVYDIDYKPLMRNVDLFFDRQESESINTNCFIGINGAGKSQVLEIIAEIFLFLENIYRKENPVKNLFSPFAFKIEYEILKDKEYLVTFECDKIKSKSKDIIVEVFSKNGNDIVNVDLTNIDLYDFLPTKIIGYSSGDNETLSIPFDSYYDEYAQYTYERAFGKIKGNDYEPKLYFMNYNTNLGITISSLIFRDEIPEIDVILSTLNIKDLISFTITIQTKQPGAPNKSNGGVILTEELENWKQKLINIADINIYEEKYNKHTLKFTLDEATRRAFKDNFSNALELYTCLYKFELLNNLIVDKATRLKIKNERKARRLVTKMPIVSDINKVLYYSELKFKLLNDENIEYLSLSDGEHQFLNVFGTILIINQNNCLFLFDEPETHFNPMWRRTFINVLEKITIGRFQDAYITTHSPFIVSDSKRENVFIFKKNEEKLLIENPTNETYGAAFDNILDMAFDIHVPISENSLNSLNELQKENDPEKINEELSNFGDSLEKTSLRNRIIFLNSKK				NA	NA	NA	NA	NA
BMS003_02451	1086			hypothetical protein	ATGTTGTATAAATATCAATTTGTTAAGCATCGTAAATTAAGAGAATTAAATTTTCATTTCCTGATTTTTATAAGAAAAGCAATTTATGCTGGGAAATCGGCAAAGTTTGAACCAAGTAATTTTTTTCATTCGACTTTTTTAACTAATGGTAAAATAGCTCCAAAAGGTAGAGAAAATAAAGAATTACATAATAAGTTTAAAGCATTTTTTGATGTTTTCAAAAAATTGGAAAAATCTCAAAAAAGAGATTTTTATGAACTAATAATTTTTTCTCAGGATATACATTTATATTTTGAAGATGTTTCTATAGTAGACATTGCTAAAATGCAGAGTGATAATATCAGGAGTTTACTTAATAACACAAATGTTTTTAATGATCTTATGGATGCAATGTGGAATTATTTAAAATCGCCTAATGCATGGGAGATTGACAAACATTATGATATTTTTTATGGTAATCTTCCTGACTCCAAAATGTGTCCTTTCTGCGGCTTGAATAAAATTTCGGATAAGCATCTCTATAGATCTGATTATGATCATATAGCTTATAAAGCTGATTTTCCAATGTCAGCAATAAACTTAAAAAATATAACACCTTCTTGCTCTGAATGCAATACAAAGTTTAAAACCACAAAAAATGTTTTTTATGCCTTTGATAAGAGTTCAAGAAGCCAATATTATTATCCATACACTTTTAAAACTTCTTTTAGTGATTTAAATATAAGACTAGATTTAGTTGGAAGTTTATTTCCTAATACAGATGAAAGTAAACTTGAAGGTCAATGGAAAATTACTATATTACCAAATGATGAGTTTACTAAAACATGGAATAAGATTTATAATATAGAATATAGATATTCAAAATTAGTGAACGTTAATTACTTACAATGGAATGATGAACTTGTTTTCGGATGCGAAAAATTTCTAACCATAGATAGTTTAAAGGAGCGTATAAGGAACTTTAAAAAAGGTTTTGCTCCAAATAAGCTTAGAATTGAATATCATATAAAATACGCATACTACGACTATTTAGAGAAATCAATGAATGATATCTTATTTAATCAAATTAACTCAATGATTGCATGA	MLYKYQFVKHRKLRELNFHFLIFIRKAIYAGKSAKFEPSNFFHSTFLTNGKIAPKGRENKELHNKFKAFFDVFKKLEKSQKRDFYELIIFSQDIHLYFEDVSIVDIAKMQSDNIRSLLNNTNVFNDLMDAMWNYLKSPNAWEIDKHYDIFYGNLPDSKMCPFCGLNKISDKHLYRSDYDHIAYKADFPMSAINLKNITPSCSECNTKFKTTKNVFYAFDKSSRSQYYYPYTFKTSFSDLNIRLDLVGSLFPNTDESKLEGQWKITILPNDEFTKTWNKIYNIEYRYSKLVNVNYLQWNDELVFGCEKFLTIDSLKERIRNFKKGFAPNKLRIEYHIKYAYYDYLEKSMNDILFNQINSMIA				NA	NA	NA	NA	NA
BMS003_02452	1479		COG0286	putative type I restriction enzymeP M protein	ATGATAACAAACAATTTAGTGGCTAAAATATGGTCATTTTGTGATACCTTAAGAGATGATGGGGTCAGTTATGGAGATTACTTAGAACAGATTACATATTTGCTGTTTTTAAAAATGGCAGATGAATATTCAAAGCCCCCACATAATAGGGACTTTAATATTCCTTCAGATTGTAATTGGAATTTTTTTTTAGATCATCCGTTGGAAGGATTGACTTTAAATTATATCAACGCTCTTAATATTCTATCTAGATCAGGAGGAATGTTAGGAAATATTTTTAATGGAGCTCAAAATAAAATTCATGACCCTTACAAGCTAAAAAAACTTATAGAACTTCTAAATGAAGATGACTGGGTTTCTGAATCCGTAGATATCAAAGGAGATATTTATGAAAGTTTACTACAAAAAAGTGCAGAAAGCAGTGGTGCTGGTCAATATTTTACTCCTAGACCAGTTATTAAAGCAATTGTTGAATGTATTAAACCTAATATACTAGAAACAATTGCAGACCCGACATGTGGTACTGGGGGGTTTTTCCTTGGGGCAATAGAATACTTGAGGAATAATCATGAAAAAGAATTACTAAAGATTGAAAATAGGGAGTTTTTACAGTTTAAAACTTTTCACGGATGGGATATAGTTCCTTCAACTGCAAGATTATGTTTAATGAACTTATTTTTACATGGAATCGGTGATATGAAGGAGACTCCTGAAATAAGAGTGGAGGACAGTTTATTAGAAGCTCCGAAGAAAAAGGTCAATATTGTACTTGCGAATCCTCCTTTTGGAAAAAGTAGTACTTATATTATAACGAATGACCAAAAGTTAGGCGAGCAAGATTCATATATATGGAGAAATGATTTTTGGACTACTACCAGCAATAAGCAACTTGCATTTGTTCAGCATATTATAAGTATGTTAGAAGAAAATGGTCGAGCAGCAATAGTGATTCCCGACAATGTTTTGTTTGAAGGAGGTGCTGGAGAAATTATTAGAAAAAAGCTTTTAGAAGAAACTAATTTACATACAATCTTGAGATTGCCTACAGGAATATTTTATGCAAATGGTGTAAAAGTTAATGTTTTATTTTTGGAAAAGAAAAGTGTAAACCAAATTCCCAATACCAAAGAAATTTGGTTTTATGATTATAGAACTAATATACACCATACCCTAAAAAAGCATCCTCTACAATTTGAACATTTGAAGAATTTTGTAGATTGCTACAAATCTAAAGATAAAAGCCAAACTTCTGAGACTTGGAGTGAGCAAAATACTAATGGTCGATTTCGTAAATATATGTATGAAGAACTGATTTCTAGAGATAAAGTTAATTTAGATATAGCTTGGTTAAAGGATGATAATTTTATTGACTTAGATAGTTTGCCAGAACCTGAGATTTTAGCACAAGAAATCATAGATAATTTAGAGAGTGCCTTAAATAGTTTTAGAGAAGTTGTGAAAAGTCTTTCTAAAACATAA	MITNNLVAKIWSFCDTLRDDGVSYGDYLEQITYLLFLKMADEYSKPPHNRDFNIPSDCNWNFFLDHPLEGLTLNYINALNILSRSGGMLGNIFNGAQNKIHDPYKLKKLIELLNEDDWVSESVDIKGDIYESLLQKSAESSGAGQYFTPRPVIKAIVECIKPNILETIADPTCGTGGFFLGAIEYLRNNHEKELLKIENREFLQFKTFHGWDIVPSTARLCLMNLFLHGIGDMKETPEIRVEDSLLEAPKKKVNIVLANPPFGKSSTYIITNDQKLGEQDSYIWRNDFWTTTSNKQLAFVQHIISMLEENGRAAIVIPDNVLFEGGAGEIIRKKLLEETNLHTILRLPTGIFYANGVKVNVLFLEKKSVNQIPNTKEIWFYDYRTNIHHTLKKHPLQFEHLKNFVDCYKSKDKSQTSETWSEQNTNGRFRKYMYEELISRDKVNLDIAWLKDDNFIDLDSLPEPEILAQEIIDNLESALNSFREVVKSLSKT	PGPT0027180_5420	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
BMS003_02453	1407			hypothetical protein	ATGAAAAATATATATTTTAAAGCGGCAATATTTACAGCCATTTCAATGGTGACGTTCTCGTCTTGTGTAAAAACTGATGATTATGATGTGCCGGAAATCAAATGTACCAACAAATTTGCAGCAGCAAATCACCAGTTATCAGAACTTGCTGCTATTGCAAAAGCAAAACCAACTGAAGCAGATATCGTTAATGAAGATTTCATTGTTGAAGCTTACGTTTCTTCAAGCGATGAATCCGGAAATATATATAAAATGATGTTCCTTCAGGATAAGCCTGAAAACCCGACACAAGGTATCGAAATTGATATCGACGGAGGAAACCAATACCTTGATTTCCCAACAGGAGCTTTGGTGAGAATCAACCTGAAAGGATTAATCGTTCAGGGTGTTAACGGAAACATTAAAGTAGGTTCTTATGATCCTAACTATCCTATCGGTAGAATCAACCCTAATAAAGTTTCAAACTATGTTGCAAGAGTTTGTGACGGACAAAAGCCAGTTGTAGCTGAAATGAAGCCTCTGGAGTTCAACTCTATCTCTGATGCTCTTAAAAATGGGGCTCACATCAACCAACTTGTAAAAATTAAAAACGTTCAGTTTGAAGAGCCTGAACTGACAAAAACTTTTGCTGATGAATCAGCTACGGGTGACCGTTATATTACGGATAAAAAAGCAGGAAGATTAGACCTTCGTTTTAGCAACTATGCAACGTTTGCGAAATCTCCGATTTCTCCAAAATATGCAAAAAGTGGTGATATCGTTCTTCTTTTAAGCCGTTACACAGGTTCAAGCAATACTACAACATACACGGAGCAGGCTTATATCAGAACTCTTGATGATATTAATTTCCCGAATGACAGATTCAACCCAGGTGAGCCGGAAGCTCCTTCTGCTTCTGCTGTAAACCTTTTCGCAGGATCTGATTTTGAAGACTGGGCCACTTTCTTATCAAGTGTGAACAATTTCGGTATTAAACCTTATGCTACACAAGGTGTTGGGCTAGGATATAACGATACAAATTCACTTCAGATTCAAGGTACACCTGCCAATAATGACTATGTATTTACATCAGGTGCTGCTACCGGGATCCCAGCTGTGCCAAAAAGAATCACGATGTATATCAAAGGTACAGCTACAGGAAAATCTCTTTCTTTCAACGTATATAAAGCAGGGGGAGGGTTCTATGTATTTAACTTAGGAACATTCTCTACAGGAGCTACATTAGGAGTTGAGAGTGCTAACTCTTATACTGGATCTATCAATACAAACGGACAATGGAGATTGGTGGAGCTTACCCTTACCGGTATTGCTGATATTAACACTACAGCAGGAAAAGATATGTTCGCTATCAAAACAGGAAAAGACGGAGTATATGATATTCAGATTGATAATATCAAAATTGAATAA	MKNIYFKAAIFTAISMVTFSSCVKTDDYDVPEIKCTNKFAAANHQLSELAAIAKAKPTEADIVNEDFIVEAYVSSSDESGNIYKMMFLQDKPENPTQGIEIDIDGGNQYLDFPTGALVRINLKGLIVQGVNGNIKVGSYDPNYPIGRINPNKVSNYVARVCDGQKPVVAEMKPLEFNSISDALKNGAHINQLVKIKNVQFEEPELTKTFADESATGDRYITDKKAGRLDLRFSNYATFAKSPISPKYAKSGDIVLLLSRYTGSSNTTTYTEQAYIRTLDDINFPNDRFNPGEPEAPSASAVNLFAGSDFEDWATFLSSVNNFGIKPYATQGVGLGYNDTNSLQIQGTPANNDYVFTSGAATGIPAVPKRITMYIKGTATGKSLSFNVYKAGGGFYVFNLGTFSTGATLGVESANSYTGSINTNGQWRLVELTLTGIADINTTAGKDMFAIKTGKDGVYDIQIDNIKIE				NA	NA	NA	NA	NA
BMS003_02454	2877			hypothetical protein	ATGATTAAAAAACTATCATTGATCTCTTTATTTACTTTGCTGCCTGCGTCATATTATTATGCGCAGACAACAGTGTTTGCGTATCTTAAGGATGCGGATGGCAAGCCTGTAGAGCAAGCAAGTGTAGATTTAAAAGGAGCAGGAAATGATGCAAAGGCAGACAAAATCGGTTATTTCCAATTTACTGACTTGATGCCCGGACATTATCAGATTATGGTTACCAAACCAAATTTCGAAACTAAAATTTTTGAATTTGACGTAACTAGTGATGAGAAAAGAAAAGATCTTGGAGTAATTACTCTTTATTCTGCCCTGAATGGTGCAGATCAGGGTTTGGCTATTGTAGAGGATTCCGGAGAAAGTGACAGTGGTGGCTCTCAGCAGACTGCTACTGTAGGATTACTACAGTCTTCCCAGGATGTTTTCAGCAGAATTGCAAGTTTCGATCTAGGGCCATACTGGTTCCGCCCAAGAGGCATTGATAGCAGAACAGGTGAGAATATGATCAATGGGGTTTCTATGGCAGGCGCAGATAACGGAGACGTAGACTTCAGTACCTGGGGAGGATTGAACGAAATTACCCGTTACCCGGAAATTTCAGCTAACCATTCGCCTTCAGAATATGCTTTCGGAGGAACTACCGGAGTATTTTATAAGAATACTAAAGCCAGCGAATACCGAAAAGGAAGTCAGCTGACGTACTCTCTTACTAACAGAAACTATACGAACAGATTATCTTACAGATTCTCTTCCGGAATGAATAAGAACGGATGGGCATTTACAGGAATGATTGCGAGAAGATGGGCACAGGAAGGGATTCAGGATGGTACGGCTTATGATGCATACAGTGGGTATATTGGTATTGAGAAGAAATTCAGCGATAGCCATACCATGACTTTAAATGCTATTGGTTCTAAATATGCAAGAAGTTCTTCAAGTCCAAGTACTCAGGAAGTATACGACTTCAGAGGAGTTCATTATAACTCTTACTGGGGATGGCAAAACGGAGATAAAAGAAATGAAAGGGTAAAAAGAGGTTTTCAGCCGATGATCCAATTGCAGGATTTCTGGAAAATCAATAAAAACTCTCAATTATGGACATCTGTTTCTTACCAGTTTGGTAAAGAATATAGTTCAAGATTAGATTGGTACAGAGCTAATAACCCGTCTCCAACTTATTACCGTAATCTCCCAAGCTATTGGTTAAACTATGAAGATCCGTCTCCGGAGCAGGCTGCCAACATTGGAATTACCAGAGACTGGTGGACAAATAATGACCAGTCTCATACACAGATCAACTGGGATAATCTTTACAATGCGAACAGAAACGTAGAGTACAATGCGTTACTTGGCGGAAGAAGAGCTGCTTATTATCTTGTAGATGACGTAAAAGATGATAAAGTATGGAATGTTTCTACTCACTATACGTATAACTTCACCGATACTTCCCGTTTTATCTTAAACTTATCTTACCAGAACTACAGATCTGAACAGTACAGAGAAGTGAATGACTTATTAGGTGCTGATTTTGCCCTTAACATGGATCCATTTGCATCTAATACAACAGCAGGAAATGCTTGGGGGAAATTCAATACAAGAGAAAGCGATACGGATGTTGCCAAAAGAGAAGGTGACAAAATAGGATACAGCTATATTTTCAGAAGACAGGAAGTTAAAATAAACCCTGCGTTCAAATTCTCAACAGGAAAATTTGACGTTTTTATCTCCGGTTTATTCGGTTATACTACAAACAGCAGAGAAGGATTGTTCCAACATTATCTGTATGAGTCTTCTTACGGAAAAGGTGCAGACCAGAACTTCTGGAATGCAGGTGTTAAGGGTCAGCTTACTTATAAAATCAATGGTAGAAACTTCCTTGTTTATAACGGAGCTTATTTCTCACAGTCTCCTTTCTTAAATGATATTTACTTTAATACAAGAGTAAGTGGAGTTACTACTCCTGGGATCAAGAACGTTGTTGTTGATGCAAACGACCTGAGCTACGTAGTCTCTACTCCGATTGTTAAGCTTAGATTGACCGGTTACCTTGTTAATACTCAGAACGAGACAAGCGTGCAAAGGTATTTCGCCCAGGGAGTTAAACTGACAACCCTTACTGAAAACGGAGATCAGACTCCTGTTCAGGATGGTGCTTTCATTACGCAGGTATTGGCCGGAGCTAATAAGAGAAATATGGGTATTGAGCTTGGTGCACAGGTAAAAGTTACTCCTACTTTAACTGCCAGTGGTTTATTAAGTGTAGGACAGTATACTTATACAAATAATCCTACCGTGTATTTTGCATCCGATGCTGTTGGAACATTCAGAGAGCTTGACGGAAACGGAAATATCGTATCAAGATCTTATACCAACATGGGTGAAGCAACCCTTAAAAACTATAGACAGGGTGGAACTCCTCAGGAGGCCTATACTTTAGGTCTTCGTTACAGCAGCCCTAAATATTGGTGGTTAGGAGCAACATGGAACTATTTCGGACATTCGTTCTTAGATCCTTCTCCGGTAACTAGAACAGACAGATTCTATACCAATCCTAATACGCCGGGAGTACCTTATGATAATGTAACAGAGGAAGAGCTGGCAAGAGTTCTTACGCCTACAAAACTACCTTCAGCATTCTTCTTCAATGTGAATGCAGGTAAGTCGTGGATGATTGGGAAATATTATGTGTTGGTGTCTGCATCTGTCAATAATATCCTTAACAACAGAAACTATATTACCGGAGGATTTGAGCAGACAAGAAATGTTAACTATACTGATTACGCTAATGATTATGACAGCGGAAACATGGTGTTCGCACCTAAATATTGGTATAACCAGGGGAGATCTTATTTTGTTAACCTTCAATTCAGATTCTAA	MIKKLSLISLFTLLPASYYYAQTTVFAYLKDADGKPVEQASVDLKGAGNDAKADKIGYFQFTDLMPGHYQIMVTKPNFETKIFEFDVTSDEKRKDLGVITLYSALNGADQGLAIVEDSGESDSGGSQQTATVGLLQSSQDVFSRIASFDLGPYWFRPRGIDSRTGENMINGVSMAGADNGDVDFSTWGGLNEITRYPEISANHSPSEYAFGGTTGVFYKNTKASEYRKGSQLTYSLTNRNYTNRLSYRFSSGMNKNGWAFTGMIARRWAQEGIQDGTAYDAYSGYIGIEKKFSDSHTMTLNAIGSKYARSSSSPSTQEVYDFRGVHYNSYWGWQNGDKRNERVKRGFQPMIQLQDFWKINKNSQLWTSVSYQFGKEYSSRLDWYRANNPSPTYYRNLPSYWLNYEDPSPEQAANIGITRDWWTNNDQSHTQINWDNLYNANRNVEYNALLGGRRAAYYLVDDVKDDKVWNVSTHYTYNFTDTSRFILNLSYQNYRSEQYREVNDLLGADFALNMDPFASNTTAGNAWGKFNTRESDTDVAKREGDKIGYSYIFRRQEVKINPAFKFSTGKFDVFISGLFGYTTNSREGLFQHYLYESSYGKGADQNFWNAGVKGQLTYKINGRNFLVYNGAYFSQSPFLNDIYFNTRVSGVTTPGIKNVVVDANDLSYVVSTPIVKLRLTGYLVNTQNETSVQRYFAQGVKLTTLTENGDQTPVQDGAFITQVLAGANKRNMGIELGAQVKVTPTLTASGLLSVGQYTYTNNPTVYFASDAVGTFRELDGNGNIVSRSYTNMGEATLKNYRQGGTPQEAYTLGLRYSSPKYWWLGATWNYFGHSFLDPSPVTRTDRFYTNPNTPGVPYDNVTEEELARVLTPTKLPSAFFFNVNAGKSWMIGKYYVLVSASVNNILNNRNYITGGFEQTRNVNYTDYANDYDSGNMVFAPKYWYNQGRSYFVNLQFRF				NA	NA	NA	NA	NA
BMS003_02455	1191			hypothetical protein	ATGAAGAGATTTTCGAGTCTGTTTGCCATCATTATTTCGATCATGGCATTCTCACAACAACAGGGAAAACTGAGAAAAGTAGCTACCGTAGGTTTTTTAAACGTAGAAAATCTTTGGGACACTATCCGCTCAGCAGATTATATTGACGGAACCAAAGACATTAAGAATCCTGCATTCCACAGAAGTATTCCTATTGATTCCATTAAGTTTTTGGAGGTTGAGAAATATGATGGCCCATGGAGTGATGGTGCTTTAAAAGGGAAAAAAGCAGTAAGGGAACAAAGCGGTTCTGAAGAATTTACCCCTAAAAGTGCAAAGAACTACGGAACTAAAATTTATAAAGCAAAACTGGCGAACGAAGCCAAGGTCATTTCCGAAATAGGTGCACAATATACCAAAACGGCTCCTGCGGTAGTAGGCTTAATTGAGGTTGAAAACAGACAGGTGATCCAGGATCTTATAAACGAACCTGCTTTAAAGAAATATGATTACGGAATCATCCATTACAATTCTTATGACTACAGAGGAATTGATGTTGCATTGATCTATCAGAAAAGGAGATTTACTCCAACCAATTCATTAAAAAAAGAATTGAAGATCTACGGTGACAACGGAAGAAGAGAATATACCAGAGATATCCTTGTAGTAACAGGTTTTTTAGATAATGAAAAAGTAGCATTTTTCATGAATCACTGGCCGTCAAGAAGAGGTGGTGAAGCAATTTCTTTACCTAAAAGAAACGCTGCAGCTGCTTTACTAAAACAACAAATGGACAGTGTAAGAGCTGCAGACCCTACAACAAAGCTTTTTGCAATGGGTGACTTTAATGATGATCCTGTAAGTCCAAGTTTAAAAAACCATTTGAAAGCTCAGGCAAGCCCTAAAGATTTAAGTGAAGAAACGCCTTATCTTAATCTGATGTATCCTTTATATAAGAAAGGAGTTGCCTCTCTTGCCTATCAGGATGCACCCAACCTGTTCGACCAGATTATCGTTTCTAAAAATGTAATTTCTGATCAGGTAACGAAAGAATATTCTGTATACAAAGCAGAAATTTTTGCTCCGGCGTATTTAGTCAATAAAGAAGGAAATTATAAAGGGTACCCTTTCAGATCCTGGAACGGAGACCAGTTTACAGGAGGCTACAGTGATCACTTCCCGGCATTTGTAGTTCTGCAGAAAGAACCATAA	MKRFSSLFAIIISIMAFSQQQGKLRKVATVGFLNVENLWDTIRSADYIDGTKDIKNPAFHRSIPIDSIKFLEVEKYDGPWSDGALKGKKAVREQSGSEEFTPKSAKNYGTKIYKAKLANEAKVISEIGAQYTKTAPAVVGLIEVENRQVIQDLINEPALKKYDYGIIHYNSYDYRGIDVALIYQKRRFTPTNSLKKELKIYGDNGRREYTRDILVVTGFLDNEKVAFFMNHWPSRRGGEAISLPKRNAAAALLKQQMDSVRAADPTTKLFAMGDFNDDPVSPSLKNHLKAQASPKDLSEETPYLNLMYPLYKKGVASLAYQDAPNLFDQIIVSKNVISDQVTKEYSVYKAEIFAPAYLVNKEGNYKGYPFRSWNGDQFTGGYSDHFPAFVVLQKEP				NA	NA	NA	NA	NA
BMS003_02456	420			hypothetical protein	ATGAAAAATATTGTTTTATTAGTAATGATTGCTTTGGTTCCTTTCGGCTGTTTTTCTCAGGAAAAGATAAACAAAGATAAGCAGCAGCATGAGATGAAACCTTCCAAAAATGAAGACGGAGAATGGGATCTAACGGTTATTGACACACAATTCGATTATTTTCTGAGCGCTGTTGCCAAACCCATCAGCCAGTATACGGAATCTTATCTGAAAACAAAAAACACATTTCTGGTGAATGAATGGAACAGTTATTATAATTCCGGCAGATACAGAAACGTCATAGAATCCGGAATAGATTATGATCCAAAGGAAAATTACGGGATCAGGTTTGAATATAAATTATACCAGGTTTTCGTGTATGTCAACTGGAAGTATAAGCTAAGAATGAACGGATTATCCGGAAGTGATGCTATAAGATAA	MKNIVLLVMIALVPFGCFSQEKINKDKQQHEMKPSKNEDGEWDLTVIDTQFDYFLSAVAKPISQYTESYLKTKNTFLVNEWNSYYNSGRYRNVIESGIDYDPKENYGIRFEYKLYQVFVYVNWKYKLRMNGLSGSDAIR				NA	NA	NA	NA	NA
BMS003_02457	597	sodA	COG0605	Superoxide dismutase [Mn]	ATGTCATTTGAATTACCAAAACTAGGATATGCATACGATGCATTAGAGCCAACTATCGATGCAAGAACTATGGAAATCCACCACACAAAACATCACCAGGCATATATTGACAATTTAAATAAAGCAATTGAAGGTACTGAACTAGCAGGAAAAACAATCGAAGAAATCTGCCAAACAGGAACTGACAAGCCAGCTGTAAGAAATAATGGAGGAGGACACTTCAACCACTCTTTATTCTGGGAAATTTTAACACCTGGAGGAAGCAAAGAGCCCGTAGGAAATGTAAAAGCTGCAATCGAAAACTATGGAGGTCTTGATAAATTCAAAACCGATTTTTCTGAGGCTGCTAAAACAAGATTCGGTTCAGGATGGGCTTGGCTGGTAAAAAATGCTGACGGTTCTGTATCTGTTTCTTCTACACCAAACCAGGACAACCCATTAATGCCTGTAGCAGACGTTAAAGGAACTCCTGTTCTAGGATTAGACGTTTGGGAGCACGCTTATTATTTAAACTATCAAAACAGAAGACCTGACTATGTTTCTGCATTCTTTGATGTAGTGAACTGGGATAAAGTAGAAGAATTATTCAATAAATAA	MSFELPKLGYAYDALEPTIDARTMEIHHTKHHQAYIDNLNKAIEGTELAGKTIEEICQTGTDKPAVRNNGGGHFNHSLFWEILTPGGSKEPVGNVKAAIENYGGLDKFKTDFSEAAKTRFGSGWAWLVKNADGSVSVSSTPNQDNPLMPVADVKGTPVLGLDVWEHAYYLNYQNRRPDYVSAFFDVVNWDKVEELFNK	PGPT0004190_2636	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
BMS003_02458	1821	rho		Transcription termination factor Rho	ATGTTTAACATAGAAACGTTAAGGTCAAAATCCGTAACGGAACTGACTAAAATCTTAAAAGATTTGGGCGTTAAAGTTGCAAGAACCAGCAATGAAAATGACAAGATCTTTGCTATTCTTGACTTTCAGGCTTCTAACCCTAAAGTTGCAAAAGATTATTTCAACGCCACAGAAACCGCCAGTGTAACTACTGAAGAGGCTCCAGCAGAGAAACCTGCTAAAGCCCCCGCAAAAAAAGCTGCCCCAAGAAAAACGGCAGCCAAGCCAAAAGCAAGTGCAAAAGCTCCGGCAGAACCAAAAGCAGAGGAAACAACAGAAGAAAAGGTTCCTGCGCCTGAGGAAATAAAACCAGAAGAACCAAAAGTTGAAACAGCTGTCGCAACAGCAACAGAAGAATCAGCACAAACAGCTCAGGCTAAAAAGAAAAGAAAAAGAGTTTCTACCAATACCGGTAACGCAGAAGTATCTCAGGAAAAAACAGAAGCTCCCAAAAACACAGAATCCCAAGAGCCGGTTCAGGCTGAAGAAAAGCCTAACAATCCCCCTCAGCAACAGGCTAACAGACCTCAAAAAGGACACAACCATCCACAGAACGGTGGAAACCAACATAAAAACCAAAATCAGCAACACCAAAACCAAAATCAGAATCAAAACAGACATTCTGAAAAGGCAGAGGAGCAGAACGACCATAAAAAAGAATTCAATTTCGATGGCTTGGTAAGTATTGAAGGTGTTTTGGAAATTTTACCGGATAACTATGGATTTTTACGTTCTTCGGACTTCAGCTATATCTCCTCTCCTGATGATGTATATGTTTCTACAGCTCAGATCAGAAATTTTGGTTTAAAAACAGGAGATACGGTAAAAGGAATTGTAAGACTTCCGAAAGAAGGTGAAAAATACTTTTCATTATTAAGACCTACAGAAGTTAACGGACGTGATCTTGCCTTTATAAAAGACCGTGTTGCTTTTGAATATCTTACTCCGCTTTTCCCTGAAGAAAAATTCAATCTGGCAGGAAGCGGTTCTACAGTATCCACAAGAATTGTAGATTTATTTGCCCCTATCGGGAAAGGTCAGAGAGCAATGATTGTTGCACAGCCTAAAACAGGTAAGACAATGTTGCTTAAAGATATTGCTAATTCTATTGCAGCCAACCACCCGGAAGTATACATGATGGTTCTTTTGATTGATGAACGTCCGGAGGAGGTTACTGATATGGAAAGAAGCGTAAATGCAGAAGTAATTGCCTCTACATTTGATGAAGCTGCTGAAAAACATGTGAAAGTAGCCAACCTTGTTTTGGCAAAAGCACAAAGAATGGTAGAATGCGGGCATGATGTAGTAATCTTATTAGACTCTATTACAAGATTAGCAAGAGCATACAACACGGTAACGCCAGCTTCAGGAAAAGTGCTTTCCGGTGGGGTAGATGCTAATGCTCTTCACAAACCGAAAAGATTCTTCGGAGCAGCAAGAAAAATTGAAGGAGGAGGCTCTCTTACCATTATTGCAACTGCATTGATTGATACAGGATCTAAGATGGATGAAGTAATCTTTGAAGAATTCAAAGGTACAGGTAACATGGAACTTCAGCTGGACAGAAAAATTGCCAACAGAAGAATTTATCCTGCTATTGACCTTGTAGCATCAAGTACCCGTAGAGATGATCTTCTTCTGGATGAAGTGACTTCACAGAGAATGTGGATTCTTAGAAAGTATCTTTCTGAGATGAATCCTGTAGAAGCAATGGAATTTGTAGACAAAAACATTAAAGGAACTCTTAATAATGAAGAATTCCTGATGTCAATGAATAAATAA	MFNIETLRSKSVTELTKILKDLGVKVARTSNENDKIFAILDFQASNPKVAKDYFNATETASVTTEEAPAEKPAKAPAKKAAPRKTAAKPKASAKAPAEPKAEETTEEKVPAPEEIKPEEPKVETAVATATEESAQTAQAKKKRKRVSTNTGNAEVSQEKTEAPKNTESQEPVQAEEKPNNPPQQQANRPQKGHNHPQNGGNQHKNQNQQHQNQNQNQNRHSEKAEEQNDHKKEFNFDGLVSIEGVLEILPDNYGFLRSSDFSYISSPDDVYVSTAQIRNFGLKTGDTVKGIVRLPKEGEKYFSLLRPTEVNGRDLAFIKDRVAFEYLTPLFPEEKFNLAGSGSTVSTRIVDLFAPIGKGQRAMIVAQPKTGKTMLLKDIANSIAANHPEVYMMVLLIDERPEEVTDMERSVNAEVIASTFDEAAEKHVKVANLVLAKAQRMVECGHDVVILLDSITRLARAYNTVTPASGKVLSGGVDANALHKPKRFFGAARKIEGGGSLTIIATALIDTGSKMDEVIFEEFKGTGNMELQLDRKIANRRIYPAIDLVASSTRRDDLLLDEVTSQRMWILRKYLSEMNPVEAMEFVDKNIKGTLNNEEFLMSMNK				NA	NA	NA	NA	NA
BMS003_02459	390			hypothetical protein	ATGCTACAGAGAATACAAACAATATGGACTTTATTAGCAGTTTTAGCTGCTGCTTTCCTTTTTATAACAGGACAGGATGTTGTCATTTCAGACAGTATTCCCTTAGTTAATATAAGCTGTATAGTGCTTATTATCATTGGGGCATTAAGTATTTTCAGTTTCAAAAACAGAAAAAGACAAATTTTGCTGAATACCATCAGCATCATTATAAACGCTTTGTTGATTGGTGTATTGGCGTACTGGTTACTAAACTTATCCGGAGGAATTCAGTTTCCTGAGAAGGGTATTGAGCCGGTTTTCCCATTGATTGCGGTGATTTGTCTGCTTATAGCAAACATGTACATCCGTAAAGATGAGAGGCTCGTAAAATCTGTAGACAGACTTCGATAG	MLQRIQTIWTLLAVLAAAFLFITGQDVVISDSIPLVNISCIVLIIIGALSIFSFKNRKRQILLNTISIIINALLIGVLAYWLLNLSGGIQFPEKGIEPVFPLIAVICLLIANMYIRKDERLVKSVDRLR				NA	NA	NA	NA	NA
BMS003_02460	921			hypothetical protein	ATGAAAAAGCTAACTTATTTTACTTTATCACTTTTCTCCATATTTACCTTTGCACAGGAAGTTTCCAAAGAAAGAGTAAAGACAGTGCTTTCCACTCTGGCATCAGATGAAATGAAAGGCAGGGAAATCGGAACTCAGGAAAATGAAAATGCAGCCCGCTATATTGCTCAGCTTTTTAAAGAAAATAATCTGGAATACTGTACCGGAACATCTTATCTTGTTCCTTTTGATTATAATGGAAAGACAGCTTATAATGTATGTGGCATCAAAAAAGGAAAAACAGACCAGTATCTTGGATTCTCAGGACATTTTGATCATATCGGAACCAGTGATAAAACAGGAGACAATATTTATAACGGAGCAGACGATGATGCCAGCGGAATTACTACTCTGGTAGGTATTGCTGATTATTTTAAAAATAAAAAACCTGAATTCTCCATGGTATTTATGGCATTCAATGGGGAAGAGAAAGGAATGCTGGGTTCAAGAGCCATCTCAACAGATAAAAATCTGGATCACATCTATAATAAAATGACTGCTCTTTTCAATTTTGAAATGGTGGCTACAGAGTCTCAATGGGGAAAAAATGCTTTATATATGACGGGTGACGGATTCTCAGATCTTGATGAGCTTTTTAATAAAAATGCAGTGAACGGATTAAAAATAAATGCAGATCCTTATGCAAGGCAGCAGCTGTTCTACCGTTCGGACAATGTAAGCTTCGTAAAAAAGAAAATCATTGCCCATTCATTCTCTACTGTAGACATGACAAAAGCATCTCACTATCACCACGAAAATGATGATGTTAACATTGTAGATTTCGATAATATGACCCAGATCATCAATAACTTTGGAAAAACACTGGATAAGCTGAATCCTAAAAATTTTGCCCCAAAGTATAATGACCAGGTGAAATTTTAA	MKKLTYFTLSLFSIFTFAQEVSKERVKTVLSTLASDEMKGREIGTQENENAARYIAQLFKENNLEYCTGTSYLVPFDYNGKTAYNVCGIKKGKTDQYLGFSGHFDHIGTSDKTGDNIYNGADDDASGITTLVGIADYFKNKKPEFSMVFMAFNGEEKGMLGSRAISTDKNLDHIYNKMTALFNFEMVATESQWGKNALYMTGDGFSDLDELFNKNAVNGLKINADPYARQQLFYRSDNVSFVKKKIIAHSFSTVDMTKASHYHHENDDVNIVDFDNMTQIINNFGKTLDKLNPKNFAPKYNDQVKF				NA	NA	NA	NA	NA
BMS003_02461	1839	msbA	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGAACCAATATATTAAAATACTAAAGTTCGCAAGACCCCACCAAAAATATATCTACGGAAGTTTGTTTTTCAACCTTTTATATTCTGTATTTCAGATTGCTTCCTTAGGGACTATTCTACCGGTTTTGGGAATGCTTTTCGGAACCATTGAGGCCAAAAAATACAGTCACCCTCCTGTTTATTCTGGGGAAATTTTAGATTTTTTCTCTTATGCAAAAGAATATGCCAACTATTATGTTCAGACCTTAGTAACTGAACATGGAGCACTTAACGTTTTGGCGTGGCTTTGTGTGATAACGGCTTTCATGTTTTTATTGAGAAACCTTTTCAGATATTTAGGTTCGTTTTTACTGATCAATTATCGCGTAGGGGTTACTAAAGACCTTCGTGGAGCAATGTACAGAAAGATTCTTGCTTTACCTGTTTCATTTTTTACAGAAAGCAGAAAGGGAGATCTGATGTCCCGTATGTCCAATGACGTGGGTGAAGTTGAAGGTAATATTTTGGGAAGCTTAGTTGACTTGATCAATGCACCTTTTATGCTGATCAGCACATTAGTAACTCTTTTCTTTTTAAGTACAGAGATGACGCTTTTCTCGCTTTTAGTATTGCCGGTAATGGGAACGATGATTGCTTTAATTGGAAAAAGCCTGAAAAAAGATTCTCACAAAGCTCAAAATGAGATGGGAAACATTTTCTCGATTGTAGATGAAACATTAAAGTCTACAAAGGTGATTAAGATTTTCAGTGCCGAAAAAATAATGGACAACCGTTTTATGCAATCTATGCAGAAATGGATTAACAGCTCAATAAGCTTAGGAAGGAAAAAGGAATTAGCCTCTCCTATGAGCGAATTTTTAGGTTCAGTTACTTTCTTAATTATTGCCTGGTACGGTGGAAAACAAATCATTGTAGAGCAAAGTATCTCACCTGCAGATTTCCTTGTGTTCCTGGGGATTTTCTTCCAGATTTTACCGCCTGTAAAAAGTTTGTCACAGTCTATTTCGAATGTACAGAAGGGAGAAGCTTCTCTTGAAAGAGTTTTAGCCATTCTGGATGCTGATGTGAAAATTGACGAAGTACCCAATCCTGTTCCTATTTCCACATTAAACAGTTCCATCGAATTTAATAATATTGGTTTTTACTACGATAAAGACCACACCATTCTTAAGAACTTTTCACTTTCTATTCCTAAAGGGAAAACAGTTGCTCTTGTAGGGCAAAGTGGGAGTGGTAAAACAACTATTGCCAACCTTTTAGCAAGATTCTACGATGTTTCGGAAGGGGAAATCCTGATTGACGGTACAGACATCAAGCATTTAAAACTACAGGAATACCGTAAGCTATTGGGAATGGTAACACAGGAGTCTGTATTATTCAATGATTCTGTTTACAATAATATTCTGATGGGTAAACCTGATGCTACCAGAGAAGAAGTAATTGCAGCAGCTAAAATTGCCAATGCAGATGCATTTATTACAAAACTTCCTGAAGGGTATGATTCCAATATCGGAGATGATGGCGGGAAGCTTTCCGGAGGTCAGAAACAAAGAGTTTCCATTGCCAGAGCAGTATTGAAAAACCCTCCGATCATGATCCTGGATGAAGCAACCTCTGCACTGGATACGGAATCTGAAAGATTTGTACAGGAAGCACTGGAAAAGATGATGGAAAACAGAACTTCCTTAGTCATTGCCCACCGTCTTTCTACTATTCAGAAAGCAGACTGGATTGTGGTAATGGAAAAAGGTGATATTGTAGAACAGGGAACACATCACGACCTGATTGCAAAAAAAGGAATCTATCACAAGCTTGTTGATCTTCAAAACTTCGACTAA	MNQYIKILKFARPHQKYIYGSLFFNLLYSVFQIASLGTILPVLGMLFGTIEAKKYSHPPVYSGEILDFFSYAKEYANYYVQTLVTEHGALNVLAWLCVITAFMFLLRNLFRYLGSFLLINYRVGVTKDLRGAMYRKILALPVSFFTESRKGDLMSRMSNDVGEVEGNILGSLVDLINAPFMLISTLVTLFFLSTEMTLFSLLVLPVMGTMIALIGKSLKKDSHKAQNEMGNIFSIVDETLKSTKVIKIFSAEKIMDNRFMQSMQKWINSSISLGRKKELASPMSEFLGSVTFLIIAWYGGKQIIVEQSISPADFLVFLGIFFQILPPVKSLSQSISNVQKGEASLERVLAILDADVKIDEVPNPVPISTLNSSIEFNNIGFYYDKDHTILKNFSLSIPKGKTVALVGQSGSGKTTIANLLARFYDVSEGEILIDGTDIKHLKLQEYRKLLGMVTQESVLFNDSVYNNILMGKPDATREEVIAAAKIANADAFITKLPEGYDSNIGDDGGKLSGGQKQRVSIARAVLKNPPIMILDEATSALDTESERFVQEALEKMMENRTSLVIAHRLSTIQKADWIVVMEKGDIVEQGTHHDLIAKKGIYHKLVDLQNFD				NA	NA	NA	NA	NA
BMS003_02462	348			hypothetical protein	ATGAATCCTATACAAGAGTATTTCTACAGAGTTGAAGAGCCTGAAAGAAGTACTCTCCTGTTTTTACGTGATATTATCTTGGCTTCGGATCCTGAAAATATTACAGAAACATTCAGCTTTGGGCTTCCGTTTATCAAGTACAAAAAGAAAATGCTGTGCTATTTCTATTACAGCAAAAAATATCAAAAACATTATCTGAGTTTTTATCATGGTGACAGGCTAGATTATTCTGAGCTGATCCAGGATGGCAGAAAGAAGTTTAAAATCCTTCTTATCGATATGGAAAAAGATATTCCTGTAGAGTTTATTTTAAGCCTGACACAGGAGGTAAAAAAATACATAAAATAA	MNPIQEYFYRVEEPERSTLLFLRDIILASDPENITETFSFGLPFIKYKKKMLCYFYYSKKYQKHYLSFYHGDRLDYSELIQDGRKKFKILLIDMEKDIPVEFILSLTQEVKKYIK				NA	NA	NA	NA	NA
BMS003_02463	1800			hypothetical protein	ATGGAAACAAAATTTACAATTCCTCCAATCAAAGTCTTGTTTATAGTAATGCTTCTTGTTTTTGGAAAATCATTTTCTCAAACTAATAATGGTGCAGTAGGGATTAATACTACAACACCCAACTCCAACTCCGTTTTGGATATTGTTTCAGGAAATAACAACAAAGGAATACTTATTCCCAGATTAACTGAGGCGGAACGAAATGCCATCACCATTAATCAGTCTGAAGATGATGGTTTAACCATTTATAATACAACAGAAGACTGTATCAATTACTGGAGCCTGATGGATAATGAATGGAAAAGCGTCTGCGGACAAATGGGAAAATCTGTTTTTACCATTGACTGTTCCGCTTCCAAAGCAATGGGGAGCTATGTGAAAGGTAAAGAACTTACGAATTCAAATTATCTGAGCATTACTGTTAACGTAACCAAACCGGGTAATTATACGATTACGGGAACAACAACTAATGGATATAATTTTTACGGAACAGGAGTATTCCTTAATACAGGTGTGCAGACAGTGCAGGTTCCGGGACAGGGTATACCTGCTCTGGTACAGGTAGATACTGTACAGCTTTCTGCCAACGGAGCAGATGTTACATGTACACCTGCTGTTACAGTGAATGTATTAAGCCCAGCCGGAACTTATACGATGAGCTGTGGAAGTGCTACCGTAAATGGAGTGTATAAAGTTGGAACGGCACTTACAGCTTCCAATACAATTACTTTGCCGGTAAATGTATCAGCATTGGGAAGTTATACCATTATCACCAATACAGTTGACGGAATTTCTTTCAGCGGATCAGGAACATTTACCGCAACAGGAAATCAGAATGTTACACTAAGCGGAACAGGCACTCCGACTTCTACATCTGTAAAAACAATTACAATTACTTCTGACAGCCAGGGAGGGGTATCTACAACTTGTTCTGTAAATGTAGTGGTTGTCATTCCTAAAAAAACGGTCCTCCATATCGGATTAGAAACAGCTTATGGTTATAGTGCATTTACTGGTCCCTCAAGAAGTCTGATGGATTCTCCCACAAATTTTGGTACTGCTGCCTCCAGTATTGTTAAATATGAAGGTTTTACTCATATTTCTTTAGGAAACTCTCCTTCATCAGCTGCTCTTCAGACGGCTCTTAATAATAAGCCGGATATTGTTATTATTGGTTACAGCTATACACCTAATGCTACAGATGCTGGTTATATAGCTTCTTATCTTAATAAAAAAGGAGTTGTAATTGCTATGACAGATGATACAGGCACAGCGCAGAACTTATTCAGAGGAATATTCTCTGATCCTACAATTTCAGCATCTTACGGTGGCGGTGCAGGTTCTGTTTATGCTCTTACCAATTCTGATGATCCTATCCTTAACGGGCCTTTTGGAGATGTAAGAGGGAAAAATTGGGGTGAGGATGCTTCTACAACAGTAAATATTTCAGGATTAACAAGCGGATTTCTTCCTTACAGTTATGCACAGCCTATCAACAGTACAACTGCCAGAACAGGAATCTCAGGACTAAGAAATGCCAGCTTAAATTTTATATGGTTTGGCGACGGTGGTTTTTTAAGTAATGAAAATGCCAATGGAAATCAGTATCCGAGCAATGTCATTGAACCCTTTGTAGCGCCAAGCTCAGGAGGATACTTCCCGGTTCAGAAGTCTTCATACGGCTACGCAGGAAACGGATATACAACAGGAGGAATGCAGGTTCAGAATTCAATCCTTTTTGCTAATATGATTGCATGGGCAATTCAACAGGCAGAATTCAACGGAATAAACACACAATGA	METKFTIPPIKVLFIVMLLVFGKSFSQTNNGAVGINTTTPNSNSVLDIVSGNNNKGILIPRLTEAERNAITINQSEDDGLTIYNTTEDCINYWSLMDNEWKSVCGQMGKSVFTIDCSASKAMGSYVKGKELTNSNYLSITVNVTKPGNYTITGTTTNGYNFYGTGVFLNTGVQTVQVPGQGIPALVQVDTVQLSANGADVTCTPAVTVNVLSPAGTYTMSCGSATVNGVYKVGTALTASNTITLPVNVSALGSYTIITNTVDGISFSGSGTFTATGNQNVTLSGTGTPTSTSVKTITITSDSQGGVSTTCSVNVVVVIPKKTVLHIGLETAYGYSAFTGPSRSLMDSPTNFGTAASSIVKYEGFTHISLGNSPSSAALQTALNNKPDIVIIGYSYTPNATDAGYIASYLNKKGVVIAMTDDTGTAQNLFRGIFSDPTISASYGGGAGSVYALTNSDDPILNGPFGDVRGKNWGEDASTTVNISGLTSGFLPYSYAQPINSTTARTGISGLRNASLNFIWFGDGGFLSNENANGNQYPSNVIEPFVAPSSGGYFPVQKSSYGYAGNGYTTGGMQVQNSILFANMIAWAIQQAEFNGINTQ				NA	NA	NA	NA	NA
BMS003_02464	321			hypothetical protein	ATGATTCCTGATTACAAGCAGATTTATACTGATATACTTGAAGAAAAATTCCCTGAAAAACTCATGGATGCTGCGGTCAGGCTTAAGCTTGAAGCATTGCATTCAGCTTTTGATGTTCTGAAGTTTAATCAAATGGTTTTTGGTGAGCCGGAATATGCCGTTGAGTTTAATAACCAAAGGCTTCGTTCATATGACGAAAAATCTATATTGAAAATTCTGAAATATCAGAAACAGAACGCACTTAATAATCTTCAGGTAGGTAAGCAGTTTAAAATAAGCCGGAATACCATTGCTAAATGGAAAGCTGTATATAAATTATAA	MIPDYKQIYTDILEEKFPEKLMDAAVRLKLEALHSAFDVLKFNQMVFGEPEYAVEFNNQRLRSYDEKSILKILKYQKQNALNNLQVGKQFKISRNTIAKWKAVYKL				NA	NA	NA	NA	NA
BMS003_02465	414			hypothetical protein	ATGAATATTAAGAACGTTCATATTGGAAGTCTGATCAGATCTAAAGTAGACGAGCATCAGGTTTCAACAGAAAGAATCTGCAGGTTTTTTGGGAGTACGGAAAGTGATATAGAAAAAATGTATCAGGATAAAAGTATGGATACTGATATTCTGCTGAAATGGTGTAAACTTTTAAAATTTGATTTCTTTAGATTTTATACCGGGCATCTCATTTTGTACTCCCCGCAGTCCAGAATTGATAATACATTCAGACAAAAAGAAAATGTCCTGGTTTTCAGAAAAAGCATTTATACGCAGGAGGTGAAGGATTTTATACTGGAAAAAATAAAAACCGGAGCAATGACAGCCAATGATGTTGTGGAAAGGTATAAAATACCTAGAACCACTTTATATAAATGGATGAAAAAAAGATAA	MNIKNVHIGSLIRSKVDEHQVSTERICRFFGSTESDIEKMYQDKSMDTDILLKWCKLLKFDFFRFYTGHLILYSPQSRIDNTFRQKENVLVFRKSIYTQEVKDFILEKIKTGAMTANDVVERYKIPRTTLYKWMKKR				NA	NA	NA	NA	NA
BMS003_02466	993			hypothetical protein	ATGATTTATAAGTTTTTCTTTAGAATGATTAACAACGAAGCTGAAAAAATGGATGATGATTTTGATAGTAATTATCTGCATCTTATTAATCGGTATCTGCTTTTACTGTTTTTTATTTTTCTGTTTTACTCCATTTTTATTATTGCTTTTTTCGGAGATACCCTGATCTCCGTATTTCTTACCGTTATTACTTTTTTCTGGCTGTTTTTAATGGCCATAAAAGGTAAAACGAAGCGGTTCAGAAATGTATTGAAAGGGGCTGTCATCTTTACATTTGTCTTGCTGACTTTTATAGTGAGTTTTTTTAATATTTATACTTATAAGAACGCAGGAGTAGAATACTTCTATTTTTGCCTTTTGTTTGCCGTCCCATTCTTTCTGAACTATAAAAAAGATTCTTTTTCCATCTTTTTCATTGCTTTCATGATCAGTATTAACTTTATTGCCTGTCTGTATTTTGATTTTGATTTCCTGCCAAAGAGCAGATTTATAGAAAACGAAGATTTTAAAACAATAAAGCTGCTGAATATTTTATTCTCTATTTCTTCCTTTCTGATGGATATTGTTTTTATTACTCAGAAAGATCAGCTGATTCATGGTTTAATTACGGATAAAAAAGAGAAAGACTCTACAATTAAAGATCTTGTAAAAACAAATGCAGAGCTGATGAAGCATCAAATGCTTATCAATCATCTTTCGGAAGAAAATATCAGGGAAATTTTAACACTGGCAGAAAATAATTCGCCCATGTTTTTTGAAAAATTTCAGTTTTTTTTCCCTCATTTTATTCCTGATCTTTTAAAAATAAATCCTAATCTCATCCACTCCGAGCTGTATTTTTGTGCTTTGATGAAGTTGGATTTTGATACCAAGAAAATAGCACAGTGTACCAATAACAGCATACGTGCAGTAGAAAGTAAAAAATACAGAATCCGGAAAAAGCTGAATATTTCTTCAGAAATCAATATCAATAGTTTTCTTATAAAAATTTAA	MIYKFFFRMINNEAEKMDDDFDSNYLHLINRYLLLLFFIFLFYSIFIIAFFGDTLISVFLTVITFFWLFLMAIKGKTKRFRNVLKGAVIFTFVLLTFIVSFFNIYTYKNAGVEYFYFCLLFAVPFFLNYKKDSFSIFFIAFMISINFIACLYFDFDFLPKSRFIENEDFKTIKLLNILFSISSFLMDIVFITQKDQLIHGLITDKKEKDSTIKDLVKTNAELMKHQMLINHLSEENIREILTLAENNSPMFFEKFQFFFPHFIPDLLKINPNLIHSELYFCALMKLDFDTKKIAQCTNNSIRAVESKKYRIRKKLNISSEININSFLIKI				NA	NA	NA	NA	NA
BMS003_02467	657	psd		Phosphatidylserine decarboxylase proenzyme	ATGAAATTACATAGAGAATCAAAAGGAACGATTACCGTTGCAACCCTGCTTTTTATTATTCTGGGTGCTTTAGCAATTTATTTCCTTAAAATATGGTCCCTGCTGATCATTATACCTTTGTTGGTTATTTACGGTTTAGTTTTCTGGTTCTTCAGAGTTCCGAATCGTAATATTCTGGAGCACAGAGAAAATATTATAGCTCCGGTAGACGGGAAAGTGGTAATGATCAAAGAAGTGGATGAGGATGAATTCATTAAAGGAAGAGCTATTCAGGTATCTATTTTCATGTCTCCGCTGAATGTGCATATCTGCAGATATCCGGTTTCGGGAGAAGTGATTTATAAAAAATATCATCCCGGGAAATATCTGGTAGCCTGGCATGAAAAGTCTTCTACAGAAAATGAAAGAACTACTGTAGCAATACAAACTATGACCAATCATAAAGTAGTCTTCAGACAGATTGCGGGATATGTGGCAAGAAGAATCGTTTTCTACTGTAATGAAGGAGATAAAGCAAAAGCCGGACATGAGTTCGGATTTATTAAGTTCGGGTCAAGAATGGATGTATTCCTGCCTTTGGATACTGAAATTATCTGTAAAATAGGAGATATTACAAAAGGAGGTGAAGATGTTATCGCCAAACTGAAAGAAAATTAG	MKLHRESKGTITVATLLFIILGALAIYFLKIWSLLIIIPLLVIYGLVFWFFRVPNRNILEHRENIIAPVDGKVVMIKEVDEDEFIKGRAIQVSIFMSPLNVHICRYPVSGEVIYKKYHPGKYLVAWHEKSSTENERTTVAIQTMTNHKVVFRQIAGYVARRIVFYCNEGDKAKAGHEFGFIKFGSRMDVFLPLDTEIICKIGDITKGGEDVIAKLKEN	PGPT0007700_4349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
BMS003_02468	873			hypothetical protein	TTGGACAAAAATCTCATTCAAAGAACCGTATCTGGTATAGTCTATGTAGCTATCATTATTCTTTGTTCTACTCCCCTGGGAGCACAGCTGATTAACAGTATTGCACCCGGCCTTGCCAAACAGCAATATCTTTATCATGGCTTAATGAGTCTTCTGCTGGTTGTGGGAACGTGGGAATGTGTCAAAATTATGAAGTTTGGAAACGGCTATGAAAAATGGGTCGTATTTCCATTGGTCATTTTTATATTCTATATGTTTTCCAAAAGATATTTCAGTCACGATTTCTTTTTTGATTTCAGGCTTAGCGAAATATTGGCTCTCTCACTTATAGGGATTGCTGTGGTTACTTTATTTAAATATCCTAATGAATTATACTTTGACAGCGGAAAACTTATTTTTACGGTTATTTACGTAGCGCTTCCGTTTAGTTTTGCATTAGGGCTTCCGAAATTCTCCAGTTATAATGAAAGCTTTTCTCTGGAGGTTCTGTTCCTGTTTATCCTGATATGGAGTAGTGATACTTTTGCTTACCTCGTAGGAAAATTCTTCGGAAAACATAAAATGGCTCCTAAAATTTCCCCCAAAAAGACCTGGGAAGGATATGCAGGAGGTGTTGTTTTAACATTGGTTTTATCTTACTTTATTGAGCATTACCAGCCAGAGTTGAGAGGAAACTGGATGATTGTGGGGTTTTTGGTTGCAGCCTTTGCTCCGTTAGGAGATTTGGTAGAGAGCCAACTGAAGAGAAGCTTCGGTGTAAAAGACAGTGGAAACATCATTCCCGGGCACGGTGGCGTTTTAGACAGACTGGATAGTTTTATTATCTGCGTTCCTGTCGTATATTTGTACTTTATTTTAGAAAAATTTATTTAG	MDKNLIQRTVSGIVYVAIIILCSTPLGAQLINSIAPGLAKQQYLYHGLMSLLLVVGTWECVKIMKFGNGYEKWVVFPLVIFIFYMFSKRYFSHDFFFDFRLSEILALSLIGIAVVTLFKYPNELYFDSGKLIFTVIYVALPFSFALGLPKFSSYNESFSLEVLFLFILIWSSDTFAYLVGKFFGKHKMAPKISPKKTWEGYAGGVVLTLVLSYFIEHYQPELRGNWMIVGFLVAAFAPLGDLVESQLKRSFGVKDSGNIIPGHGGVLDRLDSFIICVPVVYLYFILEKFI	PGPT0007685_2563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS003_02469	582			hypothetical protein	TTGAATTTATTCAAGAGAATTGTAAGCAAACTTACCAACCAGCCTGAAGAAGAGGATAAACAGAGCCTGGAGAAGCTTGGGGATTCGCTCAAAAATGCGGATCTTGACTATAAGTTTGCGCAATTATTTACGCATTCGGGGGGATTTTTTAATTATTGTGCAGATGAAGCGGAAGCTCTACAAACTTTAAATCAAATTATCAAAATAGAAGGTATTCACAACCTTTTCTGCTGGGATAAAGAACTTCAGAACTTTTTGAATGTAGTGAAGTCTGCTTACACCTCAGAACTTCAGCCAGCAAACGATGCAGCATTCATTACCTGTGAGTATCTCATCGCCTATGATGGCAGAATCATGCTTTCGCATAATAATATTCTTCATTATCATTCTTCAAGGCTTCCGGACAGAATTATCATTATAGCCAATGTTTCTCAGATTGTAAACAACCTGAATGATGCCATGGGCAAAATAAAAAGAAACGGAAATATCAAGAACCTTACTTCCATCAGCGGAAGCCAGTCAAAAATGGACAGTTCTTCCAATTCCAATACAAAACTGTTTTTATTGCTGCTTGAAGATTAA	MNLFKRIVSKLTNQPEEEDKQSLEKLGDSLKNADLDYKFAQLFTHSGGFFNYCADEAEALQTLNQIIKIEGIHNLFCWDKELQNFLNVVKSAYTSELQPANDAAFITCEYLIAYDGRIMLSHNNILHYHSSRLPDRIIIIANVSQIVNNLNDAMGKIKRNGNIKNLTSISGSQSKMDSSSNSNTKLFLLLLED				NA	NA	NA	NA	NA
BMS003_02470	2022	ftsH_1		ATP-dependent zinc metalloprotease FtsH	ATGAATAATAAAGGATTCAACTGGTTCTTTCCAATTGCAATCATAGCACTTTTGCTATTCTTTGGCTCCAATTTCCTTGGGGGCGATGCTGCAAAATCTATTGATGAAGATGGTTTCTTTAGAGAAATGCAGGCGGGGAAAGTCCAGAATATAATTATATACAAAGACATAGAGAAAGCTGATGTTTTCCTAACAAAAGAAGCAAAAGCGGCAATGGTTTCCAAAGCCGGAAAAGAAAACAACCCTCTTTCTGCCTTCGAGGTGGCTCCTAAAGCAGATTTTTCTGTGAAATATGGAGACCTTCAGATTTTCCTTCAGAAGTTTGAACAGATTAAAGCCAGTAATCCGGCGATTAAAACAACTAAAGATTACGAGGCAGGTAAGAATGCACTGATGGATATTCTGGTTCCTGCGTTGGTTTGGATTTCCATTCTGGGATTATTCTACTTCCTTCTTTTCAGAAAGATGGGCGGTGGCGGAGGTCCTGGCGGACAGATCTTCTCTATCGGAAAATCCAAAGCGAAGCTTTTTGATGAAAAAGAAAGAATTCAAGTGACATTCAAAGATGTTGCAGGACTGGAAGGTGCTAAAGAAGAAGTTCAGGAAGTAGTAGATTTCTTAAAAAACTCTGAAAAATATACAAAACTGGGAGGTAAAATTCCTAAAGGAGTTCTTTTGGTAGGGCCTCCGGGAACAGGTAAAACCCTATTGGCGAAAGCTGTGGCAGGGGAAGCTAAAGTTCCGTTTTTCTCGCTTTCAGGTTCTGATTTCGTTGAAATGTTTGTAGGGGTAGGAGCTTCCAGAGTAAGAGACCTTTTTGCCCAGGCAAAAGCAAAATCTCCGGCAATTATCTTCATTGATGAAATTGATGCTATCGGACGTGCTAGAGGAAAAAATAATTTCTCCGGCGGAAACGACGAAAGAGAAAATACCCTGAACCAGCTTCTTACGGAAATGGACGGATTCGGAACAGATACGAATGTTATCGTAATGGCAGCAACCAACAGAGCAGATATCCTTGATAAAGCTTTAATGAGAGCAGGACGTTTTGACCGTTCTATCTATGTAGACCTTCCGGAACTTCATGAAAGAAGACAGATCTTTGATGTTCATCTGAAAAAGATCAAGCTGGATGATAATGTAGACAGAGAGTTTCTTGCAAAACAAACCCCTGGATTCAGTGGAGCAGATATTGCCAACGTTTGTAACGAAGCAGCACTTATCGCAGCAAGAAATAATCATACTTCAGTAACAAAACAGGATTTCCTTGATGCTGTAGACAGGATCATTGGTGGTCTTGAAAAGAAAAATAAAGCAATCAAACCTTCTGAAAAGAGAAGAGTGGCTTATCACGAGGCTGGGCACGCTACGATCTCCTGGTTGGTAGAACACGCATCTCCACTTTTAAAAGTGACGATAGTGCCAAGAGGACGTTCATTGGGAGCAGCATGGTATCTTCCTGAAGAAAGGCAGCTTACCACTACTGAGCAGATGTTGGACGAAATGTGTGCAACTTTAGGAGGTAGAGCAGCAGAACAGGTGATCTTCAATAATATCTCTACAGGAGCACTTTCTGATCTGGAAACAGTGACGAAAAGAGCTCAGGCTATGGTGACAATCTACGGATTAAGCCCGAACATTGGTAATATCTCTTACTATGACAGCTCAGGTCAGTCTGAATACAATTTCGGAAAACCATATTCTGAAGAAACCGCTACGAAAATTGATGCTGAGATCAAATCAATCATTGAAAACCAATATGAAAGAGCGGTAAGGATTCTTGCTGATAACAAAGATAAGCTGGATGCTTTAGCTAACAAACTGTTAGAAAAAGAAGTGATTTTCCGCGAAGACTTAGAGGAAATATTCGGAAAAAGAGCCTGGGATCCTGAATTGACGGAGAAGCCTGTAACCAATACTATTCCTGAAAAAGATCTGCCGATAGTAGCAGAAATACCTCAGATTAAAGAAAAAGAAGAAGAAAGCGAAATACAGGCACCAGAAAGCCCAACACAGCTTTAA	MNNKGFNWFFPIAIIALLLFFGSNFLGGDAAKSIDEDGFFREMQAGKVQNIIIYKDIEKADVFLTKEAKAAMVSKAGKENNPLSAFEVAPKADFSVKYGDLQIFLQKFEQIKASNPAIKTTKDYEAGKNALMDILVPALVWISILGLFYFLLFRKMGGGGGPGGQIFSIGKSKAKLFDEKERIQVTFKDVAGLEGAKEEVQEVVDFLKNSEKYTKLGGKIPKGVLLVGPPGTGKTLLAKAVAGEAKVPFFSLSGSDFVEMFVGVGASRVRDLFAQAKAKSPAIIFIDEIDAIGRARGKNNFSGGNDERENTLNQLLTEMDGFGTDTNVIVMAATNRADILDKALMRAGRFDRSIYVDLPELHERRQIFDVHLKKIKLDDNVDREFLAKQTPGFSGADIANVCNEAALIAARNNHTSVTKQDFLDAVDRIIGGLEKKNKAIKPSEKRRVAYHEAGHATISWLVEHASPLLKVTIVPRGRSLGAAWYLPEERQLTTTEQMLDEMCATLGGRAAEQVIFNNISTGALSDLETVTKRAQAMVTIYGLSPNIGNISYYDSSGQSEYNFGKPYSEETATKIDAEIKSIIENQYERAVRILADNKDKLDALANKLLEKEVIFREDLEEIFGKRAWDPELTEKPVTNTIPEKDLPIVAEIPQIKEKEEESEIQAPESPTQL				NA	NA	NA	NA	NA
BMS003_02471	366	rsfS	COG0799	Ribosomal silencing factor RsfS	ATGAATAAAACAGCAGAAAAACAAGCGTTAATAGATAAAATCGTTGAAGCTATTCAGGATGTAAAAGGAGAAGACATTATGATTTTTGATCTTTCCAACATTGAAAACTCCGTAGCAGAAACGTTCGTGATATGTAGTGGAAACTCAAACACTCAGGTAGCTGCATTGGCAGGGAGTGTAGAGAAAAAAGTAAGAAACGAACTGCAGGACAGACCTTGGCATGTAGAAGGTACAGAAAATGCGATGTGGGTATTGGTGGATTATGTTTCAGTGGTAGTTCATATATTCCAAAAACAGGTACGTGAGTACTACGATATAGAAGAGCTTTGGGGTGACGCAGTCATTACCAGAATTGAAAATGAATAA	MNKTAEKQALIDKIVEAIQDVKGEDIMIFDLSNIENSVAETFVICSGNSNTQVAALAGSVEKKVRNELQDRPWHVEGTENAMWVLVDYVSVVVHIFQKQVREYYDIEELWGDAVITRIENE				NA	NA	NA	NA	NA
BMS003_02472	714	birA	COG0340	Bifunctional ligase/repressor BirA	ATGAGCCAACTCTTCTACCTGAAAGAATGTTCTTCTACTAATGACGAAATATCAAAGTTTTTACTTTACGGAGATTCAAATTTTATAGGGCTTCATACTTTTAATCAAACTAAAGGCCGTGGTCAGTATGGAAATGTCTGGACTCAGACCGCCGGAAAAAACCTGGCTTATACGCTGGCAGTAAATACTCAGAACATCCTGTGCTCCGACTTTATATTCAATTATTATACCGCAATGGTGATCCGTGATTTCCTTGCCAAATTGTCTGACTCTGAGGTAAAAATCAAATGGCCGAATGATATTATCCTTAAAGGTAAAAAAATCGTTGGAATTTTAATAGAAAAGAAAAAAATTAATCAGAATAATTATTTCATTATAGGAGCCGGCATCAATATTCTTCAGGACAGTTTTGCTGAAATATCCAATGCAGGATCACTTCTGACACAAACAGGCATACGGTTTGGTCTCGAAGAATTCTCATTGAATCTTCATGAATATCTTTCTGAAAAACTAAAAAATATTCCTTCCGACCAGGAAATTCTGGACGGATTCAACACAAACCTTTTCAGAAAGGATCAGATCTCTGTCTTTGAAATTGAAAAAGAGCGACAAAATGGCATCATCCGACATGCAGACGAAAAGGGCGAACTCTGGATCGAACTGGAAAACGGAATGCGTTCCTTTTATCACAAGGAAGTAAAATTACTTTACTGA	MSQLFYLKECSSTNDEISKFLLYGDSNFIGLHTFNQTKGRGQYGNVWTQTAGKNLAYTLAVNTQNILCSDFIFNYYTAMVIRDFLAKLSDSEVKIKWPNDIILKGKKIVGILIEKKKINQNNYFIIGAGINILQDSFAEISNAGSLLTQTGIRFGLEEFSLNLHEYLSEKLKNIPSDQEILDGFNTNLFRKDQISVFEIEKERQNGIIRHADEKGELWIELENGMRSFYHKEVKLLY	PGPT0022055_4754	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
BMS003_02473	1113			hypothetical protein	ATGCTTAAAATTGTAGACAGATATATCATCAAAAAATACCTTGGAACTTTCAGTTTCATGTTGGTGTTATTGTCTATAGTCGTATTGGTAATTGATGTTCAGCAAAAGATTCCAAGGATAGAAAATGCGAAGGCCATTGATCCGAAGCTGGATCTGATGTATTTCCTTATCCATTTTTATCCTTTCTGGATCATCAATCTTGTGGTAACTTTTCTTTCCATTCTGGTATTTATTTCGGTGATCTATTTTACTTCCAGAATGGCCAATAATACTGAAATTGTGGCTATTATCAGCAGTGGAGCCAGTTTTCACAGGTTTTCCAAACCTTATCTGTTTACCTCTGTTTTTATTGGACTGATCGCCCTTGTGGTGTATCATATGGTGCTGCCATGGGCTAATATCAAGAAAAATGAGCTGGAAGCGTATACCTATAATGCAGCTAATAAAGAAAAGATTTTAGGAACAGCCCCGGCATCCTCCCAGCTGAGCAAAACAGAATATATCTTTGTTGATTCCTGGAACAAAAGAGAGAAAAGAGGCTCCAGTTTTGTTTATCAGAAATATGATAAAGACAGAAAAATGACCTATGAGCTAAAGGCAAGCGAAGTATATTGGGATAAAACAAAAAAACAATTTGTACTCAATAACTATCTGGAAAAAACCATCAATAAAGACAATACAGAAAAGCTTAGTAATGGGATAGAACTGAGAAAAAACTACGGACACTCACCGGAAGAACTTTTCCCTAACGAGCTTTTAGGTCAGAATAAAACAACACCTGAGCTTTTAAAATTTATTGAGAGAGAAAAGGCCAGAGGAAACAGTAATCTGAATTCTTATCTGAATGAGCTTCATCAAAGAACTTCAATGCCTGTTTCTATCATTATTCTCACATTTCTGGCACTTTCCCTGTCTTCACAAAAGAAAAGGGGAGGATTGGGAGTTAACCTGGCAATAGGTATTTCTATGGCATTCATTTTCGTGTTTTCATTTGAAGCTTTAAAGGTTGTTTCTGAAAATAAAAGTTTGTCTCCGTTTGTTGCTATGTGGCTGCCTAATATGGTTTTTCTTCCGCTTACGCTTTATCTTTACATCAAAAGAGCCAATCAGTAA	MLKIVDRYIIKKYLGTFSFMLVLLSIVVLVIDVQQKIPRIENAKAIDPKLDLMYFLIHFYPFWIINLVVTFLSILVFISVIYFTSRMANNTEIVAIISSGASFHRFSKPYLFTSVFIGLIALVVYHMVLPWANIKKNELEAYTYNAANKEKILGTAPASSQLSKTEYIFVDSWNKREKRGSSFVYQKYDKDRKMTYELKASEVYWDKTKKQFVLNNYLEKTINKDNTEKLSNGIELRKNYGHSPEELFPNELLGQNKTTPELLKFIEREKARGNSNLNSYLNELHQRTSMPVSIIILTFLALSLSSQKKRGGLGVNLAIGISMAFIFVFSFEALKVVSENKSLSPFVAMWLPNMVFLPLTLYLYIKRANQ	PGPT0023295_645	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS003_02474	1131	tgt		Queuine tRNA-ribosyltransferase	ATGAAATTTTTTAATATAGAAAAAACCTCTGAAGGAAAAGCAAGAGCAGGGGAAATTACCACAGATCACGGGAAGATTCAAACTCCTATTTTTATGCCTGTGGGAACTGTAGCAAGTGTGAAAACAGTTCATCAGAGAGAATTAAAAGAAGACATTAAAGCTCAGATTATTCTGGGTAATACTTATCATTTATACCTTCGTCCGGGCATGGAAACCATGCAGGATGCAGGTGGTTTACACAAATTCATGAACTGGGATCTTCCTATCCTTACAGATTCAGGAGGTTTTCAGGTCTTTTCACTGGCGGGTAACAGAAAAATGACAGAAGAAGGAGCGAGATTCAAATCTCACATCGATGGAAGCTATCATATGTTCTCTCCGGAAAGATCAATGGAGATTCAAAGACAGATCGGAGCAGATATCTTCATGGCTTTTGATGAATGTACTCCCTATCCTTGTGACTACAACCAGGCAAAATCATCTATGGAGCTTACCCATCGCTGGCTGAAAAGATGTATTGAGTGGACTAATGATAATCCTGAATTATACGGATATAAGCAAAGACTTTTCCCAATCGTTCAGGGATCTACCTATTCCGATCTCAGAAAAATATCCGCAGAAGTAATTTCTGAAGCAGGAGCAGAAGGAAATGCCATCGGAGGACTTTCTGTAGGAGAACCGGAAGAAGAAATGTACAGAATCACAGATGAAGTGACAGATATCCTTCCAAAAGAAAAACCAAGGTACCTGATGGGTGTTGGAACTCCTTGGAATATCCTTGAGTCCATCGGGCTGGGTATCGACATGATGGACTGTGTAATGCCAACAAGAAATGCAAGAAACGCCATGCTTTTCACATGGCAGGGGGTGATGAACCTTAAAAATGAAAAATGGAAGCGCGATTTCTCGCCTTTAGACGAATTCGGAACCAGTTTTGTAGATCGTGAATATTCAAAAGCGTATCTTCGTCACCTGTTTGTATCTAAAGAATATCTGGCAAAACAGATTGCTTCTATTCATAATCTGGCATTCTACCTGGATTTGGTAAAAGTAGCCAGAGAACATATTATTGCGGGAGATTTCTACGAATGGAAAAACTCTGTAGTGCCGGTTCTTAGACAAAGACTGTAA	MKFFNIEKTSEGKARAGEITTDHGKIQTPIFMPVGTVASVKTVHQRELKEDIKAQIILGNTYHLYLRPGMETMQDAGGLHKFMNWDLPILTDSGGFQVFSLAGNRKMTEEGARFKSHIDGSYHMFSPERSMEIQRQIGADIFMAFDECTPYPCDYNQAKSSMELTHRWLKRCIEWTNDNPELYGYKQRLFPIVQGSTYSDLRKISAEVISEAGAEGNAIGGLSVGEPEEEMYRITDEVTDILPKEKPRYLMGVGTPWNILESIGLGIDMMDCVMPTRNARNAMLFTWQGVMNLKNEKWKRDFSPLDEFGTSFVDREYSKAYLRHLFVSKEYLAKQIASIHNLAFYLDLVKVAREHIIAGDFYEWKNSVVPVLRQRL				NA	NA	NA	NA	NA
BMS003_02475	378			hypothetical protein	ATGAAACTGATGAAAAAGTTAATCTTTATTTTCGTTTTGCTGAGCATGTTTTCGTGCAGTGATTATATTGATAAGCCTAAAAACCTGATCGATAAAGATGTGATGGCGGAGATTATTGCAGACCTTGCGATCAATGATCAGGCAATCTTTGTATATCCAGACAAAAATATGGAGGCAGGAACAAGAGCCGTCCTGAAGTCACATAAAGTAAAACCTGACGATTTTATAGAAAGCTTCAAATATTACGTCATCAAAGAAGAAATGGATGGGATTGCCAATGATGCACAGGAAATACTGCTGAAAAAAGATCCCAAAGCAGATAAATATGTAAAGGATAAACTGAAACAAAACGGAGCGGTAATACCTTTGGTAAGATAA	MKLMKKLIFIFVLLSMFSCSDYIDKPKNLIDKDVMAEIIADLAINDQAIFVYPDKNMEAGTRAVLKSHKVKPDDFIESFKYYVIKEEMDGIANDAQEILLKKDPKADKYVKDKLKQNGAVIPLVR				NA	NA	NA	NA	NA
BMS003_02476	717	ppm1		Polyprenol monophosphomannose synthase	ATGAAAAAACTCGTCATTATCCCAACTTATAACGAAAAGGAAAATATTGAAAATATTATTTCCGCAGTTTTTGCATTGGAGGACGATTTTCATATCCTTGTAGTAGATGATTCTTCTCCGGACGGCACAGCAGAGATTGTAAAGGAATTGCAGAAGAAGCATCCACATTATCTGCACCTATCCATAAGACATGTGAAAGACGGGTTGGGAAAGGCATACATTCATGGATTTAATTGGGCTATCGAAAATAAATATGATTATATTTTTGAGATGGATGCCGATTTTTCACACAATCCTGATGATCTGCCAAAACTTTTTGAAGCATGCAAAAATGCAGATATGGCCATCGGATCCCGTTATTCAAAAGGAGTAAATGTGGTCAACTGGCCTATGGGAAGAGTGTTGCTTTCTTATTTTGCATCCAAATATGTAAGATTTGTATTGGGGCTTCCTATTCATGATACTACAGCAGGATTTGTCTGTTTTTCAAGAAAGGTATTGGAAGAAATAGGACTGGACAATGTGAAGCTGAAAGGATACGGATTTCAGATAGAAATGAAATTCAGAGCATTTAAAAAAGGGTTCAGAATAGTAGAAGTTCCTATTATATTTACCAACAGAATTTTAGGAGAAAGCAAAATGAACGGCGGAATTATCCATGAAGCTGTTTTCGGAGTATTGAACTTAAAATGGAAATCAATCATTAACAGGTTATGA	MKKLVIIPTYNEKENIENIISAVFALEDDFHILVVDDSSPDGTAEIVKELQKKHPHYLHLSIRHVKDGLGKAYIHGFNWAIENKYDYIFEMDADFSHNPDDLPKLFEACKNADMAIGSRYSKGVNVVNWPMGRVLLSYFASKYVRFVLGLPIHDTTAGFVCFSRKVLEEIGLDNVKLKGYGFQIEMKFRAFKKGFRIVEVPIIFTNRILGESKMNGGIIHEAVFGVLNLKWKSIINRL	PGPT0017834_1867	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
BMS003_02477	669			hypothetical protein	TTGCCATCATCACAACACTTCGTCAATCACGTAAGAATACCTGAGAATAATGACTGGGTAATCTTTATCCTCGTGGGCTGTATATTTCTGTATGTTTTTATGATGAACGTCATAGAAAGGGATGCCAGTCTCAAGGACTTTCTGCTTCAAAAGTATTTTGATGCGAGCAATAACCTTCCGAGCTGGATCATCACCTCATGTGTGACTACCTTTACTTTATCTGTATTAATTTCGCAGTATATTCCTGTTGTCCCGAAATATATTGCGGATCTTCATCTTTTGGGGTATCAGCTCAACAAATTTGGGTATACTTTTCTGGCAGTACTGTTCTTTTATTTAATAAGGTCAACGTTAGGTTTTTTATTTTATCAAAGTATAGGGGATGGGAAAAAATGGACAATCTTCTATTTTACCTCTACAAAGTTTTATTTCATTCTTTCGTTTTTGTTAATAATTCTTTGTGTAGCCCATTATTACTTTCCTATCGACAGAAATAGAATGTTTCTGTATTATTTATGCTTCTTTTCTTTTGTATTCATTTTCAAAGTTTTTTTCTATTTATTTCACAAGAACAAGATTCTTCCCGAAAAATGGTATTATAAATTTTTGTATATTTGCACCCTCCAAATCGCACCATTATTATTGCTTTGGAAGCTGTTATTTTTTTAA	MPSSQHFVNHVRIPENNDWVIFILVGCIFLYVFMMNVIERDASLKDFLLQKYFDASNNLPSWIITSCVTTFTLSVLISQYIPVVPKYIADLHLLGYQLNKFGYTFLAVLFFYLIRSTLGFLFYQSIGDGKKWTIFYFTSTKFYFILSFLLIILCVAHYYFPIDRNRMFLYYLCFFSFVFIFKVFFYLFHKNKILPEKWYYKFLYICTLQIAPLLLLWKLLFF				NA	NA	NA	NA	NA
BMS003_02478	744			hypothetical protein	ATGATGAGAATAAAGTCTATATTGGTTTCTCAACCAGCGCCTAGTGAGTCTTCTCCATATTTGGATATAGCGAAGAAGGAAAAAATAAAGATTGATTTCCGTCCATTTATCCACGTCGAAGGAGTTGACAATAAAGAGCTCAGAACACAGAAAATAGATCTGACGCAGTATACCGGTATTATATTTACCAGTAAAAATGCGATTGACCATTACTTCAGACTAGCGGAAGAACTTCGTTTTGCCGTACCGGATACAATGCGATATATCTGCCAGTCGGAAGCAATTGCCAACTACCTTCAAAAGCATATTGTGTACAGAAAAAGAAAAATCAGCTTTGGGGAGAAAAACTTCTCAGACCTGCTTCCTCTTTTCAAAAAGTTTCCAACTGAAAAATATCTGCTACCTTCTTCAGATGTTCTAAGTCCGGATATTGTAAAAACCATGGATACATCTAATGTAGAATGGACGAGAGCAATTATGTACCGCACCGTATGCAGTGATCTTACAGATATCAGCATCAAAGATTATGACATGCTGATCTTCTTCAGTCCACAGGGAATCAAATCATTACAACAAAACTTCCCAAATTTCATGCAGGATGAAACCAAGATCGGAGTTTTCGGAAACACGACTTTGGCTGCCGCAGAAGAAGCAGGACTAAAAGTAGACTTAATGGCTCCTACGAAGGAAACTCCTTCTATGACAATGGCTCTTGAAAAGTATATTAAAGCACTTCATAAATAG	MMRIKSILVSQPAPSESSPYLDIAKKEKIKIDFRPFIHVEGVDNKELRTQKIDLTQYTGIIFTSKNAIDHYFRLAEELRFAVPDTMRYICQSEAIANYLQKHIVYRKRKISFGEKNFSDLLPLFKKFPTEKYLLPSSDVLSPDIVKTMDTSNVEWTRAIMYRTVCSDLTDISIKDYDMLIFFSPQGIKSLQQNFPNFMQDETKIGVFGNTTLAAAEEAGLKVDLMAPTKETPSMTMALEKYIKALHK	PGPT0003665_1317	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS003_02479	2049	ptrB	COG1770	Protease 2	ATGAAAGCTCCACAGGCAAAAAAAATAGAAAAAATACTAGAAACCCACGGCGATAAAAGAACTGATAATTACTTTTGGCTTAATGAAAGGGAAAACCCTGAAGTCATCAAATATATTGAAGAAGAAAATGCCTACGAAGAATTCATCATGAAAGATACGGAAGCCTTTCAGGAAGAGCTTTTCGAAGAGATGAAATCCCGTTATAAAAAAGATGATGAATCTCTCCCTTATTTCTTTAATGAGTACTGGTATATTGTACGTTATGAAGAGGGAAAAGAATATCCTATTTTCTGCAGAAAGTACAAAAGCCTTGACAACGAAGAGGAAATTGTACTGAACGTTAATATCCTTGCAGAAGGCAAAGAGTTTTTTGAAGTAGGAAGTGTCGCGGTAAGCCCCGGTAACGAACTGGCTTCTTTTTCTTCTGATGATGTAGGAAGAAGAATTTATACGCTTAATTTTAAAAACTTAAAAACCGGCGAAATCCTTCCGGACACCATTCCTAACACGACAGGGAAAGCTGTCTGGGCGAATGATAATCAGCATATATTTTATATCCGAAAAGATAAAAACCTCCGTGCATTTCAGGTGTACAGACATAAGCTGGGCACAGATTCTGCAGAAGATGTTCTGATCTTCCACGAAGAAGATGAAACTTTTGACGTGAATGTATTTAAAACAAAATCTTTACAATATATTTTCATTGCCAGCTCAAGCACTATTTCTGATGAACACCGCTTTATTCCTTCTGATAATGTATTTGCAGAATGGACAATTATTCAGCCAAGAATAGATGATCTTGAATATTCTGTAGAGCATTACGAAGATGAATTTTACATCATTACCAACGCTGACGATGCGATCAATTTTAAAATTGTAAAAACGAAGATTGATAATTGCGGTATGGAAAATTGGGTAGATGTAATTCCACACCGTGCTGAAGTTTTACTTGAAGGTTTTGAAATTTTTAAAGATTATCTGGTTCTTGAAGAAAGAGAAAGAGGACTGCTTCAGATCAAAATCATTGATGAAAAGACACAGGAATCTTATTATTTACCTTTCTCTGATCCTACTTATACAGCTTATATTGGTATCAACCTTGAATTTGATACTGAGATTCTGCGTTATGGATACACCTCTCTTACACAGCCCAGCTCCACCTATGAATATAACATGAGGGAAAAAACCACAAAGCTTCTGAAACAACAGGAAGTATTAGGTGGAAAGTTTTCCCCTGAAAACTATATTTCAGAAAGAATCTGGGCAGACTCCAGAGACGGAGAGGCAAAAGTACCTATTTCTTTAGTCTATCATAAAGACACTAAAAAGTCAGCTGACACTCCGCTTCTTCTGTATGGATACGGAAGTTACGGACATACTGTGGATGCCAGCTTTTCAAATGTAAGACTATCCTTACTGGACAGAGGTTTTATCTATGCTATTGCCCATATCCGTGGTGGAGAATATTTGGGAAGAGAATGGTATGAAGACGGAAAAATGTTATTCAAGAAAAATACCTTCTTCGATTTTATTGATGCAGGAAAATATTTAATCAGTGAAAATTATACTTCATCGAAACATATGTATGCGATGGGTGGAAGCGCAGGAGGATTGCTGGTAGGAGCTGTGGTGAATTATGAACCTCAGTTATTCAACGGAATTGTAGCTCAGGTACCATTTGTAGATGTTGTAACCACGATGTTAGACGACACTATCCCATTAACTACCGGAGAATATGATGAATGGGGAAATCCAAACGATGAAGAATATTATCATTATATGAAGGATTACTCTCCTTATGACAATGTAGAAGCCAAAGATTATCCACACATGCTGATCACCACGGGATTCCATGATTCTCAGGTACAATATTGGGAACCGGCAAAATGGACCGCAAAATTGAGAGAATTAAAGACAGACAATAATATTTTAGTATTCAAAACAGATATGAGCTCCGGACACGGAGGGGCAAGCGGAAGATTTGAATCTCTTAAGGAAGATGCACTGGAATTTGCATTTTTATTAAATTTAGAAAATCAAAAAGCATGA	MKAPQAKKIEKILETHGDKRTDNYFWLNERENPEVIKYIEEENAYEEFIMKDTEAFQEELFEEMKSRYKKDDESLPYFFNEYWYIVRYEEGKEYPIFCRKYKSLDNEEEIVLNVNILAEGKEFFEVGSVAVSPGNELASFSSDDVGRRIYTLNFKNLKTGEILPDTIPNTTGKAVWANDNQHIFYIRKDKNLRAFQVYRHKLGTDSAEDVLIFHEEDETFDVNVFKTKSLQYIFIASSSTISDEHRFIPSDNVFAEWTIIQPRIDDLEYSVEHYEDEFYIITNADDAINFKIVKTKIDNCGMENWVDVIPHRAEVLLEGFEIFKDYLVLEERERGLLQIKIIDEKTQESYYLPFSDPTYTAYIGINLEFDTEILRYGYTSLTQPSSTYEYNMREKTTKLLKQQEVLGGKFSPENYISERIWADSRDGEAKVPISLVYHKDTKKSADTPLLLYGYGSYGHTVDASFSNVRLSLLDRGFIYAIAHIRGGEYLGREWYEDGKMLFKKNTFFDFIDAGKYLISENYTSSKHMYAMGGSAGGLLVGAVVNYEPQLFNGIVAQVPFVDVVTTMLDDTIPLTTGEYDEWGNPNDEEYYHYMKDYSPYDNVEAKDYPHMLITTGFHDSQVQYWEPAKWTAKLRELKTDNNILVFKTDMSSGHGGASGRFESLKEDALEFAFLLNLENQKA	PGPT0020980_2139	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
BMS003_02480	342			hypothetical protein	ATGATTAACGAATCCGAATACTGGAAAAAAATAGAACAGTTCTTCGAAGACAATTTTCAGACTGAGAAGAACCCGCCCATTGAAACCCTTTTATTTCTGATAGGGCTTCAGGAGCTGGGAAGCGGCCAGCAGAAATATACAAAAGATGATAAAGTAAATCTGATTCACATTGCTGTATGCAGATTGTTGGAACCTTTTGGATATTACAAATTCACACACTATGAAGACGGATGGCCACAATTCGATAAACTGGAAGAACTTCCTGAATTAAAGCCTAATGAGCAGTCCCTGCTTATGAAAAAAGCAATTATTCAGTATTTTCAGGAAGAGGAGCTTTTATAA	MINESEYWKKIEQFFEDNFQTEKNPPIETLLFLIGLQELGSGQQKYTKDDKVNLIHIAVCRLLEPFGYYKFTHYEDGWPQFDKLEELPELKPNEQSLLMKKAIIQYFQEEELL				NA	NA	NA	NA	NA
BMS003_02481	486			hypothetical protein	ATGGAATCGAACATCATTTTTAACAAAGATTTTGACGCTGCCAGTACTTATGTCATGAAAGTTTATAAAGCTGACATTTCAACAGTATGGAATTATTTTGCCCAGTCCGGATTATTGGATCAATGGTGGGCTCCCAAACCCTGGAAATGTGAAACGGTAAGCCAGGATTTTGAAAAAGGTGGTTTCTGGTTCTATGCAATGGTTGGCCCTAACGGAGAGAGAGGATATTCAAAGTTTGAATACGGAGACATTATAGAACACAGAAGCCTTGACTGGCTGAGTGCTTTCTCCGATGAAAAAGGGGATATTAATGAAAGTTTTCCGAGGTCAAAATGGCTGATCGGTTTTACCGGAGTAGAGGAAGGCACCAAACTGACAATAAATATTCATTATCATTCTCAGGAAATGATGAAAAAAATTATGGAAATGGGGTTTGAGGGTGGCTTTACGATGGGACTTAACCAACTGGAGGAACTCATTGGATAA	MESNIIFNKDFDAASTYVMKVYKADISTVWNYFAQSGLLDQWWAPKPWKCETVSQDFEKGGFWFYAMVGPNGERGYSKFEYGDIIEHRSLDWLSAFSDEKGDINESFPRSKWLIGFTGVEEGTKLTINIHYHSQEMMKKIMEMGFEGGFTMGLNQLEELIG				NA	NA	NA	NA	NA
BMS003_02482	1509	sasA_8		Adaptive-response sensory-kinase SasA	ATGACGATCTCGCTGATTGTCTTTGTGACGCTCCAATTTTATTGGTTGAAAGGCTATTATGGCGTACTGGAACAGGATTTTTCAAATAAAGTATATGCCGTTTTGGAAAGTACTTCAAAAAGTATTGAAGAAATTGAAGCCGACAAATACCTGAATCAGGATTATAAAGATTTCAGAAAAAATATTCTGGCCAACAGCAAACAACCGTCTCTAACTACCATTCAGCAGGTGCAAGACTCCGGTACTCAGAGACAGATTATTTATTCCAAAAATATTATTGAAAATACTCAGCTTCCTATTTCCCAAAAAGGAGATTCTATTAAGCTGACAACTTTGTATACCGATGAAGCTGCATATAAAATAAAAAGAGACACTACCAATCGCGAACTTCTTACTACAGATATCAATCAGGAAATTGAAACAGGAGATTACTCTATGAAAGAGTTTGTGAAAGTATATGGAAATAATCTTCCCATTACCAAAAGAGTGGATCCGAAAACGCTTGACTCCGTTATTGCAAAAGAGCTCAAAATAAGAGGCATAACTGCCAAATTCGGGTATGGAGTTGTGGACCGTAATAATAAGCTTACAAGCATTGCTAATAAAGCCTACAAAGAGAAAAAAGACAGCAATACCTACAGCTTCCCTCTTTTTGCAGATAAGAAAAATACATTATACAGCCTTGCTCTGGTTTTCCCGAAAAAGGAATATTCTCTGGCGATGAACAACTGGCCGATGTTGCTAGGAACATTCCTGTCACTCCTTACGATTCTTGGGATTTATATTATTTCCATTAATTATATGATGAGACAGAAGAAGCTTGCTGAAGTAAAAACAGACTTCATCAATAACATGTCCCATGAGTTTAAAACACCATTAGCGACTATTTCTGTAGCAACAGATTCATTAGCCAATGACAAAATAGCGACCAATCCTGATAAGGTAAAATACTACTCGGAGCTGATCAAGCAGGAGAATTTAAGGATGAAAAAGCAGGTAGAGAATGTCCTTAACATGTCCAAACTTGAAAGGAATGAAGTAGAATTATTCCTAAAAGAAACGAACGTGAGGGAACTGATTAAAAAAACCACAGAATCTTTCAACCTTATCGTAGAGCAAAGAAACGGAACGCTTACACAGAAGTTTAATGCGACTCATTATAATTTTAAAATAGATGAATTCCACATTTCGAACATGCTGGTGAACTTACTGGATAATGCCAACAAATATTCTCCTGAAGCACCGGAAATACATGTGGAAACAAGAAACGAAGGACACTGGTATATCATAGAAATTTCTGATAAGGGAATGGGAATGGATACCCAGAATAAAACCAAAATTTTCGAAAAATTCTTCAGAGAAGAAACCGGAAATATCCATAATGTAAAAGGACAAGGATTAGGTCTTTCCTATGTGAAGAAAATTGTAGAACTGCACAAAGGACAGATTATTGTAGACTCCCATAAAGGAAAAGGAAGTACGTTTACAATCAAACTGCCCATGGGTTAG	MTISLIVFVTLQFYWLKGYYGVLEQDFSNKVYAVLESTSKSIEEIEADKYLNQDYKDFRKNILANSKQPSLTTIQQVQDSGTQRQIIYSKNIIENTQLPISQKGDSIKLTTLYTDEAAYKIKRDTTNRELLTTDINQEIETGDYSMKEFVKVYGNNLPITKRVDPKTLDSVIAKELKIRGITAKFGYGVVDRNNKLTSIANKAYKEKKDSNTYSFPLFADKKNTLYSLALVFPKKEYSLAMNNWPMLLGTFLSLLTILGIYIISINYMMRQKKLAEVKTDFINNMSHEFKTPLATISVATDSLANDKIATNPDKVKYYSELIKQENLRMKKQVENVLNMSKLERNEVELFLKETNVRELIKKTTESFNLIVEQRNGTLTQKFNATHYNFKIDEFHISNMLVNLLDNANKYSPEAPEIHVETRNEGHWYIIEISDKGMGMDTQNKTKIFEKFFREETGNIHNVKGQGLGLSYVKKIVELHKGQIIVDSHKGKGSTFTIKLPMG	PGPT0002705_1443	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS003_02483	687	mprA_3	COG0745	Response regulator MprA	ATGAGCAACAGAATATTATTAGTAGAGGACGATCAGAGTTTCGGGGCGGTGCTTAAAGATTATTTGACCATCAATAATTTTGAAGTGACTCTTGCCACTGACGGGGAGCAGGGACTAAAAGAATTTACAGAAAATGAATTCGACATCTGCATATTTGACGTAATGATGCCTAAAAAAGATGGATTTTCATTAGCAGAAGATGTAAAAAAGATTGATAAAAACACACCTATTATTTTCCTTACAGCCAGAAATATGAGAGAAGATATCCTGAAAGGGTATCAGCTGGGTGCAGATGATTATATTACAAAACCTTTTGATACTGAGCTTCTTTTATACAAGATAAAAGCAATTCTTCAGAGAAGTTCTACTTTGGAAAATGAGGAGCAGGAGCAGTTCAAAATCAGTAATATTTTCTTCGACTCTATGCTGAGACAGCTGAAAGTAGGTGATAAAGAATACAAACTTTCTCCTAAGGAAAATGAATTATTAAAACTTCTTTGCATCCACAGAAACGATTTCATGCCGAGAGACCTTGCTTTAAGAAAGATCTGGAAAAAAGAAAACTACTTTACAGCGAGAAGTATGGATGTTTATATCGCAAAACTTCGTAAATTATTAAAAGACGACGAAGGATTGGAAATCATCAACGTTCACGGAGAAGGATTCAGACTTTTGGTAAAAAATTAA	MSNRILLVEDDQSFGAVLKDYLTINNFEVTLATDGEQGLKEFTENEFDICIFDVMMPKKDGFSLAEDVKKIDKNTPIIFLTARNMREDILKGYQLGADDYITKPFDTELLLYKIKAILQRSSTLENEEQEQFKISNIFFDSMLRQLKVGDKEYKLSPKENELLKLLCIHRNDFMPRDLALRKIWKKENYFTARSMDVYIAKLRKLLKDDEGLEIINVHGEGFRLLVKN	PGPT0013765_646	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
BMS003_02484	651			hypothetical protein	ATGGATATGAAGAATACATTTATAGGTTTGATCGCCGTATCGCTATTATCTACATCTTGTAAAAAAGATGAAAGAGCCACTTATTTAAAAGAAGAAGCTAATGCAGGACAGCCCAGCGTAACCCTTAATACCACCTCAAAAACTGCGCTGATGGATCAGGCAGGCATCCAGTCCAATGCTGCTCTCGCTCCTATGACTACAGCTCCGGGAATGAATCCCCCACACGGACAGTCTGGACACCGATGTGATATTCCTGTAGGACAACCTTTAAACGGTCAACCTGCTGCAACTGCTCCCACTACACAAAATGTAAGCGTGAACGGAGGCAATACCATCCAGATTGATCCCAATGCTGTATCACCAGGAAAAATTACCCTTGATAATAACGGAAAACAAATAAAAACCACTCCTGGAATGAATCCTCCACACGGCCAACCCGGCCACCGATGTGATATTCCTGTAGGACAGCCACTAAACAGCAAACCAGCTCCGGCACCACAGCCAACGCAAAATGCAATTCAGACTATTCCAAGCCCTGCACCTACGCCTGCTGCACAGAATCTGGCGATGGGAGAAAAACCTAAATTAAATCCTGCACATGGCGAACCTTGGCACAGCTGTTCTCTAAAAGTTGGCGATCCTTTACCATAA	MDMKNTFIGLIAVSLLSTSCKKDERATYLKEEANAGQPSVTLNTTSKTALMDQAGIQSNAALAPMTTAPGMNPPHGQSGHRCDIPVGQPLNGQPAATAPTTQNVSVNGGNTIQIDPNAVSPGKITLDNNGKQIKTTPGMNPPHGQPGHRCDIPVGQPLNSKPAPAPQPTQNAIQTIPSPAPTPAAQNLAMGEKPKLNPAHGEPWHSCSLKVGDPLP				NA	NA	NA	NA	NA
BMS003_02485	2709			hypothetical protein	ATGAAATTACCTATTTCCAGGTTGATACTTGGTGCATTATTCCTATTTACACAATTTATTTCTGCTCAAACACTTTCAAAAAATCAGTTCAAAGTAAAAGGGAATTGCGAGATGTGCAAAACCAGAATTGAAAGTGCAGCTAAAAAAGCAGGAGCTCAAACAGCAGTTTATTCCATTGATCTTCAAACCCTAACCTTAGAAACAGATCAGGTATCTGCCGATGATATCCTGAAAAAAGTAGCAGAAGCAGGCCATGATAATGAGAAATTCAAAGCATCTGACTCAACATATGAAGGACTTCCGGGATGCTGCCATTACAACAGAGACTTACAGCCTGCTCAGGCAGCAGAGCCACACCATGAGCATCATGCAAACCCTTCTGTCTCTGTTAAAAAAGAGAATGAATTCTATGTAAGAGGCAACTGTATTTCATGCAAAACCAGAATTGAAAAAGCATCAAAAGATGCCGGTGCCAATACTGCAGAATGGAATGCAGAGAAACAAACGGTTACTTTAAATTTTGACCCTTCAAAAACCTCATCAGACAAGATTTTAAAGGCAATTGCCGATGCGGGTCATGATAATGAAAAATATAAGGCATCTGATGCTGTATACAATAGCCTTCCGGGATGCTGTCTGTATGACAGAGATTTCACTTTTGGCGAACCCAACCCAAAAGCACATTATGAAGAAGCAACAAAGCATGAAGTTCATAGTGAGAGCTCAACCTCATCAGCTAAGGAAGAGCATTCTCAGCATGAAAAAAGCATTGACGGTGTTGTGGTAACAGGTTCTAAGGCAGCAACGGCTTTAAGTAAGAAAGATGCAGGACTTGTTTTCAATATTGATAAAAAAGAGCTTTTAAAAGCTGCCTGCTGTAATTTGTCTGAAAGTTTCGAAACCAATGCCACAGTAGATGTTTCTTTCAGCAATGCCGTTACAGGAACAAAACAGCTTAAAATGCTTGGACTGGATCAAAAATATACCAGTCTGACAAAAGAGCAGCTGCCCGAGATCAGAGGCTTGGCTTCTGCATACGGATTAAGTTTTATTCCGGGAAGATGGATCGAAAGTATTCAGCTTACGAAAGGAGGAAGTACCGTGACGAATGGCTATGAAAGTATCACAGGACAGATTAACACTGAACTTTTGAAAAATGCAAAGACTCCGGAAACTTCACTGAACCTTTTTTCTGACTTCAACGGAAGAGCAGAAGTAAATATTACCAATGTCTCTCCTATCAATGATAAATGGTCTCAGACTTTCCTTCTTCACGGGAACGGAACTTTCGGGAACACGGATATGAATCATGACAGTTTTCTGGACAGACCGAAAGGAACTCAGATTAATGCAGCTTATTTGCTGAATTATAATGATCTTGAAAAATCAGGATTCGGGTCTCATTTCGGGATTAATTTTATCCGAGATGAAAGAACTGCAGGACAGGTTGGCTATGATAAAAAACTGGCTCAGGATAAGCAATCTCTGTACGGTGTAGGAATCGACATTTCAAGATTTCAGGTATGGAACAAGACAGGATATGTTTTTAAAGGAAAGCCTTACCAGAGTATCGGATGGATGAATCAGTATGTATATCATCAGCAGGACAGTTTTTTTGGACTGAGAAATTATGCGGGACAGCAGCATACGTATTACTCTAATCTAATTTTTGAAAGTATCATAGGAAATACCAACCACAAGTATAAGGCTGGTGCAAGTTTCTTATATGACGGTTATAAAGAAACCTATTTAACGGATGACATGAGAAGAAATGAAATTGTCCCGGGAATTTTTGCTGAATATACTTTAACAGGTTTAAAATATACTTTAGTAGCCGGTTCAAGGGTAGATTTTCACAATCTTGCAGGAACACAGTTTACACCGAGACTTAATTTCAAGTATGATTTTACCCCAAAGACTATTTTAAGACTTTCTGCAGGAAGAGGCTTCAGAACAGCCAATGTTTTTGCGGAAAGCCAGCAGTATCTTGCATCAAACAGAACGATTAATATTTTACCCAACGGTGGAAATATTTATGGATTAAAACCTGAAATTGCATGGAACTATGGGGTAAGCTTACAGCAGGAATTTAAGTTGTTCGGAAGAAAATCAAGCATTGTTACAGATTTTTTCAGAACAGATTTTCAGGATCAGGTATTGGTAGATCTGGATAAATCTCCTCAACAACTGACATTCTATAATCTGGATGGGAAATCTTTTGCGAATTCATTCCAGACACAGTGGGATTTTATGCCTGTAAAAAATCTTGAAGTAAGGCTTGCTTATAAATATTATGATGTACAGGCTGATTATATTGACGGAAGAAGAGAAGTTCCTTTTATGGCGAAGCACAGAGGGTTTGTGAATTTAGCCTATTCTACCAATAAGAATGATAAAGGAGGGTTCTGGAGCTTTGACACTACTTTGAACTGGGTAGGAAAACAAAGACTTCCTGATACTTCAACAAATCCGGCAGAGTTTCAGCTGTCAGCCTATTCTGAATCTTATGCGGTTCTTAATGCTCAGATTTCAAAGAACTTCAATAAAAAGATCAGAGCTTATGTAGGTGGTGAAAACCTGACTTCTTACTATCAGAAAAATGCGATTGTAGATTTTAAAAATCCTTTCGGAAGTTATTTTGATGGCGGAATGGTATATGCACCGATTATGAAGGCTAACTTCTATGTGGGACTGGATGTGACGTTTTAA	MKLPISRLILGALFLFTQFISAQTLSKNQFKVKGNCEMCKTRIESAAKKAGAQTAVYSIDLQTLTLETDQVSADDILKKVAEAGHDNEKFKASDSTYEGLPGCCHYNRDLQPAQAAEPHHEHHANPSVSVKKENEFYVRGNCISCKTRIEKASKDAGANTAEWNAEKQTVTLNFDPSKTSSDKILKAIADAGHDNEKYKASDAVYNSLPGCCLYDRDFTFGEPNPKAHYEEATKHEVHSESSTSSAKEEHSQHEKSIDGVVVTGSKAATALSKKDAGLVFNIDKKELLKAACCNLSESFETNATVDVSFSNAVTGTKQLKMLGLDQKYTSLTKEQLPEIRGLASAYGLSFIPGRWIESIQLTKGGSTVTNGYESITGQINTELLKNAKTPETSLNLFSDFNGRAEVNITNVSPINDKWSQTFLLHGNGTFGNTDMNHDSFLDRPKGTQINAAYLLNYNDLEKSGFGSHFGINFIRDERTAGQVGYDKKLAQDKQSLYGVGIDISRFQVWNKTGYVFKGKPYQSIGWMNQYVYHQQDSFFGLRNYAGQQHTYYSNLIFESIIGNTNHKYKAGASFLYDGYKETYLTDDMRRNEIVPGIFAEYTLTGLKYTLVAGSRVDFHNLAGTQFTPRLNFKYDFTPKTILRLSAGRGFRTANVFAESQQYLASNRTINILPNGGNIYGLKPEIAWNYGVSLQQEFKLFGRKSSIVTDFFRTDFQDQVLVDLDKSPQQLTFYNLDGKSFANSFQTQWDFMPVKNLEVRLAYKYYDVQADYIDGRREVPFMAKHRGFVNLAYSTNKNDKGGFWSFDTTLNWVGKQRLPDTSTNPAEFQLSAYSESYAVLNAQISKNFNKKIRAYVGGENLTSYYQKNAIVDFKNPFGSYFDGGMVYAPIMKANFYVGLDVTF	PGPT0003780_17	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0003780-TC_FEV_OM2|cirA|cfrA|hmuR-K16089	NA	NA
BMS003_02486	498			hypothetical protein	ATGAGTACAGAAAAAAAAGAAATATTCGATAGAGTAGAAGGCATGTTGCAGACACAAGGTTTTAACATTGCAGCAAAAGATGATACAAGACCATGGGGAGGATTCTTTGTGATTGATGAAACGCAGGCACAGGATTTTGCCAACCAATATTTCGATGGGATTGATGTAGACAACCTGAGAATAGGTGGAAAGCTAAGCCCGAAAATTCTTATTGTTGCTCCGGAAGCAAGATTAAGCTGGCAGTATCACCACAGAAGAGCCGAAATCTGGCAGGTAGTGGAAGGAACCGTAGGAATCAAAAGAAGCAATACTGATGAGGAAGGTGAATTGGGAGAATACGGTCCAAAAGCTCAGGTAAAACTTCAGCAGGGAGAAAGACACAGATTAATTGGTCTTGCAGGCTGGGGAATTGTAGCTGAAATCTGGCAACATACAGATGCATCCAATCCTTCAGACGAAGATGATATCGTAAGAGTACAGGATGACTTTGGAAGATAA	MSTEKKEIFDRVEGMLQTQGFNIAAKDDTRPWGGFFVIDETQAQDFANQYFDGIDVDNLRIGGKLSPKILIVAPEARLSWQYHHRRAEIWQVVEGTVGIKRSNTDEEGELGEYGPKAQVKLQQGERHRLIGLAGWGIVAEIWQHTDASNPSDEDDIVRVQDDFGR	PGPT0017860_3648	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
BMS003_02487	2283			hypothetical protein	ATGAAGTTTATATTTTCTACTTGCTTACTGTTATTACAGGCCTGGGCTTTAGGCCAGAACGTATCTCCCGTAGACTATGTGAATCCTTTAATGGGAACGCAATCTAAACCTTCATTATCCAATGGAAATACCTATCCGGCAGTCGGACTTCCTTGGGGAATGAATATATGGACACCACAAACTGGTAAAATGGGCGACGGATGGGCATATACCTACGATGCAGATAAGATAAAAGGATTCAAACAAACCCACCAGCCCTCTCCATGGATGAATGATTATGGCGCTTTTGCCATTATGCCGGGAGTAGGAAAAGTAAAGTTTAAAGAAGATGAAAGAGCAAGCTGGTTCAGCCATAAAGCTGAGGTTACCACACCTTATTTTTATAGCGTTTATCTTGCTGATATCAATGTTACCACAGAATTTACTCCTACGGAAAGAGCTTCTTATTTTAAATTTGATTTTCCAAAAACAGACAGCGCTTATGTAGTGGTTGATGCTTTGAACAAAGGCTCTTACATCAAGATTTTACCAAAAGAAAGAAAAATCCTGGGATATACAACAAGATATTCTACCGGAAAATATGAGAATTTTAAAAACTACTTCGTCATTCAGTTTGATAAAGATTTTGAACTCACAAAAACCTGGAAAGACGATAAACTGGTCAATGACCAATTAGAAATTACCAGCGATCATACAGGTGCTGTAGTAGGGTTTAAACTTAAAAATAAAGAAACGGTGTATGCAAAAGTTGCCTCTTCATTCATAAGCTTTGAACAGGCAGAACTGAATCTTAAAAGAGAAATCGGAAACAGAAACTTTGAACAGGTAAAAACCGATGCTAAAAATATCTGGAACAAAACATTAGGAAAAATAGACGTAAAAGGAGGAACAGATCAGCAGATGAGAACCTTTTATTCCTCTTTATACAGAACTTTATTCTTCCCGCAAAAGTTATATGAAATCGATGCTCAGAATAAAATAAAACACTGGAGTCCTTACAACGGAAAAATTGCTGACGGAAGAATGTTTGCCGGAACCGGTTTCTGGGATACGTTCCGTGCTTTATATCCTTTCCTGAATCTGGTGTATCCAAGCATCAACGTAGAAATGCAGGAAGGCTTGGCTAATGCTTACAAAGAAGGAGGTTTCTTACCCGAGTGGAGCAGCCCGGGATATTCTGATATTATGATTGGGAACAATTCCGCATCAGTAGTAGCAGATGCTTACATCAAAGGACTTCGCGGATATGACACCGAAGCGCTTTGGCAGGCAGTAAAACACGGAGCAAATAATGAAGGTCCGATAGAAGCGGTAGGCCGTGCAGGAGTAGAATATTACAATAGATTAGGCTATGTACCTTACGATGTGAAAATCAATGAAAACGCAGCAAGAACATTGGAGTATGCTTATGATGACTTTTCGATTTATCAGCTAGGAAAAGCATTGGGGAAACCAGCTTCAGAGATTGATATCTATAAGAAAAGAGCCTATAATTACAAAAATGTATTTGATAAGGAAACAGGCTTAATGCGTGGTAAAAATAAAGACGGTAATTTCCAGAAACCTTTCAATCCTTTCAAATGGGGAGATGCTTTCACAGAAGGAAACAGCTGGCATTACACCTGGTCAGTTTTCCAGGATATTGACGGTCTTGCAGAACTGATGGGCGGAAAAAAGAAATTTGAAGCTAAATTAGATGAAGTTTTCTCATTGCCACCAGTTTTTGATGACAGTTATTACGGCGGAGTGATCCACGAGATCAGAGAAATGCAGATCATGAATATGGGACAGTATGCACACGGAAACCAGCCTATTCAGCACATGATTTATCTGTATAATTATGCAGGAGCGCCTTACAAAACCCAATATTGGGCAAGACAGGTGATGAACAAATTGTATCATGCCACTCCGGACGGATATTGCGGTGATGAAGATAACGGACAGACTTCTGCGTGGTATATTTTCTCAGCTCTTGGATTTTATCCGGTGACGCCGGCAACAGATCAGTATGTATTAGGGGCACCATTATTTAAAGAAGCAACTATCCATTTAGAAAATGGTAAGAAAATTGAAATAAAAGCTCCGGAAAATAATGCTGAAAATTTATATGTAAAATCATTAAATGTAAATCAACAGCCCTATTCCAAAAACTGGCTAAGCCATAAAGAACTGATGAAGGGAGCTGTTTTAGACTTTAAAATGGACAATAAACCCAATAAGGAAAGAGGTTCACAGGAAAAAGATTTTCCTTATTCAATGTCAAAAGAAGAATCAAATAAATAA	MKFIFSTCLLLLQAWALGQNVSPVDYVNPLMGTQSKPSLSNGNTYPAVGLPWGMNIWTPQTGKMGDGWAYTYDADKIKGFKQTHQPSPWMNDYGAFAIMPGVGKVKFKEDERASWFSHKAEVTTPYFYSVYLADINVTTEFTPTERASYFKFDFPKTDSAYVVVDALNKGSYIKILPKERKILGYTTRYSTGKYENFKNYFVIQFDKDFELTKTWKDDKLVNDQLEITSDHTGAVVGFKLKNKETVYAKVASSFISFEQAELNLKREIGNRNFEQVKTDAKNIWNKTLGKIDVKGGTDQQMRTFYSSLYRTLFFPQKLYEIDAQNKIKHWSPYNGKIADGRMFAGTGFWDTFRALYPFLNLVYPSINVEMQEGLANAYKEGGFLPEWSSPGYSDIMIGNNSASVVADAYIKGLRGYDTEALWQAVKHGANNEGPIEAVGRAGVEYYNRLGYVPYDVKINENAARTLEYAYDDFSIYQLGKALGKPASEIDIYKKRAYNYKNVFDKETGLMRGKNKDGNFQKPFNPFKWGDAFTEGNSWHYTWSVFQDIDGLAELMGGKKKFEAKLDEVFSLPPVFDDSYYGGVIHEIREMQIMNMGQYAHGNQPIQHMIYLYNYAGAPYKTQYWARQVMNKLYHATPDGYCGDEDNGQTSAWYIFSALGFYPVTPATDQYVLGAPLFKEATIHLENGKKIEIKAPENNAENLYVKSLNVNQQPYSKNWLSHKELMKGAVLDFKMDNKPNKERGSQEKDFPYSMSKEESNK				NA	NA	NA	NA	NA
BMS003_02488	867	nagK		N-acetyl-D-glucosamine kinase	ATGCAGAATATAGTAGGAATCGATATCGGTGGGTCTCACATCACGTTGGCTCAGGTAGATCCGGAAAAACGTGAAATCATTTCATCAACTTATGTGAGAGAACATGTAGATGCTTTCGAAAAGAAAGAAATTATTTTCAGCGCTTGGGTTTCAGCCATTGAAAAAGTGGCTCATGATCTGGTGAAAGAAGATCTTTTAATCGGTATTGCAATGCCCGGCCCTTTCGATTATGAAAACGGGGTATCCCTAATGCAGCAGGGGAAATTTATTGATATCTATCAGGTGAATATTAAAGAAGAGTTGGCAAAGAGATTAGGCATTTCTCAGGAGCAGATTCATTTTATAAATGATGCGGCTGCTTTTATGGAAGGTGAAGTATTCGGAGGATGTGCTCAGGGATTCGGCAGTGCTTTTGGAGTCACTCTCGGGACAGGATTGGGAACTACTTTCTTCAACGGAGAATTTGCTACTGATGAAGATTTATGGGATTCTCCCTTCAGAGATTCCATCAGTGAAGATTATCTGGCTACACGCTGGTTTGTAAATCATTATAAAGAACTCACCGGAGAAGAAATTTCAGGTACGAAAGATCTTCTGGATAAACCCAAAGAAATACAGACTCAAATGTTTGATGAATATGCAGATGCTTTCTCAGAATTTATTGTGAAATATGTAGATCATTACAAACCGGAAGTTTTAGTTATAGGAGGAAATATTGCCAAAGCGTATCCTTATTTTGAGCCAAGGTTTATTCAGAATTTAACAAAGAATAATATTAACTTGCAGGTTAAAATTTCAGTCATATTTGAAGATGCAGCCATTCTGGGAGCTGCAAGCTATGCATTAAAAAAAGCGTATATAAATTAA	MQNIVGIDIGGSHITLAQVDPEKREIISSTYVREHVDAFEKKEIIFSAWVSAIEKVAHDLVKEDLLIGIAMPGPFDYENGVSLMQQGKFIDIYQVNIKEELAKRLGISQEQIHFINDAAAFMEGEVFGGCAQGFGSAFGVTLGTGLGTTFFNGEFATDEDLWDSPFRDSISEDYLATRWFVNHYKELTGEEISGTKDLLDKPKEIQTQMFDEYADAFSEFIVKYVDHYKPEVLVIGGNIAKAYPYFEPRFIQNLTKNNINLQVKISVIFEDAAILGAASYALKKAYIN				NA	NA	NA	NA	NA
BMS003_02489	2370			hypothetical protein	ATGCTTCAGTGTGCCCCGTTGCTCAAAGCACAGCAGCTTAATCCCTTAGGAGTCTGCTATGTAGAAGTGAATAACAATAATCCGTTGAATGCGGGTTCCTATACTTTACAGAATACCAACAGACAGCTTTTTGACGTAGCCATTATTTTTGCAGCGAATATCAACTATGATGTTTCCAAAAACCGTGCTTATATCTCAAACAATAATAACGTTACCAAAGTTCTGAATGATGTTAATACTTACGTAAAACCTTTACAGCAAAAAGGAATAAAAGTATTACTGGATCTTTTAGGAAACCACCAGGGAGCTGGAATTTCTAATTTTCCAAACCGTGAGGCAGCTAAAGATTTCGCTTTACAGGTTGCTCATACCGTTTACACCTACGGTCTGGATGGTGTAGACCTTGATGATGAGTATGCAGGATACGGAAACAATGGAACAGGTCAGCCTAATAACAGCTCTTTTGTCATGCTTTTGCAGGAACTGAAAGCCGCAATGCCGGATAAACTGATTACATTCTACTACTATGGTCCGGCTACAAGCAGACAAACGTATAATGGAGATTTAGCAGGAAATTATATCAATTATACATGGAATGCGATGTACAGTACTTATAATGCACCTGCTGTTCCGCCTCTTGATAAATCTAAAATTTCTGCAGCTGCAACATGGATACAAAACTCGAATCCAAGCTCTACATCTGCGACTACACTGGCAAGCTTAGCGACCAGCACAAAAAATGACCAATATGGCGTGTTCATGTGGTATGATCTGGCAGGAACCAATGTTGCCAGCTATCTGAGTACTGGATCCAATATTCTTTACAATGAAAATACACTCTTAAGCGGTCAATTATATTCATGGTCGCAGGGACAGGCTTGTGATCCGCCATTGGGACTTGATGTTTCCAATGTTACAGGAACTTCAGCGCAACTGAACTGGGCTTCCAATGCTACCCAGTCTTATAATATTGACTATAAACCAGCTAATTCAACGGTATGGACAAACGTTGCCAATAATTATTCAGGAAATAATATTGTCATCAACAACCTTACTCTGAATACCAATTATGATTGGAGAATCCAGTCTAACTGTTCACCGACATTAACAAGTACTTATATTTTTGCACCAAGGTTTAACTCCGGAAGTGGCTGCACTACGCCATCAGGATTAACTTCCGGAAGTTTCCTTGGTAATACGGCTCAGTTATCATGGGATGCCGGAAATGCCGCTTCATATACACTGCAATATAAAACTGCTGCTGCAACAACGTGGTCTGAAATTCCAAATATTACAACCAATTCCTATTCATTACAAAACCTGACACCTAATACAAACTACGTATGGAAAGTACAGGCTTCATGTGCAGGAGGAACTGCGAGTACCTATTCAGGAGAAGGATCATTCAACAGCGGCTTTGCTCCTGTTACAAGCCCTGGAGCAAGATCTCTTGCTTTCAACGGAAGTACCAATTATCTTAATGCAGGACAATTTAACCTGAGCGGAAATGCTGTGACCTTTGAAGGTTGGGTAAAAGTAAATTCGTTTAAAACCGCTTTCCCTTATATTTCATCAGTATTAGGAGTGGAAGTAGGAGATAATAATTCGGCCATGCTTAGATTCGGAGACGGAAATCTGGCGAATAACAAACTTCAGTTTATACTGAGTTTCGGCTCATCACAGGTAAAATTGAATACGAATACCACATTCAATACCAATACATGGTATCATATAGCAGCTACTTATGATGGGACAGCCATGAAAATCTATGTGAATGGTAGCCTTGATGCAAGCTTTGCAGTAACCGGTGATTTTACGGCAAACGGTATCCTTTATCTGGGAAGAAACTATGACAACTCCCGTACAATCAATGGTTTCCTTGACGAATTCAGAGTGTGGAAAAAAGCCTTGACAGAACAGGAAATCTTAAATAACAGCTGTAACGTTCCTGCCAATTCCACAGGTCTTGAAGCGAACTGGAAAATGGATGAAGGAAGTGGAATGGGAGCATTAGATGCTACGGCAAACACTCATTTTGCAACTCTGATCAATATGACAGATGCGAACTGGAGAACAGACGTTGCCTGTGCAGGATCTCTTGCTGTGAAAGATATAGAATCCGTAAAAGGGAACAGTGCGGTTTACCCGAATCCTGTAAAAAGAGGAAATGATATTCATTTTGCTATCAGCGACAGTTCTGCCAATGAAGTGGCGTTATATGACGCTTCAGGAAAATTGTTCAAAAAACAGAATATTAATCAAAATAATAACACAGTGAATACGCAGGATTTAATCAGTGGTACTTATATTTACAAGATTACATCTGCCAACAGTAAAGTACTATCAACCGGTAAAATTATTGTGAAGTAA	MLQCAPLLKAQQLNPLGVCYVEVNNNNPLNAGSYTLQNTNRQLFDVAIIFAANINYDVSKNRAYISNNNNVTKVLNDVNTYVKPLQQKGIKVLLDLLGNHQGAGISNFPNREAAKDFALQVAHTVYTYGLDGVDLDDEYAGYGNNGTGQPNNSSFVMLLQELKAAMPDKLITFYYYGPATSRQTYNGDLAGNYINYTWNAMYSTYNAPAVPPLDKSKISAAATWIQNSNPSSTSATTLASLATSTKNDQYGVFMWYDLAGTNVASYLSTGSNILYNENTLLSGQLYSWSQGQACDPPLGLDVSNVTGTSAQLNWASNATQSYNIDYKPANSTVWTNVANNYSGNNIVINNLTLNTNYDWRIQSNCSPTLTSTYIFAPRFNSGSGCTTPSGLTSGSFLGNTAQLSWDAGNAASYTLQYKTAAATTWSEIPNITTNSYSLQNLTPNTNYVWKVQASCAGGTASTYSGEGSFNSGFAPVTSPGARSLAFNGSTNYLNAGQFNLSGNAVTFEGWVKVNSFKTAFPYISSVLGVEVGDNNSAMLRFGDGNLANNKLQFILSFGSSQVKLNTNTTFNTNTWYHIAATYDGTAMKIYVNGSLDASFAVTGDFTANGILYLGRNYDNSRTINGFLDEFRVWKKALTEQEILNNSCNVPANSTGLEANWKMDEGSGMGALDATANTHFATLINMTDANWRTDVACAGSLAVKDIESVKGNSAVYPNPVKRGNDIHFAISDSSANEVALYDASGKLFKKQNINQNNNTVNTQDLISGTYIYKITSANSKVLSTGKIIVK				NA	NA	NA	NA	NA
BMS003_02490	2151			hypothetical protein	ATGAAAAAAAAATCCATCTTTACCGCACTGATTGCCATCATGTTTCAGTCTGGTGCTCTGATTAACGCACAGCAGCTTAATCCTACAGGAATATGCTATGTGGAAGTGAATAACAACAACCTCCTGAATGCAGGAGCGTACAAACTGCAGACATCAAACAGCTATCTGTTTAATGTGGTAAATATTTTTGCGGCTAATATTAATTATGATACCAGCCGTGGAAGGGCTTATCTGTATTCCAATAACAACGTGACCAAGGTTCTTACTAATGCAGATACTTACATAAAGCCACTTCAGCAAAAAGGGATGAAAGTAGTACTGACTATTTTAGGGAATCACCAAGGGGCTGGGATCTGTAATTTTCCTACCCGTGAAGCTGCAAAAGACTTTGCATTACAGTTAGCCAATACAGTGAATACCTATGGTCTTGATGGAATTGATTTTGATGATGAATACTCAGAATACGGAAATAACGGAACAGGACAGCCCAATGACAGCTCTTTTGTAATGCTTGTTCAGGAGCTCAGAGCCTTATTACCGAATAAAATTATTTCATTCTACTATTATGGTCCTGCCGCTTCTAGACTTTCCTGGAACGGAGCCAGAGTAGGAGACAATGTCAATTACAGTTGGAATGCCATGTACGGAACATTTTCTGCTCCCAATGTACCTCCTCTTACCAAAGCACAGATCTCTCCGGCAGCCGTATGGATGGGAAATACTTCCAATTCTACCACTACCAGTTTAGCTACTCAAACTAAAAACGGAGGGTATGGAGTATTCATGTGGTATGATCTACATGGAACTAATGAGGCATCACAACTTTCAGCAGGAACCCAGACCTTATACGGAGAACCGACTGTTTTAAGCGGTACTTTACAATCATGGACGCAAGGAACCAATTGTGATGCGCCTATCGGATTGTACACAAGCAACCTTACAGGAACAAGTGCAAAGCTAAACTGGTCAGCCGTAGGAACCAATACTTATGATATTGATTATAAACCTGCTTCTTCAACAACCTGGACGAATGCGATTTCAGCTACAAGTTCTACTTCTGTAACTATTTCCGGATTAACAGCTAACACGGAATATGACTGGAGAATCAGAACCAACTGCAGTGTGAAAAGTACTTATATGTTTGCCCCAAGATTTACAAGCACTTCAGGAACAACGCCTACAGGTTCTTATGCATTATCTTTAGACGGAAGTACAGAATCAGGAGCAGCCGGAAACATGAACCTGAGTGGTTCTGCATTATCTTTTGAAGGATGGATCAAGCCTTCATCATTCAAATCCGCGTTTCCATATATTTCGTCCATCATGGGAACAGAAGTAGGCGACAGTAATTCTGCATTCTTAAGATTAGGGGATGCCAACGTGGCGAATAATAAACTTCAGTTTGTGGTAAGTATTAATAATGTACAGCAGAAACTGGCTTCTACAACAGCTTTGAATGCCAATACCTGGTATCACGTGGCAGCTACTTACGATGGATCCAATATGAAAATTTACATCAACGGAGCTTTGGACGCAACCAAGGCACAAACCGGAAGTGTGAATTCAACAGGTGCATTCAATGTAGGATATCTATACAACACATCAAGAAATTTCAATGGTAAAATAGATGAGGTAAGAGTGTGGAAACGTGCATTAAGCCAAACAGAAATCAGCCAGAATATGTGTAATGTATCCGTTCCGGCCACTTCACTGGCCGCTTACTGGAAATTTAATGAAGGAAGTGGTTCTTCCGTTCAGGATACTTCAGGAAACGGAGTGACATTAACGTTGACAGGTGTTGATTCTTCTAATTGGGGAACAGATGTGCCATGTACAACAGGAAGTTCAGCATCAGCAAGAACTGCTGGCCAAAAGGCGATCAATGTGGGAGAGGCAAACATTAAAAATCAAATAAAATTATACCCTAATCCGGTAAGTAAATTTTCATCATTGACAGTTTCTGTTCCGGATGAATACAGCAAAGGAAAATTGACTGTTTATGATTTTAACGGAAGAATTGTAGATACAAAATCATTGAATTCAGGAGACAATCAATACGAATTGAGCAGAGTTCCAGCAGGAAACTACATCATCCAGTTTGAATCTCATGATGGAAGCCTAAAACAATCCGAAAAACTAATTGTAAAATAA	MKKKSIFTALIAIMFQSGALINAQQLNPTGICYVEVNNNNLLNAGAYKLQTSNSYLFNVVNIFAANINYDTSRGRAYLYSNNNVTKVLTNADTYIKPLQQKGMKVVLTILGNHQGAGICNFPTREAAKDFALQLANTVNTYGLDGIDFDDEYSEYGNNGTGQPNDSSFVMLVQELRALLPNKIISFYYYGPAASRLSWNGARVGDNVNYSWNAMYGTFSAPNVPPLTKAQISPAAVWMGNTSNSTTTSLATQTKNGGYGVFMWYDLHGTNEASQLSAGTQTLYGEPTVLSGTLQSWTQGTNCDAPIGLYTSNLTGTSAKLNWSAVGTNTYDIDYKPASSTTWTNAISATSSTSVTISGLTANTEYDWRIRTNCSVKSTYMFAPRFTSTSGTTPTGSYALSLDGSTESGAAGNMNLSGSALSFEGWIKPSSFKSAFPYISSIMGTEVGDSNSAFLRLGDANVANNKLQFVVSINNVQQKLASTTALNANTWYHVAATYDGSNMKIYINGALDATKAQTGSVNSTGAFNVGYLYNTSRNFNGKIDEVRVWKRALSQTEISQNMCNVSVPATSLAAYWKFNEGSGSSVQDTSGNGVTLTLTGVDSSNWGTDVPCTTGSSASARTAGQKAINVGEANIKNQIKLYPNPVSKFSSLTVSVPDEYSKGKLTVYDFNGRIVDTKSLNSGDNQYELSRVPAGNYIIQFESHDGSLKQSEKLIVK				NA	NA	NA	NA	NA
BMS003_02491	1428			hypothetical protein	ATGGAAAGGAGAAATTTTATTAAAACAAGTGCACTGGCAGGAGCCGGATTGCTGTTTACTCAGAATGTTTTTGCTAAAAATTTAATACTGGACGATTTTCCTGTTGTCCGTGTTCCTAAAGATAAAAGACATTTTACCAGCGAATCCGTAGAAAGTGCTATTGCAGCGTTTAAAAAGAAAGTGAAAAACAAAGAGCTAAGCTGGCTTTTTGAAAACTGCTTCCCGAATACATTAGATACTACCGTTTACTATACGGAAACCGGCGGAAGACCGGATACCTATGTGATCACTGGGGATATTGATGCCATGTGGCTTCGTGACAGTTCCGCACAGGTCTTTCCTTATCTGCAGTTCTCAAAAAAAGATGAAAAACTTCATAAGCTGATCTCGGGAGTTATCCATAAACAAACGACATTCATCCTTAAAGATCCTTATGCAAACGCTTTCTATAACGATGATCAGAAGATCAGTAAATGGAAAGAATATGACCATACTGATATGAAGCCGGGAATCCATGAAAGAAAATGGGAAATTGACTCGCTTTGCTATCCTATCCGTCTCGCATACCACTTCTGGAAAACAACAGGAGATACAAAACCTTTTGATGCCAACTGGCTGAAAGGAATTAAACTTACCCTTCAGACTTTCACAGAACAGCAGAGAAAACATGATCTGGGACCTTATAAATTTGAACGTACTACAGCTTGGGCTACAGACGGAGTTCCTATGGGAGGATATGGTTATCCAACGAAACCTGTAGGATTGATCAGCTCTATGTTCCGTCCAAGTGATGATGCTACCATCTACGGATTCCTGATCCCTTCCAATTTATTTGCCGTGGTAAGTTTACGTCAGGCTGCGGAAATGGTTTCACAAATTAAAAATGAAAAAACATTGGCTCAACAACTGAACAGCCTTGCTGATGAGGTAGAAGCAGCCATTAAAAAATACGGAATTTACAATCATCCTGAATTTGGAAAAATATATGCTTTTGAAGTAAATGGCTTCGGAAGCTACAACCTGATGGATGACGCGAACTGTCCAAGTTTGTTAGGATTACCTTATCTGGATGCGGTGAAAGCAGATGACCCTGTATATTTGAATACAAGAAAATTTGTGTGGTCAGAAAACAACCCATTCTTCTTCAAAGGTAAGCTGGCAGAAGGAATAGGAGGTCCACATATCGGACTTGACATGATCTGGCCAATGAGTATCATAATGAAGGCACTCACTACCAAAGACAAAAGTGAGATCAGATGGTGCATAGATACCTTACAGAAAACGCACGGAGGAACAGGCTTTATGCATGAATCCTTCCATAAAGACGACTCCAGAAAATTCACCAGAGATTGGTTTGCATGGGCCAATACCCTGTTTGGCGAATTGTTATGGAAAACCTTTAACGAAAACCCAGAGCTACTGACATAG	MERRNFIKTSALAGAGLLFTQNVFAKNLILDDFPVVRVPKDKRHFTSESVESAIAAFKKKVKNKELSWLFENCFPNTLDTTVYYTETGGRPDTYVITGDIDAMWLRDSSAQVFPYLQFSKKDEKLHKLISGVIHKQTTFILKDPYANAFYNDDQKISKWKEYDHTDMKPGIHERKWEIDSLCYPIRLAYHFWKTTGDTKPFDANWLKGIKLTLQTFTEQQRKHDLGPYKFERTTAWATDGVPMGGYGYPTKPVGLISSMFRPSDDATIYGFLIPSNLFAVVSLRQAAEMVSQIKNEKTLAQQLNSLADEVEAAIKKYGIYNHPEFGKIYAFEVNGFGSYNLMDDANCPSLLGLPYLDAVKADDPVYLNTRKFVWSENNPFFFKGKLAEGIGGPHIGLDMIWPMSIIMKALTTKDKSEIRWCIDTLQKTHGGTGFMHESFHKDDSRKFTRDWFAWANTLFGELLWKTFNENPELLT				NA	NA	NA	NA	NA
BMS003_02492	2292			hypothetical protein	ATGGTTTTCCTATTTTTAAACCAACTTTTAAACAAAAAAATCTCCGATACCTCTCTTATCATGAAAAAAGAACTGTTAATCTGCTTTTTTACCACCCTGATTTCTGTAGCCAGTGCCCAGCAAAATAAAAACGATGTTTTATCCTGGGTAGATCCTTTCATAGGCACAGGAGGACACGGGCATACGTTTCCGGGGGCAACTACACCATTCGGGATGATACAGCTGAGCCCGGATCAGAATACGAAAAGCGGCGACTGGGACTGGTGTTCCGGATATCACTACAGTAGCAAGACAATCATGGGATTCAGTCATAACCATTTGAGCGGAACAGGATGGGCAGACCTTGGAGATATTCTGGTAATGCCTACGGTGGGACAGGTAAAAATGGTTCCCGGATCTGAAGAAAACCCTGAAACAGGTTACCGTTCAAAATTTACGCATGATAAAGAAGTTGCGTCTCCTGGATATTATTCCGTAATGCTGGACAGCTATGGAATTAAAGCAGAACTTACCGCTTCCCCAAGAGTCGGATTTCATAAATATACTTTCCCGAAGAGTAGTGAAGCTAATATCATTATTGATCCTACTAATAAGATCTTCGGAAATATCTACCATACTTTAGTGAGTGTGGAAGGCAATAATAAAATCAAAGGTTACTGCTACAGCAATGGCTGGGGAGGTAAACGATTTGCTTACTTCGTGATGGAGTTTTCCAAACCGTTTAAGTCTTACGGCGTGTATGCTGACGGAAAAATCAAAAATGATGAAAAAATTGCCCTTGCCAAAGATGCTAAAGCTTTTGTAAGATTTTCAACTGAGGATCAGGAAAGCATTGAAGTAAAAGTATCTTTATCTCCGGTGAGTACAGAAAATGCACAGGAAAATTTTGATACGGAAGCAACAAATGTTGACTTTGCCAAAGCAAAAGAAACAGCACAGAAAACCTGGAGAGATCTGATCGGCAGATTCCAGGTGACAGGAGGAACGGACAGCCAGAGAAAAATTTTCTATACCGGAGTTTACCATACCTTCATTGCTCCAAACCTTTACATGGACGTGAATGGAGACTATGTTGCCGCTCAGGAAAACATGAATACCAAATGGTTTACCAACTACAGTACTTATTCTTACTGGGACGGATTCAGAGCAACACATCCGCTATTGACCATTATGGATCAAAAACATACAAAAGAATTTGCGAATTCTCTGATCAGCAGATATACAGATCGTAAAGATCACATGCCGATCTGGGAGCTTTGCGGATATGACAATTTCTGTATGCTAGGTTATCACAGTGCTTCGGTAATCTGGGATGCCATCTCAAAGGGAGTTCCGGGTATTGATGCAGAAAAAGCATTTGCTGCGATGAAAGATGCATCTTTAACAGACAAAATGAGCAGCAGCGATGGTGGCGGAGGTCTTAATGATTATATCAAATTAGGCTACACTCCATCAGAAAACGGAGCTTCTGTTTCCGCAACATTAGAATACTCATATGACGACTGGTGTATTCAACAGCTTGCGGAAAAATTAGGCAAAAAAGAAGAATCAGAAGTGTATAAAAAACGTTCTATGAACTTCCTGAATACCTTCAATAAAGAAAATAACCACTTCTGGCCAAGACAGAAAGATGGAGAATTCTTAGCAGATTTCACCCTTAACGATTGGAAAAAACTACAGCCACACTGGGTTTCCGGAAACATCTGGGCGTATGACTTCTTTGTTCCTCATCAGATTGATGAGATGATGAATCTGTATGGAGGTAAAAAAGGATTTGAAGAAAAACTGGATAAAACCTTTACAGAAGCGCTTCATATGGAAGGAGAGCAGCATGTAGATATTTCAGGATTTATCGGGTCTTTAGGATTCGGGGATGAACCGGGACATCATGTTCCATACCTGTACAATTATGCAGGAAGTCCTTACAAGACTCAGAAAATGGTAAAATATATCCGTGACAATATGTACGCCGCTAAACCTGACGGAATCGTTAACAATGAAGACTGCGGTCAGATGTCAGCATGGTATATCTTCTCATCATTAGGATTCTATCCTGTAACACCGGGGAAACCTGTTTATGCCATAGGAGCACCACAATTCCCGAAAGCTTCTTTAAAATTGGAGAACGGAAAAACGTTTACGGTTGTTGCAGACAAAATTTCTGACAAAAATATCTACGTACAGAAAATGTTCCTGAACGGAAAAGAGTACAAAAGCTGGGAGCTGAACCACAGCGATATCATGAACGGTGGTGAATTGAGATTCGTAATGGGAAGCAAACCAGTAAAATAA	MVFLFLNQLLNKKISDTSLIMKKELLICFFTTLISVASAQQNKNDVLSWVDPFIGTGGHGHTFPGATTPFGMIQLSPDQNTKSGDWDWCSGYHYSSKTIMGFSHNHLSGTGWADLGDILVMPTVGQVKMVPGSEENPETGYRSKFTHDKEVASPGYYSVMLDSYGIKAELTASPRVGFHKYTFPKSSEANIIIDPTNKIFGNIYHTLVSVEGNNKIKGYCYSNGWGGKRFAYFVMEFSKPFKSYGVYADGKIKNDEKIALAKDAKAFVRFSTEDQESIEVKVSLSPVSTENAQENFDTEATNVDFAKAKETAQKTWRDLIGRFQVTGGTDSQRKIFYTGVYHTFIAPNLYMDVNGDYVAAQENMNTKWFTNYSTYSYWDGFRATHPLLTIMDQKHTKEFANSLISRYTDRKDHMPIWELCGYDNFCMLGYHSASVIWDAISKGVPGIDAEKAFAAMKDASLTDKMSSSDGGGGLNDYIKLGYTPSENGASVSATLEYSYDDWCIQQLAEKLGKKEESEVYKKRSMNFLNTFNKENNHFWPRQKDGEFLADFTLNDWKKLQPHWVSGNIWAYDFFVPHQIDEMMNLYGGKKGFEEKLDKTFTEALHMEGEQHVDISGFIGSLGFGDEPGHHVPYLYNYAGSPYKTQKMVKYIRDNMYAAKPDGIVNNEDCGQMSAWYIFSSLGFYPVTPGKPVYAIGAPQFPKASLKLENGKTFTVVADKISDKNIYVQKMFLNGKEYKSWELNHSDIMNGGELRFVMGSKPVK				NA	NA	NA	NA	NA
BMS003_02493	972		COG2152	1,4-beta-mannosyl-N-acetylglucosamine phosphorylase	ATGACAGCTCAATCAGTAATGATCCCCTGGCAGGATCGCCCGGAAGGTTGCAATGATATCATGTGGAGGTTTTCCGAAAACCCGATCATTAACAGATACGCGATACCAACATCCAACAGTATATTCAATAGTGCCGTGATTCCTTTTGAGGACGGATTTGCCGGAGTCTTCCGTTGTGACAACAAGGCAGTACAGATGAATATTTTTGCTGGATTCAGTAAAGATGGAATCAATTGGGACATCAATCATGATCCTATTGAAATGCAGGCAGGAAATACGGATATGATTGAATCCGATTACAAATACGATCCCCGCGTAACCTTTATAGAAGACCGCTATTGGATCACATGGTGCAACGGATACAATGGTCCTACCATCGGTATTGGGTATACTTTTGATTTTAAAGAATTTTTTCAGTGCGAAAATGCCTTTCTTCCCTTCAACAGAAACGGAGTTTTATTTCCTGAAAAAATTAATGGGAAATATGCCATGCTGAGCCGTCCGAGTGATAACGGACATACACCTTTCGGTGATATTTATATCAGCTACAGCCCTGATATGAAATACTGGGGCGAACACCGTTGCGTGATGAAAGTAACTCCTTTCGAAGACAGTGCATGGCAGTGTACCAAAATCGGAGGTGGGCCGGTTCCTATTAAAACAGAAGAAGGATGGCTGCTTTTCTATCATGGAGTGATCAATACCTGCAGAGGATTCAGATATTCAATGGGAGCAGCTTTGCTAGATCTTGAAGATCCTACAAAAGTATTGTACAGAACGAAACCTTATCTGCTGGCACCGGCAGAATTGTATGAAATGACAGGAGATGTACCGAATGTGGTTTTCCCTTGTGCAGCATTGACTGAGGGAGACAAAGTAACAGTATATTACGGAGCTGCTGATACCGTAGTTGCGATTGCCTTTGGATACATCTCAGAAATTATTGATTTTATGAAAAAGAATTCAATTTAA	MTAQSVMIPWQDRPEGCNDIMWRFSENPIINRYAIPTSNSIFNSAVIPFEDGFAGVFRCDNKAVQMNIFAGFSKDGINWDINHDPIEMQAGNTDMIESDYKYDPRVTFIEDRYWITWCNGYNGPTIGIGYTFDFKEFFQCENAFLPFNRNGVLFPEKINGKYAMLSRPSDNGHTPFGDIYISYSPDMKYWGEHRCVMKVTPFEDSAWQCTKIGGGPVPIKTEEGWLLFYHGVINTCRGFRYSMGAALLDLEDPTKVLYRTKPYLLAPAELYEMTGDVPNVVFPCAALTEGDKVTVYYGAADTVVAIAFGYISEIIDFMKKNSI	PGPT0018740_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_FRUCTAN|MANNAN_BREAKDOWN,PGPT0018740-mp2-K18785	NA	NA
BMS003_02494	1290	ampG	COG0477	Anhydromuropeptide permease	ATGGGAAAAAACAATTCCGGAACCCGTAGGATCCAGCCAATTCTTTGGATTTCCACATTATATTTTGCAATGGGTGTGCCCTTTGTAACTATTAATGCGGTTTCAGGAATCATGTATAAAGATATGGGGGTATCGGATGCACAGATTACATTCTGGACAGCCCTTATCCTTTTCTCCTGGACACTGAAACCTCTTTGGAGCCCGTTCCTGGAGATCTATAAAACAAAAAAATTCTTTGTTGTTTTTACCCAGTTTGCTATAGGAATTCTGTTTGCTCTGATCGCACTAAGTCTGCCATTACATGACTTTTTTAAATACAGTATTGCCCTTTTTGCAGTAGTGGCATTTTGTGGAGCTACCCATGATGTGGTAGCAGACGGAACGTATATTGGCTTTTTGACCAATAAAGAGCAGGCAAAATATATTGGCTGGCAGGGTGCATTTTACAATTTGGCAAAGATTATCAGTAGTGGAGCACTTGTTTATTTTGCTGGTGTATTAGAAAAAACAAAAGGAGTTACACATGCCTGGATGATCATTATGGTGATCTATGCATTACTGTTTTTTGTACTGGCTATTTACCACTATTTTATTCTGCCGAAGGAAAACAAAGAAGAAAATAAAGAAGAGAAAACAGCAGGAAATGTTCGCAAAGAACTATTGGAAGTGATTACTTCTTTTTTCACCAAAAAGAAAATCCTGTGGTGTATACTCTTCATTATTCTGTACCGTTTTGCGGAAGGATTCGCCATTAAAATTGCCCCTTTATTTTTTAAAGCTCCAAGAACGTCAGGAGGATTAGGATTATCTACTTCAGATATCGGACTTATTTACGGAACATATGGTTCTGCAGCATTTATCTTAGGATCTGTTCTGGCAGGATATTTTATCTCAGCCCGCGGACTGAAAAGATCTTTGATATGGCTCTGCTGTGCATTCAACATTCCATTTGTGGTGTATGCACTACTGGCTCACTATCAGCCTTCAGAGCTTCTTCCTGTAGGAATTGCCGTAGTAGTGGAATATTTTGGCTATGGATTTGGCTTTGTAGGGTTAATGCTCTACATGATGCAGCAGATTGCACCCGGAAAACACAAAACAGCTCACTACGCATTTGCCACAGGAATTATGAATCTTGGCGTAATGATTCCCGGAATGTTCAGCGGAATGATCAGTGACTGGATTGGGTACAAAATGTTCTTTATCTGGGTGTTGATTGCCACCATTCCTGCATTTTTAGCAACCTTATTCGTCCCTTTCCCTCATCCGGAAGGTCAGAAAGAACAATAA	MGKNNSGTRRIQPILWISTLYFAMGVPFVTINAVSGIMYKDMGVSDAQITFWTALILFSWTLKPLWSPFLEIYKTKKFFVVFTQFAIGILFALIALSLPLHDFFKYSIALFAVVAFCGATHDVVADGTYIGFLTNKEQAKYIGWQGAFYNLAKIISSGALVYFAGVLEKTKGVTHAWMIIMVIYALLFFVLAIYHYFILPKENKEENKEEKTAGNVRKELLEVITSFFTKKKILWCILFIILYRFAEGFAIKIAPLFFKAPRTSGGLGLSTSDIGLIYGTYGSAAFILGSVLAGYFISARGLKRSLIWLCCAFNIPFVVYALLAHYQPSELLPVGIAVVVEYFGYGFGFVGLMLYMMQQIAPGKHKTAHYAFATGIMNLGVMIPGMFSGMISDWIGYKMFFIWVLIATIPAFLATLFVPFPHPEGQKEQ	PGPT0028125_1500	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
BMS003_02495	1626			hypothetical protein	ATGAAAATCAATACTATAAAAACATTGGTGTTTGGGGCAGCAGTACTATTTTCTGCTTCGGGATGTACCAATGACTTTGACCAATATAATCAGGAAAAACTAGGAGGACCTGAAAATTTTTATGCAGATTTTATCGCTGTAGTGAACCCCATGAAATCTATACAAAGAGGACTGCAGGCAGATTATCAGCTGTATCCTAACCTGAGTGCAGATATGTACAGCGGAATGTTCAGTACCGCAACACCATTTAACGGAGGAGTAAATAACCTTACTTATTCTATGATGGATGGATGGAACAATAGAATCATTGCCAGACAACAGGATATTTTTAATTATTCTATCATTATTGATAATGCTGCCAAAGGGAACTATCCAGGTGTAGATTTTACAGGGACACTTGCCGTGAAAAAGATTCTGAAAGTCATTACGGCAGCAAGAGTATCAGACAGTCATGGCCCTGTGGTATACAGCAAATATGAAAAACCCAATCCTAACGGAGTTACAGATTTTGATTCTCAACAGGAAGCTTACAATTATTTTATTGCTGATCTTACTGCAGCTATTACAGATTTACAGAAAGTAATTGCTATGTCAGCAACACAGAATGTTGAAGATAAAACTTCATTGAAAAGTGCAGACTTAGTATATGGTGGAAATATGGCGCAATGGGCAAAATTTGCCAACTCATTAAAGCTGAGACTAGCCATGAGAATGAGCTACGCAGATCCTGCAAAGTCAAAACAATATGCAGAAGAAGCATTGGCTTCATCTGCAGGTTTAATTACTGACAATGCAGATAATGCTTTGATCAGTGTAGGGCAGTCAGAATTAAGCTTTATTATTTACTCATGGGGAGACTGTCTGATAGGGGCACCTTTGATGGCTTATATGAACGGATATAATGATCCAAGACTTCCCGCATATGCTATTCCGGCATCGGATGCCAGTCTACAAGGAAAATATATAGGAATACGCCAGGGAATTGATTTGTTAAATGGTAAATCAACTTACGGAGGATTCTCTCAGCCACAGGCAAAATCTGCCAATGGAGATTATTTTTCCGGTACCGATGGTAAAATGAAATTATTCACCGCTGCAGAAACATGGTTCCTGAAAGCAGAAGCTGCCTTGAGAGGCTATGCCGGAGCAGGTGATATTCAGGCCAATTATACTACCGGAGTGCAACAGTCTTTTGGTGAATGGGGAAAAAGTGCAAGTGTTGCAACATATCTTGCCGATACAACTTCTACAGAGGCTCCTTATGTTGACCCGAAAAATGCAGACAATAATGTACCTGTTGGAAATCCACAGCTAAGTACCATCACGATTGCATGGAATAACGGTGACACCAACGAAAGAAAATTAGAAAGAATCATTACCCAAAAATGGCTTTCCCTTTATCCGAACGGACCAGAAGCATGGGCAGAGCAGAGAAGAACAGGATATCCGATTCTTTTCAAAGTAAGAAAAAATGACAGTGGCGGAGCCATCAGTACAGAAGCAATGATCAGAAGAATTCCTTTCACTATTGATACCAAAACGTCATTATATAATTACCAGCAGGCTGCACAAATGCTTAACGGACCCGATACCGGAGGCACTAAGCTATGGTGGGATAAGAAATAA	MKINTIKTLVFGAAVLFSASGCTNDFDQYNQEKLGGPENFYADFIAVVNPMKSIQRGLQADYQLYPNLSADMYSGMFSTATPFNGGVNNLTYSMMDGWNNRIIARQQDIFNYSIIIDNAAKGNYPGVDFTGTLAVKKILKVITAARVSDSHGPVVYSKYEKPNPNGVTDFDSQQEAYNYFIADLTAAITDLQKVIAMSATQNVEDKTSLKSADLVYGGNMAQWAKFANSLKLRLAMRMSYADPAKSKQYAEEALASSAGLITDNADNALISVGQSELSFIIYSWGDCLIGAPLMAYMNGYNDPRLPAYAIPASDASLQGKYIGIRQGIDLLNGKSTYGGFSQPQAKSANGDYFSGTDGKMKLFTAAETWFLKAEAALRGYAGAGDIQANYTTGVQQSFGEWGKSASVATYLADTTSTEAPYVDPKNADNNVPVGNPQLSTITIAWNNGDTNERKLERIITQKWLSLYPNGPEAWAEQRRTGYPILFKVRKNDSGGAISTEAMIRRIPFTIDTKTSLYNYQQAAQMLNGPDTGGTKLWWDKK				NA	NA	NA	NA	NA
BMS003_02496	2961			TonB-dependent receptor P26	ATGAGAAAAGCAGTTATACCCGTTCTGTTCGTTTTTTCACTTACTGCGAATGCACAGGAGAAAAAAGCGGCTGATACTACGAAGACAACCAGTATTGAGGAGGTCGTAGTCACCTCTTTGGGGATAAAAAGGCAGGCCCGCTCCCTGACGTACTCCAGTCAGCAAATTGGTGGGGATGAACTTACAGAAGTGAAAACTCCCAATCTATTAAACTCGATCAATGGAAAAGTTTCCAATGTACAGATCAACAGAACTAATGGTGTAGGTAGCTCGGTAAGGGTGATCATGAGAGGAAATAAGTCTGTCAATAATGCGCAGCCACTGTATGTAATTGATGGGATTCCTATTATCAACGGAACAGGAAAGTCTGCAGATATCGGACAGTATTCCAATATGCCTGATCCGGGGGACGTACTGAGCTCCATCAATCCTGATGATATTGAAAGCATCAACTTCCTGAAAGGAGCTTCTGCTTCTGCATTGTACGGTTCTGCCGGAGGAAACGGAGCTATATTGATTACCACTAAAAAGGGACGTGCAGGGAAAAGTTCCATTACTTACAGCTCCAGCTTAACAGTAGACAGAGCATATAGTCTTCCAAAATTGCAGCACAGCTATTTATCTTATGATCCATCTGTTGCAGGCTCACAGCCTGGGCAATCTGTAGACAGCTGGGGTGCAAAGGGAGAATCTAAGGATTACCTTAAAGATTTTCTGCAGACAGGAACTACGTGGGTAAACAGTCTTTCTTTCCAGTCCGGAAATGAAAGATCAACCAGCTATTTCTCTATTGGGAATACCACCAATAAAGGAGTGGTTCCGATGTCGTATTTTGATCAGTATAATGTTTCTTTCAGAAATTCCAGTAAGTTTTTGGATGATAAACTGACATTAGATGCCAACTTCATCGGATCATTACAGGAAAGTAAAAACAGACAGACTCCGGGAGCCTCTTTTTCCCCTTTAACGAGTTTATACTGGCTGCCTAGAGGGGTAGATTTTGACCAATACGGGGAGAATAATTATTCTTATTTAGATAAAACAAGATTTTTACCTGCTCAAAACTGGTGGGAAGTAAACCCAGACGGAAGCTTCAAAGGAAATCCGGTGACGCAGAATCCTTACTGGATTTTAAACAGAAATCCGGTTACAGTAAGTAATAAGAATACATATGGAGCGCTTTCCCTTTCTTATCAGATCAATCATTGGTTGACTGCGAGAGTGAGAGGGAATTATAGCTGGAATATTTCAGACAGCCAGCGTGATATTGCGGCTTTCTCAGCACCAAGTTTACTGGCTAACGGTACGAACGGAAGAATACTTAAAAATACCTACGAAAACTCTTCTACTTATGGAGATGTTTTGTTAATCGGTAGTCCTAAGATAAATGAATCCATCTCATTGGATTTTACCGTAGGGGGAAGTATTAATACCACTAGAAATAAAATAGGACAAATTGATAACGCTTATCTGGCAAATCCTAATCTTTTCACATTGAATAACCTTCAGTGGAATGTAAACAGAGCACCGGGAGATGGATATCATAATACCTATACGAACATGAAAAAACAGGTACAGTCTGTTTTTGCAAGTGCTTCCGTAGGATACAAAAATATGTTCTATGTGGATATGACTTTCAGAAACGATTGGGATTCTACTTTAGCATTAACGGGAAGAACAGGGTTTGATTATGAATCTGTAGGGGCAAACGCTATACTGTCTTCTGTTTTCAAACTTCCGGAAGTTATTAATTTCTGGAAAGTAAGAGGATCTTACGCAACAGTTGGGTTGGGATTACCTACCAATATTACCAATGCAATGGTTGAATATAATAAAGGATATGTTTATGGGGTAGATGCAGGAACTATTGTATATCCTAAGAGTTCTTTTGCTACAGGGGTTGGTTTTGAAGCATTGCTTCCAAAGCCGGAACTTAATAAAACTTTTGAAGCCGGAACTGAGTTGAGGATGTTGGGTAACAGATTGAATTTTGATATTACCTATTATAATTCCAATACCAGTAATCAGTTGTTGGAAACAACAATTCCGTCTTACTTAGGAGGATTGGCTCCGGGGTCATACTATATCAATGCAGGAAAAATTCGGAATACAGGTTTTGAATCTTCATTATCTTATAAGATTTTTGATTCAGGACAATTTGGATGGACAACTACATTAAATGCATCTGCTAATAAAAACAAGATCATTGAATTATTGCCAACAAGTATAAATGTTTCCAAAGACCTGACTTTTTCACTGACAGGAGGTGGGGATTATACAAGGTTAAAACTGGGAGGTTCTTTTGGAGATCTTTACGGAATTAAGTTTAAAAGAGATGATCAGGGTCGTATTCTTGTCAATGAAAAAGGGGTTCCTTTGGCAGAGAGTACTCCTTCTTATCTGGGTAACCCGAACCCTAAGTTTATTATGGGATTCAATAACTCATTTAATATTGGTAAACTGGGAATCTCTTTCCTTATTGATGGTAAATTCGGAGGAAAAGTATTATCTCTTACAGAAAAAGCTAATGATTTGTACGGAGTAAGCCAGAGAACAGCAGATGCAAGAGATGCAGGAGGAGTATCAATTCCAAATGCAGTATATGCTCCGGGAACTCCAAATGAAGGACAGGCTTATACTGGTTTAACGAATACAAAAGATTATTATAAAGCAGTAGGAACAACTGAAGGATTCGGGAAAGGAGTTGATGAAGCTTATTTATATAGTGCTACAACAATACGTTTACGGCAGGCATCGGTTTCATATACTTTTGATGTTAATTCAAAATATTTGAAAAATGCCACGGTAAGTTTAGTAGGAACCAACTTATTTTTCTTCTATAAAAAAGCACCGTTTGATCCGGAACAGGTATCTGGAAATACACCTGGTGGAGTAGGGGTAGATTCATTCGGATTACCGGTTACTCGATCTATCGGATTATCTTTAAAAGCTAACTTCTAA	MRKAVIPVLFVFSLTANAQEKKAADTTKTTSIEEVVVTSLGIKRQARSLTYSSQQIGGDELTEVKTPNLLNSINGKVSNVQINRTNGVGSSVRVIMRGNKSVNNAQPLYVIDGIPIINGTGKSADIGQYSNMPDPGDVLSSINPDDIESINFLKGASASALYGSAGGNGAILITTKKGRAGKSSITYSSSLTVDRAYSLPKLQHSYLSYDPSVAGSQPGQSVDSWGAKGESKDYLKDFLQTGTTWVNSLSFQSGNERSTSYFSIGNTTNKGVVPMSYFDQYNVSFRNSSKFLDDKLTLDANFIGSLQESKNRQTPGASFSPLTSLYWLPRGVDFDQYGENNYSYLDKTRFLPAQNWWEVNPDGSFKGNPVTQNPYWILNRNPVTVSNKNTYGALSLSYQINHWLTARVRGNYSWNISDSQRDIAAFSAPSLLANGTNGRILKNTYENSSTYGDVLLIGSPKINESISLDFTVGGSINTTRNKIGQIDNAYLANPNLFTLNNLQWNVNRAPGDGYHNTYTNMKKQVQSVFASASVGYKNMFYVDMTFRNDWDSTLALTGRTGFDYESVGANAILSSVFKLPEVINFWKVRGSYATVGLGLPTNITNAMVEYNKGYVYGVDAGTIVYPKSSFATGVGFEALLPKPELNKTFEAGTELRMLGNRLNFDITYYNSNTSNQLLETTIPSYLGGLAPGSYYINAGKIRNTGFESSLSYKIFDSGQFGWTTTLNASANKNKIIELLPTSINVSKDLTFSLTGGGDYTRLKLGGSFGDLYGIKFKRDDQGRILVNEKGVPLAESTPSYLGNPNPKFIMGFNNSFNIGKLGISFLIDGKFGGKVLSLTEKANDLYGVSQRTADARDAGGVSIPNAVYAPGTPNEGQAYTGLTNTKDYYKAVGTTEGFGKGVDEAYLYSATTIRLRQASVSYTFDVNSKYLKNATVSLVGTNLFFFYKKAPFDPEQVSGNTPGGVGVDSFGLPVTRSIGLSLKANF				NA	NA	NA	NA	NA
BMS003_02497	879	rhaS_9		HTH-type transcriptional activator RhaS	ATGAGCGAATTAGAAAATATTCTGAGAGAAATAACTCCACTATCTCCTGAGGATAGTTTTCTCGTATTTGACAGGATTAAGGCCTCCTTCGACTTTCCGTACCACTATCATCCGGAAATTGAGATCAACTTTATTTATAAAGGGAAAGGCTACCGAAGAATGATTGGAGACCATACCGGAGAGATCGGAAATATAGAGTTGGTGCTGGTAGGGCCCAACTTACCCCACTGTTGGGCAAATTACAGATGTAAGAACAGAAAGACCCACGAAATTACCATACAATTCAATCAGGATTTCTTCCATCAGTCCTTAATGGAAAAAAATATCCTGAAACCTATCAATAATCTGATGAAAGACTCCATCAGAGGAATTCTTTTTTCTACAGAAACGGCTGAGAAACTAAAAGATTCGTTTCTCAATCTTTCCAAAATGAACAGTTTTGAATCTTTTATAGAAATTATGAAAATTCTGAATGAATTGGCTGTAGCAGAAAACAAAATACTATTGTCTTCGTATAGTATTGAACTTGAGACGTTTGCTGATAATGATAAAATGAAGGTTATTCATGACTTTGTTCATAAGAATTTTGAAAATAAAATAACGTTGGACAAGGTTGCATCATTAGTGAACATGAGCAATGTGACGTTTAACAGATTTATCAAAAAAAGAACAGGGAAAACATTTATTAATTATCTGAATGAGATAAGAATCAGCTATGCTGCACGCTGGCTTATGGAAAAAAATCTCACCGTTTTTGAAATTGCTTTTGAAGCAGGGTTTAACAATATTGCCAACTTTAATAAGGTATTTAAGTCAATCAAAAAGACAACCCCCACAGAATTTAAAGAACAGTTTAAAGGAGTGAAAAAAATTGAATAA	MSELENILREITPLSPEDSFLVFDRIKASFDFPYHYHPEIEINFIYKGKGYRRMIGDHTGEIGNIELVLVGPNLPHCWANYRCKNRKTHEITIQFNQDFFHQSLMEKNILKPINNLMKDSIRGILFSTETAEKLKDSFLNLSKMNSFESFIEIMKILNELAVAENKILLSSYSIELETFADNDKMKVIHDFVHKNFENKITLDKVASLVNMSNVTFNRFIKKRTGKTFINYLNEIRISYAARWLMEKNLTVFEIAFEAGFNNIANFNKVFKSIKKTTPTEFKEQFKGVKKIE				NA	NA	NA	NA	NA
BMS003_02498	867	rhaR_11		HTH-type transcriptional activator RhaR	ATGCCGCACCAGCTTATTTTTGAAGATCACTATAAAAGACTCGGACTGGAAATATTTTCAGAAGAAAATCTGGAGAATTTCAACGGGAATCGATTCAGTAAAGATATTAAAGTATTTTTTATTCCTTCAGGATATGAACTTACCGTAGATTTTCATCATTATAAAACCCGGAAGCCCTCTCTGTTTTTTCTCACCAACCAGCTTCTGAATATTCAAAAAGGAAAAGACGAATCTATTCTTCTTTACTACAACCGTGATTTTTACTGCATCCAGATCCATGATAAAGAAGTAGCCTGCGATGGTCTTCTTTTTCATAATGTATTTGAAATTCCTTTTGTAGAGCTTGATGATTCAGAAACCTCTCTTATAAAAAGTTTGTTCCGGAATATTCAGGATGAACTTGAATGGAAAGATTCTTCCGCAGAGGAAATGATCAGAACCTATGTAAAACAGATCATCATCCGTGCTACCCGCAAATGGAAAAAACAAAACTTAGATAATGATATGATCAGAATACCAGGCAGTGAGCTTGATATTTTCAGAGACTTCAGCAGGCACCTGGAAATTCATTTCAGGGAAAAGCATAATGTTGCAGAGTATGCAGAAATGCTTCATATAGCTCCTAAAACGTTAACTCATAAATTTAAAAATTTAAATCTGGATTCTCCCAATCAGTTCATCATCAACAGAATTTTACTGGAAGCTAAAAGACTGCTCTTTTATACGGATAAACCGGTAAAAGAAATTGCCTATGATCTTGGCTATGAAGATCCTGCTTATTTTAACCGCCTTTTTACTCATAAAACAGGAAGTACCCCTTCAAATTTCAAAAAAAATTATATGTCGGGAAAAAAGTACAACATTTAA	MPHQLIFEDHYKRLGLEIFSEENLENFNGNRFSKDIKVFFIPSGYELTVDFHHYKTRKPSLFFLTNQLLNIQKGKDESILLYYNRDFYCIQIHDKEVACDGLLFHNVFEIPFVELDDSETSLIKSLFRNIQDELEWKDSSAEEMIRTYVKQIIIRATRKWKKQNLDNDMIRIPGSELDIFRDFSRHLEIHFREKHNVAEYAEMLHIAPKTLTHKFKNLNLDSPNQFIINRILLEAKRLLFYTDKPVKEIAYDLGYEDPAYFNRLFTHKTGSTPSNFKKNYMSGKKYNI				NA	NA	NA	NA	NA
BMS003_02499	420	osmC	COG1764	Peroxiredoxin OsmC	ATGAGACGTAACGCAACAGCCGTTTGGAACGGTACTATCAAAGAAGGAAAAGGACATTTAACTACTCAGAGTACAACTTTAAACCAGACTCAATATTCTTTCAACAGCCGTTTTGCGGATGGCGTAGGAACAAATCCTGAAGAATTACTGGCAGCTGCCCACGCAGGATGCTTCACAATGAAACTGGATGCAGAATTATCTCAGGCAGGCTACAATCCTGAAGAATTAAAAACAACCTCCGTAATCACTCTTGATCCCAATATCGGAAAGATTACAAAATCTGAACTGACTCTAACGGCTAAAGTTCCGGGAATATCAGAAGAAGAATTCCAGAAATTTGCGAAGATTGCTGAAGAAGGATGCCCCGTAAGCGCGGCTTTCAACTTTGAAATCACATTGAATGCTACTTTAGAGAATTAA	MRRNATAVWNGTIKEGKGHLTTQSTTLNQTQYSFNSRFADGVGTNPEELLAAAHAGCFTMKLDAELSQAGYNPEELKTTSVITLDPNIGKITKSELTLTAKVPGISEEEFQKFAKIAEEGCPVSAAFNFEITLNATLEN	PGPT0013160_3395	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
BMS003_02500	606	yxaF		putative HTH-type transcriptional regulator YxaF	ATGTCGAAGGCAGAAAAAACAAAACAGCATATCATCGAGAAAACGGCAACTCTTTTTAATACAAAGGGTTATATTTCCACATCGCTCTCAGACATTACTCAGGCAACCGGGCTGACGAAAGGCAGCATCTATGGAAATTTTGAAAATAAAGATGAAGTTGCTATTGAAGTTTATAAGTACAACGCAGGATTACTGGGTAAAACACTCACCCGGTCTTTTGGGGAGGATTATCTCACTTCACTGGATAAGCTTCATGCTTTTGTAAATTTTTACAGGAAAAACTGGAAGTTTGTTTTCGCCAACGGCGGATGTCCTTTAATGAATGCTGCAACGGAAGCTGATGATTCTTTTCCGGCTTTAAAAATTCAGGTTAAAAGTTCCTTTGAACAGTGGATGACTAAAATATCAGATGCTATTACGGAAGGCCAAAGCAAAGGTGAAATTGATAAGGAAATCAATGCTGAGCAATATGCATCCTTATTCATCATGCTTATTGAAGGCGGAATTCTCCTTTCTAAAACAATGGGTGACCAAAGCTTTCTACACAACGCTTTAGACAAAATTACCCGCATGATTGATCATGAACTCAATATTCTTCCATCATAA	MSKAEKTKQHIIEKTATLFNTKGYISTSLSDITQATGLTKGSIYGNFENKDEVAIEVYKYNAGLLGKTLTRSFGEDYLTSLDKLHAFVNFYRKNWKFVFANGGCPLMNAATEADDSFPALKIQVKSSFEQWMTKISDAITEGQSKGEIDKEINAEQYASLFIMLIEGGILLSKTMGDQSFLHNALDKITRMIDHELNILPS				NA	NA	NA	NA	NA
BMS003_02501	1269	fadI	COG0183	3-ketoacyl-CoA thiolase FadI	ATGGAAACAAAAAAAGTGGCGATTGTAGGATACAACAGAATTCCTTTTGCCAGAATGAATACTGCTTATTCAGAGCAGAATAATCAGGATCTCTTACTTGCTTCACTGAACGGATTAATAGACCGTTATCATCTTAAAGGGAAACGACTGGGAGAAGTTGCCGGAGGTGCTGTGATTAAGCACATTTCTGAAAGCAACCTCATCAGAGAAACTGTAATGAATACAACTCTCGACCCCGCGACTCCCGCTTGTGATCTTCAACAGGCTTGTGATACAGGTATTGAAGCGGCCATCTATATTGGAAATAAAATTGCTTTAGGACAGATAGAATCTGGTATTGCATGCGGTGTGGAAGCTATGAGCAACATCCCCTTCGAATCTTCACCAAGATTAAGAAAAGCGCTTTTAAAAGCCAATAAAGAAAAATCAGCATTTGGGAAATTAAAACAACTTCTAAGCCCGAGACTGAAAGACTGGATGCCTATTCCTTACAAAGGACAGGAACCCAAAACAGGTCTGGTTATGGGTGAACATACAGAAATTACAGCCAAATACTATAAAATTTCCAGAGAAGAACAGGACGAACTGGCTTTAAACAGTCATCAGAACATGGCAAAAGCGTATGATGAAGGGTTCTTTGACGATATGGTTACGCCTGCCTTTGGCCTAGATAAAGATAATAACCTAAGACGTGACAGCAGTTTTGAAAAATTATCCCAATTAAAACCTGCATTTGATAAGCAAAACGGAACTTTAACCGCAGGAAATTCAACGCCTTTTACAGATGGTGCATCATCAATTTTGCTGGCGAGTGAAGAATGGGCGAAAACCAATAACCTTCCTGTTTTAGCCTATATCAACTTTTCAGAACTGGCAGGAATAGAATATGTAGAAAATAAACAGGATCTGCTTCTTGCTCCTGTTTTTGCAGCAGAAAGAATGCTAAAAAAAGCAGGAATGAATCTGTCTGATTTTGATTATTATGAAATTCATGAAGCCTTTGCAGCACAGGTTTTAGCTACCATAAAAATCTGGGAAAATGAGGAACTTGCCAAAAAGTTCGGATTGGAAAAAGCCCTTGGAAAAATAGACCGAAACAAACTGAATGTAAAAGGAGGAAGTCTTGCTGCAGCCCATCCATTTGCAGCAACAGGAGGACGAATTATCGCAACACTGGCAAAACTTCTCAATGAAAAAGGCAGCGGAAAAGGATTTATATCCATCTGTGCAGCCCGTGGACAAGGGGTAACCATGGTTTTAGAAAAGTAA	METKKVAIVGYNRIPFARMNTAYSEQNNQDLLLASLNGLIDRYHLKGKRLGEVAGGAVIKHISESNLIRETVMNTTLDPATPACDLQQACDTGIEAAIYIGNKIALGQIESGIACGVEAMSNIPFESSPRLRKALLKANKEKSAFGKLKQLLSPRLKDWMPIPYKGQEPKTGLVMGEHTEITAKYYKISREEQDELALNSHQNMAKAYDEGFFDDMVTPAFGLDKDNNLRRDSSFEKLSQLKPAFDKQNGTLTAGNSTPFTDGASSILLASEEWAKTNNLPVLAYINFSELAGIEYVENKQDLLLAPVFAAERMLKKAGMNLSDFDYYEIHEAFAAQVLATIKIWENEELAKKFGLEKALGKIDRNKLNVKGGSLAAAHPFAATGGRIIATLAKLLNEKGSGKGFISICAARGQGVTMVLEK	PGPT0008320_1664	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS003_02502	1242	fabF_4	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAAGAGAGTTGTCATTACAGGATTAGGTGCTGTGACACCTTTGGGAAATAATGTTGAAGATTTTTGGCAAAACAGTATTAAAGGAGTCAGCGGAGCAGGGCTTATTACCCATTTCGAAACGGAAAAATTTAAGGTTCATTTTGCCTGTGAGGTAAAAGACTTTGATCCAAAAGTATATCTGAATCATAACGAAATCAAAAGAAGCGACCTATTTACGCAATATGCCATGTATGCTTCCGCAGAAGCCATTCAGGATTCTGGTCTGGAACTTGAAAAAATGGATCCTTTCGATACAGGTGTGATCTGGGGAACAGGACAGGGCGGAATGTGGACTTTTGAAAAAGAAGTGATGGATTTTGCGGCAGGTGATGGTACTCCACGTTTCAATCCGTTCTTTGTGCCGAAATTTATTGCCAATATGGCTTCGGGAATGATTTCTATGAAATATGGTCTTCAGGGAATCAATTACACAACGGTTTCTGCTTGTGCTACAGGAAATACGGCGTTAATGGATGCCTTTAATTATATTCGTCTCGGAAAAGCAAAGGTAATCATCAGCGGAGGTTCTGAAGCAGCCATCACTCCGGCTTCTATTGGAGGATTCTCCATTATGAAAGCCATGTCTACAAGAAATGATGATTTTGCGACTGCCAGCCGTCCTTATGATGCAGACAGAGATGGGTTTGTAATGGGTGAAGGAGCAGGAGCTCTGGTTCTTGAAGAATATGAGCACGCTGTTGCCAGAGGAGCAAAAATATATGCAGAATTAGCCGGCGCTGCCATGACCGCAGATGCTTACCACATGACAGCACCTCATCCAGAAGGAGCAGGAGCCATCAAAGCAATGCAACTGGCCGTGAAAGAAGCAGGAGCCAATATGGAAGATATTGATTATATAAATCCTCATGCTACCTCAACACCATTAGGAGATATGATTGAATTAACAGCCATTAATAAAGCATTTAAAGGAAGTAAAAACCTTGATATCAGTGCCACAAAATCTATGACAGGACATTTATTAGGAGCGGCAGGAGCGGTAGAAGCAATTCTTTCCATCAAAGCCATTCAGAATGGAATTATTCCTCCAACCATCAATCTTCACACTATTGATACGAATATTCCTCAGGATATCAATATTGTTTTCGGAGAGGCGAAAGAAAAAGAGATTACTTATGCTTTAAGTAATGCTTTTGGCTTCGGAGGACACAATGCGACTGTGGTGTTCAAGAAATTCAGCTAG	MKRVVITGLGAVTPLGNNVEDFWQNSIKGVSGAGLITHFETEKFKVHFACEVKDFDPKVYLNHNEIKRSDLFTQYAMYASAEAIQDSGLELEKMDPFDTGVIWGTGQGGMWTFEKEVMDFAAGDGTPRFNPFFVPKFIANMASGMISMKYGLQGINYTTVSACATGNTALMDAFNYIRLGKAKVIISGGSEAAITPASIGGFSIMKAMSTRNDDFATASRPYDADRDGFVMGEGAGALVLEEYEHAVARGAKIYAELAGAAMTADAYHMTAPHPEGAGAIKAMQLAVKEAGANMEDIDYINPHATSTPLGDMIELTAINKAFKGSKNLDISATKSMTGHLLGAAGAVEAILSIKAIQNGIIPPTINLHTIDTNIPQDINIVFGEAKEKEITYALSNAFGFGGHNATVVFKKFS	PGPT0008360_4896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS003_02503	756			hypothetical protein	ATGAAAGGAATTTATAGTGTATTAGGCCTTGTTTACATGGTTACGACTTCATTCTACATTTCCCCAAGAGTAGCGGCGAAAAGTGAGAATGTAACAACAAAGAAAACTGAAAAAGTAGCTGAAACGAAATCTGAGAAAAGCACAACCGCTGTGTCTGCATCAGAAGCACTGTACCAATCTATTGCATTTGAGCCGGAACATGAACTGAACTATGAAGTGTTCTCAAAAGCATTAACTGGTTATGAAAATTTAAAAAAAGCAGGATTGCTTACCCAAGACTCGCATTTATTGACTATCTGCGATTTTTCTATGTCTTCTAATACAAAAAGACTGTGGGTAATTGACCTGGAAGACAAAAAAGTTCTGTTCAACTCATTAGTAGCACACGGAAAAAATACAGGCGAAGAATTTGCGACGAATTTTTCTAACAGGGAAAGTTCGCTGCAGAGCAGCCTTGGGTTTTATATCACGGATGCTACCTATCAGGGTGATAACGGATATTCTCTTAAATTATTAGGAATGGATAAGGGCTTTAATGATGCTGCATACAGAAGAGCAATTGTAATGCATGGTGCAGATTATGTAAGTGACGCATTTGCTGCGATGCACAAAAGAATAGGAAGAAGCTGGGGATGTCCTGCCGTTCCAAGAGAGCTCACACAGTCTATAATCAATACGATTAAAGGAAAAAATTGTCTGTTCATTTATTATCCTGATCAGAATTATCTTGCTTCCTCAGAATGGTTGAAAGCGTAA	MKGIYSVLGLVYMVTTSFYISPRVAAKSENVTTKKTEKVAETKSEKSTTAVSASEALYQSIAFEPEHELNYEVFSKALTGYENLKKAGLLTQDSHLLTICDFSMSSNTKRLWVIDLEDKKVLFNSLVAHGKNTGEEFATNFSNRESSLQSSLGFYITDATYQGDNGYSLKLLGMDKGFNDAAYRRAIVMHGADYVSDAFAAMHKRIGRSWGCPAVPRELTQSIINTIKGKNCLFIYYPDQNYLASSEWLKA				NA	NA	NA	NA	NA
BMS003_02504	540	msrB		Peptide methionine sulfoxide reductase MsrB	ATGAACTTTACGATGAAATTTTTAGTTTCAGCCCTCTTATTATTTTTTCTGCAGGCATGTATGCGGAAATACGAACCTATTAAAAAAACTCCTATGGAAAATACAGAAGCAAAAAACAATCCATACTATTCCAGAACAGATACTGCAAAAATCAATGTTTCCAATGAAGAATGGAAAAAAATCCTCGCTCCGGATTTATATGCAATCGCCAGAGAAGCGGCAACAGAAAGAGCTTTTACAGGAAAATACAACGAATTTGATGAGATAGGAGAATACTATTGTGCGGTTTGCGGAAATCATCTGTTCCGTTCTACCTCAAAATTTTCCAGCAGCTGTGGATGGCCCAGTTTCTTTGAAGCAGATAAAGAAGGAGTGTATTATGTAAGAGATCAGTCATACGGAATGGATAGGGTAGAAGTGCTTTGTAAAAGGTGTGACTCTCATCTGGGACACGTTTTCGATGATGGTCCGAAGCCTACAGGATTGAGGTATTGTATGAATTCTATAAGTCTGGAATTTGTTCCGGATTCTCAAAAATAA	MNFTMKFLVSALLLFFLQACMRKYEPIKKTPMENTEAKNNPYYSRTDTAKINVSNEEWKKILAPDLYAIAREAATERAFTGKYNEFDEIGEYYCAVCGNHLFRSTSKFSSSCGWPSFFEADKEGVYYVRDQSYGMDRVEVLCKRCDSHLGHVFDDGPKPTGLRYCMNSISLEFVPDSQK	PGPT0013070_899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS003_02505	1245			hypothetical protein	ATGAATGACGAAGCAAAAAGAAAACAACTCAGAAAATACAAAGCATTTGCCACAGGTTTATTTGTCCTGATGGCTGTTATTTTCATTGTTACCACTATTTTACAGAAGTCTAATCCCTCCCATTGGATTGGTTATGTGCGGGCTTTTGCCGAAGCGGCTATGGTAGGAGCTCTTGCAGATTGGTTTGCTGTCACTGCATTATTCCGACATCCTTTAGGGCTTCCTATTCCTCATACCAACCTGATTGAAAACAGTAAACAGAGACTGGGAGATAATCTTGGAAATTTTGTGGTAGGCAATTTCCTTTCACCTCAGAATATACGTCCTTATATTCAAAAGCTTAAAGTTTCCAATTTTGTAGGAGAATGGCTGGCAAAAGAAAAGAGTCAGGAAATTTTAATTAAAAACCTTTCCGATATTGTTCTTGATATTCTCAATAAGCTGGACGATTCTGCGGTAAGTCAGTTTATCAGCAAAAAGGTTTCTGAAATGACGGACGATATCAAACTTAATAAAGTAGTTGGAAACGGAATTGGCTATATTCTGGAAAAGAATGACCATCAGAGAATCATCACGAATCTTTCCAAACAAATCAAAGAATACATCATTGAAAACGATGAAATGATTCAGGAACGTGTAAAAAAAGGCAGCTATACTTTCATTCCATCTTTTGTAGACAATAAAATTGCTGATAAAATTGCTGACGGACTTTCTGACTTTTTCAAAGAAATAGAAGAAGATCCCCAACATGAAGTAAGAGGATTAATTACTCAGAAAATTCATGAATTCTCTGTTGATCTGAAAGAAGATCCTAAATGGGATGAGGAGTTTAAAACCATCAAAAACGGACTTCTTAAAAATGACAAGCTGGATGAATATTCTAATGACATTTGGGTTTCCATCAAAAAAACATTGATGAATGAGCTTCAGGAAGAAAACTCCGCATTAAAAAATTACCTTACTAAAAACCTGAATGAGTTCTCCAAAAATTTAAAAACAGATGAAAATCTTCAGAATAAAATTGACCATTGGGTTCGGGTGACGGCTTATAAATATATTCTGAAAAACACCCATCAGTTCGGAAACCTCATCAGTACAACCGTTGGAAACTGGCAGGGAAAAGAACTTAGTGAAAAGCTGGAACTGGAAGTGGGAAAAGACCTGCAGTTTATACGCGTCAACGGAACACTGGTAGGCGGACTGGTCGGACTGATCATCTACACTATCGCTCACTTTTTCATTTAA	MNDEAKRKQLRKYKAFATGLFVLMAVIFIVTTILQKSNPSHWIGYVRAFAEAAMVGALADWFAVTALFRHPLGLPIPHTNLIENSKQRLGDNLGNFVVGNFLSPQNIRPYIQKLKVSNFVGEWLAKEKSQEILIKNLSDIVLDILNKLDDSAVSQFISKKVSEMTDDIKLNKVVGNGIGYILEKNDHQRIITNLSKQIKEYIIENDEMIQERVKKGSYTFIPSFVDNKIADKIADGLSDFFKEIEEDPQHEVRGLITQKIHEFSVDLKEDPKWDEEFKTIKNGLLKNDKLDEYSNDIWVSIKKTLMNELQEENSALKNYLTKNLNEFSKNLKTDENLQNKIDHWVRVTAYKYILKNTHQFGNLISTTVGNWQGKELSEKLELEVGKDLQFIRVNGTLVGGLVGLIIYTIAHFFI				NA	NA	NA	NA	NA
BMS003_02506	891			hypothetical protein	ATGAAAAAAACTTTTACCGTATTCTTTTTTCTTTTTCTCAACCTGGTTCTCGGTCAGAAAGTTGAATTAAAGAAAGTAACTGATTCTTCCCAGATCTTTACCGGAGAAATTGACGGAGTACCCGTTACTATAGAGCTCAACTATACAGGTATAGTAGATTGTGACCAGTATCAACATTATGTGGACGGATGGTATTATTACGATAAATACAAAAAGAAAATCCCGCTTACCGGAATATATAATTATTACGGAAATCTGTCTCTGTATAATTTTGGAGTCAGACAAAAACAGAATTCGGAGCTTTTGAAGGAGCAGATCACATCCCTTCAGAAAATAGAGAAGACAAATGAAATAGCACAAAAACTATTACCCAAAGAATATATTATATTTGAAAAAATCAATCTGAATAATAATCCAATTACCGGACATTTTTATCTGGGCAAAAAGGTTCACCCTGCAAAATTATTTACAACTAATGCAATGATCTTCCGTCTCAACAATTATCTGTACCTGCCGAATAATAAAAAGATCAATACGTATAATTTCATTAATAAAGCAGGTGGAAATGAATTGATCTCCTATGTCTCAGGAGAAAAAGGGAACAGAGTTCTGCTCTATTTTGAGCAAACATTCAATTTTAATGCCTGCGGACAATGTGGCGCAAGCAATGGAGAAAAAGGGTACAGGGTTCTTTATTTTACCAAAGACTGGAACTATAAAAATTATGAGGAATTCCTTACAGAAAGCTGTCTGGAAAATATTTATGAAGTCACCAAAACAAAATCCAAAGACAGACAAACGATTCAATATAAAATTGGAAAATCTTACAGCACTCCTGCTCATACGCTTACCATAGATCTAAAAAATGCATCCGTTATAAAGTCAAAATAA	MKKTFTVFFFLFLNLVLGQKVELKKVTDSSQIFTGEIDGVPVTIELNYTGIVDCDQYQHYVDGWYYYDKYKKKIPLTGIYNYYGNLSLYNFGVRQKQNSELLKEQITSLQKIEKTNEIAQKLLPKEYIIFEKINLNNNPITGHFYLGKKVHPAKLFTTNAMIFRLNNYLYLPNNKKINTYNFINKAGGNELISYVSGEKGNRVLLYFEQTFNFNACGQCGASNGEKGYRVLYFTKDWNYKNYEEFLTESCLENIYEVTKTKSKDRQTIQYKIGKSYSTPAHTLTIDLKNASVIKSK				NA	NA	NA	NA	NA
BMS003_02507	1038	pyrD	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGTACAAATCGCTCATTCGTCCTATCCTTTTCAAATTTGATCCTGAAGAAGTTCATCATTTTACATTTTCAGTGCTTAAAAATTTTGGATTTCTTACCAAACTGTTTTTCCCAAAACCTATTGAAGACAAACGTCTGGAAAGAGAGGTTTTCGGATTAAAATTTAAAAATCCCGTAGGACTGGCAGCCGGTTTCGATAAAAATGCAGTGTTATTTAACGAATTGGGAGATCTGGGTTTCGGGTTTGTAGAAATCGGGACAGTAACCCCAAGAGCGCAGGCCGGAAATCCTAAGAAAAGATTATTCCGTCTTATTGAGGATGGCGGTATCATCAACAGAATGGGATTCAATAATGACGGCCTTGAAGCGGCTGTTGAAAAACTGAAATCCAACAAAGGAAAAATAATCATCGGTGGAAACATCGGGAAAAATACGGATACAACCCCGGAAAATTATACCCAGGATTACCTGGACTGTTTTGAAGGTCTTCACCCCCACGTAGATTACTTTGTACTGAATGTGAGCTGTCCGAATGTAGGAAGTCATGCCAAACTGGAAGACGTAGACTACCTGAGAGAGTTGATCACAGAAGTGAAGAAAATAAATCAGTCAAAATCTGTACAGAAACCTATATTACTGAAAATAGCTCCGGATCTGAATAACAATCAACTAGACGAAATCATTGAACTGATTGCAGAAACAAAAATTGATGGTATTGTAGTTTCTAATACTTCAGTAAACAGAGAAGGACTGAAAACCCCTCCGGAAGTTTTAGAACAGATAGGAAACGGAGGACTAAGCGGAAAACCTATCCGTGAGAGAAGTACAAAAATGATCAAATACCTTTCTGATAAAAGTAACAGGGCATTCCCAATCATTGGAGTTGGAGGAATTCACTCTGCAAAAGATGCTATGGAAAAACTAGATGCCGGAGCTACGTTGGTTCAGCTGTATACAGGATTTATTTATGAAGGCCCGGAACTGATCAGCGAGATCAATCAGGAGCTTCTGAAAATAGCAGGAAGATTACCGAGATAA	MYKSLIRPILFKFDPEEVHHFTFSVLKNFGFLTKLFFPKPIEDKRLEREVFGLKFKNPVGLAAGFDKNAVLFNELGDLGFGFVEIGTVTPRAQAGNPKKRLFRLIEDGGIINRMGFNNDGLEAAVEKLKSNKGKIIIGGNIGKNTDTTPENYTQDYLDCFEGLHPHVDYFVLNVSCPNVGSHAKLEDVDYLRELITEVKKINQSKSVQKPILLKIAPDLNNNQLDEIIELIAETKIDGIVVSNTSVNREGLKTPPEVLEQIGNGGLSGKPIRERSTKMIKYLSDKSNRAFPIIGVGGIHSAKDAMEKLDAGATLVQLYTGFIYEGPELISEINQELLKIAGRLPR	PGPT0021190_2726	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS003_02508	708	truC	COG0564	tRNA pseudouridine synthase C	ATGTTAGAAATTCTTTATCGTGACGAGCATATTATTGCCATTAACAAACCCAGCGGATTACTGGTTCATAAATCTTTCTATGCAGGGGAAGCGGATACTTATGCTATTCAGGAGCTAAAGAAACAGATTGGACAAAAAGTGTATCCTGTACATCGGTTAGACCGAAAAACTTCAGGTGTTTTGCTGTTTACTCTGGATAAAGATACCCTTAGAATCATGAGCGAACAGTTTGCATCGCGCGAAGTGGAGAAGAAATATCTGGCCATTCTTCGGGGTTGGACAAAAGAAGAAGAAACCATTGATTATGATTTAATTAATGAAAATGAAGTCAAGCAAAACGCAGTTACAAATTATCGTCGTTTGCAGACTTCGGAAATAGATTTACCTTTTTTAAAGCATCAGACTTCAAGGTATTCTTTGGTGGAAGCCATTCCTGAAACAGGAAGGTTTCATCAGCTAAGAAAACATTTTAAACATATTCTGCATCCTATTTTAGGATGTCGTAAGCATGGCTGCAATAAACAGAATAAATTGTGGCTTCAAACATTTGAGATCAGCAAAATGACACTTCATGCCCATCAGCTGATTTTTAATCATCCTGTTTCTAACGAAAGAATTACTATAAATGCTACTATAGATGATGAATTTAAAAGAGTAGGAGATATTCTGAAATTTGATCTGAGTGCATATTCTTCATTAAAACCTTAA	MLEILYRDEHIIAINKPSGLLVHKSFYAGEADTYAIQELKKQIGQKVYPVHRLDRKTSGVLLFTLDKDTLRIMSEQFASREVEKKYLAILRGWTKEEETIDYDLINENEVKQNAVTNYRRLQTSEIDLPFLKHQTSRYSLVEAIPETGRFHQLRKHFKHILHPILGCRKHGCNKQNKLWLQTFEISKMTLHAHQLIFNHPVSNERITINATIDDEFKRVGDILKFDLSAYSSLKP				NA	NA	NA	NA	NA
BMS003_02509	1542	glyQS		Glycine--tRNA ligase	ATGGCAAAGCAAGAAGATGTTTTCAAGAAAGTGATTTCTCACGCTAAAGAATACGGTTTTATTTTCCCATCAAGTGAGATCTATGATGGTTTATCCGCTGTTTATGATTATGGACAGAACGGTGCCGAACTCAAAAATAATATCAAACAATATTGGTGGAAGGCTATGGTACAGCTTAACGAAAATATTGTCGGTATTGATTCGGCGATCCTTATGCACCCAACAACATGGAAGGCATCTGGCCACGTAGACGCTTTCAATGATCCATTGATTGACAATAAAGATTCTAAGAAACGTTTCAGAGCAGACGTTTTGGTGGAAGATTACTGTGCTAAAATTGAAGATAAAGAGAATAAAGAAATTGAAAAAGCAGCGAAAAGATTCGGGGATGCTTTCGATAAAGATCAGTTTGTAGCTACGAATCCAAAAATTATTGAATACAGAGCAAAAAGAGAGGCTATTCTTTCAAGACTGGCAAAATCTCTGGAAAATGAAGACCTTGCTGATGTAAAAGCTTTGATTGAAGAGCTTGAAATTGCAGATCCTGATACGGGTTCTAAAAACTGGACAGAGGTAAGACAGTTCAACCTGATGTTCGGAACTAAATTAGGTGCTTCTGCAGATTCTGCGATGGATCTTTATTTGAGACCTGAAACAGCTCAGGGTATCTTCGTTAACTTCCTGAATGTACAGAAAACTTCACGTCACAGACTTCCTTTCGGTATTGCACAGATTGGTAAGGCATTCAGAAATGAGATTGTTGCAAGACAGTTTATCTTCAGAATGCGTGAATTCGAACAGATGGAAATGCAGTTCTTCGTTGCTCCGGGAACAGAACTTGAATTCTACGAACAATGGAAACAAAAACGTCTGAACTGGCACAGAGCTTTAGGTTTGGGAGATGAGAACTACAGATTCCACGATCATGAGAAACTGGCTCACTATGCGAATGCTGCGGCTGATATTGAATTTAATTTCCCATTCGGATTTAAAGAATTGGAAGGTATTCACTCAAGAACGGATTTTGACTTAAAAGCACATGAAGAATTCTCCGGAAGAAAACTTCAGTTCTTTGATCCTGAAAGAAACGAAAATTATGTTCCTTATGTAGTGGAAACGTCAGTCGGTCTAGATAGATTATTTCTTTCCATATTCTCACATTGCTTAAGAGACGAAGTATTGGAAGACGGTTCGGAAAGAACGGTTTTATCTTTACCTCCGGCATTAGCTCCAATTAAAGCGGCTATTCTTCCATTGATGAAGAGAGACGGTTTGGCAGAATATGCAGAAAAGATATTTAATGATCTGAAATATGATTTCAACTTGTTCTATGAGGAGAAAGATGCTATCGGAAAACGTTACAGAAGACAGGATGCCATTGGTACTCCGTACTGTATCACTGTGGATCACGACTCTTTAACGGATCATACGGTAACCATCAGAGACAGAGATACGATGCAGCAGGAAAGAGTTCCTGTTTCAGAGTTGAGAAGAATCATTGATGAAAAAACGAACTTCAGAAATTTACTTTCTAAAATATAG	MAKQEDVFKKVISHAKEYGFIFPSSEIYDGLSAVYDYGQNGAELKNNIKQYWWKAMVQLNENIVGIDSAILMHPTTWKASGHVDAFNDPLIDNKDSKKRFRADVLVEDYCAKIEDKENKEIEKAAKRFGDAFDKDQFVATNPKIIEYRAKREAILSRLAKSLENEDLADVKALIEELEIADPDTGSKNWTEVRQFNLMFGTKLGASADSAMDLYLRPETAQGIFVNFLNVQKTSRHRLPFGIAQIGKAFRNEIVARQFIFRMREFEQMEMQFFVAPGTELEFYEQWKQKRLNWHRALGLGDENYRFHDHEKLAHYANAAADIEFNFPFGFKELEGIHSRTDFDLKAHEEFSGRKLQFFDPERNENYVPYVVETSVGLDRLFLSIFSHCLRDEVLEDGSERTVLSLPPALAPIKAAILPLMKRDGLAEYAEKIFNDLKYDFNLFYEEKDAIGKRYRRQDAIGTPYCITVDHDSLTDHTVTIRDRDTMQQERVPVSELRRIIDEKTNFRNLLSKI				NA	NA	NA	NA	NA
BMS003_02510	1512			hypothetical protein	ATGATGTTTGGACTAATCCAGGCATTTGCATTTTCCCAAACTCAGGACCTTACAACTCTCGCAGCTGGCGACCATGTGGGAATGAATGCTTTATTCGATGATAAGGACAACCTTTACGGCTACGTTTCTCTATATTCTTACGGGAAATCCGGCGATAAGACCAAGAAGTTCGAGTATGTGATCCTGGACAAGAACCTCAACCCTGTTGCCAATAAGGAATTTGAGGGAGATATTACTGCTGCCTCTTATTTAGGATATGTTGATTTTAAGGGACAGATTATTCTAAAGCCTTCCATGATGGATTATTCTCTTGTAAAAAGCAGAGAAGTATTCACCCCGGTTTCAATGGTGATAGATCCGAAAACCAACTCTATTACCAAAAAACTTTATTACGACTATCTGGAAAACGGTACTTTCAAAGAGATCAACGAGCCAAAAAGCTGGAAAGAGCAGCGTAAGGAAAACCGTGACGAGAAAAAGGAAAAAGGTTACAACTATGTGTCTGCTGTGGGAGAACTGAAAGAAGGAGGTTATTTTGCCGTTGAATATAAAGATTACGGGAAATATGAAAACAGCAACAGTCTTATAAGATTTGATGAAAACAAAAAGGAAATCTGGCGGTATAAATACAACACTGACGGAAGCAAAAAACTGTACACCAGACTCTCTGTTCTGGAACGGGATGAAAATTATATGTACTGCATCATGAAAAAAGTGAATGACAGGCAGAAAACATTCAGTCTCATGGTTCTGGACATGAAAACCGGAAAAGAAAAGTCTGATAAACCGATTACCGGATTATCTGATGATACCATAGACAATATTGAATCTTTTTACTCAGGCTACCGAAAAATTGATAATGATAAAACTTTTGATGATAAAGTAGTTCTGTTAGGAAGAAACTATAATAATTCCGAATCGGTAGGTTTCGCAAGAATGATCATCAATAAATCTGACTTTTCAGTAGACACAAAAGCGATTAATTACGAGCCTAATATTGCTGCATTCCTTCCAAAAGTCAACAGGGTTGGAATGGTAGAAAGCGGTTACATGCTTCAGACCAAAGATATGTACTTTATGAATGACGGAAGTGTAGGTATTCTATCGGAAAAATATAAACCGGCAGGCCAGTATAACGCTCCGAAAACCACTGATCTTGTGTACATCTACACAGATAAAGATTTCAAAGTGAAAAATGTACAGGTTTTTGAAAAGGAAAAATCAAAATGGGTAAACAGTGATTATCTTTTCTCCCAATACCTTAATGATGGAAAAGACGTGGTATTCTTCTATCGAGACTATCAAAAAGATGAAGTAACCAGGCAGAAAAGATGGAATCTTTTTATCAATACTATCATTGACGGAAGATTCAAACAGGAAATTATTCCTATTTCTGAAAAAGACAATTATGCCGTAACCCCATATGTGGGAAAAGAAGGTTATATTCTTCTTCGTGAATATAATGAAAAAGAAAAGTTCAATAAGATCCGTTTGGAGAAATTAAATTACTAA	MMFGLIQAFAFSQTQDLTTLAAGDHVGMNALFDDKDNLYGYVSLYSYGKSGDKTKKFEYVILDKNLNPVANKEFEGDITAASYLGYVDFKGQIILKPSMMDYSLVKSREVFTPVSMVIDPKTNSITKKLYYDYLENGTFKEINEPKSWKEQRKENRDEKKEKGYNYVSAVGELKEGGYFAVEYKDYGKYENSNSLIRFDENKKEIWRYKYNTDGSKKLYTRLSVLERDENYMYCIMKKVNDRQKTFSLMVLDMKTGKEKSDKPITGLSDDTIDNIESFYSGYRKIDNDKTFDDKVVLLGRNYNNSESVGFARMIINKSDFSVDTKAINYEPNIAAFLPKVNRVGMVESGYMLQTKDMYFMNDGSVGILSEKYKPAGQYNAPKTTDLVYIYTDKDFKVKNVQVFEKEKSKWVNSDYLFSQYLNDGKDVVFFYRDYQKDEVTRQKRWNLFINTIIDGRFKQEIIPISEKDNYAVTPYVGKEGYILLREYNEKEKFNKIRLEKLNY				NA	NA	NA	NA	NA
BMS003_02511	1374	bepA_3		Beta-barrel assembly-enhancing protease	ATGAATCGTCAAATAAACTATTTTTGCTCTTATTTGATGAAAACTATGACCAGAAAACTGATTGTATTGGCGCATTTCCTTTGTTCGATGATGGCAGTGGCTCAGATTTATCACCCGATAGATACTGCAGATTATATACAGAGAAAAGCATTTTTGAAGAGTTTTGAAGGAAATAATGAAGGCACAGTCAAGAGATTAAAGTCCCAATATTCCGGCAAGACAGGTACAGAATTATCCAAAATTTATAAAGAATTCGGAACTGATTTTGGAAAACAGGTGAAGAATAAGGATTTTATCTTTAAATCTGAATTTGAAACCAGTATACAGTCTTTGATTCAACGTCTTAAAAAGAATAATCCTAAAATACCTCAGGATCTGAAAATTCTGATCGCGAAAGACAATACTCCCAATGCTTATTGTCTGGCGGACGGAACTTTTGTAATCAATATGGGGCTTTACAGCTGGCTGAACAATGAAGATCAGATTGCCGCTGTAATTTCTCATGAGCTGGGACATAAAATAGAGGAACATTCTCTGAAGACTTTTTTAAAGATTATTGAGCAGGATAAGCTGGATAAAGTGGTAATGGAGAATATAAAATCAACCACAACAAGCAGAAGCGAGAGCCAGAATCAGAAGGCTTTTGATATTCTGAAAAATACAGTATACAAAAAAGGCGTAGAAAGGAGACAAAATGAAATACAGGCGGACTCTTTGGGCTATGTCATTTTTAAAAACAGTGATTTCAAGAAAACAGAATTTGTAAATGCACTTCAAAGGTTGCAGGATTTTGATACCATTTCGCCAAGAGAGTTGAAAGTTGATACTTATAAGAAGCTGTTTAATCTTCCTAAGCAGGCATTCGATGAGAAATGGATGAAGAAGGAAGATTTTTCTCTGTATAACTATAATTTTTACAAAGAAAAGCTGAACAAAGATTCCTTGGCATCACATCCTGAAATATCCACAAGAATTGAAATACTTAAAAATACTTTTGCAGAGCTGAAAACTTCTGTCACACCGGAAAAACCTACGGATTTGTTTATTGCATTAAGGAAAACAGCAAGGATGGAGATTCTGCCCAATTATTTCCATTCAGAAGATTATGGCCTTGGAGTGTATACTGCTATGCAGTTTCTGCAGGATGAAGAGGAAGAAAAATATTATAAGATCTGGCTGGGTAGATGTTTCTCCAAAATATATGAAGCAAGGAAAAACTATAATCTCAATAGGTACCTGGATAGGATAGAACCCAAAAACCAGAGTGAAAGTTATCAGCAGTTTCTAAACTTTATGTGGAATTTAAGCCTTGATGAAATAAAGAATATTGCCGACTTTTATCAGACTAATGAGACTATAGCAAAGGTAAACTGA	MNRQINYFCSYLMKTMTRKLIVLAHFLCSMMAVAQIYHPIDTADYIQRKAFLKSFEGNNEGTVKRLKSQYSGKTGTELSKIYKEFGTDFGKQVKNKDFIFKSEFETSIQSLIQRLKKNNPKIPQDLKILIAKDNTPNAYCLADGTFVINMGLYSWLNNEDQIAAVISHELGHKIEEHSLKTFLKIIEQDKLDKVVMENIKSTTTSRSESQNQKAFDILKNTVYKKGVERRQNEIQADSLGYVIFKNSDFKKTEFVNALQRLQDFDTISPRELKVDTYKKLFNLPKQAFDEKWMKKEDFSLYNYNFYKEKLNKDSLASHPEISTRIEILKNTFAELKTSVTPEKPTDLFIALRKTARMEILPNYFHSEDYGLGVYTAMQFLQDEEEEKYYKIWLGRCFSKIYEARKNYNLNRYLDRIEPKNQSESYQQFLNFMWNLSLDEIKNIADFYQTNETIAKVN				NA	NA	NA	NA	NA
BMS003_02512	1116	nylB		6-aminohexanoate-dimer hydrolase	ATGATAGGCGGAGCTGTAGCCGGTGCGGCAGCGGCGTATTTCCTGGGATATGATTATTTATTTAGTGGTATTTCCAAAACCTATCTTAAAGGAAAATCAAGTGCACACATTGATGACGGAAATCTTTTCCCCAGCAATCCCATTGCCACAGAAGTGCCTAAGCTCTGGGAAGAAGATCCCTATTACAACAAAAAAGAACTACCTAAACATTTAGTTGAAGATTTAAAAAACTCCAAAACAGCAGCTTTTGTAGTGATAAAAAATGGAAAAATTCTTCATGAACAGTATTGGGACGGCTACAATCAGCTATCGCAGACCAATTCTTTTTCTATGGCGAAAGCAGTCACTGTGATGTTGTTAGGAAAAGCACTGGAAGAAGGTATTATTCCAGCTATTGATGAAAAACTCTCTGATTTTTATTCTGAATTTAAAGATAAACCCTTTGGAAATGAGGTAACCCTTAAAAATCTGGCTCAAATGGAAGCCGGGCTGGACTGGGATGAAAATTACAACAATCCGTTTCTTCCCAATGCCAAAGCTTATTATGGAAAAAACCTTGTAAAAGCTGTATTTTCAAGAAGGTTCAAAGAAGAGCCCGGGATCAGATTCGAATATCAAAGCGGATCTACGCAACTTCTTGGCTTTGCTCTGAGAAAAGCTCTGGACAAAACATTGGCAAGCTATTTATCAGAAAAATTCTGGATTCCTTTGGGCATGGAGCAGAATGCTAAATGGAGTACGGACAATTATGGTATGGAAAAGACGTATTGCTGTATTCATTCCAACGCAAGGGATTTTGCCAAGCTGGGACAGTTATTTCTGGATAACGGAAAAGCCGGGGATCAGCAAATACTTAATGTAGACTTCATTGAACAGATGAGAACTCCTACGGAAAAGTCTGAAAACATCTATGGAATGGGACTCTGGATCAATCATGACAATCCGGTAAAGCATTATTATTTCCTGGGATTACAGGGACAATATATCATTATGGTTCCCGATCACAATATCATTATTGTAAAAACCGGAAGCTATTCCAATAACCCTAAAAATGACAGAGGAAGGCCAGATCAGGTCAGATTCTTAGTGAATGAAACTGTACAATTATTCCAATAA	MIGGAVAGAAAAYFLGYDYLFSGISKTYLKGKSSAHIDDGNLFPSNPIATEVPKLWEEDPYYNKKELPKHLVEDLKNSKTAAFVVIKNGKILHEQYWDGYNQLSQTNSFSMAKAVTVMLLGKALEEGIIPAIDEKLSDFYSEFKDKPFGNEVTLKNLAQMEAGLDWDENYNNPFLPNAKAYYGKNLVKAVFSRRFKEEPGIRFEYQSGSTQLLGFALRKALDKTLASYLSEKFWIPLGMEQNAKWSTDNYGMEKTYCCIHSNARDFAKLGQLFLDNGKAGDQQILNVDFIEQMRTPTEKSENIYGMGLWINHDNPVKHYYFLGLQGQYIIMVPDHNIIIVKTGSYSNNPKNDRGRPDQVRFLVNETVQLFQ				NA	NA	NA	NA	NA
BMS003_02513	612			hypothetical protein	ATGGAAAAACACAGCATAAAAGTTGATGAATACATTGAAAAATCTCCGGATTTTGCAAAACCTATCTTAGAATATCTTCGTGAAATTATTCATGAAACCTGTCCCGATGCTGAAGAAGCTATCAAATGGAAATTTCCGGCTTTCATGTATAAAGGAAAAATTCTGTGCTCTATCACTGCTTTCAAACAATATTGCAGCCTGGGATTCTGGCTTCATCAGGAAATGAAAACTTTACAGGAAATAGAAACAACTGCTGAAAAAAATTCAATGTTCAGCTTAGGAAAGGTAACCCGGATTGAAGATCTCCCATCCAGACCTCAGCTTAAAAGCGCTATCCAGGAAGCCATGGAGCTTACAGACATGGGAGTTACGATGAAGAAAGCTCCTCCATCCAAAATGGAGATGGAAATCCCGGATTATTTTCAGTCTGCTTTAAATGCACAGCCAAAAACAAAAGAAATTTTTGAAAAAGCATCACTATCTTTCAGAAAAGAGTATATTGCATGGGTTTCCGAAGCCAAAACAGAAGCTACCAGAACTAAAAGACTTGAACAGTCTCTGGAATGGATAGCCGAGGGGAAAGGCCGAAACTGGAAATACCAGAAAAAATAA	MEKHSIKVDEYIEKSPDFAKPILEYLREIIHETCPDAEEAIKWKFPAFMYKGKILCSITAFKQYCSLGFWLHQEMKTLQEIETTAEKNSMFSLGKVTRIEDLPSRPQLKSAIQEAMELTDMGVTMKKAPPSKMEMEIPDYFQSALNAQPKTKEIFEKASLSFRKEYIAWVSEAKTEATRTKRLEQSLEWIAEGKGRNWKYQKK				NA	NA	NA	NA	NA
BMS003_02514	1560			hypothetical protein	ATGAAGAAAAAAAATATTCTCTTTTTCTTCCTTATTATTTCAATTTTTACATTTGCTCAGTCGTTTGATTTTGAGGGACAATATAAGTATGCCCGCATGCTTTCTTCAAAAAACCCGGACAGCTCGGAAATTGTTCTGAATAAGATTATAGATTCTGCACAGAAAAGAAATGTTCCGGAATTTCTTGCAAAGGCTTATTATTTAAAGTCTTTCAACAGTTATTTAAAATCTGATGCAGAAAAAAGTCTTGATTTCGCAGATAAAGCCCTGAAAATTTCTACCCAAAGTGATTACAGCATCGGGAAAGCACTGGCATACAGAATGCAGGGAACCCAATACGCAAAACTTGGATTGCTTAAAGAGTCCTCTACAAGTCTTCGAAATGCCCTGGCAGAAGTAAAAAACAATACTACGGAAGAAGGACATGAGCTGAAAGGAATGATCTTTAATTCTTTTTTAATCCTTCTCAATAAGAACCAGTACAAAGAGAAAGCATTTTATTCTAAAAGTGCTATTCAGGAGTTTCAGAAGCTTAAAAACACAGCCAGACGAAATGAGCTGCTGATCTCGGCTTATACCAATATGGGGTATAATTTATCTGAGGTGAAAAAATTCAGGGAAGCCAAATATTATTTTGTAAATGCTCTTTCGTTGGCGGGGGAAAGCAATTATTACCTTCGGGCAAATATCCTTAATGACATCGGATTTTCTTATTCAAAACAGAATAAACCGGACAGTGCGGTGCTTTACTTTCAGAAATCCCTGGCCATTGTAGATCAGTACGGTTTCAATGAAAAAAAAATAGAGGTGACTAAGAATCTTGAAGAAGCCTATGCCCAGCTTCACGACGAATCCAATACCGAGAAGTATAAGATTGAAAATCTTAAATTAAAAGACAGCATTGCTTATAACAAATCCATGGCCGTTAACAAAACTTTATCCAAAAAAGAGGAAAGTTTTCATCAGCAGCTCAATGAAAGCCATTCTGTTTCAAAAGGGCTTATTATAGCATGCCTTGCGCTGTTAATTGTTTTAGGAGCAGTGATTTTCAACACCACCCGCCTTCGTAAGAAACATAAAGAAGCGGTAGCCAAAATTTACAGAGAAGGGATTTCTCCTGTTATTTATGAAGAAGATCCACAGGAGGTTTCTGAAGATATTCAGGCAAAAAACACCTCTACTCCGATAGAAATAAAAATTTCGCCTGAAGTAGAGGAAAACATACTAGATGGATTAAAAGTTTTTGAAGAAAACCTTGAGTTTAATAACAAAAACATTTCTCGTTATAATCTTGCAAACACATTGAATATCAATACAAAATATCTTTCAGCGGTTATTAAGAAACATAAAAAATTCAATTTCAATCAATACATTAACCACCTGAGGATCAATTATATTGTCACTCAGCTGAAAAATGAACCTCAATACAGAAAATATAAGATCAATCACCTTGCTGAAATCACAGGATATTCATCTCACAGTGCCTTTTCTCTTGAGTTCAAGAAAATCACAGGGCTGCATCCGTCTGCTTTTATTAAAACCCTTGATGAGATCTCCTGA	MKKKNILFFFLIISIFTFAQSFDFEGQYKYARMLSSKNPDSSEIVLNKIIDSAQKRNVPEFLAKAYYLKSFNSYLKSDAEKSLDFADKALKISTQSDYSIGKALAYRMQGTQYAKLGLLKESSTSLRNALAEVKNNTTEEGHELKGMIFNSFLILLNKNQYKEKAFYSKSAIQEFQKLKNTARRNELLISAYTNMGYNLSEVKKFREAKYYFVNALSLAGESNYYLRANILNDIGFSYSKQNKPDSAVLYFQKSLAIVDQYGFNEKKIEVTKNLEEAYAQLHDESNTEKYKIENLKLKDSIAYNKSMAVNKTLSKKEESFHQQLNESHSVSKGLIIACLALLIVLGAVIFNTTRLRKKHKEAVAKIYREGISPVIYEEDPQEVSEDIQAKNTSTPIEIKISPEVEENILDGLKVFEENLEFNNKNISRYNLANTLNINTKYLSAVIKKHKKFNFNQYINHLRINYIVTQLKNEPQYRKYKINHLAEITGYSSHSAFSLEFKKITGLHPSAFIKTLDEIS				NA	NA	NA	NA	NA
BMS003_02515	915			hypothetical protein	ATGATGAAAAAAAATTGTTTACTGATTTTAATGACTTTAAGCTTCCAATATACATTTTCACAAATTGGAATCAATACCCCAAATCCACAAGGTATTCTGCATATTGACGGACAAAAAGATAATCCTGCTTCCGGCTCGACATTTACTCCGGCTCAGCAGGCTAATGATATTCTTGTGAACAGCGCAGGGAAATTAGGTGTAGGAACTTTAAGCCCGGCCGTAAAAGTAGATGCCAGAAATTCCGGAAACGGAGCCATTGGTTTTGGAACTTCCACCCTCACGGCAGTTGCAGCAGATGAAGGAGCTGTACGCTATAACAACGGAGTAGAATACTCTAACGGAAATGAATGGCTGCCTTTGCTTACCGCACAGCCTGTCAGTAATAAGGTGATTGTAATTGCAGCTAAAACAACTAATAATGTAAAGCTTGTAACGCCTGCCACACCAACGGTAACTGCTGGCCTGCAGAACAGGGCGAGTAATTATCTGGTAGACTGGAGTAAAACCTTTGAAAGTAATTCCGGGACAACTTTTAATGCAGGAACGGGTATTTTTACAGCGCCCAGAAACGGAATTTATGTAGCCTCTTTCACCACAGACCTGGCTCCGCTAGCTATCAATTATACTACAGATCCTTTAAATCCTATTCAGATAGAGGCGATCTGGCAGCTTTATGATAATACAGCAGGATTGGCTGCCACCAATATTGTTAATACGGTGAAATGTGCCAATACAATGTCATCAAACAGTATAGGGAATATTGATGCAGGAAGTAATTGTACTGCCTCTTTCTATATGACAGCAGGGCAGAGGCTGATGCCTTACATCTGGTTTAATTTAAATAACTCAAACATTGCGAATTTTTCACTTAATAATACAGGAGGCTATAATAACCTTACGATAGCAGAGCAGTAA	MMKKNCLLILMTLSFQYTFSQIGINTPNPQGILHIDGQKDNPASGSTFTPAQQANDILVNSAGKLGVGTLSPAVKVDARNSGNGAIGFGTSTLTAVAADEGAVRYNNGVEYSNGNEWLPLLTAQPVSNKVIVIAAKTTNNVKLVTPATPTVTAGLQNRASNYLVDWSKTFESNSGTTFNAGTGIFTAPRNGIYVASFTTDLAPLAINYTTDPLNPIQIEAIWQLYDNTAGLAATNIVNTVKCANTMSSNSIGNIDAGSNCTASFYMTAGQRLMPYIWFNLNNSNIANFSLNNTGGYNNLTIAEQ				NA	NA	NA	NA	NA
BMS003_02516	813			hypothetical protein	ATGAGAAAAACATTAGGACTGCTCCTGGTCATTTGCTGTGGTGCAGGGATGAAAGCACAGATAGGAATCAATATGTCTTCTCCGGAAGCAACAGTACATATAGACGGACAAAAAAATACAAATGTTTCAATACCTTCCAGCTACTATGATGATATAATGATTACTTCATCTGGAAATATGGGGATAGGAACAAAATCTCCCAAAACAAGATTTGATCTGAGATCCGGGGAGCATTTAAACGCAATAGGAATCGGGGGTACTTCACAATCTGCTTCTGCAGCAAAGGCCGGAGCAATGAGGTATAATTCCGGGACTCAGGATCTGAGCTATTCTAACGGAACCGCTTGGGTGATTCTTGCTCACAAAGCCCCTAATGATTTTGTGGATGCAGAAAATGCTTCCATACAAAGCTTCAGTAATGGAGTACAGACTCCTGTTACGGGCTGGACTAAGAAAACAGATGTAAATGGCAGCTTTAACGCAGGTACGGGAACTTTTACCGCTTCAAAAACAGGGGTGTACATTGTGTCATTTACCTTTTCACTGGCTTCGGGAAGCATTGCGAACGATTCAAGGTACGAAACGCTGATTCAGACTAATTCAGGGTCTTCTGCAACCAATAAAGTATTTAAATGTGTAGGAAGTTATCCCGGGAACAATACAATAGGAAATCGTGTTGCGGGAAACTGCTCCGGAATTTTTAACCTGAACCAGGGAGACAATATTACGGTAAGCCTGAATCAAAAACTGGGGAGCTCAAAAACACTGGATACGGATTCTACGCTGACTTCTTTAAGTATTTTCGGATTATAA	MRKTLGLLLVICCGAGMKAQIGINMSSPEATVHIDGQKNTNVSIPSSYYDDIMITSSGNMGIGTKSPKTRFDLRSGEHLNAIGIGGTSQSASAAKAGAMRYNSGTQDLSYSNGTAWVILAHKAPNDFVDAENASIQSFSNGVQTPVTGWTKKTDVNGSFNAGTGTFTASKTGVYIVSFTFSLASGSIANDSRYETLIQTNSGSSATNKVFKCVGSYPGNNTIGNRVAGNCSGIFNLNQGDNITVSLNQKLGSSKTLDTDSTLTSLSIFGL				NA	NA	NA	NA	NA
BMS003_02517	861			hypothetical protein	ATGAAAAATCTAAGTATTTTGATGAAGGGAATACTGATTCTATTTTGTTTAATTATAAGTTATTCAAAAGCACAGGTAGGTATTAATACTTCAAACCCTCAAACCACTTTCCACGTAGATGGAGCAAAAGATAATCCCTCATCCGGAGCTCCGTCCTCTACCCAAATAGGAAATGATGTTGCCATTACTTCTACCGGAGAAATAGGAATAGGAACTTTAGCACCAGCAGTGAGGATAGACACGCGTTCAGCATCAAATTCAGATAACTCAATCGGGATAGGAGAGACCAGTCAGACAGCTGCAGCTGCAGGGGGAGGAGCTGTAAGATATAACCCGCTGAATGGCGGAAAAATGCAGTATTCAGATGGTGTGGTATGGCAGGATCTTATTTCATCACCTACCAAAGCAGTGGTGGTTGCCAATCTTCAGGCAGCCAACTTTGCGGTAAAAATTCCCTACCAGGTTTCTACAGGGATTGCAGGATGGACAGAGGTTTCGGACCCAACAGGGAACTTTACCCCCGGAACAGGTATTTTTACAGCTCCAAGAACCGGAGTGTATCTTGTTTCTTTTACCTATGACTTTGTAAGAATTCCTATTGTTTCAGGTTATTTTTCAGAGGCAAGATATGTTGTGAACGGAAATAACACGGTGAAAAAATGCGTTAAATCTTACTCAAATATTTCAAAGCAGGCACAGGTCGCGGGATCTTGTGTTGCCGGAGTCCAGCTGAATAAAGGAGATACGCTTCAGCCTTATATTTATCAGTCTGTGTACAACGGAAACCTGAGCCTGAGAACAGATACCTCTTCTGCAAGCAACGAATATGGCTTTGTAAATCTTTCTATTTTAGAACAATAA	MKNLSILMKGILILFCLIISYSKAQVGINTSNPQTTFHVDGAKDNPSSGAPSSTQIGNDVAITSTGEIGIGTLAPAVRIDTRSASNSDNSIGIGETSQTAAAAGGGAVRYNPLNGGKMQYSDGVVWQDLISSPTKAVVVANLQAANFAVKIPYQVSTGIAGWTEVSDPTGNFTPGTGIFTAPRTGVYLVSFTYDFVRIPIVSGYFSEARYVVNGNNTVKKCVKSYSNISKQAQVAGSCVAGVQLNKGDTLQPYIYQSVYNGNLSLRTDTSSASNEYGFVNLSILEQ				NA	NA	NA	NA	NA
BMS003_02518	1272	umuC	COG0389	Protein UmuC	ATGTACGCTCTGGTAGATTGTAACAATTTTTTTGTTTCCTGCGAAAGAACCTTAGATCCTGATCTTGAAGGCAAGCCCGTTGTGGTACTTTCCAACAACGATGGTTGTGTGGTGTCCAGAAGCAAAGAAGCAAAAGATCTTGGAATTCCTATGGCGGCACCTGCATTCAAGTACAAAGAGCTGTTTCAGAAACATAATGTGAAAAGTTTTTCTGCAAAATTTGAGCTGTATAATTATAAAAGCCAGCAGGTTATTAATATTGCTAAATCTTACGTTTTAGAACATGAGGTTTATAGTATTGATGAACTTTTTCTTGATTTGACAGGCTTTAAATACATCGATATGTATGAATATTGTCTTAAGATCAGAAATGAGATCCATGAGAAAGAAAATATTCCGGTAAGTATAGGAATTGCCCCTACCAAAACTTTATGTAAAGTCGCAAACAGAATTGTAAAAGATTTTCCGGATAACTTTAAGGGCGTTTATATTCTGGACACTCCTGAAAAAATTGAAAAAGCCCTGAAGTGGCTCAATATAGGAGATGTATGGGGAATTGGAAGAAGGCTTGCTGCCAAAATGAATGACAGTGGTGTATATAAAGCATGGGATCTTCTTCAGAAACCTGAAATGTGGGTCAGGAAAGTGATGGGAATTCATGGAGTAAGAATGATCAATGAATTGAGAGGAATTCGTCAGCTTGAACTGGATGCACCTTCTCCTAAAAAATCCATAGCCGTTACCCGAAGTTTTATGCAGATGCTTACGAAGAAAGAAGAAGTGAGGGAAAGAATAGAAACTTTTGGAATGTACTGCTCTGAAAGATTGAGAAAGCAGAATACCTGCTGCAAAATGATCACGGTTTTTGTACAGACCAACCGATTCAGAAAAGACCTGCCCGAATATAAAAATGCAATGACCCGTATTCTTTCCAATCCTACCAATTCATCCATCCTCATCGGAAGAGCGGTGAATGAGCTTTTTGAGGAGATTTACAGAGAAGGTTTTCATTATAAAAGAGCCGGGGTAATGGTAAATGATTTTGTCCCCGAAGATCAGAGACAGATCAGTCTTTTTGAGGAAGATATACAAAACCAGCATCTTCCCGTGATGAAAGCCATGGATGCTATGAACCGGAAATATGGAAAAGATAAAGTGCGTCTTGGAAGCATGAGTGGAGAAAATACCTTTGGGCGTGCAAAACTATCCCCGGAATATGAAGCCTTCCTGAAAAAGAATACATTGCCGGAAGCGAACTTCAGATTTCATTAG	MYALVDCNNFFVSCERTLDPDLEGKPVVVLSNNDGCVVSRSKEAKDLGIPMAAPAFKYKELFQKHNVKSFSAKFELYNYKSQQVINIAKSYVLEHEVYSIDELFLDLTGFKYIDMYEYCLKIRNEIHEKENIPVSIGIAPTKTLCKVANRIVKDFPDNFKGVYILDTPEKIEKALKWLNIGDVWGIGRRLAAKMNDSGVYKAWDLLQKPEMWVRKVMGIHGVRMINELRGIRQLELDAPSPKKSIAVTRSFMQMLTKKEEVRERIETFGMYCSERLRKQNTCCKMITVFVQTNRFRKDLPEYKNAMTRILSNPTNSSILIGRAVNELFEEIYREGFHYKRAGVMVNDFVPEDQRQISLFEEDIQNQHLPVMKAMDAMNRKYGKDKVRLGSMSGENTFGRAKLSPEYEAFLKKNTLPEANFRFH	PGPT0014882_1124	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
BMS003_02519	1584	nhaK_1	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGCATACCATCTTACCCTTTTTACTTGCTATGGTCGCAGCCATTGTGCTGCTTAATATGTGGGCAACCAAATTAAAAATTGCCTACCCAATTCTGCTTGTTGTATTTGGGCTTCTCGTTAGTTTCGTACCAGGGCTTCCGGTTCTAAAGATCAATCCCGATCTTATCTTTTTTATATTTCTGCCTCCTCTTTTATTTGAGGCTGCATGGTCTATTTCCTTTAAAGAAATGAAACGATGGTGGCGTATTATCGGAAGCTTTGCCTTTTTAGTAGTCTTTTTTACTGCTTTGGCAGTGGCGGTAACGGCTAATTATTTCATCCCCGGATTTACACTTGCTCTCGGGTTTTTGCTGGGAGGAATCGTATCTCCGCCCGATGCGGTAAGTACAGGCGCAATCATGAAATTTGTAAAAATACCATCCACTACTTCGGCCATTCTGGAAGGAGAAAGTTTGCTGAATGATGCCTCTTCACTCATCATATTTCGTTTTGCTTTAATTGCTGTAGGAACCGGACAGTTTGTATGGCAGGAAGCGTCGTTAGACTTTTTATGGATGATTGTAGGAGGAGCCGGAATTGGCCTGGTATTGGCCTGGATTTTTGTGCAGGCTCACAAAAGACTCCCTACAGAAGCTTCTTCAGATATCGCTTTAACTATTATTGAACCCTATCTTATGTACTGGATTGCAGAACAGTTTCATGCTTCCGGAGTTTTGGCAGTGGTTTGCGGTGGGCTGTATATGTCAGGTAAACGATTGATATTTCTGAATAGTACCAGCCGAATTATGGGCTATAGTGTATGGCAGAGCTTTGTATTTATTCTGAATGGTATCGTATTCTTAATCATCGGGCTTGAGCTTCCTGAAATTGTGGGAGGGCTGAGATGGGAAGGAATTCCTTTGGGAACAGCCATTCAATACGGGGTATTGGTGACCGGTATTCTGATTGCTGCCAGAATCATAAGCTCTTATGCTGCAATGCTGGCTACATTGATTTTCCGGCCAGGTGTAGCTCCCCGTGCTTCTTCAGCAAGAAGGCGGCTGCTGATGCCTCTGATGCTTGGGTGGACAGGAATGAGAGGAGTGGTGTCATTGGCTGCTGCATTAGCTATTCCTATTACCCTTGAAAATGGACTTCCTTTTCCGAACAGAAATCTCATTCTGTTTATTACTTTCGTTGTAATTCTGCTTACGCTGCTTGTACAGGGACTTACGTTGCCATATCTTATAAAATATGGCCATGTGTTTGATGATTTTACAGATGAGGAAAAAGAAAAAAAAGCAAGAGAAGAAATAAAATATAAACTGAAACAGCATGTTTATCATTTTCTTAAAGATAAACATGAAAATGAGCTGAATGGTCATGCCGGATTAGAAAGAATGCTGAAGCACTGGGAAGAAAAGATACAGACCAATGATCCGGGATGGATGAATGAAAAGACCAAAGATATCTTTTTTGAAATGCTGGAAAGCCAGAGACAGTTTCTTTCAGAACTGAATAAAGATATTTCCGTGAATGAAGAAATTATCCGCCATCAGCTCTATCAGATTGATCTTGAAGAAGAGCGTTTGAGAATGATCTAA	MHTILPFLLAMVAAIVLLNMWATKLKIAYPILLVVFGLLVSFVPGLPVLKINPDLIFFIFLPPLLFEAAWSISFKEMKRWWRIIGSFAFLVVFFTALAVAVTANYFIPGFTLALGFLLGGIVSPPDAVSTGAIMKFVKIPSTTSAILEGESLLNDASSLIIFRFALIAVGTGQFVWQEASLDFLWMIVGGAGIGLVLAWIFVQAHKRLPTEASSDIALTIIEPYLMYWIAEQFHASGVLAVVCGGLYMSGKRLIFLNSTSRIMGYSVWQSFVFILNGIVFLIIGLELPEIVGGLRWEGIPLGTAIQYGVLVTGILIAARIISSYAAMLATLIFRPGVAPRASSARRRLLMPLMLGWTGMRGVVSLAAALAIPITLENGLPFPNRNLILFITFVVILLTLLVQGLTLPYLIKYGHVFDDFTDEEKEKKAREEIKYKLKQHVYHFLKDKHENELNGHAGLERMLKHWEEKIQTNDPGWMNEKTKDIFFEMLESQRQFLSELNKDISVNEEIIRHQLYQIDLEEERLRMI	PGPT0013930_1224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
BMS003_02520	501			hypothetical protein	ATGGACAAAGTAACTTTAGAACGAATTCAGAAACTTCACCCATTGGTAAGAGATGAAGTAAAACAAATTATAGCAGAATGTGATGAAGCCCTCACCGGAAGAGCCAAAGTACGGATTACCCAGGGACTAAGGTCTTTCGAAGAGCAGGAAAAACTGTATGCGATAGGAAGAATTACCTCAGGAAAAAAGGTAACCAATGCAAAAGCGGGGCAAAGTATTCATAATTATGGCCTTGCGGTAGACATCTGTCTGATAATTGACGGGAAAACAGCGAGTTGGGACACTGTAAAAGACTGGGATAATGACAAAGTAGCAGACTGGTACGAGTGTGTAAAAATTTTTGCCCGTCATGGCTGGGACTGGGGCGGAAACTGGAAAACATTTAAAGATCTCCCCCACTTTGAAAAAAAGAATATTCCGTCTAAAAAAGGGTCTGTAAAAGCTACCTGGAGAACGCTTTTGAAAATGCCGAAAGACCAACAGAATTACGTTATTTTTTAG	MDKVTLERIQKLHPLVRDEVKQIIAECDEALTGRAKVRITQGLRSFEEQEKLYAIGRITSGKKVTNAKAGQSIHNYGLAVDICLIIDGKTASWDTVKDWDNDKVADWYECVKIFARHGWDWGGNWKTFKDLPHFEKKNIPSKKGSVKATWRTLLKMPKDQQNYVIF	PGPT0024025_558	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
BMS003_02521	1038			hypothetical protein	ATGAAAAAGACAACCATTCTTTCTTTGGACGGAGGTGGAATAAGAGGAATCATTACCTGCATTATTCTGCGTTACATAGAAGAACAGCTCCAGCATTATGATAAACCGACTGCCAAGCTCGGGGATTATTTTGATCTGGTAGCAGGCAGCAGCACCGGAGGTCTGATTGCTTCTATTATTCTCTCTCCCGATGAAACCCGAAAAGCAAAATATTCTATCCAGAAAGGGCTGGAATTATATGCTGAGAAGGGTGGCGACATTTTCCAGGTTTCCTTTTGGGAAAAACTGGTTAATCCATTCGGATTATTGAATGAAAAAATTTCTCAGGAAGCCCTTGAAAAAAATTTAAATGACTTTTTTGGAAATTTAGAATTAAAAGAATTAATAAAACCATGTTTAATAACAAGCTATGATATTGAGAACAGAAGGGCAAAACTTTTTAATTCCTGGAAAGCCCACCTCAGCACGGATAATTTCTTTGTGAAAGATATCTGCAGGGCGACTTCGGCTGCTCCCACTTATTTTAGTCCGGTGCAGATCAAATCTATGTATGGACAGATTTTCAGCCTGATTGACGGTGGAATGTTTGCGAATAATCCTGCACTCTGCGCCTATGCTGAAGCAAGAAAAATCCCCTTTGCAGAAGTGTTGAAAAACCATCAGAAAGCCAACCACCCAAGTGTAAATGATATGATCATCGTCTCTATCGGAACCGGAATTGAAGCAAGACCTTATTCATTTAAAAGACTTGAAAAAGCAGGGAAAATTGGGTGGGTAAGCCCCATTATCGACATTTTAATGTCTGCCAATGCGGAAACAGTGGATTATCAGCTGGAACAGATGTTTCAAACGCTGGGGCTTAGAAATCAGAAGAATTATTACCGCCTGAATCCTTCCCTAAAAAATGCTTCTCCAGCGATGGATAACGTGAGAAGATCTAATATTGAAAACCTGATACAGGCCGGATTAAGCTATATTGATGATAACAGAGAAACGCTGAACCAGATTGTTCAGAAACTCATCAAAAATAAAATATAA	MKKTTILSLDGGGIRGIITCIILRYIEEQLQHYDKPTAKLGDYFDLVAGSSTGGLIASIILSPDETRKAKYSIQKGLELYAEKGGDIFQVSFWEKLVNPFGLLNEKISQEALEKNLNDFFGNLELKELIKPCLITSYDIENRRAKLFNSWKAHLSTDNFFVKDICRATSAAPTYFSPVQIKSMYGQIFSLIDGGMFANNPALCAYAEARKIPFAEVLKNHQKANHPSVNDMIIVSIGTGIEARPYSFKRLEKAGKIGWVSPIIDILMSANAETVDYQLEQMFQTLGLRNQKNYYRLNPSLKNASPAMDNVRRSNIENLIQAGLSYIDDNRETLNQIVQKLIKNKI				NA	NA	NA	NA	NA
BMS003_02522	246			hypothetical protein	TTGAATTCAACATTCTCTCATGCTGAACAGCCAGAAATATGTTCAAAATATAACCAACACCTTACAACACAAAACATGGAAACAACCAATCGCAATACCAATATAACCTTCGATGAAGACCTCTACACCATAGAATGGAGCGACATCGAAAACGCAGAGATGGATTATGAAAACTATCTCAATGACATTGAAAACTTCTTCAGAGAAGATTTTGAAGAAGGAGTACTTGAAGAAGATACTTTTTAA	MNSTFSHAEQPEICSKYNQHLTTQNMETTNRNTNITFDEDLYTIEWSDIENAEMDYENYLNDIENFFREDFEEGVLEEDTF				NA	NA	NA	NA	NA
BMS003_02523	651			hypothetical protein	ATGAAAACAAAAGAAGAATTAAGACTCTATTTTGAAAATGGAGATATCCCAAAACAGGAAGACTTTTGGGAATGGCAGAACTCTTACTGGCATAAGGATGAAAAGTTACCCAACAGTTCTCTTGAATTACCAACTTATGAAGAATTCGTATTTTCTCTTACAGACAATACAGAAATTGTTGGAATCGGAAAAAGAATTATATTTCCCGAGGGAGTTAAAGTTATTGGCACAGTACCAGGCGGCCCTAGCTTCCAGTATCAGCCAGCAGCAAAAAATATTATTACCCAGGTAACTTTTCCAAAGACATTGGAGAGAATAAAATCGGTTGCATTTGGTAACCAATTTATAACCGGAACTTTAAAAATACCTGGCTCATGCAAAATAATTGAAGCATCAGCATTCTCCAGTTCAAATTCCAGAGTATCTGAACTCATCTTAGAAAATGGTATAGAAAGCATTGACAATTACGCTTTTCAACTTGCAGGAGCTACAACAGTTACAGATTTATATATTCCAAAGTCTGTAAAATCCGTAGGGCAAAATGCATTTAATATCCCATCCTTAAAGAACATTTCTGTGAAACAAGGTTTAGATATCAGTAATGCTGGTATCCCGGAAACAGCAACAATCTTATACTATGCAGACATCTAA	MKTKEELRLYFENGDIPKQEDFWEWQNSYWHKDEKLPNSSLELPTYEEFVFSLTDNTEIVGIGKRIIFPEGVKVIGTVPGGPSFQYQPAAKNIITQVTFPKTLERIKSVAFGNQFITGTLKIPGSCKIIEASAFSSSNSRVSELILENGIESIDNYAFQLAGATTVTDLYIPKSVKSVGQNAFNIPSLKNISVKQGLDISNAGIPETATILYYADI				NA	NA	NA	NA	NA
BMS003_02524	2085			hypothetical protein	ATGAAAACAAAACAAGAATTAAAAAAATATTTCGAAAACGGAGACATCCCGGTACAGGAAGAATTCTGGGAGTGGCAGGATTCTTACTGGCACAAAGATGAAAAGATTCCTGCGGCTCAATTAGATTATGATCTGTCTAAAAAAGCAGATGCAGATGCATCCAATATAAATCCGCAGAATGTTCAGCTTTGGAAAGAAAAAATTGAAACTCAAACCTCAATTCAAAATCCGGAGCTAAATGGAAATATTTTAACGGTATTTTACACAGGAGAAAATGATATTCAGCAAAGTAAATCAGTAGATTTAAGCGGTTTGGCAACCAATAATATCCATATTGAGAATGCAGAATATGATGCTTCTCAAAATATCATTACCATCACTCAGAGTGACGGCTCTGCCTTTCACATCAACCTTTCCGAATTTAGTATCATTCCCACCACCAATGCTGATGGAAGCGTAACATTATCCCAGGAGGGACAGGAAAAAGTTACTTTGAAAAAAGTGGCCGTAACAGGCAGTTACAATGATCTTTCTGACAAACCCACTTTTAGCGGGAATGATAATTTACAAAATGTCATTGACAGAGGTAACGGAACAACCAAGCCTATTATCTTTCAACCAAGCCAGGGCAGAGCAGGCGAAATCAATTTCAGTCCTTCAACCTATTCTCTCTGGTTTGGAAACATGAACACAGAACATACCGGAAGCTATGGAATAGGAATAGGTTATAATACTCTACCTAAATTAACGACTGGTTTAAGTGATATTGCTATCGGAGGTTTTGCGGGGGCAAACCTAACAACAGGAGACTGGAATACTCTTGTAGGAGTAAACAGCGGCTCACTTTTAACAACAGGAAATTATAATGTAATGATTGGAACTGAAGCCGGTAAAAACTCTACATCAGCTCTTTCCTGTACTTATGTCGGAGATGAAGCAGGTGTTAAAAACATCGATGGAAAGTACAACACCGCATTAGGGGTCGCAGCCGGATATTGGCTGACTCACGGTGTTCAGAACACATTCCTTGGAGCTTTTGCAGGTCAGAATTACGGAAAAGTGACTACTTCTGGCGCATGGGGTTCCAATACATTTATTGGATACAATGCAGCCTCTACTACGCATGCGATGGGGGTTTGGGGAGATAACAATGTTGTTATCGGCTGTAATGCACCGTTAGGAGGTTCAACATTCAACAAACTGGTTATTGAATCCAATCCGGTAGCAAGACGTCATGATTTTGTAACCCCTTTAATTGGTGGAGACTTTAGCGCCAGAACACTGGACTTTGATGCTGTAATCAGTGCTAAAAGAACTCCTCAGGCTGATAACACCTATACTAAAGTAGCTGTCCTAAACGCCGGTAATGTATTGGGGTATAAAAACTTATCAGACTTTACTGATTTTGTTCCACTTTCAGGAACAGTACAGGGCAGTCCTTTAACCGGCGCTCTTGAATATAAAGGAAATGATACAACAGGCATCAATTCATTTGGATTCCACAGCAGTCATTCTGACACAGATAAAGCAGGTTTTGACATTGAAGACGATGGTGCATTGACACCATATATCTATTGGATGGGAGGTCAGAATATAAAAACAGCATTAAGAGTATACAATGATGATGTTACAGTATTTTCCAACAGTCCCACGTTCTCTGGCTTAAAAGGAGGCAGCTATTATGGAGACTATTACCAAAAGGAAAGTTATATCCAAAAACAATATGCAGATAAACAGCATTCTTATACCACCAAAGAAGAGCGAACAGGCGGAACCTGGATCAATAATAAACCTGTTTACAAAAAAACATTATATCTGGATCAGATTCCAAGAACAGGAGAACTTCCAATTGATAAGATTTTTGAAGATATGGAAGTGATTGTCTCCAATCAGATGTTTACAGAATGGTATGCAATGGATATAGCATTCGCTGGAAACCAATGGATGGCGAAAGCTTTCATAACACTAGAAAACAGAATGGTAAGATTTGAACTCGCAGGTGTTTCAGATTATGATTATTCTCTAATCAATTCATTTGCTCTGACACTTGAATACACCAAAAAAAATGACAGTCCTGTATACTAA	MKTKQELKKYFENGDIPVQEEFWEWQDSYWHKDEKIPAAQLDYDLSKKADADASNINPQNVQLWKEKIETQTSIQNPELNGNILTVFYTGENDIQQSKSVDLSGLATNNIHIENAEYDASQNIITITQSDGSAFHINLSEFSIIPTTNADGSVTLSQEGQEKVTLKKVAVTGSYNDLSDKPTFSGNDNLQNVIDRGNGTTKPIIFQPSQGRAGEINFSPSTYSLWFGNMNTEHTGSYGIGIGYNTLPKLTTGLSDIAIGGFAGANLTTGDWNTLVGVNSGSLLTTGNYNVMIGTEAGKNSTSALSCTYVGDEAGVKNIDGKYNTALGVAAGYWLTHGVQNTFLGAFAGQNYGKVTTSGAWGSNTFIGYNAASTTHAMGVWGDNNVVIGCNAPLGGSTFNKLVIESNPVARRHDFVTPLIGGDFSARTLDFDAVISAKRTPQADNTYTKVAVLNAGNVLGYKNLSDFTDFVPLSGTVQGSPLTGALEYKGNDTTGINSFGFHSSHSDTDKAGFDIEDDGALTPYIYWMGGQNIKTALRVYNDDVTVFSNSPTFSGLKGGSYYGDYYQKESYIQKQYADKQHSYTTKEERTGGTWINNKPVYKKTLYLDQIPRTGELPIDKIFEDMEVIVSNQMFTEWYAMDIAFAGNQWMAKAFITLENRMVRFELAGVSDYDYSLINSFALTLEYTKKNDSPVY	PGPT0022155_5357	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
BMS003_02525	3786			hypothetical protein	ATGGCAACAAACGAAACAAATAATAGCGCACCACAAACCTTATTCCGATTTGTAAGCTTAAGAAACCCTGAATTAACAGAAACTAAAAAGGTCAATCTTGGATTCATTCACAGGCCATCACAGCTTACAACCTCTTTTGATACTGCAATTAACCCGGGAAGTACGGCTCTAGAAAAGTTCCAGGCCCTGGAACGTGCTGCTAAATCTTTTAATACGGTTGGCTATCAAAGCGAAATTGAAATTGAAGGCGGACCTCTTTCTGAAGCCCTTAAAATTGGTAGAAAAATTGCTAAAAAAGAAGTAATTTCTGTAGCAGATGAAATTACGGCTAAAAATTTATATAATAGCAGCGCCATCCAATCCAAAATGGGTGAAGTATGGGATAATCTTATTTATCAGACTGTTACCCAGGAAAACTTCTATGTTAAAGAGGCTTTAGTTCATATTTTAAGAGCTCTTCATTTCGGATATGTTTGTGATTTACCTGCAACACCGGAATTAATAGAAATCAACGGTGAAGATCTGAAAGCAAAAGCCCTGGAAGCAAGAGTTGTTTTACCGATGAAACTTTTCGGAGACGGATACGAAGGAGAGGGCACCACATCAAACCCTTCAGGAAATCCTTTTCAGGTAAATATCTCTAAAATTGGAGAAGGAATGATCAATGGAACTACTCCTCTTTCATTTTCGGTACAACAGCAATTAAAAGCAGAAGGAGAAAGAATATCAGAACTGTCTTATCTTACTTTTGAGAAAGACGGACTACTACAATTAAGATCCGAACTGGAGGCCACTCAGAAATTATTCTATACGTTAAGGGCAAAAGCATATGATGCTGCTTATAAACAATACATGGATACTCATGAGGCAGATATTGAGAGATACAATACCTTGCAGGAAAGTGTTAAAACCCAAATTGCCAATGGAGGTTTAACCCAGGAACAAATTGATGCTTTGTATGCTTCATTGGAAGCCTTAAAAGTTCCGCCATTCAAATTCGAATATAAAAATGAAATTAATTTCGGCGATTTGAAAGAAAAACTTTCACTGGATTCTTTCAAATTATTCGTCAATATTTTCACAAAAGTAACAAGTGGGGAAAAACCTGAAAACGGATTTGATTTCTCAACAATCACAGTTTTAAGTGACAGAAAACTACAGTTAGGAACAGTTGAAGTTTCCATTACTGATGAGTTTGATACCTATCCTGAAATTTTTGAAAAACTGGATGAAGAAACCGCTTCAAAAGTTCAGACTTTATTCCAAAAATCACCCGCTCCTGAACAGACTTATGCAAGTGTAGGAGGAGTATTGGTTCCTGTTGTTTCTTCTTACAGTGCTTCATCCCGAGTTGTCCCAAGATCATATTATCTGAAAACATCATATGAGCCACTCTATTCAAGAATGCCGGCTACAGCTACATTCTATTATCAGGCTGAAAGCAATGCCTGGGGAGCTGCTTCTGTAAGAATTAATGCCAGCACAGATTTTGGAGTATTTGAGGAAAGTTTCTCCAATATTGAAGTGATGGACGGAAAAGTAGCATTACCTCTGTTTTTGGTTGATAAATTTGGTAAGTTCATCAGATCTATGGATATCAAAGTTTATTTTAATAACGGAAAAGAAGCTTCATTAAGCCTTTCTGAAATTGAAATCAACAGAACATTTACAGGTATTCTTTATACGGAAGAGACAAAAGATGAAACGGAAAATCCATCTGAAGGAAACAGTGGTTATAAGCCAGGGACGTTTATTCCTAAGCATTTTGGAGTAAAAAGACTGGGGATTGCAGATTACCTGAAAGTTGTTCAGACAACACACGCTTATGTTCCGGGTGAGGTAACTCATATCGAAAACATTATGGCGAAAGAGTTTAAACAAAAATCAACCCGTAGACTGAGAAGAAGTGAAATTCAAACTACAATTTCCAAGTCAACGGAAAGAGAAACACTAAGTGATACTACAACTACAACCAGAAATGATATGCAGTCTGAAGTTGCGAACGTTATCCAACAGGATATCAATACAGAAGCACATTTCAGATATGGAGGTATGGGTAAATCTTTCGAAGTAGGAGGAAGCTTTGCCGCCAGAAACTCTAAAGAGAACAGTACAAGACAGGCGATTTCAAAATCTCAGGAAATTACAGAGAGAGCCACGGAAAGAATTCTTACCAAAGTAGCCGAAGAAAGGATTGAAAAAATCATTGAAGAGTTTGAAGAAAACAATGCTCATGGTTTTGATAACAGAAACGGAAGTAAACATGTTGTCGGCGTTTACAGATGGGTAGATAAGAAGATGAAAAACCAGATCTTCAATTATGGCAAACGTACCATGTTTGAATTCATGGTTCCGGAACCCGCAAGACTTCACACTCTGGCAACAGCCGCTTCGAAATCTGATACATTAACGCCACCTTTAGATCCAAGAACAGTTACCGGAGAGTGGAACATGCCAAGCGCTCAAAAAGCAACTCAGCTGCAGATTGAATACTGGGCGAATTATTATAATGTAAAACTTACTGAGCAGCCAAAATCTCCTATCAACCTTATTTTAGGAAAACAATGGGAAAAAGTAGACGGAAACGGAGAGTTCAGACACAGACAAATTGATATTCCTGATAACTACGAAGCAAGTGCTGTAAAAATGTTCTATGGTTTCGAAAGAGATTCAAGAGGGAAAAGTGTTTTATATACCAGCAATTTTGCCGGAGGTACCGTGGCCTTAGAAAACTGGAATACTTCTATTGACAGTACAGCTTATTTTACACCACAGAATGTAACCGGCTCTTATGACTTTGTATACAGATGTGAAAATATCGATTCTGTTAACATCGCATTCGAAATTACCTGTAAACTTTCTGCAGCCTATATGGCATCATGGTTCTTAGAAAACTTCACAGCAATTATCAAGGCTTACGATGAAGCCTATGCCATCTTTTTAGAGAAAAAAGCAGAAATTGAGAAAAAAGCGAAGGAAGAAGAAGAGCAGAATAAAGAAAAGCTTAACTCAAGCAACTTCTACCGTAACATGGAATCTGTCATCCTGAAACATAACTGTATTGCGTATTTATTACAGGATTATGCTTCTCTGGGGAAAAATTTCACCAACGGGGCAGAAAGAATGCAGGATTTCAGTATTGTATTAGGTGAAGATCTTGAGCAGTATACCGCATTGGCAAAATTCATGGAACAGGCCTTCGAATGGAGCATCATGGATTATACCTTCTATCCTTACTATTGGGGAGATAAAGCCAAATGGCAGGATATGTATCTGTCTCAAAGTACAGATCCTTTATTCAGAAACTTCCTTCAGGCAGGTATGGCCAGAGTAATTGTAACTGTAAAACCAGGATTCGAAGATGCGGTACAATTCTTCATGTCTACCGGAAGAATCTGGAACGGAGGCGAAGTACCTGTAATCGGAGATCCGATGTATCTGAGTATCGTAGATGAAATGCGTGAACCTGTAGGAATAAAACAAGGAAAAGCATGGATCACTGTACTTCCTACTTCTCTGAATATTTTACAGGAAGACTCAGCCGGATTAAAAACAGCCACAGCATTACCATTTACAAAGGAAAACCCAGAAGACTTCGAAGTTCCTTCAGAAGTAGTTATAGAAACTGAATTTTCTATTGTTGACTCCAAATTAAATGCAGGAGACGATAAGTTTGTAGACAAAATTGAACTTAATAACGGATTTCTTGAGCTAACAACAGATGATAATCCTAAAGAAGTTATCGCTTCCTTACCATTATCTGAATTAAAGCAGGCATTGCAATAA	MATNETNNSAPQTLFRFVSLRNPELTETKKVNLGFIHRPSQLTTSFDTAINPGSTALEKFQALERAAKSFNTVGYQSEIEIEGGPLSEALKIGRKIAKKEVISVADEITAKNLYNSSAIQSKMGEVWDNLIYQTVTQENFYVKEALVHILRALHFGYVCDLPATPELIEINGEDLKAKALEARVVLPMKLFGDGYEGEGTTSNPSGNPFQVNISKIGEGMINGTTPLSFSVQQQLKAEGERISELSYLTFEKDGLLQLRSELEATQKLFYTLRAKAYDAAYKQYMDTHEADIERYNTLQESVKTQIANGGLTQEQIDALYASLEALKVPPFKFEYKNEINFGDLKEKLSLDSFKLFVNIFTKVTSGEKPENGFDFSTITVLSDRKLQLGTVEVSITDEFDTYPEIFEKLDEETASKVQTLFQKSPAPEQTYASVGGVLVPVVSSYSASSRVVPRSYYLKTSYEPLYSRMPATATFYYQAESNAWGAASVRINASTDFGVFEESFSNIEVMDGKVALPLFLVDKFGKFIRSMDIKVYFNNGKEASLSLSEIEINRTFTGILYTEETKDETENPSEGNSGYKPGTFIPKHFGVKRLGIADYLKVVQTTHAYVPGEVTHIENIMAKEFKQKSTRRLRRSEIQTTISKSTERETLSDTTTTTRNDMQSEVANVIQQDINTEAHFRYGGMGKSFEVGGSFAARNSKENSTRQAISKSQEITERATERILTKVAEERIEKIIEEFEENNAHGFDNRNGSKHVVGVYRWVDKKMKNQIFNYGKRTMFEFMVPEPARLHTLATAASKSDTLTPPLDPRTVTGEWNMPSAQKATQLQIEYWANYYNVKLTEQPKSPINLILGKQWEKVDGNGEFRHRQIDIPDNYEASAVKMFYGFERDSRGKSVLYTSNFAGGTVALENWNTSIDSTAYFTPQNVTGSYDFVYRCENIDSVNIAFEITCKLSAAYMASWFLENFTAIIKAYDEAYAIFLEKKAEIEKKAKEEEEQNKEKLNSSNFYRNMESVILKHNCIAYLLQDYASLGKNFTNGAERMQDFSIVLGEDLEQYTALAKFMEQAFEWSIMDYTFYPYYWGDKAKWQDMYLSQSTDPLFRNFLQAGMARVIVTVKPGFEDAVQFFMSTGRIWNGGEVPVIGDPMYLSIVDEMREPVGIKQGKAWITVLPTSLNILQEDSAGLKTATALPFTKENPEDFEVPSEVVIETEFSIVDSKLNAGDDKFVDKIELNNGFLELTTDDNPKEVIASLPLSELKQALQ				NA	NA	NA	NA	NA
BMS003_02526	2676			hypothetical protein	ATGAAAAACACAGAATATAAAGATGTTTTTGATATGAGTAATGAGTCTTTATCAATGAATCATAAATCCTTTCCAGAGATCTTTGGAGAAGAAGAAGATATGAATAATATTTCTCTTCCTTTTACCGATTTTGATAAACCTATCAGTAAGGGTTCTCGCAAAGAAAATGAACTTAATTATGATCTAAGTAAAGCACCCCAAACTCCATACGCATATTTTTATGAATACATCAGCCAGAATAGTGAAGAAAACTTGTATGATCTATATTTTAAAACCAGTGTTGTAAATAGTAAATCAGATATTCTTATATTTTATTTAGCAAATAACAAAACTGATCTGCTTATAAAATTGACAAATAAATCAGATCGGTTATTAGAACAACTTTACTCCAGTATTCAATACCAATACCAAGATTCACCCACCAAAAAAGTGACCTTCAAAGAAAAAATGATCTTAAATATATTAAGAGATGCATCAAAAGATTTTCTTTTCACTTACGATCAAGTTGCTCAGGCCCTTGAAGAGGCAATACAGGATTTTTCTTTTATAAAAAGTGATAAAAACACTCCATTGGAGTCTGCATACACGATCTCTTTAAACCAATTAAAGGACAAAGTAAATCTTAAACAACAAGGAGCAGCACAAATGCTATTGCAAGTAGTCCGTGAAATCGCTAAAATGCGAGCTGAGGAAAAACACACATACAATGAATGGATAAACTCACAAGCTGACCCATATAATTATTTTGGTCTTCACCCTAATAATAAAAGTTTATCTATTTATGACTTAAAAGCACTGATTAATCAGCTAAGAAATTATAAAAAGAATTCTGAAAGCTTCAAAAACGGAAAAATTACATCTATACAAGGACTTCAGGATTTCGTAGAAAAAAACTTAACCGCTGGAGGAGATCGATTTAAGTGGTTTATTCACACCCCTTTTTTTAGCCTGAGTAAACCTCTTCGAAAAACATATATCAATCTATTTTGTGCAAAAGATGAATCATTCTTCTCCAGAATAACAGTTGCAGGCGGAGTATCTCATGGCGATCTGGTACTTATGCTTTTCTCCACCTGTAAAAATCAACAAGATCTATTAGAAATTATTTTAGAATTAGAGAAGGATAAAAAACTTTTTCAGCTTTTGTATAATCTAAAATTATATGCATTTAAAGATCTGAGCATTTTAATTTCCAATGTATATATGAAACATTTGGAAAATGAAAAGCAGGCAGGAAACATTTATACAGACGCCATAGAAAATGGAAGACAGTTGTATTTTGACAATAGTACATTTGGAAATCATAATATTGAAACCTTTGATGTTGATAATAAGAAACTTGTATTTAAAACAGAACAAAATGTCATTTTAGATTTATTTACTGATGCAGACTATGATGGGGTAATTAATGCTTATCTTCAAAAACCAGTTGCATGCCAGCCATTAGATGTTATCCATTTTATTCCCAAAACGGATATAGAATTTGAAAACTTTCATTTTTCAGCAAAACAAAGTTATCAATTACCTGCATGTCTCGTCTATTTACTATATCGTCAGGAAAGCATAGACTCTGTGATCTTTGCAGGAATGTTTACCCTTCAAGTCGCTCTTTGTTTAACTGGTGTTGGAGAAATAATTGCTGCAATTGAAGCTGGAAGCTCTCTTGGAGTATTATGGACAGGTTCAGTACTTGTCATAGACACTGCTTTCGCAAGTACTTTAATTAAAGAAGTCCAGCAAGACTACCCCACCTACACCAAAGTAGTAAACTATATTATCTGGGTAAGAATAGTTGCTGAATTTATTAACGTAAAGTCCTTACAAGAAAATATCAATAAAGGTGTTAAGAGTGCTAAAAATGAAATAGACAAATTTGTCAAAAGCTTGCCTAATAAGATTAAGAATAATATCAATAAGCTTCCTAAAGAATGGCAGATGCACATAGCAAAGGGAATGCTAAAATGGACATTCGAAGGAAGAACCCTCTTGAAAATAGATTTAAAAGGTATAATATGGGAAATTGAATGTTTTCGTGATGTAGAAAATGCCCAAATATTTGCAGAATTTAACGATTTAACAATAAAAACAAAAATCTTTGATAGTACAGGAAAAGAAATAGTCAAAAGCTATACAGATAATATTGAAGTTGTAAAATCTGTGTTTAAAGGAAGACATACTTTTACATTTAGACTAAAATTTAGTGAAGGGAAAATAAGAGATGGTGAATATATGAACTATACTCATGCCAGAAATTCGAACAATCCACCTTATGCAACTTCTCCGCTTGCTCACTCAAAAGTAATTGATAGAATACTAAGGCCGGGTGAAAAGTTTTACATTGTAGAATATGAAAATGCAACAGGACCTGGAAATTTTCTTACAAATAAACCTATATTTACTCTTTCTGATTTACGTGAAAAACTTGCTGTTTTGGAAAGTTGGAAACCCATAGAACCAGGTAACCCCTTAGTGATAAGAGAATATATAATGTTGAAGGAAATGAAAGTAAGAGATGGCTATATTGGTCCAATGGAAGAAACAACAAAAGGAAGTGTTAACTTTGGAAAAACGTATAAAGGAGGAGAAAGACAATTTGAATGTTATGATCGCCCTAAACCAACAGATATGGGTATTATATTTGAAAGAAATGATTTATTTGAAAAAGTTTTAAAATAA	MKNTEYKDVFDMSNESLSMNHKSFPEIFGEEEDMNNISLPFTDFDKPISKGSRKENELNYDLSKAPQTPYAYFYEYISQNSEENLYDLYFKTSVVNSKSDILIFYLANNKTDLLIKLTNKSDRLLEQLYSSIQYQYQDSPTKKVTFKEKMILNILRDASKDFLFTYDQVAQALEEAIQDFSFIKSDKNTPLESAYTISLNQLKDKVNLKQQGAAQMLLQVVREIAKMRAEEKHTYNEWINSQADPYNYFGLHPNNKSLSIYDLKALINQLRNYKKNSESFKNGKITSIQGLQDFVEKNLTAGGDRFKWFIHTPFFSLSKPLRKTYINLFCAKDESFFSRITVAGGVSHGDLVLMLFSTCKNQQDLLEIILELEKDKKLFQLLYNLKLYAFKDLSILISNVYMKHLENEKQAGNIYTDAIENGRQLYFDNSTFGNHNIETFDVDNKKLVFKTEQNVILDLFTDADYDGVINAYLQKPVACQPLDVIHFIPKTDIEFENFHFSAKQSYQLPACLVYLLYRQESIDSVIFAGMFTLQVALCLTGVGEIIAAIEAGSSLGVLWTGSVLVIDTAFASTLIKEVQQDYPTYTKVVNYIIWVRIVAEFINVKSLQENINKGVKSAKNEIDKFVKSLPNKIKNNINKLPKEWQMHIAKGMLKWTFEGRTLLKIDLKGIIWEIECFRDVENAQIFAEFNDLTIKTKIFDSTGKEIVKSYTDNIEVVKSVFKGRHTFTFRLKFSEGKIRDGEYMNYTHARNSNNPPYATSPLAHSKVIDRILRPGEKFYIVEYENATGPGNFLTNKPIFTLSDLREKLAVLESWKPIEPGNPLVIREYIMLKEMKVRDGYIGPMEETTKGSVNFGKTYKGGERQFECYDRPKPTDMGIIFERNDLFEKVLK				NA	NA	NA	NA	NA
BMS003_02527	585			hypothetical protein	ATGGAATATATAGAAACCTTAAAACCCGGAAATGCATATTTTAAATTTAATGATTTATTTTACATTAACCCTAAACAAGAAAAAGACATATTTCCAGGATATTTTTATAATTACGAATCTATAGTAATATGGAAGCATAATGACAGGAAATACATGTATACTGCAGAACAAGTGCGACATATGCCTTTTCCCGATTTTAATGGTATTGCTTTTATTGGTAGAACAGATAAAACCAAGCTTATTATCTGCAATCCAGATTCAACGGAAAAATTTATAATTTCCCCTCCGGATTTTGTGCAGCTCGAAGAATACGAAAGGAGAGAACTTCATTCTCACTTTTTCAAACATCCAATAATTTTTGATAGTTTTGATGACTATTTTGAATATGATAATAAGAAATACCTTACCGTAAAAATTTCAAAATATGAAAATGAATATCACGATTTGGGTATTTCACAATTACGCTATTTAGATATTGAGACTGGAGAGTTTTTACCTTTTACAAAAACTATTTTTATTACAACAACAGATTTTGAATCTGGGAATCCTAATATTGCTCCAAGAAATGAAAAAATAGATTTATAG	MEYIETLKPGNAYFKFNDLFYINPKQEKDIFPGYFYNYESIVIWKHNDRKYMYTAEQVRHMPFPDFNGIAFIGRTDKTKLIICNPDSTEKFIISPPDFVQLEEYERRELHSHFFKHPIIFDSFDDYFEYDNKKYLTVKISKYENEYHDLGISQLRYLDIETGEFLPFTKTIFITTTDFESGNPNIAPRNEKIDL				NA	NA	NA	NA	NA
BMS003_02528	921			hypothetical protein	ATGAAGAAAGATTTTTATCTGACAAGATATGCCTTAATTATAAAAAGATTAGAAAGTTCTCCGGCTACATATTCCCAGCTGGAGCACTATCTTTTAAATTCTTTTGAATTCCAGGATGCAGGAATCAAAAGCTATTCTATCCGTACCCTGCAGAGAGATATTCGGGAGATTTCTGATCTTTTTAACCTATCTATTCACAATAAGAAAAAGGGAGACAACCGATATTATATTGAGAGTCGCCCCATCATGGAAGTGGATGAGTATAATCAAAAGTTACTTGAATCTTTTCAGGTGAGTAACGCCATGAATACACACCCCGACTTTTCAGATTTTATCTTCTTCGAGAGCCGTAAACCCACTGGTGTGGAGCACTTTTATGACCTTTTCTTCGCCATCCGAAATAAAAGAGTGGTAAGCTTTGAACACTACAATTACAAAAACAAACTGATGACTTCCAGAAAAGTTCATCCTTTAGCCTTAAAAGAATCCAAGGACAGATGGTATCTTATCGCCATTGATACAAAAGATAAAGTTTTAAAGTCTTTCGGGCTGGACAGGATCAACTATCTTGATGTGGCTAAAAATCAGTTCAGGGAAAAGTATAAATACAACTTCAGAGAGCATTTCAAAAATGCATTTGGAGTGATGAATCTGGCAGAACAGAAACCACAGAATATAGTACTGAAATGCAGCCGCCATCAAGGAGAATATATCAAAAGCTTCCCTCTTCACCAGTCACAAAAAGAGACCAAAGAAACTCCGGAAGAAATCTACTTTGAGTTTTTCCTCCACCCTACCTATGACTTTATGCAGGAGATTCTTTCTTTTGGAAAAGAAGTTACCGTTCTGGAACCGAAAGGTTTAGTTGATGACATTCGTAATCATTTACAGGAATCCCTGAACCGTTATCTGGAAAACTGA	MKKDFYLTRYALIIKRLESSPATYSQLEHYLLNSFEFQDAGIKSYSIRTLQRDIREISDLFNLSIHNKKKGDNRYYIESRPIMEVDEYNQKLLESFQVSNAMNTHPDFSDFIFFESRKPTGVEHFYDLFFAIRNKRVVSFEHYNYKNKLMTSRKVHPLALKESKDRWYLIAIDTKDKVLKSFGLDRINYLDVAKNQFREKYKYNFREHFKNAFGVMNLAEQKPQNIVLKCSRHQGEYIKSFPLHQSQKETKETPEEIYFEFFLHPTYDFMQEILSFGKEVTVLEPKGLVDDIRNHLQESLNRYLEN				NA	NA	NA	NA	NA
BMS003_02529	618			hypothetical protein	TTGAAAACTTTATTCATTATCATCAGCTGTTTTATTTCTTCCCTTTTACTGTCACAGCAGAAAGAAGAATTCAGGATTGTAAAAAACTATTATAATCAGCACAGAATGATGCTGAATAAGGAGTTCAGGAAAAAATTTGACGCTGAAGCCAATACCGTGAAAAAAGCTGAGATAAAGGGAGATTTTCTCTTTTTCATGAAAAAAATGGACAGTATTGAAAACAATGCACTGATCGGAGCCTTATTAAAGGTTAGAAATATGGAAGATCTTCGCACCATCAGAAATCCCGGGCTCACCCCATCCGAAAAATATTCAGACGCAGAAAAGATTGCAGATTATCCCGGCGGAATCAATTCTTTAAGACAGGAAGTTGCCAATCTGCTGTATATAGACGGGGTATACTCTCAGGAAAAAACGATAAAAACAGATGTTGCTTTTATTGTAGAAAAAGACGGAACGGTAAGCAATGTACATGCACAGGGTGATAATTTCACCTTCAACAGACAAGCTGAAATAGCACTCTATTCACTGGCAGAAAAATTTTCTCCCGCAATGATAAAGGGTAACCCTATATGCTACAGCTTCAAAATTCCTTTAACCTTAACGATAACAGATTAA	MKTLFIIISCFISSLLLSQQKEEFRIVKNYYNQHRMMLNKEFRKKFDAEANTVKKAEIKGDFLFFMKKMDSIENNALIGALLKVRNMEDLRTIRNPGLTPSEKYSDAEKIADYPGGINSLRQEVANLLYIDGVYSQEKTIKTDVAFIVEKDGTVSNVHAQGDNFTFNRQAEIALYSLAEKFSPAMIKGNPICYSFKIPLTLTITD				NA	NA	NA	NA	NA
BMS003_02530	432	tadA_2	COG0590	tRNA-specific adenosine deaminase	ATGTTTACCGACGAGTATTATATGAAAATGGCCCTGCAGGAAGCGGAAAATGCTTTAGAAAAAGATGAGGTCCCTATCGGGTGTGTCGTGGTTTCCAACAACCGTATTATTGCAAGAGCTCATAATCTCACAGAAACACTGAACGATGTTACTGCCCATGCAGAAATGCAAGCCATTACATCAGCAGCCAATTTCCTCGGAGGAAAATACCTGAAAGACTGCACTCTTTATGTCACTATGGAACCCTGTGTAATGTGTTCCGGTGCGCTTTCCTGGTCTCAGATCTCAAAAGTGGTGATTGGAGCAAGGGATGAACAAAGAGGTTTTATCAACAAACACCTTTCCCTGCATCCGAAAACTGAAATGATCACCGGAATCATGGAAAATGAGTGTTCTTCTATTGTCAGGAATTTTTTTAAAAGTAAACGATAA	MFTDEYYMKMALQEAENALEKDEVPIGCVVVSNNRIIARAHNLTETLNDVTAHAEMQAITSAANFLGGKYLKDCTLYVTMEPCVMCSGALSWSQISKVVIGARDEQRGFINKHLSLHPKTEMITGIMENECSSIVRNFFKSKR	PGPT0006855_51	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
BMS003_02531	585	ydaF	COG1670	Putative ribosomal N-acetyltransferase YdaF	TTGAGGTTGAACCCAGCTAACGCTTTAGTCTTATCCTCAATGCTCACTTTTATTATCATGGAAAAATTTCCCACTATAGAAACCGAAAGACTCACTCTTTCACAACTGGAAGAAAAGGATATTCCTTTTATTGTTGAATATCTTCAGCATAGGATTTTTTCTGACCTTACCTCCAATATTCCATATCCATATGTGGAAAATGATGCCATATCATGGCTGAAAATGTCAAAGGAAGCTTTTGATCATCAAACAGGATATACGTTTGCGATCCGGGATAAAGAAGGACAGCTCTTGGGGGCTATTGGCCTTCATGACAGGGATGATGATAAAGCAGAACTGGGATACTGGATCGGAATCCCTTACTGGAATAAAGGATATGTGACTGAAGCGGCAAAAGCTGTTGTGGATTTTGGGTTTAAAAAACTGGAATTCAATAAAATTTTTGCCACCCATTTTCTTCATAATCCGGCATCAGGAAGAATTATGGAAAAGATAGGAATGGTGCAGGAAGCTGTTTTGAAACAGGAAATGAAAAAAGACGGAGAATATTTTGACATCGTGAGATATTCAATTTTTAAAGACTGA	MRLNPANALVLSSMLTFIIMEKFPTIETERLTLSQLEEKDIPFIVEYLQHRIFSDLTSNIPYPYVENDAISWLKMSKEAFDHQTGYTFAIRDKEGQLLGAIGLHDRDDDKAELGYWIGIPYWNKGYVTEAAKAVVDFGFKKLEFNKIFATHFLHNPASGRIMEKIGMVQEAVLKQEMKKDGEYFDIVRYSIFKD				NA	NA	NA	NA	NA
BMS003_02532	759	coaX	COG1521	Type III pantothenate kinase	ATGAATTCAATCGTAATAAACGTAGGAAACAGCAATATCAGATTTGGTCTTTTCAATGGTGATAATTGTGATATATCGTGGGTAATCAATACAAAACCTTACAGAACAGCAGACGAGCTTTATGTACAGATGCTGATGCTCTATCAAACCTATAAAATAGATCCAAAGGAGATTGATAAGGTCATCATCGGCTCCGTAGTCCCTCAGCTCACCAAGGTCATGAGCTCAGGGATCAAGAAAATTCATGGAACAAACCCTGTGATTGTTGACAGGAATACACCTTCCGGTGTTCAGGCAAAATCCAGACAGATGGGAACGGATATTTATGCAAACCTTGTGGCAGCACATAACCTGTACCCGGACAGAAAAAAAATTGTTATAGATTTTGGAACCGCCCTTACAGCAAGTTGTGTAGCAGAGACAGGAGAGACCTTAGGGGTAATTATTGCCCCGGGAATTGTTACTTCCCTGAATTCCCTGATCAACCAGACAGCACAGCTTCCGGATATTGAGCTTAAGAAACCAAAATCTGTTTTGGGACTGGATACGGTAACCTGTATGCAGAGTGGTATGGTATATGGTTTCCTGGGTATGGTGGAAGGCTTTGTAGACCGCATTAATGAAGAAGTGAATGATGACTGTTTTGTAGTGGCAACAGGAGGTGTTTCTCATGTCTACAAACCTCTTACAGATAAAATTCATGTCATGGACAGGCTTCATACCCTGAAGGGGCTTTACTTCCTTGGAAAAAATTTATAA	MNSIVINVGNSNIRFGLFNGDNCDISWVINTKPYRTADELYVQMLMLYQTYKIDPKEIDKVIIGSVVPQLTKVMSSGIKKIHGTNPVIVDRNTPSGVQAKSRQMGTDIYANLVAAHNLYPDRKKIVIDFGTALTASCVAETGETLGVIIAPGIVTSLNSLINQTAQLPDIELKKPKSVLGLDTVTCMQSGMVYGFLGMVEGFVDRINEEVNDDCFVVATGGVSHVYKPLTDKIHVMDRLHTLKGLYFLGKNL	PGPT0008780_2251	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
BMS003_02533	603			hypothetical protein	ATGAAAAAACTGATCCTTGCTACTTTATTATGTATTGGCGTTTCTGTTTTTGCACAGTCTGGCACTTCAATAACCAACATTTTTCAAAAAATAAAAAGTCAGGCAAAAATTGACGCTCATGATAAGACTGTTTATGATCTGATGGATGAGTTTTATCAAAAGAATCTTCAGGCTGAGAATGATGAAATCACCCCTGAATTTATGCACAGAATTCAAAAAGCAGTCTCTGATCCCGAGACCAAAAATATACACCTGCTTTATCTTCTTCTGATGTATCAGCAGCATATGAGCCAGGCAGTAGCAGAAGGAAAAGGTCCCAACCCCGAATTTCAGACAGAGACTATGAACCTGCTGGAAAATGAAACAAAAGAGGTATACGGAAAGCTTCCGGCGGTTATTTACATTTTTAAAACGGAAGCCTTAAATAATGCCCAGAAAAAGGAAGAAGCAAAAATTACCATTGCAAACGGATTAAAAGAATACCCTGATTCTGTTCCTTTAAAGATCTACAGCTATTTAAATACCAGGGATGAAGCCCTGAAGCAGGATCTTATCAAAAATCATTCACATCACTGGATGGTTCAGCAATTTGAAATAAAATAA	MKKLILATLLCIGVSVFAQSGTSITNIFQKIKSQAKIDAHDKTVYDLMDEFYQKNLQAENDEITPEFMHRIQKAVSDPETKNIHLLYLLLMYQQHMSQAVAEGKGPNPEFQTETMNLLENETKEVYGKLPAVIYIFKTEALNNAQKKEEAKITIANGLKEYPDSVPLKIYSYLNTRDEALKQDLIKNHSHHWMVQQFEIK				NA	NA	NA	NA	NA
BMS003_02534	339	tcrX	COG0745	putative transcriptional regulatory protein TcrX	ATGAGAATATTTTTAGTAGATGATGACCCCTTCTTTGGAGAGATGATGAAATATCATCTTCAGCTCAATCCTGATTATGAAGTTTTTTTGTATAGTACCGCAAAAGATTGTCTTTCTGAACTGTACCAAAACCCTGATATCATCTGTATTGATTTTGGCTTACCGGACATACAGGGAGATGAGCTTTTCATACAGATAAAAAGCCAGTATCCCGACCTTCCGATAATTGTTATCAGTGGTCAGGAAAACATTTCGGTTGCAATTAATTTTCTTAAACAGGGAGCAAAAGATTATATTGAAGTCGTCTTGACTTTTAATAAAAAGCTGTTCACAGTTTGA	MRIFLVDDDPFFGEMMKYHLQLNPDYEVFLYSTAKDCLSELYQNPDIICIDFGLPDIQGDELFIQIKSQYPDLPIIVISGQENISVAINFLKQGAKDYIEVVLTFNKKLFTV	PGPT0004315_1096	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS003_02535	537			hypothetical protein	ATGGAAACAAAAGAAAAAATTTTATCAGCTTCCTATCAGTTATTTATCAACCAGGGATTTCATAATACTTCAATGCAACAACTCGTTGAAGCTTCAGGATTTTCCAAAGGAGCATTTTATCATTATTTCAAAAACAAAAATGACCTGTACCAGGAAGTCATAAACCGTTACTTTCTTTTATTCTATGATTCTGTTGACTGGAATCTTTACTTTGAAAATAAAATGACAATAAAAGAAATTGAGAAAAAGATACAGGATTTCTATCTTGATTTTGTGCCTCAGATTTTAACCTTAACTAAAAATGGAATGTCTGCATACTACATTATGTATTTCGAAGCATTTACTTTATTGCCCCATTTTAAAGAAGAAATAAGAAAATTCTACGGAAATCTTGAAAAACTGATCATTAACGCCACCGATAACATCAGTGAACCAGAGAAAACGGCTACTGACATGATAGCAAGGTATGAAGGATATCTATTTCTTCTGGCTATTACCCCTGAGACGGATATTAAATCTTTATTTGAACAAAACTAA	METKEKILSASYQLFINQGFHNTSMQQLVEASGFSKGAFYHYFKNKNDLYQEVINRYFLLFYDSVDWNLYFENKMTIKEIEKKIQDFYLDFVPQILTLTKNGMSAYYIMYFEAFTLLPHFKEEIRKFYGNLEKLIINATDNISEPEKTATDMIARYEGYLFLLAITPETDIKSLFEQN				NA	NA	NA	NA	NA
BMS003_02536	501			hypothetical protein	ATGAATACATCGAAATTAATCAGCTTACTGCTTATTCTGTCTTCCATTAATTTAACACTAATGATTCCGGGAGGATTTATTGAATCAAGGGATTTTTCTCATATCAATCCTTTAATTTTAGGAATATTCAATATGTTTCTCACTGCTTTGGGGTTATTGAGCTTATTTTTAGTGTATTTCATTAATAAGCAACTGAAATGGGCTTTCAAGACCGCTTTATTTTGTGGACTCAGCTATTTCACCGTATATGTGATCGATTTACTTGAAATATTCCCTCAGTCCCCCACCATTATGCCTGAACTGCTTTTTATCCTGGAGACACTGGGTAGTGTAATGGCGATTCCATTGATATTCTTATCGGTTAAAAAAATCAAAGAATCCAAAAATGATGATCATCCAGCCATCTTCTCAAAACCTTTTTATTGGTTTGTTGCATTAGCTATTGCCATAGGTATATGTATTATTATCTTTGCAACCCAAGCAGCAATGACAGAAAAATAA	MNTSKLISLLLILSSINLTLMIPGGFIESRDFSHINPLILGIFNMFLTALGLLSLFLVYFINKQLKWAFKTALFCGLSYFTVYVIDLLEIFPQSPTIMPELLFILETLGSVMAIPLIFLSVKKIKESKNDDHPAIFSKPFYWFVALAIAIGICIIIFATQAAMTEK				NA	NA	NA	NA	NA
BMS003_02537	894	rhaR_12		HTH-type transcriptional activator RhaR	ATGGATAAGATTGATAAGGTGGAATTGTACTCAATAGAAACGCTGGTTTCTGGCTCGTCCGCATTGTCTGATTTTGCCATTTATACTTTGCAGGACTTTGCCAGGCAATTCAAACATCTGAAAGACCCCCATCGTCATGATTTTTACTCAATCATTATATTGGAAAAAGGGGAAGGGTCTCATATGATTGATTTTGTGGATTATAATATACAGGCCAATCGTATTTTCCTCATTACATATGGGCAGGTTCACTCATGGAAAAGACTGAAAGATGCAAAAGGGTATATCATTAATTTTACAAAAGAATTTTATAATCTGATCTATACAGGTAATAATAAAATAAAAAGTGACCTGATTAACTCTGAGATAATACCTTACATTGATATAGATGAAAAAACAATGCAGGAATGGATGCAGCTGGCAGGGCTTATTAATAAGGAATATCATGGAGAAAAGAGAGAGTATAAAGAACTCATCTGTATCTATTTAAAGGCTATTCTGATAAAGTACAGGAGGTATCACAGCTGTGCTTTAGATGGAACCATTAATAAAAGCGACCGTAAGACTGTTTTGATACAGCAGTTCAATGAATTAGTGAATCATAAATTTAAGCAATGGAAATTCCCTAAGCAGTATGCAGATGAACTGCACATTACTTCCAATTATTTAAATGTGATAATAAAAAAATCACTGGGATGGTCTGCAGGATATCTTATTCGTGAAAGAGTATTACTTGAAGCCAAAAGACTGCTTCAAAGTACCGATCTTACAGTGGCTGAAATAGGAACAGAATTAGGATTTACAGACAAATCCAATTTTAATAAATATTTTAAAGGCTATGTGGGACTTACTCCTGATAACTATAGAAAGCAATCTTTTCAGCAGAAAAGGTGA	MDKIDKVELYSIETLVSGSSALSDFAIYTLQDFARQFKHLKDPHRHDFYSIIILEKGEGSHMIDFVDYNIQANRIFLITYGQVHSWKRLKDAKGYIINFTKEFYNLIYTGNNKIKSDLINSEIIPYIDIDEKTMQEWMQLAGLINKEYHGEKREYKELICIYLKAILIKYRRYHSCALDGTINKSDRKTVLIQQFNELVNHKFKQWKFPKQYADELHITSNYLNVIIKKSLGWSAGYLIRERVLLEAKRLLQSTDLTVAEIGTELGFTDKSNFNKYFKGYVGLTPDNYRKQSFQQKR				NA	NA	NA	NA	NA
BMS003_02538	1731			hypothetical protein	ATGAATAAAAAACTGACTGAACTGCAATCTACTGCCATCAGTGGAAATGACATCACTTCTTCATGTCTGTATGTTTCGGCACTTACTATCATGTATGCAGGTCAATGGGCGTGGCTGTCCTTATGTATTGTAGCCTTGGTGCTGTTTCTTTTCAGAAGAATTTATGGAGAAGTTGTAGGAGCCCTGCCATTGAATGGTGGAGCGTATAACGTGCTTTTAAATACAGCTACGAAAAGAACGGCTTCTCTTGCCGCTACACTTACTATTCTGTCTTACATGGCTACTGCCGTTATTTCTGCATCCGAGGCAATGCATTATATGTCTTCGGTATTCTCACAACTTCCGATCCTTATTGCAACTATAGCAGTGCTTGTTATATTCTGTATTCTGACCATAAGCGGTATTGGAGAATCTGCTAATGTAGCGGTATTCATCTTTTTATTTCATCTGTTTTCTTTACTGATGCTTATTGTTGCCTGTGGATGGTTTATTTCTGAACATGGATTTTCCCTTTTGGAAATTAACTGGAGTACCCCGCTGGAATCGTCTTCAATATGGCAGGCCCTGTTTTTTGGCTTTTCTGCTGCTATGCTTGGGATATCAGGCTTTGAAAGTTCAGCTAACTTTGTAGAAGAACAGCAGCCTCATGTATTTCCGAAAACATTGCGAAATATGTGGGTGGTTGTAAGTATAGTGAACCCCCTGCTGGCTTTTTTACTGATCTGTATATTACCTATGGCTACAGTTGGCGATCATAAAGAATCGCTTTTAGCCTATTTAGGGCATGTTACCGGAGGAAAATGGCTTTCCGTATTAATTTCAATTGATGCAGTGCTGGTTTTATGTGGTGCCGTTCTTACCTCTTTTGTGGGAGTATCGGGGCTTATGAACAGAATTACATTGGACAGAATACTTCCTAATTTTTTATTGAAGCAGAATAAGAAAGGAGCGAGCTACAGAATTGTCATCCTGTTTTTAATCCTGTGTCTATCTGTATTAATGGTTACAGAAGGTCATCTGGGCAGTCTGGCAGGAGTGTATACATTTTCATTTCTCTCGGTAATGGGACTGTTTGCTATTGGAAACCTGCTGCTGAAAATTAAAAGGAGAAAATTACCAAGGCCTGAAAAGGCAACGGTTGTGTCAGTGCTTTTAGCCATTTTATTTGTAGGAGCAGCATTCTATGGAAATATATTGCTTAATAAGGAATCTTTCTATACCTTTTTAAAATATCTTCTTCCTACACTTTTATTTATTTACATCATGCTCAACAGAATTGAAGTGATAGATGTGATGATCAAGCTGATTGAATTTCTTTACAGTCCTTTAAGAAAGTTTGTTGTAGTGGTCAATCGCTATCTTTTTAAAGCAAAAAGAAGACTTCACAGCCAGGAATTTGTCTTTTTTACCAAGAAAGATAATGTTGCTATTTTAAATAAGGTGATGCAGTATGTACAGGCTAATGAGGCCACAAAGAAACTCAAGATTGTGAATGTCATTAAAGACGGGGAAGATAACGAACTGCTGAAGAAAGATCTTGAAGTTCTTGACAGGGCTTATCCGGAAATAGATATTGAATTCATTGAAATAGAAGGAATTTTTGGACCTGAATTAATAGAAGAACTATCTGTGAAATGGCATATTCCTAAAAACTTTATGTTTATTGCCTCTCCAAGTGATCGGTTCAGTTATAGGGTTGCTGAATTAGGTGGTGTTAGATTAATTATGTAA	MNKKLTELQSTAISGNDITSSCLYVSALTIMYAGQWAWLSLCIVALVLFLFRRIYGEVVGALPLNGGAYNVLLNTATKRTASLAATLTILSYMATAVISASEAMHYMSSVFSQLPILIATIAVLVIFCILTISGIGESANVAVFIFLFHLFSLLMLIVACGWFISEHGFSLLEINWSTPLESSSIWQALFFGFSAAMLGISGFESSANFVEEQQPHVFPKTLRNMWVVVSIVNPLLAFLLICILPMATVGDHKESLLAYLGHVTGGKWLSVLISIDAVLVLCGAVLTSFVGVSGLMNRITLDRILPNFLLKQNKKGASYRIVILFLILCLSVLMVTEGHLGSLAGVYTFSFLSVMGLFAIGNLLLKIKRRKLPRPEKATVVSVLLAILFVGAAFYGNILLNKESFYTFLKYLLPTLLFIYIMLNRIEVIDVMIKLIEFLYSPLRKFVVVVNRYLFKAKRRLHSQEFVFFTKKDNVAILNKVMQYVQANEATKKLKIVNVIKDGEDNELLKKDLEVLDRAYPEIDIEFIEIEGIFGPELIEELSVKWHIPKNFMFIASPSDRFSYRVAELGGVRLIM				NA	NA	NA	NA	NA
BMS003_02539	822		COG3264	putative MscS family protein.1	ATGAAAGAATTTTTAGATTATCAGATTTTCAAAATAGGAAAGATCTCCCTGGAAGTCAATCAGCTGCTGCTGCTTATTGTATTGGTAATAGCGGTTAAATATCTTTTGGCATTCATAAAGAAGGTCATATACGGAAATAAAAAGCTTGAAGGAGCCAAAAAATATACAATTTATACACTGATTAGGTATATAATTTATATCCTTACAATCGTTGGCAGTTTTGATATCATTGGGGTTAATATTTCTATTTTTCTGGCAGGATCTGCTGCGTTGCTGGTTGGAATCGGCTTGGGGCTGCAAAACCTGTTCAGTGATTTTATTTCAGGGATTATCCTTCTGGTGGATCGCACCATAAAACTTGATGATATTATTGAAGTCAACGGGATGGTGTGTAAAGTAAAAGAGATCAACCTGAGAACAACTACTGTAATGACCCGTGATCAGCGAAACATTATATTACCCAATACGGAGCTTACAAAAAATCACCTTGTCAACTGGACACATACTGATGATCTGGCAAGGTTTGATATTAAAATAGGAATTGGATATGGTGCCGATATTGATCTTGCAATGCAGATCATGGAAAATGCAGCCCAGAGAGATCCTAAAGTTTCCATTGATGAGAAACCTTTTTGCCGTCTCGAGGACTTTGGTGATTCTGCGGTTATTGTAGCTGTTTATTTCTGGACTCCAGATATTTTTACAGTTGAAAATACAAAGAGCCGTATAAGGCAGGAAATCTTCAAATGGTTTAAATCCGGAGGAATTGATATTCCATATCCTCAAAGAGTAATGCATCTTAGAGAACAGAAAGAAGATTGA	MKEFLDYQIFKIGKISLEVNQLLLLIVLVIAVKYLLAFIKKVIYGNKKLEGAKKYTIYTLIRYIIYILTIVGSFDIIGVNISIFLAGSAALLVGIGLGLQNLFSDFISGIILLVDRTIKLDDIIEVNGMVCKVKEINLRTTTVMTRDQRNIILPNTELTKNHLVNWTHTDDLARFDIKIGIGYGADIDLAMQIMENAAQRDPKVSIDEKPFCRLEDFGDSAVIVAVYFWTPDIFTVENTKSRIRQEIFKWFKSGGIDIPYPQRVMHLREQKED				NA	NA	NA	NA	NA
BMS003_02540	753	dapB_1		4-hydroxy-tetrahydrodipicolinate reductase	ATGAAAATAGGTGTGATTGGATTTGGAAAAGCCGGAAAAGCGGTAGCTAATGTAATTTTACAGAATACAGAGTTTTCTTTGGAATGGGTGTTAAAGAACAGCCCTATGCCAACTGTTTTTTCTGCAGCTGAGTTTTTGGGGGTACGGTCTGAAGATCCGGGGCTTATTTACTCTTTGCAGAATATCGCTGTGGATGAGTTGCTGGACATGCATCCTGTGGATGTTATTATTGATTTTTCATCTACGGAAAGTATTTCTGTCTATGGGAAAATAGCTGCTGAAAGAAAAGTGAAAATTATTTCTGCAATTTCTCATTACGGAGATTTTGAAAAAAAACTTCTCAAAGACCTTTCCAAGCAAACCACCATTTTCTGGTCTCCTAATATCACTTTGGGAGTTAATTATCTAATGTTTGCTTCTGGTCTCTTGAAAAATATTGTTCCTGATGTAGATATAGAAGTTATTGAAGAACACTTTAAAGCAAAAGAAGGTGTTTCGGGAACCGCTTTGAAAATTGCTGAAAAGCTGGATCTGGAAAAAGAAAGTATCAATTCTGTCAGAGCAGGTGGTATTGTAGGAAAACATGAGGTGGTATTTGGTTTTCCTTACCAGACAGTACGCCTGGTACACGAGTCTATTTCCAGGGAAGCTTTTGGTAACGGCGCTTTATTTGCTGCAAAGGAGCTGGAGAATAAATCTGAAGGATTATACAATTTTGAAGATATCCTGCGTCCTTATTTTGAATTAAAATAA	MKIGVIGFGKAGKAVANVILQNTEFSLEWVLKNSPMPTVFSAAEFLGVRSEDPGLIYSLQNIAVDELLDMHPVDVIIDFSSTESISVYGKIAAERKVKIISAISHYGDFEKKLLKDLSKQTTIFWSPNITLGVNYLMFASGLLKNIVPDVDIEVIEEHFKAKEGVSGTALKIAEKLDLEKESINSVRAGGIVGKHEVVFGFPYQTVRLVHESISREAFGNGALFAAKELENKSEGLYNFEDILRPYFELK				NA	NA	NA	NA	NA
BMS003_02541	1293			hypothetical protein	ATGCTGGGAAAATTATATAAATTTATTAGCCTGCACTATGGTGAAGAAGAGAAAGAGAAGGTGCTGGAAAACGTTACCGAGAATATCTCCTTTCGGGGATCAAACCTGTGGATTCTGGCTTGTGCTATAGTCATAGCCTCTATAGGTCTTAATGTCAATTCAACGGCAGTCATCATCGGAGCCATGTTAATTTCCCCTTTGATGGGGCCTATTCTGGGGGCGGGTTTCGCACTGGGAACCTATAATTTCCAGTTGCTTAAAAGATCAATCAAGAACCTGCTTATTGCAACAATAGTCAGTCTGTTGGTTTCTTTTATCTATTTCTTTCTGAGCCCGTTTAAAGAAACACAATCTGAACTTCTGGCACGTACGGCGCCCAATATTTATGATGTCCTTATTGCGTTTTTCGGTGGTCTGGTAGGAGTAATTGCGATTACAAGGGTTAAAAAAGGAAACCCTATTCCCGGTGTAGCCATTGCAACAGCCTTAATGCCTCCTTTATGTACAGCCGGATATGGTCTGGCAATTGGTAACTGGGTCTATTTTATAGGGGCTTTTTATCTGTATACAATCAATTGTTTTTTCATTTGCATCGCTACTTTTTTAATCACAAAGTACCTTAGATATCAGCCTGTAAAAATGGTTGGTGAAAAGTATGAAAAGCAGATCAAATACGGAATTACTGCGCTGATTGTTGTGATGATTGTTCCCAGTTTCTATCTGGCCTACAACTTGTTGAATGAGAAAAAATTTAAACAGAATACGGATCAGTTTATTGATAAGGAATTTGTGAAAGAGGGATATACCATTATTTATAAGAAAATAAGTTATAATTCATCACCAAAAAAAATAGAGCTGGCATTTCTCGCCAAAAAATTTACCCCTGCGGAGCTGAAGAAATTAAATGAAGAATTAAAAGAATTCGGTTTATTGAATTCTGAGCTTATTATTAAACAGGATGCTACTGATCTTAAATCAGAAATCTTAACCGAAATTGGCAAAAAAGATAATATACTTTCTGAAAAGGATGTTATGATCAATAACCTAAGGCTTGAACTCGAAAAATATTCGGTAAAGGATTCAGGAGTGGTTAAGGAGATCGGAATCCTTTTTCCGGAATTTCATAATATTTCTATAGGAAAAATTACAGATTATCCTAATACAGACAGTGCACGGTTAGCAACTATTGTGATGTACAGCTCCGAAAAAGAAGAAAGGGAGAATGAACAGAAGCTTAAACAATGGATGTCACAAAAATTGGCGGACAAAAATACCAAAGTTATACGACGTTAA	MLGKLYKFISLHYGEEEKEKVLENVTENISFRGSNLWILACAIVIASIGLNVNSTAVIIGAMLISPLMGPILGAGFALGTYNFQLLKRSIKNLLIATIVSLLVSFIYFFLSPFKETQSELLARTAPNIYDVLIAFFGGLVGVIAITRVKKGNPIPGVAIATALMPPLCTAGYGLAIGNWVYFIGAFYLYTINCFFICIATFLITKYLRYQPVKMVGEKYEKQIKYGITALIVVMIVPSFYLAYNLLNEKKFKQNTDQFIDKEFVKEGYTIIYKKISYNSSPKKIELAFLAKKFTPAELKKLNEELKEFGLLNSELIIKQDATDLKSEILTEIGKKDNILSEKDVMINNLRLELEKYSVKDSGVVKEIGILFPEFHNISIGKITDYPNTDSARLATIVMYSSEKEERENEQKLKQWMSQKLADKNTKVIRR				NA	NA	NA	NA	NA
BMS003_02542	1845	clcB_2		Voltage-gated ClC-type chloride channel ClcB	ATGAATCTTCATAACAGAAAAAAATACTTAAGTTTTCTCAAATTTAAAAGAGACTTTCAGAAATACGGGCTTGAAAAAGCAAGAAGTTATGAGCTTGTGCTTCATTGGCTCCACAACAGGCTCAGCAGAAATCAGTTCCTTTTACTGTCTGGTATTCTTGTAGGATGCACGGCCGGGCTGGCAGGTGTTATTCTAAAAACATTGGTTCACAATATCCATTACTTTATCACTCATAAAGTGCATTTTGAGTATCAGCTGCTGTTCTATCTGGTATTTCCATTCTTAGGAATTGTTCTCACCACAATGATTGTCATCACCCTGTTTAAAGGTCAGGACAGAAAAGGTATTGGAGCAATACTGTATGAAATTGCGCAAAACTCAAGTATCGTATCTTCTGTAAAAATGTATTCTCAGATTATACAAAGTGCCGTAACCGTAGGACTGGGAGGATCTGCCGGTTTGGAAAGTCCGATTGCGGTAACAGGTTCTGCCATAGGATCAAATTATGCCCAGACCTACAGGCTGGGATATAAAGAACGAACATTATTACTGGCAGCCGGTGCCACTGCCGGAATTGCCTCTGCTTTCAATGCCCCGATTGCGGGGATAATGTTTGCTTTTGAAATTCTATTAACCGGAGTTGTTTTTACTGATTTTATTCCTCTGGTTGTAGCTGCTGTATGCGGGAGTCTTCTCTCCAGAGTACTGCTTCAGGAAGATGTCCTTTTCAGATTTTATACCCGGGAATCATTTAATTATAAAAACGTGCCCTATTACCTTATTCTGGGAATTGTGACAGGTTTATATGCGAGGTATTTTGTTATTATCTCTCAGAAGGTAGAACATTATCTCAAAATGCTTTCCCTTTCACGCCTTCGTAAAGCGATGTTGGGCGGTGCAATATTATCATTGCTATGCGTTCTTTTCCCTCCTCTTTTCGGAGAGGGATATGATACGGTAAAAGCATTTACGAATGGCAATACTCATATCATTATTGAAAATAGTTTTTTCAGGTATTTTGAAATCAAAGACTGGACTATTATTCTTTTCCTTCTCCTGGTTTGCTTATTAAAAGCATTTGCCACATCATTTACTATTTTCAGTGGTGGGAACGGAGGAAATTTTGCCCCTTCCCTTTTTGCAGGTGGAACCGTTGGGTATTTATTTGCTCTGGTATGTCAGCAAATCGGGTTTACTGATGTGCCTGTCACCAATCTTGTTCTTGTAGGAATGGCCGGTGCCATGAGTGGTGTACTTTATGCTCCCCTTACTGCTATTTTCCTGATTGCGGAATCAAGCCTTGGATATGATTTATTCATTCCTCTAATGATTGCTTCTGTAGTATCTTACCTTATTGCCAAATGGTTTTCTCAAATATCTCCTGAGCTTAAATCAATGGCTGACCAGGGCAAAATTTTTACGGATAAGCATGACAGAAATATTCTTTCTGCTCTTCACAGTGAGGATTTTATAGATTATAATTCCCAAACAATTAACGAGAATACTTCTGTTACAGAAATGTTCGAACTTTTCAAAAAGAGTAATAAAAATATTTTTGCAGTAATAGATGACAAAAGAACATTAAGAGGAATGTTCTCAATAGATGATATTCGTCCTTACCTGTTTGGAGACCATGATGTTCCCAAAAATATTGCTCAAATCATGAAAGCTCCGGCAGCGGTTATTAATATTGGGGATAAACCTTTGGAAATCCTTCAGATCTTTGATGATACAGGTGTCTGGAATTTGCCTGTAGTAGGAGAAGAAAACAGGTTTATAGGATTTATCTCCAAGTCTTCCATTCTGATGGGATACCGGCAATTGTTAAAAGAATACTCAGAATAG	MNLHNRKKYLSFLKFKRDFQKYGLEKARSYELVLHWLHNRLSRNQFLLLSGILVGCTAGLAGVILKTLVHNIHYFITHKVHFEYQLLFYLVFPFLGIVLTTMIVITLFKGQDRKGIGAILYEIAQNSSIVSSVKMYSQIIQSAVTVGLGGSAGLESPIAVTGSAIGSNYAQTYRLGYKERTLLLAAGATAGIASAFNAPIAGIMFAFEILLTGVVFTDFIPLVVAAVCGSLLSRVLLQEDVLFRFYTRESFNYKNVPYYLILGIVTGLYARYFVIISQKVEHYLKMLSLSRLRKAMLGGAILSLLCVLFPPLFGEGYDTVKAFTNGNTHIIIENSFFRYFEIKDWTIILFLLLVCLLKAFATSFTIFSGGNGGNFAPSLFAGGTVGYLFALVCQQIGFTDVPVTNLVLVGMAGAMSGVLYAPLTAIFLIAESSLGYDLFIPLMIASVVSYLIAKWFSQISPELKSMADQGKIFTDKHDRNILSALHSEDFIDYNSQTINENTSVTEMFELFKKSNKNIFAVIDDKRTLRGMFSIDDIRPYLFGDHDVPKNIAQIMKAPAAVINIGDKPLEILQIFDDTGVWNLPVVGEENRFIGFISKSSILMGYRQLLKEYSE	PGPT0004990_327	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS003_02543	1236	nhaP_1	COG0025	Na(+)/H(+) antiporter NhaP	ATGGAGCTATTTCTAATCTTTTCTATTCTCATCACCCTTGCGGCATTCTTTTCTTACCTCAATATAAAATTTTTAAAGCTTCCTTCAGGAATCAGTCTGATGCTGATGGGTGTTTTAGCTGCGGCAGGCGTTATTGTTACCGGATATTTTTCTTCGGGGTTTACAGAAATGATAAGAGGAAAGCTCGCTTTAATTGATTTTTCTGAGTTTTTACTGGGTATTCTTTTAAGCTTTTTACTGTTTGCAGGCTCACTTCATGTTTCAGTTCCTGATTTAAAAAAATCGGCAAAGAGTATCATCAGTTTTGCAACCATCGGAACATTAATTTCTACAGTGGCTGTAGGCTATAGTTTATTTTATCTTCTTTCAGCTTTCCATCAGGATATTCCGTTGATATACTGTCTGCTATTTGGTGCGTTGATTTCGCCGACTGATCCCATAGCCGTTATGGGTATTCTGAAAAAAACCAACTTATCCAAAAATATTGAGACCAATATTGTAGGAGAATCTCTTTTTAATGATGGTATTGGAGTGGTGATATTTGTTACCATTTTAAAGATAGCCTCAGTAGGACCGGAAAATTTTGGACCTGCTGATATCGGGATGCTGTTTATCCATGAAGCTGTAGGTGGTATTTTTATAGGTCTTATTATAGGTTTCATAGGCTATAAACTGATGAAATCTATAGATCATTTCCAAACGGAGATTTTAATTTCTCTGGCCATGGTAATGGGAGGCTACAGTCTTTGCCATTCCATCCATGTATCAGGTCCCCTTGCCATGGTAGTTGCAGGTTTAATGACTGGTAACCGTGGAAAAGAACTTGCTATGAGCGATATTACGCGTGATTATCTGGGTAAGTTCTGGGAAGTAACTGACGAGGTACTTAATGCCGTTTTGTTTATGCTGATCGGGCTTGAGATTGTTATCGTTTCTTTTGATATAAGTTATGTGACTATTGGAATTATTACTGCATTAATTATCATCATTGCCCGCTATGTATCGTTATATATTCCTGCAGTTTTGTTCAGGTTTAAAAAGGGATTCGGAACCAAATCTCTTGTTATTATGACGTGGGGAGGATTGAGAGGAGGAATTTCCATAGCATTGGCATTATCTTTACCTCAAAATCCTTACAAAGATGTGCTGGTATCCATTACCTTTGTCATTGTAATTTTCTCAATTCTCGTTCAGGGAATTACTGTAGAAAAAGTAATAAAAAAATTAACCCCTTAA	MELFLIFSILITLAAFFSYLNIKFLKLPSGISLMLMGVLAAAGVIVTGYFSSGFTEMIRGKLALIDFSEFLLGILLSFLLFAGSLHVSVPDLKKSAKSIISFATIGTLISTVAVGYSLFYLLSAFHQDIPLIYCLLFGALISPTDPIAVMGILKKTNLSKNIETNIVGESLFNDGIGVVIFVTILKIASVGPENFGPADIGMLFIHEAVGGIFIGLIIGFIGYKLMKSIDHFQTEILISLAMVMGGYSLCHSIHVSGPLAMVVAGLMTGNRGKELAMSDITRDYLGKFWEVTDEVLNAVLFMLIGLEIVIVSFDISYVTIGIITALIIIIARYVSLYIPAVLFRFKKGFGTKSLVIMTWGGLRGGISIALALSLPQNPYKDVLVSITFVIVIFSILVQGITVEKVIKKLTP	PGPT0013930_1131	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
BMS003_02544	336			hypothetical protein	ATGTTATTATTTAGAACGTCTTTTTGTTTTTATATTTTTACTCTTTTTTTTGTATTCAGTTCAGAAAGAGCTGAAAAATCACTCGCCAATGTTATTACCGTTAAGCGCCCTGTACGCAACGGAGCCAACTGCTCTATCAAGAAATATAATAATGTAAAGGCCGTTGAAGTTGAAAATAAAACTTTTTCTAAATATCTGTATTACTCAGACATTACCTACAAAGCTGAAAAATGTGCGGAAATACTTTTGAAAAACCTTCAGGTAAGTTCCTTTATTTTATCAGCAGAGATATTCAGCGCCGTAAAATCATATCTTCATCTGCTTCAGCTGTTTTAA	MLLFRTSFCFYIFTLFFVFSSERAEKSLANVITVKRPVRNGANCSIKKYNNVKAVEVENKTFSKYLYYSDITYKAEKCAEILLKNLQVSSFILSAEIFSAVKSYLHLLQLF				NA	NA	NA	NA	NA
BMS003_02545	1089	acrE		Multidrug export protein AcrE	ATGAATATAAAAAGTTTCATATTATGCATAAGTGCATTATTATGCGCATTTTCTTGTGGTAAAAACAACCCAAATAAAAATAAGAATACTAAAGAAGTCCCTGTATTTGAGGTAAAACAAAAGGATACACTGATCAGCAGTCAGTTTGTTACTGATATTCAGGCTAAAAGAAATGTTGAAATTCGTTCCAGGATAGATGGTATCATTCAGCACATTTATGTGAATGAAGGACAGTTTGTTAAAAAAGGACAGTCTTTGTTTAAAATCAATGATGCCGAATTACAGATGGATCTGCTGAAGGCCGAAGCCAGATTTAAGCAGACAAAAGCAGATCTCAGGATTGCCGAAGTTGAACTCAGACAGATTGAAAGTTTATATACCAAAAAGTTTGTTGCGGTCAACGAGTTTGAGCTGGCCAAAGCAAGGCTGGCAGCTGCCAGAGCAAAATGTTCTTTCGCCGAAGCAGAAAAAAAAGCAGTCATTCAAAAAATTAATTTTACAATAATTACAGCACCATTCGATGGTGTGCTTGATGTTATTCCCCATAAAAGCGGAAGTCTCGTTAATAACGGAACATTATTGACAACACTTTCACAGCTGGATGAGGTCTACGCTTATTTTTCCATTCCTGAGAATAAATATTTTGAGCTTTTGACAAGTGATAAATTGGGAAAACATCAGAAAATAGAGCTTACTCTTCCTAATGGAACAGCCTATCAGTTTAACGGTACCCTAAAGTCTGCCGAAAGTGAGATTGACCGTGCTACCGGATCCATCAGATATAAGGTGCTTTTCCCGAATCCCCAGCATATCATTAAGCATGGAACTTCCGGTAAGCTGACCATTTCAGATGTACAGAATAATGCACTCATGATCCCGCAGAAATCTACCTTCTCTATTCAGGACAAAACCTACATATTTCTTGTCGATAAGAATAATAAGGTAAAAATGACCAATATCAAAATCGGTACAGCCATAAAGAATTCATATCTGGTTGAAAGCGGTATTAAAAAGGGAGATCTGATTATTTACGAGGGTACACAGTCTCTGAAAGACGGAGATGTAATCAAAATTAAAGACAGGTTATAA	MNIKSFILCISALLCAFSCGKNNPNKNKNTKEVPVFEVKQKDTLISSQFVTDIQAKRNVEIRSRIDGIIQHIYVNEGQFVKKGQSLFKINDAELQMDLLKAEARFKQTKADLRIAEVELRQIESLYTKKFVAVNEFELAKARLAAARAKCSFAEAEKKAVIQKINFTIITAPFDGVLDVIPHKSGSLVNNGTLLTTLSQLDEVYAYFSIPENKYFELLTSDKLGKHQKIELTLPNGTAYQFNGTLKSAESEIDRATGSIRYKVLFPNPQHIIKHGTSGKLTISDVQNNALMIPQKSTFSIQDKTYIFLVDKNNKVKMTNIKIGTAIKNSYLVESGIKKGDLIIYEGTQSLKDGDVIKIKDRL	PGPT0003275_5236	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
BMS003_02546	3108	bepE_3		Efflux pump membrane transporter BepE	ATGGTAGAAATGTTTATAAAGCGAAAAGTACTTTCGCTGGTGATTTCCATTGTCTTTGTTTTAATAGGAATTCTGGCACTCACCAAGATGCCGATTACCCAGTTTCCTGATATTGTTCCTCCGTCAGTAACCGTTACAGCCAAATATACGGGTGCCAATGCAGAAGTTTCCGCAGACGCTGTGGCTCTGCCTCTGGAACGCGCCATCAATGGTGTTCCGGGAATGACTTATATGTCGACCGTTACTTCTAATGACGGATTAACAGTTATACAGGTTTTCTTTGAAGTAGGTACAGACCCAGATCTGGCTGCGGTAAATGTACAGAACAGGGTAACTACAATTCTTGATGAGCTTCCCGAAGAAGTAATCAGAGCGGGGGTTACTACAGAAAAAGAAGTAAACAGCATGCTGATGTACCTCAATATTACCAGTACAGATCCAAGTCAGGATGAACAGTTTATTTACAACTTTACAGATATTAATATTCTTCAGGAGCTTAAGCGTCTGGACGGAGTGGGGAGAGCTGAGATTATGGGGCAGAAAGAATATTCCATGAGGGTTTGGCTTGACCCCCAGAAAATGGCTGCTTATAATATCTCCACAGATGAAATAATCCGTTCCCTGCAGAAACAGAATATTTCGGCAGCACCCGGAAAGGTGGGAGAATCTTCCGGTAAGAAAGCAGGTCAGATTCAGTATGTTGTGAAATATAAAGGTAAATTCTTTGAGCCTAAACAATATGAAGAAATTCCACTCAGGGCTGATGAAGAAGGAACCATATTAAAATTAAAAGATATTGCAAAAGTTGAATTTGGAGCAATGACTTATGGAATGGTTTCTAAAACTGACGGGAGGCCGTCTGCATCCATTATGATGAAGCAGAGACCCGGGTCGAATGCATCTGAAGTTATTCAGAATGTCAAAGATAAAATGGCGGAACTGAAATCCGGCTCATTTCCGCCAGGGATGGATTACAACCTGGCTTACGATGTTTCAAGATTTCTGGATGCTTCAATCCATGCTGTTCTAAAGACTCTTATTGAAGCCTTTATTCTGGTAGCAATAGTTGTTTTTCTTTTCCTTCAGGACTGGCGTTCCACACTTATTCCTGTACTTGCTATTCCTGTGGCTCTTGTCGGTACATTTGCTTTTATGGATATGCTTGGTTTTTCCCTTAACCTGCTGACCCTGTTTGCCCTGGTTCTGTCCATTGGGATTGTTGTAGATAATGCCATTGTTGTTGTAGAAGCAGTGCATGTTAAAATGGAAGAAGGCTATATGCCTTTTGAAGCCACTATAATGGCGGCTAAAGAAATTGCAGGAGCAGTGGTAGCTATTACTTTGGTTATGTCAGCAGTTTTCATTCCTGTAGCATTTCTGGATGGTCCCGTAGGCGTATTTTACCGGCAGTTTTCCCTTACCTTAGCAATAAGTATTGTTATTTCCGGTATTAATGCATTAACCCTTACTCCTGCTTTATGTGCATTGATATTGAAACCTCATGATGCTCATGACAGGAAAGGATTGCTGGATCGTTTTTTCAGTGTATTTAATACTATTCTTGACAGGATTACCAACGGTTACGTGAAAGTCTTATCGAAATTTGCAACCCGTACTGCGGTTACTTTCGGATTACTGACTTTATTTATAGTACTTACCGGACTCACCTCCAAATTTCTGGCATCAGGATTTATTCCCATGGAAGATCAGGGGATGGCCTACGTGAGTGTTACCACTCCTCAGGGAGCAACAGTAGAAAGAACCGAAAAGGTACTCGATGAGATTACCGGTATAGCCAAAAAGATGGATGGTGTAGAAAATGTAACGACTCTCGCAGGATACAATGTAGTAACAGAAATAGCGGGATCATCATATGGAATGGCAATGATTAACCTTAAGGACTGGAAAGAAAGAAATATATCTGTAGATGATTTTCTTAAAGAATTAAACGAAAAAACAAAAGGAATTTCCGATGCAGATATCGAAGCCTTTGCACCGCCTACAGTTCCGGGATTTGGAAATACCAGCGGTTTTGAACTCCGCCTTCTGGACAGAACAGGGGGAAGCATCGAAAATATGGATAACGTAACAAAAGATTTTGTCAAAAAACTAAATGAAACTCCCGAGCTGAAGAACAGTTTTACCAGTTTTGATGCCACTTTCCCGCAGTATATGGTGAATATTGATTATGATATGGCCGCTAAAAAAGGTATCTCCGCAGATAATGCAATGTCTACCTTACAAACCTTGCTGGGATCTTACTATGCCACTAATTTCATACGGTTCAGACAGATGTATAAAGTTATGGTTCAGGCTGGACCTGAATTCCGGGATACTCCTGAAAGTATACTGAATCTGTACTTAAAAAATGATAAAGGTGAAATGGTGCCATTTTCAACATTCATGACAATTGAAAGAGTATACGGACCCGAGGTTCTGACCCGCTACAATATGTATATGTCTGCAATGATCAATGGTGAGGCAGCTGATGGTTTCAGCTCAGGTGATGCTATTGCTGCAGTAGAAAAAATAGCGAAGGAAACCCTTCCTAAAGGCTTTGAAATTGAATGGTCGGGGATGACCCGTGAAGAGATTTTGTCCGGAAACCAAACCGTTTATATCTTCCTCGTCTGCCTGGTCTTTGTATACCTTTTACTGGCAGCACAGTATGAGAGCTTTCTTCTTCCAATGCCTGTATTGCTTAGTTTACCAACAGGAATTTTCGGTTCTTATATTGCGCTGATGGTTTGCGGTCTGGATAACAATATCTATGCTCAGGTGGCACTGGTGATGCTGATTGGTCTGCTTGCGAAAAATGCGATCTTAATAGTGGAATTTGCCATTGCCAGCTACAAAGAAGGGAACAGTATTATTTCAGCTGCTATTGAAGGGGCAAGACAGCGTCTTCGTCCGATCCTGATGACCTCTTTTGCTTTTATTGCAGGATTGGTTCCTCTGTGTGTAGCATCAGGCGCAGGGGCAGTCGGAAACCGTTCCATCGGAACTGCGGCAGCAGGAGGAATGCTGATTGGTACTGTCTTCGGTCTCATTATCATTCCTGGCCTTTACATCTTCTTTGCAACCCTTGAAAACAGAAAAAAAGAATGA	MVEMFIKRKVLSLVISIVFVLIGILALTKMPITQFPDIVPPSVTVTAKYTGANAEVSADAVALPLERAINGVPGMTYMSTVTSNDGLTVIQVFFEVGTDPDLAAVNVQNRVTTILDELPEEVIRAGVTTEKEVNSMLMYLNITSTDPSQDEQFIYNFTDINILQELKRLDGVGRAEIMGQKEYSMRVWLDPQKMAAYNISTDEIIRSLQKQNISAAPGKVGESSGKKAGQIQYVVKYKGKFFEPKQYEEIPLRADEEGTILKLKDIAKVEFGAMTYGMVSKTDGRPSASIMMKQRPGSNASEVIQNVKDKMAELKSGSFPPGMDYNLAYDVSRFLDASIHAVLKTLIEAFILVAIVVFLFLQDWRSTLIPVLAIPVALVGTFAFMDMLGFSLNLLTLFALVLSIGIVVDNAIVVVEAVHVKMEEGYMPFEATIMAAKEIAGAVVAITLVMSAVFIPVAFLDGPVGVFYRQFSLTLAISIVISGINALTLTPALCALILKPHDAHDRKGLLDRFFSVFNTILDRITNGYVKVLSKFATRTAVTFGLLTLFIVLTGLTSKFLASGFIPMEDQGMAYVSVTTPQGATVERTEKVLDEITGIAKKMDGVENVTTLAGYNVVTEIAGSSYGMAMINLKDWKERNISVDDFLKELNEKTKGISDADIEAFAPPTVPGFGNTSGFELRLLDRTGGSIENMDNVTKDFVKKLNETPELKNSFTSFDATFPQYMVNIDYDMAAKKGISADNAMSTLQTLLGSYYATNFIRFRQMYKVMVQAGPEFRDTPESILNLYLKNDKGEMVPFSTFMTIERVYGPEVLTRYNMYMSAMINGEAADGFSSGDAIAAVEKIAKETLPKGFEIEWSGMTREEILSGNQTVYIFLVCLVFVYLLLAAQYESFLLPMPVLLSLPTGIFGSYIALMVCGLDNNIYAQVALVMLIGLLAKNAILIVEFAIASYKEGNSIISAAIEGARQRLRPILMTSFAFIAGLVPLCVASGAGAVGNRSIGTAAAGGMLIGTVFGLIIIPGLYIFFATLENRKKE	PGPT0016195_1272	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
BMS003_02547	1413	ttgI		Toluene efflux pump outer membrane protein TtgI	ATGGCAGGATTGCTTTTGGCATCCTGTGCAGTTCCTAAAGTGACATCTGTTAAAGAAGTCCCTGAATTGCCAGATCGCATTGTGGCTGACCCCGTTACCGGCAAATCAGAATTTACAGGAATAGATCTGAAAGGTTATTTTACAGATCCTCATTTATTATATCTTTTTGAAGAAGTAAAAAAAGCCAATCCTGACTTTAAAATAGCTCAGCAAAGAGTAGAAATAGCCAACAGTTTTTTAAAACGGTCAAAAACAGAACTGCTTCCTTCTCTGGAATTAGGAGTGCAGGTTTCGGGAGACCGTTACGGAAAATATACGATGGAAGGAGTGGGGAATTATGATACCAATCTCTCATCCAATATCACGGAGGAACAAAAAATCAATACTTCCTTTACCCCCAATTACTGGATGGGCGCCAGGAGCAACTGGGAAATTGATGCCTGGGGAAAGCTGAAAAACAAAAAGCTTTCGGCCCAGAATAAGTTTCTGGCATCCACAGAAGGGCTTAAGCTGCTTCAGACAGACCTTTTTACTGATATTGCCAATTTGTATTATGACCTGATTGCTTTAGACAAAAGGTTGAAAATCTACCAGGATAACTATAATCTTCAAAAACGTGCTTTTGAGATCATCAAAGCACAGCGTGAAGTGGGTAAGGTGACAGAACTGGCAGTACAGCAGTTTAAAGCACAGAACAATAACTGGCTGGCAGAAATTGAACATATTAAAGTGGAGATAGTTACTGTAAAACAGGCAATTTCAACATTGACAGGTGTGTATGGAGGAGATATCCGGAGAGGTAATATCCTGTTGCCAACCAATTTCGGAATCCTGAACTCCAATATTAATGTGGACAAAGTAATTCATTCAAGGCCGGATGTTACTTCAAACTATTATTATCTGCAGGCTTCACATGCTGATGCCAAAGCTGCAAGAGCAGCCTTTTATCCCAAAATAGATATAAAAGCAGGATTGGGAATGAACTCATTTTCTGCAGAAACTCTTTTCAAACCCGCATCACTGGCCGGGCAGATTTTAGGAGGACTTATGGTTCCCGTTTTTAATAAAGGCCAGCTGAAGTATGAATTTAAAGTTGCAGACCTCAAACAGGAAATTGCATTCCTGAACTACCAGAAAAGTGTGACCACAGCTTTTAATGAGTTACAGTCTATTTTGAAACAGACTCAGATATTTCATAAAGTTTTAGAGCTTAAAGAGGAAGAGGTCAGTTTTCTGGATAAAGGAATAGAAGTATCCAATGATCTGTATATTACGGGCTATGCTAATTACTTTGAGCTGATCAATGCTCAGAAAAGCAAGCTCCAGGCTGAGCTTGATCTCTTGAAGTTTCAGCATGAGAATACCAGAAACAATGTATTGTTGTTTAAAGCTTTAGCGGGTAAATTACAATGA	MAGLLLASCAVPKVTSVKEVPELPDRIVADPVTGKSEFTGIDLKGYFTDPHLLYLFEEVKKANPDFKIAQQRVEIANSFLKRSKTELLPSLELGVQVSGDRYGKYTMEGVGNYDTNLSSNITEEQKINTSFTPNYWMGARSNWEIDAWGKLKNKKLSAQNKFLASTEGLKLLQTDLFTDIANLYYDLIALDKRLKIYQDNYNLQKRAFEIIKAQREVGKVTELAVQQFKAQNNNWLAEIEHIKVEIVTVKQAISTLTGVYGGDIRRGNILLPTNFGILNSNINVDKVIHSRPDVTSNYYYLQASHADAKAARAAFYPKIDIKAGLGMNSFSAETLFKPASLAGQILGGLMVPVFNKGQLKYEFKVADLKQEIAFLNYQKSVTTAFNELQSILKQTQIFHKVLELKEEEVSFLDKGIEVSNDLYITGYANYFELINAQKSKLQAELDLLKFQHENTRNNVLLFKALAGKLQ	PGPT0009810_1334	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
BMS003_02548	2526			Calcium-transporting ATPase 1	ATGAACTATAATATACCAGAAGGTCTGAAAGGTCTTACAGAAGGTGAAGTGGCAGCCTCCCGAAAAAGATACGGATATAACAGATTAGATGCAGTTAAGAAAGAAACACCATTGGGCATGCTCATTGATATTCTGAAAGAGCCTATGCTTATTTTGCTGATATGTGTTTCCCTTATCTATGTAATTATAGGCGACTATGGAGAAACATTATTTATGCTAGTGGCGATAATAGGGGTTACTGCCATTTCTTTTTATCAGGACAACCGCAGTAAGAAAGCACTGGAAGAGCTTGAGAAACTTAATGAGCCCTTAAGCCAGGTGATAAGGAATTCAAAAGTTATTAAGATTCCCACTGTTGAAATTGCTGTCGGAGATCTCTGTATTACCGAAGAAGGAAATCTGATCAACGCAGATGGGAAGATTGTTCATAGTAATGATTTTTCGGTTAATGAATCTTCGCTTACCGGAGAAAGTTTTTCAGTTTTTAAAGACAGTAATTCGGAAGATAATAAAGTGTACAGCGGAACCATTACTGTATCAGGGCTTGCTGTTTTCGAAGTTGAACATATAGGAAAAGAAACAAAGGTAGGGAAGGTGGGAGAATCTATTCTGAACATCAAAGAAGAAATATCTCCTTTACAGCTTCAGATCCGGAGTTTTGTAAAAGGGATGGCCATTATTGGGCTGGTTATCTTTATGGGAGTATGTATTTTCAGCTATATTAAAACGGAGGATTTTGTAACCAGTTTACTAAGCGGGCTTACATTGGCAATGTCTGTACTTCCCGAAGAAATTCCTGTAGCCTTTACTACTTTCATGGCATTGGGAGCATGGAAGCTGATGCGTGAAGGAATCATTATAAAGCGAAGCAGCATTGTAGAGACTTTAGGAAGTGTTACTGTAATCTGTACTGATAAAACAGGTACAATTACAGAAAACTCTATGCAGCTGAAGAGCCTTTATGATTACCGTTCTGATAAAACTTATCAGGAGACAGAATTCGAAACAAAAGAACTGGACGAACTTATTGCTTATGCCATGTGGAGCAGTGAGCCTGTACCTTTTGATCCCATGGAAATAACACTGCATAAAGTCTACGAACAGACTCAGAGTACAGACAGAAGAAAAGACTATCAGCTATTTCATGAATATCCGTTGGAAGGGAAGCCTCCAATGATGACACACCTTTTCGAGAATGAACAAAAAAACAGAATTATAGCAGCTAAAGGAGCTCCTGAAGCGATTCTTAATGTTTCCCGGCTTTCAGAAGAAGAAAAGAATAAAATACGGGGACTCATAAAAGAATTCGGAGAACAGGGATACCGTGTTCTAGGTGTGGCAAAATCCCATTTTGAAGGTGACGATTTTCCTGCTAAACAACAGGATTTTAAATTTGAATTTTTAGGACTGACCGTATTTTATGATCCGCCCAAAAAAGGAATAAAAAATGTATTTCAGCATATTTATGATGCAGGCATTAAAGTAAAAGTCATTACAGGAGACAATGCTGATACTACAAATGCGATTGCATCACAGGCCGGGATTATCAATAATACTCCTGCTGTAAACGGAAGTGAGGTAACCTCATGTTCAGAAGATGATCTAATGAAACTATCTGAAAATACAACCTTATTTACAAGAATGTTTCCTGAAGCAAAACTTGATGTGGTGAATGCTCTGAAAGCACAGGGAAACATTGTTGCCATGTTGGGAGATGGCGTGAATGACGGTCCTGCATTGAAGGCAGCTCATATTGGTGTGGCAATGGGAAATAAAGGAACTGAAATTGCAAAATCGGCAGCAGCTTTAGTCATTACCAATGATGACCTTGAGAAACTGGTTGTGGGAATTGCTGCGGGCAGGAGAATTTATGCCAACATAAAAAAGGCTGTTCAGTATATTATTTCCATTCACATCCCTATTATACTTACAGTTTCCTTACCACTGTTTCTGGGCTGGGTATTTCCTCATATATTCACTCCTGTACATGTTATATTCCTTGAGCTGGTCATGGGGCCTACCTGTTCCATTGTGTATGAAAATGAACCTATTGAAAAAGATGCGATGCGCAGACCTCCAAGAGTGCTTACCTATACATTTCTGAACTGGAGAGAACTTATGATAAGCATTATTCAGGGACTGGTTATCACGGCAGGAATACTCTGGATGTATCAATATTCTGTCGATCTGGGGAACGACGAGCCCAAAACAAGATCTTTAGTGTTCAGTACCCTGATATTTGCCAATATATTACTGAGCCTGGTAAACCGTTCTTTTTACTACAGCATATTTGAAAGCTTTAAAAATCGTAACTTTTTACTGGTGGGGATCTCTGCCTTGGTTCTTGTACTGCTATTTATTATTCTTTATATTAAACCAGTATCAGGATTCTTTAGTGTAACTCCTCTTTCTGTAAAAGAGCTGGGCATTACACTTCTTGCTGCTGCTGTTTCGGTATTGTGGTTTGAGATTTATAAATTGGTAAAACGACTTTACAGAAAGAATGATAATAAATTAAAAAAATAA	MNYNIPEGLKGLTEGEVAASRKRYGYNRLDAVKKETPLGMLIDILKEPMLILLICVSLIYVIIGDYGETLFMLVAIIGVTAISFYQDNRSKKALEELEKLNEPLSQVIRNSKVIKIPTVEIAVGDLCITEEGNLINADGKIVHSNDFSVNESSLTGESFSVFKDSNSEDNKVYSGTITVSGLAVFEVEHIGKETKVGKVGESILNIKEEISPLQLQIRSFVKGMAIIGLVIFMGVCIFSYIKTEDFVTSLLSGLTLAMSVLPEEIPVAFTTFMALGAWKLMREGIIIKRSSIVETLGSVTVICTDKTGTITENSMQLKSLYDYRSDKTYQETEFETKELDELIAYAMWSSEPVPFDPMEITLHKVYEQTQSTDRRKDYQLFHEYPLEGKPPMMTHLFENEQKNRIIAAKGAPEAILNVSRLSEEEKNKIRGLIKEFGEQGYRVLGVAKSHFEGDDFPAKQQDFKFEFLGLTVFYDPPKKGIKNVFQHIYDAGIKVKVITGDNADTTNAIASQAGIINNTPAVNGSEVTSCSEDDLMKLSENTTLFTRMFPEAKLDVVNALKAQGNIVAMLGDGVNDGPALKAAHIGVAMGNKGTEIAKSAAALVITNDDLEKLVVGIAAGRRIYANIKKAVQYIISIHIPIILTVSLPLFLGWVFPHIFTPVHVIFLELVMGPTCSIVYENEPIEKDAMRRPPRVLTYTFLNWRELMISIIQGLVITAGILWMYQYSVDLGNDEPKTRSLVFSTLIFANILLSLVNRSFYYSIFESFKNRNFLLVGISALVLVLLFIILYIKPVSGFFSVTPLSVKELGITLLAAAVSVLWFEIYKLVKRLYRKNDNKLKK	PGPT0013990_5431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
BMS003_02549	390			hypothetical protein	TTGAAAAAGTTGATTTCCATATTGTTGCTGTCACTTTTCTTGGTTTCAACAACCGAGCTGTATCAGTTGTTGAAGATTCCTACTCTCGTAGAACATTATTGGGAACACAAGCAGTTTAACCCGGAAATGCCACTCATTGCATTTCTAAAAACTCATTATGACCATCCTGTGAAAGATGGAGATTACGGAAAAGACCAGAGACTGCCGTTTATCATTCATTCTGCACCCTTAAATTTAATCTTTACCATTAATCCGGGTTTTTATTTTGAAACAAGACCTGAAAATTTCAGACAGATAAAATCCCATAAGATTCTTTCAAAAGATGAAAATTTTTGTTGCAGAGGATTTACAGGATCTGTCTGGGAACCGCCGAGGCTTTTGTACGTGTAA	MKKLISILLLSLFLVSTTELYQLLKIPTLVEHYWEHKQFNPEMPLIAFLKTHYDHPVKDGDYGKDQRLPFIIHSAPLNLIFTINPGFYFETRPENFRQIKSHKILSKDENFCCRGFTGSVWEPPRLLYV				NA	NA	NA	NA	NA
BMS003_02550	444	dsbH	COG0526	Disulfide bond reductase DsbH	ATGAAAACACTATTTTCAACCATACTAATGGTTGTATTTGCTGTTGGCATTCACGCACAGAACCGCCTGGCAAATGCTCAAAAACAAGCATCAGAAAACAAAGAACTTATCTTGTTGAACTTTTCAGGTTCAGACTGGTGTATTCCGTGTATCAAACTTCATAAGAATATCATTGAAACCGATGAATTTAAAAAACTGGAAACAGAAAATATTATCGTTTACATCAATGCGGACTTTCCAAGAAACAAAAAAAATCAGCTCTCTCCGGAACTGAAAAAAGAAAATGCCTCTCTTGCTGATCAGTATAATCAAACAGGGTTATTTCCTTACACTTTGCTGCTGAATTCAGAAGGTAAAATTCTGAAAAGCTGGGAAGGTTTGCCCTCGGAAAATGCATTGGCTTTTAGCAATGAAATAAGAGATATTAAAGAAAATCAAAAATAA	MKTLFSTILMVVFAVGIHAQNRLANAQKQASENKELILLNFSGSDWCIPCIKLHKNIIETDEFKKLETENIIVYINADFPRNKKNQLSPELKKENASLADQYNQTGLFPYTLLLNSEGKILKSWEGLPSENALAFSNEIRDIKENQK				NA	NA	NA	NA	NA
BMS003_02551	927	apbE	COG1477	FAD:protein FMN transferase	ATGGTAAGAGAATTCAAAAGACCTCAGAAACTAATGGGGAATGCTTTTGAAATTACTGTTGTAGGCAATGATGAAAGCTCAGCAAATCAGCATATTGATGCAGCCATTGATGAGATCCGGAGAATTGAAAAGCTTCTGACAACATTCAGTGAAGAAAGCCAGACCAGTCTCATTAACAGAAATGCAGGGATACAGCCGGTAAAAGTAGACAGGGAGATTTTTAACCTGATTGAGAGAAGTCTCAGAATCAGTAAAATAACAGACGGCTACTTCGATATTTCCTATGGCGGAATAGATAAGCGTTTCTGGAACTTTGACTGCGAAATGAAACATCTTCCTGATCCTGAACTGATTAAAAAACACCTGAAACTGGTTAATTATCAGAATATTATTCTCTGCCATGAAAATCAGACTGTCTTTCTTAAGGAAAAAGGAATGCGGATTGGTTTTGGAGGAATCGGAAAGGGCTATGCCGCAGAAATGGCGAAACAAACGCTTCAGAACAGAGGTGTAATTTCCGGAATTGTAAATGCTTCTGGCGATCTAACAACTTGGGGAAACCAGTCAGACGGCAACCCCTGGACGATAGGAATTGCCGATCCCGACAACGCAAAACAGCCGTTTTCTTATATGAATATTACGGATATGGCGGTTGCAACCTCAGGAAATTATGAAAAATTTGTTGTCATCAATGGTAAAAAATATTCTCATACCATTAATCCCAAAACAGGAATGCCTGTTTCCGGAGTGAAGAGTGTTACCATCTTTTGTCCCAACGCAGAAATAGCCGATGCAATGGCAACTCCCGTAAGTATTATGGGGATTGATGCTGCGCTTTACATGGTTAATCAGATCAATCATCTGGAATGTATCATTGTGGATGACCGGGACAAAATTTATTCATCTCAAAACATTAATTTAAAATGA	MVREFKRPQKLMGNAFEITVVGNDESSANQHIDAAIDEIRRIEKLLTTFSEESQTSLINRNAGIQPVKVDREIFNLIERSLRISKITDGYFDISYGGIDKRFWNFDCEMKHLPDPELIKKHLKLVNYQNIILCHENQTVFLKEKGMRIGFGGIGKGYAAEMAKQTLQNRGVISGIVNASGDLTTWGNQSDGNPWTIGIADPDNAKQPFSYMNITDMAVATSGNYEKFVVINGKKYSHTINPKTGMPVSGVKSVTIFCPNAEIADAMATPVSIMGIDAALYMVNQINHLECIIVDDRDKIYSSQNINLK	PGPT0000430_3393	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
BMS003_02552	228			hypothetical protein	ATGAAAAACCCTATAAAAATACTGACATTAGCTTATTTACTGCTCATAGCAGCTTCAGTACAGTCCTGTACGACAGTAAAAGCGTATGAAAAGAATAAATTAAATGATGCCGAAATGGCCTTAGGAAATCGGACTATTGAAAAAACAGAACTGAGCTTTCAATCTTACAGAGAAGGATCTTCCGGTGCCAATGCCGGAAAAGTAGGTGGCGGCTGCGGATGTAACTAA	MKNPIKILTLAYLLLIAASVQSCTTVKAYEKNKLNDAEMALGNRTIEKTELSFQSYREGSSGANAGKVGGGCGCN				NA	NA	NA	NA	NA
BMS003_02553	1191			hypothetical protein	ATGAAAAAAATTATTGTAAGTGTCATTGCTCTTTTCGGAATTTTCAATGCAAAAGCTCAAGAGAATACAAGCAGTGAACAGTCTAAAAAACTTACTTTTGATGAAGCTAATTTAGTTTCAAGCTATTATAAGCAGGATGGAAACAACTCTGCAGTTACAGGAGGAATAGGAACCGAGAAACTGACAGATATTTCCAATGCTATTGATGTGACAGTGGTAAAATATGATAAGAAAGACAGGAAAAATAAATTCGGACTCAGCGTGGGAATAGATCATTATACTTCAGCGTCTTCTGATATGATTGATCTTAAAGCCAATTCATCTGCTTCTCACGCAGATACAAGAATTTATCCTGCATTAAGCTGGAGCCGAGAAAATGAAAGCAAAGGCACGACTTTAATGGCGGGCGTTTCTTATTCAGGGGAGTTTGATTATCAGTCTATTGGTGCAAATATTGGATTTTCGCAGAAAACAAAGAACAAAATGGGAGAGTTTACTGCAAAGTTTCAGGCATATCTGGATCAGGTGAAACTTATTGCTCCTATAGAATTAAGAACCAATGGAAGTGCAGGAGGTGAACATGAGAGCTACGGAACAAGCGGCAGGAATACGTATGCACTTTCTTTAGCCTATTCACAGATCATCAATCAGAATTTTCAGATGGAATTTTTAGCAGATGGTGTTCAGCAGACAGGTTATTTAAGTTTACCTTTCCACAGAGTTTATTTTAATGATAATTCCGTTCATCAGGAGGCTTTACCGGACAAACGTTTTAAAATTCCACTGGGAGTTAGAGCCAATTACTTCCTTGGAGATAAAATAATTCTGAGAGCCTATTACCGTTATTATACTGATGACTGGGGCTTGAAATCGAATACATTCAGTCTGGAAGCACCGGTGAAAATATCACCTTTTGTTTCGGTAAGTCCTTTTTACAGGTATTATTCGCAGACATCGGCAAAATATTTTGCACCTTACCAGCAGCATACAGCATTTGATGATTTTTATACCAGCAATTATGACCTGTCGAAATTTGACAGTCATTTCTATGGAGCCGGAATAAGAATCAACCCAAAGAATGGGCTATTTGGGATACAGCGTCTTAATATGATTGAAATCCGATATGGTCATTACACAAAATCTATCGGCATGAAGTCTGATATTATTTCCTTGAATTTAAGATTCAGATAA	MKKIIVSVIALFGIFNAKAQENTSSEQSKKLTFDEANLVSSYYKQDGNNSAVTGGIGTEKLTDISNAIDVTVVKYDKKDRKNKFGLSVGIDHYTSASSDMIDLKANSSASHADTRIYPALSWSRENESKGTTLMAGVSYSGEFDYQSIGANIGFSQKTKNKMGEFTAKFQAYLDQVKLIAPIELRTNGSAGGEHESYGTSGRNTYALSLAYSQIINQNFQMEFLADGVQQTGYLSLPFHRVYFNDNSVHQEALPDKRFKIPLGVRANYFLGDKIILRAYYRYYTDDWGLKSNTFSLEAPVKISPFVSVSPFYRYYSQTSAKYFAPYQQHTAFDDFYTSNYDLSKFDSHFYGAGIRINPKNGLFGIQRLNMIEIRYGHYTKSIGMKSDIISLNLRFR				NA	NA	NA	NA	NA
BMS003_02554	1800			hypothetical protein	ATGGCTAGAACGACTGTAACCCTGATTTTCTTTTTAAGTGGTCTCTCTTTTTTTTATGCGCAGGAGAAGAAAGACTCGCTGTACTACAAAATAGAAGAATTTTCAGATAAGAGAAAAGTAACCAAATTCATTCATCGCTTTATATTTCGCAGAGAGCCGGATTCAACTTCCGTTAAATCCAGAACGGAGAAAATTTCACAGGAAGCCTACAGCAAAAAGCATATCAGAAACATCAGAATAGAAACCATTGACCCTTTCGGATACAATTCCAAAGACAGTAAAGAAAGATCCAGATGGTATGACTGGGTAGCAGATCACCTTCATGCCAATACGAGAAATTCCACAGTTGATCATTACCTGCTTTTCAAGGAAGGAGAAGAATATAATGCGCAGAAATTATATGAATCTGAACGTTTGCTGAGAACCATGCCTTTTGTAAACAGGGTAAACATCAGTGTTTCAGACAGTACATCAGGAAAAGATTCTATAGATGTGGTGGTAAAAGTTCTTGATTCCTGGAGTCTGAAGCCCAGAATCAGCTATTCCGGGAGCAAGATCGGTTTGGGTGTTACAGAAGAAAATGTACTGGGACTGGGGCATACTCTTGATTTCCTTTACAGAAACGATTCTAAGGAGAAGCAGAACTATCTTTTGGGAAGTTATACAGCCTATAATCTTTTTGGAACCTATATTAATGCCCAGCTTTTGGGAGAAAGGGATTTTTATAGGAATGAAAGAATCAGTTTCAATGTAAGAAGAGATTTTTTCTCTCCTTTGACAAAGTGGGCGGGTGGTTTTACTTTTGAATATTTTATGAGACATGTTTTACTTCCGGTAGACACGGATACTACCTTTCCGGAAGTCCAGATCAAAGTGTACAGTCAGGATTTATGGGGAGGGTATCAGATTCCTGTTTCATCAGACCCAAGCGAAAAAGTATCCAGTAATATTGCCATCATAGGGCGGTTTCAGAATTATCAGTACAAAGACAGCCCGGGAATTGACCAATATAAATATTTCAGTTCCTACAACAGTTTTCTGATGTCTGTAGGATTTATTCAAAGAAATTTTTCAGTTCAGAGAAATATTTTCCAGTATGATCTGCCGGAAGATATAGCATACGGTAACTCTGCTAATATTATTGCAGGAGGATTGTCCAGAAATAAAGAAGTGAATCCTTATGTAGGGATTTCTGCATCTTATGGTACTTTTACAAAGTTAGGATACTTTACTGTGAAAGGACAGTTTGGAAGGTTTTTTAATGAAGACAGCCAGAATAGGGAATCTTTCCGGTTTGATGCAACCTATTTTACGAATCTTATGGATTGGAAGTTTGCCAAAGCAAGGCATTTCTTCTCACCTACTTTAGCCCTGGGAAATCCACAGCATAATTATTCTTATAAAGACAGAATCAATCTCTCTTCACCAGACGAATTTCCTGTATATAATTCAGATTATATCGGAACTAAAAAATTGGTTTTAAGATATCAGCTCCAGATGTTTGTAAACAGAACGTGGAAAAACTTCCATTTCAGTCCTTATCTGACTGCTGCAGTGGGATGGTTGGGAATGCCGGACGATAAACTGCTTAAAACGAAGGCTAATACCAAAATAGGGATTGGTGTATTAATTAATAATCCATATCTGGTTTTCAACAGAATTCAGATTTCGTTCACGTATTACCCGCGTGTTCCTTTTGATAATCATTCGGTTTTTGACTTTAACAGTAACAGAAACAATCTTTTACCAATAAATAATTTCGGGACAGATGTTCCTCACTTTGTAAATTTTGGAAACTGA	MARTTVTLIFFLSGLSFFYAQEKKDSLYYKIEEFSDKRKVTKFIHRFIFRREPDSTSVKSRTEKISQEAYSKKHIRNIRIETIDPFGYNSKDSKERSRWYDWVADHLHANTRNSTVDHYLLFKEGEEYNAQKLYESERLLRTMPFVNRVNISVSDSTSGKDSIDVVVKVLDSWSLKPRISYSGSKIGLGVTEENVLGLGHTLDFLYRNDSKEKQNYLLGSYTAYNLFGTYINAQLLGERDFYRNERISFNVRRDFFSPLTKWAGGFTFEYFMRHVLLPVDTDTTFPEVQIKVYSQDLWGGYQIPVSSDPSEKVSSNIAIIGRFQNYQYKDSPGIDQYKYFSSYNSFLMSVGFIQRNFSVQRNIFQYDLPEDIAYGNSANIIAGGLSRNKEVNPYVGISASYGTFTKLGYFTVKGQFGRFFNEDSQNRESFRFDATYFTNLMDWKFAKARHFFSPTLALGNPQHNYSYKDRINLSSPDEFPVYNSDYIGTKKLVLRYQLQMFVNRTWKNFHFSPYLTAAVGWLGMPDDKLLKTKANTKIGIGVLINNPYLVFNRIQISFTYYPRVPFDNHSVFDFNSNRNNLLPINNFGTDVPHFVNFGN				NA	NA	NA	NA	NA
BMS003_02555	822			hypothetical protein	TTGAACACAAAAGAATACATATCATCCGGAATTATAGAATCTTATATTCTAGGCCACGCTTCTCCTGAGGAAGCGGGGATTTTGGAGTGTGTGATGAAGAATAATGCTGAAGTAAAAACAGCTTTTGAAGAAGCACAAAAGACTTTGGAACATCTGGCTACAGCCCAGGCTGTAACACCTCCAAGTGATCTGAAATCTAAGATCTGGAATAAAATTCAGCAGGAGCAGACTGCTGAAGAAGTAAGACCTGCTCTTTCTAAAGATCTCTCTGAAACAAAAGAGCACCAAGAAACTACAGAAAGAGAAACTATTAAGGAAAAGACCTCCTGGAAGCCTTATGCAATAGCAGCTTCCATATTATTCCTGATCAGTGTTGCCGGAAATTTATTCATGATGAATACACAATCATCTGATAAAAAAGAAATGGCTTTACTGGCTGCAGAAACCAAGCATCAGAACCAGCTCATGAAAAGAATGAATCAGAAGCTTGATATGTTTTCCAATCCTGATATGCAGATGGTAATGCTGAAAGGCGTAGAAAAGCATACAGATGCCAAAGCAATGGTTTTCTGGGATAAAAAAACGAAAGAAGTTTATCTGAATGCTGAAAAACTTCCAAAGGCTCCTGAAGGAATGCAGTATCAGCTTTGGGCAATTGAAGACGGAAAACCTGTGAATGCAGGAATGTACACCGAAGATAAAGACAGCAATATTGCACTGGCCAATATCTCAAAGGCTCAGGCTTTTGCTATTACACTTGAGAAAGAAGGCGGAAGTAATATTCCTACTATGGAAAATATGTTCGTAATGGGAGAAATATAA	MNTKEYISSGIIESYILGHASPEEAGILECVMKNNAEVKTAFEEAQKTLEHLATAQAVTPPSDLKSKIWNKIQQEQTAEEVRPALSKDLSETKEHQETTERETIKEKTSWKPYAIAASILFLISVAGNLFMMNTQSSDKKEMALLAAETKHQNQLMKRMNQKLDMFSNPDMQMVMLKGVEKHTDAKAMVFWDKKTKEVYLNAEKLPKAPEGMQYQLWAIEDGKPVNAGMYTEDKDSNIALANISKAQAFAITLEKEGGSNIPTMENMFVMGEI				NA	NA	NA	NA	NA
BMS003_02556	570	sigK	COG1595	ECF RNA polymerase sigma factor SigK	TTGGATAGAAAAATAAACGCTATTAAAACAACCTATTCTGAAGAGGAACTTATCGTTTTATTAAAAGAAAAAAACGAAAATGGTTTTCATTATCTGTATGACCACTATTCCGGTGCGCTGTACGGAATTGTTCTTAGAATCGTTCAGTCTAAAGAATATACTGAAGAAGTTATTCAGGATGTTTTTGTTAAAATCTGGAATTCTATCCATCAGTATGACGCTTCAAAAGGAAGATTTTATACCTGGATGATCAATATTGCCCGCAATACTGCTATTGATTATTTAAAATCAAAAGGATTTCAGAACGAGCTTAAAAACCAATCACTTCCGGATTTCGTATATAATACTGCAGAGCTTTCAACGAGTAATAATTCTTCTGACTATATCGGATTTAATAACGTGCTGGAAGGTCTGGAAACAGACAAGCAGGAGCTTATAGACCTTGCTTATTATCAGGGGTATACCCAGAATGAAATATCTGAAAAGCTGAAGATACCACTGGGAACGGTAAAAACGAAAATGCGGAATGCACTGATGAAATTAAAAGATTTGCTAAAAGAATATCAATAA	MDRKINAIKTTYSEEELIVLLKEKNENGFHYLYDHYSGALYGIVLRIVQSKEYTEEVIQDVFVKIWNSIHQYDASKGRFYTWMINIARNTAIDYLKSKGFQNELKNQSLPDFVYNTAELSTSNNSSDYIGFNNVLEGLETDKQELIDLAYYQGYTQNEISEKLKIPLGTVKTKMRNALMKLKDLLKEYQ	PGPT0014960_10568	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_02557	570			hypothetical protein	ATGAACACACATTCAAAAATCACAGTTTTAGCAATGGTAGCCTTATCATTTGCTTTCAGTGGGAAGGTAACTGCACAAATGATGAAAGAAAAAACAGTAATGGTAGGAGGTGCTCCTATGTATCCATCCAAAAATATCATTGAAAATGCGGTCAATTCTAAAGACCATAAAACCCTTGTAGCAGCAGTAAAAGCTGCCGGATTGGTAGAAACCTTACAGGGAGCAGGTCCTTTTACCGTATTGGCACCTACGGATGCTGCCTTTGCAAAACTTCCGAAAGGAACAGTGGAAAACCTTGTAAAACCTGAAAATAAAGCAACGCTTACAAGCATCCTGACTTATCATGTTCTGCCAGGAAGATACAGTGCTAAAGAGATCTGGGCTGCTGTAAAAGCAGGAAACGGAAAAAGTATGATGAAAACCGTTCAGGGAGAAGATCTTACTTTCTGGACTAAAGGAAAGAACCTTTATATAAAAGATGCGAAAGGGAACAGTGCAAAAGTGACCATTGCAGATGTAAATCAGTCTAACGGGGTTATTCATGTAATAGATACAGTTTTAATGCCATAA	MNTHSKITVLAMVALSFAFSGKVTAQMMKEKTVMVGGAPMYPSKNIIENAVNSKDHKTLVAAVKAAGLVETLQGAGPFTVLAPTDAAFAKLPKGTVENLVKPENKATLTSILTYHVLPGRYSAKEIWAAVKAGNGKSMMKTVQGEDLTFWTKGKNLYIKDAKGNSAKVTIADVNQSNGVIHVIDTVLMP				NA	NA	NA	NA	NA
BMS003_02558	711			hypothetical protein	ATGAAAAAGACAATTCAGGTTTCTAATCAGGGAGCCACCCTTGATACAAGCAGAAGAAACTTTCTAAAGTTAGGTGGAGTAGGATTAGCCATTGCAGGTCTTACTTTAATAGGCTGTGATGACAATGATGATTTTCAGATCATGGAAGAATCCAAGTATGATCTTGGAACAGGAGATGTAGGGGTATTGAATTATGCCTATGCATTGGAGCAGTTGGAAGCCGATTTTTATACGAAAGTGGTCAACAATTTTTACATGGGAATTTCCAGTATTGAAAAAGAAGTTTTTACAGACCTCTATCATCATGAAGTAATTCACCGTGATTTCTTTAAAGCAGCCATCAGCGGTGCTACAGACCATGTGCTTCCTAAGCTCGAATTCCAGTATGCGAATGTGAATTTTAACGATCGTAATTCTGTATTAGCTACCGCAAAAGCATTGGAAGATACCGGAGTAGCAGCATATAATGGAGCCGGAAAATATATATCAAATCCAGCTTATCTTGTGATTGCCGGAAAAATAGTTTCTGTAGAAGCCAGACATGCTTCTGCCATCAGAAACTTAATCAACCCCGGATCTGCTGATTTTTCAGGAGATGATGTAATAGATGCTAACGGACTTGACCTGGCCAAAGAACCTAAGGATATTGTAATGGCTGCCGGAGCATTTATCAAAACACCTTTCACCTGGAAAGAAAGAGGAATCAACTAA	MKKTIQVSNQGATLDTSRRNFLKLGGVGLAIAGLTLIGCDDNDDFQIMEESKYDLGTGDVGVLNYAYALEQLEADFYTKVVNNFYMGISSIEKEVFTDLYHHEVIHRDFFKAAISGATDHVLPKLEFQYANVNFNDRNSVLATAKALEDTGVAAYNGAGKYISNPAYLVIAGKIVSVEARHASAIRNLINPGSADFSGDDVIDANGLDLAKEPKDIVMAAGAFIKTPFTWKERGIN				NA	NA	NA	NA	NA
BMS003_02559	816			hypothetical protein	ATGAATATTCTTAGATTACTGGATAAGCTTTCCCATGATAAATTTTTTACCGCGGAAGCTTCAAGACTGGAAACTATTACAAATATGTCATTATTCGGGAAAAAAGCAGCTACAGCTGCCGTACCTCTTGGATTGGGAACTTTGATGGCGACTTCTGCCAAAGCAGAAACTACAGAAACAAAATTTACAGCTACCGCTTTAAAAAGTACTCTTACAGATGCCTTACAGTTGGCATTGGTATTAGAATATCTTGAAAATGAATATTACAGTATAGGATTATCCACCCCGGGACTGATTCCCAGTGGAGACAGAACCGTTTTTATGCAAATCTCAAAACACGAGTCAGCTCATGTCAGCTTTCTGAAAAGTACCCTTACTTCTTTAGGAACAACACCGGGAAGTAAACCTACTTTTGATTTTACAGCAGGAGGAAACTTCATGCCTTTCACAGACTACAATCAGTTTCTTATTCTCGCTCAGGCTTTTGAAGATACAGGAGTAAGAGCTTATAAAGGACAGGCAGGAAATGTAATGTCTAATAAAGTGGTGCTACAGGCAGCATTGCAGATTCACTCTGTGGAAGCAAGGCATGCTTCACAGGTAAGAAGGATGAGAGCGAATAAAGGATGGATTGAACTTGCTGACGGAGGAAATATGCCTTCAGCAACCAATCCTGTCTATGCCGGAGAAGACAACGTCAATCAGGCAGGTTATAATACAGGAACTCTGTTTGGGGCAGCAGCGGGTTCTGCAGCTTATGACGAAATTTTAAGTGGCAGCGATGCACAGGCTATTGCTTCACTGTTCATAGTTTAG	MNILRLLDKLSHDKFFTAEASRLETITNMSLFGKKAATAAVPLGLGTLMATSAKAETTETKFTATALKSTLTDALQLALVLEYLENEYYSIGLSTPGLIPSGDRTVFMQISKHESAHVSFLKSTLTSLGTTPGSKPTFDFTAGGNFMPFTDYNQFLILAQAFEDTGVRAYKGQAGNVMSNKVVLQAALQIHSVEARHASQVRRMRANKGWIELADGGNMPSATNPVYAGEDNVNQAGYNTGTLFGAAAGSAAYDEILSGSDAQAIASLFIV				NA	NA	NA	NA	NA
BMS003_02560	807	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGTCAAAAACAGTTTTAATTACAGGAGCATCAAAAGGTTTTGGAAAGGCATGGGCAGAAGCTTTTTTAGCAAAAGGATACAAGGTAGCAGCAACCGCCAGAAATGTAGAAACACTTCATGATTTAAAGGAAAAATATGGAGATGCTGTATTACCTTTAACTTTAGATGTAGATAAAAGAGCGGAATCTTTGGCTGTGGTAGAGAAAGTTCATCAGCATTTCGGCAGTATTGATATTCTGATCAATAATGCCGGCTACGCTTTAATGGGTGCTGTTGAAGAAGCAGACGAACAGGAAGCCAGAGCACAATTCGAAACGAATTTCTTTGGGACTCTATGGCTTACACAGGCTGTACTTCCTATTATGAGGAATCAGAAAAGCGGTCATATCATTCAGGTTTCTTCTATTCTGGGATTGGCAACCTTACCAATTATGGGACTTTATAATGCGTCTAAGTTTGCACTGGAAGGTTTGAGCGAAACATTGGCTACAGAAGTAAAAGGATTTGGTATTCATGTTACTTTGGTAGAACCTAATGGCTATGCTTCCAATATCTGGCATACAGGCATTAATACTCAAAGCAATCCGGTTTACGATGATCTCAAAAAGGCATTCTCAGAGGCAGAAACTTCTTTTGGAGAGGTAGAAGCTACAGCTCCTGCACTGATTAAACTGGCGGAAACAGAAAACCCTCCATTGCGTTTATTATTGGGAAAAATAGCTCTTCCGTTTGTAAAACAAAATTATGAACAGCGTCTGAAAGTCTGGGAAGAATGGAATGAAGTATCTGTAAAAGCTCATGGGTAA	MSKTVLITGASKGFGKAWAEAFLAKGYKVAATARNVETLHDLKEKYGDAVLPLTLDVDKRAESLAVVEKVHQHFGSIDILINNAGYALMGAVEEADEQEARAQFETNFFGTLWLTQAVLPIMRNQKSGHIIQVSSILGLATLPIMGLYNASKFALEGLSETLATEVKGFGIHVTLVEPNGYASNIWHTGINTQSNPVYDDLKKAFSEAETSFGEVEATAPALIKLAETENPPLRLLLGKIALPFVKQNYEQRLKVWEEWNEVSVKAHG				NA	NA	NA	NA	NA
BMS003_02561	588			hypothetical protein	ATGGCAAAAGGGGAAGAAACCAGACAGTTCATCATAGAAAAAGCAGCACCTATTTTTAATACAAAAGGTATTGCAGCAACTTCTATGAGTGATATTATGGAGGCAACCAAATTGTCTAAAGGCAGTATGTATGTTCATTTTGAAAATAAAGAGGTTCTGGCCTGTGCTGCAGTGGAACACAATATGAAAATGTTAACTGAAACACTTCAAAGAGCTTTAAGCAGATATAAAACGTCTAAAGAACAGTTATTTGCTTATATTGATTTTTTCAGCGATCCCAATCATCCTCCGGTTGCAGGAGGATGTCCCTTATTAAATTTCGGAACGGAAGCAGACGATACCCATCCTGTTGTAAAGGAAAAAGTTGACCGTACCATTAAACAGGGACAGAAATTGCTCTCCGGTATTATCGAAAGAGGAATTTCCAATAAAGAATTCAATCCAGAATGGAATCCGGAAAATTTTGCAACTATTTTATTTGCAATGCTTGAAGGTGGTCATCTTATGGCAAGAATGTCTGGTAATAATGACAGAATGGAAGTTATCGGCAATAGTCTAAAAAAAATGATCGAGGAAAATAGCATTTAA	MAKGEETRQFIIEKAAPIFNTKGIAATSMSDIMEATKLSKGSMYVHFENKEVLACAAVEHNMKMLTETLQRALSRYKTSKEQLFAYIDFFSDPNHPPVAGGCPLLNFGTEADDTHPVVKEKVDRTIKQGQKLLSGIIERGISNKEFNPEWNPENFATILFAMLEGGHLMARMSGNNDRMEVIGNSLKKMIEENSI				NA	NA	NA	NA	NA
BMS003_02562	306			hypothetical protein	ATGTACAAAAGTAAATCTCTGGATGCAGAAACTCTCCTTAAATGGAGTAAACTGCTGGCCTATGACTTTTTCAGAATCTACTCCCAACATCTTGTACTATACTCACCTCCCTCATCTTCAGTATATTGTCACAAAATAAAAGAGAAAAAAACACAGCTTCCGGAATTCAGAAAAAATATCTACACTGTAGAGATCATTAATTTTATTCTGGAACTATTAAAAACAAATGAAAAAACAAAAAAACAAGTAATAGAAGAATACAGAATCCCTAAAACTACTTTATACAAATGGATAAAAAAATACTAA	MYKSKSLDAETLLKWSKLLAYDFFRIYSQHLVLYSPPSSSVYCHKIKEKKTQLPEFRKNIYTVEIINFILELLKTNEKTKKQVIEEYRIPKTTLYKWIKKY				NA	NA	NA	NA	NA
BMS003_02563	693			hypothetical protein	ATGAAAAAATTATTATTACCCACTGCTCTACTGGCCTTTTTGAATATATATTCACAGGTTGGTATTCAAACAACCACTCCCCAAAAGACTTTACATGTAAATGGATCTTTACAGGTTGTCAATGAATTGAATGTAGGCGGAGACGCTACAACCGCAGGTTCAGCGGGAACATCCGGACAAGTTATTGTTTCCCAGGGATCTGGAGCAGCTCCTGCCTGGCAAGATTCAAATACATTAAGCGGAACCGTAAGTAGTGCTGTCTATGTTCAGGGGGTTAACGAAGCCACCGCTACACAGGGAACAACAATTGATGTACCGCAAGTTACAAAAACAATAACAGTACCTGCAGGAAAAACCCAAACCCTTTTATTTACTATTCTGGGATATGCAACAAATTATCCTGGAGGGGTTTCTTCACAAGGTGTATTTAGTTTGTTACAAGATAACGTTAAAATATCTTCAGCTTTTACATCTAAAATAGGTAACTCACCAGGGGGATTAAGTGATCTTCCTGTTCCGGTTACCTTTTTAAAAGCAGTGACACTCACAGCCGGCACTTATGTATTTAAAGTACAGTATACAGCATGGAACGGTACTGCAAAAGTTAATGTAAACCCTACTGGTTATATCGGATATAATCTGGATAAAGAATGTATGCTTACCAAGATGCAGATTTTGGTATATAACAATTAA	MKKLLLPTALLAFLNIYSQVGIQTTTPQKTLHVNGSLQVVNELNVGGDATTAGSAGTSGQVIVSQGSGAAPAWQDSNTLSGTVSSAVYVQGVNEATATQGTTIDVPQVTKTITVPAGKTQTLLFTILGYATNYPGGVSSQGVFSLLQDNVKISSAFTSKIGNSPGGLSDLPVPVTFLKAVTLTAGTYVFKVQYTAWNGTAKVNVNPTGYIGYNLDKECMLTKMQILVYNN				NA	NA	NA	NA	NA
BMS003_02564	1434			hypothetical protein	ATGAAATTTATTATTTTGTTTTTCCCGTTACTGTTGTTTGCACAGCCTAAAATAACAACAACAGCTATTGATGAAAGATTGGAGAAGTCTAATGCTCTTCTTATTGATGGGCAGACTGATGAAATGATCACATTGAATCTTTCAATACTTGATGATGCCAGACATATTAATTATGCAGAAGGCAAATTATCTGCATATTATAATTTAGCTCTTGCTTTTTCTATGCAGTACAAGTACAATAAGAGCAATTACTATTTAAAGATGATGGAGCCTGAATTCAGGAATTCGAAAGCTGAGGATCAGGAAATTTCTATGAATATATTATACAGTATCAATTACAGAGGAATTAAAATGTATGATGAGGCTCTGAGGAAGCTTAAAAAGAATATGATCATGGCAAATGATTTAAAAAATGATTCTATGAGACATGCCATAAAGGGAATGCTTCTTGTTCAGATTGGAAGAAACTATCTTGATAAAAAGAAATATGACTCTGCTAGTTATTATGGAAAAAGAATCATAGATGAGCTAAAAAAATCTAAAAGCATGGATGCAGGCAGGAATACAAGCCTGAAAGCAGGCTTGTTAATTTTAACTGAAGCAAAACTTAATGAAAATAAAACTGATTCTGCGGAGTTTTATATAAAGTCGGCCCGGGCTGTACCGGTTGACTGGGGTAATAATGACTTTGCCGTATTTAAGCTGCTGGGACAAATTTGCGATGCGAGAAAACAGTATGATAATGCTATTGTAAATTACAATACAGCAATAAAACTTGCAACAAAAGCAAAGAATTTTAGAAAACTGGCAGAGCTATATGAATTAATATCCAAATCATATGAAAAAGCCGGACAGATTGATGAAGGGAAAAAGTATGAATTTAAATTTACAACTTTAAATGATAGTTTAAAGAGAATTGATGAAGAAAATCTGAAAGATACAGTAGGGCTTCTTGTAGAAGAAAAACAGAAACCTCTGGAAGATCAGAATCATTTCTTATTTTATTTAATCATTATAGGAATTACCGTTGTTGTAGTTATCTTTTATTTTATTAACAGGAGAATAAAAAAGAAAAATAGAATACTGAATGTTAGAGAAGAAGAAACGAAGGAACTTAATCAAAAACTGAATGTCGCTTTTGAGGAGGTTATACAGCTGGCGAAAAATAATGATCCGGAATTTCTTACCCGCTTTCAGGAGGTCTACCCAGAATTTGTGCCAAAACTGTTGAAAATTGAACCTCAGCTGTTGAATACAGAATTAAAATTCTGTGCTCTTTTATTTCTTAATTTTTCTACCAAAGATATTGCAGCATATACTTTTGTACAGCCACAATCTGTACAAACCAGAAAAAACCGTTTACGCAAAAGACTAGGGATTCCGTCAGATGAGGATATTTATCTCTGGATGCATAATATTGATGATAAAAACTGA	MKFIILFFPLLLFAQPKITTTAIDERLEKSNALLIDGQTDEMITLNLSILDDARHINYAEGKLSAYYNLALAFSMQYKYNKSNYYLKMMEPEFRNSKAEDQEISMNILYSINYRGIKMYDEALRKLKKNMIMANDLKNDSMRHAIKGMLLVQIGRNYLDKKKYDSASYYGKRIIDELKKSKSMDAGRNTSLKAGLLILTEAKLNENKTDSAEFYIKSARAVPVDWGNNDFAVFKLLGQICDARKQYDNAIVNYNTAIKLATKAKNFRKLAELYELISKSYEKAGQIDEGKKYEFKFTTLNDSLKRIDEENLKDTVGLLVEEKQKPLEDQNHFLFYLIIIGITVVVVIFYFINRRIKKKNRILNVREEETKELNQKLNVAFEEVIQLAKNNDPEFLTRFQEVYPEFVPKLLKIEPQLLNTELKFCALLFLNFSTKDIAAYTFVQPQSVQTRKNRLRKRLGIPSDEDIYLWMHNIDDKN				NA	NA	NA	NA	NA
BMS003_02565	330			hypothetical protein	ATGCAAAAAACCGAATCCCCTGATTACAAAAAAATATATGAAGATCTCTTACGGCTGAGATATCCTGCCAAAAAAGAAGAATGCAGATCTATACTATCAAAAGTAACATTTTCAGTGAAAGATGTTATTACCATTAATGATATTATTTTTCCAAAAGCTGATCAGGAAACCCAGTTTGCTAATCAGAGACATCGTTCTTATGATAAGACATCTATCATAGAAATTTTAAATTATCAAACGAAGAACAATCTTAATAACTCCGAATTGGCAAGGCATTTTAAACTAAGCCGTAATACGGTAGCCAAATGGAGAAAACAATTTTTGATTTAA	MQKTESPDYKKIYEDLLRLRYPAKKEECRSILSKVTFSVKDVITINDIIFPKADQETQFANQRHRSYDKTSIIEILNYQTKNNLNNSELARHFKLSRNTVAKWRKQFLI				NA	NA	NA	NA	NA
BMS003_02566	1236			hypothetical protein	ATGTTAAAAAAACTACTCTTACTTTTATGTACTGGCTTTTCAGTCTTATCATTCTGCCAGTCTGATGAGGTTCTTTTTATAGGCAACAGTATCACTTATTTTAATGATATGCCTGAAATTTTTAAAAATATTGCCGCTTCAAAAGGGAAAAATGTTTCTGTAACAACACATACTCCGGGAGGAACCGGATTTGTCAATCATGCAGATGATCTTTCCCTGTATCAAAAGATAAGATCAAAAAATTATAAATACGTCATCATGCAGCCTGGCACTGCTGAATCTGCCGGTCATTCTTATCCTGTTTCAGTAACTGCTGAACGTGGTAGAAAAATCAGGGATTCTATCAGGAAATACAGCCCGTGTTCCAAAATATTTCTTTATGAAATTCCTTATGGAGTACCATCTGCCAATGAATATAGTACCTATTTCACTTTCCAGCAGAAAATTAAAGATTCCATTACCAAGATGTCTGATCTTATGCAGGTGGAAATGATCCCTGCAGGAGAGTCAGCAAGACATTATTATAATTCTTCCCAGGATCTCGCTCTTCACGGATCTTATAATGATATTCATCCGGGTCCGAAAGGGAGTTATCTTGTAGCCGCCTCTGTCTATTCAGCTATTTTTCAGGATCATGTCTTTCCTTCCGGTTTTTATAATGGATTAACGCAAACTACTGCAGAAAATTTCCAGAATATTGCAGATCTTGTATTTTTTAATAATCCTGCCCAGTGGAACAGTAATTCCTTTCATCTTCATGCTGATTTTACAACGGGGATCAATGGAACTACAGTAAACTTTACGAATCATGCGGCCAATTTTACATCACTATTATGGAATTTTGGAGATGGCATAACTGATTCCTCTTTGAATCCTGTTCATCAATATACCTCCGCAGGTAATTATACTGTTTCACTTACCGTTACTAAGAACAGCTGTTCAGAAACCTTTACAAAAATGATTAATCTGAGCTCTCTTGGAACGGCAGACCTGAATATACAACCCGAACTTACATTTTATCCCAATCCTGTTACAGACATTGCCAATATTAAAAGTAAAGAAAAAATAAAAACCATCATTCTGTATGATATCGCTCAGAGAAAACTTGCGGACTGGTATAATCTTCACGTTTATGATACCAAAATAGATTTTTCAATATATGGTAAAGGGATGTACATAATCAGTATTCTTTTTGAAAATGACCGTAAAGAAAATATTAAGTTTATGATTAAATAA	MLKKLLLLLCTGFSVLSFCQSDEVLFIGNSITYFNDMPEIFKNIAASKGKNVSVTTHTPGGTGFVNHADDLSLYQKIRSKNYKYVIMQPGTAESAGHSYPVSVTAERGRKIRDSIRKYSPCSKIFLYEIPYGVPSANEYSTYFTFQQKIKDSITKMSDLMQVEMIPAGESARHYYNSSQDLALHGSYNDIHPGPKGSYLVAASVYSAIFQDHVFPSGFYNGLTQTTAENFQNIADLVFFNNPAQWNSNSFHLHADFTTGINGTTVNFTNHAANFTSLLWNFGDGITDSSLNPVHQYTSAGNYTVSLTVTKNSCSETFTKMINLSSLGTADLNIQPELTFYPNPVTDIANIKSKEKIKTIILYDIAQRKLADWYNLHVYDTKIDFSIYGKGMYIISILFENDRKENIKFMIK				NA	NA	NA	NA	NA
BMS003_02567	1428			hypothetical protein	ATGATTTTTTTATTCTTTTTGATTTCTTCTTTTTTCTATTCACAACGTACAGAAGTGGAGTTTAAAAATGTAATTTTTGATATAGATTATTCTACAGCCGGATTTGCAGAAATAGAAAAGATTAACAACCTTATTGAGGTGTGCAAAGAAAAATCTTATAATAATTGTGTAGCATTAGGATACCTTAAGATAGCTAATATTTATGATAAGCTTAATGATACAAAGAAGTCTTTCTACTATATCCATAAAGTGCAAAATGAAAATCTCATCAACTCTGATACGGATTTTGAAGTCATATTTTATCTCCATTTGCAAAAGTCTTTTTTATACCAGAAGCTGGGTGAGAGAGTTGCTTCTTTTAAACAGCTGGAAGAGATTTATGATGATGCGATGAAAACAGATAATGCTTATTTTATTTATTTGATTAACCGCCAGTATGCCAGTAAATATGATGAATTAAATAAGAAAAATCTGGCATTAAAGTATAATAAAATAGCTTATCAATATTCAAAAACCTACAGGGAAAATAAAGGCAATATTTATCGGATAGATAAAAACAGACTGAGTAACAGCTATAAAACATCATCTTATCTCGGAGGGACATATATTGATCTTAATAAACTGGATTCTGCGAAAATCTATATTGATGAAGCTATCCAAAATGAAAAGAAAGTAGATGATATTGGTTTGAAATATATCACCTCTCTATATGCCGGAAGCTATTTTGCCGCCGTTAAAGATATTGAACAGGCTCAGCATTATTTATGGATCTCTAAAAATATTGCGAAAAATTACTATAAAAGCGAAAATTATCAAATTGCAGTAGGAGATATGCTGAAAGCTTTATATGAGAACACCGGGCAGAAAGACAGTATAGGTTATTATTCTAACTGGCTGGTGAACATAGAAGCTCAAAACCGTGAACAGAATCAAATGCTGAATGATACCGTAGATAAGCAGAGTGAAATAGAAACGGCTAACAGAAAAGAAGAAACAAAAAGGCTTTCTTTGATCCTTTCGGTAAGTATTGCCGCCTGCATTCTTTTCATATTTCTTTTCCTATACTATTACAGAAAGCATAAAAGCAGAAGTTTTGATAAAATTGATGTGCCTCATCAGTCGCAGGTACAGGAAAACATTTTTAAAGAAGTTATACAGCTTGCCAAAGAAAATAACCCTGAGTTTTTAACACGGTTCAATGAATATTGTCCGCCTTTTTCAGAAGAACTTCTTAAGGTTTCTTCTTTAAAAATATCGGAAATAAGATTCTGTGCCTATATTTACCTTAATTTTTCTACCAAAGAAATAGCAGAATATACCTTTACAGCCATAAGAACCGTACAAACCCGAAAATATCATTTAAGAAAAAAACTGAATATTCCCGCTGATATGGATATTTATGTATGGTTTTCCCAATTAATAAAATAA	MIFLFFLISSFFYSQRTEVEFKNVIFDIDYSTAGFAEIEKINNLIEVCKEKSYNNCVALGYLKIANIYDKLNDTKKSFYYIHKVQNENLINSDTDFEVIFYLHLQKSFLYQKLGERVASFKQLEEIYDDAMKTDNAYFIYLINRQYASKYDELNKKNLALKYNKIAYQYSKTYRENKGNIYRIDKNRLSNSYKTSSYLGGTYIDLNKLDSAKIYIDEAIQNEKKVDDIGLKYITSLYAGSYFAAVKDIEQAQHYLWISKNIAKNYYKSENYQIAVGDMLKALYENTGQKDSIGYYSNWLVNIEAQNREQNQMLNDTVDKQSEIETANRKEETKRLSLILSVSIAACILFIFLFLYYYRKHKSRSFDKIDVPHQSQVQENIFKEVIQLAKENNPEFLTRFNEYCPPFSEELLKVSSLKISEIRFCAYIYLNFSTKEIAEYTFTAIRTVQTRKYHLRKKLNIPADMDIYVWFSQLIK				NA	NA	NA	NA	NA
BMS003_02568	360			hypothetical protein	ATGAACTATAAACTTGAACTCAACACTCAGGAGCCTAATTCTAAAATTGTTTTTAATACCATCAAATTTGATTCGTTCAAGATTAATATAGTTGAAAGATATATCGGGTCAATGAAGGCTCGTCCTACATTGTGTGAAGTTTTGTTTAAAGTAAGAACTTTAGATGATGTAATTATCAACAGAAGGGATGGTAATATAAGAGTAAAGATTAAGGGTGATGATTTTGAAACGTATCAGAAATTATCCAGAGATCTTAATTCTTATGAATATAAAAACAAACTGATCAACAGAAAAGGGGTTGAAGAGAACTATGTTCATTTCATTCTGAGTTTAGTGATTGCCAACTACCAGCTTAACTAA	MNYKLELNTQEPNSKIVFNTIKFDSFKINIVERYIGSMKARPTLCEVLFKVRTLDDVIINRRDGNIRVKIKGDDFETYQKLSRDLNSYEYKNKLINRKGVEENYVHFILSLVIANYQLN				NA	NA	NA	NA	NA
BMS003_02569	1419	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGGAAAGATACAGTTATGGAATGGTGGGCCTTGGAGTAATGGGGCGGAATCTGCTTTATAATATCGCCGACAATGGTTTTTCAATCGCAGGATTCGACCTTGATCAGGAGAAAGTTAAAGAATTAGAGAATGGAGCAGCTCCCGAAATGAAAGTAAAAGGTACAGATACATTAGAAGATTTTGTGTCGGCTTTAGAAACCCCAAGGAAGATTATTCTGATGGTTCCTGCAGGAAAACCTGTAGATGCAGTGTTGGGAAATATTATCCCGCTTTTGAGTGAGGGGGATATCGTAATAGATGCAGGAAATTCATATTTTGAAGATACCAACAGACGTGTTGCTGATCTGGCATCTAAAAAGCTTCACTTTATGGGAATGGGAGTTTCCGGTGGAGAAAAAGGAGCAAGAAGAGGACCGAGTATTATGCCGGGAGGAGATCCTGAAGCTTTTAAACTTCTTAAACCAATGCTGGAAGGTATTGCTGCGAAAGTAGATAACGAAGCATGTACAGCTTACATGGGTAAGGGATCTGCAGGAAACTATGTGAAAATGGTGCACAACGGTATCGAATATGCCATTATGCAGCTTATCAGTGAAGCGTATGACCTTCTTAAAAGAGGAGCAGGCTTAGATAATGATCAGCTTTACAAGGTCTTCAGAGACTGGAATAATGGTGAAATGAACTCTTTCCTTATCGAGATCACAAGAGATATTTTTACCCAGAAAGATACATTCACAGAAAATTATCTTGTGGATCAGATTTTAGATAAAGCAGGTGCTAAAGGAACCGGAAAATGGACCTCCCAGCAGGCTATGGAAATAGGGGTTTCTATCCCAACTATTGATATAGCTGTAACTTCAAGAATTTTATCTGCTTATAAAGACGAGAGAATTCAGGCTTCAAAAATATATTCCGAAAACGAAATCATAAAACCGGAAAATACAGAGCTGTTTATTCAGGAAGTGGGGGATGCTCTCTTCCTTTCAACATTAATCAGCTATGCACAAGGCTTATCCTTATTGGTAAAAGCATCTGAAGAATATGGTTTTGAAATTCCATTGAAAGATGTTGTGAAAATCTGGAGAGGAGGATGTATCATTCGTTCTGTACTGCTGGAAAAATTCTACTCAGCCTATACCCAAAATCCTACTCTTTCTAATATTCTTCTTGATCATGATATTTCTGAACTGGTAAAATCAAAAATCAAAGCATTAAGAAAAACTGCCGGATATGCTGTTGCCAACGGAATTTCAAGTTTAGGAATTCAGACTGCTTTAGGATACTTTGATGCCTATACTACAGAATCTCTCCCTGTGAACTTAATCCAGGCTCAGCGTGATTATTTCGGTGCTCATACCTATCAGCGTATTGACAGGGAAGGTGTTTTCCATACTTCTTGGCAAAGTGCAAACAATTAA	MERYSYGMVGLGVMGRNLLYNIADNGFSIAGFDLDQEKVKELENGAAPEMKVKGTDTLEDFVSALETPRKIILMVPAGKPVDAVLGNIIPLLSEGDIVIDAGNSYFEDTNRRVADLASKKLHFMGMGVSGGEKGARRGPSIMPGGDPEAFKLLKPMLEGIAAKVDNEACTAYMGKGSAGNYVKMVHNGIEYAIMQLISEAYDLLKRGAGLDNDQLYKVFRDWNNGEMNSFLIEITRDIFTQKDTFTENYLVDQILDKAGAKGTGKWTSQQAMEIGVSIPTIDIAVTSRILSAYKDERIQASKIYSENEIIKPENTELFIQEVGDALFLSTLISYAQGLSLLVKASEEYGFEIPLKDVVKIWRGGCIIRSVLLEKFYSAYTQNPTLSNILLDHDISELVKSKIKALRKTAGYAVANGISSLGIQTALGYFDAYTTESLPVNLIQAQRDYFGAHTYQRIDREGVFHTSWQSANN	PGPT0017385_2349	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
BMS003_02570	1482	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGAATCTAAATAGAATCTTGCAGCCAACAACTATCGTTATTTTTGGTGCTACAGGAGATCTGGCAAAAAGAAAACTTTTTCCGGCATTTTACAACTTATATATCGATGGGAGAATGCCCAAGGGCTTCAATATTGTAGCACTGGGAAGAGCAGAAAATACCAACGAGAATTTCAGAAATTATATCAGAGAAAATCTTGAGAACTTCTCCAGAAAGAAAGTAACTTCTGAAGACTGGGCTGGCTTTCAGGCTCACATTACCTATTTTCAGCATCAGCTGGATGAAGAAAGCTCTTATCAGAATCTACAGCAAAAGCTGCAGGATTTTGATACTGTATATGGGATAAGAGCCAACAGGTTATTTTATCTGTCAATAGGGCCTAATTTTATTACCACCATTTCCAATCATATCAAAACTACGTCATTAGCTTCAGATCCGAAGAGAGACCGTATTATTATTGAAAAACCTTTTGGCCATAATAAACAGTCCGCAATTGAACTGAACAGCCTTCTGGCAAAAACATTTGAGGAAGAGCAGATCTACCGTATTGATCACTATCTGGGAAAAGAAACCGTACAGAATATACTGGCATTCAGATTCGGAAATTCTATTTTTGAACCTTTATGGGATCATAAATACATAGAATCTGTACAGATTACGGTAGCTGAGGAAGTGGGAGTAGAAACCAGAGGAGCTTTCTATGAACAGACAGGGGCGTTGAGGGATATGATTCAAAACCACCTGCTGCAGATTCTCTGTATGGTGGCTATGGAACCACCTGCTTCATTAGAGTCTGGTGAAATCAGAGACCGTAAAGTGGATGTTTTGAAATCCATCCGCAGGATTTCTTCGGATCAGGTAGATCATTATGCGGTAAGAGGTCAGTATGGAAAAGGTACTATAAATGGTGTAGAAGTAAAAGGATACCGCCAGGAAGACGGAATTGCTTCGGATTCCAATACAGAAACTTTTGCTGCAATAAAGTTTTACCTGGATAATGAGAGGTGGCAGGATGTTCCGTTCTATGTCCGTACAGGAAAGAAAATGAAAGAAAAACACTCCTATATTACCATCCAGTTTAAGCCGCTTCCTCACTCTACTTTCTCAGACAGTCCGCATCTTTTATCTGCCAATAGGTTAATCATCAATATTCAGCCGATGATGGATATCAGACTGCAGTTTATGACAAAAAGACCCGGTCTGACATTGGATCTGAAACCTGCAGAAATGATTTTTGACAATTTTGCCTGTCAGGATGATACTCCGGAAGCTTATGAAACACTGCTGCAGGATGCCCTTCTGGGTGATCTTACTCTGTTTATGCGTTCCGATCAGGTAGAAGAAGCCTGGGATGTTGTTACCACAATACAGGAAGCGTGGGAAAATAATAAAGATTTAGCTTTCCCGAATTATAAGGCTGGAAGCTGGGGACCGGAAGATGCTAATGCTTTGGTGGAAAGACAAGGACACAGCTGGGTATAA	MNLNRILQPTTIVIFGATGDLAKRKLFPAFYNLYIDGRMPKGFNIVALGRAENTNENFRNYIRENLENFSRKKVTSEDWAGFQAHITYFQHQLDEESSYQNLQQKLQDFDTVYGIRANRLFYLSIGPNFITTISNHIKTTSLASDPKRDRIIIEKPFGHNKQSAIELNSLLAKTFEEEQIYRIDHYLGKETVQNILAFRFGNSIFEPLWDHKYIESVQITVAEEVGVETRGAFYEQTGALRDMIQNHLLQILCMVAMEPPASLESGEIRDRKVDVLKSIRRISSDQVDHYAVRGQYGKGTINGVEVKGYRQEDGIASDSNTETFAAIKFYLDNERWQDVPFYVRTGKKMKEKHSYITIQFKPLPHSTFSDSPHLLSANRLIINIQPMMDIRLQFMTKRPGLTLDLKPAEMIFDNFACQDDTPEAYETLLQDALLGDLTLFMRSDQVEEAWDVVTTIQEAWENNKDLAFPNYKAGSWGPEDANALVERQGHSWV	PGPT0017380_3217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS003_02571	711	pgl		6-phosphogluconolactonase	ATGAATATTACAGTATTTGACGATCTGGAAAAACTGTACACAAAGGCAGCAGACGCGTTTGTTGACATTTCAAAAAAATCTATTCAGAACCATGACCGTTTTGTGGTTGCTTTGAGTGGAGGTTCTTCTCCGAAAGCTATTTTCAAACTGTTGGCAACAGAAAAATATGCAGAACAGATAGAATGGAATAAAGTCTATTTCTTTTGGGTAGACGAAAGATGGGTTCCTTTAAACGATGATAAAAGCAACTTCCGAATGACGGATGAAGCACTTCTAAGCCAGGTTCCTGTAGCTAAAAGTCATGTTTTCCCCATGTATGCCGATGGAATTCTTCCGGAAGATTATGCAAAAAATTATGAACAGGAGATCAGAAATGTTCTGGGTGACGAAGGCGTTTTTGATTTTATTCTTCTGGGAATGGGAGATGATGGGCATACTGCCTCATTATTTCCGGGTGAAGATGTTCTGAATGAAAAAGAAAAATGGGTATCAGCTTATTACCTGAAACCTCAGGAAATGTTCAGAATTACACTAACTGCACCATTGATTAACAAAGCTGAAAATATTCTTGTTGTAGCATTTGGAGAATCCAAGAAAAAAGCTCTGAATGAAGTGCTTAATGGAGAATATAATCCTGCATTATATCCAATGCAGCTTATTGAAAGAAAAGAAGGGTTTCAGTTTTTCACAGACGAAAAAGCAAAGAGCTGA	MNITVFDDLEKLYTKAADAFVDISKKSIQNHDRFVVALSGGSSPKAIFKLLATEKYAEQIEWNKVYFFWVDERWVPLNDDKSNFRMTDEALLSQVPVAKSHVFPMYADGILPEDYAKNYEQEIRNVLGDEGVFDFILLGMGDDGHTASLFPGEDVLNEKEKWVSAYYLKPQEMFRITLTAPLINKAENILVVAFGESKKKALNEVLNGEYNPALYPMQLIERKEGFQFFTDEKAKS				NA	NA	NA	NA	NA
BMS003_02572	639	betI_1		HTH-type transcriptional regulator BetI	ATGGAAAGAAAGTCAGCGGCAGGAAGTATCCGGAATAAAGAGCGCAGTAAAAAAAAGTTTTTAGATGCAGTTGGAAAAATACTGAGAACCAAAGGGTATACTGCATTAAAGGTGAGTAGTATTGCTGCCGCTGCCGGAGTGGATAAAAAAATGATCTATTCCTATTTCGGGGGGATAGACGGTCTGATAGATGAATATATAAAATCACAGGATTACTGGAGTAGACTAACCATTGAAGAAATAGAAAAGATAAAGCCTAAGCGGGATGATGGCGGAAAATCTTTTATGGAAGAAATGCTTTTATCACAATTTGATTATGTCTACACACACAAAGAAGCACAAAAATTGCTGCTCTGGCGTTTATCAGAACCGCGGAAATCATTAAAAAGATTAACGGATACTCAGGAAGAAAACGGAGAGTATATTTTTAAGACAATGATGGATTCCCACTTCAAAGAAAATGCAGAAGATGTACGATCAATCATGGCGATCCTGGTTTCAGGTCTTTACTATCTGAATATGTATGCTGCCATGAACGGGAGTATTTTCTGCGGTATAGATGTTGACAGCACAAGAGGAAGGGACAAAATTAAAAAAGCTATTTCTTTTTTGGTGAATCATACCTATGAAAGCCTGTAG	MERKSAAGSIRNKERSKKKFLDAVGKILRTKGYTALKVSSIAAAAGVDKKMIYSYFGGIDGLIDEYIKSQDYWSRLTIEEIEKIKPKRDDGGKSFMEEMLLSQFDYVYTHKEAQKLLLWRLSEPRKSLKRLTDTQEENGEYIFKTMMDSHFKENAEDVRSIMAILVSGLYYLNMYAAMNGSIFCGIDVDSTRGRDKIKKAISFLVNHTYESL				NA	NA	NA	NA	NA
BMS003_02573	660	betI_2		HTH-type transcriptional regulator BetI	TTGTATATTGAATGTTTAGTCATGGAAAGAAAGTCAGCATCAGGCAGTATTAGGAACAAGGAACGCAGCAAAAAAAAATTTTTAGATGCGGTGGGGAAAATTCTGAAAACGAAAGGATATGCAGGATTGAAGATTAATGATATCGCTGCAACTGCCGGAGTAGATAAGAAAATGATCTATACTTATTTTGGCGGAATGGATGGCCTGATGGACGAATACGTCCGTACACAAGACTTCTGGGTAAAAGCAACAAGCGAAGAGGTAGAAAAGATGAAACCTAACCTTGAGGATGGAGGAAAGCAGTTTATTGAGCATATGCTTCAGTCGCAGTTCGATTACGTGTATGCCAATAAGGAAGCTCAGAAACTCCTTTTATGGACAATATCTGAACCCAGAAAATCATTAAAAAAACTAATCGATACCCAGGAAGAAAACGGAGAATATATTTTTAAATTACTGATGGAGTCCCGCTTCAAAGATAAAATGGATATATACCGTTCTATAATGGCCATTATGGTTTCCGGACTTTACTATCTGAATATGTTTGCTTCTGTGAATGGCAGCATTTTCTGTGGTATAGATACCAATACCCCTGAAGGGCGTGAAAAGATCAAGAAAGCAATATCCTTTATTGTGGATCAGACCCACGAAAATCTTTAA	MYIECLVMERKSASGSIRNKERSKKKFLDAVGKILKTKGYAGLKINDIAATAGVDKKMIYTYFGGMDGLMDEYVRTQDFWVKATSEEVEKMKPNLEDGGKQFIEHMLQSQFDYVYANKEAQKLLLWTISEPRKSLKKLIDTQEENGEYIFKLLMESRFKDKMDIYRSIMAIMVSGLYYLNMFASVNGSIFCGIDTNTPEGREKIKKAISFIVDQTHENL				NA	NA	NA	NA	NA
BMS003_02574	1530			hypothetical protein	ATGTTAAAAAGAAAAAAAGAAAGTACGCAAGCGGGAGGCGAACAGCTATTCCGTAAAATGCCGGGCAAACAGGAAGCTAATCTGGCTGAGCTAATGGACGGCTATTCGAAACTTCTTATTGATGATCCGGTAAGACCGTTCAGGGAAGACAATCTTCAGGCCATTGAAAATAACGTAGATTATGGAATCCTTGCCGCATTAGACGGTACATGGGTAAGCTATAATGTGAATTATAACAAAGACATTACCAGCCCTTCATTAGCAAGCGGTGTGCATACTACCATCATGCCTTCCCCCGGTACAAATCCGGGAACAATTCCTGGAAAGTTTGCTTTTGACAGTGAAGAATATATTGAAAAACTGACCTTTTCTATTGTACCTGGCGGAGTTCGTAACCGTGGCGGTGCGAGTGAACTTTTCTGCGGAGCTGTTAAATATGAGCAAAGCATTAAGAGCGTTAATGCTGTACCAGGACAGGATTCTTTAAAATATACTTCTATTCATGAAGAGAACGGAATGTATCTTTGGCTGAGTGATGTTTACAATCATGCTGCAACGAAGGAGTCTATAGAAAGAGACCGCGGGATTCATGCATTTTCAACAGAAGATGCTGAAAAATATGGATATAAAGGCGAATACAGAGATGAGCCTTTGGTAAGAATTACACCGGACGGAGTAGAAAATCCCCAATATATTCTTCAGAGCCAGCTGCAGCCGGGGCAGCCATATTATGAGATTATTCCCGCACAGGAAATAAAGCAGGGAGCCGGGCTTGATGGTCCTTATTTTATTCCGGATTACTCTATCTCACGAAGCGGCGTTATTCCTCATGGAAGCACCATTACTTTGCTTGGAGATATTATTCCTCAAAATAAAGATAATACCACCTTCTATTTAATTGAAGGATCACCTAAGTTCCCTTATGGTAAAGAGGCATGGGATACCAATCATCTTTCCATTTCCCGTACTATGGGGAATGCAGGAGTAACACCGGAAAATATTATTGACCTTGACCAGCCTGCCCCGGCCTGGGTTCATGAAACGTTAAATGATGAGAATGATCCGGGTTCAAATAAAATTTATACCCAGAGAATTCTTGCTGACAATTTATATCCTTATTCTGTACGTCCGGATCTGAGGCTTAGAGATACCCTGAGAGGTCAGGAGATCAGTAATTATGTTCATATCAGAATGTCTTCCAAAATGAAAACGGGAGCACAGGGAGGAATACTGAATGTTCCTTTTGTCAACCGTTTTGTTCCCACTGTTGAGGTAGATATGGATATGTGGATTGAAACCGTTATTGAAGACGGAAAAGAGATTCTTCAGCTTCAGTATGAGCAAATTGTATTCTTTGAATTTGATTTCGGGAATGACGGAGGTACTACAAGCTGGCCTCACATTCAGGTCAATACTCTTCGTAAGATACAGGACATTCCTGAGGATCAGAGAAAGGTAATTGAAGAGCAGTTCTACCATACAAACGGAGGTTCAGACGGAGCGTCAGGATGTCCTTATCACAAAGGATAA	MLKRKKESTQAGGEQLFRKMPGKQEANLAELMDGYSKLLIDDPVRPFREDNLQAIENNVDYGILAALDGTWVSYNVNYNKDITSPSLASGVHTTIMPSPGTNPGTIPGKFAFDSEEYIEKLTFSIVPGGVRNRGGASELFCGAVKYEQSIKSVNAVPGQDSLKYTSIHEENGMYLWLSDVYNHAATKESIERDRGIHAFSTEDAEKYGYKGEYRDEPLVRITPDGVENPQYILQSQLQPGQPYYEIIPAQEIKQGAGLDGPYFIPDYSISRSGVIPHGSTITLLGDIIPQNKDNTTFYLIEGSPKFPYGKEAWDTNHLSISRTMGNAGVTPENIIDLDQPAPAWVHETLNDENDPGSNKIYTQRILADNLYPYSVRPDLRLRDTLRGQEISNYVHIRMSSKMKTGAQGGILNVPFVNRFVPTVEVDMDMWIETVIEDGKEILQLQYEQIVFFEFDFGNDGGTTSWPHIQVNTLRKIQDIPEDQRKVIEEQFYHTNGGSDGASGCPYHKG				NA	NA	NA	NA	NA
BMS003_02575	1455			hypothetical protein	ATGAGACAAAAACTTATCAATAAAAGCATCCAACCACAGGAAACATTATTAAAAGGAGCAGGAATGGCAGGCAGAAGTGCTGTTGTTGCAGACACCGTTTCATTACCTTCTTTATTATTTGATTCAACACTTAGCAAAGAAGACTGGATTGAAGGATTAAAGCATCACAGCAAAACCTTAACTAATCTTTTGCTTAATGATCAGATCAAAGATTTTAATGCCTATCTGCACTCTCAATTCGGTTCTGAAACTTCTGAATCAAAAAAAGGATTATCGGAAATTGATTATAAACCTGTTTTGCAGGATCTTCTGCAGACCGCAATTCTTATTGAGCATTCCACTATTCCACCCTATCTTACAGCTTTGTATTCCATAAAGGATGGAACAAATGCTTTGGCTTCACAAATTATCCGCAGTGTTGCCGTGGAAGAAATGCTACACCTCATTATGGTTTGTAATGTCCTGAATGCAATTGACATCCAGCCTTCCGTTAACCAACAGGAGAACTACCCTACTTACCCGATGAAATTACCAATGAATGTTGATTTCTATGTAGGGCTGGAAACATTCTCAAGCAACAGTATTGCCACATTTATTGCCATTGAAAGCCCAAGTAAACCTTTGGTAAAAGCTCCAAAATATGATCACAAAAAGGACTTATCTGCTTTATATACTCAAAGAACTGCGGTACAGGAAAACAACTTGTGGACTCTTGAAAATATGAAAGGCTTCATCATGGAAAATGTACAAACCATTGGTGAATATTATGACGTTTTATTCTTCTATATTGTTATTTTCCAAATCATTGCTTATTACAAAGAACATGGAAGCCTTCCGAAGACTTTTGAAGAAATAAATACCGGAGGAATTTTCACAGGAAATCCAGCTAAACAGATCCGTCCTGAACAATATTACGGAAGCGGCGGAAAGTTGCATTCTGTAGAGGCCTTGGCAGGAGTAATTGCCGTTTTCCAGGAGATTAAAGGACAGGGAGAAGGAGCTGATGATTCTATTTTTGATGTTGATCCGTCCCAGTTTGAAGAAGGAGTGGAACTTGCCCATTATTTCAGATTTAAAGAGGTTTTTCATGAGCATTTTTATCTGGGAGGAAATTATGAACCTTTCATGGATGAAGACGGAATGATGCCTGTAACAACACCTCCTACAGGAAAAGATCTTCCGGTGGACTGGAACGAGGCCTATCCTATGAAGCCAAATCCGAAAATGGAAGACTATGTAAAAAACAAAGAATTACATGCACAGGCTGTTGAGTTTAATAAAACCTACAGACGTTTATTAGATGCCATACAAAGTGCTGTGGAAGGCAACCAGAAAGAGCTGGAAAAATCTATTATGTATATGTATGCCCTGAAAGAGCAGGCTGTGAATCTGATGAAGCAGCCTCTGGATGCTCAGACTAACGCAGGTCCAACTTTCGAGTACATCAATTTATAA	MRQKLINKSIQPQETLLKGAGMAGRSAVVADTVSLPSLLFDSTLSKEDWIEGLKHHSKTLTNLLLNDQIKDFNAYLHSQFGSETSESKKGLSEIDYKPVLQDLLQTAILIEHSTIPPYLTALYSIKDGTNALASQIIRSVAVEEMLHLIMVCNVLNAIDIQPSVNQQENYPTYPMKLPMNVDFYVGLETFSSNSIATFIAIESPSKPLVKAPKYDHKKDLSALYTQRTAVQENNLWTLENMKGFIMENVQTIGEYYDVLFFYIVIFQIIAYYKEHGSLPKTFEEINTGGIFTGNPAKQIRPEQYYGSGGKLHSVEALAGVIAVFQEIKGQGEGADDSIFDVDPSQFEEGVELAHYFRFKEVFHEHFYLGGNYEPFMDEDGMMPVTTPPTGKDLPVDWNEAYPMKPNPKMEDYVKNKELHAQAVEFNKTYRRLLDAIQSAVEGNQKELEKSIMYMYALKEQAVNLMKQPLDAQTNAGPTFEYINL				NA	NA	NA	NA	NA
BMS003_02576	2076	fdhL		Fructose dehydrogenase large subunit	ATGAATCAGACCAACCATAAAAAAGATGTGATCATCGTAGGAACGGGGATCGCAGGATCATTGATCGCAAAACTACTGTCCGATCATGTATTTGATACCACAAAAGGAAAAATGATCCACCGTGCAGATGCCGGTAAATCCGACAATATCCGCGAAATATCCATCATCATGTATGAAGCCGGATTAGAAGCAGGTCTGGAGCTGGATTCCGTATCATCAATGACCAATTACAATGAGTATATCCGTACTTTTTACAGGGAAGAAGCCAAAGTCCCCAACTCTCCTTATCCGAACCTGAAGCAAGCCCCTTCACCCAATGTTCTGGATATGGAGCACATTGTACAGCCGTTTCCGGATAAAAAAGGATATCTGGTTCAGTTTGGCCCTATGCCCTTTGCCAGTGATGCTATCAGAGTGGGCGGCGGAACTACACTTCACTGGCTGGGAACTACACCAAGAATGCTTCCAAATGATTTCAAACTTACAGAAAAATATGGCATTACAATCCCTCAGCCAAATTCTGACAGACCTTCTCCAGTCAACTGGCCGATAAATTATGAAGAATTAAGGCCCTATTATGAAATGGCAGAATTTGAAATCGGGGTTTCCGGAGATGTTTTAAGACAGGAATATCCGATTTCTGAAAATATGGAAGAGTATTATGGTAACTATGTATTCCCAATGGAAGAAATTCCGCAGAGTTATATGGATCATAAGATCATTGAAGGTCTTAAAGGAACAAGTGTAAAGCTAAGTTCCGGAGATATTCCGCTGATGATGGTTCCATCTCCTCAGGGAAGAAATTCTATCCCAAACCCGAAATACGGAAAAACAAAGATCATCAAAGCCGAATCTAAAGATTCCGGGTATAAACTGGTTTTAGACAGCTCTGAAAAAGAGGAGTACAAAGCGCTTGGCTCTGTATGGAATCCTTATATGGGAGAACGCTGCGAAGGAAATGCGTCCTGTGTTCCTATCTGCCCTGTTCAGGCTAAATACAATGCTCTGAAAACATTGAAAAAGGCTTTGTATAAAATAAATGATAACGAGAATCTCAGCCGTAACCCGTTCATGCAGGTGCAGGCTCAGAGTGTGGTTTACAGATTAAGTGTTGATCAGAATGATAAAGATAAAATCTCAAAAGTTCACCTGAGAAGATATGCTTCAAGAGAGAAAACAGATTTCGTTGAAGAAGCTATTGATACTTCTGATGCGATTGTAATTCTTGCAGCAAATGCTTTCGAAAATCCAAAAATTCTGCTGAATTCTAAATATACTGTGAACAATGTTGTAAAAACAGTCGCCAACAGCAGCGATCAGGTTGGAAGAAACTTAATGGACCACATGGTAATGCTTACCTGGGGACTTTTCCCTGAGCCGGTTTATCCTTACAGAGGTCCTGGTTCTACTACGAACATCTCGTCTTTCCGAGACGGAAATTTCAGAGGCGAATTTTCTGCATGGATCTCTCCGCTCGATAACTGGGGATGGGGCTGGCCGGCATTTTCTCCGGGATCTGACGTGGCAGAATTTGTCGGAGAAGGACATTTCGGAGCTAAACTGAGAAAAGAACTTACGAACAGACTTTCAAAACAGGTATTATTCCATTTTGAAATTGAACAGCTGCCTAATCCCAACAACAGGGTTACCATTAATGATCAGTATCTGGATGTTCTTGGAATTCCAAGACCTGTTATCCATTATGAGCTGACTGAATACGAGATGAAAGCCATGGAACAGGCCAAACATGCGTCTGATCAGATGTTCAAAAGATTGAACATCCAGGATTTCACCAAATATACAGCTGCAGACAAAAATTCCGTGATCTACAATGGGGTAAGATACTCCTACAACGGAGCCGGACACATTGTAGGAACTCACAGAATGGGTTCTACAGCAGAAGATTCCGTTACCAACAGCTATTGTAAAGCCTGGGACCACCCGAATTTATACATTGTAGGAGCAGGAAACATGACTACTCTGGGAACTTCAAACCCTACTTTAACCTTATCAGCATTCACGATCCGTTCGGTAGAATCTATCCTTACCGATCTTGAAACTCAACTTAAAAAATAA	MNQTNHKKDVIIVGTGIAGSLIAKLLSDHVFDTTKGKMIHRADAGKSDNIREISIIMYEAGLEAGLELDSVSSMTNYNEYIRTFYREEAKVPNSPYPNLKQAPSPNVLDMEHIVQPFPDKKGYLVQFGPMPFASDAIRVGGGTTLHWLGTTPRMLPNDFKLTEKYGITIPQPNSDRPSPVNWPINYEELRPYYEMAEFEIGVSGDVLRQEYPISENMEEYYGNYVFPMEEIPQSYMDHKIIEGLKGTSVKLSSGDIPLMMVPSPQGRNSIPNPKYGKTKIIKAESKDSGYKLVLDSSEKEEYKALGSVWNPYMGERCEGNASCVPICPVQAKYNALKTLKKALYKINDNENLSRNPFMQVQAQSVVYRLSVDQNDKDKISKVHLRRYASREKTDFVEEAIDTSDAIVILAANAFENPKILLNSKYTVNNVVKTVANSSDQVGRNLMDHMVMLTWGLFPEPVYPYRGPGSTTNISSFRDGNFRGEFSAWISPLDNWGWGWPAFSPGSDVAEFVGEGHFGAKLRKELTNRLSKQVLFHFEIEQLPNPNNRVTINDQYLDVLGIPRPVIHYELTEYEMKAMEQAKHASDQMFKRLNIQDFTKYTAADKNSVIYNGVRYSYNGAGHIVGTHRMGSTAEDSVTNSYCKAWDHPNLYIVGAGNMTTLGTSNPTLTLSAFTIRSVESILTDLETQLKK				NA	NA	NA	NA	NA
BMS003_02577	447			hypothetical protein	ATGAATATTATTAACAAAATCCTCAACGTCGACGATTATTATTTCGACGTGTTTATGTCTATCTCGGAAGCGCTCACCGGATTTACAGTCAATGAACTGCAGTCTACCGGCCTGGCAGAAACTTATTACACTTATATCCTCAAAAGTTTAGATGCAGCCACTTTCGTAGAATTTCTGACAGTTTCTAAAAATATCCTCGAAAAATCTTCCGATGAAGAGGAATTGAAAAAAGCCATTCAGTCCGAAATTATAAAAAATCCGGGAATGGATGATATCTCAGGAAAAGTGATCACCATGTGGTATCTCGGAACCTGGGAAGGTGCTTACATCAATGATCTTTCCTACAAAGAAGGACTTGTCTGGAATCTGATGCACTCTCACCCGCCGGGAGCAAAACAGCCTGGCTACAAATCCTGGAATATTAAACCTGTAAACAGCAACTCATGA	MNIINKILNVDDYYFDVFMSISEALTGFTVNELQSTGLAETYYTYILKSLDAATFVEFLTVSKNILEKSSDEEELKKAIQSEIIKNPGMDDISGKVITMWYLGTWEGAYINDLSYKEGLVWNLMHSHPPGAKQPGYKSWNIKPVNSNS				NA	NA	NA	NA	NA
BMS003_02578	597	crp_2	COG0664	cAMP-activated global transcriptional regulator CRP	ATGATCATATGTGAAGACTTATTATTCTCCCATGACGGTACTCTGGAAAATTATGAAGCAGGAAGCTCTGTTTTTCAGGAAGGTACTACGGCGAAATACTACTTTCAGATCAGGAGCGGTACGGTGAAGCTGAATACTTTTCTGGAAGACGGAAAAGAATTTGTTCATGGGCTGCCTTTTGACGGTCACTGCATTGGTGAAAGCTATTTGTTTACAGATCACCCTTATGCTGTCAATGCTATTGCGGTTACCAACTGTGAAATTATTAAGGTTTCTAAAGCTAAGTTTCTGCAGATCCTTCTGGAAAAACCTGAATTAATGTTGGATATCAATAAATATATGGCTGACAGAATGCACTTCAGGTATATGATTTCCAGTTTTCTGGCCATTTCAGATCCTATCGTAAAGCTCATGAAGCTATTTGATCACATTAAAAAATATTTCGGATTTGAGGAGGCATATTCTTTTCTGATTCCTTATACAAGGCAGCAAATAGCAACCTTAACCGGTCTTCGGGTAGAGACGGTGATCCGGTATGTGAAGAAAATGGAGGAACAGAAACTGGTTAAGATTGAAAGTACTAAAATTTATTATTAG	MIICEDLLFSHDGTLENYEAGSSVFQEGTTAKYYFQIRSGTVKLNTFLEDGKEFVHGLPFDGHCIGESYLFTDHPYAVNAIAVTNCEIIKVSKAKFLQILLEKPELMLDINKYMADRMHFRYMISSFLAISDPIVKLMKLFDHIKKYFGFEEAYSFLIPYTRQQIATLTGLRVETVIRYVKKMEEQKLVKIESTKIYY	PGPT0015075_4493	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
BMS003_02579	843			hypothetical protein	ATGAGAACAATCCTTGTACCTGTTGATTTTACATCAACTACGGAAAATGCCGTAAGAATTGCCGCAGACTGGGCAAAAACCTATGAATATCAAAATATCATCTTACTAAAAACGGCAGGAGAATCTGAATTTGATTATCTGCATATGGCAGAAGGACATTCATTTGTCAATGAAGAAAATGTCAACAGTCTGTTACAGAAAACAGAGTCATTATTTGATCTGCTAACTGGTATCATAGCAGAAAAATCACCTGAAATAAAGGTTTCCAGGGTATTAACCGACTGGGCTCTTACCAGAAGCATCAATGAACTTTTAAAAAATCAGCCTTCTGTAGAGCTGATTATTCTGGGAAGTGACGATCAGACCTCTTCAACCGGTAGTTTTGTGTCTGATAATATCATCAGCATTGCAAGAACAAGCCCGGTGAAAACTTTAATTGTACCTAACAGCTATCACTACACTCCTATTAAAAATATCTTCATCCCTTGTGATATCAATGGGATTAAAAGACTGGAAAGACTGTTCCATCACAAGTCTGTTATCCACAAACAGGATGTCCGTCTGATGTTTTTGAATATTAATAACCGTGAAAAAGAGGATGAAAGCAAAAAAAGAGAACTGGAAGAATATATCCGCGAGCATTTAACGGAAATTCCCAGCAGCATTCATTATTCCTATGATGAAAATATCATCAAAGGCATCCTTAATTTTGCTGCCTCCAACGATGCTGATCTTATTATTGCTTTACCCGGTAAGCACAGCTTTCTGTATTATCTGGCAAGCAGAAGTATTTCTGAAGGAATTTACCAAAATACCCATCAGCCGGTTTTAATTTTAAAATAG	MRTILVPVDFTSTTENAVRIAADWAKTYEYQNIILLKTAGESEFDYLHMAEGHSFVNEENVNSLLQKTESLFDLLTGIIAEKSPEIKVSRVLTDWALTRSINELLKNQPSVELIILGSDDQTSSTGSFVSDNIISIARTSPVKTLIVPNSYHYTPIKNIFIPCDINGIKRLERLFHHKSVIHKQDVRLMFLNINNREKEDESKKRELEEYIREHLTEIPSSIHYSYDENIIKGILNFAASNDADLIIALPGKHSFLYYLASRSISEGIYQNTHQPVLILK				NA	NA	NA	NA	NA
BMS003_02580	477			hypothetical protein	ATGCCTGCAAAACAGAATAACATATCAGAACTGGCTCTGGAGCTTGGTCTGGCGATGAATGAAATGAAAAGCCGTTTCCGGCAGAAAATCCGGAACAGCATTCACGAATATGATCCGGAGCTGTCCTTTGAACTGATCGAAATTCTGGGATTGCTTTCAAGAAATAACGGAATCAACCAGCAGGAAATAGGAAATAAGGTAAGCAAAGACAAATCAAGCATTACCTATCTCATCAACAGCCTTGTAAAAAAGGATCTTGTAGAGCGGATAGCTGATGAAAATGACCGCAGAAATAAGCAGATCTTTTTAACTCCGAAAGGTAAACAGATTGTAGAGACCGTTTATCCATGGGCATTGGATCTTTATAAAAAAGCAGCTGGCGATATTGATATGGAAGAGATCAGCAAAGCACTGCTGCTGGTAAAAAAAATGACAGCAAACCTGGAAGAACCGGGATCAAAAAATGATACAATATGA	MPAKQNNISELALELGLAMNEMKSRFRQKIRNSIHEYDPELSFELIEILGLLSRNNGINQQEIGNKVSKDKSSITYLINSLVKKDLVERIADENDRRNKQIFLTPKGKQIVETVYPWALDLYKKAAGDIDMEEISKALLLVKKMTANLEEPGSKNDTI				NA	NA	NA	NA	NA
BMS003_02581	1224	emrD		Multidrug resistance protein D	ATGAATATGTTGAGAGAAGCATCTGAGAAAAGAATCAGATTAATTACCATTATGGCTTTCGTGTCTATCCCGCTGTCTGGGTTTGTCACGGACATTTATCTGCCGTCATTTCCTTCTATGGCCAAAGAGATGATGGTTTCGGAAAAAGATATTCAGATCACACTGACCTCATATCTGCTGAGCTATGGAATTTCCCAATTGTTTGTAGGGGGAATTCTGGACAGTATCGGACGCTACCGTCCTAAGTTGATAGCATTATTCTTACTGATCCTGACCAGTATTTTAATTACGATGACCAACAGTATTTTGCTGATCTGTCTGCTCCGTATTCTTCAGGGAGCTGCGGTTTCAGTACTTGTTGTGGCTACACGTGCTATTTTTGTAGATATTTATGATGCAGAAAGGGTGAAACATTATCTGAGCTACTTTACGATTGTATGGTCTTGCGGCCCTATTCTGGCACCTTTCCTTGGAGGTTATCTGGAAAAAATGTTTAACTGGCATGCTAATTTTTATTTTCTGGCCGCTTATGCAGGATTTCTTTTCTTGTTTGAATGGTTCTTCAGCGAAGAAAGTCTTCCTCAGAAAAAGAAACTGGATTTGTCTGAGAATATCAGCCTTTATAAAATGATGCTGAAGAACAGAATTTTCATGCTGGGGATCTTCATTTTAGGACTGAGCTACTCTATTGTGATGCTGTTTAATATTACCGGACCTTTTATTATTGAAAATACATTTCATTTTACTCCGGTAGTCATAGGATATTGTACATTGATCTTAGGTTTCTCCTGGATGATCGGAGGCTTTATCGGAAAACGCAGGCTGACCCTGGATTTTAAATCCAGAATATTACAGCCCATTTTACTGCAGCTTATTTTGATTGCCGCACTGATTACGACCAGCTATTTTGCAGAGAGTCTTTTCATTATGATTCCTTTTGCCTTTTTCATTCATATCTGTTCCGGAATTTTATTTACCTCTTTTTTCACGACAAGTATGCTTTACTTTCCTAAAAATGCAGGAACAGCCGGCGGACTAATGGGTGGATTGGTATATGTGATCACTTCTGTAACGAGTTTTATCATTTCTGTGAGTGGAACTGTAACGGATCAAAAGGGGCTGTCCTGGCGCTATCTGATCATAGCATGTTTCCTTTTGGGAATTATTCTTATTATGCATCAGGCTGTAAAAAAAGAAAAAAAGGCGGTATCAGAAACCGAATAA	MNMLREASEKRIRLITIMAFVSIPLSGFVTDIYLPSFPSMAKEMMVSEKDIQITLTSYLLSYGISQLFVGGILDSIGRYRPKLIALFLLILTSILITMTNSILLICLLRILQGAAVSVLVVATRAIFVDIYDAERVKHYLSYFTIVWSCGPILAPFLGGYLEKMFNWHANFYFLAAYAGFLFLFEWFFSEESLPQKKKLDLSENISLYKMMLKNRIFMLGIFILGLSYSIVMLFNITGPFIIENTFHFTPVVIGYCTLILGFSWMIGGFIGKRRLTLDFKSRILQPILLQLILIAALITTSYFAESLFIMIPFAFFIHICSGILFTSFFTTSMLYFPKNAGTAGGLMGGLVYVITSVTSFIISVSGTVTDQKGLSWRYLIIACFLLGIILIMHQAVKKEKKAVSETE	PGPT0029005_2953	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
BMS003_02582	915			hypothetical protein	ATGAGTGATCAGCTGGAAACGATAGAAGATTATTACAGACGCATCCGTAAAGATCAGATCAAAATATTTGATTCTGAAGATTTTGAAATGGGAAAATCCCACTTTAATATTTCCATGCGGAGGTATTGCAGCTTCAAGAGCCCTTACAACCGCCGCGATTATTATAAGATCAGTTTTATTATCGGAAAAGGGACTATTCATTATGGAGCACACCAGCTGTTTATAGACGGGCCTGCTTTATTCTTCCCTTCTCCGAGTATTCCATATTCATGGGAATGCGAAAGTGATGTACAGGAGGGTTATTTCTGTCTGTTCAACCAGGAGTTTTTTAATGGAAATTCAGAGTTCAATCTGTTTAAAAAAACTTCCATGTTCAAAGAATGGAGCAAACCGGTTATTTTTCTGAATGAAGAGCAGACCCAGCTCACAACCCTTTATTTTGAACAGATATACAGAATGAATAATTCCGCATATCCTTTCCGTTGCAGCAGCATCAAAAGCAATCTGGCTTCCGTTATGCATCTGGCACTGGAAAACCGTGTAGAAGACATCAACCCGAGTGAGCTTCCTGCCAATGTACGTCTTTATAAGCTTTTTGATGAATTGCTGAACAAGCAGTTTCCGCTGGACTCCCCCGCTTATCCGCTGACGTTAAAAACACCTTCCGATTTTGCCGAACACCTGAATGTACATGTGAATCATTTGAATTCCTCTGTAAAATCTGTAACCAACCTTACTACAACACAGATCATTAAAGAAAAAATGTTTGAAGAATCTAAAAACCTGCTGAAATATACCAATTGGGATATTGCCCAGATAGGCTACACTTTAGGATTTGATCAGCCTGCTCATTTTAACAACTTCTTTAAAAAGCATGCCCAGACTTCACCATTGAAATTTAAGAATTTATCTTAA	MSDQLETIEDYYRRIRKDQIKIFDSEDFEMGKSHFNISMRRYCSFKSPYNRRDYYKISFIIGKGTIHYGAHQLFIDGPALFFPSPSIPYSWECESDVQEGYFCLFNQEFFNGNSEFNLFKKTSMFKEWSKPVIFLNEEQTQLTTLYFEQIYRMNNSAYPFRCSSIKSNLASVMHLALENRVEDINPSELPANVRLYKLFDELLNKQFPLDSPAYPLTLKTPSDFAEHLNVHVNHLNSSVKSVTNLTTTQIIKEKMFEESKNLLKYTNWDIAQIGYTLGFDQPAHFNNFFKKHAQTSPLKFKNLS				NA	NA	NA	NA	NA
BMS003_02583	516			hypothetical protein	ATGGATATCATTTCAAAATTTACAGTTGGCTCTGAAGAGGGAATTTCTGATCTTATAACCATTATTGACTCTTCCGTTTATATGCTGCATAAAGACTTTGTAGGCGAAAAAGAGATAAAAAAATACATTCAAAACGAAATAGACCCAAGAAAAATGATCAATGATCTGAATGATCTTTCCAATCAGCTTATTATGACCTATGCTGATCAGAAGCCTGTTGGATACAGTATTATTAAAAGCGGTTCTCTGCATCCGGGAATTCCTGACGGAAAAAGAGCAACCGAGATCAGCTTTGTAATCCTTTCCGAGTTTGACTCTCCTGAAACAAGACAGTCACTCTGGAAAAAATGCAGATCGGCGATGAGTTTTACGGATGTAGTTTGGATCAATATGTTAGATCATGATCCGCTTTCAGAGTTTTTAAAAGAGGTTGGATTTGTTTCTGTATCGGGTTCAAAGACTGGAGCTTTTCAGTTGCCTTCTCATATTTTGGAATTGAAAATTAATAAAGGGTAG	MDIISKFTVGSEEGISDLITIIDSSVYMLHKDFVGEKEIKKYIQNEIDPRKMINDLNDLSNQLIMTYADQKPVGYSIIKSGSLHPGIPDGKRATEISFVILSEFDSPETRQSLWKKCRSAMSFTDVVWINMLDHDPLSEFLKEVGFVSVSGSKTGAFQLPSHILELKINKG				NA	NA	NA	NA	NA
BMS003_02584	177			hypothetical protein	ATGAAAGAACTAATTGAAAAAATCAACGCAGAATTTGAAGCGTTCACAACTGAGGCAAACCAACAAGCGGAAAAAGGTAACAAAGCAGCTGGAACAAGAGCTCGTAAAGCAGCTTTAGAACTAAGCAAGCTGTTCAAAGAATTCAGAAAAGTTTCTGTAGAAGAAGCTAAGAAATAA	MKELIEKINAEFEAFTTEANQQAEKGNKAAGTRARKAALELSKLFKEFRKVSVEEAKK				NA	NA	NA	NA	NA
BMS003_02585	1572			hypothetical protein	ATGAGGATAAATAGATTTTTTGCAGTACCTGCAGTAGTGCTGGCTGCTCAGTTTTCATGGGCTCAGGTAAAGGTTGACCCAAAAGAAAGGCTTAACCCTATCGTAAAAAGTTTTGTAGATGAAGTAAATAATAATTCCCAGCTGGAAAATCTGGCGTCTGAGCTGTTGGACGGGATTGGACCTCGTTTGGTAGGAACTCCTGAAATGCTTGCTGCCAATGAATGGAGTGCCAATAAGCTTCGTTCCTGGGGAGTAGATGCCAATCTCCAGCAGTTTGGAACATGGAAAGGCTGGCAGAGAGGTACTACTCATGTAGATATGACGTATCCGCGTGTAAAATCTCTTTCCGCAACACAGCTGGCATGGAGTCCGGCTACTAAAAAAGCCATTGAAGCAGAAGTGATTATTCTTCCGAAAGTGGCTTCCAAAGCAGAGTTTGACCAGTGGCTGTCTTCTGTAAAAGGAAAAATTGTGCTGATGGCACAGTACCAGAAAATAGGACGTTCTGATGAGCAGATCAAAGAATTTGCAACACCTCAACTGTATGAAAAACTTAAAGCAGAAAAGGAACAGGCTGCCAAAGACTTTTCAGCTTATATAAAAAATATAGGGTATGATAATAACAGCCTTCCCGAAGCTTTAGAGAAAGCAGGAGCAGCAGGGATTGCCATTTCAAACTGGACAGGAATTATGGGTGCCAACAGGATTTTTGGTGCTAAAACAACCAAAATCCCCATGATTGATATTGATTTGGAAGATTATGGAATGCTTTACAGACTGGCGGAAAAAGGTAGTCAGCCTAAAATCAGGATCGATGCCCAGTCTAAAATACTTCCTGAAGCGAAAAGCTTCAATACAATCGGAATGATCAAAGGAAAAGAAAAACCTGATGAATATGTGATTCTTTCTGCTCACCTGGATTCATGGGATGGAGCTCAGGGAGCAACAGATAATGGAACCGGAACTATCACTATGCTGGAAACCATGAGGATTCTGAAGAAATATTACCCTAATAACAAGAGAACGATCATAATCGGACTTTGGGGAAGTGAAGAGCAGGGATTAAACGGTTCAAGAGGTTTTGTAGCAGATAACCCTCAGATCATTAAAGGTGTACAGGCCGCTTTTAATCAGGATAACGGAACCGGACGTGTTGTCAATATCAGCGGTCAGGGACTTGTAAAAGCATATGATTATGTAGGAAGATGGCTGGACGGAGTTCCAAAATCAGTAAGAAGCCATATTAAAACAGATTTCCCCGGGATGCCTGGCGGAGGAGGTTCTGACCATGCATCATTTGTGGCAGCAGGAGTACCCGGAATTTCTTTAGGCTCTCTGAACTGGGGGTATTTCGGATATACGTGGCATACAACGAAAGATACATATGACAAAATCGTTTTTGATGAGGTGAAAAATAATGTGATTTTAACCGCAGCATTAGCTTATATGGCGTCTGAAGATCCCGAATTCAGCAACAGAGAAAAGAGAGTAATGCCTCAGAATGAAAAGGGAGAGATAGCAAAATGGCCGGAGGTAAAAGAGCCAAGAAGAAGTTCTAAGGATTATAAATAA	MRINRFFAVPAVVLAAQFSWAQVKVDPKERLNPIVKSFVDEVNNNSQLENLASELLDGIGPRLVGTPEMLAANEWSANKLRSWGVDANLQQFGTWKGWQRGTTHVDMTYPRVKSLSATQLAWSPATKKAIEAEVIILPKVASKAEFDQWLSSVKGKIVLMAQYQKIGRSDEQIKEFATPQLYEKLKAEKEQAAKDFSAYIKNIGYDNNSLPEALEKAGAAGIAISNWTGIMGANRIFGAKTTKIPMIDIDLEDYGMLYRLAEKGSQPKIRIDAQSKILPEAKSFNTIGMIKGKEKPDEYVILSAHLDSWDGAQGATDNGTGTITMLETMRILKKYYPNNKRTIIIGLWGSEEQGLNGSRGFVADNPQIIKGVQAAFNQDNGTGRVVNISGQGLVKAYDYVGRWLDGVPKSVRSHIKTDFPGMPGGGGSDHASFVAAGVPGISLGSLNWGYFGYTWHTTKDTYDKIVFDEVKNNVILTAALAYMASEDPEFSNREKRVMPQNEKGEIAKWPEVKEPRRSSKDYK				NA	NA	NA	NA	NA
BMS003_02586	567			hypothetical protein	ATGAAGATATCCGAACTTAAAGAAAAAAAAATCATCCATAGACCTACCCGATATTTTGATGAATCGGGCAACAGAATTTATAATGAGTTCGAATATGAGCTCCCCTATAATCCTGTTCATAAGAATAATGAAACTGAACGCCTTTTTGCCAAAGTAATGGATATGATCCCTTTTATCATGATCATTGTATTTATCTTTCATCAGTCCTTCGTTTTTAGCATTTTGCTTTCTATTCCCTGTTTGATTATATCAGGGACATTTTACGAAACATATTTCGGGACAACTTTAGGCAAGAAAGTTTTTAAACTTACGGTTCTCGATGACAATGGGAGACAGCCTGTCTTTTTCAAATCACTGCAAAGAAATTTTTTGTGCCTGGCCAACTTCCGGCCAGTTTTCACAGAGCATACATCAAAAACTGTTGCAATGGGAACGCGAACGGTCACTCAGATGAACTTCAGCATGCATCTGAATAATAAGATCTGTACAACCTATGTTATAAAAGAAAAGAAAGCAAAAGAAATACAAAAACTGCTTTCACAGGAATACAAAAAGGCCGCTCTCTAG	MKISELKEKKIIHRPTRYFDESGNRIYNEFEYELPYNPVHKNNETERLFAKVMDMIPFIMIIVFIFHQSFVFSILLSIPCLIISGTFYETYFGTTLGKKVFKLTVLDDNGRQPVFFKSLQRNFLCLANFRPVFTEHTSKTVAMGTRTVTQMNFSMHLNNKICTTYVIKEKKAKEIQKLLSQEYKKAAL				NA	NA	NA	NA	NA
BMS003_02587	639	gph		Phosphoglycolate phosphatase	TTGAGCATAAAACATTTAATTTTCGATCTTGACGGAACACTATGGGATTCCAGAGCTACGATCATCAAAATATGGAATGAAGTATTGGGCAGACATCAGTTGATCCAAAGAGAACTGAAACCCGAAGATATGAATCAATACATGGGATTATTGGCTCATGATATTGTAAAAGATATTATTCCAGGTATTTCAGATCTACAGGCACAGGAACTTCTTTCTGAAATTGTTGCTGAAGAAAATAAAACATTACACCTACAGGGTGGAATTTTATACGATGGTGTTGAAAATACCCTGAAAAGTCTGGCCAGCACCCACTCTCTTTTTATTGTAAGCAACTGTCAGGATGGTTATATTGAATCATTCTTAGAGTATTATGAATTCAATGATCTGTTTGTTGATTTTGAATCTCATGGAAGAACCCAAAAACCAAAATCTGAAAATATAAAGATCCTTATGGAAAGAAATCAAATATCTGCAGAAGATTCACTTTATATTGGTGATACTCAAACGGACTATGATTCCGCAAAGGCAAATGAACTGCCGTTTATTTTCTGTAAATATGGATTCGGAAAACTCGCCGATTCACTATACGAGCCATCAATTCTTGAGTTTTCAGCCTTATCCGGTGTTATAAAGTAA	MSIKHLIFDLDGTLWDSRATIIKIWNEVLGRHQLIQRELKPEDMNQYMGLLAHDIVKDIIPGISDLQAQELLSEIVAEENKTLHLQGGILYDGVENTLKSLASTHSLFIVSNCQDGYIESFLEYYEFNDLFVDFESHGRTQKPKSENIKILMERNQISAEDSLYIGDTQTDYDSAKANELPFIFCKYGFGKLADSLYEPSILEFSALSGVIK	PGPT0001730_6058	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS003_02588	2124	yhgF	COG2183	Protein YhgF	ATGACGACCGTAGAATTTATACAGAAACAGCTCAATATTTCTGAAAAGAGCATCAACAATACTTTACAATTATTAGCAGAAGACTGCACCATTCCTTTTATTTCCCGTTACCGAAAAGATAAAACCGGAAATCTTGATGAAATACAGATTGAACAGATCTCCAAGATCAGCAGGCAGTTTGAAGAAATTGTTAAAAGAAAAGAATCTATTTTAAAATCTATAGAAGAGCAGAACTCTTTGACATCTGAACTTCAGCAAAGAATAGAAGAAAGCTTTGACATGCAAGAGTTGGAAGATCTGTATCTGCCTTTCAAAAAACGTAAGAAAACCAAAGCTGACACGGCTAAGGAAAAAGGACTTGAACCTTTAGCCAGGATTATCATGAGCCAGAAAAATAATGACATTCAGCTTCTAACTTCAAAGTATCTGAACAATGAAGTGACCTCCGAAGAAGAAGCACTTCAAGGAGCCAGAGATATTATAGCGGAATGGATTAACGAAAATATGTACGTTCGTAAGAACCTCAGAAGACTTTTTCAGCGCAAGGCAATGGTTACCTCAAAGGTTGTAAAAGCCAAAAAAGATGAAGAAGAGGCCCAGAAATTCTCCCAATATTTTGAATGGGAAGAAAGCCTTAGCAGGACACCTTCTCACAGGCTTTTGGCCATGTTAAGAGCAGAATCTGAAGGCTTTGTAAAAACAAATGTGGGAATAGACAAGGAGGAAGCTATTGATTTCATTGAAAAAGCGATCATCAAATCCAATAATGAAAGTTCAGACCAAATTGTACTGGCGGTAAAAGACAGCTACAAAAGACTTCTGGAACCAGCCATTTCAAATGAAGCGCTACAGGAAGCCAAAGAAAAAGCAGATAAAAAAGCCATTGAAATTTTCTCTGAAAACTTAAGCCAGCTCCTTCTTGCTCCACCTTTAGGAGAAAAAAGGATTCTGGCAATAGATCCCGGATACCGAAGCGGATGTAAAGTAGTTTGCCTGGATGAAAAAGGAGACCTGTTACACAATGAAACCCTCTACCCTCACGCTCCTCAGAATGAGAGCGGAATGGCTATGAAAAAAATCCGGTCTATGGTGAATGCTTATAATATTGAAGCTATTTCTATCGGAAACGGAACTGCAAGCCGTGAAACTGAATTTTTCATTAAAAAGATTGCTTTTGATAAACCTCTGCAGGTTTTTGTGGTTTCGGAAGCCGGAGCCTCTGTTTATTCGGCAAGTAAAATTGCAAGAGAAGAATTTCCAACGTATGATGTAACAGTTCGTGGGGCTGTTTCTATCGGGCGAAGACTTTCTGATCCGCTTGCAGAATTGGTAAAGATTGATGCTAAATCTATTGGCGTGGGACAATATCAGCATGACGTAGATCAAACCCAACTTAAAAACGAGCTTGACTCTACGGTGATGAAATGTGTAAACTCCGTAGGAATTAATCTTAATACAGCCAGTAAATCTCTTTTAAGCTATGTTTCCGGAATCGGGGAGAAAATGGCTGAGAATATTATCACTTACCGTGCCGAAAACGGAGCTTTTGAAGACAGAAAACAACTGAAAAAAGTTCCCAGACTTGGAGAAAAAGCATTCCAGCAAGCAGCCGCTTTTGTAAGAATTACGAACGCTAAAAATCCTCTGGATAATTCTGCGGTACATCCGGAAGCTTACGGAATTGTTGAAAAAATGGCAAAAGATCTGGGAATTAAAACAGATGAGCTGATTGCCAATAAAGACAAAATAACATTGATAAATCCGGAAAAATATATCACTGAGGAAATAGGAATTCTGGGAATTAAAGATATTTTAAAAGAACTTGAGAAACCAGGTCTTGATCCAAGAAAAGCAGCCAAAGTATTTGAGTTCGATCCCCATGTTAAAAGTATAAGAGATTTAAAACCAGGTATGATTCTTCCGGGAATTGTCAATAATATTACAGCTTTCGGATGTTTTGTGGATCTTGGAATCAAGGAAAGCGGACTGGTTCATATCTCCCAGCTGAAAGATGGATTTGTATCAGACGTTAACGAGGTGGTAAAGCTTCATCAGCATGTTCGTGTAAAGGTGACAGAAGTAGATGAAGCAAGAAAAAGAGTCCAACTGAGCATGATTTTGTAA	MTTVEFIQKQLNISEKSINNTLQLLAEDCTIPFISRYRKDKTGNLDEIQIEQISKISRQFEEIVKRKESILKSIEEQNSLTSELQQRIEESFDMQELEDLYLPFKKRKKTKADTAKEKGLEPLARIIMSQKNNDIQLLTSKYLNNEVTSEEEALQGARDIIAEWINENMYVRKNLRRLFQRKAMVTSKVVKAKKDEEEAQKFSQYFEWEESLSRTPSHRLLAMLRAESEGFVKTNVGIDKEEAIDFIEKAIIKSNNESSDQIVLAVKDSYKRLLEPAISNEALQEAKEKADKKAIEIFSENLSQLLLAPPLGEKRILAIDPGYRSGCKVVCLDEKGDLLHNETLYPHAPQNESGMAMKKIRSMVNAYNIEAISIGNGTASRETEFFIKKIAFDKPLQVFVVSEAGASVYSASKIAREEFPTYDVTVRGAVSIGRRLSDPLAELVKIDAKSIGVGQYQHDVDQTQLKNELDSTVMKCVNSVGINLNTASKSLLSYVSGIGEKMAENIITYRAENGAFEDRKQLKKVPRLGEKAFQQAAAFVRITNAKNPLDNSAVHPEAYGIVEKMAKDLGIKTDELIANKDKITLINPEKYITEEIGILGIKDILKELEKPGLDPRKAAKVFEFDPHVKSIRDLKPGMILPGIVNNITAFGCFVDLGIKESGLVHISQLKDGFVSDVNEVVKLHQHVRVKVTEVDEARKRVQLSMIL				NA	NA	NA	NA	NA
BMS003_02589	4182	cas9		CRISPR-associated endonuclease Cas9	ATGAATATACTTGGGCTGGACTTGGGAGTTTCATCAATTGGCTGGGCTTACATTCAGGAAGATTCTGAAAATTCCGGAAACAATAAAATTATTAAACTGGGAGTTCGTGTAAACCCATTAACTGTTGATGAACAGTTGAATTTTGAAAAAGGAAAACCGATCACAACCAATGCCGGAAGAACTTTAGCCAGAAGTGCGAGAAGAAATCTTCAAAGATTTAAACTTAGAAGGTCAAATCTTATAGATGTTCTAAAGAAAAATAATATTCTTAAAGAAACAGACCTGCTTGCAGAAGTTGGCAAAAATTCAACATTTCAAACTCAGAACCTAAGAGCAAAGGCTGCAAATGAAAAAATAGAACTTTCAGAATTTGCCAGAGTTCTCCTTCTTATTAATAAAAAGAGAGGATATAAAAGCAGCCGTAAAGCTAAAAATGAAGATGAAGGACAGATTGTAGACGGAATGGCGGTGGCCAAAAAAATGTATGAAGAGAATCTAACACCCGGAGAATATTCATATCAACTTTTACAACAGGGCAAAAAGCAACTGCCTGATTTTTACCGTTCAGATTTACAGGCAGAATTTGATAAAATCTGGGGTTTTCAGAAACAATTTAATCCTGAAATTTTCACCAATGAACTTTATGAAAGGCTTCGAGGTAAGAATAAAAATGCAACCTGGAAAGAATTAGAGATTCCGTTTTCTCTTGTAGGTATTAAGCAAACCGGAACAATGCAGGAAAAGAAAGTTGAAAGATACTTTTGGAGAAGTGAAGCGGTAAAGAAACAATTGGATTTTGAAAGTCTGGCTGTTGTATTTCAGGAGATCAATAGCAATCTGAATAATTCGAGTGGCTATTTAGGAGCGATTAGCGATCGAAGTAAGGAACTGTATTTTCATAATCAAACTGTTGGGGAATATTTATTTGAGCAGCTGAAAGAGAATCCGCATACAAAGCTTAAAAATCAGGTTTTTTACAGACAGGATTATTTGGATGAATTTGAGAGGATATGGGAAATTCAATCAAAGTATTATGAAGAACTAACGAAGGAGCTAAAGGAAGAAATTCGGGATATTGTTATTTTCTATCAAAGGAAACTCAAATCGCAGAAAGGATTAATCAGTATTTGTGAGTTTGAAAACAGGGAAATTGAAATTACTGAAAATGGAAAAACAAAAAAGAAGACAGTTGGGTTAAAAGTAGCGCCGAAATCCTCTCCCTTGTTTCAGGAGTTTAAAATCTGGCAGGTTCTGAATAATTTACAGTTTCAAAATGTAGATACAAAGGAAATATTTCCAATAGATTTTGATTTCAAGCAATCCATTTTTAATGAAGTCAATATAAAAGGAAAACTTTCTGCAAAAGATGTTTTAGATCTTGTTGGATATTCTGGAAAAGAATGGAAAACTAATTTCAAAGAGATTGAAGGAAATTATACCAATGAAAATTTATATACTGCTTTTCTGAAGATTATTGCCTGTGAAGAGATAGAATTCCCAAAAGAATTTAAATTGACCATTGATGACGAAATTAAAGTTTCTAAAATAAATACTTCTGGAGAAGTTATAAAATTATTTGTTAAAGAAAAACTTTCAGGATTAGGAATTGATACTTCTATTCTGGATTTTAATCCGGAGTTGGAAGGAAATGATTTTGAAAAACAGGCTTCTTATCAACTGTGGCATTTACTATATTCTTATGAGGGTGATGATTCTCCTTCAGGGAACGAAAAATTGTATGAGTTATTGCAAAAGAAATTCGGGTTCAAAAAAGAACATTCCAAAATAATAGCTGAAATTGGTTTTCCGCAGGATTATGGAAGTCTGAGTTCTAAGGCAATGCGAAAGATCTATCCCTATATTAAAGAACATAAATATAGCATAGCCTGTAATTATGCGGGATACAATCACTCTAAAAATTCATTGACCAAAGAGCAACTGGAGAACCGAATTTTAAAAGAGAAATTGGATATTCTTCCAAAAAATTCTTTACGAAATCCCGTAGTCGAAAAGATTTTAAATCAAATGATCAATCTCGTCAATGAAATAATCAAAGAATATAGTAGACCGGATGAAATAAGAATTGAATTGGCACGAGAACTCAAATTGAGTGCGGAAGAACGCGCTACAATGACTTCTGAGATTAACAAAGCTACCATACAACACCAGAAATATGCAGAAGTTTTGCAAAAGGAGTTTGGTATAAAAAGTCCTTCAAGAAATGATATTATCCGATATAAATTATACTTAGAATTAGCAAATAATGGTTTTAAAGATTTATACACCGATGTGAAAATTGAAAGAGAAAATTTATTTACAGATAAATACGATATCGATCACATTATTCCACAATCCCGATTTTTTGATGACAGTTTCTCCAATAAAGTTTTAGTTCCGAGAAGTGCTAATCTTAAAAAAGGAAATTTTACGGCTTTCGATTATCTTGAGATTGAAGGAAAAGAAAAATTAGAGAAATTCCTCAATATCATAAAAGATCTGTACGACAAAGGAGCAATTACCAAAGCAAAGTATGAAAAACTACAGAAGAAAGGATCTGAAATAGGAGAGGGTTTTATTGAAAGGGATTTGCGAAACACACAATATATTGCGAAAAAATCTAAGGAAATACTTTTTGGAATTACTAATTCTGTGGTTTCTACTTCGGGAAGAATAACGGATAAACTTCGGGAAGACTGGAATCTCGTCAACACAATGAAGGAACTTAATCTGGAAAAATATAGACAATTAGGTCTTACAGAAACGGTTATCAATTCAAAAGGGGAGGAAAAGCAGAGAATTATAGACTGGACAAAAAGAAATGACCATCGTCATCACGCAATGGATGCTTTAACGGTTGCTTTTACCACCCATAATCATATTCAGTATTTAAATTATTTAAATGCAAGAAAAAATGAGGAACATAAAGAGCATAAAATAATTACAAATATTGAAAATAATATTACAGAAGTTATTGAAAAGAAAAACGGTTCGAAGGAAAGAAGATTCAAAGAGCCTGTTAAAAATCTTAGAGCAGAAGCCAGAAAACATTTGGATGAAATATTAATTTCTCATAAAGCTAAAAATAAAGTCGTTACCAAAAACATCAATAAAATTAAGAAAAAAGGAAGTATAATTGCAAAAACAGAACTTACTCCTAGAGGACAGCTTCATAAAGAAACAATTTACGGAAGTTCAAAATTTCTTAAAATAAAAGAAGAAAAGGTATCAGGGAAATTTGATGCAGAAACAATTCAGAAAGTTCAAAATGAAAAATATAGAAATGCTCTGCTAAAAAGATTGCAAGAGTTTGGCGGAGATTCTAAAAAAGCATTCACCGGAAAAAATGTTATTTCTAAAAATTCAATATTTCTTAATGCTGAAAAAACGGAGCAATTACCTGAAACCGTAACTTTAGCTTGGTATGAAACATGTTATACGATCAGAAAAGCTGTTAATCCCGATAATTTTAAAGATTTTAAAAATATTGAAAAGGTTATTGATAAAGGAGTTCGTGATATTCTAACCGAAAGATTAAAAGAATTTAACGGAAATTCTAAAGAAGCATTTTCTGATTTGGAAAAAAATCCGATCTGGCTTAATCAATCTAAAGGAATTGCTATAAAGACAGTTACGATTATAGGAATTAATAATGCTGAAGCTCTACATTATAAAAAAGATCATCTAGGAAAAGATATTTTAGATGAAAACGGTAAAAAAATAGTTGTTGATTTCGTGAGTACAGGAAATAATCATCACGTTGCTATTTATGGAGATAGCAATGGCAACATACAGGAGAAAGTTATGAGTTTTTACGAAGTAGTTGAAAGAGTGAATCAGAACTTACCTGTTATTGATAAAGAATATAATTCTGAGTTAGGTTGGAAATTTTTATTTACAATGAAGCAGAATGAAATGTTTTTATTTCCATCAGAAGATTTTGATCCTAAAGAAAATGATTTATTTGATGAAAAGAATCTGAGTTTGATTTCTAAAAATCTTTTTAGAGTACAGAAATTCACAATTAAAGATTATTTCTTTAGACATCATTTAGAAACAACAGTTGAAGATAATTCTGCATTGAAAGGCATCACTTGGAGAAGAGAAGGATTGAACGGATTAAAAGGTATTTTAAAAGTTCGTTTGAATCACTTGGGAAAAATAGTTCAGGTAGGAGAATATTAA	MNILGLDLGVSSIGWAYIQEDSENSGNNKIIKLGVRVNPLTVDEQLNFEKGKPITTNAGRTLARSARRNLQRFKLRRSNLIDVLKKNNILKETDLLAEVGKNSTFQTQNLRAKAANEKIELSEFARVLLLINKKRGYKSSRKAKNEDEGQIVDGMAVAKKMYEENLTPGEYSYQLLQQGKKQLPDFYRSDLQAEFDKIWGFQKQFNPEIFTNELYERLRGKNKNATWKELEIPFSLVGIKQTGTMQEKKVERYFWRSEAVKKQLDFESLAVVFQEINSNLNNSSGYLGAISDRSKELYFHNQTVGEYLFEQLKENPHTKLKNQVFYRQDYLDEFERIWEIQSKYYEELTKELKEEIRDIVIFYQRKLKSQKGLISICEFENREIEITENGKTKKKTVGLKVAPKSSPLFQEFKIWQVLNNLQFQNVDTKEIFPIDFDFKQSIFNEVNIKGKLSAKDVLDLVGYSGKEWKTNFKEIEGNYTNENLYTAFLKIIACEEIEFPKEFKLTIDDEIKVSKINTSGEVIKLFVKEKLSGLGIDTSILDFNPELEGNDFEKQASYQLWHLLYSYEGDDSPSGNEKLYELLQKKFGFKKEHSKIIAEIGFPQDYGSLSSKAMRKIYPYIKEHKYSIACNYAGYNHSKNSLTKEQLENRILKEKLDILPKNSLRNPVVEKILNQMINLVNEIIKEYSRPDEIRIELARELKLSAEERATMTSEINKATIQHQKYAEVLQKEFGIKSPSRNDIIRYKLYLELANNGFKDLYTDVKIERENLFTDKYDIDHIIPQSRFFDDSFSNKVLVPRSANLKKGNFTAFDYLEIEGKEKLEKFLNIIKDLYDKGAITKAKYEKLQKKGSEIGEGFIERDLRNTQYIAKKSKEILFGITNSVVSTSGRITDKLREDWNLVNTMKELNLEKYRQLGLTETVINSKGEEKQRIIDWTKRNDHRHHAMDALTVAFTTHNHIQYLNYLNARKNEEHKEHKIITNIENNITEVIEKKNGSKERRFKEPVKNLRAEARKHLDEILISHKAKNKVVTKNINKIKKKGSIIAKTELTPRGQLHKETIYGSSKFLKIKEEKVSGKFDAETIQKVQNEKYRNALLKRLQEFGGDSKKAFTGKNVISKNSIFLNAEKTEQLPETVTLAWYETCYTIRKAVNPDNFKDFKNIEKVIDKGVRDILTERLKEFNGNSKEAFSDLEKNPIWLNQSKGIAIKTVTIIGINNAEALHYKKDHLGKDILDENGKKIVVDFVSTGNNHHVAIYGDSNGNIQEKVMSFYEVVERVNQNLPVIDKEYNSELGWKFLFTMKQNEMFLFPSEDFDPKENDLFDEKNLSLISKNLFRVQKFTIKDYFFRHHLETTVEDNSALKGITWRREGLNGLKGILKVRLNHLGKIVQVGEY	PGPT0027080_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_CRISPR-CAS_SYSTEM,PGPT0027080-csn1|cas9-K09952	NA	NA
BMS003_02590	894	cas1		CRISPR-associated endonuclease Cas1	ATGATCACCCGCTCCATCTACATCGGCAATCCCGCTTATCTCAAACTCAGAGACGAGCAAATGAAAATCCTTTGTCCGGAAACCAAAGCAGAAAAGGGAAGTATACCTGTGGAAGATCTGGGTTTGCTGATGCTGGATCATTATCAGATTACCATTTCGCACAATCTCATTCAGAAAATGATGGGAAATAATGTAGTTGTGGTCAGCTGTGATACGCATCATTTGCCTCATGGAATTATGTTGCCGCTTTATGGACATACCGAACATTCGGATAGAGTAAAAGATCAGCTTGAAGCGAGCGAACCGCTGAAAAAGCAGCTCTGGAAACAGACCGTGGAATGTAAAATTGAAAACCAGAAAAATGTCCTGGTGAAATTGGAAAATTACTACGAACCGATGATTGAATATCAGAGAAACGTAAAGTCCGGCGACATCACGAATATGGAAGGTATTGCGGCGCAGCATTACTGGAAATACCTGATCAGTCTGGACTTTTTGAGACAGCGTTTCGGAGATTCACCCAATCAGTTTTTTAATTTCGGGTATGCGGTTCTGAGAAGTATTGTAGCAAGAGCCATTGTGGAAACCGGATTACTTCCTGTTTTGGGTATTTTTCATAAAAATAAATACAATCCGTATTGCCTTGCGGACGATCTGATGGAACCTTATCGTCCTTTTGTTGATTTATTGGTGATGCAGTGGCTGAAAGTTCACCCTGATACAGAAGAACTGACCAAAGATTTTAAAGCCCATATTCTGCAGATTGCGACCAAAGATGTGTGTATTGACGATAAAACGAGACCTCTGCTGGTTGCTGTTAAAACAACAGCTTCATCACTTTATAAATGTTATACAGGTGAAAAACGACTGATTTCTTATCCTGAACTGCTATGA	MITRSIYIGNPAYLKLRDEQMKILCPETKAEKGSIPVEDLGLLMLDHYQITISHNLIQKMMGNNVVVVSCDTHHLPHGIMLPLYGHTEHSDRVKDQLEASEPLKKQLWKQTVECKIENQKNVLVKLENYYEPMIEYQRNVKSGDITNMEGIAAQHYWKYLISLDFLRQRFGDSPNQFFNFGYAVLRSIVARAIVETGLLPVLGIFHKNKYNPYCLADDLMEPYRPFVDLLVMQWLKVHPDTEELTKDFKAHILQIATKDVCIDDKTRPLLVAVKTTASSLYKCYTGEKRLISYPELL	PGPT0026885_2482	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026885-cas1-K15342	NA	NA
BMS003_02591	339	cas2		CRISPR-associated endoribonuclease Cas2	ATGAATGCTGAAAGGTTTAATGCATACCGAATTATGTGGGTTTTAGTATTATATGATCTCCCGACTGAGACTAAGGCGAATATGAAAGATGCGAACCGCTTTCGGAAGGCACTCATTGATGATGGTTTTACTCTGTTTCAGTTCTCTATGTATGTACGCCATTGCCCGAGCCGTGAAAATGCTGAGGTCCATATTAAAAGAGTAAAATTTATGCTTCCAAAAGCTGGGAAAGTTGCCATTATGTGTATCACAGACAAGCAGTTTGGAGATATCGAAATTTTCTTTGCCAGAAATAAAGAAGAGCCGCCTCCAACCTTCCAGCAACTTGAGTTATTCTAA	MNAERFNAYRIMWVLVLYDLPTETKANMKDANRFRKALIDDGFTLFQFSMYVRHCPSRENAEVHIKRVKFMLPKAGKVAIMCITDKQFGDIEIFFARNKEEPPPTFQQLELF	PGPT0026890_313	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-UNIVERSAL_CAS_PROTEINS,PGPT0026890-cas2-K09951	NA	NA
BMS003_02592	678	yceI_3		Protein YceI	ATGAAAAAAATTAGCGTAATTGCATTAGTAGGAGTAGGATTGCTTTTGGCATCATGTGATAAAGGAAAATCTGCAGAGACAGCAGCTACCGCTCAGGAGCAGACTGTGGCTGAGAGCAAAGGTGAAACCCTGGCAGTAGATACAGTAGGTTCAGTAGTAAACTGGAAAGCTTTCCACAAAGGAGGTATGGCACCTCGTTGGGGAACTCTTACAGTAAAATCTGGAGATATCAGTGTTGACGAAGGTCAGGTTACAGCGGGGAACTTTGTGATTGACATGAACTCTATTAAAGTAGATCCGGCTTCAGTAACAGAAAAAGATAAAAAATTTACAGATCTTGAAGCTCACCTTAAAAATCCTGATTTCTTTGATGTAGCAAAAAATCCTACTTCAGATTTCAAGATTACAAGCGTTGCAGATTTGAAAGAAGCACCAAAAGATGCTGTAGAAGGAGCTAATAAAACAGTAAGCGGAAACCTTACATTATCGGGAAAAACAATGAATGTTACTTTCCCTGCGAAAGTAGATGTTGCAGAGAATTCAGCGGCTGTTCAGGCTAAATTTACTGTAAACAGAGCAGACTGGGGACTTAAATTCGGTACTTCTGAAGCAGATCCTGCAGAATGGATGATCAGCAAAGATATTGAGATCGCGATCGACGTAAAAGCTAAAAAATAA	MKKISVIALVGVGLLLASCDKGKSAETAATAQEQTVAESKGETLAVDTVGSVVNWKAFHKGGMAPRWGTLTVKSGDISVDEGQVTAGNFVIDMNSIKVDPASVTEKDKKFTDLEAHLKNPDFFDVAKNPTSDFKITSVADLKEAPKDAVEGANKTVSGNLTLSGKTMNVTFPAKVDVAENSAAVQAKFTVNRADWGLKFGTSEADPAEWMISKDIEIAIDVKAKK				NA	NA	NA	NA	NA
BMS003_02593	357			hypothetical protein	ATGACAGTACACGATCTGGTGGGCATCTACTCTATTGAGGGAAGTAACCAGGAAGAATCTTCTCTACCCACTTATCATGGTATATTAACATTATCTGTAGATGAAAACAACCGCATTATGGCCCAGTGGATGATTGGTGATCATCAGCAGAACGGAACGGGATTTTATAAAGATCAGATTTTAGTGATCAATTTCAGCTATGAAGGTGAAGATCAAACAATTTACAAGGGGGTTGCTGTATACCGTTGCCTGAATAAGGATATACTGGACGGATTCTGGTCTGAGAAATACGGAAATCCGTTATATCTTGGAAGTGAATATTGCGTGAGAATGCAGCATTCAAAGATTTTGAACTGA	MTVHDLVGIYSIEGSNQEESSLPTYHGILTLSVDENNRIMAQWMIGDHQQNGTGFYKDQILVINFSYEGEDQTIYKGVAVYRCLNKDILDGFWSEKYGNPLYLGSEYCVRMQHSKILN				NA	NA	NA	NA	NA
BMS003_02594	252			hypothetical protein	ATGATTCCTTTTCTGCTGATCGCAAACCTGATTACTTTTGGTGTCTTTGGTTTTGATAAATGGCAAGCTAAAAAACATCAATGGAGAATTTCCGAAAATACCCTTCTGGGACTTTCCCTTATCGGTTTGGTGGGAGCAGCTTCAGGTATGATTATTTTCAATCATAAAGTTTCCAAAAAATCCTTTCTTGTCAAATTTTTTATGGTAGTTTTAATTGACCTTGTTTTATTTTATAGATTACTAAGGCATTGA	MIPFLLIANLITFGVFGFDKWQAKKHQWRISENTLLGLSLIGLVGAASGMIIFNHKVSKKSFLVKFFMVVLIDLVLFYRLLRH				NA	NA	NA	NA	NA
BMS003_02595	1806	typA	COG1217	GTP-binding protein TypA/BipA	ATGCAAAACATTAGAAATATTGCGATTATCGCACACGTTGACCACGGAAAAACGACTTTGGTTGACAAGATCATTCACGCTACCAACATTTTCAGAGAAAATCAGGAGAGTGGGGAATTAATTATGGATAACAACGATCTTGAAAGAGAAAGAGGGATCACTATCTTATCCAAGAATATTTCTGTTACTTATAAAGACACAAAAATTAACGTAATTGATACTCCTGGTCACGCCGATTTTGGTGGAGAAGTAGAAAGAGTATTGAAAATGGCTGATGGGGTTATTTTGTTGGTGGATGCCTTCGAGGGACCAATGCCACAAACAAGATTCGTACTTCAGAAAGCTTTGGAATTAGGATTAAGACCATTAGTGGTTATTAATAAAGTAGATAAACCAAACTGCCGTCCGGACGAAGTTCACGATCAGGTATTTGATTTATTCTTCAACCTTGAGGCTACTGAAGAACAATTGGATTTCCCTACATTCTACGGATCTTCTAAACAAGGTTGGTTCAATACTTCATTAGAACAGACTGAAGATATTTTACCATTATTAGATGGAATTTTAAAATATGTTCCTGCTCCTACCGTAACTGAAGGAAACCTTCAGATGCAGATCACTTCCCTGGATTACTCTTCTTTCTTAGGAAGAATTGCGATCGGAAAAGTGACAAGAGGAGATATCAAAGAATCCCAATGGATCGGTCTTGCCCAGGCAGACGGTAAAATTGTAAAAGGAAAAGTAAAAGAACTTTACGTTTTCGAAGGATTAGGAAAGAAAAAAGTAACTGAAGTTCAGGCAGGTGATATCTGTGCGGTAGTAGGTTTCGATGCTTTCCAGATCGGAGATTCTTTTGTAGATCTTGAAAACCCTGAGCCGTTGGAAAGAACAGCAATTGATGAGCCTACGCTGAACATGACGTTCTCTATCAATAACTCACCTTTCTTCGGTAAAGATGGTAAATATGTTACTTCTAACCACCTTAAAGAAAGATTAACTAAAGAATTAGAGAAAAACTTAGCACTAAGAGTTCAGCAGACTGATGATGCAAACACTTTCTTAGTATTCGGTAGAGGTATTCTTCACTTATCTGTTTTGATCGAAACCATGAGAAGAGAAGGTTACGAAATGACAATCGGTCAGCCACAGGTTATCCTGAGAGAAATTGACGGTGTAAGCTGTGAGCCTTATGAATCTTTAGTAGTAGATGTTCCTGAAGAATACGCTTCAAGAGTTATCGACCTGGCTACACAAAGAAAAGGTGACCTTCATATTATGGAAACTAAAGGTGAAATGCAGCACATGGAGTTCGAAATTCCTTCAAGAGGATTGATCGGATTGCGTTCTCAGATGTTGACAGCTACTGCCGGTGAAGCTATCATGGCGCACCGTTTCACAGAATATAAGCCCTTCAAAGGAGCTATTCCTGGAAGAAACAACGGAGTACTGATCAGCAAAACTACTGGTCCTGCTACAGAATACTCAATTAATAAACTACAGGATAGAGGTAAGTTCTTCGTTGATCCGGGTGAGGAAATCTACACTGGAATGATCGTTGGAGAACAAAACAAACCAGGTGACCTGGTAATCAATATTGTGGAAGCAAAACAGTTGAACAACATGCGTGCAGCTGGTAAAGATAAAGATACAGGTGTTGCACCGAAAATCTTATTCTCTCTTGAAGAATGTATGGAATACATCCAGGGAGATGAAGCAATTGAGGTAACTCCAAACTTCATCAGAATGAGAAAGAAAATCCTTTCTGAAGAAGAAAGAAAAAGAGTGGAAAGATCTGCAAAAGCATAA	MQNIRNIAIIAHVDHGKTTLVDKIIHATNIFRENQESGELIMDNNDLERERGITILSKNISVTYKDTKINVIDTPGHADFGGEVERVLKMADGVILLVDAFEGPMPQTRFVLQKALELGLRPLVVINKVDKPNCRPDEVHDQVFDLFFNLEATEEQLDFPTFYGSSKQGWFNTSLEQTEDILPLLDGILKYVPAPTVTEGNLQMQITSLDYSSFLGRIAIGKVTRGDIKESQWIGLAQADGKIVKGKVKELYVFEGLGKKKVTEVQAGDICAVVGFDAFQIGDSFVDLENPEPLERTAIDEPTLNMTFSINNSPFFGKDGKYVTSNHLKERLTKELEKNLALRVQQTDDANTFLVFGRGILHLSVLIETMRREGYEMTIGQPQVILREIDGVSCEPYESLVVDVPEEYASRVIDLATQRKGDLHIMETKGEMQHMEFEIPSRGLIGLRSQMLTATAGEAIMAHRFTEYKPFKGAIPGRNNGVLISKTTGPATEYSINKLQDRGKFFVDPGEEIYTGMIVGEQNKPGDLVINIVEAKQLNNMRAAGKDKDTGVAPKILFSLEECMEYIQGDEAIEVTPNFIRMRKKILSEEERKRVERSAKA	PGPT0023720_4201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS003_02596	1617			hypothetical protein	ATGAGAATGAATAAATTAAAACTTATCGTTTTATTGGGTGTTTTTGCTTCTTACACTACCTCGTGTTCCGTACAGAACAATATTGTAAAAACACCTTCCGCAAAGAATCCTGCAAAACCCATCAACAATACAAATCCTCCCAAAGTAAATCCTGTAGCTGTAAAACCTGCAACGGGAGCAACCACTTCAGCGGAAGAAAATTTCAGAACCAATCTTCCAGAAATCAAAAGAGAGTTCCGGGGAGCATGGATTGCCAGTGTAGCCAATATCAACTGGCCGTCAAGAAATGACCTTACAGTAGATCAGCAGAAAGCAGAAGCCATCAGTATGCTTGATATGCTGAAAAATAATAACTTCAATGCTGCTATATTCCAGATCAGACCTTCCGCCGATGCACTCTATACAAGTAACATAGAACCATGGTCTTATTTTCTGACCGGAGAAACAGGAACAGCCCCTTATCCCAATTATGACCCGCTTCAGTTCTGGATTGAAGAAGCCCATAAAAGAGGTCTGGAACTTCACGTTTGGCTAAACCCTTACCGTGCACATCATACTAATGGCGGAGCAGTGAATAAGCTGTCAATGGCCAATAAACTTTCCGATATTGTAGTAAGATTAAAAAACGGAATGTACTGGTTTGACCCTGCTAACCCAAAAACACAGGGACACGTATCCAATGTGGTGAAAGATATTGTAAAAAGATACGATATTGATGCTGTTCATTTTGATGATTACTTTTATCCTTATGCCACCTATAACAGAGGGGCAGACTTTCCAGATAATGCCACATGGAATGCATATGTAAGCAGTGGCGGTACCTTATCCAGAGCAGACTGGAGAAGGGATAACGTGAATAAGTTTGTAGAACGTATCTATAAAGAAATTCATGCAGAAAAAAATAATGTAAAATTCGGGATAAGCCCATTCGGAATCTGGAAACCCGGATATCCTATGGGAATTATTGGCTCTTCTCAATATGACGAACTGTATGCAGATGCTAAGTTATGGTTAAATAAAGGCTGGGTAGATTATTTCTCCCCACAGCTTTACTGGCCTATAGATTCCAAAGGACAAAGCTTTGAAGCCCTGCTGAGCTGGTGGCAGTCTGAAAATACAATGAACCGTCACTTATGGCCGGGATTGAATACTGTTGAGATTAAAGTTTCTGACCGTCCTGCGGAAATTAAAAACCAGATTGCTATTTCCAGAAATATCCTTAAGAATGATGCCGGAGAAATTCACTGGAGTATTGCAGGACTTACAAAGAATCCCAACATGCTTCCCGCTCTGAAAAACGGACCATACAGTGAAAAAGCACTGGTTCCTAAATCTCCATGGATCAAAACAGCACCACTGCAGACTCCCACATTATTTATTGCCGATAACGGAAGCTTTGCACAGACAAGCTGGAGTACAAAAAATGCTTCTGATGTTTTTCTCTGGGTTCTCTTCACACAATACAACGGAGTCTGGCAGACCGAAATCCTGACACTGGACACCCTTTCAAAAGATATTCCCAAATTTAAAGACGGTAAAAAGCTGAACGCTGTGGCGATAAAAGCTATTGACAGACTAGGAAATGAAAGTGATTATACAGCCAGAAAGATTAAGTAG	MRMNKLKLIVLLGVFASYTTSCSVQNNIVKTPSAKNPAKPINNTNPPKVNPVAVKPATGATTSAEENFRTNLPEIKREFRGAWIASVANINWPSRNDLTVDQQKAEAISMLDMLKNNNFNAAIFQIRPSADALYTSNIEPWSYFLTGETGTAPYPNYDPLQFWIEEAHKRGLELHVWLNPYRAHHTNGGAVNKLSMANKLSDIVVRLKNGMYWFDPANPKTQGHVSNVVKDIVKRYDIDAVHFDDYFYPYATYNRGADFPDNATWNAYVSSGGTLSRADWRRDNVNKFVERIYKEIHAEKNNVKFGISPFGIWKPGYPMGIIGSSQYDELYADAKLWLNKGWVDYFSPQLYWPIDSKGQSFEALLSWWQSENTMNRHLWPGLNTVEIKVSDRPAEIKNQIAISRNILKNDAGEIHWSIAGLTKNPNMLPALKNGPYSEKALVPKSPWIKTAPLQTPTLFIADNGSFAQTSWSTKNASDVFLWVLFTQYNGVWQTEILTLDTLSKDIPKFKDGKKLNAVAIKAIDRLGNESDYTARKIK				NA	NA	NA	NA	NA
BMS003_02597	552	ftnA	COG1528	putative bacterial non-heme ferritin	ATGAATACCAAAAGACTTTCCGCTACCGTGGAAAAAGCACTTAGCGATCAGATGAACAAGGAAATTCATGCATCACATGTTTTTTTATCTTATGGGATTTGGGCTGATGACAAAGGATACCAGGGAATAGCCAATTTTCTTTACAGACATGCTCAGGAAGAAAGAAATCACTCCATCAAATTCATGGAATACATTTTAAACAGAGGCGGGAAACCAAAAGTAACGGCCATTCCAGCACCTCCGGCTGATCCTAAAAACCTTACAGCTTGTTTTGATGGTGTTTTTAAACATGAAGTAGATAATACAACTGCTATTTACAAGATTGTAGATCTCTCTATGGAAGAAAAAGACTGGGCAACCTGGAACTTTATGCAGTGGTTTGTACAAGAGCAGATTGAAGAAGAAACATTAGCACAGAATTTAATTGATAAGCTGAAAATTGCAGGCGGTGACAGAGCTACTGATGAATCTTTATTTACTTTAGATAAAACTTTGCAGGAAACACCCAATGATGTTCCCTTGGCTCAGAGTGCCACAGGAAATAATCCATAA	MNTKRLSATVEKALSDQMNKEIHASHVFLSYGIWADDKGYQGIANFLYRHAQEERNHSIKFMEYILNRGGKPKVTAIPAPPADPKNLTACFDGVFKHEVDNTTAIYKIVDLSMEEKDWATWNFMQWFVQEQIEEETLAQNLIDKLKIAGGDRATDESLFTLDKTLQETPNDVPLAQSATGNNP	PGPT0003970_93	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217	NA	NA
BMS003_02598	1092	ychF	COG0012	Ribosome-binding ATPase YchF	ATGAAATGTGGAATCGTAGGCCTGCCGAATGTAGGTAAATCAACACTTTTTAACTGTCTGAGCAATGCAAAAGCTCAATCAGCAAACTATCCTTTCTGTACTATTGAGCCGAACCTTGGAACGGTTTCTGTGCCGGATCAGAGATTGTTTGAACTGGAAAAAATCGTAAAGCCTGAGAGAGTTTTACCAGCTGTAGTTGAGATTGTTGATATTGCAGGTCTTGTAAAAGGAGCCAGCAAAGGAGAAGGATTAGGAAATCAGTTTCTGGCTAATATCCGTGAGTGTGAAGCAATCATCCATGTTTTAAGATGTTTTGATAATGGAAATATTGTTCACGTAGAAGGCTCTGTAGATCCGTTAAGAGACAAAGAAATTATTGATATAGAACTTCAGCTGAAAGACCTTGAAACAGTAGGGAAAGCAGTAGAAAAAGCTAAGAAATTCATCAAGTCAGGAAAAAAAGAAGATATTCTTACTTACGAAACCCTTCAGAATTTACAGAAATTCCTTGAGGATGGTAAGAATGCAAGAGAATTTGCTACAGATGATTTCACAAAATCAATCATTGGAGAAGTTCAGTTATTGACCAATAAACCAGTGCTTTACGTTTGTAATGTGGACGAAAATTCTATCAAAAACGGAAACGAATGGATTGGTAAGATCGAAGAAATGGCTAAAGGTGAAGGAGCTGAAATTGTAGTATTGGCAGCACAGATAGAAGCTGATATCAATGAGCTTGAAACTTTCGAAGAAAGAGAAATTTTCCTTGATGAATTGGGGCTTACAGAACCGGGAGTTAACCGTCTGATCAGAAAGGCATATGATCTTTTAAAGCTTCAGACATATTTTACAGCCGGAGTAAAAGAAGTAAGAGCATGGACTATCGGGCAGGGATGGACAGCACCACAGGCTGCAGGAGTAATCCACACCGATTTCGAAAAGGGATTTATCCGTGCAGAAGTAATCAAGTATAATGATTATATCACGTACGGTTCTGAAGTAAAGATAAAGGAAGCAGGAAAACTATCTGTGGAAGGTAAAGAATATATTGTACAGGATGGTGACATCATGCACTTCAGATTCAATGTATAA	MKCGIVGLPNVGKSTLFNCLSNAKAQSANYPFCTIEPNLGTVSVPDQRLFELEKIVKPERVLPAVVEIVDIAGLVKGASKGEGLGNQFLANIRECEAIIHVLRCFDNGNIVHVEGSVDPLRDKEIIDIELQLKDLETVGKAVEKAKKFIKSGKKEDILTYETLQNLQKFLEDGKNAREFATDDFTKSIIGEVQLLTNKPVLYVCNVDENSIKNGNEWIGKIEEMAKGEGAEIVVLAAQIEADINELETFEEREIFLDELGLTEPGVNRLIRKAYDLLKLQTYFTAGVKEVRAWTIGQGWTAPQAAGVIHTDFEKGFIRAEVIKYNDYITYGSEVKIKEAGKLSVEGKEYIVQDGDIMHFRFNV				NA	NA	NA	NA	NA
BMS003_02599	252			hypothetical protein	ATGAAAAAACAACATTTAAACAATGGGAAAAAACTGAATAAAAAAGAGTTGAAAACCATTAAAGGTGGTGTGATGATATGTAGTATACAAAACGGAACAATATGTACACAGATTCATCCATCGTGCTATGAACCTCAATGTAGAAGTGGCCAGGCAGAGTTAAAATGTACAGATATAGTTAATAACTGTGTGGTTTTCTCTCCATCCTGTATAGAGCCAAAATGCCGATTCGATACAGGTGTTACGCTTTAA	MKKQHLNNGKKLNKKELKTIKGGVMICSIQNGTICTQIHPSCYEPQCRSGQAELKCTDIVNNCVVFSPSCIEPKCRFDTGVTL				NA	NA	NA	NA	NA
BMS003_02600	159			hypothetical protein	ATGAAAAATCAAATCAATCAAATCGGAAAAAAACTGAACAAAAGACAATTAAAAGTAATTACCGGTGGAAAAGAAATGTGCCTGCTTCCAGATCTGACTTGTAAAAAATATTCTTTTACCTGCGCAGAAATACAATGTCAACCCGGTATTGAATTTTAA	MKNQINQIGKKLNKRQLKVITGGKEMCLLPDLTCKKYSFTCAEIQCQPGIEF				NA	NA	NA	NA	NA
BMS003_02601	939	rhaS_10		HTH-type transcriptional activator RhaS	ATGGAAAAAGCAGCACATACCTCACTGGAAGATTTCTACAAAGAGATGGCGGCCAAATTAGGTAAAGATCTCGAAAGTATTTTTCCAAAAGGCCTTCATAAAGACATCGGGCACTTTAATGTTTTCGATATTGCCCAAACAATAGAAAAAGCAAAGACTACTTCTGAAATGCCTTATAACAGGAGGAAATACTATAAAATCAGTTTTATAAGAGGAAGAAACAAAGCAGAATATGCAGACAAAATAATTTCGATAAAACAAAATGCTTTATTATTTGCCACCCCTAAAGTTCCCTATCACTGGATCCCCGAAGATTCTGACCAGTCAGGGAGTTTCTGTGTATTTACAGAAGACTTTTTTATTAAGGACAAATCTTATTACCACCTCGAAGATCTTCCTATTTTTCAGCCTGGGGGAGTACCAATTTTTGAAATTGATGATGATCTGGCACAGGAAATTGAAAACCTTTTTGAAAAAATAAAAAAAGAGATTGATTCTGACTATGTTTTTAAATATGATCTGATCAGAAACTACGTTCTGGAGCTGATTCATTACGGACAGAAGCTACAGCCTGCGACTAAGACATCAGCATCTAATGATGCTTCAATGAGAGTGGTTTCCCTGTTTATAGAACTGCTGGAAAGACAGTTTCCTATCGAATCCCGGGAACAGAGGCTGCAATTGAAAACAGCTAAAGACTATGCAGACAGGCTGGCTGTACACGTTAATTATTTAAATAAAAGATTAAAAGAAAGTACAGGAAAAACAACTACTGAATTCATAGCTGACCGTATCGTTCAGGAAGCTAAAATACTCTTAAAACAAACCAAATGGAACGTCTCAGAAATTTCCTATGCACTGGGTTTTGAAGAAATAGCCCATTTTTCCAATTTCTTTAAAAGGAAAACTTCCCTTGCGCCCCTGGAGTTTCGTTCCTGA	MEKAAHTSLEDFYKEMAAKLGKDLESIFPKGLHKDIGHFNVFDIAQTIEKAKTTSEMPYNRRKYYKISFIRGRNKAEYADKIISIKQNALLFATPKVPYHWIPEDSDQSGSFCVFTEDFFIKDKSYYHLEDLPIFQPGGVPIFEIDDDLAQEIENLFEKIKKEIDSDYVFKYDLIRNYVLELIHYGQKLQPATKTSASNDASMRVVSLFIELLERQFPIESREQRLQLKTAKDYADRLAVHVNYLNKRLKESTGKTTTEFIADRIVQEAKILLKQTKWNVSEISYALGFEEIAHFSNFFKRKTSLAPLEFRS				NA	NA	NA	NA	NA
BMS003_02602	765	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAACACAAAAACAAAAATTGCATTAGTAACAGGTGGAAGCCGTGGATTAGGGAAAAATTCAGCACTTAAAATAGCTCAAAAAGGATTAGATGTCATCATTACCTACAGAAGCAATAAAGAGGAAGCAGATGCTGTGGTGAATGAGATACAGTCAATAGGAAGAAATGCTGTTGCCTTTCAGCTGGATACAAAAGACATGAAAAGCTTTGATGCTTTTGTAAAAAATGTGACAGATCACTTACAGCAGAATACAGGAAGTACCCATCTTGATTATCTTATTAATAACGCCGGAACTGCTTTATATTCACCTATTACTGATGTGACAGAAGAACAGCTGGACGATGTGGTAGACATCCACTTCAAAGGAGTATTTTTCCTTACTCAGAAACTGCTGCCATTCATCAATGATGGAGGAGGTATTATCAATATTTCTTCAGGGCTTGCAAGATTTGCAACACCGGGATCTTCCGTTTACGGATCAATCAAAGCCGGAGTGGAAATGCTTACAAAATACATGGCTAAAGAATTAGGTTCAAGAAAGATCAAAGCCAATGTGGTAGCTCCCGGTGCCATTGAAACAGATTTTGGAGGAGGAAGAGTAAGAGATAATGAGGAAGTCAATGCGATGATAGCTGGTGTTACAGCTCTTGGCAGAGTAGGTCTTCCCGATGATATCGGTGGAGTGGTCGCTTTCCTTTGTACTGAGGATGCAAGATGGATCAACGGACAGAGAATTGAAGTTTCCGGAGGAATGTTTTTATAA	MNTKTKIALVTGGSRGLGKNSALKIAQKGLDVIITYRSNKEEADAVVNEIQSIGRNAVAFQLDTKDMKSFDAFVKNVTDHLQQNTGSTHLDYLINNAGTALYSPITDVTEEQLDDVVDIHFKGVFFLTQKLLPFINDGGGIINISSGLARFATPGSSVYGSIKAGVEMLTKYMAKELGSRKIKANVVAPGAIETDFGGGRVRDNEEVNAMIAGVTALGRVGLPDDIGGVVAFLCTEDARWINGQRIEVSGGMFL				NA	NA	NA	NA	NA
BMS003_02603	1149	ybdL_2	COG0436	Methionine aminotransferase	ATGATACAACTTCCTTTATCGAAACTTTCCAATGTAGGAACTACTATTTTCAGCCAGATGACCCAACTTGCCAATGAAAACGAGGCCATCAATCTGTCTCAGGGATTTCCGGATTTTATGCCGGATTCTGAATTATTGAATCATCTTGATCATTTTATTAAAAAGGGATTTAACCAGTATGCTCCACTCGGCGGAATGATTGGCCTAAAGGAAGAAATTGCACGAAAAATCGAAAACAGCCATGAGGCAATATATCATCCTGATTCTGAAATAACAGTTACTGCAGGCGGAACCCAGGCTATTTTCACGGCAATAGCTTCTTTTATAAAAAAAGATGATGAAGTGATCATTTTTGAACCGGCTTATGACTGTTATGAGCCTACTGTAGAACTTTTCGGTGGTATTGTAAAGCGTTTTGAGATGAAAGCCCCGGATTATGAAATCAACTGGACTGAAGTAAAAAATCTCGTCAGTGAAAAAACCCGGATGATCATTCTTAATAATCCCAATAATCCTTCAGGAAAAATCCTGAAAGAAAATGATATACAAGAGCTTATACAACTGGTAAAAGGTACATCCATTCTTATTTTGAGTGATGAAGTGTATGAAAATATTGTTTTTGACGGAAAGCAGCATTTAAGCATCTGTAAATATCCTGAACTGAAAGAAAGAAGTCTTCTTGTTGCTTCTTTTGGAAAACTATTCCATGTTACCGGCTGGAAAACAGGATATTGCGCAGCTCCAAAAAGCTTAACAGATGAGTTCAGGAAAGTACATCAGTTCAATGTTTTCTGCGTAAACACACCTGTTCAGCTCGCACTGGCAGAATACATGAAAAACGAAGATCATTATACTTATCTGAATCAGTTTTTTCAGGAAAAAAGAGATTTTCTCAGAAAAGGTCTGGCAGGAACTTCTTTTGAACTTCTGGATTGTGAAGGAACTTATTTTCAGGCCGTAAAGTATGATCAGATTTCGGATAAAAATGATTTTGATTTCGCTTCAGAACTCACCATCAATTATAAGGTAGCCAGTGTTCCTTTTTCTTCATTTTACAAAAATAAAGTGAATGAAAATGTAATCAGGCTCTGCTTTGCTAAGAAACAGGAGACATTAGAAAGAGCAATTGAGAATTTGTCCAAAATATAA	MIQLPLSKLSNVGTTIFSQMTQLANENEAINLSQGFPDFMPDSELLNHLDHFIKKGFNQYAPLGGMIGLKEEIARKIENSHEAIYHPDSEITVTAGGTQAIFTAIASFIKKDDEVIIFEPAYDCYEPTVELFGGIVKRFEMKAPDYEINWTEVKNLVSEKTRMIILNNPNNPSGKILKENDIQELIQLVKGTSILILSDEVYENIVFDGKQHLSICKYPELKERSLLVASFGKLFHVTGWKTGYCAAPKSLTDEFRKVHQFNVFCVNTPVQLALAEYMKNEDHYTYLNQFFQEKRDFLRKGLAGTSFELLDCEGTYFQAVKYDQISDKNDFDFASELTINYKVASVPFSSFYKNKVNENVIRLCFAKKQETLERAIENLSKI	PGPT0020025_950	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
BMS003_02604	540			hypothetical protein	ATGAAGATTACGAAAGCAGAATTTCCCGAAAGCTCTATTTTATCTCCGGAAAAGAAAGAGTTTGATTATATTGACAGTTTCGAAGGAGAGCTGGCTGCTGAGGGCCAGGATATTGATATATCAGAAATCGGAAAAGCTTTTTTTACAAGCGGACCGAAATGGGGGAGTAACATGTTTGCCTTCAGAAATAAAATAGTGGGATTATTCGGCTTGAAGACCGGAGCTGAAGCTGAGAAGAAACAAAGGCGGGAAGATTTTAAATGCGAAGTAGGAGAGCGTATAGGACTTTTTAAGGTGTTTGATAAAACCAATAACGAAATTGTTCTGGGAGAAGATGACAAGCATCTGGATTTCAGAGTTTCTCTCTTCATTGACAAAAATAAAAAAGAGATGAATAAAAACTTTCTTACCATATCAACAACGGTAAAATTCCATAACTGGCTGGGAGTTCTGTATTTTCTGCCCGTTCGGCCTTTTCATAGATTGATTGTCCCTGCTATGCTGAAAAATATGATTGGGCAGCTGGAAAATAAAAGGTAA	MKITKAEFPESSILSPEKKEFDYIDSFEGELAAEGQDIDISEIGKAFFTSGPKWGSNMFAFRNKIVGLFGLKTGAEAEKKQRREDFKCEVGERIGLFKVFDKTNNEIVLGEDDKHLDFRVSLFIDKNKKEMNKNFLTISTTVKFHNWLGVLYFLPVRPFHRLIVPAMLKNMIGQLENKR				NA	NA	NA	NA	NA
BMS003_02605	567			hypothetical protein	ATGGTGAACTATAGTGATGAGGAAGGGTTAAACTGTTCATATACATATCATCTGAGGCAAGATAAAAATGGTTTCATCTGGATAGGCAGCGATAACGGATTATTCAGATTTGACGGAAAAGAATTTAAACAATACGGTAAGAAAGAAGGTTTAAAAAATATTGACATTATATCCTGCGAGCCTTTGCCCAACAGTGAAGTACTTGTTCTTCCTTTTCTGAATGATTTTGCTTACTTAAAAAACGGCCGTGTTATCAATCTGAACATTAATAACTACGTAAAAAATCAGTTTTCAGGTTCAATTCCGAAAGGTACCCGTGAGCAAAACCGACTTTATCTCTATGGAGGTCTCAATCCTCAGAATATTTTCGTCATGTTAAACAAAAAAATTATCATGAAAATCACTAGAAAAGTACTCAAGAGAAATCAAATGAATGCCATTATTGGAGGAACAGCTATTATTACTCCAAGCAGTCCCGGAGCTATTCCTCAGCCACAGCCTATCGGAGGGCTTCCTTTTATCTACACAATGCCGTGGGGTGGATTACCATGGATTGAGCCTAAATAA	MVNYSDEEGLNCSYTYHLRQDKNGFIWIGSDNGLFRFDGKEFKQYGKKEGLKNIDIISCEPLPNSEVLVLPFLNDFAYLKNGRVINLNINNYVKNQFSGSIPKGTREQNRLYLYGGLNPQNIFVMLNKKIIMKITRKVLKRNQMNAIIGGTAIITPSSPGAIPQPQPIGGLPFIYTMPWGGLPWIEPK				NA	NA	NA	NA	NA
BMS003_02606	1875	gyrB_2	COG0187	DNA gyrase subunit B	ATGTCACAAGAAATAAATCCAACCTACTCCGAAGATAATATCCGAACCCTAGATTGGCAGGAGCACATCCGTCTGCGCCCCGGTATGTACATCGGGAAGCTCGGTGACGGCTCTTCCGCTGATGACGGTATTTATATCCTGCTTAAAGAAATTCTTGATAACTCTATTGATGAGTTCAGAATGCGTGCAGGGAAAAGAATTGAAATAAAACTGGACGATGGTAAAGTTACCATCCGTGATTTTGGACGTGGAATCCCGCTTGGAAAAGTGGTAGACGCCGTATCCAAAATGAATACCGGTGGTAAGTATGACAGTAAAGCGTTTAAAAAATCAGTAGGTTTGAACGGAGTTGGTACCAAAGCGGTAAATGCCCTTTCAGATTACTTCAGAGTTCGTTCTTTCCGTGACGGAAAAATGAAAGCTGCAGAATTCTCCCGTGGAATGATCACTGAAAACTTTGAGGAAAAAGATACTTCGGACAGAAATGGTACCGAAATTTCCTTTATTCCCGATGGAGAAATATTCCTGCACTTCAAATACCGAAAAGAGTATATCGAAAGAATGCTCCGCAATTATGCCTACCTGAATCCCGGCCTTAAGATTCTTTTTAACGGAGAAACCTATTTTTCTGAAAACGGTCTTAAAGATTTGCTGGAAGAGGAGCTGGAAAGCGATATTCTTTACCCTATCGTTCATTTGAAGGACGATGATATTGAGGTCGCTATTACCCATTCAGATAAATCACAGACAGAAACCTATTTTTCATTTGTGAACGGACAGAATACAACGCAGGGAGGAACACATCTTAATGCATTCCGTGAAGCATATGTAAAAACAGTTCGTGAATTTTTTAATAAAAGCTTCGATGCCTCCGATATCAGAAAGTCTATTATTGCAGCAATCTCGATCAATGTAGAAGAACCGGTTTTCGAATCTCAGACCAAAACAAAACTGGGATCTAATGATATGGGGCCAAACGGTCCTACGGTGAGAACTTTCATCATTGATTTTCTAAAAAGCAAACTGGACAATTTCTTACACAAGAACCCTGAAATTGCAGAAGCGATCCAAAGAAAAATATTGATTTCTGAACGGGAAAGAAAAGAACTTTCCGGAATTCAGAAACTGGCAAGAGAAAGAGCCAAAAAGGTCTCTCTTCATAATAAGAAACTTCGGGACTGCAGACAGCATTATAACGATCAGAAAGCTGAGAGAAAAGGAGATACCCAGATCTTCATTACCGAGGGAGACTCCGCATCCGGATCTATTACAAAATCCAGGGATGTAGAAACTCAGGCTGTATTCTCGCTGAAAGGTAAGCCACTGAACTGCTATGGCCTTACCAAAAAAGTGGTATACGAAAATGAAGAGTTTAATCTTCTCCAGGCAGCTTTGAATATTGAAGAAAGTCTGGAAGACCTGAGATACAATCAGGTAATCATTGCTACCGATGCCGATGTCGATGGTATGCACATCCGTCTGTTGATGATTACTTTTTTCCTGCAGTTTTTCCCCGATCTGATAAAAAACGGTCACCTTTATATCCTTCAGACACCTTTATTCAGGGTGAGGAATAAAAAAGAAACCAGATATTGTTATTCGGAAGCGGAGAGAATAAAGGCATTAAATGACCTTGGGAAAAATCCTGAAATCACACGATTTAAAGGTTTGGGAGAAATTTCTCCTGATGAATTTAAACACTTCATAGGTAAAGATATCCGTTTGGAGCCTGTAGTGGTAGGAAAAGACCAGACAATTGACCAGCTTCTGGAATTCTATATGGGCAAAAATACTCCGGACAGACAGACTTTTATTCTTGAAAATCTTGTGGTGGAAGATGACACCGATATTGACAAAAAACAGATGGAAAGTTAG	MSQEINPTYSEDNIRTLDWQEHIRLRPGMYIGKLGDGSSADDGIYILLKEILDNSIDEFRMRAGKRIEIKLDDGKVTIRDFGRGIPLGKVVDAVSKMNTGGKYDSKAFKKSVGLNGVGTKAVNALSDYFRVRSFRDGKMKAAEFSRGMITENFEEKDTSDRNGTEISFIPDGEIFLHFKYRKEYIERMLRNYAYLNPGLKILFNGETYFSENGLKDLLEEELESDILYPIVHLKDDDIEVAITHSDKSQTETYFSFVNGQNTTQGGTHLNAFREAYVKTVREFFNKSFDASDIRKSIIAAISINVEEPVFESQTKTKLGSNDMGPNGPTVRTFIIDFLKSKLDNFLHKNPEIAEAIQRKILISERERKELSGIQKLARERAKKVSLHNKKLRDCRQHYNDQKAERKGDTQIFITEGDSASGSITKSRDVETQAVFSLKGKPLNCYGLTKKVVYENEEFNLLQAALNIEESLEDLRYNQVIIATDADVDGMHIRLLMITFFLQFFPDLIKNGHLYILQTPLFRVRNKKETRYCYSEAERIKALNDLGKNPEITRFKGLGEISPDEFKHFIGKDIRLEPVVVGKDQTIDQLLEFYMGKNTPDRQTFILENLVVEDDTDIDKKQMES	PGPT0027710_2565	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
BMS003_02607	510			hypothetical protein	ATGAGACTAAGTAACCGTAATAAAGTACCAGTTTATAACTTTTTGAGTACACTGCTGCTGCTGACAGTAGTGTTTGGGATAATCTTATTTGTTGTCAATGAATACAGATTTAATGCCCTGGGTGAAGAAAGTTATTTATTGATTATCGTTCCCGTTCTGCTGATCGTTATTTTTTATATCAGCGGCAGGCAGGTTTTTGAATATGACAGCGATGGAGAAGCTTTGAATTTTAAGAACAGAAACATTATCCCGTTTTTAGACAAGCCTCTTCATGATGAATTTCCAAAATATAAGCTGATAAAATATGATGTGGTCAGTATTCTCTTTTTCAAAAGATTATACATTACTGTTTCCAGTAAAAATAATGGTTCTACAATACTGAAGTACCAGATATCTTATCTGACTAAAAAAGAAGTAAATGATTTAAAACTCTCTCTGAATAAAGTAGTAAAAGCTAATAAAGAGAAAAAAGATAAACAAACAAATGACGACAGAAGAATACTCGCATGA	MRLSNRNKVPVYNFLSTLLLLTVVFGIILFVVNEYRFNALGEESYLLIIVPVLLIVIFYISGRQVFEYDSDGEALNFKNRNIIPFLDKPLHDEFPKYKLIKYDVVSILFFKRLYITVSSKNNGSTILKYQISYLTKKEVNDLKLSLNKVVKANKEKKDKQTNDDRRILA				NA	NA	NA	NA	NA
BMS003_02608	2592	gyrA_1		DNA gyrase subunit A	ATGACGACAGAAGAATACTCGCATGAAGGTGAGAGCTTAAAGAAAGTTTCCGGCCTGTACAAAGACTGGTTTCTGGATTATGCTTCCTACGTAATTTTGGATAGAGCTATCCCTTCGGTGTATGATGGTTTGAAACCCGTTCAGCGAAGAATCATGCATTCTATGAGAGAGCTGGAAGACGGCCGTTACAATAAGGTAGCCAACATCGTGGGAAATACCATGAAATATCACCCGCACGGTGATGCTTCCATTACAGATGCCATGGTGCAGATCGGGCAGAAAGAGCTGCTGATAGATACTCAGGGAAACTGGGGTAATATTTATACAGGAGATTCAGCAGCTGCAGCCAGATATATTGAAGCAAGACTTACTCCTTTTGCTCTTGAGGTTGTCTTCAACCCTAAAACTACGGAATGGACCAAGTCTTATGACGGAAGAAATAATGAGCCTATAGACTTACCCGTGAAATTCCCTTTGCTTCTGGCACAGGGAGTGGAAGGTATTGGGGTAGGACTTTCTACAAAAATACTTCCGCATAACTTCAATGAGCTTATTAACGCATCTGTTGCTTATTTGAAAGGGAAAAAATTTGAACTCTATCCCGATTTTTTAACTGCAGGTTATCTGGATGTATCCGAATATAATGATGGCCACAGAGGAGGGAAAGTAAGAGCAAGAGCAAAAATTACGCAGACGGATAAGCACACGTTGGTGATTTCTGAACTTCCGTATTCAAAAACTACAACTGACCTTATTGACTCTGTCTTAAAAGCCAATGAGAAAGGTAAGATCAAAATCAAAAAGATTGAGGATAATACTTCAGATAAAGTAGAAATCCTGATCCATATTCATAATGATGTTTCTCCCGATAAGACGATAGATGCTCTGTATGCATTCACAGACTGTCAGGTAACAATTTCGCCGAATGCATGTGTGATTGTAGGAGACAAGCCTATGTTTATGAATGTATCTGATATTCTGAAAATGAATACAGATCATACAGTATCGTTACTGAAGAAAGAACTTGAAATTGAGCTTCATGAGCTTCAGGAAAGCTGGCATTTCTCTTCGCTGGAGAGAATTTTCATTGAGAACAGAATCTACCACGATATTGAAGAGGTGAAAACCTGGGAAGATGTATTAAAAACCATTGATGCCGGATTAAAACCTCATACAAAACATCTTTTAAGAGCTGTTACGGAAGAAGATATCTTAAAGCTTACCGAGATCCGGATCAAGAGAATCTCAAGATTTGATTTAGATAAATTTAAAGAAAATATCGCATCACTGGAAGGGAAAATAGAACAGGTGAAATACCACCTTGCCAACCTGATTGCCTATGCCATTGACTATTATTTAAATATCCAGAAAAAATACGGTAAAGACAAACAAAGAAGAACAGAACTCAGAATATTTGATACCATTGATGCTACAAAAGTAGCTGTAGCCAACGAAAAGTTCTATGCTAACTTCGAGGAAGGCTTCATTGGGACATCTCTGAAAAAAGACCAGTATTTGTTTGACTGTTCTGATATTGATGATATTATCACATTCAGGAAAGACGGAAGCATGAAGGTGGTAAAAGTGGAAGCAAAAACCTTTATCGGTAAAGATATTCTTCATGTTGCCATCTGGAAGAAAAATGATAAGAGAACGGTGTATAATATGATCTATCGTGAAGGTAGAGAAGGACCTTATTATATGAAGAGGTTCTCTGTAACCGGAGTAACCAGAAATACAGATTATCCGCTGGCTTCAGATAAAAAAGGATCAGAAACCCTTTATTTCTCAGCAAATCCTAATGGTGAAGCAGAAACAGTAACAGTATTGTTAAAACCCAATCCAAGAATCAGAAAGAATAAAATGGAGATTAACTTCTCTGATCTTGCCATCAAAGGACGTGATTCCAAAGGAAATCTGGTAACAAAATATGCCGTAAAGAAAGTAGACATGAAGGAAGAGGGAGTTTCTACCCTTGCACCTAGAAAAATTTGGTTCGATGATACCGTAAGAAGACTGAATGCTGATGTAAGAGGTACATTACTGGGAAGCTTTAAAGGAGATGACAAGATCCTTACCATCAACACAAACGGAGAAGTGAAGCTGGTATCTTTTGATCTTGGTAACCGTTTTGATGATGAATATCTGGTTCTTGAAAAATGGAGACCCGGACAGCCAATTACCTGTATTTACTATGACGGAGAAAAAGATATTTACTTCATCAAGAGATTCCTGCTGGAAAATACAGTCAATGTACAGACTTTCATGCCGTCTGAACATCCGAAATCATTCATTGAGAACGTAATTGTTGCGAATAATGCCACTGCAGAAATCATTTTTGCAAAAGATAAAGGAAAAGAACGGGAACCGGAAACTGTAAACATTGATGAGTTTATTGCTGTAAAAGGAATAAAAGCCATTGGTAATCAGTTTACGAAGTTCAAAGTAAAAGCAATCAACATTACCATTCCCGAACCCGCAGAAGAAGAACCTGAACCCTATGAAGAACCTGAACCAACAGGTGAAATGGATGAAGACGGAGGTATCATAGGAGATCTTTTTCAGGGAGACGGAAATAATGAAAGTGAATAG	MTTEEYSHEGESLKKVSGLYKDWFLDYASYVILDRAIPSVYDGLKPVQRRIMHSMRELEDGRYNKVANIVGNTMKYHPHGDASITDAMVQIGQKELLIDTQGNWGNIYTGDSAAAARYIEARLTPFALEVVFNPKTTEWTKSYDGRNNEPIDLPVKFPLLLAQGVEGIGVGLSTKILPHNFNELINASVAYLKGKKFELYPDFLTAGYLDVSEYNDGHRGGKVRARAKITQTDKHTLVISELPYSKTTTDLIDSVLKANEKGKIKIKKIEDNTSDKVEILIHIHNDVSPDKTIDALYAFTDCQVTISPNACVIVGDKPMFMNVSDILKMNTDHTVSLLKKELEIELHELQESWHFSSLERIFIENRIYHDIEEVKTWEDVLKTIDAGLKPHTKHLLRAVTEEDILKLTEIRIKRISRFDLDKFKENIASLEGKIEQVKYHLANLIAYAIDYYLNIQKKYGKDKQRRTELRIFDTIDATKVAVANEKFYANFEEGFIGTSLKKDQYLFDCSDIDDIITFRKDGSMKVVKVEAKTFIGKDILHVAIWKKNDKRTVYNMIYREGREGPYYMKRFSVTGVTRNTDYPLASDKKGSETLYFSANPNGEAETVTVLLKPNPRIRKNKMEINFSDLAIKGRDSKGNLVTKYAVKKVDMKEEGVSTLAPRKIWFDDTVRRLNADVRGTLLGSFKGDDKILTINTNGEVKLVSFDLGNRFDDEYLVLEKWRPGQPITCIYYDGEKDIYFIKRFLLENTVNVQTFMPSEHPKSFIENVIVANNATAEIIFAKDKGKEREPETVNIDEFIAVKGIKAIGNQFTKFKVKAINITIPEPAEEEPEPYEEPEPTGEMDEDGGIIGDLFQGDGNNESE	PGPT0027705_408	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
BMS003_02609	642			hypothetical protein	ATGGATACAGTTGTTTTAATTATCATTGCGGTCACATGTATCTTTAGTTATATGGGCTTCAATAATATGGCACTCTTTGAAAAATATAAATTCAATGTGGGGGCTATTGCGAATCGCAAAGAATATATAAGGCTTATCAGCTCTGCTTTTTTGCATGCAGACTTTATGCACTTATTTTTTAATATGCTATCCCTGTATTTTTTTCAGGGAGTAGTTGTGAATTTCTTCGGTGAAATAGGATTTATAATTCTTTATTTCGGATCTATGATTCTGGGGAATTTGTTCAGTTTGATGATTTATAAAAACCAACCATGGTATTCCGCTATCGGAGCATCAGGAGCCGTTTCCGGGATCATTTTTGCATCCATCGCCATGGCACCGAATGAGATCAGTGTAAACTTCTTACCGGGATGGCTTTTTGGAACATTGTATTTCGGGTATTCCGTTTATATGATGCTGAATCCAAAACAATGGGATAATCTGGGACATGCCGCTCATCTGGGAGGTGCTTTTTTCGGATTGGTGTATTCTATTGTAATGCATCCGCAGCTTGCCATGAGCAATATTTTTTTCTTGGGAGTTATGTCGCTTCCGCTCATCTATTTAGCATATGAAATTTTTATAAAGAAGCGAATAGGTTAA	MDTVVLIIIAVTCIFSYMGFNNMALFEKYKFNVGAIANRKEYIRLISSAFLHADFMHLFFNMLSLYFFQGVVVNFFGEIGFIILYFGSMILGNLFSLMIYKNQPWYSAIGASGAVSGIIFASIAMAPNEISVNFLPGWLFGTLYFGYSVYMMLNPKQWDNLGHAAHLGGAFFGLVYSIVMHPQLAMSNIFFLGVMSLPLIYLAYEIFIKKRIG				NA	NA	NA	NA	NA
BMS003_02610	1542			hypothetical protein	ATGATAAAAAGTAACTCAATTGTACTATACAAAAGATTTTTGTTCATTTTTTCACTGTTCGTTCTTTCTCAGAACAGTAAAGCACAGAATGAGCAGGGAACAGGTTATCCGTATTTTGTCAACTTTACCCAGGGATTACAACCTCAGGAAGCCTATAAAGTAGCAACCAGCGGTGTTCAGAATGATGCTACTTTTACCACAGACGGACTAAGACTGACCCGAAGTGTAAATAATATTTCAGGGGGAGTAATCCTGGCTGATAAAATATTCAAAAGTGATCAGGGAATAAAATTCGAGTTTGAATTTGCTATTTATGGGGGAAACACTAACGGAGGAGACGGTATTTCTATATTCCTGGTAGACGGATCCATTCCCAAGAACCAGCTTAACCTGGGATATTTCGGGGGAGGATTAGGATATAGTTTTATACGTGGCGGCGAATCTACGGAAGGACTGAGAGGAGCTTACCTTGGAATTGGTCTGGATGAATTCGGAAATTTTAAGACAAGCTTCAACCAGACCGAAAGGGTTAGAAACGGAATATTTGGAGTATCACTCGCCAACGGACGAAGTAATGTTTCATTAAGAGGAAAACGAGGAAATCAATATCTGTCGTCTGCTGAACCAGCAGGATACAATGGTTATCCATTACTTTACAGTATTGCCACCAACGCTTCTCCTTCCAGCAGCAACAGATTTGCCTATCTTGATACTGCAACGGGAAAATATATTGGTGCCAAAAACACGAACCTTCAACAATTCAGTATTGAAAGTGGCGGAACCACAATTCCTCAAAATGAAAATGATGCAAGATTCCGTAAAGCATATGTCACTTTAATCCCCAATCCTGCCGGCGGTTACAATATAACCCTGGAAATACAGCATGGAACTGTGAAAGAAAAAGTGATTGATAATTATTATTATCCTACCTCTCTGAAATATACTGAAACTACGATATCCAACACTACCGTAAGAACTCTGGATACCTCGGCTCCTGCTACTTTCAGAATTGGATTTGCGGCTTCCACCGGAGCTGCCAAAAATATACACTTGCTGAAAAACTTAGGGGTTACAAGACCATATGCTGCCGAAGTAACGGATGACCTTTTTGCAGGCTGCCCCGGCATAAAATCAACCTATTATCCTTTGCTTAACGATGCGGCCTATTCTTCAGCAGGTGGTCAAAATCCTCCAACGCTTTCATATAACAACCTTGATTTTAATTCGTTTAGATTTTTGGATAATAATGGAGCTGTGATTCCTAATATTACGGGTAATGTTTATACCAACAGCCAGGGAACATGGACCTATTTCCCTGCTACCGGAGCGCTGTCTTTCAGACCTGCAGCCGGATTCATGGGAGTTGCCCAGATACAGTATGACATTAAAGGTGGTGGAAGCAGTGGTACTGAAGCTCCTTACAATAGTGAAGAGTACAGGTCATTACCGGCACTGGTACAGGTTAATATTTCAAGTGCGAATAACTGCAGCAAAGCCTGCGTTATCTCCAACAAGAATGTGACTCAGAAAATCACAAGATAA	MIKSNSIVLYKRFLFIFSLFVLSQNSKAQNEQGTGYPYFVNFTQGLQPQEAYKVATSGVQNDATFTTDGLRLTRSVNNISGGVILADKIFKSDQGIKFEFEFAIYGGNTNGGDGISIFLVDGSIPKNQLNLGYFGGGLGYSFIRGGESTEGLRGAYLGIGLDEFGNFKTSFNQTERVRNGIFGVSLANGRSNVSLRGKRGNQYLSSAEPAGYNGYPLLYSIATNASPSSSNRFAYLDTATGKYIGAKNTNLQQFSIESGGTTIPQNENDARFRKAYVTLIPNPAGGYNITLEIQHGTVKEKVIDNYYYPTSLKYTETTISNTTVRTLDTSAPATFRIGFAASTGAAKNIHLLKNLGVTRPYAAEVTDDLFAGCPGIKSTYYPLLNDAAYSSAGGQNPPTLSYNNLDFNSFRFLDNNGAVIPNITGNVYTNSQGTWTYFPATGALSFRPAAGFMGVAQIQYDIKGGGSSGTEAPYNSEEYRSLPALVQVNISSANNCSKACVISNKNVTQKITR				NA	NA	NA	NA	NA
BMS003_02611	573			hypothetical protein	ATGATAAAAAAGTTATTTCTACCGATCGTTTTAGTAAGTTCATTTTCATTTGCACAAATAGGGATAAACACACCCACACCTGATGCCAGTGCAGCCCTTGATATTTACAGTCAAAGTAAAGGAATGCTGATCCCAAGACTTACTACTGCAGAAAGAAACGCTATTTCCAATCCGGCAAATTCGCTTCTTATCTATGATACTGACAGGAAATGTTTGAGCCAGAATATTGGTACACCTATCAAGCCAGACTGGCTGTGTATCAGTAATAATGCAGTTAGAATGTTTTACATGCCTAGTGTTTCTTTTGATACTTCCACCACTGCCATTGGCCGTACCAAAGATTTGTATACATTGTATAAAACGCAGTTCGGATCTCCAAAAGCAAAGAGCACCAGCGCTCCTGCATCCATTCCTTTTTTCCCTTCCAGCAAAGATATTTACTATTATGTAACAGATGCTGATCCTAACGTATTCAGTAATATTTCCATTTCTGATGACGGAATAATGACATATGACGTGAAAGCAGCTGCTACAGACTGTTCTTTTATCAATATTGTTTTCGTAGTTAAATAA	MIKKLFLPIVLVSSFSFAQIGINTPTPDASAALDIYSQSKGMLIPRLTTAERNAISNPANSLLIYDTDRKCLSQNIGTPIKPDWLCISNNAVRMFYMPSVSFDTSTTAIGRTKDLYTLYKTQFGSPKAKSTSAPASIPFFPSSKDIYYYVTDADPNVFSNISISDDGIMTYDVKAAATDCSFINIVFVVK				NA	NA	NA	NA	NA
BMS003_02612	360			hypothetical protein	ATGATAATCCGGTCACACGAAATTAATGCTATAAAAATTGCAGAAATTATTTCTGATGATATGATCATACAATCTTCTCAGGATGGACTTGATCTTATGGGAAATGTCTATTATCAGGGGTTTGATAAAATAATTCTCTATGAAAAAAACATCACTCCTGCCTTCTTCGATTTAAAAACAAAAATTGCCGGAGAGATTCTGCAGAAATTCTCCAACTATCGTATCGGACTGGCCATTGTGGGAAATTTCAGCCCATATGGAAGCAAAAGTATGAGGGATTTTATTTTTGAAAGCAATAAAACAAAGCATGTCAATTTTGTTGAAACACTGGAAGAAGCGTTGATTAATTTCTCAAAGTAG	MIIRSHEINAIKIAEIISDDMIIQSSQDGLDLMGNVYYQGFDKIILYEKNITPAFFDLKTKIAGEILQKFSNYRIGLAIVGNFSPYGSKSMRDFIFESNKTKHVNFVETLEEALINFSK				NA	NA	NA	NA	NA
BMS003_02613	849	prmC	COG2890	Release factor glutamine methyltransferase	ATGACAATTTCAGCATTTAAAAAATATTTCAAAACAGAGCTTTCCGGCCTTTATACAGAGTCGGAAAGTGTCTTTTTATCTTCTCTTTTCGTTCAGCAGATTGTAGGTTTTGATCATTTTCAGCAAAGGAGATTTTCTGAACAGGAACTTCTGACCGATGACGAAGAAAAGCTTTGTCAATTGGTTTCCGAGCTTAAAACCGGAAGACCTTATCAGCAGATATTGGGTGAAACTGAATTTTACGGAATGAAGTTCTTTGTGGATGAAAATGTACTGATTCCCCGACCTGAAACGGAAGAACTGCTGGAAATGGCTATCAGGGAGATTAAAGATTCAAAATTTAATGTTCAAGGTTTAAAGATTTTGGATATAGGAACCGGAAGTGGAGTTATTCCTTTGGTTTTAAAAAAACATTTCCCGGAAGCGGAAGTATCATCCATTGATTTTTCCGAAAACGCATTGAAAACAGCCAAAAGAAATGTAAAGTATCATCAGTTGAAAATACAGTTCATCCATGCTGATTATCTCAATTTTGAACTGGCTCAAAACTATGACATTATTATTTCAAATCCTCCTTATATCGGGATTGAAGAAGAAATTGAAATTGCTGATTCAGTGAAAGAGTTTGAACCTAAAATGGCTCTTTTCTCCCCTACTTCCGATGCACTGATTTTTTACAGGAAAATTGCCGAAGATGCCCAAAAGCATTTGAATAAAGACGGTCTTTTGTTTTTAGAAATCAACCAGAAATTAGGTCCTGAAACGCTGGAGCTGTATTCATATTTTTCTAAAGTACATTTATTAAAAGATTTATCTGAAAATGACAGGTTTATTTATGGAAAGAAATAA	MTISAFKKYFKTELSGLYTESESVFLSSLFVQQIVGFDHFQQRRFSEQELLTDDEEKLCQLVSELKTGRPYQQILGETEFYGMKFFVDENVLIPRPETEELLEMAIREIKDSKFNVQGLKILDIGTGSGVIPLVLKKHFPEAEVSSIDFSENALKTAKRNVKYHQLKIQFIHADYLNFELAQNYDIIISNPPYIGIEEEIEIADSVKEFEPKMALFSPTSDALIFYRKIAEDAQKHLNKDGLLFLEINQKLGPETLELYSYFSKVHLLKDLSENDRFIYGKK				NA	NA	NA	NA	NA
BMS003_02614	759	yaaA	COG3022	Peroxide stress resistance protein YaaA	ATGAAAATTATAACATCACCTGCCAAATTAATGAACGTAGAAAACTCAACAGATCTGTTGAGATCCTCTACTCCGAAGTTTATTGAAGAGGCAGCATTTATACAGTCTTATTTAAAAGAAAAATCTCCGAAATATCTTTCTGAACTGATGGAAATATCACCAAAACTGGCTGATGAGAACTGGGAAAGAAATCAGAAATGGAAATCTAAACCCGGAGCAAAGGAATCTGCTCCTGCTATGTTTGCTTTTACGGGAGAGGTTTACAGAGGGCTGGATGCCAAAACACTGGATAAAAATGCAGTAGATTATCTGCAAAAAAACTACAGAATGCTTTCCGGATTGTATGGACTGCTGAAACCATCTGATAAAGTAATGCTTTACCGGCTGGAAATGGGTCGCCCTTTTGAATTTGACCAATACAAAAACCTTTATGAATTCTGGAGAGAAAAGATCACAGAACAATTGAATACTGAAATGAAAAAAGGAGAAATTCTTCTTCATCTTGCCAGCAACGAATACGGAAAAGTAATCGACAGAAAAAAGCTGAACCATAAAGTAATCGATTTTGATTTTTATGAATTAAAAGAAGGCAAACTGAAAACCATTGTTGTGTATACAAAACATGCCAGAGGTCTTGTGGTTAGATTCTGTGCAGAAACCAATGCCAAAACACTGGAAGATGTAAAAGCGTTCAACTATGAAGGCTACAGAATTGATGAAGAGAAATCTACCGATACAAAACTGGTTTTTACAAGATAA	MKIITSPAKLMNVENSTDLLRSSTPKFIEEAAFIQSYLKEKSPKYLSELMEISPKLADENWERNQKWKSKPGAKESAPAMFAFTGEVYRGLDAKTLDKNAVDYLQKNYRMLSGLYGLLKPSDKVMLYRLEMGRPFEFDQYKNLYEFWREKITEQLNTEMKKGEILLHLASNEYGKVIDRKKLNHKVIDFDFYELKEGKLKTIVVYTKHARGLVVRFCAETNAKTLEDVKAFNYEGYRIDEEKSTDTKLVFTR				NA	NA	NA	NA	NA
BMS003_02615	711			hypothetical protein	ATGAAGATAAATGGGAAATATTCTATAGGGATTTTACTCACTTTTGTACTTTTGGCAGCTGCAATGCTTTATGCTTTTCCTGCTGTTACGATGATAACGGGAGTACGGGGGATTACAGAAACCAATTTTTTACTCACCAGATTTGTTCTTTGGGGAATTTTTTTCATTGTATTTCTCTATAGCCTTTTTATCGAAAAAGGATCATTCCTGTTGAAAAAAGACACCCGATATTCAATATTATTTTACATAAAAGCAGTTATCTGTCTGTATTTTATCTGTAGCATAGGCGGAGCATTATTGAATGTATTGATCAGTTTATTGATCCAGGAAAAGATCAGTGACAAGCTTTTTGATCTTAGTTCTGTTTTTAAAAATAATTATTTTTTACTTACTTTTGCCTGCTTTACTGCAGGAGCTGTCGAAGAATTTCTGATGAGAGGCTATATACAGCCCAGGATTGAAAAACTCTATAACAGTCCGCTTCTGGGGGTTTTTGTTTCAGCTATTCTTTTTGGAATCCTGCACAGCACTTACGGAACTATAGGCCAGGTTGTTATTCCTTTCTTTATCGGGGTCGTTTTTGCTATGTTTTATAAAATTTATTCAAATATTAAGATCCTGATCATCTGCCATTTTCTGATTGATTTTGTCTCTCTGATGGCTATGAATTCTATGGATATTAAACGCATATCTTTATTTGTAACATTATGA	MKINGKYSIGILLTFVLLAAAMLYAFPAVTMITGVRGITETNFLLTRFVLWGIFFIVFLYSLFIEKGSFLLKKDTRYSILFYIKAVICLYFICSIGGALLNVLISLLIQEKISDKLFDLSSVFKNNYFLLTFACFTAGAVEEFLMRGYIQPRIEKLYNSPLLGVFVSAILFGILHSTYGTIGQVVIPFFIGVVFAMFYKIYSNIKILIICHFLIDFVSLMAMNSMDIKRISLFVTL				NA	NA	NA	NA	NA
BMS003_02616	627	yciO	COG0009	putative protein YciO	TTGTATCTTTGTTTTATGGCAAAGATATTAAAAATTTACCCGGACAACCCTCAGGAAAATCTTGTGAATGAGGTTATTAAAACGCTAAATAATGGCGGGCTGATTATCTATCCTTCTGATACCATTTATGCTTTAGGCTGTAATATTTTTGATATAAAAGCCATGGAAAAACTGGCTCAGCTCAAAAAAATGAAGCTTGAAAAATCAAAATTCTCCATTATATGTAATGACCTTAGCCATCTTTCTGACTTTACAAGACCTATTGAAACTTCAGTTTTCAGATTTCTGAAAAGTCACCTTCCCGGACCATTCACCTTTATTCTTGACGCTAACAAAAGTTTACCATTAGCCTATAAAGGTCATAAAACCATTGGTATCCGTGTTCCTGATCATCCCATTCCACAGCTTATTGTGGAAAAGTTGGGACACCCTATTGCATCTACTTCCATTAGAGATGATGATGAAATTATAGAATACTCTACCGATCCTGAGCTTATTGCAGAAAAGTACGACCATCTGGTAGATATTGTGATCGATTCAGGATATGGAGATAATGTAGCCTCCACCATTGTAGACCTTACTTCAGGAGAACCAGAGGTCATCCGCCAGGGAAAAGGAATTATCTAG	MYLCFMAKILKIYPDNPQENLVNEVIKTLNNGGLIIYPSDTIYALGCNIFDIKAMEKLAQLKKMKLEKSKFSIICNDLSHLSDFTRPIETSVFRFLKSHLPGPFTFILDANKSLPLAYKGHKTIGIRVPDHPIPQLIVEKLGHPIASTSIRDDDEIIEYSTDPELIAEKYDHLVDIVIDSGYGDNVASTIVDLTSGEPEVIRQGKGII				NA	NA	NA	NA	NA
BMS003_02622	243			hypothetical protein	ATGATAAACTCAAGTCGGGCGAGGAATATACAATCTATTCGTTCAGGCAGGTTTATTATAAAGTTATTCCGGGAGTTGAGAAAAGAAAGAACCGAGCTTGAGATATATAATTTATTGATGAAAGTTACCGGGCACTCTACATTGAAAGCTCTGAAGGCTTATTTACGAGATATTGATGCGGAACTGGCGGAAGATTATTCAAGATTTTTAGAAGAAAAAGAAGATGCAGAAACCGAAACTTAA	MINSSRARNIQSIRSGRFIIKLFRELRKERTELEIYNLLMKVTGHSTLKALKAYLRDIDAELAEDYSRFLEEKEDAETET				NA	NA	NA	NA	NA
BMS003_02623	192			hypothetical protein	ATGCAGAAACCGAAACTTAAATTGTTTTATGCTCCAACCGAGCAGCAATATTACATCTATTATTTTAAAGTCGAAGAATTTGCAGCAGAAGAATTTAAAAAGTTTGATAATGAACAATTAAATAATAAAAGCACCTATGATAAGGTGCTCTTTTTCTTTGTTGTGATTTTAATTAACAATCTCCATAAGTAG	MQKPKLKLFYAPTEQQYYIYYFKVEEFAAEEFKKFDNEQLNNKSTYDKVLFFFVVILINNLHK				NA	NA	NA	NA	NA
BMS003_02624	291			hypothetical protein	ATGAAAAAAATTTTTTTCGTTGGAGCTTTAGCTCTATCAACTTTTACATTTGCTAATACTAAAGAAGAAGTAAAGCAAGAAATTAAACAAGAGAAAACAACAGAAGTTAAGGAGCTTACTCCGAAGCAAAAAGCTGCAATGGCTTTGTTTTTTAGATGGTGGTCAGTTTCCTATACAAATGCTTGTGGAACAACAAACACTGTTTTTTTTCAATCTGATAATCCTGATGGGAGTCCAGGTTTTGTTGATGAGTTAGCATACGCTGTTAATTCTACTTATGGAGATTGTTAA	MKKIFFVGALALSTFTFANTKEEVKQEIKQEKTTEVKELTPKQKAAMALFFRWWSVSYTNACGTTNTVFFQSDNPDGSPGFVDELAYAVNSTYGDC				NA	NA	NA	NA	NA
BMS003_02625	771			hypothetical protein	ATGAAGAAGATTTTATTTGTAGGATTATTTACTTCAAGCCTTCTGTTTGTATCAGCACAAAACAAAGCTGTAATGGAAATCAATTATGAAACAAAATTGATTTCTGACAGCTTGAATAGGGAAAAAGTAAAAGTTTATACATCAACTTTATTGTGCAATAATACCGAATCAATTTATTGCAGTGCAGAAGCTAAGGCATACTATAAAGGAAATTCCACGCAAACCATAAGTACTAATTATGGGAATATTCCTAAATATCCTAAAGCTGTAGAAAGCATTTATAAAGCTAATGGAGTTACTAATGCATCCCTGCCAGTAGGAAAATATATTTTCTCGTTTGAAGAACCAAAACTAAATTGGGAAATTTTGAACGAAACTAAAGATATAAAAGGTTTTAAATGTCAATTAGCTAAAACAATCACCGATACCGGAGATACTTTTTTTGCATGGTTTACGAATGATATTACTATTTCAGATGGCCCATTTCGTTTCAAAGGACTTTCAGGAATGATTCTGGAAGTTTACAATAAGAGTAAGACGGTAGAAATTTATGCAACTGATATTAAGAAATCAGACGAAATTATAGAGCCACTAAAATATTATAACGAAGTTAAAGCTAAAAATAAACAACAGTTTTTAGAAGCAAGAAAAAACTTTCACGAAAATCCATCAATGTATAATGGTAATTTGAAAGTGGTAGATGCTAATGGCAATGATAGAACTAAAATTATGACTGATCGATTGAAAAGTGTAAATACTTTTCTTGACTAA	MKKILFVGLFTSSLLFVSAQNKAVMEINYETKLISDSLNREKVKVYTSTLLCNNTESIYCSAEAKAYYKGNSTQTISTNYGNIPKYPKAVESIYKANGVTNASLPVGKYIFSFEEPKLNWEILNETKDIKGFKCQLAKTITDTGDTFFAWFTNDITISDGPFRFKGLSGMILEVYNKSKTVEIYATDIKKSDEIIEPLKYYNEVKAKNKQQFLEARKNFHENPSMYNGNLKVVDANGNDRTKIMTDRLKSVNTFLD				NA	NA	NA	NA	NA
BMS003_02626	1350			hypothetical protein	ATGAAATTAAAATTATTAGCCAATACATTTCTGGGTATCGCAACACTGCTTGTTTTTCAATCATGCGCAGAAAACACTATGGCAGCTGAAGATACTGTTGCAGTACAGAAAAATACCTTAGCTTTAAGAAAGTCTTCGTCTTTCAGCGTGCCAGTTTCCGGAAATTCTTTTTTAACGGTAAAACCTTCGGGTGCCAGCGAAGTTATCACTTCCTCTAACTTAGGTAACTGGACAAACTCCAATACTGTAATCAGTACTTATTTCAGAGTAAGCAATACGGGAACGTTAAACCTTGGGTTAAAAGCTTCTGTTCCTTCAGGTACAAGTGTTGTAAAAATGACTGTAGGCAACACCTCCAAAAATGTTACTTTAACAGGATCCGGGTATAAAGATTATACCGTTGGTGATTTTACTATTTCTACTCCCGGTTATGTAAAAGTTGATCTGCAAGGGATATCCAAAACCGGTGGTTACTTTGCTGATGTAACAAATGTAACTTTCAGTGGGACTGCCTCTACAGGAAACAATGTTTACAGCAATGATCCTTCTTATTATTATTGGGCACGCAGAGGGCCTTCCTGCCACCTCAATTATACTATTCCAACGACCGGTAATGTCAGCTATTATTATAACGAAGTTACAGTTCCTGCCGGAGAGGATAAAATCGGCTCTTATTTTATGGCGAATGGCTTTAGTGCAGGGTATTTCGGAATGCAGGTTAATTCCGCTACGGAAAGAAGAATTCTGTTCTCTGTATGGAGTCCGTTTGAAACAGATGATCCTAATAATATTCCACCTGATCATAAAATTATTCTCAACAGAGCAGGTACCGGAGTAACGATCGGAGAATTTGGTAACGAGGGGTCTGGAGGACAAAGCTATTATAAATACAACTGGAGCGCAGGACAAACCTATAAATTCTTATTAAAAGGCGAACCGGACGGAACCGGAAAAACAGATTTTACGGCCTGGTTTTTATCTCCGGATGCTACATCATGGAAACTGATAGCCAGCTGGAAGCGACCTCAAACCAGCACTTACCTTAAAAGTTTCTATAGTTTCGTAGAAAACTTCAATCCTGAAAATGGATATATGGGTAGAAAAGCAGAGTTTAAAAATCAATGGGTAAGAACTTCAGACGGTAACTGGTCTGCTGTTTCCGGGGCCAAGTTTAGTGTGGATAATACTTACAATGCACAACAAAGAATAGATGCAATGGGCGGAACAAGTGGCAATGCTTTCTTTCTGCAAAATGGAGGGTTCTTTAATACTGTTGTTGCTCCCGGCACACAATTTTCTGTTACTGCACCTACACAGGCTCCGAACATCAATTTTTCCACACTTCCTTAA	MKLKLLANTFLGIATLLVFQSCAENTMAAEDTVAVQKNTLALRKSSSFSVPVSGNSFLTVKPSGASEVITSSNLGNWTNSNTVISTYFRVSNTGTLNLGLKASVPSGTSVVKMTVGNTSKNVTLTGSGYKDYTVGDFTISTPGYVKVDLQGISKTGGYFADVTNVTFSGTASTGNNVYSNDPSYYYWARRGPSCHLNYTIPTTGNVSYYYNEVTVPAGEDKIGSYFMANGFSAGYFGMQVNSATERRILFSVWSPFETDDPNNIPPDHKIILNRAGTGVTIGEFGNEGSGGQSYYKYNWSAGQTYKFLLKGEPDGTGKTDFTAWFLSPDATSWKLIASWKRPQTSTYLKSFYSFVENFNPENGYMGRKAEFKNQWVRTSDGNWSAVSGAKFSVDNTYNAQQRIDAMGGTSGNAFFLQNGGFFNTVVAPGTQFSVTAPTQAPNINFSTLP				NA	NA	NA	NA	NA
BMS003_02627	588			hypothetical protein	ATGTACTTGTTCAATGATAACAAAACATATATCATTTGGCTGGTCACTCATGATAAAAACTTTATAAAATTATTGGTTAAAAATTTCGGTTACGATAAAGAACCTAAATTTAATGAAATGCTTATTAATGAATATATTCAATCCAAAGATCAATATAAAATAGGTGAACTTGTATTTGCTAAAAATTGTAATAAAGAATTAGATGTACGGGATGGAATATTGCAGAGCTTGACTGATGCTTATCAAAAAAGCTCAAATCCTAAAGATTTATATGGATTAATGGAGTTTAGCTCAAAATTATTAGAAACCGATGAGTACAACAGTTATTCAGTGAAGGAAAAAATTGAAATGGTAGCTTATCTGGCAAATACTTATGATTTTTTGTTTAAAAAGAATCATAGAAATCAGGATGGCTGGGATTCTAGATGGAATATTTTAGGAGCATATTTTGAAGATGATTCCAGAGGTAAAATTAAGTGGTCTCAGCTAAAAAAAGAAATGCAAAGAAATAATTACTATGGTCTACCTAATTTGAAAGAAGTTATAAGTTATGCTGAAGGATTTGATAGCGTAGGTGCTCCGGATTAA	MYLFNDNKTYIIWLVTHDKNFIKLLVKNFGYDKEPKFNEMLINEYIQSKDQYKIGELVFAKNCNKELDVRDGILQSLTDAYQKSSNPKDLYGLMEFSSKLLETDEYNSYSVKEKIEMVAYLANTYDFLFKKNHRNQDGWDSRWNILGAYFEDDSRGKIKWSQLKKEMQRNNYYGLPNLKEVISYAEGFDSVGAPD				NA	NA	NA	NA	NA
BMS003_02628	627			hypothetical protein	ATGATAAAAAAGGTTATAATTTCTCTGCTTATTTTAATATGGAATGAATTGTATTCACAAAATACATTATTGAGTATGAAAAACGCTTTTCTGCCTGTTCTTAAGTCACAGTTGGCAGCTGGAGCAAGTGGAGAGAAAAATGAAACGGATTATCCAACCTATAAGTTTACACTAAAAGATTTAGAAGCTACTGAATCTATTATAGCAAAAGAATTAGATGATATTGGGTACAGGAAGCCAAATCAGGAAGATTTTTCTAATAAGATTAACCAAATATTCAATAGGGTAATTGATCCGAAGTCAGAATCAAAGTATTTACATGTCAATTTCGAAGATAAATGTTCGAAGGACTTAAAACTGTATAAAAATTTGAATAGTATCGATGCAAATCCATACAGTACTTATATTTTTAAAAATGGACTTTTCATTTCAGATTTATACAGTATTCCTGAAATAATGGATTATACCAAAAATTCTGAATTATCTCAGTTTGAAAATGATGCCGAGAATAACAATCATATAAAAGAGGTAAAAAATATATTATTGGAAAGACATTACCAATTTAAAAGAACAAAGAAAGGCAAATGTTCAGAGAATCATTGCAAGAAATATGTACTTGTTCAATGA	MIKKVIISLLILIWNELYSQNTLLSMKNAFLPVLKSQLAAGASGEKNETDYPTYKFTLKDLEATESIIAKELDDIGYRKPNQEDFSNKINQIFNRVIDPKSESKYLHVNFEDKCSKDLKLYKNLNSIDANPYSTYIFKNGLFISDLYSIPEIMDYTKNSELSQFENDAENNNHIKEVKNILLERHYQFKRTKKGKCSENHCKKYVLVQ				NA	NA	NA	NA	NA
BMS003_02629	1236			hypothetical protein	ATGAAAATTTTAAATATATCTATATTTATTTTATTATTTATTGGTTGCAATAACAAAAGTCAAGACAATAACATGAACACTACAACTAAACAATATGCAAAATCAGAAAATTTAGATACCAAAATTGATATTGAGGATGTTAAAAAGCATATTAAATTGCAAGAAAAAGTTGAGTCTGATGAGGTCGAGTACAGTGATCCATACAATCTTAATATAGAAGATTTAAAATTAGTTTCAAATATTGTTTATGATGATTTAATCAGTAATAATTATAGTAAGCCAAACGTTGAATCCTTTAACAATAAAATTGAAACTATTTTTTCAATTAGTCATAGTTCTAATAAATGCGTGAGTATTGATAAGAAAGATGGATATATAACAGTATTTGGTAATCACCTTGATGGCAATCCTGCGACACTTGAACAAAATAAATATGAACTTTATTCAACCACTCAGAATATTTTCATTAATACTAATGATCAGTTTATTTTTCCAATGCTTTTATTAAAAGAATTAATAAATATTAATAGTGATAATTCTTTTAAAATTAAAGTTCCACGATATATTATTGCACGCAATATGTATCTTTTTAATGATAGTAAGCCACAATTCAAATGGCTCATTTTAAATGATCAGAATTTCATGGAAAGCCTGGTTAAAACCTTCGGGTATACTCAAGATCCTGAACTCCTCAAGTGGGTGATTGAAAGAACAAAGTTTAGTAAAAATGACCCTCAGGATTATGGAAAGCTATTTTGGATTAAACAATGTGATGGAAGCTTAAAACTTCATGCCAATACTTTTAAAACTCTTCAAAAATTATACCTTCCTACTGATCAGTCAGAAAACAGATTTATCTTGGATCATATAAAAAATTATCTTGAATATTTTGCAGATTCTAATAACAAAGAAACAGATGTTTCAAAGGTAGATAAGGTAAAAATACTAGCGAATATCGTTTATTTTGCTGAACAATATAAGTATGACAAAAGGTTTGTTTCTGGATATGGAGATAATTCTAAAATGATGGGAAGGTTACGTTTCTTTTTAGATCAGGAGGAAGTAAATATTTTACAGAAAAATAATTATTTCAACCTTCCAAAATTTAAAGAATGGTGGGACAATGCAGACTATGATGAATATTTTGTTGAAGAATGCGAGTACAACGGGACTTGTGGCCCAGATAACCAACCGATGAATATTACAGAATGGAGAAAACAGCATCCTAAAAAATAA	MKILNISIFILLFIGCNNKSQDNNMNTTTKQYAKSENLDTKIDIEDVKKHIKLQEKVESDEVEYSDPYNLNIEDLKLVSNIVYDDLISNNYSKPNVESFNNKIETIFSISHSSNKCVSIDKKDGYITVFGNHLDGNPATLEQNKYELYSTTQNIFINTNDQFIFPMLLLKELININSDNSFKIKVPRYIIARNMYLFNDSKPQFKWLILNDQNFMESLVKTFGYTQDPELLKWVIERTKFSKNDPQDYGKLFWIKQCDGSLKLHANTFKTLQKLYLPTDQSENRFILDHIKNYLEYFADSNNKETDVSKVDKVKILANIVYFAEQYKYDKRFVSGYGDNSKMMGRLRFFLDQEEVNILQKNNYFNLPKFKEWWDNADYDEYFVEECEYNGTCGPDNQPMNITEWRKQHPKK				NA	NA	NA	NA	NA
BMS003_02630	4293			hypothetical protein	ATGGCGGATAAAGGATATATCATTATAGAAGGAGCTACTGCGTACTGCAGCAGTTCTGTAACCAATAATTCCACGGGAACAGCCGTTCCGGTGGAAGTGAAAAGCCAGAAAAAAAAGCTGGGCAAAAACAAATATTTTGCACAGAACAAACCTGTAGCAACCTATCTTGATGACAAAGCCGACAGCTTCGGAAGCGGAAACGGATTCGGGAACTGTAAAGGTTCTGATGGTAAAACCTATCCTTGTAAAGGCAAATGTAATATCAAGTATAAAGACTATTACGAAAACGTAGAATTCAACAAGAGTATGAAAATCCTTTTAGACGCTTCTACAGGAAACTGTCCCGGATATGGTGTTCCCGGAACTATTGCTTTTGCAACTACCGGACAGGCCAATAATGTTTCACAGATAGACGTCAAAGAAGCTGATGAGTTTTCCGTAGCCAATGCTTCCCCACAATGGCCGTCATCTTCTGCATCCGAGGCAGGTACGGCAGTGTCATCAATTTCAATGACAAGGCCAATTCCTGTCGATAAGCTTAATGGTACTTACTATTATATCAAAGGAATGAATGGGCCGCTTCTTTCTATTATGAACCCTTTTGGCGGTGATAATCTTGATTTGAAGGCTCAGTTTAAAGGGAACGAGAAAAAGATTATCTGGGCACTTTTCAAAGGAGAAGGAACAAAAGATAAAATAAAAACATTTATTGGATTGGGAAGCAATTTCAACCAGTCGATGAGTAAAATATTCGACGGACTTACGGAAGGCAAGTACAGACTGGAAGCTTACGGTAAAAAAGCAGGTGATGCAAAATGCTCCCTCAATGTAGAAATTATACAGGATTTTGTTAAGAAAATTGTCAGTCCAGGCTCTTCAACGTTCATTAATACCCCTTTACCTTTATCTATTGAACGAAAGCTTAACAGTACTACAGATCAGGTAAAAATACTGAACAGAGGATTCTTTATACCTGTAAATACTGTACACTGGACTGTAAAACAAGGAACAACAGTGCTGTACAACAGTTCTTCCGGAGCCTCATCTTCGCATCTTGTTTCCGTGGCGGGAGCAGGAGATCGTGTGGTTCTTACCTTTAAAAATGCTGGGAGATATACCATAGAAGCCTTTACAGATCCTGCAGACCCCAAGCCACAGTCTGTAGAAATTAAAATTGAAAACAGTCTTGGAGTAATGGGGGTTAAAGGAGAGCCTGGTCTGGTGAGATTCAGTGATACAATCAAAGTACAGGCCTCAAAGTTTAATGTCACTTATATGCCTTCTGGAACCTCTGTTTACTGGTATCTTAAAAAAGAAGGTATGGGAAGAGTTGCTTTATTCGAAAATTCAGCTTCCTTCAGAACAGGCACAATCAATAAAAAGGTGGCAGAACTGCTTTACAATGATGCAAAACTAGCCAGCAATCAATACTTCGGAAAATATATACTTGAAGCCTATGCCAATCCGCTGGGAGCTGGAAAACAGCCGGGTTTTTCCGGATCAGACTGTTTTAACTTTGAGGTGATTCAAAATGTCATTGATAAATTTACCCTTCCGGCTGCCAATATTCCGAAAGGAACAAAAATAAGATATACTGCAACAGCAAGAATAGCCACGCTGGCAGGTAATGAAGCCATAAAAATAGAAGTTCCGGATAAAGTAACCAATAACGGTGACGGAACCATTACATTTAACGATCTCGGAGAATACAAAATTTCTGCATACTTAACAGGAGATTATACTGATGGAAAGAAAATAGAAGAGAAAGTAAAAGTTTCAGATCCTTCCGTAAAAAGAGCGCTTTGGTCTTATGGAACCGGTGTGAAGCGAACAGAAACAGGATTCGGAGAAGAAACCTACGGATTTATTGAAATTGACGGACTTCAGAACCAGGCTTTAAAAGTAAAAATATGGGTAAAAGGTGAAGGCGATGATTTCTATAAGGAGAAAGACAAATACATGCTGGAAGAGAAAACAGTCACGCTGAACAACGAAGGCAAAGCTTCTTTCCTGATTACCACCAATGACGATTACAAGAAAAAATTACTGGCAGCTATACCCAAAACAACGGAAAATCCCAATCCGTCTTACCGAATTGTATTTACGGTAGAGCTTCAGGCAGGCTCGTCCGCAGATATTGTACTTCCGGGGAATATTACCATCCAGGGAACGCGTCCTGTGGTTGTAGACAGTGCTACAACTTATCTGGAAGTTTTAGATTCCAATGAAGAACTGGTCATCACTTCCGAGCAGAAAATTGTTTCCATTATGTTCTCTACCGAAGATGGTAAAGATATTCAGCGTATGCAGACTTTCTATGGCAAAACCCACAAACTTTGGGTGCATACCGTTAATATGACTGAAGAAGTTCTGAAGATTGATGTTTTGAAGGAGATTCCCAAAGAAGGACTAAACGAAAAAGATCATATCACCTATACCCACGAAAGTAAGCAAAGCTATAACGAAGAAAAGACAGGTAAAGACGGGCTGCTGGAAGTTTCCTTTACAGCAAAAGAAGAATGGAAAAATCCACCAAAAAACTTTGATTACTACATTGCTCAGGTTTCCCGTCAGGTTCAGGATCCCGCTGATCCCAAAAAGAAAGTCTGGAAAATAGAAAAAAGCCAGTTGACCATCAATAGTACACTTCCAGCCGATTTGGTTAGAACTGAGGATATGGAAAAACTGGGAATTAAAGCTTATAAAAAAGATGGAACTCCCTTTACGAAAGAAGAAATGCTGGAACTTAGAAAACAATTTATCTTCTACGAAAGTGGCTGCCTTAAAGTATCCCAAAAAGAAACTCCTGAGGCTATTGATAATGATGTGATGCCTGTTGTGGTGGAAATGGCGGAGGTGAGAAAACAGAAAACATGTTATTGTAACCGAGGTTTTACAGATAAAGAAATGGAAGATCTCATTAAAACAATGACTGGAGGTACTGAGATTTGGAAGGGAATAAAAGAAAGCTGTGATATTACAGATAAAACTATTAAGAGCTTAACTGCTGAGGTAAATGCTATGTTTGCCAGCAATGGAATTAATAGATGTATGCAGAAAATTTCATTTTTGGCAAATGTATCTGAAGAAACTGGCTTTTTTGTACAGAGTAAAGAGGAAAAAAGTAAATATTTATCGAGTCAAAGTACTTACAAAGGACGAGGAATACTCCAGATTACTGGAACCGATGATGGAACGGGATATTATAATAATCCAGGACCTTATAAAAATTATGGAAAAGATAAATATGCTGATGAAAATAAATTTTTGGATGATAATGCAGATCTTATTTCTAAAGATCTTCATAACGCAGTTGATGTAGGTGGTTGGATCTTTAATTTTAAAAAAGTTCCTTCATGGGAGCTTAATCCTAAAAAAACGTATTCGAAAGAATTGACAGAAACCCTTGCATGGAAACGTACATACTTTAGTAAAGGATTAGGAAAAAGTCTTACGGAACTTGGTTTACTCATGGAGGAGGAAGAAGAGAAGTATTTTTTCTTGCAAGGGAAAATACTAAACGGATATGTGCCATCTGATAGATTAGAAAAACCTCCTATTGGGTGGGAAGGAAGGAAGAAAGCTTTGGAGAAATTAAAGACTTGGTTTAAATATGATAAAAATGTTTGTAATGGAGAGGCAGTTGTATTACCAGAGCTTGCTGATCGTGCACCCTGGATGACTATTGCATTGAGAATTGCAAAAGAAATGAAAGGATGTGAGGAATCAAAGGAACCAATGTATTCAAAAGCTAAATCTTACCTTAGATATTGTGGGAATACATATGAGCCTACGGATCCGGATAATGGACCGTGGTGTGCTGCTTATATGAATTGGTGTATAGGGCAAACAACCAATCCTGAAACAAATCTCCCATATAAACATGCTAAATCAGCTTCATCTCTAGCACCTATTGATAGTGTTGCTGGGAAAAACTATAAACAGATTGCTGAGCCTATTTTTGGATGTCTTGTGGTATACAGACATAATACGAAATGGAAGGGACATACTGGTTTTTTATATGGAATGACTAAAAAAGGAGCGTACATACTTCTTGGAGGTAACCAGGATCAGACGGTTAAATTTAGTTCTTATGATGAATACACCAGTAATTCTAAAAAGAAAAAATTATGGGGATTTTATATTCCAGCAGATTATACACCTACTGAAAAAGATAAACTAACTGCGGCGGATTATTATGATGATGGAAATAATAGTAATTATGATGACGGAGATATAATTAATGCTAAATTTGGAATAGGTACAGGAAAAAATACGGGTTCAACAAACTAA	MADKGYIIIEGATAYCSSSVTNNSTGTAVPVEVKSQKKKLGKNKYFAQNKPVATYLDDKADSFGSGNGFGNCKGSDGKTYPCKGKCNIKYKDYYENVEFNKSMKILLDASTGNCPGYGVPGTIAFATTGQANNVSQIDVKEADEFSVANASPQWPSSSASEAGTAVSSISMTRPIPVDKLNGTYYYIKGMNGPLLSIMNPFGGDNLDLKAQFKGNEKKIIWALFKGEGTKDKIKTFIGLGSNFNQSMSKIFDGLTEGKYRLEAYGKKAGDAKCSLNVEIIQDFVKKIVSPGSSTFINTPLPLSIERKLNSTTDQVKILNRGFFIPVNTVHWTVKQGTTVLYNSSSGASSSHLVSVAGAGDRVVLTFKNAGRYTIEAFTDPADPKPQSVEIKIENSLGVMGVKGEPGLVRFSDTIKVQASKFNVTYMPSGTSVYWYLKKEGMGRVALFENSASFRTGTINKKVAELLYNDAKLASNQYFGKYILEAYANPLGAGKQPGFSGSDCFNFEVIQNVIDKFTLPAANIPKGTKIRYTATARIATLAGNEAIKIEVPDKVTNNGDGTITFNDLGEYKISAYLTGDYTDGKKIEEKVKVSDPSVKRALWSYGTGVKRTETGFGEETYGFIEIDGLQNQALKVKIWVKGEGDDFYKEKDKYMLEEKTVTLNNEGKASFLITTNDDYKKKLLAAIPKTTENPNPSYRIVFTVELQAGSSADIVLPGNITIQGTRPVVVDSATTYLEVLDSNEELVITSEQKIVSIMFSTEDGKDIQRMQTFYGKTHKLWVHTVNMTEEVLKIDVLKEIPKEGLNEKDHITYTHESKQSYNEEKTGKDGLLEVSFTAKEEWKNPPKNFDYYIAQVSRQVQDPADPKKKVWKIEKSQLTINSTLPADLVRTEDMEKLGIKAYKKDGTPFTKEEMLELRKQFIFYESGCLKVSQKETPEAIDNDVMPVVVEMAEVRKQKTCYCNRGFTDKEMEDLIKTMTGGTEIWKGIKESCDITDKTIKSLTAEVNAMFASNGINRCMQKISFLANVSEETGFFVQSKEEKSKYLSSQSTYKGRGILQITGTDDGTGYYNNPGPYKNYGKDKYADENKFLDDNADLISKDLHNAVDVGGWIFNFKKVPSWELNPKKTYSKELTETLAWKRTYFSKGLGKSLTELGLLMEEEEEKYFFLQGKILNGYVPSDRLEKPPIGWEGRKKALEKLKTWFKYDKNVCNGEAVVLPELADRAPWMTIALRIAKEMKGCEESKEPMYSKAKSYLRYCGNTYEPTDPDNGPWCAAYMNWCIGQTTNPETNLPYKHAKSASSLAPIDSVAGKNYKQIAEPIFGCLVVYRHNTKWKGHTGFLYGMTKKGAYILLGGNQDQTVKFSSYDEYTSNSKKKKLWGFYIPADYTPTEKDKLTAADYYDDGNNSNYDDGDIINAKFGIGTGKNTGSTN				NA	NA	NA	NA	NA
BMS003_02631	792			hypothetical protein	ATGGTAGAAACGAGAGTAAAACCTTTTCAGAAATATACATCAGGAATTCATTATTATCAGGTGGAAAATGCACTTGAAATACGCTTTGGAGAAGAAAAAGGGTTTTATTCATCTTATAAAATTACCCTTCAGGAAAAGGTAAATGAAGACAACACAAAAAACTGGCTGATAGAAAAAGTTGAAGATTCCTCCTTTCCATCCGAAAATAAATTCATGGAAATCCTTCATGTACTGGAACAGAGTTCTTATCCGCTGGAAATAAAAGTGGATGAAAAAGGCAGCTTTTTAAGAGCTGTGGATCATCAGAAAAACATAGAGAACTGGAAGCTCAAAACTGCGGGACTTCAGGAAAAATACCAGAATATTGATGTTTTTAGAAATCAGTACTTATCGGCTCTTGAAGATGAAGCTGTTTTTTATAAAAATAAACTCAAAGAACCCTTTTGGAATCTTTTGCTCTTTGCACCGTATTATGTAGATAACGGCGGAAAAAACCAGGAATCTGTCGTGTGGAATATCAAAGGGATCGGAGATGTAGAATGCCCCGGAATTATCATTGCAGAACAGAGAGAATATGGCTTTGAAGCTTCCTTTATTTCTGAAATCAAAGTTCCGGAAACAATAAAACAGGAATTGGATAAAAAATACCTTTACCAGGCACAGTATCAGGTAAAATTACAAATAAAAATGGAATATAATTCCCGCAAAAAACAGTATTCCCAAAAGAAAGCCGACTTTATTTTGGCTGATGAAGAAAAAACAGTGTACCGGGAAACAATCACAATGACTTAA	MVETRVKPFQKYTSGIHYYQVENALEIRFGEEKGFYSSYKITLQEKVNEDNTKNWLIEKVEDSSFPSENKFMEILHVLEQSSYPLEIKVDEKGSFLRAVDHQKNIENWKLKTAGLQEKYQNIDVFRNQYLSALEDEAVFYKNKLKEPFWNLLLFAPYYVDNGGKNQESVVWNIKGIGDVECPGIIIAEQREYGFEASFISEIKVPETIKQELDKKYLYQAQYQVKLQIKMEYNSRKKQYSQKKADFILADEEKTVYRETITMT				NA	NA	NA	NA	NA
BMS003_02632	543			hypothetical protein	ATGAAAATAAAAACTCTTCTCACATTAATTTTTACAACTCTAATCTTAATAACCTGTAATAAAAGTAAGGATCTGGGTGGATATAGAGAAAATTATAGTTTAGAAAATGGCTCTATCACTACTGATACAATCGCATTTAAAAATTTTGTAGGAGAAATTCCCCAATTATTTAATAAAAATGTACATCAGCTTAGCAAGAAAATAATCTTTAAAATAAACCATTCAGACGGTATTGATCTGAAAGGGAATAGGATATTAATCACTTTGGAAAATGAAAACATTTATTTTGGAGATTATAATCAGGATATAGCAGTCAATATTGGTTATGATCAGCCCTATTATGCAAGTTTAAGATTTTACATAATAAGCGATAAAAATAAAACCATTAATAAATTTACTTCAGATCTTCATTATCCAATTTTTAAAAAACAATATGATGAGATAGATGTTAAGCTTTTATCTGGTTCAAAAAAGATATATAATGATTTAGAAACATCTTATGAAATAACTAATATTCCAGATGAAATAGCTGAAAAGAAATAG	MKIKTLLTLIFTTLILITCNKSKDLGGYRENYSLENGSITTDTIAFKNFVGEIPQLFNKNVHQLSKKIIFKINHSDGIDLKGNRILITLENENIYFGDYNQDIAVNIGYDQPYYASLRFYIISDKNKTINKFTSDLHYPIFKKQYDEIDVKLLSGSKKIYNDLETSYEITNIPDEIAEKK				NA	NA	NA	NA	NA
BMS003_02633	1362			hypothetical protein	ATGGCAGGCGAAGGCGGAAATATTGTACGGAATGTCTTTGGGAGATCCTATAAAGAAGCAGAGCAGATCATGAAAGATGCTTCCAGGGGGACTCTGGATTTTAAATCTCCTCAGGAAAATACTTTTTACGGTAAAAAGGGAGGGAAAAAATTTGATGAATATCAGGCGAAAGAGCAGGCAAAACCACTACAGGTAAAAGCCGTAAAATGCTATGAAGATTTTGCATGTACAAAAGAGGTTAAAATTATAGAAAAAGGAAAAAACTATTTTTTTAAAGCCATTCAATACAGCAGAACACCTACAAAATCAGAATTGAAAAGCCTTAAATGGGCCATACAGTATGATGATACCAATATAGCCAATGCACCACAGGTAACGGGTGAAGAAAAAATTTCTTATGTGGTTCCGAAGGAAAGAAATATCATTAAACTGAGAGTATATGCCTTTTTTAAAGAATATAGCCCGAATGTAAAAGCAGAAGTATATTTAATAAAAGAAGAGGTCGTAATAATTATAGGTACTGAGCAGCACTCGACAAATATTGCAAATAAGTTGATGTTTCCCGGGGAAGCAGTCAGAAAAGTTCGTACTAAATATCCTGATTATCCCTTTGTTAAGGTAGCCCTATTTACTGATGGATATTCCGAAAATCAGTTGTCAGCAATAACCAATGATTTAATTAAGCATAATAAAAGCTTAACAGTGATAAGAGTTACTACAATAGATGATGTTGTTAATATTATTAATTCTGGAAATAGGGATAGTACAGCTTTTGATAATAAAAGAAGAGTTAAGGAAATTTATGCATATTCACATGGTTATGTAAGAAATGCAACAAATGAAGGGGTCATAGCATTTGGATACGAAGGTAAAGGTGCTGAAAAGCAGGAACTTGACGCCAAGAGCTTTTCAAAAGTTAATCCAGCTGTTTTTTTAGATGGAAACACGTCTGTATTTTATTCTTATGCATGCAGAACTGGTATCGGAACAAGTTCGGAGATAACTACAAATGCTTTTAAAGATAAAAGCTTGGCACAAAAAATGGCTAATCATGGTAAAATAACAGTCTATGGCTATATGAGAAGATCACTGTATGAAGATGCATGGGGAACACAGAATCATAGGGATACCTATGCTTCTGATCATGATGAGGGAGGTTCAACTTGGGAAAATTTTAAAACAGATTTAAAAGATGCATATCAGTCGGATCCAAATGATATGGATACTTACAATAAATACAGAAAAAAAGAAATAAAATTAGATAAAGCAATCTGGAATCCGGATGGAGCATATTTGGATGTAAAAGCAGGTACCTGGCCCGTAGGTGTCCCGGCAACTTATGAAAAATTTTTACCAAAATAA	MAGEGGNIVRNVFGRSYKEAEQIMKDASRGTLDFKSPQENTFYGKKGGKKFDEYQAKEQAKPLQVKAVKCYEDFACTKEVKIIEKGKNYFFKAIQYSRTPTKSELKSLKWAIQYDDTNIANAPQVTGEEKISYVVPKERNIIKLRVYAFFKEYSPNVKAEVYLIKEEVVIIIGTEQHSTNIANKLMFPGEAVRKVRTKYPDYPFVKVALFTDGYSENQLSAITNDLIKHNKSLTVIRVTTIDDVVNIINSGNRDSTAFDNKRRVKEIYAYSHGYVRNATNEGVIAFGYEGKGAEKQELDAKSFSKVNPAVFLDGNTSVFYSYACRTGIGTSSEITTNAFKDKSLAQKMANHGKITVYGYMRRSLYEDAWGTQNHRDTYASDHDEGGSTWENFKTDLKDAYQSDPNDMDTYNKYRKKEIKLDKAIWNPDGAYLDVKAGTWPVGVPATYEKFLPK				NA	NA	NA	NA	NA
BMS003_02634	1881			hypothetical protein	ATGAATAAAAATGCCTCGAATTCCGATAAGATTTCTGAGAATCATATTCCAGGGATCAACCGTGTGATAAAACTGGATATTGTGATTGAAGGCAAGATAATCAAACACTTCAAGCATTTCCGTCTGCAGCAAAGTGCAAGACGCCATCACAATTTTGAGCTTACTCTGGCTCATGATTCCCTTGGGGAAGCTCAAAATCATACACTGGAACAAGCCCGTCAGTTTTTGGGAAAAAGAATTACCGTTGTCTTCAAATATAAAGATTACGAAAATGAAAGTCCTGAAAGAACTTTTGTTGGGGTTATTACCAAAGCGGCATTCAGCCAGAAAAAAATGAGCCTTGGAAATATTGTACTGCGTGGTCAGAGTCCTACTATTCTGATGGATGCAGCTCCCCATACCCAAAGTTTTGGAGGAGATCAGGCTGTTAATACCGGGATCATTGCTAACAAAATACTCAAAGAAGCACTGGGATCGGAGAAATTTGATTTCAGAGTAGATCCTCAGAATAAAAGTTATATCAATTACAGTTCACAATATAACGAAACTCATTACAACTATCTGGCAAGAACTGCGGAAGCGTATGGAGAACAGTTTTATTATGATGGAGAAGTCCTTCATTTCGGGAAACTTCCTCCTTCGGAAAAACCGATTCGTCTTATCTACGGAAGCAATGCAACCGATGTTCAGGTAGAGCTTAATGCGGTGCATACCAATCCTCAGTTTTTTGGATACAACAGCAGCAGTCATACTAAGATGGAAGGTGCTGAAAATAATATCAGGCATTTGGGAGAAATTCCTTCAAAAGCCTACGAAATTAATAGCAGTATTTTCAAAACACCTTCTTTGTCGCCCGTACCTGTTAACGCCAATATGTTTATGGATGTGAGCGATTCTCAGAAAAGTGCTGCCGGAAGTGCTGCTGTGGAAGTATTTACTGTAGCAGGAAATACTACAGTTCCCTTTCTGTATCCGGGATGTCTTGCCGATATTGAAATGAGGAAGCCGGACACCAGCCATACTTCTTATTTTACAAAAATCACGATTACTGAAGTGACTCACGAAGTCAATGCCAGAGGATATTATAACGGCAGTTTTGAAGCCATTGCTGAAGGAACAGGCTTTATGCCGAAACCGGATTTTATACAGCCGAAAGCCGAGCCGCAGGTTGCCACCGTTATTTCCAATACAGATCCCCTGAACCAGGGAAGGATACAGGTGAGATTCGACTGGCAGAAAAACCCGGATACAACCCATTTTATCAGAATGATGAGCCCTGATGCAGGAGGAACAGATATGATCACTCAAAACAGAGGTTTTGTAGCAGTACCGGAAGTAGGAGATCAGGTAATGGTAGGTTTTGAATACCATCATCCCGATTTTCCATTTGCCATGGGAGGAATGTTCCATGGGCAGGTAGCATTGGGAGGCAGTATCAATAATCATCTTAAATCTATTCAGACAAGAAGCGGAAACAAAGTGATCTTTAACGATCAGGAAGGAAGTATTTTCATTGAAGATCCGAGTGGCAATACTTATCTCATGGATGGGAAAGGCAATATTGTGGTGAATGCTCCTAAAAATATAACCTTCACTGCAGGAGAAAATGTGCAGATCAATGCAGGGAAAAATATCATTGCCTCTGCGCAGAGAAATGTAAATATCATGGCCGGAGAAGATATCACGGAAACAGCTAATGATGATTACAACCTTACAGCAAGCAATATCATTGAAACAGCTGAAGCAGGCAGAAAGTCTACAGCTAAAAATATTACGGAAAATATGGAAGCTGGCTCTTACATCAGTACAAAAGATGCCATTAATGTAGAAAGTGCCAAGGAAGTCCTTATCAATAGTGGTAAACAGGTAAAAATGCAGTAA	MNKNASNSDKISENHIPGINRVIKLDIVIEGKIIKHFKHFRLQQSARRHHNFELTLAHDSLGEAQNHTLEQARQFLGKRITVVFKYKDYENESPERTFVGVITKAAFSQKKMSLGNIVLRGQSPTILMDAAPHTQSFGGDQAVNTGIIANKILKEALGSEKFDFRVDPQNKSYINYSSQYNETHYNYLARTAEAYGEQFYYDGEVLHFGKLPPSEKPIRLIYGSNATDVQVELNAVHTNPQFFGYNSSSHTKMEGAENNIRHLGEIPSKAYEINSSIFKTPSLSPVPVNANMFMDVSDSQKSAAGSAAVEVFTVAGNTTVPFLYPGCLADIEMRKPDTSHTSYFTKITITEVTHEVNARGYYNGSFEAIAEGTGFMPKPDFIQPKAEPQVATVISNTDPLNQGRIQVRFDWQKNPDTTHFIRMMSPDAGGTDMITQNRGFVAVPEVGDQVMVGFEYHHPDFPFAMGGMFHGQVALGGSINNHLKSIQTRSGNKVIFNDQEGSIFIEDPSGNTYLMDGKGNIVVNAPKNITFTAGENVQINAGKNIIASAQRNVNIMAGEDITETANDDYNLTASNIIETAEAGRKSTAKNITENMEAGSYISTKDAINVESAKEVLINSGKQVKMQ	PGPT0030410_3896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS003_02635	405			hypothetical protein	ATGGCAGAAAGAAATTCAAGAGGAATTTTAAAATTCAACAACGGAGAAGGACAAAAGCTATTAAAACTTAATTACAGCGTATCAAGATCTACAGACGTATCTGGACGTGTGGCATCAGACCCTTCCAATGCTCTTATCAAAATTACAGTGGAAGCTACAGAAAAATCAGACATCCTGGAAAGCTTACTGAACGGAAAGTACAAACCTACAGTGGGAGAGATTACTTTCAATAAATCTCATGAAGAAGGAACGCTAACAACATTGAAATGGAACAACGGTTATGTTATCCAGCACGAAGTAGATTTTGATGCTGTGGATGACAACAGTATGTATATCAGTTTTGTGGTAAGTGCTGAACAGATTGATCTGGGGAATTCTTCTTACTTCGGGGCATGGCCTTCTTAA	MAERNSRGILKFNNGEGQKLLKLNYSVSRSTDVSGRVASDPSNALIKITVEATEKSDILESLLNGKYKPTVGEITFNKSHEEGTLTTLKWNNGYVIQHEVDFDAVDDNSMYISFVVSAEQIDLGNSSYFGAWPS				NA	NA	NA	NA	NA
BMS003_02637	762	lytR_4	COG3279	Sensory transduction protein LytR	ATGAAAATTGCCATTATAGAAGATGAACTGCTGCCTGTGAATTATCTGAAAAATCTTTTGGATACACAGGGCATAGTCCCTGTTACAGAGACCGTTGTTCTTCGTTCCAAAAAACAGGCAATAGATTTTTTCGGGAAAGATTCAGCAGATCTTATCTTTATGGATATTCATCTTGGTGACGGAATGAGTCTGGAAATCTTCGAGCAGGTAGAACTTTTTACCCCCATTATTTTCATTACTGCATTTGATGAATATGCTATGAGAGTTTTCAGACATTTTACCATTGATTATCTCCTGAAGCCTTTTGAAGAAGAAGATCTGCATAAAGCTTTACGGAAATTTATCACCATAAGAAACAACTTTGACCCTGAACCGGTACTTAAATCCATCTCATCTCTGCGACAGGCAGACGAAGAGATGATGAAACGATTCATGGTGAGAGAAGGGAATAAGCTCAAATCAATAGACGAGCATAATACCGCTTATTTTTTTGCATCAGGAAAGTACCTTTTCCTTACTACAAAAGACCATCAGACCTATATTTATGATGATACCATTAAAGATATTATCCAAAAGCTGAATCCTGAGATCTTCTTTAAAATAAACCGTAAGTTTATCATTAATAAAGATGCTGTTTCTGAAATTATCAAATACTCCAGTCAGAAAGTGGAACTTAGACTTTCGCCTGAGCCGGAAGTAAATGCAGAAATTTTTATCAGTAAAATGCAGATTTCTGAATGCCTGAACTGGCTGAACAGCTGA	MKIAIIEDELLPVNYLKNLLDTQGIVPVTETVVLRSKKQAIDFFGKDSADLIFMDIHLGDGMSLEIFEQVELFTPIIFITAFDEYAMRVFRHFTIDYLLKPFEEEDLHKALRKFITIRNNFDPEPVLKSISSLRQADEEMMKRFMVREGNKLKSIDEHNTAYFFASGKYLFLTTKDHQTYIYDDTIKDIIQKLNPEIFFKINRKFIINKDAVSEIIKYSSQKVELRLSPEPEVNAEIFISKMQISECLNWLNS	PGPT0026304_871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_02638	1320			SusD-like protein P38	ATGAGAAAAATTACAACAATTATAGCGCTTACAGCAATCAGCCTTATCAATATCGGATGTGACAGGTTTTTGGATATTCAGCCTGAAGGAAAAATTATTCCTGCTACTGTTGAAGATTACCGGAAAGTACTTACATCTGCGTATTCAAAATATCCGGTTCATAAATCTCTGGTGGCACTTCGTACCGATGAGGTAAATATTGATGATAATTCTACAGATTTTATTTCCTACCGTGAAATTGCGATGTGGAAAGATTCCAACAATGATGCTGCATCTACGGAATTTCCCTGGGTAAGCTTTTATTCAGTAAATTTCTATCTGAACCAGATTATTATTGAAGGAAGTAAAACCATGCAGGATTCTCCTGAGAAGAATCAGATTTTAGCAGAAGCGTACGCTCTTCGTGCCTATCTTTATTTTGATATGGTGAATCTATACGGAAAACCTTACAACAGTGCTACAGCTTCTACAGACAGAGGTGTTCCCATTAATCTTGAAATTGATCTTGAACAGGTGTTGAAGCCATCTTCAGTACAGGAAGTATATGATCAGGTTCATGCAGATCTTAAAAAAGCTGAAGATCTGATGGTAGAGCAGAAACAGGCATTGGGAGTGAACTACAGGTTTTCAAAAACAGCATTGCTGGCATTTCAGGCAAGAGCAGCGCTCTATGAAGGAGACTGGAATAAAGCTTTAAACTATGCAGATCAGGTGCTGGCAGTAAAGGGAGATTTGAGTGATCTGAATACTGTAAATACACCGCCCAATCATTATGCTTCTCCGGAATCTATCATGGCTTTGGACAATACATGGGATAACTCTATAAAGAACTTATCTTTTGCATCTCCGGAACTCATTTCTTCATATGATAGTACCGCAGATAAAAGGTTTGGCATGTATTTTGAAAAAAATGGAAGTAAGTATAAAGTCACTAAAGGAGGAAGTTTAGAATTCAAAGTGTCTTTCAGAACGGCAGAGCAGTATTTTATAAAATCTGAAGCTTTATTAAAGCTGAATAAACTGACAGAAGCTAAAGAAACACTTCTGAAAGTATTAAAAAACAGATATACTCCGGAAGGATATACCTCAGTACAAAATGCCGTGTCTTCAATGGATTCTGCAGCATTTATGAGCTTTATCCTGGATGAGAGATTCAGAGAATTTGCTTTGGAAGGGCAGAGATGGTTTGACCTGAGAAGAGCAGATCAGAAAAAAATAACCCACACCATCAGTGGCAAAGAGTATATTCTTCAGCAGAATGATCCGAGATATACCATTGAATATCCAATGAGTGCGAAGAAGAATAACCCTAATTTATAA	MRKITTIIALTAISLINIGCDRFLDIQPEGKIIPATVEDYRKVLTSAYSKYPVHKSLVALRTDEVNIDDNSTDFISYREIAMWKDSNNDAASTEFPWVSFYSVNFYLNQIIIEGSKTMQDSPEKNQILAEAYALRAYLYFDMVNLYGKPYNSATASTDRGVPINLEIDLEQVLKPSSVQEVYDQVHADLKKAEDLMVEQKQALGVNYRFSKTALLAFQARAALYEGDWNKALNYADQVLAVKGDLSDLNTVNTPPNHYASPESIMALDNTWDNSIKNLSFASPELISSYDSTADKRFGMYFEKNGSKYKVTKGGSLEFKVSFRTAEQYFIKSEALLKLNKLTEAKETLLKVLKNRYTPEGYTSVQNAVSSMDSAAFMSFILDERFREFALEGQRWFDLRRADQKKITHTISGKEYILQQNDPRYTIEYPMSAKKNNPNL				NA	NA	NA	NA	NA
BMS003_02639	3333			TonB-dependent receptor P3	ATGAAAAAAACTCTAATACTTTTACCTCTTTTGGCAGCTAATATAGCAATGGCCCAGCAAAAGAAAACCATCACCGGAAAAATAGAAGACGGAAATACTTCCCAGACTATCAGCGGTGCATCTATAAAAATCGAGACACAGTCTGTCTCTACAAAAACAGAATTGGAAGGAATTATCGAAAGTGTATCGGTAGGTACAGTGACGGATAAGGACGGAAAATTCATATTGGAAATTCCTGCCGATACAAAAACGGTATTGGTGAGCTACCCTGGTTACGAATCCAGAGTCATTCAGCTGAATGAAGGACAGACTAACTATACCATCAGATTAACTTCTGAGATAACAGATAAAAATAAAATTCAGGAAGTTATCATCACCGGTTACCAGAAAATTGAAAAACGGAAACAAACGTCAGCCGTTTCTACAGTAAAAATGGACAACATCAGCCAGGCTGGTGTTGCCAGTGTAGATCAAATGCTGGCAGGACAGATTGCCGGTGTGGCAGTAACTCCCGAAACCGGAGCTCCTGGTAGTCCGGCGAAAATAAGAATCAGGGGTACAGCTTCTCTTTCCGGTCCTCAGGATCCGTTATGGGTAATTGACGGTCTTCCTTTAGAAGGAAATGATGTACCCAACTTTACTGATAAAGACAATATCGACCAGCTTCAGAACTTCTCTATTGCAGGATTGAACCCCAACGATATCGAAGATATCACCATTCTTAAAGATGCAGCAGCAACTGCAATTTACGGGGCAAGAGCAGCCAACGGAGTCATTTCCATTACCACCAAAAAAGGAAAGAAAGGAAGCATGAGACTGAACTTTTCAGCAGATACTTTCGTGACATCACGTCCGGATTTTGATAAGCTGAACCTTTTAAATGCCTCTGAAAAAGTAGACCTGGAACTGATGCTTGCCAAGCGCGCAGACCTTACTTACCGTGCAGATAAAGGAGAAGTGATGAGAATTCTGACCCAGAACAATCAGCTTGATGTGTTCAGAAACGGTGGCTTTGATGCACTGAACTCATTGACGCGTCAGCAGATCAACGGTTTAAGAAACAACAATACAGACTGGGGCAAACTGTTGTATAGAAATGCGATCAACAAACAATACGGATTAAGTGTTTCCGGAGGAAGTGACCGTGCAGATTACTATTTCTCCCTGGGATACTATGATGAAGAAGGAACAACTATCGGTACCGGGTTTAAGCGTTATAACCTGACTTTGAAAAACAACTATAAATTAAGCGATAAGTTAAATGCAGGAATCTCTATTTTCGGAACACAAAGCGAACGTACCTCTTTTGTAACGGATGCTGATGCTTCTATCAACCCTGTTAATTATTCAAGAAATGCCAATCCATATCTGAAGCCTTTCAATGCAGACGGAAGTTACAACTATGATAGAGATATGGATGGTTTTGAAGACCGTTATATTCCTTTTAACTTCCTTGAGGAAAGGGAAAATACAAACTATTCTCTGAAAAATAACTCTTTGAAAGCGATTTTAGATTTAGAATATAAAGCTTCAAAAAGTTTAAGATTCACTTCCCAGTTAGGAATTCAGTATGATGCAAACAAGACAGAAAAATTTGCTGCAGAGAACACCTACTTCACCAGAAAAATGAAAGAAAATACCCGTTATTACAAAGACGGTAAATACAACTACTTTCTACCCGCTGGTGCTGTAAAACAAAACTGGGATAATGACTTCTTCCAGTACAACTGGAAACTGCAGGCTGCATACAGCACAAAGATCAATTCAAAACATGAAATTGACCTGATGGCAGGTACAGAAATCCGTAAAACTGAAGATAATACAACTATTACAAGAGCTTTTGGATACGATCCTACCACAAGAAGAGCTACGGCAATTGTTTTCCCGAATTCAAGTTTCGCAGCAGATAAAAGATATGAAACGTACCGTGAAGCTGCTCCTATAGAGAATGCATATGCTTCTATGTTTGCAACGGCATCTTATACTTATGATCAGAAATATACATTCTTCGGAAGTGTGAGATATGACGGAACGAATCTCTTTGGGGTAAATAAAAAGTATAAATATCTTCCAATATGGGCTGTTTCAGGATCATGGCTGGTAACGAAGGAGGATTTTATGAAAAATATTACTGCAGTATCTAACCTTAGACTGAGAGCTTCTTACGGTCTTCAGGGTAATATCGACAGAAATACTTCGCCATTCTTTATCGGTGAATACAGTGATGCAACCATTCTTCCGGGAGTAAAAGAGGGAATTATCAACGTAATCAGTCCTCCGAACGATAAGCTTAGATGGGAGAAAACAACCAACACGAATTTCGGGCTTGACTTAGGGTTGTTCAAAAACCGTGTGAGCCTTACTGCTGATGTCTACAGCAGAAAAGGGACAGATATGATCAGTATGAGAGAAACCCCGCTTGAAACAGGTTTCGAATATACTATGATGAACTGGGGAAGCTTAACCAATAAAGGTTTTGAATTGGCATTATCTACCAAAAACATCAATCATGATCATTTTAAGTGGACTACTACCATCAATTTTGCGCACAACAAGAGCAGAGTATTGAGCGAGCAGCCTCGTGACAACGCTTTCCTACCATCCAGAGAAGGTCTTCCGGTAAATGCTGTTTTTGCTTTGAAAACTGCAGGAATGGATGAACATGGAAATCCATTGTTCTGGAAAGGAGATCAAAAGATTTCAGCAGCAGAATTCTTTAAATTATATGATGTATATGCAGATTTCCTTCCGGGGCAGCTTGTAGATACCAAACTGACAAATGCCGAACTGAGGAGCTTATTTACCTATGTTGGAGACAGAGATCCGAAGTTTACCGGAGGTATTATCAACACTTTTAAAGTAAATAATTTTGATCTTACCATCTCTGCAACATTCAATCTGAAGCAGACCGTAATGAGAACGCCTTCTTACCGTGGTATGGAGCTGGACAGAGGAAGAAATTATACAAGAGATATCTATGAAGCAGGAGGTTCTCTTCCGGGAATTACAAGTCCTGATATGGATGCAAACCCGGACGGGTGGATGGCCAATAAATGGTTTGCCGGAAACCGTTCAAGTGCATACAATCTGCTTGATGTATGGGCGAAAGAGATCAGCTATATAAGAATCAGCAGCATCCGTTTAGGATATACGCTTCCTAAAGAATTTACAAATCCTATGGGAATCAGCAGCTTGAGGCTAAGCGTTGAAGGACGTAACCTGTTTGTGTTCAGTAATGGCTATAAAGGCTATTTCGATCCGGAAACGTATGGTAATATTTATGCACAGCCTATCACTAAATCGGTGACCGTAGGATTTAATGTTTCTTTTTAA	MKKTLILLPLLAANIAMAQQKKTITGKIEDGNTSQTISGASIKIETQSVSTKTELEGIIESVSVGTVTDKDGKFILEIPADTKTVLVSYPGYESRVIQLNEGQTNYTIRLTSEITDKNKIQEVIITGYQKIEKRKQTSAVSTVKMDNISQAGVASVDQMLAGQIAGVAVTPETGAPGSPAKIRIRGTASLSGPQDPLWVIDGLPLEGNDVPNFTDKDNIDQLQNFSIAGLNPNDIEDITILKDAAATAIYGARAANGVISITTKKGKKGSMRLNFSADTFVTSRPDFDKLNLLNASEKVDLELMLAKRADLTYRADKGEVMRILTQNNQLDVFRNGGFDALNSLTRQQINGLRNNNTDWGKLLYRNAINKQYGLSVSGGSDRADYYFSLGYYDEEGTTIGTGFKRYNLTLKNNYKLSDKLNAGISIFGTQSERTSFVTDADASINPVNYSRNANPYLKPFNADGSYNYDRDMDGFEDRYIPFNFLEERENTNYSLKNNSLKAILDLEYKASKSLRFTSQLGIQYDANKTEKFAAENTYFTRKMKENTRYYKDGKYNYFLPAGAVKQNWDNDFFQYNWKLQAAYSTKINSKHEIDLMAGTEIRKTEDNTTITRAFGYDPTTRRATAIVFPNSSFAADKRYETYREAAPIENAYASMFATASYTYDQKYTFFGSVRYDGTNLFGVNKKYKYLPIWAVSGSWLVTKEDFMKNITAVSNLRLRASYGLQGNIDRNTSPFFIGEYSDATILPGVKEGIINVISPPNDKLRWEKTTNTNFGLDLGLFKNRVSLTADVYSRKGTDMISMRETPLETGFEYTMMNWGSLTNKGFELALSTKNINHDHFKWTTTINFAHNKSRVLSEQPRDNAFLPSREGLPVNAVFALKTAGMDEHGNPLFWKGDQKISAAEFFKLYDVYADFLPGQLVDTKLTNAELRSLFTYVGDRDPKFTGGIINTFKVNNFDLTISATFNLKQTVMRTPSYRGMELDRGRNYTRDIYEAGGSLPGITSPDMDANPDGWMANKWFAGNRSSAYNLLDVWAKEISYIRISSIRLGYTLPKEFTNPMGISSLRLSVEGRNLFVFSNGYKGYFDPETYGNIYAQPITKSVTVGFNVSF				NA	NA	NA	NA	NA
BMS003_02640	2574			hypothetical protein	ATGAAGAATTACAGGCTTGCACTGTATCTCGGTCTTGCTATGGCTTCACCAATGGCAGTAGCACAGAAAAAAGATAAAGATACGGTAAAGGTCAACAAAGAAAAAACGGATAAGACAGAGACCTCTTCCTCAAAGAAAACAAAAAAAATTGAAGATCTGATTAAAAAAGGAACTTATAAAAAGGGACTTTTTAATACCATTCAGGTAAAAACGGATATTTATTTTGAAATTCCCGACAGTTTAATGGGACGTCAGTTTTTGGTGGTCAACAAACTATCTCAGGTACCTATGCAGGTGAATGAAGCAGGTTTGAACAAAGGAATGAATTATGAAAATAAAGTCATCTCTTTTCACCGTGATCCTGTAGCTAAAAAAGTATGGGTAAAAACGTTGGTTCCTAAAGTGTCATCACCAAAAAATGATGCGATTACAAAATCTGTGAAAGACAACTTTTCAGAATCTGTCATTGAAGTTTTTGATATTGAAGCACAAAATAATGATTCTACTGCTGTAGCCATCAAAGTGAACAAAGTTTTTGATGGAAATCAGAAAAGCTTTAACGATGTTTTGGCGAATGTAGGATTAGGAGGATCTGTGAAGTCAGGCCTTTCCTATATAGAAGGGGTGAAGACTTTTCCCAAAAATCTTGTGGTGAAGTCTCAATTGTCTACTTCTGTAAATGAAGGCGGGGTAGATCTTCCGGTAACATTAGGAGTTACTACCAATCTGGTTCTGCTCTCTAAAATACCGATGAAACCAAGAATAGCAGATTCAAGAGTAGGATTTTTCTCCGAAAAACACTGGTCGTTTAATGACAACCAGCAAAAAATGGATGAGAAATTCTTTATTACCAAATGGAATCTTGAACCGAAGGACGAGGACAAAGAAAAATATTTAAAAGGAGAGCTGGTAGAGCCTAAAAAACCGATTGTTTATTATATAGATCCGGCAACACCCAAACAATGGCGTGAGAAAATCATTGCCGGAGTACATGACTGGCAGGCGGCGTTTGAGCAGGCAGGATTCAAAAATGCAGTGATTGCGAAAATGCCGGATGAAAAAGATGAAGATTTTGATATTGATGATGTAAGATATTCTGTGATTACTTACGCCGCTTCGCCAAAGTCAAATGCAATGGGACCATCAGTAGTAGATCCGAGAAGTGGGGAAATTATCGAAGCAGATATCATCTGGTGGCATAATGTAATGACTTCTCTTCATGACTGGATGAGAATTCAGACAGGACCTATAGACCCGAAAGCAAGAGGAAATAAATTCAGTGATGAACATATGGGGGAAGCCATCCGTTTTGTTTCGTCCCATGAAGTAGGTCACACTTTCGGACTGAAGCACAATATGGGAGCATCCTTTGCATTCCCGGTAGAGTCGCTTCGTTCCAAAGAATTTACAGACAAAATGGGTGGTACAGCACCTTCCATTATGGATTATGCACGTTACAATTACGTAGCTCAGCCGGAAGATGGCGTTACAGCAATCACTCCGAAAATTGGGATTTACGATAAATATGCCATAGAGTGGGGGTACCGTTGGTATCCGGATGAATTCGTAGAGAAGAAGGCGCTGAAAAACCTAATTGAGAAACATGAAGATGATCCGATGTATTTCTATGGCGAGCAGCAAAGCTACCTAGAGACCATTGATCCGCGTTCGCAGTCTGAAGATTTAGGTGATGATGCGATGAAAGCCAGCGAGTACGGAATGAAAAACCTGAAAGTTGTGATCAACAACCTTTTGAAATGGACGTATGAAGATGGTAAAGAATACACAGATGCCGGAAAACTGTATCTGGGAGTTATCGGGCAGTGGGATCTGTATACAGGTCATGTGATGGCTAATGTGGGAGGAATTTACCTGAACAATACTGTTTTTGGGAACAAGAAAAAAGCTTATGAAGCAGTACCGGCAGAAATTCAGAGAAGGGCAGTGGATTATCTTGTGAAAAATGCCATCAGCCTTCCGGAATGGTTGTTCTTTAACCCGATTACAGAAAAAACATATCCGGTTAAAAATTCACCAATGGGACCGTTCGAGCAGACGCCGTATACCCTGGCAAGAGGAATGCAGTATGCCAATATCTACTCCTTGTTTATGGATGACAGATTACTGAGGCTGCTTGAAAACGAGTTGAAACATCAGGTTTCAGGATCAAAAGAAGAGATCTATACTGTTGAGAACTTATTTGATCAGGTGAGAACAGCTATTTTCAGCAAAAAAGGAAGCCTTACAATGCTTGAGAAAATGACTCAGAAAAACTATGTGGACGCTCTGATTGTTTCGGTAAACAAATTATTTGAAAAAACAGCAGTGAAGGGATTGAAAGTAGATGATACCCTGAATATCCCAACCATCTGTAATTTTCATGAAGATGATCATGGGTTGAGGAATATCAATTATTCATCCATGAAAAGAGTATCTGAAGTGACAACTTATAAAAGGGCAGAACTTCAGAAGGTACTGGACTTACTGAACAGAACAAGATACAGAGGTGATGATGCTTCCAGAGCACATTACGCAGATTTAATCATTCGTATACAAGAGGCTTTAAACAAATAA	MKNYRLALYLGLAMASPMAVAQKKDKDTVKVNKEKTDKTETSSSKKTKKIEDLIKKGTYKKGLFNTIQVKTDIYFEIPDSLMGRQFLVVNKLSQVPMQVNEAGLNKGMNYENKVISFHRDPVAKKVWVKTLVPKVSSPKNDAITKSVKDNFSESVIEVFDIEAQNNDSTAVAIKVNKVFDGNQKSFNDVLANVGLGGSVKSGLSYIEGVKTFPKNLVVKSQLSTSVNEGGVDLPVTLGVTTNLVLLSKIPMKPRIADSRVGFFSEKHWSFNDNQQKMDEKFFITKWNLEPKDEDKEKYLKGELVEPKKPIVYYIDPATPKQWREKIIAGVHDWQAAFEQAGFKNAVIAKMPDEKDEDFDIDDVRYSVITYAASPKSNAMGPSVVDPRSGEIIEADIIWWHNVMTSLHDWMRIQTGPIDPKARGNKFSDEHMGEAIRFVSSHEVGHTFGLKHNMGASFAFPVESLRSKEFTDKMGGTAPSIMDYARYNYVAQPEDGVTAITPKIGIYDKYAIEWGYRWYPDEFVEKKALKNLIEKHEDDPMYFYGEQQSYLETIDPRSQSEDLGDDAMKASEYGMKNLKVVINNLLKWTYEDGKEYTDAGKLYLGVIGQWDLYTGHVMANVGGIYLNNTVFGNKKKAYEAVPAEIQRRAVDYLVKNAISLPEWLFFNPITEKTYPVKNSPMGPFEQTPYTLARGMQYANIYSLFMDDRLLRLLENELKHQVSGSKEEIYTVENLFDQVRTAIFSKKGSLTMLEKMTQKNYVDALIVSVNKLFEKTAVKGLKVDDTLNIPTICNFHEDDHGLRNINYSSMKRVSEVTTYKRAELQKVLDLLNRTRYRGDDASRAHYADLIIRIQEALNK				NA	NA	NA	NA	NA
BMS003_02641	1584			hypothetical protein	TTGATTATTAATTTTAAACACGCTTTATCCAAAAAGTCCATTTACATCACCGCTTTGTCTGCCTGCCTGATTGCTGTGGCAGCATTTGCTGTTCTGAGTCTTCTGATCACCGAAGACAGTCGTAAAAATACCGATGATTTCGCAAAGAAAACATTCTTCCGAAAATATGAGTCGATAGAACATGAATTCAGAAATATAGAGGATTATCAATATCTGCTTCGTGCACTGATTCAGAAAGATGGTCTGAAGAATTATAAAGATTATTCTTTGGTTTTAAATGATTTAAACAAAAAAAGAAACCTGCTTCCTTACAGCTGGTATTACTATGAAAACAGAAGTTCAGGTAAATCTGAGAGCAATAACCCTTTGTCCGATATTTTTAAGAAGGCTGATAATAACGAGAAATCTATTGTGATAAAAAATAACGGTCCGGGACACTTCAAAGATCTGCTGATTACTAAAAAAGACAGTATGTACTGGATCAGCTATGATTCTTTGGTTCTGCCTGATAAAAACAAATTGTACTATGGTTCTACCGTTAGCCTGGATGATCTCCATCAATATTTTATTAATGTAGATAAAAGTTCTAATACCTATGCCTATGTTTTTACCAAAGAAGGAATCTGTATTACCCATCCTGAAAAAAAGTATATTGGAAAAAATATTTTTGGCTTTACAGATATTAAACCTGCTGATACCTTAACCAGTAAAACAGAAGCGGGATATACCAAAGGAACAGCTGTTTCAGAATATCTGGGAGTAGAAGTGACACGCTTTATAAAACCGTTGAAGACTGATAATTTTGATGGATTTACAGTAGTGAATCACGTGAATTTTATTATTGATGAAAATATCAGTAAGATAAAAACTTATACCGTTTATATTTTTCTGGCAGCTTTATTCCTTATTGTAACTGTTTTTATCTTATTTCAAAGAGCAACTAACCTGGCATACCAGGAAAAAGAAAAAATACAGTCTGAGAAGAATTTATTACTGATAGAAAACGAAAAGATGCACAAAGCAGAAGTGATCAATCAGCTTCAGCAGCTTAAAAATAATATCAATCCTCATTTCCTTTTCAATTCTTTGAATTCCCTTTATATGCTGATCGGGATCAATAAAGAAAATGCCCAGAAATTTACCATGAATCTTTCCCGGATCTACAGATATCTGATAGTTCCTCCGAAAGAAAATATTGTTCCGGTTTCACAGGAAATCAAATTTATACAGCAATATATGGAACTTTTGAAAAGCAGATTTGATGAAGAAATGAAATTTGAACTGATTATTAATGCTCCGGAAAGTCTGGAAAAAAAAATTCCGTATTTATCTCTTCAGATTGTTACAGAAAATGCAACCAAACATAATATTGCAACAATAGATCAGCCTTTGGAAATTATTATTATTGTAGATGAAGATGGCATCACAGTAAAGAACACATGGCAGCCTAAAACGGAACCTGCGCAGGGAGAGAAATTCGGAATTGATTATTTGAATCAGGTTTATGGGTATTTTAAGAATAATCTTCTTCATATTTCTGTAGATGGTGAATATTTCGTATGTTTTTTGCCATTAATGAAGTGA	MIINFKHALSKKSIYITALSACLIAVAAFAVLSLLITEDSRKNTDDFAKKTFFRKYESIEHEFRNIEDYQYLLRALIQKDGLKNYKDYSLVLNDLNKKRNLLPYSWYYYENRSSGKSESNNPLSDIFKKADNNEKSIVIKNNGPGHFKDLLITKKDSMYWISYDSLVLPDKNKLYYGSTVSLDDLHQYFINVDKSSNTYAYVFTKEGICITHPEKKYIGKNIFGFTDIKPADTLTSKTEAGYTKGTAVSEYLGVEVTRFIKPLKTDNFDGFTVVNHVNFIIDENISKIKTYTVYIFLAALFLIVTVFILFQRATNLAYQEKEKIQSEKNLLLIENEKMHKAEVINQLQQLKNNINPHFLFNSLNSLYMLIGINKENAQKFTMNLSRIYRYLIVPPKENIVPVSQEIKFIQQYMELLKSRFDEEMKFELIINAPESLEKKIPYLSLQIVTENATKHNIATIDQPLEIIIIVDEDGITVKNTWQPKTEPAQGEKFGIDYLNQVYGYFKNNLLHISVDGEYFVCFLPLMK	PGPT0026305_859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_02642	1176	dsbD_5		Thiol:disulfide interchange protein DsbD	ATGAAGAAGATCATCTCCGGGATATCTATTTTTTGTACCATCGCTATTTCAGCCCAGGAAGCCATCCAGTTTCAGGAGCTGCCATTCAAGGACATTATCGCTAAAGCCAAGAAGGAAAAGAAATTGGTTTTTATTGATGCCTATGCATCATGGTGCGGTCCTTGCAAAATGATGGAAAAAAATGTTTTCACACAGAAATCCGTGAGTGATTATTACAATACCAACTTCATTAATGCAAGATTTGATATGGAAAAAGGGGAAGGCAGAGATATTGCTTCGAGATTCGGAGTACGCTCCTATCCCACCTATCTTTTCCTGAATGGAGAAGGTGAACTTGTTTCCAGAAATACAGGATACATGGAAGAAAGCCTGTTCGTAGCCATGGCACAGGACATTAATTCACCCGGAAACAAAAAAGGTTCTCTGAAAGACCGCTTTGCCAATGGTGAAAAAGATCCGGAATTTCTGATCAATATCATGAAGCTTAATGCCAATACAGATTATGAATTCGCAAAAAAAGCTTCCGAAAGATACTTTCAGAATAAAAAGAAGGCTGAAGAACTCACCAAGGATGAAATCGGTTTTCTGCTTTATTTCGTAAAATCATCGGAAGATTCCAACTACAATGTTTTTGCATCCAGAAAAGCAGAGATTATTAAATTCCTTCCTGAAGAAACTTACACTGAGTTTGATGCCCAGTTAAGACTGGGAAAAATAGTAGAACAGTCTATTGATGATAAAAATAAAAGAATCAACGATGACTATTTCATGAAAACTGCTGAGCCATTGGTAGGAAAAGAAGCCGCTGCTAAAAAGCTGAGTCAGACTAAGCTAAGCTACTATGAACAGAACAGCAATTTTCCGGAATACGAAAAAACAGCTTTAGATTATTATAAAAACTCAGATTCATTTGACCCTACCGAACTTTTAAGAGCAGCATGGATATTCGCAGATCATGTGAAAACACCGGCTTCATTAAAGAAAGCTACAGAATGGGCAGAAAAGTCTGTCATGAGAGGAGAAACCTCTGAGAACACTTATATTCTTGCCAAACTCTATTACCTGACCGGAAATAAAGAGATGGCAAAAAACTATGCTGAGATGTCTAAAAATATGGCAAATCAGGGCAATAATGATTCTCAATTGGCAGAAGAACTATTAAAGCAAATAAAATAA	MKKIISGISIFCTIAISAQEAIQFQELPFKDIIAKAKKEKKLVFIDAYASWCGPCKMMEKNVFTQKSVSDYYNTNFINARFDMEKGEGRDIASRFGVRSYPTYLFLNGEGELVSRNTGYMEESLFVAMAQDINSPGNKKGSLKDRFANGEKDPEFLINIMKLNANTDYEFAKKASERYFQNKKKAEELTKDEIGFLLYFVKSSEDSNYNVFASRKAEIIKFLPEETYTEFDAQLRLGKIVEQSIDDKNKRINDDYFMKTAEPLVGKEAAAKKLSQTKLSYYEQNSNFPEYEKTALDYYKNSDSFDPTELLRAAWIFADHVKTPASLKKATEWAEKSVMRGETSENTYILAKLYYLTGNKEMAKNYAEMSKNMANQGNNDSQLAEELLKQIK				NA	NA	NA	NA	NA
BMS003_02643	633			hypothetical protein	ATGAAATATAAATTATTAGCAGCAGGCATTTTAGCATTCCTGTCAGCAAGTACGCTGAGTGCCCAGGAACAGGAACAAGGAGGACAGGATAAAAGTTTATATATTAAAGGAAATGCTTTATTTGCTCCGATAGGGATTTTAAATCTTGGAATAGAAAAACAGATCAGTCCGAAATATACACTTCAGGGAGATGTTTTTATTTCACCCTGGAAATCTTTCGGTGGGCATAAACTACAGTTTTACTCTGTTTCTGCAGAAGGAAGGTATTACTTTACTGAGGCTTTCAAACATTGGTATGTAGGAGCCAACGTATCCGTAGCTGCTTACAATGCAACAAAATGGAGTTATTGGAATGACAGCACTTTTGAAAACTGGAATGGAGAAATCCTTAAAAACTCCAACCTGTACCAGAAAGGATTTTCTGTGATGCTGGGTGTTACAGCAGGATATCAATTTCAATTATCTGAGCGTTGGAATCTGGACATTTATGGAACTATTGGAACATCACAAGGATTTTATAAAGGCTATGACAAGTCTACAGGAAGACGTTATGATTCTGCAGAAAAGTTTAATAAAAGCGGTGAAATCATCCCATACAGAGGAGGTGTCATGATTTCTTATAAATTAAAATAA	MKYKLLAAGILAFLSASTLSAQEQEQGGQDKSLYIKGNALFAPIGILNLGIEKQISPKYTLQGDVFISPWKSFGGHKLQFYSVSAEGRYYFTEAFKHWYVGANVSVAAYNATKWSYWNDSTFENWNGEILKNSNLYQKGFSVMLGVTAGYQFQLSERWNLDIYGTIGTSQGFYKGYDKSTGRRYDSAEKFNKSGEIIPYRGGVMISYKLK				NA	NA	NA	NA	NA
BMS003_02644	207			hypothetical protein	ATGAAACCATTCGGAAGAAATCATATCATCATATCAGTGATCACTTTTGTGATCCTTTTTTTAATGAATTATATCGGAAACGATTTGCCTGATAAATTACAAAGGGCATTAATGACAGCTTTTGCAGGTGTTGTCGGGCTGACTGTGGGACTCTTTATATTAAATAAGGGCAGAAATGATAAAAATCCGCCCCAAAATTTTGATTAA	MKPFGRNHIIISVITFVILFLMNYIGNDLPDKLQRALMTAFAGVVGLTVGLFILNKGRNDKNPPQNFD				NA	NA	NA	NA	NA
BMS003_02645	1212			hypothetical protein	ATGAATTTAGATTTCAAAATTAAAAATTTACTTCTGATTTGCCTAATTTTTTTAGGAGTATTCAACCAATATTATTCTCAGACTCAAGTTCAATCGGATTTTAAAACCGGGGCAGACCAGCCTGAAATCTATTTACCACTGTTAAAAGGTAAAACCATTGGAGTGGTAACCAATCAGACAGGTTTGATGAGTGACAGAACTCATTTAGTTGATTTTTTGGTGAAAAACGGCATGAAAATCAAATCGATTTTCGCTCCTGAACATGGTTTCCGAGGTGATGCCGACGCAGGTGCAAAAGTGAAAAACGGAGTAGATGTAAAAACGGGAATTCCCATTGTCTCTCTATATGGAAATAATAAAAAGCCAAAACCTGAACAGCTTTCAGGAATTGACATCGTTGTTTTCGATATTCAGGATGTAGGGGTGAGATTCTATACTTATATTTCTACTCTGTCTTATCTTATGGAAGCCGGTGCTGAAAATAATGTTGAGATTATGGTGTTGGATCGTCCTAATCCACATGACGGATATACAGACGGACCAGTTTTAAGAAAAAAATGGAAAAGTTTTGTCGGAATGCATGAAGTTCCTGTAGTATACGGATTGACAATAGGAGAGTACGGAAAAATGGTGAATGGAGAGAAATGGCTGAAAAATGGTGTTCAGGCAAAGTATACACTTATTCCGATGAAGAATTATCATAAAAAACAGCGTTATCCGATGCTGGATAAACCTTCGCCTAACTTACCGAATGATAAAGCCATCAATCTATATCCGAGTCTGTGCTTTTTTGAAGGTGCTCAGGTTTCCGTAGGAAGAGGAACAGATCTCCCTTTTCAGATTTATGGTTCTCCTTGGACGGAAAATCTGCCGTATCAGTTTACACCAAAACCGAGTTATGGTGCAAAAGACCCTTTTCTGAATGGGAAATTATGCTACGGTGAAAACCTATCCGGCTATCCCAAAGACCTAAGAGAGCTGAACCTTGAATGGGTCATCAAAGCATATCAGAATTATAAAAATTCTGAACTAGACTTTTTCCTAAAGCCTGCTTCAGGGAAAAAATTTTGGTTTGATACACTGGCCGGGACTGATGAACTTAGAAAACAGATTGTAGCCGGAAAATCAATTTCGGAAATCAAAGATTCATGGAAAAAGGATCTGGAAAGTTTTGAAAAGATCAGAACCCGATATATAATCTATAAAGACTAG	MNLDFKIKNLLLICLIFLGVFNQYYSQTQVQSDFKTGADQPEIYLPLLKGKTIGVVTNQTGLMSDRTHLVDFLVKNGMKIKSIFAPEHGFRGDADAGAKVKNGVDVKTGIPIVSLYGNNKKPKPEQLSGIDIVVFDIQDVGVRFYTYISTLSYLMEAGAENNVEIMVLDRPNPHDGYTDGPVLRKKWKSFVGMHEVPVVYGLTIGEYGKMVNGEKWLKNGVQAKYTLIPMKNYHKKQRYPMLDKPSPNLPNDKAINLYPSLCFFEGAQVSVGRGTDLPFQIYGSPWTENLPYQFTPKPSYGAKDPFLNGKLCYGENLSGYPKDLRELNLEWVIKAYQNYKNSELDFFLKPASGKKFWFDTLAGTDELRKQIVAGKSISEIKDSWKKDLESFEKIRTRYIIYKD	PGPT0012175_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS003_02646	1230	lolE	COG4591	Lipoprotein-releasing system transmembrane protein LolE	TTGAAATTTCCTTTATATTTCTCTAGAAAAATAGCATTTTCCAAAGATAACAAAAATAACCTTTCAAGGGTTATCATCTTCATTGGCAGGCTTTCCGTAGCACTAGGAATAATTGTTTCCTTAATTACCGTAGCCACTGGTTTTGGCTCCAAAAAAGCTATTAAAGAGAGACTGGCAGATTTCAGCGGCCATATTACCGTAAGATCCACACGATCCAATTCTTCATACAATACTTCCGTACTTGACAATCAGGGGCTCAATATTGCCAAAATAAAAGAGCTTGCCGATGTGGAAAACACCCAAAATTATGTGACAGTTACCGGAATTATGCGTAATGAGCACAATTTTGCAGGAATCATATTTAAAGGAATAGGAAAAGATTTCGACAGCTTAAGATTTAAAAAATTCCTTATTGCCGGAACCACACCAAAAGTAACTGAAAATGGCTACAATAATGATGTTACTATTTCTCAGAAAGTAGCCAGTGACCTTCATCTCAAGCTAAATGACAGTATTGTTACCGTATTCTTAAAAGCAGACCAGAAACCGCTTTACCGTAAATTCAGAGTGATTGGTATTTACAGAACAGATATTAAGCTGATTGACGAACAATTTGTGATCGGAGGAATCAATCAGGCAAGAAAAATTCAGGATATGAAGCCTGATGAAATTGGCGGAATTGATATCTTCCTGAAAAATGTAAATGACATCGACAAAGATTTTCCAGACATTGAAAAGCTGATCGGCTATAAAAACTATGCGGAAAAAGCGACTGAAAAATTTCCTCAGATTACGGACTGGATCAGCATTTTCGACACCAATATTGCTCTGATCATCATCATCATGCTGATCGTAGTTGTTATCAATATCATTATGGTTCTTCTGATTCTTATCATTGAAAGAACAAATTCTATCGGGCTTCTAAAAACATTGGGAGCAAGCAATTCGCAGATACGGGCAACATTCATCAATTATACCCTGATCATTATGATTCCAGGACTTTTATATGGAAATGCTATAGGATTAGGACTGATCTTAATCCAGAAATTCTTTGGAGTGATCAAGCTTAATCCGGAAAACTATTATGTGAGTACGGTTCCTGTAGATCTTAATCCGGTTGCGATTATCTCTATTTCTGTAGGAATTCTTTTTATCTCAGGATTAGCCTTGATTATTCCAAGTTACCTCATCAGTAAGATTTCTCCGGTGAAGGCGATTAAGTACAACTAA	MKFPLYFSRKIAFSKDNKNNLSRVIIFIGRLSVALGIIVSLITVATGFGSKKAIKERLADFSGHITVRSTRSNSSYNTSVLDNQGLNIAKIKELADVENTQNYVTVTGIMRNEHNFAGIIFKGIGKDFDSLRFKKFLIAGTTPKVTENGYNNDVTISQKVASDLHLKLNDSIVTVFLKADQKPLYRKFRVIGIYRTDIKLIDEQFVIGGINQARKIQDMKPDEIGGIDIFLKNVNDIDKDFPDIEKLIGYKNYAEKATEKFPQITDWISIFDTNIALIIIIMLIVVVINIIMVLLILIIERTNSIGLLKTLGASNSQIRATFINYTLIIMIPGLLYGNAIGLGLILIQKFFGVIKLNPENYYVSTVPVDLNPVAIISISVGILFISGLALIIPSYLISKISPVKAIKYN	PGPT0024510_3081	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
BMS003_02647	993	cbs_2	COG0031	Putative cystathionine beta-synthase	ATGAAATACGCAAAAAATATTCTTGAAACGATAGGTAACACACCGCTGGTAAAGCTTAACAATGTATTAGGTGAAGATTTTCCGGCATTAGTATTGGCAAAAGTAGAGACTTTCAATCCCGGAAACTCTGTAAAGGACAGAATGGCTCTTAAAATGATAGAAGATGCCGAAAAAGACGGCAGATTAAAACCTGGAGGAACCATTATTGAAGGAACTTCCGGAAATACAGGAATGGGATTGGCATTGGCTGCCATCATAAAAGGGTACAAATGTATCTTTGTAACCAATTCAAAACAGTCAAAAGAAAAATGCGATATTCTTCGTGCTGTAGGTGCAGAAGTAATTGTCTGTCCTACCGATGTTAAACCTACTGATCCGCGTTCTTATTATTCGGTTTCCAAAAGACTGGCAAAAGAAACGGAAAACGGTTGGTATGTAAACCAATATGACAATTTATCTAACAGAGCTGCTCATTACGAATCCACAGCTCCCGAAATCTGGGAACAGACAGAAGGAAAACTGACACATTTTGTAGTAGGAGCAGGAACAGGAGGTACTATTACAGGATGCGGAACATTCTTCAAAGAAAAAAATTCAGACATTAAAGTAATCGGAGTGGATACTTACGGTTCTATTCTGAAAGAATTCCATGAAACGGGAGAGCTGCATTATGACCATGCTTATACTTATATTACAGAAGGCATCGGGGAAGATATCATCCCTGAAAACTATGACATGTCTGTAATTGACCACTTTGAAAAAGTAACGGATAAAGACGGTGCTATCTACGCAAGAAAACTTGCTAAAGAAGAAGGTATTTTCTGTGGATATTCTGCGGGAAGCGCTATTGCTTCACTGGTTCAGATGAAAGACCAGTTCACCAAAGATGATGTGATTGTTGTTTTACTTCATGACCACGGTTCAAGATATGTAGGAAAAATCTATAATGACGAGTGGATGAAAGAGATGGGCTGGCTGGAAGAAAGCAAATAA	MKYAKNILETIGNTPLVKLNNVLGEDFPALVLAKVETFNPGNSVKDRMALKMIEDAEKDGRLKPGGTIIEGTSGNTGMGLALAAIIKGYKCIFVTNSKQSKEKCDILRAVGAEVIVCPTDVKPTDPRSYYSVSKRLAKETENGWYVNQYDNLSNRAAHYESTAPEIWEQTEGKLTHFVVGAGTGGTITGCGTFFKEKNSDIKVIGVDTYGSILKEFHETGELHYDHAYTYITEGIGEDIIPENYDMSVIDHFEKVTDKDGAIYARKLAKEEGIFCGYSAGSAIASLVQMKDQFTKDDVIVVLLHDHGSRYVGKIYNDEWMKEMGWLEESK	PGPT0020005_1886	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
BMS003_02648	534			hypothetical protein	ATGAATGAAGAAAAAGTGATTACACTAAAACCGGACAGAAAGATTTTTGAAGATATTTATTTTAGCGGTAATCAGGGAAGCCTGCTTTTTTCGCCTACAACTAAAAGTAAAACGATTGCCACTATTGCAGCAGCTGTGATTGTTTTCATCGTTTTTCTTTTCAAAGACTTTCTGAGTAAAGAAAGTGTAGGGATTTTATATTTTCTGAGTTTTATATTTTTGCTTTGTGCTGTTTTTCTGTCGGTAAGCGTTAATAAAGTTTCAAGATGGAAAAAACAGGTGAATCATTATCTGAGTGTGCTTGAAAGATGTAAAGTATACGAAATCAGATTTGATAAAAATTTTTTTACCGTTAATATTGATGGTGAAAAAGAAACAAGCGAATGGAAAGATTTTGAATATTTTGACAGCAATCATGAATTTATTTCTCTTGAAGGAAAATACAGCTATATGTTTCCCAGAAAATCAATGAGCGAAAAAGAATATAGTTTTCTCAAGAGTATATTGAAAGAGAAAGTGAACATCAGCCATTAA	MNEEKVITLKPDRKIFEDIYFSGNQGSLLFSPTTKSKTIATIAAAVIVFIVFLFKDFLSKESVGILYFLSFIFLLCAVFLSVSVNKVSRWKKQVNHYLSVLERCKVYEIRFDKNFFTVNIDGEKETSEWKDFEYFDSNHEFISLEGKYSYMFPRKSMSEKEYSFLKSILKEKVNISH				NA	NA	NA	NA	NA
BMS003_02649	303			hypothetical protein	ATGAGTGAAAGAATATCACGGGAAGAACTCGTAAAAATCTATAATATAGAAATCACTTTTTTTGATGAACTTGTAGACTATGGGCTGCTGAATATTCAGGTTGAAAACAATATTCATTATCTGATGTATGAAGATCTGCCCGATCTGGAAAAATTTGCCAACTGGCATTATGATCTTGAAATTAATCTGCCAGGGCTTGAAGTGATCCACAATATGCTGAAAAAGCTGGATGCCCTGAACCGCAGAAACAGGGAACTGATGAATAAACTTTCTGCAATAAGTGATCAATATGAAGATATTTAG	MSERISREELVKIYNIEITFFDELVDYGLLNIQVENNIHYLMYEDLPDLEKFANWHYDLEINLPGLEVIHNMLKKLDALNRRNRELMNKLSAISDQYEDI				NA	NA	NA	NA	NA
BMS003_02650	912	cbpA	COG2214	Curved DNA-binding protein	ATGGCTTATATAGATTACTATAAAATTTTAGGCGTAGATAAAAGCGCATCACAGGATGATATCAAAAAAGCCTACCGAAAACAGGCAAGAAAACATCATCCCGATCTCAATCCCGGAGACAAAGAAGCAGAAAAGAAATTCAAAGAGCTGAATGAAGCCAATGAAGTGCTCAGCAATCCGGAAAACAGATCAAAATATGACAAATACGGAGAAAACTGGAAGCACGGCGAAGAATATGAAAAAGCCCAACAGCAGCAAAGACAGTATCAGCAGCAAAGTTACAACGGAGGCTATTCCGGAGCAGACTTTGGTGAAGGAGAAGATTTTTCGGATTTCTTCCAGAATATGTTTGGCGGAGCAGGCGGTGGATTTGGTAAAAGTTCAAGAGGAAGAGCTTCAGGTAAATTCAAAGGACAGGATATCACTGCAGAATTGAACCTAAACTTAAGAGATGCCGCAACAACTCATCCTCAAACCTTTGAAATCAATGGGAAAAAAGTAAGAATCACTATTCCGGCAGGAGTATATGATGGACAGCAGATCAAGCTAAGAGGACATGGAAATCCCGGTGTAAACGGAGGTCCAAACGGAGATTTGTACATCACCTTCAATATCCCTGCTGATCCGGATTTTGAAAGAATAGGTGATGATCTGAAAACCAAAGTTGTGGTGGATCTTTATACAGCCATTCTTGGTGGTGAAGTGAAAGTAAATACTCTGAATGGAAGTGTGAACCTTAAAGTAAAGCCCGAAACACAAACCGGAATGACGGTAAGATTAAAAGGAAAAGGCTTTCCTGTCTATAAAAAAGAAGGTGAACATGGAGATCTTTTTGTAACCTACGAAGTGAAACTGCCAACCAACCTTACCGAAAAGCAGAAAGAACTTTTTGAACAACTAAAAAATTCCTAA	MAYIDYYKILGVDKSASQDDIKKAYRKQARKHHPDLNPGDKEAEKKFKELNEANEVLSNPENRSKYDKYGENWKHGEEYEKAQQQQRQYQQQSYNGGYSGADFGEGEDFSDFFQNMFGGAGGGFGKSSRGRASGKFKGQDITAELNLNLRDAATTHPQTFEINGKKVRITIPAGVYDGQQIKLRGHGNPGVNGGPNGDLYITFNIPADPDFERIGDDLKTKVVVDLYTAILGGEVKVNTLNGSVNLKVKPETQTGMTVRLKGKGFPVYKKEGEHGDLFVTYEVKLPTNLTEKQKELFEQLKNS	PGPT0014545_6234	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS003_02651	1200	gltP	COG1301	Proton/glutamate-aspartate symporter	ATGAAAGATGTATTGAAAAACTATTCAGGAATCCTATTTTTACTTTTGGGAATCACAATTGGCAGTATCATTGGAATTGTTGCGCCCGGCTTTGTGGAATACATTAAACCTTTGGGGGATATTTTTCTGAACCTTCTTTTTGTGAGTGTAGTTCCTTTGGTATTCTTTGCCGTTTCCAATTCTATTGCATCACTGGAACAGCAGTCTAAATTTGGCAAGATTATTCTTGTGATGGCACTTACTTTTTTATTTTTTATTCTTACCGCAGCTGTGTTTACAATATGTGCAGTATATCTCTTCCCGGTCTCAGGGGTTTCAGGAAGTTCTGAAATCATTACGGAAGCCGCCAATGAGGAAAGTTGGGGCAACAGAATTGTAAGTTTCTTTACCGTAGGAGAATTCACAGAGCTTTTCTCAAGAAGAAATATGCTGGCTCTTCTCGTATTTGCTTTTCTCACAGGGTTCGCGGCAAGAAAAACAGGCGATCAGGGACAGCCTTTCAGAATTTTTATTGCTTCCGGGTATGAAGTAATGAAAGAACTGCTTTTATTAGTGATGAAGCTGGCTCCAATTGGGTTGGGGGCATACTTTGCCTATCAGGTAGCCACTTTAGGACCACAGCTTTTTGGCTTTTATGCCAAACCTCTTGGACTTTATTATATTGCAGGAATTATTTATTTTCTTGTATTCTTTTCTATTTATGCTTTTATGGCGAATGGGCAGAAAGGAATCAAAAGTTTCTGGACAAATGCCATTTACCCTACTTTAACTGCAATTAGCACCTGCAGCAGTTTTGCAACAATGCCCGCTAATTTACAGGCAGCCTCAAAAATAGGAGTTCCGAATTCTATTGCCAATCTGGTGATCCCTATCGGGACTACACTGCACAAAAACGGTTCTTCCATGTCTTCTATTATTAAGATTTACGTTGCATTTCTAATTATTGGAAGAGATTTTTTTGATCCTGCCAATCTGCTTTTAGCTTTAGGAATTACGGTCTTTGTGAGTATTGTAGCCGGGGGTATTCCTAATGGCGGATATATTGGTGAGATGCTGATGATCTCTGTTTACAAATTACCTCAGGAAGCCATTCCTGCAGTGATGATCATTGGGACTCTGGTAGATCCTCTGGCGACTGTTCTGAATGCTGTAGGAGATATAGTTGCAGCCATGTTTGTCAACCGGTTTGTGAAAGTCTGA	MKDVLKNYSGILFLLLGITIGSIIGIVAPGFVEYIKPLGDIFLNLLFVSVVPLVFFAVSNSIASLEQQSKFGKIILVMALTFLFFILTAAVFTICAVYLFPVSGVSGSSEIITEAANEESWGNRIVSFFTVGEFTELFSRRNMLALLVFAFLTGFAARKTGDQGQPFRIFIASGYEVMKELLLLVMKLAPIGLGAYFAYQVATLGPQLFGFYAKPLGLYYIAGIIYFLVFFSIYAFMANGQKGIKSFWTNAIYPTLTAISTCSSFATMPANLQAASKIGVPNSIANLVIPIGTTLHKNGSSMSSIIKIYVAFLIIGRDFFDPANLLLALGITVFVSIVAGGIPNGGYIGEMLMISVYKLPQEAIPAVMIIGTLVDPLATVLNAVGDIVAAMFVNRFVKV	PGPT0013965_41	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
BMS003_02652	384			hypothetical protein	ATGGAAACAAAAATATCAAGACTTTCCGCAACGGAACAGGCACTTGAAGTAATCCGTAAACTGGAAGACCAATACGGTCTCCTCATGTTTTATCAGGCAGGAGGGTGCTGTGAGGGTACTCAGCCGCAATGTTTCGAAAAAGGAGGTTTCTTTCCCAGAATGAACGATGCTATGATTGGTACGATCAACGGGCATGAGTTCTGGATAGACCGCGATCTTTTTGAATACTGGAAATATTCGCATTTTACGCTCGATGTTACAGATGGTTTCGGACCTGGTGGCTTTTCATTGGAAACTCCTTTAGGGAAAACATTTAAGGTTCACTACAGACTTTTTACTCCTGATGAATATGAAAATCTGGAACCGGTGAAACGCAGTGAATAG	METKISRLSATEQALEVIRKLEDQYGLLMFYQAGGCCEGTQPQCFEKGGFFPRMNDAMIGTINGHEFWIDRDLFEYWKYSHFTLDVTDGFGPGGFSLETPLGKTFKVHYRLFTPDEYENLEPVKRSE				NA	NA	NA	NA	NA
BMS003_02653	1035			Alcohol dehydrogenase	ATGATTCCAAAAACAATGAAAGCGGCAGTAGTTCAGGGCTACGGTCAACCTTTGAAAATAGAAGAAGTACCTGTAAGAGAACCCGGAAGATATGAAGTGCTTGTTAAAGTCATCGCCTGCGGAGTTTGTCACACAGATTTACATGCGGTAGACGGCGATTGGCCTGCAAAACCCAAAATGCCTCTAATCCCCGGACATGAAGGGGTAGGTATTGTGGTGGCTTGCGGACCGGAAGCTTTTGTAAAAGAAGGAGATGCTGTAGGGGTTCCATGGTTGTACAGTGCATGCGGATGCTGCGATTATTGTATCACAGGGTGGGAAACCCTTTGTGAAGCTCAGAAAAATGGAGGGTACAGTGTAGATGGTGGGTTTGCAGAATACGTTATTGCAGATTCAAGATATGTGGGACATTTGAAATCGGATGTCAACTTCCTTGAAATAGCCCCTATTTTATGTGCTGGAGTAACAGTTTATAAAGGATTGAAAGAAACAGAAACAAAACCTGGAGAATGGGTTGCCATCTCAGGAATCGGAGGACTGGGGCATGTAGCCGTTCAATATGCAAAAGCAATGGGTATGCATGTAGCGGCCATTGATGTAGCAGATGATAAGCTTGATCTGGCAAAAAAATTAGGCGCAGACCTTGTGGTGAATGCAAAAAACACAGATCCTGGAGAATATTTGCATAAAGAAGTCGGCGGAATGCACGGTGCACTGATTACTGCTGTTTCACCTATTGCTTTCAAACAGGGAATAGACGTTTTAAGAAGAAAAGGAACAATTGCTCTGAATGGACTTCCTCCCGGATCTTTTGAACTTCCGATTTTTGAAACGGTTTTAAAAAGAATTACTGTAAGAGGTTCTATTGTAGGAACAAGAAAAGATTTGCAGGAAGCATTGGATTTTGCCAATGAAGGATTGGTAAAAGCTACAGTCACTTCTGCAAAGCTGGAAGATATCAATGATGTTTTTGATAAAATGAAAAAAGGTCAGATTGACGGCAGAATCGTTTTGGATATAGCCGGCTCAAATTAA	MIPKTMKAAVVQGYGQPLKIEEVPVREPGRYEVLVKVIACGVCHTDLHAVDGDWPAKPKMPLIPGHEGVGIVVACGPEAFVKEGDAVGVPWLYSACGCCDYCITGWETLCEAQKNGGYSVDGGFAEYVIADSRYVGHLKSDVNFLEIAPILCAGVTVYKGLKETETKPGEWVAISGIGGLGHVAVQYAKAMGMHVAAIDVADDKLDLAKKLGADLVVNAKNTDPGEYLHKEVGGMHGALITAVSPIAFKQGIDVLRRKGTIALNGLPPGSFELPIFETVLKRITVRGSIVGTRKDLQEALDFANEGLVKATVTSAKLEDINDVFDKMKKGQIDGRIVLDIAGSN	PGPT0006365_1233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS003_02654	1530	ald1		Long-chain-aldehyde dehydrogenase	ATGAGCACTATTACAGAACCAAGATCAACAACGCTTTTACAGCGTCCGGAGTTCAAAAGCAGATATGATAATTATATTGACGGAAAGTTTACTCCACCCGTTAAAGGACAATATTTTGACGTAGTTTCTCCGGTAGACGGGAAAAACTTTACCCAGGTAGCACATTCTTCCAAAGAAGATTTGGAACTGGCTGTAGATGCTGCAGAAAAAGCGTTTCAGACATGGAAAAATACTTCCTCTACAGAAAGGAGCATTATTCTGAATAAAATTGCAGACAGAATAGAACAGAATTTAGAATACCTGGCAACCGTAGAAACAATAGACAACGGAAAAGCAGTAAGAGAAACGCTTGCAGCAGATTTACCTTTAGCAATAGATCATTTCAGATACTTTGCTTCCGTAATCCGTGCAGATGAAGGATCTCATAACGAACTGGACAAAGACACTGTATCTCTGATCGTTCACGAACCTCTTGGAGTTATTGCACAAATCATCCCTTGGAATTTCCCGATATTAATGGCAGTATGGAAACTGGCTCCGGCATTAGCAGCAGGAAACTGTGTTGTTTTGAAACCGGCAGAAAGTACTCCTGTTTCCATTATGGTTTTAATGGAGCTTATCGGTGATCTTTTACCGGCAGGAGTTATTAATATTGTCAACGGATTCGGAGCAGAACTTGGAAGAGCTTTGGTAACCAATCCGAAAGTTGCAAAGGCAGCATTTACAGGATCTACCGCTACAGGACGTCTCGTGATGCAGTATGCTACAGAAAATATTATTCCTGTTACGCTGGAATTGGGAGGAAAATCACCAAATGTATTCTTCAACTCAGTAATGGATGCTGATGATGAATTTTTAGACAAAGCAATAGAAGGAGCGGTACTTTTTGCTCTTAATCAGGGAGAGATCTGTACATGTCCTTCAAGACTTCTTGTTCAGGAAGGTATTGCTGATGCCTTTATTGAAAGAGTCATAGAAAGAGTAAAAGCCATCAAAGTTGGAAACCCACTGGATAAAACTGTGATGATGGGAGCACAGGCTTCAAAGATTCAGAAAGATAAAATCCTTTCTTATATTCAGCTTGGGAAAGAAGAAGGTGCAGAAGTGCTTGTAGGAGGAGAAGTCAACCATTTGGGAGAAGACCTGGAAGAAGGGTACTACATCCAGCCTACCATTTTCAAAGGAAACAATAGAATGAGAATTTTCCAGGAAGAAATTTTCGGACCTGTGCTGGCATTTACCACTTTCAAAGATGAAGAAGATGCCATAAAAATTGCCAATGACACCATTTATGGACTTGGGGCAGGAGTGTGGACAAGAGATGCTCATCAGCTGTACAATATTCCACGTCAGATTGAAGCAGGAAGAGTGTGGGTGAACCAATATCACTCTTATCCGGCCGGAGCTCCTTTCGGAGGTTACAAACAATCTGGAATCGGAAGAGAAAACCATAAAATGATGCTCGATCATTATCGTCAAACCAAAAACATGCTGATTTCTTATAACAAGAATAAGTTAGGTTTCTTTTAA	MSTITEPRSTTLLQRPEFKSRYDNYIDGKFTPPVKGQYFDVVSPVDGKNFTQVAHSSKEDLELAVDAAEKAFQTWKNTSSTERSIILNKIADRIEQNLEYLATVETIDNGKAVRETLAADLPLAIDHFRYFASVIRADEGSHNELDKDTVSLIVHEPLGVIAQIIPWNFPILMAVWKLAPALAAGNCVVLKPAESTPVSIMVLMELIGDLLPAGVINIVNGFGAELGRALVTNPKVAKAAFTGSTATGRLVMQYATENIIPVTLELGGKSPNVFFNSVMDADDEFLDKAIEGAVLFALNQGEICTCPSRLLVQEGIADAFIERVIERVKAIKVGNPLDKTVMMGAQASKIQKDKILSYIQLGKEEGAEVLVGGEVNHLGEDLEEGYYIQPTIFKGNNRMRIFQEEIFGPVLAFTTFKDEEDAIKIANDTIYGLGAGVWTRDAHQLYNIPRQIEAGRVWVNQYHSYPAGAPFGGYKQSGIGRENHKMMLDHYRQTKNMLISYNKNKLGFF	PGPT0007176_260	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS003_02655	924	rhaR_13		HTH-type transcriptional activator RhaR	ATGAATAACAATAGTAAGATATTATTAAATACTCCTGAATTGCGTAAGGAAAACCAACTATTGAGTCTTGTTGAAAACCAGACGAAATTCAATCTAAATAATTGTGAGTTCAGTATTTATGAGACTCACAAGGCTGCTTTTGATGTAAAGCTTCATTTCGAAAATATTGCATTTACAGCCATGCTGAGAGGAAAGAAACATATGAAACTGGATAAGAAGACTAATTACTTTGATTATTATCCGGGAGAAAGTATTCTGGTGGCTCCGGGAGAAACTATGGTGATTGATTTTCCTGAAGCGGATGAAACACCTACGCAATGTATTTCTTTAAGTCTTAATCCGGATTTTATTAAAGACTCTCTTAATTACTTAAATTATCATCTTCCGAAGGTGGATGAAACTTCACAATGGAATATTCAGCTGGATGAGTATTTTCTGTTTAATAATAAAGCGCTTGCTTCTGCTACCAACAATATTATGAGAATTGCCATGGATGATAATTCACAAAAGGATATTATAGCTGATTTTGCACTGAAGGAACTCCTGATAAGGTTAATGCAAACCCAGGCAAGGGGTATGGTAGAAAAGAATATCGTTAAAAATAAATCGAGAATAGGCTTTGTGGTAGATTATATTAAAAGGAATCTGCACCAGAAACTATCTATTGACAGTATTGCCAAGCTGGCTTATGTAAGCAAATCGAATTTCTTTAAAATGTTCAAAGATGAACTGGGAATTTCACCGAATGATTTTATTCTGCAGGAACGAATTAACAGGGCAAAAGAATTGCTTGCCAGCCAGACCAGCATCAAGGAAACTGCTTTCCAAACAGGATTTTCAGATACTAATTATTTCTCAAGGGTATTTAAGCAGCTTGAGGGAGTTACCCCTAAAAGTTATCAGAACAGAAGGTTTATCCGGTAA	MNNNSKILLNTPELRKENQLLSLVENQTKFNLNNCEFSIYETHKAAFDVKLHFENIAFTAMLRGKKHMKLDKKTNYFDYYPGESILVAPGETMVIDFPEADETPTQCISLSLNPDFIKDSLNYLNYHLPKVDETSQWNIQLDEYFLFNNKALASATNNIMRIAMDDNSQKDIIADFALKELLIRLMQTQARGMVEKNIVKNKSRIGFVVDYIKRNLHQKLSIDSIAKLAYVSKSNFFKMFKDELGISPNDFILQERINRAKELLASQTSIKETAFQTGFSDTNYFSRVFKQLEGVTPKSYQNRRFIR	PGPT0017485_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_02656	1611			SusD-like protein P38	ATGAGAAGAATTATAAATACAATATTAGTTATAGCGACCTTATCATCTGCAGTATTTACGCTGAACAGCTGTCAGGATGCCCTTGATATAAAGCAGGCAGGAGAATTACAGGAACAAGATCTGTATACAAGTGTTGCTAATTTAGGTGAAGTTTTAAACGGATCTGTATATGCTCAGCTAGATCCGATTGATGAGGTTTATTTCACCGCTGTTTTTACAGATGAAGTAAAACCAGGATCTGGTAGTGGAGGACAGGAATATTCCCTACATAGATTTTTCCTTGATCCATCTAGCGCTGTTATAACAGGAGGAACTGTAAGTACTGCTTCAAGCGATGGGATCTGGATGAATAATTATAAAGTAATTAACAGAGTTAACAGGCTTCTTGAGGGAGCAAAAAATATTACACCTTCTAACGCAAAAGAACAGGAGCAATACAATGCAATTCTCGCACAGGCAAGAGCCATCAGAGCATATTGCTACGTACAGCTGGAGGCATATTTCTCTCCTGATATGAAAGATTCTAATGCGTTAGGAGTAATCCTTCTAAAAGATGTTCCTGCTACGGATGCTCAGTTGCCAAGAGCTAAAAATCAGGAGGTGTATGATTTCATCAATGCTGATTTAGATTATGCAAGAAATATTTTATTATATCCGGGTCAGGCAGGATATCCTGCTGAAGGAAGATATCTGGCAGATAAAACTTTTGTAAATGCTGTTTCTGCACGTTTCAATTTGTATAGAGGGAATACTTCTTTAGCCAAACAATATGCGCAGGAAGTAATATCAAATTCAACTTTATCATTAACACAGGCGTCTCCGTCTACTGTTGATAATCTTACGGTTGGATCTGATGATTGGAATACAGCATTTTATGGTGTAGCAGGTTCTTTCAATCCATATAGAAATCTTTGGAATGATTCTTCAAGAGGAGAAATTATCTTCTCTTTAAATAGACTACCATTAGGAGCCGGCGGAGCGATTGGTTCAAGGTGGAATACGAACCAGTCAAACATTACAGGTTCTCCAATGTGGTTCTGGGGAAGAAACTTATATAATTTATTTACTGATACTCCGGGAGATATCAGAAAATATGCTTATGTAGATCCTTCTTCAAAACCAAATCCGAACTATGCTTCTGCAACAGCGGGAAACACCAGAACAGACGGATTGGTTATTGACAAATATCCTGGTAAAACAAGTACAGCTACAAGAAATGATGTAAAAGTTTTCAGATTGTCAGAAATGTATTTCATCTTGGCTGAGGCGGAGGTAGCAGTAGGAAACCTTACTGCAGCTCATGATTTGATACAGCAGGTAAGAGCAGCAAGAAATTACCTGGGAACAGCTACAACTCCTGCTTATTCATCAGCACAATTCGCTTATGCTGATATATTAAAGGAACGTAGAATAGAATTGGCTCTGGAAGGACACCGTTTTATCGATCTGAAAAGGCTTGCAGTAATAGCAAATGTATCTATGGACAGAAACACTACGGATGATATTATCGAAATGAAAAATCTTCCAAATGGTGATTACAGATATACATTACCTATTCCAATCAGAGAAATCTCTGCAAATCCGAACATTAAGCAGAATGATAAGTATTAA	MRRIINTILVIATLSSAVFTLNSCQDALDIKQAGELQEQDLYTSVANLGEVLNGSVYAQLDPIDEVYFTAVFTDEVKPGSGSGGQEYSLHRFFLDPSSAVITGGTVSTASSDGIWMNNYKVINRVNRLLEGAKNITPSNAKEQEQYNAILAQARAIRAYCYVQLEAYFSPDMKDSNALGVILLKDVPATDAQLPRAKNQEVYDFINADLDYARNILLYPGQAGYPAEGRYLADKTFVNAVSARFNLYRGNTSLAKQYAQEVISNSTLSLTQASPSTVDNLTVGSDDWNTAFYGVAGSFNPYRNLWNDSSRGEIIFSLNRLPLGAGGAIGSRWNTNQSNITGSPMWFWGRNLYNLFTDTPGDIRKYAYVDPSSKPNPNYASATAGNTRTDGLVIDKYPGKTSTATRNDVKVFRLSEMYFILAEAEVAVGNLTAAHDLIQQVRAARNYLGTATTPAYSSAQFAYADILKERRIELALEGHRFIDLKRLAVIANVSMDRNTTDDIIEMKNLPNGDYRYTLPIPIREISANPNIKQNDKY				NA	NA	NA	NA	NA
BMS003_02657	2853			TonB-dependent receptor P3	ATGAATGTGAAATTAAGCGTTTTGACAGTCGGAGTTCTGTTTTTTACAGGGCAGACTGTATTAGCTCAGGAAAAGGACTCTAAGAACAGTAAGAACAAGGAGACAAAACTTGAGGAAGTTGTTGTTTTAGGTTATAGCAAAACTGCTACTAAAGCTAAAACGACGACCTCTTCGGTAACAGTTGGTTCTGAAACCTTAGAAAACAGACCTAATATCTCGGTACTAAACTCGATTCAGGGTACCGCTCCCGGGATTGTAGTGAATTCGGCATCCGGATCTCCGGGTTCAGGGAAATTCAATATTTTAATCAGAGGAGCTAGTTCCCTTAATGGTTCTACAGACCCTCTATACGTTGTGGATGGAGTAATTACTTCCGGTTCTCAGTTCAGAAACCTGAATTCTTATGACATTGATACGTTCAGTATCCTGAAAGATGCTCAGGCAACTGCTATCTATGGAAATAGAGCTGCTAATGGTGTTGTTGTAATTACTACTAAAGGAGGAAAATTCAATTCTGGACTGAAGGTATCTTACGATGCATTAACTTCATTCAGTAAATTACCAACTTCTGACTATAACATGTCAGACGGGAGACAACTTTTACAAATTCAAAAGAATTTACAAACTGGTAAAGGGGGTAGCTTATCACAACAAGAGATTGATAACTGGGGTACTAACACAGACTGGAATAAACAATTTACCCGTATTGGTATTTCTCAACAACATAATTTGTCAATTACAGGAGGTGGAGAAAATATCAATAACTTCTTATCTTTAGGATATCTTGATAGTGAAGGTACCGTAAAGTCTACGGACTTCAAAAGATTTACGATGAGAAATAACCTTAATGGTAAGTCAAAAGACGGAAAACTATCTTTCGGGGCTATCATGGGATTAGGATATTCCAGAAGAAATCAGCTGGATGATGAGACGAATACAGGTATTGCTAACAATACACTTCAGAACCCATTATTTGGTGGGGTGCTTTCAAGGCCATATATTAGCCCTTCTCCGTATGCAAACGGACGGGATCTATATAACGCTATCGGAGCAGATGCATCCAATAACAGACAGTGGATTCTTCAGGATAACATCAATGGAGGAATCCGAAACAGATTTACAGAACTAAGTATTTCTGCCAATGCCAACGTAAACTATAAAATTACAGATTATTTAAGTGTTGGAAACAGAACAGGTATTGAGTATAAGCAATATGAAAGAAATTTTGCAAGGTCACCACTAGGGTATCTTGCCATCAGTGTGGCTAAAGGAGATGGATCAAAATATGGAGGATTTGAAGATTTTTCCACAACAAGAGATCTTACATTCAACAGTATTACGAATGTTTCATTCAATAAGTCTTTTGGGGATCATACGATTAATGCCGGTGTATACTTAGATTATATCAAAGCGCACGTAAGCTCAACAACTCAAAGACAGAATGGTCTGAACCCATTGCAATGGGAATTTGGGGCAGGAACAGGCTATATTCCATTTAACCCGGATACACCAAATATCTACAGACCTTCTAACAGTGCTTCAAAAGTAACAGCAGGTACTTTAGCTTACTTTGCAACAGCAGACTACGACTATAAAGATAAGTATGGAGTAAGTGGAGTTGTAAGAAGAGATGGATCTTATCGTTTCCTTCCTACTAACAGATGGGAAACTTTCTGGTCACTAGCAGCAAGATGGAATATTGATAAGGAAGAATTCATGGCGAATTCCGGATTCAGATTACTTAAGTTAAGAGCTTCAATCGGTACTACAGGTAACCAAAACTTAGGAATTGCAACTGATAATGCTAATCCATTAGCACTTCTTCCAAATAACTTCCTGGATCTTTATAATGGCTTCTCAGGATATCAGAACTTATTAGGATACAACTTTGTTAACTTATCAAACCCTTATCTGGAGTGGGAGCAGGTAAAACAAAGTAACATCGGATTGGATTTCAACTATAAGGGATTGATTGAAGGTAGCGTTGATTATTATCAGAAAAGAACATCAAGAATGTTTAATGATCTTCAAAGATCATCTGTTACCGGTTACTATTCAATCAGAGGTAATGACGGAGTTCTTGATAATAAAGGTATTGAAGGAATGATCAAATATAATGTGATCAGAAACGAAAATACAAGATTCTCTGTGTTTGTAAACGGTGCATACAACTCTAATAAGATTGTTTCCATGAATAGTGAAAACCTTGCAGGAGATGTAGTGAATGCTATCGGTGGACCTGCTGGTCAGTATCAGCTATATTCATATGTTGGAGTAAACCGTGACAATGGAAACTTACAGTTTCTTGACAAAAACGGAAACATCACCGAAGCTCCAACATCGGCAGACAGAGTACTGACAGGAAAATCAAGATATGCTAAGTTTACAGGAGGTTTTGGTTTCAATTTACAGCACAAAGGCTGGTTCCTTGATACTTTATTCTCTTTCCAACAAGGAGGCTGGATCTATGATAACCTGCAATCATGGATTATGGATCCAAATGCAGCTGCAACAAGAAACCTTTCGGCTGACTTATTAAATGCCTGGACTCCTGATAACAGGGATACTGATATACCTGCATTAAAAGCAAGTAACTTAAGCCTAGGCTCTTCAGACAGATTCTTACACAGATCAGACTTTATCAGACTTAAAAATATTTCTGTAGGATATAACTTCAGTAAAAGTCAGTTAGGTAAACTGCCGGTAAAAGGAATCAAAGTATTTGTTCAGGCAGAAAACCTTTATACCTGGACAGATTGGAAAGGTTTTGATCCCGAACCAATTACTTCATATTCACTAAATGTTTACCCTAATCCCAAAACCGTATCTGTAGGTTTAAATGTTGATTTTTAA	MNVKLSVLTVGVLFFTGQTVLAQEKDSKNSKNKETKLEEVVVLGYSKTATKAKTTTSSVTVGSETLENRPNISVLNSIQGTAPGIVVNSASGSPGSGKFNILIRGASSLNGSTDPLYVVDGVITSGSQFRNLNSYDIDTFSILKDAQATAIYGNRAANGVVVITTKGGKFNSGLKVSYDALTSFSKLPTSDYNMSDGRQLLQIQKNLQTGKGGSLSQQEIDNWGTNTDWNKQFTRIGISQQHNLSITGGGENINNFLSLGYLDSEGTVKSTDFKRFTMRNNLNGKSKDGKLSFGAIMGLGYSRRNQLDDETNTGIANNTLQNPLFGGVLSRPYISPSPYANGRDLYNAIGADASNNRQWILQDNINGGIRNRFTELSISANANVNYKITDYLSVGNRTGIEYKQYERNFARSPLGYLAISVAKGDGSKYGGFEDFSTTRDLTFNSITNVSFNKSFGDHTINAGVYLDYIKAHVSSTTQRQNGLNPLQWEFGAGTGYIPFNPDTPNIYRPSNSASKVTAGTLAYFATADYDYKDKYGVSGVVRRDGSYRFLPTNRWETFWSLAARWNIDKEEFMANSGFRLLKLRASIGTTGNQNLGIATDNANPLALLPNNFLDLYNGFSGYQNLLGYNFVNLSNPYLEWEQVKQSNIGLDFNYKGLIEGSVDYYQKRTSRMFNDLQRSSVTGYYSIRGNDGVLDNKGIEGMIKYNVIRNENTRFSVFVNGAYNSNKIVSMNSENLAGDVVNAIGGPAGQYQLYSYVGVNRDNGNLQFLDKNGNITEAPTSADRVLTGKSRYAKFTGGFGFNLQHKGWFLDTLFSFQQGGWIYDNLQSWIMDPNAAATRNLSADLLNAWTPDNRDTDIPALKASNLSLGSSDRFLHRSDFIRLKNISVGYNFSKSQLGKLPVKGIKVFVQAENLYTWTDWKGFDPEPITSYSLNVYPNPKTVSVGLNVDF				NA	NA	NA	NA	NA
BMS003_02658	1329	mvaS	COG3425	Hydroxymethylglutaryl-CoA synthase	ATGAGTTTTGGAATTGAAGCAGCGGGCTATTATGTGCCTGGTTTATATTTGGAGATTAAGGATTTAGCAGAAAAAAGAGGAATAGAACCGGCAAAATTGGAAAAAGGCTTAGGTCTTCATAAAATGGGACTTTCTGATGTTCATGAGGATGCTGCCACTTTTGCAGCAGAAGCATTACTGAAGCTTATAAAAGATTACAATATCAACCCTAAGGAAATAGCAAGAGTATATCTGGGAACAGAAAGTGCAGTAGATGCAGCAAAGCCCACGGCTTCCTATGCGGTACAGATGGTGGAAAATGTGCTGGAAGAAGAGTTCGGAGCAAGAAGTTTCAGGAACTGTGATGTACTTGATATGACTTTTGCCTGTGTAGGCGCAGTGGATGCTCTACATAATGCACTGGACTTTGTAAGAGTAAACCCCGATAAAAAAGCTGTGGTGATAGCCAGTGACTATGCAAAATATGAACTGGCTTCTTCCGGAGAATATACGCAGGGAGGTGGAGCTGTAGCACTTTTGGTTTCGTCAAAGCCGGATCTTCTTGAAATCGAAAATAACTGGGGAGTTGCCTCAGAAAGTGTTTTTGATTTTTTCAAACCAAGAAGGTCTTATAAAAAAGAAGATTTGAAAGGAGCTCCGGAAAACTATCCCGATAAGATTGAAGTCTTTACGGATGAACCTGTTTTTGACGGGCAATATTCCAACCAATGTTATCAGGATAGAATAAAAGAAGCTTATCAGCACTATAAAGAAATAACAGGCCAGGAAAAACCTTATGAAAACTGGAAGTATATTATCTTCCACCTTCCCTATGCTTTCCATGGAAAAAGAGTTTTTACAGAAATCTACAGCCTTGAAAATAATATTTCTTATGAAACAGCAGATGAACAGAAGGCTGTAGCTAAATCTGAGAACTATCTGAAACTAATCAGTGACAAGATAGAAAAAACACAGCGGGCTTCATCCGAAATAGGAAACATGTATACTGCTTCTATTTTTATGGCATTTCTCTCCGCATTACAAACATCTTTTAACGAAAATGAAGACTTATCCGGTAAAGAGATAGGATTTATAGGTTATGGAAGTGGCTCGAAATCAAAGGTATTTGCAGGGAAAGTTTCTGGAAGCTGGAGAAAGATTGTGGAGAAATGGAATTTATTTGAAAATCTGAATCAAAGAATTCCTGTAGACTTTGATACCTATGAAAAACTTCACAGAAAACAGCTGAAAGAATCTGTAAATAAAAAATATCAAGGTTTTGGACTAGTCTCTGTTGAGTCTGAAAATCCTGTTTTAATCGGAGCAAGATATTACGGTTATCAGAAATAA	MSFGIEAAGYYVPGLYLEIKDLAEKRGIEPAKLEKGLGLHKMGLSDVHEDAATFAAEALLKLIKDYNINPKEIARVYLGTESAVDAAKPTASYAVQMVENVLEEEFGARSFRNCDVLDMTFACVGAVDALHNALDFVRVNPDKKAVVIASDYAKYELASSGEYTQGGGAVALLVSSKPDLLEIENNWGVASESVFDFFKPRRSYKKEDLKGAPENYPDKIEVFTDEPVFDGQYSNQCYQDRIKEAYQHYKEITGQEKPYENWKYIIFHLPYAFHGKRVFTEIYSLENNISYETADEQKAVAKSENYLKLISDKIEKTQRASSEIGNMYTASIFMAFLSALQTSFNENEDLSGKEIGFIGYGSGSKSKVFAGKVSGSWRKIVEKWNLFENLNQRIPVDFDTYEKLHRKQLKESVNKKYQGFGLVSVESENPVLIGARYYGYQK	PGPT0008340_930	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008340-hydroxymethylglutaryl_CoA_synthase-K01641	NA	NA
BMS003_02659	2511			hypothetical protein	ATGAGAAAGGCCATTTTGTCAATTGCTGTACTGGGGATTTTATTTTCCGCAAATGTATCGGCACAGACTGAAACTTCAGGAAGGGAAAAAGTATACAGAGCTACCCACACGAAAGTAACGGAGCTTAAGCACACAAAACTGAAAGTGAATTTTGATTATCAGAAAGAACAGATGAATGGGGAAGAATGGCTTACTGCCTCACCTTATTTTTATGCCACCAATGAGCTTACACTTGATGCAAAAGGAATGTTGATTCATGAAGTAGCCCTTGATAATAATGGTAAAAAAACCGCTTTAAAATACGATTATAAAAATGATATCCTGAAAATCAGTCTGGATAAAACTTACCAGAAAAATCAGGATTATACAGTTTATATCAAATATACATCCCGCCCGAACGAAGTGAAACAGCAGGGAAGCATGGCAATCAATGATGCAAAAGGACTGTATTTCATCAATGCACAGGGAACAGATCCGGATATGCCGACGCAAATCTGGACACAGGGCGAAACAGAATCTTCTTCTGCATGGTTTCCAACAATTGATAAACCCAACCAAAAAACAACACAGGAAATCTATATGACAGTTCCTGATAAATATGTAACGCTTTCCAATGGTCTTCTGAAAGAATCCAAAAAAGAATCTAACGGACTCAGAACAGATCATTGGGTGATGGATAAAAGACATTCTACCTATCTTTTCTTTATGGGAGTGGGAGAATATGCCATTGTAAAAGACAAATGGAAAAATATTCCGGTTGACTACTATATTGAAAAAGAATATGAACCCTATGCCCAACAGATCTACGGAAATACTCCGGAAATGATCGACTTTTTCTCTAAAAAACTGAACTATGATTACCCATGGGCAAAATATGCGCAGATTTCAGGAAGAAATTATGTAAGTGGGGCAATGGAAAATACTACTGCCACACTTCATGGAAGTGATATCCTTCAGAAACCGGGACAACTTATCGATGAAAATACATGGGAAGATACCATTGCTCACGAATTGTTTCACCATTGGTTTGGAGATCTGGTGACAGCAGAAAGCTGGAGTAATCTTACAGTCAACGAATCTTTTGCTAATTATTCAGAATACCTATGGAATGAATATAAATACGGAAAAGATCAGGCAGATTATCATCTGATGACAGATGTCAACAATTACCTCCACAACCCGTCAGATTTTAATAAAAACCTCGTAAGATTCAATTATGAATCCCGTGAAGATGTCTTTGACCTGGTAACTTATCAGAAAGGAGGAGGAATTTTAAATATGCTGAGAAACTACCTCGGAGATGATGCCTTCTTTGCCGGAATGAATGATTATCTGAAAACCAACGAATATCAGAACGCAGAAGCACATCAGCTAAGGCTGTCCTTTGAAAAAGTATCAGGAAAAGATTTAAACTGGTTCTTTAATCAATGGTATTTTGGAAGCGGAAACCCGAAAATTAATTCATCATTTGCCTTTGAGCCTGTGAAAAAACAGGTGACAGTAACGATTAATCAAACCCAGGAAAAGCCGTTTGAATTTCCTCTGGCTATAGATGTATATGATAACGGAAAACCCAAAAGATACAATGTCTGGGTAAATGCTGAAGCGAAAAATACATTCAGTTTTGATGTTTCTAAGGCTCCGGATCTGGTTAATATCAATGCAGACGGAGTTTTATTGGCAGAAATTACAGATACCAAAACTCCGGAACAGAACCTTTTGCAGTTTACAAATTCTAAAGAGTTCAAAAGCAGATATCTGGCTTTAAACGGAGCCAAAGATCAGGTTGGAAAAAGTCCTGCAGTGACGAAATTATTGGCTGCTGCATTGAAGGATCCTTTCTTCAGAGTGAGAATAAAAGCTTTAAATTTAGTAGATCTTACCAACCCTGAACAGATGAAAGCTGTAGGTTCCGAGGTTGAAAGAATAGCTTCTAATGATCCTAAAACGCTGACACAGGCGGCTGCTATTACTGTTTTAGGTAAAACAAAAGATAAAAAGTACCTGCCACTATTTGAAAAAGGAGTGAACGCAGTTTCCAATGCTGTGAAAGCAAGCTCAGTGAGTGCAATTCTTTCCATTGATCCTTCAAGAGCCGGTAGCCTGGCCGACAAAATTAATATGAAAGGAGCATCAGATGAACTGCAGGCACAATTGCTTCCGATTATCGTGAAGAATAAAATAACTTCCCAGATAGAAAATATTGCTCCTCTTGCTACTTTCTATCCGTTTATTAAATTCCAGAACCCGGAATTAGGAAAAGCAGCAGAAGATGGCTTCAACTGGATCATGACTTCCGATAATCTGAAAGCAACGGAAAGCATTACAAAAATAGCAGGATATGCCAAAAATCAGATAGGAGACAATCCGCAGGCTAAAATGATGATGGTTCAGATACTGAAAGACGGCTTAAACAAGAAAATGGAACTGCTGAAGCAGAATCCACAAAATGCAGCAAGTATCAATAAACAGATTGATGTTATCAATAAAGCTATTGAAAATTATAAGTAA	MRKAILSIAVLGILFSANVSAQTETSGREKVYRATHTKVTELKHTKLKVNFDYQKEQMNGEEWLTASPYFYATNELTLDAKGMLIHEVALDNNGKKTALKYDYKNDILKISLDKTYQKNQDYTVYIKYTSRPNEVKQQGSMAINDAKGLYFINAQGTDPDMPTQIWTQGETESSSAWFPTIDKPNQKTTQEIYMTVPDKYVTLSNGLLKESKKESNGLRTDHWVMDKRHSTYLFFMGVGEYAIVKDKWKNIPVDYYIEKEYEPYAQQIYGNTPEMIDFFSKKLNYDYPWAKYAQISGRNYVSGAMENTTATLHGSDILQKPGQLIDENTWEDTIAHELFHHWFGDLVTAESWSNLTVNESFANYSEYLWNEYKYGKDQADYHLMTDVNNYLHNPSDFNKNLVRFNYESREDVFDLVTYQKGGGILNMLRNYLGDDAFFAGMNDYLKTNEYQNAEAHQLRLSFEKVSGKDLNWFFNQWYFGSGNPKINSSFAFEPVKKQVTVTINQTQEKPFEFPLAIDVYDNGKPKRYNVWVNAEAKNTFSFDVSKAPDLVNINADGVLLAEITDTKTPEQNLLQFTNSKEFKSRYLALNGAKDQVGKSPAVTKLLAAALKDPFFRVRIKALNLVDLTNPEQMKAVGSEVERIASNDPKTLTQAAAITVLGKTKDKKYLPLFEKGVNAVSNAVKASSVSAILSIDPSRAGSLADKINMKGASDELQAQLLPIIVKNKITSQIENIAPLATFYPFIKFQNPELGKAAEDGFNWIMTSDNLKATESITKIAGYAKNQIGDNPQAKMMMVQILKDGLNKKMELLKQNPQNAASINKQIDVINKAIENYK				NA	NA	NA	NA	NA
BMS003_02660	219			hypothetical protein	ATGAAATATTTAAAGATCAATATAGAAGAAAATGCAGATATTGAAGCGCTTAAAAATGCAGTACTTCAGTTAAAAGGAGTAGCTTCAGTAGAAATAGTGGATGATGAAAACCCTGAAAGTGAGCTAAAAAAAGCTTTTGCAAAAACCAAAGAGCAGCTTAAAACAGGAGACTATGAAACCTTAGTCAATGATATTTTCGATATCATCATTAAAAAATAA	MKYLKINIEENADIEALKNAVLQLKGVASVEIVDDENPESELKKAFAKTKEQLKTGDYETLVNDIFDIIIKK				NA	NA	NA	NA	NA
BMS003_02661	795	thyA	COG0207	Thymidylate synthase	ATGCAAAACTACCTGGACCTTTTACAGCATATTTTAGACAACGGAACTGATAAAACCGACAGAACAGGCACAGGAACAAGAAGTGTTTTCGGATATCAGCTGAGGTATGATCTGTCAAAAGGATTTCCTTTGGTAACCACAAAAAAAGTACATTTGAAATCTATTATCTATGAATTGCTTTGGTTCCTGAAAGGAGACACCAATATTAAATATCTTAAAGATAACGGAGTAAGCATCTGGGACGAATGGGCCAATGAAAATGGAGATCTTGGACCTGTTTACGGAGCGCAGTGGAGAAGCTGGAGTGGAGCAGACGGAAAAGTGGTAGATCAGATCACAGAAGTAATTGACCAGATTAAAAAGAATCCTGATTCCAGAAGACTGATTGTATCAGCTTGGAATGTTGCAGAAATTCCTAATATGGCCTTAGCTCCTTGTCACGCTTTGTTTCAGTTTTATGTAGCAGACGGTAAGCTGTCTTTGCAGCTTTATCAGAGAAGTGCGGATGTTTTCCTTGGAGTACCATTTAATATCGCAAGTTATGCTTTGCTGTTGATGATGGTAGCGCAGGTTTGTGATCTGGAAGTAGGAGATTATGTGCACAGCTTTGGAGATGTTCATATTTACAATAATCACTTTGAGCAGGTAAACAGACAGCTTGGAAGAGAGCCGAGATCACTTCCTGTCATGAATCTTAATCCTGACATTAAAGATATCTTCGATTTCAATTTTGAAGACTTCACATTAGAAAACTATGATCCGCATCCGGGAATAAAAGCTCCTGTGGCAATTTAA	MQNYLDLLQHILDNGTDKTDRTGTGTRSVFGYQLRYDLSKGFPLVTTKKVHLKSIIYELLWFLKGDTNIKYLKDNGVSIWDEWANENGDLGPVYGAQWRSWSGADGKVVDQITEVIDQIKKNPDSRRLIVSAWNVAEIPNMALAPCHALFQFYVADGKLSLQLYQRSADVFLGVPFNIASYALLLMMVAQVCDLEVGDYVHSFGDVHIYNNHFEQVNRQLGREPRSLPVMNLNPDIKDIFDFNFEDFTLENYDPHPGIKAPVAI	PGPT0008145_3318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
BMS003_02662	447			hypothetical protein	ATGGCAATGAACAAACAGGAAATAATCAATATCATTAAAACAAAAGCAGCGGAAAAAATCCAATACTTTGAAAATCTTATTGCAGAAACACGGGCTTCCAACAACGATACGAAAAGTTCAATGGGAGATAAATATGAAACCGGCCGGGAAATGCTTCAGCAGGAAATCAATAATCTTCAGAGACAGCTGAATGAAGTGTTGAGCCAGAAGGCTGTTTTGCAGAAAATAACATCCGATCCTTCTGAAAAAGTGCAGAACGGGGCATTGGTGAAAACAAATAAAGGATTATTTTATATTGCTGTTTCTATGGGAGAGATTGTTTTTGAGAATCAGAAAATGATGACCGTTTCGGCAGAATCACCTTTGGTAAAAGTGATGTATGGTAAAAAAACAGGAGAAACTTTCACAGTGAATACCATTCATCAGACCATTGAAAATATATGGTAA	MAMNKQEIINIIKTKAAEKIQYFENLIAETRASNNDTKSSMGDKYETGREMLQQEINNLQRQLNEVLSQKAVLQKITSDPSEKVQNGALVKTNKGLFYIAVSMGEIVFENQKMMTVSAESPLVKVMYGKKTGETFTVNTIHQTIENIW	PGPT0030495_4516	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS003_02663	1350			Cyclomaltodextrinase	ATGAAAAAATTAATCTTATTAGCTGTAATTGGTCTGGGAATTGTTTCCTGTACCACTCAAAAAAATACAAGGAAGATGACAGAATTGCCAAAAGATTGGAAGCACACTACAAATATCTATGAAGTAAACGTAAGACAATATACTCAGGAAGGAACTTTCAAAGCATTTGCAAAAGAAATGCCCCGCCTGAAATCTATGGGAGTAAAAACACTCTGGTTTATGCCCATTACCCCAATTGCCCAACAGAATAAAAAAGGAAGCATGGGAAGCCCTTATGCAGCTGCAGATTATACTTCCGTTAACCCTGAATTCGGAACTCTGCAGGATTTTAAAGATATGGTGAATGAAGCACACAGACTGGGTTTTAAAGTAATCATTGACTGGGTGGCCAATCATACAGGATGGGATCATGTATGGACAAAAACACATCCTGAATTTTATCTGAAAGATCCGGACGGGAAATTCCATATTGCTTCGGGAATGGACGATATCATTGAACTGGACTACAAAAATCAGGAAATGCGTCATGCCATGATTGATGCTATGAAATTCTGGGTAAAGGAAACCAATATTGACGGTTTCCGATGTGACCTGGCTTCGTGGGTAGAGGTCGACTTCTGGGAACAGGCACGTCCTGAAGTAGAAAAAGTAAAACCTCTTTTCTGGCTGGGAGAATTTGATGAGCTGGAAACTCCGGAGTATGGAAAGGTTTTTGATGCCAGCTATTCATGGAAATGGATGCATAAGACCGCTGATTATTATAAAAAAAATGAACCTCTTCAGGAATTAAAAGATCTTTTAAGACAATATTCCAACATCGGAGATGCTTCCATGAGAGCCTGGTTCACAGCCAATCATGATGAAAACTCATGGAACGGAACCGAATACGAGAAATATGGAGTCATCACAAAACCTATGGCCGTATTTTCCGCTACATGGAACGGTGTTCCGTTGTTATATTCAGGACAGGAGCTTCCGAATATGAAAAGACTGGAGTTTTTCGAAAAAGATGTCATCAAGTGGACCAATATTTATCAGCTGGCTGGTTTTTATAAAACATTATTGGATTTAAAATCTTCCAACCCGGCTTTAAAAGGTGGAGATCCTAAAGTGACTACTTACTTGCTTAATACAACGGCAAACGACAAGATTTTGGCTTATGTAAGGAAAAACGGGAATGACGAAGTATTGGTAGTACTGAACATGTCTAAAGAGCCCGTTAATTTTTCCATAGAAGATGAACACGTATCAGGAACATTCAGAAATGTTTTTGATAAAACGAAAAGAGATTTCAGCAATGGAAAAGACTTCAGCTTCAAAGTTTCAGATTATGCCGTCTTTGAAAAATAA	MKKLILLAVIGLGIVSCTTQKNTRKMTELPKDWKHTTNIYEVNVRQYTQEGTFKAFAKEMPRLKSMGVKTLWFMPITPIAQQNKKGSMGSPYAAADYTSVNPEFGTLQDFKDMVNEAHRLGFKVIIDWVANHTGWDHVWTKTHPEFYLKDPDGKFHIASGMDDIIELDYKNQEMRHAMIDAMKFWVKETNIDGFRCDLASWVEVDFWEQARPEVEKVKPLFWLGEFDELETPEYGKVFDASYSWKWMHKTADYYKKNEPLQELKDLLRQYSNIGDASMRAWFTANHDENSWNGTEYEKYGVITKPMAVFSATWNGVPLLYSGQELPNMKRLEFFEKDVIKWTNIYQLAGFYKTLLDLKSSNPALKGGDPKVTTYLLNTTANDKILAYVRKNGNDEVLVVLNMSKEPVNFSIEDEHVSGTFRNVFDKTKRDFSNGKDFSFKVSDYAVFEK	PGPT0018575_3150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS003_02664	597			hypothetical protein	ATGGTTTACAAAATCCGCGTAATATTAGATGCGAAAGAGGATATTTTCCGTGATATTGAAGTTAAGGGAAAACAAACGTTATGGAACTTACATTTAGGAATTAAAAGTGCATTCAGTCTGCAGGGTGACGAGCTTTCTACTTTTAATCTGTTGGAAAATGACGGAACAATCGTAAAAAGTGTCCCATTGGAAGATATGAGTGACGATGGTGATGGTGAGATTATGTCAGATGTTTACATTGATGAAGCTTTTGAAAATGTAGGCGACAAAGCACAGTTTCAGTATGGGCTTCTTGATCTTTGGGAATTCTTCTGTGAGCTTGTAGAAGTAATTGAAGAAACAAAAGGAGTTAATTACCCTATTACTGTATACAGATTTGGAAATGTTCCATTGAAGGCTCCAAGCAAAAACGGAAGTGCAGGAGGATCTAAAAAGAAATCAGCAATGCCTTTGGTAGATGATGAGTTTGGATTTGATGAAGATTTCGGAGCAGGAGGAAATTTTTCAGATGAAGATGATGACAACTTTGATGATGAGGAAGAAGACTATAATGACGATGTCTTTGATGATGAGGATGACAATGATGACGAAAGATAA	MVYKIRVILDAKEDIFRDIEVKGKQTLWNLHLGIKSAFSLQGDELSTFNLLENDGTIVKSVPLEDMSDDGDGEIMSDVYIDEAFENVGDKAQFQYGLLDLWEFFCELVEVIEETKGVNYPITVYRFGNVPLKAPSKNGSAGGSKKKSAMPLVDDEFGFDEDFGAGGNFSDEDDDNFDDEEEDYNDDVFDDEDDNDDER				NA	NA	NA	NA	NA
BMS003_02665	1032	sasA_9		Adaptive-response sensory-kinase SasA	TTGAAATTTTACAGACTTACCCTCGTTGCCTCCTGTCTGCTGACACTGGTAATGTTCCTTTTGGTAGTCGTCTTTGACTCGCTGAAAGATATCTATTATGAGACCCCTTTGTTTAAAATGGGTCTTTTCATCTGTATTGTCCTGATCTTTCTGATTAACTGTGTAGTGCTGGAACTTCTTTTCAATTACTACAGCAGAAAACAGGTAAAAGGTCTTTCCGGATTTCTTCCTCAGGAAATAGTGCAGAATCATGATGAAAATATCACCATTAAAGAATTAGGAGAAAGATTTTCAGATCTCAATCAGCAGCAGGTATCAGAAATAGATATGATGAAAGAGATGGAAAGCTACCGTAAAGAATACATCGGAAATGTTTCCCATGAACTGAAAACCCCCTTGTTCTCTATCCAGGGATATGTAGAAACCCTGAGAGATGGAGGAGTAGACAACCTTACCATCCGGGACAAATATCTGGAGAGAATAGATAAATCTGTAGAAAGACTTATCGCCATTGTGACGGATCTTGATATGATTAACAGGCTGGAAGCCGGAGAAATCAATCTTACCGTTTCAAAATTTGATGTCAACCTTCTGATCAAAGAGATTTTTGACCTGCTTGATCTGGAAGCTGAAAAAAGAAATACTACACTACAGATTCAGACCCTTCATCCGCAAATCTTCGTGGAGGCAGACAAACAGAAAATTTCTCAGGTTTTCATTAATCTTATTTCCAATGCAATTCATTATGCTAACAGACAGGAAGCAAAAGTAATTGTAAAAACCAGTATCCTGAAAAATAAAGTACTGATAGAAGTGATAGACAACGGAATGGGAATCAAATCCGAAATTCTTCCAAGGATTTTCGAAAGATTCTACCGTGTAGAAACCAGCAGAAGCCGAAGAGAAGGAGGTTCCGGATTAGGGTTGGCTATTGTAAAACACATTCTTGAAGCACATAACGAAAATATCACCGTAGAGAGCGTTTATCTTGAAGGAACGAAGTTCAGTTTTATGCTTGAAAAAAGTAAATAA	MKFYRLTLVASCLLTLVMFLLVVVFDSLKDIYYETPLFKMGLFICIVLIFLINCVVLELLFNYYSRKQVKGLSGFLPQEIVQNHDENITIKELGERFSDLNQQQVSEIDMMKEMESYRKEYIGNVSHELKTPLFSIQGYVETLRDGGVDNLTIRDKYLERIDKSVERLIAIVTDLDMINRLEAGEINLTVSKFDVNLLIKEIFDLLDLEAEKRNTTLQIQTLHPQIFVEADKQKISQVFINLISNAIHYANRQEAKVIVKTSILKNKVLIEVIDNGMGIKSEILPRIFERFYRVETSRSRREGGSGLGLAIVKHILEAHNENITVESVYLEGTKFSFMLEKSK	PGPT0002705_4483	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS003_02666	675	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGAGCAAAAAAATTCTTTTAATAGACGATGAACTGGACATTTTAGAGATTCTGTCTTACAATTTGGAAAAGGAAGGGTATGATATCTATACAGCTACCAATGGTAACGAAGGGATAGAAAAAGCAAAGGAAATAGTTCCGGATCTTATCTTATTAGATGTCATGATGCCTGAAAAAGATGGTATAGAAACCTGTCAGGAACTTCGTAAAGTGAAAGAACTTCAAAAAACACTTATTGTGTTCCTTTCTGCAAGAAGCGAAGAATTTTCTCAGTTAGCAGGCTTTCAGGCTGGTGCCAATGATTACATCGTAAAACTGATCAAACCGAAAATCCTTATCTCTAAAGTAAACGCATTATTACAGCTTACCTCTCAGGTGTCTGACAATGCAAAACTAATCGAAATCGGAGACCTTGTTATCGACAAAGATAATTTCAGAGTTTCCAAAAGCGGACAGCAATTTCTTCTTCCCAAAAAAGAATTTGATTTGCTTTACCTTTTGGCTTCCAATACTGAAAAGGTCTTCAAGAGAGAAGAGATCCTGGAAAAAGTTTGGGGTAATGATGTGATTGTAGGAGAAAGAACCATTGATGTTCACATCAGAAGGCTGAGAGAAAAGCTAGGAATCAATACGATTCAGACATTAAAAGGGATTGGATATAAACTGATCGTTTAA	MSKKILLIDDELDILEILSYNLEKEGYDIYTATNGNEGIEKAKEIVPDLILLDVMMPEKDGIETCQELRKVKELQKTLIVFLSARSEEFSQLAGFQAGANDYIVKLIKPKILISKVNALLQLTSQVSDNAKLIEIGDLVIDKDNFRVSKSGQQFLLPKKEFDLLYLLASNTEKVFKREEILEKVWGNDVIVGERTIDVHIRRLREKLGINTIQTLKGIGYKLIV	PGPT0002665_1716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
BMS003_02667	2763			hypothetical protein	ATGCTACTTGCCTTGTTTTCTGCTGGCTATGCTTTTGCACAAAGTCAGATTTTGGAAGGTAGGGTATTGGATGAGAAAGATAATACTCCTATAGAAGGGGTAAAAGTAAAAGTAAATGGTCAGGAAGCAACTACTGACATTTCCGGATACTACTCTATCAACCTATCCCCTGGTACCAATTACATTGTAACGGTAAGCTCCAATGGGTATAACAGAAAAGAAATCAGCGAGGTTATTATCAAAAATGAAGGTAACACTCATCTTGACATTGTTCTGGACAAGCCCTCTGCAAAAGAGAAAGAAATTGAAGGAGTTGTCATAAAATCTAACGCAAGAAAAGAAACCATAGCCTCTACCATCGGTTTACAGAAGAATGCTGGTGTAGTTTCTCAGGTTATCGGTGTGGAAGCTATTAAAAGAAGTCCGGACAGAAATACAGGTGAAGTTCTTAAAAGAGTTTCCGGGGTAAGTTTATTTGACGGAAAATATATTGTAGTAAGAGGTTTATCAGACCGTTACAACCAGGCCATGCTGAACGGCATCCAGCTATCCAGTACAGAGCCAGACAGAAAGACTTTCTCTTTTGACCTTTTCCCAGCTAACGTAATCGAAACACTTGTTATCAACAAAACGTTTATTCCTGAATATACGGGAGAATGGGGAGGTGCATTAATTCAGGTAAATACTAAAGACATTCCTAATAAAAACTTCTTCAACGTACAGGTAGGTGTAGGAGGAAATACAGCTACTATGGGGCAGGAATTCCATATGCAGAAAGGAGGAAAGTGGGACTTTTTAGGAATTGATGGCGGTTACAGAAAACTTCCTACCAATATGCCTGCAAAAAATGCGTTCAGCATTCTGACTGAAGCTCAGAAAACAGAGATTGGTAAAGGATATACAAAGAACCTTGGATACAACAGTATCGGTTATCCTGAAAACTTGAGCTTACAGCTGGACGGAGGGTTTAATACCAAAGTGTTTGGAAAAGATTTAGGAGTGATTGCTGTTTTAAACTACAGTAACAACAAAAAAAGAACTGAATCTACCAACCGTTTCTTTACCATCAACAACCAACTTGCTGACACCAACTTCGATTATTTTACAGAAAAATACAGCAATGATATTATTTTAGGAGGAATGTTGAACTTATCTTTAAAGTTGAACAGCAACAATAAAATTTCCCTAAAGAATATCATCACCAATAATACGGTGAACCACATGTCCTTCAGAACAGGAAAGGACTTCGAATTTGATCCTATCAACGGAACAAATATCATGGCAAGGGAAATTGGATTTAAAGAAACTACTTTTTATAATTCTACCCTTACCGGTAACCATAAAATTAATATTCTTGGAGGTCTTACCGTAAACTGGTACGGAAGCTTCGGGATCCTGGATCAGTATATTCCTTTGCTGCAACGTTTACAGTATAATCAATACACCAATATAGAAGGAAGTCCGTATCTGGCATTAATTTCTAATGGTCTTTCTCAAAAATCAGGAAGTGTATTTTACTCTACTCTAAGCGATTATTTATATAATGCAGGGGGGGATATCTCCAAGACATTTACAATGTTTGGACAAAAGCAGACAATCAAAGGAGGTTATTTATTCCAGGTAAAAGACAGAATATACAACTCAAGACCGTTCTCTGTAAGACTTGAAAACTTCAATCAGGGATTACTTTCTCAACCTTTCGAAACGATTTTCAATCCTGATAATTTCGGGACTAACGGAGGTTTTACTTTTGATGAAATTGCAGGAAACCAGTACAGATATATTGCCAACACAATCCTTAATGCAGGATACTTACAGTTTGACAATAATTTTGCACCATGGTTAAGAGCAGTATGGGGGCTGAGAGTTGAAAACTTTGATCAATTGGTAGGCAGCACGAAAAAAAGTGATGACCGTTTTGTAAACACCCGTGTTACAGACTTCTTACCTGCTGTTAACTTAACATTCAAGGTAAATCATAAAATGAATATCCGTCTTGCAGGTTCACAAACTGTTGTAAGACCTGAATTCAGAGAAGTTTCTCCTTTGGCATATTATGATTTTGATCTGGGAGCTACGGTAATCGGTAATAAATCTATTGAAAGAACTAAAATCACGAGTGCCGATCTTCGTTGGGAATTTTATCCGAGAAACGGAGAAATTATCTCAGTGGCAGGTTTCTATAAAAACTTTAAAAAGCCTATCGAATTATACTTCAACCAATCCGGGGTAGGAACGAGTAATACTTTCAACTACCTGAACGTAGATAAAGCTGATGCTTATGGATTGGAAGTGGAAGCCAGAAAAAAACTTGACTTTATAAGTGCTCTTAAAAACTTCACACTGGGTGGAAACGTAGCATTAATTAAAAATAGAGTAACAGACGAAGCTACTAATATTGACAGACCAATGCAGGGGCAGTCTCCATATACAATCAATGCGAGCCTTCAGTATGATGCTGAAAAGTCCGGATGGTCCTCAACAGTATTATTCAACATGATCGGAAGAAGAATCCTCTATGTAGGTAACGATCAGGTACCGCCAATATGGGAAGCGCCAAGACCACTTTTGGACTTCCAGATTGCCAAGAAAATATGGAACAGAAAAGGAGAAATAAAGCTGAATGTTTCAGATATTCTGAACCGTAGAGCTAAATTCTACCATGACCTGAATGACAATGGTAAGTATGACAGCAAAGACGCTCTTGCCATTGAAAGACTTACAGGAACCAATATCAGTTTAACACTGGGATACAATTTTTAA	MLLALFSAGYAFAQSQILEGRVLDEKDNTPIEGVKVKVNGQEATTDISGYYSINLSPGTNYIVTVSSNGYNRKEISEVIIKNEGNTHLDIVLDKPSAKEKEIEGVVIKSNARKETIASTIGLQKNAGVVSQVIGVEAIKRSPDRNTGEVLKRVSGVSLFDGKYIVVRGLSDRYNQAMLNGIQLSSTEPDRKTFSFDLFPANVIETLVINKTFIPEYTGEWGGALIQVNTKDIPNKNFFNVQVGVGGNTATMGQEFHMQKGGKWDFLGIDGGYRKLPTNMPAKNAFSILTEAQKTEIGKGYTKNLGYNSIGYPENLSLQLDGGFNTKVFGKDLGVIAVLNYSNNKKRTESTNRFFTINNQLADTNFDYFTEKYSNDIILGGMLNLSLKLNSNNKISLKNIITNNTVNHMSFRTGKDFEFDPINGTNIMAREIGFKETTFYNSTLTGNHKINILGGLTVNWYGSFGILDQYIPLLQRLQYNQYTNIEGSPYLALISNGLSQKSGSVFYSTLSDYLYNAGGDISKTFTMFGQKQTIKGGYLFQVKDRIYNSRPFSVRLENFNQGLLSQPFETIFNPDNFGTNGGFTFDEIAGNQYRYIANTILNAGYLQFDNNFAPWLRAVWGLRVENFDQLVGSTKKSDDRFVNTRVTDFLPAVNLTFKVNHKMNIRLAGSQTVVRPEFREVSPLAYYDFDLGATVIGNKSIERTKITSADLRWEFYPRNGEIISVAGFYKNFKKPIELYFNQSGVGTSNTFNYLNVDKADAYGLEVEARKKLDFISALKNFTLGGNVALIKNRVTDEATNIDRPMQGQSPYTINASLQYDAEKSGWSSTVLFNMIGRRILYVGNDQVPPIWEAPRPLLDFQIAKKIWNRKGEIKLNVSDILNRRAKFYHDLNDNGKYDSKDALAIERLTGTNISLTLGYNF				NA	NA	NA	NA	NA
BMS003_02668	1410			hypothetical protein	ATGAAAAAGTTCGTTTTATATTCTTTAATGCTTGGCGCTCTAGTATCAACTACCGCTTGTAGAAATATAGAAGAAGATGGACCAACCATTATTCAAAATGGAGGTAACGGAAACGGAGATACTGAAAACCTTATTCTTTCAGGAAAGATCACTTCCAACCTTACGCTTAAAGCTAATAAAGTTTATAAGCTAAGAGGATTAGTATATGTAACTAACGGAGCTACTCTTACTATCGAGCCAGGTACAAAGATTGTAGGTGAAGCTGATAAAAACGGAGCTTTGATCATTACAAGAGGGAGCAAGATCATGGCAGAAGGAACTGCTGCTAACCCTATTATCTTCACTTCCGAAAAACCAAGTCCTAAGAGAGGAGACTGGGCAGGTGTAGTCATTTTAGGAAATGCACCTACGAATGCTTCTTTCGGTGGAGCAAACGGAGTTGGTGAGATTGAAGGAGGAATCAACAACTCTGAAGGTCTTGGACTTTACGGTGGAAACAATGCTGCTGACAACAGTGGTGTATTAAAATATGTAAGAATAGAATATGCAGGATATGCATTCTTACCGGATAAAGAGATCAACGGACTTACGTTCGGGGGGGTAGGTAACGGAACTACTGTAGACTACGTGGAAGTGGCTTATGCTAATGACGATAGTTTTGAATGGTTCGGAGGAACAGTAAACTGTTCTCACCTTATTTCTTACAAAGGTCTTGATGACGATTTCGATACGGATAACGGTTTCTCCGGAAATGTACAGTTTGGTATCGCTGTAAGAGATTCTCAGGTAGCAGACGTTTCGGGTTCTAACGCATTTGAATCTGATAATGATGCTAACGGTTCTACTTTGACACCTCAGACATCTGCAACGTTCTCTAACATGACGATTATCGGGCCAATCAACTCTGCAGCTCCGGGATCTATTAATGCTTTATTCCAGAATGCTTTACAGATCAGAAGAAACTCTTCTATCTCTGTATTCAACTCTGTATTCACAGGATTCCCTGTAGGTTTATTCATTGATGCTACAAAAGGTTCTCCAACGGATAACAATATTGTAGGTAACAAACTGTTCTTTGAAAACAACATATTGGCAGGAAATACAACTCCTTTAAAATTCGGACCATCTACATCTACTCCTACAACATATACATTGGCAGATCTTACGACTTGGTTTAATGCTAAAGGAAACACAATCCTTGCTTCTACAGCAGATGTAAAGCTTGCCGGTGCATGGGCTCCTGCAGGAACTACACCAAACTTTACGCCTAATTCCGGTTCTCCTTTATTAACAGGAGGATCATTTACAAATCCTAAATTAGCAACATGGTTTACCCAGGTTACTTACAGAGGTGCTGTAAAAGATGCCAGCGATACGTGGTATGCAGGATGGACTAACTTTAACTTATAA	MKKFVLYSLMLGALVSTTACRNIEEDGPTIIQNGGNGNGDTENLILSGKITSNLTLKANKVYKLRGLVYVTNGATLTIEPGTKIVGEADKNGALIITRGSKIMAEGTAANPIIFTSEKPSPKRGDWAGVVILGNAPTNASFGGANGVGEIEGGINNSEGLGLYGGNNAADNSGVLKYVRIEYAGYAFLPDKEINGLTFGGVGNGTTVDYVEVAYANDDSFEWFGGTVNCSHLISYKGLDDDFDTDNGFSGNVQFGIAVRDSQVADVSGSNAFESDNDANGSTLTPQTSATFSNMTIIGPINSAAPGSINALFQNALQIRRNSSISVFNSVFTGFPVGLFIDATKGSPTDNNIVGNKLFFENNILAGNTTPLKFGPSTSTPTTYTLADLTTWFNAKGNTILASTADVKLAGAWAPAGTTPNFTPNSGSPLLTGGSFTNPKLATWFTQVTYRGAVKDASDTWYAGWTNFNL				NA	NA	NA	NA	NA
BMS003_02669	1239			hypothetical protein	ATGCAATTTCCCTATCAATTAACTGCAAAAGGAAACTATTCCCTTAAAAATGTCCGCCTGGAAACAGGTTTTAAATACGAAAATGAAGAGATTACCGGTACAAAAACAGATCTTTTCAGTATTGAAATTGAAGACGGAAAAATAAAGACAGTCAAAGCCAATGATCCTGCTTCCAATGCCATAGATGCTGAAGGATATCTGATGCTTCCGGCTTTCAGGGATATGCACATCCATTTGGATAAAACATTGTATGGTCTCCCATGGCAGGCACTTTCTCCGAAAAGAAGAACGGTGAAAGATATGATTGCCTATGAACAGGAAATCATCCCGGAATTATTGAAAACTTCCGTAAGCAGGGCAGAACAGCTGATCAGCCTGCAGCAGCATTACGGAACTCATTTTGCGAGAACTCATTTTAATATTGATCCTACATCAGGATTGAAATCATTGGAGCATCTTGAACAGGCTCTTGAAAATAAAAAAGATTCTTTCAAAGCTGAACTGGTTGCCTTTCCACAACATGGAGTTTATTATACAGAATCTGCCCCTCTGATGAAAGAAGCAGCTCAACTGGAAAGTGTAGGATTCATCGGTGGACTGGATCCATTAAGCATTGACGGAAGCATTGAGAGAGTAGTGGATTTCACGGTTCAGCTGGCCTTGGATCACAATAAAGGAATTGATATTCATCTGCATGAAGTAGGAGAGTCCGGAATGAAAACCATTAATTATTTGATTGATAAAGCAATTGAAAATCCTTCACTTCAGGGAAAGACCTTTGTGAGCCATGCATTTGCCTTAGCTCATCTTTCTCCCAAAGAAACTGAGCAGATTGCGGAAAAACTGGCTGCAGGAAAAGTGGGAATCGCATCTTCTGTACCTTTTAAAAGAACTGTGATGCCTATTCCAACTCTAAAAAAATATGGTGTGAATGTATTAATCGGAAATGATAATGTACAGGATTACTGGAGTACTTTCGGGTCCGGAAATATGCTGCAGAAAGCTAATCTTATTGCAGAATTATACGGTTATACTACGGAATATGCGCTGTCAAGGGCTTTGCAGTTTGCTACTCAAAGCATTCTTCCTCTGGATGAAAAAGGAAATCAGCAGTGGCCAAAAGCCGGTGATGAAGCCAGCATTGTTCTCGTAGATGCATCCTGTTCTGCAGAAGCCGTTTCCAGAATGTCTGAAATAAAAACCCTGATGAATGACGGTAATTTATTCCGGAGAAATTAA	MQFPYQLTAKGNYSLKNVRLETGFKYENEEITGTKTDLFSIEIEDGKIKTVKANDPASNAIDAEGYLMLPAFRDMHIHLDKTLYGLPWQALSPKRRTVKDMIAYEQEIIPELLKTSVSRAEQLISLQQHYGTHFARTHFNIDPTSGLKSLEHLEQALENKKDSFKAELVAFPQHGVYYTESAPLMKEAAQLESVGFIGGLDPLSIDGSIERVVDFTVQLALDHNKGIDIHLHEVGESGMKTINYLIDKAIENPSLQGKTFVSHAFALAHLSPKETEQIAEKLAAGKVGIASSVPFKRTVMPIPTLKKYGVNVLIGNDNVQDYWSTFGSGNMLQKANLIAELYGYTTEYALSRALQFATQSILPLDEKGNQQWPKAGDEASIVLVDASCSAEAVSRMSEIKTLMNDGNLFRRN				NA	NA	NA	NA	NA
BMS003_02670	846	rhaS_11		HTH-type transcriptional activator RhaS	GTGGCTTACCATACAGATCATTTTCCTATGTTGGGAATCCAGGAATTTAGTGAAAATCAGCTGAAAGGCTGTAATCTGCTGTTCAATGATCTTTCCGGAGCACGTTCTATTGATGATCCTCACAAACATGACTTTTTTATCATCAACCTTTTTAAGCAGGGGGCTGGCTCACATACCATAGACTTTACGGAATATCAGGTCAAAGACTATCAGATTCATCTTGTTTTTCCGGATCAGGTACACCAGTGGGTGATTGAAAAGGAAACCATCGGATATCAGTTGATGATCAGCAGAGATTGGTTTGAAAGTTTTTTGCCGTCATTAAGATTTTCTGCAACGTATTACCAAAATCATCCGGTGATCCATCTTTCCAAAGAAGCTTTTGAAACTTTTCTGTATGAATTTCAGGAAATCAAAAAAGAGCTGAACAGTGAAAACGTATTTTGGGAATTGATTCAAAAAAGAAGCGAACTGATCGGGTTGCTGGTGAGTAAATCTGTGGAAGGGGCTTTCAAAGACTTTGAAATCTATAACTCGAATCCTATTATCTCCAAATTTTTAAACCTGATTGATGAACATTTCAAAACAGAAAGATCTGTGTCTTTTTATGCCGATAAACTGAATATTTCTGCCAATTATCTGAATATTGTCTGTAAGAAAAATCTCAATGCTTCAGCCTCATCACTTATTCAGGATCGCATTTTACTGGAATCTAAAAGGCTTTTAAAAGTTTCCGAAATGTCTGTGAAAGATATTGTATATGATCTCGGTTTCTATGATCATGCCAGCTTTTCAAAATTCTTTAAAGCTCAGACGGGGATGACACCTTCCCAGTTCAAAGAATAA	MAYHTDHFPMLGIQEFSENQLKGCNLLFNDLSGARSIDDPHKHDFFIINLFKQGAGSHTIDFTEYQVKDYQIHLVFPDQVHQWVIEKETIGYQLMISRDWFESFLPSLRFSATYYQNHPVIHLSKEAFETFLYEFQEIKKELNSENVFWELIQKRSELIGLLVSKSVEGAFKDFEIYNSNPIISKFLNLIDEHFKTERSVSFYADKLNISANYLNIVCKKNLNASASSLIQDRILLESKRLLKVSEMSVKDIVYDLGFYDHASFSKFFKAQTGMTPSQFKE				NA	NA	NA	NA	NA
BMS003_02671	1332	atzC		N-isopropylammelide isopropyl amidohydrolase	ATGAATACCTCAGACAATAATCTTTCCCGTAAGGACTTTATCCGGAATTCGGCTTTGGCTGTCGCGGGGTTGACTTTACTACCCAATATCATGACTGCATCACCTTTCGATGAGAAAAATCTTTCAGTAAAAGGAAAAATGAGCCTTAAAAATGTTCGTCTGGAAACTGGTTTTGAATACCAGGATGGGGAAGTAGCCTCTACCAGAACCGATGTGTTTTATGTGGAAATTGAAAACGGAAAAATCACAAAGATTGCACCTAATCAACCGAATGCAAAAGCGGCAGATGCAAAAGGTCTGCTGATGCTTCCTGCGTTTAAAGATATGCACATTCACCTTGATAAAACCTTTTATGGAGATCAGTGGCAGGCTGTACGAAAAAGAACAGGTGGAATAAAAGGAATGATTGAGCTGGAACAGAAAATGCTTCCCGAAATGCTGAGGAATTCAACCTTTAAGGCAGAAAAACTGATCGAGCTATTGCAGTCTAAAGGAACTTCCTATGCAAGAAGCCACGTGAATATTGAACCGACTTCAAAACTTCAGTCATTAAAAAACCTGCAGAAAGCATTAGAAAATAAAAAGAAAAGCTTTGGAGCAGAGTTGGTTGCATTTCCCCAGCATGGGGTGTTCTATACAGATTCCGTACCGTATCTAAAAGAGGCCGCAAAGATGGATATTGATTTTATCGGAGGAGTAGACCCGTTCAACATCGATGGAGACATCGAAAAAGTAGTAGATTTTACGGTTCAGCTTGCTCTGGACAATAAAAAAGGGATAGATATTCACCTGCATGAAACAGGAGATTCCGGATTGAAAACGGTTGAATATCTGATCAAAAAAGTAAACGAAAACCCAGCGCTTAAAGGAAAAACTTATGTAAGCCACTGTCTTGTCCTTGGAAAATTAGAACCTGTAAAACAGGAAGAAATTGCTGAGAAATTAGGTGAAGCCCAGATCGGAATTGTCTCCACAATCCCTTTCGGCAGACTGATTATGCCTATACCAGTACTTTACAAACATAATGTAACGGTTCTGACCGGAAATGACAGTATCGTGGATCACTGGAATACTTTTGGAACGGGAAGCGTACTTCAGAAAGCTAATTTAATGGCACAGCTGTATGGATATTCAACAGAGTTTCTATTGTCAAGAAGCCTAAAACTGGCAACGGGCAATCTCCTCCCGCTGGACGATAAAGGAATTCAGCAGTGGCCGAAATCCGGAGATAAAGCAGACTTTGTTCTTGTTAATGCAAGCTGTTCTGCAGAAGCCGTGTCAAGAATTTCAGACATAGAATCATTAGTGTATGATGGAAATGTTGTCTTTTAA	MNTSDNNLSRKDFIRNSALAVAGLTLLPNIMTASPFDEKNLSVKGKMSLKNVRLETGFEYQDGEVASTRTDVFYVEIENGKITKIAPNQPNAKAADAKGLLMLPAFKDMHIHLDKTFYGDQWQAVRKRTGGIKGMIELEQKMLPEMLRNSTFKAEKLIELLQSKGTSYARSHVNIEPTSKLQSLKNLQKALENKKKSFGAELVAFPQHGVFYTDSVPYLKEAAKMDIDFIGGVDPFNIDGDIEKVVDFTVQLALDNKKGIDIHLHETGDSGLKTVEYLIKKVNENPALKGKTYVSHCLVLGKLEPVKQEEIAEKLGEAQIGIVSTIPFGRLIMPIPVLYKHNVTVLTGNDSIVDHWNTFGTGSVLQKANLMAQLYGYSTEFLLSRSLKLATGNLLPLDDKGIQQWPKSGDKADFVLVNASCSAEAVSRISDIESLVYDGNVVF				NA	NA	NA	NA	NA
BMS003_02672	1290	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAAGTATCAAAGAAGTTCGGCTTTATTTGATGAAGCCTACCAATACATTCCGGGAGGGGTAAACTCTCCGGTAAGAGCATTCAAATCCGTAGGAGGAGTGCCTGTTTTTATGAAATCAGCAAAAGGAGCTTACCTTACCGATGCAGATGACAACACTTACATTGATTATATCAATTCATGGGGGCCTGCCATTTTAGGACATACCCATCCTGAAGTATTGGAAGAACTGAAAATACAGGCAGAGAAAGGATTCTCTTTCGGAGCTCCTACAGAACTGGAAACCGAAATTGCAAAATTCATCATTGAAAATGTTCCGAATATTGACCAGATCAGAATGGTTTCTTCAGGAACAGAAGCATGTATGAGTGCTATCAGACTGGCAAGAGGATATACAGGAAGAGATAAAATTGTAAAATTTGAAGGCTGTTATCACGGACATTCAGATTCATTTCTGATCAAAGCCGGAAGTGGTGCTGCTACATTCGGAAACCCAAATTCTCCTGGAGTAACTGCAGGAACGGCTAAAGATACTTTATTAGCCCGTTATAATGATTTTGAGCAGGTTGAAGATTTATTCCGTCATAATCAGGGAGAAATTGCAGCGGTAATTATTGAACCTGTTGCAGGAAATATGGGATGTGTATTGCCCGAAAATGATTTCTTACAAAAGCTGAGAAAAATTTGTGATGAAAACGGAGCTTTGTTAATTTTTGATGAGGTGATGACCGGCTTCAGACTAGCTTTCGGAGGTGCTCAGGAACTATTCAATGTAAAAGCAGACTTGGTAACTTACGGAAAAGTAATTGGAGGAGGTCTTCCGGTAGGTGCTTTCGCGGGAAGAAATGAAATCATGGATCATCTTGCACCGAAAGGAGGAGTTTACCAGGCAGGAACATTAAGCGGTAATCCTCTGGCAATGAGAGCAGGATTAAAAACACTTCAGCTTATTAAAAATGATCCTGGATTTTTCAGCAGATTAGAGAAGACAACTGAAACATTGGATTTTGAAATCGGAAAAATTCTGAACGAAAAAGGAATTGCCCACAGAATCAACAGAAAAGGTTCCATGATGTCGGTATTCTTCCATATCAAAAGTGTTTCCAATTTTGATGAAGCACAGGAAGCCAACCATCCATTGTTTAATAATTTCTTCCACCAAATGCTGAATAATGGAGTATATCTTCCGCCAAGTGGATACGAAACTTACTTCATTAGTGACGCAATCAAAGACAAAGAGATTGACATGACACTGGAAGCTGTAAGAAAATTTGAATATTCAAATAAATAA	MKYQRSSALFDEAYQYIPGGVNSPVRAFKSVGGVPVFMKSAKGAYLTDADDNTYIDYINSWGPAILGHTHPEVLEELKIQAEKGFSFGAPTELETEIAKFIIENVPNIDQIRMVSSGTEACMSAIRLARGYTGRDKIVKFEGCYHGHSDSFLIKAGSGAATFGNPNSPGVTAGTAKDTLLARYNDFEQVEDLFRHNQGEIAAVIIEPVAGNMGCVLPENDFLQKLRKICDENGALLIFDEVMTGFRLAFGGAQELFNVKADLVTYGKVIGGGLPVGAFAGRNEIMDHLAPKGGVYQAGTLSGNPLAMRAGLKTLQLIKNDPGFFSRLEKTTETLDFEIGKILNEKGIAHRINRKGSMMSVFFHIKSVSNFDEAQEANHPLFNNFFHQMLNNGVYLPPSGYETYFISDAIKDKEIDMTLEAVRKFEYSNK	PGPT0003680_3310	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS003_02673	1059			hypothetical protein	ATGAAAAGACTTTTCCTATCCATAAGCCTTTTAGTTTTATCAAAATTTTCTGCCCAGACTTGGGCAACCGAAGATCAGTATATTCAGAAGTTTGCTAAATATGCCGTAGAAGAAATGGAAAAATATAAAATTCCTGCTTCTATTACTCTTGCCCAGGGTCTGCTGGAAACCGGAGGCGGACAAAGCAGACTGGCACAGCAAGGTAAAAACCATTTCGGTATAAAATGTAAAGAAGACTGGACCGGTAAAACAATGAAACATACCGATGATGCACCCAATGAGTGTTTTCGTGTGTATGATGACCCGAAACAGTCTTATGAAGACCATTCTGTATTTTTAGCCACCAGAAAATATTACACCAATCTTTTCAAGCTGGATATGAAAGATTACAAAGCATGGGCTTATGGGTTAAAAAAAGCAGGTTATGCTACCAACCCACGCTATGCTTCCATCCTTATTACCAAAATTGAGAAGTATAAACTGTACGAATATGACAATACCAATTCTAATGAAGTATTGTACGCGGTTCTTAAAATGTACCCGGATCTGAAAGACGACAGAACTTTTATGGCACAGCTGGAGCCTTCAAAGGTTACCAGAAAAGTTAAAGAGCCGGTTACCGTAGAAGTTCCTTATAAACAGACTTCTTATGCGCAACAACAAAAAAGAGTGGAAAGAATCAAAACAAAAGCAGAAATTCTGAATTCTATTCTTATTAAAAGTCACCCGAATGACGGGCTGAAGTATATCATTATTCCTGAAGATACGAATGTGAAATTCATCGCCAATAAATTCAAAGTAAGCGAAAGCAGACTGATGAAATGGAATGAACTGGAAAATGAAAGCTTAAAGAAAAATGATATCGTTTTCCTTGAATCCAAAAATTCTACAGGAAATACAGCGACCTACAAAGCGGAGTCCGGAGAAGACATGCATGATATTGCTCAGAAATTCGGAATTAAGTTAAATAAATTATATGCTAAAAACAGAATGGATGAAGGACAGCAGCCTTCTGCAGGACAGCTGATTTATTTGATAGATAAAAAACCACGAAACTAA	MKRLFLSISLLVLSKFSAQTWATEDQYIQKFAKYAVEEMEKYKIPASITLAQGLLETGGGQSRLAQQGKNHFGIKCKEDWTGKTMKHTDDAPNECFRVYDDPKQSYEDHSVFLATRKYYTNLFKLDMKDYKAWAYGLKKAGYATNPRYASILITKIEKYKLYEYDNTNSNEVLYAVLKMYPDLKDDRTFMAQLEPSKVTRKVKEPVTVEVPYKQTSYAQQQKRVERIKTKAEILNSILIKSHPNDGLKYIIIPEDTNVKFIANKFKVSESRLMKWNELENESLKKNDIVFLESKNSTGNTATYKAESGEDMHDIAQKFGIKLNKLYAKNRMDEGQQPSAGQLIYLIDKKPRN				NA	NA	NA	NA	NA
BMS003_02674	909	dcyD	COG2515	D-cysteine desulfhydrase	ATGCTGTTAAAACTTCCCACAGAACCTGTTCCCATTCAGGAAATTCCAATTCATAAAAACATAAAACTATTCATTAAAAGGGAAGACCAGATCCATCCGCTTATTTCAGGAAACAAATACTGGAAGCTATTTTATAATGTCAATCATTATCTTGAAAAAAATCCCGAGAATCCTTATATTATTACTTTTGGAGGCGCTTTCTCTAATCATATAGCAGCCGTTTCAGCAGTAGGGAATATGGCAGGTATACCAACATTGGGGATCATCAGAGGGGAAGAACTACAGAATAAATGGCGTAATAATCCCACCTTACTTTTTGCCAAAAGAAATGGAATGAACCTGAAGTTTGTCACCCGTGAAGAATACCGTCACAAAGAAAAATTAACGGAATTCCTTCAGCATGAGTTTCCGGAAGCACTGATTGTTCCTGAAGGAGGTACCAATGAAGAAGCTGTAAAAGGAGTGAAAATGATGCTCGGTGAACAAACAAAAGATTTTGACTATCTTTGCACTGCAGTTGGAACCGGAGGAACCGTTGCAGGAATTTCCAAATTTTGTGAAGATAATCAGAAAGTTATAGGATTTAAAGTCGTTGACGATGCTTCACTGGAAAATAAAATTTTTGAATTAACTTTGAGACAGAATTTTAATCTAATAGATTCATGTTTTGGAGGTTATGGTAAAATAAATGATGCAAACATCTGTTTTATTAATGATTTCAAAGAAAAATATGGTATTCCTTTAGAACCTATTTATACAGGAAAAATGATGGAGAAGGTTTTTGAGTTGATAGAAGAAGATTATTTTCCTGAAGACAGCAGGATTTTGTGCTTTCACACTGGCGGATTGCAGGGAATTGAGGGAGCTAATCAGCTTTTAGAAAAACAGAATAGAAATTTAATTATATAA	MLLKLPTEPVPIQEIPIHKNIKLFIKREDQIHPLISGNKYWKLFYNVNHYLEKNPENPYIITFGGAFSNHIAAVSAVGNMAGIPTLGIIRGEELQNKWRNNPTLLFAKRNGMNLKFVTREEYRHKEKLTEFLQHEFPEALIVPEGGTNEEAVKGVKMMLGEQTKDFDYLCTAVGTGGTVAGISKFCEDNQKVIGFKVVDDASLENKIFELTLRQNFNLIDSCFGGYGKINDANICFINDFKEKYGIPLEPIYTGKMMEKVFELIEEDYFPEDSRILCFHTGGLQGIEGANQLLEKQNRNLII				NA	NA	NA	NA	NA
BMS003_02675	327			hypothetical protein	ATGATAATTTTGTGCCAAAAGCCTTTAAAAAAATTAAAAATTAATGGCATTGCTCTTTTTCCCTTTATCTTCATTAGAAAACCCGAAGATAAGGAAAATAATGTATTGATCAATCATGAAAAAATTCATTTAAGACAACAGCTGGAAATGCTTGTTATTTTTTTCTATATTTTCTATGTTGTTGAATATTATTACTGGTTCTTCAAGCTGAAAGACAGCTATCTGGCCTATAGAAAAATTTCATTTGAAAGAGAAGCTTATGCCAACGAAAAGAACCTGAACTACCTCAAAAAAAGAAAATTCTGGAACTTCAGGAAATACCTTTGA	MIILCQKPLKKLKINGIALFPFIFIRKPEDKENNVLINHEKIHLRQQLEMLVIFFYIFYVVEYYYWFFKLKDSYLAYRKISFEREAYANEKNLNYLKKRKFWNFRKYL				NA	NA	NA	NA	NA
BMS003_02676	183			hypothetical protein	ATGGCCCATTATGACATCAAAGAAGGTGAAGACTTTTACTATAATGAACAGGGGTACAAGGTTTTTACAGAAAAATTCCATCTGAAAAGGGGATATTGCTGTAAAAGCGGCTGCAGACACTGTCCTTACGGGTACGATAAAAAGACTGATACATTCATTAAAAGTGATAAAAAAAATAAATAA	MAHYDIKEGEDFYYNEQGYKVFTEKFHLKRGYCCKSGCRHCPYGYDKKTDTFIKSDKKNK				NA	NA	NA	NA	NA
BMS003_02677	528			hypothetical protein	ATGAAAAAATATATTTTTATCTTGTTGGCATCTGCTACTTTAGGTTTAACTTCATGTAGCCCTTTTCAAGTGCGTTCAGATTACGCTGAAACAGCCAACTTCAATTCTTTCAAAACTTATAAAATAAGAATTGATGATCTAAAGTTGAATGATATTGATAAAGACAGAGTCCTGAATGAACTGTCCAGACAGCTTCAGAGCAAAGGTCTTCAGTCCGGAGAAAATCCTGATCTGATTATCAATGTAAAAGCTAATCATAAGAAGGTTACTGATATCAATTCTTCTTCTCCTTATGGGATGTGGGGATGGGGCGGACCCTTCGGATGGGGCATTGGTATGAACAGAACCTGGACCACAAATTATAATGAAGGCGCTCTGATTGTAGACCTGATTGATGCAAAAACCAACAAATTGGTTTGGCAGGGTATCGGAAGCGGAATTTCTGTAGATTCCCCAAAAGCGAAACAGAGACAAATTCCTGAAATCATGGCTGAGATCATGAAAAACTATCCCCCACAAAGAAAATAA	MKKYIFILLASATLGLTSCSPFQVRSDYAETANFNSFKTYKIRIDDLKLNDIDKDRVLNELSRQLQSKGLQSGENPDLIINVKANHKKVTDINSSSPYGMWGWGGPFGWGIGMNRTWTTNYNEGALIVDLIDAKTNKLVWQGIGSGISVDSPKAKQRQIPEIMAEIMKNYPPQRK				NA	NA	NA	NA	NA
BMS003_02678	1983			hypothetical protein	ATGTTGAATATATTGAAATTTAAAAGCAAAAACTTTAAACCCGTATCTCACAAACCCGAAACCTCGAATCCCGAAACCCAACACCCCGAAACCCGTCTTCCACTACTTCTTACATGCTGTACATTGAAAATTAACGATTCCGTAATTTTTTATTCACAAAAATGTGGTATTCTTGTTGAAACTTGTATTGATATGAAAAAAATCATTTTATTTTCTCTATTTGCGGGACTTGCCCAGGCTCAGGCTCCTGCAGGATACTACAATTCTGCCAACGGATTAAGTGGTGCAGCATTAAAAACAGCATTAAGCAGTATCATCACCAGCGGACATCAGGATAAAGGTTACAGCGGATTGTGGACTGCCTATAAAACTACTGATATTGATAAGGATTATGAAAATGACGGCTCTATCCTGGATATTTATTCTGAAAGACCAGTGGGTACCGATCCTTATAAATATACTCCGGGCAGTGACCAATGTGGAACTTATTCTACGGAAGGAAACTGCTATAACAGGGAGCATATCATTCCTCAGAGTCTGTTCAATCAAGCTTCTCCAATGGTTGCTGATATTCACTTCATCAGAGCGACAGATGGGAAGGTAAACGGAATGAGAAGTAATTATCCTTTCGGAAAGGTAGGAAGTGCTTCTTTTACTTCACAGAATGGCTCCAAACTTGGAACTTCTGCTTCTTCGGGATATTCGGGAACGGTTTTTGAACCGATTGATGAGTTTAAAGGTGATGTTGCCCGTATGATCTTCTATTTTGTTACCCGATATCAAAGTAAGCTTTCTTCATTTTCATCGGGAAATATGTTAGGAAGTTCTACATTCCCCGGATTGCAAACATGGGAACTGAATGTTCTGCTGGCATGGCATAATCAGGATCCTGTTTCTCAGGCCGAGATTAAAAGAAACAATGCTTCTTATACTTATCAGGGGAACAGAAACCCATTTATCGACAACCCTAATTATGTAAACCTGATCTGGGGTTCTCAGCAGCCTACAAGTGACACTCAGGCTCCAACTACGGTAACAGGGCTTACTATTTCAGGAAAAACTTCCAGCAGCATTTCTCTTGCATGGAATGCTTCTACGGATAATGTAGGTGTTACAGCTTATAATGTTTATATGAACGGAAGTCTGAAAACTACTGTCAGTTCCACTTCAACTACGATTTCGGGACTTACCCCTTCCACTAATTATAGTTTTTATATTGTTGCAAAAGATGCGGCAGGAAACTCATCTTCGAACAGTTCCACAGTTTCCGGTACTACTAACTCCGGAACATCTACTCCTGGAACCAACTGTGCCAATGAAAATTTTGAAACCATTCCGGCAGCCAGTTCTACTTATACTACCAGAACATGGAGTAATGGAGGAATCTCCTGGACAGCAACGGATGCCAGAACAGATCAGACTCTTAACAATAAAGCGATTACGGTAAGAAATGGTTCTTTAACGTCCGGAAGCTCTGCGAATGGTATTGGTTCTTTAACCGTCACTACACAACTTAAGTTCTCAGGAACGAATGGTACTTTTAATGTAAAAGTAAACGGAACAACTGTAGGAACAATCCCTTACAGTACTTCAACTACCACCACTACGATCAGCAATATCAACATTTCAGGAAATGTTGTGGTAAGTCTGGTAAATAACTCAACCAGCAACAGAGTGGCCATTGATGATCTTTCATGGACATGTTATTCCGGATCAAGTGCAAGAATGGCTCAAAGTACAACTGCAGCAATCGCTCCCAGCGGTTTTAAAATCTCTCCAAACCCTATCACTAATCAGGAAATCTTTGTAAAAGGAGATCTTCAGAAAGTGAGAAAAGCTGAGATCTATACTCTTCAGGGGAAAGTTCTTCAGACCATTGATCAGCCTTTCAGAAATGGAAATTCTATTAAAACCGGAAATCTTGGTCAGGGAGTTTATATTTTGAAACTGGATCAGGTGACGATGCAGTTTATAGTGAAATAA	MLNILKFKSKNFKPVSHKPETSNPETQHPETRLPLLLTCCTLKINDSVIFYSQKCGILVETCIDMKKIILFSLFAGLAQAQAPAGYYNSANGLSGAALKTALSSIITSGHQDKGYSGLWTAYKTTDIDKDYENDGSILDIYSERPVGTDPYKYTPGSDQCGTYSTEGNCYNREHIIPQSLFNQASPMVADIHFIRATDGKVNGMRSNYPFGKVGSASFTSQNGSKLGTSASSGYSGTVFEPIDEFKGDVARMIFYFVTRYQSKLSSFSSGNMLGSSTFPGLQTWELNVLLAWHNQDPVSQAEIKRNNASYTYQGNRNPFIDNPNYVNLIWGSQQPTSDTQAPTTVTGLTISGKTSSSISLAWNASTDNVGVTAYNVYMNGSLKTTVSSTSTTISGLTPSTNYSFYIVAKDAAGNSSSNSSTVSGTTNSGTSTPGTNCANENFETIPAASSTYTTRTWSNGGISWTATDARTDQTLNNKAITVRNGSLTSGSSANGIGSLTVTTQLKFSGTNGTFNVKVNGTTVGTIPYSTSTTTTTISNINISGNVVVSLVNNSTSNRVAIDDLSWTCYSGSSARMAQSTTAAIAPSGFKISPNPITNQEIFVKGDLQKVRKAEIYTLQGKVLQTIDQPFRNGNSIKTGNLGQGVYILKLDQVTMQFIVK				NA	NA	NA	NA	NA
BMS003_02679	729			hypothetical protein	ATGAACACTAACATTATGAAAAGATTGAAATATATAGCAATACCAGTGATATGTTTGGTCATTGCTTCGTGCGGCCATCAGAAAGATAAAGAAAATGAATCTTTGGCTGAAACACAGGGAAGTACCCAGACAGAACCCTTTAATCTTGCCAGAATTACTGTAGGGCAAAATATCAATGAAATTTTAAAATCTGCCGGAGCAACAGCAAAAGAAGCCGTAAGTACCAATGAAATTACCCTTATTGGAAATGAAAGGCTGGCTTTTTCATCCAAAGCATTATTACACTTCAATGGCATAGATCTGGAAGGAAAAAATAACAGAAATACCAATAAAGTAATTTTACACTTCGGAAGAGTAGATCAGGAAATAGGCCCTCTTGCTAACGAAAAAGAAGACGAATTGGGAATGTACCAGCTTGATATTTATACCGAGAAAGAAAAAAATGCACTCCTGGATAATCTGAATAAAACACTTCACAAACCTTATTTTGACACCATACATGAAGGTTTCGAATCAGAAGTAAAAGATAATGAGATCGTACGGACTCCTAATAAATTCAGACAGGAAGTAGCAGTCTGGAAAACCAGAGATATGCTCTATTACTATTGCGAAACCAAAGTAGATAACAAACCGGGCGAATACCGCTGCAATCTCTTCGTATTCAGAAATAAAGAATGGAAAGACCTTCTCAAAGGATCCGGATATCCCGATCTGGATAAGATTCATTGA	MNTNIMKRLKYIAIPVICLVIASCGHQKDKENESLAETQGSTQTEPFNLARITVGQNINEILKSAGATAKEAVSTNEITLIGNERLAFSSKALLHFNGIDLEGKNNRNTNKVILHFGRVDQEIGPLANEKEDELGMYQLDIYTEKEKNALLDNLNKTLHKPYFDTIHEGFESEVKDNEIVRTPNKFRQEVAVWKTRDMLYYYCETKVDNKPGEYRCNLFVFRNKEWKDLLKGSGYPDLDKIH				NA	NA	NA	NA	NA
BMS003_02680	651			hypothetical protein	ATGAAAAAAAACAGAATTCTGATATTAATTTTTATAGCATTGATCAATATCTGCTGTGGAAAAAAATCATTTGATCTTTCATCAGTTACCTTAGGTGATGATGCTAAAAAATATGATTTTGAGAATAAAGACCCGTTTCTTAAAGATGAAGCAAAACCAGACATTATCCAATACTATGCTGATGAAAATAAAGGAGTAACCTATGGAAATATCCCGTTAGATAACACTATGGGCACAAGAATTACAGTATACAAAGGAAAAATAGGAGCTCTTGATACTAATGCTGCTGAAAGATATTCTTTGGAATTTGTAGATAAAATAGTAAAAATACAGGGAACCCCTACAGCCTCTTTTACAGATAAGGCAACAGTAAATATCCAACCTGGACAATCAATTTTTGAAAAACTTAAAAAGATTTTCCCGGAAAAAGTTTCATGGAATCAGGATGAGAAAAATACCTTTACTTATCCTGCTTCTTGCTTTTGGGACGATGGCAAAAATTACTCAATATTGAGCATCTCCATTGAAAATGACGGAAGAATAAGAAATAAATACATTTCAGTTACCAAAGATGCATACCGCAATAATGCCGTGTTTGGATTAAAATATCCAACCCCTCAGTCATCTCCCTGGTATAAGCATATGAATTAA	MKKNRILILIFIALINICCGKKSFDLSSVTLGDDAKKYDFENKDPFLKDEAKPDIIQYYADENKGVTYGNIPLDNTMGTRITVYKGKIGALDTNAAERYSLEFVDKIVKIQGTPTASFTDKATVNIQPGQSIFEKLKKIFPEKVSWNQDEKNTFTYPASCFWDDGKNYSILSISIENDGRIRNKYISVTKDAYRNNAVFGLKYPTPQSSPWYKHMN				NA	NA	NA	NA	NA
BMS003_02681	381			hypothetical protein	ATGACGGGGTTCAGTTTTAATACCTTTTTCGGGTGGGAAGATAGAATAGCAGATTATCCTGAAATCACCATCTTTGGTGCTCTTTTTCTGCCGCTGCTGCTGTTTATTCCAATTACAGTAATAGGCTGGGCTTTTAGAAAGCTTAAACTTAATATGTACATCATCCATGTACTGATGTATACACTGCTTTTTACATTTATAACAGGAGCAATTGCAATGTTGATACTCTTTTTTATTACAGATAAAAACGGAGTGAAACTGGCATATTGCTGGCTTACAATACTTATCGGAATGTTCTTTTTCAGTCTTATCAATGCCAATACCATTACCAAAATGTTTACCGACTGGTCCAATATAATTAAAGAAAAACAAAATAAGTAA	MTGFSFNTFFGWEDRIADYPEITIFGALFLPLLLFIPITVIGWAFRKLKLNMYIIHVLMYTLLFTFITGAIAMLILFFITDKNGVKLAYCWLTILIGMFFFSLINANTITKMFTDWSNIIKEKQNK				NA	NA	NA	NA	NA
BMS003_02682	561	lemA_2	COG1704	Protein LemA	ATGAATCAGACGGTCGCCATCATATTGCTTATTCTGCTGGGAGTAGTCATCATCAGCTTTTTGATCAATCTTTATAATAAGCTTGTTATGCTAAGGTTTAATGTTGATAAAGCCTATGGCAATATTGATGTTGTGCTGAAGCAGCGGGCAGATGAAATTCCCAATCTGGTAACTGTTGCCAGACATTTTATGAACTACGAAGAAAAGCTTCTTACCCGCCTTACAGAACTCAGAACATTCTATAACAGCAGTATCGATGCTGATAAAAGAACAGAGATTGCTAATGAAACTTCAAAAGCACTCTCTTCATTCTTTGCTGTTTCTGAAAACTATCCCGGGCTGACGTCCAATAATAACTTTCTTGAGCTGCAGAAGAGAATCTCTGATCTGGAAAATAAAATCGCTGACAGAAGAGAATTTTTTAATGACAGTGTTAACCTTTATAATATCGGGATTCATGAATTTCCCAATGTTATATTGGCAAAAATGTTAGGCTATAAAGACAAAACTCTACTGGAAATTACCAACGCAGAAAAACATTATGACGGGGTTCAGTTTTAA	MNQTVAIILLILLGVVIISFLINLYNKLVMLRFNVDKAYGNIDVVLKQRADEIPNLVTVARHFMNYEEKLLTRLTELRTFYNSSIDADKRTEIANETSKALSSFFAVSENYPGLTSNNNFLELQKRISDLENKIADRREFFNDSVNLYNIGIHEFPNVILAKMLGYKDKTLLEITNAEKHYDGVQF				NA	NA	NA	NA	NA
BMS003_02683	783			hypothetical protein	ATGGGAGTTAAAAAAGAAAAACCATACATTGTATATAGTATTTTAGCAATAATAGCGGTATGCTTTATATATTTTATTCTGTGGATTATTTTTAAAGACAAAATGCCACTGCATGAATATATTTCTGGAATTGCCAACAATTATGACAGGTATGCAGAAAAAGCTGTTGTTTTTTTTCCTTTACTTTTTTTTGTCTTCATCTTTATCATTATAATGAAACCCAGCGCTGCAAAACGTTTTTTGCGCCTGCAGTCGTCACTTCCTACCTCAAAGATCCATTCGGTCGCAAAAGGACTGGCAGAGATTGAGGGTACATTGGTGATGAACAGCCCATTATTCTCACCCGTGAATAACGAAGTCTGTATAGGCTATTACTACACCATTGAAGATATTGACAGGGACTCCGATGGTAAAGAAACGTACAGAACCATTCACAGAGAAACACAATGTAATACCTTCCGGATAACAGATGATACCGGAACCATAGATGTAGAGCCGGAAGGAATAGAGTTGGTTTTATTAGGTGAAACAAATATCAGCAGTCACAGAGGGAAAAGGTATAAAGAAACCCTTTTAAAAGATGGGCAGAAAATGCTGCTGGTAGGCTATGCTGATTCTAAAAATGGAGTACCTTTTATAAGAAAAGACCATCATTATAAAATCCTCGGGATCACCTCATCATCAGGGATCACTGTTTGGAACAAATATCAGCCATTGCTGAGGTCATTTATGCTGACCTGTTCTATTATCTTTTTAATAATTATTTATATACTTACACAATAA	MGVKKEKPYIVYSILAIIAVCFIYFILWIIFKDKMPLHEYISGIANNYDRYAEKAVVFFPLLFFVFIFIIIMKPSAAKRFLRLQSSLPTSKIHSVAKGLAEIEGTLVMNSPLFSPVNNEVCIGYYYTIEDIDRDSDGKETYRTIHRETQCNTFRITDDTGTIDVEPEGIELVLLGETNISSHRGKRYKETLLKDGQKMLLVGYADSKNGVPFIRKDHHYKILGITSSSGITVWNKYQPLLRSFMLTCSIIFLIIIYILTQ				NA	NA	NA	NA	NA
BMS003_02684	771			hypothetical protein	ATGAAACCTTATTACGAAATAGATTTTAGTGCGGTAATGTGTTCATTTCAGATCAGAATTAATGATGTGGAATTAATTTCATTGAGTATTGATGGGCAGACAAGGTCAGATTTTCCCATTAATCATCTTATCCTGGAAGGTGGTAAACAAACTATTGAAGTGAAAGGACTGCCCATGGAAGGACATCAGGAGCTACATGAAGATTCTTATATCAGATACAGGGTTAATCTCTTTGATATGGCTTCCGGAGAATATGCTTTCGTGAAACAGTTTGATGAGTATTTTACCCAGAAGCCTGATAAAAATATACCCTTTATAGGACATGCAAGTACATTTGAAGCAGAGGTTCCTTATAAGCTGGAAGCATGGCAAAACGGAATAAACCTTAAAGAAGCTAAGCTTGATATCAAAGAAAAGCTGATCAAAAAATATAACGAGATTATAAAACTGATCAATGGAGGTAACTACAGCTCATTCATTGCACAATATCAGAAAAGGGAAAATAATAACGCTTTAGCCATGTATCTTAGCAAAGACCAGGCAGAAAGCAGGATGCTGAGTATTATTTCAGATATGCAGAATGGATATAAAGCACAGAGCCTTCCAGATGATATCCATGTGGAATATTCAGCATACGGAAAGCTGGCGGCGTTAAAGTGTACAGATATGATGTCCGCTTTGCGTCTGGAAAATCCGGAAAGTGATGAAGAACTGGTTCTGCCTATAACATTTTATATTCCCGAAGGAAAAGACGAGTTTGAGATTATATAG	MKPYYEIDFSAVMCSFQIRINDVELISLSIDGQTRSDFPINHLILEGGKQTIEVKGLPMEGHQELHEDSYIRYRVNLFDMASGEYAFVKQFDEYFTQKPDKNIPFIGHASTFEAEVPYKLEAWQNGINLKEAKLDIKEKLIKKYNEIIKLINGGNYSSFIAQYQKRENNNALAMYLSKDQAESRMLSIISDMQNGYKAQSLPDDIHVEYSAYGKLAALKCTDMMSALRLENPESDEELVLPITFYIPEGKDEFEII				NA	NA	NA	NA	NA
BMS003_02685	588			hypothetical protein	ATGAAAAATCTTATCTTATTATTTAGCTTTTTGGCTATCATGTCCTGCAACGGACAGACTGATCTGGAATCCTTTAAATTCGATGAAAAACTGCCGGATAATACTATGAAAGGAGAAAAGGAAACAGAAGCCAATTACGGATTATTATCTTATAAACAGGCTGACATTAAAAATTATAAACTGGGAACAGCATCGTTTTCTGAATATGCTGTACCTAAAGGATATGATTATTCCAACAATAATCTTGCTCTATTGGTAAACTCTTATCAGAATAATCAGTATCTGGGATTTGTACTGAACCTCGCTAAAGAAGACGAAGGAAAAAAGCTGATTGATTATCTTACGAAAACCTATGGCAATCCGGAAAAAAGAACTACCGATAAAACAGGAATTGCTTACTTCTGGGATGCATCTGCTAAAAATAAATGGCTGTTTTTGACCCAGACCCGGGAACTCACTCAGGACGATACAAAATATACGAATACCAAACTGATCGTAGTGAAAAAAGGTACCAGAGTGGAAAACTCTTCAGATCCGGGTACGTTTTCCATCTTAGACAGTTTTACCCTTGCTTATCCTAAAAAATAA	MKNLILLFSFLAIMSCNGQTDLESFKFDEKLPDNTMKGEKETEANYGLLSYKQADIKNYKLGTASFSEYAVPKGYDYSNNNLALLVNSYQNNQYLGFVLNLAKEDEGKKLIDYLTKTYGNPEKRTTDKTGIAYFWDASAKNKWLFLTQTRELTQDDTKYTNTKLIVVKKGTRVENSSDPGTFSILDSFTLAYPKK				NA	NA	NA	NA	NA
BMS003_02686	2793	pal_3		Peptidoglycan-associated lipoprotein	ATGGCAAAAGGTGTAAAAAAGATAAAAGTTGTAAGTGGACTTTACTATCCCAAACTGTCTGTATTGGGGCAGAGAATTACTATAAAGCCTGATCAGTGGGTGCAGTTTGGTGTCAGTGAATGGCTGCCGGGTACTACAGATGCAGATAAAAAGAAACCGCTTACCTGGATGAGGCAGAACAGCAGCAAAAAAATTATCATTAATCAGATAACCTCTGCTACCGGATATAAATTTCTGATAGGAAAACAGTACTGCGGAAGCTATCAGTTTTATATTGAAGCCAGTCTTTCCGGAGTAAGAGATACCAAAGAAAATACAGGGCTATTTGTAAGAGGCTGGTGTGATCCCATTATTGTAAGCAGCAAGTGGTCTACCCAAAAAAACAGCAAAAGCATTAAAAACAATAAAAAAAGCGAGTATATTTCCTACGGGCACATTGTGCATCTGAACCTGATCACAGAAGGTCTGAATGGAAATACAGTCAGTATAGAGCTTTGGAATCAGCAGTATGCAAAAAAAGATAAGCTGGTACATACTTATAATAACGTACAGGTGACAGATGGTGAAGTCAATCTGAAAATAGAAAATACTTTTGCCTGGATGGCCTATGTAGACAATATTCAGAATGTAGAAGAATTTTACATTAAAGTAAAAGATACGGCATCTAAAAAATACATCAAAGACAAATTAGGTGATGACCTCCACGCCATCTATCTGAATGTAAAAAATAAAATCGCCACCACCAATACCAACGGAGCACAGAATCAGACACCAACCAAAGTATATAAACCGGATGTAAACTCCGTAAGGCGCGAGCCATGTAAATTTGAAGTCATCAAGATCACTGAAAATGAAACAAAAGACGGAAAAGCCAGCAATACGACAGTTAAAGTCTTTGATAACGGAAACGGAGTCAAGCTGATAAAGTCCGCTGCTTTGCAGGAACATATCCAAAGAACAATCTACTATAAATTCGACTCTACAGAAATTGATAAAGACGGAGTAGCCATTCTGAATAATGTACTGAAATTTCTTCTGGAGCATAAAGATGCTACCATGAATCTGAGTGGTTATGCATGTGTCATCGGAAAACAGAATTACAATAGAGGACTTTCCCAAAGAAGAGCAGACGTTGTCAAAAAATTCTTTGCTGACGGCGGATTAGACCCAAGAAGAATCATTTCCGTAGGAAAAGGAGAAGTAGATCCTACCGATGATAAAATGGGAAAAGATAATATCAAATACAAAAATGAGAAAGACTATGAAAACAACCGCAGAGTAGATATCTCATTTGTTTTCAATGCCCATGATGCACAGACTATCAGCTATGAAGTAACAGCTCCTGATGTTTCCACAAAGAAAAATCTGATCATAGATGTCACAGGCTTTCAAACCAATGAATGCTTCAGAGACAGCAAAGGAAAACATAAAAAACAGATTCAGATAGTAGACGTAGGACAGGCAATAGATAAAGGAGATACCGTAAAAACGTTTACAACTCCTTCGTTTACTTATGGCGTGTATTCAGATTTATCTCGGTTCAATGCTTACCCTATACAATATATCTGGCCGGCAGGAACCAATCCGAATCAGTTTCATCTGCATGTTCATACCTGCAGATATTATAGCAATGAGAAAAGAACAACAGTACTGATCAAAGCTTATCCGGATATCAACTGGACACTGAGCTTTACCCTGAACCTCACGAATGATCTCAGCGTAAAGTGGATGAATATGGATCCCCACGAACATAAAGAACTGCAGAAAAGAGCAGGTAAAATGGGAGCTGAAAAAAGATGGAAACAAAAAGATGCATCATTAGGCTTTAGTTTAAAAGCAAAATGGAACAATGATCAGCAGGAAAAAGAGTTAAAATACGAATACGAAACCAAGTTTAAAAAAATATATGATACATTTGCTTCCATAGGAGCAATGTCAGACGGAGTTCTCAATCAGGCAAAAGGAAAAGTACGCTCCGTTTCCCCTAAAGGAATTCCGGTAAGCTTTGCCGTAAAGCCGCCCAATATGGAATTGTCTGGTAACTGGCTTTTAAAACATCCCAAAGATAATAATGCCATTATCGGTACAGATGTAACGATCGGTTTAAAAGCAAGTCCGTTGATTGGTCTGGAAATGACTGTTGACCTGCTGGGAGCCTTAGTATTTGGGATTTCCGGAGCCGTAAGCGGAGGAACAGCTGCACCGGGGGTAACAAGACTATATCAGGAAATTCAGGGAAAACTGAAATCCGGAATAGATGTAGGAAACGATAATGTTGGCTTTAAGGCATCTGTAGATATCTTTATGGATCTTATCATTTCCAGTACAATAGAAGTGGAATCTGAATTTAAATTTAACACAGCAGGAAAGCTGAAAGACTCTGAATTTAAAATCTCGAGTAAGAGTAAACTTAAGCTGGAATTGAAAGTAGGAGTAAAAATTCAGGGAGAAGTTTCGCTGGCCGTTATCAAAGCAGAGGCTTACTTTGAGGCTTCAGCTTCCGGAAGTGCTTCCATCACATTTGGACAGGGAGTCAACTATGATGAAAAAGGACTTTATTACCGTCCAGTTCTGGGATTTGACGGTCTTGATGCACAATATGTAGTCACAATAAGTGTAGGGCTTGCTATTAAAATTGCAAAGAATAAGCACAAAGTTCAGGAAAGTAGAAATGGAAAATATGAAATTGCCAAAGGAGATTTTAAAAACGTAATTCCTCCTTTTGATGTAATAAAAGAATTAGAATCTTATTTTGGAATAAGTGCAAATATTCCGTTGATTAAAAATGATTAA	MAKGVKKIKVVSGLYYPKLSVLGQRITIKPDQWVQFGVSEWLPGTTDADKKKPLTWMRQNSSKKIIINQITSATGYKFLIGKQYCGSYQFYIEASLSGVRDTKENTGLFVRGWCDPIIVSSKWSTQKNSKSIKNNKKSEYISYGHIVHLNLITEGLNGNTVSIELWNQQYAKKDKLVHTYNNVQVTDGEVNLKIENTFAWMAYVDNIQNVEEFYIKVKDTASKKYIKDKLGDDLHAIYLNVKNKIATTNTNGAQNQTPTKVYKPDVNSVRREPCKFEVIKITENETKDGKASNTTVKVFDNGNGVKLIKSAALQEHIQRTIYYKFDSTEIDKDGVAILNNVLKFLLEHKDATMNLSGYACVIGKQNYNRGLSQRRADVVKKFFADGGLDPRRIISVGKGEVDPTDDKMGKDNIKYKNEKDYENNRRVDISFVFNAHDAQTISYEVTAPDVSTKKNLIIDVTGFQTNECFRDSKGKHKKQIQIVDVGQAIDKGDTVKTFTTPSFTYGVYSDLSRFNAYPIQYIWPAGTNPNQFHLHVHTCRYYSNEKRTTVLIKAYPDINWTLSFTLNLTNDLSVKWMNMDPHEHKELQKRAGKMGAEKRWKQKDASLGFSLKAKWNNDQQEKELKYEYETKFKKIYDTFASIGAMSDGVLNQAKGKVRSVSPKGIPVSFAVKPPNMELSGNWLLKHPKDNNAIIGTDVTIGLKASPLIGLEMTVDLLGALVFGISGAVSGGTAAPGVTRLYQEIQGKLKSGIDVGNDNVGFKASVDIFMDLIISSTIEVESEFKFNTAGKLKDSEFKISSKSKLKLELKVGVKIQGEVSLAVIKAEAYFEASASGSASITFGQGVNYDEKGLYYRPVLGFDGLDAQYVVTISVGLAIKIAKNKHKVQESRNGKYEIAKGDFKNVIPPFDVIKELESYFGISANIPLIKND				NA	NA	NA	NA	NA
BMS003_02687	489			hypothetical protein	ATGGCAGAAAAACATATTGTAGTACAGGGCGCTATGTGCAAATGCCAGTTCGGGCAGGCTCCGGACAAGCTCAAAGTACTTACACACCAGAAAGAATATGCCAATGATAAAAGTGGTTCCAAAAAACTGATCGTCACCACGAAAGAAATAGGAGGCACCACATTTGAAAAAAATACATTCGGAAACTGTACCAAAATGGGAAGTCCGCCACCACCCTGCAAAATTATGGTAACGGAATGGCAGAAGTTTTATGATAAGGTACAGCTCAGCAATGGAGGATATATTATTGTAGAAGACAGCAAAGCAGTCTGTGCTGTTGCCGGAACGCCCTGTATTGAGATCATAGATCACGGGCAGAGAGCAGAAGCCAGCCAGCAGAACTTTAAAAATGCCGACAAAGACGTTCAGCAGCAGATCAATCCCTTGGTAGATGCCGGGGAAATGTATAACGAACAGCCTTCAGGAGGAGGGCAGGATGGTGCAATCTAA	MAEKHIVVQGAMCKCQFGQAPDKLKVLTHQKEYANDKSGSKKLIVTTKEIGGTTFEKNTFGNCTKMGSPPPPCKIMVTEWQKFYDKVQLSNGGYIIVEDSKAVCAVAGTPCIEIIDHGQRAEASQQNFKNADKDVQQQINPLVDAGEMYNEQPSGGGQDGAI				NA	NA	NA	NA	NA
BMS003_02688	1062			hypothetical protein	TTGAAGCAGGAACATTTTATGCAGAAATATAACATACATACCGTTCAGAAAGATGAAACCTTAAAAAGTATAGCCTCGCTGTACGGGATGGATAAAGATGCATTAAAACACTTCCATAATAACCACTGTGCGGTGAAGGACATGATCCTGATCAATCTTAACGGGCAGAAAGAGCTTTTTATTCCGAGAACTGCTGTTGCAGATAAAAACATTTTAGTAAAATTCGGAAGAGGAAACAGTCTTACTCTTCAGCCGGAGACTTCAGTGCGAAGATATAGCGTAGTTATTACCATTGAAAAAGGAGAAACTAAAAATGAATTAAAATATGAAACATCCGTTCGCTGGCTGAAAACAGAGAAGAAAAGTCATTTTTTTGAGATAGACAGAACATCCAAACTTTATCTCAATGAAGAAGAAGTGAATGAAATTGCAGATCTGCTGGCTTACAGAACATCCGCAGTTTTATATCCTTTACAGATCAGCACAGACGAACATGGGAAATTTGAAACCGTAGAAAACGCTGAGGTATTTTCCAAAAGATGGACTGCTGTAAAAGAAGAATTATATAAAGAATTTGAAGGCGAAACCGTAGACGAATATTGCAGAAAGATTGAAAAAGTAATCAGCGAACCTGAAGCCATCAACCTTTACATCAAAAATGATTACTTCATTCGTGCCTTGTTTTTGGGGATATATCAGAGCTTCGGAAAAGAATATAGAACAGAATTTACGATAACCTTTCCTGTAGTAGATAATGCTATTGAACCCAGATACAAAATCACACTGGAAACGGATCCGTTAAAAGGAGAAAGTAATCTGATTACCACAGAAGGATCAGGAAAGTTATATGAAGAAAGAAACATTGATGATTTTATAAGAAGATCACCTTTTTCACTGATTATAGAAGATACTCCTGTAATGAATGAAGAAGGAACTTTCAGACTCATAAGCTATCTGAAAGGAGAAACGTCACTTCCGGAATCTCTTTATCTGGAATGCAGTATCATACTGCAGGAAGAGAAAAAGATTTCAGTATCAGTTTCAGGAATTGATGAAAAATAA	MKQEHFMQKYNIHTVQKDETLKSIASLYGMDKDALKHFHNNHCAVKDMILINLNGQKELFIPRTAVADKNILVKFGRGNSLTLQPETSVRRYSVVITIEKGETKNELKYETSVRWLKTEKKSHFFEIDRTSKLYLNEEEVNEIADLLAYRTSAVLYPLQISTDEHGKFETVENAEVFSKRWTAVKEELYKEFEGETVDEYCRKIEKVISEPEAINLYIKNDYFIRALFLGIYQSFGKEYRTEFTITFPVVDNAIEPRYKITLETDPLKGESNLITTEGSGKLYEERNIDDFIRRSPFSLIIEDTPVMNEEGTFRLISYLKGETSLPESLYLECSIILQEEKKISVSVSGIDEK				NA	NA	NA	NA	NA
BMS003_02689	1413			hypothetical protein	ATGCACAACAATCAATTTGGAAGCTATACACCATCTGTATCCAAAGAGGAAGTACTGGATATTACCATTGGGATTTTTTTTGACGGAACCCTGAATAATAAAACCAATACAGACGAAAGAAAAAAAGGGACAGATGCCCATAAAAAACACGGTGGAAAAGCTGAAGACAATACAAGTTACAACAATGACTGGAGCAATGTAGCACGCATGTGGGACAACTATGATAAAAACTTCGGGATTTATATAGAAGGTATCGGGACACAGGATAAAGAAGGAGATGCTACCTTGGGATATGCTTTCGGAACCGGAGATACCGGAATCAGAGCAAAAGTGAGAAAAGGTTGTGAAGAGATTGTAAAAAAGGTGAAAACCCTTAAAGCAGAAAAGAAAGCTGATAAAATTGCCGTTCTTACTTTCGATGTATTCGGTTTCAGTCGTGGTGCTGCTGCTGCCCGTAATTTTGTATACGAAATCGGAAGAGCAAAATATAAAGCCACTTCACGTACAGTTGCCAACGAAGCGGTTTCGGTGACAATATATTCCGATGATGACGGAAAAACCGTAGCTTCAGAAGAACTTCCGAAATGGGGACATCTTGGTCTTAAACTCGAAGAAGCCGGACTCAAAGTAGATGTGTTGAAAGTAAGATTTCTGGGAATTTACGATACCGTTTCTTCTTATTCAAAATATCTGTCACCAATGCCCAATTTCAGCAATGACGTAGAAGAATTAAGCCTGAATGATATTGGAAAAGCCCAGACCGTAGTTCACTTTATTGCAGAAAATGAACACAGAGAAAACTTTGACCTGACAAGAGTACATATCGGAACTGAAAAAACATTCCCGGGCGTGCACTGTGACGTTGGAGGAGCCTATGAAAACGGACAGGAAACATGGGAAGAGGTTGAAACGTCCTGGACAACAAGTTCCAAATTAGAAGCATTAAAAGCAGAACTTGTATCCGAAGGTTGGTATGAAAAAGATATGCTTACCATTACTCCCGGATTCTATTTATCATTGAGAGGATCCCGTTACCTGCTGAAAACTTACAGCTATATTCCTCTACATTTTATGGCTGAATATGGCATTGAGAAAAATCTTCCTATCATCTTAAAGAAAATGACTGATGATAAATATTCCATTTTGAATGATCAGTTTTTAATAGGAATAAAAGACCGTCTCAGAACGTATGTGATGGGAAATGGCAAACCTTATGCCTTCAAACATTTTAAAGCACTGCGGGATGCTTATGGTGGAAACGAAGTCCCGGAAGACCGTCAGGATGCTTATCAGAAAGAAGTAAAAGAACAGAACGATTTGAGATTCCTTCGTCTTCATTACCTTCACTGGTCAGCAAGAAGAGAAGGAATAGGTATGGATCCGAGGTCAGACAGAAGGAGAGTTATCCATTAA	MHNNQFGSYTPSVSKEEVLDITIGIFFDGTLNNKTNTDERKKGTDAHKKHGGKAEDNTSYNNDWSNVARMWDNYDKNFGIYIEGIGTQDKEGDATLGYAFGTGDTGIRAKVRKGCEEIVKKVKTLKAEKKADKIAVLTFDVFGFSRGAAAARNFVYEIGRAKYKATSRTVANEAVSVTIYSDDDGKTVASEELPKWGHLGLKLEEAGLKVDVLKVRFLGIYDTVSSYSKYLSPMPNFSNDVEELSLNDIGKAQTVVHFIAENEHRENFDLTRVHIGTEKTFPGVHCDVGGAYENGQETWEEVETSWTTSSKLEALKAELVSEGWYEKDMLTITPGFYLSLRGSRYLLKTYSYIPLHFMAEYGIEKNLPIILKKMTDDKYSILNDQFLIGIKDRLRTYVMGNGKPYAFKHFKALRDAYGGNEVPEDRQDAYQKEVKEQNDLRFLRLHYLHWSARREGIGMDPRSDRRRVIH				NA	NA	NA	NA	NA
BMS003_02690	975			hypothetical protein	ATGGAAGAAAAATACAGTTGGCTGGGAACCGTTTCTGCTCCACAGGAATACCCGATGGAAGTATATGAAGGAGCCATTGTTGCCGATGATTTTACTTACGGCTTTGATGCCATCTGGGGAACACAGAATACAGGATGGGGAAAAGAAGGAGGTACCATGAACGTCAATACCGAAAGAATGGATGCCCCTCATGAATTGGAATTCACGTGGTATTCTCTGGTGGAAAAAAAATTCTACACTGGAAAATGGAATCTGGATAAAGAAAAGATAAAAAGCCTTTTTGATGAAGGATTTGTAGATCAGGATACCAGAAAGAAATCTACTTATAACTCTTTTGTTGTAGGATTAGCCCCACAGGGAAGAGTAGTGCTTTGGATGAAAGGTCCCGGAAATCAGAAAGAAATAGGAGCTTTCCAGGCTCATGATACGGTTATTACCAAAGAAAAGGCATACGAAAATGCTCAGTATATGCTGAAAGAAGGCTTTGCAGACAGAATGCTGAAAGACCCGTCTTACAAAACATTTAAGCCGGAAGTGCGTGAGAAAATTGAAAAAGAAGGATATCCTGCAGCAGATATTTATAACGTATACAGAGAAAAATACAACTGGAAACCTTCTGTAATTCTTCCTGAAGGAGGCACATGGATAGATTTTGGCTTTACCGGTTATAACGGAGAACAGGAAAATCTTTTTGATGAAAGCTTAAAAGAAAATACCTATAAAAGCAGAGCCATACCGGGATTCTGTGGTTTTTACTGGAAAGATAAAAATAACAGCAGATATGCAGTATGGATAGACGCTTTTGATGAGAAAGAAATATTTGGTCTGTTTCAGAAATTAGGAAAAGACAAAAACATTGATCTGACTATTAAAGTCAATGAAGACAATACCGGAGTTGTAGTATCCTTAGAATCTGAAAAAGAAAAACTGCCCGTTACCAAAGCAAAAATAAGGGTATCCCGAAAGATAGAATGA	MEEKYSWLGTVSAPQEYPMEVYEGAIVADDFTYGFDAIWGTQNTGWGKEGGTMNVNTERMDAPHELEFTWYSLVEKKFYTGKWNLDKEKIKSLFDEGFVDQDTRKKSTYNSFVVGLAPQGRVVLWMKGPGNQKEIGAFQAHDTVITKEKAYENAQYMLKEGFADRMLKDPSYKTFKPEVREKIEKEGYPAADIYNVYREKYNWKPSVILPEGGTWIDFGFTGYNGEQENLFDESLKENTYKSRAIPGFCGFYWKDKNNSRYAVWIDAFDEKEIFGLFQKLGKDKNIDLTIKVNEDNTGVVVSLESEKEKLPVTKAKIRVSRKIE				NA	NA	NA	NA	NA
BMS003_02691	171			hypothetical protein	ATGGCCATCATAAAAACAGCAACCAACTTACACATAACGGTGAAAGATTCTTACCATCTGAGCGTAGGAAAAAAGGTGGAGAAAATAGCAAAGAAAATCAATGTGGAAGCACACAGAGATAACCTGGTTTTAGCAAGTAACAAGAAGATTATGTCCCATGGTCATAAGTAA	MAIIKTATNLHITVKDSYHLSVGKKVEKIAKKINVEAHRDNLVLASNKKIMSHGHK				NA	NA	NA	NA	NA
BMS003_02692	1932			hypothetical protein	ATGTCAAATACACCTGGAAAATCACAAGCGACGCCTTTTCGTCCGACGCAGAATGCAGATGGTATTTCTGAAAACCATCATACAGGCATCAACCGTCTGGTAAAACTTTCTCTTGTTATAGAAGGGAAAATTATCAAGTACTATAAGCACTTCAAGCTTAAGCAAAGTACCAGGCGACACCACGAATTTACACTTACACTGGCACATGATACCCTGGGAGACAGACAGACCCATTCTCTGGAAGAAGCCAATAAATTCCTTGGGAAAAGACTTACAGCCGTTATTTCTTATAAAGATATAGACAACAGCCCGGAGAGAACCTTCGTGGGAGTGATTACCGGAGTAGGATTCAGCCAGGAGCATATGAGCTTAGGAAATATTGTGCTTACAGGCTATAGTCCAACCATTCTTCTTGACGGGGCACCACATATCCAGAGTTTTGGAGGAGCTCAATCTGTTAACATAGGAATCATTGCTGAAGAAGTGATCAAGCAGGGAATTGATAAAAGCCGGTTTGACGTCAGAGTAGATGCTAATAATTTCTCTCAGATTATCTATAGCAGCCAGTATGATGAAACCCACTATAATTATCTGGCAAGAATGGCAGAAGCTTATGGTGAACAGTTTTTCTATGATGGTGAGGTCTTGCACTTTGGAAAGCTGCCCGCTCAGAACAAACCTATTACCCTTACCTACGGAAGCAGTGCCAACGACATAAAAGTTGAATTGAAAGCGGTACATACCAAACCGCAATTTTATGGATACAACAGCAATAAAGATGAAAAGCTTACTTCCGGGGCAACACCAATCAAACATGTAAGTGACCTTGCAAAAACAGCCTACAGTCATAACGAATCTATCTATAAAACGCCGGCTTTGCAGATAGCCCCCATTAAAGCTACTACACATCTGGATGTTGAATACTCTCAGAAAAGTGCCTCAGGAAGTGAAGCTGTGAATGTTTTTTCTATTTCTGGAAATACAACAGTTCCCTTCCTGCATCCGGGATGCGTAGCAGACGTACAGATGCGTAAACAGGATTCTAATGAAACCTCTTATTTCACCAGAATCATGATTACCGAAGCAGAGCATGAAATTGATACCATCGGTCATTACAATGGGAGCTTTGTAGGAATAGCTGCTGACACAGGATTTCTTCCAAAACCTGAATTTACCATTCCAAAGGCCGAACCACAGACGGCAACAGTAATTTCCAATACAGATCCTGAAGGACAGGGAAGAATACAGGTGAGATTTGACTGGCAGACCAATGATACCACTCACTTTATCCGTATGATGAGCCCGGATGCAGGAGGAACAGATCAGATTACCCAAAACCGTGGTTATGTAGCCATTCCGGAAGTGGGAGATCAGGTCATGGTTAATTTTGTGCACAGTCATCCGGACAGACCTTTCGTGATGGGAGGAATGTTCCATGGAGGAGTAGCGCTAGGAGGAGGGGTGAACAATCACCTCAAATCTATCCAGACCAGAAGCGGAATCAGAGTTTTAATGAATGATGAAGAAGGAAGCGTAACCATTCTTGATCCGAGCGGAAATACCTATTACATGGACGGACAGGGAAATATCAGTATGAAAGCCCCTAAAAACTTTACTTTAAATGCAGGTGACAATATCAATATCACCGCGGGAAAAGAAATTTCAATAGGAGCAGGAGCAAGTATTACCAGTACCGCCAACGATAACATTATTTCCATAGCAGGAAAAGATATGAAACTTACAGCTTCGGGAGATATTACGGAAACTTCCGATACAAGAACCGAAATGATTGAAAAAGAATTCAAGAGACAATCTGAAACCTCCAACGAAATAGCAGGGGAAATTTCCATGTTCAGCGAACTGGAAAACATGACCATGCAGAGCGGAAAGATAGTAGAATTCAACAGTGCTGAAAAATCAAAACTTTTCTGA	MSNTPGKSQATPFRPTQNADGISENHHTGINRLVKLSLVIEGKIIKYYKHFKLKQSTRRHHEFTLTLAHDTLGDRQTHSLEEANKFLGKRLTAVISYKDIDNSPERTFVGVITGVGFSQEHMSLGNIVLTGYSPTILLDGAPHIQSFGGAQSVNIGIIAEEVIKQGIDKSRFDVRVDANNFSQIIYSSQYDETHYNYLARMAEAYGEQFFYDGEVLHFGKLPAQNKPITLTYGSSANDIKVELKAVHTKPQFYGYNSNKDEKLTSGATPIKHVSDLAKTAYSHNESIYKTPALQIAPIKATTHLDVEYSQKSASGSEAVNVFSISGNTTVPFLHPGCVADVQMRKQDSNETSYFTRIMITEAEHEIDTIGHYNGSFVGIAADTGFLPKPEFTIPKAEPQTATVISNTDPEGQGRIQVRFDWQTNDTTHFIRMMSPDAGGTDQITQNRGYVAIPEVGDQVMVNFVHSHPDRPFVMGGMFHGGVALGGGVNNHLKSIQTRSGIRVLMNDEEGSVTILDPSGNTYYMDGQGNISMKAPKNFTLNAGDNINITAGKEISIGAGASITSTANDNIISIAGKDMKLTASGDITETSDTRTEMIEKEFKRQSETSNEIAGEISMFSELENMTMQSGKIVEFNSAEKSKLF	PGPT0030410_3842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS003_02693	405			hypothetical protein	ATGGCAGGAAATTCAAGAGGAATCTTAAAATTCAATGGAGGTGAAGGTCAGAAGTTATTAAAGCTTAACTATAGTGTATCAAGATCTACTGATGTATCAGGACGTGTAGCATCTGATCCGTCTAATGCATTGATCAAAGTAACCATTGAAGCAACAGAAAAATCTGATGTGTTAGAGAGTTTATTAAACAGTAAATATAAACCTACAAACGGAGAAATCAACTTTAATAAATCCCATGAAGAAGGAACACTGATCTCTTTAAAATGGGAAAACGGATATGTTATTCAGCATGAGGTAGACTTTGATGCAATAGACAGTAACAATATGCTGATCAGCTTCGTAGTAAGTGCTGAAAGCATTACATATGGAAACTCATTCTATGACGGACTTTGGCCAATGAGCTAA	MAGNSRGILKFNGGEGQKLLKLNYSVSRSTDVSGRVASDPSNALIKVTIEATEKSDVLESLLNSKYKPTNGEINFNKSHEEGTLISLKWENGYVIQHEVDFDAIDSNNMLISFVVSAESITYGNSFYDGLWPMS				NA	NA	NA	NA	NA
BMS003_02694	279			hypothetical protein	ATGGATATTGATGATTTCATGCTTACCTGTCCCAGTAAAAAATTCCTGGGGGTAGAATGTCTGGGCTGTGGAGCTCAGCGTGCCGTCTTATTGGTATTCCAGGGGAAGTTTTCGGAAGCTTTTCAAATGTATCCTGCTGTGTATACCTTATTGTTATTCTTTTTTATTCTCGGTCTTAGTTTTATAGATAAGAAAAGAAAATATAGTAATATTTTAATGATTATGATCACTATTAATCTTATTATTATGGTAATTGGATATATTTATAAACACTATTAA	MDIDDFMLTCPSKKFLGVECLGCGAQRAVLLVFQGKFSEAFQMYPAVYTLLLFFFILGLSFIDKKRKYSNILMIMITINLIIMVIGYIYKHY				NA	NA	NA	NA	NA
BMS003_02695	1110	namA	COG1902	NADPH dehydrogenase	ATGAAGTGGGCAATATTTTATTCTCCCTGGGAAAAGTTCAATTTTTTAAGAATAAAAATGTTATACACACCAATAAAATTCAGAAATGTAGAATTGAAAAACAGATGGGTAATGTCTCCTATGTGTATGTATTCATGCGAAAACGGTGAAGCTAGCGACTTCCATTTTGTACACTACGGAAGCAGATCTCAGGGAGGAACAGGTCTATTGATTGTAGAAGCTACTGGAGTAGAGCCCAAAGGAAGAATTACCAATCACTGCATGGGAATCTGGAATGATGAACAGGCAGGCAGGCTTCAGAGAATAGTAGAATTTGTTCATAAGAATTCTGAAAGTAAAATAGGAATTCAGCTGGCTCATGCCGGAAGAAAAGGGTCAACATGGAACAATCTGCAGATTCCTCTGGAAGAAGGCTGGGAAACCGTTGCACCAAGCCCTATTCCTTATCATCCTACAGAAAGAATTCCGCACGTATTGAGTACAGATGAGGTAAAGGAGGTTGTTCAGAACTTTAAAAAAGCTGCCCGAAGAGCAGTGAAAGCGGGTTTTGATGTCATCGAAATTCACGGAGCTCACGGATATCTGATCCATCAGTTCCTGTCGCCGCTTTCCAATATCAGAACAGATGAATATGGAGGAAGTTTTGAAAACAGAATCAGATTTCTGATCGAAATTGTAGATGCTGTTAATGAAGAACTGGATGAAAATACAGCCCTTTTTGTAAGGATTTCAGGAACGGAATATGCTGAAAATGGCTGGGATATTCAGAGTAGCGTAGAACTGGCAAAAATTTTAAAAGAACATTCTGTAGATCTTGTAGATGTATCCAGTGGAGGGAATATTCATGGAGCAAAAATCTCTGTTTTCGATGGTTATCAGGTTCCTTTTTCTTCACAGGTGAGAAAGGAAGCGGAAGTAAAGACCGGAGCGGTGGGCTTAATTACCAAAGCGGAGCAGGCTGAAGAAATACTTCAGAAAGGATACGCAGATCTGATTTTTGTTGCAAGAGAAATCTTGAGAAACCCATATATTGCTGTTCAGGGATCTTTTGAAATGAATGAGGACTGTTTTTTTCCGAATCAGTATACAAGAGCCAGAATCTCTTCTTAA	MKWAIFYSPWEKFNFLRIKMLYTPIKFRNVELKNRWVMSPMCMYSCENGEASDFHFVHYGSRSQGGTGLLIVEATGVEPKGRITNHCMGIWNDEQAGRLQRIVEFVHKNSESKIGIQLAHAGRKGSTWNNLQIPLEEGWETVAPSPIPYHPTERIPHVLSTDEVKEVVQNFKKAARRAVKAGFDVIEIHGAHGYLIHQFLSPLSNIRTDEYGGSFENRIRFLIEIVDAVNEELDENTALFVRISGTEYAENGWDIQSSVELAKILKEHSVDLVDVSSGGNIHGAKISVFDGYQVPFSSQVRKEAEVKTGAVGLITKAEQAEEILQKGYADLIFVAREILRNPYIAVQGSFEMNEDCFFPNQYTRARISS	PGPT0005575_175	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
BMS003_02696	483	cdd	COG0295	Cytidine deaminase	ATGAAAAAAGACATACAGATCGGTTACGAATATTTTAAAAATAGTGGTGAACTGAGTGATATAGAAAAACAGTTATTTGAAAGAGCCAAAGAAGCCCGGGAAAAAGCTTATGCTCCTTATTCTCAATTCTTGGTAGGATGCTCCGTATTATTGGAAAACGGAGAGATTTATTCCGGGAATAACCAGGAGAATGCAGCTTATCCATCAGGGCTCTGTGCAGAAAGAACTACTCTTTTCTGGGTAGCTGCCAATTTTCCGGATGTGAAAATAAAAAAGATCTTTGTAGTAGGCGGTCCTAAAGAGTTTCATGAGAAGAATCCCCCGATTCCTCCTTGTGGAGCATGCCGCCAGAGTCTGATAGAATATGAAACCAAGCAGAATGAAAATATTGACCTTTATTTCTCAAGTATGAATGAAGAAGTCGTAAAAGTTCATGCGGTGAAGGATCTGCTTCCTTTTTATTTTGATTCTACATTTTTGTAA	MKKDIQIGYEYFKNSGELSDIEKQLFERAKEAREKAYAPYSQFLVGCSVLLENGEIYSGNNQENAAYPSGLCAERTTLFWVAANFPDVKIKKIFVVGGPKEFHEKNPPIPPCGACRQSLIEYETKQNENIDLYFSSMNEEVVKVHAVKDLLPFYFDSTFL	PGPT0021360_1201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
BMS003_02697	303			hypothetical protein	ATGAAGACAGTATATATAGATTTTACAGACATAGGTGACTATGAAGATTTTTACGCCCAGCTAAAGGAAAAAATTCAGCTTCCTGAGCATTTTGGCGACAATCTTGATGCTCTTTTTGATACCATTACCGGTGATCTGGAAATGCCGCTCCATTTAGAATTTGTCAACATGACTGTAGATCAGCTCGAGATTTTTGAAGACCTGCTGACAACGCTGGAAGATGCGGAAGACGAGGTTGAAGAATTTAGCTTCAGCTACTATCTGGAGCAATACGAAGATGATGATGTAGAATCTGATGAATAA	MKTVYIDFTDIGDYEDFYAQLKEKIQLPEHFGDNLDALFDTITGDLEMPLHLEFVNMTVDQLEIFEDLLTTLEDAEDEVEEFSFSYYLEQYEDDDVESDE				NA	NA	NA	NA	NA
BMS003_02698	624			hypothetical protein	TTGAAGAATATTAGATTTCTTTACCTTTTACTTGTTTTGCTTCTGACATACTCATGTTCGGAAAAGAAAAATGGAGTAAAGGAAAAAGCAGCAAAACCAGCCGTAACAATACTCATACAGCCGTTTAAAGGTATTAAACAGGAAACAGTATCAAAAGTAGCTGAAGGAATAAAAAATGTATATCCGAATATAAAAGTTCTGGATCCCATAGATCTTCCGGAAAATACTTATTATAAAGAAAGAAACCGTTACAGAGCCGATTCAATTATTAAATTCTTGAATAAGGAAACAAAAGAAGGTTTTGTTACAATTGGTCTTACTGCAAAAGATATAAGTGCCACCAGAGGAAAAATAAAAGACTTTGGAATCATGGGATTGGGATATACACCGGGGAAAGCCTGTGTGGCTTCCAATTTCAGACTGAGTAAAGAAAATCAGGATGAGCAGTTTTACAAAATAGCTATTCATGAGCTGGGGCATACACAAGGGCTGCCACATTGCCCTGAAAAAATGTGTTTTATGAGAGATGCAGAAGGTAAGAATCCTACCAATGAAGAAACGGATTTCTGCAAAAAATGCAAAACTTTTTTAATCAATAAAAATTGGAAATTTAGTTCAATATGA	MKNIRFLYLLLVLLLTYSCSEKKNGVKEKAAKPAVTILIQPFKGIKQETVSKVAEGIKNVYPNIKVLDPIDLPENTYYKERNRYRADSIIKFLNKETKEGFVTIGLTAKDISATRGKIKDFGIMGLGYTPGKACVASNFRLSKENQDEQFYKIAIHELGHTQGLPHCPEKMCFMRDAEGKNPTNEETDFCKKCKTFLINKNWKFSSI				NA	NA	NA	NA	NA
BMS003_02699	309			hypothetical protein	GTGAAAGCAGGTTTTGTCTACATCATGACCAATAAAAATCACACAACTCTTTATACAGGAGTTACTTCAAATCTGCCCAAACGTGTTCAGCAGCATAAAGAATCATATTATTCTCAAAGCTTTACCTCAAGATATAATTTGTATCTACTTGTGTATTGGGAATCCTTTCAGGAAATAGTAGATGCGATATTTAGAGAGAAACAGATAAAAGCAGGCTCCAGGCAAAAGAAACTTGATTTAATCAATAGTATAAATCCTGATTGGAAAGATCTTACAGATGATATTGAAAGTATTATGGATATTTTCTGA	MKAGFVYIMTNKNHTTLYTGVTSNLPKRVQQHKESYYSQSFTSRYNLYLLVYWESFQEIVDAIFREKQIKAGSRQKKLDLINSINPDWKDLTDDIESIMDIF				NA	NA	NA	NA	NA
BMS003_02700	561			hypothetical protein	ATGGGTCAGTTTTATATTAATACAATCAATACAACTATTATTATGAACGGTAAAATAAGATCTGTGTTTTTTATATGTCTTGGACTTCTTTTCGGAATGTCTGTAATGTATATCTACAGAAATTTTATTGAAGATAAAAAAGATCAGCAAGATGCTGCAAAAACAGAAACAGTGAGCTATGGCAGTACCTCTTCGGATGGAGTATCCCGTAACGGAAATTCATCTGGTCAGGTTTCTATAGATCAGCTTACAGAAGAAAAAACAGTGATCAGCTATGTGAAACAAAACCATAAGCTTCCGGAGTATTATATCACTAAAAATAAAGCAAGAAAACTGGGCTGGAATCCTTCCAGAGGTAATCTTTGTGATGTACTTCCCGGAAAAGCTATAGGTGGCGATAAGTTCGGAAACAGGGAAGGACGTTTGCCGGATGGTGAACAATACTTTGAAGCTGATGTAAACTATCATTGCGGCGGAAGAAATGCAGATCGTATCATCTACACTCAGAATGGTGATGTATATCTTACGAAAAATCATTATAAAAGTTTTGAAAAACAGTAA	MGQFYINTINTTIIMNGKIRSVFFICLGLLFGMSVMYIYRNFIEDKKDQQDAAKTETVSYGSTSSDGVSRNGNSSGQVSIDQLTEEKTVISYVKQNHKLPEYYITKNKARKLGWNPSRGNLCDVLPGKAIGGDKFGNREGRLPDGEQYFEADVNYHCGGRNADRIIYTQNGDVYLTKNHYKSFEKQ				NA	NA	NA	NA	NA
BMS003_02701	792	nadE	COG0171	NH(3)-dependent NAD(+) synthetase	ATGCAGACACAAAAAGTGATAGATCATATCGTAAGCTGGTTAAAAGATTATGCTACAAAAGCAAAAGTAAACGGATATGTAATCGGGGTTTCCGGAGGAGTAGATTCCGGAGTGGTTTCTACGCTGGCAGCAATGACCGGACTGAAAACATTATTGATCGGAATGCCGATCCGTCAGAAAGCTGACCAGGTAGACCGTGCACAGGATCATATGAATGATCTTAAATCCAGATTTCCAAATGTGGAAATAATATCTGTAAATCTTACACCGGCCTTTGAAGAAATCTATAAAACCTTTCATGTAAAGGATGAGGTGTATCCCAATGAAAATTTGACCTTTGCCAATACAAGAGCACGTCTTAGAATGCTTACACTTTATTATTATGGCCAGCTGAACGGGCTTTTGGTTTGTGGAACGGGAAACAAAGTAGAAGATTTCGGAATAGGATTCTATACAAAATATGGAGATGGCGGGGTAGATGTTTCACCTATTGCAGACCTCTATAAAACTGAAGTATATGAGCTGGCAAAAGGGTTAAATCTTATCAAAAGTATTCAGGAGGCTATTCCTACAGACGGACTTTGGGACACGGACAGAACCGATGAACAACAGATTGGTGCCAGTTATCCGGAACTGGAAAAAATCCAGAAAGAATACGGGACTAAAACTGCTGATGATTATGAAGGGAGAGATAAGGAAGTATTCCTGATCTTCGACAGAATGCATAAAGCAGCCAGACATAAGATGGATCCTATTCCGGTTTGTGACATTCCGGAAGAATGGAGAGCATAA	MQTQKVIDHIVSWLKDYATKAKVNGYVIGVSGGVDSGVVSTLAAMTGLKTLLIGMPIRQKADQVDRAQDHMNDLKSRFPNVEIISVNLTPAFEEIYKTFHVKDEVYPNENLTFANTRARLRMLTLYYYGQLNGLLVCGTGNKVEDFGIGFYTKYGDGGVDVSPIADLYKTEVYELAKGLNLIKSIQEAIPTDGLWDTDRTDEQQIGASYPELEKIQKEYGTKTADDYEGRDKEVFLIFDRMHKAARHKMDPIPVCDIPEEWRA	PGPT0013445_2604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
BMS003_02702	747			hypothetical protein	ATGAGAAAGCTTTTATCATTAACTGTATTATGTCCTTTAATTATTTTCTCCCAAAAAATTCAATTTAAGGATAAAAATTTCGAAAAGGTAATATTGAGTCGGTATGATACCAATAAAAATGGAATTATAGATGAAAATGAATATGCATCTGTTACAACAATCAATCTTAAAGGAATACAAATTGAATCTTACGAAGATGTGTACTTATTTAGAGCAAGAAAGCTGCTGTTGGGAGATTTCCCTATAAAAAATCTTGTAATAAAAAATCATCCGACTTTGGCAATAATTTCCTGCGGAAAGTGTAATTTAACTACATTTGAAGTTGAAAATATGCCTCAACTTTACAGTATCGATATCAATAAAAATAAACTGAAAAGTATATCTATAAAGAATTGTCCGGAAGTTGATTATATGAATATTTCTGATAATAATATTTCTGAAATAAATGTAGATCATCTCACAAAATTAGAAACACTTCATATCGGGAACAATAATTTACAGAAATTAGATGTTCAAAATCTACCGAAATTGAAATGGCTTACATTGAATGGAAACCATATTAAAAAATTGGATATTTCTAAAAATCCCGAATTATTTTCTGTAGTAACTTATGGAAATGAACTAAAAAAATCAGATATTACAAAGCCTAAAAATTTTAAAGGAGAAATAGTGGACGTAGATCCTAATACAAGAATGAAAAAACTTTTTCCTCCTCCCCCTCCTCCGGCAAGAAATAAAAATAATTAA	MRKLLSLTVLCPLIIFSQKIQFKDKNFEKVILSRYDTNKNGIIDENEYASVTTINLKGIQIESYEDVYLFRARKLLLGDFPIKNLVIKNHPTLAIISCGKCNLTTFEVENMPQLYSIDINKNKLKSISIKNCPEVDYMNISDNNISEINVDHLTKLETLHIGNNNLQKLDVQNLPKLKWLTLNGNHIKKLDISKNPELFSVVTYGNELKKSDITKPKNFKGEIVDVDPNTRMKKLFPPPPPPARNKNN				NA	NA	NA	NA	NA
BMS003_02703	528		COG1670	Acetyltransferase	ATGAAAATAGAAACAGAACGGCTGGTTTTAAGAGAACTCGAAGATGAAGATTTTGAACGTATATTTCTGCTGGATTCCAATCCTGAAGTCATGAAATATATTGGCGTTCCGGTTTTAACGGACATCAATGAGTCAAAAAAGGTTATCAACATGATTCAGAAACAATATGAAGAAAATGGAGTGGGAAGACTGGGCGTTGTGGAAAAAGAAAGCGGACTTCTGATAGGATGGAGTGGTTTAAAATTATTAACCCATGAAACGAATGGCTACAAAAATGTACTGGAGCTGGGATATCGTTTTCTTCCTGAATCATGGGGAAAAGGATACGCCGTAGAGTCTGGAATAGCGTCTCTGGATTATGGTTTTAATGAACTTGATGCAGAAGTTATCTATGCTTATGCTCATTCAGAACATGATGCTTCCAACCATATTCTGAGAAAATTAGGATTTGAGAAAACCGGCGAATTTGAAGAACCGGACGGAATTTGCTTTTGGTATGAGCTAAATGTTAAAAATTACACTCGCTGA	MKIETERLVLRELEDEDFERIFLLDSNPEVMKYIGVPVLTDINESKKVINMIQKQYEENGVGRLGVVEKESGLLIGWSGLKLLTHETNGYKNVLELGYRFLPESWGKGYAVESGIASLDYGFNELDAEVIYAYAHSEHDASNHILRKLGFEKTGEFEEPDGICFWYELNVKNYTR				NA	NA	NA	NA	NA
BMS003_02704	639			hypothetical protein	ATGATGAAAATTAAAATATTTACCACCCTTTGCCTTATTTTGGGACTTTCTTTTTTCTATGGGCAAAAGCTTGTATTTAAAGATAAAAACTTTGAAAAAGCAGTACTCGAAAATTTCGATCTCAATAAAAACGGAATACTTGAACCTCTTGAAGCAGGCATGGTTATCAATTTGTTTCTTGTTCAGAAAGGAATTACTTCATCAGAAGATCTGCACTTTTTTAAAAATGTAAAAATGATTGTTCTGGATGATAACGTAATATCAAATATTGCTGTACAAAATCTTGATCAGCTGGAACTGTTCTCATGCACAGGATGTGAAATCTCTTTATTCAAAGCGGAAAACCTTAAGAACTTAACCTCATTATATCTTGATAATAATCTGCTGGAAAGTATTTCGCTTACAGGAACTCCAAAAGTTGATCAATTAACATTATCTTTAAATCAACTAAAAACAATAGATCTGATTCAGTTTAAAAGATTAAGAAGGCTGAATGTAGAGCATAACAAGCTTCAGAAAATTGATATTTCAGGTAATTCTGCTTTACAAACACTTAATGTAATAGGAAATAATATGAAAGAAACGGATATAAAGAAAGGAACAAAGACAGATGTAACCATTTTTGGGGCTGAAGAATAA	MMKIKIFTTLCLILGLSFFYGQKLVFKDKNFEKAVLENFDLNKNGILEPLEAGMVINLFLVQKGITSSEDLHFFKNVKMIVLDDNVISNIAVQNLDQLELFSCTGCEISLFKAENLKNLTSLYLDNNLLESISLTGTPKVDQLTLSLNQLKTIDLIQFKRLRRLNVEHNKLQKIDISGNSALQTLNVIGNNMKETDIKKGTKTDVTIFGAEE				NA	NA	NA	NA	NA
BMS003_02705	984			hypothetical protein	ATGAAGATTTTTAGATATATTGCACTTTCTTCAGTTTTAGCTGCCGGACTTACTTCCTGCAAAAAAGAACCTGAAAATCAATGGAAGGTAGAAGTAAAACAAGCTTCCGAAAAAGTTGACATCACAGATATTTCCAAAGAATTCTACAATCCGAATGTTCCGTTGGATCAGTTTAAAGCTCAATTCCCATGGTTTCAGGGAAGTGTTTCTGATACTGATTTCGGAAAAAGAAGAGCGGACGCTGAAGAGATCAAAATCTACAAGGAAGCTATTGGAAAAATAGATCAGGCAAAGCTTCAAAAGGAGCTACAAAGCTTATTTTCGCATATTAAATATTACTTTCCGCAGTTTAAAAATCCAAAAGTATATTTGTTCTCATCTGCTTTACAGATGGTTCAGGATCCCATATTTTATGATGAAAAGGGTAACCTTTTATTCATAGATGTTACTGGTTTTATGGGAGACGGAAATCCCAATTATAAAGGGCTGGAACTGTATTTCCAGAAATCGATGAACCCACAGAATATTGTTCCGAAGGTATCACAGCTTTTTGCAGAAAATATTGTTACAGAATCTCCTGACCATCAGAAATTCATTGATCAGATTATTCTGAACGGAAAAGTAATGATTCTTCAGGATGCTTTTCTTCCGGATACGCCTGATTATCTGAAAATGAATTATACCCAAAAGCAGTATGAATGGGCAACAAGTAATGAAGCCAATATCTGGAATTATTTTGTAGAAAGCAATCTGATCTTCGGAGATGACCCAAGACTGGGAGAACGTTTTATTTCGCCGGGACCATTCTCAAAATTTTATACGGAAATTGACAATGAATCTTCGCCACGAATCGGAATTTTTACAGGATGGCAGATCTGTAAGGCCTATCTGAAGGAAAAACCTGAAACGAAGTTAACAGAGTTTTTGAAAATGGACGCTACCACAATTTTTAATCAATCCGGTTATAAACCGAAACTTAAATAA	MKIFRYIALSSVLAAGLTSCKKEPENQWKVEVKQASEKVDITDISKEFYNPNVPLDQFKAQFPWFQGSVSDTDFGKRRADAEEIKIYKEAIGKIDQAKLQKELQSLFSHIKYYFPQFKNPKVYLFSSALQMVQDPIFYDEKGNLLFIDVTGFMGDGNPNYKGLELYFQKSMNPQNIVPKVSQLFAENIVTESPDHQKFIDQIILNGKVMILQDAFLPDTPDYLKMNYTQKQYEWATSNEANIWNYFVESNLIFGDDPRLGERFISPGPFSKFYTEIDNESSPRIGIFTGWQICKAYLKEKPETKLTEFLKMDATTIFNQSGYKPKLK				NA	NA	NA	NA	NA
BMS003_02706	324			hypothetical protein	ATGAGAAAGACTCAGATTACGATAGATGTAGAGCTTGATGAAAATCACGTACCAGAAAACATCACATGGAACGCACAGGATGGAGGGATTGAAAAACAGGATACCAAAGCAACCATGATTTCTGTATGGGATGATAAAACGAGAGAAGCGTTAAGAATTGATCTTTGGACTAAAGAAATGCCTGTAGATCAGATGAAAATGTTTATCCACCAGATTTTAATATCTTTAGGAAGCACTTATCAGAGAGCAACAGGAGAAGAGGATGTAGCACAATGGATGGAAGAAATTGCAGAAGAGTTTGCGGTAAAGTCTGCTATTAAGTAA	MRKTQITIDVELDENHVPENITWNAQDGGIEKQDTKATMISVWDDKTREALRIDLWTKEMPVDQMKMFIHQILISLGSTYQRATGEEDVAQWMEEIAEEFAVKSAIK				NA	NA	NA	NA	NA
BMS003_02707	1140	metC	COG0626	Cystathionine beta-lyase	ATGAATTTTAATACAAAAGTAATTCACGGAGGGCAGCACCACGAGTCTGCAACAGGTTCTGTAAATGTACCTGTATTTTTGACCTCTACATTTGCACAGAAAAGCCCGGGTGTACATTCCGGATATGAATATTCAAGAGCCGCTAACCCTACAAGACAGGCATTAGAGGATTCTTTAGCAAGTATTGAAAACGGAGCGAGAGGTTTAGCTTTCGGTTCTGGTCTTGCTGCCATCGACTGTGTTTTGAAATTATTAAACCCAGGTGATGAAGTGATTGCTGTAGATGATCTTTATGGAGGTACTTACAGAATGTTCACAAGACTTTTCGAAAAATATCAGCTGAAGTTTACTTTTGTGAATTTTGATGATGTTTCTAAGATTGCTGATGTTATTACAGATAAAACAAAACTGATCTGGGTAGAAACTCCTACTAACCCATTGATGAAATTAGTAGATATCAAAGCTGTAGTAGAAGTAGCGAAAGGAAAAGATATTTTAGTGGCAGTAGACAATACTTTTGCAACTCCTTATATCCAGAGACCTATTGATTTGGGTGCTGATATTGTGATGCACTCTGCAACGAAATATTTAGGGGGACACTCTGATGTGATTGCCGGAGCACTTATTGCTAAAGATGCTGAATTGGGAGAAAAACTTCACTTTATTCAGTTTGCGAGTGGTGGTATTTTGGGACCTCATGATTCTTATCTTGTATTAAGAGGAATCAAAACACTGGCATTAAGAATGCAAAGACATTCTGATAACGGTCTGGCAGTAGCAAAATATTTGGAGACTCATCCGGCAGTAGATAAAGTAATTTATCCGGGATTGGAATCTCATCCACAGTATGAGCTGGCAAAATCCCAGATGAAAGAATCCGGAGGAATGGTTTCATTCACTTTTAAATCCGGAAAAAAAGAGGATGCTATCAAATTTTTAGAAAAAGTAAGAGTATTTACCCTTGCAGAATCTTTAGGAGGTGTAGAATCTTTGGCTAACCACCCTGCTTTGATGACACATGCTTCAATTCCGGCAGAAAAACGTGCTGAACTGGGAATCACGGATGACCTTGTTCGTTTAAGCGTAGGTATTGAGGATGCAGAAGATCTTATTGCAGATCTGGAGAAAGCTTTTTCTTAA	MNFNTKVIHGGQHHESATGSVNVPVFLTSTFAQKSPGVHSGYEYSRAANPTRQALEDSLASIENGARGLAFGSGLAAIDCVLKLLNPGDEVIAVDDLYGGTYRMFTRLFEKYQLKFTFVNFDDVSKIADVITDKTKLIWVETPTNPLMKLVDIKAVVEVAKGKDILVAVDNTFATPYIQRPIDLGADIVMHSATKYLGGHSDVIAGALIAKDAELGEKLHFIQFASGGILGPHDSYLVLRGIKTLALRMQRHSDNGLAVAKYLETHPAVDKVIYPGLESHPQYELAKSQMKESGGMVSFTFKSGKKEDAIKFLEKVRVFTLAESLGGVESLANHPALMTHASIPAEKRAELGITDDLVRLSVGIEDAEDLIADLEKAFS	PGPT0001980_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
BMS003_02708	495			hypothetical protein	ATGAGAAGGGTTATACAATCTTTCTCATTTTATTATAACAGCACCAATACTATGAAAAATACAAGGAAAGCAGTTATTTCCGATTTACCGCAGCTCGCAGAATTGTTTGATCAGTACAGGATATTTTATCACAAAACATCTGACACTTGCGCAGCGACAGATTTTCTTCAGGAAAGGATAGAAAATAAAGATTCGGAAATTTTTGTTGCCGAAGAAAATGGTATGCTTACAGGTTTTGTACAGCTGTATCCTATATTTTCGTCTACAAGAATGCAGCGTTACTGGCTGCTGAACGATCTGTACGTTAATGAAAATCATAGAGGAAAAGGTTATTCAAAAGAACTTATTGAAAAATCTAAAGAGCTCTGCCGTTCATCAAAAGCATGTGGCATTCTTTTAGAAACAGGAAAAAGCAATGATATCGGGAATCAGCTTTATCCAGCCTGCGGTTTTGAGCTTTATGACTCCGTTAACTTCTACGAATGGAAATCATGA	MRRVIQSFSFYYNSTNTMKNTRKAVISDLPQLAELFDQYRIFYHKTSDTCAATDFLQERIENKDSEIFVAEENGMLTGFVQLYPIFSSTRMQRYWLLNDLYVNENHRGKGYSKELIEKSKELCRSSKACGILLETGKSNDIGNQLYPACGFELYDSVNFYEWKS				NA	NA	NA	NA	NA
BMS003_02709	513			hypothetical protein	ATGACCGATTTTCAAAAATACATCCAGAGATATTTAGATCAGATCCCATCAGAAAACTGGCTAAACGAATTGCAAGTCTCTGCAGATAAAACCATAGGAATTTATTCCAACCTTACAGAAGAACAGTCTCATTTTGCATATGCAGAAGGAAAATGGACTTTAAAAGAGCTTCTGTTGCATTTATCAGACACTGAAAGAGTTTTCCAATACAGAATATTAGCTTTCGCCAGAGGAGAAAAAAATAATCTTCCGGGATTTGACGAAAATGAATATGCTGAAAAGTCTTTCGCCAATGAAAGAACACTTGAGTCTCTTTTGGAAGAATACAAGCTGGTGAGAAAATCTTCCCGAATCCTGTTAGAAACTCTTAATACTTCCGCTTTACGTTATACAGGAACAGCCAATGGTCATGAAATTACGGTAGAAACCATCGGAAAACTGATTATAGGACACAATTACCACCACCTGAATATTATTGAGGAAAGGTATTTATCGAAATTGGGATGGATGTAG	MTDFQKYIQRYLDQIPSENWLNELQVSADKTIGIYSNLTEEQSHFAYAEGKWTLKELLLHLSDTERVFQYRILAFARGEKNNLPGFDENEYAEKSFANERTLESLLEEYKLVRKSSRILLETLNTSALRYTGTANGHEITVETIGKLIIGHNYHHLNIIEERYLSKLGWM				NA	NA	NA	NA	NA
BMS003_02710	429			hypothetical protein	ATGGCTTTTATCAAAATCTACATTCATCTTGTCTTCTCTACAAGAAATAGAGATCCTTTTCTCAATACATTTGACATACGTCTCAAAGTCTGGAAACATATTAAAGAATATGCTACAGAAAAAGGAATATTTTTAGATATGATTAATGGATATTCAGACCATTGTCATTGTCTTATTTCTCTCGGCTCTGATCAGAATATTGAAAAAGTTGTACAACTGTTAAAAGGTGAATCTTCACATTGGATCAATAAAAATCAACTTACAATAGGAAAATTCTCATGGCAGGATGAATATTTTGCTGTGTCAGTTTCTGAATCCATGGTAGAGAATGTAAGAAATTATATTAAAAATCAGGAAAAACACCATCAGAAAAAAAGTTTTGGAGAGGAATATAAGGAATTTATTGAAAAATATAATTTTAAAATGTAA	MAFIKIYIHLVFSTRNRDPFLNTFDIRLKVWKHIKEYATEKGIFLDMINGYSDHCHCLISLGSDQNIEKVVQLLKGESSHWINKNQLTIGKFSWQDEYFAVSVSESMVENVRNYIKNQEKHHQKKSFGEEYKEFIEKYNFKM	PGPT0030655_3915	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS003_02711	549	tsaC		Threonylcarbamoyl-AMP synthase	ATGGAACATATTATTGAAATATTAAAATCCGGCGGAACAATTCTTTACCCTACAGATACCATTTGGGGAATTGGTTGCGATGCTACCAATATAGAAGCAGTCAATAAAATTTTTGACATCAAAAAGCGTGAAAAGAATAAATCTATGATCATCCTTGTAGAATCCGAGAAAAGACTTCAGGATCTGGTGGATGTTCCGGAGATGGCCTGGGAAATTATTGATCTTAGTGAAAAACCTGTAACGATTGTTTATGAAAATCCAAGAGGTTTGCCTAAAGAACTTCTTGCAGAGGATGGAAGCATCGGAATCCGATTGGTAAAAAACGATTTCTGTAAAAAACTGATCACAAAACTGAACAAACCTTTAGTTTCAACTTCTGCCAACTTCAGTGGTGAGAAAAGTCCGTTGAAATTCTCTGACATTTCTGAAGAAATGATCAGTCTTGTAGATTATGCAGTGGAAGAAGACAGAGAAAAGATTTCAAAATATTCAGGCTCTTCGGTGATCAAAATTTGGAATGATAACAGAATAAAAGTGCTTCGGGAATAA	MEHIIEILKSGGTILYPTDTIWGIGCDATNIEAVNKIFDIKKREKNKSMIILVESEKRLQDLVDVPEMAWEIIDLSEKPVTIVYENPRGLPKELLAEDGSIGIRLVKNDFCKKLITKLNKPLVSTSANFSGEKSPLKFSDISEEMISLVDYAVEEDREKISKYSGSSVIKIWNDNRIKVLRE				NA	NA	NA	NA	NA
BMS003_02712	345			hypothetical protein	ATGAATCATCAGGAATTTGCTCAGATGTGGATTAATGCATGGAATTCTCATAATTTAGGGGATATCCTTTCCCACTATTCGGATGATATTGAGATTACCACACCTATGATTGCTCTGGCTACAGGTGGTAAGGAAAGCTCTTTAAAAGGAAAACAAGCTGTTCGCGAATACTGGAAAGAAGCACTGGATAAGTTTCCGGATCTCCGTTTTGATCTTATTCATTCCACAGCAGGAGTAGATTCTGCAGCATTATTTTATAAGTCGATTATGGATAAGCATGCTGTAGAAGTCATGTTTTTTAATGAAGACGGAAAAATTAGTAAAATGTATGCCCATTATGATTAA	MNHQEFAQMWINAWNSHNLGDILSHYSDDIEITTPMIALATGGKESSLKGKQAVREYWKEALDKFPDLRFDLIHSTAGVDSAALFYKSIMDKHAVEVMFFNEDGKISKMYAHYD				NA	NA	NA	NA	NA
BMS003_02713	1437	cca		CCA-adding enzyme	TTGTCACTATTATTAACGATGAAAATTAATCTTAATCAAAATAAGAATTTAAAACTATTTAAAGTCATTTCTGAAGCAGCAGAAAGGAATAACCAGTCCGTATATATTGTGGGTGGTTATGTACGTGATCTTCTGATGAACAGAAAAGCGTCTACAGATATAGACTTTGTAACAGAACAAAGCGGTATTGAGCTTGCCCAAAATGTAGCGCATGATATAGATCCTAAATTAAAGGTTTCCGTATTCAAAACGTATGGAACGGCCATGATCAAGTATAAAGAGCTTGAACTTGAATTTGTAGGAGCAAGAAAAGAAAGCTATACCGAGAACAGCCGAAAACCTGAAGTAGAAGGCGGAAGCCTGGAAGATGACCAGAAAAGAAGAGATTTCACCATCAATGCCATGGCTATTTCTTTAAATAAAGATAATTTCGGAGAACTGATTGATCCTTTTAATGGAATTGAAGATCTTGAAAAAGGCATGTTAAGAACACCTCTGGAGCCTGCTCAAACATACTCTGATGATCCATTGAGGATGATGAGAGCAGTACGTTTTGCTTCCACTTTAAATTTTAACATTGAGGAAGACTCTCTGAAAGCCATTCAGCAGGAAGCAGAAAGAATCAAGATTGTTTCTATGGAAAGAATCATGGTAGAATTTAATAAAATCATGCTTTCTGAAAAACCATCTGTTGGACTAAGACTGATGGAACAAACCGGTCTTATGAAGCTGATTATTCCTGAACTGATAGAACTAAAAGGTGTAGAAGAAGTGGAAGGACAGACTCACAAAGATAACTTTTACCATACTTTAGAGGTTGTAGATAATATTTCTGTGAATACGGATAATCTTTGGCTTCGCTGGTCTGCCCTGCTCCATGATATTGGAAAAGCACCTACAAAGAAATTTGTGGAAGGAACAGGATGGACGTTTCATGGACATGAATTTTTGGGTTCAAAAATGGTAAAAGTCCTTTTCCAGAGATTAAAACTGCCTTTGGGGAGCGATATGAAATATGTCCAGAAAATGGTGAAACTTTCCTCAAGACCCATTGCTTTGATTACTGATGATGCTTCAGATTCTGCATTAAGAAGACTTTTATTTGATGCCGGAGAAAACCTGGAAGATCTTTTCATCCTTTGCAAAGCAGATATTACTACCAAAAACTCTAAAAAGCAGGAGAAATTCAAAAGAAACTTTGAATACGTAGCGGTAAAGATTAAAGAAGTGGAAGAGAAAGATCAGGTAAGGAACTTCCAGCCACCTATTACCGGAGAAGAGATTATGAAAATGTTCAATCTTAAGCCAGGCCGGGAAATTGGTATTCTTAAAGAAAAAGTAAAAGAAGCCATTTTGGAAGGCGAAATTCCTAATGAAAAAGAAGAAGCTACAAAGTTTGTTATTGCTGAAGCTGAGAAACTGGGATTGACAATCTGA	MSLLLTMKINLNQNKNLKLFKVISEAAERNNQSVYIVGGYVRDLLMNRKASTDIDFVTEQSGIELAQNVAHDIDPKLKVSVFKTYGTAMIKYKELELEFVGARKESYTENSRKPEVEGGSLEDDQKRRDFTINAMAISLNKDNFGELIDPFNGIEDLEKGMLRTPLEPAQTYSDDPLRMMRAVRFASTLNFNIEEDSLKAIQQEAERIKIVSMERIMVEFNKIMLSEKPSVGLRLMEQTGLMKLIIPELIELKGVEEVEGQTHKDNFYHTLEVVDNISVNTDNLWLRWSALLHDIGKAPTKKFVEGTGWTFHGHEFLGSKMVKVLFQRLKLPLGSDMKYVQKMVKLSSRPIALITDDASDSALRRLLFDAGENLEDLFILCKADITTKNSKKQEKFKRNFEYVAVKIKEVEEKDQVRNFQPPITGEEIMKMFNLKPGREIGILKEKVKEAILEGEIPNEKEEATKFVIAEAEKLGLTI				NA	NA	NA	NA	NA
BMS003_02714	2208	dpp7		Dipeptidyl-peptidase 7	ATGAAAAGACTATTTCTACTATTCACTTTCTTACTGGGCTTTGCTCAGATGAGGGCGGATGAGGGGATGTGGCTGCTAATGCTCATCAAAAGACTTAACGGTGTTGATATGCAAAAGGAGGGCCTACATCTTACGCCTGAAGAAATTTATTCTGTAAACAATTCAAGCTTAAAGGATGCTATCGTAAGTTTCGGTGGTTTCTGTACAGGTGAGATTGTTTCTGATAAAGGACTTATATTTACAAACCACCACTGTGGTTATGGTGCGGTAGCGGCTGCTTCTACACCAGAAAAAGATTATCTGAAGAACGGTTTCTGGGCAATGAAACAGAAAGACGAATTCAATGCAAAAGATCTTTATGTAAGATTCTTAGTGAGAATGGATGATGCTACACAGAGAATCAATTCTAAGCTAAACAACAATATGACCGGAGCAGAGAGAAAAGCTGTTATTGATGCTGAAACTAAAGCCATCCAGACAGAAAACTCTGAAAACGGGAAATACACTGTAGTAGTAAAAGATTTCTTTAACGGAAACGAATTCTATTATTTTGTATATCAGGATTATAAAGATATCAGATTGGTAGGTGCTCCACCTTCATCTTTAGGGAAATTCGGGGGAGATACAGATAACTGGGAGTGGCCTAGACATACTGCTGACTTCACTGTTTTCAGAGTATATGCAGATGCTGCAGGAAACCCTGCTGAATATTCTCCAAGCAACACTCCTTTGAAGCCTAAGCACTTCCTTCCTGTTTCTCTTAAAGGAATCAAGCCTGGTGATTTCTCAATGATCCTGGGTTACCCTGGAAGAACAAACCGTTACCTGACTTCTTACGGAATTCAGCAAATGGTAAATAAGGATTACCCGGCATGGGTTGAAGCGTCTAAACTGGCTATGGATGTAATGAAAAAGTATATGGATAAGGATAAGGCCACCCAGCTTAACTATGCTTCCCAATATGCTTCAGTAGCGAACTACTGGAAAAACAGACAAGGAACTATTGACGCAGTAGAGAAAAACGGAACAATTACAGACAAACAAAAGATCGAAGAAACCTTCAGACAATGGTCTGTAATGCCTGGAAATGAATCTTATGATGGAGTTCTTGAAGATATCGCAATCTATTACAAGCAGGTTTCTGAAAGAAATGTTGAGAGAAACTATGCTGCACAGTTCTCAAGAAATGCAAAATATATCTCTCTTGCCCTAAAAGTAGGTTCTGTACTTAAAACTTATGCTGCACAAGATATGCAGGGAAGACTGGCAATGAAGGCAAAAACAGAAGCAGCTATTAAAGCAGCTTATGAAAACTTCAATCCATCTCTTGAAGGAGAAATGCTTGCTGCTATGACAAGTCTTTACCAGGCAAGAGTTAAAGATCCTGAAATTGCTTCTGCTACTATTTTAGGATTAGATGCTAAAACAATTTCTAACCTAGCTTATTCTTCAATCTTCGCAAATAAAACATCTGCTACAAACTTCTTATTGAATCCGGATGCATTAAAGCTGGATGCTGATCCACTTTGGAAAGCTGCTAACGGAATTGCTGTTGACCAAAAGCTAACAGTGGAAAGATATGTGAAAGTAGATGAAAATTTTGCAAAAAATAACCGTCTGTTCCTAGCCGGTCTTATGAAGGCTATGCCTGAGAAGAAATTCTACCCGGATGCTAACTCTACTATGAGATTAACTTACGGTACTGTAGATAAATTACCGATCAGAAATGACCGAAACTATTTCGGTATTACAGATAACTATTATACTGACATGACGGGTCTTGTTGGAAAATACAAGAAAGGGGATGAAGAGTTTGATCTGCCTCAAAGAGTGATAGACCTTTATAACCTTAAAGATTTCGGACAGTATGCTGATGCTGCAGGATATATGCCTGTAAACTTCCTTTCCAATAACGATATTACAGGAGGTAACTCTGGTTCTCCGGTAATTGATGCAGACGGAAACCTTATCGGTATTGCTTTCGATGGTAACAGTGAGGCACTAAGCGGTGATATAGTATTCGAGCCTGAATGGCAGAAAACAATCAACGTTGACGTTCGTTTTGTTCTTTGGACGATTGATAAGTTTGCCGGTGCAAGAAGATTAGTTGACGAATTGAAGCTTGTAAGAGGTGAAAATACTCCGGCTGATACAAAAACTAAAAACTCAGGTACTACAACAATGCCTAAGAAAAACAAGAAAAAATAA	MKRLFLLFTFLLGFAQMRADEGMWLLMLIKRLNGVDMQKEGLHLTPEEIYSVNNSSLKDAIVSFGGFCTGEIVSDKGLIFTNHHCGYGAVAAASTPEKDYLKNGFWAMKQKDEFNAKDLYVRFLVRMDDATQRINSKLNNNMTGAERKAVIDAETKAIQTENSENGKYTVVVKDFFNGNEFYYFVYQDYKDIRLVGAPPSSLGKFGGDTDNWEWPRHTADFTVFRVYADAAGNPAEYSPSNTPLKPKHFLPVSLKGIKPGDFSMILGYPGRTNRYLTSYGIQQMVNKDYPAWVEASKLAMDVMKKYMDKDKATQLNYASQYASVANYWKNRQGTIDAVEKNGTITDKQKIEETFRQWSVMPGNESYDGVLEDIAIYYKQVSERNVERNYAAQFSRNAKYISLALKVGSVLKTYAAQDMQGRLAMKAKTEAAIKAAYENFNPSLEGEMLAAMTSLYQARVKDPEIASATILGLDAKTISNLAYSSIFANKTSATNFLLNPDALKLDADPLWKAANGIAVDQKLTVERYVKVDENFAKNNRLFLAGLMKAMPEKKFYPDANSTMRLTYGTVDKLPIRNDRNYFGITDNYYTDMTGLVGKYKKGDEEFDLPQRVIDLYNLKDFGQYADAAGYMPVNFLSNNDITGGNSGSPVIDADGNLIGIAFDGNSEALSGDIVFEPEWQKTINVDVRFVLWTIDKFAGARRLVDELKLVRGENTPADTKTKNSGTTTMPKKNKKK				NA	NA	NA	NA	NA
BMS003_02715	435			hypothetical protein	ATGAAAAAGATACTATTATCACTTTTTACAGTTTTATTTTTAGGATTTGTTTTGAATTGTTCTTCAGTACCTGACAAAAACCCTTCGCTTAAGAGACAATGGATGCTGATTTCATTAGATGGCTTTTCGAAAGATCAGCTGATAGCGAATAAAGCAGAAATGAACCTGACAGCCAGTATGGTAGGGGGTGAAATTCAGGGAAGTGCTTATATGGGATGTAACAGGATGGCTTTTGTAACCGAATTTAGAAAAGGCGGAAAAGTAAAAACTTCAAAGGGAGTAAGTACGATGAAAGCCTGCCAGGATATGGCACTTGAAACCTCTTTTCAAAAGAACATTGAAAGAATGAAAAAATATTCGGTGGAAGGCCACTTTCTGATTTTAACGGATGATAATGGGAATTCGATGAAATTTGTAGCAGCCGATTGGGATTAA	MKKILLSLFTVLFLGFVLNCSSVPDKNPSLKRQWMLISLDGFSKDQLIANKAEMNLTASMVGGEIQGSAYMGCNRMAFVTEFRKGGKVKTSKGVSTMKACQDMALETSFQKNIERMKKYSVEGHFLILTDDNGNSMKFVAADWD				NA	NA	NA	NA	NA
BMS003_02716	708	natR	COG3279	Transcriptional regulatory protein NatR	ATGATTACCCATATTAGATGTATGATTATTGATGATGATGAACTGGACAGGCTGGTTCTTCAGCATTATATCAAACAATATCAGAACATTGAGATTGTAGGTTCTTTCGACTCTGCGGAAAAAGCCCTTCCCTATCTTGACCTTCCTGTTGATCTTCTGATTACGGAGACCAATTTAAAAGGCATGAGCGGTCTTGAATTTCGGAAAATGGCTCCTAAGATACCGGCATGTATTTTCGTGAGTTCACATCCTGAAGTGGCTGCCGGAGTTTTTGAAATCAATACTTTGGATTTTATCACAAAACCTCTTACGGCTGAACGCTTTCATCATTCTATGGAAAGGCTTTTCAATTTTTTTGAAATAAAGGATAAATGTGAGTGTTACGATGCCATGATAGGAGAAAACTGCATCAAAATAAAAGAAAGCGGAAATATTTTTCAAATCAAAATGAAAGATATTCTTTATCTGGAAGCGCTGAAAGACTACACAAGAATCATCACACTTGAAAAAAACCACTGTATCCTGAATTCTCTGGGAAACCTTCTGCAAAAAAACTGTTTTGATTCCTTTGTCAGAATACACAGAAGCTATGCCGTACCACGTCATCTCATCCGTGGGAAAAGCTGTCATGAAGTAGAACTGGCACATCATATCAAACTTCCTATTGGACGTACCTACAAGGATAATCTTTCTTTTTTCAATCCTTAA	MITHIRCMIIDDDELDRLVLQHYIKQYQNIEIVGSFDSAEKALPYLDLPVDLLITETNLKGMSGLEFRKMAPKIPACIFVSSHPEVAAGVFEINTLDFITKPLTAERFHHSMERLFNFFEIKDKCECYDAMIGENCIKIKESGNIFQIKMKDILYLEALKDYTRIITLEKNHCILNSLGNLLQKNCFDSFVRIHRSYAVPRHLIRGKSCHEVELAHHIKLPIGRTYKDNLSFFNP	PGPT0026304_3191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_02717	1224	hflX		GTPase HflX	ATGTTAGAAAAGAAAGAACATAATTATGAGAAAGCGGTCCTGGTAGGGGTTATTACCCAGAATCAGGATGAAGAAAAACTGACGGAGTATTTAGATGAACTTGAGTTTTTAGCTTTCACTGCCGGAGCTACCGTACAAAAGCGTTTTACCCAAAAACTTACTCAGCCGGATTCCAAAACCTTTATCGGAAGCGGAAAAGCAATTGAGATAAAAGAATATGTAAAAGAAAATGAGATAGGAACTGTAATTTTTGATGATGAGCTCTCTCCTTCACAGCTTAAAAACCTGGAAAGAGATATGGAAGTGAAAATCTTGGATCGTACCAACCTTATTCTTGATATTTTTGCCCAAAGAGCCCAGACTTCGTATGCCAGAACACAGGTAGAATTGGCTCAGTACCAATATCTTTTACCTCGATTAACGAGAATGTGGACTCACCTTGAACGTCAGAAAGGAGGGATTGGTATGAGAGGTCCCGGTGAAACAGAAATTGAAACTGACCGTCGTATAATCCGTGACAGAATTACTTTGCTGAAAGATAAGCTGAAGACCATCGACAAGCAGATGGCTACCCAGCGTAACAACCGTGGAAAAGTAGTTCGTGCAGCTTTGGTAGGATATACCAACGTAGGAAAATCTACTTTGATGAATTCCATTTCTAAATCCGAAGTTTTTGCTGAAAATAAATTATTTGCAACTCTGGATACCACGGTAAGAAAAGTAGTAATTGGAAATTTACCCTTCCTGCTTACAGATACCGTAGGATTTATCAGAAAACTACCAACCCAGCTGGTAGAATCATTTAAATCTACCTTGGATGAGGTGCGTGAAGCAGACCTTTTGATCCATGTAGTAGATATTTCTCATGAAAGTTTTGAGGATCATATAGAATCCGTAAATCATATTCTGATGGAGATTAATGCGCATCAGAAGCCAATGATCATGGTTTTCAATAAGATTGATGATTTCAGCTATGAGAAAAAAGATGAGGATGATCTTACCCCTTCTAGCCGTAAAAATATCTCTCTGGAAGAATGGAAAAAAACATGGATGGCAAAATCCAAATATCCAACGGTTTTCATTTCTGCGTTAACGAAGGAAAACTTCCCGGAAATGAAAAAAATGATCTATGATGAGGTCATGAAAATTCATATTTCCAGATTTCCGTACAATGATTTTCTTTTCGAATATTTCGAAAACGATGAAGAAGAAAGCAATAATTAA	MLEKKEHNYEKAVLVGVITQNQDEEKLTEYLDELEFLAFTAGATVQKRFTQKLTQPDSKTFIGSGKAIEIKEYVKENEIGTVIFDDELSPSQLKNLERDMEVKILDRTNLILDIFAQRAQTSYARTQVELAQYQYLLPRLTRMWTHLERQKGGIGMRGPGETEIETDRRIIRDRITLLKDKLKTIDKQMATQRNNRGKVVRAALVGYTNVGKSTLMNSISKSEVFAENKLFATLDTTVRKVVIGNLPFLLTDTVGFIRKLPTQLVESFKSTLDEVREADLLIHVVDISHESFEDHIESVNHILMEINAHQKPMIMVFNKIDDFSYEKKDEDDLTPSSRKNISLEEWKKTWMAKSKYPTVFISALTKENFPEMKKMIYDEVMKIHISRFPYNDFLFEYFENDEEESNN	PGPT0007245_4257	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS003_02718	636			hypothetical protein	ATGAAGCATCACTTTTTCCTTTTATTTATTCTGTTTTCGGTTTTTGGGTTCAGCCAGAAATCAAAAATTGACTTAAAAGCTATTGAGAAAAATCTTAAAAATTCTGAATCTCCGTACAATTACGAAAAGCTTATTTTTAAGTACAAAGGGTATCCAAAATCTTTAGACAGTATAGAATCACAGCATCTTTACTATGGAAGGAACTTTAGAAAAGATAAAATAACGACGTCAGAAGAAAGCTTTAAAAGCCTTACAGATGCCTTTAAGCAAAATAATTATGCGGACTGCATCAAGCAGGGAAAAGCATTGTATGATAAAGATCCTACCAATCTGGATATTTTACTGATCCTGCTCAGAGCTTATGATTCTGTGAAGGATGGGAATAACTTTATACATCACCTGAATCAGTTCCGTGCCCTTACCGAAGGCATTAAAAGTTCAGGAGACGGAAAATCTGAAAAGACAGCCTATGTCGTCAATTCTGTAGGAGATGAATACATTCTGCTGAATATTCTGAATATAGGCCAGGATTATATAAGGACCTCCAGGCCTGCTAACGATGGGATGTTTGATGTCTGGGATAAGGAAGGAAATAAGATTTATATCAAAATACTTTATTTGGAACTGACCAATTAA	MKHHFFLLFILFSVFGFSQKSKIDLKAIEKNLKNSESPYNYEKLIFKYKGYPKSLDSIESQHLYYGRNFRKDKITTSEESFKSLTDAFKQNNYADCIKQGKALYDKDPTNLDILLILLRAYDSVKDGNNFIHHLNQFRALTEGIKSSGDGKSEKTAYVVNSVGDEYILLNILNIGQDYIRTSRPANDGMFDVWDKEGNKIYIKILYLELTN				NA	NA	NA	NA	NA
BMS003_02719	1287	nhaP_2	COG0025	Na(+)/H(+) antiporter NhaP	GTGGAATTATATTATTCATTTTCAGCATTAATCGTATTAGCATCAATATTTGCCTATCTCAATTACAGGTTTTTAAAGCTTCCGAGTACCATCGGAATTATGGTGATCGCCATTGTGGTGTCTATTTTTCTGGTAATGTTTGGTGAAACCGTGCTTCCAAGAACTTTCGGACATCTGCACAAGCTTATGAACGGTATCGACTTTACTGAGGTTTTGATGGGAGCTATGCTTAATTTTCTGCTCTTTGCAGGGGGAATTCATATTAATATTAATGATCTGAAAGAACAGTTCCGGCCCGTATTGATCTTTTCTACAGTAGGGGTGGTCATTTCCACTTTTGTAGTAGGTTTCGGAATGTTTTATTTATTGCCGTATGTAGGAATAAAACTTCCCTTTATCTTTTGCCTTGTGTTTGGAGCTTTAATATCACCTACTGATCCTGTTGCAGTTCTGAGTGTCCTGAAGCAGGCTAAAGTATCCAAATCATTAGAAACAAAAGTTGCCGGAGAATCTCTTTTCAATGATGGGATGGCAGTGGTGGTTTTTACCGTAGTTTTACAGCTTGCCATCGGAAAAGAAGTGGATCTGGGTATTGAAAATATAGGATTGTTGCTCCTCAGAGAAGCCGGAGGAGGAATTCTTCTGGGGGGACTATTGGGATGGGTAACTTCCAGGTTAATGCGTGAAGTGGATGATTATATTATTTCCGTGCTGGTAACGCTTTCTGTTGTGATGGGAGGGTATCTTATTGCAAGGCAGATGCATATTTCAGGACCATTGACAATGGTGGCTGCAGGGTTATTTATGGGGAACTTTAATGTCAGATTCAAAATGAAATCTATTACTCAGGATTATCTGATTAAATTCTGGGAACTTATTGATGAAATTCTGAACGCTGTATTGTTCCTGTTTATCGGATTTGAACTCTTGATGATTAAAGACCTTAAGCACTTTATGATTCCGGGCCTACTGGCAATTCTTGTAGTGCTTTTTGCAAGGTTTATTTCTATCTGGGGACCATCAAAATTTACTTCCCTGAGAAAAAGTTTCAGCCCGCAGACGGTGAAAGTTCTGGTGTGGGGAGGTATCCGTGGAGGTGTGTCTATTGCATTGGCAATGTCTATTCCCAAAAGTGAATACAGTGAAATTATTTTAAGTATTACCTACTGTGTTGTAGTATTCTCAATTATTGTTCAGGGACTTACCATTGCTAAAGTAGCAAACCCCAAACAGATTGCCGAAGAGGAGGAACAGCAGGAAAATAGCGCTTTAGAAGATAAAGCTTAA	MELYYSFSALIVLASIFAYLNYRFLKLPSTIGIMVIAIVVSIFLVMFGETVLPRTFGHLHKLMNGIDFTEVLMGAMLNFLLFAGGIHININDLKEQFRPVLIFSTVGVVISTFVVGFGMFYLLPYVGIKLPFIFCLVFGALISPTDPVAVLSVLKQAKVSKSLETKVAGESLFNDGMAVVVFTVVLQLAIGKEVDLGIENIGLLLLREAGGGILLGGLLGWVTSRLMREVDDYIISVLVTLSVVMGGYLIARQMHISGPLTMVAAGLFMGNFNVRFKMKSITQDYLIKFWELIDEILNAVLFLFIGFELLMIKDLKHFMIPGLLAILVVLFARFISIWGPSKFTSLRKSFSPQTVKVLVWGGIRGGVSIALAMSIPKSEYSEIILSITYCVVVFSIIVQGLTIAKVANPKQIAEEEEQQENSALEDKA	PGPT0013930_665	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
BMS003_02720	717			hypothetical protein	ATGAGTATTGTTAAAGAGATACAGGAAGCACTGGCTGTTCTGTCCATTCCTGAGAAAGCCGAATTTTTCCCAAGATTTTTCAAGACAGGAAAAGGAGAATATGGTGAAGGAGATTTGTTTCTGGGAGTAAAAGTTCCGGATCAGCGCTCTGTTGCCAAAGAATATTATTCGAAGATAAGCCTGGATGACCTCAGCGTACTACTTTCCTCAAAATATCATGAGCACAGGCTGACAGCCCTTTTTATATTGGTTTCAAAGTTTGAAAAAACAAAAGATAAAGCTGTAAAAGAAGAAGTGATTGCTTTTTACCTGAACCATCTTCCTTATGTCAACAATTGGGATCTGGTAGACTCATCCTGTTATAAGATTTTGGGGCGGTATGCTTTTGAAAATCAGAGAGAAAACCTTCTCAGAGAGCTTTCTGAATCTGAAAAAATGTGGCATAAGAGAATAGCTGTTGTTGGAACCATGTATTATATAAAAAAAGGCTCATTTGATCTTACGAAAGAGTTTGTTACCAGAAACCTGAAGCATTCCCATGATCTCATGCACAAAGCCAATGGATGGCTGTTAAGGGAAATGGGAAATAAAAATGAAGGGGAGCTGATCCTCTATCTGAATCAGTATTATAAAGAAATGCCGAGAACCTGCCTGCGCTATGCTATAGAAAAGCTGGATGAAGATCTTCGTCAGGATTATCTGAAAGGTCGCATTTAA	MSIVKEIQEALAVLSIPEKAEFFPRFFKTGKGEYGEGDLFLGVKVPDQRSVAKEYYSKISLDDLSVLLSSKYHEHRLTALFILVSKFEKTKDKAVKEEVIAFYLNHLPYVNNWDLVDSSCYKILGRYAFENQRENLLRELSESEKMWHKRIAVVGTMYYIKKGSFDLTKEFVTRNLKHSHDLMHKANGWLLREMGNKNEGELILYLNQYYKEMPRTCLRYAIEKLDEDLRQDYLKGRI				NA	NA	NA	NA	NA
BMS003_02721	669			hypothetical protein	ATGAAAAATTTTCTCAAATTATTTCTTCTCTGTACTCCCTTGTTATTTCTGACAAGCTGTTTCGATATCCTTGATAAAGTGAATGTAAAAGCTGACGGGACGGGAGAGTATACAATTATTCTTAATGCCAGCAAAAGCAAGACAAGACTGGCCTCCATCTCCAAAATGGAAACCATTAACGGGAAAAAAGTTCCGAAAAAGGCTGAAATTGAAAATAAAATCAATGAAGCGGCAAAAATTTTCAAAGGAACTCCCGGTATCAGCAATGTGAAAACATCTGTGGATTTTGATAATTATATCATCAGGCTGAGCTGTAACTTCAAAAAGATTGAAAATATCAATGCCGGTCTGGAAAAACTAAAAGCTCAGAATATATTGGGTAAAATGATTCCTACTCAGATTTACAGCCAGAATCTTGAAAAAAAGATCTTGACAAGGAATAAAGTCAATACTTTCAAAACAGATTATGATAAGATGAGCAAGGCAGATAAGGAAGTGTTTAATGATGCTAAATACACCTCAATCATGCAATTTGAAAGCTCTGTAAAATCTCAAACGAACAAAACCTATATGCTTTCTCCCAACAAAAAAGCACTCAAGCTGGAGGCTGATATTCTGGATCTGATCCTTCAGAAAAAACAAATACAAAATACAATCATTTTTCAATAA	MKNFLKLFLLCTPLLFLTSCFDILDKVNVKADGTGEYTIILNASKSKTRLASISKMETINGKKVPKKAEIENKINEAAKIFKGTPGISNVKTSVDFDNYIIRLSCNFKKIENINAGLEKLKAQNILGKMIPTQIYSQNLEKKILTRNKVNTFKTDYDKMSKADKEVFNDAKYTSIMQFESSVKSQTNKTYMLSPNKKALKLEADILDLILQKKQIQNTIIFQ				NA	NA	NA	NA	NA
BMS003_02722	2022			hypothetical protein	ATGAAATCCATTCTACTAAAAACACAAAAAATTATTTTTGTCCTCTTTGGCTTTACACTGGTTTTTGCCCAAAACAGTATGAAAATACCGTCAGATGCCGTATTTTATATGGAAGTGAACGGAAAACAGCTTAATAATAAAATCAACTGGAATAAACTGAATCCTTTACTGCATGAGCTCAGCAAGAAAAGCAAGGAAAATGCTACATGGTCAGATTATTCTAAAACAGGAATCAAATATGATGCTGTGCAGTATCATTATGCAGGTTTTAATGATTCTATCAAGACTTATAACACCCATTTTATCATTGATAATAAAGAGAAATTTCAGGAATTCATTAATTCTGTAAAGAAAAAAGGACAGGACGTTTCCAGCAGAAAGAACTATTCTTATGTAGATATCAATGATGATGTTTTTGTAGCGTGGAACGGTAGCCGTGCGGTGCTCAGCATGATCAGCTATACCAAACCCTATAAAGATCTTTGGACAACAGAAGCTGTTGCAGACAGTACCTCAGTAGATATAGATAGTGTTGCAATAGATGCCGGCGACAGTACTTACACGGATGAGCCGGAAAAACCTTTTGATTATAAAGAAGAAATCGAAATCCTTCAGGATGATATTAAGTATCTGAAAGAGAATATTAAAGAGAATAATCTGGAGATAGCAAGAATTCAGAAAGATATCAAATATCTGCAGAAACATCATCAGTATCCTGAAGAGAAGGAAAGTGCTGAGAATTCTGAATATGGGGAAGAGATGCCTAATGATGCTTATAACTATGATGAAGAGGAAGATATAGCTTACAAAAAAGAACAGGACTCTATTCGCAGAGAAAACTTTAAGATTGTTAAGAAGAATGCAGAAGACCGTTTTGATCAGTATTTCAGTTCAAATTTAGAAATTGAAGCTCCGAAAGAAATGCTGAAATTCAAAGATCCCGGCTCTGATGTTTTTGTATATACAGATTATGGCAGAATTGTAAATGAGGGCATCTATGGTAAAATCACGAAGCTCTATAGCTATGGACAGTTTTTCAAAAATGTATATAATTCCAACTATTCATACAACCTGTATTTCGATAAAGATAAAGTAAGGCTGGTAAATAATTATCAGCATAAAAATCCTGATATCCAAAAAAATATTTCTGCTGTTTACAAAGGGAAGAAGAACAGAAAACTGCTGGAACTCATTAATGAGAAAAGTGTAGGTTATTACGCTCTGAACGTGAATGGAGCAAAATGCTTTGATATGATGTACAGCCTTCTTGAGAATTCAGGAGAAAATGAGTACAGAAAAGAAATGGAACTGGTGATGGAAACCATGAAGATTGTTCTGGATGAAGAAGCCATTACCAAAATTGCACCCGGAAACGGAATCTTTGTTTTGAATGAGCTGAAATCCAAAACAGTAGAATACACCGACTACGAATACGATGCGGATTTCAATGAAAAAGAAGTAAAAAAGTCCAAAGAAATTGCTGTTCCCAACTTCACTTTTGCCTTTGCAACAGAAAATGAAGGATACTGGAACCGTATTTTTGATTTGCTTGCAACCAATAAAATGACGTCTAAGAGGTTCTCTAGAAAAGGAAATTTTTACACTTTCAAAGAAGAGAAAAACGGAGGGTATATTGATCAGCTTTTCTTTACAGTAAAAGACGGGATCGTATATCTGATGAGTTCTGCCGACAATATATTACCGGTGAACCAGTCTGATATTTCCAGAAAATGGGCTAAAGATTCAGCGAAATACCCATTGTCAGGAAGACTGGATATCAGGAAGTTGTTAACAGGTCTGGATAAAGAATTCAAAAGTCCTAAAGAGAGAAGAACACTGGATGCCATCAGAAAAAATGTAGGCGAAATGTATTATAAAACAGAAGTAAAAGGAGAAAGTATCCAGACTGAAATGAATTATAATATTAAAGACTCTTCGGAAAACAGCTTAATGTATTTCTTTGATGTATTCGATCAGGTTTTTAAAACAAAAGAAAAAGAAGAGAAATCACAAATTTTATAG	MKSILLKTQKIIFVLFGFTLVFAQNSMKIPSDAVFYMEVNGKQLNNKINWNKLNPLLHELSKKSKENATWSDYSKTGIKYDAVQYHYAGFNDSIKTYNTHFIIDNKEKFQEFINSVKKKGQDVSSRKNYSYVDINDDVFVAWNGSRAVLSMISYTKPYKDLWTTEAVADSTSVDIDSVAIDAGDSTYTDEPEKPFDYKEEIEILQDDIKYLKENIKENNLEIARIQKDIKYLQKHHQYPEEKESAENSEYGEEMPNDAYNYDEEEDIAYKKEQDSIRRENFKIVKKNAEDRFDQYFSSNLEIEAPKEMLKFKDPGSDVFVYTDYGRIVNEGIYGKITKLYSYGQFFKNVYNSNYSYNLYFDKDKVRLVNNYQHKNPDIQKNISAVYKGKKNRKLLELINEKSVGYYALNVNGAKCFDMMYSLLENSGENEYRKEMELVMETMKIVLDEEAITKIAPGNGIFVLNELKSKTVEYTDYEYDADFNEKEVKKSKEIAVPNFTFAFATENEGYWNRIFDLLATNKMTSKRFSRKGNFYTFKEEKNGGYIDQLFFTVKDGIVYLMSSADNILPVNQSDISRKWAKDSAKYPLSGRLDIRKLLTGLDKEFKSPKERRTLDAIRKNVGEMYYKTEVKGESIQTEMNYNIKDSSENSLMYFFDVFDQVFKTKEKEEKSQIL				NA	NA	NA	NA	NA
BMS003_02723	1239			hypothetical protein	ATGAACAAAAAGAAGATTATTGTCCCGTTACTTTTACTGTTGGCCGTAGCAGTTTATTTCGTGGTTTTTTATAAGGACAAAAACCTCAGATATATTCCTGAAAATGCAGATGCAGTAGTTTTAATGGATGTAAAGAAACTAACGGGACAATACCTCTTCAGCCTGGCGGCGCACCCTTCACATTGGTTTGGAGCTAAATCAAAAGGTAAAGGTTCAGACTCTTTCAAAGATTCAGGGATCAGTATTCCGGACTTTCTGCAGATCTTTCACCTTAAAAATACTAAGTTCTCCGAATGGTATACCGTTTTGGAACTGAAAGATTCGAAAAAACTAATCTCTTTTTTAAAGAAACAAAACTTTGCTGATAAAGGAAATGACCGTTTTCAGAAGGGTCAGATTTTTGTCATAGTCCACGGGAGTCACTGTATAGCAGGAACTTCAGATGCGGCCTTTGAAATGATTCAGAAACAAATTCTTAAGGCTTCTTCCGGTTCTGTTTGGAATGCAGATCAGTTTATAGATCATTCGGTAGGAAGCATTTCCTTTATTTCCGGGAAAAAAATTCAGAACTTTTCTATTCATTTAAATGATGATGATATTGAAATCAAAAACACATCAGACATTGAATTTTCTAATTCTATAGCTTCTCAACTTGAAAAAGAAAATCATTTTCTGGATGTGGAATTAGACAGAGAGAATATCAGAAACCTCAGTCGGTTTTTTCATAAGAATATTGCAGACTCCTTACAGATTTCCGGTATTAAAGCAACCGCAGATCTTGAGCAGGTGAATGACACCATTATCAGCTATGAATACGATGATAATTTCAACGAAATTGAAAAAAAGACCTTCCAAAAAATTACCCAGCCGGATTACACTATTGCCATTGAAAATGATAATATCAATATAACATGGGAATATTTCCAGTCTAAAAAATGGATCAACAGTGAAAATCAGTTCACTGTCATCCCTTTTCAGCCGAATCAGGTCATCAGAAATAATCGGGGAATTGTCATAAAATCAACCCGGAAACCAATTTCATTGTCTCCTGAGCTAAAAGAAAATTATATTTTCGTCAGAAACAGCGCTTTGCTGTATTCTTCTTTAAAAATGCTGAGTACCAATGAGAAAAGAATCATTTCTGATATAGAATTTGTCCTTTATGGGAATAGAGCAAAAAATTATTGGGTGAAAATAAAAGCAAAAAACGGAGAATTACCCTTAATTTTACGGTGGTAA	MNKKKIIVPLLLLLAVAVYFVVFYKDKNLRYIPENADAVVLMDVKKLTGQYLFSLAAHPSHWFGAKSKGKGSDSFKDSGISIPDFLQIFHLKNTKFSEWYTVLELKDSKKLISFLKKQNFADKGNDRFQKGQIFVIVHGSHCIAGTSDAAFEMIQKQILKASSGSVWNADQFIDHSVGSISFISGKKIQNFSIHLNDDDIEIKNTSDIEFSNSIASQLEKENHFLDVELDRENIRNLSRFFHKNIADSLQISGIKATADLEQVNDTIISYEYDDNFNEIEKKTFQKITQPDYTIAIENDNINITWEYFQSKKWINSENQFTVIPFQPNQVIRNNRGIVIKSTRKPISLSPELKENYIFVRNSALLYSSLKMLSTNEKRIISDIEFVLYGNRAKNYWVKIKAKNGELPLILRW				NA	NA	NA	NA	NA
BMS003_02724	339			hypothetical protein	ATGGCTCCATCAGATATTGCATTGCTCAAGACCTTTACGCATTATTTTTTACATTTCGTTTTTCCTGCCTTTATTGCATTGGTTTTTTACCGTAAAAACTGGAAAAAAGCATATTTCATTCTTCTGGCTACCATGTTGGTAGATCTGGACCACCTTTTTGCTAATCCTGTTTTTGATCCGTCAAGAGAAAGCATTGGTTTTCATTTTTTACATTCCTATTATGCCATTGCGGTGTATTTTTTGCTGCTGTTCTTCAAAGGAAATATCAGGATTATAGGAATTGGGCTTTTGTTTCATATGTTTACGGATTATCAGGACTTTAACTTCTGGCCTCATTAA	MAPSDIALLKTFTHYFLHFVFPAFIALVFYRKNWKKAYFILLATMLVDLDHLFANPVFDPSRESIGFHFLHSYYAIAVYFLLLFFKGNIRIIGIGLLFHMFTDYQDFNFWPH				NA	NA	NA	NA	NA
BMS003_02725	1071	chaA_2	COG0387	Sodium-potassium/proton antiporter ChaA	ATGAGACTAAAAGAACTTTTACATTATACCTATATTTTTCCTATTCTGACAGTAGGATACTACTTTTCCGGTTTGATGGGGACTGGTGTTATTTATGATGTCCTGGCAGGGATTTTATTAATTGCGAGTGTTTTATCGGCAGTACATCACGCAGAAGTAGTGGCTCATAAAGTAGGAGAACCTTTCGGAACTATTATTCTGGCACTTTGTATCACCATTATTGAAGTGGCATTGATCATCTCGCTGATGGTTGCCGGCGGAGATCAGGCGATCACGCTGGCCAGAGATACCGTTTTTGCCGCTGTAATGCTTATTCTTAACGGAATTCTGGGAATATGTATTCTTGTAGGTGGAGTTAAATATCATGAACAGTTCTTTGCCAGAACTTCAGCAACTACCTATCTGGTGAGTATTGTTTCCATTCTGATCCTTACCCTTGTTCTTCCCAATTTTACATCAAGTGTCAACGGGCCCTTTTATAATGAAGCTCAGCTTATTTTTATATCTATAGCATGTCTTGTCATTTACGGAGTTTTCCTGATGGTACAGACAGTTCGTCACAGAAGCTATTTTATTGTTCCGGAAGAGCATCCGGAAGAACATTACATTCCATCCTTACCCAAAACTCTTATCAGCTTTGTTTTTCTGGTGATTTGCCTTGTTATTGTGGTGCTGATGGCTAAGGGGCTTTCTAATACAATAGAAGGGATGGTTCAAAGCTTAGGAGCTCCGAAATCCCTGGTTGGAGTAATTATTGCCGCCGTAGTATTACTTCCCGAAGGAGTGGCGGCTATCCGTGCAGCAAGAGCTAATCAGATACAGTCCAGTCTTAATCTGGCATTAGGTTCTGCCCTGGCAAGTATCGGGCTTACTATTCCTGCTGTTTCAGTGGTATGTATCATGTATGACATCCCATTTGTACTGGGTCTGGACAAAAAAGACATTATTCTGCTTTCTTTATCCGTCTTTATCGTAATGCTTTCTCTGAGCCGTGGGAAAACCAATATCCTGTACGGAACTGTTCTGCTGGTGAATCTGGCAGCATATATCTTTACGGTAATTGTTCCTTAA	MRLKELLHYTYIFPILTVGYYFSGLMGTGVIYDVLAGILLIASVLSAVHHAEVVAHKVGEPFGTIILALCITIIEVALIISLMVAGGDQAITLARDTVFAAVMLILNGILGICILVGGVKYHEQFFARTSATTYLVSIVSILILTLVLPNFTSSVNGPFYNEAQLIFISIACLVIYGVFLMVQTVRHRSYFIVPEEHPEEHYIPSLPKTLISFVFLVICLVIVVLMAKGLSNTIEGMVQSLGAPKSLVGVIIAAVVLLPEGVAAIRAARANQIQSSLNLALGSALASIGLTIPAVSVVCIMYDIPFVLGLDKKDIILLSLSVFIVMLSLSRGKTNILYGTVLLVNLAAYIFTVIVP	PGPT0013985_2455	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
BMS003_02726	381			hypothetical protein	ATGAAAAAATTGGAATCAAGAGAAGACATTGAACACCTTGTCAATTCATTTTACGGCAAAGTCGTTCAAGATGAAACCATAGGGTTTTTCTTTAATGATATTGCAAAAGTAGACTGGGATAAGCATCTTCCCAAGATGTATTCTTTTTGGGAATCAATCCTTTTCGGGCAGATGACATACAAAGGAAATCCGATGGGTGTACATTTCCCGATTAATGAAATACAGGCCATGGAGCAGAAGCATTTTGACAGATGGCTGCTTATTTGGCGTACTACTATTGAAGAAAATTTTGTAGGAGAAAATGCAGATATGGCGATCTATAAGTCTGAAAACATAGCAAAGTTAATGGCATTTAAGATGGATTTGGCGAGGAGGTTGTGA	MKKLESREDIEHLVNSFYGKVVQDETIGFFFNDIAKVDWDKHLPKMYSFWESILFGQMTYKGNPMGVHFPINEIQAMEQKHFDRWLLIWRTTIEENFVGENADMAIYKSENIAKLMAFKMDLARRL				NA	NA	NA	NA	NA
BMS003_02727	1380			hypothetical protein	ATGTCAAAATTTCTGTGCCATAAAACGGTCACTCTACTGGTATTGCTATATTCAGCCAGTGCTTACTCTCAATTGGTTGGATCTGATGTCCAGATATGGGAAAAGTCAAGACCGAACCTTCGTGAAGTCTCCAATGTAAAAGATGAGAACCTGCTCAACTTCCATTATGGAATTAAGGATAAGATCCTTAAAAAATATATTAAATACAGTAAAAATAAGAGTCATACCCTGAGTCTTGTCCATACTTCAAGGGTGAATGAAAAAATATGGGAAAATGAGGAACGGAATATCTCTTTGAGTAACAATATTTATGAAAAGAAAAAGGCGGATAAAAATATCAAAATCCGTAAAAGGCCAAGTATTTTTACTTTTACAGATAATGCCGTAAAGCTAGACGTAAAACCGGACAGTATTAAAATAAAGCTGGAAGACCGCAATCTCTATGAAATGATTTTCATCCCAAGAAGAGTAAAAAGAATGGATATTAATAAAATTCATTCTTACCTCTCAATCAAGTACGGAATTTCTTTGGAAAAAGGAAAGTATTACAGCAGTGATGAAAAAGTGATCTGGGATCCTGAAAAACATAAAGAGTTCAGATACAGACCTACCGGATTGGGAAGAGATGATGGAAATGAGCTGTACCAAAAACAATCTTCCAATCAGGAAGATCAGTTCCTAACGATCGGAAAAACAGATATAAAAAAGACCAATGTAGAAAACCCGAGCCTTTTTGATCACAATAATTTTGTCATGTGGTCGGATGATAATAAAGGAATGGCGATGAAGGTGGAGGGCAATTTTAAAGTCCTTGAAAGAAGCTGGGAAATTAATTTTATAGGACCTACCATTCCAAAAACAGATTATAAAGTCAGGGTGAATAAAAAGATTATTAATCCCGATTCGCTCCCCCTTGTTTATTGGATGTTTCTGAAAAATCCGGCAGGCGAATTAACGAAGGTGCAAGGCATTGAAAACGAAAATTATATAGATTTCTATAAAGTAGATTTCTATAAAGAGAAAGGAGAAATTTTTAATCAATTTACATTTGCAGTTAGTCCTTTAAGGGATGCAGGTAAAGATAGCGAGCCCAATTCCGGCTCATCATCAATTAATGAAAATCAGCTTGCTTTAGATATTGATAAAATTGTTCTGTATCCAAACCCTGTTAAAAAAGGACAAAGCTTTATGATAAAGTTTCCTGAGATGGAAAACTTATCTATCGCAATTTACGATGGTGGAGGGCGACTGGTTAAATTAGAGAAAATAGACCATCATGCAAGATCTTACAGCAGTTCGCTTGATATTCAAAGTTCGTATCTGGTCAGCCTTACCCAGAACGGGAAAATAATCAAAACATTCAAATTAATCGTCGACTAA	MSKFLCHKTVTLLVLLYSASAYSQLVGSDVQIWEKSRPNLREVSNVKDENLLNFHYGIKDKILKKYIKYSKNKSHTLSLVHTSRVNEKIWENEERNISLSNNIYEKKKADKNIKIRKRPSIFTFTDNAVKLDVKPDSIKIKLEDRNLYEMIFIPRRVKRMDINKIHSYLSIKYGISLEKGKYYSSDEKVIWDPEKHKEFRYRPTGLGRDDGNELYQKQSSNQEDQFLTIGKTDIKKTNVENPSLFDHNNFVMWSDDNKGMAMKVEGNFKVLERSWEINFIGPTIPKTDYKVRVNKKIINPDSLPLVYWMFLKNPAGELTKVQGIENENYIDFYKVDFYKEKGEIFNQFTFAVSPLRDAGKDSEPNSGSSSINENQLALDIDKIVLYPNPVKKGQSFMIKFPEMENLSIAIYDGGGRLVKLEKIDHHARSYSSSLDIQSSYLVSLTQNGKIIKTFKLIVD				NA	NA	NA	NA	NA
BMS003_02728	10380			hypothetical protein	ATGAAAATAAGATCCTTACAACTTCCTTTTACAAAGAAGTCAGTTCTGCTGGTGTGTTTTTTTGCCACTATGTTTGTTTTTGCAAGTTTTACGAAAGAAGAAAGATATAAAGTACGTGAATGGAGAAAACACCTGATAAGCAGACTTATAGATAAAAAAGATAAAGATCAGCCAGTAGCTGTTTCAGATAAAATTTCATCTGAACATGAATCTACTATAAAAAAAACAGACCAGTATCCATCTGATTCTTATAAAAATTCAGAAGATTTAAACATAGATCCTGTATCTGGTACAGTAGCCGGTTCTGAAGAAAAGACTCCGGATATCATGAACGTTTACTCTGCTAAAGAAAAAGAAGGAACGGTTGGAGTATTTTCAGATCAGGAAGAAGACCGGATTTCGGATAACTTTTTTACCATTGATATTCCTGCATTAAATAAAGAAAATACCATTGCTTATTTAGAGTATGATCTTTTTGGTCTGGCATCACATCAGTCGGTACCGAGATCCCTGAATCATAACCTGGCGATTGGAGGTGAGATTATTGTACCTCAGGCAGCCTGGAGCCACCAGAAAGAAGAATTAAGTTCAGAACTTATTAAGCAAGGGATAAATACCGTTCTGTTTACTTCGCCCTCCGCAGGAGTAAAGTACAAAATCAAAAATCTGAAAGTCGTTTTTGAAAAAAACAGAAGTATATCCAAAGATGTAATTGTTAATGCTGTTCTTTCAGGTGATGAATTATATGTAAAAGGAATGAACAGACGGGGCCAGGATCTGAATATAAATAGTAATTACGTTACCACGGCAAAAGGTGAGTTCGAGAAAATCATCCGTTTATCAGAAAAAGATAAGCTGGCCGGGAATTTTTCAGTAACAGCTAATGGAATTACTCAATCCTATAAAATTCCTGCAGATGTAAAATCATTTAAAACTTTAAATAATAACTATTTTAATTCCAAAAGGATCGCTGTTTCCAATGATAAGGAGTTTGATATTCAATATGAAGATTTAAATTTAAAAATAGAAAAAGAAACCTCTGAATCAGCGAATATTGAAATCTTAAAACTAAGAGGGAAAGATATTCCTTCCACTCCAAGCGGTCTTAAAAATATCACTCCAAACAATTCAGCATATCGTTTTTCAATAATTTCAGGAAAACTGAATAAAAAAGTTAAGATTACAATTCCTTATGACGAAAAAAGAATAGGTCTTTTTTCCCCGAAAGAGATCAAGGTTTTTTCATTTGATTATAATAGAAGACAATGGAAAGCTGTAGAAACAGCAAATGTAGACCAGAAGAATAAGACGGTGACATTTGAGGGTAACGGAGACGGTGATTATATCAACGGTATTATTTCAGCTCCGGAATCACCACAGTTGAATTCTTTTACACCAACCACGATCAGCGGTCTGAAAGCTGCAAATCCGGTAAGTGCTCCATTAATGGAAGCTCCCGTAGCAAGTCAGACAGGAGATGCCAACATCAATTATCCGTTAATGTTGCCGGCGGGAGTCTCAGGAATGCAGCCCTCATTATCTGTGACCTACAGCAGTGGAAGCGGGAACGGCTGGATGGGAGAAGGCTGGAATATCGGAGGTTTATCATCAATATCAGTAGATACAAGATGGGGAACCCCAGCCTTTACAGCTGGCCAGGAAACCGAATTATACTCATTGGATGGAGAAATGTTGGTATATCCCGAGGGCTATCTTCCTCACAGGCATAATAAAGTAAATCCAAACGGCACATTTGATACTTCCCGGCAGACAAGAAACGGATCCGGGTCGAAAACATTCTATTTAAGAAAGAACCATGATTTTACCAAAATCGAAAGGTTTGGAACAGGTACTACAGACTACCGCTGGATTATTACTTCTACAAATGGGACAAAAACCTATTATGGCGGAGATCAATCGACACTTGTTGACAATACCGTGCTGAAAAATGCAAACGGAAACATTATTCAATGGGGAGTCTGGAAAGTAGAGGATGTTCACGGGAATAACATGATTTATGAATATAAAAACCAGTCTATCAACAACTTTACAGGAGATGATCAGAACCTTAATGCAGGATGGGTATTCCATATTGATAAAATTTTCTATTCGGGAAGAAATGGCCAGAAAGGACCTTATATTATAACATTTTTTAATGATACTCCAAGGCCGGATAAACAAATCAATGCGAAGGGCGTGCTTAAAAGAATTGAACCTTACTTGCTTACAAAAATAGATGTTGATTTTAAGAATGCAAGCAACCAGCAGCAAAATATACGGTCTTATATCTTTACCTATAATACCGGGATATTTCAGAAAAGCCTTCTGAGCAAAATGAAAATGAAGGTAGTCAATGTGCGCACGGACGGCGCAGCATTTGACTATAATTTTGAATACTACGACAACGGGACCGTTTTCGGGTCTCCTACCAATATAGCAACTCCGGGCACCGATGCATTCTCGGATGTGGTAAGTTCCATCACGACTCCTTCCAAAATAAGTGCTGACAATAATTTTGAATGGGGATGGTCCCTGAGAACCGGAGGTGGTTTGGCATTATTCAGACCACAATTAGGAGGGGTAAAAAACTTTATGCTCTCTCTGTTCGGAGGTGCTTCATATCCCCGAATGAAAAGAGGGCAGGAGCTGATAGATTTCAATGGAGATGGAATCGCAGATATCCTGTACCGAAAAAGAAATGGCGATAACGGGATTAAATTGATTCCCGGAAGCATTGACAGCAATGGTCAGCTGGTATTCAACAGCCAGCAGCAATCTGTAGGAAACCTGAACAGTAATTTTTCACATTCCACAGGAACAACATGGAATCTGGGAGGAAGTGTTGTATTTAACTGGTTTAAAATAGGATTCGACTTTTCATATATTAATTCTGAAAGCGAGAATGAAACTCCTATTTATATGATGGATGCCAATTCTGACGGACTGCCGGATGTTATTAAAGATGATAAGGTATGGTTTAACCGAAGAAATGGAAATGCTCAGGAGATGGTGATTACCAGTGATTTAACTGAAAATATGATCATCACCGATAACGACCCCCAACCTTATACAGAGCCTGAAGATCCCGATGATATTGATCCTGTAAAACCAAAGAATGATGTGGTCAAAGTCTGGATTGCTCCCAAAAACGGATTTATAGAAATTTCGGATGAAATAGGTATTGATCTTGGTCAGGACCCTTCTGCAAGAGCAGTCTATTCCATAGAGATTAAAAATCCGAATGCTGTATCTAAAAACTGCAGGTTGTATTTAAAAGAACTCAATAACACATCCAGTCAAAGTATTACAATACGCCAATATGACAGCTATCCGGGAACTCCGCTGGGAGTAAGCAATTCTTCCAGGATCTATGTAAAGTCTGGTGAAAAAGTGTATTTCAGGCTGCACAAAAGGTTGGGGACAAATTATATTGTCAATACCAACCCTATAGTTACTTATACTGATAATGCTGGAAACCAACTACATGATGAGTTTGTTGAGGAACAAGATGGCTATATGCCAAACCAAACCAATTATAATGATAAGTTCTTTTTGAACAACCTGACGAAATCACTTAAATTTACGGAACAGGCTGATATTCATATCACTATTCCGGAGTTTACCATATCTGCACTATCCGACAGGGTAAAATATTCCATCGTTCTCATTAAGGAAGATACCAGTGTGGCACAGAATCAGCAGACAGCCATTAATGTCATTTATGAAGAAACCATTGATCCTTCACCGGGACAGCCTGTAACGGTTTCACCAGTGGATCTTAATTATTCCGTTCCTGCTCTTAGTGCACCAGGTGAAGCATGGCACCTGAAATTTTTAGTGGAAACCGATTCCCATATCAACAAAGAAACTGAGTGGAATGATATTTTGGTTGTAGGATATCCTAATGCATCTCACAGGCACTATGCTGTGGCTCAATATCCATCTTATCATATCAGAAATCTGAAAAATAAATTTGATCTTTCCACTCTGAACAATATACCGAGCGGTAATGATGATTATTCAATATCTATCAATAAGAATCTTAGTTTAAATGCTTCTGTGCCAGGTAGATTTATGTACGTGATCAAGCAAAAAGGACTTGTCCTTGATAAAAGAATTGTAGAAATATCCAATGGTAGCTTAAAAGAATATACCATAAATTATAATCTTATTAATGGTGATGATCCGATACCTTTTTATCACGGAGATCCTTCATACGGGGTTGATGACCATGAAAAGCTGAATATCCTGATTTTCTGTGATACGAATAAAGACAGGCTTGCGTATGAAGCTCTTAAGCTACAGCTGAATGATAATATCTTCAATATTTACAACCAGTCAGGAAGTTCTCTTTTAAATCATACCACCGAGACCTCAATCAACACAGGGGAGTATAACGGAGTAAGTGCTGTTTATCATAACTGGGGGCAATTCCTCTATAATGAAGCTAAAGATATTATTCCCGCTCCGGGCAGCACCAATCAGCAGCCTCCTTTAACTCCTGGTTGTGAGCCCCGTAAGGAAAACGACTGTATTATTATCCCAACAGGACCTAGCGGAAGTACTGCTCCGGCCTATACTACCAATCCAAATACACCAAAAGATCAGTATGGTGCATTAATTAATGATGCAACGCTTGAAAACCCTTTCCAGTTTAATTTAAACTTTCCTTCCTGTGCCGGGATTACCAACTCTCAGCAATATGGAGAGTGCGTGGGTGATCAGCTTGCCAATGAGTTTCAGAATAATTATGCCAATAACCAGGTATTTGGAGCAGCGTCTCCTTTTACGCCGCTAAATCCGCTTAAAACTGAAAAAGTAAAGGAGCATAAATGGATTAACCAGATGTTTCATGAGCAATATTCAAAAATTGGCAGCTTTAGAGATGATGAAACGCCAACTTCACCATTTTTAGACAGTGATACTGATGAAGATGATATTGAAGTAGCCAATAACCCTAATACAAGAATGTTTGCTATTTCTAAAAAACAGAAAAGCAAATCAAAAACAAAAAATGCAGGAATAGGTATCGGTCTTAGCTTTACAAACTCAACTTCAGAGCTGAGAAATATCGGTAATATTCAGACTCAGGACTTCTTTGATGTGAATGGTGATAACTATCCTGATATGCTGTACAGAACCCAATCCCAGCAAACCAACATTCTGGGTGGTTTGAAAGGGGCTCAGCCCGGTATAGAGGGCTCAGATAAAGTGATCACTAGAACGGAAGACTTTATGAATACCAAATCTGTAGCATTTGGCCCTTCAGGAAGTAAATCGGTAGGAAGGAAGACTAATAATAATGATAGTAATGCCACCGGAGATACATCAGTTTCATGGTCTATGAGTGTGGGAACATCCAATTATCCGAATTCCTACAATAAAACTTCAGAATATTGGATGGATATTAACGGAGACGGGCTGCCTGATAAGATCGAAGGAAATAATTACAAACTGAACTTCGGAACCGGATTGGTGAATGGAAGCATTCCTGGATCAACAGGAGCTTTTGCAGGATTTGAAGAGCCGATATCCAAACCTGTATATTCTTCATCTTTTGGAATCGGGGGAGGTATAAACTCTGTCATTGATGCCGTTCAGGGTGTTGAACTGGGAATAGCAATTTCCGGAGGAGTGGGAGGAGGATCTTCTACTGCTACTTCAAAAAGATCTTTCCTGGATGTAAATGGTGACGGACTGATAGATATCGTTCAGGTAGATGAAAATACCGGACAAACCAGTGTAAAATATAACTTAGGCAACCGCTTTGCCAGCTCTGTAAGTTTAAATGCCAGTCTTGCGGAAGAAACAAAAACACACAGCGGATATGCAAACTTAAATGGAGGATATTATATCAATATACCTTGTATTTTCATCTTTGGTATTCCTATTTTATACGCAAAACCTTTCGGGGCAGATCTTTCTGCAAATGTAGGATTATCCGTATCAGAAATCAATAAGGGACTGAGAGATGTGAATGGTGATGGTCTTCCAGACCTTGTGGTTAACACCAATGGCGGGTTAAAAATATATTACTCCCAGATTGGTAAAACCAATAAGCTTAAAAAAGTTTCTTATGCCGAATCCTATGGTGGTGACGCTCCATCAAACCTGGGCAGTGCTTTTACCATTGACTATAAATATTCTACACCATCCTATAACGACCCGCAGGCAAAACTGGTGATGTCTGAAGTGACCATACCGAATCCTGACGCCTTCTCCGGTAATTATACACAGAGTACAAGTGGTAAAGATATGATTAGCAGGTTTGATTATGAAAACTCCAGGTATGACAGAAGGGAACGCGAAAAATATGGATTTGGAACAGTTAAGACCTACGAAATGTCAGATAATTCAACGATCTATCGGACAACTGTTCAAAACTTTTATAACCAGAATTATTTCATCCATGGGTTATTAAAATCGGTAGAAACTTATGGAGGAACCGGGACATCAAATCTCTTGTCAACTTCCGTAAACAGTTATAAACTTTATCAGTTTAATCCGTCTATGAGCGACTTGGTAGAATTATCTTCAGCTCAGTTTGAAACTTATGATGTAGGAGGTACAGAAGGTAAAAAAATGGGACGTATATTATTATCCGGCACTACAAAAACCACTTATGAAAGTGGCAACTCGATTTCTACACAAAGCCAGTTATTTTATAATAGCAAGGGACAGCTTACCAAATATCAATACACAAGCCCGTCTGCGAGTTATAACAGTGTGATATCTTATCACACCAATCTCAATAATAATATCCTGAATGCACCGAGCAACATCACGGTTTATCCGGGAACAGGTTCTGTGAATCCTCTGCGTAAACGTTCAACAGAGATTACCAATGTAAACACCGGAGATATTTCTAAATTTAAAGTTTGGCTTAATTCAGGAGAGATTGCTGAGACAGATCTGACGTATGATATTTTTGGAAATATTAAAACGGTTAAGTATCCGCCTAATGAATTTAATGAAAGATCTGAACTGGAATATTTTTATGACCCAATGGGTAAATATGTAATCCAGGTGAAAGATCCTATTTTTAACCTGTCTTCCTATGCCGCCTATGACCCTTCAATGGATACTGTTTTGGAATCTACTGATGTTACAGGCAATAAGATGACTTATGAGCATGACGGATACGGGAGACCACTTAGAATAGTCAGCCCAAATGACTGGCAGTCACAGGCTAATACCATTATGTATCATTATTTTGATACACCGGTAACTCTAAGTAATGGTAACAAAATATATCTTTTCACAGCCCAAACATCACATCTTGATCCGTATCATCCTGGTAATGATATTGAAACCATTTCCTTCGCCGACATTACAGGTAAAGTAATCCAGGTGAAAAAAGATATTGAGATCGATGACGAAGAAAAAATGTCGGTTTCAGGAAGGGTAATCAATGATAATCTGGGAAGAACGGTTCTGCAATATCATCCGTTATTCGAAAATAAAGATGCGGTACTCAATAATAAGCTCAGCTTTACTGTTGCTCCATATCATACTTCTGCAAGTTATGATTATAAAGACAGGAATGTTTCTTCTACTGATGAAGCGGGAAACTCTGTTGACAACAGATTTTTTATAGAAAGCGGAAGATTCAAAACCGAAACGACCCAAATGCAGGATGCGTCGAATCAGATCAAAACAGAAGTTTTTGCCAATGCAGAAGGGAAAACAGTAGAAACCAGAAACTATTTGCCGGGACAGGTGTTAAGTACATTTTTCTCATATAGTCAGATAGGAGAAATCTTGAATGTTACCGATCCTGAAGGTCTGGAGACCAGTTTCAGCTATGATATGGGCGGCAGGAGATTAACTCAGAACCATCCGGATCGTGGTGAAACTGCTTATAGCTACAGCAAGGCAGGGCAGCTTACCTACGTTTTGAACAACAACCTTAACAATAATGGAGGTGTTCCGGTTCATTATAGATATTATTACAACAGACTTACGAATATCGACCTACCGGATATACCATCAGGTACAAATCCGGCTAATGTATCTTATACTTATGGTACTTCAGGAAACAATGCCGGTAGAATTATAGAAAAACAGGACGGCACAGGGACAAGCCAGTACGAGTATGGCAAGATGGGAGAGTTGATTAATGAAATCCGCTATATCTATGGTTTTTATATGCCGAATTTGAAATTTGATACCTCTTACGACTATGATAACTGGAACAGAATCCGAACCATTAATTATCCTGATAATGAAAAAGTACAGTATGAATATGATTTAGGAGGAAATCTGAAAAAAATATCCAATGACGGAGGATACGAATATGTAAAGTCCATTAAATATGATCATTACGAGCAGCGTACCAATATTGTTTTCGGTAATGAAACATCTTCCACATTTACCTATGAACCTGCAATGAGAAGGCTGCAGAACCATGTTCTGCTTGATGCTAACAATAATATACTGTTGGATGGTGCTTACAGTTACGATTATGCAAGTAATATCACAGGAATCCAGAATACAAGCCAGACAACCAATAGTGGTTTTGGAGGTAATTATGGTCTTCGGTATAGATATGATACTCTTAACAGGCTTGTGAGCTCTTCGGGTAATGCTGAGCCGGGAAGAAAAGACGGTTTACCACCTACCCCGGTTGTGGGAAGTATAAATGCAATGTACGAAACTACCTTATCCTATAACATGAGCAGTGGGATAAATACAAAGGGGCAGCATCATGAACAGGACGGAATAATAAATACAAATAATACATATCAAAATAAGTATGAGTATGTTAAAGGAACCCACATGGTAGATAGGGTTACGGATATTTCTACTGGAAATCAAGAGTATTTTAAATACGATGGTAATGGAAATGTGATCAATCATATGACACTACAATCAGGTCCTACTGATTTTTACTGGGACGAACAGGACAGGTTGAGGGCTATTCATACACCGGAAGTAGGATCATTCCAATATTATGTTTACGATGACAAAGGCGAACGCACCATTAAAGCCAATTTGAAAAATGATGCAGAACTGTATCAGAATGGTGAAATGGTAGATAATGGGTTAGTGTTTGATAACTTTAAGGTCTATCCTAACCCTTATGCTGTATACACTTCAGATGGTATCCTTACCAAACATTATTTTGCAGGAGGCCAGCGCATAGCAAGCAATATGAAAGATGTAGGCGGTATGTTTAACAACAGACAGGCATCATCTGTAGGAAATAAAGACGTTTCTGATCCTAAAAGTCAAGAATCCGTTGCCGAAAATGACTTTAAAAACTACCTGTCAAAAGCAGGCTACGAAAAAGCAGAAATAGAGAAGGAATTTGCCAGAGCTCCGGCACCTGTGGGCGGTATTTATTATCTGCATGGTGATCATTTGGGAACCGCAACTTATGTTACCAATGAGTATGCAGAACCTACACAATTTTTCTTAAATTTACCATTCGGGGAGACCATGGCAGAGCAGCAGGAACCAACCGCCTATGTTAACCCCTACAAGTTTAATGCAAAAGAATTAGACAGCGAAACAGGTCTTTATTATTATGGGGCAAGGTATTACAATCCTAGATTGAGTATCTGGTATGGTGTGGATCCACTGGCAGAGAAGTATCCGAGTTGGAGTCCTTATGTGTATACATTTGAAAATCCTATAAATTTAATTGATCCGAATGGAATGGAACCGGTAGACCCGACAGATATTATAACTAAAGTAATAAATCAAACCACATCTAAGAGTAATGGTTATACATCATTTAATAGAGATCTATCAATAACATTAACAATGGCAGTTTATAATCCAGAAAATTTAGATTTAAGTCATACGGCATTTGCTGCTGGACAAGGAACTATCAACGTTGGCTCTTTCCGAGGTCCCGCTTCTGATTCTTATGGTAAATTTGTTCAAAATGATAATATTAAAAATCTTAATATTGTATATAAAGTAGTTACCGATTTAAAAGATATTCCTTCTCAAGCTCATGTTATGACAGTAACAAGTGGAGACATATTACCTAGTCCTGGAAGCAAGGTGAATCCTGTTGGTAAGGCAGAGAAAGGAGGCAGAGTTGGAGCCGTAGAGTATACAAAAAATGGATTTAATTCTTTAGTATTACACGAAATAGGACATTGGTTTGGTTTGGATGATGGTTATGATACTGGAGACAATCAATATCCAAATGAAAATACGAATACAGTAATGGATTGTCACGGATGTACAACAAGTAAGTGGAAGGTTACAACGAAACAAAGAGCTACCATTTCCTTAAGTTCAGATTTAGGAATTGGGCCAGCAACATCTAGTGGAAATGTATATAAGCAATCAAAATCAGGTAGATGGAATAAAACATCTATACAGAATCAAGTTATTAATTTTAATAGAAAAAATATAAAATGA	MKIRSLQLPFTKKSVLLVCFFATMFVFASFTKEERYKVREWRKHLISRLIDKKDKDQPVAVSDKISSEHESTIKKTDQYPSDSYKNSEDLNIDPVSGTVAGSEEKTPDIMNVYSAKEKEGTVGVFSDQEEDRISDNFFTIDIPALNKENTIAYLEYDLFGLASHQSVPRSLNHNLAIGGEIIVPQAAWSHQKEELSSELIKQGINTVLFTSPSAGVKYKIKNLKVVFEKNRSISKDVIVNAVLSGDELYVKGMNRRGQDLNINSNYVTTAKGEFEKIIRLSEKDKLAGNFSVTANGITQSYKIPADVKSFKTLNNNYFNSKRIAVSNDKEFDIQYEDLNLKIEKETSESANIEILKLRGKDIPSTPSGLKNITPNNSAYRFSIISGKLNKKVKITIPYDEKRIGLFSPKEIKVFSFDYNRRQWKAVETANVDQKNKTVTFEGNGDGDYINGIISAPESPQLNSFTPTTISGLKAANPVSAPLMEAPVASQTGDANINYPLMLPAGVSGMQPSLSVTYSSGSGNGWMGEGWNIGGLSSISVDTRWGTPAFTAGQETELYSLDGEMLVYPEGYLPHRHNKVNPNGTFDTSRQTRNGSGSKTFYLRKNHDFTKIERFGTGTTDYRWIITSTNGTKTYYGGDQSTLVDNTVLKNANGNIIQWGVWKVEDVHGNNMIYEYKNQSINNFTGDDQNLNAGWVFHIDKIFYSGRNGQKGPYIITFFNDTPRPDKQINAKGVLKRIEPYLLTKIDVDFKNASNQQQNIRSYIFTYNTGIFQKSLLSKMKMKVVNVRTDGAAFDYNFEYYDNGTVFGSPTNIATPGTDAFSDVVSSITTPSKISADNNFEWGWSLRTGGGLALFRPQLGGVKNFMLSLFGGASYPRMKRGQELIDFNGDGIADILYRKRNGDNGIKLIPGSIDSNGQLVFNSQQQSVGNLNSNFSHSTGTTWNLGGSVVFNWFKIGFDFSYINSESENETPIYMMDANSDGLPDVIKDDKVWFNRRNGNAQEMVITSDLTENMIITDNDPQPYTEPEDPDDIDPVKPKNDVVKVWIAPKNGFIEISDEIGIDLGQDPSARAVYSIEIKNPNAVSKNCRLYLKELNNTSSQSITIRQYDSYPGTPLGVSNSSRIYVKSGEKVYFRLHKRLGTNYIVNTNPIVTYTDNAGNQLHDEFVEEQDGYMPNQTNYNDKFFLNNLTKSLKFTEQADIHITIPEFTISALSDRVKYSIVLIKEDTSVAQNQQTAINVIYEETIDPSPGQPVTVSPVDLNYSVPALSAPGEAWHLKFLVETDSHINKETEWNDILVVGYPNASHRHYAVAQYPSYHIRNLKNKFDLSTLNNIPSGNDDYSISINKNLSLNASVPGRFMYVIKQKGLVLDKRIVEISNGSLKEYTINYNLINGDDPIPFYHGDPSYGVDDHEKLNILIFCDTNKDRLAYEALKLQLNDNIFNIYNQSGSSLLNHTTETSINTGEYNGVSAVYHNWGQFLYNEAKDIIPAPGSTNQQPPLTPGCEPRKENDCIIIPTGPSGSTAPAYTTNPNTPKDQYGALINDATLENPFQFNLNFPSCAGITNSQQYGECVGDQLANEFQNNYANNQVFGAASPFTPLNPLKTEKVKEHKWINQMFHEQYSKIGSFRDDETPTSPFLDSDTDEDDIEVANNPNTRMFAISKKQKSKSKTKNAGIGIGLSFTNSTSELRNIGNIQTQDFFDVNGDNYPDMLYRTQSQQTNILGGLKGAQPGIEGSDKVITRTEDFMNTKSVAFGPSGSKSVGRKTNNNDSNATGDTSVSWSMSVGTSNYPNSYNKTSEYWMDINGDGLPDKIEGNNYKLNFGTGLVNGSIPGSTGAFAGFEEPISKPVYSSSFGIGGGINSVIDAVQGVELGIAISGGVGGGSSTATSKRSFLDVNGDGLIDIVQVDENTGQTSVKYNLGNRFASSVSLNASLAEETKTHSGYANLNGGYYINIPCIFIFGIPILYAKPFGADLSANVGLSVSEINKGLRDVNGDGLPDLVVNTNGGLKIYYSQIGKTNKLKKVSYAESYGGDAPSNLGSAFTIDYKYSTPSYNDPQAKLVMSEVTIPNPDAFSGNYTQSTSGKDMISRFDYENSRYDRREREKYGFGTVKTYEMSDNSTIYRTTVQNFYNQNYFIHGLLKSVETYGGTGTSNLLSTSVNSYKLYQFNPSMSDLVELSSAQFETYDVGGTEGKKMGRILLSGTTKTTYESGNSISTQSQLFYNSKGQLTKYQYTSPSASYNSVISYHTNLNNNILNAPSNITVYPGTGSVNPLRKRSTEITNVNTGDISKFKVWLNSGEIAETDLTYDIFGNIKTVKYPPNEFNERSELEYFYDPMGKYVIQVKDPIFNLSSYAAYDPSMDTVLESTDVTGNKMTYEHDGYGRPLRIVSPNDWQSQANTIMYHYFDTPVTLSNGNKIYLFTAQTSHLDPYHPGNDIETISFADITGKVIQVKKDIEIDDEEKMSVSGRVINDNLGRTVLQYHPLFENKDAVLNNKLSFTVAPYHTSASYDYKDRNVSSTDEAGNSVDNRFFIESGRFKTETTQMQDASNQIKTEVFANAEGKTVETRNYLPGQVLSTFFSYSQIGEILNVTDPEGLETSFSYDMGGRRLTQNHPDRGETAYSYSKAGQLTYVLNNNLNNNGGVPVHYRYYYNRLTNIDLPDIPSGTNPANVSYTYGTSGNNAGRIIEKQDGTGTSQYEYGKMGELINEIRYIYGFYMPNLKFDTSYDYDNWNRIRTINYPDNEKVQYEYDLGGNLKKISNDGGYEYVKSIKYDHYEQRTNIVFGNETSSTFTYEPAMRRLQNHVLLDANNNILLDGAYSYDYASNITGIQNTSQTTNSGFGGNYGLRYRYDTLNRLVSSSGNAEPGRKDGLPPTPVVGSINAMYETTLSYNMSSGINTKGQHHEQDGIINTNNTYQNKYEYVKGTHMVDRVTDISTGNQEYFKYDGNGNVINHMTLQSGPTDFYWDEQDRLRAIHTPEVGSFQYYVYDDKGERTIKANLKNDAELYQNGEMVDNGLVFDNFKVYPNPYAVYTSDGILTKHYFAGGQRIASNMKDVGGMFNNRQASSVGNKDVSDPKSQESVAENDFKNYLSKAGYEKAEIEKEFARAPAPVGGIYYLHGDHLGTATYVTNEYAEPTQFFLNLPFGETMAEQQEPTAYVNPYKFNAKELDSETGLYYYGARYYNPRLSIWYGVDPLAEKYPSWSPYVYTFENPINLIDPNGMEPVDPTDIITKVINQTTSKSNGYTSFNRDLSITLTMAVYNPENLDLSHTAFAAGQGTINVGSFRGPASDSYGKFVQNDNIKNLNIVYKVVTDLKDIPSQAHVMTVTSGDILPSPGSKVNPVGKAEKGGRVGAVEYTKNGFNSLVLHEIGHWFGLDDGYDTGDNQYPNENTNTVMDCHGCTTSKWKVTTKQRATISLSSDLGIGPATSSGNVYKQSKSGRWNKTSIQNQVINFNRKNIK				NA	NA	NA	NA	NA
BMS003_02729	531			hypothetical protein	ATGAGAAAAATAATATTATTTCTATGTTGTTTTGTATTACTAGCTTGTAGTAATGAAAATGAAATCAAAATCAATAACATCAGCTTTAAAGTTCCTAAAGATATTGAAATATTAAAAGGTAATGCTATTGATAGTGAAATATTTTATCTTAAAAAACACTCCAAAAGGGTAGCAACTTGTTATTATGGGATAAATTATTCCAGCTTTTCAGAAAATAAAATAGTAGTCCCCTTAGAAATCTATAAAATATTAAAAGATAAAAAGAATGCTTTTGTAATTAGAGACAGTATAAATGATTATAAAAATGGTATTTTTAACGATAATTACTATTACTATGACACGATAAATAAAAATATTGCTCAAATAATGCTTCCCAAAAAACCTGACAAAGGATCAATAGGAATTTATTTTGATAGTGTAGATCTGCATAAGAATAAGTTTGCAATAATTAGTAATGATTTAAGTGCAGAAAATAAAAAGATATTTTTAGAAATCTTTAAAACAATTAAAATAACCAAATCCGCTCATTGA	MRKIILFLCCFVLLACSNENEIKINNISFKVPKDIEILKGNAIDSEIFYLKKHSKRVATCYYGINYSSFSENKIVVPLEIYKILKDKKNAFVIRDSINDYKNGIFNDNYYYYDTINKNIAQIMLPKKPDKGSIGIYFDSVDLHKNKFAIISNDLSAENKKIFLEIFKTIKITKSAH				NA	NA	NA	NA	NA
BMS003_02730	1029			hypothetical protein	ATGCTTATTAAGCGTGTGGCCAGTCAATATGCAGAACCTACACAATTTTTATTAAATTTATCATTCGGGGAGACCATGGCAGAGCAGCAGGAACCAACCGCCTATGTTAACCCCTACAAGTTTAATGCAAAAGAATTAGACAGCGAAACAGGTCTTTATTATTATGGAGCTAGGTACTACAACCCAAGATTAAGTATCTGGTATGGTGTCGATCCACTGGCAGAGAAGTATCCGAGCTGGAGTCCATACGTCTATACCTTTAATAATCCTATTATTTTTACCGATCCTGATGGAAGAGATCCAAAACCTTATGTTCTAAATGGGGTTCATTTTATTCCTATGAAAGTTTATTCAATGGCTTTGGTAACAAGATCAACAGGCGGAACATTTACAGATGCTGCAATTAAAAGAAACACAAGATTTCCAAATGAATTTGTTGTTAATATGCAACAATATGAAACTTTAAATAATTCGGCGGCAATGAGTTATAGATTTGGAAATAATGTTAATATGAACGACTTGCAGACACAGGGGCTTACAATTGTTCGAGGAAAACAGCAACCATATGGCAGAAGTTCAAATAGTTACTATATGGCTATGGATAATAGCGGTTCTTTTTCAGCAGGTTTGGGCAACCCTCCATCTGATTCTAAAATGGCATTTGGAGGAGGAATTCCTTTGATAATTAACGGAATGCCTTATGGAGCAGAAAAAAAATATGATAAAAACGGTAAAATGATTCAAAATAGTAGTGCTGGTTATCCATTACAAAATGATAGTGATGTAGGCAAAACCATTTTGGCTTTTAACAGTGATGGAAATTTTATGATCGTTTCTCAACAAGACGGCACTAGTGGAATGAATCTAGATCAAATTAGAGATTATTTGATATCAAAAAAATTTACTAATGCTATTTCATTTGACGGTTCTACGTCGGCAACTCTAGTACAAGATGGAAAAGTTGTTGTCCAGCCAAGTGAAAGAAAAAACAATTCAATACCAGTTGGACTTAAAATTAATGGTAAGTAA	MLIKRVASQYAEPTQFLLNLSFGETMAEQQEPTAYVNPYKFNAKELDSETGLYYYGARYYNPRLSIWYGVDPLAEKYPSWSPYVYTFNNPIIFTDPDGRDPKPYVLNGVHFIPMKVYSMALVTRSTGGTFTDAAIKRNTRFPNEFVVNMQQYETLNNSAAMSYRFGNNVNMNDLQTQGLTIVRGKQQPYGRSSNSYYMAMDNSGSFSAGLGNPPSDSKMAFGGGIPLIINGMPYGAEKKYDKNGKMIQNSSAGYPLQNDSDVGKTILAFNSDGNFMIVSQQDGTSGMNLDQIRDYLISKKFTNAISFDGSTSATLVQDGKVVVQPSERKNNSIPVGLKINGK				NA	NA	NA	NA	NA
BMS003_02731	507			hypothetical protein	ATGAAAAAATTCTTTGTAATATTACTTTTGATAGAATTATTAATGGCAGGATTCTCTTATTTAACTTATGATAATGAGATGGGGAATATTTTATTTTCAGGAGGAAGCACAGGTTCCACAATGAAGATTTTTGCGCCTAATTTTAAGATAACTATATTTCTTAATCTGCTGGCAATTATTTTGACGTTTTTATTTAGAAAAAGAGTGAAAATATTATCTGTATTCTTTATCATTTTGTTTAGTCTATGGTTTATCTCTGGAAGAACAATCGGTGTCCAATGGACAGGCGAAATATATACAGGGTGGTTTTATTTAAAAAATAACAAAATCGTTTTATGTCCTAGTTCTAACGGGTGTTCAGACATTTTTAAAGAAACTTCAATTACAGATAAGCCTTTTTATAGATTATTATTAAAGAACAAGCTTATTAATGAGGAAGTATTTGTTGGTCCTTTTCTTTATCCTAAATTAAAAGAATATTTGAAACATCTTGATGAGCAAAACTAG	MKKFFVILLLIELLMAGFSYLTYDNEMGNILFSGGSTGSTMKIFAPNFKITIFLNLLAIILTFLFRKRVKILSVFFIILFSLWFISGRTIGVQWTGEIYTGWFYLKNNKIVLCPSSNGCSDIFKETSITDKPFYRLLLKNKLINEEVFVGPFLYPKLKEYLKHLDEQN				NA	NA	NA	NA	NA
BMS003_02732	141			hypothetical protein	ATGCACCAGCAGATTGACAAAGCTACTCTTGAAAGAGTGCAGGAAGTTACCAAGCTCACAGAAAAAGACAAGGATTACATATTTGTAACCCTCGATGCTCTCATTCGCGATTTTAAAAATAAACACGCTTACGCTAAATAA	MHQQIDKATLERVQEVTKLTEKDKDYIFVTLDALIRDFKNKHAYAK				NA	NA	NA	NA	NA
BMS003_02733	948			hypothetical protein	ATGCTTATTAAGCGTGTGGCCAGTCAATATGCAGAACCTACACAATTTTTCTTAAATTTACCATTCGGGGAGACCATGGCAGAGCAGCAGGAACCAACCGCCTACGTTAACCCCTACAAGTTTAATGCAAAAGAATTAGACAGCGAAACAGGTCTTTATTATTATGGGGCAAGGTACTATAATCCTCGATTGAGTATCTGGTATGGTGTGGATCCACTGGCAGAGAAGTATCCGAGTTGGTCGCCGTATGCATATTGTGGAAATAACCCTATTAATTACATTGATCCTGATGGAAGATTTAGATTACCAGCAAATGCTACGAAAGAGGAAAGAGCATTATATACAGCGGCAATAAAAACTATAAAAGCGGTGTTTCGAGATTCAGAATTTCGAGAAACGTTTAAAGACAGATTTAAGGTAGATGATAAAATGATACGGAAAATGCTCAGAGATGGAGATGGCCCCACTGTTATAATGAATGAAAGGATAAATGCTTTGGGCCTTTATTTGCCAAAAAAGGATGCCAATGTTATTCTAATAGATCCTATCGTAGTAAATACGGTTTCAAAACATAAAGGAGATAGAAAGTATATTGATCTTTTAGCAGAAATTATAATTCATGAAGGTGGTCATTGGGCAGACTATAAAATGGACGGTAAATCCGAGGAAGATGACCCACTTTTTAAGACGGGTTTTCATTCAAAAAGTGGTATACCTGATGCAGGAGATAATTGGGAACTTATTTATTTTGGAACAGATACTCAATCTGCTGCTTCTGATCGTGATATAATTACTGAAAAGTTTGATGGAATTAGGAGGAATAATGCTGCAAAAGATTTTAGGCAACAACGTGAAATCAGGGACTTAAAATCACAAAAAATGCCATCTGTTTTAGATAATTATAAAAAACCAAAAGATAATTTGCGAGTAAAAAAAACATGTTTTTAA	MLIKRVASQYAEPTQFFLNLPFGETMAEQQEPTAYVNPYKFNAKELDSETGLYYYGARYYNPRLSIWYGVDPLAEKYPSWSPYAYCGNNPINYIDPDGRFRLPANATKEERALYTAAIKTIKAVFRDSEFRETFKDRFKVDDKMIRKMLRDGDGPTVIMNERINALGLYLPKKDANVILIDPIVVNTVSKHKGDRKYIDLLAEIIIHEGGHWADYKMDGKSEEDDPLFKTGFHSKSGIPDAGDNWELIYFGTDTQSAASDRDIITEKFDGIRRNNAAKDFRQQREIRDLKSQKMPSVLDNYKKPKDNLRVKKTCF				NA	NA	NA	NA	NA
BMS003_02734	657			hypothetical protein	ATGATTTTATTATCCTCTTTATTAATTACGAATTGTAAGGAGGAAATGAAAAGCTGTGTAAGTCAGTCTCCAGATATTAAAGTAAAATTATATAATGATTTAACAGATAATTTGATCCCTATTTTTTTTGGAGAAGATTATTTAGGAAAAAAAAGATATTTTGATAGTTTAAGAGTTCATAATGATGATTTATATATCGAAGAGAGGACAAAAGCGCACAACGAACTTTTTAATCATCCTGAAAAATTTTGCAATTTGTATATAGATTCTACTAAAAATAAAAACACAGATTTTGCAACAGATAGTATTGAAGATAATATAAAATACATAAAAAGAAAGAAGGATTTTTTTAAAGACTTTTCTAATGTTCCAGATATTATTAAAAATTTAAGTACACGAAGTACTATAAAAGCAAATCAATTTAATTTGTGTACCGCAAAAGTCCTGGATCTGGCAGAGTATGATAAACATACAAATGAATGTGAGATAGGAGTAGTATATTTTTCAGAGATTGTATTTGATCCTTCTAAAAAAAGAGCATTAGTATTTGTTGACCATCATATAAAAAATTATTTCCATAGAAATGCTGTATTTAAACTAAGATTGCATGATAATTATTGGGAAATAGAAGATTTTATGTTAGTGTCAACTTCCTAA	MILLSSLLITNCKEEMKSCVSQSPDIKVKLYNDLTDNLIPIFFGEDYLGKKRYFDSLRVHNDDLYIEERTKAHNELFNHPEKFCNLYIDSTKNKNTDFATDSIEDNIKYIKRKKDFFKDFSNVPDIIKNLSTRSTIKANQFNLCTAKVLDLAEYDKHTNECEIGVVYFSEIVFDPSKKRALVFVDHHIKNYFHRNAVFKLRLHDNYWEIEDFMLVSTS	PGPT0023295_3210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS003_02735	111			hypothetical protein	ATGGTAGATAACGTTTTAGTGTTTGATAACTTTAAGGTGTATCCTAATTCTTACGCCGTATATACATCAGAAGGTATACTTACCAAACATTATTTTATCTTTGCATTATAA	MVDNVLVFDNFKVYPNSYAVYTSEGILTKHYFIFAL				NA	NA	NA	NA	NA
BMS003_02736	972			Inward rectifier potassium channel Kirbac3.1	ATGACAGGAGGGTTCAGAAAAAAAATCCGTCAGAAAAATGCAGAAAACAGCGGTTTCGGAGCCAATGCATCCGGAAGGTTTATCAATAAAGACGGCCTCCCCAATGTTCAGAGGAAGGGAGTGAACGTTTTCAACAGGCTGAGCTGGTATCATACTATGCTGAATCTTTCATCATTCCGCTTTATTTCTTATCTGGTTGTTGCTTACATTCTGATCAATCTTCTTTTTGCGATGATCTATTATCTTATTGGCGTAGAACACCTCACAGGAATTGATAAAAGCAATCCCCTGAATGAATTTATTGATGTCTTTTTCTTTAGTTCCCAGACATTTACAACAGTAGGATACGGAAGAATAGCCCCGGTAGGTTTTCTGGCGAGCCTTGTGGCTACTTTTGAAGCTTTTCTGGGATTGCTTACCTTTGCTATTGCAACGGGACTTTTCTACGGTAGATTTTCAAGGCCGCGGGCATTCCTCAGGTTTTCTGATATAGCAGTTATTGCTCCGTTTCAGGAGTCTTCGGCATTGATGTTCAGGCTTGCTCCTTATAAAAATAATGCATTAACAGACGCTGATGTGATTCTATCCGCAGCTATTGAAGTCATAGAAAATGGGGTAGCTAAAAGTAATTTTTACAGGCTTGACACACAGATGAGCAAGATCAATACTTTGGCACTCAACTGGACTGTAGTGCATAAAATTGATGAGAACTCTCCGTTTTACGGTTTTTCTGAAGAAGATTTTAAAAATACGGATATTGAGCTTATTGTACAGGTACGTGCATTTGACGAAGTATTTTCAAATACAGTGGTACAGAGGTCTTCATATACTACCGGAGAAATTGTTTATGGAGCTAAATTTGTTCCGATGTACTATCCAAGTAAAGAAAATCTTACCACAGTCCTGGACCTGGATAAAATCAATGAATACAAGAAAGAGGAGCTTCCGGATTTTGTGAGAAATAAAGAATAA	MTGGFRKKIRQKNAENSGFGANASGRFINKDGLPNVQRKGVNVFNRLSWYHTMLNLSSFRFISYLVVAYILINLLFAMIYYLIGVEHLTGIDKSNPLNEFIDVFFFSSQTFTTVGYGRIAPVGFLASLVATFEAFLGLLTFAIATGLFYGRFSRPRAFLRFSDIAVIAPFQESSALMFRLAPYKNNALTDADVILSAAIEVIENGVAKSNFYRLDTQMSKINTLALNWTVVHKIDENSPFYGFSEEDFKNTDIELIVQVRAFDEVFSNTVVQRSSYTTGEIVYGAKFVPMYYPSKENLTTVLDLDKINEYKKEELPDFVRNKE	PGPT0013820_68	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013820-irk-K08715	NA	NA
BMS003_02737	489			hypothetical protein	ATGAATTTAGATTTTTATAAAAAACAGGCAATACAAAAGCAGAAAGAACATAAAAAGTTTCTGGAAGGACTTAAGAAAAAGCCTCCTAAAAACCTTGATTATATAGTGCAGGAAACCCATGAAGAGGTTTTTGATGAGATAGACTGCTTACAATGTGCCAATTGCTGCAAAACAACCGGTCCTTTGTATACCGAGAAGGATATTGAGCGTATTGCAAAGCATCTTCGCATGAAGTCTGCTGATTTTGAAGCTAAGTTCCTGAGAGTAGATGAAGATAATGATAAAGTACTGCAGAATCTTCCCTGTTTCTTCCTGAACAGTGACAATACCTGTTCTATTTATGAAGTAAGACCCAAAGCCTGCCGTGAATATCCCCATACAGATCGTAAGAAGATCTACCAGATTAATAATTTGATGCTGAAAAATACAGTGATCTGCCCGGCTGCTTTTGAATTCGTTGAAAAGATGATGAAGAATGTTGCGAAGTAG	MNLDFYKKQAIQKQKEHKKFLEGLKKKPPKNLDYIVQETHEEVFDEIDCLQCANCCKTTGPLYTEKDIERIAKHLRMKSADFEAKFLRVDEDNDKVLQNLPCFFLNSDNTCSIYEVRPKACREYPHTDRKKIYQINNLMLKNTVICPAAFEFVEKMMKNVAK				NA	NA	NA	NA	NA
BMS003_02738	300			hypothetical protein	ATGAAAAAGTTATTTTTAACGGCAGCGTTTACATTCGTCGGAGTAATCGCAGTGTCAGCACAATCAACACCACAAAAGCAGGATTCCTCTACGAATAAACAACCGACAACTCAGACAGAACTGCCGAATACACAGACAACAAATCCTTCGGATCCAAAGAATCAACCGGAAAAATCACCTGCAACTACAATGGAAACTGCGCCAGCTACCGAGCCATCAGTAAGTACAATACCTACAGACGTAGCTAAGCCTGCAGATACTTCTAAAGAAGGAAAGAGAGATAAAAAAAAGAAAAAGTAA	MKKLFLTAAFTFVGVIAVSAQSTPQKQDSSTNKQPTTQTELPNTQTTNPSDPKNQPEKSPATTMETAPATEPSVSTIPTDVAKPADTSKEGKRDKKKKK				NA	NA	NA	NA	NA
BMS003_02739	396			hypothetical protein	ATGCAGCGCTTTTTTTATTTTAATATAATGAAAAACATCTTTAAAAATATTGATGAATACATTCTTCTGTTTCCGGAAGAAGTACAGGAAAAACTGCTTGAACTGAGAAAAACAATTCATTCTCAGACTCCAGATCTGGAAGAATATATTGGATATCAAATGCCTGCTTTCAGATATAAAGGCAAGCCTATGATCTATTTTGCAGGTTATAAAAAGCATATCGGGTTCTACCCCGGCCCTGAAGGGATCAGTAATTTTGAGGCAGATTTTAAAGAAAGAAAATATAAGTTTTCAAAAGGAGCGGTTCAGTTCCCTATCACGGAAGATCTTCCTCTGGATCTGATCAATAAGATGCTCCTGTTTAAGATGACAGAAATTGAACAAAAAAAATCCTGA	MQRFFYFNIMKNIFKNIDEYILLFPEEVQEKLLELRKTIHSQTPDLEEYIGYQMPAFRYKGKPMIYFAGYKKHIGFYPGPEGISNFEADFKERKYKFSKGAVQFPITEDLPLDLINKMLLFKMTEIEQKKS				NA	NA	NA	NA	NA
BMS003_02740	1359	gdhB		NAD-specific glutamate dehydrogenase	ATGGAACAATATAATATTGACCAGAAAATCCAAGAGTTTATTGCAAAAATTGAAGCAAAAAATCCTAACGAACCGGAATTCTTACAAGCTGTAAAAGAAGTTGCCGTAACAGTAATTCCGTTTATTGCTACTAAAAAAGAATATACCGGAATGAAGCTGCTTGAAAGAATGGCTGAAGCTGAAAGAATTATTATATTCAGAGTTCCATGGGTTGATGATAAAGGAGAAATTCAGGTTAACAGAGGTTTCAGAATCCAGATGAACTCTGCTATTGGTCCATACAAAGGAGGAATCCGTTTCCACCCTACTGTAAACTTATCCGTTCTTAAGTTCTTAGCTTTCGAACAAGTATTCAAAAACTCTTTGACAACTCTTCCGATGGGAGGTGGTAAAGGAGGTTCTGATTTTGATCCACAAGGGAAATCTGATATGGAAGTGATGCGTTTCTGCCAAGCTTTCATGACAGAATTATGTAAGCATGTTGGCCCTGAAACAGACGTACCTGCAGGAGATATTGGTGTAGGAGCAAGAGAAATCGGATATTTATTCGGGCAGTACAAGAAAGTCAGAAACGAGTTTACAGGAGTTCTTACAGGAAAAGGACTTGCTTACGGAGGTTCATTAATCCGTCCTGAAGCTACAGGGTACGGGGTTGTATACTTCGCAGAGCAAATGCTTAAAACGATCGGACAGGACTTCAAGGATAAAGTTGTAACAGTATCAGGTTTCGGAAACGTAGCGTGGGGAGTTATTAAAAAAGCAAGTGAACTGGGAGCTAAAGTAGTAACCATCTCTGGTCCTGACGGATATATCTATGATAAAGATGGTATCAGCGGAGAAAAGATTGATTATCTGTTAGAGCTTAGATCTTCAGGAAACAACAGAGCTGAAGATTATGTAAAAAAATATCCATCTGCCGAATTCCATGCAGGAAAACGTCCTTGGGATGTGAAGTGTGATGTAGCATTCCCTTCTGCTACTCAAAACGAATTAGATTTAGATGATGCAAGAAAATTAGTTGAAAACGGATGTATCTGTGTAACCGAAGCAGCTAACATGCCTTCTACATTAGATGCTATCAACTATTTCTTAGACAATAAAGTATTATTCTCTCCTGGTAAAGCTTCCAATGCGGGAGGTGTTGCCACATCAGGATTAGAAATGACTCAGAACTCTATCCGTCTTAACTGGACTTCTGAAGAGGTAGACGCAAGATTAAAGGAAATCATGATCGGTATCCACAAAGCCTGCAGAGACTACGGAAAAGACGAAGACGGTTATGTAAACTACGTAAAAGGTGCAAATATTGCCGGCTTCGTAAAGGTAGCAGAAGCAATGTTAGCTCAAGGAGTTGTGTAA	MEQYNIDQKIQEFIAKIEAKNPNEPEFLQAVKEVAVTVIPFIATKKEYTGMKLLERMAEAERIIIFRVPWVDDKGEIQVNRGFRIQMNSAIGPYKGGIRFHPTVNLSVLKFLAFEQVFKNSLTTLPMGGGKGGSDFDPQGKSDMEVMRFCQAFMTELCKHVGPETDVPAGDIGVGAREIGYLFGQYKKVRNEFTGVLTGKGLAYGGSLIRPEATGYGVVYFAEQMLKTIGQDFKDKVVTVSGFGNVAWGVIKKASELGAKVVTISGPDGYIYDKDGISGEKIDYLLELRSSGNNRAEDYVKKYPSAEFHAGKRPWDVKCDVAFPSATQNELDLDDARKLVENGCICVTEAANMPSTLDAINYFLDNKVLFSPGKASNAGGVATSGLEMTQNSIRLNWTSEEVDARLKEIMIGIHKACRDYGKDEDGYVNYVKGANIAGFVKVAEAMLAQGVV	PGPT0000690_627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000690-gdhA-K00262	NA	NA
BMS003_02741	1110			hypothetical protein	ATGATCTCCGAAGAATATTTATATGCCATCGCTCTGCGCGAAAGCAGCCAGATTGGCGATATCCATTTTCATAAGCTTGTCCATACTTTTGGAACTGCTAAGGAAGCCTGGAAAAGAGCAAAGAAAGAATATAAAAAACTGGAAGGAATTGGTCTGAAAACCGTTGCAGATATTGGCAATGAGGCTCATTTGAAATTCGCAGAAGAAGAATTGGTTTTTTGCGAAAAAAATAATATCCAAATCAGACTGAGACACCTTAATGAAACGCCCTCACTTCTTCATGAATGTAATGATGCTCCAGCTATTTTATATCAGAAAGGCCAGATTAATGATTCATTTCCCAAAATAAGTATCGTAGGAACCCGGAATATGACATCCTACGGACAGCAGTTTATTGAGGATTTTTTTGAAACCTCACAATCATCACAGTATATATCAGTAAGCGGACTTGCTTTGGGAGTGGACAAGGAAGTGCATGAACAGTCTATCCGTACCGGAAAATCTACTGTAGGGGTTCTGGCTCATGGTTTTAAGTATTTATACCCTTCAAAAAACAGGCGTCTTTCCGAGAAAATTCTTGAAGAAGGAGGGTCACTGATCACGGAGTTCAGCTCTTCTAGAAAACCCGACAGGGAAAACTTCATCCAGAGGAACAGAATAGTTGCAGGAATATCTCCTGCTATCATTGTAGTGGAAACAGGGTTTGGAGGAGGATCCATAAGTACCGCAACATTTGCCAATGACTATAATCGCGAGGTCTTTGCTCTGCCAGGAAAAATTACTGACGTAACCAGTCAGGGATGTAATCAGTTGATTTTCCACAATAAAGCAACGGCTATTTCTACCATAAAAGACCTGATCAGCATGCTTGGATTTCATCATCCAAAAGGAAAAACCGAAGAGTTATTTCCCTACAGCGAGACAGAAATGCAATTGCCTGAAAATCAATATTTAATATATCAGTCTATTAAAGACTATCCTCAGATTTCTCTGGACGATCTGTCACAGAAAATAGAGGTTCCCACTTACAAAATTTTACCAATAATTTTGGAATTAGAACTTTTAGGGAAAGTAAAATCATTTTCCGGGAGGCAATTTATAGCAATCTGA	MISEEYLYAIALRESSQIGDIHFHKLVHTFGTAKEAWKRAKKEYKKLEGIGLKTVADIGNEAHLKFAEEELVFCEKNNIQIRLRHLNETPSLLHECNDAPAILYQKGQINDSFPKISIVGTRNMTSYGQQFIEDFFETSQSSQYISVSGLALGVDKEVHEQSIRTGKSTVGVLAHGFKYLYPSKNRRLSEKILEEGGSLITEFSSSRKPDRENFIQRNRIVAGISPAIIVVETGFGGGSISTATFANDYNREVFALPGKITDVTSQGCNQLIFHNKATAISTIKDLISMLGFHHPKGKTEELFPYSETEMQLPENQYLIYQSIKDYPQISLDDLSQKIEVPTYKILPIILELELLGKVKSFSGRQFIAI				NA	NA	NA	NA	NA
BMS003_02742	768			hypothetical protein	ATGTTTAAAAATGTAATTTCCAAAAGAGCGGTTATATACCCATTGCTGATGCTTTCTGCGATGTGGTTCGGGTATTTTTTACAAACTCTGGGCTTTTTTCAAAGCTGCTTTGGAGCTATCATTCCGCTTCTGCCGGAAGGGTTGCTTGGCGTAGTTACCTCTCCACTTTTACACGGAAATATTGATCATATTATAGGAAACTCCATTCCGATAGCTGCGCTGATGTTTTTGCTGTACCAGTTTTACCCTGCAGTTGCAAACAAAGTTTTTATCATCGGCTGGCTGGCAACAGGACTGTTGGTATGGCTTCTTCCACCTATTGATATTCTCAGCGGCGAATATATGTATACATGTACTATTGGAGCCAGTGGTGTAGTATATGTTCTTGCATTTTTCCTTTTCTTCAGCGGGGTATTCAAATGGAATACAAAGCTTCTCACCATCTCAATGCTTGTAGTACTGTATTATGGAAGCTTAGTATGGGGAATGCTTCCGGAAGAACTGTTTTACAATATGCAGGAACCCAGTAAGATTTCATGGCAGGCCCATCTTTCCGGGGCAATAGTAGGAAGCATTATTGCGTTCTCCTTTAAAAATGTGGGTGAAAAAAAGAAAAAATTCATTTGGGAATTTCCTAATTATTACAGTGAAAAGGATGATAAACTGTGGCAGGAATACAGAGAAAATCATCCGGAAGACTTTATGGAGCTGCCCTATAAAAAAAGAGATGATATCTGGGATCATTTGGATGAATTAAGAAAGAGATAA	MFKNVISKRAVIYPLLMLSAMWFGYFLQTLGFFQSCFGAIIPLLPEGLLGVVTSPLLHGNIDHIIGNSIPIAALMFLLYQFYPAVANKVFIIGWLATGLLVWLLPPIDILSGEYMYTCTIGASGVVYVLAFFLFFSGVFKWNTKLLTISMLVVLYYGSLVWGMLPEELFYNMQEPSKISWQAHLSGAIVGSIIAFSFKNVGEKKKKFIWEFPNYYSEKDDKLWQEYRENHPEDFMELPYKKRDDIWDHLDELRKR				NA	NA	NA	NA	NA
BMS003_02743	927			hypothetical protein	ATGAAGAAGTTTTTATTGATTCTTTCCTTTTTTGTAGGAATTTATGCATGTGCACAAGAAGAATTGAAAAAAGATTCCGTAGTGACAGACACAGTAAAATATTGGTCAGTAATAGGAAAAAACACGCTAATGATTAATCAGGCGGCCTTTTCAAACTGGGTAGGAGGTGGAGCCAATAACGTAGGATGGCTTGCCGGCACGAATTACAATCTGACGTATGAGAAAGACAAAGACCTTTGGGAAAATATCATTATACTGGGCTATGGACAGAATGATACGAAAGGGCTTGGAATAAGAAAAACGCAGGATGTTATAAATGTTTCTACCAATTATGGAAGAAAGTTTTCAAAAAGCTGGTATTTTTCTCTAGGTGCGGGTCTGCAGTCACAGTTTGCCCCAGGATATGAAGACGGAAATAACCCCGAAGCAAAGAAAATCTCAAACTTTATGGCACCAGGTTACCTGAATATCGGTATGGGGATCACGTACAGGCCTAAAGATGACCTTACAGTAACTTTACGCCCTACCAACGCCAGATGGACTTTTGTACTGGATAAAGATCTTCAGACAGCGGGGAGCTATGGTTTGAAAAATGACGGTGATTCTTCTTTATTGCAGTTCGGTTTCCTGGGAACAGCAATGTATAAGCTGAAAATAATGGAAGATATCTATCTCACAAATACCGCTTCTGTCTTTTCAAATTATCTTGACCATCCGGAAAGGCTGGTTCTTGCCTATGGAGCATTGCTTAACCTGAAAGTAAATAAATATATTTCATCCAATGTTACTGTGGATTTACTATATGACCATAACCAGATAGAGAAAACACAGCTGAAGCAGACCCTTGGGATCGGCTTTGCCTACACTCTTAATAATGGAGTAAAACGGTCTGATCGTAAAGACAGTCAGTGGTGGATTAAAAAATAA	MKKFLLILSFFVGIYACAQEELKKDSVVTDTVKYWSVIGKNTLMINQAAFSNWVGGGANNVGWLAGTNYNLTYEKDKDLWENIIILGYGQNDTKGLGIRKTQDVINVSTNYGRKFSKSWYFSLGAGLQSQFAPGYEDGNNPEAKKISNFMAPGYLNIGMGITYRPKDDLTVTLRPTNARWTFVLDKDLQTAGSYGLKNDGDSSLLQFGFLGTAMYKLKIMEDIYLTNTASVFSNYLDHPERLVLAYGALLNLKVNKYISSNVTVDLLYDHNQIEKTQLKQTLGIGFAYTLNNGVKRSDRKDSQWWIKK				NA	NA	NA	NA	NA
BMS003_02744	924			hypothetical protein	ATGAAAAAACTTTTATTGATCAGTTTTATCTCTCTTGGAGCTGTAGCACTGGCTCAGGAGACTAAAACGGAAGCTCCGGCAACGGATACTGTGAAAGCATGGTCTATTCAGGGACAAAATACCTTAATGCTTAATCAGGCTGCCTTTTCAAACTGGGTGGGAGGTGGAGCCAACAACGTTGGATGGCTTGCCGGTGTTAATTATAACCTTACCTATGAAAAAGGAAAAGATCTTTGGGAGAATATCATTATCCTTGGCTACGGACAAAATAACACACAGGGGACAGGAGTAAGAAAAACTCAGGATGTTATTAATCTTTCTACCAATTATGGTAGAGAGTTTGCGAAACATTGGTATTTATCTGCCGGCGCAGGTCTTCAGACCCAGTTTGCCCCGGGTTATGAAGATGGAAACAATCCTGATGCTAGCAAGATTTCCAATTTTATGGCTCCGGGATATCTGAGTGTAGGAGCCGGGGTTACTTACCGTCCCAATGATAATTTTACCGTGACTTTGCGTCCTGCGAATGCAAGATGGACCTTTGTTTTAGACGAAGATCTTCAGAAAGCAGGAACCTATGGTCTTAAAAATGACGGAGATTCTTCTCTTTTCCAATTCGGTTTCCTTGGTACAGCTATGTATAAGCTGAAGATTATGGAGAATATTACTTTGCTGAATACGGCTTCTGTATTTTCAAATTATCTTGATCATCCTGAAAGACTGGTTCTTGGATACAGCGGGGTTTTAAGCATGAAAATCAATAAATATATTTCTACCAATGTTACCCTTGACCTTTTGTATGATCATAATCAGATATGGAAAACACAGCTGAAACAGACATTAGGCGTAGGTTTGGCTTATAATTTTGATAACGGGAGGAAACGTTCGGATAATAAAGATAACCAAAGCTGGCTGAAAAAATAA	MKKLLLISFISLGAVALAQETKTEAPATDTVKAWSIQGQNTLMLNQAAFSNWVGGGANNVGWLAGVNYNLTYEKGKDLWENIIILGYGQNNTQGTGVRKTQDVINLSTNYGREFAKHWYLSAGAGLQTQFAPGYEDGNNPDASKISNFMAPGYLSVGAGVTYRPNDNFTVTLRPANARWTFVLDEDLQKAGTYGLKNDGDSSLFQFGFLGTAMYKLKIMENITLLNTASVFSNYLDHPERLVLGYSGVLSMKINKYISTNVTLDLLYDHNQIWKTQLKQTLGVGLAYNFDNGRKRSDNKDNQSWLKK				NA	NA	NA	NA	NA
BMS003_02745	1308	sufD	COG0719	FeS cluster assembly protein SufD	ATGAGTTTAAAAGAACAAATTATAGAGAACCATAATGAATTTTTGGAGAGTCTTCGTCACAGATTTCTGGACGACAGCAGAAAAGCTGCTCTTCAAAGATTTGCCAGCCTTGGTTTTCCTACAAAAAAAGACGAAGAATATAAATATACCAATCTAAAGGAGATCACGGAAAAAAGCTACAACTTCTTCCCGAAAGAGAGCCACAATATTACCAAAGAACAGTTTGATGAACTGCACCTTGGAGAAGAAAATTTTGATTGGATTGTTTTTGTAAACGGTAAACTTCATAAAGAACTTTCTAAGGTTTCTATTGAAAATGTAGAGTTTCTTTCATTCAATTATGCATTGAACGACGAGAAACATAGAGAAGTTTTTGAAAAATATTTCAACACGATTGCTTCTAAAGAACAGGCGTTTACTAACCTGAACCTTGCTTACTGCAAATATGGTTTCTTCCTGAAAGTGCCTAAAAATGTAGTGATTGAAAAACCAATCCACGTTTTTTATATTTCTCAGAATCAGGAGGAAAATACATTCTACAATACCAGAAACCTTTTGATCGTAGAAGAAGGAGCCAAAGTAGAAGTGATTGAAAGCCACCATAATTTTGACAGCACTTATGTATTGACGAACTCTGTAACAGAGATCTTTACCTACCCGAATGCAAAAGCAGACTGGCACAAGCTTCAAAATGACAACAATACCACTTACCTTATTGACAATACTTTCGCAAAACAGGAAAAGGACAGCTTAACGACTGTAAATACTTTCTCTTTCGGAGGTAAACTGGTAAGAAACAATCTTGATTTTATTCATAATGGATCCAACATCAATTCATTCATGAACGGAATCACAATCATTGGGAAAGATCAGCTGGTAGACCACCACACGGCGGTTCATCATAACTTCCCGAACTGTGAGAGTTATCAGAACTACAAGGGAATCTTTGATGGTAATGCACATGGAGTTTTCAACGGAAAAGTTTTTGTAGACAAAATTGCTCAGAAAACAAATGCTTACCAGCAGAACAACAATGTATTGCTAGGTGAAGGAGCAAGTATTGATACCAAACCCCAGTTAGAGATCTTTGCTGATGATGTAAAATGTTCTCACGGTTGTACAGTAGGTCAGTTGAATGAAGATGCCTTATTTTACTTAAGAGCAAGAGGAATTTCTAAAAAGGAAGCACAGGCACTACTTTTATACGCTTTCGCCAATGATGCCATGCAAAACATTGATATAGAACCTCTAAAAGAGAAAATCTCAAAGCTATTGGCAGAGAAATTAGAAGTTGATATAGAATTTTAA	MSLKEQIIENHNEFLESLRHRFLDDSRKAALQRFASLGFPTKKDEEYKYTNLKEITEKSYNFFPKESHNITKEQFDELHLGEENFDWIVFVNGKLHKELSKVSIENVEFLSFNYALNDEKHREVFEKYFNTIASKEQAFTNLNLAYCKYGFFLKVPKNVVIEKPIHVFYISQNQEENTFYNTRNLLIVEEGAKVEVIESHHNFDSTYVLTNSVTEIFTYPNAKADWHKLQNDNNTTYLIDNTFAKQEKDSLTTVNTFSFGGKLVRNNLDFIHNGSNINSFMNGITIIGKDQLVDHHTAVHHNFPNCESYQNYKGIFDGNAHGVFNGKVFVDKIAQKTNAYQQNNNVLLGEGASIDTKPQLEIFADDVKCSHGCTVGQLNEDALFYLRARGISKKEAQALLLYAFANDAMQNIDIEPLKEKISKLLAEKLEVDIEF				NA	NA	NA	NA	NA
BMS003_02746	336			hypothetical protein	ATGCCAAAAATTTTCATCTCACTAATACAAAATTCAAATTGCAGTCAAAATATTAAAAATCAAATCAACCGTTCATCTGCTTCTGTAATGGATAATATTGCAGAAGGTTTTGAAAGGGAAGGAAATAAAGAGTTTATTAATTTTTTATCGATGTCGAAAGGATCATGTGGAGAAGTAAGATCTCAGTTGATCAGAGCATTTGATAGAGATTTTATTAACGAGAATGAATTTAATGATTTGAAAAAAGATTATGCGGATTTATCAAAAATGATTTCAGGTTTTATGAAGTATTTAAAAACTACTGAACATAACGGAAATAAGTTTAACCGCTCATAA	MPKIFISLIQNSNCSQNIKNQINRSSASVMDNIAEGFEREGNKEFINFLSMSKGSCGEVRSQLIRAFDRDFINENEFNDLKKDYADLSKMISGFMKYLKTTEHNGNKFNRS				NA	NA	NA	NA	NA
BMS003_02747	864	sufC	COG0396	putative ATP-dependent transporter SufC	ATGAAGATTATTACAAAAACAAAATATAGAAAGTTTTTTTTCTGCCTTCTGAGGAGATATTTCAGAGATATAGTACAGGAAAGAAACTCACACAATTATAAAAAGAAAAAGTTAGCAAGAATGTTACAAATTAAAGACCTTCACGCCAAAATTGAAGATGGTGCAGAAATATTAAAAGGTATTAATCTTGAAATAAAACCAGGCGAAGTTCACGCAATCATGGGACCGAACGGAGCTGGTAAGTCTACCCTTTCTTCTGTAATCGCAGGAAAAGAAGATTACGAAGTGACTGGTGGAGAGATCCTTTTCCAGGGAGAAGATATCAGTGAAGATGCTCCTGAAGACAGAGCTCACAAAGGAATCTTCCTTTCTTTCCAGTATCCGGTGGAAATTCCGGGAGTTTCTGTAACGAATTTCATCAAAGCTGCTTTGAATGAGACAAGAAAAGCAAACGGACTGGAAGAAATGCCGGCAAAAGAAATGCTTGCATTAATCCGTGAAAAGTCTGAAAAATTAGGAATCAAAAAAGATTTCCTTTCCAGATCGTTGAACGAAGGATTCTCCGGAGGTGAAAAGAAAAGAAACGAGATCTTCCAGATGATGATGCTTAATCCTAAGCTGGCTATTCTAGATGAAACCGATTCGGGATTGGATATCGATGCATTAAGAATCGTAGCAGACGGAGTAAATTACTTCAAAAACGAAGGAAATGCAGTTCTTCTGATCACGCATTATCAGAGATTGCTCAATTATATTCAGCCTGATTTCGTTCACGTTTTAGCAGATGGAAAAATCATCAAAACAGGTGATAAATCTTTAGCATTAGAACTTGAAGAAAAAGGGTACGACTGGCTTTTAAATTAA	MKIITKTKYRKFFFCLLRRYFRDIVQERNSHNYKKKKLARMLQIKDLHAKIEDGAEILKGINLEIKPGEVHAIMGPNGAGKSTLSSVIAGKEDYEVTGGEILFQGEDISEDAPEDRAHKGIFLSFQYPVEIPGVSVTNFIKAALNETRKANGLEEMPAKEMLALIREKSEKLGIKKDFLSRSLNEGFSGGEKKRNEIFQMMMLNPKLAILDETDSGLDIDALRIVADGVNYFKNEGNAVLLITHYQRLLNYIQPDFVHVLADGKIIKTGDKSLALELEEKGYDWLLN				NA	NA	NA	NA	NA
BMS003_02748	1449	sufB	COG0719	FeS cluster assembly protein SufB	ATGAGTAAATATACAGAAGACGATTTAAGAGTCGATCTAGAAAATAAAAAATATGAATTCGGCTGGGAAACGAAGATTGATTATGAAGATTTCCCTACCGGTTTAAATGAGGATATCATCCGTGCTATTTCTGCGAAAAAAGAAGAACCGGAATGGATGACTGAGTGGCGTTTGGAATCTTTCAAAATCTGGCAGAAAATGGTAGAGCCTGAGTGGGCAAACATCAAGTATGAAAAACCAGATTTTCAGGCAATCCGCTACTATGCCGCTCCCAAAGTAAAACCTGAGCTGGCCAGCCTTGACGAGGTAGATCCCGAATTATTGAAAACTTTTGAAAAGCTAGGGATTAATATCGAAGAGCAAAAAAGGCTTTCAGGAGTTGCTGTAGATATTGTAATGGATTCAGTTTCTGTGAAAACCACTTTCCAGGATACACTGGCAGAAAAAGGAATTATTTTCTGTTCCATTTCTGAGGCTATTAAAAACCATCCTGATTTAGTAAGAAAATATCTTGGAAAAGTAGTTCCGAGAGGAGATAATTTTTATGCAGCATTGAATTCCGCAGTATTTTCTGACGGAAGTTTCTGCTATATTCCTAAAGGAGTAAAATGCCCTATGGAGCTTTCTACTTATTTCCGTATCAACCAGGCAGGAACAGGACAGTTTGAAAGAACACTTCTTGTAGCTGATGAAGGAAGTTATGTTTCTTATCTTGAAGGATGTACAGCACCATCAAGAGATGAAAACCAGCTTCACGCAGCAGTAGTGGAGCTGATCGCTTTAGACAATGCTGAGATTAAATATTCTACAGTACAGAACTGGTATCCTGGTAATGAAGAAGGAAAAGGTGGTGTATTCAACTTTGTAACGAAAAGAGGACTTTGCGAAAGAAATGCAAAAATCTCCTGGACACAGGTAGAAACAGGTTCTGCAGTGACATGGAAGTATCCGTCTTGTATCCTTAAAGGAGACAATTCTATCGGAGAATTCTACTCTATTGCGGTTACCAACAACCACCAGTATGCAGATACAGGAACAAAAATGATCCACATCGGAAAGAACACCAAATCAACAATTATTTCTAAGGGTATTTCTGCCGGAAAATCTCAAAACTCATACAGAGGACAGGTGAAGGTAATGCCTTCTGCCAAAGGAGCAAGAAACTTCTCTCAGTGCGACTCTTTATTAATGGGTAATGAGTGTGGTGCTCATACTTTCCCATATATTGAAATCAAAGATCCTACGGCACAGCTAGAACACGAGGCAACGACTTCAAAAATCGGGGAAGATCAGATTTTCTACTGTAACCAGAGAGGGATTGATACAGAAAGGGCAATTGCTCTGATTGTAAATGGTTTCAGCAAAGAGGTCTTGAATAAACTTCCAATGGAATTTGCTATTGAAGCTCAAAAATTACTTGAAATTTCATTAGAAGGTTCAGTAGGATAA	MSKYTEDDLRVDLENKKYEFGWETKIDYEDFPTGLNEDIIRAISAKKEEPEWMTEWRLESFKIWQKMVEPEWANIKYEKPDFQAIRYYAAPKVKPELASLDEVDPELLKTFEKLGINIEEQKRLSGVAVDIVMDSVSVKTTFQDTLAEKGIIFCSISEAIKNHPDLVRKYLGKVVPRGDNFYAALNSAVFSDGSFCYIPKGVKCPMELSTYFRINQAGTGQFERTLLVADEGSYVSYLEGCTAPSRDENQLHAAVVELIALDNAEIKYSTVQNWYPGNEEGKGGVFNFVTKRGLCERNAKISWTQVETGSAVTWKYPSCILKGDNSIGEFYSIAVTNNHQYADTGTKMIHIGKNTKSTIISKGISAGKSQNSYRGQVKVMPSAKGARNFSQCDSLLMGNECGAHTFPYIEIKDPTAQLEHEATTSKIGEDQIFYCNQRGIDTERAIALIVNGFSKEVLNKLPMEFAIEAQKLLEISLEGSVG				NA	NA	NA	NA	NA
BMS003_02749	330	erpA	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGATAAAAGTATCAGACCATGCAAAGGAAAAAGCCATCCAGTTGATGACGGAAGATGGTTTTAACCCTGCTGAAGATTATATAAGAGTAGGGGTGAAAAGCGGCGGATGCTCTGGTTTAGAGTATGTTTTAAAGTTTGACAACCAAAAAACAGACACAGATCAGATTTTTGAAGATAATAACATTAAGATTATTATAGATAAAAAATCCATCCTTTATTTAGCGGGAACAACTCTTGAATATTCAGGAGGATTGAACGGAAAAGGGTTTGTTTTTAACAACCCGAATGCATCCAGAACATGCGGATGCGGGGAATCATTTAGTCTTTAG	MIKVSDHAKEKAIQLMTEDGFNPAEDYIRVGVKSGGCSGLEYVLKFDNQKTDTDQIFEDNNIKIIIDKKSILYLAGTTLEYSGGLNGKGFVFNNPNASRTCGCGESFSL				NA	NA	NA	NA	NA
BMS003_02750	939			hypothetical protein	ATGAGACAAAAAACAGTTGTTTTTTTTGTGTTGCTTTTTACGGCAGTATCTTATGGTCAGACCACAAGATATGTCTATGAAACATTGGTAAATCCAGATTCCATCAATCTGGTGAGTATGAAAAGTGAAAGAACTTTTCTTGATGTTAATGGAAACCGTTCTTTATTTATCAGTGAAAATAAACTGAAAAGAGATTCTCTTTTTGCAGTTGTAAGGTCGGAAATGAAGGAAAAGAAAAAAGAAGAAAAAGATTTTTCAAAAATAGAAGGAAGAAAACATTTTGAGCCTACTTTTTTTGAATATTTTATTACCAAGACTATTCCGGATCAGAAAGTGTATTATTATGAGAAGGCTTTCGGAAAACAAATTTATTATCAGGAAGACAGACCTGTAAAATGGGAAGTTTCAAATATTGTCGAAAAACAAAACGGATATTCAGCCCAAAAAGCAGTAGCGGAGTTTGGAGGAAGAGTCTGGACAGCTTGGTTTACCAAGGAGATTCCATTGTCTGATGGTCCGTATAAATTTTCCGGATTACCGGGATTGATTGTAAAACTGGAAGATGACAAAGGGGATTATAAATTTGATCTTGCTAAAAAAATTTCGGTTAAAAATGCTTTTGAAGAACAGGTAAGTTCAGATGCTAAGCAGAGTACAAGGACTAATTTCCATAGTGATAAAGCTGCTTTGGAACTGGAGTTTGGTAAAAACAAAAAAGCAATGGCAGGATATAATGGGGCAGGAAATATGAATTTCGGAGGCGGTAGACATGGCGGCAGCATGGGTGGAGGAGGAATGAGAGGCGCAGGCCACGGTGAAGGCAGAATGCACAGAGTCGGAATGGCTGATGAAAGCGAGGGTAGCTCAATGTCACGAAGTTCATCCACAGAAATTCCTTCTTTTACCAATCCTGCGCAGAACCCAATTGAATTAAAATAA	MRQKTVVFFVLLFTAVSYGQTTRYVYETLVNPDSINLVSMKSERTFLDVNGNRSLFISENKLKRDSLFAVVRSEMKEKKKEEKDFSKIEGRKHFEPTFFEYFITKTIPDQKVYYYEKAFGKQIYYQEDRPVKWEVSNIVEKQNGYSAQKAVAEFGGRVWTAWFTKEIPLSDGPYKFSGLPGLIVKLEDDKGDYKFDLAKKISVKNAFEEQVSSDAKQSTRTNFHSDKAALELEFGKNKKAMAGYNGAGNMNFGGGRHGGSMGGGGMRGAGHGEGRMHRVGMADESEGSSMSRSSSTEIPSFTNPAQNPIELK				NA	NA	NA	NA	NA
BMS003_02751	861			hypothetical protein	ATGAAAAAATTAGGTATTATTGCATTGGCACTCTTTATACAGAATGTTTCTGCGCAGACAAACAGGTTTGTGTATCAGGTAACTATGAAGCCTGATGCTGAAAATAAAACGGATGTCAAGACGGAAAACGCTTATCTGGATATCTCTCCTGAGAAATCTGTATTTTATTCTGAAAACCGGATTAAAAGAGATTCTATCCTGCAGAAAGCATTTCAGGGAGGAGGTGGAAGAGGAAGCATCAACCGGGATCAGATGCAAGGATTGAGAACCAATATCAGCTATTCCATAGAAAAAGATAAAACCAACCAAAAGATGTATTTTAAAGACAGAATTGGGCGTGATATGTACTCCTATGAAGAAGACAGACCTCTGAACTGGAAAATTGAGTCAGAAACAAGAAAAATAGGCGAATATAAGGTTCAGAAAGCAGAAACTGATTTTGGCGGAAGAAAATGGACCGCATGGTTTACCACGGATCTTCCTTATCAGGACGGGCCATATAAGTTCGGAGGACTTCCGGGGCTGATTGTAAAAGTAGAGGATGATCAGGGAGATTATTCTTTTGACTTAATGAAGAATTATAAAATTGCTGAGTTTCCGGCTTTGAATCAGTTTGGAAATACGTTAAAAGTAAAAAGAGCAGATTATTTAAAGCAGCAGCAAAAGTTTAGAACGGATCCCATGTCATTCATGAGTCAAAGTGGCGGCGGACAAGGTGGGTTTTCAGCAACTGTAAGAGCTGGCGGAGGCAGAAGAGGCCCTGGTGGCGGAAATCAGAATCCGGCGGATATGAGAAAAAGAATGGAAGAAAGGGTGAAAGATGATGCTAAGAAGAATTCTAACCCAATAGAATTACAATAA	MKKLGIIALALFIQNVSAQTNRFVYQVTMKPDAENKTDVKTENAYLDISPEKSVFYSENRIKRDSILQKAFQGGGGRGSINRDQMQGLRTNISYSIEKDKTNQKMYFKDRIGRDMYSYEEDRPLNWKIESETRKIGEYKVQKAETDFGGRKWTAWFTTDLPYQDGPYKFGGLPGLIVKVEDDQGDYSFDLMKNYKIAEFPALNQFGNTLKVKRADYLKQQQKFRTDPMSFMSQSGGGQGGFSATVRAGGGRRGPGGGNQNPADMRKRMEERVKDDAKKNSNPIELQ				NA	NA	NA	NA	NA
BMS003_02752	864		COG2321	putative protein	ATGAAATGGACAGACGACAGAGGCGGAAACGTTGATGACCGCCGTGGCTCCGGAGGAGGAAGTGGAGGTATGATTGTAGGAGGAGGACTCGGAACTCTAATTATAGCAGCCATTGTATTCTTTTTGGGAGGTGATCCATCCGGTATTTTAAATTCCGGCAGCATGCAGTCTTCAGGAAATTCCGGAGAACAAAGAGAACTTACAGTGGGTGAAAAACAGGTTGGAGAAATGGTTGATATGATGGCCAAATGGAATATACTTACCTGGGATCAGATCTTTAAAGAAAACGGAATGACTTACAGCGCTCCTCAGGTCGTTCTTTTTGAAAATACAACTTCTTCAGCGTGTGGTACAGCTCAGTCTGCCATGGGGCCATTCTATTGTCCGGCAGATCAGAAGGTTTATATGGATATGAGTTTCTTCAATGAACTTCAGCAGAAATTCGGGGCAAAAGTTACAGAATTTACCGTAGCATATGTTCTTGCTCATGAAGTAGGGCATCATGTGCAGACTCTTTTAGGAACAACTCAGAAAGTTGACGCACTAAGAAGAAGCGGAAGATATTCTGAAGAACAGTTGAACAGAGTATCCGTTGCAACAGAGTTACAGGCAGACTTCTATGCAGGAGTATGGGCAAAAAGAACTAATGACAGCAAGCATATCCTGGAACCCGGAGACATTGAATCTGCCATAGATGCTGCAGAGGCCGTTGGAGACGATAATATCCAGCGAAGAGCACAGGGATATGTGAATCAGGAAAGCTTTACTCACGGATCTTCTGCACAGCGTAAAGAATGGTTTATGAAAGGTTATAACACAGGGGATATCAGACAGGGTGATACTTTCAATCAGTTACTGAAATAA	MKWTDDRGGNVDDRRGSGGGSGGMIVGGGLGTLIIAAIVFFLGGDPSGILNSGSMQSSGNSGEQRELTVGEKQVGEMVDMMAKWNILTWDQIFKENGMTYSAPQVVLFENTTSSACGTAQSAMGPFYCPADQKVYMDMSFFNELQQKFGAKVTEFTVAYVLAHEVGHHVQTLLGTTQKVDALRRSGRYSEEQLNRVSVATELQADFYAGVWAKRTNDSKHILEPGDIESAIDAAEAVGDDNIQRRAQGYVNQESFTHGSSAQRKEWFMKGYNTGDIRQGDTFNQLLK				NA	NA	NA	NA	NA
BMS003_02753	2079	mdoB		Phosphoglycerol transferase I	ATGTTTTTAAAAAAAATAAAACCCTTCCTATATTTAGGAGTTTTCTATCTTATTATTTCGCTGATAATAAGAACTGTATTCTTTTTTCATCCTATTACTACAGCTAGTTTTGGATTTTTCGAAGTTATAAAGGTATTATTGATAGGTTTGGTAAATGACATTTTTGTTTTCATACTGGCCAGTTCTATTCTTGCACTTTACTTCCTCTTTCTTTCCAATTCAAAATATAAAAAGCCATACGGATATATTATTTTGAGTGCTTTGGTTCTGTTCTTCCTTTATATATGGCTTGTTCCAAACAATATTTTCAAGCAGTATGGAGGTTCTATCATGGAAGTAGCCCTTGTTTTTGTAGGGATAAAGACTCTTTTCTTTGGACTGATGCTTTTCCTTCCTGCTCAAAGGACTAAGATCCGCAATATCCTATATTTCATCACCTTACTTTTATATGTACTTGTGATTATTTTCAACGGAGTAAGCGAATACTTCTTTTACAATGAGTTTGGTGTCCGTTATAACTTCATTGCAGTAGATTATCTTATCTATACCAATGAAGTGATTGGAAATATCATGGAAAGTTACCCAGTCATTCCATTATTTTCTGCCATCATGATCGTTACCCTTACCATCACATGGTTCATTTATAAAAAGACAAAAGACGAACTGCTGGAACTGCCAGATTTTAAACAAAAAATGGTGCTGCTTGGTAGCTTTACAGTATTAAGTGCTCTTAGTTTGCTGGCAATACCATCTCTGATGCAAATCAAATCTGACAATGTTTTTGCAGACGAAATTGAAGCCAACGGACTTCCTAAGTTTTACTGGGCATTTACCCATAATGAGCTGGATTATTTCCAGTTTTACTCACAGATCAGTCAGCAGCAGGCTGAAAAAAATTTCCTGAGCCAATATCCACAGCATACATTATCAAGAGCTGTTGTTTCAGAACAACCTGAACTAAAGAAAAACGTCGTATTGATCTCTATTGAAAGTCTTTCAGCAGATTTTATGGAGCACTATGGCAATACACAAAAAATCACTCCTTTTCTGGACAGCCTTGCTGATAAGTCTCTGATGTTTACCAACCTTTATGCTACAGGAAACAGAACTGTGCGTGGTCTGGAAGCTTTAACCCTTTGTATTCCTCCCACAGCAGGAGAAAGTATCATCAAGAGAGATGACAACAAAAACAAATTTACAACCGGAAGCGTTTTCAAATCCAAAGGATACGATGTTAAATTCCTATATGGAGGGTATAGCTATTTCGATAATATGCAGGACTTCTTCGGAGGAAATGGTTATGATATTGTAGACAGAAATAATTTTAAGCCCGAAGAAATTACTTTTGCCAATGTTTGGGGTGTAGCTGATGAAGATATGGCTAAGAAAGCTATTCAGGTGATGAATGCTGAAGCAAAATCAGGGAAACCGTTTTTTAATCACTGGATGACTGTGTCCAACCACAGACCATTTACCTATCCTGACGGAAGAATAGATATACCCGGCACCGCAAAATCACGTGAAGGCGGTGTAAAATATACAGACTACTCTCTTAAACTGTTCTTCGAAATGGCTAAAAAGCAGGATTGGTATAAAAACACAGTCTTTATTATCATTGCAGACCACTGTGCGTCAAGCGCGGGAAAAACGGAACTTCCAATGGATAAATACAGAATTCCTGCCATGGTCTTTTCAGAAGGGTTTGTGCAGCCTCAAAAGTTTGAAGGGCTAATGTCACAAATCGATCTGATGCCTACTGTTTTCGGACTGTTGAATTTCAGTTACCAATCTAAATTTCTTGGACAGGATGTGTTTAAACCGGAATTCGAGCCTAAAGCCTATATCGCAACATATCAGGATCTAGGTTTCGTAAAAGATGGCCACCTGACAATTATTTCTCCGGTAAAAAAAGTAAAACAGTATTCTCTAGAACTGGAAAAAAGTAATCTGGCACCAGCATTTAAGCTGTATTACGATGAGAAATTATTAAAAAATACAGATCAGAAATTAGTAGATGATGCCATATCAGCCTATCAGTCTACTTCTTACTGGCTAAAAACAAAACAACTGAACAGATAA	MFLKKIKPFLYLGVFYLIISLIIRTVFFFHPITTASFGFFEVIKVLLIGLVNDIFVFILASSILALYFLFLSNSKYKKPYGYIILSALVLFFLYIWLVPNNIFKQYGGSIMEVALVFVGIKTLFFGLMLFLPAQRTKIRNILYFITLLLYVLVIIFNGVSEYFFYNEFGVRYNFIAVDYLIYTNEVIGNIMESYPVIPLFSAIMIVTLTITWFIYKKTKDELLELPDFKQKMVLLGSFTVLSALSLLAIPSLMQIKSDNVFADEIEANGLPKFYWAFTHNELDYFQFYSQISQQQAEKNFLSQYPQHTLSRAVVSEQPELKKNVVLISIESLSADFMEHYGNTQKITPFLDSLADKSLMFTNLYATGNRTVRGLEALTLCIPPTAGESIIKRDDNKNKFTTGSVFKSKGYDVKFLYGGYSYFDNMQDFFGGNGYDIVDRNNFKPEEITFANVWGVADEDMAKKAIQVMNAEAKSGKPFFNHWMTVSNHRPFTYPDGRIDIPGTAKSREGGVKYTDYSLKLFFEMAKKQDWYKNTVFIIIADHCASSAGKTELPMDKYRIPAMVFSEGFVQPQKFEGLMSQIDLMPTVFGLLNFSYQSKFLGQDVFKPEFEPKAYIATYQDLGFVKDGHLTIISPVKKVKQYSLELEKSNLAPAFKLYYDEKLLKNTDQKLVDDAISAYQSTSYWLKTKQLNR				NA	NA	NA	NA	NA
BMS003_02754	519	ribH		6,7-dimethyl-8-ribityllumazine synthase	ATGGCAACAGTTAATCTTTCCGATTACAAGCCACTTCATATAACTAATGCCGAAGATTTTTCTATCGGCATTGTTTTTTCTGAGTGGAATGATTTTGTAACTTACAATCTTCGTGATGCAGCTTTGGAAATACTTGAAAAAGAAGGCGTAAAACCTGAAAACATCAAACTTTTCCCAGTTCCCGGAGCTTTTGAACTCAACTATGCAAGCATGCAGCTTTGCAAAGAGAGAAAATATGATGCAGTAATTTCTATCGGGTGTGTGATCCGTGGAGAAACACCTCATTTTGACTATGTATGTTCTGCTGTAGCACAGGGAATCAAAGATTGTAACATCATGACAGACACCCCTACTATTTTTTGTGTATTAACAGATGATACCAAAGAGCAGTCTATTGCGAGAAGCGGCGGTGATCTTGGAAACAAAGGTGTAGAAGCAGCCGTTACAGCTTTAAGAATGATTGATTTCAAAAAGAAACTATCTGATAAAAAAGGAAATATTGGCTTTGGACACTCTTAA	MATVNLSDYKPLHITNAEDFSIGIVFSEWNDFVTYNLRDAALEILEKEGVKPENIKLFPVPGAFELNYASMQLCKERKYDAVISIGCVIRGETPHFDYVCSAVAQGIKDCNIMTDTPTIFCVLTDDTKEQSIARSGGDLGNKGVEAAVTALRMIDFKKKLSDKKGNIGFGHS	PGPT0008605_605	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
BMS003_02755	708			hypothetical protein	ATGGCAAAATTGGGAAAGAGTGCTCAGAACGAGCAAGAAGGTAAAGAAACGGTTGAGTTCTTTAAAGACCTTGACAGAGAAGCTTTAAACACCGAAAGATTTGTTGAAAAATATTCAAAACCGCTAGGATTTGTATTTGGAGCATTAATTTTAGGAGTTTTGGGATTCTTCGCTTATAAGCAATTTGTGGTTGCTCCAAAGAATGCTGAAGCTATGAAAAGTTTCCTTTCTGCTCAAAAAAGTCTTACTGAAGGTAAAGATAAAGATGCTTTGGGAGGAAAATCAGCAGCTAACCCTGGTTTTGTAGGTACATATAACGAATATTCTTCTACTCAGATCGGTAAACTTTCTTCTTACAATGCTGGTTTATTGAAATTTAAAGAAGGAAAATTCCAGGAAGCGTATGATCTTTTAGATCAGTTTTCATCTGATAACAAGACTTTAGTAGCCATGAAATACGGTGCTATGGCAGATGCAAAATCAGGTCTTAATAAAAATGATGAAGCTTTAGCTTTATTAGACAAAGCAGCTACTGCATCTGATGATCCTTATACAACCTATTATTTTACAAGAAAAGCAGGTATTGTTGCTCTAGGATTAAAGAAAAATGCAGAAGCTAAAAAATACTTCTCAGCAATTGATGAGAAATATCAGGATTACGACAACGGAATGTCCGATTCTTATATTGAAATGACTAAATATTACTAA	MAKLGKSAQNEQEGKETVEFFKDLDREALNTERFVEKYSKPLGFVFGALILGVLGFFAYKQFVVAPKNAEAMKSFLSAQKSLTEGKDKDALGGKSAANPGFVGTYNEYSSTQIGKLSSYNAGLLKFKEGKFQEAYDLLDQFSSDNKTLVAMKYGAMADAKSGLNKNDEALALLDKAATASDDPYTTYYFTRKAGIVALGLKKNAEAKKYFSAIDEKYQDYDNGMSDSYIEMTKYY				NA	NA	NA	NA	NA
BMS003_02756	537	apt		Adenine phosphoribosyltransferase	ATGGCTTCAGCAGAACTGATCAAAAAACTGGAAGAAACAATTGAAAATATCCCTGATTTTCCTATTCCCGGAATACAGTTTAAGGATATTTCACCCATCTTTTTAAATCCGGCACTTTATGAAGATATCATCGCAGATCTTGCTGCCTTCAGTAAAGGAAAAATAGATGTAGTCTGCGGAATAGAAAGCCGTGGTTACCTGTTTGGAATTGCTATTGCCATAGCCCTGGAAGTTCCTTTCATTCTGATCAGAAAAGCAGGAAAACTGCCTCCACCTGTCATTTCAGAAAAATATGATCTGGAATACGGAAGCGCAGTAATTGAAACCCGTGAAGGACAAATAAAACCAGGACAAAGAATTTTGATTCATGATGATCTTCTGGCAACAGGAGGAACTACAGAAGCCGCAGCAAAGCTGGTTGAAAAACAGGGAGCAACCGTTTCCCAATTCAGTTTTCTTATTGGTCTGAACGATTTGAATGGTGATGAAAAACTGAAGAAGTTTGGTGCTGAAGTGTACCATATTTTAGGCTATTAA	MASAELIKKLEETIENIPDFPIPGIQFKDISPIFLNPALYEDIIADLAAFSKGKIDVVCGIESRGYLFGIAIAIALEVPFILIRKAGKLPPPVISEKYDLEYGSAVIETREGQIKPGQRILIHDDLLATGGTTEAAAKLVEKQGATVSQFSFLIGLNDLNGDEKLKKFGAEVYHILGY	PGPT0021455_3165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
BMS003_02757	1194			hypothetical protein	ATGAAAAAGTTTTCTTTTCTACTTGTTTTCAGTCTGTTGCTTTTTACAGCATGTAAGAAAGATCATGTAGATGCTACGAATACTAAAACACTGCAGTCAAGTATCAATGATATGACTTCCAGTTTGCCAACCATTAAGCAGATTAAGTTTAATGAAGCTCTTTATATCCTCAAGACATTCGGAGTAGAGGCAGATGGTGATATCAATGAGCTAACAGCCCTCGGAAAACTGATCAATGGAAAAAAAGTTCCGGAAATCATGTCCCTGGCAGACGAAGTTGCACAGAAAAATGGAATAGAATGGGCAAGTACAGCCCCTCCGTCACTTGGAGAAATGAATATCTTCGGAGACGATAAAGCTAAAGAAAGTGATCCTAATGATGTAAAAGCCGGATCATTAAGCCTTGTTACAAGACCTACAGGAGATGATGGTACCGGTGCACCTACTGCTATTCAGATTGTGCCAAGACTGGTAGACACAGCAGGAAACCCTGTTTCCTTTACAGGAGCAGGTCTGGAAGCTACACTTGAAGTATTTAGTAACGGAGTAAGAATCACAACGGCTAAAAACCTGATGCAGGATAATAACTTTAAAGGATTCAACCTGAAGTTCTCTTCTATCCCGGCCGCTAAAGTAGTGGACAACAAAATTGACATCACAGTTTCTGTAAAAACAACTGCAAAGACTTTCAAAATGTCAAAAATCGGACTTGATGTGAATGCTGCTGCCCTGAAAGTTCCTGCAATTCCTAAAGTTGATACAACTGCAGTAGTGGAACAGCCAAGCGCAGTAATTGATCCAAACAATCCATCAGCAACTCCGGGAGCAACCACAGATCCTGCAACTACAGATCCCGCATCTCCCAAACAGCCTGCTACAGATCCCAAAAATACCGTAAGTAAATTTCTGAACAGTGTAAGTTCACAAAATCTAAAAGCAGCTTACGATACATCAAACAATCCTAGCTGGGGAAGCTATGAGTCTTTCTCTAATCCTACTTCTGGTTTCGGGTCTGTAAAAAATGTAAGTGTAAAAAATATTACAACAAATGGTGCCACAGCCAACAATGCAAGCGTAAATGCTACGTATGATGTAACGGATAAAAGTGGTAAAACAACTTCTTTAAAAGTAACATTCGGGCTTAAAAACGTAAACGGAGACTGGAAAATTTCCAGCTATAAAATCAATCAATAA	MKKFSFLLVFSLLLFTACKKDHVDATNTKTLQSSINDMTSSLPTIKQIKFNEALYILKTFGVEADGDINELTALGKLINGKKVPEIMSLADEVAQKNGIEWASTAPPSLGEMNIFGDDKAKESDPNDVKAGSLSLVTRPTGDDGTGAPTAIQIVPRLVDTAGNPVSFTGAGLEATLEVFSNGVRITTAKNLMQDNNFKGFNLKFSSIPAAKVVDNKIDITVSVKTTAKTFKMSKIGLDVNAAALKVPAIPKVDTTAVVEQPSAVIDPNNPSATPGATTDPATTDPASPKQPATDPKNTVSKFLNSVSSQNLKAAYDTSNNPSWGSYESFSNPTSGFGSVKNVSVKNITTNGATANNASVNATYDVTDKSGKTTSLKVTFGLKNVNGDWKISSYKINQ				NA	NA	NA	NA	NA
BMS003_02758	1122			hypothetical protein	TTGTTAAACGATCAGTCTTTTTTTATGCACATCAATCTGCAGGCAACCATTCTGAACGTTATGTATCTCTATAATGAGATCAATAAACTAAAACAAAATCTTAGTATGAAAACAAAATTTGTCATTTACTCGCTATTTATAGTTTTATTCAATTTTGTTCAGGCTCAAACCATCACGTTCTTATCTGAACATACCAATCAGCCTCTTCCAAAAGTATCTGTATTCGGAAAAGACGGAAATATCCTTGCCTTTTCCAATATCGACGGAAAAATTGATAAACAGGCATTATCTCCTGCACAGGAAAAGTTTCAGTTGGTTTATAATAACTTTCCGGTAGCAACATTATCTTACTCAGACTTTGATCAGCCGGTTATCAGACTCAATGATAAAGTAAAAGAAATTGAAACCATAGTCATCAAAAACAGCAAACCCGCCAGATACATATCAATCAGAGGAAATTTCAATGCCTATGTAACGGTAAACAGTAAGTTAAACAGCTATGCTGACGGGATTGTAACCTATATTTTTGATAATAAATCCAAAAAACTGAAAAGTACCAATGTAGAGCAGTACAGAGTTTTCAGGCTTACGGAATCTAAAAACGAGAAAAAAGAAACGTCTTCATGGGATTATGGGAAATCCCTGCAGCTTCCCAAACTTAAAAATGTAGGAAACCCGGAAGAGTATAAAACAAAAAGGAATGTTATAAAAGAATTAAAAGGAGACCGCAAAGATCAGATAGAAGTAACAGATGGTCTACTTCAGGAAAAAGAATTTTCAATCTTTGGATACAGATTTTATGATATAAAAACAATTCTCAATATGTCCTTTGAAAAAGAATCTGGAAAAACACTGAAAGATTTTCTTGAATATAACGAAGTCGCTTTCGTCAAACTGAAACATAAAAGTGAACCGGAGTATAATCAGATCATTCTTTATGACAATTTTTATCCTACAGAATTGAGTTTCATCAATAAAAATGATATTGAAAAAGTAAAATTTAACAAAGACAACAGCAATTACAAAACATCTTACTGGAAGGATTCGTCGTTTCCCAATATGCAGACTATTTTCAGCAGCTTTTTTAAAGGAGATCTGAAAGAACAGCCAAACAAAAAGTAA	MLNDQSFFMHINLQATILNVMYLYNEINKLKQNLSMKTKFVIYSLFIVLFNFVQAQTITFLSEHTNQPLPKVSVFGKDGNILAFSNIDGKIDKQALSPAQEKFQLVYNNFPVATLSYSDFDQPVIRLNDKVKEIETIVIKNSKPARYISIRGNFNAYVTVNSKLNSYADGIVTYIFDNKSKKLKSTNVEQYRVFRLTESKNEKKETSSWDYGKSLQLPKLKNVGNPEEYKTKRNVIKELKGDRKDQIEVTDGLLQEKEFSIFGYRFYDIKTILNMSFEKESGKTLKDFLEYNEVAFVKLKHKSEPEYNQIILYDNFYPTELSFINKNDIEKVKFNKDNSNYKTSYWKDSSFPNMQTIFSSFFKGDLKEQPNKK				NA	NA	NA	NA	NA
BMS003_02759	1332			hypothetical protein	ATGTATAGTTTTTCACCAAAATTAAAATCAACTTCTATAATACTTCTTGTTGTAGGTTTAGTTCTTTTCGGTATTGGTTTCTTTTTGAACAAAGGAATTTCTACTGAGAAAATAGAACAAATGATGGAAGCTGTTCATGCTTCTGGTCATACAGCTCCTACACACTCAAGTGAAATGGTAGGACCTCAGGATCACGCTGCTCACCTTGAGCATGCTACCATGCAGGTTCACAACCAGCCTCTAGCAGCAATACATTTTGTAGCTGTATTTTTCTTTGGAGTGAGCTGCTGCGTATTATTCTTCTATTCTATTCAGCACGCTGCACACGCAGGATGGCCAATCATCATTACAAGAGTAATGGAAGCTATTGCTTCTTACATCCCTTACGGTGGTGCCATCTTAGTAATCCTTATGATCCTAAACATCACGCATAATGGTCATTTATTCCACTGGATGGACCCTGAATTGACAAACCCGGATTCTCCGCATTTTGATGTGATCTTATTCGAGAAGAAAAAATTCTTAAATATTCCTTTCTATGCAGTAAGAACTTTAATCTATGTGATTGGTGCTTCTTTCTTTGCTTGGAAATTAAAAGCTCAGTCTAAAAAAGTAGATGAAACGAAGTCTAAAGTAGAGTATCAGATGCTTTACAGATGGGCAGTAGGATACATCGCTTTCTTCGGATTTGCTTCTGCAGCATGGGCTTGGGACTGGTTGATGTCTATTGACCCTCACTGGTATTCTACAATGTATATCTGGTATTCAATGGTTAGCTGCCTTTCAAGTGGTATTGCTGTAATCATTCTATTAAGTGTTTACCTTAAGAAAAATGGTTTCTTACCACAGTTCAATGATAACCACTTACACGATTTAGGAGTATTCCTTTTCGCTACAAGTATGCTTTGGACATATACATGGTTCGCTCAGTTCATGCTTTACTGGTATGCAAACGTTCCGGAAGAGGTTAACTACTTTTTCGGCAGATTCCAGCACTACTCTCCTACTTTCTTACCAATGCTGATCATCAACTTCTTATTACCGCTATTGGTATTAGTAAGCAGTAGCATCAAGAGAAACTACAAAGTGGTTACCACAATGGCAGTAGTAGTAATCTTAGGACACATCTTAGACTACTTCAACATGGTAATGCCGGGAACGGTAGGACCATACTGGAACACTCCTGAAGTATTCTTGTTAATCCTTGGAGCAATCCTATTCGTAGCCGGATTATTTATGTTTACTGTACTTTCAGCTTTATCTAAACTGAAGTTGATCCCTACAGGAAACCCATTCTTACACGAATCTGAAATTTATGAGTATCCTTTCTAA	MYSFSPKLKSTSIILLVVGLVLFGIGFFLNKGISTEKIEQMMEAVHASGHTAPTHSSEMVGPQDHAAHLEHATMQVHNQPLAAIHFVAVFFFGVSCCVLFFYSIQHAAHAGWPIIITRVMEAIASYIPYGGAILVILMILNITHNGHLFHWMDPELTNPDSPHFDVILFEKKKFLNIPFYAVRTLIYVIGASFFAWKLKAQSKKVDETKSKVEYQMLYRWAVGYIAFFGFASAAWAWDWLMSIDPHWYSTMYIWYSMVSCLSSGIAVIILLSVYLKKNGFLPQFNDNHLHDLGVFLFATSMLWTYTWFAQFMLYWYANVPEEVNYFFGRFQHYSPTFLPMLIINFLLPLLVLVSSSIKRNYKVVTTMAVVVILGHILDYFNMVMPGTVGPYWNTPEVFLLILGAILFVAGLFMFTVLSALSKLKLIPTGNPFLHESEIYEYPF				NA	NA	NA	NA	NA
BMS003_02760	672	petJ		Cytochrome c6	ATGAAAAAGAATGTATTAAAAATTACAGCAGTTTTAGGTTTAACAACAGTTTTACTTAACTCTTGCGGACCAAAGGAAAACACTCCGCTGGTATATTTCCCGGACATGTATTTTCCGGTAGCTTATGATCCATTGATGAAAGCTGAGGACGCTTATTCAGATCATGAAAATGAAATTCCTGCTTTTGTTAAAAATAATGGTGCAACAGGTCTTTCTCCTGTAGAAGGATCAGTTCCTCAAAATAAAGATGGAGTTTTTGAAGAAAGTTTACTCCCTAAAAATGTTGACGAGTACAACGCTGGATATGATGCTTCGAAAAAACTTACAGTATCTCCTTTGAACCCGGCTAATGCAGCTAAAGATCTTGAAAGAGGTAAAATATTGTTTGATCATACTTGTGCTGCATGCCACGGAACAGGAGGTGACGGACAAGGATCTATCGTTCAAAGCGGAGCATTCTCTGGAGTACCAAACTATGCTGACAGAGAAATTACTGTAGGATCTGTTCATTATGTATTAACAAACGGTAGAAATGCGATGGGATCTTATGCGGGACAACTGAACGCAGGAGACAGATGGAGAGTAGCAATGTATGTGATGAGTGCTTTCAAAAAAGGAGCAGCAGCACCGGCAGCAGCAACAACTGAAACGACTACCGAAACTAAAAAATAA	MKKNVLKITAVLGLTTVLLNSCGPKENTPLVYFPDMYFPVAYDPLMKAEDAYSDHENEIPAFVKNNGATGLSPVEGSVPQNKDGVFEESLLPKNVDEYNAGYDASKKLTVSPLNPANAAKDLERGKILFDHTCAACHGTGGDGQGSIVQSGAFSGVPNYADREITVGSVHYVLTNGRNAMGSYAGQLNAGDRWRVAMYVMSAFKKGAAAPAAATTETTTETKK				NA	NA	NA	NA	NA
BMS003_02761	522			hypothetical protein	ATGAGCACCACTAAAATTGTATACGGACTTTATGCTGACGACGACGATTTAATGAACGGCGTTAAAGCATTCAACGATAAAGGAATCGCAATAAACGAGGTTTATACTCCGTTTCCGGTTCACGGACTAGATAAAGCTTTAGGGTTAAAGAAAACTAGAATTTCTGATGCTGCTTTCATCTATGCTTGTTATGGTGTTACTATCGGTGCTACTTTAACCTGGTATGTAATGAACCACGACTGGCCTCAGAATATCGGTGGTAAACCAGCTTTTGACTGGGGACACAACATGCCGGCATTCGTAGTTCCAATGTTCGAGCTTATGGTATTCTGTGCTGCTCACATGATGTCATTAACTTTCTTAGTAAGAAATAAAATGTATCCTGGAGCTGCTCCACAAAACCCAGATCCTAGAACAACGGATGATAAATTCATGATGGAATTTGTAACTGAAGATGTAGAATCTGTAAAACAGTTGCTTATTGAAACTGGAGTTGAAGAAATAACTGTTAAAGATGCTTAA	MSTTKIVYGLYADDDDLMNGVKAFNDKGIAINEVYTPFPVHGLDKALGLKKTRISDAAFIYACYGVTIGATLTWYVMNHDWPQNIGGKPAFDWGHNMPAFVVPMFELMVFCAAHMMSLTFLVRNKMYPGAAPQNPDPRTTDDKFMMEFVTEDVESVKQLLIETGVEEITVKDA				NA	NA	NA	NA	NA
BMS003_02762	1398			hypothetical protein	ATGTCAGGACATTACGAAGCTCCGATAAGGGAACCTCTAATTATTGGTCACAAAACTTATCACGATATCACAGAAGATATTGCACGACCTATCGAAGAAAGAGCAGGTAAATTATGGTGGATCTCATTATATGCTGCGTTAGTTCTATTCCTCTATGGATTCGGCTGTATCGCTTATACTATCGGAACAGGTATTGGAGCATGGGGGCTTAACAGAACTATTAACTGGGGTTGGGATATTACCAACTTCGTATGGTGGGTAGGTATTGGTCACGCCGGAACCTTAATCTCAGCGGTATTATTATTATTTAGACAGAGATGGAGAATGTCTGTAAACAGATCTGCAGAAGCAATGACGATCTTTGCAGTTGTACAGGCAGCAATCTTCCCTGTAATTCACATGGGTAGAGTTTGGGTTGGATACTGGGTATTCCCTTTACCAAACCAATTCGGTTCTCTTTGGGGGAACTTCAACTCTCCTCTACTTTGGGACGTATTTGCGATCTCTACGTATTTCTCGGTATCAACTGTATTCTGGTTCATGGGACTAATTCCTGACTTTGCAATGATCAGAGATAGAGCTAAAACTCCTTGGACGAAGAAAATTTATACATTCCTTGCATTTGGTTGGGGTGGTAAAGCAAAACACTGGCAAAGATTCGAAGAACTTTCTTTGGTTCTTGCAGGTTTGGCAACTCCACTTGTATTCTCAGTACACACCACCGTATCCTTTGACTTCGCCACTTCAGTAATTAAAGGATGGCACTCCACGATCTATCCTCCTTACTTCGTTGCTGGTGCTATCTTCTCAGGATTTGCAATGGTACAGACACTATTGTTGGTTGCAAGAAAAGTATGTCACTTAGAAGAATATATTACAATGTATCATATCGAAATTATGAACATCGTAATCATCTTAACAGGTGGTATGGTAACTGTAGCTTATGCTACTGAATATTTCATCGGATGGTACTCAGGATCTCGATTTGAAGATTTCACATATCTTTCACCAGGTGCTGCTGTAGGACCTTACTGGTGGGCATTCTGGTCATTGATCATCTGTAACCTTGTTGTTCCTGCTTCTTTCTGGTTCAAGAGACTAAGAACGAACATTATCTGGACATTCATTGTTGCATTAATCATCAACATCGGTATGTGGTTTGAGCGTTTTGATATTATCGTTATCAACCTTTCCAGAGACTACTTACCAGGATCATGGACAATGTTTAAGCCAACGATCATTGATGTGGGTGTATACTTAGGAACTATAGGATTCTTCTCTGTATTATTCTTATTATACGCAAGAACATTCCCTGTAATTGCACAGGCTGAATTAAAATCGATTTTGAAAATCTCAGGTGAAACTTATAAAGCAAAAGAAGGAGATGAGCACCACTAA	MSGHYEAPIREPLIIGHKTYHDITEDIARPIEERAGKLWWISLYAALVLFLYGFGCIAYTIGTGIGAWGLNRTINWGWDITNFVWWVGIGHAGTLISAVLLLFRQRWRMSVNRSAEAMTIFAVVQAAIFPVIHMGRVWVGYWVFPLPNQFGSLWGNFNSPLLWDVFAISTYFSVSTVFWFMGLIPDFAMIRDRAKTPWTKKIYTFLAFGWGGKAKHWQRFEELSLVLAGLATPLVFSVHTTVSFDFATSVIKGWHSTIYPPYFVAGAIFSGFAMVQTLLLVARKVCHLEEYITMYHIEIMNIVIILTGGMVTVAYATEYFIGWYSGSRFEDFTYLSPGAAVGPYWWAFWSLIICNLVVPASFWFKRLRTNIIWTFIVALIINIGMWFERFDIIVINLSRDYLPGSWTMFKPTIIDVGVYLGTIGFFSVLFLLYARTFPVIAQAELKSILKISGETYKAKEGDEHH				NA	NA	NA	NA	NA
BMS003_02763	3063			hypothetical protein	ATGGCTTCAAACAAAATACAATTCAGAAGTATTCATGAACTTAAAGATCCAGCTTTGAATAATAAGCTGGCTCAGAAAGAGTTTCAGGAAGAAATTCCGGTAGAAGATTTCCTTGGAGATGCTGAGCAAAACGGATCTAGTACTTCAAGAAGAGATTTCCTTAAATTACTAGGATTCTCTACAGCAGCAGTAACATTAGCTGCCTGCGAAGCTCCGGTAATCAAAACGATTCCTTATGTGGTAAAACCACATGATATTATTCCGGGAGTCCCTAATTATTACGCTTCAACATATTTTGACGGTTTCGACTTTGCTAGTGTTTTAGTAAAAACCCGTGAAGGTAGACCCATCAAAATTGAACCCAACCCGGCTGGCGGCGATTTAGGTAAAACTAACGCAAGAGCCCAGGCAAGTGTACTTTCTCTTTATGATAACGATAAAGTAAAACAGCCTAAACTAGACGGTAAAGATGAAACTTTCGACAAAGTAGACAGTTTTGTTATTAAAGGATTGGAAGAAGCTAAAGCGTCAGGCAAAAAGATTGTGGTTCTATCACACTCTTTTGCTTCACCAACTTTCAAAAAGTTATTCGCTGAATTCAAAGCTAAATATCCTACAGCTGAATTAGTAACCTATGATGCTTTCCCTTACTCTGCAGGATTAGATGCAGCTCAGGAAGTATTCGGACAGAGAGCATTACCTGTTTATGACCTTAAAGGTTCTGAATTGGTAGTTTCTTTCCAGGCTGATTTCTTAGGAGACTATAACGCTTCAAGCTTAGAAAGTTCTTATGCAGCAGCAAGAAAACCGGGAGCAAACATGTTGAGACACATTCAGGTGGAATCTAACATGTCATTAACCGGTGCTAACGCTGACTCAAGATACAGATTAAAACCAAGTGCTGTAAACAAAACTTTAGTTGAAGTTTACAACGCAATCGTAGGTGGCGGCACCTCTGATAAGACTGCAACTGAAATTGCTAATGAATTGAAAGCAAAAGGAAGCAAAGCTGTTGTTTTTGCTGACGGTTCTAAAGGAGCACAGGTTTTAGCACACTTAATCAACCAAAAATTAGGATCAGTAGCTTTCACAGGTAAAGCAAACTTCCTTAAAGAATTCAACGGTGCTAAATATCAGGAATTCTTAGGATGGGTAAATGGTGGACAAGTTGGTGTATTAATTACAAATAACGTAGACCCTATCTACTCTCATCCAAAAGGAGAGGATTTCAAAAAATCTTTATCAAAAGTTCCTTACGTAGTTGCTGTAGCAGATAAGAAAAATGAAATGTACAAAGCAGCGAAAGCTGTAATTCCGGTAGCTAACTGGTTAGAGTCTTGGGGAGATATCGAACCACAGACAGGAGTATATTCATTAATGCAGCCTACTATCCAGAAAATCTACAAATCAAGACAGATTGAAGAATCTCTATTGGTTTGGAAGAATGGTAAAAACAATGCAGCAAACAATTACTACGATTATCTGAAGGCAAACTCTGCTTCTCTTTTAGGTGGTACTTCTTTCAACAAAGCATTGTATAACGGTATCAACGCTTCTACAAACACAGCTACTTTAGCTTACACAGGAGGAAACGCTGCTCAGGCTGTTGCTGAACTAGGAAACTTTAAAGCTTCTGAATTAGAATTAGTATTATACACTAAGACTTCCATGGGAGACGGTACTCAGGCAAACAACCCTTGGTTACAGGAGTTACCTGACCCAATCACAAGAATGTCTTGGGATAACTACCTTACAATTTCTCCTAAAGATGCAGAGAAATTTGCAATTGACAACGATCTTAATGCGAGAATGCAGCTAGATGGTTCTATTGTAAACCTTACTGTAAATGGAGTTAAAATAGAAAACGTTCCTGTATTTGTACAACCAGGACAAGCTGAAGGATCTGTAGGTCTTGCACTTGGATATGGTAAGAAAAACTCAGGAGCAACTGCTGATACTGGTGTAAACGCTTATCCTTTATTTGACGGTTCTAACCTTGTTCTTTCAGGTGTTAAAATTGAAAAAACAGGAGAAGATCACGAGTTCGCAGGAATCCAGCTTCAGAATACATTGATGGGTCGTTATGAGATTGCAAAGGAAGTTCCTTTGGCAGATTTCATCAACGTAGCTTTCGATGACGAGCACAAAGGATGGAACAAACCTTTGGAATACCATACGATCAGCGGAGCACTTCCAGCGAGAAAAATTGACCTTTGGGATGCTTTCGATGATACAGATGGTCCTCACTTCAACTTATCTATCGACCTTAACTCTTGTACAGGTTGTGGAGCATGTATCATTGCCTGTCAGGCAGAAAACAATGTTCCTGTAGTAGGTAAAGATGAAGTAAGAATGTCCAGAGATATGTACTGGTTAAGAATTGACCGTTATTACTCTTCAAGACAAACTGTAGAAGTATACGAAGGATTAAAAGATGGATTAGCTGTACCAGAATTATACGGTACTGCATTCAACAAAGAAGGAGGTGCATTAAACCACCCTGCTGATAATCCGGATGTAATCTTCCAGCCTGTAATGTGTCAGCACTGTAACCACGCTCCATGTGAAACAGTATGTCCGGTAGCGGCAACTTCACACGGTAAGCAAGGTCAAAACCATATGGCTTACAACAGATGTATCGGTACAAGATATTGTGCAAACAACTGTCCGTACAAAGTAAGACGTTTCAACTGGTTTACTTATAACCTAAATGACAAGTTCGATTTCAACATGAACAATGATTTAGGAAGAATGGTACTTAACCCGGATGTAGTTGTAAGAACTAGAGGGGTAATGGAGAAATGTTCAATGTGTATCCAAATGACTCAGAATACTATTCTTGAGGCTAAGAAAGAAGGAAGAAGAGTGAAGGATGGAGAATTCCAGACTGCTTGTTCTAAAGCTTGTTCTACCGGAGCAATGACATTTGGAGACATGAATGATAAAGATTCTTCAATTAGAGAGCAATATGCATCTAACAGAAGATATTATTTACTAGAGGAGATCGGAACAAAACCAAACGTGTTCTATCACACTAAAGTAAGAAACAGAGTAGAAAAATAA	MASNKIQFRSIHELKDPALNNKLAQKEFQEEIPVEDFLGDAEQNGSSTSRRDFLKLLGFSTAAVTLAACEAPVIKTIPYVVKPHDIIPGVPNYYASTYFDGFDFASVLVKTREGRPIKIEPNPAGGDLGKTNARAQASVLSLYDNDKVKQPKLDGKDETFDKVDSFVIKGLEEAKASGKKIVVLSHSFASPTFKKLFAEFKAKYPTAELVTYDAFPYSAGLDAAQEVFGQRALPVYDLKGSELVVSFQADFLGDYNASSLESSYAAARKPGANMLRHIQVESNMSLTGANADSRYRLKPSAVNKTLVEVYNAIVGGGTSDKTATEIANELKAKGSKAVVFADGSKGAQVLAHLINQKLGSVAFTGKANFLKEFNGAKYQEFLGWVNGGQVGVLITNNVDPIYSHPKGEDFKKSLSKVPYVVAVADKKNEMYKAAKAVIPVANWLESWGDIEPQTGVYSLMQPTIQKIYKSRQIEESLLVWKNGKNNAANNYYDYLKANSASLLGGTSFNKALYNGINASTNTATLAYTGGNAAQAVAELGNFKASELELVLYTKTSMGDGTQANNPWLQELPDPITRMSWDNYLTISPKDAEKFAIDNDLNARMQLDGSIVNLTVNGVKIENVPVFVQPGQAEGSVGLALGYGKKNSGATADTGVNAYPLFDGSNLVLSGVKIEKTGEDHEFAGIQLQNTLMGRYEIAKEVPLADFINVAFDDEHKGWNKPLEYHTISGALPARKIDLWDAFDDTDGPHFNLSIDLNSCTGCGACIIACQAENNVPVVGKDEVRMSRDMYWLRIDRYYSSRQTVEVYEGLKDGLAVPELYGTAFNKEGGALNHPADNPDVIFQPVMCQHCNHAPCETVCPVAATSHGKQGQNHMAYNRCIGTRYCANNCPYKVRRFNWFTYNLNDKFDFNMNNDLGRMVLNPDVVVRTRGVMEKCSMCIQMTQNTILEAKKEGRRVKDGEFQTACSKACSTGAMTFGDMNDKDSSIREQYASNRRYYLLEEIGTKPNVFYHTKVRNRVEK				NA	NA	NA	NA	NA
BMS003_02764	1359			hypothetical protein	ATGATTAGTTGGAGAAAGCATTATAAAAAAACGTTGATCGCAATAGGCTTATTGCTATCAACCAGTGCTTCATTTTACGGGCAAGACGGCGATCCTAAAAACGGAGAGAAACTTTTCAAAGCGAATTGTACTGCATGTCACGCGCTGGACAAACAAGTTGTTGGACCACCATTAAAGGGGGTTGTAGAACGAGTAAAGACAGAAGGCGGTGTAGACAAAGATTGGCTTCACAAGTGGATCAAAGACAACAAAGCTCTGAGGGCTTCCGGGGACAAATACGCCAATGAGATTTTTGAAAAGTTTAATAAGACTGAAATGCAGGTCTTTCCAAATCTTACAGATAAGGATATTGACGACATTTTAGCTTTCACTACTAATCCGCCAGAGCCGGAACCAAAGAAGGATGATGCAAAAGCAACTGCTGGCTCTACTACTGCAGCTCCTGCAGACAAAACCACTACAAACGTTGTAATCATTTCACTTTTAGCGATCGCAGGTTTACTGGTTTGGATCCTGGTAAAACTAAGACAATTGGTAAAACTGGGTCAGTCTGAAGATTTAGCCGGGCTTAATGAATCAAGAGTTCGTTCTTTCAGTGAAATGTATGAGAAATTCCACTATATCGGTAAAGGTTTATTGGCAATTCTTGCCATTCTGGCCGCTTACGGAGTATGGAACTGGTTAATGTGGATCGGGGTTTACAAAGGATACAAACCTGAGCAGCCTATCTACTTCTCTCACAAAATCCACGCCGGAGAACAGAAAATTGACTGTCAGTTATGTCACTCCAGTGCTAAATATGGAAAAGTATCTGAAATTCCTTCTATGAACGTTTGTATGAACTGTCACAGAACAATTTCTGAATACAACGCAGATCACTACATGGAGCCAGGAAAAGACAAGGCATTCTATGACGGAGAAATCCAGAAGATCTACGCAGCAACAGGTTGGGATCCTGAGAAACAACAGTACACAGGAAAAACACAGCCGGTTGAATGGACAAGAATCCACAACATGCCAGATTTCGTTTACTTCAACCACTCTCAGCACGTAATTGCTGGAGAACAGGCAATCATCAATTCTTTCAACAAAAAGAATCCTAACAACAAAATTGACGTTGTATGTAAAGCTTGTCACGGTAAAATTGATACAATGAATGTTGTTCAGATGGCTAATGACTTTACTATGGGATGGTGTATCGAATGTCACAGAACGACTGAGGTTGATATGAACAACGGTTATAATAAAGAGTACTTCAAAAATCTACACGACAAGTTGAAAAAACAATATCCACAAGATGGAGGTAAGATCACTGTAGATGCAATTGGAGGCCTTGAGTGTGGTAAATGTCATTATTAA	MISWRKHYKKTLIAIGLLLSTSASFYGQDGDPKNGEKLFKANCTACHALDKQVVGPPLKGVVERVKTEGGVDKDWLHKWIKDNKALRASGDKYANEIFEKFNKTEMQVFPNLTDKDIDDILAFTTNPPEPEPKKDDAKATAGSTTAAPADKTTTNVVIISLLAIAGLLVWILVKLRQLVKLGQSEDLAGLNESRVRSFSEMYEKFHYIGKGLLAILAILAAYGVWNWLMWIGVYKGYKPEQPIYFSHKIHAGEQKIDCQLCHSSAKYGKVSEIPSMNVCMNCHRTISEYNADHYMEPGKDKAFYDGEIQKIYAATGWDPEKQQYTGKTQPVEWTRIHNMPDFVYFNHSQHVIAGEQAIINSFNKKNPNNKIDVVCKACHGKIDTMNVVQMANDFTMGWCIECHRTTEVDMNNGYNKEYFKNLHDKLKKQYPQDGGKITVDAIGGLECGKCHY				NA	NA	NA	NA	NA
BMS003_02765	558			hypothetical protein	ATGAGAAATCTAATCAAAATATTTTCGATATTATCATTATTCGGATTTTATAATATTGAAGCACAGCAAGTTGTTAAAAGAGATACCCTTTCGGGGACGGAACTTGTTATGACAATGGATTCCAAAATAAATGCTGCTTTGGAAGGAATTGAAGGTAAATGCGCCAGGGTAACTTCAGCAAATTCTACTAAAGATTTCAATTCAATTGATGGTGGGATTTCTACAGGAACCGGTACAAAACCCTCCAAAATATTAGTGCCGAGCAGAGAGCTTACGAATGCTGAAATTTGTAGAAAAAATCCTAGGATTTTAGGGTTCAAAATCCAGATTACCACAGTGAAAAGCAATGAGGAAGCCAATGAAGTGAAATCTTATTTCAGAAAAAGATTTCCTAATCTGAAAGTAGAAACAGATGCTTCATTAAGACCTAATTATAAAATTTTGGCAGGAAGTTATTTCACAAAACAAAGTGCAGCAAGTGATCTTTCTAAGATCAGAGAATATTTTAAATCTGCAGTTGCTGTACAATACAGAATTTTCTGTGCGGAAGCAAAATAA	MRNLIKIFSILSLFGFYNIEAQQVVKRDTLSGTELVMTMDSKINAALEGIEGKCARVTSANSTKDFNSIDGGISTGTGTKPSKILVPSRELTNAEICRKNPRILGFKIQITTVKSNEEANEVKSYFRKRFPNLKVETDASLRPNYKILAGSYFTKQSAASDLSKIREYFKSAVAVQYRIFCAEAK				NA	NA	NA	NA	NA
BMS003_02766	1278			hypothetical protein	GTGTCTTTTATCAAAATAAAAATCATCAATTTTTTCAAACTGATTTTCCCTTCTACTTATACTGAAGTTATCGTTTTTCTTTTTTTCATCATATGCTATGGAACTCTAGGTTCATATATTGCCCTCCATTACAGAATTATTTTCGATAACAGAATTCCCTGGGATGCCTATTTCAGTTTTGACAACAAGTCTATTCTGATGACCGGAGGCAGTTTTGAGAGACATCCCCTCTCTTACTATTTCTTCAATGGGGTAAGAGAATTTTCATTATTCGTATCAGGCGGAAAAATGGACTCAAGTTTCAGACTTACGCTGGCTTGGCTCAGCAATATTATCATCACTTTAAATATTGTTCAGGTTTTTAAATATCTAAAGAATATTATCTGCCTTCCTTTATGGCTTAGCATTTTAATTATATTGTTCTTCGGAGCTTTTTCAACCAACATTATACTATCCTTCACTCCGGAAAACTTCACGTATACTTTATTTCTGCTTTCATTATATAATCATTATGCTGCAATAAAACTGCGGGAGGAACAAAAAACACCTGCAGCAGCTCTTTCTCTGGCCGGAATTACAATCGGAGGACTTACCATTACCAATTTTGTAAAAGTTTTCATTCCTCTTCTTTTTGAAAAAAATATTTTCAAAAACTGGAAAAAATTTGGAAATGCCGTATTCCGGGTAATGATTGCTGTAATCTGTTTTGTACTGCTTTACCTGAACAGAATAGATTTTAAATACCAGAACATCTTTTCAAAAACCAATCAACAGTACGAAAAGTTCTCTAATGTAGAATCAATGCCTACATGGGATATGATCCTGTCATTCTTTTTCGGAGGGAATATCCTTTTTTCCGGATTCATTATTTCGGATAAACATAATATGAAAGGGTTTAATTTCAAGGGGCTTTATATGGATCTTTATTCATCTCCTCTTCCCTACTTATTTGTAGCTCTATTACTCCTACTGATCATTTGGAGTTATCTTAAAAATTTCAAAAACAAATGGGTTCAGGTAATTGCCATTTCATTTTTTGTTGACCTTGTGATCCATTGTGTGATGAGGTTTGGGCTTCACACCTCATATATTTACGGAGGACACTTTGTTTTCGTATATCCTATTTTACTAGGATGGCTCTTCTACGCTTACAGATCCTCACCTAAAATGATGTCATATTTAACATTAACCCTGATCACCCTGCTTGTTTATTTGCTCATCAATAATGTACTCCGTATGACAGAGTTTTTCTGGTTTATGGAAACATATTACCAATAA	MSFIKIKIINFFKLIFPSTYTEVIVFLFFIICYGTLGSYIALHYRIIFDNRIPWDAYFSFDNKSILMTGGSFERHPLSYYFFNGVREFSLFVSGGKMDSSFRLTLAWLSNIIITLNIVQVFKYLKNIICLPLWLSILIILFFGAFSTNIILSFTPENFTYTLFLLSLYNHYAAIKLREEQKTPAAALSLAGITIGGLTITNFVKVFIPLLFEKNIFKNWKKFGNAVFRVMIAVICFVLLYLNRIDFKYQNIFSKTNQQYEKFSNVESMPTWDMILSFFFGGNILFSGFIISDKHNMKGFNFKGLYMDLYSSPLPYLFVALLLLLIIWSYLKNFKNKWVQVIAISFFVDLVIHCVMRFGLHTSYIYGGHFVFVYPILLGWLFYAYRSSPKMMSYLTLTLITLLVYLLINNVLRMTEFFWFMETYYQ				NA	NA	NA	NA	NA
BMS003_02767	858			hypothetical protein	ATGAAAAGAATTATACTTTCTTTAAGTTTATTATCGGGAATTATCACGTATTCCCAAACTCTATTGTCAGAAAATTTTAATGGCACTACCTTTCCACCAACAGGCTGGAACATTTCCGCAAGTCTTGCCAGCAGACCATGGGGACCATCTAATGTAGTATCTACATTTCCATCAAGCGGAAACGGAGCAATAACAACATACTCTATTAACGGAACTACATCAGCCGCAATTGATTATTCTGCACAGAGCAATACTGCCCATCTTGTAAGTCCCGCTTTCAGTTTAGCTGGAGCCACAGCTCCCGTATTAAAATTTAATGTTGTGGTAGGATGGTCATATATGATAGACCAGGACGCAGGAAACCTCCTTGCTCAGATTTCTACAGACGGAGGAACTAACTGGACAACTCTTTGGGACGAAGATACAGAGTCAGGATTTGTGGATGACGGCGATAACGATCCAGACACGGATACCTACAACACGGTTGCTGTACAAAAAGACCTTTCAACCTATGTGGGACAGTCTAATGTCATGATCAGATTCCGGTACATTGCAACGGATGCAGATGCTGTTTCTATAGATGACGTACAGGTTCTTGCAAACGGCACCCTGGGAACCAATGAAACTGCTTCTAAAAAGTCATCTTTAGAAATTTATCCTAATCCTGCAAAAGAAGAAATAAATATAAGAGCAGACAAAAAAATTAAGTCTTCAACTGTTTTCGATATGACAGGAAAACCCCTGCTTCAGACAGAGAACGAGAAAGCAAATGTCTCATCTCTTCCTAATGGCAATTATTTGGTAAAAGTTGTATTTACTGACGGAAGTACATCAACAAGAAAAATAATCAAACAATAA	MKRIILSLSLLSGIITYSQTLLSENFNGTTFPPTGWNISASLASRPWGPSNVVSTFPSSGNGAITTYSINGTTSAAIDYSAQSNTAHLVSPAFSLAGATAPVLKFNVVVGWSYMIDQDAGNLLAQISTDGGTNWTTLWDEDTESGFVDDGDNDPDTDTYNTVAVQKDLSTYVGQSNVMIRFRYIATDADAVSIDDVQVLANGTLGTNETASKKSSLEIYPNPAKEEINIRADKKIKSSTVFDMTGKPLLQTENEKANVSSLPNGNYLVKVVFTDGSTSTRKIIKQ				NA	NA	NA	NA	NA
BMS003_02768	1542	selO	COG0397	Protein adenylyltransferase SelO	ATGAATATCGAACGTATCAGACAGCCTTTTATTGAGAATTTCCCCGGTGATTTCACTAACAATCCTATGCAGAGAAATACACCAAAGGTTTTATTTGCCACCATTAAACCTGCCGGATTCGACAAACCTGAACTGATTGCTTTTAATGAAGCCTTATCAGAAGAAACAGGACTGGGAAAATTTGAAGATAAAGACCTGGACTTCCTGGTGGGAAACAACCTCCCAGAAAACGTTCAGACCTATGCTACAGCCTATGCAGGACATCAGTTCGGCAACTGGGCAGGACAGCTTGGGGACGGAAGAGCTATTCTTGCCGGCGAAATCATAAATGAAGGCGGCCAAAAAGCAGAAATCCAATGGAAAGGAGCCGGAGCTACTCCATACTCAAGGCATGCTGACGGAAGAGCCGTATTAAGATCTTCCGTAAGAGAATACCTAATGAGTGAAGCCATGTATCATTTGGGAATACCTACAACAAGAGCACTCAGCCTCGCTTTCACCGGTGAAGATGTAATGAGGGATATTATGTACAGCGGGAATCCTCAACTTGAAAAAGGAGCTGTGGTAATCAGAATTGCTGAAAGTTTTCTGAGGTTTGGGCATTTCGAGCTCATGTCCGCTCAAAGAGAATACAACAGCCTGCAAAAGCTTTCTGATTTCACCATTGAAAATTACTTTCCGGAAATAACATCCACTGACCATCAAAAATACAGGGACTTTTTCGAAAATATCTGTACCCGTACTGCAGATCTCATGGTGGAATGGTTCAGAGTAGGATTTGTACATGGAGTGATGAATACAGATAACATGTCTGTCCTGGGGCTAACTATTGATTATGGACCTTACTCTATGATGGATGAGTATGATCTGAATTTCACACCCAATACAACCGATCTTCCCGGAAGAAGATATGCCTTCGGAAAGCAGGGACAGATTGCCCAGTGGAACCTTTGGCAGCTTGCCAATGCCCTTCACCCATTAATTAAAGATGAAAAATTTTTAGAAGATACTTTAAATAATTTCGGAACCTATTTCTGGGAGGCTCATGATAAGATGCTTTGTAAAAAATTTGGATTTGATCAGCTACAAAAAAATGATGAAGATTTTTTCACCAGCTGGCAGGGACTCATGCAGGAACTTCAGCTGGATTACACCTTATTTTTCAGCAAACTGGAAACAGTAACTCCGGACATTGATCCGGAAGAGCATTTTAAAGACATCTCTTATATTGTTTTAAATGATGATATGCTGGCAAAGCTTGGCAACTTCATTGTCAGTTATCACAAAAGATTAAAACTGAATTCTATTTCAAAAGAAGATTCAAAAGAAATGATGATGAAAACAAACCCTAAATTCATTCTCAGAAACTATCTTCTTTACGAATGTATTGAGGAGATCAGTAACGGAAGAAAAGAAATGCTGAGAAAACTCACTAAAGCATTAGAATCTCCTTATCAGGAACTCTATCCGGAGTTTTCGGTCAAAAGACCAGCTGGCTATGATGATACTGCAGGATGTTCTACACTTTCATGCAGTTCTTAA	MNIERIRQPFIENFPGDFTNNPMQRNTPKVLFATIKPAGFDKPELIAFNEALSEETGLGKFEDKDLDFLVGNNLPENVQTYATAYAGHQFGNWAGQLGDGRAILAGEIINEGGQKAEIQWKGAGATPYSRHADGRAVLRSSVREYLMSEAMYHLGIPTTRALSLAFTGEDVMRDIMYSGNPQLEKGAVVIRIAESFLRFGHFELMSAQREYNSLQKLSDFTIENYFPEITSTDHQKYRDFFENICTRTADLMVEWFRVGFVHGVMNTDNMSVLGLTIDYGPYSMMDEYDLNFTPNTTDLPGRRYAFGKQGQIAQWNLWQLANALHPLIKDEKFLEDTLNNFGTYFWEAHDKMLCKKFGFDQLQKNDEDFFTSWQGLMQELQLDYTLFFSKLETVTPDIDPEEHFKDISYIVLNDDMLAKLGNFIVSYHKRLKLNSISKEDSKEMMMKTNPKFILRNYLLYECIEEISNGRKEMLRKLTKALESPYQELYPEFSVKRPAGYDDTAGCSTLSCSS				NA	NA	NA	NA	NA
BMS003_02769	2379	mrcA	COG5009	Penicillin-binding protein 1A	ATGGAAGAAAACAAAAAAAATGCAGGAAATAAGGGGAAAACATTTCCTCTGCCTCCCAAAAAAAAGAAAGATAGCTCCTGGAAAAAATGGGTCTCGTTCATTTGGATCGGACTTATTGCTGTAGTTCTGGGAATTTCGGGAATTTTCTTTGCGGTTTCCCAGGGATTTCTTGGGGAAATGCCCGATGTAAAAGAACTTGAAAACCCGGACATCTTTGTGGCTTCTGAAATCATTTCTTCAGACGGAGTCACTTTGGGTAAATTTGAAAAAGAAAAAACCCAGCCAATTGTTTACAAGGACCTTCCCCCTTTTCTTATCTATGCCCTTCAGGCTAAAGAAGATGAACGCTTCAAAGAACACTCTGGGATCGACTTATATTCTATTGCCAGAGCTGTAGCATATGGAGGAGGACGTGGTGGAGGTTCTACCATTACTCAACAGCTTGCAAAACTTCTTTTTACTGGAAGTGCTTCTCAAAATAAAATAGAAAGAGCATTCCAAAAGTTAAAAGAATGGGTAGTAGCTGTAAGCCTTGAAAAAAGATATACCAAAGAAGAAATTGTAACCCTGTATTTCAATAAGTTTGATTTTCTATACAATGCAAATGGTATTGAAATGGCTTCCAGAATATACTTCAACAAGAAAACATCCGAACTTACTTTACCCGAAGCAACAATGTTTGTTGCGATGCTTGAAAACCCGGTAAAGAACAACCCAATGAGAAATCCGGAAAGAGCAAAGGCAAGAAGAGATGTTGTTTTGGATCAAATGCTAAAAACAGGCTATATAGATCAGGCTACGTTTGATAAAGCTACTGCTACGCCTATTACATTAGATTATCATCCAATTAAGAATATTAATGATGATTATTCTGCCTATTACAAGTTTTACCTGAGAAAAGAAATTGACAAGTATCTTGAGGCTCACGAAAAAGAAACCGGTAAAAAACTAAATCTTTATAAAGACGGCTTAAAAATATATGTTACTCTCGATTCTAAAATGCAGAAATATGCAGAAGATGCAATCAAGGAACACTTAACAGACCTTCAAAAAAGATTTGATGCAGAACAGAGAGGAAGAAAAAACAAGCCGTTCTATTATCTGACCGACAAACAAATCAACAGTGTGATGGTTCAGGCCATGAAGAGAACAGGCAGATATAAGCTGCTAAAAGCTGACGGAATGCCTGATGATTCTATCATGATGGAATTCAAAAAACCTATCAAAACTTCAAGATTCACATGGAACGGAGAAGAAGAGGTAGAAATGTCTCCCTGGGATTCCATTAGATACCACAAACAGATTGCACAGGCAGGCCTGATGTCTATGGTTCCGGGAACCGGAGAGATCAAAGCATGGGTAGGTGGTATAGACTGGCAGCATTTCCAATATGACCACATCAAGCAAGGTAAGAGACAGGTAGGATCCACATTCAAACCTTTCGTGTATGCAACCGCTATTATGAAACTGGGAATGACTCCTTGCTCAACAGTTTCTAACGGAACTTACGATCATAACGGATGGCATGTACCGGGAAGAGGCGGAATGCTTACCTTAAAAGACGCATTAGCACACTCTCAGAACCCTGTAGCTGCAAGACTTATTGAAATGACAGGAGTAGATGCTGTAATCCAAACGGCAAGAGACCTGGGAGTTACAGAAGATATTCCAAGAAACAATACAATTGCTTTAGGTTCATCAGACATTACGATCTATGAAATGCTTGGTGCCTATAGTACTTTCGCCAACTATGGTAACTATATCAAGCCGGAGATGATCTGGAGAATTGAAGACGCCAATGGTAGAGTAATCAAAGAAGTAAATGTAGAGCCAAAAGAGGTAATGAACCCAATGTACGCATATACCATGATTGAACTCATGAAAGGTGTAGCACAGTTCGGGACAGCCTCCGGAGAACTGGGAAGAAAAGGCATTTCCAAAGCAGTGGAAATTGCAGGTAAAACAGGAACAACCCAAAATAACTCAGACGGATGGTTTATGGGAATCACCCCTAAATTAGCAACCGGAGCATGGGTTGGATGGGAAGACAGAGCCACTCACTTCTATGGTACTGGAGAAGGTCAGGGTGCGAAAATGGCATTACCAATCTGGGCAATCTTCATGAAGAAAGTATGGGCAGATAAAAGTTTAGGAATTTCTCCTGACGATAAATTTATCAAACCATCTGACTGGAAAGACGGCTGTTCAAACCTTAGAGGCCTAAGCGGAGGATACGGAGACGACGGAAGTCTTCAGACAATAGATGAAATCAAAAATCCAAAACCAATTGATCCGACTCCTAAAAAATCATCAGAAAAGAAGGAGGATAATATCAATGAAAATCTTCATTCCAATGATGAGGTAGATTTCAATAAATAA	MEENKKNAGNKGKTFPLPPKKKKDSSWKKWVSFIWIGLIAVVLGISGIFFAVSQGFLGEMPDVKELENPDIFVASEIISSDGVTLGKFEKEKTQPIVYKDLPPFLIYALQAKEDERFKEHSGIDLYSIARAVAYGGGRGGGSTITQQLAKLLFTGSASQNKIERAFQKLKEWVVAVSLEKRYTKEEIVTLYFNKFDFLYNANGIEMASRIYFNKKTSELTLPEATMFVAMLENPVKNNPMRNPERAKARRDVVLDQMLKTGYIDQATFDKATATPITLDYHPIKNINDDYSAYYKFYLRKEIDKYLEAHEKETGKKLNLYKDGLKIYVTLDSKMQKYAEDAIKEHLTDLQKRFDAEQRGRKNKPFYYLTDKQINSVMVQAMKRTGRYKLLKADGMPDDSIMMEFKKPIKTSRFTWNGEEEVEMSPWDSIRYHKQIAQAGLMSMVPGTGEIKAWVGGIDWQHFQYDHIKQGKRQVGSTFKPFVYATAIMKLGMTPCSTVSNGTYDHNGWHVPGRGGMLTLKDALAHSQNPVAARLIEMTGVDAVIQTARDLGVTEDIPRNNTIALGSSDITIYEMLGAYSTFANYGNYIKPEMIWRIEDANGRVIKEVNVEPKEVMNPMYAYTMIELMKGVAQFGTASGELGRKGISKAVEIAGKTGTTQNNSDGWFMGITPKLATGAWVGWEDRATHFYGTGEGQGAKMALPIWAIFMKKVWADKSLGISPDDKFIKPSDWKDGCSNLRGLSGGYGDDGSLQTIDEIKNPKPIDPTPKKSSEKKEDNINENLHSNDEVDFNK	PGPT0023875_3128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS003_02770	465	gldH		Gliding motility lipoprotein GldH	ATGCATAAAATTTTAGGATTACTGTCACTTATCCTTTTCTTTAGTTGTAACTCTTCCTCAGGAGGAGATATCATCATGAATTCCGTTGATAATAAATGGAATAAGAAAAGTGAGCAAAAATTTAATCTTGAAATTTCAGATCCGCAGAATCCTAAAAATATTATATTTGTTGTAAGAAATAACAACAGCTATCCTTACAGCAACATAAGGTTTATAGTGAACTTCACCAATCTCCAGAACAAAAAGAAGGAAACCGACACCTTAAATTATGTACTGGCAAAACCCAATGGTGAATGGCTTGGTACGGGGTTTGGTGATACGAAGGAAACTTTGTTTCAGTATAAAGTAAATTACAGATTCCCGGTAAAAGGAAAATATGAAATCGGTCTGATTCAAGCGATGAGAAATGATACCCTTTCGGGGATTGAGGATATTGGGGTAAAAATAGAAACGGCTAAACCGTAA	MHKILGLLSLILFFSCNSSSGGDIIMNSVDNKWNKKSEQKFNLEISDPQNPKNIIFVVRNNNSYPYSNIRFIVNFTNLQNKKKETDTLNYVLAKPNGEWLGTGFGDTKETLFQYKVNYRFPVKGKYEIGLIQAMRNDTLSGIEDIGVKIETAKP				NA	NA	NA	NA	NA
BMS003_02771	1404			hypothetical protein	ATGAGTTGTGGATGTAAAACATCCGGCGATTCTGCACATTCTTGCGGTCCAAAGAAAACCGCAAATGGCTGTGAAAATGTAAATACCTGCGGGAATAGTTATAAATTAAGTGTTTTTGACTGGCTTTCCAACATCAACAATCCTGCACCGAACAGGTGTGATTTTGTAGAAGTTAGATTTAAAAATGACAGGAAATCGTTTTATAAAAATGTAAATAATATTCCTTTACATATTGGTAGTGTAGTTACAGTAGAATCAAGTCCGGGACACGATGTAGGCGTTGTAAGCCTTACGGGAGAATTAGTAAAGATTCAGATGAAAAAGAAAAAGTTTTCTGAAGAATCTGCACTCAAAATATACAGACAAGCCAACCAAAAAGATCTTGAGGTATGGCAGGAAGCAAGAAAAAAAGAAGACAGCGTAAAACTTGAAGCAAGAAAAATTGCTCAAAGACTAGGTCTTGAAATGAAAGTTACCGATGTTGAATACCAGGGTGACTCTTCAAAAATAACCTTTTATTACACCGCTGATAACAGAGTGGATTTCAGACAGTTAATTAAAGATTACGCAGGAGCATTCCGTACAAAAATCGACATGAAACAGATCGGTTTCAGACAGGAAGCGGCAAAAGTAGGCGGAATCGGGTCTTGCGGACGTGAGCTCTGCTGCTCCACATGGCTTACTGATTTCAGATCTGTAAATACCAATGTGGCAAGATATCAGCAGCTGAGCATCAATCCTCAGAAACTGGCAGGACAGTGTGGTAAACTTAAATGCTGCCTTAATTATGAGCTGGACAGTTACCTGGACGCATTAAGTAACTTCCCTTCTTCTTCAACTACCTTAGAAACAGAGAAAGGAAAAGCATTCTGTATTAAAATTGACGTTTTCAAAAAGAAAATGTGGTTTGCGTATGTAGATAGCTCTATCGCTTGGTATGATTTCGATATTGACCTTGTGAAAAAACTGATTTCAAAAAACAAAAGAGGAGAAAAAACACTTCCTCTCGAAGACCTGAAACAACCGGAAACCTCTAACCATACCATAGATCTGATCCAGGAAAACAATGTGGATCGTTTTGAAAAGAGAAACAGAGGAAACAGAAACAGGAACAATCAGAATAAACAGCACAATAACCAACAAGGGCAACAAGGACAGACACAGGGACAAAAAAGAAACAGACCTGAAAGGCAGGAAAGACCGGACAGATCTGAAAAACCTGAGAGACCTAATGCCAACACCCAATCCGGAAATCAGCCCAGACCTCAAAAACAAAATCCACAGCAAAAAGCACCAGTGGAAAAAGCAGAAGGAAATGCTGACGGTGAAAAAAGACAACAAAACAATCCAAACAAGAAGAAATTCAAGAAGAAATATCCTCCAAAAAAAGATAATAATGCATAA	MSCGCKTSGDSAHSCGPKKTANGCENVNTCGNSYKLSVFDWLSNINNPAPNRCDFVEVRFKNDRKSFYKNVNNIPLHIGSVVTVESSPGHDVGVVSLTGELVKIQMKKKKFSEESALKIYRQANQKDLEVWQEARKKEDSVKLEARKIAQRLGLEMKVTDVEYQGDSSKITFYYTADNRVDFRQLIKDYAGAFRTKIDMKQIGFRQEAAKVGGIGSCGRELCCSTWLTDFRSVNTNVARYQQLSINPQKLAGQCGKLKCCLNYELDSYLDALSNFPSSSTTLETEKGKAFCIKIDVFKKKMWFAYVDSSIAWYDFDIDLVKKLISKNKRGEKTLPLEDLKQPETSNHTIDLIQENNVDRFEKRNRGNRNRNNQNKQHNNQQGQQGQTQGQKRNRPERQERPDRSEKPERPNANTQSGNQPRPQKQNPQQKAPVEKAEGNADGEKRQQNNPNKKKFKKKYPPKKDNNA				NA	NA	NA	NA	NA
BMS003_02772	1239		COG2067	Putative outer membrane protein	ATGAAAAAAATATTAGTATCAACTGCTTTATTGGCGGGAGTTCTATCTTACGCAGGAGGCTTCAGAGTTTCCCTGCAGGGGGTAAAACAATTGGCAATGGCGCATACTAGTGCTCATGCCGAAGACGCGAGTGTGACATTCTTTAACCCGGCGGGTATGTCATTTATCCCTACCAAACTGAGTGTAGTGGCAGGAGGGTTTGCAGCAAGTAATAAAGTTACTTTTCAAAACTTCAATACTTTACAGAGTGCAGAAACAGATAACCCTGTAGGAACTCCTTTCTATGCAGCGATTACTTATAGACCAATAGAGAAACTTACCGTAGGTCTTAGTGTAACAACGCCTTTCGGAAGTACAATCAAATGGCCTGATGACTGGGAAGGTAAAGAAATGGTTCAGAAACTAGAATTGAAAAGTTTCTATTTCCAGCCAATGATTTCTGTGAAACTTGCTCCATGGGTATCTTTTGGTGCTAGTTATATTTATGCAAAAGGAGTAGTAGACTGGGACAAGGCGGTAACGCAATTTGATGGTAAAGTTAATATTAACGATAAAAAAGCGAGTGGACATGGATATGGTTTCGGTTTTTATTTCAGACCTGATCCGAAATTAGATGTGAGTATTGCCTACCGTTCAGCGATAGATATGAAAGCTAAAAACGGTACAGCTACATTCCAGTTCCCTTCGCAATCTGTTTATAATCAGCTAAAACTGAATGCAGCAGGGCAGGACGGATTCTCTGCGACGCTGCCATTGGTTGAAGAATATACTATTGGTTTAACGTATAAGGTGACACCAAAATGGCAGGTTTCTGCAGACTTCAACTATCATGGATGGGAAAGATACAGCAAGCTTACCTTGGATTTCGAAAATGCTCCTATTGGAAACAACCCGTCAGATCCAACTATTCTTACAAATCCTAAAAACTTCAAAAACTCCAAAACATTCAGATTGGGAACTCAATATGCATTTACCAATATGATTTACGGACGTTTGGGAGCTTATTATGATGAAGCGCCTTATACTACAGATAATTTTATTCCGGAAACACCTTCATATGATACTTATGTTATTACAGGAGGTATTGGCTTTAAGCTGAAACAATTCGGGATTGATATTGCCGGAGGGTATGCAATGCCTCAATACAGAAATGTGAATAATGCTAATCTTGGTTTCTACGGCCAGTCTAAAGCAACAGCATTTTACTTAGGTTTAGGTTTATCTTATAATCCTTTTTAA	MKKILVSTALLAGVLSYAGGFRVSLQGVKQLAMAHTSAHAEDASVTFFNPAGMSFIPTKLSVVAGGFAASNKVTFQNFNTLQSAETDNPVGTPFYAAITYRPIEKLTVGLSVTTPFGSTIKWPDDWEGKEMVQKLELKSFYFQPMISVKLAPWVSFGASYIYAKGVVDWDKAVTQFDGKVNINDKKASGHGYGFGFYFRPDPKLDVSIAYRSAIDMKAKNGTATFQFPSQSVYNQLKLNAAGQDGFSATLPLVEEYTIGLTYKVTPKWQVSADFNYHGWERYSKLTLDFENAPIGNNPSDPTILTNPKNFKNSKTFRLGTQYAFTNMIYGRLGAYYDEAPYTTDNFIPETPSYDTYVITGGIGFKLKQFGIDIAGGYAMPQYRNVNNANLGFYGQSKATAFYLGLGLSYNPF				NA	NA	NA	NA	NA
BMS003_02773	1563			hypothetical protein	ATGAAAAAAATTATAATATCGACAATTGCAGTTTCTGCACTTCTTTTTACAGTAACAAGCTGTAATACAGATTTCGATACGGATGTGAAAGATATCCAGGTGACAAAAGGAGATGCAGACTTCTCAAAATATATTTCTTTAGGAAATTCCCTTACTTCGGGATACCGTGATGGTGCACTATATAGCAGCGGCCAAAATGAATCTTACCCAAATATGATTGCAGGACAAATGAGACTTGCAGGTGGTGGTGATTTTAAACAGCCATTAATGCCTAATGATGTAGGAGGGTTTAATAATCTTCCAGGGTTTTCTGGTAAGTTAACTCTTCAGGTTGTTAATGGGTCTTTAACCCCTGTGCCAAGTGCTCCTGCTGCTGCATTAGACGTTTTGTCCGGTGGTGGAACTTATAACAATATGGGGGTGCCTGGTGCAAAATCATTTCACTTAGTAGCTCCTGGATACGGTAGCCAGGCAGGTCTGGCAACCGGTACAGCTAACCCTTACTTTGTAAGGTTTGCTTCTTCTGCTACTACAAGTGTATTGGCTGATGCAATGACTCAGAAGGCAACATTTTTCTCTCTTTGGATAGGAAATAATGATGTATTGTCGTACGCTACCAATGGAGGAACAAATTCTCAGACTGTAGGAGGTGTTACCACTTATACACCAGCTATGGTTCAGACAGGAAATACAGATCCTACCACTTATAAATCAAATGATATCTCTGATCCTGCACTTGTTGCCGGATCTATTAAGGCGGTTTTAGACGGTCTTAAAAGTGTAGGAACAACAAAAGGTGTTATTGCCAATATCCCTTCTGTTACTTCAGTTCCTTTCTTTACTACTGTGCCTTATAACCCTTTGACACCTGCTCTTTTAGGTGCAAATCTGACCACTCTTAATACAAGTTTATATGGTCCTTTGAAACAGGCGCTTACTGCCTTTGGAGCTGGGGATAGAATTAATTTGCTTTCTGCAACAGGTCCCAACCCTGTTCTGATTAAAGATGTTGCTCTTGCAGATTTATCTGCTCAGCTTACAGCAGCACTTACTCCTTCTTTAGGATTACCTACAGCTACTGCTTTTGGGCAAATCTTTGGACAGGCCAGACAGGCTACTGCGGATGATTACATTTTGCTTACCACAAGCTCTGTGATTGGAAGTACTGCACCGGGTGTTCCTGCTCCGGTAAATATTTATGGGATTTCTTACCCGTTACAAAACCAACACGTATTAACAAAAACAGAAGCGGGCTACGTACAAACTGCTACAACAGCATATAATACTTCTATAAAATCACTTGCTGATTCTTATGGGTTGGCATTTGTAGATGCCAATGCTAAAATGGTTGAACTGAATGCTCAGTCAGGAATTGTATTTGACGGAGTGAAATATTCCGCAAAATTTGTGACAGGAGGAGCCTTCTCTTTAGATGGGGTTCACCTTACAGGACGTGGGTATGGTATTGTTGCTAATGAATTTATTAAGTCTATCAATGCTAAATTTAAGTCTACGCTTCCACAGGTAGACCCGAACAAATATTCAGGAGTTAAATTCCCTTAA	MKKIIISTIAVSALLFTVTSCNTDFDTDVKDIQVTKGDADFSKYISLGNSLTSGYRDGALYSSGQNESYPNMIAGQMRLAGGGDFKQPLMPNDVGGFNNLPGFSGKLTLQVVNGSLTPVPSAPAAALDVLSGGGTYNNMGVPGAKSFHLVAPGYGSQAGLATGTANPYFVRFASSATTSVLADAMTQKATFFSLWIGNNDVLSYATNGGTNSQTVGGVTTYTPAMVQTGNTDPTTYKSNDISDPALVAGSIKAVLDGLKSVGTTKGVIANIPSVTSVPFFTTVPYNPLTPALLGANLTTLNTSLYGPLKQALTAFGAGDRINLLSATGPNPVLIKDVALADLSAQLTAALTPSLGLPTATAFGQIFGQARQATADDYILLTTSSVIGSTAPGVPAPVNIYGISYPLQNQHVLTKTEAGYVQTATTAYNTSIKSLADSYGLAFVDANAKMVELNAQSGIVFDGVKYSAKFVTGGAFSLDGVHLTGRGYGIVANEFIKSINAKFKSTLPQVDPNKYSGVKFP				NA	NA	NA	NA	NA
BMS003_02774	939	prs	COG0462	Ribose-phosphate pyrophosphokinase	ATGGCCGATCAGTTAAGTTATCTATTTTGTACAAGAACCAGCAGGGACTTGGCAGAGAAAATTGCCCAGAGTTATGGGAAAGAATTAGGAAAAATCAACTTTCAGGAGTTCAGCGACGGAGAATTTGAGCCTGTTTTGGACGAATCTGTAAGAGGAGGAAGAGTTTTCCTGATTGGATCTACATTCCCTCCTGCAGACAATCTTTTGGAACTTCTTCTAATGATTGATGCAGCAAAAAGAGCTTCTGCAAAGAGCATTACCGTAGTAATTCCTTACTTTGGTCTTGCCAGACAGGACAGAAAAGACAAACCAAGAGCACCGATCGGTGCAAAATTAGTTGCCAACCTTCTTACAGCAGCAGGAGCAACAAGAATTATGACCATGGACCTTCATGCAGATCAGATTCAGGGATTCTTTGAAATTCCGGTAGATCATCTGTATGCTTCTACTATTTTCGTAGACCATATCAGATCTCTGAATCTTGATAACCTTACCATTGCTTCTCCAGATATGGGAGGTGCCAAAAGAGCTAAAAACTATGCGGGCCATCTTGGTGCTGAAGTAGTAATTGCTTATAAAGAAAGAAAAAAAGCAAACGTGGTAGAAGAGATGTTCCTTATCGGAGATGTAACAGGTAAGAACGTAATCCTTATTGATGATATGATTGATACTGCCGGTACACTTTGCAAAGCCGCAGATATCCTGATTGAAAAAGGAGCCAAAACAGTAAGAGCTATGGCAACTCACGGAGTGCTTTCAGGCAAGGCTTACGAGAATATTGAGAACTCAAAACTTCTGGAAGTTATTGTAACTGACTCAATTCCTGTTAAAAATAATTTGTCGTCTAAAATAAAAGTGCTATCTTGCGCCCCGTTATTTGCGGATGTTATGACCATGGTTCATGAGCATAAATCAATTAGTAGTAAGTTTGTTATTTAA	MADQLSYLFCTRTSRDLAEKIAQSYGKELGKINFQEFSDGEFEPVLDESVRGGRVFLIGSTFPPADNLLELLLMIDAAKRASAKSITVVIPYFGLARQDRKDKPRAPIGAKLVANLLTAAGATRIMTMDLHADQIQGFFEIPVDHLYASTIFVDHIRSLNLDNLTIASPDMGGAKRAKNYAGHLGAEVVIAYKERKKANVVEEMFLIGDVTGKNVILIDDMIDTAGTLCKAADILIEKGAKTVRAMATHGVLSGKAYENIENSKLLEVIVTDSIPVKNNLSSKIKVLSCAPLFADVMTMVHEHKSISSKFVI	PGPT0021480_5390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
BMS003_02775	636	rplY		50S ribosomal protein L25	ATGAAATCTATTACAATTCAAGGTACAAAAAGAGAAAGCGTGGGCAAAAAGTCTACAAAAGCTTTACGTGATGCTGAATTAGTTCCTTGTGTTGTTTATGGAGGTGAAGCACCTTTGAACTTCTCTGCTGAAGAGAGAGCTTTCAAAGGATTAGTATACACTCCTGAAGCACACACGGTATCTATTGAAGTTGACGGAAAAACAATTCCAGCTGTTCTTCAGGATATTCAGTTTCACCCAATCACGGACAAAATTCTTCACATTGACTTCTATCAACTATCTGACGATAAGCCAGTTGTAATGGAGGTTCCTGTAAGAATTACTGGACGTTCTAAAGGTGTTGTTGCTGGTGGTGTTTTACGTCAGTCTTTCAGAAAACTAAAAGTAAAAGCTATTCCTGCTAACCTACCTGACGAAATCGTTGTAGATGTTACTCCATTAAGAATTGGTAACAAACTTTACATCGGTGGTATCAAGGCAGAAGGTTATTCTTTCATGCACCCGGACAATGCAGTAGTAGTAGCTGTTAAGATGTCTAGAAATGCAATGAAAGGAGGTGCAGCTGCAATGGATGATGAAGATGAAGAAGAAGTTGCTACTGAAGAGGCAGCAGCTCCTGAAGCAGGAGCAGAATAA	MKSITIQGTKRESVGKKSTKALRDAELVPCVVYGGEAPLNFSAEERAFKGLVYTPEAHTVSIEVDGKTIPAVLQDIQFHPITDKILHIDFYQLSDDKPVVMEVPVRITGRSKGVVAGGVLRQSFRKLKVKAIPANLPDEIVVDVTPLRIGNKLYIGGIKAEGYSFMHPDNAVVVAVKMSRNAMKGGAAAMDDEDEEEVATEEAAAPEAGAE				NA	NA	NA	NA	NA
BMS003_02776	1221	sufS	COG0520	Cysteine desulfurase	ATGTTTGACATTCAGGAAATAAGAAGCCAGTTTTCTATATTGGACAGAGAAGTGAATGGTAAGCCCCTGGTTTATCTGGATAATGCAGCTACATCCCAAAAGCCGAATTCAGTTTTGGACGTCTGTCACGCATATTATACAGAACTTAATGCCAACGTTCACAGAGGAATTCATACGCTGAGCCAGCTGGCAACAGAAGAAATGGAGCTTTCAAGAAGAAAAATCCAGAGATTCATTAACGCTGAACATGATTTTGAAGTAATCTTTACAAAAGGTACCACAGAAGGCCTGAACCTTATTGCTTATATTTTAACACAGAAGCTACAGAAAGATGATGAAATTATTATTTCATATCTGGAGCACCATTCTAATATTGTACCATGGCAGATGCTTTGCGAAAGAACAGGAGCAAAGCTTCGGGTAATTCCTATTGATGAAAACGGAATTCTTCAGATGGATTATTTTGATCAGTTTTTAAGTGAGAAAACAAAGGTCGTTTCTGTGAATCAGGTTTCCAATGCATTGGGAATAGTGAATCCTGTTGAGGAGATTATTACCAAAACAAGAAAGAATACAGATGCTTATATTGTGATAGACGGTGCCCAGTCTGCTCCGCATTTCAATATTGATGTTCAGAAAATGGATTGTGATTTCTTTGTTTTCTCAGGTCATAAAATATATGCTCCTATGGGGACAGGAGTTTTATACGGAAAACGTGAGATTTTAGAAGACTTGCCCCCATTTCATGGAGGAGGAGAGATGATTGCAACGTGCTCTTTCGAAGGAACTACTTATGCGGGTCTTCCGTTTAAATATGAAGCAGGAACACCTAATGTAGGTGGAAATATTGCTTTAGGAGCTGCTGTTGATTTTATGAACAGAGTAGGTCACACCAATATTCAGAATCATGAAAATGCTTTATTAGAATATGCTCAAAGACAGCTTTTAGAATTAGAAGGTATTAAGATCTATGGAGAAAAAGCGAAGAGAACAGGAGTTGTTTCCTTTAACTTAGAAGGAGTAGGTATTGCTTCTGACGTAGGGATGATTCTTGATAAAATGGGAATTGCTGTAAGAACAGGGCATCATTGTACACAGCCTATTATGGACTTTTTTAATATTGCAGGAACGGTAAGAGCAAGTTTCGCGGTATATAACACTTTCGAGGAAATTGATATTCTGGTAGAAGGTGTTAAGAAGGCACAGAGAATGCTGAGCTAA	MFDIQEIRSQFSILDREVNGKPLVYLDNAATSQKPNSVLDVCHAYYTELNANVHRGIHTLSQLATEEMELSRRKIQRFINAEHDFEVIFTKGTTEGLNLIAYILTQKLQKDDEIIISYLEHHSNIVPWQMLCERTGAKLRVIPIDENGILQMDYFDQFLSEKTKVVSVNQVSNALGIVNPVEEIITKTRKNTDAYIVIDGAQSAPHFNIDVQKMDCDFFVFSGHKIYAPMGTGVLYGKREILEDLPPFHGGGEMIATCSFEGTTYAGLPFKYEAGTPNVGGNIALGAAVDFMNRVGHTNIQNHENALLEYAQRQLLELEGIKIYGEKAKRTGVVSFNLEGVGIASDVGMILDKMGIAVRTGHHCTQPIMDFFNIAGTVRASFAVYNTFEEIDILVEGVKKAQRMLS	PGPT0020195_3612	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
BMS003_02777	126			hypothetical protein	ATGAAAAAACTAAACAAAGAAAAATTGAAAAACACTATGGCAGGAGGAGAAATCTGTCTTGAGCGTGCTATCGGCTATTACAAAGTCATTATTGACGGCCAATGCTATTGTTTTCCCATAGACTAA	MKKLNKEKLKNTMAGGEICLERAIGYYKVIIDGQCYCFPID				NA	NA	NA	NA	NA
BMS003_02778	885			hypothetical protein	ATGTATAATTACATTTTGTACAGTATAATTTACTATTTTTATATAAACATCAAATTTCTTATTATGAAAAAATTATCTATTTTATTCTTATCTATTGTTGGTATATGTAATGCACAGGTCTTCTCCGAAGACTTCAACGGTAATACTTTGCCGACCGGATGGACGGTAGAAAATCCGGATACCTCTTATAATTGGAGCGTAGGTACACAAAGTGGTTTCGCAGGATTTCCTGATGGTGCGGCTTTTTTTGATGATGATGCGGCAGGCCCTGCCGGAGTGAATACAAATGCCCGGCTGATTTCTCCTGTGATTAACCTTACCGGGGTTTCGAATCCAAAACTTTCGTTTGATTATGCTAATATGATCTATGATTTTGATTCTACTTTAAAAGTTGAAGTTTTCAATGGTACCTCCTGGGTTCAGGTTTTTACCTTTTCTGGAGAAGCAGGGGTGTGGGATATTGATTTTGATACCTTTTCATATGTCGTAACGGCTTATGACCAGGCAGTAAATATAGATCTGACACCATATGCCAATGCAGCCTTTAAAGTTAGGTTTGTTTATGACGATGTAGGAGATTATTCTTACGGTGTTGTAATAGATAACGTGATGATTACAAACGCAGCTCTGGGAACGTCAGAAGCTTCGTATGCTGATCATATGGAGGTATATCCAAATCCGGTTAAGGAAAACCTTTATATTAAGAAAAGCTCCCAATATAAGATCGAAAAGGTTTCTGTAACTGATCTGTCAGGGAAGCTTGTAAAAGTATTTAATAAAATATCGGATTCTTATGATCTGTCAGATCTGCCGAAAGGAGTTTATATTATAATGATCATTAATCATGATGGACAAGTGGCTAAGAAGAAGGTCATAAAGGAATAG	MYNYILYSIIYYFYINIKFLIMKKLSILFLSIVGICNAQVFSEDFNGNTLPTGWTVENPDTSYNWSVGTQSGFAGFPDGAAFFDDDAAGPAGVNTNARLISPVINLTGVSNPKLSFDYANMIYDFDSTLKVEVFNGTSWVQVFTFSGEAGVWDIDFDTFSYVVTAYDQAVNIDLTPYANAAFKVRFVYDDVGDYSYGVVIDNVMITNAALGTSEASYADHMEVYPNPVKENLYIKKSSQYKIEKVSVTDLSGKLVKVFNKISDSYDLSDLPKGVYIIMIINHDGQVAKKKVIKE				NA	NA	NA	NA	NA
BMS003_02779	1032	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGATAAAAAACGACCTATATTTAAAAGCACTTCGCGGAGAAACCGTTGAAAGACCTCCTGTCTGGATGATGAGGCAGGCTGGAAGATATCTGCCGGAATTCATTGCTTTAAGAGACCAGTATGATTTCTTTACAAGATGTCAGACCCCTGAGCTTGCGGCTGAAATCACTCTACAGCCTATCCGCAGATTTCCTTTGGATGCTGCGATTCTGTTTTCTGATATTCTGGTAGTTCCACAGGCAATGGGAATTGATTTCAAAATGAAAGAATCCGTTGGACCTTGGCTGGATACCCCAATCAGAACAATGGAGCAGGTTCAGAATATTGAAACTCCGGATGTGAATGATACTTTAGGATACGTTTTTGATGCGATAGAGCTTACTCTTCAGAAGCTGGACAATGAGATTCCATTGATTGGTTTTGCAGGTTCTCCATGGACGATTCTTTGCTACTGTGTAGAAGGAAAAGGAAGCAAAGCTTTTGATATTGCAAAATCTTTCTGTTTCCAACAACCGGAAGCGGCTCACTTATTACTGCAAAAGATTACAGATACTACGATTGCCTATTTAAAGAGGAAAGTAGAAAAAGGAGTTTCTGCTGTACAGGTTTTCGATTCCTGGGGAGGAATGCTTTCTCCTGCAGATTATCAGGAATTCTCATGGCAGTATATCAATCAGATTGTTGAAGCACTAAGCCCTCTTACTCACGTGGTAGTATTTGGAAAAGGGTGCTGGTTTGCGCTGGAAGACATGACAATGTCTAAAGCTTCTGCCCTGGGCGTAGACTGGACTATTAAACCTGAATTTGCAAGAACTCTGACTAATCATACGATGACTCTACAGGGGAATTTTGATCCTGCAAGACTTCATTCAACTCCTGAAACCATTAAGAAAATGGTGAATGAAATGATCAACCGTTTTGGAAAAGACAGATATATTGCCAATTTAGGACACGGAATCTTACCGAATGTCCCTGTTGAAAATGCAGAGGCATTCATCAGAGCAGTAGTAGACTGGAAACCGAATTTATAA	MIKNDLYLKALRGETVERPPVWMMRQAGRYLPEFIALRDQYDFFTRCQTPELAAEITLQPIRRFPLDAAILFSDILVVPQAMGIDFKMKESVGPWLDTPIRTMEQVQNIETPDVNDTLGYVFDAIELTLQKLDNEIPLIGFAGSPWTILCYCVEGKGSKAFDIAKSFCFQQPEAAHLLLQKITDTTIAYLKRKVEKGVSAVQVFDSWGGMLSPADYQEFSWQYINQIVEALSPLTHVVVFGKGCWFALEDMTMSKASALGVDWTIKPEFARTLTNHTMTLQGNFDPARLHSTPETIKKMVNEMINRFGKDRYIANLGHGILPNVPVENAEAFIRAVVDWKPNL	PGPT0008465_4034	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
BMS003_02780	684			hypothetical protein	ATGAAAATCTTATTTACCAAAAATATAGACCAGGCAATTATATCCAAAGAATTAGGAGAGGATATTTGGGTTGACTGTGTAGAGGTGATTAAGACCCAATCTATTATGATCAATCCTTTTGATCTGAAAAACTATTCTCTGATATTTACCAGCGTGAATGGGGTTATTTCGTTTTTCAAAAACAGGTTTAAGCCTAATGAGAATTTTACTGCCAAAAATTACAACAAGATCTATTGTGTAGGAGAAAAAACAAAGAGGGAGCTAAGAAAACATGGTTTCGGAACATTTAAGGTTTTGAAAAATGCCGAAACTCTTTCCAGGTTCATTATCGGAAAATGCCAGCACGAACAGTTTCTCCATTTCTGCGGTAACCTTGCCATTAATGTACTGGACAAGGAGCTTCCTTTACAAAACATTAAGTACAAAAAAGTTACAATATATAACACTGAGGAAACTCATCCTGTAATAAATGAAAAATATCATGCTGCAGTATTTTTTAGTCCGAGCGGAGTTCGTAGTTTTGCAAAGCGAAATTCTCTGGAAGGTATGAAGCTTTTTTCAATTGGCGAAACCACTTCGGGTGAGCTGAGAAATTATACCCAGGAATACATTTTTACTTCTGAAGAAAATACGCTTACTTCTATCTTTGAGCTGATAAGAAAAGAAATCAGAGGCAGAATTTAG	MKILFTKNIDQAIISKELGEDIWVDCVEVIKTQSIMINPFDLKNYSLIFTSVNGVISFFKNRFKPNENFTAKNYNKIYCVGEKTKRELRKHGFGTFKVLKNAETLSRFIIGKCQHEQFLHFCGNLAINVLDKELPLQNIKYKKVTIYNTEETHPVINEKYHAAVFFSPSGVRSFAKRNSLEGMKLFSIGETTSGELRNYTQEYIFTSEENTLTSIFELIRKEIRGRI	PGPT0003665_4232	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS003_02781	909	hemC	COG0181	Porphobilinogen deaminase	ATGAAAAGCATTAGAATCGGAACGAGAAATTCCGCACTTGCAATTTGGCAGGCTAGAGAGGTTGCGAGGCACCTTCAGAACAACAATTATTTAACAGAAATTGTTCCTATCGTTTCTTCTGGCGATAAGAACCTTAATCAGCCACTTTATTCTTTAGGAATTACCGGGGTCTTCACAAGAGATCTTGATGTTGCCCTATTGAATGATGAAATTGATATTGCTGTACATTCTTTAAAAGATGTTCCTACTCTGTTGCCTCAAAATATTGAGATGATAGCCTATCTGGAAAGAGATCATCCGGAGGATATCCTGATCAGAAAAGAATCTGCAAGGAATAAAGAATTCCATGAGCTTAAACTTGCTACCAGCAGTTTGAGAAGAAGAGCTTTCTGGCTGAGAAACTATCCTAATACTGAGTTTTCGGATATCCGTGGAAATATTCAGACCAGACTTCAAAAACTGGAAGACGGAAACTTTGATGCCACCATCTTATCTTTGGCAGGAATCAAAAGAATGAAAATGGAAATTGATTATGAAATGCTTCCATTAATGATCTGTGCACCATCACAAGGTGTAATTTCCGTAGCCGGGCATACAGACAAGCCCGAGATCAATGAGATCGTAAGCCAGATCAACCACAAGCCAACTCAAATTTGTGTAGAGATTGAAAGAAACTTCCTGAACACGTTAGAAGGAGGATGCACTGCACCTATCGGAGCTTTTGCAGAAATCATAGGAGATCAGATCCGCTTCAAGGCGGCACTTTGCTCCCTGGACGGCAAAAACTGTATTGCTGTGGATGAAAACTTTGAATATACTCCAGCTGAGGATTTCGGGAAAAAGTTTGCAAAAGTTGTTCTTGAAAACGGAGGAAAAGAATTAATGGCAGAAATTAAAAGCCAGATTTAA	MKSIRIGTRNSALAIWQAREVARHLQNNNYLTEIVPIVSSGDKNLNQPLYSLGITGVFTRDLDVALLNDEIDIAVHSLKDVPTLLPQNIEMIAYLERDHPEDILIRKESARNKEFHELKLATSSLRRRAFWLRNYPNTEFSDIRGNIQTRLQKLEDGNFDATILSLAGIKRMKMEIDYEMLPLMICAPSQGVISVAGHTDKPEINEIVSQINHKPTQICVEIERNFLNTLEGGCTAPIGAFAEIIGDQIRFKAALCSLDGKNCIAVDENFEYTPAEDFGKKFAKVVLENGGKELMAEIKSQI	PGPT0003660_4587	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
BMS003_02782	1275	hemA	COG0373	Glutamyl-tRNA reductase	ATGTTACAGTATTCCAACATCCATCAAACATCGAATTTTGCCGTGCTTTCCATAAGCTACGAGAAGGCCGATGTAGAAACGAGAGGAAAGTTTGCATTCTTTGATGAAAACATCAAAAACTTTGTTTCCAGAGTCCATAATGAAGATCTGGGTGATGCATTTGTAGTATCCACCTGTAACAGAACCGAAATCTACACGACTTCTCCCAACTACCTGTTAGTGGCTGAAGAATACTGCAAAACTATTGGGGTACACCTTACGGATTTCCTTCAGTTTGCCAATATCCTGACCAAAGAGGAGGCTCTGATTCATCTTTTCAGAGTAGCAGCGGGTCTTGAAAGTCAGATTATCGGAGATTTTGAAATTATAGGACAGATCAAAAAAGCATACAGCCGTTTCAAAAAAGAGAGACAAAATTCTAATCCTTATCTGGAAAGAGCAATCAATGCAGCGATTCAGATTTCGAAAAGAATAAAAAATGAAACCGGAATTTCCAATGGTGCGGCTTCTGTTTCTTATGCTGCGGTTCATTATATTCTGAACAGCCAGAAAAGAATTGCCGAGAAAAACATCCTTCTTTTGGGTGTAGGTGAGATTGGACAGAATACCGTAGAAAACCTGGTAAAGCATGTCTATCAGCCAAAAATTAAAATTGCGAACAGAACTCAGGAAAAAGCAGAAAAGATTTCCCAGAAATATAATATTCCTCACGTTGATTATTCTGATTTTGACCAGGAATTAAAAAATACCGACATTCTTATTGTAGCTACAGGAGCCAAGCATCCTATTGTCAACAAATCACACTTCCCGAACGGAAAAGAAACTCTGGTGATTGATCTTTCAATCCCTCATAACGTTGAAAAGAATGTTACTGAAAATGAAAATGTAACGCTGATTGATGTGGATGAGCTTTCAAAACAGATCCAGGAAACGATTCAACAGCGTGAAAGAGAGATCCCAAAAGCTGAAAAAATCATCAAGGAACTGATGAAAGACTTCATAGAATGGGAGAAAAAAAGAAAACTGGCACCCAATATCCATCATTTCAAAGCGGTCTTAAAGAACATGGAACGCAATGAAATGCATAATTTTTACAGAAAGAATAAATACATAAACATCACGGACATGGAACTTTCTGACAAAATGATCCAGAAAATCACCAACCGTTTTGCAAAATATATTATTGACAATCCTTTAAAAGCCGAAGAAATTAGTAAATTAATGCACGAAATATTAGTTGAACAACCAAACAACGAATTCAATGAAAAGCATTAG	MLQYSNIHQTSNFAVLSISYEKADVETRGKFAFFDENIKNFVSRVHNEDLGDAFVVSTCNRTEIYTTSPNYLLVAEEYCKTIGVHLTDFLQFANILTKEEALIHLFRVAAGLESQIIGDFEIIGQIKKAYSRFKKERQNSNPYLERAINAAIQISKRIKNETGISNGAASVSYAAVHYILNSQKRIAEKNILLLGVGEIGQNTVENLVKHVYQPKIKIANRTQEKAEKISQKYNIPHVDYSDFDQELKNTDILIVATGAKHPIVNKSHFPNGKETLVIDLSIPHNVEKNVTENENVTLIDVDELSKQIQETIQQREREIPKAEKIIKELMKDFIEWEKKRKLAPNIHHFKAVLKNMERNEMHNFYRKNKYINITDMELSDKMIQKITNRFAKYIIDNPLKAEEISKLMHEILVEQPNNEFNEKH	PGPT0003650_2646	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
BMS003_02783	1026	mreB		Cell shape-determining protein MreB	ATGAGTTTATTTGATATGTTTACGCAAGAAATTGCGATAGACCTGGGAACGGCTAATACCCTTATCATCCATAATAATAAAATTGTTATTGATCAACCTTCAATTGTTGCAATTGAACGTTCTTCGGGTAAACCAATAGCTGTGGGAGAACAGGCTAAGCATATGCAGGGTAAAACTCATGAGGATATCAAGACGATCCGTCCTTTGAAAGACGGTGTTATTGCAGATTTCCACGCTTCTGAGCACATGATTAAGGAATTCATTAAGAAAATTCCCGGAATCAAAGGTAAATTCATTCAGCCGGCATTACGAATTGTAATCTGTATCCCTTCTGGTATTACTGAAGTTGAAAAAAGAGCGGTAAGAGACTCTGCTCAGAAAGTAAATGCGAAAGAAGTAAGATTGATCTACGAGCCAATGGCTGCTGCAATTGGAGTTGGTATAGACGTACAGAAGCCTGAAGGAAACATGATCATTGATATAGGTGGAGGTACTACAGAAATTGCTGTGGTAGCTTTAGGAGGTATCGTGTGTGATAAATCTGTGAAGATTGCAGGAGACGTATTTACCAATGATATTGCTTATTACTTAAGAACTCACCACAATCTTTATATCGGGGAAAGAACTGCAGAAAGAATCAAAATTGAAGTAGGTTCTGCTGTAGAAGATCTTGATGTAGATATCGAAGATATCCCGGTACAGGGTAGAGACCTTATCACAGGTAAACCTAAGGAAATTATGGTGGGTTACAAAGAAATTGCACGTGCACTAGACAAGTCTATCATCAGAATTGAAGATGCCGTAATGGAAACATTATCTCTTACACCACCGGAATTGGCTGCTGATATCTATAAAACAGGTATTTATCTTGCAGGAGGAGGAGCGTTATTAAGAGGTCTTGCGGACAGAATCCACAAAAAGACAGGTCTTCCTGTATTTGTTGCTGAAGATCCGTTGAGAGCTGTAGTTCGCGGAACAGGTATTGCTCTTAAGAATATGGACAAGTTCAATTTCTTAATTAAATAA	MSLFDMFTQEIAIDLGTANTLIIHNNKIVIDQPSIVAIERSSGKPIAVGEQAKHMQGKTHEDIKTIRPLKDGVIADFHASEHMIKEFIKKIPGIKGKFIQPALRIVICIPSGITEVEKRAVRDSAQKVNAKEVRLIYEPMAAAIGVGIDVQKPEGNMIIDIGGGTTEIAVVALGGIVCDKSVKIAGDVFTNDIAYYLRTHHNLYIGERTAERIKIEVGSAVEDLDVDIEDIPVQGRDLITGKPKEIMVGYKEIARALDKSIIRIEDAVMETLSLTPPELAADIYKTGIYLAGGGALLRGLADRIHKKTGLPVFVAEDPLRAVVRGTGIALKNMDKFNFLIK	PGPT0027700_2770	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
BMS003_02784	855	mreC	COG1792	Cell shape-determining protein MreC	ATGGGATTTTTGCTGAGATTATTTTCGAAGAATACTCTTTTCGTCTTCTTTATATTCCTGCAAATCATTGCTCTGGTTTTGATATTCTCAAGAAATGCCATGCAGAAATCCTGGATAGCAGGGCAGACTGCTGCTTTCAATTCATGGGTTTCCGGATATATTGACGAAGGAGTTTCTTATCTGAAGCTAAAACAGATCAATGAAGATCTTGTGATTCAGAATAAAGCCCTCATGACTGAACTCTACGGAAAAAACGGAGAAAAAAATCCTGTTTTCAGAAAAGTTCATGATACTATTGGTGGTGGGCAGATCTATACTTTTGTTGACGGAGAAATTGTTTTCAACAGTATCAACAGAAGAAATAACTATTTTACAATCAACCGTGGCCGCAGAGATGGTGTTTTTCCTCAGATGGGGGTAATGGCGCCAAGAGGTATTGCGGGAATTGTAATCAACTCTACAGATAGTTATGCATTAGTTCAGTCGGTCTTAAGTGTAAACAAGATCAGAATTAATGCAGCACTCAAAAACTCAGGATATTTCGGTACTTTAACATGGAATGGAGATAACTCCAGGGTAATGCATCTTGCAGACATTCCAAAATATGTTGCCCTGAAGGTAGGTGATACAGTAGTTACGGACGGTAAATCTGCCATCTTTCCTAAAGGGGTTACTATTGGTACTATTGCAGGGTATTCTGTAGATAATAAAACCGGCTTCTGGGATATCTCCGTAGAGCTGAGTGAAAAAATGGGAGCGTTGAATAAAGTGTATGTAGTGAAGAATCTTAAGAAAGCAGAAGTGAAGAAGATTCAGGACACTATGCAGACTGTAATAAAAAAAGAAAATGATTAG	MGFLLRLFSKNTLFVFFIFLQIIALVLIFSRNAMQKSWIAGQTAAFNSWVSGYIDEGVSYLKLKQINEDLVIQNKALMTELYGKNGEKNPVFRKVHDTIGGGQIYTFVDGEIVFNSINRRNNYFTINRGRRDGVFPQMGVMAPRGIAGIVINSTDSYALVQSVLSVNKIRINAALKNSGYFGTLTWNGDNSRVMHLADIPKYVALKVGDTVVTDGKSAIFPKGVTIGTIAGYSVDNKTGFWDISVELSEKMGALNKVYVVKNLKKAEVKKIQDTMQTVIKKEND				NA	NA	NA	NA	NA
BMS003_02785	507			hypothetical protein	ATGATTAGCAGGACTTTATTTACCGATATATTGATCATGATTTTTCTTGTTGCATTACAGATATTTGTATTGAACAGGATTACCCTTTTCGGGAAATATACTCCGGTATTATATCCTGTGTTTGTCATGTTCTATCCATTTTTCAGAAATAAATTTCAGTTTCTGGCATTGAGTTTTTTAATAGGGCTGTCTATTGACGGTTTTCTTTATTCGTGGGGTATCAATGCATTTGCAACAACGCTGATTGCCTATTTCAGAACGTTGATCTTCAGGACTTCCACAGATACGTCTACAGACTTTTTCTCTTTTCAGTCCCTTCAATGGGCGCAGTTTTTGCTGTTTTTATTTTCAAGTATTTTTCTGCACCAGCTTTTAGTACAGTATATCGAGTTCTTTAAGTTTAGCAGATTTTTTGAAATATTGTTTAATGTGTTGGCAACTAGTGTAATTTCATTTATATTTATAGTCATCTACGCATTAATATTTAAAATCAAACAAAAAGTTTGA	MISRTLFTDILIMIFLVALQIFVLNRITLFGKYTPVLYPVFVMFYPFFRNKFQFLALSFLIGLSIDGFLYSWGINAFATTLIAYFRTLIFRTSTDTSTDFFSFQSLQWAQFLLFLFSSIFLHQLLVQYIEFFKFSRFFEILFNVLATSVISFIFIVIYALIFKIKQKV				NA	NA	NA	NA	NA
BMS003_02786	2046	mrdA	COG0768	Peptidoglycan D,D-transpeptidase MrdA	TTGAACACACGTTATTTAAAAATTTTTTCCGTTCTCGTTACCATCGCCCTTATTTTTGTGGCGAGGCTTGCTTATTTGCAGTTATTTACAGACCGTTACGCATTAAATGCAGCCAATACTTCTATTAAAACAGAATACATCATTCCACAGCGAGGAGTTATCTTTGACAGAAATGGTAAGATCATGGTAGGAAACCAGCCTGCTTATGAAATTTCGTTTACTCAGGCTTTGATGAAACCTGATTTTGATACGCTGGCCTTTTGTAGTTTAATGAAAATTACAGAACAGGATTTTATCAATAAGATCAATGTTATCAAAAAAGAGAAGTATTATTCTAAACTGACCCCGATGACATTCATCAAAGACCTCAGCAGAGAAGATATTGCAAGAGTTCAGGAAATTATCTTTAAGTATCCCGCATTCAATATTGTATCAAGACCTCAGCGCCAGTATGAAGTTTCCACCTCCGGAAACCTTTTAGGGTATACCAGTGAGGTGAATGAAAGAGATATAAAAAAAGATTCTACCTACTATCTGCCTGGAGATTTCATTGGAAAAACAGGAGTCGAAAAATCCTATGAAAAAGAACTTAGGGGGATAAAAGGAGTGAAATATATCCAAAAAGATATCAGACTCAGAAATATTGGTTCCTATAAAAACGGAGCTTTGGATAAAGATGTGATTACGGGTAAAGATATTACACTAACCATTGATTATGATCTCCAGCGAACAGCAGAAGAAATGCTGGTAAACAAGCATGGAGCAATAGTAGCCCTGGATCCTAACAATGGAGAAGTGTTGGTAGCTGCTACCGGACCGGATATTGACCCGAACCTTTTCACCGGACCTAATAAATCTAAAAATTTATATGCCTTGTCAAAAGATACACTTTACGAAAATAAACCCACTTTTGACCGTGCTCTACAGGCAGGATATCCTCCGGGATCAACTTTTAAGTTGTTGACTGCTCTGGCAGCCATGCAGATGGGGGTAATGGATGAGAAAACTATCTTTCCTTGTGGAGGCGGATTTTTTTACAAGGGTAAAAGAATTAAAGGGCATGGCGGAGCAGATCCGCTTATTCCTGCAATCCAGGTTTCCAGTAACTGTTTCTTCACATATGCTTTTATAGCAATCATTAAAAAATATCCGGGAAATCCTTCAAAAGGTGTTGATGAGTGGAAAAAGATCATGAGCAGCTTTGGAGTAGGAGAGTTTTTAAATAATGACTTTGCTGTTGGGGCAAAAGGGAGAATTCCTTCAGGAGATTTTTACGAAAGAAGATTCAAAGCCATCATGAAAGCCAGTGGTTCCCAAAGAACTGATTATAAAAACTGGGATGAAATGTCTACCGGAGCTATCTATAACGGGATGGGACAAGGAGATGTTTTGGTAACCCCTATTCAGCTTGCCAATTATGTAGGTGCTATTGCTAACAGAGGCTGGTATTATACCCCCCACATTGTAAAAGCAATCGATGGAAAACCGAATCCTGATCCAAGATTTAAGGTTAAGCATCAAACGCTGGTAGATCCAAAACACTTTGAACCTGTTTTAAAAGGAATGGAAGCAGTGGTTTTGAGAGGAACAGCAAGAGGACTGAAATCCAATGATTTTACACAATTAGCCAAAACAGGTACCGCACAGGTGCCACAAGGAAAGGATAACTCAATTTTTGTACTGATTGCCCCTGCTGAAAAACCAAAAATTGTTGTAGTCGCAGTAATGGAACATGCCGGATTTGGGGCTACATGGGCCGGGCCGGCTTGTACGGTGATTGCTGAAAAATATATTACAGGTGATTTGAAAAGAGAAAATCTCTACAAAAAAATGATCACCTCGAGTTTTATGCCTGAATACAAAAGGCAATGGATTGCAGATTTGAAACGTAAAGGACTCTATGTTGACCCTAAAACTGATTCTATTAAACAGAAAAGAATAAAGGATAGTCTGGAGCTTGTGAAACAGCAAAAAGCTAAGCTGCAGAAGAAAATGGAAGATCAAGCTAAAAATAATAATACTGCCAAAAAACCGGTTAAGCAATGA	MNTRYLKIFSVLVTIALIFVARLAYLQLFTDRYALNAANTSIKTEYIIPQRGVIFDRNGKIMVGNQPAYEISFTQALMKPDFDTLAFCSLMKITEQDFINKINVIKKEKYYSKLTPMTFIKDLSREDIARVQEIIFKYPAFNIVSRPQRQYEVSTSGNLLGYTSEVNERDIKKDSTYYLPGDFIGKTGVEKSYEKELRGIKGVKYIQKDIRLRNIGSYKNGALDKDVITGKDITLTIDYDLQRTAEEMLVNKHGAIVALDPNNGEVLVAATGPDIDPNLFTGPNKSKNLYALSKDTLYENKPTFDRALQAGYPPGSTFKLLTALAAMQMGVMDEKTIFPCGGGFFYKGKRIKGHGGADPLIPAIQVSSNCFFTYAFIAIIKKYPGNPSKGVDEWKKIMSSFGVGEFLNNDFAVGAKGRIPSGDFYERRFKAIMKASGSQRTDYKNWDEMSTGAIYNGMGQGDVLVTPIQLANYVGAIANRGWYYTPHIVKAIDGKPNPDPRFKVKHQTLVDPKHFEPVLKGMEAVVLRGTARGLKSNDFTQLAKTGTAQVPQGKDNSIFVLIAPAEKPKIVVVAVMEHAGFGATWAGPACTVIAEKYITGDLKRENLYKKMITSSFMPEYKRQWIADLKRKGLYVDPKTDSIKQKRIKDSLELVKQQKAKLQKKMEDQAKNNNTAKKPVKQ	PGPT0023885_806	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS003_02787	1230	mrdB_2	COG0772	Peptidoglycan glycosyltransferase MrdB	ATGAAATGGACAGAAGGAATAGATAAACTGGGCCTTGCACTGTATTTACTGCTTTGCGTTTTTGCCATTGCAAATATTTACAGTGTTGATCAGAAACTGGGCGAAAAACAACTCGTCTTTTTCTGTATTTCGCTATTCGTGGGGCTTATTATTTTTGTAAGCAGAAGTAAGTTCTTTGAAAATATGGCAGGGATTATTTATATTGGCGGGGTTCTTCTACTGATTGGCCTTTTCCCGTTTGGTAAAGAAATTCTCGGGCAGAAAAACTGGTATAAATTCGGAAGCTTTACCATGCAGCCAGTAGAGTTTGCAAAAATTGGGACAGCCCTGATGCTTGCCAATTATGTTTCCGGGCCTGATTTTAATCTTAAGAATAAAAAATCTCTTTGGACTACCTTAGCCATTGTCGGAGTTCCGGCGGCTGTTGTTCTTGCGATTCCGGATGTGGGATCCATGCTTGTATTTATTGCATTTTTCATTGCGTTATATAGAGAAGGATTGAGTGGACTTTTATTCACTGTCGGATTTATTTTTGCCGGGGTCTTTCTTGTTTCGTTGGCCGTTCCTCCTGTTTATGTGGCAGTAGCTGTTTTGTTAATTGCCGGAGTTATGATTGCAATGAACTATCACAGAATGTCCTGGGATGTGATTACTATTTCAGGAATTGTTGGTTCTGTTCTTTTACTGTGTGGACTGGCTTTCGGGTCTCCTTATATTTTAGAAAAACTTCCGAAGCACCAAAGGGAAAGAATTGAGGTTCTTTATAAAGGTGAAAAAGCATTCAGAGATACTTCGGGTTATAACTTGTTATATTCCAAAACAGCTATCGGATCAGGTGGAATCTGGGGGAAAGGATACCGTGAGGGGTCAGTTACCCAAGGGAAATTCGTGCCGGAGCAGGAAACCGACTATATCTTTTGTACCGTAGGGGAAGAATGGGGCTTTATTGGAAGTGCGGTTCTTATCCTGTGCTACATGATTTATATCGGAAGGATCTACTATCTGGCAGAACAGCAGAAATCTACTTTTAATCGAGTATTTGGATATTGCTTTGCCTCGATTCTATTAATGCACTTTTCGATCAATTTAGGGATGGTGATGGGGCTTTTCCCAACTGTAGGGATTCCTCTTCCGTACTTCAGCTATGGAGGAAGTTCTTTGCTGGCTTTCTCTATGATGACTTTTATTTTCTTTAAACTTAATTATTCAGATAAGAATAGTTTGGTTTAA	MKWTEGIDKLGLALYLLLCVFAIANIYSVDQKLGEKQLVFFCISLFVGLIIFVSRSKFFENMAGIIYIGGVLLLIGLFPFGKEILGQKNWYKFGSFTMQPVEFAKIGTALMLANYVSGPDFNLKNKKSLWTTLAIVGVPAAVVLAIPDVGSMLVFIAFFIALYREGLSGLLFTVGFIFAGVFLVSLAVPPVYVAVAVLLIAGVMIAMNYHRMSWDVITISGIVGSVLLLCGLAFGSPYILEKLPKHQRERIEVLYKGEKAFRDTSGYNLLYSKTAIGSGGIWGKGYREGSVTQGKFVPEQETDYIFCTVGEEWGFIGSAVLILCYMIYIGRIYYLAEQQKSTFNRVFGYCFASILLMHFSINLGMVMGLFPTVGIPLPYFSYGGSSLLAFSMMTFIFFKLNYSDKNSLV				NA	NA	NA	NA	NA
BMS003_02788	585			hypothetical protein	ATGAAACAGTCCTATTTCTCAGACGAAAATTTCGAGAACAAAGATTTTACGCAGCATCCTTTAGAAATAGCTGAATATGAGAACTGTGTATTCCGAAACTGTAATTTTGAATACGGTAATCTGTCAGGATTCAGTTTTTCAGATTGTGAGTTTATCGAATGCAATCTCAGTATGGTAAAATTGATGAAAACGGCGTTTCATGATATAATTTTCAGAGAATGTAAAATGTTCGGGCTTCAGTTTAATGAGTGTAATGCGTTTGGATTATCTTTCAGATTTGAAGGAAGTGCTTTAAATAATTCAGTTTTTTATCAGACATCCATTAAGAAAACGGTTTTCAAAGACTCAAAATTAATTGAAGTAGATTTTGCTGAATGTGATTTGTCAAATGCAGTCTTCAGTTACTGTGACCTTTCTGGCGCTGTTTTTGATGGTACAAATCTCGAAAAAACAGATTTCCGGACTTCGGTTAACTATTCAATAGATCCGGCTTTAAACAGGCTTAAAAAAGCCAAATTTTCACTTTCTGAAATTTATGGACTTTTATATAAGCTGGATATCGAAATTGACAGGACCGGGTTTTAG	MKQSYFSDENFENKDFTQHPLEIAEYENCVFRNCNFEYGNLSGFSFSDCEFIECNLSMVKLMKTAFHDIIFRECKMFGLQFNECNAFGLSFRFEGSALNNSVFYQTSIKKTVFKDSKLIEVDFAECDLSNAVFSYCDLSGAVFDGTNLEKTDFRTSVNYSIDPALNRLKKAKFSLSEIYGLLYKLDIEIDRTGF	PGPT0028050_505	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLONE_RESISTANCE,PGPT0028050-qnr|mcbG-K18555	NA	NA
BMS003_02789	711			hypothetical protein	ATGAAGAAAAGAGTTTTGTTTTATTTAGTTGCTTTAGTTACTACAGTTTCATTGCAATCGTGTGCTACTAATTATGTGGTTTCAAAACCAGCAACTTACACAAAAGAATACAAAACAGATGCCAAACTAGCTTCTATAGATAATAAAAAAATGGAGATGGATAAGCAGAAGCTTATCGATTCTTTCCTTGCTGAAAAGGCAGCATCTATCGCTAGTGCAAAAAAAGCAGTTAAAAATTCTGAGATTGCAAAAGCAATCAAACATAATAAAACCATTGACGGTATCCTTGAAGAAGCTGAAACATACCTGGGAACTCCTTACAGATATGGAGGGACAACCAGAAACGGTATAGACTGCTCAGCTTTTGTTCTTTCTGTATTCGGAGCAGCAGCAGGTCTTAGCTTACCAAGAGTAGCAGCTTCTCAGGCTAAGGAAGGTGAAAGAATAGAAAAAGGAGATCTACAGAAAGGAGACTTAATCTTCTTTTCTCATGGAAGAAGAATTTCTCACGTAGGTATTGTAGAAAGTGTTTCTGAAGAAGGTGAGATTAAATTTATCCACGCAGCAACATCAAGAGGAGTTATGATTTCTTCGCTGAATGATTCTTATTGGGGGCCTAAATTCAGATTCGCAAAAAGAGTGATTAACGAAGAAGGAGAGGCTTACAATAACTTAGCAGCCGCTACTCTTCCTACACCCGCAAATTTTTAA	MKKRVLFYLVALVTTVSLQSCATNYVVSKPATYTKEYKTDAKLASIDNKKMEMDKQKLIDSFLAEKAASIASAKKAVKNSEIAKAIKHNKTIDGILEEAETYLGTPYRYGGTTRNGIDCSAFVLSVFGAAAGLSLPRVAASQAKEGERIEKGDLQKGDLIFFSHGRRISHVGIVESVSEEGEIKFIHAATSRGVMISSLNDSYWGPKFRFAKRVINEEGEAYNNLAAATLPTPANF	PGPT0023820_42	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
BMS003_02790	2196	glnA		Glutamine synthetase	ATGTCAACCTTAAGATTCAAAGCATTAGAAACCCTTTCATTTAAGGATTTCAGAAAAAACAACTCTGTTGAGATCCCAGCAAAATTATCAGAACTATTCTGTGATAATGTTTTCTCAGAACAAACCATGAGAGAATATTTAACGAAAGAAGCATTCGGTTCTATCATGGATGCTATTAAAAAAGGAACTAAAATCCAGAGACATATTGCAGATCAGGTAGCTGTAGCAATGAAAGACTGGGCAATGAGCAAAGGTGTAACACACTATACGCACTGGTTTCAGCCTTTGACAGGAAGCACTGCGGAAAAGCACGATTCATTCTTTAATCCGATTGAAGGGGGCAGAGCCATTGAAAGATTCAGCGGAAATATGCTTATCCAGCAGGAACCTGACGCATCTTCTTTCCCGAATGGAGGGATCAGAAATACTTTTGAAGCAAGAGGTTATACAGCCTGGGATCCTACATCTCCGGCATTTATTATGGGAACTACACTTTGCATCCCTTCTATCTTCATCTCTTATACAGGAGAAACATTAGATTACAAAGCACCTCTTTTGAGAGCTTTGAACGCTGTAGATGAAGCTGCCACTGACGTAATGCAGTATTTTGACAAAAACGTAACGAAGGTAACCCCTACTTTGGGTTGGGAGCAGGAATACTTCCTTGTTGATTCAGCATTATACCACTCTCGTCCGGATCTTGTATTAACAGGTAAGACATTATTAGGACATTCCCCTGCAAAAGGACAGCAGCTGGATGACCACTATTTCGGTTCTATTCCTACAAGAGTTATGAACTTTATGATGGAATTGGAGGTTGAATGTGTGAAGCTGGGAATTCCTGTAACAACAAGACACAATGAAGTAGCTCCAAACCAGTTTGAACTGGCTCCAATGTTTGAAGAGGTGAATGTTGCGGTAGACCACAACTCTCTATTAATGGACATCATGGCAAGAGTTGCCCACAAGCATCACTTCCATATTCTTTTTCATGAAAAACCATTTGCCGGAGTAAACGGAAGTGGAAAACACAACAACTGGTCTTTAGCAACAGATACGGGTGAGAACTTATTAAGCCCGGGTAAAAATCCTAAAAAAAACCTACAGTTCTTAACATTCTTCATCAATACCATCAAAGCAGTCTATGAGTATGCCGATCTTTTAAGAGCAAGTATAGCATCTGCAAGCAACGATCATAGATTAGGTGCCAATGAAGCTCCACCGGCAATTATTTCGGTATTTATCGGAAGTCAGTTATTCCGTGTTTTAGAGGAACTGGAGAAGGTAACTAACGGAAAATTATCTCCTGAAGAAAAAACGGGACTGAAATTAAATGTTGTGGGAAAAATTCCTGAAATCCTTTTGGATAATACTGACAGAAACAGAACTTCTCCATTTGCATTTACAGGAAATAAATTTGAGATCAGAGCGGTAGGTTCTTCTGCAAACTGCGCAGAGTCCATGACCGTTATGAACACTATTGCTGCAAAACAGCTTAATGATTTCAAAAGAGAAGTAGATGCTTTAATTGAAACAGGTCTTAAAAAAGACGAAGCGATCTTCAATGTATTGAGAGAATACATCAAGCAGTGTAAAAACATCATGTTTGAAGGTGACGGATATTCTGACGACTGGGCAAAAGAAGCTAAGAAAAGAGGCTTAAATAACCTTAAGACAACTCCTGAAGCTTTAAAGCAGGAAATGGATAAGAAATTCCTGGATCTTTATGAAGAAATGGGAATTTTCAACCACAGAGAAGTTGAGGCAAGAAACGAGATTAAATTAGAAAAGTACTCCACAGTTATTGATATTGAATCAAGAGTATTAAGTGATATCGCAAGAAACCACATTATTCCTTCTGCATTAAATTATCAGAACAGATTAATTGAAAACGTAAAAGGTCTTAAAGAAATCTTCGGTGATAAAGAATTCAAATCTTTGGCAAAAGAACAAATGAGTTTAATTACAAGCATTTCAGAAAATGTTTCTAAAATTAAACTTGGTGTTGAAGATCTTCTTAAAGCCAGAGAAACTGCAAAAAGTGTCTCAGACAGCCAAAAACAGGCAGAAAGCTATTGTAATAAAGTAAAGCCATTATTTGATCCTATCAGAGAAGCTTCTGATGCATTGGAGATGATGGTAGATGATGAGCTTTGGCCTATGACAAAATACAGAGAAATGTTGTTTACAAAATAA	MSTLRFKALETLSFKDFRKNNSVEIPAKLSELFCDNVFSEQTMREYLTKEAFGSIMDAIKKGTKIQRHIADQVAVAMKDWAMSKGVTHYTHWFQPLTGSTAEKHDSFFNPIEGGRAIERFSGNMLIQQEPDASSFPNGGIRNTFEARGYTAWDPTSPAFIMGTTLCIPSIFISYTGETLDYKAPLLRALNAVDEAATDVMQYFDKNVTKVTPTLGWEQEYFLVDSALYHSRPDLVLTGKTLLGHSPAKGQQLDDHYFGSIPTRVMNFMMELEVECVKLGIPVTTRHNEVAPNQFELAPMFEEVNVAVDHNSLLMDIMARVAHKHHFHILFHEKPFAGVNGSGKHNNWSLATDTGENLLSPGKNPKKNLQFLTFFINTIKAVYEYADLLRASIASASNDHRLGANEAPPAIISVFIGSQLFRVLEELEKVTNGKLSPEEKTGLKLNVVGKIPEILLDNTDRNRTSPFAFTGNKFEIRAVGSSANCAESMTVMNTIAAKQLNDFKREVDALIETGLKKDEAIFNVLREYIKQCKNIMFEGDGYSDDWAKEAKKRGLNNLKTTPEALKQEMDKKFLDLYEEMGIFNHREVEARNEIKLEKYSTVIDIESRVLSDIARNHIIPSALNYQNRLIENVKGLKEIFGDKEFKSLAKEQMSLITSISENVSKIKLGVEDLLKARETAKSVSDSQKQAESYCNKVKPLFDPIREASDALEMMVDDELWPMTKYREMLFTK	PGPT0000645_81	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
BMS003_02791	1731			hypothetical protein	ATGGGTAAAGATTTTGTATATTTGTGTGAAATTTATTTTATGACAAATTCTAGAGCAAGAGAAACCACAGAGGCTATTGAAAGACTATACATCTCTATGAGACACCTATTTTATAGAGGATTTTTCAAGCCGGGAGGAGTTTCAGGAGAGAGTATCAGAAGTTTGTTAAAGACCATCAATCCGGAAATCTACGGAACCATGAATATTCCAAGTAAATTGGAACTTGACGGGTTGATGTATGTTTTAGACAGGCTTCCGGAGGGAATTGAGGAATGCGCTTTTATTCATCTTACATCTGATGAAGGGTTTGATAAAGGAAGTTTCGAACCTATCGTACCCAAGAAAAGAAGAAGAAACTGTTATAGAATAGACGAACACCAGATGAATATTGAGGTTCTATTGGGCCGTTCCGAAATTTATGACATTCTTACCCACCTTACCTTCCTTTTTATAGAAGCAGATAAAATCCGTAACCTGGCATTCATCCAGGATGAAAACTGGAAACCGACACGTGCCTTCAAAATTATTGAAGAAGTGGTGAAAGGTGAAAAGAAATTCAGCAGAAAAGAAAAAGAGGTGGCACTTATCCATCTTTCGTCTCTGATAGGAAGATCTTTTGATGAAACTTTAAGAGCTTATAATACCTTCGGTGATGATCAGAATCCTGACCGTCTGTTCAAAATTATTTACAACCTGGGAAAAGTAAGTCTTGATGATGCGAAAGGAAGCAGAGAAAGAGAAATTCACTTCAGTTCTATATTAAAGGAAAGAGTAGGGCACCATTACTTTGGTGAAAAATGGGCTAATAAAGTGAAAGAAGTTTTATTTGAAAACAATCTTCACATGCGTCCCTTACATATTATTTCTGCCAATATGCATTCGGTAAAAAATATGCTGTACGCTAATAATGCCCTTAAAAAGAAGCAGCATCATGATGTAGATTACAAACTGTACGAAGAGATATCTAACAAAAAGGAACTTCGTGATAAAGTTTTAAAATACGCTCTGGATGAAGGAATGATCCATATTGCAGATAAGAGCGGAAGTAATATTGATGTACAAATCATAGACCTTAGCAAAACAGACCTGAAAAATACACCATTTGCAGACTGTAAGTTCGGAGGAGATGATGTGGTGATGGTTTTTGATTATGCCTTCGGGGAGCAGGCTTTCGAGGTAATGGATGAATTGCTGAGACCCTTTGAACATAAAGGAGAAGTTTATATGATGCATGTAAAATCTGTTTCTATTATGGGGAAAGCTGGTATTCTTACCGGAGATAAAGGAGATATTATGATTCCTACTTCTCATATTTTTGAAGGAACAGCAGATAACTATCCTTTTGAAAATGCTTTGAAGCTCGAGGACTTCAAAGATGATGAACTGAAAGCTTTTGAAGGGCCAATGATTACGGTGTTAGGAACCTCTCTTCAGAATAAAGACATTCTATCATACTTTATGAATACTTCATGGAAGGCCATTGGTCTTGAAATGGAAGGAGCTCATTATCAGAAAGCCATTCAGGTAGCATCTAAGATCAGACATCATATTTCGCCGGACCTGTTTGTGTGCTATGCTTACTATGCATCTGATAATCCGCTTGAAACAGGAAGCACTCTTTCCTCAGGAGGTTTAGGGCTTACAGGAGTAAAACCAACATATCTGATCACTTTAAGAATCCTTGAAAAGATTTTAAGAAGCGGAAAGAAAGAAATTTCTGCTAAAAAATAA	MGKDFVYLCEIYFMTNSRARETTEAIERLYISMRHLFYRGFFKPGGVSGESIRSLLKTINPEIYGTMNIPSKLELDGLMYVLDRLPEGIEECAFIHLTSDEGFDKGSFEPIVPKKRRRNCYRIDEHQMNIEVLLGRSEIYDILTHLTFLFIEADKIRNLAFIQDENWKPTRAFKIIEEVVKGEKKFSRKEKEVALIHLSSLIGRSFDETLRAYNTFGDDQNPDRLFKIIYNLGKVSLDDAKGSREREIHFSSILKERVGHHYFGEKWANKVKEVLFENNLHMRPLHIISANMHSVKNMLYANNALKKKQHHDVDYKLYEEISNKKELRDKVLKYALDEGMIHIADKSGSNIDVQIIDLSKTDLKNTPFADCKFGGDDVVMVFDYAFGEQAFEVMDELLRPFEHKGEVYMMHVKSVSIMGKAGILTGDKGDIMIPTSHIFEGTADNYPFENALKLEDFKDDELKAFEGPMITVLGTSLQNKDILSYFMNTSWKAIGLEMEGAHYQKAIQVASKIRHHISPDLFVCYAYYASDNPLETGSTLSSGGLGLTGVKPTYLITLRILEKILRSGKKEISAKK				NA	NA	NA	NA	NA
BMS003_02792	471			hypothetical protein	ATGAGTTCCGTATCAGAATTATCCAAAAGATTCAGAGAAGTCCTGCTGGATGGTCTATGGATTGCCAATACCAATTTTAAAGATCAGCTTTCCGATGTTACCTGGGAACAGGCGATAGCAAAAGTGGATTCTTTGAATACTATTGCCATGCTTACCTTTCACATTGATTATTATATTGCAGGAATTGTCAATGTTTTTGAAGGAGGTGATCTGGAAATAAAAGACAAATTCAGCTTTGACCTTCCTCCCATAGAATCTCAGCAACAATGGGAAGACCTTTTAAATAAGTTATGGACAGATTCTGAAAAATTTGCATCATTACTGGAACAAATGCCGGACTCTAAGCTTGATGAGGTTTTCGTTGATGAAAAATACGGAACCTACCGGAGAAATATTGACGGAATGATTGAGCATAGCTACTATCATCTGGGGCAGATTACTTTAATTAAAAAACTCTTGAAAAGCGGGTAA	MSSVSELSKRFREVLLDGLWIANTNFKDQLSDVTWEQAIAKVDSLNTIAMLTFHIDYYIAGIVNVFEGGDLEIKDKFSFDLPPIESQQQWEDLLNKLWTDSEKFASLLEQMPDSKLDEVFVDEKYGTYRRNIDGMIEHSYYHLGQITLIKKLLKSG				NA	NA	NA	NA	NA
BMS003_02793	1839			hypothetical protein	ATGAGAAAATCGGCTGCAATCATTTTTGCGTTTATCATTTCACAATTTCAGGCTCAGCAAGGAGCTTACTATCAGCAGGCTGCGAAGTATAAGATGGATATTGATGTCAATGCTGAAAAATTTACCTATCAGGGAAAACAGACTTTAGAATACACCAACAATTCGCCGGATGAGCTGAATGTGGTTTATTTTCATTTATACTGGAATGCTTTCAAACCTAATTCTATGATGGATCAGAGAGTGGCTTCCCAGGGCAAAAATGGTGATGGGAGACTCCAGAAAGATGGTGTCTCAAGATTAGCCTCCATTCCAAAAGATCAGGAAGGCGCTCAGAATATTCACTGGATTAAACAAAATGGAAAAGACCTGAAATTTGAAGTTCAGGAAACCATTATGAAAGTGTATCTGGCAGAGCCCATGAAACCGAATTCTACCACTACATTTACAATGGACTGGGACTCTGTGATTCCTCAGCAGATCAGAAGAAGCGGAAGAAATAACAGAGAAGGGGTAGATATGACCATGACTCAATGGTATCCGAAAATTGCAGAATATGACTATGACGGCTGGGCAACTTTCGATTATCTGGGAAGAGAATTTCATGCTCCGTTTTCGGATTTTGATGTTACCATCAAAATTAATAAAGATTATGTAGTAGGAGCAGGAGGAATTCTGGAGAATCCTACAGAAGTGAAAGGTTACGATGCCAATGCTAAAGTAAAAGCGGAAAAAGACAAGAAAGCAACCTGGAAATGGACGGCGAAAAACATTCTTGATTTCGCATGGAGTGCAGACAGAGATTATTCTGTAGAAAGCTTTAATGTTCCGGAAGGACCGAAAGTATATCTGGTTTATCAGAAAAATGATAAAACAAAAGCGTGGAGTGAATCACAATCTTATATTACCAGGTATTTCCAGATTATGAATGCTCACTTTGGAAAATACGTATACCCTACATACGCATTTATCCAGGGAGGAGATGGCGGAATGGAATATGGAATGTGTACCATGATTTTAGGGGAAGCTAAAAATGTTAAAGATTTAATGGGTTTAATGGCGCACGAAGGCTCTCACTCTTGGTATCAGCAGATGCTTGCCACTAATGAATCTGTACGTCCATGGATGGATGAAGGCTTTACAAGCTATGCGGAAGGATATACAATGTATCAGCTATTTCCCGAAGATCTGCCAAATCCTTTTGCCAAAACACTGGATGCTTACAGAAACTTTATAAAAAAGGGAATTGAAGAACCTGCCGTTTGGCTAGGAGATCATCATGATAACGGAACGGCTTACACATATGCATCATATGTAAAGGGTGAATTATATTTGGTGCAGCTTGGGTATATCATGGGAGAACAGAATCTAGCAGAAACCTTAAAGCAGTACTATGACCAGTGGAGTATGAAACACCCTTCAGACAGAGATTTCCTTCATATTGCTCAAAAAGTTTCCGGGATGGATCTGAAATGGTTTCATAATTATTGGATCAATACTACAAAAACAATAGATTATGGAATCAAGAATGTAAAATACGATGCAAAATCTACCACGATTACCTTAGTTAATAACGGACAGGTTCCAATGCCGATTGATTTTGGAGTGATGACGGCAGATAAGAAGATCGTTACTTATCAGATCCCGATGAATATGACTCATACATGGAAAGAAAAGGACATCTACGGTGAGTTTAAAACAATGTCTTATTGGCCATGGACTCAGAAAGAATATACTTTTACCATTCCTTATACAAAATCTCAGTTATCTGTTCTGGGGATTGATTTCAGCCAGAGAATTGCGGATGTAAATATGGAAAACAATTTTGTTGAAGTAAAATAG	MRKSAAIIFAFIISQFQAQQGAYYQQAAKYKMDIDVNAEKFTYQGKQTLEYTNNSPDELNVVYFHLYWNAFKPNSMMDQRVASQGKNGDGRLQKDGVSRLASIPKDQEGAQNIHWIKQNGKDLKFEVQETIMKVYLAEPMKPNSTTTFTMDWDSVIPQQIRRSGRNNREGVDMTMTQWYPKIAEYDYDGWATFDYLGREFHAPFSDFDVTIKINKDYVVGAGGILENPTEVKGYDANAKVKAEKDKKATWKWTAKNILDFAWSADRDYSVESFNVPEGPKVYLVYQKNDKTKAWSESQSYITRYFQIMNAHFGKYVYPTYAFIQGGDGGMEYGMCTMILGEAKNVKDLMGLMAHEGSHSWYQQMLATNESVRPWMDEGFTSYAEGYTMYQLFPEDLPNPFAKTLDAYRNFIKKGIEEPAVWLGDHHDNGTAYTYASYVKGELYLVQLGYIMGEQNLAETLKQYYDQWSMKHPSDRDFLHIAQKVSGMDLKWFHNYWINTTKTIDYGIKNVKYDAKSTTITLVNNGQVPMPIDFGVMTADKKIVTYQIPMNMTHTWKEKDIYGEFKTMSYWPWTQKEYTFTIPYTKSQLSVLGIDFSQRIADVNMENNFVEVK				NA	NA	NA	NA	NA
BMS003_02794	588			hypothetical protein	ATGGAAAAGAAAGAAATTCGGGTGGATAAAAACATTCCTAAATCAATACTCATAGGCTTTATATTGGCATTTTTGACTGTATTTGTGATTGAACATTTTAGTACATTTTCATATACTCCAAATTTAAACACACCAAATATTGATTATAACGGAAAGATTATTTTAAATGGAACGTATGACCCAACAACAACAAAAGTAGCAACACTGTATCAAACAACACCTTTTGGAACCAAAATAGATTTACCTACAAACGGAATGATGTGCAGTGAACTCATGATTGAGGGTTCGGATTTCAAAAGCTATTCTAATAAAGGTGTGCTATTTGCAAAATCCGTATTAAATGATTACAAATATTTCTTGCTGTTTTGGTTAGTATATGCCCTAATAATCCTGTTTTTCAAAAAATACAGATTAAAGGTTTTTGTTCTAATATTACCAACTTTAGTTATCAGTTGTGATAAGACCAAACAAGAGCCAATAACAAACTGTATAAGACCCATAGACACCACAAAAACCGCCTTAAACAAAACAGATACAGCAATACCTCAAAACACACTTAATACCACTATAAAACACTCTCATTTGTAG	MEKKEIRVDKNIPKSILIGFILAFLTVFVIEHFSTFSYTPNLNTPNIDYNGKIILNGTYDPTTTKVATLYQTTPFGTKIDLPTNGMMCSELMIEGSDFKSYSNKGVLFAKSVLNDYKYFLLFWLVYALIILFFKKYRLKVFVLILPTLVISCDKTKQEPITNCIRPIDTTKTALNKTDTAIPQNTLNTTIKHSHL				NA	NA	NA	NA	NA
BMS003_02795	399			hypothetical protein	ATGAAAAAAGTCTTTATTTCTCTTGTACTACTATTCACAGGTACAACCGCAGTATTCTCACAGGAAAAATTTGATTGTTATAATCTATCTAAAACGGATTATCTTAATAAGTATTACCAACTCAGAAATTATGGGATTAATTACAAGTTCAAAGACGGAACAGAAGTAATTCCAGTTTTGATTTCTAAAATATTCAACGAAAACAGCCTAAAACAGATTTGTATTGATGCTGCATATCAAAATCATAAGCTCGGAACAGAAAACAGCTACAAGCTGTATCGTGACAATATTATGAATATATCTAAAGACTCATTTATGAATGATTATGATTATTTATTGATGTTTCTAAAAATGATTACTCATTTAGAAAGCAACTCTAACTACATAAGAACAAGGTAA	MKKVFISLVLLFTGTTAVFSQEKFDCYNLSKTDYLNKYYQLRNYGINYKFKDGTEVIPVLISKIFNENSLKQICIDAAYQNHKLGTENSYKLYRDNIMNISKDSFMNDYDYLLMFLKMITHLESNSNYIRTR				NA	NA	NA	NA	NA
BMS003_02796	1230	xerC_5		Tyrosine recombinase XerC	ATGAAACCAAGTATTAAAACCATTTGCAAAAAGAATCCATTACAAGACGGGCTATTTCCTATTTATTTAAGAGTTACAATAAATAGGAAGTCAAAATTTTACTCTACTCCCTACAAATGTAAGTTAATTGAATGGAATTCTAAAACAGGGGAGTTCAATTCCAGGTTTAGAAACCATCTTTCTTTTAATTCATCTTTGAGGACTCTAAAAGATGAAGCAACCGATATTATTGAAAAAATCCAAAAAGAGCAGGGAATCGTTACTTTAATACAATTTGACAACCATTATCGCCTTCGTGGAAATTCCGGAATCTTACTTAAAGAATTTTTTGAAAAAGAAATCAAATTAATGGAAGAAAATGGACAAATAAGCTATAAAATTTCCTTAGAAACAACAATAAGGGCCCTTGGAAAATTTAAAAAAGATATTGACAGGTACAGGTTTGAAGATATTGACGAATTTTTTTTAAACGGCTTCGAGCGACATCTCCGTAAAAATGCAGATGATGGTGGAATTGCCGTCTATATGAGGAATATCAGAATGGTTTATAACAAAGCAATTAAAGCCAAAGTTGTTTCGAAAATCCATTATCCTTTTTCCAAAGAAGGATACAGAATATCAAAATTTAAAAGTCAAAAAAAGAAAAAGGCATTGTCCGAACAAGAATTCGAAAAAATTATTGATTTTAGTGTGGAGAAAGCTCCGTCGGTTAGGCATGCAAGATATTTGTATATTTTTAGCTATTATGCAAGGGGGATGAACTTTACAGATTTGGCGGAATTAGAATGGTCAGATTTGGAAGATTTAAAATTTAGTTATAGCAGGATTAAAACAAAAGCACATATCAATGTGAAGTTACCAGAAAATGAAATCATTGGGGAAATTTTAGATTTCTATAAAAAATATAGGATTTACAATACCCCTTATATATTTCCTATTCTGAAATTGAATAAGGAAGAATATTCTGCTCAAGAATTGTACAACAGAAAATATTCAGTAAGGAAATACTACAATAAGCAATTGAAATGCCTCCTTAAATTATGTGAAATAGATAAGCACATTACATTCTACACAGCCCGGCATACTTTTGCGACAACAGCTTTGAGAAAAGATGTAAATATCAATATTATCAAACAGTCTTTGGGGCATAAGAAACTTAGCACAACAGAAAGTTATCTTGAAGATTTTTCAACCAATGAAGTGGATATGGTTATTGAAAGTATTTTTTAA	MKPSIKTICKKNPLQDGLFPIYLRVTINRKSKFYSTPYKCKLIEWNSKTGEFNSRFRNHLSFNSSLRTLKDEATDIIEKIQKEQGIVTLIQFDNHYRLRGNSGILLKEFFEKEIKLMEENGQISYKISLETTIRALGKFKKDIDRYRFEDIDEFFLNGFERHLRKNADDGGIAVYMRNIRMVYNKAIKAKVVSKIHYPFSKEGYRISKFKSQKKKKALSEQEFEKIIDFSVEKAPSVRHARYLYIFSYYARGMNFTDLAELEWSDLEDLKFSYSRIKTKAHINVKLPENEIIGEILDFYKKYRIYNTPYIFPILKLNKEEYSAQELYNRKYSVRKYYNKQLKCLLKLCEIDKHITFYTARHTFATTALRKDVNINIIKQSLGHKKLSTTESYLEDFSTNEVDMVIESIF	PGPT0022000_375	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS003_02797	294			hypothetical protein	ATGTCTCTAACAAGAAAGCAAACCATTTTTCCAAAATACAATAATATTCTGGAACAGATGGGAGAAAATATCAAACTTGCCCGCAAGCGTAGGAAACTTACCACAATGCAAGTTGCGGAGCGAGCAGATATTACCCGTGCCACACTGGTGAAGATTGAAAAAGGTACTCCTTCTGTTGCTTTTGGGGCCTATTTTAATGTATTAAGGGTCTTAGGTTTGGAAAAGGATGTTTTGAAATTGGCTTCTGACGATGAATTAGGCAGAAAATTACAAGATTTGGATTTATTAACATAG	MSLTRKQTIFPKYNNILEQMGENIKLARKRRKLTTMQVAERADITRATLVKIEKGTPSVAFGAYFNVLRVLGLEKDVLKLASDDELGRKLQDLDLLT				NA	NA	NA	NA	NA
BMS003_02798	1254			hypothetical protein	ATGACACCGACAAAAAAAGACATATACGTATTCGCACATTGGAGAGGAATGACAGAGCCGCAAATTATCGGTATTCTTTCAGCGCACTCTGCTAAGGGAAGAAAAGCATTTAGCTTTCAATATGACAAAGACTGGCTTAAATCACCAGAACGATATCTTCTTGATCCGGATATCCAGTTTTTTCCAGGAACTCAATTTCCTTCCGGAAAAGAAAATTTTGGAATATTCACAGACAGTATGCCTGATACATGGGGGAGGACTTTGATGAAAAGAAGAGCCGCTAAAGAAGCAAAGGAAAAAGGATTGATTAAACCCTCGGTGCTATATGATATAGACTATCTTTTAGGAGTATATGATGAAAGCAGAATGGGGGCTTTACGTTTCAAGACAGAATTAGACGGCCCTTTTTTAGATCATAATTCATTAATGCCTACACCTCCCTGGTCGCATATCAGAGAATTGCAGTTCGCAGCGAAAATAATGGAAGATGACAAGGATAGTCATGATATTCAAAAATGGCTGGCAGTGCTTATGGCTCCAGGTTCTTCTTTAGGAGGAGCTCGACCAAAGGCTAATATCTTGGATGAGAGTGGTGACTTATGGATTGCGAAGTTTCCATCTAAGAATGATGTGATTGACAAAGCGGCGTGGGAATTTCTTGCTTATCGATTAGCGGTGAATGCCGGAATAGAAATGGCGCCGTCTAAAATAGAGAAAATAACAGGAAGGCATCATACTTTTTTCACAAAACGTTTTGACAGGGAAAATAAGGAACGTATTCATTTTGCTTCAGCAATGACGATGACCGGAAATAACGAAGATACTATCAGAGATAATCCTGCAAGTTATCTGGATATTGCAGAATTCATCAGTAACTATGGAGTTAATATTGAAGAAAACCTGCACCAGCTATGGAGAAGAATAATATTTAATATCACCATATCCAATACAGATGATCATTTAAGGAATCATGGATTTATCTTAACCGAAAAAGGGTGGATTCTTTCTCCCGCGTATGACCTTAATCCTTCTGTAGATAAGGATGAGCTTGCTCTTAACATAGATCTGGAAAATAATGATCTTGATTTTGACCTTGCCACCAGTGTTGGAGAGTATTTTCGACTTAGCTCTGTAGAAATGGAGCAGATTATTTCTGAAGTTTATTCAAGCGTATCTAAATGGAAAGATATTGCTACTGAAATAGGAATCTCCAGAACGGAGCAGGAATTAATGAAAGGAGCATTTAAAGTTTAG	MTPTKKDIYVFAHWRGMTEPQIIGILSAHSAKGRKAFSFQYDKDWLKSPERYLLDPDIQFFPGTQFPSGKENFGIFTDSMPDTWGRTLMKRRAAKEAKEKGLIKPSVLYDIDYLLGVYDESRMGALRFKTELDGPFLDHNSLMPTPPWSHIRELQFAAKIMEDDKDSHDIQKWLAVLMAPGSSLGGARPKANILDESGDLWIAKFPSKNDVIDKAAWEFLAYRLAVNAGIEMAPSKIEKITGRHHTFFTKRFDRENKERIHFASAMTMTGNNEDTIRDNPASYLDIAEFISNYGVNIEENLHQLWRRIIFNITISNTDDHLRNHGFILTEKGWILSPAYDLNPSVDKDELALNIDLENNDLDFDLATSVGEYFRLSSVEMEQIISEVYSSVSKWKDIATEIGISRTEQELMKGAFKV	PGPT0027480_1990	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
BMS003_02799	996			hypothetical protein	ATGAAAGGTAAAACAACAAGAAATATCGCATATAAAATTGTTGAGCTTCCGGAGGTAGCTTTGCGCTCACCTACACAATTAGAAAATTTGCCATTTCCCTATGTTCACTATCCACAACACTATGGGACATTTATTTCTTTCTCAGAAAAAAGAAATGGCGAACAGTATCTTTGCTTGTGCGCAGAACAAGCACTAACGAACTATTTTGAATTATCAGGATGTCTTTCAAATGACAAAAAAAAAATTATAAAAATTCCTTGGCAACCCCCTTTTTCAAATAATTTAACAAACAAAATAAAACCTCAAAAACGAATAACAGACATTTTTAAATTTCTTCCAAAACTTTGCCATCGTTGTAATATGGCTACACCCACTTTAAGATGGTGTCATGAGATGTATGGAGGAAATTTTAAACAATATTACGGCTGGTATATCCAATTAACTTCATTAAGGCTTGGATTCAAAGGGTTTGAGTTTCTGCCTGATGTTTGCCCGTCAGAAATTGTTGAAAAAATAAAACTATCAAAAGAGTTAATTATTGATAATCCCATATTTAATAGTGAAGAAGAAAGAAAATTAGCCGTTAAATATTATAATGAATTAAAAAAAATCCCTGAGAATGTTACGCGGACAGAGTTCGGATTTAGAAAAATTGGAGAAGGTTGGGTAAGTGAAACAATATTATTTCATTTAGTTTCCAGTGCCTTTCCTTTAAGCATAATTCAAAGAAACATACGACCGGATTGGCTGGAAAACTTGGAGATTGATATCTATCTACCTGATAAAAAAATAGCTTTTGAGTACCAAGGCCAACAACATTTTTATCCAATCAAAGCATGGGGCGGTGAAAACGCATTTAAAAATTTACAAAAAAGGGACGAAAGAAAAAGACAACTTTGCTTACAACTTGGAATAAGATTAATTGAAATTGACTATACAGAACCTTTAACACTTGAGTATTTGACAGAAAAAATTAAAAGCTCCGCCAACATCTAA	MKGKTTRNIAYKIVELPEVALRSPTQLENLPFPYVHYPQHYGTFISFSEKRNGEQYLCLCAEQALTNYFELSGCLSNDKKKIIKIPWQPPFSNNLTNKIKPQKRITDIFKFLPKLCHRCNMATPTLRWCHEMYGGNFKQYYGWYIQLTSLRLGFKGFEFLPDVCPSEIVEKIKLSKELIIDNPIFNSEEERKLAVKYYNELKKIPENVTRTEFGFRKIGEGWVSETILFHLVSSAFPLSIIQRNIRPDWLENLEIDIYLPDKKIAFEYQGQQHFYPIKAWGGENAFKNLQKRDERKRQLCLQLGIRLIEIDYTEPLTLEYLTEKIKSSANI				NA	NA	NA	NA	NA
BMS003_02800	2058			hypothetical protein	ATGAAAAAAAATAAAACTCAAATTACATCTAAGAGCATCATACAAAGTGGTTTACCAAGTGATTTCCGAAAAGCAATTTCCGAATATATCTGGAATGGCTTTGATGCTGAAGCTTCTGTTATTGATATCTATTTCAGTGCAAATGAAATTGGTACGTTATCTGAATTTGTTATAACGGATAACGGCAACGGAATCCCATTTAATACAATTGATGAAACCTTTGGCCATTTTTTGGATTCTCACAAGACAAAATCGTTCGATAGTAATAGGTTTGTGAAAGGAAAGAAAGGAAAAGGAAGATTTTCTTTTCAGCAGTTCTGTAATCTTGCAAATTGGAATACAACATACTTTGACAGTGAGAGTGAAAAATTTTTAAATTATAATATTGAAATAGTAAGCTCCAATCTTGATGATTATAAAACCTCAGATTCAATAATTACAAATTGTGGTACAGGAACCGCGGTGCGCTTTGAATCTTTCACCAATCTTACAGGTGATTTATTGGATTCTTCTGAGTTTATTAGCTTTTTAGAATCTGAATTTGGATGGTTTTTATACCTGAATAAGAACAAAAATTTTACAATAACCGTTAACAAAATTCCAATCGATTACAATAATGTTATCGAAAAAATAGTAGAACATCCACTTGAGATGGATGGTAATATTTTCGAAATTTCTTTCATCTTGTGGAAAAATAAAATCAATGAGAGGTATTATTACTATTTTCTTGATAAACAGCTGTATGAAAAAGGAAGAGAACATACTAAATTCAATAATAAGACCGAAGATTTTTTTCACTCGGTTTATGTAATCTCAAATTATTTTGACAAATTCAGCAGGACAGAGAATGATGGAATTTCATTGGGTTTTGAAAAAAACCAAAGCGACCCTATCTATAAAAAGCTCTTAATATTTCTGAACAGGATTGTTTCTGATGAAGAGAAAAATTTTATAAGAAATAAAAAAGCTGAGAAACTGATCGAGGATTACAAAAAGAACAATGTTTTTCCTAAATTCAGAAATAATGAGTATGATAATCTCCGTAAACGAGATCTGGAAATTGTTGTTAGGGAACTGTACTGTATTAATCCAAAAATTTTCCAAAATTTGAGAATTCCTCAGCAGAAAACAATTGTGGGATTTTTAAATTTACTACTGGATTCCGAACAACGTGAAAATATTTTACAAATTTTAGAAAATATTGTCGAAATATCCGATGACGAAAGAGAAGAATTGGCAAGAGTTCTTTCTAAAACTAAAATAAGTAATATTACTGCCTTAGTAAAACTTCTAGAAAAAAGAAAAAATACTATTAATACAATTCAAAGACTTGTTTTTGATTTAGAAAAGTTCACAAACGAACGAGACCATATTCAAGTTTTAGTGGAAAATAATTATTGGTTGTTTGGAGAGCAATACCATCTTGTTTCCGCAGATGATAATTTCGAAAAAACATTAAATAATTATTTGTACTTCCTTGAGCAAGAAGAACTGTTGAAGTTCAATAATAATAATAATAATAATAATAATAATAATAGTGAAGAAGATATGGAAGCTTCACAAAAGAATAAGAATGATAGAAAAAAAGAAATTCTTGAATCAAAAGAAAAACTAAAAAGACCTGATATCTTCATTTGCAGAAAAAATACTACATCAGGGTTTTTAGATGAAGAAGAAAATATTATTGTGGAACTAAAGCGTCCAAGTGTAATCTTGACGAAAACTCAATATGACCAAATAGAAAATTACATCAGATTTATTGTAAAGGAGCCAAAATTCAATAGTGATTTACGCAAATGGAAATTAATTTTGATTGGTAAAGAGGTGGATGATTACATAAAAGATCAATATGAATCACATAAAAATAAAGGCAAAAGGTTTTTAATCCAGGCAGTGAAGAATTATGAAATATATGCTTATACCTGGGATGATATTGTAAAAATCTTTGATCATCGTCATCAGTTTCTTCTTGATAAAATAGGTTATAAAGATGATTTTATCAATGAAGTTGAATCTGTAAAAAATAATCCTCAAGAATTAATCAAAAAAGTTATATAA	MKKNKTQITSKSIIQSGLPSDFRKAISEYIWNGFDAEASVIDIYFSANEIGTLSEFVITDNGNGIPFNTIDETFGHFLDSHKTKSFDSNRFVKGKKGKGRFSFQQFCNLANWNTTYFDSESEKFLNYNIEIVSSNLDDYKTSDSIITNCGTGTAVRFESFTNLTGDLLDSSEFISFLESEFGWFLYLNKNKNFTITVNKIPIDYNNVIEKIVEHPLEMDGNIFEISFILWKNKINERYYYYFLDKQLYEKGREHTKFNNKTEDFFHSVYVISNYFDKFSRTENDGISLGFEKNQSDPIYKKLLIFLNRIVSDEEKNFIRNKKAEKLIEDYKKNNVFPKFRNNEYDNLRKRDLEIVVRELYCINPKIFQNLRIPQQKTIVGFLNLLLDSEQRENILQILENIVEISDDEREELARVLSKTKISNITALVKLLEKRKNTINTIQRLVFDLEKFTNERDHIQVLVENNYWLFGEQYHLVSADDNFEKTLNNYLYFLEQEELLKFNNNNNNNNNNNSEEDMEASQKNKNDRKKEILESKEKLKRPDIFICRKNTTSGFLDEEENIIVELKRPSVILTKTQYDQIENYIRFIVKEPKFNSDLRKWKLILIGKEVDDYIKDQYESHKNKGKRFLIQAVKNYEIYAYTWDDIVKIFDHRHQFLLDKIGYKDDFINEVESVKNNPQELIKKVI				NA	NA	NA	NA	NA
BMS003_02802	375			hypothetical protein	ATGAAAAAAGTAACAGGCATTGGCGGAATATTTTTCAAGTGTAAAGATCCAAAAGCTTTGAAAGAGTGGTACAAAACTCATCTTGGTATTGATATCAATGAATACGGTGCAACCTTCAATTGGAAAGATGTAGCTGATTCGAATCCGAAAGGTTCTTTGACATGGAGCCCTTCTCCTGAAACTACCAACTACTTTGAACCATCAGCAAGGGAATTTATGATCAATTATACGGTTGCTGACTTGGAGAGTTTGGTTGAACAGCTAAGGAAAGAAGGGGTAACAATCCTTGATGAAATTGAAACATATGATTTTGGTAAATTTATTCATATTCTTGATATTGAAGAGAATAAAGTAGAGCTTTGGGAGCCTAAGTAA	MKKVTGIGGIFFKCKDPKALKEWYKTHLGIDINEYGATFNWKDVADSNPKGSLTWSPSPETTNYFEPSAREFMINYTVADLESLVEQLRKEGVTILDEIETYDFGKFIHILDIEENKVELWEPK	PGPT0009155_2942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS003_02803	1263	bioF_2		8-amino-7-oxononanoate synthase	ATGAATATATTAGATAAAATAAATACACGCCTTGGTCCTCTTGGAGATCACGCTCATTACGCCCACGGATATTATGCCTATCCAAGGCTTGAAGGGGAGATCGGTAATACCATGCTTTTTAATGGGAAGAAGAAATTAATTTGGAGCCTGAATAATTATTTAGGATTGGCTAATCATCCGGAAATCAGACAGGCTGATGCTGAAGGAGCCCGGCAATATGGACTTGCCTATCCGATGGGAGCAAGAATGATGAGCGGAAATACCAGATTGCATGAAGAATTTGAAGAGAAAGTTGCTGACTATCTTCAAAAAGAAGATGCTTTTTTACTAAATTATGGCTATCAGGGAATGGTATCCATCATTGACAGCTTGGTGGATCGGAAGGATGTCATTGTGTATGATGCTGAATCTCATGCCTGTATTATTGACGGAATACGTTTACACCTAGGAAAACATTTTGTTTTCAAGCACAATGATATAGAGGATTGTGAAAAGCAATTGAAGCGTGCAGAGAAAATAGTCTCTGAAACAAACGGAGCCATATTGGTAATCACGGAAGGAGTCTTTGGAATGCGTGGAGATCAGGGAAAGCTAAAAGAGATTGTTGCACTGAAAGAAAAGTTTAATTTTTCCTTATTGGTGGATGATGCTCATGGTATTGGCTGCTTAGGAAAAACGGGAGCTGGAACAGGTGAACAGCAAGGAGTGCAAGATGGTATTGATTTTTATTTTGGAACGTTTGCAAAATCATTTGCCGGTATTGGAGCTTTTATTGCCAGTACTAAAGAAGCGATCCTATTTTTGAAATATAATATGCGTTCCCAGATATTTGCTAAATCACTTCCAATGCCGATGGTATTCGGAGCTTTAAAACGACTGGAATTAATCCGGACAAAACCTGAGCTTAGAGAAAAGCTTTGGAAAGTAGCCCATAGCTTACAAAAAGGACTAACCGATGCCGGTTTTGATATTGGTGACACAAATTCTCCGGTGACCCCAGTTTATCTCAATGGAACGATAGAAGAAGCAACTGCATTGGTTCGTGATTTACGTGAAACCCATCAGCTGTTTTGTTCTATGGTAGTTTATCCTGTTGTACCAAAAGGAATGATTATTTTACGATTAATTCCAACTGCTGTACATACTTTGGAAGATGTAGAGAGAACAATTGCTGTATTTACAGAGATCCGGACTAATTTAAATTCCGGGTTTTATGGACAGCAATCCGAAAATAGTAGTACATTAGTAGGGAAAACAAATTAA	MNILDKINTRLGPLGDHAHYAHGYYAYPRLEGEIGNTMLFNGKKKLIWSLNNYLGLANHPEIRQADAEGARQYGLAYPMGARMMSGNTRLHEEFEEKVADYLQKEDAFLLNYGYQGMVSIIDSLVDRKDVIVYDAESHACIIDGIRLHLGKHFVFKHNDIEDCEKQLKRAEKIVSETNGAILVITEGVFGMRGDQGKLKEIVALKEKFNFSLLVDDAHGIGCLGKTGAGTGEQQGVQDGIDFYFGTFAKSFAGIGAFIASTKEAILFLKYNMRSQIFAKSLPMPMVFGALKRLELIRTKPELREKLWKVAHSLQKGLTDAGFDIGDTNSPVTPVYLNGTIEEATALVRDLRETHQLFCSMVVYPVVPKGMIILRLIPTAVHTLEDVERTIAVFTEIRTNLNSGFYGQQSENSSTLVGKTN	PGPT0020495_648	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS003_02804	597			hypothetical protein	ATGATTTTTAAACAGCTTAGGGAAAAAGTTGATGTAAAGGATGCCGTTTTTAATGAAATATATCCTCCGGGTATACAGGCAGCAGCAGAAATGCATTGGACACCTGTTGCTGTTGCTAAATTAGCCGCGGAATATCTGGCAGAAAAACCGGGCAGGAAAGTGCTTGATATTGGATCAGGATCAGGAAAGTTTTGCCTGGTAGGAGCTGCTTCTACAAATGGTTTTTTTTATGGTGTGGAACAAAGAGCTTCACTTACTAAAATGTCAAGAAAAATAGCCGACAAACACAATATCAACAATGTAGAATTTATAAATTCCAATATTAATGAAATCAGTTTTTCTGATTTCGAGGCTTTCTACTTTTTCAATTCGTTTTTTGAAAATATAGATACTTCACATCCAATTGATGACACGATACATCCTGACAGGGATCTATATGATGCCTATTCAGAGTATGTAAAAGAACAATTACATAAAACTCCTGTTGGAACCCGCTTGGTTACCTATTGGAGTAAATGGGATGAAATTCCGAGAAACTTTGAATTGGTAGACTCTGCCTGTAATGGATTTTTAAGTTTTTGGAAAAAAGTATTCTAA	MIFKQLREKVDVKDAVFNEIYPPGIQAAAEMHWTPVAVAKLAAEYLAEKPGRKVLDIGSGSGKFCLVGAASTNGFFYGVEQRASLTKMSRKIADKHNINNVEFINSNINEISFSDFEAFYFFNSFFENIDTSHPIDDTIHPDRDLYDAYSEYVKEQLHKTPVGTRLVTYWSKWDEIPRNFELVDSACNGFLSFWKKVF				NA	NA	NA	NA	NA
BMS003_02805	390	gcvH_3		Glycine cleavage system H protein	ATGCTTGTTCCCAAAAGTCTATATTATACCGAAAATCATTTATGGCTAAGAAAAATAGGATTATATGATTTCTGTATCGGCGTCACAGATTTTTCTCAAAAGGAGATAGGAGAAATTCACCTGGTTGAATTGAGTGAGCAAATTAATAAGCAGAGCTGTACAATAAAAAAAGGGGACTTATGGGGAGTTGTTTATGGAATCAATAAGACCTTTGAGCTTCTGGCTCCCTTCGATTGTAAAATTATGGAAGTCAATAGGAATATAAATATAAAGCCTTCTCATATCAACACGGATCCATATAACTGTTGGTTGGTGATTCTTTCCATAGGTATCTCCACGGATGCATTATTAACATATGAAGATTATATACAGATAACAAATGATTTTTAA	MLVPKSLYYTENHLWLRKIGLYDFCIGVTDFSQKEIGEIHLVELSEQINKQSCTIKKGDLWGVVYGINKTFELLAPFDCKIMEVNRNINIKPSHINTDPYNCWLVILSIGISTDALLTYEDYIQITNDF				NA	NA	NA	NA	NA
BMS003_02806	1059	gcvT_3	COG0404	Aminomethyltransferase	ATGCATCATGCATTGGGAGCAAAAATGGTAGAATATGCAGGCTATGAAATGCCTGTTCAGTACCAAGGGGTGACTCACGAGCATGAAATCGTAAGAAGTGGAGCCGGAGTTTTTGATGTTTCGCATATGGGGGAGATTTCAGTGCAGGGAAAAGGTTCTTTGGAGCTCATCCAAAAAATAACTTCTAACGATGCGTCAAAGCTTTATCCCGGAAAAGTACAATATAGCTGTATGCCCAATGATACCGGAGGAATTATTGATGATCTGCTGGTTTACAAAATAAGCAAAAACGACTATCTGCTGGTTGTTAATGCTTCCAATATACAAAAAGATCTGGATTGGATTAAAAGCCATAATTCTTTTGGAGCAGAAGTAACCAATATTTCAGATTCAGTTTCTTTACTGGCTGTTCAGGGACCAAAATCAGTAGAAGTTTTACAGAAACTGACGGATATTAATTTAAAAGAACTAGAACCTTATACTTTCACCATTGGGGAATTCGCTCATATTCCGAATGTTTTGATCTCAGCAACAGGATATACAGGGGAGACGGGGTTTGAAATCTATGTAGAGAACAGATATGCTGCTCATTTATGGGAAGCAATATTTGATGCGGGAAAAGATGAAGGTATTGAACCGATTGGACTGGCTGCAAGAGATACATTGCGCCTGGAAATGGGATATTGCCTTTATGGAAATGATATTAATGATTCTACTTCGCCATTGGAAGCAGGTCTGGGCTGGATAACAAAATTCACGAAAGATTTTGTTTACAGTGGATTCCTGAAAATTCAAAAAGAAAAGGGAGTTACTAAAAAGCTTGTTGGTTTTGAAATGAAAGATAAAGGCATTCCCCGTCATGGTTATGAAATCTGGAATGCTGACCAGGAGATAATAGGAACTGTTACTTCCGGCACGATGTCCCCAACACTTAAAAAAGCTATAGGAATGGGATATGTTTCTGCCGAGAATTCCAAGATTGGAAGTGAAATTTTTATTAATATCAGAAATAAACCGGTCAAAGCGGTCATTGTTAAAGCTCCGTTTGTGAAAAAATAG	MHHALGAKMVEYAGYEMPVQYQGVTHEHEIVRSGAGVFDVSHMGEISVQGKGSLELIQKITSNDASKLYPGKVQYSCMPNDTGGIIDDLLVYKISKNDYLLVVNASNIQKDLDWIKSHNSFGAEVTNISDSVSLLAVQGPKSVEVLQKLTDINLKELEPYTFTIGEFAHIPNVLISATGYTGETGFEIYVENRYAAHLWEAIFDAGKDEGIEPIGLAARDTLRLEMGYCLYGNDINDSTSPLEAGLGWITKFTKDFVYSGFLKIQKEKGVTKKLVGFEMKDKGIPRHGYEIWNADQEIIGTVTSGTMSPTLKKAIGMGYVSAENSKIGSEIFINIRNKPVKAVIVKAPFVKK	PGPT0008130_3236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS003_02807	384	gcvH_4		Glycine cleavage system H protein	ATGAAGATTCCTGAAAACCTCTTATACACTGAAGATCACGAATGGGTAAGATTAGAAAATGATATGGCATATATTGGAATTACCGATTTCGCTCAACATGAATTAGGTGACATCGTATATGTTGAAATAGAAACCCTTGGGGAAATTTTAAAACAACATGGGATATTTGGAACAGTTGAAGCTGTAAAGACGGTATCCGATCTTTTCCTTCCTATTGCCGGAAAGATACTGGAGATTAACCCTAAGTTAGAAACCAACCCTGAGCTTGTAAACTCTGATCCTTATGGAGAAGGCTGGATGGTTAAAATTAAGATTGCAAATCTTTTTGATACGGAAGGGCTTCTAAGATCTGATTCATATGCATCATTAATAGGGATATCATAA	MKIPENLLYTEDHEWVRLENDMAYIGITDFAQHELGDIVYVEIETLGEILKQHGIFGTVEAVKTVSDLFLPIAGKILEINPKLETNPELVNSDPYGEGWMVKIKIANLFDTEGLLRSDSYASLIGIS				NA	NA	NA	NA	NA
BMS003_02808	1584	pckA_3	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGGAATATTTAGAATCTCTAAAAAATATTGGGATTACACCGGGTAAAGAAGTCTATTGGAATTTATCAGTGTCTCAGCTAATCTCCCAAACTCTAAAAAGAAGCCAGGGAATAATTACAAGTTCAGGAGCTTTGGCGTGTGATACAGGCGAGTTCACCGGTCGTTCACCAAAAGATAAGTACATTGTCTTGGATGATACAACTAAAGATTCTATATGGTGGGGCGAAGTTAATCATCCTTTTTCTCCTGAAGATTTCGAAAGGTTGTATGATAGTGTTTCGACCCATCTTTCCAGTAGGGATATTTATGTCAGGGATGCCTACGCTTGTGCAAAACCTGAATATGGATTAAATATAAAGGTAATCACCGAAACTCCATGGTCAAACTTATTTGTTAACAATCTCTTTCTAAGACCTACAGAAAAAGAATTGGAAACTTTTCAGCATGAATGGCTAATTCTTAATGCTCCTGATTTTAAAGCAGTTCCTGAAGTCCATAAAACCCGTCAGCATAATTTTACGATTATTAACTTCACTAAGAAAATAATTCTTATTGGAGGAAGTGCCTATACAGGAGAAATTAAAAAAGGAATTTTTACGGTGCTCAATTATTTGCTTCCTTATGAGAAACAGGTATTATCGATGCATTGTTCGGCAAATATCGGAAAAGACGGAGATACATCTGTATTTTTTGGCCTTTCGGGAACCGGGAAAACCACACTTTCAGCAGATCCTTCAAGAAAGCTTATTGGCGATGATGAACACGGATGGGATGATGAAAGTGTTTTCAACTTTGAAGGAGGCTGTTATGCCAAATGTGTTAACCTGAGCCAGGAAAAAGAACCGCAGATATTTTCCGCAATTCGCATAGGAACATTGCTTGAAAATGTACGTTTTTTTGAAGGAACTGATATTGTGGACTATGACAATACTTCAGTGACAGAAAACACGAGAGCTGCTTATCCAATAGATTTTATTGATAATGCAGTGCATCCATCCATAGGTAGTGCCCCTAAAAATATTTTCTTTTTGACATGTGATGCTTTTGGGGTACTTCCTCCAATATCGAAATTGACAGTAGAACAGGCTATGTATCATTTTATTTCTGGCTATACTGCAAAAGTAGCAGGAACTGAAGCCGGAGTTACAGAACCCCAAACGACATTTTCAGCATGCTTTGGAAAACCTTTCTTACCGCTTCACCCTATAAAATATGCAGAGCTGTTGGGAAAAAAATTAAAAGAAAATAATATTAATGTATGGCTGATTAATACCGGCTGGTCCGGAGGAGCTTATGGTACAGGTGAACGTATAAAGCTGGCCTATACCAGAGCGATGATTGCAGCAGTATTGGAAAATAAACTGGATAACGTGGATTTCATCAATGATCCTGTTTTTGGACTTCAGATGCCTGTAGAATGTGAAGATGTTCCATCAGAGATTTTGAATCCTAAAAATACGTGGGATGACCAGGCAGCATATGATGAAAAAGCACATCATTTGGCTTCGCAGTTTGTACAAAACTTTAAGTCTTTTGAATCTTTTGCTGATCAGGAAATACTAAGCGGAGGACCTCTAATCTAA	MEYLESLKNIGITPGKEVYWNLSVSQLISQTLKRSQGIITSSGALACDTGEFTGRSPKDKYIVLDDTTKDSIWWGEVNHPFSPEDFERLYDSVSTHLSSRDIYVRDAYACAKPEYGLNIKVITETPWSNLFVNNLFLRPTEKELETFQHEWLILNAPDFKAVPEVHKTRQHNFTIINFTKKIILIGGSAYTGEIKKGIFTVLNYLLPYEKQVLSMHCSANIGKDGDTSVFFGLSGTGKTTLSADPSRKLIGDDEHGWDDESVFNFEGGCYAKCVNLSQEKEPQIFSAIRIGTLLENVRFFEGTDIVDYDNTSVTENTRAAYPIDFIDNAVHPSIGSAPKNIFFLTCDAFGVLPPISKLTVEQAMYHFISGYTAKVAGTEAGVTEPQTTFSACFGKPFLPLHPIKYAELLGKKLKENNINVWLINTGWSGGAYGTGERIKLAYTRAMIAAVLENKLDNVDFINDPVFGLQMPVECEDVPSEILNPKNTWDDQAAYDEKAHHLASQFVQNFKSFESFADQEILSGGPLI	PGPT0001405_1963	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
BMS003_02809	96			hypothetical protein	ATGACGGATACCTTTTCTAAACTTGATTTAAGTCAAATTTATATTGCTTTAAAATTGCTTAATTTAGTAAACTATGATTTCAAAATTTATTTTTAA	MTDTFSKLDLSQIYIALKLLNLVNYDFKIYF				NA	NA	NA	NA	NA
BMS003_02810	681	anr_2		Transcriptional activator protein Anr	ATGATTTCAAAATTTATTTTTAATAGTCAATATCTTTTTGAGGAGCTTTCTCCACATGATAAAGCAATGCTTCAAAAGGTGATGCAGGTTAAAAATTATCGTAAAAATGAAGCCATATTTACCGAGGGAACTATTCCTAACGGAATATTTTTTTTAAAAGGAGGGAAAGTAAAAAAATACAAGGTTGATAATGACGGAAGGGAGCAGATTATTTATATTTATAATGCAGGAGAATTCTTTGGCTATTCAGCGATATTGAGTGATTATTCTTATGGGGATACAGCCCAGGCCATAGAGGGATCTGTTATCGCCTTTATCCCGAAAGAAGATTTTTTGCGAATTCTTGATGGGTCAAAGGTATTTTCAACATTGCTGCTCAAAAGCCTTAGCCATGAATTTAGCGTAATGGCTAACCTGATGACAGTTTTATCTCAACGAACTGTCAGGGAGCGTACCGCACTTAGCTTATTGATTCTTCATAATAAATACAAATCAAACAATACTATTGAAAATGTATATATTACATTATCCCGTGTTGACTTAGCCAATATGGTGGGAACAGCAAGAGAAACATTAGCACGGATCCTTCATGATTTTAGGGAAGAACAGCTTATTGCTATGGAAGGAAGGAAAATACAGTTGAAAGATATAGACAGATTAACGCGTATTGCTAATCTCTAA	MISKFIFNSQYLFEELSPHDKAMLQKVMQVKNYRKNEAIFTEGTIPNGIFFLKGGKVKKYKVDNDGREQIIYIYNAGEFFGYSAILSDYSYGDTAQAIEGSVIAFIPKEDFLRILDGSKVFSTLLLKSLSHEFSVMANLMTVLSQRTVRERTALSLLILHNKYKSNNTIENVYITLSRVDLANMVGTARETLARILHDFREEQLIAMEGRKIQLKDIDRLTRIANL	PGPT0015075_1137	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
BMS003_02811	726			hypothetical protein	ATGTTTAGACATAAAGGAAAAGGACGAACATATTCCCATAATTTAAAACTGGCCTCTATTTTATCATGTGTTGCAGGGTTGGTGAATATTACGGGGGTTCTCTCCGTAAGTACCCTCACTACCAATGTAACAGGACATTTTGCCTATTTCTCGGAACAACTATTTTTAAGAAATTATAAAATGGCGTTTATCTATCTGCTGTACATTTTGTTTTTCTTACTGGGAGCCTTTATTTCAGGCGCTATTATGGAATGGGCTTCAAAACATAAATCCCATACTTCTTATATTATTCCTTTATCTATTGAGATTGCTATCATGCTTGTTATAGGATTCTCACCTGAATTATTTCCTGATGGTTCCTTTTTACCATTGGTGATTTCTTCGGCATTACTATTCGCTATGGGGTTACAAAATGCTCTTGTTACCCGTGTCTCCCAGTCTGTAGTGCGAACCACTCACCTCACAGGACTGTTTACAGATCTGGGGAATGATTTGTCACAGCTGCTTTTTCATGGGCAAAAAGGCAAAAGGATTCAGTTAAAAAAAAGTATTTTTTTAAAATTGATGATCATCAGTGGATTCTTTTTGGGAGGAATTCTTGGTGGATTCTCCTATCACTACTTCCAACTGAAAACACTTCTTCTCCCAGTAGTTTTGCTATTATTCGCATTATGGTATGATGGAATTTTACTCCGGTATTACCATCTGAAAAGAAAATTGAGATAG	MFRHKGKGRTYSHNLKLASILSCVAGLVNITGVLSVSTLTTNVTGHFAYFSEQLFLRNYKMAFIYLLYILFFLLGAFISGAIMEWASKHKSHTSYIIPLSIEIAIMLVIGFSPELFPDGSFLPLVISSALLFAMGLQNALVTRVSQSVVRTTHLTGLFTDLGNDLSQLLFHGQKGKRIQLKKSIFLKLMIISGFFLGGILGGFSYHYFQLKTLLLPVVLLLFALWYDGILLRYYHLKRKLR				NA	NA	NA	NA	NA
BMS003_02812	669	can_2	COG0288	Carbonic anhydrase 2	ATGACACAATCGTACGAAGTTATTTTTGAAAACAACAGGAAGTGGATAGAGTCTAAACTTTCTCAGGATTCAGATTTCTTTCAAAAACTAGCTAAAGCTCAAACACCAAAATATTTATATATTGGGAGTTCGGACAGCAGAGTAACAGCAGAAGAAATAATGGGAGTTAAACCAGGTGAAGTTTTCGTCCATAGAAGCATTGCCAATGTGGTTAATACATTAGATATGAGTTCTACAGCAGTCATCCAATATGCAGTAGAACACCTTAAAGTAAAACACATTATTGTCTGTGGGCATTATCACTGTGAGGGGGTTAAAGCAGCAATGGCCCCACAGGATTTCGGATTACTGAATCCCTGGTTGAGAAATATCCGTGATGTATATAGATTACATCAGGTAGAATTAGATACTATCGAGAATGAAGGAAAACGTTATGACAGACTTGTAGAACTTAATGTTCTGGAACAATGTATTAATGTAACTAAGATGGCCTGTGTGCAGGAAAGATATATTTTAGAGGAATATCCTATTGTACACGGCTGGGTGTTTGACCTTAGAACGGGTAAAATTATTGATTTGGAAATTGACTTTGAAAAAGTATTGAAGGATATCCAGAAAATTTATAATCTTACAGATTCCGATTGGGTGATGAGCAGAAAAGCTAAATAG	MTQSYEVIFENNRKWIESKLSQDSDFFQKLAKAQTPKYLYIGSSDSRVTAEEIMGVKPGEVFVHRSIANVVNTLDMSSTAVIQYAVEHLKVKHIIVCGHYHCEGVKAAMAPQDFGLLNPWLRNIRDVYRLHQVELDTIENEGKRYDRLVELNVLEQCINVTKMACVQERYILEEYPIVHGWVFDLRTGKIIDLEIDFEKVLKDIQKIYNLTDSDWVMSRKAK	PGPT0002415_3054	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS003_02813	309			hypothetical protein	ATGAAATTCTGGAGTGTTATTACATTGTTAATTTTTCTAAATTTCACAGCGTTACCAAGTATAGCTGTGGCAGCCGGTTGGGAAATTCTAAGATCAAATGTTATCATTAATGAGGAAGAACAACATTCTAGTCCCACCTCTTTTATTGTTTACGAAAAGATACTTCCAAAAACTTTAGAAGTCTTCGATTTTCTTAAGTTTTTTGCACCTTCTCCTGAAGGGAAATCTTTTGTGCTGATAGATGATTCCTTTCATCTGTCTCCTGTAATCATTATATTTTCCCCACCTCCGGAAAACTTATTTCAATGA	MKFWSVITLLIFLNFTALPSIAVAAGWEILRSNVIINEEEQHSSPTSFIVYEKILPKTLEVFDFLKFFAPSPEGKSFVLIDDSFHLSPVIIIFSPPPENLFQ				NA	NA	NA	NA	NA
BMS003_02814	159			hypothetical protein	ATGCTTTTACGGCTGCTTTACTATTGTTTTGTAGAAGAATTTGACTTGAATAACAGAACACTGAGGATAATTAATGAAAATGAGCCACTATGGGAAATAGACCTCTCAAAACTTTCATTACGTTCTTTGAATTCTTTGCCTAACGAAAAGATTGATTAA	MLLRLLYYCFVEEFDLNNRTLRIINENEPLWEIDLSKLSLRSLNSLPNEKID				NA	NA	NA	NA	NA
BMS003_02815	264	xerC_6		Tyrosine recombinase XerC	ATGAAAGTTGAACGTTTTGACAGGTGTATGATGATGATCGGAAATAATGAAGATACTATCAGAGACAATCCTGCGAGTTATCTGAATAAGCATATTACATTCTACACAGCCCGGCATACTTTTGCAACAACAGCTCTGAGAAAAGATGTAAATATCAATATTATTAAACAGTCTTTGGGGCATAAGAAACTTAGCACAACAGAAAGTTATCTTGAAGATTTTTCAACCAATGAAGTGGATATGGTTATTGAAAGTATTTTTTAA	MKVERFDRCMMMIGNNEDTIRDNPASYLNKHITFYTARHTFATTALRKDVNINIIKQSLGHKKLSTTESYLEDFSTNEVDMVIESIF				NA	NA	NA	NA	NA
BMS003_02816	1710			hypothetical protein	ATGACAATACAAGAACTACAATATCTAAAAGAATCGGAAGATAAAGTAGAATTTAAAGAAGCTAAAAATAATTTCCCCTTTAATGGAGGATCTCATAAAGAACAGGAAAACCGAAGAAAATGTTATTTAGGTTATATTGTTGCACTAGCCAATGAGGGAGGAGGCAAATTAATTTTCGGGATGAGTGATGCGTTTCCACATACTGTGGTTGGGAGTAATTTTGCAAATGGAAAGATAGGTGAATTAGAAGACGCTGTATATGAAAAGCTGGAAATAAGAATTCGTCTTGAAGAATTATATGATGAAAATGGATTAAGAGTATTGGTTTCTCATATTCCCACAAGACCTATTGGTAAAATGCTGAAATTTGAAGGGGTACCACTTATGCGGGTAGGTGATAGTTTACGTAATATGAGTGATGAAGAAATGTTTGCTATATTATCCGAACAAGAGCCCGATTTTTCGGCAAAAATTGTTGAAGGTTTCATATTAGATGATATTGATCATGAAGCATTTTCAATTCTGAAAGATAATTACGCAATTAAGCAGCGTAATCCTCTATTCGGACAATTAAGCCAAGAGCAGATTTTGACAGATTTAAAGCTTAAAATACCTTCCGGACTTAATTATGCATGTCTCATTTTACTAGCTAAAAAAGAGGTTCTACATACTAAATTACCTCAATGCAAAATTATTTGGGAATATCGAACTTCCGAAGTTCAAATTCATTTTGATAATAGAATCGTTATTGAAGGACCATTATATAAAGCAGTAGAAGAAGTTTGGAAATTGATTAACCAACCACTTCTCAATAAAAAGCATCCTATACAAAATGGAACCTATATTTATGATATTTATGATTTCAACGAAGCTGTTCTTAGAGAGGCAATTCTTAATGCAGTAGCACATCGGGATTATAGTATATCCAGTGAAGTAGTTATAAAACAATACCCTAATAAAATTATTATAACTAATCCTGGAGGATTTCCTAAAGGGGTTAATATTGAAAATATTCTAACAGTAAGCAGTACCCCAAGAAGCAGACTATTGACTGATATTTTAGAAAAAACAGGTTTGGTTGAGAGAAGCGGTCAGGGAGTTGATAAAATTTTTTCATTAACCCTGTCTGAAGGGAAGCCAGAACCAGATTATTCATCTTCTGATATGTTTCAAGTTACATTGGGATTATACTCACAAATTACTGATAAAGCATTTCATATTTTTATCAATGAATATCAAAATAGTGACAAAGAGCCTAAATTAGGGGTAGAACAAATTATCACACTATATAAAGTAAGAAAAGGAATTTTTGCTCATTTAAAAGAAAATATAGTAAGCCAATTACTAACACTGGGGCTAATTCGTCCTGTGTCCACACATACTAACAGATATATCCTTACAGAGGATTTTCATAAATTGGAAGGAGAAATGCAAATGATCGGCAAAAAATATATTGCCACAGAAGTAGAATCCATTGTTTTACTTTTGCAAGGAAAAAAAATGAAAATTGGGGAAATAGAACAGTATTTAAAAAATTCTTTAAATAGAAATCAGATTAAGTATTTGTTGAGTAAGTTAAAGGATGATGAAATTTTGACTATAGAAGGAGTTGCTGGTGGAACAAAATATTTTCTTTCAGATTTATATAAGGATCTTCGTGGAGAATTATTAATAAATAAAGTTGTTGAAGATTTAAAAGCTAAGTTTTAA	MTIQELQYLKESEDKVEFKEAKNNFPFNGGSHKEQENRRKCYLGYIVALANEGGGKLIFGMSDAFPHTVVGSNFANGKIGELEDAVYEKLEIRIRLEELYDENGLRVLVSHIPTRPIGKMLKFEGVPLMRVGDSLRNMSDEEMFAILSEQEPDFSAKIVEGFILDDIDHEAFSILKDNYAIKQRNPLFGQLSQEQILTDLKLKIPSGLNYACLILLAKKEVLHTKLPQCKIIWEYRTSEVQIHFDNRIVIEGPLYKAVEEVWKLINQPLLNKKHPIQNGTYIYDIYDFNEAVLREAILNAVAHRDYSISSEVVIKQYPNKIIITNPGGFPKGVNIENILTVSSTPRSRLLTDILEKTGLVERSGQGVDKIFSLTLSEGKPEPDYSSSDMFQVTLGLYSQITDKAFHIFINEYQNSDKEPKLGVEQIITLYKVRKGIFAHLKENIVSQLLTLGLIRPVSTHTNRYILTEDFHKLEGEMQMIGKKYIATEVESIVLLLQGKKMKIGEIEQYLKNSLNRNQIKYLLSKLKDDEILTIEGVAGGTKYFLSDLYKDLRGELLINKVVEDLKAKF				NA	NA	NA	NA	NA
BMS003_02817	1671			hypothetical protein	ATGAATTTTAAAATCGTTCCCCACTTTGAAGAAATTTTTCCTGAAGAGAATAAGGAAAATCCTTTGTTCTATCTTCTTAAAATTCCAAAGGAATTATTACTTAAAAGCATTGGTTTTTGCAATACATATCCATTACCAAATTATTATAACTTTTTTTCTGATAGAGAAGTAGCTCAAGATATTTACAGAAGAATAGAAATTTTCAAACGTGGTTCTGATAAGGATATCGAAATAATTTCACCACATTCTTATCTTAAACTTTCAGAACTTATCTTATCAAACATAGAGAAATTCAGCGTGGATGGAGATAAAAGCTCAAACTCGGAACTAAATCTGTTCAAAGCTTTCCTGGTATTAAATTCAAGATTTACAGAGTACAATCATGATTTCCAAACAAACCAAAACAAAGAGTCTTTCATAAACTTTATTGTTCTGCAAGGATTTCAATTAAGTGAAATTTCAATGTTTGAAGATGATAAAAATGAATTTGTAAAATTAATTTATGCAACAATTTACAAGGTTGAAAGCTTATTAAAATTTCTTTCAATCAAAAATTTTGAATTAATAAAAGCCGAATTTATAAAATCATATGGATTGACTAATGAAAAGGATTTTATATACAATATGAAATATTTATTCGCAACCCTTTTTATTGCTAAGCTTAATAATCAATACCTATTTACAAGTCAAAATCTTTCTTGTTTTGATTTAGTGAAAAATATAGCAGCCACAAAAATTATCGAGGATGAAGATTTTACAGAATTAAAAAAGAAACCACTTTATTTCATTGATGAAAATAGATTTTCCATTGTAAATTTCTATTTTGCTGTAGACTTATTTTATCGAAGTGCCAAATTTCGATTACAAGAAATTTTTAGAGAAAATAAAATTAAAATTGATGACTTCTTTAGTTACTATAATAAAGAATTTTCAGAGAATTTTCTAATGAAAAACTTGTTAGATGATATTTTTAGCAAAAAATTTTACACTAAAAAAATTGAATACGAAAATGAAGAAAAAAATGATCCTGATTACTACTTAAATTATAATAATACCCTATTAATATTTGAAAATAAAGATGTTTTAATTAGTAAATCAATTAAGTCGGCAAACGATATAGAAACAATCGAAAATTTTTTAAAAGAAAAATTTTTGCAAAGTAAAAAAAAGAGAAAAATAAAAGGAGTTGGTATTAAACAATTAGTAAATTCAATTGAGTTTATTTACAACCAAAATTTCAAATTTGATAATACAATTAAATACAATCATAAAATTGAAATTTTCCCTATACTGCTTGTACATGACAGAGTTTTTGAATCAATGGGAATTAACTATAAATTGAATAATTGGTTCATTGAAGAACTGAATCTAAGAAATATAAAATGTAATGAAAAGTTTAAAATTCACCCATTAACTTTAATGGATATTGATACTTTAATTTTGTGGAATCATAATATTAAAGACAATTTTAAAATTTTAAAAGATTTACTAATAGCCCACACAAAACAACTTAATGAACTGCCAAAAAAAAGTTACAATAATCCTAAACATTTTACTGATTATTTGCAAAGACTATTGAGACCTATTTCTGCCAGAGAAACCCCATTTTTTATTAAACCGGGTGAGTTTTCAAAGCAATTTTTAGATTTACTTTCTAATAAAAACGTATGA	MNFKIVPHFEEIFPEENKENPLFYLLKIPKELLLKSIGFCNTYPLPNYYNFFSDREVAQDIYRRIEIFKRGSDKDIEIISPHSYLKLSELILSNIEKFSVDGDKSSNSELNLFKAFLVLNSRFTEYNHDFQTNQNKESFINFIVLQGFQLSEISMFEDDKNEFVKLIYATIYKVESLLKFLSIKNFELIKAEFIKSYGLTNEKDFIYNMKYLFATLFIAKLNNQYLFTSQNLSCFDLVKNIAATKIIEDEDFTELKKKPLYFIDENRFSIVNFYFAVDLFYRSAKFRLQEIFRENKIKIDDFFSYYNKEFSENFLMKNLLDDIFSKKFYTKKIEYENEEKNDPDYYLNYNNTLLIFENKDVLISKSIKSANDIETIENFLKEKFLQSKKKRKIKGVGIKQLVNSIEFIYNQNFKFDNTIKYNHKIEIFPILLVHDRVFESMGINYKLNNWFIEELNLRNIKCNEKFKIHPLTLMDIDTLILWNHNIKDNFKILKDLLIAHTKQLNELPKKSYNNPKHFTDYLQRLLRPISARETPFFIKPGEFSKQFLDLLSNKNV				NA	NA	NA	NA	NA
BMS003_02818	375			hypothetical protein	ATGAAGAAAACATATTTTATATTAATATTAACTGTTGCAACCACATATTTGTCTGGTCAAACAAATAAGTCAGAGAAAGTCTTTCAACTTTTTCCAACCCAAAATATGTGGACCTTTCTAAAGTTAAACACCCGTAATGGCCAAATTTGGCAGGTTCAATATAGTATGAAGGATACAAATCGTTTCGAAATAAAGCTCAACTCAAATTCTTTAACTACCGCTGAAGATGAAATGGATGGTAGATTTAATCTTTATCCTACTCAAAATTTTAACAGTTTTCTTTTGCTTGACCAAACTGATGGTAGAGTTTGGCAAGTCCAATGGTCGACAAAGCCAGAGGAAATGAGTATGGTTCCAATTAATAAAATTGAATGA	MKKTYFILILTVATTYLSGQTNKSEKVFQLFPTQNMWTFLKLNTRNGQIWQVQYSMKDTNRFEIKLNSNSLTTAEDEMDGRFNLYPTQNFNSFLLLDQTDGRVWQVQWSTKPEEMSMVPINKIE				NA	NA	NA	NA	NA
BMS003_02819	375			hypothetical protein	ATGAAAAAAGAACAATCTCCCACTCGCAGTAAAAATGCCAGGATTACCCTGCGCTTGGACCAGCCAATTAAAGATAAATGGCTGGCTTATTGTCAGAAATCTAATATTTACCTTTCAGATTTTATTGTCAATATGGTCGAAGGCAAAATGCTTGAAAACGACCGTAAAGAAATCATGTTTTTTATTGAAAAGCAGGGAAATGTTTTTGCCAAGATAGAGAACAATATCAATCAGATTGCGCGGCATGTCAATACCGAAAAATCAATACCGAAAGAGCTATTGAAAGAATACAATTCTAAGCTTCAGGAGCTCAATAGCCTTAAAACCGAGCAAAATCGAATCATCAAAAAAATTTATACAGAACTTTCCAAATGA	MKKEQSPTRSKNARITLRLDQPIKDKWLAYCQKSNIYLSDFIVNMVEGKMLENDRKEIMFFIEKQGNVFAKIENNINQIARHVNTEKSIPKELLKEYNSKLQELNSLKTEQNRIIKKIYTELSK				NA	NA	NA	NA	NA
BMS003_02820	1443			hypothetical protein	ATGATCATCAAAATTTTAAATAAGAGCTCCAAAGATTTTAATGGGGTTGCTTATAATGATAAGAAGATTGATAAGGGAAAAGGGGAGCTTCTTTTGATGAAAAATTTTCCTGCTTACCTTAATTCCGCTTCAAGCAGGCAGGAAGTTAAAAATTATTTCAAAGCAATCTCCAATAACTGCAAACGTGTTCAAAATCCCCAATTTCATGGTACGATCTCTGCAAAAGGGAGATCATATTCAAAAGAGCAGCTGGCACTAACCGCTGAAAAATTTATGGAAAAGATGGGGTATGGAGAACAGCCATACATTGTAGTTTTTCATAATGACACTTCCAATAATCACGTCCACATCGTTAGTTCCAGGGTTGATAAGCATTCCGGAAAACGAATAGAAAGGGATTTTGAAAAGTATAAAAGCCAGACTGCCCTTCAGGAAGTATTAAAAGAACTGTATGGAACAGATGTCCATAAGAAGCTGGATCAACTTTTAGGGTATTCATATAGTAATTCCAGCCAGTTACAAAAACTGCTGGAAAATTCCGGTTACTCTGTGTATGAAAAAGAAAATACTACTCATATCCTTTGCAACGGTTTGCATTTAATGTCAATTAATACCGGAGATTTAAAATTTTCAGAAAAGAATATTGAAGATAGCAGAAAAAAACAGATATTTGCGATATTCAAAAAATACAAAGAGGTATTTTCAAATTCTGTTTTTAAAGTAGCAGATGAAAAAGGAAAATACATCTCCTACCAATCGGAACTTCAATACCAGCTGAAGAAGAAATTCGGTATTGACGTTGTTCTTTCATTCAAGGATGATAAACTGCCGTTCGGCTACACCATCATCGACCACAAAGCAAAAGCAATTTATAAAGGAAGTGAAATCATGAAAATGGATGACCTTTTCAGGATGACCTCCGGAGTATTAGATAAAAAGCTCTTTGAAATTCTGGCCAATTCAAATATAACAATCGAAACGAAGGAAGTTTACAAAAAGCATTTGGAAGACGAGTACAAATGCGAGATCCGGGATTATATGGTGTTTTTGAAAAATTCAAAAAAGACATCCTATAATATCTGGAAAGAAACACGAAATTCAACAATGGATCGTATCCGGAATTTTGAAAAAGTGAGCAGCCCGGAAGATAAGATTAAGATCCTTAATTTCTCAAATGAATTGTATGTTATTAACCGTAACGACAATGCCATTTTTATGTTAAAAGAATTGGTCACTGAAAACTATCAAAATCTTTACTTATCCAGGCTGCTTTCCCCTCAGAATTTAGAATCACATCCTATTGTAAGCGGCGTGCAGGTTCCGGTTTCATCAGATTTCGGGGAGATGCTTCGGCGCTCTTCCTTATTTGATATTGAGGGACCTTCACAGCCGGTAAACGAAGAACATGAAAATAATCGCAGAAAAAAGAAAAAAAAGAGATGA	MIIKILNKSSKDFNGVAYNDKKIDKGKGELLLMKNFPAYLNSASSRQEVKNYFKAISNNCKRVQNPQFHGTISAKGRSYSKEQLALTAEKFMEKMGYGEQPYIVVFHNDTSNNHVHIVSSRVDKHSGKRIERDFEKYKSQTALQEVLKELYGTDVHKKLDQLLGYSYSNSSQLQKLLENSGYSVYEKENTTHILCNGLHLMSINTGDLKFSEKNIEDSRKKQIFAIFKKYKEVFSNSVFKVADEKGKYISYQSELQYQLKKKFGIDVVLSFKDDKLPFGYTIIDHKAKAIYKGSEIMKMDDLFRMTSGVLDKKLFEILANSNITIETKEVYKKHLEDEYKCEIRDYMVFLKNSKKTSYNIWKETRNSTMDRIRNFEKVSSPEDKIKILNFSNELYVINRNDNAIFMLKELVTENYQNLYLSRLLSPQNLESHPIVSGVQVPVSSDFGEMLRRSSLFDIEGPSQPVNEEHENNRRKKKKKR				NA	NA	NA	NA	NA
BMS003_02821	636			hypothetical protein	ATGATTATCACTTTTGCGAACCAAAAAGGCGGTGTGGGCAAAACCACTATTGCCATTGCATTTGCCAATTATCTTTCCCTGTTTACCGACAAAAAGGTCAATGTAATCGATTTTGATTTTCAGCGTTCATTTTACAGAAGGTGGTCAGAAGACAAAGAAATAAAAGGGGATTATTTATATGAAGTGGAAAAAATTTCAGAAGATAATATTCACCTTACCCAAAACGAAAAAGTTTTACAACAGCTCAAAACGAGCGAAGAAGTCTTTCTGTTTGATACGGCAGGTAATATCCAAAATAATTATACCCAGGTATTGCAATACAGTGACGTTATCATTATTCCTTTTGGGTATTCCAATGTAACCATGATGTCTACCGTTCTTTTCCTCAACCTGCTCAGACTGATTAAAGTTAATGCGAAATTATATTTTATCAGAAGCAATATGCGGAAAGATGACAGCTATGAACTCAAACCTGTAATGGACGCTGAATTTGAAACGATTGGGAAAGTAATCGGCAGTTGGGTATTTACCCGGAAATGCCTGCTCAGTATTAATACCAAGGAGCTCACCTATGAGCAAAAGCTGGCAGTAAAAGAAACATTCGATGAATTAATCTATCATATATGGGAATTTTAG	MIITFANQKGGVGKTTIAIAFANYLSLFTDKKVNVIDFDFQRSFYRRWSEDKEIKGDYLYEVEKISEDNIHLTQNEKVLQQLKTSEEVFLFDTAGNIQNNYTQVLQYSDVIIIPFGYSNVTMMSTVLFLNLLRLIKVNAKLYFIRSNMRKDDSYELKPVMDAEFETIGKVIGSWVFTRKCLLSINTKELTYEQKLAVKETFDELIYHIWEF				NA	NA	NA	NA	NA
BMS003_02822	387			hypothetical protein	ATGGGAATTTTAGACCGCTATGCCACAGAGGAAGATAAAGAAGAGCTGGCTAAGAATCTAAAACTGCCTATAGATGGGAAAACCGAAAAAGTACATACCGCCAGCAGAAGATCCAAAACTTCAGGAAAAAAAGCTACAGCAAAAATTACGGAATCAAAATCCCTTGTTCCTGACGATGAATTATTATCAGTTATTACTGAATTTGTCCAAACCTATAAGGAAAGAGATAAAACCAGCAGAATGATCAGGATTCAGGATACCCAATACCGGGAACTCGTCAGCCTGCGCGCTGATGGAATTTCGGTAAGCAGGTTCATCAGCTTTGCAGTGCATTTTGCCTTGAAGTCAAAGGATTATGATACCATCATCAACATTTTAAAACAATAA	MGILDRYATEEDKEELAKNLKLPIDGKTEKVHTASRRSKTSGKKATAKITESKSLVPDDELLSVITEFVQTYKERDKTSRMIRIQDTQYRELVSLRADGISVSRFISFAVHFALKSKDYDTIINILKQ				NA	NA	NA	NA	NA
BMS003_02823	546			hypothetical protein	ATGGGAAAAGTCTTTATAGTTACCGGCATACTGTACCTGTTGTACTATGCCGGAAATATAGTGTATGACTTATTTATAAAAACACCTGTGGTCCTCAGAAATGAAAATGAAGGCGAGGTTATAAGCCTTGGGAGCATTAGGGATGAAATTCCTGCTGATATTATTCATGTCAGTGAACAGGAAACAGAAGATCTCAATATGCCTGGTTCTTATACCTTTTCAGATGAAGAAGAATTATTTTCTGACGATAACAACGAATCGGACCTGATACAAGTCCGCTATGAAGAAGAAAAGGCGATTGACAATTATAATATGGAGGCAGAACCTGCAATTGAAGAAAAGAATGAACAGAAATTGTCTTTTCTTTCAAGAATAAGTTCAGGCCTTAACATTAAAGAGCAGGATATACAATCCAAAGAAACCGAAATTCTTCCGTCCACTATATCGGATGAGGTGTTCCGGAATTTTTTTGAAAAGGCTTCCAGCCATATTGTTGTCAGCAATGAAAATGGGCAGAATTTTTATAAATCAAGTTTAGTTTTTTAA	MGKVFIVTGILYLLYYAGNIVYDLFIKTPVVLRNENEGEVISLGSIRDEIPADIIHVSEQETEDLNMPGSYTFSDEEELFSDDNNESDLIQVRYEEEKAIDNYNMEAEPAIEEKNEQKLSFLSRISSGLNIKEQDIQSKETEILPSTISDEVFRNFFEKASSHIVVSNENGQNFYKSSLVF				NA	NA	NA	NA	NA
BMS003_02824	336			hypothetical protein	ATGAAAAAATATATTAAACAACCATTCAATAAACTTAACATCATTAAGGAATTTTTTGCCGTCGCCATACTGCTGGTTTCTAACCTGGTACTGGCACAGTCAGGAGGTGCAGGTGCTATTTCTTCTGCCACGTCGGATATTGAAGAATATGTAGAGCCGGTATCGAACCTGGTTCAGATGATTGGTGCCGTAGTCGGAATTGTCGGCGGTGTGCGAATTTACAATAAATGGAATAATGGTGATAATGATGTCAATAAAGAGCTCATCGGCTGGGGTGGCGCCTGTATTTTCCTTTTGCTCGTTCCAACCGTTATCCAGGCATTCTTTGGCATTTAA	MKKYIKQPFNKLNIIKEFFAVAILLVSNLVLAQSGGAGAISSATSDIEEYVEPVSNLVQMIGAVVGIVGGVRIYNKWNNGDNDVNKELIGWGGACIFLLLVPTVIQAFFGI				NA	NA	NA	NA	NA
BMS003_02825	339			hypothetical protein	ATGGAAAGGAGCTTTTTTCTATACAAGGGGCTTAAGAAGCCTCTTGTATTTAAGGGACTGAAAGGAAAATACATTTATTATGCAGGGGGATCGTTTGCAGGAACAATGATCCTGGGGATTATCTTAAGCAAAGTCATTGGTTTCTTTATAGGAATCGCGCTCGCTTTTGCAATCGGCGGCGGGCTGATATGGAATGTCTTTAGGCTTCAGAAATCCAAAGGGCTGTATAATAAAACGGCGAATCACCATGAGATTCATATCATTCCTGCCAGAATTAAGCTGAAACAGAAGTACGAGTCCAATTTAAAAATTGACGAAAATGAAAAAGAAAACCTTTAG	MERSFFLYKGLKKPLVFKGLKGKYIYYAGGSFAGTMILGIILSKVIGFFIGIALAFAIGGGLIWNVFRLQKSKGLYNKTANHHEIHIIPARIKLKQKYESNLKIDENEKENL				NA	NA	NA	NA	NA
BMS003_02826	3060	dnaJ_3		Chaperone protein DnaJ	ATGAAAAAGAAAACCTTTAGCCTTCCTTTTATCGGTTATGACTATGGTGCAGAGCAGAATGCCCGTTATGATGTCCTGATTGGTGAATACGGTAATCCTATCGTTGCTATCCGGATTAAAAATATTGTTACCCAATATTCTGCTGACCGGGAACTTTACCTTAAATATCATTCTGTTTTATTGAATATTATCAGTATTATCGGCGAAGGTCATATTGTACAGAAACTCGACATTTTCGATAAGAAGGTTTACAAAGCTGAACCTCATGAAGAATATTTACAGCAGAAATATTCTGATCATTTTGAGGGCAGGATTTTTAAAACCAGCGACAGTATTTTGGTGTTTACCCACCGGATCGACCAAAGTAAAAAGAAAAGCCTGTATAAATATTCTGAAAAAAAATACAAGCAGCTGCGTGATAAAGCAGAAAAAGTTTTTATGCTGCTGAAGGATAATGGCTTTGAGCCCCGGTTTTTCTTTGAAAAGGACTTTGAATATTATATTTCTTCCATTCTTTCCATGAATTTTGGAAAAACAACCAAAGCCCTTGATAATATCCGTTCGCTGGACGACAACCTCCAAATAGGAAGCTCTTTTGTAAAAGCCATTTCCCTGGTTGATGTTGAAAATATTGAGCTTCCCAATGAAATGTATCCCTATACCACCCTAGGAGGAAACGGGGCTACAAAAAATACAGCGGTTGACAATTTTTCTTTTCTGAATGATCTGGAACAGTATAACACGATTATCTATAATCAGATTATTGTTATTCCCGACCAGGTAGAAAGAGTCAAATTTTTATCCAATAAGAAAAACCGTCATGAAGGATTTCAGAATGAGCCTTTGAACCGTATTTGTGCAGAAGAAATCGGAGTACTGCTGGACAGCATTGCCAAAGACGGACAGTTGATTGTAGATGCGCATTACAGTCTGGTCATTGGCTGCGAATCGCGGGAGGATATGGAGAAAACGCAGTCTATGATTGAAAACCAGCTCTTTCAGAAAGGGGTCATTACCAGTAAAAGCAGCTATAATCAGTTGGAGCTGTTCCGGGCTTCAATGCCCGGCAATGCCAACGAGCTGAAAGATTATGATCTGTTTACCACTACGAGCGAAGCCTCGTTGTGTTTTTTTTTTAAAGAAAGCTACCCCATAGATGAGCATTCCGGCTTTTATCTTCGGTTTACCGACAGGCAGGGTGTCCCGCTTAAAATAGACACTTCTGATCTGCCAATGCAGACCGGAAGGATTAACAATCGGAACAAATTTGTTCTAGGTCCTTCAGGCAGCGGAAAGTCTTTCCTGATGAACAGCATTATCGAGCAATACCTCACCTATAATTATGATGTGGTGATTGTAGATGTTGGAGACAGTTACAGCGGAACCGCCAAATACAAAAACGGGAAATACATCCAGTATACAGAAGAAAAGCCTATCACAATGAACCCATTTGTGATGGATAAGGCGGAATTCAATATTGAAAAGATAGAATTTTTAGGAAATTTAATCTTCCTGATCTGGCAAGGCCCTGAGGGGTCGATGACTACCACCCAGAAATCCATCCTGGATAATCTTCTGCTGTCTTATTACCATCAGTATTTCAATGGAGGAACCAATTGGTACGCCCACAAAACATCCCGTGAGCTCATCCTGTACCTAAACAAATACAACATTTACGAAGAAGAATTATATGCGGATTTCGAAAATCAGTTCAGCGAAAACGAGAGCTATTATGATATTCTCGGTATTCCCATGACAGCGGAAAAAGATGAGATCAAGAAAGCTTTCAGAAAACTGGCCATCCAGTATCATCCGGATAAAAACCGGGGTCATGAAAATTATGACGATGCCCTGTTTAACAGAATCTACGAAGCCTACGAAACGCTGTCCCATGAAGAAAAGCGAAGGGCATATGATGAAACCCAGCTTATTCTCTCAAAAAGAGAAGTTATACGAAGACCACAAATCAATACCTCGGAATGGGAACAGGCTTTCAGAAGGGCACTCATTAAAAAAGTGGCTGAGCTGGAAGAAAAACTTCATATTCCGGAGCTTTCGTTCAACAGCTTTTATGAGTATGCCGAAAAATTCCTGCCGATCTACCTGTCCAACAAAAAGTACAGGATTGCGGAAGGCGAGTTTAACCTACGAACTTTCCTTTATGTCCTGGCAGACTTTTACAAAGGCGGAAGATACGGCACGGCCCTCAATGAAAGTACTGATAATTCCTTATTTGAAGAACCTTTCATTGTCTATGAGATTGACAATGTAAAGGATAACCCCAAACTTTTCCCTATTGTGACGCTGATTATCATGGATACCTTTATCCAGAAAATGCGTCTTAGAAAAGACCGCCGTAAAGCCATTATACTGGAAGAAGCATGGAAAGCCATTGCCAGTAAGCTGATGGGGGGCTACATTTTGTATCTCTATAAAACGGTAAGAAAATTCTGGGGTGAAGCCATTGTGGTTACCCAGGAACTGGATGACATCATTGGAAATGCGGTAGTCAAAGACAGTATTATCAACAATTCCGATACGTTTATACTGCTGGATCAGACCAAATTTATTGACAATTTTGATCGCATCGCAGCCTTACTTTCTCTTAATGATGTGGAACAAAGCAAGATTTTTACGATCAACAATCTGAATAACAAAAGCGGCAGAAGCCGCTTCAAGGAGTTCTATCTTAAACGGGGCAGCAAAGGTGAAGTCTATGGTAACGAGGTCTCCCTGCACCAATATTTGACCTATACAACGGAAAAACCAGAAAAATCTGCTCTTGAATACTATGTTGGTGCTTTTGGAAATTATCAGCAGGCATTGGAGCATTTTGTTCTGGATATAGAAAGCTTGGGAGACAGTCTCCCTAACCTCGTGGCGCTGGTTAACCTGTACCAAAGACCTATTGATAAGTCTCTTATCAGTTATTATCAATCTTTTAAGCATCGGCATAAAGGAAAAGATTTTTTTAAAACAATGAAAAGGGAACTCCTTGACCGTGATATGACTTTACGGGAGTTTATTAAAAACCAACCAACAACTTATGAAAAAATATAA	MKKKTFSLPFIGYDYGAEQNARYDVLIGEYGNPIVAIRIKNIVTQYSADRELYLKYHSVLLNIISIIGEGHIVQKLDIFDKKVYKAEPHEEYLQQKYSDHFEGRIFKTSDSILVFTHRIDQSKKKSLYKYSEKKYKQLRDKAEKVFMLLKDNGFEPRFFFEKDFEYYISSILSMNFGKTTKALDNIRSLDDNLQIGSSFVKAISLVDVENIELPNEMYPYTTLGGNGATKNTAVDNFSFLNDLEQYNTIIYNQIIVIPDQVERVKFLSNKKNRHEGFQNEPLNRICAEEIGVLLDSIAKDGQLIVDAHYSLVIGCESREDMEKTQSMIENQLFQKGVITSKSSYNQLELFRASMPGNANELKDYDLFTTTSEASLCFFFKESYPIDEHSGFYLRFTDRQGVPLKIDTSDLPMQTGRINNRNKFVLGPSGSGKSFLMNSIIEQYLTYNYDVVIVDVGDSYSGTAKYKNGKYIQYTEEKPITMNPFVMDKAEFNIEKIEFLGNLIFLIWQGPEGSMTTTQKSILDNLLLSYYHQYFNGGTNWYAHKTSRELILYLNKYNIYEEELYADFENQFSENESYYDILGIPMTAEKDEIKKAFRKLAIQYHPDKNRGHENYDDALFNRIYEAYETLSHEEKRRAYDETQLILSKREVIRRPQINTSEWEQAFRRALIKKVAELEEKLHIPELSFNSFYEYAEKFLPIYLSNKKYRIAEGEFNLRTFLYVLADFYKGGRYGTALNESTDNSLFEEPFIVYEIDNVKDNPKLFPIVTLIIMDTFIQKMRLRKDRRKAIILEEAWKAIASKLMGGYILYLYKTVRKFWGEAIVVTQELDDIIGNAVVKDSIINNSDTFILLDQTKFIDNFDRIAALLSLNDVEQSKIFTINNLNNKSGRSRFKEFYLKRGSKGEVYGNEVSLHQYLTYTTEKPEKSALEYYVGAFGNYQQALEHFVLDIESLGDSLPNLVALVNLYQRPIDKSLISYYQSFKHRHKGKDFFKTMKRELLDRDMTLREFIKNQPTTYEKI				NA	NA	NA	NA	NA
BMS003_02827	660			hypothetical protein	ATGAAAAAATATAATGTACTTCTATTTGTCTTTATCGTGAGTTTCCTTAAAGCGCAGACTCCGTATATCGACGTGCTGACCGCTCCTGCAATGGCATTATATGCCAGCCAGATCAAAAATGAGCAGGAGAAGACAGTGGACGAAATGAACAAGCTTCAGCAGGCCCAGGCTTTTGTCTCCACGCAGATGGTACTTGCCAATGATCTTCAGAATAAGGTCTATAAAGGGCTTAAAGAAGTTAACGGAACCTTAAAGAACGGAATCCAGGTTCAGAATATTTACAACAACCTAACCAAAATCATTACCAATGTAAACGGCATTTATGATGAAGTGCAGGATGCACCGGAATACAGTGTTTTTGCTTACAAATCTGTTCAATTGGTCACGAATAAAGCTACCGACATTTATACCGATGTTGCCGACCTTCTGACCAGCGGTGAACTGAACCTTGCCACTTCCGGGGACCGAAGGCGGCTACTGTTCAATATAGAGAACAATACCCGCCTGATGAATGTGTATCTGATCAATGTGCGGTGGACGATCAAAAGAGCCAAGAAAAAGGGTTTCTGGAAATCCATCAATCCATTTCAGACGTATGTGAACACCGATAAGCAGATCTTTCAGCAGATTTTAAATAACGCAGGAACTTTAGGATTATGA	MKKYNVLLFVFIVSFLKAQTPYIDVLTAPAMALYASQIKNEQEKTVDEMNKLQQAQAFVSTQMVLANDLQNKVYKGLKEVNGTLKNGIQVQNIYNNLTKIITNVNGIYDEVQDAPEYSVFAYKSVQLVTNKATDIYTDVADLLTSGELNLATSGDRRRLLFNIENNTRLMNVYLINVRWTIKRAKKKGFWKSINPFQTYVNTDKQIFQQILNNAGTLGL				NA	NA	NA	NA	NA
BMS003_02828	675			hypothetical protein	ATGAAACCGTTTTTAATACATCTTCTGTTTCTCCTGGTGATTATATATTCTTCCTCATTACGGGGACAGTTTACCGGAGGCAACTACATCTGTTATTACCTGATCAATTCTGAGATTCAGAAAACGATGCAGGAAAATGAAAAGCAAAAAGAGATGAGAAATAAGCAGCTGACCAACTTAGCGCTGGAATCAGCCAATAAGGAAGAGTGGAACAAATACCGGGAGGTCACAGAAAAAATAAGGGGAAGGCTTAATAACCTATCCTTTGCCGTTCAGGCTATTCCTGCTTCTGTCAGCATTGTAAAGGAAATCGATAAGATTTACGAAATACAATCCAAAATTTATAATGAGCTGGCAGATGCCCCTCTTTGGATTCCGCTGGCATTAAGTGGGCAATATGAGTTTATCAACAGCCTGCAAATGGACATCCGGCTGATGGCAGGCATTGTTCTATCGTACGGAACCATCAATGCAATGGAAAAAGCAGAGCGAAAAATCCTGTTGGATTATGCCCAATCGGAAATAAAAAGGCTTCGCCAGCAATCTTATTCTACATTACAAAAAATTGTTAATGCCAAACGGAAAATGGAGCTGCGGAACAATCTCCTGCAAAACTGGATCAATCGGGATAAAAAAATCATTCAGGATATTATCAACAACGCAAATCTTTATTAA	MKPFLIHLLFLLVIIYSSSLRGQFTGGNYICYYLINSEIQKTMQENEKQKEMRNKQLTNLALESANKEEWNKYREVTEKIRGRLNNLSFAVQAIPASVSIVKEIDKIYEIQSKIYNELADAPLWIPLALSGQYEFINSLQMDIRLMAGIVLSYGTINAMEKAERKILLDYAQSEIKRLRQQSYSTLQKIVNAKRKMELRNNLLQNWINRDKKIIQDIINNANLY				NA	NA	NA	NA	NA
BMS003_02829	678			hypothetical protein	ATGAGAAAATTATTAATTATAATCCTCCCTTTATTTTTTATCAAAGGGAGTGCCCAGTATTATTATCAGCTCTATTATAACCTGGAATTGCAGGCACAGGTGACGGCTAACCAGGCGGCACGTGTCGTCTCCGAAAAGCTGTATCAGAATTCTTATGAAAAGCAGCGGAAAGCCTATGACGACATAAAAGAAAAAGCCACACAGGTTGTGGTAATTAAAAACCATATCTACAACCAGCTTCGAAATGTGAACTCTGCCCTAAAGCAGGGAAAGCAGCTTGAAGCCATCTACTATGATTTTTCAAAACTGGTGGGAAACATGCAAAAAATGCTGGAATTGTCCGGTCAAAAGCCTCAGTATACAGTTTTGATTACCAATTATTATTCTAAGCTGTATCTCCATGCTATGAATTCATTTGAGAATATCAGCAGCTGTGTGATGAATGAGGAAAACGATTACCTCATGGACAGCTATGACCGGCAGAAGATTCTTTCCAAGATACAACACGAGATCAAAATCATGAACGGGTGGACGGTGCATATTATCAATTACCTCCGGAATGCTGAAAAGAAACCCTATTTCCGGCACATCGGTGTACTGAACAGCTGGTATATCCAGGACAGAGCTATGATTCAAAATATCATTAACAATTATCAATTTAACCTTAACGGGTGGTAA	MRKLLIIILPLFFIKGSAQYYYQLYYNLELQAQVTANQAARVVSEKLYQNSYEKQRKAYDDIKEKATQVVVIKNHIYNQLRNVNSALKQGKQLEAIYYDFSKLVGNMQKMLELSGQKPQYTVLITNYYSKLYLHAMNSFENISSCVMNEENDYLMDSYDRQKILSKIQHEIKIMNGWTVHIINYLRNAEKKPYFRHIGVLNSWYIQDRAMIQNIINNYQFNLNGW				NA	NA	NA	NA	NA
BMS003_02830	819			hypothetical protein	ATGAAAAATATTCTAATTCTGACCCTTATCATCCTATTGCTCCCCTTTACTGAATGGAAAGGACAAAGCATTAAGAGGATAAAAGACAAGCATATCGTAGGGCAGGAAAAGCGGCAGGTATTCTACGAGTGGGGCGACTGGCAGCCCAAACCGAAATATTTTTTGGGAATTCAGACCAATTATGCCTATGCTATGGTTTGGGGGTGGCTAGCACCTAGCCGTAACCGCGATTACAAAGGTGGCAGCGATATCCGGCCATTAGGTCCGTGGGGGCTTCAAAACCAGCGGTATGCCACAACGCTTGTGCAGCAGGATAAAACAGAAGACATTCAGGAGGAAGCAAAAAACACCTATGAAGAGAACCTTAAAGAGTTTTATCACTATACAAGTGCTACTTCATCAGCAGATCCCCTGTACTTGCTGTATTATAAAGATATGCTCAAAAGTCTGGACAATTTTGATACCAATTCTCCGGTTCCGTATCAATGGGGGTTTACCTCCTATAAAGCATGGGAGCGCTTCAACAATTATGGGATTATCGGGGAATGCAGACGAAAGATTGATGTCATCCAGGACAAATATAAAATTGCTAAAACGGTTGATATGCCCAGAGGCAAACGTATCCTTGCGTATCATGACTGCCTTATAGAGTGGCGTAAGATGCAGAAATACCTTGCTTATTTGAACGCTCAGGCTGAAAACAGGCTGAAAGCTGAAGCCAGGCTGGAAAGCTACAAAACCAAGAATCCCGGAAAGATTACCAAAGAACGGCGTGATGCTGAAATATTCATGGATGTGCTGACCGGGCACTTATACTAA	MKNILILTLIILLLPFTEWKGQSIKRIKDKHIVGQEKRQVFYEWGDWQPKPKYFLGIQTNYAYAMVWGWLAPSRNRDYKGGSDIRPLGPWGLQNQRYATTLVQQDKTEDIQEEAKNTYEENLKEFYHYTSATSSADPLYLLYYKDMLKSLDNFDTNSPVPYQWGFTSYKAWERFNNYGIIGECRRKIDVIQDKYKIAKTVDMPRGKRILAYHDCLIEWRKMQKYLAYLNAQAENRLKAEARLESYKTKNPGKITKERRDAEIFMDVLTGHLY				NA	NA	NA	NA	NA
BMS003_02831	1173			hypothetical protein	ATGAAACAAAAAATGATACTAAGAAGCATTACCCTGTTAATGCTTCTCTTTATCCCCTGCCTTGTCTTTTCACAGGACACCCATAGTGATGAGTACTATCAGAAGGCCATGGACTTTTTACAGGGTGAAGGCGTTCTGGAAGGATGGTTTACCGAAAAGTTCCTGCCTTTGTACGATAGCTTTATGACAGCGGAGTATGGAAAGTTTATTCTGTTCGGACAGGCTGTAGCCGGGGTTGGGGCTTTGCTTTATCTTGGAAATATCGGCTGGCAGATGATCAGCGGAGACCGGGAATGGGAAATCGTACCGATGCTTAAACCGTTTGCCATCGGTCTTGTTATTATGAACTGGGTATCTTTTGTAGGAATTCTCAGGACACCATTAATGAAATTACAGGATGTATCAGAGGGAAGCTTTGTGGAAAGCCAGCAGGAGCTCAATTCTTTACGCTGGGTACGGTTCAAGAAACAGCAGCAGGTGGTGGACCGGATTGTTGAGGAGCAGGCAAAAGCACAGGCAGAAATTCAGCAGCAGGAAGCCGGAGACCAGTCATTGATTGAACAAGGGCTGGATATGATGGGAGACGGCTTAACCAACCTGATGAGCCCTGTTTATGAACTTTATCTCCGTTTACAGATTAGTTTTCAACTGGCGATTTCCAGTGCTTTAGAGCTCATTGGCCTATGGATACTGCGAATATGTGTATATGGCATATTCTTCATTCAATTGATATTTTCCACCATTCTGATCATTGTCGGCCCAATTCCGGTAGGCTTATCAGTATTTCCGGCGTTTTCCAACTTCCTCTCGCAGTGGGTAGCAAGGTTTATCAATGTCAACCTATACGGATTTGTAGCATTCATCATTTTGAAGATCGGGACATTGCTCCAGCTTTTTGCTTTTGAAGCAGAGATTGAACGCTACGACCAGATCATCAATAATGACGGAAGTATTAAAAATATGGATCTGCTGCTCACCTATTCAAGCAGTGGCATTATGTCCTTCGGACTCGTAATCGTGTGTTTTTTGATTACGGCTGTAGGCATTTTATGTGTCCCGACACTCGCCAACTATATCATACCATCAGGGGGCAGCAATACAGGAGCAATGTCTAAGATGAAACGCGCCGGAATGGCAGTTGCCACCAAAGGCGCATCATTAATGAAAATATAA	MKQKMILRSITLLMLLFIPCLVFSQDTHSDEYYQKAMDFLQGEGVLEGWFTEKFLPLYDSFMTAEYGKFILFGQAVAGVGALLYLGNIGWQMISGDREWEIVPMLKPFAIGLVIMNWVSFVGILRTPLMKLQDVSEGSFVESQQELNSLRWVRFKKQQQVVDRIVEEQAKAQAEIQQQEAGDQSLIEQGLDMMGDGLTNLMSPVYELYLRLQISFQLAISSALELIGLWILRICVYGIFFIQLIFSTILIIVGPIPVGLSVFPAFSNFLSQWVARFINVNLYGFVAFIILKIGTLLQLFAFEAEIERYDQIINNDGSIKNMDLLLTYSSSGIMSFGLVIVCFLITAVGILCVPTLANYIIPSGGSNTGAMSKMKRAGMAVATKGASLMKI				NA	NA	NA	NA	NA
BMS003_02832	615			hypothetical protein	ATGGGACTCGTAAAAAATATTGAACAAAAAATAAAAATAAACCGGGTGACCACTATAGGCTGCCTCGTGTTATCAGTGATTGTGGTTATTGCAGGGTTTGTGTTTTCCTATCTACAGATCCGGGATGCCAGAAAATCTATCTATGTACTGGATAACGGTGTTCCGGTTTTAGTAAAGCAGACTGATCTGCTCATGAACCGCCCTGTGGAGTATAAAGCACAGATCGATCTTTTTCATTCACTGTTTTTCACCCTGTCTGCCGATGATGATTACATCAGGGAACAGACCAAAAGGGCACTGTATCTCATTGATGACAGTGGAATGAAAGAGTATATGAACCTAAAAGAGAAAGGATTCTATAATCAGATCATTTCCTCTAACAGCGTAATGACCGTAAAAGCTGACAGTATAAAGCTTGATGAACAAAATTTAAAGTTTGTCTATTACGGTACACAGACGATTAACCGGAAAACACAGCTTATTGTAAGGAAGCTGATTACGGAAGGATTTGTAAAGGATATTCCACGTTCCCCGAACAATCCCCACGGTGTGCTGATTGAAAAATGGAAAACCTTAGATAACTCGGATCTATCCGTTAAAGAAAAATTCAGATAA	MGLVKNIEQKIKINRVTTIGCLVLSVIVVIAGFVFSYLQIRDARKSIYVLDNGVPVLVKQTDLLMNRPVEYKAQIDLFHSLFFTLSADDDYIREQTKRALYLIDDSGMKEYMNLKEKGFYNQIISSNSVMTVKADSIKLDEQNLKFVYYGTQTINRKTQLIVRKLITEGFVKDIPRSPNNPHGVLIEKWKTLDNSDLSVKEKFR				NA	NA	NA	NA	NA
BMS003_02833	381			hypothetical protein	ATGGAACAGCAGCAAAAAATAATCAGTAACGAGAAAATCACGCTCTGGAAAAGAGCGGAGCATTTTGCAGAAAAGCAGCCCAAAAAAACATTTTATATCATGTTCGGGCTTATTTTCTTTTCCGTCCTTTTTACCATTGGGAACCTTATTTATGTATATAAGGTGTCAGTCCCGGAATATGAAAAGATGAAAAGGCAAAATATCCTGACGGATGCAACGAATTCTTTCGGTAAAACCGTCAAGGAAGCAGAGAACATACTAGATATGAGGGAAGCTCTCAAAGAACTCGAATATTACCGCAGAAAAAAAGTCCTAAGTGCTTCGGACAGCATAAGGATAAGATACCTGCTTGATAAATACCAAATAAAGAATAAGCAATGA	MEQQQKIISNEKITLWKRAEHFAEKQPKKTFYIMFGLIFFSVLFTIGNLIYVYKVSVPEYEKMKRQNILTDATNSFGKTVKEAENILDMREALKELEYYRRKKVLSASDSIRIRYLLDKYQIKNKQ				NA	NA	NA	NA	NA
BMS003_02834	1263			hypothetical protein	ATGAAGAAACTTAACGTAAAACAACCCAAGTACATCCTTCCGCTCATTGCTCTGCCATTTGTTTTGATGATAGGGTATTTTTATACCCAGTTCGCAGCCAGTTCAGGGCAGGATAAGAATAAGCTTGCCGAAAGCAAGGATATATCAACGGACTTCGGAAATGTAGGAGAACGCTCGGAGATCAAAGGTAAAGCCGATGCTTATGCCGATTTTTTCGACAAGCGGACGGATGGCAGAACAATGATTGACGGTTTTGGAAACGAACAGGAAAATCTTGAAACTTTTGATGATAACCTTTCTGACCGTCAGAAGAGACATATCGACAGCTTAAACTATGCCAGGGAGAAAGAAAGGTTGAACAGTCTTTCCCGGCAGGCAAGACAGCAATCCTATTACAACGCAAAGGACGGCAGGCAAAGCAGGCAGCGTGAAGACGAGCAGTATGACAGAAGTATGAAAATGCTCAAAATGCTTAACGGTGACAGCCAGGAATACAATACTACAAATTCCGGAGAACAGAAAAATGAAGCTGCGGATTGGAAAAAAGAACAAATGGCGCTTATGCGTGAGCAAATGATGCTCATGGACAGCATTGAAAAAGCCAACAATCCCGAACTGAAAGATCAAGCCAAGGCATTGGAAAAAATGAAGAAAAATGAAAAGGAAAAAGATTTCTTTTTGAATTCTACCCTGAAGGTAACCAAAGCGTCCAAAAGTGCCGATTTCAATTCCATTTACAAACAAAAGGAAAGTTCTTTTATAAAAGCTGTGATTGATGAAAACATCAAGGGTTTTCTCGGAAGCAGGATTAGGATTCGTCTTCTGGAAGATGTCTATGTCGGTAATGCCAAAATATCGAAAGGGACTCCTTTGTATGCCCTGATCAGTGGGTTTTCACTTCAACGGGTGAACCTGCATATCGTGTCGGTTATGCACCAGAACGAAATCCTTCCCATTAACCTTAATATCTATGATATTGACGGAATGGAAGGCTTATATGTACCCGGTTCAGCATTCCGGGAAATGACACGTTCTATGGGTGAAAATATCGTGCAGGGGCAAAACCTATCCACAGGAGGTGCAGATTTTTTCACAACCACACTAACCTCGGTATACCAATCCACTTCCAAGACCATTGCTGATGTGATCCGGAAGAACAAAGCAAAGATTAAGTACAATTCTTTTGTCTACCTGATTGATAGCAAAGAACTGGAAAATAAGAAAAAGAGCATTTATAAAACCAACACCACCCTTAACCCATGA	MKKLNVKQPKYILPLIALPFVLMIGYFYTQFAASSGQDKNKLAESKDISTDFGNVGERSEIKGKADAYADFFDKRTDGRTMIDGFGNEQENLETFDDNLSDRQKRHIDSLNYAREKERLNSLSRQARQQSYYNAKDGRQSRQREDEQYDRSMKMLKMLNGDSQEYNTTNSGEQKNEAADWKKEQMALMREQMMLMDSIEKANNPELKDQAKALEKMKKNEKEKDFFLNSTLKVTKASKSADFNSIYKQKESSFIKAVIDENIKGFLGSRIRIRLLEDVYVGNAKISKGTPLYALISGFSLQRVNLHIVSVMHQNEILPINLNIYDIDGMEGLYVPGSAFREMTRSMGENIVQGQNLSTGGADFFTTTLTSVYQSTSKTIADVIRKNKAKIKYNSFVYLIDSKELENKKKSIYKTNTTLNP				NA	NA	NA	NA	NA
BMS003_02835	891			hypothetical protein	ATGAAAAAATTATTATTAATACTTACCATAACACTTATATCCATATCCGCCTTTGGACAAAGCCAGGTGCTTTCCAAGGTGTATAAAAATAACCTTCCCGAGATTAATATTACCCGGAATGTTAACCTGCATTTCCGAAGCCCCGAACCCATACAGTTTGTAGATTTAAGTACCAACCGTCTCATTGGCGACCTTCCTGCCGAAAATGTGGTCAGGATTAAAATTCAGCAAAATGAAGAAGAAAAACATTTTGTGAATGACAGCCTGAAAAAGACAGTTGATATCCCAATTACTTACTACGATCATCAGGAATTAGGTATTGTTACCATTGTAGGACAATCCTTCATGGCGCAGTACAAATTGGTTTTTATGGAAGATAATTCCTCACATATTATAACCAATAGAGAGATTCTGCCAGAGGATATGCAGCCTTTGGAATATCCGGAATTTCAGATGTCTAATGCCGAGCTGAGAAAATATTCAATGCAGCTGATTGAAAAAAAGGAAAATAAATTACTCAGGAAGAATAAGGATTTAGGACTTATATCACAATTAAATAGCGTCTATACTTTCGGTGATTATGTCTTTCTGGATGTTAGCTTTAAGAACAGTACCAATCTCGTTTATGACATTGAAAAGCTGAAATTCTCTATTGATGACAAGAAAATTTATAAAGCAACCAATGTACAGTCCATTGAGGTAGACCCCGTATTTAGATTGTATGACGTAAAGAAATTTAAAAAATCCTACCGGAATATTTTTGTGTTCAAAAAATTCACGTATCCTAATAATAAGGTATTGAACATCCGGCTGATTGAAAACCAGGTTAGTGGACGGACGATCAACCTGGAAGTAAAATACTCAGATATTTTACAGGCAGATACATTCTAA	MKKLLLILTITLISISAFGQSQVLSKVYKNNLPEINITRNVNLHFRSPEPIQFVDLSTNRLIGDLPAENVVRIKIQQNEEEKHFVNDSLKKTVDIPITYYDHQELGIVTIVGQSFMAQYKLVFMEDNSSHIITNREILPEDMQPLEYPEFQMSNAELRKYSMQLIEKKENKLLRKNKDLGLISQLNSVYTFGDYVFLDVSFKNSTNLVYDIEKLKFSIDDKKIYKATNVQSIEVDPVFRLYDVKKFKKSYRNIFVFKKFTYPNNKVLNIRLIENQVSGRTINLEVKYSDILQADTF				NA	NA	NA	NA	NA
BMS003_02836	1989			hypothetical protein	ATGCAGGAAAGTAAAGAACAACAGAAGATTTACGGCTTCTTTCAGAAAGCGGTGTATATGCTGGTATTGATAGAATGTATCATTTTGTTTTTTGGTGGAACCGAAATTCCGATACTTCCAAAACTATTAAAGTCGTTTGCCAAAATGCCTTTTCTATTCCCGCCACTCCATGCGAAGTTTGCAGAAATTGTACTTATTATCCTGATTGCCATCGGAACAAAACCGAAGAAAAATCAAAATATCAATATTACCCAATCTATTATGCTTCCCATTATTTGCGGGTTACTGATGATGTTTGGTTCGCTGATGTTGATTGATGATACCTTTAATAAAGAGGCAATTCTTCTTGCTCCGCATTTCAATATATATCAGGCGGGATATCTGCTTCTCTCATTTTTAGGAGTGCTGATTACCTTACTGGGCGCAGATAATATCAGCAAGATTATGAAACATAAGCTGGGTAAAGACCGTTGGAATATTGAAGAAGAGAACTTTAACCAGAATAAAGAGCTGATTAATACTAATTATTCGATCAACATTCCGTACCTGTTCTATTATAATAAACGGATGAACAAAGGCTGGATCAACATCAACCCTTTTCGTGGAACGATTGTTATCGGAACCCCGGGAAGCGGAAAATCATTCGGGATTATCAATCCTGCTATCCGGCAATTGATTCAGAAAGGTTTCTGCCTTTGTATTTATGACTATAAACACCCTGACTTGGGAAAGATTGCTTATTACCATTACCGATTGAAAAAACAGTATGAAAAGGAGTATAATTATGATTTTGCAGTGATTAACCTCAATGAAGTTGAAAAATCCCGGCGTGTGAATCCCTTAAATAGAGAATACCTTACTACTCTGGCAGAAGCACAGGAAATGGCAGAGGCGATGGTTTCTTCATTACAAAAAGGGGGTGGTTCCGGAGGCGGGAGCGACCAATTCTTTACGCAATCGGCGATTAATTTTCTCTCTTCCTGCATTGCGTTCCTGGCAAAATACGAGAATGGGAAATTTTCAACCCTTCCTCATCTGCTGGCTTTTATGAACCGCAGCTATGAGGAAATATTCAATACGCTATTTACCAATATAGAACTGCATTCACTGCTGTCAACCTTTAAGTCAGCCTATGACAATAAAGCTTTTGATCAGCTGGAAGGGCAGATAGGAACACTTAAAATCTTCCTGTCAAGGCTGGCAACCAAAGAAAGCTTCTGGGTATTCTCCGGAGACGAAGTGAATTTAAAAATTTCAGATCATAAAAATCCCACCATTATGGTGCTGGCGTCTGATCCCAATACCCAGGATATTAACTCGGCGCTTTATTCCACAGTTTTGAACCGTTTACTCAAACAGATCAATTCCAAAGGGAACCTTCCCAGCGGGATTATTGCCGATGAGCTTCCTACCATTTACATCCATAAAATCGACAACCTGATTGCCACAGCCCGGAGCAATAAAGTAGCAGTTCTACTAGGGTTGCAGGAGATCCCTCAGTTTAAGCAGTTTTACAAAAAGGAGGTTGCCGATACCATTACCGCCATTATAGGGAATATCCTTAGCGGAAGCGCAAGGGATAAGAGCACCCTTGACTGGCTCGAAAAAGTATTCGGAAAGGTGAAGCAAAAATCACAGTCGATGTCGATCAATAACAATCAGACCACCATTTCCATACAGGAGAAAATGGATAACCTTATTCCTGCTGGAAAAATTGCAGGGCTTAGAACCGGGGAAATGGTTGGGATTGTAGCCAAAGACGAGCAGTATGAAACCCAGGAGTATACCACTTCGGCTATTCACGGGAAGATTAACCTTGATATGGAAGCTATCAAAACCGAAGAGCAGAATTATGTTGACCTTCCGGTGTACTACAGCTTTACGGATGAATCCGGAAATGACAACAAAAACAAAATCCTAATGTCCAATTTTCTGCGTATTAACAAGGAAGTCGAACTCATTATTCAGGAATTCTCGCGCAGTGCGTGA	MQESKEQQKIYGFFQKAVYMLVLIECIILFFGGTEIPILPKLLKSFAKMPFLFPPLHAKFAEIVLIILIAIGTKPKKNQNINITQSIMLPIICGLLMMFGSLMLIDDTFNKEAILLAPHFNIYQAGYLLLSFLGVLITLLGADNISKIMKHKLGKDRWNIEEENFNQNKELINTNYSINIPYLFYYNKRMNKGWININPFRGTIVIGTPGSGKSFGIINPAIRQLIQKGFCLCIYDYKHPDLGKIAYYHYRLKKQYEKEYNYDFAVINLNEVEKSRRVNPLNREYLTTLAEAQEMAEAMVSSLQKGGGSGGGSDQFFTQSAINFLSSCIAFLAKYENGKFSTLPHLLAFMNRSYEEIFNTLFTNIELHSLLSTFKSAYDNKAFDQLEGQIGTLKIFLSRLATKESFWVFSGDEVNLKISDHKNPTIMVLASDPNTQDINSALYSTVLNRLLKQINSKGNLPSGIIADELPTIYIHKIDNLIATARSNKVAVLLGLQEIPQFKQFYKKEVADTITAIIGNILSGSARDKSTLDWLEKVFGKVKQKSQSMSINNNQTTISIQEKMDNLIPAGKIAGLRTGEMVGIVAKDEQYETQEYTTSAIHGKINLDMEAIKTEEQNYVDLPVYYSFTDESGNDNKNKILMSNFLRINKEVELIIQEFSRSA				NA	NA	NA	NA	NA
BMS003_02837	837			hypothetical protein	ATGAAAAAAATAATAATCCTCATTCCTTTATTTCTTTTCTCAAAATTCTATTCACAGTTCAATACGGTTTCCTACAGAGGCAAGCTTAACAGCATTACGGTTACCCCGCTTTCTGAGGATCGTTTCAGCAGACATTTTATATCCTATCATATTGAAGGGAAAGTAATTAAGAAAAGAAAGGAAGCAAAGGAAGCAGAAAAAAGAAAGAATTCAGAACCCATAGAAATAAAAGAGCCCTTAAAAGAATCTAAGGTTCAATCGGCAGATTTTTCTAAAGAGTTATCACCGAAAGCCGATGATCTGGAAGAGGATCTGCCCTTAAGAAATCATAAGGAAATAGCAGGGAAAAGGCTGCGGTATAAGAAGTTGAACCAGATTACTGCTGACAATTATGATTTTAAAGAAGAACAGGTCGTTTTTATGCCTTTACAGAAAATGATTATCACCTCAAATTATGGGAATCGCTTTCATCCAGTGGATAAAATAGAAAAATTTCATGCAGGTGTAGACCTGCGTGCAAATGGGGATCATGTATTTGCGGTTTTAGACGGTATTGTATCCGATGCAGGCTATAGTGGTGGCGCCGGAAATTATATTAAAATACGCCACGGTGATTTTGAGACCGTCTATATGCACCTTTCCAGGACTTTTTTTTCTGAAGGTGATATCATCTATGCCGGGGATATTATTGCGCTAAGCGGTAATACCGGAAAAAGCACCGCCCCACATTTGCACTTTGCGGTCAAGGAAAACGGGAGATATATCAATCCCATTCAATTTTTAAATGATTTAATACAAACCAATAACGCTTTAGCAGATTATAACAATGGAAAATAA	MKKIIILIPLFLFSKFYSQFNTVSYRGKLNSITVTPLSEDRFSRHFISYHIEGKVIKKRKEAKEAEKRKNSEPIEIKEPLKESKVQSADFSKELSPKADDLEEDLPLRNHKEIAGKRLRYKKLNQITADNYDFKEEQVVFMPLQKMIITSNYGNRFHPVDKIEKFHAGVDLRANGDHVFAVLDGIVSDAGYSGGAGNYIKIRHGDFETVYMHLSRTFFSEGDIIYAGDIIALSGNTGKSTAPHLHFAVKENGRYINPIQFLNDLIQTNNALADYNNGK				NA	NA	NA	NA	NA
BMS003_02838	1185			hypothetical protein	ATGGAAAATAACACAACATTTCTCACCGACGATTTAAAGAAATTCGGGATCATGACCGAAGATAACCAGTTCTCTAAAAAGCTCTCACAGCAGGAAGTCTACAACTTCCTGAAAGGCGGGGTCCTTATTGCCGAGAATGATCAAAACAGGCTGACCTTTAAAATAGCTGAAGATAAGCTCAGTGTCAATGTTTATAATAAAGACTGGGTTAGTCATAAAGATTTGTCCTCTGCGGAATTACTGGAGGTTTCTTCTAAGAATATCAACCTTTATAAAGTAATGGCTGATTATGGCACCATAACCCATATCGGTAAAAGCCATTTCAATAACAATCCTGAAAACGAAATTACCCTCTTTGTGGAAGTTGAAAACGAAAGGGGTAAAACCAGGTTTTTCGGAAATAAGCTGGAAGAGAGCCTCAAAAGCTTTAAAATTGGAGATAAGGTACAGGTTAGCCAGACCGGAATTGAGAAAGCTACCCTGCATGCGAATATAGACGAAGAAATAAAGGAGATTACCAGATACGACAATCTTTTTATCATTCGCCCTTTTGATGAAAAAAATAAAGAATTCCAATCCAGGCTTTTTGAATTAGACGCAAAAGACAAAACCATCAAAGATATTGATACTACCAAATATGAGCTGCAAACGGTAAACGGGCATACGCTATCGGAAAAACAGCTCCAGCTGCTGCGTAAGGGAAAAGAAATAAAATTAGATGATGAAACCACAATCCAGCTCAGTCCTAAAGCAGATAATGAAAAGAACCTTTCCGCTTCGGTAAAAGTGCTGCTCATTACTTCCCTTGCTCTGGACGGAGGAATCACATTCTTAATAATCAAAGGAATTCAGAAACTGGCAAAAATGCAGGGAGAAAACCACAAGCAGCATGAGAGCCAAAAATACCTTACGGAACTTCAAAAGCTTAAAAGCTTTCTTCAGTCCAAAGCGGAGCAGTATCCTGATAATAAGCAAATTATTACAGATTTGAATATTGTGGGAAAGGAAATCTCCAATGTTCAGGCCGGAGTTTCTGAAAATCAGAATCACGAAAAAGATGATGATACCGTAAGGTTAAAGGTTGGTGATCCTGACCTGTTTGAAGATGTCAATCAGAAGAAAGAAGAGGAAAGGAGAAATGAAGAAGATAGCCGAAAATCAACCTCCTTTTCCAGAGGAAGGTAA	MENNTTFLTDDLKKFGIMTEDNQFSKKLSQQEVYNFLKGGVLIAENDQNRLTFKIAEDKLSVNVYNKDWVSHKDLSSAELLEVSSKNINLYKVMADYGTITHIGKSHFNNNPENEITLFVEVENERGKTRFFGNKLEESLKSFKIGDKVQVSQTGIEKATLHANIDEEIKEITRYDNLFIIRPFDEKNKEFQSRLFELDAKDKTIKDIDTTKYELQTVNGHTLSEKQLQLLRKGKEIKLDDETTIQLSPKADNEKNLSASVKVLLITSLALDGGITFLIIKGIQKLAKMQGENHKQHESQKYLTELQKLKSFLQSKAEQYPDNKQIITDLNIVGKEISNVQAGVSENQNHEKDDDTVRLKVGDPDLFEDVNQKKEEERRNEEDSRKSTSFSRGR				NA	NA	NA	NA	NA
BMS003_02839	672			hypothetical protein	ATGAAGAAGATAGCCGAAAATCAACCTCCTTTTCCAGAGGAAGGTAATATTAAGTTTATAGCAATGCAGCTGGATTTAGAGACCCTTCAATTATTCGAGGGGAAGATCAGTGAGGGTGGCAATCTGTATTTTTCCGGAAGTCATGAAAATTCATGGTGTATAGTTTATCGGGATTTTACAAGTGTAGAAACGGAGGATTTTTATAAGATCATCAATCCTTTCGGGGATGTACTGATTTACAATATGTATTGCTTCCGGTATATTCAGGAAGCATTACTATTTTTTCAGGTTAAGAAAGAAGATTATTTCAGAAATTCTCGAATTATTATTTCAGGAATAAAAAGCAATCAATTTATTATATCCTATCTGCTTAGTAATTATATTCAAAATAAGCAGAATATTCCCCGGCTCCATTTTTTTCATTCTTTAGAAACCTTTGATATGGTCGCTTTATACCTCGAACTTTTGGATAAGGGAATTACATGCAGAATCGTAAAAAATAATGACAAAAATTTTCTAAAAATCCAATATGGATGCATACAAATCCAACTTGGCTTCGAGCAGATCAGTAAATCCAGGATTTGTTTCCTGTTGGGAATTAATGACCGCAAATACCATATCCGCAATCACTTTTTATCATACTACATAGATCGTCAAAGACTAGAGTGGTAA	MKKIAENQPPFPEEGNIKFIAMQLDLETLQLFEGKISEGGNLYFSGSHENSWCIVYRDFTSVETEDFYKIINPFGDVLIYNMYCFRYIQEALLFFQVKKEDYFRNSRIIISGIKSNQFIISYLLSNYIQNKQNIPRLHFFHSLETFDMVALYLELLDKGITCRIVKNNDKNFLKIQYGCIQIQLGFEQISKSRICFLLGINDRKYHIRNHFLSYYIDRQRLEW				NA	NA	NA	NA	NA
BMS003_02840	1485			hypothetical protein	ATGGAGGTTAATACAGATTTTGAACCTGAGGCTAAAATATTATCCGGTTATTATAAAAATGAGAGCAGAAGTATCTGGCTAAGAGAAGGAATAGGAGGTTCCGTTTATACTGAAATTAACTCTTTTCGGTCTTTAATGGAGGCGCTTCACAGCAAAAAAGGTATGTTTCAAGAGATTCCAATTGTTTTAATCCCCTTTAACTCTTCAGGTGAAAAGTTTGAGATAACCATTCACAATGACAAAGAAAGAGTACAATTAATATCTCAATTACAATCTTTCCAATTTAAAGAAAGCAGTGATAAAATTACTGCTCAGGAGCCGGAAGAGCCCTTTAGTAAGATTTCTGAGGTACAAAAAATTAATCATAACCCAAACAATCAAAAATTAGAAATTATGAAAAATAACCCATTTGAAAGCAAAAAAGCTGATTTACAGGTAAAAATAGATTTGCCTGGACAGGAAAAACCATTCTTTGATAAAATGTCTACGCCCACTAATCTGGTTACTCAGATTCAAAAAGCAGGTCAAAGGCTTGAAGAAAAAGAAAGCCTCAGCATAAGTATCAACAGTGCTTCCTTTGAAATTCCGAAAGAAAAAACGGAAAAAGGAAACATTCTTGAGATCGTTCAATCGGAATATGAAAAAGCACAGAAAAATAATAGCCAGGCAAAAGAAGCAACCGATAATGAAGAGGCTGAACGGACTGAATCCCAACAGAATGAAGCTCCGGCTAAACAGAAAGAAAAAACAAACTTTGGATACCTGAAAGACCAAATCAAATATCTCGGAATGGGTGAAGATCCTGCCATGCATAAAGAGCTGGCAAAAAAGACTGGTTCAGGAGTTAAAGAGTTTTCTATGGTAATCACTTCAGACAAAGCTTCTTTTAAAAATAACAAGGTAGAATTTACTCTTAATTTTCAAAAATCTTCTACAAACAATAAAGTTTATCTTAATAATTTTCTGGCTACCCTTAAGAACGAAGAAAAGAATACGGAGCTCACTCATACATTTTCAGCAAATGGCAGAATTACGGCTAAAGAAGCCATTAATCTCCTGGAAGGAAGGTCGGTAAAAACAGAAATTAATAGTAAGCATTCTGATGAAAAAGAAGATGCTTTCATAAAGCTTCAGCTGGGCGAAGAAAAAAATGAAAAGGGGAATTTTAAGCTCCAAGTATTTAATAAAAATTATGGTATTGATGTGGAAAAAATTATGGCTAGGTCCAAATTGGTTTTTGATGATGAAAAGCATAAAGAGATTACCCAAAAATCACTTGAAAAGGGAAATATTGTTTCAGTAAAGTTCTCGGATCAGAATAACAAAGTGACAGAGGGGAAAGCAATCCTTAACCCCCAATACAAAATGCTTAATCTGTATGATAATAAAATGAAGCGGATTAATTCTAATGAACAGGCTTTTCAAAAAGATAATTCTGAGACAAAGGAAGTGAAAAACCAGCAAAATTATTCGCGTAAAATGTAG	MEVNTDFEPEAKILSGYYKNESRSIWLREGIGGSVYTEINSFRSLMEALHSKKGMFQEIPIVLIPFNSSGEKFEITIHNDKERVQLISQLQSFQFKESSDKITAQEPEEPFSKISEVQKINHNPNNQKLEIMKNNPFESKKADLQVKIDLPGQEKPFFDKMSTPTNLVTQIQKAGQRLEEKESLSISINSASFEIPKEKTEKGNILEIVQSEYEKAQKNNSQAKEATDNEEAERTESQQNEAPAKQKEKTNFGYLKDQIKYLGMGEDPAMHKELAKKTGSGVKEFSMVITSDKASFKNNKVEFTLNFQKSSTNNKVYLNNFLATLKNEEKNTELTHTFSANGRITAKEAINLLEGRSVKTEINSKHSDEKEDAFIKLQLGEEKNEKGNFKLQVFNKNYGIDVEKIMARSKLVFDDEKHKEITQKSLEKGNIVSVKFSDQNNKVTEGKAILNPQYKMLNLYDNKMKRINSNEQAFQKDNSETKEVKNQQNYSRKM				NA	NA	NA	NA	NA
BMS003_02841	705			hypothetical protein	ATGAAAAATTGTTTTTTAATAGTAATATTTTCCCTTTTTGTTTCGTGTAATAAAGACAGCAAAATCCGGAGTAAAAAGGGAGGTATTGATGTCGTTACCAATATTTACTACAATGCTTCTAAGGGGCTGGATGACCATCAGCAGATTATCATTTCAAAAATTAATTATTGGGACAGTAATATTATTGAGCTGGTTCCGAATATTCACCTGCCGGAAATTACGGACAGTATACATTATATCAGGGATTCAGTGTATTTTGATGTTGGCAATACAATGGATTTCAAAGCCCTTGTTTTCAAAGAAAAACAACTTTCTGACACCCCGAAAAGCCTATTCAATAAAAAATCAGGTGCTGTTTGGATAAATATTCCGATCTATGGTTATGAAAACAGAAATAATTTAACAGATACAATTTTGTACAATAGAAAAGCATTTAAACGTTTTCAGATCGCCTCAAAAGAAAATTTCAGTATTTTTTACATCAATAAAACGGACACTATTCTCCCATACTCTCTTAATCCAATTGCTGACCGCGATTACGGGGGCAGACTTGAGCGTATTGACAGTTATGATAAAAAAAGAGATCTCTTTACCACGGTAATACTTTTGCCAAGAAAATATCTGGATAAAGAAGCTGAGGAGATTTTTCAATATAATCGTGCTGTTGATCGTATTTACGAAAAAAATCAAAAAAATGAAAAATAA	MKNCFLIVIFSLFVSCNKDSKIRSKKGGIDVVTNIYYNASKGLDDHQQIIISKINYWDSNIIELVPNIHLPEITDSIHYIRDSVYFDVGNTMDFKALVFKEKQLSDTPKSLFNKKSGAVWINIPIYGYENRNNLTDTILYNRKAFKRFQIASKENFSIFYINKTDTILPYSLNPIADRDYGGRLERIDSYDKKRDLFTTVILLPRKYLDKEAEEIFQYNRAVDRIYEKNQKNEK				NA	NA	NA	NA	NA
BMS003_02842	294			hypothetical protein	ATGTTTTCATTTGTCCTATTGACAAAGGGTAAAAAAAATAAGAAGATCAAAATTAAGGTTAATTCTCCTTTTAAAATAGGAGAAGTTACTCTTATCAATGGTTCAGTTTTCTTTGGGAATGAACCTATTCATTTTGATCTATTTGTACAGGATAATGAAACTTATTTGTTAATAAATGAACAGCTGCTTAATCTCGCTGGTGGGGAAATTATTAAGATTGAAATTTCTAAAAAGGCTCCGAAAATACAACAATACAATTTTCAAAGCTTCTTGACCATATTACTTACTCATTAG	MFSFVLLTKGKKNKKIKIKVNSPFKIGEVTLINGSVFFGNEPIHFDLFVQDNETYLLINEQLLNLAGGEIIKIEISKKAPKIQQYNFQSFLTILLTH				NA	NA	NA	NA	NA
BMS003_02843	1656			hypothetical protein	ATGAAACTACCTACTGAATTAGGAGATGAATATGTAAACACAGTCCTTTCCAATCTTTCTCTGGAAGATCTTCCAGGTGAAGAATGGAAGTTGATAGAAGATTTTGAGAATTATGCTATTTCTAATTATGGTAGAATAAAAAGTTTGGAGCGGTGGGTTTCCGCTCCAAATGGAGGACAGCAGAAAATATTGGATAGGATTATGAAACCACAAGCCTTTAGATATTTTAATAAACATTTAAAAGCCCATTTTTATAATGTGAGATGCAACCTTTCTGTTGAAGGAAGAGTATATGGAAAGTCGGTAGCCCGTTTAGTCTATTATCATTTTGTTGAAAAATTTGATATGGATGATCTTTCATTTCGTATATCCTTTAAAGATGAAAATAGGTTTAACGTAAATTTCAGCAATCTGGAAAAGGTAACAACCATTGAATTACGTAATAAAGTACTGAACGCAGGCAGGGGGAAAAAGAGGAACTTTCAGCAACCGGTGAGCCAATATACGGTTGATGGTAATTTTGTTGCCAGTTATGAAAATATTTATGCAGCAAGTGAAGCTCTCGGAATAGACCCCAGCTATATTCTATCTGTTATCAATAAAAAAAGAATTACTGCAGGAGAGTTTCTATGGTTTGCAAAAGGATATAAGCCGAATAAAAAAGATTTTCTCCCGGAAGCTAAAAATAAACCGGAAAAAATACTTAATACAGCTCTTTGGAAAAATCTTGGAGAGCCACTCATTGATGAAAGTAATCCTCCAGCCTGTATGAATTTGTCGCTGAAAGATCTTCCTGGTGAAAAATGGAAACCGGTTCCTGATCTCGAAGAGTATTTTTCCATTTCCAACAAAGGAAGAATAAAGCGGCTAAACAGTTGGACAGAGAATAGAAACAAAACTTTTTGGAAAGAGCATATCATATCACTTTTTGCACTAAAGCCTGATAATAAACCGTATTATTTTTATACTAAATTAAGCTGTAAGGGACGAAATTATCGTATAGCAATTACCCGAATGCTTTATTATTGTTTCGTCGAAGAATTTGATCTTACAGACAAAGATCTGGTGATCATAAACGAAAGTGATTCGCAGTGGGATATGGATATTTCGAAACTCACCTTACAATCTGTTAATGATATGCTTAAAGAAAGAAATAAAACTTATGCGGCTACGGTAAGAACAATACTTAATTCAAAAAAAGTATTTAATGATTCTCTCTGGGAAAAACTTGGTAAACCTAGTATCAATAAGAAGAATCCACCAGCGATTTTGGATTTATCCTTAAGTAACCGACTGGATGAGAACTGGAAGCCATTACCAGGTTTCGATGGTAAATATGTTATCTCCAATAAAGGAAGAGTAAAACGATTAAGTGGATGGGGAGTAGGTAATCATTTTTATGGAGAGGAGCAGATTATCTCTCTCAACTTAAAGAAATCTGAATCCCCATTTCTTTATTTTTATCTTCATAAGAAGGAAGATGTAAATCCCAAAAGGCTTTTACGCTTGCTTTACTATTGTTTTGTCGAAGAATTTGATCTGAATAACAGAACGCTGCGGGTAATTAATGAAAATCAGCGGCTATGGGAGATAGATATGTCAAAACTATCCTTACGTTCTATGTCAGACTCCTTTAAAAATAAATATAAAAAATGA	MKLPTELGDEYVNTVLSNLSLEDLPGEEWKLIEDFENYAISNYGRIKSLERWVSAPNGGQQKILDRIMKPQAFRYFNKHLKAHFYNVRCNLSVEGRVYGKSVARLVYYHFVEKFDMDDLSFRISFKDENRFNVNFSNLEKVTTIELRNKVLNAGRGKKRNFQQPVSQYTVDGNFVASYENIYAASEALGIDPSYILSVINKKRITAGEFLWFAKGYKPNKKDFLPEAKNKPEKILNTALWKNLGEPLIDESNPPACMNLSLKDLPGEKWKPVPDLEEYFSISNKGRIKRLNSWTENRNKTFWKEHIISLFALKPDNKPYYFYTKLSCKGRNYRIAITRMLYYCFVEEFDLTDKDLVIINESDSQWDMDISKLTLQSVNDMLKERNKTYAATVRTILNSKKVFNDSLWEKLGKPSINKKNPPAILDLSLSNRLDENWKPLPGFDGKYVISNKGRVKRLSGWGVGNHFYGEEQIISLNLKKSESPFLYFYLHKKEDVNPKRLLRLLYYCFVEEFDLNNRTLRVINENQRLWEIDMSKLSLRSMSDSFKNKYKK				NA	NA	NA	NA	NA
BMS003_02844	1218			hypothetical protein	ATGATACAAATAGAAGAAATATCTAAAATAGGTCTTGGAACTTATAGAATGTCAAGTGATAATGAGGAATACATAGAGGTTATAAAATATGCGATTGAATCGGGAATAAATTTAATTGATACTGCTGTAGGATATGGATATGGAAAATCTGAATTACTAATAGGGCAGAGTATCGATCCAGAAATAAGAAGTTCTATTTTTATTGTGTCTAAAACAGGTTATTCTAATAAAGAAGAAATTGCAGAATTTAATCAAAAAGATCCTAATTTAATAGCGCTGGACGAAAACACTCTGTTTTCTAATTCTCCAGACTTTATTTCCTTTCAATTAGAAAAATCTTTAAAAAGATTAAATACAAATTATATTGACTGTTATTTACTTCATAATCCTGAATATTACTGTGAGAAAAATTTTTCTACTGAAGAATTGGAAAAGATAGTTTTCAATTCCTTTAACTTACTAGAAGAAAAAGTAAAAGATGGCAAATTGAGGTATTATGGAATAAGTTCTAACGATTTTTCAAAGATTCCATTAAAAGCAATATTAAATAATATTATTGATTTTCCACATTTTAAGTTTCTTCAATTCCCTTATAATATAGTTGAAAAAAACACTTCCTTTGTCTTTGACGATAAAAATACTATTACTATTAATGAATTAAAAAACAAGGGCTTTTATATTTTCACAAATCGTCCTCTTAATACAATGTTAAATGGTAAATTATTAAGATTGGCGGATACTGACATAAACGATGTAAAATCTATTGAATATGAAGAAGAATTACTCTTCAATGATTTATTACAAAAAATACAAAATTCTTTATCTAAAATGGGTGAAGATCCTAAAATAGAGGAATATTATCCAATACAATTTTTTGTAGAGAACAGAAAAATTATGCCAGATATTACTACAATTAATTTAGCTATCAATGATTATTTATATCCTTTTTTATCAGCCATTAATTTAGTGGATGAAAGCACCATAAATATTTTAAACAATCTTAAAAACTATTGGCATGTTTTTTCGATGTATGACAATCAGAAAAGATTGAATGATTTGAAAGACACTCTTAGTTATCAGGGAATAATAGATAAAAATTATAAAGGCAATTTTTCTTCATATTTAGCCGGGTTATATATCCATAGCTCTGGAATAAATTCGGTTTTAATGGGATTACGAGAAAAGAAATATATTGATAGTATAAAATACTTACTGTAA	MIQIEEISKIGLGTYRMSSDNEEYIEVIKYAIESGINLIDTAVGYGYGKSELLIGQSIDPEIRSSIFIVSKTGYSNKEEIAEFNQKDPNLIALDENTLFSNSPDFISFQLEKSLKRLNTNYIDCYLLHNPEYYCEKNFSTEELEKIVFNSFNLLEEKVKDGKLRYYGISSNDFSKIPLKAILNNIIDFPHFKFLQFPYNIVEKNTSFVFDDKNTITINELKNKGFYIFTNRPLNTMLNGKLLRLADTDINDVKSIEYEEELLFNDLLQKIQNSLSKMGEDPKIEEYYPIQFFVENRKIMPDITTINLAINDYLYPFLSAINLVDESTINILNNLKNYWHVFSMYDNQKRLNDLKDTLSYQGIIDKNYKGNFSSYLAGLYIHSSGINSVLMGLREKKYIDSIKYLL				NA	NA	NA	NA	NA
BMS003_02845	2214	apxIB	COG2274	Toxin RTX-I translocation ATP-binding protein	ATGCAATTTAGAGAAAAAAAATTTCCTTTTTTCAAACAATATGATAGAACGGATTGTGGACCAACCTGTTTAAAGATGTTAGCAAAATTCTATGGTAAAGTTTATTCATCTGAATATTTAAGAGAATTATGTAATATTACACAAGATGGAATTTCTGTTATGGGAATGACAGAAGCGGCAGAAAAAATAGGATTTCAAACATTAGTAGCAAGTATTAATTTTGAAACTTTAAAAAATCAGGCCCCTTTGCCTTGTATAGTACATTGGAGACAGAGGCATTTTGTTATTGTTTATAAAATAGAGAAAAACAAAGTTTATGTTGCTGATCCAGAATATGGATTAATTAGTTATACTGAACAAAAATTTAATGAGGCTTGGCAAAATACGAAGTATCTTAATGATACAAACGAGGGTTTAGTTATTATTTTTGAACCTTCGTCCGAATTCCATAATATAAAAGAAGACCATAAAAAGAATGTTGGGTTCTCTTCTTTACTTCCATACATAAAACCCTATAAGAAATATACTTTCCAAATTATAGTTGGTCTTACCATTGTGAGTGTTATTCAGCTAATACTTCCCTTCTTAACCCAATCTGTTGTAGATAAAGGTATTAATTACAGAGAGTTAGGTTTTGTAAGTTTAGTTTTAATAGCACAACTCACACTGTTTTTTTCACAAGCATTCATAAATTTTATTCAAAGTTGGCTTCTGTTATACATAGGTTCCAGAATAAATTTAAAAATAGCAACGGAGTTTTTGATTAAATTAATGAAACTTCCAATAAAGTATTTTGATGCAAAGCGCCCAGGAGATATTCTACAGCGATTACAGGATTCAGATAGGCTAGAGAGGTTTCTGACAACATCACCATTAACACTGTTTTCCTTTATTAATATGCTCATCTTCATGGCAATTCTTTTATATTATAATAGGGCGATTTTTGGAATTTTCTTTGTTGGAGCCACTCTTTATTTTCTTTGGATTTTATTTTTTGTTAAGAAAAGAGCAGAATTAGATCATAGAAGATTTGACGAATCATCCGGTAATTCAAGTAGCTTATTACAAATAATAAATGGAATCAGGGAAATTAAAATTAATGGTTCTGAAAAAAGAAGAAGATGGGGATGGGAGGAGATGCAAATAAGATTGTTAAAGAACTCAATACAGTCTCTTAAATTGTCTCAAGTTCAATTTATTGGAGCAGGTTCAATAAATGAAATCAAAAATATACTTATATCTTTTGCTTCTGCATATGCAGTAATAAAAGGAGACATGACATTAGGGACTATGCTTGCTATTCAGTATATTATTGGGCAATTAAATAATCCGCTTCTTTCAATTATTCAATTTTTCAGAGATGCTCAAGATGCTAAAATGAGTCTTGCTAGAATAAACGAAGTAAAAGATATTGAAGACGAGTACGAGAAACAAGAATTTACCCACGATATTCCTAAAAGTCACACAATTGAACTTGAAAATTTATCTTTTCAATATGGTGGGAAAGGATCTCAAATAATTCTTGATGATGTAAACTTAACAATCCCTCAAGGTAAAGTAACAGCAATTGTTGGTGAAAGTGGAAGTGGTAAAACAACTCTTTTAAAATTACTATTAAAACTATATACACCAACAGAAGGAAAAATTAAGTTAGGAGGATTAGACCTTTCAATAGTAGATACGAAGAAGTGGAGGAATCTATGTGGTGTCGTAATGCAAGATGGATATATATTTTCCGACACAATTTCCAGAAACATTACCGAATCAGGCTCAGAGGCACCTTTAAATAAAGAAAAACTTGCAAATGCTGTAAGAATTGCAAATATTGAAGAAATGATCGAAAATTTGCCGACTGGATATAACACTGTAATTGGGTCTGCTGGTTCTACTGGCATGTCATTAAGTGGAGGCCAAGTACAAAGAACATTAATAGCAAGAGCAGTTTATAAAGATCCTGAATTCTTATTTTTTGATGAAGCCACGAGTGCATTAGATGCGAATAATGAGAAAACAATATTGGATAATTTAAATGAATTTTTTAATGGCAAAACAGTAGTAGTTATTGCTCATAGATTGAGTACAGTTAAAAATGCGGATAATATTGTAGTTTTAAGTCGGGGTAAAATTGTAGAACAAGGAAATCACGAATATTTAGTTAGTATTAAAGGTGCATATTTTGAGTTAGTCAAAAACCAATTAGAACTTTCAAATTGA	MQFREKKFPFFKQYDRTDCGPTCLKMLAKFYGKVYSSEYLRELCNITQDGISVMGMTEAAEKIGFQTLVASINFETLKNQAPLPCIVHWRQRHFVIVYKIEKNKVYVADPEYGLISYTEQKFNEAWQNTKYLNDTNEGLVIIFEPSSEFHNIKEDHKKNVGFSSLLPYIKPYKKYTFQIIVGLTIVSVIQLILPFLTQSVVDKGINYRELGFVSLVLIAQLTLFFSQAFINFIQSWLLLYIGSRINLKIATEFLIKLMKLPIKYFDAKRPGDILQRLQDSDRLERFLTTSPLTLFSFINMLIFMAILLYYNRAIFGIFFVGATLYFLWILFFVKKRAELDHRRFDESSGNSSSLLQIINGIREIKINGSEKRRRWGWEEMQIRLLKNSIQSLKLSQVQFIGAGSINEIKNILISFASAYAVIKGDMTLGTMLAIQYIIGQLNNPLLSIIQFFRDAQDAKMSLARINEVKDIEDEYEKQEFTHDIPKSHTIELENLSFQYGGKGSQIILDDVNLTIPQGKVTAIVGESGSGKTTLLKLLLKLYTPTEGKIKLGGLDLSIVDTKKWRNLCGVVMQDGYIFSDTISRNITESGSEAPLNKEKLANAVRIANIEEMIENLPTGYNTVIGSAGSTGMSLSGGQVQRTLIARAVYKDPEFLFFDEATSALDANNEKTILDNLNEFFNGKTVVVIAHRLSTVKNADNIVVLSRGKIVEQGNHEYLVSIKGAYFELVKNQLELSN				NA	NA	NA	NA	NA
BMS003_02846	1281			hypothetical protein	ATGAAAAAGAAGATAGATTTATTAGAGGAGCACAGCGATTACTCCAGAGAAGTTCTCGAAAAAACACCTTCATGGATTGTTACATGGGGAAACTCAATTTTTTTTATTTTTATTACCGTTTTATTTTTTATTTCTTGGATGATAAAATATCCTGATATAATTTCTACCCAAGTAGAAGTTACATCTCAGGATCCACCTGTTTATTTAGTTTCAAGAACGAGTGGAAAAGTTAACGAGCTTAATGTTTTAGATGGAAGCGAAGTTAAGAAAGACAGTTGGCTTGCAATAATTGAAAATCCTGCTAAAACATCAGATATTAGAAAAATTGATTCTCTTTTAAATCATTATTCAGATATAAAGACAATTCCAGCTCCACTAAATTTGAAACTCGGAGAAGTACAATCTTATTATAATGAATTTATAAAAGCTTTAAATCAATATAGGTATTTCAATACTTTCAATCCACAATTGGTAGGAATTAGTTCAAATCAAGATAGGATCAATAAAGTAAATAATGTTCAAGGGGAATTTAACAGCCAAAAAGAAATAGCTCGTAAAGAGTATGAGGTAAAGAAAAAAGAATACAATAGAAACAAAGATTTATTTGAACAAGGTGTAATTTCTAAAAATGAATTTGAAAAAAGTCAAATAGAATTACTTCAAACTGAAAATAAATATAAAAGCTATAATTCCAATATCTCAAATTTAGAAAGTGACAAAAGTATTATCAAAAAAGAAAATGTTGATTTAAGCTTACAAAAAGAGAATCAAAAAATAGAACTTTCTACAAATCTTGAAAATGCTGCTCAAGAATTAAAAGCGCAAATTTTAGCATGGAAAAATAAATATCTCATAGAAGCGCCAACGGATGGGAAAATCAATTTTTTTGATATTTGGCAAAAAGATCAATATGTTAAAAATGAACAGACTCTATTTTCTATTATTCCAAATAATAATGATAAAGGAAAATATTTTGCTAGGGCTAAAATGCCTATTGAAAGAGCTGGTAAAGTTAAAGTAGGGCAAAAGGTAAACATCAAATTATTAAACTATCCATTTGAAGAATATGGAGTATTGGAAGGAAAAGTGAAAAAAGTAACCAATGTAACGAATGAAAATGTTTACTATGTTATTATAGAACTTAATGAAGGGCTTATTACTAGTTACAATAAAAAAATCACACCTAATAATCTTATGGGACAAGCTGAAATAATCACAGACGATATAAGATTATTACAAAGATTTATATACACGTTAGTACGAAACTTTAAAGAAAGATAA	MKKKIDLLEEHSDYSREVLEKTPSWIVTWGNSIFFIFITVLFFISWMIKYPDIISTQVEVTSQDPPVYLVSRTSGKVNELNVLDGSEVKKDSWLAIIENPAKTSDIRKIDSLLNHYSDIKTIPAPLNLKLGEVQSYYNEFIKALNQYRYFNTFNPQLVGISSNQDRINKVNNVQGEFNSQKEIARKEYEVKKKEYNRNKDLFEQGVISKNEFEKSQIELLQTENKYKSYNSNISNLESDKSIIKKENVDLSLQKENQKIELSTNLENAAQELKAQILAWKNKYLIEAPTDGKINFFDIWQKDQYVKNEQTLFSIIPNNNDKGKYFARAKMPIERAGKVKVGQKVNIKLLNYPFEEYGVLEGKVKKVTNVTNENVYYVIIELNEGLITSYNKKITPNNLMGQAEIITDDIRLLQRFIYTLVRNFKER				NA	NA	NA	NA	NA
BMS003_02847	1140			hypothetical protein	ATGGATTTTTATAAAAATTTTGACAGTTGCCAGGGAAGCGTTATTGATTCTCTGAAAATGCTTCTTTATCAAAGACATGAAAATATTTTTGAAAGAATTGATTTTGAAGATGATAGAATATATCTTGAACCTTTGCTTTTTACTTATGTGATGCAAGAAAATGACAGTTGGTTAGATTCAATCATTTATGGGTATGAGAAAAATCCAAAACTGAAAATTCAAGTATTTTCTAATCATACAGGAATAATATATATTCCGCAAATTGGTTATTTCCATACACAAGAAATCAATAAAGAACTGTTTTTAGAATCGAAGAATGATATATTTTTTATTACGGATAATGAAGGGAGAGAAGTTTCTTATAACTTTGAACCTATACTTTTTTTAGATGAAAATATTGAAATAGTGAAATGTCAACATCCACTTTTGAGAAAAATATTTTTAGACGCTCAGGATGAAATAGTCGATGTAGAGATCGAAAAAACATATACAAAACATATTGATCATGCTAATAGGGCAATTCAACTAATAAAAAAATATTTCCCTACCTACTTTGATTTAATAAAAAGGACAATTAAAAAGATAATGATTTTTGATGGAGAGCCAAATTCTTTTGCAAATATTCATGCTCATAATATGATCTTTCTAAATGCTCATGATGAAAATGATGAAGTGTTTTTTTTAGATCATATACTGCATGAAAGCGCACATGTTGTATTTAATACTCTAACGTATAATTCTAAATTTAATTTATTTAATTATGCATTTGATACAAAATTCTCTGAAATAACAGGAGATGTAAATGAGCATGGTGATTTGTATTCTAGATTTCATGGTCTATTTACTTTTATAATTATTAATGCTGGTTTAGAAGTAGTTATTAATGAAATGGTGCTACAGGGAAAACAAAATGAAGAATTGATCGGAAGGTTTTCTCTTAATATGAAAAGATTTAATACAGGTATTGATATGTTTAAAATACCTAATGTGCTCACAGAGGAGGGGCAAGACTGGTTTAAACTGTTTATAGATACCTTTGAACAAATATATGAAAGGAAAAACAATCTAATTAATTCAATTGATGTATCCAACCAACCTTATGTGTTTTCGTTTGAAGCATTTAGAAAGGCTAATAAGTGA	MDFYKNFDSCQGSVIDSLKMLLYQRHENIFERIDFEDDRIYLEPLLFTYVMQENDSWLDSIIYGYEKNPKLKIQVFSNHTGIIYIPQIGYFHTQEINKELFLESKNDIFFITDNEGREVSYNFEPILFLDENIEIVKCQHPLLRKIFLDAQDEIVDVEIEKTYTKHIDHANRAIQLIKKYFPTYFDLIKRTIKKIMIFDGEPNSFANIHAHNMIFLNAHDENDEVFFLDHILHESAHVVFNTLTYNSKFNLFNYAFDTKFSEITGDVNEHGDLYSRFHGLFTFIIINAGLEVVINEMVLQGKQNEELIGRFSLNMKRFNTGIDMFKIPNVLTEEGQDWFKLFIDTFEQIYERKNNLINSIDVSNQPYVFSFEAFRKANK				NA	NA	NA	NA	NA
BMS003_02848	192			hypothetical protein	ATGGAAAAAAGATTAACTCTTGATCAATTCAAGAAAAGCGTAGGAACTCAAAATTTAGAATTACAAAAATTATCAGTAAGAGGACTGGGTAGTTGTCACCCATCAGGCCATACTCCAACTAAGGCAGATTCGATTGCTGCACAAGTTATTATAGATGGTTATAATAAACTTAAAGACGCTTTTGGTCTTTAA	MEKRLTLDQFKKSVGTQNLELQKLSVRGLGSCHPSGHTPTKADSIAAQVIIDGYNKLKDAFGL				NA	NA	NA	NA	NA
BMS003_02849	729			hypothetical protein	ATGTTCAATTTTATAAGGAACTCTTTTTTAGTTGATTTTTTTAAATTTTTATACAGTCCTTCTGTATATTACAATATACCGATCCCTTCATACAAAAAAATTTATCAAGTTTTAATTATATATTTTTTCAGTTTGATATTGGGAGTTTGTATATCAATTATTATACACTATTTCATTGATACTCCTAAGAGAGCAGATAATGAAATTGACTATAGTTTTTATTTTATTTTTTTATCATGTCTATTATTGCCTTTATTAGAAGAAATAGTATTTAGATTATCTTTGATTTATTCAAGACTTAATTTATCTTTATCAGTTAGTGGTATAGCTTTTTCTGTAGTAAATAATATACTGAAGGAGCAAACTGTATTTACGGTAGAAAATTTTTACGTTATAAGAATTATAGCTTCAATAGTCATCTCAATCTTAATTGGAACCATATTCTATTTTAAAATAAAAAATTATGAAACTATTTTAGCAGACTTTCATAAAAAAAATTTTAAAGCAATTTTCTATATTTTAACTTTACTTTTTGCTTTATTGCATATTTCTAATTTCAAAATCAGTTTCCACTCTCTTTTGGTTTTGCCTTTATTGACCTTACCTCAATTTATTTTTGGTTTAACTGTCGGATTCATAAGAATAAGATATGGTTTTATATATTGTCTTTTTATTCATATATTAAGTAATGCTATTCCTACAGTTTTTATATATTTTTATTTTAAGTAA	MFNFIRNSFLVDFFKFLYSPSVYYNIPIPSYKKIYQVLIIYFFSLILGVCISIIIHYFIDTPKRADNEIDYSFYFIFLSCLLLPLLEEIVFRLSLIYSRLNLSLSVSGIAFSVVNNILKEQTVFTVENFYVIRIIASIVISILIGTIFYFKIKNYETILADFHKKNFKAIFYILTLLFALLHISNFKISFHSLLVLPLLTLPQFIFGLTVGFIRIRYGFIYCLFIHILSNAIPTVFIYFYFK				NA	NA	NA	NA	NA
BMS003_02850	513			hypothetical protein	ATGAAAATAAGAATAATTCTGTTTTTTATACTATTGATACCTTTGGTGTTTAGTTGCCAAGCTGAAAACCAAGCCTCAAAATATCCTGATTATGTTGGTAATATCGAATTTAATCCTAGTATGGATAAAAAGGATTTTACTCTTTGTAACAAAAGACATATTTTTCAATATTTTAATGACTCTAATGGTTTACAATACAAAGGAGAAAAGGCCGAACTCGACAAAATATTTTTCAAAAAATATAAAAGCCAAAATATCCCTGACGAAACAGGATTAATAAGAATACGTTTTGTTGTCAACTGTAAAGGAGAAACAGACCGTTTTAGAATAATAGGAATGGATGGTAATTACAACTCCAAAACTTTTAGTAGCAAGGTAACGGACCAATTGATGGATATTACTAAAAGCCTAAATGGATGGATTCCCAAAAAAATACAAGGAAATGATGTTGACTTTTACCAATATCTGATTTTTAAAATCGAAAACGGAAACTTAATTGAAATTATGCCATAG	MKIRIILFFILLIPLVFSCQAENQASKYPDYVGNIEFNPSMDKKDFTLCNKRHIFQYFNDSNGLQYKGEKAELDKIFFKKYKSQNIPDETGLIRIRFVVNCKGETDRFRIIGMDGNYNSKTFSSKVTDQLMDITKSLNGWIPKKIQGNDVDFYQYLIFKIENGNLIEIMP				NA	NA	NA	NA	NA
BMS003_02851	804			hypothetical protein	ATGAAATATATTCTTATCATTATAACTACAGTATTTTTCTCAAAATTGAATGCCCAGCCTAATTGCTATGCTTTCAAATATTATGGTGATACGTTACAGTATAAAGCCTGCAAAATGGTTGAAAAAATTGACGACAAATATTATCAGTTCAGTAGGGAGTTTCAAGAAGCATATGACAAAGCTATTGAAGTCTGTCCTTATTTTGCCTATGGTTACAAGGAAAAATCAGTTGCCTATTTAAAAAGTGGGGACTTTCTCAACTGGAAGATCCTCATAGACAAAGCAGTTTACTATAATAAAAAAGATAATCTCGGTTACCGTGGCTGGTGTAGGTATCAGTTCTTTAAAGACTATAAAGGTGCAATTGCCGATTTTGAGGAGCTTGAAAAGTTGGTAAAGGATATAGGGTATTCAGTCAATGGGGATTACCATCATCAGATAGCAAAAGCAATCTGTTACAGTGCATTGGGAGAAAAAGAAAAAGCTATTGAAGTCATCAAGCGTCAACTCAACCAAAAAGATTATCCCCCCGGTTGGTTTGATTATTATCAGTTAGGTGTTACATATTTTGAAATAAAAGATTATTCCAATGCAATGAAGGCTTTTCAAAAGCAATCAGAAATACATCCTCTTGCTGAAAATAGTTATTATATTTCTAAAGTCTACAAAATACTGAATAATTCTCAAGAGTCAGAAAAAAATAGAAAACAGGCAATAGAATTATATAAGCAAGGAAAATATATGAAAGACGACTATACTCATCATTTTAATAAGGTGTTTTTTTCAGAAATAAATAGCAATTAA	MKYILIIITTVFFSKLNAQPNCYAFKYYGDTLQYKACKMVEKIDDKYYQFSREFQEAYDKAIEVCPYFAYGYKEKSVAYLKSGDFLNWKILIDKAVYYNKKDNLGYRGWCRYQFFKDYKGAIADFEELEKLVKDIGYSVNGDYHHQIAKAICYSALGEKEKAIEVIKRQLNQKDYPPGWFDYYQLGVTYFEIKDYSNAMKAFQKQSEIHPLAENSYYISKVYKILNNSQESEKNRKQAIELYKQGKYMKDDYTHHFNKVFFSEINSN				NA	NA	NA	NA	NA
BMS003_02852	423			hypothetical protein	ATGGAAGGTAAAATTGTTGAACTAATCATATCCGAACTTGATTTATTTCTAATTGACAAGATAAGAGAATTAAGAGGTCGTGCCCAACCTTATATTTCGCAAGTAGAATTATCACAAAGAATGGGCTTTGCAGATGGATATGTCGGAAAGGTGGAAAACTTCAGTTCCAACACTAAGTATAACTTACGAAAATTGCATCTTGCTGCAAAAGCATTAAACTTGGATTCATATCAGCCTATCTTACCTGATAAAATTTTAAGTAATGATCTTTTGTATCTTAAAATTGAAGTCAATAGAAAAAGAAATGATACTGTCGATTTCGATAAGAATAATCAGGTTATAAAAAACTATAAAATTGTTGAGATGCGTGTTTTAAACGAAGCAGAAATAAAAGACTTTAATAATAGAAGAAAAACAAAGTAG	MEGKIVELIISELDLFLIDKIRELRGRAQPYISQVELSQRMGFADGYVGKVENFSSNTKYNLRKLHLAAKALNLDSYQPILPDKILSNDLLYLKIEVNRKRNDTVDFDKNNQVIKNYKIVEMRVLNEAEIKDFNNRRKTK				NA	NA	NA	NA	NA
BMS003_02853	288			hypothetical protein	ATGGCTGCGCAACCATTGTATCGTGTCAATGTGTATACTTTCATCTTTGGGAAGCTGAAACTTAGAAATGTGAGAATACCTAAAATAAAACGGCGTGGGAACTCTACATTATCCGAACAGAGGTACTGCCATACCGTGGAACAGATAAGAGGAAGAGACCCACGCCTAGGACATGAGCCGCTTACTTATCATCTCGTTCCTTTGAAAATTGGCAGTTTTCTGTTCGAGACTCTAAGCAATAGCTTCTATTTTTTCGTTGAAGTATCGCAAAATTACACTATTTTATAG	MAAQPLYRVNVYTFIFGKLKLRNVRIPKIKRRGNSTLSEQRYCHTVEQIRGRDPRLGHEPLTYHLVPLKIGSFLFETLSNSFYFFVEVSQNYTIL				NA	NA	NA	NA	NA
BMS003_02854	2892			TonB-dependent receptor P3	ATGAAAAAATCCTATACCAGCATAGGAGGCATCTCTTGTGTCCTTATGCTGACGGTAGCAGGAAGCTCTTTTCAAGCGCAGGTACGGGGAAGTACAGATACTATTTCCCTAAAGAGTAGTGCTGAAGCTTCCGTGCTCAGGAAAAAGACCGATACCTTAATCCCTTCAAATAAGACTGCATCAGAAAAAGTGAGCCATATTGAAGAGGTGGTGCTGAATGCGGGATACTATAAGGTCAAAGATAAAGAACGTACCGGAAGCATTGCCAAAGTCTCGGCTAAGGATATTGAAAACCAGCCTGTCACTAATGTATTGTCAGCAGTACAGGGAAGGATGGCAGGGGTGAACATTATACAAAATACAGGAACTCCGGGAGGAGGGTTTGATGTTCAGATTAGAGGCAGAAACTCTTTAAGAACCTATAATACAGCAGGCATAGATGCCAATACCCCTTTATATGTTATAGATGGCGTCCCAGTTATTACAGGCAACACCTTTAATTCAGGACTATCAGCTGCTGTATTACCCTATGGAGATACCAATCCTCTGAATTCCATTAGTGCTGGAGATATAGAAAACATAGAAGTTTTAAAAGATGCCGATGCTACTGCTATCTATGGGTCAAGAGGCTCCAATGGAGTTATTCTGATTACCACAAAAAAAGGTAGGAAAGGACGAACTCAGGTAAATGTGAACCTTTCTTACGGGCTCGCCAGTCAAGCTAATTTACCAAAAATGATGGAAACAGCAGATTATCTTCTTATGAGAGAAAGAGCTTATAAAAATGATGGCATAACGAATTTACCCACCAATGCCTATGATCTAAATGGCACATGGAGTAAAGATAAAAATACTGATTTTCAAGAATACTTTGTTGGGGGTATAAGTGAGTATAGTAATACAAGATTTGGAATATCAGGAGGAAACAATACCACTTCTTTTAACATTAGCGGTGGGCATGATGAACAAACTACTGTTTTTCCTGGTGATTACCGATACAAAAGAAATACAGTAAGTGCTACTATAGATCACCAGTCAGAAGATAAAAAACTTAAACTCAATCTTTCCGCATACTATACTGGACAAAGTAATTTTCTTCCACCCGCAGATTTCAGCACGATATACGGAACATTGGCCCCTAATTCCCCGGATCTTTATAATCCCGATGGAAGTATCAACTGGCAGCAGGGAACATTCAGGAATCCTCTTGCAGCTGCAACAAAGGTATATCGAACAAACTCTCAGCAGTTGATCAGTAATCTGGCCCTGCAATACCAGATCATGAAAAACCTCAAAATCCAGATCAACTCAGGATATACTCAGGGAAATACAGGTGAAAGTAAAATCTCTCCTAAAACCGCTTACAACCCAGCAGCTAATATCGGAAGTGAGCGCTCAGAATTACAGTTGGTTAAAAAGGAAAATAAAAGTTGGATTGTAGAACCACAACTGAACTTTGATAAAAAATGGGGCAATCATTCTTTTCAAGCTTTAGTGGGTACAAGTTTTCAAGAGCAAACCTCCGATAACCTGAGTCTGTATGGAAATAACTTTCCTTCGGACGAATTGATTATGGATTTGGCTTCTGCCAAGACCGTTTTAGTACTTAACTCTATGAAAACAATATATCGTTATCAGGCAATCTACGGAAGACTTAATTATCAGTATGACAAGAAGTATATTCTGAATTTAACCGGAAGAAGGGACGGCTCCAGCAGATTTGGTTCCGGAAAACGCTTTGCTAATTTCGGAGCTATAGGTGCTGCGTGGATTTTTTCTGATGAAGGTTTTCTAAAAGAATCCAAATGGCTAAGTTTTGGAAAATTCCGAGGAAGCTATGGAACTTCAGGAAGTGACCTTATCGGCGATTATCAGTTTTATGATAGCTATCAGTCCTTAGGCTATCCTTATGGTGGTATACAGGGAATATCCCCAACAAGACTTTTCAATCCTGACTTTAGCTGGGAAGAAACAAAAAAATTAGAAGTTGCCCTTGAAACAGGATTTTTCAAAGACAGGCTTAACCTTACCGTATCATGGTATCGAAACCGTACTTCCAATCAACTTGTGGGAATTCCTTTACCACTGACCACAGGATTTAGTTCTGTTAATGCTAATCTTAGTGCAACCGTTGAAAATTCCGGTTATGAATTTACCTTAGGTGGGAAGATGATTAAACGTACGGATTTTAACTGGCATACTTCACTGAATATTTCTTTTCCGGACAATAAACTGATTTCATTTCCTGATTTAGAGGGCTCATCCTATGCCAATTCCTTTGTGGTAGGGTACAGTACCAATATCCGTAAGCTCTATCATTTTCTTGGTGTAAACCCTTCTACCGGATTATACCAATTTGAAGATGTCAATAAAGACGGGCAGCTAGATGTGAATGACAGGAATATCGTCAAAGAAATTAAAACCTACTGGTTTGGAGGATTACAAAACAGCCTTACCTATAAAAACTGGTCATTGGATATTCTGCTTCAATTCTCCAAGCTGAATGCAGAGAATATTTTTGCAAGTGTCGGAAATTTAGGAATTATGGGAAACAGGCCTGAATTATTTCTGGATTACTGGACTCCTGAAAATCCTGGTGGTCAGTTCCAGATGCCCAGCTCGGGAGCTAATGCCCAGGCAAGCTTAGCCGCAACAAATTTCAGAATGAGTGATGCTACGGTAAGCACCATTCATTCCCTGAAACTGAAAAATATTTCATTAAGCTACCGGCTGCCTGATAGCCTATTGGGAGCCGCCAAAGCATCCATTTATTTTCAGGGACAAAATTTATGGCTGTGGTCCAATTATAAAGGTATTGACCCTGAATTCAGCCTGATAGGCTATACAGCACCTTTAAGGGTATTTTCGTTTGGTTTCACTTTAACATTATGA	MKKSYTSIGGISCVLMLTVAGSSFQAQVRGSTDTISLKSSAEASVLRKKTDTLIPSNKTASEKVSHIEEVVLNAGYYKVKDKERTGSIAKVSAKDIENQPVTNVLSAVQGRMAGVNIIQNTGTPGGGFDVQIRGRNSLRTYNTAGIDANTPLYVIDGVPVITGNTFNSGLSAAVLPYGDTNPLNSISAGDIENIEVLKDADATAIYGSRGSNGVILITTKKGRKGRTQVNVNLSYGLASQANLPKMMETADYLLMRERAYKNDGITNLPTNAYDLNGTWSKDKNTDFQEYFVGGISEYSNTRFGISGGNNTTSFNISGGHDEQTTVFPGDYRYKRNTVSATIDHQSEDKKLKLNLSAYYTGQSNFLPPADFSTIYGTLAPNSPDLYNPDGSINWQQGTFRNPLAAATKVYRTNSQQLISNLALQYQIMKNLKIQINSGYTQGNTGESKISPKTAYNPAANIGSERSELQLVKKENKSWIVEPQLNFDKKWGNHSFQALVGTSFQEQTSDNLSLYGNNFPSDELIMDLASAKTVLVLNSMKTIYRYQAIYGRLNYQYDKKYILNLTGRRDGSSRFGSGKRFANFGAIGAAWIFSDEGFLKESKWLSFGKFRGSYGTSGSDLIGDYQFYDSYQSLGYPYGGIQGISPTRLFNPDFSWEETKKLEVALETGFFKDRLNLTVSWYRNRTSNQLVGIPLPLTTGFSSVNANLSATVENSGYEFTLGGKMIKRTDFNWHTSLNISFPDNKLISFPDLEGSSYANSFVVGYSTNIRKLYHFLGVNPSTGLYQFEDVNKDGQLDVNDRNIVKEIKTYWFGGLQNSLTYKNWSLDILLQFSKLNAENIFASVGNLGIMGNRPELFLDYWTPENPGGQFQMPSSGANAQASLAATNFRMSDATVSTIHSLKLKNISLSYRLPDSLLGAAKASIYFQGQNLWLWSNYKGIDPEFSLIGYTAPLRVFSFGFTLTL	PGPT0003415_38	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS003_02855	1380			hypothetical protein	ATGATCATGAAAATTAAAACACTTTATATAACTGGAATATTACTGGCTTTTACATCATGTGATAATTTTACAGATATCAATATTCCCGGAAATCAGCTAACTACAACTATGGTTTTCTCAGATGATGCCCTTGCCAAATCTGCAATGGCATCTCTCTTGCGATCTCTGGGGGAAAAAGGATTTCTATCAGGAGTAAGTACCGGCGGAACCGCACTTTTGGGATGCTATTCAGATGAATTGGTATCCTACCAGCCTGCGAGCTCTGATCTCTCACAATTGTATTTTCTTACACAAAACCCGCAGAGTTCTTCTGTTAAATTATTATGGGAAAGCTCTTACTCACAATTATATTCTGCTAATGCCATTATTGAAGGCATAAACAATTCTTCATCGCTTTCCGGGGCTGTCAAAAATCAGCTGCTTGGCGAAGCTTTATTGATCAGAGGCTTATTACATTTTCACCTTGCTAATACGTATGGCAGTATTCCATATGTTACCACCACTGACTATGAGATTAACAGGAAAATTTCTAAAAATACCGTTAATGAAGTATATGCTTTGGCTAAAGATGATTTGCTTCAAGCTCTGCCCCTGTTACCGGAGACCCTTCCTAAAGGAAACAGGCTCAGACCCTCAAAGATGGCAGCTTATACAATTCTGGCAAGACTGGCTCTTTACCGGCAGAACTGGAATGAGGCAGTACATTACGCATCAAATGTTATGGGCAATTCATCTTATGCCATAGATCAGGATTTAAGTAAAGTTTTTCTTAAGGATTCCTCGAGTGCTATATGGCAGCTGGAACCTATTAATGGGCAGGAGAATACCCATGAAGGAGGACTCTTTGTATTGGAAACAGCCCCTCCAACTAATGTAGCTATGTCTACTGCTCTTGTGGGGTCATTTGAGAATGAAGATATAAGGAAGCTTGCTTGGATTGGAAAGAAATCAGATACAAGCGGAAACGATTATTATTTCCCTTATAAGTACAAAAAGAATAAAGCGACAGTAAGCTCTGAGGAATATTCAATCGTCTTTAGGACAGAGGAACTGTACCTGATCCGAGCAGAAGCTTTTCTGGAATTAGGACAAGCCACATCTGCTTTGAATGATCTCAATATCTTAAGAAACAGGGCAGGGCTTGCTAACCTAAACTCGGCAGATCCTTCTGTCGTTAACAATGCTATCCTTAATGAATACAGGCATGAATTCTTTACAGAGCTTGGGAGTCGTTTTTTTACTTTGAAAAGGAAAAATAGGCTCTCTGCGGAGATGAGTACGGTAAAGTCCGGATGGAAACCCTATTACACGAATCTGCCGATTCCGGAATCGGAGTTACTGCTAAATCAGAACTTATTACCGCAGAATAATGGATACTAA	MIMKIKTLYITGILLAFTSCDNFTDINIPGNQLTTTMVFSDDALAKSAMASLLRSLGEKGFLSGVSTGGTALLGCYSDELVSYQPASSDLSQLYFLTQNPQSSSVKLLWESSYSQLYSANAIIEGINNSSSLSGAVKNQLLGEALLIRGLLHFHLANTYGSIPYVTTTDYEINRKISKNTVNEVYALAKDDLLQALPLLPETLPKGNRLRPSKMAAYTILARLALYRQNWNEAVHYASNVMGNSSYAIDQDLSKVFLKDSSSAIWQLEPINGQENTHEGGLFVLETAPPTNVAMSTALVGSFENEDIRKLAWIGKKSDTSGNDYYFPYKYKKNKATVSSEEYSIVFRTEELYLIRAEAFLELGQATSALNDLNILRNRAGLANLNSADPSVVNNAILNEYRHEFFTELGSRFFTLKRKNRLSAEMSTVKSGWKPYYTNLPIPESELLLNQNLLPQNNGY				NA	NA	NA	NA	NA
BMS003_02856	2424			hypothetical protein	ATGATTAATACCTTCGGAATAGCGGGGGATTGTTTTAACCAGTATTATGTAAGCAGCCTGATAGCAGATTTCCCAGGAGGGAAGTGGCTTGTTATGAATAATAAAAATAACTATGGAAAGAATGAATTTAAGCTCATTGGCACAGTAAGTGGTGTATCTACAGATCTTCCTTTGGCGTACAGTTATACGTTTTTAGACAAAGATCATTTACTTATATCTTCAAAAGAAGGCATTATTTTTAAAGGGCTAAAAGAGAAAAAAGAATTCCTGATTAAAGGAAAGTACAAAAATGAGATTTTCCCTGCTGTTAAAAAAGTACTTTTATTTGACTCTTCAAAAAGGCAAATAGGTATTTATGATTTTTCCGGAAAAAAACTACTAGAGCAGTATTGTATCGTTTCATACGATAAAAGTACTGATCTGAAAGAGATACTACTCCATACCTCTGATCAATACTTGCAAAAGCTTGATCTGGAAAACCTTAAAACAGACCGTATAAAAACGCAGACCCCTATTATAAGATCGTGGAAAGAAAAAGACATGGTATACGGTTTATCGGAAACAGCAAAAGGCATCTTCTTAAGCCAATGGACGTGTAATTCAATGGGTGTAATATCCCAAAAGATAGATTTTCCAACCGGATATACCCTTGATAAAGAGACATTACGAGAGTCAAAGCTTCAGGAAGAACGTTTTCTTATCGTTTACCTTAAGAAAATGACATTGGAGGAGCCAAATCCCTTGGCTGTAGAAATCCGGTACTCCAACCGAAGTGATACAGCTCATGACAGATCCCCAAAGTTTGGAATTTATGATCTCCGGGAACACAAATGGACTTTTTCGCCGGAAGATGAAAAGGTTTTTACCAGCTATAGAAGGGTAAGTGACAGGGGAGATTTTGTGATTTATGATAAAGAAGAAAATGTAAGCGATACGTTGAGTAACCCAAGATATACCCTTACCCTTGTATCACAATATGGGCTGAAAAGAAAAACGTTGGCTAATCCCTATGCAAATCCATTAAACTATCTTTTTTTGCCGGAAGCAGGAAGCATGCTGTTTTTTGAAGCCGGTACATGGAAGGTAGAAGATTTAGAATCAGGAACCGTAAAAGAACTTCCTTTGGATAGCTCCTTAACGTGGATTCTGGAAGATTTTTCCGGCCTGGAAGACAAACCTGCTGGAAGAGTGTGGGCAACAAATGAAAAAGGAAAAGTATGGCTAAAAGAAAAATATGACCTTTTTGAGTGGGACATCTTCACTAATAAGATTAAGCGATTAACATTTGGAAGAGAAAAAAATATTAGGTACGCTGTCTCTTCCGCTCTATTGCAAAACGAAATCATTGACACCGGAAATAAAGTCTTACTGGAAATGGAAAATTCTTTATCGAACTATTTTGGATTATCATGGTTTGACAAAGGAAAAATTAAACCGATTTACTGGGGGAAAGAAGCCGTTTACAATATCAGAAAGAATGAAAAAGATCTGCTTTTTTCAACACAGGGTTATGAGAACCCATTAACCATAATGAAATACCAGGGGAATAGGGCCGAGGTCATTTATAAAAGCCCCGGAAAAGATGGAACTAAGTTAAAAGGCAGGAAAATGGAGGTACTTCAATATCAGGTTGGTGTAACAACTAAAAAGGCAGTTTTATTATATCCTCAGCATTATGAACCTGAAAAGAAATATCCTATGGTCCTTAACATCTATGAGAATATTTCCGGAAAAGCAAATTATTACAGTATTCCGGATTTATGTGATACGGGAGGATTTAATCCCGCTTATTATACCCATCAGCGTTATTTTGTATTATTACCAGATATCCATTATGAGCGGGAGAGCAAACAAAGCATTATAGAATCTGTGGAAAGTGCCGTAAAAGGAGCTTTGAAAATCGCCAGTATTGATCCCGGGAAAATCGGAATCACAGGGATTTCTTTTGGAGGATACGAAACGGGGCTTATCATGGGAAGAACAGATATTTTTAAAACGGCTGTTATGGGTGTTATGATTGCTGATCTTCCTTCCCATGTTATGAGCTTTTCAAAACTGGTGGGTGGACCTGATTATTACCGGACTGAAAGAAATCAGACACAAATGGGGGGAAGTCTCTTTGAGAATTATGATGCCTATCTGAAATCCTCTCCGCTTTATTATGCAAAAGAAGTAAAAGGCCCTGTTCTGATCTGGACAGGAATGGAGGATGATAATGTAAACCCAGCGCAATCTGCCATGTATTATTTGGGACTAAAAAGGCTAAAAAAACCAGCCGTTTTACTGCGCTATCCTAAAGAAGGGCACGCTATCTTATCACCTAAAAACAGACAGGATCTTGGTCTTAAGACATTTCAGTGGTTTGAATATTTTCTAAATAACGGGCCTGTTGCTGACTGGATTAAACCTCTTGTTCCCCATTAA	MINTFGIAGDCFNQYYVSSLIADFPGGKWLVMNNKNNYGKNEFKLIGTVSGVSTDLPLAYSYTFLDKDHLLISSKEGIIFKGLKEKKEFLIKGKYKNEIFPAVKKVLLFDSSKRQIGIYDFSGKKLLEQYCIVSYDKSTDLKEILLHTSDQYLQKLDLENLKTDRIKTQTPIIRSWKEKDMVYGLSETAKGIFLSQWTCNSMGVISQKIDFPTGYTLDKETLRESKLQEERFLIVYLKKMTLEEPNPLAVEIRYSNRSDTAHDRSPKFGIYDLREHKWTFSPEDEKVFTSYRRVSDRGDFVIYDKEENVSDTLSNPRYTLTLVSQYGLKRKTLANPYANPLNYLFLPEAGSMLFFEAGTWKVEDLESGTVKELPLDSSLTWILEDFSGLEDKPAGRVWATNEKGKVWLKEKYDLFEWDIFTNKIKRLTFGREKNIRYAVSSALLQNEIIDTGNKVLLEMENSLSNYFGLSWFDKGKIKPIYWGKEAVYNIRKNEKDLLFSTQGYENPLTIMKYQGNRAEVIYKSPGKDGTKLKGRKMEVLQYQVGVTTKKAVLLYPQHYEPEKKYPMVLNIYENISGKANYYSIPDLCDTGGFNPAYYTHQRYFVLLPDIHYERESKQSIIESVESAVKGALKIASIDPGKIGITGISFGGYETGLIMGRTDIFKTAVMGVMIADLPSHVMSFSKLVGGPDYYRTERNQTQMGGSLFENYDAYLKSSPLYYAKEVKGPVLIWTGMEDDNVNPAQSAMYYLGLKRLKKPAVLLRYPKEGHAILSPKNRQDLGLKTFQWFEYFLNNGPVADWIKPLVPH				NA	NA	NA	NA	NA
BMS003_02857	267			hypothetical protein	ATGTTCTTACCTGTATTCGTAATGTTGATCGGAGCAGGAGCCGCTTTCGCTACTAAAACAGCGGACAAAGATGCCTCAAAACTTGCCGACAGACAAGGGTATATCTACAATTTTGATCTTGAACGGTGTGATATGGCTGTTACCTGCTCTGACCAGCCAGGACAGATTTGCACCGTAGATGGTACACCATCATCACAGCAAGTATTTGGTTCTGCCATTGGAGGGGAACACCCTAGTACCTGTGATGTGACACTGTACAAAAGGTAG	MFLPVFVMLIGAGAAFATKTADKDASKLADRQGYIYNFDLERCDMAVTCSDQPGQICTVDGTPSSQQVFGSAIGGEHPSTCDVTLYKR				NA	NA	NA	NA	NA
BMS003_02859	1464			hypothetical protein	ATGAAGAAAAAGTTCTCTTATCATTTTCCTGGTATTGTAGCCTATTTTTTTGTATTGCTTTTTGTATATGCAGCATTAAGTAAACTATTAGATTTTGAGGCTTTTCAGGTACAGTTAGCGCAATCTCCTTTATTAAGTGCATATGCAGGATTTATATCTTATGCTGTTATTATTGTTGAACTCATCATAGCAGCATTATTATGCATTAACAGTATGCGTTTAGTAGGGCTTTATGCATCATTCGGGCTAATGGTGAGCTTTACCATATACATATATCTGATTTTAAATTTCAGTGATTTTGTGCCCTGTTCATGCGGGGGAATCCTGGAAAAGCTGGGATGGACAGAGCATTTAATTTTTAATATCGCTTGTGTAATCGTTGCGATGATTTCCATTTTCATATTGGAGAAACAAAAGGGGGAAAAAAAGAAAAAGTACTTTATTCTAACAGCTATTATTGCTCTGCTTAGCGCAGGACTTGTAATCATTTTATTTCAGAGCTCAGAGCATATCATCAAAGAAGAAAATAATTTTACCAGGAGATTTTTACCGCATCCTATTTATTACCCTGAAACACTGGATTTAAAAGTAAATTCATTTTACTTTGCTGGAAATAGTGGAGACACTATATTTTTGGGTAATTCCAGAGCACCGCTTTTATTTGGAGAGGTATTGCCTACTTTCAAAAGTTTATCCATTGATACACTAAAAATTCCTGATTATACATTACCGTACAAATACCTTCAGTTAAATATCCGATATCCTTTCATAAGCCTGAGTGACGGAACTATTCCTATTATCATGCAGGGGAAGCTCCCTGATAAGAGGCTTGAAACAACCATGCATGGCCAAGCTTTCTTTTCCCAAATCAAAATGTTAAAAGAAAATATCTTTGCTGTTAAAACCACACTTGAACAAGGAAAAACGAATACTTTAGGGCTTCTAAGTACCAAACCATTTAGCTTAACGATAAAAAACAATGTTTTAGAAAAGCAGATCGACGGAATCTTTGATACAGACGGCAGCCTGGTATATGATTCAGGAGGTGAACAACTTGCATATACGTATTTCTATAGAAATAAATTCATTGTTATGAATCCTGCATTGGATGTCTTATATACCGGAAAAACTATAGATACGATTTCTAAAGCAAAAATTCACTTAACAAAATTACAAGATGGTAAGATAAAAATGGATAAGCCACCTTTGCAGGTTAATGGTTATCAGGCACTTTCCAATGGCATTCTGCTTAATGTTTCGCATTTGAGAGGACGTCATGAACCTAAAAAAATGTGGCAACAAGCGAAAATTGTGGATGCTTATGATCTATTACAGAAAAAGTATCTGTACAGTTTTTATGTTAATCACAATGGGAAAGATCAAATGCGGGAAATGCTCGTGACTCCAAAGTATTTTTATGTTCTTAAAGGTAATAATCTTATAAAATATAAACGCATGCGCTAG	MKKKFSYHFPGIVAYFFVLLFVYAALSKLLDFEAFQVQLAQSPLLSAYAGFISYAVIIVELIIAALLCINSMRLVGLYASFGLMVSFTIYIYLILNFSDFVPCSCGGILEKLGWTEHLIFNIACVIVAMISIFILEKQKGEKKKKYFILTAIIALLSAGLVIILFQSSEHIIKEENNFTRRFLPHPIYYPETLDLKVNSFYFAGNSGDTIFLGNSRAPLLFGEVLPTFKSLSIDTLKIPDYTLPYKYLQLNIRYPFISLSDGTIPIIMQGKLPDKRLETTMHGQAFFSQIKMLKENIFAVKTTLEQGKTNTLGLLSTKPFSLTIKNNVLEKQIDGIFDTDGSLVYDSGGEQLAYTYFYRNKFIVMNPALDVLYTGKTIDTISKAKIHLTKLQDGKIKMDKPPLQVNGYQALSNGILLNVSHLRGRHEPKKMWQQAKIVDAYDLLQKKYLYSFYVNHNGKDQMREMLVTPKYFYVLKGNNLIKYKRMR				NA	NA	NA	NA	NA
BMS003_02860	804			hypothetical protein	ATGCACATCTATCAGCTTGCCATCATTGATCAAAAACTAAAAGAAGCAATGGCTAAATTTTCATTGCTTCCGGTTCATACTTCTATTTTTGATGCAGCTCTTTTTGAACAGCTTTTGGATGATAGCAGGGTTCTAATAAAAACATATATTTCGTTACTGAAATCATTACAAATATTACCTAAAGAAAATCACTACTATAAAGAACATTATCTAATAAAGCATACTGTCAACGGAGCTGAAGCTGATGGGACTATTGATCCGGATTACCTTACAGCAATCCAAAATCTTGTTTTGCCGCATTTGGTTGGCGCTTCCTCTGATAAAAAGCAAATATTTCCAATCCATATTCATTTCACAACAAATATAGAAGTCTATTTATTTTCGGGAATTAGCCTATATAAGCAGGATGAATCAATAGTATACAGCTTATTGCATGAAATGTCAATGCCTGTGAACCATATAAGTTATACTTCCCATGCAAAGTGCAATTACCTTTTGAATATATTTTATGCAGAGGAATATAATGAAAAACAAAGCATTCATAACTTATATCCCCGGTATAATATAAGCTACCGGCAGTTTAGGAAGGATTGTAAACTCTGCCTTGGAACCACCTTCCACAATTTTTTTACTAAAATGAAAATGCTGGATGTACTCGATGATATTATGCTGACCAATCTATCACTAAAGGAAATTGCCCATAAAAATAATTTTTCCAGCTACATTGCAATGCACCAGTTATTTAAAAGAAAATACAATTTCCCATTATACATAATTCCAAGAATATTAAATGGATCTAACTGA	MHIYQLAIIDQKLKEAMAKFSLLPVHTSIFDAALFEQLLDDSRVLIKTYISLLKSLQILPKENHYYKEHYLIKHTVNGAEADGTIDPDYLTAIQNLVLPHLVGASSDKKQIFPIHIHFTTNIEVYLFSGISLYKQDESIVYSLLHEMSMPVNHISYTSHAKCNYLLNIFYAEEYNEKQSIHNLYPRYNISYRQFRKDCKLCLGTTFHNFFTKMKMLDVLDDIMLTNLSLKEIAHKNNFSSYIAMHQLFKRKYNFPLYIIPRILNGSN				NA	NA	NA	NA	NA
BMS003_02861	246			hypothetical protein	ATGAAAGAGTTAATCTCATCTTTAACGGTTATTCTGTTGATTATATCCGCTCAGTCATGTAGAGGAGAAGATATCACAGATGAACCATTTTATCTGGAAACAAAAAACAAAACAGAAAATACTTCACACAGTAAGAAAATGGATAGTATCGTAATTCTAAAAGAATCGGAACAAGAAACATCACCTGTTGATGGGGATACTGAACCACCGCCCAAAGATGGTATCAGGTGGAAAGTAAAACAATAA	MKELISSLTVILLIISAQSCRGEDITDEPFYLETKNKTENTSHSKKMDSIVILKESEQETSPVDGDTEPPPKDGIRWKVKQ				NA	NA	NA	NA	NA
BMS003_02862	1737			hypothetical protein	ATGGACAAAAAAATTTACTTTGTTATCTTATTTTTGTATTTTGTAGTTGTTTTTTCTCAAAAAAGTGACTTCAATGAATATGCGCAACTTCGTAAGAAGTATGAAAACTATCCGGATAGTGACATAAGAGCACTGCCTCATATTAATTTATATATTGCAAAAGCTAAACAGGAAAAGAATTATCAGAGGCTATTCCAGGGTTATAAAGATGCGGTAATGTATTCCGTTACAAAAGAACAGAAACTGATGTATGCGGACAGTACTATTTTTGCTGCTAAATCTTCAGGGAATAATGATCTGATAAGTGTTGCCCATCTAGGTAAAGGTGTTGTTTATTACTATAATTATAAGAAGTTTAAAAAGGCATTGGATGAATATATGGTAGCTTATGAATATTCTAAGCATTCTGAGGATGAATATTTTAAGCATAAAATATTGTACCATATAGGTGTTGTGAAAAGCTACTTAGGTTATTATGAGAATGCTTTAACTCTATTTGAAAAATGCCGTATTTTTTTTAAATCTAAACTCGGGGCAGAATTGCACCCCAATGAAATATATAATAGTACAAAGGGATATTATAGTACTCTTCATCAAATGGCTGTCTGCCAAAGGAATTTGAAACATTATAAAATATCAGATTCCTTGGCCGAATTGGGATTGAGGCTCACTTCTATTGATAATGATTTATTACTGGAACACAGTTATTTCCTGAAGTGTAAAGGAATTGCAAGTTATCGAAAGAAAGATTATACGCAAGCTCTAAAAGAGCTTGGTCTATCACTTCCTGAAATCAGAAAAAATTCAGATATTAGCTGGGAGCCCATCATTTATTTTTATATGGGAAAATCCTTTTTAGCCCAGGGCAAGACTAAGGAAGCAATTGATAATTTTCGTAAGGTAGATTCAATTTTCCAAAATTACCATTTTATTTTACCTGAGCTCCGGGAAAATTACGAACTGCTTATAAAATATTATCGACAACAGAATAATGACAAGCAACAATTGTACTATACAAACCAACTGTTAACAGTAGATGAAGTTCTCTATAAAGACTTCAGGTATCTGGTAGATAAAATTCATAAGGAATTTGACAGCAGTACTTTACAAGATGAAAAAATAAAACTGGAAAAAGCAAATTCCAAGGGAACTCTTGTCAATAGTGGACTAATGGTCCTCGCCTCCAGCCTTGTTATTGCCTTAAGTATTCGTTATAAGCGAGAAAAGAAAATCCGTCGTCAGTACTTAGCATTGGAAAATAAACTCATGACAATAAAAAAAGGAACTTCAAAACAAGCTATTGATGTAAGGATCGAAGATGGTAAAAAATACGAGCTGGCTAAGGATAAAATAGAAGAACTTTTACAAAAGCTGCAAGTATTTGAACATAAAAAGAGATTCACACAAAAAGGGCTTACCATTTATAAATTGGCCCAGCAGTTTAATACCAATGATAAATACCTTTCCTATGTGATTAACGAATACAAAGGGAAAAACTTCACTAAATATTTAAGTGAACTGAGAATTGAATATATAACGCAGCTTCTTTTTGACGATAAAAAATATCTTGATTATAAAATAGAAAGTCTTTCTGAAGAATGTGGAATTGCTTCCAGGCAAAATTTTTCAAGCCTTTTTTATGAAATTAATGGGATACGTGCCACTGATTTTATAAGAAAGAGAAAAGCAGAATTACAGGCTGGCCAAAAATCTCAAACTACTATAAAGTCTGCCTGA	MDKKIYFVILFLYFVVVFSQKSDFNEYAQLRKKYENYPDSDIRALPHINLYIAKAKQEKNYQRLFQGYKDAVMYSVTKEQKLMYADSTIFAAKSSGNNDLISVAHLGKGVVYYYNYKKFKKALDEYMVAYEYSKHSEDEYFKHKILYHIGVVKSYLGYYENALTLFEKCRIFFKSKLGAELHPNEIYNSTKGYYSTLHQMAVCQRNLKHYKISDSLAELGLRLTSIDNDLLLEHSYFLKCKGIASYRKKDYTQALKELGLSLPEIRKNSDISWEPIIYFYMGKSFLAQGKTKEAIDNFRKVDSIFQNYHFILPELRENYELLIKYYRQQNNDKQQLYYTNQLLTVDEVLYKDFRYLVDKIHKEFDSSTLQDEKIKLEKANSKGTLVNSGLMVLASSLVIALSIRYKREKKIRRQYLALENKLMTIKKGTSKQAIDVRIEDGKKYELAKDKIEELLQKLQVFEHKKRFTQKGLTIYKLAQQFNTNDKYLSYVINEYKGKNFTKYLSELRIEYITQLLFDDKKYLDYKIESLSEECGIASRQNFSSLFYEINGIRATDFIRKRKAELQAGQKSQTTIKSA				NA	NA	NA	NA	NA
BMS003_02863	456			hypothetical protein	ATGTGCGCAAAAAAAGCAGTCAAGAAAACTAAAAACCTGTTAATTAAAACGGATAAAATCTTAATTGATAATTTTAAAGTATATAGCTTTACCTATTATAAAGATAATGGGCTCTTATCATTATTCTCTTTCCGCCATTACTTGGCACTTGCTCTTTTGAATATTGAGCAGGATTTTAAGGATAGATATGGAAATATATCTTTTCCAGATGAGCAGTATCTGGTGTTCTATAAAAAACGGGGAACTAAGATAACCCAGGTCAAGGAAGAAAGAGTATTGGAAAGTATTAATTTTTTGCTTCCGGTCGAATTTTCTGAATTGTATTATAGTCTGATGCACACCTATTATATTAATGAGAAATCAGATTCATCAAGCTATTCCATTTCATTATTTTTTGAATTTATCGTCTCTTTCATAAGCAATAATGAGCTGAACTTTCTTCCTGTCGAATTATAA	MCAKKAVKKTKNLLIKTDKILIDNFKVYSFTYYKDNGLLSLFSFRHYLALALLNIEQDFKDRYGNISFPDEQYLVFYKKRGTKITQVKEERVLESINFLLPVEFSELYYSLMHTYYINEKSDSSSYSISLFFEFIVSFISNNELNFLPVEL				NA	NA	NA	NA	NA
BMS003_02864	477			hypothetical protein	ATGGAAGAAAGTAAAAAAGACAATATGATTACTGATATCATAAGACGGAACTATTATCTAGAACAATTTTTCAAATACAATGATATTCATGTAAATCTTCTTGGAGATATCAATAATCCTCTCATTGTAACTGAAGATAATATTGTACTGAGCTGTTTTGTCAGTAATTTTAATTTAATTTTTAAGGATAATTCGTTTGAGGGTAAAGAAATATTTACCATCAAACTAAAAAAGGAAGCCCAGAATGCTAAAGATCAGCTGGAAAAGTGGGTGAAATCGGCAGCTCACAGAAAAATTTATTTATTTACCTCAGAGGACGGGCTGTACTACAGCAAATACATAAAATTATACAACCATATATTTCCATTATTCAGCCCTGCCAAAGAACTGGCTTATTATGTATTTCAGAGACAGAAAGCCATAGAGATAGTACAGAAACTGAAAAAAAGCAATATAGACCTTTCTATTGTTTATTGA	MEESKKDNMITDIIRRNYYLEQFFKYNDIHVNLLGDINNPLIVTEDNIVLSCFVSNFNLIFKDNSFEGKEIFTIKLKKEAQNAKDQLEKWVKSAAHRKIYLFTSEDGLYYSKYIKLYNHIFPLFSPAKELAYYVFQRQKAIEIVQKLKKSNIDLSIVY				NA	NA	NA	NA	NA
BMS003_02865	195			hypothetical protein	ATGATTATGAAAAGGATTATTAAATTTGTGGTTTATGGTGCTATCGCATTTTATATATTTTTGTTTTCTTTCATGGGAACAATATCAGACAATAATGATGCAAGAAAGATTTCTCTTGCCCTACTTATTATCGTCGTTGGCTGGAATATTTTCAAAGCTCCTTTAAAGAGGTTTGTAAGGAAGATATTGAATTAA	MIMKRIIKFVVYGAIAFYIFLFSFMGTISDNNDARKISLALLIIVVGWNIFKAPLKRFVRKILN				NA	NA	NA	NA	NA
BMS003_02866	957	traC		DNA primase TraC	ATGAAAGCTTTAACTAAAAAAACAAATTCAAAAACACAGTTCTCTACCTTTAAAGAAGACAAATTTATTTCCAAGATCCTTGAAAATCTTGATAAGGTAAATGCCAAAGATTGGGAACAGTATGCTAATGTCCCGTTTCAGCATCCTAAAAATCTCTTTACCAAAAAAGAATATCAGGGTTTCAATACCTTCGCATTATATATAGATACGCTTGTTAACAAATTTAAAACATCCTGCTATGCGACATTCAGATCTATATCTAAAGCTGGCGGAAAGTTGAAAAAAGGAGCGAAAGGAACTGTCATTGAATTCTTCAGCTATGTTTTTAAACATAAGGAGACAGGAGAAATTTTCACAGCTGAACAGTTTTCAACAATGTCTTCGGCTGAAAGAGAAAACCTCACCAAAATTATCTGCATACGGAACTATACGGTTTTCAATTCAGAATTTATCGAAAATTTGGAAGAGATTGACATCAATATTGATCCTGAAGATGAAAATCACGAATTGGATTTCCAGGAGCAAATAAATTGTGAGAATTTCATCACAAAAATAATTACATCCGGAAATCTGCAACTTACCCACGCAAGGCTAAACGTAGCCTGCTATTCGCCTATACAGGATTATATTGCTATTCCTGAAAAGAAATTCTTTATCTCAGAAGACAGATATTATGCTACCTTATTTCATGAAATCATTCACTGGACAGGTCACGAAAGCCGACTGAACAGAAATTTGAAAGGGCATTATGATGTTACAAGTTATTCCTTTGAAGAGCTGATCGCCGAAATGGGAAGTATGCTAATCTGCTTACAATTTGGAATCACTTCGGAATTTATTAATTCTGTGCGTTATTTAAAAAGCTGGTCTGTAAATAATTCAGAAAACAGAACTGAGAATATCAAAAAAGCATTTGTCGAATCCAAAAAAGCAAAGAAATTTTTAGAACAATTTTGA	MKALTKKTNSKTQFSTFKEDKFISKILENLDKVNAKDWEQYANVPFQHPKNLFTKKEYQGFNTFALYIDTLVNKFKTSCYATFRSISKAGGKLKKGAKGTVIEFFSYVFKHKETGEIFTAEQFSTMSSAERENLTKIICIRNYTVFNSEFIENLEEIDINIDPEDENHELDFQEQINCENFITKIITSGNLQLTHARLNVACYSPIQDYIAIPEKKFFISEDRYYATLFHEIIHWTGHESRLNRNLKGHYDVTSYSFEELIAEMGSMLICLQFGITSEFINSVRYLKSWSVNNSENRTENIKKAFVESKKAKKFLEQF				NA	NA	NA	NA	NA
BMS003_02867	483			hypothetical protein	ATGACAGAGAATTTTACGGATGGTGGAATTACAGAATTACAAACAAATAATCACATTATCATGGGAACTTACACTATTATTTATCTGAAAAAACAGGATCAGGCCAAAGAGGTCAACGAATTTCTAAAGGAAAAATATAAACTCAACTATGAAAACTATAATGAAGTCGATTACGGCGTTTTCTTTACACAGGAAATGTTCGACGAAGATCTTAGGTTTATGAATGAAGATCAGGAAGGCAGGACGAATCTCCCCCATTATCAACGCCCGATTTCCAGAGAAACATACTATTCACTACTATTTGGGGCTAAAAACTGTTTCGGAGATATCGGCACAGCATGTATTAAAATCTCCTGCATTGCTGAAAAAGATGTAGAAATTATTAAAGCCTTACAGGAATTTTCCAAAACTCCTGAATTTAAAAGATATATCAATTTCAGGAAGTCAAAAAACCTTCAACGGTTACTGCTTATCAGATTATGA	MTENFTDGGITELQTNNHIIMGTYTIIYLKKQDQAKEVNEFLKEKYKLNYENYNEVDYGVFFTQEMFDEDLRFMNEDQEGRTNLPHYQRPISRETYYSLLFGAKNCFGDIGTACIKISCIAEKDVEIIKALQEFSKTPEFKRYINFRKSKNLQRLLLIRL				NA	NA	NA	NA	NA
BMS003_02868	228			hypothetical protein	ATGAATAAAGCAACATTTGAATGGAAAATAGAAATAGAATTTTGGTTCGTCTATCATGAGGACTTGGATAACCTATCTATTGAAGAAAGAGAAATACTGGAAAAACAGGCAAAGGAAAGCATTTTTCATTTTATCACAAAAGACGGCTATACTGCCGGGGAACTCTGCGAAAGTATAGATGACAGAGAATTTTACGGATGGTGGAATTACAGAATTACAAACAAATAA	MNKATFEWKIEIEFWFVYHEDLDNLSIEEREILEKQAKESIFHFITKDGYTAGELCESIDDREFYGWWNYRITNK				NA	NA	NA	NA	NA
BMS003_02869	360			hypothetical protein	ATGAAAAATCCAAACATTTCAGCCAATGAATACTACAATCATTTTATAGGTACAGAATCCTACTACTCTTACCTTTTAGGCTTGTTATTAACTGATGGTGTCAAAACCATTGCAGATGAAGAACAATGCTATTGGTTCTTAGACTGCATTGCCTCTTACCAATTTGAAGAAAAATTTAAACAGGAAGAGTTCCAGGTGTGGAAAATCAAAAGAATGCAAGATACCAAATTCAAACTTACCGCAACTGACAGGAACAATAGTGTCCTCATTTCACAAGATATTGCATTTTCCGATTTCTTCTTTGATGAATTAACCATTTGGAAAGAAACGAATGTCTTACTGCTCCCGGGCGAACATTAG	MKNPNISANEYYNHFIGTESYYSYLLGLLLTDGVKTIADEEQCYWFLDCIASYQFEEKFKQEEFQVWKIKRMQDTKFKLTATDRNNSVLISQDIAFSDFFFDELTIWKETNVLLLPGEH				NA	NA	NA	NA	NA
BMS003_02870	192			hypothetical protein	ATGGCCAGAGAAAAAGTGGAGATTGGATTTTTTCATATCCAAAGCAAAGTAAGGCTAGATGTACCAGTTTTTGCAGATTATCACTTTCAGAGTGTGAAAATTCTAATTTTAATAGGACTATATATCAATTCAAATGTTGCTATGACAGCGACTGACTTAACCGTTAATTTGACAGTTTTAGAAAATGAGTAG	MAREKVEIGFFHIQSKVRLDVPVFADYHFQSVKILILIGLYINSNVAMTATDLTVNLTVLENE				NA	NA	NA	NA	NA
BMS003_02871	246			hypothetical protein	ATGGCAACAAGAACATATAAAACAGAAACTCTATTAAAAAGATTGGAAAATTACGATCAAAAATATTATGATGCAATCTGTAACCCGTCAAATATTGGCTTTGGTTATGGGATGCGGGCTTATCACGCTTTAAAAATCCAAAATCCGCCGGAATGGAAAATTCGGAGTAAGGCGGAAGTGGTAGCAGAAGAACTTCGAAAAAGAGGAGTAAAGTTTACTACTCATTTTCTAAAACTGTCAAATTAA	MATRTYKTETLLKRLENYDQKYYDAICNPSNIGFGYGMRAYHALKIQNPPEWKIRSKAEVVAEELRKRGVKFTTHFLKLSN				NA	NA	NA	NA	NA
BMS003_02872	579			hypothetical protein	ATGACAAAGAAACAAATATTAGAACAGTATTTTAAGAGTATTTCTTTAAACAATTTATTTTGGGATTTCTCTTACAATGGAAAGAATTACAGCATTTCAGATTATGTTCTGTCAAATGTTTTATTAAATACCTCTCATAAAAGTTGGAAGTCAGAAATTTTAGCACATTCAAAAGTTGTTGAATGTATTTACCTTATTAGAAATTATGATATGATAGGTTCCAGATTCAAAACGTTTGAGAAACTAAATTTTGATAAAGTGGAACAGATTAATGATGTTTTCATCTGTAAAAAGAATAATGAAATTGAAACATGGAGCAGTGGAAAATATTACACTGTTTCAGTAATACCCGAAGGCGAGGATTATAATAAGGCTTTTCTTCCTTATTTCGCAGATGTCACGGAAGACATCAACATTCCGAAAGAATTGAAAAGAAAAGGATTAAAACCAAAGATATATAAGAGCTGCCAGTTAATGACAAAAAAGAACGGTGGTTATTATTCTTTCTACAGCCATACTCAGAAAAAGGAATTATTAATCGCATTGAATTCCCACATTTATGAACCAATAAACAAGTAA	MTKKQILEQYFKSISLNNLFWDFSYNGKNYSISDYVLSNVLLNTSHKSWKSEILAHSKVVECIYLIRNYDMIGSRFKTFEKLNFDKVEQINDVFICKKNNEIETWSSGKYYTVSVIPEGEDYNKAFLPYFADVTEDINIPKELKRKGLKPKIYKSCQLMTKKNGGYYSFYSHTQKKELLIALNSHIYEPINK				NA	NA	NA	NA	NA
BMS003_02873	243			hypothetical protein	ATGAAAAAATTAGCAATAAAAACTCAAAATAAAGCCGGAAACGAGCCTAAATACAAAGAAAATTTAGGCTTGGTTTCAATCTTTATAAACTCTGAGGCATGGATTTCCATAGACCTGTTTGACGGATTTGGTGACTCCTACAGGCAAAGGGAAACAGAGGAAATCACGATTTCTGATAACGGAAACATTTTATTTAAAGGAAGTTTCAGAGAATTAATCCAAATTTTAAAACCTACATTATGA	MKKLAIKTQNKAGNEPKYKENLGLVSIFINSEAWISIDLFDGFGDSYRQRETEEITISDNGNILFKGSFRELIQILKPTL				NA	NA	NA	NA	NA
BMS003_02874	453			hypothetical protein	ATGAAAAATATGAACAACAATAGAAAAATGAATAGTAGAAAACCTGAACAAATAGAATTCTTCAGTTTAGGAAATGGAATCTCGGTATGTGATACCAACAGGGAAGTGAACGGAGATTATAAAAGAGTAGCCCATATATCGAAATATCGGGAAGTAGAATTTTTTGGTAAAATTTCAGATGAATCAAAAAATAAAATTTTACAGTATGCTAAAACGGCAAATCCTATGAGTTCTGCGGCTCAGAATGATCCCGTATTTATCAAAAAAACTTTCAAATATATGGTCCATTTTAAGGAAAAAGCAAGGGTTTGTTATGCCTATAATTTAGAACACGCATTTGCAGAAGCCGAGGTATTTGCAAGAAGATACAGTTTATTTCAAGACTTTATTATCAAAGAAACAGGAGAATTTATTGATAATCCACCTTATTTCGGCATAAGAGAACCTCTATAA	MKNMNNNRKMNSRKPEQIEFFSLGNGISVCDTNREVNGDYKRVAHISKYREVEFFGKISDESKNKILQYAKTANPMSSAAQNDPVFIKKTFKYMVHFKEKARVCYAYNLEHAFAEAEVFARRYSLFQDFIIKETGEFIDNPPYFGIREPL				NA	NA	NA	NA	NA
BMS003_02875	363			hypothetical protein	ATGCCACGAGTAAAAATAATAAATAAAGAGGAAGCTCCAGAAAACTTAAGCAATTTTCCAAACTTTCACAAATCAGGCAGTATAACCGGTATGAAAAAGCTTTACTACGGAAAAGATGCTCTTTTAGTAAGATGTGGGGATTATATCTACAATGTTACTTCAGAACCTAAGATTTACCACAATGCAGAGAAACTCATTACCTACTGTATTATATCCACAACTGATAATCCTCACATTGAAATTCTGAATGAATATTATCCAAAAGTTAAAAATGGAGCTTTTGCAGAAGTAACAAATAATTCAGGAATGAAAAAGAAATTCCTTTTTGAAAATAACCAATGGAATGTGATTGATGCAAAATAA	MPRVKIINKEEAPENLSNFPNFHKSGSITGMKKLYYGKDALLVRCGDYIYNVTSEPKIYHNAEKLITYCIISTTDNPHIEILNEYYPKVKNGAFAEVTNNSGMKKKFLFENNQWNVIDAK				NA	NA	NA	NA	NA
BMS003_02876	213			hypothetical protein	ATGAAAAATATATCAGCTACGATGGCAGCCAAAGATTTCAATATAAATGAAACCTATATGGAAAGTGATTATTACCTCTGTAAATGCGTAAGAAAAGGAAAAGTTCTTACTGCTGATTTTGGAACAGAATATCAGGAAATCCACTTTGAAGTATCAACCAGAACAGGCAGGTATATTGGAATTGAAATAAAGAAAATACCAACAATAAAATAA	MKNISATMAAKDFNINETYMESDYYLCKCVRKGKVLTADFGTEYQEIHFEVSTRTGRYIGIEIKKIPTIK				NA	NA	NA	NA	NA
BMS003_02877	411			hypothetical protein	ATGAAAACAGAATTTGAAAACTTACAATTTATCAGTGAATATTTCAAGAAAGTTCTTCAAGAACTTATGAAAAATGGCTTCATACTAATAATCCCGGAGCCTACAAAAACATTCAGAAAAACCAATTATGCATATTTCTCAGATGGTGACAAGATCGCCTATCTGCAACAGGAAACCAAATACCGTGAAATCAGTATATCAAGCGTTCATAAACCTTCAAAGGAGGTGGGAACCGGATTCAGGTTATCAGATGAATACAGCCTAGAAATAGCAAAAGAAGCATTAGTAACAGTTTGTCCAATATGGGCTATAAACAGCAGAAATCATGTCATCAAATATGAAAATCTCAAAGAGTTTATGAAATCCGGCACTCAAAGCTGGCATCAATTAAACATTTACCCTGAAGAGTAA	MKTEFENLQFISEYFKKVLQELMKNGFILIIPEPTKTFRKTNYAYFSDGDKIAYLQQETKYREISISSVHKPSKEVGTGFRLSDEYSLEIAKEALVTVCPIWAINSRNHVIKYENLKEFMKSGTQSWHQLNIYPEE				NA	NA	NA	NA	NA
BMS003_02878	642			hypothetical protein	ATGAGCACCAACATCCAGCAAAATTCTAATGAGACTGGCCGAATTACCGGCAGGAAATATTCGAATCCAAATGCTTCAGATCAAAAAATCATTGATATGACCAATCAATTTTATTTGGAAATATCGAAGAATATTCTTTCAGAAAGAGAATTTGAAATGATGGAGAAAATTTTGATCGAAAAATGTCCTTTAGAAGAGCTTTCTCAAAAATATGAAGTAGGAATTGACCGGATAAGACAAATTTATAGAAATACTCTTCATAAAGTAAAAATCATTTCAGGATTATTTCAGGAAATTACCCGTCTAAAAGCAAAAAGAAATCAATTGAGAAAGGAATATGTTTCTGAGTACAAAAAGCTCTCGAGAAAAAATTTCCAAAGCTCGGACATGGATATGCTAAGCAAGAAAATTATCAATAGCTGTTTCCCTTTTAGTGGCAGGTTGTGGAGTATTTTACAGACAATGGAACTAGAGACCCTGGAAGATCTTTGTTCAATTCCAATTAGGGATTATTTGAAATACAGAGGTTTCAAAACAAAATGCATTACAGAACTTATCCAATTTATAGAATTCGAGAATCTAGAAGATCAATTTGATGGGTTTTATCAATTTAAGAAAAAGTATTTTCCTTCATCTGAATGA	MSTNIQQNSNETGRITGRKYSNPNASDQKIIDMTNQFYLEISKNILSEREFEMMEKILIEKCPLEELSQKYEVGIDRIRQIYRNTLHKVKIISGLFQEITRLKAKRNQLRKEYVSEYKKLSRKNFQSSDMDMLSKKIINSCFPFSGRLWSILQTMELETLEDLCSIPIRDYLKYRGFKTKCITELIQFIEFENLEDQFDGFYQFKKKYFPSSE				NA	NA	NA	NA	NA
BMS003_02879	1197			hypothetical protein	ATGATAACAATTGATAATTTAACTGAAATGGTAAGCTTTGGGCTTAAAACAATCCATATTTTTAATACTAATTGTAAAGAAATAAATGTAAAAGATGTTTCTCTACTTAATGAAGATACTCTTTCTTGTAGTTTCTACCCTGTTTCAGGTAAATCCACTGATATTAAATTGGAAATAGCTACAATTATGGGATTCTTCAATGGATTTTTTAGAGATACTAATTATGAAAATATTAATCTCAATTATTATACGGTAAGGGCGTATGATAATAATGACACCGAAATATTGTATGCGTTATCAACTAAATCCGCAGCAGAATGTATAGGAAAGGGAAAATCAATTGAATGGCTTAAATTAACACTTTTTCAGGAGAATACGGAAGACTACCGCCTTTCCCAAGCAAAACAAATAATTTCTGAAATTGAGAACGGTTTGAGAGAAATTGTAAAAGCTAAGCTCCAAAATAAGTTCGGTGAAAACTGGTGGGATATCGGACTTAACAACAAATTGGGAAAAGATGTTAAGGAAGTTTATTTTAATCAGTTTGGGATTGAGTGTATAGATGGTAATATTTTGATTGCATACACGTTTACACTGCAACTAAAAAAAATTATTTTAACACACTTTAATTTATTCAAATCTTATTTTCAAAGCCCAACTCAGTTTGAAAGCTCAATGGATCATTTAAATAAATTAAGAAGAGAGGAAGCGCACAACAGATCTATATCAGATATAGATTTGGAAAATCTTAGAATGTTGCACGAAAAATTACTATCTAAAGTTTTACTAGATTTGACATCTTTTCAATCTGTTTTCTTAACTGAAAACTGGAGAATAAAAATTAAAAAAATCATGAATGAAAGACAATATAAATCAGTTTATAGTGAACCTGAAATTCAAAATGAATTAGATGTTAAACAGAAATTACTTAAGATTAAAGAAAATTTAATCCACATAATTTCCTATTTAAGTGACACAGTGATAAAACTAAAATCTATTACAGTACCTATTCATAAAAAAGACATTCATAATGAATTATTATTCTGTTTTGAAAGGTTTAAGCAATTGCAGGAAGCTTTATTGGATCAAACTCTAACCTTAGATAACGAAAAAATAAATTCTATTGTCCATGAAATAAAATTGCATCAAATAGAAATGGATAAATTTTCGACAAAGATCTTGTTAAGTGAGAACTAG	MITIDNLTEMVSFGLKTIHIFNTNCKEINVKDVSLLNEDTLSCSFYPVSGKSTDIKLEIATIMGFFNGFFRDTNYENINLNYYTVRAYDNNDTEILYALSTKSAAECIGKGKSIEWLKLTLFQENTEDYRLSQAKQIISEIENGLREIVKAKLQNKFGENWWDIGLNNKLGKDVKEVYFNQFGIECIDGNILIAYTFTLQLKKIILTHFNLFKSYFQSPTQFESSMDHLNKLRREEAHNRSISDIDLENLRMLHEKLLSKVLLDLTSFQSVFLTENWRIKIKKIMNERQYKSVYSEPEIQNELDVKQKLLKIKENLIHIISYLSDTVIKLKSITVPIHKKDIHNELLFCFERFKQLQEALLDQTLTLDNEKINSIVHEIKLHQIEMDKFSTKILLSEN				NA	NA	NA	NA	NA
BMS003_02880	807			hypothetical protein	ATGAATAACAACAAAATAAAAGTGCATTTTACAGATAATTACCTGATTAATTCTACAAACCCTGTCACCATCAACCTAATCGGTGCAGGGGGAACGGGCTCAAAAGTATTAACTGCATTAATGGAAATGAATTACAGCCTGATTCAATTGGGACATGCAGGGCTACAAGTGCGGTTGTGGGATGATGATCTCATTACCGAAGCTAATTTAGGGAGACAGCGTTTTGCAGAATCGGAAGTAGGGTTATACAAGTCCGTTGCCTTAATCAACCGTGCTAACCGCTGGATGGGAACAAACTGGAAGGCAGAAACACAAAAATTTAAAAAGAGTGAATCTGGAAAACTTTCTGAAAATATTCTTTCAAATATTTATATTTCCTGTGTTGACAGTGTGAGTGCAAGATTTGAAATAGCGGATATATTAAAAAGTCTGAATAATGGCAGATATTATGCTGATCGTCCCCTCTATTGGCTAGATTATGGGAATAATAAATTTACAGCACAAGCAATATTAGCTACCATAGGAACAATCAGACAACCCAATTCCGAGAAATATGAAACAGTGGAGCAATTACCTTTAATCACTGATGAATTTGGAAATTTGTTAAAACAATCCGAAGAGTCCGATGATACGCCTAGCTGTTCATTGGCAGAAGCACTGGAAAAGCAGGATTTGTTTATCAACTCAACATTGGCACAAATGGGAAGCTCTCTGCTTTGGAATCTGTTCCGTAACGGATTAACCGAAAACAGGGGATTTTTTCTGAATTTGAAAAATTTTCATAGCCAACCTATAAAAATTGCATGA	MNNNKIKVHFTDNYLINSTNPVTINLIGAGGTGSKVLTALMEMNYSLIQLGHAGLQVRLWDDDLITEANLGRQRFAESEVGLYKSVALINRANRWMGTNWKAETQKFKKSESGKLSENILSNIYISCVDSVSARFEIADILKSLNNGRYYADRPLYWLDYGNNKFTAQAILATIGTIRQPNSEKYETVEQLPLITDEFGNLLKQSEESDDTPSCSLAEALEKQDLFINSTLAQMGSSLLWNLFRNGLTENRGFFLNLKNFHSQPIKIA				NA	NA	NA	NA	NA
BMS003_02881	714			hypothetical protein	ATGAAAGATATAACCCATCATTTCGGAACATTATACCATCCTGTTTCAGCATTGGTCATTTATCAGGCTAACGATGATGATAATGGGGACACCTATGTGGAGCATTTTGACATGGATAAAAACGGAAATCCCATTAATGCTCACCCTCTGAGTGAAAGGGAAGCTAAAATATTGGCAAAATCCCTTAATACGGAAAAAGAAAAAAGCAAAACATTTTTAAAACCTGAAAGTATTCTGCCCACCCATGTTCTATATATCAATCCTACCGAAAAGGGTTCAGTGATATGGTATACCAAAGCCAAAAAAGTAAAACTATTCTTTACCGAATCCCTTGAAATTCCTAATGGTGTAGCACATACTCCACCTATGCTGTGGATGGCTTCAAAACAGCATCTTACCGTATTTGCTCTCACTTCAGACAAAAGACCCACAGAAAAAACAGTTTTATTTCATGCTCCTTTTTTTAATGTCTATGAAAACGGAAGTGTCTGTATGGGAACAGTCAATGTAGATATTAAAAATTCAGCATCGGTTGAGGAATTTATTCGCGCTTGGGAAAACTATTTTTTTAACAGCAGGTTCAGCCATTTAAACCATAATCCTACCAATAGCAACTGTGTAAACCTTTGGAAAGAGCTCGTTAATACAGACAAAACCTTTCCAAAAGAAATATTAAAAAAAACTAATAAAACCCTTAAAAATTTACTGCCATGA	MKDITHHFGTLYHPVSALVIYQANDDDNGDTYVEHFDMDKNGNPINAHPLSEREAKILAKSLNTEKEKSKTFLKPESILPTHVLYINPTEKGSVIWYTKAKKVKLFFTESLEIPNGVAHTPPMLWMASKQHLTVFALTSDKRPTEKTVLFHAPFFNVYENGSVCMGTVNVDIKNSASVEEFIRAWENYFFNSRFSHLNHNPTNSNCVNLWKELVNTDKTFPKEILKKTNKTLKNLLP				NA	NA	NA	NA	NA
BMS003_02882	1200			hypothetical protein	ATGATTTTACCCAATATTAATCACAAAATTATTATGAATACAACGAAAAATCATATCGGGAAAAATACAGCTTCCCGAAGAGAAAAAACAAAAGCAACTGCACAAACAGTTGGGAGAGTTCGCCCATTGGATGCAAAGACCAAAGGATGCCAGCGAAATACAGAAAGACAAAATGAAAGCAGTACCGACAGCCATGCTACCCATGCTTTTTTAAACTGTTCGTTCCTGCCCAAACTAAAAGACACACCATCCGTACAGGCTTGGGAGGAAACAGACCAAATGGAAAGGGATTTTTATCAGTCCCTTTCCCAATTGGCTGAACATTACGGAATCACACCTGCACATTCAAAACACTTAGGTTTTCCTTACAATATTGCTTTTGCTTTAGAGGATATCAAAAAGCAGTTAAAAATTAAAGTTAAGAATTGGGAGAAAATCCGTTTGATCCAGGATAAAAAGAAAACGTATTTGTTGAGTGAAGAAAGATATAATACAGGAGCAACATTATATTACATTCCAATCGTTCCACTGTACCGATTATCTAAAAATCCCAATTATAAACAGGCTGCACAGCTTTTGCAGTCCGTTTGTTCCTATCTGTATCACATTGCAGATGTCCCTTATTACAGACAGCAGGACAGCTACCTGTGCTGGATGTACGAAATGATCTCTGAGTGGATCATCTATGATGAAACCGAAGATACCCCTGAATATTTACATGAAATAAAACAAAGTGAATGGATTGGTGACTATATGGAACAAAAAATATATAATCCACAGAATTTAACCTTATTTAAAGAGAGGATCAACCGTTTTGAAAATAGAGATTCATTTGAAACCGATTGTCTCCTTTTAGCCTGTGATACCCTTGCTCTTTACGAAATGTTTCCTGATGCTACTATTTACCGAAATATTCAGAGGAAGGAAAGAAATACAAGTAATGACGACTACGACGAGGATTATCATGAAAGAACCATCACAATGGAAAAATATGTTTCATTCTGTGCAGATGATAAAGGAATATTATTTCAGACTTTATTTGATTCTGTTAATGCTGAATTTCAGGAATGTATGGAAATAGAAGAACCATCCATTGAAAAAAGATTTGACGGAACAACTGTCAGCAATAATAACCTTGATTTTGAAAACTGCATTTTTCCTTTGATAGAAAGACTAATCGATATTCTGAACAGCATTTAA	MILPNINHKIIMNTTKNHIGKNTASRREKTKATAQTVGRVRPLDAKTKGCQRNTERQNESSTDSHATHAFLNCSFLPKLKDTPSVQAWEETDQMERDFYQSLSQLAEHYGITPAHSKHLGFPYNIAFALEDIKKQLKIKVKNWEKIRLIQDKKKTYLLSEERYNTGATLYYIPIVPLYRLSKNPNYKQAAQLLQSVCSYLYHIADVPYYRQQDSYLCWMYEMISEWIIYDETEDTPEYLHEIKQSEWIGDYMEQKIYNPQNLTLFKERINRFENRDSFETDCLLLACDTLALYEMFPDATIYRNIQRKERNTSNDDYDEDYHERTITMEKYVSFCADDKGILFQTLFDSVNAEFQECMEIEEPSIEKRFDGTTVSNNNLDFENCIFPLIERLIDILNSI				NA	NA	NA	NA	NA
BMS003_02883	219			hypothetical protein	ATGTTACTCGCAACCCAATTAGAAAGAGTTTTCATCCTGAAAGATAACGGACAGGAAATCAGATTAACAGACCCCGAACCCAAATGGAGTGTTGAAGCCGTCATGAATTTTTACGCTAATACATATCCCATCCTAACAACTGCAAAAGTATCTGCACCACAAATCAAGAATGACACGGTAGAATACCGTTTTGAAAGTGTAATGGGTACGAAAGGCTGA	MLLATQLERVFILKDNGQEIRLTDPEPKWSVEAVMNFYANTYPILTTAKVSAPQIKNDTVEYRFESVMGTKG				NA	NA	NA	NA	NA
BMS003_02884	615			hypothetical protein	ATGCAAACCAATTTTTTCAATCTGATAGCCAAAATGGATATTAACAGTAAGCTGATTCTAACCATTGCCAGAGCCAACGAAAGTCAAATAGTGGCTTCCATATTAGTACAAAATGATGGATGTGGAGATAAAGCAAAAAATATCATTCCTCCTCTTAACCTTAAAGGAACGGCAGACGAGCTTGATGCCGGATTTTTTGAACACATTAAAGCCCCATTACAAACCGCTTCGGGACTGATGTTCGATATGGAAAGCTTTATGAAGCAATTAGAAGAAGCCAAAAAGCAGTCGGCAATGGAAAAGGAAAAATCCGACAAAGAGAAAAAAGAGAAAGAAACCAAAGAGAAAAAGTACAAAGATGCTTTTGAGAAAGCCGAAGAATTGGAGAAAGAAGGCAACTACAAAGGTGCATGGTCAGCTTTACCAAAAGCTTCGGAATATCCCGACTATGCAGACATTATCCGTAAAAAACAGGATGAATATGAAAGACACTTTGCCCCAAGCCTGTTTAATACAGAAAGTGTAGAAAATATCGAACAGAAACAAGAGCATGAAGAGGAACAAGAACAGGAAGGAGAAAAGAAACATGAGCATGAACAAAATTTTCAAACTTAA	MQTNFFNLIAKMDINSKLILTIARANESQIVASILVQNDGCGDKAKNIIPPLNLKGTADELDAGFFEHIKAPLQTASGLMFDMESFMKQLEEAKKQSAMEKEKSDKEKKEKETKEKKYKDAFEKAEELEKEGNYKGAWSALPKASEYPDYADIIRKKQDEYERHFAPSLFNTESVENIEQKQEHEEEQEQEGEKKHEHEQNFQT				NA	NA	NA	NA	NA
BMS003_02885	459			hypothetical protein	ATGAAACTATCAGATATACCAACACCCTATTTAATGATAAAAGCCAATACCAACAGCGAATGGGATTACTGTGACTTCGCCATCATTTCTCTTTCAGAGGACTGGAAAAAAGAACAGCAGAAACGGATTGAAAATATTAAACCTTTTTCTGATGATTACATGCTTCTTTCGATGATGTACAGTGATGCATCCATTACATTTTATAAGGATGATAATGAGATATGCCTCGATTCCACAGATTTATTAGAGGATAGAATATGGTCTTTTGTGGAACTGGACGAAGAAACACTGGAAAAGCTATCCGTACCTGAAAACAGATTGACATCCCATACACTCCATGTATTTAAAAGTGGTTACGCCCTGTACCAGACTTACGGTAAGCATACAGGCGAAGATTTCTGGACAGAAGATTTTCCCTTAGAAGAACTTATAAAAAATGACACCAACCTTACAAATTAA	MKLSDIPTPYLMIKANTNSEWDYCDFAIISLSEDWKKEQQKRIENIKPFSDDYMLLSMMYSDASITFYKDDNEICLDSTDLLEDRIWSFVELDEETLEKLSVPENRLTSHTLHVFKSGYALYQTYGKHTGEDFWTEDFPLEELIKNDTNLTN				NA	NA	NA	NA	NA
BMS003_02886	207			hypothetical protein	ATGAAAACAAAATCAAAATCCGAAGCCAAGAAACTGGCAAAAGCATACAGCTATAACAAAGATTACGCAGATGTACCTGTATATATAATTTACTGTAACCGATCAGAAAAGTATTATGTAGATACAAACAGCCTGATACGTCTTTGGGAAACACTTATCGGCTACTACATTAATGGGTTTTTTACCTCTGTAAAGAATAATTCATAA	MKTKSKSEAKKLAKAYSYNKDYADVPVYIIYCNRSEKYYVDTNSLIRLWETLIGYYINGFFTSVKNNS				NA	NA	NA	NA	NA
BMS003_02887	210			hypothetical protein	ATGGAATCACAATATAATTTTCAGATGAAATCCCGAAATGACCGAACAGAGTGGGAGCAGGTAGCAATATACTTCAAAATCCATTGTGACAGGACAACAGCGATACACTATGCAAGAAGCTTGTCATTGAAATTTGGCAAGGAAATCCGATTGACACAGGGTGCAGACCCCTTGAAAACAAGTGGAACATATATCTATGAAAAATCCTGA	MESQYNFQMKSRNDRTEWEQVAIYFKIHCDRTTAIHYARSLSLKFGKEIRLTQGADPLKTSGTYIYEKS				NA	NA	NA	NA	NA
BMS003_02888	402	ssbA	COG0629	Single-stranded DNA-binding protein A	ATGAACACAATTGTCGGTAGAATTACCAAAAACGCAGAAATCAATACCTTGAAAAACGACAGACAGGTTGTGAACTTTTCAGTAGCCATCAATGACAGCTACAAAACCAAGCAGGGAGAGCGCAGAGAACTAACCACGTACTATAATTGCTCATACTGGCTAAGCCCGAATGTTGCCAAAATCCTTACCAAAGGTGCATTGGTAGAATTATCAGGTAGAGTGAGTTCAAATGCATGGATTGGGAAAGACGGAGAAATCCGTTCAGGACTGAACTTCCATACATCAAGCATTAAGCTACATGGTAGTAGTGGAAAAAATTCTGAAACCAAATCGAAACAAAATACAAAGGAGGAAACAGATAACCCTTTTGCAGGGGATACGGATGATGATTTACCATTTTAA	MNTIVGRITKNAEINTLKNDRQVVNFSVAINDSYKTKQGERRELTTYYNCSYWLSPNVAKILTKGALVELSGRVSSNAWIGKDGEIRSGLNFHTSSIKLHGSSGKNSETKSKQNTKEETDNPFAGDTDDDLPF				NA	NA	NA	NA	NA
BMS003_02889	225			hypothetical protein	ATGCCAGGATTGGGTTTTAAGTGCCTGATCCTGAACTATGCTCATTGGCAAAGAAAAAAGCCGGAACCTCAGTTAGACGAATCAATTAGATCACAGACGTTCTTTGACATCAACGGAAAAACAAAGGAAAAACAAGGATTAATACTGCCTTTTCTATTTAGAATAAAGTATTTCAAAAAGCCGAGTGTCCTCGATACCAAATCAATTGACCTCGAAAATTTATAA	MPGLGFKCLILNYAHWQRKKPEPQLDESIRSQTFFDINGKTKEKQGLILPFLFRIKYFKKPSVLDTKSIDLENL				NA	NA	NA	NA	NA
BMS003_02890	177			hypothetical protein	ATGAAAGAACTATTAGAAAAAATTAATGCGGAATTCGAGGCTTTTAAGACGGATTCAGATCTTCAGGCAGAAAAAGGAAATAAGGCAGCTGGAATGAGGGCTAGGAAAGCAGCTTTGGAATTAACCAAGCTTCTGAAGGATTTTAGAAAAATTTCCGTCGAAGAAAGTAAGAAATAG	MKELLEKINAEFEAFKTDSDLQAEKGNKAAGMRARKAALELTKLLKDFRKISVEESKK				NA	NA	NA	NA	NA
BMS003_02891	606			hypothetical protein	ATGATTTCACTCAATGAAAAAGTAAGACTTAATGAAATTATTGATCTAGCTTGGGAACTTTTATTTGAAAGTATTATTTCAGGTAAACTTTTAATTAATAAAGAGTCCTCTTTGCAACTTCATTTATCAAAACTTATTTTTGATTTAGGCAATTTGTATTGTATTCTTCCGGAAGAGACTTTTAAAATTGAAATGGAAACTAATTATGGAAATAAGAGTATTGATATAGTTTGTGGTTTTGGGCAAACCAAAGCTGCAATAGAGCTTAAATGTTTTATGAAAGCAAGCAAAAGGGCTAAAGATTTAGATTGCTATGATGTATTGTTGGACATAGAAAGATTACAACATTTTGAAGGGTTTGACATTAAAAAGTTTATATGCTTAACTGATAATAAATATTATCCTCAAACTTTGCAGACTGGTCACGGAAAGACGGTTACATTAAATAATGGAACCGTTTATATGGCAAATTATGAAATAATTCCCGGGTGGGCAGAAAAATGGAAAGTTAAACGAGACAAGCCTATCGTTTTTAAAAAAGATGTCACATGCAATTGGGTCTCCAGAGAACAGTGGCACTTTTTAAAAGTAGATATAGATGAATAA	MISLNEKVRLNEIIDLAWELLFESIISGKLLINKESSLQLHLSKLIFDLGNLYCILPEETFKIEMETNYGNKSIDIVCGFGQTKAAIELKCFMKASKRAKDLDCYDVLLDIERLQHFEGFDIKKFICLTDNKYYPQTLQTGHGKTVTLNNGTVYMANYEIIPGWAEKWKVKRDKPIVFKKDVTCNWVSREQWHFLKVDIDE				NA	NA	NA	NA	NA
BMS003_02892	264			hypothetical protein	ATGGAAGAATCAGCGAAGTTTCCGGAACAAGAGAAAATAATTGAACAGGTATTGAAAGATGTCGAATTGCAAACTGGTATTAGTAGATCGGATTTTGTTTCAAACTCAAGAAAGGGAAGCTATTTGGAAGCAAGAAAAAAAGCCACAGAGTTTTTAATTAAAGATGCTCACCTATCCGATGAAGGGATAGCAAAAGTTTTAGGTATTTCTAAAAGTACAGCAAATACATATAGAAACAGCCTTCGTTATCATCGAAAAAAATAA	MEESAKFPEQEKIIEQVLKDVELQTGISRSDFVSNSRKGSYLEARKKATEFLIKDAHLSDEGIAKVLGISKSTANTYRNSLRYHRKK				NA	NA	NA	NA	NA
BMS003_02893	528			hypothetical protein	ATGACAATTACCGAATTTGTTACAGAATGTTCTTCATTAGACTCTCCAATAGGAGATTTAGCAAATGATATTACAGCAGACAAAAATTTTCCTTTCGATAAATCCAACAGGGAAATTTTTGAATATTTGGATTCCCAAACGAGACGTGGTGGAACAAATGACACTTTTCAAAGTTTTTTTGTTGAATTCCTGAAAAAGAATAATGCAACTCTGAAATTTATTTTAGATTATTTTAAAAAGAATAATATCCAATCTATCGAGGATGCAACCGATAAAAATGTAGCCATGCGTTTTATAGAGCCTTGTGGTTATATGGTAACAATACCTTTAGGTAACCAATATCCGGAAACAATAATGAAAGATATGGATGAGCTTAAAATTCTAAACAGGCAGCCTTTTGATCTTGCTGATGGGGGCCAAATAGACAGCTATATGATTGATAATCCCAATCTAGGAATGGAGGGAATGACTTTACGTTTTTGCTGTCAAGAGTTTCAATTTGACTTCTTTCTTTCTCACTTAGATTAG	MTITEFVTECSSLDSPIGDLANDITADKNFPFDKSNREIFEYLDSQTRRGGTNDTFQSFFVEFLKKNNATLKFILDYFKKNNIQSIEDATDKNVAMRFIEPCGYMVTIPLGNQYPETIMKDMDELKILNRQPFDLADGGQIDSYMIDNPNLGMEGMTLRFCCQEFQFDFFLSHLD				NA	NA	NA	NA	NA
BMS003_02894	837			hypothetical protein	ATGAATTGTGAAGAATTTAAAAAGAATATTGGAATCAGGACAGTCTTAGAATCTTTTAATCTGTTTCCAGTGAAAGAAAATTTACGGACTGCTTTCTATTTTGCATTGGACCGGGAAGAAAAAATGCCCAGCCTTTCGGTGGATTTTATAAAAAACAAGGCATTCGACTTCGGAACAGGAAAAAGTTACGATGTGATCTCAATTGTCCAAACCATTAATAGATGCTCGGTCTCCGATGCTTTAAAATACCTTGGAAAACTTAACTTTTCACATGAAAGAACTGAAAAAAACAGTAAGGAAGGTCCGCAAACACTGACTTATGAAGTTTCAAAAATACATGAAATTACCCATCCCGCTTTAGTCAGGTATTTGACAGAAAGAAAAGTTCACGAGCAGAGTCATTTTATAAAGGAAATCCATTTTCGTTTAAGATGGAAAAATTATTTCGGAATAGGTTTTCTCAATGATTCCGGAGGCATAGAAATTAGAAATCAATATTTCAAAATCTGTTTAGGAGATAAAGATGTAACCCTGATTGAAAATAAGGCAGATGAGATTGCTGTTTTTGAAGGCTTCTTTGATTTCCTGACCTATATGAATATAGAAAATGAAAAGGACTCTAACTCAGATTATCTCATATTAAATTCTACAGCAATGCTTTATAAAGCTGAAAAGAAACTAAACAGATACAATAAAATTTCACTTTTTCTGGACAATGATTCCAATGGAAAAATGACCACTGAAAAAATGATAATAAAATATGAAAATGTAGAGGATTGTTCTCTAATTTACACGGGTTTTAAGGATCTTAATGAGTGGTTATGTCAAAGGAAATAA	MNCEEFKKNIGIRTVLESFNLFPVKENLRTAFYFALDREEKMPSLSVDFIKNKAFDFGTGKSYDVISIVQTINRCSVSDALKYLGKLNFSHERTEKNSKEGPQTLTYEVSKIHEITHPALVRYLTERKVHEQSHFIKEIHFRLRWKNYFGIGFLNDSGGIEIRNQYFKICLGDKDVTLIENKADEIAVFEGFFDFLTYMNIENEKDSNSDYLILNSTAMLYKAEKKLNRYNKISLFLDNDSNGKMTTEKMIIKYENVEDCSLIYTGFKDLNEWLCQRK				NA	NA	NA	NA	NA
BMS003_02895	1089			hypothetical protein	ATGTCATTTCATGAAACTGAACTAAAAGTTATCCGCAAGGCATTTGAGAATACAAAGCTTCAACAACAGATAAGGCTTGGTAACCATTTTGTAGATGACTTCATATTTGAAGATCAAAAAGCAGCTGATATTCCAATAAATGCATTACGGGTAATTTTTAACATTATTTCCATTCTTAGCAATGAGCAGTTCCGTCCTGAAGACCGCCCGAAACAATTGTCATTATTTGATGAAGAATTTGAGACCCAAAACAATGTCTTTGCTTCCATGAAAATCAGAAACAATAAGATTTCTCCAAGTGGATCAACCAGACAGGTTATTGAAGCCTATGAGTTTTTGGCAAAATTCAAAATGGGCTGGTATAAATCTGTTAATTCCAAAGGAAAGGAAATTAGAACTTTTGGAGGACTGATTTCAACTCCGAGCTATGATCAAAGAGGATATACATCTTTTCTTATCAGCAGCTATTGGCTGAAAAAACTTATTGTTATTCCGGAATATAATTATGTTCTCTATAACCTCGTGTATAATATCAAAAATAATAAACATATTATTTTTGCAATCTGGCTTTCCAAGCTACCTGAAAATGGAACGGTTTTAAAACTAATTACTTTCAATGAAAAGTTTGGGTTAAACTATAAAAATGCCAATGATTTTTGTTTCAAATTTCTTAAACCCGTAAGAGCCAATCTTGATCGGTTTAGCAATATATCCTTTAATTACAAATATCTCTCAGATAATATATTTATCCATCCGTACCAAACAAAAAATATTGCAGGAGAAACCTCATCTACTGCTGATACAAATTTAAAAATTACTTATCGTTTGGGGTATTTTAAAAAGAAGTATAAGTTGAATGAACAGGAAATGCTGAGATTTTCCTATCAATATAAAAGCATTCCACAGACAAGAGAACTTATTGAAAAAGCTTACTGCTGTTTTATAAGAAGTAACAGACAAAAGAAACTAAAATCATCACACTTCCTGGGAAAGTTATTTTTAGAGGAAATCCAGAAAATAATTATTGAACTGTACAAGGAAACAAAAATGGGAAAACTGCTTCCTAACGGATACCCCGTAATCTTATGA	MSFHETELKVIRKAFENTKLQQQIRLGNHFVDDFIFEDQKAADIPINALRVIFNIISILSNEQFRPEDRPKQLSLFDEEFETQNNVFASMKIRNNKISPSGSTRQVIEAYEFLAKFKMGWYKSVNSKGKEIRTFGGLISTPSYDQRGYTSFLISSYWLKKLIVIPEYNYVLYNLVYNIKNNKHIIFAIWLSKLPENGTVLKLITFNEKFGLNYKNANDFCFKFLKPVRANLDRFSNISFNYKYLSDNIFIHPYQTKNIAGETSSTADTNLKITYRLGYFKKKYKLNEQEMLRFSYQYKSIPQTRELIEKAYCCFIRSNRQKKLKSSHFLGKLFLEEIQKIIIELYKETKMGKLLPNGYPVIL				NA	NA	NA	NA	NA
BMS003_02896	735			hypothetical protein	ATGGAAAAATATATTTTTGAATTTCACAAAGCGATAGCTGACTTCCATAAAACAATTAAAGAAAAGTACAATCGTTTTCTGGAGTCAAAATTTTTTTGGTTTATAGCTTTACTTATTATTCCTACTTTCTTATTACAATATAATTTATTCTTTTTTAGAGAAAGCCGTTATTTCTTTGTAATCTATCTTTTATTGACTATTATTATTCTTGGCTTGCTGATGCCTCCTATAATCTATAAAATTAAAGGTCTGGATTTCTTTATGCTCAAAAAGAAATATTTTCAAAAAGAAAAGATAAAATCTGCCAATGAAGAATCGATAGTAAATTCATTTAGCGAAGAGCTGACAGAATATCTTTATTACATTATGCATGATGAATGCCGCATTCTGGATATTACCCTTGTTTCAGATAAATTTGACGGCTTACAAAATCATCCCAATCTATTCTCCCAAAATTATATTGTGGACTGCGTGAATAACCTGAAGATTTATAAACATACAGATATGTGTATTTATTTGACTTGTGACCAGAAGGTAGCCGGGTTTATTATTCACGAAATATTCAGGCCTCTTTTAAAAATTGAAACAAAACAGTTGTGCAATTATTTTTATTATTATAAAAACAATGAATTCCGTAAAGTGAATTATGACTCAATTAATTCCACCTCTAAAAGAAGGGAATTGAATAAAGTCAAGTCTAGAATCCAAGAACTCCTATCGAAAAGTTATGTTTAA	MEKYIFEFHKAIADFHKTIKEKYNRFLESKFFWFIALLIIPTFLLQYNLFFFRESRYFFVIYLLLTIIILGLLMPPIIYKIKGLDFFMLKKKYFQKEKIKSANEESIVNSFSEELTEYLYYIMHDECRILDITLVSDKFDGLQNHPNLFSQNYIVDCVNNLKIYKHTDMCIYLTCDQKVAGFIIHEIFRPLLKIETKQLCNYFYYYKNNEFRKVNYDSINSTSKRRELNKVKSRIQELLSKSYV				NA	NA	NA	NA	NA
BMS003_02898	3189	tri1_2	COG0793	Tricorn protease	ATGAAGAAAACCATTATTTCGTTATTAACAGCATTTTCTATTATAGGGATTTCGGCGCAGGAAAAATCTTATTTCTTATCAAGTCCATCATTGAGTCCTGATGGAAAAACAGCATACTTTGCCTACGATGGTGATATCTGGAAAGCAGACTCCAATGGAGGAAACGCTTCAAGAATTACTGCCCTGGACGGAGAGGAAATCAATCCCCGTATTTCACCTGATGGAAAATGGCTAGCATTCAGTTCTAACCAATATGGAAATTATGATGTTTACGTAATGCCTGCCGGAGGAGGAACAATCAAGCAATTAACCTTCCACACCGGAAGAGATGAAATGGAAAGTTGGGCTTGGGATAGTAAAACCATATATTTTACATCCAGCAGAAATAATAATTTCGGAAGTTTCAAAACGACAATTGAAGGAAAAACACCACAAAGACTTTTTAATAATTATTTTAACAATACCAATGGCCTTATAGAGACCCCTGCTGGAGAATATCTTTTCACCAGCTCTTCTGAAAGTGCTTATCAGGTTCAGCGTAAGCGTTATAAAGGTGAAAACAACCCTGATATTCTTGGATATAACCCCAAAAGCAATTCTTTCAGAAAGTACACCAACTATGAAGGAAAAGATTTCAATCCGAGTGTAGATAAAAACGGTATTATTTACTTTATTTCTGACGAAAATAATGGAGAATATAATCTTTACAAAATCGAAAATGGCAAAAAGACAGCTTTAACACAATTTGGTACTTCTATTAAAAAACCGTTTGTTTCAGCAGATGGCTCTAAAGTTATTTTCGAAAAAGATTATCAGCTTTACACGTATGATGTTGCCTCAAAGAATACGACTCTTCTAAACATCAGCCTGAACACTAATAAGACACTGGAAAAAGCACAGAATTTCAATGTCGAAAATAATATTTCCTATTATGATGTATCTCCGGATGGCAAAAAAATGGCATTCATAAGCCGTGGTATTATATTCGTTTCAGATATTGAAGGGAAATTTATCCAACAGATTTCTGACGGGAAAGAACGTACCATGGAAGTGAAGTGGCTGAAAGATAACCGTACTTTACTCTACAGCCAAACATATAACGGCTATCAAAACTGGTTTACAATTCCGGCAAATGGAAAAGGCCAGCCAAAACAATTAACGGAAGATTTACGAAACAACCGTAATATTACTTTGAACAATGATCTTTCAAAAGCAGTTTATTTAAGCGGAAGAGATGAAGTAAGACTATTGGATTTAAAAAACTTCAAATCTACAACCATTGTAAAAGACGAAATATGGGCGTTCCAAAACTCAAGACCTTCTTTTTCTCCTAACAGCGAGTATGTATTATTTTCTGCCAAAAGAAACTTCGAGCTTGATATTTTCATTTATAATATTAAAAAAGGACAAACTCTGAATCTTACCAATACAGGAGTTTCAGAGGAGGATCCTGTATGGTCACCTAATGGCAGGTATATTTATTTCGCCAGCGACAGAACCAATCCGTCTTATCCTTTAGGCACACAAAAATCCAATATTTACCGTATGGCACTGGATTGGTTTGACGAGCCTTTTAAATCTGAAAAATTTGATAACCTTTTCACGGAAGAAAAAAAGGAGACAAAACCTTCCGAGACAGCAAAAGACAGTAAAAACAAAAAAAGTAAGAAAGAAGAAGAAAACAAGGAGAAAAAGGAAGAGAAAGAAAAAGAACCTGTAATAAAGGAACTGAAAATCAATCCGGAAGATACTCTGGACAGAATTGAGCTTGTGACAGACCGATATGGATATCAGGATGATCCGGCAGTTTTCGCCGATGGCAAGAAAGAGATTCTGCTTTTCAATTCTAATCAGGATAATGGAAAAAGACAGCTATTCAAAAAAGTATTCACAGATTTTGAACCTGCTAAATCTGAAAAAGTTTTTGATAAAGCAGCATATTACATTACTAAAAATGAGAAAAACCTGTTCGCCCTGGTAGAAGGTAATATTTATAAAACAGCCATAACAGCATTAAAGCCTCAGAAAATAAACATCCAATACAGTTTTGATAAAGACCTGGCTTCAGAATTTACCCAGATGTTTGCTGAAGCCTGGACAGGTGTGGAGGAGAACTTCTACGATGAGAAATTTCATGGCATCGACTGGAAAGCCAAAAAACAACAATACGCAAAATATCTTCCGTATATACATAACAGAAGTGATCTTCGAATTTTATTAAATGATCTTTTAGGTGAGCTTAATTCTTCACACACCGGGTTTTCTTCTGCCGGAAAAGAAGAAGCTGTCTATCTGAACTATTTCACCAATGAAACCGGAATTATCTTCAAAAAAAACCAGCCTTATACTGTAGAAAGTATTCTGAGAAAATCTCCGGCCTACCGTTCCGGAGTTGACATTAAGCCCGGAGACCAACTGACTTCCGTAAACGGGAAAAAAGTTGATCCGAACGAAAATATCGAAACATATTTCACAAGCCCTAAAAAACAGGATGAAATTATTCTTACTTTCAACCGTGATGGTAAAAATATAACGACCAAAATACATCCGATTTCTAATGGGCAATTAAAAGGATTACTTTACGATGATTGGATATATAACAATCATCAGCGTGTTGACAAGCTCAGCAACAATCGCATTGCTTACTCCTGCATGAAAAATATGTCTACCGGCGAACTGGATCGTTTCCTTCTGGACATGGTAGAACAAGAAAACAGAAAAGACGCTGTTATCCTTGACCTTCGTTATAATACGGGAGGAAATGTACATGATAAAGTATTGAATTTCCTTTCTCAGAAACCTTATCTGCAATGGAAATACCGTGAAGGAAAAATTACAACACAACCTAATTTTGCACCGTCCGGAAAACCTATTGTCCTTTTGATTAACGAAGCGTCATTGAGTGATGCTGAAATGACCGCAGCCGGATTCAAAGCACTGAAACTGGGTAAAATTATAGGCCAGGATACCTATCGCTGGATTATTTTTACTTCAGCTAAAGGCCTGGTAGATGGGTCTTCCTATAGACTTCCTTCATGGGGAACTTATACGTTGGATGGGCAAAACCTTGAAAAAACTGGTGTAAAACCCGATATTTATGTGAAAAACACTTTCATGGACCGTCTTCAGGATAATGATCCGCAACTGGAAAGAGCTGTTCAGGAAATCCTCAAAGATTTAAAAAAATAA	MKKTIISLLTAFSIIGISAQEKSYFLSSPSLSPDGKTAYFAYDGDIWKADSNGGNASRITALDGEEINPRISPDGKWLAFSSNQYGNYDVYVMPAGGGTIKQLTFHTGRDEMESWAWDSKTIYFTSSRNNNFGSFKTTIEGKTPQRLFNNYFNNTNGLIETPAGEYLFTSSSESAYQVQRKRYKGENNPDILGYNPKSNSFRKYTNYEGKDFNPSVDKNGIIYFISDENNGEYNLYKIENGKKTALTQFGTSIKKPFVSADGSKVIFEKDYQLYTYDVASKNTTLLNISLNTNKTLEKAQNFNVENNISYYDVSPDGKKMAFISRGIIFVSDIEGKFIQQISDGKERTMEVKWLKDNRTLLYSQTYNGYQNWFTIPANGKGQPKQLTEDLRNNRNITLNNDLSKAVYLSGRDEVRLLDLKNFKSTTIVKDEIWAFQNSRPSFSPNSEYVLFSAKRNFELDIFIYNIKKGQTLNLTNTGVSEEDPVWSPNGRYIYFASDRTNPSYPLGTQKSNIYRMALDWFDEPFKSEKFDNLFTEEKKETKPSETAKDSKNKKSKKEEENKEKKEEKEKEPVIKELKINPEDTLDRIELVTDRYGYQDDPAVFADGKKEILLFNSNQDNGKRQLFKKVFTDFEPAKSEKVFDKAAYYITKNEKNLFALVEGNIYKTAITALKPQKINIQYSFDKDLASEFTQMFAEAWTGVEENFYDEKFHGIDWKAKKQQYAKYLPYIHNRSDLRILLNDLLGELNSSHTGFSSAGKEEAVYLNYFTNETGIIFKKNQPYTVESILRKSPAYRSGVDIKPGDQLTSVNGKKVDPNENIETYFTSPKKQDEIILTFNRDGKNITTKIHPISNGQLKGLLYDDWIYNNHQRVDKLSNNRIAYSCMKNMSTGELDRFLLDMVEQENRKDAVILDLRYNTGGNVHDKVLNFLSQKPYLQWKYREGKITTQPNFAPSGKPIVLLINEASLSDAEMTAAGFKALKLGKIIGQDTYRWIIFTSAKGLVDGSSYRLPSWGTYTLDGQNLEKTGVKPDIYVKNTFMDRLQDNDPQLERAVQEILKDLKK				NA	NA	NA	NA	NA
BMS003_02899	558			hypothetical protein	ATGAAAAAAAGAATCAATCTCTCTGCTATTATAGCTGGACTGTCGGTAATCGTATTATTTTCTTGCAAAGAAAAAAAACAAAGCGAAAATTTGGCGGAAACTAATGTTAAAAATCAGCCCGCTGCTTCCAAAACTAAAATCTATAAAAGCAGGTTTACAACTATTATGGATGTGATAGGAACTGGAACACTTACTATAGATCTAAATGAAAAAGGGACTGGTGGAGAATTTAAAAGCTCTGTAATTTACCCTGAAGGAAGTATGTATGAAGGTCAGAAATTAGAAAATATAAATGAGACGGGTTCTTTTACTGTAAAGAAATCTGAAAAATATGGAACAGTTTATGTTTTAAATAATGATAAGCCAGAAAATACGTTTCAGGTTTCGGAGAATAATTTACGTGAGCTATCCAGTGAAAATGGAGATACGACAGGCAGTGTTTATTATTTTGTAAATGATGCAAATGTAATTGTACCTATTTCGGAGACCAGAGAAGCAACACCTCTTTCTAAAGAGCAAAAAGCAGAGAACGAAGAGCTAAAGAAAAAATTTAAATAG	MKKRINLSAIIAGLSVIVLFSCKEKKQSENLAETNVKNQPAASKTKIYKSRFTTIMDVIGTGTLTIDLNEKGTGGEFKSSVIYPEGSMYEGQKLENINETGSFTVKKSEKYGTVYVLNNDKPENTFQVSENNLRELSSENGDTTGSVYYFVNDANVIVPISETREATPLSKEQKAENEELKKKFK				NA	NA	NA	NA	NA
BMS003_02900	2685			hypothetical protein	ATGAAAAAGATGATAATGTTTCTGGTACTTTTGTTCTCTGTATTTACTTTCGCTCAAACTACAAAAAACCTTTACACTTGTCCGATGCACCCTGAAGTGGTGTCCTCTAAACCTGGAGACTGTCCGAAATGCGGAATGATTCTGGAGAAGAAAAGTATTGCCGTAAAGTCGAAAGTAGTAACGAAATCTATATCTAAAACAGAGACAAAGACAAAACCCTCAGAAACAAAAATAAATAAAGGGAAAGTTGAAAATATAGATCCAAAAAATACAAATAAATCTAGTTTTACCTGTCCGATGCATCCTGAGGTAGTCTCAGATAAACCAGGAAAATGTCCGAAATGCGGGATGGAACTCGAGGAAAAAGATGATTATTCCCCAGCAGAAACTGAGAACCCAAAAGAAGAACAATCTGTTTTAAGACGAAATTCCGAGAATGGAAGGATTTCTTTTGGAGGAAAAACGGTTCGCTACGATCTCTATGTGAAAGATACCATCGTTATTTTCACTGGGAAGAACAGAAGAGCAATTGCAATCAATGGGAAACTTCAGGCTCCGACTTTGTATTTTACAGAAGGAGATACTGCCGAAATTTACCTTCACAATATGCTTAAGGAAAATACAGGATTGCACTGGCATGGAGTGATTCTTCCCAATGAGCAGGACGGAGTTCCTTACCTTACCACAAAACCTGTAAAGCCGGGAGAAACGCATTTATATAAATTCAGAATTTCTCAGAACGGAACGTATTGGTACCATTCTCATGAAGCCCTTCAGGAGCAGATAGGAATGAATGGTATTCTGGTGTTCAAAAAAAGAGAAGGTGAGCCTCAGACAAAATATAATGCTGAAATTCCTGTACTGTTGGGAGACTGGAGTGATGATGATCCCGTGCAGATTGCAAGAAGGCTTCATATGGCCAATACAGACTGGTATGCGGTAAAGAAAAATGCAGTACAGAGTTATTGGGAAGCCATAAAATCCGGAAACCTGGGAACAAAAGCCCTGAATGAGTGGAAAAGGATGGAAGCTATGGATGTGAGTGATGTCTATTACGATAAATTCTTAATCAATGGAGCTTCAAGCTCAGACTACTCTAATCTGAAAGCAGGTGACAAAGTAAGATTGCGAGTTGCCAACGGAGGTTCATCTACCTATTTCTGGTTGAATTATGGCGGAGGAAAAATAAAAGTAGTCGGAAATGACGGTAACGATGTGGTACCGGTAGAGGTTGACCGCCTGATTGTAGGAGTTTCCGAAACATATGATATTGAAGTTACCATTCCTGAGAATAAAAGCTTTGAATTCAGAGCAACTTCCGAAGACAGAATAGGACATGCTTCGCTTTGGTTGGGTTCAGGAGAGAAGATAGAAGCACCGAATCTTCCAAGGCTGATGCTTTTTGAAGGAATGAAAATGATGAACGGGATGATGGAAATGAGCGGAAATATGAAACCCATGAATATGACAATGGGAAATCAGATGATGGATATGAATGAAGTCATGTACCCGGAATTATCTGAAAGTCAAAGAAAAACTACCATGAAACACATTAATGAGATGATGGGGGTGAAGACAAAAGAAGATAAAAAAGAAGATCATTCTCAACATTCGGGTATGGACATGAAGGAAGAAAAAATAATCAAAAGACTGTCTTACAATATTTTAAAGTCTCCGGAGAAAACAATTCTTCCCACAGACAGCATTCGTGAGATGAAATTTACTTTGGAAGGGAATATGAATCATTATCTATGGACACTAGATAATAAAACCGTGACAGAAACCGATAAAATTATGATCAAAAAAGGAGAGGTTCTTAGAATTAAGCTATATAATAATTCTATGATGCGCCATCCGATGCACCTTCACGGTCATGATTTCAGGCTTATCAATTCAAAAGGAGAATATTCTCCGCTGAAAAATGTAGTAGATATCATGCCGATGGAAACCGTGACAATAGAATTTGCTGCCAATCAGGACGGAGACTGGTTTTTCCACTGTCATATTTTATATCATATGATGGCGGGAATGGGAAGAATCTTCAGTTATGAAAATTCAAAACCCAATCCACAGCTTCCGAATAGAAAACTGGCCTGGAAAAACTTTATACAGGATAATAAAATGACCAGTTCTATGGCCATGCTGGATATTGCAAGCAATAAGATCCATGCAGAGACAATGACCATGTTCGGACCTAGATGGGCTAACCTTAATGAGTTTCATTCCAACTGGAATTTTGATCATTTTGAAGGAAGCGCAAAAATAGGACGCTTCTTAGGAAAATTTCAGTGGGCGCTTCCGTATGCAGGATTCAGGGTTCAGAAGAATCATGAAATTATGGAAAGACAGATGGCAGAAGATACGGGCATGGATTTTCATGGGAAGAAGACCTGGTTCGGACAGCAGAAAGCTTCAAAAAACAAACTTGCATTCATGATAGGGATGCAGTATGTATTGCCAATGCTGATTACTGCTGATGCAAGTGTGGATCAAAACGGAAAAGTAGTATTAGAATTGAGTCGTGAAGATATACCACTTTCAAGAAGACTGAGAGGAAACTTCAGTGTCAATTCAGATGGAGAGTTTTCAACAGGACTCCGGTATATTGTTCAAAAATGGTTATCTCTTTCCGGAAACTATGATAAAGGAATAGGCTGGGGTGCAGGTATTACCCTGACTTATTAA	MKKMIMFLVLLFSVFTFAQTTKNLYTCPMHPEVVSSKPGDCPKCGMILEKKSIAVKSKVVTKSISKTETKTKPSETKINKGKVENIDPKNTNKSSFTCPMHPEVVSDKPGKCPKCGMELEEKDDYSPAETENPKEEQSVLRRNSENGRISFGGKTVRYDLYVKDTIVIFTGKNRRAIAINGKLQAPTLYFTEGDTAEIYLHNMLKENTGLHWHGVILPNEQDGVPYLTTKPVKPGETHLYKFRISQNGTYWYHSHEALQEQIGMNGILVFKKREGEPQTKYNAEIPVLLGDWSDDDPVQIARRLHMANTDWYAVKKNAVQSYWEAIKSGNLGTKALNEWKRMEAMDVSDVYYDKFLINGASSSDYSNLKAGDKVRLRVANGGSSTYFWLNYGGGKIKVVGNDGNDVVPVEVDRLIVGVSETYDIEVTIPENKSFEFRATSEDRIGHASLWLGSGEKIEAPNLPRLMLFEGMKMMNGMMEMSGNMKPMNMTMGNQMMDMNEVMYPELSESQRKTTMKHINEMMGVKTKEDKKEDHSQHSGMDMKEEKIIKRLSYNILKSPEKTILPTDSIREMKFTLEGNMNHYLWTLDNKTVTETDKIMIKKGEVLRIKLYNNSMMRHPMHLHGHDFRLINSKGEYSPLKNVVDIMPMETVTIEFAANQDGDWFFHCHILYHMMAGMGRIFSYENSKPNPQLPNRKLAWKNFIQDNKMTSSMAMLDIASNKIHAETMTMFGPRWANLNEFHSNWNFDHFEGSAKIGRFLGKFQWALPYAGFRVQKNHEIMERQMAEDTGMDFHGKKTWFGQQKASKNKLAFMIGMQYVLPMLITADASVDQNGKVVLELSREDIPLSRRLRGNFSVNSDGEFSTGLRYIVQKWLSLSGNYDKGIGWGAGITLTY				NA	NA	NA	NA	NA
BMS003_02901	474			hypothetical protein	ATGAAAAAATATATCATTACAGCAGCTTTATCTCTATTCTCAATCATTTCATTATCAGCTCAGTCTAAAAAGGATGCTCAGGTTTCCCAACTCTATCAGAACTATATTGCCATCAAATCTGCCTTAGCTTCAGATGATGCTGACAAAACTTCTAAAGCGGCGACAGAATTCATTAAAACAGCTTCTGCAATTGATCTTAAAGTAGTTTCAGAAGGAAATCTTAATGTGCTTAGAAAAGATGCTTCTGTTATTTCTGATGCGAGAACTATTGCTGCACAAAGAGAAACTTTTTTAAATCTTTCAGACAATATGATTGCTCTGACCAAGCAGTTCAAACTTTCTGATAAACCAGTATACGTTCAATACTGTCCAATGGCAGACGGAAGCTGGCTAAGCGATGAAAAGCAGATCATTAATCCTTACTATGGAAAATCTATGCTTTCATGCGGAAGTGTAAAGTCGGAAATTAAATAA	MKKYIITAALSLFSIISLSAQSKKDAQVSQLYQNYIAIKSALASDDADKTSKAATEFIKTASAIDLKVVSEGNLNVLRKDASVISDARTIAAQRETFLNLSDNMIALTKQFKLSDKPVYVQYCPMADGSWLSDEKQIINPYYGKSMLSCGSVKSEIK				NA	NA	NA	NA	NA
BMS003_02902	381			hypothetical protein	ATGAAAAAGATTCTGGCCATATTGTTTTCTATTTTCTACTTCGGATTTTCTTCCGGAGCAGCTTTTAGCATTCATTATTGCATGAAAGAATTTGTTTCTGTAAGTCAGAAAGTAGATGATATCTGTGTAAAATGCGGTGTTAAAAACAAAAAAGACTGCTGCAAAACAGAAATTAAAATAGTAAAAGTAGACGATTCCCAGAAATCTGATCTCCTGAATGTCGATTTCTCACATTCGGTTTCAGAGATACCGGTGAAGCATCAGTTTGCTGCTATAGACAAATCTTTTTCTGCAACCAAATTTACCCAGATTCAGATCAATGCGCCGCCCGAATATCGGCCAATACCTATCTATATCAATCATTGTAATTTTAGAATTTAG	MKKILAILFSIFYFGFSSGAAFSIHYCMKEFVSVSQKVDDICVKCGVKNKKDCCKTEIKIVKVDDSQKSDLLNVDFSHSVSEIPVKHQFAAIDKSFSATKFTQIQINAPPEYRPIPIYINHCNFRI				NA	NA	NA	NA	NA
BMS003_02903	2238			hypothetical protein	TTGAAAAAACTAGTTTTACCGCTAAGCCTTATGGTTCCTGTTCTGATTTTCTCCCAACACAGAAAAAAAGATACGGCGACCACTAGAGTGACCGATATAGAGGAAGTTGTCTTCCAGAAAAAAGCAACAGGAAGAACCAATGATCTTACCAATGTAAGAATTTCAGCAAAAGAGGCGAAATCAGTAGCTTCCATCAACGGTGGAATTGAAGGATTGCTTAAAACATTGCCTTCTGTAAACTCCAATACCGAGCTGTCTTCACAATATATGGTTCGTGGTGGAAACTATGACGAAAACCTTATCTACATTAATGATATTGAGATCTACAGACCTTTCCTGATCAGAAACTCTCAACAGGAAGGGATGAGCATCATCAACCCGGATATGGTATCCGCAGTGAATTTCTCTGCAGGTGGATTTGAAGCCAAATATGGTGATAAAATGTCATCTGCTTTAAATATCTATTACCGCGAGCCTGAAAAATTTGAAGTTTCAGGAGAGGCCAGTTTAATTGGAGGAAGGCTGACAACAGGCCTGGCTTCAAAAAATAAAAAATTTACGGCATTATTTTCCGGAAGATACAGAAATACCAATCTTGTTCTTAATACCCTAAAGGAAGATACAGACTTTAACCCAACATATTGGGATTTCCAGTCTTATCTGAATTATCATGTAAGTGATAAATTTTCCATGTCATTCATCGGATATTATTCTAAAAATGATTATCAGATGATTCCTAAGGCAAAGAGTGTTACGTTCGGAAGCCTTCAGCAACCTATTACCGTAAATATTGGCTATGGAGGTCAGGAAAATGACCAGTATAAAAATATGATGGGGACATTCTCCATGAACTATAAGCCTGCAGACAAATGGAAGTTTACCTTGGATGCCTTTGCTTATCAGAACAGAGAAAGAGAATACTATACCATACAGTCAGCGTACGAACTGCAAACCTTTGATCCTGTTACGCAACAACCTGTGACTTCTTTTGACATTGGAGGACAGATAGAACATGCAAGAAACGACCTATTTGTAAGAACATATGGGACGCAGTTCAGAGCCAAATTTTCTCCCAATGTAAATACTGATTTTGAGGTTGGTTTCAAATACGAAAAAGAAAATCTGAAAGATCTTACCAATGAGTGGAAGCTTGTAGATTCTGCAGGATACAGCCTTCCAAGACCGGAAGTGATTGATCCGAGAACCGGAACTACAGGAGATCTTAAGCTTACTTACTATATTGCCGGACAAAACAATATTGAGCCAACAAGGCTTTCTGCTTATGCTCAGTATTCGCAGAAGTTTTATTGGGGAGCCAGTAAAGTATTTGTGAATGCCGGAGTACGTGTTGCCAACTGGAGTTTCAACAAAGAAACCATTTTCTCTCCAAGAGCGCAGTTTGCTATAAAACCCGATTGGGATAGTGATATGTTATTCAAAATTTCCGGAGGAATCTATTACCAGGCTCCTTTTTATAAAGAGATCAAGGATTTGGATGGTAATTTTAACTCAGATATAAAATCACAGCGTTCTATCCAGGTAATTCTTGCCAATGACTATGAGTTCCAGATGTATGACAGGCCATTTAAACTGACTACAGAACTTTATTATAAGAAAATGGATAACCTGATTCCATACTATATGGATAATGTAAGGATCCGTTATTCAGGACAGAATAATTCCAAAGGATATGCGTATGGTATTGATACAAGATTATTCGGTGAATTTGTTCCAGGTGTAGATTCTTGGTTATCTGCAAGTTATGCCAGAATGTATGAAAATATTGATGGAAAAGGGGATATTCCGAGACCTACAGACCAAAGGTTGAGGTTTGCCATGTTCTATCAGGATTATATGCCGAGTTTCCCGTCTATGCGTGTAAACCTTACTTTGGTATACGCTATGGGACTGCCTACAGGAGCTCCGGTATTGTTCGACAGCAATGGGCAGCCTGATTTTAATGCTGCTTACAACTACCAGCAGACACTTCCTTCTTATAAACGAGTAGATTTAGGATTGACGAAAGTATTTATTGATCCGAAAGAAAAAAATAAGAGATCCGGTTTCTGGGGTAATTTTGAAGAACTTACATTAGGAGTTCAGGTTTTCAATGCCTTTAATATCAACAATACGGTTGCGAACCAATGGATTACAGATTATAACAGCAATTATATGTATCCTGTTCCGGTACGTCTTACAGGACGTTTCTTTAACGTGAAACTGGAATTCAGACTATAG	MKKLVLPLSLMVPVLIFSQHRKKDTATTRVTDIEEVVFQKKATGRTNDLTNVRISAKEAKSVASINGGIEGLLKTLPSVNSNTELSSQYMVRGGNYDENLIYINDIEIYRPFLIRNSQQEGMSIINPDMVSAVNFSAGGFEAKYGDKMSSALNIYYREPEKFEVSGEASLIGGRLTTGLASKNKKFTALFSGRYRNTNLVLNTLKEDTDFNPTYWDFQSYLNYHVSDKFSMSFIGYYSKNDYQMIPKAKSVTFGSLQQPITVNIGYGGQENDQYKNMMGTFSMNYKPADKWKFTLDAFAYQNREREYYTIQSAYELQTFDPVTQQPVTSFDIGGQIEHARNDLFVRTYGTQFRAKFSPNVNTDFEVGFKYEKENLKDLTNEWKLVDSAGYSLPRPEVIDPRTGTTGDLKLTYYIAGQNNIEPTRLSAYAQYSQKFYWGASKVFVNAGVRVANWSFNKETIFSPRAQFAIKPDWDSDMLFKISGGIYYQAPFYKEIKDLDGNFNSDIKSQRSIQVILANDYEFQMYDRPFKLTTELYYKKMDNLIPYYMDNVRIRYSGQNNSKGYAYGIDTRLFGEFVPGVDSWLSASYARMYENIDGKGDIPRPTDQRLRFAMFYQDYMPSFPSMRVNLTLVYAMGLPTGAPVLFDSNGQPDFNAAYNYQQTLPSYKRVDLGLTKVFIDPKEKNKRSGFWGNFEELTLGVQVFNAFNINNTVANQWITDYNSNYMYPVPVRLTGRFFNVKLEFRL				NA	NA	NA	NA	NA
BMS003_02904	810	kdsA_2	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGATTCAGTATTTAGATAATATTTCGCACAAAGATTCAAAAAACTTTTTCCTTATTGCCGGACCTTGTATTATTGAAGGGGAAGATATGGCGCTAAGAATTGCTGAAAAAGTGATCTCTATTACAGATAAATATAATATTCCGTATATTTTCAAAGGAAGTTTCAAAAAGGCTAACAGAAGCCGTGTAGATTCTTTCACTACGATTGGTGAAGAGAAATCCCTTGAAATTCTTAAAAAAGTAGGAGAGACGTTCAATATTCCTACCACAACAGATATTCATGAAAATGAGCATGCGGCATTGGCTGCACAATATGTAGATGTTCTACAGATTCCTGCATTTCTTGTACGTCAGACGGATCTGCTGGTAGCTGCAGCACAAACAGGAAAATGTGTGACTTTGAAAAAAGGGCAGTTCCTTTCTCCTGAAGCGATGAAGTTTGCCGTTCAGAAAATTACAGATTCTGACAATCAGAAAGTAGCCATTATAGAAAGAGGAAATTCTTTCGGATACACAGATCTGATCGTAGATTACAGAGGAATTCCTACCATGAGAGAATATGCACCTGTTATTTTGGATGTTACCCACTCCTTACAGCAGCCTAATCAGAGTTCAGGAGTGACAGGAGGAAGACCGGATCTTATTGAAACCGTTGCCAAAGCAGGAATTGCAGTAGGAGCAGACGGAATTTTCATAGAAACGCACCCTACACCGGAAACTGCATTGTCTGATGGTGCTAATATGTTAAGATTAGATTTATTAGAAGATTTGTTACAAAAATTAACAAGAATTAGAGAATCAATTTTGTAA	MIQYLDNISHKDSKNFFLIAGPCIIEGEDMALRIAEKVISITDKYNIPYIFKGSFKKANRSRVDSFTTIGEEKSLEILKKVGETFNIPTTTDIHENEHAALAAQYVDVLQIPAFLVRQTDLLVAAAQTGKCVTLKKGQFLSPEAMKFAVQKITDSDNQKVAIIERGNSFGYTDLIVDYRGIPTMREYAPVILDVTHSLQQPNQSSGVTGGRPDLIETVAKAGIAVGADGIFIETHPTPETALSDGANMLRLDLLEDLLQKLTRIRESIL	PGPT0023060_2638	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
BMS003_02905	228			hypothetical protein	ATGTTGGGAAAAAATCCAGAAAAACTGCCAGAATTATACCGTCCGATGTTGGTGGATTTTATTGATAATAAGCATGAACTTTTTTTGCTTTCAGAGAAAATTGATTGGAACTATTTCGAAAAAGAATTTTCGCCATTGTATTCGAAAGTAGGCAATCCGAGCCATCTGATTCGGTTTATGGTGGGATGCTTGCTTTTGAAGCACCTTTATAATAAAGTGAAAATATAA	MLGKNPEKLPELYRPMLVDFIDNKHELFLLSEKIDWNYFEKEFSPLYSKVGNPSHLIRFMVGCLLLKHLYNKVKI	PGPT0030605_2287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030605-IS5_family-K07481	NA	NA
BMS003_02906	588	hisI		Histidine biosynthesis bifunctional protein HisIE	ATGAAAATAGATTTTAATAAAGATAACGGACTTGTTCCGGTAGTTATACAGGACAGCAGAACATTACAGGTCTTGATGCTGGGCTACATGAATGAAGAAGCTTTTGAAAAAACAAAAAAAGAAGGAATCGTTACTTTTTTCAGCCGTTCCAAAAACAGACTCTGGACAAAAGGAGAGGAATCCGGTAATTTTTTAACGGTAAAAAATATTGATGTAGACTGTGATCAGGACACGATTTTAATTAAAGCCCTTCCGAAAAATGTAGTTTGTCATACAGGAAGTTTCAGCTGTTTCGGAAAGAAGGATACCAAAGGATTTCTGTATGAACTGGAAGAGAAAATATCACAGAGAATAGATACCAAAGCCGAAGGTTCTTATACTTATTCACTCTACAAGAGAGGAATCAATAAAATGGCACAAAAAGTAGGCGAAGAAGCCGTAGAATTGGTCATAGAAGCTAAAGATAATAATGAAGAACTCTTTAAAAATGAAGCTGCAGATCTGTTATATCACTTTTTAATTTTATTGAAGGCCAAAGGATTTTCGCTGGAAGAAATTGAAGAAATTCTTAAAAAGAGAGATCAATGA	MKIDFNKDNGLVPVVIQDSRTLQVLMLGYMNEEAFEKTKKEGIVTFFSRSKNRLWTKGEESGNFLTVKNIDVDCDQDTILIKALPKNVVCHTGSFSCFGKKDTKGFLYELEEKISQRIDTKAEGSYTYSLYKRGINKMAQKVGEEAVELVIEAKDNNEELFKNEAADLLYHFLILLKAKGFSLEEIEEILKKRDQ				NA	NA	NA	NA	NA
BMS003_02907	753	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGCTTAAGAAAAGAATTATTCCATGTCTGGATATCAAAGATGGAGCTACGGTGAAAGGAATCAATTTTGAAGACTTAAAAAACGCAGGAGATCCCGTAGAACTTGCCAAAAAATATGAGCGGGAAGGAGCAGACGAGCTTGTTTTCCTTGATATTACCGCAACTATTGAAAACAGGAAGACTTTTGTAGAATTGGTAAAAGAGATCGCCAAAGAGCTCAGTATTCCTTTTACAGTGGGCGGAGGAATTTCCTCTGTGGAAGATGTAAGAAAGCTTTTGGAAGCAGGGGCAGACAAGATCAGCATCAATTCTTCAGCGGTAAAAAATCCGGCTCTTATTTCTGATCTGGCCAAAGAATTTGGAAGCCAGTGCGTTGTGGTAGCTATTGATACAAGACAAGTGGGGGATAAGGATCTGGTGCATATCAAAGGCGGAAGGGAAGCTACTGAACTCTCTACATTAGAATGGGTAAAACAGGCTGAATTTCTTGGAGCAGGAGAAATTCTGCTGACTTCTATGGATGGGGACGGTACAAAAAACGGCTTTGATCTTCGCATTACAAAGGAGGTTTCAGATAGTATAAGTATTCCGGTGATTGCTTCCGGAGGTGCCGGCACTGCGGATGATTTTGTTAAAGTGTTTAATGAAACAAAAGCTACAGGAGGATTGGCAGCCAGTATTTTCCATTTTAATGAAATAGGCATTCAGGATTTAAAACAACAGTTAAAAACTCAAAAAATAGAAGTACGATGA	MLKKRIIPCLDIKDGATVKGINFEDLKNAGDPVELAKKYEREGADELVFLDITATIENRKTFVELVKEIAKELSIPFTVGGGISSVEDVRKLLEAGADKISINSSAVKNPALISDLAKEFGSQCVVVAIDTRQVGDKDLVHIKGGREATELSTLEWVKQAEFLGAGEILLTSMDGDGTKNGFDLRITKEVSDSISIPVIASGGAGTADDFVKVFNETKATGGLAASIFHFNEIGIQDLKQQLKTQKIEVR	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
BMS003_02908	726	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGATGAAAATAATTCCGGCTATTGATATTATCGACGGTAAATGTGTCCGTTTATCAAAAGGAGATTACAACACAAAGAAAATATACAATGAAGACCCTGTAGAAGTGGCGAAAGAATTTGAAAGTTTCGGCATTCAGTTTCTTCACCTGGTGGATCTTGATGGAGCAAAATCAAAGCATATTGTCAATCAGAAGGTTCTGGAAAATATTGCCCAGTCTACTTCGCTGCATATAGACTTTGGAGGAGGCTTAAAAACTCAGGAAGATATTGAAACAGCTTTTAATTCTGGGGCAAAACAGATTACTTTAGGAAGTATTGCGGTGCAAAATTCTGAATTCTGCTATGAAATGATCCGAAAATATGGTGCTGAGAAAATTATTCTGGGGGCAGACTGTGACAACAGAAAAATTAAAACCTCCGGATGGCTTGAAGAAAGTGATAATGACATCATTGATTTCATCCTTCAGTATCAGGAAAAAGGAATACAGTCCACAATATGTACCGATATTGCAAAAGATGGGATGCTGGAAGGGCCTTCAACAGGGCTTTATATTGAGATTTTATATAAAACATCTGTCCAGCTGGTAGCAAGTGGAGGAATCTCCGGGATTGCTGATGTCTATAAAATGAAAGATATCGGCTGTGCGGGAACCATCATCGGCAAAGCAATTTACGAAGGAAAAATAAGCTTACAACAACTTCAAAATTTTATTGAAAATGCTTAA	MMKIIPAIDIIDGKCVRLSKGDYNTKKIYNEDPVEVAKEFESFGIQFLHLVDLDGAKSKHIVNQKVLENIAQSTSLHIDFGGGLKTQEDIETAFNSGAKQITLGSIAVQNSEFCYEMIRKYGAEKIILGADCDNRKIKTSGWLEESDNDIIDFILQYQEKGIQSTICTDIAKDGMLEGPSTGLYIEILYKTSVQLVASGGISGIADVYKMKDIGCAGTIIGKAIYEGKISLQQLQNFIENA				NA	NA	NA	NA	NA
BMS003_02909	579	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGATAGCGATAATAAAATACAACGGAGGAAATGTAAACTCTGTCCAGAATGCCCTCAACAGGCTGAAAGTTAAATCTGTGATTACGGATGATCCTGATCAGATTTTAAAAGCTGATAAGGTTATTTTTCCAGGCGTAGGTGAAGCCTCATCCACTATGAAATTACTGAAAGAAAAAGAACTTGATCTCCTGATTCCAAGCCTTAAGCAACCGGTTTTGGGAATATGTCTGGGAATGCAGCTGATGTGTAAGAAAAATGAAGAAGGAGATACCGAAGGAATGGGGATTTTTGATATCAATGTCAGAAAATTTCCGGCCAAGGATATAGTTCCGCACATGGGCTGGAATACTCTTTCAGCACAGACATCTCCAATGTTTTCAGGAATTGGAATGAACAGCGATGTGTATTTTGTTCACAGCTATTATTGTGAGCTTTCAGACTTTACCACTTCTGTTTGTGATTATATCCTGCCATTCAGTGCTTCATTACAGAAAGATAATTTCTATGCAGTACAGTTTCACCCTGAAAAATCAGGAATGGTAGGAAATCAGATTGTTAAGAACTTTATAAATTTATAA	MIAIIKYNGGNVNSVQNALNRLKVKSVITDDPDQILKADKVIFPGVGEASSTMKLLKEKELDLLIPSLKQPVLGICLGMQLMCKKNEEGDTEGMGIFDINVRKFPAKDIVPHMGWNTLSAQTSPMFSGIGMNSDVYFVHSYYCELSDFTTSVCDYILPFSASLQKDNFYAVQFHPEKSGMVGNQIVKNFINL				NA	NA	NA	NA	NA
BMS003_02910	1095	hisB	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGAAAAAAGTACTATTTATAGACCGCGACGGAACACTCATCATTGAACCGCCTACAGATTTTCAGGTAGATTCTCTGGAAAAACTGGAATTTTATCCCGGAGTTTTTCAAAACCTTGCAAAAATTGTCAGTGAATTGGATTACGAACTGGTAATGGTAACCAATCAGGATGGATTGGGAACTGACAGTTTTCCTGAAGAAGATTTCATAAAACCTCATGCAAAAATGCTGCAGGCATTTGAAAATGAAGGAATCATTTTTAGTGATATTTTAATTGATAAAAGCTTTGAATCCGAAAATCTTCCTACCAGAAAACCAGGAACCGGAATGCTGAGTAAATACATTTATGGTAATTATGATCTTGAAAATTCCTATGTAATTGGTGATCGAAGTACGGATGTTCAACTTGCTAAAAATCTGAAATCTAAATCAATTTATCTTAATCAAAACTTAAATAGTGATGCTGAGCTGTCTACAACAAAATGGTCAGAGATTTATCAGTTCTTAAAATACGGAATGCGAAAGGCTAAAGTCTCCCGAAAAACCAATGAAACCAATATTGAAATTGAAGTCAATCTTGATGGAAACGGAAAGTCAGATATTTCAACCGGGCTTCATTTTTTCGATCACATGCTTGATCAGATTGCGAGACACGGGAATATGGATTTGACCATCAAAGTAAACGGAGATCTTGCTGTAGATGAGCACCACACTATTGAAGATACAGGAATTGTATTAGGAGAAGCTATTTTAAAGGCATTAGGAAAGAAAAAGGGGATCGAACGATATGGTTTCCTGCTTCCAATGGATGATTGCCTTTCTCAGGTGGCTATCGATTTCGGCGGCAGACCGTGGTTGGTTTGGGATGCCTCATTTACAAGAGAAAAGATAGGGGATATGCCTACGGAAATGTTTTTTCACTTCTTTAAATCCTTTACAGACGCCTCAAAATCTAATCTGAACATCAAAGCAGAAGGAGACAATGAACACCACAAAATAGAATCCATCTTTAAAGCTTTTGCAAAAGCTGTGAAAATGGCAGTAAATCAATCGGATAGTAATTACAGCCTGCCTTCTACAAAAGGAAGTTTATAA	MKKVLFIDRDGTLIIEPPTDFQVDSLEKLEFYPGVFQNLAKIVSELDYELVMVTNQDGLGTDSFPEEDFIKPHAKMLQAFENEGIIFSDILIDKSFESENLPTRKPGTGMLSKYIYGNYDLENSYVIGDRSTDVQLAKNLKSKSIYLNQNLNSDAELSTTKWSEIYQFLKYGMRKAKVSRKTNETNIEIEVNLDGNGKSDISTGLHFFDHMLDQIARHGNMDLTIKVNGDLAVDEHHTIEDTGIVLGEAILKALGKKKGIERYGFLLPMDDCLSQVAIDFGGRPWLVWDASFTREKIGDMPTEMFFHFFKSFTDASKSNLNIKAEGDNEHHKIESIFKAFAKAVKMAVNQSDSNYSLPSTKGSL				NA	NA	NA	NA	NA
BMS003_02911	1026	hisC	COG0079	Histidinol-phosphate aminotransferase	ATGAAAAATAACAGTATCAAAGCACTCGTAAGAGAAAATATATTACAATTACAGCCCTACATCAGTTTCAGGGATCACAATGAATTCAATGCTCCGGTAATGCTGGATGCCAATGAAAGCCCTTTTGGGGAATGCAACCGCTATCCGGATTCTACCCAGAAAAGGCTTAAAAGCAAGCTTGCAGAGCTTAAAAAAGTTTCACCCTCACAGATTGCCATAGGAAACGGAAGTGATGAGCTGATAGACCTTATCATTAAAATCTTCTGTGAGCCTAAAAAAGATGCCATTCTGATGATGAATCCGTCATTTGCGATGTATGCTTTCTATGCAGCGATTAACGAAAATAAAGTTTTGAAACTGGATCTTGATGAAAACTTTGAAATCGTAAAAGATAACTTCTTAAAGGTAGCACAAGCCCCTTCACTGAAAATTTTCTTTTTATGTTCACCCAACAATCCTACTGGAAACAGTGTGGATGATATTGAATTTTATCTTCAGAATTTCAACGGAATTGTAGTAGTGGATGAAGCTTATATTGAATTTTCCGGAAAAAAGTCAAGCCTGGAGTTGTTGGAGAAATATTCTAACCTGATTGTATTGCAAACTTTTTCAAAAGCATGGGGATTTGCCGGAGCAAGAGTAGGTATGGCTTATGCATCTGAAGAGATTATCAGCCTGATCAATACCGTAAAAGCGCCTTATAATGTAAATGTTTTGAGTCAGGAACTCATTTTAAAGACATTAGAAGAAGAAAACAGGCTTCAGGAGAACGTAACTCGTATTCTGGAAGAGAGAACATGGCTAAAAGAGCAGTTTGAAAGAATTGCATGCATTAAGAAAGTATTTTCAACAGATGCGAATTTCTTCCTGATCAGAATGGAAAATGTTGATAACGTGTATTCAAAAATGTTGGAAGAGGAAATTTTAACCAGCAGAAGAGATCCGGCCATTCCGGGATGTATCAGGATTAATGTAGGAAACCGTGCAGAAAATGAAAAACTTGTTAACCTTTTACAAGAAATATAA	MKNNSIKALVRENILQLQPYISFRDHNEFNAPVMLDANESPFGECNRYPDSTQKRLKSKLAELKKVSPSQIAIGNGSDELIDLIIKIFCEPKKDAILMMNPSFAMYAFYAAINENKVLKLDLDENFEIVKDNFLKVAQAPSLKIFFLCSPNNPTGNSVDDIEFYLQNFNGIVVVDEAYIEFSGKKSSLELLEKYSNLIVLQTFSKAWGFAGARVGMAYASEEIISLINTVKAPYNVNVLSQELILKTLEEENRLQENVTRILEERTWLKEQFERIACIKKVFSTDANFFLIRMENVDNVYSKMLEEEILTSRRDPAIPGCIRINVGNRAENEKLVNLLQEI	PGPT0020305_7952	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS003_02912	1275	hisD	COG0141	Histidinol dehydrogenase	ATGAAAATATACAGATATCCCACAAAAGACACCTGGAAAGACCTGGTAAAACGTCCTGTTATGGAACAGAAAGAAATTTCAGGTCTGATCACAGAAATATTTAGGGAAGTTGAAAAAAATGGGGATAATGCCTTAATAGAATTCAATAAAAAGTTTGATAAAGCAGAAACCAAGAGCATAAAAGTTTCTGATGCTAAAATTCAGGAGGCAGAAAATCAGATTAATGCTGACTTGAAAGAAGCTATTCAACAGGCTAAAGAAAATATCTCAAAATTTCACGCTTCTCAAAAGCAGGATATTCAGAAGATTGAAACCACAAGAGGAGTCGTTTGCTGGCGTGAAAACCGTGCTGTAGAGAGAGTTGGTATTTATATTCCGGGAGGAACAGCTCCTTTATTTTCTACAGTGCTTATGCTTGCTATCCCTGCAAACCTGGCAGGCTGTAAAGAGATAGTACTTTGTACACCTCCGGATAAAAACGGTAATATCAATCCTGCAATTCTTTATGCAGCAAAGCTTTGCGGAGTTTCAAAAATCTTTAAAACAGGTGGTGCGCAGGCAATCGCAGCGATGACTTTTGGAACAGAAAGTATCCCTGCAGTCAATAAAATTTTCGGTCCTGGAAACCAGTTTGTAGTAGCAGGAAAAGAATATGCACAACGTTATGGAGTAGCTATTGATATGCCTGCCGGACCAAGTGAAGTTCTTGTGATAGCAGATGAACAGGCTATCCCTGATTTTTGTGCTGCGGATCTTCTTTCACAGGCAGAACACGGAAGTGACAGTCAGGTTGTTTTTGTGACAACAGATCTTAAAGTATTTGAAGAGACAATAGAAGCCGTTGGACAACAGCTCAGAGACTTACCAAGAAATGAATTTGCGGGGCAGGCATTGGAAAACAGCTGCTTTATTTTGGTGAAATCTTTGGAAGATGCTCTTGAGTTCAGTAATCTGTATGCTCCGGAACACCTTATTCTGGCAATCAATGATTTTGAAAAATATATACCGGAAGTTCAGAATGCAGGTTCAGTTTTTCTTGGTAACTATTCTTGTGAGAGTGCAGGAGATTATGCCAGCGGAACCAATCACACGCTTCCTACCAATGCTTATGCAAGGAATTACAGTGGTGTGTCGCTGGACAGTTTCGTGAAGAAAATAACATTTCAGCATCTTTCACAAGAGGGACTTCAGAATTTAGGAAAAACAATAGAACTTATGGCGGAAGCAGAAGGACTGTTTGCCCACAAAAATGCAGTGTCTATAAGATTAAAGTAA	MKIYRYPTKDTWKDLVKRPVMEQKEISGLITEIFREVEKNGDNALIEFNKKFDKAETKSIKVSDAKIQEAENQINADLKEAIQQAKENISKFHASQKQDIQKIETTRGVVCWRENRAVERVGIYIPGGTAPLFSTVLMLAIPANLAGCKEIVLCTPPDKNGNINPAILYAAKLCGVSKIFKTGGAQAIAAMTFGTESIPAVNKIFGPGNQFVVAGKEYAQRYGVAIDMPAGPSEVLVIADEQAIPDFCAADLLSQAEHGSDSQVVFVTTDLKVFEETIEAVGQQLRDLPRNEFAGQALENSCFILVKSLEDALEFSNLYAPEHLILAINDFEKYIPEVQNAGSVFLGNYSCESAGDYASGTNHTLPTNAYARNYSGVSLDSFVKKITFQHLSQEGLQNLGKTIELMAEAEGLFAHKNAVSIRLK				NA	NA	NA	NA	NA
BMS003_02913	858	hisG	COG0040	ATP phosphoribosyltransferase	ATGAGTAAATTAAAAATTGCAATTCAAAAAAGCGGCCGGCTTTACGAAGAATCTCTTCAGCTTCTCAAAGACTGCGGAATCTTCGTCAACAACGGTAAAGACCAACTCAAAGTTTCAGTAGATAACTTTCCGATGGAAATCATGTACCTTCGGAACTCAGACATCCCTCAATACCTGGAAGATGGAGTAGTTGACGTAGCCATTCTTGGTGAAAATCTCCTGATTGAAAAAGGTAAAAATATCAAGACTGTTCAGAAGCTTGGTTTTTCAAAATGTCGTGTTTCATTGGCTGTTCCCAAAGAAGTAGAAACCGATGAAATCTCTTATTTCCAAGGTAAAAAAATTGCTACGTCTTACCCCAATACCCTCAAAAGTTTTTTAGAAAAAGAAGGAATCATATCAGACATTCATGTTATTTCCGGTTCCGTAGAAATCGCTCCCAATATTGGTCTGGCAGATGGAATATGTGATATTGTGAGCTCAGGAAGTACTTTATTCAAAAACGGATTAAGAGAAACAGTCACTTTGCTGAAATCGGAAGCTGTTTTGGCTCAGACCCCTCAGCTATCATCTGAAAAAGAAGTGATTCTTGAAAAATTTGTCTTCAGGATTAAAGCCGTTCTCAAGGCAAAAAATTCAAAATACATTCTGATGAATGTTCCCAATGAAAAAATTAAAAAGATCGCAGATGTCCTTCCTGTATTAAAAAGTCCTACAGTTATTCCATTGGCAGAAGAAGGTTGGAGCAGCATTCACTCTGTTATTGATGAAGAACGTTTTTGGGATGTTATTGATGAATTGAAAGAAAATGGCGCTCAGGATATCCTAATCATCCCAATTGATAAAATGGTTATTTAG	MSKLKIAIQKSGRLYEESLQLLKDCGIFVNNGKDQLKVSVDNFPMEIMYLRNSDIPQYLEDGVVDVAILGENLLIEKGKNIKTVQKLGFSKCRVSLAVPKEVETDEISYFQGKKIATSYPNTLKSFLEKEGIISDIHVISGSVEIAPNIGLADGICDIVSSGSTLFKNGLRETVTLLKSEAVLAQTPQLSSEKEVILEKFVFRIKAVLKAKNSKYILMNVPNEKIKKIADVLPVLKSPTVIPLAEEGWSSIHSVIDEERFWDVIDELKENGAQDILIIPIDKMVI	PGPT0017400_447	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
BMS003_02914	1098	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGAAGATTGCTTTTGATGCAAAACGGTTTTTTCACAATACCTCCGGTCTGGGAAACTATTCGAGAGATCTTGTAAGAATTCTTTCAGAATACGAACCGGAGAATGAATATCTTTTGCTGAACAAAAATAAATCGGAGAGGGGAAAAGAGATTCTGGAACGCTCTAATGTTCACTTTATTGAAACTTCAAAAGGAAATTTATCACGTCAACTAAAAATGGGGAAAGATGCCCAAAAACAAGGGGCTGATATTTTCCATGGATTATCCGGTGAACTTCCTTTAAAATGGGGGCCAACACCGATTAAAAAGATTGTTACTATTCATGATCTGATCTTTGTAAGATATCCACAGTATTATTCTTTTTTTGACAGAAAAATTCACTTCTGGAAATTCAAAAAAGCAGCTGATGCGGCAGATAAAATTATTGCTATTTCGGAACAGACGAAAAGAGATATTATCCAGTATTTGAAGGTTCCTGAGAATAAAATTGAAGTTATTTATCAGGGATGTCATCGCGCATTTAAAGAAGAGCAGTCTCCGGAACTGATGCAGGCTGTACAAGAGAAATTTAAACTTCCTGAAAGGTTTATACTGAATGTTGGAACCATCGAAGACCGCAAGAATCTTTTGAATGTTGTAAAAGCAATCAACGGGACAGAAATTCCATTAGTGGTAGTGGGAAGAAAGACCAAATATTACCAGAAAATAGAGCGTTTCCTGAAAAAGAACAACATGGAAAAGCAGGTGCTGTTTCAGGAAGGAGTTTCTATGGATGAGCTGGCCTGTCTCTATAAAATGGCAGATATTTTTGTCTATCCAAGCTTCTTTGAAGGCTTTGGAATCCCTGTCATTGAGGCACTTTTTTCCAAAACGGTAGTCGTTACAAGTAATACGAGCTGTCTGCCGGAAGCGGGAGGAAAAGACTCTGTATATGTGAACCCAGAAAATGACCTTGATATCCGCGCGAAAATCAAATTTCTCTGGGAAAATGAATCTGAAAGAAAACGCCGTGAGGAAAAGGGTTTCGAGTTTGTTCAGAAGTTTAATGACGAACCCATTGCAAAGGAATTGATAAAGTTCTATCAAAAAATTATCTGA	MKIAFDAKRFFHNTSGLGNYSRDLVRILSEYEPENEYLLLNKNKSERGKEILERSNVHFIETSKGNLSRQLKMGKDAQKQGADIFHGLSGELPLKWGPTPIKKIVTIHDLIFVRYPQYYSFFDRKIHFWKFKKAADAADKIIAISEQTKRDIIQYLKVPENKIEVIYQGCHRAFKEEQSPELMQAVQEKFKLPERFILNVGTIEDRKNLLNVVKAINGTEIPLVVVGRKTKYYQKIERFLKKNNMEKQVLFQEGVSMDELACLYKMADIFVYPSFFEGFGIPVIEALFSKTVVVTSNTSCLPEAGGKDSVYVNPENDLDIRAKIKFLWENESERKRREEKGFEFVQKFNDEPIAKELIKFYQKII				NA	NA	NA	NA	NA
BMS003_02915	777			hypothetical protein	ATGGTTTTATTGAGTTTTGATATTGAAGAGTTTGATATGCCATTAGAATATAAGGGTGAAATTCCCTTTGAAAAGCAGATTTCAATTTCACAGACAGGATTAGAGAGAATTCTCGATATCCTTAAAAAACATAATGCTAAAGCTACTTTCTTTTCCACGGTAGTTTTTGCAGAAAATAGTAAACACCTTATCGAAAGGTTATTACATGAAGGCCACGAACTGGCTTCTCACACGTGGTTTCATTCAGAATTTGAAGACAAACACCTGAAAGAATCAAGAGAAAGGCTGGAAGAATTATTTTCCACAAAAGTTACCGGATTAAGAATGCCGAGAATGATGCCTGTAGACGAAAAAGAAGTGGAAAAAGCAGGATATTCTTATAACTCATCCATCAATCCTACATTTTTGCCGGGAAGATATAATAATTTAAAAGTATCCAGAACCTATTTCAAAGAAGGAAATGTAACTCAGGTTCCGGCTTCGGTTTCCCCTAATTTCAGAATTCCTTTATTTTGGTTAAGCTTTCACAATTTTCCATTGTTTTTCTATAAAAAGCTGGCTTCGGACAGTTTGAAAAAAGATAAATATCTGAATATCTATTTTCATCCGTGGGAATTTGCAGAAATCAAAGACGAAGCTTTTAAACTTCCTGGATTTACCGTAAAAAACTCAGGGAAAGATATGGTAGAAAGATTTGATTCGTTCGTAGGCTGGCTCAAAGGAGAAGGACATACATTCGGAACATTTCAGGAATTTCAAAAACAGATAGAACGATGA	MVLLSFDIEEFDMPLEYKGEIPFEKQISISQTGLERILDILKKHNAKATFFSTVVFAENSKHLIERLLHEGHELASHTWFHSEFEDKHLKESRERLEELFSTKVTGLRMPRMMPVDEKEVEKAGYSYNSSINPTFLPGRYNNLKVSRTYFKEGNVTQVPASVSPNFRIPLFWLSFHNFPLFFYKKLASDSLKKDKYLNIYFHPWEFAEIKDEAFKLPGFTVKNSGKDMVERFDSFVGWLKGEGHTFGTFQEFQKQIER	PGPT0012156_518	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS003_02916	930			putative glycosyltransferase	ATGAAGAAAATTTCAATTGTAATTCCCGCTTATAATGAAGAAGGAAACGTTGCCATGATCCATCAGAAAATTAAAGAAGTTTTTGATGGCTTACATAACTATGACTTTGAAATCATATTTGTGAATGATGGCAGCAGAGACAATACTCAACAAAAATTAGAAGAACTTTCCAGTCAATATGATGAAGTGAAATTCATCGAATTTTCCCGCAATTTTGGCCACCAACCCGCAGTAAAGGCAGGAATGGACAATGCGCTTGGAAATGCAGTCATTTCTATGGACGGAGATCTTCAGCATCCTCCGGCACTGATTCCTGAAATGATTCAGAAATGGGAAGAAGGCTATGACGTAGTTTTTACCTTTAGAACGTATCCAAAGGAAATTTCTTTCTTTAAAAGAAAAACATCAGACTTATTTTACAAGCTTTTATCAAGTTTATCCGATGTTAACTTAACAAAAGGAGGCGGCTCAGATTTCAGACTGCTGGATGCAAGTGCTGTTGAAGTTATGAGAAACTTTAATGAAGACGATTTATTCTTGAGAGGATTAACGAGCTGGATGGGCTTCAAGCAAACAGGAATTGATTTTACTGCAGCAGAAAGACTCTCAGGAAAAAGCAGTTACAATCTTAAAAAGATGTTTACTTTCGCTTTTACAGGAATCACTGCTTTTAGTGTAAAACCGCTTTATCTGGCGGCTTATCTGGGGTTTTTGTTCTCAGCACTTTCTGTAATTGGATATGGAGCATACGTCATTCATTCATTTATTGCAAAAACTGAGATTTCTGGTTGGGCATCCTTGATTATGACCATTGTTTTCTTTGGAGGACTTCAGTTAATCATCCTTGGAATTATGGGAATTTATTTAGGTAAAATATTCAAACAGGTGAAAGACAGACCAAATTATATTATTAAAAACAAAAATTTTTAG	MKKISIVIPAYNEEGNVAMIHQKIKEVFDGLHNYDFEIIFVNDGSRDNTQQKLEELSSQYDEVKFIEFSRNFGHQPAVKAGMDNALGNAVISMDGDLQHPPALIPEMIQKWEEGYDVVFTFRTYPKEISFFKRKTSDLFYKLLSSLSDVNLTKGGGSDFRLLDASAVEVMRNFNEDDLFLRGLTSWMGFKQTGIDFTAAERLSGKSSYNLKKMFTFAFTGITAFSVKPLYLAAYLGFLFSALSVIGYGAYVIHSFIAKTEISGWASLIMTIVFFGGLQLIILGIMGIYLGKIFKQVKDRPNYIIKNKNF	PGPT0014540_2650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0014540-csbB|gtrB|yfdH-K20534	NA	NA
BMS003_02917	1170			hypothetical protein	TTGAAAGAAAAATTTCTTAAAATATTATTAAACCCTAAATATATATTTGGGGTTTATCTTATTATATCAGTTGTTACAGCCATTTCCAAATATCTGAGAGGAGATTATGCGATCAATAATTATCTGATTTTTAAAAACGTATTCTTTAATACCATTCATCAGAAAAACTTATTTATCCATTATCCTGATCTCTATTTTGATCTCAACCATTATGGTGTATTTTTCAGTGCATTGATTGCGCCGTTTGCCATGATGCCGGATTGGCTGGGAATTTCACTTTGGAATATTGCCAATACTTTCATCTTTATCTACGGAATTCATAAACTGCCGTTTTCAGACAGCAAGAAAGCCATTTTTGGATTGCTTTGTCTTCAGGAATACATTACAGCAGCTTTGAGTTTGCAGTTCAATGTGGCACTGACCGGCCTTTTGCTGTTATCAGCAGTGTACATTTACGAAAGAAAAGAAGTGAAATCTGTAACCGCTATTTTAATCGGAATATTTGTGAAGATCTATGGAATTGTAGGATTAACGCAGTTTTTCTTTATTAAAAACAAGATGAAATTTATTCTTTCAGGAATTGCCATTGCAGTATTGTTTTTTGTACTTCCGATGGCGTATTCGAGTCCGCAGTTTGTCATCCAGTGTTATTCAGACTGGTTTCAGTCTATCGTAGAAAAAAATAATGAAAATCAGGTGTTAGGAAATATGCAGGATATATCTTTGATGGGTTTTGTGAGAAGGATTTTAGGAGACGCATCCATTTCTAACCTTGTGTTTTTAGCAGGTGGATTGCCTCTTTTTGCTTTACCTTACATTAGAATTAAGCAATATAAGCATTACGCATTTCAACTGATGATTTTGGCTTCCACATTACTGTTCTTGGTATTGTTCAGTTCAAGCTCAGAATCTCCTACGTATATTATTGCGGTGGTAGGAGTGCTGATATGGTTTTTCCTTCAGAAAGAAAGAACACCGCTTATCATAGGATTGCTGGTTTTTGTCATTATTTTCACATGTTTTTCAACTTCGGATCTGTTCCCGAAATTTGTAAAAGAGAATTATATCATTAAATATTCATTAAAAGCCGTACCTTGTATTGTGATCTGGCTGAGAGTAACTTATGAACTTCTGACTAAAGATTTTGAAAAAAACTACAGCCTGAATTAA	MKEKFLKILLNPKYIFGVYLIISVVTAISKYLRGDYAINNYLIFKNVFFNTIHQKNLFIHYPDLYFDLNHYGVFFSALIAPFAMMPDWLGISLWNIANTFIFIYGIHKLPFSDSKKAIFGLLCLQEYITAALSLQFNVALTGLLLLSAVYIYERKEVKSVTAILIGIFVKIYGIVGLTQFFFIKNKMKFILSGIAIAVLFFVLPMAYSSPQFVIQCYSDWFQSIVEKNNENQVLGNMQDISLMGFVRRILGDASISNLVFLAGGLPLFALPYIRIKQYKHYAFQLMILASTLLFLVLFSSSSESPTYIIAVVGVLIWFFLQKERTPLIIGLLVFVIIFTCFSTSDLFPKFVKENYIIKYSLKAVPCIVIWLRVTYELLTKDFEKNYSLN				NA	NA	NA	NA	NA
BMS003_02918	813	dapD	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGTCGTTACAACAAACTATTGAAAACATTTGGGATAATAGAGATCTATTACAAAATGAAGACAGCCAGAAAGCGATCAGAGAGGTGATTTCTTTATTAGATTCCGGGGAACTTCGTGTAGCAGAACCTACAGAAAACGGATGGCAGGTAAATGAATGGGTAAAGAAAGCAGTAGTAATGTATTTCCCGATCCAGAAAATGGAAACTATTGAGGTAGGACCATTTGAATTTCATGACAAGATTCCTTTAAAGAAAAATTATGCAGAAAAAGGAGTAAGAGTTGTACCTCATGCTATAGCAAGAGAAGGTTCTTTTGTCGCTTCAGGAGTCATTATGATGCCGTCTTATGTAAATATCGGTGCTTATGTAGATTCCGGAACAATGGTAGATACATGGGCTACAGTGGGAAGCTGTGCACAGATCGGTAAAAACGTTCACCTGAGTGGTGGGGTAGGTATCGGTGGGGTATTAGAGCCATTACAGGCTGCTCCGGTAATTATTGAAGATGACTGCTTTATTGGTTCGAGATGTATTGTTGTAGAAGGAGTTCACGTAGAAAAAGAAGCGGTATTGGGTGCAAACGTAGTATTGACTGCATCTACAAAAATTATCGATGTTACAGGAGATACACCTGTTGAAATCAAAGGAAGAGTTCCTGCACGTTCAGTAGTAATCCCTGGAAGCTATACAAAACAGTATCCGGCTGGAGAATATCAGGTTCCATGTGCACTGATCATTGGTCAGAGAAAAGAATCTACAGATAAGAAAACATCTCTGAATGATGCATTGAGAGATAATAATGTAGCTGTTTAA	MSLQQTIENIWDNRDLLQNEDSQKAIREVISLLDSGELRVAEPTENGWQVNEWVKKAVVMYFPIQKMETIEVGPFEFHDKIPLKKNYAEKGVRVVPHAIAREGSFVASGVIMMPSYVNIGAYVDSGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQAAPVIIEDDCFIGSRCIVVEGVHVEKEAVLGANVVLTASTKIIDVTGDTPVEIKGRVPARSVVIPGSYTKQYPAGEYQVPCALIIGQRKESTDKKTSLNDALRDNNVAV				NA	NA	NA	NA	NA
BMS003_02919	612			hypothetical protein	ATGGCAGATTTTATCAGATTTTTTATCCCTTTTTACTTCATCATTTTCTTTTTGTTCTCTTTTGTAGGAATCAGCTGCAGAGTGGCAAAACAAATTGGTAAAAATCCTAATGTTCTTCCCGGTGATGATTCTGCATACGGTCTTGTAGGGTTTTATTTTAAGTTGATTTTGTTTGCGTTGTTCATCTATACACAGCTTCTTTTATTTTTCCCGGAATATATTTTCAATTTATTTAAAATCAATTTTCTGGAATATAATCTATTTCAATACACAGGATTTATTTTAATGCTTTTTGCCTTGATTTGGGTCGTTATAGCTCAGCTGCAAATGAAAAATTCATGGCGCATCGGGATCGACAGTAGAATGAAAACAGAGCTGGTAACTCATGGGTTATTCAGGTTTTCAAGAAATCCTATATTTCTGGGAATGACCATCAGTCTTGTCGGTTTTTTTCTTGTTTTTCCTACTGTTATTGCTTTTTCTTTTCTTCTGATAGGATGTGTTTTGATGCAGATTCAGATCCGGCTTGAAGAAGAGTATCTGCTAAAGGAACACGGACAAATCTATGAGACCTACAAAAAGAAGGTGAAGCGTATGCTGAGCTTTCATTAA	MADFIRFFIPFYFIIFFLFSFVGISCRVAKQIGKNPNVLPGDDSAYGLVGFYFKLILFALFIYTQLLLFFPEYIFNLFKINFLEYNLFQYTGFILMLFALIWVVIAQLQMKNSWRIGIDSRMKTELVTHGLFRFSRNPIFLGMTISLVGFFLVFPTVIAFSFLLIGCVLMQIQIRLEEEYLLKEHGQIYETYKKKVKRMLSFH				NA	NA	NA	NA	NA
BMS003_02920	573	mepS	COG0791	Murein DD-endopeptidase MepS/Murein LD-carboxypeptidase	ATGGGAGCGGAATTATTTCAACAAAAAATAAATATAAAACAGATTGCAGCGGTTCTGGCAGTCTCTGTTTTTATGGTTTCCTGCGGGTCCTCTAAAAGTGTTTCTGCGAGCAAAAAATCAAATACAAAGACTGTAGCAAAAACGGAAAGTCTGAGAAAGCTGGATTCAAAATTTGACGGTAAAGTTTCCAGATCCATCAGTGATATTCTGAAAGATGCAGAAAAATACATCGGAACACCTTATAAATTCGGAGGAAATACATCGTCCGGATTCGATTGTTCGGGGTTTACCGTAAAGGTATTTGAAGAAAATGATCTTAGCCTTCCCAGGAGATCTTCTGATCAGGCGGAAGCAGGAAAGAATATTGATATCAAGGAAGTAAAACCCGGTGATCTGTTATTTTTTGCAACAGCAGGAGGAAGCAGGGTTTCTCACGTGGGAATTGTTCATGATATTGGCCCTGATGGAGAAGTGAAATTTATTCATGCCTCCACTTCAAAAGGTGTTATTATTTCATCCCTGAACGAAAAATACTGGAATAAAGCCTATCTTCGTGCCCAAAGAATATTATAA	MGAELFQQKINIKQIAAVLAVSVFMVSCGSSKSVSASKKSNTKTVAKTESLRKLDSKFDGKVSRSISDILKDAEKYIGTPYKFGGNTSSGFDCSGFTVKVFEENDLSLPRRSSDQAEAGKNIDIKEVKPGDLLFFATAGGSRVSHVGIVHDIGPDGEVKFIHASTSKGVIISSLNEKYWNKAYLRAQRIL	PGPT0023820_395	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
BMS003_02921	639			hypothetical protein	ATGGCAACCTATGAAAGTATAATCAAGATTACAGGAGCTGTGGGCGACCTGGTATTTTATAATCTGAACGGAAAAAATGTGGTTCGGAAAAAAAGCGGGTTTAATAAGGCTGCTTTTAAAAAGAGTCCGTCATATGAGAAAGTACGCCAAAACAGTTCGGAATTCGGGCATTGTTCAAAAATTGGAAAGATTATCCGGAAAAGCCTGGAAGCTTATATTAAAGAAGCAGGCGATCCTCTTCTTTACCAGAAGTTTGCGAAGCTGATGACTGCCATCAAAGATCTTGATAAGATTTCCGGAAGAGGAAAAAGGACAGTTGGAAACGGGCTAAAAACCGAAGAAGGAAGAAAGCTTTTGAAAGCATTTCAGCTGGGCACAATCCATAAGGTTTCAGATTGTGTAAGGATTCAGAATCAAATGCTGTATAAGAATGAAAACTGTACTTCAGAATATCTGATGATTTCAACCATACAATTAGACACTGAAAATTATACTGCAGAAGTGGCAGAAGAAATAATAAGCTGGAGCAATAAGCAGGAAAGCCCTTTTAAGAAGTACTTCCAGGAAGGTAGCCTTCTACTCTACTTTGTTGTTTTGAAAAATGCTCATCAAGAAATTACCCATATGGGGTTTGTTTGA	MATYESIIKITGAVGDLVFYNLNGKNVVRKKSGFNKAAFKKSPSYEKVRQNSSEFGHCSKIGKIIRKSLEAYIKEAGDPLLYQKFAKLMTAIKDLDKISGRGKRTVGNGLKTEEGRKLLKAFQLGTIHKVSDCVRIQNQMLYKNENCTSEYLMISTIQLDTENYTAEVAEEIISWSNKQESPFKKYFQEGSLLLYFVVLKNAHQEITHMGFV				NA	NA	NA	NA	NA
BMS003_02922	441			hypothetical protein	GTGACAGAACTTGTAAGGGAAATGTATACAGAGGATAACAGGACTTTAGGTTATAAAACTACTGAAACTATGAAGAAACTTTTTTTGCTTTTATTTACGGCGTTTTTATTTATCGGTTGCAGCTCTGACGATGATACCATTTATGATTATGTAGGAACATGGTCTGGTTCTTATGAAGGAAGTGACAAAGGAGTTTGGAACTTTGTGGTAGATGAAAGCGGTAAAGTAGTGGGAACAATGCATTCCGATGTTAATAATGAAAACTATAATATTTCCGGGAATTTAAGTGAAACAGGAGATCTGAACGCAACAGTAGGACTTCCATCAAAAGGAGAATTCAGAGGAACGTTATCTTCTACAGATAAAAAAGGAAACGGAAACTGGTCCAACTCACTTCCTACACCGACTCAATCGGGAACATGGAATGGAGAAAAAAAATAA	MTELVREMYTEDNRTLGYKTTETMKKLFLLLFTAFLFIGCSSDDDTIYDYVGTWSGSYEGSDKGVWNFVVDESGKVVGTMHSDVNNENYNISGNLSETGDLNATVGLPSKGEFRGTLSSTDKKGNGNWSNSLPTPTQSGTWNGEKK				NA	NA	NA	NA	NA
BMS003_02923	684			hypothetical protein	ATGAAAACAAAAACACTATTTTTGGCAGCTCTTGCAATTTGTGGAAGTTCTACAGCACAGGTTGGGATTAATACTCCAAACCCAACTCAAACTTTAGATGTGAATGGTCTGGTAAGAGTAAGAGCGCTTTCTAATGCCGAAAAAAAGATTGTTGCAGCTGATGCAGAAGGAGTTTTGACCCTGATTTCTCCGGAAGAGATTTTTGCTCCGAAGGCCCTACTCAATACCTCCATGACTTCTACAGAACAGAGATTTACCATTTATGAAGGAAAATGCTTTCAGCCTATTGATAATGCTTCTTCCTGTACTGTTTCTATTAACCATTATACTTCCTGTTCCGGGTTCACTAACCCTGTGGATACTCAAATTGTGGTAGGTCAGCAAATTAATACAAGTAACGGACAATTTCTGGGAACCTGGGCAGCCCGGTATATTGATAATAAAGGATTTGCCAACAGCACGCCAGTGGCCAATCAGACAGCCCCGGACTATCCAAGGATTTCTTATCCAAGTGCCAATACGGTGAACTATTTAGGAAGTGGTAATTTTGCAGGCCAGTGTAATACAGATATAGTGACAACCATTAACCAGACCACCGGAGATATAAAAGTGGAGTCTGTGAAACGAAGTATGTATGCACATCTTGTATACCTTATTAATATTGCCCGTTCAAGATCTTTATAA	MKTKTLFLAALAICGSSTAQVGINTPNPTQTLDVNGLVRVRALSNAEKKIVAADAEGVLTLISPEEIFAPKALLNTSMTSTEQRFTIYEGKCFQPIDNASSCTVSINHYTSCSGFTNPVDTQIVVGQQINTSNGQFLGTWAARYIDNKGFANSTPVANQTAPDYPRISYPSANTVNYLGSGNFAGQCNTDIVTTINQTTGDIKVESVKRSMYAHLVYLINIARSRSL				NA	NA	NA	NA	NA
BMS003_02924	744			hypothetical protein	ATGGAATTTTCGCCTTTTAACCCTGTGATCAAGCTTTGTCTGCAAGGGATGAATTTTGAAGAGAAAGGAAAGCCTGAAGAAGCAGTTCAGCTATTTTTAAAAGCCTGGGAAGAAGCTTCGGACGATCACGAAAAATTTCTTGCGGCTCATTATGTTGCACGTCATCAGAAAACGGTTACAGATCAGTTAAAATGGCTTGAGACTTCCTTAGAATTTGCCTTAAAGATAAATGATGACAACGTTAAAAGTGCATTGCCATCTCTTTACCTGAATATTTCCAAATGCTATGACGATTTAGGAGATCCGGAAAAATCAAAAAAGAAAGCTGAACTGTCAGTATTACTTAAAAACAATCCGTCTGATAAAGGCCCTTTCTACCACGGAACAAAAGCAGATTTGCAGATTGGAGATCTGCTGAGAGCTGGTGGAAATTCTAATTATAAGTCAGAATTCAGAATGAATCACATTTACTTCACGGCCCTCACCAATGGAGCAGGACTTGCTGCGGCATTGGCAAAAGGTGATGGAGCAGAACGTGTATATATGGTAGAGCCCACAGGAAATTTTGAAAATGATCCCAATGTAACAGATAAAAAATTCCCTGGAAATCCTACCCGCTCTTATCGCTCCGAAATGCCACTGAAGATCATCGGGGAGATTACAGAATGGATCAGACCAAGCATTGATGACCTTCAAAGATTTCGTGAAAAATTAAATAATAATAAAGGGGAAATCATTAATTAG	MEFSPFNPVIKLCLQGMNFEEKGKPEEAVQLFLKAWEEASDDHEKFLAAHYVARHQKTVTDQLKWLETSLEFALKINDDNVKSALPSLYLNISKCYDDLGDPEKSKKKAELSVLLKNNPSDKGPFYHGTKADLQIGDLLRAGGNSNYKSEFRMNHIYFTALTNGAGLAAALAKGDGAERVYMVEPTGNFENDPNVTDKKFPGNPTRSYRSEMPLKIIGEITEWIRPSIDDLQRFREKLNNNKGEIIN				NA	NA	NA	NA	NA
BMS003_02925	1314			hypothetical protein	ATGAAAAAAATAATTTTAACAACAGTAATAGTTTTACTATCCATTTTCAATAATGCGAAAGCCCAAACGAACTTAAATTTTATTGGAAAAACATTTAATTATCAGATTGATAATTTCCACTTGAATTTAGAAATCTTATCCGACAAACAGGCAAAATGGACATACATTTCTGCACCCAATAATGAAACAGGGAAAACGGCTGTTGAAAATTGTAAAATTGAAGAAATATCAAATGGAATTTATAAAATCTATTGGACGGAGAAAGATGGTTCCAATGTGGTTGATATCTTTAATTTAAATACCAATGAAGTTTTCGTTGCATTTACTTCACCCAATAACAAACTGTATAACTACAAGACTTCTTTTAAAATTATTTCAGAAAAAAGTGAAAACATGCTTACTATAGAAAAAGTGAATTTCAAAAGTAACAACCAAAATGTGGTGGGACTTTTGTGTAAAAATGACAATAAAAAGAAGAAACCCGCAGTAGTTATTTTAGGACCAATATGTTCGGTAAAAGAGCAATCGCCTATTCAATATGCAACACGGTTAAGCGAAAAAGGTTTTGTGGCTTTGTGCTTCGATGCAAGAGGTTATGGTGAAAGTGAAGGACAACCACGCCAATTTGAGAGCTTGAATAATAAAGAAGAAGATGTAAAAGCTGCTATTGATTTTTTAATTTCGAGAAATGATGTGGATGCCGACAAAATTTTTGTTATTGGGATCTGTAACGGTACAAACGAAATCATGCAAGTAAGCATTGATGACAAACGTATAAAGAGAATAGCATTGGTTTCAGGAAATTATTTGATAAAAGAAAATATGGTGCATCTTTTAGGGAATGAAAAAATTTGGGATGCTCATTTGCAAAGAGCAAAACTTGCCAAAGAAAAATTTGAAAAAACAGGTGAAACAGATTATATAAAAATAATTGATAGCACAGGAAACGAACAACTTTTGCCGCCATTACCTATTTACGAGTGGTACCATCCTTGGGAAAATAAAGTACCCTATTTTACATATCGTGGTGGTTGGCAAAATAAAGTTACAGCAATGAGTGAATGGGAAACATTGAATTTTGATGCATTGTATGTAGCAAAGAAAATATCAAAACCCACTTTACTTATTCACGGAGAAATGAGTGACGGTGGATATGAATATGCTAAACAAATTTTCAATTCGATTCTAACAAAAAATAAAAAATCAATTTGGATGGACAAAACAGTACACTTTCAATTTTATGATGATCCGAGAGTTATTGGGCAATCTGTAAATGAGATATCAAAATGGTTTAAGCAGGGGGCACTCCTTTAG	MKKIILTTVIVLLSIFNNAKAQTNLNFIGKTFNYQIDNFHLNLEILSDKQAKWTYISAPNNETGKTAVENCKIEEISNGIYKIYWTEKDGSNVVDIFNLNTNEVFVAFTSPNNKLYNYKTSFKIISEKSENMLTIEKVNFKSNNQNVVGLLCKNDNKKKKPAVVILGPICSVKEQSPIQYATRLSEKGFVALCFDARGYGESEGQPRQFESLNNKEEDVKAAIDFLISRNDVDADKIFVIGICNGTNEIMQVSIDDKRIKRIALVSGNYLIKENMVHLLGNEKIWDAHLQRAKLAKEKFEKTGETDYIKIIDSTGNEQLLPPLPIYEWYHPWENKVPYFTYRGGWQNKVTAMSEWETLNFDALYVAKKISKPTLLIHGEMSDGGYEYAKQIFNSILTKNKKSIWMDKTVHFQFYDDPRVIGQSVNEISKWFKQGALL				NA	NA	NA	NA	NA
BMS003_02926	621			hypothetical protein	ATGTCAAAAAAAGTAATTGTTTTCGGAGCAACAGGCTTAATGGGAAAACAAATTGTAAAAGAAAATTTAAAATCAGGAAATAAAGTAAGTGTTTACATCCGACAAAACGAATATCCTGAAAATGTGACCATTATCACAGGAGAACTGAATGATGAAAACAAAATTACAGAAGCCATCAAAGGTTTTAATGTCATTGTTTCGGCAGTTGGAAACAGAAACTACGAAGACCCAACTATGGTCGTTGCACCCGTTGGAAAATTATTAGCCAAATTGGTTTTGGATAACCAACGGTTAATTATAGTTGGTGGTTCAGGACTTACGTTACAGGATAGCAAAACGTTGCGCAGAGATTTGGCAGGACAACCCGAATTTCTAAAAAATCAACGAGCCGACCATTGGGAAGCTTATACGAACATCGCACCATTAGACATAAATTATCTTTTTATCTGCCCAACAATGGTGGTTGAAGGCGATGCAGATGGAAACTATCTTTCACAAGAAAATTATTTCCCTAAAAGTGAAGCCAAGCAAATTTCGGCTGGAAATGTGGGGCATTTTATTGTAAAAGAAATTATAGAAAATAAATTTAACAAAACAAGAATAGGATTAGTAAATAGCTAA	MSKKVIVFGATGLMGKQIVKENLKSGNKVSVYIRQNEYPENVTIITGELNDENKITEAIKGFNVIVSAVGNRNYEDPTMVVAPVGKLLAKLVLDNQRLIIVGGSGLTLQDSKTLRRDLAGQPEFLKNQRADHWEAYTNIAPLDINYLFICPTMVVEGDADGNYLSQENYFPKSEAKQISAGNVGHFIVKEIIENKFNKTRIGLVNS				NA	NA	NA	NA	NA
BMS003_02927	564	trmR_2		tRNA 5-hydroxyuridine methyltransferase	ATGAATATCATTCACAATTTCTTAATCAAACACCGCAATACTTGGACAGATTATAACGTGCCTTTTGAAGACGGACAAGAATTAGAAAAACTAATACTTGCCAACAACTGTAAAAATATTTTAGAAATTGGTACTTCCAGCGGACATTCTACCATTTGGTTGGCAAAAGCAGTAGAAAAAGCAGGTGGAAAAGTAATAACCATTGAAATAGACAAAGGCAGATTTGAAAAAGCAAAAGCCAATTTTGAAAAAGCTGGAGTTTCCCATTTAATCGAAATGAAATTGGGCGATGCAATGCAGATAATCCCAACTTTAAATGAAGTCTTTGATTTTGTTTTTTCCGATGCAACGTGGAGCACACAACCTGCGGAAGGTTACACCACTTTCTTTAAACTTTGTGAGCCAAAACTGAAAATTGGCGGACTTTTTACAATGCATAATGTAACCGATGGTTATGGCGACGACGGAAGATTTTTCAAGTATTTAGAAAAATTAAGCACCTATAAAACATCAATTATTAATGTTTCGCACAACGGAATTTCAATAAGTAAGAAATTAAAATAA	MNIIHNFLIKHRNTWTDYNVPFEDGQELEKLILANNCKNILEIGTSSGHSTIWLAKAVEKAGGKVITIEIDKGRFEKAKANFEKAGVSHLIEMKLGDAMQIIPTLNEVFDFVFSDATWSTQPAEGYTTFFKLCEPKLKIGGLFTMHNVTDGYGDDGRFFKYLEKLSTYKTSIINVSHNGISISKKLK				NA	NA	NA	NA	NA
BMS003_02928	861	rhaS_12		HTH-type transcriptional activator RhaS	ATGTTTAAAACCATATCAATTGCTGACCTCATAAATCAATCTGATAATCGGGTTTATTTTTTGGTGGACAAATTCGAAGATATGGTAGAACCTGAAAATATTGAATTTCCACACAAACATAATTTTTATGAAATTTTGTGGATTACAAAGGGGACAAGCAGTCAGAATATTGATTATAAAAATTATACTATTTCGGAAGACACTTTATTTTTTATTTCGCCGGGTCAGCTGCATTTGTTTGAAGAATGGGAAAATATACAAGGTTATGCCATATTATTTACAGAACAGTTTTTTCTTCAAATATTTCAAAATAAAAATATCCTTTTTGAGCTTTCTTATTTGGATAATTTTCACGAAAACCCCTTTTTAAAACTTAAAAATGAAGATAAAAAAGCGATAGAGCCCATTGTAGATTTGCTCTATCAAGAATCTAAAAGTAGTGAGAAGTCAGCCGAAACAATTCAAGCATTACTATTGGTTTTATTAAGGCGCATTCAAAAAATATTTTCGTCAAAAAATAATCAAAATAGCAGCAAACATCAAATGGTAATTTTTAAGCAGTTTAAAAATTTAATTGAATTACATTTTGCGAAAAATCTTTCTGTTTCAGATTATGCCTCGCAACTGCATATTTCTACTCATCATTTAAACACATCCATAAAAATAATCAGCGGAAAAACACCTACTGAATTAATAAAAAAACGAATTATTTTGGAAGCACAACAATTACTAAATTTTTCCGAACTGACAGTAAGCCAAATTACCGACCAACTCGGCTTTGAAGACAGTAGTTATTTTGCACGTTATTTCAAAAAACAAGTTGGAGTTTCTCCATTAGAATTTAGAAAAAGCATCTCCTAA	MFKTISIADLINQSDNRVYFLVDKFEDMVEPENIEFPHKHNFYEILWITKGTSSQNIDYKNYTISEDTLFFISPGQLHLFEEWENIQGYAILFTEQFFLQIFQNKNILFELSYLDNFHENPFLKLKNEDKKAIEPIVDLLYQESKSSEKSAETIQALLLVLLRRIQKIFSSKNNQNSSKHQMVIFKQFKNLIELHFAKNLSVSDYASQLHISTHHLNTSIKIISGKTPTELIKKRIILEAQQLLNFSELTVSQITDQLGFEDSSYFARYFKKQVGVSPLEFRKSIS				NA	NA	NA	NA	NA
BMS003_02929	849			hypothetical protein	ATGGAAAATATATTTAAATTAGAACAGCTTACACACCTTGTATTAGCTCAATATCATCGTTGGTATCAAGTTTATGAAGTGCCATTTACAGAAAATACTATACTAAATCAAAAAGATATTTTGAGTGACGATGTCGAAATTAGTTCCCAAAATGGAACGACAAAAGGAAAAGAAGGATTAGAAGACCGCCTAAAAGTCTTTACTGGGTGGCAGAATGCACATCACGTCCAAAATTCTACGGTTACATTGTTGGAAGATGGTAATTTATCATTAGAAGCCGACATTTTATACCAAAATATTAGACCTGACAAAAGCAAATTCAGTTACACATTGCATTATTCCACCTTATTACAAAAAAAAGAAAATAATTTACCCATATTTACCAAACTAATTTTACAACCAACAGGAATTGTAGAAGATTTTAAGTTTGAAGAAGCCTATTCCGAAAATAGAGTAAAATCTTTTATGCACTATTGGCTCTATTTGATGGAGTGCCCAGACGCTAATAAGTTCAAAGAGTTGGTCGACGATAATTTTCTCCTGAACTTAAGTTCAGGAGAAACTATTTCGGATTTTGAATCTTTTAAAAATTGGATCATTTCAAACGCATCCAAGCTAAAAACAAGTACACATCAGTATAAAAATCTTGAAATATCTAACCAAAATAACACTGAAATAAAAGTAAAAGTGGATTTTGAATGGAAAGGAATTACAATTGATAATAAGAAAATGATAGCAGAAACTCATCATCAGTGGATTTTGTTAAACAATACTGAAAACCGTTTTGCAAAAATGAAGGAGATGAAAGTATTTGCTATAAAACCTTTTCTGATAGTTGATGACTTTTAG	MENIFKLEQLTHLVLAQYHRWYQVYEVPFTENTILNQKDILSDDVEISSQNGTTKGKEGLEDRLKVFTGWQNAHHVQNSTVTLLEDGNLSLEADILYQNIRPDKSKFSYTLHYSTLLQKKENNLPIFTKLILQPTGIVEDFKFEEAYSENRVKSFMHYWLYLMECPDANKFKELVDDNFLLNLSSGETISDFESFKNWIISNASKLKTSTHQYKNLEISNQNNTEIKVKVDFEWKGITIDNKKMIAETHHQWILLNNTENRFAKMKEMKVFAIKPFLIVDDF				NA	NA	NA	NA	NA
BMS003_02930	96			hypothetical protein	ATGGCATTGTCAGAGATTTACAAAGATACAAATGTAAAAATTGCGGATTTAATTTTACTGTATATAAAAGATCAAATGAATATCCAAAATCAATAA	MALSEIYKDTNVKIADLILLYIKDQMNIQNQ				NA	NA	NA	NA	NA
BMS003_02931	2961			Tn3 family transposase ISAcsp1	ATGCCTAGAAAACAAGTATTATCAGAATTTGAGATAAAAGAGTTAATTAAAATTCCAGAAACTGACGAAGAATTAATCATCAACTATTCTTTATCGGAAAATGATTTTTCAATAATAAAAAATCATTGTAGAACAAACACCAATAAGTTGGGATTTGCAGTTAATCTTAGTTATATGAGACATCCGGGAATTATTTTAGCTCCTGATTTATATCCTGATCAAAAAATCTTACAGTTTATTGGCAGTCAACTAGGAATAAATGTTTTAGAATGGGAAAACTATGGAAAAAGAGAACAAACAAGGAGAGAACATATAAGCATACTGCAATCTGTTTATGGATTTCGAATATTTACAACCAGAGATTATACGGTCTACAAAGGTTTTTTACAAGAAATAGCTCTAAAAACAGATAAAGGATTTGTTGTGGCAGAAGAATTAGTTAAATTTCTTCGTAAAAATAAAATCTTATTGCCTGCAGCTGGAACAATTGAAAGGCTTTGTTCAGAAGCAATTGTAAATGCTGAAAAAGAAATTTATGATACCCTGAGTTCTTCATTGTCCAATCATCAAAAACATTTATTAGATGCTCTTCTCAACTTACAGGAGAAAGGCAGCATTAGCCAACTAAATTGGCTAAAGCAGTCCCCACAGGCGGTCAATTCCAAATTTTTACTGATTCATATAAAGAGGTTGAGAACAATAAAAGAGATTGATCTTCCAAAAGATATTGGCAAGGATATTCATCAAACACGGTTGTTGAAAATAGCCAGAGAAGGCAGGCAGATGACACCACAGCATCTAAGGGATTTTGAAGAATCCCGGAGATACGCAACATTGGTGGCAATACTTCTGGAAACCAAAGCTTCTATCATCGATGAAATTATAGAAATGAATGATAAAATCATCGGTTCTTTGTTCAGATATGCCAAGAATACACAAGCTCAAAAAATGCAGGACTCCGGAAAATCTATGGGAGAACAGCTCGGTATATTTTTCAAAATTGGAAATGCACTTCTTGATGCCAAGGAAACAGGAGAAGATCCTTTCGATGCTGTTGAGTCGGTTATTTCATGGGAAGATCTCGCTCAAAGTATTTCGGAAACTAAAACCTTAACGGCTAAACAAAATTTTGACTCACTATATTTTATATCCGATAAATATTTTACGATAAAAAAATATGGTGGAGAATTTCTGAAAGAGTTGGAACTCCGTTCTGCCCCTGTAGCAGAAGATATTTTAAAGGCAGTGGGTATTCTGATAGATTTATATGAAGGAAAAATAAAAAGGCTTCCGGAAAAACTTCCATCAGGTTTTATAAGAAAAAGATGGGAAGAAATGGTATTTACGGAGGACGGGATTGATAGAAAGTTTTATGAACTCTGTGTATTTTCTGAACTCAAGAACCATCTGCGCTCCGGAGATCTTTGGGTACAGGGTTCAAGACAGTACAAAGATTTTGAAGATTATCTTATTCCTGCAGACAGATTTACTGAAATGAGAGATCAGAATCAAATTCCTCTGGACGTAACGTTGAATGTCGAACAGTTTCTTTTGGAGCGGATGGAACTTCTCTCCAATAAAATACAAATTGTTTGTAAACTCATTGAAAGTAATGAACTTCAGGATACTTCTATTATTAATGACAGGATAAAAATTAAACCTCTTGAAAATGCAGTTCCTGAAGAAGCAGAAGTTTTAGGAAAAAAAATATACAGTCTGCTTCCTCTTATTAAAATCACAGATCTTTTGAAAGAAGTCGATCATTGGACGGACTTTACTGATAAGTTCATTCATCTAAAATCAGGAAATAAAGCTGATGACAAAAACTTGTTACTCACTGTAATACTGTCAGATGCTATCAATTTAGGTTTAAGAAAAATGTCGGAAGCTTCTCCAGGAACTTCCTATGCAAAACTCTCCTGGCTTCAGGCGTGGCATATCCGGGATGAAACGTATTCTTCAGCATTAGCGAAAATTATCAATACTCAATCCAATCACTCATTTTCTTCTTACTGGGGAGAAGGTAAAACATCTTCTTCAGATGGGCAGCGTTTTGCCACTGGAAGCTATGCACAAAGAACCGGAAATATTAATCCGAAATATGGAAGCAGTCCCGGAGTTCAGTTTTATACCCATGTCTCCGATCAGTACGCTCCTTTCCATACCAAGGTTATTAATGTGGGAGTAAGGGATGCAACCTATGTTTTGGACGGGCTCCTCTATCATGAATCTGATTTACAGATAGAAGAACATTATACGGATACTTCGGGGTTTACCGATCATGTGTTTGCTTTGATGCAGTTACTGGGATTTAAATTTGCCCCAAGAATCAGAGATTTGAATGATAAGAAGCTGTTTATTCCTGAAGCATCTACGGGCTATTCTGCGTTATCAGAACATATAGGAGGAACCATCAACAGTAAAAAGATTATTCAAAATTGGGATGAAATCCTAAGATTGGCGGCTTCCATAAAAAATGGAACTGTTACGGCTTCACTGATTGTAAAGAAGATAGGAAGTTATCCAAGGCAAAACGGACTGGCTGTAGCATTACGGGAATTGGGTAAAATTGAAAGAACCTTATTTATGCTCGACTGGTACATGAGTCCGGAACTTAGGCGCAGAGTTACTGCGGGACTTAATAAGGGAGAAGCCAGAAACGCTTTGGCAAGAGCTGTATATTTTAACAGGTTTGGAGAAGTCAGAGAACGGAGCTTTGAAAATCAACGGTATAAGGCAAGCGGTCTTAATCTGGTGACCGCTGCTATTGTTTTATGGAATACGGTTTATATTGAAAAAGCGGTGGAACATTTAAAAGAACAGGGCGAAGAAATTAATGAAGAATTACTTCAGCATCTTTCTCCATTAGGATGGGAGCATATTCACCTTACCGGAGACTATGTTTGGGAAGACCGGATAAAATTTAAAAAGGGTCAGTTTAGAGCTCTGAGAAAAACATAA	MPRKQVLSEFEIKELIKIPETDEELIINYSLSENDFSIIKNHCRTNTNKLGFAVNLSYMRHPGIILAPDLYPDQKILQFIGSQLGINVLEWENYGKREQTRREHISILQSVYGFRIFTTRDYTVYKGFLQEIALKTDKGFVVAEELVKFLRKNKILLPAAGTIERLCSEAIVNAEKEIYDTLSSSLSNHQKHLLDALLNLQEKGSISQLNWLKQSPQAVNSKFLLIHIKRLRTIKEIDLPKDIGKDIHQTRLLKIAREGRQMTPQHLRDFEESRRYATLVAILLETKASIIDEIIEMNDKIIGSLFRYAKNTQAQKMQDSGKSMGEQLGIFFKIGNALLDAKETGEDPFDAVESVISWEDLAQSISETKTLTAKQNFDSLYFISDKYFTIKKYGGEFLKELELRSAPVAEDILKAVGILIDLYEGKIKRLPEKLPSGFIRKRWEEMVFTEDGIDRKFYELCVFSELKNHLRSGDLWVQGSRQYKDFEDYLIPADRFTEMRDQNQIPLDVTLNVEQFLLERMELLSNKIQIVCKLIESNELQDTSIINDRIKIKPLENAVPEEAEVLGKKIYSLLPLIKITDLLKEVDHWTDFTDKFIHLKSGNKADDKNLLLTVILSDAINLGLRKMSEASPGTSYAKLSWLQAWHIRDETYSSALAKIINTQSNHSFSSYWGEGKTSSSDGQRFATGSYAQRTGNINPKYGSSPGVQFYTHVSDQYAPFHTKVINVGVRDATYVLDGLLYHESDLQIEEHYTDTSGFTDHVFALMQLLGFKFAPRIRDLNDKKLFIPEASTGYSALSEHIGGTINSKKIIQNWDEILRLAASIKNGTVTASLIVKKIGSYPRQNGLAVALRELGKIERTLFMLDWYMSPELRRRVTAGLNKGEARNALARAVYFNRFGEVRERSFENQRYKASGLNLVTAAIVLWNTVYIEKAVEHLKEQGEEINEELLQHLSPLGWEHIHLTGDYVWEDRIKFKKGQFRALRKT				NA	NA	NA	NA	NA
BMS003_02932	591	hin	COG1961	DNA-invertase hin	ATGAAAATTGGATATATCAGAATATCAACACAGGATCAAAATTATAATCTACAGGAAGACGCTTTAAATAAATTAGGATGTGAAATGATTTTTAAGGAAACAGTTTCCGGAGCTAAAAAGGAAAGACCACAACTCAAAAAATTATTAGAGCAAATTCGCAAGGGTGATGTTGTAGTTGTTTATAAATTAGACAGACTTGGAAGATCTTTAAAACACCTGTTAGAAATTGTGGAAATATTAAATTCTAAAAATGTAGCTCTACAAAGCTTACATGACAATATAGACACTACAACTCCGCAAGGAAGATTATTTTTTAATATTTCAGCATCTTTTGCAGAATTTGAAAAGGATCTAATCCGAGAAAGAACAAAAGCAGGCTTGGAGGCAGCACGGGAAAGAGGGAAGAAAGGAGGTCGCAGGAAAGGATTAAGTAAGGAAGCTCAGCAAAAAGCCATTATTGCAGAAAATTATTACAATGAAGGTATAAAAAGTGTCAACGAAATTGCCACTGACTTGAAGATTTCAAAAATGACATTGTATAAATATTTGAGAGAAAGAAATGTCGAGATAAAAGCTTATAATAGAAAGTAA	MKIGYIRISTQDQNYNLQEDALNKLGCEMIFKETVSGAKKERPQLKKLLEQIRKGDVVVVYKLDRLGRSLKHLLEIVEILNSKNVALQSLHDNIDTTTPQGRLFFNISASFAEFEKDLIRERTKAGLEAARERGKKGGRRKGLSKEAQQKAIIAENYYNEGIKSVNEIATDLKISKMTLYKYLRERNVEIKAYNRK				NA	NA	NA	NA	NA
BMS003_02933	1527			hypothetical protein	ATGTGTGCATTATCTCTATGCACTATTACGGGCGTATTTGCTCAAGAGGTACTTTGGCAGAAGGATATAAAATCCAGTTCGCAGGATTTTCTAAGCCAGATTACTACTACAATTGACGGACAATATCTTGCCACAGGAAGCTCTATTCAAAGTGATAAACTTAGGCAGAACAGCAAACAAAACAACGGTTATGATTTTCACCTTGTAAAACTGAATCAGCAGGGAGAACAGGTTTTTGAAAAGTATTTTTCAGGAAACAATCACGACTATTTATCTTCAACTGTCACTACCCAGGACGGTGGTTTTCTTGTCTCAGGAACATCATATTCAGGAAAAGGTCAAGATAAAAAAGATGATTCTAAGGGAGGATCAGACATTTGGCTCATTAGAATCAATGAATTTGGAGATGAATTATGGCAGAAAACCCTAGGAAGCTCTTCAGATGAAGAAGCAAGAGCTGTGATTCAGACTACAGATCAGGGATTTTTTGTAGCTGGAAGTGTACAAAATTCCTCTAAAGGTTATGGTTCCAAAGATGTTTTGATCATTAGGTTAGATAAGGACGGAAAAACACTATCTGAACAAACATTGGGAGGACGTGGACTTGATGAAGTAGAGAAGATGATCCCTACTCGTGATGGAGGAGCACTACTTGGAATATATTCCAGAAGCTCTATAAGTGGGACAAAGAAAACAGAAAACTTTGGCGAAGGTGATTACTGGATTGTAAAGCTGGATAAAAATGGGAAAGTAGAATGGGAAAAGAATTTCGGAGGAAAAGGTGATGATCATATCAGAACGTTAGCGTTAACTTCCAGTGGCTTTATTATTGGCGGAGAATCCAGATCAGAAAGATCGGGTAATAAAACTGTAGGAATAGAAGAAGGAACAGATCTTTGGCTGATTTCGTTAGACCAAAACGGGAATGAGCAATTCCAAAAATCCTACAGCTTTGGCAACCGTGATATTCTAATGGGCATGAACGTTCTGCATTCAGCAGATGATAAGTCCTCAAAAGGCATTCTACTAGGAGGCTATACCCAGGCTGAAGGTAGAATACAAACCGATGATGAAACTTTCTGGATGCTATATTTAGATCAAGAAGGAAGTGAACAGTGGAGAAAACATGTAAAAGGAGAATCTAGAAAGAAGGAAGAAAGGCTTTCTGATTTAAAGCTAGATAAAGATGGTTCAATTGTTCTGGCTGGTACAAGTGCAGAAGAACTCGGAAAAGAAAACTGGAAGATTGTAAAGCTTGGAGACAAGCAGGTAAATGATCTGATTGAAAAATATGATATCAAGATTTATCCAAACCCTGTATCAGATTATGCTTACATAGAAATTGGTTTTGACTTCAAGGATGCCACTATACTGTTATACGATATGTCTGGAAGACAGCTCCAAAACATCATGACTAAAAACAGAGTTACCAAAATCAATACTCAGGCACTTATTCAAGGAGCTTATCTGGTAACGATCAAAACAGATACTAATAAAACAACCAGCGCTAAGCTGATAAAAAAATAA	MCALSLCTITGVFAQEVLWQKDIKSSSQDFLSQITTTIDGQYLATGSSIQSDKLRQNSKQNNGYDFHLVKLNQQGEQVFEKYFSGNNHDYLSSTVTTQDGGFLVSGTSYSGKGQDKKDDSKGGSDIWLIRINEFGDELWQKTLGSSSDEEARAVIQTTDQGFFVAGSVQNSSKGYGSKDVLIIRLDKDGKTLSEQTLGGRGLDEVEKMIPTRDGGALLGIYSRSSISGTKKTENFGEGDYWIVKLDKNGKVEWEKNFGGKGDDHIRTLALTSSGFIIGGESRSERSGNKTVGIEEGTDLWLISLDQNGNEQFQKSYSFGNRDILMGMNVLHSADDKSSKGILLGGYTQAEGRIQTDDETFWMLYLDQEGSEQWRKHVKGESRKKEERLSDLKLDKDGSIVLAGTSAEELGKENWKIVKLGDKQVNDLIEKYDIKIYPNPVSDYAYIEIGFDFKDATILLYDMSGRQLQNIMTKNRVTKINTQALIQGAYLVTIKTDTNKTTSAKLIKK				NA	NA	NA	NA	NA
BMS003_02934	2991			hypothetical protein	ATGAAATCTTTTTATATAAAAACTTACAGTCTTTTATTTATTATATTGGGCTGCTCTTTCTTACAGGCACAAAATGAAAGTCTTCTGGGTTTACCACAAATTGCGGCTCCTTCGGCTTCTTTTTATTCAGCTGTTAAGAGTAATCAATTTTCAGAAAAGCTTTATACAGGTTCTTTCACAGAACAAATACCATTATTTAACATTCCTATAAATAAAATTAATGGACGGTCGGTTGACTTTAGTTTGCATTACACATCAAGAAATTTTGTTTCTTCTATACTTCCTTCTATCGTAGGAAATTGGGATATAAATAATTTGGGTGAAATAAGTACAGAATGGGTTCCTACTGATAGTCACTGGGATAATACCGCAACTTGGAATGATAATGCTAGTAACTTTGGATTTGAAGAAGAAGGCTCTCCCAATTGCCCTTTTCCTTGTTCACCTAAATATTATGATAATTTCAATTTTAGAGATACCCATCGAAAGTATTATTTTAATTTTCTTGGAATATCAGGATATTTTTATGTTGACTGGAAAGGAAAACCTATTATTTACTCTGAAAATTCTAGTCTGAAAATAGATCTTTCAAACTATGGAGTTAGAAATTATTCCACGATATTTTCCAATAATTGTAATGTTGGAAGTTCAGAAATAGTAATTACGGATGATCATGGAAATAAATATTACTTTGGAGGAGATGATAATGCTCTTGACACCGCATATTCAACTAATAAATCCTTTAATGATGGCTGTTTTTACGATAGTGAAGCTCCTTGTTATATAGATTCATATAGCTATACTTATATTAGTACATGGCATTTAAGAAAAGTAATATTTTCTTCAGGAGAGCTTATAGAGGTTGTCTACAAAAACAATAATAAAAAAAATACTTTTTCATCTTTCTGTAATAGTTTACAATATGAGTATAATGGACATTATACATTTTATAATAGATTACCTGACCCCTCTTTTCCATCTCTTGATGCAATAAAGAGTGACAGTATTAATTATCAAAAAAGAATAATGTCTAGCGGGATGAAGAGAGCTCCAGAAATACTCAATGGGAATCTTGTTCTCCATTCTGCTGCTACTTTTGCGCAGCCTAATATTTTAGCTGTTAAAAAGGCTACTATTGATTATATCAATATAAATAATTTTTACAAAATAAAATATAAATATACTATTCCTCAAAACCAGGAAGAGAATAATTATTTTCTTTTAACTAATCTAAAATTATATGCTGGAAATACAATTGTAAAACAAGTTGATTTAGTATATAATCAATTGGGAGTAAATTATAAGAGAGATTTTTTGACTAAGGTAAAGATTAATGCTACAGATACATATGAATTCAATTACTATCATACAGATAAATTTCCATCTTATAGCAGCCCTTATGCCTTTGACACTTATGGATGTTATAATGGGGAATCAACAATTGGAGTTGGAGAAGATGGAACAATAAATCCATTTATACCTGTTAATTCAAGAAAGAATATTACAAATTTGGCATATTACGATGTAGGTCTGTTAAAATCTATAATTTATCCTACTAAAGGAAAAAGAGAAATATTATATGAGCCTGCCGATTTTTCAACTGTTTTCGCTGCAAAATCTAATGATTGGAATTTTCAATTTATAAATGCCAAAGGTCAAATAGCCGTCCCAAGAATTAAAAAGATAAGTGATTATGATAATAACAATGTACTGCTAAAATATAAAGATTATAATTACCAGAGTGGTGGAAAATCTACAGGAATTCTCTACAATTTATCTGAAATGATTGATGTTGGCGGATACACACCTACTCTTTCTGTATATTCATATGTACATGATCCATTTAATATAGATCAGAATTACAAAACAAATTTAGTTACATATGAAAAAGTAGAAGAAAATGAAGGAAAAGGAAAAACGATAACAGAATACACAAGTCATAAGACAAATCCTGACACTTATAACTCAACCTCGTATAATCCACTTAATGGTCAACCATATGATCTATATGGAAATAATAATCAACTGACTTATAATTCCTATTCTCCTGAATCAAATGATTATCAAAGAGGCATGCCTGTTAAAAAAATTTATTTAAATAACAATAATGATACTCTGAGAGTTGAAAAATATAATTATAGTAAACAACTTGTACAGAATGGAGCTTATGTTACAGAAAGATTTTACAACCGTTTTGAAAATTCTCGGGTTAAAAAATATATTAACTATTTTAAGTTAGATAAAATAAAAAGTACAGATTATTTTGGGGTTAACAAGTTTAATCAAACTACTAGTCTGTATTACTATGGACTAAACTTAAATTTAAAGTCTAAAGAACATGTTGATGCTTCGGGTATTAATAGTGAGCTATACACCTATCCTGATCAAAGTTCTGATCCGCAGTATAATACAATTGTAAGCAAGAATATTATTGGGTCGCCAATAAGTATTGAAAAGTTTAATAATAATAATTCACTATTCAAAACACAAACCAATTATGGTGCAAGCTCAATATTTCCTATATCAGAAACAGTAACAGATATTAACTCTGTAACGTATGTTAATTTGGCCTACGATCAATATGATTCTCTTGGAAATATATTACAATATACTAAAAAAGATGGTGTTTCTACGGTGATCATTTGGGGATATAACAAGACCCAGCCTATTGCAAAGATTGAAGGAGCAAAATTAGCAGATATTCCACAGTCATTGATTGATTCAATTGTTAATGCATCCAATATCGATGCCCAGGCACCTAGTGGTAATGATGAGACTTCATTTTTTGCCCTTTTGGATTCATTCAGACTGAATTTAGCCAGCTATCTTACTACAACTTATACTTATGACCCTCTTATTGGAGTTAGAAGCATCACCCCGCCATCAGGCATCAGAGAAAATTATATTTATGATTCAGCAGGTCGACTTGAAAAAGTGATCAATATGGATGGCAAAGTGCTGAAGGAGATGAAATACAACTACAAACAATAA	MKSFYIKTYSLLFIILGCSFLQAQNESLLGLPQIAAPSASFYSAVKSNQFSEKLYTGSFTEQIPLFNIPINKINGRSVDFSLHYTSRNFVSSILPSIVGNWDINNLGEISTEWVPTDSHWDNTATWNDNASNFGFEEEGSPNCPFPCSPKYYDNFNFRDTHRKYYFNFLGISGYFYVDWKGKPIIYSENSSLKIDLSNYGVRNYSTIFSNNCNVGSSEIVITDDHGNKYYFGGDDNALDTAYSTNKSFNDGCFYDSEAPCYIDSYSYTYISTWHLRKVIFSSGELIEVVYKNNNKKNTFSSFCNSLQYEYNGHYTFYNRLPDPSFPSLDAIKSDSINYQKRIMSSGMKRAPEILNGNLVLHSAATFAQPNILAVKKATIDYININNFYKIKYKYTIPQNQEENNYFLLTNLKLYAGNTIVKQVDLVYNQLGVNYKRDFLTKVKINATDTYEFNYYHTDKFPSYSSPYAFDTYGCYNGESTIGVGEDGTINPFIPVNSRKNITNLAYYDVGLLKSIIYPTKGKREILYEPADFSTVFAAKSNDWNFQFINAKGQIAVPRIKKISDYDNNNVLLKYKDYNYQSGGKSTGILYNLSEMIDVGGYTPTLSVYSYVHDPFNIDQNYKTNLVTYEKVEENEGKGKTITEYTSHKTNPDTYNSTSYNPLNGQPYDLYGNNNQLTYNSYSPESNDYQRGMPVKKIYLNNNNDTLRVEKYNYSKQLVQNGAYVTERFYNRFENSRVKKYINYFKLDKIKSTDYFGVNKFNQTTSLYYYGLNLNLKSKEHVDASGINSELYTYPDQSSDPQYNTIVSKNIIGSPISIEKFNNNNSLFKTQTNYGASSIFPISETVTDINSVTYVNLAYDQYDSLGNILQYTKKDGVSTVIIWGYNKTQPIAKIEGAKLADIPQSLIDSIVNASNIDAQAPSGNDETSFFALLDSFRLNLASYLTTTYTYDPLIGVRSITPPSGIRENYIYDSAGRLEKVINMDGKVLKEMKYNYKQ				NA	NA	NA	NA	NA
BMS003_02935	3798			hypothetical protein	ATGAAAAAAATAATTATTTCCATAAGCACATTGTTTGTAGCGGGTTTGCTTCACGCACAAATAACACCTAGCATAACGGAAAACTATATCTTCAGCAAAACCTGTCTGAGTGCAGATTGTGTAAAGAACGCCTTAACCGTTCAGTATTTTGACGGGTTGGGAAGACCAAAACAAATCATCAATGCATTAGCATCCCCTACTGGGAAAGATGTGGTTACTCATATTGAATATGACCAGTTTGGAAGGCAGGTTAAAGAATATCTGCCTGTGCCTCAGATGGGGACTTCCAACGGGGCTATTTATTCAGGGCCGTTGGGAGTGTATCCCAATACGTATGGTTCAGAAAAGATTTATTCTGAGAAGATTCTGGAAAACTCACCTTTAGACAGAATACAGCAGCAGATTCAGGTGGGTAATGATTGGAGCACCAAACCTGTTAAATTTGAATATGATACTAATGGACTTAACGAGGTGTATCAATATGTGACCACCCAAAATGTATGGGACAATGGAGCTACAAAAAGCAAGCCGCAACTATCCTCAGCTACGATCTATGCACCTAACCAGCTCTATAAAAATTCAGTGAAAGATGAAGACGGAAATGAAACCATAGAATTTAAAAATGGGAAAGGTCAGGTTCTGTTGGTTAGAAAAGTATTGAGTTCAGCAGAACATATAGATACTTATTATGTCTACAATGAGTATGATCAACTATCTTTTGTGATCCCTCCTAAAGCTGTTCATCAGGCTGTTACGGATGAATTACTGGATAATTTATGCTATCAGTACCGTTATGACGGCAGAGGACGACTTGTAGAAAAGAAACTCCCGGGCAAAGGCTGGGAATATATGTTGTATGACAAACAAGACCGGCTTGTAGGAACTCAGGATGCCGAATTGAAGAAAAAAGGACAATGGCTGTACACCCAGTATGACCAGTTTAACAGAGTGGTTATTACCGGGCTTGCTACCGGAGGAACCCGCAGTGCGGAACAGGCATTAGCTGATGGTTCAAATAATATGACACGGACTGGTTTTGTGGTTTTTAACAGGCAGGGAATGAATGTTTATTATGACCCTGGTGTTACCTATCCTCATGCCTCTAAATGGGTCTCTTTATTATCTGTAAACTATTATGACAGTTATCCGGCATATAGTTTCAGCCCATCTTTTCCTTCCACTATTATAGCAGAATCTGTATTGACAGAAACACCAGGTTCGGATGGCAGAAGTACCAAAGGACTTCCTGTGATGAGCTTTGTAAAGAATATTGAAGATGATAGCTGGACAAAGAACTATACCTATTATGACAGATATAGTTTCAGCCCATCTTTTCCTTCCACTATTATAGCAGAATCTGTATTGACAGAAACACCAGGTTCGGATGGCAGAAGTACCAAAGGACTTCCTGTGATGAGCTTTGTAAAGAATATTGAAGATGATAGCTGGACAAAGAACTATACCTATTATGACAGAAAAGGACGAGCCATTGGAACCCATTCCATCAATCATTTGGGAGGATATACCCATACAGAATCTAAGCTGGATTTTGCAGGTCTTGCTTTGCAAACCATTACCACCCATTTACGAAAACCGGGTGAAACAGGAATCACTGTAAAAGAGCGCTTTGTATATGATAATGGAAACAGACTGAAAGAACATTACCATCAGGTAGACAGCAATCCCGAAGAGCTATTGGCTAAAAACAGCTATAATGAACTCTCTCAGCTGATCAACAAAGAGGTGGGAAACAATCTTCAGAGTATTGATTATACTTACAATGTAAGAGGCTGGATGACTGATGTTAACAAAAATCAGATGAGCCTTACGGATTTGGGAGGAAAGCTTTTTTCTTATAAAATCAAATATAACCAAAAAGAGGGTATTACCAATGCTGACCCTGCACAATTTGTAGGCAGGGATGTACTTCCAAAATACAATGGCAATATTGCAGAAGTAGATTGGAGAACCGTTGAAACATTGGGCGTAAACCCTTCGTTAACACCAAAAAGGTATGGCTATGCTTATGATAGACTCAACAGACTGACGGCCGGGTACTATCAAAATCCTAACAACCCATATAGTAAAGAGAATACAGAATCTTTACTGTATGATGTGAACGGGAATATTACCGCCCTTTACAGAACTTCTGTGATGGAGAATGGAAGTACTACAGCGACTGTTATTGATAATCTTGCGTATGATTACATAGGAAATCAGGCTATAAAAATCAAGGATAATAGTAACAATAGTACTGGCTATGAGGGTACAGTTGGCCTTCCCATCGGATATGATGCCAATGGAAATATGACCTCAATGCAGGATAAGCAAATCTCAGAGATCAAATACAATCATTTGAATCTTCCTCAGGAAATGAGTATAGATTTTGGTCCTTCCGGTACTGTTATAAATACAATGTATGGATCAGATGGTACAAAGCTGCAAAAAACTGCCGTAAATAGTATTGCAGGATATAACAACGTTACCACCACCACAGAAAAAACAGATTATCTGGATGGGTTTCAGTATTATAAAAAAGAGATCATAACTTCAGGAGGAGATCCTGGTGGAGAATTTGAAATGATGACAGCCAGAGCCATGGAGCCCCAGGCTTTCTCACTGGACGATAATAGTCTTTCCCCTCCTCCGGCACAAACTCCCGATTTACAGTTTTTCCCAACTTCTGAAGGATTTTATGATTATCAGAAAAATCAATATATTTACCAATATAAAGATCACTTAGGAAATGTAAGAGTGAGCTTTGGGAAAAACAGCACAGGTGCTCTTGAGATAACAGATGCTAATGATTATTATCCTTTTGGTATGAACCACCTGAAAACGGGTAATGCTTATTTTGGAGCTGGAAAATATCAGAACTACAAGTATAATGGCAAAGAGCTTCAGGAGACAGGTATGTATGATTATGGGGCGAGGATGTATATGGCAGATATTGGTAGATGGGGAGTTATTGATCCACTGGCGGAAAAATCAAGAAGGTTTACGCCCTATAACTATGCAATAAATAATCCCATACGATTTATTGATCCTGATGGAAGATCTGAAACAGATTGGTTTACAAACTCTATGGGACAATTACAATTTAGAGATGATATTAAGAGCCAGCAAGATTTAGATGATAAAGGTATAAAAGGGACTTATGTCGGCGAAACATCCCAGCAGGGAAGCTTAAATTATGCATCAGACGGATACGTTTATGATGAATCTGCTGGAGGGAAATCAATTGCTGATGGAAGAGTTCACGACGTTGGAGAAGTTTCAATACTTTCAAAAAGTGCTATTGCAGGAAGAAACCTTGATGCAGCTAGAACAAGATTAGGTACAGCAGAAAATGCTTTTTGGGGACGTTATGCTATAGGGTTTACTTTTGGAGGTTCCTTCGCTCAAAGTTCAGGAAGTTTAACTTTTGCTTATAACCCAGGTACTGGCCAAGCAAATTTATTTGGAACTTATGGAGAACAGGATATGCCAAGTGTAGGAGCTGGTTTTCAATTAAACTTCATGGAAGCATATGGCACAAAACCCGATGGACAGAAATACACTAATGTTTTTGAAGGAGCAGAAGGAGAATCTACTGTTTATTCAGGATCAGTTGTGGTTGGTGGTGAATATAGCAAAAGTTCTTCAGATAGGAAAGAGTCTCCTTATGGGACAAAGACCAGAAGCGTTAATTTAGAATTAGGATATGGTTTAGGTAGGTCTAGAACACAGACTATAAGTATAAGTAACTGGATAAAAGCTCACCCTCAGTATTTTAAAATTGGACATTCAAGTAATTAA	MKKIIISISTLFVAGLLHAQITPSITENYIFSKTCLSADCVKNALTVQYFDGLGRPKQIINALASPTGKDVVTHIEYDQFGRQVKEYLPVPQMGTSNGAIYSGPLGVYPNTYGSEKIYSEKILENSPLDRIQQQIQVGNDWSTKPVKFEYDTNGLNEVYQYVTTQNVWDNGATKSKPQLSSATIYAPNQLYKNSVKDEDGNETIEFKNGKGQVLLVRKVLSSAEHIDTYYVYNEYDQLSFVIPPKAVHQAVTDELLDNLCYQYRYDGRGRLVEKKLPGKGWEYMLYDKQDRLVGTQDAELKKKGQWLYTQYDQFNRVVITGLATGGTRSAEQALADGSNNMTRTGFVVFNRQGMNVYYDPGVTYPHASKWVSLLSVNYYDSYPAYSFSPSFPSTIIAESVLTETPGSDGRSTKGLPVMSFVKNIEDDSWTKNYTYYDRYSFSPSFPSTIIAESVLTETPGSDGRSTKGLPVMSFVKNIEDDSWTKNYTYYDRKGRAIGTHSINHLGGYTHTESKLDFAGLALQTITTHLRKPGETGITVKERFVYDNGNRLKEHYHQVDSNPEELLAKNSYNELSQLINKEVGNNLQSIDYTYNVRGWMTDVNKNQMSLTDLGGKLFSYKIKYNQKEGITNADPAQFVGRDVLPKYNGNIAEVDWRTVETLGVNPSLTPKRYGYAYDRLNRLTAGYYQNPNNPYSKENTESLLYDVNGNITALYRTSVMENGSTTATVIDNLAYDYIGNQAIKIKDNSNNSTGYEGTVGLPIGYDANGNMTSMQDKQISEIKYNHLNLPQEMSIDFGPSGTVINTMYGSDGTKLQKTAVNSIAGYNNVTTTTEKTDYLDGFQYYKKEIITSGGDPGGEFEMMTARAMEPQAFSLDDNSLSPPPAQTPDLQFFPTSEGFYDYQKNQYIYQYKDHLGNVRVSFGKNSTGALEITDANDYYPFGMNHLKTGNAYFGAGKYQNYKYNGKELQETGMYDYGARMYMADIGRWGVIDPLAEKSRRFTPYNYAINNPIRFIDPDGRSETDWFTNSMGQLQFRDDIKSQQDLDDKGIKGTYVGETSQQGSLNYASDGYVYDESAGGKSIADGRVHDVGEVSILSKSAIAGRNLDAARTRLGTAENAFWGRYAIGFTFGGSFAQSSGSLTFAYNPGTGQANLFGTYGEQDMPSVGAGFQLNFMEAYGTKPDGQKYTNVFEGAEGESTVYSGSVVVGGEYSKSSSDRKESPYGTKTRSVNLELGYGLGRSRTQTISISNWIKAHPQYFKIGHSSN				NA	NA	NA	NA	NA
BMS003_02936	330			hypothetical protein	ATGAAATCATTAATGCTTCTTAGCCTATTTCTTTTTATACTTTCTTGTGGAAAAGTTAATTGTGTTGAATATACCAAAATGCTCTCCAAAGAAGAATGTATAATAGTAGTTGAAATTCCTCCTTCATCTTCAGTTTGGTTTGAGGTGAAAGGTTATGATCCTGCTACTCAAATACCTAAAATATGTAAAACCAATAATAGATGGTGGAATTTATATTGGAATGAAATAGAAGTTGGAGATACAATAGTAAAAAAGAAAGGAGAATTAATCTTTAATATTCACAAAAAAGATAGTATTATTACTCACTTTTGGAAATGTTATGAAGAATAA	MKSLMLLSLFLFILSCGKVNCVEYTKMLSKEECIIVVEIPPSSSVWFEVKGYDPATQIPKICKTNNRWWNLYWNEIEVGDTIVKKKGELIFNIHKKDSIITHFWKCYEE				NA	NA	NA	NA	NA
BMS003_02937	432			hypothetical protein	ATGAAAAAAGCTACTTTAGTAGTATTGACTTACTTTCTTTTTATCGGCTGTAGTTATGATAAAATTTATGAAAATAGAGAATCTGATAAACAAGATGCTCAAAAAGTTATTAATAAATTTTATTTTTTAATACAGCAAAATAATAGGGAGGATGCATTTAGGCTGTTTAATCAAAAAACAACAAGTAAAGAAAAATTTAATTTGGTACTTGATAAAATAGAAAATGAAAACGGAAAAATAAGAAATGATAGTCTCTCTACATGGCAGACACTTGTAGTTAAAGGCACAAATCCAAAATCTAATTATTTGCTAACCTATGAAGTAGATAGGGATTTTTCTCATACTCAAGAAACATTTATTATGCAAAAAGAAAATGATACCATTAAGATAGAAAAATATAAGATAAATTTTGATATTTTACAGAATAAATAA	MKKATLVVLTYFLFIGCSYDKIYENRESDKQDAQKVINKFYFLIQQNNREDAFRLFNQKTTSKEKFNLVLDKIENENGKIRNDSLSTWQTLVVKGTNPKSNYLLTYEVDRDFSHTQETFIMQKENDTIKIEKYKINFDILQNK				NA	NA	NA	NA	NA
BMS003_02938	531			hypothetical protein	ATGACAAATTTACAAAATTGTCTTGATTCTTGCAGTATCTATGTAGGAACGTATGCAAAGTACAACAACGGAAGCCTTTATGGTAAATGGTTAAATCTGTCTGATTATTCAGATTATGACGAATTACTTACTGCAATGTATAAACTACATTTTGACGAATCTGATCCAGAATTTATGTTTCAGGATTATGAAAACTGTTCTTTCTTTGAAAAGTTAGAATTAATAGGAGAAAGTTATTTATCAGATGAAATATTTGAAATAGCCCAGCAAATAAACGATTCTAACTATAATATTGAAGTTTTTGAATCTTATATAGACTGTATTGGAAAAATGGATTTTCAAAGCATTTATGACGGAGTAGTAAGCTATTATATTGGTGAATATTCAGACGATGAAACATTTGCTCAGTACATATTAGAAGAGAGTATTCCTGAAAGCTTACCTAACTACATTTATATTGATTGGGAAACTACAGTACGGAATCTGATGTATGATTATTTTGAAAGTGGAGGATATTATTTTAAATCGTAA	MTNLQNCLDSCSIYVGTYAKYNNGSLYGKWLNLSDYSDYDELLTAMYKLHFDESDPEFMFQDYENCSFFEKLELIGESYLSDEIFEIAQQINDSNYNIEVFESYIDCIGKMDFQSIYDGVVSYYIGEYSDDETFAQYILEESIPESLPNYIYIDWETTVRNLMYDYFESGGYYFKS				NA	NA	NA	NA	NA
BMS003_02940	537	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGCAACTCTATACAGAAAGACTTCTTCTACGGGATATTACTCTTGATGACAAACAGGATATTTTCGATTACCGTTCCGATGCGGAAGCGAATAAATTTCAAGGCTGGATTCCTGAGACTCTGGAAGATGTGGAAAGCTTTATCCAAAGAAATACTAAAGAATTTAATCAGCCTGAAAGCTGGTACCAGCTGCTGATTACCGATAAAGAGACAAAAGCTGTCATTGGAGACATCGGAGTTCATTTTATCGGAGATGACAACGTACAGGCAGAATTTGGAATTACATTAAGCACTTCTTTTCAGAGCAAAGGCTATGCTTCTGAAGCTTTAAAAGGGATTATAGATTACCTTTTTAATGACTTACATAAGCACAGAATTATGGCTTCCGTAGATCCTGACAACACGGCTTCTATTCAATTGATGGAAAGACTCGGATTAAGAAAAGAAGGACATTTTGTAAAAAGCCTGTTCTGGAAAAACAACTGGGTAGATGATGTTATTTTTGCTGTTCTTCGGGAAGAATGGTCAAAAAAATAG	MQLYTERLLLRDITLDDKQDIFDYRSDAEANKFQGWIPETLEDVESFIQRNTKEFNQPESWYQLLITDKETKAVIGDIGVHFIGDDNVQAEFGITLSTSFQSKGYASEALKGIIDYLFNDLHKHRIMASVDPDNTASIQLMERLGLRKEGHFVKSLFWKNNWVDDVIFAVLREEWSKK				NA	NA	NA	NA	NA
BMS003_02941	1032	hsaA		Flavin-dependent monooxygenase, oxygenase subunit HsaA	ATGCTGAGTACTAAAGAAATCAGACAGGAACTTCATGGAACTTCTGGAATTTCTGATGAGGTAATACAATATATTCACGAAGAAGGGTTACTTACAATCTGGGTTCCCAAAAAGTATGGAGGACTCGGCTATCGTTTTGAAGAAGGGCTTAAAGCATTATTCGGCTGGGCTGAGATTGACGGAAGCTTTGGATGGATGCTGACACTTTGTGCAGGAGCCAATTATTTTTCCAGAAATATTAAACCTGAAATTGCTCAATTACTTTTTATGCATTCCGAAACCTGCTTTGGCGGAAGCGGAATGATTGGCGGTACAGCCGAAAAACAAGGTGATCATACCTATCTGATTAATGGTTCATGGAATTTTGCAACAGGAGCTCCCCATCTCACACATTTTACATTAAATGCTAAAATTACAGAGAACGGACTGCCCATGAGAGATGAGGATGGCAATGAAATCATTCACTCATTTATAGTACCGAAAGAACATGTGAAGATTATTCCCAACTGGAAATCTATGGGAATGAAAGCCAGCGGAACTTATTCTTTCACTGTTGAAAATGTTCTCGTTAGTAAAGATTACACTTTTGTTTATGATACTTTTTTCACGAATGATATTCTGGACAGTATTCCGTTTCGGGTTTTTGCAGATCTTACGCTATTGGCCAATTATTTGGGAATGGCTTCTCATTTTATTGAAGAGGCAGAATTGATTCGTCCTGAGATTAATTTCAAAAGTTTTGCGGCGTCTGTTGAAAAACATTTGGAAAAGATATTAAACATTGCCAGAGAAGTAGAAAATATACTTGGTGAAAACAAAGAGATTCCGGAGGATAAACAACATGAAATTCACCAATATGGAGTAGAAGTGGTAGAAAAGTTATCTAACCAAATTCTAGCCATCTATACACAGCTTGGAATCCGGGCAACAGCCACAAATTCTGTAGTGTATCAGGTGTTTTGTGACTATTTTACAGCAGCCATGCATTCCAATTTCAGGCCTTGCGCTGAAGATTTAAACTTTTCTTTTTGA	MLSTKEIRQELHGTSGISDEVIQYIHEEGLLTIWVPKKYGGLGYRFEEGLKALFGWAEIDGSFGWMLTLCAGANYFSRNIKPEIAQLLFMHSETCFGGSGMIGGTAEKQGDHTYLINGSWNFATGAPHLTHFTLNAKITENGLPMRDEDGNEIIHSFIVPKEHVKIIPNWKSMGMKASGTYSFTVENVLVSKDYTFVYDTFFTNDILDSIPFRVFADLTLLANYLGMASHFIEEAELIRPEINFKSFAASVEKHLEKILNIAREVENILGENKEIPEDKQHEIHQYGVEVVEKLSNQILAIYTQLGIRATATNSVVYQVFCDYFTAAMHSNFRPCAEDLNFSF				NA	NA	NA	NA	NA
BMS003_02942	594			hypothetical protein	ATGCAGGACATTTTAAAACAAATTACCTTACCGGAATGGTTCGGAGTCTTATTTTCTGTCATTCAGGTTTTACTGGCCCGTAAAAACAATGTCAACAACTATCTTTTCGGAATTGCAGGTATTCTGCTTACATTGTATGTGATGCTTACTTCAAAGCTTTATGCTGAATTTACCTTAAACCTTTATTATCTGATTATGAGTATCTACGGATGGTTGTACTGGAAATTCGGGAAACAAAAAACTGAAATGGAAATTTCGGTTACAACTAACACAGAAAAATGGATTGCCGGAGGAATTGTTCTGGGAACTTTTATCTTATTCTGGTCTTTTCTGACTCATTTTACCGATTCGGATGTCCCGGTCTGGGATTCTCTGGTGAGTGCTTTTGCCTGGGCAGGAATGTGGCTGATGGCGAGAAGGAAAATTGAAAACTGGGTGATACTGAATGTCAGTAATATTATTTCCATTCCTTTAATGATTCATAAAGAGCTCTATCTCTATGCTGTTTTAACATCATTTCTGTTTTTGGTGGCAATCTCCGGATATATAGAATGGCAAAAAATTATTAAATCCAAAGCGAATGCTGAGTACTAA	MQDILKQITLPEWFGVLFSVIQVLLARKNNVNNYLFGIAGILLTLYVMLTSKLYAEFTLNLYYLIMSIYGWLYWKFGKQKTEMEISVTTNTEKWIAGGIVLGTFILFWSFLTHFTDSDVPVWDSLVSAFAWAGMWLMARRKIENWVILNVSNIISIPLMIHKELYLYAVLTSFLFLVAISGYIEWQKIIKSKANAEY				NA	NA	NA	NA	NA
BMS003_02944	612			hypothetical protein	ATGACCCAGCTCAGTTTGTTCAGTTCAGAAGAATTATATGAATTTCCAAAAGACCTTCTGGAATATAGAGAACAGTTTCTGAACCTGGAGGAAGCAGATAAGCTTAAGAATCATTTGCTTGAAACAGCTCCATGGAAACAACGTACTCAGAAAATGTATGATAAGGTGGTTTTGACACCGCGCCTGACAGCTTGGTATGGAGATGAGAAAACGGCTTACCCATTAGGAAATGGTGAAGTGGAGAATAATTTCTGGACTCCTGAACTGTTTTCTTTAAAACAAAAGATAGAAAAAACATTCGGTTATCATTTCAATTCCGTACTGCTTAATCTTTACAGGGATCATAATGATTCTGTTGCCTGGCATCGGGATAATGAAATCAGGTATGGAAGCCGTCCGGTGATTGCATCATTAAGTTTAGGGCAAACGAGAAACTTTGATTTCAGAAAAAAAGATCACCACCAGAGCAAGTACAGCCTTCCTCTTCCTCACGGCTCATTATTGATTATGAAAGGAGATCTTCAGGAAAACTGGGAACATCGGGTTGCTAAATCTGTAACTTATATGAAAGAGCGTATTAATCTTACATTCCGGCTGGTTCAGGAAGCATAG	MTQLSLFSSEELYEFPKDLLEYREQFLNLEEADKLKNHLLETAPWKQRTQKMYDKVVLTPRLTAWYGDEKTAYPLGNGEVENNFWTPELFSLKQKIEKTFGYHFNSVLLNLYRDHNDSVAWHRDNEIRYGSRPVIASLSLGQTRNFDFRKKDHHQSKYSLPLPHGSLLIMKGDLQENWEHRVAKSVTYMKERINLTFRLVQEA				NA	NA	NA	NA	NA
BMS003_02945	570			hypothetical protein	ATGGAGAAACAAACCTTCTATGTCAATACAAAGGAAGAATGGCGACAATGGCTGGAAGAGAATCACCATATAGAGCAGTCTGTATGGCTTATCTGTAATACCAGAAAATCAAATTTACCCATCGTTCATTGGAGTGATCTGGTAGATGAAGCGCTTTGTTTTGGCTGGATTGACAGTACGAGGAAGACTATTGATGAAGGTTCATTTATGCAGTTATTCAGCAGGCGGAAGCCGAAAAGTACCTGGTCAAAAATTAATAAGGATAAGGTTCAAAAGCTGATAGAAAATAATCTGATGACGGAAGCAGGATTTGAAACGATCCGAATCGCAAAAGAGAATGGTTCCTGGAATATTTTGGATTCTGTAGAAGATCTGTCGATTCCTGAAGATCTTAATGAAGCATTTAAAATGTATGAAGGTTCCGAAACCTATTTTCTCAGTTTAAGCAAATCCATAAAAAAAATGCTTTTACAATGGATTATACTTGCAAAAAAACCTGAAACCAGAAAAAATCGTATTGACGAAATAGCAAAACAGGCAGCTCAGAATAAAAAGCCTAAGAACTTTTAA	MEKQTFYVNTKEEWRQWLEENHHIEQSVWLICNTRKSNLPIVHWSDLVDEALCFGWIDSTRKTIDEGSFMQLFSRRKPKSTWSKINKDKVQKLIENNLMTEAGFETIRIAKENGSWNILDSVEDLSIPEDLNEAFKMYEGSETYFLSLSKSIKKMLLQWIILAKKPETRKNRIDEIAKQAAQNKKPKNF				NA	NA	NA	NA	NA
BMS003_02946	480			hypothetical protein	ATGAATGTCATCAACGAAGCAGGAATACTTGCTATTTCAACTAGGCTGCACCGTCTTAGTGAACAATTAAGAAAGGATGGAGCTATGATCTACAAAGCATTTGGGATAGATTTTGAACTCAAATGGTTTCCTGTCATTTTTACCATATACAAGAAAAAAACTGCAAGTGTGGTTGAAATTGCTAATGAAATTGGGTATACCCATCCTTCTACCATAACCCTGCTTAAAGAACTCGAAAAACTTAAACTTTTAGAATGGGAAAAAGATATCAATGATGAGCGTAAAAGGCTATTTTTGTTAACTTCTAAAGGTATCGAGCTGATTGAAAAAATGAAACCTGTATGGGAATTGGTCACCATAGTATTGAGTGAGATTGCAGATAATGAAAATAATCTTCTAAAAGCCATTGATGAAGCAGAAGAGAAAATTGCCAGCCAGTCTTTTTATCAGAGAGCACTGCAGGCGAAGAATTCTAAGTAA	MNVINEAGILAISTRLHRLSEQLRKDGAMIYKAFGIDFELKWFPVIFTIYKKKTASVVEIANEIGYTHPSTITLLKELEKLKLLEWEKDINDERKRLFLLTSKGIELIEKMKPVWELVTIVLSEIADNENNLLKAIDEAEEKIASQSFYQRALQAKNSK	PGPT0028980_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MepA,PGPT0028980-mepR-K18909	NA	NA
BMS003_02947	492			hypothetical protein	ATGAAATTACAGATACAGCCCATAGGAAATTCTTATTCTGAACAGGCTATTGATTTGATTTTGACGATTCAGCAAAAAGAGTTTAACGTTCCGCTTACCATTCATGATCAGCCGGATCTTTTTGAGATTGAAAGTTTTTATACGGAACAAGGAGGTAACTTCTGGGGAGCCTTTGTGGACGGAGAACTGGTGGGAACTATTGCTTTGGTTAAATTTGATGAAAGGGCAGGAGCGATCAGGAAAATGTTTGTAAAAAAAGAATTCAGAGGAAAAGAACTGAATATTGCCCAGGAATTGCTGGAAGTTTTAATTTCTTTCTGCCGAGAAAATGGAATAGATGATTTATATTTGGGAACCATTACAATATTGAAAGCCGCTCAGCGGTTTTATGAACGGAACAACTTCAAAAAAATTGAAAAAGAAAATCTTCCGGCTCAATTTCCATTGATGGGCTCCGATGATATTTTTTATCATTTAAATACCACCCTATGA	MKLQIQPIGNSYSEQAIDLILTIQQKEFNVPLTIHDQPDLFEIESFYTEQGGNFWGAFVDGELVGTIALVKFDERAGAIRKMFVKKEFRGKELNIAQELLEVLISFCRENGIDDLYLGTITILKAAQRFYERNNFKKIEKENLPAQFPLMGSDDIFYHLNTTL				NA	NA	NA	NA	NA
BMS003_02948	1416	oprM_2	COG1538	Outer membrane protein OprM	ATGAAGAGTTTATTAAACATCATAAAAGGAATCACTTTTTCAGTTTTTATACTGGGAGCCATATCATCCTGTATGGCAAGAAAAGAGTATGAAAGACCGAAGAATGTTGTAGACGAAAAGCTGTTCCGTACAGATATGCTTCCTTCAGACAGTACCAGTATTGCCAATATTTCATGGAAAGAAATATTTACCGATCCGATATTGCAGAAGCATATTTCCAAAGCGCTGGAGAACAATCTTGATATCAGAATTGCTTTGGAAAGTATTAATTCTGCGGAAGCTTATCTGAAACAAAGTAAAGCAGCTTATCAGCCAACCCTTTCTATCGGTCCCAACTATACATTCCAGACACAGTCTATCAATACACAGTTTGGGCAGATTATTGGATCAAGACGTTATGTAAACCAGTTTGACATTACGGCAAGTATCGGATGGGAAGCAGATATCTGGGGAAAATTAAAAGCACAGGAGAAAGCACAGCTAGCTACCTATTTAGGGACTGTTGCCGCGCATAAAGCTGTTAAAAGCAGTCTGGTATCTTCCATTGCTTCTGCGTATTATCAATTGTTGACCTTTGATGCACAGAAGAGAATTATTACAGAAACTATTGCTGTAAGGGAAAAGAATTTAGAGGCAACAAAAGCATTAAAAACTTCCGGAACAGTTACTGAAGTTGCTGTACAGCAAAGTGAAGCGCTTGTTTTCAATGCGAAATCATTACTGATTGATATTGATACACAAATTCAGCTTCTGGAAAATACCATGAGTCTTCTGATGGGTGAACCTTCTCATTCTATTGAAAGGTCTACATTGGAAGGACAGGTTCTTCCGATTGATTTGAAACTGGGATATCCTGCTCAGCTTCTGGCAAACCGTCCGGATGTAATGAGAGCAGAGTATAATCTGATGAATGCTTTTGAATTGACCAATTCTGCCAAGGCTCAGTTTTATCCTACTTTAAAATTAACAGGAAGCGGAGGGCTTCAGTCTGTGGATATCGACCATTTATTCAGTGTCAATTCATTGTTTGCAAATGTAGTGACAGGGCTGGCACAGCCTATTCTGAACAGAAGACAGATCAAGACTAACTATGACGTAAGCCTGGCCAATCAGGAAACAGCTTATTTGAACTTCAGAAAAACAGTTTTGACTGCCGGAAAAGAAGTTTCTGATGCCATCAGGGTTTTCTCCGTTCAGGATTCATTTATTGAATTAAAACAAAAAGAACTGGATGCCTACAAAAAATCGGTTGACTATTCTCAGGAATTGGTAAACTATGGTATGGCCAACTATCTTGAAGTGCTGAATGCCAGTGTGAATTCACTGAATGCAGAGCTTAATATTTCTAATGCAAGATACAGTAAAATGAAAGCAGCTGTGGAGCTTTATCAGGCTTTAGGCGGAGGCTGGAAATAA	MKSLLNIIKGITFSVFILGAISSCMARKEYERPKNVVDEKLFRTDMLPSDSTSIANISWKEIFTDPILQKHISKALENNLDIRIALESINSAEAYLKQSKAAYQPTLSIGPNYTFQTQSINTQFGQIIGSRRYVNQFDITASIGWEADIWGKLKAQEKAQLATYLGTVAAHKAVKSSLVSSIASAYYQLLTFDAQKRIITETIAVREKNLEATKALKTSGTVTEVAVQQSEALVFNAKSLLIDIDTQIQLLENTMSLLMGEPSHSIERSTLEGQVLPIDLKLGYPAQLLANRPDVMRAEYNLMNAFELTNSAKAQFYPTLKLTGSGGLQSVDIDHLFSVNSLFANVVTGLAQPILNRRQIKTNYDVSLANQETAYLNFRKTVLTAGKEVSDAIRVFSVQDSFIELKQKELDAYKKSVDYSQELVNYGMANYLEVLNASVNSLNAELNISNARYSKMKAAVELYQALGGGWK	PGPT0009810_2173	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
BMS003_02949	3147	bepE_4		Efflux pump membrane transporter BepE	ATGATAAAAAACTTTATTAACAGACCGGTTTTATCTACCGTAATCTCAATTTTGATTGTGATTCTCGGTGTGTTGGGACTGATCTCGTTACCGGTTACACAATATCCGGATATTGCACCACCTACGGTAAGCGTTTCTACTAATTACACAGGAGCCAATGCTGAGACGGTGATGAAAAGTGTTGTAGTACCTTTGGAAGAGCAGATCAATGGTGTGGAAGGAATGGACTATATTACTTCTTCTGCAGGAAACGATGGTTCTGCTCAGATTCAGGTGTTCTTTAAACAGGGAATTGATCCGGATATTGCAGCGGTAAACGTACAGAACCGTGTGACAAGAGCTACCCCTTTACTGCCTGCCGAAGTGACGCGTTCGGGGGTTGTAACGCAAAAGCAGCAGACAAGTGCTCTGATGTATATGTCTTTCTATTCCGAAAATAAGGATCTTGATGATGTATACCTTCAGAACTTTTTGAATATCAATATTATTCCAAATCTCAAAAGGGTAAATGGTGTAGGAGATGCCAATGTTTTCGGGGGTAAAAACTATTCCATGAGAATCTGGCTGGATCCTGCAAAAATGGCAGCTTACGGAGTAACACCTACTGATGTTACCAATGCCATTAATGAACAAAGTAGGGAAGCCGCCGCCGGATCTATAGGGCAAAACAGTGGCAGTTCTTTTGAATATATCATCAAGTATGTTGGTAAATTCAATGAAAAAGGACAGTACGACAATATTATTATCAAATCTCTTGGTGACGGACAAAATCTTATGCTGAAAGATGTTGCCAAAGTAGAACTGGCAGGCCAGTCTTACACAGGAATCGGGGAGAACGGAAACAATCCTTCCATCAGTATGGGAATCTTCCAGACACCGGGTTCCAACGCACAGGAGATTATTAAAAATATCAAAGCTTATCTGAAATCTGCAGAAAGTACTTTCCCTAAAGGAGTTAAATATACTTTTAACTTTGATACCAATGAATTCCTTGAAGCTTCTATTGACAAAGTAGTTCACACTTTGATTGAAGCTTTTATCCTGGTATTTATCGTAGTATATATTTTCCTTCAGGATTTCAGATCTACATTAATTCCTGCTATTGCAGTTCCGGTATCTATTGTGGGAGCCTTCTTCTTCCTGAATTTATTCGGGTATTCATTGAACCTTCTGACACTATTTGCATTGGTACTGGCGATTGGTATTGTGGTGGATGACGCCATTGTAGTCGTCGAAGCCGTCCATGCAAAAATGGAGCACGGTATTTCTGATGCGAAAAAAGCTACGGTGGAAGCAATGGATGAGATCACCGGAGCCATTATCTCTATTACCCTGGTAATGGCATCGGTATTTATTCCTGTAACCTTTATCAAAGGACCAACAGGGGTATTTTATCAGCAGTTCGGGATCACTCTTATTGTAGCGATTGTAATTTCTGCAATCAACGCATTGACGCTGAGCCCGGTTTTATGTTCATTATTCTTAAAACCTCATGCTGAGCATCATGAACAGTATGAGAGTATGAATTTTATGAAGAAATTCTTCTATAAATTCAATATTGCCTTTAGAACAGCTACTGAACGTTATGGTAGAGGATTTGTGTTCCTTTTGAGACATAAATGGGTTACGCTTGTGATCTTTGCCGTGACCGGAGGTATTTTATACTGGGCGAGCGGAACAATGAAGAAGGGTTTCGTACCTAATGAAGACCGTGGAATCATCTTTACGGATGTGCAACTTCCTCCGGGAGCTTCTATGGAAAGAACATACAATGTTCTGAAGACTCTTCAGGCAAATGCACTTAAAGTGCCTGGAGTACAGAACGTAACGATTTCCACGGGTAGAGGTTTCTTATCAGGAAATGGGAGTAACAACGGTCTTGCTTTCGTCAAATTAAAACCATTTGAAGAAAGAAAAAAAGATGGTCAGAGCTCCGAAGAAATTACTAAAAGATTATTTGGTATTTCAGGTTCTGTTCCCGATGCAAAAGTAGTATTCTTCCAGCCTCCGAGTGTACCTGGTTTTGGTAGTAGTGCAGGTTTTGAAATGGTATTACTGGATAAATCCGGTGGTGAATATGCTGAGCTGGACGCTAAAACCAATGAATTTATCGGTAAACTGATGCAAAGACCTGAGATTGAATTTGCCCAGACCTCATTCAATACTAAATATCCGCAGTACCAGATGGACATCAATGTTCCATTGGCAAAACAGCTTGGAGTTTCTGTAAGTGACATCCTGGCTACAATGCAGGGATATATCGGAGGGATCTATACCGCTGACTTTACAAAGTATGGGAAACAGTTCAGAGTAATGGTTCAGGCTCTTCCTGATAACAGAAAAAGTATTGATAACCTGAATGAACTGTATGTAAAAACAGGTTCAGGGATCATGTCTCCGATATCTCAGTTTGTAACTCTTACCAAAGCATACGGACCACAGTCTGTAAGTCGATATAACCTCTTTACTTCTGTAAAGATTACGGGGGCTAACTCTGCAGGATTCAGTTCCGGGGATGCTATTGCTGCTGTACAGCAGGTAGCCGGAGAAACACTGAACCAAAACTATGCGGTAGAATTTACAGGATTATCCAGAGAAGAATTGGCTTCAGGGTCTCAAACCCTTCTGATCTTCGCTCTGAGTTTAATCTTTGTTTACTTTATCCTTTCTGCACAATATGAAAGCTACATTCTCCCGCTGATCGTTGTGATCTCTCTTCCTTTAGGAGTAATGGGAGCTTACTTCGGGCAGAAAATTATGGGCTTGGAAAATAACATTTATTTCCAGATCGCATTGATCATGCTTGTGGGATTATTGGCGAAAAATGCCATTCTTATCGTTGAGTTTGCTATCCAGAGAAGGCATCATGGTGAAACTATCGTTATGGCTGCAATTAATGCTGCAAAGGCGAGATTAAGACCTATCCTGATGACTTCATTTGCCTTTATCTTTGGTCTCTTGCCATTGGTATTAGCAAGCGGAATCGGGGCTGTGGGTAACAGGTCTATTGCTACTGGTGCAGCTATCGGGTTGTTGATAGGAACGGTGTTAGGTCTTTTCGTAATTCCGGTACTGTTTGTGATTTTTGAATCATTGCAGGAAAAGATCAAGCCGATTAAGAAAGAAGAAATCAGTTTATCAGAATAA	MIKNFINRPVLSTVISILIVILGVLGLISLPVTQYPDIAPPTVSVSTNYTGANAETVMKSVVVPLEEQINGVEGMDYITSSAGNDGSAQIQVFFKQGIDPDIAAVNVQNRVTRATPLLPAEVTRSGVVTQKQQTSALMYMSFYSENKDLDDVYLQNFLNINIIPNLKRVNGVGDANVFGGKNYSMRIWLDPAKMAAYGVTPTDVTNAINEQSREAAAGSIGQNSGSSFEYIIKYVGKFNEKGQYDNIIIKSLGDGQNLMLKDVAKVELAGQSYTGIGENGNNPSISMGIFQTPGSNAQEIIKNIKAYLKSAESTFPKGVKYTFNFDTNEFLEASIDKVVHTLIEAFILVFIVVYIFLQDFRSTLIPAIAVPVSIVGAFFFLNLFGYSLNLLTLFALVLAIGIVVDDAIVVVEAVHAKMEHGISDAKKATVEAMDEITGAIISITLVMASVFIPVTFIKGPTGVFYQQFGITLIVAIVISAINALTLSPVLCSLFLKPHAEHHEQYESMNFMKKFFYKFNIAFRTATERYGRGFVFLLRHKWVTLVIFAVTGGILYWASGTMKKGFVPNEDRGIIFTDVQLPPGASMERTYNVLKTLQANALKVPGVQNVTISTGRGFLSGNGSNNGLAFVKLKPFEERKKDGQSSEEITKRLFGISGSVPDAKVVFFQPPSVPGFGSSAGFEMVLLDKSGGEYAELDAKTNEFIGKLMQRPEIEFAQTSFNTKYPQYQMDINVPLAKQLGVSVSDILATMQGYIGGIYTADFTKYGKQFRVMVQALPDNRKSIDNLNELYVKTGSGIMSPISQFVTLTKAYGPQSVSRYNLFTSVKITGANSAGFSSGDAIAAVQQVAGETLNQNYAVEFTGLSREELASGSQTLLIFALSLIFVYFILSAQYESYILPLIVVISLPLGVMGAYFGQKIMGLENNIYFQIALIMLVGLLAKNAILIVEFAIQRRHHGETIVMAAINAAKARLRPILMTSFAFIFGLLPLVLASGIGAVGNRSIATGAAIGLLIGTVLGLFVIPVLFVIFESLQEKIKPIKKEEISLSE	PGPT0016195_859	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
BMS003_02950	1188	bepF_3		Efflux pump periplasmic linker BepF	ATGAATAATAAGCTAGTTATACTTTCCATTGCAGCGCTATCACTGACAGCCTGCAAAAAAGATGCCCCGAAACAGGATGGCGCCAAGCCATATCCGGTTGTTTCCGTGGAATCAAAAAATATAGTGGGTTATCAGACGTTTCCGGCTACCATCCAGGGTAGGGTAAACAATGATGTACGTGCAAAAATCCAGGGATATATTACCCAGGTTTTGGTGGATGAAGGACAATATGTTACAAAAGGGCAGCCTTTGTTCCGCCTGGAAACCAACATCCTGAACGAAAATGCAGCAGCTTCCAAAGCCGGAATAGGGGCTGCAGAATCCAGTATTGCGGCAGCTCAGGCTTCTGTAAATGCAGCTCAGGTTGAAGTAAACAAACTAAAACCTCTGGTTCAGAAAAATATCATAAGCAATGTACAGCTACAAACTGCTCAGGCACAGCTGGCACAGGCACAGGCACAACTGCAGCAGGCTCATGCTTCCAAAAGACAGGCCGAAGCCAACTATAAAGGAGTAGAAGCCAATATCGAATATTCAATTATCCGTGCTCCTATTTCAGGAGTGATCGGGAAACTTCCCCTTAAAGTAGGAAGTTTGGTAGGACCGTCTGATCAGACTCCTCTGACGACAATTTCTGATACATCTCAGATCTTTGCCTACTTCGCCATGAATGAGAAAGAATATTTTGATTTCCTTGAAAAAGCTCCGGGCGCTTCTATGCCAGAGAAAATCAAAAACTTACCAATGGTTGAGCTACAGCTAGCAAACGGAAGCCTTTATCCTGAAAAAGGAAGAATTGAAGCCATTACAGGGCAGATTGATCCTACTACAGGAACCATTCAGTTCAGAGTAGGATTCTCTAATGCTCAGAGATTATTGAGTAACGGTAACAGTGGAACCATCAGATTCCCTCAGCGTTATGACAATGTATTGGTTGTTCCGGAAAGTGCTACTTATGAGCAGCAGGGTATTGTTTACGTATACAAAGTAGAAAAAGGAGACACTGCCAGAAATGTTGTGATCAATGTTATTGACAGAATCGACAATATGGCTCTTATCAAATCAGGAGTTAATAAAGGAGAAAAGGTTATTGCCGCAGGTATCGGAGGTCTGAAGCCGGGAACAGCTGTAAAGCCTAAACCTGTCAAAATGGATAGTCTTGTTCAATCAATAAAACCGAAATTCTAA	MNNKLVILSIAALSLTACKKDAPKQDGAKPYPVVSVESKNIVGYQTFPATIQGRVNNDVRAKIQGYITQVLVDEGQYVTKGQPLFRLETNILNENAAASKAGIGAAESSIAAAQASVNAAQVEVNKLKPLVQKNIISNVQLQTAQAQLAQAQAQLQQAHASKRQAEANYKGVEANIEYSIIRAPISGVIGKLPLKVGSLVGPSDQTPLTTISDTSQIFAYFAMNEKEYFDFLEKAPGASMPEKIKNLPMVELQLANGSLYPEKGRIEAITGQIDPTTGTIQFRVGFSNAQRLLSNGNSGTIRFPQRYDNVLVVPESATYEQQGIVYVYKVEKGDTARNVVINVIDRIDNMALIKSGVNKGEKVIAAGIGGLKPGTAVKPKPVKMDSLVQSIKPKF	PGPT0003275_2021	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
BMS003_02951	456			hypothetical protein	ATGCATAAAAGTATAGAAATTGATGAAAAAATTTTTCAGGATGCCGTAAAATTCTATGGCACTGTTTTCAGTTTACCTCCTTTAGCATCTAAAATTTATTCCTACCTTCTTTTTGACTATGAGAAAGTAGGAATTACTTTTGATGAGTTTGTGGAAGTGCTCTCTGCAAGCAAAAGCTCTGTTTCTACAAGTATCTCGTTGCTTCTCAATGCGCAGCTTATTGTAGATCATAATAAAATGGATGAGCGGAAGAGGTATTTTTTCATCAATGATGAATACAAGAAAATAAGATTCGAAAAAATTGTCCAGAAAATGCAGGACGAATTAAAACTATTAGATGATTTAAACAATTTTAAAAAAAGTAACGACGATGGATACAATGAAAGAATAAAAGTTTACAAAGCACTCTTAAATAAAAATATAGAAAATATTCAGGAATCTCTTAATAAACTATAA	MHKSIEIDEKIFQDAVKFYGTVFSLPPLASKIYSYLLFDYEKVGITFDEFVEVLSASKSSVSTSISLLLNAQLIVDHNKMDERKRYFFINDEYKKIRFEKIVQKMQDELKLLDDLNNFKKSNDDGYNERIKVYKALLNKNIENIQESLNKL				NA	NA	NA	NA	NA
BMS003_02952	513			hypothetical protein	ATGAATCCGGAGATTAAATTACGACAGGCAGAAATTGAAGACAGAGACATTATTTGGGAAATTATCCAGCAATCTATAGAAAGAAGAAGACAGGATGGAAGTACCCAATGGCAGGACGGATACCCTAATCTCGGAACCGTGGAAAGCGATATTGAAAAAGGATTTGGTCACGTTTTGACAGTAAATGGAGAAATTGCAGTATATGCCGCTCTTATCCTGAATGATGAACCCGCTTACAGCACCATTGATGGTGCATGGCTAAGTGACGGTGAATTTGTAGTGGTTCACAGAGTGGCTGTAGATGGAAAATTTGCAGGGCAGGGTATGGTAAAGAAACTTTTTGACCAGATTGAAGAATTTACTAAATCTCATGGAATTCAGAGTATTAAAGTAGATACCAACTATGATAATGTGGCCATGCTGAAAATTCTGGAAGGAAGAGGATATTCCTATTGTGGAGAAGTTCTTTTGAGAGACGGCATGAGGAAAGCTTTTGAGAAGATTGTAATTTAG	MNPEIKLRQAEIEDRDIIWEIIQQSIERRRQDGSTQWQDGYPNLGTVESDIEKGFGHVLTVNGEIAVYAALILNDEPAYSTIDGAWLSDGEFVVVHRVAVDGKFAGQGMVKKLFDQIEEFTKSHGIQSIKVDTNYDNVAMLKILEGRGYSYCGEVLLRDGMRKAFEKIVI				NA	NA	NA	NA	NA
BMS003_02953	231			hypothetical protein	ATGGAAAGAAGTACGAGAGTATCAGTTTATGTAAGTGATAACCCTTCAGAAATTCAGTTGGTTAAGTCTAAATTGGATGATGCTCAAATTACAAACACTGTTGAAAATAATTATCTTACATTTACTACTACACCCACAGCAACTTCGCTTAAGGTAATGGTAGATTTGGAAGATGAAAAGAAGGCATTTGATGTTATTGATGCTTATCTTCAAAAAAGTGAAAATCAATAA	MERSTRVSVYVSDNPSEIQLVKSKLDDAQITNTVENNYLTFTTTPTATSLKVMVDLEDEKKAFDVIDAYLQKSENQ				NA	NA	NA	NA	NA
BMS003_02954	1326	lat	COG0160	putative L-lysine-epsilon aminotransferase	ATGGAACAAACATTAGATATAAAAGCAAATAAAGTAAAAGAAACAGTAGGAAGACACGTTCTTGCAGATGGTTTTGATTTTGTGATGGATATTGAAAAATCACACGGATCATGGCTTTATGATAAACTTACAAACAGAGAATATCTGGATATGTTCTCTATGTTTGCATCTGCATCCATAGGATATAATCACCCTTATCTCGTAGAAAGATCAGAGTGGTTGGGAAAAATGGCTGTGAATAAACCTACTTTAGCTGACGTTTACTCTGAAGAATACGCTCATTTTCTTGAAGTATTCGAAAGAGTAGTGATTCCTGAAGAATTACAATATGCTTTCTTTATCGAAGGAGGAACTCTGGGCGTTGAAAATGCCATGAAAGCATGCTTCGACTGGAAAACCCGAAAGAACTTTGCAAAAGGACTGGAGACGGAAGCAGGAATCTGCATCCACTTCAAACAGGCTTTTCATGGAAGAAGCGGTTATACTTTAAGCTTAACCAACACTTCAGATCCCAGAAAATACCAATATTTCCCGATGTTCAACTGGCCGAGAATTTTAAATCCGAAATTAAAGTTCCCGATTACAGAAGAAAGCCTGGAAGAAACCATCAAAAATGAAAATCTTGCTTTACTTCAGATTGAAGAGGCAATTCTGATGAACCCGGACAAAGTGGCATGTATCATCATAGAACCTATTCAGGCAGAAGGAGGTGATAACCATTTCAGAGACGAATTCCTTGTAGGATTAAGAAGAATCTGTGATGATAATGAAATCTTACTTATTTTTGATGAAGTTCAGACAGGGGTAGGTATTACAGGAAAAATGTGGGCATTCCAGCATTTTACAGCAAAACCGGATATTATTTCCTTTGGAAAAAAAGCTCAGGTTTGCGGTGTCTTAGCCAATAAAGAAAAGTTTGATGAAGTTCCGAACAATGTTTTCAGAGAAAGTTCAAGGATCAACTCTACCTTCGGAGGAAACTTTATAGACATGCTTCGTTTCCAGCTGGTAATGGAAGTGATCGAAAAAGAAAACCTTGTGGAGAATGCAAGAGTGGTAGGAGACTTCTTATTGGAAAGTCTGAAATCCCTTGCGGAAAAGTATCCTGAAAAAATTTCAAATGCAAGAGGAAGAGGATTGATGTGTGCTGTGGATCTGCCATCCGGAGAACAGAGAAATACTCTGATGAACGAGCTTTATAAGGATGGATTAATCATTCTTCCATGTGGAGATCAGTCTCTTCGTTTCAGACCTCACCTGAATGTTACTAAAGAAGAAATCCAGCTTGCTTTAGACAAAATTGAAAGCAATATTAATAAAATTTAA	MEQTLDIKANKVKETVGRHVLADGFDFVMDIEKSHGSWLYDKLTNREYLDMFSMFASASIGYNHPYLVERSEWLGKMAVNKPTLADVYSEEYAHFLEVFERVVIPEELQYAFFIEGGTLGVENAMKACFDWKTRKNFAKGLETEAGICIHFKQAFHGRSGYTLSLTNTSDPRKYQYFPMFNWPRILNPKLKFPITEESLEETIKNENLALLQIEEAILMNPDKVACIIIEPIQAEGGDNHFRDEFLVGLRRICDDNEILLIFDEVQTGVGITGKMWAFQHFTAKPDIISFGKKAQVCGVLANKEKFDEVPNNVFRESSRINSTFGGNFIDMLRFQLVMEVIEKENLVENARVVGDFLLESLKSLAEKYPEKISNARGRGLMCAVDLPSGEQRNTLMNELYKDGLIILPCGDQSLRFRPHLNVTKEEIQLALDKIESNINKI				NA	NA	NA	NA	NA
BMS003_02955	1551	Vejahgd	COG1012	3,6-anhydro-alpha-L-galactose dehydrogenase	ATGTCAAAAAAAGTAAAGGATTTCGGAATCGAAAAAACACTCAAAAACCTTGGGATTAAAGAAGAGAACAAAGGGACTTCAGTGGGCGGAAAATATTTCGCTTCAGGAAAGGTGATAGAAAGCATTTCTCCTGTGGACGGAAAGTTGATCGCTAAAGTAAAGACTTCCGGAGAAAGTGATTATGACAAAGTAATTGAAACTGCTCAAAAAGCATTTCAGGAATTCAGGCTGATTCCCGCTCCGAAAAGAGGGGAAATTGTAAGACAGCTGGGCTTAAAATTAAGAGAATATAAAGATGATCTTGGTAAGCTTGTTTCTTATGAAATGGGTAAATCATTACAGGAAGGACTTGGCGAAGTTCAGGAGATGATAGACATCTGTGATTTTGCCGTAGGACTTTCAAGACAACTTCAAGGGTACACTATGCACTCTGAAAGACCAGGACACAGGATGTATGAGCAATACCATCCGCTGGGAGTAGTAGGTATCATTACAGCATTCAACTTCCCGGTTGCCGTATGGTCATGGAATACAGCATTAGCGTGGATCTGTGGTAACGTTACAATATGGAAGCCTTCCGAAAAAACACCGCTTTGTGCTATCGCATGCCAGAATATCATGATGGAGGTGCTAAAGGAAAATAATCTTCCTGAAGGAGTTTCAAGTGTACTGGTATCAGACCACGAAATCGGACAGAAATTAGTAGACGATAAAAGAGTAGCCCTTGTATCTTTCACAGGATCTACAAGAGTAGGAAGAATGGTTTCCTCTAAAGTAGCAGAAAGATTTGGGAAATCTATCCTGGAACTAGGTGGAAACAACGCTATCATCATTACCAAAGAGGCAGATATCGACATGTCGATCATCGGAGCTGTTTTCGGAGCTGTGGGAACTGCGGGGCAGAGATGTACTTCTACAAGAAGACTGATCATTCATGAAAGTGTATATGACGAAGTAAAAACGAGACTGGCAAAAGCTTACGGTCAGTTGAAAATCGGAAATCCGCTGGATGAGAAGAACCATGTAGGACCGCTAATTGATACTGATGCTGTGAATCAGTATGAAGAAGCCATCAAAAAATGTAAAAAAGAAGGTGGTAAATTCGTTGTGGAAGGTGGCGTTTTAACCGGAAAAGACTACGAGTCAGGATGCTATGTAAAACCTTGCGTGGCAGAAGTAAAGAATTCTTATGAGATTGTTCAGCACGAAACATTTGCACCGATCTTATACCTGATCAAATACAAAACATTAGAAGATGCTATTGCGATTCAGAATGATGTTCCTCAGGGATTATCTTCTGCAATCATGACCCAGAACCTGAGAGAAGCAGAATTATTCCTTTCTCACGCTGGTTCAGACTGTGGTATTGCCAACGTTAATATCGGAACTTCAGGGGCTGAAATTGGAGGAGCATTCGGAGGTGAAAAAGAAACCGGAGGTGGAAGAGAATCAGGATCTGATGCTTGGAAGTATTATATGAGAAGACAAACCAATACTATAAATTACACCGCACAACTTCCTTTAGCACAAGGAATTAAATTTGATTTATAA	MSKKVKDFGIEKTLKNLGIKEENKGTSVGGKYFASGKVIESISPVDGKLIAKVKTSGESDYDKVIETAQKAFQEFRLIPAPKRGEIVRQLGLKLREYKDDLGKLVSYEMGKSLQEGLGEVQEMIDICDFAVGLSRQLQGYTMHSERPGHRMYEQYHPLGVVGIITAFNFPVAVWSWNTALAWICGNVTIWKPSEKTPLCAIACQNIMMEVLKENNLPEGVSSVLVSDHEIGQKLVDDKRVALVSFTGSTRVGRMVSSKVAERFGKSILELGGNNAIIITKEADIDMSIIGAVFGAVGTAGQRCTSTRRLIIHESVYDEVKTRLAKAYGQLKIGNPLDEKNHVGPLIDTDAVNQYEEAIKKCKKEGGKFVVEGGVLTGKDYESGCYVKPCVAEVKNSYEIVQHETFAPILYLIKYKTLEDAIAIQNDVPQGLSSAIMTQNLREAELFLSHAGSDCGIANVNIGTSGAEIGGAFGGEKETGGGRESGSDAWKYYMRRQTNTINYTAQLPLAQGIKFDL	PGPT0006875_1494	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS003_02956	189			hypothetical protein	ATGAAATCAGAAAAAGCTCAGAACTCTTCGGAAAGCAAAGGCAAAAAATCCTTCGTGATAAGAATAGACGAATCTACTTATAAACTCCTTGAAAAGTGGGCCAATGATGAATTCAGAAGTGTGAATGGTCAGATAGAATACCTGCTTCATCAGAGCCTGGTCAGTTCCGGGAGGAAAAAGAAAGACTGA	MKSEKAQNSSESKGKKSFVIRIDESTYKLLEKWANDEFRSVNGQIEYLLHQSLVSSGRKKKD				NA	NA	NA	NA	NA
BMS003_02957	867			hypothetical protein	ATGGAAAAAATCTTAAAACCAATGTCCGGCTATCTGACCCTAGTGATTTGTCTCGCTTTGTTTGTAGCTGCTGTTTACTTCTTTGTAAGCGGAGTGGATCAGAGTATTACTTTTGTAGTGATCGCTATGCTTTGTTTTCTGCTTTCTTGCTTTTTCTTAAAAGGCTTGATGATTATTCAGCCTAACCACTCAAGAGTACTGAACTTCTTTGGAAAATATGTAGGTACGGTAAAAGATAACGGCCTTTTCTTTATCAACCCGCTTTACTCATCTCAGAGAATAAGTCTTCGTTCTGAAAACCTTCAGGGGCAGACTTTGAAAGTAAATGACAAAATGGGAAATCCTATCGAAATTGCAGCAGTAATTGTATGGAAAGTTGGAGATACTTATAAGGCCGCTTATGAAGTAGAAAGATATACAGACTATGTAAGAATGCAGAGTGAGGCTGCTGTAAGACACCTTGCCGTAAGTTTCCCGTATGATAATCTTGAAGATGAGCACGCAGATATCACTTTAAGAGATGGTGGGGATCAGGTAAACAAAATTCTGGAACAGGAATTACTTGAAAGACTGGCACCAGCAGGTATCATTATTCAGGAAGCAAGAATTACCCACCTGGCCTATGCTTCGGAAATTGCAGGGGCAATGCTTCAGAGACAGCAGGCTACCGCTATTGTAGCTGCAAGAACGAAAATCGTTGAAGGAGCTGTAGGAATGGTAGACCTGGCGTTGAAAAAGCTTTCAGAAGACAATATTGTTGAACTTGATGATGAAAGAAAAGCGGCTATGGTAAGCAATTTAATGGTGGTTCTTTGCGGTGAGAAAGCAGCAACACCTATATTAAATGCAGGAACACTTTATAATTAA	MEKILKPMSGYLTLVICLALFVAAVYFFVSGVDQSITFVVIAMLCFLLSCFFLKGLMIIQPNHSRVLNFFGKYVGTVKDNGLFFINPLYSSQRISLRSENLQGQTLKVNDKMGNPIEIAAVIVWKVGDTYKAAYEVERYTDYVRMQSEAAVRHLAVSFPYDNLEDEHADITLRDGGDQVNKILEQELLERLAPAGIIIQEARITHLAYASEIAGAMLQRQQATAIVAARTKIVEGAVGMVDLALKKLSEDNIVELDDERKAAMVSNLMVVLCGEKAATPILNAGTLYN				NA	NA	NA	NA	NA
BMS003_02958	3270	ccsA		Cytochrome c biogenesis protein CcsA	ATGAAGAAGCTCCAAGATATTCTTATCTCAACCAGGACAATGGCTGTATTGTTGCTGGTGTATGCATTTGCGATGGCGTATGCAACGTTCTTAGAAAACGACTACGGAACTCCTACAGCTAAAGCGTTAATTTATGAGGCCAAATGGTTCGAACTGATCATGGTCCTGCTTATTCTTAATTTCATAGGAAATATCGGAAGATACAGACTTTGGAAAAAAGATAAGTGGCCGGTTCTTGTTTTCCACCTTGCCTTTGTTTTTATTTTTATCGGTGGTGCTATCACAAGATACATCAGTTTTGAAGGGACAATGCACATCAGAGAAGGTGAAACTTCAAATGAAATTGTAACGGATAAAAACTTCTTTAAAATCCAGATTGAAGAAAAAGGTGATGTTCTGAACTATCAGGATGTTCCTTATCTGATGTCTCCATTGCACAAAGATTTTAAGGCAACCTATGACTTCCACGGAAAAGAAGTGAAGGTGTTTGCCAAGGAATATATTCAAAGAAAAAAAGACAGTCTTGTAGCTGAGCCCAACGGAGCAGAATATCTTCATTTGGTTTCTACAGGAAATACCGGAAGACAGAATATTTACATCAAACCCGGAGAAACAAAATCTATCAACGGCACTTTGGTGACTTTCAACAGGGCAATTGACGGAGCTGTGGAATTTAAAAATGAAGATGGGAAATTATTCATCAAAACTCCTGTAGATGCCAACTATATGACGATGGCTACCCAGGCAACCGGAAATACTGTGAAAGATGAATTCCAGCCTTTGGCATTAAGAAGTTTATATACAATCAACGAGCTAAAGCTTGTAGTACCTGAAGGACTTAAAAAGGGAAGGCTGATTGCTATTGAAGGTGACAGAAAGAAAGATGCCAATGTTCCGGATATGCTTCAGGTAGAACTTCAGGGACCAAAAACAAAACAACTTGTAGACCTTTCTGTTGAAAAAGGAAATCCGAATGCTTACAAGCAAGTTACCATGGATGGGTTAAACATCATGGTAGGTTTCGGGCCAAAAGTATACAATACGCCTTTCGCACTGAAACTGGATGACTTCGTGATGGAAACATATCCGGGAAGTTCATCTCCAAGTGCTTACGAAAGCCATGTGAAAATCATTGACGAAGGTAAAGAAACTCCTTATAAAATCTATATGAACCATGTTCTTAATCATAAAGGTTACCGTTTCTTCCAGTCGAGTTTTGATCCGGACAGAATGGGAACCGTTCTTTCTGTAAACCACGATTACTGGGGAACTTTAATTTCTTATATCGGATACGGACTTCTGTTCTTAGGAATGTTTGTAATCTTCTTCTGGAAAGGCACTCATTTCTGGAAACTGAATAAAATGCTTGCTGATGTCAACAAGAAGAAAGCAGCAGGTATATTTCTATTGTTCTTAAGCTTAGGTTTAAACGCACAGAAAATAGAAACCCACGGAACAACTGACGGAAGCAGAGAGCATATTCATGTGGAAGGAGATAATCACTCTCATGAACCGGCTCCGTCTGCCCAGCCGCTTGACGGTGCTGCTCCAAAGCAGAACTCTCTGGCAACTCCAATGGGAAAAATGAGATCTATTTCTCCTGACGAGATCATTGCAAGAAACAAAATCAGCAAAGAACATGCTGATAAATTCGGATATCTTTTGGTTCAGAACTTTGAGGGAAGAATTGTTCCTATCAATACAGAAGCAATAGATATTTTAAGAAAACTATACAAGAAAGACGAGTTCAAAGGAACAGATGGGAAGTCTCTTACTGCTAACCAATGGTTCCTTTCTATCAATACAGACACACCAAGCTGGACAATGGTTCCTATGATCAAAGTGGGAACAAAAGGAGGAGATGAGCTGAAAAATAAAACAAAAGCAGATGAAGATGGTTACACTTCTCTGATGAACCTTTTCCCGGCAGATGCTAACGGAAATTTAACATATATTCTGGAGCACGACTACAATACTGCATTCCGTAAAAAACCAGCTGAACAAACGAACTATGATAAAGAAGTAATTGCTGTAAACGAAAGAGTACAGATCTTCAATGAGTTCTTCAGCGGTCAGTTTATGAGAATTGTTCCTGTGAAAAATGATGCCAACCATACATGGCATTCATGGTTAGACCAGAAATTCGAACCGGACATGGAATCTCAGCAGGTGATGGGACCTTATTTTGCAGAAGCTCTTACGGCGCAGAAAACAGGAGACTGGAGCAAAGCAGATGCAGAATTGGCAAAGCTTTCAGACTATCAGCAGAAATGGGGTAAAGCGGTTGTTCCTGCTAAATCCAAAGTTGATCTTGAAGTATTCATGAATAAAGTGAATATTAATTTCAAATTGCTAATCTTCTATACAATTATCGGTGGCCTTCTTCTGATCTTAGGATTTGTTGAATTGTTCAGATCAAACAAAGTATTAACCAAAGTAATTAAAGTTATTATTGCATTAGGTTTAATTGGATATCTGTGTCATTTCTTAGGTCTTGTGGCGAGATGGTATATTTCAGGACACGCTCCTTGGAGTAACGGATATGAAGCTATTATCTTTATCTCCTGGGTAGGTATTACTGCCGGACTTATCCTGTATAGAAATGCTAACGCTCTTATTCCTGCGGCAGGATTTATGGTGGCAGTTATTATGATGGGATTTGCTCACGGAGGTTCAGCACTTGATCCGCAAATTACGCCGTTGGTTCCTGTATTGAAATCTTATTGGTTAATTGTTCACGTTGCCATTATTACTTCCAGTTACGGATTCTTCGCTCTGTCGATGATCATTGCTGTAATCTCATTGGTATTCTATATTATCTCCAATAAGGAAACGTATAAAATTCACCACGATACTACCTTGAAGGAATTGGTAATTGTTTCAGAAATGTCATTAACGATCGGGTTGTTTGCTTTAACAGTAGGAAACTTCTTAGGAGGAATCTGGGCCAACGAATCATGGGGAAGATATTGGAGCTGGGACCCGAAAGAAACATGGGCTTTCATCTCTATTATGGTCTATGCATTTGTTCTTCACATGAGATTAGTACCCGGATTGAGAAGCAGATGGGCGTTCCATATAGCAACAATGTTTGCGTTCTGCTCAATGGTAATGACGTATTTTGGAGTAAATTACTACTTGAGCGGACTTCATTCATACGCTGCAGGAGATCCGGTACCGGTACCAGCATGGGTATACATCGGAATCTCAGCAATGATTATTTTATCAGCTGTTTCTTATTGGAAATTTAAAGTTCTTACAAAGAAGTAA	MKKLQDILISTRTMAVLLLVYAFAMAYATFLENDYGTPTAKALIYEAKWFELIMVLLILNFIGNIGRYRLWKKDKWPVLVFHLAFVFIFIGGAITRYISFEGTMHIREGETSNEIVTDKNFFKIQIEEKGDVLNYQDVPYLMSPLHKDFKATYDFHGKEVKVFAKEYIQRKKDSLVAEPNGAEYLHLVSTGNTGRQNIYIKPGETKSINGTLVTFNRAIDGAVEFKNEDGKLFIKTPVDANYMTMATQATGNTVKDEFQPLALRSLYTINELKLVVPEGLKKGRLIAIEGDRKKDANVPDMLQVELQGPKTKQLVDLSVEKGNPNAYKQVTMDGLNIMVGFGPKVYNTPFALKLDDFVMETYPGSSSPSAYESHVKIIDEGKETPYKIYMNHVLNHKGYRFFQSSFDPDRMGTVLSVNHDYWGTLISYIGYGLLFLGMFVIFFWKGTHFWKLNKMLADVNKKKAAGIFLLFLSLGLNAQKIETHGTTDGSREHIHVEGDNHSHEPAPSAQPLDGAAPKQNSLATPMGKMRSISPDEIIARNKISKEHADKFGYLLVQNFEGRIVPINTEAIDILRKLYKKDEFKGTDGKSLTANQWFLSINTDTPSWTMVPMIKVGTKGGDELKNKTKADEDGYTSLMNLFPADANGNLTYILEHDYNTAFRKKPAEQTNYDKEVIAVNERVQIFNEFFSGQFMRIVPVKNDANHTWHSWLDQKFEPDMESQQVMGPYFAEALTAQKTGDWSKADAELAKLSDYQQKWGKAVVPAKSKVDLEVFMNKVNINFKLLIFYTIIGGLLLILGFVELFRSNKVLTKVIKVIIALGLIGYLCHFLGLVARWYISGHAPWSNGYEAIIFISWVGITAGLILYRNANALIPAAGFMVAVIMMGFAHGGSALDPQITPLVPVLKSYWLIVHVAIITSSYGFFALSMIIAVISLVFYIISNKETYKIHHDTTLKELVIVSEMSLTIGLFALTVGNFLGGIWANESWGRYWSWDPKETWAFISIMVYAFVLHMRLVPGLRSRWAFHIATMFAFCSMVMTYFGVNYYLSGLHSYAAGDPVPVPAWVYIGISAMIILSAVSYWKFKVLTKK				NA	NA	NA	NA	NA
BMS003_02959	579			hypothetical protein	ATGTCCGATTTACTTTTTAGAAATATCAGTCAATATATCAATCTTTCAGAAGAGGACTTTCAACAGTTTGTAAAACCTTTTGAACTTAAAGCATTTAAAAAGAAAGATGTTGTTCTCAAAGAAGGAGATCATTGTATCTTCGAAGGGTTTGTTCTGAATGGCTGTTTCAAAATTTATTATCTGAACGAAAAAGGATTTGAGCAGACTTTATATTTTGCCGTTGAAGGCTGGTGGATTACAGATATTGACAGTCTTATCAATAATGTTCCCAGCATCCTGAATATTGAAGCTCTGGAGGATAGTGAAGTACTGATGATTGGTAAAAAAGATAAGGAGTATTTATATAGAACAATGCCACAAATAGAAAAGCTTTTCAGAATCATGAACCAGAAATCCTCCGTAGCACTGCAAAGACGAATTCTTTCTTTGACCGGTAAAACTGCGGATAAACGTTATCTGGAGTTTCTGGAAAAGTACCCAGGACTGGAACAGAGAATTACCCAGCAGCAAGTAGCTTCCTATTTGGGAATTACCCATGAATTTTTAAGTAAAATCAGAAAGAAAATGTTGACAGGATGA	MSDLLFRNISQYINLSEEDFQQFVKPFELKAFKKKDVVLKEGDHCIFEGFVLNGCFKIYYLNEKGFEQTLYFAVEGWWITDIDSLINNVPSILNIEALEDSEVLMIGKKDKEYLYRTMPQIEKLFRIMNQKSSVALQRRILSLTGKTADKRYLEFLEKYPGLEQRITQQQVASYLGITHEFLSKIRKKMLTG	PGPT0015075_4579	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
BMS003_02960	615	sttH		Streptothricin hydrolase	ATGACTCTAAGTCTGATCTTTATTTCACTGATTACAATGAACGCACAACAAAAACAAAAAATGGAAAACACCGCATTATTAATTATTGATGTACAAAACGATTACTTTCCGGGAGGAAAAATGACACTTGAAAAGGCTGAACAGGCTGCAGAGAATACAAAGAAAGTTTTGGAGTATTTTCGAAAAAATCATCTCCCGGTAATTCATATTCAGCATATTTCTAACAATGAAGGCGCCACTTTTTTCCTGCCAGATACAGATGGAGCTAAAATCAATTCTCTTGTTTTGCCTAAGGATAACGAAAAAATAATTACCAAACATTTTCCCAACAGCTTCAGAGGGACTGACCTTTTGAGCCATTTGCAGTCAAATAAAATTAAAAATCTTGTGATTACAGGAATGATGACCGATGTTTGTGTAGATGCCACTACAAGAGCTGCCTTCGATTTTGGCTTTTACAATACAATCATCGGAGATGCTACAGCAACCAGAAACCGTGAATTGAATGGGGAAGTGGTGAAAGCTGTGGAAGTTCAAAAATCCTTTTTGGCAGGTATTTCTGCTCTGGGAAGTCTTTATGCCCGTGTAATAAATACCGATGCATTTTTAAAATAA	MTLSLIFISLITMNAQQKQKMENTALLIIDVQNDYFPGGKMTLEKAEQAAENTKKVLEYFRKNHLPVIHIQHISNNEGATFFLPDTDGAKINSLVLPKDNEKIITKHFPNSFRGTDLLSHLQSNKIKNLVITGMMTDVCVDATTRAAFDFGFYNTIIGDATATRNRELNGEVVKAVEVQKSFLAGISALGSLYARVINTDAFLK				NA	NA	NA	NA	NA
BMS003_02961	2580			hypothetical protein	ATGGACAAAAAGACACAGAAAAAACAGACCGAAATGCCTGAAAAAGGCAGAATTTTATCTAAGCCACGCATTTTTTTCGGGCTTACCTTTATACTTTTCTCCGCTGTTCTTGCCCTTTCATTCGTTTCCTATCTAATGAACTGGAAAGCAGACCAGAGCCAGGCAGGAACGATGCTGGACAAAACTATAAAATCTTCAAATATCTTTGGTAAGGTAGGTGACTGGCTGGGAAATATTTTCATTTTCGAAAGCATTGGGGTTGCTTCATTTATTATTGCCTTTTTATTTTTGGTAGTAGGTACGCTTATCCTTAAGAAGAAAATCTTCAAACCATGGAAAACCATTGGGCACTCTTTGTTTTTCATCTGCTGGCTTCCTATTTTTATGGGGGCACTTACTAAAGGACAAGGTGTTTTAGGAGGTGTTTATGGTTATCAGATTATGGATTATCTCAATTCCATCATCGGGGCTGTAGGTTTGTGGACTGTTTTGGCAGCAAGCATTCTTTTATATTTCATTCTTGAATTTAATCTCCGTCCAAGTTCTATCAAATCAAAACTGGATAAGATCAATGAGAATACCATCGGAAAAGTAAAATCTATGATGCCGGATTCTAATGATGATTTTGATGCAGATGAAGAGCTGAGGGAAGAAGCAGAAGAAGCTGCACAAGAAGAAGAAACGGTATCCAGAGTTACAGTAAGTGATGTTACCAACCATTCTTCCGGAAATGGTATTAATATTAATACGATGAAAGAACCAGAACAGAAAAGATTTACTGAAGTTCCGGCATCGTCCGATATAGAAACGATTACCACTCCAAATCATACTTCTTTTGAATCTGAACCGAGAGAAGTTTCTCAACCGGTAAGTCTAAATCTGGCAACAAAACCAACTGTTCCGGTTTCCAGCCCGGAAGAAGCTTTTGACATCAGACCATCTGCTCCGTCTCCGGCTGTAACTATTACACCGACAGAGGATAATATTAAATTCAATGTGGAAGTAGCTCCGGTAATTGATATTTTGGATGATTCTGATAAAAAATCTCAGGAACTGGTAGAAAAGCATGGTTTATATGATCACAAACTTGATCTGGCCAACTTCCAGATGCCACCTGTGGATTTGTTGAAAGACTACGGAAATGAAGAAATCTCCATCAATAAGGAAGAATTAGAAGAAAATAAAAATAAAATTGTTGGGCTTCTGAAGAATTTTAACGTAGGTATTGCAGAGATCAAAGCAACCATAGGTCCTACGGTAACGTTATATGAGATTGTTCCGGAAGCAGGAATAAGAGTGGCTGCTATTAAAAAGCTCCAGGATGATATTGCACTGAATCTTTCTGCATTGGGAATCAGAATTATTGCACCAATGCCAGGAAAAGGAACCATCGGTATTGAGGTTCCAAGAAAAAATCCTACCATGGTTTCTATGCGCTCTGTAATTGCTTCTCAGAAATTTCAGAATACAGATATGGATCTTCCGGTAGTTTTCGGAAAGACCATTTCCAACGAAATCTTTATGGCTGACCTTTCAAAGATGCCTCACCTTTTGATGGCAGGAGCAACAGGCCAGGGTAAATCTGTTGGGATTAATGCTATCCTTACTTCCCTTCTTTATAAAAAACACCCAAGCGAACTGAAGTTTGTAATGGTGGATCCTAAAAAAGTGGAACTTTCATTATATTCAAAAATTGAAAGACATTACCTGGCAAAACTTCCGGATGCCGAAGAAGCTATTATTACAGATACCAACAAAGTAATCAATACCCTGAACTCTCTTTGTATTGAGATGGATACCCGATACGACCTGCTTAAAAATGCATTCTGTAAAAACTTAAAAGAATACAATAAGAAATTCGCTGAAAGAAAATTAAATCCTGAAAACGGACACCGTTTCTTGCCTTATATTGTACTGGTAGTAGACGAGTTTGCAGATCTGATCATGACCGCAGGAAAGGAGGTTGAATTACCGATTGCCAGACTTGCACAGCTTGCAAGAGCCGTAGGGATTCACCTTATTGTCGCCACGCAGAGACCATCTGTAAACGTAATTACCGGGATGATCAAAGCTAACTTCCCGGCAAGGGCAGCCTTCAGAGTAATTTCCAGTGTAGACTCCAGAACTATTCTAGACTCTCCGGGAGCAGATCAGCTGATTGGTAAGGGAGATATGCTTTATTTCAACGGAAATGAGATTTTAAGGCTTCAGTGTGCTTTTGTAGATACTCCTGAAGTGGAAAGACTTGCAGAATTTATCGGAGAGCAGAAAGGATATGCATCGGCGTTATTACTTCCTGAATATGTTTCTGAAGATTCTGCGAGCTCCGTAGGTGCTTTTGACCCAAATGAAAAAGATGCTTTGTTTGAAGAAGCAGCAAGAATTATTGTTTCTACTCAGCAGGGGTCTACATCAATGCTTCAGAGACAGCTGAAGCTGGGTTATAACAGAGCCGGGAGAATTATGGATCAGCTTGAAGCAAGTGGTATTGTGGGAGGTTTCAACGGAGCTAAAGCAAGAGAAGTCCTGATCAGTGATCTTCATTCTTTGGAACAGTTTTTGGAAGATCTGCGTAGTTAA	MDKKTQKKQTEMPEKGRILSKPRIFFGLTFILFSAVLALSFVSYLMNWKADQSQAGTMLDKTIKSSNIFGKVGDWLGNIFIFESIGVASFIIAFLFLVVGTLILKKKIFKPWKTIGHSLFFICWLPIFMGALTKGQGVLGGVYGYQIMDYLNSIIGAVGLWTVLAASILLYFILEFNLRPSSIKSKLDKINENTIGKVKSMMPDSNDDFDADEELREEAEEAAQEEETVSRVTVSDVTNHSSGNGININTMKEPEQKRFTEVPASSDIETITTPNHTSFESEPREVSQPVSLNLATKPTVPVSSPEEAFDIRPSAPSPAVTITPTEDNIKFNVEVAPVIDILDDSDKKSQELVEKHGLYDHKLDLANFQMPPVDLLKDYGNEEISINKEELEENKNKIVGLLKNFNVGIAEIKATIGPTVTLYEIVPEAGIRVAAIKKLQDDIALNLSALGIRIIAPMPGKGTIGIEVPRKNPTMVSMRSVIASQKFQNTDMDLPVVFGKTISNEIFMADLSKMPHLLMAGATGQGKSVGINAILTSLLYKKHPSELKFVMVDPKKVELSLYSKIERHYLAKLPDAEEAIITDTNKVINTLNSLCIEMDTRYDLLKNAFCKNLKEYNKKFAERKLNPENGHRFLPYIVLVVDEFADLIMTAGKEVELPIARLAQLARAVGIHLIVATQRPSVNVITGMIKANFPARAAFRVISSVDSRTILDSPGADQLIGKGDMLYFNGNEILRLQCAFVDTPEVERLAEFIGEQKGYASALLLPEYVSEDSASSVGAFDPNEKDALFEEAARIIVSTQQGSTSMLQRQLKLGYNRAGRIMDQLEASGIVGGFNGAKAREVLISDLHSLEQFLEDLRS	PGPT0030468_3868	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
BMS003_02962	648			hypothetical protein	ATGAAAAATATTATTTCAAAAGTCATATTAGGAAGTTTTGTTGTAGGTGCAGTAGGTATGGCCAACGCTCAGAAAATTGATGCTAAAGCTAAAAAGATATTGGATGATATTACAGCCAACTACAATTCTAAAAAGAATTCTTACTTCAAATTTTCTTTTGGAAGTGGTCTTAACGGACAGGTTACGAAAACCGAACCAGGTATTTATTACGCTGCAGGAGAAAAATATAAACTGAAGATCATGGATACGGAACAGATCTTTGACGGAAATAAAATCTACAACATCAGCGCTGATGATATGGAGGTAACGATTGCCAAACCCAACGGCAGCAGCAGCATGTTCTCCCCTATCAACTACCTTACAACTTACAGAAATGATTACAATGTAACGTATAACGGTAAGAAAATGATAAACGGCGTAAATGCTGATTTTATTAAGCTTACTCCCGTAAAAGCAAACGGAATACAGTTCGTCTATCTTTTTGTAGATTCTGCAAAAAAACAAATGGTAAAGCTTGAACAGCACGGAAGCAACAAAGATGTTGCAGTGATTGCCATTAAAGAATACAAAGAAAATCAGGTTCTGGATCCCAATATGTTTGTTTTTGACAAAAACAAGTTTAAAAACTACGTCGTTACAGAACTTTAA	MKNIISKVILGSFVVGAVGMANAQKIDAKAKKILDDITANYNSKKNSYFKFSFGSGLNGQVTKTEPGIYYAAGEKYKLKIMDTEQIFDGNKIYNISADDMEVTIAKPNGSSSMFSPINYLTTYRNDYNVTYNGKKMINGVNADFIKLTPVKANGIQFVYLFVDSAKKQMVKLEQHGSNKDVAVIAIKEYKENQVLDPNMFVFDKNKFKNYVVTEL				NA	NA	NA	NA	NA
BMS003_02963	1458			hypothetical protein	ATGTTAAAAATACTAGACCGATATATCATAAAAACCTTCTTTGGACCGTTTTTCTTTATATTCAGCGTATTGTTTTTCATTTTTATTGTAAACATTATCTGGGTTCAGTTAGGACAGTTTATGGGTAAAGGATTAAGCTACTGGCAGATCCTCAAACTTCTTTTTTATCTTGGGGTGAACGTTATCAGCATGGTTCTCCCGCTTACAATTCTTCTTGCGAGCATCATGTCTTTCGGAGAATTCGGGGAACGCTATGAGCTTGCAGCCATGAAAGCAGCAGGAATTCCTCTGACCAGAGTAATGACCCCCCTGCTTGGAATTTCCACCGTCCTTGCTATTATGTTGTATTTTTTCTCAAGCAATATCATTCCTGATTTTCAGAAAAAAGCAAAAAATATGCTTTTCAATATTGCACAGACCAAGCCTGCCCTTAACTTTACCCCTGGCCAGTTTATAGATCAGATACCCGGCTTTATGGTAAAGTTTGATAAGATATATGGTGAAAACGGAGAAAACATTGACGGGGTCTTTGTTCACAAAAAAGCCAATGCATATGAGAATCAGCAGTCTATTGTAGCGGAAAAAGGAAAATTTGTTCCGGCTGCCAATAAGAACTTTCTAAAGCTTGTCCTGTATAATGGATATGTATTTGAAGATGCTTTTGCCGGAAAGGGCGACAATGTGAGACTAAAGCAGCCTGACCAGTCCATTAAATTCGACACATTGGTTTCCCATTTTGATATCAGTGAAATCATTAACAAAGCGATCGAAAAAGAGCAGATCACGGACGACTACCGTTTTGAGAACTACAATCAACTGAATAAAACCATCGATAAAAATAAAAAAGACAACAAACAGTTCTTTGATAATATAGGATCGGAAGTTCTTAACCAGACCAATTCCGTCATTACTTATATGGATAAGGGCAACAAACAAAAGGTAGCTCCAAAAACACAAATAAAACTGGACACGGTAAAAGGTGATAAAAAGCTGGAAATCATTTACAACTCCTACAACAGATTAGACAATCTGAAATCAACACTGGAATCTAAAAAGAATGAATACAGTTCTAATGTGAAATACTTCAGTAAAGTTGTTATTTACCAGCAAAGAATGGTTGCCTATTCTGTAACCTGCATTATCTTTTTCCTGATTGGATCCAGTCTAGGATCTATCATCAGAAAAGGAGGAATGGGGCTTCCTGTAATCATTGCAATCGTTATTTTCATTATCTTTTATGTAATGAACGTAGGGGTAGAAAACATGTCTTGGAGCGGAAAAATGAACCCTTATCTTGCCGCATGGCTTCCTAACCTGATCCTTCTTCCTTTCGGTGTGTGGATGACCTATAAAGCGCTTACGGATTCGCAGTTATTTGATGCCGAAAAATACAAAGCATTATTTAAACCGATTACCAAAAGGTTTTCAAAAAGTAAAGAACATCAGAGATACCAATAA	MLKILDRYIIKTFFGPFFFIFSVLFFIFIVNIIWVQLGQFMGKGLSYWQILKLLFYLGVNVISMVLPLTILLASIMSFGEFGERYELAAMKAAGIPLTRVMTPLLGISTVLAIMLYFFSSNIIPDFQKKAKNMLFNIAQTKPALNFTPGQFIDQIPGFMVKFDKIYGENGENIDGVFVHKKANAYENQQSIVAEKGKFVPAANKNFLKLVLYNGYVFEDAFAGKGDNVRLKQPDQSIKFDTLVSHFDISEIINKAIEKEQITDDYRFENYNQLNKTIDKNKKDNKQFFDNIGSEVLNQTNSVITYMDKGNKQKVAPKTQIKLDTVKGDKKLEIIYNSYNRLDNLKSTLESKKNEYSSNVKYFSKVVIYQQRMVAYSVTCIIFFLIGSSLGSIIRKGGMGLPVIIAIVIFIIFYVMNVGVENMSWSGKMNPYLAAWLPNLILLPFGVWMTYKALTDSQLFDAEKYKALFKPITKRFSKSKEHQRYQ	PGPT0023290_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
BMS003_02964	1059	fabH_4		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGACAAAGATTATTGGTGTAGGCAATTACATACCGTCGGAAACAATTACCAATCTGTTTTTTGACCAGCATATTTTTCTTAACGAGCAGGGGGTATTATTAAAGGAGAATAACGCTTCTATTACAGATAAGTTAAAAAAAATTACAGGGATTGAAGAAAGAAGGTATGCACATAGTACAGAGGTTACTTCGGATCTGGGTGTTATTGCAGCCCGTTCAGCAATAGAAAATGCAGGGATAGATCCTGAAACATTGGATTATATCATATTTGCCCATAATTTTGGAGATGTCCGTTTCGGGACGGTTCAGTCTGACATGGTACCCAGCCTTGCTGCAAGGGTAAAACATGTATTAGGAATCAGAAATAATTTTTGTGTTGCCTATGATGTTTTATTTGGATGCCCGGGATGGATTGAAGGGGTAATTCAGGCTCACGCATTTATTCAGTCTGGTATGGCCAAACGGTGTTTGGTGATTGGTGCAGAAACGCTTTCGCGTGTGGTGGATATTCATGACAGAGACAGTATGATCTATGCTGATGGGGCAGGAGCGGCTGTTTTGGAAGTGAATAATGATGATGATTCAGGAATAAAAGCCCATTTATCTGCTTCTTATACATTTGAAGAGAAAGATTATCTTTACTTTGGGAAATCTTATAATAATGAAAGCTGTCCGGATACACGATACATCAAAATGGATGGCAGAAAGATCTATGAATTTGCTCTGGTTAACGTCCCTGATGCCATGAAAAAATGCCTGGACAACAGCGGATATTCCATCAGTCAGCTGAATAAAATTATCATTCATCAGGCCAATGAAAAAATGGATGAAGCCATTGTTAACAGGTTTTATCAGCTGTATGATAGGCCAACTCCCGAAAATATAATGCCTATGGTTATTCATAAGCTGGGAAACAGCAGTGTGGCTACTATTCCGTCTTTGCTGACAATGATTTTAAAGGATGAACTGGAACATCATAAAATAAAGAAGAATGATGTGGTTTTATTTGCGTCTGTAGGAGCAGGGATGAATATTAATGCTTTTGTGTATCAGTTTTAA	MTKIIGVGNYIPSETITNLFFDQHIFLNEQGVLLKENNASITDKLKKITGIEERRYAHSTEVTSDLGVIAARSAIENAGIDPETLDYIIFAHNFGDVRFGTVQSDMVPSLAARVKHVLGIRNNFCVAYDVLFGCPGWIEGVIQAHAFIQSGMAKRCLVIGAETLSRVVDIHDRDSMIYADGAGAAVLEVNNDDDSGIKAHLSASYTFEEKDYLYFGKSYNNESCPDTRYIKMDGRKIYEFALVNVPDAMKKCLDNSGYSISQLNKIIIHQANEKMDEAIVNRFYQLYDRPTPENIMPMVIHKLGNSSVATIPSLLTMILKDELEHHKIKKNDVVLFASVGAGMNINAFVYQF	PGPT0008355_1167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS003_02965	555	frr	COG0233	Ribosome-recycling factor	ATGGAAGAATTAGATCTTATATTAGAATCTGTAAAACAAGACATGGATGCAGCTGTAAAGCACCTGGATCACGCATTTCAAAGAATTAGAGCAGGACGTGCTTCTACGGCAATGGTTCAGGATGTAATGGTAGAATACTATGGAGCAATGACTCCTATCAACCAGGTTGCGAATGTTTCTGTTCCGGATGCAATGACAATCTCTATTCAACCTTGGGACAGAACTGCCATCAATGCAATTGAAAAAGCAATCATCAATTCCAACTTAGGTTTTGCACCTTCTAATAACGGAGAGAATATTATTCTGAATGTTCCGCCTTTAACAGAGGAAAGAAGAAAAGAACTTGCAAAGCAGGCTAAAGCAGAATCTGAGAACACTAAAGTAACGGTAAGAAACGCAAGACAGGATGGTTTGAAAGAACTTAAAAAGCTGGAAGGAGTTTCTGAAGATGTTGTAAAAGGAGTGGAAGAAGAAATCCAGACTTATACAGATAAATACGTGAAGCTTTGTGATGAGCACCTTAAGACAAAAGAAGCTGAAATTATGAAAGTATAA	MEELDLILESVKQDMDAAVKHLDHAFQRIRAGRASTAMVQDVMVEYYGAMTPINQVANVSVPDAMTISIQPWDRTAINAIEKAIINSNLGFAPSNNGENIILNVPPLTEERRKELAKQAKAESENTKVTVRNARQDGLKELKKLEGVSEDVVKGVEEEIQTYTDKYVKLCDEHLKTKEAEIMKV				NA	NA	NA	NA	NA
BMS003_02966	282			hypothetical protein	TTGGGACATTACTTCCGTTCTCTATATCATATCATAAAATTTACCGATGGCTATGATGGAATTAATAAGCAGAAGTATTTATCTATAGCACGGTCACATTTATCAAATTCTGAACAAGTCTTGCTATATTATAATTGCCTTCACGAAAATGGAGTCTTAAAGTTTATGCCATTAGTGAAAAAATATGCGCTTTTAAAGAATCTCGATTGGGAATATTTTCCTGACAAAACATTCTTTTTATTTTATGAAATAGATGCCTATGTTAATGTAACAAAAAAATAG	MGHYFRSLYHIIKFTDGYDGINKQKYLSIARSHLSNSEQVLLYYNCLHENGVLKFMPLVKKYALLKNLDWEYFPDKTFFLFYEIDAYVNVTKK				NA	NA	NA	NA	NA
BMS003_02967	435			hypothetical protein	ATGAAAGAAAATAATAGTGGTAATGTCCCACTCTATATAACCTTATCTATATTTATTATTATCATTGTACTTGGACTTACCTGTATGATGCAAAATTCCAATAGCTATGATGAACGTGGAACATTTGGCGACATGTTTGGATTTGCGAATGCAGTATTTACAGGTCTATCAGTTGTAGGTCTTTTATTCACAATATTATTACAAAGAAAAGATATCAATACCCAGCGTGAAGAACTTAAAAAGCAGACGGATTCTATACATGTTCAAAATTTTGAAAATACATTTTTTCAAATGCTATCTTTATTTCATGGAATCGTTGATAGTCTTGAAATAATAGAGAATGATGAAATAATCAAAGGCAAAAGAGTATTTGGTGTTTTAAACCAAAAAATAAAATTAGAATTATTTGAATTCACATTAACAGAGGAGTATTAA	MKENNSGNVPLYITLSIFIIIIVLGLTCMMQNSNSYDERGTFGDMFGFANAVFTGLSVVGLLFTILLQRKDINTQREELKKQTDSIHVQNFENTFFQMLSLFHGIVDSLEIIENDEIIKGKRVFGVLNQKIKLELFEFTLTEEY				NA	NA	NA	NA	NA
BMS003_02968	645			hypothetical protein	ATGAAAAAATTACTTCTGCTAGCAAGCAGTATGTTGCTGTTTTCTTGTTCAACAAATGAAGAAATAGAGAAACACGAAAAATCTACACTTTCTGAAGCAAAAATTCAAGCTTTTAAAAAAGGATCAGAAAAAGGGTCGTCTGGTGATCCTATTACTTTTAAGTGTGGTTCAATCAGCTACATTAATCCTATCAACGTCAACCCAAATTTTCCCTACATCAGTGATTACGAAGTATTGTACAAGGAAGGAACTCCAATGTGGGGAAGAAACCAAATATACCTTGATAAATTTGTTGCGCAGGCTTTATTTCCTTCTATAAATGGTCCCTTTCTAGGTGGTCCAACAATTTACTATGGATATAATGCTTACGGTGATTTCCTGAGCGATCCTACCCCTTATGATAATAGTGCCGAGTATTCGTACGGACAAGACGCTGATAATGCTTCATTCTATGGAGATATTTTTCCTCACAATCAAGGAATGTCAAATGATGCAGCCAATACAGTGTATCATCATTTTAAGTATTACATTGACCAATGGACATCTCAAGGTAAACATGTAGTAGCAGTACATATTTTTACTGAAAGCTATCTTTGTATACCTGCCGCAAAAGGCATAAGAATAAGATTGAAATTTAGTAATTAA	MKKLLLLASSMLLFSCSTNEEIEKHEKSTLSEAKIQAFKKGSEKGSSGDPITFKCGSISYINPINVNPNFPYISDYEVLYKEGTPMWGRNQIYLDKFVAQALFPSINGPFLGGPTIYYGYNAYGDFLSDPTPYDNSAEYSYGQDADNASFYGDIFPHNQGMSNDAANTVYHHFKYYIDQWTSQGKHVVAVHIFTESYLCIPAAKGIRIRLKFSN				NA	NA	NA	NA	NA
BMS003_02969	1362			hypothetical protein	ATGACAAATCCATCTTTAGACGCCTATCAACAGGTTTTTGCTATGGCAGGTCTTGCCAACCGTGCAGGAGGTTACAACGGTTTTGGTATCCAACTGCAGCAACAGCTTCAGTATGATTTATCTTTTTATTTTAACAATGTTCCCCCGGTTAAAATAATGAATCAGAAAACACCTTCAACAGCTGATCCTTCAGTTACTCCGGTGCTGGGAAACTGGAATCTTGTTTGGGGGCCTGCCCTCATTGAAGAAACAGACGAAAAGGGTAAACCTACCGGAGTTGCAGACAACGCTTTATATGTAGCAAAGTGTGACGCTGTCGCATTTCCTGGAGGACCTACACTGCCTGCTTATGTCGTAGCCATTGCTGCTACCAATCCTTCTTCACTTTATGATTGGGAAACAGAAGATTTTTCAGTTGCGGAGGTTGTTAACTGGACTACTTATGATCCTTCCGGTTTTTCTCCATCCCCTTATAATGGTACAGATCCTTATATTTCAAAAGGTACTGCTACGGGGATCAGTATTCTCCTGGGGCTTAAAAGTCCTCATTCTGCAGCATCACCTTATACAACACTCCAAGAGTTTCTGAAAGGTTTAAACCCGGATCCGGGAACAGCAATTGTATTTTGCGGGCACAGCCTTGCAGGAGCACTATCTCCCACCCTTGCCCTTTATTTAAAAGAAAATAAAGATCTTGATGCTTTCGGGGTAACACTTGTATATCCTACTGCAGGACCTACTCCGGGCGAAGCTGCATTTGCAAATCTATTCAACAGTACTTTTCCTCCGCTGCCTTCCGGATGGCAGGCTCAAAAAGGGGATTATCAAAGCTGGAATACGATGCACTGGAATGATCTGGATGTAGTACCTCATGCATGGCTGGAATCAGGTTTGGAACAGATTTCGACTATATATGGTCAGTCATCCAATAAGCTTACTGCTTTCACATTAGCTACTTTACAAAGCATTGCTATAGACGATGGTTCAAAATCCGGAGCTACTTATACAAGGATACAAAATCAATCTTTACCGGGTAAATTACAGAATTCCGATGGACCTTCCACTGCTATTAATACACCTCCTCAGTCTCTGGATGATTATATGCTTCAGTTGTTTATACAGCACGTAGATATGTATTCCGGGATTCCAGCTTCCGGACCGAACCATCCACAGGTAAACGGTCTTATTTTACCACAACCGCTGCCCAAACCCAGCTCAACGAAACTTGTTCCGGGAGTAACTGCTGTGACAAAAGCAGAAATGATTTTAAAAATAATAAAACAGATTATCGGATGGATTTCTGCCCGCTATCAGCTGGCTCAGCAGGAAAGCATCCGGCAAAATGCTAATGCAGATAAATAA	MTNPSLDAYQQVFAMAGLANRAGGYNGFGIQLQQQLQYDLSFYFNNVPPVKIMNQKTPSTADPSVTPVLGNWNLVWGPALIEETDEKGKPTGVADNALYVAKCDAVAFPGGPTLPAYVVAIAATNPSSLYDWETEDFSVAEVVNWTTYDPSGFSPSPYNGTDPYISKGTATGISILLGLKSPHSAASPYTTLQEFLKGLNPDPGTAIVFCGHSLAGALSPTLALYLKENKDLDAFGVTLVYPTAGPTPGEAAFANLFNSTFPPLPSGWQAQKGDYQSWNTMHWNDLDVVPHAWLESGLEQISTIYGQSSNKLTAFTLATLQSIAIDDGSKSGATYTRIQNQSLPGKLQNSDGPSTAINTPPQSLDDYMLQLFIQHVDMYSGIPASGPNHPQVNGLILPQPLPKPSSTKLVPGVTAVTKAEMILKIIKQIIGWISARYQLAQQESIRQNANADK				NA	NA	NA	NA	NA
BMS003_02970	708	pyrH	COG0528	Uridylate kinase	ATGAAATATAAAAGAATCCTTCTGAAACTAAGCGGTGAGGCTTTAATGGGGAACAGACAATATGGTATTGACAACGAAAGACTGCAGGAATATGCTGCTGAGATCAAAAAAGTAGTTGACAAAGGTTGTGAGGTAGCGATCGTAATTGGAGGAGGAAATATTTTCCGTGGTGTAGCCGGAGCTGCAAAAGGAATGGACAGAGTGCAGGGAGACTATATGGGAATGCTGGCTACTGTTATTAATGGTATGGCTTTGCAGGGAGCGTTGGAAGATGCAGGAATCAAGACAAGACTTCAGTCGGCAATTGAAATGGACAAAGTGGCTGAACCTTTCATCAAAAGAAGAGCGGTAAGACACCTTGAAAAAGGAAGAGTAGTAATCTTCGGTGCCGGAACAGGAAATCCTTATTTTACTACAGATACAGCAGCTACATTAAGAGCTATCGAAATCGGTGCTGATGTAATCTTAAAAGGAACAAGAGTAGACGGAATCTACGACAGTGATCCTGAAAAGAATGCTGATGCTGTAAAATACAATTCATTATCTTTCGATGAAGTATTCGAGAAAAATCTTAAAGTAATGGATATGACAGCCTTTACGCTGAGCCACGAAAATAAATTGCCAATTATTGTATTCGATATGAACAAAGATGGGAATTTAGAAAAAATCGTAGACGGAGAAAATGTAGGTACTCTTGTTGATTTGTAA	MKYKRILLKLSGEALMGNRQYGIDNERLQEYAAEIKKVVDKGCEVAIVIGGGNIFRGVAGAAKGMDRVQGDYMGMLATVINGMALQGALEDAGIKTRLQSAIEMDKVAEPFIKRRAVRHLEKGRVVIFGAGTGNPYFTTDTAATLRAIEIGADVILKGTRVDGIYDSDPEKNADAVKYNSLSFDEVFEKNLKVMDMTAFTLSHENKLPIIVFDMNKDGNLEKIVDGENVGTLVDL	PGPT0021205_4229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
BMS003_02971	993			hypothetical protein	TTGAAGAAAATTATCATTTTTTCATTATTTCTATCAGGAATTGTTTCTTATGCGCAAACAGGAACAAATGTTTATCCTTTCTTAAATGTACCTGTATCTGCAAGACAGGCCGCTTTGGGTGGAGATGCAATTTCAGTAAGAGATTATGATGTTTCCTTTGCTATTGCAAACCCTGCCCTGTTAAATAAAGATTCTGACAAACAGCTTTCTGTAAACGCAACAGCCTACCTGGCCGATTCCAAATACGGAACGATAGCTTATGCCAAAGACTTTGAAAACGGCCACATGGCTACCATCAATGCAAGGTATATGAGCTACGGTAGTATTCCGAGAACAGATGAAAGCGGTTTTGAAAACGGAGAATTCAAAGCTTCAGATGTAGCCATTGGTGCGGGCTATGCCTACCAGTTTGAAGAAGACTGGACGATTGGCGGAGGGCTTAATTTTGTTACCTCAAAAATTGATAACTATACTTCTTCCGCTATTTCAGGAACTGCGGGAATTACCTATCATAATAAAAAGAATAAAGAAGTACTTTCTCTTGTAATGAGAAACTTTGGCTTCCAGCTGAAATCTTTTAACGGGACAAGAGAGAATCTTCCTTTCAGAGTAGACTTAGGATATACCAAAATCATCAAGAACCTCCCTCTTGCCATTACTATCACGGCACATGATCTTCAAAAGTTTGATATTTCTTCAGAATATAATATTGATGGACAAAAAGTGAACGCCGGCAGAAAAATAGCCGATCACTTTTCTTTAGGAGCAGAATTATTTCCGGAAAAGAATTTCAATATCAGACTCGGTTATAATGTGAAAAGAGGAAATGAACTGGCTGTAGCAGATCAGAGAAACTTCTCAGGACTTTCTGCAGGATTTGGAGTGAAAGTTTCCAGATTCCGTATTGACTATGCACATGTAAGATATCACAACTCTTCGAATGTCAACCAGATAGGCATCTCCATGGATCTTTCAAGCCACAGAGGAGAATAA	MKKIIIFSLFLSGIVSYAQTGTNVYPFLNVPVSARQAALGGDAISVRDYDVSFAIANPALLNKDSDKQLSVNATAYLADSKYGTIAYAKDFENGHMATINARYMSYGSIPRTDESGFENGEFKASDVAIGAGYAYQFEEDWTIGGGLNFVTSKIDNYTSSAISGTAGITYHNKKNKEVLSLVMRNFGFQLKSFNGTRENLPFRVDLGYTKIIKNLPLAITITAHDLQKFDISSEYNIDGQKVNAGRKIADHFSLGAELFPEKNFNIRLGYNVKRGNELAVADQRNFSGLSAGFGVKVSRFRIDYAHVRYHNSSNVNQIGISMDLSSHRGE				NA	NA	NA	NA	NA
BMS003_02972	675	cmk	COG0283	Cytidylate kinase	ATGAAAAAACCTGTAATTGCTATTGATGGGTACTCGTCTACCGGAAAAAGTTCTATCTCCAAAATCATTGCTGATCAACTGGGACTTATTCATATGGACACAGGGGCTCTTTACAGAGGAGTTACCTGGTATGCATTGCAGCACTGTCTTAATACAAATGGCGGGATTGATCTGAATACATTATTCTCTTCTTTTGATCAGATCAGGCTCGAGTTTAAAAACAATGAAGGAACACTAATCCTATTCCTTAACGGTACAGATATCTCCAAAGAAATCCGCACCAATATCGTATCTGACAACGTAAGTCTTGTGGCCAAACAGAAAGAAGTAAGAGACTTCCTGCTGCAGTCACAGCGCACTTTGGCAGAAAAAGGAGGTGTAATAATGGACGGACGTGACATTGGGACAGTAGTTCTGCCAAATGCAGACTATAAATTCTTTCTTACTGCCAGTATTGACGAAAGGACCAACAGAAGGTTTCTGGAACTGAAAGGCCTGGGGATTGAAGCGGATAAAGAACAGGTAAAGCAAAACCTTATAGAACGTGACAAGATTGACAGTGAGCGTGAAATAGCCCCACTGAAGCAGGCTGACGATGCTATCGTGATTGATAATTCAGAATTAACCAAAGAAGAAACCATAGAACTTATTTTATCTCACATCAAAAAGATTTAA	MKKPVIAIDGYSSTGKSSISKIIADQLGLIHMDTGALYRGVTWYALQHCLNTNGGIDLNTLFSSFDQIRLEFKNNEGTLILFLNGTDISKEIRTNIVSDNVSLVAKQKEVRDFLLQSQRTLAEKGGVIMDGRDIGTVVLPNADYKFFLTASIDERTNRRFLELKGLGIEADKEQVKQNLIERDKIDSEREIAPLKQADDAIVIDNSELTKEETIELILSHIKKI	PGPT0021220_2472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS003_02973	351			hypothetical protein	ATGTCTAGAAAAGGAAATAATACAGCAGGTATATTGGCAGGACTTCTTGCAGGTGCTGCGGCAGGTGTAATCTTAGGAATGTTATACGCACCGGAAGAAGGTAAAGAAACCAGAAAGAAAATTAAAACGAAAGCCAATGATCTTAAAGATCAGGCAAAAAATAAATACGGAGAGGTTTCTGAAAAAATGAAAGACCAGTACGGCAATATTTCTTCTACTTTCAAAGAAACTGCAAACAGCGTAGCGCATACTGTGAAAGACGGATATGATAAATACAAAGATCAGATTGTTTCCAAAACTGCAGATTTAGCAAAAGATATGGAAGCAGAACTGAATGATCTGAAAAAATAA	MSRKGNNTAGILAGLLAGAAAGVILGMLYAPEEGKETRKKIKTKANDLKDQAKNKYGEVSEKMKDQYGNISSTFKETANSVAHTVKDGYDKYKDQIVSKTADLAKDMEAELNDLKK	PGPT0015027_258	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
BMS003_02974	309			hypothetical protein	ATGATAGAAACTATTAAAGAATACGCCTCCAAGAGAATAGATCTTCTGAAAATTGAAGCGACCGAAAAGTCGTCACTTTCTGCCGGGCTCATTACTTACTTTGTAGTACTGCTTGTTGCTTTTGCTTTTTTTATTATCCTTTTCAATTTCGGAATAGCTTTTCTTATCGGGAAAGCACTGGATAATTATTCATACGGATTTTTAATTGTAGCTGCATTTTATGTGCTGGTAATGGCATTTGTTATTGCTTTCAAAAATAAAATTGTCAATACTGTTGCAGATCAGGTAATTAAATTTTTAAATTATTAA	MIETIKEYASKRIDLLKIEATEKSSLSAGLITYFVVLLVAFAFFIILFNFGIAFLIGKALDNYSYGFLIVAAFYVLVMAFVIAFKNKIVNTVADQVIKFLNY				NA	NA	NA	NA	NA
BMS003_02975	501			hypothetical protein	ATGGGTATAAAATACGAGAGCATAGAAGAATTAAGAAGAAAGAAAAAACTGCTTCAGGGAGAAATAAATGATCTGGAAAATCTTCTTACCTTCAAAAACACAAAAGAAAGCCTTAGTGCATTTACCAATGGTTTAAGTGATCAGTATCTTCAGGAAAAGGTAGATGAAGATGGGGATGAAAAAGTAGTCTTAAGAAAAGACATTATTGCCAAACAGCTTACTTCAGAAGTAAAAGATCTTCTGATCAGCAAAAATACAGCTGTAGGAATTGCAAGCTCCGCATTCAAAGGAGGAAATATTACAGACAGTCTTGTAAAGCTGGGTGTTACCGCAATCGTAGGAAACTATGCCAAAAAAAATATGAAAAGCTCCAACTGGAAGAAAAAACTGATTGGCGCAGCGCTGATCTATCTTGCTCCCGTAGCACTGAAATACGTCAGAAAAAAGATGGAAGTATATCAGAAAAACAAAAGTGTTTCCAGTATGGAACAATTGATATAA	MGIKYESIEELRRKKKLLQGEINDLENLLTFKNTKESLSAFTNGLSDQYLQEKVDEDGDEKVVLRKDIIAKQLTSEVKDLLISKNTAVGIASSAFKGGNITDSLVKLGVTAIVGNYAKKNMKSSNWKKKLIGAALIYLAPVALKYVRKKMEVYQKNKSVSSMEQLI				NA	NA	NA	NA	NA
BMS003_02976	657	rlmB		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	TTGTTTTTGGTTGAAGGTAATAAAATCATTTGTGAACTTTTTAATTCTAACTTTAAAGTTAAAGAAATATTATCAACGGATCCACAAAAATTGGACCGTACTGATATCCCTGTTACCCATATCTCTGAAAATGAATTAAAAAAAATTAGTTTTCTTAAAACCCCAAAAGATTCCGTTGCCGTATGTTATCTTGCCGAAGATGAAAAAATGCAAGATAAGAATATACAGCTGGTTTTGGATGGAATACAGGATCCCGGAAATTTAGGAACTATTATACGTCTTGCAGACTGGTTCGGGATAGAACAGATAATTTGCAGTGAAGATACCGTGGATGTTTACAATCCGAAAGTGATTCAGGCGACAATGGGTTCTTTTACGAGAGTAAATGTGGTTTATACGGATCTTGCAGGCTATCTTTCTTCAACCGGGAATGTGAATATAGGAACAGACATGGAAGGGGAGAATATCTATACTTTTGAGAAGCCGGAAAAGATTAATCTTATTTTAGGTAATGAAGGAAACGGAATGAGGCCGGAGACAGAGAAGCTTTTACAGAAAAGTATCAGCATTCCGAGGTTTGGAAAATCCCAGTCTACAGAAAGCCTGAATGTATCAATGGCTGCAGGAATTATTTTAGGACAGCTATTTTCGAAATAG	MFLVEGNKIICELFNSNFKVKEILSTDPQKLDRTDIPVTHISENELKKISFLKTPKDSVAVCYLAEDEKMQDKNIQLVLDGIQDPGNLGTIIRLADWFGIEQIICSEDTVDVYNPKVIQATMGSFTRVNVVYTDLAGYLSSTGNVNIGTDMEGENIYTFEKPEKINLILGNEGNGMRPETEKLLQKSISIPRFGKSQSTESLNVSMAAGIILGQLFSK				NA	NA	NA	NA	NA
BMS003_02977	2601			hypothetical protein	ATGAGCTGTAAGCATTATAAGAATTCTCCTCAAAAATATTATAAAATTATCTCATTTGCAACATTTGTTGGTCTCCTTTATGCTTGTAGTACGACAAAAAAAGTTCCGGAAGGCGAATATCTGCTCACCAAGAACACTCTGGGATTCGAGGATAAGAAAGCGTTTTTCGATGAAGAACTGAAAGATTATATTCAGCAAAAGCCCAACAAAAAACAGTTTCTTTTCATGCCATTAAGTTTACTTCTTTACAACATGGCAGATCCGAAATATGATACGATACTTAACGAATACATGACGTATCCAGGTGAGATGAGAAACCAGAAGCTGAGAGACTCACTATTCGTTAAATATAATATGAAAAGCAGTGTAGGAAAAAGCCTGCTTTTCGACCGTTTATTGCATAACTGGGGGACAGCACCGGTAATTCTTGATCAGACGAGAAGTGAAAAAAGTGCAGAATCTATTAAGAAAAGGCTTACCTACAGAGGATATTGGGATTCTGATGTTACTTTTAAGCATACGCTGGATTCTGCTTCTAAAAAAGCTTCTGTAAATTACTCTATCAAACACAACGAACCTACCCGTATCAAGGATTATTTTTACAATATTCCAGATCAGGGGATCAAGGGATATTACAGTTCTTTCCTTAATAAAAGTCTTGTAAGATCAGGACAGATCCTTGATCAGACTGTTCTTGAAAGAGAGGCAACGAGAATTACTGAACAGATGAGAGAATTTGGGTTCTACAGATTCAATGCTTTAAATGATGAAGTGTATTTTATAGCAGACTCTCTTAAAAGCAGAAAACAGGTTCCTCTGACCCTTGAAATTCATAAAGATTCTCTGGATACTCCGTATAAAATTGCCACTTTTGGAAATATTGATGTTGCCATCGTAGATGAGCCCGGAGATTATCCTAAAAATACAAAGAAAGACAGCTTAAGAAGAATAAGATTCCATACGATGAATGATAAGTACAAGGTTTCATCTATTTGGAGGGCTATTATTCCTGACAGTAAAAAAGTCTTTGATCAGACAAAACTGGACGTCACCAAGAGAAATCTTTTGGCGATGAATAACTTTAGCATCGTTAAGGCAAGAGACTCCCTGAGACAAGGAGGAATATCTTCTCCCAATGACAGTATTGTGGATGTATTATACGTATTGAAGCCACTTCCGAAATATGAGTTCAAACTGGGAACAGATATTAATTATTCTCAGGTTCTGAATCTGGGGATCTCTCCTTCTGTAGACCTTACTACCCGTAATGTTTTCAGAGGAGCAGAAAACCTTTCTACCAGTCTTTCAGGAACGTTTGGGTCCATCAGAAGTACAAAAGATATTGATAAAAGAGTGGCTGCTTACGAAATATCTGCTCAGGCATCTCTGAATTTCCCAAGGCTGCTGCTTCCTATTAATTATTATAAATTAATTCCTAAACGATATACTCCTACTTCCTCCATTTTGCTGGGAGCATCCATACAGAACAACATTGGTTTGGGAAGAACTATCTTTAATACAGGACTGAATTATCAGGCAAGTGTGAATGACCAGGTATATCATAAGCTTACTTTATTCAATACCCAGATCAGTCTGACGAAAAACAAAGAAGCTTATTATGATTACTTTGTGAATGACAATATTGTAAGAACCGAAGTCTTTGATGATTATTTTGCAAAAAATCCTACTGCTGAGCAGGAACTCCAATCTGGGCAAAAGACCATTGATGAGATTTCTACGCAGATCATCAATGATACAAACTATCTTTCGGGGCTTGATCAGGCTGGCGCTAACCGTCTCATTGCTTTTTTAGGAACATTAGTTAATAAAGACAGACAAACTCAGGATGTATTAATCTCTTCTATGATCTACAACTTTGTCTATAGTGAAATTGGGAAAAAAGAGTATCCAAATGCTTTTTATTTTAACGGAAAAGTTGAACTGGCAGGTAACATCTTAAGTTTATTCAATAAAAAGGATAATGGCGGTGGTGTTGTGACATCACCACAAAGAACCATATTTGGATTACCTTATGCTCAATTTGTGAAGTTTGATATTGATACCAGGAAATATTTCAAATTCAATGGAAACCAGACATTAGTTCTTCGTCAGTTTATCGGTCTGGGAATTCCTTATGGAAATTCTGAAGATATGCCAATCATTAAATCCTATTTCAATGGAGGCTCCAATGATATCAGAGCATGGGTTGCATTTGGAGGATTGGGTCCTGCTGACTCTCAGGTAGACGAAAGAGTACGTACCTATATGACGAGCAACGTAAAACTTACTACCAATATTGAATATAGAATTCCTTTCAATAAGACCTATGAAGGAGCCCTTTTCACCGATATTGGTAATACCTGGAGTCTTCGTAATCAACATGACGGATATGGAGATGAGTTTAAATTCAATAAATTCTGGAAACAAGTAGGTATCGGAAGTGGTTTTGGGTTAAGATTGAATATTGCATATGTAACGGCCAGAATTGACCTTGCTTATAAGATCTACGACCCGAATAAACCTGAGGGAGACCGATGGAGGTTCAAATATATCCAACCATTCAAACCTACTGTTAATATTGCGTTCGGATATCCTTTCTAG	MSCKHYKNSPQKYYKIISFATFVGLLYACSTTKKVPEGEYLLTKNTLGFEDKKAFFDEELKDYIQQKPNKKQFLFMPLSLLLYNMADPKYDTILNEYMTYPGEMRNQKLRDSLFVKYNMKSSVGKSLLFDRLLHNWGTAPVILDQTRSEKSAESIKKRLTYRGYWDSDVTFKHTLDSASKKASVNYSIKHNEPTRIKDYFYNIPDQGIKGYYSSFLNKSLVRSGQILDQTVLEREATRITEQMREFGFYRFNALNDEVYFIADSLKSRKQVPLTLEIHKDSLDTPYKIATFGNIDVAIVDEPGDYPKNTKKDSLRRIRFHTMNDKYKVSSIWRAIIPDSKKVFDQTKLDVTKRNLLAMNNFSIVKARDSLRQGGISSPNDSIVDVLYVLKPLPKYEFKLGTDINYSQVLNLGISPSVDLTTRNVFRGAENLSTSLSGTFGSIRSTKDIDKRVAAYEISAQASLNFPRLLLPINYYKLIPKRYTPTSSILLGASIQNNIGLGRTIFNTGLNYQASVNDQVYHKLTLFNTQISLTKNKEAYYDYFVNDNIVRTEVFDDYFAKNPTAEQELQSGQKTIDEISTQIINDTNYLSGLDQAGANRLIAFLGTLVNKDRQTQDVLISSMIYNFVYSEIGKKEYPNAFYFNGKVELAGNILSLFNKKDNGGGVVTSPQRTIFGLPYAQFVKFDIDTRKYFKFNGNQTLVLRQFIGLGIPYGNSEDMPIIKSYFNGGSNDIRAWVAFGGLGPADSQVDERVRTYMTSNVKLTTNIEYRIPFNKTYEGALFTDIGNTWSLRNQHDGYGDEFKFNKFWKQVGIGSGFGLRLNIAYVTARIDLAYKIYDPNKPEGDRWRFKYIQPFKPTVNIAFGYPF				NA	NA	NA	NA	NA
BMS003_02978	618			hypothetical protein	TTGAGAATTATACGGAACATATTTAACCTGGGTTTTATATCATTGGAATTGGGAATTCTGATGATATGTTTCTGTAATGTGTGGGTTTTCGGGCTTACCAACGGGAGAACCTATACCAAGATTTCTAAAATTCCGCCAAGGGAAATTGCATTGGTTCTGGGAACATCCCCAAAAATGAGATCCGGAAAATCTAATCCTTATTTTACCAAAAGAATGGATGCCGCAGCACTTCTTTACCATCATGGGAAAATCAAGAAAATTATTGTAAGCGGAGAGAAGAGTAAAGGCTATAATGAACCGGAAGCTATGAGAAACTACCTGATTAATCAGGAAGGTGTTCCGGAAGATATTATTATAGAAGATCCGAAGGGTTTCAATACCTATAAAAGTATTCTCCGGTGCAAAGATGTTTATAAAAAGAAAAATGTGATTATCGTATCTCAGGGTTTTCACAATCTGAGAGCTCTGTTTTTCGCCAGAAATAATGATATGAATGCTTTAGGTTTCGATGCACAGGATGTCTCAAAACCTGAAAGCTTCTACAGAAACCAGACGAGGGAAATCCTCGCCCGGGTAATTGCTGTAGTCTATTTTATTTTAGGGGTTTCTCCCGACTAG	MRIIRNIFNLGFISLELGILMICFCNVWVFGLTNGRTYTKISKIPPREIALVLGTSPKMRSGKSNPYFTKRMDAAALLYHHGKIKKIIVSGEKSKGYNEPEAMRNYLINQEGVPEDIIIEDPKGFNTYKSILRCKDVYKKKNVIIVSQGFHNLRALFFARNNDMNALGFDAQDVSKPESFYRNQTREILARVIAVVYFILGVSPD				NA	NA	NA	NA	NA
BMS003_02979	1125	paaE_1	COG1018	1,2-phenylacetyl-CoA epoxidase, subunit E	ATGGAACAACAAATCTATAAAGGGAAACTGATACAGTTTCATCTGTTAAAAATAGCGAAAAAGGAAGAGCTGACCAAAAATACTTTTTCTCTGGAGTTTGATATTCCTGAGAATCTAAAGGAAAACTTCAGGTTTGAAGCAGGGCAGTTTGTCAGTATACGATGTCAATCACATGGGAGAGAGGTTATTAATGATTATTCAATGACTTCAGCACCTTATGAAGGAAAAATAAGTCTGGGAATAAAGGTTAATTCCTCTGATGGAGCAGCTGCACAGTTGTTTCAAAACTATAATACAGGTGATGAGCTGTGGGTAAGTGAGCCTGCCGGGAGGTTTACCATTGTATCAAAACCCAGCGAGTTCAGAACTATTGTTGCCTTTGCTGCTGGTATAGGGATTACTCCTATTCTGAGTCATTTTAAAAATATTCTTCACAACGAACACAGAACCCGGCTTTTTTTATTTTTCGGAAATAAAAGTTCAGACGACCTTGTTTATCGCGAGGAACTGGATAATCTTGCCAGAACCTGTGGTGACAGACTTCAGATATTTTATTTTTTCTCACAGGAAAAAACAGCAGATCAGTTTTTTTACGGCAGACTGGATGAAAAAAAGCTGAACCTTATTATTAATCAGATCCTTCATCTGGATGATACGGATGAAGAATCTACCATTTGGGATGCCGTGGATGAAGTACTGATCTGTGGAAAGGGAGAAATGATCAAAACTTTGGCGAATGCCTGCTATCATCACGGAATTCCGAAAAAGAATATTCATTTTGAGCTTTTTGAAGAATTTAATGATGATATTTATCCTGTAGAAAAAGAATTTCCTTTGATTGAAAATATAGAAGTGGAATTTACGATGCTTGGAAAAAAATATACTACCCAACTTGCTGATAATAAGGATAAATTGCTGCAACAGCTTCTTATTCAGGAATTTCCGGTTCCTTATTCATGTAAGTCAGGGATTTGTGGAAGTTGTGAATGTTCTCTGGAAGAAGGAGAAGTAGAACTGCTGGAGAATGAGTATCTTACCGAAAAAGAGGAAGAGCAGGGGCATATACTGGCGTGCATGTCTATTGTGAAAAGTAAAAAAATAAAGCTTAACTTTGATCTTAGTTGA	MEQQIYKGKLIQFHLLKIAKKEELTKNTFSLEFDIPENLKENFRFEAGQFVSIRCQSHGREVINDYSMTSAPYEGKISLGIKVNSSDGAAAQLFQNYNTGDELWVSEPAGRFTIVSKPSEFRTIVAFAAGIGITPILSHFKNILHNEHRTRLFLFFGNKSSDDLVYREELDNLARTCGDRLQIFYFFSQEKTADQFFYGRLDEKKLNLIINQILHLDDTDEESTIWDAVDEVLICGKGEMIKTLANACYHHGIPKKNIHFELFEEFNDDIYPVEKEFPLIENIEVEFTMLGKKYTTQLADNKDKLLQQLLIQEFPVPYSCKSGICGSCECSLEEGEVELLENEYLTEKEEEQGHILACMSIVKSKKIKLNFDLS	PGPT0006065_142	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006065-paaE-K02613	NA	NA
BMS003_02980	561	resA_4		Thiol-disulfide oxidoreductase ResA	ATGAAAAAGATAATTTTGTCCACGTTGCTTCTTACTGCCCTGTACAGCTGTAAAAAAGAAAGTCAGAAAACTGAAAACACAGCAGCTGCAGACTCTCTTTCCGTTTCCCAATCTACAGAAAATGAAGGAAATACAGCTCTTCCCAAAGAACTCTCACCTGAAAACGTAAGTCAGCATTTAGCAAAAAATAATGATACGCTATATGTAACCAACTTTTTTGCAACCTGGTGTGGTCCTTGTATGAGAGAAATTCCAAGTTTTAAAAATAAAATGGAGGAATTGAAGGGAAAACCTGTGAAATTTACTTTCGTAAACCTTGATGATAAGGCAGAATGGGCTGGTGCTGTTAAGAATTTTGCTACAGAAAATAAACTGGGAGGCAATATTATTTTACTGGATGGACAAAAATTGGATCAAAACTTCTTTCATACTAACTTCAAACAATGGGACGGTGGTTCTATTCCCTTCACTTTCATGAGAAAAGGAGAAAAAACCGATGAATACCTGGGAATGATGACAGAAGATGTTTTGAATTCAAAAATAGATTCTTTTTTACAATAA	MKKIILSTLLLTALYSCKKESQKTENTAAADSLSVSQSTENEGNTALPKELSPENVSQHLAKNNDTLYVTNFFATWCGPCMREIPSFKNKMEELKGKPVKFTFVNLDDKAEWAGAVKNFATENKLGGNIILLDGQKLDQNFFHTNFKQWDGGSIPFTFMRKGEKTDEYLGMMTEDVLNSKIDSFLQ				NA	NA	NA	NA	NA
BMS003_02981	972	hmuU_2	COG0609	Hemin transport system permease protein HmuU	ATGTCAAAAAGATTTAAAATCCTGTGTTTATTATTTGTGATCGCCATTCTTGTCAGTGCTGTCATTAATCTGAATACAGGATTTTTAAGTTTAAGCTTACAGGATTTCTTTGGGGATTCTGCTCATAGCCAGATTGCTGAAATTCGTATTAACCGTGTTCTGGTAATGATGCTGGCCGGAATTTCAATTCCAACTTCAGGATTTCTGATGCAGGAATATTTTCAAAATCCGCTGGCAGGACCTGATATATTGGGAATTACTTCGGTTGCCAGCCTGTCAGTTGCTTTTTACATTTTCTTTTCTCACAATATTTTATTGCCTGAGTTTCTACAGAACAGTTTTCTCAGTTTATCCGCTATTGGTGGAAGTTTACTGCTAATGCTCATCCTTTTGTCAATGTCTAACAGATTTCAGGATAAATCTTACCTTATCATTTTTGGATTTCTGGTATCGGCCTTTGCCGGAGCAATCGTATCGCTTCTTCAGTTTTATGCTGAAAACCAGAGTCTTAAAAACTATATTTTATGGTCTTTCGGAGCAAATAATATGGTAACAAGAAACCAGATTTATGTACTGTTTGTCTTGGTTTTAATTGGCATGACTGTCTGTTTCAGAGCGATAAAGCCGCTTATAGGAAACTCTCTGGGCAATTCTTATGCACAAAGTTTAGGAGTGAACCTGAAAGAGCTGAAACTTTTAATAATCGTTGCATCTTCTCTCCTATCGGCTTCGGTCACTGCATTTCTTGGTCCTATCCTCTTTATCGGAATTATTGTTCCTCATTTTTGCAGACTGGTTTATAATCCTTCAAAACTATGGCAGCAATGGATTCTTAATATGTTTCTAGGGATGCTGATTATGCTTTTCTTCTCTGTTATTGCAGAAAAAACCCAGATTCCTTTGAATGTGATAAGCTCTGTATTTGGAATTCCTGTGATTCTGATGATGCTTTTGAAACAGAATAAAGTTTAG	MSKRFKILCLLFVIAILVSAVINLNTGFLSLSLQDFFGDSAHSQIAEIRINRVLVMMLAGISIPTSGFLMQEYFQNPLAGPDILGITSVASLSVAFYIFFSHNILLPEFLQNSFLSLSAIGGSLLLMLILLSMSNRFQDKSYLIIFGFLVSAFAGAIVSLLQFYAENQSLKNYILWSFGANNMVTRNQIYVLFVLVLIGMTVCFRAIKPLIGNSLGNSYAQSLGVNLKELKLLIIVASSLLSASVTAFLGPILFIGIIVPHFCRLVYNPSKLWQQWILNMFLGMLIMLFFSVIAEKTQIPLNVISSVFGIPVILMMLLKQNKV				NA	NA	NA	NA	NA
BMS003_02982	447			hypothetical protein	ATGATCACAGAGAGTCTAAGATCTCTTTTCAACAGAGATTTAAATAAATTAAAAACAGAGATAGAAGCCTACCAGAATGAAGAAAACCTTTGGAAAATTGATAAAAGTATAACCAATTCTGCCGGTAATCTTTGTCTTCATTTAGTAGGAAACATTAATCATTTTATAGGAGCACAGCTCGGAAACACGGGCTATGTAAGACACCGCGAGCTGGAATTTTCATTAAAAAATGTTCCAGGAGCCGAGCTTATTCAAAAGATTGAAGCCACTATAGCTATGATAAACTCAGTTCTTCCACAATTATCTGAGGATGATCTTAAAAAAGAATATCCATTAGTTGTTTTTGAAAGCAAAATGACTACGGATTATTTTCTCATCCATCTGGTTACTCACCTGGATTATCATTTGGGACAGATCAATTATCACAGAAGATTATTGGATAATTAA	MITESLRSLFNRDLNKLKTEIEAYQNEENLWKIDKSITNSAGNLCLHLVGNINHFIGAQLGNTGYVRHRELEFSLKNVPGAELIQKIEATIAMINSVLPQLSEDDLKKEYPLVVFESKMTTDYFLIHLVTHLDYHLGQINYHRRLLDN				NA	NA	NA	NA	NA
BMS003_02983	558			hypothetical protein	ATGAGACTATTTTTGTTTTTTACAGGTATTTTATTGATAGCCTTAAGCTGTCAAAAGAAGCGAAATTTTGAAAAATTCACGGTAGATAAAAATTTACCAAATTATGATACAACTCAGCTTCTCTCAAAATATCCTGAACTGAAGTTGTATAACAGTGAAATTGTTGAAAGCAAGACAAGGACTGCTTACATTGTTCAGAAAGCATTTTATTACGACGGTTTTCTTAAAAGTTCATTTATTTTTGATGATTATAAATGCAAAGCTGAATATCAGAACGATACCTTAAATATCTTACTGAACAATAACAATGGATATTTTGGAAACGGGGTTTTGATAAAGGTATTCAACGACCAATTTTATATAAAAGATATTGACCCTAAAACTTTAAAAACAGAGAAAAAGTTCATAAAATCAAAAGTTTTAAGACAAAAACTGGTACTAAACACCAATAAGCTTAGTAAAAATGATAGTATTTATGGCTTCATAGATTACAAATGCAACATTGACAGCTTAGTTTACAAACACTTCAGAGGATATTTTAAAACTATAATACAATAA	MRLFLFFTGILLIALSCQKKRNFEKFTVDKNLPNYDTTQLLSKYPELKLYNSEIVESKTRTAYIVQKAFYYDGFLKSSFIFDDYKCKAEYQNDTLNILLNNNNGYFGNGVLIKVFNDQFYIKDIDPKTLKTEKKFIKSKVLRQKLVLNTNKLSKNDSIYGFIDYKCNIDSLVYKHFRGYFKTIIQ				NA	NA	NA	NA	NA
BMS003_02984	1797			hypothetical protein	ATGAAAAACATTTTATCAAAGAGTATTCTGGGATTAGGGCTGATGATTGGTCTTGCTTCATGCAAAAAATCAGATTCTCCCCTTACGAAAGTAACCCCAAGCAACCTGGATTCTATTGCTTCCAACTATTATGAGCAGTATCTTAAGCTCTACCCTTTAGATGCTACAGCACAGGGTGATGCAAGATACAATGACCAGCTTCCCATCAATATTGATAAAGATTTTATCTCAGGAGAAATAGCATTCTACAATTCTGTGCAGAAACAGCTGGAGCATGTAGATTATAAAACTCTGTCTGATGAGGATAAAGTGGTATATGATGTTCTCGATTATGCTTTAAAAGATAAAATTGAAGCATACGCCTATCATCCGGAATATATTCCTTTTACCCAGTTCGGAGGCCTTCCTCTTACTTTTCCTCTATATGGGAGCGGACAGGGTAACCAGCCTTTCAAAACTGAAAAAGATTACAGTGACTGGCTGAAAAGAATGGAAAAGTTCCCGGCATGGATGGATGCAGCGGCGGATAACTTCCGCGAAGGAATCAACAATAAAGTGGTACTTCCTAAAAAACTGGTAGTCAAAATGATTCCTCAGATGAAAGCTGAAGAAATCACGACTTCTGATATGGAAAAAAATATTTTCTACGGCCCTGTAAGAAACTTCCCGAAAAACTTCACACAGGCTCAGAAAGACAAATTTTCAGCACTTTATAAGGACGCCATTACAAAAAAAATAATCCCTGCCTATACTAAAATGGGAGCTTTTCTTGAAAAAGATTATCTTCCAAAAGCAAGAGATACGGACGGATATAACAGCCTTCCTAACGGAAATGAAATCTACAGCTATTATGTAAAAAGCTGGACTACCACCAAGAAATCTCCTGAAGAAATCAATAAAATCGGACTCCAGCAGGTGGCTATGCTTCGTGCAGAAATGGAAAAAGTAAAGCAACAGGTTGGCTTCTCCGGAACACTGGAAGAATTCATCACTTTTGTAAAAACAGATCCGAAAGCAATGCCTTATAAGACTTCTAAAGAGGTTTTGAATGCATTTAATGGTATTTTAACGAAAATCACTCCGAAGCTGAAAACCATGTTCAATGTAACGCCAAAAACCAAGTTTGAGATCAGACAGACGGAGAAATTCAGAGAGGCAAGTGCCAGTGCGGAGTATATTCCGGGAACTCCAGACGGTAAAAGACCGGGCATATTTTATGTCCCCCTTCCTGACCCTACCAAATTCAATGTTACTTCAGGAATGGAGTCTCTTTTCCTTCATGAGGCGATTCCGGGACATCACTATCAGGTTTCTCTGCAACAGGAAAATACGAAGCTTCCTAAATTTATGAGATTCGGATGGTTCGGAGCTTATGGTGAAGGATGGGCACATTATTGTGAAACATTAGGCCCAGAATTCGGATTATATACCGACCCTTATCAGAAGATGGGTTATCTGAGCGATCAGATGCTGAGAGCAGTAAGATTGGTAGTAGACACCGGACTTCATACAGGGAAAATGTCTCGTGAAGATGCCATTAAATATTTCTTAAGTAACATTTCATACGACGAAGCATCTGCCACTGCAGAAGTAGAAAGATATATGGCAATGCCGGGGCAGGCTTTGGGTTACAAAATAGGATCTTTAAGAATCCGTGAACTGAGAGACAAATATCAGAAGGAACTGGGAAATAAATTCAATCTGGCAAGCTTCCATGATGAAGTATTGAGCCAGGGATGTCTTCCTTTAGACGTTCTGAACAGGAAAATGGAGCTTTGGGCGAAAAAACAAAAATAG	MKNILSKSILGLGLMIGLASCKKSDSPLTKVTPSNLDSIASNYYEQYLKLYPLDATAQGDARYNDQLPINIDKDFISGEIAFYNSVQKQLEHVDYKTLSDEDKVVYDVLDYALKDKIEAYAYHPEYIPFTQFGGLPLTFPLYGSGQGNQPFKTEKDYSDWLKRMEKFPAWMDAAADNFREGINNKVVLPKKLVVKMIPQMKAEEITTSDMEKNIFYGPVRNFPKNFTQAQKDKFSALYKDAITKKIIPAYTKMGAFLEKDYLPKARDTDGYNSLPNGNEIYSYYVKSWTTTKKSPEEINKIGLQQVAMLRAEMEKVKQQVGFSGTLEEFITFVKTDPKAMPYKTSKEVLNAFNGILTKITPKLKTMFNVTPKTKFEIRQTEKFREASASAEYIPGTPDGKRPGIFYVPLPDPTKFNVTSGMESLFLHEAIPGHHYQVSLQQENTKLPKFMRFGWFGAYGEGWAHYCETLGPEFGLYTDPYQKMGYLSDQMLRAVRLVVDTGLHTGKMSREDAIKYFLSNISYDEASATAEVERYMAMPGQALGYKIGSLRIRELRDKYQKELGNKFNLASFHDEVLSQGCLPLDVLNRKMELWAKKQK				NA	NA	NA	NA	NA
BMS003_02985	462			hypothetical protein	ATGAAAGGGATTTTAAAAATTTACCATCCGGAGGAGACGCTAAAATACAATATCAGAAATACTTATTGTAAGGCAGTTTACAGCAACCAGCAACATTTTTTAGAAGTTGAGGTTATTACGGATGACAGTTTGGATCACGTAGATGATGATTCATTACAGTACAACTTTCCACAGCTTTCACTCGAAGTGTTCGATTTCCCTATTGAATCTACGGAAATTGAAGGAAAAACTATCAAAATCAATGATTCTGACGAAGAAACCTATACAGAAGTAGATCTTTTCGATGATGAAGACGCTTATATCTATGATAATGAGCTTCTTTTTGAAAGAAATGAAGAAGGAGAGCTTCAGGTGATCTGGAAAGGAACCATTGATGATTTCTATACCGGATCAGATACCCCGATTCCTTTTAGATTAAAATGCGAATTCAAGCAGGATGATATTGAGGTAGACGAAGACTAA	MKGILKIYHPEETLKYNIRNTYCKAVYSNQQHFLEVEVITDDSLDHVDDDSLQYNFPQLSLEVFDFPIESTEIEGKTIKINDSDEETYTEVDLFDDEDAYIYDNELLFERNEEGELQVIWKGTIDDFYTGSDTPIPFRLKCEFKQDDIEVDED				NA	NA	NA	NA	NA
BMS003_02986	705	tolQ_2		Tol-Pal system protein TolQ	ATGCTGTTAACGGAACTTTCTCAGATTTTATTTGCACAAATCGCTACACCTGCAGTTGCTACAGACAATTTAGAGTTTTCATTCTGGAAGATCATGTTCCACGGAGGGGCTTTCGCTAAAATAGTGATGGTCACTGTTTTGCTGTTGGGAATATTTTCTCTGTATCTGTTTTTCGAAAGGTTTTTCTTTATCAAAAGACTTTCCTCAAAAACAGATTCCAACTTTATGGACAATATTGAGGACTTTATTAAAGCCGGAAAAATAGAGGCTGCAACAGATTACTGCAAAACACAGAATTCTCCGGAAGGAAGGATTTTGGAAAAAGGAATTTCAAGGCTGGGACGTCCCGTTTCAGATATTGTAAGTGCTATGGAAGCACAGGCACAGGTAGAAGTAGCCAATATGGAAAAAAACCTGAACCTTCTTGCTGTAGTACCGAGTATTGCACCTATGCTGGGACTTTTAGGAACCGTAATAGGGATGATTATTGCTTTCTTCAATTTGTCTCACGCTACAGGATCTTTCTCCCCGAAAACGCTTTCAGAAGGTATTTATACTGCTTTGGGACAAACTGCGGTAGGTTTGGCCGTAGCTATTCCTGCTAATTTCTGTTACAATATTCTTTTAACAAGGATTGATAAATTCGTACTGAAGGCGCAGAATATGTCAGGAGAGTTTCTAGATCTTATCAACAAACCTTTATAA	MLLTELSQILFAQIATPAVATDNLEFSFWKIMFHGGAFAKIVMVTVLLLGIFSLYLFFERFFFIKRLSSKTDSNFMDNIEDFIKAGKIEAATDYCKTQNSPEGRILEKGISRLGRPVSDIVSAMEAQAQVEVANMEKNLNLLAVVPSIAPMLGLLGTVIGMIIAFFNLSHATGSFSPKTLSEGIYTALGQTAVGLAVAIPANFCYNILLTRIDKFVLKAQNMSGEFLDLINKPL	PGPT0003750_3219	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
BMS003_02987	399	tolR		Tol-Pal system protein TolR	ATGAAAATTCAAAGAAGAAATAAAGCGAATCCGGAATTCAGTTTAGCAGCGATGACAGACGTTATCCTGTTGATGCTGATTTTCTTTATGATCACCTCTTCTGCAGCCAATCAGAGTGCCATAGATGTGAATCTGCCGAAAGCCGGAGCAGTTGAAGATAATATACCTAATCCTTTGACGGTAAGCATTAAACCGGACGGATCATTCTTTGTAGATGATAATCCTGCCAATAAAGGAGAACTGGAGCAGATTATTGTAGATAAATTAGCCAGTCAGACTAATAAATCATTTACAATAAGAGCGGATGAGAATACATTGCATAAAGATGTAGTTTTTGTGATGGAAATTGCTGAAAAACATAAGTTTAACATTGCCATCGCAACCGTTAAAGATAAATAA	MKIQRRNKANPEFSLAAMTDVILLMLIFFMITSSAANQSAIDVNLPKAGAVEDNIPNPLTVSIKPDGSFFVDDNPANKGELEQIIVDKLASQTNKSFTIRADENTLHKDVVFVMEIAEKHKFNIAIATVKDK	PGPT0003755_4287	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
BMS003_02988	885			hypothetical protein	ATGAGAAGCTATACAGCAAACAGAAACGAGGAAAACAAAGATAGAATAAAGAGTGCTCTGCTTTCTGTTCTTATCTGGGCTGCTATTCTGCTTTTTGTTTTTTTGTATAAATTAAAGCCTGAGCTGGATAAAGATCCGGAAGTAGTTACCACTATGCTGGTCAATTTCGGAGACAACAGGAACGGAAAAGGAATTGAAGAACCTGCCGAGCAACCAGGAAGCCTTGCTGCCGCAACAGAAGAGGTTATCCCCGAACCTGCAGAAACCCCTGTCCCGGAAACAAAAACAGTTGTAAAACCAGAACCAGCTCCCGAACCAAAGAAAGCGGAAGTAAAGGACAAGTTGATAACAGGAAATAGCTCAAAAACAACAGTTCCTAAAAAGGAGGAATCAAAAAAAGTTGAGAAAAAAGAAGCAACCAGTACAAGTGCTTCAAAAAATACTAAGAAAAAAGGAGCTGCCACAGCCAATTCAAAAACAGGAAATGGAGACGGAAAAGGGAATGCTGCGATTGGAAATCTAATCAAAGGAAGAGGAACAAAAGCCGGAAGCCAGGGCACAGGTAACGGTATCGGAAATGCAGGAGATCCCTTGGGAGGTGATGGAAACGGAGACAGCAAAGTAGGAATAGACAGAAAGCTGATAGGCTATATCCCCGGAACAATGGGAAGAGGAGGCGCACAGCCGTCTCACAGCTGTACGGCAAGCGGGTCAATTACTATTGCATATACGGTAGATAAAGCCGGAAATGTAGTATCTGCAAGAAGATCAGGTGGCGTATCAGATCCTTGTGTTTCGTCTACATCAATAGCCTGGGTGAAGAAATATGTAAAGGCGGAGAAAGCCGGAACTTCTTCTACCGGAACTTATAAGATTACCTTCTAA	MRSYTANRNEENKDRIKSALLSVLIWAAILLFVFLYKLKPELDKDPEVVTTMLVNFGDNRNGKGIEEPAEQPGSLAAATEEVIPEPAETPVPETKTVVKPEPAPEPKKAEVKDKLITGNSSKTTVPKKEESKKVEKKEATSTSASKNTKKKGAATANSKTGNGDGKGNAAIGNLIKGRGTKAGSQGTGNGIGNAGDPLGGDGNGDSKVGIDRKLIGYIPGTMGRGGAQPSHSCTASGSITIAYTVDKAGNVVSARRSGGVSDPCVSSTSIAWVKKYVKAEKAGTSSTGTYKITF				NA	NA	NA	NA	NA
BMS003_02989	393			hypothetical protein	ATGATTACCGATAAAGAATTTACTTTAAGACTCATTCGTCAATTGACCCTGGCATTGGAAAAACTTATTCTGGATAAACCTGAAGAAAGTTTAATGCAGAAAGAACTTGATTTTGATACGTTGATGAGAGATATTTTCAAGATGAGTTTCACTGAAGTTTCTTCTAAAACGAAGGAAGAAATGATTGCTATTGTTAACGAAAGGCAGGAAAGAGATCATAAAGATTATTATGAGATGCTGGGAAATCTTTTTTATTTCAACAGCAGATATGATCAAAATAAAGATTTTCAGGATAAAGCAAAGACTTTCTACGAACTGTATCTTCAGACCAGCGGTATTTTTGCTCTACCGGTTATCAACAGAATAAATGAATTAAAAAAAGCACTTGAATAA	MITDKEFTLRLIRQLTLALEKLILDKPEESLMQKELDFDTLMRDIFKMSFTEVSSKTKEEMIAIVNERQERDHKDYYEMLGNLFYFNSRYDQNKDFQDKAKTFYELYLQTSGIFALPVINRINELKKALE				NA	NA	NA	NA	NA
BMS003_02990	366			hypothetical protein	ATGAGTTACGAGAAACTTGATATTTATAATATTGCTTTTGAGTTGTTTATTGAAACTCATAAGTTATCCCTTCAACTCCCAAACTATGAATTATATGAATTGGGCAGTCAGTTGAGACGATCTGCTGATTCTGTTGTTACAAATATTACAGAAGGCTACGGAAGAAACAATTACAAAGGTGACTTTATAAGATTTCTCACTTATTCTCAGGCGAGCTGTGATGAAACGGTATGCCATTTGGCAAAAATCAACAGACTTTATCCTGAATTAAATTTAAACTTTAAAGAAAAATCAGAACAATATAAACTTTTAGGAGGAAAAATCAACAACTTTATAAAATACGTCCAATTAAACTGGCGAACATAA	MSYEKLDIYNIAFELFIETHKLSLQLPNYELYELGSQLRRSADSVVTNITEGYGRNNYKGDFIRFLTYSQASCDETVCHLAKINRLYPELNLNFKEKSEQYKLLGGKINNFIKYVQLNWRT				NA	NA	NA	NA	NA
BMS003_02991	1404			hypothetical protein	ATGGTTCTCAGCAGAATTTGGTCGGCTTTCATTATCATTGCCATTGCCATTGCCAGTATAAAATATGTTTCGTCAGGTAACTACAAAACCATTTTCAATGATATGGTAGTGGGAAAAGGCGGTGACACGGTGAAGATTGCCTCTCAGTCTATGAACAGCCTCTCTCCCATTGTCAGAGACAGTCTGATAAAAAAAAATGATTTTGCGGACAGCAGAATTCATTACAAAACAGATTCTTTAAAACAAAATGTAAATGTTTATCGTATTCAGGAAGCTGATGGAGTTATCGGAACCTCTGAGACGGCGGTGAAGATATGTCTGGGTCTAATCGGGATCATGACCCTGTTTATGGGATTCATGAGTATTGCTGAAAAAGCAGGAGGAATTAACCTTCTAAGCCGTTTGATACAACCTTTCTTTTCCAAATTATTTCCTGATATTCCTAAAAACCATCCCGCTTTCGGGCACATGCTGATGAATTTCAGTGCCAATCTTCTGGGGTTGGATAATGCCGCCACTCCTTTTGGATTAAAAGCGATGGAAAGCCTCCAGACCTTAAATCCTAATAAAGATACTGCCAGTAATTCACAGATTATGTTTCTGTGTCTTCATGCCGGAGGTATGACCTTGATTCCCGTCTCGATTATCGCCATCAGAGCCTCTATGGGATCAAAAACGCCTACAGACATTTTTCTTCCTTGTATGATCGCTACTTTTGCCGCTACGCTGGCCGCGATGATCATTGTTTCTTTATATCAGAAAATCAATCTTCTTCGTCCGATAGTAATTGCTTATGTAGGAGGAATTTCAGCTATTATTGCTTTATTGGTATTATACCTTGTACAATTGAGTAAAGATGAACTGGATGACTTCAGTAAAGTATTAAGCAATGGTTTAATTCTGTTTATCTTCCTTGCCATTGTATTGGGAGCCGTTTATAAAAAGATCAATGTTTTTGATGCCTTTATTGAAGGCGCAAAAGAAGGTTTCACCACCTGTGTAAAGATTATTCCATATCTGGTTGGAATGCTGATTGCAATCTCGCTATTAAGAACGTCCGGTGTATTTGACGTGATTATCGACGGCATGAAGTGGGTGGCCAACGTTGCGAATATGGATCCAAGATTCGTGGACGGACTTCCGACAGCATTAATCAAACCTTTATCCGGTTCCGGAGCCAGAGGAATGATGGTGGACACGATGACAACATTTGGGGCAGATAGTTTCCAGGGGAAATTAGCCGCGGTACTTCAGGGAAGCTCAGATACAACATTCTACGTGATCGCAGTTTATTTTGGTGCCGTAGCCGTTAAGAATACAAGATATACCGTAATTGCTATGCTTCTGGCTGATTTAGTCGGTGTTATTACTGCCATTGCGTTAGCTTATTTATTTTTCGCTTAA	MVLSRIWSAFIIIAIAIASIKYVSSGNYKTIFNDMVVGKGGDTVKIASQSMNSLSPIVRDSLIKKNDFADSRIHYKTDSLKQNVNVYRIQEADGVIGTSETAVKICLGLIGIMTLFMGFMSIAEKAGGINLLSRLIQPFFSKLFPDIPKNHPAFGHMLMNFSANLLGLDNAATPFGLKAMESLQTLNPNKDTASNSQIMFLCLHAGGMTLIPVSIIAIRASMGSKTPTDIFLPCMIATFAATLAAMIIVSLYQKINLLRPIVIAYVGGISAIIALLVLYLVQLSKDELDDFSKVLSNGLILFIFLAIVLGAVYKKINVFDAFIEGAKEGFTTCVKIIPYLVGMLIAISLLRTSGVFDVIIDGMKWVANVANMDPRFVDGLPTALIKPLSGSGARGMMVDTMTTFGADSFQGKLAAVLQGSSDTTFYVIAVYFGAVAVKNTRYTVIAMLLADLVGVITAIALAYLFFA				NA	NA	NA	NA	NA
BMS003_02992	453			hypothetical protein	ATGCGTCTTTTATCACTTGTCCTTCCCCATCCTCTTTTTGCCCTGTTGAGTTTCCATGCTACGGTGAAAGCATTTACCATAGCACAGAAAAAATTCCCAGAAACAGCCTCCAATAACGGAATTGGAAATGCTTTCAGACATGCTCTGTGGTGCTGTTTTATTATGATGTACTGCTGCAAAGTTTCCTCCCCTAAAAAAGCGCTTGATTTCTGCAAAAGAATAACAGACATGCATGAAGAACTGTTTCCTAATGAGCCTTTGGAAACTAAAATGGATCTTCATAATAACAAAATCGGAATGGATTATTTCATGGAACTTTTACCGGGAATTCACCGACAGTTTTTTGAAAAAAGCTTCTTTGTAGATGCATTAATCAAAAAAATGGATGATGCTAAAGTTCTGAAAAACCTGGACGATGATTTTGAAGGATATCTTGTTTATCTGGAAGAGTAA	MRLLSLVLPHPLFALLSFHATVKAFTIAQKKFPETASNNGIGNAFRHALWCCFIMMYCCKVSSPKKALDFCKRITDMHEELFPNEPLETKMDLHNNKIGMDYFMELLPGIHRQFFEKSFFVDALIKKMDDAKVLKNLDDDFEGYLVYLEE				NA	NA	NA	NA	NA
BMS003_02993	855	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	ATGGCATTCGACTGGTTTAAAAGAAAAGCAAAAAACATTACCACTTCTACTGATGAGAAAAAGGACGTTCCCAAAGGCCTGTGGCATCAGACTCCATCCGGAAAAGTAGTGGAACATGATGAACTAAAGAGAAATAACTATGTTTCTCCTGAAGACGGATTTCATGTAAGAATAGGAAGTGCAGAATTTTTTGACATCCTTTTTGACGGTGGTAAATTTACCGAACTGGATGCCAATGTTGAAAGTATTGATATCTTAAACTTCAAAGATACAAAACCTTACAAAGACCGTCTGAAAGAAGTAAAAGCTAAAACCAAGCTTACAGATTCCATCAGAAATGCTGTAGGAACTGTAAAAGGAACTGAAATGGTAGTTTCTTGTATGGATTTTGCTTTCATTGGTGGATCTTTGGGTTCTGTAATGGGAGAAAAGATCAGAAGAGCTGTAGATTACTGTATTAAGCATAAACTTCCGTATATGATTATCTGTCAGTCCGGAGGAGCGAGAATGCAGGAAGCCACTTACTCTTTGATGCAGCTGGCAAAAGTTCAGGCTAAATTAGCTCAGCTTTCTGAAGCAGGACTTTTATACATCGCTTATCTTTGTGACCCTACATTCGGAGGAATTACAGCTTCTTTCGCTATGACTGCTGATATCATTATGGCAGAACCGGGAGCTCTGATCGGTTTCGCAGGCCCAAGAGTAATCCGTGAAACAATTGGCAGAGACCTGCCGGAAGGATTCCAGACATCTGAATTCTTACAGGAAAAAGGATTTGTAGATTTCATCGTAAAAAGAACTGAAATTCAGGATACTGTGGCAAAAACAGTTAATTTATTAGCTGTAAAAGCATAG	MAFDWFKRKAKNITTSTDEKKDVPKGLWHQTPSGKVVEHDELKRNNYVSPEDGFHVRIGSAEFFDILFDGGKFTELDANVESIDILNFKDTKPYKDRLKEVKAKTKLTDSIRNAVGTVKGTEMVVSCMDFAFIGGSLGSVMGEKIRRAVDYCIKHKLPYMIICQSGGARMQEATYSLMQLAKVQAKLAQLSEAGLLYIAYLCDPTFGGITASFAMTADIIMAEPGALIGFAGPRVIRETIGRDLPEGFQTSEFLQEKGFVDFIVKRTEIQDTVAKTVNLLAVKA	PGPT0001710_2925	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
BMS003_02994	1071	fbaA	COG0191	Fructose-bisphosphate aldolase class 2	ATGAGCAGAATTTTTCCGGCAGGAGTTGCCACAGGTCAGTTGGTTACTGATATTTTTCAGTATGCTAAAGAAAACAAATTTGCATTACCTGCAGTAAACGTAATTGGATCAAGCAACATCAACGCTGTGATGGAAACTGCAGCGAAACTTAACTCTCCTGTAATTATTCAGTTTTCAAATGGTGGAGCTGCATTCAACGCAGGAAAAGGATTAAACAATGACGGACAAAAAGCTGCCATCTTAGGATCTATCGCAGGAGCAAAACATATTCACACTCTTGCTGAAGCTTACGGAGCAACGGTAATTTTACACACAGACCACTGTGCAAAGAAATTACTTCCTTGGATCGATGGATTAATGGATGCTAACGAAGATTTTTTCAAGCAGACAGGTAAATCTCTTTACTCTTCTCACATGCTGGATCTTTCTGAAGAATCTTTAGAAGAAAACCTTGAGATTTCAGCACAATATTTCGAAAGAATGGCTAAGCTTCAGATGACCCTTGAAGTAGAAATCGGGGTGACTGGTGGTGAAGAAGATGGTGTTGACAACTCAGACGTTGATAACTCTAAACTATATACCCAGCCTGAAGATATAGCATATACTTATGAAAAATTAAAAGCTATTTCTGATAACTTCACAATTGCTGCCGCTTTCGGTAACGTACACGGAGTTTACAAGCCAGGAAACGTAGTTCTTACTCCAAAAATCCTTGACAATTCTCAGAAATATGTTCAGGAGAAATTCGGAACAGCTGCTAAACCTATCAACTTTGTATTCCATGGAGGTTCAGGATCTACTTTAGAAGAGATCAGAGAAGCTATCGACTACGGAGTAATCAAAATGAATATCGACACTGACCTTCAGTTTGCATACACAGAAGGAGTAAGAGATTATATGGTAAACAACATCGACTATTTAAGAGCTCAAATCGGAAACCCTGAAGGAGAAGAAAAACCTAACAAAAAATTCTATGACCCAAGAGTATGGGTAAGAAAAGGTGAGGAAACATTCTCTACAAGATTGGTGAAAGCATTTGAAGATTTAAATAACGTAAATACTTTAAAATAA	MSRIFPAGVATGQLVTDIFQYAKENKFALPAVNVIGSSNINAVMETAAKLNSPVIIQFSNGGAAFNAGKGLNNDGQKAAILGSIAGAKHIHTLAEAYGATVILHTDHCAKKLLPWIDGLMDANEDFFKQTGKSLYSSHMLDLSEESLEENLEISAQYFERMAKLQMTLEVEIGVTGGEEDGVDNSDVDNSKLYTQPEDIAYTYEKLKAISDNFTIAAAFGNVHGVYKPGNVVLTPKILDNSQKYVQEKFGTAAKPINFVFHGGSGSTLEEIREAIDYGVIKMNIDTDLQFAYTEGVRDYMVNNIDYLRAQIGNPEGEEKPNKKFYDPRVWVRKGEETFSTRLVKAFEDLNNVNTLK	PGPT0017615_1110	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
BMS003_02995	867	nadK	COG0061	NAD kinase	ATGAAGGCAGCCATATATTCTCAGAAAAAAGATCTTGATACTTTTTTATATTTAAGCAAGTTTATCTCTGAACTTGAAACCAGAGGTGTAAAATCTGTTCTGTATGATGAAATGGCTGAAGCACTTCAGTTTTCAAAAATATTCGAAACTTTCAATTCCAAACAGGATCTTCTGGATAAAGAAGTGGATCTTTTCTTCACTTTCGGCGGAGACGGAACTATTGTAAACTCTCTGACATTTATTGAAGACCTTGAAATTCCTGTTGTAGGAGTCAATACCGGAAGACTTGGTTTTTTAGCTTTCTTTACTAAAGAAGAAGCTTTTAAAGAACTGGACTCTATTTTAAAGGGAGAAGTTAAAACAAGCCGCCGTTCAGTAATTGAAGTCGTTTCTCCAAAACTTGAAGGTGCTTTTCCTTATGCTTTGAACGATGTCACGGTTTCCAGAAAAGAAACAACCTCCATGATTACTGTAGATTCTTACATCAATAATGAGTTTCTGAATGTTTTCTGGGGTGACGGAGTTATCATTTCAACCCCTACAGGATCTACCGCCTACTCACTGAGCTGTGGCGGACCTATCATTTCTCCCAACAACGAAAACTTTGTTATCACGCCTATTGCTCCCCATAATCTGAATGTGAGACCTTTAGTAGTGAATGATAAAGTAGAAATAAAGTTCCGGGTGGAAAGCCGTGTTCCCCAATACTCCCTTTCCTTAGACTCCCGACTGATACATATAGAAACCGATAAGGAAATCATCATCAAAAAAGCAAAATTTCAGCTTCTCCTGGTACAGCCCAACAGTTTAAGTTTCTACGAAACCATCCGTCAGAAGCTACTTTGGGGCAGAGATAAAAGAAATTAG	MKAAIYSQKKDLDTFLYLSKFISELETRGVKSVLYDEMAEALQFSKIFETFNSKQDLLDKEVDLFFTFGGDGTIVNSLTFIEDLEIPVVGVNTGRLGFLAFFTKEEAFKELDSILKGEVKTSRRSVIEVVSPKLEGAFPYALNDVTVSRKETTSMITVDSYINNEFLNVFWGDGVIISTPTGSTAYSLSCGGPIISPNNENFVITPIAPHNLNVRPLVVNDKVEIKFRVESRVPQYSLSLDSRLIHIETDKEIIIKKAKFQLLLVQPNSLSFYETIRQKLLWGRDKRN	PGPT0013490_3999	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS003_02996	654			hypothetical protein	ATGTTTATCAAGGACTATATCTCAAAAGACTTTCCGTGTTTTAGCCTGTCTGACTCCATAGAGTCGGCCAGAAATACGTTGGAAGATTTTGGATATTCCCATGTTTTCATCAAAAAATCCCATCACTTCTACGGAGCCCTTGCTATGGATTTTCTGTATGAAGAAGATGGCGGTACCCTGAAGGATCTGGAGCACCAGATTGAACGCTTTGCCATTTTGGAAGACAGCAATATCATGGACAGCATCCGTCTGTTTTATACCTTCAGTTCCAATGTAATTCCGGTGATTAATAAAAATGAAAAATATCTGGGGTATATTACCTGTGAAGATGTTTTTCAGGATCTTTCCCGCTATCCTTTATTTTCAGAAACAGGGGCCATTCTTACAGTAGAAACCCCGGCCAGAAAATATTCTATGACAGAAATTACCAATATCGTGGAAAGCAATAACTCGAAGTTTTATGGAGGGTTTATAAGCTTTATGTCTGAAGAGGTAGTACAGGTCACCATAAAGATCAGCAATGAAAACCTTGCCTCGATAGATGCTACATTTGACCGGTACGACTACAGAATTGTTGAAAAATACTATTCTGATGAGAAATCCGATCTGTTTAAAGACCGATTTGGTTTTTTTCAAAAATTCATAGAAATATAA	MFIKDYISKDFPCFSLSDSIESARNTLEDFGYSHVFIKKSHHFYGALAMDFLYEEDGGTLKDLEHQIERFAILEDSNIMDSIRLFYTFSSNVIPVINKNEKYLGYITCEDVFQDLSRYPLFSETGAILTVETPARKYSMTEITNIVESNNSKFYGGFISFMSEEVVQVTIKISNENLASIDATFDRYDYRIVEKYYSDEKSDLFKDRFGFFQKFIEI				NA	NA	NA	NA	NA
BMS003_02997	531			Putative TrmH family tRNA/rRNA methyltransferase	TTGGTACAGAAACTAAAACTGGAAGAACTTAACAGAATAGATGTAGAAACATTTAAGAAGGTTGAAAAAATTCCGTTGATCATCATTTTAGATAATATCAGAAGCATGCACAATGTAGGTGCTGCTTTCAGAACGGCAGATGCATTTTTAATTGAAAAAATAATTCTTTGCGGAATTACCCCGCAGCCACCCCACCGTGAGATTCATAAAGCTGCATTGGGAGCTACGGAAAGTGTAGACTGGTCTCATGAAACAGACACCAATACAGCTATTGCTGACTTAAAAAGTAACGGATACGAAATCATCGGGATTGAACAGACTACCGACAGCCAGCTTATCACGGATTTTACCATTGACCGATCAAAAAAATATGCCCTAATCTTAGGAAACGAAGTAGAAGGAATCAGTGATGAAGTTCTTCCTAATATTGATGTATTTTTAGAAATTCCACAGCTTGGGACCAAACATTCTCTTAATGTAAGTGTATGCGCCGGGATTGTGATGTGGGAATTTGCGAAGGCATTAAAATAA	MVQKLKLEELNRIDVETFKKVEKIPLIIILDNIRSMHNVGAAFRTADAFLIEKIILCGITPQPPHREIHKAALGATESVDWSHETDTNTAIADLKSNGYEIIGIEQTTDSQLITDFTIDRSKKYALILGNEVEGISDEVLPNIDVFLEIPQLGTKHSLNVSVCAGIVMWEFAKALK				NA	NA	NA	NA	NA
BMS003_02998	621			hypothetical protein	ATGAGGAACGTGTTTCTATTGTTTTTTTCCACTTCTGTTATGGTTATGGCACAGAAGCCTTGCGGATATAAAGACGGATTACAGGAGGGATCCTGTAAAGAGTTTTATGACAACGGCCAGGTAAAAAATATGGTGGAATGGAAAAAAGGGAAGCTGGACGGAGATGCCATTTTTTATCATGATAACGGAAAAGTAAAGTCAAAAGGAGAATATAAAAAAGGATTTAAAGTAAAAGAATGGTCTTATTTTGATGAAAACGGAGTTCTTACTTCCAAAGAGGCGTTCAGAAACGGAGAAAAGAACATTTATGATAATAGCCTTACCGCTACTTTCTATTCTCCGGCCGGTAAAATAACCGAAATTTCCAATTATAAATTCAATAAATTACAGGGAGAAAGCAAAACCTTCCATGAAGACGGAAAATCAATAAAAGATATTGGCCAGTATGATAACGGCCTGGCTACCGGAAAATGGAAAGTGTTTTACCCATCAGGAAAATTACAGCGAGAGACTGAGTTTGCCAATGATAAAAGAAACGGCAACAGAGTTCATTACCGTGAAGACGGAAGCATAGAAAAGACAGAGGTCTATAAAGACGGAAAATTAATCTCAACAAAATAA	MRNVFLLFFSTSVMVMAQKPCGYKDGLQEGSCKEFYDNGQVKNMVEWKKGKLDGDAIFYHDNGKVKSKGEYKKGFKVKEWSYFDENGVLTSKEAFRNGEKNIYDNSLTATFYSPAGKITEISNYKFNKLQGESKTFHEDGKSIKDIGQYDNGLATGKWKVFYPSGKLQRETEFANDKRNGNRVHYREDGSIEKTEVYKDGKLISTK				NA	NA	NA	NA	NA
BMS003_02999	600			hypothetical protein	ATGAAAAAATTATTCACATTATTCATGCTGACATGGGGATTTATGTACCTGAGTGCACAAAACACCTATTATCCGCAAGTTTTCTTTGATAAAAAGCTGGCGAGAGAAATGCTTGGATTCGGGAATTCTACCATTGAAGGAGTGGCTTCCACAAAACAGAAAAATAATTGGGGCATCAAACCATTGCTGGGCGAAAAACACTATGCTCCTAAAGGAACGGTTGTTATGCTTTTTCCTGTAACTCCCTATTTTCAGGAATTTTATGATATGAGAAGGAAATATGAAAATAAGAAAACAACAGTATATATGTCTGAAGAAGCTTTTAAATACAGAGTGGAAGCTTTAACAGATGGCCACGGCAGATTTAAATTTGAAAAACTGAAACCGGGGAAATATTACCTGGAAACCATTGTCAACTTTACTGCAACGGCGAGCTACCAGCAGCAGACAGGAACTTCCGATGCTTATAACGGATATGGAGCCTATCTGTATTCAACACCTATATATAGCACGTTTTTCTACGGATATTCTGCTGCCAACAGGGAAAGCAAATTTGTAGAGATAAAACAGGACGGTGAACTGAAAGAAATCAAGCTTTAG	MKKLFTLFMLTWGFMYLSAQNTYYPQVFFDKKLAREMLGFGNSTIEGVASTKQKNNWGIKPLLGEKHYAPKGTVVMLFPVTPYFQEFYDMRRKYENKKTTVYMSEEAFKYRVEALTDGHGRFKFEKLKPGKYYLETIVNFTATASYQQQTGTSDAYNGYGAYLYSTPIYSTFFYGYSAANRESKFVEIKQDGELKEIKL				NA	NA	NA	NA	NA
BMS003_03000	879			hypothetical protein	ATGAGAGTATATAATACCAAACATTTCATTAAAATTCTTTTCAGTTTACACAAAAGTGATACTTTAAAGATTCTTTTTCCAAGTATGATTCTTGTTGGATTGTACTCCTGGGGAATTCAGTATCTGGAGGTTGAATATCTGCACCTCACAACAAAATCAGGAGTCAGTAATGTAGGTATGATTCACTCTCTGCTGGGTTTTGTACTTTCTCTTTTACTGGTTTTCAGAACCAATACCGCTTATGACAGATGGTGGGAAGGGCGAAAGCTCTGGGGAAAGCTTGTTAACGACACCAGGAACTTTGCCATAAAAATTAATACTATCCTTGTAGACAATCGTCAGGATGCTGAGCAGATTGCAAGGTATCTAAAGTTTTTTCCTCACTTTTTGGCCAAACACCTTTCCAGAGAATCTACAAGACTGGCTCTGGACGAAGATTATTCTGAAATTGAAAGCACTTTAAAAAATCATGGCCCCAGCGAAATAATTATTTTGCTAAGTCATAAATTAAACCAGCTAAAAAAAGAAGGGAAAGTTTCAGAAGTTGAAATGTTATATTTGGACACCCAGCTTTCCGGATTTCTGGATGTATGCGGAGGTTGTGAAAGAATCAAAAACACCCCGATTCCTTATTCTTACTCTTCTTTCATCAAGAAATTTATTATTCTTTACGTTTTTGCACTGCCTATTGCTTACGTTATTACAATAGGTCTTTTTATGATTCCGCTTACTGTTTTTGTGTATTATGTACTGATGAGCCTTGAGCTTATTGCGGAAGAAATTGAAGATCCGTTTAATAATGATGAAAATGATATTCCGATGGAGACTTTAGCCCAGAATATTGAGAAGAATGTACACCAGATCATGAACAGAAAATAA	MRVYNTKHFIKILFSLHKSDTLKILFPSMILVGLYSWGIQYLEVEYLHLTTKSGVSNVGMIHSLLGFVLSLLLVFRTNTAYDRWWEGRKLWGKLVNDTRNFAIKINTILVDNRQDAEQIARYLKFFPHFLAKHLSRESTRLALDEDYSEIESTLKNHGPSEIIILLSHKLNQLKKEGKVSEVEMLYLDTQLSGFLDVCGGCERIKNTPIPYSYSSFIKKFIILYVFALPIAYVITIGLFMIPLTVFVYYVLMSLELIAEEIEDPFNNDENDIPMETLAQNIEKNVHQIMNRK				NA	NA	NA	NA	NA
BMS003_03001	879			hypothetical protein	ATGATCCTCGAAAACGTAGATATTGTAAATGATATCAGTAAAGAAGATTTTCAGAAGAATTATTTTAAAAAGCAAAGACCTCTTTTAATTAAGAATTTTGCCAGCAGATGGGATGCTTTTGATAAATGGAATCTTGCTTATATCCGTGAAAAAGCAGGTGATCAGGAAGTCCCGTTGTATGATAATAAGCCGGCTGATGCTAAGAAAAGCTCTGACGCTCCGGTTACCCATATGAAAATGAAGGAGTATATTGATACCATCAAAAGTAAGCCTTCGGATCTGCGCATTTTTTTCTATATCATCACAGACAGGCTTCCCGAACTGCTGAAAAACTTTACCTATCCTGATCTTGGAATAAAATTCTTTAAAAGGCTGCCCACTTTATTCTTTGGAGGAAGTGAAGCCCATGTTTTAATGCATTATGATGTGGATCTGGGTGATTTTATGCACATCCATTTCGAAGGGAAGAAAAGGATTCTGCTATTTGATCAGGAACAGTCTCCTTTTTTATATAAAGTGCCTTTGTCTGTTCATACCGTTTATGAGGTGGATTATGAAAATCCGGACTATGAAAAATTTCCGGCACTGAAATACGCCAAAGGATACGAAATTTTTATGGAGCATGGTGATGCGCTCTTTATTCCGGGAGCTTTCTGGCACTTCAACAGATATCTGGAGCCAGGTTTCTCTCTTTCATTGAGAGCTCTTCCCAATAAACCTAATGTCTTTGCGAGTATGCTGTACCATGTCTTTATTATGAGGTACACAGATAAACTGATGCGTAAGCTTTTCAAAGCAAAATGGGTAGATTATAAGCAAAAATGGGCTTACAAGAAAAGTTCCGAGGCTTTGAAAAAACATATGAAATCAGAAATATAA	MILENVDIVNDISKEDFQKNYFKKQRPLLIKNFASRWDAFDKWNLAYIREKAGDQEVPLYDNKPADAKKSSDAPVTHMKMKEYIDTIKSKPSDLRIFFYIITDRLPELLKNFTYPDLGIKFFKRLPTLFFGGSEAHVLMHYDVDLGDFMHIHFEGKKRILLFDQEQSPFLYKVPLSVHTVYEVDYENPDYEKFPALKYAKGYEIFMEHGDALFIPGAFWHFNRYLEPGFSLSLRALPNKPNVFASMLYHVFIMRYTDKLMRKLFKAKWVDYKQKWAYKKSSEALKKHMKSEI				NA	NA	NA	NA	NA
BMS003_03002	531			IS1595 family transposase ISSpgl1	ATGGAATTTCCTGTTTTAGAGACTGAAAGACTTATTTTGCGTAAGCTTACTTTTAATGATACCCAAGATCTTTTCGAGTATTTTTCTTTGGATGAAGTTATGGAATATTATGACCTTGACCCCTTCAAAACAGAAGAAGATTCCAAACGTATTATCCAGCATTTCAACAATGAATTCGAAAAAGGTAAAGGCTTCAGATGGGCTCTGGAACTGAAATCTACAGGAAAAGTCATTGGCACTTGTGGTTATCACAACTGGTATAGGGAGCATTTCAGGGCAGAGGTTGGCTATGAGCTCAATCCCAAATTCTGGCAGCAGTCTTATATGAAAGAAGCCATTCTTCCTATTTTAACGTATGGATTTGAAACCATGAGACTTCACCGTGTGGATGCTTTCATAGATCCTTCCAATATTTCTTCCGAAAGGCTGTTAACTTCTTTAAATTTCAGCAAAGAAGGAACGTTGAAAGATTTCTTTTTTGAAAAAGGGAAATTCGTGGATGCAACGATCTTTGGATTGATTAATAAATAA	MEFPVLETERLILRKLTFNDTQDLFEYFSLDEVMEYYDLDPFKTEEDSKRIIQHFNNEFEKGKGFRWALELKSTGKVIGTCGYHNWYREHFRAEVGYELNPKFWQQSYMKEAILPILTYGFETMRLHRVDAFIDPSNISSERLLTSLNFSKEGTLKDFFFEKGKFVDATIFGLINK				NA	NA	NA	NA	NA
BMS003_03003	2562	mutS	COG0249	DNA mismatch repair protein MutS	ATGACTCAGTACAATACCATCAAGGGTAAATATCCGGATGCGCTTTTACTTTTCAGGGTGGGAGATTTTTATGAAACTTTTGGGCAGGATGCTGTGAAAACATCTCAGATTTTGGGTATTGTCCTTACCAAAAGAAATAATGGGGAAGGCAGTGTAGAGCTTGCAGGATTTCCGCACCATTCCATAGACTCTTATCTCCCTAAGTTGGTAAGAGCGGGAATGAGGGTTGCTATCTGTGACCAGCTGGAAGATCCTAAAATGGTGAAAGGAATTGTAAAACGAGGTGTAACTGAATTGGTTACTCCAGGTGTTACGTTCAATGATCAGGTATTAAATTCCAAAAAGAATAACTTCCTTCTTTCATTACATAAAGAAAAAGAGAAATACGGAATTGCTTTGGTAGACATCTCTACCGGTGAGTTTCTGGTAAGTGAAGGAAACCTGGAAAAGCTCCTGCATATTGTGAATACTTTTGACCCAAGTGAGATTATTTTTCAGAGAAGCACCCAGATTCCGGAGCAGATCAAAAATAAAAATGCCTTTAAGCTCGAAGACTGGGCTTTCCAGTATAATTTTGCTTACGAAAAACTAACGAATCATTTTAAAACCAATTCATTAAAAGGTTTTGGAGTGGAAAATCTTCCGTTGGCCATTACAGCAGCAGGGGCTATTTTCGCTTATCTGGTAGAAGATACTCATCATAATCTGCTGGCTCATATTACAAAACTTCAGATCATTCCGCAGGAAGACTATCTGATGATGGATAATTTTACGCTAAGGAATCTGGAAATCGTTTATCCGAGCAACCCACAGGGGAAATCACTGCTGGATATTATTGATAAAACATCTACTCCCATGGGAGGAAGGCTGTTGAGAAGGAGAATTATTCTGCCTTTAAAATCGGTAGATGAGATCATGAGAAGACTTTCTCTGATTGATTTCTTAAACGAAAAAGATCCTCTTAAATACGAAATCTGCCAGCTTCTGAAATCCATTTCTGATCTTGACCGCTTAATGGGAAAACTGGCTGCGGAGAAAATTTCACCTAAGGAGCTGGGATATCTGCGTCAAAGTTTAATTAATATTCATAAAATCAAAGCGTTACTGCATGATCATGCTGATGTGATGGCCTGGCTGGAGCCATTATTTGATCTGGATGAATTGATTAAGTTCCTGCAGAGTCAACTTAATGAAGACCTTCCTGTGAGTCTTGCAAAAGGAAATATTATTAAAGAAAATGTTTCCGAAGAGCTTGACAGACTGAGAAATCTTCAAAGCAAAGGACGTGGCTTTCTGGATGAAATGTGCCAGAGAGAGATTGAAAGAACAGGGATTACCAGCCTTAAAATTGATTTTAACAACGTTTTCGGATACTATATAGAAGTTCGAAATACCCATAAAGATAAAGTCCCGGATGACTGGGTAAGAAAGCAAACTTTGGTGAATGCTGAAAGATACATTACCGAAGAACTCAAAGAATACGAGAGCCAGATCCTTGGTGCCGAAGAAAAAATAGGGGTACTGGAAGCTTCACTGTACAGAAATGTATGTGCAGAAACTATGGTTTATATTGATCAGATTCAGGGGAATTCTAATATTATTGCTCAGCTTGATGTGGCTGCCGGATTATCTGAACTGGCTGTTTCTGAAAGTTATACAAAACCTGTTCTGAATGATGGCTATGCCATTGATTTAAAAGAGGCCAGACACCCGATTATTGAGAATGCTCTTCCGCTGGGAGAAAAATACATCCCGAATGATATTTTCCTGGATAAAGATTCTCAGCAGATCATTATGGTAACCGGGCCGAATATGGCCGGTAAATCGGCAATTCTGCGTCAGACGGCCATTGTATGTCTTTTGGCTCAGATCGGAAGTTTTGTCCCGGCAAAACATGCTGAAATAGGATTGCTGGATAAAATATTTACAAGAGTAGGCGCTACCGATAATATCTCTGCAGGAGAATCTACTTTTATGGTCGAGATGAATGAGGCCGCCAATATTTTGAACAATATTTCAGAACGAAGCCTTATTTTACTGGACGAAATTGGGCGTGGAACTTCTACTTATGACGGGGTTTCTATTGCATGGGCCATTGCAGAATATCTTCATCAGCATCCTACACAGGCGAAGACCTTATTTGCAACCCACTACCACGAGCTGAACGAAATGACTGTCAATTTCGAAAGGGTGAAAAACTTCCATGTTTCCATTCAGGAAAACAAAGGAAATATCATTTTTCTGAGAAAACTGGTTCCGGGTGGAAGCGAGCACAGTTTTGGTATTCATGTGGCAAAACTGGCCGGGATGCCTTCCAAAGTAGTAAACAGAGCCAATGAGATTCTTAAGACTCTTGAGGCGAGCAGAACCCAGGGGAGCGGAGGGACTTCAGAGAGTATCAAAAGAGTGACCGAGGAAAATATGCAGCTTTCTTTCTTTCAGCTGGATGATCCCGTTCTGGAGAACATCCGCGAGGAACTTACAAAAATAGATATCAACACATTGACCCCTATTGAAGCTTTAATGAAGCTGAATGCGATAAAGAAAATGATTGGAAGTTAA	MTQYNTIKGKYPDALLLFRVGDFYETFGQDAVKTSQILGIVLTKRNNGEGSVELAGFPHHSIDSYLPKLVRAGMRVAICDQLEDPKMVKGIVKRGVTELVTPGVTFNDQVLNSKKNNFLLSLHKEKEKYGIALVDISTGEFLVSEGNLEKLLHIVNTFDPSEIIFQRSTQIPEQIKNKNAFKLEDWAFQYNFAYEKLTNHFKTNSLKGFGVENLPLAITAAGAIFAYLVEDTHHNLLAHITKLQIIPQEDYLMMDNFTLRNLEIVYPSNPQGKSLLDIIDKTSTPMGGRLLRRRIILPLKSVDEIMRRLSLIDFLNEKDPLKYEICQLLKSISDLDRLMGKLAAEKISPKELGYLRQSLINIHKIKALLHDHADVMAWLEPLFDLDELIKFLQSQLNEDLPVSLAKGNIIKENVSEELDRLRNLQSKGRGFLDEMCQREIERTGITSLKIDFNNVFGYYIEVRNTHKDKVPDDWVRKQTLVNAERYITEELKEYESQILGAEEKIGVLEASLYRNVCAETMVYIDQIQGNSNIIAQLDVAAGLSELAVSESYTKPVLNDGYAIDLKEARHPIIENALPLGEKYIPNDIFLDKDSQQIIMVTGPNMAGKSAILRQTAIVCLLAQIGSFVPAKHAEIGLLDKIFTRVGATDNISAGESTFMVEMNEAANILNNISERSLILLDEIGRGTSTYDGVSIAWAIAEYLHQHPTQAKTLFATHYHELNEMTVNFERVKNFHVSIQENKGNIIFLRKLVPGGSEHSFGIHVAKLAGMPSKVVNRANEILKTLEASRTQGSGGTSESIKRVTEENMQLSFFQLDDPVLENIREELTKIDINTLTPIEALMKLNAIKKMIGS				NA	NA	NA	NA	NA
BMS003_03004	168			hypothetical protein	ATGAAAAATTTAAAAACTCAAAAAAGAAAACTGAGCAAAACTGAACTGAAAGAGATAAGCGGTGGAGTTAACAGACCCGTATGCCCAAGAGTGATAAGCTGTATAGATCCTCATACCGGAGAAGAACTATACGGAGTTCCTGGAATACAGGATGGATTCTGCTGCTAA	MKNLKTQKRKLSKTELKEISGGVNRPVCPRVISCIDPHTGEELYGVPGIQDGFCC				NA	NA	NA	NA	NA
BMS003_03005	240			hypothetical protein	ATGAAGAGTTTGATAATAATCCTTACAGTGCTTATGCTTTGTCCGGTTTATAAAGCTCAGCAGACTGATGTTTCTGTAGTAAAGTATGAAGACTTGGAGCAGAGAATTCTGAAGGAAAAAGATAAACTGCTTGTGGTTAACTTCTGGTCTGCAACCTGTGCTCCATGTGTAAAGGAGCTTCCGCATTTCATGGAAGTGAATACTAAGTATTCAGATAATCAGAATTATAAAATGATTTAA	MKSLIIILTVLMLCPVYKAQQTDVSVVKYEDLEQRILKEKDKLLVVNFWSATCAPCVKELPHFMEVNTKYSDNQNYKMI				NA	NA	NA	NA	NA
BMS003_03006	447			hypothetical protein	GTGTTTTCAGAATACCGATTTTTTATACCTGAACTCAAACTTGAAATGAAATTCCAATTCAGCCTGAAATATCTTCTTCTGACCGTACTTATTTTTCTTGTGGAAGTATTAATTGCCACCAAACTCAGTGATATTTTCTTTGTGAGAGCGTATCTCGGAGATGTAATTGTGGTGATGCTTCTGTATACTTTTGTGAAAAGTTTTGTAAAAGTAAATGATCAGAAACTGATTCCGGGGATTCTTATCTTTTCATTTCTGGTAGAATTTGCCCAATATTTCAATATTGCGGAAAAACTAGGCTTCCGCCCTGGAAGCCTGATGTATATTGTGATCGGAAATTCTTTCTCCTGGATTGATAATCTGTGTTACGCTACAGGCTGCCTGATTCTCTATATTTTCGTAAGGATGACAAGGAAGGATAGCTTAACCTCAACCCATAATCCCTAA	MFSEYRFFIPELKLEMKFQFSLKYLLLTVLIFLVEVLIATKLSDIFFVRAYLGDVIVVMLLYTFVKSFVKVNDQKLIPGILIFSFLVEFAQYFNIAEKLGFRPGSLMYIVIGNSFSWIDNLCYATGCLILYIFVRMTRKDSLTSTHNP				NA	NA	NA	NA	NA
BMS003_03007	921			hypothetical protein	ATGAAAATTGTACATTACACATTGATTTCCTTTCTGACAGTTTCTCTGATAAGTTGCAAAAAAGAGGAAAAGGTCAATGCGTCAGGGAAAGATTCTCTGACCGCAAAGAAAGATTCTGTGGTAACCCCTGAGGTTCATAAAGAATATTATGGAATTTATACCGGTGAATTTTCCGGCATGGAAAAGGTGGTTGACCCAATGGACGGCTCAGAATATGACGTGAACAATTACAGGAGAATTTCTTTAAAGATCAACAGAATCACCAAAGACAGCGTTTACGGTCAAAGTATTGTAAATGGCAATCAGCGCCCGTTCCGAGGTATTTTCAATGAAGTTACAGCTTCTTTTGTACTGGATGAACCTGGTAATGACAAAACAGACGGAAGATTTGAAGTCAAACTGAAAGGTGACAGTTTAACCGGAAAATGGAATGCTTTTGATAAAACAACTGTTAAAGCACCATCAAAAACACTTAAGCTTATCAAAAAAGAGTTTGTTTATAACCCTAATTTTATGCTGGATAAAGATTCTGATCTGGTAGACTGGTCAAATTCTAAAGAGTTTACCGAAAAATATACGGATGAGGAAACGGGAAAAACTGAAAGTTATAAAACAACTAAAAATCGCTTTGCTTCAGAGGCCATCTTTAAACTGAATGCATCTAAACAGAAACTGACGGAAAAGGATCTTAAAAACTTAAGAAAACTAGATCTTGAGATCATCAAAAACTCTGTATTTGCAAGACACGGATATTCCTTCAAAAAAGAAACCTACAGAAACTTCTTTGAGCAAACAGACTGGTATATTCCTGTTTCCAGCAATGTAGACAATGAGCTTTCACCTATGGAAAAGGAAAATGTGGCTCTACTGAACCGCTTTACCAAATATGCTGAGGATAAATATGATAGTTTTGGGAGATAA	MKIVHYTLISFLTVSLISCKKEEKVNASGKDSLTAKKDSVVTPEVHKEYYGIYTGEFSGMEKVVDPMDGSEYDVNNYRRISLKINRITKDSVYGQSIVNGNQRPFRGIFNEVTASFVLDEPGNDKTDGRFEVKLKGDSLTGKWNAFDKTTVKAPSKTLKLIKKEFVYNPNFMLDKDSDLVDWSNSKEFTEKYTDEETGKTESYKTTKNRFASEAIFKLNASKQKLTEKDLKNLRKLDLEIIKNSVFARHGYSFKKETYRNFFEQTDWYIPVSSNVDNELSPMEKENVALLNRFTKYAEDKYDSFGR				NA	NA	NA	NA	NA
BMS003_03008	639			hypothetical protein	ATGCTTCCTGTTAAAAAAAATATCCCCCTTTTCTTTAAAACCCTGCTTATCATAGGGTTTGTATATTTCTTTTGGCTGATGCTGAAGATTACGTTAGAATATATTCCCGTTAATCCTGAAGTCAGTTTTCTGATGATCAAACAGACGGAAGTAGCAGAAAGACCGGAATATCTTACGTTTTTTTATACTCATGTTTATACAAGCATCTTTGTGCCTCTTTCCGGCTTTTTGGCTATCCTCAGAAAAGATTTTGGGCTCAAAAATTTCCATCGGAATATGGGGAAAGTGTATATTTTTCTCGTTCTGATCTGTGCTGCTCCTTCCGGAATTTATATGGGAATATTTGCCAACGGAGGTATTTTATCGAAGATATCTTTTGTTATTTTAGGCTTTTTATGGTGGTTTTCAACGTTGAAAGCGTATCAGCTGGCAAGACAGAAACGGTTTAAAGAACACGGGCAGTGGATGTGGCGGAGCTTTGCGTTTACATTATCTGCTATAACCCTGAGAATGTGGAAAGTAATTATTGTATATTTATTTCATCCCAATCCTATGGATGTTTATCAGATCATTGCATGGCTGGGCTGGATTCCCAACATCCTTATTATTGAATATTTAATCACAAAAAAACAGATATGA	MLPVKKNIPLFFKTLLIIGFVYFFWLMLKITLEYIPVNPEVSFLMIKQTEVAERPEYLTFFYTHVYTSIFVPLSGFLAILRKDFGLKNFHRNMGKVYIFLVLICAAPSGIYMGIFANGGILSKISFVILGFLWWFSTLKAYQLARQKRFKEHGQWMWRSFAFTLSAITLRMWKVIIVYLFHPNPMDVYQIIAWLGWIPNILIIEYLITKKQI				NA	NA	NA	NA	NA
BMS003_03009	414			hypothetical protein	ATGAAAAAAATAGCAGCATTCATTTTACTCCTTGGATTTGGGCTTACTTTTGCCCAGACACAGGAAACTAACACGCTTCCCACAGAAGATCACTCCAGAGACAAGTTTATTCCTGAACAAAGTAAACAGGCTGAATATCCTGGGGGAGTTCAGGCCTTCATACGAGAAGTATCTCAGAAAATTAAAACCAGCCGAATAAAGGGATCGAAAGGCACTATACGCTCGAATGCGAAATTCTCAGTAAATACTGAAGGAGATATAGAAACAATTTATGTAACCGGGATAAATGATTCTCTTAACAATGAAGTGGAAAGGGTAATGAAGTCTATGACAGCCAAATGGAAACCAGGAGAATACAAAGGAAATCCAGTAATCATCTGGTTTACCCTTCCTTTCGTTGTCAATTTTGATTAA	MKKIAAFILLLGFGLTFAQTQETNTLPTEDHSRDKFIPEQSKQAEYPGGVQAFIREVSQKIKTSRIKGSKGTIRSNAKFSVNTEGDIETIYVTGINDSLNNEVERVMKSMTAKWKPGEYKGNPVIIWFTLPFVVNFD				NA	NA	NA	NA	NA
BMS003_03010	1203		COG2081	putative protein	ATGAAACAGATCATTATTATCGGAGGCGGTGCTGCAGGCTTTTTCTGTGCATCTAATCTTGACGAAAAGAAATATACAATTACGATTTTAGAACAGAACTCGGATGTCCTTCAGAAAGTTAAAATCTCCGGAGGCGGACGCTGCAATGTGACGCATGCATGCTTTGATCCAAGAGAACTCGTTCAGTTTTATCCCCGTGGAAACAAGGAATTGCTAAGTGTATTTACCAAATTTCAGCCGGGTGATACGATGGAGTGGTTTGACCAGCGCAATGTTCCCTTGAAAATTGAAAATGATAACAGAACTTTCCCTGAAAGTAATTCTTCCCAAACCATCATCAATACTTTTCTGAATGAAACTCAAAAGAAAAATGTAACGGTAAAAACAAAATGTACGGTAAAAGAGATTGAAAAACAGGAAGAAAAATATATTGTAAAAACAAATTCAGGCAATTTTGAGGCAGATTATATCGTTTATACCACCGGAAGTTCTCCAAAATCACTGAAAATTGTTGAAAACCTGGGGCATAAGATTGTAAACCTTGTTCCCTCCCTTTTCACATTCAATATTAAAGATGAATTACTGAAAGACCTTCCGGGAACAAGTTTTGAAAATGCCGGAATTTCAATTCCAAAACTGAAAACAGAAGAAAGCGGCCCTTTACTGATTACGCACTGGGGACTTTCTGGGCCGGCTGTCCTGAAAATCTCTGCCTGGGAAGCCATCAGTCTGGCAAAGCTTAAATATAATTTTGAAATTGATGTTAATTTCGTTTCTATAGAAATAGATGAAGCGGAAGAAATCTTCCATAATTTTAAACAAACGAATCCTAAAAAGACCATCGGACAGTCTAAAATCTTTGATATTACGAACAGATTCTGGCAAAAGATTTTAGATCTTTCCAAAGTGGATCTTAATAAACAGGTTGCCAATATTTCCGGAAAAGAAATGCAGAAAATTCTGGAAGATCTTTGTAGAAAAAAGTTTCAGGTCACTGGAAAATCCACATTTAAAGATGAATTTGTAACAGCCGGAGGCATTGATTTAAAGGAAATTAACTTCAAAAACATGTCTTCCAAATTACTTCCAAATTTTTATATTGCCGGAGAAGTTCTGAATATAGATGCGGTAACGGGAGGCTTCAATTTCCAGGCGTGCTGGAGTGAAGGATGGCTGATTGCACAGGACCTCAACAGCTTGTAA	MKQIIIIGGGAAGFFCASNLDEKKYTITILEQNSDVLQKVKISGGGRCNVTHACFDPRELVQFYPRGNKELLSVFTKFQPGDTMEWFDQRNVPLKIENDNRTFPESNSSQTIINTFLNETQKKNVTVKTKCTVKEIEKQEEKYIVKTNSGNFEADYIVYTTGSSPKSLKIVENLGHKIVNLVPSLFTFNIKDELLKDLPGTSFENAGISIPKLKTEESGPLLITHWGLSGPAVLKISAWEAISLAKLKYNFEIDVNFVSIEIDEAEEIFHNFKQTNPKKTIGQSKIFDITNRFWQKILDLSKVDLNKQVANISGKEMQKILEDLCRKKFQVTGKSTFKDEFVTAGGIDLKEINFKNMSSKLLPNFYIAGEVLNIDAVTGGFNFQACWSEGWLIAQDLNSL				NA	NA	NA	NA	NA
BMS003_03011	495			hypothetical protein	ATGATTTTCTACCATAAATTTGAAGTAAGATGGAGTGATCTGGATGCCAACAAGCATCTGGCCAATTCATCGTATGTACAATATTGTGCACAAGCCAGAATGGCTTTCATGACTAAAGAAAAAATGGGAGTTACCCAGCTGAGCAGATGGGGAATAGGCCCGGTGATCCTGCACGAAAGATATTCTTTCTTCAAAGAAATTTATGCAGATCAGACAGTGATTGTAAGTGTGGAAATAGACGGATGCTCAGAAGACTCTTCCATCTATCGGTTCCTGCACAAATTTTATACACCGGATGGTGTACACTGTGCAACATCAGAAGCTACAGGGGTATGGATTGACATGATGCTTAGAAAAATGACCACTCCACCGGATGATGTAGTGGAAGCAATGAATAAGTACAAAACCCCGGATACTGTTGTACTGTCAAAAGAGGATTTCAAAAAATTCCCTTTCCACCCACACAATATTGATCCGGCAGAACTTACTCAATAA	MIFYHKFEVRWSDLDANKHLANSSYVQYCAQARMAFMTKEKMGVTQLSRWGIGPVILHERYSFFKEIYADQTVIVSVEIDGCSEDSSIYRFLHKFYTPDGVHCATSEATGVWIDMMLRKMTTPPDDVVEAMNKYKTPDTVVLSKEDFKKFPFHPHNIDPAELTQ	PGPT0001850_204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS003_03012	1053	thiL	COG0611	Thiamine-monophosphate kinase	ATGTTTGAAGATAAATCACAGGAGCTGACGCCCATTTCAAAGTTAGGAGAATTTGGTCTTATTAAACATCTGACAGAACATTTTCCGCTATCCAATGAATCTTCTGAACTTGGAGTAGGAGATGATGCAGCAGTTATTAATCCTGATAACAAAAAAGTAGTTCTCACAACAGATGTACTGGCAGAAGGAGTGCATTTTAATCTGGGCTATGTTCCTTTAAAGCATTTAGGCTATAAAGCTGTGGTAGTAAACCTGAGCGATATTGCCGCAATGAATGCAACTCCTACACAGGTTTTGGTTTCCCTTGCGGTGTCCAACCGTTTTCCTGTGGAAGCCCTAGAAGAAATCTATTCCGGAATTCAGGCAGCGTGTGGAAGATATAAAGTAGATCTGATTGGAGGTGATACTACAAGCTCCAATTCTGGACTGGTAATGAGTATTACAGCAGTAGGGATTGAAAATGAGGAGAATATCGTAAAAAGAAGCGGAGCAAAACCAAATGATCTTCTTGTGGTAACAGGAGATTTGGGTGGAGCCTATATGGGTTTACAGATTCTGGAAAGAGAACACGCTGTTTTTCTTGCCGACCCGAATATGCAGCCGGAAATGGAAGGCTATGACTATATCCTTGAAAGACAATTGAAGCCTGAAGCAAGAACAGACGTTAAAAAGATCCTGGAAGAGCTGGATATTAAGCCAACTTCTATGATTGATATTTCAGATGGTCTGGCTTCCGAAATTCTTCATCTTTCAGATCAGTCCAATGTGGGCTTCAGATTATATGAGGAAAAAGTTCCGTTGGATAATCTTACGATCTCCACCGCAGATGAAATGAACTTAAATCCTGTAATGACAGCATTAAGCGGAGGTGAAGATTATGAATTACTGTTCACCATTTCATCATCAGATTTTGATAAAATTAAAAATCATCCGGATTTTACGATTATAGGGCATACTGTAGAAAAAGAAGAAGGAAACTTTATGGTAGCGAGAGGATCTAACCAGCTGGTAGCCCTTACTGCTCAGGGGTGGGATGCTTTTCTAAGTCAATAA	MFEDKSQELTPISKLGEFGLIKHLTEHFPLSNESSELGVGDDAAVINPDNKKVVLTTDVLAEGVHFNLGYVPLKHLGYKAVVVNLSDIAAMNATPTQVLVSLAVSNRFPVEALEEIYSGIQAACGRYKVDLIGGDTTSSNSGLVMSITAVGIENEENIVKRSGAKPNDLLVVTGDLGGAYMGLQILEREHAVFLADPNMQPEMEGYDYILERQLKPEARTDVKKILEELDIKPTSMIDISDGLASEILHLSDQSNVGFRLYEEKVPLDNLTISTADEMNLNPVMTALSGGEDYELLFTISSSDFDKIKNHPDFTIIGHTVEKEEGNFMVARGSNQLVALTAQGWDAFLSQ	PGPT0009010_283	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
BMS003_03013	819	rhaS_13		HTH-type transcriptional activator RhaS	ATGTATTCACCTGAAAAACATATTCCCGTTCATCATCTGGTATCTGAAGAATTTCAGGTCAATACCTTAGAAAATGGGCATCCGGAAAACTTCGAGGATATTCATAGACATAATTTCTTTGAAATCATCTGGTTTAAAGAAGTTCATGCAGACAGCTGCCTTGAACTGGATTTTGAGAGCTATCCCGTAAAAAACAATCAGATCTGCATTATTGTTCCCGGCCAGGTTTTTAATATGAAGCTCCGCAGTGAAAAGGGATTTGTACTGGCCATAAGCAAAGAGATCTTCAAAGAAGCCTGTGATATGGAAGGGATCCTTGCCAATGGGGCTTGTCCTTTCTTTTTGGATGCAGAAAGCAGTGAGACCGGAAATATGCTTATTTCCATGATCAAAAGAGAATATCTCGGATCAGGGCGTGTTGCAATTTTAAAAGCTTATCTGAGAGCTTTCTGTCTCATTATTACAGACCAGATCACAATGCAGGGTACCTCAGAAGAAGACAAACCGAGAATTCAGCAGCTTGCAGCGTTGATAGAAGAGCATTATATCACCCGGAAAAACACAGATTTTTATGCTGAACAGCTTAGCATAAGTGCACATCATCTCAATGACATTGTGCGGCTTGCCAGGGGAACAACGGTGAAAAAAATGATTGCCCAGAGAATTATCCTGGAAGCGAAAAGAGAACTTAGTTTTGGAGCTTTAACGGTAAAAGAAATAGCTTTTAAATTAGGCTTTAGCGATGCTTCTTACTTTTCACGTTTTTTTAAAAAACACACCCGGCAGAATCCTGACGGATTCAGACCCGGAAAAGCTTAA	MYSPEKHIPVHHLVSEEFQVNTLENGHPENFEDIHRHNFFEIIWFKEVHADSCLELDFESYPVKNNQICIIVPGQVFNMKLRSEKGFVLAISKEIFKEACDMEGILANGACPFFLDAESSETGNMLISMIKREYLGSGRVAILKAYLRAFCLIITDQITMQGTSEEDKPRIQQLAALIEEHYITRKNTDFYAEQLSISAHHLNDIVRLARGTTVKKMIAQRIILEAKRELSFGALTVKEIAFKLGFSDASYFSRFFKKHTRQNPDGFRPGKA				NA	NA	NA	NA	NA
BMS003_03014	1218	ydhC_2		Inner membrane transport protein YdhC	ATGAAGAAGAATTTGAATATTGTAGTGTTTATTCTCGCACTACTCAACACGCTGGAGTCACTGAGTATAGATCTTTATCTTCCTGCTTTCCCAAGTATGGCAAAAATTTTTAATACCGACATCGGCCATATCCAGGTATCCATTTCTGTATTTTTTGCCGGGTTTGCTTTCGGGCAGCTGTTGTGGGGACCTTTATCGGATAAAAAAGGAAGAAAACCTATGTTGTACTGTGGGCTTTTGCTTTTTATTGTAGGTGCTACAGCCATCTATTTTACATCCGATATTTATGTATTATGGGCCATGCGCTTTCTGCAGGCGTTCGGGGGAAGTGCCGGAATTGTTATCGGAAGAGCAATTATTATTGATCTCTATGATAAGCATAAAGCTGTCACTATCTTTTCACAACAGTCGCAGATTAGTGGTATAGCACCCATTGTTGCTCCGCTATTGGGAAGTCTGTTTCTTAAATTCTGGGGCTGGAACAGTTCTTTTGCATTTTTATGTATTATGGGGCTGATTACATTTTTCATGGTTTACAAATATGTGCCGGAAACCAATACCAGAATCCATCTTTCCGATGATGAGGTATTGAATGAAAAAGGATTAAAAGACCAGCTGAAAATAATTATTTCCAACAAAGACTTTATCAACAGTACTATGGTGGGAAGTATTGCGTTTGCATCGTTGATTATCTACATCTCTAATGCCCCGTTTTTATTCATGGAGATCCATGGATTTTCCAGCAGTGTTTTCAGTTTTATATTTGCATTTAACTCACTGGCATTGATAACAGCGGCTTATATTACCCCTAAACTGATCAAAAGAATAAGCAATTCAAAACTGCTGTTTTCCGCTACAATTGTTTTGTTAGTAGTATGTACACTGCATATTCTGATTGCGGCGGAAAATCTTTCTGTAGTGTTGGAAATTGCAATGCTTTATCTGTCATTACTGGCTATTGGTATTTTGTTCCCAATCACTTCAGCTCATGCTTTATCTCCGTTTAAGGAAGGAAGAGGAACGGCAGCAGCCTTATTGGGCTTTATGCAGCTGATGGTTACCTTTTTGATATCTGCATTGATAGGTTTTCTGGAAGCAGATTCTATCATCCCGATGGTAGTAACACGTTCTGCAATGGCCTTGATTGCTGTATGGTTCGGGTACCGTATTTTTAAAACTCAAAAAAGTATAGTTCAAGAAGATAGGATAATTATATAA	MKKNLNIVVFILALLNTLESLSIDLYLPAFPSMAKIFNTDIGHIQVSISVFFAGFAFGQLLWGPLSDKKGRKPMLYCGLLLFIVGATAIYFTSDIYVLWAMRFLQAFGGSAGIVIGRAIIIDLYDKHKAVTIFSQQSQISGIAPIVAPLLGSLFLKFWGWNSSFAFLCIMGLITFFMVYKYVPETNTRIHLSDDEVLNEKGLKDQLKIIISNKDFINSTMVGSIAFASLIIYISNAPFLFMEIHGFSSSVFSFIFAFNSLALITAAYITPKLIKRISNSKLLFSATIVLLVVCTLHILIAAENLSVVLEIAMLYLSLLAIGILFPITSAHALSPFKEGRGTAAALLGFMQLMVTFLISALIGFLEADSIIPMVVTRSAMALIAVWFGYRIFKTQKSIVQEDRIII	PGPT0029005_1433	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
BMS003_03015	234			hypothetical protein	ATGAAAAAACTTTTGAGAAAAGATTTATCTGCTATTCTGGGCAGCGGAGGAAATGAATGCCACATGGGGGGAGATTCCTATAATTGCCAGAATGACTGCCAATGTGCCTGGGGAAAAGCCTGTGAAATGTATGAAGACGGAACTCCGGGACAATGCATCGCTGTAGGAGGTGGTGGTAACCCTGGTGGTGGTGGATGTACTCCTCCAACTATTTGTGAAGAAGAACCTTATTAG	MKKLLRKDLSAILGSGGNECHMGGDSYNCQNDCQCAWGKACEMYEDGTPGQCIAVGGGGNPGGGGCTPPTICEEEPY				NA	NA	NA	NA	NA
BMS003_03016	567			hypothetical protein	ATGAAAAAGGTCTTAGCAGCAGCATTCATTTTCACTTTTATTTTCGGCAGTGCCCAGGTTTCTGAATTTCAGAGAGCAGACTCCCGCTATGAGAGAAAGAAAACGGCTCTGTATAACAAATATCCTAAGCCTAATGATTTAAGAACGAAGAAAGAATGGCTTTTAACAGAAGATAAAATTGCTGCTTATAGAGAAGCTTTAGACAAAGCTTCTTTTGATGATAAGAAAATAATCGCTGCAGATCCCCCTGTAAAAACAAAAGTCACCAAAGAGGCTGAATATGACAAAGGTAAAGCGGTATTCAAAAAGCTGCTATCCGAAGCTGTCAATCTCGCTTTTTTAAACTTTTATTCAGATTCCTATAAAGTAACACTAACCTTTGTGGTAGATTCTAAAGGAAATGCTCTTGACCCCAGTGTAAAAGGAAGTAATGAGGATGTAAATGCATTCATTGAAGCCGCTTTTTACAGAATCAGGGAGAAAGGAAAATGGAGTCCTGCAGAAGATAAAGGAAAACCGGTGTCCTCGAATGTTTCTATTCCTTTAACATTTATTTTTAAGAAATAA	MKKVLAAAFIFTFIFGSAQVSEFQRADSRYERKKTALYNKYPKPNDLRTKKEWLLTEDKIAAYREALDKASFDDKKIIAADPPVKTKVTKEAEYDKGKAVFKKLLSEAVNLAFLNFYSDSYKVTLTFVVDSKGNALDPSVKGSNEDVNAFIEAAFYRIREKGKWSPAEDKGKPVSSNVSIPLTFIFKK				NA	NA	NA	NA	NA
BMS003_03017	1248	pepT	COG2195	Peptidase T	ATGAGTACAATAGAATTCAACCCATTGTGGAAAGAAAAATTACTGAACCGTTTTCTTAGCTATGTAAAAATATATTCTACCAGCGACGCAGAAAGTGAAACCACACCTTCTACTCCTCGCCAGTGGGATATTGCCAACTATATTACTGAAGAACTGAAGACAATAGGCCTGGAAGATGTTTCAATAGACAGCAACGGTTATATTATGGGCTATGTTCCTTCTAACCTTGAAAATGATGACAGACCTACCATCGGGTTTATTTCACACTATGATACTTCACCGGATTTCAGCGGAGAAAACGTAAAGCCTCATGTTTGGGAAAACTATGACGGGAATGATCTTCTTCTGAACCAGACTACAGGATTCACTTTGTCTCCTTCAAGGTTTGAAAGCTTAAAAAAATATATCGGTCAGACGTTAATTACTACTGACGGAACAACTCTTCTTGGTGCAGATGACAAAGCAGGTTGTGCGGAGATTGTAACCGCTGCTGAATATCTTATTGCTCACCCTGAGATTAAACACGGAAGAATTGCTGTAGGATTTACTCCGGATGAAGAAATCGGAAGAGGTGCCCATAAATTTGATGTAGCTAAATTCGGGGCTGAATGGGCTTATACAATGGACGGCGGAGAAGTTGGAGAACTGGAATATGAAAACTTTAATGCTGCCGGGGCCTTGGTAAAAATCCATGGATTGAGCGTTCACCCTGGTTATGCTTACGGAAAAATGATCAATGCGGCTCTTTTAGCTGCTGAATTTGCTCAAATGCTTCCGGCTAACGAAACGCCTGCCACAACAAAAGGTTTTGACGGATTCTATCACTTAATGGATATTACAGCAGATATCTCTGAAGCAAAGCTTCAATACATCATCCGTGATCATGATGCAGATAAATTTGAAGCCAGAAAAAAATTCATGGAGGAAAAAGTAGCAGAATTCAATCAGAAACATGGTGAAGGAACTGCTGAAGTGGAGATCAAGGAGCAATACAGAAACATGAAGCAGCAATTTGAAGGTAAAATGCATATTGTAGACCTTGCTGCAAAAGCAATGACTGAGGCTGGTATAGAGCCTAAGATCAAAGCCATCCGTGGAGGAACAGACGGAGCTCAGCTTTCTTATATGGGACTTCCCTGCCCTAATATTTTTGCAGGAGGAATTAACTTCCATGGGCCTTACGAGTATGTAGCGCTGGAAAGTATGGAAAAAGCAACTGAAGTAATTATTAATATTGTAAAAGCTTAA	MSTIEFNPLWKEKLLNRFLSYVKIYSTSDAESETTPSTPRQWDIANYITEELKTIGLEDVSIDSNGYIMGYVPSNLENDDRPTIGFISHYDTSPDFSGENVKPHVWENYDGNDLLLNQTTGFTLSPSRFESLKKYIGQTLITTDGTTLLGADDKAGCAEIVTAAEYLIAHPEIKHGRIAVGFTPDEEIGRGAHKFDVAKFGAEWAYTMDGGEVGELEYENFNAAGALVKIHGLSVHPGYAYGKMINAALLAAEFAQMLPANETPATTKGFDGFYHLMDITADISEAKLQYIIRDHDADKFEARKKFMEEKVAEFNQKHGEGTAEVEIKEQYRNMKQQFEGKMHIVDLAAKAMTEAGIEPKIKAIRGGTDGAQLSYMGLPCPNIFAGGINFHGPYEYVALESMEKATEVIINIVKA	PGPT0020915_532	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020915-pepT-K01258	NA	NA
BMS003_03018	849	yngG	COG0119	Hydroxymethylglutaryl-CoA lyase YngG	ATGTTTCTTACCGAATGTCCTAGAGATGCTATGCAGGGATGGGGAGAATTTATCCCTACCGATAAAAAAATAGATTATATCAACTCCTTGATGGATGTTGGCTTTGATGTATTAGATTGTCTGAGTTTTGTTTCTCCGAAAGCAATTCCACAGATGGCTGATTCTGATGAGGTTGCCAAAAATATTGATAAATCACGCTCCAAGACTAAAGTATCTGCCATTATTGGCAACTATAGAGGTGCAGAAAAAGCATTGAAACACCAATCCGTAGATATTCTGGGTTTCCCGTTTTCTATTTCCGAAACTTTTCAGCATAGAAATACGAATAAAAGCCAGGAAGAAGCTTTTGATGAAATTATTAAAATGCTTGAGCTGGTAAAAAGCGAAGGAAAGCAGCTTAATATTTATTTCTCTATGGCTTTTGGAAATCCTTATGGTGAAATGTGGAAATGGGAAGATGTTGACCAATGGGCACAAAGGTTTTCAGATATTGGAGTGAAAGATATTTTACTGTCTGATACAACGGGTGTGGCAACTCCTGAAACGATTGCTCTTTTGTTCGAAAAAATACCTGCAAAATATCCGGATATTAACTTCGGAGGACATTTTCATAACCGTTATGAAGATTCTTATTCTAAATTAAAAGCTGCTTACGATAAAGGCTGCCGGAGATTCGACAGTGCCATTAAAGGAATCGGAGGATGTCCTATGGCTAAGGATGATCTTGTGGGAAATATGCCTACAGAACAGGTCATCAACTTTATGAGTGTGGAAAAAGCAGAGCATAAGCTGAATCTTCTGAACTTTGAAAGCTCTTATAATAAAGCAAAAGATATTTTTCACTTTTAG	MFLTECPRDAMQGWGEFIPTDKKIDYINSLMDVGFDVLDCLSFVSPKAIPQMADSDEVAKNIDKSRSKTKVSAIIGNYRGAEKALKHQSVDILGFPFSISETFQHRNTNKSQEEAFDEIIKMLELVKSEGKQLNIYFSMAFGNPYGEMWKWEDVDQWAQRFSDIGVKDILLSDTTGVATPETIALLFEKIPAKYPDINFGGHFHNRYEDSYSKLKAAYDKGCRRFDSAIKGIGGCPMAKDDLVGNMPTEQVINFMSVEKAEHKLNLLNFESSYNKAKDIFHF	PGPT0008315_3651	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
BMS003_03019	837	sseB	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGTCTCCAATCATCTCACCATCCGAACTTAAAAATATATCTGTAGAAAATCTGGTTCTTCTGGATGCAAGAACCGGAAAAGATGTAAAACAGAATTATCTTGAAAGACATATCAAAGGAGCAAGGTTCATTGATCTGGATAAAGATCTGGCGGAAATAGGAGAGAATGCCGCTTTTGGAGGCAGACATCCGCTTCCTTCCGTTGACAAATTTGCAGAAACACTTTCAGATCTTGGAATTGCAGAGCATTCTCATGTCATTGTGTATGATGACAAAAATGCTTCAAATGCTGCGGCGAGAGCATGGTGGATGCTAAGATCTTTTGGATTGGAAAAAATTCAGGTTCTTGATGGCGGCATGCAGGCTGCAGAAAAAGCAGGCTTAGAATTTTCTTCAGGAGAAGAAACATTTAATAAAGTTTCTTTAATCAAAAGAGAACAGTGGTTTCTTCCGGTTTCAAATCTGGAAACTGTTGAGAATGAGTTAAAAAACGATTCTTCTACGGTTATTGATGTAAGAGATGCTTACCGTTATAAAGGAGAATCTGAACCTATTGATCTTGTCGCCGGACATATTCCGGGAGCGATCAATATCCCTTTTTGTGAAAATATTGATGAAAACGGAAACTTTCTAAGTCCGGAAATTTTAAAAGAAAAATATAAGCAGTTATTACAAAATAAACCTGAGCATCTGATTATTCACTGTGGGTCGGGGGTTACTGCATGCCATACGATTTTGGCTTTAGATTATGCCGGATTTCCAATGCCAGATCTTTATGTAGGTTCATGGAGTGAATGGAGCAGGAGGGAAGGAAAAGAAATAGCAAAAGAAATTTAA	MSPIISPSELKNISVENLVLLDARTGKDVKQNYLERHIKGARFIDLDKDLAEIGENAAFGGRHPLPSVDKFAETLSDLGIAEHSHVIVYDDKNASNAAARAWWMLRSFGLEKIQVLDGGMQAAEKAGLEFSSGEETFNKVSLIKREQWFLPVSNLETVENELKNDSSTVIDVRDAYRYKGESEPIDLVAGHIPGAINIPFCENIDENGNFLSPEILKEKYKQLLQNKPEHLIIHCGSGVTACHTILALDYAGFPMPDLYVGSWSEWSRREGKEIAKEI	PGPT0002045_4548	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
BMS003_03020	327	sufT		Fe-S protein maturation auxiliary factor SufT	ATGAAATTTACAGACGATCAAATTGCTGACATTGGTGAGGAAATCATTGGTGTACTAAAAACCGTGTATGACCCTGAAATTCCGGTAGACATCTACGAATTAGGGCTTATTTACGATGTCCAGATCTCCGATGATGCTGACGTAAAAATTATAATGACCCTTACTACTCCCAACTGTCCTGTGGCAGAGACCCTACCTCAGGAAGTAAAAGATAAAGTAGCTGAAGTAGAGAACGTAAAAAGTGTAGATTTAGAGCTTACTTTCGAACCAAGCTGGAATAAGGATATGATGAGTGAAGAGGCGAAGTTTGAGCTGGGAATGCTTTAA	MKFTDDQIADIGEEIIGVLKTVYDPEIPVDIYELGLIYDVQISDDADVKIIMTLTTPNCPVAETLPQEVKDKVAEVENVKSVDLELTFEPSWNKDMMSEEAKFELGML				NA	NA	NA	NA	NA
BMS003_03021	702			hypothetical protein	ATGATACAGAACATTCCCTTAGAAAGAGTTTTATTCCTTGATATTGAGACCGTTCCACAGGCTGGATCATGGGACGATTTATCCGAAACCGATCAGTATCTGTGGGATAAAAAAACAAAATTTCAGCGCAAAGAAGATGTCTCTGCAGAAGAGTTTTATGAGAGAGCCGGTATTATGGCCGAGTTTGGAAAAATCATCTGCATCACCATCGGAATGGTTGAAAAAAATGAGACATTAAAAATAAAAAGCTTCTTTGGGCACAATGAGAAGAAAATGCTTCAGGAATTCGGAGAAATCTTCAACAGTCCCAGACTTTATAATGTAATTCTCTGTGCTCACAACGGAAAGGAGTTTGACTTTCCATGGATTGCCAGAAGATACCTCATCAATGGCATGCAGCCTCCTGCCCCGTTTCAGATGTTTGGAAAAAAACCATGGGAGATTCCTCACATAGATACGATGGAGCTTTGGAAATTTGGGGATTATAAGAGTTTTGTATCTCTTGAACTACTTGCTCATGTCTTTGGAATTCCTACTCCGAAAGATGATATAGACGGCTCAATGGTTTCATCAATTTACTACATAGAAAAAGACTTGCAGAGAATTGTTGACTATTGTGAAAAAGATGTCTTAACTTTGGCAAATGTTTTCCGGCGTATGCGTCAGGAAGATTTGTTGAAAAGGAATATCAATCTAGATTAA	MIQNIPLERVLFLDIETVPQAGSWDDLSETDQYLWDKKTKFQRKEDVSAEEFYERAGIMAEFGKIICITIGMVEKNETLKIKSFFGHNEKKMLQEFGEIFNSPRLYNVILCAHNGKEFDFPWIARRYLINGMQPPAPFQMFGKKPWEIPHIDTMELWKFGDYKSFVSLELLAHVFGIPTPKDDIDGSMVSSIYYIEKDLQRIVDYCEKDVLTLANVFRRMRQEDLLKRNINLD				NA	NA	NA	NA	NA
BMS003_03022	348	csaA	COG0073	putative chaperone CsaA	ATGACAGTAAAACCAGACATCACCTGGGCAGATTTTGAAAAAATAGACATCAGATGCGGAACCATTATCTCAGTGAATGATTTCGAAAAAGCAAGAAATCCATCTTACCAGCTGGAAATAGATTTCGGAGACTTAGGAATCAGAAAATCATCAGCACAAATTACCTCTCTTTATAAAAAAGAAGAACTTGTAGGAAAACAGATTCTAGCGGTTGTCAATTTCCCTAAAAAGCAGATCGCCAATTTCTTCAGCGAATGTCTGGTGTTAGGATTATATGGTGAGGACAAAAAAGATGTTACACTTTTAACCCCTTCATTACCCACAAAAAACGGAATGCAGGTAGGATAG	MTVKPDITWADFEKIDIRCGTIISVNDFEKARNPSYQLEIDFGDLGIRKSSAQITSLYKKEELVGKQILAVVNFPKKQIANFFSECLVLGLYGEDKKDVTLLTPSLPTKNGMQVG				NA	NA	NA	NA	NA
BMS003_03023	510			hypothetical protein	ATGAATTTCGAACAGATCAACTTACACCTTGAAGCTTATAAAGAACATGATCAGATTCTGGATGCAGCCAAATACCTGATTCATTCTTTTAATCTGGAACATGAAAATTTTGCCGGATTTGGGTTCAGAGAAGAACTATCTCCTAATTCAATGCTTCTTACGGCAGAAGGGGAGCTGGGAGGACCACAAACAGTGATGATCCCAAGAAATTTATTTGATTTTGACCTGAACCTTGTTCTGAATATGGTAGCCCACGAAATGCTTCATGTAAGACAGAAGGCTCCCGGCCACGTCATTGAAGACAAAAATGAAAGAGAATTTCAGGCGTATTATGAGATGCTTTTTCATAAAGTTTTTCCTCAGATACCGGAAGTTTCGGATTTTCATAAAAAATTCTTCGGGGGAAAAGCATTGGAATATTACAAAAGAATGGGTGCAGGCTCCGTGCTGCAACAAAAATATGCAGAACAGAAAACAGAAGTAGAACATTTAATCAACGAATTATCATGA	MNFEQINLHLEAYKEHDQILDAAKYLIHSFNLEHENFAGFGFREELSPNSMLLTAEGELGGPQTVMIPRNLFDFDLNLVLNMVAHEMLHVRQKAPGHVIEDKNEREFQAYYEMLFHKVFPQIPEVSDFHKKFFGGKALEYYKRMGAGSVLQQKYAEQKTEVEHLINELS				NA	NA	NA	NA	NA
BMS003_03024	3675			hypothetical protein	ATGAACGATATGGAAAATAATACTACAGGCGCTCCTGTAGAAAATACACCATCACAAACACTTTTCAGATTTGTAAGCCTAAGAAGCCCTGAACTATCTGATGATACCAAGCAAGATAAAAGATTCATTGTTATTCCTCAGGATCTGAAAAATGATAACGCTTTTTATGTCCCGGTTGTGAATGGAACCGAAGCTAAACAGAAATTACTGAAAACATGTGCTGCTAATTATGTAGATAATCCGGAACGTATTTCTACGGATCCAAACAGCTCGAATAGTTTAGAGGGTTTCAAAAGAACCTATAAGGCTTACTATGTATTTGGAACCTGGTTAGCAAAAAATAAAACTACGTGTACCTACGAAGAGGTTATTGCTAAAAGAGATGTATTGACAGATCCACTGGCTACTCCTGCAGCTCCTTCTCTAATCAGTTTATGGAATAATCTGATTTATCAGGTTGTAACTCAGAAAGATTTTTACGTTAAGGAAGTTGTTATGCAGGTGCTTCTGGCTCATCACATTCTTTCTGTTTCAAGCGAAGAGGAAATGAAGACAGCACTTGAGGCAAGAGTTGTTTTACCTAAAGAGCTGATGATGGAAGATGGTCTTCTTTCTGGAATGCAGATCGTATCAAGGTCTTCTGCTGAAGGATCTAAAGAAACTTTTCCAACACAGGAAATGCAGAAGCAACAGCTTATCTCTACTGAAAAGACTAAGCTGGAAAGATATGAAGATTTAAAGAAAAACCTATCTACCATTGAAAGGCTATATAAGGCTGAATATCAAAAAGAGTATGAAGCCAGCCTGGAATCTCACCAGAATGAAGTAGCTCCCCTTATTGAGCAATATAATAGAGACGTCATAGCTAATAAGGAAAGTTACTGCCAAGTGCGAAATCCCGATATTAAATATGATCCGGCAGACCCTTGCCAGCAAATTCCGGAAATTCCCAAGCCGGAATTACCTAAACTTAATTTTCAGTTTAGACCGGAAATAGAGGCAGAGTCTCTATTGAGAGTTATAAAACCGGAAAACTTTGATACATTGTTGGATGTTCTTGGGTATGATTTCCCGGTAGACTCGGATAAGTCCCAGCCTGATGACTTCACTCAGTTGGAGATTAGCGAGTTATTGGAAGGAAGAAGCACTTTTTCCGAGATTGATATCTTAGTAAAAGAAGCGGTTGAAAAATCCAACAATATTATTGTTGAAAATATTAATACAGATAACGAAACCTATACCAGCATAGGAGGTGTTCTTATTCCGGTGGCAAGAACCATTGCTGTTCCTTTTAACTATCAGATCTGTCCCAAGTATTTATATAAAGGATTTACCTTTGATGTATCCCTTGCCGTTCCTGACTCCTCATGGGATGTAAATTATATATCTTATACTTTAACTCCTAATGGTGGCGGAGCAGATTTTAATAGTGATTATTTTGGCAAATCCAGATCCGGGAACACTATTTTCCTGAATGATCTCTGTATGCCAGGCTTGGATTTTAATACAATACAGGATGCTTCTTTAAGTATTAAAATAATGTTTACTAACGGAAAACTTGCTAATATATATATCAGTCAGCTGCAGGCCAGAACTTGTATTTCAGATAGCTTTTTACTTGAAGCGGAGGAGGAAGAACCTGTAGATACTGGAGAAGAGAATACCTTTATTCCGGCAGGTTTTGGATTTAAACAGATCGGAATTGCAGATTATCTCAAGGTAGAACAGACTACTCATGCGTATGTTGAAGGGGAAGTGGCTCATATTGAGAATATAATGGCCAGAGAGTATCGTGAGAAATCAACCAGAAGGTTGAGGAGAAGCGAAAATACAACAACTACGTCCTCAGATACTGAAAGAGAAAAACTTACAGATACAACTACTGCAACCAGATTTGAAATGCAGAGTGAAATTGCCAAAATGATGCAGGAATCTAAAGATACCAACGTGCAGGCACATTTCGATGCAAATTGGAAAATGACAGGAGGAGGATCTATCAGTACAGGAATTGCAGGAGGATATGCCACCCATTCATCCAAAGAAGAAAGCACAAGACAGGCACTTACCCAAGCTCAGGATGTTACAGAAAGAGCGTTGGACAGAGTCGTAACAAAAATTCATGAGGAAAGGATTGAAAAGATCATTGAAGAGTTTGAAGAAAACAATAAGCATGGTTTTGACAATACAAAAGGAGATAAGCATGTGGTGGGAGTATTCCGTTGGGTTGATAAACTGATGAAAAATCAGATCTATAATTATGGAAAACGTCTGATGTTTGAGTTCATGATTCCCCAACCTGCCAAACTTCATACACTGGGTATGACATTGGGTGATTCGGCAACACAAACAGATATTGTAAAACCGGAGGATCCGAGAAAGGCAAGCTATTTACCTTTAGAAAACTATACTTCTCTAAGTAATGAAGCAACACTAAAATACTGGATTAGTAAATACAATGCTGAAATTGATGAAAGACCTTCCGAGGCTTTTGCTATCAGTAAATCATTCAGTGGACGTGATGGTAACTTTGGAGGCGGCGATGATGGAAAGATTCAGATTGTAAATGGAAATGGAGAAGTAGAAATTCCGGAAGGATATTTATTAAAAACAGTTGATTATGTTTTCCAAACCTATCCACACGGTTTTTATGGGACACATCAGGCTTTCATGACCATCGGAGGAGAGTCTACTAAATGGATTGACAGCATAGCCAGTACACAGGTTGGTGGAACAACCAAACCCCTGAATATCAAAAATAAGCTAGAGTTTAGTTTTGGTACCGGAGAAAGTCCAATTATACAGGGATCTCTGAAATTGAATTTGGAACTTACTTCCGAAGCAAGAAATGCATGGCTTCAAAAAACATTCAATACTATTATTGAGGGTTATGAAAAGGCATTGGGAATTTACGAACAAAAAATATCGGACGAAAAAGCTGCCGGTATCCAGATTACAGGTTCCAATCCAGAGTTTTACCGTCAGATTGAGAATACAATACTTCGTAAAAACTGTATCTCTTATATGATCGACAGAACTGCCAACTCTACCCATGGCTATGGAATGGCAGGACTAACTATAGGAAGCACTTTTACAGATTATGAAACAAACCTTTCATCAGACCTGGATAAATATACCGTTTTCCTGAAGTTTATGGAACAGGCCTTTGAATGGGAAAACCTTTCATATTATCTGTATCCTTATTATTGGGCTAATAAAACAGAATGGCCTGGCCTTTACCAGGCTGAAGATATAGATCCATTATTCAGAGCATTCCTGCAAAGTGGTATGGCAAGGGTAGTTGCCACTGTACGTCCAGGGTTTGAAGATGCTGTACAATTTTACCTTGCAACCGGAAAGATCTGGAATGGGGGAGAAGTTCCTGTAATAGGAGATGACCTTTATTTATCAATTGTAGATGAAATGAAGCAGCCGAAAGGCATAAAACAAGGAAAAGCCTGGATTACAAGACTTCCTACAACCTTAAATATTCTTCAGGCCGAAAGCATCGGATTAAAAGTAGCACATGCTCTGCCTTTTACTGAAGAAAACCCTGATGATTTTGAAGTTCCTTCAGAAGTGATTACCAAGGATAGATTCAATTTTGAATCCAATAATAATCTTCTGGGAGAAGAATCTATTGAAGGGCAGAAAGTTATTTCAGGAGACTGGATATAA	MNDMENNTTGAPVENTPSQTLFRFVSLRSPELSDDTKQDKRFIVIPQDLKNDNAFYVPVVNGTEAKQKLLKTCAANYVDNPERISTDPNSSNSLEGFKRTYKAYYVFGTWLAKNKTTCTYEEVIAKRDVLTDPLATPAAPSLISLWNNLIYQVVTQKDFYVKEVVMQVLLAHHILSVSSEEEMKTALEARVVLPKELMMEDGLLSGMQIVSRSSAEGSKETFPTQEMQKQQLISTEKTKLERYEDLKKNLSTIERLYKAEYQKEYEASLESHQNEVAPLIEQYNRDVIANKESYCQVRNPDIKYDPADPCQQIPEIPKPELPKLNFQFRPEIEAESLLRVIKPENFDTLLDVLGYDFPVDSDKSQPDDFTQLEISELLEGRSTFSEIDILVKEAVEKSNNIIVENINTDNETYTSIGGVLIPVARTIAVPFNYQICPKYLYKGFTFDVSLAVPDSSWDVNYISYTLTPNGGGADFNSDYFGKSRSGNTIFLNDLCMPGLDFNTIQDASLSIKIMFTNGKLANIYISQLQARTCISDSFLLEAEEEEPVDTGEENTFIPAGFGFKQIGIADYLKVEQTTHAYVEGEVAHIENIMAREYREKSTRRLRRSENTTTTSSDTEREKLTDTTTATRFEMQSEIAKMMQESKDTNVQAHFDANWKMTGGGSISTGIAGGYATHSSKEESTRQALTQAQDVTERALDRVVTKIHEERIEKIIEEFEENNKHGFDNTKGDKHVVGVFRWVDKLMKNQIYNYGKRLMFEFMIPQPAKLHTLGMTLGDSATQTDIVKPEDPRKASYLPLENYTSLSNEATLKYWISKYNAEIDERPSEAFAISKSFSGRDGNFGGGDDGKIQIVNGNGEVEIPEGYLLKTVDYVFQTYPHGFYGTHQAFMTIGGESTKWIDSIASTQVGGTTKPLNIKNKLEFSFGTGESPIIQGSLKLNLELTSEARNAWLQKTFNTIIEGYEKALGIYEQKISDEKAAGIQITGSNPEFYRQIENTILRKNCISYMIDRTANSTHGYGMAGLTIGSTFTDYETNLSSDLDKYTVFLKFMEQAFEWENLSYYLYPYYWANKTEWPGLYQAEDIDPLFRAFLQSGMARVVATVRPGFEDAVQFYLATGKIWNGGEVPVIGDDLYLSIVDEMKQPKGIKQGKAWITRLPTTLNILQAESIGLKVAHALPFTEENPDDFEVPSEVITKDRFNFESNNNLLGEESIEGQKVISGDWI				NA	NA	NA	NA	NA
BMS003_03025	1563			hypothetical protein	ATGCCAATAATAGGAAAAATTATACGTGTAAATGAATTACCTCCCATTGGAGAAAGGGAAACGAATGCTATTTATCAGGTAGCTGCCCCGGGTTCTCTATCTTACACAGATTACGCCGTTGATGAAAATGGCGACTTAAAGACCCATGCCGTTGTGGACGGAACCATTCCTCTGGAATTAGCCGATAATAATGTCAGTATCTCAAATGCTGATCTTGTAGCAGAAGGAATAGCAAGCCAGGCTCAATATAATCTTACTACAAGGGAAAAATTAGCAGAAAAATTAGAAATTCCGTTGACGGATGGATCCGCACAGGATTATCCTAAAATCGTAGGATTGAATGATAATGGCAATGTTGCGAAGCTTCCTGCTGGTGATTTGGGAAAAAATATAGCCAATTCATCACTTACGTCTGTTGCGGGAGCAGGACTGAAATTAGGAGCTAACTGGACATTAGATACTTCAGGACTTTATTATACGATCACAGGATTGAGTGATGTTTCTAGTGATGCTACTTTCAATACTTTTTTATCTCAGAACTCTTCAGGACGAGTAGGAAAAACAAATGGAAAGCAGCCGTTCTTAAGCTTGCCTGCCACTCTTTCCGAAGCAGAAAAAACAGCATGGAAAACAGCAATGAACGGAGGCTGGACCACAAATACAATGAGTGTGGCCGTTATTACCCCTCCTGTTGTGGATAAGCAGAATAAAAATTACTGGATCAGTTTAAGAGGAGCTAATCTTAACCTCCCACCAACATCTTTCTCCATAGATATTATGGATGAAAGCGGATCTACAAAATTAGCGACTGTTCCTAATTCACAGGTACAATTATATACCAATGGATTAGACCTGACATTCTACTATAACTTTAAGGATTTACCCATAGGACAGTATAAAATAAGACTATGGAATGGAGTAGCTTATTATGTGACATCCCTTACAGTTTCAGTAGTGCAGAATTTACAGATTGTAGATGTATCTGTATTGACATGGACCAAAAAGATCTATAATGATGCGTCCAATCCCGATACATTTGGTAACGGAGGATCAGCTATTTATCAAAGTAACTCTGCTGTAAAAGCTTACGGTACGGATGACCCTACCATCGTAGCTGCACTTAAATCCTCAAAGCTTAATGATGTAGGAGAAAATTTTTATCTGGAATTTTCTGTCAATTATCAGCATGCAGCTAATATGACCTCAAAAACACAATATGTGGGACTGATGAATAATGCATCGAATGTAGAATTATTGGATCAGACTATTACCCGTTTGAAAACAGTAGGAATGTTGGGAAACACTGCAGGATACAGGACACATTATCTTAATAATGCAGTAGTGGGTGCTGTTAATGCAGGGACTACAGGAACCAATGAAACAGTCAATGTTATTATTGTTAAAAATGGAACCTCTATGACTGTTTCTATGACAGCAAGAGGAGCTACATCACTGGCTATTATTTCTGTTCCTGATATTGAATACAGCCTGAATATGGCCGTCAACAATATGGGAGGGAATGCAACAACTTCATTGAATATTATCAATTTATACAAATTTTAA	MPIIGKIIRVNELPPIGERETNAIYQVAAPGSLSYTDYAVDENGDLKTHAVVDGTIPLELADNNVSISNADLVAEGIASQAQYNLTTREKLAEKLEIPLTDGSAQDYPKIVGLNDNGNVAKLPAGDLGKNIANSSLTSVAGAGLKLGANWTLDTSGLYYTITGLSDVSSDATFNTFLSQNSSGRVGKTNGKQPFLSLPATLSEAEKTAWKTAMNGGWTTNTMSVAVITPPVVDKQNKNYWISLRGANLNLPPTSFSIDIMDESGSTKLATVPNSQVQLYTNGLDLTFYYNFKDLPIGQYKIRLWNGVAYYVTSLTVSVVQNLQIVDVSVLTWTKKIYNDASNPDTFGNGGSAIYQSNSAVKAYGTDDPTIVAALKSSKLNDVGENFYLEFSVNYQHAANMTSKTQYVGLMNNASNVELLDQTITRLKTVGMLGNTAGYRTHYLNNAVVGAVNAGTTGTNETVNVIIVKNGTSMTVSMTARGATSLAIISVPDIEYSLNMAVNNMGGNATTSLNIINLYKF				NA	NA	NA	NA	NA
BMS003_03026	480			hypothetical protein	ATGAACGAACATTTAATTATACCGGAAAACATTAAAGAAATCCTTAATAGTGTAGAGAATACTTCATTAAACCTGGCGGAACTCCCGCTTCAGGAGCATCCGAAGCTTCCACAATTTCAAAGAAGTATTCGTGTATTGGATATTGATGCCAAATCTGAACAACAGTTCATCAGTTTCAGATATAAGCAGATATTGAAAGACAAGGAAACAGGAGAAGAAGTTAATATTTCACTTCCTGCTCCGGAATGGGTAATCTATAAAGATACGTGGAGCTACCTTCGTGACGGAGACAATCATCTTATAGAGCTTCCTATTGCAGAACCCGAAAATGATATGAATATCGATTTGGTAAAAGTACCAAGCTATCAGTATATGCTTTGGCTCTTGAAAAACAATAAAGCTGGTTTTACAGAACTTCTGGCTTCCTATCTGGATGAATTTGTGGAAAAACACAAAGAGAACCTAGATGCACTTTCTTAA	MNEHLIIPENIKEILNSVENTSLNLAELPLQEHPKLPQFQRSIRVLDIDAKSEQQFISFRYKQILKDKETGEEVNISLPAPEWVIYKDTWSYLRDGDNHLIELPIAEPENDMNIDLVKVPSYQYMLWLLKNNKAGFTELLASYLDEFVEKHKENLDALS				NA	NA	NA	NA	NA
BMS003_03027	2391			hypothetical protein	ATGGAAACACTTGAACTTAGAGAAATTATCAGTAAAGAATGGCGTACTGATGATTATATAAGAAAACAGCTGTTATGTAATAAATTGAAATACAGTAATCAGTTTAATCAGCGGTTTATGCTGGATTATAACATCAATGATTATGATGAGAATACAGAAGAAAAATATATAAAAGATGATAAAGAGAACATTATATACTTAAAAACATATCTCAATAAGAATGCTGAGATTGTTGACCTGGCACAGCCAGAGTGTGAAATCAAATTTGTAATTAATGCTGCGCAAGAGCAGATTTCCTGCCAGCTTATTTATTTTTATTATAGAGAAGCAGCGAAAAAAGAACTCAGAAGGAGGAAAGCAATTGTACTGGAAACCTTTTCCTACGAAGAGTTTAGGAGTCTGGTCAAGTATGTGGGATATGATGATTTCGAAAACCATACAGAATACAAAAACTACTTCATTGAAATCTTTAAATCAAGTTTTCTTAAAGCAAAGAGTGCAGATGAGCTTAAATTCCTTTATACCAATACTCCTGAGTTTGTCCTTCGGGGAATGGCTCTTGAAAATGATACTGTATTTAGCCATATGCTTGCCTTAATAGAGCATGATGATACCGGAATTTTTAGTGGATGGAAAGACGGTAGTTCCGCTTTAGTCAATGTATTGAAAGCTTTTCCTGATCATATTTTTATATTGAATAAGTTCAGAAAAAATCCTGAACTCTGTAACAGAATTTATTTCAACCTGGATGGAGCAAGCGAGTTCAATGGAGAAATGAAATCCAACCGTATCATTTTTGCCACTATTCTGATGGAGTATTGCCTGTTTTCTTATAGTCGTCCGAAGGCAGGATCCCCTACTTTCAAAATAGGAAATGAGTATAAAGTAAATACTGAAGTCTTTGGGCTGGCGGGAGATCTATTGGGTTTTGGAAAATCGGATGAAAAGACTTTTTTTCTTCAGCAGCAGAAAGAAGTAACAAAGAGAATTTTCATTGTACCTAAAGAAGGAGATCCTAATGCAACAGAACAGGTAACAGAAGATCTGGATGAAGGAGCTAAATTTTATCCTCTTGACATGGTTTATTTCATCGGGCAGCATACATCAGAAACCAATGAAGGAGGAGAACAGCAGGGTACTGTCATGATGGTCCCGGCTATTTATGTAAAAGCGTTGGCTGATGCAGAAAAATGGGAAGACATTAACGAAACCATCCGGATTGTAGCCGATATGGTAGGAGTCGTTTTTGGAATCGGAACATTAGCACTGTCCGGAAACCCGTACCTGTTATTAGCTGCCGCTGCAGATCTTAGTTTGGCATTACCGGATCTTACCATACAGGCATTCCGGGCGGAAATTGCCAAACTTCCCGGAGGAGATGAGTTTTTGCGGCAGTGGGATCTTATTTATAACGTATTGGGATCTGCTGTAGCAGTACCACAGCTTGCTGTTGGTTTAGCGCAGCTTACTGTCGCTTTTTACCGAAGTTGTTTAAGCTTATTGAAAACATCAGCTAATGTTGCAGAAAATGTGAAACAGGGGTTGCGTGCAAGTGCAATTTCCGTATTTTTGGATTTGAACAGCGGCGTGTTTCAAAGGAAAGATCTCCGTATGTTTAGTCCTACAGAATGGGTAATTCCAAGCGCAGGGTTCATTTCAAAAACATCGGAATGTGATGCATTGATACAGAATGGAGCATTCTTTATGGAGCTTGATGCCGCTGCTATTATGGAGAGTATTGGAAAAAAAGGAGGTGTTAATCCTGATGCTATAGGCTCAATAAGCAGTAATAGGAGATTTGCTTTGGTGTATAAAGGTGAGATTATCGCTCAGGGAAGCCGCTACGATAAAGCATATCAGAAAGTCTTACAGGAGATAAGAAAAGTAAGCTATAGCTCAGAAAGAGTTGGGCAGATTTTAGAAGAATATAGGATAATTGCTTTTTGTGAAAGAATACCGAAAATCGCAAATAAATTTCCTTTGGAATCATTGCCTGAAGAAGGTTTTATTCTGTCATATACTTTTGATTCTAATGGTATTTTCAAGCAGTCTACAGGTAATATTTTTAAATCACGAGAATATGATTTTGTAATTACAAAATCTGGTGAATTAAGAATAGGGAATAAGCATCATCTTTTAGGTAATCGTGAGAATGTTTTAGCAGCAGGAAGTATGAGTTTTAAAAATGGGAGAATTTCAGAATTACATAACCTATCTGGTCATTACAGACCAACAATTGAAGAAGCAATGAGATTGGAAAAGATTTTACAGGAACTTGGAATACCTATAAAAAAAGCAAGATATGATATTTATATAATACATGCTAATGAAGAAGGTTTTGTTACAGGTATGAAAATAAATAAGAGAATATTTATAGAAAATTTAAAATAA	METLELREIISKEWRTDDYIRKQLLCNKLKYSNQFNQRFMLDYNINDYDENTEEKYIKDDKENIIYLKTYLNKNAEIVDLAQPECEIKFVINAAQEQISCQLIYFYYREAAKKELRRRKAIVLETFSYEEFRSLVKYVGYDDFENHTEYKNYFIEIFKSSFLKAKSADELKFLYTNTPEFVLRGMALENDTVFSHMLALIEHDDTGIFSGWKDGSSALVNVLKAFPDHIFILNKFRKNPELCNRIYFNLDGASEFNGEMKSNRIIFATILMEYCLFSYSRPKAGSPTFKIGNEYKVNTEVFGLAGDLLGFGKSDEKTFFLQQQKEVTKRIFIVPKEGDPNATEQVTEDLDEGAKFYPLDMVYFIGQHTSETNEGGEQQGTVMMVPAIYVKALADAEKWEDINETIRIVADMVGVVFGIGTLALSGNPYLLLAAAADLSLALPDLTIQAFRAEIAKLPGGDEFLRQWDLIYNVLGSAVAVPQLAVGLAQLTVAFYRSCLSLLKTSANVAENVKQGLRASAISVFLDLNSGVFQRKDLRMFSPTEWVIPSAGFISKTSECDALIQNGAFFMELDAAAIMESIGKKGGVNPDAIGSISSNRRFALVYKGEIIAQGSRYDKAYQKVLQEIRKVSYSSERVGQILEEYRIIAFCERIPKIANKFPLESLPEEGFILSYTFDSNGIFKQSTGNIFKSREYDFVITKSGELRIGNKHHLLGNRENVLAAGSMSFKNGRISELHNLSGHYRPTIEEAMRLEKILQELGIPIKKARYDIYIIHANEEGFVTGMKINKRIFIENLK				NA	NA	NA	NA	NA
BMS003_03028	534			hypothetical protein	ATGGAACAAATTATTATAAAACTATTAGGCTTTTTAAAATTTAATGACTGGGAAAGTTATAAAAGTTTGAAAAATGAATTATTAAGTGTAGATACTAAAAATCTTATTGTTCAAATTTTAAATGAAAGACGATTTAGAGATACTGATGTAAAAGCACTTCTTTTAGTTATCCCTGAACTATGGAAAGATTTTAATATGGATGACTGGATGTATATTATTCGGAAAGTTGATCGTTCAGCCAACTATAGAGTATTAATTGATAATGAGCCTTGTTTTGAAGATATACGGTTTTTATATAATTGGATTGGAGTTGATAGTATTAAATTATACAAAAACGGATCAGGTATTCCTGAGAAAAGTAAAAAAAGTTTAGACCGTGTATTTCCAGTGCTTTTGACAGATCCTATGAGGGAAGGTGAATTATATAAAGAAGACTTTCAAGATGGAACTTTTGGAGACATAAAATATTTCCGAGATATGAAAACACGATTAATAAGTCAAGGAGCAAAGCCAAGTCCGATGCCAAATTTATAA	MEQIIIKLLGFLKFNDWESYKSLKNELLSVDTKNLIVQILNERRFRDTDVKALLLVIPELWKDFNMDDWMYIIRKVDRSANYRVLIDNEPCFEDIRFLYNWIGVDSIKLYKNGSGIPEKSKKSLDRVFPVLLTDPMREGELYKEDFQDGTFGDIKYFRDMKTRLISQGAKPSPMPNL				NA	NA	NA	NA	NA
BMS003_03029	561			hypothetical protein	GTGTATAAAGGAGAGATTATAGCTCAGGGAAGCCGTTATGATAAAGCTTACCAGAAAGTTTTGCAGGAAATAAGAAAAGTAAGTTATAGCTCAGAGAAAGTTGGTGAGATTTTAAATGAGATAGTAAAACAAATACGTATTAATACAATAATAGAAGAAGACGGTTGGGTTGTTATTCGGGGATTGGAACGTGAAAATGTTGCTAAAGCATGGCTAGGTGATGAAGGGGAATTTAATATTTCAATTATTACCAAAAATACCTCATTAGAAAATAATGGTAGAAGAATTTTTAAAAACCTGTTTACCTTTATTAATGTTGAATACGATGAAATATCTAAAATTAGAGGGACATGGAGGCCAAGCGCAAAAGTTGGTGATAATTTGAATACATTTAATGAATTAATTAAAAAAGGAATGTCCCAAGAAGATGCTGCTAAAGGAACTTTTACCGGAAAGATGGCTGGTGAATTGGGGTTTAATGTTGCTAGATTAGAGTCTACCTCCATTAAAAATATCGAGGGAGTTTACGTTTCTGTTGATGTAATATTCTTAAAAAAATAA	MYKGEIIAQGSRYDKAYQKVLQEIRKVSYSSEKVGEILNEIVKQIRINTIIEEDGWVVIRGLERENVAKAWLGDEGEFNISIITKNTSLENNGRRIFKNLFTFINVEYDEISKIRGTWRPSAKVGDNLNTFNELIKKGMSQEDAAKGTFTGKMAGELGFNVARLESTSIKNIEGVYVSVDVIFLKK				NA	NA	NA	NA	NA
BMS003_03030	291			hypothetical protein	ATGACTATAGAAGAAAAATTAAACCTTATTGGTTTTAAAGGATTTGTTCATTTAAAAAAAGAACTTAGAGATAACAAGAGACGAAAGTTTTTTAGTTCAAATTATAATGACAAGGAGTTCAATATTATGATTGTAGAAAAAGATAATAAATGGATGATAGAAAAATTGGAGGATGCAGGATTAATTTCTAATGTTTTGGCTCTAAAGCATAGTGAAATTCATACTAGTGAATTAATACTTTTTTTTAAAAATTTTTACTATAAAAATGATGAAATATCACAGTATTTATGA	MTIEEKLNLIGFKGFVHLKKELRDNKRRKFFSSNYNDKEFNIMIVEKDNKWMIEKLEDAGLISNVLALKHSEIHTSELILFFKNFYYKNDEISQYL				NA	NA	NA	NA	NA
BMS003_03031	153			hypothetical protein	ATGCATTCAGCAGAAAGTATTAATATATTGATCTTTGAATTAAATGATAGAAGCACTCCTTTGAGCGGTTTTATCACATCTACTATATTCCTTCATAAAAAATACATAGTAGAAAAAGTAAAAAGAACTTATAAGAATCTAAAAAATACTTAA	MHSAESINILIFELNDRSTPLSGFITSTIFLHKKYIVEKVKRTYKNLKNT				NA	NA	NA	NA	NA
BMS003_03032	531			hypothetical protein	ATGGAACAGATTATACAGAAATTACATCATGGAATAAAACAAAGTGGTTGGGATTCTTATAAACCTTTAAAAAATGAATTATTAGCTTATAATTCAAAAGATTTACTTGTTAAATTGATTGATACAAAAGATTTTAGATATACAGATATAAGAAGTCTTTTTACGATTATTCCTGAACTATGGAAAGATTTTAATCTGGATGATTGGATGTATATTATTCGAAAAGTTGACCGTCCTACAAACTACCGATTATATATTGATGACGGACCCTATTTTGAAGATATTCGTTTTTTATATAACTGGATAGGTATAGATAGTATTAGTTTGTATAAAAATGACCCGGGAGTTTCTTCTAAAAATAAACAAAGCTTAGATAAAGTATTTCCAATGTTTCTACATGATACATTGAGAAATGGAGATTATAAGGAAGAATTTTCAGATGGAACTTTTGGAGACATAAAATATTTCCGAGATATGAAAACACGATTAATAAGTCAAGGAGCAAGGTCAAGTCCAATGCCAAATCTATAA	MEQIIQKLHHGIKQSGWDSYKPLKNELLAYNSKDLLVKLIDTKDFRYTDIRSLFTIIPELWKDFNLDDWMYIIRKVDRPTNYRLYIDDGPYFEDIRFLYNWIGIDSISLYKNDPGVSSKNKQSLDKVFPMFLHDTLRNGDYKEEFSDGTFGDIKYFRDMKTRLISQGARSSPMPNL				NA	NA	NA	NA	NA
BMS003_03033	381			hypothetical protein	TTGCCCGTTTATGGTAATGAAAGAATGCTTATGGGGGATTTTAATATTCCGAAAGTTATTACTGATAAATACTCTGGGTTAGGAGATTTAGTTCTTTCCGATGCAATTGCCTTTTATCAGACTAATAAAAAATTTGGTCAGCTAGATGGAGTTATAGGATGGTGGAAAAAAGCGACAATGTATGAAGATTATGGAGGTCAATCTATTAACCTAACTAAATTCTGGGAAGCAAGACTTGCCGGGAAAAGTATTGAAGGAGCCGCGATATTAACTTTTACAGGTTCTAGAATGAAAGCAAAAGGCTTTGGAAAAGTACGATATAATACTCTAAAAAATGTAATTGAGGAAAATGAAGTAATTATTAATTTTATTAAAAAATAA	MPVYGNERMLMGDFNIPKVITDKYSGLGDLVLSDAIAFYQTNKKFGQLDGVIGWWKKATMYEDYGGQSINLTKFWEARLAGKSIEGAAILTFTGSRMKAKGFGKVRYNTLKNVIEENEVIINFIKK				NA	NA	NA	NA	NA
BMS003_03034	435			hypothetical protein	ATGATAATGATGATTTTAATTTCAAATACTGTTAGATTTAATCAAACTTTAGATGAATTTACAATAAATTTTAAAAATAGATATTCTACATTTGGAATGGAAGATATATTTATGATTCCACAAAAGGTTCTTTCTAGAATAGGAAAAGATAAGTTTTTAGACGAACCCTTAGAAAAAGACGAATCTGAAGAAATGAAATCTATTCTAGAAACTAAAATTGCAGAGCTACTGGTTCAGAGAATGCCTTATAAAAAAGGGGAAGGTATTTATACAATTAATTTTTTAGGAAAGGAATATGAGTTAGATCCCCGACCAACTGGTCATAATGATAATGATCATCTAATTTGGAAATTATATAAGTTAATAGGGATTATTGATTCTTGTTTGATTGATAATAAATCTGTTTATTTAAGTTTTACTGATAATAATAGTTAA	MIMMILISNTVRFNQTLDEFTINFKNRYSTFGMEDIFMIPQKVLSRIGKDKFLDEPLEKDESEEMKSILETKIAELLVQRMPYKKGEGIYTINFLGKEYELDPRPTGHNDNDHLIWKLYKLIGIIDSCLIDNKSVYLSFTDNNS				NA	NA	NA	NA	NA
BMS003_03035	1011			hypothetical protein	ATGTCAAAAATTGAAAACAACAACCCAATGACTGCCGAAGAGGTTTTAAGGCTTAGAACCGTTAAAGCAAAATCCACTGAAAAACCATCAGTAATTGAAAAGCTATTCAGCCAACGTCCTGCTATGGAAACCATTAACGGAAGAACTTTTCCTAAAGGAATGAAAACAATAGGAATGCCTATGGATGAAAAAACAGCAGAAACCCGGGCTCTGGAAACTGATCATTTCTACCCTACCCATGCTGATTTTGAATACCATCCAAAACTGGAACCTAAAAAAGACCGTAAACCTAAGTTTATTGAAAGAGATTCTTTCCTGACTCAGGAAAATGCAAGAACTATTTTTGGAGCAGATCAGAGAAAGGTATATAATTCTACAGCCTATCCGTGGAGATGTGTAGGAAGAGTAGAAAGCTCTTTAGGTTCAGGAAGCGGAGTGATGATAGGGCCAAGACACCTTCTTACCTGCTCTCATATTGTAGACTGGAAGCCTAATAATACAACAGGATGGCTGAAGTTTACACCAATGTATTATAACGGAAGTGCTCCTTACGGAACGGCTTGGGGTACATTAACCTATTACAAGTATAAAGTAGCAGGCCCTACCATTGATTCTACAGAAATTCAATATGATTATGTAGTGATTGTCTTAGACAGACCTATCGGAAACAGTACAGGATGGCTAGGCTCAAAATCATATTCCGATTCCTGGGATGGAGGTGCTTACTGGACTCATGCAGGATATCCGGGAGATCTTACAGGAACGCAAAGGCCTACATACCAGGCAGGCATCGCTCTGGACGGAGATTTCTGGAGTGCTGATGACAACGAAAGCATGAGCCATAAAGCAGATATATGGCCTGGACAAAGCGGAGGTCCTTTCTGGGGATATTGGGACGGCTCTCCTTATGCTGTGGCCACGCAAAGTGCCCATAATCCAAGTGATAATTTTGCAAGTGGCGGCTCAGATTTAGTCAATCTGGTCATCAGAGCAAGAAATGAACATCCTTAA	MSKIENNNPMTAEEVLRLRTVKAKSTEKPSVIEKLFSQRPAMETINGRTFPKGMKTIGMPMDEKTAETRALETDHFYPTHADFEYHPKLEPKKDRKPKFIERDSFLTQENARTIFGADQRKVYNSTAYPWRCVGRVESSLGSGSGVMIGPRHLLTCSHIVDWKPNNTTGWLKFTPMYYNGSAPYGTAWGTLTYYKYKVAGPTIDSTEIQYDYVVIVLDRPIGNSTGWLGSKSYSDSWDGGAYWTHAGYPGDLTGTQRPTYQAGIALDGDFWSADDNESMSHKADIWPGQSGGPFWGYWDGSPYAVATQSAHNPSDNFASGGSDLVNLVIRARNEHP				NA	NA	NA	NA	NA
BMS003_03037	846			hypothetical protein	ATGAAAAAAGCACTTATCGTAGGTATTAATGATTATGCACCCATCGGATATGGAGGTCCTGATCTTAATGGCTGTGTAAATGACGCGAGAGATATGGCAAATACACTGGTCATCTGCGGTTTTAGTCCGGCAAAGATTAAAATCCTGACGAATCAAAATGCAACAAGAGCCAATATACTGAAGTATCTGAAATCAATGATCAGTACAAGTGTGAAAGGTGATTCTCTTGTTTTTTATTATTCAGGGCACGGAACCAGAGTGGCTAATATCGGAACGGATCTGGAACTGGATGGTCTGGACGAGGCGGTTTGTCCGCATGATTACGCCAATAACGGAGTTATTCGTGATGATGATTTTAAAACCGTTCTCAGCAGGCTAAAAGCCGGAGTGAATATGGAGGTCATATTCGACTGCTGTTATTCCGGAACGGGCACCAGAAAAATGGATCTGGGACTGGAAGTGGATTTTCTCAATGAAACCGCCCGTTATATTCCACCAATGCTTGAAGATGAATTTTACCTGACCTATGCCAGTGAAATGGAGGCTTCTAAAAGTTCAAAAGAATCGACCATGCTTACTAAGGCTCTCGTTCCTGTTGCCGGAATGAATCATACGTTATGGGCGGCTGCGAAAGACAATCAGGTATCTATGGAAGGAAATATCAGTGGACAGACAAGAGGGTATTTTACCTATCATTTCTGTAAAATACTGCGTGCTACCAATGGTAATATCGTCCGAAAAACACTTGATAAGCAGGTTGCCATTGCATTAGCAGCTATGGGAGCAGCTCAAATTAACCAAACGGAGAGTATTACCGCAGAATTTTCACAAAAAATATTCACTTAA	MKKALIVGINDYAPIGYGGPDLNGCVNDARDMANTLVICGFSPAKIKILTNQNATRANILKYLKSMISTSVKGDSLVFYYSGHGTRVANIGTDLELDGLDEAVCPHDYANNGVIRDDDFKTVLSRLKAGVNMEVIFDCCYSGTGTRKMDLGLEVDFLNETARYIPPMLEDEFYLTYASEMEASKSSKESTMLTKALVPVAGMNHTLWAAAKDNQVSMEGNISGQTRGYFTYHFCKILRATNGNIVRKTLDKQVAIALAAMGAAQINQTESITAEFSQKIFT				NA	NA	NA	NA	NA
BMS003_03039	645	gacA_1		Response regulator GacA	ATGAAAACTATTCCCATAGCGATCGTTGATGATCATACTTTAATCTCCAAAGCACTGGAGAATATGATCATGGAAAACACTCAATATAGGGTTATTATGAATCATCCCAATGGAGAAGAGTTTATTGCAGGTATAGAAAATGCTTCTGAATTGCCCGCTGTAGTGCTGATGGATGTTAATATGCCTTATAAAAACGGTATAGAGACCACAGAATGGCTTACGGAACATTATCCCGATATAAAAGTAATTGCCCTGACTATGGATGATGATGAAAAAGTTCTCATCAGAATGCTGAAAGCAGGAGCCAAAGGATATCTGCTGAAAGATATGCAGCCTTCTATTCTCTTTCAGGCCATAGACACTGTATTTGAGAAAGGGAGCTTTTATACAGATTTTGTCGCTCAGAAATTATTGAAAGTAAAAACAGAGGAAATGAAAAATGCTTCTCTCCTTTCGGAACTGAAAGACAGAGAGAAAGAGTTTATAAAATGGGCCTGCAGCGAACTTACTTACAAGGAAATTGCTGATAAGATGTGTCTTAGCCCAAAAACCATTGATGGCTACAGAGATTCTGTTTTTGTGAAACTGGATATAAAAAACAGGGCCGGGCTGGTTCTTTTTGCATTGAAACATGATCTGTGCTGA	MKTIPIAIVDDHTLISKALENMIMENTQYRVIMNHPNGEEFIAGIENASELPAVVLMDVNMPYKNGIETTEWLTEHYPDIKVIALTMDDDEKVLIRMLKAGAKGYLLKDMQPSILFQAIDTVFEKGSFYTDFVAQKLLKVKTEEMKNASLLSELKDREKEFIKWACSELTYKEIADKMCLSPKTIDGYRDSVFVKLDIKNRAGLVLFALKHDLC	PGPT0012935_935	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
BMS003_03040	771			hypothetical protein	ATGGAAGAGAATAATTTGGTCATCATTTTTACCATCACTTTATTTATTGTTGTTTTGACAATGATCTTCATCTATGCGGTTTTTATCAAGAAAAAAACAACACTGCTGATAGAGCAAAAAGAAAAAGACCTCCGGTTTGAAAAGGAACTGGCGACCTCACAGGTAGAGATGAAAGAACAGACTCTCAACTACATAGGGCAGGAACTGCATGATGATCTGGGACAAAAGCTTTCTGTAGTCCGGCTGCGTCAAAACCAACTGATTACCAAACTAAAAGATACAGAAAAAGAAGACCTCACCGAACTGAATGATTTATTAGGAGAATGTATACAGGATATAAGAAATCTTTCTAAAACATTAATTACTGAACAGATCATTCATTTCGGACTGGCAGAGTCCATAGAAAGAGAGGTTCAGAGGATCAAAAAACTGAGATTATTAAAAATAGAATTTATCACTCAAAAGCAGGATATTGATATTTCTCCTAAACATGGCCTCATTCTTTTCAGAATTGTCCAGGAAAGTATCAATAACATACTGAAGCACTCCAAAGCCAAAAATGTTTCCATACAGATGGAAGATGACTGTGAAAAACTTCACATCAGTATTTCTGATAATGGAAAAGGCTTTGATACAAGTATTATTCAGGATGGCTCAGGATTGAAAAATATGGAACTGAGAGCCAAGCTGATTCATGCTGAGCTGTCTATACACTCAGAACTGAATAAAGGAACACAAACTTTGATAACCTATCACAAAAATTTATTATGA	MEENNLVIIFTITLFIVVLTMIFIYAVFIKKKTTLLIEQKEKDLRFEKELATSQVEMKEQTLNYIGQELHDDLGQKLSVVRLRQNQLITKLKDTEKEDLTELNDLLGECIQDIRNLSKTLITEQIIHFGLAESIEREVQRIKKLRLLKIEFITQKQDIDISPKHGLILFRIVQESINNILKHSKAKNVSIQMEDDCEKLHISISDNGKGFDTSIIQDGSGLKNMELRAKLIHAELSIHSELNKGTQTLITYHKNLL	PGPT0000525_200	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000525-nreB-K07683	NA	NA
BMS003_03041	645			hypothetical protein	ATGAACTGGAATATTGAAACAGGAAAACAGATATCGATGATCATTTCCATTATAGTAATGATTTTAATGGTCATAAAATATAGAAAAACCGGAAAGGAAAATTTATTTTTTATCATTGGATATCTGTTGTTTTCCCTGATTGATATTTTCTGTTATTTCTACTACCGGCTGACAAGTATGCCTACGGACATCTTTTATGTAATGGGTGTTTTAATAATAGTATTCTTTTTGTACTTATTTTATTATTACCAATTATTGTATGTTCCGCTGCTCAAAAAGATACAGATTATCATTCTTATTCTTTTTTTCCTCAATATTGGTGTAATGTTTTGCACAGAAGATGATCTGCTTCATCATTTTTCTTTTAATATGCTGTACGCAGACATTCTCCTGTTGCTGTTTTCTATTATTTTGTTCCTGTACCAGACTTTTAATTCGGATAAGATATTGGGAATTAATAATTATCTGCCATTCTGGATATCAGTGGCTTTACTGATCTTTTTTTTCGGAAGTATCCCGATTCTGTTTTTCAGAACTACGGTTTCGGAAAGTATTTATTTCTTCATTTTATTTATGCTGAATCTGATCAGCAACAGTATACTGATATTCGGTTTAGCAGGGAACAAACAGGAAAGAACCCGATAA	MNWNIETGKQISMIISIIVMILMVIKYRKTGKENLFFIIGYLLFSLIDIFCYFYYRLTSMPTDIFYVMGVLIIVFFLYLFYYYQLLYVPLLKKIQIIILILFFLNIGVMFCTEDDLLHHFSFNMLYADILLLLFSIILFLYQTFNSDKILGINNYLPFWISVALLIFFFGSIPILFFRTTVSESIYFFILFMLNLISNSILIFGLAGNKQERTR				NA	NA	NA	NA	NA
BMS003_03042	555			hypothetical protein	ATGAAAACTTCCTTTTTTACTAAGATTTTAAGTCCCTTGTGTGTAGCCTTTATTCTGGCTTTTTGTCTGCTTAGCTGCACCCGTTGCTCCGAACCACCTAAAGAACCCGTTAGTAACAGCTATAAAAAGAAGCTGATTAGCTATCGTGAAGGCAGGGTTCTTTTTGATGAATACACCAGAACCAATCATGAAATTCTCATGAAATACAGAAACGGTGAACCTGATTCCCGATGGTACTGGTTTTCGCTTGAAGATATGGAAGGCTATATAAAATATGTAAAAGAAAATGCCAAAAAACAAAAATTAAAAAACCCGGGAATCAGGATTTATATGGGAAAATATCCCATGAACCATCCTAAAAACAGAATGGCAAAACCTGAATATGCAGGCTATCAGACTATATTTTTAGTGCCTACTGCCCAAAAGAGAGAAAGGGAGAAGGCAATGTCCAGATCAGCTGCCACCGAAGAAAATACAGACGTAACTTCTATAGAATCTATGAACATGACCAATCTGGCACCACCACCAAAAACGCTGTCAGAAACAATGCCCTAA	MKTSFFTKILSPLCVAFILAFCLLSCTRCSEPPKEPVSNSYKKKLISYREGRVLFDEYTRTNHEILMKYRNGEPDSRWYWFSLEDMEGYIKYVKENAKKQKLKNPGIRIYMGKYPMNHPKNRMAKPEYAGYQTIFLVPTAQKREREKAMSRSAATEENTDVTSIESMNMTNLAPPPKTLSETMP				NA	NA	NA	NA	NA
BMS003_03043	825			hypothetical protein	ATGAAAACAATAATTGTCTGCACAGATTTTTCCCAAGAAGCCGAAAATGCCATGTATTATGCAGCATCTATGGCTAAAGAAAGTAGCTACAGGATTATACTTTTTAATCTGCAAACCGTTTCCATCCATGCTTTGAATGCACAGGCTTCAGCTGATTTTTTCTATAACCAAACACTTAAGAATCAGATAAAGCTGGAAGATAAAGCTGCTCAACTAAAAGCTTTATATACTATAGAAACCGGACACCATCTTGCTTCCGGCAACTTCATTGAAGAACTTGAAAACTGCATACAGCTCCACGAATGTGATTTTGTGGTGATGGGAATGGCAGAAAAAACCCTTGAGCAAAAGCTTCTGGGAAATATTGTCACAAAGTCAATTCACAGGATAAAAAAACCAATACTGATTATTCCCGCCCACATAGAATATACAGGCATCCGAAAGATTCTTTTTGCTTATGACACTCATAAAAACATGACCTGGTCTGCCATGAATGACATTTATTATTTCATTAATGAATTCAATGCTGAGATTGAGGTATTCAATGTAAGTGAAAGCCTGGCAGATTTTGCGGAGGTTATTCATGATATTGATCTGAACTCCGGGTATGACCTGGACGATATTAAATACAGTTTTAAAATGATTCAATCCATAGAGGTCATCAAAGCAATTGAGGAAGAAATAAGGCTTACAAGTCCGGATCTTCTGACGATGGTTCCGTACAAATATAACCTTGTAGAATCTCTTTTCCATCGAAGCAAAACAGCTATTATGGCATACAAAAATAAATTACCATTACTATCAATCCCCCTAAACTTAGATTAA	MKTIIVCTDFSQEAENAMYYAASMAKESSYRIILFNLQTVSIHALNAQASADFFYNQTLKNQIKLEDKAAQLKALYTIETGHHLASGNFIEELENCIQLHECDFVVMGMAEKTLEQKLLGNIVTKSIHRIKKPILIIPAHIEYTGIRKILFAYDTHKNMTWSAMNDIYYFINEFNAEIEVFNVSESLADFAEVIHDIDLNSGYDLDDIKYSFKMIQSIEVIKAIEEEIRLTSPDLLTMVPYKYNLVESLFHRSKTAIMAYKNKLPLLSIPLNLD				NA	NA	NA	NA	NA
BMS003_03044	1119			hypothetical protein	ATGAATAGGATTTCAGCCATCAGGAAAAATATAGTACGGAATAAGAAGATTCTTTTCACCATGAAAAGAAGGCTCGTGATCTGGGCTGTAGCAGTGGTCACTTTCTGTGTTTTTTCTTACCTTATTGATCCCTTTGATCCTGTTTGGAAAGATTATCTGGATGCTCCGCTGAAGATGATTCTTGAAGATGCCACATGGATTATCTTTTTTTCCATCATTATTTCAGAGGTAAGTATATTTATAGACAGGACACTCAATAAGTGGCTTCCCTGGAGAAACAGGACGGTAAAGCGGCTTTTTATTCAGTGTTTGCTCCAGATTGTAGGCAGTGTTATGATTGTGATCATTATCAATGGCATTGTAGACTGTACTTCAGTGACATTACCGGAAATGGATTCCCGTAAAGAATATACGCTACTGGGGCAATGGATCGCAACCAACATTGTAATATCATTGATTATCAGTGCATTTAACACCGTGGATTATTTACTGGAAAACTGGAAAAAAACAGCAGTAGAAGCCGCCCAGCATAAACTGAGAGCTTCCAAACATAAGCAGGCTGCGATGGCAGCAGAGCTTCAGGCACTTAAACTTCAGATAGATCCCCATTTTATTTTCAATAACTTAAGTGTACTGTCAGAACTCATTCTGGAAGATCAGCAGTTAGGGTATGAGTATTCCGAAAAGTTTGCAAGAGTATACAGGTATCTGTTGGTCAATTCCAAAAAAGATATCATTGCCGTAGAAGAGGAACTGAAATTTTTAGAGTCCTATATCTTCCTGATAGAAAAAAGAATTGGTGAAGGAGTCGTGTTCAAAATAGATATTGAGGAAGAATACAGATCCAGATTCACTCTTCCGTTGTCTTTACAATTGCTGGTTGAAAATGCCATTAAGCATAACCAAACCTCTAAAGTAAATCCGCTGGAAATCCATGTTTATACAAACCGGGAAGGAGAATTGGTAGTCTCCAATACATTTCTGCCTTTGATCAATAAGCCGGATTCCTCAGGAGTAGGGCTTACCAATATCATTGCACGCTACGAAATCTTAGGATATCCAAAACCTGTCATTGAAAAAACTGAAGATAAATTTATTGTAAAACTCCCATTGATATGA	MNRISAIRKNIVRNKKILFTMKRRLVIWAVAVVTFCVFSYLIDPFDPVWKDYLDAPLKMILEDATWIIFFSIIISEVSIFIDRTLNKWLPWRNRTVKRLFIQCLLQIVGSVMIVIIINGIVDCTSVTLPEMDSRKEYTLLGQWIATNIVISLIISAFNTVDYLLENWKKTAVEAAQHKLRASKHKQAAMAAELQALKLQIDPHFIFNNLSVLSELILEDQQLGYEYSEKFARVYRYLLVNSKKDIIAVEEELKFLESYIFLIEKRIGEGVVFKIDIEEEYRSRFTLPLSLQLLVENAIKHNQTSKVNPLEIHVYTNREGELVVSNTFLPLINKPDSSGVGLTNIIARYEILGYPKPVIEKTEDKFIVKLPLI	PGPT0026305_2196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_03045	765	ypdB_2	COG3279	Transcriptional regulatory protein YpdB	ATGAAGATTAATAAAGTTTTAATAGTTGAAGACGAAAGACCCAATGCCGACAGATTAAAAAGACTGTTGCTGAAGTTAAGACCCCATATCGAAATCCTTTCTGTGGAAGATTCTATAACTTCTACAATACATTGGCTGGAAAATAATGTCGTTCCGGATGTTATCATGATGGATGTAAGACTTGCAGATGGGCTCAGCTTTGAAATATTTAACAAACATGAAGTTAAAAGTGCTGTCATATTTACCACAGCATACGATGAATATGCAGTACAGGCATTCAAATACAACAGTGTAGATTACCTTTTGAAACCCATTGAAGAAGAAGAGCTGGATGTAGCTTTAAAACGCTATGAAACCTTTATGGAAGCCGTTCCGGTAGTAGGAACAGCCATTGAAGGACTCTTAAACTATATCCAGCCGAAAGACTACAGAAAACGTTTTCTCATCGCCCACAGAGACGGATATAAAACCGTTCTTGCAGAAGATATTTTATACTTTTATACCGAATTGGGAATCAGTAAAGCCGTGTTGAATACAGGAGTGGTAGAAAATGTTCCACAAACATTGGAAGAGCTTGAAAAACAGTTGGATCCTAAATTCTTTTTTCGCGCCAACAGACAATTTATCATCCATATCAATTCCGTAAAGCAGATTTTTAATCATTTTAATGGAAAATTAAAGCTGGAACTGAGAAAACATCCTGATATGGAAGTTATTGTAAGCCGCGAAAAGGCTTCCATTTTCAAGTCCTGGATGGATTATTAA	MKINKVLIVEDERPNADRLKRLLLKLRPHIEILSVEDSITSTIHWLENNVVPDVIMMDVRLADGLSFEIFNKHEVKSAVIFTTAYDEYAVQAFKYNSVDYLLKPIEEEELDVALKRYETFMEAVPVVGTAIEGLLNYIQPKDYRKRFLIAHRDGYKTVLAEDILYFYTELGISKAVLNTGVVENVPQTLEELEKQLDPKFFFRANRQFIIHINSVKQIFNHFNGKLKLELRKHPDMEVIVSREKASIFKSWMDY	PGPT0026304_718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_03046	126			hypothetical protein	ATGGTGATATTCATTCAGAAGTTGGGTGAAGTGTCGTTAATTGCAGGTGAAGCGTATGATACCAAAAATGAAAGGAAAACAGCTATTTTCCTTCATAAACATGTTAAAAAAGAGTATTTCAGATGA	MVIFIQKLGEVSLIAGEAYDTKNERKTAIFLHKHVKKEYFR				NA	NA	NA	NA	NA
BMS003_03047	1122	ttgA_1		Toluene efflux pump periplasmic linker protein TtgA	ATGAATTACAGAAAAGGATATCTGGTACTTTCACTTACAGCTGCAGCGATACTGTACTCATGCGGCTCCGGGAACGGCCAGGAAAATGCCCGGCAGATGCAGCAGGCATTGCCTACAGATTTTATCCAGGTGAAGTCCGGAGATGCAGACGTGTCTACAGGATATCCCGGAAGCATAGAAGGACAGAATAATGTAGATATTAAAGCACAGGTAACAGGATATCTGGAAGCAGTATATATCAAAGAAGGACAGTATGTAAGCAAAGGACAGACCCTTTTCAGAATAAATCCATCCGTGTATAACGAGCAGGTAAACACCAATGAAGCCGCCTTGAAATCTGCTATTGCAGCACAGGAAACAGCAAGACTTGAAGTGGAAAAGCTAAAACCTCTTGTAGAAGGAAAGGTAGTTTCCGATATGCAGCTGAAAACAGCACAGGCAAGTTATAAAGCAGCAGCAGCACAGGTAGCGCAGGCACAGTCATCATTAGGATCATCAAAGATCAATGCTAATTTTACCTACATCAAAGCTCCGGTGAGCGGATATATCGGACGAATTCCGAATAGAGTAGGAAACCTCATCAGTCCTTCAGATGCTTCTCCATTGACAACACTTTCAAGTATAAACAGTGTGAATGTGTACTTTTCAATGAATGAAGCTGATTTTATTGCACACAGCAGAGCAACGGCATCCGGAAATACCGCAGAAAATGTAGAGCTTATCCTTGCAGACGGTTCCACCTATTCTCTTAAGGGAAAACTCGAAAATGCCAGCGGAAACTTCGATAGAAATACCGGAAGTATTCAGATGAAAGCTGTTTTTCAAAATCCGGATAAATTATTAAGAGCCGGAGGAACGGCTAGGGTCATGATTCACAATGCGTTGAATGGAGTAGTCAAGCTTCCGAAAACATCGGTGAAAGATATTCAGGACAGATTCTTTGTCTATAAACTGAATGGTAAAGATAAAGTGAAAATGACTCAGATTACCGTTTCGGGAAGCACCTCTCAGGATTACTTCATCAAAGAAGGCGTAAATGCAGGAGATAAGATTGCCATCAACAGAATTGATGCCCTTACAGACGGAGCACAGGTTGTGGCGACAACAGTTCCTTTGAAATAG	MNYRKGYLVLSLTAAAILYSCGSGNGQENARQMQQALPTDFIQVKSGDADVSTGYPGSIEGQNNVDIKAQVTGYLEAVYIKEGQYVSKGQTLFRINPSVYNEQVNTNEAALKSAIAAQETARLEVEKLKPLVEGKVVSDMQLKTAQASYKAAAAQVAQAQSSLGSSKINANFTYIKAPVSGYIGRIPNRVGNLISPSDASPLTTLSSINSVNVYFSMNEADFIAHSRATASGNTAENVELILADGSTYSLKGKLENASGNFDRNTGSIQMKAVFQNPDKLLRAGGTARVMIHNALNGVVKLPKTSVKDIQDRFFVYKLNGKDKVKMTQITVSGSTSQDYFIKEGVNAGDKIAINRIDALTDGAQVVATTVPLK	PGPT0003275_4441	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
BMS003_03048	3159	bepE_5		Efflux pump membrane transporter BepE	ATGTTAAAAAAGATAATAGACCGTCCGGTACTGGCGACCGTAATATCCCTTATCATTGTGATTTTAGGGATCATCGGATTAAACCAGCTGGCAGTAACCAGATTCCCGGACATTTCTCCGCCTACGATCACCGTTTCAGGGTCGTATCCGGGAGGAAACAGTGAAACCGTGATCCGTTCTGTGGTAACTCCGCTGGAAGAGCAGATCAATGGGGTGGAAGATATGGAATACATGAAATCCACTGCAAGTAATGATGGTACATTTTCCATCTCCATTATATTCAAGCAGGGGGTAAATGCCGATCAGGCTGCGGTAAATGTGCAAAACAGAGTACAGCAGGCCACTCCGATCCTTCCGCAGGAGGTTGTGAGGATGGGACTAACCACATCCAAGCAGCAGAACAGTATGGTGCTGATTTTCAATATTTATACTGAAGATAATAAGCAATATGATGAAACCTTCCTTCAGAACTATGCAAATATTAACCTTATTCCACAGGTCAAAAGAGTAAAAGGAGTTGGGCAGGCGATGGTATTCGGATTGAAAGATTATTCCATGAGAATATGGCTTAATCCTCAGAAAATGTCATCCTACGGACTTGAACCGGCAGATGTTTCTAGAGCCATTGCAGATCACAGTTTAGAATCGGCTCCGGGTAAACTGGGAGAAGAGTCTGATGCTGCTTTAGAATATGTCATCAGATACAAAGGGAAAAAGAGTAAACCGGAACAATACGAAAATATTATTGTTAAAAATACCGGAAGCCAGGTCATCAGGCTAAAAGATGTGGCCCGTGTAGAATTCGGAGCCATTTCCAATACAGGAGACAACCTTTCCAATGGTAAAAATGCAGTTACTGTTGCGATTATGCAAACCACAGGATCTAATGCGAATCAGATTGAAATAGGTGTAAACAAAGCTCTTGATCAATTATCAGAATCATTCCCTCCGGGTATCAGATATACGAAGGTAATGAGTACCAAAGAAAGATTGGATGAAGCTACAGGACAGGTAAAATCAACATTGATAGAAGCTTTTATCCTTGTATTTATCGTGGTATTTATATTCCTGCAGGATTTCAGATCTACGATTATTCCGGCAGTGGCAGTTCCGGTAGCCATTATTGGTACATTCTTCTTCCTTCTGGTCTTAGGATTTACGATTAATGTACTGACGCTTTTCGCTCTTGTACTGGCCATCGGGATTGTAGTGGATGATGCCATTGTAGTGGTGGAAGCTGTCCACAGTAATATGGAAGGAACAGATCTCTCAGGAAGAGAAGCTACCCACAAAGCAATGAGTGAAATTACAGGAGCGGTTATTTCTATTACACTGGTGATGTCGGCAGTATTTATCCCCATCGGATTTATGTCCGGTTCAGCAGGATTATTCTATAAGCAGTTTGCCTATACATTAGCCATAGCGATCATTATTTCAGCAATTAACGCATTGACTTTAACTCCTGCTTTATGTGCTGTGTTTTTAAAAAACAATCATACAGGAGAAGGTAAAAAGCCAAAAGGATTCGGGCAAAGATTTGCAGTAGCATTCAATGCCGGGTTTAATAATATGACCAACCGTTATGCAAAAGGAGTTCGCTTCTTAATAGGACGAAAATGGATTGCAGGGGGATTAATTATAGCGGTTATCGGCGTTGCAGGATGGCTGATGTCAAGCACCCCTAAGAGTTTCGTGCCGATGGAAGATGACGGATTTTTCATGTACACCTTAAGTATGCCTCCGGGAACAGCGTTGACTAAAACGACAGAAGTTTCCAACAAGATCAATGAAATTTTAAAAGGAGTAGACGCAGTACAGGAAAATACTTCTATCACAGGCTACAACCTCCTTAGTAACAGTGCGGGACCCGCTTATGCGATGGGATTTGTTAAGCTGAAACCTAAGAAAGAAAGAGGCGAAGTTCAGGACATTCAGGAAGTGGTAGATATGGCGAATGCAAAATTGGGAGAGATCAAAGAAGGAAGTGTAATGACCTTCAGAATGCCTCCGGTAGAAGGATACGGAATGACGAATGATGCAGAAATCGTGCTTCAGGATCGTATGGGAAGAGACCCTCAGGTTCTTAAAGCGAAAGCAGATGAACTGATTGGCCAGCTGATGCAGGTTCCGGAAGTAGCATTTGCCTACACCATGTTCAGAGCAGATTATCCTCAGATGGAGCTTGAAGTGAATGAAGATAAAGCAAAGCAGCTGGGAGTAAGCATTTCAAACCTGTTGGGGACTGTTCAGACGTATTTCTCAGGAGATCAGTCTCAGAATTTCTCCAGATTCGGGAAGTTCTATAGAGTGAATATTAAAGCGGACGGAGTTTTCAGAATGGATGAGCAGGCGTTCAATGATATTTTCGTAAAGAATGAAAAAGGAGATATGGTTCCGGTAAATACACTGATCACTTTGAAAAAAGTCTACGGCCCGGAATCCGTTCAGCGTTACAACCTGTACAACTCATTAAATATCAACGTGTCTCCAAAGCCTGGAGTAAGTAACGGAGAATTGATGGGCAAACTGGAGCAGACTTTAAGTAAATTACCATCAGACTATAGCTACGAATGGACAGGATTGAGTTTAGAAGAAAAATCCGCAGGAAATCAGACAATTGCCATCTTCGGACTGTGTTTACTTTTTGTATATCTGCTATTGGCAGCTCAATATGAAAGCTATATTCTTCCGTTAGCCGTAATGCTTTCCATCCCGACAGGAATTGTAGGAGCATTCTTAGGAATAAAAGCCATCGGGCTGGATAATAATATCTATGTACAGGTAGGACTCATCATGCTTATCGGCCTTTTGGCTAAAAATGCGATCCTTATTGTAGAATTTGCCATACAAAGACGAAATGCAGGACTTTCCATTCTGGATTCTGCACTGGAAGGAGCGAAGGCGAGATTACGTCCTATTATCATGACATCATTAGCCTTTATTGTCGGAATGATTCCATTGATGATCTCTACCGGAGGAATGGCTTCCGGAAACAAATCCATCAGTACAAGTGCTGCCATGGGAATGCTGAGCGGAGTGGTTTTAGGTGTTTTTGTAATTCCTGTACTCTACATGTTCTTTCAGTATCTGGATGAGAAATTCTCTACCAAAAAGAAGTATCATACAACAGAAAATCAATTGACAAATGAGCATATTTAA	MLKKIIDRPVLATVISLIIVILGIIGLNQLAVTRFPDISPPTITVSGSYPGGNSETVIRSVVTPLEEQINGVEDMEYMKSTASNDGTFSISIIFKQGVNADQAAVNVQNRVQQATPILPQEVVRMGLTTSKQQNSMVLIFNIYTEDNKQYDETFLQNYANINLIPQVKRVKGVGQAMVFGLKDYSMRIWLNPQKMSSYGLEPADVSRAIADHSLESAPGKLGEESDAALEYVIRYKGKKSKPEQYENIIVKNTGSQVIRLKDVARVEFGAISNTGDNLSNGKNAVTVAIMQTTGSNANQIEIGVNKALDQLSESFPPGIRYTKVMSTKERLDEATGQVKSTLIEAFILVFIVVFIFLQDFRSTIIPAVAVPVAIIGTFFFLLVLGFTINVLTLFALVLAIGIVVDDAIVVVEAVHSNMEGTDLSGREATHKAMSEITGAVISITLVMSAVFIPIGFMSGSAGLFYKQFAYTLAIAIIISAINALTLTPALCAVFLKNNHTGEGKKPKGFGQRFAVAFNAGFNNMTNRYAKGVRFLIGRKWIAGGLIIAVIGVAGWLMSSTPKSFVPMEDDGFFMYTLSMPPGTALTKTTEVSNKINEILKGVDAVQENTSITGYNLLSNSAGPAYAMGFVKLKPKKERGEVQDIQEVVDMANAKLGEIKEGSVMTFRMPPVEGYGMTNDAEIVLQDRMGRDPQVLKAKADELIGQLMQVPEVAFAYTMFRADYPQMELEVNEDKAKQLGVSISNLLGTVQTYFSGDQSQNFSRFGKFYRVNIKADGVFRMDEQAFNDIFVKNEKGDMVPVNTLITLKKVYGPESVQRYNLYNSLNINVSPKPGVSNGELMGKLEQTLSKLPSDYSYEWTGLSLEEKSAGNQTIAIFGLCLLFVYLLLAAQYESYILPLAVMLSIPTGIVGAFLGIKAIGLDNNIYVQVGLIMLIGLLAKNAILIVEFAIQRRNAGLSILDSALEGAKARLRPIIMTSLAFIVGMIPLMISTGGMASGNKSISTSAAMGMLSGVVLGVFVIPVLYMFFQYLDEKFSTKKKYHTTENQLTNEHI	PGPT0016195_573	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
BMS003_03049	1416	oprM_3	COG1538	Outer membrane protein OprM	ATGAGCATATTTAATATAAAGAATTTCCTTATTTCAGGCGCAATGGCATCACTGCTGATGTCTTGTGCCGTAGGGAAAAAATATATAAGAACAGGTCTTCAGATTCCCGAAAGCTACAAAGAATCTGTACAGGTAACAGGAGACACTGTAGTCCTCCCGTGGAAAACCTTCTTCAAAGATCCAAAATTGATTGGCTTAATAGACAAGGCCCTTTCAAGAAATAATGAAGTGAATGTCGCTTTGAAAAATATAGAACAGCTGGATCTGATTTATAAACAGGCTAAACTGGGTCTGATGCCAACATTGGATTTAGCTGCCGGAGCCAACAGAAGCTGGGCATCTACCAATACGCTTAACGGATCTTTGAACGAACAGTTTGTAGGAACAAAATACATGGATGATTTCAGTGCTGCACTGAGACTTTCATGGGAAGTAGACATCTGGGGAAAAGCGAAGATGCAGAAAGAATCTGCGGCGGCAGAGTATTTCGGACAAAAAGAAAATGTAAATGCCATCAAAAGCAGAATTATAGTTCAGGTAGCCCAGGCATATTATAACCTGATCAGTCTGGATGAGCAACTGAAAATAGCTGAACAGAATATTGAGTTGAGTAACAATACGCTTAAAATGATGAATCTTCAGTTTACAGCAGGACAAATTAATTCATTGGCCGTTCAGCAATCCGAAGCACAGAAGAAAACAGCCGAGCTGCTGATCCCTTTGGCAAAACAGAATATTTCTGTTCAGGAAAATACATTGAGTATTCTTTGTGGAGAATATCCTGCAAAAATAGAAAGAGAAGGAAATCTGAAAACAATGATTCCGGAAAATAAACTGTCAGAAGGATTACCCGCACAACTGCTGAGCCGAAGACCAGATCTGAAAATGGCAGAGTTTAACGTAATCAGTTTAAATTCCAAAACCGGACTGGCAAAAGCAGCAATGTATCCAAGTATCAGCCTGAGTCCACAGATAGGAGTAAATTCCAATAAATTCAACTCATGGTTTGATATTCCCGGATCCGTTACCAAAGCCATTGCTGCAAATCTGGCCGCCCCGATTTTTCAGAAGAAACAGCTGAAAACAGCTTACGATACCGCTTTGATTGAACAGGAAAAAGCAGCCATCAGTTTTAAGCAATCGGTAATGACTGCTGTGGGGGAAGTTTCCGATGCTATGGCAAAATCTAAAGGTTCTTCAGAAAGACTTCAACTTTTAGAACAGAGAACAGCCATTCTGGACAAAGGAATCAATGATGCACTGAAGCTATATAAAAGTGGTATGGCAACTTATCTTGAAGTCATCACCGCCCAGAATAATAAGCTCCAGAATGATCTGGAAACCATCAACGTTACCCTTGAAAAATTAAATGCTGAGGTAGATCTGTACAGAGCACTTGGCGGAGGAGTACAGTAA	MSIFNIKNFLISGAMASLLMSCAVGKKYIRTGLQIPESYKESVQVTGDTVVLPWKTFFKDPKLIGLIDKALSRNNEVNVALKNIEQLDLIYKQAKLGLMPTLDLAAGANRSWASTNTLNGSLNEQFVGTKYMDDFSAALRLSWEVDIWGKAKMQKESAAAEYFGQKENVNAIKSRIIVQVAQAYYNLISLDEQLKIAEQNIELSNNTLKMMNLQFTAGQINSLAVQQSEAQKKTAELLIPLAKQNISVQENTLSILCGEYPAKIEREGNLKTMIPENKLSEGLPAQLLSRRPDLKMAEFNVISLNSKTGLAKAAMYPSISLSPQIGVNSNKFNSWFDIPGSVTKAIAANLAAPIFQKKQLKTAYDTALIEQEKAAISFKQSVMTAVGEVSDAMAKSKGSSERLQLLEQRTAILDKGINDALKLYKSGMATYLEVITAQNNKLQNDLETINVTLEKLNAEVDLYRALGGGVQ	PGPT0009810_2133	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
BMS003_03050	582			hypothetical protein	ATGAAAAAATTGACAGTACCCCGATTTTTTATAACAATTTTAATGGTTTTGATAGGATTTACCCTATCCTCGTGCAATGACAATGAAGGTCCGGACATTCCGCCTGTAAAAATGGAGAATTTACCGGGAAACTATAAAGGTAAGCTCATTATAGTGCAGGGCAAGAACAAAAGGGAAGGAATAAAAGATTTTAAAGTAAAAAAAGATACCATTTCATTTGCCGAATTTCCAATCGAAGAAATTGTGAAAACAGTTGTAAAGGATCCTGCAAAAGCAGAACAGGCATTGAAATCAATGGAAAAAGTGAAGTATGATCTTAAGTATACAGCCGTAATCAATACAGTAAATAACGTGATAGAGCTGACTTTAGCCCCGAAAACAATGGAGCTTCAGATTCCTGTAGATGGAGTTAATAAAAAAACAGTGGTAGAATTTGTTTCTAAACAGAAAGGATATTATGTAGGTTTGGATCAGTCACTTAGATATGCTCTTACAGCAGAAAAAATTACAGTAGATGGTACATTGGTTACACCTTACGAGGTAATTGACTATAATTTCCCATTCTGTATAAAAACTAATTAA	MKKLTVPRFFITILMVLIGFTLSSCNDNEGPDIPPVKMENLPGNYKGKLIIVQGKNKREGIKDFKVKKDTISFAEFPIEEIVKTVVKDPAKAEQALKSMEKVKYDLKYTAVINTVNNVIELTLAPKTMELQIPVDGVNKKTVVEFVSKQKGYYVGLDQSLRYALTAEKITVDGTLVTPYEVIDYNFPFCIKTN				NA	NA	NA	NA	NA
BMS003_03051	567	rpoE_2		ECF RNA polymerase sigma-E factor	ATGGAAGAAAGTAAAGAACAGATTTTGGTAAAGCGCCTTCTGAAGAAGGAGGAAGCAGCCTGGAAAGAGCTTTTCGGAGCTTATTCCGGAAATCTGTCCTATGTATGCACCCGTTATCTGGCAGAAAAAGAAGATGTGCATGACGTGCTTCAAAACAGTTTTATCAAAATGTTCCGTTCAATAGAATCTTTTGAGTACAGGGGAAGTGGTTCTTTAAAAGCCTGGATGACACGCATCACCGTAAATGAATCTTTGAAGCATATAAAACAGAAAGGAGATTTTAGCTCTGCAGTAGAAGTAGATGACCTTCCGGATGTTCCTGATGAAGAAGAACCGGATTTTGAAGAAATTCCGCGAGATGATATTATGATCATGATCAGGGCTCTTCCTGATGGGTACAGAACAGTTTTTAACCTGTACGTATTTGAGGAAAAAAGCCATAAAGAGATTGCCATGCTGCTGGGGATAGCAGAGAACTCTTCTGCATCCCAGTTTCACAGGGCAAAAGGACTGCTTGTTCAGAAAATAAAAGAATTTAAAATGTCAAAAAAAGCACAATATGAATAA	MEESKEQILVKRLLKKEEAAWKELFGAYSGNLSYVCTRYLAEKEDVHDVLQNSFIKMFRSIESFEYRGSGSLKAWMTRITVNESLKHIKQKGDFSSAVEVDDLPDVPDEEEPDFEEIPRDDIMIMIRALPDGYRTVFNLYVFEEKSHKEIAMLLGIAENSSASQFHRAKGLLVQKIKEFKMSKKAQYE	PGPT0014960_9795	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_03052	1395			hypothetical protein	ATGAATAATGAGTGGCTAAATAACCTGCGAAGCAGAATGGATGACCATGAAGAGGACGTTCCGGAGGGATTGTGGGATGACATTAAAGATGAATTATTTTCCGGAGAAGAGAATAGTACCATTCCGGGTTTTATTCCTGAAGTTCACGAAGGCGGGGCGAAAAAACAAAAGGGAGTACATCCGGGAAGGAAATCTTTATATTATCAGATTGGAGGTATTGCAGCTGCCATTGCACTGATATTTTTGCTCATAAAAATACTGCCACAGGATGATACAGAAAAAATACTGTCTCAAAAACCGGCACGTGAAAAAAATGAAAAGGAAAAAAGCTCTTTGAAATCTATAGAAACTGAAGGTCATTCTGGCAGAGAAACGAAATCAGGGGAAGAAGCTTTTTTAGCGGATAATATATTAAATACAGGATCTCCGGAGAAAATTACAGCACAGAGATATGCCGAGAGTAGAGCAGAAAATCAGGTTGAAAACATCCGGAAAATTCAGGATATTTTCAGGCTTCCTACAGCACCGGAGTCTTTTCAGCAGGAAAGCAGAGTTGCTTATAATGTACCTTCTATTGATGATACAGTAAAAGAAACTATTAAAGAACAGACTTCTGATGAGGTTCTTTTTAAAGATGAAAAACCACAGGAAATCTATGCTGAAACCACAAAAAGAAGCACAAAATCCCGTGATAAAAAATCGTGGATGCTGAGTATGCTGACAGGAAATGTAGCATCCAATTCTGCAGAACAGCAGTTTCCGGGTTATGCTTCTATCACAGGAAAAGCTATGAGCCCTGAACAGGTATGGACTACTTCTGAGTATCATGATGATCCTCTTACAGCTGTATTACTGGCGAATCAGAGCCAGCAGGTAGAAGCGAGGATCCGGCATAAAGTACCGGTTACGTTCGGGTTGTCATTGTATTATAATATTGGGAAAAGATGGGGAATAGGTACAGGGCTGAATTATACCAAGCTTTCTTCTGAACTGCATTCCGGAAGTGATAATAACTATATAAAAGGAGATCAGACGATTCATTATATAGGGCTTCCTGTTCAGGTAAACTATAATGTCATTCAGAAAGGAAGGTTTACAGGATACATTACGGGAGGAGCACTTGTGGAGAAGCCCATATCAGGAAATGTTACTACCACTTATGTTGTCAATGACGAAGTAAAAGAAAGTTCAAAAGAACGTGTGGATCATAAACCCTTTCAGTTTTCCGTCAATACCGCGGCAGGACTTCAGCTGAAGGTTTTTGACAAAATAGGGGTGTACGCAGAGCCGGGAATAGGATATCACTTTAAAGAAGAAAATGCACCCAATACTATCTATAGAGAGAAGCCACTTCATTTTAATATGAAATTCGGGATCAGAGTGCTGCTGGATTGA	MNNEWLNNLRSRMDDHEEDVPEGLWDDIKDELFSGEENSTIPGFIPEVHEGGAKKQKGVHPGRKSLYYQIGGIAAAIALIFLLIKILPQDDTEKILSQKPAREKNEKEKSSLKSIETEGHSGRETKSGEEAFLADNILNTGSPEKITAQRYAESRAENQVENIRKIQDIFRLPTAPESFQQESRVAYNVPSIDDTVKETIKEQTSDEVLFKDEKPQEIYAETTKRSTKSRDKKSWMLSMLTGNVASNSAEQQFPGYASITGKAMSPEQVWTTSEYHDDPLTAVLLANQSQQVEARIRHKVPVTFGLSLYYNIGKRWGIGTGLNYTKLSSELHSGSDNNYIKGDQTIHYIGLPVQVNYNVIQKGRFTGYITGGALVEKPISGNVTTTYVVNDEVKESSKERVDHKPFQFSVNTAAGLQLKVFDKIGVYAEPGIGYHFKEENAPNTIYREKPLHFNMKFGIRVLLD				NA	NA	NA	NA	NA
BMS003_03053	963			hypothetical protein	ATGAAAACAAAACTAATTTTTTTAGTGTTTTTATTATTCGCTGTTTTGAATATAAAAGCACAGTGTACTCCCACCATTACCAGTGCAAGACTCGGGCAGAAATACCCGGGAACCATTTTATTCTGTGATACGGAAGATGAAATTCTTTCCACAACGCAGACTTACTCAGGTTATCAGTGGTATAAACAGGAATGGACCTGGCAGACCCCTAACAATAATCCATGGGTAGCCATTTCGGGAGCAACATCACAACAGCTAACCATTAGTGGCAATGACCAGCTGAATTATTTTAAGGTAGTAGTTTCAGAAGGAGACTGTACAGCAGAGAGTTCTACAGCATTTGCAGACGGTTTTGTATATGGTCTTCCGGCCATGATGACTACATATACACCCGGCACCTATCAGCAAAACGGAGGAACAGTGAATGTGTGTAACGGCGCTTCTGTACAGTTTGATAACATATTTCCTGTCGTATACGGAAAACACATCTGGTTCAGATGTGTGCCGGGCAGTAACCCTCCAGTAGCGGGAGATCCGTGTATTATCCCCGGTGTGGTAGGAGATACTTATGTGGCAACCAGTTCAGGAAGCTATGGATTCTATGCCTGTACAGAATATTGTCCGGATCAGTGTCAGATGTTAGACCCTTTTGCATTTGTAGAGCTGAATTTCGGAGACTGGGAATTCTGCAGCAATTTAGGAACTGGGGAAGTAAAAAGTAAGGGCAACAGCCTGGACATTTATCCTAATCCTACGGCGCAGCATCTTTATATCGGGAAAGAATCAGATAAAGTATATAAAGAAGTGATTATTATAGACATGTCCGGAAAACTTGTAATGAAGAAAACCGATCACAGATACAATCAGGCGATTGATGTAAGCGGTCTGGTACCGGGGAATTATATTATTGTCTCTAAAAGCACAGACGGAGCAGAATATAAAAATAGATTCATAAAAAAATAA	MKTKLIFLVFLLFAVLNIKAQCTPTITSARLGQKYPGTILFCDTEDEILSTTQTYSGYQWYKQEWTWQTPNNNPWVAISGATSQQLTISGNDQLNYFKVVVSEGDCTAESSTAFADGFVYGLPAMMTTYTPGTYQQNGGTVNVCNGASVQFDNIFPVVYGKHIWFRCVPGSNPPVAGDPCIIPGVVGDTYVATSSGSYGFYACTEYCPDQCQMLDPFAFVELNFGDWEFCSNLGTGEVKSKGNSLDIYPNPTAQHLYIGKESDKVYKEVIIIDMSGKLVMKKTDHRYNQAIDVSGLVPGNYIIVSKSTDGAEYKNRFIKK				NA	NA	NA	NA	NA
BMS003_03054	423	comM_1	COG0606	Competence protein ComM	ATGCTGATAAAAATTTATGGAAGTGCCATTTATGGAGTTTCTGCGCAAACCATAACAATTGAAGTAAATGTAGATACCGGTGGAGTAGGGTATCATCTCGTAGGTCTTCCAGATAATGCTATTAAAGAAAGCAGCTATAGAATCTCTGCAGCCCTTAAAAACGTAGGATTTAAGATTCCCGGTAAGAAAATTACCATCAATATGGCTCCTGCAGATCTCAGAAAAGAGGGCTCTGCCTATGATCTTAGCATTGCTATTGGTATTTTAACCGCTTCAGATCAGATATTAGCGGAAGATATTAAAGACTATGTTATTATGGGGGAGCTTTCCCTGGATGGGAGTCTGCAGCCTATCAAAGGAGTTCTGCCTGTCAATTACAAAAGAAAATGCGAAAATATACAAGTTAATGCAAAAAATATATAA	MLIKIYGSAIYGVSAQTITIEVNVDTGGVGYHLVGLPDNAIKESSYRISAALKNVGFKIPGKKITINMAPADLRKEGSAYDLSIAIGILTASDQILAEDIKDYVIMGELSLDGSLQPIKGVLPVNYKRKCENIQVNAKNI				NA	NA	NA	NA	NA
BMS003_03055	687			hypothetical protein	ATGAAAAAAACTATTTTCTTATTACAAGCCCTTTTAATGTATTCATTTACATTTTCACAAGTAGGTATTAATACTCCTACACCTCAAAAAACATTGCATGTTAACGGTGCCTTACAGGTTACTAATGAACTGAATCTCGGCGGAAACGGGTCAACAGCTGGAACAGCTGGAACAACGGGACAGATAATAAGGTCTAATGGGCCAGGGGCTGCTCCCAGTTGGGTTAGCTTAGAGCAGGCCTTCATCCCAAAAACGACAATTGTGGGAACAAAAAATAATATAAGTCCTTCGTCAGGTACATATCCAAATGCGTCCACAAATCCTGTAATATTTAACAGCATACCTAAAATAGATAATAACCATATGACCTACAACTCAACTACAGGTGTAATTACAGTGGTAAAGGCAGGATACTATCAAGTTATCGTCTACATCACATATGATTTGAATACAAATCCCAATGGTGAAACTGCTGGGACGGCAGTGTCCGTCCTAAATAATATTACTACATCAGTACCGATTGCCCGTAATACAACTAATCATAGTGAACGTACTCCCTTTGTATATCACAATTTAGTAGGTACAGCTTTTTTGTCTGTAGGAGACCAGATTGCTGTTCAAGGTCAACATACCAGACAATATAAACTAAGCAGTTCCTCGATATCAGCTGTATATATTTCTGAATAG	MKKTIFLLQALLMYSFTFSQVGINTPTPQKTLHVNGALQVTNELNLGGNGSTAGTAGTTGQIIRSNGPGAAPSWVSLEQAFIPKTTIVGTKNNISPSSGTYPNASTNPVIFNSIPKIDNNHMTYNSTTGVITVVKAGYYQVIVYITYDLNTNPNGETAGTAVSVLNNITTSVPIARNTTNHSERTPFVYHNLVGTAFLSVGDQIAVQGQHTRQYKLSSSSISAVYISE				NA	NA	NA	NA	NA
BMS003_03056	273			hypothetical protein	TTGTATTCTGCAATCTCCTTTGTGGAAAAATTTAACTTTAGTAAAGCACAAAACTTTAAAGTATCCGGATATACTTCTAAAGAGGAAAAAATCGAAAAGGAGGCAAATTATTTTGCTGCAAATATTCTTATGCCTGAACACTTAGTTAGAAAAGAAATAGCAGAATTAAAATGTGATTTACATGATGATGCTACTGTTGCTTCATTAGCTAACAAATTTGAGGTAAGCTCTTCTGCTATGACCTTCAGATTAATAAATTTAGGCCTAATTTAG	MYSAISFVEKFNFSKAQNFKVSGYTSKEEKIEKEANYFAANILMPEHLVRKEIAELKCDLHDDATVASLANKFEVSSSAMTFRLINLGLI				NA	NA	NA	NA	NA
BMS003_03057	564			hypothetical protein	ATGACAGTCGGGTACGCTAGAGTTTCAACATCAGATCAAAACATTTCCAGTCAAATTGATTTGCTAAAAGAAAATGGTTGTGAAAAAATTTTCACTGATATTGCAAGTGGAGTTCGAGAAAACAGAGAAGGTTTGAATGGGATGCTGGCATACTTGCGAAGAGGAGATGTAATAATAGTATATAAAACAGATCGTATTTTTCGATCACTTAAAAACATGATTGATTTAATTGAAAAGTTTAATGAAAAGGGCATTCTTTTTAAAAGTATTACTGAACCAGCGTTTGATACAACTTCGGCAAATGGAAAATTTATTATCCAAATTTTTGGTGCTGTTGCAGAATTTGAAAGAAATCTCATCAGTGAGAGAACCAAAACAGGACTGGAGGGAGCTAGAAGGAGGAAAAAGCTTTTGGGCAGACCAAAAGGATCGAGTCCTTCAAGCATAGAAAAATATCAATATGCAAAGCATCTATATGACAATAAAAATATTTCAATAGATAAAGCGTGTAAGCAAGCTGGTATAAGTAAAGCTACATTTTATAGAATTGATGGAAAATATTGA	MTVGYARVSTSDQNISSQIDLLKENGCEKIFTDIASGVRENREGLNGMLAYLRRGDVIIVYKTDRIFRSLKNMIDLIEKFNEKGILFKSITEPAFDTTSANGKFIIQIFGAVAEFERNLISERTKTGLEGARRRKKLLGRPKGSSPSSIEKYQYAKHLYDNKNISIDKACKQAGISKATFYRIDGKY				NA	NA	NA	NA	NA
BMS003_03058	183			hypothetical protein	ATGTCAAAGAAAAAGCATATCATTGATTTTCCTGAAGGAAAGGGGCGATATTGGTATTTATTCTGGATTGGTAAAGTAAAATATAATAAACAGAGAAAAGTTGATTTTTATAATAAAATGATGCCTGACGAATCCTGGTATAACAATATAGATTATAATAATTGGGTGGTCAAACTGTTCTAG	MSKKKHIIDFPEGKGRYWYLFWIGKVKYNKQRKVDFYNKMMPDESWYNNIDYNNWVVKLF				NA	NA	NA	NA	NA
BMS003_03059	753			hypothetical protein	ATGAAAAAAACAATTGTTTTATTTCTTTGGTTTTCTATAACCAAAGCCCAAAGTGATAATGTAGGCATTGGTACACCACTTCCTGATCCTTCAGCCATTTTAGATGTCAAATCGTCCAATAAAGGGATGCAATTACCCATCATTTCCCTTACTTCCACCACTGACATCACAACAATTCCCAGCCCTAAGACAGGGTTCATCATTTACAATAATGCCAATACGGGTTCAGGAAATACTGCTGTTACAAAGGGGCTCTACGCTTACAATGGAACGATGTGGGAAAAAATGTGGTCTAAACAAGAAGTAAAAACTGAAGTAGAAAAAATTCCATTTATCACTCCCGTATTTGCGGCGAGCAATATGGCGGCTTCAGGAAGTATACCAGCAGGAACTATTTCTAATCTAACATTTAATACATTATATCAAGACTCACCTCCCGGAGCACTTGGTGGACCAACTACCTATACTGGATATACCATTCAACAAGCTGGCGGCTATGTTATCTCATATAATGTTGATCTGAGAAACGTGTCTGGAGATACGTTAGGAGGTGCTATGGTATACGTATTAAAGAACGGAACTGCAGTTTGTACCTATGGCACTTCAAAAGTTTACCAGTTCGGAGGCGTTTCTGGTACATGTACTGTAAATCTTGCGGCTAATGATGTCATTACTTTCAGAGCTCAATCGTCTAATGCGGCTTATCAGATTACAAACCCAAACGTTTCTATTTCTAAAATCTCAAATAATTAA	MKKTIVLFLWFSITKAQSDNVGIGTPLPDPSAILDVKSSNKGMQLPIISLTSTTDITTIPSPKTGFIIYNNANTGSGNTAVTKGLYAYNGTMWEKMWSKQEVKTEVEKIPFITPVFAASNMAASGSIPAGTISNLTFNTLYQDSPPGALGGPTTYTGYTIQQAGGYVISYNVDLRNVSGDTLGGAMVYVLKNGTAVCTYGTSKVYQFGGVSGTCTVNLAANDVITFRAQSSNAAYQITNPNVSISKISNN				NA	NA	NA	NA	NA
BMS003_03060	759			hypothetical protein	ATGAAATTTAAAATAATTATTTTCTTATTCGGGTTCATTATTAGTTTAACAAATGCCCAAGTTGTGATTGGTTCAAGTTCTGCTTCCCAATCTGCCATGTTAAAACTTGATTCCGGTAATAAAGCTTTAAGAATCCCAAGCCTGTCTGTAACGAACAAAACGGATACTACAAATCCTATTTCTAATCCAGCACTTGGAATAATGCTTTATAATACAAATTCTGATATAGGCAATGATATTGCAAAAGGAATAACTTACTGGAGTAGCGATAACAATTATCATACACAAGCGACGCCAACTTCCACTGAAGAAATTATTGTTTCTTCACAAATTCCTCTCCTTATTTTTAGTGCTGCCATCGGTCAGAAGCCAATCATTGTGGCTGGCTCTTCGGCAGGAGGTAACTTCACAAATTTGACTTTAACAACTTCCGAAATATTATTTGATAAATATTCCGGCTGGAATAATTCTACAAATAAATATCTTACTCCTAGTACGGGATTATATATGATAGAATTTGTCACAGAGATGTCCAATTCAGGAAATATTGGAGGTACTACTTCACATACACTGTTAAGAGGAGCATCTAGTATAGCGACTACATACGGTAGAGATAATACTATTAATAACAGAATGTACACCACAACAATATTAACTACCGATTTGACCCTAAACGATTTGCTGACCTTCCAATATATCTATACTGCCAACAATTATAGGATACAAACAGGAACACTTAACATTTATAAATATCAATGA	MKFKIIIFLFGFIISLTNAQVVIGSSSASQSAMLKLDSGNKALRIPSLSVTNKTDTTNPISNPALGIMLYNTNSDIGNDIAKGITYWSSDNNYHTQATPTSTEEIIVSSQIPLLIFSAAIGQKPIIVAGSSAGGNFTNLTLTTSEILFDKYSGWNNSTNKYLTPSTGLYMIEFVTEMSNSGNIGGTTSHTLLRGASSIATTYGRDNTINNRMYTTTILTTDLTLNDLLTFQYIYTANNYRIQTGTLNIYKYQ				NA	NA	NA	NA	NA
BMS003_03061	795			hypothetical protein	ATGAAGACACAAATAACATATACTTTTCTTTTATTTGTACTTTTACAGATAAACGTACACGCCCAAGTCGGTATAGGAACAAGTAATCCTGATCTCAGTACAATTTTAGATTTATATAGTACAAATAAAGGATTACTTATTCCGCGTGTCCAGCTTCTAAATATTAACGACATTACAACAGTTCCGGTAACCATATCTTCAAATTCTCCTGAACAAGGTACTTTGATTTACAATTTATCAGACGCAGGCACTACACCAAATAATGTATTTAAAGACACGTTTTATATTTGGAATGGAACGCAATGGGACAATATTGGGGAAGTTGCTGATGCTAGAACCGAAATCAGCAACAAAAATAAAACACAGATCTTATTTGCTGGAAGTCCGGCTGTTGTCAACGCCAGTTATGTCACTCCTAATTATTCAGCTTGGACAACGATGAATTTTACAACTGAAAAATTAGATGTGGGAAATATCCATGCAACAGGAACCTTTACAATTCCCACAACAGGACTGTATTCATTTTTTGGAAATGTCTCGTTAAGGCTATCGACAACAAATGGCAATAGCAAGGCATTAGGGGCGAGGCTATTTAATGCATCAAATTCTACAGTACTTGCCATTTCGTACTATGGAACCGGTGCAGGAGGTGCTCAGGGAGATATGCCATTATATTGGATGGGGACATTAACTGCAGGGACGCAAATTCAAATACAATATAGAATGAGAGCTGATGTATCAAGCACTCTTTCAACTGCTACAAGTTCAAATATCACTTTGAGAAAACATTTTTAA	MKTQITYTFLLFVLLQINVHAQVGIGTSNPDLSTILDLYSTNKGLLIPRVQLLNINDITTVPVTISSNSPEQGTLIYNLSDAGTTPNNVFKDTFYIWNGTQWDNIGEVADARTEISNKNKTQILFAGSPAVVNASYVTPNYSAWTTMNFTTEKLDVGNIHATGTFTIPTTGLYSFFGNVSLRLSTTNGNSKALGARLFNASNSTVLAISYYGTGAGGAQGDMPLYWMGTLTAGTQIQIQYRMRADVSSTLSTATSSNITLRKHF				NA	NA	NA	NA	NA
BMS003_03062	1740			hypothetical protein	ATGCAAATGGCAAAGAAAAAGCATATAATTGAATTTCCTGCAGGTAGAGGAGGATATTGGTACTTATTTTGGCTTGGTAAGGTAAGATATAATAATAAACAGCGGAAGATTGATTTCTATTTTTATAATAAAATGACTCTTGATGAGACTTTTATTAACAATATCGACTATAATAATTGGGTTGTAAAATCTCTTCCCATTTCATATTTATCGGAGTATGGAATAGGGTCTATATATGATATAATGAACGAAAAGCCATTAACGTTACCTTATGACAATAGTTATCAGATTAATATTGAGGATGTTTTTAGAATGACAAAAAATGAGTTTCCCTTGAATGGTAATAAATTTTTTATTCAAAACTCAGATCAAATAGTTGATAGTAGTTTTAAGTATTTAAAAGTAATTGGGAAAAATAGGTTTAACGATAGAAAATGTCTTCTTATTTCACCGTATACCATTCTACAATATTTATTCTTTTATAATGATAGACTGATTACTAATGCATTTTCTGCGGATCTATTATCAGGGTTTAGGCTAAATGAAATGAAAACCTATAACGGACATGGTATTGATTTAGGGAAAAAAATAGGAGAAATTTATTATGATGCTTCCAAATTAACTAAGCAAGAAGCTATAATTCTAGCCCCTTACTTATTTTTAAAAAATGAAAAAGGAATTAAATTTTTAAGAAGTATATACTCCCATGTTCATGAAGCCTTTTTTAATACTTTAAAAGGAGAAGAAGCAGTATATCTAAATATTTTTTGGGAATTTAAAAATTATAGCCTTAGTGTCTGTGGAAAGGCATTGCATACATTTGATTCTAATGGTAAAAAGGTAGATTACTTGTTGGCTTATAGAATTACCCATTTTACATTATTAGATCAACACCCATATACTGTTGACGAGATTAAATTATTTCCATTTAATGCTCGTGATAGTACTAAGGATAGGGAAAATCATGATCCTATTGATGTAATAAGACCGATGATTCCTTCTACAGAAGGATTATCATTGAATTTAACTAGGGATACTGTAAATAATGGTCCTGCAGGAGAATTTATTAATAATGAAGAGTTCCGGAATCCCTTTAATATTCCTGTGACGATTGAAAAGAGAAATAAGCAAAATGAAGCGTATAATGTTAAACACAACAGTGACGATAATGAAAAAGACGATGTAACAAGAGAAATAGAAAATCTGGCAGAATTTGCTAATTCAGTTCGAGAAAATATTAAGAATTTAATCATTACTATTGGTAATTTTGAATATTTTAAAAAGGTGATTATAATTCTTAAAGAAAAATATTTAAATGATTCTAATTTTGGAGTTAAAGAGTTTCAACAAAATGAACTAATGACACCATTCCAATTTGTAGAAATAAGCTATTTAAATAGATTTATGTATTTTGTTGAATTTGGCAATGGTATAATTGGAGTCTTTAACAAAGAAACTTACGCAAAAATAACAACAGAAGATTTATCTTTACTCAGCTCAGAATTTAAAGATTTCGAAAATGAAATAAAAAACACATCAAAAGTACTATGGTCATATATTAGGAATCATTACTCAAGAGATTATATTGCCAAAGGAATAGTAATTCAACTTGGAGCTAAACATGACCGTCCAAGGAAAAACGATGGAAGTATTACAAGTAAGGAAGAGTTGATTACGAAAGCAGCTTCGAGAACGGCTAAAAAACTTTATGAGACGCGGATAATTAATAATATTCTCTAA	MQMAKKKHIIEFPAGRGGYWYLFWLGKVRYNNKQRKIDFYFYNKMTLDETFINNIDYNNWVVKSLPISYLSEYGIGSIYDIMNEKPLTLPYDNSYQINIEDVFRMTKNEFPLNGNKFFIQNSDQIVDSSFKYLKVIGKNRFNDRKCLLISPYTILQYLFFYNDRLITNAFSADLLSGFRLNEMKTYNGHGIDLGKKIGEIYYDASKLTKQEAIILAPYLFLKNEKGIKFLRSIYSHVHEAFFNTLKGEEAVYLNIFWEFKNYSLSVCGKALHTFDSNGKKVDYLLAYRITHFTLLDQHPYTVDEIKLFPFNARDSTKDRENHDPIDVIRPMIPSTEGLSLNLTRDTVNNGPAGEFINNEEFRNPFNIPVTIEKRNKQNEAYNVKHNSDDNEKDDVTREIENLAEFANSVRENIKNLIITIGNFEYFKKVIIILKEKYLNDSNFGVKEFQQNELMTPFQFVEISYLNRFMYFVEFGNGIIGVFNKETYAKITTEDLSLLSSEFKDFENEIKNTSKVLWSYIRNHYSRDYIAKGIVIQLGAKHDRPRKNDGSITSKEELITKAASRTAKKLYETRIINNIL				NA	NA	NA	NA	NA
BMS003_03063	981			hypothetical protein	ATGAGTTTTTTAATTATTAATTCCAAAGTATTACCAGGCTATATTCCTCCTGAAAAAGAGGAACTGCTATCTAGCTGGATATTTAGGCTATCTCAATCTCATAAAATAAAACCATTTTCATTTACAAAATTTTATTTTAAGGAAACAGCATTTTGGAATAGAGACGTAGATAAATTTATTTATGGAACAGTCATTGAGCAGTTAACACAAATAACTCCTCTGTCAAAAAATGATATTTTGAATTTACATCTTATTTCGTATAAAGATATTGTTTTTAACACTCCGCTAGTAGCATCATATACACGTGGAATCACCAATCTTGGTATATATCATAGAAAAAGGAAAAATAATGGATTATTAGCCTGTCCAAAATGCTTAAGAAAAAAATACTACTATAAAAAAAGCTGGCGTTTACTCACATCCTTAATCTGTACAGAGTGTAAGTGTCACCTGATTGATCATTGCCCCAACTGCAAGGCTCCAATTATATTTCAAAGACTCGATATAGGAGATAAAAGCAATCATAGAAATATTCCTATTTATTTATGCTGGCTTTGTAATTTTGATTTAAGAACAGAGTTCGAAGTAGTAGCTGAAAATTCTCTAATTTATGATTATCAAAAGTATATAAATGAATGTATAACCAATGGATTCTGTATACATACTCAATACTCATTTTTATACATTCAAATACTACTAAATATTTTAGGAAAATCTAAAACCAATTCATCCAAATGGATAAGGATCAGAAATGCTTTCATATCAGAGTTTAATTTAATTGATGAAGAATTTTTTTGCAAAACCTTAGATACAATTCAGTTTCGAAGAAAGATAATACCACTAATATATTTTTTATTAAATGACATTCCTGAAAGATTTGTCCCTTTTTGCAAGAAATATTCTTTAAGATATTCCGATTTCGCTAAAGATAATGAGAGCCTCCCTTTTTGGTTTTACAAAAGCTTTAGAGAATATTATTAA	MSFLIINSKVLPGYIPPEKEELLSSWIFRLSQSHKIKPFSFTKFYFKETAFWNRDVDKFIYGTVIEQLTQITPLSKNDILNLHLISYKDIVFNTPLVASYTRGITNLGIYHRKRKNNGLLACPKCLRKKYYYKKSWRLLTSLICTECKCHLIDHCPNCKAPIIFQRLDIGDKSNHRNIPIYLCWLCNFDLRTEFEVVAENSLIYDYQKYINECITNGFCIHTQYSFLYIQILLNILGKSKTNSSKWIRIRNAFISEFNLIDEEFFCKTLDTIQFRRKIIPLIYFLLNDIPERFVPFCKKYSLRYSDFAKDNESLPFWFYKSFREYY				NA	NA	NA	NA	NA
BMS003_03064	885			hypothetical protein	ATGACGCATTTACACAATAAGACTAAAGAACTGGTCAATACATTGACTGATGATGAACGTATAAAATCTGTTAAAAAACCAAAATGGATCGGCTATACTCAGGCAAAAAAAATTCATAAAAAGCTCGAAGATTTAAGAGATTATCCAACCAATCTAAGAATGCCAAACCTTTTATTAATTGGAGATTCCAACAATGGTAAAACAGCTCTTCTTAATAAATTTACCAGCACTAACCCATCATTCATCATAGAAGAGACACAAGAACTTGTATTACCCGCTTTAATGGTTCAAGCCCCACCAGAACCAGATGAAAAGAGATTTTATAATATCATACTTGAAAATTTATATGCCCCATATAAATCTAGTGAAAAAATAGAAATGCGTCAACAAAGGACTATTCATTTACTAAAGAAATTAAATGTTAAAATTTTAATCATAGATGAAATCCACCATTTATTAGCTGGTACAATTTCAAAACAAAGGCTGTTTTTGAATGTTCTTAAATTTATTTCTAATGAGTTACAAATATCTTTAATATGTTCAGGAACTCGAGAAGCATTCAACGCAATTCAGACTGACCCGCAATTAGCCAATAGATTTGAGCCAAAGGTTCTTCCTAAATGGAATAATGATGAAGAATACTTAAGGCTGCTTGCTAGTTTTGAGAGAATTCTTCCGTTGAAGAACCCTTCGCATTTAATTGAAAACTCTTTATGTAGTTTAATTCTTTCAAAAAGTGAAGGTTTATTGGGAGAAATTTCTAAAATTTTAGAGCTTTCTACGATTCTAGCTATTGAAACCGGAATTGAAAAAATAAATAAAAATATACTTGAAAATATTGATTATACACCTCCTAGTGAAAGGAAGAAAATGATATTCAGATGA	MTHLHNKTKELVNTLTDDERIKSVKKPKWIGYTQAKKIHKKLEDLRDYPTNLRMPNLLLIGDSNNGKTALLNKFTSTNPSFIIEETQELVLPALMVQAPPEPDEKRFYNIILENLYAPYKSSEKIEMRQQRTIHLLKKLNVKILIIDEIHHLLAGTISKQRLFLNVLKFISNELQISLICSGTREAFNAIQTDPQLANRFEPKVLPKWNNDEEYLRLLASFERILPLKNPSHLIENSLCSLILSKSEGLLGEISKILELSTILAIETGIEKINKNILENIDYTPPSERKKMIFR				NA	NA	NA	NA	NA
BMS003_03065	1860			hypothetical protein	ATGTCTCGATTAAATTTTGCTCCTGGAGTTAAAGTTACATATAAAGGTAATCCAGCAATTATCATAAAAATTGTTGATATTAATCTTATTAGCCTTCAGATGTTAACATCAAATATAATTTATACGGTTGAAAGAAAAGAAATAACTCCATTGATTAAAGAGGAGGAAGAAAATCTAAAACCCTTAGAAGTATTAACAGATAACGAATGGAAAATTGCAAGCTTTAGATACGATATTGTAAAGAATATTGTAGATAATAATTTACGAGCTTCTCAAATAAAAGAAATCGCAAAAAAAAATAATGTTCATTTTTCTACTATCTATAGATGGATTAATATTTTCAACAAAAATGGATCAGTTACTGCACTAGCAGGAAAGAAAAAAACAGGAGGAAAAAACAAAAGCCGACTCAATAAAAATATTGATAAAATCATTAATGATTCTATAACTGAGATTTATTTAACTCCATCAAAAAAATCTATTTCAAAAGTTATTCGTTCAATAAAAATGAAATGTAAAGAGTTAGACATACCCTCTCCACATGAAAATACAGTTCGAAACAGAATAAAAAGTTTATCCGAAGAAGAAGTTTTAAAGGCTAGATATGGAAATAAAAGCTCTAGAGATAAATTTGAACCTATTAAAGGAAATTTCCCAGGAGCAATTTTTCCATTATCTGTAGTTCAAATAGATCACACCTGCTTAGATATTTTTTTAGTAGATGAATTATATCGCAAACCATTTATGAGACCCTACTTAACTCTCGCAATTGATGTATATAGTAGAATGGTAGTTGGTTTTCATCTATCCTTTGACCCACCAGGTGAAATGGGTACTGGACTTTGTATTGCAAATGCTATATTAAGCAAAGATATATTACTTGAAAAACATGGGATAAAAGGTGATTGGCCATGTTGGGGAACAATGGCAACTATTCACCTGGATAATGCAAAAGAATTTAGAGGGAGTATGCTTAAACTTGCATGTTATAACTACGGAATTAATATTGAACATAGACCAGTAGCAACACCTCATTGGGGAGGAAATATTGAAAGATTATTTGGGACTATTTCGAAAGAAGTTCATAATCTCTCTGGTTCTACTTTTTCCAAAGTTTCGGACAGAGAAAATTATGATTCTCAGGCTAAAGCTTCCCTTACTATTAATGAACTTGAAAAGTGGTTAATTACATATATTGTCAATGTATATCACAAAAAAATACATTCTAGTATTAACATGTCACCACTTGAAAAATTTAAAAAGGGAATATTCGGTGAAAATGGAACTTTGGGAACTGGCCTACCACCAAAGCTTATCAATGAGAGAAGAGTAAGACTAGATTTTATGCCCTTTTTCGAAAGAACAATACAAGAATATGGAGTTCTAATTGATCATATTACTTATTACAGTGATATACTTAGGAAGTACATTCATTCAAGAGAAGATTTAACAAAATACAGTAAAAAACAAAAATTTATCTTTAAACGAGATCCTCGAGACATTAGTATTATATATTTCTACGATCCAAATGTTAATGATTATTTTGAAATACCTTATCGTGATACATCGAAACCTCCTATATCAATTTGGGAATTTAATGAAGTTGTAACAAAATTATCAAAACAAAATATCACAATAAATGAAAATTCCATCTTTGAGGCATATAAAGAAATGGAAAATATCGAACTTGCTGCAATTCGTGAAACTAAAAAATTAAAAAGATTTTCACGGCTTTCGGACAAAAGAAATGAAAACCTTCACAATCCACTAAGGTTAATTGAGGATAATGACATAGAAAAAGTTACCAATCTAACAATCATACCCTTTGAAGAAATTGACGATGACGCATTTACACAATAA	MSRLNFAPGVKVTYKGNPAIIIKIVDINLISLQMLTSNIIYTVERKEITPLIKEEEENLKPLEVLTDNEWKIASFRYDIVKNIVDNNLRASQIKEIAKKNNVHFSTIYRWINIFNKNGSVTALAGKKKTGGKNKSRLNKNIDKIINDSITEIYLTPSKKSISKVIRSIKMKCKELDIPSPHENTVRNRIKSLSEEEVLKARYGNKSSRDKFEPIKGNFPGAIFPLSVVQIDHTCLDIFLVDELYRKPFMRPYLTLAIDVYSRMVVGFHLSFDPPGEMGTGLCIANAILSKDILLEKHGIKGDWPCWGTMATIHLDNAKEFRGSMLKLACYNYGINIEHRPVATPHWGGNIERLFGTISKEVHNLSGSTFSKVSDRENYDSQAKASLTINELEKWLITYIVNVYHKKIHSSINMSPLEKFKKGIFGENGTLGTGLPPKLINERRVRLDFMPFFERTIQEYGVLIDHITYYSDILRKYIHSREDLTKYSKKQKFIFKRDPRDISIIYFYDPNVNDYFEIPYRDTSKPPISIWEFNEVVTKLSKQNITINENSIFEAYKEMENIELAAIRETKKLKRFSRLSDKRNENLHNPLRLIEDNDIEKVTNLTIIPFEEIDDDAFTQ				NA	NA	NA	NA	NA
BMS003_03066	780			hypothetical protein	ATGAAATTACAGGAAGAAACTACAAAACAATCTGAGAAACAATCTCAAAATACCATAAATTCAAGTCAAAATATAACAAAAGAGAATGCGAATTTTGTTAAACGAGTTCGTGAAATTAGTGCAAAAAGTTATTCACTTTCAGGAATTATTAATATCGACCAACTAAAAAATCCAATACAATTTGAATCATCTCTTGAACGAGACTATATTTTCCTATTAGAATACGATCAAAATGTAAAACAATACTTAGAACAACCTTTGAAAATTACATATTTTGATGATAACAAAAAACAAAGAACCTATATTCCTGATTTTATTGTTGAACATTTTGATGATAGTCCAACTGAACTAATAGAAATTAAGTACACTAGCACATTGAATGCTAAGAAAGACGAACTAGAACAAAAATTCAAAGCTGCAAAAGAGTATTGTCAAAGAAATAATTTAATTTTCAAAGTAGCTGATGAAATTTATATTAGAGAACATCGAGAAATAGAATTATACAACTATAAATTTTTACATAGATATAAGAACTATTTTTATAATATCAACAAGGACAGAACAGCGTTTCCTATCTTAAATGAAAACTTAGTATTACTTAGAACAAAGCTTAAAGAACTAAAAAAATGTACAATTTCTGATTTAATTCTCCAATCCGCAAAAGATTCTGACAAACAAGCTGAATTAATTTTCTTAATTTGGTATATGGTATCTAATAATTTTATTAAGACAGACCTAACCAAAAAGTTAACTTTAAATTCGATTATATGTCTCGATTAA	MKLQEETTKQSEKQSQNTINSSQNITKENANFVKRVREISAKSYSLSGIINIDQLKNPIQFESSLERDYIFLLEYDQNVKQYLEQPLKITYFDDNKKQRTYIPDFIVEHFDDSPTELIEIKYTSTLNAKKDELEQKFKAAKEYCQRNNLIFKVADEIYIREHREIELYNYKFLHRYKNYFYNINKDRTAFPILNENLVLLRTKLKELKKCTISDLILQSAKDSDKQAELIFLIWYMVSNNFIKTDLTKKLTLNSIICLD				NA	NA	NA	NA	NA
BMS003_03067	645	comM_2	COG0606	Competence protein ComM	TTGGCTCACAACGGCGTTTTATTTCTTGACGAAATGCCCGAATTTAAACGGACAGTACTGGAAGTGATGAGACAGCCTTTAGAAGACCGGGAAGTCACCATTTCAAGAGCTCGTTTTACTGTAAACTATCCCGCAAGCTTTATGTTAGTTGCCTCCATGAACCCCAGCCCCAGCGGTTTTTTTCCAGATGATCCCAATAATACCTCATCTGTTTACGAAATGCAGCGGTATATGAATAAACTGTCGGGACCGCTTTTAGATAGAATTGATATTCATATTGAAGTTCAGAAAGTGGAATTTGAGCAGCTTTCCGAAAAAAGAAAAGGCGAAAAAAGTAAAGATATCAGAGATCGCGTAATGAAAGCAAGGGATATTCAGAATAAAAGATATCAGAATTTAAATATCAGTAGCAATGCCCAGATAGGTCCTAAAGAAATTGAAGCTTTCTGCCAATTGGATGAAGCTTCCTTCAGTCTCATAAAGTCAGCAATGGAAAAACTCAATCTTTCAGCAAGAGCTTACGACAGAATTCTGAAAGTGGCCAGAACAATAGCGGATCTTGAAGAATCCGAAAATATTTTGTCTCATCATATTTCCGAAGCAATACAGTATAGAAGCTTGGATCGGGAATTCTGGAATGCTTGA	MAHNGVLFLDEMPEFKRTVLEVMRQPLEDREVTISRARFTVNYPASFMLVASMNPSPSGFFPDDPNNTSSVYEMQRYMNKLSGPLLDRIDIHIEVQKVEFEQLSEKRKGEKSKDIRDRVMKARDIQNKRYQNLNISSNAQIGPKEIEAFCQLDEASFSLIKSAMEKLNLSARAYDRILKVARTIADLEESENILSHHISEAIQYRSLDREFWNA				NA	NA	NA	NA	NA
BMS003_03068	3108	lgrD_1		Linear gramicidin synthase subunit D	ATGTCAAATCCAATTCCCTCGTTAGAACCTCTATCATTGGGTTCTGCTGTATTACTGTCATCTGAAGACAGAGAAAAATTACTCAACGGATTCAATAAAACCGGTTGGGATTATCATCATGAAGAAACACTGGAATCTCTTTTCCGGAAACAGGCCGTTCTTTATCCTCATAAGACGGCTGCTGTTTATCAGGATCAGAAGATTACTTATGAAGAACTGGATCAAAGAAGCAATCAGGTTGCCAGCCTATTATTGAGCCTGGGCATTAAAGAAGGAAAATATGTTCCCATCTGGCTGGACCGTTCTTTAGAGTGGGTTGTTGCTGTGCTTGGTGTTATCAAAACAGGAGCGGCATATGTTCCCATTGATCCTGCTTATCCCGCTAAAAGAGTAGAATATATCCTTTCAGATACCTCTGCTGATATTATCATTACGAATCACATTCTTAAAAACCATCTGTCAGAAGCAGAAAAGACCAAAGCATTCGATCTTAGCAGTATGGAGAACCTTAATCATTTACCATCAGAATATCCTGAAACTCCTGTTCATCAGAAAAGCTTGGCATATACCATTTATACTTCTGGCTCAACGGGAAAGCCAAAAGGCGTAATGGTAAGCCATCAGGCTATACAACACCTGGTGACATGGCATAACCATCATTTTCATGTGGATCATAGTTCAAAATTAACCCTCGTTGCAGGAATAGCATTTGATATCTCTGTCTGGGAAACCTGGTCAGCACTCACTTCCGGAGCCACAATTTTTATTGCCAATAACGAAGACAGAACAGATGCTGTCGCCCTGGTTGATTTTTATAGAAGGAATCAGATTACGCACGGTTTTGTACCCTCTGTTCTGGCGCCGTCCGTTGTTAATGATTCCCGAAATTACAATGATCTGAAACTAAAATATCTCTTTACAGGAGGTGAAAAACTAAAACCAGTACTTACTTCTGAATTAACCTATGAGCTGATAGATTATTACGGACCCACAGAATGTACAGTATACGCTACTTTTAAAAAAGTGAAAGACAGCAACGGAAAATATGTCTCCTCAATAGGCAGACCCATTGCTAATGCAAAAGCTTATATTTTAAGTGAAAATATGGAGCTATTGCCTGTGGGAGCGGTAGGGGAGTTATGTATCGGAGGAAGCATTTTAGCCAATGGATACCTTAATAATGAAGAACTGACGAATACTAAATTTACCGCCAATCCATTCAATGAAAAAGAAAAACTGTACCGCACCGGAGATCTTGCCAAATGGAAGCCGGATGGGGAGATTGAATTTTTAGGAAGGATAGATAACCAGATAAAAATTCGTGGATTTCGGGTAGAATTGGGAGAAATTGAACGAACGTTGATTCAGCAGGAAGATATTAAAGAAGCACTTGTTATTGGCAAAGAAACGGAAGGAAGTACCAGATATCTTATTGCTTTTATCGTATTAAAACCAGGAGCAGAAAAAGACACTTCATCAATCCGGAATGCCCTGAAAGGTGAGCTTCCGGGCTATATGATCCCTGCCCAGATTATTTTTATAGAGAGAATTCCTTTAACGGCAAATGGAAAAACAGACACTCAGGCTTTGAAAGATCTGGCAGATCAGGAGGCTAAAGACCTGATCTCACACGAGCCGCCAACCAACGAAACAGAAAGAATTGTGGTAGACGTCTGGTCTTCTGCATTAGAACGGCCTGTCATTAATATTACAGATAATTTTTTTGATATCGGAGGAAACTCCCTTTTAGTGGCAACTGTAGCCGTGGCTTTGCAGAGAAAGCTGGATGTGAAAGTTTATCTGCGGGATATTTATCAGTATCCGGTACTGCAGCAGCTGTCGGAAGTTCTTATCGCGAGATCCAGAGAAACCAGGGAAGCAATTCCTGCAGAAGATGTAGAACCTTATGTTGAGCTGCAGAAAGATGTTTATCTTGCTCCCGGAACTGTTTTTGCAGGTGGATTTGATCCTAAACAGGTAGAAAATCCGTCTTCGATTTTTTTAACAGGCGTTACAGGGTTTGTAGGAATTCACCTGCTGCAGGAGCTTCTGGATACTACAAATGCTGAGATCTATTGCCTTGTAAGAGCTCAGGACGAGTTTCATGCAATGGAAAAAATTGACAGATGCTTTAAACAATACCATATTCCTCAAAATACAGCGCAGAAACCGAGAATTATTCCTGTAATAGGAGATCTGGCTTTGCCATCTTTAGGATTATCAGAAGAAACATTCACCAAACTGGCAAAACAAACTGATCTGATTTACCACTCAGGAAGCTCAGTTAATTTCATCGAGCCCTATTCTTATATGAAAGCCCCGAATGTAGAAGGATTAAGAGAAATTATAAAGTTGGCAGGAGCAGAAAGAACCAAATGTCTCGCTTTGTTGTCAACCATTTCTGTATATAGTTGGGGACACCTGTTTACCGGGAAAACAGTAATGCTGGAATCCGATGATATTGAACAAAATCTGATGTCTGTAAGCAAAGATATTGGCTATGTAAGAAGTAAGTGGGTGATGGAAGCTGTTGCCGATTTAGCAGCAAAAGAAGGGCTGCCACTGATTACTTATCGCCTTGGATATGCAATGTGCCACAGCGAAACAGGAGCAAGTGCCTCTTATCAGTGGTGGTCCGGATTGGTGAAAAACTGTATTGAATTCAAATCTTATCCTGCGCTCACGGAGCTTAGAGAAGGTCTTATCACCGTAGATTATATGACCAGAGCCATGGCGTATATCACAAAAAATAAAGGGGCAATAGGGAAAAAATTCAACCTCATTGCCCGTCCGGAAACCAATCTTACTTTAGAAGACTTCTTCGGACTTATGAAGAAATATTATCCTTTCACCCTTCAGGATCTTCCTTATAAAGAATGGAGAAAGCAATGGGAAGATAACAGTAAGAACCGTTTGTATCCGTTGACAAGCCTTTTCAGAGACAATATGCATGAAGGCTTATCCACAGTAGAGCTTTACCAGAATACCTATATATGGGATTGTTCTAATGTTATTAAATATCTGGAAGGTTCAGGTATTCAGGAACCGGTATTTGATAAAAAAATATTGGATTCCTATTTAAAATATCTGGGAATTCCGGTTGAATAG	MSNPIPSLEPLSLGSAVLLSSEDREKLLNGFNKTGWDYHHEETLESLFRKQAVLYPHKTAAVYQDQKITYEELDQRSNQVASLLLSLGIKEGKYVPIWLDRSLEWVVAVLGVIKTGAAYVPIDPAYPAKRVEYILSDTSADIIITNHILKNHLSEAEKTKAFDLSSMENLNHLPSEYPETPVHQKSLAYTIYTSGSTGKPKGVMVSHQAIQHLVTWHNHHFHVDHSSKLTLVAGIAFDISVWETWSALTSGATIFIANNEDRTDAVALVDFYRRNQITHGFVPSVLAPSVVNDSRNYNDLKLKYLFTGGEKLKPVLTSELTYELIDYYGPTECTVYATFKKVKDSNGKYVSSIGRPIANAKAYILSENMELLPVGAVGELCIGGSILANGYLNNEELTNTKFTANPFNEKEKLYRTGDLAKWKPDGEIEFLGRIDNQIKIRGFRVELGEIERTLIQQEDIKEALVIGKETEGSTRYLIAFIVLKPGAEKDTSSIRNALKGELPGYMIPAQIIFIERIPLTANGKTDTQALKDLADQEAKDLISHEPPTNETERIVVDVWSSALERPVINITDNFFDIGGNSLLVATVAVALQRKLDVKVYLRDIYQYPVLQQLSEVLIARSRETREAIPAEDVEPYVELQKDVYLAPGTVFAGGFDPKQVENPSSIFLTGVTGFVGIHLLQELLDTTNAEIYCLVRAQDEFHAMEKIDRCFKQYHIPQNTAQKPRIIPVIGDLALPSLGLSEETFTKLAKQTDLIYHSGSSVNFIEPYSYMKAPNVEGLREIIKLAGAERTKCLALLSTISVYSWGHLFTGKTVMLESDDIEQNLMSVSKDIGYVRSKWVMEAVADLAAKEGLPLITYRLGYAMCHSETGASASYQWWSGLVKNCIEFKSYPALTELREGLITVDYMTRAMAYITKNKGAIGKKFNLIARPETNLTLEDFFGLMKKYYPFTLQDLPYKEWRKQWEDNSKNRLYPLTSLFRDNMHEGLSTVELYQNTYIWDCSNVIKYLEGSGIQEPVFDKKILDSYLKYLGIPVE				NA	NA	NA	NA	NA
BMS003_03069	291			hypothetical protein	ATGAATAGCGTTATTGTGTTGTCTAAAGATTTTGCCGCTAATGAAAGTGCGGTGCTGGATCTTAAATCCTGGGGATTTATAAACCCGTTGAGAGCTCTTACATTTCAAAATAAAACAGGACAGTCTGCAAAGTTTCTTTGGCAGGGAGATATTCTCTATAATAAAGAAAAGACCGGATATTTTAAAGAAATAAACAATGATCTTGGAGTAAAGGTAAACCATTATGAAGGTTTTATAACCGTTACCAATGGAGGCGGAGAGCAATATTTAGAAGGAGAGCTGAAACCATGA	MNSVIVLSKDFAANESAVLDLKSWGFINPLRALTFQNKTGQSAKFLWQGDILYNKEKTGYFKEINNDLGVKVNHYEGFITVTNGGGEQYLEGELKP				NA	NA	NA	NA	NA
BMS003_03070	1227			hypothetical protein	ATGAACAAGTTTATTTTCAGAACATCAGTTTTAGCGGCAGCTACTTTAGCTGCATTTACTCTTTCTTCATGCAGTGATTCGGATGACGACATGATGATGGATATTTCTTTTCAAAGAACCATTACTTTTGAAAATGTGGTAACCCCTAAAGATTTTGTAGAAAGCGGAAGCTTTCAGGGAACAGGAACTCCTCCTATTATTTTGCCAGGGCAGTCTGTTTCTATAAAATTCAGTGCAGGAAAAACTCAGGCATTAATGTTTGCCACGATGTACGGAACTTCAAAAGACTGGTTTTTTGCCTCTCAACAGCCGGGTATCAAATTGTTTGATACGAATGGAAATGCCATTACCGGAGATGTTTCTTCAAGCGTAAGATTATGGGATAACGGAAGTAAAGATGACACTACAGGACAGGTAGAAAGCAAGCCCATTATGCAGGTTCCTAATGTAAATGCTTCACAGCTTATGAAACTTAATCTGGCTTACAATGATGTAATGTCGGAATTCACTCTCACCATTACCAATACATCCGGCGGAACCGCTAACGAAACTCCTTTTTCTCCCGGAGTATGGGCAGTTTCCAATTATGATGGTTCTCAGCTGCTGAACAGTGCTCCATTTTTCACTCCCAATGCGTTATCAAATCCGGAAATTACGGATATTGCCCAAATGGGGAATATCAGTAAAATGATGACTAAGCTGAATGCCAATACAGGAATTATGACAGGACTTTCGCCTGCATTGGTTGTAGTTTATCGTGGTGATAAAAACCCAATTTATGAACTGGGCAAACCAGACAGTGGTATGGGGCTGAAAGATATTGCACAGTTTGGAAATGTAACCAAACTTCAAAACAGCCTGAAATCTCTCTCCGGTATAAAAGGGGTATATATTGCGGGAAATGCTCCTGTAGCACCGGGAAGCAAAGTAACAACCAGTTTTAACGCTGAACCAGGGGATAAAATTGCCTATGCAACAATGTTTGGATTTTCCAATGACTGGTTCTATGCCAATGAACAGAGCATTGATGCCAATACTAAGGGAGACCTTAGCTCACAAACTTCATTATTTGATTCCGGAACCGGTATTGATCAATATCCGGGAGCTGGGAATCATCAGGCTTTGTTTGGCGGAACTCCGCAAAGTGAAAATAAGGTCATATCGAAAGTAGGAACCCAGTATCCTGTTCCTTCTGTTCAGAATGTGATTAAAGTAACGGTTAATTAA	MNKFIFRTSVLAAATLAAFTLSSCSDSDDDMMMDISFQRTITFENVVTPKDFVESGSFQGTGTPPIILPGQSVSIKFSAGKTQALMFATMYGTSKDWFFASQQPGIKLFDTNGNAITGDVSSSVRLWDNGSKDDTTGQVESKPIMQVPNVNASQLMKLNLAYNDVMSEFTLTITNTSGGTANETPFSPGVWAVSNYDGSQLLNSAPFFTPNALSNPEITDIAQMGNISKMMTKLNANTGIMTGLSPALVVVYRGDKNPIYELGKPDSGMGLKDIAQFGNVTKLQNSLKSLSGIKGVYIAGNAPVAPGSKVTTSFNAEPGDKIAYATMFGFSNDWFYANEQSIDANTKGDLSSQTSLFDSGTGIDQYPGAGNHQALFGGTPQSENKVISKVGTQYPVPSVQNVIKVTVN				NA	NA	NA	NA	NA
BMS003_03071	1629			hypothetical protein	ATGTCTAATAATCTATTGAAACTTTTGTTTTTGCTGATCACAGCAGTCCCCATATTCGCACAGAAAAAAAACAGCTTTGACCTGCTCTGTGAAAAAACTTCATCCGTTACTGCCTATAAAAATTTGCCAAAGGCGATCAAAACAGCAGACTCTCTTTATATGAAAGCACAGCAGCCTTCTGAGAAAGTAAAGTGTCTTATCCTTTCTTCGGAGCTTTATCATCATGCCGGTGAGCTCAAAAAAGCAATCTGCTATAGCGAGAATGCCTACTCAGTAATCCATCAGACTCATGACCCGGAATGGATAGCTGTAGTAGCCAGATTACTTGCCAGGCAATATAGACAGGTAGGGTTATACGAAAGATCCAAAAAATATATTATAAAAGGTTTGGAGGCTTCCGGAAGAATATCTGATTTTCAAAAAAGTAATGAAGCCGCCGGGCTGCTGAATCAGGAAATGGCATTCCATGAAATGGAGATAGGTAATTACCTCAGTGCAATAGGATATATTGAGTCTTCCCTGAAATTTTTTGAAAAAATAAATACCAGCCACGAAAATAAAATGGATGCTGCTTCCTATCAGGTATTGGGAGATGTTTATTTTAAACTTAATGATTATACCGTTTCTGAAAATTATTATAAGAAAGCCGAAGGATTGCTGAAAGGCGGAAGCTGCACACTCGGACTGGTCTACAACGGGCTGGGAGGCATCCGTCTGAAACAGAAAAACTGGAAAGATGCTGAAATATATCTTAAAAAAGCAGAAAAAATAGCCGACACATCCAGAAGTCTTAGGTTGAAGAAGGCAGTATATTCTAACATTAATGATTACTATGAAGGAAAAGGTGATAGCTATAAAGCTTCTTTATATGCGGTAAAGTACATCCGTACTTACGACAGTATTATAGCCCGCAATCAAAGTTTTGCTATGAAGAGCTTTGATAGCCCGAGAGGAAAGGCAGATAAAAAAGAGGGACACATGAATCTGATAAAAAATACCACTATTGTTATCCTGTTTACATCATTAGTGGGATTATTGGTATTCTTTAGATTCAAACAGAAAAAACAGCGTTCCCGGTTTAGAAATATCATAAGAGCTCAGCTAAGCATGATCAGCAACAGAACGCCTTATCCTGTAAAATCATTTGATGATACCGAGTTCTCTAATATATCTGTGGAAGAAATTGATGAAAAGGATTCCGCATCAGACAGACGAAGAAATGATTCTCTGATGACGTCCGAAACAGAATCAAAACTGCTTGAACTGCTTGAAGATTTTGAAAAAGGTGATCTCTATAACAATAAAGGAATGTCTCTGTCTTTTCTTGCAGGTGAACTGAATACCAATACAAAATATCTGTCTTATGTCATCAACCAGCATAAAAGTGCCGATTTCAAAACGTATATCAATCGTTTAAGAATCAGCTATATTGTAGACAAACTGATCAATGATGATAAATACAGACAGTATAAAATAAGTATTCTTGCCGATGAATGCGGCTTTTCTTCTCACAGTAAGTTTGCAGCTGTCTTTAAGGCTGTTACAGACTATTCTCCATCAGCTTATATTAAATATCTTGATGCTGAAAATCAATCAGGTAAAAATGTTCATTTTCCTGAAAATGATTAA	MSNNLLKLLFLLITAVPIFAQKKNSFDLLCEKTSSVTAYKNLPKAIKTADSLYMKAQQPSEKVKCLILSSELYHHAGELKKAICYSENAYSVIHQTHDPEWIAVVARLLARQYRQVGLYERSKKYIIKGLEASGRISDFQKSNEAAGLLNQEMAFHEMEIGNYLSAIGYIESSLKFFEKINTSHENKMDAASYQVLGDVYFKLNDYTVSENYYKKAEGLLKGGSCTLGLVYNGLGGIRLKQKNWKDAEIYLKKAEKIADTSRSLRLKKAVYSNINDYYEGKGDSYKASLYAVKYIRTYDSIIARNQSFAMKSFDSPRGKADKKEGHMNLIKNTTIVILFTSLVGLLVFFRFKQKKQRSRFRNIIRAQLSMISNRTPYPVKSFDDTEFSNISVEEIDEKDSASDRRRNDSLMTSETESKLLELLEDFEKGDLYNNKGMSLSFLAGELNTNTKYLSYVINQHKSADFKTYINRLRISYIVDKLINDDKYRQYKISILADECGFSSHSKFAAVFKAVTDYSPSAYIKYLDAENQSGKNVHFPEND				NA	NA	NA	NA	NA
BMS003_03072	156			hypothetical protein	ATGAGAACAGCAGCTACCTCAATAATGAAATATATCTGCTTTCCGTATATTAATTTTCATGGCTTGGTTTTCAGCTTAGAAATTGAATTCTCTTACTATGATCTTATTTCTGAAGAAAGGAAAAATATCCTGCGAAATAAAAGAGATAAGCTGTAG	MRTAATSIMKYICFPYINFHGLVFSLEIEFSYYDLISEERKNILRNKRDKL				NA	NA	NA	NA	NA
BMS003_03073	1626	putC	COG1012	1-pyrroline-5-carboxylate dehydrogenase 2	ATGTCAAAAGCAATTTCGCAAGTACCATTAGCGGTAAACGAACCGGTAAATTCATACGAACCGGGATCTCCGGAAGTTAAAAGCCTTATCAACACTTATAAGAAAATGTGGGCTGAAAAGGTAGAAATCCCAATGATCATCAACGGAAAAGAAGTAAAAACGGATACAAAAGTACAGCTTCAGTCTCCACAGGATCATGCGCATGATTTCGGATTCTATTACCAAGGTGGTATGCAGCATGTGGATGACGCTATCAACGCGGCATTGGCAGCTAAAAATGAATGGAATGAGCTAGGCTGGGAACAGCGTGCAGCAATTTTCTTAAAGGCAGCTGATCTTTTGGCTGGCCCTTACAGAGATGTGATCAACGCTGCAACCATGATCGGGCAGTCTAAGAATGTACACCAGGCTGAAATTGATTCTGCCTGCGAGTTCATTGACTTCTTAAGATTCAACGTAGAGTTCATGACGGAAATGTATGCTGAGCAGCCTGTTTCTGACAACGGAATCTGGAACCGTGTTGAGTACAGACCATTAGAAGGGTTCTGTTTTGCAGTAACTCCGTTCAACTTTACCGCTATTTCCGGTAACCTTCCAACTTGTATGGCAATGCTAGGAAACGTAGTAGTTTGGAAACCATCTGACAAACAAGTTTATTCTGCAAAAGTAATCATGGATGTATTAACAGAAGCGGGTCTTCCTGCAGGGGTAATCAACATGATCTTTACTGATGGAAAAGAAACTGCTGAAAAAGTATTGGCTCACCGTGATTTCGCAGGTCTTCACTTCACAGGTTCTACAAAAGTATTCCAAGGAATGTGGAAAATGATTGGTGACAATATCCATAACTACAGAACATATCCAAGAATCGTTGGAGAAACAGGGGGTAAAGACTTTGTCATTGCTCACCCGTCTGCTAACGTAGAAGCGGTAGCTACTGCATTGGTAAGAGGTGCTTTCGAATATCAGGGACAAAAATGTTCTGCTGCTTCAAGAGCTTATGTACCAAAATCTCTTTGGACTGACGTGAAAAAAGTAATGGAAGCTCAGATGAGCACCATCAAAATAGGTTCTCCTGAAGATACTTCTAACTTCGTGAATGCTGTAATCGACAAAAATTCTTTCGAAAAATGTAAAGGATATATTGACAGAGCAAATGCTTCCGGTGAAGCTACTGTAGCGATCGGTGGAAAATATGATGATTCTAAAGGATGGTTCGTACACCCAACAGTCATTGAAACTACAAATCCTCAATACGAAAGTATGGTAGAAGAGATCTTCGGCCCTATTCTTTCTATATTTGTATATGAAGACCAAGATTGGAAAGAGACTCTTAAATTAGTAGATTCTTCTTCTCCTTATTCCTTAACGGGTTCTGTATTCTCACAAGACCGTTATGCAATCAGCGAAGCTTACAAAGCTTTGGAAAATGCATCCGGCAACTTCTACATCAATGACAAGCCAACGGGTGCTGTAGTAGGCCAGCAGCCTTTCGGTGGAGGAAGAGCATCAGGAACTAATGACAAAGCGGGTTCTAAAATGAATCTTCTAAGATGGGTTTCTGTAAGAAGCGTAAAAGAAACATTTGTTTCTCCAAAAAATTATAAATATCCTTATCTTGGATAA	MSKAISQVPLAVNEPVNSYEPGSPEVKSLINTYKKMWAEKVEIPMIINGKEVKTDTKVQLQSPQDHAHDFGFYYQGGMQHVDDAINAALAAKNEWNELGWEQRAAIFLKAADLLAGPYRDVINAATMIGQSKNVHQAEIDSACEFIDFLRFNVEFMTEMYAEQPVSDNGIWNRVEYRPLEGFCFAVTPFNFTAISGNLPTCMAMLGNVVVWKPSDKQVYSAKVIMDVLTEAGLPAGVINMIFTDGKETAEKVLAHRDFAGLHFTGSTKVFQGMWKMIGDNIHNYRTYPRIVGETGGKDFVIAHPSANVEAVATALVRGAFEYQGQKCSAASRAYVPKSLWTDVKKVMEAQMSTIKIGSPEDTSNFVNAVIDKNSFEKCKGYIDRANASGEATVAIGGKYDDSKGWFVHPTVIETTNPQYESMVEEIFGPILSIFVYEDQDWKETLKLVDSSSPYSLTGSVFSQDRYAISEAYKALENASGNFYINDKPTGAVVGQQPFGGGRASGTNDKAGSKMNLLRWVSVRSVKETFVSPKNYKYPYLG				NA	NA	NA	NA	NA
BMS003_03074	366			hypothetical protein	ATGAAAAAAAGAGTCCTATTTTTCTCTTTTGTGATATTTTTCTCAGCGTTGTGTGCAGGTCTTTTTGCACAGAAAGGGAAAACTCAGCCATACTCTGATATTCTTTCAAAAATTCACCTCCTTCAGCAGAAATCTGATCAGCAGACCCAGCCGGAAATGTATAGCTTTTCGGATGCACAGGATGTACAGGATTCCAATGACTGGGAGAAAGTAAAATTTGATTATTCAATACTTGCACAGCAATGGTTACACTATTTCTTTGCAGGCTACACTTATAATACACAGGTTGCGGCCGTTCAAAACCGTACTTATATTACAGCACCCAGATACATCCTGTATCATGCCCTGCAGATAGCGGGCTGCTAA	MKKRVLFFSFVIFFSALCAGLFAQKGKTQPYSDILSKIHLLQQKSDQQTQPEMYSFSDAQDVQDSNDWEKVKFDYSILAQQWLHYFFAGYTYNTQVAAVQNRTYITAPRYILYHALQIAGC				NA	NA	NA	NA	NA
BMS003_03075	303	ureA_1		Urease subunit gamma	ATGCACTTAACACCGAGAGAAACGGAAAAGCTTATGCTGTTTCTGGCAGGCGAACTCGCTCTGAAAAGAAAGGCAAGAGGCCTTAAACTAAACTATCCTGAGTCGATAGCACTGATCAGTCACTTTTTGCTTGAAGGAGCAAGAGACGGGAAAAAAGTAGCCGAACTGATGCAGGAAGGCGCTAATCTTCTTACCAAAGATGATGTAATGTCAGGCGTGGCAGAAATGATCCACGATGTTCAGATAGAAGCTACTTTTCCGGATGGGACGAAGCTGGTAACCGTACACAATCCAATACGTTAA	MHLTPRETEKLMLFLAGELALKRKARGLKLNYPESIALISHFLLEGARDGKKVAELMQEGANLLTKDDVMSGVAEMIHDVQIEATFPDGTKLVTVHNPIR	PGPT0000955_945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
BMS003_03076	369	ureA_2	COG0831	Urease subunit alpha	ATGATACCAGGAGAAATTTTTGTAAAAGAAGGTACAATTATCTGCAATGAAGGCAGAGAAACTGTAAAAATAAAAGTAACCAACACAGGAGACCGCCCTATTCAGGTGGGTTCACACTTCCATTTTTTCGAAGTGAATAAAGCCATGAACTTTGACCGTGAAAAAGCTTTCGGAAAGAGACTGAATATTGTAGCAAGTACTGCAGTACGTTTCGAACCGGGAGAAGAAAAAGAAGTGGAACTGGTAGAAATAGGAGGAACCAAAAAAGCAATGGGCTTCAATAATCTTGTAGACGGACAGGTAGACTCTGAAGAACAGAAAAAAGCAAGCCTTGCAAAAGTTGAAGAATTAAACTTTAAAAATCACTAA	MIPGEIFVKEGTIICNEGRETVKIKVTNTGDRPIQVGSHFHFFEVNKAMNFDREKAFGKRLNIVASTAVRFEPGEEKEVELVEIGGTKKAMGFNNLVDGQVDSEEQKKASLAKVEELNFKNH	PGPT0000960_343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
BMS003_03077	1722	ureC		Urease subunit alpha	ATGAGCTTAAACGTAGACAGAAAACAATACGCCAATATATTAGGTCCTACAGCCGGAGACAAAATCAGGCTGGGAGATACCGAAATTATCATAGAAATCGAAAAAGATTTAACTCATTACGGAGACGAAGCCGTTTTCGGAGGAGGAAAAACCGTTCGTGACGGTATGGGACAGAATGTAACAGCTAAAAGGGACGAAGGTGTTCTGGATCTTTGTATCACAGGAGCTGTAATCATTGATCATTGGGGAATTGTAAAGGGTGATATCGGAATTAAAGACGGTAAGATTGTAGGAATCGGGAAAGCAGGTAACCCTGATACAATGGACGGTGTAACACCGAATATGATCATCGGAGCTTCAACGGAAGTTCACGGTGGAAAAGGATATATCGTGACTGCCGGAGGTATTGATACCCATATTCACTATATCTGTCCTCAGCAGATCGAAACATCACTTTACAGCGGAATTACAACAATGATTGGTGGTGGTACAGGCCCGAATGACGGAACCAATGCTACAACGGTTACGCCGGGAAGCTTCAACATGCAGAAAATGCTTGAAGCAGCAGAAGAATATCCCATGAACTTAGGTTTCTTCGGAAAAGGAAACTGTTCTGCTGAGGCACCAATTGAAGAACAGGTAGAAGCAGGTGCTTTAGGGGTAAAAATTCACGAAGACTGGGGAGCAACTCCTGCAACCATTGATGCAGCATTGAAAGTAGCCGATAAATATGACGTTCAGGTCGCTATCCACACAGATACTTTAAATGAAGGAGGATTCCTTGAAGATACAATGAGAGCAATCAATGGAAGAGTAATCCACACCTTCCACACAGAAGGAGCAGGTGGAGGCCACGCACCGGATATCATTAAAGCGGCAATGTATCCGAATGTATTGCCGGCTTCTACCAATCCTACACGTCCGTACACGGTCAATACAATTGATGAGCACTTAGATATGCTGATGGTTTGCCACCACCTGAGTAAAAACATTCCTGAAGATGTAGCATTTGCAGATTCACGTATCCGTCCGGAAACCATTGCAGCAGAAGATATCCTTCATGATATGGGCGTTTTCAGTATCATGAGTTCAGACTCTCAGGCAATGGGAAGGCCGGGAGAAGTGATCACCAGAACATGGCAGACAGCAAGCAAGATGAAAGAGCAGAGAGGTGATCTTACTGAAGATAAAGGCAGCGGAAACGACAATTACCGTGCAAAAAGATATGTGGCTAAATATACCATCAATCCTGCTATTGCACATGGTATTTCAGAATATGTAGGATCTGTTGAAGAAGGGAAACTGGCAGATTTGGTGATCTGGAAACCTGCATTATTCGGAGTAAAGCCAGAAATGATTGTAAAAGGAGGATTTGTAATTGCGGCTAAAATGGGAGATCCTAACGCATCTATCCCAACACCTCAGCCGGTTATTTACAGAAATATGTTCGGAGCTCACGGAAAAGCGAAATTTGGTACTTGTGCGAATTTTGTTTCTCAAATCTCTATCGACAACGGAACCATCGCTTCTTACAAACTTGAGAAAATGATTCTTCCGGTGAAAAACTGCAGAAATATTGGTAAAAAAGATCTTATCCACAATAATAAGACTCCTTTAATTGAAGTGAATCCAGAAAACTATAAAGTAACGGTAGACGGTGAATACATCACTTGTGAACCAGCGGAAACACTTCCTTTAACACAGCTGTATTATTTGTTCTAA	MSLNVDRKQYANILGPTAGDKIRLGDTEIIIEIEKDLTHYGDEAVFGGGKTVRDGMGQNVTAKRDEGVLDLCITGAVIIDHWGIVKGDIGIKDGKIVGIGKAGNPDTMDGVTPNMIIGASTEVHGGKGYIVTAGGIDTHIHYICPQQIETSLYSGITTMIGGGTGPNDGTNATTVTPGSFNMQKMLEAAEEYPMNLGFFGKGNCSAEAPIEEQVEAGALGVKIHEDWGATPATIDAALKVADKYDVQVAIHTDTLNEGGFLEDTMRAINGRVIHTFHTEGAGGGHAPDIIKAAMYPNVLPASTNPTRPYTVNTIDEHLDMLMVCHHLSKNIPEDVAFADSRIRPETIAAEDILHDMGVFSIMSSDSQAMGRPGEVITRTWQTASKMKEQRGDLTEDKGSGNDNYRAKRYVAKYTINPAIAHGISEYVGSVEEGKLADLVIWKPALFGVKPEMIVKGGFVIAAKMGDPNASIPTPQPVIYRNMFGAHGKAKFGTCANFVSQISIDNGTIASYKLEKMILPVKNCRNIGKKDLIHNNKTPLIEVNPENYKVTVDGEYITCEPAETLPLTQLYYLF	PGPT0000965_295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
BMS003_03079	648			hypothetical protein	ATGAAATATTTAAATAAAACAGTTTTTTCTCTTGTGATAGCTGGTGTGTCTATACTTTCAGGAAATCTGAATGCTCAGTTTCTGGGCGGACACAGGCTTAAGAATGACGAAGACGGTCCGAAAGGACAGTTGATGGTGTACGGTTCATTGGACTATTCCAAGATCACAACACCGTCAAGCAGCAGCAGTACCGTTTCCAGTGCACCGTTGGGAGTAGGGTATTTTATCAATAATAATGACCTTATCGGAGTTAATTATGCTTACTCGCAGAATACTGTGGATCACAATGTAGTATACAAACAAAATGAAGCAGGAATCTGGTATAGTCCTTCGGTAATGCTTGGAAAATATTTTGTGTTGATTGGCCAGGTAGATGCTCACTATGTTTGGGGACAACAGCTTTCAACAGCGGCAGATGCCATGCAGAACTTCAATGGGTTCCGCCTTCGTGCCTATCCTTTGATCGGGATATTATTAGGAGGAGGTTGGGCCCTGAAATTCAAATTTGCAGAACTATCCATGCTTCAGACCAAGACTAAAGAAGAAGGCTGGACGAAAAGCTATATATCCGGAATCAGTGGTTCTACATTCGGGGTAGGTATCTCTAAAAACTTAGACTTTAGAAAAAAATCCAGAAATGATAATTAA	MKYLNKTVFSLVIAGVSILSGNLNAQFLGGHRLKNDEDGPKGQLMVYGSLDYSKITTPSSSSSTVSSAPLGVGYFINNNDLIGVNYAYSQNTVDHNVVYKQNEAGIWYSPSVMLGKYFVLIGQVDAHYVWGQQLSTAADAMQNFNGFRLRAYPLIGILLGGGWALKFKFAELSMLQTKTKEEGWTKSYISGISGSTFGVGISKNLDFRKKSRNDN				NA	NA	NA	NA	NA
BMS003_03080	510	ureE	COG2371	Urease accessory protein UreE	ATGATAATTAATCAAGTCATAGGCAATATTGCAGAAAATCCTACGGAGAAAACCATAGACTATCTTGATCTGGAATGGTTTGAAACCACTAAAAGAATTCAGCGTAAAAAAACCAGACAGGGAACTGATATTGCGGTTAAGTTTCTCAGAGAAGGACAACGATTACATGAAGGAGACATTCTTTTTGAGGATGTAGAAAAAATAATTGCAGTCAATGTTCTGGAAACAGAGGCTATCGTGATGTCACCCGCTTCACTACTTGAAATGGGTACTGTGTGTTATGAGATCGGAAATAAACATATTCCGCTTTTCATTCAGAATGACAAAGTTTTGCTCCCTTTCGAAATGCCGATGTTCAGATGGCTGGAAGCGAGTGGTTTCAAACCGGAAAAACAGTCGGTGAAACTGCTCAATCTTCTTAAATCTAATGTAGAGCCTCACGGACACGGAAGTCTGGGATCCACAATCTTTACAAAAATCTTAAAAATGGCTGCCCCGAAAGATGAATAA	MIINQVIGNIAENPTEKTIDYLDLEWFETTKRIQRKKTRQGTDIAVKFLREGQRLHEGDILFEDVEKIIAVNVLETEAIVMSPASLLEMGTVCYEIGNKHIPLFIQNDKVLLPFEMPMFRWLEASGFKPEKQSVKLLNLLKSNVEPHGHGSLGSTIFTKILKMAAPKDE	PGPT0000975_733	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
BMS003_03081	699	ureF	COG0830	Urease accessory protein UreF	ATGAATAATATAAATATAAACTTCCTGTCAGGACTGCTTCATCTTGCAGACCCTACACTTCCCATCGGAGGCTATACTCATTCCAACGGACTTGAAACCTATGTGCAGGAAAGAATTGTACATGATCTGGCAACAGCGAAAGAATTTGTACAGAATATGCTTCAGTACAATCTTAAATTCAATGACGGAGCTTTTGTAAAACTAGCTTATGAAGCGGCAGAAAAAAGTGATTTAGAAACATTATTGCTTCTCGACAATGAATGTAATGCCATAAAATGCCCGAAAGAAATCCGCCAGGCAAGTCAAAAACTGGGACTAAGACTGATGAAGATCTTCAAAAGAAGAGACCGTTTCCATTTTATGGAAGCATTTGAAAAAGCAGTTCAGAATAAAGAAGCCAATTCTCATTACTGTATTGTATTCGGAGTGTATGCTTACCTGATGAAAATTCCTTTGTACGAAGCCCTTTTAGGGTTCTATTATACTTCGCTTGCGGGGATGATTACCAATGCGGTAAAATTAGTACCTCTTGGGCAGCTGGATGGGCAGGACATTCTATTCTCACTCTATCCCGTAATGGAAAAAACAGTTTGGGAAACCATGGAGCTGGACAGAGATATGGTGGGACTTTGTAACACGGCTTTTGACATCAGATGTATGCAGCATGAAAGGCTGTATTCAAGACTTTATATGTCGTAA	MNNININFLSGLLHLADPTLPIGGYTHSNGLETYVQERIVHDLATAKEFVQNMLQYNLKFNDGAFVKLAYEAAEKSDLETLLLLDNECNAIKCPKEIRQASQKLGLRLMKIFKRRDRFHFMEAFEKAVQNKEANSHYCIVFGVYAYLMKIPLYEALLGFYYTSLAGMITNAVKLVPLGQLDGQDILFSLYPVMEKTVWETMELDRDMVGLCNTAFDIRCMQHERLYSRLYMS	PGPT0000980_924	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
BMS003_03082	639	ureG	COG0378	Urease accessory protein UreG	ATGGAAAATAGAAAGTATATAAAAGTAGGAGTGGCAGGACCTGTAGGTTCAGGGAAAACTGCATTATTGGAACGTTTAAGCAGAAAATTATTCGGGACTTATGATCTTGGAGTTATCACGAATGATATTTATACCAAAGAAGACGCTGAATTTATGGCGAAAAACAGTCTTCTTCCCCACGACAGAATTATCGGAGTAGAAACAGGAGGCTGTCCTCACACAGCCATCCGTGAAGATGCAAGTATGAATCTTGAAGCAGTAGACGAACTGGCAGCACGTTTCCCGGAAATCGAACTGGTTTTGATTGAAAGTGGAGGTGACAACCTTTCTGCAACCTTCAGTCCGGATCTTGCAGATGTTACCATCTTTATCATTGACGTAGCAGAAGGAGAAAAAATCCCCAGAAAAGGAGGTCCCGGTATTACCAGATCAGACTTATTGATCATCAACAAAATTGACCTTGCCCCTTATGTAGGAGCCAGTCTTGAAGTCATGGAAAATGATGCCCGAAGAATGAGAAAAGGAAATCCTTTCGTGTTCACAAACCTGAAAACAGATGAAGGATTGGATAAAGTAATAGGTTGGATCAAAAAATATGCTCTTTTAGAGGAAATTGAAGAACCGAATTTGGTAAGATAG	MENRKYIKVGVAGPVGSGKTALLERLSRKLFGTYDLGVITNDIYTKEDAEFMAKNSLLPHDRIIGVETGGCPHTAIREDASMNLEAVDELAARFPEIELVLIESGGDNLSATFSPDLADVTIFIIDVAEGEKIPRKGGPGITRSDLLIINKIDLAPYVGASLEVMENDARRMRKGNPFVFTNLKTDEGLDKVIGWIKKYALLEEIEEPNLVR	PGPT0000985_941	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
BMS003_03083	789	ureH	COG0829	Urease accessory protein UreH	ATGGATAGTCGTTTAAAAATTATTGCAGGATTTAAGGGAGGAGAATCCTATGTGAAAGACCTTTATGTCTCACTTCCTTTCAGAGTAGTTTCTGTAGGACAGCGAAAAAGTGACAAAAAGCTCTATCAGATGGTGATGAGCTCCTCTCCGGGAATTCTGGACGGAGACCACTACCATTTGGATGTTGCTCTTGAAAAAGGAGCAGCACTTCAGTTGCAGTCACAATCCTATCAGAGGCTTTTCAATATGAAAGATAAAGCGCTTCAGGAGCTTAATGTTTCTATGGAAGATGAAACTTCTTTCGCCTATGTTCCTCACCCTATTGTTCCTCACGAAGATTCAAACTTTAAGAGTAAAGCCAATATTCATATCGGGAAAAACAGCCAGATTATTATCAGTGAGATTATTACCTGTGGCAGAAAGCATTATGGAGAAGTTTTTAAGCTGAAACGTTTTCAGAATATCATGGAAATCTATCACAATAATAAGCTTGTCGTGAAAGATAATGTCCTGATTCAGCCCGATATGATCCCGATCAGCAGTATCGGAAATCTGGAACAATATACCCATCAGGGAACCCTTATTTTTTACAGTACAAAGGAAAATGTAGACAAAAACGGATTGATAGAAGAGATCGTTGAAGCCGCTGCTCAGCATCATGAAGAAATGGAAGTAGGAGTTTCCGCCATGGAAGACAATGGATTTGTAGTAAGGGCTTTAGGACATGGAGGAGAACAGATGTACAACTTCTTTCTGCACATTCAGGAAATCCTTTGGTCGCTTGAGTAA	MDSRLKIIAGFKGGESYVKDLYVSLPFRVVSVGQRKSDKKLYQMVMSSSPGILDGDHYHLDVALEKGAALQLQSQSYQRLFNMKDKALQELNVSMEDETSFAYVPHPIVPHEDSNFKSKANIHIGKNSQIIISEIITCGRKHYGEVFKLKRFQNIMEIYHNNKLVVKDNVLIQPDMIPISSIGNLEQYTHQGTLIFYSTKENVDKNGLIEEIVEAAAQHHEEMEVGVSAMEDNGFVVRALGHGGEQMYNFFLHIQEILWSLE	PGPT0000970_1888	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
BMS003_03084	702			hypothetical protein	ATGGATAGTACAGTTTGGGCGCTTTTGTTGAGTGCCGTTTCAATAAGTTTTATACATACTGCCTCAGGGCCGGATCATTACTTGCCATTCATTGTCATCTCAAAATCTAAGAAATGGAGCGGAATGAAAACAGCCATCTTAACCGTTGTCTGCGGATTTGGACATGTATTTAGTTCCCTGATCTTAGGTTTTATCGGAGTTTTCCTTGGATGGCAGCTGAACAAGATCTCCTGGTTTCAGGATATCAGAGGAAATTTCTCAGGCTGGGCACTACTGATCTTTGGAGGAGTTTACCTGGTATACGGTCTTATTCAGGCGGTAAGAAACAAACCACATAAACATTTTGATGTAATGGGTGATGAAGTATATGTATACGAACACAATCACAGTGAAGTGGTAATGCCTCAAAAAAGAATAAAAGTAACACCGCTTGTCCTTTTCATGATTTTTGTAATGGGACCAAGCGAGCCGCTGATTCCATTATTATTCTATTCAGGAGTGAAACATTCCATGTCTGAGATTGCTGTAATGGTAACCTCTTTCACGATAACTACAGTGCTGACAATGCTCGGAATGGTACTTCTGGGACGTTACGGATATTCAACACTATTCAATACAGAAAAACTGGAAAGATATATGGGCGTGGTAAGCGGAGCCGTGGTAACCGTGTGCGGAGTGGGAATGGTCTTTCTTGGATGGTAA	MDSTVWALLLSAVSISFIHTASGPDHYLPFIVISKSKKWSGMKTAILTVVCGFGHVFSSLILGFIGVFLGWQLNKISWFQDIRGNFSGWALLIFGGVYLVYGLIQAVRNKPHKHFDVMGDEVYVYEHNHSEVVMPQKRIKVTPLVLFMIFVMGPSEPLIPLLFYSGVKHSMSEIAVMVTSFTITTVLTMLGMVLLGRYGYSTLFNTEKLERYMGVVSGAVVTVCGVGMVFLGW				NA	NA	NA	NA	NA
BMS003_03085	888		COG4413	Urea transporter	ATGGAAGAATTTTTCAAAAAACTCCTTTTTTTAGACAATGTTTTAAAGGGCATCGGGCAGATTATGCTCCAGGAAAACAGATGGACCGGGCTTCTGTTTCTGATAGGAATTTTTATGGGAAGCTGGCAGTGTGGAGTAGCAGTATTGCTTTCAACAGCAGCCGGAACTTTTACCGCAATGAAGCTTAATTATAACCAATCCGAAGTCAATGCAGGACTCTACGGCTTCAGTGCAGCTCTAGTGGGAGTGGCTTTGGCATTTCTGTTCCAGACAACTTTATTGATCTGGGTTCTTATCATATTGGGAGGAGCGTTGGCTGCTGTTATTCAGCATTTCTTTATCCAAAAGAAAATTCCGGTATTTACTTTTCCTTTTATCATTATTACATGGGCATTGGTATTTGCTCTGCATCATTTTACTCATATTCCGCCTTCTGAAATGCTAAGCAGTGAAGTAATTCCTACAGAATATGATGACTTTCTTACCTGTACCAATGGTTTTGGGGAAGTGATATTCCAGGGAGGAGTACTTTCCGGGATTATTTTCTTTCTGGCTGTTTTTATCAGCTCTCCGGTGGCCGCTTTATATGGATTGGCAGCCTCTATTTTAGGCGCAGGATTATCACAGTTGAATGGAGAACCCATCAAAGAAATTCACATGGGATTATTTGGGTTTAATGCTGTGCTTTCTGCTATTGTTTTTTCAGGAGTCAAAAAAACAGATGGTTTATGGGTACTGATCGCCGTTCTTATCACCATTGCTATTGATGATCTTTTAATAGACAATCACTGTCTGGATAATGTGGGTGGAGTATTTACTTTTCCATTCGTGACCGGAACATGGATCACACTTTTGATTCAAAAAATATTTCTTAAAACAAAAAAATAA	MEEFFKKLLFLDNVLKGIGQIMLQENRWTGLLFLIGIFMGSWQCGVAVLLSTAAGTFTAMKLNYNQSEVNAGLYGFSAALVGVALAFLFQTTLLIWVLIILGGALAAVIQHFFIQKKIPVFTFPFIIITWALVFALHHFTHIPPSEMLSSEVIPTEYDDFLTCTNGFGEVIFQGGVLSGIIFFLAVFISSPVAALYGLAASILGAGLSQLNGEPIKEIHMGLFGFNAVLSAIVFSGVKKTDGLWVLIAVLITIAIDDLLIDNHCLDNVGGVFTFPFVTGTWITLLIQKIFLKTKK	PGPT0000950_358	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000950-utp-K08717	NA	NA
BMS003_03086	2244	btuB_10		Vitamin B12 transporter BtuB	ATGAAAATAACAAAAATAGCAGCTGTATTTCTGGTCATGGCATTCAGTGGAAAGATGATGGCGCAGGAAACCGAAAAACAGTTGCTGATAAAAGATGCAGATGACAAATTCCCCATTGCGGATGCTTTGGTGAAATACGACCACGGAAACAGCCATACCCATACAGGAACAGACGGCACATTTGCTATCCCTGTACAATCTCTTCCTGATACACTGGTGATCAGCCGTCAGGGATATGATGAGGTAAAATGGATAGCGACCAATGATGATAAAAATAAAGTTATTTTTTTACAGCATAAGCCCTTTCAGATTTCTGAAGTAGCCATTAATCACAGTGCATTTCTGTCTGCTATTACTAAGGTTGATCTGAATAAATTTCCGGTCAACTCAGCACAGGATCTGTTGAGAAAAGTTCCGGGGCTGTTTATTGCACAACATGCAGGAGGAGGAAAGGCAGAGCAGCTTTTTTTAAGAGGGTTTGATGCCGATCACGGTACAGATGTAAGCGTGAATGTAGACGGAATGCCTGTGAACATTGTCTCTCATGCCCATGGTCAGGGATATTCTGATTTACACTTTGTAATTCCTGAAACCGTTAATAACATTGATTTCGGAAAAGGAGCGTATTATATGGATCGGGGAGATTTTAATACTGCCGGATATGTAGATTTTCAGACCTACAATGGGCTGAAAAACAGTATGATTAAACTGGAAGGAGGCTCTTTCAATTCAAAAAGAGTGTTGGGAATGTTCAATATTCTGCATGATGATCTGGGTAGGAAAAACGCTTATATCGCTGCGGAGTACAATTATACAGACGGGCCGTTTGATGTAAAACAGAATTTTAACAGGGTTAATATCTTTGGAAAATACAATCAGTGGCTTACGGATAAAGACTATTTCAACATCCAGTTTTCAACATTCAATTCTTCATGGAATGCTTCCGGACAGATTCCGGAACGTGCCGTAGACGAAGGAATTATTGGGAGATGGGGAAGTATAGACCCTACAGAAGGCGGAAAAACGTCCAGAACCAACCTTCAGATGAATTTTAAACATATTATTTCTTCTTTTGAACAGATAGATGCCATGGCTTTCTATTCAAAATACAACTTCAATCTGTATTCTGATTTTACCTTTAATTTAAAAGATAAAGAGCATGGCGATGAAATTCAGCAGACTGACGGAAGAAATATTTACGGAGCCGAAATGAAGTATACAAAGACTTTTTCCTTGGCCAACAGTTCTCTAAACTGGACTTCAGGAATCGGATTAAGAAATGATGATATTAATACGCTCCAGCTTAATCATGTATATCACAGAGATCTTCTGCTGGACAGATTATCAGATGTAACGGGAACGGAAACCAATCTTCATGCCTATTCAGGATTGATATGGAAAATTGGAAAATGGATCATTAATCCAGCTTTGAGAGTGGATCATTTTATTTTCAACATGCACAATCTGCTGGATGTGGAACAATTGCCTTCCGGACAGTCAAAAGAAGCAACAAGATTAAGCCCTAAACTTAATTTCTCCTATGCTCAGAATGACAATATCATGTGGTTCCTGAAAACAGGAATGGGTTTTCATTCCAATGATCTGAGAGTGGTCGTTCCCAATAAGAACGAAAATACCCTTCCATATTCTATAGGTGCAGATTTCGGAGTAAGACTGCATCCGTTCAAATCCTTGATTATCACACCAGCCTTATGGTATATGGATCTTCAGCAGGAATTTGTTTATGTAGGAGATGATGCAGTGGTAGAGCCTTCCGGAAAATCAAGACGTTTCGGAGCAGATCTTGGAGTTCGTTTTCAGCCGGTAGAAAACTTTTATCTGAATGCAGATATCAATTATTCCCACGCAAGATTTACAGAAGAAGAAAAAGGACAGGATTACGTTCCGCTGGCTCCGGTTGTAACCAGCACAGGATCTGTAAACTGGGATTTCCTGAATGGTTTTTCTCTGGGACTGCAATACCGATATCTGGGAGCAAGACCTGCTGTGGAGGATAACAGTATCAGAACCAAAGCCTATTTTGTGAATGACCTTATGCTTTCTTATAACCGTCAGAAATGGGGAGCCAATGTTCAGCTGAATAACCTTTTCAATGTAAAATGGAATGAAGCCCAGTTTGCAACAGAAACCCAGCTGAAAGGGGAAACAGAGCCTATCACAGATCTTACATATACGCCGGGAAGCCCGTTTGGAGTGAGAGTAGGAGTGTATTATAAGTTCTAA	MKITKIAAVFLVMAFSGKMMAQETEKQLLIKDADDKFPIADALVKYDHGNSHTHTGTDGTFAIPVQSLPDTLVISRQGYDEVKWIATNDDKNKVIFLQHKPFQISEVAINHSAFLSAITKVDLNKFPVNSAQDLLRKVPGLFIAQHAGGGKAEQLFLRGFDADHGTDVSVNVDGMPVNIVSHAHGQGYSDLHFVIPETVNNIDFGKGAYYMDRGDFNTAGYVDFQTYNGLKNSMIKLEGGSFNSKRVLGMFNILHDDLGRKNAYIAAEYNYTDGPFDVKQNFNRVNIFGKYNQWLTDKDYFNIQFSTFNSSWNASGQIPERAVDEGIIGRWGSIDPTEGGKTSRTNLQMNFKHIISSFEQIDAMAFYSKYNFNLYSDFTFNLKDKEHGDEIQQTDGRNIYGAEMKYTKTFSLANSSLNWTSGIGLRNDDINTLQLNHVYHRDLLLDRLSDVTGTETNLHAYSGLIWKIGKWIINPALRVDHFIFNMHNLLDVEQLPSGQSKEATRLSPKLNFSYAQNDNIMWFLKTGMGFHSNDLRVVVPNKNENTLPYSIGADFGVRLHPFKSLIITPALWYMDLQQEFVYVGDDAVVEPSGKSRRFGADLGVRFQPVENFYLNADINYSHARFTEEEKGQDYVPLAPVVTSTGSVNWDFLNGFSLGLQYRYLGARPAVEDNSIRTKAYFVNDLMLSYNRQKWGANVQLNNLFNVKWNEAQFATETQLKGETEPITDLTYTPGSPFGVRVGVYYKF				NA	NA	NA	NA	NA
BMS003_03087	891	rhaS_14		HTH-type transcriptional activator RhaS	ATGGAAGTACTATCCAATTTTCAATATAAAAAGCTTTTTCTGCCCAACATTACAGACAGGATATTAGCCAACAATGCTGATATACAGTTATATCGGATAGAAAACTATCTTAAAGGTATTCTGATGCCGGTGATTCCGTACCGTACAACGTTCAATTTTATTATTTTCGTTACCAACGGGCATATCAGACAGTATCTTGAAAATAAAGAATATCATGCTGAAAAAGGCGGAGTGATCTTTATAAAACAAGGGACAATCACCGCAACCGTTGAACTGTCAGACGATATTGAAGGCTTCTTCCTTGCTTATGAAAACAACATCCTGTCCGAACAGGAACTGCCGAAACATAAAAGCAGTATCTTTTTCATGACACCCTTCCTGAATCTTGACAGCCTCACCTACGGAACCATTACCCAGCTTCTCCCGATTATGGAACAGGAATTGTGGTTGAATAATCTGAATATCAATGATGTCGTGGTAACCATGCTTCATCTTATTTTAATCAAAATGCTGAGCACAGATTCAGATACCCATCACAAAGCTGCAACACGCCCTATGGAGCTGTCTCTGCAGTTCCGGGATCTGTTGTTCAAATACCATGTGGTGGAAAAAAGAGTAGCTTTTTATGCAGACAAACTGTCCGTTACAGAAAGCTATCTGAATAAATGTGTAAAAGGAGTAACTCAAAAGTCACCCAAACAGTGGGTCAATGAGATTGATATTAATTACAGCAAAGCATTGCTTCATTCAAGTAAAGATATTGCGGAAATTGCTTATGAGCTGAATTTTCATACCGCTTCCCATTTTACCCAGCTTTTTAAAAAAATTGCAGGAATCACTCCGAAAGAATACAGAACTCAGTTTTTGAATAATAGCAGAATTTCTGTGTAG	MEVLSNFQYKKLFLPNITDRILANNADIQLYRIENYLKGILMPVIPYRTTFNFIIFVTNGHIRQYLENKEYHAEKGGVIFIKQGTITATVELSDDIEGFFLAYENNILSEQELPKHKSSIFFMTPFLNLDSLTYGTITQLLPIMEQELWLNNLNINDVVVTMLHLILIKMLSTDSDTHHKAATRPMELSLQFRDLLFKYHVVEKRVAFYADKLSVTESYLNKCVKGVTQKSPKQWVNEIDINYSKALLHSSKDIAEIAYELNFHTASHFTQLFKKIAGITPKEYRTQFLNNSRISV				NA	NA	NA	NA	NA
BMS003_03088	438			hypothetical protein	ATGAAACAGCAAAACTACAATAACCACAGGAAATTTTATCCGCCTTATCATTTTATTTATCTTCCATTGCTTATTATATTGGAGATTTTAGGAATTTATAAAATCTGGGATGATCCCGGAAATCAGCTGGTCTGGATACTATTTTCTATTGTTATTTTTTTGCTTTTTTATCTGGCATTTATGACGAGGCAGCATTATGCACTGGGACTTCAAAACCGAATGGTTGTTCTGGAATTTAAGCAGCGTTATTTCGAGATTTTCAACAAAAGATCTGATGAAACTACAGAAAAACTGAAATTCGACCAGATTGCCGCATTGAGATTTACTTATGATGATGAATTTAAAGAGCTTTTATACAGAGCACTTCATGAAAACATCTCAGGAGATGAAATTAAAAGGTCTATCAAAAAATGGAGAGCTGACCGCCTCAGAGTTTAA	MKQQNYNNHRKFYPPYHFIYLPLLIILEILGIYKIWDDPGNQLVWILFSIVIFLLFYLAFMTRQHYALGLQNRMVVLEFKQRYFEIFNKRSDETTEKLKFDQIAALRFTYDDEFKELLYRALHENISGDEIKRSIKKWRADRLRV				NA	NA	NA	NA	NA
BMS003_03089	1770			hypothetical protein	ATGACTTCAAAGGAAAAAGTTGCTGCGCTTCGTGAAGAAATGCAGAAAAATAATGTTGATGCATTTATAGTATATTCTGCAGATCCGCATATGAGTGAATACCTTCCTGAAGAATGGCAGGAGAGAGCCTGGCTCTCAGGTTTCTTAGGCTCTGCCGGTTTTGTGGTAGTTACCAAAGATAAAGCCGGACTTTGGACAGACGGAAGATACTTTACTCAGGCGGCTATTGAACTGGATGGCTCCGGAATTGAGCTTTTCAAAGACGGGATGGAAGGAACTCCTCATTATATCGATTGGATTATTTCAGAAATTCATTCAGGTGGTAAAGTGGCAGTAAATGCTGTTGCAGCTTCTAATGCCAACTGGGAACTGCTTTCTCAGAAACTCAATGCCAAAAATATTACCCTGGTAGATCTTCCGCTTTTAAAAGAAGTCTGGAAAGACAGAGGAACTCCGTCTGCTAACCCTATTTTTGTACATCCGGTAGAAAGAGCAGGGAAATCTGTATCTGATAAAATTGCTGCAATCCGTCAGAAAATGGAAGAGCAGGAGGCTACCGTACATATTATATCAAGTCTGGATGATGTTGCATGGACACTGAACCTGAGAGGGAGCGATGTAGAAAGTAATCCTGTATTTTTAGGATATATTATGATTACTAAAAACGATGCTGTTGTATTCACAGGATTAGAGAAAATGGAAGTAACGGCAAGAAAGCAAATGGATGATTCCTTTGTGAAAATGATGCCTTACGAAGAATTTTACAACTATCTGAAGACCTTCAGAAACGAAAAAGTGCTCGTTTCTCCAAATAGCAACCAACAGATTTTTGAAACATTAAAAGCAGACAATCAGTTTATCAAAGCTCCGGTTCCCGGTAACCTTATGAAAGCTCAGAAAAATGAAGCTGAACTGGAAGGTTTCAGAACCGTAATGGTAAGAGACGGAGTAGCAATGGTGAAATTCCTTTATTGGCTAACGCACAATGCAGGAAAAGAAGCGATGACCGAATATTCTATCGGACAAAAACTGAAAGGATTCCGTGAAGAAGGTGAAAACTTTGTAGGCGAAAGTTTCGGATCTATCGTAGGATATAAAGATAACGGTGCTATCATGCATTATTCTGCCAAAAAAGAAGGAAGCAAAGAAGTAACTAACGAAGAAACAATCCTGGTAGATTCAGGAGGTCAGTACCTAGAAGGAACTACGGATATCACAAGAACTTTTGCCTTAGGAACTCCTTCGGAAGAGTTCAAAAGAAATTCAACGCTGGTATTACAGGGATTAATCCGTTTATCAATGGTGAAATTCCCGAAAGGAATAAAAGGAGTGCACCTTGATGCCATTGCAAGGCTTCCGCTTTGGATGGAAGGGAAAGACTTCAACCATGGGACAGGACATGGTGTAGGAAGCTTCATGAATGTACACGAAGGCCCACAAAATATCAGAAAAGACCTGAATCCTCAGGAACTTCTTCCGGGAATGGTTTGTTCCAATGAACCTGGTTACTATCTTGAAGGTCACTATGGAATTCGTCACGAAAACCTGATTGCCGTAAAAGAAGCAGAAAAAACAATCCACGGAACGTTCTATGAATTTGAAACATTGACATTCTGCCCGTTCTTCAAAGATACAGTGGTAAAAGAAATCCTTTCAGAAAGCGAAATCGCATGGCTGAACGGTTACCATAAAACTTGTGAAGAAAAACTTGCTCCACACCTGGATGGAGAAGTTAAAGAATGGTTCCTTCAATTGGTAACCCCGCTTTAA	MTSKEKVAALREEMQKNNVDAFIVYSADPHMSEYLPEEWQERAWLSGFLGSAGFVVVTKDKAGLWTDGRYFTQAAIELDGSGIELFKDGMEGTPHYIDWIISEIHSGGKVAVNAVAASNANWELLSQKLNAKNITLVDLPLLKEVWKDRGTPSANPIFVHPVERAGKSVSDKIAAIRQKMEEQEATVHIISSLDDVAWTLNLRGSDVESNPVFLGYIMITKNDAVVFTGLEKMEVTARKQMDDSFVKMMPYEEFYNYLKTFRNEKVLVSPNSNQQIFETLKADNQFIKAPVPGNLMKAQKNEAELEGFRTVMVRDGVAMVKFLYWLTHNAGKEAMTEYSIGQKLKGFREEGENFVGESFGSIVGYKDNGAIMHYSAKKEGSKEVTNEETILVDSGGQYLEGTTDITRTFALGTPSEEFKRNSTLVLQGLIRLSMVKFPKGIKGVHLDAIARLPLWMEGKDFNHGTGHGVGSFMNVHEGPQNIRKDLNPQELLPGMVCSNEPGYYLEGHYGIRHENLIAVKEAEKTIHGTFYEFETLTFCPFFKDTVVKEILSESEIAWLNGYHKTCEEKLAPHLDGEVKEWFLQLVTPL	PGPT0006770_2379	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
BMS003_03090	567			hypothetical protein	ATGATACAAGAATATTTTCGAAGCTTTAATCTGTTTTCAGAAGATGAAATTGAAGAGTTTCTACAGCTTTTTGAAATCAGAAAACTGAATAAAAATGACTATTTCGTACAGGAAGGCGAGAGGTGCAGAGAAGTAGCATTTATCAATTCTGGGATTTTCCGGTCTTTTTATACTTCGGATGATGGGAAAGATATGACCTATTGCTTCAAATTTCCGAATACAATGATTGCTGCTTATTCATCATTTATATCAGGATGTCTCAGTAAAGAAAGCATTCAGGCGATCACCGATGTGGAATTGTTAATTCTTAAGAAAGAAAAAATGGATGTTCTCGTTCAGGATGCTCTGAACTGGACTCAGTTTTTAAAAATTATTGCTGAGCAGGAATATCTTGAACTTGAAAACAGGTTTTTTCAGCTTCAAAGGGATACGGCCACTCAAAGATATGCTGCGCTTATTAAAAACTATCCGGATTATATTCAGAAAATTCCGCTGCAATATTTATCATCTTATCTGGGGATTACCCAAAGGCATTTAAGCCGTATCAGAAAGGAAGTTTCTTTTTAG	MIQEYFRSFNLFSEDEIEEFLQLFEIRKLNKNDYFVQEGERCREVAFINSGIFRSFYTSDDGKDMTYCFKFPNTMIAAYSSFISGCLSKESIQAITDVELLILKKEKMDVLVQDALNWTQFLKIIAEQEYLELENRFFQLQRDTATQRYAALIKNYPDYIQKIPLQYLSSYLGITQRHLSRIRKEVSF				NA	NA	NA	NA	NA
BMS003_03091	1023			hypothetical protein	ATGGAGCAAAATATTTTAATTATCGGAGGAAACGGATTGGTAGGAAAAACAATTTCCCGCATCCTCACATCAAGGAACCCTCATCTGAATATATTTATTGGAGGAAGAAAAGGCGGAAAATCAGATAAAGACCTGAAAATTGATGTTACAGATCCTTCCGCTTTTAAATTGATTCTTGAGAAAAAAATACATCTCATCATCCTTTCTGTGAATGATAAAGATGACAATATACTTCGCTTTGCGATTGCTCATCAGATAGATTATCTGGATATTACAAAACCTACTCCGGCTTTGGTGAAGGCTTATGATATTGCCAGAAAATCAGACGTAAACAGCAGGGTAGTTTTCAGTTCAGGCTGGATGGGCGGCATTGTTCCGGGATTGGTGAATACGCTGTCGGCTTCAGGGGATATCAATGAAGTAAAACTCTTTGTCTATTATTCCGTAAAGGATCTTGCAGGCGAGAGTTCAGCTCACTTTATGGCAGAAAACGTAGCCGTTCCTTTTGTGCATTATAAAAATGATAAACCGGTTTCTATCAGACATTTTCTGGATACAGAAACCTTTAATTTTTCTTATGGAATTGGGCATAGAAGTGCCTATAATTTTGATGTTCCGGATCTGTACATTCTCAACAAAGTGGAAAGGATTTCTGATGTGAGTGTGAAAATGACTTATAATTCAAAATTTATTACCTGGCTGTTGGGATCATTCCAATATCTCAGAATTTATAATATTTTGTCATTAAAAGAACGTAAAATGATCTTCGGATCCAGTGGAAATGGCGACCAGGCTGTTTTTGAAATTGTAGTCGATGATCACTCCGGACAAAAGAAACTGAGTCTTCAAAGTTTGAAAGGGCAGGCAGAACTCACTGCATTATCAGCTGTTTTGCACACAGAAGAGCTTTTGAGAAATCCCCATGAAAATCAGGTGTATTTCAGCCATCAGCTGCATGAGCCTTTATCCTTAATGGCACAGCTTAATTCTTATGAATCTATCAATATCAATGTCACAAAATGA	MEQNILIIGGNGLVGKTISRILTSRNPHLNIFIGGRKGGKSDKDLKIDVTDPSAFKLILEKKIHLIILSVNDKDDNILRFAIAHQIDYLDITKPTPALVKAYDIARKSDVNSRVVFSSGWMGGIVPGLVNTLSASGDINEVKLFVYYSVKDLAGESSAHFMAENVAVPFVHYKNDKPVSIRHFLDTETFNFSYGIGHRSAYNFDVPDLYILNKVERISDVSVKMTYNSKFITWLLGSFQYLRIYNILSLKERKMIFGSSGNGDQAVFEIVVDDHSGQKKLSLQSLKGQAELTALSAVLHTEELLRNPHENQVYFSHQLHEPLSLMAQLNSYESININVTK				NA	NA	NA	NA	NA
BMS003_03092	579			hypothetical protein	ATGAAAAAAATAGCCATTATCAACGGACATCCCAATAAAGAATCCTTCAATTTTGGGGTAGCAGAAGCGTACAGATTGGGAGCAATAGAAGCACGAGCTGAAGTGAAAGAAATAGTGATAAGAGATTTAAGCTTCAATCCCAATTTACAGTTTGGATATCAGAAAAGAATGGAGCTTGAGCCGGATTTGGTGAAAGCCTGGGAAATTATTCAGTGGGCAGATCATTTGGTCTGGGTACATCCCGTTTGGTGGGGAGGATTTCCTGCCTTAATGAAGGGGTTTATAGATCGTCTTTTTTTACCGGGAATGGCTTATAAATACCGTGAAAATTCAGTCTGGTGGGACAAGCTTTTAAAAGGTAAGACAGCCCGTATAATTACCACATTGGATCAGCCGGGTTGGTATTACCGTCTGTTTTTTGGAAGACCCAGCGTCAATCAGCTCAGAAAATCTATTCTGGAATATTGCGGTGTGAAACCCATTAAGCTGACTTATATCGGGGTAATCCGGAATTCTAAAGATGAACAGCGGGCTCAATGGTTGGAGAAAGTAAAAGAATTAGGAAAGAATTTGAAATAA	MKKIAIINGHPNKESFNFGVAEAYRLGAIEARAEVKEIVIRDLSFNPNLQFGYQKRMELEPDLVKAWEIIQWADHLVWVHPVWWGGFPALMKGFIDRLFLPGMAYKYRENSVWWDKLLKGKTARIITTLDQPGWYYRLFFGRPSVNQLRKSILEYCGVKPIKLTYIGVIRNSKDEQRAQWLEKVKELGKNLK	PGPT0009455_2115	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS003_03093	723			hypothetical protein	ATGCCAAGCCTGCCAAAATGGATCAATGATACAGTAGAAAATGTATGGTCCTCAAAATTTAAAGAATGTACCATTAGCCATATAGAAAAAATCACGGATGATCTTTGCTGTATACGTTTTAAAACCAATTTACAGGATGTTTCCTACGAACCGGCCTACGCCATAGGAATAAGGATCAATGACAGGGATTTCAGAAATTATTCTCCTTTCAACTTCAACAGGGAAGCCGGAACTTTTGATGTCTTATTCCATCTGCATGATTCCTCTGCAGCCGGAAGTCATTTCGTAACCCAGCTGGCAAAAGGAGATTCTATCAAACTTTTAATGCCGAGAGGAAAACAATTCTTTACTCCTGATGCCAGGATTCATTTTTCTGTGGGAGATGAAACGTCATTGGGAAGCTCGCTTTCCATTAAAGAAGCTGTGGAAGAATCCGGTTCCTCATTCATTTGTCTTCATGAGTTAGAGGAATGTTCTGCGCTGGAAAAACTTAATTTATATGGCTATCACAGTCCTAAAAACAATACTATGAGAATGATTGAAGCTTTAAATGATTTTCTGAGAGAAGAAAAAGAGACGATTTCAGATGATGAAGTTGTTTTTTATCTCACCGGAAATGGGGAAAGAATGTCATTAATCAGGAAATTCCTTAAAGCAAGAGGTGTCTCTCTCAAGCGTATTAAATCACAGGCCTATTGGATTGAAGGTAAAAAAGGGTTGTAA	MPSLPKWINDTVENVWSSKFKECTISHIEKITDDLCCIRFKTNLQDVSYEPAYAIGIRINDRDFRNYSPFNFNREAGTFDVLFHLHDSSAAGSHFVTQLAKGDSIKLLMPRGKQFFTPDARIHFSVGDETSLGSSLSIKEAVEESGSSFICLHELEECSALEKLNLYGYHSPKNNTMRMIEALNDFLREEKETISDDEVVFYLTGNGERMSLIRKFLKARGVSLKRIKSQAYWIEGKKGL				NA	NA	NA	NA	NA
BMS003_03094	861	rhaS_15		HTH-type transcriptional activator RhaS	ATGAAACAGACCATCCCTACTTATGATTTAAATGGCATTACCCATCATCAGTTCCATATCAAAAGGATGGATGAAAGTACCCAGGACGCCAAAGACCTCCTTCTGGATAAAGGCATACACCGGGACAGTCACTATATTTTCACCTGTATGGAAAGCGGACATGTAAGAATGATGGTTGATTTTAAAACAATTGAAACCAGAGATTCCACTATTTTTTGTGTATTGCCGGGGCAGGTACACCAGGGACTTTTAATGAAAAATGTCTGCGGATGGTTTGTTGCTGTAAAAGCTGAACTTGTTCCGGATACAGTACGCTCTTTTTTTGATGAATCTCTGGGTGAAATACAGCCATTGCCTATGGATAAAAAGCTGGTCAAGAAGATGAACACAGTTGCCGGGATGCTTCATGACGCCTATACGAACGAAATGCTTTCCACTAAAGAAGGATTTCTGGTTGTTCAGTCACTACTCAATGCCTTTTTGGGAATGTTTTCTTTGATGTATTCTCAGAAAAGTATTTTACACGTTTCAGGGGAGAGCCGTGCTTTGCAACTTTCAAGAGCATTCAGAATTCTGGTTCGGAAAGATTTTAAAACCATGAAAAGTCCATCAGAATATGCAGAAGTATTAAATATCACCAGAGGATATTTAACGGAAACGGTTCGCGAGATCACAGGAAAGTCTGCACAACACTGGATTCATCAGGAAATTCTGATTGAGGCAAAAAGATTGCTGGTATATACCAATCTGAGTGTAAAAGAAGTGGCTTATGAACTGGGATACAGTGATCACACCTATTTCAGCCGTTTATTTTCCAAGCTGGAAGATCAATCTCCTTCTGAATTCCGGAATCAACACTAA	MKQTIPTYDLNGITHHQFHIKRMDESTQDAKDLLLDKGIHRDSHYIFTCMESGHVRMMVDFKTIETRDSTIFCVLPGQVHQGLLMKNVCGWFVAVKAELVPDTVRSFFDESLGEIQPLPMDKKLVKKMNTVAGMLHDAYTNEMLSTKEGFLVVQSLLNAFLGMFSLMYSQKSILHVSGESRALQLSRAFRILVRKDFKTMKSPSEYAEVLNITRGYLTETVREITGKSAQHWIHQEILIEAKRLLVYTNLSVKEVAYELGYSDHTYFSRLFSKLEDQSPSEFRNQH				NA	NA	NA	NA	NA
BMS003_03095	636			hypothetical protein	ATGATTCCATTCCAAGAGCTTCCGCTTTTTATGATTGCTGCGCTTATTTTAGCCATCAGCCCCGGTCCCAATATGATTTACCTGGTTTCAAAATCCATCACACAGGGGAAAAAATCAGGATTTATTTCGTTAACGGGAGTTATCTGTGGATTTATATTCCATATCATTATGGTATCATTTGGCCTTACTGCGGTACTGCTGGCTGTTCCATTTGCTTATACGATGCTCAAGACTGCGGGAACGGTTTATCTTCTCTACCTGGCTTATCAGGCGATCCGCCCCAACAGTAAAAACATTTTCGATGTAGATGAGAACACGGCTCATGACAATCCCAAAAAGCTCTTTACAATAGGCTTCTTGACAAATGTTCTTAATCCCAAAGTTGCCGTTTTCTATTTGTCATTCTTCCCTCAGTTTATTAAACCGGGATATGGATCTATTCTTACGCAAAGCTTAGAGCTCGGGATCATCCAGGTAGCATTAAGCTTCAGCATTAATTTTCTGATTGTACTCACCGCCTCAAAGGTGGCCGTCTTTTTTTCTGACAATCCGGTCTGGATAAAAGTTCAGAAATGGTTCATGGCCAGTGTACTAACTTATTTAGCAATAAAAATGGCATTTACAAAAGCAAAATAA	MIPFQELPLFMIAALILAISPGPNMIYLVSKSITQGKKSGFISLTGVICGFIFHIIMVSFGLTAVLLAVPFAYTMLKTAGTVYLLYLAYQAIRPNSKNIFDVDENTAHDNPKKLFTIGFLTNVLNPKVAVFYLSFFPQFIKPGYGSILTQSLELGIIQVALSFSINFLIVLTASKVAVFFSDNPVWIKVQKWFMASVLTYLAIKMAFTKAK				NA	NA	NA	NA	NA
BMS003_03096	714			hypothetical protein	ATGACTACTGAAAACATCTTTGAAGCTATCAGAAAATGGAAAAATCTTATTGATTCTTACAAAAACGGAATTGATATGAATGGAGCAGAAATGTTGAAATATTTAAATCAGGGAACTCACTTCAGCGTTTCAGGTGAAGAAATTGAACAATGGAAAAAAAATCTTGAAACGGAAGAACTGAAGAAGATTCATGCTTATGTAGGCATTCATGAAGGCCAGCTGAAATTTTTTCTGATTGATTCTAAAAGTGATAAAGATGCCAATTTCAATGCTATCCTTACCAAAGATTTTTTACGTGACTTTAGCGAATCCAAAATAGACAGCAGTAATGATATCGTAGCAGATGTACCTCCCATTTCAGCTGAATCTGCCATTAACCGGAACTTCAGATGGAATATGTTTGGGACTTCCTGGCTGCAGGCCCAGAAAACAGAAGATATCTTTCAGCTGATTTCCATACCATTTTCAGATTATGAAAAGATGGGGATTACAGGGGTTCAGACATGTACCAGTTTCTTTGGACTTACCGATGATCTGGAGAAAAAAAATCCGGACTTTCCTTATCATATTGAAATTATTACAGTGAAAAGCCTCGCCATTAATTATATGAGCGAGACCGCAGAAAATTATTCTACCCCAAGACCTCCATTTACCATTAGTGATACTCTGAATGATTATCAACTTCTGAAGAAAAGCACCCGTGTTTTCGTATAA	MTTENIFEAIRKWKNLIDSYKNGIDMNGAEMLKYLNQGTHFSVSGEEIEQWKKNLETEELKKIHAYVGIHEGQLKFFLIDSKSDKDANFNAILTKDFLRDFSESKIDSSNDIVADVPPISAESAINRNFRWNMFGTSWLQAQKTEDIFQLISIPFSDYEKMGITGVQTCTSFFGLTDDLEKKNPDFPYHIEIITVKSLAINYMSETAENYSTPRPPFTISDTLNDYQLLKKSTRVFV				NA	NA	NA	NA	NA
BMS003_03097	573			hypothetical protein	ATGCTGATCAAAGAAGGGGTAAAAGCGAAACTCCCTGTTATTGTGCTTCTTTCAGGAGAATTTATGCTGGAGCTGTCGGATTTAGCTGGCCGGCTGATGAAATTAAATACACTCAATACCTATAATTATACATTGAGCCAGTTTTTTGGTTTGATGGTTCTTACAGTGATCTATGGCAATTACTACATTCAGCTTTCCCGTGAGGTAAAAGGAATGATCTATTGTTATGCAATATTAACATTGATTGCCAATGTGATGTATGTGCAGGATGATATGCAGGTAACTTTTTATTCCAATATTATCACCAGCATTATTATTTGCAGTTATGCGGCCTCTTATTTTATGAAAATCATTAGGGAAGGAAGAACAGACAGAGATATGTTTATTGTAAATATCATTGTTTTCCTGTTTTTTTCTATTGAATGTCTCATATCCACTACCTTTAATTTTTTAATCAGCAACCACCTGAGCTGGGTAGCCCCTATCTGGCTTTTCAGAGGCCTTCTGCTATTGTCTTTTTATATTGCTTTTATTAATCTGGGATGTGGCGTTGGGAAAATCAGGATCAGATAG	MLIKEGVKAKLPVIVLLSGEFMLELSDLAGRLMKLNTLNTYNYTLSQFFGLMVLTVIYGNYYIQLSREVKGMIYCYAILTLIANVMYVQDDMQVTFYSNIITSIIICSYAASYFMKIIREGRTDRDMFIVNIIVFLFFSIECLISTTFNFLISNHLSWVAPIWLFRGLLLLSFYIAFINLGCGVGKIRIR				NA	NA	NA	NA	NA
BMS003_03098	750			hypothetical protein	ATGTGGCGTTGGGAAAATCAGGATCAGATAGTTGTATGGATATGGATCGGTATTGGATTGTTTTCTTTAACAACATTATTTGTTACATTGTTGGTTATTAGTTATTTAAAAAATATCAGGAAAAACAAGCAGAAAGTTTCCCGGCTGGTCCGGAATTCAAAAAATGAACATTTGGAAAATATGCTGCTTTTGCAGGAACAAGACAGGGAACGCCTTGCAGAAGAGCTTCATGATAATATCATTTCACAGCTGAACCTTATCCGTTTGAATCTTAATGATAAAAAAACTGAAGAGCTTAACCGTGATTTAAAAAGATCAATGCAGCTGATAAGGGAATTGTCTCATAATCTTACCCCTCCTGATCTCGAAGAAGTTGAGCTGGCAGATTTACTGGCAGATTATCTGGAGCAGGTTAATAAAAATGTAGAAGTGATTTTTCGGTATTTCACTATACAGACATCTATCAGCAGTCCTGTAAAGCTCAATCTTTTCAGAATCGTACAGGAACTTATTACCAATATTCTGAAACATGCGGAAGCAACCAGAGTAGATGTCTCCTTAAGGATTTCCCTGAACTATCTGATGCTGACTATAGAGGATAACGGACGTGGATTTATCTCCGAAACTTCATCGGGAGGTATTGGTCTGAAAAATATTCAGACAAGAGCACAAAAAATTAAAGCAATTTATAAACTTAAAACCCAGCCGAAAAAAGGTACAAAATTTATCGCCTGTATGGCAATACAATAA	MWRWENQDQIVVWIWIGIGLFSLTTLFVTLLVISYLKNIRKNKQKVSRLVRNSKNEHLENMLLLQEQDRERLAEELHDNIISQLNLIRLNLNDKKTEELNRDLKRSMQLIRELSHNLTPPDLEEVELADLLADYLEQVNKNVEVIFRYFTIQTSISSPVKLNLFRIVQELITNILKHAEATRVDVSLRISLNYLMLTIEDNGRGFISETSSGGIGLKNIQTRAQKIKAIYKLKTQPKKGTKFIACMAIQ				NA	NA	NA	NA	NA
BMS003_03099	681	nreC_2	COG2197	Oxygen regulatory protein NreC	ATGGAACACTCAAAAATTAAAATCGGGATTGCCGATGATGACCTGCTGTTTGTACAGCTTTTGAAAAATTATATTGAAAACAATGAAGATTATCAGGTTGTTCTTACTTCTACAGGGGGACATCAGTTTCTCGCAGAATGGGATTCCACTGCTTTAGATATTCTGATCCTGGATCTGAGAATGACAAATGGTGACGGTCTTGAAGTAATGGCCGAGCTTGCCAAACAGGAAACAGAAACAAAAATCATCGTTCTTTCCAGCTTCTACCGCCGCTCATTCATGGGACAAATGCTGAAAATGGGAGCCCACGCTTTTTTATCCAAAGAAATTGAGCTGGAAGAACTTCTGGCGGTCATCAAAACCGTTCATCATACGGGACATTATTTTTCCAATGATCAGATAGATGTTATGAGAACCCAGCTTTCCAATAAACTTCCGGAATTTCACGCATTTTCCAGGAACGAACTCACAGAAAGAGAAATAGATGTTTTACGGCTGGTCTGCCAGCAGCTGAGTACCAAAGAAATTGCAGATTCTCTTTTTATCTCACCCAAGACGGTAGAAACCCATAAAACTAATCTTATGATTAAAACCGGGGTGAAAAATATGGCTGGACTTGTTATTTATGCCGTGCAGAATAAGGTGATAGATCCCGATGAAATTGTACTGTTTGATAAATAA	MEHSKIKIGIADDDLLFVQLLKNYIENNEDYQVVLTSTGGHQFLAEWDSTALDILILDLRMTNGDGLEVMAELAKQETETKIIVLSSFYRRSFMGQMLKMGAHAFLSKEIELEELLAVIKTVHHTGHYFSNDQIDVMRTQLSNKLPEFHAFSRNELTEREIDVLRLVCQQLSTKEIADSLFISPKTVETHKTNLMIKTGVKNMAGLVIYAVQNKVIDPDEIVLFDK				NA	NA	NA	NA	NA
BMS003_03100	264			hypothetical protein	ATGCCAGTAAACGAACAAATCACAGACGCAGTAACACAGTCGAACGTAAAAGTAGTAGCAGAATCTCCTGCAATGGCTTTAAGCAACGTATATCAATCTGCTGCCCATTCTACAGGAATCATGTTTGAAAATGCAGTGAATGCACAAAACCAGCAGAACATTTTGGGTCAGGCAGCAACCACTCAGGGTATTCTGCAGATCTATAGCCTGGACACTGTAGCAGATGCAGTTTCTATTGCTAAAGTATTACATCCTAAATTATAG	MPVNEQITDAVTQSNVKVVAESPAMALSNVYQSAAHSTGIMFENAVNAQNQQNILGQAATTQGILQIYSLDTVADAVSIAKVLHPKL				NA	NA	NA	NA	NA
BMS003_03101	258			hypothetical protein	ATGCCAGTAAACGAACAAATCACAGACGCAGTAACGCAATCCAACGTAAAAGTAGTAGCAGAATCTCCTGCTGTAGCTTTAAGTAATGTATATCAGACAGCTGCACATTCTACAGGAATTATGTTTGAAAATGCAGTGAGCGCACAAAACCAACAGAATATTGTCAACCAGGCAGCTACTACACAGGGTATTGCACAGATCTACAGTCTGGATACCATTGCAGATGCTGTTTCTATGGCTAAAATCCTTACTCCGTAA	MPVNEQITDAVTQSNVKVVAESPAVALSNVYQTAAHSTGIMFENAVSAQNQQNIVNQAATTQGIAQIYSLDTIADAVSMAKILTP				NA	NA	NA	NA	NA
BMS003_03102	258			hypothetical protein	ATGCCAGTAAACGAAAAAATCACAGACGCAGTAACACAATCCAACGTAAAAGTAGTAGCAGAATCTCCTGCCATGGCCTTGGCTAACGTGTATCAATCTGCTGCACATTCTACAGGAATCATGTTTGAAAATGCAGTGAATACCCAAAACCAACAGAATGTTGTCTCCCAGGCAGCTACTACACAGGGGGTAACTCAGATCTACAGTCTGGATACCATTGCTGATGCTGTTTCTATGGCCAAAATCCTTAATCCGTAA	MPVNEKITDAVTQSNVKVVAESPAMALANVYQSAAHSTGIMFENAVNTQNQQNVVSQAATTQGVTQIYSLDTIADAVSMAKILNP				NA	NA	NA	NA	NA
BMS003_03103	258			hypothetical protein	ATGCCAGTTAACGAACAAATCACAGATGCAGTAACGCAGTCGAATGTAAAGGTAGTAGCAGAGTCTCCTGCAATGGCGATAGCCAACGTGTATCAATCTGCTGCCCATTCTACGGGGATCATGTTTGAAAATGCCATGACCAATCAAAATCAGCACAATATTGTGACACAGGCAGCTACTACGCAGGGTATTACTCAAATCTACAGTAAAGATACCATCGCTGATGCCATCTCAATTGCTAAAATCCTTAAACCTTAA	MPVNEQITDAVTQSNVKVVAESPAMAIANVYQSAAHSTGIMFENAMTNQNQHNIVTQAATTQGITQIYSKDTIADAISIAKILKP				NA	NA	NA	NA	NA
BMS003_03104	258			hypothetical protein	ATGCCAGTTAATGAACAAATCACAGACGCAGTAACGCAATCTAACGTGAAAGTAGTAGGAGAATCTCCTGCAATGGCTCTGGCCAACGTGTACCAATCTGCCGCCCATTCTACAGGAATTATGTTTGAAAATGCAGTAAATGCACAAAACCAGCAGAACATTTTAGGTCAGGCAGCCACTACTCAGGGTATTCTGCAGATCTACAGCCTGGATACAGTAGCAGATGCAGTTTCTATCGCTAAGATCCTTAAGCCTTAA	MPVNEQITDAVTQSNVKVVGESPAMALANVYQSAAHSTGIMFENAVNAQNQQNILGQAATTQGILQIYSLDTVADAVSIAKILKP				NA	NA	NA	NA	NA
BMS003_03105	228			hypothetical protein	ATGAACGAAATTGATACAATTATTACAGGAATGTCTACCGCCGTGCCTCAGGCTATTTCCACCCAGGTAAGTGCCCATTCTACCGGAGCTATGCAGATCAATTCAGCATTGAATCAACAAAGAAATACCATGACCGGGATCAGCAATTATGTCATGGGCTTAAAAAAGATGAGCCCGAAAAATATGAGAATAAAGGAACTGGATACATTCAGAAAAGGACGTTTCTGA	MNEIDTIITGMSTAVPQAISTQVSAHSTGAMQINSALNQQRNTMTGISNYVMGLKKMSPKNMRIKELDTFRKGRF				NA	NA	NA	NA	NA
BMS003_03106	384			hypothetical protein	ATGCGCAGAAGAACCCGTAAGAAGGCTCCCGTTCCCAAAACTCCGGCTTCCGTTACAGAGCCTGAAATGATAGAAAAAGAAATCATGCCTTTTGTTTTAAGACATGAAGATGAAATTGTAAGCTATATTAAGGAAAAAGCTGTTAAAGAAACGATGAAATCACTAGCTCCTCTTCTGGAAAAACTGGAAGAAGCCGTAAAGCAGCAGGAATCTGCACAGGCTCAGGTTGCTACACCGGCTCCTCCTGATACTCCCGTGATGAACTATGAAGAACAGTTGAAAAAGCTTCAGGAAGCATCATCGGCAAAGGTAAAAGAGAAAGAGCTCAAAATTATGGACCGAATGAACAAGCTGAATGCCAGATTCGGCAATATCCGGTCTTAA	MRRRTRKKAPVPKTPASVTEPEMIEKEIMPFVLRHEDEIVSYIKEKAVKETMKSLAPLLEKLEEAVKQQESAQAQVATPAPPDTPVMNYEEQLKKLQEASSAKVKEKELKIMDRMNKLNARFGNIRS				NA	NA	NA	NA	NA
BMS003_03107	831			hypothetical protein	ATGAATTATTCCTCAGTAACCAAACCCGCCAAAATTTTAAATCTCGAAAGTTTACATGATTTAAATGAAAGACTTTATCTGATTAAAAACAGCGAAATCAATTATCTGGACACCAAAAGTACAGAACCCAGAAAAACGGAGCACAATTCGGAGCGTTTTGTATTTAATCTTCAGACATCCGATATTAATATTCAGCCATCTTTAAGACTGGTCAACTGCATCGGCAGAGGGGCAAAAAGGTATAATAATTTTCAGTCTTTTGTGGTGGAACCTAAAGATAAATCCACAGGGATTGCCGTCATAATGGTTAAAATGGATGATCCAAAGGATTTTTACTGTAACCTAAGGATTTTACCTCTTACCACTCTGAACGAAATTGCCATGCCGGATTATGACTCAAAACTTCTTACGATCAATCTTGAAAGATCAAAATGGACGCTGAAAACAGATATAACGATTACTCCATCAGATACCGGTGAAGCACAATATTCCGTACACGATGTGGATGTAAGTGCCATTTCAGAACTGGTGACTCAGGATGAAATGGTAGCATTAAAAAGGGAGCTGGAATTTCAGGCTTCCAAGCTGATTGCTCATTATTTTCAGGAGGTCCTGAGTATTGTAGTGAATGAGACGCCTCCATCCGGCAGCAAGTCACTTATTATTCCGGATGACTATATCCTGGCTCTTCCTCCGTACCAGTTAAAGGAAATGTTGTCTGCCAGCGCTATTTCTACGTGTATTGCTTTAGAAATTACAGGATATAACGTTGTTAAAGATCTCAACCGCGACTGGAAGTCTGCCTCTGCATTTATTAATTATTTGCTGTAA	MNYSSVTKPAKILNLESLHDLNERLYLIKNSEINYLDTKSTEPRKTEHNSERFVFNLQTSDINIQPSLRLVNCIGRGAKRYNNFQSFVVEPKDKSTGIAVIMVKMDDPKDFYCNLRILPLTTLNEIAMPDYDSKLLTINLERSKWTLKTDITITPSDTGEAQYSVHDVDVSAISELVTQDEMVALKRELEFQASKLIAHYFQEVLSIVVNETPPSGSKSLIIPDDYILALPPYQLKEMLSASAISTCIALEITGYNVVKDLNRDWKSASAFINYLL				NA	NA	NA	NA	NA
BMS003_03108	189			hypothetical protein	ATGAGAAAAAGCTTTATCACGGCTGATCATGGGGGAAAATTAGTATTAAAGTCAGTAAAACTGACACAGCCGCTCGTAAAACCAGAGATTCAGGAAGCAGTAATTCCTTCAGAAGAGTCTGAAGTACACCCAAGGAAAAAAACAATAATAGCCCAACTCATTGAAAAAATTAAAATAAATAAGAGATGA	MRKSFITADHGGKLVLKSVKLTQPLVKPEIQEAVIPSEESEVHPRKKTIIAQLIEKIKINKR				NA	NA	NA	NA	NA
BMS003_03109	516			hypothetical protein	ATGAGTGAACATAACAGTGAAACCCAACAATCCCAGGCAGCCAATGCTACCACTCCGGCGGAGAAAGCTGTAGTATTTGTGAACAGTGAGGTACTCGCTCCTCCAAAGGCTTCCCCAATGACCGGAGTAACGAAAGTAATGATAGAACAGTCTACAGGAATGATGGTTCAGGATTTACAGTCTTTTTTAAAAGGATTCGAGCAAGTAGGCCTTATCGCATTAAGCAGGCTGGCCAATAATCTACTGACTTATGGAACTACGTTCGGCCCGGCTCCGGGAAGTAAAGAAACCTCTGTTCAGACGGCTGAGAACCTTCAGAGCCCGGATGCAGGAAAAGGCAATGAAATGATGAAGGACTTATTCAAAATGGTAAGTGAATATGCTGAAGTAAAGGCTAAAATTTCCAATACTATTTATAATGTCAACACACTTCCTGTCTCAGAAGCTCTTCCTTCTCCCCCATCTTATACGGAAGTTGCCCCTGAAGCTGAAGATCCTGAAAAAAAAAACGAGTAG	MSEHNSETQQSQAANATTPAEKAVVFVNSEVLAPPKASPMTGVTKVMIEQSTGMMVQDLQSFLKGFEQVGLIALSRLANNLLTYGTTFGPAPGSKETSVQTAENLQSPDAGKGNEMMKDLFKMVSEYAEVKAKISNTIYNVNTLPVSEALPSPPSYTEVAPEAEDPEKKNE				NA	NA	NA	NA	NA
BMS003_03110	216			hypothetical protein	ATGGCAGATACAGTAAACACCCAGACTACAGATGCAGTAACGCAGACTAACGTTACCGTACTTGGTGAGTCTCCCGCACAGGCTATGAGTATGCTTTACCAGATGGCCACGCATGCCAGTGGAATTTCCATTCAGAATTCTGTAACGAATCAGCAGAACTTAAACCAACTCAACCCTGCGATTGTTGCAGATGCCATTAAAATTTTAAAAGGATAA	MADTVNTQTTDAVTQTNVTVLGESPAQAMSMLYQMATHASGISIQNSVTNQQNLNQLNPAIVADAIKILKG				NA	NA	NA	NA	NA
BMS003_03111	1452			hypothetical protein	ATGAATAATCAGAACAACACAAATTCGGAAGCGGTAATTCCCATTATAATTGTGCAACCGGGATATGCCACAGGAGACATGTTTGCTATTGCTGCAACACTCATCAATAATAAACAATATCATGTATTAATATCTACAACGATGGATGAATATGAAAATATGAAAGATCCTTATGATAACAGTAAATCCATTATAGAATTCTACAAAAGTTCGGGAATAGAAGAATACAGGATACATACTCATAATGTGAATGAAGTGAGAGCTCCCGGACTGGCAAGTCAATTGAAAAAAAAAGCTGTCAGTCTTTTAAAACATTATAATATATCGGTTGGAGAAATAATGAGAAATCATTATAAACCCGTAGGAGAGGGAACCCAGTATATCGCCAAAAATTTTTCTGAGGAAATGAGAAATCAATTAAAAGATGCATGGAAGATCAACGGAAGCCAGGATGAAGCGATCAAAATATGGTTTGAAAAACAAGGAATACCTAGAAGCGGAAATAATTTATTGATTTTATGGTCGCGTTTCAGCGGAAAAGGCGGAGATATTCACATAGAGCATGATACCAGCTATTGGGGAATCAGGCAGATTGTACACAGAGTGGCCGATATGTACGATGCTGTTATCATTACCGGTGACAAAGGATATGTGAAAGAAAGAGCAAAGAAATTTGATGTAACGGCTGATGAAATAAACAGAAAGTCCCAGTCCGGAAAAGTATTCAATATCACAGAATTCTGGAAAGGAGACTCTCCTGAACTGGAAGCATGGGGAGGAAACACCCGTCTGGGACAGTTGAAACTGTATGATTATTTCCAGAGACATTTTGACAATGTGAAGCATCTTGGATTCAGAAGCGGTAACCTTGAAGTGATGGCCATGCTGGGATATCAGATCCGGTATATGGAAGAAAAAGGAAGTGAAAGTGGAGGCAGAATGACCGCATGGTTTGAGAGGGAGGATGGTAAAACAGAAAGTGGCGGTAAAGCGACTGGATATGAAAGACTTTTATTAGAGCAGCCTCCTACAAGATCCGGTAAGTTCATTCAATACAAGATTCAGGAAATAAACAGTAAGACCCGGGAAAAAAAAGAACTCTTAGAACAACAAACTAAAGAATTAGAAAGAAACGGAGAAAGCTCTGATAGTCCAATGATGAAAGCTCTGAAGAAAGAAATAAAAATAATAGATGATAATGGTGAAGCCAGAAAGAAAAGATATGCAGGTCCTGAAATGGCTCCTTCCCGTAAAGATAACACTCCTGCAACTCCTATATCTCAACAAGACAAAGAAAGATTCTCCGAAGGGTTTAGCGACCATGATATGGAGGTTATTCTCAGTTATTTGCAGCCCTCAGGCTGGGAAGAAAGAGAAACAGGATATGAACGTTATATTTCTCCAAAAAATAAAAGCTATGAAAGACTGCTGGAGAGCGCTGGAAATGTCTGA	MNNQNNTNSEAVIPIIIVQPGYATGDMFAIAATLINNKQYHVLISTTMDEYENMKDPYDNSKSIIEFYKSSGIEEYRIHTHNVNEVRAPGLASQLKKKAVSLLKHYNISVGEIMRNHYKPVGEGTQYIAKNFSEEMRNQLKDAWKINGSQDEAIKIWFEKQGIPRSGNNLLILWSRFSGKGGDIHIEHDTSYWGIRQIVHRVADMYDAVIITGDKGYVKERAKKFDVTADEINRKSQSGKVFNITEFWKGDSPELEAWGGNTRLGQLKLYDYFQRHFDNVKHLGFRSGNLEVMAMLGYQIRYMEEKGSESGGRMTAWFEREDGKTESGGKATGYERLLLEQPPTRSGKFIQYKIQEINSKTREKKELLEQQTKELERNGESSDSPMMKALKKEIKIIDDNGEARKKRYAGPEMAPSRKDNTPATPISQQDKERFSEGFSDHDMEVILSYLQPSGWEERETGYERYISPKNKSYERLLESAGNV				NA	NA	NA	NA	NA
BMS003_03112	570			hypothetical protein	ATGTCCAGGCTAAAAACCATAAGAGAACAAAAAAATATAACTCAGGAAGAACTGTCGGAAAAATCAAAAATTTCTGTAAGAACTATTCAGCGGATAGAAGCAGGGACAGAACCCAAAGGACATACACTCAGAACCCTTGCACAGGCATTGGAAATACAGGAAGCTGAATTGCTGGAAAATCAGTCTAAACTCGTTCCGGAAGAAGAGACTGAAATAAGAGTGGAAGAAGATTCACTACCGGTCAATTATTCATATATCAAAATCATTAACCTTTCATCCCTCATATTTACCCTTTTACCCCCATTGAATATTTTCGTTCCGCTGATACTTATGTTTACAATGAAACAGCAGAATAGTCTTGCAAGACAGATTATTTCAGTTCAGATGATATGGACAGTGATGGCGCCCATCATATTTATGTTAGGGATCTTTTTAAAGTTCGGAAAACAGTTTACATTAATCCTTATGATCCTGATCGTTCTCTCTAATATTTTTATCATCCTTAGAAATGCAGCTGAAATAGACAGAAATAAAAAACTTTATTTTAGGCTGAAATTCAGTATGATATAA	MSRLKTIREQKNITQEELSEKSKISVRTIQRIEAGTEPKGHTLRTLAQALEIQEAELLENQSKLVPEEETEIRVEEDSLPVNYSYIKIINLSSLIFTLLPPLNIFVPLILMFTMKQQNSLARQIISVQMIWTVMAPIIFMLGIFLKFGKQFTLILMILIVLSNIFIILRNAAEIDRNKKLYFRLKFSMI				NA	NA	NA	NA	NA
BMS003_03113	1488	dap_3		D-aminopeptidase	ATGACAAAGCAGACTCAGATTTTCCTTACTCTCTGTACTTTATTCTTTAGCGTAACACAGGCACAGATCAAAAATACAGATCCTCTTTATAAAATAATGATGTTGAAAGACAGTCTGCTGTTCTCCGTGGGTTACAATACCTGCAACATTAAGCAGGTGGAAAGTCTGTTAAGTGACAGGTTTGAATTTTATCACGATAAAGGAGGCTTTGAGGATAAGGAAAAATTTATCATTGATCTTAAAAACGGCCTGTGCAAATCTCCGGAAACTTATCAGGTGAAGAGAATGCTTATTAAGAAAAGCACTGAGATCTATCCCATGTATAAAGACGGACAGATCTATGCTGCCATTCAGAACGGAGATCATCTGTTTTATGAAAAAAATGGAGATCAGGCAGATAAACTGGTTGGGGAAGCAAAATTCACCCATCTTTGGCTGCTGGAAAATACTGAATGGAAGCTTAAGAATTCATTGAGTTTTAGTCACCATCCGAAACAAACCACCGACAGTGAAACAATGTTTGACAACGATCATTCGATGCAAAGCTGGCTGAAAGAAAATAATATTCCTATTCTGGGACTGGGCATTATCGAAGAAGGAAAGCTGAAGCAGGTAAAAGTTTTTGGAGAAATAAAGAAAGGAATATCAGCCCCACCTAATGCCTTCTTTAATGTGGCTTCTCTTACCAAACCTGTTACAGCAATGGTAGCCCTACGCCTGGTAAGTTTAGGAAAATGGAGGCTGGATGATCCTTTAGATGCTTACTGGGTAGATCCTGACATTATTGCCGATCCAAGACATAGAAACTTGACAACAAGAATTATTCTGAGCCATCAGACTGGTTTTCCCAACTGGAGAAGGATGAATACGGATAAAAAGCTGAACTTTCAGTTTGATCCCGGCACAAAATACCAATACTCAGGAGAAGGTTTTGAATATCTTCGTAAAGCACTGGAAAAAAAGTTTGGAAAATCACTGGACCAGCTTGCAAAAGAGTTAGTTTTTCAGCCTCTCAAAATGAGTGACACAAACTATATTTGGGATCAGGCTACTGATGAAACAAGATTTGTAACAGGATACAATGAAAGGGGAGATGCCTATCCCTTAGAAAAAAATAAAACAGCCAATGCTGCGGATGATCTTCATACGACCATAGAAGATTACGGAAACTTTATGGTCAGTGTCATGAAAGGTAAAAATCTGAAACCTGAAATATTCCGGGAAATGATCAAAAAACAGGTAAAGGTTAAAGAAAATAAATATTTTGGATTAGGTTTTGAAATCTATGCTCTGGGAAATCATAAATATGCTTTGTCACATGGGGGAGCAGATGAGGGAACAAGATGTATTGCTCTGGTAGTGCCGGATTCAGGAAAAGGAATTATAATTTTTACCAATATTGATGACGGCTACAAAGTATACGAAAAACTGGTTACTCATTATCTGGGAGAGGAGGGACGAGAAATTGTTGAAATAGAAACTAAATAA	MTKQTQIFLTLCTLFFSVTQAQIKNTDPLYKIMMLKDSLLFSVGYNTCNIKQVESLLSDRFEFYHDKGGFEDKEKFIIDLKNGLCKSPETYQVKRMLIKKSTEIYPMYKDGQIYAAIQNGDHLFYEKNGDQADKLVGEAKFTHLWLLENTEWKLKNSLSFSHHPKQTTDSETMFDNDHSMQSWLKENNIPILGLGIIEEGKLKQVKVFGEIKKGISAPPNAFFNVASLTKPVTAMVALRLVSLGKWRLDDPLDAYWVDPDIIADPRHRNLTTRIILSHQTGFPNWRRMNTDKKLNFQFDPGTKYQYSGEGFEYLRKALEKKFGKSLDQLAKELVFQPLKMSDTNYIWDQATDETRFVTGYNERGDAYPLEKNKTANAADDLHTTIEDYGNFMVSVMKGKNLKPEIFREMIKKQVKVKENKYFGLGFEIYALGNHKYALSHGGADEGTRCIALVVPDSGKGIIIFTNIDDGYKVYEKLVTHYLGEEGREIVEIETK				NA	NA	NA	NA	NA
BMS003_03114	546			hypothetical protein	ATGAAGAAAATAATACTGCTGGCTTCAGCTCTTTTTGTTCTCAATTCATGTGTGGTAAGAACAGCAACAAAGGTAGTTTCAGGAGCTGTAAACTTAGGATATAAAGCAGTAAAAGGAACGGTAAACGGAATCAGCTGGGCGGTAAGCAAAGCCAAAGGAAAAATAGATGAAGACCGTCTGGACGGAACCTGGAAAGTAGTAGGAGTATACCGTGGTTCTTTTGAAGATTTTTCTAAAGATCAGAATCCTGACGGGTCATTTACTTCAGACTGTACAGAAGGTTTTGATCAGATTATTTTCAAAGCTAAAAAATCTAAATTCAAGCCGGTACACTGCAGCTCCCAGGATGAAGACTGGGTAAAATATTCTATGGAGTTCGGTAAGAACCCTTCAACAAAAGAAAAGGAAAATTATATAGAGTATGGCTCTCATAATTATATTTCTGTAATTGATGTGAATAATAAAACGATGATGCTGGAAGGAAACCTTATGCCTAAACTGGCATTTTCCGGAGCTAAGCTGTATCTTTTACAGAAAATAAAATAA	MKKIILLASALFVLNSCVVRTATKVVSGAVNLGYKAVKGTVNGISWAVSKAKGKIDEDRLDGTWKVVGVYRGSFEDFSKDQNPDGSFTSDCTEGFDQIIFKAKKSKFKPVHCSSQDEDWVKYSMEFGKNPSTKEKENYIEYGSHNYISVIDVNNKTMMLEGNLMPKLAFSGAKLYLLQKIK				NA	NA	NA	NA	NA
BMS003_03115	279			hypothetical protein	ATGAAGTATTTTATTTTTATACTATTAGCTACAATTTTAAGTTGTGAAAAGAGTAAAACCGATAAAGAAATTGCAATTTTTATAGCTGAAAAAAAATGGAAAGAAGTTTATGGAAAATCAACAATAGATAAACAAAAGCCGTTTGTAGCAGAAAAGAAAAATGATAGTATTTGGCTTGTGCATGGAAACTCACCAACACCACCGATAATAGGGGGTGTTGCTTATGCCGAAGTAAATGTGAAAACAAAAAAAGTGATTGAGTATACCCATGGAGAATAA	MKYFIFILLATILSCEKSKTDKEIAIFIAEKKWKEVYGKSTIDKQKPFVAEKKNDSIWLVHGNSPTPPIIGGVAYAEVNVKTKKVIEYTHGE				NA	NA	NA	NA	NA
BMS003_03116	648			hypothetical protein	ATGAATAGTGAATTTAATAAATGGCTATATAAGAATATCTCCATAAATTCCGATGGAAAAAATTTATCTACAGATGGACTAATCCCTATTATTAATAAAGAATTAAAACTGCAGATAGCTGATCAAAGTAATGAAGCTTATTTAGAAGTAATGAAATATCTGATTGATTATTGCGTAGATACTCATCTAGTGATCATGGATAACCAGAATATAGGATATTATTCGTGGTTATTACAATTTCGGTCGGAAGGGAGAAACTTTTATGATCTGTATGAAGCAAATTCTTATGGTGATGGGTTTAATAGAGGTTGTGATACCGCAATTTCATTTGTTAGAGAGCAGGCTGAAATATGTTGGCTGCAAAATCTTATGCCTCTTTTTCCAAACTTCAATCAGTCGGTTGTTATATCAGATGGGGTCTATGAAGGAAAAGATATAGAGGGAATTAGGTATGATTCATCTCAGGATGAAAGTGGTTGGTATCTTATTACGGAAGATTATAATGGCAATATTAAGTCATTAAAAATGGTACATTTTTATCATGTTGTTTTTGCTCGTCCTGACATTGTAAAATATTTGGCTGTTCCTTCCGGATATAGATTTCTGATGAAAGAAGGAGGTTTTGAAATACGTAAGGATGAGGAATGA	MNSEFNKWLYKNISINSDGKNLSTDGLIPIINKELKLQIADQSNEAYLEVMKYLIDYCVDTHLVIMDNQNIGYYSWLLQFRSEGRNFYDLYEANSYGDGFNRGCDTAISFVREQAEICWLQNLMPLFPNFNQSVVISDGVYEGKDIEGIRYDSSQDESGWYLITEDYNGNIKSLKMVHFYHVVFARPDIVKYLAVPSGYRFLMKEGGFEIRKDEE				NA	NA	NA	NA	NA
BMS003_03117	1143			hypothetical protein	ATGTCTAAGTTTGATGAAATCCGGTATTTCGATGATCAGGAAGTGAATGAGAGATTACAGAGCATAGCCCGTGATCCCATGATGAAAGCCTTTATGAATTTTACTTTTCCTGATACGGATGAGCAGGTATGGCTTGAACAGTTTAAGGAGGTTCATTCCATCAGTGATTTTCAGCATCAGTTTGTGGCTTATGCCGTTCGTCAGATTCTTGCAAAAAGTTCTGAGGGATTAACGACTTCAGGTTTTGATAAACTGGATAAAAATACCCCTTATCTTTTCATTTCGAACCACAGAGATATCGTTCTGGATACTTCACTGCTTAATCTGGTATTGCTGGAAGGTGGTTATGTAATGACTGCTTCTGCCATTGGAGATAATCTTGTCCGCAAAAAGTTCTTGAACGTACTGGCAAAACTGAACCGAAATTTTTTGGTACAAAGAGGGTTGCCGCTTCGTGAACAGCTGACAAGCTCACAGACAATGTCTGAGTATATTAAGGAGCTGCTGCTTCAGGAAAACCGCTCTGTATGGATTGCCCAGCGTGAAGGCCGTACCAAAAACGGTAACGATTCTACCCAGCAAGGTGTTTTAAAAATGCTTGCCATGGCAGCCGGAGACCAATCACTGACAGATTATTTTAAAACGTTAAAGATTGTTCCGATCTCCATCTCCTATGAGTACGACCCTACGGACTCCTTAAAGATGCCTCAATTGCTGGCACAGCATAGGGATGAGGAATATATTAAAGGAAAAAATGAAGATTTCACCAATATTATCAGCGGAATTCTGGGACAAAAGAAACGCATTCATCTTCACGCCGGCGATATTCTGGAAAAAGAACTGGATGAAATAGCAGCTACCATTGACAATAAAAACAAACAGCTGCAAGCAATTGCTCAGGTGATTGACCACTCCATCATCAGTAATTATAAGCTTTGGCCTACCAAGTATATTGCTTACGACCTACTTCACAATACCAATACCTATGCGTCTGAATACACAGAACAGGAAAAACAGTTATTTATCCGCAGATTAGAAATGCGTATTGACCCGTCTGATCCGGTTTCTAAAGAGTATTTCCTGGCGATGTATGCCAACCCTTTGGTGAACAAGCTGAAAGCTGAAAAAGATTTCCAGAAATAA	MSKFDEIRYFDDQEVNERLQSIARDPMMKAFMNFTFPDTDEQVWLEQFKEVHSISDFQHQFVAYAVRQILAKSSEGLTTSGFDKLDKNTPYLFISNHRDIVLDTSLLNLVLLEGGYVMTASAIGDNLVRKKFLNVLAKLNRNFLVQRGLPLREQLTSSQTMSEYIKELLLQENRSVWIAQREGRTKNGNDSTQQGVLKMLAMAAGDQSLTDYFKTLKIVPISISYEYDPTDSLKMPQLLAQHRDEEYIKGKNEDFTNIISGILGQKKRIHLHAGDILEKELDEIAATIDNKNKQLQAIAQVIDHSIISNYKLWPTKYIAYDLLHNTNTYASEYTEQEKQLFIRRLEMRIDPSDPVSKEYFLAMYANPLVNKLKAEKDFQK				NA	NA	NA	NA	NA
BMS003_03118	2796			hypothetical protein	ATGTTGCAAGACCTGTTCAAAAAAATCATTTTCATTTTTTTGATTTCATTTCGGATATGGATCCCGGCACAGAAAAGTTCCGGAGTAAGTCTTGATATCCGTAATGAATCCCGAACAGATAAAGCTGGCATTCTGGATCTGATGGTCGTACTGAACAATGAAAAGGCAAACTCCTTCAGAGGAAAGATAGAAATTACTGTTCCTGAAGGCTTCAGGAATATTTCAGGGAACAACCTTCAGGTCGAAATGAAACCTGGTGAACGTCTTTTCCTACCAGTAAAGATATTGGTTAGCAATAATGCAGGCTCAGGAGAATCCCGTATTGCCTTCAAGCTTTTGAACCAGCAGGATAAAATAACTACAGAAAAAGAAATACCATACACTGTTGCGGAAAATAATACCATGCGCATCAGCGCAGAGAATCCTCTGATTTATGTAAATAATGCTACCGATTCGGTAGAAGTCAGGGCAAGAGTTTCCAATCTTGGGAACAGAAAACAGAATGTAACAGTGGTATTTAAAATTCCCGAAGCCAATCAAGGGAATGCATTTATAGAGAAAAAAGGAAGCATTGATGTACAGAAGGATTCGGTGTTTATATTCCGCTTTATTCCTTCCAGAGTCAGATCACGCAATACACAACTTTCCGTAAGTATTGCGGGCTTCAGGGAGCCGGATAAAGAAATATTTGGCAATACCACTGTTTCTATACAGAATGTTTCTTCGGTACAGCGTTATGAAGATCATGAATCTACAGCTTTTTCAAACTTTACCAAAAACAGCATCACCGCAAGCTACAGACATGCCGGAGAGAATCTGGATATGTATCAGCTTGTAGGTTCCGGAGGTTTTAACCTGCCTTCGGGATATGTTTTTATCCGCGGAAATATCTATACGATGACCCATCAGAGCGATCCTATTGTCAATAATACATATCTTACCTACCGCCGGGAAAACAATGAATTCACGGTCGGGAACATCAATAAGTTACTGGAGCTTTCTCTATTTGGAAGAGGGCTGGAATATGCTTATACATCTCCGGATAAGGATAAGAAAATTGAAGCAGGTTTCGTAGACCAGACCTACAGCCTGATCGAAAGAAATTCATTTCTGAAATATGGCTACGGATTTTATACCAGAGGAACTATCGGGGCACAAAATGCTTCCCATAATATCTCCGGAACCTATATTTTCAGGAACGATCCTTATGAAAAAGCCAGATATCATGTAGCCGGAACAGATCTTCAGTATGCCTTCGGAAAAGACTGGAAAACCAATACCAAAGTGTACGGTGGCATCAGTTTTTATGAAAATAACCAGCCTGCCAAACCTTCTCTGGCTTTGGAATCCCAGTATTCCGGAATGATCAGAAAGATCAGTCTGAACGGAAATTATTTCTACAGTACAGATTATTATCCCGGAAACAGAAGGGGAATCTTACAGATTCAGCAGAATTTCTCCACAATGATTTTTAAAGACCATTATGTCTATGCCAACATTATGGCCTCCCAGTTTTCCCCTAAGTTCTATTCCTACAACAACCCACTGAATTCAAGCAACATAAGACTTGACACAGGAATTAACCTCCCTAAAAAAGGCAATTTCGGGATGGGATTTGGATATCAGTACCAGGAAGAAAATTCCAACTCTTACAATAATTTTTTCAATGCGCAGCCTTACGAAGAAACCAAGCAGCTGAAAACGCAACGCCTTACCGAATACTTTACCTGGCTGAGCCCGGATAAACTGCATTCTTCTATCCTGGGTATAGAAACAGGGCTGGTTCACTATCCGGACACTGATAAGCTGCAGTATCAGATGAAAGTAACTGGAACTTACAGTTACCGGTGGCTTACATTGAACGGTATCTATCAGCATGGAAGCTATTTTCTTTCTGAATATGCTTTTTCCAGACTGATAAACAAAAGTAATACCTACGAAAAGCTTTCCCTTTCTGCTTTTGTCAATAAAAACTTTTTCGACAATAAACTGAACTTAACATCAGGCATTTCTTACACCGACGATGTTCTGTATGGAAAATCACCCTCAGGCTTTATGAATCTGAAGTATTCACGGGAGAGGTATGCCCTTTATCTTAATTCTTCCTATTTCAGTTATTCTTCAGGGAATTTAACCAATAATCTGTTTACTGTTGAGGCAGGAATTACCATCAATCTCAGAAACAGTACGCTGGATCCGGGGAAAAAAGGTGATATAAAAGCGTTTGTCTATTATGACCTGAACGAAAACAATATCTATGATGAAGGTGACAAAGCAGCAGCAGGCTATCTCATTATGCTGAATACCATTTCTTTCAAAACCGATCCGTCAGGCTCTATCAGCTACCGTTCCATACCTTATGGAAAATACACCCTGAAACAAGTGATTCAGCAGGGCTGGTATTATGATGAAACAGAATTTACGGTAGATAAGCATCTATACGCTCTTGAAATTCCTCTTCATCAAAACGGAACCACACAGGGAAAGGTAGCCTACGATTTTGATGCCAAAACAGCAGTGAACTTCGCTCCGAAAACCGGAGGTATTCTCTTCAATATTTACCGTAATGATCAGTTAGTGCAGCGCATCATGACTGATGACAACGGAGAGTTTGCCTCTTTCCTACCCTCCGGAAATTATACAATTGAACTGAATAAAAATTCCCTGCCCGCCAATACCTATTGCGAACGCTCTACTGATACTTTCAAAGTGGAAGCCGGGAAAATAGCACAACTTGAACCTTTTGTAATTAAAGTGAGGGAAAAGGTGATCAGGGTGAAGAAGTTTGGGAATTAG	MLQDLFKKIIFIFLISFRIWIPAQKSSGVSLDIRNESRTDKAGILDLMVVLNNEKANSFRGKIEITVPEGFRNISGNNLQVEMKPGERLFLPVKILVSNNAGSGESRIAFKLLNQQDKITTEKEIPYTVAENNTMRISAENPLIYVNNATDSVEVRARVSNLGNRKQNVTVVFKIPEANQGNAFIEKKGSIDVQKDSVFIFRFIPSRVRSRNTQLSVSIAGFREPDKEIFGNTTVSIQNVSSVQRYEDHESTAFSNFTKNSITASYRHAGENLDMYQLVGSGGFNLPSGYVFIRGNIYTMTHQSDPIVNNTYLTYRRENNEFTVGNINKLLELSLFGRGLEYAYTSPDKDKKIEAGFVDQTYSLIERNSFLKYGYGFYTRGTIGAQNASHNISGTYIFRNDPYEKARYHVAGTDLQYAFGKDWKTNTKVYGGISFYENNQPAKPSLALESQYSGMIRKISLNGNYFYSTDYYPGNRRGILQIQQNFSTMIFKDHYVYANIMASQFSPKFYSYNNPLNSSNIRLDTGINLPKKGNFGMGFGYQYQEENSNSYNNFFNAQPYEETKQLKTQRLTEYFTWLSPDKLHSSILGIETGLVHYPDTDKLQYQMKVTGTYSYRWLTLNGIYQHGSYFLSEYAFSRLINKSNTYEKLSLSAFVNKNFFDNKLNLTSGISYTDDVLYGKSPSGFMNLKYSRERYALYLNSSYFSYSSGNLTNNLFTVEAGITINLRNSTLDPGKKGDIKAFVYYDLNENNIYDEGDKAAAGYLIMLNTISFKTDPSGSISYRSIPYGKYTLKQVIQQGWYYDETEFTVDKHLYALEIPLHQNGTTQGKVAYDFDAKTAVNFAPKTGGILFNIYRNDQLVQRIMTDDNGEFASFLPSGNYTIELNKNSLPANTYCERSTDTFKVEAGKIAQLEPFVIKVREKVIRVKKFGN				NA	NA	NA	NA	NA
BMS003_03119	1035			hypothetical protein	ATGAATAGTAAAAAATTCTTCTGCCTCTTACTGCTGATTTCCCTTAACCTTAACTGTTTTTCACAGATAAACTATACCTCATGGGTGAACAGCTATCTGCAGATCAACTCTTACAGCGGAAATACCAATCCTGATGCATATACCTTTACCCTGGCAGGTAATGGATTTTTTAATATACCTTACTGGAAAATATCAATGAGGTTAAAACAGCCTGTAACCTCTACTGACGGAAAATATACGATACCAGCCAACAAAATATCATTTCAGCCGGTTTCCTCATCAGGACAGGGTTACCCTGGTCCTGTACCCACCATTCCCCAGATAGGAATGCCACTTAATACCTTTCTTCAGGAAAATCAGGAAGTTTTTTTAATTCCTCAGTCCAATGCACCGCTGTATAACCAGCCAACACGGCCTAATGGATATTACAGCCTCCAGCTGAAATACAGCCTGAATGTCATGGGAGGTTCCTACCTGGGAAACTACCCGGCATGGATCAGCTTTATCGCTCCTGTACGGTTTACAGCATATGATCAGTACAACAATATTATCGGCACAACGGATCATAATTTTCAGTTTCAGATCGGAGCCCTAAGCGGAACCCCGACAGATGTACCCGAAATGTCTCTCCAGTTTTCCGCAAAAGCAGTCAACGGATCTCTGGAATTTAAAAGCATATCAGATTATACAAACGGAGTAAGTGTCATCTATACTAATGGGTTGATCGTAAAAAGCAATACTCTTTATCAGATCAAGTTACGTTCTCTTCAGGGCCAATTCAGCTCTCCTGCAGGAAACTTTATCCCTCTTGAAACTGTAAAACTGAGTCTCACTCCTGTTGCAGGAAACACGGGTAATGTCTACCCTGTCCTTCTGAGTGCTTCTCCCCAGCTTATTGCCTCAGGAGGTTCTACCGGAAACTCCAGTGTGTATTACGATATCAGATATTCCACCAAAGAGAATGATGAAAGGGTGATTAATGCAAAATCAGAAGAATATTCCACAACACTTCAATACGAGATTATCCCACAATAA	MNSKKFFCLLLLISLNLNCFSQINYTSWVNSYLQINSYSGNTNPDAYTFTLAGNGFFNIPYWKISMRLKQPVTSTDGKYTIPANKISFQPVSSSGQGYPGPVPTIPQIGMPLNTFLQENQEVFLIPQSNAPLYNQPTRPNGYYSLQLKYSLNVMGGSYLGNYPAWISFIAPVRFTAYDQYNNIIGTTDHNFQFQIGALSGTPTDVPEMSLQFSAKAVNGSLEFKSISDYTNGVSVIYTNGLIVKSNTLYQIKLRSLQGQFSSPAGNFIPLETVKLSLTPVAGNTGNVYPVLLSASPQLIASGGSTGNSSVYYDIRYSTKENDERVINAKSEEYSTTLQYEIIPQ				NA	NA	NA	NA	NA
BMS003_03120	804			hypothetical protein	ATGAGCAGACTATCTCTTCTCTTTTTCAGCCTTCTTTTCCTATCATCTTTTCATGGATATGCACAAACAGGAGTTTCAGTTTCCCCCCCAAGACTTTACTTTGAGTCAGGAAACGGTAACAGCAATACCCAGAAAATAACGGTAACAAATGTAAGTGCCAAGAATTCTCTGGACCTTGCAGTAAGTCTTGGAGACTGGGAATATGACAGCAAAGGTGAAAATGTAACCTATCCTGCCAATACCCTATCCACTTCCTGCGCAAGCTGGGTTTCTGTAAAAAAGGAAGATAATTACTTTACCCTGGCTCCCGGAGAAAAAAAGGATATTGAGGTTACTATTACGGTTCCGAATGCCCTTTCAGACCAACTTGCTGCGCATACGGCTGTTTTGTATGTAAGCCAGATGAACCCTGTGGATGATGTGGATCATAAAGGAGCCAATATCAAAGTAAGTATCCGCTCAGGGATCAAGCTTTTCCATAAGCTACCTTCAGCCAAGACCAAAAAACTAGAGATTCAGAATCTGGTATACGGAAAAAGCACCAATACAGTCAACGTTTTCTTTGAAAACCATGGTGATGTATGGGCAGATGGAAAAATATATACCGACTTTGTCAATACACAAACCGGAAAAAAAATATCACTGGATCCTGTCATTTTTTATACCATGCCCGGAAATAAAAGAGAAATGAACATTCCATTGCCGGCAGGCCTTGAAAAAGGCAAGTATACAGCCTCGGTTATGATTGATTACGGAGATAACAATAATCTGGAATTGGGAGAATTAAGTTTCAGCTATGAATAG	MSRLSLLFFSLLFLSSFHGYAQTGVSVSPPRLYFESGNGNSNTQKITVTNVSAKNSLDLAVSLGDWEYDSKGENVTYPANTLSTSCASWVSVKKEDNYFTLAPGEKKDIEVTITVPNALSDQLAAHTAVLYVSQMNPVDDVDHKGANIKVSIRSGIKLFHKLPSAKTKKLEIQNLVYGKSTNTVNVFFENHGDVWADGKIYTDFVNTQTGKKISLDPVIFYTMPGNKREMNIPLPAGLEKGKYTASVMIDYGDNNNLELGELSFSYE				NA	NA	NA	NA	NA
BMS003_03121	525			hypothetical protein	ATGAAAAATTTTATTTTAGCATCATTTGCAGTATTGGGATTTACAACATTAAAAGCACAACAGAATGTAACGCTTAACGTAAGACTTAAGCCTATTCAGACACTTGTGGTGAACAATGCACAAAAAATCGTAAACCTAGATTATGTTACAAAAGATGACTATGCAAACGGTGTATCTTCTGTAAACGCAGACCACTTAAGCATTTACAGTACAGGAGGATTTCAGGTAAAAGTAAAGAGTGCTAATGCAGCATTACAGAATGGAGGTAAAAACATTCAGGCTAACACGATTCAAATTAAGGCAAGTGCAGGTTCGGAAGCGGTAAACGGAGCACAATATGCTCAAGATGTACAGTTATCTGCTAATGAAACAACTTTAGTAAGCTCTTCTAACGGAGGAGTAGACAAAAAGATCAACATAGAATATAAAGGAGCAGGAGCTAATGCTTACCTGGACAATTATATAGCAGGACAAGATCCTACAGTATATACTACTGAGCTGACGTATACGATTATTTCTCAATAA	MKNFILASFAVLGFTTLKAQQNVTLNVRLKPIQTLVVNNAQKIVNLDYVTKDDYANGVSSVNADHLSIYSTGGFQVKVKSANAALQNGGKNIQANTIQIKASAGSEAVNGAQYAQDVQLSANETTLVSSSNGGVDKKINIEYKGAGANAYLDNYIAGQDPTVYTTELTYTIISQ				NA	NA	NA	NA	NA
BMS003_03122	417			hypothetical protein	ATGTTTGCAAAGTACATTTTAATCATTCTATTATGTTTTGCTTGTACAGAATCTTGGGCACAGTCAGCAGACGGTTTAAGGCTTAATCTAAGACTTTATCCGGTACAGATGCTTGCTGTAGGCACAGGATTTTCGGACGATGAGAATGAATCTTCCTTGAGGGAAGTTCAGTCTGTAACAATTTCAAGTCCGTCAGGGTTTCAGCTGAATGCACAATATGACGAATATCGTGATATGGCCGAAAATCCCAGAAGCAGAACAAAAAGATCTGATGAATACCATCTTATCAGCCACAAGAAAGGAGTGGTTCAAAAGAGATATACCATCATGAATGAAATAGAAAATGCAATAAAAAATTTAGGGACTGACAGGAATGATGAACCTAATTTTTTAATATTAACTCTAATTTCTCAGTAA	MFAKYILIILLCFACTESWAQSADGLRLNLRLYPVQMLAVGTGFSDDENESSLREVQSVTISSPSGFQLNAQYDEYRDMAENPRSRTKRSDEYHLISHKKGVVQKRYTIMNEIENAIKNLGTDRNDEPNFLILTLISQ				NA	NA	NA	NA	NA
BMS003_03123	831			hypothetical protein	ATGTACAAAATCACGGATCAGTTAAAAAATATAGGATTCAGTATCAATCGTTTAGATTATCTTATCAATAGAAATAACAACAGAAGAGAATTTAATACCCTGGAATATTTTTGCATTTATATTATTCTTGAAGATATTCTGTTAATGGTAGAGGACGTTCCTTACCCATTAAAAAAGGGAAATATTGCCTTTGTAGGACCACAGAAGAAAATTGTTTTTGGAGAGGCCAAAAGATCTGATATTTATTCAATTGCTTTCTCCTCAAGTTTTTATGAGAGATCTACCAAAGACAGTCTTTTTATCAATTCACAGCTTTTTTATAATTATAACTCCGAAATATTCATAGCTCCGTTCATTAATATAGAACAGATGAGGGTGGTATTCTGGGAACGGATGGAAGGCTTCCGGGAAAAGGACGAAAGCTTATATATATCTGCTGCTCATAATGCAATAGAAAGGCTCATCCTGGAAGCGTTTCTACATATTCCCACCGAAGAAATCAAAAAGGATATCAAATTTGATTATATTTATTATGTAAACCGGTTCAAGGTTCTGTTACAAAGAGATTACAAAAAGGCAAAAAAGGTTGCCTATTATGCCGGAGAACTTAATATCTCGTCAAGAAAGCTGACTGAAATGACAGAATATGTACTTGGAAAAACAGCCAAGCATATCATTATTGAAAAACTGATCTCAGAATGCAGGAAGGCATTAAATTTTTCAAATTCCACCATCTCTGAAATTTCTTATGAGCTGGGTTTCAGCAATGAAGGAAATTTTACAAATTTTATAAAAAAACATACCGGAAAAAGTCCCTCTGAAATGAAATAG	MYKITDQLKNIGFSINRLDYLINRNNNRREFNTLEYFCIYIILEDILLMVEDVPYPLKKGNIAFVGPQKKIVFGEAKRSDIYSIAFSSSFYERSTKDSLFINSQLFYNYNSEIFIAPFINIEQMRVVFWERMEGFREKDESLYISAAHNAIERLILEAFLHIPTEEIKKDIKFDYIYYVNRFKVLLQRDYKKAKKVAYYAGELNISSRKLTEMTEYVLGKTAKHIIIEKLISECRKALNFSNSTISEISYELGFSNEGNFTNFIKKHTGKSPSEMK				NA	NA	NA	NA	NA
BMS003_03124	549			hypothetical protein	ATGAAATTTAAGATAAAGCCTTCAAAGCCAAAACCCATCAAGAAAACTACCCTCAGACGCTTTCTTATCAAGCGTACGATTTATTATGTCCTTCCGAATGTATTTTTTAATTTCATCATTGCGTATGCCAGCTTCAAAGAGCTGGGCTACACGCATTTTTTCTCAGGAACCCAAAATCTGGCTCGTCTTACCCTACCCATGGCCATTTTCCTTCCGGTAGTCCTTACCATCGACATCATCAAAAGAGTAACGGATGCCGCCAGCCAGGAAGCCATAGAGTTTACCGTAGACGAACAGCTGAATATTAAAAAGTTAATGACCAAGTTAAGCATTCTACACGGCATGATTACAGGTTTATTGGTACTCTCCCTACTCTTTATAGGGCAGTATAATTTTTCAAAGGATTATAAACTGGATGCCACCGCAATGGCTGTTGTAGTGGGAACTCTGGCAGGGATTCTGTCAGTGATTTTTGTATATCTGCCGGTTTGGAGGTTGAGAAGATGGATGTGCAAAGTGTCATCAGTACCTGCAGATGCAAATCCATGA	MKFKIKPSKPKPIKKTTLRRFLIKRTIYYVLPNVFFNFIIAYASFKELGYTHFFSGTQNLARLTLPMAIFLPVVLTIDIIKRVTDAASQEAIEFTVDEQLNIKKLMTKLSILHGMITGLLVLSLLFIGQYNFSKDYKLDATAMAVVVGTLAGILSVIFVYLPVWRLRRWMCKVSSVPADANP				NA	NA	NA	NA	NA
BMS003_03125	1254			hypothetical protein	ATGATCAGAAGACCTTTAATGATGGTGGAAAGGATTATGTATGTAGATCCAGAAACCCCTTTGAACTGTGTTTATGCAGCAAAAATCAAAGGAGAAATTCCTGAAGAAAATTTTAAAATAGCTTTAATCAAAATCCAGCAAAAACATCCGCTGCTTAGAGCAATCATTGATCGCAACAGTGGACGATATCCTCTATTTGTAGGGCAAAAGGATATTGAACCTATTCCTCTTCGTATTGTAGAACGCAAGACAGATAAAGATTGGTTTAAAGAATCTGAAAAAGGATGGTTCCAGCTCTTTGAACATCCGAAAAAGCCACTGGCCGAACTGGTTTGGATAAAAGGACAGGACACTTCTGAAATCCTTTGGGTCATGCCGCACTGCATTTCGGATGGAACCACAGGTGTGACATTAATGCGTGAACTTTTAAGTTTATTGGACAATCCTTATGCTCCATTAATTCCTTACGTAGCTTTTGAATCTGTGGATGATTTCCTGCCTTCGGATTTTAATGCAGGAATTAAAAAATATAAAGCCAGTCTTTATCTGCTGTTCGCCAAACTCTTCTTTTCCATTCAGCGAAAAAGTAAAAAGAAAAACCTTGGAAAAAACTACGCCATTCACTGGAAAATGACACCGGAAGACACCAAACTGATCACTGAGAAATGTAAAGCCAACGGAATTTCCGTGCATGCTTTGCTGTGTTCATCGGTAATGCAGGCCTTCCGTGATGTTCAGGGAGATCGTGCCAAAGGAAAAGTGATCAGCCCTGTAGATGTGCGTCATTTTATTCCGGAAATCAAAGAAGATCATTTATTTGCTTTTGCCCCAACAGTGGAACTTTCTGTGAAAAAAGGCAGCAGTGATGTGATGAGCAATGCCAAGCAGATCAAAAAAGATCTTACAGAGAAAATCAGTAAGATGGAAGCCCGTGAACTCCTCTGGATGGGTGAACATATGCATCCCATTGTAGAGCGCATGATCAGTATGCTGAAATCCAGCGAAGGAGGACACGATGTAACCCTATCCAATATGGGAAAGGTGAATATCCCGAATGATTACAAAAATTTCAGCCTGGAAACGGTGATCAGTCCTACCGTGGCTTTTCCATGGCTGAACTCAAACACCTTAGTGACCAGCACGTACAACCAGCAAATGGACTTTACTTTTATGTCCAATGAAAATTTTCTTCCCAAAGAGGAAGCCCATCTGATAAAAGATAAAGCCATCGAGCTATTGACCACCTCTCTATGA	MIRRPLMMVERIMYVDPETPLNCVYAAKIKGEIPEENFKIALIKIQQKHPLLRAIIDRNSGRYPLFVGQKDIEPIPLRIVERKTDKDWFKESEKGWFQLFEHPKKPLAELVWIKGQDTSEILWVMPHCISDGTTGVTLMRELLSLLDNPYAPLIPYVAFESVDDFLPSDFNAGIKKYKASLYLLFAKLFFSIQRKSKKKNLGKNYAIHWKMTPEDTKLITEKCKANGISVHALLCSSVMQAFRDVQGDRAKGKVISPVDVRHFIPEIKEDHLFAFAPTVELSVKKGSSDVMSNAKQIKKDLTEKISKMEARELLWMGEHMHPIVERMISMLKSSEGGHDVTLSNMGKVNIPNDYKNFSLETVISPTVAFPWLNSNTLVTSTYNQQMDFTFMSNENFLPKEEAHLIKDKAIELLTTSL				NA	NA	NA	NA	NA
BMS003_03126	1272			hypothetical protein	ATGAAAAGAAGATTGCTATTTGGTGAACGCATGTTACTGGGGGACGGCACAGAACCTTTTAACGCGATCATTTCGTTCAGACTGAGAGGTACCTTTGCATTAAAAGATATCCAGCAGGCGCTGGCTCAGATTCAAAAGAAACATCCATGGCTGAGAGCATTGATCAGCCATGATGAAAAAAATATTCCATGGTATAATGTTCCGGAAAATCCTGTTTCTATTCCTGTAAGAATCATTACCCGACAAAGCGAAGATCAGTGGCAGGAAGAATCCAGGAGAGAATGGAACACCACCTTTAATTATGAAAAATTACCCCTGATCCGGTTTGTCTGGATCAAAGGGGAAAGCGTTTCTGACATGCTGTTTGCATTCCACCATTGTCTTTGCGATGGCGGTTCTGCAATGGCTTTTTTAAAAGAGTTTTTAGCAGTACTGGACAATCCAGCTGCTGATATCGGAATTGAAACTCCCATCTTAGGAATTCAGGATGTGGTTCCGGCAAAAATTCTGAACAGCCGCAGACAGAAACTGAAAGCTAAGTTTATCGGAAGGCTTGCTGCCACAGCAATCAGATGTATTCCGGTAGGCAAAAAAGCTGTAGAAAGACAGAACGACTATTTCATCCACTGGAAACTGGATGAAATGGTGAGCAAACAATTAATTGCTTACTGCAAATCTCAGAAAGTGACAGTGAATACCTTCTTAAGTGCGGCAGTATTGCAGGCCTTTAAAAAAGTAAGAGGTGAAAAATCCTTCAATAAAGTTTCCTGCCCGGTAGATATAAGACGTTTTGCCAATCAGATAAAGGAAGATCATATTTTCGCTTTTGGGCTGATGATTGTGGTCTCTTCTGATGAAAAACTAAACTTTACAGATAATCTTCTGGCAATGCAGAAGTCCGTGGAACAAAAAACTTCAAAGCTTAATCCTTACCTCACGATGATGGTGATGGAATCCGGACATGATGCCCTGAAGAATTTCACCAGACTTTTAAAGAACGGAAAATCATCCAATGACTGTATGTTTTCCAATCTGGGACGTATTCAGATTCCTCATCAGTATAAAGAATTCTCGGTGGATACTATTTTCAGTCCATCGGTGATCGGGCCTTTGGGGAATACAACAACGATGGTAACCTCTACTTACCGTGGTGAAATGGATTTTTCATTTATGGGAAGCGAAGGATATTTACCTTACACAGATGCTCTGGCAGTCCGTGACGAGGTGATTCAGATTATACATTCTCAACTAAAACCAATGGCAGTATCATGA	MKRRLLFGERMLLGDGTEPFNAIISFRLRGTFALKDIQQALAQIQKKHPWLRALISHDEKNIPWYNVPENPVSIPVRIITRQSEDQWQEESRREWNTTFNYEKLPLIRFVWIKGESVSDMLFAFHHCLCDGGSAMAFLKEFLAVLDNPAADIGIETPILGIQDVVPAKILNSRRQKLKAKFIGRLAATAIRCIPVGKKAVERQNDYFIHWKLDEMVSKQLIAYCKSQKVTVNTFLSAAVLQAFKKVRGEKSFNKVSCPVDIRRFANQIKEDHIFAFGLMIVVSSDEKLNFTDNLLAMQKSVEQKTSKLNPYLTMMVMESGHDALKNFTRLLKNGKSSNDCMFSNLGRIQIPHQYKEFSVDTIFSPSVIGPLGNTTTMVTSTYRGEMDFSFMGSEGYLPYTDALAVRDEVIQIIHSQLKPMAVS				NA	NA	NA	NA	NA
BMS003_03127	2403	murG_2		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGGCTAAATTTGCATTTATAGTTCCACCACTGACAGGACATGTCAATCCTACCTTAAGCATCGGTGCTACCCTGCTGGAAAGAGGACATGAAGTAGCCTGGATCAGCCTTGACCCGACTTTAGAGGCTAAACTTCCCGAGGGGGGAAAATTATTACTGATCCAATACGATCAGACCGACGAAGAAAAAAAAGAAAGTGAACAATATCTCGATATTATCTCCAAAAAAGTAGTGTATGGTATAGACAGCGTTAAGTTCCTGTACGAAGAGGTTCTTATCCCGCTGAACAGACATTGCTATAACGGAATTGTTTCTTTATTAAAAACATACCAACCCGATTTGATTATCGGGGATCATCAGTTATTTGCAGCCCCGGTTGCAGCAAAGGCATTAGGAATTCCTTGTGCCACTTCCGTTACTGCTCCGGCAGCTATTAAAATCATGAATGAGCTTCCAAAGGTACACGAATGGGAAGTGAATCAAATTATCGATTTGCAGAAAGAACTGGGCTTCCAGGAAGAACGCTCTCTGGCAACTTCAGATCTGTTGACCCTCGTTTTAACATCGAATTATTTCTTTGGGGAAATGGATGATCTACCTTCTCAATATCAATTCACAGGGCCGGTTCTTACGGAAAGACGTGTTTCATGTGAATTCGACTGGGAAAAATTAAAAAGCAAAGACAACAAAAAGATTTTGGTAAGTATCGGAACTACCTTCGATCATGATCATAAAAAAGTATTTTTCCAAAAAGTAATCGATGCCTTTAAAGATGAAGATTTGACTGTAGTAGTCGTTTCAGATCCACAGCTTTTCGAGCAATGGCCGGATAACTTTATGGTGTATCAACAGGTTCCGCAACTGGATCTGCTGCCTCATCTGGATGGTGTCGTTTGCCATGGCGGTCACAATACAGTTTCCGAAACCTTATCACATGGGATTCCTTTAGTAGTGATTCCAATTGCGTATGACCAGTCTCACGTTGCAGGGCGTGTAGTACGTACCGAAGCGGGTGAACGTCTTAATTTTAACAGATTTAAAGCCAATCATCTGAGAGAAGCTGTACAGCAGATTTTAAATAATCCAAGCTACCGTGAAGCGGCTCAAAAAGTAGGACAGTCTTTTGTGGAAGCAGGAGGTTCCGCTACAGCTGCTAACCTATTAGAACAAACTCTGTCAAAAGCTTCAAAACCTGAAAAACCGTCTAAATTTTTATTCGTTGTTCCTCCGTTTTTCGGACATGTAAGTCCTACTTTAAGTGTGGGTGCAAGTTTAATTGCCCGCGGACACGAGGTAAAATGGTTCGGGATTACGCCTTTAGACAACAAACATATTCCTGAAGGAGGTTCTTATTTCTATCCGGAAGAAGATCTTATCCCGTATCAGGAGGAAATTGCCCGTATTTTAAAAAGACAGGATGACGGACCCGCATGTTCCGGACCTGAAGTGATGAAACTGGCATTGGAAGAAACTTATGTTCCTTTCGCTAAAATGATGATGCCGGGATTAACCAGACTGACAAAAAGCTGGATGCCGGATGTGATTGTGAATGACTGTATTACTTTCGGAGGGGCTCTTTTCGCCCATAAAAACAATATTCCTTGTGTAACGACAACACCTGTTCCACCGGATGTCATGGGAGATACGGAAAAAAGTGCTCCTAAAATCTGGGAATGGCAGCAAAACCTGATCAAAGACCTTCAAAAAGAAGTAGGCATTCATGAAGAAGGAATTTATATCCATTCTCACAAGCTGAATATGGTGTTTACATCTCAGGCTTTCGCTGGTTTTGAAACTGTTCCGTCTCATATGAAATTTGTAGGCCCTGTGAAAGGCCGTCCGAACGATGCTCCATTTGACTGGGATAAACTGAATGCTTCTACCACTCCAAAGATCTTTGTATCATTAGGAACATTATTGGTAGACATCAGAAAAGCCTTTTTTGAAAAAATTATCGCTGCATTTAAAGACCAGCCGGTAACAGTGATTGCTGCTACTCCACCGGAAATTTTTGAAGAGTGGCCGGACAATTTTATTGTAAACAGCTTTGTTCCTCAATCGGCAGTGATGCAGCAAATGGATATGGTGATTTGCCACGGTGGTTTCAATACTGTAAACGATACTTTCCGTAATGGATTGCCGATGTTGATTACACCCATCGCGTATGATCACTTCCATATTGCAAAACTGATCGAACAGGCAGGCTGCGGAATCAGCATCCGATACAAAAGACTCCGTGTAGACGCTCTTCGTGAAACGGTTTTTGAATTGTTAGAAAATCCGAAATACAGATTAGCAGCTCAGGAAGTCCGCAATACGTTTACCCTTGCCGGAGGAAACGACAAAGCGGTAGAACTGTTAGAAAATTTTGTACAGGAACATTCAACTTTAGCTTCTGTATAA	MAKFAFIVPPLTGHVNPTLSIGATLLERGHEVAWISLDPTLEAKLPEGGKLLLIQYDQTDEEKKESEQYLDIISKKVVYGIDSVKFLYEEVLIPLNRHCYNGIVSLLKTYQPDLIIGDHQLFAAPVAAKALGIPCATSVTAPAAIKIMNELPKVHEWEVNQIIDLQKELGFQEERSLATSDLLTLVLTSNYFFGEMDDLPSQYQFTGPVLTERRVSCEFDWEKLKSKDNKKILVSIGTTFDHDHKKVFFQKVIDAFKDEDLTVVVVSDPQLFEQWPDNFMVYQQVPQLDLLPHLDGVVCHGGHNTVSETLSHGIPLVVIPIAYDQSHVAGRVVRTEAGERLNFNRFKANHLREAVQQILNNPSYREAAQKVGQSFVEAGGSATAANLLEQTLSKASKPEKPSKFLFVVPPFFGHVSPTLSVGASLIARGHEVKWFGITPLDNKHIPEGGSYFYPEEDLIPYQEEIARILKRQDDGPACSGPEVMKLALEETYVPFAKMMMPGLTRLTKSWMPDVIVNDCITFGGALFAHKNNIPCVTTTPVPPDVMGDTEKSAPKIWEWQQNLIKDLQKEVGIHEEGIYIHSHKLNMVFTSQAFAGFETVPSHMKFVGPVKGRPNDAPFDWDKLNASTTPKIFVSLGTLLVDIRKAFFEKIIAAFKDQPVTVIAATPPEIFEEWPDNFIVNSFVPQSAVMQQMDMVICHGGFNTVNDTFRNGLPMLITPIAYDHFHIAKLIEQAGCGISIRYKRLRVDALRETVFELLENPKYRLAAQEVRNTFTLAGGNDKAVELLENFVQEHSTLASV				NA	NA	NA	NA	NA
BMS003_03128	783	rutD_2		Putative aminoacrylate hydrolase RutD	ATGCCAATAATCACTGTCAATAACAGACAAGTTCATATACAGGAACTCAACAAAGGAGCCGAACAAACCGTGGTACTCATCCACGGTATGTTCAGTAACCTATCCATTTATTATTTTAATATTGCCCCGGTGCTGGCCAGGCATTTCCATGTGGTGATGTACGATCTGAAAAGTCACGGTATGAGTGAACGCTTTTTGGATGGGTACGATCTTGACAACATGTCATCCGATTTAATAGGTTTAATAGATCACCTTCAACTGGAAAAAGTACACCTTGTAGGCTATAGCTTCGGAGGTCTTATAGCACTGAAAACAGCTTTGGAATACCCAGATCGTGTGAATCAGCTTGTAGTGACGGAAGCTCCGGATCCTCAGGACGAAAAAGCCCGTAACATCATTGATGAATACAGCAAAGAGTTTCTTGAGCATTACGTTGCCAACTTTACAGATACCACCAAAGTGCAGATGGGCAAAAGACAAATGGAAAAGAACCACCGTATGTATGAATTTCTGTTTAACCAGACCAGCATTAAAGCAGATATGATCAGGGAAAAACATTTCCTGGGTGAAACCGACTTCAGCAAACTGACGACTCCCACCCTATTGCTTTATGGCGCTGATTCCAACTGCAGACCTACCGGTGAGTGGCTGCAATCTCAAATCGGCCAGTCTGAACTTGAATTAATTCCGGGCGATCATAATATTCCGATTCAGGAACCTCAGCTCATTGCTGAGACAATCGCTCAATTTTTATCTAAAATTTTAACACAAAATCATGGCTAA	MPIITVNNRQVHIQELNKGAEQTVVLIHGMFSNLSIYYFNIAPVLARHFHVVMYDLKSHGMSERFLDGYDLDNMSSDLIGLIDHLQLEKVHLVGYSFGGLIALKTALEYPDRVNQLVVTEAPDPQDEKARNIIDEYSKEFLEHYVANFTDTTKVQMGKRQMEKNHRMYEFLFNQTSIKADMIREKHFLGETDFSKLTTPTLLLYGADSNCRPTGEWLQSQIGQSELELIPGDHNIPIQEPQLIAETIAQFLSKILTQNHG	PGPT0013125_2868	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS003_03129	300			hypothetical protein	ATGGACACTGTAAACGCAACATTAAAAATGAACCACGAAGAACTTTTTACATTATTAAAAGGTTTTATTACTGAAGTGATAGGTGCTGAATTTGTAGAAGAGATGGATATTACTCCTGAAAGTTCATTCACCAAAGATCTTGAAATGGACAGCATCGAGATTGTCTCTTTCTCTGAAAAGATCAAAGCGCATTTTGGCGATCAGATCGACTTTACAGGTTGGTTATCTTCTATGGATCTTGACCAGCTGATTAATCTTGACCTTAGTATGATCATCAATTATATCTACGAATGCCAATAA	MDTVNATLKMNHEELFTLLKGFITEVIGAEFVEEMDITPESSFTKDLEMDSIEIVSFSEKIKAHFGDQIDFTGWLSSMDLDQLINLDLSMIINYIYECQ	PGPT0011375_499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS003_03130	4254			hypothetical protein	ATGAAAAAAACAGATGTTGCTGTAATTGGTCTATCCTGTGTCTTTCCCGGGGCACAGGATGCCAACACTTTTTGGCAGAATATTGTCAATAAAGTCGATTCTACCGAGCTGGCTCCGGCTGATCGGATAGATCCGGTTCATTTCAGTGATGCCACAAGCCCCGTTGACCGTTTTTACTGTCAGCGCGGAGGATTTATCCCTGATTATACTTTCGATCCTACCGCGTTTGGTATTCTGCCATTGGCTGTGGAAGGAACGGAACCTGACCATTTGCTTACCCTTGATCTCGTACAGAAAGCGCTTGAAGATGCAGGCGTATTTCAAAAGAATATTTCTCTTGAAAAAACAGGAATCATCATTGGTAAAGGAAACTATACAGGTCCAGGTGCTACCCGGGCGATTGAAATTGTAAGAACCGGAGAACAGATTTCTTCCTTATTACAGGAATTGCTGCCTCAGGTTTCTTCTGCAGATATTGAAAAAGTAAAACATGCTTTTCAACGGCGCAAAGGACGTTTTGCAGCTGATACCGCCATGGGATTAATCCCTAATCTTGTTGCCTCTCTTGTTGCCAACCGCTTCAATTTAGGAGGGGCTGCCTTCACTGTAGATGCAGCTTGTGCTTCTGCTTTAATTGCCGTAGATCATGCTGTCCAGGAACTTCAGAGAGGTCGTTCCGATATCATGATCGCAGGAGGCGTACACACAGGACAAAATGCCGCTTTCTGGAGTATTTTTGCCCAGCTGGGAGCCATGTCCCGTCAACAGCAGATCAAACCGTTCAGTATGGATGCTGATGGATTATTGATCGGTGAAGGCTGTGGTTTCGTCGTATTAAAAAGACTGGAAGATGCCGTTCGTGATCAGGACAAAATCTATGCTGTGATCAAAGGAGTAGGTGTAAGCAGTGACGGTACCGGAACCAGTGTGATGAGCCCATCAGTAAAAGGCCAGCTGAAAGCATTGGAACAAGCTTGGATCAATGCTGATTTAGATAAAAATAAAGTGGGATATCTTGAGGCTCATGGCACAGGAACACCCCTTGGAGATAAAACAGAACTTCAAACCTTAGCCCAATTCTTTGGAAAAGAAGAAGCGGCTCCGGTTGCAGGTATCGGATCTGTAAAGTCCAATATCGGGCATGCTATGCCGGCAGCAGGAATTGCCGGATTAATTAAAACCTGTTTAGCATTACATCACGATACTTTACCACCAACCTTATACTGCGAAAATCCAACTTCGGAGATGCAGAATACAAGGTTTGAACCGGTACAGGAAGCCAAAAACTGGTCAAAAACAGGACTGCCAAAAGTAGCCGCAGTGAATGCTTTCGGATTCGGAGGAATCAATGCTCACGTTGTCTTGGAAGGCTATGATATGCCTAAAAAAGACCAGGTATTGATATTAGCCAGACCTACCCATGAAGAACTGCTTTCAGCATTACAAAATAATGAAACAGCTATTGGTGAAGGAGATTTCAGGGTTGCCCTATTTGATCCTACACCTGCAAGATTAGAAAAAGCCATTAAAATTGTTTCCAAAAATATCACGTGGAAAAACAAACAGGATATCTGGTACACTTCTACTCCATTATTAAAAGATGGTGGTAAAGTAGCCTTTGTATTCCCAGGCTTAGATGGTCTGGCAAAAGGTGAAGTAGAAACGGTAAGCCGTTATTTTGGGCTTACAGCACCTATTGAAACAGAAGGTGAAGGTCTTTTAACCGATGCCTTAAATATTTTCAACAACTGCAGTATCCTTGATAATTCACTGAAAAAACTGGGAATTATTCCGGATATGAATGCAGGACACAGCTTAGGAGAATGGTTGGCAGGATATTCATCCGAGCTGGCAGAAGCGAATTCTGTAAAAGCTTTAATTGATGTGCTGAATCCTGAAACTTTTGAATTAAAAGATTCGAAATTCATCGCCATAGGAGCCGGAATTGAGGTCATAAAGCCTTTTATTGCAGAGATTTCAAACCTTTATGTTTCCAACGACAACTGCCCTAATCAGGTGATTCTTTGCGGAAGCAATGCCGCTCTGGATGAATTGGTTCCTTTATTAAAAGCAAAACAGATTTTCCATCAGGTATTGCCATTCCAGTCCGGATTTCACTCTCCTTTTATCGCTGATAAACTGGATGTGATCCTTGCGGGAATGGAAAAAGCACAGTTCCAGCAGACGAAAATACCACTATGGTCTGCTACCACCTTAGAACCTTATCCTGCAGATCAGGCAGCGATCAGAAAACTGAGTGCCGAGCATTTGGTAGAACCTGTTCGTTTCCGTGAACTGACAGACAAATTATATGAAGAAGGCGCAAGGGTTTTCATTCAAGTCGGAACTGGTGGTCTGATTGGATTTATTGATGATACTTTGAAAGGAAAAGCTTTCAGTACCATCGCTTCCAGTGTTCCGACCCGTTCTGCATTGGCTCAGTTACAGCGTGTAGTGGCTTCTTTATTTGTAGAAGGAAAAACAATTGCTCTTGACTTTTTAGAAATTCAGAATCATTCGAAAAGAGCTTCTGGAAAAGGTATTAAACTGGAGTTAGGTTCGCCTATCATCCGTAACTTTAAAGAAGTAAAGGCGTTGGCTCAATCTTTTGACACGCCAAAACAATATACAGCAACAGCTTCGGCTATTGCCACAAAAAGCGGCCATCAACTGGTACAGGCATTCCAAGATAACGTTGCCGATATGATCCGTATGCAGGAAGAAGTATTGACTTTATTCCAGAACCGCCCGGAAATCACCATCCAAAAACCTGCACCTGTAGTTCCTGTTGCTCAGAAAGCACCAAGAAGTACAACCTTCTCAAAAGATTTGTACGTAACGCTGGAAAGTCATCCTTACCTGATCGACCACAGCTTATTGAGACAGCCTAAAGGATGGACTCATGTAGCAGATATGGAGCCGGTTATTCCGATGACGATGATCTTTGAACAGCTTGCAGAAATCGCAGAAGCAGAAATCCCGGGAACACTGGTTCATAAAATCATGAATGTAAGTGTATTCCAATGGATGAACGTAGCCAAACCTTTCGAAAAAACTGTAAAAGGAGAATGGCGATCGCAAAATCATGCCTATCTCGATATTGAAAATTTTGCCAACGCAGAAGTAGTCTTAAAATCGAGTCCTGTTCCAACCCCTGATTTCAATCTTTCCATCGGTAATCTTTTACCTATCGAAAGAACGCCTGAAGAAATCTATGACATGCACATGTTCCATGGAGATAAATACCAGGGAATTACGGAGGTTTCAGCTGTTGGAGACAAAGGAATCATCGGAAAAATAAAAGGAAACGGTGGTAAAGGTTCTTTGCTTGATAATGCAGGACAGCTATTCGGGCTTTGGCTCCAACTTACTTTGGTGAAAGACCGTATTGCATTTCCTGTAAAAATCAGAGATATTGAATTCTTCGGAGATATGCATGACCAGGAAGGTATTTTTGAATGTACCTGTATGCTGACCGAGCTTAATGATGAATTTGCCATCGCTGATATCATCCTGAAAAGAGACGGAAAAGTATGGTGCGCCATTACCGGCTGGCAAAACAGAAGACTGGAAATTGATGCCGCTTTATGGAATGTTTCCATGTCTCCGCTGCACAACCGTCTTTCGGAAGAGATTGCTCCTGAAGTTTTCTTCTTCCATCAGGCCTACACCAGAGTCGCTTCATGGGATTTTATCCTGAAAAGATATTTCAACCAGACAGAAAAACAGCATCACCAGCAGTTATTACCCAACAAAAAGAAAAACTGGATGGTAAGCCGTGTGGCAGTGAAAGATGCTGTAAGAAACCTTCTTCGCCAGGAAAAAAACCATGCCTGCTTTCCGATCACCTTTGAAATCCGTTCCGATGAAGTGGGAAAACCTTACCTCATCAGCGATTTTACAGAAGATATCCATATTTCTTTAGCTCACAAAGGAAAAGAAGCCGTAGGAATCGCGAGATATGGAAAATCTGTAGGAATTGATATGGAACTGATGGAAGAACGCAGCTCAGGATTCTACGACATGGTATTTACCGACAAAGAATTAACCTTATTAAAAGACAGAGATCAGGCAGAATGGACCACCCGATTCTGGGTAGCCAAAGAAGCTTACGGAAAGTTTCTGGGAACCGGACTCAAAGGAAATCCTAAAGCCTTCGAAGTCGAATTGATAAAAGATGATCACCTGTGGATCAACAATATTGAAATCAAAACTATTAAACATAAAAATTATATTATCGGATGGACACTGTAA	MKKTDVAVIGLSCVFPGAQDANTFWQNIVNKVDSTELAPADRIDPVHFSDATSPVDRFYCQRGGFIPDYTFDPTAFGILPLAVEGTEPDHLLTLDLVQKALEDAGVFQKNISLEKTGIIIGKGNYTGPGATRAIEIVRTGEQISSLLQELLPQVSSADIEKVKHAFQRRKGRFAADTAMGLIPNLVASLVANRFNLGGAAFTVDAACASALIAVDHAVQELQRGRSDIMIAGGVHTGQNAAFWSIFAQLGAMSRQQQIKPFSMDADGLLIGEGCGFVVLKRLEDAVRDQDKIYAVIKGVGVSSDGTGTSVMSPSVKGQLKALEQAWINADLDKNKVGYLEAHGTGTPLGDKTELQTLAQFFGKEEAAPVAGIGSVKSNIGHAMPAAGIAGLIKTCLALHHDTLPPTLYCENPTSEMQNTRFEPVQEAKNWSKTGLPKVAAVNAFGFGGINAHVVLEGYDMPKKDQVLILARPTHEELLSALQNNETAIGEGDFRVALFDPTPARLEKAIKIVSKNITWKNKQDIWYTSTPLLKDGGKVAFVFPGLDGLAKGEVETVSRYFGLTAPIETEGEGLLTDALNIFNNCSILDNSLKKLGIIPDMNAGHSLGEWLAGYSSELAEANSVKALIDVLNPETFELKDSKFIAIGAGIEVIKPFIAEISNLYVSNDNCPNQVILCGSNAALDELVPLLKAKQIFHQVLPFQSGFHSPFIADKLDVILAGMEKAQFQQTKIPLWSATTLEPYPADQAAIRKLSAEHLVEPVRFRELTDKLYEEGARVFIQVGTGGLIGFIDDTLKGKAFSTIASSVPTRSALAQLQRVVASLFVEGKTIALDFLEIQNHSKRASGKGIKLELGSPIIRNFKEVKALAQSFDTPKQYTATASAIATKSGHQLVQAFQDNVADMIRMQEEVLTLFQNRPEITIQKPAPVVPVAQKAPRSTTFSKDLYVTLESHPYLIDHSLLRQPKGWTHVADMEPVIPMTMIFEQLAEIAEAEIPGTLVHKIMNVSVFQWMNVAKPFEKTVKGEWRSQNHAYLDIENFANAEVVLKSSPVPTPDFNLSIGNLLPIERTPEEIYDMHMFHGDKYQGITEVSAVGDKGIIGKIKGNGGKGSLLDNAGQLFGLWLQLTLVKDRIAFPVKIRDIEFFGDMHDQEGIFECTCMLTELNDEFAIADIILKRDGKVWCAITGWQNRRLEIDAALWNVSMSPLHNRLSEEIAPEVFFFHQAYTRVASWDFILKRYFNQTEKQHHQQLLPNKKKNWMVSRVAVKDAVRNLLRQEKNHACFPITFEIRSDEVGKPYLISDFTEDIHISLAHKGKEAVGIARYGKSVGIDMELMEERSSGFYDMVFTDKELTLLKDRDQAEWTTRFWVAKEAYGKFLGTGLKGNPKAFEVELIKDDHLWINNIEIKTIKHKNYIIGWTL				NA	NA	NA	NA	NA
BMS003_03131	7026	acpP_3		Acyl carrier protein	ATGAAAAACTTAACCATTATTGGATTGACGCCTTTTGAAAAACCAGACGTTACACTTATATCCAAACTGCACCAGGCGGGTGCATTTCCCGTTTTAAGCTTAGGAAATGAGATAACGGCTGCACAGGAAGCGTTACATCAACTTGATCAGATAGAAGTACCATCCTATGGTATTTATTTTTCTAACGACAATTTCAGCACTCTTCAAATTCCGGAAAAAGTAAGATTTGCGGTTCTTCCGGCCGGAATGTCTAATCCATACAATGTACCTGCTGTTTATCAGATAACCAGTTTGGAAGAAGCCAGACAGGCCGAGCAGTCAGGAGCAGAAGGAATCATTATCAAAGGAAACGAAGCCGGTGGATTAGTAGGTTATGAATCCACGTTTGTATTATTCCAGCGTGTAATAGAAGAAATTCACAGCATTCCGGTTTGGGTACAGGGAGGGATAGGTCTCCATACTGCTGCTGCATCCAGAGCTTTGGGAGCAACAGGAATTGTATTGGACAGCCAACTGGCTTTGTTCCCGGAAAGCTCAGTTCCCCGGGAGCTGAAAGAAGTCTGCTCAAAACTGAATGGTACAGAAACCAAGGTAATTGCTAACCATCGTGTATTGGTAAGACCCAACTCACCTGCCTTGCCTGAAAATGCAACAGCGGAAGATCTGAAACAATTCTTTACAGGCTTTGACCTTAGTACATGCTATATTCCTATGGGACAAGACATTTCACTGGCAACGGATCTGTATGAAGACTTTAAAACACTGAACAAACTGATTTTCGGGTTCAAAGAAGCTATGTATGGACACCTGAAACAGGCAAAAGCACTGAAGGCAATTGATAAAAACAACTCTCTGGCAAAGGAATTGGGTATGAGCTACCCTATCGCTCAGGGTCCAATGACCCGTGTGAGTGATGTTCCTTCATTTGCCAATGCAGTAGCAGATGCCGGAGCCTTACCTTTTGTTGCTCTATCCTTGTTGAAAGGAGATTCTGCAAAATCTTTGGTAATGGACACTAAAAAACTGGCTGGCGATAAAACTTGGGGAGTAGGAATCCTAGGATTTGCACCACAGGAATTAAGAGATGAACAGACATCATATATATTAGAAGCAAAACCTCCAGTCGTTTTGATTGCAGGAGGAAGACCCGCTCAGGCTAAAGTATTTGAAAAAGCCGGAATAAAATCATTCTTACATGTTCCTTCTCCTGCCCTTCTGGATATTTTCCTGAAAGAAGGTGCCAAAAACTTCATCTTTGAAGGACGTGAATGCGGAGGCCATGTAGGCCCTCTTTCTAGTACAGTTCTTTGGGAAAAACAAATTGAACGTATCTTAAAAGAAGACCACCCTGAAAACATCAGTGTCTTTTTTGCAGGAGGAATTCATAATGCATTTTCAACAGCGTTTGTTTCCATTATGGCTGCGCCATTGGCTGCAAGAGGAGTAAAAATCGGGGTATTGATGGGTACTGCCTATCTGTATACCCATGAAGCGGTAGAAACTGGAGCTATTCAGGAAGAATTTCAGGCACAGGCAATGCAGGCAAAAGATACCGTTTTACTGGAAACAGCTCCGGGACATGAAACCCGTTGCTTAAATACAGCTTTTGCCAACCATTTCAATACCGAAAAAGCAAAACTTCTTGCTGCCGGAATGGATAAAAAACAAGTATGGGAACAACTTGAAAAATTAAATGTAGGCCGTCTGCGTATTGCCGCCAAAGGAATAGAACGCCAGGGTGATAAATTGGTCAATATTCCTAAAGATGACCAGTTAGACTTAGGAATGTACATGATAGGACAGGTAGCAACAATGCACAATCGGGTGATCTCATTGGCAGCTCTTCATCAGAGTGTGGTAGATAATTATGAACACATTCGGGATGCAGCATTACCGGAAGAACCTGTTTCTACAGAAAAGCCTTTGGACATCGCTATTGTAGGGATGGAATGTATTTTCCCAGGTGCTAAAAACCTTGATGAATACTGGAGAAATATCATTTTAGGAAAAGACAGTGTTACCGAAGTACCAGACGAAAGATGGAATAAAGACCTTTATTACAAACCTGATTCCAACGAATCGGATGTATCTCATTCCAAATGGGGAGGATTTATTCCAAAAATTGATTTCGATCCATTGGCATTTGGGATTCCGCCACAATCGCTTGCCGCTATTGAACCTACACAGCTTTTAACCTTATTGGTTGCAAAACGTGCAATGGAAGATGCAGGATATGGTGAAAAACATATCAACAGAGAAAACATTTCTGTCATTATAGGTGCTGAAGGAGGTAATGACCTAGCCAACAGCTATAGTTTCAGAGGATATTATAAGCAGGTTTTCGGAGAACTTCATGAAGAAGTAAAAGAAGCCTTCCCACATACTACTGAAGATTCTTTCCCGGGTATTCTGGCGAACGTAATTGCAGGCAGAATTACAAACCGACTGGATCTTGGAGGTAGAAACTTTACAGTAGATGCAGCCTGTGCTTCTTCTTTGGCAGCCATTGATCTAGCCTGCCAGGAACTTGTATTAGGAAAATCTGATATGGTTCTTGCCGGAGGGGCAGATTTGCATAATGGAATTAATGATTATCTGATGTTCTCCAGCACGCATGCCCTATCCAGAAAAGGAAGATGTGCTACATTCGATGGTGATGCAGATGGTATTGCCCTTGGAGAAGGTATCGCGATCCTTGTTTTAAAAAGATACGAAGATGCTGTACGTGATGATGACAGAATTTATTCAGTAATCAAAGGAGTTGGAGGTTCCAGCGACGGAAAAGCCCTTGGATTAACTGCTCCTAGAAAAATAGGTCAGGTAAGAGCTCTGGAACGTGCTTATTCTCAAGCTGGGATCAGTCCTGCTTCAGTAGGTCTTGTAGAAGCGCACGGTACAGGAACAGTAGTGGGAGACAAAACTGAATTAAGTGCTCTGACCAATTTATTCAGTCGTTCAGGAGCTTTACCGGGGCAGACTCATTTAGGTTCTGTGAAAACACAGATCGGGCATACCAAGTGTGCAGCAGGGTTAGCCGGATTAATTAAAGCTTCGCTCGCAGTTTATCACGGGGTAAAACCACCTACCCTTCACCTTCAGCAGCCTAATGCGTATTATAATGCAGAAACCAGCCCATTTGCATTCCATGCGGAAAGCGGATTGTGGGGCGAGAAAAACCGTTATGCAGGAATCAGTGCTTTTGGATTTGGAGGAACCAATTTCCATACAGTCATTGCCAACCACCCTAAGCAGGATAATTCAATTGCCATGCAGTCGTGGCCTTCAGAATTATTTGTTTTCCGCGGAAACACTTATGAAGAAGCCAAAGGACAGTCTGCTCAGGTTAAGGCATTATTAGAAATTAACGATGGTATTCCATTAAAAGATATCGCTTACAGTTTAAGCATCAGTTCAGAAAAGCCAATCCAGTTCAGTATTGTAGCAGACACTGCCGAAGACCTGATGATGAAGCTTGAACTGGTACTGCTAGGGATTGAGACAAAAGACACTTTTACCGTGAATAAAAAAGTGGGAAAAGTAGCGTTCACATTCCCGGGACAGGGCAGCCAGAGAATTAATATGGCACGTGACTTATTTGTAGTCTTCCCTGCTATGCGTAAAATTATTGATGAGTATCCTGAACTAGAAAAAGTAGTTTTCCCATCTAAAACATTCAACGAAGCTGATTTAAAACAACAGAAAGAAACCATTAAAGATACCCGTTTAGCACAGCCCCTTTTAGGAATTGTAGACCTTGCATTGGCTAAGTTCTTAGAATCATTGGGAATTATTCCTGATATGCTGGCAGGCCACAGCTATGGTGAAATACCGGCTTTATGCTTTGCAGGAGTATTTGGAGAAGATAAACTGGTTGACTTAAGCATTAAGAGAGCTCAATCTATCTTAGATTCAGTAGAAGGCGGAGATCCGGGTTCAATGCTGGCAGCAAGTGCTACTGCAGAACGCTTACAACCTATTATTGCCAAAGTAGAAGGATGTTATCCTGTAAACTTCAATGCTCCTACTCAATGTGTGATCGCCGGAAGTACGGAAGCCATCAATAAACTGTTGGAAGTGCTTAAACAGGAAGGTATTTCTGCTAAAAAACTGGAAGTTGCCTGTGCATTCCACAGCCCGTTATTGGCAAAATCCAAAGGTTTATATGCAGAAGTTTTAAAAGATGTTCCTTTCCAGGAAATGCAGATCCCTGTTTGGTCCAATACTACAGCAGAAGTATATCCGGCAAATCCATCAGAAATAAAAGAAAGGCTTACTGATCATCTGGTACAGCCAGTGAGATTTGTAGAACAGCTTCAGGCAATGTATAACGACGGAGCAAGAATCTTCATAGAAGTAGGACCAGGAAAAGTACTTACCGGATTGACCAAGTCTTGTCTGGAAAAAGATCAGCTGACCTTATATGTTGAAGACAACAGCCGTAATAAATTCAGCCATCTGCTTTGCATGCTGGCACAATATTTAGGAACCGGCAGAAGCTTTAATATTGATAAACTTTTTGACGGCAGAAGTGTTACGGTCATAGATCTTAACCAGCCTGAGCTTTACAAAAAAAGTCCTGCGATCTGGCGTGTTAACGGGCAAACAGCCCATCCAACCACCGGTAATCTGCCATCTAATGGTGCATTACCACTTATAAACCCAATTCCCATGAACCATTTTACCAATAATCCACAGCCACCCGCAACTGAGCCTCAGTCTACTGCTGAACGTATGTTGCAGGAATATTTGAACAGCATGAAACTAATGATACAGGCACAGCGTGATGTGATGCTTTCCTTTATGGGACAAAATCCTCAGGCATTCCCTGCTCCTGTACACCATTCACCAGCACCTGTTGCTGCACACCAACCCATATCTAATATTCCGGTTCAGCCTGTTCAGCAGGAAAGACCTGTAGATGTGGCTCCTGTAAAACCAGCTCCGGCAAGAGATATCAAATCCTTGTTACTACAGGTTGTCAGTGATAAGACAGGGTATCCTCAGGAAATGCTGGGCATGGAAATGGATCTTGAAGCGGATTTAAGTATTGACTCTATTAAGAGAGTTGAAATCATCGGAACACTTCGTAGCGAATTGGGAACTTTAGGTAACAGTACTACTAATGAAGATACCGTTATGGAACAGCTTGCAGGAATAAAAACATTAAGCGGACTTGTTTCATGGCTTACTGAGTTTTCTGGAGCTGAATCAACTGCTGCGCCTGAAAAAAACGGAACAACAACGGAACCAACAGTTTCAAAATCACAAGCTCAACCGGCATTCTCACTTGAAGACCTTCAAAATGCGATTCTGAATATCGTAAGCGAAAAAACAGGATATCCTAAAGAAATGTTAGGGCTGGATCTTGATCTGGAAGCGGATTTAAGTATAGACTCCATCAAACGTATGGAAATCATTGGTGATCTTAAAACTAAGATCGGTTTTGGTCAAAATCTTGAACAGGCGGATGATGTGATGGAAAAACTGGCTGCTATTAAAACCCTTCGTGGTCTGGCAAGCTGGATCAGTGAAATGAATGGTGAAAACAACGAAGCAGCTCCGGAAGTGAAAGAAGAAAATACTACAGAGCCAACTCAAAATGTATTGTCACGTCTTCGTTTTGATATCACTCCAACAGATTCTTCTAAAATACAAAATACAGAAGTATTGCAGGGAAAACGTTTTGCCATTACACAAGATGACAGCAAACAGACCTCAGCCATCAAAGATGCATTAGAAAAGCATGGAGCTATTGTAGAATTAGTAGATGCAGACAAAGATCTTTCTAATATTGACGGATTAATTATGCTGGATTTATTCTCCGCAGCTGATAAACCAAGCATCATCGATCATGTAGATTTGATCAAAAAGCTGGATTTTGATAAAGCAAAATGGGTATATCTTATTTCAGATATTCCTGCACATCTTAAGGAAATTACAGATGCAAGCATATTACGCCATCATCAGGGATATCCGGGGCTTTTCAAAAGTTTAGCAAGAGAATTTGATAATACAACTTGTAGATTAATTAGTCTGAGTACTCCTCAGGAAGTAGATCAGATTGCTGAAATCACTTTGAAAGAAATCCTTACCAACGATAAACCTGCTGAAGTTATTTATAAAAACGATCAAAGACATAAAGTAGACATCATCCCTTCTCCATTATCTACAAGCTTGAATGAAGCTCACATCCAGTTAGATCAGAAATCTGTGGTATTGGTACTTGGAGGTGCGCAGGGAATCACTGCCGAACTGGTAAAACATATGTCTCAGGCCTATCCTTGTACTTATATTCTGGTAGGAAGATCCGCTGATCCAAGAAATGAACTTTCGGCTAAAGATTTTGAAGGTATGAAAACCAAAGAAGAAATCAGAGGTTTCCTGATTAAGTCTGGTCAATTCACTTCTCCTTCAGAAATAGAAAAAGAAACGACGAAGATTTTCAAAAACAATCAGATCCTTCGCACCATCCGCGATATGGAGAACCTTGGTAACACGATCATTTATCAATCACTGGATCTTTGTGATGAAGAAGGATTAAGCAATCTGATCAGCAGTATTTATGATAAATATAACCGTCTGGATGGAGTAATCCATGGAGCAGGTCTTTTAGAAGATAAATTATTCAAACAAAAGACAACAAGCTCTTTCGGACGTGTATTTGATACCAAAGTGAAACCACTTCGTGTATTGGCAGAACAACTTCGTTCAGACTGTCAGTTTGTAGTATTATTCTCAAGCATCGCTTCCGTATACGGTAATAAAGGACAGACAGATTATGCTGCAGCCAACAGTGTACTGGATGATTATGCAAATGCCCTAAATAAAAGATTAAAAGGAAAAGTAATCTCTATCAACTGGGGACCATGGAAAGGTGCCGGAATGGTTTCTTCCACCTTGGAATCAGAGTACGAGCGCAGAGGTATTTCCATGATTCCATTGGATGAAGGAAAAGAAATCTTCCTTAACGAGATTAAATACGGAACGGAAAGCCAGGTGCTGATCATGTCAGGAAATAATTGGTAA	MKNLTIIGLTPFEKPDVTLISKLHQAGAFPVLSLGNEITAAQEALHQLDQIEVPSYGIYFSNDNFSTLQIPEKVRFAVLPAGMSNPYNVPAVYQITSLEEARQAEQSGAEGIIIKGNEAGGLVGYESTFVLFQRVIEEIHSIPVWVQGGIGLHTAAASRALGATGIVLDSQLALFPESSVPRELKEVCSKLNGTETKVIANHRVLVRPNSPALPENATAEDLKQFFTGFDLSTCYIPMGQDISLATDLYEDFKTLNKLIFGFKEAMYGHLKQAKALKAIDKNNSLAKELGMSYPIAQGPMTRVSDVPSFANAVADAGALPFVALSLLKGDSAKSLVMDTKKLAGDKTWGVGILGFAPQELRDEQTSYILEAKPPVVLIAGGRPAQAKVFEKAGIKSFLHVPSPALLDIFLKEGAKNFIFEGRECGGHVGPLSSTVLWEKQIERILKEDHPENISVFFAGGIHNAFSTAFVSIMAAPLAARGVKIGVLMGTAYLYTHEAVETGAIQEEFQAQAMQAKDTVLLETAPGHETRCLNTAFANHFNTEKAKLLAAGMDKKQVWEQLEKLNVGRLRIAAKGIERQGDKLVNIPKDDQLDLGMYMIGQVATMHNRVISLAALHQSVVDNYEHIRDAALPEEPVSTEKPLDIAIVGMECIFPGAKNLDEYWRNIILGKDSVTEVPDERWNKDLYYKPDSNESDVSHSKWGGFIPKIDFDPLAFGIPPQSLAAIEPTQLLTLLVAKRAMEDAGYGEKHINRENISVIIGAEGGNDLANSYSFRGYYKQVFGELHEEVKEAFPHTTEDSFPGILANVIAGRITNRLDLGGRNFTVDAACASSLAAIDLACQELVLGKSDMVLAGGADLHNGINDYLMFSSTHALSRKGRCATFDGDADGIALGEGIAILVLKRYEDAVRDDDRIYSVIKGVGGSSDGKALGLTAPRKIGQVRALERAYSQAGISPASVGLVEAHGTGTVVGDKTELSALTNLFSRSGALPGQTHLGSVKTQIGHTKCAAGLAGLIKASLAVYHGVKPPTLHLQQPNAYYNAETSPFAFHAESGLWGEKNRYAGISAFGFGGTNFHTVIANHPKQDNSIAMQSWPSELFVFRGNTYEEAKGQSAQVKALLEINDGIPLKDIAYSLSISSEKPIQFSIVADTAEDLMMKLELVLLGIETKDTFTVNKKVGKVAFTFPGQGSQRINMARDLFVVFPAMRKIIDEYPELEKVVFPSKTFNEADLKQQKETIKDTRLAQPLLGIVDLALAKFLESLGIIPDMLAGHSYGEIPALCFAGVFGEDKLVDLSIKRAQSILDSVEGGDPGSMLAASATAERLQPIIAKVEGCYPVNFNAPTQCVIAGSTEAINKLLEVLKQEGISAKKLEVACAFHSPLLAKSKGLYAEVLKDVPFQEMQIPVWSNTTAEVYPANPSEIKERLTDHLVQPVRFVEQLQAMYNDGARIFIEVGPGKVLTGLTKSCLEKDQLTLYVEDNSRNKFSHLLCMLAQYLGTGRSFNIDKLFDGRSVTVIDLNQPELYKKSPAIWRVNGQTAHPTTGNLPSNGALPLINPIPMNHFTNNPQPPATEPQSTAERMLQEYLNSMKLMIQAQRDVMLSFMGQNPQAFPAPVHHSPAPVAAHQPISNIPVQPVQQERPVDVAPVKPAPARDIKSLLLQVVSDKTGYPQEMLGMEMDLEADLSIDSIKRVEIIGTLRSELGTLGNSTTNEDTVMEQLAGIKTLSGLVSWLTEFSGAESTAAPEKNGTTTEPTVSKSQAQPAFSLEDLQNAILNIVSEKTGYPKEMLGLDLDLEADLSIDSIKRMEIIGDLKTKIGFGQNLEQADDVMEKLAAIKTLRGLASWISEMNGENNEAAPEVKEENTTEPTQNVLSRLRFDITPTDSSKIQNTEVLQGKRFAITQDDSKQTSAIKDALEKHGAIVELVDADKDLSNIDGLIMLDLFSAADKPSIIDHVDLIKKLDFDKAKWVYLISDIPAHLKEITDASILRHHQGYPGLFKSLAREFDNTTCRLISLSTPQEVDQIAEITLKEILTNDKPAEVIYKNDQRHKVDIIPSPLSTSLNEAHIQLDQKSVVLVLGGAQGITAELVKHMSQAYPCTYILVGRSADPRNELSAKDFEGMKTKEEIRGFLIKSGQFTSPSEIEKETTKIFKNNQILRTIRDMENLGNTIIYQSLDLCDEEGLSNLISSIYDKYNRLDGVIHGAGLLEDKLFKQKTTSSFGRVFDTKVKPLRVLAEQLRSDCQFVVLFSSIASVYGNKGQTDYAAANSVLDDYANALNKRLKGKVISINWGPWKGAGMVSSTLESEYERRGISMIPLDEGKEIFLNEIKYGTESQVLIMSGNNW				NA	NA	NA	NA	NA
BMS003_03132	159			hypothetical protein	ATGAAAAACTTGACCAAAATCAGGCTGATGCCTCTTGAAAAACCGGACACCGAAATCCTATCAGAGAATCTATTGAAAAACAATAGAATATTAAATAATTATCACAAAACAACACATATCGCTAACGATTTAACAAAAACCAATTTTATTATACTATAG	MKNLTKIRLMPLEKPDTEILSENLLKNNRILNNYHKTTHIANDLTKTNFIIL				NA	NA	NA	NA	NA
BMS003_03133	1014	glsA	COG2066	Glutaminase	ATGAAAAACAACAGCTTTTTATCATCTGCAAAAGGAATCTGCACCATAGCATTTTTGGCCTTGAATACAGCCGTTTATGCTCAGAAACCGACAGAAATCTCAACAATTTCAGAGAAAACCCTAAACATTATTCTGGAAAAAAACAGAGCTTATTATGCACAGGGTAAGGTAGCCAATTATATTCCTGAATTGGGAAAAATGGATGCCAAAGCTATTGCTTTTTCAGTAGTAGATAAAAACGGCAAAGTATTTAACACAGGGGATGTGAGTAAGAAATTTACCATGCAGAGCATCTCCAAAATCATATCATTAATGGTGGCTGTAACAGAAAAAGGTGAAGCTAATATTTTTGACAAAATGGGTTATTTTGGCTCTGACAAACCTTTTAATCATTTCTCGAATCTGGAAACTACAGGAAAACCGCTTAATCCAATGATGAATGCCGGAGCAATCCTTACAACTTCATTAATCTCAGGAGAAGGAGAAAAGCCATTTCTTAAAATACTGGATATGGTAAGATATATCACCAAAAACCAGACAATTGATTACAACAAATCTGTTTATGAATCTGAAAAATCCACAGGACACCGTAACCGCGGTATGTTTTACATCATGAAAAACAGCGGACTTATTTCAGGAAACGAAGACCAGCTGGACAATTACTTTAAACAATGCTCTATTGAACTTACTGCGGAAGATCTGGCTAAAATAGGTTACTTCTTCGCCAACCAGTGTATAAGATTTGACGGAGATACCACATACAAAAATGCTGATATGGCAAAACTGGTAGAATCCCAAATGCTTACTGCCGGAATGTATGAATTCAGCGGAGAATATTCCAGAATGGTAGGACTTCCGAGTAAATCCGGTGTAGGAGGCGGTATTACCGTAAGTGTTCCGGGAAAAATGGGAATCGGGGTATTCAGTCCGGCTTTAGATCAGCATGGCAATTCATTAGCCGGATATCATATGATTCTGGATCTTGCAAAACAATACGGATTAAGCATCTTTTAA	MKNNSFLSSAKGICTIAFLALNTAVYAQKPTEISTISEKTLNIILEKNRAYYAQGKVANYIPELGKMDAKAIAFSVVDKNGKVFNTGDVSKKFTMQSISKIISLMVAVTEKGEANIFDKMGYFGSDKPFNHFSNLETTGKPLNPMMNAGAILTTSLISGEGEKPFLKILDMVRYITKNQTIDYNKSVYESEKSTGHRNRGMFYIMKNSGLISGNEDQLDNYFKQCSIELTAEDLAKIGYFFANQCIRFDGDTTYKNADMAKLVESQMLTAGMYEFSGEYSRMVGLPSKSGVGGGITVSVPGKMGIGVFSPALDQHGNSLAGYHMILDLAKQYGLSIF	PGPT0020215_922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
BMS003_03134	4872			hypothetical protein	ATGAAAAACAACACCTATTTTGGTAGGCAGCACGTCTTCAGATGGCTCCTGCTATGTTGGCTTTTGGTGCCCTGGGTACTACAAGCTCAAGCTCGAATTACATGGACCGCTCAGGTCGGATGCCAGGAATTCCGTGGCGAAAAAGATGGTCAGATCCCTGACAACGGAATCGCATATTCCTACATCAATTCATCCCAATGTCTCCGTGTCTGTGAGGAATCAACTGTACAATATGTGGTTCAGGGACCGAATGTTTCCAATGTCCAATGGACGGTTTCAGGAGGAACTTCTGCCATTTCGGGACCCGGCAATACCATTATCAATATCGGCTGGGGATCTGCAGGTAACGGATCTTTACAGGCTGTCATCACTTACAATGACGGAACTGTGGAAACCCAGACCATCTGTATTGAAAAGATCAACAGACCGATTGCTAAATTTAAATTGCAAAATCTGACTGATACCGTATGTAAAAATACGACGATCTATTTTGATAACCTTTCCGAACAAAACGGAGGATCGGATATCATAAGTTATTTCTGGGATTTTGGGGATGGTACTACTTCCACAGCTTTTGAACCATCTCATCTGTATGCTAACCAGGGGAATTATACTGTTCAGTTGACAGTAACCAACAAGTGTGGTTGCCAGGATAAGCTTAAAAGACAGATCAAAGTACTAAAATCAGATCCTGTTCAGATCAACTGTGCTTCTGTAGTCTGTGAAAACAGTACTGAGAAATACAATGTACAGGATGGATGCAAAAAAGGACAATGGAAGGTTATCGGCGGAACAATTGTTAATAATAACGGTAACGAAATTGAAGTAGTTTGGGATCAGGTAGATCCGCTTGACGGTTTTGGATATGTAATGTACTTATCAGAATGTGCTTGTCCTGAATGGACTACAGTCAAAATTCCAGTGGTTTTAAAAAATGCAAAAGTCAATGGTAAAGCAGTAATATGTGCCGGACAGCAAAATACTTATTCAATTCCTCAATGGCCTACAACCAGCGTTCAGTGGAATGTATCAGGTCCTGCGGGAGGTCAGCTGACAAATACTCAGCAAAGAAATGAAATAGTTTTCACAGCCAGCCAGCCGGGTACTTATCATCTTACGGCTACTTACCTGAATACTTTACTGAGATGCGAAGGTGAAGCTTCTATTGATATTGAAGTAGAAGCACCGGTAGTGGTAAGTGGAGGTGCGGATGAGATCTGTGCAGGAACAAGCCAGGGATTTACAGCTACACCTAATGTGCCTGTTATTTGGAAGGTAACAACCGGAAGTTCTACTTATACGTCTCCTCCAATGACAGGAACATTTAACTACAACTTTGCTGCGGCAGGAACCTATACTGTTACTGCTACTAAGCAGGGAGGCGGTTGTGAAAGTAACGGAAGGATCATTAAAGTATTGCCAATTCCGGCAATGCCTACAGGGACAATCTCCGGGGAGACCAAAGTATGCCCTGGAAAACCTTATGTTTATACCATCAGCTCAGTTGATGCAGGAATGATACCTGTCTGGAGTGTTACCAACGGAACAATTCAGGGAAGTAATGCGGGATCTTCCGTAACAGTTGTATTTAATTCTGGTGCTACATCATATACTGTATCTGCGCAGAATAAATCCATCAGTAATGCAGGATGTCTTTCGGCTCCGAAATCGTTCAATGTAACGAAATTAGATCTGAGTACTATCGTAATCAATCCTAATTCAGGACCTTTTTGTCCAAGTAGTACCCAAACTTTCAGTGCCAATCTGAATGGAATTGTTCCGGACTTTATGGAATGGTCATTTGCCAGCTCAAACTTTGGAAGTGTGATTGGAGGACAGGGTACAGCTAATATTACGGTCAACTTCAATGAGATCTCTTCAACAAGTAATACGAATTTGATTTTAAAAGTTGTAAAATGCGGAGTAACTCAAACAATCACGATGCCGGTATCATTAATAACGCTTCCGGTAGTGAGCTTTACGAATGTTGGAGGAGTTTGTTTAGGTTCAAACCTTACTTTCACTGTAAACCAAGGAACAATTACTTCAGCAACGAATGTTACTTTCACTTTTGCTAACGGAACATATACTACAGCGTTCAACCCGTCTGGGGTTTATAGCTTCCCGAATAACGGTTATATCGTGAATAACTCAGGAAATAATGTTTCGCAGACGGTTACAGTAACTTATACAGGTACCAACGGTTGTAATTATAAGCCTACGGCAAGTGCCAACTTTATTATCTATCCTGAAACAATTATTACGGTTTCTCCGGTGTATAATATTACTGTTTGTGATCCTGCAACAATGACGCCGTATACTATTACAGCTAACAGTTCGACAGGGCTTACAAATATTGTTTCCTGGCAGTGGTATAAAGATAATGCAATCATATCTGGGGCAACTGCCAATTCTTACACAATATCAGGTGCAGGTGCATTTGGAACTTACAAAGTACAGGCTGTAGATATTAACGGTTGTGTGGTTTCTTCACAGGATATTAAAGTTATTCAGTCTTGTCCGAGCAGTGGAAGCTGTACGGTAAATCCACAAATTAATTTTGTTCCTTCGTGGTCAGGCTGTAATACAATCACTGTTTCAGGTTTAACCTACAATGGGATTCCAGACCAGATTCAATGGTTATCAGACAGTGTACTTACTTTAACTTCCGGGCAGGGAACGGCTTCTCCGGTATATCAGACTAATCTTGCCGGAGCACACATTGTTTTTGTCCGTTTAAGATACGGAGCATGTTGGTACAGCAGGGGTATAGAAGTAAGAAAGAATTATGAGCCTAAGTTCAATATCAGTACAGTATGTAGTGGAAACGGGTATAATGTGACACTTTTCAATACGTCTACAATATTTGAAATTAATCCATCAGCTATTACCTACACCTTTACTTCGCCGGGATTGCCTACTCAGGCTGGGCAGTCGGCTACTTATAACAATCTGGCGCCAGGTACCTATACTTTCACAATGACAGTATCTTCACCAGGAAAGCCAACATGTACTACTACACAGACCATTACATTAGATCCGATTCCTAGTACGGACTTCCTTGTTCCTGCCTGGATATGTGTACGTGAGCCTATTACATTCTCTCCTGTAACCTATGTTTCCGGAAATACATATACATGGATTTTTGATGGTACATCTTATGTAACTACAGGGGCAAATGCTACAGTAACGTATAATACTGCGGGAACAAAAACAATTCAGCTGAAAATAAAAACTCCTATGGGATGTGAATATATTTCAGCTGCAATTAATATTAACGTTAAAGAAGCAACTCTTGATGGGAATATGGCACCTCCTGCTCTTGTAGCATGTGTGGGTAGTGCTCCTAATATTGTATTCACCAGCACGCTTGGATCTCCCAGCCAGTATATCTGGATGAATGGTTCTCAGCCCGTAGCCGGGGCACCAAGCTCTCCGGTATTCACACCAACTCAATCTGGGAACTACTGGCCGGTGCTGGTATCATCAGATGGATGTAAGACAAGTGTAATGAGTACTAAGGCAATCCCTGTAACGCTTAAAAATCCTCCATATGTAAATATATCGGGAACGGCTAATATCTGCCAGGGGTCTTCAACGGTACTTAGTGGTATTGTAACGGATAATACATTAGAATACCAATGGAAAAAAGCAAATTCGGTTGTAGTGCCATGGACTTCTTCTCCTTATCCGATTAGTTTAAATACAGGAGCATTAGCTGCAGGTACATATGTTTATACTCTGGAAGTAAGAACTCCGGGCACATCAGGATGTACAAGCTCTAAGTCCTTCACGGTTACTGTAAGCCCTCCGCCATCACCAGTTTCGGTAACATACAATATGGTGAACTGTCAGCCTTATCAGGTTGTACTGACAGCATCGGGACCGTCTGCAGGGGTTTATAACTGGAGTAACGGGATGACAGGTCAGTCGATCACGGTAAATGAAGGTGGTGCTTATCAGGTGATTTATACAGCGCCAAGTGGTTGTAAAGCAGTTGGTAATACACAGGTACCATTAAGTCTTGAGAGTCTGATGTGGGTATTCCCGACAGGATGCTATGATGAGTGTCTCAGAGATAATTATATTTTAGGACCAAAAGGAATTTTTGATCATCATGAATGGCAGTTATTTGGAAATAATATCCAGAGCGGAAACAATGATTATATCTATCCGTTGTATATCAATGCTCCGGGAACATATCAGCTTCAGGTTGATCAGTTAGGATGTCAGTTTACTTCCGGAACCATGAATTACTATCCGGGTAAAGAATGTGGATTCGAAGCAGAATGTAAAGTGGAAGCTAGTATTAAGGAGATGAAATGGTTTAGTGATCATTATGTTATTTATGGTATGATTTACAACTTAGGAAGTCAGCCGATGAGTCTTACTGTTTCAAGTCTTAATGGATTAGGAATTTACCTTCCGTCTATTATTACGATTCCGGCAGGAGGGGTATATGACATGAATGCCAATCCATTGGTGTTCTATCCAAATTCAGGCTTCCAGGGTACTGACGTGATCTTGTTCTCCAATGGAACCTGTAAGTTTACTACCAAAGCGGTGGATCCTGACTGGATGGGTATGAGAAGTGCATCGAGAAGTGTAAATGTTACTTCGGTTTCTTCTCTGAATATGATACCAAATCCTGCGAAGGAAAAAGTGAAGATCTCGTATAATACGGGCAATGAAAAATTACCGGCAAAACAGGTTAAGGTTTTTGATGCCATGGGCAATGTCAAATTCAGTAAAGAAGTAAAAGCGGCTTCCGGAGAGGTAGACGTGGATGTATCTGGCTGGTTGCAAGGTGTTTACATTGTTATTGTACAAACGGGAGACACATCATTACAAGGAAAACTAATTAAAAATTAG	MKNNTYFGRQHVFRWLLLCWLLVPWVLQAQARITWTAQVGCQEFRGEKDGQIPDNGIAYSYINSSQCLRVCEESTVQYVVQGPNVSNVQWTVSGGTSAISGPGNTIINIGWGSAGNGSLQAVITYNDGTVETQTICIEKINRPIAKFKLQNLTDTVCKNTTIYFDNLSEQNGGSDIISYFWDFGDGTTSTAFEPSHLYANQGNYTVQLTVTNKCGCQDKLKRQIKVLKSDPVQINCASVVCENSTEKYNVQDGCKKGQWKVIGGTIVNNNGNEIEVVWDQVDPLDGFGYVMYLSECACPEWTTVKIPVVLKNAKVNGKAVICAGQQNTYSIPQWPTTSVQWNVSGPAGGQLTNTQQRNEIVFTASQPGTYHLTATYLNTLLRCEGEASIDIEVEAPVVVSGGADEICAGTSQGFTATPNVPVIWKVTTGSSTYTSPPMTGTFNYNFAAAGTYTVTATKQGGGCESNGRIIKVLPIPAMPTGTISGETKVCPGKPYVYTISSVDAGMIPVWSVTNGTIQGSNAGSSVTVVFNSGATSYTVSAQNKSISNAGCLSAPKSFNVTKLDLSTIVINPNSGPFCPSSTQTFSANLNGIVPDFMEWSFASSNFGSVIGGQGTANITVNFNEISSTSNTNLILKVVKCGVTQTITMPVSLITLPVVSFTNVGGVCLGSNLTFTVNQGTITSATNVTFTFANGTYTTAFNPSGVYSFPNNGYIVNNSGNNVSQTVTVTYTGTNGCNYKPTASANFIIYPETIITVSPVYNITVCDPATMTPYTITANSSTGLTNIVSWQWYKDNAIISGATANSYTISGAGAFGTYKVQAVDINGCVVSSQDIKVIQSCPSSGSCTVNPQINFVPSWSGCNTITVSGLTYNGIPDQIQWLSDSVLTLTSGQGTASPVYQTNLAGAHIVFVRLRYGACWYSRGIEVRKNYEPKFNISTVCSGNGYNVTLFNTSTIFEINPSAITYTFTSPGLPTQAGQSATYNNLAPGTYTFTMTVSSPGKPTCTTTQTITLDPIPSTDFLVPAWICVREPITFSPVTYVSGNTYTWIFDGTSYVTTGANATVTYNTAGTKTIQLKIKTPMGCEYISAAININVKEATLDGNMAPPALVACVGSAPNIVFTSTLGSPSQYIWMNGSQPVAGAPSSPVFTPTQSGNYWPVLVSSDGCKTSVMSTKAIPVTLKNPPYVNISGTANICQGSSTVLSGIVTDNTLEYQWKKANSVVVPWTSSPYPISLNTGALAAGTYVYTLEVRTPGTSGCTSSKSFTVTVSPPPSPVSVTYNMVNCQPYQVVLTASGPSAGVYNWSNGMTGQSITVNEGGAYQVIYTAPSGCKAVGNTQVPLSLESLMWVFPTGCYDECLRDNYILGPKGIFDHHEWQLFGNNIQSGNNDYIYPLYINAPGTYQLQVDQLGCQFTSGTMNYYPGKECGFEAECKVEASIKEMKWFSDHYVIYGMIYNLGSQPMSLTVSSLNGLGIYLPSIITIPAGGVYDMNANPLVFYPNSGFQGTDVILFSNGTCKFTTKAVDPDWMGMRSASRSVNVTSVSSLNMIPNPAKEKVKISYNTGNEKLPAKQVKVFDAMGNVKFSKEVKAASGEVDVDVSGWLQGVYIVIVQTGDTSLQGKLIKN				NA	NA	NA	NA	NA
BMS003_03135	1866			hypothetical protein	ATGATACGATTAAAAAACAAACTGTGGGGACTGCTTCTTATACTGCCGGCATTATCTTTTAGCCAGACTTATCAGTGGCAGTGGGGAAAACAGGCAGGGGGAATTACTGGCTCAGCGGATCCGGGCTTTCATTATGTGTTTGATGAATCTATAAGGGATATTGTGGTGGATAACAACAATAATACCTATTATCTTGCTACAATGCGTGAACAGGGGCAGAACCTCAATGGTACATCTGTAAGCAATTATGGACTTAATGATCTTTTTCTGTTCTCTACAGATTGTGAGGGAAATATAAGATGGTCCAGACCGATAGGAGGAACGGGAGACGGAGAGAATGCCTGGCATATTAAACTGGATAATAACGGAGGTTTATATATTTTAGCGACCATTTATAACAACTCATATATCGGAGATCCGAATGCTGTACCTGTACATTTTGATGATACCCATACGCTTCCTCTTTATACCTATTATGATCAGACAATAGATCCGGCTCACAAAGCGGCCTTTCTTTTAAAATACAATACCTCTGACGGTACACTGGCCTGGAGCAAGGCTTTGCAGGGAGATGTCAATTATTCAACCCGTATGTGTGATGTGCAGATGATGTATATGGATTCTTCCAAAAATATTCATGCTGTAATGGGATTTAGGGCAGGAACTCACTTGAATGGACTGATTACGGTGCCTTCAACCTATACTTCTGCTTATCAGTATTATGTGGTCAGGTTCAATTATGATAATGGCAATATGACACCAGCTGCTCCTTTGCTTCTTCCTATTACCGGAGATGCCATTAATGCTGTAGGAAGAGAAGGAAAAGTGAATCTGGTTTATGATGAAATTCTGAATCGTTATTATATTGCAGGTAAAAGAATGGATGCAGGATTCAGTAATCTGGTAGACCTTTCCTACAATGATGTTCCGTTTACCCAATCGGCTTATATTCTTGCTTTAGACGGTACTACCGGAGCAGAAGTATGGAGAAAGGAACTGAATAACGGTACAACCAGCAATGATGACGAAATTCATTCCATTATCAAAGATCCTGTAACTTCGGATATATATATATCAGGACGTTATTTCAATGGTATATCAGTGCCTGCTACTTTTGGAAATTATACTTTTCCTTTAAGAAGCTATGTTGAAGCTGTACCATTTGTAATGAAAATTAATGGTTCAGGTACTGTGCAGTGGGCAAAAACACCTGACGGGATGTCTGGTCTTCAGTTTGGATACCGTTTTACAAAAGGAGTGATTGCTCTTAACGGAAACGAACTTGCGTTTGCCAAAGGAAGCTGGTCAGATATCTGGGGTAGCTATTCAATGGTGCGTCCTGATGGAGATAGAGCAGATCCTTTGTTGGTAAGGCTTAATAAAGATACTGGCGATGTTTTGGGAACAGGAGAAATTCATAGTAATTTTTATGTTATAGATGAATTTACGGCTGTTGCAGCAGATAAAGATGGAAATTATGTAGTGGGAGGTTTTTTCCATGACCAGCTGTTTACAGATGCTAATGATAATGTCAGTACAATGGCTGTGAATGTAATGGGAGGAAAATCTCAGTCTTTTTTTACAAAATTTGCCAAATCAGCCTGTAGCCAGATGTCTGTAGAGGAAACAGCTGCTCAGGCAGGAATACAATTATATCCGAATCCGGTTCAGGATGTGCTTACCATAAGAAGTAAAGATCCTTTGGCTTCTTATGAAATCTTTGGTGCTACGGGACAGCTCGTAAAACAGGGAACTTTGAATATGACGCAGGAACAGATAATATTATCGTCTCTTCAGACAGGAGTATATTACATTAAACTTAAAACAAAATCTTCGACAGTAACAGAAAAAATACTGAAGAAGTAG	MIRLKNKLWGLLLILPALSFSQTYQWQWGKQAGGITGSADPGFHYVFDESIRDIVVDNNNNTYYLATMREQGQNLNGTSVSNYGLNDLFLFSTDCEGNIRWSRPIGGTGDGENAWHIKLDNNGGLYILATIYNNSYIGDPNAVPVHFDDTHTLPLYTYYDQTIDPAHKAAFLLKYNTSDGTLAWSKALQGDVNYSTRMCDVQMMYMDSSKNIHAVMGFRAGTHLNGLITVPSTYTSAYQYYVVRFNYDNGNMTPAAPLLLPITGDAINAVGREGKVNLVYDEILNRYYIAGKRMDAGFSNLVDLSYNDVPFTQSAYILALDGTTGAEVWRKELNNGTTSNDDEIHSIIKDPVTSDIYISGRYFNGISVPATFGNYTFPLRSYVEAVPFVMKINGSGTVQWAKTPDGMSGLQFGYRFTKGVIALNGNELAFAKGSWSDIWGSYSMVRPDGDRADPLLVRLNKDTGDVLGTGEIHSNFYVIDEFTAVAADKDGNYVVGGFFHDQLFTDANDNVSTMAVNVMGGKSQSFFTKFAKSACSQMSVEETAAQAGIQLYPNPVQDVLTIRSKDPLASYEIFGATGQLVKQGTLNMTQEQIILSSLQTGVYYIKLKTKSSTVTEKILKK				NA	NA	NA	NA	NA
BMS003_03136	756			hypothetical protein	ATGCGCTATTCCGTATTTTTGCAGCGTATTAAACGGCTAAACTGTTTATTCTATATTATGAGCAATACATTTTCCGGCAACAATCAAATAGAGGTGGTTTCTTCTTTTTCTGATCTAATAAATACCAATTTTCACGGAATGATGAATGCTGTTTGCTGGTATAGAAACCTCGTGGGAAATTTTAAGGAAATTGTTTCAAAACTTCGGCCGGAAGATAATATTACAGAAGTTTCCCCTGAAGATCTTTTGGGATTGAAGCTGTCAGAAGATGGTGTTCTTGCCAGGGAAACAATCTTAAATGACATGAAGTTATTGGCAGATCTTGGCGCTTTGCCTTCTCTCAATTTACTTAAATGTTATGAGCGGGATGAGGAACTGGGTTTCATTTCAACAGATGTATATTCTTATCATGTAGACCGTTCACCTGTTGGAACAGACACATTTCTATGTACCTATCACGGAGTTGCAAGTGATATCATCGCCAATGATCAGGTTGAACAGAAAATTTTGATCCCTGAAATCCGGGAAAAGTTAAAAGAACTGCATGATGGTCCGGAGGAAGAATTTGAAACATTCCTGAAAGAATATTTCTTTGATCTGCATTATCAGCCTAAACCCAATGCTGAACCTGTTAATTTAGGAATAGGGCATCTTTGGCGGCTGGCAGTGGATCACCCTGAACAGACTGCTTTACCTTGTGTTCACAGGGCACCTGTGGAAAATGCTGGAGAATATAGGCTGCTGCTGATTTGTTAA	MRYSVFLQRIKRLNCLFYIMSNTFSGNNQIEVVSSFSDLINTNFHGMMNAVCWYRNLVGNFKEIVSKLRPEDNITEVSPEDLLGLKLSEDGVLARETILNDMKLLADLGALPSLNLLKCYERDEELGFISTDVYSYHVDRSPVGTDTFLCTYHGVASDIIANDQVEQKILIPEIREKLKELHDGPEEEFETFLKEYFFDLHYQPKPNAEPVNLGIGHLWRLAVDHPEQTALPCVHRAPVENAGEYRLLLIC				NA	NA	NA	NA	NA
BMS003_03137	1260			hypothetical protein	ATGAAAACAATTATTAAAAAATTATCCTTTTTAAGTGTATTTATTTCACTTATCAGCTTATGCTCCAGCCTGTTTGCGCAGGCCTACCCTATTGGCCAGATGTTTCTGACTGCTTATGGCCAGTCTTTTACTATGTTTAATACGGGAATGATTGTTCAGAATGGCAATCCGGGAAATGCCGGCCAGGCAGTATATGATCAAACCGGAATTAATTATTTACGTTTGCCATCTGCAGTACCTTACCAAAAAGCTTTTTTTCTGGATTTTAACAATAATATTATAGAATTAGATTACAGATACGGATACCGAATAGTCGGCTATTCTAATATTCCTATTCCTCCACCGCCGGTTATGCATCTGCCAAAACCAACTTATGATAATCAAGTAGGCATTCAGACTGCTAACGGATTACGACCAATACCCACACAGATTGTGGATGAGCAAAAACCTTTTGGAGATGTAATGATGACAAGCGAACAGACTGCAGTAAACTGCTATAAGAATTCCCTGAATTTTGATGGATCATTAAATCAGTTGAAATTCGGTGACTGTATGGTATCTAATATGGCAGGTCAGAAAGAGCTTGAAATTTATAAATGTGCAAAAAACTCAAAAACAACAGAAGAACAGAGCCTTTGCATGCTAAGTATATTGGGAGGTTCAAAAGAAAAACAAATTACTCAGGATATGATGAAATGTTATAAAGAATATGGCGATAATTACGAAATGTATCCGCTTTGTTTTGCTGACAAGATAAATGACCCTGAATTAAAACAATTGGTATCCTGCTTTAAAGACCAGGCCAACAGTGGTGAAATATCTTTCATGGGAACCGCAGTGTGCTATGGTGCAAGTAAGCTTAATCTTAATACGGAAGCCCAAATAGCCGTTGAGTGTGCAGTAAGTACCGGAGGACAGCCTTATGCATTTGCAGGTTGTGCAGGTGGCCAACTCACCTACCGGGAGTTAAATAAATGTCTGACAAACGGAGTTGGTGGTGATAATGGATGTTTTGGTAAAAATAACACGATCGTTAAAGGATTAAATCAGATTGGAGATGCCTTAAAAGGTCAATTTGGCCCCAATAACGATATCGTCAAAACATGGAACACTACAGTTCATGATTTACAATACGGCCCCGGAAAAAATCATGAAGCAGTGAAAGTGGTCAGAAACATAAGCAATGAACTGGGGAAAGCAGGAAATAATGTAGCCAATGAAATAAAAAAAGTAGTTCCCAAAATAAAAATAAAATGGTAA	MKTIIKKLSFLSVFISLISLCSSLFAQAYPIGQMFLTAYGQSFTMFNTGMIVQNGNPGNAGQAVYDQTGINYLRLPSAVPYQKAFFLDFNNNIIELDYRYGYRIVGYSNIPIPPPPVMHLPKPTYDNQVGIQTANGLRPIPTQIVDEQKPFGDVMMTSEQTAVNCYKNSLNFDGSLNQLKFGDCMVSNMAGQKELEIYKCAKNSKTTEEQSLCMLSILGGSKEKQITQDMMKCYKEYGDNYEMYPLCFADKINDPELKQLVSCFKDQANSGEISFMGTAVCYGASKLNLNTEAQIAVECAVSTGGQPYAFAGCAGGQLTYRELNKCLTNGVGGDNGCFGKNNTIVKGLNQIGDALKGQFGPNNDIVKTWNTTVHDLQYGPGKNHEAVKVVRNISNELGKAGNNVANEIKKVVPKIKIKW				NA	NA	NA	NA	NA
BMS003_03138	1026	pal_4		Peptidoglycan-associated lipoprotein	ATGAAAAGATTAACAGCAAAATCGCTATTTTTTGGAATTTTATTAACAACTGTTGTTTCCTGTAATAATAACAAAAAGCAGGATACGGAACAAAGTGACAAAGTAGAAGAAATTACAAAAAATCCAAAAGGCTCTGAAACTTTAAATCCAGAAGAGCATTCTTCCTTTAACATTGACAAAATACCTGTTACAAATCAAAATTTAGGAGATTTCCCATTTTTCAGTCTTCCGGAAGGACTCACGACCACGAATAAACCAATAGAAAAAAAGTACGATTTTCTGTACTTTCCCATTGATGGGGTAATGACTTTAGTGGAAGGTAGAGTATGGAAATCATACATATCGTCTGAGGATAAAAATGGAGATGACTGGTCTCTTGCTTATTTTCAGAAAAGCTATGATGATGCCATTACTTCAGCAGGTGGAGTGAAGATTTTCGATGGAAAAATAACAAATGAAGAATACGAACGATATCATGATCAGGCAAGCTACCTTGGAGAAGACGGCTCTATTGGATATGTTGGGCAAAATATTAAAGTTTATATAATAAGAAGACCAAATGGAGAAGATATTTATGTTCAGCTAGCCGGAAACACAGCTTCCGGTGAGCTTAACATTCTTCAAAAAAAGGCATTTAAACAAACCATTACAATGCTGAAATCTGATGAGATCTCCAAACAACTCAAGGAAAAAGGTAAAGCTATTTTACACATTAATTTTGATACCGACAAAGCGTCGCTTAAACCAGATGGGAAAGAAGCAGTAAAAGAAATAATTAAAGTATTAAAGGCAGAATCTTCTCTAAAAATTTCCATCAATGGCTACACGGATAATTCAGGTGATGCATCACATAATAAAGCACTTTCCGAAGCAAGGGCAAAAACCGTCAAAGAAGAAATAACAAAAGCCGGCATTGAAGCAGAACGACTTACATCACGGGGATTTGGACAGGATAATCCAATATCAGATAATTCAAGTGAAGAAGGAAAAGCTCAGAATAGAAGGGTTGAGTTGGTGAAAAACTAA	MKRLTAKSLFFGILLTTVVSCNNNKKQDTEQSDKVEEITKNPKGSETLNPEEHSSFNIDKIPVTNQNLGDFPFFSLPEGLTTTNKPIEKKYDFLYFPIDGVMTLVEGRVWKSYISSEDKNGDDWSLAYFQKSYDDAITSAGGVKIFDGKITNEEYERYHDQASYLGEDGSIGYVGQNIKVYIIRRPNGEDIYVQLAGNTASGELNILQKKAFKQTITMLKSDEISKQLKEKGKAILHINFDTDKASLKPDGKEAVKEIIKVLKAESSLKISINGYTDNSGDASHNKALSEARAKTVKEEITKAGIEAERLTSRGFGQDNPISDNSSEEGKAQNRRVELVKN	PGPT0022215_3190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS003_03139	720			hypothetical protein	GTGGACAAAGAATTTGACATAAAGAAAAATTTTAAAATTTACTTAGAAAGTATTTTAGATTATCAAACAAAAACTTTTATCGAGAATTTAAGAGAGTATTTTGTTGTTTATCTATTTAGTGGTGTTATAAGAGATTATTTTTTAGAAGAATATGATAAACCCAATGATATTGATTTAGTTTTACAAAAACCAAACGATATCAATTTCTTCGAAAATATTCTAAAAAAATATGGAACCTTTAGGAAAAATACTTTTGGAGGATATAAATTATTTATAAACAATCTTCCAATTGATGTTTGGTTTATTGAAGATACATGGGCTATTGCTAACAATCATATTACAATCAGAAAAAGTATAGAAAAAGCATTATTACATTCGACTTTTTTTAATTTCTCCTCAATCATCTATGATTTAAGAAATGAAAAATTTATAAAGGATAAATTATTTCTTGATTTTTTAGCAAATCGTGAAATGGATATAGTATTGGAAAATAATCCAAACATAGTGTTATGTTTATTAAAAATTAAGCATTATGCGGAAAAGTATGAAATTAATCTGTCTTCTTCAGTAATTCAATATTATATACAAAATTTTAATAAATATCCTAAAGAAGAATATGATAAATCACAAATAAAACATTTTGGAAAAATAATTTATGAATATCAACAGCTAGTAAAATTCTATTATACATTGAATTTTTTAGTTGAAACCACTACATAA	MDKEFDIKKNFKIYLESILDYQTKTFIENLREYFVVYLFSGVIRDYFLEEYDKPNDIDLVLQKPNDINFFENILKKYGTFRKNTFGGYKLFINNLPIDVWFIEDTWAIANNHITIRKSIEKALLHSTFFNFSSIIYDLRNEKFIKDKLFLDFLANREMDIVLENNPNIVLCLLKIKHYAEKYEINLSSSVIQYYIQNFNKYPKEEYDKSQIKHFGKIIYEYQQLVKFYYTLNFLVETTT				NA	NA	NA	NA	NA
BMS003_03140	1500	dgt_1		Deoxyguanosinetriphosphate triphosphohydrolase	ATGGCAAATAAACTTGAATGGAAAAAACTTTTGAGTAATAAAAGATTAAAATCTATTAATAATCCTAGTGGTACTTCGGATAATGGTACACAAAAATATGGTATCAGAAATGACTTTGAAAGTGATTTTGGTAGAGTTATATATAGCCCTGCAATAAGAAGAATGCATGATAAAACACAAGTTTTTCCATTATCTGAGGATGATAACATTCACACAAGATTAACTCATTCACAAGAGGTTATGTCTATTGGATATACATTTGCAATAAAGTTAATAAATGAAATTTACAATGATGAAAATAAAAATATAACAGAAGAAGAGTTCAATTTTTTAAGTAATGAAAACGAATGCCTAAGAGCAACACTGCTGCGAACGATTCCAATGATATTACAAAGTGTATGCTTATTCCATGATATTGGGAATACTCCCTTTGGTCATTTTGGTGAAGATACAATTTCTAATTATTTTAAAGAATTATTAGAAGGAGATAAAGAAAAGCAATTAGAATTAAAAAGATTTAAAATTGGTAAATCTCAAGAACTTGATTTTACACAATATGATGGAAATGCTCAGGGTTTACGAGTGTTGACAAAGTTGCAAATTCTTGATAATGTATATGGTTTAAATCTTACATCTGCAGTATTAGGAACTTATATAAAATATCCCAATACTGCAAGTAAAGAAAAAGATGGAGGCATCATTGGTAATAAAAAGCATGGTGTATTTTTTTCAGAATATCGCTATTTTCAGCAAATAATGGAGAATTGTGGTCTAAATGATGATGATAAGTATTTTAGACACCCATTATGTTTTTTAATGGAAGCAGCAGATACAATTGCTTATAGAACTATGGATGTTGAAGACGGTTTTAATAAGGGATTGTATAAACTTGAGCATATACTGCAAACAGTTAAACGAGACAATGATAATGTTGACCTTTTAAAAAGAATAAATGAAATTGAAAGTGAAACGTCCAGTGAAAAAACTAAAATGGTGCGTCTTCGAATATTATTAATAGATTATTTAGTAACTAAAGCTTTTGATATTTTTAAAGAAAATTATAATAGTATTATGAATGGTCAATATCAGAAGGAATTATTAGATGATGATATTTTAAATATAGAAGATAAGTTGGGAAATATTTGTAAAAATAAAATCTACGACTCAGATGAAGTTAATTCTTTAGAAGTAACAGGATATTCCGTTATAAAAGGTTTACTTGACTTTTATATTGCGGCTATAATAGATAAAAAGAATGGTTTAGAGAGAAAAGCATATAACTTGATTTCTAAATCAATTATTAATACTGCAATTCTTGAGAAAGTAACAAGTGTTTCATCAAGCATAAATGACAAAATTGATATATCAAAATTCAATTTTGAAGATTTTCAAAGCTTAGATCATTATTACAAGCTCAGAATAATTGTAGATTATATATCAGGAATGACCGACAAATACGCATTAATGCATTATCAAAAGATAAGTGGACAAAGAATTTGA	MANKLEWKKLLSNKRLKSINNPSGTSDNGTQKYGIRNDFESDFGRVIYSPAIRRMHDKTQVFPLSEDDNIHTRLTHSQEVMSIGYTFAIKLINEIYNDENKNITEEEFNFLSNENECLRATLLRTIPMILQSVCLFHDIGNTPFGHFGEDTISNYFKELLEGDKEKQLELKRFKIGKSQELDFTQYDGNAQGLRVLTKLQILDNVYGLNLTSAVLGTYIKYPNTASKEKDGGIIGNKKHGVFFSEYRYFQQIMENCGLNDDDKYFRHPLCFLMEAADTIAYRTMDVEDGFNKGLYKLEHILQTVKRDNDNVDLLKRINEIESETSSEKTKMVRLRILLIDYLVTKAFDIFKENYNSIMNGQYQKELLDDDILNIEDKLGNICKNKIYDSDEVNSLEVTGYSVIKGLLDFYIAAIIDKKNGLERKAYNLISKSIINTAILEKVTSVSSSINDKIDISKFNFEDFQSLDHYYKLRIIVDYISGMTDKYALMHYQKISGQRI	PGPT0021495_958	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS003_03141	1374	aldH1_2	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGAATGTAGGAAAACTCATAGAAAAACAAAGGAATTTTTTCAGTTCAAACCAAACAAAAGATGTAAGGTTCAGAATTGAACAATTGAAAAAATTCAAGAATGCGCTGAAACAAAATGAAGATTTGCTTTATAATGCCATCTATCAGGATTTTGGCAAATCAGAGTTCGATACTTATGTAACGGAACTTTCATTGGTTTATCACGAAGTCAACAATATGATAAGGAATATTCCAAAATGGAGTAAAAGAGAAAGGGCAAAAACGGGCTTGGTACATTTTCCTGCAAAAAGTTACATCATACCTGAACCATTGGGCACAACATTGGTCATTGGTGCATGGAATTACCCTTATCAGCTTTCGTTAGTTCCTGCATTAACTTCTTTGGCGGCAGGAAATACGGTAATACTGAAACCCAGCGAACTTCCGTTTGAAACGTCTAAAGCTATGGCTCATATTATCAACAATAATTTTCCGAGCGACTATTTTTGTGTGGTGGAAGGCGGTGTGGAAGAAACTACAGAATTACTAAAACACCGATTTGACAAAATATTTTTCACAGGAAGCACACCCGTAGGTAAAATTATTTATGAAGCAGCAGCCGGGCATCTGACGCCTGTTACGCTTGAATTAGGTGGAAAGAGTCCCACTTTTGTTTTTGCCGATACAGACATTAAAATGACAGCTAAACGCATAGTTTGGGCAAAATTTCTGAATGCGGGACAAACCTGTATTGCCCCAGATTATATTTTGGTGGAAAAATCAATCGAAAAAGAATTTCTGGAAACGTTGAAAACAGAAATTGCAAAGCATTATATCAACGAAAAAATAGCCGAGAACTATACAAAAATTATCAACACCAGAAATTTCGATCGACTTCAGAAACTTATAGAAATAGAAAAGGACAAAATTTTTGTTGGAGGTAATATAAAGGGTGACGAGAGATTTATCAGCCCCACAGTTTTACGTAATGTTTCGTTTGAAGATGAAATAATGAAAGATGAAATTTTTGGACCGATACTTCCAGTCATTTCATTTACCAATCTTGACGAAACCATAGCGATAGTTAAATTAAGACCAAAACCTCTTGCCTGCTACATTTATTCTAAGAGTAGAGAAAGAATAGATAAAATTCTAAAAGAAGTTTCATTTGGTGGTGGTTCGGTAAATGATAGCCTAATGCACCTGACCAACAGTAATATCCCTTTTGGCGGTGTGGGTATGAGCGGATTCGGAAGCTATCACGGCAAAGCAGGATTCGACACATTTACGCACTTCAAAAGCATTTATGACAAACCATTTTGGTTTGAGCCGAATTTGAAATATGCACCGTATTCAAAAAAAAAATTGAATATTATAAAATGGCTATTAGGATAA	MNVGKLIEKQRNFFSSNQTKDVRFRIEQLKKFKNALKQNEDLLYNAIYQDFGKSEFDTYVTELSLVYHEVNNMIRNIPKWSKRERAKTGLVHFPAKSYIIPEPLGTTLVIGAWNYPYQLSLVPALTSLAAGNTVILKPSELPFETSKAMAHIINNNFPSDYFCVVEGGVEETTELLKHRFDKIFFTGSTPVGKIIYEAAAGHLTPVTLELGGKSPTFVFADTDIKMTAKRIVWAKFLNAGQTCIAPDYILVEKSIEKEFLETLKTEIAKHYINEKIAENYTKIINTRNFDRLQKLIEIEKDKIFVGGNIKGDERFISPTVLRNVSFEDEIMKDEIFGPILPVISFTNLDETIAIVKLRPKPLACYIYSKSRERIDKILKEVSFGGGSVNDSLMHLTNSNIPFGGVGMSGFGSYHGKAGFDTFTHFKSIYDKPFWFEPNLKYAPYSKKKLNIIKWLLG	PGPT0006875_9737	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS003_03142	366			hypothetical protein	ATGAAATCAGTAATAACCAGTTTAAAATTATTTGGCATCTATATGATGTTGGTTCCCGGAATCGGCCTAATGACAATCCCCGCATTTATGCTTGATTTCAACGGATTGAGCCACGATACACATTTGTGGACAGCAAGGGTGGTCGGCCTTCTTGCTTTTAATATTGGCGTATTTCAATATTATATCGCAAAATACAGAATCGGACAGCTTTACAAGCTAACTGCTGTGCTCAGGTATTTTGCTGCTTCAGTTTTTGTGCTACTATGGGTGACAGGCCAAGCAGAAATTGCTATTCTTTTGTTTGCATTGGTAGATTTTGTCGGTGCAACGTGGACTTTACTCACTGCAATAAATACAGAAAAATGA	MKSVITSLKLFGIYMMLVPGIGLMTIPAFMLDFNGLSHDTHLWTARVVGLLAFNIGVFQYYIAKYRIGQLYKLTAVLRYFAASVFVLLWVTGQAEIAILLFALVDFVGATWTLLTAINTEK				NA	NA	NA	NA	NA
BMS003_03143	426			hypothetical protein	ATGAATACGAGAAACATATACTTCTTAGTATTGCTGTTTGCATCATTTTTATCTTTTGCACAGGTAGACCAAAGCGATAAAATCATTGGTCTATATATGACCGAAGATGGACGGGGGAAAGTGTCTGTCGCAAAAAAAGGTAACCTTTATTTTGGCATGATTGCGTGGGTGAAAGTAACGGGAACATTAGACATGAAAAATCCAGATATTAAGAAACGGCACAACAAATTGGCAGGAACAGTAGTACTGAAAGATTTGGTATATAAAGATGAAAATATTTGGGAAGGCGGTACCATTTACGACCCTGATAACGGGAAAACCTATAGCTGTAAAGCAAGTGTTGACAACAAAAGCAATCTTCGTATCAGAGGTTATTTAGGTGTTCCATTGGCAGGAAGAACAGTACTATGGAAAAGAATAAATTAA	MNTRNIYFLVLLFASFLSFAQVDQSDKIIGLYMTEDGRGKVSVAKKGNLYFGMIAWVKVTGTLDMKNPDIKKRHNKLAGTVVLKDLVYKDENIWEGGTIYDPDNGKTYSCKASVDNKSNLRIRGYLGVPLAGRTVLWKRIN				NA	NA	NA	NA	NA
BMS003_03144	525			hypothetical protein	ATGACTTATGATATTGCGGAAAACTGGAATTCTATCATTGATTTGCTTGAACGGTCGAAGCAATCAGGCAAGTATGCTACAATCGCTACTAACGGAGCTGACGGTTTTCCGAATGTAGCTCCTATTGGTTTTATCTTTCCAAATGGTATCGGGAACGTTTTCTACTTTGACGAATATGCTACGCAAACCTCCCGAAACATTGAAAACGACAACAGGGTAACCATTCAATTGGTGGATTCTGCTCCTCTTTTTTGGCTCAGTTTTTTATTGAAGGGAGAATTTAAGGCATCACCTGGAATTCGCTTGAAAGGATTTGCAGGAAAAAAAAGAAAAGCTACAGAATCAGAACTTAAAATGCTGGACAAACGATTGGGGATTTTGTCAAAAACAAAAGGGGCAAAACGCATTTGGGCAGGTTTGGAATTTGTTCGTGATATTGAACTTGATACAATGCAGCCTGTGCATTATCCAAAAGTAACCGACAATCTGTGGAAACAAAATTCAGAAACACCTGAAACAAAATGA	MTYDIAENWNSIIDLLERSKQSGKYATIATNGADGFPNVAPIGFIFPNGIGNVFYFDEYATQTSRNIENDNRVTIQLVDSAPLFWLSFLLKGEFKASPGIRLKGFAGKKRKATESELKMLDKRLGILSKTKGAKRIWAGLEFVRDIELDTMQPVHYPKVTDNLWKQNSETPETK				NA	NA	NA	NA	NA
BMS003_03145	645			hypothetical protein	ATGATTAATAACTTTATTAAGAGAAATATCAATGTTGGCTTTGCCGTATTTCTTTTACTCGCCTCTTGCAGCAACAACGAAAAAATGCTCGATTCTCTGGCTGATTATAATAATGCAAAGGAGGAAAATGGCTATCATTTTGGAGATAAAATTACATTGCCGGAAGAAGTTATAGAAAATGCAGAAAGCATAGCAGTAAGCCTCGGAGATAAAGAAACTACGGATTTAACAATTGATCCTGAATTTTTTACACTTGGAGATAATAATGTAGCTTTTATTATCAAAACGAAAAGAGGAGAAGTCCTGAATCAGGATGCTACCATCAATGTATTCTCTAAAATTACTGAAAAAGATATTTCCTATAAAATAGTTGCCGATTACCCTCACGATCCTAAAAATTTTATTGAAGGTTTTGTGGTGGAAGGAAATACAGTATATGAAAGTGACGGGATGGAAAATGCCTCACAATTGATAAAATATACTCTGGGATCCTCTGTTCCCAAAATTGTCGCAAAGCAGCCCGCTGAGATTTTCTCTGAAGGCTGTACTATTGTGGAAGATAAAATATATCAGTTGACCTACCGGAATAAACTCGGTTTTATTTATGAACTCATCTCGACTTTATTTTTTGAAACTTTTTCATAG	MINNFIKRNINVGFAVFLLLASCSNNEKMLDSLADYNNAKEENGYHFGDKITLPEEVIENAESIAVSLGDKETTDLTIDPEFFTLGDNNVAFIIKTKRGEVLNQDATINVFSKITEKDISYKIVADYPHDPKNFIEGFVVEGNTVYESDGMENASQLIKYTLGSSVPKIVAKQPAEIFSEGCTIVEDKIYQLTYRNKLGFIYELISTLFFETFS				NA	NA	NA	NA	NA
BMS003_03146	1023			hypothetical protein	ATGAAAAAAAGTATAATAGCGGGTTTCGCAGCGATTTTATTATTGGCGTCTTGTAATAAGGATAAAGAGATTCTTAATACATTAAACACGTATAATACTTCAATGGAGGCAAAAGGATACCATTTCGGAGATAAGCTTGAGCTTCCGAAAGAGGTAACAGGAAATGCAGAAAGCGTGACCATCAGCTTTGGAGATAAAGAGACTACAGATTTAACCATTGATCCGAAATTTTTTACTTTGGGTGACAATGCTGTTACATTCAACATCAAAACAAAAGGAGGTGATATACTGAATCAGGACGCTACCATCAATGTATTTGCAAAAAATCCTGAAAAAAATATCGCTTATCAGATTATAGCAGAATATCCTCATGATCCTAAAAACTTTGTACAGGGATTCCAGATTGAAGGAAATACTATTTATGAAAGCGATGGACAAAACGGATCTTCTCAGATCTTAAAATATACCCTTGGAACAACCACTCCTCTTGCATCTACAAAACAGGCTCAGGAAGACTTTTCGGAAGGAAGTACCATTGTTGGGGATAAAGTATATCAGCTGACATGGCAGAGTAAAAAAGGATATATCTATGATAAAAGCTCTTTAAAACTGCTGTCAGAATTTCCTTATCCAAATGTATTGGGCGAAGGCTGGGGATTAACGTATGACGGGAAAAATCTGATCGCTTCTGACGGAAGTAAACTTTTATATTTCCTTGACGTAAATGATCCTTCAAAACTTATCAAATATATTGCAGTGGCAGGAAGCTCTCAGGCATATGATCAATTAAACGAGCTTGAATTCCATAACGGCTTTATTTATGCTAACGTATGGCAAAAACCTGTCATTTTAAAGATCAACCCTGCCAACGGAGAAGTAGTAGGAACTTTTGATTTCACGGAAATTGCAAAACAGAATACCAAAGGAAGTGATGACGTACTGAACGGAATTGCTTTTAAAGGTGATAATATGCTTGTAACAGGTAAAAACTGGTCAAAAATTTATGAAGTTCAGATCAAGTAA	MKKSIIAGFAAILLLASCNKDKEILNTLNTYNTSMEAKGYHFGDKLELPKEVTGNAESVTISFGDKETTDLTIDPKFFTLGDNAVTFNIKTKGGDILNQDATINVFAKNPEKNIAYQIIAEYPHDPKNFVQGFQIEGNTIYESDGQNGSSQILKYTLGTTTPLASTKQAQEDFSEGSTIVGDKVYQLTWQSKKGYIYDKSSLKLLSEFPYPNVLGEGWGLTYDGKNLIASDGSKLLYFLDVNDPSKLIKYIAVAGSSQAYDQLNELEFHNGFIYANVWQKPVILKINPANGEVVGTFDFTEIAKQNTKGSDDVLNGIAFKGDNMLVTGKNWSKIYEVQIK				NA	NA	NA	NA	NA
BMS003_03147	507		COG1670	Acetyltransferase	ATGATTATATTACAGCCATTTACAATAAATGATGCCTCAGAGCTGATCTCAAAGATAAAAGACGAAAGAATGCTTCTTCAGTTTGCCGGACCCGTATACCGTTTTCCTCTTACGGAAGAACAGCTGAAAAAAGATTTGTCCGACGAAAAAAGAACCCTGTTTAAAATTAAAGAACAAAACAGAACTACAATAGGCCACGCCCAGATTTTTCTAAAAGAAAAAACATTTCTGCTGGGAAGAATTCTGATCTGGGATGAGAACAACAGGGGAAAAGGATATGGTAAGAAAGTAATGCAGGAACTTCTGAAATATGGCTTTGCCCATTTTGATAAGGAAATCGCAGAGCTTAACGTTTACGATTGGAATACAGGAGCTATTGAATGTTACAGGAAAGTTGGTTTTGCTTTTGATCCGGATGTTAAAAGCGAAGCAAAGATTGATCAGGAAACATGGGTTTCACTTAATATGAAAATCCATAGAAATACTTTTGAACTACAGGAATCATGA	MIILQPFTINDASELISKIKDERMLLQFAGPVYRFPLTEEQLKKDLSDEKRTLFKIKEQNRTTIGHAQIFLKEKTFLLGRILIWDENNRGKGYGKKVMQELLKYGFAHFDKEIAELNVYDWNTGAIECYRKVGFAFDPDVKSEAKIDQETWVSLNMKIHRNTFELQES				NA	NA	NA	NA	NA
BMS003_03148	426			hypothetical protein	ATGAGCACACCAATCACTGTTCAGTACACCATAAATGCTCCGGCTGAAAAAGTATGGAAAGCATTGACCGATAAAAATGAAATGAAGTCCTGGTATTTTGATATCCAGGATTTTGTATTGGAAACAGGGAAGGAATTCAATTTCTATGAACCCGGAGGCGTCAATAAATACCATCATCACGGTGAGATTTTAGAAATAATACCCAACTATAAATTGAAACACACATGGTCTTATCCTGATTTTTCAACACTTAAAACCATGGTGACCTGGGAATTGCAGCCGGAAGATGGGCAGACTTTAGTAAAGCTTACCCATGACGATATTGAAAATTTCAAAGACTTAGGCGAAGGCTTTTCAAGAGAAAACTTTGTAGAAGGTTGGAAAACAATTATAGGGCAAAGTTTAAAAGAATATTTAGAAAAATAG	MSTPITVQYTINAPAEKVWKALTDKNEMKSWYFDIQDFVLETGKEFNFYEPGGVNKYHHHGEILEIIPNYKLKHTWSYPDFSTLKTMVTWELQPEDGQTLVKLTHDDIENFKDLGEGFSRENFVEGWKTIIGQSLKEYLEK				NA	NA	NA	NA	NA
BMS003_03149	1614	nhaK_2	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGATTCACAGCTATGTTATAATATCCATTGCAGTACTGCTGTCTGTGATGATATTGGTAATGATAGGCCAGAAACTAAAAGTAGCTTACCCTATTTTTCTAGTGATTGCAGGGTTGCTGATAAGCTTTATACCAGGAATGCCGCGCATTGAAATAGAACCGGATCTTGTCTTTCTTATTTTCCTGCCGCCTATTTTATTTGAAGCTGCCTGGTTTACTTCATGGCAGGATTTTCATAAATGGAGGAAGCAGATTTTTTCAATGGCTTTCGGATTGGTATTTTTAACATCAATAGTAGTAGCTTATCTTTCATCTTCCATTATTCCGGGGCTTACTGTAGCCATGGGATTTTTGTTGGGAGGAGTAAACTCTCCGCCGGATGCGGTAGCAGCTACTTCAGTTCTTAAGCATATGAAAATTCCTAAAAAAATTACGAATATATTGGAAGGAGAAAGTCTTATCAACGATGCTTCCAGTTTAATTGTTTTTAAATTTGCGCTTGCAGCCGTTATTTCAGGACAATTTATCTGGAGAGATGCCGTTCAGGACTTTTTTACCATGGCTATTGGAGGAATTGCAATAGGAGTGGCGGTGGGCTTTTTGTTTGGAGCTTTGCTGAAAATTATTCCTACCAACTCTAATATAGATACCATTATTACGCTTATTGTACCTTACATCATGTATGTAGGGGCAGAGCATTTCCATTTTTCTGGAGTATTGGCAGTAGTGGCCGGAGGTTTACTGATGTCATATAATTCGCATTGCTATCTGAGTCATACCTCAAGGATACAGTCGGGAAATGTGTGGAGCGTTCTTATATTTCTGATGAATACAATTATCTTCATCCTGATTGGTCTTGAACTTCCTATTGTAGTGGAAGGAATGAAAGAGTATACCATTTCAGAAGGTATTTTCTATAGTGTTGTAATTGGCGGAGCAATTATCGGAACAAGAATTCTGTACAGTTACGCACTGATGTACTTTCCAAGGATCTGTTCTAAAGAACTAAGATTAAAAGTTCCCAAACCGGATTGGAAAGAGCCTTTTATCATCAGTTTTGCAGCAATGAGGGGAGTAGTTTCACTGGCTGCAGCTTTGTCAATTCCCGCTTTTTTACCCAATGGAGAGGCATTTCCGCACAGAAATATTATTTTATTTGTGACTTTCGTTATCATATTGATTACTTTGGTAGGGCAGGGTTTGTTGCTGAGCCCAATCCTCAAATTACTGAATATTCAGGATGCCGGAAGTGAACTGCCGGAAGAAAAACAGGAAGTAATCCTTATGCGGAAACTGAAAGAAACAGCATTACACAAACTGGATAATGAATTTTCTGAATTAGCCTTAACAAACAGCCTGGTTCGCCATCAAAAACACAAACTGGAAAACGAAATGATGCTGATGGCAGATAAAGCCCAATGTATGGCTTCCACAGGAGATTATGTATCCGCAATTAATGAAAATAAAGATGTTCTGCGGCAAATCATTCAGGCACAGAGAAATGAACTGCACAGAATGAAAAGAGAGAAAATATTTGATGATCATGTTATGAGAACTATTGAAATGCAGCTGGATTTTGATGAAGCTAAGATTACCGGTTTTTCACATGGATAA	MIHSYVIISIAVLLSVMILVMIGQKLKVAYPIFLVIAGLLISFIPGMPRIEIEPDLVFLIFLPPILFEAAWFTSWQDFHKWRKQIFSMAFGLVFLTSIVVAYLSSSIIPGLTVAMGFLLGGVNSPPDAVAATSVLKHMKIPKKITNILEGESLINDASSLIVFKFALAAVISGQFIWRDAVQDFFTMAIGGIAIGVAVGFLFGALLKIIPTNSNIDTIITLIVPYIMYVGAEHFHFSGVLAVVAGGLLMSYNSHCYLSHTSRIQSGNVWSVLIFLMNTIIFILIGLELPIVVEGMKEYTISEGIFYSVVIGGAIIGTRILYSYALMYFPRICSKELRLKVPKPDWKEPFIISFAAMRGVVSLAAALSIPAFLPNGEAFPHRNIILFVTFVIILITLVGQGLLLSPILKLLNIQDAGSELPEEKQEVILMRKLKETALHKLDNEFSELALTNSLVRHQKHKLENEMMLMADKAQCMASTGDYVSAINENKDVLRQIIQAQRNELHRMKREKIFDDHVMRTIEMQLDFDEAKITGFSHG				NA	NA	NA	NA	NA
BMS003_03150	1005			hypothetical protein	ATGCATTCAGGAAAAAGATTTGGAGCCCGAGAGTTCATTATGTGGACCAGACGGAGTATTTATGCGCTCCTTGTATTATCAGCTATTCCTACAACCCTGTACTTTTTGGGTTGGAAATTTCTCTCTGTTCCCTGGCAGCCGATTGCCATTATGGGGACGGCGGTAGCCTTTATTGTTGGATTTAAAAATAATGCCAGTTACAGCAGACTTTGGGAAGCCAGGCAGATCTATGGAGCTATTATCAATGACAGCCGTAGTTTTGGATATATTCTCAGAGATGCGCTGCTTTCTAAAGATCCGGATAAAGTAAAAGAAATGTTCCTTCGTCATTATGCATGGCTTACAGCATTGAGATTTCAACTTCGTGAGCCAAGAGCATGGGAAAACATGGGGACAGAACAGTTTGATGAATATGCTAAAAAATATGACATTCCGGAGAGGCTTTCCAAACTGGATGAAGAATTGAAAAAATACCTTGCTGATCCCGAACTGCAGTATATTTTAAGCAAAAAGAACAGAGCTACACAATTGATGGCCAAACAGAGCAAAGCTTTGTCTGAAGCCTATGAAAAAGGAGAAATTAATGATTTTCAATGGACACAGATCAGTCAGCAATTGGTAAAGTTTACAGATGATCAGGGAAAAGCTGAGAGAATTAAAAACTTTCCGTACCCAAGAAACTTCTCTTCCATCACCACTTATCTTTTGCTTCTTTTCATTGTTTTTGTGCCTTTCGGATTATTGAAAGAATTCGACAAATTAGGAGAAGGAACCATGGTAGAAGGATGGACGTTGTGGTTTAATATTCCTTTTTCCTTATTGGTAACATGGTGTTTTCATACATTGGATAATGTGGGAGAAGCTTCTGTTAATCCATTTGAAGGAAGTGCCAATGATGTACCGATTACCCAGATCAGCCGTACCATAGAAATTGATATGAGAGACATGTTGGATGAATCTGACCTTCCGCCAGCCATCACGCCTAAAAATAATATTGTACTTTAA	MHSGKRFGAREFIMWTRRSIYALLVLSAIPTTLYFLGWKFLSVPWQPIAIMGTAVAFIVGFKNNASYSRLWEARQIYGAIINDSRSFGYILRDALLSKDPDKVKEMFLRHYAWLTALRFQLREPRAWENMGTEQFDEYAKKYDIPERLSKLDEELKKYLADPELQYILSKKNRATQLMAKQSKALSEAYEKGEINDFQWTQISQQLVKFTDDQGKAERIKNFPYPRNFSSITTYLLLLFIVFVPFGLLKEFDKLGEGTMVEGWTLWFNIPFSLLVTWCFHTLDNVGEASVNPFEGSANDVPITQISRTIEIDMRDMLDESDLPPAITPKNNIVL				NA	NA	NA	NA	NA
BMS003_03151	678			hypothetical protein	ATGAGAAAGGTTTTTACGAAGTTGGCATTCACAGTATTAGGTTTGGGATCCATTTTGACATTTGCTCAGAAAAACGATCTGGGAGCATGGTATATGTATTTTGGAAACAATAAAATCAGTAAAAAACTGAACTGGCATAACGAAATTCAGTACCGTAATTTTGATGCCGTTGGAGATCTGGAACAGTTACTGATCCGTACAGGGGTTGGGTATGATCTTACCGAAAACAACAATAATGTTTTATTGGGATATGGTTTCATTCTCAGTCAGCCTTATGTAAACGGGGATAAAAAAGAGAATATTGAGCACCGAATTTTCCAGCAATATATTACCAAACAGAAATTTGGACGTTTCTATCTTCAGCACCGTTACCGCTTGGAAGAACGTTTTCTGGAGGACGATTTCAGAATGAGATTCCGTTATATGCTGGGAGTAAATATTCCGATTACCCAAAAGGAAATGCTGCCAAAAACCCTTTATGCTTCAGTGTATAATGAGATTTTTCTGCATTTTGACAGTCCGGTTTTCGACAGAAACAGAGTGTATGGAGCCTTAGGATATGTTATTAATAAAAATATGAGGATTGAAGCAGGTTATATGAATCAGATTCAGGAAAACCGAAACCGCGGACAGATTCAAATCGGTTTTTATAACAATATTCCATTTACTAAAAACTGA	MRKVFTKLAFTVLGLGSILTFAQKNDLGAWYMYFGNNKISKKLNWHNEIQYRNFDAVGDLEQLLIRTGVGYDLTENNNNVLLGYGFILSQPYVNGDKKENIEHRIFQQYITKQKFGRFYLQHRYRLEERFLEDDFRMRFRYMLGVNIPITQKEMLPKTLYASVYNEIFLHFDSPVFDRNRVYGALGYVINKNMRIEAGYMNQIQENRNRGQIQIGFYNNIPFTKN				NA	NA	NA	NA	NA
BMS003_03152	393			hypothetical protein	ATGAAATTTACAATTGAAAACATTCAGACAGAACACCAAAAAGTAAAGAGTGGAGCCGATTTTCCCCAATATATTCAGGCTTTAAAAATGCTTGGTGTTTCTCATTACAAAACGTATGTTTCAGACGGCAATACCGAATACTTTGACAGCGGGAATCAATCTGTTCAGACCGGAAGAAAGTATGATAACCTTGCCATTTCCGATACTTTAAATCTTGAAACCTTTAAAACAAGACTCAAGCTTCATCAGCAGGGAGGAACAGATTATATGACTTTCTGTAAAGACTGTGCAGAAAACGGAATCAAAGGCTGGACGGTAGATCTCCACGCAATGACCTGTATTTATTTTGACCAGAATGAAGCAGATGTACTGGAAGAGCAGGTTCCGGGATAA	MKFTIENIQTEHQKVKSGADFPQYIQALKMLGVSHYKTYVSDGNTEYFDSGNQSVQTGRKYDNLAISDTLNLETFKTRLKLHQQGGTDYMTFCKDCAENGIKGWTVDLHAMTCIYFDQNEADVLEEQVPG				NA	NA	NA	NA	NA
BMS003_03153	138			hypothetical protein	ATGAATTTGTCGGTTTTTTATTGGGTATATATTTACATCCTGAAAATTTTTAAATTTGATAAAAGAGAAAATTACTTATCATCAATAAAAATAGTATTCCTTAAACATAAAAACATAAAAAATGAAATTTACAATTGA	MNLSVFYWVYIYILKIFKFDKRENYLSSIKIVFLKHKNIKNEIYN				NA	NA	NA	NA	NA
BMS003_03154	450			hypothetical protein	ATGGCAACAGTAAACGTTTACCTGACATTTAACGGAAATTGCAAAGAAGCATTTGATTTCTATAAATCGGTTTTCGGAGGAGAGTATCCTTACATCGGAACATTTGGAGAAATGCCTCCAATGGAAGGAAAAGAAACTTCTGAAGAAGACAGAGACAAGATCATGCACGTTTCACTTCCTATCTCTAAAGAAACGATTTTGATGGGAAGCGATACAGGAGGCGAGTGGTCTTCCAACTTCAAGGCAGGAAATAACTTCTCTATTTCTGTAAATGCAGAATCTAAAGAAGAAGCAGACAAATTATTCGGAGGCCTTTCCGCAGGAGGACAGGTGACCATGCCAATGGCAGATACTTTCTGGGGAGCTTATTTCGGAATGTTTTCGGATAAGTTCGGAATCAGCTGGATGGTAAACTATGACGATCCTGCTAAAATGCAGCAACATCCATAA	MATVNVYLTFNGNCKEAFDFYKSVFGGEYPYIGTFGEMPPMEGKETSEEDRDKIMHVSLPISKETILMGSDTGGEWSSNFKAGNNFSISVNAESKEEADKLFGGLSAGGQVTMPMADTFWGAYFGMFSDKFGISWMVNYDDPAKMQQHP	PGPT0030505_1065	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS003_03155	549			hypothetical protein	ATGATGAGAATATTTAGGAGAATTATACTGTTTTTAATAGCAGTACTGATTATTTTGTTAGCTTTAGCAGCCTTTATTTCAGGAGACTGCAAATATGAAAAAAACATTTCTATCAATGCACCGGTAGAAAAAGTATGGCAAAATACCAATTCCCTCAAAGCAATGGATCAGTGGAGTCCTTGGAACGATCTTGACCCAAATATGAAAAAAGACTGGACGGGTACAATGGGGCAGCCCGGAGAAAAGGTCTGCTGGGACAGTAAAAATGAAAATGCAGGAAAAGGTTGTCAGGAATTGAAAAAAATAGATGAGGCAGGTAAAAGAATAGATACGGAAATTAAATTTCTTACTCCATATGAAAGTGAAGCAAACGCTTATGTAACAGTAGTTCCGGAAGGAAACGGAAGCAAGGTAACATGGGGATTTACATCACAGATTCCTTATCCGTTTACCCTGATGAAGCTGTTTATGAATATGGAAGATGCTATAGGAAAAGACTATCAGAAAGGGCTTTCGAGGTTGAAAGCTTTATCTGAAAAATCTCAGTAA	MMRIFRRIILFLIAVLIILLALAAFISGDCKYEKNISINAPVEKVWQNTNSLKAMDQWSPWNDLDPNMKKDWTGTMGQPGEKVCWDSKNENAGKGCQELKKIDEAGKRIDTEIKFLTPYESEANAYVTVVPEGNGSKVTWGFTSQIPYPFTLMKLFMNMEDAIGKDYQKGLSRLKALSEKSQ				NA	NA	NA	NA	NA
BMS003_03156	372			hypothetical protein	ATGAAATTAGGAGCTTTTTCAATCAGCTTAAGCGTAAAAGATCTTCAGAAATCCAAAGACTTTTATGAGAAACTTGGGTTTACAACCATGGCAGGAACAGAAAACCAAAACTACCTGATCATGAAAAACGGTTCTACGCTGATAGGACTTTTTCAGGCGATGTTTGACGGGAATATGCTTACTTTTAATCCCGGATGGGACGAAAATGCACAGAACCTTGAATCTTTTGATGATGTGCGGGAAATTCAGAAAAGATTAAAGGAAAGTGGGGTAGAAATAGGAAAAGAAGCCGATGAAACCACTTCCGGACCGGAACATATTTACCTTAAAGATCCCGATGGAAATATGATTCTTATAGATCAGCACAGATAA	MKLGAFSISLSVKDLQKSKDFYEKLGFTTMAGTENQNYLIMKNGSTLIGLFQAMFDGNMLTFNPGWDENAQNLESFDDVREIQKRLKESGVEIGKEADETTSGPEHIYLKDPDGNMILIDQHR	PGPT0013300_5692	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
BMS003_03157	402			hypothetical protein	ATGCTGAGAAGAATATTAGCTGTTTTAGCTGGGCTTATTGTAGGTTCTCTTTGTATTACCGGAGTAGAAAATACCGGACATTATCTGTACCCACCTCCTGAAGCTGCTGCCGGAGATATGAATGCACTGAAAGTTTACGTAAGCGAAGCTCCTTTTATGGCTTTGTTTTTTATCATCATTGCTTACGCTTTGGCTACTGTTGCTTCGGGATTTACCGCTTCTAAAATTTCAAATGACAGAAAATATACTGCTGCGGTAATTTGTGGAATTATTTTTTTACTGATAACTATTTACATGATGGCGTCTTTACCTACTCCAATCTGGTTCTGGATTTTAGGAATCCTTGTTTGGGGATTGGTTTTTGTAGGACATAAACTTGCTTTAAAAACAAAAAAGATATGA	MLRRILAVLAGLIVGSLCITGVENTGHYLYPPPEAAAGDMNALKVYVSEAPFMALFFIIIAYALATVASGFTASKISNDRKYTAAVICGIIFLLITIYMMASLPTPIWFWILGILVWGLVFVGHKLALKTKKI				NA	NA	NA	NA	NA
BMS003_03158	471			hypothetical protein	ATGAAAAAACTTTTATTACTTCTCATTCTTGCTGCCAATTTTGTATCAGCACAGATGCCGGATATTTCAAATACCTGGCTCAACAATAGCAAGCCTTACATAGGAACTATCGGAAACAAAGGACAGGAGCTGAAACTGAAAATCAATATTTCCGAACAGAATAAAAAGAATGATCAGGAATACTTCGTTTCAGGATATTCTCTTGTAGATACCAATTATTCAAAATTTGAAGGGAAAATTACCATTTCCAAATATAAAGATTCTAAAAGACAGGGAACTGTGTTTGGAGAATATGAACTGGCAGAAGAGAATAAAGGAAAACATTCCGGGCTCTTCAAAGGAAGATTTGTTTATAATTTTAAATGGAACAGGAAAACAGAGAAAATAGAAGGGCAATATATTGAGCTTATCGGAGACTGGAAAAGCTATGACGGCACCATAAATTTGAAGACCCATTTAAAAAACCAATAA	MKKLLLLLILAANFVSAQMPDISNTWLNNSKPYIGTIGNKGQELKLKINISEQNKKNDQEYFVSGYSLVDTNYSKFEGKITISKYKDSKRQGTVFGEYELAEENKGKHSGLFKGRFVYNFKWNRKTEKIEGQYIELIGDWKSYDGTINLKTHLKNQ				NA	NA	NA	NA	NA
BMS003_03159	456			hypothetical protein	ATGGAAAATGTATTTGATGCAAAAGATGCTCAAAACTATATTGACAGAATTAACAGACTGGTAGAAGACACTCACGGTTTGTGGGGGAAAATGACAGTAGACCAAATGCTGGCACACTGTTCTATTACCTATGAAATGATCTATGAACCGGAAAAGCACAAAAAGCCGGGAGCCATTGCAAAATTTATATTAAAAACTTTCGTAAAACCTAAAGTAGTGGGAGAAAAAGCCTATCCGAGAGATTCTCCTACCGCTCCGCAGTTCTTGATTACCACAAGAAAGAATTTTCATGAAGAAAAAACAAGGCTGATAGGGTTTATTCAGAAAACACAACAGTTGGGCGCTGAAGCGTTCGATGGTAAAGAATCTTTTTCTTTCGGAAAACTGAATTCCCAGGAGTGGAACAACATGTTTGCCAAACACCTGAATCACCATCTGGCACAATTTGGCGTTTAG	MENVFDAKDAQNYIDRINRLVEDTHGLWGKMTVDQMLAHCSITYEMIYEPEKHKKPGAIAKFILKTFVKPKVVGEKAYPRDSPTAPQFLITTRKNFHEEKTRLIGFIQKTQQLGAEAFDGKESFSFGKLNSQEWNNMFAKHLNHHLAQFGV				NA	NA	NA	NA	NA
BMS003_03160	1206	ybhR_3	COG0842	putative multidrug ABC transporter permease YbhR	ATGAAAGAATTTTTCCGTCTCTTGAAACGTGAGTTCAAACTTTTTATCGGCAATTCTACCCTAAGGACAGTGTTCTTTTTGGCACCGGTCTTCTATGCAACCTTGCTGGGATTTGTCTATAAAAGCGGAAAAGTTGAAAATACACCCGTATTGGTGGTTGACAGGGATAATACACCTTTATCCAACCAATTGACGGAAATGCTGGATGATAATAAAAGCATAAAAATTATCAGATACCTTCAGGAACCTCTCAGTATTAAAGATGAGGTGATCAGACATGAAGCAGCGGCTGTGGTGATTATTCCATCAAGGTTTGAAGGAGATATGCTTCAGAAAAAATACCCTGAGCTGAATGTTTATGTTAATACAGGAAACGTTTTAACAGCCAATTTCGCCTCCAAAGCTCTTCAGCTCACCATAGGAACATTTTCTGCCGGAGTTTCTATCAAAGGTCTTCAAAAAGCAGGAATGCCCGCTGCCAAAGCAGCTACACAATATGAACCTTTCAAAGCCAATTATATAACTCTGTTCAATACTACCGGAAACTACCTGATCTTCATGTGGCCTGCAATGCTGGCAGTAGTATTACAGCAGGTAATCCTGTTGGCGATGGCAGTAAGTTTCGCTGCTGAATTTGAAAGAGGATCCTTTGTAAAAGAATACCAGAAAATGAAAAGATGGGCTTTCCCAACCATGCTGATAAAAGTGATCCCAATCTGGGTGTTTTCTATTCTTATTGTAGGTATTTACTACTTTATGCATATGATTTTCAGGGTTCCGATGCCGGAAGGAATACTTAATTTTATTCTTCTTACAGCAGTTTTTGTAGGATCAGCTTCATTTTTGGGTGTTTTTATCAGTATTCTGATTCCGGATGCTTTGAAGGCAACGCAGATCCTGATGGTCATTGCTTCACCCGCATTCATTATCAGTGGATTTACATGGCCGTTGAGCGCAATGCCTGCTTTCGTACAGTTTATTGCGAATATTATTCCGTTAACTCCCTTTTTACAGGCTTTTAAAATTTTATTGATTCAAAAAGGATCGGTGGAACTTACTTTTCCTTATTTGGAACACTTAAGCATTCTTTTAGTAATATATGCTATCATAGGCTGGATTGCTTTGAAGATTAAACTTTGGTTTATTTTTAAAAAAACACCACCACAGGAAATTGAGGTTGAGAATACTTCTGAGGAGATTGAGTAG	MKEFFRLLKREFKLFIGNSTLRTVFFLAPVFYATLLGFVYKSGKVENTPVLVVDRDNTPLSNQLTEMLDDNKSIKIIRYLQEPLSIKDEVIRHEAAAVVIIPSRFEGDMLQKKYPELNVYVNTGNVLTANFASKALQLTIGTFSAGVSIKGLQKAGMPAAKAATQYEPFKANYITLFNTTGNYLIFMWPAMLAVVLQQVILLAMAVSFAAEFERGSFVKEYQKMKRWAFPTMLIKVIPIWVFSILIVGIYYFMHMIFRVPMPEGILNFILLTAVFVGSASFLGVFISILIPDALKATQILMVIASPAFIISGFTWPLSAMPAFVQFIANIIPLTPFLQAFKILLIQKGSVELTFPYLEHLSILLVIYAIIGWIALKIKLWFIFKKTPPQEIEVENTSEEIE	PGPT0006730_4095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_03161	960			hypothetical protein	ATGATGCATAAAAATATATCTATACTCTTCACTGCGCTGTTTTTGCTGGGGAGCTGTGACAAAAAAAATGAAAAAATCAAAGAACCCGAAGGAAAAACCAAAAAAGATGTGATCTCTTTTGCCCCTAAAGTGACCGGAAGGATTCTAAAAATATACGTTTCTGAAGGGCAGACTGTGAAAAAAGGAGATACACTGGCCCAGCTTGATGTTCCGGAAGTGTCTGCAAAAATTGCCCAGGCTCAGGGAGCTGTAAACGCTGCTTCAGCCCAGGAACAAATGGCGAAAAACGGAGCTACCGCAGATCAGTTAAGACAGCTTCAGGCCAAATATAAAGGACTGAAGGAACAATATGAATTCGCACAGAAATCCTACAAAAGAGCGAACAATATGTTCCGCGACAGCTTAATGTCACCACAGGCTCATGACGAAATTTATGCAAAAATGCAGGGCGCAAAAGCCCAGTATGATGCGGTGGTGGCAGAACTGGATGATGTAAACAGAGGCACCCGTGTCGAAAAAATAGAAATGGCAGCAGGACAGGCTTCACAGGCTAAAGGAGCATTACAGGAAGCGAATGTAGCCTATTCCGAAAGATATATCATTGCCACCAATGACATGGAAATTGAAACCATCAGCCTGAATACAGGTGAACTGGCAACCGCTGGCTTTGCTTTGTTTAACGGTTATATTCCGGAAAGTACATATTTCAGATTTACCATCCCGGAAAGTGCTATTTCAAAATACAAAAAAGGGCAGGAGGTAGCTATGCAGGTAGTCTATAATAAAGAAAGCCTCACTGGAAATATCGTGTATATCAAACAGCTTACAAAATATGCCGATATCACAACCGCTTACCCAGATTATCAGTTGCAGGATGCGATCTACGAGATCAAAGTAAAACCCAAAGACATGAATAAGGCTAAAAATATTTTAGTCAATGCCAATGTAATCCTGAAATAA	MMHKNISILFTALFLLGSCDKKNEKIKEPEGKTKKDVISFAPKVTGRILKIYVSEGQTVKKGDTLAQLDVPEVSAKIAQAQGAVNAASAQEQMAKNGATADQLRQLQAKYKGLKEQYEFAQKSYKRANNMFRDSLMSPQAHDEIYAKMQGAKAQYDAVVAELDDVNRGTRVEKIEMAAGQASQAKGALQEANVAYSERYIIATNDMEIETISLNTGELATAGFALFNGYIPESTYFRFTIPESAISKYKKGQEVAMQVVYNKESLTGNIVYIKQLTKYADITTAYPDYQLQDAIYEIKVKPKDMNKAKNILVNANVILK				NA	NA	NA	NA	NA
BMS003_03162	1419			hypothetical protein	ATGAAAAACAATTTATTGATTTTTACGTTTAGTTTTTTTGCTTTCCCCGCTTTTGGCTGGGCACAGTCTGCGCCGGATTTTAAAGAACTTCTGGATAGTGCTATGGTTCGGGACTCGAACCTTAAAATGCAGATTACCCAAAACAAACTTACCGATCTTGACGAACATAAACTGAAAGACATCTTTCTTCCGACATTGGAACTGAGTGGTAAAGCCGGATATCTCAACGGAACAGCAAGACTTACGTCTCCGGAACTCAACCTGGCTCCTTTTATCAATATTCCGGAAGGAACCTTTAACAACAATTTCAATGTATCCGGATTTTCAGGTATTGCCAAGGCAGATGCCAAAATGCTTCTGTATTCAGGAGGAAAGGTAAAGTACATGAAAAAAGCGGTAGAAGAAAAGAAAAAGTCTGAAGATATCCTTCTGGAGAAAACAAAAGATGAGGTGATTGCCACTATTTCTAAAGCGTATGATCAGCTGGCTTTGATTCATCAGTCTAAAAAAGTGCTGGACGAAAGCAAAAAAAGATTGGATATTAACCGTAAAACAGCAGATAAAGCCCTTGGTTATGGACTGATAACGCCTTATGATCATAAAAAAATAGAACTGGCTCAGGCAACTTTAGATGCCAAAATGGTAGAATATGAAGGAAAAAAAGAACTGCTGCTTACCCAGCTTTATATTTTAACAGGAATACAAAAAGAAAGGCTCAGAATGATTGATCCTGTACTGTCTCCGGTAGAATTGCTGGCTGCAGAAAAAGGAATAGAGCAAAGAGCAGAAATTCGTGCCCTGGAACATGGTATCAGTGCTGCAGACTATAAAATAAAAGCAGAAAAAACGTGGATGATTCCTAAAGTACAACTGATGGCTTCTGCCTATTATATCGGTTTGTACGGGAACAGAATAAAGTCCTCAGAAAATATAATTCCCGCAGTTCCGATACTAGGATATGAAGGGAAAAAGCTGGACTGGAGACCCAATAATATCAACGTATTCCCACTGATCACGGCAGGAGTTGGTTTTAAATGGGAAATTTTTGACGGGAAAGAAGGAAAACATGCGGAAGAAACAGCTAAAGTAGGAAAAGAAGTATTACAAAACCAGAAAGATGATGCTTTGAAAAAACTGACCCTGAATCTGGCCAATAATCAGACCAATTATGATATCGCTTCTGCACAGATCACATTAAAGGCTAAAGAAAAAGAACTGGCAAAAAATGCATTGGTACAGGCAGAAAAAGAATTCAGATACGGAATGAGCAAATCTTCACAGCTTATTGATGCAGAAAACGATCTTGAAGCTGCAGAACTGGAATATCAGAATGCTATTTTCAACCAGAGAAGAGCGGGAATAGAACTCATGAGGTCTACCCAGGAGCTGGATATCACCAAATTTTATTTAATCCCTTAA	MKNNLLIFTFSFFAFPAFGWAQSAPDFKELLDSAMVRDSNLKMQITQNKLTDLDEHKLKDIFLPTLELSGKAGYLNGTARLTSPELNLAPFINIPEGTFNNNFNVSGFSGIAKADAKMLLYSGGKVKYMKKAVEEKKKSEDILLEKTKDEVIATISKAYDQLALIHQSKKVLDESKKRLDINRKTADKALGYGLITPYDHKKIELAQATLDAKMVEYEGKKELLLTQLYILTGIQKERLRMIDPVLSPVELLAAEKGIEQRAEIRALEHGISAADYKIKAEKTWMIPKVQLMASAYYIGLYGNRIKSSENIIPAVPILGYEGKKLDWRPNNINVFPLITAGVGFKWEIFDGKEGKHAEETAKVGKEVLQNQKDDALKKLTLNLANNQTNYDIASAQITLKAKEKELAKNALVQAEKEFRYGMSKSSQLIDAENDLEAAELEYQNAIFNQRRAGIELMRSTQELDITKFYLIP				NA	NA	NA	NA	NA
BMS003_03163	495			hypothetical protein	ATGCAAAACCGTATTTCTTCATTCCCTCCTCTTATTGATGCTCAGTCTGAAATTTTAATTTTAGGATCAATTCCGGGAGTAAAATCATTAGAAAAGCAGCAATATTATGCCCATCCACAAAACAAATTCTGGAAAATTATTTTCGAATTGCTGCAAGAAGAATTCACTCACGATTACACTCAGAGAATTGAAACCATAAAGAAACATCACATTGCCCTTTGGGATGTAATTGATTCCTGCGAGAGAAAAGGAAGCCTGGATTCTGAAATCAGAAATGAAGAAGTCAATCAGATTGCTGAGCTGCTTGAAGAATATCCGGATATCAAAGCTATTTTTTGCAATGGTGGGAAATCTTACAAAAGCTTGCAGAAACAGCTGGGGAAAAATTATAAGCTGCCCGTCTTTTTATTGCCATCCACAAGTCCGCTTCATACAGTTTCCTTTGAAAAGAAGCTGGAAGAATGGAAGGAAATTCTGGAGTTTTTGAGGTCTTGA	MQNRISSFPPLIDAQSEILILGSIPGVKSLEKQQYYAHPQNKFWKIIFELLQEEFTHDYTQRIETIKKHHIALWDVIDSCERKGSLDSEIRNEEVNQIAELLEEYPDIKAIFCNGGKSYKSLQKQLGKNYKLPVFLLPSTSPLHTVSFEKKLEEWKEILEFLRS				NA	NA	NA	NA	NA
BMS003_03164	1995	dpp5	COG1506	Dipeptidyl-peptidase 5	ATGAAACTTAAGTACAGTCTGCTGGCTTTGGCAGCTCCGCTTTTAATGAATGCACAACAAGTAATGACGCCTGAAATTCTTTGGACTTTGAAAAAAGTTGGGGTACAGGCAGTTTCACCGGATCAGGGCTCTCTTATCTATAAAGTAGGACAGGTAGATCTGAAAACAGAAAAAACAAAAAACGAGAACTATTTCCTGAATGTTCTTAATAACCAGTCTTCCAAAATTGATTTCGGGAAAAAGGCTCTTATTCAGTGGGACAGAAATGGGATCTATGCTCAGGAAGGAGACAAAATCTACCTTTCCAAAGATGCCGGAAAAACCTGGACAGAGTTTTATACCATTGGTGAAGCAGACAATATTGTAATTTCTCCGGATGGGAAAAAAATTGCTTTCAGTAAGCAGGTATTGGTGGAGAAAGTGATGGGGAAAGATAAATTCAGTGATACTCCTAAAACTACGGCTCAGGTATACACAGATCTGAACCACAGACACTGGGATTATTTCAATGAAGGAAAATATAACCATGTATTTGTAGTCAATACTTCTGATAAAGCAGAAAGTGCTAAAGATCTTTTGGAAGGGAAAACATGGGATTCTCCTCAGAGACCTTTCGGAGGTGCTGAAGACTTTATCTGGAGCCCGGATTCTGCACAGCTTTTATATGTTACAAAACCTAAAAGTGGAAAAGAGTACGCTACAAGTACCAATACAGATATCTTTGCTTACGATTTGGCATCAGGTACAACAAAAAACCTTACAGAATCAAACAAAGGATATGATGTAAACCCAAAATTCAGCCCGGACGGAAAATCTTTGATCTGGCAGAGTATGGCCAGAGAAGGGTATGAAGCAGATAAGAATGATGTAAAAATCCTGGATTGGAAATCAGGAAAGACCACTAATCTTACATCCGGCTGGGATGAAAGTGTTTCAGGAGATGTATTCTGGGGAGCAGATTCAAAGACAATCTACTTCACAGCAGCATTCAGAGGAACAAAACAGCTTTTCTCACTGGATTCAAAATCTGCAAAAGTACAGCAGATCACCAAAGGGAATTTTGACGTAAACGAAATCTTTACAGACAATAAATCTTCGCTTTTAGTAGGAAGAACAGATATAAACCATGCCACAGAATTATTCTCTGTAAACATTAAAAACGGAGAAATGAAGCAGGTAACTGAAGCTAACAAAGAAACATATGCTAAGTTGACTCAGGGGAAATCTGAACTTAAAATGGTGAAAACTTCAGACGGTAAAGAAATGGGAGTTTGGTTCCACTATCCACCCAACTTTGACCCGAACAAAAAATATCCTACTCTGGTATACTGCCAGGGTGGTCCACAATCTGCTCTTACGCAGTTTTTCAGTGTAAGATGGAACTTTGCCCTAATGGCAGCCAATGGTTATATCGTGGTAGCACCAAACAGAAGAGGTATGCCGGGCTGGGGAACAAAATGGAACGAAGAAATTTCAAGAGACTGGGGCGGACAGCCAATGAGAGATTATCTGGCAGCAACAGACTTTGCGAAAACCTTACCTTATGTAGACGGTGATAGAGTAGCCGCTGTAGGAGCGAGCTACGGAGGATACAGCGTATTTATGTTAGCTGGAATCCATGAGAACAGATTCAAGACGTTCATCGCTCATGACGGATTATTTGATATGAAATCCTGGTATCTGACCACAGAAGAACTTTGGTTTGCTAACTGGGATCTTGGTTCTCCGTGGGAAAAACCACAGCCAAAAGCTTATACAGAATTTAACCCAAGCAATTTCGTAGACAAATGGAACAAGCCTATTATGATTGTTCAGGGAGGAATTGATTACCGTGTTCCTTACGAGCAGGGGCAGGAAGCTTTCCAGGCTGCAAAATTAAGAGGATTGAAATCTAAACTGGTATACTTCCCGAACGAAAATCACTGGGTGCTTCATCCACAAAACGGATTGGTATGGCAGAGAGAATTCTTCGATTGGCTGAAGGAAACTTTGTAA	MKLKYSLLALAAPLLMNAQQVMTPEILWTLKKVGVQAVSPDQGSLIYKVGQVDLKTEKTKNENYFLNVLNNQSSKIDFGKKALIQWDRNGIYAQEGDKIYLSKDAGKTWTEFYTIGEADNIVISPDGKKIAFSKQVLVEKVMGKDKFSDTPKTTAQVYTDLNHRHWDYFNEGKYNHVFVVNTSDKAESAKDLLEGKTWDSPQRPFGGAEDFIWSPDSAQLLYVTKPKSGKEYATSTNTDIFAYDLASGTTKNLTESNKGYDVNPKFSPDGKSLIWQSMAREGYEADKNDVKILDWKSGKTTNLTSGWDESVSGDVFWGADSKTIYFTAAFRGTKQLFSLDSKSAKVQQITKGNFDVNEIFTDNKSSLLVGRTDINHATELFSVNIKNGEMKQVTEANKETYAKLTQGKSELKMVKTSDGKEMGVWFHYPPNFDPNKKYPTLVYCQGGPQSALTQFFSVRWNFALMAANGYIVVAPNRRGMPGWGTKWNEEISRDWGGQPMRDYLAATDFAKTLPYVDGDRVAAVGASYGGYSVFMLAGIHENRFKTFIAHDGLFDMKSWYLTTEELWFANWDLGSPWEKPQPKAYTEFNPSNFVDKWNKPIMIVQGGIDYRVPYEQGQEAFQAAKLRGLKSKLVYFPNENHWVLHPQNGLVWQREFFDWLKETL				NA	NA	NA	NA	NA
BMS003_03165	255			hypothetical protein	ATGAGCACACCAGACACAGGTAATTTTAAAGCAACGCGTGTAGACGCAGGCGCACCCAATCTTTGGCACGTACATGAAGGTCACTTCAAGTATGGATCCATACGGGAAACAAGAGTCAATTTTGCAGGCAGAACACTTGAACAGATTATGGCAAAAATTGCAGAAAATGAACCGATTAATGCCCCTTACATGAAAACAGACAACCAGATACGAACTTACGAGGATTGTATAAAATGGATTAAAAAGAATTGTTAA	MSTPDTGNFKATRVDAGAPNLWHVHEGHFKYGSIRETRVNFAGRTLEQIMAKIAENEPINAPYMKTDNQIRTYEDCIKWIKKNC				NA	NA	NA	NA	NA
BMS003_03166	345			hypothetical protein	ATGAACTTAATTATCCGACTATTTATTACAGCAATTGTTGCTTATCTTTTAACTAAAATTTTGCCTGGAGTACATTTTGAAGGATTTTCTTCAGCCATTATCTTTGCGATTGTGCTTGGGGTTCTTAACATATTTGTAAAGCCTATTTTAAGCCTTTTCGGCCTTCCGTTAACGATCCTTACCTTAGGATTCTTTGCCTTGGTAATTAATGCCGGAATTATCCTTATTGCAGACTATTTTATAGACAGCATGGTTGTAGATGGCTTCTGGTGGGCATTCATCTTCAGTATATTATTGTCAATTTTAACTTCTCTGGCGAACTCCATGTTCTCAGATGGAGATTAA	MNLIIRLFITAIVAYLLTKILPGVHFEGFSSAIIFAIVLGVLNIFVKPILSLFGLPLTILTLGFFALVINAGIILIADYFIDSMVVDGFWWAFIFSILLSILTSLANSMFSDGD				NA	NA	NA	NA	NA
BMS003_03167	423			hypothetical protein	ATGACACCAGAAAAAAAGAAACTCATTACAGACAGCTTCGGCCGTTCAGAAACATTACAGTTTTATAAAGCAGAACTGTTGGATGTGGAAACCGATTTTATATCCATGAAAATCCCTAAAATGAAAATGATGACCCGAAAAGCAGGAATGTTCAACGGCGCAATGATTGCCTCTCTGGTAGATGTTTCCTCAGGATATGCAGCGGTGAGTCACTATCCGGAAGATTGTTATGTAGTAACCGTAGAGTTGAAGGTGAATTATCTTCGTCCGGCTATGGGAGACGCTTTGGTTTCAAAATCCTATGTCATCAAAGGGGGAGGGAAAATTGTTGTGGTAAGAACAGAAATTTATGCTCAGACCGAAGGTTCTGATTCCGAAAGTCATGTAGCAACTTCATTAGTAACCATGATGAAAATAAAATAA	MTPEKKKLITDSFGRSETLQFYKAELLDVETDFISMKIPKMKMMTRKAGMFNGAMIASLVDVSSGYAAVSHYPEDCYVVTVELKVNYLRPAMGDALVSKSYVIKGGGKIVVVRTEIYAQTEGSDSESHVATSLVTMMKIK				NA	NA	NA	NA	NA
BMS003_03168	1554	betA	COG2303	Oxygen-dependent choline dehydrogenase	ATGAAATACGATTTTATAATTGTCGGATCCGGTTCGGCAGGCGCTGTAATAGCCAACAGACTAAGTGAAAACGAAAATATAAATGTACTCCTTCTGGAAGCAGGTCCTGAGGATAAAGTTACCGAAGTGGAAGAACAGGCAGGCTGGCCCGCAATCTGGAATACAGAAAGAGATTGGGCATATCATACCGTTGCACAGGAACATGCGGGAGGAAATACCCGATATTGGCCCCGCGGTAAGACATTGGGTGGCTCAAGCTCTATTAACGGGATGATTTATATCAGAGGACATCAGCAGGATTATGATCATTGGGCTTATAAAGGATGTGTGGGCTGGGATTGGGCAAGCGTTTTACCTTATTTTAAAAAATCAGAAACCCATGAAGATGGCGGAGACAACATCCATGGAGGTGAAGGACCTCTTTTTGTAAGCCGTATCAAACATCCGAATGCCATTTCCATAAGTGCCATTGAAGCCTGTAAAGAATTGGGTTATCCTTTGACAGACGATTTTAATAAAGAAATCTGGGGAGCAGGTCTTAATCATCTCAGTGTAGGAAAAGATCAAAAAAGATGTTCTGCTGCAAAAGCATTCTTAGATCCTGTGAAATCACGTTCCAACCTTTATATTCATACCAATGCTCTGGCTCAGAAACTCATCTTTGAAGGAAACGAATGCATAGGAGTTCAGTATTTGAAAGACGGTGAATTAATAGAAGCAGAAGCAGAAAAAGAAGTCATAGTATCCTGTGGAACCATAGAATCTGCCAAACTTCTGATGCTTTCCGGAATTGGTGACAAACAAGAACTGGAATCAGTCGGAATTTCGGTGGTAAAAGACCTGAAAGGAGTTGGGAAAAACCTTCAGGATCACCTTTTGACCAGTGTTATTTTTAAAGCTAAAAAAGAAATCCCTGCTCCACAAGCCAATCTGCTGGAAGCTCAGTTATTCTGGAAAAGCAAAGAAGAAATGGCTTTCCCGGATCTGCAGCCTCTGTTTATGGGACTTCCTTATTATAGTCCTGGATTTACAGGACCGGAAAATGCCTTTACATTCTGTGCAGGATTTATCAGACCTGCCAGCAAAGGATATATTAAACTGACTTCTTCTGATCCTTCCGTATCACCGGAAATCAATCCGATGTATCTTTCTGAAGAATCCGATCTGGAAGCCCTGTATCAATGCGTTGAAATATGCCGTGAAATGGGAAAAACAGATGCTATGAAAGAATGGAATGACGGTGAAATTTATCCGGGAGAAGGAAAAACAAAAGAAGAAGTAATTGATTATATTAAAAAATCATGTTCCACTTATCATCATATGACAGGAACCTGCAAAATGGGAATCGACAGTCATGCTGTAGTGGATCCAAGACTCAAAGTATACGGAATAAAAGGATTAAGGGTAGCAGATGCATCCATTATGCCGGATGTTGTTTCCGGAAATACCAATGCACCTACCATTATGATTGGTGAAAAAGCTGCTGATATGATCAAAGAAGATCATCATCTGAAAGCGTCAGGTTCATCTGAAAAATTATCGTTTGTTGTGTAA	MKYDFIIVGSGSAGAVIANRLSENENINVLLLEAGPEDKVTEVEEQAGWPAIWNTERDWAYHTVAQEHAGGNTRYWPRGKTLGGSSSINGMIYIRGHQQDYDHWAYKGCVGWDWASVLPYFKKSETHEDGGDNIHGGEGPLFVSRIKHPNAISISAIEACKELGYPLTDDFNKEIWGAGLNHLSVGKDQKRCSAAKAFLDPVKSRSNLYIHTNALAQKLIFEGNECIGVQYLKDGELIEAEAEKEVIVSCGTIESAKLLMLSGIGDKQELESVGISVVKDLKGVGKNLQDHLLTSVIFKAKKEIPAPQANLLEAQLFWKSKEEMAFPDLQPLFMGLPYYSPGFTGPENAFTFCAGFIRPASKGYIKLTSSDPSVSPEINPMYLSEESDLEALYQCVEICREMGKTDAMKEWNDGEIYPGEGKTKEEVIDYIKKSCSTYHHMTGTCKMGIDSHAVVDPRLKVYGIKGLRVADASIMPDVVSGNTNAPTIMIGEKAADMIKEDHHLKASGSSEKLSFVV	PGPT0013615_4514	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS003_03169	1407	feaB	COG1012	Phenylacetaldehyde dehydrogenase	ATGGAAAATACATCAGCAGTCAAGGAAACCCATACTCCGGATACCACATTTTTATCCGTAAACCCTTCTGATTTAGAGGTTATAGGTGAAGTTGTGAATACCACCCGTGAGGAGATTGATGCTAAAATTAAGAAAGCAAAAAAAGCCCAGAAACTATGGTCAGCAAGACCGGATGCAGAAAGAAAAGAGATTTTATTAAAAGTGGCGGAAGCTTTACAGCAAAATTCAAAACATCTCGCAGAATGGATCACCCGTGAGCAGGGAAAACCGTTGAATGGTCCTGGAGCTAATTTCGAAATGCAGGCTTGTGTTGGCTGGACACAGGTTCCCGCATCACTGGATCTACCCGAAGAAGTTGTATTTGAAGACGAAACCAGAAAAGATGTTTTATACAGAAACCCGATTGGAGTGGTGGCAGCCATTGCTCCCTGGAACTGGCCTCTGATGATTGCTGTCTGGCAGATTATTCCCTCATTGAGAATGGGAAATGCGGTGATCATCAAACCTTCGGAATATACCACTTTCTGTAGTCTGGAAATGATAAAAGTGATCAATAGCGTACTTCCAGAAGATATTTTACAGGTCGTTACCGGCAGAGGAGAAGTAGGAGGTTATCTTACCTCACATCCGGAAATTGGGAAAATTATGTTCACAGGTTCCATCGCTACAGGAAAAAAAGTCATTGAGGCTTCTGCTAAAAATATGGCTCGTTTAACCCTGGAATGTGGAGGAAATGATGCAGGGATTATTGCACCGGGACTAGATGTCTCCAAGCATATTGATAATATTTTCTGGGGGGCTTTCCTGAATATGGGGCAAACCTGTGCCTGTTTAAAAAGATTATATGTTCATGAAAAAGATTATGAAAAAGTAGTTCATGCTTTGGCAGGTTATTCGTCCAATATTCCGATGGGGAACGGAGCCGATGAAACCAGCGTTCTGGGACCTATCCAGAATAAAATGCAGTACGATAAAATTCAGGAGCTGATCCATGATTGTGAAAATATTGGGGCAGATTTTATATTCACAGGCCAAAAACCAGATCTGGAAGGATATTTCATCCCGGTAACCTTAGTGGGAAATGTAGATAACGGAGACAGAATTGTAGACGAAGAACAGTTCGGGCCGGTACTGCCAATCATTAAATACAAAACACTGGAAGAGGCTATCAGCAAAGCCAACGATTCAGAAAACGGACTCGGGGCTTCTGTGTGGAGTGATGATCTTGAAGAAGCTCAGAAAGTAGCGGTACAACTGGAAGCAGGAACCGTATGGATCAATCAGCATGGAGCAATTCACCCGTTTGTACCATTTGGAGGAGCAAAACAATCCGGTTATGGAGTAGAATTCGGAATGGAAGGATTGAAAGCAGTTACAGTTCCCAAAGTAATCAGCATCAAAAAATAA	MENTSAVKETHTPDTTFLSVNPSDLEVIGEVVNTTREEIDAKIKKAKKAQKLWSARPDAERKEILLKVAEALQQNSKHLAEWITREQGKPLNGPGANFEMQACVGWTQVPASLDLPEEVVFEDETRKDVLYRNPIGVVAAIAPWNWPLMIAVWQIIPSLRMGNAVIIKPSEYTTFCSLEMIKVINSVLPEDILQVVTGRGEVGGYLTSHPEIGKIMFTGSIATGKKVIEASAKNMARLTLECGGNDAGIIAPGLDVSKHIDNIFWGAFLNMGQTCACLKRLYVHEKDYEKVVHALAGYSSNIPMGNGADETSVLGPIQNKMQYDKIQELIHDCENIGADFIFTGQKPDLEGYFIPVTLVGNVDNGDRIVDEEQFGPVLPIIKYKTLEEAISKANDSENGLGASVWSDDLEEAQKVAVQLEAGTVWINQHGAIHPFVPFGGAKQSGYGVEFGMEGLKAVTVPKVISIKK				NA	NA	NA	NA	NA
BMS003_03170	870	rhaR_14		HTH-type transcriptional activator RhaR	ATGGAAAAGATCGAAGAAAGAACTGTTTTCAGCATTCCTTTTGGTGAACTGAATGTATTTGAAACGAATGTAGTTTGTCATGATTTTCCTTTCTTTTTTGAAAAGCCTGTTATTACCCTCATGCTGAGTGGCAATAAGATCATTCGCAGTGAGGAAGAAACTTTTGAGTTTAATGAAAGAAGTGTATTTATTCCACCCTGCAATAAGGAACTGAGTATAGATATTCACCCCATTTTCAAAGAACCTACCAAATGTCTTGTTTTAAACATTGAACAGGAATATATTGACAGTGTGTTCTCTGAAGTGATTGAAAACTGGCATCCGGACTGGGAAAGAACGGGAATTATGATGAAAGAAAATGCAGTAAAAAAGTTTGTAAGCTCGGATGAATCTTTATGGAGAAGCCTTACGAATCTTTACAACAGAAGAATTGACAGAAATCTTCACAGCACCTCGGACTTTCTTTTAAGCTTAAGCCTGAAGGAACTGATTTATGAACTGATGAAGACCAATGCAAAACATATTCTTTTGCATTCTGACAAGGGAGAAAGTATACAAAACGGACTTCAGGAAGTGGTTCATTATATCAAACAAAATTACAGAGAACCGATTACCATTAAGAAACTGGCTGTTATTGCGGGAATGAGTGAAGCCAATCTGTTTAAAAAGTTTAAGAATTCTTACAACTGTACTCCGGTAGAATATATTATTCAGCTGAGAATAGAACATGCCAAGCAGCTTTTGATAAGTAACCCTGAAATTGGAATTAAAAATATATGCTTCGAGTCCGGCTTTAATACGCTGGAGTATTTTTACAGGAAGTTTACCCAGATCACCGGAAAGTCTCCTAAAAAATTTAAAATAGATTGA	MEKIEERTVFSIPFGELNVFETNVVCHDFPFFFEKPVITLMLSGNKIIRSEEETFEFNERSVFIPPCNKELSIDIHPIFKEPTKCLVLNIEQEYIDSVFSEVIENWHPDWERTGIMMKENAVKKFVSSDESLWRSLTNLYNRRIDRNLHSTSDFLLSLSLKELIYELMKTNAKHILLHSDKGESIQNGLQEVVHYIKQNYREPITIKKLAVIAGMSEANLFKKFKNSYNCTPVEYIIQLRIEHAKQLLISNPEIGIKNICFESGFNTLEYFYRKFTQITGKSPKKFKID				NA	NA	NA	NA	NA
BMS003_03171	423			hypothetical protein	ATGTATTATAAAAAAGTGTTTGTTATTTTAAGTCTTTTCTTATGCTACATTTTTCATGCGCAGACCTTGCATTTGTATGGAGGTGCAGATCAGGATCAGTATCTGGGATGCTTAAACTGTGATAATTTTGATAAAAATTCGATATGGAATAAATTCAGTGATTACAGAAATACCTTCAGTCCAAAATCTATCTGGAATACGTATGGAAACTACGGAAGTACCTATGGCTCCTATTCTCCATGGAATGCTTACGCTTCTTATCCTCCGGCGATTGTTGATCAGGATGGGAATTTCTTTGGATTTCTTACTTTGAATCCTTATAAATCTGAGAGATCTCAGCTGGAACTTGCTATGACTTTATATAAGCATCATGAGGACATTAAAAAGGATGTTGGAAGTTGGTATGAAAGGTTATTCCGATAA	MYYKKVFVILSLFLCYIFHAQTLHLYGGADQDQYLGCLNCDNFDKNSIWNKFSDYRNTFSPKSIWNTYGNYGSTYGSYSPWNAYASYPPAIVDQDGNFFGFLTLNPYKSERSQLELAMTLYKHHEDIKKDVGSWYERLFR				NA	NA	NA	NA	NA
BMS003_03172	2124	topB_2	COG0550	DNA topoisomerase 3	ATGAAATTATGTATTGCCGAGAAACCCAGTGTTGCCAGAGATATTGCCAAAGTATTGGGCGCTACCACACCTAAACAAGGTTATATGGAAGGAAACGGCTATTGCGTAACATGGACGTTCGGACACCTTTGCACCCTGAAAGAACCTCATGACTATGGTCCACAGTTCAAATCCTGGAATCTTTTTTCATTACCCATTATCCCCAACAGCTTTGGAATAAAGCTAATCCCGAATAAAGGGGTTGAAAATCAGTTTAAAGTCATTGAAAGATTAGTGGAAGAATGTGATGAGGTCATTAACTGTGGTGATGCCGGGCAAGAGGGAGAACTCATTCAGCGTTGGGTATTACAGAAGGCCAAATGTAACAAACCTATCCAGCGTTTATGGATTTCTTCATTGACGGAAGATGCCATTAAAGAAGGTTTTGCGAGCCTAAAACCAGCAGAAGATTATAAAAATCTATATCTGGCCGGAAACGCCAGAGCCATAGGAGATTGGCTATTGGGAATCAATGCCACGAGGCTTTTTACGAAAAAATTTGGTGGGAATAAAGCGGTACTTTCCATTGGGAGAGTGCAGACCCCGACATTAGCAATGTTGGTGCAGCGTCAGAAAGAAATCGATGCTTTTACTACGGAAGAATATTGGGAACTGAAAACCAAATACCGTGACGTTATTTTCAATGCGGCGATTGACCGTTTAAAAACATTGGAACGTGCAGAAAAAGGACTGGAGTATCTTAAAGTAAACCCATTTGAGATCGTTTCTTTCGAAATTAAAGAAGGGAAAGAAAAAAATCCACGACTTTTCGATTTGACCGGACTTCAGGTAGAAGCCAATAAAAAGTACGGATATTCAGCAGAAAATACATTGAATTATGTGCAGAGCCTCTATGAAAAGAAGCACGTAACCTATCCGCGTGTTGATACCACTTACTTATCAGATAGTTTATATCCGAAAATAGCAGGTATCCTTCAGAAAATGTATCCTTATCAGGATCTTATTGCTCCATTACTGGAAGCCCCGATTCCGAAATCAAAAGCTGTTTTTGATGATACAAAAGTAACTGATCACCACGCAATTATTCCTACGGAAATTCCACCTTCTCAGAACCTGAGCAGGGAAGAAAAACTTATTTATGACCTGATTGCCAAACGTTTCATTGCGGTATTTTATCCGGAATGTAAAATTTCCAATACTTTGGTAGAAGGAAAAGTAGGAACCATTCCTTTCAAAACCAGCGGAAGACAGGTTCTTGAAGCAGGATGGAGAGCCGTTTATGCTAAAGAACCTAAAGAAGAAACCACCGATAAGGAAAAAGAAAAAGAGGAAGAGCAATCTATCCCTGAATTTATTGTAGGAGAAACCGGGCCACACGATCCCATGATCCACCAGGGAAAAACAACCCCTCCCAAACCCTACACCGAAGCAACATTGCTGAGAGCCATGGAAACTGCCGGAAAACAGGTAGAAGATGAAGAACTGCGTGAGATGCTGAAAAACAATGGGATCGGAAGACCGTCCACCCGTGCCAACATCATCGAAACCCTTTTCAAAAGAAAATACATCGAGAAGAAAAGGAAAAACCTGATCGCTACCCAAACCGGAATTCAGCTGATTGACACCATCGAAGACGAGCTGTTAAAAAGCCCGGAGCTGACCGGAGAATGGGAATCCAAACTTCGTAAAATAGAAAAAGGAGAATATGAAGCCAATCTTTTTAAAGAAGAACTGATCCAAATGGTGACAGAACTGACGGAAAAAGTGGTATACGGAAAAGGAAAAGTGATAACCCTTCAGGAAGAAAAAGAAGAAGTAAAGGAGAAGAAAAAAAGAGAACCTGCCCAGAAAAAAGAACTGCAGTCCTGGGAAGAAACAAAATGCCCTAAATGTAAAGAACATAACCTTATCAAAGGGAAAACCGCTGTAGGCTGCTCCGATTTCAAAAACTGTGGCTTTAAAATTACCTTTGAAATTTTTGGTAAAAAATTATCAGATAAGCAGCTTTTAGACCTTGTATTAAAAGGAAAAACTTCAAAATTAAAAGGCTTCTCCACCCATCCGGAAGCAATTACAGAAGGTGTTTTGACCTTAAGTGATGACTTCCAGATCCAGCTTAGCTAA	MKLCIAEKPSVARDIAKVLGATTPKQGYMEGNGYCVTWTFGHLCTLKEPHDYGPQFKSWNLFSLPIIPNSFGIKLIPNKGVENQFKVIERLVEECDEVINCGDAGQEGELIQRWVLQKAKCNKPIQRLWISSLTEDAIKEGFASLKPAEDYKNLYLAGNARAIGDWLLGINATRLFTKKFGGNKAVLSIGRVQTPTLAMLVQRQKEIDAFTTEEYWELKTKYRDVIFNAAIDRLKTLERAEKGLEYLKVNPFEIVSFEIKEGKEKNPRLFDLTGLQVEANKKYGYSAENTLNYVQSLYEKKHVTYPRVDTTYLSDSLYPKIAGILQKMYPYQDLIAPLLEAPIPKSKAVFDDTKVTDHHAIIPTEIPPSQNLSREEKLIYDLIAKRFIAVFYPECKISNTLVEGKVGTIPFKTSGRQVLEAGWRAVYAKEPKEETTDKEKEKEEEQSIPEFIVGETGPHDPMIHQGKTTPPKPYTEATLLRAMETAGKQVEDEELREMLKNNGIGRPSTRANIIETLFKRKYIEKKRKNLIATQTGIQLIDTIEDELLKSPELTGEWESKLRKIEKGEYEANLFKEELIQMVTELTEKVVYGKGKVITLQEEKEEVKEKKKREPAQKKELQSWEETKCPKCKEHNLIKGKTAVGCSDFKNCGFKITFEIFGKKLSDKQLLDLVLKGKTSKLKGFSTHPEAITEGVLTLSDDFQIQLS				NA	NA	NA	NA	NA
BMS003_03173	996	yedA_3		putative inner membrane transporter YedA	ATGAGTAATTCTAAAAACAAATGGTTAGTTCCATTGGCGTTTACAAACATCTATGTGATATGGGGAATTACGTTTTTGGCTATTTCATTTGGCTTAAAAGGATTTCCTCCATTCATTCTTTCGGGGTTAAGATTTCTGGTTGCCGGAATTCTAATGATCGGGTATCTTCTGTCTAAAGGAGAAAAAGCAAATTCTCTGATCAACTGGAAGAAAAATGCCATCACCGGTATTCTTATTCTTACCGGAGGAACCGGGCTTGTAGCATGGGGGGAACAATATGTAACAGCCTCTGAAGCGGCAATTTCTATTGCAACAGGCCCATTCTGGTTTATTGCCATTGACCGAAAGAACTGGAAATATTATTTTTCGGATAAATTTATTCCGATAGGATTGGTTATTGGTTTTCTAGGATTGGTTATGTTTCTAAAAGGAAGTGTACATTCTAATGCTCATACAATGGCAGACGGAAACCTACGGATTACAGCATTTATAGTTTTGGGATTAAGCTCCATTGCCTGGGTTTTGGGTTCTTTATATTCAAAGAAAAATCCGGCTTCCCAATCTACATTTATGAATATTTCCCAACAGCTTATAATAGCCGGATTAGCCTCTTTTCTCATTGCTTTTTTAAGAAAAGAATGGAGTGATTTTTCAGTTTCTGCTGTTCCATTATCGGCATGGCTTGGGGTTCTATTTTTGATCTTCTTTGGATCTATAGTCGCTTATTTGTCGTACATTTGGCTTCTGTCCGTAAAACCCGCTGCCTTGGTAAGCACCCATACCTACATCAATCCTATTGTAACAGTGATTGCAGGCTGGATTATTGCCAACCAAAGCATCAATGGAGGTCAGCTATATGGTTTATTCATCATATTGTTTGGAGTACTTCTAACAAATGTCACCAAGTATTTCAGACTTTCAAAACGGGCTAAGGTCAAAATCAGAAAAGTAAGGAGATTTTTTAACAGAGCAGGCAGACGATATCAGCCTATTTAA	MSNSKNKWLVPLAFTNIYVIWGITFLAISFGLKGFPPFILSGLRFLVAGILMIGYLLSKGEKANSLINWKKNAITGILILTGGTGLVAWGEQYVTASEAAISIATGPFWFIAIDRKNWKYYFSDKFIPIGLVIGFLGLVMFLKGSVHSNAHTMADGNLRITAFIVLGLSSIAWVLGSLYSKKNPASQSTFMNISQQLIIAGLASFLIAFLRKEWSDFSVSAVPLSAWLGVLFLIFFGSIVAYLSYIWLLSVKPAALVSTHTYINPIVTVIAGWIIANQSINGGQLYGLFIILFGVLLTNVTKYFRLSKRAKVKIRKVRRFFNRAGRRYQPI				NA	NA	NA	NA	NA
BMS003_03174	1029	metN	COG1135	Methionine import ATP-binding protein MetN	ATGATAGAAATCAGAAACATATCAAAAACGTTTCACCAGAAAAGACAGTCCTTCAAAGCACTGGATAAGGTGAGTCTTAATATAGATAAGGGAGATATCGTAGGAATCATAGGATTCTCGGGGGCAGGAAAAAGTACACTGATCCGTACAGTAAATCTATTGGAAAGACCAGATGAAGGACAGATCATTATTAACGGAAAGGACTTTACCCGGCTTGGTTCCAAACAGCTGGCTGAAGAGCGTAAAAAAATCGGAATGATCTTCCAGCATTTCAATCTTCTTTCTTCAAGAACTGTTTTTGATAATGTAGCGCTTCCTCTGGAGCTGGACAGTACCAGCAAAGACGAAATCAAGAGAAAAGTAAACGAATTACTGAAGATTGTAGGCCTGGAAGATAAGGCCAATGATTATCCTAAAAGTCTTTCCGGAGGACAAAAACAAAGAGTTGCCATTGCAAGAGCTCTAGCCAATGATCCTCACCTGCTGCTTTGCGATGAAGCGACAAGTGCACTGGATCCGGCAACAACGCAGTCTATTCTGCAGCTTTTAAGAGATATCAACCAGAGACTGGGAATTACCATCCTTTTAATTACCCACGAAATGGAAGTCATCAAAGCGGTCTGCAACCACGTTGCTGTAATCGACAAAGGAAAATTATTAACAAAAGGAACTTTAAGCGAGATTATATCGGATAAAGAAAACCCGATCATCCGCCAGTTCATCAATTCAGACACCATGACCCTGCCACAGGAACTCATCAACAGACTGCAGAAAGAGCCCAAAGAAGGCTTATTTCCGCTGGTAGAAATAGAACTTAATGAAAACATCAGTGTTGAACAAATTCTTTCAGCACTGTACAACCAATATAAAATCCCTTATAAATTGTTAAAGGCAGATGTGGAGTATTTTGGCAATTCCAATTTCGGCAAACTTCTGCTGCAGCTTCAGGGTGAGACCGAAGTAAACCAACAGGCGATCTATTATTTCAACCAAAATAAAATTCAAAATACAGTAAAAGGATATGCTTAG	MIEIRNISKTFHQKRQSFKALDKVSLNIDKGDIVGIIGFSGAGKSTLIRTVNLLERPDEGQIIINGKDFTRLGSKQLAEERKKIGMIFQHFNLLSSRTVFDNVALPLELDSTSKDEIKRKVNELLKIVGLEDKANDYPKSLSGGQKQRVAIARALANDPHLLLCDEATSALDPATTQSILQLLRDINQRLGITILLITHEMEVIKAVCNHVAVIDKGKLLTKGTLSEIISDKENPIIRQFINSDTMTLPQELINRLQKEPKEGLFPLVEIELNENISVEQILSALYNQYKIPYKLLKADVEYFGNSNFGKLLLQLQGETEVNQQAIYYFNQNKIQNTVKGYA	PGPT0020520_2183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS003_03175	657	metI	COG2011	D-methionine transport system permease protein MetI	ATGCTTAGTGATACGGTAATTGCCCTTTTGGCAAAAGGAACCTGGGAAACGGTTTATATGACATTTTTATCCGGATTTTTTGGATTTGTACTGGGACTTCCGGTAGGAATTCTCTTATTTTTAACCAGAAAAGATCAGCTATTGGAAAATGCTTTCTATCATAGAGGACTTTCTATTTTGGTTAATATTTTCCGCGCTATCCCTTTTATTATTTTAATAGTGTGGATGATTCCTTTCACCAGAATTCTGGCAGGAACTTCTATTGGAGTAAATGCCGCTTTGGTTCCTCTAAGTGTGGGAGCCGCTCCTTTTATTGCAAGACTTGTAGAGAACAGCCTTATTGAAGTTCCTCATGGTCTTATAGAAACTGCAAGAGCACTGGGAGCTTCTCCATTACAGATTATCAGAAAAGTATTGCTTCCTGAAGCGCTTCCTTCATTAATCAATAATGCCACGATCACTTTGATTACCCTGGTAGGTTACTCTGCAATGGGTGGTGCTGTAGGAGCGGGCGGACTTGGACAGGTGGGTTACCAGTACGGATATATCGGGTATGATATTGTTATTATGAATACGGTTTTGATTCTGCTTGTCCTTTTGGTTTTCATCATCCAGTTTATGGGAGACAGGCTTTCAAAAAAATTTGATCACAGGTAG	MLSDTVIALLAKGTWETVYMTFLSGFFGFVLGLPVGILLFLTRKDQLLENAFYHRGLSILVNIFRAIPFIILIVWMIPFTRILAGTSIGVNAALVPLSVGAAPFIARLVENSLIEVPHGLIETARALGASPLQIIRKVLLPEALPSLINNATITLITLVGYSAMGGAVGAGGLGQVGYQYGYIGYDIVIMNTVLILLVLLVFIIQFMGDRLSKKFDHR	PGPT0020515_2894	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS003_03176	810	metQ	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAAAAAATAAAGTTTTTTGGTTTATTAGCTGCGGGAATATTGCTTTTCAGTGCCTGTTCGGGGAGAAAAGATGACCCGAACTTTATCCGTGTAGGAATTACGTATGGCCCGGAACAGGAAATTGCCGAAGTGGCCAAAAAAGTAGCTAAAGAAAAATATAACCTTGAAGTGGAACTTATTCCTTTCAACGATTATGTAGTTCCCAATGAAGCTTTGACAAACGGAGATATTGATGCCAATGCTTTTCAGCATATTCCTTATTTAACGGAGCAGTCAAAACAGAGAGGTTACAACCTTGTTCCAGTAGGGAATACTTTTGTCTACCCCATTGTAGCCTATTCAAAAAAGATTAAAAATATCAGTGAACTAAAAGAAGGCAATACGATTGTCATTCCCAATGATCCTACCAACGGAGGACGTTCTTTACTTCTTCTTCAGAAAAGTGGTCTTTTAAAATTGAAAGACGGTGTGGGCCTTCTACCCAAAGTAACTGATATTACAGAAAATCCGAAACAGCTCAGAATCATGGAGATTGAAGGCGCACAGATTCCAAGAGTTTTGGATGACAGAGATGTTGTAGTAGGAGTTATCAATAATAATTTCGCGGCTCAGGCAGGTTTGGACCAGGAAAAACAGGGCGTTCTTGTTGAAGATAAAGATTCACCTTATGTCAATGTAGTGGTTGCCAGACAGGACAACAAAAACAGCCAGAAAGTAAAAAACTTTGTAAAAGCTTATCAGTCTCCGGAAGTGGAAAAGAAAGCCAAAGAAATTTTCAAAGGAGGAGCTGTGAAAGGATGGGATTGA	MKKIKFFGLLAAGILLFSACSGRKDDPNFIRVGITYGPEQEIAEVAKKVAKEKYNLEVELIPFNDYVVPNEALTNGDIDANAFQHIPYLTEQSKQRGYNLVPVGNTFVYPIVAYSKKIKNISELKEGNTIVIPNDPTNGGRSLLLLQKSGLLKLKDGVGLLPKVTDITENPKQLRIMEIEGAQIPRVLDDRDVVVGVINNNFAAQAGLDQEKQGVLVEDKDSPYVNVVVARQDNKNSQKVKNFVKAYQSPEVEKKAKEIFKGGAVKGWD	PGPT0020510_4173	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS003_03177	2265		COG1472	Beta-glucosidase BoGH3A	ATGTTAAAGAAAACCGTCATTATCAGTTTATTCACCTTTATTTCTGCTTCTTATATGGCTCAGACCAATACTACCATACCCGTTTATTTAGATGAATCCAAACCTGTAGAACAGCGTATTCAGGATGCTTTATCAAGAATGACGCTGGAGGAAAAAGTAGCGATGCTTCATGCACAGTCAAAATTCAGTTCTCCGGGGGTTCCGAGATTGGGAATTCCTGAATTCTGGACAACAGATGGCCCTCATGGGGTTCGTCCAGAAGTAATGTGGGACGAATGGGATCAGGCCGGATGGACCAATGATTCTATCATCGCCTACCCTGCCCTGACTGCCCTATCTGCAACCTGGAATAAAAAAATGTCCTGGAACTATGGTAAAGCGTTGGGTGAAGAAGCCCGTTACAGAAAAAAAGATATCCTGCTGGGACCTGGAGTTAATATTTACAGAACTCCACTGAACGGAAGAAATTTTGAATATATGGGCGAAGATCCTTATCTGACTTCAAAGATGGTGGTTCCTTATATCAAAGGAGTACAGTCTAACGGTGTGGCAACGTCTGTGAAACATTTTGCCCTGAACAACCAGGAGATGTTCCGTCATACCAGCAATGTGAATGTAGATGACAGAGCTCTTTATGAAATTTACCTGCCTGCTTTCAAAGCTGCTGTAACAGAGGGTGACTCATGGACAATCATGGGTGCTTATGATATGTACAAAGGCCAGTATGCCAGCCAGAATCAATACCTTTTAAATGATATTTTAAAGAAAGAATGGAACTATAAAGGTGTTGTGGTATCTGATTGGGGGGCAGTCAACAATACTGAACAGGCCATCCATAACGGTCTGGATCTTGAATTCGGATCATGGACAAACGGACTTTCTGCAGGGACCAAAAATGCTTATGATAATTATTACTTAGCCAAGCCTTATCTTGATCTTATCAAAGCAGGAAAAGTAGGTACAAAGGAACTTGATGACAAAGTAACAAGATTGCTTCGCCTTGCCTACAAAACAACAATGAACCGCAACAAACCTTTCGGAAATATTGCTTCCGAAGAGCATAAAGCGGTTGCCAAAGAAATTGGTGAAGAAGGGATTGTGTTACTGAAAAATCAGGGTAACGTTCTTCCTATTGATATAAATAAGGCAAAAAAAATAGCTGTTATCGGGGAGAATGCCATTAAGATAATGACCGTGGGCGGCGGCTCTTCTTCGTTAAAAGTAAAATACGAAACTCTTCCTTTAGACGGTATCAAATCCCGATTTGGAAAACAGGCAGAAGTACAGTATGCCAGAGGATATGTAGGTGATATCGGAGGAGAATATAATGGTGTAAAATCCGGACAGGATCTAAAAGATACCCGCTCTGAAGCTGAATTACTGAATGAAGCTGTAGAACTGGCTAAAAAATCAGATTATGTAATTTTCGTAGGCGGACTGAATAAGGCTGATTTCCAGGACAGTGAAGGAAACGACAGAAAAAGCTACGGATTACCTTATAATCAGGATCATGTCATCTCTGCTCTTGCAAAAGCGAATAAAAACCTTGCCGTGGTTTTAGTATCCGGAAATGCTGTGGCAATGCCATGGATCAAAGAGGTTCCAACGGTTGTACAGGCCTGGTATCTGGGTTCTGAAGCCGGAAATTCTATTGCTGCAATTTTAGCCGGCGATGCCAATCCATCCGGAAAGCTCCCCTTTACATTCCCTGTAAAACTTGACGACAACTCTGCCCATAAGCTTGGGGAATATCCCGGGCAAAAAGATGAGTTGGCAGCAGGAAAAGGTAAAGATCAGAAAAACCCGATCAATATTACGTACAACGAAGGCATTTTTGTAGGTTACCGTTGGCATGATACTAAAAATATAAAACCTCTTTTCAGTTTCGGACATGGACTGAGCTATACCACTTTTGAATTCGGAAAAGCAAAAGCAGACCAGACTACGATTTCACAGGATGGTAAAATTACATTGACAGTAACCGTTAAAAATACAGGTAAAAAAGCAGGTGCGGAAGTTGCCCAGCTCTACATCAGTGATTTAAAATCATCTGTTCCACGTCCAACAAAAGAACTGAAAGGTTTTGAAAAAGTATATCTGAATCCCGGAGAGCAAAAAGAAGTTACTTTCACTATAGACAAAACGGCTTTAAGCTATTTTGACGCTCAAAAACATGACTGGGTAGCTGAACCGGGAGATTTTGAAGCGCTGATTGGAAATTCTTCAGATGCTATTAAAACTAAAGTGAAGTTTACCTTAAAATAA	MLKKTVIISLFTFISASYMAQTNTTIPVYLDESKPVEQRIQDALSRMTLEEKVAMLHAQSKFSSPGVPRLGIPEFWTTDGPHGVRPEVMWDEWDQAGWTNDSIIAYPALTALSATWNKKMSWNYGKALGEEARYRKKDILLGPGVNIYRTPLNGRNFEYMGEDPYLTSKMVVPYIKGVQSNGVATSVKHFALNNQEMFRHTSNVNVDDRALYEIYLPAFKAAVTEGDSWTIMGAYDMYKGQYASQNQYLLNDILKKEWNYKGVVVSDWGAVNNTEQAIHNGLDLEFGSWTNGLSAGTKNAYDNYYLAKPYLDLIKAGKVGTKELDDKVTRLLRLAYKTTMNRNKPFGNIASEEHKAVAKEIGEEGIVLLKNQGNVLPIDINKAKKIAVIGENAIKIMTVGGGSSSLKVKYETLPLDGIKSRFGKQAEVQYARGYVGDIGGEYNGVKSGQDLKDTRSEAELLNEAVELAKKSDYVIFVGGLNKADFQDSEGNDRKSYGLPYNQDHVISALAKANKNLAVVLVSGNAVAMPWIKEVPTVVQAWYLGSEAGNSIAAILAGDANPSGKLPFTFPVKLDDNSAHKLGEYPGQKDELAAGKGKDQKNPINITYNEGIFVGYRWHDTKNIKPLFSFGHGLSYTTFEFGKAKADQTTISQDGKITLTVTVKNTGKKAGAEVAQLYISDLKSSVPRPTKELKGFEKVYLNPGEQKEVTFTIDKTALSYFDAQKHDWVAEPGDFEALIGNSSDAIKTKVKFTLK	PGPT0019110_4430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS003_03178	2139			hypothetical protein	ATGATTTATCTTCGTCATATAACCAGCAGAGCTTTAATATTACTATCTTCACTGATAGTAATATTAACCTCCGCACAACAAAAAGATACCTTAAAAAATGAAAAGAAAATTGATGAAATCAAAATTACCCGCTCTGCAGTAAAATTTAAAAACGGAAAAATAATTGTTACTCCTGCCGGAACAGCCACAGCAGATGCAAGTAACAGCTGGGAGTTTATCAAAAATTCAGGATATGCAGATGCCTCTGAGGAAGGAACAATAAAAATTAAACAAAAATATACCACTGTATATATCAATGACAGAAAACTCCGCTTGTCGGGTATAGAACTTAAAAACTATCTTGAGTCTATCCCTGCCAAGCTGATAAAAAACATTGAAGTAATCGGGACGCCGGATTCTTCTCATCCTGCCGATGAACAGTCGATCATTAAGATTAATCTTGTGAACAGTAATATTGAAGGTTTGAAATTAGGAATTGGTTCCAGCCTTGGTTTTACCAAAAAAATGAACATGTCTCAGAATCTCAACCTGAATTATAAATCTGCCAAATTTGAAATCAATACCCTTCTGAGCAGTACACATGCCAATGTTCTTACTGAAGTAAATGCTCAGAGGGAATACAAAAATAATATTTGGGATATTGCACAGAATCAGGATATTCAGAAATCTACTAATATTTATTCCTTACTGGTGAATTATTTTGCTGACAAGAGAAATAAGTTCAGCATTTATGGAGAATATAACCCTGTCAACACACAGAGTGAACTTAATGCAGATAACGGATTGCCTACAGCAGAGAGGGTTTTGAGAAAGGATTCTATCTTTAAATACAATTCAATTTTTAAAGATTTGGGGCGAAGTACAAATGTTCAGGCTAATTATAAATTTGAAAATGATTCTGCCACTCAGAAGCTTAATATTCAGTTTGAATACTTAAATGCCAACAGAAAAACGAATAACAGCTTCAGAAATTACTTTTACCAGCAGCCTTCTTATCTTGATGGCAACAGGATAGATGATTCCTCTTCAAGAAATATCAATATGTACATAGGAAATGCCAATTATACCCTACAGACAAAGAAATGGGGAACATGGTCTGCGGGAGGAAGGTTTTCTTACAGTGACATCAATAATCCTATTAATATAACCGTTAATGATGTAGATTCTCAGGAAAGTGTTCAGAACTACAGTGAAGAACAGTATGCATTATTTTTAGAGGGACAAAGGGAATTTAATAAAACATATGTAAGGCTGGGAATGCGTTATGAAAGCAATATTACCAATTTTTTTGATCAGGGGCTTGCTTCAAATTCATTCAGGATAGACGGATTTTACCCGAATATTTTGATTCAGCATAGCTTTTCAGATAATTTTCAGGCGGAAACCAGTTATAAAAAAACACTCATCAGACCTGATTATTTTTTACTCAATCAGCTGAGAAGGAAGAACAGTGATGACAGTATGCTGTACACCTCCGGAAACATCAATCTGAGACCTCAGGTAGAACATGAAGTGGATCTTTCCCTGTATTACAAAAACCAGATGTTGTCTGTAGGAATGAATTATTCTCCAAATTACATCAGTACCCTGATTGTAAAGCGCGGTGATTATCTGGTGCAGGAGTATAACAATTTTAAAATGATGACACTGTATGCAAGCCTTGCCCTGAACAAAGTATTTGATAACAAATATATTGTTAAGAACTATTCCACTGTGAATTATCTTCCGATCATGGAGTTTGAAGGTTTTGAGAAAGGAAAAACCAATTTTGCTTTTGATAACAGAACTGTTTTGGGAATTATCTTTAAAAAAGGATATGCTGCAGAGGCTTCCTATTCTTTTTCAACCGATTTTTATGACGGATTCTTCAAACATGGAAAAACAAACAACCTAAGCATTACCTTACAGAAGAAAATTCCTCATCTTAATCTTACCACTTATCTTGTCGTTACAGATTTGCTGAGAGGTCAGAAAAATTATGATGAAGCAATATATCCTATTGTGTATAAAAATTCCTCTTATAATGACAGCAGAAGTATACGGCTGGGATTATACTGGACGTTCGGTAACCAGAAATTAAAGGAAATTAAAAAAGAAGATTCTCTGATGAATGATCTGAAGAGCAGAAACAGAAAATAA	MIYLRHITSRALILLSSLIVILTSAQQKDTLKNEKKIDEIKITRSAVKFKNGKIIVTPAGTATADASNSWEFIKNSGYADASEEGTIKIKQKYTTVYINDRKLRLSGIELKNYLESIPAKLIKNIEVIGTPDSSHPADEQSIIKINLVNSNIEGLKLGIGSSLGFTKKMNMSQNLNLNYKSAKFEINTLLSSTHANVLTEVNAQREYKNNIWDIAQNQDIQKSTNIYSLLVNYFADKRNKFSIYGEYNPVNTQSELNADNGLPTAERVLRKDSIFKYNSIFKDLGRSTNVQANYKFENDSATQKLNIQFEYLNANRKTNNSFRNYFYQQPSYLDGNRIDDSSSRNINMYIGNANYTLQTKKWGTWSAGGRFSYSDINNPINITVNDVDSQESVQNYSEEQYALFLEGQREFNKTYVRLGMRYESNITNFFDQGLASNSFRIDGFYPNILIQHSFSDNFQAETSYKKTLIRPDYFLLNQLRRKNSDDSMLYTSGNINLRPQVEHEVDLSLYYKNQMLSVGMNYSPNYISTLIVKRGDYLVQEYNNFKMMTLYASLALNKVFDNKYIVKNYSTVNYLPIMEFEGFEKGKTNFAFDNRTVLGIIFKKGYAAEASYSFSTDFYDGFFKHGKTNNLSITLQKKIPHLNLTTYLVVTDLLRGQKNYDEAIYPIVYKNSSYNDSRSIRLGLYWTFGNQKLKEIKKEDSLMNDLKSRNRK				NA	NA	NA	NA	NA
BMS003_03179	936			hypothetical protein	ATGCTAAGCCTATTAAGAAAAACCACATCGCTTCCAACTGAATTTTATAAATTCTTCAACGAATATAAACCGGAAGATCAACTGTTCTTTGCATTTTTTAGAATTTCCATGGGATTATTCTTCTTAGTGCACTTTGTTTCCACGCTTACTGATTTTAACCTTCTTTTTACAGATCAGGGGCTGATACCACTAGAAGTTGTAGGATTTCTGGGGGCAGAAAAAATGCCGTCTTTTTTCTTTGTAATCAAATTATTAGGGACTATGAATATTTCAGAAAGTTCCGTAATAATGGGATATATTGTAATATACATTTTGACATGTGTTTCTTTAACTGTAGGATTCATGAGCAGGCTTTCTGCCGGGATCATCCTGATCCTTCACCTGCTGATCTTCCAATCTTCCAGTACTTTTATGTATGGGATAGATTTTTTCAAGACGATTGCCATGTTCTACTGTCTTCTGTTTCCTTTGGGAAGCTTCTATTCTCTGGATTCTAAAATATTCAAATACAATGCTATTAATCCCACACCTTTCAGGAATCTTCTGAGAATACACATGAGCATTGTTTACTTCACCTCGGGATTGGATAAAGCATTCGGAATAAACTGGTGGAACGGAGAGTCTATATGGAAAGCATTACACTTACCAGGATTTCAGTCTTATATACTGGATAACAGCAGTTATGATATTTTTGTAAGTTTTCCGATTATTCCAATCTTTATAGGAATCTCAACAATTATTATAGAGCTGTTCTATCCTTATTTTATGTGGAAGAAAAGCACAAGAAAGGTATTTATCTGGATGGTGATAGCCCTGCATACAGGTATTATCATCGCTATGAATTTATATTTCTTCGGAGCATTAATGATCCTTTTAAACTTAAGTGCCTTCTTAAACCTTGAAGATTCCAAAAAACCAATCGCAGCAACATCATGA	MLSLLRKTTSLPTEFYKFFNEYKPEDQLFFAFFRISMGLFFLVHFVSTLTDFNLLFTDQGLIPLEVVGFLGAEKMPSFFFVIKLLGTMNISESSVIMGYIVIYILTCVSLTVGFMSRLSAGIILILHLLIFQSSSTFMYGIDFFKTIAMFYCLLFPLGSFYSLDSKIFKYNAINPTPFRNLLRIHMSIVYFTSGLDKAFGINWWNGESIWKALHLPGFQSYILDNSSYDIFVSFPIIPIFIGISTIIIELFYPYFMWKKSTRKVFIWMVIALHTGIIIAMNLYFFGALMILLNLSAFLNLEDSKKPIAATS				NA	NA	NA	NA	NA
BMS003_03180	657			hypothetical protein	ATGAAATACCCAAAACTCTTCTTCATATTCAGTATGGTTCATATTGCTCTGATACTGATTGTGTGTACCTCAAGTACGATAGACTCCTATGAAAAATCAACCTCCTATGTGAAAAATGATTTGACAGCCACTCTGAAAGATACAAAAGAAGGCATCAGAGAATTTAATTCCGTGCCTCTTATTCAGCAGTATCAGGCTGTTGCAGGGATCAATGCAGGATACGGATTCTTTGCTCCTAATGTAGCCAGTTCCTATATCTTAAAAGTATCTGTGTATGACAAAAACAGGAATCTTGTGAAAGAATCTTACTTCCCTCCATTCAAATCTAAGGAAGGTCTCAACAGGTATCATACTTTGTTAGGATACTTTCAGGACAGACTGACGATTCTGGAAAATAAGATGCAGAAAAAAAAATCTACAGAATTTAATGAATCTGACAAATACGGTGAATTTCTGGATATATTCATCAAAAGTATCGGAAGATATTATTATAAGGAATATAATCCTGATACCTATACCGTTTCTTGTACACTTTATCTGCACCACCACCCAATGCTGCAGGAAATAAAAACAGAAAATAAAACTAAACCAGTACTAATTAAACTTCTTGACATCGATGCTAAGCCTATTAAGAAAAACCACATCGCTTCCAACTGA	MKYPKLFFIFSMVHIALILIVCTSSTIDSYEKSTSYVKNDLTATLKDTKEGIREFNSVPLIQQYQAVAGINAGYGFFAPNVASSYILKVSVYDKNRNLVKESYFPPFKSKEGLNRYHTLLGYFQDRLTILENKMQKKKSTEFNESDKYGEFLDIFIKSIGRYYYKEYNPDTYTVSCTLYLHHHPMLQEIKTENKTKPVLIKLLDIDAKPIKKNHIASN				NA	NA	NA	NA	NA
BMS003_03181	366			hypothetical protein	ATGATGAAAAAGCTAATCGTGTACTATGACAGCTGGTGCCCACGCTGCACCCGGTTTATGAAGACTGTAAAAAGAATAGACTGGCTGGATATGGTAGATTTTCGCTCTCTCAGAGAAAGAGGACAGGCCATAAAAGGAATTGACCTAGTTCTTGCTGAAAAACAAATGGCCTCTTACACTACGACCTGGGCCTATGGTTATGAATCTATTTTCAGAATATTGACAAGCCTGCCATTATTATGGCCTTTATTTCCGGTTCTCTGGTTTCTGCACATTACAAAAATGGGTCAGGTAATCTACATACAGCTTGCTGTAAACCGGAAGATCATCCCTATTCATTGTGATAATGACAGCTGCAATATTTAG	MMKKLIVYYDSWCPRCTRFMKTVKRIDWLDMVDFRSLRERGQAIKGIDLVLAEKQMASYTTTWAYGYESIFRILTSLPLLWPLFPVLWFLHITKMGQVIYIQLAVNRKIIPIHCDNDSCNI				NA	NA	NA	NA	NA
BMS003_03182	384			hypothetical protein	ATGAAAAGCCTTTATTTGTATTTATTATTACTCATTGGTACTGTAGTTTTTCTTTGTTCTTTTAAAATGGAAAGAGGCAGACACATTTACCGAAATCATTGGACAATTCCTGCACAGCAGAATCTTAAGATCAAAAATTCATCAAAAGAATACCTGGACGTTGTTTTGTACAACCCTTCCCAGACAAGCGATCTGAAATATATGAACAGCAGTAATGAGCTGAAAGTTCTGCCTAAAAATGATTCTGTAAAAACCAGGATCAATTTTGCCCATGAATTTTATGTTGTGAACACTGCTTCCAGTGAAAGCACTTTCAAACTGAAGATCCTGAATAATAGTGGCAGAATAAAGGCTTTCATAAAAAAACAGCTTCCAAAAAACTAG	MKSLYLYLLLLIGTVVFLCSFKMERGRHIYRNHWTIPAQQNLKIKNSSKEYLDVVLYNPSQTSDLKYMNSSNELKVLPKNDSVKTRINFAHEFYVVNTASSESTFKLKILNNSGRIKAFIKKQLPKN				NA	NA	NA	NA	NA
BMS003_03183	306			hypothetical protein	ATGAAAAAATATATATTAATACTACCTGCTTTATTACTGACAACGGTTTCTTTATTATCATTTGACAAAGTATCAGATGATACTGATAAGATCAAGTATGATACTCTTAGCAGAGATATGTCTTTAGAAACTGAAGTAGGAGCGTTCATCAAAAGTACGGTGATCACTAACAAATCTTTCAAAAAAGAATGTTCTGTAGATAATTGTATCAAAAGAGATGCGGTAAGCATTTTCGAAACTAAAATTGTATCTGCCATAGACACTCCGGAAATGGATCTAAGCAGAATTGTTGCAACCTATAAATAA	MKKYILILPALLLTTVSLLSFDKVSDDTDKIKYDTLSRDMSLETEVGAFIKSTVITNKSFKKECSVDNCIKRDAVSIFETKIVSAIDTPEMDLSRIVATYK				NA	NA	NA	NA	NA
BMS003_03184	294			hypothetical protein	ATGAACAACTACAAAAAACTATTATTAGCAGGATTGGCAATCGTTCCGTTAGCTCTTTCTTCATGGACATCAGAAGATAACTCTTTAACGTACGGAAAAGCAAACACAAATGATTTTTCTTCTATAGAAGTTATTGGTGGTACTGCTGTAAGCAGCTCTGTAACGGTAAAGACGAAGAAAACAATTCTTTCTAAAGAAACGGTGGAAACTGTAAGTGTAGCCAGTGAAAAAGCGATCAGCACTTCTATTGATCCTATTCTTACTCTTAACAAAGTTGTAGAAAACTACAAATAA	MNNYKKLLLAGLAIVPLALSSWTSEDNSLTYGKANTNDFSSIEVIGGTAVSSSVTVKTKKTILSKETVETVSVASEKAISTSIDPILTLNKVVENYK				NA	NA	NA	NA	NA
BMS003_03185	294			hypothetical protein	ATGAACAACTACAAAAAACTATTATTTGCAGGACTTGCAATTGTACCTCTTGCTCTTTCTTCATGGACATCAGAAAACCCATCCACTCAGTACGGAAACAAAGAAGCAAACCTTGGTTCTACCATCGAGATTATTGGGAATACAGCAGTAAGCAGCTCTGTAACCGTAAACACTAAAAAGAAAGTGCTTTCTAAAGAAACAGTGGAAACTATAAGCGTAGCGAGCGAAAAAGCAATCAGTAACTCTCTTGAAACTGCCCGCTCATTCAATGAAATTCTTAACGATTATAAATAA	MNNYKKLLFAGLAIVPLALSSWTSENPSTQYGNKEANLGSTIEIIGNTAVSSSVTVNTKKKVLSKETVETISVASEKAISNSLETARSFNEILNDYK				NA	NA	NA	NA	NA
BMS003_03186	294			hypothetical protein	ATGAACAACTACAAAAAATTATTATTTGCGGGACTTGCAATTGTTCCTTTAGCTCTTTCTTCGTGGACATCAGAAGATCAGACGGTAAATTATGGCAGCAGAGATGCCGGTTCTATTTCTACCATCGAAATTATTGGAGACACGGCAGTAAGCAGCTCAGTAACAGTGAAAACTAAAAAGAAAGTACTTTCTGTATCAACTATTGAAGAAGTAAGCGTTGCAGAAAAGAAAGCTTTGAGTACTTCTATTGAAACAGCCCGCTCTTTCAACGAAATTTTAAACGATTACAAATAA	MNNYKKLLFAGLAIVPLALSSWTSEDQTVNYGSRDAGSISTIEIIGDTAVSSSVTVKTKKKVLSVSTIEEVSVAEKKALSTSIETARSFNEILNDYK				NA	NA	NA	NA	NA
BMS003_03187	309			hypothetical protein	ATGAAACAATACAAAAAACTGCTCCTTGCAGGGCTGGCAATTGTACCTCTTGCTCTTTCTTCCTGGAATTCCAGAACCTCCGGGCCTGATTTTCGGAATGCTGAGAAACAACAGACGTTTTCTCAACATGAAACAATAGGGGAGACCAATGTGATTGTTGTTCAGTCTTCTGTAAACAAAAAAACGGTCTTTTCCTTTACGGATAAGTTTGATCTCGGGCCTTCTCAGGAAAAGGTGGTGATCACTACCAAAACCCTTGAGCCTTCAAACACTCTTTCTATAGAGGATATTGTAAAAACATATCAGTAG	MKQYKKLLLAGLAIVPLALSSWNSRTSGPDFRNAEKQQTFSQHETIGETNVIVVQSSVNKKTVFSFTDKFDLGPSQEKVVITTKTLEPSNTLSIEDIVKTYQ				NA	NA	NA	NA	NA
BMS003_03188	1476			hypothetical protein	ATGAAAGTTCAAAAAATATCCATATTCAATAAAAGAAACTTACTGCTTGCCATGAGTGTCTGCACTTTGGTATCGTGTTCTGATAAGTCTCATAACTATGGGATTCTTAACAGCGATAAAAGCATTAACTATAAGAATGCTTTTGAATTTCTAAAGAAAAATGCTATTTTAAACTTCCATATCAATGCAGAAGGGGTTCAGGAGCAGGATTCGAAATCGATTAAAGATGCTGATATCAAAGAAAATGTGGAGATTTCTTATAATAAGTCCAAAGAGTTGATTCACTCTAATGTAATCTCAGATTACAGCTTTATCAATTTTGTTCTTCCCTATAAAGTAAATTTTTCAAATGATTTTAACTGGAGGCAGATGGTGCTGAAAAACTATGAACTTCCTTCTGATTATACATTAAATTCTGAAAAATCTGTAATAGAGTCCGTTAATTATCTAAATAATAAACTGAAAAATGTAAAGATGCCTTATGCCGATCCTTTCCCACAGGAAGATTACTGGTCATTTGCTCAGTTGCTGAAAGAAAATAAAGGTTCTGATATTGCAATGGTGAATCTTGCGAATTATATTAATAAAGCAAACGGACTGCCGGTAACCATAGACTATGCACCGGTTTGGGGCAATGCAAATGGAGGGAAGGCCTGGAATGCTTTGGTTCTTAATGAGAAAAAATCTTTTCCTTTTTCAGGAGGAACAGAAAATATAGGAAACTTTAATCCCACCAGGATTATCAATAGTATAAAAGACAGTCTTCATAATTCTTATAGCATTACTAAAGTATACAGGAGAGGATTTGTACCGGATACCGCTTCAGTCTATTTAAAATATTATAAAACCCTCAGTAAAATGGGATTTACTTCTACCTATTCAGATATTGACGTTACGGATCAGTATACGAAAACCATCAAATATAATGTGAATGGCTTTTATAATGATGAAACTGAGCTGGGTTTGCTTTCTGTGTTTTGTTTCAACAAGTGGCTTCCTGTGGCAGCCATAAGTCCGAAACATAAGCAGAAGGTATTTGATAAAGTAGGAGTAGGAGCAATGTACCTGGTGCATACTCCGGAAAGTTCAGGGAAGAAGTCTCTTTTCTATGTAGATAAAACCGGGAAATTATTATCCTTTGATAAGTCTAAAAAATCACTCATCAGTATTTCCCAGGCAGAGTCTGTGGCAGAAAGAATGAAAAACCTGGCTTCTCATCATAAAAATACAGCAGATATCCGTTTACTGGCAGAGAACGTAATCAATTCTAAGCTGCAGGATGGAGCATTATATACCCTTTACAGGTTTACAGACAGCAGTTGGGAAAAGCAGGAGACAAAGCCTGTTGTCAACAATAAGCTATCATTCAGAAGCTTATATCAGGACGGGATTTATCTTGCCGCATTGGAAAATGATACTCAGATAAACTCAAAAAGGCCGTTTATCCTTATCGGCGGAAAAGTAGTCTTTATCTAG	MKVQKISIFNKRNLLLAMSVCTLVSCSDKSHNYGILNSDKSINYKNAFEFLKKNAILNFHINAEGVQEQDSKSIKDADIKENVEISYNKSKELIHSNVISDYSFINFVLPYKVNFSNDFNWRQMVLKNYELPSDYTLNSEKSVIESVNYLNNKLKNVKMPYADPFPQEDYWSFAQLLKENKGSDIAMVNLANYINKANGLPVTIDYAPVWGNANGGKAWNALVLNEKKSFPFSGGTENIGNFNPTRIINSIKDSLHNSYSITKVYRRGFVPDTASVYLKYYKTLSKMGFTSTYSDIDVTDQYTKTIKYNVNGFYNDETELGLLSVFCFNKWLPVAAISPKHKQKVFDKVGVGAMYLVHTPESSGKKSLFYVDKTGKLLSFDKSKKSLISISQAESVAERMKNLASHHKNTADIRLLAENVINSKLQDGALYTLYRFTDSSWEKQETKPVVNNKLSFRSLYQDGIYLAALENDTQINSKRPFILIGGKVVFI				NA	NA	NA	NA	NA
BMS003_03189	2187			hypothetical protein	ATGAAAGTAATTATATTTTCAATAGCAATATTAGCAGGTTCATTAGCAATGGCTCAGCAAACTCCGGCTCCGGCAGCAAATGATACGGTAAAAGGAAATGCAAAAGAAATAGAAGCGGTTACTCTGGTGGCCAGAAAACCTACAGTGGAGTCTAAAGTAGACAGAACTGTATTCAATGTAGCGAACAGTGCAATTCTGGCAGGAAATACAACATGGGATGTCCTTAGAATGACCCCTTTGGTAAGCATTGATAACAATGATGATGTAAAAGCCGAAGGACAAACGGTAACAGTATACATCAACGATAGAAAATCTGTTTTTACAGGGAAAGAGCTAAAGGAGTATCTTAAAACAATTCCGGCTGACAACCTGATGAAAATAGAAGTCATTACCAGCCCTTCTTCCCGTTATGAAACCTCAGGATCCGTTATCAATATTGTTTTGAAAAAAAGAGATGACGAGGGAATAAAAGGAAGCATATCCCTGAACAACAGGCAGAGTACCAAAAATTCACAATACACCAATTTCAATCTGAACTATCATAGGAAGAAGTTTACCCAGACCCTTATAGGAAGTTATAACAGCGGGAATTATGTGCAGAAAACCCAGACATGGGACAACCGGTATGCAACCAATAAACTGACTCAGTTTAGTATGGAAAATCTGATGAGAAACGAAAGCCCATCACTTTCTTCTACATCAGAATTTGAGCTGAATGAAAAAAATAATATCGGATTCGTACTGGAGTATTCACAAAGTAGAAATTTATCTCTGGCAGAATCTGAAGGGATGATCTTCAATAATGGAGAGCCCGGCGATTCTTTTAATCAGACTCAAAATGTGTGGGGATTCAATCGTAACCTTGGTACAAATGCCTTCTACAAATACTATGATAAAGAGAAGAACCGAATTTTAGACATTAATTTAGGAACCAATTACTCCGGTAATGACAGTGATAATTTAATTGATAAGGAAATCCATAATCAGTCAGGAAGTACAGCTCAGCAGCTGGGAGTGATCAGATCAAATCAGATGCGTAATTATTATCTGAAAATAGATTATACCCAGCCTCTGGGGAAGTCCGGCGGTTCGATAGAATTTGGGGGAAAAACGGAAATCAATAATCATGTTATTCCCAACAGCCTTTATGGATTCAGTATGGATAATCCCACACCGGAATTTTCTAATCTGTCTAAAAATGACATATTTCATTATGAAGACAACCTGAGTTCTTTGTATGCCAACTATAGCAAGACGTTCTTCAAAAAACTGGAAACAAGAATCGGAGTTCGTTATGAATATATTGATTATAAAGTAAGACAGGATGTTGCAGGTATAGAGAGAAAAGATTCATACGGAAAATTCCTTCCTAATTTATTGCTGAAATACAGCTTTTCCGAGAAATTTGACTTAAGCCTTACCTATAACCGAAGTATCTGGAGACCGTGGTATTCTGAGTTTAACCCTTTCCTGGTACCTGAGATTAACGGAACGTACTCCAGAGGAAATCTTTATCTGAATCCTAACCCGAATGACCGGCTTTATATGAAATTCGGAATTCTGAAAAAGTATTTTATTTCTGCAAGATATATGCATACAAATCAGGATTACTGGACAACTTATGTAACGGAAAACGGCAGGACAGTTTCATTACCGGGGAACTTCAACGGAAAAGTTGAGAAGTATTATATCTTTGCCAATTCCAACCAGAACTTCCTGAAAAATAAACTGAATGTGAATGCAGGATTTGGCTGGTACTATATTAATAATAAAGATTTCAATCAAAAGAATGATCTGAAAGGAAAAGACTATATCAGTTATTGGGGAGCTTCCGCAAATGTATCTTATACTAATTTATTCAATAAAAACATTAATGTAAGTGCATGGATGGAATTGGCCAATCAGAATAACGGAAATTCATACGCAAATAACACAAACGTATTCCATAATATTTCGGTCACGAAAATATTTCCGAAAACCCAGATGGAGCTGAGCATGCAGCTGATGAATATCTTTAAAAGACCTTATGGTGATAATACCACTTACAGCCCGGACGGAACTTTCAGAGAGTATTCAAAATGGGACTGGTACGGTGTTTCGCTTACTTTTGTGAAACGTTTCGGAAATCAGAAGGTAAAAGAGAATACAAAAACCGATGTAGAGAAAAACAGCGGAGGCGGAAAGTAA	MKVIIFSIAILAGSLAMAQQTPAPAANDTVKGNAKEIEAVTLVARKPTVESKVDRTVFNVANSAILAGNTTWDVLRMTPLVSIDNNDDVKAEGQTVTVYINDRKSVFTGKELKEYLKTIPADNLMKIEVITSPSSRYETSGSVINIVLKKRDDEGIKGSISLNNRQSTKNSQYTNFNLNYHRKKFTQTLIGSYNSGNYVQKTQTWDNRYATNKLTQFSMENLMRNESPSLSSTSEFELNEKNNIGFVLEYSQSRNLSLAESEGMIFNNGEPGDSFNQTQNVWGFNRNLGTNAFYKYYDKEKNRILDINLGTNYSGNDSDNLIDKEIHNQSGSTAQQLGVIRSNQMRNYYLKIDYTQPLGKSGGSIEFGGKTEINNHVIPNSLYGFSMDNPTPEFSNLSKNDIFHYEDNLSSLYANYSKTFFKKLETRIGVRYEYIDYKVRQDVAGIERKDSYGKFLPNLLLKYSFSEKFDLSLTYNRSIWRPWYSEFNPFLVPEINGTYSRGNLYLNPNPNDRLYMKFGILKKYFISARYMHTNQDYWTTYVTENGRTVSLPGNFNGKVEKYYIFANSNQNFLKNKLNVNAGFGWYYINNKDFNQKNDLKGKDYISYWGASANVSYTNLFNKNINVSAWMELANQNNGNSYANNTNVFHNISVTKIFPKTQMELSMQLMNIFKRPYGDNTTYSPDGTFREYSKWDWYGVSLTFVKRFGNQKVKENTKTDVEKNSGGGK	PGPT0003415_758	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS003_03190	552			hypothetical protein	ATGAAGACAAATATACAGGAGGGGATCATTCTAATTCCGGATTTCAGCGGATTTACCGAATTTGTATTCAATACAAAATTGTATACAGGCGAGTATATTGTAAGGCAGCTGCTGTCTACGCTTATTGATGTGAACGATCAGTACTTTGAAATTTCCGAAATTGAGGGAGATGCTATTTTATTTTACCGCTATGATGACAATCCGTCTTATCAGAGTATTTCAAAGATGCTTTGGAAGATGAGGAGTGCCTTCAACAGGAAGATAAAAGAGCTGAGTAAAAGCCTGAGTACAAAAATTGATCTTGCTCTCAAGTTTATCGTTCATTATGGATCTTTTTCACAATACAATATTGGAAACTTCAGAAAATTATATGGAAAAACAATTGTGGAAGCTCATCAGCTTTTGAAAAACGGAGTGGCAGAACAGCCTTCTTATGCGCTTTTCAGTAATTCTTTTCTGGAAAGCAGTAAAAGTGAGGAGTCTGATTTTAATAAGGAACCGTTTTGCCTGCCTGAAGTAGGCGTTATCCACTACTTTGAAAATCTGAACTAG	MKTNIQEGIILIPDFSGFTEFVFNTKLYTGEYIVRQLLSTLIDVNDQYFEISEIEGDAILFYRYDDNPSYQSISKMLWKMRSAFNRKIKELSKSLSTKIDLALKFIVHYGSFSQYNIGNFRKLYGKTIVEAHQLLKNGVAEQPSYALFSNSFLESSKSEESDFNKEPFCLPEVGVIHYFENLN				NA	NA	NA	NA	NA
BMS003_03191	840			hypothetical protein	ATGTGGAAAGAATCGGTGCTTAGGGATCGGTTCTTTTTTTGTCTTTTTGTTATTCTATTTCCCTTTATTACCTTTGTTTCTTTACCATACATTATGAAAATACAGGTTATCAGCGATCTTCACCGGGAATTTGGGAGCACGGAACTATGTTTTGATCATTCGGATATGGTTGTGCTGGCGGGTGATGTCCATCTGGGAACCAAAGGCATTGAGTGGATAAAAGAAGCAATACCCAATAAACCTGTAATTTATGTTTTGGGTAATCATGAATATTATAAAGGTTCATATCCGAAAACACTCAATAAGATTAGAGATGCAGCGTTAGATTCCCATGTTCACGTGCTGGAAAATTCATATGTAGATATTGAAGGAATTCGTTTTCATGGGGCAACGCTATGGACAGATTTTTCAATCTTCGGGAATCCTGTTCAGTACGGAATGCTTTGCCAGCCCAGAATGAATGACTATAAAATGATCAGGAGAGATCCTTCTTATTCGAAAATGAGAACGCTGGATACCTTTAAAATCCATCAGCTTTCAAAACAGTGGTTACAGGAAAGTCTTGAAGATTCAAAAGGATTTAAAAATATAATTATTACCCATCATGCGCCCAGCATACAATCGGTTCCGGAGCGTTACAAAGAAGATCCTTTAACCGCAGCATATGCTTCTGATCTGGAAGATTTAATTGAAGAATACCAACCATTATACTGGATTCATGGGCATATTCATACTCCATGCAGATATAAGATCGGAAAGACAGAAATCATTTGCAATCCTCATGGTTATATTGACGAGAAATACAATGGTTACGATAAAGAATTGTTGGTTATTGTTTAG	MWKESVLRDRFFFCLFVILFPFITFVSLPYIMKIQVISDLHREFGSTELCFDHSDMVVLAGDVHLGTKGIEWIKEAIPNKPVIYVLGNHEYYKGSYPKTLNKIRDAALDSHVHVLENSYVDIEGIRFHGATLWTDFSIFGNPVQYGMLCQPRMNDYKMIRRDPSYSKMRTLDTFKIHQLSKQWLQESLEDSKGFKNIIITHHAPSIQSVPERYKEDPLTAAYASDLEDLIEEYQPLYWIHGHIHTPCRYKIGKTEIICNPHGYIDEKYNGYDKELLVIV				NA	NA	NA	NA	NA
BMS003_03192	1389	stp		Multidrug resistance protein Stp	ATGGATACAAGGAAGAATTTAATATTAATTTTAGCATCGGTAGGAACATTTGTGGAGGCTTTGGATATTGCCATTATTAATTTAACAATTCCTTCTATTCAGCAGCAGTTTCATATTGGTGCGGAGACTGTTCAGTGGCTGCAGACGCTCTATGTGTTATTTTTTGGAGGGTTTCTGATTATTGGAGGAAAACTTTCAGACCAGATCGGAAGAAAGAGAATGTTTTTACTCGGAGCTCTTATCTTTATGCTTACTTCATTGGGAGCGGGATTGTCCCAAAACTTTCCGGTGCTGGCGATATTCCGGGCATTACAGGGACTGGGTGCTGCGTTGGTAATGCCGTCTGCATTATCCATTGTGACAAATACTTTCAGGGGAGAGCAGGAGAGAAACCGTGCAATAGGAATTTTCAGCTCATTTGCTGCCATTGGTTCGGGAAGTGGTCTTTCAATAGGAGGAATTATCAGTACATACCTAAGCTGGCATTGGGTTTTCCTGATCAACGTTCCTATTCTTTTAATCACTCTGATATTATCGTATTATTATCTGCCGACAGATGAGAAAAATGAAACCGCTCAGAAAACAGATATGATTTCAGGAATATTAATGGTACTGGGATTGTTAAGTCTTACTTACGGAACCCATGAATTGGTTCATATCAAAGAACAGCCTTTTCTGGTAACAGGTTCTTTGGTGCTGGCATTAGTGCTCCTTGTTATAGTATATTACCGTCTGAAATCTGTTGCAGAACCTTTGGTAGATTTACAATTGTTTCAACATAGATCTCTGGTGGTTTCCAATGCGGTATTCTTTACCTTGGGCGCATTTTTTATCGGATTTTTATTTCTTATTTCGCTGATGCTTCAGAAAGACATGGACTACAGTGCTGCTTCTGCGGGATTAATGCTTGTTCCGTTCAGTATTCTGTCTGCTTTGACAGCTAAATTCATTCTTCCCTACATATCAAAACGTCTGAGCTCTTCTCAAATGGGTGCTTTAGGATGGTCTTTCATGCTGACTGGGGGATTGCTGCTGTTGATTTCAGTTTATACAGGACATCCGCTAATAATGGTTTTGCTGGGGGCTGCCTGTATCTCCGGAGTAGGAATGACATTTTGTTTTACTGCGCTTTCAGTAATGGGAATTCAGGATGTTGAACCGGAAAATTACGGTCTGGCATCAAGTTTAAGCTCTACAAGTTACTTCCTGGGAGCGGGAATTGGGTTGTCATTCATGACTTTAATGAGCCAGATTTTTCCATCGGATCTTTCTGTAGGAAGCCTGAATCTGATTATTTTGATCAGTTACGCTCTTTTAGCACTCGGAATGTTATTCTATTTTATATTGAACAGTATAAAAGTGAAGAAGTCAGAAGTTGCCGTTTCATAA	MDTRKNLILILASVGTFVEALDIAIINLTIPSIQQQFHIGAETVQWLQTLYVLFFGGFLIIGGKLSDQIGRKRMFLLGALIFMLTSLGAGLSQNFPVLAIFRALQGLGAALVMPSALSIVTNTFRGEQERNRAIGIFSSFAAIGSGSGLSIGGIISTYLSWHWVFLINVPILLITLILSYYYLPTDEKNETAQKTDMISGILMVLGLLSLTYGTHELVHIKEQPFLVTGSLVLALVLLVIVYYRLKSVAEPLVDLQLFQHRSLVVSNAVFFTLGAFFIGFLFLISLMLQKDMDYSAASAGLMLVPFSILSALTAKFILPYISKRLSSSQMGALGWSFMLTGGLLLLISVYTGHPLIMVLLGAACISGVGMTFCFTALSVMGIQDVEPENYGLASSLSSTSYFLGAGIGLSFMTLMSQIFPSDLSVGSLNLIILISYALLALGMLFYFILNSIKVKKSEVAVS				NA	NA	NA	NA	NA
BMS003_03193	471	lrp_2	COG1522	Leucine-responsive regulatory protein	ATGGCAACTGAAAATTATATTCCTGATGAAAAAGACTTATCTATCCTGCGTCTTCTTCAGAAAGATGCAAAGATGAGTGTCCGAGATATTTCGGCAAGAATCAACCTGAGCCCTACCCCTACTCACGAACGCATCAAACGTATGGAAAAACAGGGAATCATTAAAGAGTATACGGCAGTGGTAGACCGCAAAAAGGTGAACAAAGGAATGATGGTGATCTGTATGATTGCTTTAAATGTTCACAATAAAAAAACAGCGGGAAAATTCATCGAGGAAGTCGGAAAACTTAAGGAAGTGGTAGAATTTTATAATATCAGCGGGGATTTTGATTTTATGCTCAAGATCCTTGCTCCCAATATGGATGAGTTCCATGAGTTTTTTGTGAATAAGCTATCAGAAATTGAGGGTATTGGGCAGACTAAGAGTATTTTTGTGATGAACAGCATTAAGGAAAGCGCACAGATTGTTTAA	MATENYIPDEKDLSILRLLQKDAKMSVRDISARINLSPTPTHERIKRMEKQGIIKEYTAVVDRKKVNKGMMVICMIALNVHNKKTAGKFIEEVGKLKEVVEFYNISGDFDFMLKILAPNMDEFHEFFVNKLSEIEGIGQTKSIFVMNSIKESAQIV				NA	NA	NA	NA	NA
BMS003_03194	516			hypothetical protein	ATGAAAAAGATAAGAAATATAAGTATAGCAATAGCATTGGTTATTTTTAACTCATTCTTTGCCCAGGTTGCTATTGGCAAGCAGACGATAGATGGAAACAGCACAATATTGGATTTTGACAATATATCCGGAAATACAAGAGGTTTAATTCTACCCGCTACATCCGGGATTCCTTCAGGATTTCCAGATAACGGAACATTTATCTTTGATGCCACAGATAACAAAGTAAAAGTCTATGAAAATGATACCTGGAAATCTTTATCAGACGCTGGTAATGCAAGCGCTGTGATTGCTAATAATTCTAAAGAAACAGGAAAAGGAGTGGTTATAGGAGAGGCAACAAGTACTGCTGATGGGGTGCTGGTTCTGGAATCTCAGAACAAAGCTATGATTCTTCCCCGAATAGCTATGCCACATCTCAATGTAAAAAATCCTTATCCGGGCATGATGTGCTATGATACAGTAAGCAAAACACTGGCGGTATTTGACGGATCAGTCTGGAATTACTGGAAATAA	MKKIRNISIAIALVIFNSFFAQVAIGKQTIDGNSTILDFDNISGNTRGLILPATSGIPSGFPDNGTFIFDATDNKVKVYENDTWKSLSDAGNASAVIANNSKETGKGVVIGEATSTADGVLVLESQNKAMILPRIAMPHLNVKNPYPGMMCYDTVSKTLAVFDGSVWNYWK				NA	NA	NA	NA	NA
BMS003_03195	1059			hypothetical protein	ATGCGTATGAATAAATTATTCTTTTTAAATATTAATAAAAAAATCATTTTTTTATTAATGCTTGTTTTCAGCACTTTAGCCTACGCTCAGTGCATTCCTTACACGGGGCAGGCGATGACGAGCGGAAATACTTATTGTCTTAACGGAAACCTTAGTATAAGTACCAATATCAGTATCCCCAACGGAGCAACGCTTAGTATTCAATCCGGACAACTGCAGTCGAATAGCATTCAGGTAGATGGAATTTTGGAAATTGGTGATGGAGCAAGTGTTAAATCTACAGGGACAGTAAAAGTGGGGACTTTCGGATCTCAGAAAAATTCAAAAATAAAATTAGGAGCCAAATCCTTTTTATCTCTTGTAGGATCTGTTATTCAGGAAGATCCTACCTTTGGAGGATTTTATCCCGGAACCACATCAGTAATAGAATTGGGAACCAATAGTGTTGTAGAAATATGCGGAACATTTACCCAGCAGTCTACCACTTATCCCTCTGTGGAATATATTGGAATTCCCACCGGTAAAGCATACTGTATTGCAAAAGCAGATGTAAGTGGTGGAGGTGGAGCTTCCATTATCAGTGACGACAGTCAGATTGTGGCTATTGCTATGGGATCTGTAACAGGGTTAGGAATGGGAAGTTCAAGCTTCTGTGGTCCCAATGCCACGAAAGCTATGTGCCCTGCTTTATGGCCGGATGGATTATCGGAAGATAAAACAAGCTGTGGAAATGCTCCGGTGATCATTGATGAGATTGATGGATTTTGTACAAAACCCGGAATTTCCGGTACGCCTGACGGATATACCAAATTTGGAATTACTGTACAGGAGAAAAGTACTTCCTGGCCGGAAAATATTCCTAATGGATTTTTAGCTATGGAATCAAAAAATAAAGGTTTTGTTATTACCAGAGTTCAGCATGTAAGCCAGGCACCTCAGCCCGGAGATGCCATTGCAGAACCGAAAGAAGGAATGCTTCTGTACGATATTCAGGATAAATGTATAAAGCTTTACAACGGAACTGAATGGAACTGTATACAAAGAACCTGTAATGATTAA	MRMNKLFFLNINKKIIFLLMLVFSTLAYAQCIPYTGQAMTSGNTYCLNGNLSISTNISIPNGATLSIQSGQLQSNSIQVDGILEIGDGASVKSTGTVKVGTFGSQKNSKIKLGAKSFLSLVGSVIQEDPTFGGFYPGTTSVIELGTNSVVEICGTFTQQSTTYPSVEYIGIPTGKAYCIAKADVSGGGGASIISDDSQIVAIAMGSVTGLGMGSSSFCGPNATKAMCPALWPDGLSEDKTSCGNAPVIIDEIDGFCTKPGISGTPDGYTKFGITVQEKSTSWPENIPNGFLAMESKNKGFVITRVQHVSQAPQPGDAIAEPKEGMLLYDIQDKCIKLYNGTEWNCIQRTCND				NA	NA	NA	NA	NA
BMS003_03196	1386	mnmE	COG0486	tRNA modification GTPase MnmE	ATGAATAACGATACGATATGTGCGCTGGCTACCGCCAATGGAATAGGTGCTTTAGGCATCATCCGTGTTTCAGGAAATGAAGCTTTATCTGTAGTTCAGAAAAGTTTTCCGGCAAAAAAACTGGAAAAACAGAAATCCCATACTATTCATTACGGTTATTTTATGGATGAAGAGGAGGCTATTGATGAAGTAATGCTTTCCATTTTCCTGGCTCCGAAAAGTTTCACCACTGAGAATTCTGTGGAGATTGCTTTTCACGGTTCTCCGCATATCGGAAAACGTATTCTTGAAACCCTGATCAAAAACGGGGCAAGAATGGCCAAAGCGGGTGAGTTTACACTCCGTGCTTTTATCAATGGAAGAATTGATCTTTCCCAGGCAGAAGCTATTGCTGATGTCATTGCTTCAGAAAACGAAGCTTCAAGAAAAGTCGCCATCAACCAACTGAAAGGAGGAATCACTAATGAAATTTCTTTTTTAAGAACTGATCTTCTGAATTTTGTTTCTTTAATTGAACTTGAGCTTGATTTTGCAGAAGAAGACGTGGAATTTGCAGACAGAAGTGCTTTAAGCGGATTATTAGATAAAATTGAAGTTAAATTAAATTCCCTGATTGAAAGTTTCCAATACGGAAATGCCATTAAAAATGGAACTGCCGTTGCCATCATCGGAAAGCCCAATGCCGGAAAATCTACTTTACTGAATTCTCTTCTGAAGGAAGAAAGAGCCATTGTGAGTAATATTGCCGGAACAACGAGAGACACCATTGAGGAAGTTCTTCATATTAAAGGCCATGCCTTCCGATTAATTGATACTGCGGGACTTCGTGAAACCGTGGACGAAATTGAAGCTATAGGGGTAAAAAAAGCTAAAGAAAAGGTAGAAAACGCCAATATTCTTGTATATCTGGCTGATGCTGCCACTGAAGATTTTTCTGAGGATATTGAAATGATTCAGTCTCTATTGAGGGAAGACCTGAAGCTGATTATCTGTGCCACAAAAATTGACGAAGTTATTCCTACAAAATATGAAACCGTAGAGGATATTTTCAGAAGTGCTGTTGCTCACGAGTTTGATTTCATTAAAATATCAGCTGTTGAAAATCAAAACATCCAGGATCTTAAAAATGAGCTTTCATCCTATGTGGAACATTTAAAAACCGAAGAAAATAATGTTGTCATCACCAACCAACGACACTTTGAAGCCTTAAGAAAATCAATGGATGCCGTTCATAAAGTGAAAGAAGCTATTTCTTTCCAGATCTCTACAGAATTACTGGCTTACGAACTTAGAAACGCACTGGAACATCTTGGAGAAATCTCCGGTGAGGTAACAAATGATGAAGTACTGGGGAATATTTTTTCGAAGTTTTGTATTGGGAAATAA	MNNDTICALATANGIGALGIIRVSGNEALSVVQKSFPAKKLEKQKSHTIHYGYFMDEEEAIDEVMLSIFLAPKSFTTENSVEIAFHGSPHIGKRILETLIKNGARMAKAGEFTLRAFINGRIDLSQAEAIADVIASENEASRKVAINQLKGGITNEISFLRTDLLNFVSLIELELDFAEEDVEFADRSALSGLLDKIEVKLNSLIESFQYGNAIKNGTAVAIIGKPNAGKSTLLNSLLKEERAIVSNIAGTTRDTIEEVLHIKGHAFRLIDTAGLRETVDEIEAIGVKKAKEKVENANILVYLADAATEDFSEDIEMIQSLLREDLKLIICATKIDEVIPTKYETVEDIFRSAVAHEFDFIKISAVENQNIQDLKNELSSYVEHLKTEENNVVITNQRHFEALRKSMDAVHKVKEAISFQISTELLAYELRNALEHLGEISGEVTNDEVLGNIFSKFCIGK				NA	NA	NA	NA	NA
BMS003_03197	372			hypothetical protein	ATGACGATAAAAGAAGCTTCCGGTATTATAGGATGTGCCCGAACTACAATCTATGATATGATCAAAAAAGGAAAGTTATCTTCTATTAATTTTAGTCAGAGGAAAACCAGAGTTTTTAAGGAAGAAATTGAAAAGTTATTATATCAAAATAAAACAGAAATAAAACCTTTTATATTTAAAGATGAAGATACAAAAATAAAAAACTGTTGGACAATAAATGAGATCATTAACCTATATAAAATCTCTGCCAGTGCCCTGTACAATAAATTGAAAATATATAATATAATTAAAATAAAGAAGGGAAAATCTGTTTATGTATCTAAAGAAATTATACGTAGGTTATTCAATACAGTTATCAAAAATAATAATTAA	MTIKEASGIIGCARTTIYDMIKKGKLSSINFSQRKTRVFKEEIEKLLYQNKTEIKPFIFKDEDTKIKNCWTINEIINLYKISASALYNKLKIYNIIKIKKGKSVYVSKEIIRRLFNTVIKNNN				NA	NA	NA	NA	NA
BMS003_03198	282			hypothetical protein	ATGACACTTATTAAATTACGTAAAAAGCCTGCAGCTAAAAATACTGTTAGACTTTATTTAGATGCCTATCCTCCTATCTATGATCCATTAACTGGAAAATCGCAGCGAAAATTTTATTTAAAACTTTTTCTGTATCGCATGCCTAAATCGCAACTTGAAAAAAAACATAATGACCAAACACTGTTCCTAGCAGAAAATTTAAGAGTAAAAATGATGCTTGAAGTATATAATAATAGGATTAGCAATAAACTACGAATGAGTATATTATCAGGAAATTACTAA	MTLIKLRKKPAAKNTVRLYLDAYPPIYDPLTGKSQRKFYLKLFLYRMPKSQLEKKHNDQTLFLAENLRVKMMLEVYNNRISNKLRMSILSGNY				NA	NA	NA	NA	NA
BMS003_03199	381			hypothetical protein	ATGAGTTCTAACATTGAGATCATAAGAATATGCCAATATTGTGGCAAGGAATTTATCGCAAAAACAACAGTCACAAAGTACTGCAGCCATACCTGTAATAAAAAAGCATATAAAGCTGAACTAAAAACAAAAAAAATAGAAAAAAGTAACATCAACACTCAACTTTTTAAAGAATCCTCTATGGATATTATAAATAGCTCTGCTTTTCTAACCGTTAAAGAATCAGCCTGCTTATTGAAATGTAGTAAGCAAATGATATATGATCTAGTTAATTCTGGCCGTTTAAAATCAATAAAACTATCTGTAAGAAATACCAGAATTAGTAGAATAGAAATTGATAATCTTTTTAAGATTAGTATTCGAAAAGTCAAAGAGAATTAG	MSSNIEIIRICQYCGKEFIAKTTVTKYCSHTCNKKAYKAELKTKKIEKSNINTQLFKESSMDIINSSAFLTVKESACLLKCSKQMIYDLVNSGRLKSIKLSVRNTRISRIEIDNLFKISIRKVKEN				NA	NA	NA	NA	NA
BMS003_03200	1107	xerC_7		Tyrosine recombinase XerC	ATGACAAGGGTAAAACTAAGACAAAAGCCCATAAGTAATGGACAAGAATCTCATTATTTGGATATCTATCCTCCCATAGCACATCCAATAACGGGAGAACTTAAGAGAAAGTATTTTCTACATTTACACACCTATGTGAATCCTAAAAATAATGTAGAAAAACTACATAATATTGAAACTTTGAAATTGGTGGAATATAGAAAAGCCGAACGTCTAATAGATATTCAAAATAAAAACTTTGATTTTTTAATCAAAAAAAGGATATCAGATTTTACGGAATTCTTTCAAGCTGAAGCAAACAAAAGACCAGATTCATACAATTGGCAAATGGCTGTACGGTATTTTCAGAATTTTTGCGGAAAAAATTTGCCTTTTATTGAGCTCAACTATTCTACATGTGAACAGTTTAGAAATTTTCTATTATCTAATCCATCTATTGGCAGATACAAAAGAAAAATCAGCCTTAATACCGCATCATCTTATTTTGACAAATTTAGAAATACCATTAAGAGCGCTTTTATTAATAAATATATTTTAACAGATTTCAGTACGGTTGTCAAAGGAATAAAATTAGAGGAAACTCATCGCTGTTTCCTGTTCTTACATGAGCTACAAAGTATGGCCAACGCAAAATGCGATTCACAATTAGTTAAGAAAGCTGGCTTATTTTCCGCATTAACCGGTTTTCGTTTTTCCGATATTAAAAAACTTGTATGGGGTGACATACAAGGGTCTAAAGGCGGTTTTTACATTATATACAAACAAAGTAAAACTGGAAATGCAGAATACTACCCGATATCAGATAAGACATTAAAAATATTGGGTCTTCCAAAAGATAACAATGAAAAAGTTTTTGAAGGAATTAAGTATGATGATGTTATTAAATTTCTTAAACCATGGCTAAAGAATGCCGGCATCAACAAATACTTTACGTTTCATGGCTTTCGACATACATTTGCTACATTACAGCTTGCATCAGGCACATCTATTTATACAATTTCTAAACTGTTGGGTCATAGAAACCTTAAGACAACAGAAATTTATACCAAAATAATAGATTCCGTTGCCAGGGAAGCGTCATTAAAAATTAAGTTAGATTTTGATTAA	MTRVKLRQKPISNGQESHYLDIYPPIAHPITGELKRKYFLHLHTYVNPKNNVEKLHNIETLKLVEYRKAERLIDIQNKNFDFLIKKRISDFTEFFQAEANKRPDSYNWQMAVRYFQNFCGKNLPFIELNYSTCEQFRNFLLSNPSIGRYKRKISLNTASSYFDKFRNTIKSAFINKYILTDFSTVVKGIKLEETHRCFLFLHELQSMANAKCDSQLVKKAGLFSALTGFRFSDIKKLVWGDIQGSKGGFYIIYKQSKTGNAEYYPISDKTLKILGLPKDNNEKVFEGIKYDDVIKFLKPWLKNAGINKYFTFHGFRHTFATLQLASGTSIYTISKLLGHRNLKTTEIYTKIIDSVAREASLKIKLDFD				NA	NA	NA	NA	NA
BMS003_03201	1167			hypothetical protein	ATGATCAGTCCGGCAGAAATTAAAAAACAGGCGTTGAAATGGTGGAAGCCCTTGCTGCAAAGCCATATTCTGGAAGAACTCTTTTTCCCGAAAATAATAGACCGTATCGGAAAAGTAAAATCGGGTCACATTACCGAACGGTTTGAAGTCCTGCAAAAGGAAATAGAAGAATTATACCGCTATTCAAAAAATCAAACCGGTAAAGGCTACCTCGTGCAGACCGCCGGTAGGAATTTCAGGCGGACAGGCAGCCATGATTTGCCGGATAACGTAGTTTTTGAAACGATTGATGATTATCTCTATGTTATTGGCTGTGCAAATGAATGGCGACTATTTATAGCCAATTATAACACCATTATCGGTACTATTCCAGGATTGAAAGACTGGACCTTGAACAATTGCTTATGGTTAACAAAAGGAGAAATCAGCTGGAATGATGTGCTGAAGGTTTGCCGATATTTTATAGAGACCCCGCGGCCCAATCTTTACCTGCGTCAGCTGCCCATCGAGATCCATACCAAATTCATTGAAGAAAACAATGCGTTGATTCAATCCTTACTTGATTTCCTGATTCCTGATCATGTGCGTTCAGCCCAACAAAAACGTTTTGTCGAACGGTTCTTTTTACGGTACGATGAGCCATTGGTCAGGCTCCGCTTTCTGGATGAAAACCCACATCCGGATTTCAGATTCAGGGACATCAGCATTCCACTATCCGATTTCGAAGCCCTTGAACTTCCGGTGGAAAATATCCTGATTGCCGAAAATAAAATGAATTTTTTAACCTTACCGCTATTAGAATCCACCGTTGCCATCTGGAGTGGAGGTGGCTTTAATATTTCTTTTCTCAAAAATGCGGCCTGGCTGTCGGACAAAAAAATACGGTATTGGGGCGATATCGATGAACATGGCTTTCAGATTCTGCATCAGCTACGATCATACCATCCGCATACCCAAAGCGTCATGATGGACCGGACGACTTTTGAAACTTTTCAAAATTATGCAGTAAGTGGCGCAAGAAATAAATCCCAAAATCTAAACCTCTTGAGCAAAGAGGAAAACGATCTTTTCCAGTATTTAAAGGCTTTGGAAAAAAACAGGCTGGAACAGGAGAAAATTCCGCAGATGTATGTGGATAGATGTTTGAAAAATAGGATCGAATCATGA	MISPAEIKKQALKWWKPLLQSHILEELFFPKIIDRIGKVKSGHITERFEVLQKEIEELYRYSKNQTGKGYLVQTAGRNFRRTGSHDLPDNVVFETIDDYLYVIGCANEWRLFIANYNTIIGTIPGLKDWTLNNCLWLTKGEISWNDVLKVCRYFIETPRPNLYLRQLPIEIHTKFIEENNALIQSLLDFLIPDHVRSAQQKRFVERFFLRYDEPLVRLRFLDENPHPDFRFRDISIPLSDFEALELPVENILIAENKMNFLTLPLLESTVAIWSGGGFNISFLKNAAWLSDKKIRYWGDIDEHGFQILHQLRSYHPHTQSVMMDRTTFETFQNYAVSGARNKSQNLNLLSKEENDLFQYLKALEKNRLEQEKIPQMYVDRCLKNRIES				NA	NA	NA	NA	NA
BMS003_03202	3405	smc		Chromosome partition protein Smc	ATGGAAGAACTATTTGATACCCATCCTGAAGAACTCAATCTGGCCGGTTACCGGCTTCAATACCTGGAAGTACTCAACTGGGGGACCTTTAACCAGGTGCGCTGGCAGATCCAGCCCAATGGACAAAATGCCCTTTTGACAGGCGATATCGGTTCAGGAAAATCTACGCTGGTGGATGCCCTGACCTGCCTGCTTGTGCCGCACCATAAGATTATCTTTAATAAAGCCGCCGGTGCCGAAGGAAAAGAGCGCAACCTGCTGAGTTACGTTAGAGGAGAATTTAAAAAAGAAAAGGAAGAAATCACTAAAACCGCAAAGAAGGTTTACCTCCGTCCGGATGATCATACCTATACCGTTATTATCGGAAATTTTTATAACAAGGGCTATAATGAACACATTTGCCTGGCCCAATTTTTCTGGATCGGCAAAGAGGGAAAAGTAGAAAAGTTGCTGATCATCGGCACGATTCCTTTAACTATTAAAGATCATTTTCAGCATTTCGGCGATATCACTGAGTTGCGAAAGAACCTGCGTAATACGCCGGGCATACAATTATTCAATGATAATTTCTCGCAATATAGCGAACATTTCCGCAGGCTTTTCGGCATGAACAGCGACAAAGCGATCGACCTGTTTTATCAGACTGTTTCCATGAAGTCCGTCAGCAGCCTGACCGATTTTGTCCGCGAACAGATGCTGGAAAAAACCGATGTCAAAGAACAGATTGATGCCTTGCTCAAACGTTTTGATGACCTTAATAAGGCCCATGCCGCCGTAGTGCATACCAGGGAACAATACCAGATACTAAAGCCTTTGGCAGAGGCCAGTGAAACCTACGAAACGGTTACCCGCGAAATTGAAGATATAGAAGCCATGCTGGAAGTGATGCCGGTCTGGTTTGCCGAAAGGAAATGGGAATTGCTGGAACAGGCCATTGCAGATGCCGGTCAGGAACTCTCAACAGCAGAACAGCAGCTACACGCCATCACCCAGGAAATTGAAGCTTGGGAGGAGCGGCGGCAAACTATTGTACAGGACATTGCTAGCAACGGAGGAACACGGATCGAACAAATTGCCGGAGAAATAAAACGGCATGAGCAAGACAAAGAAGTCAAGCAAAAGGAATTCGATGATTATGAGCGTCTTGCCTTGCAGACCGGGTTAGCAAGTATAAAGCAGGAAAGTAATTTTCAGAACAACATCAAGCGGGCTAACGAATCAATGGAGAAATGTGATCAGATAGAAGAAAAACTTCGGGAACAACGCGATAACGAGGTCAGTGAACTGCGTAAACAGGAAGCGGAATATCAGGCAGAGCGAAAAGAACTGCAATCACTCAAAGAACGAAAAACCCAGATCCCGGCATGGCTGATTGCCTTTCGGTCACAACTTTGTGCCGATTTGCGGATTGACGAGGAAGATTTGCCTTTCGCTGGGGAATTACTGAAAGTGCATGAACAGGAAACCGAATGGGAAGGCGCAATCGAAAAACTGCTCCGTGATGCAGGCATCAGCTTACTCATTCCCGGAAAGCATTACCGGAGTGTCAGCCATTACGTCAATAGCAATCCGTTAAAAGGTGCTGATGGAAGAGGTATCAAGCTTACTTATTTGGAAGCAGATCTGAATGGTAACACTCGACTTCTAAAAGAATTGGATGAAGACAGCATCGCTTATAAAATAAATATTAAACCTGAAACGCCTTTTTACGATTGGCTGGAAAATTACCTGCAACGCAGCTTTGGCGATTATATCTGTACTGATGTTGACGGTTTGCCACATGTTCCTTTTGGCATCACCCGGCAAGGGCTGATCAAGAGCGGGCGCATCCGGCATACTAAAGACGACCGCAAACGCATTGATGACCGACGAAATTATGTATTGGGCTGGAGCAATGCCGAAAAAATAAAAGCACTGGAAAGTTCGGTGGATAAGCTCGAACGGACTATTCATGAATTAAAAACCAGGCTAAAGGATATTGAAGAGAAAGGACAAAAAAACAGCGAACAGAAGCAACTGCTGGGGCTTTTGCTTTACGTAAAAGATTTTTCCCGCATTAACTGGCAGTACCATGTCTCCAAAATCTATGAACTCGAACAGGAGCGCAATCAATTGCTGAATAACAATGATAAGCTTGCCCAGCTGCAACGCAACAAAAGTGAAGTAGATCAGCAGATTTCGGATGGAAAGTCCAGACAAAACCAGCTCACGGAAGACATTGGTGGTTTCAAAACAAAAATTCAAGGATATAGAGATCAGCAGGAACATGCATTGCGCCAAAAAGAACAATTAGCACTTCACCTGAAAGAAAAGTGGTATCCGCTGATTGACGAAAAACTGAGTAATGTAAAAATCAACCTCAGGGGCATAGAAAATAGGCAGGATGAATTCCGCAAACAATTTCAGGGTGAAAATGGTGAATTGAAAAGGCTTCGCGGACGTCAGGCGGGTTACCGTACCCACATTGAGAAAAAGATGCGGGAAATTAAAGAACATTCCCGGGCCGAATACAGTGAAGTTACCGATAGCATTGATGCCCGTGCAGAATACATTAAAAAGTTCAGGCAACTGGAATCTGAAGACCTGAAACGGCACGAAGAACGCTTCAAGGAGGAATTGAATAAAAACGTGATCAACAGCATTGCCGTGTTCGACAGCCAATTGCAGAAGCACGAAAAAGACATCAAACAGAAAATCCGGATCATTAACGAACATCTTTCGGAAATTGTGTATAACGCGGTGCAGGATACCTACATCACCATTTTAATGGATGCCACCCCGAATAAAGAAGTACGGCTTTTCAGGGAAGAACTGAAAAAATGTTATATCCATTCCTTCAGCAGCCATAATGATTTATACACCGAGGAAAAATACGAACAGGTGAAAAGGATCTTGGACCGCTTTGCCAGCATGGAAAATGCAGACCGCGACTGGACTTCAACCGTTACGGATGTGCGCCAGTGGTTCGAGTTCAACGCCAGCGAACGTTACCGCTCCGATGGTACGGAAAAAGAATTTTATGAAGGTTCAGGCGGAAAAAGCGGCGGGCAGAAGGAAAAACTGGCCTACACCATCCTGGCCAGTGCTTTGGCCTATCAGTTTGGGCTGCAGTTCGGAGAGCGCAAAAGCAAAAGTTTCCGTTTTGTGGTGATTGATGAAGCCTTCGGCAGAGGCAGCGACGAAAGTACCCGTTACGGACTGGAGTTGTTTAAAAAATTAAATCTCCAACTGCTGATCGTTACGCCACTGCAGAAAATCCATGTAATAGAAGGACATGTCAATTCCTTTCACTTTGTGAGCAACCGCGAAGGCAATAACTCGCAGGTGAGTAATTTCACCAAAGAAGAATATGAAAGCGAACGCGATAAACATAACGGAATTTTCAATAACACACCCGAAATATGA	MEELFDTHPEELNLAGYRLQYLEVLNWGTFNQVRWQIQPNGQNALLTGDIGSGKSTLVDALTCLLVPHHKIIFNKAAGAEGKERNLLSYVRGEFKKEKEEITKTAKKVYLRPDDHTYTVIIGNFYNKGYNEHICLAQFFWIGKEGKVEKLLIIGTIPLTIKDHFQHFGDITELRKNLRNTPGIQLFNDNFSQYSEHFRRLFGMNSDKAIDLFYQTVSMKSVSSLTDFVREQMLEKTDVKEQIDALLKRFDDLNKAHAAVVHTREQYQILKPLAEASETYETVTREIEDIEAMLEVMPVWFAERKWELLEQAIADAGQELSTAEQQLHAITQEIEAWEERRQTIVQDIASNGGTRIEQIAGEIKRHEQDKEVKQKEFDDYERLALQTGLASIKQESNFQNNIKRANESMEKCDQIEEKLREQRDNEVSELRKQEAEYQAERKELQSLKERKTQIPAWLIAFRSQLCADLRIDEEDLPFAGELLKVHEQETEWEGAIEKLLRDAGISLLIPGKHYRSVSHYVNSNPLKGADGRGIKLTYLEADLNGNTRLLKELDEDSIAYKINIKPETPFYDWLENYLQRSFGDYICTDVDGLPHVPFGITRQGLIKSGRIRHTKDDRKRIDDRRNYVLGWSNAEKIKALESSVDKLERTIHELKTRLKDIEEKGQKNSEQKQLLGLLLYVKDFSRINWQYHVSKIYELEQERNQLLNNNDKLAQLQRNKSEVDQQISDGKSRQNQLTEDIGGFKTKIQGYRDQQEHALRQKEQLALHLKEKWYPLIDEKLSNVKINLRGIENRQDEFRKQFQGENGELKRLRGRQAGYRTHIEKKMREIKEHSRAEYSEVTDSIDARAEYIKKFRQLESEDLKRHEERFKEELNKNVINSIAVFDSQLQKHEKDIKQKIRIINEHLSEIVYNAVQDTYITILMDATPNKEVRLFREELKKCYIHSFSSHNDLYTEEKYEQVKRILDRFASMENADRDWTSTVTDVRQWFEFNASERYRSDGTEKEFYEGSGGKSGGQKEKLAYTILASALAYQFGLQFGERKSKSFRFVVIDEAFGRGSDESTRYGLELFKKLNLQLLIVTPLQKIHVIEGHVNSFHFVSNREGNNSQVSNFTKEEYESERDKHNGIFNNTPEI				NA	NA	NA	NA	NA
BMS003_03203	570			hypothetical protein	ATGGAATACCATTACTCTGCAAGCCTCATTGCTTTATTGAAAGGAATTGTATACAGCCACCAGAAGGAAACCTGGGAAAACCTGCTGCAATATGAACCCGATGTCAAAAAATATTTTATCCCGATCGGGCTGGAGCTCTTTCTGGATAAGAGCGAAGGCTACGCCTTTCTCCGCCAGAAGGAATGGGAAGAAGACGAAAGACCTTTGCCGAGAATAGCTGAAAAACGATCGCTCAATTTCATGACTTCTTTAGTCTGTATTGTCCTGAGAAAATTCTTACTCGAACACGATGCACAGGGTGGCTCGGTGCGCTCCATCATCGGCGAACACGAAATCATCAACCGGGTGAAAGTATTCTTGCCCAATGTAAATGATGAAGCCAAACAACAGGAAAAGATCAACACCGCTATCAACCGCGTACTCGACATCGGATTCCTCAGAAAACTGGAAGACCAGGAAAAAAACTACGAAATACACCGGATCATCAAAGGCTTTGTAAATGCCGATGTGATCGATGAAACCCTGCAGAAGTTCAGGAACTATGCTGCTGAAAACCAACCTAAAGATTAA	MEYHYSASLIALLKGIVYSHQKETWENLLQYEPDVKKYFIPIGLELFLDKSEGYAFLRQKEWEEDERPLPRIAEKRSLNFMTSLVCIVLRKFLLEHDAQGGSVRSIIGEHEIINRVKVFLPNVNDEAKQQEKINTAINRVLDIGFLRKLEDQEKNYEIHRIIKGFVNADVIDETLQKFRNYAAENQPKD				NA	NA	NA	NA	NA
BMS003_03204	1425			putative protein/MSMEI_1241	ATGAACTACGAAAAAGCGCTCTCCCTCTACAAAAACGACAAAACCCTCCAGCTACTGCGGGCGGAACATTTCCCGTTACTGGTGAGCTTTTTCCATTTGGTTTTTAAGCAGCAGGACCGGATTTCATACCTGCAAACCGAATTGCAGAGCATTTTGGGCGATTATCTCTTTTCCCTCCAAAGGCAGGGCATTGAAGATTACCAGAAAGCACCTGTAGATTATTTGCAGAAATGGGCCGAGCAGGGATATCTGCGCCGCTATTACGAAAGAGCCGACGAACCCGTGTACGAACTTTCGCCGGCGACGGAAAATGCACTCAAATGGCTCGAAGACCTGAACAAACAACAATTTGTAGGCACCCACAGCCGCCTCATCCAGTTTTTCCGTTTGCTCCAGCAGATCGTGAACACTACCTCAGGACCTTACGAACGCATCCAGCAGCTGCAGGAAGAGCGTCGGAAGATTGATCAGGAAATCGAACAGATCCGCCAGGGAAATTTCGAGCAGCCTTCCGATACCCAGCTCAAGGAAAACTACTTTCTGGCCGAAGAAACCGCCAAGCGTTTGCTGTCGGATTTCCGGCAGGTGGAAGAAAATTTCAGGGAACTCGATAGCCAGACCCGCCAGACCATCATCAAAAGCAATCTTGCCAAAGCAGATCTACTCGATAATGTTTTTCAGCAGCAGGATTTCCTCTGGAATACCGATCAAGGAAAAAGTTTTAAGGCTTTCTGGGAATTTCTGATGAGCGAGCAGATGCAGGAAGAACTCGAAGAATTGCTGGATAAGATCAATGCCATCCCGGCGATTGTCGAAATCAAAAAAGAACAGACCGTAGATCGTATCAAAACCAACCTGGTGGATGCCGGTGATAAAGTAAACCGAAGCAACGACGGCCTGATTGAGCAGCTCCGGAAATTTGTGGAACAAAAAAACCTGTCCGAAAGCCGTCATATCCTCCAAAGCATCGAAGAAATGGAAAGCTTGCTGCTGGAGCACAAAGAAACGCTTGATCAGCAAGCCGCATGGATGGAAATTGATGAGGTTTTTAAACCCTCCTTTACCATAGACCGCCCTCTTTTCAATCCGCCGGTTAAAGTTACCTTTGCAGCTACCGAAATTGCCGATGGCGTGGCTACGGCTGATACCGACCTACTGTTTGAACAGTTTTACGTGGATGTGGAAGTCTTACGAAATCATGTGAAAACCCTTTTGAAAAGCCGTTCACAGGTTGCGCTTTCCGAGTTGCTCAACCATTACAAACCCACCAAAGGCGTTGCTGAAATATTGGGCTATATGCAAATCGCAACTAACGAAGGTAAACATTTCGTCAACCGTGATCAATTCGAATATCACATCATCGAAAACAAATCCACCGGAAAAACCTATCGCATGCAAACCCCTATCATCATCTTTAACCGATAA	MNYEKALSLYKNDKTLQLLRAEHFPLLVSFFHLVFKQQDRISYLQTELQSILGDYLFSLQRQGIEDYQKAPVDYLQKWAEQGYLRRYYERADEPVYELSPATENALKWLEDLNKQQFVGTHSRLIQFFRLLQQIVNTTSGPYERIQQLQEERRKIDQEIEQIRQGNFEQPSDTQLKENYFLAEETAKRLLSDFRQVEENFRELDSQTRQTIIKSNLAKADLLDNVFQQQDFLWNTDQGKSFKAFWEFLMSEQMQEELEELLDKINAIPAIVEIKKEQTVDRIKTNLVDAGDKVNRSNDGLIEQLRKFVEQKNLSESRHILQSIEEMESLLLEHKETLDQQAAWMEIDEVFKPSFTIDRPLFNPPVKVTFAATEIADGVATADTDLLFEQFYVDVEVLRNHVKTLLKSRSQVALSELLNHYKPTKGVAEILGYMQIATNEGKHFVNRDQFEYHIIENKSTGKTYRMQTPIIIFNR				NA	NA	NA	NA	NA
BMS003_03205	1854	pcrA_1		ATP-dependent DNA helicase PcrA	ATGAAGCCAATCAAATCTAAAGAATGGATCCCAACAGATGGAATGGATCTTGAAGAAAACGCGTTTAAAGTTGCAACCACTATAGAAAATAACCTTGTTGTGGCTGGTCCGGGCGCAGGAAAGACAGAGCTTTTAGCTCAAAAAGCTTGCTTCCTCTTGCAAACGAATACCTGTAAATTTCCTCATAAGATACTAGCAATAAGTTTTAAAAGAGATGCTGCATACAACCTAAAAGAACGGGTTAGACTTCGTTGCGGTGACGAATTATCTAAACGCTTTGATTCATTAACCTTTGACTCATTTGCCAAACAATTATTAGATCGATTTAAGCAAGCACTTCCAGATGAATATAAAATCTTATCAGAATATGAAATTGTGCTTGGGGATCAATTCATTTTAGCTTTATATGAAAGTGAAGATATTAATTATTTCAATACAACACATCGAAATACCATTATCCAACTTCATAACGCGCAATTACCGCACTTATCAAATAATAAAGCTGAGGCTATAAGATATAAAGTTTGGCAGAAAATGATTCAGCAATCAAAGTTATCTTTCACCATGGTGATGCGTTTGGCTGAATATATTATCAATACAAACCCGAAAATTAAAGAATACCTTCAACAAACTTATCATTTTGTATTTTTAGATGAATTTCAGGACACTACTGAACTACAGTATGATCTATTCAAAAGTTGCTTTTTAGATAGTCACACTTCTTACACCGCTGTTGGTGATGATAAACAACGTATAATGATGTGGGCCGGCGCAAGAGAAACTGTGTTTGAGGATTTTATTACTGATGTAAATGCGACTAGAATTCCTCTCAATATGAACTTTAGATGTGCGCCCAGACTAGTGACTTTGTTAAATCATCTTACTCGTCATTTATTAGGAAAAGATGATTTTGCTACTCCATCGCCGAAATGGAACGCCGAACAGGGAGAATGTTACTTTTGGGTTTTTGAAAATCCAGAATCAGAAATGCAAATACTTTTTCGTGAAATTCAAGATTGGATAAATACAGAAGGGATAAATCCCAGGGATATATGTATTTTGGTTAAACAGCAATTAACGCAATATGCCGGAGATCTCATTACTTATTTTAATGAAAATGGTATTAAAGCCAGAGACGAAAATAAATTGCAAGATATTTTAACACAAGAAGTCTGTATTTATATCATTAATATTCTATATGCTATTTTTCAGAAAAAAGCCGGCGAAGCCAAACAAGCAGCATTTGTTTTTTTAAGCAATCTTCACACAGAATTAGAAGATGATCAATTAATAAAACTGCAAAATATCATTTCAGTTTTTATTAAGATAAAGCAAGATGAATATCAAAAGAGAACTCTCAGTGAAGAGCAGATCAATACACTTATTGATGAAATCATCGACTTCGCAGGTAAAGACCGCATTAGAGCAAGTTTTCCGTCATACAAAAATGCTGCTGAATTCGATCGAACCATTACTTCTTTGAAAGAGGTGCTTATTAAAGATTATCATACTACTAAGAATAATATGATTCTAGCGTTAGATATGGTCCTTGGTAAAGACACAATACCAGTTATGACAATTCATAAAAGCAAAGGTCTTGAATATCATACTGTGATTTTTATTGGCTTGGAGGATGGTGCTTTTTGGTCATTTGAACGACAACCGGATGAAGATAAATGTGCATTTTTTGTTGCATTATCAAGAGCAAAAGAGCGTGTAGCATTTACATTTAGTAAGAAAAGAACTGGTCGTTTTGGATTGCGGGATCAATCAATAACAAATATTAGCGTTATTCTTGACGAATTAAAAAAATCGGGTATAGTTACAATGGCTGAAAGAAAGTTAAATAGTTGA	MKPIKSKEWIPTDGMDLEENAFKVATTIENNLVVAGPGAGKTELLAQKACFLLQTNTCKFPHKILAISFKRDAAYNLKERVRLRCGDELSKRFDSLTFDSFAKQLLDRFKQALPDEYKILSEYEIVLGDQFILALYESEDINYFNTTHRNTIIQLHNAQLPHLSNNKAEAIRYKVWQKMIQQSKLSFTMVMRLAEYIINTNPKIKEYLQQTYHFVFLDEFQDTTELQYDLFKSCFLDSHTSYTAVGDDKQRIMMWAGARETVFEDFITDVNATRIPLNMNFRCAPRLVTLLNHLTRHLLGKDDFATPSPKWNAEQGECYFWVFENPESEMQILFREIQDWINTEGINPRDICILVKQQLTQYAGDLITYFNENGIKARDENKLQDILTQEVCIYIINILYAIFQKKAGEAKQAAFVFLSNLHTELEDDQLIKLQNIISVFIKIKQDEYQKRTLSEEQINTLIDEIIDFAGKDRIRASFPSYKNAAEFDRTITSLKEVLIKDYHTTKNNMILALDMVLGKDTIPVMTIHKSKGLEYHTVIFIGLEDGAFWSFERQPDEDKCAFFVALSRAKERVAFTFSKKRTGRFGLRDQSITNISVILDELKKSGIVTMAERKLNS				NA	NA	NA	NA	NA
BMS003_03206	2025			hypothetical protein	ATGAAAATAAGTAATTTAAAGATTAAAGGATTTAGATCATTTGGGCCAGAAGAAATTAAGATTCCTATTGATGAAAAACTGGTTGGTTTTATTGGACTCAATAGTGCTGGTAAAACCACTGCTCTTGAAGCACTAAGAAAATTATTTGGACAATCCTTAACAGATAGGGAAATTTTCCGGCAAGATTTTCATATCGGCAAAGATGAAAAGCTTGAAGATATTACTGAAAGGACTCTTTCTATTGAAGCCAGAATTGATTTTGACGAAGAAGAGCAGGAAGCAGTTCCTCATTTTTTTACCGATATGGTAATTGATGAAGAAAACAGCAATCCATATCTCCGGTTGAGACTCGAAGCTTCTTGGATAAAAACTGATTATGGTCCTGAAGGTGAAATTGATAGTAAAGTTTATTATATTAAAGTTCCTGAAGGTAGTGTAGAAGGTGACGACACAAAACAAATATTTCCTAATCACTTAAAACGTCTGATACAAATACTTTATGTTCCTGCAATACGTAGACCTGTTGAACAATTAAAATATGCGTCTGGAAGTATATTATTTCGTGTTTTAAAAAAGATAAAATCAAATGATACTTTTAAATCAGAATTCGATGAAAAAATAAAAGATATAAATGATGCTTTTAAAGGTTTGGAAGACTTTAATATCGTACAAACATCTATTACAGAAAATTGGAGACAATTCCATAAAGATAAGCGTTATAAAGATACGACTCTTGGCTTTGGAGGAAGCGATCTTGATTCCATTCTGAAAAAGCTTGAAATATCCTTTAGTCCCACCGGAACCCACAAAACCTATCAGATTGATGAGCTGGGAGAGGGCTATCGTTCTTTATTTTATTTAACACTGGTATGTGCCTTACTGGAAATAGAAGAGAAATTAGCAGAAAATGATGACGAAGAGAATATTGGGATAAATAGGCCTCTTCTGACAATATTAGCGATAGAAGAACCCGAAAATCATATTGCTCCACAGCTTTTAGGTAGGGTAATAAAAATATTAAAAAAAATCGCAAGTAAAGATAATTCACAGGTTTTACTATCATCTCATACACCTGCGATCGTTAAAAGGCTGAATCCGGAAAGTATTCTTCACTTTAGAATTACGGAAAAATTTGAAACTGAAGTAAATAAAATATTACTTCCAGAGAAAACAGATGATGCATACAAGTATGTCAAGGAAGCTGTTCACAATTATCCCGAATTATACTTTGCTAGATTGGTTGCAATTGGCGAAGGAGATAGTGAAGAAGTGATCTTCAATAGACTTATGGAAGTAATGGAAGTTGATTTTGATGACAATATTATCACTTTTGCCCCACTTGGCCACCGATTTGTAAATCATATTTGGAGATTGTTAGAAACACTCCATATTCCTTATGTTACTCTCTTAGATTTAGACGTGGAAAGAGAAGGTGGAGGTTGGGGAAGGATTAAATATGCACTTAATCAATTAATTAAAATAGGTATAAAAAAAGAAGAGCTTCTAAAGTTGGCTGATGGAAGTATACTCTCTGATGATGCATTAAAAGAAATGCATACCTGGAGTTTGACAGAAAAAGATTCAATTGAAAATTTGAATGGCTGGGTGGATTACTTGAGAAAGTATAATATTTTCTATTCTAATCCTCTTGATTTGGATTTTCTAATGCTTACACATTATCCAGAATTTTATAGAAAAGCAATTCCAAAAAATGGAGGACCTCAAATACCAGATGAAACAACTGAAGCTGAAAAATTTGATGCTAAAGTGAAGGTAGCCATCCAAGCTACATTAAAATCAGAGAAAGCAACCGCAGCTACCTACTCTGAGGAAGATCGAAAATTAATGATCTGGTATAATTACCACTTTTTAGGCCGAGGAAAACCAACTACCCACATTCAGGTCTTATCGTCTATGACTGATGAAGAAATAAATGCTAATCTACCTCAGGTATTTATGGAGGTTTTTGATTGTATATCGTCACTTTTAAAAACAAATCAAGAAGATGAAGCCAATCAAATCTAA	MKISNLKIKGFRSFGPEEIKIPIDEKLVGFIGLNSAGKTTALEALRKLFGQSLTDREIFRQDFHIGKDEKLEDITERTLSIEARIDFDEEEQEAVPHFFTDMVIDEENSNPYLRLRLEASWIKTDYGPEGEIDSKVYYIKVPEGSVEGDDTKQIFPNHLKRLIQILYVPAIRRPVEQLKYASGSILFRVLKKIKSNDTFKSEFDEKIKDINDAFKGLEDFNIVQTSITENWRQFHKDKRYKDTTLGFGGSDLDSILKKLEISFSPTGTHKTYQIDELGEGYRSLFYLTLVCALLEIEEKLAENDDEENIGINRPLLTILAIEEPENHIAPQLLGRVIKILKKIASKDNSQVLLSSHTPAIVKRLNPESILHFRITEKFETEVNKILLPEKTDDAYKYVKEAVHNYPELYFARLVAIGEGDSEEVIFNRLMEVMEVDFDDNIITFAPLGHRFVNHIWRLLETLHIPYVTLLDLDVEREGGGWGRIKYALNQLIKIGIKKEELLKLADGSILSDDALKEMHTWSLTEKDSIENLNGWVDYLRKYNIFYSNPLDLDFLMLTHYPEFYRKAIPKNGGPQIPDETTEAEKFDAKVKVAIQATLKSEKATAATYSEEDRKLMIWYNYHFLGRGKPTTHIQVLSSMTDEEINANLPQVFMEVFDCISSLLKTNQEDEANQI				NA	NA	NA	NA	NA
BMS003_03207	3738			hypothetical protein	ATGAAGATATTAGCCATACGCATTAAAAATTTAGCTTCACTGGAAGGCACTACCGAAATTGATTTTACGGCAGAACCCTTATGTTCGGCGGGCATCTTTGCGATTACCGGCGCTACCGGAGCGGGGAAATCGACCATACTGGATGCGTTGTGTCTCGCCTTATATGGTAAAACACCACGTTACGTTCAGGCAAGAGGAGAAACGGGCATTGAAATAAAGGATGTACAAAATAGCACTATGAGCCAGGGCGATGTACGCGGTATCTTACGTGACGGCACGGCAGATGGATTTGCAGAAGTGGATTTTAGAGGGATCGACGGGCAAAACTATCGGGCAACCTGGAGTGTGCGACGGGCCAGAAACCGGGCCGACGGAAGCATGCAGTCGGATGCCGTGACCTTAAAAAACATTTCCAATCAGGTTGATCTTCCGGGAAGAAAAGCCGAAACCTACAGTGAAATTGCAAGGTTAGTCGGGTTAAATTTCGAACAGTTTACCCGCTCGGTATTACTGGCGCAGGGTGATTTTACTGCTTTTATGAAAGCCAACCGGGATGAGAAATCCTCCCTGCTTGAGAAGCTGACCGGAACCCATATCTACTCCGAGATTTCCAGGAAGGTTTACGAAAAATATAAAGCAGAAGAAGTGTTGCAGCGTGACCTTCAGTTGCACAAAGAAGGCATTCTGACCTTGAGCGATGAAGAACTGCAAGTTCTGGTGGCAGATCTGGCGCTTTTGGAGAGGCAGATCACAGACCTCGATAAAGAAATCGAAAGATTAAACGCAGGAATCAGCTGGTATGAGCAGCTCGCCAAATACAGTCAGGGCCACGATGAAGCCATCCTGATGGTACAGCAGGCAACCGAAAACAAAGATTCCGCCTTGCCGAGAAGCAGGCACCTGCGAATGGCCGAACAGGCACAACAAACCCGAAGCTGGGCAGACGCTTTGGCGCAGTCACAGGAACAACATACCGTTAAAACAACAGCACTGGCAACGGTAAAGGAAACCCTGATTTCCTTACAGCAACAAAAAGAAAGCCTTGAAAAGCAGCTTCAACAGTCAGAACATCAACTTTCCGTTCAAAACAAGGACCTTACCGATTCCCTACCGCTATTGGAAGAAGCCCGCAAACTGGATACCTTGCTGGGAGAGAAAAAAGAACAGGTCGACCGGCTGAAAGAAGAGGCTGAAAAAGCTGCCGGGCTGAATCGGAAACATCAGGATATCTTAAAAGGAAAACAGCAAGCCTTCACCGATCTTGTTTTACAGATTGAAAGCATTACGCAGTGGCAAACCGAACAGGCAGCCCGCAAACCTGTTGCCGAGCATACAGACCTCATTCTCGCCAAACTCGGAGATGCCAAAAAGCTGTTGGAGAACCAAAAAGCTTCTTCCGAAAAATTAGTGGCGTTAAAGGATAAAATCCAGGCGGCCGAAGTGCAGCAGAAAACCATTGAGGACAACTGGAAAAATCAGCTTCAACTGCTGGACGAAAACCGGAAAACGTATGAGGCAAAGTCCGAAGCGTTACGCTCCGTTCCGATGGAAAGCTTAACTCTCGATAAAACCGAAACCGATCAGAAAGTAGAAGAAACCGTCAGGGCACAGGCGCAATGGCAGCTTTTGTATTATGCACAGACCGAATGGGAAAACTTACTGCAGAAGCAGGTACAGGAACAAGCCGATCATCAGACCAGACAAGAACTTTTACAACAACTCAAACAAGAACTCCCCTTAGCAAAAGCGGAAAGCGATACCGCAGATCAGCTCCTGCAACAGGCCCGTCTGGCATCGGCTGAAAATGTAGAAACACTCCGGGAAGCTTTGGTGGAAGATAAACCCTGTCCGGTATGTGGCAGCACCCATCATCCCTACGCTATACAAAATCCGCAACTGGAAAAAGTGTTGGCCCAACTGGAAAAAGCCAGCCAGGAGAAAACACAATACAATCTCAGCCTCCACAGCCGTCATGATGCCCTGGAGCGGGAATGCACCACCCTACAGCAAAATATTCAGCGGCGAAATGAAGAAATACATGCTAAAGAATCAGCTCTGGCAACCCAAAAGCAAACCTGGGAACAATCTGATATCACCAAAAATAGTTTGAATATTCCCGATGCCGAAAAAGCGGACTGGATCACAGCGCAATTACAAACCCTTAAAACCAAACAAGCCGATCTCTCTGCCCGATTACAAGCCTATGCCGGGCAGAAGCAGGAATTGGAAGCCGCAAAAACAGGAATCGACCAACTGAAAGAAAATATCGATACCCTTGCCGGACAGCTGAAAGACCTTCAAAACAGCTTATCGCTTTATGACGAGCAGCACAGCCAGGCAAGGCGTGAACAGGAGCTGGCTACCGTCTATCTGGATGAAATTGAACAGCATCTTGCCCCATATTTTACCATATCCGGCTGGATGAACAACTGGAAAGCAGCTCCGGAAACCTTTGTGGAAAGCATCACCGCCTTTGCCCAACAATGGAAAGCCCAAGCCGAAAAACTGGAAGTCCGTACCCGGGAAAAAGCAGCCCTCGAAGCCACACTGAAAGAGCTGGAAAGCCAAGCCAAAACGCTGGAAACGGAAGCCAGTAGTAAAATCGAAATCCACCGTGCGCAACAGCAATCGTATCTGGATCTTACTAGACAACGTAAAAACCTATTTGATGGTCAGCCTGCCGAGGAAATGGAACTTCAGTTCAAACAGGCGGTTATCAAAGCACAGGAAGATGTAGCGCTACTGAAAACCAAACAGCAAACCTTGGCGATCGAACAGACCAAAATCCTCACCCAACAGGAGGAACTGGCAAACGCCTTAACTGCATTGAACGCAGCAATTCAGAAAACTTCCCGCCAAATACAGGACTGGCTGAACGATTATAATCAAAAAAATGAGCAATCGCTCAACCTGGAAGAACTTCACCAATTACTCGCTTTAGGAAATGACTGGATCGAAAATGAACGTTTAGCACTACAAGCTATTGATGAGGAACTGACCAGAGCCAACAGCATTCTTACCGAACGGAAACAGGCTTTAGACCGTCATCAGAAAAACAGTAACGCGGAAATACCACTCGAAGAACTGATGACCCTGCACACGAATGCCCGATCGGAAGTGGAAGAAAAGAAGCACAAAAAAGGGGAAAACGGTTTCCGCTTGCAGCAGGACGAAGCTAACAAAAACAAAATCGGCGACCTGTTAAAACGCATTTCGGAACAGGCTACCGTTACCGAAAACTGGGCCAAGCTCAACGATATTATCGGTTCGGCTGATGGGAAGAAATTCCGCCAGATTGCGCAGGAATATACGCTGGATGTATTGCTTGGTTATGCCAATATCCATTTGCAGGCGCTCACCAGCCGCTACCGGATCGAACGCATTCCGGCATCGCTCGGTTTGCAGGTGGTGGATCAGGACATGGGCGACGAAGTGCGTACGGTGTATTCACTTTCCGGCGGAGAATCTTTCCTGGTGTCACTGGCTTTGGCTTTGGGCCTTGCCTCCCTGTCGTCCAACCGCATGAAAGTGGAATCTTTATTTATCGATGAAGGTTTCGGCTCGCTGGATCCCAACACGCTCAATATCGCCATGGACGCCCTCGAACGCCTCCACAACCAGGGCCGTAAAGTCGGCGTGATCTCCCATGTACAGGAAATGACGGAACGGATCCCGGTGCAGATAAAGGTGAGCAAGCAGCAGAGCGGGAGAAGTAAGGTGGAGGTGGTGGGAGTTTAG	MKILAIRIKNLASLEGTTEIDFTAEPLCSAGIFAITGATGAGKSTILDALCLALYGKTPRYVQARGETGIEIKDVQNSTMSQGDVRGILRDGTADGFAEVDFRGIDGQNYRATWSVRRARNRADGSMQSDAVTLKNISNQVDLPGRKAETYSEIARLVGLNFEQFTRSVLLAQGDFTAFMKANRDEKSSLLEKLTGTHIYSEISRKVYEKYKAEEVLQRDLQLHKEGILTLSDEELQVLVADLALLERQITDLDKEIERLNAGISWYEQLAKYSQGHDEAILMVQQATENKDSALPRSRHLRMAEQAQQTRSWADALAQSQEQHTVKTTALATVKETLISLQQQKESLEKQLQQSEHQLSVQNKDLTDSLPLLEEARKLDTLLGEKKEQVDRLKEEAEKAAGLNRKHQDILKGKQQAFTDLVLQIESITQWQTEQAARKPVAEHTDLILAKLGDAKKLLENQKASSEKLVALKDKIQAAEVQQKTIEDNWKNQLQLLDENRKTYEAKSEALRSVPMESLTLDKTETDQKVEETVRAQAQWQLLYYAQTEWENLLQKQVQEQADHQTRQELLQQLKQELPLAKAESDTADQLLQQARLASAENVETLREALVEDKPCPVCGSTHHPYAIQNPQLEKVLAQLEKASQEKTQYNLSLHSRHDALERECTTLQQNIQRRNEEIHAKESALATQKQTWEQSDITKNSLNIPDAEKADWITAQLQTLKTKQADLSARLQAYAGQKQELEAAKTGIDQLKENIDTLAGQLKDLQNSLSLYDEQHSQARREQELATVYLDEIEQHLAPYFTISGWMNNWKAAPETFVESITAFAQQWKAQAEKLEVRTREKAALEATLKELESQAKTLETEASSKIEIHRAQQQSYLDLTRQRKNLFDGQPAEEMELQFKQAVIKAQEDVALLKTKQQTLAIEQTKILTQQEELANALTALNAAIQKTSRQIQDWLNDYNQKNEQSLNLEELHQLLALGNDWIENERLALQAIDEELTRANSILTERKQALDRHQKNSNAEIPLEELMTLHTNARSEVEEKKHKKGENGFRLQQDEANKNKIGDLLKRISEQATVTENWAKLNDIIGSADGKKFRQIAQEYTLDVLLGYANIHLQALTSRYRIERIPASLGLQVVDQDMGDEVRTVYSLSGGESFLVSLALALGLASLSSNRMKVESLFIDEGFGSLDPNTLNIAMDALERLHNQGRKVGVISHVQEMTERIPVQIKVSKQQSGRSKVEVVGV				NA	NA	NA	NA	NA
BMS003_03208	1236			hypothetical protein	ATGAAATTTCTACATACCGCAGACTGGCACATTGGCCAGCTGTTTCACGAATACGACCGCAGCTACGAGCATCAGCAGTTTCTGAACTGGCTGGTAGGAATTTTATTAACTGAAAACATTGAAGTCTTGCTGATCAGTGGTGATATCTTCGATAGTTCCAATCCGTCGGCAGCCTCGGTGAGGATGTTCTACCGTTTCCTAAATGAAGCGACCAGAGCAGTGCCTCATCTGCAGATCATGATTACGGCAGGTAACCATGATTCGGCGGCACGGCTGGAAGCACCGAAACCTCTACTGGAATCCTCTAATGTTCACATTATCGGCCTGGTAGAAAAAGATGCAGTGGGAAACATTGATTACGAAAAACTACTGGTTAAAATACATGATGCTTCCGGAGCGATAAAAGCTTTTTGCTTGGCCATTCCGTTCCTGCGGATGGGTGATTATCCTGCCATTGCCGATTGTGCCAATCCCTACACCGAAGGCGTCGCGGCTTTATATCAGGAAGCCTTTGCGTATGCCCAACAATACAGCACGGAAGACCAGCCTATTATTGCCATGGGACACCTGCATACGCAGCAGGCAGAAATTACCGATCTGGATAAAACCGAAAGGCTGATCATGGGCGGTGTGGAATGTATTTCAGCGAGTGCTTTTCATTCCGATATCAAATACGTTGCGTTGGGACACATCCACAAGGCGCAGAAAATAGGCGGAAAGGAACACATCCGCTACTGTGGCAGTCCCTTGCCGATGTCCTTTTCAGAAATTCATTACATACATCAGGTGATTGTTTTTGATCTCGATCGGGAAATCAGCAATCTGAAGGCGATTGAAATTCCGGTATTTGTGCCATTGCAAAGAATTCCACATCAGCATCAGCCTTTGCATGAAGTCATTGCCCAGTTGGAGCAATTGCCAGAGTTGGTTGCCGGCATGGAAAACCTGCCTTATCTGCAAGTCCGTGTACTACTCGATGGACCCGAGCCTGCTTTACGTCATAAAATAGAAACAGCCCTGGTAGGTAAAGCGGTACGAATGGCTAAAATCGATGCCCAATATCCGGCCGCTGCCGCAGCAACACCCGAACTCATCACCGCTGAAAAGCTGAATGAACTGCAGCCCATTGATGTTTTCGGTAAAGCCTACCAATCCAGATACCAGAGCGAAGTACCACAGGAAATCATGCAATTGTTCCAACAGGTGGCGCAGGAAATCAACCAAAACGCCGGATAA	MKFLHTADWHIGQLFHEYDRSYEHQQFLNWLVGILLTENIEVLLISGDIFDSSNPSAASVRMFYRFLNEATRAVPHLQIMITAGNHDSAARLEAPKPLLESSNVHIIGLVEKDAVGNIDYEKLLVKIHDASGAIKAFCLAIPFLRMGDYPAIADCANPYTEGVAALYQEAFAYAQQYSTEDQPIIAMGHLHTQQAEITDLDKTERLIMGGVECISASAFHSDIKYVALGHIHKAQKIGGKEHIRYCGSPLPMSFSEIHYIHQVIVFDLDREISNLKAIEIPVFVPLQRIPHQHQPLHEVIAQLEQLPELVAGMENLPYLQVRVLLDGPEPALRHKIETALVGKAVRMAKIDAQYPAAAAATPELITAEKLNELQPIDVFGKAYQSRYQSEVPQEIMQLFQQVAQEINQNAG				NA	NA	NA	NA	NA
BMS003_03209	615			hypothetical protein	ATGATGTATATTTTTATACGGAATGAAGATAACAATATTTATATAGAATATGGACCAATTCCGAAAAGCAATAAAGAACATGGCAAAAAAAATCATCGTGCAATTGGTGTCTATGGGATGCATGCAAAGATATTAAACAACGTGGAAAGTTTAAGGAAAGCTTTAAAGGTAAAGCCTGAACGATACGGTATACTAGATAAACCGTATCTTATTGCAATAAATGCAGTTGATATGTTGGCTCTAAATAAGGATGATGTAATGGATTGCTTGATGGGTTCAACATGTATCGTACCGGAATTAATTACCAACCAAAATGCTTTTCAGGAATTTCGGGAGCATGACGGATTTTTTACAGGTAGAAATGACAAAGGTCAGAATACGCGGGTAAGTGCAGCAATGATCACCAAAATACATCCAAGTAATTGGAGGGATTCAGATTATTGGATTTTTGAAAATGAAATGGCAATACTTCCTATGAAAAAGTTTGCCAAAGTTGTGGTGAGAAATTTACAGCTAAAACAACAGTTACAAGATATTGTAGCCATAACTGCAATAGAAAAGCATATAAGCTTGAACAACGAAATGCAAAAATTCAATATGCTAATTATAATATAA	MMYIFIRNEDNNIYIEYGPIPKSNKEHGKKNHRAIGVYGMHAKILNNVESLRKALKVKPERYGILDKPYLIAINAVDMLALNKDDVMDCLMGSTCIVPELITNQNAFQEFREHDGFFTGRNDKGQNTRVSAAMITKIHPSNWRDSDYWIFENEMAILPMKKFAKVVVRNLQLKQQLQDIVAITAIEKHISLNNEMQKFNMLIII				NA	NA	NA	NA	NA
BMS003_03210	1128	xerC_8		Tyrosine recombinase XerC	ATGACAAGCGTAAACTTAAGACTAAAGCCAATAAGTAAAGGAAGGAAAAGTTTATTTTTAGACATTTACCCTCCTATTCAGCATGAAACAACCGGAAAATTTGTTCGAAAGTTTTATCTTAAATTGTTCATTTACAATAAACCTAGATCTGCATCTAAAAAACTTCATAACAAGGAAGTTAATTCCTTAGCAGAGTCTTTGCGAGCACAGCGTCAAATTGACATTAATAATGCCGACTATGGATTTTTAAATAAACCAAAATTGAATTCTAATTTTATAGAACTTTTTCAGGCAGAGGCTGATAGAAGACCAGAGTCAGCACATTGGAAAATGGCTGTTAATTATTTAAAAAAATTTGTGGGTGAAGTACTTTTGTTTAAACACCTAAATGAAAAACTATGTGATGCTTATAAAAACTATCTGCTGTCTTCACCTGGAATTGGGCGTTCAAAAAGAAAAATCCAAAAGAATACTGCGGCAGCTTATTTTTCAAAATTCAAATACACTATCCAAAAAGCTTATAGAGATAAATATATTTCAAGAGATTTAGCAAGTGATATTGATTATATTAGATTAGATGACACTCATAGACCTTATCTTTTTAAAGATGAATTACAAAAAATGGCTGATGCTGAATGTGGGTCTCCCCTTGTTAAAAATGCAGGACTCTTTTCTGCAGTAACTGGATTTCGTTATAGCGATATTGAAAATCTAACATGGGGAGATATACAAGGAACTGCTGGAAATTACTTTTTATTATTTAACCAAGCTAAAACCGGAAGGGCAGAATATTATCCGGCTTCAGATGATACAATTGAATTATTAGGAGTAAGAGAGAATTATAATAAAAAAATTTTTGATGGTTTAACATATAGTCTAGTACTTAAATGGTTACCTAAATGGCTCAAAAATGCAGGGATAACAAAACATTTCACCTTTCATGGCTTTCGTCATACGTTTGCTACTTTACAATTAACATCAGGCACAGACATTTATACGGTATCAAAATTATTAGGACATAAGGATGTTAAAACAACTGAGATTTATGTAAGGATTGTCGATAAATTTACAAAAGAGGCTTCTGAAAAAATTAAATTAGATTTGAAGAAAAAAGATTCATTCAATTAA	MTSVNLRLKPISKGRKSLFLDIYPPIQHETTGKFVRKFYLKLFIYNKPRSASKKLHNKEVNSLAESLRAQRQIDINNADYGFLNKPKLNSNFIELFQAEADRRPESAHWKMAVNYLKKFVGEVLLFKHLNEKLCDAYKNYLLSSPGIGRSKRKIQKNTAAAYFSKFKYTIQKAYRDKYISRDLASDIDYIRLDDTHRPYLFKDELQKMADAECGSPLVKNAGLFSAVTGFRYSDIENLTWGDIQGTAGNYFLLFNQAKTGRAEYYPASDDTIELLGVRENYNKKIFDGLTYSLVLKWLPKWLKNAGITKHFTFHGFRHTFATLQLTSGTDIYTVSKLLGHKDVKTTEIYVRIVDKFTKEASEKIKLDLKKKDSFN				NA	NA	NA	NA	NA
BMS003_03211	684			IS481 family transposase ISMtsp15	ATGGGGTCTCAATCTCAATCTCAACGGCAACTGTTCATAAGATTCTTAAAAAAGAATAATAAACAGTATTTAAAGCTTAAGCAATACTACCATAAAAGACAAACTCGATATAACCGACCAATACCGGGTGATCGCGTACAAATGGACGTCTGTAAAATAGCTCCAGGCATTTATCAATACACAGCGATAGATGATTGTAGCAGATTTAAAGTATTTCAATTATTTCCAAGGCGTAATGCTAGCAACATCCTGAAATTTCTTGATATAGTGCTGGAACAAATGCCATTTGCGATACAGCGCATTCAAACTGATAGAGGAAAAGAGTTTTTTGCTTATTCCGTTCAAGATAGATTAATGGAATGGGGTATTAAATTTCGCCCTATTAAACCAGGCTCACCACATCTCAATGGAAAGGTAGAAAGAACACAGCGAACCGATCTTGATGAATTTTATTCCACAGTTGATATCAAAGATCCTGACCTACCAAACCTACTATCACAATGGCAATTTTATTATAATTGGCTTAGATCCCACAGTTCTCTAACTGGCCGTACCCCAATTCAGGTAATTAATGCTTTATCAAATAAAACTCCATTATGGGAGGAAGTCGATGATATGTATGATCCAAGCAGAGAGCGAATAAGGGATCAAAATTACTGGGTTGACTGTCAGTTAAATAAGTGA	MGSQSQSQRQLFIRFLKKNNKQYLKLKQYYHKRQTRYNRPIPGDRVQMDVCKIAPGIYQYTAIDDCSRFKVFQLFPRRNASNILKFLDIVLEQMPFAIQRIQTDRGKEFFAYSVQDRLMEWGIKFRPIKPGSPHLNGKVERTQRTDLDEFYSTVDIKDPDLPNLLSQWQFYYNWLRSHSSLTGRTPIQVINALSNKTPLWEEVDDMYDPSRERIRDQNYWVDCQLNK				NA	NA	NA	NA	NA
BMS003_03212	2136	cntO_6		Metal-pseudopaline receptor CntO	TTGCTGAAATTTTTATCTATGAAGAAAGCCATAGCCTCTTTATCTCTACTTGGTGCTGTTTTGGCCAATGCACAAAGCCAGGACACCATAACTACAAAATCAATAGAAGAAGTAAGTATAAATGGTGTTAAAAAATATGCCGAAAAAAAATCTGAAATGGTGGCAAGAATGCGTCTTAAGAATCTTGAAAACCCACAGGTATATACGGTTGTTCCTAAAGAATTGCTTGAAGAACGAGTGGCGGTAGATCTTAAAGATGCATTATTCACATCTCCGGGTGTTACCAATGTGATGCTGGGAGTTGGTTCGGGCGGAACAGGACTTTCTATGTTGATCCGTGGCTTCTCCGGTGCAGATGGTGCAGGCTCTATTCGTAACGGGATGGCAACAAATTTTGTATCCCTTTCAGATCCTGTTAACTTAGAAAGATTAGAGGTAATCAAAGGTCCATCTTCTACTTTATTTGGGACTACGCTGGTTTCTTACGGTGGATTGGTAAACAGAGTTACCAAGCAACCTTTACCATATGATAAAACTGCTGTGAGTGTTACAGGAGGTGGCTATAGTCTGGGAAGAATAACTTTAGATTTTAACAGAGCACTAAACCCTGAAAAAACGTTCCTTTTCCGATTAAATACGGCTATTCATAGAGAAAAATCTTTTCAGGATCAAGGCATAAACAGAACATTTATGGTGGCTCCGTCATTCAAATATTTAGTGAATGATAAGCTAACACTTGCTTTGGATATGGAATATTTCCAGTCTGAAAGAAATTCTACATATGTAGGTTTAAACCCGAATGCCGACATTTCCAATTTCGGTGAATTGAATTGGGACTGGAAGCGCTCTTATGCTTCGAATGATATTACCTCGAAGGCTAATGTGGTTAATATTTTTGCGAATGCCAATTATAAAATCAATGAGCACTGGACTTCAGATACAAGATTTTCGTATTCCAATACAGACAATGATGCCAACTATCTTTTTTTATTGGTTGGAAGAAATACAGCTAGAGACTTTACACTTCAGAGAAGATTAATGAGTATACCGAGTACATTTAATACCATTCAGTTTCAGCAGAATTTTAATGCAGAGCATAATTGGGGCAGTGTAAACAATAAATTATTAATTGGTCTAGATTATACGCAGCTTCAAACTAATGACACTAGAACGACGATAAATAGTTATGATACAACCTCTGTTATTTTAAATCAAAACGCACCTGTACTCAATGTAAATACATATCAGAATGCTTTAGGCAATGCAACAAGAACTGCTAACGGAAGAGACACGCAGACGTTCAGTGCTTACGTATCCGACGTAGTAACGTTTTTCGATAGACTTAATGTAATGGCAAGCTTAAGAGCAGACCGTTTCCATGACAGAGCCGGAGATTATCAACAGACCTCTTTTTCTCCTAAATTCGGCGTAGTATATCAGGTATTAAAAGATCAGGTTTCCATATTTGGAAACTGGCAGAATGGGTTTAAAAACGTTTCTCCTAATTCTTTAGCTACAAATCCTAATATCACCGTTAAACCGGAGCAGGCCAACCAATTAGAAGGCGGGGTTAAATTTGAATTACTCGATGGTAAACTAAATGGTACAGTAAGTTATTACAATATCAAGGTTAAAGATAAAGTACGCTCAATATTAGATAATAATAATGTTCTTTATGCCGTTCAGGACGGTACACAGAGTAGCAAAGGTTTTGAAATGGATTTAATCGCCAATCCTGTAAAAGGTCTACATATATTATTAGGCTATGGCTATAACGAAAGCAAATACGAAGATGTTGGAGATAACCAGCAGAACATTTCAGGAAAAAGACCAGCGGGTGTTCCTCAAAATTCTGCCAACTACTGGGCAAGCTATAAATTTAGTGAAGGATCACTGAAAAATTTCGGACTTGGTTTTGGGGGAAACATTTCGAGCGATTACTATTTTAATGATCAGAATACCGTGAAAGTAGATGGCTTCCACACGATGGATGCTACTGTTTTCTACGAAATGCCGAAGTACCGTTTTGCCATCAAAGTAAATAACCTGAGTAATGAAAAGTACTGGACTTCCACTTCGTGGGCTATTCAGCAGCAGACCAGAACGTTCCTGGCAAGCCTATCGTTCAATTTTTAA	MLKFLSMKKAIASLSLLGAVLANAQSQDTITTKSIEEVSINGVKKYAEKKSEMVARMRLKNLENPQVYTVVPKELLEERVAVDLKDALFTSPGVTNVMLGVGSGGTGLSMLIRGFSGADGAGSIRNGMATNFVSLSDPVNLERLEVIKGPSSTLFGTTLVSYGGLVNRVTKQPLPYDKTAVSVTGGGYSLGRITLDFNRALNPEKTFLFRLNTAIHREKSFQDQGINRTFMVAPSFKYLVNDKLTLALDMEYFQSERNSTYVGLNPNADISNFGELNWDWKRSYASNDITSKANVVNIFANANYKINEHWTSDTRFSYSNTDNDANYLFLLVGRNTARDFTLQRRLMSIPSTFNTIQFQQNFNAEHNWGSVNNKLLIGLDYTQLQTNDTRTTINSYDTTSVILNQNAPVLNVNTYQNALGNATRTANGRDTQTFSAYVSDVVTFFDRLNVMASLRADRFHDRAGDYQQTSFSPKFGVVYQVLKDQVSIFGNWQNGFKNVSPNSLATNPNITVKPEQANQLEGGVKFELLDGKLNGTVSYYNIKVKDKVRSILDNNNVLYAVQDGTQSSKGFEMDLIANPVKGLHILLGYGYNESKYEDVGDNQQNISGKRPAGVPQNSANYWASYKFSEGSLKNFGLGFGGNISSDYYFNDQNTVKVDGFHTMDATVFYEMPKYRFAIKVNNLSNEKYWTSTSWAIQQQTRTFLASLSFNF	PGPT0003790_20327	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
BMS003_03213	1206			hypothetical protein	ATGGAAAAAAAGAAAGTAATAAAGAAGAAAAAAGGCAAATCACTCTTCTCACGTATTGTGGCTTGGGTTCATCTTTGGCCCAGCATTGTTGCAGGAATTATTGTGGTTTTTGTTAGCTTAACAGGAACCATCATAGTGTATGGAGACGAAATCATGAACTATACCGCAGGCGACGCCAAATATGTGGAAGTTCCGCAAAATGCCAAAAGGGTAACTCACCAACAGTTAATGAAAAATATACATGATTTCAATCCTGCCCTAAAAGTTTCAGAATTTGTAATTTTTAAAGACCTGAAACGTAGCATTCGTGTAAGAGCCTTTAATCCTGAAGCAAAAAAGTTAGCGTACGTTTACGTCAATCCCTATTCCGGAAAAGTGATTAAAGTAGATGAAACCATTTATTTTTTCTTTGTAATGGCACATCTGCATAGTGCTCTTCTGGCAGGAAAAGTTGGCGGATGGATTGTAGCTATTTCAACCATTGTTTTTGTTATCAGTACCCTAACGGGACTTATTCTCTGGTGGCCTAAAAGATGGAACAAAACGACCCGACAGGCAAGTTTTACCATTAAATGGAAAGCACGTTTCAAAAGATTCAATTATGATTTGCACAATGTCTACGGTTTTTATTCTCTTATTGTCTGTTTTATTCTTGGGATGACAGGACTTATTATATTTTTTCATCCTATGATGGAACTCACAATCAAATCTACGGGCGGTTCTATTGAGCATATGGATGATATTCTTCCAAAAATGGATTCTACAAGAACTTCAAAAGATATGATTCCTTTTGCTTTTGAAATTTTAGAAAAAGAATTTCCGGAAAAACCTTCTGTTAGCATCTGGAATTTTGATCAGCAGAAAATGGGAGCTTTTGTATTTACCTCAGGGACGGCAGGTTTAAAAAGTAGAGAAAATGCCGATATTTCAGTTTTTGACCGTTATTCGGGAAAAAAAATAGAGATTGATAAAAAATATCTGCGGCATGAGTCTACCGAAAATATTGTATGGCAGCTTCACATGGGACAGTGGTGGGGTCAGCTAGGCAAGCTATCAACATTTCTTGCCGGGATTATTGCTACATCACTGCCTATCACAGGTTTTTTAATCTGGTGGGGACGAAGAAACAAGAAGGGTAAAAAATCTAAAGAAGTTAAAAACATTCATCAAAACAGAAAAGAAGTTCACCATGATAAAAATATTTAA	MEKKKVIKKKKGKSLFSRIVAWVHLWPSIVAGIIVVFVSLTGTIIVYGDEIMNYTAGDAKYVEVPQNAKRVTHQQLMKNIHDFNPALKVSEFVIFKDLKRSIRVRAFNPEAKKLAYVYVNPYSGKVIKVDETIYFFFVMAHLHSALLAGKVGGWIVAISTIVFVISTLTGLILWWPKRWNKTTRQASFTIKWKARFKRFNYDLHNVYGFYSLIVCFILGMTGLIIFFHPMMELTIKSTGGSIEHMDDILPKMDSTRTSKDMIPFAFEILEKEFPEKPSVSIWNFDQQKMGAFVFTSGTAGLKSRENADISVFDRYSGKKIEIDKKYLRHESTENIVWQLHMGQWWGQLGKLSTFLAGIIATSLPITGFLIWWGRRNKKGKKSKEVKNIHQNRKEVHHDKNI				NA	NA	NA	NA	NA
BMS003_03214	1038			hypothetical protein	ATGATAAAAATATTTAAAAAAATAATTGTTTTTTGCGTTTGTATGGTGGGCGCAGTAGTTTTTTCTCAGCAAAATGTAGATAAAAAGAAAATTTTTTCAAAAGTTTTGAATGAAGAAAGAGAAATTTGGATTTCTGTACCCAAAAGTTATCACAGTTCTGATATTTCAAAAGCAAAATATCCGGTAGTCTATCTTCTGGACGCAGAAATTAATTTCGATTATGTAGAACCCATGTTGAAATATCTTGCTAGAAACCCCTACCCAGATATGCCAGAATGTATTTTGGTAGGGATTACCAATACAGACCGAACCAGGGATATGACGCCTACTAAATCTTCCACTAAAAGTCCGGTAAATCCTACTGAAATTTTATTTGAAAACAGTGGAGGCGCTGAGAATTTTGCTGCTTTTATTCAGACAGAGCTTAAGTCTTTCATTCAAAATAATTACCGTACCGAAAACTATTCAATTTTAGTAGGACATTCATTTGGAGGATTATTTACCATCAATACTTTAATCGAGCATCCTGATTACTTTAACGCTTATTTAGCCAATGATCCAAGCCTTTGGTGGGATAAGCAGATCGTGAATGAAAAAATGCAAAAAGCTTTAAAAGATGGTAAGTTTTCAAAAACTAAATTTTTATATCTTTCTGAAGCTGACAATAAGGATAACAAAAGCTGGAACTCAGATATGATTGACGGAATTCAAAATTTCAAAACCATATTATCTTCACAAGATAAAATTAATTATAAACATCAGTTTTATGAAGATGAAATGCATGGAACAGTTTCTTACCCAGGAAACTATAATGGTTTGAGATTTATATTTAAAGGATACCGGACAGATATCAAAAAACTCTCCAAAAATCCACAACTTCTGGAGACTGAATATAACGCTTTCTCAGAAAAGATGGGATACCAGTTTTTACCTTCCGAAGAATATTTAAACTTAATTATCAACTTTATGGATAAAAATAAGTTTGAAGAATCTAAACTATATTTTCAAAAGCTTAAGTTGAAAATCTATCAAAACTAA	MIKIFKKIIVFCVCMVGAVVFSQQNVDKKKIFSKVLNEEREIWISVPKSYHSSDISKAKYPVVYLLDAEINFDYVEPMLKYLARNPYPDMPECILVGITNTDRTRDMTPTKSSTKSPVNPTEILFENSGGAENFAAFIQTELKSFIQNNYRTENYSILVGHSFGGLFTINTLIEHPDYFNAYLANDPSLWWDKQIVNEKMQKALKDGKFSKTKFLYLSEADNKDNKSWNSDMIDGIQNFKTILSSQDKINYKHQFYEDEMHGTVSYPGNYNGLRFIFKGYRTDIKKLSKNPQLLETEYNAFSEKMGYQFLPSEEYLNLIINFMDKNKFEESKLYFQKLKLKIYQN				NA	NA	NA	NA	NA
BMS003_03215	615			hypothetical protein	TTGGAAAATAACCCGTTAACCCAATTGATCGAAAACATTCAAAGTCTTTTTCCTTTAAATGATATTGAAATCTTACTTTTGAAGGATAACCTTAAAATTTTCAACACAGACAGGGAAAACAGTATCATAAGCCCATTATCAGTAGTAGACAAACTCTTTTTCCTACAAAAAGGGATCGTAAGAAGTTTCTACCAGAAAGATTATAAAGAAATCAATACCGAATTCTTTTTTGAAAATGAATTTTTTACTGCGTTTACAAGTTTTCTGACCCAGGAAAAAACGAACTTATATTTTCAATGCATTGAACAATGTGATCTGATAAGTATACCAAAGACTCTTATGGACAAACTGCTCCGAGAGGATACCAAATGGAATATTTTATTAAATAATGTTTTGGCCAAAGAATATATCAAAAAATGCCGTAGGGAAAGTTCGTTTCTGCTTCTAGATGCCAATGAACGATATCACTATTTTCTAAAACAGTTCCCGGATGCAGATACGCGGATACCGCTTTTCCATATTGCTTCATACCTTGGGATCAGTCCTGAAACACTCAGTAGGATCAGGAGTAAAAAAATCAATCAAATTGATCTAAGTCAAGTAAACAATATTTAG	MENNPLTQLIENIQSLFPLNDIEILLLKDNLKIFNTDRENSIISPLSVVDKLFFLQKGIVRSFYQKDYKEINTEFFFENEFFTAFTSFLTQEKTNLYFQCIEQCDLISIPKTLMDKLLREDTKWNILLNNVLAKEYIKKCRRESSFLLLDANERYHYFLKQFPDADTRIPLFHIASYLGISPETLSRIRSKKINQIDLSQVNNI				NA	NA	NA	NA	NA
BMS003_03216	894	kynB_1		Kynurenine formamidase	ATGGAAAAAAGAGTAAAATTTGACTTCGAGATATTCTTTACAAATGGTGGTAGTATCAAAGGTGAAGATTTCAGATTAGATATATCCGGAGACGATATCAGTGACAGTGCGCTGACGGACTATATCGTTGAAGATATGCAGTTGCTAATGGTAGGGAAAGTTAATATCCTTAACAAGGAAATCCTCATTGAGCCTCATAAACGTAAACCAATTGATGAAAGTTCGGCGGAAGAATTCTTAATAGATTTGAGCCATATAATCGAAGATGGTTTGATAACCTACAAGGGGCTGCCGGCACCACATATTTGCGACTATCTCTCCAGGGAACAATCAAAACAAAACTATGACGGGGATACATCTTTTCAGATTGGAAAGATCGAAATGGTCACTAACACCGGAACTTACATCGACTGTCCATTTCATAGATTTGCTGATGGCAAAGACACGTCACAAATGGTATTAAAGGATTTTGCCCAGCTGGATGCGGTAATGATCCACATACCGTTTACAGAAAACCTGAAAATTACGGAAGATCATCTTAAAAATAGAGAAATCAGAAATAAGGCTGTACTAATACAGACGGGTTGGGATACACATTGGAATACGGAGCTATATTACCAGGATCATCCTTATCTTACTGAGCAGGCGGCAATATATCTTCGCGATTGTAACGTCAAACTTGTCGGTATTGATTCCCATAATATAGATGACACAGCCGCGAGAACTAGACCTGTTCATACCGTGCTATTGGGTGCCGGGATTTTAATCGTTGAGCATCTCTGCAATTTAAATAAATTACCCGCTGAGAATTTTAAGTTCACAGCCGCTCCACCAAAATTCAAAGGTGTAGGGACTTTTCCGGTAAGGGCATTTGCTTCGGTTGAAAAGAAATAA	MEKRVKFDFEIFFTNGGSIKGEDFRLDISGDDISDSALTDYIVEDMQLLMVGKVNILNKEILIEPHKRKPIDESSAEEFLIDLSHIIEDGLITYKGLPAPHICDYLSREQSKQNYDGDTSFQIGKIEMVTNTGTYIDCPFHRFADGKDTSQMVLKDFAQLDAVMIHIPFTENLKITEDHLKNREIRNKAVLIQTGWDTHWNTELYYQDHPYLTEQAAIYLRDCNVKLVGIDSHNIDDTAARTRPVHTVLLGAGILIVEHLCNLNKLPAENFKFTAAPPKFKGVGTFPVRAFASVEKK				NA	NA	NA	NA	NA
BMS003_03217	366			hypothetical protein	ATGGCAAATAACATTGGATTGACAAAAAATGCAGGCTGGCAGTTCGGCATAAGGAAAACCCTACCAATGAAGCTGGAACCACTCTGGGAAGTATTTTTTTCAGAGCTGGGATTAAGCTATTGGTCTGAAGGTGTAGATCCGGATTTTTCAACTTTTAAGGAATATTCACATATCCGAACAAAGTGGAGGCACATGCATTTCACAGAAGAAGCCACTTTACAGATCAGATTTATTCCTTCCAAAAATAAAGATAAAACAACAATTTCATTTCATGTTGATAAATTAAAAAATGAAAGTCAACGGGAAATGACAAGAGAATATTGGTCAAAAGTAATTGAAGATTTAAACCTGTTGACGAAACCATAG	MANNIGLTKNAGWQFGIRKTLPMKLEPLWEVFFSELGLSYWSEGVDPDFSTFKEYSHIRTKWRHMHFTEEATLQIRFIPSKNKDKTTISFHVDKLKNESQREMTREYWSKVIEDLNLLTKP				NA	NA	NA	NA	NA
BMS003_03218	639			hypothetical protein	ATGGGACAGCCGAATTTTAAAATTGTCGAAACAAATTATGATCTGAATGATTTTGAGGCAATTAGAAAAGAATTGCAGAATTTTGAAATTTTTAAGCAAAACCTAAATACGCATAAGACCTGCACCAAACACAAGGAAAAAAACGAATTTAGAGTGATGGCTGATGATAATAAGAAATTCTTTTTAGTGTTTGACAAGAAAGAAAATGCTTTGGAATTTTTGAATTCTACGGAACGTTACGACTATGGAATATTGGAAACTGACTTGCAGGAAGAGCTGGAAAAAATCACAGTTGAAAATATTGATGAAAAATCTGCTGAATTTCTGGCTCAATTTAAGGAAAAATTTAAATTGCAGGTGGATTATGATCCAAATGAATCTGACTTTTCCACAATTAATGAAAGGGCTAGAAAAACAACTTGGGACAAAGAAGGTCGTTTTCTGCTCAATTTTTATATGATGGAAGTTACAAAACGTAAATTGAACTTTTCTAATTGGAGTTTTGAAGTGGTTAATACTTTCAACCCCTTTTTCGTCCCTATGTATATTGGAAGGGACGGCAAATCGCAAAGTTATTATCGTCTTTTAGAACCAAAAACAAGAAAACATTTTGATTTTAAAATGTATCTAGGACTTTAA	MGQPNFKIVETNYDLNDFEAIRKELQNFEIFKQNLNTHKTCTKHKEKNEFRVMADDNKKFFLVFDKKENALEFLNSTERYDYGILETDLQEELEKITVENIDEKSAEFLAQFKEKFKLQVDYDPNESDFSTINERARKTTWDKEGRFLLNFYMMEVTKRKLNFSNWSFEVVNTFNPFFVPMYIGRDGKSQSYYRLLEPKTRKHFDFKMYLGL				NA	NA	NA	NA	NA
BMS003_03219	432			hypothetical protein	ATGATAGAATATATACAACATCTTACCAAAAACACGCTGGACACTGACACGCTAGATCAAATTCGGCAGAAAGTTATTACCAAGACTTATAAGTCTAAAGAAATAATTGTTCAAACAGATATTCTATCTAAAAATCTTTATTTCGTTGAAAACGGATTGGCAAGAGTTTTCTATTCTACCGAAGACAAAGATGTAACTTTCTATTTTATGAAAGAGAAAGATTTTTATGTATCGGTGGAAAGCGTTTACCAAAACTTAACTTCAAAATGCGGTATAGAAGCCATTGGCGAAACGGCTGTTTCCCAGATCAATTTTGACTTCGTCAATCAAATATTAGGAAATAACGTCCAATTTGCTTCTATGAAAGAAACACTGAACTCATCTCGACTTTATTTTTTGAAACTTTTTCATAGCAATTACAATGAAAGCTAG	MIEYIQHLTKNTLDTDTLDQIRQKVITKTYKSKEIIVQTDILSKNLYFVENGLARVFYSTEDKDVTFYFMKEKDFYVSVESVYQNLTSKCGIEAIGETAVSQINFDFVNQILGNNVQFASMKETLNSSRLYFLKLFHSNYNES				NA	NA	NA	NA	NA
BMS003_03220	771			hypothetical protein	ATGAACCTGCTTAAAGAAAAGAATATTTATTTAGAAAATAAGGAAACCAGGAGTTTTCTTGCAGATGCTTTTTATAAAGACATTGGACAAAAACTTCCTTTGGTCATATTTGTTCACGGATATAAAGGGTACAAAGACTGGGGAGCCTGGGATCTCATGGCAGAAAAATTTGCAGAAGCAGGGTTTTTCTTTGTAAAATTTAATTTTTCACATAATGGAACAACGGTTGAAGATCCTCATAATTTTGAAGACCTTGAAGCTTTTGGTCATAATAATTATTCTAAAGAGCTTTCCGACCTTGGAGTGGTAATTGATCACTTTAGTAAAAATCCGAATGTGAACGAAGAAAAAATAGTTCTGATAGGACACAGCAGGGGAGGAGGAATTTCCATTATTAAAACCTTTGAGGATGAAAGAGTCAACGGATTGATTACACTGGCAAGTGTGGATACTTTAGACCGTTTTCCCAAAGGAGAACCCCTTGAAAACTGGGAAAAAAACGGAGTGTACTATGCTCTGAACGGCCGTACCCAACAGCAAATGCCTCATTATTACCAATTCTACAAGGACTATGAAAAAGATATTCACCGTTTTGATGTAGAAAGAGCTACAGAAATGGCTAAAGCCCATATGCTGATTATTCATGGAACAGAGGACGAGGCGGTAGAAGCAAAACAGGCAGAGCATCTCCATCTTCTTCATCCGAATTCCGAATTATACCATTTAGTCTTTGAACTTACTGCATTAATTTGTATCTTTAAAAATGCCTAA	MNLLKEKNIYLENKETRSFLADAFYKDIGQKLPLVIFVHGYKGYKDWGAWDLMAEKFAEAGFFFVKFNFSHNGTTVEDPHNFEDLEAFGHNNYSKELSDLGVVIDHFSKNPNVNEEKIVLIGHSRGGGISIIKTFEDERVNGLITLASVDTLDRFPKGEPLENWEKNGVYYALNGRTQQQMPHYYQFYKDYEKDIHRFDVERATEMAKAHMLIIHGTEDEAVEAKQAEHLHLLHPNSELYHLVFELTALICIFKNA	PGPT0013735_36	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS003_03221	747			hypothetical protein	ATGCGTTACATTCTGCCTCTAAGAGAGGGAGGGTCACTTCCGGCTTTGGCAGAAGCTGATGATGATTTTAAATACGTACTAAAATTCCGTGGTGCAGGCCATGGAGTAAAAATGCTGATCTCCGAACTTCTGGGCGGAAAGATTACCGAAGCGTTGGGACTTAAAATACCTGAACTTGTTTTCGTTAATCTGGATGCTGATTTCGGAAGAACGGAAGCCGATGAAGAAATACAGGATCTCCTGAAATTTTCGGAAGGTCTTAATCTAGGCCTGCATTATCTCTCCGGTTCTATTACCTATGATCCGGGTGTACGTGTAGATTCGCTTCTGGCATCAAAAATAGTATGGCTAGATGCATTTATCACCAACATTGACCGTACTTTTAAAAATACAAATATGCTGATGTGGCATAAAGAACTTTGGATCATTGATAATGGAGCTTCGTTCTATTTCCACCACTCTTGGCAGAATTTTGATGCAGCGGCCAAAACACCTTTCAAATATGTGAAAGACCACGTACTGCTTCCAAAGGCAAAAATGCTTGACGAAGCTGATCAATTTGCCCATGAAGTTTTGAATGATACTCTTTTCAGAGAAATTGTCAACATGATTCCTGAAGACTGGTTACACTGGAATGATGCTGATGAAACCCCGGACGAAATCCGTGAGATCTATTTTCAGTTTATGAAAACCAGATTAGAAAATTCTCAAATCTTTGTAAACGAAGCGAAAAATGCAAGAGGATAA	MRYILPLREGGSLPALAEADDDFKYVLKFRGAGHGVKMLISELLGGKITEALGLKIPELVFVNLDADFGRTEADEEIQDLLKFSEGLNLGLHYLSGSITYDPGVRVDSLLASKIVWLDAFITNIDRTFKNTNMLMWHKELWIIDNGASFYFHHSWQNFDAAAKTPFKYVKDHVLLPKAKMLDEADQFAHEVLNDTLFREIVNMIPEDWLHWNDADETPDEIREIYFQFMKTRLENSQIFVNEAKNARG				NA	NA	NA	NA	NA
BMS003_03222	384			hypothetical protein	ATGCAAGAGGATAAAATATATGAATATGCGGTAATACGCCTGGTACCTAAAGTTGAAAGAGAAGAGTTTTTCAATATCGGGCTGGTGATGTTTTCCAAGAAGGAAAAATTCATCAGAGTGGAATTTTATCTGTGTCCGGACAAATTCAAACTGATGCACAGCAAACTGGATTATGATGATGTTATCCACAATCTGGAAAGCTTTCAGAAGATCGCCAATGGTGAAAAAGATGGAGGGCCTATTGCTTTTCTGGATATTCCGGAACGCTTCCGCTGGCTGACGGCTGTGAGGAGTTCCGTAGTACAGACCTCAAGACCTCATCCGGGAAAATCCAAAGATCTGAATGCTACTTTTGGTAAGCTTTTTGAGGAGTTAGTAAAGTAA	MQEDKIYEYAVIRLVPKVEREEFFNIGLVMFSKKEKFIRVEFYLCPDKFKLMHSKLDYDDVIHNLESFQKIANGEKDGGPIAFLDIPERFRWLTAVRSSVVQTSRPHPGKSKDLNATFGKLFEELVK				NA	NA	NA	NA	NA
BMS003_03223	1038	aes_2		Acetyl esterase	ATGAATTTACCGATAAACAAAATATCAATCTACAGGTTTTTCACAAACCTGTTTTTTGTTTTAACTATAAGTTTTTCTAATTTATTTTTTTCACAGAACTTTTCACAGGTACAGGTTAAGACTCCTCCTGTAAAAAGTATATTACTTCCGGAAATAGCCAATCTGTCTGAAGATATTGTTTATAAAACTGACAGAAATGGAAATGCTGTAAAACTGGATGTTTTTACACCTAAAAGTGCACCTTCAGGTCAGTTGTTACCTGTATTAATCTATGTTCACGGCGGTGGGTGGATAGAAGGTGATAAAGTGATCAATTCGGATAATTATGTTGAAACTACCATTGCAAAGCTGATGGCCAGGCAATATGCCGTAATCAGCATTAATTATACCCTTTTGAATGACAACACTCATTTTCCACTACCTTTAGAAGATACAAAGGATGCAGTAAGATGGGTAAGAAAAAATGCTGCACAATATCACTTTGATACTAATAATATTGGTTTGTTCGGGGCTTCAGCCGGGGCTCATCTATCCCTGATGGCTGCTTATACTCCGGATAATACGTATTTAGGTAATCCGGAACTTTCCTCGTATTCAGCCAAAGTAAACTATGTGATTGATCATTATGGCCCTGCAGACCTCAACAAACTTTTCCATACAAAATTAGGGACAGTTCCGGTAGCGCTGATCGGATTAATATCCAAAAAAATTGTTGGTTTACAGGAAAACCTTGTCAAAGGAATTTCCGGATATGATATCAGAAAAGATCAGGACAGAGCTATTGATTATCTTAAAACGATGTCTCCTGTTCATTTTGTTTCCGGAGGCGTGCCTACTTTAATTGTCCAGGGTAATAATGATAAAATAGTTCCTTTAGCCCAATCTAAAAAGCTTCATAGAAAATTAAACAGAGCCAAAATACAGAACTCTCTGATCATCGTAGATGACGGAGTACATGGTTTCGGTACAACTGATAAAGCTTATCTGGATCAGCTTACAGATCAGATGGTCACTTTCATTATTTCACAGAAGAAATAA	MNLPINKISIYRFFTNLFFVLTISFSNLFFSQNFSQVQVKTPPVKSILLPEIANLSEDIVYKTDRNGNAVKLDVFTPKSAPSGQLLPVLIYVHGGGWIEGDKVINSDNYVETTIAKLMARQYAVISINYTLLNDNTHFPLPLEDTKDAVRWVRKNAAQYHFDTNNIGLFGASAGAHLSLMAAYTPDNTYLGNPELSSYSAKVNYVIDHYGPADLNKLFHTKLGTVPVALIGLISKKIVGLQENLVKGISGYDIRKDQDRAIDYLKTMSPVHFVSGGVPTLIVQGNNDKIVPLAQSKKLHRKLNRAKIQNSLIIVDDGVHGFGTTDKAYLDQLTDQMVTFIISQKK				NA	NA	NA	NA	NA
BMS003_03224	117			hypothetical protein	ATGCCTATAAAAAAACAGTTCAAAATTTCTGAACTGTTTTTACTTTATTATATTGTTTTACAGTATTTTGAAAAGTTACTGAATGAGTGTAGATCTATTATTTCTTCTGTGAAATAA	MPIKKQFKISELFLLYYIVLQYFEKLLNECRSIISSVK				NA	NA	NA	NA	NA
BMS003_03225	2769	btuB_11		Vitamin B12 transporter BtuB	ATGAAAAATAAGAAAGCTATTCTTTCTGTCTCTGTACTGTCTTTCCTCGGCGTATTTACTTATGGTCAGGAAAAGGACAGCATAAAAGCAACTAAAGACACCATAAAAACGAATAATGTAGAAGAGGTAGTAGTATTGGGTTCCAGAGCCGGAGCCAGATCTAAAACTGACAGCCCGGTTCCTGTAGATGTATTCAATGTAAAAGAATCTTCAATTATCCTTCCGCAGACCAATATCGGACAAATTCTGAATGCTGTGGCTCCTTCATTTACTTCTACTATTCAGACCAATTCTGATGGGACTGACCATTTGGATCCTGCCCAGTTGAGAGGTTTGGGACCAGATCAGGTTTTGGTTTTGGTCAACGGAAAAAGAAGACATACTTCAGCTTTGGTCAACGTAAACGGAACACCCGGAAGAGGTACTGTAGGAACTGATTTGAATGCCATTCCTTCTTTTGCTTTGAACAGAATTGAAGTATTAAGAGACGGAGCTTCCGCACAATATGGATCTGATGCCATTGCCGGAGTGATCAACCTTGAATTGAAAAGAGATACAGGGAAACTGGCAGGCCAGATCAGTTATGGGGGGAATCTTACACCAACAGCTAATGATCATACCGGAGATTTTGACGGTCAGAATATTCAGCTGGATCTGAACTATGGGAATAAAATAGGAACTAAAGGTGGTTTCTTCAATATCACCTGGTCTTCACAATTCAGAAATCCAACGTACAGAGCTGGAACAGAAAGCGGTCCTATTTACAATGCCTATAATGCTATTAAACAACGTGCATTAAATGATGGAGTGAATCTTTCTTCTCTTTTTACAAATATTAATAATACTCCCAATTCACAGCAGCTTGTGAATTACATCCATCAATATGCTCAGAATGTAAGCTATTTCTCTCCAGATTTGCAAAACTCTATTCAGGGTGCGAATACTATTTCCGCATTACAGAATGTTTTAAAATCTGCGAATTTTACAAGAGATCAGCTTAATTATATTACAGATCAGGAACTGGCTTACAGAGGGCAGACGAGAAAAGATTTTAACATGCAGGTAGGGCAGTCGAAGCTTAATAATCATCAGTTTTTTGTAAATGCTGAAATTCCTGTAAGTGACAATTGGAAAGTATATACTTTTGGCGGTTACAGCATAAGACACGGTACTTCCGGAGGATTTTACAGGAGACCAAGTGAAAGCAGAACTTTTACAGGATTATATCCTAATGGTTACCTTCCGCAGATCGGAACGGATATCCAGGATATCTCATTAGCAGCGGGAATCAAAGGAAAATGGGAAGGCTGGCATATTGATTTCAGTAATACATATGGACAGAATTCATTTACCTATAATATTCAGAATACAGGAAATACTTCTCTACGTTTTGCTTCACCAAGGGAATTTAATGCAGGAGGATTGAGATTCTCTCAAAATACCATCAATTTAGATTTCTCAAAAAAATATGATATATGGGAAGGAATTAATGTAGCGTTTGGAGCAGAGCACCGTTATGAGAATTTTAAAATTACTCAGGGTGAACAGGCCTCTTATGCAACCTATGACGTTTCCGGAAATGTATGGAACGGAAATTCCTTGAGGCCTACAGATTTCTTCGGAGCAGCACTTCCTGGAGGATCACAGGTATTCAATGGGTTTAAGCCTGACAATGCTGTAGATAAAAACAGACAGTCGGTAGCAGCGTATGCAGATGTGGAATTTAACTTCACCAACTGGTTATTGGTAGACGCTGCCGCGAGATATGAAAACTATTCGGATTTTGGGTCTACATTCAATTATAAACTGGCATCCAGAATTAAGGTAGCCCCTAATTTCAATGTGAGATTTGCCGGTTCTACCGGATTCAGAGCACCATCTATCCACCAGATTTATTATAATGTAACCTCTACATTGTTCACCAATAATCAGCTTTTGGAAGTGGGAACTTTCAGCAATGATTCTCAGCTGGCAGGGTTGCTGGATATGCCAAAACTGAAGCAGGAAACATCCAAATCAGCAAGTGTAGGATTTACCTACAGAATTCCTTCGGCGAGCCTTACCTTTACAGCAGACGGATATTTCACGAGAATTGACAACCGTATTATTCTTACTGACCAATTCTTAAGAAAGGATGTACCGTCTGATGCACAAAAAGAATATGATAAATTAAATGTGAATGGAGCGCAGTTCTTTACCAATGCCATTGATACGGAAACAAAAGGTCTAGATGTTGTCATTTCACACAATGTCAGATTTTCCGGATTTAAATTGGACAATAACTTTGCCATTAATCTTAATAAAACAAAGCAGGTTGGTGATATTCACTCAGCAGGGCTTTTACAGTCGCCACAGCTTGAAAAAGTTTACTTCTCTGAAAAATCAAGAGTATATCTGGAAGAAGCGGTACCTAGAGTGAAAGCAAGTCTTTCGCATACCCTTTCATGGAAGAATGTGAGCTTCTATCTGAGAAATACCTATTTCGGGAAAGTAACCGGTGCTGATATTATTGATGTGAACGGAGACGGAATTATTGATTTTAATGAACACCAGCAGATCGGGGATAAGATCATTACAGATTTATCTGCTGCTTATCAATTTACCAAAAATGTAGGGTTGACTTTAGGAGTAAACAATTTATTTGATATTTATCCAACAAAAAACCTGCCCGCTTCCAGTAATAATGATCAATTCATCTATTCTCGTTCCACTTCACAATTCGGACAGAACGGAAGATATGTTTTTGCGAGACTTAATTTCAATTTTTAA	MKNKKAILSVSVLSFLGVFTYGQEKDSIKATKDTIKTNNVEEVVVLGSRAGARSKTDSPVPVDVFNVKESSIILPQTNIGQILNAVAPSFTSTIQTNSDGTDHLDPAQLRGLGPDQVLVLVNGKRRHTSALVNVNGTPGRGTVGTDLNAIPSFALNRIEVLRDGASAQYGSDAIAGVINLELKRDTGKLAGQISYGGNLTPTANDHTGDFDGQNIQLDLNYGNKIGTKGGFFNITWSSQFRNPTYRAGTESGPIYNAYNAIKQRALNDGVNLSSLFTNINNTPNSQQLVNYIHQYAQNVSYFSPDLQNSIQGANTISALQNVLKSANFTRDQLNYITDQELAYRGQTRKDFNMQVGQSKLNNHQFFVNAEIPVSDNWKVYTFGGYSIRHGTSGGFYRRPSESRTFTGLYPNGYLPQIGTDIQDISLAAGIKGKWEGWHIDFSNTYGQNSFTYNIQNTGNTSLRFASPREFNAGGLRFSQNTINLDFSKKYDIWEGINVAFGAEHRYENFKITQGEQASYATYDVSGNVWNGNSLRPTDFFGAALPGGSQVFNGFKPDNAVDKNRQSVAAYADVEFNFTNWLLVDAAARYENYSDFGSTFNYKLASRIKVAPNFNVRFAGSTGFRAPSIHQIYYNVTSTLFTNNQLLEVGTFSNDSQLAGLLDMPKLKQETSKSASVGFTYRIPSASLTFTADGYFTRIDNRIILTDQFLRKDVPSDAQKEYDKLNVNGAQFFTNAIDTETKGLDVVISHNVRFSGFKLDNNFAINLNKTKQVGDIHSAGLLQSPQLEKVYFSEKSRVYLEEAVPRVKASLSHTLSWKNVSFYLRNTYFGKVTGADIIDVNGDGIIDFNEHQQIGDKIITDLSAAYQFTKNVGLTLGVNNLFDIYPTKNLPASSNNDQFIYSRSTSQFGQNGRYVFARLNFNF	PGPT0003790_3491	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
BMS003_03226	2331	pcrA_2		ATP-dependent DNA helicase PcrA	ATGGACTATTTGAAAGGACTCAATGAATCACAATATGAAGCCGTTACCTCTTTACAGGGACCCCTGATGGTACTTGCCGGAGCAGGTTCCGGGAAAACGCGTGTACTGACCATGCGTATTGCCCATTTAATACATAACGGAATAGATCCTTTCAATATCCTGGCCCTTACCTTTACCAATAAAGCGGCAAGAGAAATGAAAGACCGTATTGCTAAAGTGGTAGGCGACAGCAATGCAAGAAGTCTTTGGATGGGAACATTTCACTCGGTTTTTGCAAGAATTCTGAGAATTGAGGCTCACTATCTTGGATATCCTTCCAATTTTACCATTTATGATCAGCAGGATGCTCTGAATGTGATTAAAAAAGTTCTGAAGGATATGAATATCGATGCCGATCTTTATAAACCTAAGAAGGTTCAGGCAAGAATCTCAACGTATAAGAATAACCTGATTACGGTAAAAGCTTATTTCAACAATCCTGAACTGATGGAAGCAGATGAAAAGGCAAATATGAAATTCATCGGGCAGATTTATCAGAAATATGTGGATCAGTGTTTCAGAAACGGATCTATGGATTTTGACGACCTGTTGTTGAAAACCAATGAACTGTTGACTCGCTTTCCGGAAGTATTGGCAAAGTATCAGGACAGATTCCGATATATAATGGTAGATGAGTACCAGGATACCAACCATTCTCAGTATCTTATTGTTAAGGCTTTAGCTTCAAAATTCGAGAATATCTGTGTAGTAGGGGATGATGCGCAGTCTATCTATTCTTTCCGTGGAGCGAATATCTATAATATCTTAAACTTTAAAAAAGATTATACAGATGCCAAAACGGTATCTTTGGAACAGAATTACCGTTCTACGCAGAATATTGTAAATGCGGCTAATGTAGTGATTGCTAAAAACCTTCAACAGTTTAAGAAAAATGTTTTCAGTGATAATGAAGAAGGAGATAAGATTAAAATTTACCGTTCTCTTTCTGATGCTGATGAAGCCAACTTCGTGGCTGGAAATATCTGGGAACTTCGTAACCGTGACCAGAGAAAATACAGCGATTTTGCCATTTTATACAGAACCAACTCTCAGACTCGTGCTTTTGAAGATGCGCTGAGACGTAAAAATATTCCGTACAAAGTTTATGGAGGCCTTTCTTTCTATCAAAGAAAAGAAGTAAAAGACCTTATTGGATACCTTCGTCTTCTGATCAATGAAAACGATTCTGAAGCATTAATGAGGATTATCAATTACCCGGCAAGAGGAATTGGAGAAACGACGCAGAATAAACTGATCGTTTTTGCAGATGCTCACAATCTTGCGGTTTCAAAAGTATTGGAAAATCTTCCGATGTATGCACCACAGTTAGGTCTGAACAATGGAGTTTTAAACAAACTGACTGACTTCTGGTCCATGATCAAGGCTTTTCAGGTGTTGCTGAAAACAGAAACGGCTTACAGTGTGGCTATGGAAGTGGCTAAACGAAGCGGTTTAATCAAGTTTTTAAAAGATGATCAGACACCGGAAGGAATTTCAAGAGTAGAAAACGTACAGGAATTGATGAACTCTATGCAGGGATTCATTGAAGAACAGATGCAGCTTGAAGATGGTGATCCAAGTCTTTCCAATTTCCTTGAAAACATTGCACTTTCTGCAGATACTCAGGATAAGGAACTGGAAGATGATATGGTTTCTCTGATGACTATTCACCTTTCAAAAGGATTGGAATTTCCTGTGGTACATTTGGTAGGACTTGAAGAAAATCTGTTTCCCAGCTTTATGAGTTCGGCAACCAGAGAAGATCTGGAAGAAGAACGAAGATTATTTTACGTGGCCTTGACAAGAGCTGAAAAGCAGGTCTTTTTTTCGTATGCTGTTTCCCGTTTCCAATGGGGTAAAATCACAGATGCTGAACCTTCAAGATTCTTAAGCGAAATTGATGAGGAATATATTGAATTTCTTAATCCGGCTCTGGAAAAAAGATTTATTAATAATTCAGGAGTGAAGTCCAATATTTTTGATGAACATCCTTCAGAAATGAAATCTTTTAAAAAGGTGGATAAGAAGACCATTGACAGGGGAGATACTTCGAAACCGGCTCCTGAAGTCAGAAAACTGAAACCGGTAAGCACGGCTAAAATTATCAATCCAAGCGGAGCTTCTTCTCAGGATATTGAAGTAGGAGATAAAGTGAGACACGACCGTTTTGGAATAGGAGAAGTTACTTTCCTGGACGGAACAGATCCTCAGAATATCAAAGCCAAAGTAGTTTTCATGCATGAAGGTGAGAAAAATCTTATCCTTAAATACGCTAAACTGACTAAGATATAA	MDYLKGLNESQYEAVTSLQGPLMVLAGAGSGKTRVLTMRIAHLIHNGIDPFNILALTFTNKAAREMKDRIAKVVGDSNARSLWMGTFHSVFARILRIEAHYLGYPSNFTIYDQQDALNVIKKVLKDMNIDADLYKPKKVQARISTYKNNLITVKAYFNNPELMEADEKANMKFIGQIYQKYVDQCFRNGSMDFDDLLLKTNELLTRFPEVLAKYQDRFRYIMVDEYQDTNHSQYLIVKALASKFENICVVGDDAQSIYSFRGANIYNILNFKKDYTDAKTVSLEQNYRSTQNIVNAANVVIAKNLQQFKKNVFSDNEEGDKIKIYRSLSDADEANFVAGNIWELRNRDQRKYSDFAILYRTNSQTRAFEDALRRKNIPYKVYGGLSFYQRKEVKDLIGYLRLLINENDSEALMRIINYPARGIGETTQNKLIVFADAHNLAVSKVLENLPMYAPQLGLNNGVLNKLTDFWSMIKAFQVLLKTETAYSVAMEVAKRSGLIKFLKDDQTPEGISRVENVQELMNSMQGFIEEQMQLEDGDPSLSNFLENIALSADTQDKELEDDMVSLMTIHLSKGLEFPVVHLVGLEENLFPSFMSSATREDLEEERRLFYVALTRAEKQVFFSYAVSRFQWGKITDAEPSRFLSEIDEEYIEFLNPALEKRFINNSGVKSNIFDEHPSEMKSFKKVDKKTIDRGDTSKPAPEVRKLKPVSTAKIINPSGASSQDIEVGDKVRHDRFGIGEVTFLDGTDPQNIKAKVVFMHEGEKNLILKYAKLTKI				NA	NA	NA	NA	NA
BMS003_03227	1314			hypothetical protein	ATGAAAAAGCGACTTCTTTCTGCAGCTGCCGTAGCTTTCTTCGGGCTAATGCTGAATGCACAGCAAATCAAATTCGAAGAGTATGACCTTCCCAACGGTCTTCACGTAATTCTTCATCAGGATAACTCTGCACCGGTTGTAACAACGGGTGTCATGTACCACGTAGGAGCGAAAGATGAGGTAAAAGGCAGAACAGGTTTTGCTCACTTCTTTGAACACCTTTTATTTGAAGGAACTCCAAACATCAAAAGAGGAGACTGGTTCAAAATCGTTTCTTCCAACGGAGGGCAGAATAATGCCAACACTACCAATGACAGAACTTATTATTATGAAACGTTCCCTTCCAACAACGAACAGCTTGGACTTTGGATGGAGGCTGAAAGAATGCGTCACGCTGTGATCAATCAGATTGGTGTGGATACCCAGAGAGAGGTTGTAAAAGAAGAAAAAAGATTAAGAATGGACAACCAGCCTTATGGAAATCTTTTTACTACTATTCAGAAAAACTTATTTACCAATCACCCATACAACTGGCCAACAATTGGTTCTATGGAAGATCTTAACTCTGCTAAGCTTGAGGAATTCCAGGCATTCTACAAAAAGTATTACGTTCCGAATAATGCTACTTTAGTAGTTGCAGGAGACATCAAACCTGAACAGACCAAGAAATGGATCGAAACGTATTATGGAGGAATTCCAAAAGGTACGCTTTATCCAAAAGATTTCCCGAAAGAAACGCCTATCACTCAGGAAAAAGAAGTTACGGCTACTGACCCGAACATTCAGCTTCCGGCTTATATTTTCGCATACAGAACCCCTGCCAACAAAGAAAAAGATGCCTATGTTTTAGATATGCTTTCTTCTTATTTAAGTAATGGTAAGTCTTCTGTTCTATATAAAAAATTGGTTGACCAGGATAAAAAAGCTCTTCAGGTAGGTGCTTTCAATCAGGGACTTGAAGACTACAGTATTTTTGCATTCTATGCTATTCCAATGGGACAGACTAAGAAGCAGACTTTACAGGCTGATATTGATGCTGAAATCAAAAAGCTTCAGACGACTTTAATTTCTGAGGAAGATTATCAAAAACTTCAAAACCAGTACGAAAACCAGTTTGTAAATTCCAACTCAAGCATTCAGGGAATTGCTGCTTCATTAGCAACCAATCATGTATTAATGGGCGACACGAATTTGATCAACAAAGAAATCGACATTTACAGATCCATCACCAAACAGGATCTTCAAAATGCGGCTAAAAAGTATCTTAATTCCAACCAAAGAATAATCATTAATTACGTACCTGAGAAAAAGTAA	MKKRLLSAAAVAFFGLMLNAQQIKFEEYDLPNGLHVILHQDNSAPVVTTGVMYHVGAKDEVKGRTGFAHFFEHLLFEGTPNIKRGDWFKIVSSNGGQNNANTTNDRTYYYETFPSNNEQLGLWMEAERMRHAVINQIGVDTQREVVKEEKRLRMDNQPYGNLFTTIQKNLFTNHPYNWPTIGSMEDLNSAKLEEFQAFYKKYYVPNNATLVVAGDIKPEQTKKWIETYYGGIPKGTLYPKDFPKETPITQEKEVTATDPNIQLPAYIFAYRTPANKEKDAYVLDMLSSYLSNGKSSVLYKKLVDQDKKALQVGAFNQGLEDYSIFAFYAIPMGQTKKQTLQADIDAEIKKLQTTLISEEDYQKLQNQYENQFVNSNSSIQGIAASLATNHVLMGDTNLINKEIDIYRSITKQDLQNAAKKYLNSNQRIIINYVPEKK	PGPT0001280_5072	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS003_03228	2046			hypothetical protein	ATGAAAAAGCAATTAACATATATAGCTGCAGCATTTTTCTTCACAGGAATGGTTTCAGCACAGAAAATAGATCTTAATGCAATGCCAAAGCCAGGGCCAAGTCCTGTAATTAATATTGCCAAGCCAAAAACTTTCCAGCTAAGCAACGGCCTTACGGTGATGGTAGTAGAAAACAATAAGCTTCCAAGAGTAAGCGCCAGTCTTTCTATGGACAGACCTCCATATAATGAAGGAAGTGTAACTGGTGTAAGCCAGATTATGGCAGCCCAGTTCGAAAACGGAACAACCAACATGAGCAAAGATGATTTCAACAAAAAAGTAGATTATCTTGGTGCAAACCTTAATTTCTCTTCAAGAGGTGCTTCTGCCAATTCTCTGTCAAAATATTTCCCTGACGTATTAAACCTGATGGCAGATGCCGTCATCAATCCTAAGTTCTCTGCTGAAGAAATTCAGAATTCTAAAGAGAGAGCACTTGAAGGGTTAAAAGCTGATGAAAAAAATGCGTCTTCTATTGCAGAAAGAGTTTCTAAAGCATTGATGTATGGAAAAAATACATCCAGAGGTGAGTTTGAAACCGTTGAATCTATCAACAAAATTCAGCTTTCTGATGTTCAGAATATTTACAAAAAATACTACACTCCGGATAACGCTTACCTAGTGATTGTAGGAGACGTAAAATTTGATCAGGTAAAACCTTTGATTGAAAAAGCTTTCAGTGGCTGGAAAAAAGCAAATACTCCTATTGCACCCTTGGAGCCAGCTTCTAATGTTGCCAAAACAGAGATCAACGTAGTAGATGTTCCTTCTGCAGTACAGTCAGTGGTTTCATTAAACAACCTGACTAACCTGAAAATGAAAGATGCCAACTACTTCCCTGCTACAATCGCCAACTACATCCTTGGTGGTGGTGGCGAAGCAAGACTTTTCATGAACCTTCGTGAGAAAAACGGATTTACGTATGGAGCTTACTCAAGTATGGTAGCCAGCAAATATTCTCCTGAGTTTTCTGCAAGTGCAAGTGTAAGAAATGAGGTTACTGACAAAGCAGTGAAGGAATTCATGAATGAACTTAATGCAATTTCTACAGTAAAACCAGAAGAATTAGCAAATGCTAAAGCTAAGCTGAAAGGAGCTTTCATCATGTCTCTGGAGCAGCCGGCTACTATTGCAAGATTTGCTTTAAACCAAAAAGTACAGAATTTACCCGCTGATTTCTATACCAATTACTTAAAGTCTATTGATAAAGTAACTGCTGCAGATGTTTCCAATGCTGTAAAAGCTACTATTTTACCAAACCAAAGCAGAATTTTCATCGCCGGTAAAGCGTCTGATATCTCTGAAGGTCTGGAAAAACTGGGTTATGCTGTAAAATATTTTGATAAAGATGCGAACCCTGTTGCAAAACCTACTGTACAGAAAGTAGATGCCAGCGTAACGGTAGCTTCTGTAGTTGACAAATACATCAATGCTATCGGAGGAAAAGCTAATCTGGCTAAAATTACGTCTTATACTACAATTGCTTCCATGTCTATGCAAGGGCAAAACATCGATTTCAAAATCATTAAAGCACAAGGCGGAAAAGAGCTTACTACTGTAACAGCAATGGGACAGGTTGTTCAAAAGCAGGTATTTGACGGAAAAACAGGTTATTCTATGCAAATGGGGCAAAAAATTGATATCACTCCGGAGGAAATTGCTGAAAAGCAAAAAAATCCTGAACTTTTCGAAGAGTTAGGTTTTGCAAAATCTGCTGATTATAAATTAAGCGGAATTGAAAAAATCGGGGGTGAAGATTCTTATGCCATTAAAGGTGGAGATACTATGTATTACTACAGTGTTGCAACAGGATTAAAGACCGGAGAAACCAAAAAAGTAAAAGCTAAAGGTCAGGAAATGACCATCCCAACTACATTCTCTAATTACAAAGATGTAAACGGAGTAAAAATGCCTTACACCATCTCTGTAAGTCAAATGGGAATGGATATGACCATGACTGTAAAGTCTTATGAGATCAATAAGGCTACTGATGCTGATTTTAAATAA	MKKQLTYIAAAFFFTGMVSAQKIDLNAMPKPGPSPVINIAKPKTFQLSNGLTVMVVENNKLPRVSASLSMDRPPYNEGSVTGVSQIMAAQFENGTTNMSKDDFNKKVDYLGANLNFSSRGASANSLSKYFPDVLNLMADAVINPKFSAEEIQNSKERALEGLKADEKNASSIAERVSKALMYGKNTSRGEFETVESINKIQLSDVQNIYKKYYTPDNAYLVIVGDVKFDQVKPLIEKAFSGWKKANTPIAPLEPASNVAKTEINVVDVPSAVQSVVSLNNLTNLKMKDANYFPATIANYILGGGGEARLFMNLREKNGFTYGAYSSMVASKYSPEFSASASVRNEVTDKAVKEFMNELNAISTVKPEELANAKAKLKGAFIMSLEQPATIARFALNQKVQNLPADFYTNYLKSIDKVTAADVSNAVKATILPNQSRIFIAGKASDISEGLEKLGYAVKYFDKDANPVAKPTVQKVDASVTVASVVDKYINAIGGKANLAKITSYTTIASMSMQGQNIDFKIIKAQGGKELTTVTAMGQVVQKQVFDGKTGYSMQMGQKIDITPEEIAEKQKNPELFEELGFAKSADYKLSGIEKIGGEDSYAIKGGDTMYYYSVATGLKTGETKKVKAKGQEMTIPTTFSNYKDVNGVKMPYTISVSQMGMDMTMTVKSYEINKATDADFK	PGPT0001280_2272	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS003_03229	342			hypothetical protein	ATGGATACTATATTTACACTATTGATGGTTCTTATTATGGTTGCCAGTGTTTTATTGGTAATTATCGTTATGGCACAAAATCCAAAAGGAGGAGGCCTTTCCAGTACATTCGGAGGTGCGTCATCTGCACAGTTCGGAGTACAAAGAACCAATGATTTCATGGAAAAAGCAACATGGACTCTAGGCGGAACTATCATAGTTCTTATCCTTTTAAGCGTTGTTATTACAGGTAAGCCATCTCAGGCACTTCCTTCACAGCAGCAGCCAGCAAAGAAAGAAGCTCCGGCTAAATCAACTCCAGCTTCCAAGACTGCAACTCCGGCACAGGCTCCGGCTAAATAA	MDTIFTLLMVLIMVASVLLVIIVMAQNPKGGGLSSTFGGASSAQFGVQRTNDFMEKATWTLGGTIIVLILLSVVITGKPSQALPSQQQPAKKEAPAKSTPASKTATPAQAPAK	PGPT0025720_1607	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
BMS003_03230	834	wbbL	COG1216	N-acetylglucosaminyl-diphospho-decaprenol L-rhamnosyltransferase	ATGAAGCTGTCTGTTATTATTGTTAATTATAATGTTACCCAATTGCTCAGAAGCTGTCTTCTGTCTCTTCAGAATTATGTAAAGGAGGTAGAGTATGAAGTGATTGTAATTGATAATGCTTCTGCAGACACCTCCTGGAGAGATCTTATCTCCGAGTTTCCTAACGTATATTTTATACCATCCGCAACAAATGAAGGTTTTTCAAAAGCTAATAACCAGGCTGTCAAAACGGCAAAAGGGGAATATATTCTGCTTTTGAATCCTGATACGGAATTTGAAGGCTTTTATATGAAAGAACTGCTGGATTTTGCTGATGCTCAGTCTTCATTCGGATGCCTGGGAGTAAGAATGCATGATGCAGAAGGAAACTTTCTTCCTGAAAGCAAGCGTTCAGTTCCGGATATGTTTAATTCTTTTGAAAAGCTCTTTACCAATTTTAAAAAGAATAATTCGAAATCTTATTACAGAAACGATATCGAAGAAAATGCTGTTGAAGAAGTGGATGTGATTACCGGAGCATTTTTATTGACTAAAAAAGAGGTTTACAAAAAAATAGGGGGGCTGGATGAAGCTTACTTCATGTATGGAGAAGATATTGATCTCTGCTATACATTTTTAAGAAGCGGATATAAGAATTTCTATTATGGTAAGGTTTCAATACTTCATCATAAAGGAGAAAGTACGATTAGAGATGAAGTATATCTTAACAGGTTTTATGGAGCTATGCAGATTTTTATTGATAAATATTATAAAGAGTCAAAGCCTGTACAGCATTCGTTTTTAAAGGCAGGGCTGAAGCTTCGTCATCAGATTGAAAAGATTAAGCTGAAATAA	MKLSVIIVNYNVTQLLRSCLLSLQNYVKEVEYEVIVIDNASADTSWRDLISEFPNVYFIPSATNEGFSKANNQAVKTAKGEYILLLNPDTEFEGFYMKELLDFADAQSSFGCLGVRMHDAEGNFLPESKRSVPDMFNSFEKLFTNFKKNNSKSYYRNDIEENAVEEVDVITGAFLLTKKEVYKKIGGLDEAYFMYGEDIDLCYTFLRSGYKNFYYGKVSILHHKGESTIRDEVYLNRFYGAMQIFIDKYYKESKPVQHSFLKAGLKLRHQIEKIKLK	PGPT0024205_983	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGL-RHAMNOSYLTRANSFERASE_ACTIVITY,PGPT0024205-wbbL-K16870	NA	NA
BMS003_03231	612	recR	COG0353	Recombination protein RecR	ATGGATTACCCAAGTAAAGTGTTGGCAAAGGCAGTGGATGAGATTTCCGGACTGCCTGGGATTGGAAGAAAAACGGCTTTGAGGTTAGCATTACATTTGTTGAAGCAGCCCAATTCCAGAGCCGTAAGTCTTGGAAATTCCCTGATTAATCTTGTGAACGAAATAAAATACTGCAAAGAATGTCATAATTTTTCAGATTTTGACATCTGCGAAATATGCAGTAATGAAAGGAGAAATGGCGAACTGATCTGTATCGTTGAAGATGTGCGTGACGTGATAGCTATTGAGAATACAGGGAAATACACGGGCAAGTATCTTATTCTTGGCGGAAAAATTTCTCCTATGGAAGGAGTAGGCCCCGGTCAGCTGAACATCCCGAGCATTGAAAAGAAATTGAATGATGGAAAAGTAAAAGAATTTATTTTTGCATTGAGTGCTACTATGGAAGGAGATACGACAGCCTATTACATTTACAAGAAATTTAAAAGCTTCAATGTGAATTTTTCAAGCATTGCAAGAGGGATTTCGGTAGGAGATGAGCTGGAATATGCCGATGAAATCTCTTTGGGAAGGTCTATTATCAACAGGTTGCCATACAACGAAAAGGATTAA	MDYPSKVLAKAVDEISGLPGIGRKTALRLALHLLKQPNSRAVSLGNSLINLVNEIKYCKECHNFSDFDICEICSNERRNGELICIVEDVRDVIAIENTGKYTGKYLILGGKISPMEGVGPGQLNIPSIEKKLNDGKVKEFIFALSATMEGDTTAYYIYKKFKSFNVNFSSIARGISVGDELEYADEISLGRSIINRLPYNEKD				NA	NA	NA	NA	NA
BMS003_03232	606			hypothetical protein	ATGGTACTTAACAACCTTAATTATCCTCTGGATTTCAAATTCAAAATCACTACTTTAGCAAGCGACTTCAACATTACTGACAGAAATGGAAATTATGTAGCCTATGTTCGTCAGAAAATGTTTAAGTTAAAAGAAGATGTTATTATCTTTAATGATGAGAGCAAGTCTAAAGAACTCTTCAGAATCAGAGCTAATCAATGGATAGATTTTAATGCTTCATATTCTTTGAATGATCTTATTGATAATAAAAATTTTGGCAGATTAGCCAGAAAAGGGATGCGTTCTATCTGGAAAGCAAGTTATGATATTCTGGATGCACAGGATCAGCCTAAGTTTAAAATTCAGGAAGACAATGCATGGGTAAGATTCTGGGACAGTTTTGTAGGGGAACTTCCTATCATAGGAATGTTCACGGGATATTTCCTTAACCCAACATATACTGTAACAGGAATTGACGGAAAAGCTTATTTTAAGCTTAAAAAAATGCCTTCATTCTTTGGAAGAAGATTCCAGCTGGACAGACTGATCGATATTGATGATGAGGAAGAAAGTTTGGTAATTCTTTCTTTATTAATGATGACCCTTCTTGAAAGAGCAAGAGGATAA	MVLNNLNYPLDFKFKITTLASDFNITDRNGNYVAYVRQKMFKLKEDVIIFNDESKSKELFRIRANQWIDFNASYSLNDLIDNKNFGRLARKGMRSIWKASYDILDAQDQPKFKIQEDNAWVRFWDSFVGELPIIGMFTGYFLNPTYTVTGIDGKAYFKLKKMPSFFGRRFQLDRLIDIDDEEESLVILSLLMMTLLERARG				NA	NA	NA	NA	NA
BMS003_03233	492			hypothetical protein	ATGAAATATTTAATCATTTTATTTTCAGCATTTCTACTGGTAGCCTGCAAAAAGGAAAAAGAAACTGTATCAGGTTCTGCTACTGCCGATTCTTTACATGTTGCTAAAGACAGTGCATCAATAGGTCACTCTTCAGGAAATATTCTGGTAGGAACAATCCCTTTTCCACAAGAAATCAAAGAATGCTCCTGTTATTTTGCTGCAAGCAAAACTGATTTTGAAAATGAAAGATACATCTACGCTGATGATGCCGGAAAAACAGCTTATATGATGCTGGATGGCAAAAGACTGGCTATGAATCTTATCTCATCAAGTGACATGGAAGTGGATGAGGTGCTTACCAAAGAAATAGAAAATGACGATTATAAAATTTCTGTAAAAGGTAAAAAAATAAAAGGCGAAGAAGCTTTGCTGTTTGAAGGAACTTTAACCGTTGAAAAACCAGACGGTACAATCTTTACAACTCCGATCTATGGAGAATGTGGATGTTAA	MKYLIILFSAFLLVACKKEKETVSGSATADSLHVAKDSASIGHSSGNILVGTIPFPQEIKECSCYFAASKTDFENERYIYADDAGKTAYMMLDGKRLAMNLISSSDMEVDEVLTKEIENDDYKISVKGKKIKGEEALLFEGTLTVEKPDGTIFTTPIYGECGC				NA	NA	NA	NA	NA
BMS003_03234	1443	pepD	COG2195	Cytosol non-specific dipeptidase	ATGGAATTATCTAATATAGAACCGCAGATTATCTGGAAAAATTTCTCCAAATTAAATGCTGTTCCAAGGCCTTCAAAAAAGGAGGAAAAAGTAATAGCCTTTATCCAAGGGTTTGGCGAAAATTTAGGACTGGAAACTACGGTGGATGAAGTAGGAAATGTTATCATTAAGAAATCTGCCACTGCAGGAATGGAAAACCGTAAATCTATTGTGCTTCAATCACACCTTGATATGGTTTGCCAGAAAAATAATGATGTAAATTTTGATTTTGAAACCGAAGGAATCAAAATGGAAATTGACGGTGACTGGGTAAAGGCTAAAGGAACTACTTTAGGGGCAGATAATGGCTTAGGAGTAGCTACCATCATGTCTATCCTTGAAAGTTCAGATATTCCGCATCCTGCATTGGAAGCTCTTTTTACGATTGATGAAGAGACTGGGATGACAGGTGCTTTAGGACTAAAACCAGGACAGCTTACAGGGCAAATTCTATTGAATCTTGACACCGAAGAAGATGACGAAATTGATATAGGATGTGCAGGAGGTGTAGATGTAACGATTACTCAAACCTATGCTACAGAAGCTTCAAAAGGACAAATTGTAAGACTTGAAGTAAAAGGGCTTCAGGGAGGACATTCCGGAATGGATATCCATAAAGGTTTCGGAAACTCAAATGTTATTTTGGGAAGACTTCTTTACAACGGACTGGAAAACCAGAATATTGAACTGATCTCTATCGACAGCGGAGGTTTGAGAAATGCTATTCCAAGAGAAGGTGCTGCTGTTATTTCTGTGAGAAATGCTCAGGAATTTATCGAAAATGTGACTGTTCTTAAAAAAGATATCTTAGAAGAATTTGCAACGGTAGAACCGGGAATTCACATCAATATTGAGAACTCTACATCTTCTGAAAAAACTATTTCAGAAGGCGATTCCAAAAAGGTAATCCTTACTTTAAAAGCTCTTCACAACGGAGTTTACAGAATGAGCCCTGATGTGGCTGATCTTGTAGAAGCTTCCAACAACGTTGCAAGAGTAGAACTGAAAGGCGGAGAGCTTAAGATTTTGAATCTTACAAGATCTTCTGTAGATTCTTCCAAATATTCAGTAGCAGAGCAATTAAAATCTGTAGCAGAGCTGGCCGGAATGAACGTTGAATTCAACGGATCATACCCGGGATGGAAGCCAAAACCAGGTTCAGAGATTGTACAACTAATGGAAAAGCTTTATACTGAAAAGTTCAGTGAAAAACCTCATGTAGTTGCATGCCACGCAGGTCTTGAGTGTGGGATCATCGGTGCCAACTATCCTGAAATGGAAATGGTAAGCTTTGGACCAACCATCAGAGGAGCTCACTCTCCTGACGAGAAAGCAAACATCCCTTCTACTCAGAAATTCTGGAGCTTCCTGAAAGATATTTTAGCGAATATTCCTCAGAAATAG	MELSNIEPQIIWKNFSKLNAVPRPSKKEEKVIAFIQGFGENLGLETTVDEVGNVIIKKSATAGMENRKSIVLQSHLDMVCQKNNDVNFDFETEGIKMEIDGDWVKAKGTTLGADNGLGVATIMSILESSDIPHPALEALFTIDEETGMTGALGLKPGQLTGQILLNLDTEEDDEIDIGCAGGVDVTITQTYATEASKGQIVRLEVKGLQGGHSGMDIHKGFGNSNVILGRLLYNGLENQNIELISIDSGGLRNAIPREGAAVISVRNAQEFIENVTVLKKDILEEFATVEPGIHINIENSTSSEKTISEGDSKKVILTLKALHNGVYRMSPDVADLVEASNNVARVELKGGELKILNLTRSSVDSSKYSVAEQLKSVAELAGMNVEFNGSYPGWKPKPGSEIVQLMEKLYTEKFSEKPHVVACHAGLECGIIGANYPEMEMVSFGPTIRGAHSPDEKANIPSTQKFWSFLKDILANIPQK	PGPT0020955_1290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020955-pepD-K01270	NA	NA
BMS003_03235	582		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGAAAAGTATAACCGTATTCTGTGGCTCAAGCTTCGGCACAGATAAAATTTATGAAGAACAGGCATTTCTACTGGGACAAACTCTAGCAAAACAAAATATAAAACTGGTTTATGGTGGCTCAGAAACTGGCTTAATGGGAACAGTTGCGAATGGTACTTTAAGTGAAAAAGGTAAAGTAACCGGAGTCCTTCCCCACTTTTTACAATCCAAAGAAATTGCCCACAAAAATCTGACAGAACTCATCATCGTGGAAACCATGCATGAAAGAAAGACCAAAATGAATGAACTTTGTGATGGAGTCATCGTTCTTCCCGGTGGCTACGGAACGCTGGAAGAGTTTTTCGAGATGATCACATGGGCACAGCTTGGTCTTCACAAAAAACCGATCGGAATTTTGAATATTGACGGATTTTATGATGATCTTATCAAACTTGTTCAAACCATGGTGGATAAAGGATTTTTAAAACAGGCAAACAGAGATATGCTACTGATTAGTGATACCATTGATAATCTGTTGGAAAAGATGAGAAATTACCAGGCTCCTACGGTTGGAAAATGGATTTCTAAGGAGGAAATATAA	MKSITVFCGSSFGTDKIYEEQAFLLGQTLAKQNIKLVYGGSETGLMGTVANGTLSEKGKVTGVLPHFLQSKEIAHKNLTELIIVETMHERKTKMNELCDGVIVLPGGYGTLEEFFEMITWAQLGLHKKPIGILNIDGFYDDLIKLVQTMVDKGFLKQANRDMLLISDTIDNLLEKMRNYQAPTVGKWISKEEI	PGPT0007225_604	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
BMS003_03236	1059			hypothetical protein	ATGGATTTAATAGAATTTAATAAAAAAGTAAAAGAAACCTTTCCTCCGTTTAGAAATAAACATTTGTCAGGAAATATTTTAGAGATAACTGAAAATTATTTAAGTGAATTTTATTTCCTAGTCTCTGAAATTGACGATTATATATATGGAGATATTACAAAAAATCATATTCTATACAAAATAAAAATTCAAAATGATGGTATTTTAAAAGCAATTAAACACTTTTTAGCTGGAGAAATTATTGAATATTATATTACAATTTATGATACATTTTTTAATAGTAATTTAGGTTTAAGAAATATTTATTACAAAAAATTTCCAGAAAAAATACCATTTTTTAGACTAAGAACAAACTCTCCCAATAAAAAATTCAAAAATCATGAAATGTTTCACATCCCTTTTGAAGAAGTTCGGAGAACTGGAAACCAAAGATTTTCATTATCAGGCCATCCCTCTCTTTATTTAGGAAGTTCAACCTACATCTGCTGGGAAGAACTTTCAAATCCTAGCTTAGAAACTTGCAATTTTTCGGTTTTAAGAAATGAAGAAGAGGTTGTTTTATTTGATTTAACACCACCATCAGAAATAAAAAAAATGGAAGACATCTTAAGATATCCATTAATTATATCATCTTCAATAAAATTTACTGACAATGGATTTACTTTTAAACCTGAATATATAATACCTCAAGCTATTTATTTTTCATTACTTAAATTTAATAAAGACTTATTAGCAAAAGAAAAAGAATTTAATATAAATAAATTAGATGGAATTATATATTTATCAACACATATTTCACATGAGTTATTATTTTCCGATTTAGACTTAATGTGTAACTATGTATTTCCTGTTGAAAATATTGCAGAAAGAGGATATTGTGAAAGATTAAAGAAATTATTCTCTATTTCAGAACCAAAATCAATTAATGATCTATGGTTAAAATTCCCTCACTTATTTTTAGAAAAGACAACTTATCAAGAAGAGTATGAACTATCAATATTTAATACAATAGAAAAATATATTTGTGGTAAGACAGTCTCTAGATCTTTAATTGATTAA	MDLIEFNKKVKETFPPFRNKHLSGNILEITENYLSEFYFLVSEIDDYIYGDITKNHILYKIKIQNDGILKAIKHFLAGEIIEYYITIYDTFFNSNLGLRNIYYKKFPEKIPFFRLRTNSPNKKFKNHEMFHIPFEEVRRTGNQRFSLSGHPSLYLGSSTYICWEELSNPSLETCNFSVLRNEEEVVLFDLTPPSEIKKMEDILRYPLIISSSIKFTDNGFTFKPEYIIPQAIYFSLLKFNKDLLAKEKEFNINKLDGIIYLSTHISHELLFSDLDLMCNYVFPVENIAERGYCERLKKLFSISEPKSINDLWLKFPHLFLEKTTYQEEYELSIFNTIEKYICGKTVSRSLID				NA	NA	NA	NA	NA
BMS003_03237	330	cndB2		Chloroacetanilide N-alkylformylase 2, ferredoxin component	ATGTCAGACGTTAATATTAAAATCACCGACAGAGAAGGTGTAACCCACGATGTCGTAGCCCCTACGGATATGTCCATGAACCTAATGGAAATTATCCGTTCCTATGAATTGGCAGAAGAAGGTACTATTGGGGTATGCGGAGGAATGGCGATGTGTGCTTCATGTCAGGTATATGTAATCAATGATCCTGGTCTCGAACCGATGGGAGATGAAGAAGACGCAATGCTTGCTGAAGCTTTCCATGTGAAAGACAACAGCAGATTGGGATGTCAGTTGCATATTGCCGATGCCATGGAAGGACTCCAAGTGGAAATTGCTCCTTATCCTTAG	MSDVNIKITDREGVTHDVVAPTDMSMNLMEIIRSYELAEEGTIGVCGGMAMCASCQVYVINDPGLEPMGDEEDAMLAEAFHVKDNSRLGCQLHIADAMEGLQVEIAPYP	PGPT0030805_915	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-MITOCHONDRIAL_FERREDOXIN,PGPT0030805-fdx|fdxB-K22071
BMS003_03238	1056		COG0492	Ferredoxin--NADP reductase	ATGATAACCACTGATATATTGATCATAGGTGCGGGGCCTACAGGACTTTTTGCAGTTTTTGAAGCTGGTTTATTAAAAATGAAGTGTCATATTATTGATGCGCTTCCGCAACCGGGAGGGCAATTGGCAGAACTTTATCCTAAAAAACCTATCTTCGATATCCCTGGTTATCCTTCCGTGAACGCCGGAGAATTGGTGGATAATCTGATGGAGCAGATCAAGCAGTTTCAGCCTGGATTTACTTTAGGTGAAACCGCTGTTTCTTATACAAAGGTTGATGATGAGTGGTTTGAAGTGATTACCAATAAAGGAACTGTCCACAGATGTAAAGCAATTGCCATTGCAGGTGGATTGGGAACTTTTGAGCCAAGAAAGCCTACTTTTGAAAATATTGCTGATTATGAAGAAAAAGGTCTTGAGTATTTCGTTAAAGAACCTGAGCACTTCAGAAATAAAAAAGTTGTCATTGCTGGTGGAGGAGACTCTGCACTGGACTGGAGTATCTTCCTTTCTAATGTTGCAAGTGAGGTAACTTTGATCCACAGAAGAAATGAGTTCAGAGGAGCTTTGGATTCAGTAGAGAAAGTTCAGGATCTGAAAAATCAGGGAAAAATCAAATTAATTACGCCTGCAGAAGTTACCGGTATTAAAGGTGACGGAAAAGTAGAAGCCATCACAGTAGAAGTGGAAGGGCAGGATGCTTATGATATTGAAACTGATTATTTCATTCCTTTATTCGGATTGACTCCAAAATTGGGTGAGATCGGAAACTGGGGACTGAATATCGAGAAAAATGCTATTGTTGTAAACAATGCTTTAGACTATCAGACGAACATTGATGGTATTTATGCGATCGGAGATATCAATACGTACCCTGGAAAACTAAAGTTGATCCTTTGTGGATTCCATGAAGCGACTTTAATGTGTCAGAGTGTTTATAACAGATTAAACCCGGGTAAAAAATTCGTATTAAAATATACAACGGTAAGTGGTGTTGACGGATTTGACGGAAGCCGTAAAGAAGCAGAGAAGGCAGTTGTGAAAAAAATTGACTAA	MITTDILIIGAGPTGLFAVFEAGLLKMKCHIIDALPQPGGQLAELYPKKPIFDIPGYPSVNAGELVDNLMEQIKQFQPGFTLGETAVSYTKVDDEWFEVITNKGTVHRCKAIAIAGGLGTFEPRKPTFENIADYEEKGLEYFVKEPEHFRNKKVVIAGGGDSALDWSIFLSNVASEVTLIHRRNEFRGALDSVEKVQDLKNQGKIKLITPAEVTGIKGDGKVEAITVEVEGQDAYDIETDYFIPLFGLTPKLGEIGNWGLNIEKNAIVVNNALDYQTNIDGIYAIGDINTYPGKLKLILCGFHEATLMCQSVYNRLNPGKKFVLKYTTVSGVDGFDGSRKEAEKAVVKKID	PGPT0013060_1993	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS003_03239	771			hypothetical protein	ATGAAGAAAATTTTGAACCTTTTTGCAGTATTAATATTCTTTTTAGGCTCAGCTCAGATTGATAATGTCGCAGACGGCGAATCTATCACCCTCAGGATCCATTATGGCTTCCTGAATGCCGGGACAGCCAATCTTACCACCAAACAAACCAATTACAGAGGAGTGCCTCATCTGTATGTGAAAGGCACAGGGCAAACCACAGGAGCAGTAAAGGCCTTCTTTAAAGTGGAAGATCTGTATGAAAGCTTTATCAATGTGCAAACAGGGTTACCAAGCTTTTATGTGAGAAATGTACGTGAAGGAAGTTACCGCCAGCATCTTGAAACGGTTTTTAATCATGATAACAACACTTTAATTTTAACAGATAAAAAAACACCTGCTAACGGCTCTAAAGTTTTAAAGTCGGTAAAAGATGTTCAGGATATGCTTTCATGCTTTTATTATTTAAGAAGTAAAAGCCCGGATGAACTGAAAGTAGGAACAGTAATTAATATGAATGTGTGGATTGATGATGAAATGTTTCCTTTCCAGCTGAAAGTAACAGGAACCGAAAATCTAAAGACAAAATTTGGTACTATTAACTGTCTGAAAATTATTCCATCGGTAAAAAGCGGAAGAGTATTTAAGGATAAAGAAGGGGTAACCATGTGGGTTTCCAATGATGCCAACCACCTTCCTATGCTGTTGAAAGCAGAACTTGCAGTGGGCGCACTGAAAGCCAGCATTGATGATTACAAAAATGTAAAATATCCTTTAAAGTTCAGTAAATAA	MKKILNLFAVLIFFLGSAQIDNVADGESITLRIHYGFLNAGTANLTTKQTNYRGVPHLYVKGTGQTTGAVKAFFKVEDLYESFINVQTGLPSFYVRNVREGSYRQHLETVFNHDNNTLILTDKKTPANGSKVLKSVKDVQDMLSCFYYLRSKSPDELKVGTVINMNVWIDDEMFPFQLKVTGTENLKTKFGTINCLKIIPSVKSGRVFKDKEGVTMWVSNDANHLPMLLKAELAVGALKASIDDYKNVKYPLKFSK				NA	NA	NA	NA	NA
BMS003_03240	1011	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGATAGAAAAGATAGAAGAACTACTGGTAGAAGTAAACGGCTTCAATGCTACCTCTAAGGAAGAGATTGAAAACTTCCGAATCAAGTACAACGGTAAAAAAGGGGTTCTGAACGATTTTTTTGAAAAATTTAAAGAAGTTCCTAATGACCAAAAGAAAGAATTCGGACAGAAGATCAATACTTTAAAGCAGGCAGTTGCTGTAAAACTGGAGGATTTGAAAAATGCTTCAGCATCTTCTGTTGTGATAGAAAAAGAAGATCTTACAAGACCTGCTTTTCCATTGGAGCTGGGATCCAGACATCCGATCAATCTGGTAAAAAACAGAATTATTGAAATCTTTAAATCTATTGGTTTTGCGGTAGCAGACGGACCAGAGATTGAAGATGACTGGCATAACTTTACGGCGCTTAACCTTCCGGAATATCACCCGGCAAGAGATATGCAGGATACATTCTTTATTGAACAAAACCCTGATATCCTTTTAAGAACACATACTTCTTCGGTACAGACCCGTTATATGGAAGAAAACCAGCCGCCGATCAGAATTTTATCTCCGGGAAGAGTGTTCAGAAATGAAGCCATTTCTTCACGTTCTCATTGTATTTTCCATCAGATTGAAGGATTGTATATTGATGAGAATGTAAGCTTTGCAGACTTAAAGCAGACGATTCAGTTTTTTACAACTGAGCTTTTCGGAAAATCTAAAATCAGAATGAGACCATCTTTCTTCCCGTTTACAGAGCCAAGTGCTGAGATTGATGTGTATTGGGGATTAAACTCTGAAACAGACTACAGAATCACGAAAGGAACAGGATGGCTGGAGATCATGGGTTGTGGAATGGTAGACCCTGCCGTACTGAAAAATGTGAATATTGATTCTGAGAAATATTCTGGATATGCATTCGGAATGGGTATTGAAAGAATTACCATGCTTCTTTACCAGATGAGTGACATCAGAATGTTCTTCGAAAATGATATCAGAACACTGGAACAGTTCAAAACACTATAG	MIEKIEELLVEVNGFNATSKEEIENFRIKYNGKKGVLNDFFEKFKEVPNDQKKEFGQKINTLKQAVAVKLEDLKNASASSVVIEKEDLTRPAFPLELGSRHPINLVKNRIIEIFKSIGFAVADGPEIEDDWHNFTALNLPEYHPARDMQDTFFIEQNPDILLRTHTSSVQTRYMEENQPPIRILSPGRVFRNEAISSRSHCIFHQIEGLYIDENVSFADLKQTIQFFTTELFGKSKIRMRPSFFPFTEPSAEIDVYWGLNSETDYRITKGTGWLEIMGCGMVDPAVLKNVNIDSEKYSGYAFGMGIERITMLLYQMSDIRMFFENDIRTLEQFKTL				NA	NA	NA	NA	NA
BMS003_03241	660	yceI_4		Protein YceI	ATGAGAAAAAAACTGTTTTCGTTAGCTATTCCTGCATTATTTATTGCTGCTGTAATGGTTTCTTGTAAAAAAGACAAACCGCTTACCAGTGAGAGTAATGAGGTGACAACTACTAAAGAAGGTAGTCACTTCACTTTGGATACGCTAAACAGTAAGGTAGAATGGAAGGGATATAAAGTATTTAAATCTGAGAATACAAGCCATTTTGGAATCATCAGGTTTGAAAGTGGAGATGTGACTGTGAAAGAAGGAAAACTGGAAAGCGGAAAATTCGTTGCTGATATGAATTCTTTAACTTCTGTGGATTTGAAAGACAGCCCGGAAGATTTAGGAAAACTGAATGGCCACCTGAAGAGCGGTGATTTCTTTGAAGTTGAAAAATTTCCAACAGCTTCTTATGAGATTACAAAGGTTACTCCGGCTATGGAAGGTGATTATAATACTCTTTTGGATGGTAATCTGACCATTAAAGGAATTACAAAACCAGTTCAGTTCAAAGCTAATGTTTCTGTGAAAGAAGGAGAAGTGAGTGTAGCTACTGAACCGAAAGATATCAAAAGAGAAGAGTTTGGTGTGAAGTTCCAGGCTCCGGCTGAAAACGGTGTGATTAAAGACGAGGTAACTCTTCAGATCAGCGTTAAAGCTTTAGAAAAGAAATAA	MRKKLFSLAIPALFIAAVMVSCKKDKPLTSESNEVTTTKEGSHFTLDTLNSKVEWKGYKVFKSENTSHFGIIRFESGDVTVKEGKLESGKFVADMNSLTSVDLKDSPEDLGKLNGHLKSGDFFEVEKFPTASYEITKVTPAMEGDYNTLLDGNLTIKGITKPVQFKANVSVKEGEVSVATEPKDIKREEFGVKFQAPAENGVIKDEVTLQISVKALEKK				NA	NA	NA	NA	NA
BMS003_03242	936	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGCTATTAGAAATAAACAACTTATTTTTCTCACACAACAAAGAAAATCCCCTGTTTCAGAACCTTAATCTAAGGTTTGAAGAAAACAGAATCATAGCTCTTGCCGGTGAAAGCGGATGTGGAAAATCTACTCTTCTCAGCCTGATCTATGGTCTTCTGGATTGGGAAAGCGGAGAAATTATTTTTAACGGAACAAAGCTATTGGGACCGAAAGGAAATCTTGTTCCAGGGGAACCGGAAATGAAATTCGTAGCACAGAATTTTGATCTTATGCCTTACGCTACAGTGGCTGAAAACGTAGGAAAATTTATTTCAAATATCAATTTAAAACAAAAAAAAGAAACCGTGATGGAACTTCTTGAAGTGGTAGGACTTCAGGAATTTACCCATGTACTTCCCAAATATTTAAGTGGCGGACAACAGCAAAGAGTGGCTATTGCCAGAGCATTATCTGTACTTCCAAAACTTTTGATTTTAGACGAACCCTTCAGTAATCTTGATTTTCCGAGAAAAATTGAGCTCAGGGAGAGACTTTTCAGATATGTAAAACAACATGGTGTTTCTCTTATTATTTCCACTCATGAACTTCAGGACATCATGCCATGGCTGGATCAGATTGTTATTCTGCAGAATGGAAGACTGATTCAAAATGACAGTCCGGAAGAAACCTATAGAAATCCTTATAATTCTTATGTTGCTAAATTATTCGGGGAAGTGAATATTTTCAGTGAAACCGAGGCGGAAGGCTTTCAGCTTCAAAAATTCTCTTACTATCCGAAAGAAATCAAAATTACAGAAACCGGTATCGAAGCCGAAGTTCTTGAAAGCAGATTTGCAGGAAATTATTATTGGAATAAGCTAAAAGCAAACGGAAAAGAACTCGTGATCTATACGGATGAAAGATTGGAAGGTTCTGTTTCTGTTTCGTTTCTTTAA	MLLEINNLFFSHNKENPLFQNLNLRFEENRIIALAGESGCGKSTLLSLIYGLLDWESGEIIFNGTKLLGPKGNLVPGEPEMKFVAQNFDLMPYATVAENVGKFISNINLKQKKETVMELLEVVGLQEFTHVLPKYLSGGQQQRVAIARALSVLPKLLILDEPFSNLDFPRKIELRERLFRYVKQHGVSLIISTHELQDIMPWLDQIVILQNGRLIQNDSPEETYRNPYNSYVAKLFGEVNIFSETEAEGFQLQKFSYYPKEIKITETGIEAEVLESRFAGNYYWNKLKANGKELVIYTDERLEGSVSVSFL				NA	NA	NA	NA	NA
BMS003_03243	345			hypothetical protein	ATGAGTGATACAGTACTTTGTCCAAAATGCAGCTCTGAGTTTACTTATCCGAGCGATAATATGATGGTATGTTCCCAATGTTTCTATGAATGGGATCCGGCAGAGGCTGCTGCTGAAGCTGCCAGCGAAGGGAAGATATTAGATTCAAACGGAAATGAACTTCAGGATGGAGATTCTGTAGTGGTAGTAAAAGATCTTCCTGTAAAAGGAGCTCCAAAACCGGTAAAAGCAGGAACTAAAGTAAAAAATATCCGTCTGAGACCGGGAAGTGACCACAATATTGACTGTAAAATTGATGGTTTCGGAGCTATGGCTCTTAAATCTGAGTTTGTAAAGAAGGCGTAA	MSDTVLCPKCSSEFTYPSDNMMVCSQCFYEWDPAEAAAEAASEGKILDSNGNELQDGDSVVVVKDLPVKGAPKPVKAGTKVKNIRLRPGSDHNIDCKIDGFGAMALKSEFVKKA	PGPT0030500_742	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
BMS003_03244	411			hypothetical protein	ATGAACAGTGTATATTTTGTCAGCAAATATTTTGTATTAAGCAAAAAACATAGGTTTATTCGTTTTAAAGTGAAAGGCTATTGTCAACAAATAAAATATATAAATATTCGGAAAATCTTTACAAATTCAGCATTAAAATTTATTTCTGTCATTAAAAAAATCAATAAACAGATTGACCATTCACTACTGAATCTCAGATTGTCAATAGTCAATTTTTGCTTTGCAAAGGGAATGGTGAATGCGCAACCTTCCATTAGAAAACTGATCTGTACAATATATAATTATTCACAACCTCTCAACCGGAAACCCAAAACCCCAAAATTCACAAGCGAAACGGATTCACCATTCACAATCCTCCTTCATCTCTCCTATTCTCAAACTCTCCCACCCAAATCTTCAACTCTCAATTAA	MNSVYFVSKYFVLSKKHRFIRFKVKGYCQQIKYINIRKIFTNSALKFISVIKKINKQIDHSLLNLRLSIVNFCFAKGMVNAQPSIRKLICTIYNYSQPLNRKPKTPKFTSETDSPFTILLHLSYSQTLPPKSSTLN				NA	NA	NA	NA	NA
BMS003_03245	1206	rsmB		Ribosomal RNA small subunit methyltransferase B	ATGGAACTTATTCACAGAAACTTGGCAATCGGAATTCACGATGCCTTACAGGAGACATTTTTTGAGAAAAACAAATATGCAGATAAAGTTATTGAAAGACTTTTGAAGGCCAACAAAAAATGGGGAAGCCAGGACAGAGCCGTTGTTTCTGAAATTTTCTACAATATTATCCGTTGGAAAAAACGCCTTGAATACTATATGGGTGAAGGTGTAAAGCCCAACAACATCTACAAACTGATCATTGCCTATTTACTTTGGAGTAAAACCAATTATAAAAAATTTGAAGAATTTGACGGGATTAAGATTGCCGATATTCTTACCAAACTTAAAAAAAATACTGTTCCTACAAAAGCAATAGAGCACTCTATTCCTGAATGGCTGGCTGAAACTCTTGAAAAAGAGCTAGGCACTGACTGGGAAAGAGAAATGACTGCTTTGAATGAGCAGGCTCCTACAGTTTTAAGAGCTAATTCTCTAAGAACAACTACCAAAGAACTTATCTCTGACCTTTCAGACGAAGGTGTTGTATCTTTTCCTATTAAAAATTATCCTGATGCTGTTCAGCTGGAAGAAAAGAAAAACGTTTTTCTTACTACGGCTTTCAAAGAAGGATTATTTGAAGTTCAGGATGCTTCATCTCAGAAGATCGGGTATTTCCTTGATGTAAAGGAAGGACAGAGAGTAGTGGACGCATGTGCAGGGGCGGGAGGAAAAACACTTCACCTGGCAGCATTAATGAAAAACAAAGGACAGATTGTAGCATTAGATATCTTCGACTGGAAGCTTGCCGAACTGAAGCGTCGCGCCAAAAGAGCCGGAGCTCACAATATTGAGACCCGTATGATCTCTGACAACAAAGTGATTAAACGTCTTCATGAAAAAGCAGACAGACTTCTGATTGACGCCCCATGTTCAGGCCTTGGAGTTTTGAAAAGAAACCCGGACAGCAAATGGAAAATTGATCAGAACTTTATTGACAGGATTAAAAAAGAACAGCAGCAAATCATTCAGGACTATTCTAAAATGCTTAAAAAAGGAGGAAAAATGGTATACGCTACCTGTTCTATCCTTCCATCTGAAAACAATCTTCAGGTAGATGAGTTCATCAAAAACAACCCTGGATTCAGAATGATTAAAGATGAAAAAGTAATGCCTAGCGAAGGGTATGACGGGTTCTATATGGCTTTGATTGAGAGAGTTTCTTAA	MELIHRNLAIGIHDALQETFFEKNKYADKVIERLLKANKKWGSQDRAVVSEIFYNIIRWKKRLEYYMGEGVKPNNIYKLIIAYLLWSKTNYKKFEEFDGIKIADILTKLKKNTVPTKAIEHSIPEWLAETLEKELGTDWEREMTALNEQAPTVLRANSLRTTTKELISDLSDEGVVSFPIKNYPDAVQLEEKKNVFLTTAFKEGLFEVQDASSQKIGYFLDVKEGQRVVDACAGAGGKTLHLAALMKNKGQIVALDIFDWKLAELKRRAKRAGAHNIETRMISDNKVIKRLHEKADRLLIDAPCSGLGVLKRNPDSKWKIDQNFIDRIKKEQQQIIQDYSKMLKKGGKMVYATCSILPSENNLQVDEFIKNNPGFRMIKDEKVMPSEGYDGFYMALIERVS				NA	NA	NA	NA	NA
BMS003_03246	1668			hypothetical protein	ATGCATACAAGAATCGTTTTCAATTTTCTGGCTGTTTTTTTATATTGTCTGTTTTCTGCACAGACATACGAAATTCAGTACACCAGTTCTTATAATGGAAAAACAATAACAGATCAGCCTTCTACCGTCGTTTGGGTCAATGAAAAAGAAAATTTCATTCTCAACAGCACCATCAAAGAGCAAAAAAGCAGCTATCCTTATGAGATTACTAAGGTAGAAAAGCCGTCTAACACGATTGTTTCTTACGCTTTTTTAAAACCGGAATCCATTATTTCAGCATCAGATACAGAGTCTGTTGGAAAACAGAATTTTGAGCTTACCAATGAAACAAAAAAGATCTTAGGATATACCTGTAAAAAAGCGGTTACAAAGGTCAACTCAAATACCATTGAAGTCTGGTATACGAATGATCTTAAGCTTAAAGGAGGACCTTCTGTTTTAGGACAGGATCTGGGGTTGGTTCTGGAAGTGGAGAGAAATAAAAACTCTCTAATTACTGCCGGATCAATCAAAAAAATGAAGAAGACCGGAGTTGAAGACATTTTGAAAGGAAACATACAGACAACAGACCAGCTGGGATATAAAGATCTCCTTTGGAAAAGTAGATTTATCACATTGAATGTTTTTGACAATGAAACCATCAACTTCTCTGACGCTTCAAAATCTGATGACCAGATAAAAAGATATGCCAACGGAACCATCATTCTTAAAAAAATAAAATTCCCCGTTATCACAGAAGGTGAAAATATTTTTGTAGAACTAAAACAACAATCCAACGGAGATGCTTATGACAGAACCGGAACTGTATTTTTCATTCCACAGGATAAGGAAAAGTCTTTTTTTGACGGATTGGAAAAAGGAGCAAAAACACTCCCTGTCTACGAAAATGGAAACGGAAAGCAATATTACGGAGTGACAGCCACTGACAACTACAGCCCCGCTATGGAAATGATGAGATTTTTTACCGCTTTTGGTATTCAGAAGTTTAATCATATTCAGCTTAAAGGAAAAAACTGGCAGACTGTAAGTCCTTACAGACAAGACATTACAGAGTTGAAACCAGCGTTATCAGGAAAAGAGCTTTGGGTAGGTACATTTATCGGCAACTATGACAAAGGAGGACATAAAGTGAGCCTTGACATTACCATCCATAAAAGCGATCAAAATATTTACAAAAATAATATCGCCATTCCTTTATTCAATACTTTAAATATTATGGAAATGGCAGGACAGGACTATTCTACGATGTTCAATCAGGACAAAGGACTTCTTGTTCATTTCACTTTAGATAAAGACGTGAAAAACGCACAGCTAAGATATACCACAACCGGACATGGCGGTTGGGAAAATGGCGATGAGTTCGTTCCAAAAGCCAATTCTATATTGATGGATGGAAATCCTGTGTTTTCATTTATCCCATGGAGAACAGATTGTGGCTCGTATCGTTTATACAATCCGGCTTCGGGAAATTTCCAGGACGGACTTTCATCATCAGACCTCAGCAGATCAAACTGGTGTCCGGGAACCGTTACCAATCCGAACTTCATTCCTATTGGAGATCTGAAAGCAGGGAAACATACGATTCAGGTAAAAATTCCACAAGGGCCTACAGAAGGAACAAGCTTCAGCTCATGGAATATTTCGGGAACGCTGCTTGGGGTACAATAA	MHTRIVFNFLAVFLYCLFSAQTYEIQYTSSYNGKTITDQPSTVVWVNEKENFILNSTIKEQKSSYPYEITKVEKPSNTIVSYAFLKPESIISASDTESVGKQNFELTNETKKILGYTCKKAVTKVNSNTIEVWYTNDLKLKGGPSVLGQDLGLVLEVERNKNSLITAGSIKKMKKTGVEDILKGNIQTTDQLGYKDLLWKSRFITLNVFDNETINFSDASKSDDQIKRYANGTIILKKIKFPVITEGENIFVELKQQSNGDAYDRTGTVFFIPQDKEKSFFDGLEKGAKTLPVYENGNGKQYYGVTATDNYSPAMEMMRFFTAFGIQKFNHIQLKGKNWQTVSPYRQDITELKPALSGKELWVGTFIGNYDKGGHKVSLDITIHKSDQNIYKNNIAIPLFNTLNIMEMAGQDYSTMFNQDKGLLVHFTLDKDVKNAQLRYTTTGHGGWENGDEFVPKANSILMDGNPVFSFIPWRTDCGSYRLYNPASGNFQDGLSSSDLSRSNWCPGTVTNPNFIPIGDLKAGKHTIQVKIPQGPTEGTSFSSWNISGTLLGVQ				NA	NA	NA	NA	NA
BMS003_03247	1668	asnB_2	COG0367	Asparagine synthetase B [glutamine-hydrolyzing]	ATGTGTGGAATTGTATGTTTATTTGATGCCCAACAAAACACTGAAGTATTAAGACCTCAGGTATTGGAAATGTCAAAAAAAATCCGTCATAGAGGACCGGATTGGAGTGGAGTTTTTCAGGACGAAAAAGTAATTTTTTCTCATGAACGACTGGCCATTGTAGATCCAACTTCCGGAAAGCAGCCTCTGTTTACAAAAGACGGAAAAGTAGTATTAGCAGTAAACGGTGAAATCTATAACCATAGAGAACTCAAAGCTGAATTTCCGGATTATGAGTTCCAAACTCAGTCGGACTGTGAAGTGATCCTTGCGCTTTACAGAAAATACGGAAAAGATTTTGTAGAAAAGCTCAACGGAATTTTCGCATTCTCTTTATACGACACCGAAAATAATATTTATCTTATTGCCCGTGATCACATGGGAATCTGCCCCCTTTATCAGGGTTGGGATAAAAACGGAAATTACTACGTAGCTTCTGAATTAAAAGCTCTTGAAGGCATCTGTAAAAAAATAGAGACCTTCTTACCTGGACATTTGATATACAGTCCGGACGGAACTGAGCTTCAGCAATGGTATACAAGAGACTGGGACAGCTTTGATCATGTAAAAGAAAATGAAACCGACATCTCAAAACTGAGAAAAGGTCTTGAAGATGCTGTTCACAGACAACTGATGAGTGATGTTCCTTATGGAGTGCTTCTTTCAGGAGGTTTGGATTCATCTGTTATTTCGGCAATCACTGCAAAATTTGCCCGTCAGAGAGTTGAAAGTGGCGATACGCAGGAAGCATGGTATCCAAGACTTCACAGTTTCGCAGTAGGACTGGTGGGATCTCCTGATCTGGCAGCTGCTCAAAAAGCTGCAGAACATATCGGATCTGTTCATCATGAAGTTAACTTTACCGTACAGGAGGGACTGGATGCAGTAAGAGACGTAATTTATCACCTCGAAACTTATGATGTGACTACTATCAGAGCATCCACTCCAATGTATCTTTTAGCAAGAGTTATTAAATCTATGGGAATCAAAATGGTTCTTTCAGGTGAAGGCTCAGATGAATTATTTGGTGGGTATTTGTATTTCCACAAAGCACCTAATGCAAAAGAATTCCACGATGAAACGGTAAGAAAACTGGGTAAACTTCATCTTTACGACTGCTTAAGAGCCAACAAAGCACTGATGAGCTGGGGTATTGAAGGCAGGGTCCCTTTCCTTGATAAAGAATTCATGGATATTGCGATGACCATTAACCCTCAAGATAAAATGATCAATACCGCTGAAGGGAAAATTGAAAAATGGGTATTGAGAAAAGCTTTTGAAGATCTTCTTCCGGACTCTATTGTCTGGAGACAGAAAGAACAGTTCTCTGATGGTGTAGGCTATTCATGGATTGACACTTTAAAAGAAGTTGCTGAAAAAGAAGTAACAGATGAAATGATGGCAAACGCAAGATTCAGATTTCCTCTAAATACTCCTCAGAACAAAGAGGAATACCGTTACAGAACCATTTTTGAAGAACATTTCCCAAGCGAAACCGCAGCAGCTACCGTTCCGTCTGTCCCATCAGTAGCCTGTTCCACTCCTATTGCCTTAGAATGGGATGAAGCGTTCAAAAAAATGAATGATCCAAGCGGAAGAGCTGTAAAGGTACATGAAACTTCGTATTAG	MCGIVCLFDAQQNTEVLRPQVLEMSKKIRHRGPDWSGVFQDEKVIFSHERLAIVDPTSGKQPLFTKDGKVVLAVNGEIYNHRELKAEFPDYEFQTQSDCEVILALYRKYGKDFVEKLNGIFAFSLYDTENNIYLIARDHMGICPLYQGWDKNGNYYVASELKALEGICKKIETFLPGHLIYSPDGTELQQWYTRDWDSFDHVKENETDISKLRKGLEDAVHRQLMSDVPYGVLLSGGLDSSVISAITAKFARQRVESGDTQEAWYPRLHSFAVGLVGSPDLAAAQKAAEHIGSVHHEVNFTVQEGLDAVRDVIYHLETYDVTTIRASTPMYLLARVIKSMGIKMVLSGEGSDELFGGYLYFHKAPNAKEFHDETVRKLGKLHLYDCLRANKALMSWGIEGRVPFLDKEFMDIAMTINPQDKMINTAEGKIEKWVLRKAFEDLLPDSIVWRQKEQFSDGVGYSWIDTLKEVAEKEVTDEMMANARFRFPLNTPQNKEEYRYRTIFEEHFPSETAAATVPSVPSVACSTPIALEWDEAFKKMNDPSGRAVKVHETSY	PGPT0020150_5758	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS003_03248	399			hypothetical protein	ATGAATGGTCAATGGTCAATCCGCTGCCCTGGTGAATTTGTTGTGGGATTCGAGGTTTCGGGTTTCGAGTTTCGGGATATTTTAACGCAGGGTGCGCCAAGATATTTCTTAATATTTAAGGTCGATCGCAACGGCGTTTCACTCAGCAATTGGCAAACTGATATCCTTGATGAACGAAGTGCCTTCGCGAACAAAATAGATAAGACAAAGGATAAACCTTGCGCCTATTGCGTTTGTTTTTCAATTATTTACCATAATAATTCGCTATTGGCATGTATATTTTTCTCATTCAAACATATAACTCTCTCAGTTATAATTTATCAATCCTGTAGCAATACAGGATTTTTTCTTGAATTAACGATAATAATATGGCATAATTTAACTCACAATCCAAAATAA	MNGQWSIRCPGEFVVGFEVSGFEFRDILTQGAPRYFLIFKVDRNGVSLSNWQTDILDERSAFANKIDKTKDKPCAYCVCFSIIYHNNSLLACIFFSFKHITLSVIIYQSCSNTGFFLELTIIIWHNLTHNPK				NA	NA	NA	NA	NA
BMS003_03249	843			hypothetical protein	TTGGAAAACGAAAATATCAATTATAAAAAAATGAGAAGAAACCTTACTGTTTTATTTGTCTTATTATCCATAAGTTTTGCTTTTGGACAGGGAAAATATGGCAAATATCTGAATTCAAAGAAGCTTGCTTTGACTTATAAGAGTGTGAAAGACCAAGATAAAGATGACTACTATCAACAATATTACTGGCTTGTAAAAGCAGAGCAGCTGAAAACATATCCTCACCTTAAGGATATTAAACCGATCGTTTTATATGAATTTGTAAAGTATGTAAACCCTCAGAATCCAACCAAAAAACTGGATGCCAGAGGTAAGGAGCTCAGAGCTACTGCAGAATTATCTTTGAATCAATATTTTAAAAATAAAAAATTTGAAAACAATTCTGTTTTAATGTACAATCTTGAAACCTATGTAGACCCTTCCAAAGGACAATACTACACAAAGGTAGACCCTGAAAAGATTAAAGAACTGGTTCCGAAAGAGCTGTTTTCTTTCAACTCATTCAACAGGAATTTAGGAGAAGAAAAGACCTTTTATCTTTGGATAGACAAGAAAAAAGATCATTTGAATATTGTAGATATTATTCCTAGTGAAAAAGATGACAAAGCTTTCTACACAAGGCTGAAACAATATCTTCCAAGCTATAAGTTTTCAAAATATGTACCTTCTGTAAAAAAAGGAAACAAATCTGATAAAACAGATCGCGAATACTATTACATCATGCCGTTTGAGCAGAATACCGACAATATCGAATATAAAACAAAGGATTTCAAAACATTCACTTTAAGCCAGTACAGAAAAGGTGGTGATGAATGGAAAGGAGTAGAAAAACCTAGAAAATAA	MENENINYKKMRRNLTVLFVLLSISFAFGQGKYGKYLNSKKLALTYKSVKDQDKDDYYQQYYWLVKAEQLKTYPHLKDIKPIVLYEFVKYVNPQNPTKKLDARGKELRATAELSLNQYFKNKKFENNSVLMYNLETYVDPSKGQYYTKVDPEKIKELVPKELFSFNSFNRNLGEEKTFYLWIDKKKDHLNIVDIIPSEKDDKAFYTRLKQYLPSYKFSKYVPSVKKGNKSDKTDREYYYIMPFEQNTDNIEYKTKDFKTFTLSQYRKGGDEWKGVEKPRK				NA	NA	NA	NA	NA
BMS003_03250	1404	hsrA		putative transport protein HsrA	ATGACAGAAGCAAGTACACCACAGACGTCCATAAAGAAAATACTTCCCTTAATTCTGGCTACCGCTATTTTTATGCAGATGCTGGATTCTACTATCCTGAATACTTCCCTGCCTGCCATTGCAAAAGACCTGAAAGAATCTCCTCTTAATATGCAGAACGCCATCATCAGTTATGTTCTGACATTAGCCGTTTTTATGCCTGCCAGTGGATTTTTGGCAGATCGGTTCGGTACAAAAAAAATATTTATTTTTTCATTGATACTGTTCAGTGTAGGCTCGCTGTTTTGTTCATTGTCTCAAAACCTTACCCATTTGGTTATTTCCAGAGTTATCCAGGGAGTCGGAGGAAGCCTGATGACACCTGTCGGAAAGCTGGCTCTCATTAAAACATTTGACAAAAATGAATTGCTTAAAGCGATGAACTTCGCTATTATTCCTGCCCTTATCGGACCCGTACTGGGTCCTTTAGTAGGAGGTTATATGGTAGATTACCTCTCATGGCACTGGATCTTTCTGATCAATATTCCCATTGGTTTTTTAGGAATTATTTTAGGATTAAAATTCATGCCCAATTACAAATCAGATGACGTTGCTTTTGATTTAAAAGGATTCCTGATTTTTGCAGCAGCCTCCCTCCTACTATCTGTTTCTCTGGAACTTTTCGGAGATATGCAGAATATTACTCCTGTATTGCTTGTATTTATAATGGGATTCCTGTTCCTGTACTACTATTACAAACATGCAAAAAGAGGAGGAAACCCGATCTTCCCATTAAACCTGTTTCAGGTAAGAACTTTTCGGGTCGGTATTATAGGAAACCTTGCAACCAGACTTGGAATCAGCTCGGTTCCTTTACTACTTCCCCTGATGATTCAGATTGCGTACAAACAGTCTGCTGTAACTTCAGGATGGTTCATTGCCCCTATGGCTTTAACGGCTATCTTCGGAAAATCGTCTGTCATTAAAATTCTGGATAAATTCGGTTACCGTCAGACATTAATGGTGAATACATTCATCATCGGAACGCTCATCTGCCTGCTTGCTATACCTAATATACATACTTCCCTATACTGGTTTGTTCCTATTATTGCAGTATTAGGTTTCTTCAATTCCATACAGTTCACTTCTATGAATACAATTTCTATTGCCGATCTTCGAAATTTTCAGACCAGCAGCGGAAACTCTTTAATCTCAGTAAATCAACAGCTCGCCATCGGCTTCGGAATTGCATTCGGACTGATCGTTTTAAAGCTGTTTGAAAATACTGACCTTATCAAGGGGGAAATTCATAATGCATTCCGATACACTTTCCTCACAGTAGGAATTTTAACAATTTTATCCGGATTAGTTTTTAGAAGACTGCATATATCGGACGGAAAAAATATGAAATCCAAAGAGGAATAA	MTEASTPQTSIKKILPLILATAIFMQMLDSTILNTSLPAIAKDLKESPLNMQNAIISYVLTLAVFMPASGFLADRFGTKKIFIFSLILFSVGSLFCSLSQNLTHLVISRVIQGVGGSLMTPVGKLALIKTFDKNELLKAMNFAIIPALIGPVLGPLVGGYMVDYLSWHWIFLINIPIGFLGIILGLKFMPNYKSDDVAFDLKGFLIFAAASLLLSVSLELFGDMQNITPVLLVFIMGFLFLYYYYKHAKRGGNPIFPLNLFQVRTFRVGIIGNLATRLGISSVPLLLPLMIQIAYKQSAVTSGWFIAPMALTAIFGKSSVIKILDKFGYRQTLMVNTFIIGTLICLLAIPNIHTSLYWFVPIIAVLGFFNSIQFTSMNTISIADLRNFQTSSGNSLISVNQQLAIGFGIAFGLIVLKLFENTDLIKGEIHNAFRYTFLTVGILTILSGLVFRRLHISDGKNMKSKEE	PGPT0029180_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029180-mdtD-K18326	NA	NA
BMS003_03251	876			hypothetical protein	ATGGCAACTAAAAAAATAGAAATCGTAGTATCTCCAAAGCCTGCGCACTTTGTAGGTGATGGATTCAGGGTTCACAATTTCATTCCGGGAGTACCTGGATTGGATATGAAAAGAATGGATCCGTTCATTATGCTGGATTACAATTCGAAATTTCACTTCAATGGATCAGACAGACCAAGAGGTGTAGGAGTGCATCCGCACCGAGGCTTTGAAACCGTAACCATAGCTTATAATGGTAAAGTAGAACACCACGACAGTGCCGGCGGGGGCGGAATTATCGGAGAAGGTGATGTTCAGTGGATGACTGCCGCCAAAGGAGTTCTTCATAAAGAATATCATGAAACAGAATGGGCAAAAGAAGGAGGTATTTTTCAGATGGTTCAGCTTTGGGTGAACCTTCCTGCAAAAGATAAAATGAGCTGCCCGAAATACCAGGCTATAGAAAACTCGAAAATGGGAAAAGCTGATCTGGGTGAAAATGGTTTTGTAGAAGTAATTGCCGGAGAATATAATGGTCATAGAGGACCTGCCAGTACTTTTACACCAGTTCACATGATGAATGCAAAGCTTAAAGCAGGAGGAAAAGCGGAATTTAATTTTCCGGCTCATTTTAATACTGCAGCTTTGGTCATTGAAGGGAATGTGATTATTAATGGAGAAGAAACCGTGAAAGCAGATCATTTTGCACTGTTTAAAAATGAAGGTGAAACATTCACCGTTGAGGCAAAAGATAATGCTGTTGTTTTAATCATCAGCGGAGAACCTATTCATGAACCCATTTATCCTCACGGACCTTTCGTGATGAATTCCAGAGAAGAAATTATGCAAGCTTTTGAGGATTTCAATACCGGAAAATTTGGATATCTGGAAGATTAA	MATKKIEIVVSPKPAHFVGDGFRVHNFIPGVPGLDMKRMDPFIMLDYNSKFHFNGSDRPRGVGVHPHRGFETVTIAYNGKVEHHDSAGGGGIIGEGDVQWMTAAKGVLHKEYHETEWAKEGGIFQMVQLWVNLPAKDKMSCPKYQAIENSKMGKADLGENGFVEVIAGEYNGHRGPASTFTPVHMMNAKLKAGGKAEFNFPAHFNTAALVIEGNVIINGEETVKADHFALFKNEGETFTVEAKDNAVVLIISGEPIHEPIYPHGPFVMNSREEIMQAFEDFNTGKFGYLED	PGPT0019980_2344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS003_03252	312			hypothetical protein	ATGAAACCAGAATTTGAAAATATACCTCTCGTAAAAGCCGAAAAAAGATTCGAAATAGAGTTCAACGGACATTATGCATTCATTGATTACCGGGAGACAACGCATCAGATTGCTTTAATACACACCGAAGCAGAACCGGAATTAGCCGGAACAGGTGCAGCTGCCGCCGTGGTAGAGAAAACCCTGAATTATATTGAAGAAAGCGGGAAAAAGCTTCTTCCATTCTGTCCTTATGTTTTCGCTTTTATTAAGAAGCACCCTGAATGGAAACGCATCGTAGATGAGAAATTTGAAGGTTATGACAAGCTTTAA	MKPEFENIPLVKAEKRFEIEFNGHYAFIDYRETTHQIALIHTEAEPELAGTGAAAAVVEKTLNYIEESGKKLLPFCPYVFAFIKKHPEWKRIVDEKFEGYDKL	PGPT0019980_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS003_03253	900			hypothetical protein	ATGTCAAATATTGGACTTATTATAGAAGAAAAAGCAGCAGATATCGGAAATTTCCTGGTAGGAAGGCTTCTTCCTTTCCGTGAAAAAAGAGCGGTTGGCCCGTTTGTATTTATTGACCATATAGGACCTTCAGAATTAAAAGATTATCAGAATCTTGATGTTCCTCCACATCCGCATATCGGTTTATCTACACTTACTTATCTGCTGGAAGGTTCTATTTTCCACAGAGACAGTATTGGGAGCGCTATAGAAATAAAGCCTGGTGCCGTCAACTGGATGACTGCCGGAAAAGGGGTTGTACACTCAGAAAGAACACCTGAATATTTAAGACACAGTGATAAAAAACTTCACGGTTTTCAGATCTGGGTAGGGCTTCCGAAGCATCTTGAGCAGTCTGAACCTACTTTTCATCATATTGAAGCGGAAGAAATTCCGGTTTGGGAAGAAGATGGTATTCAGTACAAATTAATTGCCGGTGAAGCATTCGGAAAGAAGTCTGCTGTTCCTGTACACAGCCAATTGTTTTTCATTGAGATCAAAACAAAAGAAGCGAAGAAAATAAGTATCGGGAAAGATCTTTATGGAGAAGCTGCCATGTACGTTCTGGATGGAACAGTTACCACAGACGGAAATTCTTACGGTTCAAAACAGCTGATGATTGCTAAAGATACTAAGCTTTGCGAATTTGAGATGAGTGGAAACGGAACGGTTTATCTTTTTGGTGGCGAGCCATTCGATGAGGAACGTTTTATATTCTGGAATTTCGTGAACTCTGATAAGGAAGTAATAGACCAGGCAAAGGTAAACTGGAATGACCAGAATCACGAAGCATTTCCTTTGGTTCCTGGTGATGAAAACGAATATGTTCCGCTTCCTAAGGCTATTTTAAACAGAAAATAA	MSNIGLIIEEKAADIGNFLVGRLLPFREKRAVGPFVFIDHIGPSELKDYQNLDVPPHPHIGLSTLTYLLEGSIFHRDSIGSAIEIKPGAVNWMTAGKGVVHSERTPEYLRHSDKKLHGFQIWVGLPKHLEQSEPTFHHIEAEEIPVWEEDGIQYKLIAGEAFGKKSAVPVHSQLFFIEIKTKEAKKISIGKDLYGEAAMYVLDGTVTTDGNSYGSKQLMIAKDTKLCEFEMSGNGTVYLFGGEPFDEERFIFWNFVNSDKEVIDQAKVNWNDQNHEAFPLVPGDENEYVPLPKAILNRK				NA	NA	NA	NA	NA
BMS003_03254	531			hypothetical protein	ATGAAAATATTAGCATTTGCCGGAAGTACATCTTCCACTTCTATCAACAGGGAACTGGTAAAATTTGTTCTGAAAGATTTTCAGGATGAGGAAATCAACCTGATAGACCTTAACGATTTTACCATGCCTGTTTTCTCTGTAGATCTTGAAAAGAAAGGCTTTCCGGATGAAGCCCATCAGTTTTTAAAGGCTATTGAAGAATGTGATGTAATCATCTGCTCTCTTGCTGAGCACAACCGTTCTTACAGTTCTGCTTTTAAAAATGTTTTTGACTGGTCATCAAGGATCAATGTAAAAGTATTCCAGAATAAACCAATGTTTCTGATGAGCACCTCTCCCGGAGGCTATGGTGGAGGAAATGTAATGAATACAGCAAAAACATTTTTCCCTCAGTTTGCGGCAGACATCAAGGATACTTTTTCACTGCCTAAATTTTACGAGAATTTTGATATGGAAAGCGGAGTCATCAACCCTGATATACTGAATGATCTGAAGAACAAAATACAAAACTTTAAAAATCAGGTAAAGTAA	MKILAFAGSTSSTSINRELVKFVLKDFQDEEINLIDLNDFTMPVFSVDLEKKGFPDEAHQFLKAIEECDVIICSLAEHNRSYSSAFKNVFDWSSRINVKVFQNKPMFLMSTSPGGYGGGNVMNTAKTFFPQFAADIKDTFSLPKFYENFDMESGVINPDILNDLKNKIQNFKNQVK	PGPT0004195_2255	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS003_03255	579			Potassium channel	ATGAATAAAGGAAGACTGGAGGCATTCAGTGATGGTGTCCTTGCTATTATCATCACTATTATGGTACTTGAACTTAAAGTGCCGGAAGGAAGCAGCTGGGCAAGCCTTAAATCTCTTCTCCCTAAACTTCTGGCCTATATTTTCAGTTTTATTTATATAGGAATCTACTGGAACAATCATCATCATCTGTTTCAGACGGTAAAAAAAGTAAATGGTGCTATCCTTTGGGCTAATCTTCACCTTCTGTTCTGGCTTTCCCTGATGCCCATTGCTACGGAATGGATAGGTACTACAAATTTTGCAAAAAATCCTGCTGCAGTCTATGGCATGGGCCTTATTATGTCTGCTATTGCCTATACAATTCTGGAGCATGTGATCATCCGGTATGAAGGAGAAGGTTCAAAGCTGAAAGAAGCCATTCATTCGAAATATAAAGAATATATCTCCATTGTATTTTATATCCTGGGAATCGCTACTTCATTTTTTTATCCTTATATTGCCATATGTTTTTATTATATCGTGGCTCTTATATGGCTGATTCCGGATAGACGAATCGAAAAAACATTAAAAGAAAATTGA	MNKGRLEAFSDGVLAIIITIMVLELKVPEGSSWASLKSLLPKLLAYIFSFIYIGIYWNNHHHLFQTVKKVNGAILWANLHLLFWLSLMPIATEWIGTTNFAKNPAAVYGMGLIMSAIAYTILEHVIIRYEGEGSKLKEAIHSKYKEYISIVFYILGIATSFFYPYIAICFYYIVALIWLIPDRRIEKTLKEN				NA	NA	NA	NA	NA
BMS003_03256	219			hypothetical protein	ATGGAAACACACGAATATCCTAACGGAAACATCACTGTCATCTGGCAGCCTCAGAAATGCATCCATTCTGCCATATGTGTAAAAACACTTCCAAAAGTTTACAATCCTAAAGAAAGACCCTGGATAAAAGCAGAAAACGCAAATCCTGAAGAACTTAAAAATCAGATAGATCTATGCCCGTCAGGTGCATTAAGTTATAAATTCAATACAGAAAAATAA	METHEYPNGNITVIWQPQKCIHSAICVKTLPKVYNPKERPWIKAENANPEELKNQIDLCPSGALSYKFNTEK				NA	NA	NA	NA	NA
BMS003_03257	396			hypothetical protein	ATGGCCGTAACAGTAAAAGCAAGCTTAGGAAAAACAAAATATTATACAGAAGTAACTGCCGGTGAAAATAAGATCATTACAGATGAACCTATTGATAAAGGCGGACAGAACAAAGGTCTTAATCCAATGGAAATTCTGGCTGCGTCATTGGCAAGCTGTACTGCAGCTACATTGAGAATGTATATTGAAAGAAAAGAATGGGATATAGAAAACATCAATGTAGAAGTAGAGCTTGAAAATTTTCCGTTAACAAAAAGAGCCGTTTTTAAAAGAGATATCAGCTTTGAAGGAATACTGGATGATGAGCAGCTTAAAAGACTGCACACCATTGCAGATGCTTGCCCTGTACATAAAATATTAACCAACGACATAGAAATACTAACCAAATTCTCATAA	MAVTVKASLGKTKYYTEVTAGENKIITDEPIDKGGQNKGLNPMEILAASLASCTAATLRMYIERKEWDIENINVEVELENFPLTKRAVFKRDISFEGILDDEQLKRLHTIADACPVHKILTNDIEILTKFS				NA	NA	NA	NA	NA
BMS003_03258	288			hypothetical protein	ATGATCGAAGTAAAACAAAACAACGACGAAAAACACGGAAGTTTTGAAGCTTTCACAGATGGAAGTCGCGCAGGCATGATGACGTATACCTGGGCCGGAGAAGAAAGATTTATTATAGACCACACCGAGGTGGAAGAAGCTTACAACGGAAAAGGTGTAGGCAGAGAAATGCTTCTGGCAGCAGTAGATTACGCCAGAAAGAACGGGAAAAAGATCATTCCCCTCTGTCCTTTCGCTAAGGCAAGTTTCCAGAAAAGTGAGGAACTTCAGGATGTTTTAGTGAATTAA	MIEVKQNNDEKHGSFEAFTDGSRAGMMTYTWAGEERFIIDHTEVEEAYNGKGVGREMLLAAVDYARKNGKKIIPLCPFAKASFQKSEELQDVLVN				NA	NA	NA	NA	NA
BMS003_03259	1560	sglT		Sodium/glucose cotransporter	ATGAATCCAGGAACGATCCTTTTGCTATTTGTTTTCGTCTATTTTATTGGCCTTTTGGTGATTTCTTATTTCACCAGCCGGAATTCTGATAACCAGTCATTTTTTATCGGTAACAAAAAGAGTAAATGGTGGCTCGTAGCATTCGGGATGATCGGAACCAGCTTAAGTGGGGTTACTTTTATTTCAGTTCCCGGAACTGTAGGAAAAATGACAGGCTCCGAATATATCTACGGAGGTTTTGAGTATTATATGATGGTGATTGGGTTTTTCATTGGATATTTTATTGTTGCGGCAATACTGCTCCCACTTTATTACAAGATGAATCTGACATCTATTTACACCTATCTGGGAAAAAGATTCAATGTGGAAGCCCATAAAATAGGTTCTATCTTTTTTATTATTTCCAGAGCAATTGGTGCTACTGCAAGACTATACCTGGTAGTCAATGTTTTACAGATATTTTTACTTGAAGGGTTGGGAGTTCCGTTTTGGATAACTTCTCTTATTCTTTTGCTTATGGTACTTCTGTATACTTTTGAAGGAGGTGTAAAAACCATTGTTATCACAGATACCTTGCAGACTTCTTTTATGATCATCAGTCTTGTAGCCTGTATTGTTTATATCTTATCTAACCTGAATCTATCTTTTGGAGAAGCTTATACCATTCTTGAACAGAAAAACTATACTCATTTCATCAATTTTGATCCGAATTCCAAAACCTTTTTCCTGAAAACAATTCTGGGGGGAATTTTTATTACGATTGCTATGACAGGTCTGGATCAGGAGATGATGCAGAAAAATATCTCTGTGGATAACCTTAAGAATTCAAAGAAAAACATGCTTACTTTTGCAGGAACGCTTCTTGTCGTAAACCTTGCTTTCTTATTCCTGGGAGGGCTGTTATATCTTTTTGCATTACAGAACGGAGCAGAATACGGAACGCTGAAATCTGAAACGGTAACGAATATTTTCGGATTTAAAGATACTGCCGGAAATATTAAAAATATAATGGGAGATGACCTTTTCCCGGCTTTATCACTTCAGGGATATTTTCCGATGATTATTTCCATAATCTTCATTATCGGGCTCATCTCTGCGTTATTCCCTTCTGCAGATGGTGCGTTAACGGCGGTAACAAGTTCGTATTGCGTAGATTTATTAAATCTGAATGAAGATAAAACCAAAACAGAAAAAGAAAAAAAGCGTCTTCGTATGAAAGTACACCTGATTTTCACGGTAGTTTTCTTTATCCTGATCATGGTTTTCAAAGCATTGAATGATAAATCTATCGTTTATCTGATCATGGAAATTGCAGGATATACTTACGGACCGCTTTTAGGACTTTTTGCTTTTGGAATTTTTACAAAATTTCAGATTTCCAGAAAATATTCAATCCTTACGGTGACTCTTTTAGCGCCTGTATTGACTTATTTAATCAATATGGCTGTTACTTCTTATACAGATTATAAAATAGGGGTTGAACTGATTGTTCTGAACGGACTGCTAACCTTTATTGGTCTGTGGCTGGTAAAAGATAAACAGCACCTAAAAATTGTTTAA	MNPGTILLLFVFVYFIGLLVISYFTSRNSDNQSFFIGNKKSKWWLVAFGMIGTSLSGVTFISVPGTVGKMTGSEYIYGGFEYYMMVIGFFIGYFIVAAILLPLYYKMNLTSIYTYLGKRFNVEAHKIGSIFFIISRAIGATARLYLVVNVLQIFLLEGLGVPFWITSLILLLMVLLYTFEGGVKTIVITDTLQTSFMIISLVACIVYILSNLNLSFGEAYTILEQKNYTHFINFDPNSKTFFLKTILGGIFITIAMTGLDQEMMQKNISVDNLKNSKKNMLTFAGTLLVVNLAFLFLGGLLYLFALQNGAEYGTLKSETVTNIFGFKDTAGNIKNIMGDDLFPALSLQGYFPMIISIIFIIGLISALFPSADGALTAVTSSYCVDLLNLNEDKTKTEKEKKRLRMKVHLIFTVVFFILIMVFKALNDKSIVYLIMEIAGYTYGPLLGLFAFGIFTKFQISRKYSILTVTLLAPVLTYLINMAVTSYTDYKIGVELIVLNGLLTFIGLWLVKDKQHLKIV	PGPT0013955_5061	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
BMS003_03260	2238			hypothetical protein	ATGAAAATTAAACAATTATTTTATTTGGGGATATTTGTAATATCCATTTCCTCCGGGAAAGCACAGGATTTTTTTACGGAAATTAGTGAAAGATCCATCAAAGCAGATCCTAAGAACAGGACAGTGCAGCCGGAAAAGTCATTGACCTACACGCTTGATATAGCGGGAATGAAAAGTTATTTTAATTCTGTTCCGGAACTGAAAGACAGTGACCGTAAAGACAATGCTCCGATTATTGTTCTTCCTATGCCGGATGGTACAAAGGCGAAGTTCAGAATCTGGAAATCTTCCGTAATGGCTCCGGGATTAGCCAGCCGGTTTCCACAGATCGTTACTTTTACAGGACAGGGAATGGATGATAAGTATGCTACCCTAAAGCTGGATTTTACCGAACTGGGATTCCATGCGCAGATAAAATCTGTAATAGCCGGTGATTCTTATATTGATCCTTATGCAAAACAGGATATTAATCATTATATTATTTACAAGAAAAGTGATTTAATAGATAAAAATCCAAGGTCTTGCGGAGTAAAGGATGAAGACGATTCTCCGCTGGGAAAAAAAAACTCTCAAAAAACTGTAGCACCAAGCGTAGGTACTCAAATTAGAGTTTTCAGGTTTGCAGTAGCTTGTACCCATCAGTATGCAATTGCTGCAACTGGGACGGCAACGCCTACGGTTGCACAAACCCTATCTGCAATTGTAACCTCAGTAAACAGAGTAAATGGGGTATATGAGCAGGAAGTTGCTTCAAGATTGGTGCTGGTAGATACAGAAACCAACGTTATCTTTACAACTGCAGGTACGGATCCCTTTACCGGAAATGATGATGCCTATACATTGATTGATGAAAGTCAAACCCATATAGATACCCGTATAGGAAATGCCAATTATGATATAGGGCATACCTTCAGTACCGGAGGTGGTGGACTCGCAGGATTGGGAGTAATCTGTAATAATTCAAATAAAGGAAGAGGAATCACAGGCTCACCAAACCCGGTGGGCGATCCTTATGATATTGACTATGTAGCCCATGAAGTAGGGCATCAGTTTGGAGGGCCACATACTTTTAATGCAACAACAGGAAGTTGTGGAGGAGGAAACCGTAGCGCTGCCAATGCCGTAGAACCGGGAAGTGGTATTACAATTATGGCATATGCAGGAATTTGCGGAAGTACTAATAATTTAGCAGCTAACAGTATTCCTACTTTTCATACAAAATCTTACCAGTCTATTACCACAAAAGTTCAATCCACAACATGTCAGGTGACAATTCCTTCCAACAATTTTGCTCCTATTGTAAACGCAGGAGGTGACTATACCATTCCTAAGAGTACACCGTTCAGATTGGAAGGTTCTGCTACAGATATAGACAACAATCCACTTACTTACAGCTGGGAGCAGAATGATGTAGGACCTGCGGGTGACTGGAACGCCCCTACAGGTAATGCTGCTATATTCAGATCATATGTACCGGTAACTGTTCCTTACAGATATTTTCCAAAACTTACAGACGTAATCAATGGGACTGTTTCCAAAGGAGAGGTTAAACCATCTTATGCAAGAACTATGGAGTTCAGATTAACAGTAAGAGATAATAATGCAGGCTGTGCAGGAGTTTCCAATGATGATGCTATTATTACTGTAGATGGAAACTCAGGACCGTTTACGGTAACAGCTCCTACTACAGCAGTGAACTGGGCGGGAAATTCTACCCAGACTATTACATGGAATGTAGCTAATACAACAGCATTTCCGGTGAATGCTGCTACTGTAAATATTTATCTTTCCACAGATGGCGGGCTTACATATCCTACGTTGATCTTAGCTTCCACCCCGAATGACGGCTCTGAAACCATTACTATTCCCAACGTAAATACAACACAGGCAAGAATTATGGTAGCTGCAGAAACGAATGTCTTCTACAACATTAACCCTATTAACTTTACCATTACCCAAACGTTAGGTGTGAATGAAACGGCAGGAAACAAAGATGTATTTGCAGTGTATCCTAATCCAAGTAAAGGACTTCTGAATATTAAATTCATCAATTCAAATGAAGTGTATGATATGACGGTTTATGATGTAAGCGGAAAATTGGTATTCGCTGAGGCTAATAATAAGCCAGGTCATGATAAAATAAATACCTTTGACTTGTCTCACCTGGTTAAAGGTGATTATCTGATAAGGATTAAATCTAAGAATTTAGAAAAAACAATCAAATGGATTAAAGAATAA	MKIKQLFYLGIFVISISSGKAQDFFTEISERSIKADPKNRTVQPEKSLTYTLDIAGMKSYFNSVPELKDSDRKDNAPIIVLPMPDGTKAKFRIWKSSVMAPGLASRFPQIVTFTGQGMDDKYATLKLDFTELGFHAQIKSVIAGDSYIDPYAKQDINHYIIYKKSDLIDKNPRSCGVKDEDDSPLGKKNSQKTVAPSVGTQIRVFRFAVACTHQYAIAATGTATPTVAQTLSAIVTSVNRVNGVYEQEVASRLVLVDTETNVIFTTAGTDPFTGNDDAYTLIDESQTHIDTRIGNANYDIGHTFSTGGGGLAGLGVICNNSNKGRGITGSPNPVGDPYDIDYVAHEVGHQFGGPHTFNATTGSCGGGNRSAANAVEPGSGITIMAYAGICGSTNNLAANSIPTFHTKSYQSITTKVQSTTCQVTIPSNNFAPIVNAGGDYTIPKSTPFRLEGSATDIDNNPLTYSWEQNDVGPAGDWNAPTGNAAIFRSYVPVTVPYRYFPKLTDVINGTVSKGEVKPSYARTMEFRLTVRDNNAGCAGVSNDDAIITVDGNSGPFTVTAPTTAVNWAGNSTQTITWNVANTTAFPVNAATVNIYLSTDGGLTYPTLILASTPNDGSETITIPNVNTTQARIMVAAETNVFYNINPINFTITQTLGVNETAGNKDVFAVYPNPSKGLLNIKFINSNEVYDMTVYDVSGKLVFAEANNKPGHDKINTFDLSHLVKGDYLIRIKSKNLEKTIKWIKE	PGPT0022155_1862	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
BMS003_03261	519			hypothetical protein	ATGAAAAAAATTATCTCAATTTTCATTTTTATATTAACATTTGGATATGTGAATGCTCAGGAAAATTTTGAAGTATCAACATTACGAATAGGACCATTCAAAGTACTCATGCCAAAGATAGAAGCGGAGAAAATAGCAGGGATAAAACTACTGAATTCCAACGGAGAGAAGAAAAATATAGTGAAATATAATGGTGAGACTATTCAGATCGATCTTTTTAACAATTATATTAATGAAGCCAACCAGAGTGTCCCTTCCGTCACCTATATGACGACTTCCAGCAAAAAATTTAAGACCAGAAGCGGCATTGGAGTGGGAAGCACAAGAGATGACCTCATCAATGCTTATAGAAGTTTTACAAATTTCAGTCTACGACCGGACTGGGATTCTAATGGCAAACCGATTAAAGATACCGGCTATTTTAATATTGAAGACAGCCAGGCGGGAACACTATTAAGTTTCAAATTTGTTAATAATATTGTGACAGAAATTTCCGTTTACCTTAATGAAGGCTGTTAA	MKKIISIFIFILTFGYVNAQENFEVSTLRIGPFKVLMPKIEAEKIAGIKLLNSNGEKKNIVKYNGETIQIDLFNNYINEANQSVPSVTYMTTSSKKFKTRSGIGVGSTRDDLINAYRSFTNFSLRPDWDSNGKPIKDTGYFNIEDSQAGTLLSFKFVNNIVTEISVYLNEGC				NA	NA	NA	NA	NA
BMS003_03262	852	aptA	COG3959	Apulose-4-phosphate transketolase subunit A	ATGAGTAAAAGTATCGAAGAGTTAAAAACTCTTACTACGCAGATCAGAAGAGACATTTTAAGAATGGTTCATGCTGTAAATTCAGGACACCCTGGCGGCAGTTTAGGCTGTACAGAGTTCTTTACAGCCCTTTACGGAAAGGTAATGAACTATAAGCTTCCTTTCACAATGGAAGGCAAGAATGAGGATCATTTTTATCTATCAAACGGACACATTTCTCCGGTATTCTACTCTACTTTAGCAAGATTTGGTTTCTTTCCTGTAGAAGAACTGAGTACTTTCAGAAAGTTAGATTCAAGATTACAGGGACACCCAACGACTCACGAAGGTCTTCCGGGAATCAGAATTGCTTCAGGTTCTCTTGGACAGGGGCTTTCTGTAGCGCTTGGGGTGGCTCAGGGTAAAAAATTAGATGGTGATCAGTCTCTTGTTTACTCTCTTCACGGAGACGGCGAGCTTCAGGAAGGTCAGATTTGGGAGGCATTAATGTATGCTTCTGCTAAAAAGGTAGATAATATCATTTCTACTATTGATTACAACGGACGTCAGATTGACGGAGATACAGATGATGTATTAAGCTTAGGAAATCTTCATGCTAAACTGGAAGCATTCGGATGGATTGTTCTGGAAGAAAAGAACGGTAATGACCTTGAAGCTGTGATTGCGATTCTTGAGAAAGCAAAAACAGAAACCGGAAAAGGGAAACCTGTAGCCATCCTTCTTCATACAGAAATGGGGTATGGAGTAGATTATATGATGGGATCTCATGCTTGGCACGGTAAAGCTCCTAACGATGAGCAGCTAGAAACAGCAATGAAGCAACTATACCTGGAAGCTCCGGCAGACTACTAA	MSKSIEELKTLTTQIRRDILRMVHAVNSGHPGGSLGCTEFFTALYGKVMNYKLPFTMEGKNEDHFYLSNGHISPVFYSTLARFGFFPVEELSTFRKLDSRLQGHPTTHEGLPGIRIASGSLGQGLSVALGVAQGKKLDGDQSLVYSLHGDGELQEGQIWEALMYASAKKVDNIISTIDYNGRQIDGDTDDVLSLGNLHAKLEAFGWIVLEEKNGNDLEAVIAILEKAKTETGKGKPVAILLHTEMGYGVDYMMGSHAWHGKAPNDEQLETAMKQLYLEAPADY	PGPT0011200_9478	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
BMS003_03263	945	aptB	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAAATATACATATACAGAAAAAAAGGACACTCGTTCAGGATTCGGAGCAGGATTAGCTGAGCTGGCTGACAAAAACCCTAATGTAGTAGCACTTTGTGCAGACCTTATCGGTTCTTTGAAAATGGAGAAATTCATTGAGAAGGCTCCTGAAAGATTCTTTCAGATTGGTATTGCAGAAGCTAACATGATGGGAATTGCAGCTGGTCTTAGTATTACAGGAAAAATTCCTTTTACGGGAACTTTCGCTAACTTCTCTACTTCAAGAGTATATGACCAGATCCGTCAGTCTATTGCTTATTCTAACAAAAATGTAAAAATCTGTGCATCTCACGCAGGTCTTACATTGGGAGAAGATGGGGCTACTCACCAGGTTCTGGAAGATATCGGTATGATGAAGATGCTTCCCGGAATGACCGTGATCAATACTTGTGACTACAACCAGACAAAAGCTGCCACATTAGCCATTGCAGATTTTGAAGGCCCTGTATATTTAAGATTCGGAAGACCTGTAGTTCCGGTTTTTATTCCGGAAGATATGCCTTTCGAAATCGGAAAAGGAATTATGCTTCAGGAAGGTACTGATGTAACAATTGTTGCAACAGGCCACCTTGTATGGGAGTCTCTTGTAGCGGCTGATGAGCTTGAGAAAGAAGGTATTTCCTGTGAGGTTATCAACATTCACACGATTAAGCCTCTTGATGAAGAGATCATTTTAAAATCTGTTGAAAAAACAGGCAAAATTGTAACGGCTGAGGAGCACAACTACCTTGGAGGTTTAGGAGAATCTGTTGCGGGTATGCTTGCAAGAAAAAGACCTACAAAACAGGAGTTTGTAGCAGTAAATGATACTTTCGGAGAGTCTGCAACACCGGCAGAGCTGATGAAAAAGTATAAAATTGATGCTGCTGCTGTAAAAGAAGCTGTAAAGAGAATTTTAGCTTAA	MKYTYTEKKDTRSGFGAGLAELADKNPNVVALCADLIGSLKMEKFIEKAPERFFQIGIAEANMMGIAAGLSITGKIPFTGTFANFSTSRVYDQIRQSIAYSNKNVKICASHAGLTLGEDGATHQVLEDIGMMKMLPGMTVINTCDYNQTKAATLAIADFEGPVYLRFGRPVVPVFIPEDMPFEIGKGIMLQEGTDVTIVATGHLVWESLVAADELEKEGISCEVINIHTIKPLDEEIILKSVEKTGKIVTAEEHNYLGGLGESVAGMLARKRPTKQEFVAVNDTFGESATPAELMKKYKIDAAAVKEAVKRILA	PGPT0011200_7907	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
BMS003_03264	519			hypothetical protein	ATGGACATCAGAGACCGCTATAAGTTTGAAGAAAACGGAAGCGAAATAAGTTTCATGCCCAATTACAGTTTTCTGCGAACTTTGATATGGTGGCTTGTATTGGGAATTATAGCACTTCCTGTGATTATCTGTTATTGGATGGATAAAATGTACGGAGATCAGTTTAAAATAGCAATAGGATTATGGTCTGTTTATATGATCTACTTTCTGTTTGATCTTTTTTTTAGAATTCCGGTAAAATTTATTTTTGATAAATCTGAGAAATGCATTTACAGAAAACTATTACTCTCCAAAAAGCTGATGAATTTTGATGAAATGACCTATTTTATCAATGATGAAAGAGGAGGATATTATTATTCTATCGGGAAAAAGAGAAAACAGTTTGTGAAAGACTACAGGATCAGCAATTATTTTTCAGGATCAAAAGTTTCCAGTAAAAGAGAAGATGAATACATTGAAAAAATACTGTCTCCCGTTCTGATAGCCGTAGGAATTCCTTTGAAGCAGGAAGAACAATAA	MDIRDRYKFEENGSEISFMPNYSFLRTLIWWLVLGIIALPVIICYWMDKMYGDQFKIAIGLWSVYMIYFLFDLFFRIPVKFIFDKSEKCIYRKLLLSKKLMNFDEMTYFINDERGGYYYSIGKKRKQFVKDYRISNYFSGSKVSSKREDEYIEKILSPVLIAVGIPLKQEEQ				NA	NA	NA	NA	NA
BMS003_03265	480			hypothetical protein	ATGAATAACTATAACTTTTATAAACAAGAAGGAAATCAGTATATCTTTAAAAATCAGCCAGTATTTGTGGCCATACTCTGCATTATTTTTTTAGTTCTTGCAGGCTTTATTTTTAATAGTGTAAGGATCGGAAGCTATATTATTACTGCTGTAGTTGCCCTTATTGTGCTCAATTTCTTTACCAAGAAATTCATCATTGATATGGATCGTAAAACGATTACCGGAAAGCACTCCGTTTTTGTTCCGGAAAGAACATATCCTATTGAGAATTTTAGAAACTTTCATGTCGTAGCAACAAAATATATGGGCTTTATCACCACTAATGTAATGCTGTCTATGTATTTCGAAGTAGATGGTAAGGAAAAACAGCTTACTATAGGCCAGGCGCTTACCCAGAAAGGAATACAGAAAATGGTCAATGAAACGGAGGATATTATAAACATTAATAATCCTGAGAATGGACATCAGAGACCGCTATAA	MNNYNFYKQEGNQYIFKNQPVFVAILCIIFLVLAGFIFNSVRIGSYIITAVVALIVLNFFTKKFIIDMDRKTITGKHSVFVPERTYPIENFRNFHVVATKYMGFITTNVMLSMYFEVDGKEKQLTIGQALTQKGIQKMVNETEDIININNPENGHQRPL				NA	NA	NA	NA	NA
BMS003_03266	534			hypothetical protein	ATGGATTTTGAAATTTTGAAAGAGGAGATAGAAAAGGCTGCTAAGAAAGCTTTTTTAGAAATGTATGAAAAGCATGGTGAAGAAGGTATATATAGTTTTGCGCTATATAGCGATGAAGGAGTAATGACGGTGTGCCCGGCAGCCAACACATTGAAAGTAACAGAAAATGCAGATGATGAGGACGCTCTTTATTATAAATATGAGCCGGCAGAATGGACCTATGAAATGGAGGGTGCCAATGATGACTTCAATGAAATCTGTACTCAATTGAGAACAGAAATTTATAAACATGATGATGAAGATCAATGGTTTGAAGGTTTCCAGACTAAACTATATTCCACCTGTATTGAAGTTTTGGAAAAGCTTAAAAACGAAAACTTTTTTACCGGTATTACAGGACAAGATATCTTCCTGATTTTTACAGTTTCAGATTATGAGTTTGAGAAAAAAGAGCTGCAGGATCTCATCATCAGACTTAATGATAATGAATACAAAAATGAATATCTGGACTGGATGGCTACCTGGGGCAATTAA	MDFEILKEEIEKAAKKAFLEMYEKHGEEGIYSFALYSDEGVMTVCPAANTLKVTENADDEDALYYKYEPAEWTYEMEGANDDFNEICTQLRTEIYKHDDEDQWFEGFQTKLYSTCIEVLEKLKNENFFTGITGQDIFLIFTVSDYEFEKKELQDLIIRLNDNEYKNEYLDWMATWGN				NA	NA	NA	NA	NA
BMS003_03267	177			hypothetical protein	ATGAAAAAAATAATTGGAATTATTCTGATTATGTTAGGCTTCTGCCTGGTAGTGGTTATTAAAATAGGACCATCCAGAGAAACTTCCTGGCTGTTCAAATATGGTGAATTTGCTCCTATGCTGATTGGGGCAGCTATTTTGATTCCAGGGTTGATATTATATAATAAAAACAGATAG	MKKIIGIILIMLGFCLVVVIKIGPSRETSWLFKYGEFAPMLIGAAILIPGLILYNKNR				NA	NA	NA	NA	NA
BMS003_03268	165			hypothetical protein	ATGAAAGATTTTAAACATTTAAAAAGAAATGGTTCAGGGCATCGGGTGAAACAGTATAAAACATTTCAGCGTATTATAGGGGTAGCCTGGATTTGTATTTCCGTCTTGTTCATCAATAATATCGGTTATCTGAAAACAGGAATTGTTTTGAACCTGAAGATCTGA	MKDFKHLKRNGSGHRVKQYKTFQRIIGVAWICISVLFINNIGYLKTGIVLNLKI				NA	NA	NA	NA	NA
BMS003_03269	321			hypothetical protein	ATGGACAACAAAACATTATCTATTGTTTCTTACATTACCCTTTTAGGATGGCTGATTTCTTTTGTAATCGGGAAAGAAAAATCAAACAGTCTTTTAAAATATCACCTGAAGCAGTCTTTAGGATTGATTATTTTTTCAATTGTACTCTCCGTTATTCTGAATGTTCTGATGATGGTCACCAAAATCGGAATGCTTGGGATGTTGGGATTCATTCCTTTGGTGCTGATGATCATAGGAATCATTAATGCGGCTAATAATGTTGAAAAACCTTTACCATTAATTGGGAAAATGTTTGAAGACAAATTCTCTTTTATCGGGTAA	MDNKTLSIVSYITLLGWLISFVIGKEKSNSLLKYHLKQSLGLIIFSIVLSVILNVLMMVTKIGMLGMLGFIPLVLMIIGIINAANNVEKPLPLIGKMFEDKFSFIG				NA	NA	NA	NA	NA
BMS003_03270	1851			hypothetical protein	ATGAAATTAAAGTACTCATTTATCTATTGTATACTTTTTATCTGCACCTTATACCCCGCACAGAATACATTTATTGATGGTCTTAAAAGCCAGTTAAGCAGAGGTCATATTTCAACCGCAGAAAAATTCAAAATTTACAATGAGCTTACAGAATATTATAGAGTCAGTGATCAGTATCCCACAGCTGAAAAATATGTTCAGCAACAGCTGGAACTTGCCAAAAAGGAAAATAATTTTGCTGAAGAAGTAAAAGCCCTTACTCAGGAAGGGATCATTAAGCTTAATCAGTCTGAGTATGACAAAGTACCTTCCATCATAGATACAGCCAATACTATTGTTCAAAAGAGCAATGATAAAACAGCCTTATTATATGCCAACTATCTGAATATTTACTACAGAAATGCTTTGGGCGAAACTGAAAACACAATAAAACTTATTCAGAAGACTCTCCCTCTTGTTGAAAAACAACCTTCGGAAATGATGCTGAATGCAAAGCTTAATTATCTTCTCTACGGAATTTATACAGAATGGAACGATGCTGAAAATGCGACCAAATATGCTAAAAAAGCCATCGAGCTTGCTGAAAAATCTGATAACAAAAATTTATTAAGCTCTGCCTATTCTGCCCTTGCTGTATGTTATTCTTTTAAATACGAAAAAACAGGTGATTTGAAAGACCTGAAACCTGTCATAGAGATGTGTAAAAAAGCAGTAGCCCTGTATCATCAGTTTCCGGGGCATGTTTCTGCACATGTTCATGCCATGGCATTACTGAATCTTATTAATTATTATCTGGGTTACCCTGTTATGACTCCGGAAATTCGTTCTGAAATTCAAAATAATGCCAACGAAATACTGAACCTTACCCGTCATACAACTCTTAACCAGGGTATGCAGGCCGGAGCTCTTGGAGTTTTGAGTAATCTGGCATCACGGGATCAGAATGATGCATTATCAGAAAAATACCTTCTAAAAGCCGAACAGGTTCTTCTTACTCAAAAGCCGGTCTATTACCATGTGATGATCAATGTAGTGAAAGACCTTGCCCAGCTTTACGCCAGACAAAAAAATTATCAGAAAGCTTTTGAATATGAATCAAAAGTAACAGAATACAGTAATCTTCTTTTTGATGAAGGACAGGCTGAAACAGCCAAAAGACTGGAAGCCCAGTATCAGTCTCAGAAAAGAGAAGTTGAATTGAAAACCCTTACTGAAAAAACCATCAGCCTGAAAAAAGAAAAACTCCTTTATATGGGTTTGGGAGTTATCGGATTGATGGGTGCATTCTTTATGTTCCGCTCTTATCATTTTAAACTGCGATATTCTATAGAAAGAGAAAAAAAACTTGATACAGAAAAACATGAAGCTGAAATGCAGATCAAACTTCAGGAAGAGGAAAAAGCAAGATTAAAGGCTGAACAGGAACTTCTGACACTCCAGCAACAAAAACTTCAAAGTGAGGTCTTGGCCGGTCAGCTTCATATCCAGCATAAAAATGAGGTTCTTCAGCAGCTGCAGACCCAGCTTTCTGATACAGACATCAATATTCAGCATGTGGTAAAGGGAGAAAACCGTGTGGATAATGATTTTGAAAAAATAAAATTTACAATTCAGGAACTTCATCCGGATTTTTTTAAAAATATCAATGAAAGAGCCATACAAAAACTTACAGGCCTGGATCTGAAATACTGTGCCTATATCTATCTCGGTATGGACACGAAACAGATTGCCAATCTTCTCAATGTAGAACCCAAAAGCGTAAGAATGACGAAATACCGACTGAAAAAGAAATTCGGACTGGATAAAAATACAGCTTTAGAATCTTTTTTTCAGGGTGTGTTTTCTGAGTAA	MKLKYSFIYCILFICTLYPAQNTFIDGLKSQLSRGHISTAEKFKIYNELTEYYRVSDQYPTAEKYVQQQLELAKKENNFAEEVKALTQEGIIKLNQSEYDKVPSIIDTANTIVQKSNDKTALLYANYLNIYYRNALGETENTIKLIQKTLPLVEKQPSEMMLNAKLNYLLYGIYTEWNDAENATKYAKKAIELAEKSDNKNLLSSAYSALAVCYSFKYEKTGDLKDLKPVIEMCKKAVALYHQFPGHVSAHVHAMALLNLINYYLGYPVMTPEIRSEIQNNANEILNLTRHTTLNQGMQAGALGVLSNLASRDQNDALSEKYLLKAEQVLLTQKPVYYHVMINVVKDLAQLYARQKNYQKAFEYESKVTEYSNLLFDEGQAETAKRLEAQYQSQKREVELKTLTEKTISLKKEKLLYMGLGVIGLMGAFFMFRSYHFKLRYSIEREKKLDTEKHEAEMQIKLQEEEKARLKAEQELLTLQQQKLQSEVLAGQLHIQHKNEVLQQLQTQLSDTDINIQHVVKGENRVDNDFEKIKFTIQELHPDFFKNINERAIQKLTGLDLKYCAYIYLGMDTKQIANLLNVEPKSVRMTKYRLKKKFGLDKNTALESFFQGVFSE				NA	NA	NA	NA	NA
BMS003_03271	378			hypothetical protein	ATGGAAGAATACAGCTATTTTGACGAAGATCCGAAAAAAGGATGGGGATTTGTACTGGCATTTGCAGCCTTAATGCTATTTACCATAATGGGTTTGGGAATAGATGTGGATGAATATCTGCAGCACGAATATCTGGAGATTCCAAGGTGGTATTTCTACGTCATTTTTTCAGTTGATGTACTGATGATGATTGGGTTGGTACTGATGTTCTTCTACAGGAAAATAGGAATATTTATGTTTCCGGCTTTGCTTGTAATACATTTCTTTATGCACAATTATTATCTGTCTACCTTTTTGTATACGGATGTTACCAATCTTTTCCTGTTCACAGGATTTGGCATGCTTGCCATCATCCCGAAATGGAAGTTTTTTAAATAA	MEEYSYFDEDPKKGWGFVLAFAALMLFTIMGLGIDVDEYLQHEYLEIPRWYFYVIFSVDVLMMIGLVLMFFYRKIGIFMFPALLVIHFFMHNYYLSTFLYTDVTNLFLFTGFGMLAIIPKWKFFK				NA	NA	NA	NA	NA
BMS003_03272	471	asnC_1	COG1522	Regulatory protein AsnC	ATGAACTATCAACTGGACGAAATAGACAAGAAGATTCTTGATTTCTTAGTAGAAAACACAAGAATGCCTTTTACAGAAATTGCAAAGCAGATGGATGTTTCTGCTGGAACAATTCACGTAAGAGTGAAAAAGATGGAAGATGCAGGTATTATTTTGGGATCATCTCTTAACATCGATTATGGTAAGCTTGATTATCACTTCACAGCTTTCATAGGTATCCTTTTGACCAAATCAAACCGTACTCAGGAAGTACTGAAAGAATTGGCAACTTTACCTAACGTAATCGAAGCTAGCGTTATTTCCGGAAAATATAATATTTTCTGTAAAGTAAGAGCTAAGAATACGGATGATGCTAAAAGAATTATTTACCAGATAGATGACATTCAGGATGTAATGAGAACTGAAAGTATGATTTCTATGGAAGAATTCTTAAGTGACAAAAACAGACTGATCAACGCTATCTCTGTGTAA	MNYQLDEIDKKILDFLVENTRMPFTEIAKQMDVSAGTIHVRVKKMEDAGIILGSSLNIDYGKLDYHFTAFIGILLTKSNRTQEVLKELATLPNVIEASVISGKYNIFCKVRAKNTDDAKRIIYQIDDIQDVMRTESMISMEEFLSDKNRLINAISV				NA	NA	NA	NA	NA
BMS003_03273	4791			hypothetical protein	ATGGCAAAGTTAGAGAATAATAACGAGAATGAGAATAAAAAATCAGTAGCTGAAAACCTAGGGGATCAGGTACAGAAAACTGTTGAAAATGTAGAAGAAAAAGTAAGGGAAACAGTAAAAGAAGCAACTGAGCTGGCTTCAGATGCTATACATCATCCTGTGGAAACAGCTGAAGAATTTGGTAAACAGGCTGTAAAGGATGTTACCAGCTATACCTGGTGGGCAAAACTTCTCCTGATTCTTTTTTGGCTGGGAATTGTTCTTGTAGGCGGAGTGCTTATTGCCATTAATCTTCCGGTTACCAAACAGTGGGCTGCAGATCAGGCTTTAAAGCTTGTTAATAATGATTTTAAATCTGATTTTTCTACAGAAAGTGTAGATGTAAATTACTTTGGTGATGTAACAATAAAAGGCTTAAAAATTAAAGATTATAAGGGGTTCAATTTTATTACAGCCCGTGAATTCCGTGCGGATTCCGACTGGATTTCTCTTGCAGTAAATGCCATTTCAGGAAGCAGTAATTCTTTAAGTTTTAATTCCCTTGCACTTTTAAATGCTGATATAAAGGTTATTACTTATAAAGGAGATAGCATCTCAAACTTTGTAAGATTTGTAGAACTATTTGACAACGGTAAAAAAAGGGATCCTAAAAAACCTCCTTTTCAGCTGAATTCCAGAATACAGATCATTGATTCTAAAGTTTCAATCATTAATCAAAACTCTTCCGGGGAACAGGGAAAATGGCTTACAGCAACAAAATTCAACTTAAAAGCACCAAACGTAAAAGTTAACGGCCCAAATGTTTCAGCGTTAATTAATAATATGTCTTTTGTAACCTCAAGATGGGGAAAATCTCATTTTGTAGATACTTTTTCAACAGAACTGTCTCTAACGAAGCAGTTTTTGTCATTAAAAGACCTTACCCTGAATACAGATCATACTTTACTTCAGGGAGATATTAAATTTAATCTTCATGACGGTTCTTGGGCAGATTTTGCAGATAAGGTGCGCTGGGATATGAATATTAAGCAGGGAAGCCAGCTTAGCGGTTATGATATCAGCTATTTTGTAACAAATTGGGATAATATCAGACCTTTCAATCTTGCAGGAACCATGACAGGGCCTTTGAATAAATTCCATCTGGAAAATTTTCTGATCCGAAACCCTGATGTCAATATTGCCACCAAAACCATGAAGGTTGATAATCTTTTGAAAGGAAATTTTTCTATTGAAACAAAAGACCTTTCTACAGATTTTGCCTACAAAGATTTAAAAGCCATGATGCCTTCCTTTATCTCTAAAAAGATGAAGAACTTTGCAGACGATTTCGGGAAATTAAAATACAACGGAACAGCAAAAGTAAATCCGGATCAGATCTATGTGGACAGCGGAAATCTGATGACAGGAATAGGACAGGCTAAGATTTCCAAACTTACATTGACAGGCTACAGTACCGCAATGCCAAAATATTCAGGATACCTTGAGGTAAAGGATCTTAATACGTCTGTCATTACAAAAAATAAAACAGTAGGATTGATTTCCGGTAAATTCGATCTTAACGGACAAAGCTTTGATGTGAATACCATGCGTCTGACCACGAAATCTCAGATTGCAAGCGTTGAAATAATGGATAAAACGATCAATAATCTTTATCTTGACGGATTATTGGATCATAAAAAATACAACGGATTGATTACCGTTAATGATGAGCAGGCGAAAGCTACCATTAAAGGATTGATAGATTTCAGTACTTCAAGAGTTTCTATGGATGTAAATGCAGATGTCAGTTACCTGAATATGAACTATTTTACCAATAAGCCTGGCAGCCAGGTGGTAAGTGGGCAGGTAGATGGGAAAATAGCAATGTCTTCCATCAATGATCTTACTTTGGATGTTAATGCCAATAACCTGAATTTTGCTACAGCAACTCAAAAATATAATATCCCTAGTGCGAAGTTTAAAACATTTGTTGAAGCAGAAGGACGTGTCATTGATGTAGACGCCCCGGGAGCAGCTACCGGTAAAATATCAGGAAGATACAGTCTTGCAGATCTTGCCGGAATGGTAGAAAACGGAGTCGGAAGAATATTGGTAGGGCCACCACCAAGAAAACTATACCGTGGACAGAACTTTGCTATGAAGTTTGATGTTCAGCAGGGATTGGCAAACTACTTCCTGCCTGAGCTGAGATTACCTCAGGGGGCTGTTGTAGAAGGAGAATATGACGGAGATTCAAACAACATGATCCTGAATCTGGATGCCAGCTCTCTGAAATATATTATGACAAAGGAAGAAGAGATTTCTGATGCTGATAAAACGCTGGCATCTTCCAATCCTGATTATCATATTAATGACCGTAAAGATCTTAGCAGAGACAGTGCTATGGTGGACAGCGTTAAAATAAGAATTAACACAGCAGATCTTAATCAGCAACTGTATGCAAGGATCAACAGGGTTATTTATAATAAAAATGTCATCAAAGATTTTGAGCTGAAAGGGAATAATGAGAATGGGGATACGCTTCATTTGGCAACTACATTTAAGCATGGAAGCCCTGATGATGAGCTGAATGAAAAGCTTAAAGAATATGCAATCAATGTAGATCAGTCTACAGATGCGGCCGGCGATTTTGTATTCAGGTTTGAACCTACGGAAGTGAAGCTCAATGAGGTAACATGGGCGGTAGATACAAGTCCGGAATTGAATCATTCCATTACTTACAGGAAAGGTACGGGAGATTTTGATATCAGAAATTTGAGAGTGTTTTCTGATAAAAGTGCCTTGTTTATTAAAGAAGCCCAGTTTAAATCAGCAAAAGATTTTTATGTAGATGCTGATATCAATGATTTTGCTATAGAAAAGCTTCTGGAAATGCAGTCCGGAGGAAATACTATGGATATAAAAGGTCTTGCCAACGGAAGCGTTAAGATCAAAATGGATAAGAGCACCCTTCAGCCCCTGGTAGATCTTAATATTGATGATATAAAGATGAATGGCAATGACATGGGAGATATTTCTGTTTCTGCAACCAATAGCTTCTCTCTTAATGTGTATGATATCGATGTGAAAGTTCATTCTGCGGGAGTTTTGGGAAGCAACAGCCTTAATCTTACAGGAACAGTTAATAATAATACTTCTTCTCCCATCATTGACCTTACAGCAGAAATGCGTGATTTTGATCTGTCATTTACACAGCAGTTTGTACAGACTATTTTTGGAAATCTCCGAGGAAAAGCTACCGGAGATCTTAAAATCAACGGTAAGCTTAATAATCTGGATTATAGTGGAGATGTTGCCTTAAAAGATTTTGGATTAAAACTTTTATTCACCGGAGTAGATTATTCATTTGATGATACTGTGATTCAGCTGACGAAAGGACTAGCTATCCTCAACAATATTGAAGTACACGACGGAAGAACCAATTCCAAAGGAAATATCTCAGGTGCAATCCAGTTTGAAACCCTCTCTTCAATGGGAGTTTCTCTCGTAATGAGAGCAGACAACCTTCTGATGCTGAATACAACACAGAAAGATTTTGACCTTTTCTGGGGAAGAGTTTACGGACAAGGGGATCTCTATGTGGACGGACCTGTTTCTGGATTAAGTATTACCACTCCTAATATGAAGGCTCTTAACGGAAGTACTTTTACTTTTAACTCCAGTTCCACTTCCAATGTAGAAGAGTTTAAAATGCTGAGATTCCTGAAAGAAGGAAAAGACGGGATGATTACCCTGGAAGAAAAGAAAAAGACGGGGGCCAATATGAATATAGATTTCAATCTTGCTGTAGATAAAGGAACTACCGTAAATGTACTGGTAGGAGATGATGTAGGAAATATTACCGTAAAAGGCTCTGCAGATCCGCTGAGGTTTCATATGAACAGACAGGGTAATATTGCGATGAGCGGTACCTATAAAGTAGATAACGGCACATTTGTCTCCAAGGCAATTCTTAATAAAACATTCCAGATAGAAAGGAACAGCAGCATCAGATGGGATGGTGACGCTATGAAGCCTATGCTGGATATCAATGCCAATTATATAAGAATGGTTTCCAATGCCGGAGAGTATCTTAGCATGGGTAAATTACAGCCTATCAGTATCCTGTTGCAGGCTCATATTACCCAATCGTTGGTAGATCCTCAGATTGATCTTAATGTGACGGCTATGGATGTATCCAGCCAGGTGAGGGAGACCCTTGCTGCAAAGATGAGCCAGGAAGGGGAGAAAGTTCTCCAGTTTGGATCTGTATTGCTGTTGAGTACCTTCAATGTGTCAAATACTGGTGGGGTAGATGTGAACGTAGGAAATGTAGCAGAATCCTCAGGATATAATATACTTCTGAAACAGCTTGGATCAGTTCTCAATACCATGAGTAATGAATTCCAGATTGACCTGAATTACGTAAAAGGAGATCAGAATTCCAACTTTGGAGACAGAGCCAATGCCGGAGTAAGCGTAGCCCTTTCGCCGAGGGTTAATATAAAAACCGGCTTAGGTATTCCTTTGTCCAAAACAGATGGTGCTCAGAATAATTATTTGTCTACAGAAGGCTCTGTAGAATATGATTTATCTAAAAAGAATGACGGAACTTTGGTCATACGTGCCTATTCCAAGCCTACGAACATCGGAATGGTAAGTACAAACGGATCTGCTAATCAAGCCTATGGAGGCGGGGTTGTGTGGAGTAAAAGCTTCAATTCTTTGTTTAAAAAGAAGAAAAAAGACAAAAAAACTTCAGAGGCAAAAGGTGAAATAAAAACAGATTCTATAAAATCGACTGGTAAATAA	MAKLENNNENENKKSVAENLGDQVQKTVENVEEKVRETVKEATELASDAIHHPVETAEEFGKQAVKDVTSYTWWAKLLLILFWLGIVLVGGVLIAINLPVTKQWAADQALKLVNNDFKSDFSTESVDVNYFGDVTIKGLKIKDYKGFNFITAREFRADSDWISLAVNAISGSSNSLSFNSLALLNADIKVITYKGDSISNFVRFVELFDNGKKRDPKKPPFQLNSRIQIIDSKVSIINQNSSGEQGKWLTATKFNLKAPNVKVNGPNVSALINNMSFVTSRWGKSHFVDTFSTELSLTKQFLSLKDLTLNTDHTLLQGDIKFNLHDGSWADFADKVRWDMNIKQGSQLSGYDISYFVTNWDNIRPFNLAGTMTGPLNKFHLENFLIRNPDVNIATKTMKVDNLLKGNFSIETKDLSTDFAYKDLKAMMPSFISKKMKNFADDFGKLKYNGTAKVNPDQIYVDSGNLMTGIGQAKISKLTLTGYSTAMPKYSGYLEVKDLNTSVITKNKTVGLISGKFDLNGQSFDVNTMRLTTKSQIASVEIMDKTINNLYLDGLLDHKKYNGLITVNDEQAKATIKGLIDFSTSRVSMDVNADVSYLNMNYFTNKPGSQVVSGQVDGKIAMSSINDLTLDVNANNLNFATATQKYNIPSAKFKTFVEAEGRVIDVDAPGAATGKISGRYSLADLAGMVENGVGRILVGPPPRKLYRGQNFAMKFDVQQGLANYFLPELRLPQGAVVEGEYDGDSNNMILNLDASSLKYIMTKEEEISDADKTLASSNPDYHINDRKDLSRDSAMVDSVKIRINTADLNQQLYARINRVIYNKNVIKDFELKGNNENGDTLHLATTFKHGSPDDELNEKLKEYAINVDQSTDAAGDFVFRFEPTEVKLNEVTWAVDTSPELNHSITYRKGTGDFDIRNLRVFSDKSALFIKEAQFKSAKDFYVDADINDFAIEKLLEMQSGGNTMDIKGLANGSVKIKMDKSTLQPLVDLNIDDIKMNGNDMGDISVSATNSFSLNVYDIDVKVHSAGVLGSNSLNLTGTVNNNTSSPIIDLTAEMRDFDLSFTQQFVQTIFGNLRGKATGDLKINGKLNNLDYSGDVALKDFGLKLLFTGVDYSFDDTVIQLTKGLAILNNIEVHDGRTNSKGNISGAIQFETLSSMGVSLVMRADNLLMLNTTQKDFDLFWGRVYGQGDLYVDGPVSGLSITTPNMKALNGSTFTFNSSSTSNVEEFKMLRFLKEGKDGMITLEEKKKTGANMNIDFNLAVDKGTTVNVLVGDDVGNITVKGSADPLRFHMNRQGNIAMSGTYKVDNGTFVSKAILNKTFQIERNSSIRWDGDAMKPMLDINANYIRMVSNAGEYLSMGKLQPISILLQAHITQSLVDPQIDLNVTAMDVSSQVRETLAAKMSQEGEKVLQFGSVLLLSTFNVSNTGGVDVNVGNVAESSGYNILLKQLGSVLNTMSNEFQIDLNYVKGDQNSNFGDRANAGVSVALSPRVNIKTGLGIPLSKTDGAQNNYLSTEGSVEYDLSKKNDGTLVIRAYSKPTNIGMVSTNGSANQAYGGGVVWSKSFNSLFKKKKKDKKTSEAKGEIKTDSIKSTGK				NA	NA	NA	NA	NA
BMS003_03274	1017	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAGCGACTCTATAATTTTAGGTATTGAATCGTCCTGTGACGACACCTCAGCAGCTATCATCAAGGGAAATTCTATTCTTTCAAACATTGCCGCAAACCAGGCCATCCACAAAGAATATGGTGGTGTTGTCCCTGAATTGGCTTCACGAGCCCATCAGCAAAATATTATCCCCGTTGTTGAAAAATCTTTTTCTAAAGCAAATATACAACAAAATGCTATCTCTGCTATAGGATTTACTCGCGGACCGGGACTTTTAGGATCTCTTCTTGTAGGAACATCATTTGCTAAGTCTTTGGCTATGAGCCTGAATGTACCACTTATTGAGGTAAATCACCTTCAAGCCCACATTCTGGCCCATTTCATCGAAGATGCAAATCCTGTGCCGCCTACTTTTCCGTTTTTATGTCTTACCGTAAGTGGCGGGCATACCATGATTGTATTGGTGAAAGATTATTTTGATATGGAAATCATTGGTAAAACTACCGATGATGCTGCCGGAGAAGCTTTTGATAAAATCGGAAAGATCTTTGATCTTGACTATCCTGCCGGGCCTATCATCGACAGACTTGCCAAGGAAGGAAATCCCGATGCTTTTAAGTTCAATAAACCGAAGCTGGAAAACTACGATTATTCTTTCAGTGGTATTAAAACTTCCGTGTTGTATTTCATCCAGAAAGAAGTCAGAAAAAACCCGGATTTCATTAAAGAAAATCTTAATGATCTATGTGCATCTGTACAGAAATCTATTATTGAAATTCTGATGAATAAGCTTGAAAAGGCTGCCAAAGATCTCAATGTAAATCAAGTGGCCATTGCAGGTGGTGTTTCTGCCAATTCTGCACTTAGAAAAGCAATGGAAGATAACAGAGAAAGACTGGGTTGGGATATTTACATTCCAAAGTTCGAATATACAACAGATAATGCAGCCATGATTGCGATGGTAGCAAAACTGAAGTTTGAACGAGGAGAATTTACGGATTTAAGAACTTCCGCAACGGCAAAATACGATTTATGA	MSDSIILGIESSCDDTSAAIIKGNSILSNIAANQAIHKEYGGVVPELASRAHQQNIIPVVEKSFSKANIQQNAISAIGFTRGPGLLGSLLVGTSFAKSLAMSLNVPLIEVNHLQAHILAHFIEDANPVPPTFPFLCLTVSGGHTMIVLVKDYFDMEIIGKTTDDAAGEAFDKIGKIFDLDYPAGPIIDRLAKEGNPDAFKFNKPKLENYDYSFSGIKTSVLYFIQKEVRKNPDFIKENLNDLCASVQKSIIEILMNKLEKAAKDLNVNQVAIAGGVSANSALRKAMEDNRERLGWDIYIPKFEYTTDNAAMIAMVAKLKFERGEFTDLRTSATAKYDL				NA	NA	NA	NA	NA
BMS003_03275	396			hypothetical protein	ATGAAAATACTCTTAGAAGAAAAAGTGCTTGGGAAGCATTCTAAAAAGAATTCAAAATATTACTGGATATTAGAAACCATTACAGGAAAAAATGAAAACCCTGAGATTTCTTTAGATTATTTTCCATCCAGTTCTGAAACAGGATATATTCAGGATATAAAAGATGAAGTCTTACAATTAATCAACTCTGAACATCTTTTTAGTTTTCCTTACACCCCGAAAGAAGGAGATTATTTATCCATTAAAAATAATTTGAGAAAACAGGAATATTTAAATCTTATTTTCATTAATAATATCTGGATAGAAGAAATATACATGTGTTCTTACCGTGAGTGTGATACAGACATCTACACAACCATCAAAACAGGAGTTGCATTTATAAGCCAGGATATATGA	MKILLEEKVLGKHSKKNSKYYWILETITGKNENPEISLDYFPSSSETGYIQDIKDEVLQLINSEHLFSFPYTPKEGDYLSIKNNLRKQEYLNLIFINNIWIEEIYMCSYRECDTDIYTTIKTGVAFISQDI				NA	NA	NA	NA	NA
BMS003_03276	696	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGAAATTATTTTACGGAGAAATAGCAGATCAGAAAGTAATCATCAATGATGAAGAACAGCAGCATATTGTAAAGGTTCTTCGGATGAAAGATGGCGAGGATATTCATGTAACAGATGGAAAAGGTAAATTAGCTTCCGGAAAACTAATTATAGAAGGAAAGAAAGCGGGTATTAAGGTTTCTGAGATCAAAGAAAACCTTCCGGGATTCAATCCGAAACTTCATATTGCGATTGCTCCTACCAAAAATATTGACAGAATCGAATTCTTTGTGGAAAAAGCCGTGGAAATGGGTATTTCTGAGATCAGTATTATTGTCACGGAGAAAACAGAGCGTAAGAATATTAATATTGATAAAATCAGAAAACAGGCTATTGCGGCTTCAAAGCAAAGTCTGAGATTCCATTTTCCGATCATTAATGATGCTGTGAAACTGACAGACTTTCTGAAAAATATTGATCCGGGAAATACTTTTGTAGCACACTGCCATGAGAACCTGAAAAGAATTGACCTTAAAAATATTCCCTCATCAGAGCGGCTTACATTCTTAATAGGACCCGAAGGTGATTTTTCCGAAAAGGAAATTGCATTTCTGGCAGAAAATGATGTAAGAGCCGTTTCTCTTGGAAATCAGAGGCTCAGAACAGAAACTGCCGGTGTTTTTGTAGCCGCATGGAATTATTACAATATGATATAA	MKLFYGEIADQKVIINDEEQQHIVKVLRMKDGEDIHVTDGKGKLASGKLIIEGKKAGIKVSEIKENLPGFNPKLHIAIAPTKNIDRIEFFVEKAVEMGISEISIIVTEKTERKNINIDKIRKQAIAASKQSLRFHFPIINDAVKLTDFLKNIDPGNTFVAHCHENLKRIDLKNIPSSERLTFLIGPEGDFSEKEIAFLAENDVRAVSLGNQRLRTETAGVFVAAWNYYNMI				NA	NA	NA	NA	NA
BMS003_03277	681	trmH_2		tRNA (guanosine(18)-2'-O)-methyltransferase	ATGCGGATGAAAGACTTAGCACAAACTTTTGAATATTTAAAACAGTTTTTAACCGAAGAAAGACTTGAGAAAATTGAACATTTTTCACAGGAAAGTTCAGACTTTATACTTCCGGTAGTAGAAGACGTCTACCAGTTTCGAAATGCAGCGGCTATTGTACGCTCCGTAGAAGCCTGCGGCTTTCATAAAGTAGTGGCTTTGCAGGAAGAATACAGCTTTGAGCCTAATCTTCGGGTAACAAAAGGTGCGGATACATGGGTTGAGGTAGAAAAGCTTCCCAGAAATATGGAGTCTTTTCAGTCTATTAAAGACAGAGGGTATAAGATAGTGGTTGTTTCGCTGGAAAATAATGCTAAAATGCTACCCGAATATGAGATTACGGAGCCCATTGCTTTAGTTTTCGGGACTGAAATGGAAGGTGTTTCACAGGAAATTTTAGACTTTGCGGATGAAACACTGGCTATCCCAATGTATGGCTTCACAAGGAGTTTCAACGTTTCTGTAGCAGCTTCAATTTGTATGTATGAGCTGAAACAAAAGCTGATAAAGTCTGAGATTGATTATAAGCTGAATGAAGAAAAGCTTTTAAGAATGAAAATCCTCTGGGCAGTGAATTCCATGAGAAGCGGACAGCAGATTTTTGAAAAATACCTGCGAGAAAATAATATTGAGTGGAAATAA	MRMKDLAQTFEYLKQFLTEERLEKIEHFSQESSDFILPVVEDVYQFRNAAAIVRSVEACGFHKVVALQEEYSFEPNLRVTKGADTWVEVEKLPRNMESFQSIKDRGYKIVVVSLENNAKMLPEYEITEPIALVFGTEMEGVSQEILDFADETLAIPMYGFTRSFNVSVAASICMYELKQKLIKSEIDYKLNEEKLLRMKILWAVNSMRSGQQIFEKYLRENNIEWK				NA	NA	NA	NA	NA
BMS003_03278	1017	ansA	COG0252	L-asparaginase 1	ATGAAGCGAAAAGTCCTGCTCATCTATACCGGTGGAACCATCGGAATGGAAAAAGATTACGAAACCGGAAGTCTCCGTGCCTTTGATTTTGGTAATATATTTGAAAAAATGCCTGAAATGAAGCTCATGGAATGTGAGGTTTTTGTTCATCCTTTTGCCAAACCATTGGATTCCTCAGATATGGGACCTGAAGAATGGAGAGTGATTGCTAATTATATTCAAAAAAATTATGATGATTATGATGGGTTTCTGATCCTTCACGGAACGGACACGATGTCTTATACCGCATCAGCATTAAGTTTCATGCTAAAAGGATTAAGAAAACCTGTGATCATGACGGGCTCTCAACTTCCCATTGGAGACCTGAGAACAGATGCGAAAGAAAATCTTCTCACCAGCCTTTATTATGCCAGTCTTTATGAGAATAATGAAGCAGTCATTCAGGAAGTTGCCGTATATTTTGAGTATAAGTTATTGAGAGGAAACAGAACATTGAAATATTCTGCAGAGTATTTTGATGCGTATTCTAGTCCGAACTACCCTATTCTAGGACAATCCGGAGTTCATTTGAATATTATTAAAGATAATCTGTTTCGTTGTGATCCGGGGGTGGAATTTCATGTGGATGAACATATTTCTGAAGATATTTTATTCTGGAGAATTTTCCCGGGTATGCATCTGAGTCATTTTAAAGAAATCCCAAAAATGAAGGTGCTTATCCTTCAGGTTTTTGGTTCGGGAACTATTTTCAGTAGTGCAAAAACACAGGAAACGCTTCAGGAAATCAGAAATAACGGAACCGAAATTGTGGTAGTAAGCCAGTGTATATCAGGAGGTATCTCATTCGGAAAGTATGAAAACAGTAATATTTTCTCCAGAATCGGAGCGATCAGCGGAAGAGACATGACTGCGGAAACTGCCATTACCAAAGCTATGCACCTTATTGATAATCCAAACTACTCCGGCAGCTTCGCAGATAATTTTACCAGAAGCCTTTGTGGAGAAATTACGGATTAA	MKRKVLLIYTGGTIGMEKDYETGSLRAFDFGNIFEKMPEMKLMECEVFVHPFAKPLDSSDMGPEEWRVIANYIQKNYDDYDGFLILHGTDTMSYTASALSFMLKGLRKPVIMTGSQLPIGDLRTDAKENLLTSLYYASLYENNEAVIQEVAVYFEYKLLRGNRTLKYSAEYFDAYSSPNYPILGQSGVHLNIIKDNLFRCDPGVEFHVDEHISEDILFWRIFPGMHLSHFKEIPKMKVLILQVFGSGTIFSSAKTQETLQEIRNNGTEIVVVSQCISGGISFGKYENSNIFSRIGAISGRDMTAETAITKAMHLIDNPNYSGSFADNFTRSLCGEITD	PGPT0020180_1712	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
BMS003_03280	267			hypothetical protein	TTGTCATTGTTTGTAGGGCAGTTCCGATTTCCAGATAATATTCAGGAGATAATAGATATATTAGAATCAGTAAGAAGTGGGAGCAAAACCTGGCTTGAAGCTAATGATGATTTAATGTTTATGCAAATAGGATATGATAGTGGTGATTTTAAATGTGATAAAGATATTGCTTACTTTATAGCAGACAATTCAACATATCAGAATATGGAAATGCCTTTACAGGAACTAATAGATATTATGAAAAATTGGAAAATTTTTATGAGTTAA	MSLFVGQFRFPDNIQEIIDILESVRSGSKTWLEANDDLMFMQIGYDSGDFKCDKDIAYFIADNSTYQNMEMPLQELIDIMKNWKIFMS				NA	NA	NA	NA	NA
BMS003_03281	216			hypothetical protein	ATGAAAAAAATAGTAATTAAAGAAAATAGTCAAGATATTTTGTTGGCATTAAAAGTTTTATACTCTAATCAGTGTTTATCTTCATTAGAAGATGTTGCTGAAAAGTTAGAATTATATAGAAAAAACGATTTTGTAGAAATTATAGCTGACGAGAATAAAATTATGGAATCAAAAAAAATGTTGGATTCGTTAAATATTAATTATGATATTGAATAG	MKKIVIKENSQDILLALKVLYSNQCLSSLEDVAEKLELYRKNDFVEIIADENKIMESKKMLDSLNINYDIE				NA	NA	NA	NA	NA
BMS003_03282	270			hypothetical protein	ATGTTAGAACAAGAATTAGAACAAAGAGTCAAGGATTATTTAGAGAAGAAAAAAGAAGTGTATTATCCTGACTCTATAGGATATAGGGGGCTTCGGGATATGAAGCAAAGAGATAATAGCTTCAAAAAAATGCATTTAGTGCATTATATGGTTTCGATTAGTGATCAACAATATGGAGGCGATGCGTTTTATATTGTTGCATTTGATGAGAAAACCCTAAAAATGGAATTTATAGTAGGACCGCAATCCTTAGAGATGATTCAAGAGTGA	MLEQELEQRVKDYLEKKKEVYYPDSIGYRGLRDMKQRDNSFKKMHLVHYMVSISDQQYGGDAFYIVAFDEKTLKMEFIVGPQSLEMIQE				NA	NA	NA	NA	NA
BMS003_03283	2256			hypothetical protein	ATGGACTTTCAGAATTATTTAAACGAAATACAGGATTTTGATGATGCTTTGCAGAAACAGCTTTTAGCAGAATGGAAAAACGGAGCATTTTTGGACATCCCTTCAATGATGCAGCAAACTAATAGAAGTTTGCAGGATTTTCTCAATATTCAAAGTAGTATGCCCTTACCTAATCCATTGGGAGAAACTATAAGAGGAATGAGTAATGTGAGCCCTTTAGCAACCTATAAATTTTATAATCAAAATTCAAATGAAATTGCTTCGAAATATTTTGTAGATGGTGATCCACCGGAGAAAGGAACATTTACTTATGTTTCAGATATTCGAAGTGACCTTACCCAATATATTAAAGATGTAAAAGATTTTTATTATTATGAGAAGCAGGATATAGATCATTTTGCATTTAAAGTGATCCTTTTTTCCTCTACAGAGGCCACTAAACTTAAAGAATGTTTTGAAGTTTGTAAACCGAAAGGCAGGGAAGTTTTAATGTTTGTAGAAGACAATAAAGGAGACACTAGTGGAACATATGGAGCGATACGCTTTTCCGAAGAACTTTTACAATTTTTTACAAATAAAGACAAGCAGTATAAAGACTATAATTTTTTATCTTATGATCTTCAGGATAATAAAAATGTATATGAATATTTAAGAAAAGCTGTTCCCGGAATTACAGAAGAGCAGCTTAACAGTCTTTTTCACAAAGGATATATTGAAGATGAAAGGATTGGCCTTGTCAAAGATTTTTTTCAGCTTGCTTCTGCATTCTCCAGTGGAATGTCTTTTATTCCCGGTGTATCATGGCTTACCAATGATGTAGCAAGAACAGCAATGAGTACTATCTTGGGGAAAGCTATACAATTGATAGAAAAAACCCGGTTAGAAGAAAACAGATGGCAGCCCAAACCTCCTAAAAATGAAAAGGGAGAACCGGATGAAAACTATCGCTATGATCCTCTGATATCTTCCGGAAAAGATGAAAACGGTACGGTAAATATTGCTCAGATTGTAAAAATTCTAAAAGACATGCTGGAAGCACAGGATTTTGTCATGAGAAATGTTCTTTTAGTAAGAAAAGATTTTACAAAAAACACAAAAGCTACGGGCATTTTAGAGTTTTTATATGCAAAGTATCTGGATTCTTATGATATAGCATTAGGTATTATTAATGGTCTTGAAAGTATTTCTGAAATGGAATTCCTTAAGTATGGCACTCAGGCCTATAATGCTTTGCTTTGTGGTATCTGGAACGGATTGATAGATGCTGTTTCCGGTTTATTTGCTCTTGTAAAAATGCTTTATGATGGTATTACATTAGGAAAAGATTTTGTACAGAATATAGAAAAGTATCTGCCTACTCTTTTGGAGCAATATGACGAAACTATAGAGGCTATAAAGAATATTAGCTTTTCCGAAACAGCCCAATATCTATATTCGAAATTAAAGGAAATAAATCTTACATTTGATCCTATTGTCTGTGCATATTTTACAGGATATGCTTATGGCTTTATTATCTCATTAATTATAGAGATAATTCTAACAGTTATCTTAACAGGTGGGGCAGTAACTGTACCGCTGATTATAGAAAAACTGGAAGAAGCTATTTTTGGAATCTTTAGGTTAGGTTGGGGAATTGCTAAAGGAACCGTAAAAGCTGTAAGAACTTTTGCCAGATTTGTAGTAAAATCTATAGAAGATTTAATTGAGGCTTTTCAAGAATTATTACGTATCTTAAAAGGAGAAAAGGGAAGTTTCAAAAAAATTATTGATGAAGTTTTTGAAGCAAGTAATATCAAGAAAATAGGCTATAAGGGAGGTAAAATTCTTTCTGAAGCAGAATTAGAAGATTGGGCGAAGCTGTTAATGAAAAAGTATGGAACCAAATTATTAAAGGTTGATAAATTTGATAATCCAAATGTTCTAGCTCAATTTGACCCTAATACCAACACCATAAGGTATACTGATGATGTGACTGAATATTTCATGGCACATGAACATTACCATGCGGAAGAGATGTCTAAGATCGGTTTTCCGGAGTATGTGAAAGATGCCCCGTTAGCTGGAACAAAAATAGAAGATTATACTGCGAAAAATTGGATTAACCGATACAAAAGAGAAAAATATGTGTATGATCAACTTGTAAAAAATGCTAAAAATTTCAAGCTTAATGACGAGGAGTTATACCACGCATTTATTTACTTCGACGCAGAATATGTGTATCAACTAGAAATAAGAAATATAAAAATACCAAAATAA	MDFQNYLNEIQDFDDALQKQLLAEWKNGAFLDIPSMMQQTNRSLQDFLNIQSSMPLPNPLGETIRGMSNVSPLATYKFYNQNSNEIASKYFVDGDPPEKGTFTYVSDIRSDLTQYIKDVKDFYYYEKQDIDHFAFKVILFSSTEATKLKECFEVCKPKGREVLMFVEDNKGDTSGTYGAIRFSEELLQFFTNKDKQYKDYNFLSYDLQDNKNVYEYLRKAVPGITEEQLNSLFHKGYIEDERIGLVKDFFQLASAFSSGMSFIPGVSWLTNDVARTAMSTILGKAIQLIEKTRLEENRWQPKPPKNEKGEPDENYRYDPLISSGKDENGTVNIAQIVKILKDMLEAQDFVMRNVLLVRKDFTKNTKATGILEFLYAKYLDSYDIALGIINGLESISEMEFLKYGTQAYNALLCGIWNGLIDAVSGLFALVKMLYDGITLGKDFVQNIEKYLPTLLEQYDETIEAIKNISFSETAQYLYSKLKEINLTFDPIVCAYFTGYAYGFIISLIIEIILTVILTGGAVTVPLIIEKLEEAIFGIFRLGWGIAKGTVKAVRTFARFVVKSIEDLIEAFQELLRILKGEKGSFKKIIDEVFEASNIKKIGYKGGKILSEAELEDWAKLLMKKYGTKLLKVDKFDNPNVLAQFDPNTNTIRYTDDVTEYFMAHEHYHAEEMSKIGFPEYVKDAPLAGTKIEDYTAKNWINRYKREKYVYDQLVKNAKNFKLNDEELYHAFIYFDAEYVYQLEIRNIKIPK				NA	NA	NA	NA	NA
BMS003_03284	417			hypothetical protein	ATGACATCAACAAGTGTAAATGCAAATTCTTCAGGCCAGTTAGTACTTGGAAACGGAGCACAGTTCTGGGTGTATCTTTCCCCACAAAATGATACCTCTAAAATGATTTCTACATGGCGTGTAACTTTCTCACAGGGAAACTGGAGTGATTTTATCTCAAGTGAGAATCCTACTAAACAAATTCAGACTCCTAATCTTTCAGGAATCTTTGATATTAAAGTAGAATTATTAAGTGGATCAACCGGTACATGGAGACAGATCCCTCCTCAGACAGGAAGTAATAATGAAATTGGCTGTAATTCCAACTGTGCTTCAATGGTAGGCATTGTTGCAGACAGTACGAATCCTCCAATAGGAGCCATCAATGCTCATTTCTGGACCACATGGGATGCTATGTGCGGAGTAAGACAGAATTAA	MTSTSVNANSSGQLVLGNGAQFWVYLSPQNDTSKMISTWRVTFSQGNWSDFISSENPTKQIQTPNLSGIFDIKVELLSGSTGTWRQIPPQTGSNNEIGCNSNCASMVGIVADSTNPPIGAINAHFWTTWDAMCGVRQN				NA	NA	NA	NA	NA
BMS003_03285	939			hypothetical protein	TTGAATAAGTATTCTACGAAAAAGTTCTATAATTTTACTATCACAAAGTATTCTTTCTGCGGATCAACAGTACCTTTATCTGCATCATTGTTTCGCAGTCATTTAAAATTAGCAGTAAAGCAGATTTATCCATACTATTTATTGAGCATGAAGAAATTTTTTGCAGGATTATTTTTATTGGGATGTATAGGAACTACGATACAGGCACAGATCAGTCCGCCTGGATTAGGAGATGCTAATAATGCATTCTGGGCAGCCTTTGGAATAAAGCAACAATTAGATTCTCTGGGGAAGAAACAAGCATTAAGCTACATCGCAATAGGGAGAAAAAGCAGCACGGATAATCATAATTTGTTTTCAAAGCAAGCTATCATTGTCTTGAATCATGAAGTTTATCATTCATTTGCTCCACATCAGCAGTATAGCTATGCTTTGAGTTACCGCCGACAGCCACAATATGAAAGTACGGCTCCTTATAATAAGGAAAATACAGAACAGGAATTCAGAATTTATGGTAGATATGCCCATACTTTTGACCTTGGAAAAAACTGGAAACTGAAAAATACAATCCGACAGGAATTCAGGAAGTTTTTTGATGCAGGGTTTCACAAGATAGAAGAAGATTTTCAGTTGAGAACCCGTGTCAAAAGCCAGTTAACTTATAATTTATCTCCTAAAAACAATCAAAGGCTGGCACTGAGTGCAGAAGCACTGTTTTCTATAAGCCATCTCAATGAACCGGATTCTGAATGGGGTTCATTCGGTTACCGTGAAATGCGTATTGCGGCTTATTACATGTTCGCTATTCCCAATTCTCCTTTTACTGTGGATGTAGGGTATATGGATGATCTGATCAGAGGCAGCAAAAGTATTCATCATGGTGGAGTGCATTATCTGGCTGCTGATTTAGTCTGGAATATTCCTTATAAAAAGAGATAA	MNKYSTKKFYNFTITKYSFCGSTVPLSASLFRSHLKLAVKQIYPYYLLSMKKFFAGLFLLGCIGTTIQAQISPPGLGDANNAFWAAFGIKQQLDSLGKKQALSYIAIGRKSSTDNHNLFSKQAIIVLNHEVYHSFAPHQQYSYALSYRRQPQYESTAPYNKENTEQEFRIYGRYAHTFDLGKNWKLKNTIRQEFRKFFDAGFHKIEEDFQLRTRVKSQLTYNLSPKNNQRLALSAEALFSISHLNEPDSEWGSFGYREMRIAAYYMFAIPNSPFTVDVGYMDDLIRGSKSIHHGGVHYLAADLVWNIPYKKR				NA	NA	NA	NA	NA
BMS003_03286	696			hypothetical protein	ATGGAATTACCATTTTACTTAAACTTTAACGACTTTGAAAGTAATTATTATGATAATCTTGAAAAATGGTTTGAAGAATATCATAATACCAGCGAAACAGACTATCTGAAAGCTCTTGCAGAACTTTACAGTCCGTATGTCTATTATAGCTTTACAGACGATAGGCTAAAACCGGAGGCTTCCATTGAAGTGAAAGACTGCTTCTTTCCTTATCATGACAAAATCGGGATCTCTTTCTGCATAGATTGTGAAAACGGAACATCCCTATCCAATGGAATGAATCAGGTTTTTGAATTTAAAAATATTTCTATGATGGAGTATGCCCAGCATATTCTGGATAAGATCAATAAGTACTGTTCAAAAAATGTTCAGGCTCTGGATGGAAGTAAAAATATCCATGATTATCTTAATGACCATCCTATTGTTACATCTATGGAAGGAGTGGGGTATTGCATCAGCTATAACCGCCATCAGAAAGCAATTCCTTTTTTGAAAGCTTATCTTCCATACTATGGGCAGACAGTTAATATGGCAGTATACAGAGATTTTCTTTTTTCTGTGGTTCAGATTGCTGAATTTATAGATCAGAAACTGAAAACGGTACATGCTTTTAAACAGACTATTTATGCGCATTCAAGGGCAGAAGCAAAATTCAACGTACAACTGAGCCGACAGTTTCTGACATTGTGCAACTAA	MELPFYLNFNDFESNYYDNLEKWFEEYHNTSETDYLKALAELYSPYVYYSFTDDRLKPEASIEVKDCFFPYHDKIGISFCIDCENGTSLSNGMNQVFEFKNISMMEYAQHILDKINKYCSKNVQALDGSKNIHDYLNDHPIVTSMEGVGYCISYNRHQKAIPFLKAYLPYYGQTVNMAVYRDFLFSVVQIAEFIDQKLKTVHAFKQTIYAHSRAEAKFNVQLSRQFLTLCN				NA	NA	NA	NA	NA
BMS003_03287	1533	dapE_2		Succinyl-diaminopimelate desuccinylase	ATGAAAAGAATTCTTTTAATCCTTTTGGGAATCATTGTTGCTTTAGCTGCTGTAGTATTGATTAAAACCTACACTTATCCGTTTAAGAAAAATAGCATAGAAGCAGGTGAGGGGTGGAAGCCTGTAAAAAATGATTCTGCAGTGATGAGGTTTTCAGGAGGAATAAAAATTCCTACGGTTTCTACAGGCAGCTTGGGTGAATTTGATTATGCACCGTTTGATCAGTTCAAAACCTATCTGAAAACATCTTACCCATTAGTATATCAGAATACAGAACATGTTGAAGTGAATCAATATGGACTGGTGTTCAGATTAAAAGGAAGCAATCCTGCTCTGGAACCTATTTTATTCCTTTCTCATATGGATGTTGTACCTCCCGGAGATGCTGATATAAAGAATAATGAAGAAAATGTTTTCCGTCCCGATGATAAACCATCTGAACCTGTTTCAAAAGTAGCGGAAGACTGGGAGTACTCCCCTTTTTCCGGTGCGGTTGCCAATGGAAGAATCTATGGGAGGGGAGCCATTGACATGAAAGGAATGCTTTTTTCCTTAATGGAATCCATGAATTCTATGATTAAAAATAAACAGATTCCACAACGTGATATTTATCTGGCTTTTGGTTTTGATGAAGAAGTGGGTGGCAAGAAAGGAGCAATGCAGATTGCTGATTATTTTAAGAAAAAAGGATTAACATTTGATGCCGTTTATGATGAAGGCGGATTAATTATGCGGAAAGGAAACGTGGCTGGAATAGATACAGATGTAGCTGCAGTAGGATGTGCAGAAAAAGGATTTCTTTCCGCAAAAATAAAGGTAAAAGGACTTGGAGGGCATTCATCAATGCCGCCTATGGAAAGTGCTATCGGAAAAGCAGCTGTTATCATGCAGCGTCTGGAAGATCATCAGATGAAGCCTGTAATAACTCCGTTAATCAAAGAATTTTTCAATAATATTGGCGGTGAAATGCCTTTTGCAACAAGGCTGGCACTTGCGAATCAATGGCTTTTAAAACCAGTCTTGATCTCACAGCTTACCAAAAATAATACAACCAATGCTTTAGTAAGGACTACCACTGCTCTCACCATGATGAAAGGTAGTGATGGAACTAATGTTCTTTCTCCTGAGGTGGAATTTGTTGTTAATTTCAGGCTGCTTCCCGGGAATTCGGTGAAAGACATAAGAGACCATATTGCTAAAGCCACTGAAGGTTTTGATGTTGAGGTAGAAGAAATTGACAATACAAGAGAAGCTTCTGCAATTTCGCCAACCCATACAAAAGCTTTTAAAATAATAGAAGCCGGAGTCAAAGAAATTCACCCCGGTGCTATTGTTACGCCATATCTTACCATGGCTGGAACAGATGCCGGAAAATATGAGATTGTAAGCAAAAATGTCTACAGATTTATGCCGATTAAGATCAACAGTGCCGAACAACAAAGTATTCACAGCACAAATGAATACCTTAGTATTGAAAACTATCTGAAGATGATTCACTACTTTGAGTACGTGATGAAGAATTATGATAAATAA	MKRILLILLGIIVALAAVVLIKTYTYPFKKNSIEAGEGWKPVKNDSAVMRFSGGIKIPTVSTGSLGEFDYAPFDQFKTYLKTSYPLVYQNTEHVEVNQYGLVFRLKGSNPALEPILFLSHMDVVPPGDADIKNNEENVFRPDDKPSEPVSKVAEDWEYSPFSGAVANGRIYGRGAIDMKGMLFSLMESMNSMIKNKQIPQRDIYLAFGFDEEVGGKKGAMQIADYFKKKGLTFDAVYDEGGLIMRKGNVAGIDTDVAAVGCAEKGFLSAKIKVKGLGGHSSMPPMESAIGKAAVIMQRLEDHQMKPVITPLIKEFFNNIGGEMPFATRLALANQWLLKPVLISQLTKNNTTNALVRTTTALTMMKGSDGTNVLSPEVEFVVNFRLLPGNSVKDIRDHIAKATEGFDVEVEEIDNTREASAISPTHTKAFKIIEAGVKEIHPGAIVTPYLTMAGTDAGKYEIVSKNVYRFMPIKINSAEQQSIHSTNEYLSIENYLKMIHYFEYVMKNYDK				NA	NA	NA	NA	NA
BMS003_03288	177			hypothetical protein	ATGCCACAGTGGAGACTTGATTTTATGCCTACAGCAGAAGAGTTTTACAGTTTCGCAGAAAACCGTTATATTTATCAGTACAAAGATTACCTGGGCAATGCTAGGGTAAGTTTTACAAGAAACAGTACAGGCGCTCTTGAAATTACAGATTCTAATGATTATTACCCATTTGGTTAA	MPQWRLDFMPTAEEFYSFAENRYIYQYKDYLGNARVSFTRNSTGALEITDSNDYYPFG				NA	NA	NA	NA	NA
BMS003_03289	522			hypothetical protein	ATGAATACCAAAAAATATATTTTTCTTATTGGAATATTAATTATAGTAATTGGCTGTAGCAGTACCAAACAAGTCATTGATAATAAAACGATAATAAGAAATATAGTTACATCATTTATAGAGTATAGAAATAAAGATAATAGAATTGACCCAAAAGAAAATATTCTTATTGTAGGAGTAAATGTTGATGCTAATAGAAGTTATCGAATTCTATTGACTTTTGATAATCCTAAATTAATGAAGGATTTTAATTACTCCAAGGTATATGAAGCTTATGGGTATAAATTAATTGTTGCTGATGATATGAATGGAGGTTCTTTAATAGAAAATATTTTTAAACGAATTCCATATGAGAATTTTAATTTAGCTAAAATGGCTATTAATTATGAAACCATAACTTGGCATATTACATTGAATAGTAAAAACGAAGTTGTTGAAATTTTACCCCAAGAAAAATCAAAAGAGATTAAAAATATTTTGGAAAAGAAAGGAGTGAAATTTTCAAAGAATTATACAGATTAG	MNTKKYIFLIGILIIVIGCSSTKQVIDNKTIIRNIVTSFIEYRNKDNRIDPKENILIVGVNVDANRSYRILLTFDNPKLMKDFNYSKVYEAYGYKLIVADDMNGGSLIENIFKRIPYENFNLAKMAINYETITWHITLNSKNEVVEILPQEKSKEIKNILEKKGVKFSKNYTD				NA	NA	NA	NA	NA
BMS003_03290	1014			hypothetical protein	TTGGGCAATGCTAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGTTCTTGAAATTACAGATACCAACAATTATTATTCATTTGGATTGAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAATGGTAAGGAACTCCAGGAGACTGGAATGTATGATTATGGGGCAAGATTCTATATGGCTGATATTGGGAGATGGGGTGTGATTGACCCACTTGCAGAAACTTCTCGTCGTTGGTCGCCCTATACTTATGCTTACAATAATCCTATCAGGTTCATTGACCCTGATGGAATGCAGAACGAAGACAAGATTAAGATTTTTAATAATGGTACTATAGAAAGAACAAAAGACAATAATGCTTATGATACTATTACAAACGAAGATGAGTCCAAGTCTATCCAAATTGCACGGACAAACGTGACAGAAAAGAACCCGACAGGAGATTCGCAGATTGGGGAAATGAAATCATTGCCTTTTGAACTGTCTACAAGTCAGGGGTTAGAAGGAAGCGCAAGTTCAACATATAGCTATCTGCAAATACAGAATTATGATGCAGCAACTCAATTCTTTGAATTTGCAGCAGAAAATACAAAAGTAGAGTTTTCTCAAGATACATTTAATTTTAGTGATGGATATAGTACCAGTATTATAAGTACCAATCATTCTGTTAATCAAAGTGTGAATGCAGGTGCTATGTTGGGAGCATATAGTTTTGGAGGACATACTATACAAGATGGAACCCATTTTGAAAATGTACACTCTCATCCTCCCGGAGCAAATGTAGGTCCATCAGGTTTTTATACATCTTTTAAAAATAATCAACCAGTATCAGTTTCTGAATTAATGAGGGGCGACGCGAGGTTTTGTAAGGACAATCCTCAAATTACAAATACGTATCAATATGGTACTTGGAAATGGCCAACTCCGGGCAAAGGATACTTTAAATATGATTCAAAAAACGCAACGTTTATCGGAAATAAAAAGAATTAA	MGNARVSFAKNSEGVLEITDTNNYYSFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARFYMADIGRWGVIDPLAETSRRWSPYTYAYNNPIRFIDPDGMQNEDKIKIFNNGTIERTKDNNAYDTITNEDESKSIQIARTNVTEKNPTGDSQIGEMKSLPFELSTSQGLEGSASSTYSYLQIQNYDAATQFFEFAAENTKVEFSQDTFNFSDGYSTSIISTNHSVNQSVNAGAMLGAYSFGGHTIQDGTHFENVHSHPPGANVGPSGFYTSFKNNQPVSVSELMRGDARFCKDNPQITNTYQYGTWKWPTPGKGYFKYDSKNATFIGNKKN				NA	NA	NA	NA	NA
BMS003_03291	480			hypothetical protein	ATGCACAATAAAATAACCTTAATTATATTTATTTTGTTCATTTCCTGCAAAAGCCAATCTCTAAAGATAATCGGCAATGAATATATTTATGAAAATAGTAATAGAAAATTGTCTATTCAAATATTGGATGAGAATAATCTCATTATTAAAAATGTTTTTAATTGTACGAATATTGCTGATCAATTCAAAAATATAGTATTTAAAAAGAAATATCGTATTTCTAAGAATAAGATAATAATTTTGAATCCTCAAAAAGGAGAGTTTAACTTACCTTATTTTGATGATAGTGATTGCGATTTTCTGAGTGAAAAATATAGAACAAACATAAAAAAGCTTTATGATGGAAGGACATTTTATCCTGATGCATCTTTGTATTATATACCAAATATTGATACTTTAAAGATAGTCCAAGACAACGATTTGTATTATTATAAAAAAGTTGAAAATGGAAGTGTTGGTTTTATATTCAAAAAGCAGTAA	MHNKITLIIFILFISCKSQSLKIIGNEYIYENSNRKLSIQILDENNLIIKNVFNCTNIADQFKNIVFKKKYRISKNKIIILNPQKGEFNLPYFDDSDCDFLSEKYRTNIKKLYDGRTFYPDASLYYIPNIDTLKIVQDNDLYYYKKVENGSVGFIFKKQ				NA	NA	NA	NA	NA
BMS003_03292	1047			hypothetical protein	GTGCCTACAACAGAAGGATTTTACAGTTTCACAGAAAACCGTTATATTTATCAGTACAAAGATCATCTGGGCAATGCCAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGTTCTTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAATACAACGATAAGGAACTCCAGGAGACTGGGATGTATGATTATGGGGCAAGGATGTATATGCCGGATATCGGGAGATGGGGTGTTGTGGATCCGTTGGCGGAAATATATAGAAGACATACACCCTATAATTATACTATCAATAATCCTATAAGGTTTACTGATCCAGATGGAAGAACTATAAACGATCCGCAGAGCAAAAAAGAAGCTGAACATACACAAATGGGACTTAATATGAGAAAAAGTCAATTAGAATTGCAAAGAAGTATGATTTATAGCTCCGCAACCGATAAAAATGGAAAAGTTTCTTTAAATAAAGCTCAGAAAAAAGAAATAGGTAATATTAATTCAATGATTACTGAAGTTAACAAGTCTGTGAATGATATAACCGATATGATTAATGATAAAAATAATGATTATGTATTCAAAGATGCTTCATTGAACGGTGGACTACCGCAAACGATGAGAACAGGCAGTGCAGAAGTAACTATTTATTTTGATGATTATGGTAAGAAAGTGCATGAAGGTAGACATGGAGGACAAATTGCAAGAGGAGAGTATAATATTGATACTTCAGGAAATTTAACATCTGGAAGTTTTGGAGCAAGTAAAGAAGTGGATGCTTACAAAGCACAATTATCAGCAGTTGGTCAAATACTATATAAACCTTATTTAGATTTTTCAAATCCTAGTAATTTACAGAAAATAAATCAAGTGCAAACCGTCACTGAGCTTAAAGATATTAACAATGGTTTTCTTCAAAGTTTAGTTGATAATCCTGGACTGAATCAATCTTTAATTTATCCTCCAGCAACTAATACAAGCTATTATGCACAATAA	MPTTEGFYSFTENRYIYQYKDHLGNARVSFAKNSEGVLEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNDKELQETGMYDYGARMYMPDIGRWGVVDPLAEIYRRHTPYNYTINNPIRFTDPDGRTINDPQSKKEAEHTQMGLNMRKSQLELQRSMIYSSATDKNGKVSLNKAQKKEIGNINSMITEVNKSVNDITDMINDKNNDYVFKDASLNGGLPQTMRTGSAEVTIYFDDYGKKVHEGRHGGQIARGEYNIDTSGNLTSGSFGASKEVDAYKAQLSAVGQILYKPYLDFSNPSNLQKINQVQTVTELKDINNGFLQSLVDNPGLNQSLIYPPATNTSYYAQ				NA	NA	NA	NA	NA
BMS003_03293	537			hypothetical protein	ATGAAATATTTAATTATTTTATCTGTATGTATTAGTTTTTCAGTGTATGGGCAATGTGCATGTGAAAGATATGAAAAAGGGCTTGAATACATAAAACAGGATTTTATAAATAAGGGTACAGAAAAGTATTATAAAGATCTTTCAAATCCTGGAGCTTATGGAATCTCTATTTATGAAAGTTTTTTTCCGTTATATAAATCTGATAGTTATTTTAACTGGTTAAATATTGAAAAAACTAACCCATATAAAAAAAGTAAGTGTCTATCTAAAGTAAATAAAAAAAAATGGGGAAAATTTTGGAAATCACAAGACTACTATAAAAACCAAAATGTATTTACAAAAGATAAATTTAAAGGGCCATCTCATATAGCAGTTTTTACTAAATTGAGAAATGATTCTTTAAGAGTTGACGTCATATCCAACTCACATAATGGTTTAAAGTACTGTGGTAGTGTTAATAAATATTTATTGATTTTTGATGCACAAGATAGTATTAAAGAAGCTAAAACATGGACAGCTCATTATGAATGTTTGTAA	MKYLIILSVCISFSVYGQCACERYEKGLEYIKQDFINKGTEKYYKDLSNPGAYGISIYESFFPLYKSDSYFNWLNIEKTNPYKKSKCLSKVNKKKWGKFWKSQDYYKNQNVFTKDKFKGPSHIAVFTKLRNDSLRVDVISNSHNGLKYCGSVNKYLLIFDAQDSIKEAKTWTAHYECL				NA	NA	NA	NA	NA
BMS003_03294	894			hypothetical protein	ATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAACGGTAAGGAACTTCAGGAAACGGGTATGTATGATTATGGAGCAAGGTTTTATATGCCGGATATCGGAAGATGGGGAGTGGTTGATCCGCTCGCGGAAACTTCGAGACGTTGGTCTACTTATGCCTATGCCTTCAATAATCCAATAAGGTTTATTGATCCGGATGGAAGACAAAATAAAGATATAACATTTGGGAAAAGTGTTTCTGCTAATACACAAAATAAAATTGTAAGTGATTTAGAAAAAGAAACAGGATTGAAATTATCTGTTGGTGATAATGGGAAGTTGAGTTACAAAGAATCTTCTGATATGGGAGGAAGTAAAACAGCTCGTGATATGTTGAAAGGTGCTATTGATAATCATAGAACTGACTATCAGATTAATTCAGACAACACTAAAGGATCTTCAATCGAACCCACAGGAGCACGAGGTGAAACAATAGATGGTGTGTATGGTTCAACAGTAACATATGACTTAAATATTAATACTGATCAAGTAAATAAATTTATAGCAGGAACAAGTGAAGCATTAAATCCTCTAACGATGGGATATGGGATGACTACTCTTCACGAAGTAAGCCATGTATATAATAATCTTAACGATCAGGATGTTATTTATGGTGCACCAGGTCCAAACGAAAAAGTTATAAATACAATTAGAAGAGAATTAGATGCTTCTGGACAATTTACTCAACCATTTGGCCAAAGGGAATCATATAGCCCGACAGATATTCTACATAATGGTAAACCATATAATTTTACGCCTTTTGAAAGAAGTATCATGGATGGTAATTTTAAAAAAATCGATGTGAAGAAAAACCTTTTTATGCTAACTCCAAAAACCAAATAA	MLSSSNFGGYYSYKYNGKELQETGMYDYGARFYMPDIGRWGVVDPLAETSRRWSTYAYAFNNPIRFIDPDGRQNKDITFGKSVSANTQNKIVSDLEKETGLKLSVGDNGKLSYKESSDMGGSKTARDMLKGAIDNHRTDYQINSDNTKGSSIEPTGARGETIDGVYGSTVTYDLNINTDQVNKFIAGTSEALNPLTMGYGMTTLHEVSHVYNNLNDQDVIYGAPGPNEKVINTIRRELDASGQFTQPFGQRESYSPTDILHNGKPYNFTPFERSIMDGNFKKIDVKKNLFMLTPKTK				NA	NA	NA	NA	NA
BMS003_03295	186			hypothetical protein	ATGATAGAAGCCACCCAATTCGGTGACTTTTCTATTTATCTTTCTTTGGAAATTTCAGTAAAATATGATACAAAAAACCCTGTTCTCGCACGATTATATCGTGTGGCAGATAATAAAAACCACTGCAATTTTGTAGTGGTTTTTATGTTATATAATGTTCTGTTTTGTATACGGAAACAGAACTAA	MIEATQFGDFSIYLSLEISVKYDTKNPVLARLYRVADNKNHCNFVVVFMLYNVLFCIRKQN				NA	NA	NA	NA	NA
BMS003_03296	405			hypothetical protein	ATGAACAGTAACTTATCAAAAATAGGCTTTCGAGAACTACAGGATTTAAAAAATAAAGAAGAATACATTTTTATAAACTTTGATTATTCATATTCTATTAAAATAATTCCTTTTTTTGAAAAAATAGAAATGAAAGAAAGAGATTCTCTGATTGATTCTTTTTTTCATTTAACAAATACTAACATTAGGATTGACGACCTTTTAGGGAAATTACACATTATTCTACTAAAAATATTAGTTGATGGAGAGAAAAACCTTGTAATTAATAGCATTGGTTTATCTGAAAATTCAATAGAATTTTTAATAGACAACTTGAGGAAAATATTAGATAACTTTGATAATAGAAATCTGATTATTATAGAGAATAACTCCCATGAGCCTTTTAAATTCAATTACTCTAATTAA	MNSNLSKIGFRELQDLKNKEEYIFINFDYSYSIKIIPFFEKIEMKERDSLIDSFFHLTNTNIRIDDLLGKLHIILLKILVDGEKNLVINSIGLSENSIEFLIDNLRKILDNFDNRNLIIIENNSHEPFKFNYSN				NA	NA	NA	NA	NA
BMS003_03297	1431			hypothetical protein	ATGATCAATATGAAAGACAAAGGAATTCAAAGCATTGTTTACAATTACCTTAATCTGCCTGATAATTTTTCCATTACTCAGTTAGACCCGTTTCTTGGGCAGAATATAAGTTCGGGGCTGAGTTATTTATACCGTGCAGATGGTGTGAAACTTCGCAAAACCTATTCCAGTACTCCTCCTCGTGGGGTGACGGGCACTACCACTACCGATTATCTGGATGGCTTCCAGTATTCTTATCGTGAAGGGGGTGGTATATGTCTTGAATGTCGTACTGAAACAGCTTTTGAAGAGCAGGCCTATAAAAGTCTCAACACTTTTTCTGGCATTGACTTAACTCCACAGTGGAGACTTGATTTTGTCCCTACAGCAGAAGGATTTTACAGTTTCGCAGAAAACCGTTATATTTACCAATACAAAGATCATCTGGGCAATGCCAGGGTAAGCTTTACAAAAAACAGCGAAGGTGTTCTTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGAATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAACGGAAAGGAACTACAAGAAACAGGAATGTATGATTATGGAGCGAGGATGTATATGGCTGATATTGGGAGATGGGGTGTGATTGACCCTCTTGCTGAAACTTCTCGTCGTTGGTCTACTTATGCCTACGCATATAATAACCCTATCATGTTTGTTGACCCTGATGGAAGACAAAATACAGATTGGTATCAAAAACAGAAAGATGGAACTTATAAAAACATCAAAAAATCTACGGATTTAGTAATACTTGATGAGAAAGGTAAAAAAGTTCCTACATTTACTTCTTCTGGTCCACTCGGAGGATATAATGAAGATTATGCAGAGGGTGTAAATGAAGCAAGAAATCAAGGAGTAATTTCTCAAAGTGACGCTAAAGAAGCAAGTAATATTGCTACAATATATGGAATAGAGAAAGGAGGAGAAGGAACTGCAGGAGCAATTGTAGGAGCGGAAGGACTTTATAGTTTACTTAAGAACCCTAAAGGAGCTTGGGAAGCTCTTAAATCACTTAAATCTTTGTTTTACTCAGGTGAAAAAGCATCTTCTCTTGCTTTAGAAATTTCAGCATCCGCAGAAGCTAATGGGATTAAAAGCGCTCAAAAATCAATCAATCCAAGTATTGTGGCTAATTATTATGAGCAAATGGTAAGTGGAACTTATAAATCGACAGGTGGCGCTGGTTACATTCATGAAGGAAAATATATCTTGACAGATGGTAATCATAGAATGAATGCTGCTCTACAATATGGATTGAAAACGGGTAATTTTAAATATGTAGAAGAAATTATTACCAAAGGTAATTTTCATCGTGCAAACCCGAGCAACTATGGAATTAAAATCTATAAATTACCAACAAAATAA	MINMKDKGIQSIVYNYLNLPDNFSITQLDPFLGQNISSGLSYLYRADGVKLRKTYSSTPPRGVTGTTTTDYLDGFQYSYREGGGICLECRTETAFEEQAYKSLNTFSGIDLTPQWRLDFVPTAEGFYSFAENRYIYQYKDHLGNARVSFTKNSEGVLEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARMYMADIGRWGVIDPLAETSRRWSTYAYAYNNPIMFVDPDGRQNTDWYQKQKDGTYKNIKKSTDLVILDEKGKKVPTFTSSGPLGGYNEDYAEGVNEARNQGVISQSDAKEASNIATIYGIEKGGEGTAGAIVGAEGLYSLLKNPKGAWEALKSLKSLFYSGEKASSLALEISASAEANGIKSAQKSINPSIVANYYEQMVSGTYKSTGGAGYIHEGKYILTDGNHRMNAALQYGLKTGNFKYVEEIITKGNFHRANPSNYGIKIYKLPTK				NA	NA	NA	NA	NA
BMS003_03298	135			hypothetical protein	ATGGTATTATTTCTGATTGAAAATGCCAATCACACGTTCGGAGCAAAAGAACCATGGGCAGATAAGGATTTACCAAAAGATTTACAGAGTGTAGCTGAAAAATGTATTGATTTTATAAAAGAAAAATTGAAATAA	MVLFLIENANHTFGAKEPWADKDLPKDLQSVAEKCIDFIKEKLK				NA	NA	NA	NA	NA
BMS003_03299	501			hypothetical protein	ATGAAAAAAATTATTGCAGGCGCATTTGCGCTTTCATTATGTGTTATTTCCTGTAAAAAAGAAACAAAAACAGGGTCTTCTGTAAGTACGGATACTTTGGCTACAGTAATGCCTCAGGATTCTGTAATCATAAAAAACGATTCTGTAGAATCACCACCTTCTTCTGCTCCGGACAATATTATCACCAAAAATGTGGGTAAATACCCTCACGATATAAAATTCTTTGAAGATAAAAACATCACAGAAAGGTTGAAAAAACTTACTGGTGCTCAGTATGATGAGATGGTAAAGAATTTCGATGTGGAAAGCCCTGTTTCTTCAGAAAACGGAATCTATAAACTGACAGGCTGTAAGCAACATGACTGCCCGGGATATGCTACCAGTATTTTCTACGATGCTAAAAATGACAATCTGAATATTTCCATCAATAAAAATGGAAAAGTAACAGAATTTGCTGAAAAAGGAAAAATTGCTGTTTCAGAATCATTGAAAGCGAAGTAA	MKKIIAGAFALSLCVISCKKETKTGSSVSTDTLATVMPQDSVIIKNDSVESPPSSAPDNIITKNVGKYPHDIKFFEDKNITERLKKLTGAQYDEMVKNFDVESPVSSENGIYKLTGCKQHDCPGYATSIFYDAKNDNLNISINKNGKVTEFAEKGKIAVSESLKAK				NA	NA	NA	NA	NA
BMS003_03300	825			hypothetical protein	ATGAAAACAGTAATCCCCTCCGAGATAACTTCCGTACAACTGCAGACCATTATGCAGACAGCCATTTCACCACGTCCCATTGCATTGGCTTCTACAGTGGATAAAGACGGTAATAATAACTTATCTCCGTTCAGTTTTTTTAATATGTTCAGTACAGTTCCTCCGATTTTGATTTTTTCACCATCGAGAAGAGTTCGTGACAATACAACAAAGCATACCCTGGAAAATGTTCTTGAAGTACCAGAAGTAGTAATCGGAACAGTCAATTTTCCAATTGTACAGCAGATTTCTTTAGCTTCCACAGAATATGAAACGGGAGTGAATGAGTTTATCAAATCCGGTCTTACCATGAAAGACGCAGATCTTGTGCAGCCCAAACTGATTGAAGAATGTCCTGTTAACTTCGAATGTAAAGTTTTGGAGGTAAAATCATTGGGAGATCAGGGTGGTGCAGGAAATCTGGTGATCTGTGAGGTTCAGAAAATTCATATCAGAGAAGAACATCTGAATGAAGAAGGAAATCTGGATCAGAAAAAACTGGATATGGTAGCCCGCCTGGGCAGCAACTGGTATTCCCGAAGCAATGAGAACAGTCTTTTTGAAGTGCCCAAACCTTTGGTAACAAAAGGAATCGGCTTTGATCTGCTCCCGGACGCTATAAAATACAGTAAAGTCTTTACAGGAAATGATCTTGGAATGCTTGCCAATACAGAAGTATTACCTGCGGGCGACTTCCATGCAGATGAAAACATTCATTTGGATGCCCAGAAGCTACTTCTGGATAGCAAAATTGAAGAAGCGTGGGCTTTACTCACAATCCAATAA	MKTVIPSEITSVQLQTIMQTAISPRPIALASTVDKDGNNNLSPFSFFNMFSTVPPILIFSPSRRVRDNTTKHTLENVLEVPEVVIGTVNFPIVQQISLASTEYETGVNEFIKSGLTMKDADLVQPKLIEECPVNFECKVLEVKSLGDQGGAGNLVICEVQKIHIREEHLNEEGNLDQKKLDMVARLGSNWYSRSNENSLFEVPKPLVTKGIGFDLLPDAIKYSKVFTGNDLGMLANTEVLPAGDFHADENIHLDAQKLLLDSKIEEAWALLTIQ				NA	NA	NA	NA	NA
BMS003_03301	1248			hypothetical protein	ATGAAATCATTTGTAGACTATTCCTCAAATTCGGATTTTTCTATACATAATATTCCTTTCGGAGTCGCAGTTTTTAACAAAGAATATATCGGGTGCTGTACAAGAATCGGAGATCAGGTAATTGATCTTGCTACGTTGTACGATCTTGGCTATTTTGAAGATATTGAAGGATTAGACGACAATGTTTTTGAAGCCTATACCATCAACGAATTTATCGAACTGGGTAAACCTGTTACCAATGCCGTTCGTACCAAAATTCAAACCCTGTTACAGGAAGGATCTACTTTGTCAAAAGATCAAAAAACAATTGAAGAAGCCTTCTATGACCTGGATAAAGTAAAAATGATGATGCCTGTTCACATCCCGAATTATACAGACTTTTATAGCAGCATCGAACATGCTACCAACGTAGGAAAAATGTTCCGTGATCCGGCAAACGCATTATTACCCAACTGGAAACATTTACCCGTAGGTTACCACGGAAGAGCCTCCTCTATCGTAGTTTCCGGAACAGAGATCAACCGCCCGAAAGGTCAGATGAAACCTGCAGATGCAGACAAACCTGTTTTCGGAGCATGTAAACAACTGGATTTCGAATTGGAAATGGCTTTCATCATCAATAAAAATACAGAGATGGGAGAAAGTATCTCTACCAAAGATGCAGAAGATGCCATCTTCGGAATAGTAGTTTTCAATGACTGGTCTGCAAGAGATATCCAATCCTGGGAATATGTTCCGCTAGGACCATTCCTTGCCAAAAATTTCGGTTCTTCCATTTCTCCATGGGTTGTTACGCTTGAAGCATTAGAGCCATTCAGAACTGCTTCCCCGGTACAGGATCCTGAAGTTTTAGAGTATTTAAAATTTGAAGGAGATAAAAATTACGATATCAACCTTGAAGTCTATATCCAGCCTGAAAACGGAGATCAAAACCTGATCTGCCAAAGCAACTACAAGCACATGTACTGGAATATGACTCAGCAACTGGCACACCACACGGTAAACGGATGTAATGTGGAAGTTGGTGACATGTATGCCAGCGGAACAATCTCCGGAAGTGATCCAAAATCTTTCGGTTCTATGCTGGAGCTGACATGGAGAGGACAAAATCCTTTATCATTAAGCAACGGAGAAGAAAGAAAATTCATTGAAGATAATGATACGGTTACCATGAAAGCATGGGCTGAAAAAGACGGTGTAAGAGTAGGTTTCGGTGAAGTTTCCGGTAAAATCCTTCCTACACTTTAA	MKSFVDYSSNSDFSIHNIPFGVAVFNKEYIGCCTRIGDQVIDLATLYDLGYFEDIEGLDDNVFEAYTINEFIELGKPVTNAVRTKIQTLLQEGSTLSKDQKTIEEAFYDLDKVKMMMPVHIPNYTDFYSSIEHATNVGKMFRDPANALLPNWKHLPVGYHGRASSIVVSGTEINRPKGQMKPADADKPVFGACKQLDFELEMAFIINKNTEMGESISTKDAEDAIFGIVVFNDWSARDIQSWEYVPLGPFLAKNFGSSISPWVVTLEALEPFRTASPVQDPEVLEYLKFEGDKNYDINLEVYIQPENGDQNLICQSNYKHMYWNMTQQLAHHTVNGCNVEVGDMYASGTISGSDPKSFGSMLELTWRGQNPLSLSNGEERKFIEDNDTVTMKAWAEKDGVRVGFGEVSGKILPTL	PGPT0001610_1291	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001610-fahA-K01555	NA	NA
BMS003_03302	510			hypothetical protein	TTGTCAGGATACACTATTCTGGCAAAACTTTTTTATAAAACACAGTATATGAGAAAATTATTAATCGGGATTTTCCTTCTGGGAACACTGGGACTTAAAGCTCAATTTGGCACTCTGAATGAAATTCTTAACAGACTTGAACAAAGAAAAGGCATCAATCAGCATCTTGAAAATGTAAATATTGACAACAAAAAGTTCGTTTTCATCAAAGATGAAGCCGATCATACGGAACGGGACTTTATTATTATCAAAGGAAATAATGCCACTTATGTAGAAGTTTTTGATGACAAAGCAACAGGAGAAAGCAGCTCTAATGTTTTCAGCGGTGATATCATCAGAAAAAAAAATATTATTTCTTTAAGAGCAGACATGCTTGAAAATACAAAAATCCCAATGCCTGTTACCAAAACTTTATTGTTGACCCAGCAGGATAATATCCTGTACCTCATTGATGTCAATACCAAAGACAGATGGATAGATGAAGCATCTTTCTCAAAAAAGGCAAAATAA	MSGYTILAKLFYKTQYMRKLLIGIFLLGTLGLKAQFGTLNEILNRLEQRKGINQHLENVNIDNKKFVFIKDEADHTERDFIIIKGNNATYVEVFDDKATGESSSNVFSGDIIRKKNIISLRADMLENTKIPMPVTKTLLLTQQDNILYLIDVNTKDRWIDEASFSKKAK				NA	NA	NA	NA	NA
BMS003_03303	1131	hpd	COG3185	4-hydroxyphenylpyruvate dioxygenase	ATGTCAACACTTACATTTGCCGAGAAAATAGCTCAAGCAGAAAATTTCTTACCTATCAACGGTACAGATTATATTGAGTTTTATGTAGGAAATGCAAAACAGGCTGCTCATTATTACAAAACCGCTTTCGGTTTTCAGTCTGTAGCTTATGCCGGTCCTGAAACAGGAGTAAGAGACCGTGCATCTTATGTGCTTCAACAGGGAAAAATCAGATTGGTATTGACTACCGGATTAAAATCTGATTCTCCTATCAGTGAGCACGTAAAAAAACATGGTGACGGAGTAAAAATTTTGGCACTTTGGGTAGATGATGCTTATGCGGCTTTCGAAGAAACTACTAAAAGAGGTGGAAAACCATATTTAGAGCCTGTAAAGTTAACTGATGAACATGGTGAGGTAAGAATGTCCGGAATCTATACCTATGGAGAAACCGTTCACATGTTTGTTGAAAGAAAAAACTATAACGGATCTTTTATGCCCGGTTATGAAAAGTGGGAAAGTGATTATAACCCTGAAGAAGCAGGTTTATTATATGTAGACCACTGTGTAGGAAATGTAGACTGGAACAGAATGATCCCAACAGTAGAATGGTACGAAAAAGTAATGGGATTTGTAAACATCCTTTCCTTTGATGACAAACAGATCAATACAGAATATTCCGCATTGATGTCTAAGGTAATGTCAAACGGAAACGGATACGCAAAATTCCCTATCAACGAACCTGCAGAAGGTAAAAAGAAATCTCAGGTAGAAGAATATCTTGATTTCTATGAAGGAGAAGGAGTACAGCACATTGCTGTAGCTACGAAAGACATCATCCACACCGTAACTGAATTAAAGAAACGTGGTGTAGAGTTCCTTTCTGCTCCGCCAGAAGCTTATTATGATATGGTTCCTGAAAGAGTAGGCCATATTGATGAAGATCTTAAAAAACTTCAGGAGTTAGGTATACTTATTGATCATGATGAAGAAGGATACTTATTGCAGATCTTTACGAAGCCTGTAGAAGACCGTCCTACTCTATTCTTCGAAATTATTGAAAGACACGGTGCACAGAGTTTTGGTGCCGGAAATTTCAAAGCGTTATTTGAAGCGTTAGAAAGAGAACAGGAAAGAAGAGGTAATCTTTAA	MSTLTFAEKIAQAENFLPINGTDYIEFYVGNAKQAAHYYKTAFGFQSVAYAGPETGVRDRASYVLQQGKIRLVLTTGLKSDSPISEHVKKHGDGVKILALWVDDAYAAFEETTKRGGKPYLEPVKLTDEHGEVRMSGIYTYGETVHMFVERKNYNGSFMPGYEKWESDYNPEEAGLLYVDHCVGNVDWNRMIPTVEWYEKVMGFVNILSFDDKQINTEYSALMSKVMSNGNGYAKFPINEPAEGKKKSQVEEYLDFYEGEGVQHIAVATKDIIHTVTELKKRGVEFLSAPPEAYYDMVPERVGHIDEDLKKLQELGILIDHDEEGYLLQIFTKPVEDRPTLFFEIIERHGAQSFGAGNFKALFEALEREQERRGNL	PGPT0009480_868	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS003_03304	792			hypothetical protein	TTGAAAACTATATATAATTCGATACGAGAGGAGATTGTAAAGCATTCGAAGGTAAGGAATTCTGTTTTGGGGAATGTGAGTGAATGGAAGAGAAGCCATTTTATTATTCTTTCCGAAATTATTAAAGACGAACTCTCTGAAGCCGAAGAGCTGAAAGGAGGAAAAAAATTTGAAATCGGAAATACCATTTCCCATGTAACCCTTCAGCGATTTTTTGAAAATGATTATCAGGATAAAACCCACAGTGATCTCAGATTTTTAAAGACGTTAGACAAGATTTGCATCTTCTTAGGATACAAAGACCTCAATGATTACATCCTTACAGTAAGATACAGAAAAGACGATAATGATGAAACTGATGACCAGTCATACCTTACCAAAATGGTGTATGATTACTGTGCAACTGCTTTTGAATTTTGTAAACAATTTCCCAATCATAATACCAAGCTTTTTAAAGACCTGGTTTTTGATGATTCTCCATTCCTGGAAAGAGTGTCACAATTTAGCAAAGAATTGTGTGATAAAGATTTTCAGCTGGTTACTAAAAATAACAGATCCAACTACGAAGTTTTTGATATACAAATAGTTACCGATGATCCGGAGAAAAAAATTCTGGAATCCCAGGAATTCTGGAATCTTCTGTTCAAAGTGGGAGAAACCGGAGAAGAGCATTTTGTGAATCAGCTGAGTACCCAGATCTATTTTATCCGGAAAATAAATGATACCTGGAAGATATGGGATAACTATAATCCCGATGCAGGAATGCTGAACAAAAGAATTGAAACAGTCTGA	MKTIYNSIREEIVKHSKVRNSVLGNVSEWKRSHFIILSEIIKDELSEAEELKGGKKFEIGNTISHVTLQRFFENDYQDKTHSDLRFLKTLDKICIFLGYKDLNDYILTVRYRKDDNDETDDQSYLTKMVYDYCATAFEFCKQFPNHNTKLFKDLVFDDSPFLERVSQFSKELCDKDFQLVTKNNRSNYEVFDIQIVTDDPEKKILESQEFWNLLFKVGETGEEHFVNQLSTQIYFIRKINDTWKIWDNYNPDAGMLNKRIETV				NA	NA	NA	NA	NA
BMS003_03305	1275		COG0427	Butyryl-CoA:acetate CoA-transferase	ATGAATAATTACATCAGCGCAGAAGAAGCAATATATACGATAAAAAGCGGAAACCGTGTATTTTTCCATGGCAGTGCATGTACCCCAAATTATCTGATTGATGAGCTTGCAAGACAGGCTAGCCGTTTACAAAATGTAGAAATGGTTTCTATTACCCAACAGGGAAATGTAGAAATTGCAAAACCTGAATACAAAGACAGTTTTTTCATCAATTCCTTATTTGTTTCCACTCCTGTACGGGATGCTGTGAATTCTGACCGTGGAGACTTTGTTCCTGTATTCTTAAGTGAAATTCCTATTTTATTCAGAAAAAACATTCTCCCGCTGGATGTAGCACTGGTTACTGTCTCCCCCCCGGACAGACATGGTTTCTGTACTCTCGGGACTTCTGTAGACATTGCAAGATCAGCTGTTGATACCGCTAAGATTATTGTTGCCATCGTCAATCCGAGAATGCCCAGAACACATGGAGACGGGATGATCCATATCAGCAGAATCCATAAACTGGTCTGGCATGAAGAAGAGCTTCCTACCGTAGATTATGGTTCCAAAGTAGGCCCTGAAGAAATGCTTGTCGGAAAAAACGTGGCAGAGCTCATTGAAGACAGGTCTACTCTGCAGATGGGTATCGGGACCATTCCTGATGCGGTTTTAAAATGTCTTACCAATCACAAGGACCTGGGAGTTCATACAGAAATGCTCAGCGATGGTGTCATTGACCTGATCCAGGATGATGTGATCAACAATAAATACAAAGGCTACAATAATAACAAAACCATTACAAGTTTCTGTTTCGGAACCAGAAAACTCTATGATTATGTAGATGACAATACCGTATTTGCTTTCAGAGATGTAAGTGAAGTTAATTTTCCGATCAACATCATGAAAAACAAAAAAATGGTAGCCATCAATTCTGCCATTGAAATAGATCTTACAGGACAGGTTTGTGCAGATTCTATCGGAACTATGCAGTACAGCGGAATCGGAGGACAGATGGACTTTATGCGTGGGGCTGCTTTAAGTGATGATGGAAAACCTATCATAGCCATTACTGCAAGAACAAAAAAAGGAATTTCCAGAATTGTTCCTTTTCTTAAACAGGGTGCCGGAGTAGTAACCACAAGAGGTCATATCCACTACGTAGTTACTGAGTACGGAACAGCTTATCTTTATGGGAAAAATCTTCGCCAGAGAGCACAGGAACTTATAAGCATAGCCCACCCGGACGACAGAGAAATGTTGGAGAGAGCTGCTTTTGAAAGATTTAAACACTGA	MNNYISAEEAIYTIKSGNRVFFHGSACTPNYLIDELARQASRLQNVEMVSITQQGNVEIAKPEYKDSFFINSLFVSTPVRDAVNSDRGDFVPVFLSEIPILFRKNILPLDVALVTVSPPDRHGFCTLGTSVDIARSAVDTAKIIVAIVNPRMPRTHGDGMIHISRIHKLVWHEEELPTVDYGSKVGPEEMLVGKNVAELIEDRSTLQMGIGTIPDAVLKCLTNHKDLGVHTEMLSDGVIDLIQDDVINNKYKGYNNNKTITSFCFGTRKLYDYVDDNTVFAFRDVSEVNFPINIMKNKKMVAINSAIEIDLTGQVCADSIGTMQYSGIGGQMDFMRGAALSDDGKPIIAITARTKKGISRIVPFLKQGAGVVTTRGHIHYVVTEYGTAYLYGKNLRQRAQELISIAHPDDREMLERAAFERFKH				NA	NA	NA	NA	NA
BMS003_03306	1512	cat1	COG0427	Succinyl-CoA:coenzyme A transferase	ATGTTAGAAAGAATCAGATTAGAAAGTCTACACGAAAAAGTTACTACAGCTGAAAATGCTGTAAAAATCATTAAAGACGGTATGACCATAGGGTCCAGCGGCTTTACAAAAGCAGGTGACAGCAAAGCCATTTTGCCGGCACTTGCAGAAAGAGGAAAAACAGAAAACCTGAAAGTCACCTTGATGACCGGGGCTTCGTTGGGGCACGGTACCGACGGAAAACTGGCAGAAGCCAATGTTCTGAAGAAAAGAATGCCGTTTCAGGTAGATCCTATCTTAAGAAACAAAATCAACAACGGCGAAATTCTCTTCATCGACCAGCATTTAAGTGAAAGTGCAGAGCTTCTTCACACGAAAAACCTTCAAAGCATAGACGTTGCAATTATCGAAGCTGCTTACATTGAAAGAGATGGAAGTATTGTTCCCACTACCTCTGTAGGAAATTCAGTGACATTTGCTGCTTTGGCTAAAAAAGTGATTATCGAAATCAATACCGAAGTTCCTGAGGAAGTCTACGGAATTCATGATATTTACCAGGCTGAAAATTATCCTTACCGAAATGTTATTCCAATTGTTGCTCCATGGAATAAAATTGGGAGAAAGAGCATTCCTGTAGATCCTGAAAAAATTGAAGCCATTGTTTTTACCAACCGTAAAGACAGTCCCGCTGATATTGCAGAACCGGATGAGAAAACAACAGCCATTGCCAGGCATCTTCTTGCTTTCTTTGAAAATGAAGTTCTTCTGGGACGACTTACCGACAGATTACTTCCTCTTCAGGCAGGTATCGGTAAAGTAGCCAATGCTGTTCTAACCGGATTCAAAGACAGTAATTTCTATGATCTTACGATGTTTTCAGAAGTCCTTCAGGACAGTACATTTGATCTGATCGATTCCGGTAAGCTAAGCTTTGCTTCTGCATCATCCATTACCGTTTCCCAGGAATGCTATGAAAGAGTCTTGGGTAATCTTTCAAAATATAAAGATAAGTTCGTTCTAAGACCTCAGAATATTTCCAATACTCCGGGATTGATCAGAAGATTGGGAGTAATTGCCATCAATACAGCCATTGAGTTTGATATCTACGGAAACGTAAACTCCACTCATATCGGAGGAACAAAAATCATGAACGGAATAGGAGGTTCCGGAGATTTCGCAAGAAATGCTTATTTAAGTATTTTCGTGACTCAGGCCGCTTCAAAAGGCAACAATATTTCCCACGTTCTTCCAATGGTTTCCCATACCGATCATACAGAACATGATGTAGACATTCTGGTAACAGATGTCGGATTGGCTGATTTAAGAGGACTGGCACCTAGAGAAAGAGCGCAGAAAATTATAGACAACTGCGTTCACCCGGATTACAAGGAAGAATTACAATCTTACTTCGACAGGGCCTGTGAAAAAGGAGGTCATACTCCTCATCTTCTCCAGGAAGCATTCAGCTGGCATTTACGATTTGCAGAAACCGGAAGTATGAAACAGAGAGCAGCAGAGGAAGTTTCCCATTAA	MLERIRLESLHEKVTTAENAVKIIKDGMTIGSSGFTKAGDSKAILPALAERGKTENLKVTLMTGASLGHGTDGKLAEANVLKKRMPFQVDPILRNKINNGEILFIDQHLSESAELLHTKNLQSIDVAIIEAAYIERDGSIVPTTSVGNSVTFAALAKKVIIEINTEVPEEVYGIHDIYQAENYPYRNVIPIVAPWNKIGRKSIPVDPEKIEAIVFTNRKDSPADIAEPDEKTTAIARHLLAFFENEVLLGRLTDRLLPLQAGIGKVANAVLTGFKDSNFYDLTMFSEVLQDSTFDLIDSGKLSFASASSITVSQECYERVLGNLSKYKDKFVLRPQNISNTPGLIRRLGVIAINTAIEFDIYGNVNSTHIGGTKIMNGIGGSGDFARNAYLSIFVTQAASKGNNISHVLPMVSHTDHTEHDVDILVTDVGLADLRGLAPRERAQKIIDNCVHPDYKEELQSYFDRACEKGGHTPHLLQEAFSWHLRFAETGSMKQRAAEEVSH	PGPT0001545_571	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
BMS003_03307	1152	hmgA		Homogentisate 1,2-dioxygenase	ATGAGATATCATCAATCGGGAAATATCCCACCAAAAAGGCATACGATCTTTAAGTCTCCGGAAGATAAATTTTACTATGAACAGCTTTTCGGTACAGAAGGCTTCCATGGTATTTCTTCTCTGTTATATCATATCCACCGCCCTACACAGATCAAATCTATCGGTGAGCCGAAAGATGTCACTCCAAAAATCGCTGTGGAAAAGAATGTGGCTCCAAGAATGTTTAAAGGAATGAATGTGACCCCTGAAGACGATTTCATGGACAGCCGAAAAATCCTTTTGATGAATAACGACCTGAAAATGGGATTGGCAAAGCCAAGAAAATCTATGGATTATTTCTACAAAAATGCGGAATGCGATGAGCTTTTGTATGTTCATAACGGAACGGGAATTTTGAAAACATTTGTAGGAGATCTTGAATTCGTAACCGGAGATTATCTTATTATTCCAAGAGGAACAATTTATCAGGTGGAACTGAAGTCTGATGATACAGTATTCTTTGTATTAGAAAGTCATTCTCCAATTTATACTCCCAGAAGATACAGAAATGAATTCGGGCAGCTTCTGGAACATTCTCCATTCTGCGAGAGAGATATGATTGCGCCTACTTATAAAGAACCCATTGATGAAAAAGGAGAATTCCTGATTAAAGTAAAAAAAGAAAACCAGATTACAGATTTCATTTATGCAACACACCCGTTTGATGTTGTTGGATGGGACGGATATTTTTATCCTTATAAATTCAATATTAAAAATTTTGAACCGATTACCGGAAGAATTCACCAGCCGCCACCGGTTCACCAGAATTTTGAAGGGCACAATTTCGTAGTATGTTCATTCTGCGCAAGAATGTATGATTATCATCCACAGGCTATTCCGGCACCTTATAACCACTCTAATATCGATTCTGATGAGGTGTTGTTCTACACAGAAGGGGATTTCATGAGCCGTAACCACATAGACCTTATGGACTTTACCCTTCATCCGGGCGGAATTGTACACGGTCCCCACCCAGGTGCTATGGAAAGAAGTATCGGTAAAAAATTCACGGAAGAATATGCTGTAATGGTAGACCCTTTCCGTCCTCTGAAAATTACAGAAGAAGCTTTAAAAGTGGAAGATCCTTCTTATAAAACTTCATGGCTGGAATAA	MRYHQSGNIPPKRHTIFKSPEDKFYYEQLFGTEGFHGISSLLYHIHRPTQIKSIGEPKDVTPKIAVEKNVAPRMFKGMNVTPEDDFMDSRKILLMNNDLKMGLAKPRKSMDYFYKNAECDELLYVHNGTGILKTFVGDLEFVTGDYLIIPRGTIYQVELKSDDTVFFVLESHSPIYTPRRYRNEFGQLLEHSPFCERDMIAPTYKEPIDEKGEFLIKVKKENQITDFIYATHPFDVVGWDGYFYPYKFNIKNFEPITGRIHQPPPVHQNFEGHNFVVCSFCARMYDYHPQAIPAPYNHSNIDSDEVLFYTEGDFMSRNHIDLMDFTLHPGGIVHGPHPGAMERSIGKKFTEEYAVMVDPFRPLKITEEALKVEDPSYKTSWLE	PGPT0006025_1553	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006025-HGD|hmgA-K00451	NA	NA
BMS003_03308	2091	btuB_12		Vitamin B12 transporter BtuB	TTGCCTAACAATTTTAATTTCATGAAGCGAATATTATTTTCTATTACTTTTTTATCTACCTGTTGTTTTGCGCAGGAGACCGATAGTTTGAGTTTAGAACAGACTAAAAATCTGGATTCTGCGAGAGTTGCGAAGAGGGAAATCAAGACAAGTAATATTGAAGATGTAGTGGTTACAGGTACCATAAAACCGATGAGCAGGTCGAAAAGTCCTGTAGCAGTAGAGATCTACAGCCAGAAATTTTTTCAGAAAAATCCTACTCCCAGCATTTTTGAGGCTATAGCAATGGTGAATGGAGTAAAACCCCAGCTGAACTGTTCTGTTTGTAATACAGGAGATATTCACATCAACGGGCTGGAAGGACCTTATACCATGATTCTGATTGACGGAATGCCCATTGTAAGTTCACTTTCCACAGTATATGGATTGAGCGGAATTCCGAATAGTCTGGTAGACAGAATAGAGGTCGTAAAAGGTCCTGCATCTTCCATTTATGGATCTGAAGCAATGGGTGGAGTAATCAATATTATTACCAAAAATGCACTGACCGCTCCTCAACTGAGTGTGGATATGATGACCAGCACATGGAGTGAGAACAATCTGGATCTTTCAACTAAGTTTAATGTTGGAAAGAAGGCTGCTTCATTGTTAAGTTTAAATTATTTCAGTTTTCAGGAAAGGATAGATCAGAATAAAGATAACTTTACGGATGCTACTTTACAAAGCAGAATTTCCGTATTCAACAAGTGGAACTTTAAGAGAAAAGAAAACAGACAGGCAAGTTTTGCTATGAGGTATCTGTATGAAGACCGTTTTGGGGGAGAAATGCAATGGAATAAATCTTTCCGTGGCAGTGACGAAGTATACGGAGAAAGTATTTATACGAACAGAGCGGAGGTTTTCGGATTGTACGAATGGCCTATGAAAGAACATATCGTAACTCAGTTTTCATATAATTATCATGACCAGAATTCTTTTTATGGATCCAATCCGTTCAATGCAACGCAAAAGGTAGCTTTCGTACAGACGTATTGGGACAGAAGTTTCGGGAAGCATGATATCACAGCCGGGCTTACTTTCAAAAGAACTTATTATGATGACAATACACCAGGAACATTAGCTTCAGACGGCATCACGAATGCACCGATGAAATCTCCTATCTGGGGAGCTTTTATCCAGGATCAGTGGGAAATCAATGATAAAAATACCTTATTGCTTGGGTACAGATATGATTATGATAAAGTACATCATTCTGTACATTCACCGAGGTTTGCATGGAAATTTAATCCTAACCCTTATCATACTTTACGTTTCAATTTTGGAACAGGTTTCAGAGTGGTAAATTTGTTTACAGAAGATCATGCAGCTTTGACAGGGTCAAGGGAAGTGGTGGTAAAATCAGATTTGAAGCCGGAAAGATCTGTCAACGGAAATTTAAATTATATCTGGAAAATTCCTGTGGGTAACCGAATGGTAAACCTTGATGCTTCTGCATTTTATACCTATTTCAGTAATAAAATTGTAGGGGATTTTGATTCCGATCCTAATAAAATTATTTATGACAATCTTCACGGATACGGAATTTCAAGAGGAGCTTCCTTGAATGTGGATTTTAGTTTTCAGTTTCCTTTGAGTATCAATTTGGGAGCGACTTATCTGGATGTGTACCAGAAATTTGATAATGAAAATCAAAAAACACAACAGCTGCATGCTCCAAAATGGAGTGGTACGTATAACCTGACGTATAAATTCGCAAATAGCCTGACCATCGACTTTACAGGACAGTTCTACGGACCGATGAGGCTTCCTGTTTTAGTGAATGACTACCGCCCTGAATATTCACCGTTTTATTCTCTGGCTAATATTCAGGTATCTAAGAGCTTTAAATCCGGATTTGAAGTGTATTGCGGAATAAAAAATTTATTCAATTTCAGACCTAAAGATCCTTTGATGAGGCCTTTTGACCCGTTTGATAAACATGTTGATGATCCTATCAGCAATCCTAATCACTATACTTTTGATACGGCATATGGGTATGCTCCCATGCAGGGTATCAGAGGCTTTCTGGGAGTAAAATATACTTTAAAATGA	MPNNFNFMKRILFSITFLSTCCFAQETDSLSLEQTKNLDSARVAKREIKTSNIEDVVVTGTIKPMSRSKSPVAVEIYSQKFFQKNPTPSIFEAIAMVNGVKPQLNCSVCNTGDIHINGLEGPYTMILIDGMPIVSSLSTVYGLSGIPNSLVDRIEVVKGPASSIYGSEAMGGVINIITKNALTAPQLSVDMMTSTWSENNLDLSTKFNVGKKAASLLSLNYFSFQERIDQNKDNFTDATLQSRISVFNKWNFKRKENRQASFAMRYLYEDRFGGEMQWNKSFRGSDEVYGESIYTNRAEVFGLYEWPMKEHIVTQFSYNYHDQNSFYGSNPFNATQKVAFVQTYWDRSFGKHDITAGLTFKRTYYDDNTPGTLASDGITNAPMKSPIWGAFIQDQWEINDKNTLLLGYRYDYDKVHHSVHSPRFAWKFNPNPYHTLRFNFGTGFRVVNLFTEDHAALTGSREVVVKSDLKPERSVNGNLNYIWKIPVGNRMVNLDASAFYTYFSNKIVGDFDSDPNKIIYDNLHGYGISRGASLNVDFSFQFPLSINLGATYLDVYQKFDNENQKTQQLHAPKWSGTYNLTYKFANSLTIDFTGQFYGPMRLPVLVNDYRPEYSPFYSLANIQVSKSFKSGFEVYCGIKNLFNFRPKDPLMRPFDPFDKHVDDPISNPNHYTFDTAYGYAPMQGIRGFLGVKYTLK	PGPT0003780_1398	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0003780-TC_FEV_OM2|cirA|cfrA|hmuR-K16089	NA	NA
BMS003_03309	462			hypothetical protein	ATGAAAAAAATAGCTTTATTTTTAATGTTAGTGCCCTGTTTTTATCTGTCTCAGATGAAGACAGGCACTTTTTCTGATCTTGAAGTTCAGCAGAAAAAGAATCCGAAGCCGGTTGTTATTCACCTTTACACAGACTGGTGTGCAGTTTGTAAAATTGAATCTTACCGTTTGAGTAAAGATAAGGAGCTGGTTGATATGCTGAATGATCATTTTTATTTTGTCAATTTCGAGGCAGAGAAAACGAAGGAGAAAATTCATTTCCAAAATCAGGAATTTGAATATCTGCAGAACGGAAATTCCGGAATTCATGAGCTTGCACTAGCTTTATCGAAGAATAAAAATCAGCCCGTTTATCCTTTATGGGTATTCCTGGACAAACATCAGAATCTGGTGTATTATCAGGAAGGGCAGATGACACCTGAGAAAATGAAGCAGAAGCTGTTGGAGATTTCTGCTTTGTAA	MKKIALFLMLVPCFYLSQMKTGTFSDLEVQQKKNPKPVVIHLYTDWCAVCKIESYRLSKDKELVDMLNDHFYFVNFEAEKTKEKIHFQNQEFEYLQNGNSGIHELALALSKNKNQPVYPLWVFLDKHQNLVYYQEGQMTPEKMKQKLLEISAL				NA	NA	NA	NA	NA
BMS003_03310	855			hypothetical protein	ATGAAACAATTAAAATATCTGTTTTTACCCGTTTTAATGTTCATATTTACAGCATTAAGTTCGTGTGAAAACATAAAAAACTCTAAATATATTACCATAGGAATGGTAGATGGATGGGCGGAAGATGTTGCGATGACACATGTTGCGAAGGCCATTCTGGATAAGCAGGGTTATCATGTTATTATTCAAAAAGCATCTACGGATATGATTCTGGCTTCGATGAATAATGAAGATACAGACCTTTTCATGGGAGTCTGGCTTCCTTACACCCATGCTAAAAAACTGGCTAAATTTCCGGGACTGGCTCATCTTGGAACCAATTACGACAATGGCCGTATAGGATTGGTTGTGCCGGAATATATTCCGATTCAATCCATTGAAGAGCTCAATCAGCATAAAGATCAGTTCAATCAAAGAATTATAGGAATTGAAAAAGGAGCTGGATTAACCACCGGAACGGATAAGGTCATTATTGATTATAAGCTGGATTATAAGCAAATCAACTCCTCTACCATTGCAATGATCACCGAGTTACAGAATGCTATCCAGCATAAACAGTGGATTGTGGTTGCCGGATGGCAGCCCCATTGGATGTTTGGTAAAATGAAACTCAGGTTTCTTGACGATCCCAAAAAGATATTTGGTGAAGCAGAGCAGATTAAAACCTATTCCAGAAAAAGTTTTGCCAAAGATCATCCGGAGCTGGCCAAATTCTTTTCAAAACTTCATTTTGATGATGAAAATATGTCTGATCTTTTAATGAAAATGGAACAGAGTAAAAACAAAGAAGCCACTGCTAAAGAATGGGTGGAAAATCACTCTGAACTCGTACAGTCGTGGTTAGATAAAAATTAA	MKQLKYLFLPVLMFIFTALSSCENIKNSKYITIGMVDGWAEDVAMTHVAKAILDKQGYHVIIQKASTDMILASMNNEDTDLFMGVWLPYTHAKKLAKFPGLAHLGTNYDNGRIGLVVPEYIPIQSIEELNQHKDQFNQRIIGIEKGAGLTTGTDKVIIDYKLDYKQINSSTIAMITELQNAIQHKQWIVVAGWQPHWMFGKMKLRFLDDPKKIFGEAEQIKTYSRKSFAKDHPELAKFFSKLHFDDENMSDLLMKMEQSKNKEATAKEWVENHSELVQSWLDKN	PGPT0013640_3791	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
BMS003_03311	828	opuAB	COG4176	Glycine betaine transport system permease protein OpuAB	ATGAATAAAACTATAGATATAGGCCAATATGTAGAAACTGCAATCAATTGGCTCACAGAAAACGGAAAGCCTGTATTTGATGTCATAAAGCACCTGGGAAACGCCTCCATTATAGGAATTGAATGGGTTCTAACAAACACCCCTTTTTATGTAATTATTCTCTTTTTTACCCTGTTGGCATTATGGAAAGCAGGAAAAGGAATCGCTGTGGTAACGGCGGCGGGATTAAGTTTAATATTTTTAATGGGATTATGGAAAGAAACCATGGAAACTCTGGCGCTTATCTTTGTGTCCACCATTACAGCTCTTATTCTATCTATTCCCTTAGGAATTTTAGCTGCTAAAAACAAAATAGCAGACAAGATTATTCGTCCTTTACTGGATCTGATGCAGACCATGCCCGCATTTGTATACCTCATTCCGGCTGTATTGTTTTTCAGTATAGGGAAGGTACCCGGAGCTTTTGCAACCATTATTTTTGCGATGCCTCCTGCTGTTCGGTTAACAACCCTGGGGATTGAATCCGTTCCGAAAGATATTGTAGAAGCCGCCAGAGCTTTTGGGGCTACCAACCGTCAGATCCTATTTAAAGCAGAACTTCCTTTAGCCATGAAAACGATTTTAACGGGAATCAATCAAACCATATTATTATCATTATCCATGGTGGTTATTGCAGGAATGATTGCCGCAGGCGGTTTAGGAGAGAAAGTACTGGAAGGAATTAATAATCTGGATATCGGATTAGGATTTGAAAGTGGTTTATCCGTGGTAATTTTAGCCATTATCCTCGACCGTATTACCCAGGGATTTGTAAAGAAAAAACAATAA	MNKTIDIGQYVETAINWLTENGKPVFDVIKHLGNASIIGIEWVLTNTPFYVIILFFTLLALWKAGKGIAVVTAAGLSLIFLMGLWKETMETLALIFVSTITALILSIPLGILAAKNKIADKIIRPLLDLMQTMPAFVYLIPAVLFFSIGKVPGAFATIIFAMPPAVRLTTLGIESVPKDIVEAARAFGATNRQILFKAELPLAMKTILTGINQTILLSLSMVVIAGMIAAGGLGEKVLEGINNLDIGLGFESGLSVVILAIILDRITQGFVKKKQ	PGPT0013635_2608	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
BMS003_03312	1251	gbuA		Glycine betaine/carnitine transport ATP-binding protein GbuA	ATGGAAAAAAGTGAAAATACCAGAAAAGTAAAACTTAAAGTGGAAGACCTGACGATCATTTTTGGCAAAAACAAAGAAAAGGCACAGGAACTTCTGGATAAGGGTTTTTCCAAAAAGGAAATTCTAGAAAAAACAGGCTGTACCATAGGAATCAACAAAGCCAGTTTTGAAATCTATGAAGGAGAATTCTTTGTCATCATGGGATTGTCAGGAAGTGGAAAATCTACACTTCTACGCTGTCTTAACAGGCTAAATGAACCTACTTCAGGAAAGGTATACATCAATGATGATGATATTACCGGTAAAAACAATAAAGAACTGCTGGAAGTAAGAAGAACGGAAATGAGTATGGTATTTCAGAAATTTGGATTGCTGCCCCATCATACTATTTTAGACAATGCAGCTTTCGGGCTGGAAATCAGAGGAGAGGACAAAGCCTCACGAGATAAAAAAGCACAGAAAGCACTGGATATCGTAGGACTAAATGGTTTTGAAAATCAGTATCCTTCCCAGCTTTCAGGAGGAATGCAGCAGAGAGTAGGATTAGCAAGAGCTTTGGCGAACGATCCTGAAGTATTGCTTATGGATGAAGCATTTTCTGCACTGGATCCTCTGATCAAATCTGAAATGCAGGATCAAATGCTCGAACTGCAGAATACATTACAAAAAACCATAGTCTTTATTACGCATGATTTGGATGAAGCCATTAAAATCGGAGACCGTATTGTCATTATGAAAGATGGAGTGATAGAACAAATAGGAACAGCCGAAGATATTTTAACCAATCCTGCCAGCGACTATGTGAAGGCCTTCGTAGAGAAAGTAGACCGTAAAACGATTATCACCGCAAGATCTTTAATGTTTGATAAAGCTACAGTAGTACGCTTCAGAAAGGACGGTCCTGAAGGAGCTTTAAGAAAAATGAGAACTACTGGCCTGGAAAACCTTCCCGTGGTAGATTTTCAGAGTAAATTTCTGGGCTTTGTAACTCTTAAAGATGTTGTCCGTATTGCCAAAAAGAAAGAACCTACGGTGGAATCAATTATCAACAGCAATGTTCCTTCGGTTTATCCTGAGGTGACTGTAGAAGAGATGTTACCACTGATCTCTGAAAATAAATCGTCCATCGCCGTGGTAGATGAAAACAATAAATTCCTGGGTCTTATCACCCAATTATCACTTATCATAGAAGCCACCAAGTTTAACGAAGAAGAGATCATAGAATTAAAAGAAATCGCAAACAATCAATAA	MEKSENTRKVKLKVEDLTIIFGKNKEKAQELLDKGFSKKEILEKTGCTIGINKASFEIYEGEFFVIMGLSGSGKSTLLRCLNRLNEPTSGKVYINDDDITGKNNKELLEVRRTEMSMVFQKFGLLPHHTILDNAAFGLEIRGEDKASRDKKAQKALDIVGLNGFENQYPSQLSGGMQQRVGLARALANDPEVLLMDEAFSALDPLIKSEMQDQMLELQNTLQKTIVFITHDLDEAIKIGDRIVIMKDGVIEQIGTAEDILTNPASDYVKAFVEKVDRKTIITARSLMFDKATVVRFRKDGPEGALRKMRTTGLENLPVVDFQSKFLGFVTLKDVVRIAKKKEPTVESIINSNVPSVYPEVTVEEMLPLISENKSSIAVVDENNKFLGLITQLSLIIEATKFNEEEIIELKEIANNQ	PGPT0013630_347	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
BMS003_03313	366			hypothetical protein	ATGGAAATCATTGCTAAAATTCTGATCGCTGTCGTTGCACTGGAGCACCTTTATATTCTTTGGATGGAAATGTTTGCGTGGGAAACAAAAGGAAAGGAAGTTTTTAAAGCCGCTCTTCCCGCAGAAATGTTTAAACCAACGAAAGGGCTTGCTGCCAACCAGGGACTTTATAATGGCTTTCTGGCTGCGGGACTGATCTGGTCATTCCTGATTAAAGATCCGCAGTGGCAGACCAATGTGGCATTGTTCTTTTTAGGATGTGTAGCCGTAGCCGGAATCTACGGAGCAATTTCTGCTACTAAAAAAATATTTTTCGTTCAGGCTTTGCCTGCTATTCTTGCCATTATTGCCGTTTTATTGAAATAA	MEIIAKILIAVVALEHLYILWMEMFAWETKGKEVFKAALPAEMFKPTKGLAANQGLYNGFLAAGLIWSFLIKDPQWQTNVALFFLGCVAVAGIYGAISATKKIFFVQALPAILAIIAVLLK	PGPT0024160_4646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS003_03314	573			hypothetical protein	ATGGATCCATTCAAAGCACATTTAAATAAATTTATTACCATAACTGATGAAGAATATACTTCTATTGTATCATTTTTTGAGGTAATGGATGTGAAAAAAAAACAGAATCTGGTGCTGGAAGGAGAAGTTTGCCGGACAATGTATTTTGTAGTGAAAGGATGCTTGAGAAAGTTTTTTATCAATGAAAAAGGAGTAGAAAATACCACCCAGTTTGCTATCGAAAACTGGTGGATTACAGATACATTCGCCTATGAAAGACAGTTGCAGACAGATTTTAATATTCAGTCGGTGGAGCATTCCACCATTTTGGTAATTGACTTGAAAACGCAGGAATTATTGTTTAAAAAGCATCCTGTGATGGAACGTTATTTCAGAATTATTTATCAGAGAGCTTATGCTGCTTCCGAAAGAAAGCTCCGTTATCTGTCGGAATTTTCAAGGGAAGAACTTTATGTGCATTTCAGTACGTTGTATCCTTGGTTTATTCAACGAATTCCTCAGTATCTGGTTGCTTCTTTTCTTGGATTTACACCGGAATATTTAAGTGAAATCAAAGCAAAATTACGATCTTAA	MDPFKAHLNKFITITDEEYTSIVSFFEVMDVKKKQNLVLEGEVCRTMYFVVKGCLRKFFINEKGVENTTQFAIENWWITDTFAYERQLQTDFNIQSVEHSTILVIDLKTQELLFKKHPVMERYFRIIYQRAYAASERKLRYLSEFSREELYVHFSTLYPWFIQRIPQYLVASFLGFTPEYLSEIKAKLRS	PGPT0000515_2942	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS003_03315	435			hypothetical protein	ATGACAGGTAATAAGAATCAATTTCCTCAACTTTTTTTAAGGCTGGCTCTTGCCGTAACGATGCTTTCTGCGGTGGCAGACAGATTTGGGTTATGGAGCAAAGAAAATTCATCATGGGGAAACATGGAGAATTTTAAAGAATATACAAGACAGCTTACCTTTTTTCTTCCGGAAGCTTTAAGTACATTCTCAGCGTATGCTGCTACTATTTTAGAAATACTTTTTCCTCTGATGCTTATTTTTGGATTTAAAACAAAAATTGCTGCCTATGGAAGCGGTATCTTACTCTTAATTTTTGCGATATCCATGACCATTGCATCAGGACCAAAAGCCTCACTGAACTATTCCGTATGGGTGGGAAGTGCAGCCGCTCTTTTACTGGCGGTACAGCAGCATTATTCTTTAAGTATAGATCAATTAACCAAAAAAATATAA	MTGNKNQFPQLFLRLALAVTMLSAVADRFGLWSKENSSWGNMENFKEYTRQLTFFLPEALSTFSAYAATILEILFPLMLIFGFKTKIAAYGSGILLLIFAISMTIASGPKASLNYSVWVGSAAALLLAVQQHYSLSIDQLTKKI	PGPT0028505_2459	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
BMS003_03316	444			hypothetical protein	ATGAATGCAAGATTGAATATTGCAACAGTAGAGTCAGCAGCCTATAAAGCCATGCTGGGATTGGAAGGGTATTTACAGACTATTTCTTTAACACCCATTCAGAAGGAGCTGATTAAAATAAGAGCTTCACAGATCAATAAATGTGCTTTCTGTCTTGATATGCATACCAAAGATGCCATCAAATACGGAGAAAATCCTCAGAGAATCTTTATTCTGAACGGATGGACAGAAGCAAAAGAATTTTTCACTGAAGATGAACAGGTATTATTGGCGATGACCGAAGAGATTACACTGATCAGTGATAAAGGATTAACCGAAGAAACTTATCAAAAAGCGAAGTCTTTCTTTGATGATAACCAGATTGCCCAGATCATTATGGCGATTATTACAATCAATGCCTGGAACAGAATAGCAGTGAGTACTCATATTCCGATTGCAAAATAA	MNARLNIATVESAAYKAMLGLEGYLQTISLTPIQKELIKIRASQINKCAFCLDMHTKDAIKYGENPQRIFILNGWTEAKEFFTEDEQVLLAMTEEITLISDKGLTEETYQKAKSFFDDNQIAQIIMAIITINAWNRIAVSTHIPIAK				NA	NA	NA	NA	NA
BMS003_03317	984	yhdN	COG0667	Aldo-keto reductase YhdN	ATGGAATATAGAAAATTAGGAAATACTGATTTAGAATTATCAACAATCACCCACGGTGCTTTTGCCATCGGCGGAAATATGTGGGGCGGTAATGAAAAACAGGATTCCATCAATTCTATTCATGCTTCGTTGGATCATGGCGTAACATCTATTGACACGGCGCCATTCTATGGCTTCGGACTGAGTGAAGAAATGATCGGTGAAGCGATCAAAGGAAAAGACCGTTCAAAAATCCAGCTTTTAACAAAATTCGGACTGGTATGGGACGGAAGCAATAATGGCAAAGGAGAATTTTTCTTTGATGCAGAAGACGAAGGAAAAACCATTCCGGTCTACAAATTCGCTTCTAAAGAAAATATCATCAAAGAAGTTGAAGAAAGTTTAAAAAGATTAGGGACAGATTATATCGATCTTTTACAGCTTCACTGGCCAGACAGCACAACATCAATTTCCGAAACAATGGAAGCGATGGAATTATTGATCCAGCAGGGAAAAATTCGTACAGCAGGAGTAAGCAATTACAGCGTAGCTCATATGGAAGAAGCCAACAGAACTTTAAAACTTGCCAGCAACCAGGTTTCTTACAGCATGCTGAACCGTGCTATTGAGAACGATCTCGTACCTTATTCTCTGGAAAACAACACAGGAATCATCGTGTACAGCCCTATGGAAAGAGGTCTTTTAACAGGTAAATATTTCAAAGAAACCCAATTGAAAGATAACGACCACAGAAACGGATATTTCTCTCAGTTTGATCTGAATAAAGTAAAAACATTCTTAGAGAAAATAGAACCTGTCGCCCAGGAAAAAAGTGCAAGCCTTTCTCAGCTGGTATTAAAATGGACTACGTTGCAGCCAGCAATCACAGTAGTATTAGCCGGAGCAAGAAATGCACAGCAGGCCATAGAAAACGCAAAAGCAATGACTATTGACCTTTCACAGGAAGATCTGAACTTTATCAATTCAGCGTTGAGCGAAATTTAA	MEYRKLGNTDLELSTITHGAFAIGGNMWGGNEKQDSINSIHASLDHGVTSIDTAPFYGFGLSEEMIGEAIKGKDRSKIQLLTKFGLVWDGSNNGKGEFFFDAEDEGKTIPVYKFASKENIIKEVEESLKRLGTDYIDLLQLHWPDSTTSISETMEAMELLIQQGKIRTAGVSNYSVAHMEEANRTLKLASNQVSYSMLNRAIENDLVPYSLENNTGIIVYSPMERGLLTGKYFKETQLKDNDHRNGYFSQFDLNKVKTFLEKIEPVAQEKSASLSQLVLKWTTLQPAITVVLAGARNAQQAIENAKAMTIDLSQEDLNFINSALSEI	PGPT0008280_12	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
BMS003_03318	732	hchA	COG0693	Protein/nucleic acid deglycase 1	ATGCTGGCAGTCTTTGCAATAGGATTTGCTCAGGCTCAAACCAAAAAATCAAAGAATATGAAAAAGAAAATCTTATTCGTCGTAACCAGCCATGATAAAAAAGGCAGTACAGGTGAAGATACAGGATATTACCTAGGCGAAGTTTCTCACCCATGGGAAGTTCTTCACAAAGCAGGATATGAAATTGACTTTGTAAGCCCAAAAGGCGGAATTCCTCCGGTAGATGGTTTTGATTTAAAAGATCCTGTCAACAAAGAATTCTGGGAGAACCAGGAATACAAAAATAAAATTGATCATTCAATGACTCCGTCACAGGTAAACCCAAAAGAATATTCAACCATCTTTTATGCAGGAGGACACGGAGCGATGTGGGATTTTGCAGACAATAAGAAACTGGCAGATATCGCTTCTAAAATTTATGAAAACGGAGGCATTGTAGCCGGTGTTTGTCACGGCCCGGCAGGCTTGGTAAATATCAAACTGAATAATGGGAAATACCTTGTAGACGGTAAGAAAATCAATGCTTTTACCAATGAAGAGGAAGCTGAAGTAAAATTAACCAACGTTGTTCCTTTCCTACTGGAAGATAAACTGAAAGAAAGAGGTGCAAAATTTGAAAAATCCGGACTTTGGCAGAATCATGTGGTAACAGATCAGCGAGTGATCACAGGACAGAACCCACAGTCAGCCAAAAGCGTTGGAGAAGCCATCATAAAAGAACTAAAGAAATAA	MLAVFAIGFAQAQTKKSKNMKKKILFVVTSHDKKGSTGEDTGYYLGEVSHPWEVLHKAGYEIDFVSPKGGIPPVDGFDLKDPVNKEFWENQEYKNKIDHSMTPSQVNPKEYSTIFYAGGHGAMWDFADNKKLADIASKIYENGGIVAGVCHGPAGLVNIKLNNGKYLVDGKKINAFTNEEEAEVKLTNVVPFLLEDKLKERGAKFEKSGLWQNHVVTDQRVITGQNPQSAKSVGEAIIKELKK				NA	NA	NA	NA	NA
BMS003_03319	288	ycnE	COG1359	Putative monooxygenase YcnE	ATGAAAATTCATCTTACAGCGATTATAAAATCCAAAGAAGAACATCAGGCAGAAGTATTGGAAGTTCTTCAGAATATGGTAAAAGAAACAAGAAAAGAAGAAGCTTGTGAACTTTACAGTCTTCATCAGGGCATTGAAGACAAAAATGAATTTGTTTTCTACGAAATCTGGAAAAGCGAGGAAGGGCTTGCTCAGCACAATCAGCAACCCTACATTCAGGCTTTCGGAGCTCTGGCAGATGAGAAACTTCAGGAAAAGCCACAGATTTATCTTACCAATATCATTTAA	MKIHLTAIIKSKEEHQAEVLEVLQNMVKETRKEEACELYSLHQGIEDKNEFVFYEIWKSEEGLAQHNQQPYIQAFGALADEKLQEKPQIYLTNII				NA	NA	NA	NA	NA
BMS003_03320	885			hypothetical protein	ATGAAAAAAGTGCTGATCACGGGTATTACCGGCTATATTGGCGGAACTATTGCAAAAAAACTCATCGGCAGGAATTATGAAGTGACAGGCCTGGTTCGTAATGAAGCCCATGTTCAGGAACTGGAATCATTGGGAATCAAAACCATTGTGGGGAATATCCATGATGAAGATCTTATCAATACAGCAGTTTCCGGGGTAGATGCGGTCATCCATAATGCCGATTCCGCAGATGATGCATATACAGCAGACAGCTTTATCAGAACACTGGAAGGAAGTCATAAAACATTTATATTCACTTCAGGTTCTGCCATTTTTGGAGGAAAAGAGAATGGTAAGAAAAGTGACTTTATCTTCAGAGAAGATTTTCCTTTGCAGCCAAGACTGGAAATGGCATCAAGAGTGCTTATCAATAATTACGTTCTGCAATCTGCAAATAAAGGCATAAGAAGTATTGTTATTGTTCCTACAATGGTTTACGGAGAAGGGTTGGGAATAAAAAAAGACAGTATTCAGATTCCGGCTCTTATTAACTTTTCTAAGGAAAAAGGATATGGAGTGTATTTTGGAGAAGGTGAAAATATCTGGTCTAATTTACATATTGAAGACCTTGCAGATCTGTATGTACTTGCATTGGAAAAGGCAAAACCAGGTTCTATTTATTATGCAGAAAATGGTTCATCTTCTCTGAAAAATATTGCAGAAAACATCAGTAAAAAATACCGTTTAAAACCAGCAAAGTCATTAAGTATCCAGGAAGCTGTTAATAAATTCGGTCCTGCAGGAGGTTATTTCGGCTTTGCGTCTAACAGCAGATGCAGTTCGGATAAAGCCAGAGCAGAACTGGACTGGAAACCTATTTATAACTCAATCGAAAATTTTATTTAA	MKKVLITGITGYIGGTIAKKLIGRNYEVTGLVRNEAHVQELESLGIKTIVGNIHDEDLINTAVSGVDAVIHNADSADDAYTADSFIRTLEGSHKTFIFTSGSAIFGGKENGKKSDFIFREDFPLQPRLEMASRVLINNYVLQSANKGIRSIVIVPTMVYGEGLGIKKDSIQIPALINFSKEKGYGVYFGEGENIWSNLHIEDLADLYVLALEKAKPGSIYYAENGSSSLKNIAENISKKYRLKPAKSLSIQEAVNKFGPAGGYFGFASNSRCSSDKARAELDWKPIYNSIENFI				NA	NA	NA	NA	NA
BMS003_03321	618	mdaB	COG2249	NADPH:quinone oxidoreductase MdaB	ATGAAAAAAATACTAATCATCAACGGAGGACAGAATTTCGGACATTCCGGAGGAAAATATAATCAGACTATTACAGAAAATACATTAGCTGTTCTTAAAGAATTTGATAATATAGAAGTAAAGATAACCAATGTAAGTGAAAACTACGATAAAAATGAAGAAGTGGAAAAATTTGTATGGGCAGATTACATCATTTACCACACTCCGATCTGGTGGTTCCAGCTTCCAAACGGACTGAAAAAATATATTGATGAAGTATTCACAGCCGGCCATGCCAAAGGAATTTATATGAATGACGGAAGAAATGCTGAACACCCGGAAATCAACTATGGGACAGGAGGAATGCTTGGCGGAAGAAAATATATGCTGACCACCAGCTGGAATGCTCCTGCAACTGCCTTCACACTTCCCGGAGAGTTTTTCAGTGAAAAAAGTGTGGATGAAGGCCCGTTATTTGGATTCCACAGAATGAATGCCTTTGTTTCATTAGAAAAAATGAAAAGCTTTCACTTTCATGATGTAGAGAAAAATGCTAATGTAGAGCGTGATATGAAATTGTACAGAGCGCACATCAGAAATGTATTTGAAAAAGAATTAAAACAGGAACTGGTATCATGA	MKKILIINGGQNFGHSGGKYNQTITENTLAVLKEFDNIEVKITNVSENYDKNEEVEKFVWADYIIYHTPIWWFQLPNGLKKYIDEVFTAGHAKGIYMNDGRNAEHPEINYGTGGMLGGRKYMLTTSWNAPATAFTLPGEFFSEKSVDEGPLFGFHRMNAFVSLEKMKSFHFHDVEKNANVERDMKLYRAHIRNVFEKELKQELVS	PGPT0023600_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_2-METHYLENE-4-BUTYROLACTONE_RESISTANCE	ADAPTION_TO_PIS-2-METHYLENE-4-BUTYROLACTONE_DEGRADATION,PGPT0023600-mdaB-K03923	NA	NA
BMS003_03322	747			hypothetical protein	ATGATACAGATAGCTGTTTTTAGTGATGTGCATGGAAATCTTCCTGCATTGGAAGTGGTGTTGAAGGATATTGAGGAGAGAGGAATCAGCCAGAAATTCTGCTTGGGAGATCTTGTCGATTTTGCACCCTGGGGAAATGAAGTGATTGAAAAAATAAGAAGTCTGAATATTCCTTGTCTCATGGGAAATCACGATGAAAGAATTGCTTTTGATATTCCTGTTGTTCCTTTGTCTAAGCATTCTGCAGAAGAGACCAGTGCGAGATTTATAGCGATCGATCACTCTAAAAAACATATTACACAACTGAATAAAAAGTTTCTCTCCGAGCTGCCTTTTCATTTAAAATTAAATTACAAAGCAGGTAAAAAGCACTGGAATATTCAGCTGGTTCATTCCAGTCTTGAAAGCAATGATACTTATTTATACGAATCGGAAAATGATGAGGTTTTTACCTCTATGCTGAATAAAGCGGAAGCTGATCTGATAGTGATGGGACATACCCATTTATCATTTAAAAAACAGTTTGAAAAGAATACATGGGCTGTCAACTGTGGTTCTGTAGGACGCTCTAAAGAAGAAAACAGACTTGCTTCTTATTTGATCTTGACATTAGACGAAGAAAAAATTACTCCGGAAATTGTACAATTATCTTATCCGATTGATGAAACTGTACACCAGATAAAGGAAAGCGGAATTCCTGATTATTATGCTTCCTTTTTAAAGAATGAAAAAGTATCAATATTATAA	MIQIAVFSDVHGNLPALEVVLKDIEERGISQKFCLGDLVDFAPWGNEVIEKIRSLNIPCLMGNHDERIAFDIPVVPLSKHSAEETSARFIAIDHSKKHITQLNKKFLSELPFHLKLNYKAGKKHWNIQLVHSSLESNDTYLYESENDEVFTSMLNKAEADLIVMGHTHLSFKKQFEKNTWAVNCGSVGRSKEENRLASYLILTLDEEKITPEIVQLSYPIDETVHQIKESGIPDYYASFLKNEKVSIL				NA	NA	NA	NA	NA
BMS003_03323	897	cmpR		HTH-type transcriptional activator CmpR	ATGGTTAATTTAGAATGGTATCGTACCTTTAAGGCGATCTATAAAACCGGGACATTAACGGGTGCTGCTGATGCTTTATTCATATCACAGCCGGGCGTAAGCCTTCACTTAAGTTCACTGGAAGCTTATGTGGGATATAAGCTATTTGACAGAACCGGTAGAAAAATGATTCCTACAGAACGTGGAAAAGTATTGTTTAATGCAGTAGCCGAACCGCTTACCAAACTGGAAGATGTAGAAAAGAACTTTCAGAAGTCTACCGAGAAACACACTCCAACCATCAGTGTCGGGATGTGTTTTGAGACTTTTCAGACTACTTTGGAGCAGTATGTTTCTTCATTGCCTTTTAATCTCATTATCAGTTTCGGAGAATACCCTGAAATGCTGGATCAGTTGGATAAAGGAATTCTCGATCTTATCATCACTCCGAAAAAAGGGTCTTCACCTAATATAGAACATGAAGCATTTTCTTCTGAACAGATCATCCTGGTAGGAGGGAAAGATGTGGATAAAGCTGCTTTCAATAAGGTTCTAAAAACAAAAGATGCAGAACGGATTGAGGAGTGGCTGAAAAATGAAAAATGGTACGGAACTACCGGAGATATGGAACATCTTTTCCAGTACTGGATATTAAACTTCGGTCATAAGCCCAATTTCCGTCCCAATTATATCGTTCCGAACATGCATTCAATCATCCGTTGTCTGAAAGGAGGAGCTGGATTAGCCGTTGTTCCCGATTTTCTATGCAGGAATGATATTGAAAGTGGCAATATTCAGCTGATCTGGGAAGGAAAAAAGAAATTTGAAAACACATTGTATTTCGGATGCCGTAAGAAAACAAATTATCAGACCGAAATTGAACATATTAAAGGATTATTCCGCAAGGTGATGGTTTAA	MVNLEWYRTFKAIYKTGTLTGAADALFISQPGVSLHLSSLEAYVGYKLFDRTGRKMIPTERGKVLFNAVAEPLTKLEDVEKNFQKSTEKHTPTISVGMCFETFQTTLEQYVSSLPFNLIISFGEYPEMLDQLDKGILDLIITPKKGSSPNIEHEAFSSEQIILVGGKDVDKAAFNKVLKTKDAERIEEWLKNEKWYGTTGDMEHLFQYWILNFGHKPNFRPNYIVPNMHSIIRCLKGGAGLAVVPDFLCRNDIESGNIQLIWEGKKKFENTLYFGCRKKTNYQTEIEHIKGLFRKVMV				NA	NA	NA	NA	NA
BMS003_03324	468	yvbK		putative N-acetyltransferase YvbK	ATGGAGAATTTCACTTTCAATTTATTACCTTCAGATTCAGAGATTCCTTATCATTTATTGTTACTGGCGGATGAAACTAAGGATGCGATTAATCAATATATTTTTAATTCTGATATCTATCTTTTGTATGATGACACTGAAAATATTGCTGTGATGGCATTATACAGAAAAAGCAATACGGAACTGGAAATCAAAAATGTGGCAGTCATGGAAAGTTACCGGAGTAAAGGTATCGGAAGCATCCTGATGGATAAGGCAAAAGAAATTGCGAAAGAAAACCATTATAAAATACTGACTGTCGGAACATCCGACACGGGCTTCCAACAGATCAGATTTTATGAAAAGAACGGCTTCATCAAAAGTGGAGTCCTGAAAGATTTTTTTATTAAAAACTATCCGGCTCCTATTTATGAAAACGGTTTACAAATGAAAGACATGGTTTTATTAAACCATCACCTTGCGGAATAA	MENFTFNLLPSDSEIPYHLLLLADETKDAINQYIFNSDIYLLYDDTENIAVMALYRKSNTELEIKNVAVMESYRSKGIGSILMDKAKEIAKENHYKILTVGTSDTGFQQIRFYEKNGFIKSGVLKDFFIKNYPAPIYENGLQMKDMVLLNHHLAE				NA	NA	NA	NA	NA
BMS003_03325	435	yjaB	COG0454	Peptidyl-lysine N-acetyltransferase YjaB	ATGTCACAAAATATCAGATTGGCTACAGCAGAGGATTATCCGAGAGTTATGGAAATATGGGAATCCGCAGTGAAAGCAACTCATGATTTCCTTGCCGAAGAGGATTTCAATTATTTCAAAGAAGCCATTCCAAGAGATTATCTTCCTCATCTTGAAGTGTATTTAATTACCGAAGATAATGAAACCAAAGGTTTTGCCTCTGTAGCAGAAGGCAACCTGGAAATGCTTTTCATTCATAATGATACGCGTGGAAAAGGCTACGGCAAAACACTTTATCAGTTTATGAAAGAAAAGACCGGACTGACCAAAGTAGACGTCAACGAACAAAATCCTCAAGCCATCGGATTTTATGAAAAAATGGGTTTCAAAAAGACCGGAAGATCAGAAAAAGATGGTTCAGGAAAAGATTATCCACTTATTCATATGAGTCTGTAA	MSQNIRLATAEDYPRVMEIWESAVKATHDFLAEEDFNYFKEAIPRDYLPHLEVYLITEDNETKGFASVAEGNLEMLFIHNDTRGKGYGKTLYQFMKEKTGLTKVDVNEQNPQAIGFYEKMGFKKTGRSEKDGSGKDYPLIHMSL				NA	NA	NA	NA	NA
BMS003_03326	876	dkgA	COG0656	2,5-diketo-D-gluconic acid reductase A	ATGCAAAAGAAAACCTATACAGGGCAGCCTGTGGTAACTTTAAATAACAGAGTAGACATTCCGGCTTTAGGCTTTGGAGTATGGCAGATGGAAGATCTGAAAGAATGTGAAAATGCAGTAATCAAAGCCATTCAGACAGGATATAGAATGATTGATACCGCTGCCATTTATCAGAATGAAACAGCGGTAGGCGCGGGAGTGAAAAATAGCGGAGTAAATAGAGATGAACTGTTTATCACCTCAAAAGTATGGGTTCAGGACCATGGGTATGAAAAAACAAAAAGCGCTTTTCAGAGAACATTAGACAGGTTACAGATGGAGTATCTTGATATGTACCTTGTGCACTGGCCGTATGGAGATTTCTTAGGTACATGGAAAGCTTTGGAAGAATTGTATCATGAAGGAAAGATAAAAGCGATTGGAGTATGCAATTTTACCGTTGAAAAGTTGGAAGAACTGAAAGCTCATTCAACAGTTTTACCTGTTATCAATCAGATCGAACTGCATCCTGTATTCCAGCAGAAAGAATTACAGGTATACGACAGAGAAAATAATATTATAACACAACCTTGGAGTCCGCTAGGAAACGGTAATGCCAATCTTTTAAGCAATTCTGATCTGAAAGCTATTGCAGGAAAATATGGAAAAACGGTAGCACAGGTCATTTTAAGATGGCATCTGCAGGAAGGATTTGTAGTGATTCCAAAATCTGTGACACCATCCAGAATTGAAGAGAACTTTAATGTATTTGATTTTGAACTGACAGAAGATGAAATGAACACGGTCCGTTCTTTAGATACAGGAAAAAGGTTATTCTTTGACCCTAAAGATCCTGAATGGGAGCAGAAAATGTTAAATTCCGTAGCGGATATTTAA	MQKKTYTGQPVVTLNNRVDIPALGFGVWQMEDLKECENAVIKAIQTGYRMIDTAAIYQNETAVGAGVKNSGVNRDELFITSKVWVQDHGYEKTKSAFQRTLDRLQMEYLDMYLVHWPYGDFLGTWKALEELYHEGKIKAIGVCNFTVEKLEELKAHSTVLPVINQIELHPVFQQKELQVYDRENNIITQPWSPLGNGNANLLSNSDLKAIAGKYGKTVAQVILRWHLQEGFVVIPKSVTPSRIEENFNVFDFELTEDEMNTVRSLDTGKRLFFDPKDPEWEQKMLNSVADI	PGPT0001320_156	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
BMS003_03327	705			hypothetical protein	ATGACCGCAACAGAATTCATAGAAACACTTGCCTTATTTAAGAATGAAAAAGAGCTTAATAAAGTCGATAAATTTTTCAAAGGAAATGACGGAGCTACCAGAAGCTTTGGAGTGAAATTCGGGGATGTCTTTACTACGGCTAAGGAATTTTCGGAAATGCCTTTAGAGGAGATCAACAAGCTTCTTGACAGTGATTTTTATGAAGTAAGAATGGGAGCGGTAAGTATCATGGATTTTCAGGCGGGAAGCAAAGAAACTTCTGAAGAACGAAAGAAAGCCCTTTTTGAATTATATCTTAACCGTCATGACCGTCTTAATAACTGGGATTTTGTAGACAGGGCTGCCCGCAATATTATCGGAGAATATCTTATAGATAAACCGAGAGATATTTTATACCAACTTGCTCATTCCGACAGTCCGTGGGAAAGAAGAACAGCTATTGTAAGCACCCATGCATTTATCAGAAACCATGATGTAGAGGACACTTTTGCTATTGCAGAAATTCTTGTTTATGACCAGAATGAGCTTGTAAATAAAGCGGTAGGAAGCTGGATCCGTGAAGCTGGAAAAAAAGACAACAGGAAACTCCATTGTTTTCTCAGCACTTATGCTACAACAATGCCTTCTGTTACATTTTCCTATGCAACAGAAAAACTGGATCCGGAATCAAAATTATACTATAAAGAACTCAGAAAATCAAAATAA	MTATEFIETLALFKNEKELNKVDKFFKGNDGATRSFGVKFGDVFTTAKEFSEMPLEEINKLLDSDFYEVRMGAVSIMDFQAGSKETSEERKKALFELYLNRHDRLNNWDFVDRAARNIIGEYLIDKPRDILYQLAHSDSPWERRTAIVSTHAFIRNHDVEDTFAIAEILVYDQNELVNKAVGSWIREAGKKDNRKLHCFLSTYATTMPSVTFSYATEKLDPESKLYYKELRKSK				NA	NA	NA	NA	NA
BMS003_03328	1059	nmoA	COG2070	Nitronate monooxygenase	ATGTTTTGGTCGGATACAATCAGTAAAAAATTAGGGATACAATATCCTGTTATTCAGGCTCCGATGTTTGGAGTGAGTACGGTGGAAATGGCTGTTGCAGCAACAAAAGCAGCTTGTCTGGGATCTTTGGCGCTTGCTGATCTTTCCGCAGATCAGTCTGTAGAATTGATCAGAGAAATGAAGAAGAGGACAGATCAGCCCTTTGCGGCCAATATTTTTGTTCATGATATTCCTGAAGTGACAGATATTTTAAAAGAAAAATATGCTAAAACCAGGCAGTTTATAGAACAGCTGGCAAGAGAAAATGCTATAGAAGTACGTCTTCCGGATCTTGAAGAAATCAGTATCGGCAGTTATAAAGCACAGATAGATGCTGTTATCGAAGAAAACTGTAAAATTCTGAGTTTTACTTTTGGAAACCTGGATGATCAGAGTATTCAGAAGTTAAAGGAAAACGGAGTTACGCTTATCGGAACCTGCACTTCTGTAAAGGAAGCTTTACTGCTTGAAAATTCGGGGATTGATATCATTTGTGTTCAGGGGATTGAGGCGGGAGGACACAGAGGTAGTTTTGAAGCAGAAAATATTCCGCAGATCGGAGGATTATCTTTGTTGTCACAGATCTATGATCACGTAAAAGTTCCTTTGGTCTATGCTGGGGGAATCTATGGAGCGAAGACATTGCAGGCCGTTAAAGACCTGGGAGCACAAGGTTTTCAGGTGGGGAATCTTTTGTTGGCTTCTCAGGAAAGTGCTTTGCTGCCTTTTGAAAAAGAAAAACTTAAAAAGGTCAGAGAAGATGAAATTGTTTTAACAAAGAGTTTCTCCGGAAGGTATGCCAGAGGAGTGAAAAATCAATTTATAGAAGCGGTTGAAAACTCAGACTATATTTTACCTTATCCTTATCAGAACAAGTTGACGAATGCGCTAAGGAAAGCTGCAAAATCTCTGCAGAATCCGGAATTTGTATCAATCTGGCTGGGACAGTCTATACATCAGTACAGCGAACTTTCCACAGAAGAAATTCTGAAAAACCTGATCAGAGAATGTGAAAAATAA	MFWSDTISKKLGIQYPVIQAPMFGVSTVEMAVAATKAACLGSLALADLSADQSVELIREMKKRTDQPFAANIFVHDIPEVTDILKEKYAKTRQFIEQLARENAIEVRLPDLEEISIGSYKAQIDAVIEENCKILSFTFGNLDDQSIQKLKENGVTLIGTCTSVKEALLLENSGIDIICVQGIEAGGHRGSFEAENIPQIGGLSLLSQIYDHVKVPLVYAGGIYGAKTLQAVKDLGAQGFQVGNLLLASQESALLPFEKEKLKKVREDEIVLTKSFSGRYARGVKNQFIEAVENSDYILPYPYQNKLTNALRKAAKSLQNPEFVSIWLGQSIHQYSELSTEEILKNLIRECEK	PGPT0006800_1899	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
BMS003_03329	1338	murC_2		UDP-N-acetylmuramate--L-alanine ligase	TTGAGAACCCACTTCATTGCCATTGGCGGAAGCGCCATGCATAATCTTGCGATTGCATTAAAAGACAAAGGATATCAGGTGACAGGCTCTGATGACGCTATTTTCGAGCCTTCAAAATCCAGACTGGAAAAGAAAGGAATTCTTCCTCAGGAAATGGGCTGGTTCCCGGAAAAAATCACACAGGATATAGATGCTGTTATTCTTGGAATGCATGCACATCAGGACAATCCTGAGCTGGCAAGAGCAAAAGAGCTGGGTCTGAAAATATATTCTTATCCTGAATTTCTTTACGAGCAATCAAAGAATAAAACAAGAGTTGTCATTGCAGGATCACATGGTAAAACAACTATTACCTCAATGATTCTTCACGTCCTGAATTTTCATCAGAAAGATGTAGATTTTATGGTAGGTGCACAGCTTGAAGGTTTCGACTGTATGGTAAAACTTACTCAGGAAAATGATTTCATGGTATTGGAAGGAGATGAGTATCTTTCTTCCCCTATAGATCTTCGTTCGAAATTTTTACTGTATCAGCCGAATATTGCTTTAATGAGCGGTATTGCATGGGATCATATTAATGTTTTCAAAACGTTTGATGATTATATAGATCAGTTCAGAAAATTTGTGGCAAGCATTACAGCAGGCGGAGTTCTGGTATACAATGAAGAAGATCCCGAAGTAGTGAAGGTCGTGGAAAATGCAGAGAACTATTTCAGAAAGATTCCTTATAAAACTCCTGAATACGAAATCAATAACGGTAAGGTATATTTAAAAACCGAAATGGGTGATGTTCCTCTTTCTGTTTTTGGAGCACATAACCTTTTGAATATGGAGGGTGCAAGACATATCTGCCAGCAGCTGGGTATCATGGATGAAGACTTCTATGAGGCTATTATGAGTTTCAAAGGGGCATCCAAACGTCTTGAAAAAGTAGAAAGAGAAGATAAAGGAACGCTTTATAAAGATTTTGCCCATGCACCCAGTAAAGTAAAGGCAGCTGTAAAAGCTTTTACAGAACAATTTAAAAATGATAAAAAACATGGATTTCTGGAGCTTCACACCTATTCCAGTTTAAATCCTGCTTTCCTGGAGCAGTATGATCATGCTATGGATGGTCTGGATGATGCAGTCGTTTTCTATTCGGAAGATGCATTGAAAATCAAGAGAATGGAACCTATCTCTCCGGAGTTCATCAAAGAAAAATTCAAAAATGAAAAATTAAGGGTTTTCACGAATGCTGAAGATCTTCATGCTTACTGGAATACATTAGATAAAACAGATGGTGTTTATCTGATGATGAGTTCCGGAAATTTTGGTGGCCTTGATTTAACAAAATAA	MRTHFIAIGGSAMHNLAIALKDKGYQVTGSDDAIFEPSKSRLEKKGILPQEMGWFPEKITQDIDAVILGMHAHQDNPELARAKELGLKIYSYPEFLYEQSKNKTRVVIAGSHGKTTITSMILHVLNFHQKDVDFMVGAQLEGFDCMVKLTQENDFMVLEGDEYLSSPIDLRSKFLLYQPNIALMSGIAWDHINVFKTFDDYIDQFRKFVASITAGGVLVYNEEDPEVVKVVENAENYFRKIPYKTPEYEINNGKVYLKTEMGDVPLSVFGAHNLLNMEGARHICQQLGIMDEDFYEAIMSFKGASKRLEKVEREDKGTLYKDFAHAPSKVKAAVKAFTEQFKNDKKHGFLELHTYSSLNPAFLEQYDHAMDGLDDAVVFYSEDALKIKRMEPISPEFIKEKFKNEKLRVFTNAEDLHAYWNTLDKTDGVYLMMSSGNFGGLDLTK	PGPT0023975_1731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_LIGASES,PGPT0023975-mpl-K02558	NA	NA
BMS003_03330	438			hypothetical protein	ATGAACAAAATACTTGGAATTTTATTTGCAATCATAGTATTAGTTTCATGCAACAGCCAAAAGGTATATTCGGATTTTGATATCAGCTATTCGAAAAGCGGAGGCTATGCACCTGTATATGAAAATATGCTTATAAAAGGAAACAGTGTACACTACTCTTTTGAAGGGCAGGGTAAGAAATATAAAAAGGATTTTAAAATTTCTGATGAAGATCTGAAAAAACTGGATCAGATTCTTTCTCAGAATAACTTCCGAAGAATACAGGAAGACCGTAAAAAACTGTACGACCATATTTCAACGTCCATCAATATCAAGAAAGGTCCCAATGAAGGCAGTAAAACGGATGCCAGCATGATCATGCCGAATTACCAGACCAATTGGAATAATATTCTTGAGGCTTTCCAACAGATTATTAATGCTAATATTAAAAAACAGTAA	MNKILGILFAIIVLVSCNSQKVYSDFDISYSKSGGYAPVYENMLIKGNSVHYSFEGQGKKYKKDFKISDEDLKKLDQILSQNNFRRIQEDRKKLYDHISTSINIKKGPNEGSKTDASMIMPNYQTNWNNILEAFQQIINANIKKQ				NA	NA	NA	NA	NA
BMS003_03331	807			hypothetical protein	ATGGCGAAGAAAAATATTTTCACCGATGCATTCGGGACACCTTATTTTTTAAAAAGGTTTATTATTTTTATTTTAGGAATTGTATCTTACAGAAGATTCAATGGCTTTAATAAGTTAAAAATAACCGGTACGGAACACCTTGTGGATCTTCCGGACTCTAATGTACTTTTTGTATCCAACCATCAGACCTATTTTGCAGATGTGGCAGCAATGTACCATGCCTTCTGTGCTGTGAACAACGGATATTTAAACACAATAAAAAACCCGATCTACCTGCTGAACCCAAAGATTGATTTTTATTATGTAGCCGCAGAAGAAACCATGAATAAAGGTATTCTTCCCAAAATTTTCAAAATTGCAGGGGCTGTAACGGTAAAAAGAACATGGCGAGCAGAAGGAAAAAATGTCAACAGAATGGTGGACATGAGTGAGGTAGATAATATTATGAAAGCATTGGACAATGGCTGGGTAGCTACTTTCCCTCAAGGAACTACATCAGCTTTTGCACAGGGACGAAGAGGAACTGCCAAGCTGGTAAAAAATCAGCGCCCTATTGTAATTCCTATTAAAATAAACGGATTCAGAAGAGCTTTCGATAAAAAAGGACTCCGCGTAAAGGTTACCGGTGTAAAGCCTACGATGGAATTCAAAGCTCCTTTGGATATTGATTATGATAATGAAAAAGCACCGGAAATTTTATTGAAAATCATGACTGCTATTGAACAGACAGAAGATTTCAACCTATTACACAATTATGATGAAGAACTTAAAGCTAAAAAATTAGAACAAAAGGACTCAAATAATTAA	MAKKNIFTDAFGTPYFLKRFIIFILGIVSYRRFNGFNKLKITGTEHLVDLPDSNVLFVSNHQTYFADVAAMYHAFCAVNNGYLNTIKNPIYLLNPKIDFYYVAAEETMNKGILPKIFKIAGAVTVKRTWRAEGKNVNRMVDMSEVDNIMKALDNGWVATFPQGTTSAFAQGRRGTAKLVKNQRPIVIPIKINGFRRAFDKKGLRVKVTGVKPTMEFKAPLDIDYDNEKAPEILLKIMTAIEQTEDFNLLHNYDEELKAKKLEQKDSNN				NA	NA	NA	NA	NA
BMS003_03332	630	nudL		putative Nudix hydrolase NudL	ATGGAAAATTTTGGAAAAGATTTATTACGAAAAATAAAAAGTGTGGAACTTCCCGGTGAACATGCGCATGGGCTCTTCTCACCTCCCTACCGCCCTGTTTTTACTTATGATGAAGTATTGGAAAAAAATCCAAAATTTGCAGCGGTCAATATAGTTCTCTATTTAAAAGACAACGAGTGGTATTTTCCATTGATTCAAAGGACTATTAATGAACATGACAGACACAGCGGCCAGATATCCCTGCCTGGCGGAAAGCGTGAGGAAATGGATAAAGACTTTGCTGAAACTGCAGTTCGTGAAACCTCTGAAGAAATCGGAATAGATAAACATTATGTACGGATCATCAGAGAGATGTCTCCTATCTATATACCGCCCAGCAACTTTTATGTATATCCCTATATTTCTTATACTAAAAAGGATCCTACCTTTATTCTGCAGCAGACGGAAGCTGTGGAAACCATAGAATTTCCTATTACCTCCTTCCTAAACCTGTCGGATATACCCGAAATTATGGCTCTTCCCGGTGCAAGCGGACACGAAGTTCCTGTCATCAATTTCAACGGATACATTATCTGGGGTGCTACAGCAATGATATTAAGTGAATTCAGCCAGTTGCTGAAAAAAATGTAA	MENFGKDLLRKIKSVELPGEHAHGLFSPPYRPVFTYDEVLEKNPKFAAVNIVLYLKDNEWYFPLIQRTINEHDRHSGQISLPGGKREEMDKDFAETAVRETSEEIGIDKHYVRIIREMSPIYIPPSNFYVYPYISYTKKDPTFILQQTEAVETIEFPITSFLNLSDIPEIMALPGASGHEVPVINFNGYIIWGATAMILSEFSQLLKKM				NA	NA	NA	NA	NA
BMS003_03333	819			hypothetical protein	ATGAAAAATTTACTTACAGGTGTACTTACACTATTCGCCATGAGTTTCGGATTTGCACAATTCAATATTGATGTAACTACCCAAACAGGAAACCTGAACGTTGCTACTGTAGACCAGACTGGTCTTTTGAACATCAATTCTCTTACACAGACAGGGAATCGTAACACTGCAGATATAGATCAGGTTGGGATTTTGAATACCAATAATGCACAAAGTATCGGAAACAGAAACTCTGTAGATGTGGATCAGGTGGGTATAGGAAACTCAAATGAAGTAATGCAGATGGGTAACAGAAACTCTGCTTCAACATGGCAGCTTGGAGTACTTAACTCTACGGAACAAACTCAGATCGGAAGAAGAAATGATGCTTCTTCAGTACAGGTCGGGTTAGGAAACTCTGTTGTTCAATACCAGGACGGAAGAAGAAATGATGCTTCGGCTATTCAGCTAGGTTGGGGTAATGAAGCTTATCAGATTCAGCTTGGAAGAAGAAATGATGCCAGCGGAATTCAGGTAGGTGCTAATAATATTCTTGTTCAGTATCAGGATGGTAATGATAACAGTGCTACTCACGCACAGGCAGGAAACGGAAATATAGCAGCTTCAGTTCAGGTAGGAGATGATAATACTTCTGTAGGATTACAGACAGGTAATGCTAACCAGCTTTATCAGTTCCAGGTAGGAGATTCTAATACAGCTATTGACCTTCAAATGGGTAATGGTAACTTTACCTGGGTAGCTCAGAGCGGAGATTCTCATATCCATTTAGGAACTCAGATGGGTAACGGAAACTCTATGATTGTGAATCAATCCAATTAG	MKNLLTGVLTLFAMSFGFAQFNIDVTTQTGNLNVATVDQTGLLNINSLTQTGNRNTADIDQVGILNTNNAQSIGNRNSVDVDQVGIGNSNEVMQMGNRNSASTWQLGVLNSTEQTQIGRRNDASSVQVGLGNSVVQYQDGRRNDASAIQLGWGNEAYQIQLGRRNDASGIQVGANNILVQYQDGNDNSATHAQAGNGNIAASVQVGDDNTSVGLQTGNANQLYQFQVGDSNTAIDLQMGNGNFTWVAQSGDSHIHLGTQMGNGNSMIVNQSN				NA	NA	NA	NA	NA
BMS003_03334	399			hypothetical protein	ATGTTTACTTTAAAATGGAGTGCTTTTGCTCTTTTCGCACTCATACGATTGCAGGCACAGGAAATAGACTGGGATAAGATCAACAGCAATACAATCTTTAATCTTATAGCCAGGCAGCAGACAGATCAGAGCTTTTATGGTTCCAATATCATCCAGATAGGTGATTATAACAATGCTGAGCTTTCTCTTAACATCCGAACCCATATTGTGGTAAAGCAGCTGGGAGATTTCAATACCCTGTATTTTATCAATTCATTTACAGATAAAGAAACAAAAGCTGCCGTTACTGCACAGGGAAACAATAATATTATTGATGTTACAGGAAGCAACAGTATTTCAGACGGAATTCAGATCAATGTAAAGGGAGATAATAAAACAGTTTTCATGCGAAATTACTAA	MFTLKWSAFALFALIRLQAQEIDWDKINSNTIFNLIARQQTDQSFYGSNIIQIGDYNNAELSLNIRTHIVVKQLGDFNTLYFINSFTDKETKAAVTAQGNNNIIDVTGSNSISDGIQINVKGDNKTVFMRNY				NA	NA	NA	NA	NA
BMS003_03335	735			hypothetical protein	ATGATGAAACTTTTATATCCCCTTAGCCTGAACATTTTTTTTGCCTTCCTGTCTGTATGGGGTTATGGACAGGAAGATAAAAAAATAAATGCCAGAATTGAGAGCAGTCTGCTTGAAAATCAGATTATACTGAAAGCGATTGTTATGAATAATACTACTGTTTATAAGGAGCTGAATTACCTTTTGGTTTCTATTAAAAAAGGAAATGGAGGAAATCTTTCAAACAATCAGCAGGGTGGCAAATTTTCAGTAAACCCCAATGAAGTTAAAATATTATCGGAGATCAGTGTAAATCTTGAAGCTAAAGATGCCTTGAAGGCTTTCCTTTACATCAGAGATGAAGAAACACAAACATTGATAGCCAAAGACAGCCTGGAACTGAATAGTGATCTCTTTAAAAAGAAAACTGCCAGAATAGAAGAAGATGCCGCCTATGAACTGAGAGGTCTTACCATTGATGAAACCAAAACCAAGGTGGGAAAAGACTTTTATGATCTGTTCTACATACAGTACAGCCAGCTTCCGGATAAGAGCAGCAGTGCGGTTACCATTACAGAGCTTCCTCTTCGTGGAACAAGTGGGCAGATCAATATCCGGATCGAGGATAAAATTATTTACAGTTTTATGACCAATCCCGCAGAAGATTACCTGAAAGAACAGCTGGCTTACAGCTTAAAGTATATCAGGGAATTTAATGCCAGGAAAAACCTTATTAAGAATGAATTCATCTACTAA	MMKLLYPLSLNIFFAFLSVWGYGQEDKKINARIESSLLENQIILKAIVMNNTTVYKELNYLLVSIKKGNGGNLSNNQQGGKFSVNPNEVKILSEISVNLEAKDALKAFLYIRDEETQTLIAKDSLELNSDLFKKKTARIEEDAAYELRGLTIDETKTKVGKDFYDLFYIQYSQLPDKSSSAVTITELPLRGTSGQINIRIEDKIIYSFMTNPAEDYLKEQLAYSLKYIREFNARKNLIKNEFIY				NA	NA	NA	NA	NA
BMS003_03336	411			hypothetical protein	ATGAAAACCTTTATCATTATTTTGACCTTTATCGCGGGTATTTTCTACGGAAAATCTCAGCAGCTCGTCTATAAACCGGTGAATCCGGCTTTCGGAGGAGATACGTTTAATTATCAGTGGCTTTTAAGCTCTGCGAATGCACAGAATCAATTTGATGAAAAAAATGATTACACAGATTTGCTAGATCGTGTAAATTCTCTTGACAGCTTTACCCAGAGTCTCAACAGACAAATTCTCAGTGAACTTTCAAGAAAACTGTTTGATGAACAGTTTGGTGATGGAAATTTAGAACCCGGGAATTACCTCTTTGGGTCCCTTTATTTACAGATTACCAATACTAATCAGGGACTTTTAATCAATATTTTGGATACCAGCAATGGCGATCAGTCCGAGATCGTAATCCCAAAATAG	MKTFIIILTFIAGIFYGKSQQLVYKPVNPAFGGDTFNYQWLLSSANAQNQFDEKNDYTDLLDRVNSLDSFTQSLNRQILSELSRKLFDEQFGDGNLEPGNYLFGSLYLQITNTNQGLLINILDTSNGDQSEIVIPK	PGPT0026230_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-CURLI_BIOSYNTHESIS,PGPT0026230-csgF-K04338	NA	NA
BMS003_03337	1365			hypothetical protein	ATGACAACCTACACTTACACCAGAATCTTTTTCTGTAGTTTCCTGCTATGTGTTCTGCAGGCTTGTAGCTCAATATTTGGTTTACCTTCGGATCCCGAAAAACCAACGATGGGAGAAGTTACCTCTTCTACCGCAGAATTGAAAAATCTTCCGCTTCCCAAAGAGAAGATTGTAATAGGAGTCTATAAATTCAGAGATCAGACCGGCCAGTACAAGCCTTCCGAAAACGGAAACAACTGGAGTACGGCAGTTCCCCAAGGTACCACTACCATTCTCATTAAAGCACTGGAAGACAGCCATTGGTTTATCCCTATTGAAAGGGAAAATATAGCTAATCTTCTTAATGAAAGACAAATCATCCGCTCCACACGTCAGGAGTACATAAAGGATGCAGACAAAAACAGCCAGGCGCTTCCCCCTCTTTTATACGCCGGAATTCTTCTTGAAGGCGGTGTCATTTCTTATGACAGCAATATTCTTACAGGAGGGCTTGGAGCCAGATATTTCGGTATCGGAGCTTCCACACAGTATCGCCAGGACAGAATTACCATTTATCTTCGTGCGGTTTCTACGCTTAACGGAGAGATTCTTAAAACTGTTTATACCTCAAAAACAATTCTTTCAACCAGCGTAAACGGAAGTTTTTTCAGATATATTGATACAGAAAGACTTCTGGAAGCTGAGGTAGGTCTCACTCAGAATGAGCCCGTGCAGCTTGCTGTAACCGAAGCCATTGAAAAAGCAGTAAAATCCCTTATCGTAGAAGGAATCAGAGATAAAATCTGGGGCAAAGCGGTAGATCCTAATGGACCCTACCAAACCTTAATCAATGAGTATAATAAAGAACAGGATCAAAATGATGGGAGGGTAATAGGAGGCAGATACCCGGATAATTACAGACAGAAGTTTTCCGTATTTGCCAATGTGGAAGGGCAGAAAGTAAGAGATGACTATGTAGACTCTAAAATGAATGCCGGCGGAAAAATAGGATTCAAATATTTCCTTACTCCCTATCTGAATGTGGAAATAAACGGTAATTATTTTACGCTTGAAAATTCAAATATTGTAAAAAGAAACTATTATGGCCCTGAAGTGAATCTGGAATACCTTCTTTTTCCGAAATACAGATTCAGTCCCTACCTATATGGTGGAGCAGGAGCCATGTATTCAAAATATAAACCTCAATATAAAGCACAGTTCGGTGGAGGGTTGGAATATATGATCAGCCGGAATGTTTCACTGAGAGCTTCCGCCCAATATGACCTGGGTTTCAAAGATAACTGGGAAGGTCTTGTGAACGGAAAAAGAAAAGATCAGGCTTTACGATTTGGTATAGGAATCAATTTTTACTTCGGAAACAAATAA	MTTYTYTRIFFCSFLLCVLQACSSIFGLPSDPEKPTMGEVTSSTAELKNLPLPKEKIVIGVYKFRDQTGQYKPSENGNNWSTAVPQGTTTILIKALEDSHWFIPIERENIANLLNERQIIRSTRQEYIKDADKNSQALPPLLYAGILLEGGVISYDSNILTGGLGARYFGIGASTQYRQDRITIYLRAVSTLNGEILKTVYTSKTILSTSVNGSFFRYIDTERLLEAEVGLTQNEPVQLAVTEAIEKAVKSLIVEGIRDKIWGKAVDPNGPYQTLINEYNKEQDQNDGRVIGGRYPDNYRQKFSVFANVEGQKVRDDYVDSKMNAGGKIGFKYFLTPYLNVEINGNYFTLENSNIVKRNYYGPEVNLEYLLFPKYRFSPYLYGGAGAMYSKYKPQYKAQFGGGLEYMISRNVSLRASAQYDLGFKDNWEGLVNGKRKDQALRFGIGINFYFGNK	PGPT0026235_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-CURLI_BIOSYNTHESIS,PGPT0026235-csgG-K06214	NA	NA
BMS003_03338	1512	tolB		Tol-Pal system protein TolB	ATGAAAACTTTAATTAAAATACTCAGCATATTCATCTTTGCTTTTTGTCTGTTTTCATGCAGTGAAGATCTTGTAGAACAGGCACAAACAGGAATGTTAAAAGGAAAAGTCGTAAAAAGAGGCAGTAATGTGCCGATTCCTAACGTGAAAATTTTTACCAGCCCTACGACACAAACGGTATTCAGTGGTACAGACGGTTCATTTGAAATCGCAGCCATGCCGGTAGGAAATTATTCTGTGAAAGCAGAACTTTCAGGATATATCACAAGCTTTCAGTCTGTCAATATACAAAACGAAAATCAGGTGGTGACGGTAGTTTTTGAGATGGATGATGACACATCATTGAACTCTCCTCCGGATACCCCACAATTGCTAAGTCCGATAGATAACGCAGTCAATCAACCCTTGAGCGTAGAATTAACCTGGAGCGCTACGGATCCGGATACCGCGGATGTCTTAAAATACAGTTTGACAATTAAAAATAATCTTGACACTAATGTGATTCAGGTTAATGATTTGACGGCTAACCACTATACGCTGTCAAATCTGAAGTTTGGTGTAAGTTACTTCTGGCAGGTGTCTGTTTCGGACGGCATTCACCAGCCAGTTTTAAGCTCTATCAGTAAATTTACCACTAATACAGTTCCGGCTAACAGGTATCATTATACCCAAAAACAGAATGGAAATTTCGTTATCATTTCCAGCGATGATCAGGGAAATAACTTCCAGTTTACAGATTCTTCCTACAACAGCTGGCGGCCACGTAAAAATAATAATGCAGGTCTCGTTGCATTCCTTCGTACAGAAGGCGGTAGTACCCATATATATACTGCCAATCCTGATGGTTCCAATCCTTTTAAAGTGACAACAGTTCCTGTGGCAGGCTTTAATAACTATGAAATGGATTTTTCCTGGAGTACCAATGGTAAAGAGATTATTTATGCCAATTTCAATAAACTGTACAGGATTAATAAAGACGGCAGCGGTCTGGCTTTGGTATATACAACTCCGGATGGAAGCATGATTTCCGAATGCGACTGGAGCTATGACGGAAGCAAAATAGCACTGAAAACCAATGACTATAATGGATATAACACCAAAATCTATGTAATAGACATGATGGGAAATATTCTTAAAACCATATTATCCGGTTCTGCAGGAGCCAGCGGTGGTTTGAATTTTTCTGTAGACGGACAGCTTTTGCTATTTACCCGGGATGTCTCAGGATATATAGATGGAAGCGGAAATTATCGTCAGTTGGATTCTCATATCTTCATCTATAATCTGGTAACCGATGTTGTAAGTGATATTTCTGCGGAAAGCGAAAAAGTGCTGGGAACCAATGATCTTGATCCGAGATTCTCACCAAACAATGCACAGGTCATTTTTATGAATACCTCCAATGACAATATTTCGCAGAGAAATATCATGGTGATTGATCTGAGCAGCAGCCTGACAGATCTTACACGTACTTCACTTTTCAGCAACGGAGAAATGCCGGATTACGAATAA	MKTLIKILSIFIFAFCLFSCSEDLVEQAQTGMLKGKVVKRGSNVPIPNVKIFTSPTTQTVFSGTDGSFEIAAMPVGNYSVKAELSGYITSFQSVNIQNENQVVTVVFEMDDDTSLNSPPDTPQLLSPIDNAVNQPLSVELTWSATDPDTADVLKYSLTIKNNLDTNVIQVNDLTANHYTLSNLKFGVSYFWQVSVSDGIHQPVLSSISKFTTNTVPANRYHYTQKQNGNFVIISSDDQGNNFQFTDSSYNSWRPRKNNNAGLVAFLRTEGGSTHIYTANPDGSNPFKVTTVPVAGFNNYEMDFSWSTNGKEIIYANFNKLYRINKDGSGLALVYTTPDGSMISECDWSYDGSKIALKTNDYNGYNTKIYVIDMMGNILKTILSGSAGASGGLNFSVDGQLLLFTRDVSGYIDGSGNYRQLDSHIFIYNLVTDVVSDISAESEKVLGTNDLDPRFSPNNAQVIFMNTSNDNISQRNIMVIDLSSSLTDLTRTSLFSNGEMPDYE				NA	NA	NA	NA	NA
BMS003_03339	651	nreC_3	COG2197	Oxygen regulatory protein NreC	ATGATGAAACCAAGATTGACAATTTTTGATGAACCCATGCTGTACACAGAAGGATTATCAAGACTGCTTAACCAAAGCAGTATTTTTAGTACCATTGAAATTTATAATTCTTTAGAACCCTTCTCCAAACATTTAAAAGATCAGCCTCCGGAAATGCTTATCATGAGTGCCAATATGCTCATGCTGACTGAGCTCTGCAAACTGACAGAAGATATCATTTCCGAACATCAAAATATGAAAATCATCATCATAGGAAATTCTTATGATGTTATCGACATCCGGAAACTTTTCAACAAAGGAATTAAGGGTTATCTGGACAAAAACTGCACCTATGATGAATTCCTGAAATCTATCAATATTTTACTCCTTAATGAAATCTATATCTGTGATCACGCCAAGGAAAAAATGATCAGCTTCATCAGCAGCGAACAGGAAAAACCCAATCCTCATATTAAAGAGCCTCTTACCCGCCGCGAAATGGAAATTCTAAAACTGATATGCGACGGGAACAGCAGTAAAGATATCTCTGAAAAGCTTTTTATAAGCATCAATACGGTAGAAACACATAGAAAAAGAATCCTTTTGAAACTCAATGCAAAAAATTCAGTCGGAATTGTAAAATATGCTATAGAGAATCATATTATCGACTGA	MMKPRLTIFDEPMLYTEGLSRLLNQSSIFSTIEIYNSLEPFSKHLKDQPPEMLIMSANMLMLTELCKLTEDIISEHQNMKIIIIGNSYDVIDIRKLFNKGIKGYLDKNCTYDEFLKSINILLLNEIYICDHAKEKMISFISSEQEKPNPHIKEPLTRREMEILKLICDGNSSKDISEKLFISINTVETHRKRILLKLNAKNSVGIVKYAIENHIID	PGPT0000530_226	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696	NA	NA
BMS003_03340	468			hypothetical protein	ATGAGTAAACACCATTACAAAGTAACTATACAATGGACAGGTAATAAAGGAACAGGAACCAGTGGCTATAGAGATTACGAAAGAAGCCATACAATTTCAGCAGAAAATAAAACTATTATTGAAGGTTCGTCTGATCCGGCGTTCCGTGGTGATAAAACGAAGCACAATCCAGAAGATATGCTGCTATCTTCACTTTCGTCATGTCATATGTTATGGTATCTGCATTTTTGTTCTGAAGCTGGCATTATAGTAACGGATTACAGTGATGAAGCAACAGGAATAATGACAGAAGCAACCAGTGGAAGCGGGCAATTTACAGAAGCAACCCTGCATCCAACAGTAACTGTTGCGGAAGAATCTATGAAGGAAAAAGCAGAACAGCTTCATCACAAAGCCAATGAATTCTGTTTCATAGCCAACTCTGTTAACTTCCCGGTTAAGCATATCCCTACCACGTTAGTTAAGTGA	MSKHHYKVTIQWTGNKGTGTSGYRDYERSHTISAENKTIIEGSSDPAFRGDKTKHNPEDMLLSSLSSCHMLWYLHFCSEAGIIVTDYSDEATGIMTEATSGSGQFTEATLHPTVTVAEESMKEKAEQLHHKANEFCFIANSVNFPVKHIPTTLVK				NA	NA	NA	NA	NA
BMS003_03341	930			hypothetical protein	ATGAAAACTCCACTGAAACCGTTCTTTTTTTTAATTGCAGGATTAGTATCTGCCCAAAAAGCCAATGAAGTAACCCTATTCAATAAAGATCTTAACAGGTTTCTCAATGTAAGAGACCTCTCTGTTTCCAAAGATGGCTCTGAAGCTTATTTTACCATACAGAGCCCCAATCAGGAAGTCTCACATATTGCCTACATCAGGAAGAATAAGAAAAATATCTGGTCAAAGCCTGAGCTGATCTCATTTAACGATTCATTTTCATATATGGAGCCTTTTCTTTCGTATGATGGAAAGCGTCTTTATTTTGCTTCAGACCGACCTCTGAATAAAAACCAAATCTTAAAGAAAGATTTTGACATCTGGTATATTGAAAGAAAAAATGACACCTCTGAATGGTCTGAGCCTGTCAATATGGGAAAACCGGTCAATTCTGAGCTAAATGAATTCTACCCTTCCCTATCTGAAAATAATAATCTATACTTCACCATGGAAGCTCCCTCAGGAATGGGAAAAGATGATATCTACTACTGTAAATGGGAAAATAATACTTTTTCCTCACCAGAGTTGCTAAACGAAAATATCAACAGCAGCGGATATGAATTCAACGCCTTCATTGCCCCAAAAGAAAACTTTATCATCTTTACAAAATATAATGAGAAAGGAGGACTGGGCAGCGGAGACCTTTATATATCGAAAAAATCGGCAGATGGGAAATGGCAGAAAGCTGAAAATCTGGGATCACCGGTCAATACTAAGTTTATGGAATACTGCCCTTTTTATGATGAAAAAACTCATACCTTATATTTTACCAGCAGGAGAAGTAATTTACATCCAAAAGAATTCAAAGATATCAACGATTTCCAGGAATACACCAGTGAAGGGGAAAATGGCCTGAGTAAAATTTATAAGGTAACATTAAATATCAAATAA	MKTPLKPFFFLIAGLVSAQKANEVTLFNKDLNRFLNVRDLSVSKDGSEAYFTIQSPNQEVSHIAYIRKNKKNIWSKPELISFNDSFSYMEPFLSYDGKRLYFASDRPLNKNQILKKDFDIWYIERKNDTSEWSEPVNMGKPVNSELNEFYPSLSENNNLYFTMEAPSGMGKDDIYYCKWENNTFSSPELLNENINSSGYEFNAFIAPKENFIIFTKYNEKGGLGSGDLYISKKSADGKWQKAENLGSPVNTKFMEYCPFYDEKTHTLYFTSRRSNLHPKEFKDINDFQEYTSEGENGLSKIYKVTLNIK				NA	NA	NA	NA	NA
BMS003_03342	1560	rng	COG1530	Ribonuclease G	ATGAAGAAAGAACTAATAGTTTCGCATGAAGATGATCTTACAAAGATTGCACTGCTGGAAGACGGAAGACTATGTGAACTTCATGAGCAAGAGGACAAAAGCGATTTTATAGTTGGAGATCTGTTTATAGGAAAAGTAAAAAAACTTGCACCTAACCTGAATGCCGCATTCGTGAATATCGGATATGACAAGGATGCATTTCTGCATTATCAGGATCTGGGACCGCAGTATCTTACATACAGAAAGTTTTTAAAAGATACTATTTCTAAAAAACAAAGCACTTCAAGCTTAAAAAATTTCGAGATACAACCCGAAATAGACAAAAACGGAACGGTAGACAAGGTAATTGCCAAAGATGATCTGGTTCTGCTGCAAATAACCAAAGAACCCATTTCTACAAAAGGCCCAAGAATTTCTACCCAGATCTCACTCACAGGGCGTTTTCTGGTTTTAATTCCTTTCGACAATAAAGTTTCCATCTCCAAAAAGATCAGAAGTACTGAGGAAAAGGAAAGACTTAGAACCTTAATAGATAGTATTAAGCCAGAAGGTTTCGGAGTTATTATCAGAACCGTAGCCGAAGGAAAAAAAGTAGCAGACCTTCATAATGACATGAACCAGCTGGTTCAGAAATGGGAAAGTACTTTTAAAAACATCCAGAGAAATAAAGTTCCGTCCAAAGTTTTAAGCGAAGAAGACAAAGCTTCAGCTATTTTAAGAGACAATTTTAATCAGGATTTCGTGAATATCATCTGTGATGATGAACAAATGGTAAACGAAATGAAAAATTACGTGGAAGTAATTGCCCCTGAAAAGAAAAATATTGTCCAGTTTTATGATTCCCATATTCCTCTTCTGGAATATTACAATGTTGAAAAACAGCTTAAACAGAGCTTCGGAAAACACGTAAACATCCCAAGTTCCAAAGGAGCCTATCTTGTTATTGAACACACAGAAGCACTTCATGTAGTTGATGTGAACTCCGGTAATAATATTACCACCGGAACTGCAGTCAACAAAGAGCACGCACTGAAAGTGAACAAAATGGCTGCCACAGAAATCGCAAGACAGCTTCGCCTCCGGGATATGGGAGGCATCATCGTTATCGATTTCATAGACATGCCAAATTCTGATCACAGAAGAGATCTTTATGAGCATCTGAAAGAGGAAATGAAGCGCGACAAAGCCCGCCACAAGATCCTCCCTCCAAGTAAATTTGGCCTGATCCAGATCACCAGACAAAGAAACCGTCCGGAAAAACAGATCGATACCAAAGAAGAAAATCCGAATAAAGACGGAGAAATTGTAGCTCCCATTGTTATCGTGGAAAGAATGGGTGAAACCTTAAGAAACATCCTGCAGAAAGAAAAAGGAAAAATCTACCTGCATGTACATCCATTTGTGGAAGCCTACCTTACGAAAGGCATTAAAAGCATCCAGATGAAATGGTTTATCAAATACAAAAAATGGGTAACCATTGTTCCAAGAGATTCATTTAAATATCTGGAATACAAAATCTACAATGCCCAAAAAGAAGAATTGATAGAATTCTCCAATTAA	MKKELIVSHEDDLTKIALLEDGRLCELHEQEDKSDFIVGDLFIGKVKKLAPNLNAAFVNIGYDKDAFLHYQDLGPQYLTYRKFLKDTISKKQSTSSLKNFEIQPEIDKNGTVDKVIAKDDLVLLQITKEPISTKGPRISTQISLTGRFLVLIPFDNKVSISKKIRSTEEKERLRTLIDSIKPEGFGVIIRTVAEGKKVADLHNDMNQLVQKWESTFKNIQRNKVPSKVLSEEDKASAILRDNFNQDFVNIICDDEQMVNEMKNYVEVIAPEKKNIVQFYDSHIPLLEYYNVEKQLKQSFGKHVNIPSSKGAYLVIEHTEALHVVDVNSGNNITTGTAVNKEHALKVNKMAATEIARQLRLRDMGGIIVIDFIDMPNSDHRRDLYEHLKEEMKRDKARHKILPPSKFGLIQITRQRNRPEKQIDTKEENPNKDGEIVAPIVIVERMGETLRNILQKEKGKIYLHVHPFVEAYLTKGIKSIQMKWFIKYKKWVTIVPRDSFKYLEYKIYNAQKEELIEFSN				NA	NA	NA	NA	NA
BMS003_03343	90			hypothetical protein	ATGCCAAGCGGAAAGAAAAGAAAAAGACACAAGGTTGCGACTCACAAAAGAAAGAAAAGAAGAAGAGCAAACAGACATAAGAAAAAATAA	MPSGKKRKRHKVATHKRKKRRRANRHKKK				NA	NA	NA	NA	NA
BMS003_03344	291	hup		DNA-binding protein HU	ATGACAAAGGCAGAATTGGTAAACACCATCTCAAATAAGTTGGGAACAGAAAAGAATGAAACACAGAAAGTTGTAGAAGCTTTTATGCAGGAGATCAGAACTTCTATGTATAATGGGGATAACGTTTATCTAAGAGGTTTTGGATCTTTTATCATTAAAACAAGAGCTGCTAAAACAGGAAGAAATATTTCTAAAAACACTGCAATTGAGATTCCTGCTCATAACATTCCTGCTTTCAAACCTTCAAAATCTTTTGTAGAGAAAGTAAAAACTAAAGTTGCAGTAAAATAA	MTKAELVNTISNKLGTEKNETQKVVEAFMQEIRTSMYNGDNVYLRGFGSFIIKTRAAKTGRNISKNTAIEIPAHNIPAFKPSKSFVEKVKTKVAVK				NA	NA	NA	NA	NA
BMS003_03345	672	evgA		DNA-binding transcriptional activator EvgA	ATGAGTAAAATATTATCTAATACCGTACGTTTTTCCATTGCTGACAGTGATTTTTATTTTAAAAAAATAATGATCAAAACCCTTATGGAAAATCCTTTCTATATGCTTCTGAATGACTGTAATAATGGGCACGAACTTATAAACAGAATCTATAGAAGACAGGAAGACGTATTCATCATTGAACTCTTCATGCCGGTATTGAGCGGAATTGAAGCCATCAAGTACATCAGAAAAAACAATACAGAGACTCCTATTATTACCTATTCTGGTACTTACCAGGAAGATATGGCTGAAATTCTGTCAAAGATTCCCAATATCTATTACTGTCAGAAAAAAAGTACCGTTATAAAGGATATCATCAAAGGAAGTATTGCCTCTGATGATTTTGATTACCATGCCTATTCTAAAGAATGGGAGCAGCAGCCACTTGCCGTTCAGGAATATATGGACAGACAGAAAAAGGGGCAGGAAGAGCTTTCTCCGGCAGAAATACAGCTGATGAGATTCTGCTATGAAGGTTTCAGTAATAAAGAAATTGCAGAAAAGCTCAACCTGAGTACAAGAACTATTGACACTTATATCAACAGACTTACAGAAAAACTGGGACTAAAAACCAAGCTTCACCTCATTCGTTTCTGTGTAGAAAACGGATATTATAATTCCAGTTTATAA	MSKILSNTVRFSIADSDFYFKKIMIKTLMENPFYMLLNDCNNGHELINRIYRRQEDVFIIELFMPVLSGIEAIKYIRKNNTETPIITYSGTYQEDMAEILSKIPNIYYCQKKSTVIKDIIKGSIASDDFDYHAYSKEWEQQPLAVQEYMDRQKKGQEELSPAEIQLMRFCYEGFSNKEIAEKLNLSTRTIDTYINRLTEKLGLKTKLHLIRFCVENGYYNSSL				NA	NA	NA	NA	NA
BMS003_03346	537			hypothetical protein	ATGTCTTCTAACAGGGAAAAAAAATTAAACAAATCTGACGTCAGAATAGGCATTTGGAAGTTTATACTGTCTTTTGTCGTTTTGTCGGTTGTCTCTTTTACATGTTTATTTCTCTTCTTTAAGAGTTATGATATACAACGTGAGGGGATCAGCCGTGAAGCTGAAGCCTATAAAGAACTGATGCTTCGGAGTGATGTTCTGAGAGACCACATTGATGATATTTATGACAAAATGAACCAGCTTAGCATTAATAAGGTGGATAATGACATATTTCTCAGAACCAGCATTATGGACAATGTAAGAGATGCTAAAAATATTATGGGAAAAGACAGTGTGCAAAGCTTTAAGCATTATGCTATACTGATGAAGCAGATCGTACCCATGATGACTCTGAAAGCTAAGATCATTGAGGTAGAATACCAGAAGAAAACCGTATTAAGGGATCTGGATGAATGCATGGGTAAAATAAAAGTAACGAACAACGAGCTTAGAAAAGACCCTACAAGAAATTTCACAGGACGTAAAAGAAGAAGATAA	MSSNREKKLNKSDVRIGIWKFILSFVVLSVVSFTCLFLFFKSYDIQREGISREAEAYKELMLRSDVLRDHIDDIYDKMNQLSINKVDNDIFLRTSIMDNVRDAKNIMGKDSVQSFKHYAILMKQIVPMMTLKAKIIEVEYQKKTVLRDLDECMGKIKVTNNELRKDPTRNFTGRKRRR				NA	NA	NA	NA	NA
BMS003_03347	525			hypothetical protein	ATGCAATCACAAATTACACTATCTAAGAAAGAAAGGCATTATCAGTTTTTTTATTTAATATTGATGCTGGTAGCTGCAATGTTATTTTTAGGGATACTATTTTTAAAGGGATTTGTATCTCCTTTTTCTGATGAAGATGTAAGAGGAATTCAGAATCTTGAACAGAAAGCTGAATTTGAACAGCACCAAAAGATAGTCCTCCCAATCATGGACAGTACATATTCTATGATAACCAGGCTTACTAACGATGGACCCCAGCCTTTTGTGGAAAATAATATTCAGTTAGGGGTTAATGATCTTAACAGCTATTTTAACGGCACTGATGTAGTAGATATCCGGAAAGATGCCTACCCTCAGATTGCTAAATTCTATAAAATGTACTTCGACGACAAAAAAGTCATTTCAACCACCACAGAAGATATCAAAATTTTCCAGAAACAGGTAGATGAATGCAGAATCGGATTCAAAGATAAGCAGAACAAGCTTTATCAGCGTGAGCAGGATCTGAAAGCGAGAATGCAGTAA	MQSQITLSKKERHYQFFYLILMLVAAMLFLGILFLKGFVSPFSDEDVRGIQNLEQKAEFEQHQKIVLPIMDSTYSMITRLTNDGPQPFVENNIQLGVNDLNSYFNGTDVVDIRKDAYPQIAKFYKMYFDDKKVISTTTEDIKIFQKQVDECRIGFKDKQNKLYQREQDLKARMQ				NA	NA	NA	NA	NA
BMS003_03348	912			hypothetical protein	ATGAATTATTTTCAAAAGAACAAAAAGAACATTATTATCGGTGTTGTTGCAACTCTGCTCATCGCAGCACTTGTTGCTCTATGGCTGCAGAAAAAGGTAATCCATTCTGCTGATGATATTGTTGGGGTGGTTTATCCGTCTTCACTGGCGGTAGGAGACACGCTTTTATTCGAAGACAAGACCCAGTTTGCCAAAACCAAAAGATGGAATTTCGGAGACGGTACTACTTCAGACAAAAACAGCGGGATTCACTTCTATAATAAACCGGGATACTACCAGGTAAGCTTGATTGTGGACAACAAGTACACAAAATCTTTCCCTGTAATGGTAAGTGCAAGAAGCATTCAGAAGGCAAAAGATACAGCAAGAATTACCACTACTATAGAAGCACCCGCTCAGGCTATGCAAAATGAAAATGTACCTTTTCGTGCCGTTTCCGAAGCAAAGCAGTTTGCCTGGAAATTCGGGGAAACAGGAAATACGGATGCTAAGGATAAATTTGCAATCTATGCCTATAAAAAGCCGGGAGATTATGTAGTAACGCTATACACAGAAGAAACCCAGGAACCTATCTATCACCGTATCAAAATTCTTCCGGCCTATGATGCTTTAGCAGAAGATGAAGTATCTGTGGAAGATTCTTATGCAAAAGTAGATGACGATTTCAAATATCATCTGCAGCAGATTGCCAATGGAAACAGCTTCAACATGCATTACAACTATCTGTTGAAAACCTATCTGTGTAACAATGAAAATACTGTAGTAAAGGTAAATGACAGCAAAGTGAATAACTTTTATATGTATTGTGCCGGCCTTCAGTTTGACAAAAATACAGTTATTCAGACCGTAAAAGTAAATCTGGATGATACACAGAACTGTGTAACGAAAGTAGATATCAACCAAAGCAAATAA	MNYFQKNKKNIIIGVVATLLIAALVALWLQKKVIHSADDIVGVVYPSSLAVGDTLLFEDKTQFAKTKRWNFGDGTTSDKNSGIHFYNKPGYYQVSLIVDNKYTKSFPVMVSARSIQKAKDTARITTTIEAPAQAMQNENVPFRAVSEAKQFAWKFGETGNTDAKDKFAIYAYKKPGDYVVTLYTEETQEPIYHRIKILPAYDALAEDEVSVEDSYAKVDDDFKYHLQQIANGNSFNMHYNYLLKTYLCNNENTVVKVNDSKVNNFYMYCAGLQFDKNTVIQTVKVNLDDTQNCVTKVDINQSK				NA	NA	NA	NA	NA
BMS003_03349	2406			hypothetical protein	ATGAAAAATCAATTTCCTCTAGCAGCATATTATATAGGACTATCAGTATTACTGGCAAGTTGCCAGGTAAAGCTGCCGTCAAAGAAAACCCCGGAACCTTCACAATACGGAAAGGTAGATACTTCCCCTGTAGTTAACGGTTTTCCTAAAAAGTCAGTTCCATGGATTGTTATTTCAGACAGATCCAGAAATACCGCTTATCTGGATAAAGATGACGAAAAATCTTACAAAGAAGTAAAGTTTCTTGAACCTTTAATGGTTTTAAAACATAGGGACGGAATGATAAAAGTAGCAGAATATGTACCTGATGCTTTAATGAAAAAAGTTTCACCAAAATCAGTCAAAACATATGGCTGGATTCCGGAATCTGATCTCCTTCTTTGGAACAATGCCCTGAAAAGTGAAAAAACAGGTTATCCTGTAAGAGTTGCTGTTGTACCTAATAACAGTGAAGTTATCAGAAATGCTGAAAGATACTATAAGAATGACTCAATCATGGTGTTCAATTCACCAAGCCTTATCGAAGCTGCAAATGTAAAAATTCCGAATGGCCAGATTGTATATGTCTATAAACAGGCTGAAAACAACAAACGATTTTTAGTAGGGAAAAAGCCTTCCATTGATATAGATAGTATTGGCAAAGGACTTTACGGATGGGTAAGTTCTAATGTGATTTCCAGCTGGGGAGAACGCTCGGCTGTCAAACTGAAAAATACAACAGGCATTAATGATACTACGTTAGGAATTCATGAAGGACACCCAGGAGGATCTGCTTCAGATGCAGAAAATAAAACGGCTATTCTTCTTACTGATGTCAATAAAAGAACACCACTGGAAAACATTTTTCCCGTAAACCTGCCGTTAGATGAAGCGCCTACTCCGGATACCAGAACAAAATATTTTACCAATATTTTAGATTATAGCAAAAACTTTGTTTCTAATGTTTTAGGAGAGCCTATTTATTTTGACCGTTACAGAGAAATTACAGAAAAAGATAAAAATATCAATATTGTTTTTGCGTTAGACATAAGTGCTGCCAATACCCCTTATGCACCTATCGTAAAGTCATTACTGCAGGATCTTCAGCTTAGATTTGAAAAGCCATCTTATTTTAGCAATGTTAAATATGGGGTGGTTTTGTATAAGAATAATCCCTGCGGAGAAAATATTTCTGTGTCAAATTTAAGCTCAGACTACAGTAAGATTACCCTGTTTATTGATCAGAAAACGAACGAAATGAATTGCGCAAGCAATACTGGTTATCAGCCGGTAGGAGAAGCTCTTACTGCTGCCGGAAACCTTCTTTCAAATTTATCAGATGAAACCAATATTGTAGTAACGGTAGGAACATCCGCAAACCAGAGCGGAAATATGTATAGTGTAATCAGTTCACTGACTCAGGCTCAGGCAAGGCTGATCATGTTCCAGACAAGTGCAAGATCATCAGATAATTACAATGATTTTGTATTGATGTCAGAAAATGTGGTGACCAATACAGCCAAAAATATTGCAGAACTAAAAAAACAGAAGATCATCAACCAAAATGATGTATTAACTAAAAATAACTTCAATCTGGTAGAAGGCGATGAAGGTTTCTTTTCGCTGGCTTACCCTAAACAGAGTATGTCTCAGGGATTTGTTATTTTCCCTAAGAAAGGGGATATTACCACCCCCGGATTTCTGAAAAAATCTGTAGACAGCCTTATTGCACAGGTCACTTTAGATAATCAGACTGTTGACAGATCCCTGAATGAATATTTCCATTCTTCAGTAGGAGCAGGAAGAACAGATGTTGATTTAAAATATAAATATCTGTATCCGGGACTCACCAATCCTGTTTCTGCAGGTATTGCAGCACAGTTGATCAACTATGGAAGCCCATTTCTTGTTAAAGGATATATTCCGAAAGATCTGAAAGATTTTACCCTGGGAATAGAAAAAGGAATTCTTATTTCTGAAGCAGAATATGATAACCTGAAGGCTTTCTATACTGAGGTATACAGAAATACCCAGGCAGATCGTGCAGACTTTAATCAGGCAAGAGCAGTGAAAGAGTATGTGAAGCTGTTGAAGAAATATAACCCTACCATAAAGTTCCTGGATAAAGGAGCTCTTTATGAGTTGCCAATGTCTTATGCTATCGGAATGAGCACAGGATTTGATCTTTCTGAAGAAGAATTAATGGCTAAATATAAACTGAAAGGCTGGAAGAAATCTAAGGTTGTTCCTAATGAAACAGTAAAGAATTATTTCCACCATTATAAAAATTTAGCAGACAGAATGCTTGCCAACAGAAATAATCCTGCTGTAAAGATTCAGCAGAACGGGCAGACTTTCTACTGGCTGAATGAATACTTTACGCCGTCAAGAATTCCGAGAGAACAGCCGGAATATACAAAGCATTAA	MKNQFPLAAYYIGLSVLLASCQVKLPSKKTPEPSQYGKVDTSPVVNGFPKKSVPWIVISDRSRNTAYLDKDDEKSYKEVKFLEPLMVLKHRDGMIKVAEYVPDALMKKVSPKSVKTYGWIPESDLLLWNNALKSEKTGYPVRVAVVPNNSEVIRNAERYYKNDSIMVFNSPSLIEAANVKIPNGQIVYVYKQAENNKRFLVGKKPSIDIDSIGKGLYGWVSSNVISSWGERSAVKLKNTTGINDTTLGIHEGHPGGSASDAENKTAILLTDVNKRTPLENIFPVNLPLDEAPTPDTRTKYFTNILDYSKNFVSNVLGEPIYFDRYREITEKDKNINIVFALDISAANTPYAPIVKSLLQDLQLRFEKPSYFSNVKYGVVLYKNNPCGENISVSNLSSDYSKITLFIDQKTNEMNCASNTGYQPVGEALTAAGNLLSNLSDETNIVVTVGTSANQSGNMYSVISSLTQAQARLIMFQTSARSSDNYNDFVLMSENVVTNTAKNIAELKKQKIINQNDVLTKNNFNLVEGDEGFFSLAYPKQSMSQGFVIFPKKGDITTPGFLKKSVDSLIAQVTLDNQTVDRSLNEYFHSSVGAGRTDVDLKYKYLYPGLTNPVSAGIAAQLINYGSPFLVKGYIPKDLKDFTLGIEKGILISEAEYDNLKAFYTEVYRNTQADRADFNQARAVKEYVKLLKKYNPTIKFLDKGALYELPMSYAIGMSTGFDLSEEELMAKYKLKGWKKSKVVPNETVKNYFHHYKNLADRMLANRNNPAVKIQQNGQTFYWLNEYFTPSRIPREQPEYTKH				NA	NA	NA	NA	NA
BMS003_03350	408			hypothetical protein	ATGGCCGAAAGAAATTCAAGAGGAATCTTAAAATTTAATAATGGCGAAGGGCAGAAGCTGTTAAAAATGAACTACAGCGTATCAAGATCTACAGACGTTTCAGGACGTGTAGCATCAGATCCTTCTAACGCACTGATTAAAGTTACAGTAGAAGCTACTGAAAAATCAGACATCCTTGAAAGCTTACTAAACGGTAAATACAAACCAACAGTAGGCGAAATTACATTTAATAAGTCTCATGAAGAAGGAACTCTGATTACTTTGAACTGGCAGAACGGCTATGTAATTCAGCATCAGGTAGATTTTGATGCAATAGACAGCAACAGTATGCTGATCAGCTTCGTAGTAAGTGCTGAAACAATTAATTACGGTACTTCTGAATATGCAGGACTTTGGCCGTCCAGCTAA	MAERNSRGILKFNNGEGQKLLKMNYSVSRSTDVSGRVASDPSNALIKVTVEATEKSDILESLLNGKYKPTVGEITFNKSHEEGTLITLNWQNGYVIQHQVDFDAIDSNSMLISFVVSAETINYGTSEYAGLWPSS				NA	NA	NA	NA	NA
BMS003_03351	2499	clpX_1		ATP-dependent Clp protease ATP-binding subunit ClpX	ATGGGAGTACTAGTAACCAACGAAACCGTAAAGCAACTATTTCATATTGCTCAGTCGATAGCGAAGGAAAATTATAATGGAACCTATGGAGGCCCGCATATCCTGCAGGCTCTTATGCATAAAGATATAGGACTCAATGAATTCCTGAAAAGTATAGATAAAGACCCGGGCTATTTCTATGAATGGGCAGACGTCCGCATTGAAGAATATCCCAAGACCAACCATCTTCCTGATGAAGTAGGACAGGACGATGCTATAGATAATCTTATTGAAGAAGCAGATGATATCCGTTTAAAATTAGGATTGGATGAGATTACACCCATCTGTATTCTTACAGCCATCGTAAAACCACAGGTTGTATTCTCTCTTCAGCAGTTGAAGTCACTCCCCTTAAGAGAACATGAGATATTCAACCTCTACAGAAAAGATACCCCTTTTGCCGTTTCAGAGGACGGGGATTTTTCTTCATTATTTTCAAACAATGGTTCAGACTATTCAGATAACTCATTTCCTTCCATTAAAAGCTATTGTGTAGACAGAACAGCGCAGGCCAGAAAAGGAGAAATTGAAAATATTATCGGGAGAGATAAAGAACTCAGAATGTTAGTTGAAATTCTTTGCCGAAGAAGTAAACCCAATGTTATCATTATTGGAGAACCCGGCGTGGGAAAGACAGCTTTGGTAGAAGGTTTCGCCACAGAAATAATCAAAGGAAATGTTCCTGAAATGCTTAAAAACGGCACCCTTTTAGAACTGGATACCGGAGCATTATTAGCAGGAACCTCTTATAAAGGGGAGATTGAAGATCGCCTGAAAAAAGTAATCAATGAATGCAAGAAAATTGAAAAAGCCATTCTTTTCATTGATGAAATTCATACCCTCCTAGACCCGAAAGGAAGCATTGGAAACGTTGCTAACCTTTTGAAACCTGAGCTTGCCAGAGGGGAAATTACGGTAATAGGAGCTACCACTCAGGAAGAATACAGAAAAATTATAGAGCCGGAACAGGCTTTCAACCGTCGTTTTGAAGTTTTGACTGTCCTCGAGCCGGATGAAAAGACCTGTGTGAAAATGATTGATGTACTTCTTGATGGTTATAAAAAACATCACGGCATTGAAGTAGAAAAAACATCACTGCCGGAATGTGTACGTTTAGCAAAAAGATATGCAAAAGGCAAAAAATTACCGGATGCAGCTATTGATTTATTAGACAGAACAATGGCAGCTATTAAAATGCTTGATGAACTTTCAGAAAAAGAACTGGACAGCTGGAAAGAAAGCTATGATGCTATCTTAAAAGAAGAATACGCAGACAGTAAAGATAAAGCCGATGAACTGATCTGGACCTATAACCTGCTAAGAGACAAAATAAGCCCGATTTTATGGGGATCACTGAGTGAGCAGCCGTCTATTGACAACTCTATGCCTGTAGACCAGATCCGGAAAATCATCGAAGATACCTATACCGAACTTTTACAGCATGCTGCGAAGAAAAGAGAAAAAGTAGACAGATTGGAGCTGGCAGCAGTAATGGCTGCTAAAACCAATATCCCGATCGGAAAGATCCAGGCTCAGGAAAAAGAAAAACTTCTGAATATGGAATCTCTTCTGCTAAACAGAGTAGTAGGGCAGGATCATGCACTAAAGATCCTTTCTGATGCTATTGTTGAAAACCGAAGCGGATTGAATAAACCGGGGCAGCCCATCGGATCTTTCTTCCTTCTCGGGCCTACAGGAACCGGTAAAACAGAGCTGGCTAAATCAATGGCAGAATTACTTTTTAATGATGAAAAGGCAATGGTACGTTTTGATATGTCAGAATTTAAAGAAGAACATTCCGCAGCATTGCTGTACGGAGCGCCTCCGGGATATGTAGGATATGAAGAAGGAGGTATGCTGGTCAATAAAATAAGGCAACAGCCTTATACCGTTGTTTTATTTGACGAAATTGAAAAAGCCCACCATTCTGTTTTTGATGTATTCCTTCAGATCATGGACGAAGGAAAAGTACATGACAAGCTGGGTAAAGAAGGAGATTTCAGCAATGCATTAATCCTGTTTACCTCCAATATCGGAAGTGAAGAAATTGTAAAACAGTTTGAAGAAGGAAAAATTCCGGAATCATCTTCACTCATGCAGATTATGTCAAATTCCGGAAGATTCAGACCGGAATTCTTAGCCAGAATTACAGAGATTATTCCTTTTGCCCCCATCACAGAATCTATCGCAGAAAGAATATTTAATATTCAGTTGAAATCACTCCATACCTCACTCACGAGATTAGGAATTGCCTTGAAAATAAGTGATGATGCAGTAAGAAATCTTGCATTAGGCGGATTCAGCAGCAAGTATGGAGCAAGACAGATCTCAGGAGTAATTCGGGCACAGCTTGCCAGACCTATCTCCAAAATGATCGTTAGAGAAGAAGTGAAGTCCGGGCAGACCATCCATGTAGACTGGAATAAAGACGAAGAAAAGCTGAGCTGGAAAGTCGATTAA	MGVLVTNETVKQLFHIAQSIAKENYNGTYGGPHILQALMHKDIGLNEFLKSIDKDPGYFYEWADVRIEEYPKTNHLPDEVGQDDAIDNLIEEADDIRLKLGLDEITPICILTAIVKPQVVFSLQQLKSLPLREHEIFNLYRKDTPFAVSEDGDFSSLFSNNGSDYSDNSFPSIKSYCVDRTAQARKGEIENIIGRDKELRMLVEILCRRSKPNVIIIGEPGVGKTALVEGFATEIIKGNVPEMLKNGTLLELDTGALLAGTSYKGEIEDRLKKVINECKKIEKAILFIDEIHTLLDPKGSIGNVANLLKPELARGEITVIGATTQEEYRKIIEPEQAFNRRFEVLTVLEPDEKTCVKMIDVLLDGYKKHHGIEVEKTSLPECVRLAKRYAKGKKLPDAAIDLLDRTMAAIKMLDELSEKELDSWKESYDAILKEEYADSKDKADELIWTYNLLRDKISPILWGSLSEQPSIDNSMPVDQIRKIIEDTYTELLQHAAKKREKVDRLELAAVMAAKTNIPIGKIQAQEKEKLLNMESLLLNRVVGQDHALKILSDAIVENRSGLNKPGQPIGSFFLLGPTGTGKTELAKSMAELLFNDEKAMVRFDMSEFKEEHSAALLYGAPPGYVGYEEGGMLVNKIRQQPYTVVLFDEIEKAHHSVFDVFLQIMDEGKVHDKLGKEGDFSNALILFTSNIGSEEIVKQFEEGKIPESSSLMQIMSNSGRFRPEFLARITEIIPFAPITESIAERIFNIQLKSLHTSLTRLGIALKISDDAVRNLALGGFSSKYGARQISGVIRAQLARPISKMIVREEVKSGQTIHVDWNKDEEKLSWKVD	PGPT0014580_5093	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS003_03352	864			hypothetical protein	ATGAACACGATTGTCAGAAATATCCTTACGGGTTTACTGTTACTGGGAACTGTAGTTTTTGTAAACGGACAGTTTCTTGCCGCTTCCGATACTTCGGAAAGCAGTGTGAAAAAATACAAAGGCATCATTAATGCCAATAAGGATCTGGTAGAATTTATTGAGCAGCTGCTTCTTCAGAAAGGTCTTCCCAAACATTTGAGAAACCTGGCTCTTATAGAATCCCATTTTAACAAAAATATTACTTCCGGAGCAGGAGCAGTCGGAGTCTGGCAGTTTATGACGGCACATGCCAACCAGTACGGACTTACGGAACAGGGACGTACCGATCTTTATAAAAGCACAAAAACAGCTGCTATTTCTTTAAGTAATCTGTATAAAAAATATAATAACTGGGTAACAGTAGTAGCTGCTTATAACTGTGGTGAAGGAAATATTGCCAAAGCAATGCAGGCTGCAGGCTCGTCTCAATACCATGAGTTTTCCAAATACCTTCCATTAGAAACCATTAATCATGTGAAGAAATACCTTAATGCATGCTATGCAACAGGAGAGCTTCAGAGTGTATTAAATAACTATAATTCATCAAGAATCAATAAAATTTTCTTTGAAGGAGATAGAAAAACAACTCAGGCTGCTCTTTCCGAAACAGAGATCAATGCTGGTTTCAGCTTAAAAGTTGTAGCAGATGAACTGAATATAGAAGTAGATAAAATCCTTGCCTGGAATCCTGGGATTGTGGAAGAACTACAAAAAAAAGGTGAAAGTTCTTTCTATCTTCCTGTTGATCTGATGCCTGATTTTCTGCTTAGAAAAAATAAAATATTGGTTCGTTCCATAAAAGAAGGAACAAATATACAACAATAG	MNTIVRNILTGLLLLGTVVFVNGQFLAASDTSESSVKKYKGIINANKDLVEFIEQLLLQKGLPKHLRNLALIESHFNKNITSGAGAVGVWQFMTAHANQYGLTEQGRTDLYKSTKTAAISLSNLYKKYNNWVTVVAAYNCGEGNIAKAMQAAGSSQYHEFSKYLPLETINHVKKYLNACYATGELQSVLNNYNSSRINKIFFEGDRKTTQAALSETEINAGFSLKVVADELNIEVDKILAWNPGIVEELQKKGESSFYLPVDLMPDFLLRKNKILVRSIKEGTNIQQ	PGPT0023795_2471	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
BMS003_03353	414			hypothetical protein	ATGGCAGAAAGAAATTCAAGAGGAATCTTAAAATTCAACAATGGAGAAGGACAGAAGCTGTTAAAAATGAACTACAGCGTATCAAGATCTACAGACGTTTCAGGACGTGTAGCATCAGATCCTTCTAACGCGCTGATTAAAGTTACAGTAGAAGCTACTGAAAAATCAGACATCCTTGAAAGCTTGCTAAATGGTAAATACAAACCAACAGTAGGAGAAATTACATTCAATAAATCTCACGAAGAAGGAACACTTATTACTTTGAAATGGGAGAACGGATATGTAATCCAGCATGAAGTAGACTTCGATGCAATAGACAGCAACAGTATGCTGATCAGCTTCGTAATAAGTGCAGAAACTATCGACTACGGTACTTCTCAGTACGCTGGACTGTGGCCTTCATCAGGTAAATAA	MAERNSRGILKFNNGEGQKLLKMNYSVSRSTDVSGRVASDPSNALIKVTVEATEKSDILESLLNGKYKPTVGEITFNKSHEEGTLITLKWENGYVIQHEVDFDAIDSNSMLISFVISAETIDYGTSQYAGLWPSSGK				NA	NA	NA	NA	NA
BMS003_03354	2175			hypothetical protein	ATGTCTCAGGATGATAAAGTAATAAAAATAGGAAGTTCCCCAAAAGATACAAAAGGAAATACAGAACAGTTGAAAAACACTACTGTAAAAGATAATGTTGTCCCAAAAGTAGAAGGAAAAATAAATAAAACGGGCGAAAAAGTTAAGAAAGCAGCCAAGATCGGGCAGCAAAGTATGAGTGCCGTTCAGGGAACAGATATGTTTATGAATCAGACCATTGTTCCCAATAATCCTTCCATTGTAGAAAATAAAGTATGGGCAAAGCAGCCTACCTCAAAGATCCATAATGCCGAATCTATTGCCGAAAACTTTATCGCAGGAATTAACCGCGTGGTAAAGCTGGATATCGTCATTGAAGGAAAAATTATCAAACATTTTAAACACTTTAGACTTGCTCAAAGTGCATCTAAACATCATGAGTTTAATCTGATGCTGGCTCATGACACGCTGGGTAATGCAGAAAATCATAATCTTGAAGAAGCGCAGGGCTTTCTCGGGAAAAGAATTACCATAGTCTTTAAGTACAAAGACCTTGAAAAAGGTGCAGAACGCAATTTTGTAGGAGTTATTACAGAAGTTGGGTTCAGTCAGGAAAAAGGAAGTCTGGGAAATATTATTCTTAAAGGGTACAGTCCTACTGTACTGCTGGATGCGGCTCCGCATATTCAGAGTTTTGGTGGTGGGCAGCCGGTAAGTCTCAACAGTATTGCTGATCAGGTGATCAGGGAAGGATTAGGGCAGAATAAATTCGATTTTAGAGTTGATGCTCAGCATGGAAATGTTTCTTACAGCTCTCAATATGAAGAAACACATTATAATTATCTGGCCAGAATGGCGGAAGCATATGGAGAACAGTTTTATTACGATGGAGAGGTTCTGCATTTCGGAAAACTTCCACCGCAGGAGAAGGCAATTAAGCTTACCTATGGAAGCAGCGTAAGTGATATTGCTGTTAAAATGAGAGCACAGCACGTTAATCCTACATTTTATGGCTACAACAGCAGCAAAAATGAAAAACTGACAACAGGGAGTTCCAAAATAGTCCATGCTTCAGATATTGCAAGACGCGCTTACGAGATATCAGAAAGAACTTTTACAACCCCTTCTTTGAGAGTCGCCCCGATAAAAGCTTCATCTTTTATGGATATTGATGCTTCTCAGAAAGGAACCGCAGGGAGCAAGGCTTCTGAGGTTTTCATTACGGAAGGAACCACTACAGTTCCGTTTTTATATCCCGGCTGTACAGCAGATATTGAGATGCGTAAAACGGGAAGCAATCAGACTTCTTATTTTACCAAACTGATGATTATCGGAGTAATACATGAAGTAGATGCCAGAGGGTATTATGATGGGAAATTTGAAGCCATTGCGGCAGATTCTGGCTTTATCCCACGCCCTGAATTTGAGATGCCAAGAGCAGAGGCACAATTCGCCAAAGTAATCTCAAATACCGATCCTTTAAACCAGGGACGTGTTCAGGTACAGTTCGACTGGCAAAGCGGGCAGAATACATCAGAATTTATCCGTGTTATGTCTCCGGATGCAGGAAGCAGTGATAAAGTCAATAAAAACAGGGGATTTATGTCTGTTCCCGAAGTAGGAGATCAGGTAATTGTCAACTTTGTACACCAGCATCCTGACCGTCCGTTTGTGATGGGAGGAATGTTCCATGGAAGTATTGGAGGAGGAGGTGGAGCAGGAAATAATGTTAAAAGTTTATCTAGTAAAAGCGGAAATATTATTTGTCTGAATGACGACGCAGGAATTGAAATTAAAGACAGAAACGGAAATCATGTTACCTTAAGTGGAACAGGCAATGTGAAAACATTTGTGAGCAATAATAACAATGAGGATATTGGTAACAGTCACACAACGAATGTGGGTACCAAAACGACAATCAATGTGGGAAAAGGAAAGTCGGAAATTACGATGGATAATACAGGAAAGGTAAGTATTACCAGTACTAAAGAAATAAAATTGGAAACAGGAAGCAGCTCTGTTACGATGGATGAAAGTGGTAATATTACGATTAAGGGGATCAATATCACGATAGAAGGAACCAATACTAAAATTATAGGAAGTACTCTTACTGAATTAGGTAAGACCGGAGCTGTTCCTGGCGTTAAAGTAGATGGAAATGTAACAATAAAAGGAGAACAGGTTGATATTAATTAA	MSQDDKVIKIGSSPKDTKGNTEQLKNTTVKDNVVPKVEGKINKTGEKVKKAAKIGQQSMSAVQGTDMFMNQTIVPNNPSIVENKVWAKQPTSKIHNAESIAENFIAGINRVVKLDIVIEGKIIKHFKHFRLAQSASKHHEFNLMLAHDTLGNAENHNLEEAQGFLGKRITIVFKYKDLEKGAERNFVGVITEVGFSQEKGSLGNIILKGYSPTVLLDAAPHIQSFGGGQPVSLNSIADQVIREGLGQNKFDFRVDAQHGNVSYSSQYEETHYNYLARMAEAYGEQFYYDGEVLHFGKLPPQEKAIKLTYGSSVSDIAVKMRAQHVNPTFYGYNSSKNEKLTTGSSKIVHASDIARRAYEISERTFTTPSLRVAPIKASSFMDIDASQKGTAGSKASEVFITEGTTTVPFLYPGCTADIEMRKTGSNQTSYFTKLMIIGVIHEVDARGYYDGKFEAIAADSGFIPRPEFEMPRAEAQFAKVISNTDPLNQGRVQVQFDWQSGQNTSEFIRVMSPDAGSSDKVNKNRGFMSVPEVGDQVIVNFVHQHPDRPFVMGGMFHGSIGGGGGAGNNVKSLSSKSGNIICLNDDAGIEIKDRNGNHVTLSGTGNVKTFVSNNNNEDIGNSHTTNVGTKTTINVGKGKSEITMDNTGKVSITSTKEIKLETGSSSVTMDESGNITIKGINITIEGTNTKIIGSTLTELGKTGAVPGVKVDGNVTIKGEQVDIN	PGPT0030410_2627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS003_03355	1080			hypothetical protein	ATGGAGTTTACAAAATATAAAGTACGACAGGGAGATACATTACAAAGAATTGCAGAAAAAGAAGAAATAAGTGTTAAGGATTTGATTAATTTTCATAATGCTCATAATCCTATCACCCAATCTATCACAGGAGATCGTTTGCCCATCCACCTGGAGTATATATTTCTTCCTTTAAAATCTATACATGAAGCAGAAGAGGAAAAAAGACAGGGATCTAAAGAATTTGAAAGAAAAACAAGATACAGATGTGAACAGGTAAATACCTCTAAGATCAATGGGAGTCTGGTTCATTTTTTACAGCAGAACTTTCAGTACCTTGTAAAAAGTCATTTTAGAAACAATACATTTTTTGTTGGTCTTGAAGACCATCATTTTGACTTTAATCCTACCTACCTGAACCCTTCTTTCGCATTTATTTCTAAAACAGAGTTCATTAAGAATCAGATTTTTTTTAATATTTCTGAAGAAAATGGAAGGCTTGCAGAGATTAACAATAAATTAGAGATCAATGAAAAGTGGCAGGAATTTAAGAAGAATGAGTTTTACAATGATGAGTTTATAATACAGCTTATGAAAACCAATGAGCATGCAGTAAACGAACTGATGGCCATGGGAGACCGTCAGTTTGCTGTGGATTATGAATTAATGGAAGAAGAATACCGAAGAAACCTGTTGTATTTTACTTTGTTTGATAAAATTCTAGTGCAAAATATTGAAAATATAAAAAATGAGCAGTTTGACTTTATGTCTACTCTTGTTCCTCCCATTATTATTCCCCTTGAATTCAGATATGATAAAATATCAGAAGAGAATAACATCGTAAAGTTCAGGAAAGTAGGAACTGCCTGTCTGAATGATAAACTTATTTCAGATATCATGCAAAAATATGATGAAATCCATAAACCCGGTATTAAATATAATTTTACAGAATATAAACTGGAATTCAGGGTACGGGGAGAATGGAATGCAGAAACAAAGATCATTGAAAATGCAGATCTGTTTATCATAGAACAGATTTCGGATAATATAGAAAATCACTGCGAATTTCATCTTAAAAAACTTCATAATTACACATCATAA	MEFTKYKVRQGDTLQRIAEKEEISVKDLINFHNAHNPITQSITGDRLPIHLEYIFLPLKSIHEAEEEKRQGSKEFERKTRYRCEQVNTSKINGSLVHFLQQNFQYLVKSHFRNNTFFVGLEDHHFDFNPTYLNPSFAFISKTEFIKNQIFFNISEENGRLAEINNKLEINEKWQEFKKNEFYNDEFIIQLMKTNEHAVNELMAMGDRQFAVDYELMEEEYRRNLLYFTLFDKILVQNIENIKNEQFDFMSTLVPPIIIPLEFRYDKISEENNIVKFRKVGTACLNDKLISDIMQKYDEIHKPGIKYNFTEYKLEFRVRGEWNAETKIIENADLFIIEQISDNIENHCEFHLKKLHNYTS				NA	NA	NA	NA	NA
BMS003_03356	564			hypothetical protein	ATGATCAATAAGAAATTTGAAATTACAGGAGTTGCTTTGAAAACTGAATGGAAAATTAGTTTTTTATTTGGAATATGCTTTATTTTCATATGGGTAACATCCGTTTATTTATATTATATTGTAAATAGTATAGATAATGTTATTCATATACCACGCTATATTTTCTTTGGTTCTATGCTTTTAGGATTGGGGTGGGGATTATTTTTTGCCAGAATATTAGGAAAAAAGATGCGAGTAAAATATTTATTCGAATTTTCAGATGAAAATATCAAAGTTCAGACATTGGATGGCTCTTCATTATATATCTTTGATTATGATGATATTACCTTGATTTCTTTAGTGGGAACAGCAGAAAGTATGAGACTTTTGAAAATTGAATCCAATCAGAAAAAATTTAAAATAAGATTGGGAACATATGGATTAGCTCCCTTTTCAGAAGGGGTAGATATTCAGACAATGGATAAAATGATAGCTGAAGTTGAAATAATTCTTCAAGGTTACAATTTCATTATTAAAAAAGTAAAAACACCAAATAAGGTTTTTGAATACAGATATATGAAATAG	MINKKFEITGVALKTEWKISFLFGICFIFIWVTSVYLYYIVNSIDNVIHIPRYIFFGSMLLGLGWGLFFARILGKKMRVKYLFEFSDENIKVQTLDGSSLYIFDYDDITLISLVGTAESMRLLKIESNQKKFKIRLGTYGLAPFSEGVDIQTMDKMIAEVEIILQGYNFIIKKVKTPNKVFEYRYMK				NA	NA	NA	NA	NA
BMS003_03357	561			hypothetical protein	GTGGATACATTAGAGTATAATATTAAAGGGGTTGATTTAAAAACAGAACTGATAATAGGGCTTTTTATAGCCCCATTCATAATAATATTTGGACAATTGGTAATTACACTTTACAGTTCCTTTAATCATGTAGAATTTAGAAATATTCCTTTTTCCGTATTTCTGGGTGGTGGATTGTCTGGAATGGCTGTCGGGTTGATAATTGCTAAAGTACTGGGAAAGAACATGAGTTCCGTCTGGAAGATAGAATTGAGAGATAACCTGCTCAATATAAGCTTTAAAAACAGGGAGTGGAAAATGAGGTTAGATGAGATTTCAAAGCTTAAGATCTATGGAAATCCTAATTTTAAATATATCAGTATATTTAAAAATAATGAAAGCATCAGAATGAGAATTGGAAACAGTGGATTGACACCTTTTTCAACTCAGGATGATTTAAAACAGTTAGATGATTTTATTAAAGAAATACAGCCGTATTTTGAAAAGAATTACTCAAAAAAGGATGGAACTGTAAAACAATCACCTCCTGGAACAGTAAAATTAACCTATCTAAAAAAGTAA	MDTLEYNIKGVDLKTELIIGLFIAPFIIIFGQLVITLYSSFNHVEFRNIPFSVFLGGGLSGMAVGLIIAKVLGKNMSSVWKIELRDNLLNISFKNREWKMRLDEISKLKIYGNPNFKYISIFKNNESIRMRIGNSGLTPFSTQDDLKQLDDFIKEIQPYFEKNYSKKDGTVKQSPPGTVKLTYLKK				NA	NA	NA	NA	NA
BMS003_03358	1377			hypothetical protein	ATGAGTTCATATCTTCCGGATAAAACCTATGTGGTCTGTACAAATCAGTTAGGAGTAGAGTATAAGCAATTGACTTTATCAGAGAATCGTACGGCAAAAACAGTTCAATTGGGAAGCCAACGAAGAGTCTTTCTTGTAGTGCTGGATAAAAATCTTACCGAAGATTTTACCTGCAAAAGCGGATGGAGTAGTGGTGCCGGTACTGCAGCAGTGGGGGCGGGAGTTATTGTAGGAATGGCTGCAACTGTAGGGGTTGGAATTGCCAGTGGCTTAACTGTAGCAGCGGCAGTTGCGGTTGTTCCGGGAATAGGATGGATAGCTGGAGGTTTAATTGCAGTGGGCTGTTTAGCCTATGGAATCTGGCAGATGATGCAAAGCCCCACTTGTTCTCAAATGATAGGATATGAAGAAAGCAAATGGGTTCATTATCATCCTACAGTACGATTTGACAGTTCCAATGTCTCTTTGAAAGAAAAACATTTGGCGGTGGTAAAAAATTCCATGCTTAAATGTAAAGAACCAGGAGGAATGCTTCTGCCTTTTATCAGTGAATCAAGTGCTAAACAAGCAGCTGAAGCAATAGGGTATAATAATCGTCGTGAGCTGACTACAAATGCAGCGGCAGGCTTTCTGACAGGTTTTTTAGCGGGAACAGGTCTGGGAGGGGCTGGTGCAGCTGCCGGAGCAGGTTTTCTTGGAATGAGCGCTCCTACTTTAAGCGTATTATCTACTACAGGTGCTTTTTTAGGATGGACTGCAGCAGGACATTATATTATCAATCCATACATATTCAGCCCGGCTACGGGTTGGACTTCCGAAACCATTGCCCAATTAGAAGGAACAAGCAGTTCTTATGGTACAATTAAAGGAGAAGCAAATTCAAAGCCTGATGGGCAGCAATGGAGTTCAGTGCCAGATCCGGCAGCGAATAATGACACCTTACAGACGCTTTATGGAGTGAGGAAAAATATGATTGAAAATGGTGCCAGCAAACAGCAGCTTGCAGAAATCAATACTGCCATAGCTGAAGCACAAAAAGCCGGGACCTATAAAGTGAGTGAAGTACCCGCTGTTAAAACAGTATTTGAAAATATCAGGAGCGGGAAATATGGAGAATCCGTAAAAGATATTTTTACCAACAAGAGTGGTACAGGAACAGGAATGAACAGGCAGGGAAATTATGATAAGGCAGGAAACCTTAAACAGGAAAGTATACGCGCAAATAATCAGGAAAACATTAAGAATCTTAAAAATGCCGGCGCCTTAGTGATTGCTCCGTTTATATCATCCTATTTCGGCAACGAAGCTTTACGCTTAGGAGCTCAGATTTATGATCAGGATGTATCAAATTCTATTAAAGTTATGTCTGAGAAATAA	MSSYLPDKTYVVCTNQLGVEYKQLTLSENRTAKTVQLGSQRRVFLVVLDKNLTEDFTCKSGWSSGAGTAAVGAGVIVGMAATVGVGIASGLTVAAAVAVVPGIGWIAGGLIAVGCLAYGIWQMMQSPTCSQMIGYEESKWVHYHPTVRFDSSNVSLKEKHLAVVKNSMLKCKEPGGMLLPFISESSAKQAAEAIGYNNRRELTTNAAAGFLTGFLAGTGLGGAGAAAGAGFLGMSAPTLSVLSTTGAFLGWTAAGHYIINPYIFSPATGWTSETIAQLEGTSSSYGTIKGEANSKPDGQQWSSVPDPAANNDTLQTLYGVRKNMIENGASKQQLAEINTAIAEAQKAGTYKVSEVPAVKTVFENIRSGKYGESVKDIFTNKSGTGTGMNRQGNYDKAGNLKQESIRANNQENIKNLKNAGALVIAPFISSYFGNEALRLGAQIYDQDVSNSIKVMSEK				NA	NA	NA	NA	NA
BMS003_03359	600			hypothetical protein	TTGAAACAGTATCTAAATGAAATAAAAGATCAGCAGAAAGTCGGAAATTCCTTCTCAGGAACAATACTTCCAATGAATGTTGTTTATTTCTCATTGATTTTAGGTTTTATTTTTTATATAACCTTTGCAATTGTTCTTTTTAAATTACTGCAGCCTCATATGGGACCTCTTCAGGTACTTTTCAGAGCGGAGAATCCTTTGTTGATGATTATGATATCAATCCCTTTTATGGCTGTATTCTTTTTGGTAATGTATTATTTATTCCAGCAGACAGTATTAAAAAAACATTTCATAGAGATAGACTGGTCTCCTAATCAGGTAACAACCTCTATGGGAAGCAAAAAATATAAGTTTCAGAAAAAAGAAGTTAAAACATCTATTTTTTTTATCAACAGGTTTACCCATTTCTCAAAATGTCTCATAATAGAGCAGAAGAAAGGGACACGCTATATCATTTTAGGTAAAGATAACGCTAACCAAGAGTATCAGGAGTTCATAAATTCATATATCAATTTTTTTGATATTGATATCGAAAACGCCATAACTACCATAGGTTCTTCAGGCAGTACATTAATGAAAAAAAAATATACTCATGAGTAA	MKQYLNEIKDQQKVGNSFSGTILPMNVVYFSLILGFIFYITFAIVLFKLLQPHMGPLQVLFRAENPLLMIMISIPFMAVFFLVMYYLFQQTVLKKHFIEIDWSPNQVTTSMGSKKYKFQKKEVKTSIFFINRFTHFSKCLIIEQKKGTRYIILGKDNANQEYQEFINSYINFFDIDIENAITTIGSSGSTLMKKKYTHE				NA	NA	NA	NA	NA
BMS003_03360	114			hypothetical protein	ATGAGTAAATATCTTCCTAAAGAGACATTTATTGTTAGCTCTAATCATGTAGTCTCTTCATCGGGCAGTATTCTAACAGGAGGTGGAGTAACCATTAATGCTGAACAAAATTAA	MSKYLPKETFIVSSNHVVSSSGSILTGGGVTINAEQN				NA	NA	NA	NA	NA
BMS003_03361	414			hypothetical protein	ATGGCAGAAAGAAATTCAAGAGGAATCTTAAAATTCAACAACGGAGAAGGACAGAAGCTGTTAAAAATGAACTACAGCGTATCAAGATCTACAGACGTTTCAGGACGTGTAGCATCAGACCCTTCTAACGCATTAATCAAGGTTACAGTAGAAGCTACTGAAAAATCAGACATCCTTGAAAGCTTATTAAACGGTAAATACAAGCCGACAGTAGGAGAAATTACATTCAACAAATCTCACGAAGAAGGAACACTGATCACTTTGAAATGGGAAAACGGATATGTAATCCAGCATGAAGTAGACTTCGATGCAGTAGACAGCAACAGTATGCTGATCAGCTTCGTAATAAGTGCAGAAACTATCGACTACGGTACTTCTCAGTACGCTGGACTGTGGCCTTCTTCAGGTAAATAA	MAERNSRGILKFNNGEGQKLLKMNYSVSRSTDVSGRVASDPSNALIKVTVEATEKSDILESLLNGKYKPTVGEITFNKSHEEGTLITLKWENGYVIQHEVDFDAVDSNSMLISFVISAETIDYGTSQYAGLWPSSGK				NA	NA	NA	NA	NA
BMS003_03362	2838	polA	COG0258	DNA polymerase I	ATGGACGCAACAAAAGATAAAAGGCTGTTTCTCATCGATGCCTATGCGATGATTTTCAGAGGATATTACGCATTGATCAGGAATCCAAGACTCACCAGCAAAGGGCTGGACACTTCTGCCATCTTTGGTTTTACCAATTCTCTGATCGAATTGATCAGAAGAGAAAGACCCACCCACCTGGCAGTAGTTTTTGATGTAGGACAAGCGAGTGTAAGAACTGATGATTTTTCAGAATACAAGGCTAACAGAAGCGAAACTCCCGAAGCAATTAAAATTGCAGTTCCATACATCCACAAAATTCTGGAAGCAATGCACATCCCGATTCTTGGAGTAGAAGGATATGAAGCTGATGACGTTATCGGAACTATTGCATGCAAAGCAGAAAAAGAAGGATATACCACTTTTATGGTGACTCCGGATAAAGATTTTGCACAGTTGGTTACCGATAATATTAAAATTTATAAGCCAGGATTAAAAGGTGGAGATATCGAAATCCTGGGAGTAGATGAAGTAAAGGCAAAATACGAGATTGAAGACCCGAAACAGGTAATAGATTTTCTTGCCATGATGGGAGATGCAGTAGATAATATTCCCGGATTAGAAGGAGTAGGAGAGAAAACTGCCATGAAATTCCTGAAAGAATTCGGAAATATCGAAACGTTGCTTGCCAATACCGATAAGTTGAAAGGAAAGCTGAAAGAAAAAGTGGAAGCATCTGCGGAACGCGGTATTTTGTCTAAAAAATTAGCAACCATTATCTGTGATGCTCCCGTAGAATTCCATCAGGAACAATATGACCTTGAAACTCCGGATTTTGAAAAAGTGAAAGAAGTTTTTGATGAAATAGAATTCAGAAGACTCTACGAAAATCTTTACAGAGCTTTTGCTCCTGCTGCTACCGAAGCTGTAGTTGTAGAGACTGAAGCAAAGGAGAAGCAGGCTTCTGCAGTGGCGGACGTAAAAGGGCAGGTAATGCAGCTAGATCTTTTTGCCAATTTCGAAGAACTGGAACAGGCTACTTCTACAAAATCTACCATTGAGCAGAACGATCATCTCTACCAGTTTATAGATAATCCTAAAGCCCAGAAAAGGCTGGTGGATAATTTATTACAACAAAAAGTAGTTTGTTTTGATACAGAAACCACTTCATTAAACGAGCTGGAAGCAGAATTGGTAGGAATGAGTTTCTCCTATAAAAAAGGACTTGCCTATTATATTCCTCTTTCTGAAAACAGAGAAGAAGTACTGCAGACCCTGGAGATTTTCAGACCGTTTTTCGAAAAAGAAGACCTGCTGAAAATTGCACACAATCTTAAATACGATTATAAAGTTTTAAAACAATACGACATCACCGTAAAAGGTGCTATGTTTGATACCATGATTGCCCACTACCTGCTGAATCCGGATGGGAGACACGGGATGGACTACCTTTCAGAAGTATACCTGAATTACAAACCGGTATCTATTGAAACCATTATAGGGAAAAAAGGTAAAAAACAAGGCAGCTTCAGAGATGCAGATGTAAGAACACAGACAGATTATGCCGCAGAAGATGCAGACGTAACCTTCCAGTTGTATGAACTCTTTGCACCACAGCTGAAAAAAGAAAACCTGGAGGAACTTTTCTTCAATATTGAAATGCCTCTGATGGAAGTACTGGCAAAAATGGAACTGGCAGGGATTTCTCTGGATGAAAAATGGCTGGCACAGGAAAGTGTTGACCTTGAAAATGATCTGAAACAGCTGGAAACAAAGATTTTTGAGCTTTCAGAAGAAGAATTCAATATGAATTCCCCTAAACAGCTGGGAGAAATTCTGTTTGAAAAATTACAGTTGGATCCGAAAGCCAAGAAAACAAAGACAGGACAGTATGCAACATCAGAAGATGTGCTTCAGAAACTGGCTTCAAAACATGAAATCATCAAACATATTCTGGAATACAGAACCTATCAGAAATTAAAATCAACCTATGTAGACGCTTTACCTTCACAGATTGACAAAAAAGATAACAGGGTACATACCAACTTCTCACAGACAACAGCAGCTACAGGCCGTTTGGCGAGTGTGAACCCGAACCTGCAGAATATTCCGATCCGAACCGTGAGAGGACAGCAGATTCGTGGAGCATTTGTTTCCGGAGAAGGGAAGAAGATTATTTCTGCCGATTATTCACAGATCGAACTTCGTTTGATTGCTGAAATTTCAGGAGAAGATAATATGATCAAAGCTTTCCAGAATGGAGAAGATATCCACGCTTCCACAGCTGCAAAACTCTTTAAAATTCCTTTGGCTGAGGTGTCTAAAACCCAGAGAAGTCAGGCTAAAACCGTAAACTTTGGAATTATCTATGGCCAGGGAGCTTTTGCTTTGGCAGAACAAACCGGATTGTCCCGTACCGAAGCCAAACAGATGATCGAAGCCTATTTCGAGACCTATCCGAAACTGAAAGAATATATGGCAGAACAGGTAAACAAAGCGCGCCAGTTAGGGTATGTAGAAACTATTTTAGGTAGAAAGCGTCACTTGAAAGATATCAATTCCAACAATTTTGTGGTAAGAGGTCATGCCGAAAGAAATGCAGTGAATGCACCCGTTCAGGGAAGTGCTGCAGATGTTGTAAAGCTTGCCATGATCAAAATAGACAGAGAATTTGAAGAACAAAACCTTAAAACAAAAATGCTTCTTCAGGTACATGACGAATTGATATTCGAGTCTCCTATAGATGAGATTGATGCCGCTTCAAAGCTGATCAAAACTGAAATGGAAAGTGCCTTAAAAACGCAGGTTCCGTTATTGGTAGAAATTGGAGTAGGAGATAACTGGTTAGAAGCGCATTAA	MDATKDKRLFLIDAYAMIFRGYYALIRNPRLTSKGLDTSAIFGFTNSLIELIRRERPTHLAVVFDVGQASVRTDDFSEYKANRSETPEAIKIAVPYIHKILEAMHIPILGVEGYEADDVIGTIACKAEKEGYTTFMVTPDKDFAQLVTDNIKIYKPGLKGGDIEILGVDEVKAKYEIEDPKQVIDFLAMMGDAVDNIPGLEGVGEKTAMKFLKEFGNIETLLANTDKLKGKLKEKVEASAERGILSKKLATIICDAPVEFHQEQYDLETPDFEKVKEVFDEIEFRRLYENLYRAFAPAATEAVVVETEAKEKQASAVADVKGQVMQLDLFANFEELEQATSTKSTIEQNDHLYQFIDNPKAQKRLVDNLLQQKVVCFDTETTSLNELEAELVGMSFSYKKGLAYYIPLSENREEVLQTLEIFRPFFEKEDLLKIAHNLKYDYKVLKQYDITVKGAMFDTMIAHYLLNPDGRHGMDYLSEVYLNYKPVSIETIIGKKGKKQGSFRDADVRTQTDYAAEDADVTFQLYELFAPQLKKENLEELFFNIEMPLMEVLAKMELAGISLDEKWLAQESVDLENDLKQLETKIFELSEEEFNMNSPKQLGEILFEKLQLDPKAKKTKTGQYATSEDVLQKLASKHEIIKHILEYRTYQKLKSTYVDALPSQIDKKDNRVHTNFSQTTAATGRLASVNPNLQNIPIRTVRGQQIRGAFVSGEGKKIISADYSQIELRLIAEISGEDNMIKAFQNGEDIHASTAAKLFKIPLAEVSKTQRSQAKTVNFGIIYGQGAFALAEQTGLSRTEAKQMIEAYFETYPKLKEYMAEQVNKARQLGYVETILGRKRHLKDINSNNFVVRGHAERNAVNAPVQGSAADVVKLAMIKIDREFEEQNLKTKMLLQVHDELIFESPIDEIDAASKLIKTEMESALKTQVPLLVEIGVGDNWLEAH				NA	NA	NA	NA	NA
BMS003_03363	186			hypothetical protein	ATGAATTTATATTCTACCCTACAAATCGGAGATTATCATACTAATCATTGTGAAGATGATCTTCTCATCAAAAAAATCAGTACGGATAAAATTGTATGTGCTGTGATGGATGGATGTTCTACCGCTATGGACAGTCATTTTGCTTCAACACTTATTGGAAAAATTTTGCGTAAAACCAACAGATGA	MNLYSTLQIGDYHTNHCEDDLLIKKISTDKIVCAVMDGCSTAMDSHFASTLIGKILRKTNR				NA	NA	NA	NA	NA
BMS003_03364	399			hypothetical protein	ATGGATAAAGAAATTTCACACTTCTGGTTAGGATACTTCAAGAATGAAGAAGACTTTTATAGCTTCGTAGAAGAGGATGAAAACTATTATATAGAGGAAGAAACTGATGATCAGTATGTTTCCAAGTTTGCAGAATCACAGAATATCAAATGGTTTGACGATGATTTTATTGAATATGGCTTTGAGGATGAAAGTCTTAGTCTTTATGACAAGTTCGCAGAGTATTCTTACGCAGACCAATGGCTACCAACCTTGGAGAGAAAACTGAATGAATTAAGTCTTGATACTCCCGTGAACGCTATTATTTTCGCAACTAGATTTGTGATTCCTAATCCGGTTTCTGTAGAAACTGACGATTATTCGCTGCATTATGTGGGGGAAGTAGAATACGACATCTAA	MDKEISHFWLGYFKNEEDFYSFVEEDENYYIEEETDDQYVSKFAESQNIKWFDDDFIEYGFEDESLSLYDKFAEYSYADQWLPTLERKLNELSLDTPVNAIIFATRFVIPNPVSVETDDYSLHYVGEVEYDI				NA	NA	NA	NA	NA
BMS003_03365	648			hypothetical protein	ATGGATTTTCTTCAGGACCATTACGCTGTTAAAAATGAATTACTGCTTATCCTTATTTCTGTTATCTTAGGGCTGCTCATTGGTGCTGAACGTGAATACCGTAATAAATCTGCCGGTCTCAGAACTTTTATACTGGTGTGCTTTGGAGCCTGTCTGTTTACGATACTTTCCATCAAAATAGGTGTAGACAATCCCGATCGCCTGGCAGCCAATATCATTACCGGAATTGGATTTCTGGGAGCAGGAGTCATTTTTAAAGGGGATAATAAAATTGAAGGTATTACCACAGCAACTACCATTTGGGCTACAGCTTCTATAGGTATGGCTGTAGGTTCCGGCTATGTTTATATTGCGATGCTGGGAACCTCTTTAGTACTGATTATTTTGAGTGTCTTAACTTATCTTCAGAATTTTATTGATCATTATAATAAAATCAGGGAATACAGAATTGCAGTTACCAGCTCAGAAGATATTAAATACTGTGAAAATATCTTTAAAGAAAACCATTTAGCTTATCTGATGATCAGACAGCAGTATTCACAGGAAGGTTTTACGGTGATCTGGAGAATTACAGGAAAAAATAGCCATCACGAAAGATTAACCAGACATTTGATAGATGATCCTAAGATTAAGGCCTATCAGTTTTAA	MDFLQDHYAVKNELLLILISVILGLLIGAEREYRNKSAGLRTFILVCFGACLFTILSIKIGVDNPDRLAANIITGIGFLGAGVIFKGDNKIEGITTATTIWATASIGMAVGSGYVYIAMLGTSLVLIILSVLTYLQNFIDHYNKIREYRIAVTSSEDIKYCENIFKENHLAYLMIRQQYSQEGFTVIWRITGKNSHHERLTRHLIDDPKIKAYQF	PGPT0014005_2161	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
BMS003_03366	483			hypothetical protein	ATGAAAAACAAAATGCTCATGTTGGGAATAGCATCTGTTCTGTTCCTTGCTTCATGTTCTAAAAAAGAAACCACTGAAACAACCGCTAATACAGATTCTGCAACGGCTGTACAACCTTCTGCTACAGACAGCATCACTAAAGCAACTCCTACAGCAGCTGGCGATACCTCTGAAAATGCATTGGACTGGGCGGGTACTTATGAAGCAACAGTTCCCTGCGCTGACTGCCCTGGAATCAAGACTTCTTTAACGTTGAACAATGACAAAACATTCAGTATTAGTGAAGAATATCTTGACAGAAATTCAAAGAATCAGGATAAAGGAACTTTTGCATGGGATGCTACAGGAAGTATGATTACTTTAAAAGGAAAATCTGCCAACTATCAATATAAAGTGGGTGAAAATATGCTGATCCAGCTTGATATGGAAGGAAAAGAAATTGACGGTCCGAACAAGGATCTCTATATCTTCAAGAAAAAATAA	MKNKMLMLGIASVLFLASCSKKETTETTANTDSATAVQPSATDSITKATPTAAGDTSENALDWAGTYEATVPCADCPGIKTSLTLNNDKTFSISEEYLDRNSKNQDKGTFAWDATGSMITLKGKSANYQYKVGENMLIQLDMEGKEIDGPNKDLYIFKKK	PGPT0004140_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0004140-cutF|nlpE-K06079	NA	NA
BMS003_03367	2139			Asp/Glu-specific dipeptidyl-peptidase	ATGACAAAAAAGATACTTTTATCTGTATTTCTTTTGCCGGCTGCAATGGCATTTGCACAACAATATGGAGGAATGTGGATTCCTACAGAGCTGAATGAAAAGGAAATGAAGGATTTGGGAATGAAGATCTCTGCAAAAGATATTTTTAACCCTCAGAAACCAAGTATTAAGGATGCAGTAGTACAGTTTAACGGCGGATGTACTGCAGAAATTATTTCGCCTAAAGGGCTGCTTTTAACGAATCACCACTGTGGTTTCGGTCAGATTCAGGCACATTCTACCGTTCAGAATGATCTTCTTTCTAACGGATTCTGGGCAAAAAATACAGAAGGAGAACTTCCTAACCCGGGAGTAAAAGTAGATTTTATTGTAGATATCAAAGAAGTTACTGATCCCATTTTAGAAGGTACAGACAATCTTACAGAGCCTGAACTGAGCAAAAAGATCAGTAACAATATTGAGGTGTACAAAAACTCTCAGAAAATTGAATCTTACCAGTCGATTATGGTAAAGCCTATGTATTATGGAAACAAATATTATGCTTACACCATAGAAACTTATAAAGATATCCGTCTTGTAGGGGCTCCGCCTCAAAGTATCGGGAAATTTGGAAGTGATACGGATAACTGGGTTTGGCCAAGACATACCGGAGACTTCTCTATGTTCAGAATCTATGCGGATAAAAACAACAAACCTGCAGAATATTCCAAAGACAATGTACCTTACGTTCCCAAACATTATTTACCGGTTTCTATAAAGGATAAGAACGAAAACGATTTTACTTTTGTATTCGGGTTTCCGGGAAGAACTACAGAATACCTTCCTGCAATAGGCGTAGAGAAAATTATGAAGGATATTGATCCTGCAAAAATTGCAGTACGTGATGTCGCTTTAAAAACATTAGATGAAAAAATGCGTGTTGATAATGAAACACGTATCAAATATGCTTCAAAATATGCCTCTGTAGCCAACTATTGGAAAAAATGGATCGGTGAAGTAGAAGGATTGAAAAAATCCAATGCTGTAGAAAAGAAAATAATGTATGAAGGTTCTTTGGTTGCTAAAAACCCGGAGATCAAAACGACTCTTGATCAGCTGAGTAAGTTATACAATGATCAGGCTCCTTATGCATTAAACAATGCTTATTACACAGAAGTAATCAGAAATGCTGAGACGTTGAAGCTTGCCGGAGACTATTATGATTTCGTAGCTTCTGTAGAAGCCGGAAGAATGGATGAAAAAGAGCTTTCCAAATTAAAAACAAAACTAACGTCCTTTTATAAAAATTACAGTGCGGATCTTGATGCCAAGGTTACGGCAAAATTATTGGCTTTATACGCTAATAAAACAGAACCTCAGTTTTTACCGGCAGGATTCAATAAATATAAAGATGAGAACGCCAATATCCCTGTAGTAGAAGATATGTCCAAAAACTCTGTTATCACAGGAAGAACAGCTGTGAATGGAGGAACATTGACTGCAGATATTGACAAAGCGTTTTCTAATCAGGATAAATTAATCAAAACTTTAAAGAAAGACCCGATTTATCAGCTGTATGTTTCTATGAAAGAAACGTATATGAAGACTGCAGATCCACAGTACACTTCAATGCAGGCAAAAATTGATGCTTTGCAGAAGAAATTCATGGCTCAGCAGATGAAGACAGATAAAGACAGAAAATTCTTCCCGGATGCCAACTCCACACTTCGTGTAACGTATGGCAAAGTAAAAGGTTCTACTCCCAGAGATGCTGTTTCTTATGGATATCAGACTCATCTTGCAGGGGTAATGGAAAAATATGTTCCGGGAGATTATGAATTCGATGTTCCAAAGAAACTGATTGATCTTTACAAGAAAAAAGATTTCGGAATCTATAAAGATAAAACAGGTGACGTTCCTGTAGGATTCACTGCAACCAACCACACAACCGGAGGAAACTCAGGTAGTCCTGCTCTGGATGCCAACGGAAACCTTGTTGGATTAAATTTTGACAGACAGTGGGAAGGAACAATGAGTGATATCAACTATGACCCGCGTTTCAGCAGAAATATCATGGTGGATACAAAATATATTCTTTTCATCATTGATAAATTCGCAGACTCAAAGTGGCTTGTTGATGAAATGAAGATTATAAAATAA	MTKKILLSVFLLPAAMAFAQQYGGMWIPTELNEKEMKDLGMKISAKDIFNPQKPSIKDAVVQFNGGCTAEIISPKGLLLTNHHCGFGQIQAHSTVQNDLLSNGFWAKNTEGELPNPGVKVDFIVDIKEVTDPILEGTDNLTEPELSKKISNNIEVYKNSQKIESYQSIMVKPMYYGNKYYAYTIETYKDIRLVGAPPQSIGKFGSDTDNWVWPRHTGDFSMFRIYADKNNKPAEYSKDNVPYVPKHYLPVSIKDKNENDFTFVFGFPGRTTEYLPAIGVEKIMKDIDPAKIAVRDVALKTLDEKMRVDNETRIKYASKYASVANYWKKWIGEVEGLKKSNAVEKKIMYEGSLVAKNPEIKTTLDQLSKLYNDQAPYALNNAYYTEVIRNAETLKLAGDYYDFVASVEAGRMDEKELSKLKTKLTSFYKNYSADLDAKVTAKLLALYANKTEPQFLPAGFNKYKDENANIPVVEDMSKNSVITGRTAVNGGTLTADIDKAFSNQDKLIKTLKKDPIYQLYVSMKETYMKTADPQYTSMQAKIDALQKKFMAQQMKTDKDRKFFPDANSTLRVTYGKVKGSTPRDAVSYGYQTHLAGVMEKYVPGDYEFDVPKKLIDLYKKKDFGIYKDKTGDVPVGFTATNHTTGGNSGSPALDANGNLVGLNFDRQWEGTMSDINYDPRFSRNIMVDTKYILFIIDKFADSKWLVDEMKIIK				NA	NA	NA	NA	NA
BMS003_03368	1002			hypothetical protein	ATGAAAGAAAGGATCATCAATGTTTTGGCAGCTTTTGAATCTGATCATATCGGAAAATCTTTTCCGCTGGATTATTGTCTGCCTCTTTATCACAGTGTTTCAGATAAAGAACTTTCCCATATAAAACATGTGATCCGCTATAAAACGACAAAACAGTTTGAGGACGATCTGGATCATTTATCAAAGAATTTTCAGTTTGTAGACTGGCAGGAGTTTAAAGAATTTACGTCCGGAAGTTTTAAACCAAAGAAAAAGATTGCTTTGCTTACTTTTGATGATGGTTTCAGGGAATTTTATGATGTTGCGGCTCCCATTTTGGAACGAAAAGGAATGTATGCCTGCAATTTTGTAAATCCGGCCTTCATAGACAATGAAGATATGATGTTCAGATGTAAAGCGAGCCTTCTTGCAGATGCTGTTGAGAAAAAGAAAACCATAGATCCGGAAGTCTATCGTATATTTTCTCTTGATCATCGTGCGGAGAAAGGTATTTTACGGAAGAAAATTTTATCCATAAATTATCAGGAAAAAGATATTTTGGATGAGCTTGCTGAAAAGTTTGAGGTAGATTTTCAAGCGTATTCAAAAGAATTTAAACCCTATTTAACTACAGGCGAATTAAAAGAGCTTACCCGAAGAGGTTTCGGAATCTCTTCGCACAGCTGGGATCACCCGAAATATGGAGACTTATCTTTGAAAGAACAAATGGAAACTACAGACAAGACTTTTGATTATTTAAAGGAAAACGGTTTTCTCCATGAAACTTTTGCCTTTCCCTTTACCGATTATGAAGTGAAGAAAGATTTTTTTGATGAACTTTTTAAAAATGAAGAAATCTACTGTAGTTTCGGATGTGCAGGGATAAAGCTGGACAGTGTGAAAAGAAATTTTCAGAGAATTCCAATGGAAATGGGGGAGAGCGGAGCACAGATCCTGAAAAAGGAAATAGTTTACTTCAGACTGAAAAAACTGATCAATAAAAATACAATTATTAGAGAATGA	MKERIINVLAAFESDHIGKSFPLDYCLPLYHSVSDKELSHIKHVIRYKTTKQFEDDLDHLSKNFQFVDWQEFKEFTSGSFKPKKKIALLTFDDGFREFYDVAAPILERKGMYACNFVNPAFIDNEDMMFRCKASLLADAVEKKKTIDPEVYRIFSLDHRAEKGILRKKILSINYQEKDILDELAEKFEVDFQAYSKEFKPYLTTGELKELTRRGFGISSHSWDHPKYGDLSLKEQMETTDKTFDYLKENGFLHETFAFPFTDYEVKKDFFDELFKNEEIYCSFGCAGIKLDSVKRNFQRIPMEMGESGAQILKKEIVYFRLKKLINKNTIIRE				NA	NA	NA	NA	NA
BMS003_03369	1077			hypothetical protein	ATGATAGTGCTGAAAACATTCAACAGTAAAGAACTGGAAGATTTTATATCCTCCGGAACTTTCCAGCAATATGATTTTCTCCCGATTACAAAGCATCGTGCTTTATCCCAGATCAAGAATCCTAAGGCAACAGACGAAGATACCCTTCTTATTCTTGCTTTGGATGAAGAAAAACTGATTGGCTATGTCGGATGTTTCCCAGATCGTTTTGTTGTTGACGGAAAAGAAATCCGTTACGCATGGCTGAGCACTTTATATGTAAATCCCGAATACAGAAAGAAAAGACCGGCAAAAGCTCTGTTGAAAAAGGTTTTTGAAGAATACGAAGGCAGAATTGCTATTACAGAATTTACTAAAGAAGCAGAAGCTCTATACACTATTATGGGGGTATTTGAATACGTTTTTCCTAAGAAAGGAAAAAGATATTATTTCAAAACCGATGCAGCTAAGATGATTCCTGAAAAAAAGCCGGTAGCAAAACCCTTGAAACCTCTTTTTCGGACATTGGATGCTGCTGCTAATTTATTCATCTCAATCAAGAATCTACCAATCAGGAAGCCAATTTTCAAATATGAAATTCTAGATCGTATAGATAAAGAAAGTGCAGATTTTATCAATATTTTTCCAGAAGTACGCAGTGCAGAGGAAATTAATACCTTTATAGATTATCCATGGGTTTTAGAGGGAAAGAAAGATGAAAGGTATCTTTTTTCAAGTTTTGCAGATACTTTTACCTATTTCTGGATCAAGATTTTTGATCAAAATAATACACTCAAAGCCTGCCTTCTATTACAGCTTCGTGATGGGTATCTTAAAATTCCTTACCTTTTTTCGAATACTAACTTAGATGAGGTCGCTCAGTTTTTAAATTATTTCATTGTTTCAAATAAAATAAAAGCATTTACAAGCTATCAAACGAAGCTTAATGAAGCGATACAGCACTCAAAAGTATTTTCTCCTATCTACCAACGGGATTTCCACAGAGAATATCTCTTTCATAAAAATCTATTGGAACTTCTTCCGAAAAATTTTAATCCCAATTACCAGGATGGAGATGGAGACTGTATGATGACATAA	MIVLKTFNSKELEDFISSGTFQQYDFLPITKHRALSQIKNPKATDEDTLLILALDEEKLIGYVGCFPDRFVVDGKEIRYAWLSTLYVNPEYRKKRPAKALLKKVFEEYEGRIAITEFTKEAEALYTIMGVFEYVFPKKGKRYYFKTDAAKMIPEKKPVAKPLKPLFRTLDAAANLFISIKNLPIRKPIFKYEILDRIDKESADFINIFPEVRSAEEINTFIDYPWVLEGKKDERYLFSSFADTFTYFWIKIFDQNNTLKACLLLQLRDGYLKIPYLFSNTNLDEVAQFLNYFIVSNKIKAFTSYQTKLNEAIQHSKVFSPIYQRDFHREYLFHKNLLELLPKNFNPNYQDGDGDCMMT				NA	NA	NA	NA	NA
BMS003_03370	2868			hypothetical protein	ATGACAGAAAGAAAATATAAGGAAACGGTTCATACTGATAAAAACCACTACGAATATATTACGGTAACCCACGATGAAAACAATGTAAGAATTTATACCCTGAAAAATGGCTTAAAGGTTTTTCTTGCCCAAAATTTTATTTCTCCAAGAATACAGACTTTTATTCCGGTAAGAACGGGAAGCAATAATGACCCGTCTGATAATACAGGATTAGCACACTACCTCGAACATATGATGTTTAAAGGGACTTCCAGAATAGGAACGCAAAACTGGGAAAAGGAAAAGGTATTGCTTGATGAGATTTCGGAACTGTATGAAAAACACAAGGCTGAGCAGGATGTGGAAAAGAAAAAAGAAATCTATAAAAAGATAGATGAAGTTTCTCAGGAAGCCAGTCAGTATGCTATTGCCAATGAATATGACAAAGCGATTTCTTCTTTAGGAGCCAGCGGAACAAATGCCCACACATGGTTTGATGAAACAGTTTACAAAAACAATATTCCGAATAATGAACTTGAGAAATGGCTGAAGATAGAAAAGGAAAGATTTTCTGAAATTATCCTTCGTCTTTTCCATACTGAGCTGGAATCTGTATATGAGGAGTTCAACAGAGCGCAGGATAATGATTCAAGGCTTGTTAATTATGAATTAATGGATGCCCTTTTTCCTACTCACCCCAACGGACAGCAAACTACATTAGGAAAGCCGGAACATCTGAAAAACCCTTCCATGAAGGCTATTCACAAATATTTTGATGAATATTATGTTCCTAACAATTATGCTTTGGTATTGGTCGGGGATCTTGATTTTGAAAAAACAATTCAATTAATTGATTCTTATTTTGGGACTTTGCCTTATAAAGAGCTTCCTAAAAAAACACCCGTTATTGAAAAGCCGATAACAGAAATTATAAAAAGAACCGTACAAAGTCCCACTACTCCACGTACTCAGCTGGCATGGAGAACAGATAATTATGGAACCCGTGAAGCGATGCTGGCAGACATCACTGCTAACATCCTTAGTAACAGAGGTGAAGCCGGATTATTGGACCTTCACATCAACCAGACTCAAAAAATGCTTTGGGCACAGGCCTTTTCTGTTGGACTGAAGCAATATGGATATTTCTCCATCGTTGCAGTTCCAAAGGAAACCCAGACCCTGGAAGAAGCCAGGAACATTGTACTGGAAGAAATTGAACTGATCAAAAAAGGAGATTTCCCGGACTGGATGCTGCCCGCCATCATTAATGATTTCAAACTTCAAAGGATGAAAGCTCTGGAAACAACGGAAGGGTTGGCCACTAATCTTTATGACACATATATAAAAGGAAGAACCTGGAAACAGGAGCTGAATGAAATGGATGAATATGCTTCCTTTACAAAAGAAGACATAGTGAAATTTACTAATGATTTTTTCAAAGAAAACTATGTTATCGTTGATAAGGAAAAAGGCGTTAACGACAGGTTAATCAGAGTGGAAAACCCAGGAATTACACCTATTAAAATCAATCGTGACAGTCAGTCTGAGTTTTTAACGGAGATTTTAGCGGATAAAACGGAGGATATACAACCTGTATTCATAGACTATCAGAAAGAAATTACTACTGCTGACATAAAAGGAAAGAAACTGAGCTTTGTTAAAAATAAATATAACGATATCGCCCAGGTACATTTCATTTTCCCTTTTGGAAGTGATAATGACAGGGATCTGGCTATTTCAACACAGTTTCTGCAGTATTTAGGAACAGATCAGTTTTCTCCCGAAGATTTAAAGAAAGAATTCTTCAAAATCGGGATCACAAATGATTTCAAAACAGTAAATAACCAGCTGACCATTACTCTAAGCGGATTGGAAGAGAATATAGAAAAAGGAATTACCCTGCTTCAGCACTGGATGACGGATGTAAAACCTGATCAGGATATCTACAGTCAATTTGTGAAAAGTGTCATAGAAAACCGACAAGCCATTAAAAAGGATAAAAACCGTATTATGACTGCCCTTACCAACTATACCAAGCTGGGCAGCAACTCCCGCTTTACAAACGTTATTTCTAAAGAAGAGCTTGAGAGTAGTACGGCTGAAGTATTTACTGACAGAATGAAAAATCTGTTTAAATTTCCTTATCAAATCTTTTTTTATGGAAAAAACTTTGAGCATTTCAATGGATACATTGGTAAATATGTTGAAACAGAAAGCATTTTGATCCCTGAAGCCAAACAATATCCTGAACCTGATACGGGAGGAAATGTTTACTTCATTAATTATGATATGGTTCAAATGGAAATGAGTAAAATAGGAAAAGGAAGTGAGGTAGATCCACAATATTTTGGTAAGGTAAATGTATTCAATGAATATTTCGGAAGAGGATTATCTTCCATCGTTTTCCAGGAAATGCGTGAGAGCAAAAGTCTTGCTTATTCTGCCTATGTTTCCTATGCAGCCAATTCGGAAATTAAACATCCTGATTACGTTACTACTTATATAGGAACACAGCCTGACAAACTTATGATTGCTGTGGATACATTGAATGAGCTGATGGAAAAACTTCCTGAAGTACCTATTCAGTTTGAAAACGCCAGAAATGCAGCTCTTAAACAGATTGCTTCAACAAGAGTGAGCCGTGAAAATGTATTTTTCAACACATTGAATCTTAAGAAGCTGAATATTTATCACGATTTCAGAAAAGACATCTATGAGCAGATCCAGGGTCTTACATTTGAAGATCTGACAGAATTCTATAAAACAAGAATCCAATCTGTACATTTCAACACAGCTATTATCGGTAAAAAAGAAAACCTTGATATGGACGCTGTCAATAAGATGGGAACATTTAAAGAAGTAAGTCTGAAAGATATCTTTGGACATTAA	MTERKYKETVHTDKNHYEYITVTHDENNVRIYTLKNGLKVFLAQNFISPRIQTFIPVRTGSNNDPSDNTGLAHYLEHMMFKGTSRIGTQNWEKEKVLLDEISELYEKHKAEQDVEKKKEIYKKIDEVSQEASQYAIANEYDKAISSLGASGTNAHTWFDETVYKNNIPNNELEKWLKIEKERFSEIILRLFHTELESVYEEFNRAQDNDSRLVNYELMDALFPTHPNGQQTTLGKPEHLKNPSMKAIHKYFDEYYVPNNYALVLVGDLDFEKTIQLIDSYFGTLPYKELPKKTPVIEKPITEIIKRTVQSPTTPRTQLAWRTDNYGTREAMLADITANILSNRGEAGLLDLHINQTQKMLWAQAFSVGLKQYGYFSIVAVPKETQTLEEARNIVLEEIELIKKGDFPDWMLPAIINDFKLQRMKALETTEGLATNLYDTYIKGRTWKQELNEMDEYASFTKEDIVKFTNDFFKENYVIVDKEKGVNDRLIRVENPGITPIKINRDSQSEFLTEILADKTEDIQPVFIDYQKEITTADIKGKKLSFVKNKYNDIAQVHFIFPFGSDNDRDLAISTQFLQYLGTDQFSPEDLKKEFFKIGITNDFKTVNNQLTITLSGLEENIEKGITLLQHWMTDVKPDQDIYSQFVKSVIENRQAIKKDKNRIMTALTNYTKLGSNSRFTNVISKEELESSTAEVFTDRMKNLFKFPYQIFFYGKNFEHFNGYIGKYVETESILIPEAKQYPEPDTGGNVYFINYDMVQMEMSKIGKGSEVDPQYFGKVNVFNEYFGRGLSSIVFQEMRESKSLAYSAYVSYAANSEIKHPDYVTTYIGTQPDKLMIAVDTLNELMEKLPEVPIQFENARNAALKQIASTRVSRENVFFNTLNLKKLNIYHDFRKDIYEQIQGLTFEDLTEFYKTRIQSVHFNTAIIGKKENLDMDAVNKMGTFKEVSLKDIFGH	PGPT0001280_70	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS003_03371	1659	nrdZ		Vitamin B12-dependent ribonucleoside-diphosphate reductase	ATGGAAGAGCAAAATTCAAATATATGGTGGCTCAATGAAGAGTCTGAGCAGATGCTGAACAGAGGATATCTGTTAAAAGGTGAAACGGTAGATGGAGCTATCGACAGAATTACTACTGCAGCTGCAAAAAGGTTATACAAACCTGAACTTCAACCGGCATTCAAAGAAATGATCACAAAAGGATGGATCAGTTTCTCTTCTCCTGTATGGGCTAATATGGGTACGGAAAGAGGTCTTCCTATTTCATGTTTCAATGTTCATATTCCAGACAGTATTGAAGGGATTACTCATAAAATGGGTGAAGTGATCATGCAGACCAAAATCGGAGGAGGTACTTCAGGATATTTCGGAGAATTAAGAAACAGAGGAACAGCTGTAACGGATAATGGGAAATCTTCAGGAGCCGTTTCATTCATGAAGCTTTTCGATACTGCTATGGATGTTGTTTCTCAGGGAGGGGTAAGAAGAGGGGCTTTTGCTGCTTACTTAGATATTGACCACGGAGATATTGAAGAGTTCTTATCCATCAAAGATATCGGGAGCCCTATTCAGAATCTGTTTACCGGAGTATGTGTACCGGATTACTGGATGCAGGATATGATAGATGGTGATATGGAAAAACGTAAAGTTTGGGCAAGAGTACTGGAAAGCCGCCAACAAAAAGGCCTTCCTTATATTTTCTTCACAGACAACGTGAACAGAAATAAACCTCAGGTTTATAAAGATTTGGGAATGACGGTGAATGCAAGTAACCTTTGTTCTGAAATCATGCTTCCTTCTACTATGGAAGAATCTTTCATCTGCTGTCTGTCTTCCATGAACCTGGAACTATACGATGAATGGAAAGACACAGATGCTGTAAAATTAGCAGTATACTTCCTTGATGCTGTATTATCTGAGTTTATTGACAAAACTGAAGGTAACTATTATCTGCAGGGAGCAAGAAATTTTGCTATGCGTCACAGAGCTCTTGGATTAGGAGTTTTAGGATACCACTCTTATTTACAGAAAAATATGATTCCGTTTGAAAGCTTTGAGGCGACTCAGTTCAATGCAAGAGCATTCAGACATATCAAAGAGCAGGCTGAGCAGGCTTCAAGAGAACTTGCCAACATCTATGGAGAACCTGAAGTATTGAAAGGCTACGGATTGAGAAATACCACAACAATGGCTATTGCTCCTACCACTTCAAGTTCTGCAATTTTAGGGCAGACTTCTCCTGGAATTGAGCCTTTCTCTTCTAACTATTATAAAGCAGGTCTTGCTAAAGGAAACTTTATGCGTAAGAACAAATACCTTGCACAACTACTGAAAGAAAAAGGACTGGATAATGAAGAAACATGGAGAACAATCATGCTCAACCATGGATCCGTACAGCACCTGAATGAGCTTACTCCTGAAGAAAAGGCAGTATTTAAAACATTCAAAGAAATTTCTCCAATGGAAATTATTTCCCAGGCAGCCCAGAGACAGCAGTATATTGATCAGGCGCAGTCGCTGAACCTTCAGATTCCATCCACAATGCCTGTAAAAGATGTCAACTACCTTTATATTGAAGCCTGGAAAAAAGGAGTAAAAACACTTTATTACCAAAGAAGTTCATCTGTTTCAAAAGAAATGATGGTTAACTTCGTATCATGTTCAAGTTGTGAGGCATAA	MEEQNSNIWWLNEESEQMLNRGYLLKGETVDGAIDRITTAAAKRLYKPELQPAFKEMITKGWISFSSPVWANMGTERGLPISCFNVHIPDSIEGITHKMGEVIMQTKIGGGTSGYFGELRNRGTAVTDNGKSSGAVSFMKLFDTAMDVVSQGGVRRGAFAAYLDIDHGDIEEFLSIKDIGSPIQNLFTGVCVPDYWMQDMIDGDMEKRKVWARVLESRQQKGLPYIFFTDNVNRNKPQVYKDLGMTVNASNLCSEIMLPSTMEESFICCLSSMNLELYDEWKDTDAVKLAVYFLDAVLSEFIDKTEGNYYLQGARNFAMRHRALGLGVLGYHSYLQKNMIPFESFEATQFNARAFRHIKEQAEQASRELANIYGEPEVLKGYGLRNTTTMAIAPTTSSSAILGQTSPGIEPFSSNYYKAGLAKGNFMRKNKYLAQLLKEKGLDNEETWRTIMLNHGSVQHLNELTPEEKAVFKTFKEISPMEIISQAAQRQQYIDQAQSLNLQIPSTMPVKDVNYLYIEAWKKGVKTLYYQRSSSVSKEMMVNFVSCSSCEA	PGPT0021340_6799	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS003_03372	291			hypothetical protein	ATGATCAATGTAATAGTAACCTATACGGTAAACCCCGAATTTGTTCCAAACAATAAAGCTAATATCCAAAAGTTTCTGGAAGATTTCAAAAATTTAGATCCTTCCACCTTTGAATATAAAGTTTTTGTAAAAGAAGACGGTGTTACTTTTGTACATTATTCAAACTACATCAATGAAGAAGTTCAGCATGAGGTTTTGAATGTTCCGTCTTTTAAAGAATTTCAGCAATTAAGAGATAAAAGCGGACTGAACGGTTCCCACAAAGTAGAACTTTTACAATCAATATTATAA	MINVIVTYTVNPEFVPNNKANIQKFLEDFKNLDPSTFEYKVFVKEDGVTFVHYSNYINEEVQHEVLNVPSFKEFQQLRDKSGLNGSHKVELLQSIL				NA	NA	NA	NA	NA
BMS003_03373	975	nrdB	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGGGAATTTTTGATAAAAGAGTAAGTTATAAGCCATTTGAATACCCGGAGGTTCTTCAATTTGTAGAGGCCATCAACAAATCGTTCTGGGTACATTCGGAAGTGGACTTTACTGCAGATGTTCAGGATTTTCATTCGCAGTTAGAACCACATGAAAAGCATGCTGTAAAAAATGCGCTGTTAGCCATTGCACAGATCGAGGTGTCTGTAAAGACATTCTGGGGGAATTTATACAACCACCTGCCAAAACCGGAATTCAATGGATTAGGATCTACTTTTGCAGAATGCGAGTTCCGTCATTCTGAAGCATATTCCCGTTTATTAGAGGTATTAGGATATAATGACGAATTCCTTAACGTTATCGAAATTCCTGCTGTAAAAGGAAGAATCGAATTCTTGGGAAATGCTTTAAAACATGCTAACTCAGCTACTCCTAAAGAGTATGTTTCCGCATTATTACTGTTCAGTATTTTAGTGGAAAACGTTTCTCTTTTCTCACAGTTTGCCATCATCCTTTCTTTCACAAGATTCAAAGGATTCATGAAAAATGTATCCAACATCATCGCATGGACTTCAGTAGATGAGCAGATTCACGCCAATGCAGGAATCTACCTGATCAACAAAATCCGTGAGGAACAACCTGACCTATTAACAGACAGCGATATTGAAGATATTTACACTTTGGTAGACGAATCTATTGCAAGAGAAGGAGACATCCTTAGCTGGATCTTCGAATTGGGAGAAATTGATCACGTTTCTAAGGAAGATCTTCTCAACTTCATGAAATACCGTGTAGATGACAGCCTGAAGAAAATCAACATGAAAACAAGATACAACATCACTCCGGAACAATATAGACCAATGGTATGGTTCGAAGAGGAAGTTTTCGCGAATTCACTAGATGATTTCTTTGCCAAAAGACCTGTAGACTACACAAAACACGATAAGAGTATTACAGCAAACGATTTGTTTTAA	MGIFDKRVSYKPFEYPEVLQFVEAINKSFWVHSEVDFTADVQDFHSQLEPHEKHAVKNALLAIAQIEVSVKTFWGNLYNHLPKPEFNGLGSTFAECEFRHSEAYSRLLEVLGYNDEFLNVIEIPAVKGRIEFLGNALKHANSATPKEYVSALLLFSILVENVSLFSQFAIILSFTRFKGFMKNVSNIIAWTSVDEQIHANAGIYLINKIREEQPDLLTDSDIEDIYTLVDESIAREGDILSWIFELGEIDHVSKEDLLNFMKYRVDDSLKKINMKTRYNITPEQYRPMVWFEEEVFANSLDDFFAKRPVDYTKHDKSITANDLF	PGPT0021345_3262	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS003_03374	690	yknY	COG1136	putative ABC transporter ATP-binding protein YknY	ATGTTAGTAATTCAGGATTTAAATAAGTCATACGATACAGGCAAAAGCAAGCTTCATGTTCTCAAAGGAATTAATCTGAATATTTCTGAAGGAGAGTTTGTTTCTATTATGGGAAGTTCCGGTTCCGGAAAATCTACGCTTCTTAATATTATTGGGATTCTGGATGAAAAAGATTCAGGAACCTATGAACTGGACGGAGTTCCTATTGAACACTTATCTGAAGTAAAAGCTGCGGAATACAGAAGCCGGTTTTTAGGATTTATTTTCCAGTCTTTTAACCTTATCAACTATAAAACAGCTTTGGAAAATGTAGCACTTCCTCTGTACTACCAGAATGTACCGAGAAAGGAGCGAAATCAGAAAGCTATGGAATATCTTGAGAAAGTAGGATTAGCGCAATGGGCCAATCACCTTCCCAGTGAGCTTTCCGGAGGACAGAAACAGAGAGTGGCTATTGCAAGAGCTTTGATTACTGACCCAAAAGTAGTGCTGGCAGATGAGCCTACCGGAGCATTGGACTCCAAAACAACTCATGATATTATGAAATTGCTTCAGGATATCAATAATGAAGGAAAAACAATCATTGTTGTAACCCACGAACCGGATGTTGCTGCACAAACCAAAAGAAATGTAGTACTGAAGGATGGAATTATTGAAAGTGATGAGTTTATTAAGCAGATTGTATTATAG	MLVIQDLNKSYDTGKSKLHVLKGINLNISEGEFVSIMGSSGSGKSTLLNIIGILDEKDSGTYELDGVPIEHLSEVKAAEYRSRFLGFIFQSFNLINYKTALENVALPLYYQNVPRKERNQKAMEYLEKVGLAQWANHLPSELSGGQKQRVAIARALITDPKVVLADEPTGALDSKTTHDIMKLLQDINNEGKTIIVVTHEPDVAAQTKRNVVLKDGIIESDEFIKQIVL	PGPT0013345_11617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS003_03375	1230	macB_1		Macrolide export ATP-binding/permease protein MacB	ATGTTTGACCTAGATCGTTGGCAGGAAATATTCAGTTCTATCCGGAGCAATGTGCTCAGGACAGTACTTTCAGGGTTTACAGTAGCCTTGGGACTGTTTATTTTCATTGTACTTTTTGGAATTGGAAAAGGACTTCAGAATGCTTTCTCAGAAGGATTCTCAGGCGATGCCAAAAACCTGATTACCATTGTTACAGGGAAAACTACAATAGCTTATAAAGGACTGCAGTCCGACAGAACGGTTACTTTGAATAACGGCGACTATGATTTTATTATCAATGCAGATAAGAAAAATGTAGGAGCGTCAAGTCCCAGATATAATGCCAGTTTAATGGTAAAATATGGGAAAGAAAGTGGAGTTTATCAGGTACATGGCGCTGAACCGGGTGAGCAGGTCATTGAAAACCGAAAGATGATTGATGGTAGATATATCACTCCCCGGGATCTGGAAGGAAAGCAAAATGTGGCAGTTATCGGAAGAATGGTTCAGAGGGATTTGATTAAGAACGGAAGTCCTGTAGGAAAAGAATTAGATATCAACGGATCCATATTTAAAGTAATAGGCGTTTTTTCGGATGATGGAGGAGACTGGGATGAAAGACATATCACAGTACCTATCACAACCTTACAACAGATGAAAAAAGGCTCAGATACGGTGAATATCGCTTATATTTCATACAGTGATAAACTGACTCCTGAACAAGCTATTAAATATGGTGACGAACTGAAAGATAAATTAAAAGCAAGAAAAAACGTATCTCCTGATGATGAAAACGGAGTGCGCGTCTGGAACAATGCGAAGAACATGAATGATACCTTTATATTTATGGCAGTTCTTACAGCCATTGTAGGATTTATTGGTCTGGGAACATTGCTGGCAGGAATTATCGGGATCAGTAACATCATGGTGTACATTGTAAAAGAAAGAACCAAAGAGATTGGTGTACGGAAAGCCATCGGAGCAAAGCCAAGCGGAATTGTAGGGCTGATTGTTCAGGAAAGTGTTGTCATTACAGTAGTATCAGGGCTTGTAGGAGTAGGTATAGGTGTTTTGACATTAAATCTTATCGGAAACAGTCTTGAAGAGTTTTTCATTAAAAGTCCAAGCGTAGGATGGGGATCTATTATTATGGCATTCATTGCTTTGATTTTCTCAGGATTGATCGCAGGATTTGTACCCGCATACAGAGCTTCAAGAATTAAACCGATAGAAGCACTGAGAACAGAATAA	MFDLDRWQEIFSSIRSNVLRTVLSGFTVALGLFIFIVLFGIGKGLQNAFSEGFSGDAKNLITIVTGKTTIAYKGLQSDRTVTLNNGDYDFIINADKKNVGASSPRYNASLMVKYGKESGVYQVHGAEPGEQVIENRKMIDGRYITPRDLEGKQNVAVIGRMVQRDLIKNGSPVGKELDINGSIFKVIGVFSDDGGDWDERHITVPITTLQQMKKGSDTVNIAYISYSDKLTPEQAIKYGDELKDKLKARKNVSPDDENGVRVWNNAKNMNDTFIFMAVLTAIVGFIGLGTLLAGIIGISNIMVYIVKERTKEIGVRKAIGAKPSGIVGLIVQESVVITVVSGLVGVGIGVLTLNLIGNSLEEFFIKSPSVGWGSIIMAFIALIFSGLIAGFVPAYRASRIKPIEALRTE	PGPT0013350_16176	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS003_03376	1272	macB_2	COG0577	Macrolide export ATP-binding/permease protein MacB	GTGAATATCATATTTAAAAAAGATACTTGGCAGGAAATTTATTATTCATTGAGGAATAATAAACTCCGAACATTTCTTACCATGATTGGAGTAGGATGGGGCATGTTTTTGTATGTAAGCCTTCTTGGAGCAGCAAAAGGAATGGAAAATGGTTTTGATAAATTATTTTCAGGATTTGCTACCAATTCCATCTTTCTGTGGGCGCAGAAAACATCCATTCCGTATGAAGGTTTTCCTAAGGGAAGAGACGTTCATCTGAACTTAACCGATATGGAAATGCTGAAAAGAAAAGTAACAGCCATAGATTACATATCTCCTCAAAATGCAAGAGGAAGCTTTACAGGAACACCTGGAGAAGCCATGTCCAGAAACGGAAAGAACGGAACCTATTCACTTACCGGAGATTATTCTGTAGGAAATAAAATTTCAGAAAAGAAACTGATCTTCGGACGCTACATCAACGATGCCGATGTTTCGGGAAATAAAAATGTAGTAGTAATAGGAGAAGAAATTTATAAAAACTTCTTTGATGCCAAGAAAAAAGAAAACCCAATAGGAAAGTCGGTCAATATTAAAGGACTGTTCTTTAATGTAATCGGAGTTTTCCGGGTGAAAAAAGGAGGCGGATTTGAAAATGACCAGACAGCCTTCATTCCACTTTCTACCTATACGAAAATGTATAATGCGGGAGACCAGATCGACATGTTTGCGATTGTAAGTAAGCCTAATGCCAATGTGAATTCCGTAGAAGAAGACGTAAAGCAGGTGTTGAAGGCAAAAAATAAGGTTTCACCGGAAGATACCAACGCATTTGGAAGTTTTAATTTAGGAAAAGAATTTAAAAAACTGACAGGTTTCCTTACGGGAATGCAGCTGTTGACCATTATTGTGGGGACACTTACCATTCTTGCAGGAGTTATTGCCATTTCTAATATCCTTTTGATTACGGTAAAAGAAAGAACCAAAGAAATCGGGATCAGAAGGGCATTGGGAGCAAAACCGGCAGAAGTAAGAAATCAGATTTTGCTGGAAAGTGTTGTGATCACACTCTCCTCCGGGTTATTAGGCTTTATGTTTGGAATTTTTGTTCTGATGATTCTGAATGCCATTACCCAGGGACAGGATTCATTTCCTTTCTATAATCCAACTGTTAATTATGGAAATGTATTTGCTGCGATGGCTGTAATGGTATTTTTAGGATTGGTAATCGGGATGATCCCTGCGCAGAGAGCCGTAAAGATCAGACCTATTGAGGCATTAAGAACAGAGTAA	MNIIFKKDTWQEIYYSLRNNKLRTFLTMIGVGWGMFLYVSLLGAAKGMENGFDKLFSGFATNSIFLWAQKTSIPYEGFPKGRDVHLNLTDMEMLKRKVTAIDYISPQNARGSFTGTPGEAMSRNGKNGTYSLTGDYSVGNKISEKKLIFGRYINDADVSGNKNVVVIGEEIYKNFFDAKKKENPIGKSVNIKGLFFNVIGVFRVKKGGGFENDQTAFIPLSTYTKMYNAGDQIDMFAIVSKPNANVNSVEEDVKQVLKAKNKVSPEDTNAFGSFNLGKEFKKLTGFLTGMQLLTIIVGTLTILAGVIAISNILLITVKERTKEIGIRRALGAKPAEVRNQILLESVVITLSSGLLGFMFGIFVLMILNAITQGQDSFPFYNPTVNYGNVFAAMAVMVFLGLVIGMIPAQRAVKIRPIEALRTE	PGPT0013350_13725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS003_03377	1212	macA	COG0845	Macrolide export protein MacA	ATGAAAAAGAAATTCACCTGGAAAAAAGCCATTTATATAGTGTTGGGGCTTTTATTTGCAGTGGCATTGTTCTCGGGGCTTGGCTATCTAATCAAATCGAACTCTAAAGAAGGTGAGGCCTTCCTTACCCGTAAGCCTACTGTCCAGAATATGGATGATAAAGTAATGGCAACAGGTAAAATTGTTCCCAAAGAAGAAATTGAAATCAAACCCAATATTGCGGGAATTATAGATAGGATTTTAGTAAAAGAAGGAGATAAGGTAGAGGTAGGGCAGCTTATTGCCACCGTAAAAATTGTTCCGAGTATTTCCGAAGTCAATGCAGCTCAGCAGGAAGTTCAGAATGCACAGATCCAGATCAGTAATGCACAGATGAATGTAGGAAATATGCAGAAGCAGTTTGAAATGCAGGAGAAACTATACAAACAGGGAGTCGCTTCAAAACAGGAATTTTTGAATTCTCAGCAGCAGTTATTCTCTCAGCAGCAGACCTTGAAAAATGCCCAGCAGCAATTGAATACCGCTCAGAAAAGATTACAGATTGCTAAAACCGGGGCAACTCCTGAACTTAAAGGACAAGGTTTGGCAACTACCGAAATCCGTTCCAAAACTTCGGGAACTGTACTTGAAGTTCCTGTAAAAGCAGGAAGCCAGGTAATTGAAGCTAATAACTTTAATGCCGGTACTACAATCTGTTCGGTTGCAGATTTGAATGTCCTGATCTTTAAAGGTGAAATTGATGAAGCACAAGCCGGAAAACTAAGTGAAGGGATGGATATGAACATCGTAATCGGTGCATTACAAAATAAAACCTTCCCGGGAAAACTAACAATGATCGCACCTAAAGGAAAAGATAATGCAGGAACTATTAAATTTCCGGTAGAAGGTAATGTAACTAATCCTAATAATGAGTATATTAGAGCAGGTTTTTCTGCCAACGGTGAAATTGTTTTGAGTTCCCAGAAAAATGCATTATTATTGGACGAATCTTTGGTTCAGTATGAAAAGAAACAAGGAAAAGACGTACCTTTCGTAGAAGTAAAACAAAAAGACGGCAAATTCAAAAAGGTATATGTGAAACTGGGAGCAAGTGACGGTATCAATGTTCAGGTTCTTCCGGGATCGGATATTACAAAAGATACTGAAATTAAAGTATGGAACCCGTCTGATAAAGACAAAGAAGAGCTGAAAGAGAAATCTAAGCAAAAATAA	MKKKFTWKKAIYIVLGLLFAVALFSGLGYLIKSNSKEGEAFLTRKPTVQNMDDKVMATGKIVPKEEIEIKPNIAGIIDRILVKEGDKVEVGQLIATVKIVPSISEVNAAQQEVQNAQIQISNAQMNVGNMQKQFEMQEKLYKQGVASKQEFLNSQQQLFSQQQTLKNAQQQLNTAQKRLQIAKTGATPELKGQGLATTEIRSKTSGTVLEVPVKAGSQVIEANNFNAGTTICSVADLNVLIFKGEIDEAQAGKLSEGMDMNIVIGALQNKTFPGKLTMIAPKGKDNAGTIKFPVEGNVTNPNNEYIRAGFSANGEIVLSSQKNALLLDESLVQYEKKQGKDVPFVEVKQKDGKFKKVYVKLGASDGINVQVLPGSDITKDTEIKVWNPSDKDKEELKEKSKQK				NA	NA	NA	NA	NA
BMS003_03378	1524			hypothetical protein	ATGAAAAAAGACTATTGGATTCTGTTACTTTTTATCATTGCAAAGTTTGCATTCCAATACTCATTGATAAGCCCTGAGTATGAACTTCACAGAGATGAATACCTGCATCTTGATCAGGCTAATCATCTTGCGTGGGGATATCTCTCTGTTCCTCCTGTTAATTCCTGGCTGGCCTGGATGATCAAAATGTTGGGAAACTCCATATTTTGGGTTAAATTTTTTCCAGCACTGTTCGGAGCTTTAACCATTGCATTAACCTGGAAAATAGTAGAAGAGCTCAACGGAAACCTGTTTGCTAAAATCCTGGCCTCTCTGGGGATATTGCTTTCAGTACTTCTAAGAGTGAATATGCTGTTTCAGCCAACATCTTTAGAAATTTTCCTGTGGCTGTTCCTTTATTATACTTTGATTAAATATTTCAATTCCCAACAAGTAAAATGGTTGTACATAAGCGCCGTTATTTTCGGAATAGGAATATTAAATAAATATAATATCGCTTTTTCATTATTGGGGCTTATTCCTGCATTGTTATTAACAGAACAAAGGAAGATCTTTATGCAGTCTCATGTATATTGGGCTGCACTTTTAGCATTACTCATTATTTTTCCCAATCTCCTCTGGCAGTATCAGAACCAGTTTCCGGTTATTCATCATATGAAAGAACTTTCCGAAAGACAGCTTGTACATGTAGACCGTATGGATTTTATGAAATCTCAGATCCTGTTTTTCATAGGTGTTATTTTCGTAATGATAGCAGGTTGGGGAGCATTATTATTATACAAACCATTTGAGAAATTCAGATTTTTCTTCTGGAGTTATCTCATAACAATTACCCTGTTTTTGTTTTTCAAAGCAAAAGATTATTATGCAATAGGATTATATCCCGTGTATATTGCTTTTGGCTCCGTTTTTCTCGGACATACTTTTGAAAAAGGTTGGAAGAGGTTTTTGAAACCCGTCAGCATTCTCATTCCGGTACTGTTATTTCTTCCTATGTATAATCTGGTCTTTCCGAATAAAAGTCCCGGATATATAGAATCCCATCAGGATCAATACAGAAAATTCGGACTGCTTCGTTGGGAAGATGGAAAAGATCATCCGTTGCCCCAGGATTTTGCCGATATGCAGGGCTGGAAAGAATTGACTGCAAAAGTAGATAAGGAATATTCCAGACTGGCAAAATCAGGTAATACCATGGTTTTGTGTGATAATTACGGACAGGCGGGTGCTATAAATTACTATTCAAAAGCAGGTGTTGTAGCAATGTCATTTAATGCAGATTATATTAATTGGATAGATCTAAGCAGGAAATATAAGAATGTGATCAGAGTCAAAGATGCTTCCGAAGCAGGGAATGAACTTAGTGAATCCGGTTCTTTTTTTGAAGTTGCCAAATTACAAGATTCCATTGCCAATCCATACGCAAGAGAAAGAGGAACTGCAATTTTCAGCCTACAGGGAGCAAAAATAGATGTTAATAAAAGAATTCAGGACGAAATTATCGAAGTGAAAGAAGAAAAGTAG	MKKDYWILLLFIIAKFAFQYSLISPEYELHRDEYLHLDQANHLAWGYLSVPPVNSWLAWMIKMLGNSIFWVKFFPALFGALTIALTWKIVEELNGNLFAKILASLGILLSVLLRVNMLFQPTSLEIFLWLFLYYTLIKYFNSQQVKWLYISAVIFGIGILNKYNIAFSLLGLIPALLLTEQRKIFMQSHVYWAALLALLIIFPNLLWQYQNQFPVIHHMKELSERQLVHVDRMDFMKSQILFFIGVIFVMIAGWGALLLYKPFEKFRFFFWSYLITITLFLFFKAKDYYAIGLYPVYIAFGSVFLGHTFEKGWKRFLKPVSILIPVLLFLPMYNLVFPNKSPGYIESHQDQYRKFGLLRWEDGKDHPLPQDFADMQGWKELTAKVDKEYSRLAKSGNTMVLCDNYGQAGAINYYSKAGVVAMSFNADYINWIDLSRKYKNVIRVKDASEAGNELSESGSFFEVAKLQDSIANPYARERGTAIFSLQGAKIDVNKRIQDEIIEVKEEK				NA	NA	NA	NA	NA
BMS003_03379	906	ahpF		Alkyl hydroperoxide reductase subunit F	ATGGAAAATAAAAAATTTGATGTCATTATTATAGGAGGAAGCTATTCAGGATTATCAGCAGGCATGTCTTTGGGGAGATCTTTAAGAAATGTTCTCATTATTGATAACGGAAAACCCTGTAACAGACAGACTCCACATTCCCATAATTTCGTTACCCACGATGGGAAAACTCCCGCAGAAATTGCAAAGCTGGCAAAAGAAGATATAGAAAAGTATGAAACCGTACGGTTTTATAATGGAAAAGTTGTAAAGACCACGAAAACTAATGAAGGTTTTGAGATTGAAACTTCATCACAGGAAAAATTCTACACCAAAAAACTGATTCTGGCCTCCGGGGTAAAAGATATTTTGCCGGATATTCCCGGGTTTGCAGAATGTTGGGGTATTTCTGTGATACATTGCCCGTACTGTCATGGCTATGAAGTGAAAAATCAGGTAACCGGTATTCTTTCTAACGGAGAAATGGCCTACGAATTCTCCAAACTGATTTTTAATCTGACTAAAAACCTTACCCTGTTTACCAACGGAAAGGCTTCACTTTCAAAAGAACAGATTGAAAAACTGAATCAGAATAAAATCATTCTTAACGAAGATGAAATTAAAGAAATAAAACATGAAAACGGATCTATTCAAAAGATAATTTTTAAAAACGGGCAGGAAGTTCCTTTACAGGCTTTGTATGCTAAAGTTCCTTTTGAGCAGAATATGAATGTGTCAGACAATCTGGAATGTGAACTTACGGAACAGGGGTTTATCAAGGTAGATATGATGCAGAAAACAACTGTTCCCGGAGTTTTTGCCTGCGGAGATAATGTCACTATGATGCGTTCTGTGGCCAATGCTGTTGCACAGGGAAATTTTGCTGGCGCAGTGGTAAATAAAGAACTTGCAGATGAGGAATTTTAA	MENKKFDVIIIGGSYSGLSAGMSLGRSLRNVLIIDNGKPCNRQTPHSHNFVTHDGKTPAEIAKLAKEDIEKYETVRFYNGKVVKTTKTNEGFEIETSSQEKFYTKKLILASGVKDILPDIPGFAECWGISVIHCPYCHGYEVKNQVTGILSNGEMAYEFSKLIFNLTKNLTLFTNGKASLSKEQIEKLNQNKIILNEDEIKEIKHENGSIQKIIFKNGQEVPLQALYAKVPFEQNMNVSDNLECELTEQGFIKVDMMQKTTVPGVFACGDNVTMMRSVANAVAQGNFAGAVVNKELADEEF				NA	NA	NA	NA	NA
BMS003_03380	1266	glyA		Serine hydroxymethyltransferase	ATGGATATTATTTTCGACCTGATTGAAAAGGAAAGACAAAGACAAACCCATGGATTAGAGCTTATTGCCTCAGAAAATTTTGTTTCTGACAATGTGATGAAAGCAATGGGAAGTGTACTGACAAACAAATATGCTGAAGGATATCCCGGGAAAAGATATTACGGAGGATGTGAAGTAGTAGATGAGGTTGAAACACTGGCAATCAACAGAGCAAAAGAGCTTTTCGGAGTAGATTATGTGAATGTTCAGCCACATTCCGGTTCTCAGGCGAATGCTGCCATTTATCTTGCAGTTTTGAAACCAGGTGACAAAATCATGGGGATGGATCTTTCCATGGGAGGCCACCTTACCCACGGTTCTGCAGTGAATTTTTCCGGTATTCAGTATAACGTAGTTTCTTACGGAGTTCAGCAGGAAACCGGTCTTATCGATTATGATCAGATGAGAGAAGTTGCATTGAGAGAAAAACCAAAAATGCTTATCGCAGGTTTCTCAGCATACTCAAGAGATCTGGATTATGCTAAGTTCAGAGAAGTTGCAGATGAAGTAGGTGCAACACTTTGGGCAGATATCGCTCACCCGGCAGGTTTAGTGGCAAAAGGATTACTAAACTCACCATTCGAACACTGTCATGTAGTAACTACCACTACTCACAAAACCCTTAGAGGACCAAGAGGAGGGATGATTATGATGGGTAAAGATTTCGAAAATACATATGGCCACAAAACACCGAAAGGAGAAATCAAAATGATGAGCCAGGTATTGGATGGAGCAGTATTCCCTGGTATTCAGGGAGGACCACTTGAGCATGTGATTGCCGGTAAAGCGGTGGCTTTCGGTGAAGCTTTGGATATACAGTTCGAAACCTATGCAAAACAGGTGAAGTCTAATGCTCAGGCATTATCAAAAGCAATGATCGACAGAGGATTTGACATTGTAAGTGGGGGTACAGACAATCACCTAATGTTAGTAGACCTTAGAAACAAAGGAGTAAACGGTAAGGAAACAGAAAAAGCATTAGTACTTGCTGATATTACTTGTAACAAAAACATGGTTCCTTTTGATGATAAGTCTCCGTTTACTACATCTGGTATCAGATTAGGAACTGCAGCCATTACAACAAGAGGGTTGAAAGAAAATGATATGGATACTATCGCAGGATTAATCTCTGAAGTAGTAGACAACATCAAAAATGAAGAAGTTCTTGCATCCGTAAGAAAGAAAGTAAATGAATTAATGGAAGGAAAAGCTTTGTTTAATTACTAA	MDIIFDLIEKERQRQTHGLELIASENFVSDNVMKAMGSVLTNKYAEGYPGKRYYGGCEVVDEVETLAINRAKELFGVDYVNVQPHSGSQANAAIYLAVLKPGDKIMGMDLSMGGHLTHGSAVNFSGIQYNVVSYGVQQETGLIDYDQMREVALREKPKMLIAGFSAYSRDLDYAKFREVADEVGATLWADIAHPAGLVAKGLLNSPFEHCHVVTTTTHKTLRGPRGGMIMMGKDFENTYGHKTPKGEIKMMSQVLDGAVFPGIQGGPLEHVIAGKAVAFGEALDIQFETYAKQVKSNAQALSKAMIDRGFDIVSGGTDNHLMLVDLRNKGVNGKETEKALVLADITCNKNMVPFDDKSPFTTSGIRLGTAAITTRGLKENDMDTIAGLISEVVDNIKNEEVLASVRKKVNELMEGKALFNY	PGPT0008090_4436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS003_03381	459	recX		Regulatory protein RecX	ATGGACAAAAAATCTTATACCTTCGAGGAAATCAAACAGAAACTGGTAAACTATTGTGTTTATCAGGATCGTTGTCATGCAGAAGTGGAACAGAAAATGAGAGAGTTTCTGCTTATAGATGAAGCAAAGGAAGAAATTATTCTATACCTTCTGAAAGAAAACTTTCTGAATGAAGAAAGGTTTACACGAAGCTATATCAGAGGTAAATTCTACATTAAGCACTGGGGCAGAACCAAAATAAAAATGAATCTGAAGCAGAAACAGATTTCTGAAAGGTTGATCAGTTCTTGTTTCGATGAGATATATGAGCCTGATTATGAAAAGACTATCAGGAAAATGTTTGATGAATATTATTCTAAACAGAACGGTTTGAAAGAATATCAAAAAAAAGCTAAAACGATAAAGTATTTGATGGGTAGGGGTTTTGAATATGAAAAAATAATTGATATTTTTGACTAA	MDKKSYTFEEIKQKLVNYCVYQDRCHAEVEQKMREFLLIDEAKEEIILYLLKENFLNEERFTRSYIRGKFYIKHWGRTKIKMNLKQKQISERLISSCFDEIYEPDYEKTIRKMFDEYYSKQNGLKEYQKKAKTIKYLMGRGFEYEKIIDIFD	PGPT0007240_2625	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
BMS003_03382	1905			hypothetical protein	ATGTTTGGAGGGGATAATGTTGTCAATCTCTCAGACGTAAGATATCTTCCTAGATGGATAATTCTTGTAATAGACATTATTATTCTGGTAATATCTTTATTCCTTTCTACTTACATTATCGCAAAAATTACTAAACAGGAATTTATATACCACGAAGATAAAAGCGTAATTTTCGCCTTTATTATTCTGGTGAATAGTGCTTTTATGTATGTTTTCAAAACTTACGCGGGGATTATTCGCCATTCTACATTTATAGATTTATTTAAGCTTCTGATATCCTGTTTTTGCACCATGCTGTGCATCGGAGCTATAAACATATTATATTTTTGGGGAACCGGGAGTAAATTTATACTTACTCCTTACCTGATTCTCTATTTTGTAATTTCTTTTATGGGGCTGTTTCTCTTTAGATTATATGTAAAAGAGTTTTTCCATATCGTAAGAGAATACAGAAGGAGTGCCTTGAAAAAAAGGATTCTTGTATTGGGAATTGATGAGCAGTCAATTGCTATTGCAAGAGCTATACTGGATAACCCAAGTCTTCCCTATCAGGTAGTAGGGTTTCTGACTCAGAGAACGGATTCAAAAAGAGCTTCTTTGCTCGGAAAACCAATCTATGAGAAGAAAAAGATTGAGGATAATACGAAAGAAGACCTTATTATAGATGGAGTTCTTATCGTAAAAGAAATGATGGCCAGAGATGAGGTTACTTCCTGGGTCAATTTATTTCTGGAGAAAGATCTTAACGTTTTTAAAGCACCTTCTGTACAAAAGCTGAGAGATAGTGATCTGGGAGGATCTATCAGAAATCTTCAGATTGAGGATTTACTGAATAGAAAACCTATTAAGATTCAAAATGAAAAAGTAAAAAGCAGGCATTTCGATAAAACGGTATTGGTAACCGGTGGAGCAGGATCCATAGGAAGTGAAATTGTAAGACAGGTAGCGCTCTTTAATCCTTCTTTAATTGTAGTTCTGGATCAGGCGGAAACACCACTTTATGAAATTGAACTTGAAATGAGAGAGAAATTTCCTCATATTTCTTTCAAATTCGTTTTAGGAGATGTTTCTAACCACCACAGAATGGAATCTCTGTTCCAGACGTATAACTTCTCAATGGTATATCATGCAGCTGCCTATAAGCATGTGCCTTTGGTAGAAGAAAATCCTCATGAAGCTATCTTTGTTAACATATTAGGATCAAAGATAGTTGCTAAATTATCAAGTAAGTATAAAGTAAACAGATTCGTTATGGTATCTACAGATAAAGCTGTAAACCCTACGAATGTAATGGGAGCTTCAAAAAGAGCTGCTGAGCTTTTTGTGCAGTCTCTTCAGAATGTAGAGGGCAATGTCACAAAATTTATTACAACAAGGTTTGGAAATGTACTGGGGTCTAATGGTTCAGTAATTCCTCATTTCAAAAAGCAAATTGAGGCAGGTGGTCCGGTAACGATTACCCATCCTGATATTGTGAGATATTTTATGACCATTCCGGAAGCCTGCGAATTGGTTCTTCAGGCAGGAACTATGGGTGAGGGAGGAGAAATATTTGTTTTTGATATGGGAGAACCTGTTAAAATTCTTGATCTTGCAAAAAGAATGATAAAGCTATCAGGGTTCGAACCTAATATTGATATTAAGATTATTTATACAGGATTGAGACCTGGAGAAAAGCTGTATGAGGAGCTTTTGAGTGATGATGCAAAGACACTTCCTACTCATAATGAGAAGATTATGATCTCTAAAGATCCTTCTATGGGATTTGCAGAAATAGATACCCTTACTAAAGAAATTACCAAAGCCTCTCTTAGAAGAGATAAAGTAGAAGTGGTAAGGATTCTAAAAACAATAGTTCCGGAATTCCGAAGCAATAATTCAATTTATGAGGCTCTGGATAAATAA	MFGGDNVVNLSDVRYLPRWIILVIDIIILVISLFLSTYIIAKITKQEFIYHEDKSVIFAFIILVNSAFMYVFKTYAGIIRHSTFIDLFKLLISCFCTMLCIGAINILYFWGTGSKFILTPYLILYFVISFMGLFLFRLYVKEFFHIVREYRRSALKKRILVLGIDEQSIAIARAILDNPSLPYQVVGFLTQRTDSKRASLLGKPIYEKKKIEDNTKEDLIIDGVLIVKEMMARDEVTSWVNLFLEKDLNVFKAPSVQKLRDSDLGGSIRNLQIEDLLNRKPIKIQNEKVKSRHFDKTVLVTGGAGSIGSEIVRQVALFNPSLIVVLDQAETPLYEIELEMREKFPHISFKFVLGDVSNHHRMESLFQTYNFSMVYHAAAYKHVPLVEENPHEAIFVNILGSKIVAKLSSKYKVNRFVMVSTDKAVNPTNVMGASKRAAELFVQSLQNVEGNVTKFITTRFGNVLGSNGSVIPHFKKQIEAGGPVTITHPDIVRYFMTIPEACELVLQAGTMGEGGEIFVFDMGEPVKILDLAKRMIKLSGFEPNIDIKIIYTGLRPGEKLYEELLSDDAKTLPTHNEKIMISKDPSMGFAEIDTLTKEITKASLRRDKVEVVRILKTIVPEFRSNNSIYEALDK	PGPT0018940_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0018940-pglF-K15912	NA	NA
BMS003_03383	825			hypothetical protein	ATGAAAGGAAAAATATTAGCAGTAATTTTGGCGTCCTCATTAGTGATTTCCTGTAAAGTTAATCCCAATGCTAAGAATGATTTAAATTATATGCAGAATATAGAACAGGTTGCAATCAACGCTTCTGCTAAAAATTCAGCAAATACCATCCAGGTGGGGGATCAGTTGGTTATTCTGATTACTGCAAAAGATATGGATGTTGTAAAACCTTTTAATCAGAATTATTCTTCATCAGAACTTATCCAAAGCAATGCTTTTGCAGGAGGAAATACTCCTAATCAGGGAGCCACAATGCTTTCCGGGCCAACTTATATTGTGGATGCAAATGGAAATATTGATTTTCCAATATTGGGAAAACTGAATACATCAGATAAAAGTTTGACAGTATTTAAAGATGAATTAAGGGATAAAATGACGAAATATGTTATTAATCCAACAGTTAATATAAGACTTTCAAATTTTAAAGTTACAGTACTGGGAGAAGTAAACAGGCAGGGAGATTATACTATAGCCAATGGACAGGCAACAATTTTAAATGCACTTGGGATGGCCGGTGATCTGACTCAGTATGGAAAGAGAGAAGATATACTTGTTGTAAGAACAGAAAATGGTGTTGTTTCTCATGGCCGTGTTAATCTTCAGGATGCTAATTTAATTAACTCTCCTTACTATAATCTGAAACAGGGGGATGCTATTATTGTTTCTTCAAATAATACAAAAGATGTGATGGCAAAGCAAAATCCCAATACAGGCCTTTACCTGACAGCAGCATCTATAGCAATTACAGCTGTAGCAGTAGTGGTAAGTTTATTTAATAAGAAATAA	MKGKILAVILASSLVISCKVNPNAKNDLNYMQNIEQVAINASAKNSANTIQVGDQLVILITAKDMDVVKPFNQNYSSSELIQSNAFAGGNTPNQGATMLSGPTYIVDANGNIDFPILGKLNTSDKSLTVFKDELRDKMTKYVINPTVNIRLSNFKVTVLGEVNRQGDYTIANGQATILNALGMAGDLTQYGKREDILVVRTENGVVSHGRVNLQDANLINSPYYNLKQGDAIIVSSNNTKDVMAKQNPNTGLYLTAASIAITAVAVVVSLFNKK	PGPT0025530_2567	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
BMS003_03384	2400	ptk	COG0489	Tyrosine-protein kinase ptk	ATGGATAACCAAAAATCTTCACAATTTTCACAGGAAGAAAAAAACTTAATCAAGATTAATATTGGTGAAATTATAAAACCATATGTCCGAAAATGGCCATGGTTTATCATAAGTGCATTTATTGCTTTGGTAATAGGCTATATTTCATTGAGATTTATGGTTCCTGTATATGGCGTACAGTCTACAATTCTTATCAAAGATGCTAAAAACTCTTCTTCATCAGCAATGGCAAATGATTTAGGTGTTTTACCTGATTTATCTGGAATTGGAGGACTTAAAACTAATAGCATAGCCAATGAAATAGAAGTTTTGAAGTCAAAAAAAATGATGAATGAAGTTATCACGAGTTTAAGTCTCCAAACTAATATTACAGCAAAAGGAAAAATTAGAACACTAGAGCTATATAAAGAAACTTCTCCCGTAGACGTGAGAATAATTGAAGAGAAAAAAAATGGGGGCTCTGTAAATACAATTCAGCTTGGAATCAATGGAGAAAAGTTAACTTTAAGTGGTGAGAAACTTAAAAAAGACATCGTAACGACTTATGGTAAAACAATAAGTTTACCATTTGCAAATATTATAATAACAAAAAATTTCAAATTTAACTCTGCAGAAGTTAAAGGCATAAACATAAATAATCTAGTACTTCAGATATCTTCTCTGGAAGCCTGCGTAAATAATCTCCAAGGGCCACTTAGTGTTGATCTTGTAAACAGAGAAACTACTGTATTAAAACTTGGGTATCAATACCCTCAGATTTCAAAAGGAAAAGATATCATTAATAGTTTGGTAAGTGCTTATAATAATGATGCTATTGTAGACAAAAATTCAGAATCAAAAAAGACGTTGGATTTTATTGAAGACAGGATAAAAAAATTATCGGGAGAATTAGGAGAGGTTGAAAATCAGAAAGAAATTTTTAAATCTAAAAATAATCTTACAGATTTAGAAACGGAAGCTAAAATTGATTTAGAAAGTTCTGCAGCTGCAAGAGCAAAACAACTAGATGTGGATGCTCAACTTGAACTAACGACAGCTCTTATAGGCTATGTTTCTAAACAAGGTCAATATCAGGTTCTGCCTGCAAACGTAGGGTTGAATAATCTTGAAGCAATATCAGGAATATCCACATATAACCAGCTTGTTCTTCAGAGGAACAGATTACTTGAATCTGCTACAGCAGAGAACCCTACTGTGATAGATATTACAAAGCAAATTAATGCAATGCGTAGTTCTATTATGCAAACTCTTCAAAGAAATAGAGTAGGTTTGGAGTTGGCAAAAAATGAATATTTAGGAGAACAAAATAAAGTTTCCGGGAAAATATCAAAGCTTCCTTCTATCGAAAAAATATTCAGAAGCATAGAAAGACAGCAGCAAATTAAAGAGAATCTGTATTTGCTTTTACTTCAAAAAAGAGAGGAGACAGCTATTGCACAGTCTATTATAGCCCCAAAAGCAAAAGTCCTGGATGCGGCATATGCTTCACCCGTGGCTATTTCACCAAAAACTAATGTTATTTTGACGGTTTATTTAGTAGCAGGTTTGTTAATCCCTTTTATTATTATTTATTTAACAATGCTTTTCAATAATAAAGTTGTCACAAAACATGACCTGGAGAAACTAATCCATGCCCCTATTATTGCAGAATTGCCAAGTCTTGAAAAAGGAGATTCTGAAATAGTAAAAATGAATGATATTACTCCCATGGCGGAAGCATTTAGAATTCTTATTACCAATATGAATTTCATGCTTTCAAAAGAGAAAAAAGGAAAAGTTGTATTTGTTACTTCTACCGTAAAAGGAGAAGGGAAAACATTCACATCTGTAAACCTGGCTCTGACACTGGCAAATCCTAAGAAAAAAGCAATTATTATAGGATCTGATATCAGAAACCCTCAGCTGCAGAGATATAATCCTGCCAGAAAAGGACTTGCAGGGCTTACGGAATATCTTTATAATGACCAGACTAAACTGGAAGATATTATTCATGTATCATCCTTTAATCCTTATCTGGATGTAATTTATTCAGGAATGATTCCTCCAAATCCAACAGAATTGTTATCCAACGGTCGCTATGATATTCTTCTGGATGAACTGAAAGATAAATATGAATATATTATCCTTGATACAGCACCATTGCTCCTTGTAACGGATACTTTCCTTATTGCTGAACTTTCTGATATCACCATTTACGTATCCCGATCTAAATACACAGAAAAAGCATTGTTAGAATTTGCAAACAGTAATATTGATCAGAAAAAAATCAAAAATGTTGGATTTGTGCTTAATGATGTAAGCAGAGAAAATTTAGGATATAGTAATAAGTATGGCTATGGTTATAACCAACATACTGAACAATCATGGTTTCAAAAAATAAAAAATAAACTAAGAAGTTAA	MDNQKSSQFSQEEKNLIKINIGEIIKPYVRKWPWFIISAFIALVIGYISLRFMVPVYGVQSTILIKDAKNSSSSAMANDLGVLPDLSGIGGLKTNSIANEIEVLKSKKMMNEVITSLSLQTNITAKGKIRTLELYKETSPVDVRIIEEKKNGGSVNTIQLGINGEKLTLSGEKLKKDIVTTYGKTISLPFANIIITKNFKFNSAEVKGININNLVLQISSLEACVNNLQGPLSVDLVNRETTVLKLGYQYPQISKGKDIINSLVSAYNNDAIVDKNSESKKTLDFIEDRIKKLSGELGEVENQKEIFKSKNNLTDLETEAKIDLESSAAARAKQLDVDAQLELTTALIGYVSKQGQYQVLPANVGLNNLEAISGISTYNQLVLQRNRLLESATAENPTVIDITKQINAMRSSIMQTLQRNRVGLELAKNEYLGEQNKVSGKISKLPSIEKIFRSIERQQQIKENLYLLLLQKREETAIAQSIIAPKAKVLDAAYASPVAISPKTNVILTVYLVAGLLIPFIIIYLTMLFNNKVVTKHDLEKLIHAPIIAELPSLEKGDSEIVKMNDITPMAEAFRILITNMNFMLSKEKKGKVVFVTSTVKGEGKTFTSVNLALTLANPKKKAIIIGSDIRNPQLQRYNPARKGLAGLTEYLYNDQTKLEDIIHVSSFNPYLDVIYSGMIPPNPTELLSNGRYDILLDELKDKYEYIILDTAPLLLVTDTFLIAELSDITIYVSRSKYTEKALLEFANSNIDQKKIKNVGFVLNDVSRENLGYSNKYGYGYNQHTEQSWFQKIKNKLRS	PGPT0023285_181	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
BMS003_03385	1296	wbpA_1	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGATGACAACATATAAAATAGCAGTTATAGGCCAGGGTTATGTAGGTCTTCCCCTATCTCTTGAATTTGCAGATCACTATCCTGTATTTGGATTTGATATCAATAAACAGCGTGTCGATCAGCTTAATAGTGGAAAGGATATAACCCTTGAAGCAGATGTTGATAAATTAAATAACGGACTGAAAAAATATAATGAATCTAATGGCTCGTTAGGATATAAAGCAACAAGCCTGTTATCCGATATTTCTGATGCTAATGTATTTATTGTAACAGTTCCTACCCCTATTGATAAATACAACGCCCCGGATCTGATGCCATTGATTTCTGCTTCGAAAATGCTGGGAGAAATTATCAAAAATGGGGATATTGTTATTTATGAATCTACAGTTTTCCCAGGATGTACAGAAGAAGAGTGTGTACCGGTTCTTGAAAAATATTCGGGACTTAAATTTAATGAAGACTTTTTTGTAGGATATTCTCCGGAAAGAATAAATCCCGGAGATAAAGTAAATACACTTACAAGTGTTAAAAAAGTAACATCTGGTTCTACTGAAAAGATTGCAGAAGAAGTAGATAACCTTTATAAAAAAATTATTACAGCAGGAACTCATAAAGCACCCAGCATCAAAGTAGCAGAAGCCTCCAAAGCTATTGAAAACGCACAAAGAGATGTTAATATTTCTTTTGTGAACGAATTAGCTTTAATTTTCGACAGAGTAGGAATAGATACCAATGATGTATTGGAAGCTGCAGGTACAAAATATAATTTTCTTAAATACAAACCTGGATTGGTGGGTGGACACTGTATTTCAGTAGATCCTTACTATCTTGCACACAAAGCAGAACAGTTGGGATATCATCCGGATGTCATCCTGTCTGGCAGACGAGTAAATGACTCTATTGCAAAGTTTGTCGCTGCTAAAGTAGTGAAGCTTCTTATTGCAAAAGGAGGAGTGATTAAAAATTCGAATGCTCTTATTTTAGGAGTTACATTCAAAGAAAACTGCCCGGATGTCAGAAATACCAAAGTTGTGGATATTTACAGAGAACTTGCTGATTACGGGGTTAATGTAGATATCTATGATCCGTGGGCCAGTAAGGAAGAAGTAAAACATGAATATGGAATAGATATTCTGGACACTCTTCAGGAAGGTAAAAAGTATGATTCTTTAGTGATTGCAGTATCTCATAATGAGTTTCTGGAAATGGATCTGGATCAGCTTAAAAAAGAAAATGCAGTGGTTTTTGATACCAAAGCATGTTTAGACAGAAACCTGGTAGATGCAAGATTGTAA	MMTTYKIAVIGQGYVGLPLSLEFADHYPVFGFDINKQRVDQLNSGKDITLEADVDKLNNGLKKYNESNGSLGYKATSLLSDISDANVFIVTVPTPIDKYNAPDLMPLISASKMLGEIIKNGDIVIYESTVFPGCTEEECVPVLEKYSGLKFNEDFFVGYSPERINPGDKVNTLTSVKKVTSGSTEKIAEEVDNLYKKIITAGTHKAPSIKVAEASKAIENAQRDVNISFVNELALIFDRVGIDTNDVLEAAGTKYNFLKYKPGLVGGHCISVDPYYLAHKAEQLGYHPDVILSGRRVNDSIAKFVAAKVVKLLIAKGGVIKNSNALILGVTFKENCPDVRNTKVVDIYRELADYGVNVDIYDPWASKEEVKHEYGIDILDTLQEGKKYDSLVIAVSHNEFLEMDLDQLKKENAVVFDTKACLDRNLVDARL	PGPT0018915_390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_GALACTOSAMINURONIC_ACID_MODIFICATION,PGPT0018915-wbpo-K02474	NA	NA
BMS003_03386	1191	lhgD	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGAACTATGATATTATCATCATTGGTGCAGGTTTGGTAGGATTGGCTACAGCCTATCAGACGAAGCTTAAAAATCCCGATTCTAAGATTCTGATTTTAGAAAAGGAAAACAATGTTGCATTGCACCAATCGGGGCATAACAGTGGTGTAATCCACAGCGGAATTTATTACAAACCAGGAAGTCTGAAAGCAAAAAACTGTATTGAAGGCTATAATTCGGTCATTAATTTTGCTGAGAAATATGGCATACGATATGATCTTTGTGGAAAGATAATTGTAGCAACCTCACAGGAAGAATTACCGCTTTTAGATAATATTTATAAAAGAGGAGTCGAAAACGGACTTCAGGATTTAAAATATCTTTCCAGAGAAGAATTCCGCGAAATTGAACCGCACTGTGAAGGGGTAAAAGCTATCAGAGTTCCACAAACAGGAATTATTGATTATCCGGGAATAGCCAGAAAAATAAAAGAGCTTTTTGAAGAATTAGGAGGAGAAGTAAGATTTAATAATGAAGTAAAAAACATTATTGATAAAGGATCTGAAATTATTGTCAATACCAATATTTCCGAATTTAAAACCAAAAAGCTGATTTCCTGTGCAGGATTATATTCTGATAAGATAACCAAAATGACCAACGAAAAAAATGATGTGGTTATTATTCCCTTTAGAGGAGAATACTATAAAATTAAGGATGAAAAAAAATACCTGGTAAAACATCTTATTTACCCGGTACCTGATCCTAGTTTTCCATTTCTCGGAGTTCATTTTACCAGAATGATTGATGGCAATATAGAAGCTGGACCTAATGCCGTTCTGGCTTTTAAAAAAGAAGGATATCATTTTTTTGATTTCAATTTTGGTGAAACCATGCAGACGATGCTATGGCCGGGATTTAGAAAAATTGTAGCCAAATACGGTAAAACCGGAATGGGAGAAATGCACCGTTCACTTTCCAAATCTGCATTTACAAAAGCGCTCCGGAAACTTTTACCAGAAATACAGGAAAGCGATCTTGTCACAGGAGGGGCAGGCGTGAGAGCTCAGGCTTGTGACAGAAACGGAGGACTAATTGATGATTTTGATATTGTGAAAAATGGAAACATCATTCATGTCAGAAACGCACCTTCTCCTGCAGCCACTTCCTGTCTTTCCATAGGAAATAAAATCAGTGAGCTTGTCATCAATTAA	MNYDIIIIGAGLVGLATAYQTKLKNPDSKILILEKENNVALHQSGHNSGVIHSGIYYKPGSLKAKNCIEGYNSVINFAEKYGIRYDLCGKIIVATSQEELPLLDNIYKRGVENGLQDLKYLSREEFREIEPHCEGVKAIRVPQTGIIDYPGIARKIKELFEELGGEVRFNNEVKNIIDKGSEIIVNTNISEFKTKKLISCAGLYSDKITKMTNEKNDVVIIPFRGEYYKIKDEKKYLVKHLIYPVPDPSFPFLGVHFTRMIDGNIEAGPNAVLAFKKEGYHFFDFNFGETMQTMLWPGFRKIVAKYGKTGMGEMHRSLSKSAFTKALRKLLPEIQESDLVTGGAGVRAQACDRNGGLIDDFDIVKNGNIIHVRNAPSPAATSCLSIGNKISELVIN	PGPT0013225_833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUTARATE_UTILIZATION,PGPT0013225-lhgO|ygaF-K15736	NA	NA
BMS003_03387	546	wbpE_2	COG0399	UDP-2-acetamido-2-deoxy-3-oxo-D-glucuronate aminotransferase	ATGGTGGACCTTAAAGGTCAGTACCTGAAAATAAAAGAAGAGGTAGATGTCAGTATTCAGGAATGTATTGACAGTACAACTTTTATTAAGGGTTCCGCTGTAAAAGAATTTCAACAAAACCTTGTAGGATATTTAAACGTAAAACATGTTACTCCATGTGCTAATGGTACAGATGCCCTTCAAATTGCTATGATGGCTCTTAATCTGCAGCCTGGTGACGAAACAATCTGTCCTACTTTTACTTATGTAACGACGGCAGAAATTATAGGACATTTAGGATTAAAGTCTGTAATGGTTCTTACAGTGAAGAATGGGCGAAGAGGTAAATTACAAAGATATTCAGCAGAAAAAAACACTCCAAGTATGATATATTATCCTTTCCCCCTTTACAAGCAGGAAGCTTTTCTTCAGTATGTAGAAGAAAGTTTTAGCCTTCCGGTTACGGAACAGCTTTGCAAAGAGGTTATTTCACTTCCTGTACATACAGAATTTGATCCGGAAGTGTTGGATGTTATTATTACAGAACTTAAGAACTATTTTAATTAA	MVDLKGQYLKIKEEVDVSIQECIDSTTFIKGSAVKEFQQNLVGYLNVKHVTPCANGTDALQIAMMALNLQPGDETICPTFTYVTTAEIIGHLGLKSVMVLTVKNGRRGKLQRYSAEKNTPSMIYYPFPLYKQEAFLQYVEESFSLPVTEQLCKEVISLPVHTEFDPEVLDVIITELKNYFN	PGPT0022700_304	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022700-wbpE|wlbC-K13017	NA	NA
BMS003_03388	573	wbpD	COG0110	UDP-2-acetamido-3-amino-2,3-dideoxy-D-glucuronate N-acetyltransferase	ATGTCGGATTTTTTTGCACACGAAACAGCAATTATTGACGAAGGATGTCAAATAGGTGACGGAACCAAAATTTGGCACTTTTCACATCTTATGACAGGTTGTATTTTGGGCGAGAAATGTAACATTGGTCAGAATGTTGTCATCTCTCCTAAAGTTGTTTTAGGAAAGAATGTAAAAGTTCAGAACAATGTTTCCATCTATGAAGGGGTAACATGTGATGATGACGTTTTTTTAGGCCCTTCAATGGTTTTTACCAATGTAATTAATCCAAGAAGTGCTGTAAACAGGAAGAATGAATACCTGAAAACGCATGTTGGAAAAGGAGCGTCTATAGGAGCTAATGCAACTATTGTTTGTGGGCATAACATAGGTCAGTATGCTTTTATCGGAGCAGGAGCAGTGGTTACAAAAGAAGTGCCGGATTATGCATTGGTAGTGGGAAACCCTGCCAGGCAAATGGGGTGGATGAGTGAATTTGGACAAAGACTTCAGTTTGATGCAGAAAATATTGCTGTCTGTGAAGAAAGTGGAGAGACATATAAATTAGAAAACAATAAAGTTTCAAAAATTTAG	MSDFFAHETAIIDEGCQIGDGTKIWHFSHLMTGCILGEKCNIGQNVVISPKVVLGKNVKVQNNVSIYEGVTCDDDVFLGPSMVFTNVINPRSAVNRKNEYLKTHVGKGASIGANATIVCGHNIGQYAFIGAGAVVTKEVPDYALVVGNPARQMGWMSEFGQRLQFDAENIAVCEESGETYKLENNKVSKI	PGPT0022705_631	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
BMS003_03389	1011	iolG_2		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGTGAAAAAATAAAATTTGCAGTAGTTGGCTGCGGGCATATCGGGAAAAGACATGCTGAAATGATATCAAGAAATGAAGAATGTGAATTGGTTGGGCTGATCGATGTTAAAAATAAATCTGTCCTGGGAATAGAAAATTATGATGCACCTTTTTTTGCATCATTGGATGAATTCTTAGCTTCAGGGATTGAAGTAGATGTTATCAATATAGCTTCTCCAAACGGATTCCATTTTGAACAGTCTTATAAAGTGATAGATGCAGGAAAACACGTTGTGGTAGAAAAGCCAATGGCTCTGAAAAAACAGCATGCTGAGAAACTTATTTTTCAGGCTTTGCATAAACATAAACAAGTTTTTGCAGTGATGCAAAACAGGTATTCCCCACCTTCTGCATGGGTGAAAGAAATGGTAGAAAGCGGAAAATTGGGGAATATATATATGGTTCAGCTTAATTGCTACTGGAACCGTGATGACAGATACTATAAACCAGAATCCTGGCACGGTAAGAAAGAACTGGATGGAGGAACATTATTTACACAATTCTCCCATTTCATAGATATCATGTACTGGTTGTTTGGTGATATTACCAACATTCAGGCAAAATTTGCAGATTTTAATCATCAAACTCTTACAGATTTTGAAGACTCAGGTTTTGTTAGCTTTGATTTTGTAGATGGAGGAATGGGAGCGCTGAATTATTCTACTTCAGTCTGGAATCAAAACCTTGAAAGTTCTATGACCATTATCGCAGAAAATGGATCAGTGAAGATTGGAGGACAATATATGGACAAAGTAGAAATTTGTAATGTAAAAGACTATGTAATGCCAGAATTGGCTCCAACAAATCCTGGAAATGATTATGGTGCTTATAAAGGATCTGCAGCTAATCATCATTATATTATTGAAAATGTTGTAGATGTATTAAAAGGAAGAAATACCATCACTACTAATGGTTTGGAAGGATTGAAAGTGGTGGATATAATAGAGCGAATTTATGATAAAAAGTAG	MSEKIKFAVVGCGHIGKRHAEMISRNEECELVGLIDVKNKSVLGIENYDAPFFASLDEFLASGIEVDVINIASPNGFHFEQSYKVIDAGKHVVVEKPMALKKQHAEKLIFQALHKHKQVFAVMQNRYSPPSAWVKEMVESGKLGNIYMVQLNCYWNRDDRYYKPESWHGKKELDGGTLFTQFSHFIDIMYWLFGDITNIQAKFADFNHQTLTDFEDSGFVSFDFVDGGMGALNYSTSVWNQNLESSMTIIAENGSVKIGGQYMDKVEICNVKDYVMPELAPTNPGNDYGAYKGSAANHHYIIENVVDVLKGRNTITTNGLEGLKVVDIIERIYDKK	PGPT0022715_674	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
BMS003_03390	1380			hypothetical protein	TTGGTAACAAGTAATTATTTCTCAGAAATACTTCCAGATCGTAGGTTACAGGAGTGGGTAGGTAATATTTTTAGAGAAAGATTTGACGTAGATGTCCAGGTTGAGTTTTCAGAGGATCATTTCTGTTTAATTTTTTCGAAGAAAGACCATTTTGTAACAATTAATTTTACGAATAATGGAAGACAAAAATTGTTCAGTAAAGAAAATACTTTAAGTTATATATCAAGAGAGTCTGTTTCAGAAATAATAGGTTTAGAAATTCCAAATGAAAATTTAGTTTTATTTGGAGTTTCGGAGATTGATTGGTTTATCAAGAATGAGAATAAGGTTTTTACAATAAATTATGACTTCATATCATATATGATATGGACTCTTAATAGAATGGAGGAGTATGGAGTACAAACTGAAGATATACATTCTAGATTTGAGTTGAAATATTCTCATTTATTTAATGATGAATTATACCTAAGACCAATAGTTGACGAGTGGATTCATTTTATCGGAAGTATACTTTGTACTTCCGGAATTAATTGTAAAATAAATAAGTTTTTTTATGAAGTAAGTCACGACGTAGATAAGATATCCAGATATATTAGTGTTCCCAAAACTAAATTCATTGCACTTTTTCTTATAGATTTAGTGAAAAGACCAAAGTTAGCTGTCTCTTATTTAAGAAACAGAGCATTTTTTTTTGATAATGAAACATGTAATACTTTTGATTGGCTTATGGATGTTTCTGAGAAACATGGTGTTATCAGTAAGTTTTATTTTATTCCGGACAATACTTCTTTCAAATATGATTTTAGATATAACTATACCGGTTTTGTAAAACGTCTTATAAAAAAAATAGATGATAGAGGTCATGAAATAGGCATTCATTACAGCTATAGTGCATCATCAAAATTTAATATCAAGACAGAGTGGATGAAGCTGAGAAAAATTTTGTCTGAATTGAATATTCCTACAGATCTTGGTGGTAGAATGCATTATTTAAGAATTAATTTTCTCGAAACATTAAGACAGATTTCCGAAGTTGGACAAGAGTATGATAATACGTTAACATTTCATGAAACGGGAGGCTTTAGATGTGGAACATGTTTTCCCTATAAACCATTTGATATTTATAATAAATCAATTCTGAATGTAGAAATAAGACCATTAACTATAATGGAAGGAAGTGTTTTAGATTATTCTAAAATAAGTATAGATGATGATAAGGCTCTTCATTACGTGAAAAAAATAGTTCTTCAGTGCTACAAAGTTGGAGGAAGATTTTCATTACTTTGGCATAATGATGAATTTGAGAGTGAAAAAAAGAAAGAATTATACTGTCAGATCCTTGAATTTTGTTCAACCTTGAATAATACAAAGCAAGTATGA	MVTSNYFSEILPDRRLQEWVGNIFRERFDVDVQVEFSEDHFCLIFSKKDHFVTINFTNNGRQKLFSKENTLSYISRESVSEIIGLEIPNENLVLFGVSEIDWFIKNENKVFTINYDFISYMIWTLNRMEEYGVQTEDIHSRFELKYSHLFNDELYLRPIVDEWIHFIGSILCTSGINCKINKFFYEVSHDVDKISRYISVPKTKFIALFLIDLVKRPKLAVSYLRNRAFFFDNETCNTFDWLMDVSEKHGVISKFYFIPDNTSFKYDFRYNYTGFVKRLIKKIDDRGHEIGIHYSYSASSKFNIKTEWMKLRKILSELNIPTDLGGRMHYLRINFLETLRQISEVGQEYDNTLTFHETGGFRCGTCFPYKPFDIYNKSILNVEIRPLTIMEGSVLDYSKISIDDDKALHYVKKIVLQCYKVGGRFSLLWHNDEFESEKKKELYCQILEFCSTLNNTKQV				NA	NA	NA	NA	NA
BMS003_03391	1071			hypothetical protein	ATGAGAATTTTGATAACAGATGCAAATTACAAAAATTCTATAGCAATACAGCGGGAATTGTATAGAGAAAATGTACACGAAGTTTTTGCTACAGATAAAGAAGCCGTTTTTTTTACTAAAAGGTTGGGCTATTGTAAAGATTATATTATAGGAGGTTTAGACGAATCTATCAGACAAATCAAACCTGAATTCATAATTCCGGTAGGAAGTGAAGCCGTAAAGATCTGTTCAGAAAAATATAGAGAATTATGTTTAATCCCTACAAAAGAGAGTCTTGAAATAGCATTAAATAAAGATAAAATGCTAGTTTTGAATTCTCTTAGAGATGTAAATTATCCTGAATGCAAATTATTTTCAAATCTTGAAGAATTAAGGCTATATAGCAGAGATAAAAACTGTGTTGTTAAATCAAGTAATGAAAGTTTAGCTAAATTTGACCCGATATATGTACAATCAGGTTCTGAATCTGAATTTGATGAAATAGAAAAATACTTGTCAGGAGGAGTAAAGTTATTAATGCAGGAACGAGTATCAGGAGTAGGCAGAGGTTTTTTTTGTATTGCTAAAGAAGGTAAGATCATTAGTTATTATATGCATGAGCGTATTAGAGAAATACCAATTACAGGAGGATCTAGTACAGCAGCGAAGTCGGTTTTTTGTGAGGAGATGTTTAAGATATCCAAACAGATTATTGAGTATTTAAAATGGTCAGGCCCTCTGATGATTGAGTATAAGTATGATGAACCTAACCAAAAATATCATTTGATAGAACTCAACCCTAAATTTTGGGGTTCATTAGATTTATCTTATGCATTAGGATTGAGTTTTGGGAGAACTTTGATAGATGCCTATTCAAAGAATGTAAGCGAACAACTTGAAAAGAAATATGAAGTTGGGGAAAAATTTTTTTGGGTTTTAGATGGAGATCTTTTAGGCTTGCTTAAAACAGGAAAGCTGTACAAAATAAAAGAATACTTCCAGAAAAATTCTCATACGAATTTGTTTGAAAACTTTTCCATTGATTTGATGAAATTAATGTGGACAATAAAGAAAATTTTCTCAAGTAATTAA	MRILITDANYKNSIAIQRELYRENVHEVFATDKEAVFFTKRLGYCKDYIIGGLDESIRQIKPEFIIPVGSEAVKICSEKYRELCLIPTKESLEIALNKDKMLVLNSLRDVNYPECKLFSNLEELRLYSRDKNCVVKSSNESLAKFDPIYVQSGSESEFDEIEKYLSGGVKLLMQERVSGVGRGFFCIAKEGKIISYYMHERIREIPITGGSSTAAKSVFCEEMFKISKQIIEYLKWSGPLMIEYKYDEPNQKYHLIELNPKFWGSLDLSYALGLSFGRTLIDAYSKNVSEQLEKKYEVGEKFFWVLDGDLLGLLKTGKLYKIKEYFQKNSHTNLFENFSIDLMKLMWTIKKIFSSN				NA	NA	NA	NA	NA
BMS003_03392	708			hypothetical protein	ATGAAAAAGGGTATTTTTCATTTTCATAGTACCTATTCCTACGACGGAATTAATACGATTGAAAATATAATTAAAGTAATAAGGGACAAAAAACTGGATTTTGCTGTACTGACGGATCATGAGACTATACAAGGAAGTCTGGAGCTGCAGAAAAAAGCAAAAGAATACCATCTGGATGTAGAGATACCTACGGCTGCAGAATATAAAACAAATCGGGGAGATGTAATTGCATTCAATGTAAAGAATGAAATTACAGATATGAAATGGGAAGAGTTTTATAAAAATGCAAGAGAACAAAATGCATTGCTGATTTTACCTCATCCTTATGACGGACATACCCAAATAGAAGAATTGGCTCAGGCTGTTGACGTTATAGAAGTATTTAACGCCAGATCATCAGTTATTAATAACTACAAGTCTTATCTATTGGCTCTGAAATATAAAAAACCTATGATTTGGAGCTCCGATTCTCATATTCCTCAATCTCTCTTAAATGTAGTGGTAGGATATGAAAAAGGTGATTTAAAGTTTCATGAAGCATTAACAAATGGTGAAATTGCTCCATTATTTCTAAAAAAAAGCTCAGTGTTAGATATTTTTCTTTCTCAGCTCAAGAAAGCGTATGTGAACAAAAATTTTAAATTATTTATTTACATTGTATACAAAACTCTTTTTAAGAGAACTAAAGAAGATTATTTAAATTTATGA	MKKGIFHFHSTYSYDGINTIENIIKVIRDKKLDFAVLTDHETIQGSLELQKKAKEYHLDVEIPTAAEYKTNRGDVIAFNVKNEITDMKWEEFYKNAREQNALLILPHPYDGHTQIEELAQAVDVIEVFNARSSVINNYKSYLLALKYKKPMIWSSDSHIPQSLLNVVVGYEKGDLKFHEALTNGEIAPLFLKKSSVLDIFLSQLKKAYVNKNFKLFIYIVYKTLFKRTKEDYLNL				NA	NA	NA	NA	NA
BMS003_03393	1182			hypothetical protein	ATGAAAAGAAAAATAATATCTTTTTTAGGCAGCAATATATTATCTCAATTAATATTACTGATTGCAGTTCCATTAACCGGAAGAATATATTCTGATTACGAAATTGGAGTACTGTCATTTATTTTGTCCATTTCAGCTCCATTATCCTATTTTTATACTTTGTCATACAACAAAGCAATTATGTTACCAGCCAAAAGCGAGGAATATAGTATGCTGTATGCCGTTTCTATTTTTTTAAGTATAACCATCTCATTAATTTCTTTTTTCGTTATACTTATTTCAATGTTATTTTTTGATATAGATTCCTATTTTTTAATTGTACCTTTGGTTGCGTTTAGCCAGGCTTTATATAGTGCATCAAAAGATATTCTTATTAAAAAAGGTCTGTTGAATATTGTAAGTACATCAATGATACTTAACTCGGTATTTGCCGTTATCATTATACTTTTGGGGTATTACATAAAACTATCGTATTGGATTTTGATATTATCTTATGTGATTCCTAATTTTTTGGCTACTCTATTTATATTGTTTTATCTCAAAATACAAAGAAGAAATTTTGTTTATAAAGAGTTCTACAATATTATAATAAAATATAAGTCCTTTCCGTTGCATCAGATGCCAGCTTATTTTATTAATACTTTTAATGCAGAGCTACCTAGTTTCTTTATAAAGCATTATTTTGGAGAAGCTATTTTAGGGAATTATTTTATGGCTTCCAAAATTGTAAATAAACCACTAAGTTTAATATCTGAAAGTTTAAATGGATTAATATACAAGGATTTGTCAGAAACCAATAAAGCGAAACTGAATAAAAAAATGAATATTTATGTTGGATTATTATTTTTGGTTTCCCTACTATTTGCTATTGTATATTTAATTTTTGGAGAATATCTTTTCTCTTTATTTTTTGATATTAATAAATGGAGAAAAGCATTTGATATGAGTAAAATAATAATTTTCACGACTGTTATTTCATCGTCTTTTTCTCATTATTCAAGTGGTGTATTGGTTAAAAGGAAGAATAAAATTTTTCTTGTTTGGGAGGTAATTACTACGTTGGTTTTGCTTGTTTCATTTTTTTTAGGAAAGAGTTCTACAATAGATTTATTTATATGGATTTATGTAGGAGTAATTCTATTTAGATATTTATTACTTTCTTTACTATTTAATAAGTCTTGA	MKRKIISFLGSNILSQLILLIAVPLTGRIYSDYEIGVLSFILSISAPLSYFYTLSYNKAIMLPAKSEEYSMLYAVSIFLSITISLISFFVILISMLFFDIDSYFLIVPLVAFSQALYSASKDILIKKGLLNIVSTSMILNSVFAVIIILLGYYIKLSYWILILSYVIPNFLATLFILFYLKIQRRNFVYKEFYNIIIKYKSFPLHQMPAYFINTFNAELPSFFIKHYFGEAILGNYFMASKIVNKPLSLISESLNGLIYKDLSETNKAKLNKKMNIYVGLLFLVSLLFAIVYLIFGEYLFSLFFDINKWRKAFDMSKIIIFTTVISSSFSHYSSGVLVKRKNKIFLVWEVITTLVLLVSFFLGKSSTIDLFIWIYVGVILFRYLLLSLLFNKS				NA	NA	NA	NA	NA
BMS003_03394	1263			hypothetical protein	ATGAAGTACTTTACACTATTAATATTTTTTATTATATATAAATTATCTTTAGACTATCTCTATGTTAATTCAATATCTGTATATTATGGATATCTTGGCTATATAAAGGAATTTAGTCATACAATTAACAACCTTTCTTATATTGCTATAGCATTTTATACTTATTTTTTTAAAAAGATTTTAGAGAAAGACACACCTGCAAGTTTAATTCTTATGGTGATATATCTATTATACTTTTTGCCTAATTTAACTTTTTGTATATATACTAATAATTTTGAGTTCTTTATATATAGTATTTTATATTGTGGCCTTCTGTTTTTGTTTTATATAAGATACAAGGAAGTGAAATATTATAAAATTTTTGAAAACTCTCAATCGATGATTTTGTTTAAAATGTTGTTATATACGGTGGTGCTGATGATGATTGTATTTTCCGTTATATATAATGGATTTAATATTAAATTTGATTTTGAAGAAGTATATGAAATACGGGCAAAAGTGAGTGAATTAAATATGCCTTCATTTATTAATTATCTCCGGCCGATAGCAAGTATGTTTATTACAATTTCTTTTATGTATTATCTGATACAAAAAAATGTTTTTCTAAGTTGCTTGTTTTTCTTTTTTGGCTTAATGATGTATTCTTTTGGTGCACATAAAACAGATTTTGTACTATTGATATTGACAATAATTATTTATTTTTTTTATAGGAAAGAATATAACAAGTATCTTTTACATGCATTTATTGGTTTCAATTTTATTTTGATTTTTTTTGCCGAATTTGGAAGTGAGAGTGTCCAGATAAGTATTGCAGGCCTTTATTCAAGAACCTTTTTTACACCTACGCTATTAGCTTATTTTCATTATGATTATTTTTCAACTCATGAATTACTTTATCTAAGAGAGCATTTCGGACATTGGTTTGAAACAAATGTAAATCATAAAAATAATTCCCCTTATATAATAGCAGCAACTTATTTTAATGACCCAGATATGTCTTCCAATACTGGTTTGATTGGAAGTGATTATGCACAGTTTGGGTGGGCTTCCCTACTGGTATTTCCCCTTGTGAGAGCTTATTTCTTTAAAGTATTTGATATGTCGAGTTTTAAATTAGACGCAAGAATATATTTAATTTCCAGTTTTTCCTTTGGAGCCCTGTTTATCAATGGTGCTTTTTTTACAGCACTTATTTCAGGTGGGTTTTTAGCTGTTTGCTTTTTACTTTATTTAATGCCTAGATATACTAAAAATAATGAATAA	MKYFTLLIFFIIYKLSLDYLYVNSISVYYGYLGYIKEFSHTINNLSYIAIAFYTYFFKKILEKDTPASLILMVIYLLYFLPNLTFCIYTNNFEFFIYSILYCGLLFLFYIRYKEVKYYKIFENSQSMILFKMLLYTVVLMMIVFSVIYNGFNIKFDFEEVYEIRAKVSELNMPSFINYLRPIASMFITISFMYYLIQKNVFLSCLFFFFGLMMYSFGAHKTDFVLLILTIIIYFFYRKEYNKYLLHAFIGFNFILIFFAEFGSESVQISIAGLYSRTFFTPTLLAYFHYDYFSTHELLYLREHFGHWFETNVNHKNNSPYIIAATYFNDPDMSSNTGLIGSDYAQFGWASLLVFPLVRAYFFKVFDMSSFKLDARIYLISSFSFGALFINGAFFTALISGGFLAVCFLLYLMPRYTKNNE				NA	NA	NA	NA	NA
BMS003_03395	1152			hypothetical protein	ATGAATAAAAAAATACTTCATCTTTCACCCACAGATATCCGATATGATAGTAGGATTTTAAAAGAGTTGAAGGCGGTTCAAAAAATTGAAAACACAACTTTGGTAGCCTTTGGAATTGACGACTCTGAAGGACATAAATATGAGACAGAACAGATGCCTTTTATTAAGGTATTTAATATCGCAACAAAAAATCTGAAATTTTTACCAAGACCTGTCAGATATTTTCTTAACCTTATAGAGGCATTTATTAGAATGGTTTTTCCAGGAATCAAGTACAAACCGGACGTTATCCATTGTCATGATACACTGTATTTACCCATTGCAAAAATGATCAAATTATTTTGCAGTTCAAAACTAATCTATGATGCCCATGAACTTGAATCAGATAAGGCAGGGCAATCAAAAATACTGTCAAAATATACTCTTTTCATTGAAAAAATGTTGTGGAAGGATATTGATATTCTGATTAGTGTGAGCCCATCCATTATTGATTGGTATGACAAACATCTTGGGAAAAAGAAGAGTATATTGATATTAAACTCGCCGTTACTTGATACTTCCTCAAAAGAAAATAGTAAAAATAATTATCTCAGAGAAAAATTTAACATCTCCGAAGAAAAAAAAATATTTTTATACCTGGGTATAATAAGTGAAGTAGGAAGAGGTGTAAATTTGTATTTGGATGTTTTTCAAAGAAAAGAAGTAGATTCACATATTGTTTTTATTGGTTATGGTGAATATGTTGATGAAATAAAAAAAATAGCACTTAATAATGAAAATATTCATTATCATCCGGCAGTTCCGCATCATCAGGTCGTAGAGGTGTCTACATCTGCAGACGTAGGGCTTTGTCTGGTGGAAGCTGTTTCTTTAAGTGATTATTATTGCCTGCCCAATAAATTATTTGAATATGCTTTTTCAGAATTATATATTTTAGCATCAGATTTTCCAGATATCAAAAAAATTGTTGAAGAATATAATTTGGGAAAATGTAGTAGTTTAAATGCTGAAAGCTTATTTGAAATTGTAAAAGAAGTTGAAAATTTAGATTTGAATAACAGAGTAAAAAAAGATCTTTATCCATTAAGTTGGAACTTTCAGGAAAGTGAATTATTAAAAATGTATAATAATATTTTAAGAAATAAAGAATAA	MNKKILHLSPTDIRYDSRILKELKAVQKIENTTLVAFGIDDSEGHKYETEQMPFIKVFNIATKNLKFLPRPVRYFLNLIEAFIRMVFPGIKYKPDVIHCHDTLYLPIAKMIKLFCSSKLIYDAHELESDKAGQSKILSKYTLFIEKMLWKDIDILISVSPSIIDWYDKHLGKKKSILILNSPLLDTSSKENSKNNYLREKFNISEEKKIFLYLGIISEVGRGVNLYLDVFQRKEVDSHIVFIGYGEYVDEIKKIALNNENIHYHPAVPHHQVVEVSTSADVGLCLVEAVSLSDYYCLPNKLFEYAFSELYILASDFPDIKKIVEEYNLGKCSSLNAESLFEIVKEVENLDLNNRVKKDLYPLSWNFQESELLKMYNNILRNKE				NA	NA	NA	NA	NA
BMS003_03396	1830	purF_2		Amidophosphoribosyltransferase	ATGTGTGGAATTTTTGGAGTCGTGTCAAAGACTCATATAGACAAGCGGAAGTTTCAAATTCTGGTAAAACATTCCGAACAAAGGGGAATGGACTCCAGTGGTTTGATCTATCATCAGGACAATTACTATAAAGTAAATAGAGCAGATTATAGTATTGAAAAATTACTGAATAAAGTACAACCATATACTAATAATATTGTATTAGGTCATAGTAGGTTAATTACTAATGGCTTGGGGGATAATCAGCCAGTGGTGAGAGGAAATATTTGCGCTATACACAATGGTATTATTGTCAATGAAGAAGAAGTTTGGAGCAAATTATCAGTTAGCAGACAATTGAAAATTGATTCCGAGGTTATTGTAGCTATTGCAGAAGAATTTCTTTGTAATAAGGATAACAAAATTGAAGATCTTCCTAAAGAAATACTTTCTTTATGTAAAGGAGTTATTGCATGTGCTCTTGTATTACAGGAAAAAGGGAAGTTGCTTCTTTTCTCCAATAATGGAAGTTTATATATAGGGTATAATGAAGATAAAATTTATTTTGCTTCGGAGAATTATGGACTTAAAATTATTGGATGTGAGAATATTAGTCAGATAAAAGATGAGGCTATGATTCTTGATATTCCTGTTTCACAAGAAAAGCTGAATATTGTAGATGAGAAGAGCAGAGTAGAAAACTTGATTCCTGAATTTAAATTTAATACCATTGAAGAAGACTTACTGGAATACAAAAAAATAAACATCAAGAGATGTACAAAATGTATATTACCGGAAACAATGCCCTTCATAAAATTTGATGAAGCAGGAGTATGTAATTATTGTAAAAATTATAAACCAAGAAATAATCCGAAACCGAAAGAAGAATTATTTAAATTGGTTGAACCTTACAGAAGAAAAGGAAAAGAATTAGACTGTATTGTTCCTTTTTCAGGAGGTAGAGATAGCTGCTATGGATTACATCTTATTGTAAAAGAACTGGAAATGAAACCTGTTACATATACCTATGACTGGGGAATGGTAACAGACCTTGGAAGAAGAAACATCAGCCGTATGTGTGCGGACCTTGGGGTAGAAAACATTATTGTTGCAGCAGATATTTCACTCAAAAGAAAGAATATCAGAATGAACCTGGAAGCATGGTTGAAATCTCCTCATCTGGGAATGATGGCAATGCTGACGGCAGGAGATAAACACTTCTTCAGATATGTAGAAGATATCAAAAAACAAACAGGAATCAACCTTAATCTTTGGGGAGTAAATCCATTGGAAGTGACTCACTTTAAAACAGGATTTTTAGATATTGAACCTGATTTTGAGGAAAAAAGAGTATATAGTCACGGAGCTATGAAGCAGCTGAGATACCACTCTAAAAGATTCAGAGCAATGATGCAGAGTCCTGGATATTTCAATAGTTCTCTTTGGGATACTTTGTCTGGTGAATATTATCGTAGTTTCACAGAAAAACAGGATTATTACCATATATTTGATTATTGGAGATGGGATGAAGAACAGGTGGATAATACCCTTTTAAATGATTATGACTGGGAGAAAGCAATAGATACTACTACCACCTGGAGAATTGGAGATGGTACAGCGGCTTTTTATAACTATGTATATTATACTGTAGCAGGTTTTACAGAGCATGATACATTCCGAAGTAATCAGATCAGGGAAGGACAAATAACAAGAGAAAGAGCTATAGAACTTGTTGAAATAGAGAATGCTCCACGTTATCAGAACATCAGATGGTATTTAGATACTTTAGGACTGGATTTTGAACGTGTGATAAAAATAGTTAACAATATTCCAAAATTGTATAAGCAATAA	MCGIFGVVSKTHIDKRKFQILVKHSEQRGMDSSGLIYHQDNYYKVNRADYSIEKLLNKVQPYTNNIVLGHSRLITNGLGDNQPVVRGNICAIHNGIIVNEEEVWSKLSVSRQLKIDSEVIVAIAEEFLCNKDNKIEDLPKEILSLCKGVIACALVLQEKGKLLLFSNNGSLYIGYNEDKIYFASENYGLKIIGCENISQIKDEAMILDIPVSQEKLNIVDEKSRVENLIPEFKFNTIEEDLLEYKKINIKRCTKCILPETMPFIKFDEAGVCNYCKNYKPRNNPKPKEELFKLVEPYRRKGKELDCIVPFSGGRDSCYGLHLIVKELEMKPVTYTYDWGMVTDLGRRNISRMCADLGVENIIVAADISLKRKNIRMNLEAWLKSPHLGMMAMLTAGDKHFFRYVEDIKKQTGINLNLWGVNPLEVTHFKTGFLDIEPDFEEKRVYSHGAMKQLRYHSKRFRAMMQSPGYFNSSLWDTLSGEYYRSFTEKQDYYHIFDYWRWDEEQVDNTLLNDYDWEKAIDTTTTWRIGDGTAAFYNYVYYTVAGFTEHDTFRSNQIREGQITRERAIELVEIENAPRYQNIRWYLDTLGLDFERVIKIVNNIPKLYKQ	PGPT0017630_2812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS003_03397	1245			hypothetical protein	ATGAAAAATTTATTAATTTATAAACTGAGGTTTATTTTTATTTATTTGTTTTATACCATCAGCCTTTGCTCGATGGTACAAGCATCTGTAAGCAAAAGATCATTAATATCGGTAGACCCTGTCTTCAGGCAACAAAATCTGAAAACCACAGAAATTGTTAATCTTATCAATCATTACAATGATATTTTTGCTTCCGAAACGAAAATGGCAAATTGGCCCAATGCGGCTTATGACTGTGCTGCATTTTTATATATTCCGATACAATATAGTTTTGATGTTAAAAATCAAGAAGTTATAAAAAGATTGCAGGTGCTTTTTACCTATGAAAGACTGCTTGCCATAAAGAGTAGAGCGGATATAGATGACTTAAGTAAAAGAACTTTCTATTTTACAGTTTCTGAATATCTTAGAAGAAGCGGAATACGTGGTGATGTAGAAAAGACAAAAATGTTTAATTTCCTCAAAAAGGAGATTCTAGACTATTGGAATAATGCCTATGCAAATATTTGGGAAGCAGAATCCAGAAAATTCTATGGAGTAAAGCAAAGAGTAGAATATCTGCTGAGTGGTGAATATAATGGGGATATGAGCTATTATAGTGCATTTACTGATCTTGAGCTTTATATTATGGGAACAGGAGTGAGTCTTTTACTGATTGAAAAAGATGCCTCACTTACCGCTACAAGAGATTTGATTAACATCAGAAACCTCTTTTATCAGGTAATGCAGAAAAAAGTTGTATTTCAGGATAATGTATGGTATCTACAACCCAATGTCTGGAAAGATCACCCTAATTTTCAGGATGTAGTTCTTAAAAGAAATCAGAGTGTTAATTGGGATGCCTCCCACTTTTCAAGAATGCCAGCTTATCTCTATATTCTGAAATTAGCATTCCAATCTGATAACACAAAATTTAACTATCTGGACAAACTTAATACATTACTTTCAAAACAATTACTTAATAATATTGCAGTATATAATCCTAAAGACGGAACTTATTCGTTCAATAATTTTGTTGATGGGAATAATAGTAACTTTAGAAGTAATCTTAAAAAAGGAGATAAGGGATTATCACCTTCTGAGGATTATACCCATATTTTCTACGGATGGTGGAAGATGTTGAATACCAATGAGGTAAATGTGATGTATGAAAAAATTTCACTCAAATACTCATTTTATTCCACTCAAAACCCTTATGTTAATGAGAATAAAGGGTATTTTCAAGAAATTGTAAACTTAAAATAA	MKNLLIYKLRFIFIYLFYTISLCSMVQASVSKRSLISVDPVFRQQNLKTTEIVNLINHYNDIFASETKMANWPNAAYDCAAFLYIPIQYSFDVKNQEVIKRLQVLFTYERLLAIKSRADIDDLSKRTFYFTVSEYLRRSGIRGDVEKTKMFNFLKKEILDYWNNAYANIWEAESRKFYGVKQRVEYLLSGEYNGDMSYYSAFTDLELYIMGTGVSLLLIEKDASLTATRDLINIRNLFYQVMQKKVVFQDNVWYLQPNVWKDHPNFQDVVLKRNQSVNWDASHFSRMPAYLYILKLAFQSDNTKFNYLDKLNTLLSKQLLNNIAVYNPKDGTYSFNNFVDGNNSNFRSNLKKGDKGLSPSEDYTHIFYGWWKMLNTNEVNVMYEKISLKYSFYSTQNPYVNENKGYFQEIVNLK				NA	NA	NA	NA	NA
BMS003_03398	1233			hypothetical protein	ATGAATATCTGGCTGATTTCCAAGTATGCCTCACCACCGCAATATGCAAAAGTTCCTTCACGTTTGTTTTATCTGGCAAGAGAATTTAAAAGACAGGGAAATAATACATTCATGATAACCTCAGATGCCAATCATTTCGCCAATTGTCCTGAAACGGACAAAATTTATAATGATGAAGAACAGGATGGTGTAGCCATAAGATGGATTAAAACAAAAAAATATATCAAAACGGCATCCATAGACAGAATATTGTCCTGGTTTGATTTTGAAAGGAAGCTTTTCTCAATGAAGCTTTCCAATATGACAAAGCCTGATATTGTTATAGTTTCATCACTTTCCATTTTTACCATTATTTATGGGTATTATCTGAAAAAGAAGTTTGGAAGCTTTTTAGTTTTTGAAATTCGCGATATCTGGCCTTTGACAATGACAGAGGAAGCTGGTTTTTCCAAATGGCATCCTCTTGTTTTACTCATAGGATTTATAGAAAAGTTTGGATATAGGAAATCTGATTTGATTGCAGGAACAATGCCGAGACTAGATTTACATGTAGAAGAATTATTGGGATATAAAAAAACTTTTCATTGCTCACCATTAGGATTTGATCCTGAAAACTATTCTGAAGACTTTCTGAAAGAAAAAAATCCCTTTTTAGAAATAATGCCACCAGGAAAGGTTATTATTGGCTACGCCGGAAGTATGGGGGTTACCAATGCATTGGAACCTTTTATTGAAACAATAAAAATGATGAAAGGGAATAGTAATATTCATTTTGTACTTGTTGGAAGTGGTGATCTTAGAGCGTCCTATGAAGAAGAGCTAAAAGATTGTTCCAATGTTACATTTTTACAAAGAATTCAGCAAAGTGAAGTTAAATATTTTCTTGATGCTTGCGATATTCTGTACTTGTCTACTAAGCATTCAAAAGTGTGGGACTATGGACAATCCATGAATAAAGTGGTGGAATATATGCTGGCGGCGAAGCCCATTATTGCTTCGTATACCGGATATCCTTCCATGATTAATGAAGCTGATTGTGGTAAGTTCATCAACAGTACTTCTGCAGAGGACATTAAAGAGGCTATCTTATATTATGCCAATATGAGCGCAGAAGAAAGAATTCAGATAGGTAATAAGGGGAGAAAATGGATTTTTGAAAACAGAACATATCCAGTTTTGGGGAAAAGATATATGGATGCCATTTTATTTCATTCCATAAAGCAAAAGAAATAA	MNIWLISKYASPPQYAKVPSRLFYLAREFKRQGNNTFMITSDANHFANCPETDKIYNDEEQDGVAIRWIKTKKYIKTASIDRILSWFDFERKLFSMKLSNMTKPDIVIVSSLSIFTIIYGYYLKKKFGSFLVFEIRDIWPLTMTEEAGFSKWHPLVLLIGFIEKFGYRKSDLIAGTMPRLDLHVEELLGYKKTFHCSPLGFDPENYSEDFLKEKNPFLEIMPPGKVIIGYAGSMGVTNALEPFIETIKMMKGNSNIHFVLVGSGDLRASYEEELKDCSNVTFLQRIQQSEVKYFLDACDILYLSTKHSKVWDYGQSMNKVVEYMLAAKPIIASYTGYPSMINEADCGKFINSTSAEDIKEAILYYANMSAEERIQIGNKGRKWIFENRTYPVLGKRYMDAILFHSIKQKK				NA	NA	NA	NA	NA
BMS003_03399	1134			hypothetical protein	ATGATAGGAAATACGATAGCGATTTCTTTTGCAAAGCCTTTGGAAATGAATCCCAGGGATTTTTCCATACCCTATAGAATCTTTATTATAGCATTTTCAGTATTCATAATCTACAGAGAAAGAAAAAATATTGGTTTCAAGAATATTTCCATTTTAAGCCTGGTCGGATTTTGGATTTTTTATATCATCAAGCTTAAATATTCGTTTAATAATTATTCGTTTAACCAGGATATAATAGTATTAGAGAAAGAATATATTTTCAGAGTCTTATTTATTATCCTTCTGCCAAGTATTGCACTATTATGCATTAATTATAATAAAGTGGATTTCAAAAGTATTACAAACTATTGTATTTCTATTTTATGTGGTCTTCTCGTGGTAAATTATATATACGGTTATATAAACTTGGATCATATTTTCAGCACATATTATATTATGTATGGTCATATAGGAGCATCATTATTTATTATATCACTATTTTTGCTTTTATTTTGTAAGAAAAAGAAAGAGTATAAGTTATACTTTTTATTGTTCTGTCTTTTATTAGGGTTGTTTAATGTGATTCAATCCATGGCGAGAAGTCCATTAATTGCTGTTTTTGTATGCTCTTTTTACATGGTTCTTTTAAAGGGTAATAAGAAATATTTTTTATATGCTTTTATATCAGTCTTATTATTTATAGGTTTAATTTTTCTGCATGAACAATATGGAGAAGGGCAAATAACGAGCTTCAACAGAATGTATAAATGGCTTGCCCTGGGAGATACATCAAGTAGAGGCCCTTTATATCGAGGAGCTCTTGACATTTTTAATTCGAACCCCTTTTTAGGCGGAAGGATATTGTTTAAGGATGGAACTCATGCACATAACATTTTTTTGGAGCTATTAATGGCTGGCGGTATTTTAGGCTTGATTATTTATTTTCTAAAGTTTTTACCTGTATTACGAAATGCTTCTATATTCTGGAACATAAAGAAAAGTAATATATACTATAAATTGATTTTTGCTTTATTTTTGCAATATTTTACGCTCGTACAAACATCTTGCAACCTTTTTAATATACCGGAATTTTTGTACTTTAGTTCAATAATTATTGGTATTAGTTATACAACAAAAACAAAAAGAATCGAGTAG	MIGNTIAISFAKPLEMNPRDFSIPYRIFIIAFSVFIIYRERKNIGFKNISILSLVGFWIFYIIKLKYSFNNYSFNQDIIVLEKEYIFRVLFIILLPSIALLCINYNKVDFKSITNYCISILCGLLVVNYIYGYINLDHIFSTYYIMYGHIGASLFIISLFLLLFCKKKKEYKLYFLLFCLLLGLFNVIQSMARSPLIAVFVCSFYMVLLKGNKKYFLYAFISVLLFIGLIFLHEQYGEGQITSFNRMYKWLALGDTSSRGPLYRGALDIFNSNPFLGGRILFKDGTHAHNIFLELLMAGGILGLIIYFLKFLPVLRNASIFWNIKKSNIYYKLIFALFLQYFTLVQTSCNLFNIPEFLYFSSIIIGISYTTKTKRIE				NA	NA	NA	NA	NA
BMS003_03400	603	pglC_1	COG2148	Undecaprenyl phosphate N,N'-diacetylbacillosamine 1-phosphate transferase	ATGTATAGAAATTATTTAAAGAGGATTTTTGACTTTGTATTTTCTCTGATGGGAATTACCCTATTGCTCCCTATTTTTCTTGTCGTTATGATAGGGCTATTCCTATCCAATGACGGCAAACCCTTTTTCTTTCAGCTAAGACCGGGGAAAAACGGAAAAATATTTAAAATTATAAAGTTTAAAACAATGAATGATAAAAAGGATTCTCAAGGGAATCTTTTATCAGATGCAGAAAGATTAACAGCCATAGGCTCATTTGTACGTAAAACATCTTTGGATGAAATCCCGCAATTACTCAATGTCTTAAAAGGAGATATGTCACTTATTGGTCCTAGACCTCTTCTCGTACAGTATCTGCCTCTCTATAACGAGCATCAGGCACAAAGACATGACGTGAGACCAGGAATTACGGGATGGGCTCAGGTAAACGGAAGAAATGCAATATCATGGAATCAAAAATTTGACTATGATGTATGGTATGTAAAAAACATATCATTTATTTTAGATTTTAAAATCTTTTTTCTTACCGCTAAGAAAGTATTTATAAGAGAAGGAGTGTCTGCAGATGGACATGTCACTATAGAACCATTTCAAGGAAATTAA	MYRNYLKRIFDFVFSLMGITLLLPIFLVVMIGLFLSNDGKPFFFQLRPGKNGKIFKIIKFKTMNDKKDSQGNLLSDAERLTAIGSFVRKTSLDEIPQLLNVLKGDMSLIGPRPLLVQYLPLYNEHQAQRHDVRPGITGWAQVNGRNAISWNQKFDYDVWYVKNISFILDFKIFFLTAKKVFIREGVSADGHVTIEPFQGN	PGPT0024571_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_PHOSPHOGLYCOSYLTRANSPFERASE_ACTIVITY,PGPT0024571-pglC-K15915	NA	NA
BMS003_03401	594	epsM	COG0110	Putative acetyltransferase EpsM	ATGTATTTATTTGGAGCAAGCGGACATGGAAAGGTAATTGCAGATATTGCTGCTGCTAATGATATAAAAATTAAGGCATTCATAGATCAGGATATCACTAAAAATGAATGCTATGGATTTCCAGTGTTGAATAATTTACCTGACGATAAAGAAAAGCTTATTATTTCTATTGGAAATAACCTTACCCGTAAGAAAATAGCAGAACAGATTACAAACAATATAGGTACTTTAATACATCCCAAATCTATAATTTCAGGTTCTGTGAAAATAAAAGAAGGAACAGTAATAATGGGGGGAGTTGTAATCAATGCAGATGCTGCCATTGGAAAACATTGTATCATCAATACCAATGCATCTGTAGATCATGATTGTACTATTGAGGACTTTGTTCATATTTCACCCAATTCGGCACTTGCCGGAGGAGTGAAAATTGGAGAAGGCTCTCAGATTGGAATAGGAGCTTCGGTTATTCAGGGAGTTAAAATAGGAAAATGGTGTGTGGTAGGAGCCGGTGCGGTTATTATTAAAGATATTCCTGATTATTCCGTTGTAGTAGGAAATCCGGGTAGAATTATCAAAAAAAATATTATATAA	MYLFGASGHGKVIADIAAANDIKIKAFIDQDITKNECYGFPVLNNLPDDKEKLIISIGNNLTRKKIAEQITNNIGTLIHPKSIISGSVKIKEGTVIMGGVVINADAAIGKHCIINTNASVDHDCTIEDFVHISPNSALAGGVKIGEGSQIGIGASVIQGVKIGKWCVVGAGAVIIKDIPDYSVVVGNPGRIIKKNII	PGPT0022755_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_N_ACETYLTRANSFERASE_ACTIVITY,PGPT0022755-pglD-K15913	NA	NA
BMS003_03402	1137	epsN	COG0399	Putative pyridoxal phosphate-dependent aminotransferase EpsN	ATGAATACAAAAATCTGGTTATCCTCACCACATATGGGAGGGAATGAACAAAAATATATCCACGAAGCATTTGAAGAAAACTGGGTAGCCCCATTGGGTCCTAATGTTAACGGTTTTGAAAATGATCTGGAACAGTTTTTAGGTGAAAATACAAAAGTGGCTGCTCTTTCTGCAGGTACTGCTGCATTACACCTTGCCCTTATTGAATGCGGAATTGTACACGGTGATGAGGTGATCTGCCAGTCAATGACTTTCTCTGCTTCTGCCAATCCTATTGCGTATTGTGGAGCAACACCTGTTTTTATTGATAGCGAACCGGATACATGGAATATGTGTCCGAAAGCTCTGAAGGAAGCAATCGAAGATAGAATCCAGAAAGGGAAAACACCTAAGGCAATTATTGTAGTTCATCTTTATGGTATGCCGGCAAAAATGGACGAAATTACAGCTATTGCTCAGGAATTTCAGATTCCTGTAATAGAAGACGCAGCGGAAGCCCTTGGTTCTACATATAAAGGAAAGGCATGCGGAACATTCGGGCGCTTTGGAATCTTAAGTTTTAATGGGAATAAAATTATTACCACTTCAGGTGGAGGAGCTCTTGTTTGCCATACTCAGGAAGATAAAGATAAAACAGTTTTCCTTTCCACTCAGGCAAGAGACAATGCCCCTCACTATCAGCATTCACACATTGGTTTCAATTACAGAATGAGCAATATTGTGGCAGGAATAGGACGAGGACAGATGGAAGTGCTTAAGGATAGAGTTGCTGCCCGCAGAGCAATGCATAATTTCTATAAGAACCTTTTCAACAATATTGAAGGTGTAACAGTATTTTCAGAGCCGGGAGATGATTACTATTCAAACCACTGGTTGTCTGCAGTGATTATTGATCCGGAAATTACAGGAAAAGACAGAGAAGGTTTAAGGTTCGCATTTTTAGAAGATAATATAGAATCAAGGCCACTTTGGAAACCAATGCATTTACAGCCGGTTTTTGAAGCTTCTCCTTATTACGGGGGAAATGTTTCCGAAAAACTATTTGATAACGGATTATGTCTTCCTTCAGGCTCTAATCTGTCAGACCATGACAGAGAAAGAATAGCAAAGGTAGTTCATACTTACTTTGAAATTTAA	MNTKIWLSSPHMGGNEQKYIHEAFEENWVAPLGPNVNGFENDLEQFLGENTKVAALSAGTAALHLALIECGIVHGDEVICQSMTFSASANPIAYCGATPVFIDSEPDTWNMCPKALKEAIEDRIQKGKTPKAIIVVHLYGMPAKMDEITAIAQEFQIPVIEDAAEALGSTYKGKACGTFGRFGILSFNGNKIITTSGGGALVCHTQEDKDKTVFLSTQARDNAPHYQHSHIGFNYRMSNIVAGIGRGQMEVLKDRVAARRAMHNFYKNLFNNIEGVTVFSEPGDDYYSNHWLSAVIIDPEITGKDREGLRFAFLEDNIESRPLWKPMHLQPVFEASPYYGGNVSEKLFDNGLCLPSGSNLSDHDRERIAKVVHTYFEI	PGPT0026645_140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026645-epsN-K19430	NA	NA
BMS003_03403	570	pglC_2	COG2148	Undecaprenyl phosphate N,N'-diacetylbacillosamine 1-phosphate transferase	ATGAATCAGTATAAATATTGGAAAGTGGTTTTTGATTTTATCTTAGCAGCAATCTTGCTCCTCTTTCTTATGCCTGTACTGATTATTTTATTTGTGATGGCAAGTTGGGATACGTCCTCCAATGGTATTTTTTTTCAGACCCGGATAGGGCAGTATGGAAAACCTTTTACCATCTTTAAATTCAAAACAATTCATGGGCAGAGGAGAACATGTTCAAAAATAGGACAGACCCTCAGAAAATTTAAACTCGATGAATTTCCGCAATTGTTTAATATTTTAAAAGGTGAAATGAGTTTTGTGGGACCCAGACCTGATATCGAAGGTTACTACGATAAGCTTGCCGGAGCAGACAGAAAAGTTCTGGAACTTAAGCCAGGGCTAACCTGTGAAGCAAGTATAAAATACAGAGATGAAGAATATATTTTGAAAAACCAGGAAGACCCTTTAGCTTATAATGATGAAGTATTATTTCCTAACAAAGTAATAATGAATCTGGATTATTTTGAAAATATGTCTTTCAAAAACGATATAAAAATCTTATTTAAAACATTAATAACCACATTGAAATAG	MNQYKYWKVVFDFILAAILLLFLMPVLIILFVMASWDTSSNGIFFQTRIGQYGKPFTIFKFKTIHGQRRTCSKIGQTLRKFKLDEFPQLFNILKGEMSFVGPRPDIEGYYDKLAGADRKVLELKPGLTCEASIKYRDEEYILKNQEDPLAYNDEVLFPNKVIMNLDYFENMSFKNDIKILFKTLITTLK				NA	NA	NA	NA	NA
BMS003_03404	546	rfbC	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAAAATTAAAGAAACCCCCCTTAAAGACTGCTATATCATAGAGCCTTCTATATTTGAAGACGAAAGAGGCTACTTCTTTGAAAAATTCAACGAAAAAAGATTCGAAGAACTTACCGGAATGAACGGACATTTCGTTCAGGACAATGTTTCAAAATCTTCCTATGGAGTATTAAGAGGGCTGCATCTTCAGAAAGGAGAGCATGCACAGGCAAAATTAGTATCATGTCTTGAAGGAAGTGTATGGGATGTAGCGGTAGATCTGAGAGAAGATTCCCCTACATTCGGAAAATGGTTCGGAATAGAACTTACTGCTGAAAACAAATTACAACTGTATATACCAAGAGGCTTCGGACACGGATTTTCAGTGCTCAGTACCCACGCTGTATTTTCTTATAAATGTGATAATTTTTACAACAAAGAATCAGAAGGCAGTGTGAAATTCAATGATCCGGATCTTAATATCGATTGGAAGGTAGATGAAAAAGATGCTATACTTTCTGAAAAAGATCAGAATGCTCCGGGATTTTCGGAAAAAAACTTTTAA	MKIKETPLKDCYIIEPSIFEDERGYFFEKFNEKRFEELTGMNGHFVQDNVSKSSYGVLRGLHLQKGEHAQAKLVSCLEGSVWDVAVDLREDSPTFGKWFGIELTAENKLQLYIPRGFGHGFSVLSTHAVFSYKCDNFYNKESEGSVKFNDPDLNIDWKVDEKDAILSEKDQNAPGFSEKNF	PGPT0014300_3153	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
BMS003_03405	1302	rimO	COG0621	Ribosomal protein S12 methylthiotransferase RimO	ATGCGTACAAAATCTGTAGGGAAGAAGAAAATCAATGTAGTCACTCTTGGATGTTCCAAGAATGTATATGATTCTGAAGTATTAATGAGCCAGCTGAAAGCCAACGGCAAAGATGTAGTTCACGAAGACCGTGGTGACATTGTGGTAATCAATACCTGCGGATTTATAGATAATGCTAAAGAAGAGTCCATCAATACCATACTAGATTATGTGGAGGCGAAAAACAGAGGAGAGGTTGAAAAAGTATTCGTTACAGGATGCTTGTCTGAAAGATACAAACCGGATTTGGTGAAAGAAATTCCTGATGTAGATCAGTACTTCGGAACAAGAGATCTTCCGATGCTGCTAAAACATCTTGGTGCTGATTATAAACATGAGCTGGTAGGAGAAAGATTAACAACAACCCCGAAACATTATGCATACCTTAAAATTTCTGAAGGTTGTGACAGGCCATGCTCTTTCTGTGCAATTCCATTGATGAGAGGAGGGCACATTTCAACCCCTATTGAAAAACTGGTTATTGAAGCTCAGAAACTGGCGAAAAAAGGAACAAAAGAATTAATTCTTATTGCGCAGGACCTTACTTACTATGGTTTGGATCTTTATAAAAAAAGAGCTTTGGGTGATCTTTTAAAAGAATTGGTAAAAGTAGAAGGAATAGAATGGATCCGTCTTCATTATGCTTTCCCAAGTGGCTTCCCGGAAGATGTTCTGGATATTATCCGTGAAGAATCTAAAGTTTGTAATTATATAGACATTCCTCTTCAGCATATCAACTCAGATTTGTTGAAGTCCATGAAAAGAGGAACTACCCATGAGAAAACAGATGCTCTTTTAGGTAAATTCAGAGAGAAAGTTCCTGATATGGCAATCAGAACAACCCTTATCGTTGGATATCCTGGCGAAACAGAAGAAAGATTTCAGGAGCTTAAAGACTGGGTAAGAGAGCAGAAGTTTGACAGATTAGGTTGTTTCACTTATTCCCATGAAGAGAATACCACGGCTTATGTTTTAGAAGATGATATTCCACAGGAAGTAAAAGAAGCAAGAGTGGAAGAAATTATGGAACTTCAGTCTCAGATTTCCTGGGAAAAGAATCAGGAAAAGGTCGGTAAAGTATTCAGATGTATTTTTGACCGTAAAGAAGGGAACTATTTTATCGGAAGAACAGAGTATGACTCTCCTGATGTAGATAATACTGTTTTGGTTCCGGCAGAAGATACATATATCTCTATTGGTGAGTTTGCAGACGTTAAAATTACTTCTGCAGAAGAATTTGACTTATATGGAGAATTAGTATAG	MRTKSVGKKKINVVTLGCSKNVYDSEVLMSQLKANGKDVVHEDRGDIVVINTCGFIDNAKEESINTILDYVEAKNRGEVEKVFVTGCLSERYKPDLVKEIPDVDQYFGTRDLPMLLKHLGADYKHELVGERLTTTPKHYAYLKISEGCDRPCSFCAIPLMRGGHISTPIEKLVIEAQKLAKKGTKELILIAQDLTYYGLDLYKKRALGDLLKELVKVEGIEWIRLHYAFPSGFPEDVLDIIREESKVCNYIDIPLQHINSDLLKSMKRGTTHEKTDALLGKFREKVPDMAIRTTLIVGYPGETEERFQELKDWVREQKFDRLGCFTYSHEENTTAYVLEDDIPQEVKEARVEEIMELQSQISWEKNQEKVGKVFRCIFDRKEGNYFIGRTEYDSPDVDNTVLVPAEDTYISIGEFADVKITSAEEFDLYGELV				NA	NA	NA	NA	NA
BMS003_03406	630			hypothetical protein	ATGAAAAAAATTTTATTAACAGCAATTATGCTTGTTGGCCTTTCGGCTTTTTCTAAGGCTCAGACTACGGGGCGAGTGGGGATTAACACAACCACGCCTGCCGCAACTCTAGATGTAGTAGCAAACACTACTGATAACACTAGACCTGATGCTTTATTAGTCCCTCGTATGACAAGGTCGCAGTTGTATGCAAAAGATGCGGCTTATATAGCTGACCAAAATGGTGCTTTAGCTTTTGTTACTGCTATTGACGGTACTGCTACTGCTAAAACGGTAAATGTAACAGCGGTAGGATTTTATTACTATGATGGTCAGACTACCAATACTTGGATTGCGGTAGGTGGCGGAGGTGCAGCAACTGTTGCTACTGTAAGAACCTCAGCTACAGGAACTGATTTATCTGCTGCTGATATAAATGGGTATGTATTTCTTACAACCAACGCTGATTTGTCTACAATTCCAGTAAGTGCTGCAACCAAAGGAAAAAGTATCACTCTAGTTAAAGTAGGAGGTGGTACCCTTACTGTAAATGGTGCAAGTGCAGCTTCAGTTAACTCAATGACTGTTAACGGAAGAGGTCTTGGTTTTGTTTATGATGGAACTGCGTGGCAGTCGTATTCAGCTCAATAA	MKKILLTAIMLVGLSAFSKAQTTGRVGINTTTPAATLDVVANTTDNTRPDALLVPRMTRSQLYAKDAAYIADQNGALAFVTAIDGTATAKTVNVTAVGFYYYDGQTTNTWIAVGGGGAATVATVRTSATGTDLSAADINGYVFLTTNADLSTIPVSAATKGKSITLVKVGGGTLTVNGASAASVNSMTVNGRGLGFVYDGTAWQSYSAQ				NA	NA	NA	NA	NA
BMS003_03407	735			hypothetical protein	ATGAATAAAAAAATATTATTAGTTCTTGCCTCTTCTTTGGCAATGTTTCAATATACGAATGCTCAGGTAAGAACAAACGGTTTCGCCAGTGGAAATATTCAAGGGCAAGGTGCTTTCCTTGATGCATCAGGAAGTACAGGAGGTTTTACAGATAGTGCTAATGATGGAAAAGGACTTGTTTTTCCAAGAACAGACTTAACAGCCTTCACATTCGCAACTCCTGTAACTGATGAAGATAATTTCCCAACAGCTTATGATGGTATGATTGTTTACAATACCGCTACTGGAACTACGGTTTCTGGTATTGCTACCAATGTTACTCCTGGGTATTACTACTTCTCGAATCCAACCGGAGGAACTGGTAATGGATTTGCTACTTCTACTGGTACATGGGTTTCACTTTCTGCTTCACCAAAAGTAACTGTAGGAACAGCAGAAACAACAACTAATACACTTATTAATGTAAGTCCAGGTGTTGATAAGCAACTTTATGCAATCAAAGGAACTTTCACTGCAAGTGGTACTTCTACAGCAGTTAATATCCCTGCTCCTTCAGGAATGACAACAATGTATGGAATCACTATTTACAAAGCAGGTACCAATACTGTTTACGATAGAAGCTTATATTCTTATACAGTTGCTACTTCTGCAGGTAACGCTATTACTGGTTCTCCAAGCATGTCTGTAGTTTATCCTTCAGGAACATATGATTACGTATTAGAATATTTAAAATAA	MNKKILLVLASSLAMFQYTNAQVRTNGFASGNIQGQGAFLDASGSTGGFTDSANDGKGLVFPRTDLTAFTFATPVTDEDNFPTAYDGMIVYNTATGTTVSGIATNVTPGYYYFSNPTGGTGNGFATSTGTWVSLSASPKVTVGTAETTTNTLINVSPGVDKQLYAIKGTFTASGTSTAVNIPAPSGMTTMYGITIYKAGTNTVYDRSLYSYTVATSAGNAITGSPSMSVVYPSGTYDYVLEYLK				NA	NA	NA	NA	NA
BMS003_03408	369	rlpA		Endolytic peptidoglycan transglycosylase RlpA	ATGAAAAGATTCATTCTCGTAATCATAATGATGATTTCAACCTTAGGTATTTATTCATTTACGGGTAATGCCTTAGATGCGAAAAAAACAAGTTATGCATCGTACTACCACGATAAATTTAACGGTAGAAAAACTGCTAGCGGAGAAATCTTTGATAATTCAAAATTTACTGCAGCAAACAGAACGCTTCCATTTGGAACAAACGTTAAGGTTACTAACCTTAAGAATGGTAAAGAGGTAATAGTGAGAATTAATGATAGAGGACCTTTCCATTCATCAAGATCTTTAGATATGTCTAAAGCTGCGTTCGATGAGATTGGAGATATCAGTCAAGGTACAATTCCGATCGAATATGAAATTGTCGATTAA	MKRFILVIIMMISTLGIYSFTGNALDAKKTSYASYYHDKFNGRKTASGEIFDNSKFTAANRTLPFGTNVKVTNLKNGKEVIVRINDRGPFHSSRSLDMSKAAFDEIGDISQGTIPIEYEIVD	PGPT0024465_3354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS003_03409	765	exoA	COG0708	Exodeoxyribonuclease	ATGAAATTAATCACTTATAACGTTAACGGAATCAGGGCTGCTTTCACTAAAGATTTTTTAGGCTGGCTAAAGGCTGCTGATCCGGATATCATCTGCATTCAGGAGAGCAAAGCCGGAAACGACCAGATAGATATCGAAAGTCTTGAAAAATTAGGTTATCACAGCTATTGGCATTCAGCGGTCAGAAAAGGCTACAGCGGAGTTGGGATTGCTTCAAAAATGAAACCTAATCATGTAGAGTACGGCTGCGGTATTGAAAGCTATGATAACGAAGGGAGAATTATCCGTGCGGATTTTGACGGATTTTCTGCTATTTCTGTATATGTTCCTTCCGCTTCAAATATTGAAAGACTGGATTTCAAAATGCAGTTCTGCCATGACTTTCTGGAGTATATCAAAAATCTAAAGAAAGAAATCCCTAACCTTATTATATCCGGCGACTTTAATATCTGCCATGAAGCAATAGACATTCACAATCCTGTCGGCTTAAAGAATGTTTCAGGATTCCTTCCTATGGAAAGAGAGTGGATGACGAATTTCATTAACGAATGTGAGCTGATAGACAGTTTCAGATTCTTTAATAGTGAACCTGATAATTATACCTGGTGGAGTTACAGGCAAAATTCAAGAGAAAGAAATAAAGGCTGGAGATTGGATTACAATTTCACCTCTTATAGTTTAAAAGATAAGCTCACAAGAGCTGCTATTTTAAAGGAAGCTGTACATTCTGACCATTGCCCCGCTTTATTGGAACTGGATGTATAA	MKLITYNVNGIRAAFTKDFLGWLKAADPDIICIQESKAGNDQIDIESLEKLGYHSYWHSAVRKGYSGVGIASKMKPNHVEYGCGIESYDNEGRIIRADFDGFSAISVYVPSASNIERLDFKMQFCHDFLEYIKNLKKEIPNLIISGDFNICHEAIDIHNPVGLKNVSGFLPMEREWMTNFINECELIDSFRFFNSEPDNYTWWSYRQNSRERNKGWRLDYNFTSYSLKDKLTRAAILKEAVHSDHCPALLELDV				NA	NA	NA	NA	NA
BMS003_03410	291			hypothetical protein	ATGTTTATTATTTCGCTTACCTATAAGAGTTCTATGGAAAGTATAGAACAGCTTATCCCTCAGCACAATATTTTCCTTGATAAGCATTACGAATCAGGTCGGTTTATAGCTTCGGGAAGAAAACAACCCAGAACGGGAGGTATCATCATAGCTAATGCAGAATCTAAAAATGAGATTGAACAGATTATTTCCGAAGATCCTTTTTATATTCATCATATTGCGGACTATGAGATCACTGAATTTATCCCTTCAAAATATAATGAAAATTTTAAACTTTTTATAGAAGACTAA	MFIISLTYKSSMESIEQLIPQHNIFLDKHYESGRFIASGRKQPRTGGIIIANAESKNEIEQIISEDPFYIHHIADYEITEFIPSKYNENFKLFIED				NA	NA	NA	NA	NA
BMS003_03411	378			hypothetical protein	ATGAAAAAACACATTTTTATTGCCGCAGCATCTGCCGCATTATTTTTAACTTCATGTAATAAAGAAAAAAAGACAACAGATTCTACCGCAACTTCCGTAGACAGTATTGCTTCTACCCCTTCAGATTCAGCAGCTGTTGCAGGGACTCAGGATGAAATTGTGAAAAGCACTTCGAAAGACAGCAGCGGAAAAACGCTGGATATGACCTTCAACAATACCAAGAATACAGCTACAGTAGTATTCGATAATGAAACGATTGAATTACAAGGACAAAAACCCGCATCAGGAATCTGGTATAAGAATGATCATTATGAACTGAGAGGAAAAGGAGAGGAAATAGAACTCACAAAAGATGGTAAAACAATTTTCAAAAAATAA	MKKHIFIAAASAALFLTSCNKEKKTTDSTATSVDSIASTPSDSAAVAGTQDEIVKSTSKDSSGKTLDMTFNNTKNTATVVFDNETIELQGQKPASGIWYKNDHYELRGKGEEIELTKDGKTIFKK				NA	NA	NA	NA	NA
BMS003_03412	1545	rssB		Regulator of RpoS	ATGTCAGAAAAGATATTATGGATAGATGATGAAATAGATTTACTAAAACCTCATATCGTGTTTTTAGAAAAAAAAGGTTACCAGGTAACTCCTGTTAACAATGTAAATGAGGCTTTGGAGCTTATGGATTCAGAGAAATTTGCTTTAACATTAATCGATGAGAATATGCCCGGAATTTCCGGTCTGGAAGCCATCCCAATGATTAAGGATAAAGATAATTCCTTAAAAATTGTAATGGTAACCAAAAGTGAAGAGGAGCATATTATGGAAGAAGCCATCGGATCTCAGATTGCTGATTATATTTTAAAGCCGGTAAATCCTAATCAGATATTACTTTCCCTCAAAAAAAACCTTCAGCAGGATAATCTGGTGGAACAAAAAACAATCTTACAGTATCAGCAGGAGTTCAGAAACCTTTCTATGGAGCTCTCCTACCTGAGAACCTATCAGGAATGGGCTGAATATTATAAAAAGATCCTCAGCTGGGAAATCAAATTTGATAAAGTGGCAGATAATGAATTTGCTGATCTTCTGCAGTCTCAGAAAGAAGAAGCTAATATTCAGTTTGCTAAGTTTATTGAGAAAAATTATGCAAACTGGCTCACAGATTCAGATAAGCCTATGATGAGCCATACACTTTTCAAGGAAAAAGTAAAACCTGAAGTAGAAAAAGAGAAAGTTCTCTTACTGATGGTTGATAATCTTCGCTATGACCAATGGAAAGTAATTGAGCCTTTATTTACAAAATACTACAATAAGATTTCGGAAGATTATTACTACAGTATCCTTCCTACTGCTACGCAATATGCAAGAAACTCTTTCTTTGCAGGATTAATGCCGTCTGAGATTGAAAAACGTTTTCCTGATAAATGGTTTAATGATAATGAAGAAGGAAACAAAAATGAGTTTGAGCGCGACTTCCTGGAAGATCAGATGAAAAGGATTGGTCTGGGATCAAAATCTATGAAGTATCTTAAAGTACTGAACGCTGATTTTGAAAGAAAAATCTATGATGATTTCAACCAGCACAAAAATAATGACCTGCTTGTCATTGTCTACAATTTCATTGATATTCTTTCTCATGCGAAAACAGATAACCATATTGTAGATCAGCTGATCCGTGATGATAAAACTTTCCGTTCCCTTACTTTCAACTGGTTTGAGAATTCTTCATTGATGAAGATCATTAAAGCGGCAGCTGAAAACGGGTACAAACTTGTGATCACCACAGACCACGGAACAGTATATGTGAAAAAACCAAGCAAAGTTGTTGGAGACAGAGAAACCTCTACCAATATCAGATATAAAACCGGTAAAAGTTTAACATATGATGATAGTGATGTTTGGGCAATTACCAATCCGGAAAAACTTTTCCTACCTAAAGGAAATTTAAGTTCGAAATATATTTTTGCTAAAAACAATATATTCCTTGCTTATCCTAAAAATTACAATCATTTTGTTAATTACTATAAAGAAACTTACCAGCATGGAGGAATTTCACTGGAAGAGTGCATTATTCCTATCAGTATTTTAGAACCCAAGTAG	MSEKILWIDDEIDLLKPHIVFLEKKGYQVTPVNNVNEALELMDSEKFALTLIDENMPGISGLEAIPMIKDKDNSLKIVMVTKSEEEHIMEEAIGSQIADYILKPVNPNQILLSLKKNLQQDNLVEQKTILQYQQEFRNLSMELSYLRTYQEWAEYYKKILSWEIKFDKVADNEFADLLQSQKEEANIQFAKFIEKNYANWLTDSDKPMMSHTLFKEKVKPEVEKEKVLLLMVDNLRYDQWKVIEPLFTKYYNKISEDYYYSILPTATQYARNSFFAGLMPSEIEKRFPDKWFNDNEEGNKNEFERDFLEDQMKRIGLGSKSMKYLKVLNADFERKIYDDFNQHKNNDLLVIVYNFIDILSHAKTDNHIVDQLIRDDKTFRSLTFNWFENSSLMKIIKAAAENGYKLVITTDHGTVYVKKPSKVVGDRETSTNIRYKTGKSLTYDDSDVWAITNPEKLFLPKGNLSSKYIFAKNNIFLAYPKNYNHFVNYYKETYQHGGISLEECIIPISILEPK				NA	NA	NA	NA	NA
BMS003_03413	1743			hypothetical protein	ATGTTAAAAGAAAATCTGCCTCCACAAAGGATTTATTCATCAAAAGCCTTTGCTGCTATGGTATTTAAGCCTATCTTTGAGAGAGAAACGCGATCACTTTCAATGAGAAAATACGCTCTTTTCCTTTTATTATTTTTAAGTTTAAATTTTTCCGCACAAATAATAGCCGAAACTCAGAAACTGGAGTCTCTTTGCAGAGTCTGGGGGTTTCTAAAATATTATCATCCTCATGTAGCCAAAGGAAATCTCAACTGGGACAAGCAGCTTTTCCAAAAAATCAGTGAAATTGAACATATCAGTGATAAACAATCATTAAATACTTTTTATTCTGAATGGATTAAAGACCTCGGAGAAGTTCCTCTTTGCAAAGAATGCTCAATAAAAGATAATAAGGTTTATTTTCTTAAAAATTTTGATCTGAGCTGGATTGACAATTCACAAATTTTCTCAAATGAGGTATCTCATCTGCTTCATCATATTGAAAACAACCGTAATTCCGGAGATAATCACTATTTCGGAACATCCGGAAGAAAAGTATATTTCAGAAATGAGAAGTCATACGGTTCAAAATTTACTTCTAAGACTATCAGCTTACTGGAATTATTCAGATACTGGAATTACGTAGAATATTTTTTCCCTTATAAATATGAAACTGATCAAAACTGGAATAATGTTCTTTCAGAAATGATCCCGAAGTTTCTTATGATTGATAATGATGAGAGTTTTCACCTGACATTAGCAGAACTGGTGGCCAAAACAGATGATTCTCACGCCTACCTGTCGTCAAAAGAGATCCAGCTTAACCTTTACGGCAACCGAAAAGTTCCTGTAGAATATTCGTATGCTGAAGGAAAATTGGTGATTACAAAAATTAGCACCACCCGATCCAAAAGTAAAAATCCCCTGCATCCGGGAGATGTCATTTATGATATTGAGGGAAAAACCATCCCGCAAGTGATCAATAGTTTAGCCAAATATGTACCCGCTTCCAACTCATGGGGTAAAGTCAGCAAAATAAAAGATAAGCTTCTCTTCAGCAATAAGGATTCTATTTCCGTAAAGATTGAAAGGGATGGACAAAATCTGGAAATAAAAACCAAAACACACCTTATTAAAGACATCATTCATGAAAAAACCCAGAGACTACAAAAATGGAAATTCATGGATGATGAAAAGAAAATCGGGTATGTTCATATGGGAATGATAGAAAAAGAAGATCTGGATGAAATGGTTGGAGATTTAAAATCTGCAAAATCTATTATTTTTGATCTCAGGAACTATCCCAGGCAGACTGTTATTCCGTTAAGTTATCTTCTTCTTCCTGGTTCTTCAGTCTATTATCAGTTTAATTTTCCTGATACCAGCTATCCCGGCAAATTTTACAGCAGAAAAAATGTTATCGGCAAAAAGAATCCTGAATACTATAAAGGAAATGTAATCGTTCTAGTAGATGAAAATACCCAAAGCCAGGCAGAAACCACCGCAATGATGTTCAGACAGCATCCGAAAGCTAAAATTATCGGCAGCAATACTTCGGGAGCCAATGGGGATGTCATCATGTTTACAATTGCTGACCTCAGCACCCGGTTTACAGGTCTCGGAGCTTATTATCCGGATGGCAGGGAAACACAAAGAATAGGAATTATCCCGGATATCCTTGTGAAACCCAGTATGGAAGGTATAAAAAAAGGGAAAGATGAAGTTCTGGAAGCTGCTTTGGAATATATAAAAGCAACAGATTAA	MLKENLPPQRIYSSKAFAAMVFKPIFERETRSLSMRKYALFLLLFLSLNFSAQIIAETQKLESLCRVWGFLKYYHPHVAKGNLNWDKQLFQKISEIEHISDKQSLNTFYSEWIKDLGEVPLCKECSIKDNKVYFLKNFDLSWIDNSQIFSNEVSHLLHHIENNRNSGDNHYFGTSGRKVYFRNEKSYGSKFTSKTISLLELFRYWNYVEYFFPYKYETDQNWNNVLSEMIPKFLMIDNDESFHLTLAELVAKTDDSHAYLSSKEIQLNLYGNRKVPVEYSYAEGKLVITKISTTRSKSKNPLHPGDVIYDIEGKTIPQVINSLAKYVPASNSWGKVSKIKDKLLFSNKDSISVKIERDGQNLEIKTKTHLIKDIIHEKTQRLQKWKFMDDEKKIGYVHMGMIEKEDLDEMVGDLKSAKSIIFDLRNYPRQTVIPLSYLLLPGSSVYYQFNFPDTSYPGKFYSRKNVIGKKNPEYYKGNVIVLVDENTQSQAETTAMMFRQHPKAKIIGSNTSGANGDVIMFTIADLSTRFTGLGAYYPDGRETQRIGIIPDILVKPSMEGIKKGKDEVLEAALEYIKATD	PGPT0015095_1979	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS003_03414	1260			hypothetical protein	ATGCCTAACTTTGTTGCTAATATTGACGTTTCAATGCAGAATAAGCTAAAAATCATCAACGATCCTGTTCACGGGTTTATCAAAATTCCACACGAAATTTTATTTGATGTCATTGAACATCCTTACTTTCAGAGATTGAGGAGGATAGGGCAAACCGGGCTTTTGAACCTGATTTTCCCAGGAGCTACCCATACCAGGTTTCATCATGCTTTGGGAGCTATGCATCTTATGTTTACAGCTTTGGAGACATTGAAACAGAAAGGAGTGAAAATTTCTGAAGAGGAGGAAAAAGGTGCAATGCTGGCTATTCTGATGCATGATATAGGTCATGGTCCTTTTTCTCATGCTTTGGAAAGTATGCTCATGGATGACTGGCATCATGAAAATCTTTCTTTGCTTCTGATGAATAAACTGAATGAAGAGTTTCACGGGCAGCTTACAATGGCTATTGAAATGTTTCAGGGGAAATATCACAGAAAATTTTTCAATCAGTTGATTTCTTCACAGCTGGATGTAGACCGTCTGGATTATCTGAAAAGAGACAGCTTTTTTACAGGTGTATCCGAAGGAAATATTAATACCCAAAGAATCATTTCCATGATGAATGTATGTGAAGAAGGGGAACTGGTGATTGATGCCAAAGGAATTTATTCCATTGAAAATTTTCTGACGGCAAGAATGTTTATGTATTGGCAGGTGTATTACCATAAAACTTCAGCGTTGGCAGAATTTCTTTTAGTTAAAATTCTTGAAAGAGCAAAATATCTGATCTCTAAGGGAACAGAACTTCCCGCAACCGATAATCTGAAGTATTTTTTATACCGTGAAAAAAGCGCTGCTACGGATGAAGATATAGAAAGATTTACGAAGCTTGATGATAATGATGTGATCCAGGCGATGAAAGAATGGCAGAATTCGGAAGACTTTGTATTGTCATATTGGTGTAAATGTGTAATTCAGAGAAATTTACCCAAAACAATTATTTCATCACATCCGTTCGATGAAAAAATAATTGATGAAAAAATAAAAATCAGCAACGAATTTTTCGGAATTGATAATGGAAAAGAACTGATTCATGAAATAAAACGAAAATTGTTACCTTATCATGCGGAAAAACAGCCCATTTATCTGCTGCATAAAAATGGTACGAGAACAAGACTGCATGAATCTGAAGACCAGCTTTTATCAGGATTGATGGTGAATAAAACAACACGGTATATCCTTATGTTTCCAAGGGATATCTCCGGGCTGGACTCTTAA	MPNFVANIDVSMQNKLKIINDPVHGFIKIPHEILFDVIEHPYFQRLRRIGQTGLLNLIFPGATHTRFHHALGAMHLMFTALETLKQKGVKISEEEEKGAMLAILMHDIGHGPFSHALESMLMDDWHHENLSLLLMNKLNEEFHGQLTMAIEMFQGKYHRKFFNQLISSQLDVDRLDYLKRDSFFTGVSEGNINTQRIISMMNVCEEGELVIDAKGIYSIENFLTARMFMYWQVYYHKTSALAEFLLVKILERAKYLISKGTELPATDNLKYFLYREKSAATDEDIERFTKLDDNDVIQAMKEWQNSEDFVLSYWCKCVIQRNLPKTIISSHPFDEKIIDEKIKISNEFFGIDNGKELIHEIKRKLLPYHAEKQPIYLLHKNGTRTRLHESEDQLLSGLMVNKTTRYILMFPRDISGLDS				NA	NA	NA	NA	NA
BMS003_03415	1032	lpxD_3		UDP-3-O-acylglucosamine N-acyltransferase	ATGGAATTTACAGCTTCGCAAATTGCAAGTTTTATTGACGGAAAAATAATAGGTGACGAGAATGCACTTATTACAGGGGTTTCACCAATTGAAAATGGCGAATCAGGACATCTTTCTTTTATAGCACAAGATAGATTTTCTCATTTTCTGGATACCTCACAATGCTCTGTTATTATTGTTTCGGAAAAGCTTCTGGAGAAAAATCATTATAACCCTACCTTAATTGTTGTAAAAGATGCCTACCTTTCTTTTCAGATCCTGATGAATTTATATCAGGAGATGCAGGGAAGGAAAGAAGGTATTGAGAATGGTTCATCCATCCATGATACAGCTGTGATAGGAGATAAAGCATATATAGGAGCATTTACATATGTTTCCGAGAAAGCTAAAGTAGGGGAAGGTTCGCAGATTTATCCGCATGTATATATAGGAAAAGGAGTGAAAATTGGTAAAAACTGTAAGATAGACAGTGGTGCCAGAATTTACGACTACTGTATTATTGGGGATAACTGTGTCATTCATTCCAATACGGTAATTGGAGGTGACGGTTTTGGTTTCCAGCCGACACCCGAAGGTTTCAAAAAGATACCACAGCTTGGAAATGTAATTATTGAAGACGATGTTGAAATCGGTTCAAACTGCAGTATAGACAGAGCTACAATAGGATCTACCGTTATAGGAAAAGGAACTAAAATAGATAACCTTATCCAGATCGCCCATAATGTAAAAATAGGTCAGAACAATGTAATTGCGGCACAGGCAGGAATTGCAGGTTCTACTACCATTGGAGACTGGAACCAGATTGGTGGTCAGGTAGGTGTTGTAGGGCACATCAAAATAGGGAACCAGGTGAAAATTCAGGCTCAGAGTGGCGTGAATTCCAGCGTTAATGACAGAGAAACATTATATGGTTCGCCGGCAATCAGTTATAATGACTATTTGAGAAGCTATGTTCATTTCAGGAACCTGCCTGGAATTGTAAACAGAATAAATAATCTTGAGAATAACTCAAAAGATAATACTAATGAGTGA	MEFTASQIASFIDGKIIGDENALITGVSPIENGESGHLSFIAQDRFSHFLDTSQCSVIIVSEKLLEKNHYNPTLIVVKDAYLSFQILMNLYQEMQGRKEGIENGSSIHDTAVIGDKAYIGAFTYVSEKAKVGEGSQIYPHVYIGKGVKIGKNCKIDSGARIYDYCIIGDNCVIHSNTVIGGDGFGFQPTPEGFKKIPQLGNVIIEDDVEIGSNCSIDRATIGSTVIGKGTKIDNLIQIAHNVKIGQNNVIAAQAGIAGSTTIGDWNQIGGQVGVVGHIKIGNQVKIQAQSGVNSSVNDRETLYGSPAISYNDYLRSYVHFRNLPGIVNRINNLENNSKDNTNE	PGPT0022340_1748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS003_03416	1398	lpxC		UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGAGTGATATGCAAAAAACACTTCAGCAAGAGGTTACTCTTTCTGGAATTGGTCTTCACACGGGTAAAGAAGTAAAACTTACCATTAAACCTGCTAAAGAAAATACAGGTTTTGTATTTGTAAGAACAGACTTGGAGGGACATCCTCAGGTAGAAGCAGATGTAAATTATGTTGTAGCAACAGAAAGAGGAACTACATTAGAAAAATTAGGGGTTAAGATTACCACTTGCGAGCACCTTTTGGCAGCCCTTGTAGGTTGTGACATAGACAACGCAATTTTAGAAATGGACGCCTCTGAACCTCCTATCCTGGATGGATCTTCAAAATACTTTGTAGAAGCTATCGAAAGTGTTGGAGTAACAGAACAGACTGTAGCAAGAGAATATCTGGTGGTAAAAGAAGTTCTTACTTACAGCGATCCGGCTACGGGTTCGGAAATCACAATCATTCCTTCAGATACTTATGAAGTAACTACCATGGTAGATTTTGGGACTAAAGTTTTAGGAACTCAGAATGCCACTCTTAAAAATATTTCAGAATTTAAAGACGAAATCTCATCAGCAAGAACATTCAGCTTCCTGCATGAATTGGAAATGCTTTTAGATCATGGTTTGATCAAAGGCGGAGATATTTCCAATGCTATTGTATATGTAGATAAAGATCTTACTCCTGAAACAACAGAAAAACTAAAGAAAGCCTTTGGAAAAGATAATGTATCCATCAGACCAAATGGTATTCTAGATAATCTTAATTTAAACTATCCTAATGAAGCGGCAAGACACAAATTACTGGATGTAATTGGTGACCTTGCTTTGGCAGGAGTAAAAATAAAAGGTAAAGTTATAGCCAACAAACCGGGGCACTATGTGAATACTCAGTTTGCAAAAAAACTAAACCGCCAGTGGAAATTGCAGAAAAAGAAAAACGTACCGGATTTTGACCTGACAAAAGAACCCGTATTCGATATCAACGGAATTATGAAGCTTATGCCTCACAGACCTCCGTTCTTATTGATTGATAAAGTCCTTGAACTTTCAGACTCACACGTAGTAGGCTTGAAGAATGTGACAATGAACGAACCTTTCTTCGTAGGTCACTTTCCCAAAGAACCTGTAATGCCTGGTGTACTTCAGGTAGAAGCATTAGCACAGACGGGAGGTATTCTGGTACTGGCCAGTGTTCCGGATCCGGAAAACTATTCTACTTATTTCATCAAAATTGATAAGGTGAAATTCAAGAGAAAAGTAATTCCGGGAGATACGCTTATATTCAAGATTGAATTGATAGAGCCTATCAGAAGAGGAATTGTTCATATGCAGGGATATGGATATGTAGGAGACACTGTAGCAGTAGAAGCAGAGCTTATGGCCCAAGTTGCAAAAAATAAAGTTGATTAA	MSDMQKTLQQEVTLSGIGLHTGKEVKLTIKPAKENTGFVFVRTDLEGHPQVEADVNYVVATERGTTLEKLGVKITTCEHLLAALVGCDIDNAILEMDASEPPILDGSSKYFVEAIESVGVTEQTVAREYLVVKEVLTYSDPATGSEITIIPSDTYEVTTMVDFGTKVLGTQNATLKNISEFKDEISSARTFSFLHELEMLLDHGLIKGGDISNAIVYVDKDLTPETTEKLKKAFGKDNVSIRPNGILDNLNLNYPNEAARHKLLDVIGDLALAGVKIKGKVIANKPGHYVNTQFAKKLNRQWKLQKKKNVPDFDLTKEPVFDINGIMKLMPHRPPFLLIDKVLELSDSHVVGLKNVTMNEPFFVGHFPKEPVMPGVLQVEALAQTGGILVLASVPDPENYSTYFIKIDKVKFKRKVIPGDTLIFKIELIEPIRRGIVHMQGYGYVGDTVAVEAELMAQVAKNKVD	PGPT0022335_159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022335-lpxC_fabZ-K16363	NA	NA
BMS003_03417	795	lpxA	COG1043	Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	ATGGTTCATCAATTAGCAGCCGTAGATAAACGTGCAAAAATCAGCAAGAATGTAATCGTAGAACCTTTCACTACCATTGCAGGTGACGTAGAAATAGGAGAAGGAACATGGATTGGCCCTAATGTAACCATCATGGATGGAGCAAGAATAGGGAAAAACTGTAGGATTTTCCCGGGGACAGTAATCTCTGCAATTCCTCAGGATCTGAAATTTGATGGTGAAGATACTCAGGTTATTATTGGTGACGATACAACAATCAGAGAGTGTGTTACAGTAAACAGAGGAACAAAAGCGCTTGGGTATACCAAAATAGGTGCCCACTGTCTTATTATGGCAACTTCACATATTGCACATGACTGTGTTATCGGAGATCATGTTATCATCGTAAACGGTTGTGGTATTGCAGGGCATGTAGAAATTGGCGACTATACAGTAATGGGAGGTTTATCTGCTGTTCACCAGTTCGGTAAAATCGGAAAGCATGTAATGATTTCCGGAGGTACCTTGGTAAGAAAAGATATTCCACCTTATGTAAAAGTAGCAAGAGAGCCAATGTCTTATGCAGGTATCAACTCTGTTGGTTTAAGGAGAAGAGGATTTACCAATGAAAAAATCTTTGAAATCCAGAAAATTTACAGAGCAATCTTCCAGATGAAAATGAATGTTTCTCAAGCCATTTCTCATATTGAAAAAGAAATGCTTCCAACGGCTGAAAGGGATGAAATCTTACAGTTTATTCAAAACTCACCAAGAGGTATCGTAAAAGGATACGGAACAGGTAAGGATAGAGAGTAA	MVHQLAAVDKRAKISKNVIVEPFTTIAGDVEIGEGTWIGPNVTIMDGARIGKNCRIFPGTVISAIPQDLKFDGEDTQVIIGDDTTIRECVTVNRGTKALGYTKIGAHCLIMATSHIAHDCVIGDHVIIVNGCGIAGHVEIGDYTVMGGLSAVHQFGKIGKHVMISGGTLVRKDIPPYVKVAREPMSYAGINSVGLRRRGFTNEKIFEIQKIYRAIFQMKMNVSQAISHIEKEMLPTAERDEILQFIQNSPRGIVKGYGTGKDRE	PGPT0022320_1144	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
BMS003_03418	312			hypothetical protein	ATGAAAAGTTTAATGATACTTATGGTACTTTCCGGAACATCTTTTTTGTTTGGACAGCAAAAGGAAAAACCTTTTACCATAGAAAGAAAACTTTCCGAAGTATCTAATGATAGTATTGCAAAGAATAACTTAAATGGTATTCTGAAACAGAAAAATACAGGAAGTTCAATTTTAGGAACAACCGAACAGTATAAGTCTGATCTTCAGATGAATGTAAACAGGTTGAATAATAATGTGAATACATTCAATAATAATACATTTAATAGAATGATGCCGCAAGGGCAGGGAATACAGTTTAATAAAAGAAAATAA	MKSLMILMVLSGTSFLFGQQKEKPFTIERKLSEVSNDSIAKNNLNGILKQKNTGSSILGTTEQYKSDLQMNVNRLNNNVNTFNNNTFNRMMPQGQGIQFNKRK				NA	NA	NA	NA	NA
BMS003_03419	567	efp	COG0231	Elongation factor P	ATGGCAACAAGTAACGATATCAGAAAAGGGCTGTGCATAGAGTATAGCAATGATATTTATAAAGTAATCGAGTTTCTTCACGTAAAACCAGGAAAAGGACCTGCTTTTGTAAGAACAAAATTAAAATCAGTGACTAACGGTAAAGTAATTGATAATACTTTCTCTGCAGGACACAAAATTGATGAAGTAAAAGTAATCACCAGAAAGTTCCAGTATCTGTATGATGATGAGAACGGATTTCACTTCATGAACAATGATGACTTCTCCCAATTATACATCAACAAAGAAATGATTGAGAACTCTCAGTTTATGAAAGCTGGTGAGGAAGTAACAATTATTTTGAAAGAAGCTGATGAAACTCCACTTTCTGCTGAACTTCCACAGTCTGTATACCTTGATGTTATTGAAGCTGATCCGGGGGTAAAAGGAAACACTGCAACCAATGCTCTTAAAAACGCAATCGTTGAAACAGGAGCAAGAGTAATGGTTCCTTTATTCATTGAACCGGGAGACAGAATTAAAGTAAGCACTGAAGACGGCAGCTACTTAGAAAGAGTAAAAGAATAA	MATSNDIRKGLCIEYSNDIYKVIEFLHVKPGKGPAFVRTKLKSVTNGKVIDNTFSAGHKIDEVKVITRKFQYLYDDENGFHFMNNDDFSQLYINKEMIENSQFMKAGEEVTIILKEADETPLSAELPQSVYLDVIEADPGVKGNTATNALKNAIVETGARVMVPLFIEPGDRIKVSTEDGSYLERVKE	PGPT0016205_2122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS003_03420	903	lpxD_4	COG1044	UDP-3-O-acylglucosamine N-acyltransferase	ATGAGATTCCATTCTCCGCAAAAGCTTAAAACCATTGCAGATTTAATAGGCTCAGCATTTGTAGGTCCTGAAGATTTTGAAGTATTGGGAACCAATGAAATTCACATGGTAAAGCCAGGTGATATCGTTTTTGTAAACCACCCTAAATATTACGACAAAGCGCTAAACTCTGCAGCTACCATTATTTTAATTGATAAAGAAGTAGAGTGCCCGGAAGGCAAGGCACTTTTAGTTTCTGATGATCCTTTCAGAGACTTTAATAAGATCAATACCCATTTTACCAGAATATACAATTTCACAGAAGAACTTCACGATGTTGAAATAGGCGAAGGAACAAAAATCCACCCTTCAGCCGTGATCGGGAACAATGTGAAAATAGGGAAAAATACCCTTGTTTTCCCGAATGTTGTCATCGGAGACCGAACAGAAATCGGAGATAATGTCATTATTCAATCAGGAACTGTTATAGGAGGAGATGCTTTCTATTACAGAAAACTGAACGGTAATTTTGACCGATTAATTTCCGTAGGAAATGTTGTTATTGAAAGCAATGTTGAAATTGGGAACAATTGTACGATCGACAGAGGTGTTACAGACTCTACAGTGATAGGAGAAGGGTCTGTTCTCGATAACCTTATTCAGATTGGTCATGATACCATAATAGGAAAAAAATGCCTTATCGCTTCTCAGGTGGGTATTGCAGGATGCTGCATTATTGAAGATGAAGTAACCATGTGGGGACAGGTCGGAATTGCATCTGGTCTTACCATTGAGAAAGGTACTGTTCTGTTAGCCAAAACAGGAGTTAACAAAGACCTTGAAAAAGGAACCTATATCGGGATGTTTGCAGAAGATTTCAAAACTTATCTGAAAAAAGAAGTAAAGCTGAGAAATCTCAAATAA	MRFHSPQKLKTIADLIGSAFVGPEDFEVLGTNEIHMVKPGDIVFVNHPKYYDKALNSAATIILIDKEVECPEGKALLVSDDPFRDFNKINTHFTRIYNFTEELHDVEIGEGTKIHPSAVIGNNVKIGKNTLVFPNVVIGDRTEIGDNVIIQSGTVIGGDAFYYRKLNGNFDRLISVGNVVIESNVEIGNNCTIDRGVTDSTVIGEGSVLDNLIQIGHDTIIGKKCLIASQVGIAGCCIIEDEVTMWGQVGIASGLTIEKGTVLLAKTGVNKDLEKGTYIGMFAEDFKTYLKKEVKLRNLK	PGPT0022340_3187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS003_03421	873	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGTCAATTTTAGTAAACAAAGATTCTAAAGTAATTGTACAAGGATTTACAGGGAACGAAGGAACTTTCCACGCTGGTCAGATGATTGAATACGGAACAAACGTAGTAGGTGGTGTTACTCCAGGAAAAGGAGGTAGCGAGCACTTAGGAAAACCGGTATTTAATACAGTAGCTGACGCTGTTGAAAAAGCAGGAGCCAACGTAAGTATCATTTTCGTACCACCGGCATTCGCAGCAGACGCTATTATGGAAGCTGCAGAAGCAGGGATCAAAGTGATTGTATGTATTACTGAAGGTATTCCTGTAGCTGATATGGTAAAAGTAAAATCTTATATCGCAGACAGAGACTGCAGATTAATCGGACCAAACTGCCCTGGAATCATTACTTCTGAAGAAGCTAAAATTGGTATTATGCCAGGTTTCGTTTTCAAAAAAGGTAAAGTAGGTATCGTTTCAAAATCAGGTACCCTTACTTATGAAGCTGCTGACCAGGTAGTAAGAGCTGGTTACGGTATTTCTACTGCAATCGGTATCGGTGGTGACCCAATCATCGGAACGACTACAAAAGAAGCATTAGAGCTATTTATCAACGATCCTGAAACTGAAGCTGTTGTAATGATCGGTGAAATCGGTGGAGGTCTTGAAGCTGAAGCTGCAAGATGGTACAAAGCAAGCGGGTCTACTAAACCGGTTGTAGGATTCATCGCTGGACAAACTGCTCCGAAAGGAAGAACTATGGGGCACGCAGGTGCTATCGTAGGTGGTGCTGAAGATACAGCTCAGGCAAAAATGGAAATCATGAGAGAAAATGGTATCAATGTAGTAGATTCTCCGGCAGATATCGGTGCTACTGTAGCAAAAATATTAGGATAA	MSILVNKDSKVIVQGFTGNEGTFHAGQMIEYGTNVVGGVTPGKGGSEHLGKPVFNTVADAVEKAGANVSIIFVPPAFAADAIMEAAEAGIKVIVCITEGIPVADMVKVKSYIADRDCRLIGPNCPGIITSEEAKIGIMPGFVFKKGKVGIVSKSGTLTYEAADQVVRAGYGISTAIGIGGDPIIGTTTKEALELFINDPETEAVVMIGEIGGGLEAEAARWYKASGSTKPVVGFIAGQTAPKGRTMGHAGAIVGGAEDTAQAKMEIMRENGINVVDSPADIGATVAKILG	PGPT0001540_3141	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
BMS003_03422	672			hypothetical protein	ATGAAAAAACTTTTATTAGCCTCAGCACTTACTCTTTCTGCTCTGTCCTTTGCACAAGTGCAGTGGGAAAGCACAAGATTTGGTGTTACAGGCGGCTTCAACTACTCCAGAGTATCCAATGCCCATAATCCTTCGGGACCAAGATACACCTTTCAGGCTGGAGCTTTAGCCTTAATCCCGGTAGGAAAGACCAATCAGTTCTTTATCCAGCCTGAAGTTGAGTACTACGGTGCCGGAGAAACAGGAAAAGATAAAGATGCCAAAGGTGTAAGTGGTTATGATGCATTATATGCAAATAATTACCTGAGTGTTCCTCTTTATTTCAAAGGGTATTTTTCAGAAGCTGAATCAGAATTCTTTGGATTAATAGGGCCTAGATTTAACTTTTTGCTTAGCCAGAATGTTAAAGATGCACCTGTAAGCAGACCTTATTATGACCCGGATGTTACCGATCCTAAACAGCCGGAAGGCGTAAATGGAAAAGCTAATAGCTTTAACTGGGGACTTGGCTTAGGAATAGGGTATAGCTATAAAAGACAACTTGAAATAGCTGTAAAATATGACTTAGGTCTTGGAGATACCTATCCTGGTCTTAAAAAAGAAACCAAGGGTACTGATAAGAAAAAATCAGAGCAGGTATTGGCACTTACTTTAAGCTATATATTCAATTAG	MKKLLLASALTLSALSFAQVQWESTRFGVTGGFNYSRVSNAHNPSGPRYTFQAGALALIPVGKTNQFFIQPEVEYYGAGETGKDKDAKGVSGYDALYANNYLSVPLYFKGYFSEAESEFFGLIGPRFNFLLSQNVKDAPVSRPYYDPDVTDPKQPEGVNGKANSFNWGLGLGIGYSYKRQLEIAVKYDLGLGDTYPGLKKETKGTDKKKSEQVLALTLSYIFN				NA	NA	NA	NA	NA
BMS003_03423	1311	yhaP	COG1668	putative protein YhaP	ATGAATAATATTTTTTTAATTACCAAGAGAGAGTTTCTTACGCAGGTTAAGAAAAAGTCTTTCATTATATTGACACTGCTTGCCCCTGTCATGATCATTGCCTTCGGAGCAGTAGTGGGGCTGATGTTTAAAGCGAATGAGTCTCACAGTATCATAGAAGTGGTTGATAAAAGCGGATTGTTTACCAATCAGCTGAAATCTAATGATAAATTAAATTATGTTTTTGTTTCTGGGGTAGATGAACAGTCTAAGATCAACAATTTAAAAGGAAATGAATCTCTGGATGGTATTCTGATTCTTCCGGAGCTGAAAAACCAGGATTTTGATGCGCTAGAAAAAGATACACGGCTGGTGATCAACAGTAAAATAGGTTTTGATACCAAGCAAAAAATTGTTTCTGACATCAGCAATGTCGTTAAAAAGGAAAAAATAAAACAACTGGGGATTCAGGAGACGCAGCTTAATGATCTTGATAAAAGTTTCACACTAAAAACCATCAATGTTACGGATAATAATAAAGAGGATTCTGATCTTACTTTTGGAGTGAAATCCGGACTGAGTATGATTTTGATGTACGTTACTTTTATGTTCATCATTATTTACGGAGTAAGGGTAATGAGAAGTGTTCTTGAAGAAAAAAACAACCGTGTTGTAGAGATCATTATTTCTTCCGTGAAACCTTTTGAGCTGATGATGGGGAAAATTTTAGGAGTAACGTTGGTTGCTTTGACACAGTTCATCATATGGATTACAATGTCTGTCATAGGAGCCCTGGTTTTAAATACGGGTTTCTCTCCTATTCAGAAGAACATTCCTGGCGGAAGTGAAGAAATTGCAAGTAGACTGGATATGGGACAGCTTGCTACCCAGATTTCGCACAGCTTACTGGAGCTGAACTTCCCGCTTATTATTTTTGTATTTATTGTCTTCTTCCTTTTAGGATATATATTTTACAGTTCCATATATGCCGCCATTGGTTCTGCAGTGGATAACGAAACAGAAACACAGCAGTTCACTTTATTCGCAATATTACCATTAATGCTAGGAATGTATGGGAGTTTCACATTGATGAATAATCCAGACGGACCGTTAGGCTTCTGGCTGTCTATCATTCCGTTTACTTCACCGGTTGCCATGATTGCCAGAATTCCGTTTGGTGTTCCTGCATGGCAGATTGCGTTGTCTATTGCATTATTGCTTGGAACCACTATTTTTATGATTTTCGTAGCTGGAAAAATTTATCGTGTAGGGATTTTGATGTACGGTAATAAAGCGACTTTAAAGGAACTTTGGAAGTGGATTAAGGGATAA	MNNIFLITKREFLTQVKKKSFIILTLLAPVMIIAFGAVVGLMFKANESHSIIEVVDKSGLFTNQLKSNDKLNYVFVSGVDEQSKINNLKGNESLDGILILPELKNQDFDALEKDTRLVINSKIGFDTKQKIVSDISNVVKKEKIKQLGIQETQLNDLDKSFTLKTINVTDNNKEDSDLTFGVKSGLSMILMYVTFMFIIIYGVRVMRSVLEEKNNRVVEIIISSVKPFELMMGKILGVTLVALTQFIIWITMSVIGALVLNTGFSPIQKNIPGGSEEIASRLDMGQLATQISHSLLELNFPLIIFVFIVFFLLGYIFYSSIYAAIGSAVDNETETQQFTLFAILPLMLGMYGSFTLMNNPDGPLGFWLSIIPFTSPVAMIARIPFGVPAWQIALSIALLLGTTIFMIFVAGKIYRVGILMYGNKATLKELWKWIKG	PGPT0006730_2582	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS003_03424	912	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGCTAAAAGCTGAACATATTAAAAAGACCTATAATGCCGGAAAAAAGGTCGCACTGGATGATTTCAGCATCCATGTTCCGAAAGGCAGTATTTACGGTCTTTTAGGCCCTAACGGAGCCGGAAAAACTTCTTTCATCCGTATCATTAACCAAATTACTCAGGCAGACTCCGGAGATATCTTTATTCATGGAGAAAAACTGAACCCGGGCCATATTAAAGATATAGGTTATATGCCCGAAGAAAGAGGTCTTTACAAGAACATGAGTGTCGGGGACCAGATTCTGTATTTCGGGGAACTGAAAGGAATGAGCAAAAACGATGCTCTGAATGAGGCAAAAAAATGGTTTGAAAAACTGCATATAGACCAGTGGTGGAAGAAAAAGCTTTCTGAACTTTCTAAAGGAATGGCACAGAAGATCCAGTTTGTAGTAACGGTTCTTCACAGACCACATATTTTAATTCTCGATGAACCTTTTTCCGGTTTTGACCCAGTAAATGCGAATTTAATTAAAGATCAGATCATTGATCTTAAAAATAACGGAACAACCATCATTCTTTCTACCCATAGGATGGAAAGTGTAGAGGAAATGTGTGATTATGTTGCTCTGATCAATAATTCTAAAAAAATTATTGACGGAAGGGTTTTCGATGTAAGAGAAAAATTCAAGAAAAATATTTTTGGAGTTACCCTTTCTGAGGTAGGCAGCGATCAGTTTGAAAATTTCAGAAATAAGTATGAAATCTTCAATTTATCTGATGAAAACAATCTTATTTCTTTTGATCTGAAAAATGAAGAAAGCCAGAACAATGTGCTTCTTGACCTTGTACAGGTAGGAAAGGTAAGATCCTTTGACGAAAGAATTCCCAGCATGAATGAGGTGTTTATTAATGCTGTAAGTAATCATTCTTAA	MLKAEHIKKTYNAGKKVALDDFSIHVPKGSIYGLLGPNGAGKTSFIRIINQITQADSGDIFIHGEKLNPGHIKDIGYMPEERGLYKNMSVGDQILYFGELKGMSKNDALNEAKKWFEKLHIDQWWKKKLSELSKGMAQKIQFVVTVLHRPHILILDEPFSGFDPVNANLIKDQIIDLKNNGTTIILSTHRMESVEEMCDYVALINNSKKIIDGRVFDVREKFKKNIFGVTLSEVGSDQFENFRNKYEIFNLSDENNLISFDLKNEESQNNVLLDLVQVGKVRSFDERIPSMNEVFINAVSNHS	PGPT0006725_13414	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_03425	411			hypothetical protein	TTGTATGAAATTATAGAATTTATTACATTTGTTATATATATTCGAGAAATTATAAATTTGATGAAAAAACTTTTACTTTTATTTCTATTTGTAGGCACTTTTGTTGGATTTTCCAACAATTTAAAAGCTCAGCTTAGAGAGCCGGGTTCCATCAGTCAGAAAGCGGATGATGGTGTATTGCTTGCCTATCCGAATCCTGCAAAGGATTTCCTTATTATTAAGGCAAAAGATTCTTCTTTAAAAATCAAGAGTGTGACTTTTTATTCAATTTTGGGTATGCAGGTTGCCAACTATACAGTAAACATGAATTCCGGTGAGATTAATATTGAAAAATTGAAGCCCGGAAAATATATGATACGTTATATTTTAAGCGACAATACGCAGAAAGTTACTCAAATCGTAAAACAATAA	MYEIIEFITFVIYIREIINLMKKLLLLFLFVGTFVGFSNNLKAQLREPGSISQKADDGVLLAYPNPAKDFLIIKAKDSSLKIKSVTFYSILGMQVANYTVNMNSGEINIEKLKPGKYMIRYILSDNTQKVTQIVKQ				NA	NA	NA	NA	NA
BMS003_03426	990	hemB	COG0113	Delta-aminolevulinic acid dehydratase	ATGATACATTCAAGAAATAGAAGACTTAGAGTTAATGAATCTATCAGAAGTTTGGTAAGAGAAAATGTGCTTACAACTGATGATTTTGTAATGCCAATCTTCGTAATGGAGGGCGAAAACAAGCAGGAGGCAATCCCGTCTATGCCGGGAATTTTTAGGCGGAGTATAGATTTAACAGTAAAGGAATGTAAGGAATTATTTTCTTTGGGTGTAAAAGCTGTCAATTTGTACATGAAAGTGTCAGAACATCTGAAAGACAATACTGGAAAAGAAGCATGGAACAAAGACGGTTTGATGCAGAACACCATCAAGGCAATTAAAGATGCTGTTCCGGGAATGATTGTAATGCCGGATGTAGCGTTGGATCCATATTCAATTTACGGACATGACGGAATCATTGAAAACGGAAAAGTTTTAAATGATGCTACGAATGATGCACTGGCAAGAATGTCAGTATCTCATGCAGAAGCAGGTGCGGACCTTGTGGCTCCAAGTGATATGATGGACGGCAGAGTTTTGGTAATACGTGAAGCTTTGGAAGAAAGCGGATTTACAGATGTAGGAATTGTAAGCTATGCTGCCAAATATGCAAGCTCTTTTTACGGACCTTTCAGAAGTGCTTTAGACAGTGCTCCGAAAGACGATATGGAAATTCCGAAAGATAAAAAGACCTATCAGATGGACTTCCACAATTCCCGTGAAGCATTGAATGAAGTATATAAAGATATTGACGAAGGGGCAGATGTTATCATGATCAAGCCAGGTCTTCCTTATCTGGATATAGTTTCCAAAGTACGTGAAGCCATTGATCTTCCGATTGCAGTGTACAATGTAAGTGGAGAATATGCCATGGTAAAAGCAGCGGCTCAAAACGGCTGGCTGGATAATGACAAAACGATTATTGAAAGCCTGACATGCTTCAAAAGAGCAGGAGCAGATATGATTTTTACCTATTTTGCAAAAGAAGCTGCCATACTATTAAATAAATAG	MIHSRNRRLRVNESIRSLVRENVLTTDDFVMPIFVMEGENKQEAIPSMPGIFRRSIDLTVKECKELFSLGVKAVNLYMKVSEHLKDNTGKEAWNKDGLMQNTIKAIKDAVPGMIVMPDVALDPYSIYGHDGIIENGKVLNDATNDALARMSVSHAEAGADLVAPSDMMDGRVLVIREALEESGFTDVGIVSYAAKYASSFYGPFRSALDSAPKDDMEIPKDKKTYQMDFHNSREALNEVYKDIDEGADVIMIKPGLPYLDIVSKVREAIDLPIAVYNVSGEYAMVKAAAQNGWLDNDKTIIESLTCFKRAGADMIFTYFAKEAAILLNK	PGPT0003655_2786	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS003_03427	1062	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGATTTTACGAGGAGAAAACTTAATCAAGGAATACGGTCCTAAAAAAGTTGTAAAAGGCGTTTCTGTACAGGTTCAACAGGGAGAAATTGTTGGTTTGCTGGGTCCTAACGGAGCAGGGAAAACCACATCGTTTTATATGATTGTAGGGTTGGTTAAGCCTACTTCAGGAAAAATTTTCTTAGACAAGCAGGAGATTACTACCGATGCCATGTACCGAAGAGCCCAAAAGGGAATCGGATATCTGGCTCAGGAAGCTTCGGTTTTCAGAAAGTTGTCTGTGGAAGAAAATATCATGGGAGTATTACAGCTGACCAAGCTTTCTAAGCGTGAACAGCAGATCAAATGTGATGAACTGATTGAAGAATTTTCTTTACAGCACGTCCGTAAAAACAGAGGAGATCTTCTTTCCGGAGGAGAAAGGCGTAGAACCGAAATTGCACGCTGCCTTGCAACAAGCCCGAACTTTATTCTTCTGGATGAGCCTTTTGCTGGGGTAGACCCTATTGCCGTAGAAGATATCCAGAAAATTGTACGAAGCCTTGTAGATAAAAATATCGGAATTCTGATTACCGATCACAACGTGCAGCAAACCCTGGCCATTACCAATAAAACCTATATTATGTTTGAAGGAAAGATTCTGAAAGAAGGACTTCCGGAAGACCTTGCCAATGATCCACAGGTAAGAGAAGCGTATCTGGGTGAAAACTTCGTGTATCAGAGTATTTTAGATAAGCCTAAAAAGAAGAAATATGCATACAATATCTGGGCAGGTAATTTTGACTCAAAAGTGCAGCTGCAGGGGTTTGTGGATGAAAACTTCAAAACATTTGACGATCTGAGACTGATGTATGGTTTTGAAGAGATCAGCTTTGCTTCATTAGCAAACTCTGAGATTGAACATATCTTTAATGATGTAGTGGATAAGAATGCCAACAACTCATTTGTTTTCCAGAAAAAGGAAATTAATTCCCAATACACTTTGGAACAGGCGGAAGCAGAATCTAAAGAAGCCAGCAGAAAAGAACTGCATTACCTTACCACTTATTTGTTTGAAGGATAA	MILRGENLIKEYGPKKVVKGVSVQVQQGEIVGLLGPNGAGKTTSFYMIVGLVKPTSGKIFLDKQEITTDAMYRRAQKGIGYLAQEASVFRKLSVEENIMGVLQLTKLSKREQQIKCDELIEEFSLQHVRKNRGDLLSGGERRRTEIARCLATSPNFILLDEPFAGVDPIAVEDIQKIVRSLVDKNIGILITDHNVQQTLAITNKTYIMFEGKILKEGLPEDLANDPQVREAYLGENFVYQSILDKPKKKKYAYNIWAGNFDSKVQLQGFVDENFKTFDDLRLMYGFEEISFASLANSEIEHIFNDVVDKNANNSFVFQKKEINSQYTLEQAEAESKEASRKELHYLTTYLFEG	PGPT0023300_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS003_03428	252			hypothetical protein	ATGGATGATCCTTATAAATATGAAGATTTTCAAGTAGGAACCAAAGTTTTTTTGGATAATGAATACGGTATTATAATGAATGTAAAGTTTCATGAAAGTTCAACTGTAGTCCGTTGGGATACATCAGTTGAAAATGATTTTGAAGATTGGTCAGGAATGTGGGGGCCTTTTGTACAAATGGGTGGAAAGATAATTGATCCAAACTATCAATTCAAATACATCAATGATGATGGTACATTGAAAGATTCTTAA	MDDPYKYEDFQVGTKVFLDNEYGIIMNVKFHESSTVVRWDTSVENDFEDWSGMWGPFVQMGGKIIDPNYQFKYINDDGTLKDS				NA	NA	NA	NA	NA
BMS003_03429	1809		COG1132	Putative multidrug export ATP-binding/permease protein	ATGGCTAAACCCTTTAACAGAACCGTAACTTTATTCGGAATCTATAAGCAGCTTGTTCCTTTTATAAGACCTTATCGTCCCATGATCTACGGAACTTTGTTTCTTACTTTTCTGGGAGCTTTGGCAGCACAGGTCAACCCGATTGTGCTGAAATACACGGTGGATGAAGTCACCAAACTTACACATCTTCCCCATCCGATGTCAGAGGGAATTCATATTCTCGTTATTATTTCCATTATTTTACTGGGAAAAGAATTGCTGAATATTTTTATCAACTTCGGACAGAAATTTTATGGTGAAAAAATAAGGATTAATGTGAGTTCTGTGTTGGCGCAATCAGCGATTGATAAAATTCTGACCTATAGAGTTGCTTATTTTAATGATGAAAACCATGAGTCCGGAAAATTGCAGATCAGAATAGACCGTGGAATAGAAAGTCTGACAAAGCTGGTGCAGAACTTTTTTATTGATATTCTGCCTCTTTTTTCCAATGCCATTATTGCGCTCATCATTATGTACATGCAGAATGTGTATGTAGGGCTCGTTTCTACAATCATTGTCCCTATTTACTTTTATATCAGTTCACTGCAGGCAAAAAAATTGGGAGGAGTTCGCCGGCAGCTTAGAAATCAAAGAGAAAAAAAGACTTCCGGACTTCTGAATCTGATCAATTCAATTATGGTGATTAAAAGCTTTGTGCGTGAGAAATTTGAAGGAAAAAAACAATATGATCTTCAGATGGAGTTGATGGAAAGCCAGATGATCACAAGAAGAACTAACTTTATCTATGATGGATTAAAAACATTTATAGAACAGTTCGGAGTGGTTCTGATTATCCTTTTAACCGTTTATCTTGTGCTTGATCAGCAGATGACAATTGGGGCAATCATGCTTCATATCATGCTTTTTAACAATGTATCAGCACCTATCCGCCAGCTTCACAGAATTTATGATGATATGAATGATGCCATGATTTATGCGGAAGGGTATTTTGATATTCTGAATGCAGACCATGAAACAGAACTGAACGGAAGTTTTGTAGAAAAAGAAATCAAAGGAACCTTTGAACTGAAAAATGTTGATTTCACTTATCCCAATGGTACAAAAGCATTACATGATGTTTCCATGAAAATTGAAAACGGAAAAACGACTGCTCTGGTAGGATTAAGTGGAGCAGGAAAATCTACAGTGATCAATCTTTTATGTAAATTCTATCTTCCGGACTCCGGAGAAATTCTTCTGGACGGAGTCAATCTGAATGAATATGATAATACTTTTCTGAGAAGTGATCTCGGTCTTGTGCTTCAGAAAAATCATATTTTTCAGGGAAGTATAGAAGATAATATCCGATATGGAGACATGAATGCAAGTTTTGAAGAAATTGAAGAAGCTGCAAAAAAAGCCTATCTGCATGATCAGATTATGGATCTCCCTGAGAAATATCTGCATGATGCTACCCAGCTTTCCGGAGGACAGCAGCAGAGAATTGCCATTGCGAGATTATTTCTGAAAAACCCTCCGATCATCTTTTTGGATGAACCAACAGCCAGTCTGGATGCCATAGCCACTGAGCAGATCAAAAATTCTCTGGATGCCATAAAAGAAGGAAGAACTGTGATCATTATTTCCCATTCGTTATCGCAGATTCTGGATTCTGATGTTATTTACGTTATGAAAAAAGGAAGAGTGGTTGAAAACGGAACTCATGATGAATTGTACAACAAAGAAGGAACGTACCGTGAGATTTTTGATGCCTCGGCCCGAAGTCTGAATCTCGATAAACTGGTGAATACTTATAAAGAAAATTAA	MAKPFNRTVTLFGIYKQLVPFIRPYRPMIYGTLFLTFLGALAAQVNPIVLKYTVDEVTKLTHLPHPMSEGIHILVIISIILLGKELLNIFINFGQKFYGEKIRINVSSVLAQSAIDKILTYRVAYFNDENHESGKLQIRIDRGIESLTKLVQNFFIDILPLFSNAIIALIIMYMQNVYVGLVSTIIVPIYFYISSLQAKKLGGVRRQLRNQREKKTSGLLNLINSIMVIKSFVREKFEGKKQYDLQMELMESQMITRRTNFIYDGLKTFIEQFGVVLIILLTVYLVLDQQMTIGAIMLHIMLFNNVSAPIRQLHRIYDDMNDAMIYAEGYFDILNADHETELNGSFVEKEIKGTFELKNVDFTYPNGTKALHDVSMKIENGKTTALVGLSGAGKSTVINLLCKFYLPDSGEILLDGVNLNEYDNTFLRSDLGLVLQKNHIFQGSIEDNIRYGDMNASFEEIEEAAKKAYLHDQIMDLPEKYLHDATQLSGGQQQRIAIARLFLKNPPIIFLDEPTASLDAIATEQIKNSLDAIKEGRTVIIISHSLSQILDSDVIYVMKKGRVVENGTHDELYNKEGTYREIFDASARSLNLDKLVNTYKEN				NA	NA	NA	NA	NA
BMS003_03430	954			hypothetical protein	ATGAACGATCACTATCTAAAAAAGCTCGATCGGGTAACAGCCATTCTTACCCAGTTACAGTCTAAACCTATTGTGCGGGCCCAGGATCTTGCTGAAAAATTTGATGTAAGTATCAGAACCATTTACCGTGATGTGAAAACCCTTGAAAATGCGGGGATTCCTATTGTGGGAGAAGCCGGAAATGGCTATTCTTTAATGGAGGGTTACAAACTACCACCCATTATGTTTACCAAAGAAGAAGTGTTAAGCTTCATTACCGCAGAGAAACTGATGCAGAAATTCTCACACCAGAGTTTGGGAAACCACTATCAGGCGGCTATGGAAAAAGTACGTTCGGTATTAAGACATTCTGATAAAAATCTGATTCAGAATATTGAAAAACAGATTGATGTTTTCAGCTTTCATACAGATTCCGGGGACTCTCTTAAAAATGTGATTCCTATTATTCTGGAAAGCATTGCAGAAAAGACTCAGTTGACTATAAAATATCAGACCGTAGACGGGAGAGTGAATAACAGAATTATTGAAACAGTGGGGATGTTTTTTGAATTTAATTTTTGGTACATCATGGCATACTGTACACTGAGAAAAGATTTCAGACAGTTTCGTATCGACAGGATTTTAGAAATTTCAAAAACACAGAATCCTTACCTGCAGGAATACGGACAGGTAAATGATTACCGTAAAAAATCAAACGGGAATAAGGTTAAAGCCAAGCTTCTGGTTGACAAAAAAATAATGAATCATCTGATCAATTCTAAAAAATACTATGGATTGACCGAAGAAGTAGAGACGGAAAATGGAGTAGAGCTCACTTTTGAAACAGAATGGATCAATGACGGATTTCCACGCTGGCTTGTAACCTTTGCAGATTATGCTACTGTTTTGGAACCGGAAAGTCTTCGGGCACGTTTAAAAGAACTGCTTGTCAAAATGGTAGAAAGACATCAATAA	MNDHYLKKLDRVTAILTQLQSKPIVRAQDLAEKFDVSIRTIYRDVKTLENAGIPIVGEAGNGYSLMEGYKLPPIMFTKEEVLSFITAEKLMQKFSHQSLGNHYQAAMEKVRSVLRHSDKNLIQNIEKQIDVFSFHTDSGDSLKNVIPIILESIAEKTQLTIKYQTVDGRVNNRIIETVGMFFEFNFWYIMAYCTLRKDFRQFRIDRILEISKTQNPYLQEYGQVNDYRKKSNGNKVKAKLLVDKKIMNHLINSKKYYGLTEEVETENGVELTFETEWINDGFPRWLVTFADYATVLEPESLRARLKELLVKMVERHQ				NA	NA	NA	NA	NA
BMS003_03431	492			hypothetical protein	ATGACAACTACAGCAACAGCCACTAAACAATTCATGACCTCTGAGCAACTATTGAACGACTGGCAGGGACACAGAAATCTTACAAGAAGAGTGATTGAATCTTTTCCTGAGAAAGAATTATTCGAATTTTCAGTAGGCGGAATGAGACCGTTTGCAAAACTGGCAGTAGAACTGATTAGTATTGGCGGACCAGCTTTAAAAGGAATTGTAGAAGGAAATATAGAAGCGTACAGCGAAGAAGCATTTAACCCGAAAACTAAAGAAGAGATATTGAAGAAATGGGACGAAGAAACAGAAGTAATCAACCATTATTTCAATCAGATTTCTGAAGAACGTTTCCAGGAGACTTTCAATTTATTCGGACAATATGAATTCCCGGTATACCAGAACATTCTTTATTTTGTAGATAACGAAGTTCACCATCGTGGGCAGGGATATGTCTATCTGAGAGCTTTGGGAATTGAACCTCCATTCTTCTGGGAAAGATTTTAA	MTTTATATKQFMTSEQLLNDWQGHRNLTRRVIESFPEKELFEFSVGGMRPFAKLAVELISIGGPALKGIVEGNIEAYSEEAFNPKTKEEILKKWDEETEVINHYFNQISEERFQETFNLFGQYEFPVYQNILYFVDNEVHHRGQGYVYLRALGIEPPFFWERF				NA	NA	NA	NA	NA
BMS003_03432	585			hypothetical protein	ATGAAGAAGTATATTTTGTCTCTTGTCACTGCTTTTTTAGTAGTATCATGCAATAAGATAGAGGAAAAAATTGACCAGACTGTTCAAAAAACAACAGAAACTGTGCAGCAGAAAGCACAGCAGGCTGTAGAAGAAACGGTAAAGAAAACAGTCAATGAATCTATAAATTCTCTAACGAATTCCGAAGACGTTAAGTTTAATACTGTTTTTCCTGGTACCGGAGCTTCTATTGTTTCTGAAGAAAAAGGGAAGAAAATTAAAATTCCCGGAAGATCTGAAGGGTATATTTTTAAATACAAAGCAGATATTGCGGTATTGCTCCCATTTTTAGAAGGACAACCTACTTCCGATGAAAGTAAATCTGAGAAAATAGCCCGTAAGATTGATGGACAGAATATTATAGATAAAATAAGCTTTCTGTCAAAATTGCTTCCTGATAATACTTTTGATGCAAGTATTCTGGAAGATATTAAATCCGATAAAAAGATTCAGTATTATAAGCTGAAAAGATTTCCCAACAGTAGTACCATTATCTACAACCCAAAAAATCAGACCATCATACAATACGTAGAGGTAAATAAATAA	MKKYILSLVTAFLVVSCNKIEEKIDQTVQKTTETVQQKAQQAVEETVKKTVNESINSLTNSEDVKFNTVFPGTGASIVSEEKGKKIKIPGRSEGYIFKYKADIAVLLPFLEGQPTSDESKSEKIARKIDGQNIIDKISFLSKLLPDNTFDASILEDIKSDKKIQYYKLKRFPNSSTIIYNPKNQTIIQYVEVNK				NA	NA	NA	NA	NA
BMS003_03433	2421	btuB_13		Vitamin B12 transporter BtuB	ATGAGAAATAATTTATTTAATGGAAAAATCTATGCATTAGTATTAAGCGGAGCTGGTGCAATGGGATATGCGCAGGACAGCATAAAACAAAATAAAATAGATGAAGTGGTGGTTACCACGGGTAGAACCAAGCCTAGAACCATCATTACCTCAGCAATCCCTATTGATAATATTTCCGCCGTACAATTAAAATCCACAGGGCAGGTAACTTTTGATAAAGCTCTAACCTATGCCGTTCCGTCTTTCAATTCATCACAGCAAACTGTTTCTGATGCAACGGCTCACTTTGATCCTGCAGATTTAAGAGGATTAGGCCCTTCCAGAACATTGGTTTTAGTGAATGGTAAAAGAAAAAATCAAAGTGCTTTAATTTATGTAAATGATACACCGGGAAAAGGTGAGGTAGGTACAGATTTGAAAAGCATACCGTCTGCAGCCTTACAGAATGTGGAAGTTTTGAGAGATGGTGCATCTGCTCAATACGGATCTGATGCTATTGCAGGAGTGATCAATATTATTCTTAAGAACAGCGTTGGAAAAAGTACAGTCAATCTTTTTTCAGGGATTACTTCAGAAGGAGACGGCTTTAATATAGGAGCAGATTTTAATACAGGAATCCGGGTTGCAAAAAAAGGAAGCTTGAACCTTACATTGGGATATTCTTCCCAAAATAAAACTAACCGTGCAGGTACTGTTACGAAAGATGAACTTTTTGGTGTAGATAATGCCTGGACGCAGGCTAATCCTGGTTTAGGAATGATTATAGGGCAGCCGGAAACAAAAGTAGCGAATATGTTCGTAAATTTTGAATTACCAACTGGTGAAACAGGCAAATTTTATGCTTTTGGTGGTACTACTTACAGAAATGGAACCAGCTATGCCTTATATAGAACTCCTTATTGGGTAACTTCAGATTTTGGTTTACTAACCCCAAAAGGACAGCCTTACAATGGATTTCAACCGGAATTTAAAACAGATGTTTATGATTATAATTTAACCTCCGGTTGGAAAGGTATGTTTGGAAAATGGAGTTTTGATGGGAGTGCAACCTTCGGCTCCAATGCGGTAGATTATGTTGTAGGTAATACCATTAATACATCTTTGGGTGCCAATTCACCAACCCGTTTTAAAGCAGGTGGCCATCGGTTCAGCAATATTATAGGAAACCTGGATGTCAACCGTAATTTTGGTACGTTTGTTTTAGGAGCCGGTGTTGAAGTACGTAATGAAAACTATCAGGCAACAGCCGGAGAAGAAGCATCTTATATAGGAAGCGGCGCAGAATCATTTCCGGGACTGCAGCCTCAAAATGAAGTCAATAAAAATCGTCAGAATATCGGAGCTTATGTGAATACTGAATGGGATGTTACGGAAAATCTGTTACTTGGAGGAACTGTGAGATATGAAAATTTCAGTGATTTTGGAAATAATGTTTCCTGGAAAGGAAATGCCAGATACAAGTTCTTAGATGATAAGTTGGTTTTCCGTGGGTCTGTTTCTACAGGATTTCGGGCACCTTCATTACACCAGATTTATTATTCCAATGTTCAGACTAAAATTACAGGGAATACGGTAGCTAATCAGGGTACTTTTAATAATGATTCTCAAATTGTAAGATCTGATCTTGGTGTACCAAAATTAAATGCTGAAAAAGCCTTTAACATTACTGGGGGATTTGCCGTAAAACCTTTTAAAAACCTGACGATCACAGCAGATTATTATAGAATAAAAATTAAAGACAGAGTACTTTTCTCAGGAGATATTGGATACAAAACGGGAGCTCCGGGGAGTCCGGATCTAACAAACCCTGTGGAAGTAATATTAGACAATAATAAAATAACCTCCCTGAAATTTTTCACTAATGCTGTAAATACTGTTACTCAAGGGGTAGATTTTGTAGCTAATTATAATACTTCTGCTATTGGCAAAGGAAGATTGGGAATTATTGCTGCTTTCAATTATAACGAAACAAAAATAGTAGATAATATTGCTGTTCCCCCTATTTTGGCTCAAAATGGTTACTCAGAAAACTTTTTTGACAGAAAAGAACAATCCAGAATTACCTCTGCAAGACCAAAAACAAAAACTATTCTTAGCCTTTCGTATGACATTTCAAAGTTTAATTTTAACTTTAATAATACTTACTTTGGCTCTGTTACATGGCAGCACGCCACTGATCCTGCCAAAGATCAGACATTCTCTGGTAAGGTAATTACAGATTTAGTTTTAACATATAAAATTACGAAAGACCTTAAAGTTTCCGGAGTCGTAAATAATTTATTTAATATTTATCCGGATGTGATAGACAGCAAAGGAGATGTAGTAACAGATCTTGGAGGAAGGTTCAAGTATCCTTGGGAGGTAAACCAATTTGGATTTAACGGAACAACTTTTCAGCTGAATGTTAATTATACGTTTTAA	MRNNLFNGKIYALVLSGAGAMGYAQDSIKQNKIDEVVVTTGRTKPRTIITSAIPIDNISAVQLKSTGQVTFDKALTYAVPSFNSSQQTVSDATAHFDPADLRGLGPSRTLVLVNGKRKNQSALIYVNDTPGKGEVGTDLKSIPSAALQNVEVLRDGASAQYGSDAIAGVINIILKNSVGKSTVNLFSGITSEGDGFNIGADFNTGIRVAKKGSLNLTLGYSSQNKTNRAGTVTKDELFGVDNAWTQANPGLGMIIGQPETKVANMFVNFELPTGETGKFYAFGGTTYRNGTSYALYRTPYWVTSDFGLLTPKGQPYNGFQPEFKTDVYDYNLTSGWKGMFGKWSFDGSATFGSNAVDYVVGNTINTSLGANSPTRFKAGGHRFSNIIGNLDVNRNFGTFVLGAGVEVRNENYQATAGEEASYIGSGAESFPGLQPQNEVNKNRQNIGAYVNTEWDVTENLLLGGTVRYENFSDFGNNVSWKGNARYKFLDDKLVFRGSVSTGFRAPSLHQIYYSNVQTKITGNTVANQGTFNNDSQIVRSDLGVPKLNAEKAFNITGGFAVKPFKNLTITADYYRIKIKDRVLFSGDIGYKTGAPGSPDLTNPVEVILDNNKITSLKFFTNAVNTVTQGVDFVANYNTSAIGKGRLGIIAAFNYNETKIVDNIAVPPILAQNGYSENFFDRKEQSRITSARPKTKTILSLSYDISKFNFNFNNTYFGSVTWQHATDPAKDQTFSGKVITDLVLTYKITKDLKVSGVVNNLFNIYPDVIDSKGDVVTDLGGRFKYPWEVNQFGFNGTTFQLNVNYTF	PGPT0003790_8101	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
BMS003_03434	570	yvqK	COG2096	Corrinoid adenosyltransferase	ATGAAAATTTATACAAAGACAGGAGATAAAGGTCAGACGGCATTATATGGAGGAACAAGAGTTTCCAAAGCCAGTGCAAGAGTAGACAGTTATGGAAATATAGACGAGCTGAACTCATTCATCGGGATTGCAAAAAGTCATATCGAAGATGACGAAGTTCTGAGACAGCTGAAAAAAATACAGTTCGATTTATTTACTGTAGGTTCAGAAGCGGCAACCCCTGTAGATAAGTTGATGCTTGCCAATGGAAAATCACGTCTTCCGATCATTATTTCAGAAACAGAAATTGAAGAGCTGGAACAATGGATGGATGCTTTTGATGAAAAGCTGGAACCGCTTCAGTATTTTATCCTGCCTGGAGGAGGGAAATCAGCGACTTTTTTACACGCTGCCAGAACTATTTGCAGAAGAGCTGAACGTTCATTGGTATTTTTGAATGAATCAGAAGAAGTGCGTCCCGAATTGATTAAATATTTAAACAGGCTTTCAGATTATCTTTTTGTATTGGCCAGATATATTTCAAAACTGAACAACGAACCAGAAGAATACTGGAACCCGAATGAAAGATAA	MKIYTKTGDKGQTALYGGTRVSKASARVDSYGNIDELNSFIGIAKSHIEDDEVLRQLKKIQFDLFTVGSEAATPVDKLMLANGKSRLPIIISETEIEELEQWMDAFDEKLEPLQYFILPGGGKSATFLHAARTICRRAERSLVFLNESEEVRPELIKYLNRLSDYLFVLARYISKLNNEPEEYWNPNER				NA	NA	NA	NA	NA
BMS003_03435	648			hypothetical protein	ATGAAAGATAAAGCATTACTTTTCATCAACGGAGATGCTCCAAAGTCATTACCCAATCCGGAAAATTATGGTTTAATTGCCTGTACAGACGGTGCTTTCCATTATTTAAAAAGAATGGGTTTTCCTCTGGATAAGCTGGATTTTATTTCCGGTGATTTTGATTCTCACTCCGGATCAGATGAAGATATGTATGAGGGCAAATTTATCCTTACACTGGATCAGGAAAAAACAGATTTTCATAAAGCATTGGAAATTATTCAGGAAAGAGGTTTTTCAGATATTGATGTTTTGGGAGCAAGCGGAGGTGAACAGGATCATTTTCTGGGAAATCTTACCGTTGCGTATGCGTTCAAAGATCAGATGAACATTACATTTTATGATGAGTTTTCAGAATATTACTTTATTCCCAATCATTTTACCTTGAAAGGAGTAAAAAACAGAATGATTTCTCTTTATCCATTTCCATCAGTGAATAATATTACAACAAAAGGACTGAACTGGCCTTTAACGAAAGAAAATCTAAGCATTACTTCCAGAATAGGAACCCGGAATTTCGCTGTTGAAGATAAAATTGCTGTGGAATATGAATCAGGAGCTGTTTTATTATTTGTAGGAATTAAGGAGATAGAATATCCTGAAATTTATTAG	MKDKALLFINGDAPKSLPNPENYGLIACTDGAFHYLKRMGFPLDKLDFISGDFDSHSGSDEDMYEGKFILTLDQEKTDFHKALEIIQERGFSDIDVLGASGGEQDHFLGNLTVAYAFKDQMNITFYDEFSEYYFIPNHFTLKGVKNRMISLYPFPSVNNITTKGLNWPLTKENLSITSRIGTRNFAVEDKIAVEYESGAVLLFVGIKEIEYPEIY	PGPT0009035_1306	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
BMS003_03436	876			hypothetical protein	TTGAATAAACTAATCAAAATATCAGTTTTCACCATTTCATTATGCTGCATTTTCTCATGCAAAACACAGCATTTTGAAACACCTGAATATGGGAAAAATGAAACTGAAAAAGTGATTCATATTAAGAATGTAACCAATTTCCGGACTGTAGGAAATATCAAAAATGAGGACGGAAGAACTTTGAAAGAAGGAATGTTCTACAGAAGCGCCCATCTTCATAAGCTTAAAAAGAAATCTTTTGACGACTTTGAGAAACTGGGAATCAAAGAAATTATTGACCTTAGAAACTCAAAAGAAATTGCTGAGAAACCGGACCGGCTGCCTTCAGAAGTGGTTTATAAAAAATATTCAGCATTTGAAGATGAAGGAGATCAGCTGGCTCAGGCTAAAAAACTGGTTCTTAAAGGTAAAGTGAATGCTTCCGATGCTGATAAAAGAATGATCGATTTCTACCGTGAGTACGTTACAGAGAATCCGGAGACAATTAAGAGGATTATTACAGAAATTCTGGAATCTAAAGATCCAATACTTTATCACTGTACCGCAGGAAAAGACAGAACAGGTATTACCACAGCACTAATCCTTACAATTCTGAAATTTGATAAAGAGACTATTTATAATGAATATCTTTTATCCAACAACTACAGAAAAGAACTTGTGCAGAAAAGGCTCAGCCTTGCCAATACCTTACATTTCCTATATCCGAAAATGGATTTGCAGGTACTGGAAAAGCTTAGCTGGGTAGAAAAAAGATACCTTGATGCAGCTTTTGATGAGATCAGTAAAAAATACGGATCTACGGATGCCTATATTCATCAGGCATTGGAGATTTCCGATACCAGGAGAAACGAGTATATTCAAAAGTTTACGTATTGA	MNKLIKISVFTISLCCIFSCKTQHFETPEYGKNETEKVIHIKNVTNFRTVGNIKNEDGRTLKEGMFYRSAHLHKLKKKSFDDFEKLGIKEIIDLRNSKEIAEKPDRLPSEVVYKKYSAFEDEGDQLAQAKKLVLKGKVNASDADKRMIDFYREYVTENPETIKRIITEILESKDPILYHCTAGKDRTGITTALILTILKFDKETIYNEYLLSNNYRKELVQKRLSLANTLHFLYPKMDLQVLEKLSWVEKRYLDAAFDEISKKYGSTDAYIHQALEISDTRRNEYIQKFTY	PGPT0014530_701	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
BMS003_03437	1395	speA		Biosynthetic arginine decarboxylase	ATGAAAATAAAGTACTCGGAACTTATTGATCAGACATTATACTTTCCTACGGAGGAATTTAATGTTTCTGAGAACAATTTGTTGTTTCATGATATTCCATTAATGGATGTTGTTGAACAATTTGGCACTCCGCTAAAGATTAGCTACCTGCCGAGAATTTCTCAAAATATTCAGAAAGCGAAAGGCTGGTTTAAAGAAGCTTTTGAGAAAACCGAATATAAAAAGAATTATACCTACTGTTATTGCACAAAATCCAGTCATTTCAACTTCGTATTGGAAGAAGCTCTGAAGAATGATATTTCGATAGAAACATCATCTGCTTATGATATGGATATTGTAAAATCTCTTTACGAAAAAGAGAAGGTAGATAAAAACATTGAAGTAATCTGTAATGGTTTCAAGACTGATGATTATCTGACAAAAATCTCAGATATGATCAACAGCGGTTTTGAAAATATTACCCCGATTCTTGATAACTACAGAGAATTGGATAAACTTACGGAAAGCATTGATTCTACCTTTAATATCGGAATCAGAATTGCATCAGAAGAAGAACCTAAGTTCGAATTCTATACCTCAAGATTAGGAATCGGATATAAAGATATTATCCCTTATTACAGTCAGAAAATTGCTGAACACCCGAATGCAAGACTGAAAATGCTTCACTTCTTCATCAATACCGGGATTAAAGATACTTCTTACTACTGGAACGAATTGTACAAATGCCTTCGTGTGTATGCACGTTTGAAGAAAATTGCTCCTGAAGTGGATTCTCTGAACATTGGAGGTGGCTTCCCAATCAAAACTTCTCTGAATTTTGATTATGACTATCAGTATATGGTAGAAGAAATTGTTTCTCAGATCAAAAAATTCTGTGAAGAAGAAGGAGTAGAAGAACCTAATATTTATACTGAGTTCGGAAGCTTTACGGTAGGAGAAAGCGGAGCAAACCTGTATAAGATCATTTCTCAGAAACGTCAGAACGACAGAGAAAAATGGAATATGATTGACTCCTCTTTCATGACCACTCTTCCTGATACATGGGCCATTTCAAGACACTTCATCATGCTTCCGCTTAACCGTTGGGAAGATACTTATGAAAGAGTTTTCCTTGGAGGGCTGACTTGTGATTCAGATGATTATTATAATTCTGAGCAGCATACCAATGCCATTTACTTACCTGTTTTCAGTGATACAAAACCTTTGTACATCGGATTCTTCCATACGGGAGCATATCAGGAAACAATTGGAGGTTATGGCGGAGTACACCACTGTCTGATGCCTCAGCCGAGACATGTCCTGATTCAAAAAGATGAAAACGGCGAATTGCAATACGAAATTTTCCGTGAAAAACAGGAGCCGGAAGATATATTGAAACTTCTTGGTTATAAATAA	MKIKYSELIDQTLYFPTEEFNVSENNLLFHDIPLMDVVEQFGTPLKISYLPRISQNIQKAKGWFKEAFEKTEYKKNYTYCYCTKSSHFNFVLEEALKNDISIETSSAYDMDIVKSLYEKEKVDKNIEVICNGFKTDDYLTKISDMINSGFENITPILDNYRELDKLTESIDSTFNIGIRIASEEEPKFEFYTSRLGIGYKDIIPYYSQKIAEHPNARLKMLHFFINTGIKDTSYYWNELYKCLRVYARLKKIAPEVDSLNIGGGFPIKTSLNFDYDYQYMVEEIVSQIKKFCEEEGVEEPNIYTEFGSFTVGESGANLYKIISQKRQNDREKWNMIDSSFMTTLPDTWAISRHFIMLPLNRWEDTYERVFLGGLTCDSDDYYNSEQHTNAIYLPVFSDTKPLYIGFFHTGAYQETIGGYGGVHHCLMPQPRHVLIQKDENGELQYEIFREKQEPEDILKLLGYK	PGPT0007770_2395	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
BMS003_03438	2022			hypothetical protein	ATGGATAATCAAATGCAAGTTGAAAATTACAGGATTCAAAAACCTGAAATGTGGGCAGGAAATATCGGGGATGAGGAAATAAAAAATCGAATCAAAGACTCCGAATTTGCCAAAAGACAAATTGATGAAGGCCGGGATTACTGCTACTTTTTAGATAAAAAATACTATACAAGCAATACCGAAAACAGTGAATATGTCTGTATGGCATATACGCTGAACGAGCCCGGAAATCTTGAAAGAGCTTCGGTTTCTGATGTGATAGTAGAGGAGAATGAAGTCTACCAGATTCACAGGATCAGTGTGCTGAGAGACGGAGTGCTGATTGATAAGATTCCGGATACGAAAATTAAAGTTCTTGACAGTGAAAACCAGAGCAGTGGAGGCGTTCTGAGCAGTAATAAAAAAATCAATATTACCATCAAAGATCTCAGGCTGTATGATGTTCTGATTTTAGAAGATTCAAGAATCAAAGAATTTACAGACCGCGATTTTCTGAGAAAGGAGTTCTCAAAATATGTCTGGGTAAGTCCGGATAACTATTGGGCTTATGGCAGTTTTAAATTCACGTTTATCAACGAGCGTGAACAGACTATTGCCTACAAAAAAACATTTTTCAGAGATGAGGAGGGTAATGTTCTTGAACCGGAAATCAATCACCTGAAAAAAGGAGAAAAGTTTGCAATTGAAGAAGAAAATTACATCAACCCTGTAGATTCCGGACGCGAAATTTTTCCTTATATAGACTTTGCTACAGAAAGTAACTGGAAAGAGCTTTCTAACTATATTGTCCCAATTTATGAGGAGATTTTCAATAAATCTTCTTTACAGGATTTTGCCCCGAATCTTATAGAAAAACTGGATGCTATTCCCGATCAGGATGAAAAGCTGCAGTTTGCCATAGAATATGTTCAGAACCACATCTATTATATTTTCAATGCTGATGAAATGAATGGCCATAAGCCGCAGGAGCCATCAGTAACCTATGAAAACAAACAGGGAGACTGTAAAGCGAAATCGGTTTTGTTAAAAGTAATCCTTGATTATATAGGGGTGGATGCATCTGTAGTGCTGGTGAATTTTAATACAGATTATTATATTAAATATTACCTTCCGTCACTGTTAAGTTTCAATCATGTAGTGGTAAAGGTGAATTATAAAGGTGAAGAATACTTTATAGATGCTACTATCCGTGATGAATTCGGGCTTATCGAGAACAGAGGATTTATGTATTTTATGCATTATCTGGAAGTGAAAAAAGATCAGGAGCTTCAGGTAAGAAAATCGTATAAATTTCCTTATTTCTGTATTGACGAAAAAGTAGACCTTAATGCACAAGGCAATACAGGAAAGCTTACTTTGTCAACTACTTACAAAGGAAATCGGGCCAATGCCATGCGCAGGTATTTTAAAAGCACCAATAAGAGAGAAATCATAGACAGCTGGAACAGTTTCCTTTTCTATGCGCTTAACTATTCCGGTGACAGAAATGGCACAGATGTCAGAAACGTATTTAAAGATGCCGCTATTGATGTAGTAAGCGATGATAAGAGACTGAACGAAGTAAAGATCAGGTATACTGCCGCTATTGAGAATCCTTATTTTGTAGATCCGCAGAAAAACCGCTTCCTGATGTATTTTGACCGAAACGTTATAAAGGCGGGTGCAAGAGATTTTATCCATAAAGATTTACCGTTCTGGCATAATTTCGACAGTGAGAAATATGAAATCAACCTGCATACAGATCAGAAAATTGATACGGAAGAAAAATATACGGTTCAGGAAAGTACCATAACTAATCCGTATTTTGATTATAAAAGTCGTAAGAAAGTGCGCAAAAATGGTGCAAGTGTGTATATTGAATACAACCCTCTGATCAATCTTGAAATTCCACAAAGCGAGTTTGAAAAGTTCAGAACAGATCATCATACTGTAGCCGACAGTAATTTCGGACTGGGAATTGATATTATTGAACCAGGACTGATGAATATGCTTAAATTTAATTTTAAGAAAAAGTTTAAATAG	MDNQMQVENYRIQKPEMWAGNIGDEEIKNRIKDSEFAKRQIDEGRDYCYFLDKKYYTSNTENSEYVCMAYTLNEPGNLERASVSDVIVEENEVYQIHRISVLRDGVLIDKIPDTKIKVLDSENQSSGGVLSSNKKINITIKDLRLYDVLILEDSRIKEFTDRDFLRKEFSKYVWVSPDNYWAYGSFKFTFINEREQTIAYKKTFFRDEEGNVLEPEINHLKKGEKFAIEEENYINPVDSGREIFPYIDFATESNWKELSNYIVPIYEEIFNKSSLQDFAPNLIEKLDAIPDQDEKLQFAIEYVQNHIYYIFNADEMNGHKPQEPSVTYENKQGDCKAKSVLLKVILDYIGVDASVVLVNFNTDYYIKYYLPSLLSFNHVVVKVNYKGEEYFIDATIRDEFGLIENRGFMYFMHYLEVKKDQELQVRKSYKFPYFCIDEKVDLNAQGNTGKLTLSTTYKGNRANAMRRYFKSTNKREIIDSWNSFLFYALNYSGDRNGTDVRNVFKDAAIDVVSDDKRLNEVKIRYTAAIENPYFVDPQKNRFLMYFDRNVIKAGARDFIHKDLPFWHNFDSEKYEINLHTDQKIDTEEKYTVQESTITNPYFDYKSRKKVRKNGASVYIEYNPLINLEIPQSEFEKFRTDHHTVADSNFGLGIDIIEPGLMNMLKFNFKKKFK				NA	NA	NA	NA	NA
BMS003_03439	651			hypothetical protein	ATGGTAATTGCGAGGTATGGGAAAAAAATCAAGTTTATGAAAAGTATAGCAACAATTCTAAAAAGGACAGTACCCGCATTAGCATTATTTGCAATGATGCAATGTACAACCACTGCCAACGCATCTGCAGGTGATGAAAAAACCTTCATCGTAGGAGCGCAAACAGCAGACTGTACAGGGGTAGCTCCTATGAAATGTCTGCAGGTAAAAGAAAACGCTTCCGGAAACTGGACGAATTTCTACAGCAATATCGAAGGATTTACTTATGAACCGGGATATGAATATGTTTTAAAGGTAAAAACAGAAAAAATTGCCAATCCGCCAGCTGATGGATCTTCCATAAAATACACATTGGTAAAACAGGTTTCTAAAACGAAAAAGAAAAAAATGGCAGCCAATGAAAAAACAATTATCGTAGGACCACAAACCGTAGACTGCTCCGCAGGAGCAGGCCGTATGAAGTGCATGCAGGTAAAAGAAAATGCTTCTGAAAACTGGACGAATTTTTACAGTAACATTGAAGGTTTTACCTATGAACCGGGTTACGAATATGTTTTAAAAGTAAAAACAGAAAAAATAGAGAATCCTCCGGCAGACGCTTCTTCAATTAAATATATATTGATAGAACAGGTTTCTAAAACGAAGAAATAA	MVIARYGKKIKFMKSIATILKRTVPALALFAMMQCTTTANASAGDEKTFIVGAQTADCTGVAPMKCLQVKENASGNWTNFYSNIEGFTYEPGYEYVLKVKTEKIANPPADGSSIKYTLVKQVSKTKKKKMAANEKTIIVGPQTVDCSAGAGRMKCMQVKENASENWTNFYSNIEGFTYEPGYEYVLKVKTEKIENPPADASSIKYILIEQVSKTKK				NA	NA	NA	NA	NA
BMS003_03440	222			hypothetical protein	ATGAATTATTTGAAGACTTTTCCCAATCGTCTAAAAGTAACTTCTAGCTTCATTCTTCCAGCTTCCCAGCTAAATAAAAAACCGCTCCTGAAAATTTTCAGGAGCGGTTTTTTTTATTTCTTCGTTTTAGAAACCTGTTCTATCAATATATATTTAATTGAAGAAGCGTCTGCCGGAGGATTCTCTATTTTTTCTGTTTTTACTTTTAAAACATATTCGTAA	MNYLKTFPNRLKVTSSFILPASQLNKKPLLKIFRSGFFYFFVLETCSINIYLIEEASAGGFSIFSVFTFKTYS				NA	NA	NA	NA	NA
BMS003_03441	939	qmcA	COG0330	Protein QmcA	ATGGGTATATATTTAGCGCCCGTTATTTTCTTCGGGCTTATCATTTTATTTGCTTCGTTTTTTGTGGTTAAGCAGGAAACAGCCGCTATTATTGAACGTTTTGGAAAATTCCGGGCTGTAAAACATTCCGGTCTTCACCTTAAGCTGCCAATCATAGATCAGATTGCGAAAAGACTGAATCTTAGGATTCAGCAGCTGGATGTATTAATTGATACAAAAACACTGGACAACGTGTTCATCAAAATGAAAATTTCTGTTCAGTATCAGGTGATCAGAAGTCAGGTTTCAGATGCGTATTACCGTTTGGAGAATCCTGAAAATCAAATTACATCATTCGTTTTTGATGTGGTGAGGGCAGAAGTCCCAAAACTGAAACTGGATGATGTTTTTGTAAGAAAAGACGATGTGGCAATTGCCGTGAAGAGTGAACTTCAGGAAGCCATGAACAGTTATGGCTATGATATTATCAAAGCTTTGGTAACTGATATTGATCCGGATGAGCAGGTGAAACATGCCATGAACAGAATTAATGCCGCAGAAAGAGAAAAAACAGCTGCAGAATATGAATCCGAGGCACAGAGAATCCGTATTGTAGCGGTTGCAAAAGCAGAAGCTGAATCCAAAAAGTTACAGGGACAGGGGATTGCCGACCAGAGAAGAGAAATTGCAAAAGGACTTGAAGAGTCGGTAAGAATGCTGAATAATGTGGATATCAATTCCCATGAAGCTTCAGCACTTATTGTGGTGACACAGCACTATGATACCCTGCATTCTGTGGGAGCAAGTAACAGAAGCAATCTTGTACTTCTTCCCAATTCACCTACCGCAGCAAGCGGAATGCTGAATGATCTGGTAGTGGCTATGACAACCGCAAATACAGTAGGAGAAGCTACAAAAGGGAAATATCCTGATCCGCCTCAGAAAGAAACCGGGTTTTAA	MGIYLAPVIFFGLIILFASFFVVKQETAAIIERFGKFRAVKHSGLHLKLPIIDQIAKRLNLRIQQLDVLIDTKTLDNVFIKMKISVQYQVIRSQVSDAYYRLENPENQITSFVFDVVRAEVPKLKLDDVFVRKDDVAIAVKSELQEAMNSYGYDIIKALVTDIDPDEQVKHAMNRINAAEREKTAAEYESEAQRIRIVAVAKAEAESKKLQGQGIADQRREIAKGLEESVRMLNNVDINSHEASALIVVTQHYDTLHSVGASNRSNLVLLPNSPTAASGMLNDLVVAMTTANTVGEATKGKYPDPPQKETGF				NA	NA	NA	NA	NA
BMS003_03442	1356	dgt_2	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase	ATGAATTTAAACCAGATTTTCACCAATCAACGTACAGGAAACAATCCACAGACCAAAGCTTCACGAACTGATTTTCAAAGGGATTTTGACAGAATTATCTTCTCTTCTGCCTTCAGAAGACTGCAAAATAAGACTCAGGTTTTTCCTCTTCCCGGAAGTGTTTTTGTACATAACAGACTTACACATTCTTTGGAGGTATCATCTGTAGGAAGAAGTTTAGGAAGTATTATCGGTGAATTTATTGCTGAAGATTTTAAAGGTGAACTTACTGAAGATTCAAAGAATTTTTATCTCTATAATTTAGGAAACGTCATTGCTGCAGCGTGTTTGTGTCATGATGTGGGAAATCCTGCATTCGGACACTCCGGGGAAGATGCCATTGCAAGCTATTTTGAGCGGAATGAAAAAGATCTGAAATCAAAGTTCAATGAAAAAGAATGGGCTGACCTGGTTAATTTCGAAGGAAATGCCAATGCCATCAGAGTATTGGCTCAGCAACAGCAAGGGAAAGATGCCGGGGGAATTCAGCTTACATTTTCTACGTTGGCAAGTATTGCAAAATATCCGTGTGAAGCGGTTGCAAAGAAAAAAGGAATTATTCACAGGAAAAAATTCGGGTTTTTCCAGAATGAGAAAGATATATTCCTGGAAATTGCTAAAGGAACTCAGCTTATTTCTGAAAGTGAGGAACCCTATATTTTCAAAAGACACCCTTTTGTGTGGCTGGTAGAAGCGGCTGACGATATTTGTTACAATATCATTGATATGGAAGATGCCCACAGACTGGGAATTGTTTCCACAGCCGACTGTAAAAACTTATTTTTTGAGCTGGTAAAATCTGAAACAGGCGATATTCAGAGAATTGAAACAAAATTAAGCTCTATCTCCAATGAAAACGAACAGATTTCTTATTTAAGAGCAAAAGTAATCAATGCCCTGATCAATAAGTCAATTGAGATGTATAAGTCTAATTTTGAAACGATTCTTGAAGGAAATCTTGGCAATGGCTTACTTGATATTTATAAAAAAGAAAACAAAGCACTGCAGGATATTGCCAGTTTCTCGGTAGAAAAAATTTATAACCATAAAGCAGTCGTAGAAATTGAAAATGCTGGTTATAATGTAATGTATGAATTGTTGGATCATTTTATTCCTTCCATTCTGAAACCTAAAGACAGCAGAAAATCCTATGACGAAAAAGCTTTGAAACTTATTCCAAAGCAATTCATTTATAATGACGGGACTGATTATCAGAAAGTTCTGGGAGTTATTGATTTCGTTTCAGGAATGACAGATAATTACGCTACCGATTTGTACAGGAAAATTAAAGGAATAGATATCGGAATGACCGTGTAA	MNLNQIFTNQRTGNNPQTKASRTDFQRDFDRIIFSSAFRRLQNKTQVFPLPGSVFVHNRLTHSLEVSSVGRSLGSIIGEFIAEDFKGELTEDSKNFYLYNLGNVIAAACLCHDVGNPAFGHSGEDAIASYFERNEKDLKSKFNEKEWADLVNFEGNANAIRVLAQQQQGKDAGGIQLTFSTLASIAKYPCEAVAKKKGIIHRKKFGFFQNEKDIFLEIAKGTQLISESEEPYIFKRHPFVWLVEAADDICYNIIDMEDAHRLGIVSTADCKNLFFELVKSETGDIQRIETKLSSISNENEQISYLRAKVINALINKSIEMYKSNFETILEGNLGNGLLDIYKKENKALQDIASFSVEKIYNHKAVVEIENAGYNVMYELLDHFIPSILKPKDSRKSYDEKALKLIPKQFIYNDGTDYQKVLGVIDFVSGMTDNYATDLYRKIKGIDIGMTV	PGPT0021495_916	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS003_03443	630			hypothetical protein	ATGACAGACAATACCTGGCTCAACAGATGGGACGACAGATACAGCAGCGAAGAGTTTGCGTATGGAACAGAACCGAACAACTACCTGAAAGAACAGCTTAATAAACTAGAGCCTGGCGAAATACTTTTCCCTGCAGAAGGCGAAGGCCGAAATGCCGTTTTCGCAGCTACACAGGGATGGAAGGTTTCCGCTTTCGATATCAGTACCAATGGAAGAAACAAAGCGTTACAGCTGGCTCAGCGCCATCAGACAGCTATTGATTATCAGGTTGGGGAACTCTCTACTTTGGATTACCGGAAAGAGCAGTTTGATGTGATTGCTCTTATTTATGCTCATTTTCCGGGTCCCATTAAATCTTCTATTCATCAAGTGTTGAATCAGTATTTGCGAAAGGGTGGCTTTATTATTTTCGAAGCTTTCAGTAAAAATCATCTTGAATATATTGCGAAGAACGAAAAAGTAGGCGGTCCAAAGGATATTGAATCTTTGTTTTCTATTGAAGAGATCAAAGCTGATTTTCCGGATTATCACATTATTGAATTGGGAGAAACTGAAATCGAGCTTAGTGAAGGGTTATTTCACAATGGAACGGGTTCTGTGATTCGTTTTGTAGGGCAAAAGTTAGTGTAA	MTDNTWLNRWDDRYSSEEFAYGTEPNNYLKEQLNKLEPGEILFPAEGEGRNAVFAATQGWKVSAFDISTNGRNKALQLAQRHQTAIDYQVGELSTLDYRKEQFDVIALIYAHFPGPIKSSIHQVLNQYLRKGGFIIFEAFSKNHLEYIAKNEKVGGPKDIESLFSIEEIKADFPDYHIIELGETEIELSEGLFHNGTGSVIRFVGQKLV				NA	NA	NA	NA	NA
BMS003_03444	723	btsR_3	COG3279	Transcriptional regulatory protein BtsR	ATGAATTGTATAATAGTTGATGATGAACCGCTGGCAAGATCCGAAATGAGATCGCTGATCAATGAAATCTCTGGTATTGACATCCTTGGCGAGTTTTCCAATGCTCCGGCTGCTCTCGGATTTCTCAACGATAATGATGTAGATCTTATTTTTCTCGACATCGAGATGCCTATGGTAACAGGTCTGGAGTTTGCAGAAATGCTCCCGAAAAAATGTCTGATTATTTTTACCACAGCATATTCTCAGTATGCCCTGAAAAGTTACGAGCTGGAAGCTGTTGATTATCTCCTGAAACCAATAGATCCCCTAAGACTGGAAAAAGCAATTGATAAAGCCATACTTTATACCCAGCTTCTGTCTAAAGATACCATAAAAAATACGGTAGAATCTAATACGGCTGACTTTTTATTCATCAAAGCAGAACGAAGGTTCTATAAGATCAGTTTTTCGGATATTAAGTTTATAGAAGGGCTCAAAGATTATGTGGTTATTCACACAAAGCAGCAGAAGCTTATAACGGCAATGAATTTAAAAACCATTCATCAGAAAATATCCGGTGAAACCTTTATCAGAGTAAGCAAATCCTACGTGGTGAATATGAATTTTATAGATTCATTCGACAATCATAATATATACATTGAAGACTCCGAAATTCCTCTTGGAGAAGTATACAGAGCCGAGTTCTTTACGAAATTTGCTGGAGGACTTCTTAATTCAGACTGA	MNCIIVDDEPLARSEMRSLINEISGIDILGEFSNAPAALGFLNDNDVDLIFLDIEMPMVTGLEFAEMLPKKCLIIFTTAYSQYALKSYELEAVDYLLKPIDPLRLEKAIDKAILYTQLLSKDTIKNTVESNTADFLFIKAERRFYKISFSDIKFIEGLKDYVVIHTKQQKLITAMNLKTIHQKISGETFIRVSKSYVVNMNFIDSFDNHNIYIEDSEIPLGEVYRAEFFTKFAGGLLNSD	PGPT0026304_2101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_03445	1077			hypothetical protein	ATGAAATACAGCCCATGGAAATTTGAAGAAACCTTTGTAATGGATTTTTTGGTGGAAGCAAAATATGGATTCCGAAGACATCTGCTGTTTCTTATTTTCTTCTTCTTCCTGATATACAGCGCCAGATTCTGGCATTGGTATTCGGGGATATATCAGTATTATGTTTTATTCTTTGTGTATACGATTCTCATTACCATGGTCTACATTAATATATATGTATTGGTTCCACGGTTTTTCTTTAAAACAAAATATGTCACTTATCTTGTCCTGCTGGTTCTCATGGGGGTAATGGGGCTCAATTTTATAGGATATGGCTTTAAGCTGTTCTTTGAAGAATTCAGAGTAAAAAATATTCTCAGAGAAAACGAAAAAGGAGGAATTTATGAAGGGGTCCTGATGTGCATCCCGATTATCATGACAACAACAACTATAAAACTTTTGCAGAAATGGATCAATGACAATAAAAGAATCAATGAGCTGAGCAATCTTACCATGAGTATGGAGCTTAATGAACTGAGAAACCAGATCAATCCGCATTTTCTGTTCAATATGCTGAACAATGTAAAAGCACTCATAAGGACAGATCCGGCAAAAGCTTCGGTGGTTATTGTAAAGCTTTCAGAATTTCTCAGATATCAGCTTTATGAAAACAGTGAAGAAAAAACCTTGCTCACGTCAGAGATTGATTTTTTGTCTAACTTTTTAAACCTGGAGAAAATAAGACGTGATAAATTCTCTTTTGATATTCATACAGAAGTTGATAAAAGAATGATCAGCAGCATTTTTGTTCCGCCTAATCTGTTTACCACTTTCGTAGAAAATGCGGTGAAGCATAGCGTAGATCTCAGTGGAGGACAGTCCTGCATAAAAATAGAAATCAATATTGAGAACAGACAACTTTACTTCAGGTGTGTGAATTCAAGAAGTGAAGGGTATATTGTTTCGGACAGTAAAAACAGCGGACTTGGGCTTGCCAATATTACCAGAAGGCTTGAGCTTCTTTATGGTGATACGTTTGATCTTAAGATAGAATCTTGTGACAAAGAATATAGTGTAAATTTAAAAATTCCCGTATGA	MKYSPWKFEETFVMDFLVEAKYGFRRHLLFLIFFFFLIYSARFWHWYSGIYQYYVLFFVYTILITMVYINIYVLVPRFFFKTKYVTYLVLLVLMGVMGLNFIGYGFKLFFEEFRVKNILRENEKGGIYEGVLMCIPIIMTTTTIKLLQKWINDNKRINELSNLTMSMELNELRNQINPHFLFNMLNNVKALIRTDPAKASVVIVKLSEFLRYQLYENSEEKTLLTSEIDFLSNFLNLEKIRRDKFSFDIHTEVDKRMISSIFVPPNLFTTFVENAVKHSVDLSGGQSCIKIEINIENRQLYFRCVNSRSEGYIVSDSKNSGLGLANITRRLELLYGDTFDLKIESCDKEYSVNLKIPV	PGPT0026305_1978	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
BMS003_03446	429			hypothetical protein	ATGGAATTAACAGCTTTTCACGAACTGACCCAGGAAATATCACTGGAATGTTTTTTTATGACAGAATCTCAACAGGAAGAAAAAGTAATACAGCTTATTGATTTACATCACTTTGTAGATTGTTTCGATCCGAAAATCAAAATTCTCAGTTATCTCCACCATTCTATTAATATTGTGGAGCACGGGGGAGAGAAAAAAGGCATTCTGTTTTGTGACCTTAAGCATACTGCCGTGCCTGACAGCAATGCTTCTGAGGAGTTCAGAAGAAGATATGAGCTCTCTGAGCTTTGGTTTGTTTTTGTAGAGGAAAATTTTGTTACGGATACTTCTGGCTACACAGATGCTATTATTGAAAACAGCCTGGACATCTTCTATGACAGGATTTTTACATTCAATTTTTTCCAATCTATCATTCACCGTTTAAAATAA	MELTAFHELTQEISLECFFMTESQQEEKVIQLIDLHHFVDCFDPKIKILSYLHHSINIVEHGGEKKGILFCDLKHTAVPDSNASEEFRRRYELSELWFVFVEENFVTDTSGYTDAIIENSLDIFYDRIFTFNFFQSIIHRLK				NA	NA	NA	NA	NA
BMS003_03447	972			hypothetical protein	ATGAAAACATTGAGAAAAATACTTGTACCACTGGCCATCCTTCCTTTTAAAAGCACTATTTATGCTCAGAAAAAGGACAGTATTCCTTTGAAAGTCCGTGCTTTTTTTGCTGATAAAATTCCGCAGATACGAAACTTCAATCTTGAATATATTTTGATGACCCCCTCTTCTTTTTCTTCACAGTTGCAGGGGAAGGATCTGCCGGACAATAAGATGAAAAGTTTTCAACAGGTAAAGGCGGATGCCAATATTTATTTTATCAAGAACAGAAGCTGGCTGTTGAGCACCGCCCTGAACTACCGCTATATTTCGGCCAGAAATGAAAATCCTGTTATTCCCGAAACTTACGACCAGGAAAGCTTTCATTATCACTCAGAAGCTATTAATCTTAGTTATTTTTCAAGATTATTTAATAAAACAGCTATCTACTCTGCCAGTATTTCTACGGATGGAAGTGATCAGCATTTTGAACGTATCAGAGGTTTGATTACAGCTTCATTGATTTTAAAAGCAACTCCAAAAACAAAAATGACTCTAGGACTGGCCGGTATTATTGACCCAAGCAGCCAGATTCCTGTATTGCCTATTCTCACCTATGAAAACAAATTCAATAACGGATGGGTTCTGGATGTTCTGCTTCCGAAAAAAGTCCTGATCCGAAAAAATGTTTCCTCAAACGGAAGGCTATCCCTGGGTACGGAGATAGATAATACCTCTTTTTATATCTACCACAATACTAATACGTATGAATTCCGGCAGGCTGCTCTCAATTCAGGAGTAATTTATGAGCAAAACCTTGGAGGAAATTTTATCGGAACTTTTAAAACCGGACTTAGAGCAAATATTAATTCCAGGGTTTTTAATAAAGAAGATTCTTTTAATGATTATATATGGAAAGGGGATTATAAGCCTTCATTCTATTTCAATGCCGGCATTTCTTTTAATCCTTTTGAAAAACAAAGAGTGAAGTAA	MKTLRKILVPLAILPFKSTIYAQKKDSIPLKVRAFFADKIPQIRNFNLEYILMTPSSFSSQLQGKDLPDNKMKSFQQVKADANIYFIKNRSWLLSTALNYRYISARNENPVIPETYDQESFHYHSEAINLSYFSRLFNKTAIYSASISTDGSDQHFERIRGLITASLILKATPKTKMTLGLAGIIDPSSQIPVLPILTYENKFNNGWVLDVLLPKKVLIRKNVSSNGRLSLGTEIDNTSFYIYHNTNTYEFRQAALNSGVIYEQNLGGNFIGTFKTGLRANINSRVFNKEDSFNDYIWKGDYKPSFYFNAGISFNPFEKQRVK				NA	NA	NA	NA	NA
BMS003_03448	657			hypothetical protein	ATGGCAGTACCCAAACAAATATTTCAGACTTTTAAAACTAAACGGCTTCCCTTGATTACCCGTTATCATATCTGGACTATGAAAAGAAAAAATCCGGAATACAAATATTATTTTTATGATGATAACGATATAGAAAAGTTTCTCACAGAAGAATTTCCACCTCAATATATTGAAACCTATCATAAGCTAACGATTGGGGCGGCAAAAGCCGATTTTTTCAGGTATGCTATTTTATATAAAAAAGGAGGTATATATCTTGATATTGACAGCAGTATTATCAAACCATTCAGAAAACTGGTAAAGGAAAACGATGAAGCCGTGATCAGTGCAGAAAGACACGAAAATCTGTATGTTCAATGGGCACTTATATTCAATAAAAATCATCCTTTTTTAAAGAAGACGTTGGAACTGATGCTCGATAATATCAATTATCATCTCCATCCTAATAATATACATGCCACTACAGGTCCTACAGTATTCAGTAATGCGATAAGACAGTCTTTGGATGAAAACCCTGCAATTCCCTACACGCTGTTTGAAGGGATTGAATTCCGTGGATTTTTAAAGTTCAAATATAAATTAGGTAAATTCTTTTTATACAAAAAGAGATCTGAACACTGGAAACAGCAGCAGATTCATCAGGACATTATTATTTAA	MAVPKQIFQTFKTKRLPLITRYHIWTMKRKNPEYKYYFYDDNDIEKFLTEEFPPQYIETYHKLTIGAAKADFFRYAILYKKGGIYLDIDSSIIKPFRKLVKENDEAVISAERHENLYVQWALIFNKNHPFLKKTLELMLDNINYHLHPNNIHATTGPTVFSNAIRQSLDENPAIPYTLFEGIEFRGFLKFKYKLGKFFLYKKRSEHWKQQQIHQDIII				NA	NA	NA	NA	NA
BMS003_03449	336	emrE	COG2076	Multidrug transporter EmrE	ATGGGACGCAGTTATATTTTTCTTGCTTTGGCTATTATATTTGAGATTATCGCGACCACTTTCCTGAAGAAATCGGAAGAATTTTCCAGGCTGTTGCCGTCAGTAGTGACTGTTGTAGGGTATACGTGTGCTTTTTATTTCCTGAGTCTTACCCTTCGTCAGATTCCGGTAGGAATTACCTATGCTATCTGGTCCGGAGTAGGTATTGTCTTTATAACGGTGATAGGAATGATCGCATTCAGGCAGATTCCGGATCTGCCTGCTGTTATTGGTATTGTTTTGATTATTATAGGAGTAATTGTTATTAATATATTTTCAAAAATGGGTACGCATTAA	MGRSYIFLALAIIFEIIATTFLKKSEEFSRLLPSVVTVVGYTCAFYFLSLTLRQIPVGITYAIWSGVGIVFITVIGMIAFRQIPDLPAVIGIVLIIIGVIVINIFSKMGTH	PGPT0029230_974	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
BMS003_03450	720	mpa_2	COG0464	Proteasome-associated ATPase	ATGAATCTGTACAATCTCATTATTCAAGATAAAGAACAGGTAAGCCTTAACGATGTATTTCTCGATACAAATAACAGGGAACAGCTTCTACAGCTTATCAAGGAGCATACTTATAGTAAAGAACTGCAGGAATATGGTCTTCCTGTCAACCATAAGGTTTTACTCCAGGGAAGTTCAGGATGTGGGAAAACGATGACGGCAAAAGCTATTGCCAACGCTTTAGGAAAAAACATTATGATCCTTAATCTGAGCAATATTGTTTCATCCCGTATCGGCGAAACGTCTCAGAATATTAAAATGATCTTTGATAAAGCGGGGCGTGAGAGATCTGTACTTTTTCTTGATGAACTGGATCAGATCGGGAAAGCAAGAGGCAGTGATGATAAAGATGTGGGCGAGATGAGAAGGCTGGTCAATACTTTAATTCAGCTGATTGATTATTATCCTGAAAATTCGCTTTTGCTGTGTGCTACCAATCATCCGGAGATTATTGACACCGCTTTATTAAGAAGATTCCAGTTGAAAATCAATTACGAAATGCCTTCTATGGAAGTTTTAGATGCATTCTACAATCAATTACTGGAAAAGTTTCCTGAAGATATGAGAGCCGTTAAAAGAAAGTATTCCATTTCTTTTGCTGAAGCTAAAGATTATGCTTTAACAACAGTAAAATCTACCTTAATAAAAAAACTGGAGGCAAAAGAAACTGTTTCATCATGA	MNLYNLIIQDKEQVSLNDVFLDTNNREQLLQLIKEHTYSKELQEYGLPVNHKVLLQGSSGCGKTMTAKAIANALGKNIMILNLSNIVSSRIGETSQNIKMIFDKAGRERSVLFLDELDQIGKARGSDDKDVGEMRRLVNTLIQLIDYYPENSLLLCATNHPEIIDTALLRRFQLKINYEMPSMEVLDAFYNQLLEKFPEDMRAVKRKYSISFAEAKDYALTTVKSTLIKKLEAKETVSS				NA	NA	NA	NA	NA
BMS003_03451	747		COG0325	Pyridoxal phosphate homeostasis protein	ATGAAAGAAGATATCCTCCATAATCTCACTTTGATCCATAACCGGATAAAAAATGCCTGTGAAAAATCGGGAAGAAATACTGATGAAGTTAAGTTATTACTAGCGACAAAAACGGCTTCTGCAGAGCGCATCAAAATTGCGTTGGAATACGGACAAACCTTAATCGCAGAAAATAAAGTACAGGAACTAAAGGAGAAGTATGAAGACTTAAAAGATATCCCTCATGAAAATCACTTTATAGGACATCTTCAGAGCAATAAAATCAAAGACATTCTGAAATATGAGGTTACCTGCGTTCAGTCTCTGGATCGTCTGGAGCTGGCCGAAAAAATTCATCAAAGACTTTTGACAGAAAACAGAACGATAGATATTTTAATTCAGGTGAACACTTCCGGTGAAGAGAGCAAATTCGGAGTTGACCCCAGTGAAGCCATTGAACTTGTCAAAAAGGTTTCCCACTACTCTACTTTGAAAATAAAGGGCCTGATGACAATCGGTTTATTCAGTGCAGAAACCGAAAAAGTACGAGCATGCTTTAAAATCCTGAAAAATCTTCAGCAGGACATCATCTCCGAAAATATTCCCAACGTAGTAATGAAAGAACTGTCTATGGGAATGAGCGGAGATCTTGAAACAGCCATTGAAGAAGGTGCTACGATTGTTCGTGTGGGAACTGCTGTTTTTGGAACCAGAATCTATCCGGACAGCTATTATTGGAATGAAAGAAAGACAAATAATAAAGCTTAG	MKEDILHNLTLIHNRIKNACEKSGRNTDEVKLLLATKTASAERIKIALEYGQTLIAENKVQELKEKYEDLKDIPHENHFIGHLQSNKIKDILKYEVTCVQSLDRLELAEKIHQRLLTENRTIDILIQVNTSGEESKFGVDPSEAIELVKKVSHYSTLKIKGLMTIGLFSAETEKVRACFKILKNLQQDIISENIPNVVMKELSMGMSGDLETAIEEGATIVRVGTAVFGTRIYPDSYYWNERKTNNKA				NA	NA	NA	NA	NA
BMS003_03452	102			hypothetical protein	ATGTTTCCGTTTACTTATACTTTTGAAAGTACAATCAACAATTCCAAAAAGCCTAAAGCCCATTTCCAAATTGCCGAAAAAAATATAAACTCAAAGATATAA	MFPFTYTFESTINNSKKPKAHFQIAEKNINSKI				NA	NA	NA	NA	NA
BMS003_03453	657	fmt_1		Methionyl-tRNA formyltransferase	ATGAAGAAATTTAAAGTTTTTATATCAGGACAGAAGTTTTTTGCTGAAGAAGTTTTCAGGCTTTGCCAGAAATTAGACATTGAAATTGTCGGCGTTTGTTGCCCTTTGGATGATCAGTATATCGGAAAAGCTGCGTGGCGTTGGAATATTCCAATTATTCCTGCCGGCAGTTTAAACGCCGACAATATGCCGGAGTGTGATTTGGGCATTACTGCTCATTCGTTTGATTATATCGGGAAGAAAACCAGATATATTCCACGTTTGGGTTGGCTCGGTTATCACCCGTCATTATTGCCAAGGCATCGCGGGCGCAGCTCTATTGAATGGGCAATCAGAATGAAAGAACCAATTACCGGAGGGACGGTATTTTGGCTCAATGCAGGTATTGACAGAGGAGATATTGCTTATCAGGATTGGTGTTGGATACCTCCGGAATATCATTTGAGCCCTCAAAAATCGGCTGCAAGCCTTTGGCGCGATACATTACTCCCGATGGGGTTAAAACTCTTTGAAAGAGCCCTTAATGACGTTTTAAATGGAATTATAATGCGAACACCACAGGATAAGCGGTTTAGCACATTTGAGCCGGATACCAATGTAAAAGATATTTATCGCCCTGATCTGTTAATGATCGAATATGAAAACAGCCACGATTAA	MKKFKVFISGQKFFAEEVFRLCQKLDIEIVGVCCPLDDQYIGKAAWRWNIPIIPAGSLNADNMPECDLGITAHSFDYIGKKTRYIPRLGWLGYHPSLLPRHRGRSSIEWAIRMKEPITGGTVFWLNAGIDRGDIAYQDWCWIPPEYHLSPQKSAASLWRDTLLPMGLKLFERALNDVLNGIIMRTPQDKRFSTFEPDTNVKDIYRPDLLMIEYENSHD	PGPT0008125_6546	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS003_03454	324			hypothetical protein	ATGCCGGAATGGCAGGGTGCCGGAGTTGGCACCGCTTTTTTAAATCAGATCATGCAGTATCATTTAGAAGGTAACGGAAGATGCCAAAGAAAATATCCGACCTATTTTCATACCTCACACCCGCAGCTTTGTGGATATATGAGACATTCCCCAAAATGGAAACAGGTGTCAGCAAAACTTAACGGAGATAATAAGGCGAGAAGTATTAAGTCATTGCAAAATACATCCAAAGGTTTTGAAAAAGGAAAAATGACAACCGGAGGATTTGGCGGACATTTCAGAGCAGTACAGGGATTCAAATATTTAGGAAATGAAGAAATTTAA	MPEWQGAGVGTAFLNQIMQYHLEGNGRCQRKYPTYFHTSHPQLCGYMRHSPKWKQVSAKLNGDNKARSIKSLQNTSKGFEKGKMTTGGFGGHFRAVQGFKYLGNEEI				NA	NA	NA	NA	NA
BMS003_03455	690			hypothetical protein	ATGAAAATAATAGAAGTAAAACACACCTGCGAAAATTTTAATTCGTTCAGATCAGAAAAAGTAAAAAGTTTATTTAATGCCGAAAGTGGTCACAACTGGCAGCATACCGCCGAACTCCCGATTGACGAGGAAGATTGGCAGATCGGACTTATTGTCGGAGCTTCAGGAAGCGGTAAAACATCAATAGGCAGCCAAATTTGGGAAAATGGAATTGTAAACCTTGCCGAAGGTTGGAATCCTGATCTTCCGATCATTGAGGATATCGCACCTGGCTCAGACATGAATACTGTAACTAGTGCATTGTCAGCCGTTGGATTGGGTGACGTTCCGGCTTGGCTCCGACCTTTTAAGGTTCTTAGTAACGGTGAACAGTTCCGCGCAGGTCTTGCCCGCCTTATTTGTGAAGCCCCGGACAAAGTGGTTATTGATGAATTTACTTCTGTCGTGGACAGGCAAATTGCCAAAATTGGAGCATCTGCCTTTTCCAAAGCTTGGCGGAAAATAAAGGGAAAACAAATTGTATTGTTATCATGCCATTATGATATTGTTGAATGGCTGCAACCTGATTGGGTATATGACACCCGGACAGGTGAAGTAAAAAAAAAGCCTCAAAACGACCATCTATTAAACTCGACATTTGGAAGGTCGACGGAAGTTATTGGAAGTTTTTTAAACAGCATTATTATTTAG	MKIIEVKHTCENFNSFRSEKVKSLFNAESGHNWQHTAELPIDEEDWQIGLIVGASGSGKTSIGSQIWENGIVNLAEGWNPDLPIIEDIAPGSDMNTVTSALSAVGLGDVPAWLRPFKVLSNGEQFRAGLARLICEAPDKVVIDEFTSVVDRQIAKIGASAFSKAWRKIKGKQIVLLSCHYDIVEWLQPDWVYDTRTGEVKKKPQNDHLLNSTFGRSTEVIGSFLNSIII				NA	NA	NA	NA	NA
BMS003_03456	129			hypothetical protein	ATGGCAGATTTTAAATACAAAGAACAGCATGCTGTCATCATAAAGGTAGACAGCGAAAAAGAACAAAAAGAATTGTTCGACAAACTAAAGAAAATGGGATTTAAAAATTTAAAAGTAGTATCCGTATGA	MADFKYKEQHAVIIKVDSEKEQKELFDKLKKMGFKNLKVVSV				NA	NA	NA	NA	NA
BMS003_03457	390			hypothetical protein	ATGAAAGAAATAATAGAAATATTAACAGAACCTATTGTCGCTTTTCTTGGAGCCATTTTAACAGGGCTTGGGGGATTCATATTCGGAAAAAGAAAGCTTCGGGCAGAAGTTGCCGGAATGAACGCCGACAACGAGGGTAAGGAAATTGAAAACGCTGATAAATTGGTTAAGCTATACAAGGAAGCTTTAGACGATTTGGGCGGTCGTTATGAAGCAAAGTTTAAGGAATTTTCGGACTTATCAGATAAAAAGGTTTTAATGCTTCAGGAACAGATCGACTTCCAGAAAAGGATTAACGAACAGCTGAAAGCAGAAAATAATCTGTTAAAAGCAGAAAATACAATGCTCAAAACAAAATTAAAAGAAAATGGCATTACCATAACATCATAA	MKEIIEILTEPIVAFLGAILTGLGGFIFGKRKLRAEVAGMNADNEGKEIENADKLVKLYKEALDDLGGRYEAKFKEFSDLSDKKVLMLQEQIDFQKRINEQLKAENNLLKAENTMLKTKLKENGITITS				NA	NA	NA	NA	NA
BMS003_03458	495			hypothetical protein	ATGAAAACAGAGCTTATAATAACGCCTGAGGTGCAGGCTATTTTGGACGCCATTAAGAACACCGGTAAATCATGGCATGAAGTTGTCCTTCCGGATCATCCTATTTATCCGCAATTCGCCCGCAAATTAGTCGTAACAGGTTTTAATACTCCCGATATGGAAGGCAAGGAAGACCGTATTTATGTCAATGTCCGTCAATACCTGATTGTAAGGGACGGAAACATTCTCCATAAAAGATTAAAAATGCCCGACTGGATGATTCATGAGGGAAATGTGGAGGAAATCTTGGGCGAAAACGGTTATTTGACGGGTATTAACCAGACTACAAATGACGAAGGAGAAATAATAAATGAAGAGGAAGTTATAATCAAAGCACAATCGGTACAATATGTCCGCTTTCTTATTAAAACAAAAGCCGCACATATAGTTGACGTTTTGGAGCGGTTTATGGGGCTTTATATTGCCTTGTTTGATCAAGAAATTAACGAAATCTAA	MKTELIITPEVQAILDAIKNTGKSWHEVVLPDHPIYPQFARKLVVTGFNTPDMEGKEDRIYVNVRQYLIVRDGNILHKRLKMPDWMIHEGNVEEILGENGYLTGINQTTNDEGEIINEEEVIIKAQSVQYVRFLIKTKAAHIVDVLERFMGLYIALFDQEINEI				NA	NA	NA	NA	NA
BMS003_03459	1935			hypothetical protein	ATGGCAACACCATTAAATACGATATTCAGTTGGTTTGAAACCGGCGATTTTCCGACACAGGCACAATTTCAGGCTTCGTGGTCTTCATTCTGGCACAAGGATGATTCAATCCCGATTTCCCAAATTACCGGGCTTACTCAGGTTATTGAGCAAATGGTAAGTTCTGAAGCTCTACAAAATCATATTAATGATTCAAATGCGCACGCCGGTTATTTAGCAAAACTTGACGCCTCAAATTTGACAACATCTCATGTCAATAATTGGAAGGAAAAATTGGGCGTTGGCGAAATTCCTGCCAATGTTGCGTTAGTGGATATGGGCGAAAATCAGTCGGTTTTTAATAAGGAGCAGATTACTTCAATATGTATGCTTTTGGAAAACTATGTAAATAGTAACGGGAAGATTATGTCAGGAATGATTGAGGCATTGGGATTAACCGAGCTGATTCAGGTTGATGAATTTACTTTACAAGACTTTATCGCTAACCACTCAGTGTACGATTTTCAAATCAACGATATTATTGCGATTCCTTCTTCCAATCCGGAACAGGGCTACAGATTATATTTTTATAATGGCGGGGACAAAACCTCTGAAGACAGTTATCTTGCCACCGGTTTAAGCAATATCACCATTGCAATGGTTCAAGGCTTACAGGCTGCTCTGGATGGCAAAATGAATAAGCCGACAGCAAGCGGAAATTATTACGCAAGGCATTTTTTGGGACAGGTTTCATGGGCTGCCATCAATCCGGCTTCAAGTTATCTGCTTTTTTGGAACGGAAATGATTTTATGGGATCCGGAATTTATACAGATGGTACAAAATTCGGCATCGGTACAACTTCACCTACCGAAATGCTACATCTCAACAATGGAAGGATCCGGACTAAAGCGATGGTTTTTGACGAAAATACAGAAACATTGCCTTATCAGATAACGCACATGAATAGGGCGTATTATGGTTCTGATTTGACAGGAGCAAAATATAAATTCATGTACCAGACATATAATGATCTGCATAATTTGCTTATGGAATTGACAGATACCCAAAAAACACAGATCAGAAATGACTTGCGTTTATCAGGAGAAAGCTTTTCTACAGGTACACCCCGAATTGATGTTTTATTGCTGCCATTTATTGATAATACAAAGAATTTCATTCAATACACAACATTAGTAGGGGTCAATTTATTTGTTGATAACGTAACCCCAAATGCTTACATAAAAATCAAAAGAATAAAAGATGTAAACGGTACAAATTTATCAACACCAGAAGTTTATGATGTAGATAATTTCACCGTATTACAAAACTTTCCAAATAACCTGAATTTCGGTATTAATTGGTTTACAAAACCTGAAGGATATTATCAAGTTTTTGTAACTCATAACGGATTAACAAACGCAAGTTCACCGGAATTGATAGTAAAGTCAGGGTTAACTTACAGCCAGTTTACTGGTATAGCCAATTGGCAGAAAGCTTCGGGAGGTGATTCGTTAGTAAGTGATACTGCTATATCATCAGGGTCTCAAAGCACTTTATATTATTCGGATAATTTAATCACTACGGCGGAAGTTAATGCAGGTTTTATGGTCTCATTTTCTTTAAATAACCAATTAAGCAATTACGGGGCGAACTTCGTAGGTTTCTGGAGATGTGGTTTAATCGGAAATGGTGATGGAGTATTCTATGGAGTTCAGTACTACGATGGTGGGGGTACTGGTATGTTACCTAACGCTGTATTAGCGGTAAGAAATGATACATTCCATATTGCTTATTATAACGGAGTGGTTTATGTTATCGCCGAAGGTAATGGAAAGACTTACCAACAGTTCAACAGTACTTATAATTTATATCCTAAACGTTTTGTATTCCAATTAGGCGGAGGGGGGCAAGGTTCTATAAGTATGCAATTATTAGGAAAAATATTATTGTCTTAA	MATPLNTIFSWFETGDFPTQAQFQASWSSFWHKDDSIPISQITGLTQVIEQMVSSEALQNHINDSNAHAGYLAKLDASNLTTSHVNNWKEKLGVGEIPANVALVDMGENQSVFNKEQITSICMLLENYVNSNGKIMSGMIEALGLTELIQVDEFTLQDFIANHSVYDFQINDIIAIPSSNPEQGYRLYFYNGGDKTSEDSYLATGLSNITIAMVQGLQAALDGKMNKPTASGNYYARHFLGQVSWAAINPASSYLLFWNGNDFMGSGIYTDGTKFGIGTTSPTEMLHLNNGRIRTKAMVFDENTETLPYQITHMNRAYYGSDLTGAKYKFMYQTYNDLHNLLMELTDTQKTQIRNDLRLSGESFSTGTPRIDVLLLPFIDNTKNFIQYTTLVGVNLFVDNVTPNAYIKIKRIKDVNGTNLSTPEVYDVDNFTVLQNFPNNLNFGINWFTKPEGYYQVFVTHNGLTNASSPELIVKSGLTYSQFTGIANWQKASGGDSLVSDTAISSGSQSTLYYSDNLITTAEVNAGFMVSFSLNNQLSNYGANFVGFWRCGLIGNGDGVFYGVQYYDGGGTGMLPNAVLAVRNDTFHIAYYNGVVYVIAEGNGKTYQQFNSTYNLYPKRFVFQLGGGGQGSISMQLLGKILLS				NA	NA	NA	NA	NA
BMS003_03460	888			hypothetical protein	ATGAGAATTAATATAAAATTTCTTCAAACTGGCGGGGTTCCTCTCACCAACGATTTAATGGACGTGCTTCAGGACGCTTACTCAATCTTTAATGTTTTGGGTGATGTTGCGGGACATTTGACCATTTTGTCGGGTTGTACGATAACCGGGCAAAGTGTAAGTCCGGGAATTGTAGCCATCAATGGAGATATTCTCTATTTTGAGGGTGGACTCATCAGTTCTTCTGTATATATCCACACGGCACAGATTACAAAAACTTTTCAGGATCAAACTGATAAAATTTTAGTTGAAAAGAAAACGGTAAAATTTGGATTATCCACGCCGGATAATATGTGGAACTGGGCTGACTTTAAAAGACTGGACACTATTAAAGTGATTATGGAAAAGCTTGAAGCAACCGCAACGCAGCTGGACTTAACAGATATTAAAAACAGGCTTGAAGTCGTAGAAATGAAAACTGCTCCAATCAGGAACGATGGCGTTGTGATGATCTGGCCTCGAAATATACCAATCCCACCTTTTTGGAAAGAATGCACAGACTTGAGGGGAAGAACGCCAATTGGTTATGATCCGAACTATGTTTATAACAGCACCATTCACGCTTTGGATTATCAGCTTAACCAAATAGGAGCTAATATAGGAGACCTTTCCCATAAACTTATTGTGGCAGAACTCGCTAAACATGGTCACTCAGCCTTTGTTAACAATGACTGGGGCGGTGCTTATCCATCCGTAAGCCATTCTACAGGAGGAAATATGGGGTATGGCATAGTTGGAGGCGGAGATAACGGATGGTCATTCAGCGTGAGACCGGAGGGCGGAGACAAGCCTCATAATAATGTACAGCCCTCAAAAGTAGTACTATTTATAGAACCCAATTTCCCTTAA	MRINIKFLQTGGVPLTNDLMDVLQDAYSIFNVLGDVAGHLTILSGCTITGQSVSPGIVAINGDILYFEGGLISSSVYIHTAQITKTFQDQTDKILVEKKTVKFGLSTPDNMWNWADFKRLDTIKVIMEKLEATATQLDLTDIKNRLEVVEMKTAPIRNDGVVMIWPRNIPIPPFWKECTDLRGRTPIGYDPNYVYNSTIHALDYQLNQIGANIGDLSHKLIVAELAKHGHSAFVNNDWGGAYPSVSHSTGGNMGYGIVGGGDNGWSFSVRPEGGDKPHNNVQPSKVVLFIEPNFP				NA	NA	NA	NA	NA
BMS003_03461	495			hypothetical protein	ATGAAAGATGAATTATTTAACATCAATTATAAGCGGTTAGTCCTTTGGTGGTTGCCTACTTTCAGGAGAAAATCGGTAACCCTTAATTACTTATGGTGCCTGATTTTTCCACTTGAAGCTTTATACATCGAGTTTCTGAAAAGAAGAAAACAAAACCTGATCAAGATGAATTTTAACTATCAGAAGTTTTCAATGGAAAGAAGGTTAAATGATGCTTTTGATCCAACCAACAGAAGAATAGAAATTGTAAACGCCGTACAATATGAAGGGGTTTATTTATACACAGAAGCCGAGGACGATGTATTTTTTTCAAAAACCCAGTGGCTGTACGGAGACGAAAATCCGCTCTATTTGAGAACGGAAGCAGAACTGCATAGTGAATATGATTTTATTGTCAGAATTCCCAATACGTCAATCAATATGCATCAACTCAGGGCAGAAATTGACTTTTACAAATTAATAAGCAAACGCTACAATATAGAAATAATACAATAA	MKDELFNINYKRLVLWWLPTFRRKSVTLNYLWCLIFPLEALYIEFLKRRKQNLIKMNFNYQKFSMERRLNDAFDPTNRRIEIVNAVQYEGVYLYTEAEDDVFFSKTQWLYGDENPLYLRTEAELHSEYDFIVRIPNTSINMHQLRAEIDFYKLISKRYNIEIIQ				NA	NA	NA	NA	NA
BMS003_03462	888			hypothetical protein	ATGAACAACACAATTCAGGAAGTAATCGGACTCATCCTATCGCTAAAAGAAGCCAACCCTTTTTTACAGGTACTTACTTCTACGTCAAAAACAGCGGTCTGGCGTAATATTCTGGAGACGGTGGCTTTTATGATTTTTAATTTTCAGGAAGCCCTCAGATTGCACATGAAGGAGATTGACGAAAAAATAGCCAGTCAAAAAGTGCCGAATGAAAAATGGTACCGCGAGCAGGCACTCCGGTTTCAGTATGGGTTTGAATTGGATCCGCTTTCATACATCGGGGCATTTCTCCCAACGTATGAAGACGGAAACGGTAATATCATTACTGCGACGGAGCAGGAGATTCAAGATTCAAAAATTATAAAATATGCTTCGGTTACTGCCAATATCAGCGGAAACGGGGTGAAGAAAATTTCCATGAAAATCGCCGGCGAAAATATGGACGAGGTCATTTCGGACGAAAAAGCCCTTGCTTTTAAATCCTATATTGAAAGAATACAGGCAACCGGGGACAATATTGTGGTGGTTAATTTCCTGCCGGATATTCTTTTATTACAATATAAGATATGTTTTGATCCTTTAATACTGCATCCGGACGGTATGAGCATTTTGAAGGCTGAATATCCCGTTAAAATTGCCATTCAGAATTTTTTAAAAAATCTGCCATTCAACGGTGAGCTTTCTGTCGAAGCCTTGGAAGATGTTATTCAGGAAGTTAACGGCGTTACAGACTTGCAAAAATTAGAGGTATCGAGCAAATGGATTGAACCAGGAACAGGGTACGGATTATTTCAGCCTATTGAGATCAGCAGGATCCCGAAGTCCGGGAGGTTTAAAATTGAAGACTGGAGCGGAATAGAATACATTAATTATCAGCCTACTGAGTAA	MNNTIQEVIGLILSLKEANPFLQVLTSTSKTAVWRNILETVAFMIFNFQEALRLHMKEIDEKIASQKVPNEKWYREQALRFQYGFELDPLSYIGAFLPTYEDGNGNIITATEQEIQDSKIIKYASVTANISGNGVKKISMKIAGENMDEVISDEKALAFKSYIERIQATGDNIVVVNFLPDILLLQYKICFDPLILHPDGMSILKAEYPVKIAIQNFLKNLPFNGELSVEALEDVIQEVNGVTDLQKLEVSSKWIEPGTGYGLFQPIEISRIPKSGRFKIEDWSGIEYINYQPTE				NA	NA	NA	NA	NA
BMS003_03463	300			hypothetical protein	ATGAAAGTAATTATTTTAACTCATCAGTCTATTCTGGACATTGCAATACAATACACGGGATCAGTAGAAAACTGCTTTGCCATTGCCGTGGCTAATGGCTTGTCAGTTTCGGATGTGTTGTCTGCGGGATCACCCGCTGAAATTCCGGAGGATGTATTTAAAAATACAGATGTCCTGAATTATTATAATGCTAAGAAGATACAGCCCGCAACGGGTTCGACAGCCGAACAGGACAGCGAAATACCAACATTAAAAGGTATCGGATATATGCAGATTGCAAACGGTTTTAAAGTAAGTTAA	MKVIILTHQSILDIAIQYTGSVENCFAIAVANGLSVSDVLSAGSPAEIPEDVFKNTDVLNYYNAKKIQPATGSTAEQDSEIPTLKGIGYMQIANGFKVS				NA	NA	NA	NA	NA
BMS003_03464	189			hypothetical protein	ATGCCACTTAATAAAGCTCAGCTCATCCAAAGGCTTATCACTATGCTAAATAAGCCAAAAACGACAAGTAATGTAGAAACCGCCGCTCAGGAACTGGCGGACGCCATCGAGGAATTTGTCAAAAGTGGAACGGTAACCGGAGTTTGTGGTGGTGCGGGAAGTCCTTTAACACAGGGAAAAGTAACGTAA	MPLNKAQLIQRLITMLNKPKTTSNVETAAQELADAIEEFVKSGTVTGVCGGAGSPLTQGKVT				NA	NA	NA	NA	NA
BMS003_03465	297			hypothetical protein	ATGATTGATATACTACTGAATGAAGACAACGATATTTCCATTGTAAACGGTGACTTTCAAATTGGGGAATCAGAACAGCAGGAAATAGAAAGCATACTCATTGCCTTTAAAGGAGAATTTAAAAATACACCGCTTTTGGGTGCTGAACTCCCCAGAATGCTAAAGGCAAGAAATACCCGCCAAGGAATCACCCGTGAGGTGAATGAACAGCTAAAATATGACGGCTTCACTCGCATTGACTTCAAAATTGAAGATGCTGAAAATTTCACCATAAACGCCCAAAGAGATGCCACTTAA	MIDILLNEDNDISIVNGDFQIGESEQQEIESILIAFKGEFKNTPLLGAELPRMLKARNTRQGITREVNEQLKYDGFTRIDFKIEDAENFTINAQRDAT				NA	NA	NA	NA	NA
BMS003_03466	501			hypothetical protein	ATGGAGAGTTTAAAAAAATTACTTAATAGGTTTCCGGTGGTCTTAGATACGGCAAAAGTTGTGAGTATAACCGATGATAAATGCCATGTTATAAGCCTTACAACGGGTAGCGATTTTAGAAAATGCTCAATCAATTCAATAATTGAAAATAAGGATAATAAATTTTTGATATATCCCAAAATAAACAGTGTTGTCACTATCGGAATTTATTCAACCAATAATAAGGCTGTAGTCCTTTCCGTAAGCGAGGTTGAAAAGATTTACTTCAGGAACGAAAAATCGGAGTTCACATTTGATAGTTCTGGTTTTCAGTTCAACCGTGACGGTGAAAATTTAAAAGAAGTACTTAACGGGTTTCAGGACGGGTTCGGAAAATTGTGTGATGAGTTGGCAAAAGTGGTGGTTTCAATTGGAGTAACTCCTGACGTTCCGGCAATCATGCAGATCAAAAATGATATTGTAAACGCCAATAAACAGGCATTAAACAAAATTTTAACCTAA	MESLKKLLNRFPVVLDTAKVVSITDDKCHVISLTTGSDFRKCSINSIIENKDNKFLIYPKINSVVTIGIYSTNNKAVVLSVSEVEKIYFRNEKSEFTFDSSGFQFNRDGENLKEVLNGFQDGFGKLCDELAKVVVSIGVTPDVPAIMQIKNDIVNANKQALNKILT				NA	NA	NA	NA	NA
BMS003_03467	1002			hypothetical protein	ATGGTACCCTGTATTGAAATATTGATCGGAAAATTAAAGTTTACGGCAGCAACGGAAATTAATATAAAAAAAAGCTGGAGAACCTTTACCGATACAGCGGCAATCAAACTTCCGAAAGCCATCTATTATTATGATGGTAACGGCATTTTAAAGCCGGTAGAACATCTCGGAAATTTTATAAAAGTCGGTGATAAGGTAGAAATCAAACTGGGGTACAACCGCCAATTATTTACGGAGTTTACCGGATATGTGGCAAGATCGCCACGGGTTAATATTCCTTATGAACTGATTTGCGAGGATGAAATGTGGCAACTCAAAAGAAAAGAAACAAGCGTGTCTATTGAAAACGCTACGGTACGGCAAATTATTCAGGCTGTGGCTCCGGGGTATGAACTCGATTGTATTGATGAAGTCTACGGAGATTTTTCGATGAAACAAACCACCGCTGTAAAGGTTTTTAATGAGCTTCAGGAAAAAGCGGGTATTTATACCTTTTTCAGAGACGGACGCCTGGTGTGCGGCAAAATCTATTCTGACGAAAAAGTTTCAAAGGCTCAGCCGGTTTTTGAATACTGTGAGAATATTATTGATCACAACCTGCAATATATTTTCCCGGATGAAGCAAAGGTAAAACTGTATGCAAAATCTAAAAATAAGGATGGCAGCTATACACAGGTCGAAGTTGGAGAAGACGGAGGAGACATTGAACATTGGGAAGTGCCCGCAATGGATATGAAAGAAAAGGAGCTGAAAACAATGGCTGAAAATCGCCTTAAAAGTCTCAAAAGATTTGGCGGGTATAAAGGTACCATAACCTCTTTTGGTTGGTCGCGGGTGGAACACGGACAGGTAGTGCAAGTTCGGGATAAAAAATATGAAGAAAGGAACACCAAAAACTTTGTTGATGAAGTCGAAATCAATGTCAGTGCAACCGGAGGTTACAGAAGAATAATTGATATAGGAAGAACATACAGGGATGGAGAGTTTAAAAAAATTACTTAA	MVPCIEILIGKLKFTAATEINIKKSWRTFTDTAAIKLPKAIYYYDGNGILKPVEHLGNFIKVGDKVEIKLGYNRQLFTEFTGYVARSPRVNIPYELICEDEMWQLKRKETSVSIENATVRQIIQAVAPGYELDCIDEVYGDFSMKQTTAVKVFNELQEKAGIYTFFRDGRLVCGKIYSDEKVSKAQPVFEYCENIIDHNLQYIFPDEAKVKLYAKSKNKDGSYTQVEVGEDGGDIEHWEVPAMDMKEKELKTMAENRLKSLKRFGGYKGTITSFGWSRVEHGQVVQVRDKKYEERNTKNFVDEVEINVSATGGYRRIIDIGRTYRDGEFKKIT				NA	NA	NA	NA	NA
BMS003_03468	597			hypothetical protein	ATGTCGAGTTATAATATTAACGTTAAAGAACTGATAAAGCAGCACTTTCCGTTTAAGCTTGGGTTTGCCACTCAGACCGTCGCAGATGCACTTTTTAACGGTTTTGATGATATACAAGTGTTGCCAACTAATAATGAACTTGCCAAAGTTTCCGTCATGGGAACGCCGGTCTGGGATTTTATAGACCTGAAGCCTTCATATATTGAAGGTACCGGTGAACAGTTCGGCGGGTATTCTTTTCCTCTGGAAACGACCATTGAACCCATAAGACCTAAAAAGATTGTGGAAACCGATATTTTCGGGCGTGACGGAAATGTAGAGGAACTTATCGCTCTGGATGACTGGCAATTGACTATCAGAGGGCTTATTATCAATTATGACAGTACCGATTACCCGGAACAACAGGTCAAGGAATTGCAGCGGGTTTGTGAGCTTAAAACCTCACTTCTGGAATGCGAAGGAACCTTATTAACCATGCTGGGTATTCATTATATGAGCATTCATAAGCTGACCTTAACGCCGTCAATCGGATACTCTCATATTCAGGCTTTTGAAATTGAGGCAAAAAGTAAAATCCCTTTTATAATCTCCCCGTAA	MSSYNINVKELIKQHFPFKLGFATQTVADALFNGFDDIQVLPTNNELAKVSVMGTPVWDFIDLKPSYIEGTGEQFGGYSFPLETTIEPIRPKKIVETDIFGRDGNVEELIALDDWQLTIRGLIINYDSTDYPEQQVKELQRVCELKTSLLECEGTLLTMLGIHYMSIHKLTLTPSIGYSHIQAFEIEAKSKIPFIISP				NA	NA	NA	NA	NA
BMS003_03469	438			hypothetical protein	ATGAACCGGCAGGAATTAAGGGACAAATGCCGTGAAATGGGCATCCCCTTTACATCAAAAGACACTAACAATCAATTAACTGAAAAAATAAGACTTAAAAAAATGAAAAACGAGACACAGGAAGGTAATATCACCGCGGAACAAATCGCAGAGTGGAAGAAAAAGTTTAAAACAGATAAGCTCCACAAGCTGACGGTAAAAGATAAAGACGGAAACCCTATTGTCGGCTATCTGAAACCACCCGGAAGAGAAATCAAAGCCACCGCGCTTTCCATGTATTCGCAAAATAAAATTTTAGAATGCGGGGAATTTATCCGGGATAACTGCTGGCTGGGTGGTGATGAAAGACTAAAAATGAGCGGCGACATTGCCGATACGGCAGCCATACAGGCTTCGGGAATTATCAAATTTTTAGAAGCAGAACTGGGGGAAGTTTAG	MNRQELRDKCREMGIPFTSKDTNNQLTEKIRLKKMKNETQEGNITAEQIAEWKKKFKTDKLHKLTVKDKDGNPIVGYLKPPGREIKATALSMYSQNKILECGEFIRDNCWLGGDERLKMSGDIADTAAIQASGIIKFLEAELGEV				NA	NA	NA	NA	NA
BMS003_03470	435			hypothetical protein	ATGGTTACTCAGACAAGAATAAACGGAAAATACAGGAATTACGGAAATGTCCGTATTACCGCTTTGGGTGCGACCTTCATGGGCGTGACCAAAATAGAATACAAAAGAACCGACGCCATTGATCCGGTAAAGGTCGTGGGAACCACCAAATCGGTCGGATATACGCAGGGCGATGAAATCTGCGAAGGAAGCATCGGGCTTTTGAGTGAAACAGTAGACGCGATTCAGGCGAAACTCCCTAAAGGAAAAACCCTGCAGGACATCCCGCCTTTCCCGATCACAGTTTCCTATGTTGATGACACCGGATTACAGGTTTGCCATGTCCTTTACGGCTGCAAGTTCAAAGAGAATGGAAGATCAGCTGAGGCGGGAAGCAATGATGCTCTGGTCGTAGAAAGCCCACTATACATTCACGATATAGACTTTGCAGCCTAA	MVTQTRINGKYRNYGNVRITALGATFMGVTKIEYKRTDAIDPVKVVGTTKSVGYTQGDEICEGSIGLLSETVDAIQAKLPKGKTLQDIPPFPITVSYVDDTGLQVCHVLYGCKFKENGRSAEAGSNDALVVESPLYIHDIDFAA				NA	NA	NA	NA	NA
BMS003_03471	1257			hypothetical protein	ATGCGTCCCAGACTGATAGTACAAAAGCTTAACGGCGGGCTTGGGAGAAGAAACCCCTCCGCCGATATGGTGACCGGCAGCGTAATGAACGCTGTTGCCACTTCTGAAATGGTGCTTGGAAATATTTACACGTTAAAAAATATTCAGGAGGTCGAATCATTGGGGATTACCGCAGAATATGATGAAGCCAATAAGGTACTTGTATATGAAAGGCTAAGACGTTTTTTTGTTCACAACCCATCCATAACGGTGTATTTTATGCCCGTGGCTCAGGGCGTAACCCTGACGCAGATGGTGGATAAAGACAATAATTATTTAGCCAAATTATTACGGGATAAAGCCGGTGAAATTGTTCAAGCCTCAGTATCATTAAATCCGGATGAAGATTATACGCCAACCATAGAAACGGGACTCGATAAGGACAGTATCGATGCCATCTATAAGGCGCAGGCTCTGGCAGATTCCGAATGGGCAAAAGACCGTTACTGTGAAATTTATATTGAAGGCAGAAGCTTTTCAGGAACATCGACGGCGGCTCTTAATTTAAGAACGCTCTTAAGCGAATGCCCGGACATTTCCGTGGTGATCGGTGCCGATTATCAGGTTTCTACCAGGGATAACCTATATAAAGGCTATGCAGCTGTTGAAGATTACACCGCAATGGTTTCTAAGGCAGATGTTTCACAGAACGCCGGGGAACAAATAGGTGATTTTAACCTGACCAACGTTGATGCAAAAACTTTTATCATTCCGGGGCTGAGTTCCGGTAATAAACTGAGTGATTATTCGGATACGGATTTGGATAATCTGGACGATAGAGGCTACATCTATTTTGCCCCCATAGTTAATCTGGGCGGGATTTCTTCAACCGCAGGAATCTATATCAACGATACGCATACCTGCGCTAAAATTACCTCGGATTTTGCCTATGGGGAAAATAACAGAACCATAAAAAAGGCGATCAAGCTCGCCAAGGCAGCGTTAACCCCGAAAGTGAAGGGACGTATATATGTGGATGAAAGCACGGGATTTATGGCACCGGAAACGGTTAAGGACTTAGAAACCATTACAAAGGTTTCGCTTGACCCGATGGTGGCAAACGGAGATATAAGCGGCGGTGTGGATGCTTATATCAATCCGGAGCAAAATGTACTGACAACAAGTGAATTTATCGTACTACTGACCTTTATTCCGGTAGCTATCGGAAGGAGGATTACCCTAAAAGTGGGTTTCAGAAACCCTTTAAATACTCAATAA	MRPRLIVQKLNGGLGRRNPSADMVTGSVMNAVATSEMVLGNIYTLKNIQEVESLGITAEYDEANKVLVYERLRRFFVHNPSITVYFMPVAQGVTLTQMVDKDNNYLAKLLRDKAGEIVQASVSLNPDEDYTPTIETGLDKDSIDAIYKAQALADSEWAKDRYCEIYIEGRSFSGTSTAALNLRTLLSECPDISVVIGADYQVSTRDNLYKGYAAVEDYTAMVSKADVSQNAGEQIGDFNLTNVDAKTFIIPGLSSGNKLSDYSDTDLDNLDDRGYIYFAPIVNLGGISSTAGIYINDTHTCAKITSDFAYGENNRTIKKAIKLAKAALTPKVKGRIYVDESTGFMAPETVKDLETITKVSLDPMVANGDISGGVDAYINPEQNVLTTSEFIVLLTFIPVAIGRRITLKVGFRNPLNTQ				NA	NA	NA	NA	NA
BMS003_03472	546			hypothetical protein	ATGTCTAATAAAAAGAAATTTCAGGAAAAAGCCAATGCGCTTTTTGAAAAATATCCGGAGGCTAATAAAATTTTTATTTCAGAAAACGGGCAGTGTTTTTTTGAAGAAAAGGCGGCTAAAGATTACCACGATTTAAGAGGGTTTGAAAATCAGCCGGAAGTCTTTTTTCGTGAAGGGTTTGAGGACGAAGGCGATTCGGATTTACAAGAGGCTCTGCATCATTCTGAACTGGCACGAAAAGCCTTAGAAGGAATTATCGAAGATGTGGCAGCGGTTTGTGATCTTGACGGGGACTATGAACCGGCAAACGCTGACACGGACGAAACCGTTACGGCTGTTATCTCCCTTCGTGAAAAATACGCTGAAAAAGATCGGCTTCTTACCGAAATGGGTGCCGAAGTAGAAAGGCTTTCCCAAGTTGAAAAGGACAACGAAAATTTAAAGGGGCAACTGGAAGCAGCCAATAAGCAGATTGAAGCCTTAAATAAAACACCAACCACTAAAACCAAAAAAGATGCGTCCCAGACTGATAGTACAAAAGCTTAA	MSNKKKFQEKANALFEKYPEANKIFISENGQCFFEEKAAKDYHDLRGFENQPEVFFREGFEDEGDSDLQEALHHSELARKALEGIIEDVAAVCDLDGDYEPANADTDETVTAVISLREKYAEKDRLLTEMGAEVERLSQVEKDNENLKGQLEAANKQIEALNKTPTTKTKKDASQTDSTKA				NA	NA	NA	NA	NA
BMS003_03473	456			hypothetical protein	ATGAAATTATCTATTAAAGCCTTGGAAATTGCAGCTACACAGATCGGGAAACAGGAAAACCCGCCCGGATCCAACTGGGGAGAACCGGTTAAAAGCTACCTCTCCAGTGTGGGGATCGGCTTTGCCGCCCCGTGGTGCATGGCTTTTGTGTATTGGTGTTTCCGTCAGGCTTCCCAAACAATGAATGTTAATAATACGGCAATCAAAACAGGCGGTGTGTTAGCCGCTTGGAATAAAGCCGCTCACAATATAAAATCCTCTAATCCCGCTATCGGATCCGTGTTTATTATGGATTTCGGCAAAGGGCAAGGGCATACCGGTCTCGTTGAAAATTTCGACAAAGAATTTATTTATACCATAGAAGGAAATACCAATGACACCGGTAGCCGTGAGGGGATTAAGGTATGCAGGAAAAAACGCCTGAGAAGTACTATTAAAGGTTATTTAAACTACTAA	MKLSIKALEIAATQIGKQENPPGSNWGEPVKSYLSSVGIGFAAPWCMAFVYWCFRQASQTMNVNNTAIKTGGVLAAWNKAAHNIKSSNPAIGSVFIMDFGKGQGHTGLVENFDKEFIYTIEGNTNDTGSREGIKVCRKKRLRSTIKGYLNY				NA	NA	NA	NA	NA
BMS003_03474	939			hypothetical protein	ATGGCAGAATTAATAGACGGGTTATACCTGAACAAATTTGTAGCCCCACAATTACTGAAGGAGTTTAAAAACTACAATGATAAATTTTTGGTGGCACTGGAACCGGCACCGGAAGGAGCTATTGCTGCAGACGGATTACGTCAAAATAAGCTGATTAATAATGTTGGGTTTTATGTCAATAATACGGCTCCCTTCACCGCAAAATCAATGTCCGGTAAAAACAATATTATCCCGTGGGATAAACTGGATACCGACCCGACAAAGGTAACAGACGCGGAGGTCAGGGCTTTAGCTTTTGACAAAAGAGCTGAGGTGCGTGTAAAACATTCTCAGGGATTCAGGATCGGGATCCGCGATTATGTGATGAACAAACTGGCACCCGCTGAGAATGTTTCGGGAGCGATGCCGGTACTCAGAACAACCGGAGCGGTATTTAACGGCAGAAAAAGACTGACGTTTCAAGATCTGATCAATTTCTATAATGAAATTGAAACCTTGAATCTGATTGATGACGATACCTCGGAATCCCCAAACTTTTGGAACATGATCCTAAACTCGGAACATCGTTCTGATCTTAAAATTGACAAGGCGGGAACCGCTAACCACAGGGATAATCTGGAATTTGACAAAGACACCGGCGAGTTCAAAAGGTTCTATAAAATGAGGATGTGGGAAAATAACGCGGCTCCGTTGTATTCTGCTACCGGAGAACTGAAAGCGCGTGGCGCAATCAGGGAAGACGGCGATCAATATGCTTCAACATTTTTCTATACACCAAATACGGTGTACCATCTGGAAAAATTAAAAATCCTTTATAAGCCTGAGTATCAGGACACCACTAATGCGGATCCCACTTCCGAGTTCAGATTACAGGCATACGGGCTTTGTGATAAAAAGCAAGAGTACGGGTTTGGAGCAATCATTTCTGATAACGGTTAA	MAELIDGLYLNKFVAPQLLKEFKNYNDKFLVALEPAPEGAIAADGLRQNKLINNVGFYVNNTAPFTAKSMSGKNNIIPWDKLDTDPTKVTDAEVRALAFDKRAEVRVKHSQGFRIGIRDYVMNKLAPAENVSGAMPVLRTTGAVFNGRKRLTFQDLINFYNEIETLNLIDDDTSESPNFWNMILNSEHRSDLKIDKAGTANHRDNLEFDKDTGEFKRFYKMRMWENNAAPLYSATGELKARGAIREDGDQYASTFFYTPNTVYHLEKLKILYKPEYQDTTNADPTSEFRLQAYGLCDKKQEYGFGAIISDNG				NA	NA	NA	NA	NA
BMS003_03475	1161	clpP_2		ATP-dependent Clp protease proteolytic subunit	ATGTCTAAAAAACCCTTCCATTATGAACTCAAAAATCAGGTTTCCGGCGGTGCCGAAATCAGGATGTATGGTTACATCGGAAAATATGATGAGTTCGACTATAAAAGGTTCCAACAGGCTTTTAGGGATGCATTGCAAAATAATAGTGATTTAACCATAAGAATGCACTGCGGGGGCGGTTCCGTGTATGAGGGACTCGCCATTTATGACCTGATCCTAAATTCAGAAGGACATACCAAAGTCATTGTCGAAGGGATGGCGGCATCAATGGGCGGGGTGATTGCCCTTGCCGGTGATGAAATCGAGATGAACGATAACGCCTTCTTTATGATGCACGCTGTAACAGCCGGATGTTTCGGAAATAAAAATGATTTTAAAAACGGGATTCAGCAGATTGAAAACTGCGAAGAAAGACTCGGAAAAATCTTTGGCGAAAGAACAAAAGCGGACGAAAAGACCATTAAAAACTGGTTCGATTCCGGGCAGGATCACTGGCTGAGTTCCGATAAGTGCTTAGAACTGGGAATTTGTGACCGGGTGATCAAGCCTGTCAAAAAAAGAAAGAATCAGGAGGATGCCGAAAACATCACAAACAAAACTCCGGAAGAAGCCTTTGAATGCTTTAACCTGTATCCTGAATCTCCTGAGGACAATAATATTAATCAACATACTGAAATGAAAAAGGAAGCAATTTTCGTCGCTTTAGCTGCGGCAGGATTGGCGGGAAAATTAACCGCTTCGTCTTCGGATAAAGAATTTGAACAGCATCTGGAAGAGCTGATTGGAAAAGCAAAAAGAACCGATACGCTCGAAAATGAGCTAAAGGCATTTAAGGAAACACAGGCGGAAGCCCTTATTTCCGGGGCTTTGAAATCCGGTAAGATCACCAATGCAGAAAAGGACGAATGGATCAAGGATGCCACCCAAAATTATGCACTTGTGGCGAAATCACTCGAAAGAATGTCCGGCAAACCTGATCCCAACGCAGGGCTGGAAAGACAAAAACCGGTAGTGGACGGAGATAAGCACGAACTGTTAAACGGACGTGAAAAATGGACGTTCTCCGACTGGCAGGAAAAGGATCCGAAAGGTCTGGAAAGGCTTAATGAAGAAGCCAAAGAAGAATTTGAAAAATTGTTTAACGCTGAATTTGAAGACTAA	MSKKPFHYELKNQVSGGAEIRMYGYIGKYDEFDYKRFQQAFRDALQNNSDLTIRMHCGGGSVYEGLAIYDLILNSEGHTKVIVEGMAASMGGVIALAGDEIEMNDNAFFMMHAVTAGCFGNKNDFKNGIQQIENCEERLGKIFGERTKADEKTIKNWFDSGQDHWLSSDKCLELGICDRVIKPVKKRKNQEDAENITNKTPEEAFECFNLYPESPEDNNINQHTEMKKEAIFVALAAAGLAGKLTASSSDKEFEQHLEELIGKAKRTDTLENELKAFKETQAEALISGALKSGKITNAEKDEWIKDATQNYALVAKSLERMSGKPDPNAGLERQKPVVDGDKHELLNGREKWTFSDWQEKDPKGLERLNEEAKEEFEKLFNAEFED	PGPT0014595_92	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS003_03476	432			hypothetical protein	ATGAATGAAAAGAAAAAGCTGACCAATGACGAGAAATATGCCATTGCGCAGGACTTGTTTTTGGAAACGGACAAAACACAGAAAGAAATAGCAGAAATCATTCACGTTACAGAAAAAACATTGGGCAAATGGAAAACCGAGGGTGACTGGGATTTGCTTAAAAGCGCATCAACGGTTACCGCCCGAAAGATTATTGAAAACCTGTATAAAAAGGCGCACGCCCTGAGTGAAGATCCAAAGAGTAAACCCAATGATATTATCCAGATTGCCAACAGTATTGAAAAGCTGTCGAATAAAAAAGTAACCATCAGCCAGATCATTAATGTATTTAAGGATTTCACGACGTACGCCTTTACTCAGGACGCGGAACTGGCAAAGGAAATCAATCTGCTGCAAAAAAAATACGTGGACTATAAAATCGGGGAAAAGTAA	MNEKKKLTNDEKYAIAQDLFLETDKTQKEIAEIIHVTEKTLGKWKTEGDWDLLKSASTVTARKIIENLYKKAHALSEDPKSKPNDIIQIANSIEKLSNKKVTISQIINVFKDFTTYAFTQDAELAKEINLLQKKYVDYKIGEK				NA	NA	NA	NA	NA
BMS003_03477	1551			hypothetical protein	ATGTCGGCATCTACCATCACAAAAAGGGATTATAACGAATGGTTAGAGTTCTGTTCACAGGTACAGAACAGTGCCGCCGTTGCCTTCAATGATACGGAGGAAACGCAAAAATTACGAATTAAAAGGGCATTAACCGACTATAATTTTTTTGTTAAAACCTATTTTGAATTATACGCAGATGCTGATTGCGCGGATTTTCAGATTGAATTTGCCAACGCCTGCCTTGCGGATCCGAACTTTTTCGGGATTGCTGAATGGCCTCGAGAACACGCAAAATCCGTTCACCTGACCATTATTATACCCATGTGGCTCATTGCCCACGGACAGCTTACAGGTATGCTTTTAATGGGGAAAAATGAGGATGACGCGTGTAATCTGTTATCCGACCTTCAGGCGCAGCTGCAATACAATAAACTCTTTGCCCACGACTTTGGGGAGCAATACAATTTCGGATCATGGGAGGACGGAGACTTTACAACAAAAGACGGGATCCGATTCCTTGCCTTTGGTCGTGATCAGTCCCCGCGTGGGGCAAGGGAAAACGAAAAACGCCCCAATTACGGTGTGGTAGATGACGTGGACGATGACGACATTGTTCATAATCCGAAAAGGGTGGATAAGGTTGTTAAAAAGATTTTAGGAGCCATGTATTTTGCCCTCAGTATCAAAGGGGCGCGTTTCGCTATGGGCGGGAACCGTATTCACCATAATTCAATCCTTGCCAATATCGTAGGGGATACCAAACCCGGAGCTAAGAAAAGAGAGGGCATTTACCACTCCAAAGTAAAAGCCATCGAAAACGGAAAGCCGGCTTGGTGGCAGCGGTACTCATTACAGGAACTCCTGCGAAAAATTGCCAAGGCGGGAACCGTTCTTGCCAAGCAGGAATTTTTTCACGAAACGGATATTGAAGGGAAAATCTTTAAAAACAAATATTTCCGTTTTGCCAAACTTCCGCATCTCTCCAAAATGGATATCATCATCGGGTATTTTGATCCGAGTTTTGAAAACAGCCAGACCTCGGATTTTAAAGCGGTATCGGTTTGGGGACAGGACAAGTTCAAACGCTACTGTATTAAAAGGTTCACCCGACGCTGTGAACTGGAGGACGTTTTCGAGTGGATGATCAAAGTTGAGAAAAACCTGCCCCCCGGTGTGGGGATCATCTGGTACATGGAAAAACAATTTTACACCCGACCTGTAAAAAAAGCCCTCAGACGTGCCTGTAAAAAATACAAATACCCACTTAGTGTACTGACTGACGAAAGACAAAAACCCAATAAATACACTCGTATGGTAAGAATGGAGCCGGAATACTCCTCCGGAAACGTGGTTTACAATGTAGAGGAAGAAAACGATCCGGATATGGTGGAAGGAAACTTACAGGTCAAGGGAATAGAGCCGGGATATAATACCGCGGACGACGCTCCGGATGCCGACGAAGGCGCGTGGTTCTTCTTGGATCAGTTTGTTGTGTCTGATTCGGAAGACTGGGACGAAGATTCCCTCGGTATGGGAAAACACGAAAGAAACAATGATAATGCTTATTAA	MSASTITKRDYNEWLEFCSQVQNSAAVAFNDTEETQKLRIKRALTDYNFFVKTYFELYADADCADFQIEFANACLADPNFFGIAEWPREHAKSVHLTIIIPMWLIAHGQLTGMLLMGKNEDDACNLLSDLQAQLQYNKLFAHDFGEQYNFGSWEDGDFTTKDGIRFLAFGRDQSPRGARENEKRPNYGVVDDVDDDDIVHNPKRVDKVVKKILGAMYFALSIKGARFAMGGNRIHHNSILANIVGDTKPGAKKREGIYHSKVKAIENGKPAWWQRYSLQELLRKIAKAGTVLAKQEFFHETDIEGKIFKNKYFRFAKLPHLSKMDIIIGYFDPSFENSQTSDFKAVSVWGQDKFKRYCIKRFTRRCELEDVFEWMIKVEKNLPPGVGIIWYMEKQFYTRPVKKALRRACKKYKYPLSVLTDERQKPNKYTRMVRMEPEYSSGNVVYNVEEENDPDMVEGNLQVKGIEPGYNTADDAPDADEGAWFFLDQFVVSDSEDWDEDSLGMGKHERNNDNAY				NA	NA	NA	NA	NA
BMS003_03478	432			hypothetical protein	ATGCCTTTTTTAACAGAAACCGACTACGAAGTACAGATCCGGAACTGGATTAAACAAATTATTATCCAAAGGAAAGAAGATGTTCAGCACCAGGCTGAGCTTGCCGCTCAGGCGGAAATGGAAAGCTACCTGAGACAGCGGTATAATGTAGTAGAAATCTTTTCCGCTACCGGAGCCGATAGAAACGCGCTGATTATTATGTATATGGTTGACATCGCCATTTATCATTTACACGCTAATTCTGCGGGAGATGTCATTCCTGAGCTTAGGATTATCCGCTATAACGCCGCCAAAGACTGGCTCAAAGCTGTTGCCAAAGGAGATATTTCACCAGACTTGCCGGAAAAGCCCGACGAGGGGGAAGGCGGCGAGGGAACCGGAAGCCAGGTTATCGAATTTGGAAGCAACCCGAAATATTCGGAACGCTATTAA	MPFLTETDYEVQIRNWIKQIIIQRKEDVQHQAELAAQAEMESYLRQRYNVVEIFSATGADRNALIIMYMVDIAIYHLHANSAGDVIPELRIIRYNAAKDWLKAVAKGDISPDLPEKPDEGEGGEGTGSQVIEFGSNPKYSERY				NA	NA	NA	NA	NA
BMS003_03479	2448			hypothetical protein	ATGAAATTTAAAATACAGACGGTCACAGATTTTTTACATAATACCTTTGGTGGAAGTAAAGATAAAGATTATGAAAGAGCCGTCACCCAGATGGTGGATGCGATCAAGCGTCAGCGGACTTTGTACAATAAAGAAATCAAAGACTGGAAATTGGCAAAGGCGGTGGCAATGGATCCGATACTGCCACGCCGTAAAATGCTTATAGATATTATGGAGGAGGTTCTGGATGATCCCTTTATTTATGGGCGCAGTGAAACACGTAAGCTCAGGGTTTCCAATAAAAGCGCAGCTATCGTCGATAAAACCGGAGAAGTTGATGAAGAAAAAACAAAGCTCATACAAAAATTATGGTTCAAAAATCTGATCAAATATACCCTTGACAGTATTTATTTCAGCTATACATTGATGTACCCAAAGGAACTGGACGAACAAGGTTTTATTAAAAAACTGTCTTTTGTGTACCGGGATCATATTGTACCGGAAACAACCGAGCTTTTGATTAATCCTTATGATCTGCAGGGCGAAAACTTTACAGAAGGAAACCTTAAAAAGTGGACGCTTTGGGTGAATCATGAGCATTCCATCGGGCTTTTAAATAAGGCGATCCCGTTATGGATTTTTAAAAAGCATTCATGGCAAAACTGGGATGAGTTCGAGGAAATGTTCGGTATTCCGATGCGTACTGCAAAGGTGGCTTCCACCGATCCACGTGTAAAAAAAGAAGTTGATAAATGGTTAAAAGATTTGGGTTCCGCCGGATGGGCGCGATTCCCTGAAGGTGTGGAAATCGACATTAAGGAGTCCAACAGCCGCGACAGCTTCAATGTATTTAACGAAAAAAGAAAAGCCTGTAACGAAGAGCTTGCCAATCTTTTTGACGGAAATTCCGAAACGGCAAAAGATACCGGAAGTCGGGCTAAAACGGGAGAAATCATTAACGGAACTCAAAAGCTCATTACAATGGATGATGAAACCTTTGTGATGTTTTTTATCAATGATGATGTCTTGCCGTGGCTCCGCGGGTTGGGCTATCCTTTTGACGAAACCGACACCTGTATATGGAATGACAACGAAAAATTAACTCCGAAGGAAAGACTGGAAATTTTCAAGGGGGTAAAAGACTTAGGGTATAAAATCAAAAAGGAACAGATCGAAACCGAGCTGGATGTGGAAATTGTCGGAGAAATTTCCGGTGGTGAGCCGCCGCAGCCTATTCCACAAAACAGACGTAGAAATTTTAATACGCCTCAGGGGTTTGGAACCCCAGCCACTTGTGAAGGCTCAACCGGAGGATACACAGAACCTGCAAATGTTCGAGATATAACCCCGCAGGAAGAAAATTTTTTGCGGCAGCTGTATGAAAATCCCGGAACCATCAATTGGAGCTACAACGAATTTAAAGCATCGCATACTCCATTATTGGAGGCAATAAAACAGGGGTTCGGGAAAATGGACTTTGATTTTGACAGTACCGACCACCGCAGGATGAGGGTTTGGATGAATAATATACACCGGTTCGGAGTTGACAAAACGCAGGCGGAAGTCTACGAACTTAATGAGATGCTGAAGGATCCTGAAGTAAAAAGTTTTAACGATTTCAGAAATAAGGCAAAATCAGTATTTCCGAACTATAAGGAATTGTATTTGAGAACGGAATGGGATCACGCCAACGCCACCTCCAATATGGCGGCGCGGTATCTGGAAATGATGGACGACATAGAAATTGCGCCTTACTGGAGGTTGAATGCCATTATAGATGACGGAACGACTGTTATTTGCAGAAGTCTGGACGGGAAAGTCTTTGACAAAAGGGATCAAAATTCATGGAAATTCCTGCCCCCGCTTCATTGGAAATGTCGCACCGATGCTGAGGATATTTTCGATGATTACGACGGGGAAATTACAAGCTTTGACGGTGCCAAAGAAATTGATCCGGACGGTTGGGAAAGAATGCAGAAACAAGGATTTGATGTCAACTGGGGAGATAGTGATCAGGTCTTTACCCAAGCGCAAAGCTATTTAAAAAAGATGCCGAAAGATGCCACGCCTATTGATGTAGACGATTTGGGAATTACTGATTACGGGCTTTCAGAATGGGCAAAAGTCAAAAAAAATTCTTACCCGGAAAAAGCGGTTACCATTAAAAGCCATATTGATAAAACCGGAATGGCGCGAATTATTACCTCTGAAAATTTGCCGGTCTGGATTGATGCTGAAGCCTCAAAATTAGATGACCAACTATTTACCCAGATCAGGGAAACGCTCATGAAACCGGATGAGGTCTACTGGAGTGATTCCGGCAAAATTCCGCAGTCGGTATTTATACGATTTTATAAGGATGGAGCTTTTAAAGTGACCACCGAATCGGTGAAAGTAACCGATTTTGAATTGATCGCCGATGTGGATACAATCCGTAAAGGTTTGCTTGTCAATACCTCTAAAAAATAA	MKFKIQTVTDFLHNTFGGSKDKDYERAVTQMVDAIKRQRTLYNKEIKDWKLAKAVAMDPILPRRKMLIDIMEEVLDDPFIYGRSETRKLRVSNKSAAIVDKTGEVDEEKTKLIQKLWFKNLIKYTLDSIYFSYTLMYPKELDEQGFIKKLSFVYRDHIVPETTELLINPYDLQGENFTEGNLKKWTLWVNHEHSIGLLNKAIPLWIFKKHSWQNWDEFEEMFGIPMRTAKVASTDPRVKKEVDKWLKDLGSAGWARFPEGVEIDIKESNSRDSFNVFNEKRKACNEELANLFDGNSETAKDTGSRAKTGEIINGTQKLITMDDETFVMFFINDDVLPWLRGLGYPFDETDTCIWNDNEKLTPKERLEIFKGVKDLGYKIKKEQIETELDVEIVGEISGGEPPQPIPQNRRRNFNTPQGFGTPATCEGSTGGYTEPANVRDITPQEENFLRQLYENPGTINWSYNEFKASHTPLLEAIKQGFGKMDFDFDSTDHRRMRVWMNNIHRFGVDKTQAEVYELNEMLKDPEVKSFNDFRNKAKSVFPNYKELYLRTEWDHANATSNMAARYLEMMDDIEIAPYWRLNAIIDDGTTVICRSLDGKVFDKRDQNSWKFLPPLHWKCRTDAEDIFDDYDGEITSFDGAKEIDPDGWERMQKQGFDVNWGDSDQVFTQAQSYLKKMPKDATPIDVDDLGITDYGLSEWAKVKKNSYPEKAVTIKSHIDKTGMARIITSENLPVWIDAEASKLDDQLFTQIRETLMKPDEVYWSDSGKIPQSVFIRFYKDGAFKVTTESVKVTDFELIADVDTIRKGLLVNTSKK				NA	NA	NA	NA	NA
BMS003_03480	1917			hypothetical protein	ATGAACGGTTTACAATATGCTTTAGATTTAATTGACCGCTCCTTTAGTAACGGGATCAGCCGCGCACGAAATGAAACGCGGGGCTTGGATAATGCCGTGAATACGACCAATAACGGTATCGGGAGGTTAAGAAATACCGGACAAAGTACTTTTAGCAGTCTTGCACAATACGCCAAGACTGCCGGGATTGCCATTCTTGCCGCTTTGTCTGTGGGTGCGGTGATCAACTTCGGAAAAGAAATAACCGGTATTACTTCCAAATTCGAGGGAATGGAAAATGCCATTGTTTTTGCCTCCGGTCAGGAAGGGGCAAAAAACATGGCGTTTCTTGATACTACGATAAAAGACCTTAACCTTAATATGGAATCCTCCTATAAAGGATTTCAGACCTTAACCGGATCCCTCAAAGGGACTGCCCTCGAAGGACAGGCAACGCGGGATATTTTCGAAGCTGTCGGAATTGCTGCTTCGGTTATGAACCTGTCGGCTGAACAAAGTGAGGGAGCGTTCCTGGCTCTTTCACAAATGGCTTCCAAAGGGAAAGTTTCTGCCGAGGAACTCAGGGGGCAGTTGGGAGAAAGGATTCCGGGCGCACTCGGTATTGCCGCCCGTGCTATGGGAATGACGCAGGCACAGTTTAACGAAATGTTAGACAGTGGTAAAATTATGGCGGAGGATTTCCTGCCCAAATTTTCAAAAGAATTAAAAAACACTTTTGAGGGCGGCTTACCTGCAGCAATGAACTCGATGCAATCAGCGATCAACAGACAGGAAAATGCGTTAACACAGTTTAAGCTTAAAACCGGAGAAACATTCCGCCCCCTGATTATAGGAGTATTGGATGCCGGAAATTACCTGTTCGGGTTCCTCTCTGATATGATGAATTATACCGAGCCGGTTAAAAATGCACTTTCAGGTGTGGCGGAAGCTTTTCAGCCGGTGATTGATGCGATCCGAAATAATGGTTTTATACAGCTTTCAGGAGACACCAACTTTGCGAAATTGGCAATGGAAGGTATCGCTGGGGTGATCAGGTTTTTAACCCCGCTTCTGGAATTGCTTTTCAAAATCATTGGCGGGGTTGAAACCGCATTTAATTATGTCCGAAAAGCTTTAATGGAAAACATTACGGCAATGTATGAATCCGGTAACGTTGCTCAGTTCCTTTCCAATATTATGGGCGTTTTAACATGGGTATGGGAATTAATTGCCCCGGCGATCAGCTACGTAGGAGAAATACTGGGCGTTGTGATCGGCGTTGTTTTTAAAGCCGTAGACGCGATTCTCGGAGTTATTAATGCCATATATGAATGGGGTAAAAAAACGGTCTGGGTACAGCGTTTATTAAATGCTTTGGTCGGAGTGGTTCATTCCGTATTTAAAAGCATTAAGGATATTGCGGTTAATATTTTAGGAGGTGTGGGCGATTTGCTCGTGGGCATTTTTACCCTTGATACGGATAAAATAAAATCAGCACTTTCTAAAGGCTTTAATGTTATAAAAGAAACCGGAATTTTAATTCCTAATGCCATGAAAGGAGCTTATGAAGGTTTGAACAAAGAACTGGAGAAACCGGTTAAAAAAGCCGTTAAGATCACCACCCAAAATAAGGTAACTACTCCTGCCGGTGTTCCGCCGCCTTCCGGCTTGGTTCCACCGGGTGGAAAACCTGCCGCAGCTTTGGATCCACAAACCGGAGGAAGTGCGAAAGGTAAAAAGGACAAAGCCAAAAATTCCTTGTCAGGAGCCGGAACCGGCGGGGATGGTAAAAAAATGATTTTTAATATTCAGTCTTTTGTTAAGGAACTCACTATTAAGACTACCAACATCAAAGAAAACCCGCAGGAGATCAGGAAAATACTGGAACAGATATTTAATGAAATGATCGCCGATATAGAAATCAGAGCCAATGCGTAA	MNGLQYALDLIDRSFSNGISRARNETRGLDNAVNTTNNGIGRLRNTGQSTFSSLAQYAKTAGIAILAALSVGAVINFGKEITGITSKFEGMENAIVFASGQEGAKNMAFLDTTIKDLNLNMESSYKGFQTLTGSLKGTALEGQATRDIFEAVGIAASVMNLSAEQSEGAFLALSQMASKGKVSAEELRGQLGERIPGALGIAARAMGMTQAQFNEMLDSGKIMAEDFLPKFSKELKNTFEGGLPAAMNSMQSAINRQENALTQFKLKTGETFRPLIIGVLDAGNYLFGFLSDMMNYTEPVKNALSGVAEAFQPVIDAIRNNGFIQLSGDTNFAKLAMEGIAGVIRFLTPLLELLFKIIGGVETAFNYVRKALMENITAMYESGNVAQFLSNIMGVLTWVWELIAPAISYVGEILGVVIGVVFKAVDAILGVINAIYEWGKKTVWVQRLLNALVGVVHSVFKSIKDIAVNILGGVGDLLVGIFTLDTDKIKSALSKGFNVIKETGILIPNAMKGAYEGLNKELEKPVKKAVKITTQNKVTTPAGVPPPSGLVPPGGKPAAALDPQTGGSAKGKKDKAKNSLSGAGTGGDGKKMIFNIQSFVKELTIKTTNIKENPQEIRKILEQIFNEMIADIEIRANA				NA	NA	NA	NA	NA
BMS003_03481	510			hypothetical protein	ATGCGTAACCAGAATAACGCTCAGGAGTTTGACAGACTCCGCGCAAAATACAGGAATTTTAAAAGAACCATTCCGCAGAAAGCCGCCATTACAATGGTGAATTTCTTTAAACGAAATTTTAACGTTGGCGGCTTTGTGGATGTTCCTTTCCAGAAATGGAAAAAAAGCAGCTATCCCGGAGCGAGAACCACAATGGTACGTTCCGGGAATACCCGAAGGGAAATTAAAAAAATACAGGTTTCGGAATCGCGTGTTGTTGTGGGAATTGGGAATCATAACCATTATGCCAAAATCCATAATGAAGGTGGAAAAATTCTGATCACCCCAAAGATGCGCAGGTTCTTCTGGGCAAAATATAAGGAATCAGGAAAGGAGTACTGGAAATGGCTCGCCCTGACAACAAAAACACATATTGATATCCCACAGCGAAAATTTATTGGCGATTCAAAGGCACTCGAAAAAACGTTGGATCGTATGTTAATATCAGAACTTAAAAAAATAATATCATGA	MRNQNNAQEFDRLRAKYRNFKRTIPQKAAITMVNFFKRNFNVGGFVDVPFQKWKKSSYPGARTTMVRSGNTRREIKKIQVSESRVVVGIGNHNHYAKIHNEGGKILITPKMRRFFWAKYKESGKEYWKWLALTTKTHIDIPQRKFIGDSKALEKTLDRMLISELKKIIS				NA	NA	NA	NA	NA
BMS003_03482	552			hypothetical protein	ATGAGCATAAAAGGAATTGTATTCAAAGAAATATCCGACCATCTGGAAGCTCAGGTGGAGGAACTGATCTATATAGATAAAGACCGCGGGCAGGTTGAAAAGGAAAATATTGTCATGGTTCCGAAACCCGCTGTTTTAATCGCGTTTATGCGTTTCGAGTGGTCAGACATCGGGAACGGGATTAAAGAGGGAAAAGGCATTGTCCGTGTACGTGTAATTTGTGAGAATTATGCGGAAAGTTATACGGGGAGTATTGACCAGGAACTGGCATTGGCTTTTTTTGATCTTAACGAAAAAGTGGATGCCGCATTGGAAGGCTTGAGCGGTACAAAATTCAGTAAGTTAAAAAAGGTGGCTGACGAGGACGACTTGGATCATAACAATGTTATCGTGACGGTTTACGAATATGAAGCCACCATTACCGATGATACGAAAGCGAATTGTTCCCAAATGATAAAGATTGATGCCGAGCCCATTGTGAAGTATGTTGCAAAAGAAAACCTGCCGGAAAGGCAGATTAATATTCAATCGGATTTTATTATTAAAACGTGA	MSIKGIVFKEISDHLEAQVEELIYIDKDRGQVEKENIVMVPKPAVLIAFMRFEWSDIGNGIKEGKGIVRVRVICENYAESYTGSIDQELALAFFDLNEKVDAALEGLSGTKFSKLKKVADEDDLDHNNVIVTVYEYEATITDDTKANCSQMIKIDAEPIVKYVAKENLPERQINIQSDFIIKT				NA	NA	NA	NA	NA
BMS003_03483	522			hypothetical protein	ATGAAAAAACTACTATTCTTTTTATTGCTTCCCTTGTTAAGTTTCTCTCAAACATCATTAAGTGATGCTGATATTAGCGCGGCAGCAGGGAATGAATACGAAACATTGTTAACTAATATTGGAATAGATCGTGAAGGAGGATTTGCAATCAATCATTATTTACATAAAATGGGGTTTACTCCGGATGAAAAGTTTACGCAACATGGCGAAATTTTTAAACAAAAATATGTACAACAAATTGTATCGGGAAACGCAAAACCTGCAGTAATATGGGTAAATTATTTAAATAAGAAAATTAAAGGATATGATTTTCCTGTTACACAAAAAGTAGATATTTCAGGCGATACTGAGAGCATTATTAAATTTTACGTAAACTTTTGGAGTCGTGCTATAAACTTCAAAGATACCAAGCCGGGGGAAACAGTTACCACACGTTTTTTATCCGATGTTGCCGCACTTTCAGTTGGAACAAACGGTCAGTCTAAAATAGTGGTAACTACAGCAAAAGATTATTATAAATAA	MKKLLFFLLLPLLSFSQTSLSDADISAAAGNEYETLLTNIGIDREGGFAINHYLHKMGFTPDEKFTQHGEIFKQKYVQQIVSGNAKPAVIWVNYLNKKIKGYDFPVTQKVDISGDTESIIKFYVNFWSRAINFKDTKPGETVTTRFLSDVAALSVGTNGQSKIVVTTAKDYYK				NA	NA	NA	NA	NA
BMS003_03484	1545			hypothetical protein	ATGAAAAAAAATTACACAGTCGCACTATTCCTGTGCGTATTCCTGGGCATATCAGCTCAGGAGCAGGTGGTCTGGCAAAAAGACATCCCATCCTCTACGCAGGATTTCCTAAGCCAGGTGACCACAACCATTGACGGACAATATCTCATTTCAGGTAGCTCCATTCAATCGGGCAAAGTTCAGACAGAAAGTAAGCAGAACAAGGGTTACGACTATCATTTGATCAAACTCAACCAAAATGGAGAGCAGGTTTTTGAAAAATATTTTTCCGGAAATAACCATGATTTCCTTACGGCTACGGTGGCAACCCAAGATGGCGGGTTTCTTCTCTCAGGGACGAGTTTCTCAGGGAAAAGTGGAGATAAAAAGGATAATTCTAAAGGGTCATCAGATTTTTGGTTAGTAAGGATTAACGAATTTGGGGACGAAATCTGGCAAAAAACAATCGGTACTCCGGCAGATGAAGAAGCGAGATCGGTAATTCAAACTACCGACTTAGGATTTTTCGTTGCGGGAAACGTACAAAACTCAGCAAAAGGCTATGGTTCCAAAGATGTCTTAATAGTAAGACTGGATAAATACGGTAAAGAATTATCTCAGCTTATTTTAGGCGGACGCGGACTCGATGAGGTAGAAAAAATGATCCCGACAAAAGATGGTGGTGCCTTATTGGGAGTTTATTCCAGAAGTAATGCAGGAGGATCAAAAAAGACCGAAAATTACGGCGAGGGGGATTATTATATTATCAAATTAGATAAAAATAATAAGGTTCTGTGGGAAAAAAACTACGGTGGAAAAGGTGACGACCACCCAAGAACCTTAGCCTTAACCTCATCTGGATATGTTATCGGTGGTGAATCGAGAAGCCCTATTTCAGGTAACAAATCTGTTGGAATTGAAGAGGGAACTGATTTATGGCTTGTTGCTTTGGACGAAAATGGAAATGAAGAGTGGCAAAAATCCTACAATTTCGGAAATCGTGATATTTTGATGGGGATGAGTGTTCTACACAGTTCTGACGATAAAACTTCCAAAGGAATTTTACTTGGAGGCTATACGCAAGCGGAAGGAAGAATAGAAAATAACGACGAGACTTTTTGGCTACTCTATGTAAATCAGGAAGGAACCGAAGAATGGCGTAAGTACATTAAAGGCGAATCAAAACAGCGTGAAGAAAGGTTATCTGACATCAAACTCAATAGAGATGGCTCAATTTTGATTGCAGGTACGAGTGCGGAGGAATTGGGGAAAGAGAACTGGAAAATTGTAAAGCTGGGTGATAAGCAGATCGACCAGCTGATCGAAAAACAGGATATTAAAATCTATCCGAACCCGGTATCGGATTATACCTACGTTGAAATTGGTTATGATTTTAAAAATGCTGAGATAATGCTGTATGATATGGGCGGAAGACAACTTCAGAATGTAACCACTAAAAACAAGGTAACCAAGATCAATACCCAGCCATTAATACAGGGAGCTTACCTGATCTATATCAAAACGGATACAAATAAAACGGCAAATGCTAAACTTATAAAAAAATAA	MKKNYTVALFLCVFLGISAQEQVVWQKDIPSSTQDFLSQVTTTIDGQYLISGSSIQSGKVQTESKQNKGYDYHLIKLNQNGEQVFEKYFSGNNHDFLTATVATQDGGFLLSGTSFSGKSGDKKDNSKGSSDFWLVRINEFGDEIWQKTIGTPADEEARSVIQTTDLGFFVAGNVQNSAKGYGSKDVLIVRLDKYGKELSQLILGGRGLDEVEKMIPTKDGGALLGVYSRSNAGGSKKTENYGEGDYYIIKLDKNNKVLWEKNYGGKGDDHPRTLALTSSGYVIGGESRSPISGNKSVGIEEGTDLWLVALDENGNEEWQKSYNFGNRDILMGMSVLHSSDDKTSKGILLGGYTQAEGRIENNDETFWLLYVNQEGTEEWRKYIKGESKQREERLSDIKLNRDGSILIAGTSAEELGKENWKIVKLGDKQIDQLIEKQDIKIYPNPVSDYTYVEIGYDFKNAEIMLYDMGGRQLQNVTTKNKVTKINTQPLIQGAYLIYIKTDTNKTANAKLIKK				NA	NA	NA	NA	NA
BMS003_03485	2868			hypothetical protein	ATGAAAAAAATTGTTACGCTATTGAGCATAATAGCAGGGATTGTTTCTGTACCCGTATGGGGGCAGCAGCAGCCCATATCAGATATTAATTTTGGAGACTTACCAAGGCCGGTGCCCTCGGTTTCTTCCTTGATCAGCTATACAGAAGCTCCGGTATCCCTCGCAACGGGGGTTCCCGATATTAAGCTCCCTTTACTGGGGTTATCTTCCATTGATAAAAATATAGGTACAAGCCTGGCATTACAATATCACCCATTAAATATGAATGGGGAGGAAGCCGGAAGTGAAGTTGGAATTGGATGGTCAATGTTTGCAGGTGGCGTTATATCAAGGGAAGTAGTGGATGAATTGGATGAACGGTACGACGATGCAGGTTTTATTGGTTACAAAAAAAATAAATTTAACGATATATACTATTATAATTTGCCGGGTATCTCAGGAAAATTTAAGATTGAAAGGAATACAGACAATAATACCTTTCAGGTTGTTAATCTCACTCCCAATAACATTAAAATTGAATATACCAGAAACAGCAATACTGCGACATTGATTGTAAACTCATTTACCATAACCGATGATAACGGGTATAAATATATATTTAATGATTTTAGCCAAAACAGAAGTTATACGCATCCTCTTTTATCCGGGACATTATTTAAATCGGCTTTTTACCTGACCCAAATTAAAAATTCGGATAATGTTGAGCTTTTAAGCTTTACCTATCAAAAAGACAATAAAAATAAGCCGGGTACCAGTGAACTACTGTATCAGTCCTGTAAATTAAAGACGATTACCTCTCCGGGTATGGGTTCTATAGCCATTGATTATAATTATGATGCCTCTTTAGAAGGCACGATGAACGACCCCTACAGCATTACAAAAGTTTCCCTTAAAAATAATACCGGGGGAATGGTTTCACAATATGGTTTTGATTATTCAATTCAGGTGGAAAATAAAAGGACTTTGACCCGAATTAATAAAACTAATCTATCCAATCCTACGGGAACCCCACTGGAAACGACAAAGCTGTTATACACCGATTATCATTTTAATAATGTATCAGGGGACAGGGTGTGTTCTTCGGAACCTCAAAACCCGGTTAACAATTCCGTAGGTACTCTGTACCGGGTTATTTTACCAACAGGAGGAATGGTAGAATATAACTTTGAGGCGAACCAATATTATGCTAACAAAAACACTCCGGATTATGTAACCCCGGAAAGCTTTTCAGATCCGGAAGTTCAGTTTATTCAATCTTTTGCAGGAATAAGTTTTGATGTTCCCAGTGGCCAGACAAAAACATATACCTTTCAGGTGACGGGAGAGCCGGGCAAACTGAAGAAAATATATGTAGACTTCGATGCGGATAAATACTATCCTTCTTTTGGGCCTGCAGATCCCCAGTCTTTTGTTGATTACGTAATTGATAATGACCCTTATCTTGCAGGTACGTGCTACAGCTATAATGATGAAGCATTGGAAGGCAGAGCATGGTCATTTAAAACTTTATATTTAATGCCCGGAACTCACTCGGTTAAAATCACCGGAACCGGAGGACACGGGATGATCACCCTTTCAGATATAGGAAATAAGCCTACACCATATAAAAATGCGGTAAGCAATGACAAAAAACTGGGAATCCGCATTAAGGATATTAAATATTATAATTCCGCATCGGATTTTCAACCGAAAAAAACAGTTGCCTACGATTATAGTGTCTTTAACGACTCCAACAGTTCAAGCGGCTATCGTTTTTATCCTGAAATGGAAAGCTCTACATCAGATTATACTCCTGTAGTTATTTATAAAAATGTAAAGGTGACCAATGACAATGATAATGGATATGTTAATTATTATTTTAAAAATCCTAATGACTACCCGAAAACCCCTTACACCTACAATGGCAGCAGTACCAACTTCTGGCCGTACTACAATATAACCAAATCAGGGGTAATGGAGAAAAAAGAAGTTTTCAATAATCAGAATCAATTAGTTTCTTCTGTTAATTACGATTTTACCTTTGAAACCTTAAACCAGATGCCGGAAGTAACGGTGGATGGCGGAGTGACTAAAAAAGCGTATGTCAAAAGTACAAAAGTCATTACAAAAGACTATACCGGAATTAACAGGCTTGTGGAAAGTAAAGTAGAAACCGAATTTAATTCTGTCAATTTTAAAGTGGCATCAGTAAAAGAAATTTCATCGGACGGGAATATTACTGAAAAAATGATTACCTATTCCGGAGGTTCTGCAGAATACCAGAATTTAGAAAATGCTTACATGACAGGCCTCCCTATAAAAACGGAAGTTAAAAACAATGGGAAACTGGTTTCAAATACCGTGGTAAAATATGAAAATCCCGGGAACTTATATCCGTCTTCTGTAGTAAGCATTAACCCGAATGACAGCAGCAATAAGGTAACTATAAAATATGACGATTACGATGCTAAAGGGAATGTGAGACAATTTACCTCTAACTATAATGGGGCCACAGGAGCGGGAACCCCGACTGTTATTATCTGGGGGTATAACCAGAGCTTCCCGATTGCAAAAATAGAAGGGGCAAAATTGTCGGATATTGGAAACCTTGCAGATGATATTATCCTGAAATCCAATGCGGATACAGATGCTTCTTCAGAAACCGCATTGATAAACGCACTGGATAGCTTCAGAAGTTTGCCTGCATTGCGAAATGCCAGTATTACAACGTTCACCTATGATCCTTTAGTAGGGGCAACAACCGTAACACCTCCTACCGGGCTCAGAGAGATTTATAAATATGATACAAACGGAAGGTTAATTTCGGTAGTGGATGTTAACGGAAACATCATCAAAGATTATAAATATAATACAAAACCACAGCTATAA	MKKIVTLLSIIAGIVSVPVWGQQQPISDINFGDLPRPVPSVSSLISYTEAPVSLATGVPDIKLPLLGLSSIDKNIGTSLALQYHPLNMNGEEAGSEVGIGWSMFAGGVISREVVDELDERYDDAGFIGYKKNKFNDIYYYNLPGISGKFKIERNTDNNTFQVVNLTPNNIKIEYTRNSNTATLIVNSFTITDDNGYKYIFNDFSQNRSYTHPLLSGTLFKSAFYLTQIKNSDNVELLSFTYQKDNKNKPGTSELLYQSCKLKTITSPGMGSIAIDYNYDASLEGTMNDPYSITKVSLKNNTGGMVSQYGFDYSIQVENKRTLTRINKTNLSNPTGTPLETTKLLYTDYHFNNVSGDRVCSSEPQNPVNNSVGTLYRVILPTGGMVEYNFEANQYYANKNTPDYVTPESFSDPEVQFIQSFAGISFDVPSGQTKTYTFQVTGEPGKLKKIYVDFDADKYYPSFGPADPQSFVDYVIDNDPYLAGTCYSYNDEALEGRAWSFKTLYLMPGTHSVKITGTGGHGMITLSDIGNKPTPYKNAVSNDKKLGIRIKDIKYYNSASDFQPKKTVAYDYSVFNDSNSSSGYRFYPEMESSTSDYTPVVIYKNVKVTNDNDNGYVNYYFKNPNDYPKTPYTYNGSSTNFWPYYNITKSGVMEKKEVFNNQNQLVSSVNYDFTFETLNQMPEVTVDGGVTKKAYVKSTKVITKDYTGINRLVESKVETEFNSVNFKVASVKEISSDGNITEKMITYSGGSAEYQNLENAYMTGLPIKTEVKNNGKLVSNTVVKYENPGNLYPSSVVSINPNDSSNKVTIKYDDYDAKGNVRQFTSNYNGATGAGTPTVIIWGYNQSFPIAKIEGAKLSDIGNLADDIILKSNADTDASSETALINALDSFRSLPALRNASITTFTYDPLVGATTVTPPTGLREIYKYDTNGRLISVVDVNGNIIKDYKYNTKPQL				NA	NA	NA	NA	NA
BMS003_03486	3879			hypothetical protein	ATGAAAAAAATTATATCCATCATATCGTTTCTTGTTGTGGCTTTGTTTCATGCGCAGAGTTTAACAAACACGGAAAATTACATATACAGCAGAACCTACCTGGAGCCTGTTACTTCGGAGCAGCCTAATGCCGCTCAGGTTCAGGGCGTCCAGTATCTTGACGGATTGGGAAGGACAACCCAAAGTATTGCCATCAAAGCATCTCCCTCCGGAAAAGACCTGATTGTTCCTTCTGTTTACGATCAGTCAGGAAGGCAACCGAAAAACTTTTTACCCCAGCCTGTAGACACTCAAAACGGAGCCTATATACCGGGAATTGGAGAAAGCTCAATAAATGCGTATTACGGGGTTTCCAATGCATATTCGGAAGTCTTGTATGAGAAATCACCATTGGCAAGGATTGTAAAATCGGCAGCTCCCGGAACGGATTGGCAGATAAGCGGTACGCACACCAAAAAAATGGAATATCTTTCCAACGATGCCGGTGAAGTTAAAAAATATAAGGCATCAACAAGCTGGAATACTTCATCACAAATCAACGATGTTTCCATTGCTGTTGCTCCTGATGATTCTTATACAACAAACGGGTATTATAACGCCAATACATTGTATAAAATGGTGGCTAAAGATGAAAACGATAATGAAACCCAAACATTCGTTAACTCTAAAAAACAGACGCTGTTAGTCCGTAAAATCAATAAAAAGCCAAACGGGGCTACAGAAAATCTGGATACGTATTACGTATATGATGCCTTTGATAACCTTTCACTGGTCATTCCGCCTAAAGCAGCTGTTTCTGCATTAACAACAGATGTCATAAACAATTTATGTTACCAGTATAAATATGATAAATACAACAGGGTTGCGGAAAAGAAAATTCCGGGAAAAGGATGGGAATACATGGTGTATGATCAGCAAGGCCGCGTAGTGCTTTCACAGGATGCCAACCTCAGGACAACCACCAACAGCTTTGCAAAAAGAGGCTGGCTATTCAACAAATATGACAAATTCGGAAGGATCGTCTATACCGGATTTTTTGCCAATACTACGGAAAGACAGGCGATGCAGGCCGCTTTGAATAACATGTCCGCCAATGCCAATAATAATGAAGTACCAAGTACAACACCGTTTACCCTGAACGGAATGGATGTGTACTATACAAAAACTGCCTTCCCAACAGGAAGCATGACGATCCTGGGAGTTAATTATTATGATGAATATCCTGTCGGTTCACCGGCACAGCCATCACAGATACAGAATCAGGCCACTTTAGCTTCAGCACCTACAGCTGTTACCTCTAACGGATTAAGTTCCATCAGAAGTACGAAATCACTTCCTACAGCAAGTTATACCAAAAATGTTGAAAACGATAGCTGGTCTTCCGCTTTTATCTGGTATGACACGATGGGAAGGGTGATTGGAACCTATAGTAAAAATCATTTGGGTGGATATTCTAAGACAGAAGCCGAGCTGGATTTTTCAGGGGCAACACTGAAATCTTATGTTTATCATGCAAGAAAAGCAGATGAACCGGGCGTAACCATCAAAGAACGTTTTGTATATGATTCTCAGAAAAGACTAAAGCAGCACTATCATCAGGTAGATGACAAACCGGAAGAATTATTGACAGAGAATACCTATAACGACCTTTCACAGGTTATTAATAAGAAGGTTGGAAATAATCTCCAAAGTATTGACTATAATTACAATATCAGAGGCTGGCTCACGGATATTAATAAAACCCAGATGGGCTTTGCTGATCTTGGAGGAAAATTATTTGCCTACAGAATTAAATACACACAGAAAGAAGGTATTGACAATCCTGATTCTTCACAATTCCCGGGAAAAAATGTAAGCCCGAGATACAACGGCAGCATTGCGGAAATAGACTGGAGAGCGGTGGAAACAGTAGGCGTAAACCCTTCTTTGACGCCAAAAAGATACGGTTATTCTTATGACAGCACGAACAGGCTTTTAGCAGGATACTACCAGAATCCAAACAATCCTTACAGTAAGGAAAATACAGAAGCATTGGATTATGACCTGAATGGGAATATCAGCAGCCTGTACAGGACTTCTGTTATGGAATACGGAAGCAACACAGCTACCGTAATTGATAATCTTGCCTATGCTTATTTGGGAAATCAGGTAACAAACATTACTGACGCCTCGCAAAATTTTGCCGGCTATCAGGGCGGGGGGACTCCCATCACCTATGACCAAAACGGGAATATGCTCAGTATGCCGGATAAAGGGATCTCATCCATCAAATACAATTACCTTGATCTTCCGAATTCTTTAGAGGCAAGTAAAAACGGTAATGAATATGTTTCTGTAAAAACATTATACAGTGCTGACGGACTCAAGCTGAGAAAAGAAAGTACAACTACTATTACCGGAATTGCGGGATCAACTACCTCGAAAAAGACAACGGATTATTTAGACGGGTTTCAGTATTTGACAACTGAAACCCCGAATACAGGAGGTGGAGGCTCTGAAATGCTGATGGCATCTTCATTATCTGAAAGAGCAATGCAGCCACAAGCTTTCTCTATTGCGGTACAAGGTCCTACGATTCAGCCTGTTGGAGGAAGCTTTACGACAAATTTAAAAACTCCCGATCTTCAATATTTTGCTACGGCAGAAGGGTATTATGATTACCAAAAAGATCAGTATATTTACCAGTACATAGACCAGTTGGGAAATGTAAGGGTTTCTTACGGAAGAAACAGTGCAGGCGTTCTTGAAATCACAGATAATAATGATTACTACCCTTTCGGGATGAATCATTTAAAATCCGGAAATGCTTATTTTGCACAGGGAAGCTATAAAAGCAATAAGTACAACAGTAAGGAGCTTCAGGAAACCGGAATGTACAGCTACGGCTGGAGGGAGTTTATGCCTGATATTGCTAAATGGAATGGTATAGACCAACTGGCGGAAGGTTATATTTCTGCAAGCCCGTATGCCTATGTGCTGAACAACCCCATCAATATGTTTGACCCGGATGGCAGGGAAACCGCGCCGTGGATGGCCATGTGGGAGGCCACACCCGAGGGTACTAATTCGTATTGGTATAACAATGGTTCAGGATTTACCAGTTATGCTGGAGGCCCTAAAGGTGGCGGCGCAGGCGGTGGCCTTTCTTACGGCTCTACGGTAAGCTATGGAGGCATGTTTACTATGGGTGATGGAGTTTATACATTACCTCCAGTAATCATTAATGGGAGTGGAAATGCCAGTAACTGGAATAAGGGCGATAATTACTTCCCTAATATCTTTGCAATGGGGATGGCATTTAATCAATCCCTTGCAAGTTGGAACTATCGGAATGGTGGTGCGGATTCCTTTAAGCCAGTACTGCATAACGGCTCCGCTTATATGATGAGTGGTGATATGTTTGGTTTTACGGACTTATTAGGAGTGTTATTCTCAAGTATGAAGCCGGAAAACCGAGAAGCTGCAATGGGGCTGGCTGCAATCGCGATTATAACTACAAAAGGAAGGGCTGCACCCGCAATTTTGAAATCGGAATTAGCGATTGAAAAAGGAATATTGTCAACAGAGAGAGGAGCATTTTCTGTAGCAGATTGGACAAATTACCCTTCAGCCATACCTAAACCTACGGGACCTTTTAAAATACTTGAAGGGGCTGAATATGAGGCCGCAAGAAAGGCCGCTAATAAGGCTAATCAAGCAATAAGAAGAGCCAATCCTGAAGCTTATAAAGGGTTAGAAATTCATGAAATACATCCAGTCAAATATGGAGGAAGCGCAACCGATCCATTAAATAAGGTTGCAATTCCAAGAGAATATCATAGAAAAGTAGTTACACCTTGGTGGAATGATAATATGAGATCAATTAATAAAATACCTTAA	MKKIISIISFLVVALFHAQSLTNTENYIYSRTYLEPVTSEQPNAAQVQGVQYLDGLGRTTQSIAIKASPSGKDLIVPSVYDQSGRQPKNFLPQPVDTQNGAYIPGIGESSINAYYGVSNAYSEVLYEKSPLARIVKSAAPGTDWQISGTHTKKMEYLSNDAGEVKKYKASTSWNTSSQINDVSIAVAPDDSYTTNGYYNANTLYKMVAKDENDNETQTFVNSKKQTLLVRKINKKPNGATENLDTYYVYDAFDNLSLVIPPKAAVSALTTDVINNLCYQYKYDKYNRVAEKKIPGKGWEYMVYDQQGRVVLSQDANLRTTTNSFAKRGWLFNKYDKFGRIVYTGFFANTTERQAMQAALNNMSANANNNEVPSTTPFTLNGMDVYYTKTAFPTGSMTILGVNYYDEYPVGSPAQPSQIQNQATLASAPTAVTSNGLSSIRSTKSLPTASYTKNVENDSWSSAFIWYDTMGRVIGTYSKNHLGGYSKTEAELDFSGATLKSYVYHARKADEPGVTIKERFVYDSQKRLKQHYHQVDDKPEELLTENTYNDLSQVINKKVGNNLQSIDYNYNIRGWLTDINKTQMGFADLGGKLFAYRIKYTQKEGIDNPDSSQFPGKNVSPRYNGSIAEIDWRAVETVGVNPSLTPKRYGYSYDSTNRLLAGYYQNPNNPYSKENTEALDYDLNGNISSLYRTSVMEYGSNTATVIDNLAYAYLGNQVTNITDASQNFAGYQGGGTPITYDQNGNMLSMPDKGISSIKYNYLDLPNSLEASKNGNEYVSVKTLYSADGLKLRKESTTTITGIAGSTTSKKTTDYLDGFQYLTTETPNTGGGGSEMLMASSLSERAMQPQAFSIAVQGPTIQPVGGSFTTNLKTPDLQYFATAEGYYDYQKDQYIYQYIDQLGNVRVSYGRNSAGVLEITDNNDYYPFGMNHLKSGNAYFAQGSYKSNKYNSKELQETGMYSYGWREFMPDIAKWNGIDQLAEGYISASPYAYVLNNPINMFDPDGRETAPWMAMWEATPEGTNSYWYNNGSGFTSYAGGPKGGGAGGGLSYGSTVSYGGMFTMGDGVYTLPPVIINGSGNASNWNKGDNYFPNIFAMGMAFNQSLASWNYRNGGADSFKPVLHNGSAYMMSGDMFGFTDLLGVLFSSMKPENREAAMGLAAIAIITTKGRAAPAILKSELAIEKGILSTERGAFSVADWTNYPSAIPKPTGPFKILEGAEYEAARKAANKANQAIRRANPEAYKGLEIHEIHPVKYGGSATDPLNKVAIPREYHRKVVTPWWNDNMRSINKIP				NA	NA	NA	NA	NA
BMS003_03487	333			hypothetical protein	ATGAATGATAAATTTCAATTTTCAGAAGATTATGTTTCTTTTATGAAAAATTTACAAGACAACGAAATAAATTCTGAAAACGGATATATTGAATTATTTCCATTAGACGAATTAGAGGAAATTAATAATGATTACGAAACAGAAAAATTCGTTCCAAATTATATCGCTATTGGAACTAATGGTGGTGGTGTTGGGATATTCATTAATAAAGAAAATAATAGCATTTATTCAATACCATTTATAGGGATGCAAGAAAGTGATGCTATTTTACTTGCTAAATCATTTTCGGAATTTTTATATAAATTTGAAAATAATGAATTAGAAATAATATAA	MNDKFQFSEDYVSFMKNLQDNEINSENGYIELFPLDELEEINNDYETEKFVPNYIAIGTNGGGVGIFINKENNSIYSIPFIGMQESDAILLAKSFSEFLYKFENNELEII				NA	NA	NA	NA	NA
BMS003_03488	660			hypothetical protein	ATGAATATTGAAGAACTATTAAAAAGACCAATTAACGAATTGTCTGCAGAAGAAATGGAAGCCGTACTCAACCATAAAAGAAAAATGGAGGCTGATCGGCAGGAAAAAGAAAAGCGTGCCTATGAAGCTGAAAGGGACAGCGATATGGGAGAATTGATTGCCTTAGCACTTGAGGTTGAAAGCAAATCGTATTTATTAAAAAAACTTACTCATGCCAAGATGGAAAAACACCAGGAGAAATTAAATGAATACGGAAAAATCCGTAGCAATTCTAAAGGAGGATTTTCTTTGACGCATAGTGATAAAACAATCAGAATTAAACGCCGTCGCGATACACAGCCCACGTGGGACGAAAGAAGTACAAAGGCTTTGGAATTGATCCACGCATTCCTTTACGATACAGTAAAAAAGAGAGACAAAGATTTATTTGAAATGTTGATCGGATTTTTAGTAAAAAACAAAAAGGGTGATCTCGACTATGCAAGTGTAATGAATTTATTAAGCCATGAAACGCGTTTCGATGATCCAAGATGGAAAGAAGGGTTAAGGCTTTTAAAACAGAGTTACAGCAATTTTCTGAAAGGTTACCAATATGATTTCGAGAAACAGAATGAAGAGGGTAAATTTGAAAGAATAGAACTCAATTTCTCGGCTTTGTAA	MNIEELLKRPINELSAEEMEAVLNHKRKMEADRQEKEKRAYEAERDSDMGELIALALEVESKSYLLKKLTHAKMEKHQEKLNEYGKIRSNSKGGFSLTHSDKTIRIKRRRDTQPTWDERSTKALELIHAFLYDTVKKRDKDLFEMLIGFLVKNKKGDLDYASVMNLLSHETRFDDPRWKEGLRLLKQSYSNFLKGYQYDFEKQNEEGKFERIELNFSAL				NA	NA	NA	NA	NA
BMS003_03489	198			hypothetical protein	ATGGAAGCAACAGAATTATTGGATGAGATTTTGAAAAATTACACTTTAGCGACAACCGTCTCGCAGCAAATACAGGCTCATCAAAAGAATATAGCCCTTTTAAACGCCATATCAAAGAAAACCTATAATAAAGGATACTCGGACGGAAAACGCGATGGAAAAAAGGAAAAAATCGACAATCTTATACAGAAGAACTAA	MEATELLDEILKNYTLATTVSQQIQAHQKNIALLNAISKKTYNKGYSDGKRDGKKEKIDNLIQKN				NA	NA	NA	NA	NA
BMS003_03490	300			hypothetical protein	ATGAACAACGACATATTATTAAAAATTCTACAACTGGATAGCCTTGTCAGATTTTTAGACTGGACGGAACGGGTAAGGATCCATTTGTACAGAGGAGAAAAATTTAACTCTATAACACCAAAAATTCTGGCAGCGTATGAGTGGATCATCAATGAAAACTGGGAACCACCGGTGATGCATTACGGGGAAGACCGCTTTCAATATTTCCATGATCCGGAATTAGACCTGTGGGTTGAAACTGAAAATTATTTAAACTATTTCCCGGAATACAAACCGGAGTTAACCAAACTTATATTTTAG	MNNDILLKILQLDSLVRFLDWTERVRIHLYRGEKFNSITPKILAAYEWIINENWEPPVMHYGEDRFQYFHDPELDLWVETENYLNYFPEYKPELTKLIF				NA	NA	NA	NA	NA
BMS003_03491	615			hypothetical protein	ATGAAGGCACTATCAGTAAAACAAGCGTTTTCCATTGTGTTTAAACTGTTTGAATTTACTGGACTTTGGCTTCAAGCTTTTGGAAAACCGGAAACCACCGGTTTTTGGTACTTGGGTGGAGGAGAAAAGAACGGAAAATCAACTTTCGCCATGATGTTGGCTAAATACCTTACCACATTTGGAAAAGTGCTTTATATATCCGCAGAGGAAGGATTATCGAAGGACATTATCGCCGCTATGAAATTTGCGGGATTATCAGACAAAGACAAAAAATTTCACATTATAGATTACGAGCCGTGGGAGCAACTTCAGGCTCGTTTTAGCTCCCGAAAATGCGCTAAAATCATTTTTATAGATAATTCAACAATTTACAGGGACGAGATCACAAGGAAGATGGTATCAGAATTAAAACAGAACCATCCCAATAAATTAATAATAATGGTTTGCCACGAAGTAAAAGGACTGCCGGACAATGCTCTGGCAACAACTTGGAGAAAGCTCGCTAAAATCATTATTCAGGCAGAAGGGCTAAAAGCCATTATTTCCGGTAGATGTCCGGGAGGCACATTAATGATCAATGAAGAAAAAGCAAATCTTTATTGGGGAACAAAATAA	MKALSVKQAFSIVFKLFEFTGLWLQAFGKPETTGFWYLGGGEKNGKSTFAMMLAKYLTTFGKVLYISAEEGLSKDIIAAMKFAGLSDKDKKFHIIDYEPWEQLQARFSSRKCAKIIFIDNSTIYRDEITRKMVSELKQNHPNKLIIMVCHEVKGLPDNALATTWRKLAKIIIQAEGLKAIISGRCPGGTLMINEEKANLYWGTK				NA	NA	NA	NA	NA
BMS003_03492	924			hypothetical protein	ATGATAACATTAGAACAAAAACAAAACATCCGTACTGCAGTACTTAACGGCAGGGAAAAATTCAAAGGAACCGATACCGCCTACGCAAAATCATTAGGCATCGACAGCATGGCTTACGGTCAAATAAAAGATGGAATGATTGAGAATATATTGTCATTGGGACAATGGCTGAATATAGGCAGTAAATTCCAAACGGCAAAAAATGACTATGAAATGAAATTGGTAAAAACCGAGGTTTACCTTGCTATGGAAGACAACTTCAATTTTTGCCAAGCTACAAAAACATCAATGATTTTAGTTGATGACTGCGGGATCGGGAAAACGCGGTGCGCAATGGATATCGTTTCCAAAATGAAAAATGCCTTTTATGTGGACTGTTCTCAGTCGCAGACTAAAATACGCTTTGTAAAGCAACTCGCTACCGCCTTAGGCTGCGATACCACTGGAAAATATTATGACATCTTGGAAACGGTAAAATATGCCTTAAATATCATTGAAAACCCCTTTGTCTGTGTGGATGAGTTCGGAGATTTAGAATACAACGCTTATTTAGAATTAAAAGGGATCATGAACGCCACCAAGCATAACTGCACTTGGTACGCAATGGGAGCCGATGGGTTACGTGCAAAAATTACCAAAGGAATCAACAATCACAAAGTGGGCTTTGCGGAAATATTCAGCCGCCTTTCCGATGACTTCGTGACATTGGTTCCGAAAAACCCTGAGGAACGAAAAGAATTTTATTTAAAGCTGTTCGGGGACGTAGCCTATGTCAACCTAAAAAATAAAAATGAGGTTAACGAAGTGGTCAAAAAATGTATGGTCAAAGTCGCCAATCCATTTGAAGGAAAGCAAAAAGGAGAACAAGGCGGGCGCATCAAATCACTCAGATATTTAGAAACACTGTTAAAGGTCAGGGAATAA	MITLEQKQNIRTAVLNGREKFKGTDTAYAKSLGIDSMAYGQIKDGMIENILSLGQWLNIGSKFQTAKNDYEMKLVKTEVYLAMEDNFNFCQATKTSMILVDDCGIGKTRCAMDIVSKMKNAFYVDCSQSQTKIRFVKQLATALGCDTTGKYYDILETVKYALNIIENPFVCVDEFGDLEYNAYLELKGIMNATKHNCTWYAMGADGLRAKITKGINNHKVGFAEIFSRLSDDFVTLVPKNPEERKEFYLKLFGDVAYVNLKNKNEVNEVVKKCMVKVANPFEGKQKGEQGGRIKSLRYLETLLKVRE				NA	NA	NA	NA	NA
BMS003_03493	2052			hypothetical protein	ATGCCGCACGAATGGGGAAATTTATTAGTAGTTACGAAAGACGAGCTTATCCCAAAATACTATAATTGCATGAGTACTTTAAAGTCTGAAATTCACCGATACAAAGATTTGCCTTATGGAATCAAAAAGGTTCAAAAAGGAGGTAATGGCAGACAGATGTATATTGATTTTGATAGCCTGTCAAAAGAAGTACAGGACAGCATGGGTGATCCGCGCAAAATGAAACACCCTTTACTTTCATTTTTTGAATTTGATGCTACAGCAGTACGTTACTATACCGACTTCAGATTTGAGGACGGAACACCGTTAAAAGAAAGTTTCAAAGAGGAATATATCACCAATGCCAGTGTACTTATTGCTGCCGAAAGATTAAGACAGGCGCGTTTAACCGAGTGGAAAAAATTAAGAAAAACATCCGGGCGCGGGTTAATGCCCTCCATCATTACAGACATTACAACATTTAATGAGTTCCTGCCAAAAGTATATAACACCACCCACACCATACCTTCATCCCAGAGAGGATTTGACCGGGTTTGGAAACCTTTCTTTCATTCTTTTGACGAGGGGCTCAATTTTGAAAGCTTGATTTCCGGTAAACTGAAAAACCAGAACCGAAAATTAATGACTGACGAAATGATGGCTTTACTCAATGATATGTTTGCCGGACAGGATTATAAACCTTCCCGTACTCAGGTCGCCGATCAATATCAGGCTTTTTTAAACGGCGAACTGGATATTATCAGTAAAGAAACCGGAGAGGAATACGACCGTACCAATCCAAATTTCAGGGAAATGTCCGATAATTCAATTATTGCATGGCTTGGGAAATGGGAAAACAAGATCGGAACCTTTGCGAAGCGTTCCGGTGACCGTCAGAAATTGATGCAGGAGTTTACCCCACCACATAAGCTAACCAAAATTAAAGAAGCAGGAACGCTGATTTCCATAGACGACAGACAGCCTCCATTTATGTATAATGAAAACAGGAAACGTCCTTGGTTCTATATGGGTATTGATGTGGGAAGCGAAGCGTGGACTTGTTGGGTTTGGGGAAAGGATAAAAAAGGAATTATTATTGAGTTTTACCGCCAAATGGTCAGAAACTACTCAGAATGGGGCTTTAACCTTCCGCTTGGGTTGGAATGCGAAAGTTCACTAAACAGCGGATTTAAGGATACTTTCTTGCGTAACGGGGCAATGTTTGACCGAGTGAACATCTATAAGAACCGTGCAAGGTCAAAAGTTGTGGAGCGAAAATTTGAGGAATTAAGATACCGCCACGAAAAAAGCCGCTTAGGATGGATGGCAAGACCTCACGCCCTGAAAGAAGAAAATCAGAAAAGCGGAGAAGAAGAGGTCATCGTTCCTTTTGATGCCATTGTAGACCAATCACTCAGCGATATTGAAACGTGGAATAATATGCCCCATTCCGTTCACACCGATAAAACCCGTTGGGAAGTATTTTGTGAAATGCAGAACCAAAACACGCAGCCTACCAACTGGACAGCAATCCTTCCTCACATTGGTAAAACGGAAAAATCAAGCTGTAATGCCGGAATTATCAAATTCAGAAATACAACTTTTGTTTTAGGACTGGACGGCGAAATTGCGTTGAATGATGATTTAATAAGGCTCCTAAAGTATGTTAATGGCAAAGAGTTTACGATTTACTGGCTTGACGGGAACGATGGGAATGTTTTAAAAGCCATGATCTACTACGATGACATTATGCTTTGTGATTTAGTTCCACAGCCTGAATATTCAAGATCAATTCACGAAAGAGACGAGCAGGGCGAAATCAACCGCAGGTTAATGAGTGCATACGAAAACACTGTTAACAAATTCATGGCTCAGCGTAAACGTGAAATTGATCAGGTCTTAATTATCGACCACCGTAAAAAAACACTGAACAATAAATTTCAGATTGCAGGTCGTAATAAATATACTCCTAACAGTAATACACCGGAGGAAGTTTTCTCGGATGCTGAGGAAAGCAGCTACAACCACAACTCGAATACATCAACTGTGAGAAGTTGGGCAGCAAATTTTTAA	MPHEWGNLLVVTKDELIPKYYNCMSTLKSEIHRYKDLPYGIKKVQKGGNGRQMYIDFDSLSKEVQDSMGDPRKMKHPLLSFFEFDATAVRYYTDFRFEDGTPLKESFKEEYITNASVLIAAERLRQARLTEWKKLRKTSGRGLMPSIITDITTFNEFLPKVYNTTHTIPSSQRGFDRVWKPFFHSFDEGLNFESLISGKLKNQNRKLMTDEMMALLNDMFAGQDYKPSRTQVADQYQAFLNGELDIISKETGEEYDRTNPNFREMSDNSIIAWLGKWENKIGTFAKRSGDRQKLMQEFTPPHKLTKIKEAGTLISIDDRQPPFMYNENRKRPWFYMGIDVGSEAWTCWVWGKDKKGIIIEFYRQMVRNYSEWGFNLPLGLECESSLNSGFKDTFLRNGAMFDRVNIYKNRARSKVVERKFEELRYRHEKSRLGWMARPHALKEENQKSGEEEVIVPFDAIVDQSLSDIETWNNMPHSVHTDKTRWEVFCEMQNQNTQPTNWTAILPHIGKTEKSSCNAGIIKFRNTTFVLGLDGEIALNDDLIRLLKYVNGKEFTIYWLDGNDGNVLKAMIYYDDIMLCDLVPQPEYSRSIHERDEQGEINRRLMSAYENTVNKFMAQRKREIDQVLIIDHRKKTLNNKFQIAGRNKYTPNSNTPEEVFSDAEESSYNHNSNTSTVRSWAANF				NA	NA	NA	NA	NA
BMS003_03494	195			hypothetical protein	ATGGAAAATAAGCAAAAAGAGAAAATTTACTATGGAGATTATCAGCTACTTGGCGAAATGTTAGACGCTTCATCTCATGCCGCGCGGATGAGATATAAAAGAAACGAAAAAGAAGCGGTCAAAGTAATGAATATGATACATGAAAACCGAAAACGACTGGTTCGGGACTACAGAAAAAGTTTACAAATAGATTAG	MENKQKEKIYYGDYQLLGEMLDASSHAARMRYKRNEKEAVKVMNMIHENRKRLVRDYRKSLQID				NA	NA	NA	NA	NA
BMS003_03495	762			hypothetical protein	ATGAATTTACCTATTGAAAACCAAAGGGTTAAAAATGTTATAGATTATTTTTGCGATGGTAATGTATTGCGGTTCAGTAAAGAAATCGGAATTAGCCAACCAAGGATCAACAGATTATTTACAATTGATACCCGAAGTGGTAAATATCCACTTGTAAGTTTTGAAATAATACAGGCTATTATAAACAAGTTTATAAAAATTGATCCTGAATGGCTTATTGTTGGAAAAGGAGAAATGTTGAAGGAAAATATTAATAAATCAGAGGGATTAATAACACTTGAAAAAGCTAAAGAAATTTATGCACCAAGATTAATTCCGCTTTATGATGGTATAATTACGGCGGGGCAGGTAGAAGTGGATATGACACCAATTACGGATCCCGTTGAATTTATTGATGCGGGAGATTGGTTTCGGGATGCTACTGCAGCAATGAGGGTTCATGGTGACAGTATGCCAAGTTATACCGGCAGTATTGCAGCCTTAAAAGAAGTTTATGACAAATCCTTATTGATGTATGGTCAAGATTATGGAATAGAAACTTCTGAATATAGAACTTTGAAAAGAATACAAAAAGGTACAAAAAAAGAAACTTTATTACTTTGCTCTGATAACACTGAAAGATGGGAAGATGGATCAGAAAGAGGGCGTTTAATACATGAGCCATTTGAAGTAAAGGTTGATGATATAAGAAGAATATTCTTAGTGTTGGGTTGTGTAAGACGCAATCATAGTAGCAGAATTGTATATAATAATCGGAAATAG	MNLPIENQRVKNVIDYFCDGNVLRFSKEIGISQPRINRLFTIDTRSGKYPLVSFEIIQAIINKFIKIDPEWLIVGKGEMLKENINKSEGLITLEKAKEIYAPRLIPLYDGIITAGQVEVDMTPITDPVEFIDAGDWFRDATAAMRVHGDSMPSYTGSIAALKEVYDKSLLMYGQDYGIETSEYRTLKRIQKGTKKETLLLCSDNTERWEDGSERGRLIHEPFEVKVDDIRRIFLVLGCVRRNHSSRIVYNNRK				NA	NA	NA	NA	NA
BMS003_03496	174			hypothetical protein	ATGAATAAAAAATTACTATCGGTATGTCTGTTAATGACATTATTATTCTTTTTTTCATGTGAAAAAGAAAACCCACAGATAAAAAGTGGAATTTCAATTGAAACCATTTCAATTATAACGTGCGTTACTATGGGCTTAGGAATCTTGCTGGCTTATAGCGTTAAAAGAAGATAA	MNKKLLSVCLLMTLLFFFSCEKENPQIKSGISIETISIITCVTMGLGILLAYSVKRR				NA	NA	NA	NA	NA
BMS003_03497	2859	gcvP		Glycine dehydrogenase (decarboxylating)	ATGAATACAGAACAGTTTGTGAGCCGTCACATTTCCCTTAATGAAGCCGATAAACAGGCGATGTTGGAAAAACTTGGCGTTTCAAGTATTGAAGAGTTAATTTCTCAGACGATCCCATCTTCTATCCGTTTAGAAAAAGATCTTGAGATCTCGGAACCGCTTTCTGAATACGAAATGTTGAACCATTCAAAAGAATTGGCATCTAAAAATACAGATTATACGAGTTATATCGGTTTTGGATACCACAATACACTTTTACCTTCAGCAATCCAAAGAAACATTTTTGAAAATCCTAGCTGGTATACCGCTTATACGCCATACCAGGCAGAGATTGCACAGGGTAGACTTGAAGCTCTTCTTAATTTTCAGACTGTAGTATGTGATCTTACCGGTTTTGCATTGGCCAATGCATCTCTGCTGGATGAGTCTACTGCTGCGGCTGAAGCAATGCACATGTTCTTTAACAACAGAACAAAGGACCAGAAAAAAGCAGGAGCTAATAAGTTCTTCATTTCTGATCTTGTTCTTCCTCAGACAGTTTCTGTATTAAAAACAAAAGCAGAAGGATTAGAAATCGAAATCATAGTAGGAGATCATAAAACGCACCAGTTTGATGCATCTTATTATGGTATTCTATTGCAGTATCCTGGTAAAAACGGAATCGTTTTGGATTATACGGAAGATATTGTAGAATATAAAAAGTTTGATCTTCAGGTAGCAGTTGCCTGTGACCCTATGGCTTTGGTTAAGCTAAAATCTCCGGCAGAAATGGGTGCAGACTGTGCTGTAGGAACTACACAAAGATTTGGTATTCCATTAGGATACGGAGGACCTCACGCAGCTTTCTTTGCTTGTAGAGAAGAATATAAAAGAGATATTCCCGGAAGAATCATCGGAGTTTCTCAGGATATGTACGGAAGACGTGCACTAAGAATGGCTCTGCAGACAAGAGAGCAGCACATCAAAAGAGAAAAAGCTACTTCAAACATCTGTACAGCTCAGGTTCTGTTGGCAGTAATGGCAGGTATGTATGCTGTTTACCACGGACCAAAAGGGTTAAACTATATCGCAGACCAGATCCACTTTAAAGCAAATGCTTTGAAAAACGGTCTTAAGGCACTAGGATATCAGGTGGTTGAAGAACCTATCTTTGATACTGTAAAGATTACAATGCCTGAAGAAGAAAAAGCCAGATTAGTAAGACTGATGCTTGATCACAGATTAAATCTGAACTACTTCACAGAAGGTGTGGTAAGTATTGCGATCAATGAAAGTACAACATTAGAAAAATTAAACTATCTGATGGCTTCTTTCGCTCAGTTTAAAGATAAGCAGACTTTCAAATTAGAAATAAAAGAAGGTTACAGTATTCCGGAAGAAAACTTAAGAAAAGACGAAATTCTTACAGAATCTGTATTCAACAAATATCATACAGAAACAGAATTGATGCGTTACATCAAGCGTCTTGAGAGAAAAGACCTATCATTAACGCATTCAATGATTTCTTTAGGTTCTTGTACCATGAAACTGAATGCTGCTACCCAAATGTTACCGCTTTCGTGGGAAAACTGGGGGGCTGTTCATCCGTTTGTACCTGTTAACCAGGCTGAGGGATATCAGAAAATGATCCGTGAGCTGGAGAAAGACTTAGCAGAAATTACAGGTTTTGCAGGAACTTCCCTTCAGCCAAACTCCGGAGCTCAGGGTGAATATGCAGGATTAATGGTGATCAGAGAATATCACATTTCAAGAGGAGATCACCACAGAAACGTAGTACTGATCCCTCAGTCTGCGCACGGAACAAACCCAGCTTCTGCAGCAATGGCAGGAATGAAAATCGTTGTTGTGAAAAACCTTGAAAACGGGGAAATTGACTTCGAAGATCTTAAAGCTAAAACAGAACTTTATTCGGCAAACCTGTCTGCTGTAATGATCACTTATCCTTCTACTTACGGATTCTTTGATGCTAATATTAAAGAAATTACCAACCTTATCCACGAACACGGAGGGCAGGTGTATATGGATGGTGCGAATATGAATGCTCAGGTAGGATTTACAAGTCCTGGAAACATTGGAGCAGACGTTTGTCACCTTAACCTTCACAAAACTTTCGCAATTCCTCACGGAGGAGGAGGTCCCGGAGTAGGTCCAATCTGTGTTGCTAAGCACTTAGTACCTTTCCTTCCTTCTAACGCCAATATAAAAATCGGAGCTAAAGAAGCTATTGAGGGTATTTCTGCAGCACCTTACGGTTCAGGACTGATCCTTAACATTTCTTATTCTTACATCAAAATGTTAGGAACTGAAGGTCTCAAAAAGGCCACAGGACATGCGATCATGAATGCTAACTACCTGAAAGAAATTTTAGCAGAACATTTCCCAATCTTATATTCGAATGAAAACGGAAGAGTAGCTCACGAATGTATCGTAGATTTCCGTCAGTTCAAATCTTTAGGAATTGAAGTGGCTGATGTGGCGAAGAGATTGATGGATTATGGCTTCCATGCTCCTACAGTATCTTTCCCGGTTGCTGGTACCTTGATGATTGAGCCTACAGAATCTGAAAGTAAGGCTGAAATTGACCGTTTTGCAGAAGCATTGATCTCCATTAAAAAAGAAATCGATGAAATTGCCAACGGAGAAGCAGACGCTACCAACAACGTATTGAAAAACGCTCCTCACACAGAGCAACTGGTAATCTCAGACTCCTGGGATAAACCATACAGCAGAGAAAAGGCAGCTTATCCGTTAGAGTGGGTAAGAGACCACAAATTCTTCGCTTCTGTATCAAGAGTAGATGAAGCATACGGAGACCGAAACTTAGTATGTACTTGTGAGCCTATTGAAGCTTATATGTAA	MNTEQFVSRHISLNEADKQAMLEKLGVSSIEELISQTIPSSIRLEKDLEISEPLSEYEMLNHSKELASKNTDYTSYIGFGYHNTLLPSAIQRNIFENPSWYTAYTPYQAEIAQGRLEALLNFQTVVCDLTGFALANASLLDESTAAAEAMHMFFNNRTKDQKKAGANKFFISDLVLPQTVSVLKTKAEGLEIEIIVGDHKTHQFDASYYGILLQYPGKNGIVLDYTEDIVEYKKFDLQVAVACDPMALVKLKSPAEMGADCAVGTTQRFGIPLGYGGPHAAFFACREEYKRDIPGRIIGVSQDMYGRRALRMALQTREQHIKREKATSNICTAQVLLAVMAGMYAVYHGPKGLNYIADQIHFKANALKNGLKALGYQVVEEPIFDTVKITMPEEEKARLVRLMLDHRLNLNYFTEGVVSIAINESTTLEKLNYLMASFAQFKDKQTFKLEIKEGYSIPEENLRKDEILTESVFNKYHTETELMRYIKRLERKDLSLTHSMISLGSCTMKLNAATQMLPLSWENWGAVHPFVPVNQAEGYQKMIRELEKDLAEITGFAGTSLQPNSGAQGEYAGLMVIREYHISRGDHHRNVVLIPQSAHGTNPASAAMAGMKIVVVKNLENGEIDFEDLKAKTELYSANLSAVMITYPSTYGFFDANIKEITNLIHEHGGQVYMDGANMNAQVGFTSPGNIGADVCHLNLHKTFAIPHGGGGPGVGPICVAKHLVPFLPSNANIKIGAKEAIEGISAAPYGSGLILNISYSYIKMLGTEGLKKATGHAIMNANYLKEILAEHFPILYSNENGRVAHECIVDFRQFKSLGIEVADVAKRLMDYGFHAPTVSFPVAGTLMIEPTESESKAEIDRFAEALISIKKEIDEIANGEADATNNVLKNAPHTEQLVISDSWDKPYSREKAAYPLEWVRDHKFFASVSRVDEAYGDRNLVCTCEPIEAYM	PGPT0020480_2556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS003_03498	138			hypothetical protein	ATGACGAGAAAAAGAAAGAACGGAAATATTGTATCGGGATTTACAGCTATTGCATTAGTACTGATCCATACAGAGGCTTACACACAGATCACTATTGTCAATACAGATCCAGATTCATCCGGCAGAAAATACTTATAA	MTRKRKNGNIVSGFTAIALVLIHTEAYTQITIVNTDPDSSGRKYL				NA	NA	NA	NA	NA
BMS003_03499	648	dnaJ_4		Chaperone protein DnaJ	ATGAAAGATTACTACTATTTTCTCGGTATTTCCCAGGATGCTTCTGAAGAAGACGTCAAAAAAGCGTATCGGAAGCTTTCCTTAAAGTATCATCCCGATAAAAATGACAATGATGATTTCTTTGCAGACCGTTTCCGAGAGATTCAGGAAGCTTATGAAACCTTGAGTGACCCGGTCAGAAGACATGCCTATGATCAGAATCTGGAAAGCCACCAGCGAAGCTTCAGATATACCATTCTACCCGCAATTAAAACTTTTACTGCGAATAAGATTCATGCAAAAAAAGGAGAGGAAATCATCATCAGCTGGCAGACGAATAATGCAGATGTAGTAAAGGTGTTACCTTTCGGGTTAGAAAAGCCTTATGGCGAAAGGATCTTTAAGATCACAGAATTTAAAAACGGAAAATTCCAGCTTCTGCTTCATGCAACCAATTCTCATTTGCACAAAACCGTAGTTCAGGGAATTACCATTACAGAAGTTTTTGAAAATGATTCTGAAAAATTCAAAAATACGGTAGAGGAAATGTTTAAACCGCAACCAAGAACAAGAATCAATAAAACAGGTCAGCCTAAAATAATGATGCTGATCTGGGGAATAATCATTATAGCAATTGCTATTTATATGCTGGTCAGAAGTTTCAGCTGA	MKDYYYFLGISQDASEEDVKKAYRKLSLKYHPDKNDNDDFFADRFREIQEAYETLSDPVRRHAYDQNLESHQRSFRYTILPAIKTFTANKIHAKKGEEIIISWQTNNADVVKVLPFGLEKPYGERIFKITEFKNGKFQLLLHATNSHLHKTVVQGITITEVFENDSEKFKNTVEEMFKPQPRTRINKTGQPKIMMLIWGIIIIAIAIYMLVRSFS				NA	NA	NA	NA	NA
BMS003_03500	153			hypothetical protein	ATGCAGTTTGAAAAAACTTTAGCGCCCTTGCGTTTTCCAACTAACAGGTTTATAGTTAATATTGAGATTGCTTCACCTTCTATTCACAATGACTTTATAAACCCTTTTGCCAACAAAATTTTTGTAATAAATATCAAACACAAAGAAAAATAA	MQFEKTLAPLRFPTNRFIVNIEIASPSIHNDFINPFANKIFVINIKHKEK				NA	NA	NA	NA	NA
BMS003_03501	492			hypothetical protein	GTGGCAGAATATGAAGCAATACTAAATAAACTAAGAAATCAAAATACCATTGTTATTTCTGAAAAAAGAAAAGCCAATACAGATCCATCGGAGTATGCTATGAAGGTGAAGGGGCAGATTGACAGTCTCTTGGGAAAAGGGATTCCGGCCGGAAGAATTACAGTAGTGGGAACTTCCCAGGGAGGATATATTGCACAATATGTATCTTTTTATGAGAAAAATCCACAATTGAAATTTGTATTTATCGGAGCCAGTTTTAAGGATGATTCTTTGGAAAAAGATAAAAACTTTAAGTTATACGGAAAAATTCTTTCCATTACTGAGAAGTCGGATGATGGGCATGTACCATTATCCCGGGAGCAGAGGCTGATTCGATCCGATATTAAAGATCTTAAAGAAATAGAACTTAACACAGGTTTACATCACGGTTTCCTTTTTAAAGCCCTCAATGACTGGATTACTCCGGTTAAGGATTGGGTTTCCCGGAAATAA	MAEYEAILNKLRNQNTIVISEKRKANTDPSEYAMKVKGQIDSLLGKGIPAGRITVVGTSQGGYIAQYVSFYEKNPQLKFVFIGASFKDDSLEKDKNFKLYGKILSITEKSDDGHVPLSREQRLIRSDIKDLKEIELNTGLHHGFLFKALNDWITPVKDWVSRK				NA	NA	NA	NA	NA
BMS003_03502	258			hypothetical protein	ATGAAAAATTCAGCATTAAAAGGAGCTCTTGGAGCATTAGCCGTTGTAGGTGTAGCCTTAATTGCAAAAAAAGCAGCACAAAGAAAAAGATTTATCAAAGGAATTTTTGATGAGTACGGAATTAAAGAAAAGTCACCTTTCGGACTGGCAGATAAAATCAGAGAAATGAATGAAGAGGATTATCAGGAGCTGAAAGGGAAATTCAAAAAAGAATTCCATTCAAAATGTTGCAAAAAAGATAATATCTACGAAGCATAA	MKNSALKGALGALAVVGVALIAKKAAQRKRFIKGIFDEYGIKEKSPFGLADKIREMNEEDYQELKGKFKKEFHSKCCKKDNIYEA				NA	NA	NA	NA	NA
BMS003_03503	333			hypothetical protein	ATGAATCATAAACACAAAAAGGGTTGGATTTTTTTATTGTTATGTCCGCCATTAATTTTAGCCGCAGTTACATGGATTGTAATGCTGCTTTGGAATTGCCTTCTTCCGGAGATTTTAGGAGTAAAAACGATTAGCTTCTGGCAGGCAATGGGAATACTGATCCTAAGCAAAATTCTTTTCGGTGGTTTCCATTTCGGAAAAGGAATGAAAGACTTCAAAGAAAGAAAAATGAGAGAAAAAATGGAAAGCTGGTCTCCCGAAGAAAGAGAGAAATTTAAAGAAGTATGGAGAAATAAATGTTCAGGGGGATTCTTCAACAGAAACAACGAATAA	MNHKHKKGWIFLLLCPPLILAAVTWIVMLLWNCLLPEILGVKTISFWQAMGILILSKILFGGFHFGKGMKDFKERKMREKMESWSPEEREKFKEVWRNKCSGGFFNRNNE	PGPT0013980_2188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013980-TMEM165|gdt1-K23541	NA	NA
BMS003_03504	579			hypothetical protein	ATGGAGGTTGTCGAAAAAATAACAATGCCACAGAAAGAGAAAGAAAGTATCATCTCACAGACCGTTTCCAGCTACGGAGGGAAGCTGATGTCTTATATCCGTCCGAAAGTGAAAAATACGGAGGATGCGGAAGATATTCTTCAGGAAGTGTGGTATCAGTTCAGTAGCCTTACGAATATTTCGGAGATCGTAAATGTTGGTGGGTGGCTATACAGGGTAACAGCAAATAAAATTACTGACCGTTACCGTAAGAAGAAAACAGAAAATCTTGAAGATTTTGTATATGAAGATGAAGACGGCAGTTTTTCCATCAAAGATATTCTTTTGATGGATGAGAGTGCAGGCCCTGAAGTAAAGATGTTTCAGGATGAAATCTGGAAAAAACTGTTTGAAGCACTTGATGAACTTCCCGAAAAGCAAAGGCTGGTCTACGTAGAAAATGAGCTGAACGACAAAACACTCCAGGAGATTGCCGATGAACAGGGAGAAAACATCAAAACCATTATCAGCAGAAAAAACTATGCTGTGAAGCATTTGAGAAACAGACTGAGAAAGTTATATGAAGATTTAAAAAGCTAG	MEVVEKITMPQKEKESIISQTVSSYGGKLMSYIRPKVKNTEDAEDILQEVWYQFSSLTNISEIVNVGGWLYRVTANKITDRYRKKKTENLEDFVYEDEDGSFSIKDILLMDESAGPEVKMFQDEIWKKLFEALDELPEKQRLVYVENELNDKTLQEIADEQGENIKTIISRKNYAVKHLRNRLRKLYEDLKS				NA	NA	NA	NA	NA
BMS003_03505	372			hypothetical protein	ATGGATTATAGCAATGGGGGTAATTTTCTATCATCAACTCTAAGTTTAGATGGTCTAAGAAGACATTTGACTCGTGACCCAAAAGCTAATTCAAGGCAACCTTTTTCGATTCTCACTCCGAATGTTTATGAGAGACCTGAGAATGCAAAAGAAAACTATTTTTTTATTGGAGGATATAAATGGGATGGTTCACTTTTATACATAGATAAGGATACTAATATTGTGCATTGTGGTTCACCAGATGATGCAACATCAAAGATTCAATGGGCATCTTTTGAAGAAATGTTAATATCTGAATTAAAACGTTTGTATACATTCTTTGACGATGAGGGTAGAGAAATAGATGAGGATATATCAACACTTCCATATTAA	MDYSNGGNFLSSTLSLDGLRRHLTRDPKANSRQPFSILTPNVYERPENAKENYFFIGGYKWDGSLLYIDKDTNIVHCGSPDDATSKIQWASFEEMLISELKRLYTFFDDEGREIDEDISTLPY				NA	NA	NA	NA	NA
BMS003_03506	204			hypothetical protein	GTGTATAATAAAGAAATTAATGAACTTATTTATAAGTTTTCAAATTTAGGGCTTGATAGCTCAAGTGATGGAGCGAAGATGATTGGTAAAGCACCATTTAAAGGATCAGAAGCTTGGATTAATATTATTTATCCAAAGGTTACTGCTGAAGAAATTAATTTATTGGAAAAAGAATTAAATAATTCTATCCCTGAAGTATTATAA	MYNKEINELIYKFSNLGLDSSSDGAKMIGKAPFKGSEAWINIIYPKVTAEEINLLEKELNNSIPEVL				NA	NA	NA	NA	NA
BMS003_03507	384			hypothetical protein	ATGAATCAGAAAGAAATAGATAATGTAATCCTTTTAGAGCCATTCGAGAGATACAAATATGTTATCAAAAAAGTCGCCGATTGGGAGATTTTTTATACACTCGTTGATGAAGAGGGAGAATATGTAATATCTGAAATAGAGGATAAAACATTATTCCCTCTATGGAGTGCAGAAGAATTTGCAAAATTATGCATGATTTCCGGTTGGGAAGAAACACAAGTTAAAAAATTAGATCTTGATGATTTGGAAAATGAAATTATTGATTTTATTGCAAACTCAAACCACTTAATCAATGTTTTTCCTGTATATGATAAAACGGGGTTTGTTGTGACTTTAGATGAATTTGCAAAAGATTTAAATGAAGAATTAAAAAATTATGAATAA	MNQKEIDNVILLEPFERYKYVIKKVADWEIFYTLVDEEGEYVISEIEDKTLFPLWSAEEFAKLCMISGWEETQVKKLDLDDLENEIIDFIANSNHLINVFPVYDKTGFVVTLDEFAKDLNEELKNYE				NA	NA	NA	NA	NA
BMS003_03508	3726			hypothetical protein	ATGAAAAAATATTTAATCTCAAAAGCATTATCTGTATTTGGCTTAATAGTCGCAGGGATGTCTTTTGCACAATCTAATGAGAATTATGTTCAGTCTATTACCTGTCTGAATCAGGATTGTACAAAAAAATCGGAAACAATCACTTATTTCGACGGACTGGGCAGACCTAAGCAAATTATCAATGTAAAAGCGAGTCCTACCGGAAAAGATCTGGTGATGCCTGTTACCTACGACGGATTCGGGAGGCAGGCAAAAAATATATTGCCTGTTCCAGTGGCTTCACAGAATTCATTGATTCATTCAGGAATTAATAATGAGAATACAGCCAACTCTTATTACGGAGTCAGCAATGCTTTTACGGAGAAGGAAATTGAGAATTCCCCTTTAGACAGGGTATTACAGGAAGCGAATCCGGGAGAGGAATGGAAAATGAGTTCGGGAAAAACAAAAAAATATAAATACGAAGCCAATACCGGAAACGAAGTTAAAGCGTTTGTTACCAACACCTCGACCAATACGGTAAGCGGTATTTCCAATACGGTTTCTGCAGTATCAATTTCTTCTGGCAATTCAGGATTTTATCCGGCAGGAACATTGTATAAAAATACGGTAACCGATGAAGACGGAAACTCCGTCATCCAGTTTCAGAATGCAAGAGGGCAAACGGTTTTGATCCGTAAGAACGACGGTTCGCAAAACATAGATACTTACTATGTTTTTAATGAGTATAACCAGCAGGCTTTCATCATTACACCGAAGGCGGTACAACAAATTGAGCAGAATAATAATATCATTTCAGATGACATCTTAAACGAACTCTGCTACCAGTACCGTTATGACGGACAAGACAGGGAGGTGGAGAAAAAACTGCCGGGAAAGGATTGGGAATTTACAGTATATGATAAGCAGGATCGCCCTGTTTTAACGCAGGACGGACTTCTAAGAACTGTAAACAACAATTTCAATACGAAAGGCTGGATTTTTACTAAATATGATGAATCCGGAAGAGTAGTCTATACAGGATTTTTTGCCAATACTGCAACAAGGCAGTCAATGCAAAGCGCACTGAATAGTATGTCTGCCAATGCCTATAACAATGAAAAGAGAGTTTCCGCTTCTTTTAATTTACAGGGGCTTAACGTGTATTATGATAAACAGGCATTTCCTACGGGAAGCATGAGCTTATTAACGGTTAATTATTACGATACTTACCCGCCTGAAGCTCCGGCTGTTCCTCAGACTATTTTAGGACAGTATACCCTGCCCCAGACATTGGATGCCAATAATGACGCTTCTACCAACGGAGTTCTCACGGCTTCTTATGTGAAAAATATTGAAGACAACAATTGGACGAAAACGTATCATTATTATGATTCGATGGGCAGGCTCATATCGACTCATACCATCAATCATTTAGGCGGTTACACAAGGAATGAAACAGAACTTGATTTTGCGGGTGTCCCGCAAAAGAAAAACACCTACCATCTGAGAAAACAAGGAGAAACCGGAGTAACAGTACAGGAAAGATTTGTTTATGATAACCAAAACAGACTTTTACAACATTTTCATCAGGTAGACAATAATCCCGAAGAATTACTGGCAGAAAACTCTTATAATGACCTTTCTCAAGTAATAAATAAAAAAGTTGGATCTGTATCAGGCTCTGCACCATTACAGAGCATTGATTACAATTACAATATCCGCGGCTGGTTAACCGATATTAATAAAAATCAGATGGGTGTTTCTGATATGAATGGAAAATTATTTTCTTACAAAATAAAATACACCAATCGTGACGGAATCCAGAATCCGGATTCTTCACAGTTTCCGGGAAAAAATGTAGTTCCGAAATACAACGGAAATATTGCCGAAGTAGATTGGAGAGCAGTAGAATCTATTGGTGCAAATCCATCAACTACCCCGAAAAGATATGGATACGCATATGACAGATTAAACAGATTAACGGCAGGGTTTTACCAGAATCCACAGAATCCTTACAGCAAGGAAAACATGGAATCTCTGGCGTATGACCTGAATGGGAATATTTCCAATCTTTACAGAACTTCGGTAATGGAAAACGGAAGCAGTACGGCGACGGTAATTGATAACCTTACCTACGACTATACCGGAAACAGGGCGACCAAAATTAAAGACATTAGCGGAAACTCTACCGGATATGAAGGGACGGTAGGAAATACCATTGAGTATGATGTGAACGGAAACATGAAAAATATGATCGATAAAAGCATTACAGCCATCGGTTATAATTATATGAATCTGACCAATTCGTTAACGATTAATCTGGGACAGCTTACCACCGATATTGCCACAAAGTATAGTGCTGACGGAAGCAAAATAAGAAAGGAAACTACGAAAAGTTCGGTAGGAATTGCAGGGACAACTACAACTAAAGAAACAACGGATTATCTGGATGGTTTCCAGTATTTCAGTACAACAGGCGGAAATACAGGAGGTATTGGAAGCACGGAAATGATGATGTCGAAAAGAGCATTTGAGCCACAGGCTTTTACACCTATCGAAATTTCAGATCCGGTGATTCAGCCTATTGGTGGTGGATTTACCGGAACCCTCACCGCTTCAAAAACTGCTGATCTGCAATTTTTCCCAACAGAAGAAGGATTTTATGATTATCAGAAAAATCAATATATTTACCAGTATAAAGATATTACTGGAAATGTAAGGTTATCTTACGCAAGAAACAGCGCAGGAGTTCTTGAGATTGTCGACAATAATGATTTCTACCCGTTTGGGATGAATCACCTGAAAACGGGGAATGCGTATTTTGGTGGGGGTTCTTACAAAAACTACAAATTCGGGAAAAAAGAATTACAGGAATTTGGAGCCTATGATTTTGAAGCGAGGATCTATTGGCAAGATTTACCAAGAATGGGACAAATGGATCCATTGGCGGAAAAAATGCCAAGCTGGTCACCCTATGCCTATGGATTTAATAACCCGATTAGGTTTGTGGATCCGGATGGAAATGAACCCGTAGATGTTATTGGTGAGGGAGATGGCTGCTGCCAGCATATGAAGGGGTTTGCCCTGACTATGGTTGACAATGTTATTGGATCGAACCTTAGAAATAAGTATGGCTCCAAGACTCAGGAATATATAAACGGAGTAAATAGCGGTCATGGAGCATCCATGGTGTTGGCCGCTTTAATGGCCACAGATGGTATTACAAGTATCGGCGGTGGAACAGGCGGTCTGGCAGCCTCTGCTGCAGCTTCTTCCACAGGTGTAGGAGCAATTGCAGGTGGACCGGGCGCTGCTGTTAGTAGTGGCTTAATATTGAAAGGTACATTGGAAGTTGCTGGCGCAGCAGTGATCACAAGCAATGTTGTGGATAACATGAAGAGTGATTCTGGAAGTGAAAAGAAATCTAGTTCAGGAGAGAATGCTAAATCCCTTGTTCGATCTGGGAGATCAGGTAAACAAGATAGATTGAAGCAATTATCAAATGATCCAAAATTAGGAAAGGCTGATAAAGGATGGATTAAATCAGAAATGAACCAAATAAGTAATGGGAAAAGAAAAACAATTAGAAATCCACCAGGAAAAGATTTGGCTCATGAAAGAGGGAGGGAAGCAGCAAAAGGCTATTCATATGAATATTCGAATTTGCAAAACAGAAAAGACCATAGAAATCAGCACAAATATGACAATGGTGGTAGAAAAAATAAAGAAAGACCAGTTAATTAA	MKKYLISKALSVFGLIVAGMSFAQSNENYVQSITCLNQDCTKKSETITYFDGLGRPKQIINVKASPTGKDLVMPVTYDGFGRQAKNILPVPVASQNSLIHSGINNENTANSYYGVSNAFTEKEIENSPLDRVLQEANPGEEWKMSSGKTKKYKYEANTGNEVKAFVTNTSTNTVSGISNTVSAVSISSGNSGFYPAGTLYKNTVTDEDGNSVIQFQNARGQTVLIRKNDGSQNIDTYYVFNEYNQQAFIITPKAVQQIEQNNNIISDDILNELCYQYRYDGQDREVEKKLPGKDWEFTVYDKQDRPVLTQDGLLRTVNNNFNTKGWIFTKYDESGRVVYTGFFANTATRQSMQSALNSMSANAYNNEKRVSASFNLQGLNVYYDKQAFPTGSMSLLTVNYYDTYPPEAPAVPQTILGQYTLPQTLDANNDASTNGVLTASYVKNIEDNNWTKTYHYYDSMGRLISTHTINHLGGYTRNETELDFAGVPQKKNTYHLRKQGETGVTVQERFVYDNQNRLLQHFHQVDNNPEELLAENSYNDLSQVINKKVGSVSGSAPLQSIDYNYNIRGWLTDINKNQMGVSDMNGKLFSYKIKYTNRDGIQNPDSSQFPGKNVVPKYNGNIAEVDWRAVESIGANPSTTPKRYGYAYDRLNRLTAGFYQNPQNPYSKENMESLAYDLNGNISNLYRTSVMENGSSTATVIDNLTYDYTGNRATKIKDISGNSTGYEGTVGNTIEYDVNGNMKNMIDKSITAIGYNYMNLTNSLTINLGQLTTDIATKYSADGSKIRKETTKSSVGIAGTTTTKETTDYLDGFQYFSTTGGNTGGIGSTEMMMSKRAFEPQAFTPIEISDPVIQPIGGGFTGTLTASKTADLQFFPTEEGFYDYQKNQYIYQYKDITGNVRLSYARNSAGVLEIVDNNDFYPFGMNHLKTGNAYFGGGSYKNYKFGKKELQEFGAYDFEARIYWQDLPRMGQMDPLAEKMPSWSPYAYGFNNPIRFVDPDGNEPVDVIGEGDGCCQHMKGFALTMVDNVIGSNLRNKYGSKTQEYINGVNSGHGASMVLAALMATDGITSIGGGTGGLAASAAASSTGVGAIAGGPGAAVSSGLILKGTLEVAGAAVITSNVVDNMKSDSGSEKKSSSGENAKSLVRSGRSGKQDRLKQLSNDPKLGKADKGWIKSEMNQISNGKRKTIRNPPGKDLAHERGREAAKGYSYEYSNLQNRKDHRNQHKYDNGGRKNKERPVN				NA	NA	NA	NA	NA
BMS003_03509	1137			hypothetical protein	GTGAATCCACAAACTAATCAGATAATTAACCATCAATATAAATATGGTTTTGTAGAGCCCTATTTTCATTTTCCTAACGAACCACAGTCGAGACAGTGGGAATCAGGTAACCTGAGCGGCTATAGTTCTCTCAATACATCAAAAACATATAATTACGGTTATCATGCTAATACTAAGTTTGTTAAAGGAATTGACACCAGCAGTCTTAATTTCTACTCTAAGTGGATTCCAACGTCCAACTGTACAATGGAATTGGCATTGGTCGATACTAAAAGTATCAACAGTGTAGGAGGAAGTTATGAGCTGTTTACCAATAATTATTTTACACAAAAAGAAGAAGTAACACAGGATAATATCACAACTAAAAGTGAGTTCTTCTATAATAATCCCAATCATTATCAATTAACAAAAAAGAAAACTACTACAGGAGATATAGTACCTGTAATTAATGAAACCACGTATCAATACGCCCATGAAAAAGGAAACCAGTTAATGATTTCTAAAAACATGATTGGAATTCCTTTGGAAACCACGCAAACTCAAACAATCGGAGGTATTACAAAGACAATAAACAAAGACGAAATTAGTTACCCTTCTTCTCTTCCGACAGCACAAACCGGAAATTTAGTATTAGCATTAACTGAGAAATCTTATGATAAACTAAATAATACTTCGTCTACAGATATTACTTATGATAAATATGATGATAAAGGTAATATCATTCAATATACTGAAAAAGATGGCACTCCTGTGACCATTGTTTGGGGGTACAACCAGACAGAGCCAATTGCCATTATTGAAGGGCTGACGTATGACCAGCTTTTCGCAACTGTATCAACCATATCAATTGTTTCTGCCTCTAATGATGATGCCTCTGATCCAGGTAAAGAAGGTCTGCTTTTAAGTGCCTTGAATGATTTCAGAAAATTACCTGCTTTATCAGGTAAGAAAATTACAACTTACACCTATGACCCGCTGATTGGAATGACCAGTAAAACCTCATCACAGGGAGTTAGGCAAACATTTGTATATGATTCGGCAGGAAGACTAAAAGAAGGAAATATCAGAGGGAAAAATAATGCAGGATCATATGTTCAGGGAACAGCTCAAAAGAACAATTATAAATTCAAACAATAA	MNPQTNQIINHQYKYGFVEPYFHFPNEPQSRQWESGNLSGYSSLNTSKTYNYGYHANTKFVKGIDTSSLNFYSKWIPTSNCTMELALVDTKSINSVGGSYELFTNNYFTQKEEVTQDNITTKSEFFYNNPNHYQLTKKKTTTGDIVPVINETTYQYAHEKGNQLMISKNMIGIPLETTQTQTIGGITKTINKDEISYPSSLPTAQTGNLVLALTEKSYDKLNNTSSTDITYDKYDDKGNIIQYTEKDGTPVTIVWGYNQTEPIAIIEGLTYDQLFATVSTISIVSASNDDASDPGKEGLLLSALNDFRKLPALSGKKITTYTYDPLIGMTSKTSSQGVRQTFVYDSAGRLKEGNIRGKNNAGSYVQGTAQKNNYKFKQ				NA	NA	NA	NA	NA
BMS003_03510	1125	leuB	COG0473	3-isopropylmalate dehydrogenase	ATGAGCAACAATTATTTTAAAATCGCGGTTCTTCCCGGAGACGGGATCGGCCCGGAAATCATCAGTGAAAGCATTAAAATACTAGATGTTATTGCTGAAGCTTTCCAATGCAAATTCCATTTTGATTATGGATTAATAGGTGCAGAAGCTATTTTTAAGACAGGGAATCCTTTACCTGAAGAAACGTTAAAAATCTGTAAAGAGTCTGATGCTGTACTTTTCGGAGCTATTGGTGATCCTGTTTTTGATAACGATCCTGAGGCGAAAGTAAGACCGGAGCAGGGATTATTAAAACTTCGTAAAGAATTAGGATTATTTGCCAATATCCGTCCTTTGAAAACGTATGCCTCTCTGATTGATAAAAGTCCTTTGAAAAGAGAAATTATTGAAGGGGCAGATATTCAGATTTTCAGGGAACTGGTAAGCGGAATCTATTTTGGTGAAAAATTTACAGATCCGGAAGGTGCTTACGCTTATGATGTCTGCAAATACAGCCGTGAAGATATTATTCCGATTGCTCATATGGCGTTTCAGGAAGCTCAGAAAAGAAAGAAAAAGCTTACGCTTATTGATAAAGCCAATGTTTTGGATACTTCAAGGTTGTGGAGAAAGATATGTCAGGAAATTGCACCGGATTATCCTGATGTACAGCTGGATTATATGTTTGTAGACAATGCTGCCATGCAGTTGATTCTTAATCCTAAGCATTTTGATGTTATTGTAACTGAAAATATGTTTGGGGATATTATTTCAGATGAAGCGAGCGTGATCGGAGGTTCTATCGGATTATTACCGTCTGCATCAATAGGAGAGAAGAACGCTTTGTTTGAGCCTATTCATGGATCTTATCCACAGGCGAAAGGAAAAGGAATTGCCAACCCTGTTGCTTCTATTTTAAGCGTAGCCATGATGTTGGATCATCTTAATTTAAAAGCCGCGGCAGATAAATTGAGGCAGTCTGTAGAACATGCTATTGAAAACAAGTATGTTACCATTGATCTTAATACCAAGCAGTATTACTCAACAAGTGAAGTGGGAAGCTTTATTGCAGATCATATCAGATATTCTGAGAAATCTTATTACAATTTTGAAAATATCAAGATCGGAAAATCAACCATTGTATAA	MSNNYFKIAVLPGDGIGPEIISESIKILDVIAEAFQCKFHFDYGLIGAEAIFKTGNPLPEETLKICKESDAVLFGAIGDPVFDNDPEAKVRPEQGLLKLRKELGLFANIRPLKTYASLIDKSPLKREIIEGADIQIFRELVSGIYFGEKFTDPEGAYAYDVCKYSREDIIPIAHMAFQEAQKRKKKLTLIDKANVLDTSRLWRKICQEIAPDYPDVQLDYMFVDNAAMQLILNPKHFDVIVTENMFGDIISDEASVIGGSIGLLPSASIGEKNALFEPIHGSYPQAKGKGIANPVASILSVAMMLDHLNLKAAADKLRQSVEHAIENKYVTIDLNTKQYYSTSEVGSFIADHIRYSEKSYYNFENIKIGKSTIV	PGPT0001441_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS003_03511	609	leuD	COG0066	3-isopropylmalate dehydratase small subunit	ATGCAAAAATTAGTTGTTTTAAAATCCCGCGCAGTTCCATTGCCGGCAGAAAATATAGATACAGACCAGATTATTCCGGCAAGATTCCTGAAAAGTATAGACAGAAAAGGTTTTGGAGAAAATCTGTTCAGAGACTGGAGGTTCAATATTCATACAGGAGAACCGAATCCGGACTTTGTTTTAAATAATCCTAAATTCGAGGGTGAAATTTTAGTAGCAGGAAATAACTTCGGTTGTGGAAGCAGTCGCGAACATGCAGCCTGGTCTTTGACAGATTATGGTTTTAAGGTAATTGTTTCCAGTTATTTTGCAGATATTTTCAAAGGAAATGCTCTGAATAACGGACTTCTTCCCGTAAAGGTTTCTGAAGAATTTTTAAAAGAAATTTTAGAAGGAATCAATGAAAATCCTGATAATGAAATTGCCATTGATGTAGAATTACAGTCGATAAGCTTTAAAGATACTACAGAAACTTTTGAGCTCGATTCTTACAAAAAAATATGCCTGCTGAACGGCTATGATGATATTGATTTTTTAATCAGCAGAAAACAGACGATTACAGAGTTTGAATTAAAAACACAAAAAGCAAATGAGCAACAATTATTTTAA	MQKLVVLKSRAVPLPAENIDTDQIIPARFLKSIDRKGFGENLFRDWRFNIHTGEPNPDFVLNNPKFEGEILVAGNNFGCGSSREHAAWSLTDYGFKVIVSSYFADIFKGNALNNGLLPVKVSEEFLKEILEGINENPDNEIAIDVELQSISFKDTTETFELDSYKKICLLNGYDDIDFLISRKQTITEFELKTQKANEQQLF	PGPT0001443_1814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
BMS003_03512	1386	leuC	COG0065	3-isopropylmalate dehydratase large subunit	ATGAACAATAAAAAGACACTTTTTGATAAAGTTTGGGACGCTCACGTGGTAGAAACTATTCCGGACGGACCTCAGATCATTTATATAGACAAACATCTTATTCATGAGGTAACCAGCCCTCAGGCTTTTGCAGAGCTTGAATCCAGAAATCTGGAACTCTTCAGACCGGAACAGATTGTAGCCACAGCGGATCATAATGTTCCTACTTTGCATCAGGAACAGCCCATTAAAGATGAGCTTTCAAGAAATCAGGTAGAGCAGCTTACAGAAAATTGTAAGAAAAATAATATTGAGCTTTTCGGACTGGGACATCAGTATCAGGGAATTGTTCACATCATCGCACCGGAATTAGGGATTACCCAGCCGGGGATGAGCATTGTATGTGGTGACAGCCATACTTCTACCCATGGAGCATTCGGATCTATTGCCTTTGGGATTGGAACCAGCCAGGTTGCTCAGGTGTTTGCCAGCCAATGCCTATTGCTGAACAAACCAAAATCTATGAGGATTACTGTGAATGGTAAACTGAATGAAAATGTTCAGCCTAAAGATGTTATTCTTTATATCATTTCAAAAATAGGAACAGACGGAGGAACAGGATATTTCTGTGAATATGCAGGAAATGTATTTGAAGAAATGTCGATGGAAGGAAGAATGACAGTCTGCAACATGAGCATTGAAATGGGCGCCAGAGGAGGAATGATTGCTCCCGATGAAACCACTTTTGAATATGTGAAAGGGAGAAAATTCGCCCCTGAAGGAGAAGAATGGAATGAAAAAGTAGCCTATTGGAAAACTTTAAAAACAGATGAAGGAGCCATTTTTGATGAAGAATTAATCTTTGACGCTTCAGATATTTATCCAATGATTACTTATGGTACCAACCCGGGAATGGGGATTTCCATCCGCGAAGTTATTCCGGCACCACAAAATGAATCCGAAGAGAAAGCATTGAAATATATGGGACTGGAAGCCGGACAGGCTGTTAACAGTATCAAAGTTAATTATGTTTTCATAGGAAGCTGTACCAATGCAAGAATAGAAGATTTCCGTTCTGCAGCCCAGTATATTAAAGGAAAAAGCAAGTCAGAAGCTGTAAAAGCACTGATTGTTCCGGGATCTCAGCAAGTGGTGAAACAGATTTATGAGGAAGGTTTGGATAAAATATTCAGTGATGCAGGATTTCAGATTCGTCAGCCGGGATGTTCAGCATGTCTGGCCATGAATGATGATAAAATTCCGGAAGGAGAATATTGTGTTTCTACATCCAACAGAAACTTTGAGGGCAGACAGGGACAAGGTTCAAGAACAATTCTTGCCAGTCCGCTTACCGCAGCAAAAGCAGCCATAGAAGGTAAAATTTCAGCTTTTGAAAGTGTAAACTAA	MNNKKTLFDKVWDAHVVETIPDGPQIIYIDKHLIHEVTSPQAFAELESRNLELFRPEQIVATADHNVPTLHQEQPIKDELSRNQVEQLTENCKKNNIELFGLGHQYQGIVHIIAPELGITQPGMSIVCGDSHTSTHGAFGSIAFGIGTSQVAQVFASQCLLLNKPKSMRITVNGKLNENVQPKDVILYIISKIGTDGGTGYFCEYAGNVFEEMSMEGRMTVCNMSIEMGARGGMIAPDETTFEYVKGRKFAPEGEEWNEKVAYWKTLKTDEGAIFDEELIFDASDIYPMITYGTNPGMGISIREVIPAPQNESEEKALKYMGLEAGQAVNSIKVNYVFIGSCTNARIEDFRSAAQYIKGKSKSEAVKALIVPGSQQVVKQIYEEGLDKIFSDAGFQIRQPGCSACLAMNDDKIPEGEYCVSTSNRNFEGRQGQGSRTILASPLTAAKAAIEGKISAFESVN	PGPT0001442_4131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
BMS003_03513	1164	leuA	COG0119	2-isopropylmalate synthase	ATGAGTTCTGAGAAAATTGAAATTTTTGATACCACGCTGAGAGATGGGGAGCAGGTTCCGGGTTGTAAATTGAATACGGAGCAAAAACTGATTATTGCTGAAAAGCTGGATGCGCTAGGAATTGATATCATTGAAGCAGGATTCCCAATTTCAAGTCCGGGAGATTTTGAATCGGTTTCAGAAATTTCAAAGCTGGTAAAGAATGCAAAGGTATGCGGACTTACAAGAGCCAATAAAAAAGATATTGATACCGCAGCAGAAGCATTGAAGTTTGCGAAGAGACCAAGAATTCACACAGGGATCGGGACTTCAGACTCTCATATTAAATACAAGTTCAACTCTACAAGAGAAGACATTATTGAAAGAGCAGCAGATGCGGTAAAATATGCGAAAACTTATGTGGAAGACGTAGAATTTTACGCTGAAGATGCAGGAAGGACGGATAATGAATATTTGGCAAGGGTTTGTGAAGCCGTTATCAAAGCGGGAGCAACTGTTCTTAATATCCCCGATACTACAGGATATTGCCTGCCTGAAGAATATGGTCAGAAAATAAAATATCTGAGCGAAAATGTAAAAGGAATTGAAAAAGCGGTGCTTTCATGCCATTGTCATAATGATTTAGGACTGGCGACTGCCAATTCCATTGCAGGAGCCATCAACGGAGCACGCCAGATTGAATGTACGATCAACGGATTGGGAGAAAGAGCAGGAAATACAGCACTGGAAGAAGTCGTTATGATTTTAAAGCAGCATAAAGATCTGAATCTGCATACTGATGTGAATTCCAGAATGCTGAATGAAATGAGTCTGATGGTGTCTGATCTGATGGGAATGTCTGTACAGCCTAACAAAGCTATTGTTGGCGCTAATGCTTTTGCACACAGTTCAGGAATTCATCAGGATGGCGTGATTAAAAACAGAGAGACCTATGAAATCATTGATCCTGCAGAAGTAGGAGTGAACGCATCTTCCATTATTCTTACGGCAAGAAGCGGACGTTCAGCATTGGCTTACCGTTTCAAGCATATCGGTTATGAGGTGACTAAAAATGAACTGGATTATTTATATCAGGAATTTTTGAAAATCGCTGACCTTAAAAAAGAAATATGTAATGATGATCTGAGCCTGATGATGGATTCTTTCAACAGAAAAATTGGATAG	MSSEKIEIFDTTLRDGEQVPGCKLNTEQKLIIAEKLDALGIDIIEAGFPISSPGDFESVSEISKLVKNAKVCGLTRANKKDIDTAAEALKFAKRPRIHTGIGTSDSHIKYKFNSTREDIIERAADAVKYAKTYVEDVEFYAEDAGRTDNEYLARVCEAVIKAGATVLNIPDTTGYCLPEEYGQKIKYLSENVKGIEKAVLSCHCHNDLGLATANSIAGAINGARQIECTINGLGERAGNTALEEVVMILKQHKDLNLHTDVNSRMLNEMSLMVSDLMGMSVQPNKAIVGANAFAHSSGIHQDGVIKNRETYEIIDPAEVGVNASSIILTARSGRSALAYRFKHIGYEVTKNELDYLYQEFLKIADLKKEICNDDLSLMMDSFNRKIG				NA	NA	NA	NA	NA
BMS003_03514	1545			hypothetical protein	ATGGCAGAATTGCAGAAAGATTTCTTGTTTGTCCTGGTAAAGTCATTGACCACCTCTGAAAAGCGACAATTTAAGTTGTATGTAAACCGTCTCGGAATTAACGTAGATGCCAAATTTCTATTGCTGTTTTCCGAAATGGACAAAATGAAAGAATATGATGAAAGCATTATTATTGAAAAGAAAATTTCTACAAAACAACAGCTTTCCAACCTCAAAGCTCATCTTTACAAGCAGATTCTGGTAAGCCTCCGCATGAACCCGAGTCACCAGAACTATAGAATCCAACTTAGGGAACAGTTGGATTTTGCCAATATTCTTTATCAGAAAGGACTTTATAAGCAGGCATTAAAGATATTGGATAAGACCAAGCAAACTGCATTGGAACTGGATGAAAAAAGTATCGCTTCGGAGATCATAGATCTTGAAAAAGTAATTGAGTCACAATTCATTACCCGAAGTATTGAAGGCCGTGCGGAAGAACTGATCAAACAATCTCAGGAGATAAGTAAACAAAACCGTTATACCACTAAACTGTCTAATCTTTCGCTGAAATTGTACAGTGAAATGCTCACCCATGGTTATGTAAAAAATGATACAGACCGGCAGGAAGTGATGGATGTCTTCAATGCTCAGATTAAAAATATAGCCCCTGAGAAATTAAATTTTACGGAAAAACTTTGGTATTACAAGGCGCATGTCTGGAAAAACCAGCTTTTGCAGGATTATAAATACACCCTGAAATATGCCTATCAATGGGTTGATCTTTTTCATAAAAAACCTGAAATGATCTACAGCCACCCGGTTTGGTACATCAAAGGGAATACGTACCTGCTGAAAATCCTGTTCCTGTATGGAAATATTGATATTCTGGAGGAGCATTTTCAAAATTTCAACAAAATGGTACATACTGAAAATTTTGTTCAGAATGAGAATCTTCAGTCCCTTATTTTCCTTACTCATTACAATACACTAATGAATATTCACTTTGTAAAAGGTGAGTTTTTCACAGGAACGAAGCTTATTCCTGAAGTAGAATTAAAAATGGAAAAACTCAGAGAAAGAATTGATGAGCACCATTTTATGATTCTCTACCTTAAAATGGCTGCTATGTTTTTCGGCAGTAAGATGTTTGAAAAATCCATTGAATATTCTATGAGGGTAATAGAATCCAAAGGAAATGTACAGGAAGATCTGCTGTTCCATACCCGGATTCTGATCTTAATGGCAAAATATGAGTCAGGGAATGATGAGGATTATGATGAATTTATTGCTTCTACTCTAAAGTTTGCCAAGAAAATGAAAAAGCCGGAAGAATTTCATTTTGAGAGCATTCAGTTTTTCAAGAATCTGAATAATCAGGTGTTGGATCAGAGACAGAAAGCATTTGCAGGTTTTGATAAAAAACTGGAAGAGTTTTCTAAGAATGAATATTACAGACGTTCATTATTCTATATTGATATTCATGGATGGATTAAATCTAAAGTACAGAATGTGGATGTTATTGAGATCATTAAGCAGAAAGTAAAGTATAAAAGAAAGCATTAA	MAELQKDFLFVLVKSLTTSEKRQFKLYVNRLGINVDAKFLLLFSEMDKMKEYDESIIIEKKISTKQQLSNLKAHLYKQILVSLRMNPSHQNYRIQLREQLDFANILYQKGLYKQALKILDKTKQTALELDEKSIASEIIDLEKVIESQFITRSIEGRAEELIKQSQEISKQNRYTTKLSNLSLKLYSEMLTHGYVKNDTDRQEVMDVFNAQIKNIAPEKLNFTEKLWYYKAHVWKNQLLQDYKYTLKYAYQWVDLFHKKPEMIYSHPVWYIKGNTYLLKILFLYGNIDILEEHFQNFNKMVHTENFVQNENLQSLIFLTHYNTLMNIHFVKGEFFTGTKLIPEVELKMEKLRERIDEHHFMILYLKMAAMFFGSKMFEKSIEYSMRVIESKGNVQEDLLFHTRILILMAKYESGNDEDYDEFIASTLKFAKKMKKPEEFHFESIQFFKNLNNQVLDQRQKAFAGFDKKLEEFSKNEYYRRSLFYIDIHGWIKSKVQNVDVIEIIKQKVKYKRKH				NA	NA	NA	NA	NA
BMS003_03515	975			hypothetical protein	ATGAATACTATAAATATGGATCTGCACTGCGACTTACTATATTATCTGCTGAGATCCGGTGCCGCTATTGATGACAAAGAAATTGGCTGCTCACTGCCTTATTTACAGGAAGGGAATGTAAAACTTCAGATCATGGCAATGTATGCCGGAACAGGAGCAGATAGTACCGTTTATGGTTTGGAGCAAAGTAAATTGTTTTCAAATCTTATTAAAAGCGATAATTTTTTCTTTTTTAATCATGATAATTACGAGGCTCCGGAAAATAAAAATCGGGTAGGAGTTCTTGCTTCTGTTGAGAATGCATCAGCTTTCTGTGATGAAAATCAAAGCCTTGAATCCGGATTCAAAAATCTGGAAACGATTATTGAGAATGTGAAAAAAGTCTTTTATATCGGAATTACCCATCATCTGGAAAACCGTTTCGGAGGGGGAAATAATGCAACAGCAGGTTTAAAAGACGACGGAAAAGTACTGATAGACTATATTGCAGACCGGAAAATTGCCATTGATTTAGCGCACACAAGTGATCAGCTGGCTTATGATATTTTCACTTATATTGATCAGAGAAATTACTCAATTCCTGTTCTGGCAAGCCATTCCAATTATAGATCCGTCTATAAAAACAACAGGAATCTTCCCGATGAACTGGCGAAGGAAGTGATTAAAAGAAAAGGTTTGATCGGACTTAATTTCATTAAAGATTATGTAGATATTGAGCGTCCCGAAAGAATCTACGAACACATTCAATACGGTTTGGATCTTGGCGGAGAAGAAAGTATTGCTTATGGAGCAGATTATTTCTACTGGAAGGATCATCCGGATACATCCCGCCATCCTTTTTTCTTCCCTGAGCATTCCAACGCATCTGTATATCCGCAGATCAATAAAGAAATTGAAGAGCGTTTTTCATCGGAACTGGCAGAAAAGATCAGTTATAAAAATGTACTGAGTTTTATAAAAAATCTATATAAATAA	MNTINMDLHCDLLYYLLRSGAAIDDKEIGCSLPYLQEGNVKLQIMAMYAGTGADSTVYGLEQSKLFSNLIKSDNFFFFNHDNYEAPENKNRVGVLASVENASAFCDENQSLESGFKNLETIIENVKKVFYIGITHHLENRFGGGNNATAGLKDDGKVLIDYIADRKIAIDLAHTSDQLAYDIFTYIDQRNYSIPVLASHSNYRSVYKNNRNLPDELAKEVIKRKGLIGLNFIKDYVDIERPERIYEHIQYGLDLGGEESIAYGADYFYWKDHPDTSRHPFFFPEHSNASVYPQINKEIEERFSSELAEKISYKNVLSFIKNLYK	PGPT0020950_3185	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
BMS003_03516	1920	thrS	COG0441	Threonine--tRNA ligase	ATGATAAAAATTACACTTCCAGACAGTAGTGTCAAAGAATTCGAGGGAGCAGTGACTCCTCTAGATGTGGCAAAATCTATAAGCGAGGGATTGGCTAGAAACACCATTTCCGCAATTGTTAATGACAAACAAGTAGAAACAACCACACCTATAACCACGGATTCTACGGTACAGCTTTTGACCTGGAATGATGATCTTGGAAAGAAGGCTTTCTGGCATTCTTCTGCTCACCTTTTGGCGCAGGCAATCCTTGAATTTTATCCTAATGCTAAGTTGACCATAGGCCCTGCAATTGAAAGCGGATTCTACTATGACGTAGATTTCGGAGATGAAAGCTTATCTGAAAAAGATTTTGAAAAGATTGAGAAAAAAATCCTGGAAAATGCAAAGAAAGGTTCTACATTTTCTCTTTATCCGGTTTCTAAAGAAGACGCTTTAAAAACATATGCAGATAACCCTTACAAAGTGGAACTGATCTCTAATCTTAATGATGGGGAAATCACTTTTGTAACCCACGACAACTTCACAGATTTATGTCGTGGCGGACACATTCCTAATACAGGAATTGTAAAGGCTGTTAAAATTTTAAATGCTGCCGGAGCTTACTGGAGAGGTAATGAAAAAAATCCTCAATTAACAAGAGTATACGGTATTTCTTTCCCTAAACAGAAAGATCTTACTGAATATCTTGAAAGATTAGAAGAAGCTAAAAGAAGAGACCACAGAAAATTAGGTAAAGAACTTGGAATTTTTGCATTCTCTGAAAAAGTAGGTGCCGGTTTACCCCTTTGGTTACCAAAAGGTACTGCTTTAAGAAGAAAATTGGAAAATTTCCTTTCTGATGCTCAGAAAAAAGGAGGTTACGAGTTTGTAATGTCTCCACACATCGGAGCAAAAGAACTCTATGTAACTTCAGGACACTGGGATAAATATGGAGAAGACAGCTTCCAGCCGATTAAAACGCCGAATGAAGGAGAAGAGTTCCTGTTGAAGCCAATGAACTGCCCTCACCACTGTGAAATTTACAAAACTTCGCAATGGAGCTACAGAGATTTGCCAAAGAGATATGCAGAATTCGGTACGGTATACAGGTATGAACAAAGTGGAGAACTTCACGGATTGACAAGAGTTCGTGGATTTACCCAGGATGATGCTCACCTTTTCTGTACTCCGGATCAGCTTTCTGAAGAATTTGAAAAAGTAATTGACCTTACCCTTTATGTATTCAAATCTTTAGGATTTGAAGATTTTGTAACGCAGGTATCATTAAGAGATCCTGAAAACAAACAAAAGTATATCGGTTCTGATGAGAATTGGGAGAAAGCTGAAAGTGCGATCATCAATGCAGCAGAAAAGAAAGGCTTAAAAACAGTAATTGAGTACGGGGAAGCGGCATTCTACGGACCTAAGCTTGACTTCATGGTGAAAGATGCTTTAGGAAGAAAATGGCAGCTGGGAACTATTCAGGTAGATTATAACCTTCCGGAAAGATTTGATCTTCATTATATAGGAAGTGATAACGAAAAGCACAGACCGGTAATGATTCACAGAGCGCCATTCGGTTCTATGGAACGTTTCATTGCTATTTTGCTGGAAAATACTGCAGGGGATTTCCCGTTGTGGCTAAGCCCAGATCAGTTCATTATTCTACCGATCAGTGAAAAATATGTAGATTATTCAAAAAAAGTTTCACAATTTTTGGAAAATCACGATATTAGCGGTCAGATTGACGACAGAAACGAGAAGACAGGTAAAAAGATCCGTGATGCCGAATTGAAGAAGATTCCTTTCATGCTGGTAGTAGGAGAAAATGAAGAAAAAGAAGGCACGATTTCTGTAAGAAGACGTGGAGAAGGAGATCTTGGAGCCATGAAGCTGGAGGATTTCGTTGCTTACTTCAAAAAAGAAGCAGCCATATAA	MIKITLPDSSVKEFEGAVTPLDVAKSISEGLARNTISAIVNDKQVETTTPITTDSTVQLLTWNDDLGKKAFWHSSAHLLAQAILEFYPNAKLTIGPAIESGFYYDVDFGDESLSEKDFEKIEKKILENAKKGSTFSLYPVSKEDALKTYADNPYKVELISNLNDGEITFVTHDNFTDLCRGGHIPNTGIVKAVKILNAAGAYWRGNEKNPQLTRVYGISFPKQKDLTEYLERLEEAKRRDHRKLGKELGIFAFSEKVGAGLPLWLPKGTALRRKLENFLSDAQKKGGYEFVMSPHIGAKELYVTSGHWDKYGEDSFQPIKTPNEGEEFLLKPMNCPHHCEIYKTSQWSYRDLPKRYAEFGTVYRYEQSGELHGLTRVRGFTQDDAHLFCTPDQLSEEFEKVIDLTLYVFKSLGFEDFVTQVSLRDPENKQKYIGSDENWEKAESAIINAAEKKGLKTVIEYGEAAFYGPKLDFMVKDALGRKWQLGTIQVDYNLPERFDLHYIGSDNEKHRPVMIHRAPFGSMERFIAILLENTAGDFPLWLSPDQFIILPISEKYVDYSKKVSQFLENHDISGQIDDRNEKTGKKIRDAELKKIPFMLVVGENEEKEGTISVRRRGEGDLGAMKLEDFVAYFKKEAAI				NA	NA	NA	NA	NA
BMS003_03517	480	infC	COG0290	Translation initiation factor IF-3	GTGAGAGAGCTTCGTTTAGTGGGCGATAACGTAGAGCCAGGAATTTATCCAATTGACAAAGCAAGACAGATTGCAGCGGAACAAGAATTGGATTTAGTAGTAATTTCTGACAAAGCAGAACCATTTATTGCAAGAGTATTAGAATACAAGAAATTCTTATACGAGCAAAAGAAAAAACAGAAGGAACTTAAAGCTAAGCAGGTAAAAGTGGTGGTAAAAGAGATCCGTTTCGGACCTCAGACCGATGATCACGATTACGAATTTAAAAAGAAACATGCTGAGAAATTCCTTGAAGAAGGTTCTAAACTGAAAACCTACGTATTTTTTAAAGGACGTTCGATTATCTTTAAGGATCAGGGAGAGATTTTACTTTTAAAACTTGCTCAGGAACTGGAGCATGTGGGTAAAGTAGACCAGCTTCCTAAACTTGAAGGAAAAAGGATGATTATGATGATGAGTCCTAAAAAACCAGCAAAATAA	MRELRLVGDNVEPGIYPIDKARQIAAEQELDLVVISDKAEPFIARVLEYKKFLYEQKKKQKELKAKQVKVVVKEIRFGPQTDDHDYEFKKKHAEKFLEEGSKLKTYVFFKGRSIIFKDQGEILLLKLAQELEHVGKVDQLPKLEGKRMIMMMSPKKPAK				NA	NA	NA	NA	NA
BMS003_03518	822	cpo		Non-heme chloroperoxidase	ATGAGCAAACTTAGATTAAAAGACGGAACAGAAATTTACTACAAAGACTGGGGAAAAGGACAGCCTGTTTTTTTCCACCACGGATGGCCATTATCAAGTGACGACTGGGATGCACAAATGTTCTTCTTCCTTGAACAGGGATACAGAGTAATTGCTCATGACAGAAGAGGACACGGAAGATCTGAACAGACTCCTTACGGACATGATATGGATACTTATGCCTCTGACGTAGCTGAAATTGTAGAAGCTTTAAGCTTAAAAGATGTGATCCATGTAGGACACTCTACAGGAGGCGGAGAAGTGATCCGATATGTAGCAAAACATGGTAACGGAAGAGTTGCAAAAGCTGTTCTGGTAAGTGCCGTAACTCCTATTATGGTTCAGAATGAGAATAATCCGAATGGAGTTCCCATTTCTGTTTTTGATGATATCCGAAATAATACAGCGAAACACAGACAGCAATTCTTCATTGATATTACCTTCCCTTTTTACGGATATAACAGAGAAGGAGCCAACGTTTCCGAAGGAATCCAGAGAAACTGGTGGAGACAAGGCATGAATGGCTCTATTAAAGCTCACTACGACTGTGTAAAAGCTTTCTCTGAAACAGATTTCACAGAGGATCTTAAGAGTGTAGAAGTGCCGGTATTGGTAATGCATGGTGAAGATGATCAGATTGTCCCTTTTGAAACAACAGGAAAAGTAGCAGCTACCCTTCTTAAAAACGGAAAATTAATTTCTTATCCTGGTTTCCCTCACGGAATGCCGACAACAGAGGCCGAAACGATCAACAGAGATCTCCTGGAGTTTTTTAAATCGTAG	MSKLRLKDGTEIYYKDWGKGQPVFFHHGWPLSSDDWDAQMFFFLEQGYRVIAHDRRGHGRSEQTPYGHDMDTYASDVAEIVEALSLKDVIHVGHSTGGGEVIRYVAKHGNGRVAKAVLVSAVTPIMVQNENNPNGVPISVFDDIRNNTAKHRQQFFIDITFPFYGYNREGANVSEGIQRNWWRQGMNGSIKAHYDCVKAFSETDFTEDLKSVEVPVLVMHGEDDQIVPFETTGKVAATLLKNGKLISYPGFPHGMPTTEAETINRDLLEFFKS	PGPT0013125_2265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS003_03519	198	rpmI	COG0291	50S ribosomal protein L35	ATGCCAAAATTAAAAACGAAATCAGGTGCTAAAAAGCGTTTTGCTCTTACTGGTTCTGGTAAGATCAAAAGAAAAAATGCTTACAAAAGCCACATCTTAACTAAGAAAGAAACTAAGCAGAAGAGAAATCTTACTACTACTTCTTACGTAGCTAAAGTGGACGAAAAAAGCGTTCAACGTCAATTAGCAATTAAGTAG	MPKLKTKSGAKKRFALTGSGKIKRKNAYKSHILTKKETKQKRNLTTTSYVAKVDEKSVQRQLAIK				NA	NA	NA	NA	NA
BMS003_03520	345	rplT		50S ribosomal protein L20	ATGCCAAGATCAGTAAATGCCGTAGCTTCAAGAGCTCGCAGAAAGAAAATTTTTAAGCACGCTAAAGGTTATTTCGGAAGAAGAAAGAACGTTTGGACTGTAGCTAAAAACGCGGTAGAAAAAGCAATGCAATATGCTTACCGTGGTAGAAAAGAGAAAAAGAGAAATTTCAGAGCACTTTGGATCACTCGTATCAACGCGGGAACTAGAGAGCACGGAATGTCTTACTCTCAATTTATGGGAGCTCTTAAAAAGAACAACATCGAACTTAACAGAAAAGTTTTAGCAGATTTAGCAATGAATCACCCTGAAGCTTTCAAAGCTGTTGTAGATCAAGTAAAATAA	MPRSVNAVASRARRKKIFKHAKGYFGRRKNVWTVAKNAVEKAMQYAYRGRKEKKRNFRALWITRINAGTREHGMSYSQFMGALKKNNIELNRKVLADLAMNHPEAFKAVVDQVK				NA	NA	NA	NA	NA
BMS003_03521	1179			hypothetical protein	ATGAAAAAAGTTGCAGTTTTTTTGCTGACTGCTGTTGCGCTACAAACTATTGGTGCACAGAGTTTTATTCAGGCTTATAAAGACAGAGCTGATATGGTGACCCAAACCAATATCAATACCAACCTTCAGGAATTTGCAGGACTGGGCGTAAAAACAACAGGTACAATAGCTAATAATAATGCTTTTGACTGGCTTAAGAACAAATATCTCTCTTATGGATATACAGCCAGTGACTTTTCTGAAGATGCTTTCACCTACGGAGGTAATTCATCTAAAAATCTAATTATTACCAAAACCGGAACACTTTATCCTAACAAATACGTCATTATTTGTGGGCATTATGATACCATTGTAGGGCCGGGAGTAAGTGATAATGGCAGCGGAACATCCATTATTCTTGAAGCGGCAAGGATTCTGAAAGATATCCCTACAGAATATTCCATCAAGTTTATCCATTTTTCAGGTGAAGAGCAAGGTCTTGTCGGAAGTAATCATTACGTAAATAATGTTGCTTACCAGGGAAGCACCCGTATATTGGATATTAAACTTGTTTTCAATATTGATCAGGTGGGAGGTCTTATAGGCAATAATAACAATACCATTACCTGCGAAAGAGACACAGGAGGGGTATCTTCCAATAATATTGCGTCAAATGCTATAACACAGGAACTGATGAACTGCACTTCCCTTTACTCTCCTCTTCAGACTCATCTGTCTTATGCTTACAGCTCAGATTATATGCCTTTTGAAGCTAAAGGATATACAATTACCGGGTTTTATGAAACGGTTCAAAGTAATAATGAGCATACTGTAAGTGATACTTATGCCAATATTGATCCTGTATATGTTTTCAATGTGGGAAAAGCTGCTGTGGGTGCGTTGCAGCATTTTGCCGTTGCCACTACAGCCAGCAACCTTTTAAGTACTCAAGAAACAATACAGAATTCTGCAGAAGCAGTCATCATTTATCCTAATCCTGCTAAAGATGTTTTAATGATAGAATTTCAACAAAAGGTAAAACAATTTAAAGTTGAAATTAATGATATGGTAGGAAACTCAGTTCTAAATACTGAAAATGAAGAAAGAATAAATACTTCAGGCCTAAAAAACGGAGTGTATATGGTAACCGTTAAGACAGTGAAAGGAAATACAACAAAAAAAATAATCATTAATAAATAA	MKKVAVFLLTAVALQTIGAQSFIQAYKDRADMVTQTNINTNLQEFAGLGVKTTGTIANNNAFDWLKNKYLSYGYTASDFSEDAFTYGGNSSKNLIITKTGTLYPNKYVIICGHYDTIVGPGVSDNGSGTSIILEAARILKDIPTEYSIKFIHFSGEEQGLVGSNHYVNNVAYQGSTRILDIKLVFNIDQVGGLIGNNNNTITCERDTGGVSSNNIASNAITQELMNCTSLYSPLQTHLSYAYSSDYMPFEAKGYTITGFYETVQSNNEHTVSDTYANIDPVYVFNVGKAAVGALQHFAVATTASNLLSTQETIQNSAEAVIIYPNPAKDVLMIEFQQKVKQFKVEINDMVGNSVLNTENEERINTSGLKNGVYMVTVKTVKGNTTKKIIINK	PGPT0020920_344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020920-ywaD-K19701	NA	NA
BMS003_03522	1176			hypothetical protein	ATGAAGAAAATCTCTACTTTTTTACTCGCTTCTATTGCTGTGTACAATGTGAATGCTCAAAGTTTCATTCAGGCATATCAGGACAGAGCGGATATGGTTAATCAAACCAATATCACTACATCCCTTCAGGATTTTGCTAATTTAGGGGTTAAAAAAACAGGTACAGCAGCCAATAACAATGCTCTTGAATGGCTTAAAACTAAATATCTTTCTTACGGATATACAGCAAATCAGATAGTTGAAGACCCGTTTACTTTAGGAGGCTATACTTCTAAAAATCTGGTGATTACCAAAACAGGAACTGTATATCCGAATAAGTATGTGATCATCTGCGGGCATTTCGACAGCATTACAGGACTGGGAATTAATGATAACGGAAGCGGGACATCCATTCTTCTTGAAGCAGCAAGGATTCTGAAAGATATTCCAACAGAATATTCTATAAAATTTATTCATTTTTCCGGTGAAGAGCAAGGCCTTCTGGGAAGCAAGCATTATGTAAACAATGTAGCTTATCAGAATGGTGTCCGGGTATTGGATATTAAGCTAGTTTTTAATCTGGATCAGGTAGGTGGTGTTATGGGAAATAATAACAATACTGTCTACTGTGATGAAGATCAGGGAGGACTTTCAACAAACAATGCAGCATCTGCTGCCGTAACCCAGGAACTCAGAAACTGTACAGCCCTCTACTCTCCGCTTCTCACTGAGGTGGATCCGGCTGCTGATACAGATTATATTCCTTTTGAACAGAAAGGTGAAGTGATCACAGGCTTCTTTGAAAGAATCAGAAGTACTTACCCACATACCGTAAATGATACTTTTGCCAATACAGATCCTGTATATATCTATAATATAGGAAAAGCATCTGTAGGTGCATTACAGCATTTTGCTGTTGCTACAGGAACATTGGGAACTCATGAGGCTGTTGCCAAAAACGTGCTGGAAAATATAATAATCTATCCAAACCCTGCAAAGGACGTCATTAATATTGAGCTTCCGGATTCCGGGCTTAAAAATTTCACTTTTGAAATCACCGACTTCCAGGGAAGATCTATTTTTAAAAGAACAAATGAAACGAAAATCAATGCTTCCGGACTGAAAAACGGAGCTTATATCGGTATTGTAAAAACCGGAGATCAAAAGGTCGTAAGAAAAGTGATGATTGAAAGATAA	MKKISTFLLASIAVYNVNAQSFIQAYQDRADMVNQTNITTSLQDFANLGVKKTGTAANNNALEWLKTKYLSYGYTANQIVEDPFTLGGYTSKNLVITKTGTVYPNKYVIICGHFDSITGLGINDNGSGTSILLEAARILKDIPTEYSIKFIHFSGEEQGLLGSKHYVNNVAYQNGVRVLDIKLVFNLDQVGGVMGNNNNTVYCDEDQGGLSTNNAASAAVTQELRNCTALYSPLLTEVDPAADTDYIPFEQKGEVITGFFERIRSTYPHTVNDTFANTDPVYIYNIGKASVGALQHFAVATGTLGTHEAVAKNVLENIIIYPNPAKDVINIELPDSGLKNFTFEITDFQGRSIFKRTNETKINASGLKNGAYIGIVKTGDQKVVRKVMIER	PGPT0020920_363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020920-ywaD-K19701	NA	NA
BMS003_03523	1170			hypothetical protein	ATGAAAAAATTCACAACACTTTTGTGCACTGCATTTGTGATGCAGTGCATAGGAGCCCAAAGCTTTATCCAGGCTTACAAAGACAGGGCAGATATGGTTACGCAAACCAATATCACTACAAATCTCCAGGAGTTTAGCAATTTAGGAGTAAAAACTACAGGTTCGGTAGCTAATGCCAATACACTGAACTGGATCAAAAACAAATATCTTTCTTATGGCTATTCTGCCAGTCAGATTGAAGAAAGTCCTTTTACTTTCGGAAGTACCAGTTCCAAAAATTTAATCATTACCAAAACCGGAACACTTTATCCCAACAAATACGTCATTATCTGCGGACACTTTGATACTATTTATGGGCCGGGTGTGAATGACAATGGCAGCGGAACTTCTATTATTCTTGAAGCTGCAAGGATTCTGAAAAATGTTCCCACCGAGTATTCTATTAAATTCATTCATTTTTCCGGTGAAGAACAGGGATTAAAAGGCAGCAGCCATTATGTTAATAATGTAGTATACCAGGGAGGTGTCCGCAAATTAGATATCAAACTGGTCTTCAATCTGGATCAGGTAGGCGGTGTGAAAGGGAAAAACAACACTACTGTATATTGTGATGAAGATCAGGGTGGAGTTTACAGTAATAATGCAGCATCTGCCGCCGTAACTCAGGAACTCAGAAACTGCACGGCACTCTACTCTCCTCTTCTGACGGCCGTAGATCCTGCTGCTGATACAGATTATATCCCTTTTGAACAGAAAGGTGAAGTGATTACCGGATTTTTTGAAAGGATACGAAGCAGCTATCCTCACAGCTCTAAGGATACCTTCACCAATATGGATCCTGTGTATGTATACAAAATTGGAAAAGCAACTGTAGGAGCATTACAGCATTTTGCATCAGCTTCTACTACCCTTAGCAAACCTGCTTCTAAAAACTCGCTTGAAGCGGTAAAAATCTATCCTAACCCCGCCAATAACATTCTTAATATTGATTTACCGGATTCTAAAGAAACTAACTTCAGTTTTGAAATCAGCAATTCTATGGGAAGATCAGTACTGAAAGTCAATAATGAAAGAAAAATTAATGTTTCCGGTCTTCAGAACGGAGTGTATATTGGAGTTTTGAAAATAGGTGAAGAGACTCTTGCTAAGAATATTATGATTGAAAGATAA	MKKFTTLLCTAFVMQCIGAQSFIQAYKDRADMVTQTNITTNLQEFSNLGVKTTGSVANANTLNWIKNKYLSYGYSASQIEESPFTFGSTSSKNLIITKTGTLYPNKYVIICGHFDTIYGPGVNDNGSGTSIILEAARILKNVPTEYSIKFIHFSGEEQGLKGSSHYVNNVVYQGGVRKLDIKLVFNLDQVGGVKGKNNTTVYCDEDQGGVYSNNAASAAVTQELRNCTALYSPLLTAVDPAADTDYIPFEQKGEVITGFFERIRSSYPHSSKDTFTNMDPVYVYKIGKATVGALQHFASASTTLSKPASKNSLEAVKIYPNPANNILNIDLPDSKETNFSFEISNSMGRSVLKVNNERKINVSGLQNGVYIGVLKIGEETLAKNIMIER	PGPT0020920_379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020920-ywaD-K19701	NA	NA
BMS003_03524	444			hypothetical protein	TTGCAAACTCCTTACGATGGTCACACCATTGAATCGCTTTTGGAACAAATGGAAAACAGCGGTCAAAAGCTACCAAAAGGACTCGTTTACGACCGGGGTGGAAGAGGAAAATCTCAAATCAAAGGTGTGAAAATATCTATCCCAGGCATTCCACGAAAATCAGATACTACTTATCAAAAGCAAATAAAACGCAAAAAATTAAGAACAAGAGCAGCAATAGAGCCTATAATAGGACATCTAAAAACCGATTTTAGGCTGGCTCAGAATTACTTCTTGGGAGAATCGGGACCACAAATCAATGTATTACTATCTGCAACCGCTTGGAATATGAAGAAAATGATGGAAATATTGAAACAGAAAATTGTTTTCTATTTTTATCAAATACACATCATCCTGTTTTTTAATGATTTTTTAAAAAATAAATTAGAAAGAAGGTTTTGTTAA	MQTPYDGHTIESLLEQMENSGQKLPKGLVYDRGGRGKSQIKGVKISIPGIPRKSDTTYQKQIKRKKLRTRAAIEPIIGHLKTDFRLAQNYFLGESGPQINVLLSATAWNMKKMMEILKQKIVFYFYQIHIILFFNDFLKNKLERRFC	PGPT0030605_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030605-IS5_family-K07481	NA	NA
BMS003_03525	528			hypothetical protein	ATGAAATACTGTGCTTTTCTCCGCGGCGTCAATGTAAAAGGAACCAATATGAAAATGGCTGATGTATGCCAGGTTTTTAAAGAGGTAGGAATGAAAGAGGTAAGTTCAGTCCTGGCTTCCGGAAATATTATTTTCTCTTCGGATAAAAAAGTGGCGCAATTGAAAACTATTCTGGAAAAAGCCATGTCGGAACATTTTTCTTACGAAGCATTTTTGTTTGTAAAATCTCAGGAAGAAACTGAAATATTCTGGAACAGCATCCCTTTTGAACAGAATAATGGGTTTCATATTTATGGTTTTGTCGGAACTCCGGGAGTGGAAAAAGCCTTAATGGAAGAATTTCAAAAGGCTGGGCAGGTAGAAAATGAAAAGGCAGAAATCATCAATGATCTGTTTTACTGGCAGGTTCCGAAAGGAAATACCTTAGATTCTACCTTTGGAAAAGTGCTGGGTAAAAAAAGTCTTAAAGATCAGTTTACCAGCAGAAATGTGAATACGTTTGAGAAGATTCTGAAAAAGATGAATTAA	MKYCAFLRGVNVKGTNMKMADVCQVFKEVGMKEVSSVLASGNIIFSSDKKVAQLKTILEKAMSEHFSYEAFLFVKSQEETEIFWNSIPFEQNNGFHIYGFVGTPGVEKALMEEFQKAGQVENEKAEIINDLFYWQVPKGNTLDSTFGKVLGKKSLKDQFTSRNVNTFEKILKKMN				NA	NA	NA	NA	NA
BMS003_03526	1494			hypothetical protein	ATGTCTGAAACAAAAAATAGCAGGTTCCCGATCTATGCTGTAATTGCTACTGTTGCTTTTAAGCTTCTTTTTTTACTTACACATTATATTCAGGAAGATGCGTTTATTACATGGCGGGTCGCCCAGAATCTGCTGGATTATGGAGTAATTGGTTTCAATGGAGATACCAAAATTTCTGCGTCTACCACACATTTATATGTTTTTGTGTCTTATCTTTTCAATCTTGTTTTTGGAAAAGAAAATTTTATTGAACCTCTTTTGATTTTCAATTCTCTATTATTTACAATAGGAACTTTACTGCTTTCCCATCTGGTCCTTAAAAACCCTTGGCATAAAGCTATTTTTATATTTTTGATTGGTATTTTACCGCCATCCATTAAAATTTCAATTCTCGGAATGGAATACGGACTTCTGTTTTTCCTTGAGATGGCATTATTATATTATGGCTTTTATAAAGGCAAAAAATGGGTATTTGCAATTCTTCCGGTATTGATTATGTTTACCAGAATTGATACGGTGATCTTCCTTGGGATTATCTTTCTTGTAGATGTATTCTGGAACAAAAAAATCAGATGGAATTATATTTTTGGAGGTATTCTGGGGGTATTATCTACGGTTGCTTTTAACTGGTTCTACTTTGGTGAACTGGTGAATAATACCATTACGGCTAAAAAGCTACTTTATAGCGAAAACCTAACGGTTCAACAGCATATCGGCTACTTTTTTAAGAGTTTCGGAAACTTCTGGGGCATGCTGAAAGTTCCGGGGGATTTCAATCCAATGACTGTTGTAATCCTGATTTTTGAACTGGTCTGCTTTATTTATCTGATCAGACAAAGAGAGAAGAGAAATTACTTTTTATGGATAATCTTCCTTTTCGGTTGGATTAAACAGATCATATTTATTTCTCAGAAAAGCTTGTTCGACTGGTATTACTGGGTACCGCAGCTTTTGCTTTTTGTTCCCGTTCTTATTTTTGTACTGGAACAGAAAGAGAAGAGAAATCTATGGCTGTCATTACTTATGATATTCTATATTTTCCCGATGCTTATTTTCCAGACTGTTCACTGTATTGCAACAGGAAACGGAGAATGGAACTACCGCAGAACTATTGGGACATTTTTACATCAATATGAAAAGGATAAAAATCAGTGGATCTTATTGGAGCCTGCTGGCTATGTTCCTTATTTTTCAGGGTTAAAAACAATTGATGAGGTAGGGTTGGTAGATAAACAGATTCAGGAAGAAATTAAAAAAGATAAGGTCAATTACTGGATCAACACGGTAAAAAACAGAAAACCGAAATATCTTCTTTCTTATCAGAATTTATACGAAGAAAAGAATGCCAATTCAGAGTACTATAAAACTCATTATAAGCTTCTGAAAGAATTCCGTGTGAAAGATCATCTGAAAAGTGATAATAAAATTCTGGAAAAAATTTATCACCTGAAACCTTCCGGAACAGACTATAATTTGTACATTAGGGTTGATTAA	MSETKNSRFPIYAVIATVAFKLLFLLTHYIQEDAFITWRVAQNLLDYGVIGFNGDTKISASTTHLYVFVSYLFNLVFGKENFIEPLLIFNSLLFTIGTLLLSHLVLKNPWHKAIFIFLIGILPPSIKISILGMEYGLLFFLEMALLYYGFYKGKKWVFAILPVLIMFTRIDTVIFLGIIFLVDVFWNKKIRWNYIFGGILGVLSTVAFNWFYFGELVNNTITAKKLLYSENLTVQQHIGYFFKSFGNFWGMLKVPGDFNPMTVVILIFELVCFIYLIRQREKRNYFLWIIFLFGWIKQIIFISQKSLFDWYYWVPQLLLFVPVLIFVLEQKEKRNLWLSLLMIFYIFPMLIFQTVHCIATGNGEWNYRRTIGTFLHQYEKDKNQWILLEPAGYVPYFSGLKTIDEVGLVDKQIQEEIKKDKVNYWINTVKNRKPKYLLSYQNLYEEKNANSEYYKTHYKLLKEFRVKDHLKSDNKILEKIYHLKPSGTDYNLYIRVD				NA	NA	NA	NA	NA
BMS003_03527	3486			hypothetical protein	ATGAAAAATTGGACTTTTAGGCAATGGAACACCGTTTCAGGATGGGTGATTTTCGTTATTGCTTTTTTCACGTACTTGTCCACCATAGAACCCAATTTCAGTTTCTGGGATTGTGGCGAGTACATTTCTTCTGCAGTAAAACTTGAAGTAACGCACGCTCCCGGAGCTGCTTTATTCCAGATAGTGGGTGCCGTGGCAGCCATTTTTGCATTAGGAAAAGGCGAAAACTATTCTATCGTGATCAACGCGATGTCTGCATTGTTCAGTGCGCTGACTATTTTATTTTTGTTCTGGACGATCACTCATTTTGTGAGACGACTTCTCAACAAAGATTTTGAAGAAATTACAAAACATCAGGAAATTTCTATTTTATTTGCCGGAGCGGTAGGAGCACTTTGCTTCACGTTTTCAGATACGTTCTGGTTCTCGGCAGTAGAAGGAGAAGTTTATTCTATGGCTTCCATGTTTATTGCGCTTTTGGTCTGGTTAATCACCAAATGGGAAAATGAATATAAAGCGGGAGACAGTGAAAGGTGGATCATTCTTATTTTCTTTGTTTTAGGACTTTCTGTGGGAGTGCATATGATGTGCATGCTGGCAATCCCTGCGGTATGTCTGGTATACTATGCAAGAAATTATAAGTTTACCTGGAAAAACTTTATATGGGCCAATCTTATTACCTTAGGGATTTTGATTATTGTTTTCAAAATTATCTTCCCTTTAATCATGACGATGTTCGGAAGACTTGAAATTTTCTTCGTGAACGGTCTTGGACTTCCTTTCCATTCCGGAACAATAGCTGCTTTTGTTCTGATGGTAGCAATCTGCTATTTCTTAATTAAATATGCAAGAAAAGCAAAAAGAAACATCTATCAGACGGTTGCATTATCTGTAGTTTTCATGATGATCGGGTTCTCCTGCTGGATGGTTATCCCTATCAGAGCCAATGCTAACCCGCCGATGAACCTTAATGATCCTGATACGGCAATTGGTATGCTGGATTATTATAACAGAGAACAGTATGGTGACTGGCCTACTATTTATGGACAAAACTATACCGCCTTCCTTGATGCTAAAGGAATTGAGAAGAATGAAGACGGAAGTTTCAAAACACAAAAAACCGGAGAAATCTATGAAAAAGACGAAAAAACCGGGACATACAGAAAAACCGGAGACCGTTTCAATTATGTATTCAACAAGTCTCAGGTAAGCTTAATGCCAAGAATGTTTAATGAGGATAAGGATGTAATGGCGAACTATATTTCTATGTATGGTGCTCCTGATTTTACATTCAATTATGCGAACGAAGATGTGGCAGATAATCCACAGGCAAAGCAGATCTTTGATGAGCTGAGAGCGAAATATGAAGACAAATCCATTACCGCTTCAGATTATCTGAAAGTAAAACCTTATAACCTGATCAATGTTCAGAAGCCTTCATTCCTTCAGAATATGGATTACTTTATTTCTTTCCAGAACGGATACTACTTTGTAAGATACCTGATGTGGAACTTTGTAGGAAGACAGAACGATCTTGAAGGAAACATGGAAAGCACAAAAGGAAACTGGATTTCCGGAATTCCTTTTATTGATAATGTTACCGTAGGAAATCAGGATAAAATGCCGGCGAAATTCAAGAATGAAAGTACGGTGAAATTCTTTTTCCTTCCGTTAATTTTAGGTTTAATAGGATTCTTTTTCCAGTTAAACAGAGACTTCGGAAGATTCTATGCACTGCTATCTTTGTTTATTTTAACAAGTGTGGGGATTATTTTTTATACAGGTGTGAAACCTTTTGAGCCAAGAGAAAGAGATTATGCAATGGTAGGTTCATTCTACGCATTTGCCATCTGGATTGGTTTGGGAGCGGGAGCTATCCTATGGTTCTTACAGTCTAAAATAAAATCAAATGGAGCCAACATCGGTTTAGGAGTGGTTTTATTGGGAGTACCTTTCATGATGGGCTTCCAGAACTATAATGTTCATGACAGAAGTAACAGATATACAGCTTATGATTATGCCTATTCAGTGTTAAAATCATTGCCGAAAAATGATATCCTTTTCGTTTACGGAGATAATGATACTTATCCGGTTTGGGCTATTCAGGAGACTGAACAGTTCAGAGATGATGTGAAGGTTGTAAACTTTACGCTTGCTTCTACGCCATGGAATCTTGACCAGATCAAAAGAAGAACGTACAACGCGATGGGAATCCCTAGCGAGTTGACACACGATGACTACAGAGATGGTGTCAATGACCAGATCTATATGATGAAGAAAGAAGATTGGGAAGGTGTTTTCTCTATGTTAAAAGAACAGGGAGCTCCGGATACAGAATTCCAGTCTTTCAGAAAATATCTTACTCAGGATTCTCTGACACTGAAACAGGCTATTGAATTCATTAAGTTCAAATCTCCTGAAAAAGATGAGCTGTTGAAAATGTACTTCGGGGAAGAAAAATATGAAAAATATAACATCCTTCCTGTAAACAAATTCATTCTTCCTGTTAATAAAGAAAATGCTCTGAAAGCAGGAATCATTAACAAGGACGATCTTCCAAACGTAGCCAATCAGATTATGATTACCTATAAAGGAAACACATTGTATAAGAATAATCTGATTTTGATGGATCTTTTGGCGAACTTCGACTGGAAGCGTCCCATCAACTTCTCATCCGGAGGTATTTATGACAGTGAGAATATTTTCTATCTGAACAATTACCTTCAGTTTGACGGATTCAGCTACAGATTAATCCCTATCCAAACGCTTCCGACAGCAGATGGAGATATGGGAAGAGTAGATACCAATTCTCTGTATAACGTCGTGAAAAACTTCAGATGGGGGAATTTTAAAAATCTAAATGCGCACTTTGATGAAACAGCTACTTCTAATATCATCAGCTACAGAATGTCGGCGAGCAGAGCTGCTGCAGCACTTGCATTAAGCGGACAGAAGGCGAAAGCATTGGAAATTCTGGATCTTGCAGCTAAAGAAATTCCGGCAGAGAAATATAACGATCCACGTTCGTTAAGCTCAATTGTATCAGGATACATTATCGCAGGTCAGGAGCAGAAAGGTCTTCAGATTGCTGAAGTACTTAAAAAAGGAATATTTGAAGAGTACGATTATTATTTAAGCCTGTCTAAAGCAGATCAAAGCTATCTGAGAAGACAGATGAGAACAAAGCCAATGGAATATTCTCTTGTAGTTTCTGCAGTAACAGATGCTTATACAAAAATAGGACAGAAGGAAAAAGCATATGCTTATCTGGTAAAATCCATAGAGCCGATTGATAAGAAGTTCAATGTATTTATCAAAGATCTTCAGGAAATGGGCAAAGAAAAGGCAATGAAAGAGTCTGAAAATGTTCAGAAGATCACGCCATTCTACCAGTATTTATTTGATGTCATGGAACCTTATGATTCCACTTATTCAAAAGAAAAAGAAAGTCAGATAACTGACGCGATTATCAAAGCAACAAAATAA	MKNWTFRQWNTVSGWVIFVIAFFTYLSTIEPNFSFWDCGEYISSAVKLEVTHAPGAALFQIVGAVAAIFALGKGENYSIVINAMSALFSALTILFLFWTITHFVRRLLNKDFEEITKHQEISILFAGAVGALCFTFSDTFWFSAVEGEVYSMASMFIALLVWLITKWENEYKAGDSERWIILIFFVLGLSVGVHMMCMLAIPAVCLVYYARNYKFTWKNFIWANLITLGILIIVFKIIFPLIMTMFGRLEIFFVNGLGLPFHSGTIAAFVLMVAICYFLIKYARKAKRNIYQTVALSVVFMMIGFSCWMVIPIRANANPPMNLNDPDTAIGMLDYYNREQYGDWPTIYGQNYTAFLDAKGIEKNEDGSFKTQKTGEIYEKDEKTGTYRKTGDRFNYVFNKSQVSLMPRMFNEDKDVMANYISMYGAPDFTFNYANEDVADNPQAKQIFDELRAKYEDKSITASDYLKVKPYNLINVQKPSFLQNMDYFISFQNGYYFVRYLMWNFVGRQNDLEGNMESTKGNWISGIPFIDNVTVGNQDKMPAKFKNESTVKFFFLPLILGLIGFFFQLNRDFGRFYALLSLFILTSVGIIFYTGVKPFEPRERDYAMVGSFYAFAIWIGLGAGAILWFLQSKIKSNGANIGLGVVLLGVPFMMGFQNYNVHDRSNRYTAYDYAYSVLKSLPKNDILFVYGDNDTYPVWAIQETEQFRDDVKVVNFTLASTPWNLDQIKRRTYNAMGIPSELTHDDYRDGVNDQIYMMKKEDWEGVFSMLKEQGAPDTEFQSFRKYLTQDSLTLKQAIEFIKFKSPEKDELLKMYFGEEKYEKYNILPVNKFILPVNKENALKAGIINKDDLPNVANQIMITYKGNTLYKNNLILMDLLANFDWKRPINFSSGGIYDSENIFYLNNYLQFDGFSYRLIPIQTLPTADGDMGRVDTNSLYNVVKNFRWGNFKNLNAHFDETATSNIISYRMSASRAAAALALSGQKAKALEILDLAAKEIPAEKYNDPRSLSSIVSGYIIAGQEQKGLQIAEVLKKGIFEEYDYYLSLSKADQSYLRRQMRTKPMEYSLVVSAVTDAYTKIGQKEKAYAYLVKSIEPIDKKFNVFIKDLQEMGKEKAMKESENVQKITPFYQYLFDVMEPYDSTYSKEKESQITDAIIKATK				NA	NA	NA	NA	NA
BMS003_03528	1038	cbs_3	COG0031	Putative cystathionine beta-synthase	ATGAGTAATGTTTACGATAATATCCTTGGCCTAATAGGGAACACTCCGATGGTGAAGCTAAATACTGTTACAAAAGATATTCCAGCAACCGTTTATGCCAAGTTAGAATCATATAATCCTGGACATTCCACCAAAGACCGAATCGCACTTCATATTATAGAAAACGCAGAAAAAAAAGGCCTTTTAAAAGAAGATTCTGTAGTTGTAGAAACTACTTCCGGTAATACCGGGTTTTCTATTGCGATGGTATGTATCATTAAGGGATATAAATGTATTCTTGCAGTAAGTGATAAAACAAAACCTGAAAAGATTGCCTATCTGAAAGCATTGGGAGCTACGGTGTATATATGCCCGGCCAATGTACCTGCAGATGATCCCCGATCATACTATGAAGTTGCTAAAAGAATCGCTCAGGAAACCCCTAATTCTATTTACATCAATCAGTATTTTAACGAGCTTAATATTGATGCGCACTATCAGACCACAGGCCCGGAGATCTGGGAACAAACTGAAGGTAAGATCACTCACCTTTTTGCCTGTACAGGAACTGGAGGTACACTGTCCGGCTCGGCCAAGTTTTTGAAGGAAAAGAATCCGGATATAAAGATCATTGGAGTAGATGCTGACGGATCTATCCTGAAAAGCTATCACGAGACAGGAGAAATACACAAAGAAGACGTACATCCTTACCAGATTGAAGGAATGGGTAAAAACCTTATTCCTGCGGCCCTACTTTTTGACAAAGTAGATAAGTTTGTAAGGGTAAATGATGAAATGTCTGCTTACAGAACCCGAGAAATTGCTTTGAAAGAAGCTATCATGGGCGGCTATACTACCGGAGCTGTAACGCAGGGACTGATGCAGTATGCCCAGTCTCATGAGCTAACGGAAAATGACCTGGTTGTTTTAATATATCCTGACCACGGTTCCAGATATATCACTAAAGTATACAGTGATAAATGGATGGCTGAACAGGGATTTGTCAACAACTGTGTTCACAACTATGACGAAGTTTTCAAAACAGAGTTTATCAAATAA	MSNVYDNILGLIGNTPMVKLNTVTKDIPATVYAKLESYNPGHSTKDRIALHIIENAEKKGLLKEDSVVVETTSGNTGFSIAMVCIIKGYKCILAVSDKTKPEKIAYLKALGATVYICPANVPADDPRSYYEVAKRIAQETPNSIYINQYFNELNIDAHYQTTGPEIWEQTEGKITHLFACTGTGGTLSGSAKFLKEKNPDIKIIGVDADGSILKSYHETGEIHKEDVHPYQIEGMGKNLIPAALLFDKVDKFVRVNDEMSAYRTREIALKEAIMGGYTTGAVTQGLMQYAQSHELTENDLVVLIYPDHGSRYITKVYSDKWMAEQGFVNNCVHNYDEVFKTEFIK	PGPT0020005_1711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
BMS003_03529	1275	pigH		4-hydroxy-2,2'-bipyrrole-5-methanol synthase PigH	ATGTTGGATATTTTTGAAAGAATAAAAGAAAATCCAGGACCACTTGGACAATTTGCAGATTATGGTGAAGGCTATTTTATTTTCCCAAGATTAGAGGGACCTATTGGCCCTAGAATGCAATTTCAGGGTAGAGAAGTAATTTTCTGGAGTGCCAATGACTATTTAGGACTGTGTAATCATCCTGAAGTTATAGAAGCAGATGCAAAAGCGGCTGCAGAATACGGAATGTTCTATCCAATGGGAGCAAGAGCAATGTCTGGAGAAACAGATCAGCACCTTCAGCTGGAAAGAGAATTGGCAGACTTCGTACAAAAAGAATCAGCATACCTATTGAATTTCGGTTACCAGGGAATGGTTTCTACCATTGATGCTTTGGTGAGCAGAAATGATGTCATTGTTTATGATATGGATTCTCATGCCTGCATCGTGGATGGAGTAAGACTTCATTCCGGTAAAAGATTTACCTACAAGCACAATGATATGGCAAGTCTTGAGAAGAATCTTCAGAGAGCAACCAAGGTAGCTGAAGAAACAGGAGGAGGTATTCTTGTGATTACAGAAGGAGTTTTCGGGATGAGAGGTCAGCAGGGAAAAATCAAAGAGATCTGCAATCTTAAATCAAAATACCAGTTCAGACTCTTGGTAGATGATGCTCATGGTTTCGGAACACTTGGTAAAACAGGTGCCGGTGTGGGTGAAGAACAAGACTGTACTGATCAGATTGATGTATATTTCTCAACTTTTGCCAAGTCAATGGCAGGTTTCGGAGCATTCCTTGCGGGGGACAAAGAAATCATCAGATATCTGAAATTCAACCTGAGATCACAGATCTTTGCAAAATCTCTTACAATGCCAATGGTAATTGGAGGTTTAAAAAGACTGGAGCTATTGAGATCAAGACCTGAGATCAAAGCTAAGCTTTGGGAGAATGTTGAAAAACTACAAAACGGACTTAAAGAAAGAGGATTCAATATTGGAGACACCAACACTTGTGTAACTCCTGTAATGATGCAGGGAACACCTGTAGAAGCAACTTTACTGGTAAAAGACTTAAGAGAGAATTACGGTATCTTCACCTCTGTGGTGGTATATCCGGTCATTCCGAAGGGAATGATTCTTTTAAGACTGATTCCTACCGCTTCTCATACGGATGCAGAGATCAATGAAACTCTGGCAGCGTTTGAAGCTATTCATGATAAATTAGTAGGTGGCCACTACAAAGAGCAGGAACAGAAATTACTGCAGGAACAAGGGTTAAGTTTTAAACCGATTTAA	MLDIFERIKENPGPLGQFADYGEGYFIFPRLEGPIGPRMQFQGREVIFWSANDYLGLCNHPEVIEADAKAAAEYGMFYPMGARAMSGETDQHLQLERELADFVQKESAYLLNFGYQGMVSTIDALVSRNDVIVYDMDSHACIVDGVRLHSGKRFTYKHNDMASLEKNLQRATKVAEETGGGILVITEGVFGMRGQQGKIKEICNLKSKYQFRLLVDDAHGFGTLGKTGAGVGEEQDCTDQIDVYFSTFAKSMAGFGAFLAGDKEIIRYLKFNLRSQIFAKSLTMPMVIGGLKRLELLRSRPEIKAKLWENVEKLQNGLKERGFNIGDTNTCVTPVMMQGTPVEATLLVKDLRENYGIFTSVVVYPVIPKGMILLRLIPTASHTDAEINETLAAFEAIHDKLVGGHYKEQEQKLLQEQGLSFKPI	PGPT0020495_208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
BMS003_03530	879			hypothetical protein	ATGAAACTTAGAGGTTATACACTGGGAATTCTGTCGGCCGTTTCATATGGTCTGATTCCAATTTTTATTTTGCCTGTCAAGCATGCCCATTTTTCAATGGATATCACGCTATTCTATAGATTTCTCTTTTCTGCTTTAATGGTGGGAGGATACCTGCTGTATTCCAGAGAAAGTTTTAAAATCAATAGAAAGGAAGCCTTGATGCTGGCTATCCTTGGAATTTGCTATGCCCTTTCTTCAGAGTTTCTGTTTTTGGGGTATGATTTCCTTACGCCGGGAATTGCCTCTACCGTTTTATTTATTTACCCGATTATTGTAGCACTCATTATGCTTTTCTTCTACAAAGAGAAGCTTACCAAGCTGTCAGGAGTTTCTTTGCTTCTGGCTTTTGCAGGAGTAATAGTGTTATGCCTAAAAGGGAACGGACTGGAAATCAATTTTGCAGGACTGGGAATTGTAATGCTCAGTTCACTCTTCTATGCTTTATATATGGTTATCGTCAACAAATCGAATATTAAGGTTTCAGGATTTAAGCTTACGTTTTATTCTATGCTTTTCACATCTATGTTCTTTATGTCCAAAGCTGTGATAGCAAATGAATCCTTTGCCATTCCTTCAACAGAGATTTTTGTAAACTTCCTTATTTTTGCATTTCTCACTACTGTTATTTCCAGTCTTTGCCTTGTATATGCCATCAAATATATCGGATCTACTCCTGTTGCTATTTTGGGAGCTTTAGAACCTGTGGTTGCTGTACTGATCAGTGTTTTGATGTTTCATGAAAAATTCACTCCTAATCTGCTGATCGGGATTACTTTAATTCTTTTTGGAGTTACCCTGAATGTGATTGGTGATCAAAAGAAAATGGGTCATGCATAG	MKLRGYTLGILSAVSYGLIPIFILPVKHAHFSMDITLFYRFLFSALMVGGYLLYSRESFKINRKEALMLAILGICYALSSEFLFLGYDFLTPGIASTVLFIYPIIVALIMLFFYKEKLTKLSGVSLLLAFAGVIVLCLKGNGLEINFAGLGIVMLSSLFYALYMVIVNKSNIKVSGFKLTFYSMLFTSMFFMSKAVIANESFAIPSTEIFVNFLIFAFLTTVISSLCLVYAIKYIGSTPVAILGALEPVVAVLISVLMFHEKFTPNLLIGITLILFGVTLNVIGDQKKMGHA				NA	NA	NA	NA	NA
BMS003_03531	762			hypothetical protein	ATGAAAGAATTGCAAAAACTCACCAAAGATCAATTATACAAAAAGCTCAAAGAAAAATCAGAAAATCTTTATAATGTAGCTCATGAATCACTGGAAAATAATTTTTTCGATGAAAGCTATTTAGATGAAGAAAGTCTTGCAGAATTTCTTGAAATGCTGGATGATGAAACAGCAGAAAAAATAAAAGACGCCTCCCTCCATATCAATAATGAAGATGATGCTCCTGAAATTGTCCTCATAGAAAATGAAAGCAACACTTCCCTGGAACTGATCACCAGTGAAGATGAAGGGTATAAAATTATTCTTATAGAAGGAAATCTTACTTTATCCCGGAAACTGTTTGTAGAAGATTATATTATCCTTATTGTTACCGGAAATATACAGGCTGAAAATATTATCGTGAACGGTTCATTATACTGTTCAGGAACTGTGACTTCCAAGGTATTGTTCGGAGCATCAGGCAATGATAATGAAACGTATGTAGCAGGAAGTATTATGACTTCTCTTATTGCGGAAAACGGGCATTACACGGTGGCAGAAGGAAATATATATTCCAGATATTTAATCAGTTTTCATAATGAAATCATCGGGAAAACCGGAAAATTTATTGAAAATATCAGCATAGAAACACCTGGTGAAATTGGATTACTGAAAGCTGAAATCCTGGATGAAGACGGGTATTTCGACGAAGATTCTTTCCTAAACTTTATTGACAATAATTCTCCGGATGCTTTGTTTAATAAACCAGCCAATTTATTCTAG	MKELQKLTKDQLYKKLKEKSENLYNVAHESLENNFFDESYLDEESLAEFLEMLDDETAEKIKDASLHINNEDDAPEIVLIENESNTSLELITSEDEGYKIILIEGNLTLSRKLFVEDYIILIVTGNIQAENIIVNGSLYCSGTVTSKVLFGASGNDNETYVAGSIMTSLIAENGHYTVAEGNIYSRYLISFHNEIIGKTGKFIENISIETPGEIGLLKAEILDEDGYFDEDSFLNFIDNNSPDALFNKPANLF				NA	NA	NA	NA	NA
BMS003_03532	2190			hypothetical protein	TTGAAAGACCTGCTTCTTATTACTCCACCTTTTACCCAGCTTAATACTCCATATCCTGCAACGGCTTATATTAAAGGATTTTTAAATACTAAAAATATTTCCGCTTATCAGGTAGATTTGGGGATTGATGTTATCCTGGAACTATTTTCAAAAGACGGAATTCAAAAGGTTTTCAATAAAGAAATTGATCTTCATAACACCTCTGAAAACTCTCAGAGAATCTATGCCTTAAGAGAGGAATATTTAAAAACCATAGATCAGGTCATTACTTTTTTACAGGATAAAACTCCTACATTAGCAAGGCAGATCTGCAGCATGAATTTTCTTCCGGAGGCTTCCCGTTTCAACCAGCTGGATGATATGGAATTTGCTTTTGGAAATATGGGGCTTCAGGATAAAGCCAAGCATCTGGCAACTCTATATTTGGAAGATATCTCAGACTATATTGTAGAAAATATTGATGCTGATTTTGGTTTCAGCAGGTATGCCGAACGCCTTGGAAAAAGTGCCAATTCTTTTGATGAATTGTATACAAAGCTGTCTGGTGAAGCTACATTTATTGATGAATTTACGCTAAAAATTCTTCGTGAAAAAATAGAAACTATTCAGCCGAAACTGGTTTGTTTTTCCGTACCGTTTCCTGGAAATTTGTATTCCGGGTTCAAATGTGCACAGTGGATCAAAAAACATTATCCTCATATTAAAACCGCTATGGGAGGAGGTTTTCCCAACACAGAACTAAGAGAAGTTAAAGATCAGAGAGTATTTGAATTTTTTGATTGTATTACTTTAGATGATGGCGAGCTTCCCCTGGAACTTCTTCATCAGAATTTAGAAATTCCATCAGAGGAAGGTGAATTTAAGAGAACTTTCCTTCTCGAAAAGAATGAAGTTGTTTACAAGAACAATTCTAAAAGGCATGATTATAAACAGTCTGAAATCGGGACTCCTGATTATACAGATTTAAAACTGGATCAGTATATTTCCGTTATCGAAATCGCCAATCCCATGCACAGCTTATGGAGCGACGGAAGATGGAACAAACTGACCATGGCACACGGGTGCTACTGGGGAAAATGTACATTCTGTGATATTTCTTTAGATTATATCAAAATCTACGAACCTATTTCTGCTAAGATTCTGGTAGACCGAATTGAGGAGTTAATCCGCACAACTGATGAAACCGGATTTCATTTTGTGGATGAAGCAGCACCACCTGCCTTAATGAGAGAAGTTGCCCTGGAAATTCTTCGAAGAAACCTTGTTGTTACCTGGTGGACCAATATCCGTTTTGAAAAAAGTTTCACCCGTGATTTATGTTATCTCCTGAAACTTTCGGGATGTGTGGCTGTTTCCGGAGGACTTGAAGTAGCCAGTGACCGCCTGCTGAAATTAATAGATAAAGGAGTTTCTGTAGATCAGGTTGCCAACGTAACCAGAAATTTTACCGAAGCCGGAATTATGGTTCATGCCTATCTGATGTATGGCTACCCTACCCAAACCATTCAGGAAACTGTTGATTCCCTTGAAATGGTAAGACAAATGTTTGAAATGGGAATTCTTCAAAGTGGTTTCTGGCATCAGTTCGCCATGACAGCCCATTCACCTGTAGGAATAAGTCCTGAAGATTTTGGAGTAATTCCCGTAAAGCAGGAAATCTTATTTGCCAACAATGATATCGATTTTAAAGATAAAACCGGAATTGATCATAACAAGTTCAGCTTCGGATTAAAGAAATCTCTATTCAATTATATGCATGGAGTGAATTTTGAATTACCTCTTCAGGAGTGGTTTGATTTTAAAATTCCAAGAACAACCATTCACCCCGATTATATTCATGACTGTCTTTTGGAAGATGTACAGTTTAGTCTGAAAGGAAATTCCAAAGTTATCTTTTTAACCAAAAACGTAATCGCTGAGAATCGCGTAAAAAATAAAAAGAAATATTCTGGTACATATACGCTTCTTACATTCCACTTAAAAACCAATATTGTGAAGGTAGAACTGGAACAGGAAAAGGCAGAGTGGCTAATGGGTGTATTGGAAGAAAATGCAATTGAAAATTCCAAAAAACTTACAGTTCAGCAACTTAAAAATCAATTTGAAGAAAATTTCGAAGATTTTGAGTTATTCTGGTTCTCAAAGCCCATGCAGCAATTGAAAGAAAATGGAGTGATTTTAAGTTTATAA	MKDLLLITPPFTQLNTPYPATAYIKGFLNTKNISAYQVDLGIDVILELFSKDGIQKVFNKEIDLHNTSENSQRIYALREEYLKTIDQVITFLQDKTPTLARQICSMNFLPEASRFNQLDDMEFAFGNMGLQDKAKHLATLYLEDISDYIVENIDADFGFSRYAERLGKSANSFDELYTKLSGEATFIDEFTLKILREKIETIQPKLVCFSVPFPGNLYSGFKCAQWIKKHYPHIKTAMGGGFPNTELREVKDQRVFEFFDCITLDDGELPLELLHQNLEIPSEEGEFKRTFLLEKNEVVYKNNSKRHDYKQSEIGTPDYTDLKLDQYISVIEIANPMHSLWSDGRWNKLTMAHGCYWGKCTFCDISLDYIKIYEPISAKILVDRIEELIRTTDETGFHFVDEAAPPALMREVALEILRRNLVVTWWTNIRFEKSFTRDLCYLLKLSGCVAVSGGLEVASDRLLKLIDKGVSVDQVANVTRNFTEAGIMVHAYLMYGYPTQTIQETVDSLEMVRQMFEMGILQSGFWHQFAMTAHSPVGISPEDFGVIPVKQEILFANNDIDFKDKTGIDHNKFSFGLKKSLFNYMHGVNFELPLQEWFDFKIPRTTIHPDYIHDCLLEDVQFSLKGNSKVIFLTKNVIAENRVKNKKKYSGTYTLLTFHLKTNIVKVELEQEKAEWLMGVLEENAIENSKKLTVQQLKNQFEENFEDFELFWFSKPMQQLKENGVILSL				NA	NA	NA	NA	NA
BMS003_03533	819			hypothetical protein	ATGAAGAAAGGCATAATCATATTCTTTACTGTTCTGGGTGTTTTCCTCCATGCTCAGAATATCAAAACCAAGAGAGGAATTATCAATCTTGACGGTGTTCCGGTAGCTAAGCTTTCCAATAAATCCAGCGAATATACGTTTATGGATCTTAAAGAGACCCCGATCTATACTATAAAATTCATTGATAAAAGTATCGTTGATTCTGTCCGTGACAGCTATATCAGAATCAACAGAGTATACAACAGGGATAAAACTATTGAAATTGATTATTCATCACCTTCTGCGTTCTCCGGTGAAGAAAAGTCTGCCGTTTTTACTTCGGTTAAGGATCTTAAAATCATTGATAATAAAGGGATCAATGTTAAAAACCTTGATGAACTTTTTTCAAATGTTCCAAAGAGAAAGCTGGATACTAAAACCAAAGACGCCTATACCATCAGAAAGAAAATAGATAAGATGAATATTGAGGTCAATAAAGTAGGAGAGATCCTTAGTAATGGCGTTCCCGTAGGATATTTTACCAATTTACCTGTAAGTTTTGGCTCAGAAGACACCATCATGGATAAAACTCCTATAGATATTGAGATCTATGATGCTAAAAGTAAGCTTATCGGAAGATATATTACAACCACAAAGCAATTAAAGACAGCTGGCGGAAAATCTTTTACCATATACAAGGAAATGTCCGGAAGAGCCTCTATCTTAAAGTTCCCTACTTATAAAGCGCTTGCTGAACGCATGGCTATTATGGATCCCAATTTTATTAAAATCCAGGAAAAGGTGTCTGTAGGTACGGTATCAAAAGAAACTCCTAATTGA	MKKGIIIFFTVLGVFLHAQNIKTKRGIINLDGVPVAKLSNKSSEYTFMDLKETPIYTIKFIDKSIVDSVRDSYIRINRVYNRDKTIEIDYSSPSAFSGEEKSAVFTSVKDLKIIDNKGINVKNLDELFSNVPKRKLDTKTKDAYTIRKKIDKMNIEVNKVGEILSNGVPVGYFTNLPVSFGSEDTIMDKTPIDIEIYDAKSKLIGRYITTTKQLKTAGGKSFTIYKEMSGRASILKFPTYKALAERMAIMDPNFIKIQEKVSVGTVSKETPN				NA	NA	NA	NA	NA
BMS003_03534	282	atpC		ATP synthase epsilon chain	ATGAATATAAAAATTTTAACACCAGAATACGTAGTTTTTGAGGGAGAAGTAGACTCAGTATTATTGCCTGGAAAAAATGGTGAATTTCACATCATGAAAAACCACGCAGGAATTGTTTCTTCTTTAATCGGAGGTGATGTAAGGCTTTTTGCTAATTCTATTGATGAGGCTTATGCTAAGAACTTCACTAAAGAAACTGGAAAAGACTCTGTTTTTGCTTATGCTATCAAAAGCGGTGTTGTAGAATTTAATCATAATAAAGGTATTATCCTTTGTGAATAA	MNIKILTPEYVVFEGEVDSVLLPGKNGEFHIMKNHAGIVSSLIGGDVRLFANSIDEAYAKNFTKETGKDSVFAYAIKSGVVEFNHNKGIILCE	PGPT0014295_4033	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS003_03535	1509	atpD	COG0055	ATP synthase subunit beta	ATGGCAAACCAAATTAAAGGTAAAATTTCTCAAATTATTGGTCCGGTAATCGACGTTGTCTTCACAGATGTGGAAGCTGTTCCAGCAATCTATGACGCGTTAGAAATTACAAAAGAAAACGGTGAAAAAGTAGTTTTAGAGGTAGAACAACATATTGGCGAAGATACAGTAAGATGTATTGCAATGGACGCTACTGACGGTCTTAAAAGAGGGCAGGACGTAATTGGATTCGGAAATCCTATTATGATGCCTATCGGTGAGGCTGTAAACGGAAGACTATTCAACGTTGTTGGTGATGCTATCGACGGACTTCAAGATATTTCTAAGGATGGTGGTCTTCCAATTCACAGACCAGCTCCAAAATTTGATCAACTTTCAACTTCTGCGGAAGTTTTATTTACAGGTATTAAAGTAATCGACTTAGTTGAGCCTTACGCAAAAGGAGGTAAAATTGGTTTGTTCGGTGGTGCCGGTGTAGGTAAAACAGTATTGATCCAGGAGTTGATTAACAATATTGCAAAAGGACACGGAGGTCTTTCTGTATTCGCCGGAGTAGGTGAAAGAACGAGAGAAGGAAATGACCTTTTGAGAGAGATGTTGGAATCAGGTATTATCAAGTATGGTGATGATTTCATGCACTCTATGGAAAACGGAGGTTGGGATCTTTCTAAAGTAGACTTAGAAGCTATGAAAGATTCAAAAGCTGCATTCGTTTTCGGACAGATGAACGAGCCGCCAGGTGCAAGAGCGAGAGTAGCACTTTCTGGTCTTACATTGGCTGAGTACTACAGAGATGGTGGAGAAAGCGGACAAGGTAGAGACGTACTTTTCTTCGTAGACAACATCTTCCGTTTTACACAGGCTGGTTCCGAGGTATCTGCACTTCTTGGTCGTATGCCATCAGCGGTAGGTTACCAACCAACTCTTGCTTCTGAGATGGGTGCGATGCAGGAAAGAATTACTTCCACTAAAAATGGTTCAATTACTTCAGTACAGGCGGTATACGTACCTGCGGATGACTTAACTGACCCGGCTCCTGCAACTACGTTTGCTCACTTGGATGCAACTACAGTACTTGACAGAAAGATTGCTTCATTAGGTATCTATCCAGCGGTAGATCCACTAGCTTCTACTTCAAGAATCCTTGCTCCGGAAGTTATTGGTCACGATCACTATAACTGTGCTCAAAGAGTAAAAGAAATCCTTCAAAGATATAAAGCGCTTCAGGATATCATCGCAATCCTTGGTATGGAAGAACTTTCTGAAGAAGATAAAGCTGTTGTATACCGTGCAAGAAAAGTTCAGAGATTCTTATCTCAGCCTTTCCACGTTGCAGAGCAGTTTACAGGTATCCCAGGATCATTGGTAGACATCAAAGATACCATCAAAGGATTCAACATGATTATGGATGGTGAATTAGATCACTTACCGGAAGCAGCTTTCAACTTGAAAGGAACCATCGAAGAAGCTATCGAAGCAGGACAAAAAATGTTAGCTGAAAACGCATAA	MANQIKGKISQIIGPVIDVVFTDVEAVPAIYDALEITKENGEKVVLEVEQHIGEDTVRCIAMDATDGLKRGQDVIGFGNPIMMPIGEAVNGRLFNVVGDAIDGLQDISKDGGLPIHRPAPKFDQLSTSAEVLFTGIKVIDLVEPYAKGGKIGLFGGAGVGKTVLIQELINNIAKGHGGLSVFAGVGERTREGNDLLREMLESGIIKYGDDFMHSMENGGWDLSKVDLEAMKDSKAAFVFGQMNEPPGARARVALSGLTLAEYYRDGGESGQGRDVLFFVDNIFRFTQAGSEVSALLGRMPSAVGYQPTLASEMGAMQERITSTKNGSITSVQAVYVPADDLTDPAPATTFAHLDATTVLDRKIASLGIYPAVDPLASTSRILAPEVIGHDHYNCAQRVKEILQRYKALQDIIAILGMEELSEEDKAVVYRARKVQRFLSQPFHVAEQFTGIPGSLVDIKDTIKGFNMIMDGELDHLPEAAFNLKGTIEEAIEAGQKMLAENA	PGPT0014296_391	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
BMS003_03536	921	ribF	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	TTGAAAGTTTTCAAGAATTTTACAGATTACTCCTCACAGAAGCCTTTAGCACTGTCTTTAGGAATGTTTGACGGAGTGCATCTCGGACACAAGAGTATCATTGATGAGCTGACTAAAGTAGGTACAGAAAATAATCTGGAAACTGCTATCCTCACTTTCTGGCCGCATCCAAGGTTTGTTTTTAATCCTAATGAAGATTTGAAACTCCTTAATACACTGGAAGAAAAGAAACAGCTGGTTGAAAGATATGGTATTGATAATCTGTTCCTGAAAGAATTTGATGAAGAATTCAGAAATTTAACCGGAGAAGAGTTTGTACGTCAGATTTTAATTGATAAACTCAATGTAAAATATCTTATTATAGGATACGACCATTCTTTCGGAAAAAACAAAAGCGGAAATTTCGAGCTTCTTAAAAAATTGTCTAAAGAGCTTGATTTTGAAGTAGAACAGATGGAAGCCATTAATATCCACGAAAATAATATCAGTTCAACAAAAATTCGTAACGCTCTTTTAACCGGAAATATTAAAGAAGCTAACGAAATGCTGGGATACTCCTACTCTGTTTCCGGAACTGTAGTTCATGGGAAAAAGATTGGAAGAACCATCGGATATCCCACAGCAAATATTGATACGGAATCAATCAAGCTGTTACCTAAAAAAGGAGCTTATATTGTGGAAGTATTCATACAAGGTAACTCATATAAAGGAATGCTGAGTGTGGGAACCAACCCTACGGTAAACGGAGAAAAACTAACTGTGGAAGTTTATATTCTGGATTTTGATGATGATATCTATGATGAAAAAATAACAGTTGAGTTCAGAGATTTCCTTCATGATGAAATTAAATTTGAAGGTCTTGAAAAACTGATTGAAAGACTGGATGAGGATAAAAAAATAACAGAAGAATTTAATTTTTAA	MKVFKNFTDYSSQKPLALSLGMFDGVHLGHKSIIDELTKVGTENNLETAILTFWPHPRFVFNPNEDLKLLNTLEEKKQLVERYGIDNLFLKEFDEEFRNLTGEEFVRQILIDKLNVKYLIIGYDHSFGKNKSGNFELLKKLSKELDFEVEQMEAINIHENNISSTKIRNALLTGNIKEANEMLGYSYSVSGTVVHGKKIGRTIGYPTANIDTESIKLLPKKGAYIVEVFIQGNSYKGMLSVGTNPTVNGEKLTVEVYILDFDDDIYDEKITVEFRDFLHDEIKFEGLEKLIERLDEDKKITEEFNF	PGPT0008625_4075	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
BMS003_03537	492			hypothetical protein	ATGAGAAACTACCTTTTATTATTCGCAGCAGCAGGTACATTGATGCTGTCAAGTTGTACCAAACCGGTAAAGAAAAGTACTACCGAAAACCCTGCTTCTGAAGCCTCAATGTCTGATGCTTCTTCTGAAAATATTAAACTGGAATTTTCAGGAGCAGAGAATTTTACCATTAAAAATCCAAAGCTGAAAATAAGCTTATACGGAGCAGACGAACAGCTGGCAGATGCTCCTGCTACCTTAATCACAGAAAAAGAGTATGAGCAGAACTCTATCCCATTCACTATTGATCTTCCGGTTCCTAAAGATGGGGAAAGTAAGATTAACCCCAAACCTGTAGGTCCTGCAAAATATTATGTAACTATAAGCTGGGATTCTGACGGAAATGGGAAAGCAGATGAAAAAGGAGATATATTCATTGATTATGACAAACAGTTTCCTAATGTGAAGCTTACAGGTGAACCTCAGAAAATTTACTTAAAAGTATTGAAATAA	MRNYLLLFAAAGTLMLSSCTKPVKKSTTENPASEASMSDASSENIKLEFSGAENFTIKNPKLKISLYGADEQLADAPATLITEKEYEQNSIPFTIDLPVPKDGESKINPKPVGPAKYYVTISWDSDGNGKADEKGDIFIDYDKQFPNVKLTGEPQKIYLKVLK				NA	NA	NA	NA	NA
BMS003_03538	354	yjbR	COG2315	putative protein YjbR	ATGGATGCCAACGAAATTTTAGACTATTGTCTTGCTAAAAAAGGAGTTACGGAAAGCTTTCCGTTTGATAACGAAACACTTGTACTTAAAGTAGATACCAAAATGTTCTTACTGATGGGGCTTGAAAGACAGCCACTGGCCATTAATGTGAAAACAGATCCTGAGTGGAGTGCAGAGCTTCGTGAGCAATATCCTCAGATCACAGGTGCTTATCACATGAACAAAACCCATTGGAATTCCGTATCATTGGATGGATTGAAAAGAGATCTGATCTTTAAACTTATTGACCAGTCTTATGATCTGGTTTTTAAATCTCTTACAAAGAAAGCTCAGAATGAAGTGAATTCACTATAA	MDANEILDYCLAKKGVTESFPFDNETLVLKVDTKMFLLMGLERQPLAINVKTDPEWSAELREQYPQITGAYHMNKTHWNSVSLDGLKRDLIFKLIDQSYDLVFKSLTKKAQNEVNSL				NA	NA	NA	NA	NA
BMS003_03539	657			hypothetical protein	ATGAAAGCTCTGATAATAGGTGCTACAGGTGCCACAGGAAAAGATCTTGTCAATCAGTTATTGAATGACAAGGAGTTTGATGAAGTGGATATTTTTGTCAGAAAACCTGTCGATATCCAGAATGATAAGCTTAAAGTTCATGTTGTGAATTTTGAAAAGCCTGAGGAGTGGAAAGAGATGGTGAAGGGAGACGTAGCATTTTCCTGTCTGGGAACTACTTTAAAGGATGCCGGAAGCAAAGAAGCTCAGAAGAAAGTAGACTTTGACTATCAGTATGAATTTGCAAAAGCAGCGAAAGAGAATCAGGTGGAAGATTATATTCTGGTATCAGCATATGGCGCCAATCCACAATCTAAAATTTTCTATTCTAAAATGAAAGGAGAACTTGAAGACGCTGTAAAGCAGCTTCATTTCAACAAGATCACTATTTTCAAACCGGGAATGCTTGAACGGAAAGATTCTGAAAGAACCGGAGAAGTTTTAGGCAGCCGGATCATCAAATTCGCTAATAAATTAGGTTTACTGGAAAGTCAAAAACCTCTGCCAACCGATATTCTGGCAAAGGCGATGATTAATTCTGCAAAAATAAAAAGTAACGGCTATTCCAGTATAAAACTTGGGAATATCTTTTGTTTTGCGGAGAAGAGTAATGAATGA	MKALIIGATGATGKDLVNQLLNDKEFDEVDIFVRKPVDIQNDKLKVHVVNFEKPEEWKEMVKGDVAFSCLGTTLKDAGSKEAQKKVDFDYQYEFAKAAKENQVEDYILVSAYGANPQSKIFYSKMKGELEDAVKQLHFNKITIFKPGMLERKDSERTGEVLGSRIIKFANKLGLLESQKPLPTDILAKAMINSAKIKSNGYSSIKLGNIFCFAEKSNE				NA	NA	NA	NA	NA
BMS003_03540	516			hypothetical protein	ATGAAAAAAATAATTTTTACCCTTTGTGTCATGGCTTCATTTATGTTAGGATTTGCTTTTAAGGCTGTTACGGAAAACAAGTCTGATGATACGAAAAGAGTAACAGGTATTGGCGGAATCTTTTTTAAGTGCAAAGATCCTAAGAAAATGAGAGCATGGTATGAAAGCCATCTTGGTCTCAATACGAACGAATATGGAGCTGTATTTGAATGGTTTCAAGGCGCGGATAACTCTAAAAAAGGATTCAGCCAGTGGAGTCCATTCAGTGAAAAAACAAAATATTTTTTGCCTTCCGAGAAAGATTTTATGATCAATTACCGTGTAGAAAATCTTGAAAAGCTGGTGGAGCAGTTAAAGAAAGAAAATGTTACCGTAGTTGATAAAATAGAAACGTATGAATATGGGAAATTTGCCCATATCATGGATATTGAAGGCAACAAAATAGAACTTTGGGAGCCTAATGATGTTGAATACGAGAAGTTAGGACAGAAAATGAACAGTAAAACAACAAAATAG	MKKIIFTLCVMASFMLGFAFKAVTENKSDDTKRVTGIGGIFFKCKDPKKMRAWYESHLGLNTNEYGAVFEWFQGADNSKKGFSQWSPFSEKTKYFLPSEKDFMINYRVENLEKLVEQLKKENVTVVDKIETYEYGKFAHIMDIEGNKIELWEPNDVEYEKLGQKMNSKTTK	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
BMS003_03541	558	bsaA		Glutathione peroxidase BsaA	ATGCTGCTTTCCTTTGTTGCATTCCTGCAAAGCTGCACCAACCAAAAAAGTGAAATTTCAAAAGCTAAAACCAACGAACTTATGGGAAAAACAATATACGACTTCAAAGTAGAAAGTCTTGACGGAAAAGAAATCAATTTTGCAGATTTTAAAGGAAAAAAAATCCTGATCGTCAATACCGCTTCAGAATGTGGATTTACCCCTCAGTATGCAGATCTTGAGAAAGTATATGAGGAATATAAAGATAAGTTGGTAGTCATAGGATTCCCTGCTAATAATTTCGGAGGACAGGAGCCGGGAACCAATACTGAAATCGGAGCTTTCTGTCAGAAAAATTACGGGGTAACATTTCCAATGGCGGCTAAAGTTTCTGTAAAAGGTGATGATACAGCACCTATCTTTAAATTTTTAACAGAGAAGGAACTGAACGGAGTAAAAAATACAAGTATCCTTTGGAACTTTACCAAATTTCTTGTAGATGAAAACGGAAAGCTTATTGACTCTTTTATAAGTACTACAAATCCTACTGATGGGGCAATTACAAAGTATCTGAAATAA	MLLSFVAFLQSCTNQKSEISKAKTNELMGKTIYDFKVESLDGKEINFADFKGKKILIVNTASECGFTPQYADLEKVYEEYKDKLVVIGFPANNFGGQEPGTNTEIGAFCQKNYGVTFPMAAKVSVKGDDTAPIFKFLTEKELNGVKNTSILWNFTKFLVDENGKLIDSFISTTNPTDGAITKYLK	PGPT0013115_1382	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS003_03542	663			hypothetical protein	ATGAAGAAGTTACTATTAGTATTGGGACTGATATTTTCGCATGTGATATTCGGACAGACCGCAAAGGAAATTATTGACAAAAATATAGAATTATCCGGAGGGTTAACCAATTGGAAATTGCTGAACTCAGTATTGCTTCAGGGAAAAGTAATATTGGGAATCAAAGATGAATATCCGATAAGAATTTTTCAGCAGCGTCCGAATCTTACTAAAACATTGATTACTACCGGAGGAAAAGAAACCGCTATTGAAGGTTTTGACGGTTCCAAAGGCTATGCAATGAATTATGCAGCCAACAAGCTTCAGGAATATCCCGAATATGTACCGGAAAGTTTTGATAACGACTTCATTGACTGGGAAAATAAAGGATTTGATGCCAAATACCTTGGAAAAGAAAAAGTAGGAGAGATCTACTGCCATAAAGTGGAGCTTACCAAGAACGTTAATAAGAATATGTATTATTTTGATACAAAAACTTATATGCTGATAAAAGAAGTGAAAAAAGACGAAACGCTTGTATATTCTGATTTTAGAAAAGCAGGAAACCTTACAATGCCTTTCCGAATAGAATCTTCCAGTACTAAAAAGGATGGAGATTACGTGATGTTATTAAACAAAATAGACATCAATAAAGTATTTCCGGCTAATATTTTCAAGTTTTAA	MKKLLLVLGLIFSHVIFGQTAKEIIDKNIELSGGLTNWKLLNSVLLQGKVILGIKDEYPIRIFQQRPNLTKTLITTGGKETAIEGFDGSKGYAMNYAANKLQEYPEYVPESFDNDFIDWENKGFDAKYLGKEKVGEIYCHKVELTKNVNKNMYYFDTKTYMLIKEVKKDETLVYSDFRKAGNLTMPFRIESSSTKKDGDYVMLLNKIDINKVFPANIFKF				NA	NA	NA	NA	NA
BMS003_03543	723	kdsB	COG1212	8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase	ATGAAAATAATCGCTGTCATCCCTGCCCGTTACGAAGCAAGCCGTTTTCCGGGGAAATTAATGCAGATTTTAGGAGAAAAAACCGTAATTACGACGACTTATCAGAATGTAGTGGAAACCGGGCTGTTTCATGAAGTATTTGTAGCCACAGACTCCGAAATTATTTTTGACGAAATCGCAAAGAACGGAGGAAAAGCCGTCATGACAGGACAGCATGAGACAGGAAGCGACCGTATTGCGGAAGCTGTACAAAATATAGACTGTGATATCGTAATCAATGTTCAGGGAGATGAACCTTTCCTTAAACTGGAACCTTTACGCCAGCTGATTGAAGTTTTCAAACATGATGACCAGCAGGAAATCTCCTTAGCTTCTTTAAAAATACAGCTGCATGAAAAAGAGGAAATTGAAAATCCGAATAACGTAAAAGTGATTACTGATAATAACGGTTTCGCCCTGTATTTCAGCCGTTCCGTCATTCCTTTTCACAGAGAAGTATCCTATGATGTAAGCTATTTTAAGCATATCGGCGTATATGCCTTCAGAAAAGAAGCTTTGTTGCAGTTTTCAAAACTGGCGATGAAACCATTGGAAATTTCAGAAAAAATTGAATGCATCCGCTATCTGGAATACGGAATGAAAATCAAAATGATAGAAACCAATTTCGTGGGAGTAGGAATAGATACCCCGGAAGATCTGGAAAAAGCCCGAAAATTAATCTAA	MKIIAVIPARYEASRFPGKLMQILGEKTVITTTYQNVVETGLFHEVFVATDSEIIFDEIAKNGGKAVMTGQHETGSDRIAEAVQNIDCDIVINVQGDEPFLKLEPLRQLIEVFKHDDQQEISLASLKIQLHEKEEIENPNNVKVITDNNGFALYFSRSVIPFHREVSYDVSYFKHIGVYAFRKEALLQFSKLAMKPLEISEKIECIRYLEYGMKIKMIETNFVGVGIDTPEDLEKARKLI	PGPT0023065_2966	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
BMS003_03544	987			hypothetical protein	ATGAAAAAACTGAGATTTCTACTCTTACCAGTTTCAATATTGGTATGCTCACAGGAAGTTGATACATTGAAGGTAAAAGAGCTTCCAAAGGAACAGGAACTGCCAAAAGTACAAATCTATACCCTAAAAGACGGTTCCGTCCGCACCTATACAAAACCGAAATTATTAGATTTTGTAACCAAATTACCCAGAAACTTTATCAATACCAATAAAGATTTCGTAACTCAGGATCATGCTTATTATCTGGGAGGAGCTGTTGCTGCCACATTGATTCTCCTGCCATTTGACCAGAAACTGATCGATAATTCCAGAGAGCTGGCAGAAAAATGGGGAATGGATAAAGATAATAATTACCATAAGGTGGGAGGTGTATTTAAAATTCCGAAAGATATCGGATCTACTCTGTACCTCATTGGAAACGGGTCTACCTTAGTATTGTTAGGAATTGGTTTCGGAACCTATGGATTGATTAAAAATGACTACAGGGCACAGGCTACAGCCAGTGGACTGATGGAAAGCTTAATTCTTTCCGGAGTGTTTACGCAGACTATTAAAAGAATTACTGGAAGAGAAAGCCCGTTTATTGCCGAAGAATACGGACATAAAGGAGGGGCATGGAATCCGTTTCCAAGTTTCTCGGCATTTGGAAAAAATACTTCGAATTACGATGCAATGCCATCCGGACATTTAACCACTTTTATGGCAGGTATCACCGTGATTGCAGACAATTATCCCGATGCAAAATGGATCAAACCGGTAGGATATACCTTAGCCGGAGCACTTTGTTTTCAGATGATGCAGAGTAAAGTTCACTGGGCTTCAGATTATCCGCTGGCATTATTAATGGGATATTTTATAGGGAAAACCATCTCAAAAAGCAGATATACTTCATCAGAAGGAACCATCGGAAAAACAAAATACAATCTCAATTTTACAGCATCCCGCCAATGGGAATATAATATGGTAGGAGTAAAGCTTTCTTTTTAA	MKKLRFLLLPVSILVCSQEVDTLKVKELPKEQELPKVQIYTLKDGSVRTYTKPKLLDFVTKLPRNFINTNKDFVTQDHAYYLGGAVAATLILLPFDQKLIDNSRELAEKWGMDKDNNYHKVGGVFKIPKDIGSTLYLIGNGSTLVLLGIGFGTYGLIKNDYRAQATASGLMESLILSGVFTQTIKRITGRESPFIAEEYGHKGGAWNPFPSFSAFGKNTSNYDAMPSGHLTTFMAGITVIADNYPDAKWIKPVGYTLAGALCFQMMQSKVHWASDYPLALLMGYFIGKTISKSRYTSSEGTIGKTKYNLNFTASRQWEYNMVGVKLSF				NA	NA	NA	NA	NA
BMS003_03545	591			hypothetical protein	ATGAAACTTCCGCGAAAATCTTTTCTTGAAACAAAATATGTGTTTTTTTCAACGCTGGTGATTATTATGGTTGTCATTTTAAGCGTTTGGCTTTCAGGGAAAGCAGATCATCGTTCACTATTTCAGAATTCAATTCTATCAACCTCTGTTTTAGCTGGGACATTTTTCCTGTTTATCAGTATAGGACTCTATTCTGGTTTAAAATTAAAAGATAATGTAGGAAATATTTTAAACAAAGAAAGAATACAAAGATATGCTGATAAAACACCGAAATTTGATGGTTTTGAGCTTGATCCACCAGCTGTAGGCGATGGAATAGGAGGTGTTATTTTTTCTATTCTTTTATGGATCGTAATTTCAATTCTACTTATTTTTCTTTCCTATTTTTTTGGTCTCTTTTTTTGGTCAGCCGTATTCTTGCTGGGTGCTATTTTGTACTGGATTTTTTTCAGAGCTTTGAGATTGGTTTTCAAAAACTCAGGAAAATGTAAAGGAAATTTGTTAAAAAGTATTGGATTCGGAATTTTTTACTCTTTACTCTATAGTTCGTGGATGTATGGGGTTATTTTTTTGATTAAATATTTAAACTGA	MKLPRKSFLETKYVFFSTLVIIMVVILSVWLSGKADHRSLFQNSILSTSVLAGTFFLFISIGLYSGLKLKDNVGNILNKERIQRYADKTPKFDGFELDPPAVGDGIGGVIFSILLWIVISILLIFLSYFFGLFFWSAVFLLGAILYWIFFRALRLVFKNSGKCKGNLLKSIGFGIFYSLLYSSWMYGVIFLIKYLN				NA	NA	NA	NA	NA
BMS003_03546	1254			Aspartate aminotransferase	GTGAAAGTTTCAAAATTAGCAGCGAACCTGATCGGTTCTGAAATTGTAAAAATTGGTAACGAAGTAAATGATCTAAAAGCAAAAGGAGCGGAAATTGCCAATCTTACTATTGGTGATCTGAATTCTAATATCTATCCTATTCCGGCATTGCTGAAGGAAGAGATTCAGAAAGCATATCAGAATAATTTGACGAACTATCCGCCTGCCAACGGACTTTTATCTTTAAGAAAAGAAGTTTCCAAAGACCTTAAAAAAAGATGGAACCTGGATTATTCTCCAGAAGATATCCTGATCACAGCAGGATCAAGACCTTTGATCTATGCCGTGTACAAAACCATCGTAGACGAAGGCGATAAAGTAGTATATCCTACACCATCCTGGAACAACAACCATTACGCTTACCTTACTTCAGCCAACGCTGTAGAAGTAAAAACAAAACCGGAAACCAACTTCCTTCCAACAGCAGATGATTTAAGACCTCACTTGGATGGAGCAGTATTATTGGCGCTGTGTTCACCGTTGAACCCTACCGGAACCATGTTTACAAAAGAACAGCTTTCAGAGATCTGCGAACTGGTGATTGCTGAAAATAAAAAAAGAGGAGCAGATGAAAAACCGTTATACTTAATGTATGACCAGATTTATTCTTGTCTTACTTTCGGTGCTGAGCACGTAGATCCGGTTTCTCTTTTCCCTGAAATGAAAGACTATACGATCTACATCGATGGTATTTCAAAATGCCTTGCAGCAACAGGAGTACGTGTTGGATGGGGATTCGGGCCTGCTCATATCCTTGATAAAATGAAAGCACTTCTTACCCACGTTGGAGCATGGGCACCAAAACCGGAGCAGGAAGCAACCGCTAAATTCTATGAGAATCCGGAGAATGTAAATACTTTCGTTGACGCTTTTAAAGCGAAACTTGAAGAAAGCCTAAAAGTTCTTCACGGTGGAATTCAGGATTTAAAAGGAAAAGGACTTGCCGTAGACAGTATTGAACCAATGGGAGCTCTTTATCTTACCATTAAATTAAACTATATCGGAAAAACAAAACCAGATGGAGCGGTAATTGAAAACTCTTCAGATTTAGTATTCTATCTAATTAACGAAGCAGGAGTGGCATTAGTACCATTCTCAGCCTTTGGAGAAGAAAAATCAGAACCTTGGTTCCGTGCTTCTGTAGGAGGATTGGCGGTAGATGAGATCAAAGTAATGCTTCCAAAACTGGAAAGTGCTTTGAACAAATTAAAGTAA	MKVSKLAANLIGSEIVKIGNEVNDLKAKGAEIANLTIGDLNSNIYPIPALLKEEIQKAYQNNLTNYPPANGLLSLRKEVSKDLKKRWNLDYSPEDILITAGSRPLIYAVYKTIVDEGDKVVYPTPSWNNNHYAYLTSANAVEVKTKPETNFLPTADDLRPHLDGAVLLALCSPLNPTGTMFTKEQLSEICELVIAENKKRGADEKPLYLMYDQIYSCLTFGAEHVDPVSLFPEMKDYTIYIDGISKCLAATGVRVGWGFGPAHILDKMKALLTHVGAWAPKPEQEATAKFYENPENVNTFVDAFKAKLEESLKVLHGGIQDLKGKGLAVDSIEPMGALYLTIKLNYIGKTKPDGAVIENSSDLVFYLINEAGVALVPFSAFGEEKSEPWFRASVGGLAVDEIKVMLPKLESALNKLK	PGPT0020110_324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS003_03547	1716	pgcA		Phosphoglucomutase	ATGAATACATTAGAAAAAGCGAAACTTTGGTTAAGTGATACCTTCGATAAAGAAACGAGAGATGCTGTACAAACATTGATTGACAGCAATTCCCCTGATCTGGAAGATTCTTTCTACAGAGAACTGGAATTTGGTACGGGAGGTATGCGTGGGATAATGGGAGTAGGAACCAACCGCTTGAATAAATATACATTAGGACAAGCTACTCAAGGATTGGCCAATTATATGCTTCAGCAGTTCAAAGGAGAAGAAATTAAAGTGGCCATCGCTTATGATGTTCGTAATAACTCAAAAGAATTCGGTAAACTGGTAGCAGATGTTTTAACAGCCAACGGAATTAAAGTACTGCTTTTCAAAGATCACAGACCGACTCCTGAATTGTCTTTCACAGTTCGTGATAAAAAATGTAACGGAGGAATTGTATTGACAGCCTCTCACAACCCGCCGGAATATAACGGTTACAAAGTATACTGGAATGACGGAGCACAAATTGTTCCGCCTAATGATGAAGCGATTATCAATGAAGTATATTCTGTAGAATTCGAAGAAATTAAATTCAATGGAAATGATGATCTGATCGAATGGATCGGAGAGGAGCAGGATGATGTGTATATCGATGCCTGTATTGAAAACTCTACCTATCAGAATGTTGGAAAAGAAAATTTAAATATCGTTTTCACATCTATCCACGGAACTACGTATACTACCGTTCCTAAAGCTCTTGAAAAAGCAGGATTTAAAAAGGTAGATCTTGTAAGAGAACAGATGATTCCAAGCGGAAATTTCCCTACCGTAGATTCTCCAAACCCGGAAGAGCCTGCAGCATTGGAAATGGCAATGGATCTGGCAAGAATTACCAATGCAGATATCGTGATCGGAACTGACCCGGACGGAGACAGATTAGGGATCGCAGTAAGAAACCTTGATGGTGAAATGCAATTATTAAACGGTAACCAAACCAATACAATCCTTACTTACTATATTCTGAATGAGTGGAGAAAACAAGGGAAAATCACCGGAAAAGAATTCATTGGTTCTACCATCGTAACTTCGGATATCTTCTTTGATATTGCACAGAAATTCGGAGTAGAATGCAAAGTAGGTCTTACCGGATTCAAATGGATAGGAAAAATGATCCGCGAAGCAGAAGGAACGCAGAAGTTTGTATGCGGTGGTGAAGAAAGTTTCGGATTCATGACCGGAGATTTCGTACGTGATAAAGACTCTTGCGGAAGTATCCTTGTCGCTTGTGAAATTGCTGCCTGGTGTAAAGCTAACGGAAGAACAATGTATCAATACATGATCGAGATCTATGAAGATCTTGGGATGTATTATGAGGGATTAATCAATATCGTAAGAAAAGGAAAAGAAGGTGCTGAAGAAATTCAGAACATGATGAAAAACTTCCGTGAGAATCCTCCAAAGGAACTGGCAGGTTCATTAGTAGAAGAAGTGAAAGACTTTAAAGAACAGACAAGCCTTACCATTTCTACGAACGAGAAAAAAGTAATGAATGATATTCCGAAGTCTAACGTTTTGATCTATTACACTCAGGATGGAACAAAAGTATGTGTAAGACCTTCTGGAACAGAGCCGAAAATCAAGTTCTATGTTTCAGTGAAAGATTCCGTTACTTCAGAAGCAGATTTCAGAGACAAATTAAAATCATTGGAAGCTAAAATCGGAGCGGTTAAAACAGATTTAAAACTGGATTAA	MNTLEKAKLWLSDTFDKETRDAVQTLIDSNSPDLEDSFYRELEFGTGGMRGIMGVGTNRLNKYTLGQATQGLANYMLQQFKGEEIKVAIAYDVRNNSKEFGKLVADVLTANGIKVLLFKDHRPTPELSFTVRDKKCNGGIVLTASHNPPEYNGYKVYWNDGAQIVPPNDEAIINEVYSVEFEEIKFNGNDDLIEWIGEEQDDVYIDACIENSTYQNVGKENLNIVFTSIHGTTYTTVPKALEKAGFKKVDLVREQMIPSGNFPTVDSPNPEEPAALEMAMDLARITNADIVIGTDPDGDRLGIAVRNLDGEMQLLNGNQTNTILTYYILNEWRKQGKITGKEFIGSTIVTSDIFFDIAQKFGVECKVGLTGFKWIGKMIREAEGTQKFVCGGEESFGFMTGDFVRDKDSCGSILVACEIAAWCKANGRTMYQYMIEIYEDLGMYYEGLINIVRKGKEGAEEIQNMMKNFRENPPKELAGSLVEEVKDFKEQTSLTISTNEKKVMNDIPKSNVLIYYTQDGTKVCVRPSGTEPKIKFYVSVKDSVTSEADFRDKLKSLEAKIGAVKTDLKLD	PGPT0017710_1609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
BMS003_03548	612	gyrB_3		DNA gyrase subunit B	TTGAAGGAAAATAAATATACAGCAGACAGCATTCAGACTTTGGAGGGAATAGCACATGTAAGGCTTCGCCCGAAAATGTACTTTAAGGAATGTTTTGACAAACAGAACCTGAATTCATTGGTTTCAGATGCGTTATGTCATGCTGTTGATGAATATTTTGATAATACATGCAGTGAAATTTCCATAGGAATTAATGGAAATATTATGATTATAAAATATAATGCAGGAATGTCTTTGGAAGTTTCACACGATCTTACTAAAGCAGAGTGTATTATGACAAAAATTGGAGCTTGTAGCAATGAAAAAAAACACTTGGAAGTTGGAACCGAATTTTGCCATTTGGGAATGGCTACAGTAAACGCTGTTACAGAAAAATGCGAACTAAAAACTATTTGGAATCAACAACAAGGATATTTTATTTTTGAAAAAGGATATTCCTCTTTTAAAGAAATTTTAAATAACAATAACTCAAAAGATTCAACTCAAATTACCTTTGAGATGAGTAAAGAAATCTTCGGAGAATTAGAATTTGAATGGAATGACTTGCAATTAAGATTGAACTCCTTAAGAGAAAAACTGCCAAATTTAAAAATGGAACTTTACAAACTATAA	MKENKYTADSIQTLEGIAHVRLRPKMYFKECFDKQNLNSLVSDALCHAVDEYFDNTCSEISIGINGNIMIIKYNAGMSLEVSHDLTKAECIMTKIGACSNEKKHLEVGTEFCHLGMATVNAVTEKCELKTIWNQQQGYFIFEKGYSSFKEILNNNNSKDSTQITFEMSKEIFGELEFEWNDLQLRLNSLREKLPNLKMELYKL				NA	NA	NA	NA	NA
BMS003_03549	702			hypothetical protein	ATGAAAAAAGTTGTATACACATTAATGCTGGTGGCAGTGGTTTCCTGTGGAAAAGTTTCTCCCAAAGGAAATATTGAGAAGAAAGATGTGGATGTTTCGGAGTTTGTAAATCTTGATTTGGAAGGTAAATTCCGTGTATTTTATGCCAGAGGCCCTAAAAACTTTGTGGAAATAGAAACCTATCCGAATGTAGCGAGCAATCTGGATGTGGATGTAAAAGATAAAACGCTTTTTATCAAAGAAAAAAGAGGAACAAAAGGAGTGGATTTTTATAACGTGACGATTTATTCAAAATATAATCTGGAAAAAGTTGCAGTTTCTGATTCTGTGGAAATGAATATTTCCAGCGAAATTAAAACAGACAATTTCAGACTCAACATGAAAAATAATGCAAGCTTCATGGGATCTGTGAATACCAGAAGAGCAGAAGTGGAAATGCACAACAGAAGCCGTGCCAATTTCCTTGGATTGTCTAAAGATGCCGTTATAAAGATTTCAGATACTGCAAGTTTAATTGCACCTTACTGGAGAATTACCAACCTGAATATTGATTCTAAAAACGGAAATTATGCAGAAGTAAATGTAAAAGATTCACTAAAAGGACATATTCAGAACACAGCAAAATTTGTTTATTACAATGATCCAATCAGAGCGTTCAAAATTGATAAAACAACGAAAGTCGAGAATAAAAAATTAGAGTAA	MKKVVYTLMLVAVVSCGKVSPKGNIEKKDVDVSEFVNLDLEGKFRVFYARGPKNFVEIETYPNVASNLDVDVKDKTLFIKEKRGTKGVDFYNVTIYSKYNLEKVAVSDSVEMNISSEIKTDNFRLNMKNNASFMGSVNTRRAEVEMHNRSRANFLGLSKDAVIKISDTASLIAPYWRITNLNIDSKNGNYAEVNVKDSLKGHIQNTAKFVYYNDPIRAFKIDKTTKVENKKLE				NA	NA	NA	NA	NA
BMS003_03550	384			hypothetical protein	ATGTTCAGATTTACAAACATTTTTTTTTATTTTCTTTTGGTTTTAGAGGTCTCCTGTTCATCCAGCAAACTTTCTGGTTCCTGGGAATTTATAGATATTTATAATGGTGAAATCAGGGATACAGATACATTGAAAACGAAAACAAACAATTCCAGATACGGAACAGGAATTCTTACTTTTTATGAGGATAAAACCTTCAGTTCGATGGGCAATTGCGGGACTTATCAGATAGAAAAAAAACTGTTGAAAATGAAATACAATGATAATGATGAAGTAACTCCAATGAAAATTTCCGGTATAACTAAAGATCATCTGCTTTTATTTTCAATGGCTGGCAGTCCCAAAACATGGTTTTATAAAAAAGTAAAAGAAAGGAAAGAATGA	MFRFTNIFFYFLLVLEVSCSSSKLSGSWEFIDIYNGEIRDTDTLKTKTNNSRYGTGILTFYEDKTFSSMGNCGTYQIEKKLLKMKYNDNDEVTPMKISGITKDHLLLFSMAGSPKTWFYKKVKERKE				NA	NA	NA	NA	NA
BMS003_03551	402			hypothetical protein	ATGATGGAAGAAAAGCTGCCCAAAATTTATTCTAAAAAAGCTATTTTAGGATTTTCTATTTTTCTTTCAACACTTTTCGGAGGGGTTTTGTTATACCAAAATTTAATGGAAGTTAACAAGAAGAAAGAAGCATATACAGTATTGGCAATTTCTATTCTGTTGACGATTATCACAGGAGCTATTGTAAACATCCCGGAAGAGCCTAAAAGTTCACTGGCTTATTTATGTGGTCTTGGCGGGGGATGTTTACTTTCATATTATTTTATGCCGAAATATTTTCCGGATGAAGAAAGGTATCCTAAAAAAGCGATATGGAAACCCTTAATTATTGGGGTCGCTATTGTTGTAATCCTTTTGACTTTAGTCATTTATGGTGCTTCTGTTGAAAATAGTTACCCATAG	MMEEKLPKIYSKKAILGFSIFLSTLFGGVLLYQNLMEVNKKKEAYTVLAISILLTIITGAIVNIPEEPKSSLAYLCGLGGGCLLSYYFMPKYFPDEERYPKKAIWKPLIIGVAIVVILLTLVIYGASVENSYP				NA	NA	NA	NA	NA
BMS003_03552	951	rgtE	COG0463	Dodecaprenyl-phosphate galacturonate synthase	ATGAATTTATCTATAGTTATTCCGTTACTTAATGAAGAAGACTCTCTGGAAGAGCTTTTTTTAAGGATTGATAAAGTATGCACAACCAGCAATTTATCTTATGAGATCTGGTTTGTAGACGATGGAAGTACGGATTTGTCGTGGAGCATTATTGAGAATATGAAAGTTCAGCATCCTCAAATCCACGCGATTAAATTTTCCAGAAATTATGGAAAATCCCAGGCGCTTCATGCTGCTTTTGAAAGAACAAACGGAGAGGTAGTCATTACAATGGATGCTGATTTACAGGATTTTCCGGAAGAAATTCCGGAACTGTATAATATGGTGATTCATGATCATTATGATATCGTTTCCGGATGGAAAAAGAAGCGTTTTGATAATGTAATGACGAAAAATATTCCGTCAAAACTGTTCAATGCAGCGGCGAGAAAAGTTTCAGGAGTTTATCTTCACGATTTCAATTGTGGTTTGAAAGCTTACAAAAAACAGGTGGTAAAATCTGTGGATGTTTATGGAGATATGCACCGTTATATCCCTGTATTGGCTGCTAATGCAGGTTTCAGAAGAATTACCGAAAAAGAAGTACAGCATCAGGCAAGACCTTACGGAACTTCAAAATTCGGAACCGAAAGATTTATCAGAGGATTTCTGGATTTGATTACCCTTTGGTTTGTAAGCCGTTTCGGAGGTAGGCCAATGCACTTCTTTGGAGCTGCCGGTACTTTAATGTTCATTGTTGGTTTTCTTTCAGCACTTTGGTTAGGAATTTCCAAACTTATTGATGTGGCAAGAGGAATCTACGGGCATTTGATTACCAATAACCCTTGGTTCTTTATTGCATTAACAATGATGATTTTGGGAAGCCTTCTGTTTGTAGCAGGATTCTTAGGAGAAATGATTATCAGAACGAACCGCGAACATAAGAATTATAATATTGACGAAGTGATATGA	MNLSIVIPLLNEEDSLEELFLRIDKVCTTSNLSYEIWFVDDGSTDLSWSIIENMKVQHPQIHAIKFSRNYGKSQALHAAFERTNGEVVITMDADLQDFPEEIPELYNMVIHDHYDIVSGWKKKRFDNVMTKNIPSKLFNAAARKVSGVYLHDFNCGLKAYKKQVVKSVDVYGDMHRYIPVLAANAGFRRITEKEVQHQARPYGTSKFGTERFIRGFLDLITLWFVSRFGGRPMHFFGAAGTLMFIVGFLSALWLGISKLIDVARGIYGHLITNNPWFFIALTMMILGSLLFVAGFLGEMIIRTNREHKNYNIDEVI	PGPT0018850_410	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_L_Ara4N_MODIFICATION,PGPT0018850-arnC|pmrF-K10012	NA	NA
BMS003_03553	603			hypothetical protein	ATGACGAAAAGTCCATCAACACTAGGAATTATACTTTTTATCGCTACAATGATCGTTTTCTTTGTAGTATATACTTTTTTCTCAGGAATTAATTATTTTGATATCTCTTTGAAAGCCAATGCTTTTGTTTTGCCTCTTTTGTATGCCGGAGCTGCCTTCTGGTCTGTAAAATCTTACTGGAACACCCATAGAGTAGTAAAATTTAAAGAAGCTTTCAAAAGAGCATTCGTTCCAATGTTCATCGGAGGAATTCTTTCCATCTTCAGTATTTATGCCTTTTTAAACTTTGTAGATCCGGCAGCCAAAAGCCTGCTGAACTACCAATATGTTCAGAGACAAAAATCAGAACTGGATACAGAATATACCTCTGCAAGAAAAATTCTTAAGCATCAGAAAGATATTGATGAACTGGATCAGAAGTACAAAGAAAGATTACAAAGCTTCACGCCTGAGGCGGTTAAAGGAAAAGATATGCTTACCGCAAGTCATTTTTCAGGATATTTTGCAGCAATTCTTATATTTTACGTAGTTTTGTCGGTGTTTTTCGGAGCGTTTTTCAGAACAAGAACAATACATCAGCCCGAAGAAACCAATCAAGCCTAA	MTKSPSTLGIILFIATMIVFFVVYTFFSGINYFDISLKANAFVLPLLYAGAAFWSVKSYWNTHRVVKFKEAFKRAFVPMFIGGILSIFSIYAFLNFVDPAAKSLLNYQYVQRQKSELDTEYTSARKILKHQKDIDELDQKYKERLQSFTPEAVKGKDMLTASHFSGYFAAILIFYVVLSVFFGAFFRTRTIHQPEETNQA				NA	NA	NA	NA	NA
BMS003_03555	687			hypothetical protein	ATGAAAATACAATTTTTAGGGCAAAACTGTTTCCTGTTCACGTACAAGGACAAAACAATTCTGAGCGACCCTTTTTACAACTACAAAAAAGCAGAGTCAGGTTTTGATATTGCTGCTCAAAAAATCGATTACATCTTGTTAACCCATGCACATGGTGATCATATTGCTGATGTAGCGGAAGTATTACAGCATTATCCGGAAGCTACCATCATTGGAGTTCCTGAAGTATGTGGTTATTTTCAACAGGCAAAAAATACCGATGATGTGAACTTAGGAGGATCGGCAAAAATCGACGATCTTAAAATTTCCATGGTTCCGGCTCATCACACAAGTTCTTTCCCGGATGGAAGCTATGGAGGTGTTCCTGTAGGGTATATCTTCAGACTTCCTGAAGGTAAGAACATCTATCTGGCTGGCGATACAGGAGTAATGGCAGATATGGAGCTGTTTCCGAGACTATACGGAAACATTGATCTTTCTATTCTTCCCATCGGAAGCCACTACACCATGTGTCCTAGAAAAGCTTCTTTTGCAGCCGCAGAACTATTAAAAACACCGAAAGTAATCGGATGTCACTTTGATACTTTCCCTGCAATCGAAATCAACCATGAAAGTGCATTACAGCATTTTGCAGATAAAAATGTAGAACTTGTTTTACCAAAATTAGGGGAGACGTTCGAATTTTAA	MKIQFLGQNCFLFTYKDKTILSDPFYNYKKAESGFDIAAQKIDYILLTHAHGDHIADVAEVLQHYPEATIIGVPEVCGYFQQAKNTDDVNLGGSAKIDDLKISMVPAHHTSSFPDGSYGGVPVGYIFRLPEGKNIYLAGDTGVMADMELFPRLYGNIDLSILPIGSHYTMCPRKASFAAAELLKTPKVIGCHFDTFPAIEINHESALQHFADKNVELVLPKLGETFEF				NA	NA	NA	NA	NA
BMS003_03556	447			hypothetical protein	ATGAGTTCTCACGTCTGTGTTGAAGCCCAAATGCTTATCAGAAAACCGGTTTCAGATGTTTTTGAAGCATTCATCAATCCGGAAGTAACCACTCATTTCTGGTTTACAAAATCTACCGGAAAACTGGAAGAAGGTAAAACCATTACCTGGGAATGGGAGATGTACGGCGTAAAATCTGAAGTGAAAGTTCACGAGATCATCCCAAACCAGTTGATCAGAACAGAGTGGGGCGAACCTTCAACCCATGTAGATTATGAATTCAAAGCCATGGAAAAAGGAACTCTTGTTATCATTAAAAGCTACGGATTCAGTCAGACGGGCGAAGATCTTTTAAAAGTGATTAACGACAATACAGGAGGTTTTACAACAGTTTTAGATGGCTGTAAAGCTTATCTGGAACATGGAATTAATCTAAGACTGATCGAAGATAAATTCCCACAGAAATAA	MSSHVCVEAQMLIRKPVSDVFEAFINPEVTTHFWFTKSTGKLEEGKTITWEWEMYGVKSEVKVHEIIPNQLIRTEWGEPSTHVDYEFKAMEKGTLVIIKSYGFSQTGEDLLKVINDNTGGFTTVLDGCKAYLEHGINLRLIEDKFPQK				NA	NA	NA	NA	NA
BMS003_03557	930	menA		1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGACGGATTGGATAAAAGCCGCAAGGCTAAGAACTTTACCGCTTTCCCTAAGCGGAATTATTATGGGAGCTTTCATCGCAAAATGGAGGCTTTACGGAGAAGGAGGAACCTGGGACTGGAAGATCCTTGCACTTGCTCTTTTGGTAACGCTTTTGTATCAGATTTTATCAAATTATGCCAATGATTATGGTGACGGAGTGAAAGGAACTGATGCCAAAAGAATCAATGAAGCAGAAACAAGAGCTGTGGCATCAGGAAAAATTACTGCAAAACAAATGAAAAATGCAGTGATTCTTTTCGCAGCACTATCTTTCATTGCTACCATTGCTTTGCTGTATGTAGCTTTCATTCCAGATTACATGAATGAATTCTATATCTTCATAGGACTGGGAGTGGCAAGTATTCTTGCAGCGATTGGTTATACTGTTGGTAAAAAACCATATGGATATATGGGATTGGGAGATATTTTTGTATTTGTCTTTTTTGGGCTGGTTTCTGTATGTGGAAGTTATTTCCTTTTTACAAAAACGTTCAGCTGGGATATACTATTACCCGGAACAGCTGTTGGAATGATGAGTATGGCAGTTCTTAACCTGAACAATATGAGAGATATCGAAAGCGATAAATTATCCGGAAAAAACAGCTTTGCATTGAGAATCGGGTTCAAAAATGCAATGATCTATGAAATGGTGCTGTTGCAGCTTCCATTATTGCTGATTCTTATGTTTTTAGGAATAAATGGATTCATGCAGGGACAAAACTACTATGTTTTCATCGTAATGATTCTGTTATTCCCATTATCAAAATTAAGAAGAAAGATTCTATCCGTAAAAGAACCAAAAGAATTAGACCAGTATTTAAAACAGGTAGGTATCATGACGTTTGTAATGGCGATTCTTACGGCAGCCGGACTTAATTTATTTAACTAA	MTDWIKAARLRTLPLSLSGIIMGAFIAKWRLYGEGGTWDWKILALALLVTLLYQILSNYANDYGDGVKGTDAKRINEAETRAVASGKITAKQMKNAVILFAALSFIATIALLYVAFIPDYMNEFYIFIGLGVASILAAIGYTVGKKPYGYMGLGDIFVFVFFGLVSVCGSYFLFTKTFSWDILLPGTAVGMMSMAVLNLNNMRDIESDKLSGKNSFALRIGFKNAMIYEMVLLQLPLLLILMFLGINGFMQGQNYYVFIVMILLFPLSKLRRKILSVKEPKELDQYLKQVGIMTFVMAILTAAGLNLFN	PGPT0009395_838	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
BMS003_03558	837	menB	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGATCGAGTGGAAAACCGCCAAGGAATACGAAGATATTACCTATAAAAAATCCAACGGAGTAGCAAGAATTGCTTTCAACAGACCAGAGGTTCGTAATGCTTTCAGACCTAAAACAACTTCAGAATTATACGATGCTTTTTATGACGCTTATGAAGATCCTTCCATAGGAGTTGTATTGCTTTCAGGAGAAGGACCAAGTCCTAAAGACGGAGGATGGGCATTTTGTAGCGGAGGTGATCAGAAGGCCAGAGGGCACCAGGGGTACGTAGGAGAAGACGGAAGACACCGTTTGAATATTCTTGAAGTTCAGCGTCTCATCCGTTTCATGCCGAAAGTGGTGATTGCAGTGGTTCCGGGCTGGGCAGTTGGCGGAGGACACTCACTTCACGTAGTATGTGACCTTACTTTAGCAAGTGAAGAACATGCTATTTTCAAGCAGACAGATGCTGATGTTACAAGTTTCGATGGGGGATACGGATCTGCTTACCTTGCCAAAATGGTAGGACAGAAAAAAGCCCGTGAAATTTTCTTTTTAGGAAGAAACTATTCTGCTCAGGAAGCTTTTGAAATGGGAATGGTAAATAAAGTAGTACCTCATGCGGAATTAGAAGATACCGCTTACGAATGGGCTCAGGAAATATTGGCTAAATCTCCAACATCTATCAGAATGCTGAAATTCGCCATGAACCTTACAGACGACGGCATGGTAGGACAGCAGGTTTTTGCAGGAGAAGCAACACGTCTTGCTTACATGACAGAAGAAGCTCAGGAAGGAAGAAACGCATTCCTTGAAAAAAGAAAGCCCAATTTCGGAGAAGATCAATGGATATCGTAA	MIEWKTAKEYEDITYKKSNGVARIAFNRPEVRNAFRPKTTSELYDAFYDAYEDPSIGVVLLSGEGPSPKDGGWAFCSGGDQKARGHQGYVGEDGRHRLNILEVQRLIRFMPKVVIAVVPGWAVGGGHSLHVVCDLTLASEEHAIFKQTDADVTSFDGGYGSAYLAKMVGQKKAREIFFLGRNYSAQEAFEMGMVNKVVPHAELEDTAYEWAQEILAKSPTSIRMLKFAMNLTDDGMVGQQVFAGEATRLAYMTEEAQEGRNAFLEKRKPNFGEDQWIS	PGPT0009385_1342	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
BMS003_03559	1032			hypothetical protein	ATGAAGAAACTAATTTTAGGAATGGCTATCGTAGCGTCTGCTTTTGCTTTCGGACAGAAAAAAGATGCCAATGCTTTGAATGCTCAGCTTCAGGAAGCCAATAAGGCAGCTATGGATGCTTATAATGCAAAAAACTATGCAGCCGCAGCACCTAAGTTTATTGAAGTTTATGACTTGTTGAAATCTGGTGGTCAGGATAATAAAATATACATGTATTATGCCGGATTGAGCCATGCGTTAGCTAATAACAGTGACCAATCTATTAAAATATACACAGATCTTGTTAATTCCGGATTTACAGGGGTGGAGACTACTTACACTGCAAAAGAAAAGAAAACAGGACAGGTTGTAAATCTTGATAAATCCACTTGGGAGCTAATGAAAAAGAACGCAGACTATTCTGACTTCAAAACTGAGCAGACAAAAGGTGTAGAGTCTGATTTATATGAAACACTAGCTTCCTTGCTTCTTAGTACAAAAAGCCCTGAAGCTCTTGCTGTTATTGAAAAAGGATTGGCAAAATTCCCGAATAATGCTAAACTTAAAGAAGCTCAGACTACAGCATATCTTCAGTCTGGAAACACAGATAAATTTATCTCAGGATTAAAAGAGCAGTTGGCTAAGAATCCAAATGATCCTACAAACTGGTATAATCTTGGAGTAATGCAGGCTAAAACCCCGGCAACTGTTAACGATGCTATTGAATCATTCAAAAAAGCAATCGAGCTTAAACCGGATTTCTCTGATGCATACCAAAACTTAGTGTATACTACTATTGGTGATGATGCTAAAATAGTAGGAGAAATCAATGCTTTGAGAAAAGATAAGCCGGATGAAGCTTCTAAATTGATTGATGAAAGAAGAGAAAGATTTGGAAAAGCATTGCCATACGCTGAAGGTTGGTATAAAGTAAGCCCAAAAAGCATTGACGCAGTTTCTGCATTAAAAGAAATTTATGTAGTAACTAAAAACATAGAAAAAGTTAAAGAAATGAAAGCAAAAGAAGCTGAATTGAGTGCAGCTGCTAAGTAA	MKKLILGMAIVASAFAFGQKKDANALNAQLQEANKAAMDAYNAKNYAAAAPKFIEVYDLLKSGGQDNKIYMYYAGLSHALANNSDQSIKIYTDLVNSGFTGVETTYTAKEKKTGQVVNLDKSTWELMKKNADYSDFKTEQTKGVESDLYETLASLLLSTKSPEALAVIEKGLAKFPNNAKLKEAQTTAYLQSGNTDKFISGLKEQLAKNPNDPTNWYNLGVMQAKTPATVNDAIESFKKAIELKPDFSDAYQNLVYTTIGDDAKIVGEINALRKDKPDEASKLIDERRERFGKALPYAEGWYKVSPKSIDAVSALKEIYVVTKNIEKVKEMKAKEAELSAAAK	PGPT0030850_315	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYSYSTEM_ASSEMBLY,PGPT0030850-ycf3-NA
BMS003_03560	2598	gyrA_2	COG0188	DNA gyrase subunit A	ATGCAAAAAGAAGGAGAAAGACTGATTCCTATCAACATTGTTGATGAAATGAAGTCGTCTTATATCGATTATTCGATGTCCGTTATCGTTTCAAGAGCGCTGCCGGATGTAAGAGACGGCTTGAAACCCGTTCATAGAAGAGTACTGTATGGTATGTATGGATTAGGGGTGTTTTCTAACAGAAAATATTTAAAATCTGCGAGAATTGTTGGGGACGTTTTGGGTAAATATCACCCGCACGGAGATTCCTCTGTATATGATGCTATGGTAAGAATGGCTCAGGACTGGAGCTTACGTTATCCGCAGGTAGACGGACAGGGTAACTTCGGTTCCATGGATGGTGACCCGCCTGCAGCAATGCGTTATACTGAGGCAAGATTGAAAAAAATCTCTGATGAGGTTCTTTCAGACCTGGATAAAGAAACAGTTGATTTTCAGAATAACTTCGACGACAGTTTACAGGAGCCCACAGTAATGCCTACTAAAGTTCCCAATCTTTTGGTAAATGGTACTTCAGGTATTGCTGTAGGTATGGCAACCAATATGGCACCTCATAACCTGTCAGAATCTGTAGATGCAATCTGTGCTTATATCGATAATAAAGAAATTACGATTGATGAGCTGATGCAGCACATCATTGCGCCGGATTTCCCTACAGGTGGTATCATCTATGGATATGATGGAGTAAGAGATGCTTTCCATACAGGAAGAGGTAGAGTTGTTTTAAGAGCTAAAGTTAACTTTGATGAAATTGGGAACAGAAACGCTATTATCGTTACTGAAATCCCTTATCAGGTGAACAAAGCCGAAATGATCGCCAGAACAGCAGAACTTGTTAAAGACGAAAAGATTCCTGGTATTCACGAAATCAGAGACGAATCTGATAGAAAAGGACTTCGTGTTGTATACGAACTGAAAAACGATGCAATCCCAAATGTTGTTCTGAATCTATTATATAAATATACAGCACTTCAGACTTCTTTCAGTGTAAATAATATTGCATTGGTACACGGAAGACCGGAACAGCTGAACCTTAAAGATATCATTCATCACTTTGTAGAGCACAGACATGAGGTTATTGTAAGAAGAACTCAGTTTGAGCTTAAAAAAGCGAAAGAAAGAGCGCATATCCTTGAAGGATTCATGAAAGTGATCGGAACTCAGGATGCTTTAGACAGAGCAATTTCTATTATCCGTCACAGTGCAAACCCTCAGGCTGCAAAAGAAGGCTTAATTGAGGCATTTGAACTTTCAGACATTCAGGCACAGGCGATTCTTGATCTTAGATTAGCTCGTCTTACAGGAATGGAGCTTGATAAGATCCGTGATGAGTACGATGCGATCATGAAAGAAATTGCGAATTTGGAAGATATCTTAGCCAACGAACCAAGAAGATTCCAGATTATCAAAGATGAATTGATCGAAATCAAAGAAAAATACGGAGACGAAAGAAGAACAGAAATAGATTATTCCGGAGGAGAAATGTCTATCGAAGATATCATCCCGAACGAATCTGTAGTTCTTACCATCTCTCATGCAGGATACATCAAGAGAACTTCGCTTTCAGAATATAAAATTCAAAGTAGAGGAGGTGTAGGAAATAAAGCCGCTACAACAAGAGATTCCGATTTCCTTGAGTATATTGTTTCTGCAACCAACCACCAGTATATGCTATTCTTTACAGAAAAAGGAAGATGTTACTGGCTGAGAGTATTTGAAATTCCTGAAGGCTCCAAAACAGCAAAAGGAAGAGCAGTACAAAACTTGATCAACATTGAACCGGATGATAAGATCAAAGCATACATCCGAACCAATAACCTTAAGGATTCAGAATATGTAAATCAAATGAGTGTTGTAATGGTAACCAAAAACGGAACTATCAAGAAAACATCATTAGAAGCGTATTCAAGACCAAGAGTAAACGGGGTAAATGCTATCGAGATCAGAGATAATGACCAGTTATTAGGAGCTTATCTTACCAATGGGACATCTCAGATCATGATTGCTACTAAAAACGGTAAATGCATCCGTTTCCCTGAAGAAAAAGTAAGAGAAGTAGGAAGAGGATCTATCGGGGTGAGAGGTATTGCCATGGAAGACGATGACGAAGCTATTGGTATGATTGTTGTGAACGATGTAGAGAACGAAACAGTACTTGTGGTATCTGAAAAAGGATACGGAAAGAGAACTGCAGTAGAAGACTACAGAATTACCAACAGAGGAGGAAAAGGAGTAATTACCCTGAACATTACCGAAAAAACAGGAAATCTTATTGCTATTCAGAACGTAACAGATGAAGACGGATTGATGATCATTAATAAATCCGGTGTTGCCATCAGAATGGGAATGGATGAAATGAGAGTAATGGGTAGAAACACCCAGGGAGTTAAGCTGATCAATCTTAAGAAAAATGACGAAATTGCTGCCATCGCAAAAGTAGAAATGGATAAAGATGTAGAAGAAGATTCTGAAGAACCTGAAGAAACAGAAGAAGGAGCAGTAGGAACCCTATTTGATAACCAGGAAAGTGACGAAGCACCTCAGGCTGAAAACGAAAACACAGCAGAGGAAAATGAGAATTCTGATTCTGAAGAATAA	MQKEGERLIPINIVDEMKSSYIDYSMSVIVSRALPDVRDGLKPVHRRVLYGMYGLGVFSNRKYLKSARIVGDVLGKYHPHGDSSVYDAMVRMAQDWSLRYPQVDGQGNFGSMDGDPPAAMRYTEARLKKISDEVLSDLDKETVDFQNNFDDSLQEPTVMPTKVPNLLVNGTSGIAVGMATNMAPHNLSESVDAICAYIDNKEITIDELMQHIIAPDFPTGGIIYGYDGVRDAFHTGRGRVVLRAKVNFDEIGNRNAIIVTEIPYQVNKAEMIARTAELVKDEKIPGIHEIRDESDRKGLRVVYELKNDAIPNVVLNLLYKYTALQTSFSVNNIALVHGRPEQLNLKDIIHHFVEHRHEVIVRRTQFELKKAKERAHILEGFMKVIGTQDALDRAISIIRHSANPQAAKEGLIEAFELSDIQAQAILDLRLARLTGMELDKIRDEYDAIMKEIANLEDILANEPRRFQIIKDELIEIKEKYGDERRTEIDYSGGEMSIEDIIPNESVVLTISHAGYIKRTSLSEYKIQSRGGVGNKAATTRDSDFLEYIVSATNHQYMLFFTEKGRCYWLRVFEIPEGSKTAKGRAVQNLINIEPDDKIKAYIRTNNLKDSEYVNQMSVVMVTKNGTIKKTSLEAYSRPRVNGVNAIEIRDNDQLLGAYLTNGTSQIMIATKNGKCIRFPEEKVREVGRGSIGVRGIAMEDDDEAIGMIVVNDVENETVLVVSEKGYGKRTAVEDYRITNRGGKGVITLNITEKTGNLIAIQNVTDEDGLMIINKSGVAIRMGMDEMRVMGRNTQGVKLINLKKNDEIAAIAKVEMDKDVEEDSEEPEETEEGAVGTLFDNQESDEAPQAENENTAEENENSDSEE	PGPT0027705_995	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
BMS003_03561	369			hypothetical protein	ATGCCGATTTTTGCTGTAGAATTTATCCAAAAAATCTTAAAAATTCATAAAAAAATGAGCGTATTAAGTATAACTTTCCACTGTACGAAAGATAACCTGGAAGAATGGGAAAATTATATTGATGAAACACTGGTTTTAATGACTGAAAACCTGATGGATGTCAACAAATATATTCTTTCTGAAGTTCACAGCGACTTTATTGAGGAAGGTAAAAATTATAATCTCCTGCTGATCTTTGATAATGACGAGCTGAGGGAAGATTTCATTAAAAGTGAACTTTTGAATATTTCTGAAAGAATTGAGAAAAAGTTTGGACAGGAAGTTATGATCTTCAATACTTTCCTTAACCCGAAAAAATCGAGATTGTAA	MPIFAVEFIQKILKIHKKMSVLSITFHCTKDNLEEWENYIDETLVLMTENLMDVNKYILSEVHSDFIEEGKNYNLLLIFDNDELREDFIKSELLNISERIEKKFGQEVMIFNTFLNPKKSRL				NA	NA	NA	NA	NA
BMS003_03562	222			hypothetical protein	ATGAAAAGTATGTTGAAAATTGTCGGGGCAGGCGTGGTGCTGTTAATGCTGTCCTCGTGTGTGGTAAGTGAGCCTTATGGAAGAAGAATGCCGCCGGGACACGCAAAAAGGTATTATGGAGGAAGTGCAAGATACTATGCACCGGGTCATGTTCAGAAAGTGTATATTTATGAAGAGCGCGGCCATCATCACAGAGGCCGTGGCCGTGGCCATCACAGATAA	MKSMLKIVGAGVVLLMLSSCVVSEPYGRRMPPGHAKRYYGGSARYYAPGHVQKVYIYEERGHHHRGRGRGHHR				NA	NA	NA	NA	NA
BMS003_03563	234			hypothetical protein	TTGAACTTTTTTGGCATTACCCTTGTTATGTTAATAAGTGAAAAAGTAGAAACAATGAAAAATTTGATCAAAATTACCGGAGTACTTATTGTGGTATTGATGCTTTCATCCTGTGTAGTTCATGATAATGGAGCCAGGGGAAATACAATCCCTCCGGGACAGGCTAAAAAAATATATGGTGGAAGCGCCAAAGATTATGCCCCAGGGCAGGTAAAGAAAAGAAATGGCTATTAA	MNFFGITLVMLISEKVETMKNLIKITGVLIVVLMLSSCVVHDNGARGNTIPPGQAKKIYGGSAKDYAPGQVKKRNGY				NA	NA	NA	NA	NA
BMS003_03564	492	ywnH_2	COG1247	Putative phosphinothricin acetyltransferase YwnH	ATGAATTACGAATTAAGAGAAATGCTTCCCAGTGACGAAGCCAGAGTGCTGGAGATTTTCAGGCAGGGAATAGACAGTGGAATTGCCACTTTGGAAACCGAAGTTCCCACTCCGGAAGCCTGGAGCATGGAATATTTCAACGATTGCCGATGGGTGCTGGAAAATGAAAATAATGAGGTAATAGGATGGTGTGCCCTGAAGCCTTTCAGTAAAAGAGAAAGCTTTAAAGGAGTGGCAGAAGTAAGCATTTATTTCGATAAAGAATACCAGGGCAAAGGATTGGGTTCCATATTGCTTAAAAAGATTATTTTGGATAGCGAAGACCACGGATTCTGGACATTACAGACCAATCTTTTCTCCGAAAATGAAATGGCCATTAAATCTCATCAGAAAAATGGCTTCAGAATGGTAGGTATCCGTAAAAAAATAGGAAAACTCAATGGACAATGGAAAGACCTTGTTCTGATGGAAAAGAGAAGCGAAGCAATTTAA	MNYELREMLPSDEARVLEIFRQGIDSGIATLETEVPTPEAWSMEYFNDCRWVLENENNEVIGWCALKPFSKRESFKGVAEVSIYFDKEYQGKGLGSILLKKIILDSEDHGFWTLQTNLFSENEMAIKSHQKNGFRMVGIRKKIGKLNGQWKDLVLMEKRSEAI				NA	NA	NA	NA	NA
BMS003_03565	513			hypothetical protein	GTGGATCCTATTCTTAATGTTGTTGTTCGCTCCCTTTGCGTTTACCTTTTCATGGTGATTGCTATCCGTTTATTTGGCAAAAATCAGCTTTCCCAGCTCAATGCAGGAGATGTTGTGTTGTTATTATTAATTTCAAATGCTGTTCAGAATGCGATGGTAGGACCGGATACCTCTCTTCAGGGAGGAATTGTTGCGGCATTGGTTTTGTTTGTTGCCAATTTTATTTTGAAAAGGATCATGTTTTCCAGTCGCTCTTTTCAAACCTTTATGGAAGATGAACCGGTTATTCTGATCAGAGACGGAATTGCCGATCAGGCAGCTTTAAACAGGGTGAAAATTACCGAAAGTGAACTGGAAGAAGCTATAAGGGAACATGGCATTGAAAACATACACAATGTAAAACTTTCTGTTCTGGAAGTAGATGGGAATATCAGTGTTGTTTCTCAGGATGAGAAAAGTAAACAAACTCACTATTCAAGAATTAAAAGAAAAATTAAAAGAAAATACCATTAA	MDPILNVVVRSLCVYLFMVIAIRLFGKNQLSQLNAGDVVLLLLISNAVQNAMVGPDTSLQGGIVAALVLFVANFILKRIMFSSRSFQTFMEDEPVILIRDGIADQAALNRVKITESELEEAIREHGIENIHNVKLSVLEVDGNISVVSQDEKSKQTHYSRIKRKIKRKYH				NA	NA	NA	NA	NA
BMS003_03566	543			hypothetical protein	ATGAAAAAATTATTTCTCTGCTTAGGAATATTCCTGTTTTTCGCAGCCTGTAAAAAGAATGAACCTCAGACCTCCGTATCTCCAGATGCAGCCATCACTGAAAAAATAAATGAGCTTTATACCCGGTACGGCAATTCCAATGATGCCATTTACAATCAACCGATTCCGGGCAGTCTGTTTTCCAAGGATTTAAAAAGAGTTTTGGATAACGCAATAAATGCTTCAAAAGCTGATATTGAAAAGGTGAAAAAAAGTGATCATCCTGATGAAAAGCCTTTAATATTTGAAGGGGCTATGTTCTCTGGTTTACATGAGGGATTTACGAGTTATAAAATTAAATCTGTCAAAATACAAAACAGAACTGCCGATGCGCAGGTAGAATTTGAGTATAATTTGTCGTTACCAAAAGAAACATGGATAGATACGATACATTTGACCAATACAGAAAAAGGATGGAGAATAGATAATATTGCTTTTGATAAAATAAGGAGTTCAAAAGACCTTAAAACAGGATTAACAGAATTTGTTCAAAGTACAGAATAA	MKKLFLCLGIFLFFAACKKNEPQTSVSPDAAITEKINELYTRYGNSNDAIYNQPIPGSLFSKDLKRVLDNAINASKADIEKVKKSDHPDEKPLIFEGAMFSGLHEGFTSYKIKSVKIQNRTADAQVEFEYNLSLPKETWIDTIHLTNTEKGWRIDNIAFDKIRSSKDLKTGLTEFVQSTE				NA	NA	NA	NA	NA
BMS003_03567	135			hypothetical protein	ATGAAAAATTTAAAGAAACTGACAAAATCAGATTTGAAGTCGGTGTACGGAGGAGAACCTGTAAAATACTGTACATTTTGCGAATGGGCAAATAAAGTAATTTGCAGCGAAATTCCAATTGTTCAGTGCCCTTAA	MKNLKKLTKSDLKSVYGGEPVKYCTFCEWANKVICSEIPIVQCP				NA	NA	NA	NA	NA
BMS003_03568	405			hypothetical protein	ATGAAAAATAGAATTCAAATATTATTCGCTTCACTTTTTGTTTGTGGATTTGCTGCCGTTTTGAACACTGCTAAAGCACAGACTACAGATCATAATACCATCCAGGAAATTCAGCTGAACAGGAGTGAAACATTTAATGATATCAGAAATAAATTAGAAGCCAATTTTGACCTTACCAACCCCGACTACAAGCAGGGAACCGTAAATTCAGTGGTGAAATTTGATATTGCGAAAAACGGAAAAATCGTCAATGTTCATTCCAGCGGCGACTGTAAAACCGTAAGCAAAGAAATTGAAACAGTATTAAGCGATCTTGATTATAGAGTAGACCGCAATAAACTGACTGACAACATGGTTGCTTACACTTACGTAATGCCCGTTACTGTTGAGATTCACAGCAGATAG	MKNRIQILFASLFVCGFAAVLNTAKAQTTDHNTIQEIQLNRSETFNDIRNKLEANFDLTNPDYKQGTVNSVVKFDIAKNGKIVNVHSSGDCKTVSKEIETVLSDLDYRVDRNKLTDNMVAYTYVMPVTVEIHSR				NA	NA	NA	NA	NA
BMS003_03569	2832	uvrA_2		UvrABC system protein A	ATGAGCAAATCAACAGAATATATAGAAGTTTACGGAGCACGTGAACACAACCTGAAAAATATTAATGTAAAAATTCCGCGCAACGAATTGGTCGTTATTACAGGCCTTTCCGGAAGTGGAAAATCGTCCTTGGCTTTCGACACTATTTTTGCGGAAGGTCAGCGTCGTTATATCGAAACATTCTCTGCTTATGCACGCCAGTTTTTAGGCGGGCTGGAGCGTCCTGATGTGGATAAAATTGAAGGACTTTCTCCGGTAATTGCCATCGAGCAGAAAACTACCAATAAAAACCCACGCTCTACTGTAGGAACAGTTACAGAGCTGTATGATTTTCTGCGTCTTTTGTATGCAAGAGTTTCGGATGCTTACTCTTTGTCTACAGGGCAAAAGTTAGTGAGCTATACCGAAGATCAGATTCTTGAAACCATCAAAGAAAATTATAAAAAAGAAAAGATCATGCTTTTGGCGCCAGTGGTGCGTTCCAGAAAAGGACATTACCATGAACTCTTTGTTCAGATGGCTAAAAAAGGCTACGGACAGGCAAGAATTGATTGTGAGCTGCAGGATATTGAATATGATTTAAAACTTGACCGTTATAAAACCCACGACATCGACATTGTAATCGACCGTTGGATTATCGGGGAGAATGCTTCTGAAGGCAGAATGGAAAAATCATTGCGTACAGCAATGGAAATGGGAGAAGGGATTATCGGAATTCAGAAACTGGGAAGTACAGGTATCGAATACTTTTCCAAGAACCTGATGGATGCTGAAACCGGACACTCTTTGGCGCTACCTGAACCCAATACTTTCTCTTTCAACTCTCCAAAAGGAAGCTGCCCGAATTGTAAAGGTCTGGGAACAATCAAAAAAATCAATACAGATTATTTTATAGATAATCCTAAGCTGTCAATCAATCAGGGAGGATTATTACCGTTGGAAGATATTAAATCGAACAAATGGATTCTGTCACAGATTAAAAATATTCTTGAGATCTTTGGATTGGGATTAACAACTCCTTTGCAGGATATTCCGGAAGAAGCACTGGATTATATCTACAACGGATGTCACAAAGAATTCAATAAAGACCTGAAATACGCAGGAATTACCAAGAAAATAAAGATTGGTTTTGATGGTTTGATTGCTTTCATGGATGAGATCATTGAGGAAAGAGAATCTTATGAAGCTATTTTATTGGAAAGACATTTCACCACTGAAGAAACCTGCCCGGAATGCCATGGTACCCGTCTTCAGCCTTCAAGTTTAAGTTTTAAAATTGACGGAAAAAATATTGCTGAAGTTAATGGTTTAAGCTTAGCCGATTTAAAAGACTGGTTAGCTGATGTTAAAGATAAATTCTCAGAAAAAAATAAAATCATTGCTCACGAGATCTTAAAAGAGATTGAAACCCGACTTCAGTTTTTGCTGGATGTAGGGTTGGATTATTTAAGCTTGAGCAGAAGTTCAAAAACCCTTTCGGGAGGAGAGTCACAGAGGATTCGTCTGGCAACACAGATTGGGTCTCAATTGGTCAATGTATTGTACATCCTTGATGAACCCAGTATCGGGCTTCACCAGAGAGATAATGAAAGACTGATCCATTCCCTGAAAAATTTGAGAGACATCGGAAACTCTGTATTGGTGGTAGAACATGATAAAGACATGATTCTGGAAGCTGATGAGGTATTGGATATTGGTCCAAAAGCCGGAAAATTCGGTGGAGAAATCCTTTGGCAGGGAAAACCAAAAGACCTGTTGAAAGCAGATACCATCACAGCTGAATACATCAACGGAAAAAGAAAAATTGCAATTCCTGAAGAAAGAAGAGCAGGAAGCGGTAAAAATATTGTTTTAAAAGGAGCTACAGGGAATAATCTTAAAAATGTAACCCTGGATATTCCTCTTGGAAAACTGGTTGTAGTAACCGGAATTTCAGGAAGCGGAAAATCTTCTCTGATTAACGGAACATTATATCCGATCCTTAACAAACATTTCTACAGAGCGGTTCAGGAACCTTTACCATACAAAAAAATTGAGGGGTTAGATAATATTGATAAAATTGTAGATGTAGATCAGACTCCAATCGGAAGAACACCACGTTCGAATCCTGCAACGTATACCGGAATGTTTACCGATATCAGAAACCTTTTTGCAGAGCTGCCGGAAAGTAAAATCCGTGGATATAAGCCTGGAAGATTCTCTTTCAACGTAAAAGGCGGAAGATGTGAAACCTGTCAGGGTGGAGGATTAAAAGTGATCGAAATGAATTTCCTTCCGGATGTATACGTACACTGTGAAACCTGTAACGGAAAACGTTTCAACAGAGAAACGCTGGAAGTTCGTTACAAAGGAAAATCAATCTCTGACGTTTTGGATATGACCATTGATGAAGCAGTAGATTTCTTCCAGCCGATTCCTAAGATTTTTGCGAAAGTGAAAACATTACAGGATGTAGGTTTGGGATATATTACCCTTGGACAGCAATCGACAACCCTTTCAGGAGGTGAAGCACAGCGTATCAAGTTAGCAACCGAATTAGCGAAAAGACAAACCGGAAACACCCTTTATATTCTTGATGAACCAACAACAGGGCTTCATTTTGAAGACGTGAAGATCCTGATGGATGCCATCAATAAATTAGTAGAACTTGGAAATTCATTTATCATCATCGAACATAATATGGATGTCATCAAATTAGCAGATCATATTATTGACGTAGGACCGGAAGGAGGAAAACATGGCGGACAGATCGTAGCACAGGGAACTCCTGAAGAGATTGTGAAGTCTAAGAAAAGCTTGACCGGGAAGTTCCTGAAGAGGGAACTGGAATAA	MSKSTEYIEVYGAREHNLKNINVKIPRNELVVITGLSGSGKSSLAFDTIFAEGQRRYIETFSAYARQFLGGLERPDVDKIEGLSPVIAIEQKTTNKNPRSTVGTVTELYDFLRLLYARVSDAYSLSTGQKLVSYTEDQILETIKENYKKEKIMLLAPVVRSRKGHYHELFVQMAKKGYGQARIDCELQDIEYDLKLDRYKTHDIDIVIDRWIIGENASEGRMEKSLRTAMEMGEGIIGIQKLGSTGIEYFSKNLMDAETGHSLALPEPNTFSFNSPKGSCPNCKGLGTIKKINTDYFIDNPKLSINQGGLLPLEDIKSNKWILSQIKNILEIFGLGLTTPLQDIPEEALDYIYNGCHKEFNKDLKYAGITKKIKIGFDGLIAFMDEIIEERESYEAILLERHFTTEETCPECHGTRLQPSSLSFKIDGKNIAEVNGLSLADLKDWLADVKDKFSEKNKIIAHEILKEIETRLQFLLDVGLDYLSLSRSSKTLSGGESQRIRLATQIGSQLVNVLYILDEPSIGLHQRDNERLIHSLKNLRDIGNSVLVVEHDKDMILEADEVLDIGPKAGKFGGEILWQGKPKDLLKADTITAEYINGKRKIAIPEERRAGSGKNIVLKGATGNNLKNVTLDIPLGKLVVVTGISGSGKSSLINGTLYPILNKHFYRAVQEPLPYKKIEGLDNIDKIVDVDQTPIGRTPRSNPATYTGMFTDIRNLFAELPESKIRGYKPGRFSFNVKGGRCETCQGGGLKVIEMNFLPDVYVHCETCNGKRFNRETLEVRYKGKSISDVLDMTIDEAVDFFQPIPKIFAKVKTLQDVGLGYITLGQQSTTLSGGEAQRIKLATELAKRQTGNTLYILDEPTTGLHFEDVKILMDAINKLVELGNSFIIIEHNMDVIKLADHIIDVGPEGGKHGGQIVAQGTPEEIVKSKKSLTGKFLKRELE	PGPT0014915_4478	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS003_03570	1884			hypothetical protein	ATGAATTTAGATCAGAATATTTATTCCAAAGAATCTGTAAAAGCAAGAATGCTGCAGAATGCCACTAAAGTATGGGGACTGAGAAGCCCTCAGTCTTTAGATCCTTTTGTAAAGCTATTGATAGACGCATTCAGTACAGAAGTTTTTAAAGCGAATAATGAAATACAGACAGTGAACGCCCGTATATTGGAAAAACTGGCAAAACTACTTACACCGTCTATTTATACACATCCTATTCCGGCTCATTCCGTGGCTTTTACGCAGCCTTATGATTCATCTGAAATTTTATTGGAACATACAGAGTTTTTCTTCCGCAAACAGATGACTTCCACGGTAAAATCAGAATCTGACAAGCAGCTGAACATTCCTTTTACTCCGGTAGGAAATGTGAGAATCAATAAAGTTCACACCTCTATTATGTTTGTAGGAAACACCTGCTACAGTATAGATGACAGGTTCAATAAAATTCCTATTGCAAGGTTTCAGGGAAGACCAGAAGATTACAGAAAAATTACGATAGGAGTAGATGTCAGCAAATACATCAGTGAAAATTTTCCAAAATACCTGAGCATATTCTGCTCCAATCCTGCATTTGAACACCTTGATTTTGTATACAAATTATTGCCGTATATCAATGTGACAAGTAATGGGAATCCTCTTTTTGTAAGAGAAGGATTAAGTTATCTTTCCGAAACTCAAAATGACGGCTACGAACAGATGTTCAAAGAACAGTCCATCAGAAATAAAGTGATTGAGGATATTAAAAGTATCTACCGCCACAAATTTATTGAAGTTACAGGAATTTCTCAAAGTCTGTTTTCTGAACCCGGACAGCTTCCACAGAATCTGGATTTCCTTGCCGGAAAAGAAGAAATCACAAAATTCCTGGATAATAAAAGTTATCTCTGGCTTACCTTTGAGTTTCCGCCACAATTTTCAGCAGAAATTCTTGATAATTTTTCCTTTGTTCTGAATGCATTTCCGGTATACAACAGAGGCTGGAAAAAAACAGAATACAGCCTTGATATCATGGGAAATAATATTCCTCTGGTAACAGATGAAGGCGAACATTTCCTTTACGTAGATGAAGTACAGGACGGCGATGGAAGAAAGTATACCGAAATTCCCTTCACCCCGGCAGATGATCTTAAAAAAGGCTTGTATACAGTAAGAAAAGGAGGAATGGAACGCTTCACCAACAGAAATGCTGTGGATATGATTGCCAATGTTCTGGAACTGACAAGGGACGAAATTGCCGCATTTTCCCTTTTGAACAGAGATAATGTAAAAGGAGTTCTCAGCGAAATGTCCGATAAAATGAAATCAATGGTACAAAAGGTAAATAATGCCAAAAGGAGTATCAGACAGGAACTGAACTATGTGATCATGGAACCTGTAGAAAAAACAGATCATACCTATGCTGCTTTCTGGGTAACCCATTGTACGCTTGCCAATCATATGCGACCGGGAACTGAGCTTTCCAACCAATTAAAATCGCAGACGATTGTTCTGCTTACAGAAACATTAGGTGGAGCAGAAGAACAGAAAGGAACAGACAGTATTCAGGCTTATAAATACGCACTTACCACCAGAGATAAAATCATTTCCCTGGAAGATGTTAAAAACTATTGCCGAATGATTCTGAAAGATGAGGTAAGAGAAGTGAGAGTAAGAAGAGGAACAATGATCAGTAATAAACCCAAAGAAGGATTCGTAAGAACGGTTGAGGTAGAAATTATTCCACAGAACTATTCTTTCTACGGAAGAGCTTATTGGGAAAATATGGCGAATATTATCAGAAATCAGATTATTGCCAAAGCTATTGACGGAATTGAATACATTGTAAGAATTACCAATGAAGATGTAGACTTCCAGGATATGTAA	MNLDQNIYSKESVKARMLQNATKVWGLRSPQSLDPFVKLLIDAFSTEVFKANNEIQTVNARILEKLAKLLTPSIYTHPIPAHSVAFTQPYDSSEILLEHTEFFFRKQMTSTVKSESDKQLNIPFTPVGNVRINKVHTSIMFVGNTCYSIDDRFNKIPIARFQGRPEDYRKITIGVDVSKYISENFPKYLSIFCSNPAFEHLDFVYKLLPYINVTSNGNPLFVREGLSYLSETQNDGYEQMFKEQSIRNKVIEDIKSIYRHKFIEVTGISQSLFSEPGQLPQNLDFLAGKEEITKFLDNKSYLWLTFEFPPQFSAEILDNFSFVLNAFPVYNRGWKKTEYSLDIMGNNIPLVTDEGEHFLYVDEVQDGDGRKYTEIPFTPADDLKKGLYTVRKGGMERFTNRNAVDMIANVLELTRDEIAAFSLLNRDNVKGVLSEMSDKMKSMVQKVNNAKRSIRQELNYVIMEPVEKTDHTYAAFWVTHCTLANHMRPGTELSNQLKSQTIVLLTETLGGAEEQKGTDSIQAYKYALTTRDKIISLEDVKNYCRMILKDEVREVRVRRGTMISNKPKEGFVRTVEVEIIPQNYSFYGRAYWENMANIIRNQIIAKAIDGIEYIVRITNEDVDFQDM				NA	NA	NA	NA	NA
BMS003_03571	441			hypothetical protein	ATGGATACACCAAATTACAGAATGCCTTTCGTACCGTCTACTTTAATGACCGAAGGCGGAAGTATCGATACCTGCGATATGGGAGAAAGTATTGCCCACAATATTATGCTGCTGATCACTACCAAAAAAGGAGAGAACAGATATGATGAAAACTACGGAAACGACGTCTGGAACCTTGAATTCGATAATGGAGTTACAAGTGCCATCTGGGAAAGCGTTTTTATCAAAAGCTTAAGAAGACAGATTCAGGAATATGAACCAAGAATTGTCAACCCGCAGATTGATGCTCACATCCAGTTTGTAGAGCACAGCTATGATACCAAAGAACACACCGAAATTAAAAAGAAAGTAAGAATTGCCATCAATGCAAAAATGGAAGAAACAGGAGAACGTTTCAGTTTTTCAACAGAACTGTTTCTAAGCCCGATGTCCATTGATTAA	MDTPNYRMPFVPSTLMTEGGSIDTCDMGESIAHNIMLLITTKKGENRYDENYGNDVWNLEFDNGVTSAIWESVFIKSLRRQIQEYEPRIVNPQIDAHIQFVEHSYDTKEHTEIKKKVRIAINAKMEETGERFSFSTELFLSPMSID				NA	NA	NA	NA	NA
BMS003_03572	1380	steT_2	COG0531	Serine/threonine exchanger SteT	ATGCTCGTGATGGGGTCTATGATTGGAAGCGGAATCTTTATTGTAAGTGCTGACATGATGAGGAATCTGGGATCCGGATACTGGCTTATTGTGGTTTGGGTCATCACAGGAATAATGACTGTAGCCGCCGCCATAAGCTATGGAGAGCTATCCGCATTATTTCCGAAAGCAGGAGGGCAATACACTTATCTGAAAGAAATTTTTGGGAAAAAAATGGGATTCCTTTACGGATGGGGATTGTTTACCGTAATACAAACCGGAACTATTGCTGCTGTAGCAATGGCTTTTGGAAAATTTACCGCATATCTCATTCCTTCCCTTAATGATGCTGCACCTATTTTCCAGAGTGGTGAATTCAAAATTACCTGGATACAGATTCTGGCAATTGCGGTTATTATTCTGCTTACCTATATCAATACAAGAGGAGTAGAAAGCGGAAAAATCCTTCAGAATATCTTTACAGGTTCCAAAATTATTGCATTATTAGGTTTAATTGCTGCAGGTTTTATATTGGTGGATTTCTCTCATATGGCAGAAAATTTTAGCTGGGGAACAGATTCTTTTAATAACCTTAAAAAAGATCTGAGTGGTAATTTTCTGAAAGAAGGCTGGGAACCCATTGGCGGAATGACTCTTCTGGGCGGAATTGCTGCTGCCATGGTAGGTTCTGTTTTCAGTTCTGTGGCTTGGGAAAGTGTAACATTTGTTTCCGGTGAGATTGAAAATCCTAAAAAGAACGTTGTAAAATCTATGATTTACGGGACTTCTGCCGTTATGATCCTTTATATAGCAGTAAATTATGTATACCTGAATGCTCTGGACAGAGACGGAATTGCATTTGCAGCCAACGACAGAGTGGCGGTAGCAGCCTCTCAGAATATTTTTGGAAGTGCAGGAACAATCATCATTGCTTTATTGGTTATGATCTCTACATTTGGATGTAACAACGGTTTGATCCTGGCAGGAGCAAGAGTTTTTCAGACCATGGCAAAAGACGGAATGTTTTTCAAATCAGCAGAAAAAAACAATCAAAATGAAGTTCCGGAAAATGCTCTATGGATGCAGGGAGTCTGGGCTTCCATTTTATGTCTGAGCGGGCAGTACGGGAATTTATTGGACATGATCTCTTTCGTGATTGTCCTGTTCTATATGATTACTGTTTTTGGAGTTATTTATTTAAGAATGAAACAGCCTGGGCTGGAAAGACCTTATAAGACATGGCTGTATCCGGTAACACCTCTTATTTACCTTTTAATAGGAGCTTGTTTCTGTATTCTACTGTTAATTTATAAGCAACAATATACATGGCCAGGTTTTATTTTGGTATTGCTGGGACTTCCGGTGTATTATTTTATCAACCGAAAAAAGGCAGATGCTTAA	MLVMGSMIGSGIFIVSADMMRNLGSGYWLIVVWVITGIMTVAAAISYGELSALFPKAGGQYTYLKEIFGKKMGFLYGWGLFTVIQTGTIAAVAMAFGKFTAYLIPSLNDAAPIFQSGEFKITWIQILAIAVIILLTYINTRGVESGKILQNIFTGSKIIALLGLIAAGFILVDFSHMAENFSWGTDSFNNLKKDLSGNFLKEGWEPIGGMTLLGGIAAAMVGSVFSSVAWESVTFVSGEIENPKKNVVKSMIYGTSAVMILYIAVNYVYLNALDRDGIAFAANDRVAVAASQNIFGSAGTIIIALLVMISTFGCNNGLILAGARVFQTMAKDGMFFKSAEKNNQNEVPENALWMQGVWASILCLSGQYGNLLDMISFVIVLFYMITVFGVIYLRMKQPGLERPYKTWLYPVTPLIYLLIGACFCILLLIYKQQYTWPGFILVLLGLPVYYFINRKKADA	PGPT0020810_3607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS003_03573	498			hypothetical protein	ATGAAATTTAAATTGATATTATTGGGTGCAGCATTCACAGCTTCTTCATTAGCTTTTGCCCAATCTGGTCCACCGGAAGGAAAAGCTTTGGTAGGCGACACCTACGGAGATCAGGTAACTTATTCTGCTGAATCTAAAGCAATTACTGTAAATAAACTGAATAAGCAACTTAAAAAAGATAATAAAAAGGCTGAAAATGTATCCGTTAAAGGAAAAGTAACCGATGTTTGTGACAAAAAAGGTTGCTGGCTTACGATTCAGACGGAAGATAATTCTAAGTTTTTTGTAAAAATGAAAGACTATGCCTTCTTTGTACCTACAGCTTTAAAAGGTAAAAATGTTGTATTGGAAGGAAATGCGGAAAGAAAAGTAATTTCTGTAAACGAGCAGAAACATTATGCTGAAGATGCCAAGAAGCCTCAGTCTGAAATTGATGCGATTACACAACCCAAAGAAGAGATCAGATTTGTTGCCAACGGAATTAAAGTGGTTAACTAG	MKFKLILLGAAFTASSLAFAQSGPPEGKALVGDTYGDQVTYSAESKAITVNKLNKQLKKDNKKAENVSVKGKVTDVCDKKGCWLTIQTEDNSKFFVKMKDYAFFVPTALKGKNVVLEGNAERKVISVNEQKHYAEDAKKPQSEIDAITQPKEEIRFVANGIKVVN				NA	NA	NA	NA	NA
BMS003_03574	1263			hypothetical protein	ATGATGAGAAAAAACTATTACCGGAAACTGGCATTCATGGTTACATTACTGACCATTCTATTTGCCTATCAGAAATATACAAGCCGGGAAAAAGAACCTTTTCCCAATGTAAAATTTATTTCAGGTTCTTCGGCGCCTGACAATTTATCAGATTTTGACCCCAACATATTGGATAAACAGCAATGGAAGAAGCTCGGTTTTTCAGAGAAACAGGTTTCTACGATTCTTAAGTATAAAGATGTATTGGGAGGAAAGTTCAACTCAAAAGAAGATCTTAAAAAATGCTACGCAATCTCCCAGGAGAAATTCAGTGAACTTGCGTCATTTATAGAACTTCCTGAGACTGCAGACAAGGAAAAATCAAACAACTATGATAAGGTCAATAAAAAAGAACTTACGATTTCCGGAAGATTCAACCCGGACCTGTTTTCTGCTAATGATTGGCTCAAAACAGGTTTCACCGAACGACAGGCGGAAGCTATTATAAAGTATAGAAATTATCTGGGTGGGAGCTTTATAAGCAAGGAAAAATTTAAGGAGTGTTTTATTATTTCACCTGAAAATTACAGAAAGCTTAAGCCTTATCTGCTATTACCGGAAAAAACACCTGAAAACTTTAGAAATTTAACAAAGAATAATATAGTTAAAGCTAAAATCCAATATCAGACTTTTGATCCTAATCAACTGGATATAGAGGGATGGAAAACTTTAGGCTTTTCTGAAAAGCAGAGCATCACCATCGTTAATTACCGGGATAGAAATTTACGGGGAAGCTTTAAAAGTCCTGAAGATCTGGAGAAATGTTTTGTGATTTCGGCTGAGAAATTTAAGGAAATGAAGCCTTATATTAAGCTTCAGGAGAAACAGCAGGAGAAAACTGATTTTTCAAAAACAGATCTCAATACAATTACATTCAAACAGCTTATAGAATTCGGGCTGGATGAAAGAAGTGCCGGATCAATCATCGGTTTCAGAAAGAAACTCGGAGGCTTTATCAACAAACAGCAGATCTTAACAACTTACAATATAGATCAGGATCTTGTGCAAAAGCTGATTTCAATAGCACCACTTAATAATTCTGAAGTTCCCAGATATTCGTTGGCAGATGCACCTGAGGAATGGCTTAAAAATCATCCTTATTTCAAATATTCCGCAGATAAAATTATTTTCTACAGAATCAGCAATCCCGATGATAAAAAAATATGGAAATTTTTAAAGTTAAAACCAGAGTATGAGGAAAGAATGCGGTTATATATAAAATAG	MMRKNYYRKLAFMVTLLTILFAYQKYTSREKEPFPNVKFISGSSAPDNLSDFDPNILDKQQWKKLGFSEKQVSTILKYKDVLGGKFNSKEDLKKCYAISQEKFSELASFIELPETADKEKSNNYDKVNKKELTISGRFNPDLFSANDWLKTGFTERQAEAIIKYRNYLGGSFISKEKFKECFIISPENYRKLKPYLLLPEKTPENFRNLTKNNIVKAKIQYQTFDPNQLDIEGWKTLGFSEKQSITIVNYRDRNLRGSFKSPEDLEKCFVISAEKFKEMKPYIKLQEKQQEKTDFSKTDLNTITFKQLIEFGLDERSAGSIIGFRKKLGGFINKQQILTTYNIDQDLVQKLISIAPLNNSEVPRYSLADAPEEWLKNHPYFKYSADKIIFYRISNPDDKKIWKFLKLKPEYEERMRLYIK				NA	NA	NA	NA	NA
BMS003_03575	723	rluF	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGGAAAAGACGCGTATCAATAAATATTTATCAGAAGTAGGATACTGCTCAAGAAGAGCAGCAGATAAGCTTTTGGAAGAGGGCAGGATTAAAATAAACGGAAAAGTTCCTGAGTTGGGAACCAAAGTTTCTGATGAAGATCTGGTAGAAGTAGACGGAAAGCCCATCAGGGAGCCTCAGGAAAAACCGGTGTATATTGCTTTTAATAAACCCGTAGGAATTGTATGTACAACGGATACAAAACGCGAAAAAAATAATATCGTAGACTATATTAATCATCCCAAAAGAATTTTTCCTATCGGAAGACTGGATAAGCCGAGTGAAGGACTCATTCTCCTTACGAGTGATGGTGATATTGTTAATAAAATTCTGAGAGCCCGAAATAATCATGAGAAAGAATATCTGGTTCGTGTAGATAAGCCTATTACTCCAAGATTTCTTGAGAAAATGAGAAATGGAGTTCCCATCTTAGATACAGTAACCAAAAAATGTGAAGTAGAGAAGATTGATGACATGAATTTCAGAATTATTCTTACACAGGGACTCAACAGACAGATCCGAAGAATGTGCGAATATCTTGGATATGAGGTTAAAAAACTGAAAAGAATCCGTATCATGAACATCAAACTTGATCTTCCCATCGGAAAATGGAGGGATCTTACAGAAGATGAAATGAATATGCTGAACACTTTACTTACAGATTCCAGCAAAACAATAGATTAA	MEKTRINKYLSEVGYCSRRAADKLLEEGRIKINGKVPELGTKVSDEDLVEVDGKPIREPQEKPVYIAFNKPVGIVCTTDTKREKNNIVDYINHPKRIFPIGRLDKPSEGLILLTSDGDIVNKILRARNNHEKEYLVRVDKPITPRFLEKMRNGVPILDTVTKKCEVEKIDDMNFRIILTQGLNRQIRRMCEYLGYEVKKLKRIRIMNIKLDLPIGKWRDLTEDEMNMLNTLLTDSSKTID				NA	NA	NA	NA	NA
BMS003_03576	699	truB	COG0130	tRNA pseudouridine synthase B	ATGACTGCTGAAGAACTGAAATCAGGATACATCTTTTTATTGGACAAACCTTTGGACTGGACTTCCTTCCAGGCTGTCAATAAAATGAAATATAAACTTAAAAGGGAATTTGATCTTCCCAAGAAATTTAAAATCGGGCATGCCGGAACTTTAGATCCCAGAGCAACCGGGCTGCTTATTGTCTGCTGTGGAAAATTTACTAAGAAAATTCCTGAAATTCAGGATGCTCCCAAAGAATATTGGACAGAGATCAAAATTGGTGTACAGACAGAATCCTATGATACCGAAAAACCTGAAATTCTTCAACAGGACATCACTCATATTACTGAAGAACAGGTAAAAGAAGTTCTGGAAAAATTTGTAGGAGAAATTGAACAAAAACCACCGGTTTATTCAGCCATTAAAATTGATGGTGAAAGAGCTTACAATCTTGCGAGAGCTGGTGAAGAAGTGGAAATGAAAGCAAGAAAAACAACAATCCACTATATCAAAGATATTAAAATAGATTTTCCTTTGGTAAGTTTTATGGTAGGCTGTTCAAAAGGAACCTATATCAGAAGTCTGGCTCATGATATAGGGCAGGAATTGGCAGTAGGAGCTTACCTGACACAATTAAGACGTACGAAAATTGGAGATTATGCTATAGAAAATGCTACAGATCAGTTCCTGAATAACGAGTACAGATTTGAAGGTTTATAA	MTAEELKSGYIFLLDKPLDWTSFQAVNKMKYKLKREFDLPKKFKIGHAGTLDPRATGLLIVCCGKFTKKIPEIQDAPKEYWTEIKIGVQTESYDTEKPEILQQDITHITEEQVKEVLEKFVGEIEQKPPVYSAIKIDGERAYNLARAGEEVEMKARKTTIHYIKDIKIDFPLVSFMVGCSKGTYIRSLAHDIGQELAVGAYLTQLRRTKIGDYAIENATDQFLNNEYRFEGL				NA	NA	NA	NA	NA
BMS003_03577	819	uppP	COG1968	Undecaprenyl-diphosphatase	ATGGATTTAATCAAAGCAATTATTATTGCCATTGTAGAGGGTTTAACAGAATATCTTCCCATCTCTTCTACTGCGCATATGGGATTTACTGCAAATCTTATGGGGCTGGAAGAAACAGAATTTCTAAAGATGTTTCAGGTATCTATTCAGTTTGGAGCTATTTTATCTGTTGTTGTAGCATACTGGAAAAAGTTTTTTGACTTAAATAATATTCAGTTCTATTATAAACTGGCTTTTGCTGTAGTTCCTGCATTGGTTCTGGGGTATTTGTTTGATGATAAAATTGAAGCCGTTCTTGGAAATCAGATTGCAATTTCTTCCGTATTGGTTTTAGGAGGTGTTGTTTTACTGTTTGCAGACAAATGGTTTAAGAATCCTAAAATTGATGATGAGAAAGGGATTACTATAAGAAATGCCGTTACCATCGGTTTCTGGCAGTGTCTTGCAATGATGCCTGGTACAAGCCGTAGTGCAGCTTCTATTATCGGAGGGATGGCACAGGGACTTACCAGAAAAGCCGCTGCAGAATTCTCTTTCTTTCTTGCTGTACCTACTATGCTGGCGGTAACGGTATATTCAGTTTTTGTGAAAACGTGGGGAAAAGAAACTGCAAATCCGCAGAAAGGATACGAAATGATTATGGCTTCACAGGATCATATCATGATCTTCGTGATTGGAAATGTTGTTGCATTTATTGTTGCTCTTATCGCTATCAAGGCTTTTATTGGAGTACTTAATAAATATGGATTTAAACCTTGGGGCTGGTACCGTATTTTTGTAGGAATTGCCTTGTTGATTTATTTTTATTTCTTTAAATAA	MDLIKAIIIAIVEGLTEYLPISSTAHMGFTANLMGLEETEFLKMFQVSIQFGAILSVVVAYWKKFFDLNNIQFYYKLAFAVVPALVLGYLFDDKIEAVLGNQIAISSVLVLGGVVLLFADKWFKNPKIDDEKGITIRNAVTIGFWQCLAMMPGTSRSAASIIGGMAQGLTRKAAAEFSFFLAVPTMLAVTVYSVFVKTWGKETANPQKGYEMIMASQDHIMIFVIGNVVAFIVALIAIKAFIGVLNKYGFKPWGWYRIFVGIALLIYFYFFK	PGPT0024165_2959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS003_03578	297			hypothetical protein	ATGAGCAAAAAAACAAATAAAATTTCCGCTTCAAACTTTGGACATGAAGCTGAAGTACCTCAGGAAAACGCTTTCTATTTCGGACAGCAGAATTTCAAATGGATGCTGATAGGTCTGGCTTTTATTGTAGTAGGATTTCTCCTGATGATGGGGCCGGATGCCAACACTGTAGACGGTAAATTTGATCCGAACTCATGGAATGACGGGATCTTTTCTATCAGAAGAATAAGAATAGCACCGCTGTTTGTTGTTATAGGGTTTGTAATAGAAGTATACGCGATCTTAAAAAGAAAGTAA	MSKKTNKISASNFGHEAEVPQENAFYFGQQNFKWMLIGLAFIVVGFLLMMGPDANTVDGKFDPNSWNDGIFSIRRIRIAPLFVVIGFVIEVYAILKRK				NA	NA	NA	NA	NA
BMS003_03579	900	ftsX	COG2177	Cell division protein FtsX	ATGGCTAAATCTGTAGATGAATTTAATAAGAAAAGGCTTCGGTCCAGCAATATTACAGTAGTGATAAGTATTGCCTTAGTGTTATTTTTGTTAGGATTAATGGGGCTTATTCTGATTAATGCCCAGAAGTATTCTGACTATATCAAAGAACAGTTGGTAGTGAACGCCTACTTTGATGAAAACTATGACGCTAAAGATTCTGTAAAAATTGCAAAACTTGAGGAAGAAACTTTTAAAAAGGTACAGACTTTAGCTCCTGTAAAAAAGGCAACCTATATTTCAAGAGATATGGCCGCCAAAGAAGCAAAGAAGAGTATGGGAATAGACAGTGATGCATTGTTCGAAGAAAATATTTTCCCTTCTTCTATTGAAGTTGCATTAAAACCGGAATTCGTAGATCCGGCAAAAATTGATGAAGCAATTAAAGAAATCAAAGCTGTTCCCGGGATTATTGATGTTAAAAACGACAGTACTTTGATGGTTGACGTATACAATAACCTGAGCAGAATTTTAAAATGGATCTTAGGATTTTCTATTCTGTTCCTGATATTGGCGGTTGTATTAATCAACAATTCAATCCGTCTGAAAATATTCTCGAAAAGATTTATTATTAAAACAATGCAGCTGGTAGGAGCGAAAAGAAGATTTATCCTTAAACCTTTCATTATAGAAGCTATTATTCTGGGAGCCATTGGTTCTGTAATAGGTCTTATTGCGTTAGGTGGAGTTTGGTACTATTTCACAAGCCAGATTGGTTCTGCTTTCGTACAGGACAACAACCAGTATTTCTGGCTAATCATCCTTGTACTTGGTGTAGGAATTTTTATTTCTGTCTTAAGTACGATTTTCGCTACATGGAGATTCTTGAAATCAAACGTTGACGATTTATACTATTCTTAA	MAKSVDEFNKKRLRSSNITVVISIALVLFLLGLMGLILINAQKYSDYIKEQLVVNAYFDENYDAKDSVKIAKLEEETFKKVQTLAPVKKATYISRDMAAKEAKKSMGIDSDALFEENIFPSSIEVALKPEFVDPAKIDEAIKEIKAVPGIIDVKNDSTLMVDVYNNLSRILKWILGFSILFLILAVVLINNSIRLKIFSKRFIIKTMQLVGAKRRFILKPFIIEAIILGAIGSVIGLIALGGVWYYFTSQIGSAFVQDNNQYFWLIILVLGVGIFISVLSTIFATWRFLKSNVDDLYYS				NA	NA	NA	NA	NA
BMS003_03580	771	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	TTGAGTGTAAAAGCAAAAAAACATCTGGGACAGCACTTTCTGACAGATGAAAATATCGCAAGAAAAATAGTAGAAGGCCTTAGTTTTGAGAACTATAATAACATCATGGAAGTAGGCCCAGGAATGGGAGTTCTTACCAAATATCTTCTTGAAAAGGATCAGAACATTTATCTTGCAGAGATAGATACAGAGTCTATTGAATACCTGAAAAACAAATATGCAAAGGTTACTGAAAATACTTTTGTGGGAGATTTTCTGAAGCAGGACTTCAGTTTTTTTAAAGACGAACAGATTGCCATCATTGGTAATTTCCCATATAATATCTCATCCCAGATTCTGTTTCAGATTGTAGATCATTATGAGCTGATCCCGGAAATGGTAGGAATGTTCCAGAAAGAAGTAGCCGAAAGAACAGCTGCTGTTCCAAGAACTAAAGATTACGGTATTCTTTCTGTACTGATACAGGCTTATTATGATGTATCTTATATGTTTACGGTACATGAAAATGTATTCAACCCTCCTCCGAAAGTAAAGTCCGGAGTGATCCGTCTTACAAGAAATCCTAAGGAAGGCCTTACAGGCAATGAAGTTCTCTTTAAGCAAATTGTAAAAACGGGATTCAACCAAAGAAGAAAAAAACTTTCTAATGCTTTGAAATCCTTAAATATTCCTGATGCTTTGAAAGGTCATGAATTTTTAGACAAGAGAGCGGAAGAGCTAAGTGTAACAGATTTTATACATTTCGCTAATCTCTGGAAGGAAAATCAATAA	MSVKAKKHLGQHFLTDENIARKIVEGLSFENYNNIMEVGPGMGVLTKYLLEKDQNIYLAEIDTESIEYLKNKYAKVTENTFVGDFLKQDFSFFKDEQIAIIGNFPYNISSQILFQIVDHYELIPEMVGMFQKEVAERTAAVPRTKDYGILSVLIQAYYDVSYMFTVHENVFNPPPKVKSGVIRLTRNPKEGLTGNEVLFKQIVKTGFNQRRKKLSNALKSLNIPDALKGHEFLDKRAEELSVTDFIHFANLWKENQ				NA	NA	NA	NA	NA
BMS003_03581	2358			hypothetical protein	ATGAGAAGATATCTACCGCTTTGTTTATTTTTTTTAGTCATTTCGACTTTTTTATTTTCACAAGACCTGCCGCCAAGGAAACCGGTAAAGGAGACTCCTACAGCCGCTTCCAGAAGAGCAGGCGTTTTTATTGACGTGAATGCTCCGTCGTATCCTGAGTCTACTTATACTATAGAAAAAATGGTAAAAGATGTATTGATCTCGTCGGGGACCAATACCTGTCTGACTCCCAATGTAACCAATGTGAAGATTACTCCTAATCATGCTGTAAGTGATGCAAACAGAGCCTGGGGATATTTTCACAAAGCTACAACCAATTTCCCTTTTAAAGACGGGCTTATCCTTTCTACAGGATATGCAAGAAGAGCAGGGAATACCTTTGAAGGAGCGCTTAACGATGTGAATGGAGGAGGATCAGATGCTGATCTTGCACAGGTAATCGGGGTGGTGGAGAGCAGACTGAATGATGCGGTTCTTTTAGAATTTGACTTCGTTCCTACAACCAGCCAGATTAAATTTAACTACCTGATTGCATCAGAAGAATATACAGGATCTTTCCCTTGTACCTTTGCAGATGCATTTGCTATTTTGCTTAAACCTACATCAGGAGGACCCTATGTGAATATGGCGGTACTTCCGGGAGGTGCAGGTCCGGTGAGTATTACAAATATCCACCCTGCAATCGGAAGCAGCTGTGGCGCTGTAAATGAGCAATACTTTGGAGGATACAACACAGGTAATGTTGAAACGAACTTTAACGGAAGAACAATTCCATTGACAGCAACAGCAACAGTAGTGGCAGGGCAGGAATACCATTTCAAAATGGTAATTGCTGATTATAGTGACCACAGTTATGACTCTGCTGTATTTCTGGAAGGAGGATCTTTCAATATCGGAGTAGACCTTTTGGACCCTGCAGGTACCAAATTACCTTCAGATATCAATGTATGTGATAATGAACCTCAGGTAATCACAGCTTCTGTAAATGATCCTAACCTTGTATATCAGTGGTATTATAATGGAACACCTGTTCCTAATGCCACTACCAATACAATTACCGCAGTACAGCCTGGTACCTATACCATCGAAGTAAGTGTACCTGGTAACCCATGTCCTGGTAAAGCTACAATTGAGATTCACGGAGGAACAACTCCACTGGCACAGGATGCAACATTGCTGCTTTGTACCACACCTGATATCACTACATTTGATTTAAGTACAATCACATCTACTATCAGCCCTACGCCGGGAGCTGTCTTTAAGTTCTACGAAAATCAGGCAGATGCTGTTGCTCAGAACGACAACTATATTCAGACTCCTTTGAACTATAATGGTAATGATGGTCAGATTCTTTATGTGGTTGTTTCCAATGGGGGCTTCTGTAGCAAAATGGTTGAACTGACATTGCAGAAAGAAGTGACACCTACAGCTAAAGTCAAAGCTTCAAGAATGCAGATTTGCCCGGGAGAATCTGTGACACTTACTGCTGAAGGAGGTGATACATATCTGTGGAGCAATTTCATGGGAACAGGTAACATGCAGACTGTTACTTTATACCAGACAACAACATTTACAGTATATGCACTTGGGCCAAAAGGGTGTAAATCTCTTAACCCGGCAACAATTAGAATCGAAGTTATACCGGAAATCACTACCCCATTAAAAGATGTTGAAATGTGTATAGGAGATAAAGTGATTCTTGATGCGGGAGAAGGAACAGGTTACAAATACCTTTGGAGTACAGGAGCTACGACACAGAAAATTGAGGTAGACCAATGGGGAATTTATTCTGTAGAAATTGACAATGGTACCTGTAAAAAAGTATTCGAAGCTAAAGTGATGGGGGCAGCTACTCCTTTCGTTACTGCTATCAACTATGAAAGTATTAAGAAAACAGTAACGATCACGGCTGAAAACCCGCCAATGAACAATATGCCAAGTACTTTGGAATACTCTATTGACAACGGAATCACATGGCAGGCTTCAAACATATTTACCAGCCTTTTAGATAATACCAACTATACTGTTTTAGTACGAAGAGTAGGAACACACTGTGTGGGATCTCTTGAATTCTTTACATTGCAGATTAACAACATTATTACTCCAAACGAAGACGGAATTAATGATGTGCTGGATCTTAAAGCTCTTGGAGGTTTTAAAAACTTCACAGGTTCTGTATATGACAGATATGGAGTAGAGATGTTCAGATTTTCCAAAGAAACTCCAAGCTGGGACGGAACAGTAGGTGGTAAGAGACTTCCTACAGCAACATATTGGTATAAGTTCAGTTTTGAGTATCCAAAATCAAAAGCTCAGATGAACTGGTCCGGATGGATTATGCTGAAAAACAGAAACTAA	MRRYLPLCLFFLVISTFLFSQDLPPRKPVKETPTAASRRAGVFIDVNAPSYPESTYTIEKMVKDVLISSGTNTCLTPNVTNVKITPNHAVSDANRAWGYFHKATTNFPFKDGLILSTGYARRAGNTFEGALNDVNGGGSDADLAQVIGVVESRLNDAVLLEFDFVPTTSQIKFNYLIASEEYTGSFPCTFADAFAILLKPTSGGPYVNMAVLPGGAGPVSITNIHPAIGSSCGAVNEQYFGGYNTGNVETNFNGRTIPLTATATVVAGQEYHFKMVIADYSDHSYDSAVFLEGGSFNIGVDLLDPAGTKLPSDINVCDNEPQVITASVNDPNLVYQWYYNGTPVPNATTNTITAVQPGTYTIEVSVPGNPCPGKATIEIHGGTTPLAQDATLLLCTTPDITTFDLSTITSTISPTPGAVFKFYENQADAVAQNDNYIQTPLNYNGNDGQILYVVVSNGGFCSKMVELTLQKEVTPTAKVKASRMQICPGESVTLTAEGGDTYLWSNFMGTGNMQTVTLYQTTTFTVYALGPKGCKSLNPATIRIEVIPEITTPLKDVEMCIGDKVILDAGEGTGYKYLWSTGATTQKIEVDQWGIYSVEIDNGTCKKVFEAKVMGAATPFVTAINYESIKKTVTITAENPPMNNMPSTLEYSIDNGITWQASNIFTSLLDNTNYTVLVRRVGTHCVGSLEFFTLQINNIITPNEDGINDVLDLKALGGFKNFTGSVYDRYGVEMFRFSKETPSWDGTVGGKRLPTATYWYKFSFEYPKSKAQMNWSGWIMLKNRN				NA	NA	NA	NA	NA
BMS003_03582	3579			hypothetical protein	ATGTTAAATAGGAGGAGAGGAAATTTATTTTTAGCGTTATTTTTAGCTTTCATGGGAAACTTTATTTTGGCTCAAAATAAAGGAAGGGTAGAAATTCCCGCAAAACCTAAAGCTGCTTCTTTGAAGGCTGGTGTCTTTATTGATGTAAATGCACCAAGTTATCCGGAATCAGGCTATCCTATAACCCAACTGATAAAAGATGTTCTTATATCAGGAGGTACCTGTACCAATTCCAGTGTAAGCAATGTGACAGTATCTCCCAATTTACCGGCCACCAATCAGAACCGAAGCTGGGGATATTTTAATAAATCAAATACCAATTTTCCGTTTAGTAAAGGAATTATACTTTCAACCGGACATGCCACTAAAGCTGGGAATACCTTCCAGGGAACTTTAAGTGATGATCTGGGAACCGGAGGAGATGTAGATCTTGCAAATGCTCTGGGAATCGCTAATAATAACCTAACCAATGCAACCTCTATAGAGTTTGACTTTGTGGCGGCTTCTACTGAGGTTACCTTCAGATATTTATTTGCTTCTAAAGAATATCAGCAGAACTTCCCATGTACCATTACAGATGGTTTTGCTTTGTTATTAAAAAAATCAACTGACCCTACTTATACTAATCTTGCAGTGCTTCCCGGCGGGGCAGGACCTGTAAGTGTAACCAATATTCACCCGCAATATCAAAACTGTGGCCCTGTAAATGAAGCCTATTACGGAGGTACCAATACAGCTCAGATAGAAACCAACTTTAATGGACGTACTGTTCCCCTTACTGCAAAAGCTAATGTAATTCCGGGGGAAACTTACCATTTCAAAATTGTTCTGGCAGACTATCAGGATCCTAACTTTGATTCAGCGGTTTTTCTGGAAGCAGGATCATTCGATATCGGGGTGAAAATTCTTGATCCCGCAGGTGTGCAGCTTCCTTCTTCCGTTAATATGTGTGATAATACACCACAGACTTTTACAGCGTCAGTTCAGGGAGCTAATATAACCTATCAGTGGTATTTGGGAACCAATCCTATTCCGGGTGCAACCAATGCGAGCTATACAGCTACACAGCCGGGAGTATACACCGTTAAAGTGTATATTCAGGGAAATTCATGTCCTGGAGAAGCTACCATAACAGTAGTAGGAGGAACATCTCCTACGGTACAAAACGCTACCTTAACAGCCTGTTATAATACCGGAAATGCAACATTTAATTTAACATCAGCACAGGCTTCTATAAGTACTACTCCGGGAGCTTCGTTTTCATATTATACCACATTGGCAGATGCCAATGCCGGAAATACCAATACAATTCCTAATCCCACAGCTTATCAGAGTGCTGGTGGAACAGTATATGTAAGAGTTGCAAACGGTTTTTGTGCAAATGTTGCAGAATTGCAGTTGGTAAAAGCTCCACAAATGATACCTACTATTGCTCCTCCGATAGTACTCACCTGTGCCAATTCTCAGACGACACTGGATGCATCAGCTTCGGTTTATCCGGCAGGAGCTACCTTCAACTGGACTACTACAGGAGGGAATATTGTTTCAGGAGGAACTACTTTAAACCCTGTGATCAATGCAGCAGGAACCTATACTTTAACTATTACAAAAGTTTACCAGCCCGGAAATATTACGTGTACAGCCGTAGGTACTGTGACTGTAACAGGAAACAGTGCACCACCGGTTACCGGACTTGTGGCCAGTAAAATAAAAATCTGTAAAGGAGACTCTACAACACTTACAGCTTCAGGAGGAGTTACCTATAATTGGGGCAATGGTCTTACAGGAAACGGAAATACTCAGATTGTTTCGCCTACCGTTACAACTACCTATACAGTAACAGCAGTAGGAGCGAATGGCTGTGCATCTCAAAACCCTGCAACGATAACAATTGAAGTGTCTGAACCTTTTACAGCACAAAATGCAATACTTCATAAGTGTTATCAGCCAGGATTAGCCTTTAATCTTACTGAAGCAGAACCCCAGATTACCACTACTGCAGGAGTTACTTTTACTTATTATGTAAATCAGGCAGATGCCAATGCTGCTAACGGAAACTTTATCACAAATTCTACAGCATATACGCCACCGGGAAACCAGACAATTTATGTATTGGTAAGCAATGGAGGCTGTAGCTACGTAGTGTCTCTTCAATTGTTGAAAACAGCAGAAACCACTCTTACGATTGCTGCACCACAAACAGTTACCTGTACAACTCCTCAGATTACCATCAATGCTTCAGCATCTGTAGTACCGACAGGATCTACTATTGCATGGACAACAACAGGAGGAACTATTGTATCAGGAGGTAATACCCTTACTCCTGTTGTAAGCGCTGGGGGAACCTATACTTTAACAGTCACTAACGTATCACAGCCTGGAAATTTGAGCTGCACATTTACTTCTACAATAACCGTTCAGGAAGATAAAGTACAGCCGGTTGCTGCCCTGGTTTCATCACAACCTCGTATTTGTATAGGAGAATCTGTAACCTTGACTGCTTCCGGAGGTGTAACCTATAACTGGGGTAATGGTCTTACCGGAAACGGAAATACTCAGGTTGTTTCACCTACTGTGACTACCACATATACAGTGTTTGCGGTAGGAGCTAACGGTTGTATTTCTGCAACTCCAGCAAGCGTAACGGTTCAGGTAGGTCCGCCTATCGCAGGGCTTACAGCATCAAAATTAAAAATCTGTGAAGGAGAATCTGTAACATTAACGGCATCCGGAGGGATTACCTATAACTGGATAGGGCTTACCGGAAACGGGAATACCCAAGTGGTTACACCTACCACAACAACAGAATATTCAGTATATGCATTGGGAGGAAACGGATGTAGTTCTGTGGATCCTGCAAAAGTAATCATTCAAGTAGTTCCGGCAATTGTTTCAACCTTAACAGACGTATTCGTATGTGCCGGAGATAAAGGGACTCTTGATGCAGGCTCCGGACCAGATTATACCTATTTATGGAGTACAGGTGCAACTACCCAGACCATAACAACTAATATTCCGGGAACTTATTCTGTAACGATCAGTAACGGTGTGTGTTCGAAAACATTCTCCGCTCAGCTGATCAATCCTGACCTGCCACAGTTTACCAATGTTGTTTATGATAATCATATTCTTACTGTTACGGCAAGTAATCCTACAGGAGGTGTTTTAGAGTATTCAATAGACGGAGGATTAACCTGGCAGTCATCTAATGTATTTACAGGTATTTTAAATAATACAATGTATACTTTAATGGTAAGAGTGGTAGGTGCTAAGTGCGGTACCTCACTGGATTATTTTACCTTCATTATCAGTAATGCCATTACACCTAATATGGATGGTGTAAACGATACAATTGACTTTACGGGAATCAGCGGATACAAAGATTTTGCAGCTTCCATCTTCGACAGGTACGGAGCCGAAGTATTCAAAGCAAGTAAAGGAAACGTTATATGGACAGGATCTTTAAAAGGAATTAACCTTCCTACTGCGACCTATTGGTACAGGGTACAATGGCAACACCCTGCCAGTAAGAAACTGGAACAGCGTTCCGGCTGGATTCTCTTAAAGAACAGAAACTAA	MLNRRRGNLFLALFLAFMGNFILAQNKGRVEIPAKPKAASLKAGVFIDVNAPSYPESGYPITQLIKDVLISGGTCTNSSVSNVTVSPNLPATNQNRSWGYFNKSNTNFPFSKGIILSTGHATKAGNTFQGTLSDDLGTGGDVDLANALGIANNNLTNATSIEFDFVAASTEVTFRYLFASKEYQQNFPCTITDGFALLLKKSTDPTYTNLAVLPGGAGPVSVTNIHPQYQNCGPVNEAYYGGTNTAQIETNFNGRTVPLTAKANVIPGETYHFKIVLADYQDPNFDSAVFLEAGSFDIGVKILDPAGVQLPSSVNMCDNTPQTFTASVQGANITYQWYLGTNPIPGATNASYTATQPGVYTVKVYIQGNSCPGEATITVVGGTSPTVQNATLTACYNTGNATFNLTSAQASISTTPGASFSYYTTLADANAGNTNTIPNPTAYQSAGGTVYVRVANGFCANVAELQLVKAPQMIPTIAPPIVLTCANSQTTLDASASVYPAGATFNWTTTGGNIVSGGTTLNPVINAAGTYTLTITKVYQPGNITCTAVGTVTVTGNSAPPVTGLVASKIKICKGDSTTLTASGGVTYNWGNGLTGNGNTQIVSPTVTTTYTVTAVGANGCASQNPATITIEVSEPFTAQNAILHKCYQPGLAFNLTEAEPQITTTAGVTFTYYVNQADANAANGNFITNSTAYTPPGNQTIYVLVSNGGCSYVVSLQLLKTAETTLTIAAPQTVTCTTPQITINASASVVPTGSTIAWTTTGGTIVSGGNTLTPVVSAGGTYTLTVTNVSQPGNLSCTFTSTITVQEDKVQPVAALVSSQPRICIGESVTLTASGGVTYNWGNGLTGNGNTQVVSPTVTTTYTVFAVGANGCISATPASVTVQVGPPIAGLTASKLKICEGESVTLTASGGITYNWIGLTGNGNTQVVTPTTTTEYSVYALGGNGCSSVDPAKVIIQVVPAIVSTLTDVFVCAGDKGTLDAGSGPDYTYLWSTGATTQTITTNIPGTYSVTISNGVCSKTFSAQLINPDLPQFTNVVYDNHILTVTASNPTGGVLEYSIDGGLTWQSSNVFTGILNNTMYTLMVRVVGAKCGTSLDYFTFIISNAITPNMDGVNDTIDFTGISGYKDFAASIFDRYGAEVFKASKGNVIWTGSLKGINLPTATYWYRVQWQHPASKKLEQRSGWILLKNRN				NA	NA	NA	NA	NA
BMS003_03583	2361			hypothetical protein	ATGTTAATTTATAGACTAAAAAACTATTTTTTCCTTTTTTCTTTTTTATTGATTTCTGTTTCTGCATTTTCTCAAACAAGAACAGTCAGAAAATCAGAGAAGATAAAGCCTTCTGCGGCGGCTCTAAGGGCGGGAGCATTTATAGATGTAAATGTACCTCCTTATACCCCTTCAAACTATACCCCCGAGCAATTGGTGAAGAATATTTTGATTAATGGAGGAACCAACTGTACCACAGCTAACGTGACCAATGTTACGGTATCTCCCAATCATGATGTGACGAACAGCAATAGATTCTGGGGATATTTTCATAAAGGGACAACCAACTTTCCCTTTACCGATGGTATTGTTCTGACTACAGGATATGCTTCTGAGGCTGGTAATAGCTATGTTGCTGCCGTTGGACAGTCAGTAGGAACTGGGAGTGATGCAGACCTTGTAGCTGCTACGGGTGCTAATGTTAATTTAACTGATGCAGTAGCCCTTGAATTTGATTTCGTACCGAATTCAAACCAGGTAAAATTTAACTATATATTCGCTTCCGATGAGTATACTTCAAATTACCCATGTCTCGGCTATTCGGATGCTTTTGCATTACTGCTGAAGAAAGTAGGGGACCCTACCTATACCAACCTGGCTATACTACCCGGAAATGCAGGGCCTGTAAGTGCAACCAATATTGTTCCCGAAGGAAACGGATTCAGCTGCGGACCTATCAATGCAGCTTATTTTGGCGGATTGGCAAACCCACATTTGCTTATTAATTATTTTGGAAGAACAACACCTTTAACGGCTATTGCAGATGTAATCCCAGGAGAGACCTACCATTTCAAAATGGTATTGGCAGATGCAAAAGATTCTACTCATGATTCAGCTGTATTCCTGGAAGGTGGATCTTTTGATGTCGGAATTAAAATTGTTGATGAAGCAGGAGTCGTTTTACCGGATAGCATCAATATGTGCGATAACACTCCAAAGCAGCTGAAAGCTCAGGTAGCAGCAGTTCCGGGGATGACTTACCAGTGGTACAAAGATGGAGTGGCTATTCCGGGAGCAACCAACGCTGTCTATATTGCTAACCAGCCGGGAGTATATACTGTAAAAGTAATGGTTCCGGGGAATCAGTGTCCTGGCGAAGCAACCATTACAATTATCGGAGGAACAAGTCCTACGGTACAGAATGCCGAACTTAAACTCTGTACAACACCTGCGCTCACTACTTTTGATCTGGAAACAGCAAAACCCCTTATCAGTACAACACAGGGGGCGGTATTCCGTTTTTATGCAAACCAGGCTGATGCACAGGCTCAGAATAACAGCTATATTACCAATCTGACCAACTATACCGGAACAGACGGACAAGTTTTATATGTATTGGTTTCCAATGGTGCTTTTTGTAGTAAAATAGCAACCCTGACCTTAAGAAAAGAAGAAACACCAACGGCTTTACTTACAGCGCCAAAATTGAAGATCTGTGTCGGCGAATCTGTATTGCTAACAGCTTCCGGGGGTGTTACATATGAATGGAGCGATTCTGTAAGCACTACAGGAGGAATAAGAACTGTAAGCCCAACTCAGACTACCACTTATACAGTATATGCCATCGGAGCACAGGGATGTAAATCTTTACAGCCTGCACGCATTACAATTGAAGTAGTACCGGCTATTGTTTCCGACTTAAAAGGAGGACATATCTGCCAGGGAGATAAAATTATTTTAGATGCAGGTTCAGGACCTGAATATACATATCAGTGGAGCTCAGGAGAAACAAGCCAGAGCATTACAGTGGGAACTCCGGGAGAATATTCAGTGACAATTAGTAATGGAGTGTGTTCTAAAGAGTTCAAAACGCAGGTTATCAAAGCTGTAATTCCTGAAGTGACAAAGGTAGATTATAATGATAACGGAATAATGATCATTACAGCAAGCAATCCAAGTAATGGTATCCTGGAATATTCAGTAGATAACGGAGTTACATGGCAGTCTTCCAATGTATTTAACAATGTGCCTAAAAATAAAGTAATTGCTATCAGAGTAAGAGTTAAATATACAAGCTGTGTAGGTTTTCTTGAGTTCTTTACATTTGTGATGAAGAATGTCATTACGCCAAACGGAGATAATGTTAATGATATTATCGATTTCAGCGGAGTTGTTAATTATAAAGATTTCAGCGGACAGGTTTTTGACCGATATGGAAGAGAAGTATTTAAAGCCGGGAAGATCAACCCTTATTGGGACGGATATTTCCAGGGTAAAAAACTTCCTACTTCCACATACTGGTATCAGGTGACTTTCGAAGATCCTGCAAGTAAAGAGATTACAGTGAAAACCGGATGGATATTGCTTAAGAATATAGAATAA	MLIYRLKNYFFLFSFLLISVSAFSQTRTVRKSEKIKPSAAALRAGAFIDVNVPPYTPSNYTPEQLVKNILINGGTNCTTANVTNVTVSPNHDVTNSNRFWGYFHKGTTNFPFTDGIVLTTGYASEAGNSYVAAVGQSVGTGSDADLVAATGANVNLTDAVALEFDFVPNSNQVKFNYIFASDEYTSNYPCLGYSDAFALLLKKVGDPTYTNLAILPGNAGPVSATNIVPEGNGFSCGPINAAYFGGLANPHLLINYFGRTTPLTAIADVIPGETYHFKMVLADAKDSTHDSAVFLEGGSFDVGIKIVDEAGVVLPDSINMCDNTPKQLKAQVAAVPGMTYQWYKDGVAIPGATNAVYIANQPGVYTVKVMVPGNQCPGEATITIIGGTSPTVQNAELKLCTTPALTTFDLETAKPLISTTQGAVFRFYANQADAQAQNNSYITNLTNYTGTDGQVLYVLVSNGAFCSKIATLTLRKEETPTALLTAPKLKICVGESVLLTASGGVTYEWSDSVSTTGGIRTVSPTQTTTYTVYAIGAQGCKSLQPARITIEVVPAIVSDLKGGHICQGDKIILDAGSGPEYTYQWSSGETSQSITVGTPGEYSVTISNGVCSKEFKTQVIKAVIPEVTKVDYNDNGIMIITASNPSNGILEYSVDNGVTWQSSNVFNNVPKNKVIAIRVRVKYTSCVGFLEFFTFVMKNVITPNGDNVNDIIDFSGVVNYKDFSGQVFDRYGREVFKAGKINPYWDGYFQGKKLPTSTYWYQVTFEDPASKEITVKTGWILLKNIE				NA	NA	NA	NA	NA
BMS003_03584	558			hypothetical protein	ATGAAAAAGTATAACGAAAAAACAGAAATTCTGGAGAAAATAGCAGACAGTATCACATCATGGATTGGGTCTATTCAGTCTCTGATTGTACATACGTTGCTGTTTGTTACTTCATTTTTGCTTCCGATGCTGGATATTGTTGATTTTGACAAAATGCTTCTGATTCTGACAACGGTACTTTCTCTGGAAGCCATTTATCTCGCTATTTTTATTCAGATGTCTGTCAATAAAAGCCATGATAAAATTGAAGATATTCAGGAAGATATTGAAGATATTCAGGAAGATATTGAGGAAATCAGTGAAGACATTGAAGAGATCAATGAAGATATTGAAGATATCCAGGAAGATATTGAAGAAATCAGTGAAGATATAGAGGAAATAAGCGAGGATATAGAAGAGATCAACGATGAGGAAGATGAAGAAGATCATAATGAAAGAGCTAAAAATGTGATACTTAAAAGTAACGTGAGCTCGAACAAGAATGAAATAAAAGCCTTAAAAGATATTATCTCCCAGCTTCAGAATGAGATTGATCAATTGAAGAAAGAAGATGAATAA	MKKYNEKTEILEKIADSITSWIGSIQSLIVHTLLFVTSFLLPMLDIVDFDKMLLILTTVLSLEAIYLAIFIQMSVNKSHDKIEDIQEDIEDIQEDIEEISEDIEEINEDIEDIQEDIEEISEDIEEISEDIEEINDEEDEEDHNERAKNVILKSNVSSNKNEIKALKDIISQLQNEIDQLKKEDE				NA	NA	NA	NA	NA
BMS003_03585	771			hypothetical protein	ATGCTGAAATTTGAAGAACTCAGAGATTTTCTCAACGAAAAAGCAGATCAGTACAATGCTCCCGGTTTTATTGAAAATGATCCCATACAGATTCCTCATCGTTTTTCTTTAAAACAGGATATCGAAATTGCAGGATTTCTGGCCGCTACGATCTCCTGGGGAAATAGAAAATCTATCATTAATTCTGCAGATAAGATGCTTGATATTATGGGAAACTCTCCTTACGATTTTGTAATGAATTATTCTGAAAAGGATCTTGAAAATATTCAGGATAAAAGTGTTCACAGAACGTTCAACGGACAGGATTTTTCCTATTTTATCAGGCAGTTCAACAGGATTTATAAAGAAAAGGAAAGTCTGGAAAACTTATTTGAAGTAAAAAAGACTGAAAATAATTTTCTTCATGCTATAGAAAGATTCAGAAATGAATTTCTGGAAACAGAAAAACACAGAAGCCATAAACATATCAGTTCTCCTTATAAAAACTCTTCTGCTAAAAGGATTATTATGTTTTTGAGATGGATGGTACGTAAAGATAAAAGGGGAGTAGACTTTGGGATCTGGGAAAATACAGATCAGAAAAACCTTTCCATACCTTTGGATGTGCATACCGGAAATATCTCCAGAAAACTGGGATTGGTTTCCAGAACACAGAATGACTGGAAAACAGTGGAAGAACTGGATAGAGCCATCAGAAAATTTGATGAACAGGATCCTGCAAAATATGATTTTGCTCTTTTTGGACTGGGGGTAACAAAAGAACTGTTGTAA	MLKFEELRDFLNEKADQYNAPGFIENDPIQIPHRFSLKQDIEIAGFLAATISWGNRKSIINSADKMLDIMGNSPYDFVMNYSEKDLENIQDKSVHRTFNGQDFSYFIRQFNRIYKEKESLENLFEVKKTENNFLHAIERFRNEFLETEKHRSHKHISSPYKNSSAKRIIMFLRWMVRKDKRGVDFGIWENTDQKNLSIPLDVHTGNISRKLGLVSRTQNDWKTVEELDRAIRKFDEQDPAKYDFALFGLGVTKELL				NA	NA	NA	NA	NA
BMS003_03586	915	rbn_2	COG1234	Ribonuclease BN	TTGAGTACTTATTTAACAATATTAGGCTTTAATTCTGCTATTCCAACGATCAATACATCACCCACGGCACAACTGCTGGAAATGGAAGAAAGACTCTTCCTGATCGATTGCGGAGAAGGTACGCAGGTACAGCTGAGAAAAGCAAAAGCAAGATTTTCAAAAATCAATCATATCTTTATCTCTCATCTACATGGGGATCACTGTTTCGGGCTTCCGGGGCTTATAGCTTCTTTCCGCCTTTTAGGAAGAGAAACCCCTTTACATGTCTATGGTCCGAAAGGAATTAAAAAGATGCTGGAAACCATTTTTCAGATTACAGAAACCCATCGTGGTTTTGAAGTGGTTTATCATGAACTGGATAAAGAGTATTCTGAAAAAATATATGAAGACAACAGGATAGAGGTTTATACTATTCCGTTGGATCACAGGATCTATTGTAATGGTTATCTTTTTAAAGAAAAACCAAAAGACAGGCATCTTAATATGAAAGAAATTGCCAAATACAGTGAAATTGAAACCTGTGACTATCACAATATAAAAGCAGGAAAAGACTTTGTGCTGAGTGATGGGTATGTGCTTAAAAATGATGTTCTGACCGTAGATCCTGCTCCGTCAGTATCATATGCATTTTGCAGTGATACACGTTATCTTGAAAGTGTTATCCCGATTATTAAAAATGTAACAGTTCTCTATCATGAATCTACATTTTTACATGACCTGAAAGAAATGGCAGATTATACAGGACATACCACAGCATTAGAAGCTGCTACGATTGCCAGGAAAGCACAGGTAGGAAAACTGATCTTAGGGCACTTTTCCAACAGGTATGGAGATTTGACCGTATTTACCGATGAGGCCAGAGAGATTTTCCCCAATACATTTTTGCCAAAAGCATTGGAAAGTGTAAAGATTTAA	MSTYLTILGFNSAIPTINTSPTAQLLEMEERLFLIDCGEGTQVQLRKAKARFSKINHIFISHLHGDHCFGLPGLIASFRLLGRETPLHVYGPKGIKKMLETIFQITETHRGFEVVYHELDKEYSEKIYEDNRIEVYTIPLDHRIYCNGYLFKEKPKDRHLNMKEIAKYSEIETCDYHNIKAGKDFVLSDGYVLKNDVLTVDPAPSVSYAFCSDTRYLESVIPIIKNVTVLYHESTFLHDLKEMADYTGHTTALEAATIARKAQVGKLILGHFSNRYGDLTVFTDEAREIFPNTFLPKALESVKI				NA	NA	NA	NA	NA
BMS003_03587	588		COG0127	dITP/XTP pyrophosphatase	ATGAATATAGAAATGGAATTATTAGTAGCTACACACAACGAACATAAAAAAGAAGAAATCCAGCAGATTCTGGGAAGTGATTGTGTGGTGAAAAGCCTTACCGATTACAACATTCACGAAGAAATTGTAGAAGATGGAGACTCTTTTCATGCCAATGCCCTGATCAAGGCAAAATACTGTTTCGAGAAAACCGGAATTCCAAGTTTGGGAGATGACAGCGGTCTGGTAGTAGAATCTTTAGACGGAAGACCGGGAATTTTCTCTGCCCGCTATGCCGGAGATCATGATTTCGCAAAAAATATAGAAAAAGTATTGGAAGAAATGCAGGGAATTGAAAACAGAAAGGCTTATTTTGTGACGGTTCTGTGCTGCTATGATGAAAACGGTGCGCAATACTTTGAAGGAAGAGTTCATGGAAATCTTTTAACAGAAAATAAAGGCTTCAAAGGATTCGGATATGATCCTATTTTTGTTCCTGAAGGATATGAAAGAACATTTGCTGAAATGGATCCCGAGGACAAAAATAAGATCAGCCACCGTAAAAAGGCTTTAGACTTATTTATGGATTTTTTAAAAGTGACTGATTAG	MNIEMELLVATHNEHKKEEIQQILGSDCVVKSLTDYNIHEEIVEDGDSFHANALIKAKYCFEKTGIPSLGDDSGLVVESLDGRPGIFSARYAGDHDFAKNIEKVLEEMQGIENRKAYFVTVLCCYDENGAQYFEGRVHGNLLTENKGFKGFGYDPIFVPEGYERTFAEMDPEDKNKISHRKKALDLFMDFLKVTD	PGPT0021590_5082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS003_03588	831			hypothetical protein	ATGGAAAATAGCAAATATCCGAAGTTTACGTTTACATGGTTTGGCGGTGTTGTTTTAGTGGTTGGATTATTCGTGGGAACAATGGCAGTTTCTTTATTCAGTACTTTTTGGAAAGTTGTTTTCAGGGAAAATATTGAATTGAAAGACTGGTTTCTGATGTTGGCAAACTCCGCAGGATTTCTTACTGCAATTGCTTTTTTTGACTTTTTCATTGTAAGACGTACCACCCAAAAGAAGCTGAACTTCAATTTATCATCGGTTAACTTCTCCACTTACCTCCTTATCTTTCCCATGATGACAGGGATGATGTTTATTTCTGAATTTATTGCTGCTCAAATTCCTACAACAGGCCCTTTCTTTGGTGATTTTTATGAATATTTTATCCAATTAATGAGCCAGTTGACAGATAGTCCGGTGGTAATGATTATCATGACGGTAATTATGGCTCCGGTTTTTGAAGAGATTATATTCAGAGGAATCATCCAGAAAGGATTAATCAATAAAGGAGTAGAGCCCTGGAAAGCTATTCTGTATGCTTCCATTATTTTTGGAGTCGTTCACGGAAATCCATGGCAGTTTATCAGTGCCGTGATGCTGGGATGTGTGCTGGGACTGGTATATCATAAAACAAAATCTTTACTGATGCCGATATTGCTGCATGCATTTAATAATTTAACACTGTCACTTATGGTGCTGTACGGTAAAGATGAAAGTTTTTCAAAAGTTTTGCATGTTTCAGAATGGTTGGTTCTTGTTGTCGGAATTGTACTTTTCTCTTTATTCTATTATCTTTTTATGAAAAAGTACAAAGTACATTATGCTGAAATGTAA	MENSKYPKFTFTWFGGVVLVVGLFVGTMAVSLFSTFWKVVFRENIELKDWFLMLANSAGFLTAIAFFDFFIVRRTTQKKLNFNLSSVNFSTYLLIFPMMTGMMFISEFIAAQIPTTGPFFGDFYEYFIQLMSQLTDSPVVMIIMTVIMAPVFEEIIFRGIIQKGLINKGVEPWKAILYASIIFGVVHGNPWQFISAVMLGCVLGLVYHKTKSLLMPILLHAFNNLTLSLMVLYGKDESFSKVLHVSEWLVLVVGIVLFSLFYYLFMKKYKVHYAEM				NA	NA	NA	NA	NA
BMS003_03589	210			hypothetical protein	ATGCTTATTAGGCTGGAGGCTGAAGAGCCGGGAGGGTTTGAGGGAATGGGTAACTTCATATCTATAAATATAAAGAATTATAGAGCTGTTTATTTTAAATTAAGCTGTTTTAATAGAAATTTTATGCTATTTGCAGCCATGAACCAAAAAGAAGAAATTCCTTTTTTAGTTGTCTGTAGTAATCAAAAAAATTATCTTTGTTTCTCATAA	MLIRLEAEEPGGFEGMGNFISINIKNYRAVYFKLSCFNRNFMLFAAMNQKEEIPFLVVCSNQKNYLCFS				NA	NA	NA	NA	NA
BMS003_03590	1596	prfC	COG4108	Peptide chain release factor 3	ATGTCAGACTTAATCAAAGAAATACAAAAAAGAAAGACCTTCGGGATCATTTCCCACCCGGATGCCGGAAAAACAACCCTTACAGAAAAGTTACTTCTTTTCGGGGGAGCAATTCAGGAAGCGGGTGCGGTAAAATCCAACAAAATAAAAAAAGGAGCTACCTCCGACTTTATGGAAATTGAAAGACAGAGAGGGATCTCCGTAGCAACTTCCGTATTGGCTTTTGAATACAGAGACCACAAAATCAATATTCTTGATACTCCGGGTCACAAAGACTTTGCTGAGGACACCTACAGAACGCTAACTGCTGTAGACTCTGTAATTGTAGTTATTGACGTTGCAAAAGGGGTTGAGGAACAAACTGAGAAACTGGTACAGGTTTGCAGAATGAGAAACATTCCGATGCTTGTTTTCATTAATAAACTGGACCGTGAAGGTAAAGATGCCTTTGATCTTTTGGATGAAGTAGAACAAAAATTAGGGTTAACAGTTTGTCCTCTTTCTTTACCAATCGGTATGGGAAGTGACTTCCAGGGAATTTATAACATCTGGGAAGATAATATTCAGCTATTCCTTGAGGAGAAAAAACAGAAAGTTGGAGACTCTATTAAGTTTGATGATATTAATGACACTTCTATTGATGATGTTATTGGTGAAAAAGCAGCACAAACTTTAAGAGAAGAACTTGACCTGATCCAGTCTGTTTATCCTGAATTTAACCGTGAAGATTATATGAAAGGTGATCTTCAGCCGGTATTTTTCGGTTCTGCTTTAAATAACTTTGGAGTTCGTGAATTATTGGATGCTTTCATTGATATTGCCCCAATGCCACAGCCAAAAGAAAGTGATACGCGTCTGGTAAAGCCTGAGGAAAGTACTTTCACAGGATTCGTTTTCAAAATCCATGCGAATATGGATCCTAAGCACAGAGACAGACTTGCTTTCGTAAAGATTGTTTCCGGAACTTTCAAGAGAAACGAAAACTATTTATTGGTAAGAGAAGGTAAGAAAATGAAATTCTCTTCTCCTAATGCATTCTTTGCAGATAAAAAAGAGGTGGTAGAAGAAAGTTTCCCTGGTGATATTGTCGGTTTACATGATACGGGAAGTTTCAGAATCGGAGATACATTGACTGGTGGAGAAAAATTAAGCTTCAAAGGCATTCCAAGCTTCTCTCCTGAACATTTCCGTTATATCAATAATAATGATCCGCTAAAAGCTAAGCAATTGGCAAAAGGTATTGATCAGCTGATGGACGAGGGAGTTGCACAGCTGTTTACCCTTGAAATGAACGGAAGAAAGATCATTGGAACCGTGGGAGCGCTTCAGTACGAAGTGATCCAGTACCGTCTTGAACATGAATATGGTGCAAAATGTACTTATGAACCTTTATCCATGCACAAAGCTTGTTGGGTAGAAGCAGATGAAAAATCTGAAGAGTTCAAAGAATTTGCAAGATTGAAGCAGAGATTCCTGGCAAGAGATAAGTACAATCAACTGGTATTCCTTGCAGACTCTTCTTTCACTATTCATATGACACAGGAGAAATTCCCGAATGTAAAACTACACTTCATCAGTGAGTTCAGAGAAAATTAA	MSDLIKEIQKRKTFGIISHPDAGKTTLTEKLLLFGGAIQEAGAVKSNKIKKGATSDFMEIERQRGISVATSVLAFEYRDHKINILDTPGHKDFAEDTYRTLTAVDSVIVVIDVAKGVEEQTEKLVQVCRMRNIPMLVFINKLDREGKDAFDLLDEVEQKLGLTVCPLSLPIGMGSDFQGIYNIWEDNIQLFLEEKKQKVGDSIKFDDINDTSIDDVIGEKAAQTLREELDLIQSVYPEFNREDYMKGDLQPVFFGSALNNFGVRELLDAFIDIAPMPQPKESDTRLVKPEESTFTGFVFKIHANMDPKHRDRLAFVKIVSGTFKRNENYLLVREGKKMKFSSPNAFFADKKEVVEESFPGDIVGLHDTGSFRIGDTLTGGEKLSFKGIPSFSPEHFRYINNNDPLKAKQLAKGIDQLMDEGVAQLFTLEMNGRKIIGTVGALQYEVIQYRLEHEYGAKCTYEPLSMHKACWVEADEKSEEFKEFARLKQRFLARDKYNQLVFLADSSFTIHMTQEKFPNVKLHFISEFREN				NA	NA	NA	NA	NA
BMS003_03591	945			hypothetical protein	ATGAAAAAGTTCATATTACTTGTTGCTGCATCAGGCACTTTTATTATGTGTAAAAAAGCAGATGTTGCACAGGATAAAATAAATGAAGCCGTCCATTCAGCCGACAGTGCTGCGACTGTTGCTACAGAAACCATTGATAATGCCAGCAAAACAGCAAACCAGATCATGGATTCTGCCAGCATTAAAATAAAAGACTTTGAGAATACTAAAAATGATATTCAACAAAAATCAGAAAACACATCCAAAATGGTAGATTCTTTATCTGATAAAATTGTCCATACAAAACTGAAATCCAAAATAGAGAAAAAGGATTCAACGGAGAAAAAGTCTGAAAAAATTGCAATGAAAGCTCCGGTTCCAAAAGTCATTAAAGAAACTAAGATCATTTATAAAGATAAACCTAAAAATGACAGCTATGAACTGAATATGCCAAAGGATAAAATGGTAAAATCAGGATACCTTGCCATAAGAGCAGAGAACGCAGAAACCGTGAAGGAAATCATTCGGGAAGAAGCTACCAGAAATAATGGTTATATCAAAAGTGAAAATCTTTCTTATGTAGAATCTGCCACTCCTCATGGAAAGGATCAAAAAGTATACACCCTTGATATTAAGGTTCCAATCCAGTATTTTGATGGTTTAATGAAGGCAATCAATGATAATGTAGGAGATATTGATACGAAAGATATTCAGGTTTCCGGACGAAATTACACAGACAATACCATATGCACGATCAATATAAATATCAGGGATCAAGCTAAAGCAGAAACAGAGCCTAAAACTTTGGGCGGAAAATCACTGGCCGCCATTGAATCCGGCTGGGATGCGCTTACTTCTATATTCCTGTTTATTTTACCGTTATGGCCTTTGTTTGTAATTGCAGGTATTGGATATTATTTTTATAAAAAGAAAAATAGAGATATTCCTCGTAACGACTCCCACTAG	MKKFILLVAASGTFIMCKKADVAQDKINEAVHSADSAATVATETIDNASKTANQIMDSASIKIKDFENTKNDIQQKSENTSKMVDSLSDKIVHTKLKSKIEKKDSTEKKSEKIAMKAPVPKVIKETKIIYKDKPKNDSYELNMPKDKMVKSGYLAIRAENAETVKEIIREEATRNNGYIKSENLSYVESATPHGKDQKVYTLDIKVPIQYFDGLMKAINDNVGDIDTKDIQVSGRNYTDNTICTININIRDQAKAETEPKTLGGKSLAAIESGWDALTSIFLFILPLWPLFVIAGIGYYFYKKKNRDIPRNDSH				NA	NA	NA	NA	NA
BMS003_03592	366			hypothetical protein	ATGAAAAAATCTTTGTGGATCACCCTCGGCGTTGTACTGTTGTTACTGGGCGTATTTGTCTGGTACAAGTATTATTTCGTTTTCGGAGAAGGTGTAAAATCCGGATACCTGAACTATGCCATGAAAAAAGGTTATATTTTCAAAACCTATGAAGGGAAGCTGATTCAGGAAGGCTTTGGAAGAGGAAAAACAGGAACCATTACAAGCTATGAGTTTGAGTTTTCTGTAGATGATCCCGAAGTGTTCAAACAACTGGAAACCAACAGCGGAAAAACCTTTGATCTGCATTATAAAGAATACAATGGAGCTCTTCCGTGGAGAGGAAATACGAAATTTATCGTAGATAAGGTAGTGAATATGAAATAA	MKKSLWITLGVVLLLLGVFVWYKYYFVFGEGVKSGYLNYAMKKGYIFKTYEGKLIQEGFGRGKTGTITSYEFEFSVDDPEVFKQLETNSGKTFDLHYKEYNGALPWRGNTKFIVDKVVNMK				NA	NA	NA	NA	NA
BMS003_03593	1140	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGGACTTTAATTTATCGGAAGAACAGCTGATGATTCAGCAGGCAGCAAGAGATTTTGCACAAAACGAATTATTACCGGGAGTGATTGAAAGAGACCGTGACCAGAAATTTCCTGCAGAACAGGTGAAGAAAATGGGAGAAATGGGACTTTTAGGAATGATGGTAGATCCGAAATACGGCGGTGCAGGTATGGACAGCGTTTCTTACGTGCTGGCGATGGAGGAGATTGCAAAAGTAGATGCTTCTGCAGCTGTTGTAATGTCTGTAAACAACTCATTGGTTTGTGCCGGTCTTGAAAAATTTGCTTCTGAAGAGCAAAAAGTAAAATATCTTACTCCACTGGCAAGCGGGCAGGTAATAGGAGCATTTGCATTATCTGAGCCGGAAGCAGGTTCTGATGCTACTTCCCAGAAAACAACAGCTGAGGACAAAGGAGACTACTATCTTTTAAATGGTATCAAAAACTGGATCACCAATGGTGGAACAGCTACTTATTATATCGTAATTGCACAAACTGATCCTGAGAAAAAGCACAAGGGAATTAATGCTTTCATCGTAGAAAGAGGTTGGGAAGGTTTTGAAATCGGGTTAAAAGAAGATAAACTGGGAATCAGAGGAAGTGATACACACTCTCTGATCTTTAACAACGTAAAAGTTCCGAAGGAAAATAGAATTGGTGCTGACGGATTCGGGTTCAACTTTGCAATGGCTGTACTGAACGGAGGAAGAATTGGAATTGCTTCTCAGGCGTTAGGAATTGCTTCAGGTGCTTACGAACTGGCATTGAAATATGCGAAAACAAGAAAAGCTTTCAAAACTGAAATTATTAACCACCAGGCTATCGCATTCAAATTGGCTGATATGGCTACTCAGATTACTGCTGCAAGAATGCTATGTTTCAAAGCTGCTTGTGAAAAAGATGCAGGAAAAGATATTTCTGAAAGTGGAGCTATGGCAAAATTATACTCTTCTCAGGTAGCAATGGATACTACTATTGAAGCAGTACAGATCCATGGTGGATACGGATACGTGAAAGAATATCACGTAGAAAGATTAATGAGAGATGCAAAAATTACTCAGATCTATGAAGGAACTTCTGAAATTCAGAAAATCGTGATCTCAAGAAGCATCGCAAAATAA	MDFNLSEEQLMIQQAARDFAQNELLPGVIERDRDQKFPAEQVKKMGEMGLLGMMVDPKYGGAGMDSVSYVLAMEEIAKVDASAAVVMSVNNSLVCAGLEKFASEEQKVKYLTPLASGQVIGAFALSEPEAGSDATSQKTTAEDKGDYYLLNGIKNWITNGGTATYYIVIAQTDPEKKHKGINAFIVERGWEGFEIGLKEDKLGIRGSDTHSLIFNNVKVPKENRIGADGFGFNFAMAVLNGGRIGIASQALGIASGAYELALKYAKTRKAFKTEIINHQAIAFKLADMATQITAARMLCFKAACEKDAGKDISESGAMAKLYSSQVAMDTTIEAVQIHGGYGYVKEYHVERLMRDAKITQIYEGTSEIQKIVISRSIAK	PGPT0002285_644	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS003_03594	1779		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	ATGACGATCAAGAGATTATTCGATATTCCGCACTATGCTTTAGAAAAATATCCTAAAACGGATATGTTTGTAACAAAGTATCATGGTGAATGGAAAAAAACTTCTACACAGGAGTTTATTAATGAGGGAAATAAGATATCCAGAGGATTGCTGAAACTGGGTATAAAGCCTGGTGATAAAATCGCTTTGATTACCACTAATTCCCGCACAGAATGGGCAATTATGGATTTCGGACTTTCTCAGATCGGAGTCGTTTCAGTACCGGTTTATCCAAGTATTTCTCCTGAAGATTATGAGTTTATCTTTAATAATGCTGAAATTCAGTATTGTTTTGTTTCAGACAAGGAGCTGTTGGGTAAAGTAATGAAAGTAAAGCATAATATCCCAAGCTTACAGGGAATTTTTACTTTTGATAATATCAGCGGAGCTGCCAACTGGCGAGAAATCCTGGATCTGGGTAAAGATGAATCTACTCAAATTGAAGTAGATGACCTTTCCAATGCGATCAATACTGAAGATCTGGCCACTATTATTTATACTTCCGGAACTACAGGAAGACCGAAAGGAGTAATGCTTACACATAATAATATTGTATCGAACATATTGGGAGCCATTCCAAGGATTCCCAAAAAGAGAAGTTTTGATTACAAAGAGGCAAGAGCATTAAGCTTCCTTCCTATCTGCCATATTTTCGAAAGAATGCTGTTCTATCTTTATCAGTATAATGGTTTTTCTCTTTATTTTGCTGAAAGCATCGAGAAGATGGGAGAAAACGTGAAAGAGGTAAAACCCCATTATATGACTGTTGTACCAAGACTGGTAGAAAAGGTATATGATAAAATCTATAATACAGGATCTTCAGCCGGAGGACTGAAATCAAAAATATTCTTCTGGGCATTGAACCTGATCAGTAAAAAGAAAACCATTTCAAAGCCATCCGGACTTCAGGAAATGATTGCAGATAAATTGGTGTTTTCTAAATGGAGAGAAGGTTTAGGCGGTGAAATTGTAACTTTGGTTTCGGGATCTGCTGCTTTGTCTACAAGACTAAACCTGATGTTCCAGAATGCTGGTATTCCTATTCTGGAAGGGTATGGCTTAACAGAAACATCTCCTGTAATTTCTGTAAACAGCTTTGATAAGATGAAAGTGGGAACTGTAGGTATTCCATTAGACAATTTAAAGGTTAAAATTCAGGAAGACGGTGAAATTACAGTGAAAGGACCATCGGTATTCAAAGGATATTTCCAGAATGAAGAAATGACGAAAGAAGCCTTTACAGAAGACGGGTTCTTCAAAACAGGAGATATAGGGCATATCGACAGCGATGGATTCTTACAGATCACCGACCGTAAGAAAGAAATGTTTAAGACATCCGGAGGAAAGTATATTGCTCCTCAGACGATTGAAAATTTGGCAAAAGCGTCTAAATTTATAGAACAGATCATGGTTGTAGGTGATGGTGAAAAAATGCCATGTGCCCTGGTACAGCCTGATTTTGAATTTGCCAAAAACTGGGCTCTGAGAAACAATCTGAACATCGGTTCTACACCGGAAGAGATTGCAAAAAGCAATGAACTGAAACAAAGAATTGAAAAAGAAATTGAAGGCATCAATGAGCATCTTGGAAACTGGGAGAAGATCAAAAAAATTGAGCTTACCCCGGAAATCTGGAGCATTGAAAGCGGATTGCTTACTCCAACATTAAAACTGAAAAGAAAAGCTGTAAAAGAGAAGTTTATTGCTTTGTACAATAAGATGTATGATCATCAGAATTAA	MTIKRLFDIPHYALEKYPKTDMFVTKYHGEWKKTSTQEFINEGNKISRGLLKLGIKPGDKIALITTNSRTEWAIMDFGLSQIGVVSVPVYPSISPEDYEFIFNNAEIQYCFVSDKELLGKVMKVKHNIPSLQGIFTFDNISGAANWREILDLGKDESTQIEVDDLSNAINTEDLATIIYTSGTTGRPKGVMLTHNNIVSNILGAIPRIPKKRSFDYKEARALSFLPICHIFERMLFYLYQYNGFSLYFAESIEKMGENVKEVKPHYMTVVPRLVEKVYDKIYNTGSSAGGLKSKIFFWALNLISKKKTISKPSGLQEMIADKLVFSKWREGLGGEIVTLVSGSAALSTRLNLMFQNAGIPILEGYGLTETSPVISVNSFDKMKVGTVGIPLDNLKVKIQEDGEITVKGPSVFKGYFQNEEMTKEAFTEDGFFKTGDIGHIDSDGFLQITDRKKEMFKTSGGKYIAPQTIENLAKASKFIEQIMVVGDGEKMPCALVQPDFEFAKNWALRNNLNIGSTPEEIAKSNELKQRIEKEIEGINEHLGNWEKIKKIELTPEIWSIESGLLTPTLKLKRKAVKEKFIALYNKMYDHQN	PGPT0008380_6939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS003_03595	777			hypothetical protein	ATGGCAAAAACCAACGATATTTCAGTTGAAGAAAAATTAAGAGCTTTATACGATTTACAGATCATTGATTCAAGATTGGATGAAATCCGAAATACTAGAGGAGAATTGCCAATTGAAGTTGAAGATCTTGAAATCGAGATTGAAGGACTTGAAAAAAGAGCTGAAAAATTTCATGCTGATATCAAAGATCAGGACGATCAGATCAAAACAAAGCATGAAGTAATTAACCATGCTAAAACTTTAATTGAGAAGTACAAATCTCAGCAGGATAATGTAAGAAACAATAAAGAGTTTGAAGCATTAGGGAAAGAAATGGAATTCCAGGATCTGGAAATTCAGCTTGCTGAAAAAAGAATTAAAGAATTCGGAGCTAAAATTGCTCACAAAAACGAAACTTTAGCCGAACTGAACGCAAAGATCGACGATTTAAAAAGCCACTTGAAATTCAAGAAAGAAGAATTGGATGGTTTGATCTCTGAAACTCAGAAAGAAGAAGAATATCTTTTAGAGCAGTCTAAAGATTTTGCAGGTAAAATTGATGAAAGACTACTGTCTTCTTACAACAGAATCAGAACCAACTCTATCAACGGTCTTGCTGTAGTAGGATTAGAAAGAGGAGCTCCAAAAGGATCTTTCTTCACTATTCCACCTCAAAAGCAAATGGAAATTGCTCAGAGAAAGAAAATCATTATTGATGAGCATTCAGGGAAAATCCTTGTTGATGACGAATTGGTAATGGAAGAAAACGAAAAAATGAAATCGGTAATTAAATTCTAA	MAKTNDISVEEKLRALYDLQIIDSRLDEIRNTRGELPIEVEDLEIEIEGLEKRAEKFHADIKDQDDQIKTKHEVINHAKTLIEKYKSQQDNVRNNKEFEALGKEMEFQDLEIQLAEKRIKEFGAKIAHKNETLAELNAKIDDLKSHLKFKKEELDGLISETQKEEEYLLEQSKDFAGKIDERLLSSYNRIRTNSINGLAVVGLERGAPKGSFFTIPPQKQMEIAQRKKIIIDEHSGKILVDDELVMEENEKMKSVIKF				NA	NA	NA	NA	NA
BMS003_03596	1098		COG0327	GTP cyclohydrolase 1 type 2	ATGAAGCTAAAAACTGTAATTGCAAAGATTGAAGAGGAAATAAGTATCAGACAGGCAGAAGATTTTGATAATGTAGGACTATTGTGTGGGGTTTATGACCGTGATGTATCCGGAATTCTGGTTTGTCATGACGCTTTGGAAAGTGTAGTAGATGAAGCAGTTAAAAGAAACTGTAATCTGATTGTATGTTTTCATCCCATTATATTTTCCGGTCTTAAATCTTTAACAGGGAAAAACTATGTAGAAAGGGCGGTGATAAAGGCTATTGAAAATAAAGTGGCCATCTATGCCATTCATACTGCATTTGATAATGATTTTTTTGGAGTCAACCATGGAATATGCAGTCAGTTAGGATTGAAAAACATGAAGATCCTTCAGCCAAAAGAAAATAATCTGAAACAGCTGACCGTTTTTGTTCCGAAAGAATATTCGGAAAAAGTAAAAGAAGCCATGTTTTCGGCAGGAGCAGGAAATATCGGATTCTATGACGAGTGCAGCTTTACGGTAAATGGAAACGGAACATTCAGACCCGTGGAAGGTTCAAATCCATTTTCAGGGCAGCAGGGAACTCGGGAGAATGCTGATGAAGATATGATTTCTGTAATTTTTGAAAGCTTTAAACAAGGGCAAATTATAGCAGCAATGAAGGCTGCACACCCTTATGAAGAGGTTGCTCATCAGGTATATAGTCTTGATAATAAAAACCATCATGCAGGATTGGGTATGTATGGTGATCTGGAAGAAGAAATGGATGAAAAAGATTTCCTTGGATTTGTAAAGGAAAAATTTGGTCTTGAAGTGATCAGGCATTCTTCTTTCAATAATAAAAAAATCAAAAGAGTAGGGGTGCTTGGTGGTTCTGGAGCCAGTGGAATAAGATCCGCAGCAGCCAGGAAATGTGATGCTTACCTTACCGGAGATCTTAAATACCATGACTATTTTCTGGCAGAGTCCAAAATGCTGATCTGTGATATAGGGCATTATGAATCAGAACAATTTGTTGCTCAACAATTATTTGAAATTTTGTCACAAAAATTTAGTACATTTGCAATTTCAAAATCTATTGAAAAAACAAACCCAGTAAATTATTTCATTTAA	MKLKTVIAKIEEEISIRQAEDFDNVGLLCGVYDRDVSGILVCHDALESVVDEAVKRNCNLIVCFHPIIFSGLKSLTGKNYVERAVIKAIENKVAIYAIHTAFDNDFFGVNHGICSQLGLKNMKILQPKENNLKQLTVFVPKEYSEKVKEAMFSAGAGNIGFYDECSFTVNGNGTFRPVEGSNPFSGQQGTRENADEDMISVIFESFKQGQIIAAMKAAHPYEEVAHQVYSLDNKNHHAGLGMYGDLEEEMDEKDFLGFVKEKFGLEVIRHSSFNNKKIKRVGVLGGSGASGIRSAAARKCDAYLTGDLKYHDYFLAESKMLICDIGHYESEQFVAQQLFEILSQKFSTFAISKSIEKTNPVNYFI				NA	NA	NA	NA	NA
BMS003_03597	828			hypothetical protein	ATGGAAAGAGAACATAATCTTATTCCCGGAGACCGTCTTTGGAAAAGACACCTTTACCGAATAATTTACCGTTCCGATACGAAACTCGGAAAACTGTTTGATATTATATTATTATCATTAATTCTTGCAAGTACTGCCATTATCATGATGGAAAGTGTGCCTAAGCTTGATAAAAGGTTTCATTATACTTTCCTGATACTTGAATGGATTATTTCCATTCTCTTTACTATGGAGTATTCTATGCGAATTGCTGTAGTAAAAAATAAACGTAATTATATTTTCAGCTTTTTTGGAATCATTGATTTTTTGTCTCTTGTTCCTTTTTTCCTTAGTTTTTTCTTTCCCATCACCAAATATTTTCTGATCTTCAGAATGCTGAGAATGCTGAGAATTTTCAGGATTTTCAACCTGCTGGATTTCATGAATGACGGTTATCTTATTGTCCGGGCATTGAAAAACAGTTCGAGAAAAATATATATTTTCCTTCTGTTCCTGATTATCTTCTCGGTTATTGTAGGATCACTTATGTTTATGGTAGAAGGTGGACGTCCGGGTTTTGAGACAATTCCTCAGTCTATTTATTGGGCAGTAGTTACTGTAACTACCGTAGGATATGGTGATGTTTCTCCTATTACACCTTTAGGAAAGTTTTTTGCCGTGGTTCTGATGCTTGCAGGTTATTCTATTATTGCTGTTCCTACAGGTATTGTAACAGCAGAAATGAGGAATAAGAGACAAAACCTTGAACTGATCTGTGAGCGCTGTGGAAATGATGACATTGATGATGATGCAAGATACTGCAAGAAATGTGGCAAGAAATTAGCTTAA	MEREHNLIPGDRLWKRHLYRIIYRSDTKLGKLFDIILLSLILASTAIIMMESVPKLDKRFHYTFLILEWIISILFTMEYSMRIAVVKNKRNYIFSFFGIIDFLSLVPFFLSFFFPITKYFLIFRMLRMLRIFRIFNLLDFMNDGYLIVRALKNSSRKIYIFLLFLIIFSVIVGSLMFMVEGGRPGFETIPQSIYWAVVTVTTVGYGDVSPITPLGKFFAVVLMLAGYSIIAVPTGIVTAEMRNKRQNLELICERCGNDDIDDDARYCKKCGKKLA	PGPT0002715_3504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
BMS003_03598	159			hypothetical protein	ATGGAATCAAAGAAGAAAAACAGACCCAATAGTTTAGTGATCATTCTTTTTGCACTCGTGATGCTTATGATCATTGTTTACTTTATATTAGCATTGTTCTTCCCTACAGTTTTTGACCTTCTCAACAAGGGACAAATACAGCCTGTACCTAATAAATGA	MESKKKNRPNSLVIILFALVMLMIIVYFILALFFPTVFDLLNKGQIQPVPNK				NA	NA	NA	NA	NA
BMS003_03599	2328			hypothetical protein	ATGAAAAATTTTTTACTCGTTGGTTTTTTAATGACCGGCTTTTTATCCTCCGCACAAACTTATTGTACGCCTGCATTTGCCAGTGGGTGTAGTGGAGGAGACATGATTGATACTTTTAACATTCCGGGTGCCGGATTTGATCATCAGAATACAGGCTGCTCTGTTGATGCGTATGGAGATTATACTTCTATGACCATTAACCTGAATGCAGGGCTAAGCTATGATTTTACGGTTAAGCATGATTACAGTGATCAGAATGTACGCATTTGGATAGACTTTAATAATGACGGAACATTTGATGATGCAGCTCCGGAGCTGGTAGCTTCTGCAAGCAGTGATTTTGTAGGAGGCGCTAATATTACTGCCGGACAAATAACTATTCCGTCTACAGTGACGCCGGGGTCATATAGAATGAGAGTTGGAGACAGATACTCCAGCGATCCTATTCCTTGTAATGTTGACGGATATGGAGAGGCTCACGATTATACGGTCGTAATTGGGGCGGTTCCCACTTGTTTTGCCCCTACAGCCTTAACGGTTTCTGGAGTTACTGCCAATACAGCCCAGATTTCATGGAGTGCTCCGGCATCTGCTCCGGCTAATGGTTATGAATACTATTATTCTACTTCAGGTACTTACCCTGCTTCTACAGTAGTTGTTTCCGGAACAAGCTCCACACTTAGTGCCAACTTGCCTTCTACACTTACGCCAGCTACTAATTATTATGTATGGGTACGTTCTGCGTGTAGTGGTTCAGACAAGAGTGCATGGTCTCAGGCTGCAACATTTATGACATCCTGCGTGTCGGTAAGCGTACCTTATGCATTGGATTTTGAAAGTATTACTCCTCCTGATCTTCCGGGTTGTACTTCGGTAGTTAATGACGGATCAGGAAATATGTGGCAAACAGGTAATCTCGATGCTCAGGGATTTACCGGTAACGTTCTTCAGTATTCATATAATTATGCGAATAATGCAGATACATGGTTTTTTACGAATGCCATTAATCTTACCGCAGGAGTGCCATACAGAATCAAATATAAATATGCTAATGCCACAGGATTTGTATATGAAGAAAAATTAAAAGTGGCATATGGAACTTCAGCTACAGGTGCTGGAATGACCACTACTTTGGCAGATCATCCTAGTGTAGTTTCAAGTACGGCAACAAGTGCTTTTGTAAACTTTACACCGTCTGCTACTGGTGTGTATTATTTCGGGTTCCAGGCATACTCTGATGCTGATATGAACCAACTGTATGTTGATGATATTAGTATAGATGTAGCACCTTCATGTAGTGAGCCTACAGCAGTAACAACTTCGAATGTTACAGCAGACGGGGCTACAGTTTCCTGGACTGCAGCCACTCCTGTACCGGCCAATGGTTATGACATTTATTACAGTACAACCAGTACAGCACCTGCGCCAACAGTTACACCTAATTTCACAGGAATTACAGCAACTACCTATAATATTCCAAATTTAGCTCCTGCTACTACCTATTATGTATGGGTAAGATCTGCCTGTACGGCTGCAAGTACAAGCGCATGGAGTGCGAATGCGACATTTAACACTCTTTGTACAAGCGCAGGGTTGCCTTATACACTGGACTTTGAAAATGTTTCTACTCCAGATCTTCCTGGCTGTACGGCAGCAGTGAATGCAGGCTCAGGAAATAACTGGGAAACAATGGATCCGCCTTCAGATAGCCAAGGGTTTACAACAAATGTATTGAGTTATCATTACAACTCTTCCAGTTCTGCCAATGCATGGTTCTATACTCAGGGACTGAACCTTACAGCAGGTGTGCAGTATACCATCAGCTATAAGTATGGAAATAACTCATCTACGTATGTGGAAAAATTAAAAGTAGCTTACGGAACATCACCGGTTGAATCTGCAATGACTAATTCTGTGGCAGATTATCCTGCAATCAATGATGAAACAGCTCATACAGAATCCATAACCTTTACGGTTCCGGCAACGGGAGTATATTTCTTTGGGTTTAATGCATATTCAGATGCAGACCAGTATAATCTGTATATTGACGATATTAGTGTTAATAATGCGAACCTTTCAACATCTGAAGTTGCCGTTGCAAAAAACAATATCAAAGTATATCCTAATCCATTCACGGATGTCCTGAACATCTCAGATGTGAAAAATGTAAAAAATGTATCTGTAACAGATGCTGCAGGAAGATTAGTAAAAACAATTGCCAACTCTGAATCTACAATCCATTTAAGAGATTTAATGCAGGGTGTTTATCTGGTGACTTTAGAAATGAAAGATGGTTCTAAACAGACTATCAAAGCAATTAAAAAGTAA	MKNFLLVGFLMTGFLSSAQTYCTPAFASGCSGGDMIDTFNIPGAGFDHQNTGCSVDAYGDYTSMTINLNAGLSYDFTVKHDYSDQNVRIWIDFNNDGTFDDAAPELVASASSDFVGGANITAGQITIPSTVTPGSYRMRVGDRYSSDPIPCNVDGYGEAHDYTVVIGAVPTCFAPTALTVSGVTANTAQISWSAPASAPANGYEYYYSTSGTYPASTVVVSGTSSTLSANLPSTLTPATNYYVWVRSACSGSDKSAWSQAATFMTSCVSVSVPYALDFESITPPDLPGCTSVVNDGSGNMWQTGNLDAQGFTGNVLQYSYNYANNADTWFFTNAINLTAGVPYRIKYKYANATGFVYEEKLKVAYGTSATGAGMTTTLADHPSVVSSTATSAFVNFTPSATGVYYFGFQAYSDADMNQLYVDDISIDVAPSCSEPTAVTTSNVTADGATVSWTAATPVPANGYDIYYSTTSTAPAPTVTPNFTGITATTYNIPNLAPATTYYVWVRSACTAASTSAWSANATFNTLCTSAGLPYTLDFENVSTPDLPGCTAAVNAGSGNNWETMDPPSDSQGFTTNVLSYHYNSSSSANAWFYTQGLNLTAGVQYTISYKYGNNSSTYVEKLKVAYGTSPVESAMTNSVADYPAINDETAHTESITFTVPATGVYFFGFNAYSDADQYNLYIDDISVNNANLSTSEVAVAKNNIKVYPNPFTDVLNISDVKNVKNVSVTDAAGRLVKTIANSESTIHLRDLMQGVYLVTLEMKDGSKQTIKAIKK	PGPT0022155_3693	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
BMS003_03600	3243			hypothetical protein	ATGGGGGTCTATGCACAAACCGATGTCGCCAATTATACTTTTTCGAAAAGTACCGGGGTGGCTTATACCTCTATTACGGGAGGTACAAAATTATTCCCTTCCGGGACTAATATTTCTTATGACAATGATGTATCTGCAGCCATTCCATTGTCTTCTCCTTTTAACTTTGGTGGTGTTGCGATGACCACGTGCTATGTAAGTGCCAATGGATATATAACTTTTGGAGCCGCTCCTACGGGGACAAATTATACTCCAATGTCAACTTTAGGATCTACTACAGGAGCAATTTCTGCTTTTGGGCAGGATGGAGGTTTTTCATCATCAGATGCAACTCAGCCATCAGGAAATCATGAAGTTCGATATGAGGATCTCGGAACTGAGTTTGTGGTACAATGGCAGGATCATGCCAATTATTTTAACAGATCTACTGAAAAATTAAATTTTCAGATCAGATTGGTATATGCTACAGGTGAAATAAAGATTATTTATGGAAGCTGTACAGATCCGGGTACCAGTACTTCAGGCAGTACACCACAGGTGGGGATAAGAGGAAATAGTACTACCTATGCATCCAATGTTAATTCTCTGATGGTTGGAAATGTACCAACAGGAACTACTTGTGACTGGTCTAAAGCCGTTACAGGGTATGCTAATAACAGTACAATGCTTTTTACCAGTACAACAAACGCAAATGTTAAAATTCCGGCAGGTCTGCAGTTTACTTGGACACCAGGTACTCAGGCTCCGGTAAGAACTTTTGCTGCTGTAACTGCAATTACCAATAATGCTGCGACAATAGACTGGACAGCTCCAACTGGTGCAACAACTTACAATGTTCAGTATAGAGCACTTGGAAGCTGTGATTGGACGGACTTTGCCGGTAATCCGGTTTCTGCGGCTACAGCTACAATTGCAGGTCTGGATCAGAATACAACCTACCAGGTTCAGGTTCAGGCTTTAAATGGGTCGGCACAATCTATATATTCTCATATCCCGAATGCTGCAGGAACAGGAAATGGATACGCATCTGCAGGAACTTTTACAACCGCAGCTAACTGTGCAAGCACCGTTACCGGTCTTTCTTCTGCTGCTGTAACTCCTGAGTCTGCAACAATAAGCTGGACCGCTTCTACAACTCCTCCGGGTAATGGGTATGAATATTATTATTCTACATCTTCAACTACGCCGGTTTCAACTGTTACTCCTTCAGGCTCAGTGGGTGCCGGGGTTACAACAGCAGATTTATCAGGTCTGAATCCTTCTACTCTGTACTATTATTGGGTGAGAGGAAACTGTAATGGAACAGATAAAGGAGTATGGTCAAGTTCAGCTAACTTTACGACATTAAGTCTTTGTCCTACAGTTACCGCTCCGGCATCAAATGCTACAGGAGTAAGTTTAACACCTACAATAACATGGAATGCGGTAAATGGAGCTGCAGGATACAAGCTGAAGGTTGGAACTACTTCAGGAGGGAACGATGTTTTAGATATGGATATTGCTGGTGGAGCTAATAACTCTTATACTTTTGCTACTTCTTTAAGTTACTCTAGCACTTACTACTACTCTGTAACTGCTTATACAGCTAATATTGCTGGGCCGGCCACAGCATGTACAGTAAGGTCATTCCAGACAGTATGTGGTTCATCAAACTTACCGTATACATTAGATTTCGATAATGTTACGACTCCTGCTTTACCAATTTGTACAACAGTTGTTAACAGTGGCTCCGGAAATTTATGGAAAACCGCGACTGCTCCAACCGGGTTTACAGGAAAAGTACTTAACTATTCATATAATAGTAGTAATGCTGCCAATACATGGTTCTTTACCCAAGGCATAAATCTTACTGCCGGGGTAAGCTATAGAATTAAGTATAAGTATGCCAATTCATCAGGAGCAACACAATATCCTGAAAAAGTAAAAGTTGTTTACGGGTCTTCGGCTACAAGCGCAGCAATGACAAATACTTTAGCTGATCATGGAAATATTATCGGTGGAACTGCTACAAGTACTTTTGTAGACTTTACACCAACTGCAACAGATGTTTATTATTTTGGATTCCAGGCATATTCTGATGCTAATATGAACCAGATTTATGTTGATGATATCAATATAGATGTTACTCCTACCTGTTCAGAACCATCAGGAGTTGCTGTATCATCAATTACAACCAACGAAGCAAGTGTTTCATGGGTTGCCCCTGCCGCAGTTCCTGGAAGTGGATATGAATATTACTATTCTACAAGCAGCACAGCTCCTACTGCCGCTACTACAGCTTCAGGAACGAGTACTGCAACTTCAGCTCTTTTATCCGGGTTATCGCCTTCTACTACCTATTATGTATGGGTAAGATCGGTATGCAGCTCTTCTGATAAGAGTGCGTGGAGTTCTCCTGCAACTATTTTCAATACGCTTTGTGGAACAACTATGGCTCCTTTTGTTCAAAATTTTGACAGTGGAGCAGTACCAAACTGCTGGGACAATGTGAATCCTACAGCAACCACTACCAGCGCAACTCTTTTCTGGAAGTTCTCCGGATCTGCAGACTATGGTGCAAATACAGCTAATAACGGAAAAGCAGCAGGTACATATGCGTGGGTAGATGCAAGTTCTCCATATTCAGGAGCTGGTACAAATACCGTACAACTGATCACTCCTTCCGTTGATTTAACAGGATTAACTGCACCTCTTGTTTCTTTTGATTGGTTTAAAAACCATTCTATGTCAACCAGTACTACGGTTTCACCTTCTAGCTATGATAATAATAAGCTTACTGTAGAGGTGAATGACGGAAATGGCTGGGTAGTTATCTTTAGTGACGATACCAACTTAAATCAGTGGAGAACAGTGGCTGTTCCTTTAGATGCTTCTTATATAGGTGCTACTATTCAGGTAAGATTTACTGTAGATAAAAACGTAAATGGTAATGGATATTTCTATGATGATGTTCTGTTGGATAATGTTGAAATAAAACAAAATCCTAATTTGGCAACTTCTGAGACTGCTGCAAAAGATCATAAGATTGATGTATACCCTAATCCATTTACTGATACGTTAACCATTTCTGATGTATCTAAAGTACAATCGGTTTCAATCATTGATGTTTCAGGAAGATTAATCAAAACCATTGAAAAACCTTCTTCTGAACTTCAATTGAGAGATCTGAAAGAAGGATTGTATTTAGTAGTCTTGAATATGAAAGACGGCTCTAAACAAACTGTTAAAGCTATTAAGAAATAA	MGVYAQTDVANYTFSKSTGVAYTSITGGTKLFPSGTNISYDNDVSAAIPLSSPFNFGGVAMTTCYVSANGYITFGAAPTGTNYTPMSTLGSTTGAISAFGQDGGFSSSDATQPSGNHEVRYEDLGTEFVVQWQDHANYFNRSTEKLNFQIRLVYATGEIKIIYGSCTDPGTSTSGSTPQVGIRGNSTTYASNVNSLMVGNVPTGTTCDWSKAVTGYANNSTMLFTSTTNANVKIPAGLQFTWTPGTQAPVRTFAAVTAITNNAATIDWTAPTGATTYNVQYRALGSCDWTDFAGNPVSAATATIAGLDQNTTYQVQVQALNGSAQSIYSHIPNAAGTGNGYASAGTFTTAANCASTVTGLSSAAVTPESATISWTASTTPPGNGYEYYYSTSSTTPVSTVTPSGSVGAGVTTADLSGLNPSTLYYYWVRGNCNGTDKGVWSSSANFTTLSLCPTVTAPASNATGVSLTPTITWNAVNGAAGYKLKVGTTSGGNDVLDMDIAGGANNSYTFATSLSYSSTYYYSVTAYTANIAGPATACTVRSFQTVCGSSNLPYTLDFDNVTTPALPICTTVVNSGSGNLWKTATAPTGFTGKVLNYSYNSSNAANTWFFTQGINLTAGVSYRIKYKYANSSGATQYPEKVKVVYGSSATSAAMTNTLADHGNIIGGTATSTFVDFTPTATDVYYFGFQAYSDANMNQIYVDDINIDVTPTCSEPSGVAVSSITTNEASVSWVAPAAVPGSGYEYYYSTSSTAPTAATTASGTSTATSALLSGLSPSTTYYVWVRSVCSSSDKSAWSSPATIFNTLCGTTMAPFVQNFDSGAVPNCWDNVNPTATTTSATLFWKFSGSADYGANTANNGKAAGTYAWVDASSPYSGAGTNTVQLITPSVDLTGLTAPLVSFDWFKNHSMSTSTTVSPSSYDNNKLTVEVNDGNGWVVIFSDDTNLNQWRTVAVPLDASYIGATIQVRFTVDKNVNGNGYFYDDVLLDNVEIKQNPNLATSETAAKDHKIDVYPNPFTDTLTISDVSKVQSVSIIDVSGRLIKTIEKPSSELQLRDLKEGLYLVVLNMKDGSKQTVKAIKK	PGPT0022155_3538	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
BMS003_03601	4671	dnaE2		Error-prone DNA polymerase	ATGTATTTAATTTTTGACACAGAAACAACCGGTTTACCAAAAAATTTCAACGCTCCGCTTTCAGACTCGGATAACTGGCCAAGAATGGTTCAGATTGCATGGCAGGTGCACGATGATGACGGAAATTTGATTGAAAACCAGGATTATATAATAAAACCTGAGGGATATGATATTCCCTTCAATGCTGCACGTATTCACGGGATTACAACTAAGATTGCCAATGAAGAAGGGCGCGATCTGAAGGAGGTTCTTGAAGAATTTTCTAAAGTCCTTGAAAGAATAAGAGTAGTTTCCGGACATAATGTAGAATTCGACTATAATATTGTAGGAGCAGAATTTTACAGAAAAGACCTGAAAGATAACCTTCAGGAAAAACCCAAAGCAGATACCATGGTTCTGGGAACCGACTTCTGCCAGCTTGGCGGAGGACGTGGAGGAAGATTCAAGCCCCCGAAACTTGAAGAACTTTATGAAAAACTATATGGGAACAAATTTGATGAAGCCCATAATGCTGCTGCCGATGTAAATGCTACCGCCAGAGCTTTCTTTGAAATGGTAAGAATTGGGGTAGTACCCGCTGATACCTTAAAGATTTCAGAAGATCAGCTTGCTTATTTCAGAAGTCTTTATCCAGATCCGATAAAACCTTTCAATATTGTTATCAGAAGGCAGGTTGCAGATTTTCATAACAAGAAAAAGCAACAGGATTTCGGAAGTATTGATGAAATTGATTTAGGTAAATATTTTAATTTCGACAACCACAGTGTGTTCTCTACCCTTACGGCTACTTCAAGCATCAATGATCTGATTAAAAAAGCTTCTGATGAAAACTTCCCGGCTGTCGGGATGGTGGATCTTGGGAATATGATGGGAGCTTTCAAATTCGTTTCAGCGGTTGAAGGAGCTAATGGTGACAGAGCCAAGAAACATAAAGAATATTTAGCCAAAAAGCAGGAAGCAGAAGAAAACGGAACAGAATTTAATGAAGCAGAGCCGGTTTCCGAACCGCTTATTCCGGTTGTAGGCTGCGAATTTTATATTTCGGAACGTTACGAGCAAAAGCAGTTTACCAAAGATGATCCGGACAGGAGAACACAGGTAGTGCTTTTGGCGAAAGATTTTAACGGATATAAAAATCTGGCCAAGCTTTCCAGTATCGGTTTCCTGAAAGGATTCTATTTTGGAGTTCCAAGGGTGAGCAGAGAGCTTATAGCCCAATATAAAGAAGGAGTCATTGCTTTAACTTCCGGGATTATGGGAGATATTCCCGATGCGATCCTGAATACCGGTGAACAGAAAGGGGAAGAGCTTTTCAAATGGTGGAAAGATACCTTTGAAGATGATTTCTATGTACAGATTCAGAATCATAACCTGCCTGAAGAAGAGCATTTGAATGAAGTTTTGCTCTATCTGGCAGATAAATATGATGTTAAAATTTTGGCTCAGAACGAGACTTTCTATACCAATAAAGATGATGCCAATATTCAGGATATTGTAAGCTGTATCAAAGATGGTGAAAAACTGACAACTCCTATCGGGAAAGGATTTGGTAAAAGAAGAGGCTTGGCGACAGGTGAATATTTTATCAAAAATTCTGATGAAATAAAAGAAGCCTTTTTAGCATATCCTGATGCTTTTGATGCCTATGAAGAATTCACCGCAAAGTTTAAACCTTATACCTTAAAAAGAGATGTTCTCCTTCCGAAGTTTGATATTCCGGAAGAGTTTATCCATGCAGAAGATGAGGTAGACGGAGGAAAAAGAGGGGAAATGGCCTATCTTACCCATCTTACTTATGAAGGAGCAAAAAAAAGGTATGATCCATTTGGGGGTATTACAGATGAAATAAAAGAACGTCTTGACTTTGAGCTTGAAGTCATTGCCAATACCGGTTATCCTGGGTATTTCCTTATTGTGCAGGATTTCTGTAATGAGGCCCGGAACATGGGAGTTTGGGTAGGTCCCGGAAGAGGGTCTGCTGCAGGATCTGCGGTAGCTTACTGTATCGGAATTACCAATGTAGACCCTATTAAGTATGATCTCCTTTTTGAGAGATTCCTGAATCCGGAAAGGGTATCCATGCCCGATATTGATATTGACTTTGATGATGAAGGAAGAGACAGAGTTATCAAATGGGTAATTGAAAAATACGGACAAAGCCAGGTAGCACAGATCATTACTTATTCTGTGCTTGGAGGAAAATCCGCCATTAAAGATGCCGGAAGAGTACTGGATGTTCCTATTCCGGATACCAATAATATTGCTAAACTGATTCCTTCCACACCAGGAATGAATATCGCAAAAGCATTGGCAAAATACGATAAGCTGAAGCCGGAAGAACAAATGCTTGTTGATGAGATGAGGTATGTTCTGGACAGTCCGGATGATGCCCGTCACGATGTACTCGCCAGCGCAAAAAAAATGGAAGGATGTATCAGAAATACAGGGATCCATGCCTGTGGGGTAATTATTACTCCGGAAGATGTAAGTAACCTGGTTCCGATAACCATTGCAGCCAAAGATGCTGATATCCTCGTGTCACAGTTTGATAACTCGGTGGCTGAAAGTGCAGGACTTCTGAAAATGGACTTCCTGGGACTAAGAACACTGACTATTATTAAAGATGCGTTAAAGCTTGTAAAAGCAAGATATGATATAGATATTGATCCGGATCTTATTCCGCTTGATGATACCAAAACGTATCAGTTATTTAAAGAAGGAAGAACAGTAGGGATTTTCCAGTATGAAAGTCCCGGGATGCAAAAATACATGAGGGAACTTAAACCTACAGTTTTTGCCGATCTTATTGCCATGAACGCATTGTACCGTCCGGGTCCGATCAAATATATCCCCAACTTCATTAACAGAAAACATGGGATTGAAGAGATTGTTTATGACTTGCCGGAAACGGAAGAATATTTAAAAGAAACCTACGGAATTACCGTTTATCAGGAGCAGGTAATGCTTTTGTCCCAGAAGCTGGCCAACTTTACCAAAGGTGAAGCGGATACTTTGAGAAAGGCGATGGGTAAAAAGCAGATCGATGTTCTGAATAAAATGTATCCGAAATTCATTGAGGGAGGCAGAAAAAATAATCTGAATGAAGAAAGATTGGAGAAAATCTGGAATGACTGGAAAGCCTTTGCAGAATATGCCTTCAACAAGTCCCACTCAACGTGTTATGCATTTATTGCTTACCAGACTGCATTTTTAAAAGCAAATTATCCTGCAGAATATATGGCAAGTGTAATGAGTAATAACATTAACAATACGGATTCAATTACCATGTTTATGGAAGACTGTAAAAGTATGGGAGTGGATGTACTCGGTCCGGATGTGAATGAATCCCAATATAAGTTTTCTGTAAACGAAAAAGGTCAGATCCGTTTCGGATTGGGAGCTATCAAAGGAATTGGTGAAGGGCCAAGTGAAGCAATTACAAGAGAGAGAGAAAACGGAAGATTCAAAAATATTTATGATTTCTTTGAAAGAATATTGCCTTCACAGATGAACAAGAGGGTGGCGGAAAGTTTGGTGCTTGCCGGTGCTTTTGATGAACTGGATTCCTTCCACAGAGGTCAGTATTTTGATATTGATATGGCCGGGAGAACAAATTTGGAAAGACTGATCAGGTATGGGCAAAGTTTCCAGGAAAGCAAAAATGAGATGGAGCATTCTTTATTTGCAGATTTTGCAGAAGAAGTTCAGATCGAACAGCCAAAATTAGCACCTTGTCCTGAATGGCCGAATATGCACAAGCTTAATAAAGAAAAAGAAATTATCGGGTTCTATCTTTCTGCACATCCGCTGGATGAGTTTAAGTATCAGTTTCAGTTTATGCAGGGAAGACTTTCCAAAAAATCTGTTCTTGAAAAAAATGAAGAAGATAAAGTAGTTACAGATGAAACGCCTGTATTAGAACAGGATGCTCAGGATGATACCGTAGATCTTACCGAAATTGTTTCAGATGATGTAGTGGCTGGAGAAGAGGAAGTGGTGGAAGAAGTAACTAAAAAGGCAGAGCCTAAAGGTAATTTTTTATTCCTGAATCTTGATGAGGTGGATGCTTACAAGGAGCAGGCTTTTGCGAATAAGCAGGAAGAGTTGTTTGAAGAGAAAAAGAAAGACTGGAAAACCCTTCAGAAAGAAAGAGAAAATGGAGGTGGTGGAAAAGAATATACCGTAGCAGGTCTGATCACAGAATATAGAGTTCAGGACGGTTTCAGAAGTGGAGAAAAAGTAGCTTTTGTGACGCTGGAAGATTATTCAGGATCTTATTCGTTCAGATTGGGAGACAGGGATTATATGAGATTGAAGGAGAAGCTGGAGGTACAGAGGTTTGTTATTTTTAAGATCAAATTTGCTCAGGTTAAGGACGGAAGGGTTTTTGTGAATGTAAATGATGTGATAGAACTTCAGGAAGCATTTGAAAGATTTGCAAAAAGTATATCGTTAGTAATGGATGTAATGGATGTAAGACCGGAAGACCTCGACTTTTTCAGAACAGTTCTCGACAGGAATAAAGGAAATCAAAAACTGAAATTCTTTATTAAAAACCTTGAAGATGACTCTCATATTGAAGTGCAGTCTATGAAACATTCGGTAGATCTCAATGGGGATTTGATTAAGGAAATTCAGCTTCTTAATAAATATGAATTTTATTTAAATTAA	MYLIFDTETTGLPKNFNAPLSDSDNWPRMVQIAWQVHDDDGNLIENQDYIIKPEGYDIPFNAARIHGITTKIANEEGRDLKEVLEEFSKVLERIRVVSGHNVEFDYNIVGAEFYRKDLKDNLQEKPKADTMVLGTDFCQLGGGRGGRFKPPKLEELYEKLYGNKFDEAHNAAADVNATARAFFEMVRIGVVPADTLKISEDQLAYFRSLYPDPIKPFNIVIRRQVADFHNKKKQQDFGSIDEIDLGKYFNFDNHSVFSTLTATSSINDLIKKASDENFPAVGMVDLGNMMGAFKFVSAVEGANGDRAKKHKEYLAKKQEAEENGTEFNEAEPVSEPLIPVVGCEFYISERYEQKQFTKDDPDRRTQVVLLAKDFNGYKNLAKLSSIGFLKGFYFGVPRVSRELIAQYKEGVIALTSGIMGDIPDAILNTGEQKGEELFKWWKDTFEDDFYVQIQNHNLPEEEHLNEVLLYLADKYDVKILAQNETFYTNKDDANIQDIVSCIKDGEKLTTPIGKGFGKRRGLATGEYFIKNSDEIKEAFLAYPDAFDAYEEFTAKFKPYTLKRDVLLPKFDIPEEFIHAEDEVDGGKRGEMAYLTHLTYEGAKKRYDPFGGITDEIKERLDFELEVIANTGYPGYFLIVQDFCNEARNMGVWVGPGRGSAAGSAVAYCIGITNVDPIKYDLLFERFLNPERVSMPDIDIDFDDEGRDRVIKWVIEKYGQSQVAQIITYSVLGGKSAIKDAGRVLDVPIPDTNNIAKLIPSTPGMNIAKALAKYDKLKPEEQMLVDEMRYVLDSPDDARHDVLASAKKMEGCIRNTGIHACGVIITPEDVSNLVPITIAAKDADILVSQFDNSVAESAGLLKMDFLGLRTLTIIKDALKLVKARYDIDIDPDLIPLDDTKTYQLFKEGRTVGIFQYESPGMQKYMRELKPTVFADLIAMNALYRPGPIKYIPNFINRKHGIEEIVYDLPETEEYLKETYGITVYQEQVMLLSQKLANFTKGEADTLRKAMGKKQIDVLNKMYPKFIEGGRKNNLNEERLEKIWNDWKAFAEYAFNKSHSTCYAFIAYQTAFLKANYPAEYMASVMSNNINNTDSITMFMEDCKSMGVDVLGPDVNESQYKFSVNEKGQIRFGLGAIKGIGEGPSEAITRERENGRFKNIYDFFERILPSQMNKRVAESLVLAGAFDELDSFHRGQYFDIDMAGRTNLERLIRYGQSFQESKNEMEHSLFADFAEEVQIEQPKLAPCPEWPNMHKLNKEKEIIGFYLSAHPLDEFKYQFQFMQGRLSKKSVLEKNEEDKVVTDETPVLEQDAQDDTVDLTEIVSDDVVAGEEEVVEEVTKKAEPKGNFLFLNLDEVDAYKEQAFANKQEELFEEKKKDWKTLQKERENGGGGKEYTVAGLITEYRVQDGFRSGEKVAFVTLEDYSGSYSFRLGDRDYMRLKEKLEVQRFVIFKIKFAQVKDGRVFVNVNDVIELQEAFERFAKSISLVMDVMDVRPEDLDFFRTVLDRNKGNQKLKFFIKNLEDDSHIEVQSMKHSVDLNGDLIKEIQLLNKYEFYLN				NA	NA	NA	NA	NA
BMS003_03602	2142			hypothetical protein	ATGAAGAAACAATTACTTTTAATCAGTTCTTTTGCTGTTTCACTACTAAGTGCACAAAACAACGAAGAATTAAACAGACAGTTTGAACGACAGAGAATAGAGAACAACAGCAAGTTTGAGGCTTATGTATCCAAACGATTTGGTGCTGACAGAAGTCCTGAAACCTTAAAGCAGATTGAATTGCAAAGAGCCACACTCGCTGGATTTTTACCAGACAACAGACCATATTTCCTGCAGGCGCATGATGGTGACCAAATTAAAAATTCCAATTCTGATTTTTTACAGGGCGGAACTATCACAGGCTTGACGGGATCTTTTAATGGGGATGGTATTAAGTTTACCATTTTTGACGGCAGTACTTCCTCAGGTGTAGCCAGAGTGTTTGCCGGCCACGTTTTTTTTAACAATCTACCCAATAGAATAATAAACAAAGAAAGCAGCACCGTCAACTACGGTGACCACGCAACTGCTGTTTCCAGCTTTATAGGCGCAAAAGATTATCCTTACACGGTAACATTTACCAACGGAACAACCAGACAGGTTAACTTCAAAGGTATTGCACCTAATTCTACCATTGATGCTTATGCTTTCGGAACGTCTGTACTGGATGGAGAAACAACACAAAAAACTGTATTTCAAAAAATTATTACAGCTCAGCCTAATATTTCTAACCATTCTTACGGAAGCAACCAGGGATGGGCAGATCCTCAGCTGATCAATAACGAACCTTCATGGGTCTGGAATGGCGCTTTTGCCAGCCCAAATACTTCTTTTGATGCTCAGGGAACCTACCATACCAATGACAGGGATTATGACCAGATCGTATACAACAACCCTTCATACATCATTGTAAAGTCGGCTGGAAACTCTTTTGGGGAAGGTCCAAGTGCTGCTACCAGTACTTACAAAAAATATTATAGAGATAATAGCGGTAATTTGGTAGAATTTGCACCAACAGATACGCTTCCTCCTAACAATTGTGCACAGGGATATGACTGTATAGGGATTGGTTCTCTTGGAAAAAACATCATTGTTGTAGGAGCTACAGATAGAATTACCACCAATGACGGAAGATATACTTCTTCTTCAGATGTTATCCATTCCAGCTACAGCAGTGCAGGTCCAAGAGATGATGGGGGTATCAAACCGGATATTACCACTGTAGGAACAGAAGTTGCCAGTGCATGGACAGATAATAACGCAACAGGAGGAAGCAAAATTGATATAGGAGACGGTACTTCTTATTCAGCTCCTGTAGTTACTGGTATTGTGGGGCTTTGGACACAGATTAATAAACAGCTTTTTGCAGGAAGTTTATTAAATGCCGCGTCAGCAAAAACTTTAATGGTACACTCAGCTAAAGAGGCAGGCAATATAGGTCCTGACCCTCAATTCGGATGGGGTTTTATTGATGCTAAAAAAGGAGCCGAACTTCTGGTAGGAAAATCTAACAACAGCATTATTTTTAATGATGAGACTTTAAACAGTGGAGTTTCCAACGTAAAAACAGTAAAAGCATCAGGTTCTGAGCCTTTAAAAGTAACTATTTCCTGGATAGACCCGGAATTCACCAACTTTACGAATCAGTGGAGTAATATTTACAACAACAGAAATTCCAAGCTGATTAATGACCTGGATTTAAGAATTACAGATACCACTACAAATACCGTTTATTACCCATGGAAACTTGATGCCAATAATCCAATGACTCCGGCTACAAAAGGAGATAATACGGTAGATAATGTGGAACAGGTAATAGTAGATGCTCCGGTAGCAGGAAGAACTTACAAAATAGAGATCACTAACAAAGGTATATTGAAAAATAATACAGGTGGCAATGCGCCTCAAAACTACTCTATCATTGTTACCGGGTTTACAGAACTACTGGGAACTAAAGAAGCAGGATTGGCATCAGACGGGATATCCATTGCCCCAACCATTGTAAAAGACATCACCAATATCCTGAAAGCTCCTAAAAAATCCACGTTCAATATATATGATCTTACAGGCAAAAAATTACAGAGCGGAACGATCAATAATGACAAGGAACAGATAGATTTATCTGCATATACAAAAGGAATTTACATCATTGAGGTAAAAACAGACAAAGATATTATTTCTAAAAAAGTGATTAAAGAATAG	MKKQLLLISSFAVSLLSAQNNEELNRQFERQRIENNSKFEAYVSKRFGADRSPETLKQIELQRATLAGFLPDNRPYFLQAHDGDQIKNSNSDFLQGGTITGLTGSFNGDGIKFTIFDGSTSSGVARVFAGHVFFNNLPNRIINKESSTVNYGDHATAVSSFIGAKDYPYTVTFTNGTTRQVNFKGIAPNSTIDAYAFGTSVLDGETTQKTVFQKIITAQPNISNHSYGSNQGWADPQLINNEPSWVWNGAFASPNTSFDAQGTYHTNDRDYDQIVYNNPSYIIVKSAGNSFGEGPSAATSTYKKYYRDNSGNLVEFAPTDTLPPNNCAQGYDCIGIGSLGKNIIVVGATDRITTNDGRYTSSSDVIHSSYSSAGPRDDGGIKPDITTVGTEVASAWTDNNATGGSKIDIGDGTSYSAPVVTGIVGLWTQINKQLFAGSLLNAASAKTLMVHSAKEAGNIGPDPQFGWGFIDAKKGAELLVGKSNNSIIFNDETLNSGVSNVKTVKASGSEPLKVTISWIDPEFTNFTNQWSNIYNNRNSKLINDLDLRITDTTTNTVYYPWKLDANNPMTPATKGDNTVDNVEQVIVDAPVAGRTYKIEITNKGILKNNTGGNAPQNYSIIVTGFTELLGTKEAGLASDGISIAPTIVKDITNILKAPKKSTFNIYDLTGKKLQSGTINNDKEQIDLSAYTKGIYIIEVKTDKDIISKKVIKE				NA	NA	NA	NA	NA
BMS003_03603	2100	dxs_2		1-deoxy-D-xylulose-5-phosphate synthase	TTGTTTTTTTGTGTATATTTGCTTCCTATGGAAAATGCACTTCACGAAAAAGTTTCTCAGGATATATTACTCAAAGCGTATAATCATATGATGCTGGCCAAAGCCATGGCCGATATTTATGAAGAAAACAGAAATGTCTGCAAATACGTCCACAGTACATCAAGAGGCCACGAAGCTATCCAGCTTGCAACTGCCTATCAGCTAAAGAAAGAAGACTGGGTTTCTCCTTATTACAGAGACGAAAGTATTCTTCTGGGAATTGGCTTTGAACCTTATCAATTGATGCTTCAGTTACTGGCTAAAGCTGATGATCCATTTTCAGAAGGTAGGTCTTATTATTCTCACCCATCAAGCAGAGACGAGGACAAACCCAAAATTGTTCACCAGAGTTCTGCTACAGGAATGCAAACCATCCCTACTACAGGAGTAGCACAGGGAATCAAATATATTCAGGATTTCAATCTTCAGAATTTTGAAAACAATCCTGTTGTGGTGTGCAGCCTTGGAGACAATTCGGTTACAGAAGGTGAAGTGAGTGAAGCATTGCAGTTTGCAGCATTACACCAGCTTCCTATCATCTTCCTTGTTCAGGATAATGAATGGGGAATTTCCGTAACGAAGGACGAAGCAAGAACCTGTGATGCTTATGATTTCGTAGCAGGATTCACGGGATTAAGCAGAATGCGAGTAGACGGAACTGATTTTGTGGAAAGTTTCGAAGCCATGAAAAAAGCTGTAGATTTTGTAAGAACAGAAAGAAAACCTTTGGTTGTCTGTGCAAAAACAGTATTGATCGGACACCATACTTCCGGAGTAAGAAGAGAATTCTATAGAGACGAAGAAGATTTAACCAAACATAGAGCTAAAGATCCGGGAGAAATCCTTAGAAAACATTTACTGGAAACGGGCGTTGATGAAGATCTTTTAAAGCAAATCACAAAAAAAGCCCGTCTGGAAGCAGAAGAAGCTTTCGAAAAAGCCAAAAATGCTGAAGATCCGAAGCCTGAAACCGTAATGCAGCACGTTTTTGCTCCTACCCCTATCACACAGGAAACAGGTACGCGTGAACCTGCCAACGGAGAAAAAATTGTAATGGTAGATGCTGCCATCCACGCCATACAGGAATTGATGTGGAAACACCCGGAAGCCCTTCTTTACGGTCAGGATGTAGGAGAAAGAATTGGCGGAGTTTTCCGTGAAACAGTTACATTAGGAAAAAAATTCGGAAGCAAAAGAGTTTTCAACACAGCCATTCAGGAAGCTTATATTATTGGATCTACAGCCGGAATGAGTGCCGTTGGTTTAAAACCGATTGTTGAGGTACAGTTTGCAGACTATATTTATCCGGGAATCAACCAGTTAATCACGGAGATTTCAAAATCCAGTTATTTAAGTGGCGGAAAATTTCCTGTAAGCAACATCATTCGTGTTCCTATCGGCGCCTATGGTGGCGGCGGTCCTTACCACAGCGGAAGTGTTGAAAGTATTTTAGCCAATATCAAAGGAATCAAAATAGCATACCCAAGTAACGCTGCCGATTTTAAAGGATTGCTAAAAGCAGCTTATTATGATCCGAATCCGGTAGTAATGCTGGAACACAAAGGATTGTACTGGAGTAAAGTTCCGGGAACTGAAGATGCTAAAACAATAGAACCAGCAGAAGACTATGTTCTTCCTTTTGGAAAAGGAAAAGTAATCATAGAAGCTGATAAGGAAGAAACCGAAAAAGGAAGAACCTTATTAGTTGTTACTTACGGAATGGGAATTTACTGGGCTAAAGAAGCTGCCAAAAATTTCAACGGAAGAGTTGAGGTGATCGACTTAAGAACATTGATTCCTCTGGATGAAGAACTTGTTTTCGAAAGAGTAAAAGCCCACGGAAAGTGTATTGTTCTAACCGAAGAGCAGCTTAATAACTCTTTTGCAGAAGCTTTTGCACACCGTATTTCCAAAAACTGCTTCAAATATCTTGATGCACCGGTAGAAACAATGGGATCACTGGATGTCCCTGCAGTCCCTATCAATCTGATACTGGAAAAAGAAATGCTTCCTAATGCTGAAAAACTCGGCAAAAAGATCGAAGAAATGCTGAAATATTAA	MFFCVYLLPMENALHEKVSQDILLKAYNHMMLAKAMADIYEENRNVCKYVHSTSRGHEAIQLATAYQLKKEDWVSPYYRDESILLGIGFEPYQLMLQLLAKADDPFSEGRSYYSHPSSRDEDKPKIVHQSSATGMQTIPTTGVAQGIKYIQDFNLQNFENNPVVVCSLGDNSVTEGEVSEALQFAALHQLPIIFLVQDNEWGISVTKDEARTCDAYDFVAGFTGLSRMRVDGTDFVESFEAMKKAVDFVRTERKPLVVCAKTVLIGHHTSGVRREFYRDEEDLTKHRAKDPGEILRKHLLETGVDEDLLKQITKKARLEAEEAFEKAKNAEDPKPETVMQHVFAPTPITQETGTREPANGEKIVMVDAAIHAIQELMWKHPEALLYGQDVGERIGGVFRETVTLGKKFGSKRVFNTAIQEAYIIGSTAGMSAVGLKPIVEVQFADYIYPGINQLITEISKSSYLSGGKFPVSNIIRVPIGAYGGGGPYHSGSVESILANIKGIKIAYPSNAADFKGLLKAAYYDPNPVVMLEHKGLYWSKVPGTEDAKTIEPAEDYVLPFGKGKVIIEADKEETEKGRTLLVVTYGMGIYWAKEAAKNFNGRVEVIDLRTLIPLDEELVFERVKAHGKCIVLTEEQLNNSFAEAFAHRISKNCFKYLDAPVETMGSLDVPAVPINLILEKEMLPNAEKLGKKIEEMLKY				NA	NA	NA	NA	NA
BMS003_03604	1032			hypothetical protein	ATGATCACAACCAAATATGTCAATTATAAGCAGGTTCTCAATTTATCAGGATTTCATCTCATTCTTATTTCGATCTGGTGTACCCTGATAGCAGTTCTCTTCTATTTCTTCAATTGGCAATGGATGACAATCCCCTGGGTTCCCGTTGCACTGATTGGTACAGCAGAAGCCTTCCTGGTAGGTTTTAAAAACAACCAGGCTTACGACAGACTTTGGGAAGCCAGAAAAATCTGGGGCGGAATTGTGAATTCCAGCCGTTCATTTGCTTCTATGATATATGCTTTTGATACCAAAAACGAAGAAATAGGTGTTTTTGATCTTGAAGACCGCAAAAGAAGAATTGTTTACCGCCACATCGCATGGCTGTATACTTTCCGTGAACAGCTTTTGATTCCTACGGAATGGGAGCATATCAGTACGGAAAACAGTAAATTCGTAAATATTAACCTGAGAAGAAACAGACTGATCAAAGCAGGTTTTCCTGATTATGGAAGAGCCCCTATTTTCCTGCACAAATATCTTTCTGAAGAAGAATATGATCTTAAAAATGATTATAAAAACTTTGCCACTTATCTGATTTCTCAACAGGCAAAAGACATCAATGAGCTGAAAAACATGAACGCCATCACAGATTTCAATCAGACCCAGCTGCAAAATGCTCTGAACGAATTCTACAATTTCCAGGGACAGGCAGAAAGAATTAAAAAATTTCCTTCTCCAAGACAATTTGCAAGTACAGCTTTTGTTTTTAATATCCTGTTTATAATGCTTCTTCCGCTTGGGTTAGTCAATGAGTTTGCAAAGCTGGGTGATTGGGGAATATGGACCTCTATCCCCTTCTGTATCATTATCGGATGGATTTATATCATTATGGAGCTCGTAGGAGATTATTCTGAAAACCCTTTTGCAGGATTAATGTTTGACGTTCCAATGCTTTCTATCTGCAGAACGATTGAAATAGACCTTCTTCAGATGAGCGGAGAAACTGAGCTTCCTGATCCTATTTCTTCTAAACATGGAGTTTTGGTTTAA	MITTKYVNYKQVLNLSGFHLILISIWCTLIAVLFYFFNWQWMTIPWVPVALIGTAEAFLVGFKNNQAYDRLWEARKIWGGIVNSSRSFASMIYAFDTKNEEIGVFDLEDRKRRIVYRHIAWLYTFREQLLIPTEWEHISTENSKFVNINLRRNRLIKAGFPDYGRAPIFLHKYLSEEEYDLKNDYKNFATYLISQQAKDINELKNMNAITDFNQTQLQNALNEFYNFQGQAERIKKFPSPRQFASTAFVFNILFIMLLPLGLVNEFAKLGDWGIWTSIPFCIIIGWIYIIMELVGDYSENPFAGLMFDVPMLSICRTIEIDLLQMSGETELPDPISSKHGVLV				NA	NA	NA	NA	NA
BMS003_03605	1086			hypothetical protein	ATGAAATCCAAGCAACTTCTGCAGGCTATCACAATGTTATGTCTTACCTTATTCGGCCCTAAAGTGAAATCACAGGCAGCATTCAACAAAGAGTTACCCAAAGAGTTTACAGACGGATTTACCAAAGAAATTAATGACAGCATTCCTTCTTTGGGATCTTTCATTGTTTCGCAAAATAATAAGCCAATTTATGAACAGTATTTCCATGGTGCCAATAAAGAGACTATTTTCAGTATAAAGTCTGTCACCAAAAGTATTGTCTCTGTTCTGGCAGGTATTGCCCAGGATAAAAACATACTTCCCAACCTCAACACTCCGGTTTTAAAAATCCTTCCGGAATATAATATCTCAAGGAGCAGTTTCAAAAACATCTCTAATATTGAAGGAAAGGTAGCCCATGATTCCATCAGAAATACATTAACATTAAAAAATCTGCTGACCATGCAGGGTGGTTTCGACTGGGTTGAGAATTCAAAAATTTCAATAGCAATGTCCTTTTCCGGTGATCCTGTAAAATTTGTACTGGATCTTCCTTTTGAAGAATACCCGGGAACTGTATTTAATTACAGCAGTGGGGAAACCCATCTTTTTGGTGCTGCATTGGCAAAAATTGTAAAGACCAATCTGAAACAATTTGCCACAGAAAATCTATTCAGACCATTAAAAATAAATATTCCCAGATGGGATACAGATTCTATGAACAGAAATATCGGAGGTTCTGAAATGTTTATGAAGTCTGAAGATATGCTGAAATTTGGTACAATGATTCTGAACAACGGAAAACTTGGCGGCAAGCAGATCGTCTCTTCAAAATGGATTCAGGAATCTACATCAGAACAGGTTACACTGGATACCTGGGATGTAATGCCAGATGCCAATGGATACGGATATTACTGGTGGCGGAGAAAAACCAACGGGCATCAGGCTTTCGTAGCCACAGGATATGGTGGTCAGCTTATCTGTGTCATTCCCGATTTAAAAATGGTCATTGTAACCACCTGCTTCCTGAATGACAAAAACAAAGGCAGAACCGAAATTAAAAGACTTCATTATTTCATTGATAAAATGACCAAAGAAAATCAGTAA	MKSKQLLQAITMLCLTLFGPKVKSQAAFNKELPKEFTDGFTKEINDSIPSLGSFIVSQNNKPIYEQYFHGANKETIFSIKSVTKSIVSVLAGIAQDKNILPNLNTPVLKILPEYNISRSSFKNISNIEGKVAHDSIRNTLTLKNLLTMQGGFDWVENSKISIAMSFSGDPVKFVLDLPFEEYPGTVFNYSSGETHLFGAALAKIVKTNLKQFATENLFRPLKINIPRWDTDSMNRNIGGSEMFMKSEDMLKFGTMILNNGKLGGKQIVSSKWIQESTSEQVTLDTWDVMPDANGYGYYWWRRKTNGHQAFVATGYGGQLICVIPDLKMVIVTTCFLNDKNKGRTEIKRLHYFIDKMTKENQ				NA	NA	NA	NA	NA
BMS003_03606	459	lrp_3	COG1522	Leucine-responsive regulatory protein	ATGGAACTTGACGGAACCGATAGGAAACTCCTGTTTTTTTTACAGGAAGACTGCAAACAAACCACCAAAGAACTGTCCGGTAAGCTTGGATTGTCTGTTACAGCTGTTTATGAACGTGTAAAAAAGCTTGAAAACGCAGGCGTTATTTCAAAATATGTAGCCTTACTGGACAGAAGTAAAGTTAAGAAAAATTTTATAGTTCTGTGTCATGTAAAACTAAGTCAGCACAAGAAGGAATTTGTACTACAGTTTGAAAAAGAAGTCATGGATCTCCAGGAAGTGACAGAGTGCTTCCATGTAAGCGGAGATTACGATTATATCCTTAAAATAGGAGTGAAAGATATTGAAGATTACCGAAGTTTTATGCTGACAAAGCTTACGACACTTCAGCATATCGCAAGTACGCACAGCTCATTTATGATTTCCGAAGTAAAGAATACAACCGCCATCGTATTATAA	MELDGTDRKLLFFLQEDCKQTTKELSGKLGLSVTAVYERVKKLENAGVISKYVALLDRSKVKKNFIVLCHVKLSQHKKEFVLQFEKEVMDLQEVTECFHVSGDYDYILKIGVKDIEDYRSFMLTKLTTLQHIASTHSSFMISEVKNTTAIVL				NA	NA	NA	NA	NA
BMS003_03607	1230	mgl_2	COG0626	L-methionine gamma-lyase	ATGGAAAACTTTAACGCAGCCAATGAAATCCAGGATCTTCAGTATTTTGGTGAATTCGGAGGAGTGAACCCTTCTATCTCTGACAGCTCTACCTATACATTCCTTTCTGCAAAGACCATGTTTGATACTTTCGAAGGAAATGCGGAGGGATGCTATCTGTATTCCAGACATTCATCCCCCATGAATCTTTATCTGGCACAGGCTCTTGCCAAGATGGAAAATACGGAGTCTGCCAATGTTACCGCATCCGGAATGGGTGCTATCACTTCTGTTTTGATGCAGGTATGCAAAAGTGGTGACCATATTATTTCAAGCCGAACCATCTACGGAGGAACTTATGCTTTTCTTAAAAACTTTTTCCCTCAATTCAATGTGTCAACTAGCTTTGTTGATATCAATAATTTTGAATCTATAGAAAAAGCAATTACTCCCGATACTAAAGTTATTTACTGTGAAAGTGTAAGCAACCCGCTTCTTGAAGTAGCTGACCTTAGAAAACTTTCCGAAATTTGTAAAAAACACAATCTGAAACTGATTGTAGACAATACCTTCTCCCCTCTTTCTATATCTCCGACTTCATTTGGAGCAGATGTTGTGATTCACAGCTTGACGAAGTTCATCAACGGAAGCAGTGATGCTGTAGGAGGCGTATATTGTGCAACCCAGACGTTTATTGATGATACAAAAAATGTCAACTCCGGAGCTTGTATGCTTCTTGGGCCAACCATGGACAGCTTAAGATCGTCAAGCATCTTAAAAAATCTGAGAACATTACATATCAGAATCAAGCAACACAGTCATAACGCGATGTATCTGGCTGAAAGATTCGAAAAAGACGGGCTAAAGGTATCTTATCCAGGTTTACCTTCTCATAAAAACCATGAATTAATGAAAAGCATGATTCATGAAGAATACGGATACGGAGGATTACTGACCCTGAATGCGGGAACAACAGAAAAAGCAAACGAACTGATGGAACTGATGCAGACAGAAAATCTGGGCTATCTTGCTGTGAGCTTAGGGTTCTATAAAACCTTATTCTCTTGCTCAGGAAAATCTACCTCATCTGAAATCCCTGAAGAAGAAAGAGCTTCTATAGGTATTTCTGACGGGCTGATCAGATTCTCCATTGGTCTTGACCACGATATCAAAAGAACTTACCATAAAATGAAAGAGTGTATGCTGAAAGTAGGAGTTCTTAACCACCATGAAAACATTTCTATCATCTAA	MENFNAANEIQDLQYFGEFGGVNPSISDSSTYTFLSAKTMFDTFEGNAEGCYLYSRHSSPMNLYLAQALAKMENTESANVTASGMGAITSVLMQVCKSGDHIISSRTIYGGTYAFLKNFFPQFNVSTSFVDINNFESIEKAITPDTKVIYCESVSNPLLEVADLRKLSEICKKHNLKLIVDNTFSPLSISPTSFGADVVIHSLTKFINGSSDAVGGVYCATQTFIDDTKNVNSGACMLLGPTMDSLRSSSILKNLRTLHIRIKQHSHNAMYLAERFEKDGLKVSYPGLPSHKNHELMKSMIHEEYGYGGLLTLNAGTTEKANELMELMQTENLGYLAVSLGFYKTLFSCSGKSTSSEIPEEERASIGISDGLIRFSIGLDHDIKRTYHKMKECMLKVGVLNHHENISII	PGPT0020020_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS003_03608	585			hypothetical protein	ATGTATAACAAGGAGATTAATGAACTTATATATAAGTTTTCAAATTTAGGGCTTGATAGCTCGAGTGATGGAGCGAAGATGATTGGTAAAGCTCCTTTTAAGGGATCAGAAGCTTGGATTAATATTATTTATCCAAAGGTTATTACAGAAGAAATAAGTTTACTCGAAAAAGAGTTAAATTCTACTATTCCTAAAGATTATAAGCACTTTTTAATGAATTATAGTAATGGCGGTAATTTTCTATCATCGACCCTTAGTTTAGATGGTCTAAGAAGACGTTTGACCCGTGATCCAAAAGCAAACTCCAGACAGCCATTTTCGATTATCACTCCGAATGTTTATGAAAGGCCTGAAAATGCAAAAGAAAACTATTTTTTTATTGGAGGATATAAATGGGATGGTTCACTTTTGTACATAGATAAGGATACTAACATTGTGCATTGTGGTTCACCAGATGATGCAACATCAAAGATTCAATGGGCATCTTTTGAAGAAATGTTATTATCTGAATTGAAGCGTTTGTATACATTCTTTGACGATGAAGGAAGAGAAATTGATGAAGATGTTTCAACACTTCCATATTAA	MYNKEINELIYKFSNLGLDSSSDGAKMIGKAPFKGSEAWINIIYPKVITEEISLLEKELNSTIPKDYKHFLMNYSNGGNFLSSTLSLDGLRRRLTRDPKANSRQPFSIITPNVYERPENAKENYFFIGGYKWDGSLLYIDKDTNIVHCGSPDDATSKIQWASFEEMLLSELKRLYTFFDDEGREIDEDVSTLPY				NA	NA	NA	NA	NA
BMS003_03609	3444			hypothetical protein	ATGAAAAAAATACAACTCTTAGGTCTGCTGTTTACAGCCATGGTGACCTATGCACAAAGCACAACAGAAAACTATATACAATCCAAAATCTGCCTGAGCGGCGATTGCAGCAAAAAAACGGAAACCATCACCTATTTTGACGGATTAGGAAGACCCAAACAGATCATCAGTGTAAAAGCCACCACCACGGGAAAAGACCTGGTGACCCCCATTACCTATGATGCCTTTGGAAGGCAGGCTAAAGATATTCTTCCTGTTCCAGCTAACACCCTTAATTCAGCGATTCATACCGGAATTGTGAATGAGACTACGGCCAATGCTTATTACGGCACAGCCAATGCTTACACCGAAAAAGAGATTGAAAACTCTCCCTTAGATAAGGTACTGCAACTGGCCCAGCCGGGTGATCCGTGGAAGATGAGCGGCGGACATACCCAGAAATATAAATATGAGACAAACAGCGCCAGTGATATCTATAAATATGTTACCACAACCATAACACAGAATGGAATCACAAAAAGCAATCTGAGCTTGGCTCCAGGTGAGACCTACCCTGTGGGTACATTGTATAAAAATACAGTAAAAGATGAAGATGGAAATGAGGTAGTAGAGTTTAGCAATGCAAAAGGCCAGGTACTGCTGCTGAGAAAAATCCTGGATGTTGATACTCATATTGACACCTACTATGTATATAATGAATATAATCAGCTGGCCTTTATACTCCCGCCCAAAGCTATTCATAAGCCCATCACGGATGATCTTCTCAATACTCTGTGTTACCAGTACCGTTATGACGGCTTGGGCAGGCAAGCTGAAAAAAGACTACCCGGAAGAGACGATTGGGAATCTGTGGTGTATGATGCCGCAGACCGCCCGGTGCTTACCCGGGATGTGAACCTGAAAAATAAAGGACAGTGGCTTCTGACCAAATATGATGCCTTTGGCCGTGTTGCCTATACCGGACTTATTGCGGGTGGAGAAAGAGCCGCCATGCAAAGCCAGATCGGCAGCCAGGCGATCAGCGAAACACAAACTACCACAGGTTTTAACAAAAACGGGATTATGGTATATTACACCAATACCTTTTTTACTAATTTTCAGACGCTTCTTTCTGTTAATTATTACGACTCTTATCCAAGAGACACCAAGGAATTTCCCCTGACAAAAATCCTGGATCAGTATGTGATCAATGAAGACCAAACTCTAAATGGGGGGATTAGTACCCGAGGTCTTCCCACAGCGTCTTATGTGAAAAACATTGAGGATGATAACTGGACGAAAACTTATTTCTATTACAATACCAAAGGCGGAAAAGTAGCAGAGAAAAGCTGGAATCATTTAGGCGGATATACTAAAAAGGAATTCAAGCTTGATTTCTCCGGTGCTGTGGATGAAAGTTATACCTATCACAAAAAAGGAAGCACAGATGTAGAAGTGGTGATCAAAGAAAGGTTTGTATATGATGATCAGAAAAGGCTTCTAAAGCATTATCATCAGGTAAATACTCAGCCGGAAGAACTTTTAGCGGAAAACACCTACAATGATCTTGGGCAGCTTATTAATAAAAAAACAGGCAATACAACCGGAACGCCTTTACAATCTATAGACCAGATCTACAATATCCGTGGATGGCTTACGAAAGTGAATGATCCCGCCAATTTAAACGGAAAGCTTTTTGCCTATGAGCTGAAATACCATAATCCTGTGTATGCCACTGTTTCTACAGGAAAGTACAACGGCAATATTGCAGAAATAGACTGGCAAGCTGCTGATGGCAGACCCTTTAGCAGATACAATTACCAGTATGATGCATTGGACAGATTAAAAAACGGGATTTATTCTGAGCCCAACGCCACCGTTCCGCAGAATAATTATTACAACGAATCTCTTACCTATGATTTGGGAGGAAATATCCAAACTCTAAAGAGAAACAGGCTTTTAACAAATGTAGGAGCTGTTGTCATGGATAACCTTGGATATACCTACACAGGAAACAGACTGGGTACAGTAACGGATACTTCAGGAAATTACGGAGGTTATCCAGACACTTCTGGAAATCCAATTTCTTATGATGGTAACGGAAACATGACAGATCATGTGGATAAAGGTATTTTACAGATTGATTATAATTACCTCAACCTGCCGGATTATGTAAAGTTTGATAAAACCTATAACACCAGAAGTTTCAGTTTTGGAGGGCGAGGCATTAATGTCAATACAAAATATCTCTACAGGACAGATGGTGTAAAAGTAAAGAAAATCTATACATACGGAACAGGAAGAAACAATTCAGAAACAATTGAAACTACAGACTATCTGGATGGGTTTCAGTATAATAATCAGATTTTACAGTTCGTACCTACCTCGGAAGGCTATTATGATTTTGTTAAAAATCTGTATATTTACAACTATACCGATCATCAAGGAAACATCAGACTGGCGTATTACAAAGATGCTTCCGGGAACCTGAAAATAGACAGGGCTACAAATTATTATCCGTTTGGGTTGGAGTTTGGAGGAGATTTAAGTACTGCTAATTCAATATCTCCAAACTATAAGTATTCTACCCACGGAAAAGAGAAACAGCAGGAGACCGGATGGAGTGATTTTGGAGCAAGATTTTATATGCCCGATACTGGTAGATGGCTTTCACCAGATCCATTAAGTGAAGAGTTTGAAGATTGGTCTCCGTATAGTTATGTTTTTAACAATCCGGTACGTTATGTTGATCCCGATGGAAATGCTCCAATAGATGTAGTTGGTGAAGAAGGTTGTTGTCAGCAAATGAAAGGTTTTGCCCTAACCATGGTTGACAATGTTATTGGATCTAACCTTAGAAATAAATATGGTTCAAAGACACAGGAATACCGGGACGGGGTAAATAGTGGTCATGGAGCATCCATGGTATTGGCTGCTTTAATGGCCACAGATGGTATTACAAGTATCGGCGGTGGAACAGGCGGTTTGGCAGCCTCTGCTGCAGCTTCTTCCACAGGTGTAGGAGCAATTGCAGGTGGACCGGGCGCTGCTGTTAGCAGTGGCCTGATATTGAAAGGTACATTAGAAGTTGCTGGCGCAGCAGTGATCACTAGCAATGTTAGAGATAACATGAAGAGTGATAATGGTAGTAGTAAAAAAGCACCAAGTTTAAATAGCCAACGTCAGGGTGCTGTGAGAAAAGCTTGGAAAGAAGAAAAGGCTCTGGTTGAAAGTGGAAAGGATGGTACAAGAAGATGGACTAAGTCTCAGGAGAAAGAACTAAAAGAGACAGGAAAGGTAAAAGGTATGAAGGGACACCATATCAACAATGTCAAGCATCACCCTGAGATGGCCGGAGATCCTAACAATATAGAGTTTGTAACGGCAAAAGAACATATACAACGACATATGGGAAATTTTAGAAATAAAACTACTGGGGAATTAAAAAATCGTAAAATTGATTAA	MKKIQLLGLLFTAMVTYAQSTTENYIQSKICLSGDCSKKTETITYFDGLGRPKQIISVKATTTGKDLVTPITYDAFGRQAKDILPVPANTLNSAIHTGIVNETTANAYYGTANAYTEKEIENSPLDKVLQLAQPGDPWKMSGGHTQKYKYETNSASDIYKYVTTTITQNGITKSNLSLAPGETYPVGTLYKNTVKDEDGNEVVEFSNAKGQVLLLRKILDVDTHIDTYYVYNEYNQLAFILPPKAIHKPITDDLLNTLCYQYRYDGLGRQAEKRLPGRDDWESVVYDAADRPVLTRDVNLKNKGQWLLTKYDAFGRVAYTGLIAGGERAAMQSQIGSQAISETQTTTGFNKNGIMVYYTNTFFTNFQTLLSVNYYDSYPRDTKEFPLTKILDQYVINEDQTLNGGISTRGLPTASYVKNIEDDNWTKTYFYYNTKGGKVAEKSWNHLGGYTKKEFKLDFSGAVDESYTYHKKGSTDVEVVIKERFVYDDQKRLLKHYHQVNTQPEELLAENTYNDLGQLINKKTGNTTGTPLQSIDQIYNIRGWLTKVNDPANLNGKLFAYELKYHNPVYATVSTGKYNGNIAEIDWQAADGRPFSRYNYQYDALDRLKNGIYSEPNATVPQNNYYNESLTYDLGGNIQTLKRNRLLTNVGAVVMDNLGYTYTGNRLGTVTDTSGNYGGYPDTSGNPISYDGNGNMTDHVDKGILQIDYNYLNLPDYVKFDKTYNTRSFSFGGRGINVNTKYLYRTDGVKVKKIYTYGTGRNNSETIETTDYLDGFQYNNQILQFVPTSEGYYDFVKNLYIYNYTDHQGNIRLAYYKDASGNLKIDRATNYYPFGLEFGGDLSTANSISPNYKYSTHGKEKQQETGWSDFGARFYMPDTGRWLSPDPLSEEFEDWSPYSYVFNNPVRYVDPDGNAPIDVVGEEGCCQQMKGFALTMVDNVIGSNLRNKYGSKTQEYRDGVNSGHGASMVLAALMATDGITSIGGGTGGLAASAAASSTGVGAIAGGPGAAVSSGLILKGTLEVAGAAVITSNVRDNMKSDNGSSKKAPSLNSQRQGAVRKAWKEEKALVESGKDGTRRWTKSQEKELKETGKVKGMKGHHINNVKHHPEMAGDPNNIEFVTAKEHIQRHMGNFRNKTTGELKNRKID				NA	NA	NA	NA	NA
BMS003_03610	3447			hypothetical protein	ATGAACAGAAAAATTATTACTATCCTTTTTCTTGCAGCGATGATCTCTGTTGCGGGACAGGGTGGAGGGCCTTCAGGGCCACAAATAACGGGAGGTGACCCTTCCACCTTACCTAAAATATTCCCATCTTCCCCTGAAGCATTTAAATTGGGAAGCTATGGAAATATACCGGTAAGCCTATTTACAGGAACTGCAAACGTAAATATTCCTCTTACAGAGTTCAGAATCCAAAACTTGAATCTTCCTGTTACCATCAATTATGCCTCGAACGGAATTAAAGTAGATGATATGAACGGTTCTACCGGAATTGGTTGGAATTTGATCACATCTGGTGTCATTACAAGGACTATCAGGGATCTTCCTGATGAAGAAAATGTGAACATTTCTTTCCCTTCTGACATTGAGAATTTAGGGATACGCCATCCCACGGTTATGCAGTATTTTCAGGATGCTTCCAACGAACTAGTTGACTCTGAGCAGGATCTATACATGGCCAATTTTAACGGAAACAGCATTAGGTTTGTATTTGACAGAAGAGGAATGCCTATCGTTTATTCCCAAAAAGATGTCATTGTTGAAGGACAAAGTGGAGGTAACTCTTTTACTATTACTATGGATAATGGGGTTAAATATTATTTTACGGATAAGGAAATAACGGAGAACAGGACTTCAGGAGATGGGCATTCTCTTTTATCAAGTAATACAACAGCATGGTACCTTACCAAAATAGAAGACTCTTCAACAGGAGAGCAGATTATTATTGAGAATCAAAATGCAGGATATTCTACCACATTGACTAATTCTCAATTAATGCGGTATACGCTAGGACCGCCGCAACCCTCTGTGTGTGGAGGCTCTACATTTTTCCTTCCACCAATAGTTGGGGGGCTAATCAATCATTTACAGACCGTAGGAGGAAAACAGGTCAAAAGGATTTACAGTAATAATCCAAATTATGGAGAAATAACGTTTGAATATACAACATCAACAGGAAATCAAGATTATCAGAAGCTTAGTAAGGTTGTCAGAAAACTAAATTCCGTGACAATTAATGACATCAGTTTTAACTATTTGCTCACTGCTAATAAAAGACTGTTTTTAAACAGTATTAATGATCACATATCAAAAGCTGTTCATTCTTTTGAATATATGAATCCTGAAGAACTTCCGACAAGGCTTTCCTTTTCTAGAGATACCGGAGGTTACTATAATGGAATACTGACCAACACCAATCTTATTCCTCAGCTTTCTATACCATCAGTATCTTATCCTGGAGCAGCTCAGGACGTAGTTCCTGCTAAATCACAGGTTGGAATGCTGAAAAAAATAGTTTATCCCACGAAAGGAAATTCGGAATTTACCTATGAAAATCATACCAGAAAACAGTATAAACTCATTACGCCGGGCCAAAGCAGCGGAATTTCAATAGGTGCAGAAAGTACCGATACTGATACAACAAATCCTAATATAACAAAATCAGAAACTTTTACTTCTATCCTGGATGAAGAAATTATGCTTGGCGGATCAGCATCATTTAATGCTACAAAATGTGATCCCAACTCACAGGTAACGGGGAAACACAGAGCCGCTGTTAAACTTATAAAACCCAATGGAGAGCTTATTCCTTTTTATGTTAAAAATCCTGGAGGATCAACAACTGCCATAGGAAATACATTTGTTTTGCCTCTGAATGGCAATACATTTTATGCGCAGATTCCTAAAAATCAGTTGCTAAAACTTTCTATTACCACTTCTTTTGAGTGTACAAGATCATCTGTAGCGACCAGTTATACGAAGACTGAACCTGTTTATGGAGATGTCCAGACCGATATTCCGGGGGTAAGAATCAGTAAAATTGTTGACAATTCGGAAAATGGAGTTGCCACAACCCGCCGGTTTGTTTATAAAGATATCGGAGAATCATTTTCAAATGCAATAGTGGTCAGAGAGCCTGTTTTTACAGAGGGATTAAATAAGACAAGAACCTGTGTACAGAACCCGTTACCAGGGAGTACCGGAGGATCTATCCCATGGGGAGTGGAAAGATTTACTTATTATGCCCTCACTTCTTCCAATATCAACCAGCTTAATGCCACACACACTAATCTTTTTTATAAAACAGTGCAGGAAATTATCGATGGTAAATCGACAATCGTACATCAGTATTCTACTGAAACTGATTATTTTGGGAAAATTTTACGGGGAGCAGATATAAAATCGGCTCCCTGGACTAACTTTGGCTGGAGCAACGGAAACGAAATTCTTACTAAGTATCTCGACAATGGAAATAATCTTTTAAGAACAGTTGAAAGGAGTTATGAAGAGGACCCCACAAGAAAATTCCAGGTAGATGGCTTTGCTATCAGAAAGAACTATGATGTTCCGGTATCAATGAATGTTATAAAAACCTGTACAGCTGAAAATATTAATGCAACCTACGAGCAAACTTATTGTACCACAAATCATAATCATTTCAGAAAGTCTGTAGACGGTTATAAAAACTGCTATACGCCCGGAGCTAATAATGTAACCATAGTTTACAAACATCAATGCTATGGCAAAAACGTTGGTGACATTATTACTGTTGATGATCAGTTGGACAATCTTGATATTGTCCAGTATAAAAACATTTCCCATTTCGAGTATCTGAAATCACAGAAAACAACAGATTATCTGAATGGAAATGCAATGAAAACTGAAACGCAGTATTTCTATAATAATCCAAAGCATACTCAGTTAACAAGTCAAAAGACAATTTTTCCAGACCTGTCTACGGCAGAAAAAACATATCAGTATGCCCATGAGAAAAACAACCAGCTGATGATTTCAAAAAATATGATCGGGATTCCTTTAGAAACCAAAACCCAGCAGACAGCAAACGGCATCACCAAAGTAACTTCCAGGGAAGAAACTATTTACCCAACTGCCCTGCCTCATTCGGTTGCCGGAAATTTAGTACTTCCGTTATCTGAAAATTCTTATGATACTTTAAACCCTACTGTTTCTTCTAAAGAAGTTACCTATGAGAAATATGATGAAAAAGGAAATATTCTTCAGTACAGGGAGAAAGACGGCACTCCGGTGAGTATTGTCTGGGGTTATAACAAGACCAGGCCGATTGCCAAAGTTGTAGGCTCCACCTATAGTCAAATCGAAGGGATGATCAGTACTATTGTAGCGAAATCCAATGAAGATGCCGCTGATCCCACCAAAGAATCCGAACTTTTATTGGCTCTTGATGCCTTCCAGCCTGTGGGGATGGTAACCAAATATACTTACGATCCTTTAGTAGGAGTAACTACCATTACACCACCATCAGGAGTTAGGGAACTCTATGTCTATGACACCGCCAACCGATTGAAGCAGGTTCAGGTAAGAGAAAGAGACAACGCCGGAAACTACAGCTTCAAAGTAGTGAAAGAATTGAAGTATAACTATAAGCAGTAA	MNRKIITILFLAAMISVAGQGGGPSGPQITGGDPSTLPKIFPSSPEAFKLGSYGNIPVSLFTGTANVNIPLTEFRIQNLNLPVTINYASNGIKVDDMNGSTGIGWNLITSGVITRTIRDLPDEENVNISFPSDIENLGIRHPTVMQYFQDASNELVDSEQDLYMANFNGNSIRFVFDRRGMPIVYSQKDVIVEGQSGGNSFTITMDNGVKYYFTDKEITENRTSGDGHSLLSSNTTAWYLTKIEDSSTGEQIIIENQNAGYSTTLTNSQLMRYTLGPPQPSVCGGSTFFLPPIVGGLINHLQTVGGKQVKRIYSNNPNYGEITFEYTTSTGNQDYQKLSKVVRKLNSVTINDISFNYLLTANKRLFLNSINDHISKAVHSFEYMNPEELPTRLSFSRDTGGYYNGILTNTNLIPQLSIPSVSYPGAAQDVVPAKSQVGMLKKIVYPTKGNSEFTYENHTRKQYKLITPGQSSGISIGAESTDTDTTNPNITKSETFTSILDEEIMLGGSASFNATKCDPNSQVTGKHRAAVKLIKPNGELIPFYVKNPGGSTTAIGNTFVLPLNGNTFYAQIPKNQLLKLSITTSFECTRSSVATSYTKTEPVYGDVQTDIPGVRISKIVDNSENGVATTRRFVYKDIGESFSNAIVVREPVFTEGLNKTRTCVQNPLPGSTGGSIPWGVERFTYYALTSSNINQLNATHTNLFYKTVQEIIDGKSTIVHQYSTETDYFGKILRGADIKSAPWTNFGWSNGNEILTKYLDNGNNLLRTVERSYEEDPTRKFQVDGFAIRKNYDVPVSMNVIKTCTAENINATYEQTYCTTNHNHFRKSVDGYKNCYTPGANNVTIVYKHQCYGKNVGDIITVDDQLDNLDIVQYKNISHFEYLKSQKTTDYLNGNAMKTETQYFYNNPKHTQLTSQKTIFPDLSTAEKTYQYAHEKNNQLMISKNMIGIPLETKTQQTANGITKVTSREETIYPTALPHSVAGNLVLPLSENSYDTLNPTVSSKEVTYEKYDEKGNILQYREKDGTPVSIVWGYNKTRPIAKVVGSTYSQIEGMISTIVAKSNEDAADPTKESELLLALDAFQPVGMVTKYTYDPLVGVTTITPPSGVRELYVYDTANRLKQVQVRERDNAGNYSFKVVKELKYNYKQ				NA	NA	NA	NA	NA
BMS003_03611	1596			hypothetical protein	ATGAAAAAACTTTATTTCTGTGCATTTTCTTTATGCACGGTCTTGGGTATATCTGCCCAGGAAACAGAGGTAATCTGGCAACGGGACATCAAATCCAGTTCACAGGATTTTTTAAGCCAGATTACAACAACTATTGACGGACAGTATCTGATCACAGGAAGCTCGATTCAAGGCGATCCTTCGACAGGCTCAGGATTAGCACACCAAAAGCAAAACAGTGGCTATGACTTCCATTTGATAAAATTGAATCAAGAAGGAAACCCAATCTGGGAAAAGTACTTCTCTGGAAACAACCACGATTACCTTGCTTCAACTGTCACGACCCAGGACGGAGGATTTTTGATTTCAGGCACCTCATATTCAGGCAAGGGCCTGGATAAAAAAGACGATTCTAAAGGAGGTTCAGAAATTTGGCTGATCCGTATTAATGAATTTGGAGATCAGCTCTGGCAAAAAAACATAGGAACATCAGCTGATGAAGAGGCAAGAGCCGTAATTCAAACAACTGACCAGGGATTCTTTTTAGCAGGGAATATTCAGACCCTGTCCTTTGGCTATGCTCAGGATAAACTAGCTCAGGATTCTAAAGGCTATGATTCAAAAGATGTTCTTGTTGTTAGATTAGACAAAGACGGAAAAGAACTCTCTCAATTAATTTTTGGAGGACGTGGTCAAGATGAGGTTGAGAAGATGATTCCAACCCGTGATGGAGGTGCCCTACTCGGAGTTTATTCAAGGAGTGGTATCGGTGGTACTAAGAAAACAGAAAACTACGGTGAAGGAGACTACTATATTGTCAAGCTCTCAAAAGATGGAAAAATTCAGTGGGAGAAAAACTTTGGAGGAAAAGGTGATGATCATTTGAGAACCCTAGCTTTAACTTCAAGTGGATTCCTTATTGGTGGAGAATCCAGATCAGAAAGATCAGGCAATAAAACTGTAGGAATTGAAGAAGGAACAGACCTATGGCTTGTCGCTTTAGACGAAAATGGGAATGAGCAATTCCAAAAGTCTTACAATTTTGGTAATCGTGATGTCCTGATGAGTATGAGTGCTCTCCATTCAGCAGATGATAAATCTACAAAAGGATTTTTGCTAGGAGGCTATACTCCTTCAGAGGGTAGATCAGAAACAAAAGACAATACTTTTTGGCTGCTTTATATAGACCAATTAGGGAATGAGGTCTGGAGAAAACATATTGAAGGCGAATCCAGAAAGAAGGAAGAGAGACTTTCAGACCTAAAACTGAACAGAGATGGTTCGATAATAATTGCAGGCACCAGTGCAGAGGAACTGGGTAAAGAGGACTGGAAGATTGTAAAACTGGGAGACAAGCAGGTGAATGATCTGATTGAAAAACAGGACATCAAAATCTATCCGAATCCGGTATCAGATTATGCGTATGTGGAAATTGGCTTCGATTTCAAAGAGGCAGAGATTTTACTCTACGATATGTCAGGTAGACAATTACAGAACCTGAAAACAAGAAATAAAGTGACTAAGATTAATACGCAGGCTCTGGTTCAGGGCGCTTATCTGGTGACGATAAAAACGGATAACAATAAAACGGCAAATGCAAAATTAATCAAGAAATAA	MKKLYFCAFSLCTVLGISAQETEVIWQRDIKSSSQDFLSQITTTIDGQYLITGSSIQGDPSTGSGLAHQKQNSGYDFHLIKLNQEGNPIWEKYFSGNNHDYLASTVTTQDGGFLISGTSYSGKGLDKKDDSKGGSEIWLIRINEFGDQLWQKNIGTSADEEARAVIQTTDQGFFLAGNIQTLSFGYAQDKLAQDSKGYDSKDVLVVRLDKDGKELSQLIFGGRGQDEVEKMIPTRDGGALLGVYSRSGIGGTKKTENYGEGDYYIVKLSKDGKIQWEKNFGGKGDDHLRTLALTSSGFLIGGESRSERSGNKTVGIEEGTDLWLVALDENGNEQFQKSYNFGNRDVLMSMSALHSADDKSTKGFLLGGYTPSEGRSETKDNTFWLLYIDQLGNEVWRKHIEGESRKKEERLSDLKLNRDGSIIIAGTSAEELGKEDWKIVKLGDKQVNDLIEKQDIKIYPNPVSDYAYVEIGFDFKEAEILLYDMSGRQLQNLKTRNKVTKINTQALVQGAYLVTIKTDNNKTANAKLIKK				NA	NA	NA	NA	NA
BMS003_03612	252			hypothetical protein	ATGGCAGACAAAATCCTTTGGCAGATGTATTCACTCGCTAATGATGGAGACGTAAAAGCAGCAAGACTCTTTTTGGAAGTAGCTGGAAAATTAGGGAAGTCTGGCAGCTCTCAACCAGTGAAAAATCAAACCCATTATATTCAGATCAATAATACTGTTCTCAATCAGCAGGTATTGCAACAACTCTCTACAGAACAGCTCAATGCTATTGAGGGAATTTTAAAAACAATCGAAGTAAAAGAAACAGATTAG	MADKILWQMYSLANDGDVKAARLFLEVAGKLGKSGSSQPVKNQTHYIQINNTVLNQQVLQQLSTEQLNAIEGILKTIEVKETD				NA	NA	NA	NA	NA
BMS003_03613	720	aqpZ2		Aquaporin Z 2	ATGATAAAAAAACTTTTCGCTGAATTTTTCGGCACATTTTGGCTTGTTTTCGGAGGGTGTGGAAGCGCTGTTTTTGCAGCTGGTGTTCCAGACATTGGCATCGGACTTTTAGGAGTTGCCTTAGCCTTCGGTCTTACTGTTCTTACTATGGCTTATGCCGTAGGACACATCTCAGGGGGGCATTTTAACCCTGCGGTCTCTTTCGGGCTTTTAGCGGGGGGAAGATTTCCTGCCAAAGACCTTATTCCTTACGTTGTTGCTCAGTGTCTGGGAGCTATTGTAGCTGCAGGATGCCTGTATACAATCCTTAACGGAGCGGGAGCTGTAGAATTCTCAAAACCCGGAGATTTTGCCACGAACTTTTACGGAGAGGCTGTGTATAACGGAAAAGCGTTCAGCATGGGAGCCGCATTCCTTGCTGAATTTTTATTAACGGCCTTCTTCCTTATTGTGATCATGGGTGCTACTGATAAATGGGCTAACGGTAAATTTGCCGGTCTTGCTATTGGTCTTGCTCTTACGTTGATTCACCTGATCTCTATTCCCATCACAAACACTTCTGTAAACCCTGCGAGATCACTTTCTCAAGCGGTATTTGTGGGAGGAACTGCAATGTCTCAGCTTTGGCTGTTCTGGGTAGCACCAATTTTAGGAGGAGTTGTAGGAGGATTGATCTACAAGTTCTTACTTCAGAGAGATACTGCAGAAATAGCAGATTAA	MIKKLFAEFFGTFWLVFGGCGSAVFAAGVPDIGIGLLGVALAFGLTVLTMAYAVGHISGGHFNPAVSFGLLAGGRFPAKDLIPYVVAQCLGAIVAAGCLYTILNGAGAVEFSKPGDFATNFYGEAVYNGKAFSMGAAFLAEFLLTAFFLIVIMGATDKWANGKFAGLAIGLALTLIHLISIPITNTSVNPARSLSQAVFVGGTAMSQLWLFWVAPILGGVVGGLIYKFLLQRDTAEIAD	PGPT0004755_638	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
BMS003_03614	621			hypothetical protein	ATGAGAAAGTTTTTTTGTGTGGTCTTTGTACCTTTTATTTATAGTTTACATTATTCGCAGGCAGCAAAAAAAGCTTTTCCCTGCTATGACCTTTCTACTGTATTGAAGGTTGAGCCTACAGCGCTCTACAAGCCTCACCTTGACGCCTCTAAAAGTTTCGGTGTACAGCTCCTGAAAGATTCCAAAACCGTACAGAAATATATCAGCAACGGAAAATTCCACAAAATAAAAAAATCAGGAAAAGGATATCAGGTTCAGAAACTGGATTACAGCAGGGCCTATATGGTATCCAAAGGTAAAATAACACTGGAGAAAATAGGTTCCAAATTCAGTAAGGATACAAAAGGCGGTACATTCACCGTTTCATCTGTCACTCGCACTCTTGAAGACCAGTGCAGATTGAGAAAAGTGAACTCTAATGCCTCTCTAGGGATTAGTTCTCATAATTATGGTAATTCTTTTGATATTTCTTATATAAGGTTCAACAACGTTCTGAAGTACAATCCCAAAATGGAAGCAGCACTTGAAAAGGTTTTGAAATATTACGAGAAAGCCGGTAGAATCTATTATATTAAAGAGAAGCAGCAGAGCTGTTATCATATTACAGTGAAAAATTATTAA	MRKFFCVVFVPFIYSLHYSQAAKKAFPCYDLSTVLKVEPTALYKPHLDASKSFGVQLLKDSKTVQKYISNGKFHKIKKSGKGYQVQKLDYSRAYMVSKGKITLEKIGSKFSKDTKGGTFTVSSVTRTLEDQCRLRKVNSNASLGISSHNYGNSFDISYIRFNNVLKYNPKMEAALEKVLKYYEKAGRIYYIKEKQQSCYHITVKNY				NA	NA	NA	NA	NA
BMS003_03615	780			hypothetical protein	ATGACAACATTAAACATTGTAGACTACATGCTTCCTGTGGAAGAATGTAGAGCAGCTTCCAATGAATGGAAGGCCTGCTTTTCCGATTTTTCTAAGCTGCAGAGCCTGATCCCTACCAATTATGTTTTTAACATCTCAAGAGAACATCTTGAATGGATGAAAGGATTCAGTAACTATAAAGACTTTTGTGCAGCAATAGGAGTGTACAACGAACGTTTGATTATGATCCTTTATCCAATGGATGACAAGGGAAGAAAAATAGACGTAAAAGAATATCCGTACAGCTTCCTTACCGAACTGGACAGAGACCTGAGGCTTCAGGAAATCCAGGAGTATACTGTTGTTAAAAATGCAGTTCTTTCCAAAGATCTTGAAAAAGCAGAAAAAGATTCCAATATGGCTTTCCCGGTTTCCAATGCGCCAATTCTTGAGCAGGATGTAGCAGTCAATGCAATTGAACGTTGGAGAAATGAAGGAATGGACTGGTTTTATAAAGAGTGCGGAGAAAATGAAGGAAACGGAATTTTTAGAAAATTCTATGTTCCTACAGCAGATCTTTGCCTTAATGATGAAGGGTTAACAGGTATTACCTGTTCTTTCGGGCTGAAATACAATGATATTTACGGGAAAATGCTGGTAACTCTTATTTTCATTTCTTTCCGTGAAAACCTTAAGAATGCGGAAGCAGGTGCAGAAACAATTTCAAATACATACGACTGGGCAAAACCATGTCCCCCTATCTGCCGTATACCGGATGTAGATGTAGGATGTGAATTTTAA	MTTLNIVDYMLPVEECRAASNEWKACFSDFSKLQSLIPTNYVFNISREHLEWMKGFSNYKDFCAAIGVYNERLIMILYPMDDKGRKIDVKEYPYSFLTELDRDLRLQEIQEYTVVKNAVLSKDLEKAEKDSNMAFPVSNAPILEQDVAVNAIERWRNEGMDWFYKECGENEGNGIFRKFYVPTADLCLNDEGLTGITCSFGLKYNDIYGKMLVTLIFISFRENLKNAEAGAETISNTYDWAKPCPPICRIPDVDVGCEF				NA	NA	NA	NA	NA
BMS003_03616	624			hypothetical protein	ATGGCTGAGATTTTTAAGGCAATTTTATTCCTGAACTATGCACTGCTTCTGTCTGTTATACTGCTGGGAGCAGCAAAATATCGCATATTAAATCATAAAGAAAAGCAGTATTTTTATTGTATTGCTTTTCTTTTTTTTATTGAACTGCTGAACCTGGCTTTGCCATACATTTTCAGACTTAATGATACATCATTTCTCTATCCTCTGTATATTGCCGGAGAGTTTTTTTTGCTGACGGGTTTATTCGTCAGAAAGCTGGACTGGCCAAAATCCGTGCTCTGGATTATAGGTATACTGGCAGGAGGGTTTATGATTTCAAAATATGGGTTCGATTATCCGGCTAATGCAGATATAGCAAAAGTAGTTTCCAATATCATGATCATCTGCCTTTCAGGATTTGTACTGATTCGCGAGATTAAAAATACATCTGCTCAGAATCAATTTCTTCTCGTAGATGCAAGTATTTTTTTCTACTATTCTGTTTCTGTGTTTATTTTTATTATCCAACATCAGATCGCAAATCTGTCAGAAAACGGTTATTATATTATTCTCAGTGCCAATAATATTCTTTCGAGTATTTTGTACTGTTCATTTTTATACACTTTTATCAGATTAAAGAAGTAA	MAEIFKAILFLNYALLLSVILLGAAKYRILNHKEKQYFYCIAFLFFIELLNLALPYIFRLNDTSFLYPLYIAGEFFLLTGLFVRKLDWPKSVLWIIGILAGGFMISKYGFDYPANADIAKVVSNIMIICLSGFVLIREIKNTSAQNQFLLVDASIFFYYSVSVFIFIIQHQIANLSENGYYIILSANNILSSILYCSFLYTFIRLKK				NA	NA	NA	NA	NA
BMS003_03617	633	degS		Signal transduction histidine-protein kinase/phosphatase DegS	GTGTTAGAAAACATCAAAGCACAGGAAGAAGAAAGAAAAAGGATTGCAGTAATGATTCATGATGACATCGGAAACCGGCTCAATATTCTTTCTTTATGGCTGAATAATCTGGATACACAAGGGGATGAGCAGATAAAAAAAAATATTTACAGTCAGATGTCTTCCCTGATAGACGCTGCCAGAAGTATTTCTCATTCATTATACCCTGTAAACCTGGAATCGGTGGGACTTGTTTTATATGTTGAAGAATTAATAGCCAACCTTTCCCATAAAATCAATATTTCCATGCAGGTAATGCCGGGATATGAAAAGAAAGATCTTTTTGTGGAAGTACAGCTGTACAGGATTATTCAGGAGTTTACAACCAATGTAATCAAGCATTCGGATGCTGCGGATATCTGGATCTATATAAAAGATTATCCTGAAAATATGGCAGTGGTAATTTCTGATAACGGACAGGGTTTTGAATATGAAGAAGTAAAAAAAGGAATGGGAATCAAAAACATAGAATCTCGTATCAAATCTATGAATGCAACACACAAATGGAAAAAAACTTTTTCGAATAAAGGAAGTCGTTTAATCATAAAAATTCCAAAACATCATGAGTTCCCAAATCAAACTAGCACTGATTGA	MLENIKAQEEERKRIAVMIHDDIGNRLNILSLWLNNLDTQGDEQIKKNIYSQMSSLIDAARSISHSLYPVNLESVGLVLYVEELIANLSHKINISMQVMPGYEKKDLFVEVQLYRIIQEFTTNVIKHSDAADIWIYIKDYPENMAVVISDNGQGFEYEEVKKGMGIKNIESRIKSMNATHKWKKTFSNKGSRLIIKIPKHHEFPNQTSTD				NA	NA	NA	NA	NA
BMS003_03618	678	degU	COG2197	Transcriptional regulatory protein DegU	ATGAGTTCCCAAATCAAACTAGCACTGATTGATGATGAACAGCTGATCCTAGAAGGGGTAAAAATGTTGCTGTCCAATGAAAAAAATATATCGGTCTGCCTTACTGCTGATAATGGCCCCGATTTTATAGAAGACCTCGGAAAACTTTCAAAAGATGAATTTCCTGATATAGCCCTCGTAGATGTTCAGATGAAGCCTATGAATGGTTTTGAACTGGTAGAAGTCCTGAAGGAAAAATATCCCGACCTTAAAATTATTATCCTGTCATCCCATTATAAAACCTCAATTCTCGGGTATATGGTTAAGCTGGGGGTGTCAGCTTTTCTTCCCAAAAACTCAAATAAGAAAACATTCATTGATGGTATCACAATGGTAGACAAAAATGGAGTTTTTTTCACGGCTGAAGATCATCAGATGCTGTTTACCTATATGAACAGCTCTGCCAAGAAAAATTCACTTTTTGAAACCGAAGACGAATTGTCCGAAAGAGAAAAAGATGTTGTAAAGCTTATCTGTCAGGAGTTTACCAATAATGAAATTGGAGAAAAACTCTTTATCAGCCCAAGAACAGTAGAAAGTCACAGACAGCGTATTCTCGAAAAAATCGGAGCCAAAAATACTGTGGGAATAGTTATTTATGCCATCGTCAATAATATTTACTCTCCTGAAAAAATATAA	MSSQIKLALIDDEQLILEGVKMLLSNEKNISVCLTADNGPDFIEDLGKLSKDEFPDIALVDVQMKPMNGFELVEVLKEKYPDLKIIILSSHYKTSILGYMVKLGVSAFLPKNSNKKTFIDGITMVDKNGVFFTAEDHQMLFTYMNSSAKKNSLFETEDELSEREKDVVKLICQEFTNNEIGEKLFISPRTVESHRQRILEKIGAKNTVGIVIYAIVNNIYSPEKI				NA	NA	NA	NA	NA
BMS003_03619	1341			hypothetical protein	ATGAATGGCAGAAGAGTGATTTCCGTTGGAATTTTCTTTGACGGTACAGGAAATAATGGGGTAAATATTCTTTCACCGGATAAACCACTGAACAATAACGAAAGCTATTATGGCACCTTCACCAATATCTATAAATTATACAGCTTATTTATTGGAGATGAAAAAATATATATCGAAGGAATTGGAACCGTAACGGGTAGTGAAGATAGTAATTTTGCAATGGCAACGTGTGCAAACCCTCCGTATGGAAACGGATATTCTTCTGATGATAAACTTCAGAAAGCAGGAGATTTTGTACAGAATATTGCTCAGGATGAAACAAAAGAATATCATTTCTACATTTATGGATTCGGGAGAGGAGGAATGCTGGCCAGAACTTTCTGTAATCAGCTTCTGACTTATTACGCTCTGGAAAACTGCAGAATAAAATTTTTAGGAATTTTTGACACTGTAGAATCCAAACCTTTTAATACTTATAATCTGAGTATCCCTTTTCAGGTAGAGAATGCTTTGCATATATGTGCTGTCAATGAAAGCAGGTTCTTCTTTCCGCTTACCGGTTTTTTTGAAAACTCGGGAACAATGCAGGATCAGAAATCAGAAAATCAGTCATCTGTCTGGAAAGAAATCTTTGTACCCGGAGATCATGCTGATATAGGAGGCGGATATCTGGAAGGCCCGCAGTCTGTCTATATTTCTACAGATTTCATTAATATTGAAGATTTGCAGAACTATATTTCAGATATCAGAAATGAAAAAATGAATGCTGACGGAAATAAAATCTGGAATGCATTGCTGTCAGAATATAGAATTGAAACAGTCAATGGCTTTTCACAGGCATATGTGTGCCGTGATAAAGTATACAATGACCTGTCAAAAGTATATGGAAAACTAATGATGGATGAGACCAATACGGTATTATCGGTTTTCAATACTGAAAATGAGGCCTATTTTGGAACAGACTATAATAAACATTTTTTGCTCAGTCGTTTTTACACCAAAATGAAGGAATATTTAAAAGATCTTTCTGCCAGTAAAAAACCGATATATGACCTTAGTCAATTTGCAGATTATATCCATATTTCATCAAACTTCGGTTTATACAGGAACAGTTTTCAGTATAGAACTCAGCAGGAAATTAATATTGAGCTGATCAATAACGGACTTAACGTATCAAGCAGTACCTCCGTAGATCAGACCAGCCAGACAAGACTTTCTGTAGAACTTCATTTGCCGGAAGACAGTTTTGTTGCAGACTTTCTCTACGGAACCAGTGTTCCCAATAATGATATCTGGGTTCGTACTATTCTGAAAACACCGGTAACCATTACCTCACATTAA	MNGRRVISVGIFFDGTGNNGVNILSPDKPLNNNESYYGTFTNIYKLYSLFIGDEKIYIEGIGTVTGSEDSNFAMATCANPPYGNGYSSDDKLQKAGDFVQNIAQDETKEYHFYIYGFGRGGMLARTFCNQLLTYYALENCRIKFLGIFDTVESKPFNTYNLSIPFQVENALHICAVNESRFFFPLTGFFENSGTMQDQKSENQSSVWKEIFVPGDHADIGGGYLEGPQSVYISTDFINIEDLQNYISDIRNEKMNADGNKIWNALLSEYRIETVNGFSQAYVCRDKVYNDLSKVYGKLMMDETNTVLSVFNTENEAYFGTDYNKHFLLSRFYTKMKEYLKDLSASKKPIYDLSQFADYIHISSNFGLYRNSFQYRTQQEINIELINNGLNVSSSTSVDQTSQTRLSVELHLPEDSFVADFLYGTSVPNNDIWVRTILKTPVTITSH				NA	NA	NA	NA	NA
BMS003_03621	735			hypothetical protein	ATGGAAAAGACACTGATTCAAAGATCTGGAACTACGATATATTCAATTAATTTTGATTTTACATCAGCAGATCAAAAACAAATTTTACAAGACCTGCAGGCAAATAACTATCAGTTAATAGGATTCAAAGGAGCCAAAGGTTCCAATCAGATTACTTCAGGAGTACCGGCCTGGTTTGCTATGAACTTTACGGAAATGTTTGGTATGACAGAAATAGATTGTGAACCGAAATATAAAGTATATGTTTTAAATAAAGATGTTATTCAGCCTGATACAACCATCCAGATGCAGTTATTATCACAGGAAATTCCTTTAGAGACATCTTTAACTTTCCATCCGGACGGAACGTTTTCGGAGGAAGGAAAAGCTCATGAAGGAGTCATTACTGTAAGAAACGAAAGACCGGTAGGTTCTTCTGACGTTACAATAGGGCTTGCTGCAAAAATAAATGGGGTATATCAGCCTTTCTGTGCATTTAGATGTAATTCTCAGGGACAGGTAGATATAGAGCCTAATGAAAATATTGTTTTATTTGCAGCTCAGGCCAATATGCGTTCCGGATCTGTTATCAGCAATGCTACAAAACCGGGATGCAGATTTACGTTCAGTGCTGAACATATGGAATATGATTTACAGATAGTACCCGGTACATATGGAATAACAAATATTCCGCAAAGCACCTCTGTAGAGAATATATCTTCGGGGCAGTCATTGATACAGCTTGTCAATAAATAA	MEKTLIQRSGTTIYSINFDFTSADQKQILQDLQANNYQLIGFKGAKGSNQITSGVPAWFAMNFTEMFGMTEIDCEPKYKVYVLNKDVIQPDTTIQMQLLSQEIPLETSLTFHPDGTFSEEGKAHEGVITVRNERPVGSSDVTIGLAAKINGVYQPFCAFRCNSQGQVDIEPNENIVLFAAQANMRSGSVISNATKPGCRFTFSAEHMEYDLQIVPGTYGITNIPQSTSVENISSGQSLIQLVNK				NA	NA	NA	NA	NA
BMS003_03622	171			hypothetical protein	ATGAAAGTTTCAGAATGGCTTACAAAAGCAAATAAGCTTTCAGATACCTGCAAATATCAGATCAATGTTAAAAATGGAAGCAAATCCATTACAATGCCTGAAGCTACTTTTGTAGAAATGATTGCCGTGGTAGAAGCAGGGCAGAAAACATCACCGCTTACTCCGAGATAG	MKVSEWLTKANKLSDTCKYQINVKNGSKSITMPEATFVEMIAVVEAGQKTSPLTPR				NA	NA	NA	NA	NA
BMS003_03623	1929	yheS	COG0488	putative ABC transporter ATP-binding protein YheS	ATGCTTTCGGTTCAAAGTTTAGGATTACATCATTCAGGAAATTACTTATTTCAAAATGTCAATTTTACCATCAAAAAAGATGATAAAGTTGGTCTCGTAGGAAAAAATGGAGCGGGAAAATCCACTTTATTGAAAATGCTGTCCGGAGAAATTAATTTCTACGAAGGTGAGGTTGTAACCGAAGGAAGTATTACCATTGGTTTCCTTAAGCAGGATCTGGATTTTGTAAAAGGAAGAACGGTATGGGCAGAAACCATGCAGGCTTTCGAGCAGATCAATACCTGGAAAAATGAGCTTGAAGAGGTAAATCACCAAATGACGGTGAGAACAGATTACGAAAGTGATTCCTATACGGACCTTATTAATAAAATGACCGAACTGAATGACCTTCTCATGAACCATGATGCCTACAATCTTGAAGGTGACATGGAAAAAGTATTATTCGGTTTAGGGTTTAAAGCAGATGATTTTCAAAAAATCACCGATGAATTTTCCGGAGGATGGAGAATGAGAATAGAGTTGGCAAAATTACTTCTTCAGAAGAATGACATTATGCTTCTCGATGAGCCTACCAACCACCTTGATATGGAATCCATTATCTGGCTTGAAAACTTCCTGAAAGACTATCCGGGAGCCATTGTTCTGGTAAGTCACGATAAGCAGTTTATGACAGCGGTTTGTAACCGTACCTTTGATATCAACAATAAAAAAGTTGACGACTATAAAGCCAACTATTCCAAATATCTGATCATGAGAGAAGATCGCCGCGAAAAACTGATTCAGGCTAAAAAGAATCAGGATGCGGAGATCAAGCAGATGGAAGACAATATTAATAAGTTCCGTGCAAGTGCTACCAAAGCCTCTTTTGCACAATCCCTTATTAAGAAATTAGATAAGATAGAACGTATTGAAGTGGATAATGAAGACGTTTCAAAATTCAATATCCGTTTTGTACAATCTATGGTTCCGGGGAAAGTGATCTTTGAAGCGGTAAATCTTGGAAAAGCTTATGGACTGAAACAGATTTTTGATGATGTAGATTTCATTGTTCAGAGAGGAGACAGAATTGCTCTTTTGGGACAGAATGGCCAGGGAAAAACAACGTTAGCCAAAATTTTAGCAGGAGATATCAAAGATTATTCAGGAACATGGAACCTTGGGCATAACGTTAACATCGGATATTTCGCTCAGAATCAGGAAGAAGTTTTAACTCCTAATAAAACAGTGCTGGAAGAAGCAGAAGATGCTGCAACAGAAGAAACAAGACCTAGAGTAAGAGACCTCTTAGGATCTTTCCTTTTCCAGGGAGATGCTGTTACCAAGAAAACGAAGGTACTTTCCGGAGGAGAAAGAAACCGTCTGGCACTTTGTAAATTGTTGCTTCGTCCTTTCAACACACTGATCATGGACGAACCTACCAACCACCTTGACATCCAGTCTAAGGAAATTATCAAGCTGGCGCTGCAGAATTTTGAGGGAACTTTAATTGTGATCTCGCACGACAGGGAATTCCTTCAGGGGCTTTGTGATAAGATCTACGAATTCCGTGACGGAAAAATGAAAGAATTCCTTGGAGATATCAATGAATATCTGGAATACAGACAAAAGGAAACCATCAGAGAAATTTCTGCAGAAAAAGCAAAGCTGCATAACGAAGTAAAGGCAGAACCTAAAAAAGTGGAAGAAAAAACTGTTGTGAGCACCAGCCAGTCTTCAAATATTGTAAGCAAAGAACAGAAAAATATTCAGAATAAAATCAAAAAAGTAGAAGAGAAAATTTCCGAACTTGAAACAAAAGTAGAGGAAATGGAAGCCTTTTTTGCTAAAGAAAATCCTTCTGAAGATACCTTAGAGCAATACAATAAAACTAAGGAAGAGCTGGATACAGCTTTACAGGAGTGGGAATATCTTGGAACACAACTGGATTAA	MLSVQSLGLHHSGNYLFQNVNFTIKKDDKVGLVGKNGAGKSTLLKMLSGEINFYEGEVVTEGSITIGFLKQDLDFVKGRTVWAETMQAFEQINTWKNELEEVNHQMTVRTDYESDSYTDLINKMTELNDLLMNHDAYNLEGDMEKVLFGLGFKADDFQKITDEFSGGWRMRIELAKLLLQKNDIMLLDEPTNHLDMESIIWLENFLKDYPGAIVLVSHDKQFMTAVCNRTFDINNKKVDDYKANYSKYLIMREDRREKLIQAKKNQDAEIKQMEDNINKFRASATKASFAQSLIKKLDKIERIEVDNEDVSKFNIRFVQSMVPGKVIFEAVNLGKAYGLKQIFDDVDFIVQRGDRIALLGQNGQGKTTLAKILAGDIKDYSGTWNLGHNVNIGYFAQNQEEVLTPNKTVLEEAEDAATEETRPRVRDLLGSFLFQGDAVTKKTKVLSGGERNRLALCKLLLRPFNTLIMDEPTNHLDIQSKEIIKLALQNFEGTLIVISHDREFLQGLCDKIYEFRDGKMKEFLGDINEYLEYRQKETIREISAEKAKLHNEVKAEPKKVEEKTVVSTSQSSNIVSKEQKNIQNKIKKVEEKISELETKVEEMEAFFAKENPSEDTLEQYNKTKEELDTALQEWEYLGTQLD				NA	NA	NA	NA	NA
BMS003_03624	357			hypothetical protein	ATGATTTTTAAAGAAAGCAGAAACCTAAAGAGTTTTATCTCCAAGCTGTTGTTTGGAGTATATTTCCTTGCGCTGCTTTCTCAAAGCTTTCACCACCATGATTCGGTAGATTATTTTAAGGCTTTTCATCTTAAAAAAGTCGAGAATACAGTGACAAAAGCAATTACTAAAGAGAAAGCTGGCGACTGTCTGGCCTGCCACTTTTTGGTTACCGGGCAAACATTAGCTCCTGAAGAATTCAATTTTACTTTTGAGCATTACAGCCATGAAGTGAAACAAATCATCGCCATTCAGGAGAAAATCTGGTCACAGACCAAATTTACTTTTCAGCTTCGGGGACCACCTGCACTTGCATAA	MIFKESRNLKSFISKLLFGVYFLALLSQSFHHHDSVDYFKAFHLKKVENTVTKAITKEKAGDCLACHFLVTGQTLAPEEFNFTFEHYSHEVKQIIAIQEKIWSQTKFTFQLRGPPALA				NA	NA	NA	NA	NA
BMS003_03625	2394	btuB_14		Vitamin B12 transporter BtuB	ATGAAATTGATATATTGCCTGCTGCTGATCTTTTGCGGATCAGTATTTACAAGTGCACAAAAAACTTATACTGTAGAAGGAACCGTTCATGATTTTCATGATAAAACACTGCTGGAAAATGCAGTGATCAAAATCGGGAACTTTACAGCCAAAACAAACAATAAAGGTCAGTTTTCTTTTGACAAAATTCCTGCAGGAAAGTATACTCTCATTGCTCAGCATCCTGATTGTGATGATTATACTGAAAATATAGGAGTTAATCAGGATGTACATCTGGTGATTACACTGGAGCATCACGTCAAAGACATCGAAACCGTGACCGTTCACGGAAGCCATAAGAACAATGGAAGCATGGTGGTGAAAACCCTTGATAAATCTATGCTTTCAAGAAATGTTTCCGAAAATTTGGGAAATTTATTAACCAATATTTCCGGTGTTAACGTTCTTAAAACAGGAAATAATATCGCTAAACCTATTATCCATGGACTTTATGGAAGCAGGGTTTCCATCCTTAATGACGGGGTAAAACTTGCCGAACAGGAGTGGGGTGTAGAGCATGCTCCCAATGTAGATGTTAATAATTTTGAACATATTGATGTCATCAAAGGAGCATCTGCTTTGAAATATGGAGCCGGAGCAGTAGGAGGCGTGGTTGTTTTGCAGCCTCAGGTTTTACCTAAGAAAGATACCCTCATGGGAAATGTTTCCCTTTCCGGAATTTCAAACGGGCGAGGAGCTGATCTTAACGTAAAGCTTGCAAAAACATGGGAAAATGGCTGGGCTATCAAAACCAATGGAAGCTATAAAAAACTTGGGGATCTTGAAGCTCCGGATTATGGCTTGATGAATACCGGGATTGAGAGTTCAGGATTTAACTTCGGGGTACAGAAAATGACATTTGAAAAAGGTTTTTCTTTTGATTATTACCTGACCAAAAGCACCGTAGGGATTCTTAGAAGTTCTCACGTAGGGAACTCTGAAGATCTGCGCAATGCACTTACATCGCCGGAACCAATCTATCAGAGAGATTTTAGTTATGATATTGATAATCCTAAACAGGAAATTGAGCATCATATTGCTAAAGTTTCGGCTTACAAGAGGTTTGAAAATTTTGGGAAAATAACGGCTACTTACAGCTTCCAGTACAATCATAGAAAAGAATATGATATCAGACGTACAGAAGCTTTGAGTAAAAAACCGGCATTGGATCTTGAACTGATCACCAATGATCTGAATGTGAACCACCTGATAGAAAGAGGAAACTGGAATCTTGAAACAGGAATTAATGCAGGGTATCAGAACAACTATTCCAGTACACAGACCGAGGCAAGACGTCTTGTTCCGAACTATGACAGATATTATGCAGGAATTTATTCCGTATTAAAATATAAAATTGCGCCCGAACTGGATCTTGAACTGGGAGGCAGATACGATTATGATCATTATGATGTGACAAAATGGTATGATCTGAGTGACTGGAACAAGACCTATGCTGCAGATTATCCGGATTTTGTAGTAAGAATAAACCAAAACAGAATTCTTACCAAGCCATCATTAACCTATAATAATATTTCAGTAAACGGAGGAATCGTGTATCACCCATCCGAATATTTTAACCTGAAATTTAATTATGCCAGAGTTTCGAGGTCTCCGAATATTGCAGAGCTTTTTGCAGATGGACTTCACCATTCTGCAGCTATTATTGAAAGAGGAGATATGAGAATGAAAAGTGAAACCGGAAATCAGTTTAATTTAGTGGCTGACGTTAAAGCGAATGTCCTAAAAGGATTGAATATTTCGGTAAACCCTTATTTCTTTTATACGCAGAACTTTATCAACCAGATTCCTACAGGATATCAGAATACCCAGTGGGGAGGCGCTTTTGTAGTATATAGCTACCAGCAGATCAATGCAAAAATGTATGGATTGGATATTGATGCTCAGCTTAAAATTACAGATCATCTGACTTACAAAGGAAGCGGATCTTACGTTTATGGACAGGATCAGACTCATGATGTACCGCTTATTCTGATGATGCCGCCGAATTTTAATAATTCATTGGAATTCAATAAAAAAGAATGGAAAAATTTCTATTTCACTGTAAGCAACAATACATACCTGAAGCAGACAAGATTTCCGGTTTATAACGTTCCTATCAGATTATTCGATTCGGACGGTAATCCTTACAATGAAGAAGTAGATATCTCTACACCTCCCAACGGATATTCGCTTTGGAACCTTCAGACAGGGGTGAATCTGTCTAAAAATTTCGGAATTGATTTTTCAGTTCGAAATGTATTCAATACGTCTTACAGAGATTATCTGAACAGACTTCGTTTCTTTTCCAACGAAATGGGAAGAAACTTTATTTTAACTCTTAAATATCAATTTTAA	MKLIYCLLLIFCGSVFTSAQKTYTVEGTVHDFHDKTLLENAVIKIGNFTAKTNNKGQFSFDKIPAGKYTLIAQHPDCDDYTENIGVNQDVHLVITLEHHVKDIETVTVHGSHKNNGSMVVKTLDKSMLSRNVSENLGNLLTNISGVNVLKTGNNIAKPIIHGLYGSRVSILNDGVKLAEQEWGVEHAPNVDVNNFEHIDVIKGASALKYGAGAVGGVVVLQPQVLPKKDTLMGNVSLSGISNGRGADLNVKLAKTWENGWAIKTNGSYKKLGDLEAPDYGLMNTGIESSGFNFGVQKMTFEKGFSFDYYLTKSTVGILRSSHVGNSEDLRNALTSPEPIYQRDFSYDIDNPKQEIEHHIAKVSAYKRFENFGKITATYSFQYNHRKEYDIRRTEALSKKPALDLELITNDLNVNHLIERGNWNLETGINAGYQNNYSSTQTEARRLVPNYDRYYAGIYSVLKYKIAPELDLELGGRYDYDHYDVTKWYDLSDWNKTYAADYPDFVVRINQNRILTKPSLTYNNISVNGGIVYHPSEYFNLKFNYARVSRSPNIAELFADGLHHSAAIIERGDMRMKSETGNQFNLVADVKANVLKGLNISVNPYFFYTQNFINQIPTGYQNTQWGGAFVVYSYQQINAKMYGLDIDAQLKITDHLTYKGSGSYVYGQDQTHDVPLILMMPPNFNNSLEFNKKEWKNFYFTVSNNTYLKQTRFPVYNVPIRLFDSDGNPYNEEVDISTPPNGYSLWNLQTGVNLSKNFGIDFSVRNVFNTSYRDYLNRLRFFSNEMGRNFILTLKYQF	PGPT0003790_10992	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
BMS003_03626	588			hypothetical protein	ATGAAAAATATTTTTAAAAATACGACTCTTATATTAGTACTTTTCTTTGCTGTAGCTTTAAGCTTAACATCTTGTAACAGAAGTGATGATGAAGCAGATGACCTTCCTCAGGAAGAACTTTCAGACGTTCTTTTAAGAGTAACGGATCAGGCTAGCCCTGATAATCATATTGTTTATGACTATCAGGTGAACAGCACTACGAATCCTAACGTTAAACTTATCAATGGTCATACTTATGATGTAGAAGTAATTTTCAAGAACGGTGATGAAGATGCTACTCAGGAAATTAAAGAGGCTAAAAATGAACACTTCTTAGTCTATAACTTTCCCAACTCTGATATTACATTAACCCGTACAGATGATGAATCTTCTACAAGAGGAGACGGAAGCCGTGTTGGACTAAAAACAAAATGGGTAGTAAATACAGCTGTGAAAAATGCTTCAGCGCCTACTCAGTTGGTTCTTACATTATTCCACGAGCCGGTAACGGTTTCTGAAGCTTCTGCGGTAAGCGGTAACGGAGTGATCTACGGAACTCATACAGGAGGTGAAACAGATGCACAGGCCAACTATAATATTATTAATTAA	MKNIFKNTTLILVLFFAVALSLTSCNRSDDEADDLPQEELSDVLLRVTDQASPDNHIVYDYQVNSTTNPNVKLINGHTYDVEVIFKNGDEDATQEIKEAKNEHFLVYNFPNSDITLTRTDDESSTRGDGSRVGLKTKWVVNTAVKNASAPTQLVLTLFHEPVTVSEASAVSGNGVIYGTHTGGETDAQANYNIIN				NA	NA	NA	NA	NA
BMS003_03627	1335	tig		Trigger factor	ATGAAGGTTACCGCACAAAACCATGATGATGTAAGTGCATTGCTTACAGTAACATTGGAAAAATCTGACTACAAAGAAAAAGTAGAGAAGCAGTTGATTAATTATGCTAAAAATGCGCAAGTTCCTGGGTTCAGAAAAGGGAAAGTGCCTTTGAGTATGGTTAAAAAACAATATGAAGCAGGTATTGCATTTGAAGAAATCAACAGACAGGTTTCAGATGCTTTAAACAACTATGTTAATGAAAACAAACTAAGATTAGTTGGTCAGCCTGTTCCTCAGCCAGTAAACGAACTAGATTACAATGCTGATCAATTAGAAGTTGCTTTCGAAGTAGGATATGAGCCTGAATTCACTATAGATTTAGCTAAATATGAAGCACCTCACTACAAAGTAGAAGCTTCTGACAAAGAAATCGGTAAGAGTATTGAAAACATGCAGAAGCGTTTCGCTGAGCAGGTTCCTCAGGATAAAATCACTAAGGATTCTTATATTGCTTTAGAAGTTTCTCAGGTAGTGGAAGAAGATGCTGAAGGAGAGCACCATCACCACCCAAAAAACCTTACCATTACAGCTGAAAACAAAGAAGCTTTCAAATTGGTAAAAGGTTTGAAAATGGAAGGTTCTGTAAAAGTAACGAAAGAAACTCTTGCAGGTGACGAAGAATTAGCTAAAGAATTAGGATTCAGCAAAGAAGAAGTTGAGCACCTACACCACAATGAAGTAGAAGTAAAAGTAAAAGATTTCTATTCATTAAACTTAGCTGAACTTAACCAGGAATTATTTGACAAAGTATACGGAGAAGGAAACATCAAGTCTGAAGATGAGCTTAAAGATAAAGTAAAAACTGAATTAGACGAGTACTTCCAGCAAAATGCTGATGTTCACTTTGTGAATAAAGTATTAGAGCAGGTAACTGAGAAAGAAGAAGTAAAACTTCCTGAAACATTCCTTGTGAAGTGGTTATTATTCTCTAACCAGAACATCCAGTCTGAAGCACAGGCTAAAGAAATTCTTGAAGCTGAGAAAAACCAGTTGAGATACCAGATCATTGAAGGTAAACTGATGACTGATAACGAAATCAATCTTGACTATGCTGATGTATTGGCTCAGGCTGAGCAGTTGGTGAAAAACCAATTGGCAATTTACGGAATCCACCACTTAGGGGATGAAGAAATCCAGAAATACGCTGTTGAGATGTTGAAAGACCAGGAGCAGGTAAGACAAATTTCTTCTGAAGTAGCAATGGCTAAACTGAAAGATGTAATTCTTGAAAAAGCCAGCAAAAAAGAAACTAAAATTTCTCACGACGAATTTTTAGAAGAACTTAAGAAATAA	MKVTAQNHDDVSALLTVTLEKSDYKEKVEKQLINYAKNAQVPGFRKGKVPLSMVKKQYEAGIAFEEINRQVSDALNNYVNENKLRLVGQPVPQPVNELDYNADQLEVAFEVGYEPEFTIDLAKYEAPHYKVEASDKEIGKSIENMQKRFAEQVPQDKITKDSYIALEVSQVVEEDAEGEHHHHPKNLTITAENKEAFKLVKGLKMEGSVKVTKETLAGDEELAKELGFSKEEVEHLHHNEVEVKVKDFYSLNLAELNQELFDKVYGEGNIKSEDELKDKVKTELDEYFQQNADVHFVNKVLEQVTEKEEVKLPETFLVKWLLFSNQNIQSEAQAKEILEAEKNQLRYQIIEGKLMTDNEINLDYADVLAQAEQLVKNQLAIYGIHHLGDEEIQKYAVEMLKDQEQVRQISSEVAMAKLKDVILEKASKKETKISHDEFLEELKK				NA	NA	NA	NA	NA
BMS003_03628	687			hypothetical protein	ATGAAAAAGATCATTATTCCGTTTTTCTGCGCTGTGCTTTTTTCAGTACCTGCTGCTGCTCAGAAGAAAGCGGCCGCATCTGCTAAAACAGAAGCTGTAAAATCAAAACTGACACCTAAAGAGGTTGTTGATAATTATTTCAAAGCACTGGGTGGGAAAGATAAATTAGAAGCTGTAAAATCTACCATTACGGATAATACAGTTGCTGTACAGGGAATGGAAATCCAAATGACCACTAAGAAATTAGGAAATAAATTCAAATCTGTACAATCTTTCATGGGGAAAGAAATGGTTCAGCTTTTTGATGGAGAGAAAGGATATTTTGATCAGATGGGAACTAAAACAGATATTCCTGCGGATAAAATTGCTGACCTGAAGAAAGGCAAACCCATAGATGCTTTAGCTTTTGACCCTTCTAATTTCCAGGCTGTTTCTACAGAAAAATTAGACGGAAAAGACTATAATGTTCTGTCTTCAGACAAAGGGAAGTTTTATTTTGATGCCGGAACCGGACTTTTGTACAAAACAAATGCAGGGGAAGGAAATGCAACGATCAAAAGTTATATGACAGTAGACGGATTACAGTTTCCTGCTGAAGTAGATGCCGAAGGAGGAGGTCAGAAAATGACCATCAAAACAACCAAAGTGGTCATCAACTCCGGAGTTACGGATGCTGATTTTAAATAA	MKKIIIPFFCAVLFSVPAAAQKKAAASAKTEAVKSKLTPKEVVDNYFKALGGKDKLEAVKSTITDNTVAVQGMEIQMTTKKLGNKFKSVQSFMGKEMVQLFDGEKGYFDQMGTKTDIPADKIADLKKGKPIDALAFDPSNFQAVSTEKLDGKDYNVLSSDKGKFYFDAGTGLLYKTNAGEGNATIKSYMTVDGLQFPAEVDAEGGGQKMTIKTTKVVINSGVTDADFK	PGPT0001280_4	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS003_03629	585			hypothetical protein	ATGATTCAGATAGACGATAAATTGATTTCTGAGGAAATTTTTTCCGAAGAATTTGTTTGCAACCTTACGAAATGTAAAGGTGCATGTTGTGTGGAAGGAGATGTAGGAGCTCCTTTGGATAAAAATGAGCTTGAGATACTGGACAGTATTTTTGATAAAATAAAGCCTTACCTTACCCAGGAAGGAATAAAAGCCCTAGAAGAACAGGGTACATGGACTACTGACCCACACGACGGAATGTATGTTACTCCTATGGTGGAGGACCGTGAATGTGCTTATGTAACATTTGATGAAAAAGGAATTACCAAATGTGGTATTGAGAAAGCATATGAAGACGGTGCTGTAGACTGGCAAAAACCTATTTCGTGTCATCTTTACCCAATTCGTGTTACGGAATATTCTGCATTTACTGCTTTGAATTATCATGAGTGGAATGTATGCAGCGATGCCTGTACACTTGGGAAGGAGCTTCAGGTTCCTGTTTATAAGTTTTTAAAAACTCCATTGACAAGAAAGTATGGTGAAGAATTTTATACTGTTCTGAGCGAAGCCGCAGAAGAATGGAAAAAAGAATATGGTTCTTAG	MIQIDDKLISEEIFSEEFVCNLTKCKGACCVEGDVGAPLDKNELEILDSIFDKIKPYLTQEGIKALEEQGTWTTDPHDGMYVTPMVEDRECAYVTFDEKGITKCGIEKAYEDGAVDWQKPISCHLYPIRVTEYSAFTALNYHEWNVCSDACTLGKELQVPVYKFLKTPLTRKYGEEFYTVLSEAAEEWKKEYGS				NA	NA	NA	NA	NA
BMS003_03630	906			hypothetical protein	ATGTTTAAATTACTTTCAAAAGAAAGCAATATTTTTTCAATTCCTGTTTATATTGGTTTTCTTCTTTTAGTAGTAATAATATTTAACATACTGAATTTCAACACCTATGAAGCTATAGTTGCCGGAATAACTTTTCTGGGAATTGCTTTAGGATATTTTTGTTTTCACAGTATTGCTCTTAATTATCAGACTCATGTTCCTTTATTCTTATATACTTTTTTCATTTTCGGGCTGTATCCCGGCAATCTGGATATAGGAATTGCCGTTTCACTGCTTACCAATTCTTTTCTCCTGCTGCTTCTGACAAGTGCGGATGAAGATATCAGGAAGAAGTCTTACGTGCTCGTGGGGTCTATTGTAGCGCTGAACTTCATTTTTCTTCCGACAACCTGGCCTATGGCTGTTTTTGTGATTATTCACGTGATTGCAACTTCTGCCAAAATCACCCTGAACCTTTTTAGATTCCTGCTGGGAATTGTGTTGATTACATTCAGCTATTTTTCTGTCATGTATTTCATACAGTTTACTTCATGGAATATAGATTATTTTCCTTTTGGAAAGATAAAGCCGGTAACGGATTATACAGAGCTTCTGCCACTCATTCCTGTGGTTATGATGCTTATTTATGCAGTATATGACCATTTTAAAAATTATAATAAGAAAAGCCCGATAAGCAGATACAAATATACGTTCCTGCTGGTCTTTTCTGCAGCACAGCTTGTCACTATCATTCTATATATGAATAAGAGCTATGAATACTTGCTTCTTCTGGCATTTCCATCAAGCATTATTCTGAGCAGAATGATGAAGTTTTTACCCAAATACTGGATGCGTGAAGCCAGTGTATGGCTTATTATTATTAGTTTACTCACCTTTAAAGCAGGTACAGTTTTTGATTTATTTTAA	MFKLLSKESNIFSIPVYIGFLLLVVIIFNILNFNTYEAIVAGITFLGIALGYFCFHSIALNYQTHVPLFLYTFFIFGLYPGNLDIGIAVSLLTNSFLLLLLTSADEDIRKKSYVLVGSIVALNFIFLPTTWPMAVFVIIHVIATSAKITLNLFRFLLGIVLITFSYFSVMYFIQFTSWNIDYFPFGKIKPVTDYTELLPLIPVVMMLIYAVYDHFKNYNKKSPISRYKYTFLLVFSAAQLVTIILYMNKSYEYLLLLAFPSSIILSRMMKFLPKYWMREASVWLIIISLLTFKAGTVFDLF				NA	NA	NA	NA	NA
BMS003_03631	234			hypothetical protein	ATGACGTCTTTCTTTCTATTCTTAAGCAAAGTTTTCAAATGGTCTTTCGGTTTCTTTGATGCTTTCGGTAATGTTTTAAACTGGATTCTATTTATAGTTTGCTGTGTACTGTTCACTTATTGGTGCTATGTACTGGTAGTTACCTTGGGTGGTGACAAAGATAAAGACTATTATTCTCCAACGGAAGGTAAGCACCCTTACTATGATCCGAATATCTACAAAAAAGAAGGTTAA	MTSFFLFLSKVFKWSFGFFDAFGNVLNWILFIVCCVLFTYWCYVLVVTLGGDKDKDYYSPTEGKHPYYDPNIYKKEG				NA	NA	NA	NA	NA
BMS003_03632	438			hypothetical protein	ATGATAAATATTGTATTACCCGTAGATTTTGGGGACAAGACAGACCAACTGGTAGACGGTGCCATAAAATTTGCAAAACAGCTTAACGGCAGAATTTACCTGATCCACGTAGCTCCATCAGATATTGGCTTTGCTATTGGTGATATGGGATTTCAATATTTTCCTGAAGTGGAGGCCAACGAAATCAGAGAAGAACTGGTACAGCTTAATAAAATTGAGCAAAGAATCATCGGTCATGATATTGATTGCGAGCATCTTCTGAAACAGGGACTTGCCAAAGATATTATTCTGGAACATGCAAAGGAAAAAAATGCAGATTATATTGTGATGGGATCACATGGCAGAAGCGGAATCTATGATGTATTCGTGGGAAGTTTAACAAAAGGAATTACGAAAAGTTCTACTATTCCTGTTCTTGTACTTCCGATTCACGACTAA	MINIVLPVDFGDKTDQLVDGAIKFAKQLNGRIYLIHVAPSDIGFAIGDMGFQYFPEVEANEIREELVQLNKIEQRIIGHDIDCEHLLKQGLAKDIILEHAKEKNADYIVMGSHGRSGIYDVFVGSLTKGITKSSTIPVLVLPIHD	PGPT0015026_38	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015026-nhaX-NA	NA	NA
BMS003_03633	606	ycgM	COG0179	putative protein YcgM	ATGAAAATAATCTGCATAGGAAGAAACTACAGTGAGCATGCCAAAGAATTAGGAAACGAAATTCCTGAGAATCCTGTTATCTTTATGAAGCCGGATACAGCCGTGCTGAAGGGAAATGATTTTTATATCCCTGAATTTTCAAATGATATTCACTACGAGCTTGAAGTGGTATTAAAAATCTCAAAGGGAGGAAAATATATCCAGGAAGAAACTGCACATAAGCATTATGATGAAATTGGGCTGGGAATAGATTTTACGGCCAGAGATCTTCAGAGTGAGCTAAAATCAAAAGGACTTCCATGGGAGCTTGCCAAAGGCTTTGACGGTTCTGCTGTGGTAAGCAGTTTTTTCAAAAAAGAGAATTTCTGTCTTGAAAATCTACAGTTTTCATTATTAAAAAATAAAGAAAAGGTACAGGATGGCAATACGAAAGATATGATGTTTAATTTTGATGATATTATTGCTTTTGCTTCCCAGTATTTTACCTTAAGAGTGGGTGATCTTATTTTCACTGGAACGCCAAAAGGGGTGGGAAAAGTAGAAGAAAATGATGTTCTGGAAGCTTATCTTGAAACGGAAAAAATTCTTGATATCCGAATATTATAA	MKIICIGRNYSEHAKELGNEIPENPVIFMKPDTAVLKGNDFYIPEFSNDIHYELEVVLKISKGGKYIQEETAHKHYDEIGLGIDFTARDLQSELKSKGLPWELAKGFDGSAVVSSFFKKENFCLENLQFSLLKNKEKVQDGNTKDMMFNFDDIIAFASQYFTLRVGDLIFTGTPKGVGKVEENDVLEAYLETEKILDIRIL	PGPT0001625_512	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001625-ycgM-K01557	NA	NA
BMS003_03634	561			hypothetical protein	ATGATCAAAAAAATTGGAAAAATTTTACTCATCATTATCCTTGGCTCTCTCGTTTTCATAACTGGAAAGTTCTTATTAGTATGGAAAAATGTTGAAGTTGATCACAGTTTGAGTCAAAAACCTATTTTTAAAGCATTTAATCAACAGAAACAGGCAACTCTCTGGGATACGCAAAGCGAAGACAGTAAAAGCAATAATTTCAAAATAAATGCTGACAGTACAGATCTTGAATATTATAGTTGTTATATTAGCAGAAATCCAACACTGAACATTACATTTTCTGTTGGAGATGGTTTTAGCGGAGGGGGCTATCAAATCGATATTTTCCGGAACCGATATAAAGTTTCACCCTATTCTTACACAGATAATAGCAAGCCTTCTGATTTTCTGAATATGGGAGAATATTATAAGATTTTGGACAGTAAACTTATTCTGAATAAAGAATCTTATCAACAAGGAGACAGTATCTTCGGATATACCGAACTTAAAATCCAGGAAGGATACGATCCTGAAAAATACATAATAGAAGGAAAAGGATATTTTAAAGGTAAAGTAAATTAA	MIKKIGKILLIIILGSLVFITGKFLLVWKNVEVDHSLSQKPIFKAFNQQKQATLWDTQSEDSKSNNFKINADSTDLEYYSCYISRNPTLNITFSVGDGFSGGGYQIDIFRNRYKVSPYSYTDNSKPSDFLNMGEYYKILDSKLILNKESYQQGDSIFGYTELKIQEGYDPEKYIIEGKGYFKGKVN				NA	NA	NA	NA	NA
BMS003_03635	399			hypothetical protein	ATGTCTGATCTGGTTCGTTTTAAATTTTATGAGACTGCCCTTGAAGCAAACAGGGACAAGCAGATATTAGCCGAAAACGGTATTAACAGTTTCATTGCAAATGAGCAGCTCATCCAGTCGGATTGGCTTCTTTCACAGGCTGTAGGCGGCATACAGCTTCAGGTTTTTGAAGATGATATGGAAAAAGCCAGGCAGGTTCTGCAGGACTATAAAGACAATGAACAATACTCTCTGGAGGTAGAACATACCATTGAAGATCCTGAGTTTGATTTTGTCTGCCCGAAGTGTGGTTCCAATCATATTTACAGGGATGACAGTGCCACCAGCTTCTTTGGAATTTCTTTTCTGACGAGCCACAAATTCAAATGTTATTATTGCGGGAATGAATTCACGCATTAA	MSDLVRFKFYETALEANRDKQILAENGINSFIANEQLIQSDWLLSQAVGGIQLQVFEDDMEKARQVLQDYKDNEQYSLEVEHTIEDPEFDFVCPKCGSNHIYRDDSATSFFGISFLTSHKFKCYYCGNEFTH				NA	NA	NA	NA	NA
BMS003_03636	765	dinG_2		3'-5' exonuclease DinG	ATGAATTTAAAACTCCATAAACCGCTTTGTATTTTTGACCTGGAAACCACAGGAACCAACATCGGAAAAGACAGAATCGTTGAGATCTGTATCTTAAAAGTAAATCCGGATGCTTCCAGAGAAAGCAAAACATGGCGGGTAAATCCGGAAATGCCTATTCCTAAAGAAAGCAGTGAGATCCATGGGATCTATGATGAAGATGTAAAAGACGCTCCTACGTTCAGAGATATTGCTTCTAAAGTAATGGAGATGATTGCCGGAAGTGATTTGGGAGGGTTTAATTCTAACCGATTTGACGTTCCGCTTTTGGCAGAAGAACTTTTAAGAGTAGGAATGGATTTTGATCTGAGTAAATTCAGACTGGTAGATGCGCAGACTATTTTCCACAAAAAAGAACCCCGAAATTTGGGTGCAGCGTACCAGTTCTACTGTGGAAAGACATTGGAAAATGCACACTCTGCAGAAGCTGATGTAATGGCAACATTTGAAGTGTTGGATGCACAGGTAGGAAAATATGATGATATACCGAATGAAATAGCACCGCTAAGTGAGTTTACATTCCATAATAAGAATGCAGATCTTGCCGGATTTATCGGGTATAACGAAAAAATGGAAGAAGTTTTCAATTTTGGAAAATATAAAGGCCAGGGAGTGAAAACAGTATTCCAGAAAGATTTAGGATATTTCGGATGGCTTCAGAATGCTGATTTTCCGTTGTATACTAAAAAGATTTTTACAAAAATTCAACTTTCAAGCAGGTTTTAA	MNLKLHKPLCIFDLETTGTNIGKDRIVEICILKVNPDASRESKTWRVNPEMPIPKESSEIHGIYDEDVKDAPTFRDIASKVMEMIAGSDLGGFNSNRFDVPLLAEELLRVGMDFDLSKFRLVDAQTIFHKKEPRNLGAAYQFYCGKTLENAHSAEADVMATFEVLDAQVGKYDDIPNEIAPLSEFTFHNKNADLAGFIGYNEKMEEVFNFGKYKGQGVKTVFQKDLGYFGWLQNADFPLYTKKIFTKIQLSSRF				NA	NA	NA	NA	NA
BMS003_03637	714			hypothetical protein	ATGGATTTTATAAAAAATAATCTGGCCAATGCCTTAACCCTGGCTAACTTATTTGCGGGCTGTGTAGGTGTCATACATCTAATTTCAGGAGATTATCAGACAACTGCAATCTGCCTTATTCTCTCTTCGGTTTTCGATTTTTTTGACGGCTTTGTAGCCAGAGCAATGAAATCAAATTCCAATCTGGGACTTCAGCTGGACTCTCTTGCTGATATGGTAAGTTTTGGAGTAATTCCGGGGATTACCATGTATAAAGCGCTTGAACCATTTGGTACAGAGCTGCTGGGAATTCATCTTCCATTTGAGATCAGATATCTGGGGCTTATTGTTACTGTATTTTCATGCCTGAGACTTGCTATTTTCAATCTTGACGAAGAACAGCGTTATTATTTTAAAGGATTGAACACCCCTACGAACACCGTTTTGTTATTTGGGCTTTATTATGCCTTTAAAGAAACAGGAGCTTTTGGGGTTTTATTTAATAATGAACTGTTATTGGCTCTATTGACCCTTCTTACTTCATGGCTTCTGATCAGCCCGATCAAGATGATGGCCATGAAATTTAAATCCAGACAATTAAAAGATAACTATCCTAAAATTATATTACTGGTAGGAGGAATTGCTATTCTTGCGATATTTCAGATTGTAGGGATTCCTATGCTTGTTATTTATTATATATTAGTGTCTCTTATTTTTCAGGGACAGTTAAAATAG	MDFIKNNLANALTLANLFAGCVGVIHLISGDYQTTAICLILSSVFDFFDGFVARAMKSNSNLGLQLDSLADMVSFGVIPGITMYKALEPFGTELLGIHLPFEIRYLGLIVTVFSCLRLAIFNLDEEQRYYFKGLNTPTNTVLLFGLYYAFKETGAFGVLFNNELLLALLTLLTSWLLISPIKMMAMKFKSRQLKDNYPKIILLVGGIAILAIFQIVGIPMLVIYYILVSLIFQGQLK	PGPT0007695_2406	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
BMS003_03638	1929	ltaS		Lipoteichoic acid synthase	ATGAAATTTTTAAAAGGATTTAGAAGACAGGAAGTTCTGGTACTGGTTTACAGAATTTTCTTAGCCTATGTTTTTTATCAGATTGCCAGACTTTTATTCTGGTATTTTAATAAAAACCTGATTAATGTTGACTCCGTTTCAGAATATATAAAGCTGGCTTTCCATGGTACAGCCTTTGATACCACAGCTATTTTATATGTCAATGCCCTATTTATACTGCTTAGTTTACTGCCATTGGTAATCAATACGAAGAAAGTTTTTCAACACATTCTTTTCTGGTTGTATTTCATTACTAACGGGATTGCTTATGCCATGAATTTCGGAGACTTCATTTACTATAAATTTTCACAGGCAAGGCTTACTTCTGCAGTATTTCAGGTAGCAGAACACGAATCTAATGTTTCCAAAACGCTGATGATTTCTGTAGGAGAACATCCTTTTGTGTTGATTTGGTATATATTTTTGATGATTCTGTGGGTATTCCTTTACAAAAGAATAAAAGTAAAGGAAACAAAACCTGCGAAGCTGATTCCTTATTTTCTGATTTCCATTATTACCTTGTGTATTACAGCTGTATTGGTTGTGGGAGGGATAAGAGGAGATTTTAAACACAGTACAAGACCTATCAATATGGTGGATGCTACCCGTTTTGTAACGAATCCACTTCAGGGAAATATAGTGCTCAATAGTACATTTTCCTTTTTCAGAACTTTAAATACCAATAATTTTAAAGTGGTTCATTTCGTAGATGAAAAATATATTGAAGAAAATGTACATCCATATAAAGTCTATGACAGAAAAGTAGAGAACCGCCCCAATATTGTTATTTTTATTGTAGAATCTTTCAGTAGGGAATATTCCGGCGCTTTTAACAAAGATAAGAATATCAAAGATTATGTGTCTTACACTCCGTTTATGGATAGTTTGGCCACACAGAGTCTTATCTTTCCTAATACTTTTGCAAACGGAAGACAGTCTATCCATGGAATGAGCAGTGTGTTGGCCGGAATTCCGAGTCTTACTGATGCATTTACGGGATCTCCTTATTCCAATCAGAAAATCCAGTCTATAGTTTCTGTGTGTAACGACCTTGGATATGATACCTCTTTTTATCATGGGGCACCTAATGGCTCAATGGGGTTCCTTGGATTTGGAAATATTTTGGGATTCAAACATTATTTCGGAAAAACAGAATATAATCATGATGAAGACTTTGACGGGATGTGGGCAATATGGGATGAGCCTTTTCTACAGTATTTTGCTAAAAATGTAGGGAAAAAACAACCTTTTATGGCTACCGTATTTACTGCTTCATCACATCACCCTTTTAAAATTCCGGAAAAATATAACGGGAAGTTTAAAAAGGGAAAACTGGACATTCATGAGCCTATGCAGTATACGGATTACGCCATCAGAAAATATTTTGAAACGGCTAAAAAGCAGCCTTGGTATAACAATACGATCTTTGTTTTCACAGGAGATCATACTAACCAGATATATTATCCGGAATATGAAAGAGCTATGAACCGTTTTGCCGTTCCATTGGTTTTGTATTCTCCGAATCCTGCATATCAGTTAAAAGGAGTGAGCCAGGAAATGGCACAGCAGGCAGATATCTATCCTACACTGGCTGACCTTATCGGGTACAACAAACCTATCCGAAGCTGGGGCAGAAGCTTGGTAAGTGATAAAAAGTATCCTTTCATCGTAGTAAACTCAGATGGAGGTACAGAGCAGTTCATGATCGGAAATTATATTTACCGTTTTGATGGAAAAGAAATCATTGGGGTATATGACAAATCAGACCTGAGTCTTGAAAAAAATATTATAAATGAAGCTAAAAATCCTGAAGCAGAAAAAGGAAAGCAAATCGCAAAAGCCTGGTATCAGGATTATATGGATAGGGTGATTAACCGAAAATTATATTAG	MKFLKGFRRQEVLVLVYRIFLAYVFYQIARLLFWYFNKNLINVDSVSEYIKLAFHGTAFDTTAILYVNALFILLSLLPLVINTKKVFQHILFWLYFITNGIAYAMNFGDFIYYKFSQARLTSAVFQVAEHESNVSKTLMISVGEHPFVLIWYIFLMILWVFLYKRIKVKETKPAKLIPYFLISIITLCITAVLVVGGIRGDFKHSTRPINMVDATRFVTNPLQGNIVLNSTFSFFRTLNTNNFKVVHFVDEKYIEENVHPYKVYDRKVENRPNIVIFIVESFSREYSGAFNKDKNIKDYVSYTPFMDSLATQSLIFPNTFANGRQSIHGMSSVLAGIPSLTDAFTGSPYSNQKIQSIVSVCNDLGYDTSFYHGAPNGSMGFLGFGNILGFKHYFGKTEYNHDEDFDGMWAIWDEPFLQYFAKNVGKKQPFMATVFTASSHHPFKIPEKYNGKFKKGKLDIHEPMQYTDYAIRKYFETAKKQPWYNNTIFVFTGDHTNQIYYPEYERAMNRFAVPLVLYSPNPAYQLKGVSQEMAQQADIYPTLADLIGYNKPIRSWGRSLVSDKKYPFIVVNSDGGTEQFMIGNYIYRFDGKEIIGVYDKSDLSLEKNIINEAKNPEAEKGKQIAKAWYQDYMDRVINRKLY				NA	NA	NA	NA	NA
BMS003_03639	420			hypothetical protein	ATGAAAAAAATATTGTTAACGTTTGCGCTTTCTTTGTTCGGTGTGCTCTCATTTGCACAGATAGAAGGTAAGTGGAAAACCATAGATGACGAGACAAAACAGGCAAAATCCATTGTTGAAATATACAAAAAGTCAGATGGGAAATATTATGGAAAAGTTACTCAGCTATTGATAAAACCCGCTGATCCTAACTGTACACTTTGTAAGGACGACAGAAAAGGAAAACCTATTTTAGGTTTAGAGATCATCAGAGGACTGAAAAAAGATGATGATGAGTTCACCGGAGGAACAATTACTGATCCTAAAACAGGAAAAACATATAAATGTACCATTACAAGAAACGGTGATAAACTGAATGTAAGAGGATACATAGGTTTATCTTTATTAGGAAGAACCCAGGTTTGGGAAAAAGCTAATTAA	MKKILLTFALSLFGVLSFAQIEGKWKTIDDETKQAKSIVEIYKKSDGKYYGKVTQLLIKPADPNCTLCKDDRKGKPILGLEIIRGLKKDDDEFTGGTITDPKTGKTYKCTITRNGDKLNVRGYIGLSLLGRTQVWEKAN	PGPT0019995_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_DIHYDROFLAVONE_REDUCTION,PGPT0019995-CHI_like-NA	NA	NA
BMS003_03640	981	bfmBAB	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGGCAGAATATACTTTTCGTGAGGTAATTGCACAGGCAATGAGCGAGGAAATGCGTAAAGACGAATCCATCTACCTGATGGGGGAGGAAGTTGCAGAATATAATGGTGCATATAAAGCTTCAAAAGGAATGCTGGATGAATTTGGTCCAAAAAGAGTAATCGATACCCCGATTGCAGAACTTGGATTTACAGGGATTTCTGTAGGAGCGGCAATGAATGGTAACAGACCCATCGTAGAATTTATGACGTTCAATTTCTCATTAGTTGGAATTGATCAGATTATCAATAATGCAGCAAAAATCCGCCAGATGAGTGGTGGGCAGTGGAACTGTCCAATTGTTTTCCGTGGACCTACTGCTTCTGCAGGTCAGTTAGGAGCTACACACTCTCAGGCTTTTGAAGGTTGGTTTGCCAACTGCCCGGGACTTAAAGTGGTAGTGCCTTCTAACCCATATGATGCAAAAGGATTATTGAAAACCGCAATTCAGGATAACGACCCTGTTATTTTCATGGAATCTGAGCAGATGTATGGAGATAAAATGGAAATTCCTGAAGAAGAATACTACTTACCAATCGGAAAAGCAGATATCAAAAGAGAAGGTACAGATGTTACCCTGGTTTCTTTTGGTAAAATCATGAAGCTGGCTCTGCAGGCCGCTGAAGATATGGCCAAAGAAGGGATCTCTGTAGAAGTTATCGACCTTAGAACAGTTCGTCCTCTGGATTTTGATACCATCCTGGCATCCGTAAAGAAAACAAACAGACTGGTTATTTTAGAAGAAGCCTGGCCATTTGGTTCTATCTCTTCAGAAATTACTTATATGGTACAGCAAAAAGCATTTGACTATTTAGATGCGCCAATCAAGAGAATTACTACCCCTGATGCACCTGCACCTTACTCTGCAGCATTATTTGCAGAATGGTTCCCTAAACTTGAAAAAGTGAAAGAGGAAATCAAAAAAGCGATGTACGTAAAATAG	MAEYTFREVIAQAMSEEMRKDESIYLMGEEVAEYNGAYKASKGMLDEFGPKRVIDTPIAELGFTGISVGAAMNGNRPIVEFMTFNFSLVGIDQIINNAAKIRQMSGGQWNCPIVFRGPTASAGQLGATHSQAFEGWFANCPGLKVVVPSNPYDAKGLLKTAIQDNDPVIFMESEQMYGDKMEIPEEEYYLPIGKADIKREGTDVTLVSFGKIMKLALQAAEDMAKEGISVEVIDLRTVRPLDFDTILASVKKTNRLVILEEAWPFGSISSEITYMVQQKAFDYLDAPIKRITTPDAPAPYSAALFAEWFPKLEKVKEEIKKAMYVK	PGPT0019590_2241	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
BMS003_03641	1995	kup		Low affinity potassium transport system protein kup	ATGGCAGAAGTTACAGAAGATGGCTACCACTTTGACATAAAAAAACTTTCCTTCATAGGAGTTTTAGTGTCTCTAGGAATTGTTTTTGGAGATATTGGTACCTCTCCGCTTTACGTAATGAAAGCAATTGTGAATGCAAGATCCCAGGGGAGTAGTATGCCATTCAATGAATACATAGAAGGAGCACTTTCATGTATTATCTGGACCCTTACTCTTCAGACCACCTTCAAATATGTAATTATAGCCCTTAGAGCAGATAATAAAGGTGAGGGAGGGATTCTGGCTTTGTTTTCATTGGTAAGAAACCTTAAGAAAGGATGGCTGTATCTCATTGCAATCGTTGGTGCAGCAGCCCTTATTGCAGACGGAGTAATCACCCCATCACTGACGGTAATGTCAGCTATTGAAGGCCTTGAAATTTATAATCCGCACACACCTGTAGTACCTATTACCATCGGAATTCTGATTGCCATTTTTGTGGTACAGCAATTCGGAACCAGCTTTATCGGAAAATTTTTTGGTCCGGTAATGGTAGTTTGGTTTTTAGTATTAGGAGGTCTGGGAGTAACGCATTTAAGCGAAAATTTTGAGATTCTAAGATCTTTCAACCCTTATTACGCTTACAAGCTTATAGCCAATTCACCAAGTGCTATTGTGATCTTAGGAGCTGTTTTCCTTTGTACGACTGGGGCAGAAGCTCTTTATTCAGATTTAGGACACTGTGGTGCCAAAAATATCAGGGTAAGCTGGGTTTTCGTTAAGATTATGCTTATTCTAAATTATCTTGGACAGGGTGCATGGCTTTTGACAAACTACCATAAACCTGGATTCTCCGCAGTAAACCCGTTCTTTGGAATTATGGAAGAATGGATGATCATTCCGGGAGTAATTTTAGCAACAGCTGCTGCAATTATTGCCAGCCAGGCATTGATTACAGGTTCTTTTACCATATTCTCAGAAGCAATGTCTCTTAACCTTTGGCCCAATCAGAAAATTGATTACCCTTCCGGTGTCAAAGGACAAATGTATATCCCGAGAATCAACTGGGGACTCCTTATTCTATGTATCATTGTAGTACTTCATTTCAGGGAATCCGGAAAAATGGAAGCTGCCTATGGACTTTCCATTACCGTAACGATGCTGATGACAACCGTCCTGTTGGTATTCTGGCTACTGAAGCATAGAGTAAGCAAAGTGCTGATTTTAGTTTTTGCGTTAGTATATATGGCTATTGAGTTAGGTTTCTTCAGTGCTAATATCATCAAATTCATGGAAGGCGGATGGATTACCGTTGTATTGGCAGGTTCTATCGGAGTTTCTATGTATGCATGGTATAACGGACGACTGATCAAAACAAGATTTATCCAGTTTGTAAAAATTGAAAAATATGTGTCTATCCTTAAAGACATGAAACTGGATGAAACGATCCCGAAATATGCTACCAACCTGGCATACCTGAGCCGTGCCAAAAGAAATGATGAAGTAGAATCAAAAATTATCTATTCCATCATCAAAAAGCAGCCGAAAAGAGCAGATCATTACTTTATCCTGAGTATCGTAAACCAGGAAGATCCATATACTTTCAGATATACGGTAGATGAAATTCTTCCGGGGACTGTGTATAAGATCAACTTTCTTTTAGGGTTCAAGGTAGACCGAAGAATCAATGACTATTTCAATATGGTACTTAAAGATCTTATGGCAGACGGAACCATTCCTTCAAGAAGCAGCCACCCTTCTTTAAGAGCTCATGATATACCTCCGGATCTTAAATATGTGATCATAGATAATACATATATCAACGATATACTTTTAACTGTTAAACAAAAGATTATTCTTAACATTTACAACTTTGTGAAGTATATCGGAAGTGATGACTTTAAGGCTTGGGGGGTCTCTTCTCATAACGTTGAGGTAGAATCTGCACCCATTACAGAATTAACAGTTTATGATAATAAGATCGAGCAGTCCGGGTATTTCCGTCACAACTCATAG	MAEVTEDGYHFDIKKLSFIGVLVSLGIVFGDIGTSPLYVMKAIVNARSQGSSMPFNEYIEGALSCIIWTLTLQTTFKYVIIALRADNKGEGGILALFSLVRNLKKGWLYLIAIVGAAALIADGVITPSLTVMSAIEGLEIYNPHTPVVPITIGILIAIFVVQQFGTSFIGKFFGPVMVVWFLVLGGLGVTHLSENFEILRSFNPYYAYKLIANSPSAIVILGAVFLCTTGAEALYSDLGHCGAKNIRVSWVFVKIMLILNYLGQGAWLLTNYHKPGFSAVNPFFGIMEEWMIIPGVILATAAAIIASQALITGSFTIFSEAMSLNLWPNQKIDYPSGVKGQMYIPRINWGLLILCIIVVLHFRESGKMEAAYGLSITVTMLMTTVLLVFWLLKHRVSKVLILVFALVYMAIELGFFSANIIKFMEGGWITVVLAGSIGVSMYAWYNGRLIKTRFIQFVKIEKYVSILKDMKLDETIPKYATNLAYLSRAKRNDEVESKIIYSIIKKQPKRADHYFILSIVNQEDPYTFRYTVDEILPGTVYKINFLLGFKVDRRINDYFNMVLKDLMADGTIPSRSSHPSLRAHDIPPDLKYVIIDNTYINDILLTVKQKIILNIYNFVKYIGSDDFKAWGVSSHNVEVESAPITELTVYDNKIEQSGYFRHNS	PGPT0002720_2115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002720-trkD|kup-K03549	NA	NA
BMS003_03642	474	fur	COG0735	Ferric uptake regulation protein	ATGGATACAGTACAAAAAGAAAAAAATATAGCTTTGATCAAGGATGTTTTGAGAAACTACTTATTAGAAAAAGGGTTCAGAAACACACCTGAAAGATATACCATACTGGAAGAGATTTATAATATGGATCATCACTTCAACGTTGATGATCTGTATCTTCTGATGATGCAGAAAAAATATCATGTCTCCAAAGCAACGATTTACAACACGATTGAAATTTTCCTTGATGCAGGCCTTATCCGTAAGCATCAGTTCGGAGAAAAAACATTGACCTCTTCATCTTATGAAAAGTCTTATTTTGATAAACAGCATGACCATCTGGTGATCTATAAAAAAGACTCTGACAAAGAGATTGAAGAAATCATTGAATTCTGTGACCCAAGAATCCAAGGAATCAAAGAAGCCATTGAAGAAGCATTTGGCGTAAAAATTGATTCTCATTCGCTATATTTCTATGGCACTAAGAATGACTAA	MDTVQKEKNIALIKDVLRNYLLEKGFRNTPERYTILEEIYNMDHHFNVDDLYLLMMQKKYHVSKATIYNTIEIFLDAGLIRKHQFGEKTLTSSSYEKSYFDKQHDHLVIYKKDSDKEIEEIIEFCDPRIQGIKEAIEEAFGVKIDSHSLYFYGTKND	PGPT0003880_845	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS003_03643	1740	lptD_2		LPS-assembly protein LptD	ATGAGAATAATCCTTTTTCTGTTAATCTTTATTTCTACGCTAAGTTTTGCGCAGGATAAAACCCCTGTGAAGAGAGATCCGTATTTACAGACTCCTGCCCAGCCCACGCCGGTACAGGTAAGGCCTGAAGACAAAGTAAAGATCATCCACGCAGACGAAATTAAGAAAAATCCTGAAAAATATGACGGGAATCAATACTTTACCGGGAATGTTCAGATCGAACATCAGGGCTCCATTCTTACCGCAGATGAAGTGGTTTTGTATAATGAGGAAAACTTTGTAAAAGCTATAGGCAATACAAGACTTCAAAATACAGACGGCTCTGTAATCACAGCAGGAGAAATGGAATATGATGCCAACACCCAAAAAGGTGTTGCCAGAAAAAATGTGGTTTTAACCGATCCCAAACAAACCATAAAAACAGATATTCTGTATTATGACAGGCTGGCTAATCAGGCTTATTTTAATACAGGAGGAACAATTTCTGATGGTCAGAACGTAACCTACGCCAAAGTAGGAACTTATTTTTTGAATACCAGAGTAGTGGATCTTACCGGAAATGTAAAAATTGAAACACCTCAATACATCATAGAAGGGCCGAACATCAAACAAAATCAGAATACAAAAATTGCTGATTTCTTAGGACCTACAACCATTACCAGCAAAACCAATCCAAGAAACAGAATCTATACGGAAAAAGGAACCTATAAAATGGATTCCAAGGAAGCTTTTCTAACCAAAAACTCAAGGATCTTTTACAATGAAAAAATCCTTACCGGTGATGATATGTACTATAATCAGATTACAGGATTTGGTAAAGCAACAGGAAATGTAACCCTTGATGATCCCAAAGAAAGAAGATATATAAAAGGAGGATACGGAGAAATTTTTGAAAAGAAAGACTCTGCAATGATAACAAAAAGTCCATATGCCGTAAAAGTAATGGAAAAAGACTCCATCTATTTTGCTGCAGAAAAGATTATCTCTTATCAAAGACCGGACTCATTGGATATCAAAGTGAAGAAAAGCTATCTGAGAGCCTTTAAAAAAGCCCGCATTTACAAATCCAACGCACAGGGAAGAGCAGATTCCATTGCTTTCAATGAAACAGACGGAATTATGCATATGTATACCAGTCCGATTCTTTGGAGCGGCGAGAAGCAGGTAACAGGAGATAAAGTGGAAGCTTACTTTAATACCCAGACAGAAGATATTGACTCATTAAAAGTAATCGGAAATGCCTTTGCGATCAGTAAAGTAGATTCTCTCACCCTGAAAGACGAGTTCAATCAGGTAAAAGGGAAATTCATGACGGTTTACTATGAGAAGAATGCCATTAAAGAAGCAAGAGTTGTGGGGAATGCCCAGTCCATTGTCTATGTAGATGATACCGATCAGGAAACTAAAAAGCCGGAAAGAATAGGGATTACCCTTTCTACCTGCGGAATTATCGGAGCGTTATTTGAAGAAAGAGCTCTGCAGATTATTTCGTGCAGTATTGGTGCAGTTTCAGATACCTATCCTATGAGTATGATAGAGCCTTCGAAAAGGAAATTCCCGGATTTTAACTGGAATACCAAAGACCGGATCCGAAAGTGGCAGGATATCCTTGTAGATACCCCGAACAACGAAGAAATACAATATACCGCTGATAACGAGCTATTCGATAAAGCCCAGAAGGCAATAGATGACGAAAAAGCTAAAGAAGAAGCTAAAAAACCGAAGAGAGTAAGAAAATAA	MRIILFLLIFISTLSFAQDKTPVKRDPYLQTPAQPTPVQVRPEDKVKIIHADEIKKNPEKYDGNQYFTGNVQIEHQGSILTADEVVLYNEENFVKAIGNTRLQNTDGSVITAGEMEYDANTQKGVARKNVVLTDPKQTIKTDILYYDRLANQAYFNTGGTISDGQNVTYAKVGTYFLNTRVVDLTGNVKIETPQYIIEGPNIKQNQNTKIADFLGPTTITSKTNPRNRIYTEKGTYKMDSKEAFLTKNSRIFYNEKILTGDDMYYNQITGFGKATGNVTLDDPKERRYIKGGYGEIFEKKDSAMITKSPYAVKVMEKDSIYFAAEKIISYQRPDSLDIKVKKSYLRAFKKARIYKSNAQGRADSIAFNETDGIMHMYTSPILWSGEKQVTGDKVEAYFNTQTEDIDSLKVIGNAFAISKVDSLTLKDEFNQVKGKFMTVYYEKNAIKEARVVGNAQSIVYVDDTDQETKKPERIGITLSTCGIIGALFEERALQIISCSIGAVSDTYPMSMIEPSKRKFPDFNWNTKDRIRKWQDILVDTPNNEEIQYTADNELFDKAQKAIDDEKAKEEAKKPKRVRK				NA	NA	NA	NA	NA
BMS003_03644	909			hypothetical protein	ATGAAATTAGAATTTATAGTCTTGATCTTTATTATTTGTAATATAAAGATCAACGCTCAGGTTGGTATTTCCAAAACCGCGGGCTTTCAGCCAGACGTTCGAGCACAATTGCACGTAAAGCAAGATGATTACGCTGCGAGATTACCGAGAGCTAACACTACCTCGGTCTTACCTGCCTCATTAACCGGAACTACAGGAGATGGAAGTCAGGGATCCATTATATTTAACCGTGAAACGGGGAGTATTGTTCAGAATGATGGAACAAGTTGGAAAATTTCAGATCCTATTGTTACAACAATGAAGAATAATAAAATGGCTCGCTTCATAAGAAGTGGTACGGTTACTACTACCTGCGACCCCTGTGTGCTTTTTCCGTTTCCTAATTGTGTTATAGGATCTAATCAGCAATGTGCAGCAGTAGATATACCATTTACTACCGGAGTCCCGGCATTGAATGAAATTTCAACTGATGTAGATTTACTTAGTACAACAAGCAATGTAATTAATTTTAAAACAAGAGGCCTTTATAAAATATCATTTAAAAGTGGGGCACTTAACGTAGGGACACCTATTTGTATTGGAGCTTCCACCAATTTGTATTCCAGGTTGAATTTAGAAGTCAGTTCAGATAACGGAGTCACATGGAGGCCTGTTAACAATACAGTAAGCAATACTACAGGCGGATTACTTTCATTAGGTTCAATACCCATTGGATCTATAGATGTTGGACAGTCGTTAGCATTTACTTATGTAGGTGTTTTTAATGCCAATGACAGAGCGAGACTGAGATTTTATGGTAACCAGACAATGCTGGTAGGTGGTTGTGTAGGAAGTAATATGTTTTTTGCTATGAATACTACGGGAAACTCTATATCAGATGTTATTGTTGAAAAAATAAATATGCAATAA	MKLEFIVLIFIICNIKINAQVGISKTAGFQPDVRAQLHVKQDDYAARLPRANTTSVLPASLTGTTGDGSQGSIIFNRETGSIVQNDGTSWKISDPIVTTMKNNKMARFIRSGTVTTTCDPCVLFPFPNCVIGSNQQCAAVDIPFTTGVPALNEISTDVDLLSTTSNVINFKTRGLYKISFKSGALNVGTPICIGASTNLYSRLNLEVSSDNGVTWRPVNNTVSNTTGGLLSLGSIPIGSIDVGQSLAFTYVGVFNANDRARLRFYGNQTMLVGGCVGSNMFFAMNTTGNSISDVIVEKINMQ				NA	NA	NA	NA	NA
BMS003_03645	828			hypothetical protein	ATGAAAAAGGTTACGTTAATTACAGCGCTATTTTGCCAAAGCTTTCTGTTCTCGCAAGTAGGTATTGGTGGTAATGTTTATAGTAGTAAGAATATTGTAAAAGTTCTGGACGGAACCAAAGGGGTCATACTTCCTTATGCCAATAGTTTTACTTCTTTTCCACAATATAATGCCGCAGTCACAGATAAATTTAATGATTATGCTAATCTTGTAGGCGGACTTATCTATAATAAGGCAGATGACCAGTACTATAAATATGATGGCTACGCATGGAATCCCGCAAGGCAAATTCAGGGGATTTTTCAGCCTAAAGGTTCAAGATTAGGGATTTCTTCAGGTATTTCAATCCCTTGCATTGCATTCGGGTTAGGGCTTTGTCTTTCAACAGGATCTGCCGAGTATCTGGCTCCTGATGACAAAAGTGAAGTTCTTGTAGACAATCTTACATTAAAAAATGTAAGCAATGTAACAATAAAACAAAATGGGATCTATGATGTAGGTGCTGCCTTGGGCTTTACCGGCGGATCTTTAGGAGCTCAGATTGGTGTTACAGAATTTAAACTGACACTACAGGTCAGATATACACCTGCCGGAAATTGGGAAACCGTTGTCACTAAATCTAACTATTCACTCATATTTGTTATAGATACAAACGGAAATAAGACATGTAGTTTTGCCCAGACCCTTTCTTTACCGGTAGGAGCAGAGTTAAGAGTTATTCCTACCATCAGAACAATTGGTGGATCAGGAGGATCACTCTCGGCTTATGGCACAGATTCCAATTCAATCAACTCATATCTCGCAGCACGTTTAATTAAAGCCTATTAA	MKKVTLITALFCQSFLFSQVGIGGNVYSSKNIVKVLDGTKGVILPYANSFTSFPQYNAAVTDKFNDYANLVGGLIYNKADDQYYKYDGYAWNPARQIQGIFQPKGSRLGISSGISIPCIAFGLGLCLSTGSAEYLAPDDKSEVLVDNLTLKNVSNVTIKQNGIYDVGAALGFTGGSLGAQIGVTEFKLTLQVRYTPAGNWETVVTKSNYSLIFVIDTNGNKTCSFAQTLSLPVGAELRVIPTIRTIGGSGGSLSAYGTDSNSINSYLAARLIKAY				NA	NA	NA	NA	NA
BMS003_03646	777			hypothetical protein	ATGAAAAAATATATATTCGGACTGTCTTTATTGGCAATCAATTTGTACAATGCACAGGTGAACTTCACCAATATCCCTAATCCGGATTCTAACGCTAATGGAAATGACCGGGTAATGATGTATATTACCAATACCAGTGAAGCAACAGGTGTAAAAGGGTTCGGACTCCCGGCTGTAGACACTGTAACAGATCTCCCCTTTACTGGAGGAAGCGCACCTTCCACCAGAATAGAGGAACTGAGAGGAATGTTATTATTTGTTAAAAGTACAGGTGAGGTAATGGTTTTTGACGGGCTGGTATGGACCAAAGCTTTTGAAATAGAATCTGATAATGTTTCAAGATTCAGGCTGAATTCTGTTTCCACTACCAATGGCACTGCTTTTTTACCCATAAATAATATTATTGATAAATCTAATTTCCTTGCTGACCCTTTAAAACTGAAAACCAATGTTCCTGCAACGGGAGCTGATCTTAATAGATTATATATCAGACAGACGGGATTATATAGAGTTAATCTGAATCTTACCTTTACAGGCCCTGCGGGAACGTTTAGCAACAGGTTAGGAGCTAGTTTATATCTGAATGATGTTAAAAAGTTTCAACTGCTGGAAGATACTGTTAATTTTGACGGAACTAACCGGAAGATCAGTCTTGATATTTCGGTATATGCAGTTCAGGGACAGTATATAACCCTGGAGTCTATTACGGAAGTAAGTGGCACAACCAATTATACAGTTACTAATGACAGTTATGTAACGGTGGAAAAAATATTATAA	MKKYIFGLSLLAINLYNAQVNFTNIPNPDSNANGNDRVMMYITNTSEATGVKGFGLPAVDTVTDLPFTGGSAPSTRIEELRGMLLFVKSTGEVMVFDGLVWTKAFEIESDNVSRFRLNSVSTTNGTAFLPINNIIDKSNFLADPLKLKTNVPATGADLNRLYIRQTGLYRVNLNLTFTGPAGTFSNRLGASLYLNDVKKFQLLEDTVNFDGTNRKISLDISVYAVQGQYITLESITEVSGTTNYTVTNDSYVTVEKIL				NA	NA	NA	NA	NA
BMS003_03647	1257	argD_2	COG4992	Acetylornithine aminotransferase	GTGATTTTTTATTCCCTTGAAATAATTTCAGCTTTTAATGAATCTTTTATAGCTTTGCTGAAATTTTTGGAGACAATGGAAATGCATAAAGATTTTTTTATATATCAGGCTCAAACCACCAGGTTTGCGGCAGGTTTTGAAGTTGAAAAAGCGGAAGGAAGCTATATCTACGGTACAGATGGAAAGAAATATCTTGACTTTGTAGCAGGGGTTTCTGCCAATACTTTGGGACATTCACATCCTAAAATTGTGAACGCAATCAAAGAGCAGGCTGATAAATATCTTCACGTAATGGTGTATGGTGAATATGCACAGGAAAAACCTGTTGCATTATGCAGACTTCTTGCAGAAGCTACTCCTGATCCACTGGAAGTTACTTACCTTGTCAATAGTGGTGCAGAAGCTATTGACGGAAGTCTAAAACTGGCAAAACGATATACAGGAAGAGAAGAAATTATTTCCTTTAAAAACTCTTACCATGGAAATACCCATGGAGCTTTAAGTGTTTCCGGAAATGAAACCCACAAAAGAGAATTCCGCCCTTTACTGCCGATGGTCTCTTTCATTGAATTTAATAACGAAAAGGACCTCAATAAAATCACCGAGAAAACGGCTTGTGTTATCCTTGAAACAATTCAGGGAGCGGCAGGATTTCTGGTTCCGGATAAAGACTATCTCATCAAGCTGAAGAGAAGATGTGAAGAAGTAGGTGCTCTTTTGATTTTGGATGAAATACAGCCCGGATTCGGAAGAACAGGAAAGCTGTTTTCTTTTGAACACTTTGGAATCGTTCCGGACATCCTGGTAATGGGTAAAGGAATGGGAGGAGGTGTTCCGGTAGGTGCTTTTATGAGCTCCGGGGAAATCATGGAAACCCTTTCACATTCTCCAAAACTTGGTCATATTACCACTTTTGGAGGAAATCCATTAATTGCAGCAGCAAGCTATGCCACATTGAAAGAGGTTTTGGAAAGTGGCTTAATGAACGAAGTGGAAGAAAAAGAGAAGTTGTTTAGAGAACTTTTAGTTCATCCTAAAATCAAAAATATCAACGGTAAAGGTTTAATGCTTGCTGTAAACCTAGGAACTCCTGAATATACAATGGAAGTAGCTAAAAAGTGTATGGAAAAAGGACTCATAGTTTTCTGGCAGCTATATAGAAATGAATACCTGAGAATCTCTCCGCCACTTACATTATCTAAAGACGAAATCAGAGAAGGATGTCAGATTATTCTCGATGTACTGAACGAAAATTAA	MIFYSLEIISAFNESFIALLKFLETMEMHKDFFIYQAQTTRFAAGFEVEKAEGSYIYGTDGKKYLDFVAGVSANTLGHSHPKIVNAIKEQADKYLHVMVYGEYAQEKPVALCRLLAEATPDPLEVTYLVNSGAEAIDGSLKLAKRYTGREEIISFKNSYHGNTHGALSVSGNETHKREFRPLLPMVSFIEFNNEKDLNKITEKTACVILETIQGAAGFLVPDKDYLIKLKRRCEEVGALLILDEIQPGFGRTGKLFSFEHFGIVPDILVMGKGMGGGVPVGAFMSSGEIMETLSHSPKLGHITTFGGNPLIAAASYATLKEVLESGLMNEVEEKEKLFRELLVHPKIKNINGKGLMLAVNLGTPEYTMEVAKKCMEKGLIVFWQLYRNEYLRISPPLTLSKDEIREGCQIILDVLNEN	PGPT0014253_3406	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS003_03648	387			hypothetical protein	ATGGCGAAACATAAAGTCCATTACGAATTTCCAATGCACTGTTTATCAGAGATTTTATACGAATATCTGGCGACTGCAGAGGGATTGTCTGAATGGTTTGCGGATGAGGTAACAGAGAAAGGCGATGATTTCTTTTTTAGCTGGGGCGGAGGACCTGCTGAGAAGGCCACTTTGATCAGATATAAGCCTGAAGGTTTCGTGCGTTTCAGATGGGAAGAAGATGAAGGAACAAAAAATTTCTTTGAAATGACGATCACTATTGATGATATTACAGAAGATCTGGCTTTGAATATTACAGATTTCTGTGAAGAAGGTGATGAAGAGGAAAATGCAATGTATTGGGAAAACCTTATCGAAAACCTGAGAATAAAACTGGGTGCGGCATAA	MAKHKVHYEFPMHCLSEILYEYLATAEGLSEWFADEVTEKGDDFFFSWGGGPAEKATLIRYKPEGFVRFRWEEDEGTKNFFEMTITIDDITEDLALNITDFCEEGDEEENAMYWENLIENLRIKLGAA				NA	NA	NA	NA	NA
BMS003_03649	816			hypothetical protein	TTGGAAAATCAATATTTTACATCACACGAGTTAAATGTAAAGAACAGAGCCTTTCTTTGGGGAGACACAGTGAAGGTTTCTTTCTTTGTAAGAAATGGTGGATTGATCATGGACGAAGAATGCTATTTTTTCCTGATGGCTTCCATGAGAAAGATGAGAATGAATATTCCTTTGACTTACACACTGGAGTTTTTCCAGACACTTTTTCAAAAAGAAATTATTGAAGGCAGAGGAATAAAGAACGGAATTATCAATTTCCAGGTGTTCAGAAATAATGACGGCGTAACATTGGCAAAATCTTCTGTTTCCTATTTTTATGAAGTTTCAGAAATAGCAGATGTGCTGGAAGTTCATCAAAGACCTTTAGAGCTGGATTTGATTAAAGAAATAAACGTTAATAATAACCTTCTGAGCAATATCAGAGTTCACTGCCCGGAAAATATCTACGGAGGAATTTATGCTCAGGAAAATGATCTGGATGACGTTATTCTTCTGAATCCTAACAAGAGAATTGCGCGCACTACTTCCGGAAATCTTCTTTTTTTAGAAGGTAATGTCATTAAAGTACCTAAGCAGACAGAAGGAGCTTACATTTCTCCTCTGATGGAAAATTTTGTTACTTTTTTACACAAAAATAACCTTGCTGATATCCAGGAACACGAGATTATCGCATTTGAATCTCAGAAAGCAGAAGAAATTTTAATGATTTCTGATGAGAAAGGCATATTTTCTGTAGGTAAAATAAGAAATAAGACTTTTGAATACTCCCGCTTCTCAGAATTGGTAGAAAGCTGGAAAAAAAGTTTTGATCAATAA	MENQYFTSHELNVKNRAFLWGDTVKVSFFVRNGGLIMDEECYFFLMASMRKMRMNIPLTYTLEFFQTLFQKEIIEGRGIKNGIINFQVFRNNDGVTLAKSSVSYFYEVSEIADVLEVHQRPLELDLIKEINVNNNLLSNIRVHCPENIYGGIYAQENDLDDVILLNPNKRIARTTSGNLLFLEGNVIKVPKQTEGAYISPLMENFVTFLHKNNLADIQEHEIIAFESQKAEEILMISDEKGIFSVGKIRNKTFEYSRFSELVESWKKSFDQ				NA	NA	NA	NA	NA
BMS003_03650	582			hypothetical protein	ATGAAAGGTATTACTTTAATTGCTTTATCACTATTCCTTACAGTATTTTTATCATTTACTCCTATTAATAAAAAATACATTATCATTGATGCCAGCCATGGCGGAAATGATTTTGGCGCTACTTATGGTGAATTTTCAGAAAAAAATATCGCATTAAGTGTGGCTAAAGAGATTCAGAGGATGAATGCAGTACAGGATAAGTATGAAATCATTCTGACAAGAGATTCTGACACGTTTCCTACTCTTTCTGAAAGAACAGATCAAATCAACAAGCTGAATCCTGAATTGGTTATTTCACTTCACATTAACAAGAATTTCAAAAAGGAAACTCCTGATCGCGGATTTGAAATTTTCGTTCAGAACTCTGAAGCTTCAAAGCAATTGGCTGAAAAAATTTCTAAAAAATTTGATACTCGTAAAATAGAAGGACGTAATTTTCATATTTTAAGAGAAACTAAAATCCCTGCTGTTCTGGTAGAAATGGGATATATTAACAATACTCAAGACAGAGAATATCTCACCAGCATACAAGGGCAAAAAGAAATCGCACAGAAATTTGTTGAAATCATCAACGAATATTAA	MKGITLIALSLFLTVFLSFTPINKKYIIIDASHGGNDFGATYGEFSEKNIALSVAKEIQRMNAVQDKYEIILTRDSDTFPTLSERTDQINKLNPELVISLHINKNFKKETPDRGFEIFVQNSEASKQLAEKISKKFDTRKIEGRNFHILRETKIPAVLVEMGYINNTQDREYLTSIQGQKEIAQKFVEIINEY	PGPT0024160_7524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS003_03651	549			hypothetical protein	ATGAATCACTCATACAAAGGTAAAATATTAATCTCGACACCTGACATTTCCGGCGACATTTTTTCCAGATCGGTAGTATTGGTTATTGAACATAATGAAAGTGGTGCATTTGGTTTGATATTGAATAAAAAGAACAGCCAGATGAGTAGCAAATTCAAAGATTTCTTTGACTTTAAAATTGAGGTATACGATGGAGGTCCTGTAGAGAACGACAAGGTATTCTTTATTGTAAAAGGCAAAAGAGTTACAGAGGTCTATACCGATATCACCGATGAATACTATCTTACAGAAGACATAGAACGTATTATTAATGCTGTTTTAAGCAGCGAACTGGATATTGAGCACATTAAGATATTTTCAGGGTACTCCGGATGGTCTCCTAACCAGCTGGATACTGAAGTACAAAGAAAAATGTGGACAGTAGTGGATGTTTATAATCTGGATTATACTCTTCCTAATGATCAGACCCTTTGGAAATCTATCATGCAGAATCTTGGGGGAGAATTTCTTCTCTGGGCCAATTCGCCTGAAGACATTTCGTTAAACTAA	MNHSYKGKILISTPDISGDIFSRSVVLVIEHNESGAFGLILNKKNSQMSSKFKDFFDFKIEVYDGGPVENDKVFFIVKGKRVTEVYTDITDEYYLTEDIERIINAVLSSELDIEHIKIFSGYSGWSPNQLDTEVQRKMWTVVDVYNLDYTLPNDQTLWKSIMQNLGGEFLLWANSPEDISLN	PGPT0026120_2632	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
BMS003_03652	642	pdxH	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGGAAAACCTGCACGACAAAAGAAAAGTGTACGAGAAATCCCAACTTATTGAAAGTGAGATAAAACAAAATCCAATTGAGCAGTTTAGAAACTGGTTTTTGGAGGCAAATGAGAACCCGATGATCTCAGAAGCTAATGCTATGGCGGTTTCTACAGTAGAAGAAGACGGATGTCCGAGAACTAGAATGGTACTTCTTAAGGCCTATACTCATGAAGGGTTTGTTTTTTATACCAATTACAACAGTAGAAAAGGGAAAGCCATAGAAAACAATCATAAAGCCTGTCTGCATTTTTTCTGGCCTAACCTTGAAAGACAAATCATTATCAAAGCTGATCTTGAAAAAGTGGCAGAAAACCTGAGTGACGGTTATTTTCATTCAAGACCAAAAGGAAGCCAGCTTGGAGCTGTGGTCTCTCCACAAAGTCAGGTAATTCCCAACAGAGCGTTTTTGGAAGAAAAATTGAAAGAACTTGAGAAAGAATATGAAAGCACTGAAGTTCCCAGACCTGCCAATTGGGGCGGTTACCTTGCTAGGCCTTATGAAATTGAGTTCTGGCAGGGAAGACCCAACCGTCTTCATGACAGAATTATTTATCAGTTAGAAGATCTGGACTGGAAGATTTCAAGGCTGGCACCTTAG	MENLHDKRKVYEKSQLIESEIKQNPIEQFRNWFLEANENPMISEANAMAVSTVEEDGCPRTRMVLLKAYTHEGFVFYTNYNSRKGKAIENNHKACLHFFWPNLERQIIIKADLEKVAENLSDGYFHSRPKGSQLGAVVSPQSQVIPNRAFLEEKLKELEKEYESTEVPRPANWGGYLARPYEIEFWQGRPNRLHDRIIYQLEDLDWKISRLAP	PGPT0009115_2229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
BMS003_03653	291	hupB	COG0776	DNA-binding protein HU-beta	ATGAACAAGTCTGAATTAATCGACGCAATCGCAAAAGATGCAGGTATCACTAAAGTTGCAGCAAAGGCTGCTTTAGAATCTTTCATTGGTAACGTAACTACTACTTTAAAGAAAAAAGACGGAAAAGTTTCTTTAGTAGGTTTCGGTACTTTCTCAGTAGCTGAGAGAGCGGCTAGACAAGGTATTAACCCTGCAACTAAAAAACCGATCAAAATTGCTGCTAAAAAAGTTGCTAAATTCAAAGCTGGAGCTGATTTATCAAATGCAGTTTCAGGTGCTAAGAAAAAATAA	MNKSELIDAIAKDAGITKVAAKAALESFIGNVTTTLKKKDGKVSLVGFGTFSVAERAARQGINPATKKPIKIAAKKVAKFKAGADLSNAVSGAKKK				NA	NA	NA	NA	NA
BMS003_03654	351	panD	COG0853	Aspartate 1-decarboxylase	ATGTTAATAGAAGTTTTCAAGTCTAAGATTCATAGGGTGAGAGTAACTGCCTCTGACCTTAATTATATAGGGAGTATAACAATAGATGAAGACCTTATAGAGGCTGCCGGTCTGGTAGTGGGAGAAAGAGTCTATATTGTGAATGTAAATAACGGGGAGCGTTTTGATACCTACGTGATCAAAGGAAAAAGAAAATCAGGGGAAGTATGTCTGAACGGACCTGCAGCAAGAAAAGTACAGAAAGATGATATTATCATTATTATTGCTTATGCTCAGATGACTCCGGAAGAAGCAAAAGACTTCCAGCCTAAGATCGTTTTCCCGGATGAAAAAACAAACCTTCTTACATAG	MLIEVFKSKIHRVRVTASDLNYIGSITIDEDLIEAAGLVVGERVYIVNVNNGERFDTYVIKGKRKSGEVCLNGPAARKVQKDDIIIIIAYAQMTPEEAKDFQPKIVFPDEKTNLLT	PGPT0008890_2271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
BMS003_03655	1026			hypothetical protein	ATGGAGAAAATATCGAAAAGCCCGTTAAAATCAATACTTACAATAGTAATATCGCTTGCTTTTGCAGGCTTTTTTTTATGGCTTGCCTTAAGGGGACTGGATTTTAAAGTAATTCAGAAGTCTCTGGCGAAAGCAAATTATCTTTGGGTGTTACTGGCATCCGTATTCGGGCTTCTTGCTTACTGGTTCAGGGCTATCCGGTGGAACCTGATGCTGGAACCCATGGGGCATAAGATTTCAAACTCCAATGCGCTTTGGTCCATATCATTTGGATATCTGATGAACCTTACCATCCCGAGAAGTGGGGAAGTGGCCAGAGCAACAGCTTTATACGGAGTGGAAAAAGTGCCTGTGGATAAATCCTTCGGAACGATTATTCTGGAAAGAGTGGTAGACCTGGTTTGTATGTTAGGATTTTTAGGACTTACATTCTTGTTCAAATATGAAGCTATTCTATCCTTTTTTAAAAACTCAGGAATTAATATTCCGACTAAAATGCTGATCGCTCTTTTGGTGTTGGTAATAGGAAGTATTCTCTTTTTTGTTTTTAGAAAAAAACTTGTAGATGTACCATTTTTAGGAAAAGTGGTTCATTTCATTGATGGAATTTTTGAAGGGTTAACGTCTATCTTTAAATTAAAAGAAAAAGGAAAATTCATTCTTTATACATTAGGAATCTGGATCTGCTATTATTTTGCAGCTTATCTGGTCTGTTTTGCACTTCCTGAAACCTCGGCATTTACCTTTGCAGATGGATTTTTCATTATTGTAGTGGGAACATTGGGAATGATTATTCCTGCCAGTGGAGGGATCGGAGCTTATAACCTTGCCATGAAGTACGGTTTTATGGCTCTTTTTATTTCGGTAGGAAAAAGTGCGGCTTTTGGAGGTGAAATGGGACTTACCTATTCCTTTATTTCTTTACCATTACAGATTGTGATTATGCTGGTAATGGGACTTATTTCAATTCCTATGCTGGCAAGGGCACGAAATAATGCCGTATCTGATAAAGAATTCGAAAATTAA	MEKISKSPLKSILTIVISLAFAGFFLWLALRGLDFKVIQKSLAKANYLWVLLASVFGLLAYWFRAIRWNLMLEPMGHKISNSNALWSISFGYLMNLTIPRSGEVARATALYGVEKVPVDKSFGTIILERVVDLVCMLGFLGLTFLFKYEAILSFFKNSGINIPTKMLIALLVLVIGSILFFVFRKKLVDVPFLGKVVHFIDGIFEGLTSIFKLKEKGKFILYTLGIWICYYFAAYLVCFALPETSAFTFADGFFIIVVGTLGMIIPASGGIGAYNLAMKYGFMALFISVGKSAAFGGEMGLTYSFISLPLQIVIMLVMGLISIPMLARARNNAVSDKEFEN				NA	NA	NA	NA	NA
BMS003_03656	576	yceD_2	COG2310	General stress protein 16U	ATGGCAATTAATCTACAGAAAGGGCAAAAGATCGAAATAGGATTGACGAAAATGACGATTGGATTAGGCTGGGATCCTAATGAAGGAACAGGCTACGACTTTGATCTGGATGCTTCTGCAATCATGATTGATTCTGACAGAAAATTAGTAAGTGAAGAATACTTTGTTTTTTACAATAATCTGAGCTCTCCGGACGGGGCACTTACCCATACAGGAGATGATCCTAATGGTAAAAACAGCGATGGAGATGATGATGAAGCAATTGTGGTAGATCTTGACAAAGTAGATTCAAGAGTGCAGGAGATTCTTTTCGTGGTAACCATAGAAGATTTTGAAAGAAGAAGACAGAACTTCGGACAGGTGAGAAACTCTTATATCAGAGTGGTAGACAATCATTCCAACCAGGAAATTGCAAAATATGAGCTGGATGAAGATTTCTCCATTGAAACGGGAGTAGAATTCGGAAGACTGTACAAAAGAAATGGTAGCTGGAAGTTTGAAGCTTCGGGAATAGGATACAGAGCAGATCTTGGCTTCTTCCTTGAAAAATATTATAAAGGGCAAATCATCAAATAA	MAINLQKGQKIEIGLTKMTIGLGWDPNEGTGYDFDLDASAIMIDSDRKLVSEEYFVFYNNLSSPDGALTHTGDDPNGKNSDGDDDEAIVVDLDKVDSRVQEILFVVTIEDFERRRQNFGQVRNSYIRVVDNHSNQEIAKYELDEDFSIETGVEFGRLYKRNGSWKFEASGIGYRADLGFFLEKYYKGQIIK	PGPT0004910_1048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
BMS003_03657	93			hypothetical protein	ATGGAAGCCGGAAAAGTAATACGAAACGAAAATCTGACCACGCAGGATAAAATGTCTGTGGGATATTATTGCCTTTCGGTTTCCATAAAATAA	MEAGKVIRNENLTTQDKMSVGYYCLSVSIK				NA	NA	NA	NA	NA
BMS003_03658	441			hypothetical protein	ATGAATCCTGACCTGCGTTATAAACAAGCTGATGAAACTGATATTGATTTTCTTCTCGATCTCAGAATAAAAACGATGAATCCTCATTATGAAACCTCAGGGCTTTCCACGGACAGAGAAACCACTTTGAAAAGAGTTTTATATCAGTTTGAAAAAGCCAATATTATTTTTTTAGACAATCAGCCTATCGGGCTGTTAAAAGTAGACCGAACATTTACCAATATTGAGGTCCTGCAGCTTCAGATAGATCCCAGCCAGCAAGGCAAAGGTCTTGGAAAAAAAATTTTGATGGATATTCTGGAGGAAGCTTCACTGGCAGGGAAAACAGTCTCTTTAAGTGTTTTAAAAACCAATAAGGCACAGCACCTTTATCAAAGTCTTGGGTTCAGAATAGTGGGGGAAGATCAGCATTCTTATTTTATGGAAACCGAAAGGCAATAA	MNPDLRYKQADETDIDFLLDLRIKTMNPHYETSGLSTDRETTLKRVLYQFEKANIIFLDNQPIGLLKVDRTFTNIEVLQLQIDPSQQGKGLGKKILMDILEEASLAGKTVSLSVLKTNKAQHLYQSLGFRIVGEDQHSYFMETERQ				NA	NA	NA	NA	NA
BMS003_03659	1200	tyrS	COG0162	Tyrosine--tRNA ligase	ATGATTCATCCATTACAAGAAAATGTGGCTATCATCCTGCCTGAAAACGGTTTGGAAGAAAAGTTGGCTCAGGCCGAAAAGGAACACCGAAAACTGTCTATCAAACTGGGATTTGACCCCACTGCTCCGGATCTGCATCTGGGACATGCCGTGGTCTTAAAAAAACTGAAACAATTTCAGGATCTGGGCCATCAGATTATTATCGTTGTAGGAAGCTTTACCGCAAGAATTGGCGATCCCACCGGAAAAAATAAAGCCAGAAAACCTTTAAGTGCCGAAAACATTCAGCATAATGCCCGGACCTATATCAACCAGCTTTCCAAAGTAATTGACGTACAAAAGACGAAGATTGTTTTTAATTCCGATTGGCTGGACAGTCTGGATTTTTCTGAGGTGATCCAGCTGCTCTCAAAAGTGACCGTCGCCCAACTGATGCACCGCAATGATTTCAGTAAAAGATTCACAGAAAATACACCTATTGCTATGCATGAACTGATTTACCCTATTCTTCAGGGTTTCGATTCTGTAAAAATAGCATGCGATATTGAAATGGGCGGCACGGATCAGCTCTTCAACTGTACAATGGGAAGACAGCTCCAGGAAGGACATCAAATGACTGCTCAGATAGTGATGTGCATGCCTTTGCTGAAAGGGCTTGACGGAAAAGAAAAAATGAGTAAATCCCTGAACAATATTATCGGACTGACAGATGAACCCAATGAGATGTTTGGTAAAACCATGTCTATTCCAGATGCCTTGATTGAAGAGTTCATCAACCTTACCACAGATTTTTCCGCAGAAGAAAAAACAGCACTCTTCTCCAGAATACAAGAAGGTGAAAATCCTATGAATATTAAAAAACTGATTGCCAAAAATATCATCGCCCAATACCACGATTCCACTTCGGCTGAAAATGCAGAACAGTTTTTTATCAATCAGTTTCAGAATAAAAATTTTAAGGAGAAAACGTATGAACCTATTGCTATAAGTTCTTTGCAAAATATTGAAAACAGGATCTCTCTGGTGGAACTTTGTCATCAGCTTCAAAATAATCTCAGCAAATCAGCAATCCGGAGATTAATTGAAAATGGAGGAGTTCAGATCAATACCCTCAAAATAACAGATGCTAATGAAGAAATGGAGCTGGTTCCTCAAACTAAAATAAAAATCGGAAAAAGGGGCTTTTTTGAGTTGATATGA	MIHPLQENVAIILPENGLEEKLAQAEKEHRKLSIKLGFDPTAPDLHLGHAVVLKKLKQFQDLGHQIIIVVGSFTARIGDPTGKNKARKPLSAENIQHNARTYINQLSKVIDVQKTKIVFNSDWLDSLDFSEVIQLLSKVTVAQLMHRNDFSKRFTENTPIAMHELIYPILQGFDSVKIACDIEMGGTDQLFNCTMGRQLQEGHQMTAQIVMCMPLLKGLDGKEKMSKSLNNIIGLTDEPNEMFGKTMSIPDALIEEFINLTTDFSAEEKTALFSRIQEGENPMNIKKLIAKNIIAQYHDSTSAENAEQFFINQFQNKNFKEKTYEPIAISSLQNIENRISLVELCHQLQNNLSKSAIRRLIENGGVQINTLKITDANEEMELVPQTKIKIGKRGFFELI				NA	NA	NA	NA	NA
BMS003_03660	591	kefF		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGAGACATTTAATCATTTACGTGCACCCAAATAAAAACAGTTTAAATCACAGCCTTTTAAATACTGTTGTTGAAACACTTCAATCCCAAAATCAAGAGATTGTAATAAGAGATCTTTATAAAATCGGTTTTGATCCGGTATTTTCTTTGGAGGATATGCAGGGACAGTTTCAGGGAAAATTATCTGATGATGTAAAAACTGAACAGGAGCATATTTCATGGGCAGAGCAGATTACTTTTATCTACCCGATCTGGTGGACGGGGCTGCCCGCTATGATGAAAGGATATATAGACCGTGTATTCAGTTATGGCTTTGCCTACCGTTATGATCATGGCATACAGAAAGGTCTTCTAAAAGGTAAAAGAACTGTTATTATCAATACTCATGGAAAATCTCATGAAGAATATGAAAAAACAGGCATGGATAAAGCCCTTACCTTAACTTCTGACAATGGTATTTTTATCTATTCCGGGCTGGAAATCATCAGACATCTATTTTTTGATAAAGCAGATAAAGCATCTCCCGAAAATCTGGAAACCTGGAAAGATCAGATTAAAGGTTTATACGTTGAACATGTACCCGATTTTTAA	MRHLIIYVHPNKNSLNHSLLNTVVETLQSQNQEIVIRDLYKIGFDPVFSLEDMQGQFQGKLSDDVKTEQEHISWAEQITFIYPIWWTGLPAMMKGYIDRVFSYGFAYRYDHGIQKGLLKGKRTVIINTHGKSHEEYEKTGMDKALTLTSDNGIFIYSGLEIIRHLFFDKADKASPENLETWKDQIKGLYVEHVPDF	PGPT0009455_1680	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS003_03661	819			hypothetical protein	ATGAAATTACATTCAGAATATAATGAGTACAGAATTTCCGCTCCCCAGGAATTTGAAAATGTATTTAGTCATTTTTATTTTGCTGAAAATCATTCTGAAATCCCCATTACCAAAACACTTTTACCTACTTATCATACTATCCTGTTATTTTGCTTTGGAGAAAGTGCTACCATGTCTACTCGTGAAAATACCATCATAAGTGTAGATAAATGCATGGTATTCGGACCCGTGAGACAAGCTTTTGAATATACACTTCCCTCTGGCTGTTCTATTCTGGTTGCCAATTTCAAAGATGATGCATTTTTCAGATTTTTTGGAAAAATACCTATTGAACAGTCGGTAAGACATCCGGATGAACTGCTGGAAGAAAACTGTTTTACAGAGCTTTGGCATCAACTTACTCAATTAAATTCAGCCACAGAACAGGTAGATCATATTCTTGAATTCTGTAAACCCTATCTGCAGGATCGGGATACCACCAGCCAGCTTTTGAGCAGTTTTGAGAATGATCTTTTAAATCCGGTTAAAGTCATTGCAGAACAGACACATCAGACTGAAAGAAATATTCAGCGAAAACAGAAAGAACAGTTTGGGTATTCTTTAAAGGAACTTGCCCGCTACAACCGTTTTTTAAAAGCCATACAACTCATTGAAAAAGAAACCGAAAAGCAAAATCAGGTCAAATGGTTTACTGTTATTGATGAGTGCGGTTATTATGATCAGAGCCAGCTTATTCATGATTTTAAGCATTTTATTAATATCTCACCGGCTCAGTATCTAAAATTCCAGCAGGAGATCTGCAACCCAAGATCCAAGTAA	MKLHSEYNEYRISAPQEFENVFSHFYFAENHSEIPITKTLLPTYHTILLFCFGESATMSTRENTIISVDKCMVFGPVRQAFEYTLPSGCSILVANFKDDAFFRFFGKIPIEQSVRHPDELLEENCFTELWHQLTQLNSATEQVDHILEFCKPYLQDRDTTSQLLSSFENDLLNPVKVIAEQTHQTERNIQRKQKEQFGYSLKELARYNRFLKAIQLIEKETEKQNQVKWFTVIDECGYYDQSQLIHDFKHFINISPAQYLKFQQEICNPRSK				NA	NA	NA	NA	NA
BMS003_03662	498	yafP	COG0454	putative N-acetyltransferase YafP	ATGAGCAATATTACATCCAATAGTCACAATATTATCATCAGAAAAGGAATCAGTGATGATCTTCCGGAAATGTTGCAGCTTTTTACGGCAACAATAGATGGAGTATGTAAAAAAGACTACGATCTTCAACAGCTCGAAGCCTGGAAATCAGGTGCAGAAAATGAGGAAAGATGGACGAAAGTGATCAGAGATCAATACATCATTGTAGCTGTCACAGAAAATAAAATAATAGGTTTTTGTACCCTCGATCAGGGAAGTTATATTGATTTGCTTTTTGTACACAAAGACTATCAGCAGAGAGGGATTGCCACCATGCTTTATCAGCATATTGAAAAAGAAGCTTTATTAAATAACGAGAAAGAAATTACTGCTGATGTAAGCAAGACTGCCAGACCTTTTTTTGAAAAGAAAGGTTTTCAGATTGTTCAGGAGCAGATTGTCCATATAAAAGGAGTTGCACTCGCCAATTATAAAATGGCAAAACATCTCATCTCTTAA	MSNITSNSHNIIIRKGISDDLPEMLQLFTATIDGVCKKDYDLQQLEAWKSGAENEERWTKVIRDQYIIVAVTENKIIGFCTLDQGSYIDLLFVHKDYQQRGIATMLYQHIEKEALLNNEKEITADVSKTARPFFEKKGFQIVQEQIVHIKGVALANYKMAKHLIS				NA	NA	NA	NA	NA
BMS003_03663	624			hypothetical protein	ATGGCGGAAGAACTTTATTTCATCAAGACCAATCCTACTATTGCCAAAATCAATTTGTACAATAAGCTCAGCCGTGAAGAAGAAAATATTCTGAAATATCTTCAGCCTGGAGCAAAAGGCATCCTTGAAACAATTAAGGAAAAGGTAAAGGATTCTGTTGAAGAACTTACTCAGGAAGAGCTTCTGCTTATTTGTCAGTGGTTTCATAAAGTATATTCTTCAGATCACGAAGAGACCAAGACCCAGCTTTTTATCAATGGTATTGATCTTTTTTATGAAATTCCTACAACCATTCATGCCGAAAATTTTCTTCAGATTCTTTCAGATTATGAAAAACTTCTGAAACAGGATATGAACTTTATTGTAGATTCCAAAAATTTCAATCAGTTTCTGATCTACGGAATATTTCTTACAGAACTGATCAACAGAGAACAGCACCCTGACAATCTACTTTGTGAATATCTGAAACCGGATAACCAGTCTTTATATCTTCTGGCAGAAGATCAATGTAATCTGAAAAATTTTGATCCTAAAATCATTCCAAATCTACAGCATTACTTTACTGACCTGTATGATCTTACCAAATTTTATAAAGGCCCTATCATCAAGCTTGAGCAGGAATAA	MAEELYFIKTNPTIAKINLYNKLSREEENILKYLQPGAKGILETIKEKVKDSVEELTQEELLLICQWFHKVYSSDHEETKTQLFINGIDLFYEIPTTIHAENFLQILSDYEKLLKQDMNFIVDSKNFNQFLIYGIFLTELINREQHPDNLLCEYLKPDNQSLYLLAEDQCNLKNFDPKIIPNLQHYFTDLYDLTKFYKGPIIKLEQE				NA	NA	NA	NA	NA
BMS003_03664	1104	pbpE_2	COG1680	Penicillin-binding protein 4*	ATGATTATTAAAAAACTGATAACCAATATTGTTCTGCTTTCATTTGTACCCCATACAATTAATGCGCAGACATTATCAAAAGGATATGAAAAGAAGATTGACAGTATTATCCAGACTGAATTCGGGAATAAAAATGAGCCCGGCGGAGTTTTTCTGATTACTCAAAACGGAAAAAATCTGTATCGAAAAGCATTTGGGAAAGCAAATCTTGAACTTAACGTCAATATGACTCCTGAGAATGTTTTCCAAATTGGTTCAATGACCAAACAGTTTACTGCTGTGGCTATTCTGCTGCTTGAGCAACAGGGAAAACTTAGGGTCACTGATCCTGTTTCAAAATACATCAAAGATTATCCCAACGGAGATAAAATCACTATTCATCATCTTCTGACTCATACTTCAGGAATAAAGGACTTTACAAAAATGAAGTCAATCTCTTCCATTGCCCAAAAAGAAATGAAACCGGAAGAAATGGTGAGCTTTTTCAAAAATGAACCTGTAGATTTCGCTCCGGGAGAAAAATTCACTTACAATAATTCCGGCTATGTTCTTTTGGGATATATCATCGAGCTTGCTTCAGGAACAACTTATGAAGATTTTATTAAGAAAAATATTTTTGATAAAGCAGGAATGAACCATTCTTATTACGCTTCCGACAGAAAGATTACTCCTCAGAGAGCTTACGGATATCATAAAAAGGAACAGGGATTTGTGAATAAAACCGTTATCAGCTTCAGCGTTCCGTTTTCTTCCGGCTCACTGATGTCTACTGTAAATGATATGCTGAAATGGCAGCAGGCTCTGAATCAGAATCTATTATTAAACTCAAAAGAAACCCAAAAAGCTTTTCAGAAATATAAACTGAATAATGGCGAGGAATTTACATATGGCTACGGATGGCACTTGAAAGACCTCAACGGAATTCCTGACCGTGAACATGGAGGAAGTATATTCGGGTTTAAAAGCATGGGCATTTACATTCCCGGTGAAGATATTTATGTGATCGGGCTCAGCAACTGTGATTGCCACTCTCCTACTGAGGTAACCAGAATGATTGCAAAAGCAACTTTAACGGAGACCAAAGCCTCATCAAAGAAACCTTAA	MIIKKLITNIVLLSFVPHTINAQTLSKGYEKKIDSIIQTEFGNKNEPGGVFLITQNGKNLYRKAFGKANLELNVNMTPENVFQIGSMTKQFTAVAILLLEQQGKLRVTDPVSKYIKDYPNGDKITIHHLLTHTSGIKDFTKMKSISSIAQKEMKPEEMVSFFKNEPVDFAPGEKFTYNNSGYVLLGYIIELASGTTYEDFIKKNIFDKAGMNHSYYASDRKITPQRAYGYHKKEQGFVNKTVISFSVPFSSGSLMSTVNDMLKWQQALNQNLLLNSKETQKAFQKYKLNNGEEFTYGYGWHLKDLNGIPDREHGGSIFGFKSMGIYIPGEDIYVIGLSNCDCHSPTEVTRMIAKATLTETKASSKKP				NA	NA	NA	NA	NA
BMS003_03665	732	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGAAAGAAAATAAATACGACAATCCTTCATTTTTTGATCAGTATGAAAAAATGCTTCGTTCTCAGATCGGATTGGAAGGAGCGGGAGAATGGCACACCCTGAAAAATATGCTGCCGGATTTTCAGGGAAAAAATATTCTTGACCTCGGCTGTGGTTTCGGGTGGCACTGCCGCTTTGCCATGGAAAATGGCGCAAAATCTGTGATAGGAATTGACCTTTCGAAAAAAATGCTTGCAAAAGCACAGGAGATCAACAATATGGAAGGAATCCAGTACGAACGGAAAGCCGTTGAAGAAGTAGATTATCCTGCAGAAAAGTTTGATATGATACTTAGTTCACTCACTTTGCATTATGTAGAATCATTCGATACAATTGTTCATAATATTTACAAATGGCTTACTCCAGGCGGATATTTTATATTTTCAGTAGAGCATCCCGTTTTCACTGCAGAAGGCAGTCAGGATTGGGTGTATGATAAGAATGGAGAAAAAATCTGCTGGCCGGTAGACCGATATTTTATTGAAGGAAAAAGAAATACTACTTTCCTCGGGGAAAACGTCATTAAATATCACCGAACTTTAACTTCCTATCTGAATACTTTATTACAACACGGCTTCACCATCAAAGAAATTATCGAACCCGAGCCAAGCCATGAAATGTTGAAAGAGATTCCGGAAATGAAAGAAGAACTCCGCAGACCTATGATGTTATTAATCTCTGTATTGAAATAA	MKENKYDNPSFFDQYEKMLRSQIGLEGAGEWHTLKNMLPDFQGKNILDLGCGFGWHCRFAMENGAKSVIGIDLSKKMLAKAQEINNMEGIQYERKAVEEVDYPAEKFDMILSSLTLHYVESFDTIVHNIYKWLTPGGYFIFSVEHPVFTAEGSQDWVYDKNGEKICWPVDRYFIEGKRNTTFLGENVIKYHRTLTSYLNTLLQHGFTIKEIIEPEPSHEMLKEIPEMKEELRRPMMLLISVLK	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
BMS003_03666	414			hypothetical protein	ATGAGCCACAAAATCACAGTTTCTGCGACCATCAATGCAGACGCAGAAAAAGTATGGAATTACTACACCAATCCGGAACACATTACTCAATGGAATTTTGCCGACCCTTCATGGCAGTGTCCTTCTGCGTCCAATGATATGAAAGTAGGAGGAAAATACGCAGCAAGAATGGAAGCTAAAGACGGAAGCTTCGGTTTCGACTTTGAGGCTATTTATGATGAAATAAAACAGAGTGAAAATTTTAAGTATACCATGCCAGACGGGAGACAGGTACATGTTGACTTTAAAGAAAATGCAGGTAAAACCCATGTAGATGTAGCTTTCGATCCGGAAAACCAAAATCCTGAAGAAATGCAGAAAGCAGGATGGCAGGCAATTCTTAACAATTTCAAAAAATATACGGAAGCTAATTAA	MSHKITVSATINADAEKVWNYYTNPEHITQWNFADPSWQCPSASNDMKVGGKYAARMEAKDGSFGFDFEAIYDEIKQSENFKYTMPDGRQVHVDFKENAGKTHVDVAFDPENQNPEEMQKAGWQAILNNFKKYTEAN				NA	NA	NA	NA	NA
BMS003_03667	504			hypothetical protein	ATGAAACACCTTCTTCAGTTTGATTTCCTTGCAGATAAGGAAAAGAATACCTTAACCATCAGACGTGAATTTATGGCCCATCGACCATTGGTATGGGACTGCTATACAAAGAGTGATCTGCTTGACCAATGGTTTTCACCAAAACCATTGATCACCAAAACAAAGTCAATGGATTTCAGTGAAGGTGGCCACTGGCACTATGCCATGGTTGAACCTAACGGAAAAGAATATTGGGGCTGGGTTGGTTATCACAAGATTAACCCTATTGATTCTTATACTTCCAGCGATGCATTTTGCAATGAAAAAGGAGAAATTAATACAGCCCTTCCTCAGGCAGAATGGATAGTATCTTTTACAGATAAAAATAAAAATACCCTTGTAGAAACCATTGTTACCTATCAATCCTTAGCGGATCTGGAAACCATTATTGAGATGGGCATGGAGCAGGGAATGATGGCCACTCTTGAAAAACTTGACAAATTACTATTAACATTAAAACCATAA	MKHLLQFDFLADKEKNTLTIRREFMAHRPLVWDCYTKSDLLDQWFSPKPLITKTKSMDFSEGGHWHYAMVEPNGKEYWGWVGYHKINPIDSYTSSDAFCNEKGEINTALPQAEWIVSFTDKNKNTLVETIVTYQSLADLETIIEMGMEQGMMATLEKLDKLLLTLKP				NA	NA	NA	NA	NA
BMS003_03668	321	sdpR	COG0640	Transcriptional repressor SdpR	ATGAGAAGAGATATATTTCAGGCTATAGCAGATCCTACCCGTAGAGCAATTATTACACTGATAGCAGTACAGGCTATGACACCCAATGCCATAGCTGAGCATTTTGACACCACCAGACAGGCTGTTTCAAAACATCTGAAGATCCTGACTGAGAGTGAACTGGTTACCCAAAACCATCAGGGAAGAGAAATTTATTACTTTTTGGAAATTGATAAAATGAAAGAAATAGATCACTGGCTGGAACAGTTCAGAAAGATATGGGAAAACCGCTTTGAACAGCTGGATACTTTACTGGCAACCTTAAAAAATCAACAGAAGTAA	MRRDIFQAIADPTRRAIITLIAVQAMTPNAIAEHFDTTRQAVSKHLKILTESELVTQNHQGREIYYFLEIDKMKEIDHWLEQFRKIWENRFEQLDTLLATLKNQQK	PGPT0004735_3488	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS003_03669	201			hypothetical protein	ATGTTATTAGCGATTTTACTTCCCTTTTTATCTTTCATGGTCCGCGGAAAAGTCTTGACCGGAATTGTCTGCCTGGTGTTACAAATTACTCTCATCGGATGGCTTCCTGCTGCAATCTGGGCAGTACTTTCTTTAAATAATGAAAGAGCTGACAAAAGAAATGATCGGTTGATCAAAGCAATGCGGGAAAACAAAAGATAA	MLLAILLPFLSFMVRGKVLTGIVCLVLQITLIGWLPAAIWAVLSLNNERADKRNDRLIKAMRENKR				NA	NA	NA	NA	NA
BMS003_03670	384			hypothetical protein	ATGAGCACAATAGCAGTAAGATTAGAAAACGTAAAAAAACTTCAGGCGAAAAGATGGGAAAATGAAGACCATTGGGATACTTTAAACGATCTCTTAGTAAAAGAATTGGATGAAATTTTATTGATTGAACCTGAAAATACTTCAGCTTTAATAAATATTGGTGCTATTTACTCCGATATGGGAGAAAATGAAAAAGCACTTCAGCATCTAAAAACGGCATTGAATTTGGGTTCCAAAGACAAAAATCTCTTTGTAAACCTTGCCATTGTGCTTGTTTATATGGAAAAACATCAGGAAGAGTATCTTGAATATCTTGAAGAAGCCGAGAATAAAACTGAAGACCCTCTCACTTTTAAAGCTTATTTCAACCCTGAATCCCGTTAA	MSTIAVRLENVKKLQAKRWENEDHWDTLNDLLVKELDEILLIEPENTSALINIGAIYSDMGENEKALQHLKTALNLGSKDKNLFVNLAIVLVYMEKHQEEYLEYLEEAENKTEDPLTFKAYFNPESR				NA	NA	NA	NA	NA
BMS003_03671	420			hypothetical protein	ATGACCACCCAAGAAAAAATCCAGGACTATATCAACAGCCAGCAGGAACTGAAACGTAAGGATATGCAGGAACTCCACCGTATCATTCTGGAGCTTATGCCGGACTGTCGGCTTTGGTTTCTCGATGGTAAAAACGATGAGAATAAAACCGTTTCCAATCCCAATATCGGGTATGGCTTGTACACCATGCAATACGCAGGCGGAAAAACCAGAGACTTTTATCAGATTGGAATGAGTCCCAATACCACCGGCATCTCCGTTTATATCATGAATATCGGTGATAAAACGTATTTATCTAAAACCTATGGAGAAAAAATAGGGAAAGCAAGCGTCACTGGATATTGTATTAAATTCAAAACATTGAAAGATATCAACATTGAAATCCTGAAAGCTGCCATATTGGATGGTCTTAAAGAGTAA	MTTQEKIQDYINSQQELKRKDMQELHRIILELMPDCRLWFLDGKNDENKTVSNPNIGYGLYTMQYAGGKTRDFYQIGMSPNTTGISVYIMNIGDKTYLSKTYGEKIGKASVTGYCIKFKTLKDINIEILKAAILDGLKE				NA	NA	NA	NA	NA
BMS003_03672	2019	prlC	COG0339	Oligopeptidase A	ATGAATATTTTAACAGAAAAATTTAACACTCCATATCATTCAGCACCATTCAACAATATTAAAAACGCAGATTATCTTCCGGCATTTAAAGAATTAATCCAAAAATCTGAGGCGGAAATTGATGCTATTGTCAACAATCCTGATGCTCCTACTTTTGAAAATATCATTGAAGCGCTGGCTTATTCCGGGGAACAGCTGGATGTGGTTTCGAATATTTTTTTCAACTTAAATTCTGCAGAGACCAGCGACGAAATCCAGCAGATTGCTCAGGAAGTTTCTCCGATCTTAACAGAATATTCTTCAAAAATTTCTCAAAATGAAGCCCTTTTCAAGAAAATCAAAAAAGTATATGATGAAAAGGAAAAATATAATCTCAATGAAGAACAGGAAATGCTTTTGAATGAAACCTACAAAGGTTTTGTAAGAAGCGGAGCTTTATTGAATGAGGAAGACAAAGAAAAATTAAAGAAAATCAGCATGGACCTTTCTTTAAAATCTTTACAGTTCGGACAAAATGTACTGGCTTCCACCAATGCTTATTTTAAATATATTACCCATAAAGAAGATCTTGCAGGAATTCCTGAAGCCATCACCGATCAATATGCTGAAGAAGCTAAAGAAAGAAACCTTGACGGCTGGGTAGTAACATTACAGTACCCAAGCTATATTCCGTTTATGACCTATGCTGAAAACCGTGAACTGAGAAAAGAACTGGCTTTGGCAAACGGTAAAAAATCTTTCGATGGCGGAGAATTCGACAACCAGAACCTGATTAAGGAGCTTCTGAATTTAAAGCAGCAGAAAGCTGAACTTATCGGATATAAAAACTATGCAGATTTTGTATTGGAAGAAAGAATGGCTAAGTCTCCGATAAAAGTTTTAGATTTTTTAAATGAACTTCTGACCAAAGCAAAACCTTATGCAGATAAAGAAATTGAAGAATTAAAAGCTTTAGCAAAAGCTGACGGAATTGAAGAAATGCAAAGCTACGATCATGCATTCTATGCTGAAAAACTTCGTAAGGCGAAATTCGATCTTAATGATGAAGAACTAAAGCCTTATTTCCCTTTAAACCAGGTACAGGATGCTGTATTCGGGCTGGCAGGAAAACTTTTCGGGCTTACTTTTGAAGAAAGAAATGATATTCCGAAATACCACGAAGATGTAAAAGTATATGAAGTAAAAGAGAACGGAACTTATAAATCTCTTTTATATGTTGATTATTTCCCAAGAAAAGGGAAAAGAGCAGGTGCATGGATGACCAGCTACAAAAATCAGTATAAACAAAACGGTGAAAATTCCCGTCCGCATATTTCAATTGTCTGCAACTTCAGCAAACCAACAAAAGATACGCCTAGCTTACTGACTTTCCAGGAGGTGACTACTTTATTCCATGAGTTTGGGCATGCCCTTCACGGCATGATGGCAGATACTCAATACTCTACCCTTTCCGGAACCTCTGTAAAATGGGACTTTGTAGAACTTCCGTCACAGTTTCTGGAAAACTTCTGTTATGAACCGGAATTCTTAAAAACGTTTGCAAAACATTATAAGACCGGAGAAGTACTTCCTGACGAAAAAATTGAAAAAATAGAGCAGTCTAAAAACTTTATGGAAGGCTATCAGACTTTAAGACAACTTGGTTTTGGACTTCTGGATATGAACTATCACACAAAAGTGGCAGAACTGGAGAACGAGAGTGTAAAAGAGTTTGAAGATAAATATACGAAAGCAACCACTCTTTATCCATCCAACGCTGAAACGGCAATGAGCCCAAGTTTCTCCCATATTTTCCAGGGCGGATATTCAGCAGGATACTATTCTTACAAATGGGCTGAAGTTCTGGATGCCGATGCTTTCCAGTATTTCAAAGAAAACGGAATCTTCAACCCTGAGATTGCAGCCAAATATAAAGTACTGCTTTCTTCTGGGGGAACGAAAGATCCAATGGAGCTTTACAAGAATTTCAGAGGCAGCGAACCGAAAGTGGAAAGCTTGCTGAAAAGAGCATTTGGATAA	MNILTEKFNTPYHSAPFNNIKNADYLPAFKELIQKSEAEIDAIVNNPDAPTFENIIEALAYSGEQLDVVSNIFFNLNSAETSDEIQQIAQEVSPILTEYSSKISQNEALFKKIKKVYDEKEKYNLNEEQEMLLNETYKGFVRSGALLNEEDKEKLKKISMDLSLKSLQFGQNVLASTNAYFKYITHKEDLAGIPEAITDQYAEEAKERNLDGWVVTLQYPSYIPFMTYAENRELRKELALANGKKSFDGGEFDNQNLIKELLNLKQQKAELIGYKNYADFVLEERMAKSPIKVLDFLNELLTKAKPYADKEIEELKALAKADGIEEMQSYDHAFYAEKLRKAKFDLNDEELKPYFPLNQVQDAVFGLAGKLFGLTFEERNDIPKYHEDVKVYEVKENGTYKSLLYVDYFPRKGKRAGAWMTSYKNQYKQNGENSRPHISIVCNFSKPTKDTPSLLTFQEVTTLFHEFGHALHGMMADTQYSTLSGTSVKWDFVELPSQFLENFCYEPEFLKTFAKHYKTGEVLPDEKIEKIEQSKNFMEGYQTLRQLGFGLLDMNYHTKVAELENESVKEFEDKYTKATTLYPSNAETAMSPSFSHIFQGGYSAGYYSYKWAEVLDADAFQYFKENGIFNPEIAAKYKVLLSSGGTKDPMELYKNFRGSEPKVESLLKRAFG	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
BMS003_03673	531			hypothetical protein	ATGAAAACACTCTTAAAAATTATTGGTATTATCATTGTACTGATTCTTATCTATGCTGTAATTGCCGTGTTGGCGTTCAGTAAAGACTATCATTATGAAAAATCTGTTGTTATCAATGCTCCGCAGGAAAAAGTATGGGCTTATACAGGGAACTTAAAAGGATATAATCAATGGGATCCTTTTTCCAAAGCAGATAAAAACATTGTCATTACTTATTCAGGAGAAGGGGATAAACTAGGAGATTCCTATCATTGGAAAGGAGATAAAAATGTAGGTGAAGGTGAACAGTCCATTACTGAGCTGATTCCTAACCAAAAAATGGCCACAAAACTCCACTTTATAAAACCTTTTGCAGGAGATATGAAAGCTAATTTTCTCCTGGTTCCTGAAGGAGGTGGAACGAAGGTAACCTGGATGATAGATAATGAGCTGTCTCCTATGATGAAGATTATGAAACCTCTGATGAACGGAAATATGGATAAAATGTTTAGTCAGGGTCTGGGAGATCTGAAGAAACTAGCTGAAAAATAA	MKTLLKIIGIIIVLILIYAVIAVLAFSKDYHYEKSVVINAPQEKVWAYTGNLKGYNQWDPFSKADKNIVITYSGEGDKLGDSYHWKGDKNVGEGEQSITELIPNQKMATKLHFIKPFAGDMKANFLLVPEGGGTKVTWMIDNELSPMMKIMKPLMNGNMDKMFSQGLGDLKKLAEK				NA	NA	NA	NA	NA
BMS003_03674	360			hypothetical protein	ATGTTTAAAGCACCATTTTCATTTGATGGAAGAATAAGAAGGACTGAATACGGACTGTCCTATCTTCTATATCTGGTATTTTCTGTACCTTTTAATATCTATTTTCAGAGTAACGAGCCCTCAGGTGGTGTTACTATAGTATTTTTTCTTTTGCTGATTCCGTTTCTTTGGTTTCTTCTTGCACAAGGAGCAAAAAGATGTCATGACAGAGGAAATTCAGGTTGGTATCAATTAATTCCTTTCTATGGTTTCTGGATGTTATTTGCAGACAGTGATCACGGTCCTAACGAATATGGTCCTAATCCCAAAGGTGAAGGAAACTACAGTTCGATCAACGAGATCGGTAAAAAAGAATTATAA	MFKAPFSFDGRIRRTEYGLSYLLYLVFSVPFNIYFQSNEPSGGVTIVFFLLLIPFLWFLLAQGAKRCHDRGNSGWYQLIPFYGFWMLFADSDHGPNEYGPNPKGEGNYSSINEIGKKEL	PGPT0000855_5255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS003_03675	450			hypothetical protein	ATGGAGAAGATTGTATTTGAAAAAAGCGACATCAGAGACTTTGTGAAAACTACCATCGCGGAGAAAATTGAAAAGCTTAAAAATTTTATCGAATTTACCCTGGAAGCCAGCCGTGATATCAAGAAAACTCCGAAATATGACAGTATGAGAGAAGAAATGCAGGAGGAGATTTATCAGATGCAGAGGCAGCTGGGTGCTTTGAATGATCTTAAAAGAAATATGGCAAAAGTTCTGAATACGGCTACAGAAAGAGTACAGCTGGGTTCTCTGGTTATTACCAATAAGGCAAGGTTTTATATATCAGTGTCATTGGGAGAATTCTTTTTTGAAGGAGACCGGTTCTATGCCATTTCTCCCGAAAGTCCTATGGCTAAAAAGATGATGGGCATGAAACCAGGTGACGAATTCACTTTAAACAAAATCCATCAGAAAGTTGTAGAAGTACTATAA	MEKIVFEKSDIRDFVKTTIAEKIEKLKNFIEFTLEASRDIKKTPKYDSMREEMQEEIYQMQRQLGALNDLKRNMAKVLNTATERVQLGSLVITNKARFYISVSLGEFFFEGDRFYAISPESPMAKKMMGMKPGDEFTLNKIHQKVVEVL	PGPT0030495_4524	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS003_03676	648			hypothetical protein	ATGAAATTTGAAAAATTAAGAACAAACAGAATCAATCAATGGATTATTATTCATTTACGTTATCTTGTGGGATTTGCTTTTTTTCCGTCAGGTTTAATAAAGCTTGTAGGAGAAAGGTTTACTAATATTTCAACTGATAACCCGATAGGAAATTTTTTCGAGGCTTTATATCAGTCTGGATTTTACTGGAATTTCTTAGGGCTGGCTCAGATAACAGCTGGCATTTTACTGGTGACACAGCGCTTCGCTACACTTGGTGCATTGATGTTTCTGGCTATACTGACTAATATTTGGATCATTACCATCAGTCTTTCTTTTACAGGAACCTGGATGATAACTACTTTAATGATGATTGCTGTCCTGATATTGGTGATTTGGGACCAGCATAAAATCCTTCCGGTTTTTAATTATAATAAAGCAGGTACAGTGAAGGAATACCCTGATCCCGGTTACAGCTGGATTATTGCAGGAGTGATATATACTATAAGTTTTATTGCTTTGTTTATGCTGAACCCGGTGAAAGGTGGGGCTTATGAAAAATGGCTGAGTATCTTGATAGCCCTGGTTATTGTGACAACATTTATAATCAGTAACTATAAAGCGTATAGAAACCGCAAAATGGTTGTGAATACTCAAAAGATTAAATAG	MKFEKLRTNRINQWIIIHLRYLVGFAFFPSGLIKLVGERFTNISTDNPIGNFFEALYQSGFYWNFLGLAQITAGILLVTQRFATLGALMFLAILTNIWIITISLSFTGTWMITTLMMIAVLILVIWDQHKILPVFNYNKAGTVKEYPDPGYSWIIAGVIYTISFIALFMLNPVKGGAYEKWLSILIALVIVTTFIISNYKAYRNRKMVVNTQKIK				NA	NA	NA	NA	NA
BMS003_03677	510	ydjA	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGAATAACGCATCCATTTTAAAAGAAATCATAGAGCAAAGAAGAAGTATTTTCCCAAAAGATTATACAGACACAGAAATATCTCAGCAGGTTTTAGAAGAGATTTTAAGCTCTGCCACATTTGCTCCCAATCATAAACGTACTAAACCCTGGCGTTTCAAAATATTCAAAGGAGAAGAAAAAGCACAGCTGGCATCAGAAATGCAGTCGATTTATAAAGCAGTCACTCCCGAACAGCTTTTCTTAGAAAAAAAATATACAGATATCGGTTTTAAAATCAATAAAGCCAATGTTGTCGTTTCCATCATAGTCAACTTCAGCGGAATGGTACCTGAATGGGAAGAGATAGCAGCTACCTCAATGGCGGTTCAGAATATGTATCTTACCTGTACAGCAAATAATATCGGGTGCTACTGGAGTTCACCCAAACTTGTTGACGGGTTAAAAGACTCTCTGACCATTGAAGAAAACCAGAAATGTCTGGGACTTTTCTATATGGGAGAAGTATAA	MNNASILKEIIEQRRSIFPKDYTDTEISQQVLEEILSSATFAPNHKRTKPWRFKIFKGEEKAQLASEMQSIYKAVTPEQLFLEKKYTDIGFKINKANVVVSIIVNFSGMVPEWEEIAATSMAVQNMYLTCTANNIGCYWSSPKLVDGLKDSLTIEENQKCLGLFYMGEV				NA	NA	NA	NA	NA
BMS003_03678	585			hypothetical protein	ATGAAGAATATTTACAGAAATTGTAACGAAGAAGATTTGCATGCTGCTTATCTTCATATGACTGATCATACCGGTAAAGTCAATGATGAACTGCGTGAAGCCATCAGCCAGAAATTCAATTATGATGAATTTGTAAAAGCAGCAGAATTCAGGAAAGTTTTAGTAAAAGAAAAAGGAAGAATCTCGTTTGAAGTACATAAGAGAGTTCAGAAAGGCGAAAAAATAGATTGTATTCTTGAAAATATCTCTTCAGAAATGATTGGGAATAGTGATTTGAAGGTTTTTATTCTCGATAAATTTGATCAGTTTTCAAAAGTCAAAGAAAATGATAAAATAGATTCGAAAATAATTTATAAAAGTCTTTTAGGAGTTGTAGTAGCTTCTGTTACCGGACTTCTTTTTTTAAGGGCAATAATTATATCTACCGGAGAGTTTTCATTTTTTCTGCTTGTGCCGGTTTATATTATCAACTATTTGGTGATCTATGGGATTACAGGAAAGTCACGGGAAAATTTTGCTGTTTTTATGGCTGTTTTAATTTCCGTAATCATTTCAACAGTATTTTCTTTTGCACCGCTTAGCTAA	MKNIYRNCNEEDLHAAYLHMTDHTGKVNDELREAISQKFNYDEFVKAAEFRKVLVKEKGRISFEVHKRVQKGEKIDCILENISSEMIGNSDLKVFILDKFDQFSKVKENDKIDSKIIYKSLLGVVVASVTGLLFLRAIIISTGEFSFFLLVPVYIINYLVIYGITGKSRENFAVFMAVLISVIISTVFSFAPLS				NA	NA	NA	NA	NA
BMS003_03679	567			hypothetical protein	ATGTCAGTAAAAATCAGATTACAAAGACACGGTAAAAAAGGAAAACCTTTTTTCCACATCGTGGTTGCAGATTCCAGAGCTAGAAGAGATGGTAGATTCATCGAAAAACTAGGAACTTACAACCCAATTACTAACCCTGCAACTATCGAATTGAACGTTGATTCTGCTGTACAGTGGTTAAACAACGGTGCTCAGCCTACTGATACTGCTAGAGCTATTCTATCTTACAAAGGTGCTCTTTACAAAAAACACTTACAAGGTGGTGTAGCTAAAGGTGCTTTTGACGAAGCTGAAGCTGAAAAAAGATTCAATGCTTGGGTAGAAGCTAAAGATGCTAAAGTACAAGGTAAAGTAGATGGTTTAGCAACTGCTAAAGCTGATGCTAAGAAAGCTGCTTTAGAAGCTGAAGTAAAAGTAAACGAAGCTAGAGTTGCTGCAGCTGCACAAGCTGAAGCTGATGCTAAAGCTGCTGAAGAAGCTGCAAACGCACCTGCTGAAGAAGTTGTTACTGAAGCTACAGAAGGAGAAGCTCCTGCTGCTGAAACTGAAGAAAACACTGAAGCTTAA	MSVKIRLQRHGKKGKPFFHIVVADSRARRDGRFIEKLGTYNPITNPATIELNVDSAVQWLNNGAQPTDTARAILSYKGALYKKHLQGGVAKGAFDEAEAEKRFNAWVEAKDAKVQGKVDGLATAKADAKKAALEAEVKVNEARVAAAAQAEADAKAAEEAANAPAEEVVTEATEGEAPAAETEENTEA				NA	NA	NA	NA	NA
BMS003_03680	543	rimM		Ribosome maturation factor RimM	ATGCGTAAAGAAGATTGCTATTTTTTAGGTAAAATCACACGCAGACATGGACTTGCGGGTAACGTGATCCTTAAATTGGATACCGATCAACCCGAGCTTTACAATAAATTGGAATCAATATTCGTTGAAATCAACGGATTATTGGTTCCATTTTTTATTGAAAAATCATCATGGAGTAAGCTGGATGCTCTGAATATTGCATTCAAAAACTCCTCTGAAGCTATGGTAGATCAGGTGTTGGGTAAAAGTGTTTACCTACCACTTGCTTCACTTCCTAAGCTTTCAGGAAAACAATTCTATTACCACGAAATCATCGGATTTGAAATTTTTGATCAGAATGATAATAACTGTGGTGTGATCAGATCAGTAAACGATCAGACCGCACAGGTGTATTTCATTACAAATCTGGATGGAAAAGAAGTGGTTATTCCCATGATCAAAGACTGGATTCTTACGGTTGACAGAGAAGAAAGAACAATCAAAATGGAACTTCCTGAAGGTCTTATTGATGTATTTCTGGTTCCATCTAAGAAAGACGAATAG	MRKEDCYFLGKITRRHGLAGNVILKLDTDQPELYNKLESIFVEINGLLVPFFIEKSSWSKLDALNIAFKNSSEAMVDQVLGKSVYLPLASLPKLSGKQFYYHEIIGFEIFDQNDNNCGVIRSVNDQTAQVYFITNLDGKEVVIPMIKDWILTVDREERTIKMELPEGLIDVFLVPSKKDE				NA	NA	NA	NA	NA
BMS003_03681	1659			hypothetical protein	ATGAAACCTATCCTACTATTGATCTTTATTTTTGCATTTTATTCTTATCAGGGACAAAGTAAAAATATTGTCACTCCTGAGAAAATTGAGAACCAGATTCAGAAAAAATATTCCGGAAAAATTGTTTTTCTCACTGAAAATATTGCGCCGGAGAATTTGAAGGATTCGGATATTCTTAGTTCTGCAGTATTTCAGGAAAATGGCGATCTTGGTATTCAGGGCTTTTTTGATAATTCACTGGTCAACTATCTGCATCAGCTGGAACCCAGTCTTTCTGTGGAGGAATTGCTTAAAAAAGGAAATTATCAGTTCTCATTTTATATAGACGGAAAGCTCATCTATAAAGAAAACCTCAATACAGGTGCAGGTACTCCGGACAGTAAGAAGTTCAAAACCACATTACGAATACCTCTCCTCAGCAGCAAAAATGAAGATTCGTGGGGAAGATATCTATGGATGCGTTTTTACATGGCCCATAACGGAATTGATGCTCTGGCAGCAGGAAATCACGTTTTAAAAATTGAAATCAGACCTTATCTTAACATTTCCACAATCATAACCGGGCCTATTATTGCAGAAGGACAAATCACTCTTACGGTTCCTTCTCAAAATATTTCGGAACAGCAAATTGCAGTTCAACCTATCCGTTCCAATAGCGGATGGAAGGTTTCACAGGAAAAAATCAATACCGAAATTATCAGAAATCTGAATAAGAAAATGGCAGAAAACAGGTTCAAAAATATAACCGGAATTGTCGTTATAAAAAAAGGAAAATTGCTTCTCGAAGAGTATTTCAACGAATCAGACAGGGATTCTTTGCAGGATACAAGGTCTGTAGGAAAATCTTTTTCTTCAGCTTTAATGGGAATGGCAATCAAAGACGGATATCTAAAAAGTGAAAACCAAAACCTGAAAGAATTCTATGATCTGAAGCTCTTTAAAAATTATTCTTCTCAAAAAGACAATGTAACGATAAAAAGCTTACTGACAATGAGTTCAGGGTTTGACGGTAATGATGAGGATTATGAATCTCCCGGAAATGAGGAAAATATGTACCCGACGGAAAACTGGGTAAAATTTATCCTGGATCTTCCCATGACAGGGAATCCCATTGGTAAAAACTGGAATTATTTTACAGCAGGAGTGGTATTATCAGGAGATATCCTGGATAAAACTGTTCCAAAGGGATTAAAAATCTATGCAGATCAAAAGTTGTTTCAACCTCTTGGAATTACAGACTACAAATGGCAATTTACACCCCAGCAAAAACCTTCCCTGGCGGGAGGACTGCGTATGAAAGCGCTAGATTTTGCAAAATTCGGGCAGTTGTATAAAAATAACGGTATCTGGAACGGAAAAACTGTTTTGGATAAAGATTGGATTAAAAAATCCTTCACTAATTATTTTACTGACAGTCCTGATTTTGAGGGGTATGGATATTTATTCTGGAGAAAAGTTTACACAGTGGGAAACAGTCGTTATGAAGCTTTCCAGTCCAGTGGAAATGGGGGAAATAAAATTATTATTTTCACGAAAATACCTGTTGTTATCGTGATTACAGCACAAGCCTACAACAAACCTTATGCACACCAGCAATCTGAAAAAATAGTACAGGACTATCTTTTATCAGCCTTAAAAATGAGTAATGTAGAAAAGTGA	MKPILLLIFIFAFYSYQGQSKNIVTPEKIENQIQKKYSGKIVFLTENIAPENLKDSDILSSAVFQENGDLGIQGFFDNSLVNYLHQLEPSLSVEELLKKGNYQFSFYIDGKLIYKENLNTGAGTPDSKKFKTTLRIPLLSSKNEDSWGRYLWMRFYMAHNGIDALAAGNHVLKIEIRPYLNISTIITGPIIAEGQITLTVPSQNISEQQIAVQPIRSNSGWKVSQEKINTEIIRNLNKKMAENRFKNITGIVVIKKGKLLLEEYFNESDRDSLQDTRSVGKSFSSALMGMAIKDGYLKSENQNLKEFYDLKLFKNYSSQKDNVTIKSLLTMSSGFDGNDEDYESPGNEENMYPTENWVKFILDLPMTGNPIGKNWNYFTAGVVLSGDILDKTVPKGLKIYADQKLFQPLGITDYKWQFTPQQKPSLAGGLRMKALDFAKFGQLYKNNGIWNGKTVLDKDWIKKSFTNYFTDSPDFEGYGYLFWRKVYTVGNSRYEAFQSSGNGGNKIIIFTKIPVVIVITAQAYNKPYAHQQSEKIVQDYLLSALKMSNVEK				NA	NA	NA	NA	NA
BMS003_03683	498			hypothetical protein	ATGAAAAGAATTCTAAATGTTGTTGAATATAATAAAGCCTCATCAGGCCTTAGGCTTGCTAATTATTTTCTGGATCTTATAATACTATATGTTATTAATTATCTCCTCTCTATTATTTCAAATCTTCTTTATGAAGTAACTTCAATTGAGTTTTTCTATTTGTATAGTAATGGAAATATACTATGGCAGCTCTTTATTGGAAATTTCAATTATTGTCTTTATTACTTTTTGATGGAAAACTATTTAGATGGTAGAACCGTTGCAAAGTATATTACAGGAACCAAAGTAATCAGTACAGACGGTACAAAACCGACTACCCAGCAAGTTATTTACAGAAGCCTTTCCAGAATTGTTCCTTTTGATGGAATATCATTTCTTGGTGTAAACGGCTGGCATGACAAATGGAGTGATACCCGGGTAATTAACATCAAAAATTATCAGGCTGAAATTCAAGCTAAAAGCGAAATAGAAGCTCTTGGAAAGAAAGAAATTGCTTAA	MKRILNVVEYNKASSGLRLANYFLDLIILYVINYLLSIISNLLYEVTSIEFFYLYSNGNILWQLFIGNFNYCLYYFLMENYLDGRTVAKYITGTKVISTDGTKPTTQQVIYRSLSRIVPFDGISFLGVNGWHDKWSDTRVINIKNYQAEIQAKSEIEALGKKEIA				NA	NA	NA	NA	NA
BMS003_03684	1365			hypothetical protein	TTGAAATTCGTTAAAATATTATTTTTGGTAGCAGGAATTGGCATTTTTGGTCAGACCAACGTTGATGATCAGCTGGAGGATTATACCTTTCCTAAGATCAAATCCAGCATTACGATGCCTGTAACGATTCCTCTTTCGGAACTGAGCAATATGATCAATGCTTCCGTGAAAGATCTGATTTATCAGGACGATTCGTATACTGATAATAACAATGACCAGTTTAAGGTAAAAGTATGGAAAACAAGACCAATACGTCTTGTAGGAGGAACCAGCCAGAACTTACTGATTGAAGTTCCTTTAAAAATATGGGCAGAAAAAGGGATTGGTACTTTGGGAGTTTATACTTATCAGAATACCACTTTTGAAACAGTAATGTCCTTCAATACCACCGTTACTTTCAAAAATAACTGGACTATTACCACAAATACCCAGCCCAACGGCTTCAGGTGGGTAACCAAACCTGTTCTGGACTACGGAAGAATACAGATTCCTATTACCTCTATTGTTGAAAAAAGCTTAAAGGAGCAACAGGAAAAGTTCTGTAAAACAATTGATCAGCAAATGGCTACACAACTGAATTTCCAGCAATATGCCCTAATGGCCTGGAATACTTTCCTGCAGCCCTTCAATATCTCAGAAGAATATAATACATGGCTGAAAGTAAGTCCTGTAGGGGTTAATATCACCCCACTGAAGTTTTATGGAAATCAGATCAATGCTACTCTTGGTGTGGATATTTACTCTGAAACTTTTACAGGAAATAAACCTGCCGCATCTTCACCGGTAACCAGTGTTGCCAATTTTAATACAACTCCTACCGTTGCAGATAAATTTATTTTACAGACTACAGCCAATATTCCTTTTACGGAAGCAAGTAATATGGCAAGAAAAACTTTCCTGAACAAGGAGTTTGATGTACGTGACTCTAAAGTAAAAGTAACTGACATCAGAGTATATGGTGTTGATGACAGGGTAATTATTGAGGCTCAGACCGATGGTTATATAAAAGGTACTTCCATCATTTCAGGAATTCCGGTGTACGATGAAACAAAAAGAAAAATTGTTCTGTCAGAAACGAAATTTAAACTAAAAACTACTAATATTCTTCAGAAAACGGCTTCATTGCTGTTCCAGGGGAAAATCATAAAAATGATTGAAGAAGAATATGGTATTCCGACTCAGGAACTGGAAGAAACTTCAAGAAAAAGTATCGAAGAAGCTTTTAACAAAGAATATTATAAAGGATTAAAGATGAGCGGAAAAGTCTTCAATCTCAAGCCAAGTAAAATTCTACTGAGCAATACAGGCATTACAGCTGTTATTGATACGAATGCTTCATTAAAATTAATTGTCAACGGATTTTAA	MKFVKILFLVAGIGIFGQTNVDDQLEDYTFPKIKSSITMPVTIPLSELSNMINASVKDLIYQDDSYTDNNNDQFKVKVWKTRPIRLVGGTSQNLLIEVPLKIWAEKGIGTLGVYTYQNTTFETVMSFNTTVTFKNNWTITTNTQPNGFRWVTKPVLDYGRIQIPITSIVEKSLKEQQEKFCKTIDQQMATQLNFQQYALMAWNTFLQPFNISEEYNTWLKVSPVGVNITPLKFYGNQINATLGVDIYSETFTGNKPAASSPVTSVANFNTTPTVADKFILQTTANIPFTEASNMARKTFLNKEFDVRDSKVKVTDIRVYGVDDRVIIEAQTDGYIKGTSIISGIPVYDETKRKIVLSETKFKLKTTNILQKTASLLFQGKIIKMIEEEYGIPTQELEETSRKSIEEAFNKEYYKGLKMSGKVFNLKPSKILLSNTGITAVIDTNASLKLIVNGF				NA	NA	NA	NA	NA
BMS003_03685	369	folB	COG1539	Dihydroneopterin aldolase	ATGAGCAAAATATATCTTGAAGAGGTAAAAATATATGCGTACCATGGTGTACTTCCTGAAGAAAATATCATCGGCACCTATTATATTCTGAATGCAGAACTTCATACCGATCTTTGGAAAGCAGCAGAATCTGACAATTTGCATGACACGATAAGCTATGCAGATATCAACGATATTCTTCACGGCGAAATGAAAATAAAATCCAAATTACTGGAACATGTAGCCGGAAGAATCATCACAAAAATTCACGACCGCTTTCCACAGATCGATTATATTAAATTAAGAATCACGAAAACAGCTCCGCCTATGCAGGGAGAAATGAAAGGTGCCAGCATAGAGCTTGAAAAGAGTTTTAAACCGGAAAATTAA	MSKIYLEEVKIYAYHGVLPEENIIGTYYILNAELHTDLWKAAESDNLHDTISYADINDILHGEMKIKSKLLEHVAGRIITKIHDRFPQIDYIKLRITKTAPPMQGEMKGASIELEKSFKPEN	PGPT0007905_1759	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
BMS003_03686	1305	thrC	COG0498	Threonine synthase	ATGAAATATTATAATTTAAAAGACCATCTGGAAAAAATTGACTTCAGAGAGGCAACCATAAAAGGTCAGGGAAATCAAAAAGGATTGTTTTTCCCTGAAAAAATTCCACAGTTTGACGAAGAATTTATTCAAAATCTTCACCAATATTCCAATGAAGAGATTGCGTATAAATGTATGAAAGATTTTGTAGGAGATGAAATACCTTCAGAAATAGTAAAAGAAATTGTTGCTGAAACCGTCAGTTTTGATATTCCTTTGGTCAAAATTAATGAGCAGGTCTCTATATTGGAGCTTTTTCATGGGCCAACTTTAGCTTTTAAGGATATTGGCGCCAGATTTATGAGCCGCAGTCTGTCTTATTTCCTGAAAGATCAGAAGAAAAAAGTGACGGTTCTTGTCGCCACTTCAGGAGATACAGGAGGCGCTGTTGCCCATGGGTTTTATAAAATTCCGCAGATCAATGTGGTTATTTTGTATCCAAAAAACAGGGTAAGCCCGGTGCAGGAGAAACAGTTGACAGCATTAGGAGAAAATATTTCGGCATTAGAAGTCAATGGCAGTTTTGATAATTGTCAGAAACTTGTAAAACAGGCTTTTTCAGATGAAGAAGTCAACAATCAGCTATTTCTGACGTCTGCCAATTCTATCAACGTGGCAAGATGGCTTCCTCAGCAGATTTATTATTTAATAGCATTAAAACAATGGATTCAGCAGCATAAAGAACATCCTGTAATCTGTGTACCAAGTGGTAATTTCGGAAATATCTGTGCCGGATTGATTGCTCATTTCAGAGGTTTACCTGCCAGTCATTTTATTGCAGCCTGTAATGCCAATCATGTCATTCCGGATTATTTTATAACCCAAAACTACCAGCCACAAAAAGCCGTCGCAACCCTATCCAATGCTATGGATGTAGGAGATCCGAGCAATTTTGTAAGAATACTGGAACTTTTCGGGCATCAGTTTGAAACTTTAAAAAATAAAATATCAGCTTTTTCTATTGGTGATGCCCAGACAATGAGTACCATCACGGAAGTCTATGAGAAATATGGATATATCCTGGAGCCTCACAGCGCTGTTGCATTTGCTGCAATGGAAAAATATCTAAAGGAAAATCCAGACCAGAAAGGGTTTATTCTGGGTACTGCCCATCCGGTAAAATTTCCTGATGCTGTGGAAAAAGCTATTCAGACCCAGGTTGAAGTTCCGGAATCATTGAATGAGCTTATGAAAAAGGAGAAAAAAACTGTAGAAATAAATTCGGATTTTGAAGAATTAAGACGATTTTTGCTTCATAAAATCTGA	MKYYNLKDHLEKIDFREATIKGQGNQKGLFFPEKIPQFDEEFIQNLHQYSNEEIAYKCMKDFVGDEIPSEIVKEIVAETVSFDIPLVKINEQVSILELFHGPTLAFKDIGARFMSRSLSYFLKDQKKKVTVLVATSGDTGGAVAHGFYKIPQINVVILYPKNRVSPVQEKQLTALGENISALEVNGSFDNCQKLVKQAFSDEEVNNQLFLTSANSINVARWLPQQIYYLIALKQWIQQHKEHPVICVPSGNFGNICAGLIAHFRGLPASHFIAACNANHVIPDYFITQNYQPQKAVATLSNAMDVGDPSNFVRILELFGHQFETLKNKISAFSIGDAQTMSTITEVYEKYGYILEPHSAVAFAAMEKYLKENPDQKGFILGTAHPVKFPDAVEKAIQTQVEVPESLNELMKKEKKTVEINSDFEELRRFLLHKI	PGPT0009175_3114	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
BMS003_03687	927	thrB		Homoserine kinase	ATGAAAAAAGTAAAATTAAAAGTACCCGCTACTGTTGCCAATTTGGTTTGCGGATTTGATATTTTAGGAATGGCAGTCCATGATCCTTATGATGAGATGGAATTCCGATTATTGGAAACCCCTGAAATTATTATAAAACATTCTGACTCTTTTGGCCTTTCGGAAGAACCTTCTAAAAATGTTGCTGGAATTGTCCTGTTAAAAATTCAGGAATATTTCAATATGAAAAACGGTTTTGAAGTCATTATCCATAAACACATTAAGCCTGGCAGCGGGCTCGGCTCCAGTGCGGCAAGTGCCGCCGGAGCCGCCTTCGGAGCTAATCTTTTATTAGGAAACAAACTCTCGAAAGAGGAAATGGTTCATTTTGCCATGTTTGGAGAAGAGCTTGCTTCAGGAGTACGTCATGCAGACAATATCGCACCCTGCATATATGGTGGAATTACCCTGGTAAAATCTGCTGATCCGGTTGATATTATCCCACTAAACAGCCCTGATTTATTTGTGACTGCTGTACACCCGCAGGTAGAAGTCAAAACTTCAGATGCAAGACAGATTTTAAAAAAAAATATTACCCTGAAAAGTGCAGTGGAACAATGGGGAAATATAGCCGGACTGGTAGCAGGGATTCAGAAAAATAACTTCCCGTTGATTGGCAGAAGCCTTAATGATGTAATTATAGAACCTGTCCGCAGCATTCTGATTCCGAAATTTGACAAAATCAAAACAAAAAGTTTGCAATTGGGAGCTTTAGGAGGCGGAATCTCTGGCTCAGGGCCTTCTATTTTCATGCTGTCCGAACAAAAAGAAACAGCAGAAAAAATTGCCATTATGATGAAATCTGTCTATGATGAAATTGATATAGAAAGTTTTGTCTATGTTTCAAAAATAAATTCGGAAGGTATCCAAATCGTTGAAGAAGCTTAA	MKKVKLKVPATVANLVCGFDILGMAVHDPYDEMEFRLLETPEIIIKHSDSFGLSEEPSKNVAGIVLLKIQEYFNMKNGFEVIIHKHIKPGSGLGSSAASAAGAAFGANLLLGNKLSKEEMVHFAMFGEELASGVRHADNIAPCIYGGITLVKSADPVDIIPLNSPDLFVTAVHPQVEVKTSDARQILKKNITLKSAVEQWGNIAGLVAGIQKNNFPLIGRSLNDVIIEPVRSILIPKFDKIKTKSLQLGALGGGISGSGPSIFMLSEQKETAEKIAIMMKSVYDEIDIESFVYVSKINSEGIQIVEEA	PGPT0020275_1849	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
BMS003_03688	2448	thrA_2	COG0460	Bifunctional aspartokinase/homoserine dehydrogenase 1	ATGAAAGTTTTAAAATTCGGCGGAACATCAGTCGCCCATTCTCAGAATATCTTACTGGTGGAAAAAATCATAAAAAGTGAATCTTTAAAAAACAAAATTGTTGTTATTGTTTCTGCCCTTCATGGTGTTACCGACCAGCTGATCAAAGCTGCGAACCATGCTTCTGTAAAAGACGAAAATTATATTCAGACTATTCAGAACCTTGAAGAAAAACACATCAGTCTGGTAAAAGAACTTTTCCCAATCTCGGAACAAAGTTCATGGCTAAGTTTTGTAAAAAAGTATTTCAACGATATAGAAGATCTTTGCAACGGAATTGCAGTACTCGGTGAACTGACAGATAGAATTAAAGATAAAATTGCGTCTTACGGAGAGTTTCTGTCTTCAAATATTATTGCAGCAAGGTTACAGCATGCAGGTCTAGACTGTATATGGATGAATTCTGCAGAACTGATCAGAACAGACAGCAATTTCACCAATGCAAAAGTAGATTTTGAATCCACCGAAAAAAATATTGTCCGTTTTCTGAACGAAAAGCAGAACCAGATCATCATAGGACCCGGCTTTATAGCCCATGACGAAAAAAATAATGTAACCACATTAGGAAGAGGAGGTTCAGATTACACCGCATCTATCGTTGCAGCTTCTATTCATGCGAAAGAACTTCAGATCTGGACAGATGTAAGCGGAATGATGACTGCCGATCCCCGTCTGGCTTCTAACGCCAAACCTATTTCAGAAATATCTTATCATGAAGCAATGGAGCTGTCTCATTTCGGGGCAAAAGTGCTTTATCCGCCTTCCATCCAGCCGGTGATGATAAAAAATATTGACCTGGTCATCAAAAATACTTTTGATCCGCACGCACAGGGTACTTTAATTTCTCATCAACTAAAAGCTTCAGAAAATGAAAAGCAGATTGCCGTAGGAATTTCCAATATGAACAATATTGCCCTGCTTACCTTAGAAGGAAGCGGTATGGTAGGAATTCCGGGTATTTCAGCAAAGCTGTTCCAGTGTTTAAGCCATGAAAAAATAAATGTAATCCTTATTACACAGGGATCTTCAGAACATTCCATCACCATTGCCATTGAAGAAAAAGAAGCTTTACGTGCAGAAAATGCTATCAATTCTTCTTTTGCTGATGATATTAATCTGAAAAGAGTCTATGCCGTGAAAATTGAAACTGGGCTTTCCATTGTAGCGCTTGTAGGAGAAAGCATGAAAAGCAGAAGCGGTGTGAGCGCAAAAATGTTCGGATGTCTCGGAAATAACGGGGTTAATATAAGAGCCATTGCACAGGGATCTTCAGAAAGAAATATCAGTATAGTTATTTCCGAAAAAGACAGTAAAAAAGCAGTCAATGTACTGCATGAAGAGTTTTTTGAATCTGAAATTAAACAAATTCATCTCTACATCTGCGGAACAGGAAATGTAGGTTCAAAACTGATCCAGCAGATTTATGACCAAAACGAATACTTAAAGGAAAACTTTTTACTTAATCTGAGAATTGCAGGAATTTCCAACAGCCGCCATATGCTGTTTTCAGATCAGGGAATAGCTAAGGAAAATTACCTTAACTGGAACCAGCCTGGTGAAAAAGCCTCTGCCAAAGAATTTGCTGAGGAAATAATCCGCAGAAATCTCAGAAACTCTGTGTTTGTGGATGTAACTGCAAGCCCTGATGTTCCTGAAGTGTATGAAAGCTTATTAAAAAGAAGTGTAAATATTGTTGCATGTAATAAGATTGCAGCTTCTTCAGATTTTAAAAAGTATAAAACGTTAAAAAATACAGCGAGAAACCACAGCTGCAACTTCTATTTTGAAACCAATGTAGGAGCCGGGCTTCCGGTAATAGGAACTATTAATGACCTTATCAAAAGCGGAGATCAGATCCAGTCTATTAAAGCTGTTTTAAGTGGCACACTGAATTTTGTATTTAATGAATATGATGGCAGCAGAACATTTTCTGAAGTAGTGGCACAGGCACAGAAAGAAGGCTATACAGAACCTGATCCAAGACTTGATCTGTCCGGAACTGATGTGGCAAGAAAAATTTTAATTCTGGCAAGGGAAGCCGGATATCCTCTTCAGTTTGAAGAGATTGAAAACATAGGTTTCCTGCCTGAAGAATGCATGCAGGGAAGTGTAGACAGCTTCTACGAAAAACTTACAGTATATGAAGAACATTTTAAAACCTTATTGAATAAAGCAAAAGCAGAAGGAAAAATATTAAAATACGTTGCAGAATTTGAAAACGGAAAAGCCAAAGTCGGTTTACAGCATATTGCTCCGGAAAGTGATCTGTTTCACCTGTATGGAAAAGACAACATTGTCATTTTTAAAACCCTGAGATATTCTGAACAGCCATTGGTGGTAAAAGGTGCCGGTGCCGGTGCTGACGTTACCGCAAGTGGAGTTTTCGCAGATATCATTCGTTCCATCTAA	MKVLKFGGTSVAHSQNILLVEKIIKSESLKNKIVVIVSALHGVTDQLIKAANHASVKDENYIQTIQNLEEKHISLVKELFPISEQSSWLSFVKKYFNDIEDLCNGIAVLGELTDRIKDKIASYGEFLSSNIIAARLQHAGLDCIWMNSAELIRTDSNFTNAKVDFESTEKNIVRFLNEKQNQIIIGPGFIAHDEKNNVTTLGRGGSDYTASIVAASIHAKELQIWTDVSGMMTADPRLASNAKPISEISYHEAMELSHFGAKVLYPPSIQPVMIKNIDLVIKNTFDPHAQGTLISHQLKASENEKQIAVGISNMNNIALLTLEGSGMVGIPGISAKLFQCLSHEKINVILITQGSSEHSITIAIEEKEALRAENAINSSFADDINLKRVYAVKIETGLSIVALVGESMKSRSGVSAKMFGCLGNNGVNIRAIAQGSSERNISIVISEKDSKKAVNVLHEEFFESEIKQIHLYICGTGNVGSKLIQQIYDQNEYLKENFLLNLRIAGISNSRHMLFSDQGIAKENYLNWNQPGEKASAKEFAEEIIRRNLRNSVFVDVTASPDVPEVYESLLKRSVNIVACNKIAASSDFKKYKTLKNTARNHSCNFYFETNVGAGLPVIGTINDLIKSGDQIQSIKAVLSGTLNFVFNEYDGSRTFSEVVAQAQKEGYTEPDPRLDLSGTDVARKILILAREAGYPLQFEEIENIGFLPEECMQGSVDSFYEKLTVYEEHFKTLLNKAKAEGKILKYVAEFENGKAKVGLQHIAPESDLFHLYGKDNIVIFKTLRYSEQPLVVKGAGAGADVTASGVFADIIRSI	PGPT0020160_989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020160-thrA-K12524	NA	NA
BMS003_03689	225			hypothetical protein	ATGTTAACTAATAACGAAATAATTATGAAAAATTTAAAGAAATTAAACCGGGAAAATCTAAAATCAATCAGTGGAAAAGGGTTGAATAACTGTTTTGAGAATTGTCCTGCCGGGCCGTACGGACCAGGTGAACCAAGATCATGTGCTGATTACAATGCTTTACCAGAGTGTTGTAAACTCAGAGTTTTGGTAAGTGTTGAATGCTTCGGCCCATATCTAAACTAG	MLTNNEIIMKNLKKLNRENLKSISGKGLNNCFENCPAGPYGPGEPRSCADYNALPECCKLRVLVSVECFGPYLN				NA	NA	NA	NA	NA
BMS003_03690	204			hypothetical protein	ATGAAAAGTTTAAAGAAATTAAACAGAAAAAAGCTTCAGACATTGCTGGGAGCAGGCCCGTCAGGATGTGAGGGATGTCCGAAGAATACAACTTATGGAAATAATCCTGGTGATGCTCCCTGTGAGGCTTATCAGATGCTTCCTATGCGCTGTAAAATGTGTGTAATTGTTGATATATCCTGCGTGGATGGAGGAGTATCCTAG	MKSLKKLNRKKLQTLLGAGPSGCEGCPKNTTYGNNPGDAPCEAYQMLPMRCKMCVIVDISCVDGGVS				NA	NA	NA	NA	NA
BMS003_03691	1020	nadA	COG0379	Quinolinate synthase A	ATGAGTACCGAAACATTAGAAAAAGCTAAATCTGCAATTCCTGTCAGAGGATTTCTGGATATAAAAGATATTGCTATTCCTCAGGGAGAAGAGCTGGTGAAAGCCATTCTTAAACTGAAAGAAGAAAAAAATGCAGTGATCCTTGCCCATTATTACCAGCCCGGAGAAATTCAGGACATCGCTGATTTCCTTGGAGATTCTTTACAGCTCGCAAGACAGGCCAAAGATACCAATGCTGACATGATCGTATTCTGTGGAGTACATTTCATGGCAGAAGCTGCTAAAATTCTGAATCCAACTAAAAAAGTAGTTCTTCCTGATACCATGGCCGGATGCTCTCTGGCAGATGGGTGTTCCGGAGAAGGATTGAGAAAAATGCGTGAGCAGCACCCAAATGCTTTAATTGCCACTTACATCAACTGTAACGCAGAAACTAAAGCAGAAAGTGATATCATCGTAACAAGTTCCAATGCTGAAACCGTTATTGAAGCACTTCCGAAAGACAGACCAATCATCTTCGCACCGGATAAAAACCTGGGAAGATATTTATCTAAGAAAACAGGACGTGATATGATCCTTTGGGATGGAAGCTGTGTAGTGCACGAAGCATTTTCTATGGAAAGAATTGCCCAGCAATTGGCAGACAACCCGGATGCTAAACTGATTGCACACCCTGAAAGTGAAGAAGCCGTTTTAAAACTAGCTCACTTCATCGGTTCTACTTCTGCCCTGTTGAACTATGTAGAGAAAGATGACTGTCAGAAATTCATCATTGCAACAGAAGAAGGAATTCTTCACGAAATGAGAAAACGTGCTCCGCACAAGGAATTGATTCCCGCATTGGTTTTTGACGAAAGCTGTAACTGTTCGGAATGTTTCTACATGAAACGCAACACCATGGAAAAATTGTATTTATGTATGAAATATGAGCTTCCTGAGATTCTTATTGACGAAGAATTAAGATTAAAAGCATTGAAGCCTATTGAAGCCATGCTTGATCTTTCAAAAAGCATAAAATAA	MSTETLEKAKSAIPVRGFLDIKDIAIPQGEELVKAILKLKEEKNAVILAHYYQPGEIQDIADFLGDSLQLARQAKDTNADMIVFCGVHFMAEAAKILNPTKKVVLPDTMAGCSLADGCSGEGLRKMREQHPNALIATYINCNAETKAESDIIVTSSNAETVIEALPKDRPIIFAPDKNLGRYLSKKTGRDMILWDGSCVVHEAFSMERIAQQLADNPDAKLIAHPESEEAVLKLAHFIGSTSALLNYVEKDDCQKFIIATEEGILHEMRKRAPHKELIPALVFDESCNCSECFYMKRNTMEKLYLCMKYELPEILIDEELRLKALKPIEAMLDLSKSIK	PGPT0013365_2379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
BMS003_03692	564	gmk	COG0194	Guanylate kinase	ATGGATAAAGTAATTATATTTTCAGCACCATCAGGGAGCGGAAAAACTACATTGGTAAAGCACTCATTAGAAACATTTCCTGAGCTGGAATTTTCAATCTCATGCACTACAAGACAGCCAAGAGGAAGTGAAATTCATGCCGTAGATTATCATTTTCTGACACCGGATGAGTTCAGACAGAAAATTTCTGAAGACGCTTTTGTAGAATATGAAGAAGTATATACTGACAAATATTACGGTACTTTAAAATCTGAAGTAGAAAAAATCTGGAATCAGGGAAAAGTTGTTATTTTTGATGTAGATGTAAAAGGAGGAATCTCGTTAAAAAAATATTTTGGTGAAAAAGCACTGTCTATTTTTATAGAACCCCCTTCCATTGAAGAATTGGAACGAAGATTGATCTCCAGAAACACAGATGATGCAGAAACCATTAAAACCCGTGTGGCAAAGGCAGAAGAAGAAATGACCTATGCCGATGAGTTTGACAAGATCGTGATCAATGAAGATCTTGATGCAGCTAAAAGAGAAATAGAAAGTTTAATAAAAAGTTTTATCAGTAATTAA	MDKVIIFSAPSGSGKTTLVKHSLETFPELEFSISCTTRQPRGSEIHAVDYHFLTPDEFRQKISEDAFVEYEEVYTDKYYGTLKSEVEKIWNQGKVVIFDVDVKGGISLKKYFGEKALSIFIEPPSIEELERRLISRNTDDAETIKTRVAKAEEEMTYADEFDKIVINEDLDAAKREIESLIKSFISN	PGPT0021475_5174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
BMS003_03693	846			hypothetical protein	ATGACCGGATTCGGTAGAGCCGAAGATGTTTTTGAAGGAAAAAAAATTACTATTGATATTAAATCTCTGAACAGCAAGAGCTTTGATTTAAATATTAAAATTCCTTTACGTTATAAAGAAAAAGAATTTGAAATCAGAAAAATTCTTAACGATAGAATTATCCGTGGAAAAGTAGACTGCTACGTTAATATTGAGAATCTTGAAGAATCCAATGATGTAAAAATTAATAAAAACTTAATTGACTCTTACATCAATGAGCTTAAAAATATAGCTTCTGACGGTCCCGATTTTGAGTATCTTAAAATGGCGGTAAGACTTCCTGATGCTATCACATCAAGACCTGACGAATTAACGGAAGGGGAATGGGAAGCTTTGGCTAAAATTGTCAATAATGCTGTTGACAGATTCGAAGAATTCAGAAAAACAGAAGGCAGCATTCTGCATGAAGAATTAAACAGGAATATTCAGAATATCGACAAGTATCTTGGAGAAGTAATTCCTTTTGAAGAAGAAAGAATTGTAAGTGTGAAAGAGCGTTATCAGAAATCTTTGAAAGAATTCGAAAACGTGGATGAAACCCGTTTCTACCAGGAAATGGCCTATTTCACTGAAAAGCTTGATATTTCTGAAGAAAAGGTAAGACTTGCCCAGCACCTGAAATATTACAAAGAAGTAATGGACAATGAATCTTTCAACGGAAAAAAACTGGGCTTTATTTCTCAGGAAATCGGAAGAGAAATCAACACACTAGGCTCTAAAGCCAATCACGCTGAAATCCAGAAACTGGTTGTGATGATGAAAGATGACCTTGAAAAAATAAAAGAGCAAACGTTAAACGTATTATAA	MTGFGRAEDVFEGKKITIDIKSLNSKSFDLNIKIPLRYKEKEFEIRKILNDRIIRGKVDCYVNIENLEESNDVKINKNLIDSYINELKNIASDGPDFEYLKMAVRLPDAITSRPDELTEGEWEALAKIVNNAVDRFEEFRKTEGSILHEELNRNIQNIDKYLGEVIPFEEERIVSVKERYQKSLKEFENVDETRFYQEMAYFTEKLDISEEKVRLAQHLKYYKEVMDNESFNGKKLGFISQEIGREINTLGSKANHAEIQKLVVMMKDDLEKIKEQTLNVL				NA	NA	NA	NA	NA
BMS003_03694	921	miaA	COG0324	tRNA dimethylallyltransferase	GTGAAAAAGAAAAATCTAATTTCTGTAGTAGGACCCACCGGAATTGGTAAAACAAAATTGGCAATTGATTTGGCTCAGCATTTCAATACGGAGATTATATCCTGTGATTCCCGTCAGTTTTTTAAAGAAATGAAAATAGGAACGGCTGCCCCTTCAGAAGAAGAATTGGCTGGTGCACCTCATCATTTCATCGGAAATCTTTCGGTGGAAGACTATTATTCTATAGGTCAGTATGAAGAAGATGCACTTCAAAAACTTAATGAACTTTTTACAACTCACGATACCGTCATTCTTGTTGGTGGAAGTATGATGTATGAAAAAGCAGTGATAGAAGGCTTGCACGACCTTCCGGAAGCCAATGCGGAAAATCAGGAGAAACTTCAAAATATCATGGAGCAAGAGGGAATAGAAAAACTCCAGGAAATTTTGAAGAAACTGGATCCCGAGTATTTCAGTGTGGTAGACATTCACAATCACCGTAGATTGTTGAGAGCCATTGATATTATCTGGCAAACAGATAAAAAATATTCTGAACATATTTCAGTTTCTCAAAATGGAAGAGATTTTAAGGTGATCCGTATCGGAATTGAAGCGGAAAGGGAAGAACTGTACGACAGAATCAACCGCAGAGTGGATATTATGATGGAAAAAGGCTTGCTGAATGAGGTAAAAGGTCTTGAGAAATTCAAAGAACTGACTGCTTTAAATACAGTAGGATATGCGGAACTTTTCAAATATTTTGATGGAGAATGGGATCTGGATTTTGCAGTCTCAGAAATTAAAAAGAACAGCCGGAGATATGCGAAACGTCAGCTGACATGGTATAGAAAGGCGGATGATATTCACTATTTACAATTGGGATATTCTGAAAAAGACTATGACGAGTTGCTGAAATGGATTGCGGAACAATTTCAGGAATAA	MKKKNLISVVGPTGIGKTKLAIDLAQHFNTEIISCDSRQFFKEMKIGTAAPSEEELAGAPHHFIGNLSVEDYYSIGQYEEDALQKLNELFTTHDTVILVGGSMMYEKAVIEGLHDLPEANAENQEKLQNIMEQEGIEKLQEILKKLDPEYFSVVDIHNHRRLLRAIDIIWQTDKKYSEHISVSQNGRDFKVIRIGIEAEREELYDRINRRVDIMMEKGLLNEVKGLEKFKELTALNTVGYAELFKYFDGEWDLDFAVSEIKKNSRRYAKRQLTWYRKADDIHYLQLGYSEKDYDELLKWIAEQFQE	PGPT0007210_4053	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
BMS003_03695	1413	oprM_4	COG1538	Outer membrane protein OprM	ATGAAAAGAGTTAAAAATATTATTCTAACCTTTGCGCTGGCTATAGGTTCTGTTTCATGTGTATCTAAACTGGCATACACAGAGCCTGAGCTTCCGCTTCCGGAAAAGTTCCAGTACACCGCAACTGCCGACACAGCCAGCATCGCCAATCTGGAGTGGAAACAGTTTTTCAGCGATCCTGTTTTACAGGGATTGATTGAAAAAGGAATTAAAAACAATTATGACCTTCAGATTGCCTTAAAGCAGGTAGCTGCTTCACAGGAAAAGCTGAAACAGGCAAAATATATGCAATATCCGGACGTTGGTTTCGGAGTAAGCGGACAGATTTCAAGACCTTCCAAAAACAGTATGAACGGGCAAAGCTTAAATTTATTTTTAGGTTCAAGCCATGTTGAAGATTATAACGCAGCCTTTAACCTTTCATGGGAAGCAGACATCTGGGGAAAGATCAAAAACCAGCAGGAAGTTTCAAGAATGCAGTATCTTCAGACGTATGAAGGTTCAAAAGCAGTTCAGACTCAGGTGGTAGCAGCTATTGCGCAGGGGTATTATAATTTGTTAATGCTTGACAGACAATTAGCGATTGCAAAATCCAATCTGGAACTAAGCAGCAATACCCTATTGATTACGCAAAAAATGTGGGAAAGTGGTGATAACACTTCTTTAGGAGTACAGCAGGCAGCCGCACAGAAACAGGCAACAGAACTTCTGATTGCCCAGCTGGAACAGAATATCGCCATTCAGGAAAACGCTTTGAGTATTCTGACTGGTGAACTGCCTAATAAAGTAAACAGAACGATTGAAATGTCTGATACTTCATTACCTCAGAATATTACAGCAGGGCTTCCGGCAGCTATGGTAAGCCGTAGACCAGATGTACGTCAGCAGGAGTTGGTTTTACTAGAATCCAATGCCATGGTAGGAATTGCCCAAGCTAATATGTATCCAGCGTTAAAGATTACAGCTAACGGAGGAGTGAATTCATTCAAATTTGATAACTGGTTTCAGATTCCGGCTTCATTATTCGGATCGGTTTTAGGAGGAATTACCCAGCCTATTTTCCAGAAAAGACAATTGAAAACAGACCTGGAAGTAGCAAAAATTCAAAGAGAGAAAAATGTACTGGCATTCCGTCAGTCGGTATTGAATGCCGTGGGAGAAATTTCTGATGCTTTGGTTTCTAATGAAAATTTAAAAATTCAGGAACAGAAAGCCACAGAGCAATCTACCACGTTGAAAGACGGAATTAAAAGTGCACAACTTCTTTATAAAGGAGGTTCAGCCAATTACCTGGAAGTGATTACAGCACAGGGGAATTCCCTACAGGCAGAGTTGAATCTGGCTTCCATTAAAAGACAGAGATTAAGCAGTATTGTAGATTTATACAGAGCTTTAGGCGGCGGATGGAAGTAG	MKRVKNIILTFALAIGSVSCVSKLAYTEPELPLPEKFQYTATADTASIANLEWKQFFSDPVLQGLIEKGIKNNYDLQIALKQVAASQEKLKQAKYMQYPDVGFGVSGQISRPSKNSMNGQSLNLFLGSSHVEDYNAAFNLSWEADIWGKIKNQQEVSRMQYLQTYEGSKAVQTQVVAAIAQGYYNLLMLDRQLAIAKSNLELSSNTLLITQKMWESGDNTSLGVQQAAAQKQATELLIAQLEQNIAIQENALSILTGELPNKVNRTIEMSDTSLPQNITAGLPAAMVSRRPDVRQQELVLLESNAMVGIAQANMYPALKITANGGVNSFKFDNWFQIPASLFGSVLGGITQPIFQKRQLKTDLEVAKIQREKNVLAFRQSVLNAVGEISDALVSNENLKIQEQKATEQSTTLKDGIKSAQLLYKGGSANYLEVITAQGNSLQAELNLASIKRQRLSSIVDLYRALGGGWK	PGPT0009810_2260	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
BMS003_03696	3183	bepE_6		Efflux pump membrane transporter BepE	ATGTTAAAACAATTTATAGAAAGACCGGTCCTTTCAACGGTCATCTCCATAATACTCTTATTATTGGGAGCTTTGTCTCTCTTTAATTTACCGATTGCCCTTTTCCCGGATATCGCTCCACCAAGCGTTCAGGTAACGGCATTCTATCCCGGAGCGAATGCTGAGGTGGTAGCACGTTCTGTTGCCACTCCTATTGAGGAAGCGGTAAACGGAGTTGAGAACATGACTTATATGACCTCCAACTCCAGTAACGACGGTACCATGACCCTGAGCGTTTTCTTTAAGCAGGGTGCTGATGCAGACAATGCGGCAGTAAACGTACAGAACCGCGTATCAAAAGCGATGAGCCAGCTGCCCCAGGAAGTAGTACAGGCCGGGATTTCAACCCAGAAGGTACAGAACAGTATGATCATGTTCATGGGATTAACCAGTGAAGATGCTAAACAATATGATGAATTATTCCTTCAAAACTACCTGAAGATCAATGTTATTCCACAGATACAGCGTATTCCGGGGGTAGCACAGGCTCAGGTATTCGGAACAAGGGATTATTCCATGAGAATCTGGCTGAAACCGGATCGTCTAGCGGCTAATAATCTTTCTCCGCAGGAAGTTTTGGGAGCGATCAAAGATCATAACCTTGAAGCAGCACCAGGCCGTTTGGGACAGGGAAGTAAGGAAACTTACGAATATATCCTTAAATATAAAGGAAAACTGAACAAAGGTGAGGACTACGAAAACATTGCTATCAAAGCAAACAGCGATGGCTCTTTCTTAAGATTAAAAGATGTTGCACGGGTAGAGTTCGGATCTTATACCTATACTGCCACCAACAGAGTAGACGGAAAACCGGTTGCCGGATTTGCCATCCTGCAGACTGCTGGTTCTAACGCCAACGAAATCCTGACTGAAATCGAAAAGCAGGTAAAAGTAATGGAAACCACGCTTCCAAAAGGAGTGAAACCTATCATCATGTATAATTCCAAAGACTTCCTTGATGCTTCGATTCATCAGGTTGTGGAAACGCTTGTTATTGCTTTCGTGTTGGTATTTATTGTAGTATTTATTTTCCTTCAGGATTTCAGATCTACATTAATTCCGGCAATTGCCGTACCGGTAGCGATTATCGGAACATTTTTCTTCCTTCAGTTATTTGGTTTCAGTATCAACATGCTTACCTTATTTGCATTGGTACTCGCCATCGGTATTGTAGTGGATGATGCCATTGTGGTGGTAGAAGCCGTCCATTCTAAAATGGAACAGACGGGAATGCCTGTAGAGCATGCTACGATGCACTCGATGAGCGAAATTTCAGGAGCCATTATTTCCATTACACTGGTAATGTGTGCCGTATTTATTCCGGTAGGATTTATGCAGGGACCTGCGGGAGTTTTCTACAGACAGTTTGCCTTCACATTAGCGATTGCGATTTTAATCTCGGCAGTGAATGCATTAACATTGAGCCCGGCATTATGTGCGATGTTCTTAAATGATCCTCAGGGAGAACATGGTGAGCACGGTCATAAAAAAGGTTTTGGAGCAAGATTCTTCAATGCCTTTAATGCCAGTTTCAACAGCATGACCAGAAAATATATCTATAGCCTTAAGTTTTTAATCAAAAACAAATGGGTGGCGATAGGAGGTCTTGTCGTCATCACAGCAGCAAGTGTATTTCTGATCAAAAAAGCACCATCAGGATTTATTCCTACGGAAGACCAGGGATTCGTATTGTATGCCGTGAATACTCCTCCGGGAAGTTCACTGGAAAGAACACACAGAGCGACAGCACAAATTGATAAAATCATCAACGGGGAAAAAGCAACCAACCACCTTTGGGTAGCCGATGGGATGAACTTCATCAGTAATGCCAACGCTTCTCCATATTCTGCAGGTTTCATTAAGCTTAAAGATTATGACAAGCGTGGTGAGATGAAAGACCCGGATCAGATTGCAGCAACATTGACAGGTAAGGTAAGCCAGGTGAAAGATGCCAACGCATTCTTCTTCAACTTCCCTACTGTACAAGGTTTCGGTAACGTTTCCGGGTTTGAATTCATGCTTCAGGATAAAACAAACGGTTCTTTTGAACAATTGGGAACAACCACTCAACAGTTCATCGGAGAGCTGATGAAAAGACCTGAAATTGCTTTCGCCTTTACCACTTATGCAGCAGGAAACCCTCAGTATACTATTGATGTAGATACGGATAAAGCCAATCAGTTAGGTGTTTCTGTAACAGAACTGATGCAGACCATGCAGATTTATTTCGGGAGTAGCTTTGTATCGGATTTCAACAGATTCGGAAAATACTACAGAGTAATGGCTCAGGCAGATATTCCTTACCGTACGGATATTAATTCATTAGAAGGAATTTATGTAAAAAATAAATCCGGAGAAATGGTTCCTGCCAAAACTCTGGTAACGTTGAAAAGATCTTTCGGTCCTGAAACGGTAACAAGAAATAACCTTTTCAATGCCGTTACAATTAACGGAACTCCGAAACCTGGATACAGTACCGGAGACGCCATCAAAGCGGTAGAAGAAGTTGCCCAGCAGTCCCTTCCGAGGGGATATGGGTATGAGTGGACGGGGATTACCCGTGAAGAGATTAAAACAAGCGGGCAGACTGCCTTTATTTTCTTCTTAAGTATCCTGTTTGTTTACTTCTTACTGGCAGCTCAATATGAAAGTTATATCCTTCCATTTGCTATTATTCTTACCATTCCTACCGGGATTTTCGGAGTATTTGCATTCACTGGATTAGCAGGAATTGACAACAATATTTATGTTCAGGTAGGATTGATCATGCTGGTAGGACTATTAGCGAAAAATGCCATCCTGATTGTAGAATTTGCCGTACAGAGAAGAAAAGCAGGTAAAACACTTATAGAATCTGCACTTCAGGCATCAAGATTACGTTTAAGACCGATCTTAATGACCTCTTTCGCCTTTATCGTGGGAATGCTTCCGCTGGTATGGACGCAGGGTGCTTCTTCAAAAGGAAACCATTCTATCGGATATAGTACCGTAGGAGGAATGCTTACCGGAGTAATATTCGGGATCTTTATCATTCCGGTAATGTATGTAATATTCCAGTATCTGCATGAAAAAATGCCAAGCAGAAAAAAGAAAAGACTTCTGAAAAAACAAATGGAGGAAGAACTTTTAGCTGCTGGTCACTAA	MLKQFIERPVLSTVISIILLLLGALSLFNLPIALFPDIAPPSVQVTAFYPGANAEVVARSVATPIEEAVNGVENMTYMTSNSSNDGTMTLSVFFKQGADADNAAVNVQNRVSKAMSQLPQEVVQAGISTQKVQNSMIMFMGLTSEDAKQYDELFLQNYLKINVIPQIQRIPGVAQAQVFGTRDYSMRIWLKPDRLAANNLSPQEVLGAIKDHNLEAAPGRLGQGSKETYEYILKYKGKLNKGEDYENIAIKANSDGSFLRLKDVARVEFGSYTYTATNRVDGKPVAGFAILQTAGSNANEILTEIEKQVKVMETTLPKGVKPIIMYNSKDFLDASIHQVVETLVIAFVLVFIVVFIFLQDFRSTLIPAIAVPVAIIGTFFFLQLFGFSINMLTLFALVLAIGIVVDDAIVVVEAVHSKMEQTGMPVEHATMHSMSEISGAIISITLVMCAVFIPVGFMQGPAGVFYRQFAFTLAIAILISAVNALTLSPALCAMFLNDPQGEHGEHGHKKGFGARFFNAFNASFNSMTRKYIYSLKFLIKNKWVAIGGLVVITAASVFLIKKAPSGFIPTEDQGFVLYAVNTPPGSSLERTHRATAQIDKIINGEKATNHLWVADGMNFISNANASPYSAGFIKLKDYDKRGEMKDPDQIAATLTGKVSQVKDANAFFFNFPTVQGFGNVSGFEFMLQDKTNGSFEQLGTTTQQFIGELMKRPEIAFAFTTYAAGNPQYTIDVDTDKANQLGVSVTELMQTMQIYFGSSFVSDFNRFGKYYRVMAQADIPYRTDINSLEGIYVKNKSGEMVPAKTLVTLKRSFGPETVTRNNLFNAVTINGTPKPGYSTGDAIKAVEEVAQQSLPRGYGYEWTGITREEIKTSGQTAFIFFLSILFVYFLLAAQYESYILPFAIILTIPTGIFGVFAFTGLAGIDNNIYVQVGLIMLVGLLAKNAILIVEFAVQRRKAGKTLIESALQASRLRLRPILMTSFAFIVGMLPLVWTQGASSKGNHSIGYSTVGGMLTGVIFGIFIIPVMYVIFQYLHEKMPSRKKKRLLKKQMEEELLAAGH	PGPT0016195_702	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
BMS003_03697	1161	mexA_2		Multidrug resistance protein MexA	ATGAAATTACCTGGAAAAACAAGGTTTATTGTACTTATTGCAAGTATAATTCTTTTACAGAGCTGCACAAAAGCCGCAGAAGGAACCAATGCCGCACCTCCAGCTCCAGAACTTCCGGTTTATACCGTTATCACCTCACCCGCTACTACATATCAGGAATTCCCTACTGCTTTAGAAGGGAAAAACAACGTAGAAATAAGATCTCAGGTAGATGGATACCTGGACAGAATCTATGTAGAGGAAGGTGCTTATGTAAGAGCAGGACAACCATTATTTAAAATAGATTCAAGAAGCTACGGCGAGCAGATGAATATGGCTCAGGCCAATCTTCAGGTTGCCAACGCTAACATTCAAAAAGCAAGAGTGGAAGTAGACAGACTTCAGCCACTGGTTGCTGCAAAAGTAGTTTCTGATGTACAGCTTAAAACAGCAAAAGCCAATTATGAAGCGGCCGTTGCTGCTGCTGCACAAGCCAGAGCCTCTGTAGGAAGCGCAAGAATCAATGTAGGATTTACAACCATTACAGCTCCTGTAAGCGGTTATATCGGAAGAATTCCTTACAAAAAAGGAAGCCTGATCTCAAGAACAGATGTAAATCCATTAACATTATTATCTGATATCAGTGAAATTTACGCCTATTTCTCTTTAAGTGAGCTTGACTTCATTGCTTTCCAGAATAAATATCCGGGAGCAAGCCTGGAAGAAAAGCTGAAAAATATGCCGATGGTAGATCTTGTCATTGCCGATAACAGCACTTATCCTGAAAAAGGAAGACTAAGCATCGTAGACGGCCAGTTTGATAAAACTACCGGAGCCATCAGTGTACGTGCCGTTTTCCCTAATGCCAACGGAACTTTAAGAACCGGAAACACTGGAAGAGTGCGTATGCCTCAGCTGATATCGAAGGCAGTAGTTATTCCGCAGGAATCTACATTCGAGATTCAGGATAAAACCTATGTATATGTGATGGATAAAGATAAAAAAGTAATGGGAAGACCTATTAAAATATCTGGAAAAACAGATAGTTATTATTTTATTTCTGAAGGACTTACTCCCGGAGAAAAAATTGTGTACACAGGGATAGGAAACCTGAAAGACGGTGCTTCCATCAAGCCGAAAAATATTTCTTCTGACAGCTTATTAAAAGCAAAACCATTATAG	MKLPGKTRFIVLIASIILLQSCTKAAEGTNAAPPAPELPVYTVITSPATTYQEFPTALEGKNNVEIRSQVDGYLDRIYVEEGAYVRAGQPLFKIDSRSYGEQMNMAQANLQVANANIQKARVEVDRLQPLVAAKVVSDVQLKTAKANYEAAVAAAAQARASVGSARINVGFTTITAPVSGYIGRIPYKKGSLISRTDVNPLTLLSDISEIYAYFSLSELDFIAFQNKYPGASLEEKLKNMPMVDLVIADNSTYPEKGRLSIVDGQFDKTTGAISVRAVFPNANGTLRTGNTGRVRMPQLISKAVVIPQESTFEIQDKTYVYVMDKDKKVMGRPIKISGKTDSYYFISEGLTPGEKIVYTGIGNLKDGASIKPKNISSDSLLKAKPL	PGPT0003275_2779	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
BMS003_03698	597			hypothetical protein	ATGGGTCTACATGAACGCCGTCAACGAGAAAAAGAATCCATCCGTGCAAATATTTTGCAGGCTGCTTTTACTTTGGCAAAAACTGAAGGCTGGGGTTCACTTTCTATGCGTAAGATAGCAGATGCTATTGAGTATAGTGCGCCTGTAGTGTATGATTACTTTGAAAATAAAGAAGCTATTTTATTTGAAATTTCTTTGGATGGCTTCCACAAGTTACATATAGAATTATTAAAAGCTCAGCAGAAACACGATACTCCGGAAGAGCAGCTTGTTGCCATTGTGGATGCGTACTGGAACTTTGCTTTTAAGAACAAGGAATATTATCAACTGATGTTTGGTCTTGGAATGCAGTGTTGCGGAAAAGGTCAGATGAAAAAGGAATTCTCATCATTTCAGGAGCTTATCTATGAATGTACTTACGAGATTATCAAAAAAAACGGATCCAATCCGGACAATGCCTGCCATATGTCTCACGCTCTGTTTTCTGCAGTACATGGTATGATCTCTATTATGATGATGCGTACAGCTGATATCCCTTCAACAATGAATAAGACTACATTGGACGAAACTGTTTCGGCTTTTATTAAGTCTTTATAA	MGLHERRQREKESIRANILQAAFTLAKTEGWGSLSMRKIADAIEYSAPVVYDYFENKEAILFEISLDGFHKLHIELLKAQQKHDTPEEQLVAIVDAYWNFAFKNKEYYQLMFGLGMQCCGKGQMKKEFSSFQELIYECTYEIIKKNGSNPDNACHMSHALFSAVHGMISIMMMRTADIPSTMNKTTLDETVSAFIKSL				NA	NA	NA	NA	NA
BMS003_03699	555	resA_5		Thiol-disulfide oxidoreductase ResA	ATGAATACTCCCTCAAATATGCTGGCATTAGGAACAAAAGCTCCGTTTTTTGAACTTCCTAACCCTTCAAAAACGAATGAACTTCAGTCTTTGGAAGAACTGAAAGGAGAAAAAGGTACTTTGGTGATCTTTATGTGCAACCACTGTCCGTTTGTTCTTCATGTGATAGATAAAATCAACGAATTGTATGAAGATTATAATGAGCGTGGAATAGAATTCATTGCCATCAATGCCAATGATATTGAAAAATACCCGGCAGATTCTCCGGAAAAAATGATCGAATTTCAAATAGAAAGAAGATTTGATTTCCCTTACCTGTTTGATGAAAGCCAGGCGGTGGCAAAAGCTTATGATGCTGCCTGTACACCGGATTTTTATTTCTTTGATGATAAACTTGATCTTGTATACAGAGGTCAGATGGATGATTCAAGACCTGGAAATAATAAAGATGTAACCGGAGAAGATCTTATTATCGCTTTTGAAAATCTTTTGGCTGGGGAAGCTCAGGAAGAAATTCAGAGACCTAGTATGGGATGCAATATTAAATGGAAATAA	MNTPSNMLALGTKAPFFELPNPSKTNELQSLEELKGEKGTLVIFMCNHCPFVLHVIDKINELYEDYNERGIEFIAINANDIEKYPADSPEKMIEFQIERRFDFPYLFDESQAVAKAYDAACTPDFYFFDDKLDLVYRGQMDDSRPGNNKDVTGEDLIIAFENLLAGEAQEEIQRPSMGCNIKWK				NA	NA	NA	NA	NA
BMS003_03700	906	rhaS_16		HTH-type transcriptional activator RhaS	ATGAAAGTTACTTTTGAAAGGGTAATCCCTGATGAAAAGAGTTCATTCCGTACCATTCACAATAACTCCCCCATTTCAGAATTCAAATGGGAATATCATTATCATCCCGAAATTGAGCTGGTATGTGTCATTTCCGGGAATGGAACCCGCCATGTAGGGTATCATAAAAGTAATTATACGAATGGAGATCTGGTCTTAATCGGGTCCAATATTCCTCACTCCGGATTCGGGCTGAATTCTATTGATCCGCATGAAGAAATTGTTCTTCAGTTCAAAGAAGAAATCCTTCAGTTTCCTCAGCAGGAAGTAGAATCACTATCCATCAAAAACCTGTTGGAACTATCGAAATATGGGATTCATTTTCATCATAAAGTAAAAAAATTAATGCTTCCCAGGCTGAAACTCATGCTTGAATCTGAAGGTTATAAAAGATATTTACTATTGCTTGAGATCCTTTTTGAACTTTCAAAATGTGAGGATTATGATCTCTTAAATAAGCAAATCATGCCTTATACCATTATTTCAAAAAACAAAACCCGTCTTGAGAATATCTTCACCTATGTAGAACACCATTACGACAAAGAAATAAATATTGAGGAAGTAGCAAAACTGGCCAATCTCACTCTTCCCGCCTTTTGTAATTTCTTTAAAAAAGCAACTCAGATTACCTTCACAGAATTTGTGAACCGCTACAGAATCAATAAAGCATGCCTGCTGATGGCACAGGACAGATCTATTTCAGAATGTAGCTACCAGTGTGGCTTTAATAATGTGACGTATTTTAACAGGATGTTTAAAAAATATACAGGGAAAACACCTTCTGAATTTATCAGGAATTATTCTCATAATAAAGTGAATGTGGATTTGAAGGTTGAAAAAGAAATCAAAGCCAAAGTAAGCTTTTAA	MKVTFERVIPDEKSSFRTIHNNSPISEFKWEYHYHPEIELVCVISGNGTRHVGYHKSNYTNGDLVLIGSNIPHSGFGLNSIDPHEEIVLQFKEEILQFPQQEVESLSIKNLLELSKYGIHFHHKVKKLMLPRLKLMLESEGYKRYLLLLEILFELSKCEDYDLLNKQIMPYTIISKNKTRLENIFTYVEHHYDKEINIEEVAKLANLTLPAFCNFFKKATQITFTEFVNRYRINKACLLMAQDRSISECSYQCGFNNVTYFNRMFKKYTGKTPSEFIRNYSHNKVNVDLKVEKEIKAKVSF				NA	NA	NA	NA	NA
BMS003_03701	1230			hypothetical protein	ATGAAAAATCTTAACATCAAGGCCGTTTTATTTTTAAATTATTTTGTCTTCGCAATTCTTCTGAATTCTGTGGGAACAGTCATTCTACAGGTACAGCAGAATTTTGGAATTTCAAAATCTTCGGCCAGCGTTTTGGAAGGCTTTAAAGATCTTCCGATTGCTATATGTTCTTTCATTCTGGCTTCATTTCTTCCGAAGATAGGGATCAAAAAATCCATGCTGATTGCTTTATTGCTGGTAAGCTGTATGTGTTTTGTAATGCCGTTTACCAATGACTTCTGGGTTTTTAAATTATTATTTGCCACAGTAGGTGTTTCGTTTGCATTAATCAAAATATCGGTTTTTACTTCTATTGGGCTGGTAACGGAAACAGATAAAGAACATTCCAGCTTTATGGGATTTCTGGAAGGGTTTTTCATGATCGGGGTATTGGCAGGAAATGTTTTATTCAGTTTATATATTGATGATCACAATCCGAAATCTACAGAATGGCTGAATGTGTATTGGGTATTGGGTGGACTTTCCACTTTGTCTTTTTTATTCCTGTTCTTTTCAAAGCTGAATGAGCAGGGAGCTAAAAGTGAGAAAACAGATCTCCTGGGAGATTTAAGAAACAGTGCAAGCTTGTTCAGTTATAAAAAAGTGTTGTGCTTCTTATTATGTGCTTTCCTTTTTGTGTTGGTGGAACAAAGCTTTCAAACCTGGACACCCACATTTTATAAAGAAATTTTAAAAGTGCCTACATCTATGAGTATACAGGCAGGTGCTGTGTTGGCGGGAGCTTTTGCATTGGGAAGATTTTTATCAGGATTCTTCTCTAAAAAATTTAGCTGGATCTACGTAGTTTCTTTTTGTGTGGTTGGTTTTGCCATCAGCTTACTGCTGGTTTTACCGTTAACCCATAATATTCATATTGATACGAATACAAACTGGATGAATGCTCCTTTGGTAGTCTATTTATTTCCTTTAATGGGAGGTTTGCTGGCACCTATTTACCCAAGTATTAATTCTGTGATTCTGGCATCAATCCCTAAATATCTGCACAGTGCAATGTCAGGATTGATTGTTGTTTTCTCAGCAATCGGAGGAACTATAGGCTCTATCATTACCGGATTTGTGTTTCAGGAATTCAGTGGACAGCAGGCGTTTTATCTTTCTCTGATCCCGCTTTCATTACTGATCACCTCTGCGGTTTTCATGAATAAATTAAAAATTAATCCTAAAAAATAA	MKNLNIKAVLFLNYFVFAILLNSVGTVILQVQQNFGISKSSASVLEGFKDLPIAICSFILASFLPKIGIKKSMLIALLLVSCMCFVMPFTNDFWVFKLLFATVGVSFALIKISVFTSIGLVTETDKEHSSFMGFLEGFFMIGVLAGNVLFSLYIDDHNPKSTEWLNVYWVLGGLSTLSFLFLFFSKLNEQGAKSEKTDLLGDLRNSASLFSYKKVLCFLLCAFLFVLVEQSFQTWTPTFYKEILKVPTSMSIQAGAVLAGAFALGRFLSGFFSKKFSWIYVVSFCVVGFAISLLLVLPLTHNIHIDTNTNWMNAPLVVYLFPLMGGLLAPIYPSINSVILASIPKYLHSAMSGLIVVFSAIGGTIGSIITGFVFQEFSGQQAFYLSLIPLSLLITSAVFMNKLKINPKK	PGPT0014430_16	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014430-glcP-K08174	NA	NA
BMS003_03702	1482	treA	COG1626	Periplasmic trehalase	ATGAATAATCAGCTTTACATAAACGAAATTCAAAATCTGTTTGATGATGTGCAGAGATCTGAAGTTTTTGAAGATCAGAAAATGATGACGGATGCAGTCCCTCTGTTTCCAATTGCAAAGATTAATGAGGATTATGAAAAGTCAAAAAATACCGAAGGTTTTGATCTGAAAGATTTTGTGATGACTCATTTTGATTTTTTAGGGGCAAGGGTTTCGGTATACAGAGAAGAGCAACTTCCTATTGGTGAACATATTGAAAAGTTATGGGATGAACTTACCCGTACAGCATATGAAGAAAAAGGAACGCTTTTAAAATTACCAAAGCCTTATATTGTTCCGGGAGGTCGTTTTAATGAGTTTTTCTATTGGGACAGCTATTTTATCATGCTTGGATTAAAGGTTTCAGGAAGAATAGAAATGATGGAAAACATTATTGAAAACTGTTCTTATCTGATCTTAAATGTAGGATTTGTTCCCAATGCCAGCAGAACCCATTTCCTGAGCAGATCTCAGCCTCCATATTTTTCATTAATGCTGGACCTTCTTTTTGAAACGACACATGATGAAAAAATTTATACGAAATATTACGAAACACTGGAGAAAGAATATGCTTTCTGGATGAATGGTGAAGAATGGCTTGAAAACGGTACCAGTGTAAAAAGAGTGGTTAAAACTACAGACGGAGATATTCTGAACCGTTATTACGATGCAGAAAATGCACCACGTCCCGAAAGTTATCTGATTGATATTGAAGATCATGAAACCACTTCAGGAGATGAGTTTTACAGAAATATAAGAAGTGCCTGCGAATCCGGCTGGGATTTTTCCAGCAGATGGTTTGCAGACGGACAAAATATACAGACAATAGAAACGCTGAACCTTGCACAGGTGGATCTGAACTGCCTTTTATGGCATTTGGAAATGACTTTGGCAAAGTCTTCAGCACTTCAGAATCTGAGTGAAAAAAACAATTATTTTTCAGAAAGAGCAGCAAGCCGAAGACAGATGATCAATAAATATTTCTGGGATGGAAATACTAACAATTACAAAGATTATCACACTAAAAAAAACACAAAAACACCGTCTGAACATATTGCTGCTCTTTACCCTTTATTCCTTGGAATTGCAGATCAGAAGCAGGCTGAGGCAGTTGCTGAAACTATTGCCGAAAAGTTCCTTTACCAGGGTGGGCTTGTTACGACAACCAGGGATTCAGGACAACAGTGGGATCTTCCCAATGCGTGGGCACCTTATCAGTGGCTGGGCTTTAAAGCAATGAAAAATTATGGCTTTGATGAGCTGGCAGATAAAATTAAGAACAACTGGTGTTCCAACGTAGAAAGAGTCTACAAAAACACAGGAAAACTGATGGAAAAATACAATGCATTAGACACAGAAACAATAGCAGGAGGCGGGGAATATCCTAATCAGGACGGATTCGGTTGGACTAATGGAGTGTATTTACAATTACAACAAAACTGA	MNNQLYINEIQNLFDDVQRSEVFEDQKMMTDAVPLFPIAKINEDYEKSKNTEGFDLKDFVMTHFDFLGARVSVYREEQLPIGEHIEKLWDELTRTAYEEKGTLLKLPKPYIVPGGRFNEFFYWDSYFIMLGLKVSGRIEMMENIIENCSYLILNVGFVPNASRTHFLSRSQPPYFSLMLDLLFETTHDEKIYTKYYETLEKEYAFWMNGEEWLENGTSVKRVVKTTDGDILNRYYDAENAPRPESYLIDIEDHETTSGDEFYRNIRSACESGWDFSSRWFADGQNIQTIETLNLAQVDLNCLLWHLEMTLAKSSALQNLSEKNNYFSERAASRRQMINKYFWDGNTNNYKDYHTKKNTKTPSEHIAALYPLFLGIADQKQAEAVAETIAEKFLYQGGLVTTTRDSGQQWDLPNAWAPYQWLGFKAMKNYGFDELADKIKNNWCSNVERVYKNTGKLMEKYNALDTETIAGGGEYPNQDGFGWTNGVYLQLQQN	PGPT0019170_1576	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0019170-treA|treF-K01194	NA	NA
BMS003_03703	2430	btuB_15		Vitamin B12 transporter BtuB	ATGAAAAAAAAATCGATCTTTTTAATCGCCGCAACAGCTACGTTATACTTTAATAATGCTTATGCCCAGGAAACACCGCAGGATTCTGCAAAAGTTTCTTCTATAGATCAGATTGTTATTACCGGAAACTCAAACCCGAAGAAAAAAATAGAATCCAGTACTGCGATTTCTACATTTAGTTCCAAAGAAATCCAGAAGCAGAACCCAATCAGTGCAGCTGCTTTATTGCAGAGAGTTCCCGGATTTGCTGTGGAAACTTCAGGAGGGGAAGTAGGAAACAACCTTTTTGCAAGAGGAATTCCTTCTGCAGGTGCTTATGAATTTGTACAGGTACAGGAAGATGGTCTTCCGGTTTTTGAAGATGGAGCGCTTCAATTTGCCAATGCAGACAATTTTTTCCGTGTAGATAATTCGGTGAATCGTCTGGAGGCTTTAAGAGGGGGATCCGGTTCTATTTTCGCTACCAATTCTCCGGGAGGTCTTATTAACTTTATTACCAAAGAAGGAAGCAATACTTTCAGAGGAACGGCAAAACTGGAAACAAGTACTTATGGGCTGATGCGTACAGACCTTAATGTAGGGGGCGCTTTGGTTCAGGATAAACTGTTTTTCAATGTCGGCGGTTTTTACAGAACAGATGACGGAATCAGAAAAACAGGGTTCAAAGCCAATAATGGGGGACAGATCAGAATGAACCTGAAATATGTTTTTGATAAAGGCTATGTGAAAGTGTATTATAAAAAACTGGATGACAGAAATACATTCTTCCTTCCGATTCCTTTAACCCAGAATGGAAATGACCTGAAAGGCTTCCCTGGTTTTGATCCTAACTACGGAACATACAGCTACAGAGCTATCAGCCAGCTAAATATTCCACAAGCGGGAGGCGGGTTTTTCAAAAGAAATCTTGAAGACGGAATTCATCCTAAAGTAGATGTTTTAGGGGCTGAGTTTAAATATGATCTTGGAAATAATTTCAGTGTTTTAAATAAAACAAGATACACCAATATCAACATGAATTATACAGGGATTTTCCCTGCCGGAGCTCCATATACTGCTGCAGATTTTGCTCAGCGCAGTGGAATTTCCGGAAATAACTATCAGTATTCATTAGTAAGCAACGGAGCTGTTGTAAACCCTGCCAATGTACAGGAACTAGGTTTCTGGGCTATTGACAAGCAGATGAATAACTTTGTGAACGACTTACAGTTCAACTATAAATTCGATAAAGGAAATGTTACCGCAGGTTTCTATAAATCTAACTGGAAGTCTCATCAATACTGGAACTGGAGCAACATTCTGGCTACTGCAACAGACAGACCGGAATTGCTGAACCTCGTAGATACTTCTCTTACGCCTTTGGACAACGGATATTCAAAAACGTATAATGGAGTTACCAGCATGACGTTTTTACAGAGAGACACTCAGACGCAGGGAAGTTTGAATGATCTTTACGTAAACCTAGACTATAATATTACAGATGCTTTAAGCGTAAACGGAGGACTTCGTTACAGCCACGATTATTATAAAGGAAATTTTGCCAATACCACAACTTCCAATTTAAATAATTCCGGATTAACAACGGATGGAACTCACGGCTTCAACACAACAACTGCTGATGACAATATGAGTGTGCTGGGAAACAAATACACGTACTGGAATTATAATATTGATAAAGTGTCTTTCACGGTAGCAGCTAATTATAAAATCAATAGAGAAAATGCTGTATATGCACGTTTTTCTAACGGTTTCAGATCTCCGAACGAAGAGGCATATTATAACTATTTCTCCAATCCTACTCCTGATAAGCCATTGAAGTCAGTAACCACCAATCAATTGGAAGTAGGATATAAATATTACTCGCGTACCTTTGATATTGCAGTGATTCCGTTCTATTCCACATTAAAGAATCTTTCTTTTACGGATATTTTTTCTAATGGGACTTCGGAAAATACATTTGCCAATACACAAAACTATGGGGTAGAATTTGAAGGCTACGCCCGCCTGTTCAGCAATATTTTGGAAGTTTCATTCAATGGTACAGTTCAGAGTCCTAAATATAAAAACCTTGAAGCAGGAAGCGTTCTTGAAGGAAATGTAGTACGAAGAATGCCAAAGTTTTTCTTCAATATTTCACCGGCAGTCAATATTACAAAAGCATGGAGAGCCTATGTCAGCATGAATTACTATGGAAAACGTTTCCAGGATGAGAAAAATGTACAGACACTGCCTGCTTTCACGGAGTTTGGAGCGGGTACCTCTTATCAGCTGGGAAAAATACGTTTTGCTGTTGACGGAACAAACATCTTTAATACTATTGGTATTACAGAAGGAGATCCGAGAGCAGGATCACCAACCGGAGATGGAACCATTATGGCAAGACCTATCATGGGAGCTGCTGTAAGAGCATCCATTACTTTAGATTTCTAA	MKKKSIFLIAATATLYFNNAYAQETPQDSAKVSSIDQIVITGNSNPKKKIESSTAISTFSSKEIQKQNPISAAALLQRVPGFAVETSGGEVGNNLFARGIPSAGAYEFVQVQEDGLPVFEDGALQFANADNFFRVDNSVNRLEALRGGSGSIFATNSPGGLINFITKEGSNTFRGTAKLETSTYGLMRTDLNVGGALVQDKLFFNVGGFYRTDDGIRKTGFKANNGGQIRMNLKYVFDKGYVKVYYKKLDDRNTFFLPIPLTQNGNDLKGFPGFDPNYGTYSYRAISQLNIPQAGGGFFKRNLEDGIHPKVDVLGAEFKYDLGNNFSVLNKTRYTNINMNYTGIFPAGAPYTAADFAQRSGISGNNYQYSLVSNGAVVNPANVQELGFWAIDKQMNNFVNDLQFNYKFDKGNVTAGFYKSNWKSHQYWNWSNILATATDRPELLNLVDTSLTPLDNGYSKTYNGVTSMTFLQRDTQTQGSLNDLYVNLDYNITDALSVNGGLRYSHDYYKGNFANTTTSNLNNSGLTTDGTHGFNTTTADDNMSVLGNKYTYWNYNIDKVSFTVAANYKINRENAVYARFSNGFRSPNEEAYYNYFSNPTPDKPLKSVTTNQLEVGYKYYSRTFDIAVIPFYSTLKNLSFTDIFSNGTSENTFANTQNYGVEFEGYARLFSNILEVSFNGTVQSPKYKNLEAGSVLEGNVVRRMPKFFFNISPAVNITKAWRAYVSMNYYGKRFQDEKNVQTLPAFTEFGAGTSYQLGKIRFAVDGTNIFNTIGITEGDPRAGSPTGDGTIMARPIMGAAVRASITLDF	PGPT0003790_9014	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
BMS003_03704	639			putative protein	ATGCTTCAGATTCAAGGTTTCGTATTCAACTTTGCGAGTGAAAATACTTACATCATTTATAACGAAAATAAAAACGCATGGTTAATTGATCCGGGAAATATAAGCGGACAGGAAACTCAGGCCATTGATAACTTCATTGCTGAAAAAGGTCTGAAAATTGAGAAAATTCTTTTGACACACGCCCATATAGACCATGTACTGGGACTTCAGTGGGCTTTTGATACATTCAGAGTTCCTGTGAATATGCATCAGGAAGACCAGGAAGTGCTGGATATGCTCCAGGCAAGCGGTATGAGATTCGGAATGCGGATAGATCCTGTAAAAGTAGAGATAGAATATATAAAGGAAGGTGACGAACTGGACTTAGATGGTGAAAAATTTAAAATTTATCATGTTCCGGGGCATTCTCCGGGAAGTGTCGTGTATCATAATGACAATCAGAAATTCATGATTTCAGGGGATGTCCTTTTTGAAGGAAGTATCGGAAGAACAGATCTTTATAAAGGAAATTATGATCAGCTGATTGAAGGAATCAAATCTAAACTTTTCATTCTGGATCATGATACTCAGGTTTTCTCAGGACATGGAAATCCTACCTCTATTGGATTTGAAAAACAATTTAATCCGTTTTTGAAATAA	MLQIQGFVFNFASENTYIIYNENKNAWLIDPGNISGQETQAIDNFIAEKGLKIEKILLTHAHIDHVLGLQWAFDTFRVPVNMHQEDQEVLDMLQASGMRFGMRIDPVKVEIEYIKEGDELDLDGEKFKIYHVPGHSPGSVVYHNDNQKFMISGDVLFEGSIGRTDLYKGNYDQLIEGIKSKLFILDHDTQVFSGHGNPTSIGFEKQFNPFLK	PGPT0001770_7212	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS003_03705	1221			hypothetical protein	ATGAAAACTTTGCGAATACTCTTACTTTTTTTGAGCGGACTGGTTTTTGGACAAAATATCCAAAGTATTCAGCTGTTCAATCCTCAGACCAATGACGGAACTCCTGTAATTAAGATTGGCGAGCAGCTGGTTCTGGGCTTTGATGATCTTACAAACGGCAGTCAGATCTATAGATATACATTCAAACATTATGACAGAAACTGGAATGAAGATAATCTGTTTTTTACAGAATTTGCTACCGGCAGCATGAATGCCCTTCTGGATCAGTTTCAGTATTCTTTCAATACACTACAGGCTTATACCCATTATAAACTTGTTTTTCCGAATGATAAAATCCAGCTGAAAGTTTCAGGAAATTATGAACTGATTGTTTATAAAGACTCTGCAGATAAACCTCTCTTTAAAAAAAGATTTTACCTGGTAGAAGATGTAACTTCCGTGGCTTTAAATATTTCAAGATTTGCAGATGCCAGAAAACCAAATCTCAACCAAAGGGTAGAAGTGAATGTATCTCCGAAAGGAGGAGATATTTCGTCCAATGTCAATTCAATCACAATGAATGTGATGCAGAATAACAACCCGAATATGTTGGTTTCTAACCTTAAGCCAAGCAGTGTTTTAGGGAATCAGTTGCTTTTCCAGCAAATGAATCTTACCTTCCCGGGAGACAATGAATTTTATTATTTCGATAATAAGAATATGAATATGGCCGCAGATATGGTGCGTGCCACAGAAATAAAAGATGATGTTAACCAGACCTACCTGCATCCGGTATGGGCGTTTCCTTTAAATTATCAATATCAGCCGGATGTGAATGGCGCATGGTACTACAGAAGAAACGATCTGGGAAGAGAAAGAGATGCCGAAAGAGAAGCTGATTACTCATGGGTGCACTTCTATCTGGAATCTGACCCTGTAGATAAAGAAATTTATGTTTTGGGAGGATTTAATAACTTTTTACCAGGTAAAGAAAATCAGATGCAGTATGATGCAGCCACTAAACAGTATGTTGCCAGAATATTTCTGAAACAAGGTTTTTATAACTATGTTTTGGCAACAAAAGAAGGAAATGGCGCATTGAATTTCGGGGAGGTGAATGGTAATTTCTGGCAGACGGAAAATCTCTATCAGGCATTCCTTTATTATGCACCGTTTGGAAGAAATTATGATGGATTAATGGGATATGGTGAATTCAGAACACCAATTGCCAATAAACGGTAA	MKTLRILLLFLSGLVFGQNIQSIQLFNPQTNDGTPVIKIGEQLVLGFDDLTNGSQIYRYTFKHYDRNWNEDNLFFTEFATGSMNALLDQFQYSFNTLQAYTHYKLVFPNDKIQLKVSGNYELIVYKDSADKPLFKKRFYLVEDVTSVALNISRFADARKPNLNQRVEVNVSPKGGDISSNVNSITMNVMQNNNPNMLVSNLKPSSVLGNQLLFQQMNLTFPGDNEFYYFDNKNMNMAADMVRATEIKDDVNQTYLHPVWAFPLNYQYQPDVNGAWYYRRNDLGRERDAEREADYSWVHFYLESDPVDKEIYVLGGFNNFLPGKENQMQYDAATKQYVARIFLKQGFYNYVLATKEGNGALNFGEVNGNFWQTENLYQAFLYYAPFGRNYDGLMGYGEFRTPIANKR				NA	NA	NA	NA	NA
BMS003_03706	1959	npr		Thermolysin	ATGAAAACGAAATTTATCTTAGTGGTAAGCGTTGCTGCCTGCTCTTTTGTTTTTGCGCAAAACACACCATCCAAATTAATTCCGGGTAAAAGCGGATTACACGCAGATTTTATGCGATTCGACAAAAATGCACCGGCTTTTCAGGGAAGTCCAGTTTTATTTGATGAAGCAACTGAGAGACTTTCTGCGGGGCAGGGGGTCAGGCTGGGGCTTGAAAAAGATGCCCTGGGTTTTGAAACTCACAGATTTCAGCAGACGGTAAATGGTATTCCTGTAGAATACGGAATGATGGCTGTACAGACAAAAGGAGGTAAAATTGTAGGGCAGTCGGGTAAATGGGCTCTTAATGTTCCGAAAGGAGCTGAAAAGAAAGCCAATATTTCTGAAAGTATCGCACTGCAGAATGCTTTATCATTCATAGGAGCAGAGTCCTACAAATGGCAGAATAAAGAAGAGGAAGATTTTTTAAAGAAAGACTCTGATAATGCCAGCGCAAGTTTCGCTCCTAAAGGTGAACTGGTATATTATTCAGATCCGACAGATGAAAGACTGAATGATATAACATTAGCCTATAAATTTGATATTTATGCGGAAAAGCCATTAAGCAGACAATATGTTTTCGTAGATGCTAAAAACGGGAAAATATTAGGTGTGGATGCAATCATTCATGAAGTAAATGCTCCGGGTACTGCCACAACGGTTTATAGCGGAAACAGAAATATAGTAACCGATTCTTATAACGGAAGCTACAGACTCAGAGAAACAGGAAGAAATGCAGGTACCTCAGTAGAAACCTATAATCTTAAGAAAAAGACCAGTTTTTCATCTGCCGTAGATTTTACAGATGCAGATAATGCCTGGAACAACGTTAATGCCAGTAAAGACCAATATGCAACGGATGCCCACTGGGGTGCAGAAATGACTCTGGATTATTACTATTCAAAATACGGCAGAAAGAGTATTGACAATAATAACTTTGCCATCAAATCATATGTACATTACGGCAATAATGTATTCAATGCCTATTGGGATGGCTCAAGAATGCTTTACGGTGACGGAAGCTCTACAACAAACGGAGGAAAGCCTCTAACAGCAATAGATGTTTGCGGTCACGAAATTACTCATGGACTGACTTCTAAAACAGCCAATCTTGTATATCAGAGAGAACCGGGAGCACTGAACGAAGGTTTTTCAGATATTTTCGGAAATTCAATAGAACGCTGGGCAAGACCTACCCAGGCAAGCTGGACACTGGGGGAAGATTTCAATTATGTGATCAGAGATATGTCTAATCCTAATGCATACCGCCAGCCGGATACTTATAAAGGAACCTACTGGAAAGATGCTACAACTACAGGATGTGCAGTACCAGGGCAAACAACGAATGACTATTGTGGAGTACATACCAATTCCGGTGTGCTCAATTTCTGGTATTATTTATTGGTAACAGGAGGTTCAGGTACTAATGATAATGGTTTCGCTTATAATGTTTCCGGGATCGGACTGGATAAAGCGGGAGCTATTGCCTACAGAACGCTGACTTCTTATCTTACGTCTTCATCCAATTATGCTAATACAAGAACATATTCTATCCAGGCAGCTACGGATTTGTACGGAGCAACCAGTAATGAAGTAGCTCAGGTTAAAAATGCATGGGATGCCGTAGGTGTAGGAGGCGGAACTTCTCCGGCAGGACTTGTAGCAGCTACTTCAAGTATTTCAAGTTATACCATCAGCCCGAATCCGGCAACAGACAGATTCTCCGTAAACTTCGAAGGTAAAGCAGGAAAAGGAATCGTAGAACTGGTAAGCCTGACAGGTAAGAAAGAAATTTCTGAGAAAGTAGAAATGACGGATGGGGTAAATAAGCTGAACATCCAATTACCTTCCAACTTACTTCCGGGAGTATATTTGGTACTGGTAAACGGACAGAAAGCCGGAAACCTTATTAAAAAATAA	MKTKFILVVSVAACSFVFAQNTPSKLIPGKSGLHADFMRFDKNAPAFQGSPVLFDEATERLSAGQGVRLGLEKDALGFETHRFQQTVNGIPVEYGMMAVQTKGGKIVGQSGKWALNVPKGAEKKANISESIALQNALSFIGAESYKWQNKEEEDFLKKDSDNASASFAPKGELVYYSDPTDERLNDITLAYKFDIYAEKPLSRQYVFVDAKNGKILGVDAIIHEVNAPGTATTVYSGNRNIVTDSYNGSYRLRETGRNAGTSVETYNLKKKTSFSSAVDFTDADNAWNNVNASKDQYATDAHWGAEMTLDYYYSKYGRKSIDNNNFAIKSYVHYGNNVFNAYWDGSRMLYGDGSSTTNGGKPLTAIDVCGHEITHGLTSKTANLVYQREPGALNEGFSDIFGNSIERWARPTQASWTLGEDFNYVIRDMSNPNAYRQPDTYKGTYWKDATTTGCAVPGQTTNDYCGVHTNSGVLNFWYYLLVTGGSGTNDNGFAYNVSGIGLDKAGAIAYRTLTSYLTSSSNYANTRTYSIQAATDLYGATSNEVAQVKNAWDAVGVGGGTSPAGLVAATSSISSYTISPNPATDRFSVNFEGKAGKGIVELVSLTGKKEISEKVEMTDGVNKLNIQLPSNLLPGVYLVLVNGQKAGNLIKK	PGPT0020995_129	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
BMS003_03707	1029	hemH_2	COG0276	Ferrochelatase	TTGAATAAGAAAGGAATTTTACTGGTCAACCTCGGATCACCGAGATCAACATCTGTAAACGACGTAAAGGAATATCTTGATGAATTTTTAATGGATGAGAGGGTAATTGATTACCGTTGGATTTTCCGTGCCCTCCTTGTACAGGGAATTATTCTGAAAACAAGACCTGCCAAATCTGCTGAAGCATACAAAACTGTCTGGACAGATGAAGGATCACCATTGATTGTCATCACTGAGCAAATTCAGAGAAAACTTCAGAAAGTGGTAGATGTTCCTGTAGAAATCGGGATGAGATATGCGCAGCCAAGTATTGAGACCGGCATTCAGAAGCTCGTAGATCAGGGGATCACGGAAATTGTTCTTTTCCCTTTATACCCTCAATATGCAATGAGTACCACGGAAACGGTAATTGAAAAAGCGGAAGAGGTAAGAAAAAAGAAGTTTCCAAAGGTAAAAATCAATTATGTTCAGCCTTTCTACAACAGAGATATTTATATTGACTGTCTGGCAGAAAGCATTAAGGAGAAACTTCCTGAAAATTTTGATGCCCTTCAGTTTTCTTATCATGGGGTTCCGGAAAGACATATTTATAAAACGGATCCTACTAAAACCTGCAATCTTAATGACTGCTGTTCCAGAGATGATAATCCGAGTCATCAGTTCTGCTATCGTCATCAGTGTTACAAAACTACGCAGCTTGTCATTGAAAAATTAAATTTACCTAAAGAGAAAACAATCGTTTCTTTCCAGTCAAGATTAGGAAAAGATAAATGGATAGAACCTTATACGGATGAGACTTTAGAAACAATTGGTAAAAAAGGGATAAAAAATCTTGCGATTGTTTGTCCGGCATTTGTTTCTGACTGTCTGGAAACTCTTGAAGAAATTTCAGTTGAGGGCAAGGAACAGTTTATGCATGGCGGCGGTGAAAACTTCCATTACATTCCATGTCTGAATGATGAAGACCGATGGATTGATGTTGTAAAAATACTTTGTGAGGAAAAACTGAATGATTTTTATTTCGTATAA	MNKKGILLVNLGSPRSTSVNDVKEYLDEFLMDERVIDYRWIFRALLVQGIILKTRPAKSAEAYKTVWTDEGSPLIVITEQIQRKLQKVVDVPVEIGMRYAQPSIETGIQKLVDQGITEIVLFPLYPQYAMSTTETVIEKAEEVRKKKFPKVKINYVQPFYNRDIYIDCLAESIKEKLPENFDALQFSYHGVPERHIYKTDPTKTCNLNDCCSRDDNPSHQFCYRHQCYKTTQLVIEKLNLPKEKTIVSFQSRLGKDKWIEPYTDETLETIGKKGIKNLAIVCPAFVSDCLETLEEISVEGKEQFMHGGGENFHYIPCLNDEDRWIDVVKILCEEKLNDFYFV	PGPT0008485_2762	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
BMS003_03708	528		COG0431	NAD(P)H-dependent FMN reductase	ATGCCTCACGGAAAGAAAATTGTAATTATTATCGGAAGTGCTTCAGAAAACTCCAGCAACCTGCGACTGATGGAACAGGTAATGGAAAGTATGGACAATGGAGATTTCCGGATATACAATGATCTTTCTGTTCTTCCCCATTTTGATACTGCTTTAACAGATGATCATACTCCGGAAGAAGTTCTGAAAATCAGAGATGATATTAAAAACTCAGCAGCTGTCATATTTTCCACACCGGAATATATTTTCAGCATTCCGGGAAGATTAAAAAATTTATTGGAATGGTGTGTTTCCACGACAATATTTTCTGAAAAACCTGTTGCTGTGATCACCGCTTCTGCCAGTGGAGAAAAAGGACACGAAGAGTTATTATTAATTTTAAAAACTCTTGGAGCAACAGTGGATGATAAACATCAGGCATTAATAAAAGGAATAAAAGGCAAATTTGACAGCAATGGCTTACTTGAAAGTAATACCTTTGCGAAAGTAGCAAAATTAGTAACAGATTTTAAATCTTCTGTTTCATAA	MPHGKKIVIIIGSASENSSNLRLMEQVMESMDNGDFRIYNDLSVLPHFDTALTDDHTPEEVLKIRDDIKNSAAVIFSTPEYIFSIPGRLKNLLEWCVSTTIFSEKPVAVITASASGEKGHEELLLILKTLGATVDDKHQALIKGIKGKFDSNGLLESNTFAKVAKLVTDFKSSVS	PGPT0004195_2638	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS003_03709	879	nfuA_1		Fe/S biogenesis protein NfuA	ATGCGTACCGTACTTATAGAACCTACCGAAAACCCAAAAGTAATGAAATTTGTTGCAGATTACAATCTCATTCCCGGGTCTTTAGAGTTGGACAGAAATTCAGATATCTCAGAAATTCCTATGGCTCAGGAGCTTTTCAATTATCCGTTTGTGGAAAGAATTTTCATCACGGCTAACTTTGTTGCAGTAGCAAAACAGGATACAATAGAATGGGAACATGTAGCTGAAAGTCTGAAAAATGTAATTGAGGACGAATTATTGGCTAACCCAAGAATTTACCTTCAGAAGAAAAAAGAAATGTATCAGATCTATGCTGAGATGACTCCAAATCCTAATGTAATGAAGTTTGTTTCCAGCAAATTACTGATGGATGGCTTTGTGGAAGTAAAATCACAAGAAGCAGCTGAGGAAGTTCCTCTGGCAGCAGCTATTTTTAAAGAGTTTGATTTTGCAACGGAAGTTTTCATTTCTGATAATTTCGTAGCAGTTACACGAGATAACTCTGTAGAATGGCACCAGGTGATGATGACTGTTCGTGCACTTATTGCGGAATATCTTCAAAATGGAGGTGAAATTTCAAATATAGAACCTCAGAAACATGAAAACCCTGTTGAAAAAATTATCAACAGAGATTATACGGAAGATGAACAGAAGATTTCTGACATTTTAAATGAATATGTAGCTCCGGCAGTAGAGAATGATGGCGGTAAGATTTCTTTAATGGAATATGATCAGGAAAACAAAACTGCAAAAATGCTTTTACAGGGGGCTTGCTCAGGCTGCCCAAGCTCAACGGCTACTTTGAAAAACGGAATTGAAAATATTTTAAAGCAATTCGTTCCTGAGTTAGTAGAAAGAGTGGAAGCTGTAAACGGATAA	MRTVLIEPTENPKVMKFVADYNLIPGSLELDRNSDISEIPMAQELFNYPFVERIFITANFVAVAKQDTIEWEHVAESLKNVIEDELLANPRIYLQKKKEMYQIYAEMTPNPNVMKFVSSKLLMDGFVEVKSQEAAEEVPLAAAIFKEFDFATEVFISDNFVAVTRDNSVEWHQVMMTVRALIAEYLQNGGEISNIEPQKHENPVEKIINRDYTEDEQKISDILNEYVAPAVENDGGKISLMEYDQENKTAKMLLQGACSGCPSSTATLKNGIENILKQFVPELVERVEAVNG				NA	NA	NA	NA	NA
BMS003_03710	537	yrdA	COG0663	Protein YrdA	ATGGCACTTATAAAAGAACTTTTAGGAAAAGCACCCCAGATTGGAGAAAATACCTTTTTAGCAGAAACCGCTACCATTATTGGTGATGTTACCATGGGAAGAGACTGCAGCGTTTGGTATAATGCGGTAATCAGAGGGGATGTTCATTACATCAAAATGGGTGATAAAGTAAATGTTCAGGATAATGCAATGCTGCATTGTACATACCAGAAGTACCCGCTGAATATCGGGAATAATGTTTCTATCGGGCATAATGCGATTGTACATGGATGTACTATAAAAGATAATGTTCTGATCGGAATGGGGGCTATTGTGATGGATGACTGCCTGGTAGAAGAAAATTCTATTGTAGGAGCAGGTTCTGTAGTCACTCAAGGTACTCATATAAAATCCGGTGAAGTTTGGGGTGGAGTTCCTGCAAGAAAAATCAAAGATATCAATGCTCAGTTACTGGAAGGAGAAGTTAACAGAATTGCTGATAACTATGTGAAATACTCATCATGGTATAAGGAGAATGTGAAAGATCATCAGTTCTAG	MALIKELLGKAPQIGENTFLAETATIIGDVTMGRDCSVWYNAVIRGDVHYIKMGDKVNVQDNAMLHCTYQKYPLNIGNNVSIGHNAIVHGCTIKDNVLIGMGAIVMDDCLVEENSIVGAGSVVTQGTHIKSGEVWGGVPARKIKDINAQLLEGEVNRIADNYVKYSSWYKENVKDHQF	PGPT0002425_579	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS003_03711	453			hypothetical protein	GTGAAAAAATTATTCTCCCACGTCAATGTTATAGTATTATGTACTATATTAACTTTAATTTCCTGTAATACATCAAAGAATGCTAATATTAATCTTCCCATTGATATTGCCAACAGACCTGCGGATGAAGACAGTCAGAAATACGAACAGGCTCAACTCGACAGAATAAAGGCTTCAATAGAATCTGAAGTATCAGGAGAAAAATGTTCGGATATCAGTGAATGGACATTTGCCCCTATGGGATCAAAACCCTGTGGCGGACCTCAGCAATACATTGCTTATCCAAAGAAAATAGAAACAGCTTTCTTACAGAGAGTGACTGATTATACGGATAAAGTAAGGGCTTTTAATGAAAAATATAATATTATGTCCGACTGTGTAGCCATTACCCCACCTACCTCTATTAAATGTATTCATGGAAAGGTAAGGCTGATTACACCGGATCCTAACTAA	MKKLFSHVNVIVLCTILTLISCNTSKNANINLPIDIANRPADEDSQKYEQAQLDRIKASIESEVSGEKCSDISEWTFAPMGSKPCGGPQQYIAYPKKIETAFLQRVTDYTDKVRAFNEKYNIMSDCVAITPPTSIKCIHGKVRLITPDPN				NA	NA	NA	NA	NA
BMS003_03712	2127	recD2_2		ATP-dependent RecD-like DNA helicase	ATGAACAATCATTTTTTTGACTTAATAGAATATACCAACAGAAGCGTCTTTTTAACCGGGAAAGCCGGAACGGGAAAGACGACATTTCTTAATGATTTTGTAAGACGGACAAAGAAAAAGCATATTGTGGTGGCTCCTACAGGAATTGCTGCAATTAATGCCGGAGGAGTAACCATCCATTCAATGTTTGGTCTGCCGCTGAGAACCTTTCTACCCACTACAGAAAGGATAGACACCAGTTTGGCCAATAATATTGCCGATCTGATGCCCCATTTCAAATACCGTAAAGATAAACTGAAGCTTCTGAGAGAGGTAGAGATCATCATTATTGATGAGGTTTCTATGCTGAGAGCAGATGTTCTTGATATGATGGATTTTTCTTTACGGTTTATCAGAAGGAATAATCAGAGATTCGGGGGAGTTCAGATGCTGTTCATCGGGGATCTGTTTCAGCTCCCTCCAGTGGTGAGAGATGAGCATATCCTGAAAATGTATTACAATTCACCTTTCTTTTTTGACAGTCATGCTATTAAAGAAATTCCTGTTGTTACCATTGAACTTACGAAAGTATACAGACAGTCTGACGAAGAGTTTCTGGAAATTCTGAATGCAATCCGTGACGGTGATGTAGACCATATAGATTTTGACCATCTTAATGAAAGATATGATCCTGATTTTGACATGGGAAAAGAATCTTATGTATATCTGTGTTCTCACAACAAGATGGCAGATGAGATCAATCAGGAGAAACTGGCTGAGATAAAAGTAGATCCTCAGATTTATGAAGCTAAACTCGTGGGGGATTTTAAAGAAAATCAGTTTCCGAATGACCAGTTTCTGGAACTGAAAATCGGAGCTCAGATTATGTTTATCCGAAACGATATTTCCGGTGAAAAGAAATATTTTAACGGAAAGCTAGGAGAAATTATTGGATTGGACGAGAATGAAATCCGTGTTGTTCTAGACGAAAGCGAAAGGGAAATTGTTGTAAAAAGAGAAACCTGGGAGCAGAAAAAATATTTCCTTGATCATGAAAAAAATATTAAGGAAGAAGTTTTAGGAAGCTTTGAGCAGTTTCCAATCAAACTGGCATGGGCAGTTACTATTCATAAAAGCCAGGGATTAACGTTTGATAAAGTGATTATTGATGCCGGAAAAAGTTTTACTGCCGGTCAGGTATACGTGGCTTTATCCCGTTGCAGAACACTGGAAGGAATTGTTTTAAAATCAAAAATTACTCCCGAAGTTATTTTCAAAGATAACAGGATTTTGCATTTCCACACAGATACAATTGCTAATGATAATGTAGAAGGTATTCTGAATCAGGAAAAATATGATTACAGCATCAGAAAAGTATTGCGAACATTAGACTGTACATGGTTTTTGAAAGAAGTGGAAGAGTGGAATAACCTTTCTATTGTCACTAAGAACATTGACCATATTAAAACCAAACAGCTTTATCTTCAACTGAAACATGAAGCGGTAAATCTTGGGAAAATATTTGAAAAACTGGAGCGTATCATTTTTCAGAAAGTTAATCATTTTATCGAACAAAAAGAAGAATGGTCTGAAATTGAAAGCAAATCAAAAGGAGCAGTTAATTTCTTTTTTACAGAAACCAGAAATAAAATTTTTGATCCACTGAAAGAGTTTTATGCTGAAATAAAAGGTGCAAAAGGGTTAAAACAATATAACGAAGAATTCAAAAGCTGGCTGGAGGATATTGAAGAATACCTGAACAGCCTGAGAGACGTTTATCTTCTTGAAACGAAACTTTTAGATGAAAAAAATGATAAAGAAATCAATCTGAAAATTGCTAAAGTTCCGTCACAAGTTTTGACGTTTCAATTGTTTGAACAAGGAAAAACTATTGGTGAAATTGCTTTAGAAAGAGGTTTGGTGAAAGAAACAGTGATTGGTCATCTTGCCAAATTTGCAGAACAGGGATTGCTGGATATTTCCAGGGTAATTACTTCAGATAAAATAAAAGCTTTTGAAGAAGAATTCTATAAAAGAACACATGAAACACTGACCGAGTGGAAAAATGCACTGCCCAATCATTTTGAATTTAACGAAATCAGGATTTTAATTAATCATTATAATTATAAAAAAGAAAAGAACTCATAA	MNNHFFDLIEYTNRSVFLTGKAGTGKTTFLNDFVRRTKKKHIVVAPTGIAAINAGGVTIHSMFGLPLRTFLPTTERIDTSLANNIADLMPHFKYRKDKLKLLREVEIIIIDEVSMLRADVLDMMDFSLRFIRRNNQRFGGVQMLFIGDLFQLPPVVRDEHILKMYYNSPFFFDSHAIKEIPVVTIELTKVYRQSDEEFLEILNAIRDGDVDHIDFDHLNERYDPDFDMGKESYVYLCSHNKMADEINQEKLAEIKVDPQIYEAKLVGDFKENQFPNDQFLELKIGAQIMFIRNDISGEKKYFNGKLGEIIGLDENEIRVVLDESEREIVVKRETWEQKKYFLDHEKNIKEEVLGSFEQFPIKLAWAVTIHKSQGLTFDKVIIDAGKSFTAGQVYVALSRCRTLEGIVLKSKITPEVIFKDNRILHFHTDTIANDNVEGILNQEKYDYSIRKVLRTLDCTWFLKEVEEWNNLSIVTKNIDHIKTKQLYLQLKHEAVNLGKIFEKLERIIFQKVNHFIEQKEEWSEIESKSKGAVNFFFTETRNKIFDPLKEFYAEIKGAKGLKQYNEEFKSWLEDIEEYLNSLRDVYLLETKLLDEKNDKEINLKIAKVPSQVLTFQLFEQGKTIGEIALERGLVKETVIGHLAKFAEQGLLDISRVITSDKIKAFEEEFYKRTHETLTEWKNALPNHFEFNEIRILINHYNYKKEKNS				NA	NA	NA	NA	NA
BMS003_03713	849			Flavastacin	ATGAACAAAAAACCAAAAAATCTTTTCTATCAGCAGATTCTGACAGGGAAGATCGTCTTCATGAGTTTTCTTATGGCTGCAACATTAACATCCTGCAGCAAAAACAACGAAGAAATTACCTCTGAGGCACAAACTAATGCCTTCAATACAGACAATCTGAAAAAAGGAAAACTGAATGGGCAGGACATTATCTATGAAAGAAAAAACGGAATGAATTTTTTTCAGGGAGATATGGTTCTTTCGGACAAACAATTATCCGAAGGCAACGAACTCAATAAAGGTGGTGCCAGCTATTCAAGATGGCCAAACGGTAAAATATATTATACCATTGCCGGCAATATGGGTTCCATTAATATCAATAAAATCAATACGGCAATCAGTGAATACAACAACAAAACGAATACTCAATGGATCTACCGCACCAATCAATCTAATTACGTTGAGTTTATTTTCGGAAGTTCATCAGGGTCGGACGGCTGGGCTCATATCGGCTATCAGGGCGGAAAACAAACGGTTTCTCTGGATCAATATATTTCTGTAGGATCAGTAATTCATGAAATGGGACATACGGTAGGACTTTACCATGAACATACCCGTAAAGACAGAGATCAGTATGTGAAAATCCTGTGGAACAATATCCAGAGCGGACAGTCTTATAATTTTAATATCTACAGCTCCGGAACAGATATAGGATCTTTCAATATCAATTCTGTAATGATGTATTGGCCAACCTCTTATTCTAAAAACGGATTACCAACGATTACAAGGGCTGATAACTCCAACTTTACCTATAACAGAACGGGCTTTACAACCGGAGATATTAATACCATTAATGCAATGTATCCTTAG	MNKKPKNLFYQQILTGKIVFMSFLMAATLTSCSKNNEEITSEAQTNAFNTDNLKKGKLNGQDIIYERKNGMNFFQGDMVLSDKQLSEGNELNKGGASYSRWPNGKIYYTIAGNMGSININKINTAISEYNNKTNTQWIYRTNQSNYVEFIFGSSSGSDGWAHIGYQGGKQTVSLDQYISVGSVIHEMGHTVGLYHEHTRKDRDQYVKILWNNIQSGQSYNFNIYSSGTDIGSFNINSVMMYWPTSYSKNGLPTITRADNSNFTYNRTGFTTGDINTINAMYP				NA	NA	NA	NA	NA
BMS003_03714	1017			hypothetical protein	ATGAAAAATTTTAAAATTTCTGTTTTAGATCTTGCACCGGTAAAGCAAGGCAAGAGCATTCATGATACTTTTCAGGACAGCTTATCATTAGCTAATCACGCTGAAAATTTAGACTATAAAAGATTCTGGCTGGCTGAGCACCACAATATGGAAAGCATTGCAAGCTCTGCAACTTCTGTTTTAATAGGTTTCATTGCTAATGGAACGAAAACTATAAGAGTAGGTTCAGGTGGAATTATGCTTCCCAACCACAGCTCCCTGATTATTGCAGAACAGTTCGGAACTTTGGAGTCTTTATTTCCCGGGAGAATTGATCTTGGATTAGGAAGAGCTCCGGGAACAGACGGATTGACGGCTCAGGCTTTAGGAAGAAACCCAGCTATTATCAACGAACAGTTTCCAAGACAGATTATTGAGCTTCAAAGATATTTCTCAAAAGAAAATTCAGATGCGATGGTTCGTGCTATTCCCGGAGAAGGTTTGGATGTCCCGCTTTATATTCTGGGATCAAGTACAGACAGCGCATGGCTGGCTGCGGAATTGGGATTGCCTTATGCATTTGCAGGACATTTTGCTCCTGAGCAGATGGAAATGGCTTTTAAAATATACAGAGAACATTTTGAGCCTTCAAAATATTTGGATAAACCTTATATCATTGCTTGTGTAAACGGTGTGGCCGCTGAAACTTCGGAAGAAGCTCATAAAATTTCGACTACTTTATTTCAGGCATTTATCAATATTGTAAGAAACGACAGAAAACCTTTTGCTCCGCCAGTAGATGATATGGATGAAATCTGGTCACCAATGGAAAAGTCTATGGTTTTGCAGAAACTGAGATATACATTTATCGGAGATCAGTCCGAAATTCAGGAAAAGCTTGAAGATTTTCAGGAAAGATTTCAGGTAGATGAATTGATGATCAATTCACATATTTATGATCATCAGAAAAGATTGAGATCTTACGAGATTTTCAGAGAGGCAGTGAACTCTATCCAAAGCGTAATAAACCATTCATAA	MKNFKISVLDLAPVKQGKSIHDTFQDSLSLANHAENLDYKRFWLAEHHNMESIASSATSVLIGFIANGTKTIRVGSGGIMLPNHSSLIIAEQFGTLESLFPGRIDLGLGRAPGTDGLTAQALGRNPAIINEQFPRQIIELQRYFSKENSDAMVRAIPGEGLDVPLYILGSSTDSAWLAAELGLPYAFAGHFAPEQMEMAFKIYREHFEPSKYLDKPYIIACVNGVAAETSEEAHKISTTLFQAFINIVRNDRKPFAPPVDDMDEIWSPMEKSMVLQKLRYTFIGDQSEIQEKLEDFQERFQVDELMINSHIYDHQKRLRSYEIFREAVNSIQSVINHS	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
BMS003_03715	1122	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	ATGTCCGATATTAAATTAAATACTATTCCAGAGGCTATTGAAGACCTTAAAAATGGTAAAATAATCATAGTAGTAGATGATGAAGACAGAGAAAATGAAGGTGATTTTCTTTGTGCAGCAGAACTGACAACACCGGAAATTATCAATTTTATGGCTCTTCACGGAAGAGGGCTGATCTGCATGCCGCTTCCTGAAAAAAGATGTGATGAGCTTGGACTTGAAGTGATGGTAAGCAGAAGCAGCGATCCTAAAGAAACTGCTTTTACGGTATCGGTTGACCTTCTAGGTAACGGAACATCTACCGGAATTTCTGCAGGAGACAGAGCAAAAACTATTTTAGCACTGATGGATGAAAAGTCCAAACCTACAGACTTTATGAGACCTGGTCACATTTTCCCGCTTCGTGCAAGAAAAGGAGGGGTATTGAAAAGAGCCGGACATACTGAAGCTGCTATTGACCTTACGCATTTAGCAGGATTAAAAGAAGGAGGGGTAATCTGTGAGATTATGAACGAAGACGGTACAATGTCCCGCCTGCCTGAACTTCATGCATTTGCTCAAAAGCACGATATGAAAATCGTTTCTATTGAAGACCTTATCCACTATCAGCTTAAAAAAGGAAATCTGGTAGAAAGACTGGAAGAGAAAAAAGTAAAAACGCACTATGGTGATTTTGATTTTTATGCTTTCAGAGAAACTTCTAATGAACAGATTCATTTTGCACTGACAAAAGGAGCATGGACTGTAGATGAGCCGGTTTTGGTAAGAGTACAGTCATCAGATTCTTATTTTGATGTATTGACAAGACTGAACAATGGTGAAAAGCCATTATTGGAGAAAGTAACCGGTATGGTAAATGAAGCCGGAAAAGGAGCAATCATTTTCATCAATAATGTTTCCAATTCCGAAAATACATTGAGAAAGCTTCAGCAGTTCCTGAACTATCAGGACGGGCAGGAGCAGCATCCTACATTAGCGTACAATTACAGAGATTATGGAATCGGAACGCAGATCTTAAAGAATTTAGGAATCAATAAGTTTAAAGTAATCACTCAAAACCCTAATATCAAACCTCAGGTTGGAGGATATGATGTAGAGGTTACTGAAATGGTACAATTATAA	MSDIKLNTIPEAIEDLKNGKIIIVVDDEDRENEGDFLCAAELTTPEIINFMALHGRGLICMPLPEKRCDELGLEVMVSRSSDPKETAFTVSVDLLGNGTSTGISAGDRAKTILALMDEKSKPTDFMRPGHIFPLRARKGGVLKRAGHTEAAIDLTHLAGLKEGGVICEIMNEDGTMSRLPELHAFAQKHDMKIVSIEDLIHYQLKKGNLVERLEEKKVKTHYGDFDFYAFRETSNEQIHFALTKGAWTVDEPVLVRVQSSDSYFDVLTRLNNGEKPLLEKVTGMVNEAGKGAIIFINNVSNSENTLRKLQQFLNYQDGQEQHPTLAYNYRDYGIGTQILKNLGINKFKVITQNPNIKPQVGGYDVEVTEMVQL	PGPT0007990_3254	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
BMS003_03716	948	fmt_2		Methionyl-tRNA formyltransferase	ATGAAATCATTGAAAGTCGTTTTTTTAGGGACTCCTGAGTTTGCAAAAACTTCTTTGGAGGCCATCCATCAATCTCATCACCAGGCAGTAGGTGTCGTAACTGTAGCTGATAAAGCAAGCGGACGTGGCCAGAAGATCCACCAGTCACCGGTAAAAATCTATGCAGAAGAAAATAATATTCCTGTTTTTCAACCGGAAAAGTTGAGAAACCCTGAGTTTTTAGATGAACTTAAAAAACTGGATGCCGATGTATTCGTGGTGGTAGCATTCAGAATGATGCCTAAAGTACTTTTTGAAATGCCTAAAATGGGAACTTTCAATCTTCATGCTTCATTACTTCCTGATTACAGAGGTGCAGCACCTATCAATTATGCAGTTATCAACGGAGAAGAAAAATCCGGGGCCACAACTTTCTTTATCAATGAAAAAATAGATGAAGGAAATATTCTTCTTCAGCAGGAAATGGAAATTTTACCGGATGAAAATGCAGGAAGCCTTCACGACAGACTGATGGAAATGGGCTCACACCTTGTTGTTAAAACATTGGACGGTCTTGCTGAAAATTCAATTGAAGAAAAACCTCAGCCACAGGTAGAACACCCTAAAAATGCCTATAAGATCTTCAAGGAAGATACGAGAATCAATTGGGAGCTGCCTTCAAAAACCGTTCATCAGTTTATCCTTGGAATGTCTCCTTATCCTGCCGCTTTCACTACTTTAAAGATTGAAAATGAAGACAAAGGATTAAAAATATTCGGCGGAAAATTTGAGCTTTCAGACCACGGAAAACCAGCCGGAAGTCTGGAAATTTCAAAGAATGAATTTAAAATCTATACCCAGGACGGAATTTACTATCCTTTGGAACTTCAGCTGGAAGGTAAAAAAAGAATGATGGTAAAAGATTTTCTGAATGGCTTCCGAAACTTTGACGGAATTGCTCTAAGCTAA	MKSLKVVFLGTPEFAKTSLEAIHQSHHQAVGVVTVADKASGRGQKIHQSPVKIYAEENNIPVFQPEKLRNPEFLDELKKLDADVFVVVAFRMMPKVLFEMPKMGTFNLHASLLPDYRGAAPINYAVINGEEKSGATTFFINEKIDEGNILLQQEMEILPDENAGSLHDRLMEMGSHLVVKTLDGLAENSIEEKPQPQVEHPKNAYKIFKEDTRINWELPSKTVHQFILGMSPYPAAFTTLKIENEDKGLKIFGGKFELSDHGKPAGSLEISKNEFKIYTQDGIYYPLELQLEGKKRMMVKDFLNGFRNFDGIALS	PGPT0008125_2949	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS003_03717	1905	dbpA_2		ATP-dependent RNA helicase DbpA	ATGATTTCTCCGCAGGATTTTCAAAAGCTAAAATATGATACTCTTAAGTATTTCTGGGGTTATACCGATTTCAGAGATTCTCAGGAAGAAATCATTAACGCTGTTATCAACGAAAAAGACACCCTGGTTCTGCTACCCACAGGAGCAGGTAAATCTTTATGCTATCAATTACCTGCTTTGCTCAAAGAAGGTACCTGTCTTGTAGTTTCCCCTTTGCTGGCATTGATGAAAGATCAGGTAAACCAGCTTAAATCCCGCGGTATAGAAGCAGAATACCTTTCATCTGAACTGGATGAATATGATGCGGAAACAATTTACGACCGTTGTAAAGAAGGTCTTACAAAATTGCTTTATGTTTCTCCGGAAAGACTAACCAATACTCAGTTTATTCAGAATATGGAGGAAATTCAGCTGTCTTTTATTGCAGTTGATGAAGCGCACTGTATTTCAGAATGGGGCCAGGATTTCAGACCAAGCTACCAGAATATTAAAGGATTCAGAAACAATAACCCTGAGATTCCCTGCCTTGCTCTTACAGCCACTGCAACACCTAAAGTCCTGGAAGAAATTAAAAACAAACTGGAGCTGAAAAAGCCATTCACCTTCCAAAAAAGCTTCAAAAGAGACAATATTAAAATATTTACAGATGAAGTTTCTGATAAATTTCAGCGTGTTTTTGATATTTTAAAATACAGCAATGACTCAGGAATTGTCTACGTAAGAACCAGAAAAGAAGCCGAACTCTTGGCAGAATTTCTGAAAAAAAATCAGCTGAAAAATGTAGATTATTTTCATGCAGGGCTAACAACCAAAGAAAAAAATACAAGACAAAATCTTTGGAATAATAGTGACAATCATGTTCTTATTTCAACCAACGCCTTTGGAATGGGTATTGATAAAGACAATGTCCGGTTTGTAATCCACTATTCTCCAGCTGCTTCCCTGGAAAACTACTATCAGGAAATAGGAAGAGCCGGAAGAGATGGAAAAGACAGTTTTGCCTATATGCTTTGGAATAGGCAGGAGCTTCTGAATTTTGACCAGGTTTTAAAAAACCAGACTCCCAACAAAGCAGAGTTCTTAAAGATCATCAGCTACCTCTACTCTATTTTTCAGGTTGCAGAATTTGAACTTCCGGAAAAAACATTTCAGCTAAATACACTGGGTATACAGAATTTCACCAAACTGTCCAAAGCAAAAATTAATAATATTCTTAATTTTCTGCACAACCAGGAAATTATTTACTATAACGAAAACAAAAGCCTCTCTTCTCTTGAGCTTTTTATTAAAGCTGACGAAATTGACCAGCTTCCACAAAAAGATGCTCATTTCATTGAGCTTCTTTTCCGGACCATCTCCGGAATTACAACACACAAAGTAATGTTCAGCGAGCAGCAGGTAAGCAGTAAAGTCAATGTCAGTGTACCATTAATCAAAGAACGTCTGAAAGAACTTCAGCAAAAGAATTATCTTGAGTATATTGATGGGGCACTATCCAGCATCAAATTCCTCAAGCCCCGTGATGAAAGAGCTGTAAACAGTACTTACTGGAAATTATTTGAACATATTCAGAGAAACAAAATCCAGAAATGGGAAGAAATGAAGTTTTATACGGAAAATAATGACTACTGTAAAATGAAACTTATTTTAGCCTATTTTGGTGAAAAAAATTCAAAAAATTGTGGTCAATGCTCCATCTGTGAAAAAAATAAACAATCCATTTTTGGGAAGAACATTTCCCAACAGATTATAAACTTATTGGCTAAAAAACCAGCAACAGTTGAAGAGCTTTCTATACAACTGAGCTATCATTCAAAAGAAAATATTTTGGAAAACCTTATTTTCCTTTTAGATTCCGGAAAAGTAAGAATGCTAAACTTCAGAACGTATGAGTTGAATCATTAG	MISPQDFQKLKYDTLKYFWGYTDFRDSQEEIINAVINEKDTLVLLPTGAGKSLCYQLPALLKEGTCLVVSPLLALMKDQVNQLKSRGIEAEYLSSELDEYDAETIYDRCKEGLTKLLYVSPERLTNTQFIQNMEEIQLSFIAVDEAHCISEWGQDFRPSYQNIKGFRNNNPEIPCLALTATATPKVLEEIKNKLELKKPFTFQKSFKRDNIKIFTDEVSDKFQRVFDILKYSNDSGIVYVRTRKEAELLAEFLKKNQLKNVDYFHAGLTTKEKNTRQNLWNNSDNHVLISTNAFGMGIDKDNVRFVIHYSPAASLENYYQEIGRAGRDGKDSFAYMLWNRQELLNFDQVLKNQTPNKAEFLKIISYLYSIFQVAEFELPEKTFQLNTLGIQNFTKLSKAKINNILNFLHNQEIIYYNENKSLSSLELFIKADEIDQLPQKDAHFIELLFRTISGITTHKVMFSEQQVSSKVNVSVPLIKERLKELQQKNYLEYIDGALSSIKFLKPRDERAVNSTYWKLFEHIQRNKIQKWEEMKFYTENNDYCKMKLILAYFGEKNSKNCGQCSICEKNKQSIFGKNISQQIINLLAKKPATVEELSIQLSYHSKENILENLIFLLDSGKVRMLNFRTYELNH				NA	NA	NA	NA	NA
BMS003_03718	1437	pal_5		Peptidoglycan-associated lipoprotein	ATGAAATTAAGTTTAGCAATTGTTGCATTTGCTTTGGCAATTCCTTCTGCCACTTATGCACAAGACTCAACGGCAGTTTCAAATGGAGAATATCCTAATACATTTTCTTCGGGATCTGCTAACGTTTCCCCATTCACCAACCAATCTAAAAGATTTAATGACTGGTCTATTTCTGCCGGGGTAGGAGTTCCACTTCTTCAGTCTGCAGATTTGACCTCAATCAAAAACGGAAATGGTAAAAACCTTTTTGGATATTCAGCTTATGTAAGTATTGATAAAGCAATTACCCATGCTTTCGGAATTAATTTACAATACGACAGAGGTGAAACCAGACAAGGATGGTTCAATACTAAAAATGCTGCACCAGATGCACATGCAGTAGCAGGTAGAACTCAATACGATGCAATCTCAATATTAGGAGATATCAACTTCTCTAATTTATTAAGAAGAGTAGACAACCACTCCCCTTACAGATGGGCTCTTCACGGATATGCCGGTATAGGTACTATTGCCTACAGAGCATATCAGAAAGACATCAAAGGACAGAGACTGATGACAGAAATAAAACCTTTCCAGTTAGGTTCAATGTTCATGCAGGCCGGTACAGGTCTTAAATTCAAAGTGAACAGAAGAATTGACATTGAAGGTAGATTAATGTACGTTGTAACAGGTGATGATGAATTTGATGGTGGCGGAGATGCTTACAGCGCTATCAACAAACGTTCTGAGCAGGTTTCTGACAACTTCTTCAATGCTACTTTAGGGGTTTCCCTAAAACTTGGAAAGCATGAGTCTCACTTAATGTGGCACGATCCGCTTCAGGAAATCTATTATAAACTTGATGTACTGGCTAACAAAAACCAGGATATTGAGGTTTGTAAAAAAGGGGATGCTGATAATGACGGAGTTTGTGACGATTGGGACAGACAGCTTGACACTCCTGCAGGAGCAAGAGTAGATGGTGCAGGAGTTGCTCTTGACACTGACCTGGATGGAGTAATTGACCTTTACGATAAGTGTGTAACGGTTCCAGGACCTGTTGAAAACAACGGATGCCCTGTAGCAACAACAGGACCTGTGGTAGAAACAGAAACTAAATTAGAAGGAATCGAATTTGATTTAAATTCTGACAGAATTTTACCATCTAATACACCAATCTTAAATAACGCTGTTAACTATATTAATTCTTCTAATGGTTCTTATAATGTAATCGGAGCTACTGATACAAGAGGTACTGATGCTTATAACCAGAAACTTTCTGAAAGAAGAGCAAACAACGTTAAAAACTATCTGATCAAAAACGGAGTTCAGACAGGTAAGCTACAGGCTATAGGAAAAGGTGAAAAAGACCTTAAGTATCCTGAGTGTGAGCCAGCAACGAAGTGCCCTGAATGGAAAAACAGAGCCAACAGAAGAGTATACTTCGAAGCTAAATAA	MKLSLAIVAFALAIPSATYAQDSTAVSNGEYPNTFSSGSANVSPFTNQSKRFNDWSISAGVGVPLLQSADLTSIKNGNGKNLFGYSAYVSIDKAITHAFGINLQYDRGETRQGWFNTKNAAPDAHAVAGRTQYDAISILGDINFSNLLRRVDNHSPYRWALHGYAGIGTIAYRAYQKDIKGQRLMTEIKPFQLGSMFMQAGTGLKFKVNRRIDIEGRLMYVVTGDDEFDGGGDAYSAINKRSEQVSDNFFNATLGVSLKLGKHESHLMWHDPLQEIYYKLDVLANKNQDIEVCKKGDADNDGVCDDWDRQLDTPAGARVDGAGVALDTDLDGVIDLYDKCVTVPGPVENNGCPVATTGPVVETETKLEGIEFDLNSDRILPSNTPILNNAVNYINSSNGSYNVIGATDTRGTDAYNQKLSERRANNVKNYLIKNGVQTGKLQAIGKGEKDLKYPECEPATKCPEWKNRANRRVYFEAK	PGPT0022215_668	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS003_03719	1521	ompA_2		Outer membrane protein A	ATGATGAAATTAAATTTAGCAATTGTTGCATTTGCTATGGCAATTCCTTCTGCCACTTATGCACAAGACTCAATAGCAGTTTCAAACGGAGAATATCCTAATACATTTTCTTCGGGATCTGCTAATGTTTCCCCGTTTACCAACCAGTCCAAAAGATTTAATGACTGGTCTATTTCTGCCGGGGTAGGAGTTCCACTTCTTCAGTCTGCAGATTTGACCTCAATCAAAAACGGAAATGGTAAAAACCTTTTTGGATATTCAGCTTATGTAAGTATTGATAAAGCAATTACCCATGCTTTCGGAATTAATTTACAATACGACAGAGGTGAAACCAGACAAGGATGGTTCAATACTAAAAATGCTGCACCAGATGCACATGCAGTAGCAGGTAGAACTCAATACGATGCAATCTCAATATTAGGAGATATCAACTTCTCTAATTTATTAAGAAGAGTAGACAACCACTCCCCTTACAGATGGGCTCTTCACGGATATGCCGGTATAGGTACTATTGCCTACAGAGCATATCAGAAAGACATCAAAGGACAGAGACTGATGACAGAAATAAAACCTTTCCAGTTAGGTTCAATGTTCATGCAGGCCGGTACAGGTCTTAAATTCAAAGTGAACAGAAGAATTGACATTGAAGGTAGATTAATGTACGTTGTAACAGGTGATGATGAATTTGATGGTGGCGGAGATGCTTACAGCGCTATCAACAAACGTTCTGAGCAGGTTTCTGACAACTTCTTCAATGCTACTTTAGGGGTTTCCCTAAAACTTGGAAAGCATGAGTCTCACTTAATGTGGCACGATCCGCTTCAGGAAATCTATTATAAACTTGATGTACTGGCTAACAAAAACCAGGATATTGAAGTTTGTAAAAAAGGGGATGCTGATAATGACGGAGTTTGTGACGATTGGGACAGACAGCTTGACACTCCTGCAGGAGCAAGAGTAGATGGTGCAGGAGTTGCTCTTGACACTGATCTGGATGGAGTAATTGACCTTTACGATAAGTGTGTAACGGTTCCAGGACCTGTTGAAAACAACGGATGCCCTCTTGTTGTAAAAAAAGACAATAATCAAACAGCTAAAGAAGTAGAAAAAACGCTGAAAGATATTTATTTCAACTTCAATAAAGCTACAATCAGACCTGAATCTAATTCAAAATTAGATCTTGCTGTTTCTATCATCAAAGAAAACGGAGGTAATTACCTACTGACAGGACATACCGATATCAAAGGAAGTGCTGCTTACAATCTGAGACTATCCAAAGAAAGAGCAGCTGCTGTAGTAGGAGCTCTGGAAAGCAGAGGAATCAATCAAAATGTGCTGAAATCAAGAGGTGTAGGTTCTGCAGAAGCAACGGTTCCTGCATCAGCTTCAGATGCTGAAAGAATGGCAGACAGAAAGGTTACGGTAAGATTTATAGAAGCATCAGATTGGGATTCTATCAAAAAGAAAGACTATGAGGATGCTCCGGTGAAAAAAGCGCCAGCTAAGAAAAAGAAAAAATAA	MMKLNLAIVAFAMAIPSATYAQDSIAVSNGEYPNTFSSGSANVSPFTNQSKRFNDWSISAGVGVPLLQSADLTSIKNGNGKNLFGYSAYVSIDKAITHAFGINLQYDRGETRQGWFNTKNAAPDAHAVAGRTQYDAISILGDINFSNLLRRVDNHSPYRWALHGYAGIGTIAYRAYQKDIKGQRLMTEIKPFQLGSMFMQAGTGLKFKVNRRIDIEGRLMYVVTGDDEFDGGGDAYSAINKRSEQVSDNFFNATLGVSLKLGKHESHLMWHDPLQEIYYKLDVLANKNQDIEVCKKGDADNDGVCDDWDRQLDTPAGARVDGAGVALDTDLDGVIDLYDKCVTVPGPVENNGCPLVVKKDNNQTAKEVEKTLKDIYFNFNKATIRPESNSKLDLAVSIIKENGGNYLLTGHTDIKGSAAYNLRLSKERAAAVVGALESRGINQNVLKSRGVGSAEATVPASASDAERMADRKVTVRFIEASDWDSIKKKDYEDAPVKKAPAKKKKK	PGPT0022215_497	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS003_03720	1080			hypothetical protein	ATGAAATTAGGTTTATTATTATTGGCTACAACCTTGCCAATTGCTGCTTTCGCTCAGAATAGCAGTACCACGGTAAACTCTTCCACAGAGTACCCTAATACATTCTCCTCAGGTTCCGCTAATGTACAACCTTTCGATAACAAAGCCAGACGCTTCAGGGACTGGTCTATTTCTGTTGGAGGAGGTCCTGCATTTATGGTTCACTCAGATTTAAAATCTATCCGTAAGGATAAAACTAACTGGGGATATAATGCTTATGTAAGTATAGATAAACAAATCTCACATACTTTCGGCTTAAGTATTATCTACACAAGAGGAGAAACAAAACAGACAGGACAGCTTGAAGGTGCTGCCGGTACAGCCGCAGGCGTTGCGACTGCAACTACGCAATTTGACCAGTTAGCTATAATGGGAGATATTAATTTCTCCAACCTCTTAAGAAGAGTTGACAATCATTCTCCATACAGATGGGCTTTACATGGGTATATGGGAATAGGTCTTCAGGGGTACAGAACATCATTACATGACAATGATGTAAACAAATGGGGTAATAAGACATATCCTACATTTATTGATGTCCCTATGGGAATAGGTTCTGTATATTATCAGGGAGGATTAGGACTTAAGTATAATGTTTCTAAGCTTATCGACATTGAAGCAAGAACCATGTATTTCATTAGTGGGGATGATGAATTTGATGGAGGTGGCTATGCATACAGTAATTATAACATGCTTAATGACAGAAAGTCTGATAACGCATGGGCCGTAACCTTAGGTGCAAGTTTTAAACTAGGAAAACATGAATCTCATCTTGCATGGCATGATCCTCTTCAGGAAGCTTACTACAGAACAAGCATTTTAGAAAATGCATCTACAGATCTTGTCGTTTGTGAAAAAGGAGATGCTGATAATGATGGCGTATGTGATGACTGGGACAGACAGCTTGATACTCCTGCAGGAGCAAGAGTAGATGGTGCAGGAGTCGCTTTGGATATGGATCTTGACGGTGTGATTGATCTTTACGACAAATGTGTAACAGTTCCCGGACCTGTTGAAAATAACGGATGCCCGGTAAAATAA	MKLGLLLLATTLPIAAFAQNSSTTVNSSTEYPNTFSSGSANVQPFDNKARRFRDWSISVGGGPAFMVHSDLKSIRKDKTNWGYNAYVSIDKQISHTFGLSIIYTRGETKQTGQLEGAAGTAAGVATATTQFDQLAIMGDINFSNLLRRVDNHSPYRWALHGYMGIGLQGYRTSLHDNDVNKWGNKTYPTFIDVPMGIGSVYYQGGLGLKYNVSKLIDIEARTMYFISGDDEFDGGGYAYSNYNMLNDRKSDNAWAVTLGASFKLGKHESHLAWHDPLQEAYYRTSILENASTDLVVCEKGDADNDGVCDDWDRQLDTPAGARVDGAGVALDMDLDGVIDLYDKCVTVPGPVENNGCPVK	PGPT0022215_1929	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS003_03721	417	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGTCGCAGCATAAGGTCGTTTTGTTACTAGGAAGTAACCTTGGAGAGCAAAAAAAAAATATTGACCTTGCTCTCGAGAAAATACAGCAAGCAGGAAATAACATTTCACAAATCAGCGAATATTTAATGTCCGAACCCGTAGAGTTTGCCAGTTCCAATATTTTTTGTAATATTGCAGCAATAATATTCACTCATCTTTCGCCAATTCAACTGCTTGATTGTATTAAGAATATAGAAGTTGAAATGGGAAGAATTAATGATTCAAAAGTATCCGGAGGTTATACTGACAGGATAATTGATATTGATATTATTAAGTATAATGAATTAAACTTTATATCAGAAAGACTGGAAGTCCCTCATAAAAAACATCTTTTTGAAAGGGATTTTTCAAGAGTATTATTAGAAAAATTTATTTAA	MSQHKVVLLLGSNLGEQKKNIDLALEKIQQAGNNISQISEYLMSEPVEFASSNIFCNIAAIIFTHLSPIQLLDCIKNIEVEMGRINDSKVSGGYTDRIIDIDIIKYNELNFISERLEVPHKKHLFERDFSRVLLEKFI	PGPT0007910_4416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS003_03722	1758	sppA	COG0616	Protease 4	ATGAGAAGTTTCTTTAAAAATGTTTTGGCAAATATAGTAGCAATTCTTATACTGTGCGCTTTATTTTTCATCTTTTTCATTGTGATGCTTGTGTTCAGTGCTATGGGGAGTGATAAGTCTGTATCGGTGAAAAAGAATTCGGTTCTTACGATTAATTTAAAGACAAATATAATAGACAGCCCTACTGAAGAGCAAATGGGATTGTTTGGTATAGGTGCCCAAAATAAAAATATTCTTTTATATGATGCTTTGGAAGCAATTAATAAAGCGAAGACCGATGACAATATTAAAGGAATCAGTATTGAAGCAGATTATTTGTATGCAGGGCTTACTCAGATTGATGATTTAAGAAATGCTATTGAGGATTTTAAGAAAAGCGGAAAATTCGTATATGCTTATGGAAATGGAGTTTCACAATCGGCCTACTATTTAGGATCTGTGGCAGATAAGTATTATCTGCATCCTGCGGGAGGAATTGAGCTGAAGGGTTTAGCTACTGAGGTAACATTCTTTAAGGATTTTGCTGATAAGTATGGTGTCGGTATTGAAGTAATCCGCCACGGAAAATTCAAATCTGCAGTAGAGCCTTTTTTAAGAAATGATATTTCTCCTGAGAATAAAGAACAGCTGAGCACTCTTCTGAATGATCTTTGGAAAAATACATCTAATAAAATGGCAGCTTCAAGAAAAATAGATACTGCTCAGTTCAGAACCATTACAGACAGTTTATACGGTATGATTCCTGAACAAAGTTTAAAATATAAGCTTGCAGATAAGCTTATTCAGAAATCTGAATATGAAGATATTCTTAAGACAAAACTGAATGTAAAGGATAAAGAAAAGTTAAACAAAATCTCTCTTACAAGCTATATCAGTTCTTATGCAGATGAAGATAAGTCTGGTGAAAAAATTGCGGTGCTGTATGCTTCAGGATCTATCAATAATGGAGATGAGTATAGTGATATTCATTCTGAAAAATATGTGAAGTATATTAAAAAGCTTCAGGAAGATGATAAGGTGAAAGCTGTGGTTTTCAGAATCAACTCTCCGGGAGGAAGTGCCAATGCTTCTGATGAAATCTTATTTGAATTACAGCAGCTGAAAAAGAAAAAACCACTGATTGTTTCTTTTGGTGATTATGCTGCTTCTGGAGGATATTATGTAGCAATGGCGGCAGATAAAATTTATTCAGAGCCTAATACGCTTACCGGTTCTATCGGGGTGTTTGGTGTAATGCCTTATTATAAAGATATAGCAAACAAAAACGGAATTCGTGCAGATATTGTTTCTACCAATGCTAACTCTATGTATTATTCTGGCTTAAACGGAGTGACCCCTTATGGAGTAAGTATGATGACAAGGAGTGTGGAAGGTACTTATAAAAGATTTGTACACTTTGTAACTCAGAACAGAAAGAAAACTTTTGAAGAGATAGATAATGTAGGAGGCGGTAGAGTATGGAGTGGTGTTCGTGCTAAAGAGATCGGTCTGGTAGATGAGCTTGGTACCTTAAATGATGCTGTGAAGTTTGCAGCACAGAAGGCAGGATTAAAATCTTATCAGGTAGATGCTTTTCCTAAGAGAATGTCACCATTTGAACAAATTTTCAAGGATCTGAATGAGGAGGATGTATCTGCAAGAATTATCAAAAACAAAATTGGGAAATCCAATTATGAGATTCTGCAGCAGATTACAGACAAGAAACTACAGTCTGAGGTAAAAATGGAAATGCCTTATCAGATTAGAATTAACAACTAA	MRSFFKNVLANIVAILILCALFFIFFIVMLVFSAMGSDKSVSVKKNSVLTINLKTNIIDSPTEEQMGLFGIGAQNKNILLYDALEAINKAKTDDNIKGISIEADYLYAGLTQIDDLRNAIEDFKKSGKFVYAYGNGVSQSAYYLGSVADKYYLHPAGGIELKGLATEVTFFKDFADKYGVGIEVIRHGKFKSAVEPFLRNDISPENKEQLSTLLNDLWKNTSNKMAASRKIDTAQFRTITDSLYGMIPEQSLKYKLADKLIQKSEYEDILKTKLNVKDKEKLNKISLTSYISSYADEDKSGEKIAVLYASGSINNGDEYSDIHSEKYVKYIKKLQEDDKVKAVVFRINSPGGSANASDEILFELQQLKKKKPLIVSFGDYAASGGYYVAMAADKIYSEPNTLTGSIGVFGVMPYYKDIANKNGIRADIVSTNANSMYYSGLNGVTPYGVSMMTRSVEGTYKRFVHFVTQNRKKTFEEIDNVGGGRVWSGVRAKEIGLVDELGTLNDAVKFAAQKAGLKSYQVDAFPKRMSPFEQIFKDLNEEDVSARIIKNKIGKSNYEILQQITDKKLQSEVKMEMPYQIRINN	PGPT0030320_1555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
BMS003_03723	261			hypothetical protein	ATGGGAATTTTAACATGGATCTTATTCGGTCTTATTGCAGGTGCTATCGCTAAAATGATCATGCCCGGAACTCAGGGAGGAGGATGGCTAATCACTATTATCCTGGGAATTTTAGGAGCATTTGTAGGAGGAGCTATAGGAGTTTACATTCTACATTGGGGAGACGTTACTTCCTTCTGGAATCCAAGAAGCTGGATCCTGTCCATCGGAGGAGCTTTAATCATTCTCTGGATTTACGGAATGGCCACAAAGAAAAGCTGA	MGILTWILFGLIAGAIAKMIMPGTQGGGWLITIILGILGAFVGGAIGVYILHWGDVTSFWNPRSWILSIGGALIILWIYGMATKKS				NA	NA	NA	NA	NA
BMS003_03724	954	ftsY	COG0552	Signal recognition particle receptor FtsY	ATGAGTTGGTTTAAAAATATTTTCAAAAAGGAAGAAAAGGAAACCCTGGACAAAGGATTGGAAAAATCCAGTCAGGGATTCTTTGAAAAAATGACGAAAGCCGTAGTCGGCAAAAGCAAAGTAGATGATGAAGTACTGGATGATCTTGAAGAAGTACTGATTGCATCTGATGTGGGAGCCTCTACTACCATCAAAATCATTGAAAGAATTGAAGAGCGTGTTGCCAGAGACAAATATGTAGGGGTAAACGAGCTGGATAAAATTCTTCGTGATGAGATTTCAGGGCTGCTGCTTGAAAACCCTCATGCTGGTACAGGAAATATTGACACTTCCAAAAAGCCCTATGTCATTATGGTTGTAGGAGTAAACGGAGTTGGAAAAACAACTACCATCGGAAAACTGGCTCATCAGTTCAAATCAGAAGGAAAAAAAGTAGTTCTTGGGGCAGCTGATACCTTCAGAGCAGCTGCGGTAGATCAGCTTGTTATCTGGAGCGAAAGAGTGGGTGTTCCTATTGTAAAACAGGAAATGGGATCAGACCCTGCTTCCGTTGCATTTGATACCGTACAAAGTGCCGTTGCACAGAATGCAGATGTTGTGATTATTGATACCGCAGGAAGACTGCATAACAAAATCAACCTGATGAACGAACTTTCAAAGATCAAAAGAGTAATGCAGAAGGTTATTCCTGATGCTCCTCATGAGATCCTTTTGGTACTTGACGGCTCTACCGGCCAGAATGCATTTGAGCAGGCCAAACAGTTTACAGCAGCAACAGAAGTAAACGCTTTAGCAGTAACAAAGCTGGACGGAACGGCAAAAGGAGGTGTTGTAATAGGCATCTCTGATCAGTTTCAGATTCCGGTAAAGTATATCGGGGTAGGTGAAAAAATGCAGGATTTACAACTTTTTAATGGTACGGAATTTGTAGATTCATTCTTCAAGAAAAGATGA	MSWFKNIFKKEEKETLDKGLEKSSQGFFEKMTKAVVGKSKVDDEVLDDLEEVLIASDVGASTTIKIIERIEERVARDKYVGVNELDKILRDEISGLLLENPHAGTGNIDTSKKPYVIMVVGVNGVGKTTTIGKLAHQFKSEGKKVVLGAADTFRAAAVDQLVIWSERVGVPIVKQEMGSDPASVAFDTVQSAVAQNADVVIIDTAGRLHNKINLMNELSKIKRVMQKVIPDAPHEILLVLDGSTGQNAFEQAKQFTAATEVNALAVTKLDGTAKGGVVIGISDQFQIPVKYIGVGEKMQDLQLFNGTEFVDSFFKKR	PGPT0025740_4340	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS003_03725	267	yabJ_2	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	GTGGGAAGCACAATAGAAGAGCAGGCACAGCAGGTTTTCAAAAATATTGAAAGTATCCTGAAAGAATATGGAGGAACAGGAAAAGACATTATCAGGCTGGGAATCTTTACCACAGACATCAAAAAAACACCTGATTTCAGAAAAGTCAGAGACGTGTATGTTAACCTTCAAAACCCTCCTGTAAGTACCCTTGTGGAAGTGAGCAGACTTTTCAGAGATGATGTGCTTATAGAAGTAGAAGCCACAGCAGTGATTAAAAATAAATAA	MGSTIEEQAQQVFKNIESILKEYGGTGKDIIRLGIFTTDIKKTPDFRKVRDVYVNLQNPPVSTLVEVSRLFRDDVLIEVEATAVIKNK	PGPT0020030_380	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
BMS003_03726	153			hypothetical protein	ATGGCAAAGAAAGTAGTAGCAACCCTACAAAGCGGTCAGTCTAAAAAGATGACTAAAGTGGTGAAAATGGTTAAGTCTTCTAAATCAGGAGCTTACGTTTTCGAAGAAAAAGTAATGAATGCTGATGAAGTAGATGGTTATTTAAAAAAATAA	MAKKVVATLQSGQSKKMTKVVKMVKSSKSGAYVFEEKVMNADEVDGYLKK				NA	NA	NA	NA	NA
BMS003_03727	183	rpmG2		50S ribosomal protein L33 2	ATGGCAAAAAAAGGAAACAGAGTTCAAGTAATCCTTGAATGTACAGAGCACAAAGAAAGTGGTATGCCAGGAATGTCTAGATACATTTCTACAAAAAATAAAAAGAACACTACAGAAAGATTGGAATTGAAAAAATACAATCCTGTTCTTAAGAGATCTACCCTTCACAAAGAAATTAAGTAA	MAKKGNRVQVILECTEHKESGMPGMSRYISTKNKKNTTERLELKKYNPVLKRSTLHKEIK				NA	NA	NA	NA	NA
BMS003_03728	243	rpmB	COG0227	50S ribosomal protein L28	ATGTCAAGAATTTGCCAAATAACAGGAAAGCGTGCAATGGTTGGTAACAACGTTTCTCACGCTAATAACAAAACGAAGCGTCGTTTTGAAATTAACTTATTAGAGAAGAAGTTTTACCTTCCGGAGCAAGATAAGCACGTTACACTGAAAGTATCAGCTCATGGATTGAGAGTGATTAACAAGATTGGAATCGAAGAAGCTATTGAAAGAGCTACTAGAAACGGATTGATTAAAAAGAATTAA	MSRICQITGKRAMVGNNVSHANNKTKRRFEINLLEKKFYLPEQDKHVTLKVSAHGLRVINKIGIEEAIERATRNGLIKKN				NA	NA	NA	NA	NA
BMS003_03729	1710			hypothetical protein	GTGAGAAAGATTTATATTGTATTGTCTATGTTACCCGTAAGCATCATGGCCCAGAACTTTACTGAGATTCAGACCGGCATGAATAATTTTTATTATTCTGCAGCTGATATTGCTGATATAGATAACAACGGAACAATGGATATTGTACTTAACGGAGCCATTGATTCTGATGGTGACGGAAATGTAGACAGCACTTACAATGAAGTATATCAGAATAACGGAACAACATTATTACCTTATGCAGGATTGGGAGCAGATGTAACACATCTTGGCGATATCAGGTTCATTGATTATAATAATGATGGGCTGATGGATATTATTTCCACAGGACTGAGCTATACGGATGTTATTAACTATAAACACTACAGGTTCAAAAATACGGGGACAGGATTTGTAAAAGAAGCGGAATTGCCGGGAAAAATCTATGGATCTCTGGAGGTTTTTGATTTTGATCATGATGGAAAATCTGATTATGCGATCAACGGAACGCAATACGCTCATGGTGGAGGTTTTGGTAACCGATTGGATTATTATAAAAACACAGGTGCTGGTTTTGATCTTACTGAAAACTGGGTGAATGGAACCCAAAGCGGAAGTTTTAAAGTGGTAGATCTTAATAATGACAACCTTTTGGATCTTGTGATTATAGGATCAGATGTCAATGGTGTACCGGTGTCTGAAGTATATATGAATCAGGCCGGAGTTTTAACTCCTACTCAGGATCTGGCTCCGGTGGGAGTGGGGAAATTGGATTTTGCAGACTTTAACGCAGATGGATTTCAGGATATTGTTATCGTTGGAAGGGATGAGAATGACGATGCGTATTTTGCAGTTCTGATGAATGACGGTACGGGTAACCTGATTCCACGAACAATTACCGGAACAGATATTTCTGATGTTTCATTAAGTGTTGGTGATCTTAATAATGATGGCTATTATGATTTTATTATTTCAGGAAATGAAAACTATAATGCTGTTGTGAAGACTTATATTTATGACGTTGCTAATAATAAATTTAATGAAGGAACAATTACCGGAATTACTGACCTTGGGGGACCGGGACTGGTGCAACTTTTTGATTTTAACAATGATCATCAGTTAGATGTATTATTGGGTGGATTTGACTGGTCAGCCTCTGATTTACCTTCACTCACGAAGATATTCAAAAATAATTCTACAGCAGCGAATGCAAAGCCTGCCGCGCCTACGCAGCTAAATATGACGAAAAGCGGAAACATGTTCAATTTTACATGGAGCGGAGCTTCGGATGATAAAACCCCGGTAAATGCGTTGCGCTACGAAATTACAGTCGGATCTGCACAGGGAGCTCATGATATTGCCAAATATGTAGTGACAACACCATCATGGTTTCTGGATCTTGATCCGGCAGTGCAGAATGTGTACTGGAGCGTGAAATCTATTGATGCTTCCAAAGTGTATTCAGATACTTCCACACAGGGTATGCTGGGAACAACAGAAATTAAATCTGATAAACAGGTTATTATCTATCCGAATCCGGTGTCAGATAAGGTGTACATCAAAGGGGGAACAGTTTCGGAAGCCGAAATGTATTCTATGGATGGGAAAAAATTAAATATCCGTGTAAGTGGAGATCAGTCTATTGATGTTTCTCATTTGCCTAAAGGAGTCTATTTATTAAAACTGAAGATAAAAAACGAAATAACCACAAGGAAACTTACGATTAAGTAA	MRKIYIVLSMLPVSIMAQNFTEIQTGMNNFYYSAADIADIDNNGTMDIVLNGAIDSDGDGNVDSTYNEVYQNNGTTLLPYAGLGADVTHLGDIRFIDYNNDGLMDIISTGLSYTDVINYKHYRFKNTGTGFVKEAELPGKIYGSLEVFDFDHDGKSDYAINGTQYAHGGGFGNRLDYYKNTGAGFDLTENWVNGTQSGSFKVVDLNNDNLLDLVIIGSDVNGVPVSEVYMNQAGVLTPTQDLAPVGVGKLDFADFNADGFQDIVIVGRDENDDAYFAVLMNDGTGNLIPRTITGTDISDVSLSVGDLNNDGYYDFIISGNENYNAVVKTYIYDVANNKFNEGTITGITDLGGPGLVQLFDFNNDHQLDVLLGGFDWSASDLPSLTKIFKNNSTAANAKPAAPTQLNMTKSGNMFNFTWSGASDDKTPVNALRYEITVGSAQGAHDIAKYVVTTPSWFLDLDPAVQNVYWSVKSIDASKVYSDTSTQGMLGTTEIKSDKQVIIYPNPVSDKVYIKGGTVSEAEMYSMDGKKLNIRVSGDQSIDVSHLPKGVYLLKLKIKNEITTRKLTIK				NA	NA	NA	NA	NA
BMS003_03730	1635	lnt		Apolipoprotein N-acyltransferase	ATGAAATACGTTCTACTTACACTTATTTCAGCAATGCTGCTGTCGGTTTCATGGCCAACTTATGGAGTTCCGTTTTTTATATTTTTTGCTCTTGTTCCACTTATGATGATGGAACATGGGGTTTCAAAATTTTCAGACTATAAAAGAAAAAGCTGGGTAGTCTTCGGGTTATCTTACGTATGTTTTGTGATCTGGAATATAGTCACTACGGGATGGCTGTATGGCTCGAAGAACCCGGACGGAAGCCACTCGCTGATGGCTGTTTTATTCCCTGTACTGGTCAATTCTCTTTTATATTCTTTGGTATTTCAATGTTATCACTGGTACAAAAATGCTCAGGGAACCTATTGGGGATTAGGATTTTTGATCGCCATCTGGATGAGTTTTGAAAAGTTTCATTTGGGATGGGAATTAACATGGCCATGGCTGAACCTTGGAAATGTATTTTCAGATTACCCAAAACTGATCCAGTGGTATGATACTTTAGGGGCAACCGGAGGAAGTTTCTGGATTCTTTTAATCAATGTTCTGATTTTTTATACAATAAGAACCTGGGAAGCCGGAAGAAAGAGAAAAGATCTGATCAGAAACTCGGCTATTACTGGAGCTTTAATTGCTCTGCCAATGATTATTTCAGTGATTAAATACAATACTTTTGATGAAAAACCAACCGGGCAGGTTAATGTACTGATGTTACAGCCGGATCTTGATCCTTATGCTGAAAAATATTCAAAAGACAGTCTGACTATTGAGCAGGATTTATTATCTCTTGCTGAAAAAAATTCAACAGGTAAAATTGATTATTATATCGCTCCGGAAACGGCACTTCCCGGGAGGGGATCTATTTCTGAAACAGCATTTGAAAAGAGTTTACTTTTGAACAACATCAAAGTGTTTTTATCCAATCACCCGGGCTCTGTTTTTGCCACAGGAATTTCCTCACACCGTTTCTTTTATAATCCTGCCAATTTACCTAAAGAAGCCTATCAGATCAATAGTGGAGTTTGGGTAAGCAGTTATAATACAGCTATCCAATTGGTACCTAATCAAAAAGTTCAGGCTTACCACAAAGGAAAACTCGTACCGGGGGTGGAAATATTCCCTTATATGAATGTTTTAAAACCACTTTTAGGAGATGCCATGCTCAACCTGGGAGGCACTGTAGCGTCTTTGGGAACAGATAAGGAAAGAGTTACCTTTTCAAACCCTTACAACAAAGGGAAATTAGCTCCTATCATCTGCTATGAAAGCATCTATGGCGAGTTTGTAACAGACTACGTAAAAAAAGGAGCTAATTTCTTAGGTATTATGACCAATGATTCCTGGTGGGGTGTTACAGAAGGGCACAAACAGCTTTTATCTTATGCTAAACTGAGAGCTATTGAAACCAGAAGAGAAATTGCCCGCGCAGCGAACAGCGGGATTTCAGCACACATCAATGCGAAGGGAGAGATTACTGCCGATACTTTTTATGGAGATCAAACAGCTTTATTTGCGAAAGTGAATCTATATGACACTATGACATTCTATACAAGAGCCGGTGATCTTCTTTCAAGGTTTTCAATATTTGCACTGGGGTTTTTACTGTTTTATTTTCTGATTGAATGGTTCAAAAACAAAACAAAGAAATCTTAG	MKYVLLTLISAMLLSVSWPTYGVPFFIFFALVPLMMMEHGVSKFSDYKRKSWVVFGLSYVCFVIWNIVTTGWLYGSKNPDGSHSLMAVLFPVLVNSLLYSLVFQCYHWYKNAQGTYWGLGFLIAIWMSFEKFHLGWELTWPWLNLGNVFSDYPKLIQWYDTLGATGGSFWILLINVLIFYTIRTWEAGRKRKDLIRNSAITGALIALPMIISVIKYNTFDEKPTGQVNVLMLQPDLDPYAEKYSKDSLTIEQDLLSLAEKNSTGKIDYYIAPETALPGRGSISETAFEKSLLLNNIKVFLSNHPGSVFATGISSHRFFYNPANLPKEAYQINSGVWVSSYNTAIQLVPNQKVQAYHKGKLVPGVEIFPYMNVLKPLLGDAMLNLGGTVASLGTDKERVTFSNPYNKGKLAPIICYESIYGEFVTDYVKKGANFLGIMTNDSWWGVTEGHKQLLSYAKLRAIETRREIARAANSGISAHINAKGEITADTFYGDQTALFAKVNLYDTMTFYTRAGDLLSRFSIFALGFLLFYFLIEWFKNKTKKS	PGPT0024470_758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
BMS003_03731	423			hypothetical protein	ATGTTAAAGAAAATATATAAAATCATTATTGTTCCGTATACTCTGTTTTTACTCTATCTGATGTTTTTAGGGATGGGAAGATTTCAGTATGAAGATAATATGATTACAGTAGAACCTATATTTTCTACTATTAATTTCATACAGGGGGGGATAGACCGGAAAGATACTGCCATTATTGTTCTGGGAAATATGATCATGTTTTTTCCTTTCGGTTTTTTGGGGTGGGTTTTTCCAAAGCTGAGAAATTTAAAACCATTGCTCTTTCATTTTATTTCTGCTATTACTATTGTGGAAGCACTTCAATATTTTACCAGAATGGGAATATTTGAAGTAGACGATATCATCCTGAATACCTTTGGTGTATATTTAGGATGGCTGCTTTGCGGGTTTATAGAAAAGAAATTTAACTATTTAGTTCTTTAG	MLKKIYKIIIVPYTLFLLYLMFLGMGRFQYEDNMITVEPIFSTINFIQGGIDRKDTAIIVLGNMIMFFPFGFLGWVFPKLRNLKPLLFHFISAITIVEALQYFTRMGIFEVDDIILNTFGVYLGWLLCGFIEKKFNYLVL				NA	NA	NA	NA	NA
BMS003_03732	804	proC	COG0345	Pyrroline-5-carboxylate reductase	ATGAAAATAGCTATTCTTGGGGCCGGAAATATGGGGCTTTCTTTTTCAAAATCTTTTCTGAAATATGAACTGATCAAACCTGAACACCTGCATCTTATTATCAGAAATCAGGAAAAGGTTTCCAAAATAGCTGAAGAATTCCCCAGGTCTACAATTTCCACCTTTGGAGAGGTTAAGGATCTTGATGCCGATCTGATCATCATTGCTGTAAAACCCCAGGATTTTCAGACAGTTGCCCAAAACATCCGGTTTACTTTAAAAGAAAACCAGATGATACTCTCCATCATGGCAGGGATCAATATTGAGAAAATCCAAAAATTACTCAATCATCCGCTAGTGGTAAGAGCAATGCCAAACTCTCCTACTCTTCTGGGAATGGGCATCACAGGATATACTGCTGCAGACGGAATTTCTTTCAGTCAGTTAATCAGTATAGAACGACTGCTGAACAGCACCGGAAGATCTGTTTATCTGGAAGACGAGGAACTTCTGGATGGTGTTATAGCACTTTCAGGAAGTGGCCCTGCTTATTTTTACTATATCATTGATGCGATGATTAAAGCAGGAATCGAAATGGGAATAGAAGAAAATCTGTCCAAGCTTTTTGTAAAACAAACAATGTTGGGAGCTTATCATCTGATTAATAACTCGGAAAAAAATCTTGAAGAACTAATTAAAGATGTTGCATCCAAAGGCGGAACTACCGAAGCAGCTTTAAAAACATTTGAAGAAAACAGCTTCAAAGACATCCTGAAACAGGGAATCCTGAATGCAGAAAAACGCGCTAAAGAACTAAATAGTTAA	MKIAILGAGNMGLSFSKSFLKYELIKPEHLHLIIRNQEKVSKIAEEFPRSTISTFGEVKDLDADLIIIAVKPQDFQTVAQNIRFTLKENQMILSIMAGINIEKIQKLLNHPLVVRAMPNSPTLLGMGITGYTAADGISFSQLISIERLLNSTGRSVYLEDEELLDGVIALSGSGPAYFYYIIDAMIKAGIEMGIEENLSKLFVKQTMLGAYHLINNSEKNLEELIKDVASKGGTTEAALKTFEENSFKDILKQGILNAEKRAKELNS	PGPT0014225_4677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS003_03733	1848			hypothetical protein	ATGAGTAAAACCACACCGCTAATAGATTTTTTTAATCAGACTTTCCATATTCCCCACTATCAAAGAGGATATAGATGGGAGAAGCAAGAAGTTAATGAATTACTTGATGATCTCTGGAATTTTGAAAAAAATTCAAATAAAGGAGAATTCTATTGTCTCCAACCAATAGTTTTAAAAAAGAACGACCTCAATGGATATGATGTATTGGACGGACAACAGCGGCTCACAACGCTTTATCTTTTGTTAGTTTACTTGGAGGATAAGATAAAAGAGGATAATTATCTTCAGTCACTATTTACACTGAATTATGAAACTCGTAAAAATTGTGAACAATTTTTGAGCAGCAAAAAATTTGCTGCAAATATTGATGAAAGCAATATAGATTTTTACCACATCTCTAAAGCTTACCAAGAAATTGATATGTGGTTTAAAGATGAAAAACACCGAGGCGCGAAAGGTAAGCTTGTTCCGATCTTAATGGATGATACAAGCAAGAGCAACCGAAATATCCGCTTTATACGTTATGAAGTCCCAAATGAAACCAATCCGATTGAAGTATTCATTCGGTTGAATATCGGCAAAATTCCTCTCACGGATGCAGAACTTATAAAGGCGTTGCTTCTTCAGAGCGACAAGTATGATTCCGACGAGATTAAATTCACAAAAATGCGGTTGTTTGAAATTGCTACTGAGTGGGATAATATTGAATATACATTACAAGATGAAGAATTTTGGTATTTTTTGAATAACAGTAACAATCGGAAACCCACACATATTGAATTTATTTTTGATCTTATTGCAGATAAGATTCAACAAGAAAAAAGATATTTTGATTCCAAACCGCTGAAACACGCAACTTTCCTTATTCTATCGGAATACTTGCAGGATATGTTGGAGAATGAAGAAATTCCTAGGATTAAAGCTGTTGAAATTATCTGGAATCAGGTAAATAGATATTTTGAGTATTTTAAAGAGTGGTATAGAAGTAGAACTCTTTTTCATTATATAGGGTTTTTAATAGCCAGCAGGAATTACAATATAATAGATACTCTTATTAATGAATCATCTGAGCTTGGTAAAAGTAAATTTATTGAATATCTGGAAAGTGAAATCGGAAAAATACTTTTGATTGATAAAATACGTAAAGATTCTGATGGAAATCAATATAAGGTTAAATTAGAAGATTTAAATTACGAGAACGAGGATCAGCAGAGTCACGACCGACAAGAAATTCAAAAAATTCTACTTTTTCATAATATCTATGCCTCATTGATGAGTGATAAAGAAAAAGCACGTTTCCCTTTTAATCTTTATAAAACAACGAAGAAAAAAGAAAAATGGAGTTTAGAGCACATACACGCACAGAATTCAGAACAAATTACTAACAGATCTAATCAACAAACTTGGCTTAGTGATCACATTAAATCTTTGCAGAGGATGACTGCCTATGATTTTAGTGTTTTATTGGAGAGAATGAATGAGATGCTCAATGCCGATAATATAGAAAGGGAGGACTTTGAATCTATTGTAACGGATGTTTATGATAAGATAAACAAAATTTCCGGTGCCAATGAGCAAAGTAAGCATTCTATCAATAATCTTTGTTTAGTAGATGCTGTGACAAACAGCAAATTAAATAATTCTGTATTTGACGTAAAGCGGGAGATTATCAAAGAAATAGAAGTCAAAGGGCATTATATTCCTTTCTGTACAAGAAATGCTTTTCTCAAAGCCTATACATCTTATCCGGTAAACAATGCCTACTGGACTCTTGACGACAGAAAAGATTACCTGCGAAGCATTCGCCAGGTATATGAGAAATTTATTAATGCTATTATTGAAAATTAA	MSKTTPLIDFFNQTFHIPHYQRGYRWEKQEVNELLDDLWNFEKNSNKGEFYCLQPIVLKKNDLNGYDVLDGQQRLTTLYLLLVYLEDKIKEDNYLQSLFTLNYETRKNCEQFLSSKKFAANIDESNIDFYHISKAYQEIDMWFKDEKHRGAKGKLVPILMDDTSKSNRNIRFIRYEVPNETNPIEVFIRLNIGKIPLTDAELIKALLLQSDKYDSDEIKFTKMRLFEIATEWDNIEYTLQDEEFWYFLNNSNNRKPTHIEFIFDLIADKIQQEKRYFDSKPLKHATFLILSEYLQDMLENEEIPRIKAVEIIWNQVNRYFEYFKEWYRSRTLFHYIGFLIASRNYNIIDTLINESSELGKSKFIEYLESEIGKILLIDKIRKDSDGNQYKVKLEDLNYENEDQQSHDRQEIQKILLFHNIYASLMSDKEKARFPFNLYKTTKKKEKWSLEHIHAQNSEQITNRSNQQTWLSDHIKSLQRMTAYDFSVLLERMNEMLNADNIEREDFESIVTDVYDKINKISGANEQSKHSINNLCLVDAVTNSKLNNSVFDVKREIIKEIEVKGHYIPFCTRNAFLKAYTSYPVNNAYWTLDDRKDYLRSIRQVYEKFINAIIEN				NA	NA	NA	NA	NA
BMS003_03734	2286			hypothetical protein	ATGTCATACACCCTAAAATATTTATTGGAAACCTACAAAGTTATGATTCCTCAAATCCAACGGGATTATGCTCAAGGGCGTGAAAGCGAGTTCGAACTTCGTAAAGGTTTTGTAAGCAAGATAAAGCAGACACTTTCAGAAAATGAGGAGAAATTGAATCTAGACTTTATTTACGGATATACTGAAAAAGTTGGTGCTGATGAGGAAGTGTTTGTTCCCTTGGATGGTCAGCAGAGACTAACCACACTATGGCTTGCACATTGGTTGCTTGCTCCAAGAATTGATGATGAATTGGATCAGGAGGTTAAGAAATACTTATCAAAATTTACTTATGAGACCAGAATATCTTCGAAACGTTTTTGCTATGCTCTTATAAACAAGACTCTAAAAATTAATGAAAATTTTACTTTAAGCCATAGTATAACTGATGCGCCATGGTTTATGGCTTCATGGAGTGACGATCCGACAGTTAAAGCAATGCTTAATATGTTAGATACTTTGCAGGAGGAATTTACAAACACATCCTTTGCCTGGGAAAATCTTACTGAAGATGATAAAATAACATTTGATTTCATTGATATAAAGTCCGACGAATTCAAACTGACAGATGAACTATACATAAAGATGAATTCAAGAGGGAAACCTTTGACTCCTTTTGAAAATTTCAAGGCCCAGTTTGCAGGATTATTGGCATCCAAACAGACTGATTATGAAAATGAAACAAGAGAATATGAAAATACACAGATTAGCTATCAGCAATACTTTGCTTTTAAAATAGATTCTATCTGGATGGATTTGTTTTGGAATTATAGAAATAAGGCTGTCAATAAAATCGACACATCAATTTATAGGTTCATCAATTTCGTGGCAGAGTTTCTTTTTTTTAGAGAAACCCCCGATGCGTTGAGTGCAGATGCCAAGTATGATTTTGAATTTTTAAATAGCGTTTTCAGTAAAAAAGAAAATATTGATTTCCTCTTCGATTCTTTAGATTTTCTATCCTCTTTGAATGATGTTGAATCATTTTTTGATGAGCTCTTCAAAGATTTATCAACTTTTGATGAAGCCACCAATGATTATTTTTTAAGATCAATTACAAATAATGGTTTTGATGTCAAAGACAAAACTATTTTATATGCTGTATTGCAAATATGCATTAAGATGCAAATTCAATCGATCAACGATCAGTTGAAGGACTTTATTCGTATTGTTCGGAATCTTTTGTTTACCGCAAGACAGATCAATCAATCCAAACGTATTGAATACACTACGAATCTGCGTTTACCAAATGTATCAGAATACTGCAAATTTATAGATGCTTTTGTGGAAGAACTTAGCTTCACAAATAATCAGCCTGTCTATACCATTCTTTCTGAAAGAGATTTTACTGGATTTACCCGAGAGAATATTGCAAACGAAAAAATAAAAGCAACCCTGATTGTAAAAAACTCAGATTTAAAAGCAAATATTCAAATAATGGAAGAACATCTTGAGCTACAAGGCAATCTTTCCAATTTTAAATTGAATTCAACCGATATTGTCCAGAAGATAGATGCCTTCTTAAAAATTTGGAATGGTAATGTTGCAGATTCGTTGATAGTACGTGCTTTTTTATCGATCGGTGACTATTCTGTGATGACACATGATTATTCCTCATTGGGAGAGATCTGGTTTTTTGGAAGCAAAGGTTTCTGGAATAGAATTTTGACAGCAGGTGATAAAGAGGAAAGAGTACAAGTATCAGGCGTACTAGATAAATTTCTAACTGCATTTTGTGATTCAAAGGGTGATGATACTGCAGAAAAATTACAAGGTTTAATCGATGCTTTTGTAGAGGAAGAGAAAGACTGGCTTTATTATTTTGTGAAGTATCCAGGAGTTACGAATAATCCTTATCGAGATCTAAATGTTTTTACCTGGAAGGGCGATGGTTTTGATATTAATAATTTAGGGAATTCAGGTAGACAGCCACTACATTCTTATCATTTGAATCCTTATTTGACTGCTTTAAAGTTAATGTTCAAAGGAAATAAAAAAGTAACCCTTTATTGGGGTAGGTTTGCAACTTTAAGCTATATAAAAGTTAATAATGAGATTATTATAAAATGTAGTAGTTCAGGCTGGACAATCACTCCCATAGCTGACTTCGTAATGGATACGGAAATTATTGAAAAATATAATATTACCGAAAAAAACAACAGCTATTTTCTAATAGAAAATGATGAAAAAGATAGAATAGAAATTGCAGTTGATTTTATAAAAGATATATTGGTTAAATGTACTTAA	MSYTLKYLLETYKVMIPQIQRDYAQGRESEFELRKGFVSKIKQTLSENEEKLNLDFIYGYTEKVGADEEVFVPLDGQQRLTTLWLAHWLLAPRIDDELDQEVKKYLSKFTYETRISSKRFCYALINKTLKINENFTLSHSITDAPWFMASWSDDPTVKAMLNMLDTLQEEFTNTSFAWENLTEDDKITFDFIDIKSDEFKLTDELYIKMNSRGKPLTPFENFKAQFAGLLASKQTDYENETREYENTQISYQQYFAFKIDSIWMDLFWNYRNKAVNKIDTSIYRFINFVAEFLFFRETPDALSADAKYDFEFLNSVFSKKENIDFLFDSLDFLSSLNDVESFFDELFKDLSTFDEATNDYFLRSITNNGFDVKDKTILYAVLQICIKMQIQSINDQLKDFIRIVRNLLFTARQINQSKRIEYTTNLRLPNVSEYCKFIDAFVEELSFTNNQPVYTILSERDFTGFTRENIANEKIKATLIVKNSDLKANIQIMEEHLELQGNLSNFKLNSTDIVQKIDAFLKIWNGNVADSLIVRAFLSIGDYSVMTHDYSSLGEIWFFGSKGFWNRILTAGDKEERVQVSGVLDKFLTAFCDSKGDDTAEKLQGLIDAFVEEEKDWLYYFVKYPGVTNNPYRDLNVFTWKGDGFDINNLGNSGRQPLHSYHLNPYLTALKLMFKGNKKVTLYWGRFATLSYIKVNNEIIIKCSSSGWTITPIADFVMDTEIIEKYNITEKNNSYFLIENDEKDRIEIAVDFIKDILVKCT				NA	NA	NA	NA	NA
BMS003_03735	258			hypothetical protein	ATGAACTCTAAAGAAGATTTCAGAGAATGTAGTTTTCAAAATATCCTTGCGGAAATACCCGACGATAATGTTAAAATTCTGAAAGTAATTCAGAATCACAAGAAAGATCTAAGGGATTATTTTTCCGCGCTTGTAAGCGATGAGAACACTTCCGAACACATCTATATGTTGTTTGAAAGCTCAATTCTGGAAAGCAAAATGTTTAAGTCGAATCAATTAATCGTGCGGTCAAAAATGATTGTCGATCAATTAGTTTAG	MNSKEDFRECSFQNILAEIPDDNVKILKVIQNHKKDLRDYFSALVSDENTSEHIYMLFESSILESKMFKSNQLIVRSKMIVDQLV				NA	NA	NA	NA	NA
BMS003_03736	2247			hypothetical protein	ATGAAATATATTATTGAAATATGTGTCGCTATAGATGTCGCCATATTGGGAATTGCATATCCTATCTTAGTTGATAAAATATCAAATATTGGAGAAAAATACCAATCTGAGTATCTATCTAATGTTTTTGATCTGAAATTTCCACAAAACCTTTCGGTTTTCAGGTTATCTTTTTTTCAGCTGATCTTAATTCTCACACTTTTAAGTTTTATTTTTAAGATTTTAGATATTCCTCCTATAGATTATTTTAAAGATGTTTACATTGTAGAAAATTCTGCAGATATCTTGATTTTTTGTTTAACTGTCCTGCTAACCATTTCCTTTATCATCTGGCTAAATAGAATAGTTTTGTTTCAGTCCAAAACTTCCCAATTAGTTATATATCTGATCAAGAAATATGAAAATAAGACCGAAGATAAAAATTTATCAAAAACGTACTATTTAAAAACCATCAATGAGCTCACATTGTATGCGTTTAAAAACGATGATCCGCACATTGGAAAAACCCTATCTGATTTTTACTATAAACAATTTATGGACTATCGGACAAATAATTCTTCAAATGATGGTCCGGTTTATCCATTTGATCTTTACCATATCACCAATGAAATCATTATCACATCAAGTGAAAATAATAATCGAAGATTTTCCAATATAGGTCATCTCGCATCATCCGGCATATTTTTACTGGGAGAAAACTTTACCTTCGGCAAGATATCTCAGGAAACATACAGATGGCTATGGAGAAATCTATTAGTGTCAGCAAATCATAAAAAACTCATAGCTAATTATTGGTCAACAGCCTCTCAGCATGCGGGTTATAGTCTAAATCTTATCGCCCCAGAATATGAACCTGGTACTATGACTATAACAAATAATGATAAAATAAAAGAGGTTGAAGAAGAGCGTAGAAAATTCTTACAGCTTAACTACGCCTTAGGAGGATTGCTTTATTATCTCTCGAACTATGATATTATTAAATATATACTTTCATTTTCACAGTCCCAACCACCTAGATATGAACTGTTACCTACTACAATGGATGATGTTTTTTATTGGTTTGATCAATTTGCCAACCAATACAGAAGTTTAGAAGATCCTATAGAATATAAGTTCAATTTCCCCGAATTGGATAATTTAGGGGTTAGCGGTCAAACGACGCACAATATATGCTTATATATTTCCTTACTTTTTGTCAGACAGTTTACCTTACAAAAAATATACAGTTATCAAAATTTTAAAATATTCCATAGCCTGACTAACGATTTAAATATTTTGTATTCGTATCACAGGAGGCTTCAATATTTTAGAACCTGCATTGAAAAAGTTCTTGAAAATAAAGAGCTTCTCGATACTTTAAATTACAAATTTGATGAGCAAGAAGTCTTAGCCACTTATGATACGTTAAGCCAGAAAATAAAGGATAAAATTGACCTCACAAAGTTACAGTCTCCAATTTCCCAAGCCAAAGTTCAGCAATTTGAGAATGAGACGAAACGAATTTTAAAAGAAACTTTTGAACAATATTCAACGATTAATAATCCTACAAATTTCAGAAAGATTGACAAGTCCATTACAACCGCAATAAACGGTAATATGACTTTATCGTATAAATCATCATTTACGGAAAATGAAATTCCCAATTTTAATTATGATACCGTGCATGCTGAGAGCATTTCTAACAGTAAGGTTAAATTTTATATTCCAAATTCATTTCTGATTGCTAGAAATCGTAGATATCTAATCGATAAAAAGAATATTTTAAAAGCATTCCAAAAATTGATTCCGACCCTCTCTGACGAATATATCATTATTAGTTTGTGTTCAAACTATCAAGTAGAGCAGGTAATAAATGAGTCCCCTTACAAGAATATTATCCAAAAAATTCCTTATACGAACAATCATCTAAAAGATACATTTTTCTTGCTAAAAAAGAAAAACTTGCCTAAAATGGAATTTAGGGATGTCTCGAGTCAGGAAATAGAGAAATTCAAACTTAAACCCTTAGACAGCGATATAAAATTATACGCATCTGTACTGGATCTTAATACTCCGGATAACATCGATTTGAAAAATGAGTATAATAACGAAGATGAAGATGATGAACTTAAAGTTTTACTTTTGATAAGTTTTATCTATACAATTAGCTGGAGAAGTGATCGAGACATCGTAATGCTTAGCTTGTCGTCACCCTATGAAGAACGTGGAATAGAAAGTGAACTTGGCGATATCAAAAAGCTGAAATAA	MKYIIEICVAIDVAILGIAYPILVDKISNIGEKYQSEYLSNVFDLKFPQNLSVFRLSFFQLILILTLLSFIFKILDIPPIDYFKDVYIVENSADILIFCLTVLLTISFIIWLNRIVLFQSKTSQLVIYLIKKYENKTEDKNLSKTYYLKTINELTLYAFKNDDPHIGKTLSDFYYKQFMDYRTNNSSNDGPVYPFDLYHITNEIIITSSENNNRRFSNIGHLASSGIFLLGENFTFGKISQETYRWLWRNLLVSANHKKLIANYWSTASQHAGYSLNLIAPEYEPGTMTITNNDKIKEVEEERRKFLQLNYALGGLLYYLSNYDIIKYILSFSQSQPPRYELLPTTMDDVFYWFDQFANQYRSLEDPIEYKFNFPELDNLGVSGQTTHNICLYISLLFVRQFTLQKIYSYQNFKIFHSLTNDLNILYSYHRRLQYFRTCIEKVLENKELLDTLNYKFDEQEVLATYDTLSQKIKDKIDLTKLQSPISQAKVQQFENETKRILKETFEQYSTINNPTNFRKIDKSITTAINGNMTLSYKSSFTENEIPNFNYDTVHAESISNSKVKFYIPNSFLIARNRRYLIDKKNILKAFQKLIPTLSDEYIIISLCSNYQVEQVINESPYKNIIQKIPYTNNHLKDTFFLLKKKNLPKMEFRDVSSQEIEKFKLKPLDSDIKLYASVLDLNTPDNIDLKNEYNNEDEDDELKVLLLISFIYTISWRSDRDIVMLSLSSPYEERGIESELGDIKKLK				NA	NA	NA	NA	NA
BMS003_03737	1698			hypothetical protein	ATGTTTTTAAAAGAACTTACAATAGAAAATAAATTCGGTAAAATTCGTACTATCGAGTTCAAAAAAGGATTGAACTTAATTGTTGACGAAACTATTGAAAAAGATAAAAAAAGCACCGGAAACAACGTTGGTAAAACAACTGTGCTGCGACTTGTAGACTTTTGTCTTGGTTCTGATGGTAAAAACATCTATCAAGACAGCGAATTTAAAGAACAGGAGAACAGTGTCATTAAAGATTTTTTGACCAGTACAGAGGTAGTTATTACATTAAGATTGGATAATGATCTTGATTTCCCATCAGAGTCAGTCATTGTTCGTAAAAATTTTTTGAAGTACGGAAAAAAACTTCAAGAATTGAATGGTGAAAATATTAAGGATAACAAAGAGTTTGATTTAGAACTTAAGAAATTAATATTTAAAACGGAAGTTGAAAAACCTACTTTTAAGCAGATCATCTCAAAAAATATCCGAGATGAAAAAAATAAATTAGCCAACATTGTAAAAGTTTTAAATGCTTATACAAAAACTGAAGAATATGAGGCTCTTTTTTTATTTTGGTTAGGTTTAAATACAGATTCTCATAATGAGAAAGAACTTTTAGTTAAGGAAAAAACAAGAGAGGATAATTACCAAAAACGATTAAAAAAGGAAGGTGAATTATCATTAATCGATCAGCAAATCGAGTTGGTAAATTCAAAAATTAAAGAATACGAAAATTTAAAGGCCAGCTTTAATTTTAATGAAAAATTCGAAGGTCAGATCAACGAATTGAATGATGTAAAACTATCTTTATCAAAGCTTTCAACTGAATTCAGCAGACTCAATATGAGAAAAGAATTAATTGTTGAAAGTAAAGAAGATCTTGAAAAAGAAAAAACAAACATCGATGTAAAGCAAATAGAACTACTTTACCAAAAGGCGTCGAAACTGATCCCTTCATTACAAGTATCTTTTCAGGAGACTGTAGAATTTCACAATGCACTAATTGATGAGAAGGTAAAATACATAGAGAAGGAATTCCCCAATATTTTAGAAAAACTAAAGGAAATAACTAAAAAAATAGATTCTTTAAGAAAAAGAGAAAGGGAGTTATCAGAATTTATCAGTGCATCAGAATACAGTGACAATTATGATTCTATACTTAAAGAATTAAATTCTTTTTTTGAATTAAAAGGATCTCTTGAACAGCGAAGAAAATATTGGGTTACATCTAATGATAATTTAAAGAGAATTAACGACAAGCTAGATTCTATCAACAGCCAAATCAGCTCAAAGGATGATTTTATTCAAAATAGAATTACAATATTCAATAAGTATTTCACAAAAATTTCTAATAAGCTTTATGGTGAAGAATATCTTTTAAGTACGCAGAAGAATGAAAAAGGCTATGACTTAATTGTAACTAATATCGAAGGAAATCCAAGTACCGGAAAGAAGAAAGGCCAAATAGCTGCGTTTGATTTTGCTTACATTCAATTTGCAGAAGAAATTGATATGGACTTCGTAAATTTTATAATGCATGATCAATTGGAAAACATGCATGACAATCAACTTTCCACCATATTAATTGAATTAGCTAATTCTATAAACTGCCAGTTTATTCTACCAATTGTAAGAGATAAAATCCCAGCGGAATTAGCAATAGATCAGTACATTATCCTTAAGTTATCAGAAAATGATAAACTTTTTAAAATATGA	MFLKELTIENKFGKIRTIEFKKGLNLIVDETIEKDKKSTGNNVGKTTVLRLVDFCLGSDGKNIYQDSEFKEQENSVIKDFLTSTEVVITLRLDNDLDFPSESVIVRKNFLKYGKKLQELNGENIKDNKEFDLELKKLIFKTEVEKPTFKQIISKNIRDEKNKLANIVKVLNAYTKTEEYEALFLFWLGLNTDSHNEKELLVKEKTREDNYQKRLKKEGELSLIDQQIELVNSKIKEYENLKASFNFNEKFEGQINELNDVKLSLSKLSTEFSRLNMRKELIVESKEDLEKEKTNIDVKQIELLYQKASKLIPSLQVSFQETVEFHNALIDEKVKYIEKEFPNILEKLKEITKKIDSLRKRERELSEFISASEYSDNYDSILKELNSFFELKGSLEQRRKYWVTSNDNLKRINDKLDSINSQISSKDDFIQNRITIFNKYFTKISNKLYGEEYLLSTQKNEKGYDLIVTNIEGNPSTGKKKGQIAAFDFAYIQFAEEIDMDFVNFIMHDQLENMHDNQLSTILIELANSINCQFILPIVRDKIPAELAIDQYIILKLSENDKLFKI				NA	NA	NA	NA	NA
BMS003_03738	234			hypothetical protein	ATGATCGTAGATAAAAATATTAATCCGGAAAGAGATTTATATTATCTGGGAGGAAAACTTATAGAAGTTCTGTCTCAGAAAAGAAAGAATGAAATTGATTATTTAGAATTATATCGCCTTTTTAATAAGAAGGAAAATGTTTCTATCAATCTTTATTCATTAACTTTAGATTGGTTGTTTGTGTCAGGTGTAGTAACAAAAGGTGAAACCGGGAAAATTAAAAAATGTTTTTAA	MIVDKNINPERDLYYLGGKLIEVLSQKRKNEIDYLELYRLFNKKENVSINLYSLTLDWLFVSGVVTKGETGKIKKCF				NA	NA	NA	NA	NA
BMS003_03739	846			hypothetical protein	ATGGAACCTAATAAGCCGAAAGATAAAGCAAGACAATATAAACCTTCTACAGTTAGAAGGCTTGATACTCTTTCGGGCAATGAATGCGCTGAACCAACCTGTCAAAAAAGGCTCATTGCAAGTGACGGAATAAGTATTATCAGCAAAATCTGCCATATTGAAGCTGCTAGCAAAGAAGGCCCGAGGTATAATCCTGACATGACAGATGATGAACGTCGCGGCTTTGACAATCTAGTTTTACTTTGTGATGAGCATCACATTATTATTGATAATAAAGAAAATGAGAAAGATTATCCTGTGGAACTTTTAAAAAGTTGGAAAGCAGAGCATGAGAAAAAAATACTGGAGTTGATATCAAGTAAAAACTTGCTTACCAAGCATCCACTCGCTTTAAATAAGGTCATCAATGCTGTTGGAAACAACATAAAAGAAGTCCTTGCATTACCAGGTGCAGAAAATGCGCCTGATCCGGAAGCTAAAATATTGCACAATAATGTACTTCGATATGAGGACACCATTAGGGAATTTGCCCCTTATCAAGGTAAACTTAACAAAATATATGAGGAGATTGAAAAGCAAGGTTCCGTTAAAAAAGAATTAGTTTTATATAATATCAAAAGTACCTATCTCAAAATTAAAAAAGATTATCCTAACTTAGATGCGGTTAGGAAAAATGCAGATATAATTTTTGACGAAGTAATAGAAGAAGTTTGGGAAAAGATTTATAATGCTCCAAACAAGCTTGAAGAATTTGATCAGGAAACAATCAACTTCAGCTTAATGATTGTCATTATTGATGCTTTTATGCGTTGTAATATTTTAGAAGAACCTCCAAAAATTTCTTAA	MEPNKPKDKARQYKPSTVRRLDTLSGNECAEPTCQKRLIASDGISIISKICHIEAASKEGPRYNPDMTDDERRGFDNLVLLCDEHHIIIDNKENEKDYPVELLKSWKAEHEKKILELISSKNLLTKHPLALNKVINAVGNNIKEVLALPGAENAPDPEAKILHNNVLRYEDTIREFAPYQGKLNKIYEEIEKQGSVKKELVLYNIKSTYLKIKKDYPNLDAVRKNADIIFDEVIEEVWEKIYNAPNKLEEFDQETINFSLMIVIIDAFMRCNILEEPPKIS				NA	NA	NA	NA	NA
BMS003_03740	705			hypothetical protein	GTGGATGAAAAATTAAAAAAGCTTATTACCAAAAATAAAAAAAGTCTCGTAGACTGGACAAATGCTATCAATAATCATATTGAAAATAAGAATAGAGATATAAGCACTGAAGAGTCGATTGAAGATGTTTACAAATTGGTTGAGGTTTTTTCTGATATAACAGATATTATAATAAGTTATGGCAGATATAAGGATGAGTTTGAATATGAAAAATTCTCTTTAGGTTATAATGGTCCTGAATTAATTATTAATTCGATCAAAACGAAATCAACCTTTTATATAGGATTAGGCTATGAAGGTATTTATTTAACAACGCACCTTCGCAACAATTTTAATATTAGAAATATGGATGATAAGTTTTGGATCGATCTCTTATCACTATATAATTATGGAAATTTTGAACTAGAGCAAACTGAAGGTTTTGATAGCAATTTCAAAAAAGAATTTCCTGAAATCTTTAATGTCAAAAAAAGTATAATTTTTAATATTTTCAGAAAATTCTTTGTGGATACCATTTTAGAGAAGGACAATTACCGGAAATATGACAAAGTTGGGGACTTTGGAGTTTTTAAAGTTTGTTGGGATGAAACATTTTCTCTTGATAAGATAATAGATGAGCTGACCGCTGTTTTTAAAATTATGTATTCTTTAAATTACAAACTGTGGAAAATTGAGGACTTACAGAATAACAAAATAAAAGATTGA	MDEKLKKLITKNKKSLVDWTNAINNHIENKNRDISTEESIEDVYKLVEVFSDITDIIISYGRYKDEFEYEKFSLGYNGPELIINSIKTKSTFYIGLGYEGIYLTTHLRNNFNIRNMDDKFWIDLLSLYNYGNFELEQTEGFDSNFKKEFPEIFNVKKSIIFNIFRKFFVDTILEKDNYRKYDKVGDFGVFKVCWDETFSLDKIIDELTAVFKIMYSLNYKLWKIEDLQNNKIKD				NA	NA	NA	NA	NA
BMS003_03741	177			hypothetical protein	ATGAATGATTATGTAAACAGAAAATTTGAACTTTTAAAAAGAACAATTGACCATTTAAGAAATCCTTACCAACGCGATAAAATAAGAGTTCAAGTGGAAGAATTTTTCGAAACTGTTATTGATGAAAGTCAAAAAAAAGAAATTATAGATTATTTTAGAGTTAAACTTGACGAATGA	MNDYVNRKFELLKRTIDHLRNPYQRDKIRVQVEEFFETVIDESQKKEIIDYFRVKLDE				NA	NA	NA	NA	NA
BMS003_03743	1914			hypothetical protein	ATGGGGGATGTTTTCAAAATCAGGGAGTTACGGTTTATGCCCAGATGGTCGGTTTTTCTTATCGATATTTCAGTCATTTTTTTTTCCGTTTTAATTTCATATCTGTTATTAAAAAGTCTGGGAGTAAAAATTAACTTTATTGAATATCAAAACGAAAAAATATTTTCAGTGGTTATTGTTAATATTTTATTTATACTTCTGTTCAGAACGTATGCAGGAATTATAAGATATTCTACCTTTTTTGATTTTTTTAAAATTGTATGGTCTTCAGGCAGCGCCCTTGTTGTATTGCTGGGGTTGAATTTAATATCAGATTTGACATTGGGTAAGCCTTTATATTTATATCCTGTTCTTTTTCTGTTTTTCTTTGTTTCTATTTTTCTGATGTTCTTTTTCAGGATGGCAACCAAACAGCTTTTTGGTATACTTGTAGAAGCGAAAAGTGCTCCGTCTAAGGCAAGAGTTGCTGTTGTAGGGGTAGAAGATACTTCTATTTCATTGGCAAGTGCTATTATTCATAATCCTGATCTTCCTTACCAGCTGGCTGGATTTCTCAGTGCCAGATCAGATTCTAAAAAAGTAAGATTGCTTGGTCATAAAATTTATAATAAAAAGCAATTTATTAAAAGCGATAATCTGAAAGAATATTTTGATGCAGTTTTGATCAAAGATATAATGACAAAACAGGAAATGGAAGAATGGACGAGTATTGCGCTGGATAAGGGTCTGAAAGTATTAAAAGCACCTGTAGCCGGCAAAATAAAAGAAGATGATATGGTAGGAGGAATCCGTCCGCTTCATATAGAAGATCTGTTGAACCGTCCAGCAATTAAAATAGAAGGCGAAGAGGTAAAAAGCTTTCATTTCCATAAAAACATTTTGGTGACCGGAGGAGCAGGGTCTATAGGAAGTGAAATTGTAAGACAGGTTGCCCAATTAAATTCATCACTTATTGTAGTGGCTGATCAGGCTGAATCTCCTTTATACGAATTGCAGCTTGAGTTACTGGAGAGATTTCCCAATCAAAAATTCAAATTTATACTGGCAGATATTTCAAACTATTCCAGGATGGAAAAACTGTTTGATGATTATCAGTTTTCAGTTGTCTACCATGCTGCTGCATACAAACATGTACCTTTAATAGAAGATAATCCGCATGAGGCTATTTTTGTAAATATTGGAGGAACTAAAAATTTAGCGCTTTTATCCAAGAAATACAATGTAGAACGCTTTGTAATGGTCTCTACAGATAAAGCTGTAAATCCTACTAATGTAATGGGCGCTTCTAAAAGAGCTGCTGAGCTTTTTGTACAGTCTTTACAAAATTCTTCGGGAAATACAACAAAATTTATAACTACACGTTTTGGAAATGTACTGGGTTCTAACGGTTCTGTAATACCTCATTTCAAAAAACAAATTGAAAAAGGAGGGCCGATAACCATTACTCATCCGGATATCATCCGTTATTTTATGACGATTCCGGAGGCCTGCGAATTGGTGCTTCAAGCAGGAACAATGGGACAGGGAGGTGAGATTTATGTTTTTGATATGGGGGAGCCTGTTAAAATTCTGGATTTAGCGGAAAGAATGATCAAGTTATCAGGATATACTCCGGGGATTGACATTAAAATTGATTTTATAGGTTTAAGACCTGGTGAAAAGCTGTATGAAGAACTTTTAACAGATAATTCTACAACTATTCCTACTCACCATGAAAAAATTATGATATCCAGAGATCCGGTAATGGAATTTGAAGATATAGAAAATTTATGCCAACAGATTATTCTGTCAGCAATGAATAAAGATAGTTTACAGATTGTGAAAATTTTAAAAATTATTGTTCCTGAATTTATAAGTAATAATTCGGAATTTGAAGTTCTCGACAAAAGATCTGAATATGAAATATGTGAATGA	MGDVFKIRELRFMPRWSVFLIDISVIFFSVLISYLLLKSLGVKINFIEYQNEKIFSVVIVNILFILLFRTYAGIIRYSTFFDFFKIVWSSGSALVVLLGLNLISDLTLGKPLYLYPVLFLFFFVSIFLMFFFRMATKQLFGILVEAKSAPSKARVAVVGVEDTSISLASAIIHNPDLPYQLAGFLSARSDSKKVRLLGHKIYNKKQFIKSDNLKEYFDAVLIKDIMTKQEMEEWTSIALDKGLKVLKAPVAGKIKEDDMVGGIRPLHIEDLLNRPAIKIEGEEVKSFHFHKNILVTGGAGSIGSEIVRQVAQLNSSLIVVADQAESPLYELQLELLERFPNQKFKFILADISNYSRMEKLFDDYQFSVVYHAAAYKHVPLIEDNPHEAIFVNIGGTKNLALLSKKYNVERFVMVSTDKAVNPTNVMGASKRAAELFVQSLQNSSGNTTKFITTRFGNVLGSNGSVIPHFKKQIEKGGPITITHPDIIRYFMTIPEACELVLQAGTMGQGGEIYVFDMGEPVKILDLAERMIKLSGYTPGIDIKIDFIGLRPGEKLYEELLTDNSTTIPTHHEKIMISRDPVMEFEDIENLCQQIILSAMNKDSLQIVKILKIIVPEFISNNSEFEVLDKRSEYEICE				NA	NA	NA	NA	NA
BMS003_03744	792			hypothetical protein	ATGAATAAAAAGATTATTACGTACATAATACTGTTATCGGTCGTTTTACTATCATGCCGACCCAAACAGAATATGGTATATATGTCAAAAAATAATATGGAAGAGGAGGTTGCGAAAGCAAAATTTCAGGGCTTGCATATTCAGGAAGGGGATGTACTTTTAATTCTTGTTTCTGCACTTGATGAAACTGCTGTAAAACCTTTCAACCTCAATACAACAAACAAAGTAGGAAGTAATTCCACTACCGGATTAAATCAATATGCGCAGCCAAGTGAGTATTTGGTGAATGAAGAAGGAAATATCTATTTTCCTGTAATAGGAAATGTATATGCTAAAGGAATGACGCAGGTACAGCTGAAACAGGATCTGGAAGCCCGGCTTAAGAGATATCTTACTGATCCCATGGTGAGCATTACTCTAAAAAATTTCAATGTAAGTGTTTTAGGCGAAGTAAAAAATCCTGGACAGAAAGAAAGTGTTTCCCAAAAGATTAATATCTTTCAGGCATTGGGTCTTGCTGGTGATATGACAGATTTCGGAGATCGTACCCATGTAAAACTTATCCGTACAGGAGAGGATGGGGCAGATCAGGTTGTTAATGTGGATCTTACCAGGTCTGATATTGTGAGTTCTCCATATTATTATATGAAACAGAACGACATATTATACGTACAGCCGGATAAAAATAAACAGGTTCAGGCTAACTCAAACCCGAATAGAGCTCTTACCTTCCAGATTATTGGTGCATTATTAACAGCAGGTACGCTTATTATTGCTTTAACACGAAAATAA	MNKKIITYIILLSVVLLSCRPKQNMVYMSKNNMEEEVAKAKFQGLHIQEGDVLLILVSALDETAVKPFNLNTTNKVGSNSTTGLNQYAQPSEYLVNEEGNIYFPVIGNVYAKGMTQVQLKQDLEARLKRYLTDPMVSITLKNFNVSVLGEVKNPGQKESVSQKINIFQALGLAGDMTDFGDRTHVKLIRTGEDGADQVVNVDLTRSDIVSSPYYYMKQNDILYVQPDKNKQVQANSNPNRALTFQIIGALLTAGTLIIALTRK	PGPT0025530_2896	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
BMS003_03745	2343	wzc	COG0489	Tyrosine-protein kinase wzc	ATGCAGCAGATAGAATTTCAGGAAAGTGAAGAATCTTTGGATTTAAGAAAGATCATTGGACAGTATTTAAGTAAATGGCCTTGGTTTATAGCATCTGTCTTATTATTTGTTATTATAGCTTTTATATACCTAAGATATGCTGTACCTCAATATGAGTCAACTACTACTTTAAAATTTGATAAAAAGCAGTCTGATTTAACAGGAGCCTTAATTGATCTTGATAATTTGGGGCTTGGTCTTGGAAATGCAGATGAGCTTAAAAGTGAAGTGGCTGTAATAAGTTCCAGACCGATTCTGATGAAAGTTGTGGAAAACCTAAATCTTAATGTACAATATTATAATGCAGGTGAAATAAGGGATTCTGAATTATTTATCAATGTACCGATTGTTGCAAAAATTATTTCTTATAATAATACCAAAAAAAATGTTTCTTCCGAATACATGGTAAAAGAAGTAAGCGGAAACGGATTTGTTTTGGAAGATAATGAAAACAAAGAAGTAAGGGGAACTTTTGATAAAAACCTAACACTTGATTTTGGAACCGTAGTTCTTCAGAAAATTCCGGGACTTACCTTCAAAAATAAATACAAAATTGTATTCTGGAACCCTATAGAGAAGGTAAAAGCTTTGGAAAAGAAGATCCAGGTTGATCTTCCGGATCAGAAAGCTATGCTTATGGACATTAGCATCGTAGGAACTGTTCCCGAAAAATCAGAAGCCATTCTTAATGAAGTAACCAAACAGTATAATCTGGATGGACTAAGAGATAAAAACTTACAGGCTCAAAATACTCAGGAGTTTATCGATAAACGATTAGAAGTTATTTCAAGAGACCTTTCCGGAGTTGAGAATCAGAAAGAAGATTTTCAGAACCGTAACCGAATCGTAGACTTACAGGCTCAGGCTCAGCTGGCACTTCAAAATACAAACGATAACACAAAACAACTTCTTCTGCAGCAAACACAGCTGGATCTTCTTAACTCTCTTCAAAATGAAGCTGCAAAAGGGGATAATCAGCTTATGCCTTCAAATTTAGGACTTAATCCTTCTTTGGAACAGACTATTTCACAATATAATACTCTTGTTATCAGTAGAAATAAAACTTTGAAGCAGGCTACCAATGAAAACCCTGCAGTGATAGAAATGAATAAAGAAATTTCTTCACTAAAAGAAGTTGTAAGAGATAACATCCGTCAGCAAAAAGCAACGGTTCAGGCATCTATTGCGCAGATAAACAGCCAGATTTCGGCCAATACTGGAATGATTGAAAAAGTTCCCGGCCAGTCGAAAATTTACAGAGGCATCGAGCGCCAGCAGAACCTTAAAGAACAACTTTTCCTTTTCCTATTACAGAAAAGAGAAGAAAATGCAATCAATCTTTCTGTTAATGTTCCGAAAGCTAAAATTGTAAACCCGGCTTATACTAATGATATTCCGGTTTCACCTAAGAAAAACATCATTCTTTTGGCTGCGGCTTTATTAGGATTAATGATACCGTTTGGGGTATTTTATCTTTTCTTTATGTGGGATGATAAAATCTACAACCGTACAGATATTACGGAAAATTCGCCACTTGGCGTGTTAGCAGATATTCCTGCGCTGAAGGACGACCAGAACCATCTTGTACAGAAAAATGATTTCTCCGAATTGGCAGAATCGTTCAGAATATTGGTTTCCAATCTTAAATTTTTACTTCCTACTAAGGCTAAAGCTAAAATCATACTCGTAACATCATCGGTAAAGGGGGAAGGTAAAACACTGGTTTCCGTTAATCTTGCTTTAACATTGGGGAACAAAAACGGGAGGTCCCTTTTAATTGGTTCAGATATCAGGAATCCACAGATCCAGCGATATGATAATGAACCTATTAAAGGAAAAGGTCTTACAGAATATCTGTATGATGAGAATACGAATATAGAAGATCTTATTCATACTTCAGATACCAATCCAAATTGTGATGTAATCTACGCAGGGACTATTCCTCCGAATCCTCAGGAGCTCCTTTCTAATGGCAGGTATCAGGAGCTTATCAGCAGAATGTCTTCCCAATATGCGTATATTATCATTGACTCAGCTCCTTTAATGCTTGTTTCTGATACATTAAATATTGTAGATACTGCTGATGCGGTATTATATGTAGTAAGATCGGGAGTTTCAAGAAAAATATTAATTGAGTTTGCAAACAGACTTGTAAAAGAATCGAAATTATCGAATGTATCTTTCGTTATTAATGATGTCGCTAAAAATGTAGGAGGTTACGGATATGGCTATAATTATGGATATGGCTACGGATATACGAGTGATCAAAAGAAAAGCTGGTGGCAAAAGCTTTTTAATAAATAA	MQQIEFQESEESLDLRKIIGQYLSKWPWFIASVLLFVIIAFIYLRYAVPQYESTTTLKFDKKQSDLTGALIDLDNLGLGLGNADELKSEVAVISSRPILMKVVENLNLNVQYYNAGEIRDSELFINVPIVAKIISYNNTKKNVSSEYMVKEVSGNGFVLEDNENKEVRGTFDKNLTLDFGTVVLQKIPGLTFKNKYKIVFWNPIEKVKALEKKIQVDLPDQKAMLMDISIVGTVPEKSEAILNEVTKQYNLDGLRDKNLQAQNTQEFIDKRLEVISRDLSGVENQKEDFQNRNRIVDLQAQAQLALQNTNDNTKQLLLQQTQLDLLNSLQNEAAKGDNQLMPSNLGLNPSLEQTISQYNTLVISRNKTLKQATNENPAVIEMNKEISSLKEVVRDNIRQQKATVQASIAQINSQISANTGMIEKVPGQSKIYRGIERQQNLKEQLFLFLLQKREENAINLSVNVPKAKIVNPAYTNDIPVSPKKNIILLAAALLGLMIPFGVFYLFFMWDDKIYNRTDITENSPLGVLADIPALKDDQNHLVQKNDFSELAESFRILVSNLKFLLPTKAKAKIILVTSSVKGEGKTLVSVNLALTLGNKNGRSLLIGSDIRNPQIQRYDNEPIKGKGLTEYLYDENTNIEDLIHTSDTNPNCDVIYAGTIPPNPQELLSNGRYQELISRMSSQYAYIIIDSAPLMLVSDTLNIVDTADAVLYVVRSGVSRKILIEFANRLVKESKLSNVSFVINDVAKNVGGYGYGYNYGYGYGYTSDQKKSWWQKLFNK	PGPT0023285_454	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
BMS003_03746	1410	wbpA_2	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGGCTACGGATATACGAGTGATCAAAAGAAAAGCTGGTGGCAAAAGCTTTTTAATAAATAATCAATTTATATTCAAAAATAAACATAAAAATAAAGCAAGAACATCATATAATATGAATATACAGAATAAAATAGGGGTAATTGGTTTGGGATATGTAGGATTACCTCTGGCCCGTTTATTTGCAACACAATACGCAGTAGTTGGTTTTGACATCAATCAGGCCAGAATTGCAGAACTTAACAGCGGAAAAGATTCTACCCTGGAGGTAGAAGATGAAGTATTGCTGCCGGTTTTAGTAAAAGAGAATCCTTTTTCAAGTTCATCAAAAGGCCTGTTTTGCTCATTTAATCTGGAAGATATTAAAGATGCTAACATCTATATTGTAACCGTTCCTACACCAGTAGACAAACATAATCGTCCGGATCTAACACCTTTATATAAAGCGTCAGAAACCGTAGGAAAAGTACTGAAAAAAGGGGATATTGTTATTTATGAATCTACTGTTTATCCCGGCGTTACAGAAGAAGAATGTATCCCTGTGCTGGAAAAAGTTTCGGGATTGAAGTTTAACGAAGATTTTTTTGCAGGATATTCCCCTGAAAGAATCAACCCGGGAGATAAAGAACGTACCGTAGAGAAGATTTTAAAGGTAACTTCAGGTTCTACACCGGAAATTGGTAAAAAAGTAGACGAATTATATAAATCTGTAATTACAGCAGGTACACATTTGGCACCTACCATCAAAGTCGCTGAAGCATCCAAAGTGATCGAAAATTCACAGCGTGATATCAATATTGCTTTTGTGAATGAGCTGGCAAAGATATTTAATCTCCTGGATATTGATACACACGCAGTTTTGGAAGCTGCGGGAACGAAATGGAATTTCCTGAAATTCAAGCCAGGATTGGTTGGAGGTCACTGCATCGGCGTAGATCCTTTCTATCTTGCCCAGAAAGCACAGGACGTAGGATATTATTCTGAGCTTATCCTTACAGCAAGAAGACTGAATGATTCTATGGGGCAATTTGTAGCTTCTGAGGTGGTAAAAACGATGATTAAGAAAAGAATCAGCATTACAGACGCCAAAGTGCTGAATCTTGGAATCACCTTTAAGGAAAACTGTCCGGATGTAAGAAATACAAAAGCCGCAGATGTTATCAATGCACTGGAAGACTATTCTATTGAAGTGACAACGTACGATCCGTGGGCAAACCCGGAAGAAGTAATGCACGAATATGGTATAAAATCTACAAATGCGCTGGAAGATATAGAAGGAAAATTTGAGGCAGTTATTCTCACGGTTTCGCATGATGAATTCCTGAATATTGATCTTTCCCGTTATCTGAAGGAAGGAGGAATTGTATATGATGTTAAAGGAATTTTAGAGAAATACGATAATCGTTTATAA	MATDIRVIKRKAGGKSFLINNQFIFKNKHKNKARTSYNMNIQNKIGVIGLGYVGLPLARLFATQYAVVGFDINQARIAELNSGKDSTLEVEDEVLLPVLVKENPFSSSSKGLFCSFNLEDIKDANIYIVTVPTPVDKHNRPDLTPLYKASETVGKVLKKGDIVIYESTVYPGVTEEECIPVLEKVSGLKFNEDFFAGYSPERINPGDKERTVEKILKVTSGSTPEIGKKVDELYKSVITAGTHLAPTIKVAEASKVIENSQRDINIAFVNELAKIFNLLDIDTHAVLEAAGTKWNFLKFKPGLVGGHCIGVDPFYLAQKAQDVGYYSELILTARRLNDSMGQFVASEVVKTMIKKRISITDAKVLNLGITFKENCPDVRNTKAADVINALEDYSIEVTTYDPWANPEEVMHEYGIKSTNALEDIEGKFEAVILTVSHDEFLNIDLSRYLKEGGIVYDVKGILEKYDNRL	PGPT0018915_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_GALACTOSAMINURONIC_ACID_MODIFICATION,PGPT0018915-wbpo-K02474	NA	NA
BMS003_03747	1167	ugd	COG1004	UDP-glucose 6-dehydrogenase	ATGAAAATAGCAGTAGTAGGAACTGGATATGTAGGTTTGTCTAATGCCGTCTTATTGGCCCAGCATAATGAAGTAGTAGCTTTAGATATTGTTCAGGAAAGAGTAGCGTTGCTTAATTCTAAAAAATCTCCTATTGAAGATGAAGAGATCAGTAGGTTTCTAAGTACAAAACCACTTAATTTCAAAGCCACCTTAGATAAAAAGGAAGCTTACGATAAAGCTCAGTATATTATCGTTGCCACCCCCACAGATTATGACCCTACTACTAATTATTTCAACACAAGCAGTGTTGAAAATGTAATAAAGGAAATTGCAGAGTATAATTCTGAGGCTGTAATCATTATTAAATCTACGGTTCCGGTGGGCTATACCGTAGAGTTAAAAAGCAGAATGCATATAGATAATGTGGTATTTTCTCCTGAATTTTTGAGAGAAGGCAAAGCCTTATATGATAACTTATTTCCTTCCCGAATTATTGTAGGGGAACAAAGCGAGAGAGCAAAGGTTTTTGCAGAATTACTTCAAGAAGGTGCGGTAAAAAAGGATATTCCGGTTTTGTTTACTAATCCTACGGAGGCAGAAGCAATCAAATTATTTTCAAATACCTACTTAGCATTGCGGGTGGCTTATTTTAACGAATTAGACAGCTATGCGCAGATTCATGAGCTGGATACCCGCCAGATTGTAGAAGGTGTTGGCCTGGATCCAAGAATAGGTTCGCATTATAATAATCCGTCTTTTGGATACGGAGGATATTGTTTGCCTAAAGATACCAAACAGCTGTTGGCAAATTATACTGCTGTTCCCAATAATATTATTCAGGCAATTGTAGATGCCAACAGAACCCGTAAGGATTTTATAGCAGATTCTGTACTGGCTAAAAAACCAAAAAAGGTAGGTGTTTACCGTCTGATTATGAAAGCAGGTTCCGACAATTTCAGGGCATCTGCCATACAGGGAGTAATGAAAAGAATTAAAGCTAAGGGTGTGGAAGTGGAAGTATTTGAACCAGCACTTAATGAAGAGTTTTTCTTCAGTTCCAAAGTGGTAAAAGACCTGGAACTTTTCAAGAAAGAATGCGATGTAATTATCTCTAATCGTAATGCACCGGAACTTGCTGATGTACAGGAAAAAGTGTATACAAGGGATCTGTTTGGTAATGATTAA	MKIAVVGTGYVGLSNAVLLAQHNEVVALDIVQERVALLNSKKSPIEDEEISRFLSTKPLNFKATLDKKEAYDKAQYIIVATPTDYDPTTNYFNTSSVENVIKEIAEYNSEAVIIIKSTVPVGYTVELKSRMHIDNVVFSPEFLREGKALYDNLFPSRIIVGEQSERAKVFAELLQEGAVKKDIPVLFTNPTEAEAIKLFSNTYLALRVAYFNELDSYAQIHELDTRQIVEGVGLDPRIGSHYNNPSFGYGGYCLPKDTKQLLANYTAVPNNIIQAIVDANRTRKDFIADSVLAKKPKKVGVYRLIMKAGSDNFRASAIQGVMKRIKAKGVEVEVFEPALNEEFFFSSKVVKDLELFKKECDVIISNRNAPELADVQEKVYTRDLFGND	PGPT0017855_5475	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
BMS003_03748	1122	wecB	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGATTAAGACAAAACATTTAATTATATTTGGAACTCGTCCAGAAGCTATAAAGATGGCTCCTTTAGTAAAGGAATTTTTAAAATATAATGACTTCGAAACAAAGGTTTGTGTGACTGCTCAGCATAGAGAAATGTTGGATCAAGTACTTGAGTTTTTTGAAATAAAGCCTAATTATGATCTAAACTTAATGAAGCCTAATCAGAATTTATACACCCTTACAGCCGATATTATTACGGAACTTCGCTCTGTTCTAGAAGAGTTTCAACCTGATTTTGTGTATGTTCACGGAGATACCACCACCACAATGGCCGCAAGTATAGCATCTTTTTATTCAGGAGCTAAAGTTTGCCATGTAGAAGCAGGGTTAAGAACACATAATAAAAGATCTCCATTTCCAGAAGAAATAAACCGTCAGGTTGCAGGACGTATATCAGACTATCATTTCGCACCAACCGAACAATCAAAACAAAATTTATTGAGTGAGAATATAAAAGAAGAAAATATTCTCGTAACAGGTAATACTGTTATTGATGCTCTATTAGATAGTACTGAAAGGGTCAACACAATATCTAATAATGAAATCAATTATTTGAAAACTATTGTTGATTCCTCAAAAAGACTCATATTAGTAACTGGTCATCGACGTGAAAATCACGGAGAGGGATTTATAAATATTTGTGAAGCGCTTAAGGAAGTCGCAATTGAGAATCTAGATGTACAAGTGATATATCCTGTTCATTTAAATCCAAATGTAAAAGAACCTGTTTATAAAATTTTATCAGGGATTGATAATATTCATTTAATATCTCCTCTAGCTTATCCTGCATTTGTTTGGCTTATGGATAAATCATATATGATTATTACAGATTCCGGAGGTGTACAGGAGGAAGCTCCAAGTTTAGGGAAACCTGTATTAGTAATGCGGGATACTACAGAGCGTCCGGAAGCAGTGGAAGCAGGAACAGTAATTTTAGTAGGAACAGACAAAAATAAAATTGTTTCAGAAACACAAAATTTGCTTGATAGTTCCGAACGATATAACTCAATGAGTGAGCTTCATAATCCATATGGAGATGGGAAAGCGTGTAAACGAATCGTAGACTTTATATCATCTATATAA	MIKTKHLIIFGTRPEAIKMAPLVKEFLKYNDFETKVCVTAQHREMLDQVLEFFEIKPNYDLNLMKPNQNLYTLTADIITELRSVLEEFQPDFVYVHGDTTTTMAASIASFYSGAKVCHVEAGLRTHNKRSPFPEEINRQVAGRISDYHFAPTEQSKQNLLSENIKEENILVTGNTVIDALLDSTERVNTISNNEINYLKTIVDSSKRLILVTGHRRENHGEGFINICEALKEVAIENLDVQVIYPVHLNPNVKEPVYKILSGIDNIHLISPLAYPAFVWLMDKSYMIITDSGGVQEEAPSLGKPVLVMRDTTERPEAVEAGTVILVGTDKNKIVSETQNLLDSSERYNSMSELHNPYGDGKACKRIVDFISSI	PGPT0018905_1454	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0018905-wecB-K01791	NA	NA
BMS003_03749	1473			hypothetical protein	ATGGTGAGTATAAAATCATTATATAAGAAAGTTTTAGGAACGGGGAACCAACAAAAGATAATTAAAGGAGTATTTTGGTCTTTTTTAGGAACTCTTATATCTAAAGGATTTGTTTTTATAGCTCTTTTCTTAGTTGCAAGAATACTAACGGTAGATGAGTATGGAAAGTTGGGATTATTGCAATCGTACATTAATACGTTTACTACATTCAGTCTTGCAAGTTTTGGTGTAACTGCTACAAAATATCTTGCTTTATATGCTGAGAGCGATAAGAAAAAAGCCAGTGAGATTTATTCTTTAACAAGATTATCTGTATTTTTTTTAGCAGCGTCAATACTTGCTCTTTCATTGGTTTTCAACAAACAGGTAGGTGAGTATATAGTGGGAAATCAAAATATGTCTAAGGAGGTATTATTGTGTGCTTTTGCTATTTTTTTCTCATCTCTTAACGGATTGCAAACTGGTGCTCTTGCTGGTCTCGAAAATTTTAAAAGCATATCATTTGTCAATATGGTAAATGGGATTCTTTCTTTACCACTGATACTATTTTCTGCATACAAATTTGGAGTTTATGGTGTGGTTGTTTCGCTTGTTATAATTAATTTTTCTATTTGGCTCTGTTCAGCAATATTATTACAAAGAGAATTAAACTTTAAACAAATAAAGTTTACAATAAAAGGACAGAAGAAGCATTTGGAAACAGTGTATAATTTCACTTTGCCATCTTTTATAAGTAGTATGATGCTAAGCCCAGTGGTATTGATTTGTAATTCTATGCTGATAAAAAATCATATAAATGGATATTATCAATTAGGAATTTATAATGCTACTTTTAATTTTTCTCAGGTAGGTACTCTATTACTTGGAATAATTGGACAAGTCACTTATCCACTTACAATGAAGAATTTTGGTAAAAATAACAAAAGATTTGACTTCTTTAATATTAACCAATCATATGTAATAGGAGTTGTGCTTTTTCTGCCAATCTTAGTTTTACCAGATTTGTTTTCTCAATTGTATGGAAGCAAATATCAGAATAATGATATGCACTTAACACTACTATTTGTTTCTTTATCAACAATCATTATAGCACAAAGGCAGGGGATTGCCAGAAACTTTGCGGCAGGGAATTTTATGTGGTTCAGTGTTTTTTCTAACATGACCTGGGCTGTAACTACAATAATTGTATGTAATTTTTTAATAGATTATGGAGCAATAGGAAGAGCTGTAGGATTTTTAATAGGGTATTTCGTCAATACTGTTATTTTTATTCCTTTCTATTTGAAAAAAAAGCTAATCAGTAAAAAGCTAATTCTTTGCAAGGAGCATTTTGTTTTGATCATTATTATTTCATTAGGTTGTTTGTCTTTTATCTGTGTCGAGAATGTTGTTTTAAGGACTTTAATCGCTGTTCTTTTACTAACAGCAAGTCTCTTTACTTTTTATAAATGGTATAAAGTATATATAAAATGA	MVSIKSLYKKVLGTGNQQKIIKGVFWSFLGTLISKGFVFIALFLVARILTVDEYGKLGLLQSYINTFTTFSLASFGVTATKYLALYAESDKKKASEIYSLTRLSVFFLAASILALSLVFNKQVGEYIVGNQNMSKEVLLCAFAIFFSSLNGLQTGALAGLENFKSISFVNMVNGILSLPLILFSAYKFGVYGVVVSLVIINFSIWLCSAILLQRELNFKQIKFTIKGQKKHLETVYNFTLPSFISSMMLSPVVLICNSMLIKNHINGYYQLGIYNATFNFSQVGTLLLGIIGQVTYPLTMKNFGKNNKRFDFFNINQSYVIGVVLFLPILVLPDLFSQLYGSKYQNNDMHLTLLFVSLSTIIIAQRQGIARNFAAGNFMWFSVFSNMTWAVTTIIVCNFLIDYGAIGRAVGFLIGYFVNTVIFIPFYLKKKLISKKLILCKEHFVLIIIISLGCLSFICVENVVLRTLIAVLLLTASLFTFYKWYKVYIK				NA	NA	NA	NA	NA
BMS003_03750	555	dapH_4		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGATAGGTAAAATTTTATTTCATATAAAGAATTTTGTAGGCGAAAAAATACATAATTATAGAATCCAACAGGTACTAAGTAGTAGCAATATAAGTAAAAAATGTAAAATTTCTACGGGTTTTAAATTTACGGATATTAAAAATGTACATATAGAAGACTATGTATATATGGGACGTGATTCATTTTTATCAAGTTTCGGAAAAATTATAATAAAAAGAGGTACTATCATAGGCCCTAGAGTTGTAATTTATACAGCAAATCATAATTACATTAATGATATTAAGGCAATACCTTACGACAAGGAATTACTTATAAAAGATGTTGTCATTGAAGAAAACGTATGGATTGGAGATAGTGTAATTATTGTACCTGGAGTTACTATTGGAGAAGGTTCAGTAATTGCTGCAGGAAGTGTGGTTGTTAAAGATGTTCCAAAGTTTTCTATTATGGGAGGAAATCCTGCAAAAGTAATAAAAGAAAGATCTAATATAAGTGATTATTTAAAGAATAAGGAATTAGATAATATTTATTTAAAGCAAAAAAATGGAAACTAA	MIGKILFHIKNFVGEKIHNYRIQQVLSSSNISKKCKISTGFKFTDIKNVHIEDYVYMGRDSFLSSFGKIIIKRGTIIGPRVVIYTANHNYINDIKAIPYDKELLIKDVVIEENVWIGDSVIIVPGVTIGEGSVIAAGSVVVKDVPKFSIMGGNPAKVIKERSNISDYLKNKELDNIYLKQKNGN	PGPT0028035_536	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
BMS003_03751	1137			hypothetical protein	ATGGAAACTAATATAGTTATAAGAGGTGGTTATGGTTTCGGCAATTTTGGTGATGATGCCTTAATGTATACTATTGTAAAGGAATTAAATGAAGTTTCTGCTGATGTTGTACTCCTTTGCCAGTCAGCTTCTTATATTAATAATATTTTACCTGGTGTTAAAGTTATGGATTATCATAAACTTAAAGAACCTGTAAATTCAAAATTATTGGTATATGGAGGAGGAACACAATTTTATCATTTTAAAAAAAATACTTTCAGCAAAGGCTTAAAAGATAAGATATTTAATCTCAGCCATATTAAAAACTATATTGATAAAAGAATAGTAAAAAAAAACTTTATTGAAAACAAATTCCAAATCAGCAATTATGCTTCACACATTGCATTGGTTGGTGTAGGTGTAGGACCTTTTGATATAGAAAACTCAACTATAGAGAGAAAAACGGGTGAGTTGTTTGCTAAAGCTGAATTTGTAGGAGTAAGAGACGAATTCGCTTTAAAAAAATCAAGAGAATGGGGCGTTAAAAAACCAATTCTTTCACCAGATATTTGTTATTCTTTTAACAGTCATTTTTTAGATTCATATACAAATGATGCCGAAGAAATAAAGAAGATTGGAGTTATTGTAAGAGACTGGAATTATGCAAATGGAGGAGGAGAATATTATGAGAAATTACAGCAAGCTACAGAAAAGCTTAAGAAAGACGGATACGAGATAAAGTATATCCTTTTTGATGCCGAATCTGATTCGTATTGGTATAGCAAAAAAGATAAATTGGATATGATCATTTGGAATCCTGAAAAGGATACATTTGATTCTTTTTTGGAAGAAATTTCAAAGTGCGATTTATTTATTACAGCTCGTTTTCACGGAGCTATCTTTGCTTCATTATTGAATACGCCATTTATAACAATTGAAGTTGAACAGAAATTAAGGTTTATTTCAGAAACCTATTCTGAAAGTTCATATAGCTGGGGAAATCCATTCGATCTAGAAGATTTGTATTCCAAGATTTCTTTACTTAATAAAAACTATGCACAACGAAAAACATATTTAACGCAGAAGATGCTTGCATTTAAAACGTTATCTGATCAAATGTTTTTTAAATTAAAAGAATATTATAATCAATTACAATAA	METNIVIRGGYGFGNFGDDALMYTIVKELNEVSADVVLLCQSASYINNILPGVKVMDYHKLKEPVNSKLLVYGGGTQFYHFKKNTFSKGLKDKIFNLSHIKNYIDKRIVKKNFIENKFQISNYASHIALVGVGVGPFDIENSTIERKTGELFAKAEFVGVRDEFALKKSREWGVKKPILSPDICYSFNSHFLDSYTNDAEEIKKIGVIVRDWNYANGGGEYYEKLQQATEKLKKDGYEIKYILFDAESDSYWYSKKDKLDMIIWNPEKDTFDSFLEEISKCDLFITARFHGAIFASLLNTPFITIEVEQKLRFISETYSESSYSWGNPFDLEDLYSKISLLNKNYAQRKTYLTQKMLAFKTLSDQMFFKLKEYYNQLQ				NA	NA	NA	NA	NA
BMS003_03752	1140			hypothetical protein	ATGAAAATACATATTTTTTATTTAGCGGTAATGGATCGTTTGGGTAAGCAGATTACAGTTGGAGGTATTCAGAATTATTTAATAGGTCTAGGTACAGCTTTAAAAAATGCAGGATACCAAGTCGTAATTTATCAGGGTGCAGAGGAAAACTTTGTGTCGGAATATAAAGGAATAACTATTGTAGGTAAGAAAAACAATCCGAAGGAATCATTAAAGAAGCAAACGAAAGATGTTTTTAACCAGGTTAATGATAAAATTTCAGTTAATGATATAATTGTTTTTGGTACAGATAAGATCGCATTTAAGTTAAAAGGATATTCAAAAACGATTTCTATTCAACATGGGATTTCATTTGATTATATTTCATATAATGCCTTTCCCGGATTTTTTAAAAAGAACATAGTAGGTATATTCTATAAACTTTTACAATGTTACAAAAATGCAAAAGACTTTCTTATATGTAAAAACGTTGTATGTGTAGATTATAATTTTACAAACTGGATAAGAACAATTTTGCCTCGAAATTATTCAGAAAATACGGTAGTGATACCTAATTATGCTACCATTTCTAAAGAAATCAGCATCAATCAGATTTCTAGTGATAAAATTAAAATTCTTTTTGCAAGAAGGTTTGAGATGATGAGGGGGGTACATATTTTGATAGATATAGTAAAAAGTATTACAGCAAAATATGATAATGTAGAATTTACAATATGTGGAGAAGGACCATTAAAAAATGAATTAATAAAAGAAATCGGTTCTTTTTCAAATGTAACAATTACTAAATATGGTATTGGAGAATCTGAGCAGTTCAATCTACAGCATCATATTACTTTAGTGCCAACTTATGGTAGTGAAGGAACTTCCTTTTCATTATTAGAAGGAATGGCTGCGGGGGCTGTACCTATTGTTTCGAATGTTGGCGGAATGACCAATATTATTCTAGATGATTATAATGGATATATTATGAATCCTGATAGTGAAGATTTTATTGAGAAAACAAGTTTTTTGATTGAAAATCCTGATATTTTAAAAAGAATTTCGCAAAAAGCAAAAGAAACGGTAGAATATTCTTTCAATGAACAAAAATGGAGAATAAATTGGATAAACTTTATTAATAAAGTGCATAATGCAAATTAA	MKIHIFYLAVMDRLGKQITVGGIQNYLIGLGTALKNAGYQVVIYQGAEENFVSEYKGITIVGKKNNPKESLKKQTKDVFNQVNDKISVNDIIVFGTDKIAFKLKGYSKTISIQHGISFDYISYNAFPGFFKKNIVGIFYKLLQCYKNAKDFLICKNVVCVDYNFTNWIRTILPRNYSENTVVIPNYATISKEISINQISSDKIKILFARRFEMMRGVHILIDIVKSITAKYDNVEFTICGEGPLKNELIKEIGSFSNVTITKYGIGESEQFNLQHHITLVPTYGSEGTSFSLLEGMAAGAVPIVSNVGGMTNIILDDYNGYIMNPDSEDFIEKTSFLIENPDILKRISQKAKETVEYSFNEQKWRINWINFINKVHNAN				NA	NA	NA	NA	NA
BMS003_03753	1224			hypothetical protein	ATGCAAATTAAAAAAAAATTTTATAATTTTTATGTAATCTTTTGTTTAGCAGGTTTTTTAATATCTAGCTTTTTACCTTCTATTTTAAAAATACAAGGGCAAGGGGTTAATATAATCTATCGTGTATTTGTGCTAGCTTTTAGCTTTATAATTATCTGTAGCAATATTTTTTCCAAAAAATTTAATTATAAAGTTTTTAATTTTTATACATTATTTATAATTTTTTGGGGAATTTATTCTTTATTCCTGTTAAAAGATATTTATATAGAACCTGTTAGATTAGCTTCCAATAAATCTTACTCAGAATATGTTCAGTTTGCATTTGGAGCTGTAGTAATACCTTGTTTCGCCTTTATGGTATTGGACTTTAAGAAATTAAACTTTAAGGGAATACTCAACATAATTTATTATACTATATATGTCTTACTCTTTATGTCTCTACTATCAAGAAATAATAATAATATTACTGGAAGAGATGTTGGAGATCTTGAAATAGGAGTCCTTGTATATGGACAGTATGGTACTATGTTAGCATTATTGTCGATTTATAAGCTAATAAATGAGAAAAAAGGACTTTTTTCTATTCTTTATATAATTGGTATAATTTTAGGAGCACTCATTATCTTCGTATCAGCAAGTAGAAGTCCATTTATAGCTTTGATTTTGTCAACAGTTTTTTTCTTTGTTATGAAAAAAGGTACGAAAGGAGTTTTTTATTTGAGTATACCTGCTGTTTTTATTTCTGTTTTCTTTTTTAAAATTATGGGATTTTTTGGTAGTTTGTTTAAAAGTAATTTTTTAGATAGATTGATTTCAACTTTTGAAAAGGATAATGAACGTGAAAAATTATTTAAGGTAGCCTTAAAGGAATTTATAGATCATCCTTTTTTTGGGAAAAATTTTTTGATACAAACAAAACCATATATAGGTTCTTATCCACATAACCTTTTTGCCGAAGCTTTTATGGCAACAGGCTTTTTTATCGGAATGATACTTGTAATACTATTCATAAAAACTCTTTTTATAAAGGGAAAGTATGTTATACAAAATGATCATTCAACAGGTTGGATTCCGATGATTTTTTGCCAGTTTTTTATTTTCAGTATGTTTTCAAACAATATTTATTCCAATAATTTGCTATGGTATTTATTGATTTTAACAATTATTGCTTTTAGATATGAAAAATATTTTAATGCTTATCGTACTCCTGTGCTTAGTGCCTAG	MQIKKKFYNFYVIFCLAGFLISSFLPSILKIQGQGVNIIYRVFVLAFSFIIICSNIFSKKFNYKVFNFYTLFIIFWGIYSLFLLKDIYIEPVRLASNKSYSEYVQFAFGAVVIPCFAFMVLDFKKLNFKGILNIIYYTIYVLLFMSLLSRNNNNITGRDVGDLEIGVLVYGQYGTMLALLSIYKLINEKKGLFSILYIIGIILGALIIFVSASRSPFIALILSTVFFFVMKKGTKGVFYLSIPAVFISVFFFKIMGFFGSLFKSNFLDRLISTFEKDNEREKLFKVALKEFIDHPFFGKNFLIQTKPYIGSYPHNLFAEAFMATGFFIGMILVILFIKTLFIKGKYVIQNDHSTGWIPMIFCQFFIFSMFSNNIYSNNLLWYLLILTIIAFRYEKYFNAYRTPVLSA				NA	NA	NA	NA	NA
BMS003_03754	795			hypothetical protein	ATGCTTATCGTACTCCTGTGCTTAGTGCCTAGTTGGTTTTATGGTCAAGAATTTTATATATATACACAAAATAAAAGGTATAATATACAATGTAAAAATTGTATTAAAAATTATTATTTTTTTGGACAGCATTACATTGACGGTGATAAAAAAAATATCATTGACCTTAATACCTTAACTCAGGGTATTGATACTATCATACCTAATATAAGAAGTACCGATTTAATAGTACTGGATATTGAAAATAAGATTTATCAGGATGTCAAACAGAAAAGCAGGTTTGATATCAATTATGTTTCAAATATAAGGAAACTGGTAGATATGGTAAATCTTGTTAAAAAGATTAGACCTAATGCAAAAGTTGTATTATATGGTGTTCCGTTTAACTTCAACTATGATTTTCAAAAGAAATTTAATGACTTTGAAAAGCTGAAGCCATTACTAAAAAGTGTAGATTATCTGGCACCTTCATTATACCTAATGTACTCTAATTTTGAAAAAGGCAATAATTATTTTAAAAACTATATCACAACTAATTTAGACCTGAGCTTTCAAATGGCAGAAAAAGTTCAAAAGCCAGTGTTACCATTTATTTGGTATAAAATTCACCCTTATAATAAAATTTTTGGAGGTAGTATAATTAATGATAATTTATATAATACTTATTTAAAACTGATAAAACAATATAGGTATAAAGGAAAGAAAGTAAGCGGTATTATTTATTGGGAAGCCTCAAAGGAAACAATTAATATTAATGAAAAGTTAAATAGTACATTAAAAATTTTAGATAAATGA	MLIVLLCLVPSWFYGQEFYIYTQNKRYNIQCKNCIKNYYFFGQHYIDGDKKNIIDLNTLTQGIDTIIPNIRSTDLIVLDIENKIYQDVKQKSRFDINYVSNIRKLVDMVNLVKKIRPNAKVVLYGVPFNFNYDFQKKFNDFEKLKPLLKSVDYLAPSLYLMYSNFEKGNNYFKNYITTNLDLSFQMAEKVQKPVLPFIWYKIHPYNKIFGGSIINDNLYNTYLKLIKQYRYKGKKVSGIIYWEASKETININEKLNSTLKILDK				NA	NA	NA	NA	NA
BMS003_03755	1134	mshA_3		D-inositol-3-phosphate glycosyltransferase	ATGATACTTCACATTTCAAATGATTACTCAGGATCCACAGTATATAAAAATTTAGTGAGAGAACTGGATAATAATGGGGTAGAACAGATTGTATATAATCCGTTTCGGGAAGCTTCCAGAATGGGAAAAAATAAAATAAATTTTAAAAATAGCCGTTCTCAGATTATCTACAGTCATATTTTATCAAAATATGCAGATCGGGTTTTGTATCAGAAAAAAATTAAAAAAATAATACAAGACATTGAAGCAAAAATAGACCTCAAGTCTGTCAGATTTATTCATGCTCACACATGGTACAGCGATGGTGGGGTAGCTTACGAACTTCATAAAAAATATAAAATTCCATATATAGTGACAGTGCGCAATACAGACCTTAATCTGTTTTTGAAATATTTTCTGCACGAAAGAGGCTACGGTAAAAAAATACTTCGGAATGCAGATAAGATCATAACCATTTCGGCAGTCTATAAAAAAAGAATGCTGGAAGATCCCCGCCTGTCCCATATCATGAATGATGTACAGCAAAAAGTAATGGTGATTCCTAACGGGGTAGACCCTTACTGGATTGAATCAAAGGTTGAGAAGAGGAAAATTGTCGAGAATGAAAACAACATTCAGCTGCTGTATGTAGGGAAGTTTGATAAAGGAAAAAATGTCTTTAATCTCGTTAATGCTGTTAAGAATCACAATCACAAAATTCAAAATATGGTAAAATTAACACTGATCGGAGGAGGAGGAAGTGACGAAAAAAGAATCCTGGATTCTATTAAAAACGATCATTCCTTTGAGTTTGTAGGAAGAGTAGACAGTCTGCCTGTTCTAAAGTCCTATTACGAGCGAAGCGATTTCTTTACAATGCCTTCAAAAGCAGAAACCTTTGGCCTGGTCTATATAGAGGCACTCCTGCAGGGTCTGCCGGTGATGTACACGCAAAATGAAGGGATCGATGGTTTTTATGATGATTCTATCGGGGAAAAAGTGGAAGACACTTCTATTTCTACAATCGAACGAGGGCTTGAACGTTTAATCCAAAAACGGGATAATTATAGTTTTGATATTGAAAAATTTTCAGAAAATCACGACTGGAAGAAAATAGCAAAAGTATATCAGCAATTATATAAAGAAAAACAATAA	MILHISNDYSGSTVYKNLVRELDNNGVEQIVYNPFREASRMGKNKINFKNSRSQIIYSHILSKYADRVLYQKKIKKIIQDIEAKIDLKSVRFIHAHTWYSDGGVAYELHKKYKIPYIVTVRNTDLNLFLKYFLHERGYGKKILRNADKIITISAVYKKRMLEDPRLSHIMNDVQQKVMVIPNGVDPYWIESKVEKRKIVENENNIQLLYVGKFDKGKNVFNLVNAVKNHNHKIQNMVKLTLIGGGGSDEKRILDSIKNDHSFEFVGRVDSLPVLKSYYERSDFFTMPSKAETFGLVYIEALLQGLPVMYTQNEGIDGFYDDSIGEKVEDTSISTIERGLERLIQKRDNYSFDIEKFSENHDWKKIAKVYQQLYKEKQ				NA	NA	NA	NA	NA
BMS003_03756	1188			hypothetical protein	ATGAACATATTATATATCCACCAATATTTCGTGACTCCCCGGGAACCCGGGGCCACAAGATCGTACTGGCTGGCACAAGAACTTATTAAAAACGGGCATAAAGTTACCATGCTCACTTCATCATCCAAATTTTCAGAGGATATTAAAATTGTAAACATTGATGGTATTGAAGTCGTTTATATAAAAGAAGATTACAATCAGAATATGAGTGTTTCCAGAAGGTTAAGGGCTTTCTGGAAATTTATGTACAAATCCTCTATGTTGGGATTGAAACAGAAAGATATTGATTTGGTGATTGCTACATCTACCCCTCTTACAATAGGTATTCCGGCACTTATATTAAAGTGGTTCAAAAATAAACCTTTTGTTTTTGAAGTAAGAGATCTCTGGCCCGAGGTACCCATACAGATGGGAGCCATAAAAAGCCGCAGGGCAATAAAAATGACTCGCCTGCTGGAAAAAATGATTTATAAAAATGCTTCTCATGTTATAGCTCTTTCTCCCGGTATGCGGGATGGAGTTGTAAAATATATCCCAAAAGAAAAAACATCAATGATTCCTAATATGGCTAAAATGGACGAATTCTGGCCTAGGGAAAAAAACATTGAACTGATGGAAAAACTCGGCTTAAAAAAAGATTCCTTCAAAATAGTTCACTTTGGTTCTTTAGGATTGGCGAATGGCGCTCAGACAATTATTGAATCTGCCAAATTGTTAAACAATAGGGAAGATATAGAATTTCTGTTTGTAGGAGGAGGTTCTACCGAAAAAGCTTTGGTAGACAAAGTAGAAAAAAACAACCTTAAGAATGTGAAATTTCTCGGAAAATTTCCTATGAAGGACGTATCTGAGATTGTCAATTTTTCGGATGTTTCTATGATTTCCTTTTTAGACCTCCCGATTTTGTATACCAACTCTCCAAACAAGCTTTTCGATTCATTGTCTGCAGGAAAACCAATTATTGTAAACTCTGCCGGATGGACGAAAGATATAGCCGAAAAATACCATTGCGGATACTATGTAAACCCAAACCGTCCGGAAGAACTTGTACAAAAAGTTCTCTATCTGAAAGACAATCCTGAACAGGTAAAGAAAATGGGACAGAATGCAAGGAAATTGGCTGAAACAGTTTATGATAAATCCATTTTGTCTAAAAAATTCGTTGAAGTTATAGAACAGAATGAATGA	MNILYIHQYFVTPREPGATRSYWLAQELIKNGHKVTMLTSSSKFSEDIKIVNIDGIEVVYIKEDYNQNMSVSRRLRAFWKFMYKSSMLGLKQKDIDLVIATSTPLTIGIPALILKWFKNKPFVFEVRDLWPEVPIQMGAIKSRRAIKMTRLLEKMIYKNASHVIALSPGMRDGVVKYIPKEKTSMIPNMAKMDEFWPREKNIELMEKLGLKKDSFKIVHFGSLGLANGAQTIIESAKLLNNREDIEFLFVGGGSTEKALVDKVEKNNLKNVKFLGKFPMKDVSEIVNFSDVSMISFLDLPILYTNSPNKLFDSLSAGKPIIVNSAGWTKDIAEKYHCGYYVNPNRPEELVQKVLYLKDNPEQVKKMGQNARKLAETVYDKSILSKKFVEVIEQNE				NA	NA	NA	NA	NA
BMS003_03757	99			hypothetical protein	ATGGAGGATTTGGAAAAGCTCTTAAATGAAAAAGTTAAGGTAGAAGAAACTCTTTTCGGAAATAAGTTGTGTATGCCTTCAGAATCCGATTTATCTTAG	MEDLEKLLNEKVKVEETLFGNKLCMPSESDLS				NA	NA	NA	NA	NA
BMS003_03759	840			hypothetical protein	ATGGTTGAAAGAAAATTTATTCCCGGAAGTGAATGGTTATATCTGAAGATCTACACAGGAGTAAAGACTTCAGATATTATTTTAGAAGAGGTAATTATGCCTTTAATAGAGTCTTTTCAAACAAAAAATTATATTTCAAAATGGTTCTTTATTCGCTATAATGATCCTAAATCCCATTTGAGAATAAGATTTAAATTGAATAATATAGAGGATTACACTAGAGTTTTTGAAAAGGCTAATAATGTCCTACAAGAATATTTAGATAGCGGTGAAATTTCAAATATTTTGCTGGATACCTACAATCGAGAAATTGAAAGATATGGACAAAATACAATTGAGGGTGCAGAGACCTTATTTTGGGGAAATAGTGAATTTACATTGCAATGCTTAACATATAGTGACGAAGAAAAATTATTGGTTAGCCTTTTTTATATAGATACAATATTGAATGAACTCAATCTCTCAGTAAATGAAAAGCTTAATTGGATAAAAGATTTCAATACAGCCTTTAAACAGGAATTCAATGCAGACAAAAAGCTTAATTCTCAATTAGACAAAAAATATCGGGAGTTTAAACCGAAATATTTAAATTTTATTCAATCAGCAGAATTTTTGGAAGAGCGAAATGTAATTATCTCTAATATTGAAGAGAGCAATTTGGTATTACAGAATATTATCAGCCATGAAGAAAACCAATCTTTAGGAATGTCTTTACAAAGCTTTTTCAGTAGTATATTCCATATGAATATTAACAGGCTTTTTGTTTCTAATCAACGATTATTTGAAATGATTATTTATGATTATTTAAACAGATACTATAAATCTGCTGTATTTGTATAA	MVERKFIPGSEWLYLKIYTGVKTSDIILEEVIMPLIESFQTKNYISKWFFIRYNDPKSHLRIRFKLNNIEDYTRVFEKANNVLQEYLDSGEISNILLDTYNREIERYGQNTIEGAETLFWGNSEFTLQCLTYSDEEKLLVSLFYIDTILNELNLSVNEKLNWIKDFNTAFKQEFNADKKLNSQLDKKYREFKPKYLNFIQSAEFLEERNVIISNIEESNLVLQNIISHEENQSLGMSLQSFFSSIFHMNINRLFVSNQRLFEMIIYDYLNRYYKSAVFV				NA	NA	NA	NA	NA
BMS003_03760	2232	nisB_2		Nisin biosynthesis protein NisB	ATGTCTCGTTTTCCATATCATTTTTTTGAACAGTATATAGTTCGTACTCCCCTATTTTCAAGGAAAGATTTTAAGGAAAAATTAGAGAAGATTGAATTACCAGACGATGAGTTGAAAGAAATTTGTAATAATTCAATTTTTCAGGAAGCTATTTACTTAGCATCTCCTTATTTGCATGAAGAACTGAATCAATGGCTGAATGCAAAAAAACTATCTCCAAATCAATATCAAAAACTAAAAAATACCATTTTAAAATACTATAGCCGAATGAGTAACCGCTGTACTCCCTTCGGCTTATTCTCTGGAGTTGGTTTAGGGATCTTTAACAAAGATATTCCAAAGTCGACTAACTTTCAACTAACCACTAACCCAATACGTGATACTAAACTGGATATGCATTTTCTGGTAGCTTTATCACAAAATTTTGTAAAAACACCGGAAATAAGAAGTAAACTTTTATTTTTTCCCAACAACTGTATCTATAAAGTCGGAAATAAAATCCGGTATGTAGAATATGAATATAATAGCGGTAAAAGAGATTATACCATTTCATCTGCTCCACTTTCAAATGAATTGCAACAAATATTAGATTTTTCAAAACAAGGTAAAACCATAGAAAGTATTGCAAAGATTCTTGTCAATGATGAAATAGCAGAAGATGAAGCCAGGGATTTTGTAGACGAGTTGATCGATAATCAGATCTTGGTCAGCGAACTGGAACCAAATGTCTCCGGAAATGATTTTTTAGACACAGTAATTTCTGTTTTAAATAAAATAGAGATTAAAAATGAAACTGAAATTTTAATTTCTATAAAAAATAGGCTCAATGATATAGATTTAAAAATAGGAAATCCCTCTGTAAAATATGCTGAAATTGAAGAATTCGTAAGATCTCTAAATGTAGAATACGAACAGAAATACCTTTTCCAAACTGATCTTTATAATAAAGATGAATTTAGTTTACCATCCCATTGGAAAAAAGAATTAAAAGAAGCGGTCGGTTTTCTGAATAAAATTACATTATCTAAAAAAGAGAATCATTTAGAAAAATTTAAAAAAGCATTTTATGAGCGATTCGAAACAGACGAAGTTTCACTAGCGTATGCTCTAGATACAGAATTAGGAATTGGTTACAAGCAAGATAGTATTGCAAAAGGGGTTCATTCTTACCTTGATGATTTAGATCTTCCTTTATTTCAGGAAAAAATAACCTTAAAAACTGAATTTGATCCCGTCCAGCTGATTTTAAATGAAAAAATTCAGCAAGCTTTATCAGAGCATCAATACACTATTGTTTTATCAGATGATGATTTTAGTGATTTTAAGGAAAACTGGAATGATCTACCTGATACAATTTCCTTTATGACTGAAATAGTATCGGAGGAGAATAATGAAAAGTTGTTTATTGATGTTAACGGTGGAAGTAGTGCAGCTAATTTAATCGCAAGGTTTTGTTTTGAAAATTCAGAAGTGAAAAATCTCTCAAAAATGATTGCAAAAAAAGAAGAAGAACTAAATCCTGATTATATTTTAGCAGAAATCATTCATTTACCGGAAGCCAGAATTGGAAATGTGATTAGAAGACCTACATTACGACAATTTGAAATCCCATATTTGGGAGAGTCTATCTTACCAAAGGAAAATCAAATCCCTATAAATGACATATATATTTCTTTAAAAAATAACAGAATTATTTTACGTTCTAAGAAATTAAAAAAAGAGGTCAGACCTTATTTAACCAACGCTCATAATTATTCTGCTAACTCTTTGCCTGTTTATCATTTCTTGTGTGATTTATATTCGCAAAACATAAGATCAGGACTCTATTTTAATTGGGGAGATTTAAAAAAAATATATAATTTTTTACCGCGAGTTGAATATCAAAATATCATTCTCTCAAAAGCATGGTGGAAAATTTCAGAAAAGGAAATTATGCAGGTTTTAATGTTAGCAAAGAATGACATTAACAACAATAAGGAACAAATATTGGCAGAATTAAGAATTTGGAGAAATAAAAGACAAATTCCGCAATGGATACAATGGGTACAATCTGATAATAAGCTTACCATTAACCTTGAGAATTATGATTTGGTTCAACTATTTATTGATGCTTTGAAGAAAAAGAAATCAATCATAATTGAAGAATTAATGTACAATGAGAATAGTGATTTTATGCATCAATTTATTTTTTCAATGTATAATAAAGAAAAAGAAGTAATGACCAAAAATTAA	MSRFPYHFFEQYIVRTPLFSRKDFKEKLEKIELPDDELKEICNNSIFQEAIYLASPYLHEELNQWLNAKKLSPNQYQKLKNTILKYYSRMSNRCTPFGLFSGVGLGIFNKDIPKSTNFQLTTNPIRDTKLDMHFLVALSQNFVKTPEIRSKLLFFPNNCIYKVGNKIRYVEYEYNSGKRDYTISSAPLSNELQQILDFSKQGKTIESIAKILVNDEIAEDEARDFVDELIDNQILVSELEPNVSGNDFLDTVISVLNKIEIKNETEILISIKNRLNDIDLKIGNPSVKYAEIEEFVRSLNVEYEQKYLFQTDLYNKDEFSLPSHWKKELKEAVGFLNKITLSKKENHLEKFKKAFYERFETDEVSLAYALDTELGIGYKQDSIAKGVHSYLDDLDLPLFQEKITLKTEFDPVQLILNEKIQQALSEHQYTIVLSDDDFSDFKENWNDLPDTISFMTEIVSEENNEKLFIDVNGGSSAANLIARFCFENSEVKNLSKMIAKKEEELNPDYILAEIIHLPEARIGNVIRRPTLRQFEIPYLGESILPKENQIPINDIYISLKNNRIILRSKKLKKEVRPYLTNAHNYSANSLPVYHFLCDLYSQNIRSGLYFNWGDLKKIYNFLPRVEYQNIILSKAWWKISEKEIMQVLMLAKNDINNNKEQILAELRIWRNKRQIPQWIQWVQSDNKLTINLENYDLVQLFIDALKKKKSIIIEELMYNENSDFMHQFIFSMYNKEKEVMTKN	PGPT0011665_417	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011665-nisB|spaB|epiB-K20483	NA	NA
BMS003_03761	2181	f1pep1_2		Prolyl endopeptidase	ATGAGGGGATCAAATATAATCTTTTACTTATTCTTTGCCTCTCTAGGAATGTTCAATGCTCAAAAAAAAGAAATTGCATCTTCTAAAACTGTCACTGATGAATATTTTAATATTAAAGTAGTTGATGAGTATAGAAATCTAGAAGATTTAAAAGATCCCTCAACCATACAATGGATGGAGGATCAAACAAAGTATTCTTTATCAGTTCTACACAACATTTCTAACAGAGAGTATTATATTAACAAAAGATTAGAATTTGACAAAAGAAAGTCATTTTCAGTATCTAATATAAATATTACTGAAAATGACTTTTATTTTTATTTAAAACAAAGACCTGGAGAAAATACCATGAAGGTATTTTTTAGGGAAAAATTTAGTGGAAATGAAAAAGAGATTTTTGATCCATTAAAATATAAGCCTGAAAATAAAAAGAATTATCAAATAAATTACATTAAGCCTAATTATGATGGTTCTAAGGTAGCAATTGCTTTAACAGAAAATGGGAAAGAAATTTCTGAAATGATAATTTATGACCTGATACAAAACAAATTGCTTCCTTATACTATAACTCATTGTTGGCCGTCAGATGGTGGCGGTATATCCTGGCTTCCAGACAATAATAGTTTTGTTTATTTACACTACCCTGTTATTGATACTAATTCACCTTTATTTTTAAAGGATATGCAATCTGTACTTTATAAGATAGGTGATGATCCTCAGAAACTAAATATTTTATTATCAAGAAAAAATAATTCAAATTTAAATATAAAGACTGAAGATTTTCCAAATGTATCATTCCCTACAAAAAACTGTAAATACTTAATTGGGCAAATATCTGGCCCTGTAAAATTTAAAGATACTTATTATATGTCTGTCAAAGATATTGATAAGAAAAATCAATGGAAATTTTTGTTCAGTAAAGAGGATAAAGTAAGTGACTTTATTATTAAAGAAAATAGCATTATTTATGTTTCTGAAAAAAATGGAACCAATGCAATCTATAGTACACCATTAAATAATCCAGACTTTAAAGCTCCAATAATCTTAGTTCCAAATATACGAGATGAAGTAATTAATAATATATATAGTATAAAAGATGGCTTTGTTTTTAGTGCGTCCAAAAATGGAGTTGAAGCTAAATTATACCTATATAGAGATCAAAAAATTAACTTACTTACATTGCCATTTGCAGCTGGTGATATTTCTGTAGCCACTCAGAATGAAGAGTCTAATGATTTTTGGATAACTTGTAGTGGTTGGAAAAATGAAACATCTAGGTTTAAATATAATTCATTAACTGGGAAATTTATACCGGAAAATTTAGCACCTGTAATTGAATATCCAGAATTTAAAGATATTGTTGTAGAGGAAATTGTAGTAAAATCACATGATGGATTAGATATACCTCTTTCTTTAATCTATAATAAGAATATAAAAAAAAACAAGCATAACCCTTTACTAATGGATGCTTATGGAGCATATGCATTTAATAATAGTCCATATTTTGCTAAAACCTATATGCTTTGGGTCTTACAAGGAGGTATTGTTGCAGTCGCCCATGTAAGAGGTGGGGGTGAAAAAGGTGAAAAATGGTATAAAGGAGGTTACAAAAGTACAAAACCAAATTCATGGAAAGACTTAATTTCTTGTACAGAATATCTAATCAAAGAAAATTATACATCACCTGAAAATACTGCAATTTGGGGAGCAAGTGCAGGAGGAATTACCATTGGTAGAGCCATGACTGAAAGACCTGATTTATTTAAAGTAAGTATTATAGATGCGGGCATTGTAAATGCATCAAGAATGGAGTTTACTCCTAACGGATTAAATAGCGCTAAAGAGTTTGGCTCTTTAAGCATTGAACAAGAATTCAAAGCATTATTAGAAATGGATGCTTACCAACATATTAAAAAAGGAGAAAAATACCCTGCAACATTAATCACTTCCGGAATTAATGATCCAAGAGTTTCTCCATGGATGCCGACAAAATTTGCAGCTAAATTAATAGCAGATAATACCTCAGATAATCCAATACTTTTGAAAATAGATTATGAAGGTGGGCATGGAGGGGATATTCCTGTTGCTCAAAAATATGATAATCTGGCAGATTCATTTGCTTTTGCACTATGGCAATTAGGTCATCCTGACTATCAGTTAAAAGATCATTCAAGTAAATAA	MRGSNIIFYLFFASLGMFNAQKKEIASSKTVTDEYFNIKVVDEYRNLEDLKDPSTIQWMEDQTKYSLSVLHNISNREYYINKRLEFDKRKSFSVSNINITENDFYFYLKQRPGENTMKVFFREKFSGNEKEIFDPLKYKPENKKNYQINYIKPNYDGSKVAIALTENGKEISEMIIYDLIQNKLLPYTITHCWPSDGGGISWLPDNNSFVYLHYPVIDTNSPLFLKDMQSVLYKIGDDPQKLNILLSRKNNSNLNIKTEDFPNVSFPTKNCKYLIGQISGPVKFKDTYYMSVKDIDKKNQWKFLFSKEDKVSDFIIKENSIIYVSEKNGTNAIYSTPLNNPDFKAPIILVPNIRDEVINNIYSIKDGFVFSASKNGVEAKLYLYRDQKINLLTLPFAAGDISVATQNEESNDFWITCSGWKNETSRFKYNSLTGKFIPENLAPVIEYPEFKDIVVEEIVVKSHDGLDIPLSLIYNKNIKKNKHNPLLMDAYGAYAFNNSPYFAKTYMLWVLQGGIVAVAHVRGGGEKGEKWYKGGYKSTKPNSWKDLISCTEYLIKENYTSPENTAIWGASAGGITIGRAMTERPDLFKVSIIDAGIVNASRMEFTPNGLNSAKEFGSLSIEQEFKALLEMDAYQHIKKGEKYPATLITSGINDPRVSPWMPTKFAAKLIADNTSDNPILLKIDYEGGHGGDIPVAQKYDNLADSFAFALWQLGHPDYQLKDHSSK	PGPT0020970_678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020970-PREP-K01322	NA	NA
BMS003_03762	177			hypothetical protein	ATGAAACAAAAAAAGCAGACAGAAAAAAAATTATCTTTGAAAAAATTACAAATGGTAAGAATTAGTAATCCTAGAGTAATAATGGGAGGAGTAGTTTATGTTGAAACGAATACTACGCCAAAAATAATTGGCGATGGTGATAATACGGGTACTATAGGAACTTCGAGAAAAGACTAA	MKQKKQTEKKLSLKKLQMVRISNPRVIMGGVVYVETNTTPKIIGDGDNTGTIGTSRKD				NA	NA	NA	NA	NA
BMS003_03763	1725			hypothetical protein	ATGCAAAAAAAGACCTTCATCTACCTGTTAATACTTTACCAAAACTTTTTCTTTTCTCAAAGTATAATGGGATTTCATACCCCAGACTCTTTAGAAAATAAAAGTTTTGAGAACTTAGAAAAAACTTTTGAAAAAAATATTTACACCAATAAAGCCAGTGCAGAGATCTACGCTAATACAGTTCTCTCAAAGGGCAAAAAAAATAAAAATGATGAGAAGATTGCAGATGGATATTTAATGTTGCATCGATTGAATATTGATAAATCAGCATTATTATATCTGGATAGCATGATGATGGTATCAAAAAAGATGCAAAACTCTGATTATCTGGCAAAAGGAAATATGTACAAAGGAAATTACTACTATGCAAAAGGAGAATATTCAAAAGCATTGTTCAGTAATTTAACAGCAATAAATTATGCAAAAAAGAATAGTAAAACATATTATATCCTCAATTTTAATATAGGATTATTAAAACTTGAATTAAAAGAATACCAACAATCTATTCAATTATTTTCCAATTACAAGCAATATTTGGAAAGAAATAATGCTGAAAAATCACTTGATTACGTAAGTTGTATATATGCACTTGCCTATACCTATAGTCAGGCAAATGATATCGACTTTTCCGACAAATATGTTGAACTTGGACTAAAGAAAAGCTATGAGATGAATGATGGTGAATCTCAAGCTAATTTATTTTTAGTTTCAGGAATAAATGCCTATAAAAGAAAAAAATATGAATCAGCATTGAGAACCTTAAGAAAGGCATCTACATTAATAAAAGACAATTCTTATAATCCTCAAAACCTAGCTATCAGTGAATATTATATAGGAAAAATACTATATAATAACAATAATGATTCTTTTCTAAATACACTTCAAGCAGTTGATTCTATTATTATTAAAACTAAAAATGTTACTTCTGAATTAAGAGATACTTATCCTATATTAATTGATTATTATAAAAAAACAGGAGATAAAGAAAAACAATTATTGTATATAGAACATTTATTATCTGTTGATAGTATTTTAAATAATAATAATAATTTCTTAACCGCCGAAATAAACAGAAAATATGATACACCTCTTCTTTTAAAAGAAAAAGAAATTCTAATTTCAGAGTTAAGTTCAAAGAATTACACTTTATTTTGGATACTGGGGATAGGAGGAATAATCATAATTTACTTGCTTTATCTCTACGACAAAAATAGAAGGAAAGTTAAAGTATATCAAAACAAAGCAGATTTACTAACAAAATCTTCATCTTATCCTGATATCACTGAAATAAAAGATCTTCCTTTTAAGGAAAATTTAGATTTTCAAAAAGAAAAATCAAAAACAATTTTGTCAAATGATAAGCTTAAGCAATTAAGTTTACAATTGGAAGAATTTGAAATTGAAAAACGATTTTTAGACAAAAAAATAAATTTAGACATTCTATCTAAGGAATTTAATACAAACAGAGCTTATTTATCAAAATCGGTCAATGAATTGAAAGGACAAAATTTCTCTCAGTATCTTAATGAGCTTAGAATTCGTTATATTATTAAAGAATTAAAAACAGACAAGAGTTTACAGAAAATTACAATAGCTGCCATTGCTGATAAAGCTGGATATAATAATGCAGAATCTTTTACAAATGCATTTAAAAAAATGACCGATACTTTACCATCATATTTTATAAAGGCGCTCCAAGAAAACCCTGATTATCAAACATCTTAA	MQKKTFIYLLILYQNFFFSQSIMGFHTPDSLENKSFENLEKTFEKNIYTNKASAEIYANTVLSKGKKNKNDEKIADGYLMLHRLNIDKSALLYLDSMMMVSKKMQNSDYLAKGNMYKGNYYYAKGEYSKALFSNLTAINYAKKNSKTYYILNFNIGLLKLELKEYQQSIQLFSNYKQYLERNNAEKSLDYVSCIYALAYTYSQANDIDFSDKYVELGLKKSYEMNDGESQANLFLVSGINAYKRKKYESALRTLRKASTLIKDNSYNPQNLAISEYYIGKILYNNNNDSFLNTLQAVDSIIIKTKNVTSELRDTYPILIDYYKKTGDKEKQLLYIEHLLSVDSILNNNNNFLTAEINRKYDTPLLLKEKEILISELSSKNYTLFWILGIGGIIIIYLLYLYDKNRRKVKVYQNKADLLTKSSSYPDITEIKDLPFKENLDFQKEKSKTILSNDKLKQLSLQLEEFEIEKRFLDKKINLDILSKEFNTNRAYLSKSVNELKGQNFSQYLNELRIRYIIKELKTDKSLQKITIAAIADKAGYNNAESFTNAFKKMTDTLPSYFIKALQENPDYQTS				NA	NA	NA	NA	NA
BMS003_03764	2427			hypothetical protein	ATGAAATATCAGGATATAAGAAAATCATTATTTAATAAACTAAATTTTTTAAGCTTTATAATATTAATATTATCAACAGATAAAATTTATGCTCAGTTTACCATAGCTGGCACAATCGAACAAACAGATAAAAATAGAAACCAATTTACAGAGGTTCTATTACTAGACAAAGATTCCGTAATTATAAAAAATGATCTAATAACAGAGAGTGGTAATTTTGCATTAAAAGTAAACAATACTGGTATTTATACTTTAAAAATAAAACAACTTAACCTTTTTCTATACAATAAGTCTTTTCAGGTTAATTCAGATCTGAATTTAGGAACAATTTCAATTGAAAAAACGAAAGAAATAAAGGAAGTTGTAATTTCTGGCAAAAAGAAACTGATTGAAAGAAAAATTGATAGGTTGGTTTTCAATGTAGAAAATGCAATTGCAACAACGGGAGGAGATGCTTTAGAAGTATTGAAAATTACCCCAGGCATAAAGGTTCAAAATGATAATATTTCAATTATTGGAAAAGGTACAGTAAGCGTTATGCTAGATGACCGTTTAATTCAATTGAAGCAAGAAGATTTAAGTAATTTTTTGAAATCCATTTCTGCAGAAAATTTAAAAAGTATAGAAGTTATTACTACTCCACCTGCCAAATATGATGCATTAGGAAATAGCGGAATTATCAATATTAAAACAAAAACAACTAAAAAGAATTCTTGGAATGCGAATGTAGGCACAAACTATTTACAAAGAAGTCGTGCAGAAGGTGGTGTTTTTGGAAATTTCAATTATAATAAAGATAAATTAACAATATCAACTTCTCTTAACTACAGAGACGGAGCAAGATATTCTACACAACATGATTATGCTCATTTTCAAGATGCTCTATGGTATACGGCTTCTCCTTACGTTGTGGATTACAAGAGATTTGGAGGGAAATTAGGAATAGATTATCAAATCACAAAACAGTGGACCGCTGGAATTCAATATATCTTAAATACTAATAAATTAGATTTTTATGGAGATGTAGACACTCCAGTTACTTCTTATGACAATAATGAATTACTACGGTATTTAAAAACATACAAGCAAACGAAAAATAAGCCTGTTTTCAATTCAATCAATCTCTATAATGATTTTAAACTGGATTCATTGGGTAGAAAATTAACCATTAATTTGGATTATTTCAATTTCAAAAATAATGATGAAAAATTATATTACGGAAATTCATATATCTATAATCCGTATAGCGAGCAATATTTTTTGGGAAACAACAATAATCTTCAGAAAATAGACAACTTTTCGGGGAAAGTAGATATTGAATATCCTACAACTTTTGTTAATCTGAGTTTTGGTGGAAAAATCGCAACTTCAAAAGCAGATAATACAATAAAATTTTTCAATAGTGGATTGGTTGATGATCCAATAACAAACTATAATTTGGCAGATAATCCATTTCAATACACCGAGAATATCCAAGCTTTATATATTTCCGGAAATAAAAAAATTAATGCTAAGTGGGAAGCACAAGCCGGTATAAGAATGGAAGCAACCCAAACAAAAGGAAGTTCTTCGACTAAAGTGACTAAAAATGATTATTTAAAATTCTTCCCAACATTCTATTTAACCTACAAACCCAATGAAAATAATTCTTTAGGTTTCAGTTATAGTAGAAGAATTGACAGACCTACTTTTAATGAACTTAACCCTAATTTATATTTTGAAAATCCATTCCAAAGTATTGAAGGAAATCCTTTCTTGCAACCTGCATTTATAGATAATATTGAATTAACCCATACGTATAAAAATTTTGATAGTAAGATCTATTATAGTAAAGAGGCTAATCTCTACGGACAAATTGCTATAGCCAATCCTGCTACTAACGATATACGATTTACCAATGAAAACTATGTTAATACCCAAAGATTTGGATTAGCAGAAGGATACACTTTTGATAAATTTAAATGGTGGAATTCTAACAACTCTTTAGACATTAATTATGTAAAATCTACTTCTTTTATTGATGTACTACAAAAGGACCAGGAGGGTTGGAGTGGTAGATTTTCAACTAATAATGACTTTATTCTAAATAAAAGTAAAACCTGGGTTTTTAATGTGAATTACTGGTACAATTTTGCCGGTGTAGATGGGAAGTTTTATAAAGCAGGAGCAATGAGCAATTTATCTGCAACTATTCAATATCTTTTATTAGATAAAAATTTAAGAATTACTCTAAAAGCCAATGATATCTTCAGGACTGAAAAAGTGAAACAAAGTTCCATTGTGAACAATGTTTATCAAAAAGGTATTTACTACAATGACAATCAATCTGTACAGTTAACTGTTTCTTACAAATTTGGAAATCAGAAAATTAAATCGGTAAGAAGATCTGCAGGAAACGAAGAAGAAAGGAACAGAACTGGAAATTAA	MKYQDIRKSLFNKLNFLSFIILILSTDKIYAQFTIAGTIEQTDKNRNQFTEVLLLDKDSVIIKNDLITESGNFALKVNNTGIYTLKIKQLNLFLYNKSFQVNSDLNLGTISIEKTKEIKEVVISGKKKLIERKIDRLVFNVENAIATTGGDALEVLKITPGIKVQNDNISIIGKGTVSVMLDDRLIQLKQEDLSNFLKSISAENLKSIEVITTPPAKYDALGNSGIINIKTKTTKKNSWNANVGTNYLQRSRAEGGVFGNFNYNKDKLTISTSLNYRDGARYSTQHDYAHFQDALWYTASPYVVDYKRFGGKLGIDYQITKQWTAGIQYILNTNKLDFYGDVDTPVTSYDNNELLRYLKTYKQTKNKPVFNSINLYNDFKLDSLGRKLTINLDYFNFKNNDEKLYYGNSYIYNPYSEQYFLGNNNNLQKIDNFSGKVDIEYPTTFVNLSFGGKIATSKADNTIKFFNSGLVDDPITNYNLADNPFQYTENIQALYISGNKKINAKWEAQAGIRMEATQTKGSSSTKVTKNDYLKFFPTFYLTYKPNENNSLGFSYSRRIDRPTFNELNPNLYFENPFQSIEGNPFLQPAFIDNIELTHTYKNFDSKIYYSKEANLYGQIAIANPATNDIRFTNENYVNTQRFGLAEGYTFDKFKWWNSNNSLDINYVKSTSFIDVLQKDQEGWSGRFSTNNDFILNKSKTWVFNVNYWYNFAGVDGKFYKAGAMSNLSATIQYLLLDKNLRITLKANDIFRTEKVKQSSIVNNVYQKGIYYNDNQSVQLTVSYKFGNQKIKSVRRSAGNEEERNRTGN				NA	NA	NA	NA	NA
BMS003_03765	11928	grsB		Gramicidin S synthase 2	ATGAATGTAAACGAAGGATTAGATAATTTTCATTTGGCTTCAAAGTATTGGAAAAAAAAGGTATTAAATAGAGATAAAAATATCAAGCTTCTAAAGAAAAATGAAAGTATTTCAAGTACTAGAATTAATGGAGAAGATCTTTCGTATTTTAATCAAATTACAGCTGCTAATGAAATAGCACAATATACAGTTGTAACGGCTATTTATTCTTTTCTATTAAAGAGGCTGGTACGTGAGTTTGATGGTTATCTTACTTCAAATTACCAAGATCAATATAATTCATTACTTCTTTCACTTCCTGTAGACTTAAAAATGCCTTTTAAGGATTATCTTCAAAGAGCTAAAGAAGAGATTTTAGAAAGTTTAAATCAGTTTGACAATTATAAGGTAAATGATACTAAGGATGTAATTGATTTAAATAGCTTTTCGAATTTTAAGATTAATATGAATTCTAAATATAATTCCAATTGTAGTGGTATTTTGTTTGATCTTAAAATCAATGAAGATGGGGGGATGGATATTCATGTTATTTATTATGAAGATTTTATACAAAAGAAAATTATAGATTACCTGGTTCAGCATTTTACCTGTTTCATAATCAATTTAAAGAAATATATAACATCTGATTTATCTTCATATTCACTATTAACTGAAGAGGTAAAACATCAATTAACAGTAGATTTTAATAATACTGATTTTACTTATCCTGAATATAGGACAATTATAGATTTATTTGAAGAACAGGTTAAGATAACCCCAAATAATATTGCTGTTATATTTGAAGAAACAGAACTGACATATTCAGAATTAAATCAAAAAGCTAATCAATTTGCAAATTATATTTCTTACAGATATAAGGTAAATATTGGGGATATTATAGGTGTTTATTTACCTAAATCTGATTTGGGAATAGTTTCTTTACTGGCAATTTTAAAATTAGGTGGGGTATATCTTCCAATTGATACTAATTATCCCCTTGAAAGAATCAATTATTTAATAAAAGATAGTGGTTTAAAACTGTTAATTTACTCTCAGGCAAATATTCCTAATACAGATATTTGTGAATTAATGTCCGTAGACTCAATGGAGCTTCAGGGATATAATTCTGATAACCTAAATACAGTTATATTACCTAAAGATTTAGCGTATGTAATTTACACATCAGGCTCTACAGGATTGCCTAAAGGTGTAATGGTGGAACATCAGAGTACCATAAATATGTTCCTGGACCAAATTCGATCATTTAAAATTACAGAAAAAGATAATGTCATATGGTTTGCTTCTGTTTCTTTTGATGCTTCAATATCTGAGATCTTAATGACTCTCAATAGTGGTGCTACGTTCTGTATTCCTACAGAAGATACAATTAAAGATAAAAACCAATTTGTTACTTTCTTAAAAAAAACAAATGTATCTGTTGTTACTTTTCCACCAAGCTATTTAGAATTGCTTTCTCAGGATGATGTTTCGGGATTAAGATGCATTATAACAGCTGGAGAATCGGCAAACTCTGCTAAATCTTTAAGTATCACAGCACTTGGAATAGATTATTACAATGCTTATGGACCTACAGAATGTACAGTTTGTGTGTCTATATATAAAGTAACTGAAAATGATTTCGGCAGATCGACTATTCCAATAGGCCGCCCAATTGCTAATACGCAGTTTTATATATTGGATGAAGAATTACAACCTTTACCAATTGGGGTTTCTGGAAAAATATATGTTGCGGGATCAGGTTTAGCAAGAGGCTATTTAAATAAACCAGAACTTACAAATGACAAATTTGTTATAAATCCTTTCATTAAAGGAGCACTAATGTATGATACTGGAGATTTAGGCTCTTGGTTGCCTGATGGTAATGTTGAGTTTTTAGGAAGAGAAGATCAACAGGTAAAATTACATGGATTTAGAATTGAGCCTGGTGAAATTGAAAATACAATTTTAAAATATTCAGATGATATTAAACAAGTTGTTGTTGCTGTTAAAGAATACAATGAGGAAAAAGCGCTGGTAGCCTATCTGGTAGCAGATACCATTGTAGATAAATCAGCAGTACGTCATTTTCTTAAAAATAGGTTACCAGAATATATGGTTCCCGGATTTTATATTACCTTAAAAAAGTTACCGTTAACTCCTAATGGTAAAATAGACAAAAAATCTTTGCCTGGAGTAACTGCTGATGCTGTTATCAGAAGACAATATAAAGTTCCAAACAACAAGCTTGAGGCAGATTTAGTAGAAATATGGCAGGAAGTTCTGGGTATCGATCAAGTGGGTATTACAGATGATTTTTTTGAATTAGGGGGCCAAAGTCTAATAGTGGGGCAGGTCATTAACAAAATAAATCAACGGTTAGGAAAAATAGTATCATTTAAGACATTTTTTTTACACCCTACGATAGAGAAAATTAGTGGGCAATTGAGTAACAAAGGTTATCAGGAAATTCCGAAGGTACCCGAAGTACCATCTTATCCTTTAACTCCTTCTCAAAATAGATTATGGATAGTAAGTCAGATAGAAGAAGGGTCTTTGGCCTATAATATGCCGGGTACAGTGCATTTTAAAGGAAATATTGATCATAACAAATTAGAAGAATCCTTTAAAAGACTGATTCATCGTCATGAAATTTTAAGAACCTATTTTAAAACAAATCAAGAAGGGGAAGTTAAGCAGTTTATTCTATCGGCAAAAGATGTAAATTTTAGTATCAGTAAGGAAGATTATAGTCTACTTAACAATCAGGATGAAGCAGTTTCTTATTATTTACTTAATGAGAATAGTGTCGCATTTAATTTAGAATGTGCGCCTTTAATAAGAGCATCCCTGATTACATTAGACGATAAAAATCATCTGTTTTTTTTATCACTACATCATATCATTGGTGATGGATGGACGATCAAGTTAATAATTGCAGAAATTATAAAAATTTATAATGCTTTAACACAAGGAAATGAAATCACTTTACCGGAATTAAAAATTCAATATAAGGACTATGCTTTTTGGATCAACGAAGAATTGAAACAAGAAAAATATAAAATATCTGAAAATTATTGGTTAAATCAATTTCCGGAGGAAATACCCATTTTAGACTTACCAGGTCTGAAAACACGGCCACTGGTTAAAACATACAATGGAAATACAATTAAACATACTTTCAGAAAAAATTTTTTAGAAAAAATAAAAGAGTTTTCAATAAATAGAGACTTAACTTTATTTATGACTCTGATTTCTGGTGTAAACGCATTATTGTACAGATATACAGGACAGGAGGATATAATTGTAGGATCTCCAATAGCAGGAAGGGAACATCCTGATTTGGAAAATCAATTAGGTCTGTATTTAAATACAGTTGCCATAAGAACAAGACTAAATGAAAAAATTAATTTCTCTGATTTAACTGTAGCTCAAAAGGAAACGCTACTAAGTGCTTACGATCATCAAAACTATCCTTTTGATATTTTGGTAAGTAAACTAAACCTTAAAAGAGATGCAAGCAGGTCTCCTTTATTTGATATTTTAGTTGTATTACAAAATCAGGAGCAATTAAAAAATATAAATGTTGAGGAATTTTTGGAAGTAGAAGTAAGTGATTTTGATTTTAATTACAAAACAGCTCAGTTTGACATTAGTTTTAGGTTTATTGAAACAGATCGTTTAGCTCTGGAAATAGAATATAATACTGACCTGTATGACAGTTATTTAATCGGAAAAATTTTTACTCATTTTGAAAACCTCCTTATAAAATTAATAGAACAACCTTTACTTTCTATTACCGATATAGACTACTTAAGTGACAATGAAAAGCAGCAATTATTTGAGTTTAATGACACAGATATTGTTTATCCCAAAGATAAAACGGTAATTAATTTGTTTGAAGAACAGGTACTTAAGACACCAAATAATATTGCCGTTATATTTGAAGATATTAAATTAACATATCATGAGCTAAACGAGCAATCAAATCAATTGGCTTCTTATCTAATAGACAATTATTCTATTAAATCTAATGATTTGGTTGGTATTAAATTAGAGAGAAGCGAGAGAATGATAGTGGCTGTCTTTGGGATTCTAAAAGCCGGCGGCGCATATGTGCCGATTGATGTTACTTATTCTCAAGACAGGATTGATTATATAGTGAAAGATGCTGATCTTAAACTTTGTATTGATGAAAGTGAATTTAATAAATTCAGATCAAATCAAAAAAGCTATACAAGAGGATCAGTTCAATTGAGTGCTTTAAGCCATTTAGCTTATTGTATCTATACCTCCGGTTCTACCGGAAAGCCAAAAGGAGTATTAAATCACCATGCCGGCTTATATAATAGGTTGCTTTGGATGAAATCATATCTGAAAGTAAATGAGACTGAAGTTTTTCTTCAAAAAACCCCTTATACTTTTGATGTTTCAGTTTGGGAATTAATATTACCTTTCATTACTGGTAGTTCTCTTGTTATTGCAAAACCGGAGGGGCATAAGGATGTTTTGTATCTGCAGAATATTATTGATAAAGAGCAGGTTACGATAATTCATTTTGTGCCATCAATGTTAGGCTCTTTTTTGGAAAATGTAGAAATAGATAAAGCAAATTCATTATCACATATTGTGTGCAGTGGTGAAGAATTGACTTTGAATCTGGTACAACAGTGCAAAGAAAAGTTTTCTGCAGCACAATTACACAACTTATATGGACCAACCGAAGCTGCAATTGATGTAACGGCAATTGATTTAAGTAATGTAGATGTTACAAAAAATGGTGTAAGTATTGGTAAACCAATAGCGAATACAAAAATATACATAGTTAGCAATTCGCTTCAATTACAACCGTTGGGTATTCCCGGAGAATTATTGATATCGGGTATACAAGTAGCAAAAGGTTATCTGAATTTGCCAGAACTTACACAAAATCGTTTTATAGATGATCCTTTCAGAGAAGGATATCAGGTCTATCGTACAGGAGATATTGCACAATGGCAATCTGATGGCTCTATCCAGTATTTGGGAAGAATGGATAACCAGGTTAAGATAAGAGGTAACAGAATAGAGCTGGGAGAAGTTGAAAATGCTATTATCAATTATGGTGATATACAGCAGGTAGTGGTTATGGCTAAAGAGATAAATTCAGAAAAAGTTCTGGCAGCTTACATCATTTCCGATAAAACTCTGGATAAAACTGCTCTCCGCAATTTCCTCCAAGATCTGCTCCCAGATTATATGGTTCCTGGTTTCTATATTTTATTATCTCATTTTCCCTTAACTTCAAGTGGCAAAATTGACAGGAAAGCTCTGCCTGAAATTTCATCAGAAGATATTGTTCGTAAGACCTATGTGGCACCTGGGACCACACTTGAGAAAAGGCTTGTTTTAATTTGGCAAGACGTATTAGGATTAGACAAAATTGGTATTACTGATAATTTCTTTGAACTTGGAGGGCATAGCCTGATGGTTTCACAAGTAGTGAATAGAATCCACAAGCAATTAGGTAAAACTCTGTCTTTTAAAACTTTTTTTACAAATCCTACTGTAGAAGGTATTAGTATTCAATTGATTGAAGATCAATATACTCCTATAGCACAAACAGAAGAAAATATATCTTATCCTTTAAGTCCATCACAAAGTAGATTGTGGGTTTTAAGCCAGCTAGAAGGTGGGTCTTTGGCATATAATATGCCAGCTGCGGTGAAATTAACCGGTATTATTGATGTAGTAAAATTTGAGGAATCATTTAGAATACTGATTGATCGTCATGAAATTCTAAGAACTTATTTTAAAATAAATGAACAAGATGAGGTTCGTCAATATATAAGTGGAACAGAAGATATAGAATTTATAATTGAACAAAAGGATTTTTCATTAGTTAAGAATCAAAATCATAAAATAGAAAATTATCTTAAAGAAGAAATTAAGAAACCTTTCAATTTAGAAGATTTTCCTCTTATAAGAGCATCTTTAATAAAATTAGAAGAGAAGCAATATATATTCTTTTTATCCCTTCATCACATCATTGGTGACGGTTGGTCAATTGAAATTATAATATCTGAGATTGTAAAGATATACAATGCATTATCAAAAGGTCAAGAAATTAATTTGCCTGTTTTAGATATTCAGTACAAAGATTATGTGATATGGCTTGCTGATGAATTAAAACAGGAGAAATATCAATTATCGGAACAGTATTGGCTAAAGGAATTTCAAGGTGAGTTGCCAGTACTGGATTTGCCAAGTTTTAAAACACGACCATTCATTCAAACTTATAATGGAAATCAGATAACACATCAGTTTCCTGCTTCATTTTTAGAGACTCTTCGTGCTTTTTCGAATCAGTATGATGTTACATTATTTATGACCTTAATGGCGGGTATAAATGCTTTATTACATCGTTATACAGATCAGCATGATATTATTGTAGGTACTCCAATAGCTGGCAGGGAACATCCGGATTTAGAAAATCAGGTAGGACTTTATTTAAATACTCTTGCGATCAGGACCCAACTGGAGGAACAAGCCAGCTTTTTAGATTTACTGGAAATTCAGAAGGTCAAATTATTAAATGCGTATGATCATCAAAATTACCCTTTTGATACTTTAGTAAATAAGCTAAACTTAAAGAGAGATACGAGTCGTTCTGCTTTATTTGATGTTTTGGTTGTACTTCAAAATCAAGAACAATTAAGGAATATTAATACTGAGGAACTTTCAGATATTAATATTAGCGATTATGAATTCAAAAGTGAAACTTCTCAATTAGATATTAGTTTTACTTTCAAAGAAAATAAAGCTTTAGGCTTAACAATAGAATATAATACAGATATTTATGATCGTTATTTGATTGAAAGAATATTCGTTCATTTTGAAAACTTACTTACAAGGCTAATTCATAATCCTAAAAAACATATACAGGAAGTAGATTATTTAACAGTTGATGAGAAGCAGAATTTACTTGTTGGATTTAATCGTACAGTTGTAGCTTATCCTCGTCATAAAACGATTGTGGATTTGTTTGAAGAACAGGTTCAAAAAACACCTGACAATATTGCTGTTGTTTTTGAAAAAACAGAATTGAAGTACGAAAAGCTGAATGAAATATCAAATCAGCTGGCTCATTATTTGAGAGCAAATTTTGAAATTACATCTGATAATTTAATCGGAATTAAGCTCGATAGAAGTGAGAGAATGATTATTGCAATTTTAGGGATTTTAAAGGCAGGTGCCGCATATGTACCCATTGACATTAATTACCCTCAGGAAAGAATAGACTATATTGAAAAGGATAGTAACTGTAAAGTTGTTATAGATGAAATAATTTTTGATGAATTTGAAAAAATAAAGGAAAATTATTCAAAAACAGACATTGGCAAAATTAATCAACCTCATGACTTAGCCTATGTAATTTATACTTCAGGAACAACCGGAAATCCAAAGGGAGTTATGGTGGAACATTCCAGTGTAGTTAGTATTTGTGAAAACTGGAGAATACACTATGGCTTACATCAAATAGAGGTAAATTTATTACAGCTTGCAAGTATATCTTTCGATGTTTTTGTAGGAGATATTTGTCGCTCTATATTGACGGGAGGGAAAATGATCATTTGTTCAAATGATATAAAACTAAATCCTGAGCATTTATATGAATTAATGCAAGAGAAAAAAATCTCAATTTTAGAAGGTACGCCAAGTTTACTATTACCATTAATGGAATTTATAAGCAGTGAAAATAAAGACTACAGTTTTTTTAAAATATTAATTTTTGGTTCGGATAGTTTTAATAATCAGGATTATAATGCATTAAAAGATAAATTTGGCAGTACAATTAAAATCATTAATAGTTATGGTGTTACTGAAGCAACAATAGACTCTACTTACTATGACGATTATAAAAAAGATTTGGTTGGTTTTACACCTATTGGAAAACCATTTTCCAATACAAAAATAATCATACTTGATTCATTTGGTAATTTAGTTCCTTCTGGAGTTTATGGTGAGGTTTATATTGGAGGAGATGGTTTAGCTAGAGGATATTTTAACAATCAGGATTTAACGACCCAGAAATTTATTAATAATCCTTTTGAAGGTACAGAAAGACTTTATAAAACTGGTGATGTAGGACGCTGGTTCCCAGATGGGAATATTGATTTTATAGGAAGAAAAGATAATCAGGTGAAAATACGGGGTTATCGAATTGAACTGGGAGAAATTGAAAATGCCTTACAACAGAAAAAAGATATTGATACCTGTATCGTTTTAGCTAAAAGTAATGATTCAGTCGAGAAATATCTTGTTGGTTATATAGTAAGTAAAAAAGAGCAAAAAGTATCAGATCTAATAGATCATTTGCAGAATATTTTACCTAATTATATGATACCGTCTTATTTTGTTCAAATAGATGCCCTGCCATTAACTCCGAATGGAAAGATTGACAGAAATGCATTGCCTAGTCCAAAAGATTCAAGAATTTCATCAGGTACAGAATACATAGCTCCAAGAACTGATTTAGAACAAGAGATTGTGATAATTTGGCAACAGGTACTAGGAATTGAAAAAATAGGAATTAAAGATAATTTTTTTGAATTAGGAGGCCATAGCCTTACCGTTACAAAATTATTGAGTAACATTAACAGACAATTTGAAGTCAAGATCACTTTCAAGGAAATATTTTCTAACCCAACTCTTGAAGATCAGGCGAAAATAATTCTTCAAGCGAAAAAATTATCTTACCAGAAAATTACTAAAGCTCAGGAGCAATCAAGCTACCCTTTATCTTCATCCCAGCGTCGTCTATGGCTTTTAAGCCAATTTGAAGGAGGAAATACAGCTTATAATATGCCAAGTGTTTTTGAAATAACTGGTGATTTTACAGTAGCCTACCTGGAAAATGCTTTTAACGATCTTATTGAACGTCATGAGTCATTACGAACCGTGTTTAAAGATAATGAGGATGGAGTTAAACAAATTGTGCTAAATGCAAATGAATTTAATTTTCAATTGCAGTACGAAGATGTAAGTACAACGGAAAATCCTTTAGAAAATTTAAATACTATTATTCAGGAAGAGACAGCTTATACTTTTGACTTGTCATCTGATCTATTAATTCGTTCTAAAATAATAAAAACATCTCCTGAAAAGTATACACTTATTTGTGTGATACATCATATTATTAGTGATGGATGGTCATTAGAAGTAATGATAAATGAATTATTTGCACTTTATGATGCTAATAGAAAAGGAGAACAAAACGTATTACCACAACTGGAATTACAATATAAAGATTATGCAGTTTGGCAACAAAATGAATTAAAAAGTGAAGCAATCAATACGCATAAATCATATTGGCTGGAAAAATTCAAGACAGAAGCATCGGTGCTAAACTTACCAACTCATCAAGTTAGACCGGCTGTCAAGACATATGAAGGAAGCTCTCTGTCTAAAAGCTATGATAAAGAACTTTTTCAGAATTTCAACAAGCTATGTCTGTCACAAGGAGCAACTTTATTTATGGGATTACTTGCAGCTGTAAAAACATTAATCTACAAATATACAGACCAGGTTGATATAATTATTGGAAGCCCAATAGCAGGAAGAGAAAACGAAGAATTACAAAATCAGATTGGTTTGTTTGCCAATACACTAGCTTTAAGAACTCAGTTTGATGCAGAGGGTAATTTTAAAGAATTATTGGCAAATGTGAAGGAAGTCACTCTGGGAGGGTATGAACATCAAATTTATCCATTTGATGAAATAGTAGAACAATTACCATTAAAAAGAGATCTAAGCCGTAATCCATTATTTGATGTAATGGTGGCTTTACAAAATACGGATAATGTTAAAGCTAATCTTAATGAACTGGGTGGTTTTGTAATAAAAGAATATAAAACTGCTGTGAATGAAATCAGTAAGTTTGATCTTGAATTTATTTTTGAACAAACTTCAAATAGTATTGATTTAGTATTAATATATAATAAAGATCTTTATACATCAGAATTTGGTAGTAATGTTCTAAATCACTTTGAAGTACTTTTAGAAAGTATTGTGTCAGCCCCTGAACGTTCTTTAAGTTTACTGGATTACCTTAAAGAAGAAGAATTAGAAGAACTTTTGGTAAACTTCAATAACACAAAAGCTGTATACCCGAAAAGCGAAACTTTTTTGGATTTGTTCGAAATACAGGCAAAAAAATTACCACAAAAAGAAGCCTTGAGAGATGATAATATCTCTTATTCATATGAGGAATTAGATCAGGTATCTAATCGTATAGCAGAATATCTTAACAATAATTATAGAGAAGGAAATCAGTCCCCTATTGCCGTATTATTAGACCGGTCTGCTATTATGGTAGCTATTCTATTAGGGATATTAAAATCAGGTAGAGCTTATATCCCGTTAGATCCTAATTTTCCAAAGGACCGGTTGAGTTACATTACTAGTAATAGCCAGGTAGATATGATTATATGTGAAAGCAATTATAATCTGGAAGAGTCAGAAGAAATTATGGTACTTACCTTAAAAACCATTATAGATGGAATAGTAGGATTTAAAGGAGCTGACTCTAGAAAAATTTCTCCTGAAGACACTGCATATATAATTTATACTTCGGGTTCTACAGGAAATCCAAAAGGAGTTGAGATAGGGCATAAATCACTGCTTAATTTCCTTACCAGCATTCAGAATAAACCGGGAGTTAATGTAACAGATGTCTTATTTTCTGTAACAACATATTCTTTTGATATTTCTATACTGGAGTTTTTTGTACCATTAATTTCCGGAGCTACGGTTTACATTGCTGATAATGAAGTTTTACAGGATTCAAACTTAATAATAAAAAGACTACAGGACGTAAAACCTACTATAATACAAGCTACACCAAGTTTTTATCAAATGTTGTTTGATGCAGACTGGTATGGAGATTCCAATCTGAAGATACTTTGTGGTGGTGATTTGTTGAGTGAAACGTTGGCGGAGAAAATGCTCAGAAGTTGTTTGGAGGTCTGGAATATGTATGGACCAACAGAAACTACCATTTGGTCCGGTATAAAAAGAATCCTACACAAAAGAGATGCTTCAAATATTGGTAAGCCTATTAACAATACTGATTTTTACATCTTAGATCAGTTTCTTCGTCCTAAACCTATAGGAGTTGTAGGTGCAATTTATATTGGGGGAGACGGATTGGCAAAAGGGTATTATCAGAATCAAGAATTAACTCAAGCAAAATTTATTAAAAACCCATATACTCATGATGGTTTGATGTATGAAACAGGAGATGTAGGGAAGTGGAATAATAAAGGAGAAATCGAATTTTTAGGTAGAAATGATAATCAAGTAAAAATAAGGGGCTATCGAATTGAATTAGGAGAAATTGAAAATGCCTTATTGAAAATTACCGAGATTGATGAAGCTGTGGTAATGGCTAAAACAGATACAAATGATAACCAAGTTCTGGTATCTTACTTAGTGAGTAGCCTGGATCTAAATGGATTAAATGTTAAGTCACGCCTTAAAGAATTCTTACCTGATTACATGATCCCTGCATTTTACGTTCAATTGGAAAATATGCCGCTAACCCCAAATGGTAAAATTGACAGAGGAGCCTTACCAAGCCCTCAAAACATGGAGCTGATTTCAAGTGTTGAGTATTTACCGGCCAGAAATGAAACAGAAGCAAAGCTGATAGAGATTTGGATGGAAGTATTAGGGATTCAGAAAGTAGGGGTAAAAGACAATTTTTTTGAACTAGGAGGAAATAGTTTAAATGCAACACGATTGATTGGGTTGATATTAAAACAATTTGAACTGAAAATTACAATTACTGATCTATTTAAAAATTCAGTTTTAGAAGAACAAGCTAGAATAATTGAGAATATAGGTCTGTCTACAGTAGCCGGATTTAATAAGTATGATGATGAGGAAGATGTAGAAGTATTTTCAATATAA	MNVNEGLDNFHLASKYWKKKVLNRDKNIKLLKKNESISSTRINGEDLSYFNQITAANEIAQYTVVTAIYSFLLKRLVREFDGYLTSNYQDQYNSLLLSLPVDLKMPFKDYLQRAKEEILESLNQFDNYKVNDTKDVIDLNSFSNFKINMNSKYNSNCSGILFDLKINEDGGMDIHVIYYEDFIQKKIIDYLVQHFTCFIINLKKYITSDLSSYSLLTEEVKHQLTVDFNNTDFTYPEYRTIIDLFEEQVKITPNNIAVIFEETELTYSELNQKANQFANYISYRYKVNIGDIIGVYLPKSDLGIVSLLAILKLGGVYLPIDTNYPLERINYLIKDSGLKLLIYSQANIPNTDICELMSVDSMELQGYNSDNLNTVILPKDLAYVIYTSGSTGLPKGVMVEHQSTINMFLDQIRSFKITEKDNVIWFASVSFDASISEILMTLNSGATFCIPTEDTIKDKNQFVTFLKKTNVSVVTFPPSYLELLSQDDVSGLRCIITAGESANSAKSLSITALGIDYYNAYGPTECTVCVSIYKVTENDFGRSTIPIGRPIANTQFYILDEELQPLPIGVSGKIYVAGSGLARGYLNKPELTNDKFVINPFIKGALMYDTGDLGSWLPDGNVEFLGREDQQVKLHGFRIEPGEIENTILKYSDDIKQVVVAVKEYNEEKALVAYLVADTIVDKSAVRHFLKNRLPEYMVPGFYITLKKLPLTPNGKIDKKSLPGVTADAVIRRQYKVPNNKLEADLVEIWQEVLGIDQVGITDDFFELGGQSLIVGQVINKINQRLGKIVSFKTFFLHPTIEKISGQLSNKGYQEIPKVPEVPSYPLTPSQNRLWIVSQIEEGSLAYNMPGTVHFKGNIDHNKLEESFKRLIHRHEILRTYFKTNQEGEVKQFILSAKDVNFSISKEDYSLLNNQDEAVSYYLLNENSVAFNLECAPLIRASLITLDDKNHLFFLSLHHIIGDGWTIKLIIAEIIKIYNALTQGNEITLPELKIQYKDYAFWINEELKQEKYKISENYWLNQFPEEIPILDLPGLKTRPLVKTYNGNTIKHTFRKNFLEKIKEFSINRDLTLFMTLISGVNALLYRYTGQEDIIVGSPIAGREHPDLENQLGLYLNTVAIRTRLNEKINFSDLTVAQKETLLSAYDHQNYPFDILVSKLNLKRDASRSPLFDILVVLQNQEQLKNINVEEFLEVEVSDFDFNYKTAQFDISFRFIETDRLALEIEYNTDLYDSYLIGKIFTHFENLLIKLIEQPLLSITDIDYLSDNEKQQLFEFNDTDIVYPKDKTVINLFEEQVLKTPNNIAVIFEDIKLTYHELNEQSNQLASYLIDNYSIKSNDLVGIKLERSERMIVAVFGILKAGGAYVPIDVTYSQDRIDYIVKDADLKLCIDESEFNKFRSNQKSYTRGSVQLSALSHLAYCIYTSGSTGKPKGVLNHHAGLYNRLLWMKSYLKVNETEVFLQKTPYTFDVSVWELILPFITGSSLVIAKPEGHKDVLYLQNIIDKEQVTIIHFVPSMLGSFLENVEIDKANSLSHIVCSGEELTLNLVQQCKEKFSAAQLHNLYGPTEAAIDVTAIDLSNVDVTKNGVSIGKPIANTKIYIVSNSLQLQPLGIPGELLISGIQVAKGYLNLPELTQNRFIDDPFREGYQVYRTGDIAQWQSDGSIQYLGRMDNQVKIRGNRIELGEVENAIINYGDIQQVVVMAKEINSEKVLAAYIISDKTLDKTALRNFLQDLLPDYMVPGFYILLSHFPLTSSGKIDRKALPEISSEDIVRKTYVAPGTTLEKRLVLIWQDVLGLDKIGITDNFFELGGHSLMVSQVVNRIHKQLGKTLSFKTFFTNPTVEGISIQLIEDQYTPIAQTEENISYPLSPSQSRLWVLSQLEGGSLAYNMPAAVKLTGIIDVVKFEESFRILIDRHEILRTYFKINEQDEVRQYISGTEDIEFIIEQKDFSLVKNQNHKIENYLKEEIKKPFNLEDFPLIRASLIKLEEKQYIFFLSLHHIIGDGWSIEIIISEIVKIYNALSKGQEINLPVLDIQYKDYVIWLADELKQEKYQLSEQYWLKEFQGELPVLDLPSFKTRPFIQTYNGNQITHQFPASFLETLRAFSNQYDVTLFMTLMAGINALLHRYTDQHDIIVGTPIAGREHPDLENQVGLYLNTLAIRTQLEEQASFLDLLEIQKVKLLNAYDHQNYPFDTLVNKLNLKRDTSRSALFDVLVVLQNQEQLRNINTEELSDINISDYEFKSETSQLDISFTFKENKALGLTIEYNTDIYDRYLIERIFVHFENLLTRLIHNPKKHIQEVDYLTVDEKQNLLVGFNRTVVAYPRHKTIVDLFEEQVQKTPDNIAVVFEKTELKYEKLNEISNQLAHYLRANFEITSDNLIGIKLDRSERMIIAILGILKAGAAYVPIDINYPQERIDYIEKDSNCKVVIDEIIFDEFEKIKENYSKTDIGKINQPHDLAYVIYTSGTTGNPKGVMVEHSSVVSICENWRIHYGLHQIEVNLLQLASISFDVFVGDICRSILTGGKMIICSNDIKLNPEHLYELMQEKKISILEGTPSLLLPLMEFISSENKDYSFFKILIFGSDSFNNQDYNALKDKFGSTIKIINSYGVTEATIDSTYYDDYKKDLVGFTPIGKPFSNTKIIILDSFGNLVPSGVYGEVYIGGDGLARGYFNNQDLTTQKFINNPFEGTERLYKTGDVGRWFPDGNIDFIGRKDNQVKIRGYRIELGEIENALQQKKDIDTCIVLAKSNDSVEKYLVGYIVSKKEQKVSDLIDHLQNILPNYMIPSYFVQIDALPLTPNGKIDRNALPSPKDSRISSGTEYIAPRTDLEQEIVIIWQQVLGIEKIGIKDNFFELGGHSLTVTKLLSNINRQFEVKITFKEIFSNPTLEDQAKIILQAKKLSYQKITKAQEQSSYPLSSSQRRLWLLSQFEGGNTAYNMPSVFEITGDFTVAYLENAFNDLIERHESLRTVFKDNEDGVKQIVLNANEFNFQLQYEDVSTTENPLENLNTIIQEETAYTFDLSSDLLIRSKIIKTSPEKYTLICVIHHIISDGWSLEVMINELFALYDANRKGEQNVLPQLELQYKDYAVWQQNELKSEAINTHKSYWLEKFKTEASVLNLPTHQVRPAVKTYEGSSLSKSYDKELFQNFNKLCLSQGATLFMGLLAAVKTLIYKYTDQVDIIIGSPIAGRENEELQNQIGLFANTLALRTQFDAEGNFKELLANVKEVTLGGYEHQIYPFDEIVEQLPLKRDLSRNPLFDVMVALQNTDNVKANLNELGGFVIKEYKTAVNEISKFDLEFIFEQTSNSIDLVLIYNKDLYTSEFGSNVLNHFEVLLESIVSAPERSLSLLDYLKEEELEELLVNFNNTKAVYPKSETFLDLFEIQAKKLPQKEALRDDNISYSYEELDQVSNRIAEYLNNNYREGNQSPIAVLLDRSAIMVAILLGILKSGRAYIPLDPNFPKDRLSYITSNSQVDMIICESNYNLEESEEIMVLTLKTIIDGIVGFKGADSRKISPEDTAYIIYTSGSTGNPKGVEIGHKSLLNFLTSIQNKPGVNVTDVLFSVTTYSFDISILEFFVPLISGATVYIADNEVLQDSNLIIKRLQDVKPTIIQATPSFYQMLFDADWYGDSNLKILCGGDLLSETLAEKMLRSCLEVWNMYGPTETTIWSGIKRILHKRDASNIGKPINNTDFYILDQFLRPKPIGVVGAIYIGGDGLAKGYYQNQELTQAKFIKNPYTHDGLMYETGDVGKWNNKGEIEFLGRNDNQVKIRGYRIELGEIENALLKITEIDEAVVMAKTDTNDNQVLVSYLVSSLDLNGLNVKSRLKEFLPDYMIPAFYVQLENMPLTPNGKIDRGALPSPQNMELISSVEYLPARNETEAKLIEIWMEVLGIQKVGVKDNFFELGGNSLNATRLIGLILKQFELKITITDLFKNSVLEEQARIIENIGLSTVAGFNKYDDEEDVEVFSI				NA	NA	NA	NA	NA
BMS003_03766	1464			hypothetical protein	ATGGCAGGAGCAAAGAGATACAGCAACGAAACAGGAAGCGTTAATTTTAGATTGAAAGAACCTACAAAAGAAATCTCTCGAATAATGGGTAGATATTCGTTCAAAGATTTAAAAGTCGATTTTTCAACAGGTCTAAAGGTTGCTCCGAGCAATTGGGATACTGATTCTAAAACTGTCACATCTGGCGGAAATAAAAGAGAAATCAATCAGAAACTTGCTAAATTCAAAACGTCTATTGTTGATGCCCATAAAAATTTCAATGAGCATTATAACCGTATGCCAACAAAGGATGAACTAAAAACCATTGTAGATAACGCAATGGCAGGAAAACAACTTGCTACTGTACAGAGAAGCAAAAAATCTTTTGATGATGTGTTCCAGGAGTTTATGCGGTTGAACGAATTGAGAAACAGCCGTGCCGAATCATCAGGACAGAAAGCTCAGCACAAAACCTATATTTCATCTTTCAATGTGATGTATCGGGATTTAAAAGATTTTGCTAGTGATAACAATATTTTTTTGGATATTGACAAATTTGACGAGGTGCAGTGTTTGGAGTTCCAGAACTGGTTATTTGATACGGAAAGAGTAAAATCCCTAAACACGCTTAAAACCCGAATCAAAAGATTATCACAAGTGCAGAAACGTGCTTTTGAAAAAGGTTATACGGACAACAGAAGTTATTTGCAGGATGAATACAGCGTTAAAGTGCCTCCGAGTTTCCACACGGTACTGACTGAACCTGAGATTAAAATACTGTATGAACATGATTTTTCCGATGCTCCGAGATTAGAGCGAGTTCGCGACTTGTTTGTTCTTGCCTGTCATACTTCGCTTAGATTCGGCGATATTACACGTATTGAGAGCGGACATATTGACCACAGCAGTAAAAAGATGAATATCTTATTGAAGAAAAGTTCAGGTGTAGATAAATATAAAACAGTAAGTTTTCCGTTTTTTGGATTTACGGAAGAGATTTTAAATAAATATAATAATGATATTCAGAGTATTACCATATCCAACCAAAATACCAATGAGTACCTGAAAGAACTGTTTAAGGCTGTGCCGTATTTCAATGAGAAGGTAGTCACCCGTGAACGTCCCACGACTGATGGAGTAGTGTTAGAAAAAATCAATTTTGCGGACAAAATAGCATTTCACGATTCACGTAGGAGCTTCTGTACTAACCGATATATAGAAGGTTGGGATTTACTGGAAATATGGCAATACACAGGACATACGGACGAATCTGTTTTCAAAACCTACTTCAAACCGACCTTTGAACACGAACAGATAAGACAGGAGAGCATCAAAGCAAGAAACGAAAAGCTTCAAAAGGTTGATTTACAGACTAAAGAGATTGAGGAATTGAAAGCGCATATACAGAAAATGCAAGAACTTATTGAGAGTGGAAGCACTGAGCAGCTGGCTGAAATCATTAATATTAACAAAAATGTTTCTTAA	MAGAKRYSNETGSVNFRLKEPTKEISRIMGRYSFKDLKVDFSTGLKVAPSNWDTDSKTVTSGGNKREINQKLAKFKTSIVDAHKNFNEHYNRMPTKDELKTIVDNAMAGKQLATVQRSKKSFDDVFQEFMRLNELRNSRAESSGQKAQHKTYISSFNVMYRDLKDFASDNNIFLDIDKFDEVQCLEFQNWLFDTERVKSLNTLKTRIKRLSQVQKRAFEKGYTDNRSYLQDEYSVKVPPSFHTVLTEPEIKILYEHDFSDAPRLERVRDLFVLACHTSLRFGDITRIESGHIDHSSKKMNILLKKSSGVDKYKTVSFPFFGFTEEILNKYNNDIQSITISNQNTNEYLKELFKAVPYFNEKVVTRERPTTDGVVLEKINFADKIAFHDSRRSFCTNRYIEGWDLLEIWQYTGHTDESVFKTYFKPTFEHEQIRQESIKARNEKLQKVDLQTKEIEELKAHIQKMQELIESGSTEQLAEIININKNVS				NA	NA	NA	NA	NA
BMS003_03767	501			hypothetical protein	ATGCTGAATCTACCTACTGAAAGCGAGTGCGCTGAACGCCTTAAAGAGCTTGTTTTAGAGCGTGGATTGAGGTGTGAATGCAATGACACAAGAGGTTTCTATTGGTTGCGAAAAAAAGCCTGTTTTGAATGTAAAAACAGAGGTTGTAAAGCAACATTATATCTGAAAGGATTAACCAGAATGAGAGGGAGTAAGCTCCCTTTTCGTATTTGGTTAGGTGCTATATATCTGTATGTGATTGACCAAAACGTAACTGCTACTAAAATGCAGGAAAAGTTAGGTCATGGTACATACAGCTCAATGTGGGAGTTGTTAGAAAAAATCAAGCTACTGGACGCTGAAATGCCTGAACTTCAAGAAAGGTACAAGCGTGAAAAAGATACTAATTTGATTCCTAACCATTTATCGGAATTGTCATGGCTCGGTTTCATGGAGTTATTTATTATTCGTGAACCTGCGGATGTGCAGGATAGAATCTGGAATTGGTTAATCGGTTTTTAG	MLNLPTESECAERLKELVLERGLRCECNDTRGFYWLRKKACFECKNRGCKATLYLKGLTRMRGSKLPFRIWLGAIYLYVIDQNVTATKMQEKLGHGTYSSMWELLEKIKLLDAEMPELQERYKREKDTNLIPNHLSELSWLGFMELFIIREPADVQDRIWNWLIGF				NA	NA	NA	NA	NA
BMS003_03768	264			hypothetical protein	ATGGAGTTTTTTAAAGAGTTTTTTAAAACAATTGAGGATTTAATTGATGATAAATTAAATCAATTTGAATGTAAGCTGGCAGAAATGTATAAGCCAGAGGGTAAAGAGTTAATGACAAGAGATGAAACAGCGGAGTATTTCGGAGTTTCGCTCGGAACATTAAACAATTGGGCAAAAAGCGGGGTTTTAGTTCCTATCTATTTCGGTGGTAGAGTTTACTATACCCGCAATGAAATTCAAGCAAAATTAGGATTGGCTTCTTAA	MEFFKEFFKTIEDLIDDKLNQFECKLAEMYKPEGKELMTRDETAEYFGVSLGTLNNWAKSGVLVPIYFGGRVYYTRNEIQAKLGLAS				NA	NA	NA	NA	NA
BMS003_03769	1491			hypothetical protein	ATGAAACAATACAAAAGCAAAAAATCAAATCGTACCATCAACGCATCAGCCTTTTATCATGAAGGCTATCAATGGAAAGTAGTATTACCTACAATCATTGTTAACTACCTTCAGGAAAAAGTTCGGGAACAACAACCGTTCAAAGAGTTCAAAATGGATAATGCCCTGTACTTCCTGAGCTTGGTTATCAGTATTCCTGCATATAAGAAAGATAAAACGTATCTCTGGGGGTACATACCTATGGATTCCCAACGATTAAAGAAAAAAGATTCCAATTACAGTAAGTATTTTGAGTATTTTTTACAGATTGGTCTTTTGCAAGGTAAAGGTCACTCAAAAGGTCGTACCTGTAAACGCTATCGGTACAACTATGAAAACATCAATCTGGAAGGTATAGAATGTCTGGATTTTTCAATATTTGAAATGACGGATAAGTTATTGACTAAAAATCTACTGAAAGAAAGTATAGGAAATGACTGTCCGCATCTTTCTAAATGGTTTAATGATGGATTATTTCTTGATTTTGACCGCCTGAATGATGATTTGCAGTCTGAGTTCTGCTACAATAAGTACAGTTTGAGCTACACCAGATTAAATCCTATAATGGCTAAAGCATATAGTTATTGGTACACTGCATTAATGTTTAGAGAGCAATGTTACCGTATCTCTCGCAATCCTGATTCAGATAACAGACTGCATACGAATCTAACCAATATGCCGTCTAAATTCCGCCCGTATCTGACGTATTACGGTGAAAGCATCCAAAGTTTGGATATTAAGAACTCACAACCCTATTTTATGGTTTTGGTATTGGAAAGTTTGGGTAATAGTAGAATTATTGAGATAATGAGTAGAGTGTTTGGAAGAGGTAATATAGGTACTATCCAGCAGAAATTACAACAAATCACGTCCAGTAAGGCGTTTCAAGAGGAATTTGCTCCACTCAAAAAAGCTGTGTTGACAGGCAAATTTTATGAATTTTTAATGCTTCTTTTTCCAGATATTAAACCTGATTATGACGGTGTGTTTAGAAAATCTTTTTATGATTCGGACACTAATAAAGCAGAAGTCGTAGAGTTTGCTACCAAACGAGATATGATGAAAAAACTCACTTTGCAAATACTTTATACTCCGCTCAAAAGACCGTCAAAAGAATATCTGATATTTAAACAGTATTTTCCTTTGCTGTGTGAGTGTATCGAAGTTTTTAAAACGACTTCCAATGAGAAAAATTCATTCAAACTATTTCCAAAGCTTCTGCAACAGGTGGAATCTGATTGTGTGATTGATATCATTACAAAACAAATTGCAGAAACACATCCTGATATGCCACTTTGGACGATACATGATTCTTTCTGTACTACACAAAGTTGGTTTCCTGTTTTAGAATCTATGGTGCAGGAACTGTTTTTAAGCTATTCTCAGGGTGTTTTACCAAGTTTTAAGGCAGAATTATGGTGTAATAGTGATGCGTGCTTGAAAGTGGCTTAA	MKQYKSKKSNRTINASAFYHEGYQWKVVLPTIIVNYLQEKVREQQPFKEFKMDNALYFLSLVISIPAYKKDKTYLWGYIPMDSQRLKKKDSNYSKYFEYFLQIGLLQGKGHSKGRTCKRYRYNYENINLEGIECLDFSIFEMTDKLLTKNLLKESIGNDCPHLSKWFNDGLFLDFDRLNDDLQSEFCYNKYSLSYTRLNPIMAKAYSYWYTALMFREQCYRISRNPDSDNRLHTNLTNMPSKFRPYLTYYGESIQSLDIKNSQPYFMVLVLESLGNSRIIEIMSRVFGRGNIGTIQQKLQQITSSKAFQEEFAPLKKAVLTGKFYEFLMLLFPDIKPDYDGVFRKSFYDSDTNKAEVVEFATKRDMMKKLTLQILYTPLKRPSKEYLIFKQYFPLLCECIEVFKTTSNEKNSFKLFPKLLQQVESDCVIDIITKQIAETHPDMPLWTIHDSFCTTQSWFPVLESMVQELFLSYSQGVLPSFKAELWCNSDACLKVA				NA	NA	NA	NA	NA
BMS003_03770	516			hypothetical protein	ATGGATGTACAAGCGAATCTATTAAAAATTGGGAAATTATATCAGGACATTCTAGAAAAAAATACCATTAATACTCCGACTGGAACCTGTTACCTTTCGGCATATTGTCTAAGCAATTATTTTTCTAAAATTTTAATCCCTTCCACATTAATGGTTGGTGATTTAGCTTTAGTGAATATTAAAGATAAATATGCTGTTTATGGTGATATGAATTTATTGAATAGCAAAGTTGTTGGTAATTATCATGCTTGGTGCGAGATTGAATTTGAAGGAACAAACTATATTGTTGACCCTAGCATCAAGTATAATAAGTTTGCTTTAAAAAAATATTTTAATTTTAAAACTTCTAAAAAAATAGGAGATACAATCGTTTCTCATGAAAAAATAGGATTTAATTGGAAATATAGAAGAAATGATAAATTAATACCGCAATACGAAGTTTTTATCAATAATACTTCTGTTAATTTCAAAGAGAATATTATTGATGAGTTGATAAATAACTATCCTACATTATAA	MDVQANLLKIGKLYQDILEKNTINTPTGTCYLSAYCLSNYFSKILIPSTLMVGDLALVNIKDKYAVYGDMNLLNSKVVGNYHAWCEIEFEGTNYIVDPSIKYNKFALKKYFNFKTSKKIGDTIVSHEKIGFNWKYRRNDKLIPQYEVFINNTSVNFKENIIDELINNYPTL				NA	NA	NA	NA	NA
BMS003_03771	588			hypothetical protein	ATGAAAACAGCATATAACAAAATACCAGTAATTTTAGGATTATTTTTAAGCATTATATCTTGTAAGGCACAACAAACCTATCCATTATTGACTTCTGTAAGCAATGTTCCTAATATGTCTCATTTAAAAGATACTAATAATGAGCTTCAATCTTTTGTAGGTACATATATTTCAACATATAATGGGAATCAAATCACTCTTTTTATTTCTAAGGAAAATGATAAACATTTTATTTTTAATAATAAAAATATTTATCGAGACATTTTATCTATAAAATATATTATAAAAAATCCTTCAGGAGTTGTACTTCAGGATACTAAAAATATGATAATACAACCAGATGATTTATTACATACTATTTATAGTTTGTGGGTTACAGAAAACGGCACTAAAGTAATGTTCAATTATAATGGTACAAATTGTGGTGTAGGTTGGGGTGATATTTCTTTAAAGAAGATAAATACTACACAACTTTCCTGGGAATATCGACCCAATGATATTACAACAACATCTCAAAGTTGCCCTCCTAACTTAGATACAACAATTTATTTACCTGAAACAAAAGATTTAATTTTTACAAAACAGTAA	MKTAYNKIPVILGLFLSIISCKAQQTYPLLTSVSNVPNMSHLKDTNNELQSFVGTYISTYNGNQITLFISKENDKHFIFNNKNIYRDILSIKYIIKNPSGVVLQDTKNMIIQPDDLLHTIYSLWVTENGTKVMFNYNGTNCGVGWGDISLKKINTTQLSWEYRPNDITTTSQSCPPNLDTTIYLPETKDLIFTKQ				NA	NA	NA	NA	NA
BMS003_03772	1605			hypothetical protein	ATGAAAAACAAATTTATTGCGAAGTTACTTTTCTTAGTAACCATTGTGGTCTTGTTATATTCCTGTAGGAATGAACTAACAACAGAACAAGAAACTTACAACAACAGTAGCCAATTCAGGCCAACATCTAAAACAATCCGTTTAGACCAAAGTAAACACAAATTGGCTCTTAAAGCTGAATTGCAAAAAGCTGTCACCAGTCTTCAAAAAGTAAAAACCAATCTTTATGGGAAAGCTGTTGATTATTCCAATGTATTTATTGATACAGAAAATGTAACTTACATTGAAAATGGTCCAAATTTCTATACCTATACCTTTAATCTCATCCATGAGAACGCATCAGAAAATGCACCGATTGAAAATCTGGTCTTAGCTCCCAAGGCAGATGGAACTTATAAAGAAATACTAGTTACATATAATCTCACCACTCAAGAGAAACAGTCTATTCTGAATGGAGAAAATATAAGCACTAAAGGAAAATCCTACATCATGGAACTTAATGGAAACACATTTACTCCTATTGCGTCCAAAAGCCAGAGTTGTTCATGGGTAGAGGCAGATTCTTACACATGGTGCAGTGAAGGAGTACACCATAATGGTGAAGGCTCTGGTACTTGTACTGCGGAGGTTAAATCTCAGTTGGTTAAGGTAATGTTATTGAAATGTGAAAGTATAGATGATGGTTCTGGAAATACAGGTGGCGGTGGCACTGGCGGAGGAACAGGAGACTCTGGTGGCGGTGGCGGAGGTTCGGATACAGGTTCAGGAGGAGGAACGACTACCCCAACAGAACCATGTAACGGTACTGGTATTGCAACAGGACCTTTAGAGCCAAGCACAGATTTAGGCGATGGAAGCACTTGTTCAGGAATACCAACTATACCAACCATTCCTCTGCCAGATAAAACTAGTCCATGTGACAAAACAAAAGTTATGTTAAACAGGCCTAATGTTCAACAGGGCATTGCTAATATAAAATCACAGGCATTACAAACACTGAGTAATATAAATGCGGGCGAAACAGGCTTTAAAGAGAAAAAAGACGGAACAGTAGTTCCCGCAGATGTAAACTCAGCACACCAAGTTGTTTTTAATGATGTGACAGATAGTTATGGTGGCTACCATAATCATACTGCAACAGGAATACACATGTTCTCACCACCAGATATAGCATATTCATTGTTTGGCTTTGCAGCGGCACAAAGTATAAATGATGGAGTAGGAAATGCTTATTTAGGAATGATTGCAGCAGAGCCTTGTAGCACATGTGCTGATGGTGTAAAATATCTACATTATGTGATACGTTATGCAGGAACAGGAACAGAATTAGGAAATTTTGTATATTCACCCGCGCAAATGGCACAATTTAGAAATGAATATTTAACTAAAGTAAAAGAATTAACCAATACTTCTATATCGGGAACTATTTACATCAATAGTGAGGGAGATTTAAACGAAAAAGGATTAGAAAAATTATTATTTGATACTTTAACAAACATGGGATTGGATAATAAAGTTATTCTTCAATATGTTGATACTAACGGAACAGTATATAATGTAACAAAAGATAGCACAGGTACAATCACATCAACACCTTGTCCTTAA	MKNKFIAKLLFLVTIVVLLYSCRNELTTEQETYNNSSQFRPTSKTIRLDQSKHKLALKAELQKAVTSLQKVKTNLYGKAVDYSNVFIDTENVTYIENGPNFYTYTFNLIHENASENAPIENLVLAPKADGTYKEILVTYNLTTQEKQSILNGENISTKGKSYIMELNGNTFTPIASKSQSCSWVEADSYTWCSEGVHHNGEGSGTCTAEVKSQLVKVMLLKCESIDDGSGNTGGGGTGGGTGDSGGGGGGSDTGSGGGTTTPTEPCNGTGIATGPLEPSTDLGDGSTCSGIPTIPTIPLPDKTSPCDKTKVMLNRPNVQQGIANIKSQALQTLSNINAGETGFKEKKDGTVVPADVNSAHQVVFNDVTDSYGGYHNHTATGIHMFSPPDIAYSLFGFAAAQSINDGVGNAYLGMIAAEPCSTCADGVKYLHYVIRYAGTGTELGNFVYSPAQMAQFRNEYLTKVKELTNTSISGTIYINSEGDLNEKGLEKLLFDTLTNMGLDNKVILQYVDTNGTVYNVTKDSTGTITSTPCP				NA	NA	NA	NA	NA
BMS003_03773	468			hypothetical protein	ATGAAGAAACTTTCTTTCAAAGTTATAACGATAGCATTATCACTAAGCGTGCTATCATTAGTAACCGTAAACTGTTCTAACAGTAACGATGATGATAACACCACACCAAACAATCAGCAAACACCTGCAACAACTCAATATTTTAATCCCCCTGCATGGATTCAGGGAACATGGAAATACGCACCATTTGGAACGCCTATGGACTCCCCGTTAACACTAAAGTTTACTGATTCTGATATTATCTCGATTAGTTCAGGCGGAACACAGACCAGCTGGACTGAAAAAATCAAAGTATCGCCTAATGGAGGGAGTGTTGACGAAGTGACTACAAACACAGAATACAATGTTACCATCAAATACAACGGTACAGGGGTTACAGACTATTACGAGTTCAAAAAGATTTCTAACAACGAGATTCAGTACAGGCAGGCTCCCGTCCTGAACTGGACGAGTTTGGTCAAAGAGTAA	MKKLSFKVITIALSLSVLSLVTVNCSNSNDDDNTTPNNQQTPATTQYFNPPAWIQGTWKYAPFGTPMDSPLTLKFTDSDIISISSGGTQTSWTEKIKVSPNGGSVDEVTTNTEYNVTIKYNGTGVTDYYEFKKISNNEIQYRQAPVLNWTSLVKE				NA	NA	NA	NA	NA
BMS003_03774	360			hypothetical protein	ATGAAAAAGATTTTACTAGGTCTGGCAGTAACCCTGACATTACAACTATCTGCACAAACAAAAACATTCAGTTACAATATGGTTCAGATTGTCAAAAACATGAACGTAACTGAACTAGCCACACGGAAAACAAAGATTGTCGTGAACAAAACTAAAAACACAATCAGTGTAATAGATTCTGAGTTCCCCACTCCCTACGTCTTCAAGATTGATAGCTATTGCGATATTACTACTCCGTCTATCAACTGCATGATACGGGACAGACAAAACAAACTCAACTTTTTCTCCTACAACAAAAACAGATTAGAGATTATGAATCTCGCAGGAGACGGAACAAGATACATTAATATAAAACCATGA	MKKILLGLAVTLTLQLSAQTKTFSYNMVQIVKNMNVTELATRKTKIVVNKTKNTISVIDSEFPTPYVFKIDSYCDITTPSINCMIRDRQNKLNFFSYNKNRLEIMNLAGDGTRYINIKP				NA	NA	NA	NA	NA
BMS003_03775	456			hypothetical protein	ATGAAAAAGATTCCGCTAGTCCCCGCACTGCTACTATCCACAGCACTATTCGTGTTGTCATGTGAAAAATCCAAATCAACCAGAGAACCCGACCCTTACATTGATTCTATTCAGGCACGCATGAAAGCCAATGAAAAGATTCAGTTTGAAGAGATTGACAGAAAACTCGAAGCACACGCCAAAGCCCAGAAACAATATGTATTTGTTCGGTTACTTGTCGAGGAAGATTACGGTATGAACACTAGACTAGCCAACTTCGTATCTGGAATCCAAGATATAACCCAAGATTTGAACGAAGATGAAAAAGCACAATTGGAAGACCTGATAATCTCTAAATACTTAAATTCTTCTGGAGGACAATTAGGCAATGGTAGGATTAAGAAAAAAGAAATCTTTGTTTTTGGCAGTTATGCAGAAGCAAGCGAAAAGAGAAACAGTTTTTTAATCACCGAATAA	MKKIPLVPALLLSTALFVLSCEKSKSTREPDPYIDSIQARMKANEKIQFEEIDRKLEAHAKAQKQYVFVRLLVEEDYGMNTRLANFVSGIQDITQDLNEDEKAQLEDLIISKYLNSSGGQLGNGRIKKKEIFVFGSYAEASEKRNSFLITE				NA	NA	NA	NA	NA
BMS003_03776	2211			hypothetical protein	ATGATAAAAATAATTGACATAAAAAATGTAGCTACATATGACAATCAAGGCGTGCAATTTGACGACTTGAAAAAAGTCAATTTCATTTATGGTGCAAATGGTTGCGGTAAGACAACAATCTCAAACTTCATTTACGACAACTCAGATCCTAAATTCAATAGTTGTTCTTTGACTTGGCAAAACGCTTTGCCATTAAAAGTTTTGGTTTATAATAAAGAGTTTAGAGAACGAAATTTTGGAAAAGGTAAATTAAACGGAGTTTTTACACTTGGAGAAGCGACAGCTGAACAAATAAAAATAATTGAACAAAAAACCGAAGAACTTAAAGCCATTAAAGCAGAAGGAGTTAAAAAGCACGAAACACTTGACAAACTTACTGCTGATAAAAGCAAATTAGAAAACGATTTTAAAGAAACTACTTGGACAAAAGTTTACAAGAAATACGAAACTGCTTTCAAAGAAGCATTTCAAGGTTCAATGCAAAAAGAAACATTTAAAAGTAAACTTTTACAAGAGTTTTCAAGTAACATAGCGGAATTAGAAACCCTTGAAAACCTACAAGAAAAAGCCGAAACAATATTTGGCAAGCAACCTGAAAGAATTGAACCGATAGGCCAAATTTCATTTGAAAGAGTTTTAGAAATTGAAACAAATGAGATTTGGAGAAAGATCATTGTTGGAAAAGCTGATGTTGATATTGCGAAATTAATTCAAAGACTGAACATCAATGATTGGGTAAATCAAGGTAAAGAATATATTGAAGATAAAACTTGTCCGTTTTGCCAACAAGAAACAATAACAGATGACTTTAAAAAACAAATTGAAAGTTTTTTTGATGAAACGTATTTAAGGGACATCAAGCAACTCAAAGAATTAAAACAGGAATACAACAATTTAACTCAAAACATCATTAACCAATTAAACGGTATTGAAACTAATCAAAAATCTTTCAGCAACACAAAACTTGACGTTGACAAGTTTTCAGCTTATTTGAAAACTTTGATAAGCCAGAACGCAACAAATAATGAATTCCTAAGTAATAAAGTCAAAGAGCCAAGCAGAAGTATTGAGTTAATTTCAATAAAAGAGCAAGCAGAATTAGTTTTGGATTTAATCAATCTAGCTAATTCTGAAATTAAAAAGCATAACGATATTGTTACAAATTATGCAACTGAAAAAAGTAATCTAATCAAAGTGATTTGGAAATATTTAGTTGAAGAATATAAAACTGAAATTTCTCAATTCAATACTCAAAAGAATGGATTAGAAACAGGCATAACAAATATAGAAATTCAATACAAAGCAAAAATTACTGAATACAAAACTTTAGACGCAGAAATCAAAAATCTAAACAAAAACGTTACAAGTATTCAACCAACAATTGATGAAATAAACAGAATACTGAAATCCTATGGATTTTTGAATTTTGAAATTGTTCCTGCACAAGAAGAAGGTTTTTATCAAATCCAACGTGAAGACGGAACAATTGCAGAAACGACATTAAGCGAAGGCGAAATTACATTCATTACTTTTTTGTATTACCTACAATTGACAAAAGGCGGTATCTCAGAAGATGAAGTAAGCAACGAAAGAGTTTTAATAATTGACGACCCAATTTCCAGCTTAGATAGTAACGTTTTGTTCGTTGTAAGCACACTTATCAAAGACATAATCAAAGGCATAAAGGAGGACAAAGGAAATATTAGGCAATTAATTTTGCTAACTCACAATGTTTACTTTCACAAAGAAGTTTCTTTCATTGACGGGCGAACAAAAACTTGTAACAAGACAAACTTTTGGATTTTAAGGAAAAACGACAAGGTTACAACTTTGCAGAGTTTCAAAATCGAAAATCCAATTCAATCATCATACGAACTTTTATGGCAAGAATTGAAAAGCGAAGAAGTAAAATCAACACTGACAGTCCAAAACATAATGCGAAGAATAATTGAAAATTATTTTAAGCTACTTGGTAAGTATGGTGACGATGATTTAATTCTCAAATTTGCGACAAAAGAAGAACAGGAAATTTGTCGTTCTTTAATTTCGTGGATAAATGATGGTTCACATAGCATAAATGACGACTTATACATTGAACTTCAAGACAGGACAGTTGAAGCTTATAAAAAGGTTTTCAAAGACATATTCATTTTGACTAAGCACGAAGGACATTACAATATGATGATGAATTTAAAAGAAGAAACGGTATGA	MIKIIDIKNVATYDNQGVQFDDLKKVNFIYGANGCGKTTISNFIYDNSDPKFNSCSLTWQNALPLKVLVYNKEFRERNFGKGKLNGVFTLGEATAEQIKIIEQKTEELKAIKAEGVKKHETLDKLTADKSKLENDFKETTWTKVYKKYETAFKEAFQGSMQKETFKSKLLQEFSSNIAELETLENLQEKAETIFGKQPERIEPIGQISFERVLEIETNEIWRKIIVGKADVDIAKLIQRLNINDWVNQGKEYIEDKTCPFCQQETITDDFKKQIESFFDETYLRDIKQLKELKQEYNNLTQNIINQLNGIETNQKSFSNTKLDVDKFSAYLKTLISQNATNNEFLSNKVKEPSRSIELISIKEQAELVLDLINLANSEIKKHNDIVTNYATEKSNLIKVIWKYLVEEYKTEISQFNTQKNGLETGITNIEIQYKAKITEYKTLDAEIKNLNKNVTSIQPTIDEINRILKSYGFLNFEIVPAQEEGFYQIQREDGTIAETTLSEGEITFITFLYYLQLTKGGISEDEVSNERVLIIDDPISSLDSNVLFVVSTLIKDIIKGIKEDKGNIRQLILLTHNVYFHKEVSFIDGRTKTCNKTNFWILRKNDKVTTLQSFKIENPIQSSYELLWQELKSEEVKSTLTVQNIMRRIIENYFKLLGKYGDDDLILKFATKEEQEICRSLISWINDGSHSINDDLYIELQDRTVEAYKKVFKDIFILTKHEGHYNMMMNLKEETV				NA	NA	NA	NA	NA
BMS003_03777	531			hypothetical protein	ATGACAAAGTTACACAATTGTCTGGATACAGCAAGTATCTATGTTTCTACGTATGCGAAGTACAACAACTGCTCATTATTTGGTAAATGGCTAAATCTTTCGGATTATTCCGATTTTGAAGAATTACAACAGGCAATGTATGAGTTGCATTCTGATGAATCCGACCCTGAATTTATGTTAAGCGATTATGAGGGTTGCGAACTATTTGAAAAACTAGGATTGATAGGAGAAATTTTTTTATCTCCCGAAATTTACGAGATTGCAGAGAAAATAAATGAATCAGAATATGAATCAGAAATTTTTGAAGCTTGTATTGACTGTTTAGGCAAAATGGATTTTCAAAGCCTGTACGAATATGTAAACAATTTCTATTACGGTGAATTTGCAAACGATATTGAGTTTGTGGAATATCTATACGAAGATGATATACCGTTCAATCTGCCTAGCTTTGTTGTAATTGATTGGGAAGCCACGGCACGTAATATAATGTATGATTATTTTGAGTGCAACGGTCATTATTTCCGTAGTTAA	MTKLHNCLDTASIYVSTYAKYNNCSLFGKWLNLSDYSDFEELQQAMYELHSDESDPEFMLSDYEGCELFEKLGLIGEIFLSPEIYEIAEKINESEYESEIFEACIDCLGKMDFQSLYEYVNNFYYGEFANDIEFVEYLYEDDIPFNLPSFVVIDWEATARNIMYDYFECNGHYFRS				NA	NA	NA	NA	NA
BMS003_03779	393	arfB	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGAAAGACTTTTCAAAAGAACTCAGCTTCAAAACTTCTCGCAGCGGCGGCGCAGGAGGACAGAATGTTAATAAAGTGGAGACGGCTGTTACCGTACTTTGGAAAGTAGATGCTTCAGAATTTTTTAATGAAGATGAAAAAATCTTAATTCAGCATAAACTGAAAAACAGAATCAATGCAGATGGCTTTTTATTCCTCTCAGTTTCTGAAAGCAGAACACAACTGATGAATAAAAATAAAGCGATTGAAAAAATAACTGAAATCGTCAATAAAGCCCTCATTGTTCCCAAAAAGAGAACTGCCACAAAACCCTCAAAAGGACAGAAACAAAAAAGACTGGATAATAAGAAGAAACTTTCAGACAAGAAAGAAAACAGACGTTTCAGGTTTTGA	MKDFSKELSFKTSRSGGAGGQNVNKVETAVTVLWKVDASEFFNEDEKILIQHKLKNRINADGFLFLSVSESRTQLMNKNKAIEKITEIVNKALIVPKKRTATKPSKGQKQKRLDNKKKLSDKKENRRFRF				NA	NA	NA	NA	NA
BMS003_03780	381	rnk		Regulator of nucleoside diphosphate kinase	ATGTCCAATCAAATTATTGTAACCACCGGAATTTATGATGCTATAAAAGATACACTCAGAAGAAAAAAAGTGAGCATCAGAGAAGAAAAAAGACTTACTGAAGAACTTAGAAAAGCAAAACAAGTGCTGAGAAGAGATCTTCCTGCAGATATTGTAACGGTAGACAGAAAAGTAACGTTAAAAGATCATACATTAAATGTTGAACACGAATATATTTTTGTCCCGTCTACCAAAGCAAAGCTTAAGAAGAATAAACATTCCATTCTGTCGGATATTGCTCTTGCGGTAGTAGGATACAAAGTAGGAGATATTATAGATTGGCCTTTCAGAGAAGGAGAAAGGAAAATTGAGATTTTAAAAGTGGAAGCCTGGGAAGGATAA	MSNQIIVTTGIYDAIKDTLRRKKVSIREEKRLTEELRKAKQVLRRDLPADIVTVDRKVTLKDHTLNVEHEYIFVPSTKAKLKKNKHSILSDIALAVVGYKVGDIIDWPFREGERKIEILKVEAWEG				NA	NA	NA	NA	NA
BMS003_03781	1104			Deoxyhypusine synthase-like protein	GTGCCTTGCGTTTTCCAACAACTTATACCTTTCCATTTAACAAATGATAAAAAAATAAACCTCAATCACACTTTCTTCAAGCGCTTTGACTACATTCCGTTTTTAAGTTTTATCTTTGCAAAAATTTTAAAAATGAGCAAACCGATAACTGAGTTCATAGAAAAGTATTACCTGCACTTCAACGCAGCTGCATTGGTGGATGCTTCTAAAGGATATGTTGCACATCTTAAAGATGGCGGAAAAATGATGATTACTTTGGCAGGAGCAATGTCTACTGCTGAATTAGGGAAGATTCTTGCTGAAATGATCCGTCAGGGAAAAGTAGATTTTATCTCTTGTACAGGGGCTAACCTTGAAGAAGATTTAATGAACCTTGTGGCACACTCTCACTATGAAAGAGTTCCTCATTATAGAGATTTAACAGCTCAGGATGAGTGGGATCTTTTGGAAAGAGGTCTGAACAGAGTTACAGATACCTGTATCCCTGAAGAAGAAGCTTTCAGAAGATTACAAAAACATATCGTAGAGATCTGGAAAGACGCAGAAGCTAAAGGAGAAAGATATTTCCCTCACGAATTTATGTACAAAATGATCCTTTCAGGAGTATTGGAGCAATACTATGAAATTCCAAGAGAAAACTCATGGATGATTGCTGCTGCGGAAGCCAACTTGCCAATCGTAGTACCAGGATGGGAAGATTCTACAATGGGTAACATTTTTGCTTCTTACTGCATCAAAGGAGAGCTTAAAGCTACTACAATGAAATCAGGTATCGAATATATGACTTACCTTGCTGACTGGTATACTAAAAACTCAGGAGGAAAAGGAGTTGGGTTCTTCCAGATTGGTGGAGGTATCGCAGGAGATTTCCCTATCTGTGTCGTTCCAATGCTGTATCAGGATATGGAAATGCATGACATTCCTTTCTGGTCTTATTTCTGCCAGATTTCTGATTCTACAACATCTTACGGTTCATATTCAGGAGCAGTTCCGAATGAGAAAATCACTTGGGGTAAACTTGATATTACAACACCGAAATTCATCGTTGAAAGTGATGCTACTATCTGTGCACCATTGATGTTCTCTTATATCTTGGAAAACTAA	MPCVFQQLIPFHLTNDKKINLNHTFFKRFDYIPFLSFIFAKILKMSKPITEFIEKYYLHFNAAALVDASKGYVAHLKDGGKMMITLAGAMSTAELGKILAEMIRQGKVDFISCTGANLEEDLMNLVAHSHYERVPHYRDLTAQDEWDLLERGLNRVTDTCIPEEEAFRRLQKHIVEIWKDAEAKGERYFPHEFMYKMILSGVLEQYYEIPRENSWMIAAAEANLPIVVPGWEDSTMGNIFASYCIKGELKATTMKSGIEYMTYLADWYTKNSGGKGVGFFQIGGGIAGDFPICVVPMLYQDMEMHDIPFWSYFCQISDSTTSYGSYSGAVPNEKITWGKLDITTPKFIVESDATICAPLMFSYILEN				NA	NA	NA	NA	NA
BMS003_03782	297			DNA base-flipping protein	ATGGATGAAATTTTTAAACAACAGATATACGAAGTGGCAAGACTTATTCCCAAAGGAAGAGTGTCTACTTATGGTGCTATAGCAAAAGCTGTTGGCTATCCTAATCATTCCAGACATGTAGGAAAAGCAATGGGAGGTTGCCCGAAAGATGTTCCTGCACACCGTGTCATTTCCAGTTCGGGAGTATTGTCTGTTCCGGAATTTCAGCCCAAATTGGAAGCAGAAGGAATTACTATAGAAAATCTTAGAATAAAAAACTTCAAAAAACTGTTCTGGGATCCGTTAGAGGAATTGTAA	MDEIFKQQIYEVARLIPKGRVSTYGAIAKAVGYPNHSRHVGKAMGGCPKDVPAHRVISSSGVLSVPEFQPKLEAEGITIENLRIKNFKKLFWDPLEEL				NA	NA	NA	NA	NA
BMS003_03783	393			hypothetical protein	ATGCAAAAAGAAAAGTTACGTACCATCAGAAAGCAAAAAGGCTATACTCAACAGCAGGTAGCTGATTTTATCGCAACAGATGTATCTAATTACAGCAGAAAAGAAAGCGGTGATGTAAGAATCGTAAGAGATGAATGGGACAAGCTTGCCCGTTTCTTTAATGTACCGTTTGAGGACATTTATGAAGAGGAGGAAGCTACTGTAGTTGTTAATAATGACCATCCTGTATTTAATGACAGATCCACTTCTGCTGGAGTAATTACTAACCAGAATAATTATGATAATATTCCGGGAGATATCATTAAAAACCTTCAAAACTATATTGCTCTATTAAAAGAGGAGAACGAAAAGCTGAAAGAAGAACTAAAGAGTCTCCCAAGAGGAAGAAAATAA	MQKEKLRTIRKQKGYTQQQVADFIATDVSNYSRKESGDVRIVRDEWDKLARFFNVPFEDIYEEEEATVVVNNDHPVFNDRSTSAGVITNQNNYDNIPGDIIKNLQNYIALLKEENEKLKEELKSLPRGRK				NA	NA	NA	NA	NA
BMS003_03784	1896	htpG	COG0326	Chaperone protein HtpG	ATGATGACTAAAGGAAATATTAATGTATCTGTGGAAAACATTTTTCCGCTTATTAAAAAATTTCTTTACAGTGACCACGAAATATTCTTAAGAGAATTGATTTCCAACGCCACTGATGCAACATTAAAATTAAAACATTTAACAAGCATTGGCGAAGCAAAAGTGGAGTATGGAAATCCAAAACTTGAAGTTAAAATCGACAAAGACCAGAAAACTTTACGCATCATAGACCAAGGGATTGGGATGACGGGTGAAGAAGTTGAAAAATACATCAACCAGGTTGCTTTCTCAGGAGCGGAAGAGTTTTTGGAAAAATATAAAGATTCTGCAAAAGACTCAGGGATTATCGGGCATTTTGGTCTTGGATTCTACTCTGCGTTTATGGTGGCAGAAAAGGTAGAGATTCTTACAAAGTCTTACAAAGATGAGCCGGCAGTACGTTGGATCTGTGACGGCAGCCCGGAATTCACTCTTGAAGAAACTACTGATAAAACTGACAGAGGAACGGAAATTATCCTTCATATTGCTGAAGATTCTGTAGAATTTTTAGAAGAAGGAAAAATCCGTGAACTGTTATTAAAGTATAACAAATTCATGCCTGTTCCCATAAAATTCGGAACAAAAACACATACACTTCCTTTACCGGAAGGAGCTCCTGAGGACGCTGTAGCTGAAACGGAAGAGGTAGATAATATCATCAACAATCCGGTACCGGCATGGACAATTGCTCCAAGTGAACTTACCAATGAGGACTATATGAAGTTCTACCACGAGCTGTATCCGATGCAGTTTGAAGAACCATTATTCAACATCCATCTGAATGTTGATTATCCTTTCAACCTTACCGGAATCCTATTTTTCCCTAAGCTGAGCAATAATTTAAATATTGACAAAGACAAAATTCAATTATACCAAAACCAGGTATTCGTAACTGATGAAGTAAAAGGAATTGTTCCGGACTTCCTGATGCTTCTGAGAGGGGTAATTGATTCTCCGGATATCCCGTTGAACGTATCCCGTTCTTATCTTCAGGCAGACGGTGCTGTAAAGAAAATTTCTTCTTACATTACGAAAAAAGTTGCCGATAAAATGGCTTCTCTGATCAACGAAAACCGTGAAGATTATGAACAAAAGTGGAATGACATCAAAGTAGTTATTGAGTACGGAATCATTACCGAAGAAAAATTTGCTGAAAAAGCTGATAAATTCACTCTATATCCTACAACAGACGGTAAATATTTCCTTTGGGATGAATTGGTAGAGAAAATCAAGCCAATACAGACTGATAAGGACAACAAACTGATTGTACTGTATGCTACCAATGCGGATGAACAGCACAGCTATATTCAGTCTGCAAAGGATAAAGGATATGAAGTTCTGTTATTAAACTCTCCTATCATCTCACACGTGATTCAGAAGCTGGAAACTTCAAAAGAAAATATTTCGTTTGCAAGAGTAGATGCAGATCATGTGAATAATCTGATCAAAAAAGATGAGCCGATAATTTCAAAACTGAATGAAACGGAGAAGGAATCTTTGAAAAAGAATGTGGAAGAGGCTATTCAGGATTCTAAATTTACCGTTCAGCTTGAAGATCTTGACAGCAACGATGCTCCGTTCACCATTACCCAGCCAGAATTTATGAGAAGAATGAAGGAAATGCAGGCTACAGGCGGAGGCGGAATGTTCGGGATGGGAGGTTTCCCGGAAATGTACAACCTTGTGGTGAATTCGAACAGTGAGCTTTCTAATCAGATATTAAAGACTGAGAATGCGGAAGAGAAAGAGAGTTTGATTAAATACGCTCTGGATCTTGCCAAACTTTCGCAAAACTTACTGAAAGGAAAAGACCTGACAGATTTCATACAGAGAAGCTATAAGCAACTTGAAAAATAA	MMTKGNINVSVENIFPLIKKFLYSDHEIFLRELISNATDATLKLKHLTSIGEAKVEYGNPKLEVKIDKDQKTLRIIDQGIGMTGEEVEKYINQVAFSGAEEFLEKYKDSAKDSGIIGHFGLGFYSAFMVAEKVEILTKSYKDEPAVRWICDGSPEFTLEETTDKTDRGTEIILHIAEDSVEFLEEGKIRELLLKYNKFMPVPIKFGTKTHTLPLPEGAPEDAVAETEEVDNIINNPVPAWTIAPSELTNEDYMKFYHELYPMQFEEPLFNIHLNVDYPFNLTGILFFPKLSNNLNIDKDKIQLYQNQVFVTDEVKGIVPDFLMLLRGVIDSPDIPLNVSRSYLQADGAVKKISSYITKKVADKMASLINENREDYEQKWNDIKVVIEYGIITEEKFAEKADKFTLYPTTDGKYFLWDELVEKIKPIQTDKDNKLIVLYATNADEQHSYIQSAKDKGYEVLLLNSPIISHVIQKLETSKENISFARVDADHVNNLIKKDEPIISKLNETEKESLKKNVEEAIQDSKFTVQLEDLDSNDAPFTITQPEFMRRMKEMQATGGGGMFGMGGFPEMYNLVVNSNSELSNQILKTENAEEKESLIKYALDLAKLSQNLLKGKDLTDFIQRSYKQLEK	PGPT0014640_2735	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
BMS003_03785	2901			hypothetical protein	ATGAAGTTGAAATGTACAGTTTTTATTCTGCTCATCATGACCTGTTTCGTGTATGCGCAGAAAAAGCCTTTAGATCATTCTGTCTATGACAGTTGGCAAAATATCGGTTCGAGAAAGATCTCCAATGACGGGAAATGGATTGCCTATTCCGTAGATCCTCAGGAAGGAAATGCTAACCTTTTTTTATACTCGGTTAAAAATAAAGCATCAAAGAAGTTTGCAAGAGCTACAAAAGTGAATTTTACAAATGATTCCAGATTTGCTGTTTTTCAAATCCGTCCACCATATAAAGATATAAAAGCAGTAAAAGACAAAAAACTGAAAAAGAATAAATTAACCAAAGATAGTCTTGCTATCGTTGATTTTTTACATGATAAAACAGAAAAAATTCCAAATGTAAAAGGATTTAAAATTCCTGAAAAAGCAGGTTCTTACCTTGCTTATCTTCTTGAAAACACAAAAGATAAATCTTCGGATGACAATTCTGATAAAGATGACGGAGACGAAAATAAAGATGAAGAAAAAAATGCAAAACCACTACAATTGGTGGTGCGAAATCTCTTGGATGGAAAGAGTACGACATACGATAATGTAATACGTTACGAGTTCAGTAAAAATGACAGACAGCTTGTTTTTGTAACTAAAACGCCTGAAGAAAAGATCAGCAAAGATAAAAAGGAAAAGAAAGATTCATTAGATCATAAATCTGAGGATAAAAAAGTAACTGACAAATCAAAGCCAAAGAAATATACCCTACAAACAGTGCAGGTAGTAGATTTGCAAAAAGGAACTGTTAATAAAATTTCTGAAATGGAAGGTGATTTTTTACAATTGTCTTTTGACGAAGAAGGTAACCAGTTAGCTTACGTAGGAACTTCTTCTGCACAGAATGATCTGGTAAAATTATATCAGTTGTATTACTTTAATTTTAAAGGAAACAAAAAAGAAATTGTTACCAATGAAAATACTCAGATGAAAAAGAACTGGGTGATTTCTGAAAACCGTTTGCCTATTTTCAGTAAAAATGGAAAGCAGCTGTATTTTGGAGTTGCTCCAAAACCTATCGCAAAAGATACGGCAATGATTGCAAATGACCATGCTGTAGTAGATATCTGGAATTACAGAGATGATTACCTGCAAACAGTACAGCTAAAAGAATTGAAAAATGATCTGAAGAAATCCTATGTCGCAGTAATACAGACCGAAAAGCCAAATTTCTTTAGAAATATTGATGGGGAAGATCTGGATACCTTACGATTGGTCAATGAAGGAAATGCGGAATTTACGTTGGGTATTACCACTGTTAATAACCGTATTTCTTCACAGTGGGAAGGTTCAACAAAGAAAACCTATTTCCTGATCGATAATAAAACAGGAGACAGAACGGAGATTATTCAGAATCTGAATGGTGCGGCAGCTATATCTCCTTTAGGTAAATTTGTTGTGATTTTTGACAGAGAAAAAGGGCAGTGGCTGAGCTATAATGTGAAAACAAAACAAACCCTTCCGTTAAGTAACGGCTTATCTGTTTCCTTCGTTGATGAGGAATTTGACATGCCGGATTTCCCGAATTCTTATGGTATTGCATCCTGGACAGATAAAGATGAATCTGTAATCATCAGAGACCGTTATGATCTTTGGGAGTTTTTCCTGAACGGTTCAAAAAAGCCGAGAAATATCACGAATGGATTCGGGCGTAAAAATAAAATAACGTTTGATACTTACGATTTAGACAAAGATATTAAAAGCTTAAACAGAAAAGCTGTTATTTATTTATCTGCATTTGATAATATAACCAAGGCGAATGGGATTTTCAAGACAACTGTTCAGTCCAATTCTGATCCCATAAAAATTAAGATGGAAGACGTTTGGGGATACAGAAGTCTTCAAAAGGCAAAAAATGCGGAGGAATATATTTTAGTAAAAGAATCGTACACAGATTCTCCTAATATTTTTGCAACATCAGATTTCTCAGAACAACAAAAACTGAGCAACACCAATCCGCAGCAAAATCTTTACAACTGGGGAACGGATGAATTGGTGAACTGGACAACACCAAAAGGAAATACTTCCACCGGAGTTTTATATAAACCGGAAGATTTCAATCCGAATAAAAAATATCCTATGATTGTCTATTTCTACGAAAAACTTTCGGATAACTTAAACCGCTATGTTGCACCGGCTCCTACACCTTCAAGGTTAAATATTTCTTATTTTGTGAGCAACGGATATCTTGTGTTCACCCCGGATATTTCTTATACAGACGGTTTCCCGGGAGAATCTGCAATGGAATACATCAATTCCGGAGTTGAAAAGTTAAAGCAAAATTCCTGGGTAGATGGTACTAAAATAGGAATTCAGGGACAAAGCTGGGGCGGTTATCAGGTAGCGTATCTTATCGCGCATACCAATATGTATGCAGCGGCCTGGAGTGGAGCCCCTGTTGTCAATATGACTTCAGCGTATGGAGGAATCCGATGGTCTTCGGGGATGAACAGACAGTTTCAGTATGAAAAATCGCAGAGTAGATTAGGCAAAAATCTATGGGAAGCTCCGGAGCTTTATATCAAAAATTCACCGCTCTTTGCTATTAATAAGGTACAAACTCCGGTAGTTATAATGAGTAATGATAAAGACGGAGCTGTGCCTTGGTATCAGGGAATAGAAATGTTTACGGCATTACGCCGTCTTGGAAAACCAGTGTGGCTTCTGAACTATAATGGAGATGATCATAACCTTATGAAACGCCAGAACAGAAAAGATATTCAAATCCGCGAACAGCAGTTTTTTGATTATTATCTGAAAGGAGCCAAAGCTCCGGTCTGGATGACAAAAGGTATTCCGGCCACCCAAAAAGGAAAAAATTGGGGATTTGAGCTGACAGATGATAAACCTGATTAA	MKLKCTVFILLIMTCFVYAQKKPLDHSVYDSWQNIGSRKISNDGKWIAYSVDPQEGNANLFLYSVKNKASKKFARATKVNFTNDSRFAVFQIRPPYKDIKAVKDKKLKKNKLTKDSLAIVDFLHDKTEKIPNVKGFKIPEKAGSYLAYLLENTKDKSSDDNSDKDDGDENKDEEKNAKPLQLVVRNLLDGKSTTYDNVIRYEFSKNDRQLVFVTKTPEEKISKDKKEKKDSLDHKSEDKKVTDKSKPKKYTLQTVQVVDLQKGTVNKISEMEGDFLQLSFDEEGNQLAYVGTSSAQNDLVKLYQLYYFNFKGNKKEIVTNENTQMKKNWVISENRLPIFSKNGKQLYFGVAPKPIAKDTAMIANDHAVVDIWNYRDDYLQTVQLKELKNDLKKSYVAVIQTEKPNFFRNIDGEDLDTLRLVNEGNAEFTLGITTVNNRISSQWEGSTKKTYFLIDNKTGDRTEIIQNLNGAAAISPLGKFVVIFDREKGQWLSYNVKTKQTLPLSNGLSVSFVDEEFDMPDFPNSYGIASWTDKDESVIIRDRYDLWEFFLNGSKKPRNITNGFGRKNKITFDTYDLDKDIKSLNRKAVIYLSAFDNITKANGIFKTTVQSNSDPIKIKMEDVWGYRSLQKAKNAEEYILVKESYTDSPNIFATSDFSEQQKLSNTNPQQNLYNWGTDELVNWTTPKGNTSTGVLYKPEDFNPNKKYPMIVYFYEKLSDNLNRYVAPAPTPSRLNISYFVSNGYLVFTPDISYTDGFPGESAMEYINSGVEKLKQNSWVDGTKIGIQGQSWGGYQVAYLIAHTNMYAAAWSGAPVVNMTSAYGGIRWSSGMNRQFQYEKSQSRLGKNLWEAPELYIKNSPLFAINKVQTPVVIMSNDKDGAVPWYQGIEMFTALRRLGKPVWLLNYNGDDHNLMKRQNRKDIQIREQQFFDYYLKGAKAPVWMTKGIPATQKGKNWGFELTDDKPD				NA	NA	NA	NA	NA
BMS003_03786	1434			hypothetical protein	ATGGGAATCTTTGATTTTTTTAAGAAAAAGAATAACAGTCAGGAAAATATGAGTACTCCGGTTCAGGAAATGGAAATGCCGGGGGAAAAAGCAGTAGAGGAAATGGTGGAAGAAGTTGTAGAAACAATGCCCGAAACCTCTTCGCAGCCGGTAGAAGAGCTAAAAGTAAACCAGGAATTTGAAAAAATCAGGATTTATAACGATTATATTGTGTATTCTATTGCGCTTCAGCTAAGAGGAGAGTATACACCTCTTTCCGCTTTTGAAAAAGAAAATGGCGAGGTAGAAGGCTTTGCCTATATGGTAACTGAAGATGCCTATGCGCTTCCTCCACAACAGGCGATCGCACAAATGGAAGAAAAATTTGAGGCTGAACTTCAGGCAGGGAAAATAAAATCTTACATGATCCTGTATCATTCTCAATTTGATAACAACGGAAACCATACTCCTGCAATCCAGGAAGGAGAATTTAAAGGGATTTCTCTTGCGTATCATTTTGCAGGCCATGATAAAGCAAAAACAGGTCTGCCTTATGTTTTCGAGAATCAGAATGTCACTTATAAAGGTTTTGCTGAATTTTCTCATGAAGAGAATAATACAATCATGAATCACCAGTTAGTGGATGGTAAAGATTATTTCCCGAATACAGAAGGGATTGCAGCTCCGGAAATGACTAATGAAGCGGGAATCATCATCAGAAAGTCCAATGTTCACAATCTTGTAAATACATGGAGTGGAGTTTTTGGACATCAGAATTTTCAGACTAAAGATTACGGCCAGTATCTGACAGCTGTTTTGATGCAGTCTGCTGTTGCAGATCCTATGGGAGAAAGTAAAAGCAAAACAGAATTTGAAGATGTGAGATTCAAAACTATTGTGACAGACGAGCTCAGCACAATCATTCCGGAAGTAAAAACTGATTATACTTTAGATTTCGAAACAAGATCAATCAGAGAATGGGAAAACGCACTGAATTTGCAGGCGATAGTAGCAGGGCCTGCCAGAGAAACTTTTGGTGTTTGGTTCTTTGCGACAGATTATGCTGAAAAGAGAAATACGTACATGACACAGCCGCATTTAAAGGTGAATGTAAGCGGAATTGTTTTAATTCTTGATGTTCATACCAATAATATTTTGGAGGATGGTAGCAAAATGAGTGAAGACTTCACAACCTATGTGCCAAGTCAGGATCTTCCTAATTATGCATGTTTCGATTTCATTGCTCAGCTTGTAGACTTTAAGGAAACGGAACTGCTTGACGATGGAAGCGTTAAAGGATATATCCTGAAACTGAAGCTGATCACGAATGAAGAAAATGAAGAATTCTTTACTATTGATGCTTTTGTAAATAAAGAGAATATGAGAATGGAAACGCTTACAAAAGGAATGAAAGTAACCGGAGCTGTACAGCTACAGGGTAAAATTGCGGAATAA	MGIFDFFKKKNNSQENMSTPVQEMEMPGEKAVEEMVEEVVETMPETSSQPVEELKVNQEFEKIRIYNDYIVYSIALQLRGEYTPLSAFEKENGEVEGFAYMVTEDAYALPPQQAIAQMEEKFEAELQAGKIKSYMILYHSQFDNNGNHTPAIQEGEFKGISLAYHFAGHDKAKTGLPYVFENQNVTYKGFAEFSHEENNTIMNHQLVDGKDYFPNTEGIAAPEMTNEAGIIIRKSNVHNLVNTWSGVFGHQNFQTKDYGQYLTAVLMQSAVADPMGESKSKTEFEDVRFKTIVTDELSTIIPEVKTDYTLDFETRSIREWENALNLQAIVAGPARETFGVWFFATDYAEKRNTYMTQPHLKVNVSGIVLILDVHTNNILEDGSKMSEDFTTYVPSQDLPNYACFDFIAQLVDFKETELLDDGSVKGYILKLKLITNEENEEFFTIDAFVNKENMRMETLTKGMKVTGAVQLQGKIAE				NA	NA	NA	NA	NA
BMS003_03787	1002	recA		Protein RecA	ATGAGTAACATTGATGATAAGAAAAAAGCACTCGCTTTAGTGCTTGACAAACTAGATAAAACATATGGAAAAGGAACAGTAATGACTTTAGGTGATGAATCTATAGACAATACTATTGAAGTAATTCCTTCCGGTTCTTTAGGTTTAGATATTGCTTTGGGAATAGGCGGTTATCCAAAAGGAAGAATCATTGAAATATATGGCCCTGAATCTTCAGGTAAAACAACATTGACCCTTCACGCCATTGCTGAAGCTCAAAAAGCAGGTGGTATAGCTGCATTTATTGATGCAGAGCACGCTTTCGACAGAACTTATGCTGCAAAACTAGGAATTGATCTTGAAAACCTGATCATTTCTCAGCCAGACAATGGGGAGCAGGCATTAGAAATTGCTGATAACTTAATCCGTTCAGGAGCTATTGATATTGTTGTTATTGACTCTGTTGCTGCTCTTACGCCAAAAGCAGAGATTGAAGGTGAAATGGGAGATTCTAAAATGGGTCTTCATGCGAGATTAATGTCTCAGGCATTAAGAAAACTGACGGCAACCATTTCAAGAACGAAATGTACAGTAATCTTCATCAACCAGTTGAGAGAAAAAATCGGTGTCATGTTCGGAAACCCTGAAACGACTACCGGAGGTAACGCCCTTAAGTTCTATGCTTCTGTAAGAATTGATATCAGAAAAGCAAGTGCCCCTATCAAACAGGGTGATGAAGCTATCGGTAGCCGTGTGAAAGTGAAGATTGTGAAAAATAAAGTAGCACCTCCTTTCAAGCAAGCAGAATTCGATATCATGTATGGAGAAGGAGTTTCTAAAGTAGGAGAAATTCTTGATACTGCAGTAGATATGGGAATTGTGAAGAAAAGCGGTTCATGGTTCAGCTACGAAGAGACTAAATTGGGTCAGGGACGTGATGCTGTAAAAGATGTGTTGAAAGACAATCCTGATCTTTCCGAAGAATTGGAAAACAAGATTAAAGAAGAAATGAAAAACAAATAG	MSNIDDKKKALALVLDKLDKTYGKGTVMTLGDESIDNTIEVIPSGSLGLDIALGIGGYPKGRIIEIYGPESSGKTTLTLHAIAEAQKAGGIAAFIDAEHAFDRTYAAKLGIDLENLIISQPDNGEQALEIADNLIRSGAIDIVVIDSVAALTPKAEIEGEMGDSKMGLHARLMSQALRKLTATISRTKCTVIFINQLREKIGVMFGNPETTTGGNALKFYASVRIDIRKASAPIKQGDEAIGSRVKVKIVKNKVAPPFKQAEFDIMYGEGVSKVGEILDTAVDMGIVKKSGSWFSYEETKLGQGRDAVKDVLKDNPDLSEELENKIKEEMKNK	PGPT0007235_4726	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
BMS003_03788	1185			hypothetical protein	ATGATACAACCCCGTTTTAAAGATGCTCCCCATTTCAGTAATTTTTGGGAAAATGGCAACGGAAAACAGCTTATTGAATTTTCAGGAGCCGAAGTGAGCTTTGAAAAATTTGAAAAGTTTGCAACCTATTTCCATCATGTAGATGAAACGGGTGACGAGGTGGTAAAAGACGTTTATTTCACCAAAAAATTCTATGAAGCTTCAAGAGAAATTGAGAATTACATCAGAAATGGCGTTTCGGAAACAGATTCTGTTCCTGAAAGTGTAAAAAGAATGTTCAGTCAAACCCAGAAAATTCCCGAATGGCTGGATTACAATTTACTCAAAAGCGGTGCAGAGCTTTGTATGAGAAGTAATCTGGATTCTTTGATCTCCCTGAGAGATTATTGCCTGATTGGTGGTTATGATTATGCCTACCTCAACAAACCTCTTATTGTCACAGAAGCATTGAAAAAAGGTGCTGTGAAAAGGCTTTCGGAAACATTGGATTTCTGGGTTAATGCTACCCGATACAATGCGTTGGAAGTTCATGCAAAAGGCTATGAATTTGCTATAAAAACCCGTTTGATTCACTCCTACGCAAGGCTTTCCATTAAAAAACATTATAAAGGCTGGGACACCGAGAACTGGGGAGAGCCTATCAACTCATGGGATATGATGGCAACGTATATTGGATTCAGCCTCGTTTTTCTTCACAGTCTTCAGAAACTGGGAAATCATTTTTCCATCGAAGAAGAGCAGGGAATTTTTCATCTTTGGAAATATGTAGGTTATCTTTTGGGAATTCCTGAACAGCTCCTTCCCGACAATAAAAAACAGGCAACGGAATATTTTTATTTATGGACTTCTGTTCAACCGCCTTCAGATAAAGATTCTGTTCTTTTGGCTCATTCTCTTCTGGATGAATCACTGGAAAATCCTATTTTAAAATATGAATTTCAGAGAAAAAATTTAAAATACCTACACGTCTGCTGTACCTGGTTTCTTTTGGATGATGAAGTTTGTAAAAGATTGCAGATTCCGGAAATCCCTTTTAGAAAACTGTTTCCAAAATCGAAAATACTCTTCAACAGAATTTATGATCAGCTTGTCAGCCGGAAAGCCAGAATTCAAAGAGGTAATAAGGACCAGATGAAAGTTTTGGAAGATTATCTTACAATCACTAAAAATTCAAATTTTCATTAG	MIQPRFKDAPHFSNFWENGNGKQLIEFSGAEVSFEKFEKFATYFHHVDETGDEVVKDVYFTKKFYEASREIENYIRNGVSETDSVPESVKRMFSQTQKIPEWLDYNLLKSGAELCMRSNLDSLISLRDYCLIGGYDYAYLNKPLIVTEALKKGAVKRLSETLDFWVNATRYNALEVHAKGYEFAIKTRLIHSYARLSIKKHYKGWDTENWGEPINSWDMMATYIGFSLVFLHSLQKLGNHFSIEEEQGIFHLWKYVGYLLGIPEQLLPDNKKQATEYFYLWTSVQPPSDKDSVLLAHSLLDESLENPILKYEFQRKNLKYLHVCCTWFLLDDEVCKRLQIPEIPFRKLFPKSKILFNRIYDQLVSRKARIQRGNKDQMKVLEDYLTITKNSNFH				NA	NA	NA	NA	NA
BMS003_03789	801			hypothetical protein	ATGAAGAAAAAACATTTGACCCACGCAAAAAGGCCTCACCCCCTCATTAAGGTATGGAATGACTATCCTGAAATTTTACAGAATAACAACAGAATACTACCCGTTCCCATCATTGAAAACATAATCGGAGAAATTTTTGCTCCCGGAAAATTCTATTATTATATCATCAATTTTGCAGACAGCACCATCATTTGTAATCACAATGAAGATATTTTAGCAATTCATGGACTCCATAAACATCCTATACATCTGAAAGAAATTATAGACCTCATTCATCCCGATGATATAGAATTTGTGATGGAAGCAGAAAGAATGTCCATAAAAAAAATAAAAGAAATTGATGGTTTTGATTACCAGCAAGAGCTTAAAACCAGCTACTGTTTCAGAATGAGAACTTCAAAAGGTAATTATGAACTCTTTCATCACCAGGCTTTACATACCTATAAAGATGAAGACGGCAGACTTTTACAGGCAGTCAACATTCACACCAATATTGAGCATATCACTCACCAAAACTCCCATGTAGTGTTGGTATCCGGAATCAATGGGCGGGAAGATTTTCACCAGATGCAATGGATGGAAAGCAATAAATCTAATGAATCTCCTTTTGTCATTTTCACCAAAAGAGAAGTTGAAATCATTAACTGCATTGCAAAAGGATACTCAACATGTGAAATTTCGGATCTGCTGAATATTTCAGAAGAAACGGTTCGGACCCACAGAAAAAATATTTTAAGAAAATCCGACTGCAAAAACAGCTCTGAACTGATCAAAAAAACCTTTGAATGGGGTTATCTGTAG	MKKKHLTHAKRPHPLIKVWNDYPEILQNNNRILPVPIIENIIGEIFAPGKFYYYIINFADSTIICNHNEDILAIHGLHKHPIHLKEIIDLIHPDDIEFVMEAERMSIKKIKEIDGFDYQQELKTSYCFRMRTSKGNYELFHHQALHTYKDEDGRLLQAVNIHTNIEHITHQNSHVVLVSGINGREDFHQMQWMESNKSNESPFVIFTKREVEIINCIAKGYSTCEISDLLNISEETVRTHRKNILRKSDCKNSSELIKKTFEWGYL				NA	NA	NA	NA	NA
BMS003_03790	873			hypothetical protein	ATGAAAACAAAAATTGTATTGCTGTTTCTGCTTGGATGGGTGGGGATGGCTTCGGCGCAAGAAGAACTAAAAGAAAAAGACACAATCACACTTATAAATAGTGTAAATCTAAGTAAGAATGCCATCCTTGTTTCATATACATATACTGATAGCGAGGATTTTCAAAAAAAGCTGAAAAGTATTTCTCCAAACGTGTTGAAATCAGGTATTAAATATATAATTCTTAGTATTGATAAAGAATCTGAGAAAGTTATAGTATCACCAATAAACTTCAAAGTTTTTAATAATAATAGAATTATAAGAAGAGACAACCGTAAAAAATTTCTGAATAACCATACAATTGATAAATCAATACATAGTATTCTTTATAATGACAAATCTTTTGAAATACCATTAGATGATTTAAAGAAGAATGCAATTAAAAAGAAAGAATATATTCCAGATAGATTTTCAATTGGAATTTTAACTCTTCCATTTAAATATAGACCTCAGGATGAAAAAACCTTCGAAGCCCAATTCAATTTGAATTCTAGTTTAAATGTTCTTTTATTGCATAATTTTTGGGGAAGTGGTACTAATTTTTATGCACAAGTTGGAGCGGGGTTAGGAAGTGTTGAGCTTAATTCCAACAACTCTTATGGAGTAGGATTAGATGAAAATATAAATGCAGCAACACTTACCGCTTTTGGAGGAGTAATGCTTCAATATAAAAAAGTTCAAGCAGGTTTTTATTTTGGTTGTGATCAGATAAATAATCAGAATCATTATCAATGGAGAAATAATGGAAACTTGTGGTTAGGTTTTGGTATTGGTTATCAGTTGTTTAATGTTGGGTTAGGTGAATCAAAATCAAATAATAGTGAAAAAAAGTAA	MKTKIVLLFLLGWVGMASAQEELKEKDTITLINSVNLSKNAILVSYTYTDSEDFQKKLKSISPNVLKSGIKYIILSIDKESEKVIVSPINFKVFNNNRIIRRDNRKKFLNNHTIDKSIHSILYNDKSFEIPLDDLKKNAIKKKEYIPDRFSIGILTLPFKYRPQDEKTFEAQFNLNSSLNVLLLHNFWGSGTNFYAQVGAGLGSVELNSNNSYGVGLDENINAATLTAFGGVMLQYKKVQAGFYFGCDQINNQNHYQWRNNGNLWLGFGIGYQLFNVGLGESKSNNSEKK				NA	NA	NA	NA	NA
BMS003_03791	1005	gapA	COG0057	Glyceraldehyde-3-phosphate dehydrogenase A	ATGTCAACAATTAAAGTAGGTATCAACGGTTTTGGTAGAATTGGACGTCTTGTTTTCAGAGCAATGACTGAAAGAGACAACATTGAAGTTGTAGGAATCAATGACCTAATCAATGCAGAATACATGGCTTACATGTTAAAATATGACTCTGTACACGGTATTTTCCCAGGTGAAGTTTCTGTAGAAGGAAATGATCTTGTTGTAAACGGGAAAAGAATCAGAGTAACTGCTGAAAAAGATCCAAGCAACCTAAAGTGGAATGAAATTGGTGCAGATTACGTAGTAGAATCTACTGGTTTATTCTTAGATAAAGACAGCGCTGCAAAACATATTACTGCAGGTGCAAAGAAAGTAATTCTTTCTGCTCCTTCTAAAGATGATACTCCAATGTTCGTAATGGGTGTAAACCACAAGGAACTTACTGATGATATCAAAATCTTATCAAACGCTTCTTGTACTACAAACTGTTTAGCTCCTTTAGCTAAAGTAATCCACGATAACTTCGGAATTGTAGAAGGTTTAATGACCACTGTACATGCTACAACAGCTACTCAGAAAACGGTTGACGGTCCTTCAATGAAAGACTGGAGAGGTGGTAGAGCTGCTCTGAATAACATCATCCCTTCTTCTACAGGTGCTGCTAAAGCAGTAGGAAAAGTAATCCCTTCACTAAACGGAAAATTAACAGGTATGTCTTTCAGAGTACCAACTGTTGACGTTTCTGTAGTAGACTTAACTGTGAGAATTGAAAAAGCGGCTTCTTATGAAGAAATCTGTTCAGTAATCAAAGCGGCTTCTGAAGGTGAATTGAAAGGTATCCTAGGATATACTGAAGATGCTGTAGTATCTCAGGACTTCGTAGGAGATAAGAGAACTTCGATCTTCGACAAAGATGCTGGTATCATGCTTTCTCCTAACTTCGTGAAACTTGTTTCCTGGTATGACAACGAAATGGGTTACTCTAACAAGTTAGTAGATATGCTTGTACACGCTGCTTCTTTATAA	MSTIKVGINGFGRIGRLVFRAMTERDNIEVVGINDLINAEYMAYMLKYDSVHGIFPGEVSVEGNDLVVNGKRIRVTAEKDPSNLKWNEIGADYVVESTGLFLDKDSAAKHITAGAKKVILSAPSKDDTPMFVMGVNHKELTDDIKILSNASCTTNCLAPLAKVIHDNFGIVEGLMTTVHATTATQKTVDGPSMKDWRGGRAALNNIIPSSTGAAKAVGKVIPSLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYEEICSVIKAASEGELKGILGYTEDAVVSQDFVGDKRTSIFDKDAGIMLSPNFVKLVSWYDNEMGYSNKLVDMLVHAASL	PGPT0018000_5582	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
BMS003_03792	987	pfkA	COG0205	ATP-dependent 6-phosphofructokinase 1	ATGAAAGAGAGTGCTGTAAAAAAAATTGCAGTTCTTACTTCAGGAGGTGACTCTCCGGGTATGAATGCGGCATTAAGAGCGGTAGTAAGAACCGCCAATTACTATAATATCGAATGTTACGGAGTAAGAGAAGGTTACAACGGCCTTATCAACGATGATTTCCTGAGAATGGGAGCCCGTTCCGTAAAAAATATAATCAACCAGGGTGGAACCATTCTAAAATCTGCCAGATCCGCTGAGTTCAGAACAAAAGAAGGCCGTCAGAAAGCTTACGACAACTGCGTAAAACTTGGAATAGACGGACTGGTATGTATTGGAGGAGACGGAACTTTTACGGGTGCAAAAATCTTTAATGAAGAATTCGGAATCAGAGTAATCGGTATACCGGGAACAATCGATAACGATATTTTCGGAACAGATAATACCATTGGTTATGACACCGCGTTGAATACTGCTATGGATGCCATTGATAAAATCCGTGACACTGCCACTTCCCACAACAGAGTTTTCTTTGTAGAAGTGATGGGTCGTGATGCTGGTTTTATTGCATTAAACAGTGGATTGGCTGCGGGTGCTCTGGATATTTTAATTCCTGAAAAAAAGGACAGTATTGATGAACTTTTCGTGAAATTTAGAAATGCTGAAAAAACAGGAAAATCATCCAGTATTGTAGTGGTAGCTGAAGGTGAAAAGCTAGCCAATGTGTACGAACTTGCAGAAAAAACCAAACAGACATTCCCGGATTATGACATCCGTGTAGCCATTTTGGGACACATGCAGAGAGGAGGTTCTCCAAGCTGTGCAGACCGAGTTTTGGCGAGCAGACTAGGATATGGTGCCGTAACTGGACTTATGGAAGGACAAACCAATGTAATGGCAGGAATGCGTTCTAATGATCTGACGTATACCCCCATTGAAGAAGCCATTAAAAAACATAACGAAATCAATAAAGATCTTTTACTGATTTCAGAAATTTTAGCAATCTAA	MKESAVKKIAVLTSGGDSPGMNAALRAVVRTANYYNIECYGVREGYNGLINDDFLRMGARSVKNIINQGGTILKSARSAEFRTKEGRQKAYDNCVKLGIDGLVCIGGDGTFTGAKIFNEEFGIRVIGIPGTIDNDIFGTDNTIGYDTALNTAMDAIDKIRDTATSHNRVFFVEVMGRDAGFIALNSGLAAGALDILIPEKKDSIDELFVKFRNAEKTGKSSSIVVVAEGEKLANVYELAEKTKQTFPDYDIRVAILGHMQRGGSPSCADRVLASRLGYGAVTGLMEGQTNVMAGMRSNDLTYTPIEEAIKKHNEINKDLLLISEILAI	PGPT0017595_2244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017595-pfkA-K00850	NA	NA
BMS003_03793	879			hypothetical protein	ATGAAAAAAATTATCTCCGGAATCACAGTATTTTTGATTCTCACAGGCTGTACAAAAGAAAAATTATCAGACCGGCTATTGGCTGAACCGGATCATAATGAGCATTTAATTGCTGAGAATGCTTTAAAAATAAAGAAAGATAAAAATACCATCCGGGAAAGATTTTCTCCTCCGGAAGGTTATGAATGGATTGAAGAAAAGCCAGGTTCTTTCGGACATTTTATTGAAAATTTTAAGCTGAAACCTTATGGCAGCCAGATTGTAAAATATGACGGAACTCTTATTTCTACCCAGCATCTTCATGAAGCTGTTTTTGATATTGATACCGGAAGTAAGGATTTGCAGCAATGTGCTGATGCCGCTATCCGTATGAGAGCTGAATATCTTTATAAAACAAAAAAATTTGACGAGATTAAATTTCATTTTACAAGCGGCGATCTTCTCAGCTGGAATGATTACAAAAACGGAACAAGAGCTTTTGTAAGTGGAAACTCAGTAAACTTCAGAAAAACTGCAGCTTTTGATGATTCTTATGAGAGTTTCAGAAATTATCTGGACCTGATTTTCAATTATGCAGGAACCATTTCATTAAACAAAGAAACAAAGCCGGTAACGAAGAATTCTGATCTGAAAACAGGAGATATTCTGATCACACCAGGCAGTCCGGGACATATCGTTTTTATTTCCGGAGTATGCAAAAATCCGGAAGGTAAAAGATTGTTCTTATTAGGTGAAGGTTTCACACCTGCTCAGTCGGTTCATGTGCTCTCTAATCCATTTAATCCCTATTTTACGCCGTGGTACGACCTTGACGTGAATGCTGCAGAAACAAAAACTGCGCGATATTTTTTTAAACCTACAAACTTCAGAAGCTTTTAA	MKKIISGITVFLILTGCTKEKLSDRLLAEPDHNEHLIAENALKIKKDKNTIRERFSPPEGYEWIEEKPGSFGHFIENFKLKPYGSQIVKYDGTLISTQHLHEAVFDIDTGSKDLQQCADAAIRMRAEYLYKTKKFDEIKFHFTSGDLLSWNDYKNGTRAFVSGNSVNFRKTAAFDDSYESFRNYLDLIFNYAGTISLNKETKPVTKNSDLKTGDILITPGSPGHIVFISGVCKNPEGKRLFLLGEGFTPAQSVHVLSNPFNPYFTPWYDLDVNAAETKTARYFFKPTNFRSF				NA	NA	NA	NA	NA
BMS003_03794	351			hypothetical protein	ATGAAAACAAAGGGAAAAGCTGAAGAAAATAAAATTTGTCCATTGGAAGTAGCTGTGAATACCATTAGTGGAAAATGGAAAATTCCTATCGTATGGCAGATTAATGAAGGAAAAAAGCGTCCCAGTGAGTTTTTGCGTGGTATAGCTAAAGTAGACCGGAGAGTTCTCAACCAGCAGCTGAGTGAGATGGTGGAAGACGGCATTTTAACCAAACAGTCTTTTAATGAACTCCCTCCAAGAGTTGAATATACTTTGACAGAACTTGGGGAAAAGCTGGTAAAAGTCCTCTGGCAGCTGAATGACTGGGGGAAATTATTGATCCCTGAAAAAGATAAGCTACTGAACCAATAA	MKTKGKAEENKICPLEVAVNTISGKWKIPIVWQINEGKKRPSEFLRGIAKVDRRVLNQQLSEMVEDGILTKQSFNELPPRVEYTLTELGEKLVKVLWQLNDWGKLLIPEKDKLLNQ				NA	NA	NA	NA	NA
BMS003_03795	639	resA_6		Thiol-disulfide oxidoreductase ResA	ATGAATACACTGGCAATGCAGATTGAACAACTGAATCATGAACTTTCATCACAGCTTTCACAAGAGGTTTTAAACGTATTCGGAAGTTCTGTTGAAGATTTAAAAACAAAAAATATAGAAGAAAACAGTATTCAAATAGGTGAAGAAATCCCCGGATTTTCTCTGCCCAACGTGTACGGCAAAAAAATAAATTCCGGAGAAATCCTAAAAAACGGAAAAATGATTCTGGCTTTTTACAGAGGTAGCTGGTGTCCCTATTGTAACCTTGAATTGAAATTTTTGCAGGAAAACATTTCAAAAATACATGAGAAAAATGCAGTTTTAGTAGCGATTTCTCCACAAGATCCTGATCAGTCTCTCACGATGGTGGAAAAAAACAATCTTGAATTTGAAGTATTGACTGATCATAACAATGATTTTGCTAAAAAGCTTGGAATTGTATTTCAGCTGCAGGATTTCGTATTGCCTTATTATCAGAGCTTAGGCATTGATCTTTCACTTTTCAATAAAAACAATGAAAATACATTACCTGTTCCGGCCGTTTTCGTTGTAGATAAAAATAGTAAGGTGGTATATAAATTTTTAGAGGTAAATTACATGCGTAGAGTAGATGTAGAAGAATTAATACAATCATTATGA	MNTLAMQIEQLNHELSSQLSQEVLNVFGSSVEDLKTKNIEENSIQIGEEIPGFSLPNVYGKKINSGEILKNGKMILAFYRGSWCPYCNLELKFLQENISKIHEKNAVLVAISPQDPDQSLTMVEKNNLEFEVLTDHNNDFAKKLGIVFQLQDFVLPYYQSLGIDLSLFNKNNENTLPVPAVFVVDKNSKVVYKFLEVNYMRRVDVEELIQSL				NA	NA	NA	NA	NA
BMS003_03796	801			hypothetical protein	ATGACAGAAAAACGAAAAGGAGCCCGTTCCATCAAAGATATTCCACCGGATATTCTGGAACAACTCAACCGTGGAGAAATTGAAACGGCTAATCTTACAGAATGGCTGGCAGTAGATCAAAGAATATTACTGGAAAATCTTCTTCGGCAGCATAATCGTAATGAATATCTGTTGCCGGTTTTGAAAATAGTGGATCAACTGAAAAAGCAAACTGTCAATACAATCAATGAAGCTATTGGTATCGGACTGCTGAATCTGGCTGTGAAAAATAAGGATGATGAATTTCTATTGAAGCTGTCAGTCCATCCGGCAGATCTGGTACGTTGCTGGGCAGCTTATACGATTGGAAGAAACAATGATTTAGAACTTAAAGAAAAATTAGACAGCATACGGTCATTTGCTTCTGACTCTCATTTTGGAGTGAGAGAGATCTGCTGGATGACAGTGCGTCCGGATATTGCCAAAAACCTTGATGAAAGTTTATCTTTATTATCAAAGTGGACAATGCATGAGGATGAAAATGTGAGACGTTTTGCCAGCGAGTCAACAAGGCCGAGAGGAGTCTGGTGCGAACATATTGATGCTTTAAAACAAAACCCGGGACTTGGACTGAAAATTCTGGAACCATTACGATCCGATTCTTCCAGATACGTGCAGGATAGTGTTGGAAATTGGCTCAATGATGCCAGCAAATCACAACCCGAATTTGTAGTGGAAATCTGTGATGAATGGCAGCGTGAAAGTCCGACAAAAGAAACTCAATATATCATTAAAAAAGCCTTACGAAGCCTTAAAAAGTAA	MTEKRKGARSIKDIPPDILEQLNRGEIETANLTEWLAVDQRILLENLLRQHNRNEYLLPVLKIVDQLKKQTVNTINEAIGIGLLNLAVKNKDDEFLLKLSVHPADLVRCWAAYTIGRNNDLELKEKLDSIRSFASDSHFGVREICWMTVRPDIAKNLDESLSLLSKWTMHEDENVRRFASESTRPRGVWCEHIDALKQNPGLGLKILEPLRSDSSRYVQDSVGNWLNDASKSQPEFVVEICDEWQRESPTKETQYIIKKALRSLKK				NA	NA	NA	NA	NA
BMS003_03797	762			hypothetical protein	ATGACAACCCTACTCTACGATGGAAGTTTCGATGGTCTTTTTACTGCGGTATTTGAAGTTTTCGAATACCGTTATCAAGATGTGGAGATGATAAGCAGAGAAAGGTTTCGTCAGGAAAATATTTTTGCAGAGATTCATGAAGTGATTACTCAACCGGAAAAATCTGAAAGAGTTCTGAATAAACTGGAGCTGAATATCGGAAAGCAGGGCGTTTACAAACTTCTAAAAGTTTTTTTATCTGAGGAGCCGGGTCTGGAAAACCTCATCTTATCTGCGGTAAGACAGTCAGTAAAACATCCGGAAGACAATATTCTTGAAAATTTTGCTGATTCTGATGTTTTAAAAATTTCAAAAATCTGTAAATCTGTAGATAGGGAAAGACACAGAATGACAGCTTTTGTCCGTTTTGAAAAAATGCATGATGGTGTTTTTTTCTCCAAAATAGATCCCGACTTCAATGTTCTTCCTTTAATCAGAACACACTTTAAAAACCGGTATCAGGATCAGAAATGGATGATCTATGATCTTCGAAGAAACTATGGCCTTCTCTATGATCTGAACACCTGTGATTTCTTCTACCCTGATGAAAAAATTGATATTCATAATTATCATCAGAAGTTCCATGATGAAGAGAAGAGTTACCAGGTACTTTGGCAGCGTTATTTCACAAAAACCAATATCGTAGAAAGAAAAAATATGAAACTCCACGTCCAGCATGTTCCGAAAAGATACTGGAAATATCTGACCGAAAAATGGCAGTAA	MTTLLYDGSFDGLFTAVFEVFEYRYQDVEMISRERFRQENIFAEIHEVITQPEKSERVLNKLELNIGKQGVYKLLKVFLSEEPGLENLILSAVRQSVKHPEDNILENFADSDVLKISKICKSVDRERHRMTAFVRFEKMHDGVFFSKIDPDFNVLPLIRTHFKNRYQDQKWMIYDLRRNYGLLYDLNTCDFFYPDEKIDIHNYHQKFHDEEKSYQVLWQRYFTKTNIVERKNMKLHVQHVPKRYWKYLTEKWQ				NA	NA	NA	NA	NA
BMS003_03798	1260			hypothetical protein	ATGAATTTTGACCGCCTTAAAGAAAAGCTCGAAATCCTTGCTGATGCTGCGAAATATGATGTTTCCTGCTCATCAAGCGGAGGCACGAGAAAAAATAAAAAAGGAGCTTTAGGAGATAGTTCCGCAAGTGGGATTTGTCATACCTATACCGAAGACGGCAGATGTGTTTCTTTGCTTAAAATTCTATTGACCAATCACTGTATTTATGATTGTGCTTATTGTGTTTCCAGAAGTTCCAATGATATTAAAAGAGCTGCTTTTACAGTAGAAGAAGTGGTAGATCTTACCATTAATTTTTATCGCAGAAATTATATTGAAGGTTTATTTCTGAGTTCAGGAATATTCAAAAATGCTGATACAACAATGGAAAGGCTTGTAAGGGTCGCCAAAAAACTGCGCCTGGAAGAAAACTTTAACGGATATATTCATCTTAAATCTATTCCGGGAGCGAGTGATGATCTGATGCAGGAAGCTGCTTTATATGCAGACCGGTTATCCGTAAATATTGAAATTCCTACAGAAAGCGGACTAAAATTGCTGGCTCCTGAAAAAAACAGGCAGGATATGATCAGTCCGATGCGCTATATCCAAAAAGGAATCATCCAATATAAAGATGAAAAGAAAATTCTGAAAAAAGTTCCCAAGTTTGCTCCTGCAGGACAGTCTACACAGATGATCGTAGGGGCAACCAATGAAAACGACCTACAGATCATCAAAGTTGCTGATCATTTTTACAAAAATTTTAATCTGAAAAGAGTGTATTACTCCGGATATGTTCCGGTTTTGGAGGATCAGAGGCTGCCTTCTTTAACGACGGAAGTTCCTATGCTTCGAGAAAACCGATTATATCAGTCGGATTGGCTGATGAGATTTTATGCTTTTAAAGCGGAAGAAATTTTAGACCCGAATATGCCTTTCCTCGATCTGGAAGTAGATCCAAAATTAAGCTGGGCGTTGCGAAATCTTGATCAGTTTCCCATTAACCTTCAGACCGCAGAATATCAGATGATTTTAAGAATTCCGGGGATTGGAGTAAAAACGGCTCAGAAGATTGTGAGCGCAAGACGTTTTCAGATTTTGACCATGGATCACTTGAAAAAACTGGGAGCGGCTGTCAACCGGGCAAAATACTTCATTGATTTTAATGCAGGAAATGCTTATCTGAGATATTTAACGGATAAAAATTTCAGAAAACTGCTGATAGGTGGAAGTTCATCCAAATTTCACAATCAGTTTTCGCAGCAGCTGACTTTGTTTTGA	MNFDRLKEKLEILADAAKYDVSCSSSGGTRKNKKGALGDSSASGICHTYTEDGRCVSLLKILLTNHCIYDCAYCVSRSSNDIKRAAFTVEEVVDLTINFYRRNYIEGLFLSSGIFKNADTTMERLVRVAKKLRLEENFNGYIHLKSIPGASDDLMQEAALYADRLSVNIEIPTESGLKLLAPEKNRQDMISPMRYIQKGIIQYKDEKKILKKVPKFAPAGQSTQMIVGATNENDLQIIKVADHFYKNFNLKRVYYSGYVPVLEDQRLPSLTTEVPMLRENRLYQSDWLMRFYAFKAEEILDPNMPFLDLEVDPKLSWALRNLDQFPINLQTAEYQMILRIPGIGVKTAQKIVSARRFQILTMDHLKKLGAAVNRAKYFIDFNAGNAYLRYLTDKNFRKLLIGGSSSKFHNQFSQQLTLF				NA	NA	NA	NA	NA
BMS003_03799	1329	mvaA		3-hydroxy-3-methylglutaryl-coenzyme A reductase	ATGAATCATAAACCAATCGAAGGTTTTTCTAAGCTTCCAAAGCAGGGGAAAATCGAATGGCTCGTAAACGAATATCTTGAAGGAAACCAGGAATATCAAAATATATTAAAACAATACTGGAACGATGATGCAGATCTTCAGAAACTCCATGAAGAATTTTCTGAGAACACCATCTCCAATTTTTATATGCCTTACGGAATTGCTCCGAACTTTTTGATAGACGGAAAACTATTGGCACTTCCAATGGCTGTTGAAGAAAGTTCTGTTGTAGCAGCAGCTTCCAAAGCCGCTAAATTCTGGATCGACAAAGGAGGTTTCAAAACAACCATTATCAATACAGAGAAGTTGGGACACACTCACTTTATTTTTAATGTAGAACCTCACAAATTATTGCATTTCTTTAATTTCAGTTTAAAGAAAAAGCTATTTGAAACAACGGAAGATATTACCTCCAACATGAGAAAACGTGGCGGTGGTATCTTAAATATCAGCCTAGTGGATAAAACAGCAGAAATGCCGAATTACTACCAGTTGAAAGCAAGTTTTGATACCGTAGATTCAATGGGAGCCAACTTTATCAATTCATGTCTTGAGCAGTTTGGAAAAACATTGAGACAGGAAGTGGCTACCAGCGAAGATTTTACTCAGGAAGAAAAGAATTCACTGCAGATCGTGATGAATATTCTTTCCAATTTTACTCCTGACTGTATCGTAAGAGCTGAGGTTTCCTGTAAAATGGAAGACTTGAAAGATGACAGTGGAATTTCCCCTGAAGAATTTGCTTCTAAATTCAAACAGGCAGTTACCATTGCAGAAATTGAACCTTACCGGGCAACCACTCACAATAAAGGAGTAATGAACGGAGTAGATGCTGTGGTAATCGCTACCGGAAATGATTTCCGGGCTACAGAAGCCTGTGCACATGCTTATGCGGCAAGAGACGGACAATACAGATCTTTGACCCACTGTACAACGGATAACGGAGTGTTCAGATTCTGGATTGATCTTCCGATTTCTGTAGGAGTTGTAGGAGGACTTACCAATCTTCACCCTTTGGTAAAATTCTCCCTGGCTCTTCTTGGAAAACCTTCTGCTCAGGAACTGATGAGTATTCTTGCTGTTTCTGGTCTTGCTCAGAATTTTGGAGCTTTACGTTCTTTAGTTACTACAGGAATTCAGAAAGGACATATGAAAATGCACTTGTTGAATATTCTGAACCAATTGGGCGCTACCGAAGAAGAAAAACAGCACTTTGTGACGTATTTCAAAGATAAGACAGTGAGCCACCACGAGGTGATCAATGAATTTAACAGAATGAGAGAAAACTAA	MNHKPIEGFSKLPKQGKIEWLVNEYLEGNQEYQNILKQYWNDDADLQKLHEEFSENTISNFYMPYGIAPNFLIDGKLLALPMAVEESSVVAAASKAAKFWIDKGGFKTTIINTEKLGHTHFIFNVEPHKLLHFFNFSLKKKLFETTEDITSNMRKRGGGILNISLVDKTAEMPNYYQLKASFDTVDSMGANFINSCLEQFGKTLRQEVATSEDFTQEEKNSLQIVMNILSNFTPDCIVRAEVSCKMEDLKDDSGISPEEFASKFKQAVTIAEIEPYRATTHNKGVMNGVDAVVIATGNDFRATEACAHAYAARDGQYRSLTHCTTDNGVFRFWIDLPISVGVVGGLTNLHPLVKFSLALLGKPSAQELMSILAVSGLAQNFGALRSLVTTGIQKGHMKMHLLNILNQLGATEEEKQHFVTYFKDKTVSHHEVINEFNRMREN				NA	NA	NA	NA	NA
BMS003_03800	168			hypothetical protein	ATGTTACAGATCATTTTGCCCATCGTATTCCTTCTTTTTGGATTTTTTCTGAAGAAAACCAATAACGAAGGTTTCAGAAGCTCCAAGAGATTTGCCAATATGTTTATCATACTGGGAATTTCTACGCTGGTTGCCAAGTTCATCTTAATGTACTTAAAATCAAAATAG	MLQIILPIVFLLFGFFLKKTNNEGFRSSKRFANMFIILGISTLVAKFILMYLKSK				NA	NA	NA	NA	NA
BMS003_03801	1071			hypothetical protein	GTGAAAAAGAGTATTGTATTTTTCTTATTGATTTCCGGTTTAAGTTTTTCTCAGCAGAAAGATATAAAAATACAGGATTTACAGCCTAAATCAGAAAACTTTGTATTTCCGGTTGTTTCTTATGCCGGAAATCCTGTGGTTGCCAATAAGATCAATACATTTCTTCAGATAAACGAACTGGAATATATTCCGGATTCTGGAGGAAATCCTTTTAAACTAGCCTCTACAGCTACAAACTCCTATTCCAATTATGTTTATTTTTATGATTGGCAGAAATTAGATACTCCTAAGAATATTTTAAGTATACATATCAATGGAGAAGCTTCGGGAGCCTATTCGGAAGAATTTTCAGACTGGAAGAATTTTGACCTGAGAACGGGGAACTTTATCAATGCTGTAGATTTATTTCAGGCAGGGAGTATTAAAACGATCAATGGTTTAATTCAAAATAGAGTCAAAAAAAGAGTCAATGATTTCCTTATAAAGTTAAAATCTGAAAAAAATCCATCAGAAGAGGTTAAGGATCAGATTGCCTTATATGAAGGATGTTTCTTGGAACATACATTGACTGGAGTCCGATATTTTTTTGGAAAAGACAAGCTTACTTTTGTTGCGGGCAGATGTTCTAACCATGCGATGCGGGCATTGGATGATCTGGGAAGTCATGAGCTTGAGTTTAGCTATAAAGAATTGGGGAAATACTGGAGCTCTTATGCAAAAAACCTGATTTCCGGCTCTGAAAAGACAGAGATAACCAGTCTTAATAATAAATTGTATAAGGGAAAGATCGATGGAAAGTATTCCATTACTGTTTTGATCAGTGAGGTATATGATGATGGTTCTTTTTCTGCAAAATACTGGTATGATAAAAATAAAAAGCTGATTGAGTGGAACGGAAAGATAAAAGGCAATCATATCTCCATCATAGAAAACGATTATTATAGCGAAGAAACCAACCAATGGATTTTCAGAGCTTTGGTGGAAGCGAACCTACAGGGCAGGAAAATTATGGGAACGTGGCAGGATTATCAAACAAAAAAATATTTAACCCTAGAATTAGAAGAGTTATAA	MKKSIVFFLLISGLSFSQQKDIKIQDLQPKSENFVFPVVSYAGNPVVANKINTFLQINELEYIPDSGGNPFKLASTATNSYSNYVYFYDWQKLDTPKNILSIHINGEASGAYSEEFSDWKNFDLRTGNFINAVDLFQAGSIKTINGLIQNRVKKRVNDFLIKLKSEKNPSEEVKDQIALYEGCFLEHTLTGVRYFFGKDKLTFVAGRCSNHAMRALDDLGSHELEFSYKELGKYWSSYAKNLISGSEKTEITSLNNKLYKGKIDGKYSITVLISEVYDDGSFSAKYWYDKNKKLIEWNGKIKGNHISIIENDYYSEETNQWIFRALVEANLQGRKIMGTWQDYQTKKYLTLELEEL				NA	NA	NA	NA	NA
BMS003_03802	387			hypothetical protein	ATGAAAACAATTACTTTAGTTTTTGGAGCAGTTTACGGAATGGTTTCTGTAATCCTGGGTGCATTCGGGGCACATGCTTTAAAGAAAATATTAGCTGTGGAAAGACTGGAAAGTTTTGAAACAGGAGTGAGATACCAGATGTATGCAGCTTTTTTCCTGCTGATCATCGGGTATATCTTAAAATTCGAAACCTCTGCTGAAAAATGGACTTCCATTTTAATGATTGCAGGAACTCTTTTGTTCTCAGTAAGCATCTATTTCCTGAGCATGCAGGATTACCTGGGAATGAATCTTAAATTTTTAGGTCCTATCACTCCACTTGGAGGTTTGATGATGATCTTAAGCTGGGGAATGCTGATTTTTTATTTCGCAAAAAATAGAATCTGA	MKTITLVFGAVYGMVSVILGAFGAHALKKILAVERLESFETGVRYQMYAAFFLLIIGYILKFETSAEKWTSILMIAGTLLFSVSIYFLSMQDYLGMNLKFLGPITPLGGLMMILSWGMLIFYFAKNRI				NA	NA	NA	NA	NA
BMS003_03803	1404			hypothetical protein	ATGAGAATGCAAAGTAAACTTTTTTTTATATTGATCTTCTTCTTTTTCCAATATAATAGAGCACAGGACTCTCTCATGATTTCAGCACAGGAATTTCTGGAAGTGGTAAAGAATTATCACCCGATGGCCTTGAAATATCAGCTGCAAAATAAAATTGCCCAATCAGAGATCACGAAAGCCAGAGGAAGTTTCGATCCCGTTTTAGAAGGAAAACTTGGAGAGAAAAATATTGAAGGAATACAATATTACAGACAGAAAAATATCGGACTGGGAATCCCAACCTGGTACGGAATTGATCTTACAGCAGGGTATCAATATCTGGATGGTGAAAAACTCAATTCCAGCGAAACAAAAGGAGGTCTTTACAATATAGGAATTACCATTCCTTTGGCTAAAAATTTTTTGTATGATAAACGAAGAGCTGCACTGGATCAGGCCAAATCTGCCTTAAAAATGACAGAAGCAGAACAGACTGTTCTAACCAACGAGCTTCTTCTTGAAGCAGAAAACACGTATTGGGAATGGGTACAAAGTTTTGAAATTTATCAGCTTCAGACCAAAGCGGTTGAGATCAGCAGAAACCGCCTGAAACTTACCCAAAAGACTTTTGAATATGGAGAAAGAGCAGCTATAGATACCGTTGAAGCTGCTTCACAACTACAGAAGTTTGAACTTCAGCAGAGGGAAGCCTATTTAAACTTTATCAGAGATACCCAGCAGCTGCAGCTATTTCTATGGAAAGAGAATCGTGAAATTTACGAAATCTCACAATCTATTTATCCAGCAGATCATCTTTCAGATCATACCACTTACATGGATTTTGAGTTTCTTCTGCAGGAAATCAAAACAAAAGAAACCGACCATCATTGGTCTGTACAATATTATCAGCAGAAGCATCTTATTTTAGAAAGTGAACGGAAGCTGAAGTGGCAGGGTTTCCTTCCCAAGCTTGACTTTACTTATAATTTCTTCAACAAAGAAAATTATCAGGCTGATTATCTTCCTCTTTTTGATAACAATTTTCAATATGGTTTAAAGCTTGAGATTCCGGTATTCCAAAGAGAAGTAAAGGCCAGTTATCAAATGGCCAAAATTAAAATAGAACAAAATAAGCTTGATACCGAATTTAAGAAAAGAGAACTTACCACGAAAATTGAAACCTATAAAAACGAACTTTTAAATTACCATACCCAGGTGGTCCTTTCACAAAATAATCTTGTGAATTATCAGCAGCTTCTTACTGCCGAGGAAACAAAATACAGCAATGGTGAGAGTTCCCTTTTCCTGATCAATTCAAGGGAAAATAAAATGATTGAGGCACAGGAAAAATTGATTTCCATCAAAACGAAATTTCTCAAAAGCTATAACAAGCTTAAATGGATGAATGAAAATTTCTCTTTATAA	MRMQSKLFFILIFFFFQYNRAQDSLMISAQEFLEVVKNYHPMALKYQLQNKIAQSEITKARGSFDPVLEGKLGEKNIEGIQYYRQKNIGLGIPTWYGIDLTAGYQYLDGEKLNSSETKGGLYNIGITIPLAKNFLYDKRRAALDQAKSALKMTEAEQTVLTNELLLEAENTYWEWVQSFEIYQLQTKAVEISRNRLKLTQKTFEYGERAAIDTVEAASQLQKFELQQREAYLNFIRDTQQLQLFLWKENREIYEISQSIYPADHLSDHTTYMDFEFLLQEIKTKETDHHWSVQYYQQKHLILESERKLKWQGFLPKLDFTYNFFNKENYQADYLPLFDNNFQYGLKLEIPVFQREVKASYQMAKIKIEQNKLDTEFKKRELTTKIETYKNELLNYHTQVVLSQNNLVNYQQLLTAEETKYSNGESSLFLINSRENKMIEAQEKLISIKTKFLKSYNKLKWMNENFSL				NA	NA	NA	NA	NA
BMS003_03804	1314			hypothetical protein	ATGGAATTACAGTCATTTGACAAAATATATCAGATCCATAAAAAATCAAGGGTAAAAAGATGGTTCTTTTTTATTTTCATTGCAGGAGTTATCACACTATTTCTTCCGTGGACACAGAACATAAAAGTGAAAGGAAATGTAACATCACTTTATCAGGAGCAGCGTCCGCAGCAGCTGCACTCTCCTATCCCTGGAAAAATCATCAAATGGAGTGTAAAAAACGGAGATTACGTAAAAAAAGGAGATACATTACTACAGCTTTCAGAGATCAAAGAAGATTATATGGATCCCCTTTTGGTTCAGAGAACCCAGGAGCAGGTGGATGCTAAAAAAGGAGTAAGGAATTTCTACGAAGCCAAAGTAGGAACTGTTAAAAATCAACTCCAGGCATTGCATTCAGCAAGAGACTTAAAGCTCAGCCAGCTCAAAATAAAAATCAGCCAGCTCCATAACAAACTGGCTGGTGAAGAAGCTGAATTACAAGCCTCCTCTAACGAGCTTAAACTTTCTGAAGATCAGTTTACCCGACAGAAAAAAATGTACGAAGAAGGACTGGTCTCTCTTACCCAGTTTCAGCAGAGAAGTATTTCTTATCAGAATGCTGTGGCCAAAAAAACCGCATCTGAAAATAAAGTTGCCCAAACCCGGCAGGAAATTACCAATACAGGCATTGAACAGAATGCTGTGGTTCAGGATTATACAGAGAAGCTTAGTAAAATAGAAGGAGACCGTTTTCAAAACATGGGTCATATGGAAGGCAGCGAAGGAGATATTGCCAAACTTGAAAACCAGGTAGCCAACTATAAAGCCAGGCAGCGTCTGTATTTCATTATTGCCACACAGGACGGCCAGGTGGTACAGCTCAACAAAACAGGGATTGGAGAAGTTTTGAAAGAGGGTGAAAATATAGGTATCATAGTACCCACCGCTGTGGATTATGCTGTAGAAATTTTTATAAAACCTGTAGATCTTCCGCTTGTTAAAGAAGGACAGCGTGTGATGTGCATCTTTGACGGTTTTCCCGCTATTGTATTTTCAGGATGGCCAGATTCCAGTTATGGAACATTTGCTGGTAAAGTAGTGGCTGTGGAAAGTAACATAAGCAGTAACGGGCTTTTTAAAGCATTGGTTACCGAAGATAAAAAGGAAAAAAGATGGCCTCCAAAAATAAAAATGGGAGGAGGAGTACAGGGAATCGCCATTCTCAATGATGTTCCTATCTGGTACGAGCTATGGAGAAATATCAATGGTTTTCCGCCGGATTATTACGAAGTAAAAAATAATCAAACTGTTCAATATGAGAATGCAAAGTAA	MELQSFDKIYQIHKKSRVKRWFFFIFIAGVITLFLPWTQNIKVKGNVTSLYQEQRPQQLHSPIPGKIIKWSVKNGDYVKKGDTLLQLSEIKEDYMDPLLVQRTQEQVDAKKGVRNFYEAKVGTVKNQLQALHSARDLKLSQLKIKISQLHNKLAGEEAELQASSNELKLSEDQFTRQKKMYEEGLVSLTQFQQRSISYQNAVAKKTASENKVAQTRQEITNTGIEQNAVVQDYTEKLSKIEGDRFQNMGHMEGSEGDIAKLENQVANYKARQRLYFIIATQDGQVVQLNKTGIGEVLKEGENIGIIVPTAVDYAVEIFIKPVDLPLVKEGQRVMCIFDGFPAIVFSGWPDSSYGTFAGKVVAVESNISSNGLFKALVTEDKKEKRWPPKIKMGGGVQGIAILNDVPIWYELWRNINGFPPDYYEVKNNQTVQYENAK				NA	NA	NA	NA	NA
BMS003_03805	1662			hypothetical protein	ATGGAAATAACAGCGCATGAACAGGGTAAACGACTGATTCGCTACATTACAAAAGAAAAAAAAGATGTCACTAATATTTATTTTTATGCAATCCTCAACGGTCTTGTTCTATTAAGTGTCCCATTGGGAATACAATCTATTGTAAGCTTTGTGATGGGAGCTACTATGACAACGTCTATCTACATTCTGATCTTTTTTGTTGTTATTGGAACATGGCTTGCCGGATATTTCCGGTTAAAAGTAATACAGATTATTGAAAAAATTCAGCAGAAAATTTTTGTAGAGTTTTCCATAGCTATTGCAGATAAAATCCCTAAAGCAGATCTTTCTTATACAAGAAAATATCATCTTCCGGAGCTGGTAAACCGTTTTTTTGACATTCCCAATCTACAGAAAGGCATTTCAAAAATACTGTTAGAAATTCCTACCGCTCTGATCCAGATTGTTTTTGGAATTCTCCTGCTTTCTTTTTACCATGCCTGGTTTTTAGCCTTTGGAGCACTGGTGATTATTTCTGTAGTAATTATCTTCCGCTATACGATGGAAAGCGGAATCAAATCCAGTATTGAAGAGAGCAATAAAAAATACGATACAGCGGCATGGATAGAAGATATTGCCGGTTCTGTAAAAACGTTTAAAATGCATTCTGAGAATAGCTCCCACTTAAAAGTAACTGACGAGAGAGTGATAGAATATCTTAAACACCGCACTTCTCACTTTAAAATTCTTGTCTTTCAGTACAAAACTATTATCGCTTTTAAAGTTATAATTACCTTGGCCATGCTCGTCATTGGGACCTATCTTCTGATCAATCAGAAATTAAACATCGGAGCCTTTATTGCTACAGAGATTGTAGTTTTAAGCATTATGTCTGCAGTCGAAAAGCTTATTGTAAGTCTTGAAAGCTATTATGATCTTATTGCCTCTTTTGCCAAGCTTTCAAAAATCACAGAACTTAAAGAAGAGTCCAATGGTGAAATTGTATTATCTCAAAAAGAAAAGGGAACAGAAATAGAATTTAAAAACGTAAACTTTTCATTTAGCGAAACTACCCCTATTCTTTCAGACCTGAATTTTAAAATTCAGGAAAACAGCATTACTGTTTTAACCGGTAAACTGGGAGCAGGAAAAACGTTGCTCCTCAACATGATCACAGGGTTTTTCGAGCCCAGCTCCGGAACGATACTGCTGGACAGAATCCCTTTACAAAATATTGATAAACAGAAACTCAGAAATAATATAGGTTTATACCTCGAGAATATGAAAATCATTCAGGGAACCGTGAAAGAGAATATCATATTGGGGAATTCCGGAAGTCATACAGAAGATATTATTGAACTCTCAGAAAATATAGGCATGGAAAATATTTCCAGTATGTTCAGCAGCGGATTTTCCACTGAGGTAAGCGAAACTGATTCTGAAATAACATTCAGTTCAAAGAAAAAAATACTGCTTCTGCGTGCCCTCCTCGGCGAAAAAAGGCTCATTATTCTGGAAAATCCGTTTGTAGGAATCCACGAAGAATATCAGGATAAAATGATGCAGTATCTACAGCAGGTCAAAGAAAAAACAACTATCATTATTGTTTCACAGGATTCCGAGCTTCTTCAGTATGCTGATCAGCATATTCATCTGGAAGACGGCACTTTAAAAACATATTAA	MEITAHEQGKRLIRYITKEKKDVTNIYFYAILNGLVLLSVPLGIQSIVSFVMGATMTTSIYILIFFVVIGTWLAGYFRLKVIQIIEKIQQKIFVEFSIAIADKIPKADLSYTRKYHLPELVNRFFDIPNLQKGISKILLEIPTALIQIVFGILLLSFYHAWFLAFGALVIISVVIIFRYTMESGIKSSIEESNKKYDTAAWIEDIAGSVKTFKMHSENSSHLKVTDERVIEYLKHRTSHFKILVFQYKTIIAFKVIITLAMLVIGTYLLINQKLNIGAFIATEIVVLSIMSAVEKLIVSLESYYDLIASFAKLSKITELKEESNGEIVLSQKEKGTEIEFKNVNFSFSETTPILSDLNFKIQENSITVLTGKLGAGKTLLLNMITGFFEPSSGTILLDRIPLQNIDKQKLRNNIGLYLENMKIIQGTVKENIILGNSGSHTEDIIELSENIGMENISSMFSSGFSTEVSETDSEITFSSKKKILLLRALLGEKRLIILENPFVGIHEEYQDKMMQYLQQVKEKTTIIIVSQDSELLQYADQHIHLEDGTLKTY				NA	NA	NA	NA	NA
BMS003_03806	1191	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATCTTCACGAGTATCAATCAAAAGAGATTTTATCAAAGTATGGAGTAGCTATCCAACGTGGTTTCGTTGCAAACAACGTAGATGAAGCTGTAGCAGCTGCTGAAAAATTGACTGCTGAAACCGGAGCACAGGCCTGGGTTGTAAAAGCACAGATTCACGCAGGAGGTCGTGGTAAAGGTGGGGGTGTTAAGTTTTCTCCAAATATGGATAAGCTTAAAGAAAACGCTCAGAATATCATCGGAATGCAGTTGGTAACTCCGCAAACTTCTGCTGAAGGTAAAAAAGTACACTCTGTTTTGATTGCAGAAGATGTTTATTATCCTGGAGAATCTGAAACTAAAGAATTTTATGTTTCTATTCTTTTAGACAGAGCTGAAGGGAAAAATACAATCGTATATTCTACTGAGGGTGGTATGGATATTGAGCACGTTGCTGAAGTAACTCCTCATTTGATCCACAACGAACTTATTGACCCGGCTATTGGTCTTCAAGGATTCCAGGCTAGAAAAATTGCTTTCAACCTGGGTCTTGAAGGAAATGCATTCAAAGAATTTGTGAAGTTCATTTCATCTCTTTACAATGCTTACACAGGAATTGATGCTTCTCTTTTCGAAATCAACCCAGTATTAAAAACTTCTGATAACAAAATTATCGCTGTAGATGCTAAAGTAACTTTAGATGACAACTCATTGTTCCGTCACAAAGACTTAGCTGAGCTTAGAGATACAAGAGAAGAAGATCCAATGGATGTAGAAGCGGGTGAAGCTGGTCTTAACTTCGTAAAGCTAGATGGTAACGTGGCTTGTATGGTAAACGGAGCTGGTCTTGCAATGGCAACTATGGATATCATCAAATTGTCCGGAGGTAACCCTGCAAACTTCCTTGACGTAGGAGGTACTGCAGATGCTCAGAGAGTACAGACTGCTTTCGGAATCATCTTAAGAGATCCAAACGTAAAAGCAATCCTAATCAACATCTTCGGAGGTATCGTAAGATGTGACAGAGTTGCTCAGGGGGTTGTAGATGCTTACAAAGCTATGGGTAGCCTTCCGGTTCCATTGATCGTAAGATTACAGGGGACTAACGCTGTAGAAGCTAAAAAATTAATTGACGAGTCTGGTCTTCCGGTACACTCTGCAATTACTTTGGAAGAAGCTGCAAACAAAGTAAAAGAAGTTTTAGCGTAA	MNLHEYQSKEILSKYGVAIQRGFVANNVDEAVAAAEKLTAETGAQAWVVKAQIHAGGRGKGGGVKFSPNMDKLKENAQNIIGMQLVTPQTSAEGKKVHSVLIAEDVYYPGESETKEFYVSILLDRAEGKNTIVYSTEGGMDIEHVAEVTPHLIHNELIDPAIGLQGFQARKIAFNLGLEGNAFKEFVKFISSLYNAYTGIDASLFEINPVLKTSDNKIIAVDAKVTLDDNSLFRHKDLAELRDTREEDPMDVEAGEAGLNFVKLDGNVACMVNGAGLAMATMDIIKLSGGNPANFLDVGGTADAQRVQTAFGIILRDPNVKAILINIFGGIVRCDRVAQGVVDAYKAMGSLPVPLIVRLQGTNAVEAKKLIDESGLPVHSAITLEEAANKVKEVLA	PGPT0019515_934	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
BMS003_03807	888			hypothetical protein	ATGGAGAAAACCGGACTCAGGTATATAGATGTTGTTTATAAAGTATTGGAAAATTGGTATATAACCTTTGCTGAGCTCACTCCAAAACTGACTGTCGGAATTTTAGTATTTACCTTTTTTCTTATTACGAGTAAATATTTAAGTAAAGGAGCTGTAAAATTATTTCATAGATTCTTTCCGAAAAGCCAAAAAGAAAGTTCACTGGTCACTTTAGTGAGTGTTTTCAGGTTCCTGATCATGCTGATGGGAACTTTTATTTCCCTTGAAATTATGGGATTCAGTGGTTTCCTATGGAAATTTATCGGAAGTTTAGGGGTTGCAGGAGTTATTGCAGGAGTTGCTCTGAAAGATCTTGTTTCGAGCATTTTCTCCGGAATGCTGATCGGAATTGACAAAGCATTTAAGGTGGGAGATTATATTACAATCGGTGCCCATTCCGGAACAGTACAGGAAATTGGATTCTTGACCACTAAAATTCTTACTGATGACGGTAAGAAGGCGTACATTCCTAACCAGGTTGTTTTCAATGCTCCTTTCTACAATATTACAGCTTCCCCACAACGCAGAATTATTTTGAATTTTGAAATCCCGGCTGATGAAGATATCAGCAAAGCACAAAAAGGTATTATGGATGTTATTAAAAATCTTGATAATGTAGACAAACCGGATACAATAGAAGTGATCTTTACAGACTTAAAACAGGGCGCATTTAATCTTCAGGTGAAGTTTTGGATAAAAATAGGTGCCAATCTCGCACAAATAAGAAGCAAGGCCTACTTAGGAATTAAAGACCGGTTGGATACGGACAAAATACAGTTGGTAACTCCAACGAGTATCAGTATTACTGGTGGTGAGACTGACATAACGGAAGGCCATCACGGTAAGTAA	MEKTGLRYIDVVYKVLENWYITFAELTPKLTVGILVFTFFLITSKYLSKGAVKLFHRFFPKSQKESSLVTLVSVFRFLIMLMGTFISLEIMGFSGFLWKFIGSLGVAGVIAGVALKDLVSSIFSGMLIGIDKAFKVGDYITIGAHSGTVQEIGFLTTKILTDDGKKAYIPNQVVFNAPFYNITASPQRRIILNFEIPADEDISKAQKGIMDVIKNLDNVDKPDTIEVIFTDLKQGAFNLQVKFWIKIGANLAQIRSKAYLGIKDRLDTDKIQLVTPTSISITGGETDITEGHHGK	PGPT0013773_1272	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS003_03808	630		COG0450	Peroxiredoxin	ATGTCAATCAAACTAGGAGATACAGCACCCGATTTTCAGGCAGAGTCATCTGTAGGGAATATAAGTCTTTATAATTATCTGGGAAATTCCTGGGGAATCCTGTTTTCGCATCCTGCAGATTATACACCGGTATGCACTACGGAACTGGGATATACGGCAAAACTGCAGTCTGAATTTGAAGCCAGAGATACAAAAGTAATTGCACTGAGCGTAGATGGAGTAGAAGACCATCAAAGTTGGGTGAAAGATATTAATGAAACTCAGGACGTCAATGTACAGTTTCCTATTATTGCTGATAAAGACAAAAAAGTTTCGGAGCTGTATGATTTTATTCATCCTAATGCTTCGGCTACCGCTACTGTACGCTCTCTTTTGATTATCGATCCTTCCAAAAAGGTAAGACTGATTATTACCTATCCTGCCTCTACGGGAAGAAATTTTGTGGAGAGAGTACTTGATTTTTTGCAGTTAGTAGATAATTACCATGTGGCTACTCCTGTTAACTGGGAAAATGGGGAAGATGTTATTATTCCGCCCACTGTTTCTACAGAGGAGGCCAGGAAAATATTCCCAAAAGGTGTAACTGAAATAAAACCGTATCTGCGGTACACTCCCCAACCTAATACATGA	MSIKLGDTAPDFQAESSVGNISLYNYLGNSWGILFSHPADYTPVCTTELGYTAKLQSEFEARDTKVIALSVDGVEDHQSWVKDINETQDVNVQFPIIADKDKKVSELYDFIHPNASATATVRSLLIIDPSKKVRLIITYPASTGRNFVERVLDFLQLVDNYHVATPVNWENGEDVIIPPTVSTEEARKIFPKGVTEIKPYLRYTPQPNT	PGPT0007245_3	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS003_03809	594			hypothetical protein	ATGAAAAAACTTATTTTAACAGGGATATTAGCCGTAGCAGGCTTAACAGCAACTGCAAACGCTCAGATTCAAAAAGGTAATTGGATGGTAGGTAGTAGCTTGGCAACAAGTAATTTTGGATTAAATACAGGAGGTGGGTACCAAATTAACCTACAACCAAAAGGAGCTTATTTTATTGAAGATAACTTAGCTGTTGGAGGATATGTAAATTTAGGTATTGGTAAATCTTCTAACACTTCAAATACAAGGTTTGATTATGGAGTTGGGGCTTTAGGGCGTTATTATCTTTCTCCTGGAGAAAAAGGTGTTGATAACTTATTACACCACGGAAGATGGTTCTTCGAAGGTAATGTAGGAGTTGGTGGTTACTCTATAAGCAAAGGAGGCAACTCTACAACAGGTCTTGACTTTGGTGTAGGACCAGGTTATTCTTACTTTATCACTCCAAATATTGGTTTAGAAGGTTTGGTAAAATATGCTGGTGTTACAGGTTTCGGAAATCAAGGTTTAACATCTAATATTACCTTTAACCTAGGATTTAGTATTTATTTACCTACATCTAAAGCTAAGCAAGTTATAAAAGATGTTAAGTAA	MKKLILTGILAVAGLTATANAQIQKGNWMVGSSLATSNFGLNTGGGYQINLQPKGAYFIEDNLAVGGYVNLGIGKSSNTSNTRFDYGVGALGRYYLSPGEKGVDNLLHHGRWFFEGNVGVGGYSISKGGNSTTGLDFGVGPGYSYFITPNIGLEGLVKYAGVTGFGNQGLTSNITFNLGFSIYLPTSKAKQVIKDVK				NA	NA	NA	NA	NA
BMS003_03810	516			hypothetical protein	ATGGATAAGATTAAAGACACAAGAACCTTCATGAGAATTACACACCGTTATCTGGGATATTTCCTTGCCGGAATTATGACAGTATATTCTTTAAGCGGAATCCTTCTGGTATACAGAGACACAGATCTCTTGAAAAGCGAAAAACAGTATGAAAAAAACATTGCAGCCAATCTTTCAGAGAAAGAACTGAAAAAAGAGCTGAAGATGAAAGGTCTGGAAGTGGAGAAAACAGAAGGCAGTGTTCTTTATTTTAAACAAGGGACTTACGACAGCGCAACCGGAAAAGCGAAGTATACCAAAAAGGAATTACCTTTTGTACTGGACAAAATGGTTTCCCTTCACAAATCACAGTCTAAAGATGCGATATCACCTTTAAGCGTATTCTTTGGGACTTCACTTTTCTTCTTTGTGATTTCAAGTTTCTGGATGTTTAACCCTAAAACAAAAGCATTCAAACGTGGAATTAAGTTTACCATTGCAGGACTTATCATCTCTGTGATTCTTTTGCTTATTTAA	MDKIKDTRTFMRITHRYLGYFLAGIMTVYSLSGILLVYRDTDLLKSEKQYEKNIAANLSEKELKKELKMKGLEVEKTEGSVLYFKQGTYDSATGKAKYTKKELPFVLDKMVSLHKSQSKDAISPLSVFFGTSLFFFVISSFWMFNPKTKAFKRGIKFTIAGLIISVILLLI				NA	NA	NA	NA	NA
BMS003_03811	2193	cntO_7		Metal-pseudopaline receptor CntO	ATGAAAAGACAATTACTTTCTTTAGGACTTCTGTTTATAGCTGTTTCTGCGAGTTCCCAGATGAAAAATGCGGAAGCAGATACGATCAGAACTCAAACTATTGAGGATATTAATCTTCATAAAACAGGAAATCCTAACCAGGCAAGAGCACTTTCGACAAAATCAAACCTGACAGTAATGGAAAATCCACAGCCTATTGCTATTGTTACTCACGAAATTATTGAGCAGCAACAGGCAAAACAATTGAGTGATGTTATTAAAAACGTAAATGGTATTTATTTAACATCTGCAAGAGGAGGGTCTCAGGATAGTTTTGGGGGAAGAGGTTTTACATTTGGAAATGATAATATCTTTAAAAACGGTGCAAGAGTAAGCAGCGGGATCTTTCCTGAAGTAAGTGGTCTTGAAAGAGTAGAAGTTTTAAAAGGTGCAAATGCCATGTTATATGGTAACGTAGGACCTGGCGGAATTGTAAATCTTATTACAAAGAAACCCAGGTTTGAATTTGGCGGATCTGTCGGGTTAAATGGGGGTAGCTGGAATTCCTACAAACCTATGTTTGATATCTATGGACCATTAAGCAAAAAAGTTGCTTTCAGGATAAATGGAACTTACGAATATGCTGAAAGCTTCAGAGATATGGTAGAGTCTAAAAAACATTACTTCAACCCATCTTTTGTTTTCAATTTAAGTGAAAATACTCAGCTTATTGTAGAAGGTGATTATTTGCATCATAATTTCACTCCTGATTTTGGAATTGGAAGTGTTACTGATAAAACTACCGGAGTATCCAGATTAGCTACTGAAGTTGACCGCAGAAGCTTTTTGGGAGCTAACTGGCAGTATCAAACCAACCAACAGGCTACTACAGATGTTATTTTAAATCATCAACTGAATAGCAAATGGAGTTTAAATGCAGTGGCTTCTTATCAGAATTATACAAAAGATTATTTCTCAACAGAAAGAATCCAATGGCAGTATGAATCTGCAAAAGACAACTTTAACCCATCCTGGTCAAGAACTTTAGGCAGAAACTATACGGAACAAAACTATACTTCATTACAGGTTAACCTGAATGGTGAATTCAAAACCGGAAATATCATTCACAAAGTACTATTCGGAGCTGACGGAGATTATGGTATAGCAGATACTTATGCTTATGGTTTTAATAACTCTGCCAATTCTAATTACGGAACTTTATATTTAAATGATCCTTCTACCTGGTCAAATGATGGGGCTATGCCGGATACATACAGATCATCCAGAAACAGGATCGCGACAAAAAGGTTTGGGCTTTATGCACAGGATTTAATCAATATTACCAAAGAGTTCAAAGTATTGGCTGGGGTAAGATGGTCTTATTTAAAAAATGAAGATACTAAGGTAAAAGATTTCTTACAGGGAACTGAAACACCTAAAGCAGCCAGCGGTTCACAAGCTCATGCTGTATCTCCGAAAGTAGGCTTGATTTATAATCCCAATGACAATTTATCCGTTTTTGCAACCTATACCAATTCATTCTCACCGAATTCCGGGTTCGATCAAAACGACCAGTCTTTAAAAGCCTCCACTATTGACCAGTATGAGGTAGGTATTAAAAAGAATCTTTGGAATAATGCTATTGCTGTAAACTTAACTGCCTATCAGATAAACAACAGAGACGCTTATACTTCACCCTACCTTACAGACAATAAAGTGGCACTGTATAAAGTATACGCCGGTAATATAAGAAGTAGAGGTGTTGAATTGGATATTACAGGAAACCCCACAAAATATCTGTCCCTAATAGGAGGTATTTCTTATAACAACACAGTATATACAAAAACACCTGATAACGGGTTTATTGAAGATCAGAGATTAGTAAGAACCCCTGCAGTTACAGCTAATGCATCTGTATTCTATACCTTTACAGATTTTGCAAAAGGTCTGAAAATAGGAGCTACAGCATTCTACACAGGAAAAAGACAGGCTGGTTGGAATGATGTGAAAGGACAGGCTCAGCAGACAAGAATAATTGATATTGAGGGCTTTACCACTGTTGATATAAGTGTAGGTTACGGCTGGAAAAAATTCTCTATTCAGGGGAAAGTAGGCAACCTGTTTGATGTCGTAAACTATAATGTTCACGAAAATTATTCAGTAAATCCTATTACTCCTAGAAATTACTATTTCACACTGACATACAGACTTTAG	MKRQLLSLGLLFIAVSASSQMKNAEADTIRTQTIEDINLHKTGNPNQARALSTKSNLTVMENPQPIAIVTHEIIEQQQAKQLSDVIKNVNGIYLTSARGGSQDSFGGRGFTFGNDNIFKNGARVSSGIFPEVSGLERVEVLKGANAMLYGNVGPGGIVNLITKKPRFEFGGSVGLNGGSWNSYKPMFDIYGPLSKKVAFRINGTYEYAESFRDMVESKKHYFNPSFVFNLSENTQLIVEGDYLHHNFTPDFGIGSVTDKTTGVSRLATEVDRRSFLGANWQYQTNQQATTDVILNHQLNSKWSLNAVASYQNYTKDYFSTERIQWQYESAKDNFNPSWSRTLGRNYTEQNYTSLQVNLNGEFKTGNIIHKVLFGADGDYGIADTYAYGFNNSANSNYGTLYLNDPSTWSNDGAMPDTYRSSRNRIATKRFGLYAQDLINITKEFKVLAGVRWSYLKNEDTKVKDFLQGTETPKAASGSQAHAVSPKVGLIYNPNDNLSVFATYTNSFSPNSGFDQNDQSLKASTIDQYEVGIKKNLWNNAIAVNLTAYQINNRDAYTSPYLTDNKVALYKVYAGNIRSRGVELDITGNPTKYLSLIGGISYNNTVYTKTPDNGFIEDQRLVRTPAVTANASVFYTFTDFAKGLKIGATAFYTGKRQAGWNDVKGQAQQTRIIDIEGFTTVDISVGYGWKKFSIQGKVGNLFDVVNYNVHENYSVNPITPRNYYFTLTYRL	PGPT0003790_19084	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
BMS003_03812	1410			hypothetical protein	ATGAAAAAAATAGCACTAGCATCAGGAACACTATTGCACTTATACTGTATTAAAGCACAGGATACTATCCGGATAAAAACACAGGATTCAGCCCAAACCAGAAACCTTAAGGAAGATCTCGCATTAATCAATTCTCATTATGAAGTCAAAGAGAATCCTTCTTTTTTCAAAAAAGAATGGGTAAAAAAATCAGTGGCTCCCGCACTCCTTTTTACTGCAGCAGCGGCAACTTGGGGAGAAAAGGAAAATATCCGTGAGGTAAGGAATCGATACCTTCCCAACTTTAAAGTAAAATATGACGATTATCTTCAGTATGCTCCTGCAGCAGCTGTTTACGGATTAAAACTGGCTGGCGTAAAAGGCAGAAATAATCTGGGAAGAGCAACCTTGTCTTATGGGACAAGTTTGGCGATCATGGCAATTTTAGTCAATTCAATAAAATATACCGCCAAAGTAGAACGTCCGGATGGCTCCAAAAATAATTCTTTTCCTTCAGGACATGCTGCTATGGCTTTCACTAATGCCAGCTTTCTACACAAAGAATATGGTATGGTAAACCCTGCTTACAGTATTGCAGGATACGGTTCTGCTACTCTTACTGGAATTGGGAGAAATTTAAACAACAGACACTGGGTACCTGATATTCTTGCCGGTGCAGGGATTGGAATTTTATCTACAGAGCTTGGATATTTCTTTATTGATAAAATTTATAAGAATAAAGGGGATAATTTAAGCATTCTATCCAGAATACAGGGAAATGACTACCCTTCTTTTCTTTCTTTAAAAATGGGTACCGCATTAGGTACCACCAACTTTCTGAGAGAATCTGAACTGGATGACAAAAAGCAAATTGGTTTTGAAGGCGGATTGGAAGGAGCCTATTTCTTTTCTAAAAAATGGGGTATAGGTGCAGATATTTCTTTCAGCAGCTTCCCTATTAAATCTCAAAGAATAACTTTTGATGATGAACAGGATTTTGGTGATCACGAAATTAAAACACAATCTATGGGCTTTCTGGCCGCAGGCATAGGACCTTATTTCTCTCATGAATTATCCGACAAATGGTTACTCACTGTAAAACTTACCGGAGGGTATGCTGCAACGGCCAGTGGAAAAGTATTTGTAAAAGGTAATGATATAGAGACTCCTAATCATGAGCTTCAGATAGCCACATACAAACCTAAACCTGCTTTCCGATGGAATACGGGTGCATCTATGACTTACAAATTCAATCCGGGACTGGGTCTTACTTTTTATACAGATTACAACCAGATCAACTCCACCATCCGTTATTACTTCAGTGATGAAATTACGGAAAGCGCTGAACTGGAACAGGAACTTAACAATATAATTGCTAAAGAAAAAATCAATTATATTACTTTAGGTTTAAGATTAACTGCCTATTTTTAA	MKKIALASGTLLHLYCIKAQDTIRIKTQDSAQTRNLKEDLALINSHYEVKENPSFFKKEWVKKSVAPALLFTAAAATWGEKENIREVRNRYLPNFKVKYDDYLQYAPAAAVYGLKLAGVKGRNNLGRATLSYGTSLAIMAILVNSIKYTAKVERPDGSKNNSFPSGHAAMAFTNASFLHKEYGMVNPAYSIAGYGSATLTGIGRNLNNRHWVPDILAGAGIGILSTELGYFFIDKIYKNKGDNLSILSRIQGNDYPSFLSLKMGTALGTTNFLRESELDDKKQIGFEGGLEGAYFFSKKWGIGADISFSSFPIKSQRITFDDEQDFGDHEIKTQSMGFLAAGIGPYFSHELSDKWLLTVKLTGGYAATASGKVFVKGNDIETPNHELQIATYKPKPAFRWNTGASMTYKFNPGLGLTFYTDYNQINSTIRYYFSDEITESAELEQELNNIIAKEKINYITLGLRLTAYF				NA	NA	NA	NA	NA
BMS003_03813	1866			hypothetical protein	ATGAAGAAAATTTTTTCCGGAATGCTGATGGTCGTTTCCTTACTGCAATTGTCTGCACAGGAACTGTATATGCCGAGAAATATAAAAAAAGCGTATGAAAATGGGACACGTGATACCTCTGGAGCGCCTGGCAAAAATTATTGGCAGAACAAAGGAGTATATAATGTGAATGTGAAGGTGGATGCCAATACAAAAATAGTTTCCGGAAAAGAAACCATTGTCTATACCAACAACAGTCCGGATAACCTTAATGAACTGGCTATACGATTTGTAAATAACCTTCATAAGCCACAGTCGGCAAGATCAGGATTTGTATCTAAAGATTTTCTCTCATCAGGACTGAAAATTAACTCTTTCATCGTAAACGGTGAAAAATATGATATCAATAGTGATGACTGGAGTACGGTTGAAAAAGTAAAATTGAAATCAGCTTTAAAATCCAAATCAAAAGCTGAAGTTAAAATAGAGTGGGAGTACCCATTGTCTGTACAGAGTGGCAGAGAAGGTCAGATTGATCCTGAAACATTCTATGTTGCTTATTCTTTTCCTAGAATTTCCGTATATGATGATTACAACGGATGGGATATGCTTCAGCACTCAGACAGACAGGAGTTCTACAATGACTTCAATGATTACAGCTTTGCCATCACTGCACCCAAAAATTATGTAGTATGGGCTACCGGAGATTTTCTGAATCCTGAAGCTGTACTTCAGCCGGAGTACTTAAAAAGATATAAAGCTTCATTAAAGAGCGATAAAGTAATGCATATTGCTACAGAGCAGGAAATGAAGTCCGGAAAAGTGACCCTGCAAAACAAGTGGAACGTTTGGAAATTTAAAGCCTCCCATATCACAGATTTCTGTTTTGCTATGAGCAATCATTATGTGTGGGATGCAGCCAGTGTTCAGTTGAAAACAAAAAGAGCCAGTGTTCAGGCAGGATATAATAACGGAGCCAAAGATTTTGAACATTATGTAGACTGGATGCGCTATAACCTGGATTGGTTCTCGAAAAACTGGCCTGGAGTAGAATATCCCTATAATGTAATGACAGCTATTCAGGGATATGCGGATATGGAATATCCAATGATGATCAATGATACCAGTATTCCCGAAGATCTTCAGGATGCAAGGCTTACTGCTGATCACGAAATTGCCCATACTTATTTTCCATTCTACATGGGAATCAATGAAACAAGATATGCATTTATGGACGAAGGCTGGGCGACCACGCTGGAATATCTTATAGGAATTGATGAAAACGGAGAAGCGGCAGCTAAAGAATTTTATAAGAACTTCCGTGTTAAAAGATGGATCAATGATCCTTCTGCAGAACAGGATCAGCCGGTGATCACCATGAGTACTCAGGTAAGCGGTGCAGGATATGGAAACAATTCTTATGTGAAAGCATCTTTGTCTTATCTGGCTCTGAAAGACTATTTGGGAGATGAACTCTTCAAAAAGGCACTGCATCATTATATGGACAACTGGAATGGGAAGCACCCGGTTCCATGGGATTATTTCAACTCAATGAATACAGGGTCAGGTAAAAACCTGAACTGGTTCTTCCAGAATTGGTTTTATACCAATAACTATATTGATTTAAAAGTAACAGAAGCCTCCCAGATGAATGATATGCTGACTGTAAACGTTGCAAATGTAGGAGGGTTTGCCATTCCCTTTGATGCTATATTGGCTTATGAAGACGGAACAACAGAAAAATTACATTTTTCACCCTCTGTCTGGGAAAAGGATCAGAAACAGACAGATCTTGTGATTCCTATTAAAAAGAAAATAAAATCTGTTCAGCTGGATGGAGATCTCTTTATGGATTATACTCCGGATGATAACCGTAAAATCTTATAA	MKKIFSGMLMVVSLLQLSAQELYMPRNIKKAYENGTRDTSGAPGKNYWQNKGVYNVNVKVDANTKIVSGKETIVYTNNSPDNLNELAIRFVNNLHKPQSARSGFVSKDFLSSGLKINSFIVNGEKYDINSDDWSTVEKVKLKSALKSKSKAEVKIEWEYPLSVQSGREGQIDPETFYVAYSFPRISVYDDYNGWDMLQHSDRQEFYNDFNDYSFAITAPKNYVVWATGDFLNPEAVLQPEYLKRYKASLKSDKVMHIATEQEMKSGKVTLQNKWNVWKFKASHITDFCFAMSNHYVWDAASVQLKTKRASVQAGYNNGAKDFEHYVDWMRYNLDWFSKNWPGVEYPYNVMTAIQGYADMEYPMMINDTSIPEDLQDARLTADHEIAHTYFPFYMGINETRYAFMDEGWATTLEYLIGIDENGEAAAKEFYKNFRVKRWINDPSAEQDQPVITMSTQVSGAGYGNNSYVKASLSYLALKDYLGDELFKKALHHYMDNWNGKHPVPWDYFNSMNTGSGKNLNWFFQNWFYTNNYIDLKVTEASQMNDMLTVNVANVGGFAIPFDAILAYEDGTTEKLHFSPSVWEKDQKQTDLVIPIKKKIKSVQLDGDLFMDYTPDDNRKIL				NA	NA	NA	NA	NA
BMS003_03814	2370			hypothetical protein	ATGTATAAAATTCTTTTTCTTTTGTGTTTTCCGGTCTTGATTTTTGCCCAGAAACAGAAATCCGGAGGAACAGTAATGAACTCCGAAAATGAAAAACTCTCATCGGTAAAGGTGGAAGTGTATAATGTTCAAAACGAATTAATCAAAGAAATAAAAACGGATGATAACGGAAGGTTTGTTCTGGAAGGGATTACGGAACAAGAGGTAAAGCTGCTTATTAAAAACCAGGGATATGCTTTATTTGAGAAAAAACTGGATTTAAATGAATCCAAACCTCTGAATATTATTCTTAAAAAACAAGCGCACGAAATAGAAGAAGTAGTAATGACGAAACGCAAACCTTTGGTGAAAAGAAAGGTAGACCGCCTGGAATTTAATGTGGAAAACAGTAATATTTCATCACTTAATGCCTGGGAAATTCTAAAAAACACACCCACTGTTACCATTAATAACAGCGTTTTGAGTGTAAGGGGGAGTACCGGAATTCTGGTGACAATTAATGATAAAAAAGTAATGCTGACAGGAGATGAGCTTAAAAATCTTTTGGAAAATACACAGGGAGATGAGGTGAAGTCCGTGGAGGTGATCACCAATCCTCCTGCAAAATATGAAGCCTCAGGAAGCGCTGTACTGAATATCGTGCTGAAAAAGAATAAAATTGAAGGCTACCGAGGAATTCTCTCGTCCAAATATGTGCAGACTCAATATGCAAAAGGTGTTTTTGGACTTTCCCAATATTATAAAAAAGATAAACTTTCCGTTATGGGAAGTTATTATAGAGGGCTTGGAACGTACTACCGGGAAGGGACAGACTATGTAAACTACCCGGAAAGCCAGACCCGATGGATAAGTACAATGAACAGGAAGGATAAAAACTATAACCAGAATACCCTGAATTTTAATGCGGAATATGAACCGGACAGCTTGACCAGTCTAAGCCTTAATTACTCAGGGTATTTTTCTCCGAAATCTTTTGGAACTTATAATGTTCCTACACTGATCTATAATCAGCAGGATATTGCAGAATCTGATTATACCACCATCAATGATCATAGGTCACGCTCCATCAATAACTCTGTGAGTTTCCAGATAGACCGGAAACTGAATAAAAAAAGCAACCTTTCCTGGATCAGTTATTTTACAGGAAATAATGCCGATAAGTATCAAAATGTAATCACCCATCTGAATTTTGCAGGACAACCACCAAAAGAAGATAATTTTCTTACTCAGAATAAAACCGATGTTCAGCTATATTCTACCCAATTTGATTATCAGTGGAAGGGAGAAAAACTGGAGTTTGAATCCGGAACGAAATATAGTTTTGTAAAAACCGGCAGTAAACTGGATTTCTCCGATAATGAAAATGGAATATTACAGTACAGACCAGAGAAAAGCAGTATTTTTGATTATAGAGAACATAATTTTGCCCTGTATTCTTCACTAGCTTACGATATCGGGAAATGGAGCTTCAAAGGAGGGCTTCGTGCGGAAATGACAGACCTTGAAGGAATAGTTTCCGAACCTTATGAATTGAATAAAAGCAATTACTGGAAATTCTTTCCCACTTTCTATGCACAATATACCACAGAAAACAAACAGGAATTTGGTTTTTCCTATGGAAAAAGAATCAGCAGACCTTCCTATTCATGGCTGAATCCGGCAAAGTCTTATTACAATCTTTTTTCCTATTATCAGGGAGATCCAAAGTTAAAAGCAACCATTACCCATAACCTCAATCTTACCTATTCCTGGAAAGACTGGAATCTGGATTTCTACTATAGAAAAGAAATATATCCGTCTATGGAAATCTCCTATCAGGAACCAAGTACGAACAGCCTGATTTATTATTTTACCAATATCGAGAAAGGAGAAGCTTTCGGATTAAACTTATATAAAAATTTTCAGATTAAGCCTTGGTGGAATATCATCCTCTCCGAAAACCTTGAACACAATGAAAATTACTTCAAAGGAACAGACGGAATGCTGTATAAAAATCAGGTCTGGAACTGGGTCTCCAATATTTCCACAAGTTTTACCCTTGATAAAAGCAGTGATTGGAAAATGGAAATGGGACACCGTTACTATTCTCCGGGAATACAGGGAACATTCAGGATTTCCTCTCTCTGGTCAGCCTATTTTGTAATGAACAGGAAATTCTTCAGTAAAAAACTGGAAGCCAGTCTTGTTTTTACAGATATTTTCAGATCTACAGGTCAGAAAGTGAGCACTAAATATGCAAATCAGGATAATTATTTCCTTGATTATACAGATACCCAGGGAGTTTCATTTTCATTGAAATTCAATTTTGGAAATCAGGCTGTGAAAAACGCAAAAACCATTAAAAAAACTGCGGAACAGGATAGACTCTAG	MYKILFLLCFPVLIFAQKQKSGGTVMNSENEKLSSVKVEVYNVQNELIKEIKTDDNGRFVLEGITEQEVKLLIKNQGYALFEKKLDLNESKPLNIILKKQAHEIEEVVMTKRKPLVKRKVDRLEFNVENSNISSLNAWEILKNTPTVTINNSVLSVRGSTGILVTINDKKVMLTGDELKNLLENTQGDEVKSVEVITNPPAKYEASGSAVLNIVLKKNKIEGYRGILSSKYVQTQYAKGVFGLSQYYKKDKLSVMGSYYRGLGTYYREGTDYVNYPESQTRWISTMNRKDKNYNQNTLNFNAEYEPDSLTSLSLNYSGYFSPKSFGTYNVPTLIYNQQDIAESDYTTINDHRSRSINNSVSFQIDRKLNKKSNLSWISYFTGNNADKYQNVITHLNFAGQPPKEDNFLTQNKTDVQLYSTQFDYQWKGEKLEFESGTKYSFVKTGSKLDFSDNENGILQYRPEKSSIFDYREHNFALYSSLAYDIGKWSFKGGLRAEMTDLEGIVSEPYELNKSNYWKFFPTFYAQYTTENKQEFGFSYGKRISRPSYSWLNPAKSYYNLFSYYQGDPKLKATITHNLNLTYSWKDWNLDFYYRKEIYPSMEISYQEPSTNSLIYYFTNIEKGEAFGLNLYKNFQIKPWWNIILSENLEHNENYFKGTDGMLYKNQVWNWVSNISTSFTLDKSSDWKMEMGHRYYSPGIQGTFRISSLWSAYFVMNRKFFSKKLEASLVFTDIFRSTGQKVSTKYANQDNYFLDYTDTQGVSFSLKFNFGNQAVKNAKTIKKTAEQDRL				NA	NA	NA	NA	NA
BMS003_03815	1323	sasA_10		Adaptive-response sensory-kinase SasA	ATGATAGCCAAGAGTAAAATTCTGATTTCGGTATTTGCCGCTCTGTTCCTACTTTTATTGGGAATTCAGGTGTATTTTATGTATAAGACCTATCAGGTAAAAGAAAGGGATATCTACAGATCCGTGAATGAAGGGCTTACCAGTTATACAGATGATATTGACGACATCCAGGAGATCAAAGAAAAGAATGATGATTCTCTTCAGGAAATCATCATACAGTATCATAATAAAGAGATCAACAGAAAGGATTTTCTCAGTTATTTCTTAGAAAACAGAAAATCTGCCAGAGAAAGACTGATCCATTATATTGACAGCCGTTACCAGAAAGACGGCTATGAAATTTCTGCCAGAATAAGATATCTTTCTATTGTTCATCTTCCGGACAGTACTAAAGTAATCACTGAGCCTATTGTTATTTTTGAAACACAGGATAAGATAAGGCATCCCCGTATTGCCAGTAACGGAAGCTGGGAAACTTCAACCACCAAAAGAGATGATACTGAGAAAGGTCAGGTTGAAAAAAGAAATACATTTCTTGTCAAAACCCAGACAGATTTTGAGATTAAAAATATAAAAAGTATTGTTTTCAGGGAGCTTACTTTATTGATCATCTGTTGTATTATTCTTCTTTCCGGTGTTCTTCTGCTTTATATTTTCACGATTAAGAATCTGATCCGCCAACAGAAACAGGTGGAAGTTCTCCACACCATTGTGGATAACATTTCTCATGAGTTTAAAACTCCGATCGCTACTTTAAAAATAGCTTCAAAAGCATTAAAAAAAGAATTTAATCCGGAAACACTTCCTCTCATCGACAGGCAGATTTCCCGGCTTGAAAGTCTGATGTTTCAGCTTCATAAGGATGAAATGCCGGATGAAATGATTGCTATACAGCCCGAGAACTGGAGCTTTTTTATACATGATCTTTCGGTTACTTACCCGGACATTGATTTTAATCTTAAAAATTCAGTTTCACAAAAGCTTCCTTTTGATAAAAACCTGATGGAAACAGTCATTAAAAATCTTTGTGAAAACAGTATAAAATATGGAGCTTCAGTAGTTACAATAAATCTTCACAACAGTTTTCAACAATTGGAAATCGAAGTTTCTGACAATGGGCAGGGCATGGAAGCCAAAGAACTGAACAACATTTTTGAAAAATTCTACCGAATACAGAATAACAATATCCACAACAGTAAGGGGCTTGGACTAGGGCTTTATTTCGTGAAGAAGATCATTACAAACTATGGCGGAAAAATAGAAGTTTCCAGCCGGCTCAATACAGGCAGTACTTTTAAAATATCAATTCCTTATGAAAACTAA	MIAKSKILISVFAALFLLLLGIQVYFMYKTYQVKERDIYRSVNEGLTSYTDDIDDIQEIKEKNDDSLQEIIIQYHNKEINRKDFLSYFLENRKSARERLIHYIDSRYQKDGYEISARIRYLSIVHLPDSTKVITEPIVIFETQDKIRHPRIASNGSWETSTTKRDDTEKGQVEKRNTFLVKTQTDFEIKNIKSIVFRELTLLIICCIILLSGVLLLYIFTIKNLIRQQKQVEVLHTIVDNISHEFKTPIATLKIASKALKKEFNPETLPLIDRQISRLESLMFQLHKDEMPDEMIAIQPENWSFFIHDLSVTYPDIDFNLKNSVSQKLPFDKNLMETVIKNLCENSIKYGASVVTINLHNSFQQLEIEVSDNGQGMEAKELNNIFEKFYRIQNNNIHNSKGLGLGLYFVKKIITNYGGKIEVSSRLNTGSTFKISIPYEN	PGPT0002705_2570	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS003_03816	687	ompR		Transcriptional regulatory protein OmpR	ATGAAAACTAAAATCCTTCTGGCAGAAGATGATCCGGATTTCGGAATGATCCTTAAGCAATATCTTGAATTGGAAGATTTTGAAGTCAGCTGGTTTCAGAATCCTGAAGATGTAGTACCATTGCTTAAGGCTGATTTTTCTTTTCAGATAGGAATTCTGGATGTGATGATGCCTAATATAGACGGCTTCTCACTGGCAAAAATGATCATTAAGGAAAAAAGTAATTTCCCATTGTTATTCTTAACGGCAAAAAATCAAAAAATAGACAGACTGACCGGGTTGAAAATAGGTGCAGACGATTATATTGCCAAACCCTGTGATCCGGAGGAACTTGTTCTGCGGATTAAAAACATTCTGAAAAGAACACTTCCCGCCGTTACGGAAACGCAAATAAAAATCGGAGAATTTTCACTGGATACGGCCAAACTTCTGTTATCTCATCCTGACGGAAACAACCGGCTTACAATACGGGAACAGGAGCTGTTGCTGTATCTTCTGAAATACAACCGATCTATCATTACAAGGGATAATATCCTGGATAATCTTTGGGAAACCAATGATTATTTTACGGGAAGAAGTCTGGATGTTTTTATCAGCAGGCTTCGTAAGTATTTCAACTGTGATCCTCAAATAAAAATCCAATCCCTGAGAGGAATTGGATTTGAAGTCGATTTTCCAACCAACTGA	MKTKILLAEDDPDFGMILKQYLELEDFEVSWFQNPEDVVPLLKADFSFQIGILDVMMPNIDGFSLAKMIIKEKSNFPLLFLTAKNQKIDRLTGLKIGADDYIAKPCDPEELVLRIKNILKRTLPAVTETQIKIGEFSLDTAKLLLSHPDGNNRLTIREQELLLYLLKYNRSIITRDNILDNLWETNDYFTGRSLDVFISRLRKYFNCDPQIKIQSLRGIGFEVDFPTN	PGPT0015125_60	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015125-cssR-K07770	NA	NA
BMS003_03817	828			hypothetical protein	ATGAATTTCAGATTTTCAATGATATTTCTGATGCTCTTTGCATTAGGATTTTCACAGGACCTTACCGTAATGAGTTTTAATATCAGACTGAATGTAGAGTCAGATCAGGATAATGCCTGGCCGAAGAGAAAACAGGACGTTGCAGATTTACTCACCTATTATCATCCGGATTATTTCGGAGTGCAGGAAGCACTTCCTGAGCAGATGAAAGATATTAAATCAGGATTAAAGAACTATGATTATATAGGAGTAGGAAGAGATGACGGCAAAGAAAAAGGAGAGTTTTCTGCTATTTTTTATGATACAAACAAACTTGCAGTGATAAAATCCGGGACGTTCTGGCTGTCTGAAACTCCTGAGAAACCTTCAAAAGGCTGGGATGCTGCACTGAAGAGAATCTGTACGTATGCCGTATTTAAAGATAAAAAATCAAAGAAAGAATTTCTGGCAATGAATCTTCACTTCGATCACGTAGGAAATGTAGCCAGAGTAAAATCTTCCGAACTGATCCTGAAAAAAATCAAAGAACTGAATCCAAAGAATCTTCCGGTAACGCTGAGTGGAGATTTTAACCTTACAGATGACTCTGAACCTATTAAAATTCTTTCTCAGAATATGAAGGATACTTTCTATCATTCAGAAACCAGACATTATGGTCCTGTTGGAACTTTCACAGGCTTCAACGTGAATGAAGTACCTAAAGACAGGATTGATTATATTTTTACAAAAGGCTTTAAGATAAGATCTCACAGACACATTAATGACAGACGGGAAAATCTTTTGTATCCGTCAGATCATTTCCCGGTGATTGTGAATCTTTCCCTATAA	MNFRFSMIFLMLFALGFSQDLTVMSFNIRLNVESDQDNAWPKRKQDVADLLTYYHPDYFGVQEALPEQMKDIKSGLKNYDYIGVGRDDGKEKGEFSAIFYDTNKLAVIKSGTFWLSETPEKPSKGWDAALKRICTYAVFKDKKSKKEFLAMNLHFDHVGNVARVKSSELILKKIKELNPKNLPVTLSGDFNLTDDSEPIKILSQNMKDTFYHSETRHYGPVGTFTGFNVNEVPKDRIDYIFTKGFKIRSHRHINDRRENLLYPSDHFPVIVNLSL	PGPT0019380_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0019380-EC_3_2_1_197-K21065	NA	NA
BMS003_03818	204			hypothetical protein	ATGATCACTTATCTTGCAGTGTTGAAAAAAGATATAAACATTAAAAAGCTGGACGCACTTCTTAAAAGCAAAAACATAAAACTGGCTTCCCATTACAAAACCATAGGCGTTGTAAAGCTTGAAAGTAACACACCAGTTTCGGAGTCCGAATTTCAGGCGTATTTTATATCTATAGAAGAAGAAAAAGATAATTTAACAATATAA	MITYLAVLKKDINIKKLDALLKSKNIKLASHYKTIGVVKLESNTPVSESEFQAYFISIEEEKDNLTI				NA	NA	NA	NA	NA
BMS003_03819	1263			hypothetical protein	ATGGAAACCGGAAGATATATTGTTCTGCTGCAGGATCAGCAGAAAAATGCGCTCAAAAAGATAGAGAAGGAACTGGAAGTGAGTATTACTTCTTCAGAATTTCTTTCCAAAGAAAACCGTTCTTATGAAATCATTGATAAGGATAACGGGGTACTTTACAAAAATCTGGGAGTTCTTGTAGTAGACAATATGGATGAAGACCAATTGAAAAGCGCCGTGAAAAGTGCCTCGAATTCTATTGTTTATTATGAAAAAGAAAGAGAATTTGTTCCGGCAGATGAATTGCAGCTGATCGGTGAACTTAAGAAACAGTCAGCCGGACTCGCAGAAAAGATTTCAGAACTTGAACATTATATAACCACCAAACCTTTACCTCAAAAATCATTGATTGAACTGGAATGGGGGTTAAAAGCTATCGGGATGGAAAATACCACTTATACAGGAAAAGGGATTGACGTCTGTATTCTGGATACCGGGCTTGAAACTTCACACCCCGATTTTTCATCAGAAGAAATTGAAGGAAAATCTTTTATAGATGGTCAGGACTGGAACAGGGATCCCAACGGACATGGTACACACTGTGCAGGTATTGCTACAGGAAATACAAGAAATGATACCGGAAGACGCTACGGAATTGCACGAGATTGCAATCTGAAAATAGCAAAAGTGCTTGCAGATAACGGAAGAGGAACTACCAGCAGTGTAATTGATGCAATAGACTGGGCAATTACGAAAAAATTCAGAATCTTATCTCTTTCGCTGGCATCTCCTGTAAAATTTGATGATCAGCCTTCCGTATTGTTTGAAACCATTGGAGAAAGAGCATTGGAAAATAACTGTCTTATTATAGCAGCAGCAGGAAATGACAGCAACAGGCCTCAGATTCCGCAGCCGGTTTCAATGCCTGCCAATTCAAAATCAATCATGGCGATCGGGGCTATTGATGCTCAGATGAAGATTGCCAGATTCTCAAATGCAGGAATCAATCCGTCTACAGGAGGGAATATCAATGTCTGTGCTCCCGGAGTAGATATCATCAGCTCCTATCCTAAAAATGCTAAGAACAAAAATAATTTATATTACAGCTTGAGTGGTACAAGCATGGCAGCACCCCATGTTTCCGGACTTGCAGCTTTGTATATGGAACAGTTTCCCGACAAATCAGCAAAAGAGATCTGGGAACTGATTGAAAACAAAGCAAGGCCTATTGAAGGCATAAAATACAGAGATATTGGAAACGGATTAATTCAGGTATACTTATGA	METGRYIVLLQDQQKNALKKIEKELEVSITSSEFLSKENRSYEIIDKDNGVLYKNLGVLVVDNMDEDQLKSAVKSASNSIVYYEKEREFVPADELQLIGELKKQSAGLAEKISELEHYITTKPLPQKSLIELEWGLKAIGMENTTYTGKGIDVCILDTGLETSHPDFSSEEIEGKSFIDGQDWNRDPNGHGTHCAGIATGNTRNDTGRRYGIARDCNLKIAKVLADNGRGTTSSVIDAIDWAITKKFRILSLSLASPVKFDDQPSVLFETIGERALENNCLIIAAAGNDSNRPQIPQPVSMPANSKSIMAIGAIDAQMKIARFSNAGINPSTGGNINVCAPGVDIISSYPKNAKNKNNLYYSLSGTSMAAPHVSGLAALYMEQFPDKSAKEIWELIENKARPIEGIKYRDIGNGLIQVYL				NA	NA	NA	NA	NA
BMS003_03820	579			hypothetical protein	ATGCAGGAACTTATTCACTTTACAGTACAGAAAATTAAAGAACTTCTGGAACATTTCAATGAAGTTCAGTCACTTTATCTGTCAAAATCATTTGACTTTGATGCCCGGTTTGATGTATTTCTCAACGAGGTTCTGGAGTATTTCCGTACCAAAGGAAATACCAGCCATGAATCTGAGGTTTTGAAAGTTATGAATATGATCGCTACTGTGAAAAGAGGCTTTAATCCTATAAAAATGGAAAAAATAGTGTCCGGAAAAAGAGAACTTCTCGGAGGATTTTCTTTCAATGGAATAGAAAATATTTATGATATTCTGATAGAAATATATACTAAGGAAAATAAAAAGCTGGATGATGCGGAAGAACTTATTTCAGGGATCATTGTCTCGTTGTATCAAAACGGAATTTTGAATGATGAAAAACTGAAAGAAATGAATTCTGTTCCTAAAATTGAAAGCTTCTGGAATTCTCTTGTTGAACAGAATATAGCGATATCCGGGATCAACAAAAAACTAAGACTGTCTGTTATTCCGGAAGATATTTACCTTATTCTGGAAAAAGTATTTCTGAAATTAATTTAA	MQELIHFTVQKIKELLEHFNEVQSLYLSKSFDFDARFDVFLNEVLEYFRTKGNTSHESEVLKVMNMIATVKRGFNPIKMEKIVSGKRELLGGFSFNGIENIYDILIEIYTKENKKLDDAEELISGIIVSLYQNGILNDEKLKEMNSVPKIESFWNSLVEQNIAISGINKKLRLSVIPEDIYLILEKVFLKLI				NA	NA	NA	NA	NA
BMS003_03821	699			hypothetical protein	ATGATAAAACTATCAGATTACCTGGATTATCTCAACAACGAGATAATTCAGGCTCGTAAAAAAGCAGACGAAAATGCAGTTCTTATTGCCAAAGAATATGCCCGTCATGAATACCTTAAATATTTTAAGGTACCAAGATATGCCCTGCCCAGTGTGAAGATGGATATTCCCATCAAAATCACAGATATAGATTCAGCCTCTAAATATAATTTTAAATTGGATCAGGATCAGTTTGTTACAGAATTGAATGAGAGAATCCGTCTGGTGAATAAGGAAAAAAGTATGAATATTCCCATAATCACAATAAAGCAGATTCAGACTGAAGAGTTTAAAACGCTGTTCAGTAAACTTGAAAAAAATGATCAGAAATTCGGGAAACTTCCTGCCAATGAAGTTCTTAAACTTGACCTTAGAACCAAAGTTCAGCTTCTCAATTCAGGAATCTTCAGACCTCAGGACGGAACAGCCAATGAGGAAACGGATGAGCTGAAAGAGATATTTTCAAAGGTTTTGCTGAATAGATATACTTTGGTGAATGCCAAACTGAACAATATTTACATAGATCCCAATACCAGTGCAGCGGAAGATAAAGATAAATTATTCATCAACCTTCATGTGGAAATGGAGGAAGAGGGAATCAGAATTGTGTCTTACAAAGATAAAGACGGTAACGAAATAGAACAGATAACTTTTGAGTAA	MIKLSDYLDYLNNEIIQARKKADENAVLIAKEYARHEYLKYFKVPRYALPSVKMDIPIKITDIDSASKYNFKLDQDQFVTELNERIRLVNKEKSMNIPIITIKQIQTEEFKTLFSKLEKNDQKFGKLPANEVLKLDLRTKVQLLNSGIFRPQDGTANEETDELKEIFSKVLLNRYTLVNAKLNNIYIDPNTSAAEDKDKLFINLHVEMEEEGIRIVSYKDKDGNEIEQITFE				NA	NA	NA	NA	NA
BMS003_03822	888			hypothetical protein	ATGGAAACGTTAAAATCAGTGCTTGAAGCAAGTCACGCCAAAAAAACAAAAAATGAGCTAATTGACCTCTTGTCGGGAGTAGAAAAAGTACTTACTCCGGCAGTGTATGAAAAAGTATCAGGAATCGAGATTTCAGAATTAAGCACACTGACCAATAAAGAACTGCTTAACATTGTAGAAGACTTCAAAAAGAATTATGATGCAAAATGGGAAAAATCATTTTCAGGAGCTTCTTCAGAGATCATGAAACTGATTGCCGGTAAAATGGCTGCTGATGAAGAGATCTTCAAAACGTCAGATGCTGCCAATGCAGATTTTGCAGCAGAATTGGGAAGTATTGATTTTGCTACTATTATTGGGGGACCTTTGGATGCCTGTGTAAAAGCACAGTCTAATGCCTCTATTGCCACCGTTAATTTCATCAATGAAGTAGGTTTCGAGCTTACGGATCCCAATAACCCGAATAGTGCGAAAAAATTGAGAATGGCAGAATTCAAATACACCAAAAATATTCCGAACCCTGATTTTGATCCGGATGAACCTGTAAGCAACAGTAATCCTAAGACTATTCCTGATCCGGTAGAAATTTCTGTTCCTTTTATAGCATTGCTGAATGTTCCGAGCTTTAGAATCGAAACCTGTGAAGTAGATTTTAACGTTAAGCTTAATTCCACCTATACCAAAGATGTAAGTGACGAATTCGGAATCAATGCCGGTGTATCCGGAGGATGGGGACCTGTAAAATTTAAAGTGGATGTGTCTTACAAAAGAACTTCCAGTACAGGAATAAAAGTAGAAAAAGAATATTCTCTTGGGGTAAAAGTGCGTGCTACCAACGACGAAATGCCTGCCGGACTTGAAAAAGTTCTTGGACTTCTCTCACAATAA	METLKSVLEASHAKKTKNELIDLLSGVEKVLTPAVYEKVSGIEISELSTLTNKELLNIVEDFKKNYDAKWEKSFSGASSEIMKLIAGKMAADEEIFKTSDAANADFAAELGSIDFATIIGGPLDACVKAQSNASIATVNFINEVGFELTDPNNPNSAKKLRMAEFKYTKNIPNPDFDPDEPVSNSNPKTIPDPVEISVPFIALLNVPSFRIETCEVDFNVKLNSTYTKDVSDEFGINAGVSGGWGPVKFKVDVSYKRTSSTGIKVEKEYSLGVKVRATNDEMPAGLEKVLGLLSQ				NA	NA	NA	NA	NA
BMS003_03823	1941			hypothetical protein	ATGAATTATAAACTTCCAACCCTTGTTTCCACCCTTGCAGTCATCCTGTTTTCAGGATCTGTATATGCTCAGGAAACCCCAAAGTATGATTATGTAGAAGCATTTAAGCCGTTTTTCTATCCGCAGACAGGGACGGCAACCCGCTCTGCAAGCGGACAGCCGGGACATGCTTATTGGCAGAATTCAGCAGATTATCATTTGAACGTCAGCCTGAATGAAGATAAAAAAGAGATCACAGGTACAGCAGAAATTATTTATACCAACAACAGCCCGGATAAATTAGGCTTTCTCTGGCTGCAGCTGGATCAGAATCTTTTTGCAAAAGATTCCAGAGGAAATAGTGTAGTTCCACTCTCCGGAAGCAGAAATGGTGCGCATGGCGAAGAATTTAATGGCGGATATAAAATTAAGTCAGTAAGGCTTGACGGAAAAAAAGAGGTAAAATATACTATTACCGATACAAGAATGCAGATTGATCTTCCAAAAGAGCTAAAAGCCAATGGAGGTATTGCCAAAATAGAAATTGAATATTCATTTATTTCTCCGGATTACGGTTCAGACAGAATGGGAATCCAGGATACTAAAAATGGTAAGATCTTTACCATGGCGCAATGGTATCCGAGAATGTGCGTCTATGATGATGTTTTGGGTTGGAATACGCTTCCTTACCTTGGAGCTTCTGAATTCTATTTAGAGTATGGAAATATTACAGCCAATATTACAGTTCCTGCCAGTCATTATGTAGTGGCATCCGGAGAACTTCTGAACGAGAAAGAAGTGTACAGTAAAGAAGAAATCAACCGATGGAATGAGGCAAGAAACAGTGATAAAACAGTAATGATCCGTCCTGAATCTGAAATCGGTAAAAATAAAGCTTCCGGTACAAAAACCTGGAAATTCAAAATTACCCAGGCCAGAGATTTTGCTTGGGCATCATCTGCCGGGTTTATTTTAGATGCCGCAAAAATTAATCTTCCTAGTGGAAAGAAATCTTTGGCTATTTCAGCTTATCCGGCAGAAAGTGCGGGTGAAAAGGCATGGGGAAGATCTACAGAATATACCAAAGCCGCTATAGAACATTATTCAAAGAAATGGTATGAATATACGTATCCGGCAGCTACCAATGTAGCAGGAAATGAAGGTGGGATGGAATATCCGGGAATTGTATTTTGTCATATGGATTCCAAAGGAGAAGATCTTTGGGGCGTTACAGATCACGAGTTTGGACACAACTGGTTCCCAATGATCGTAGGATCTAACGAAAGGCTATTTGCATGGATGGATGAAGGGTTCAATACATTCATCAACGGACTTTCAACGGAAGCTTTCAATAAAGGTGAATATTATCGTAAACCGAATCTGGCAAGATCTGGAACGTATCTGTTGACCGACAGCCTGGAGCCTGTAATGGTAGGACCGGACAATATGAAAGAAAGAAGTATCGGAGCTCTGGCATACTACAAGCCGGGAACTGGATTGGATGTTTTAAGAGAAACAATCCTGGGACCTGAAAAATTCGACAAAGCATTCAGGACGTATATTGACCGATGGGCTTTCAAACATCCTACACCATGGGATTTCTTCCATACGATGGAAAACGTTTCAGGTGAAGAACTGAACTGGTTCTGGAGAGGATGGTTCTTTAATAAATGGAAAATTGATCAGGCTGTTAAAAACGTGCAATACGTCAACGGAAACTTTAAAAACGGAGTTCAGATTACCGTTGAAAATATTGGCCAGCTGCCAATGCCTACAACAGTTCAGCTGAAATTTAAAGATGGAACGGCACAAATAGTGAATATCCCTGTGGAAGTTTGGAAAAGAAATACAGAATGGACATTCAAAGTAGATTCTAACAAGGAAATAGATGAGGTGAAACTGGATCCGAATTCTGTTGTTCCTGATGTCAATCTGGAAAATAACAGCAAAAAACCGTCGTAG	MNYKLPTLVSTLAVILFSGSVYAQETPKYDYVEAFKPFFYPQTGTATRSASGQPGHAYWQNSADYHLNVSLNEDKKEITGTAEIIYTNNSPDKLGFLWLQLDQNLFAKDSRGNSVVPLSGSRNGAHGEEFNGGYKIKSVRLDGKKEVKYTITDTRMQIDLPKELKANGGIAKIEIEYSFISPDYGSDRMGIQDTKNGKIFTMAQWYPRMCVYDDVLGWNTLPYLGASEFYLEYGNITANITVPASHYVVASGELLNEKEVYSKEEINRWNEARNSDKTVMIRPESEIGKNKASGTKTWKFKITQARDFAWASSAGFILDAAKINLPSGKKSLAISAYPAESAGEKAWGRSTEYTKAAIEHYSKKWYEYTYPAATNVAGNEGGMEYPGIVFCHMDSKGEDLWGVTDHEFGHNWFPMIVGSNERLFAWMDEGFNTFINGLSTEAFNKGEYYRKPNLARSGTYLLTDSLEPVMVGPDNMKERSIGALAYYKPGTGLDVLRETILGPEKFDKAFRTYIDRWAFKHPTPWDFFHTMENVSGEELNWFWRGWFFNKWKIDQAVKNVQYVNGNFKNGVQITVENIGQLPMPTTVQLKFKDGTAQIVNIPVEVWKRNTEWTFKVDSNKEIDEVKLDPNSVVPDVNLENNSKKPS				NA	NA	NA	NA	NA
BMS003_03824	882	fadH	COG1028	putative 2,4-dienoyl-CoA reductase	ATGAGTCTATATACACAACCTATGCTGCGCGAAGGTGCACTAAAAGATAAAGTAGCAATTGTAACAGGAGGCGGAAGCGGTCTTGGAAAAGCAATGACCAAATACTTTCTTGAACTGGGCGCCAAAGTAGTGATTACTTCAAGAAATCTGGAGAAACTACAGACAACAGCTAAGGAACTGGAAGATGAAACAGGAGGAAAAGTGCTTTGTGTAGCTTGTGATGTAAGAAACTGGGATGAGGTGGAAGCCATGAAAGAAGCTACACTGAAAGAATTTGGAAAGATTGATATCTTATTGAATAATGCTGCCGGAAACTTCATTTCTCCAACAGAAAAACTGACTCACTCTGCTTTTGATTCTATTTTAGATATTGTTTTAAAAGGAACAAAAAACTGTACCCTTTCAGTCGGAAAGCACTGGATAGATTCCAAAACTCCGGGAACTGTGCTGAATATTGTAACCACATATGCATGGACTGGTTCTGCCTATGTAGTACCTTCAGCCTGTGCAAAAGCAGGAGTTCTGGCGATGACAAGGTCATTGGCTGTAGAATGGGCAAAATACGGAATCCGTTTCAATGCCATTGCTCCGGGACCTTTCCCTACAAAAGGAGCTTGGGACAGACTTCTTCCAGGAGATCTTCAGGAGAAATTCGATATGAAGAAAAAAGTTCCGTTGAGAAGAGTAGGAGAACATCAGGAGCTGGCCAATCTTGCGGCTTATCTGGTTTCCGATTATTCAGCGTATATGAATGGAGAAGTGGTAACCATTGATGGAGGAGAATGGCTTCAGGGAGCCGGAGAATTTAACATGCTGGAAGCCATTCCTAAAGAAATGTGGGATGCTTTAGAAGCGATGATTAAAGCGAAAAAGTCAAATTAA	MSLYTQPMLREGALKDKVAIVTGGGSGLGKAMTKYFLELGAKVVITSRNLEKLQTTAKELEDETGGKVLCVACDVRNWDEVEAMKEATLKEFGKIDILLNNAAGNFISPTEKLTHSAFDSILDIVLKGTKNCTLSVGKHWIDSKTPGTVLNIVTTYAWTGSAYVVPSACAKAGVLAMTRSLAVEWAKYGIRFNAIAPGPFPTKGAWDRLLPGDLQEKFDMKKKVPLRRVGEHQELANLAAYLVSDYSAYMNGEVVTIDGGEWLQGAGEFNMLEAIPKEMWDALEAMIKAKKSN	PGPT0003180_2885	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
BMS003_03825	411			hypothetical protein	ATGAAAAAACTAAAAATTACAGCTCTTTTAGCTGTTTTAGCATTCTCTCCTTTTTATGCTAATGTATTTACTGCAGACGCTCCATCTATTGTGAAAATGGTAGCTGATGCTATCAAATGGAAATCAGAATCTATTGATGTAGGAAATATTCCTCAGGGAAAACCAAAATTGATCAGATTTGAATTCACCAATACAAGTTCAAAACCAATCATTATTCAGAATGTAGCTCCATCATGTGGATGTACAACTGCAGATTACACAAAAACGCCTATTCAGCCAGGGAAAAAGGGGTTTGTAGAGGCCAGCTATAATGCAGCAGCAGCAGGTCCGTTTATGAAGACTGTTAATGTTACTACAAGTGACAGCAAAACGCCTAAAACGCTTTCATTCAAAGGAACGGTGACTGCTTAA	MKKLKITALLAVLAFSPFYANVFTADAPSIVKMVADAIKWKSESIDVGNIPQGKPKLIRFEFTNTSSKPIIIQNVAPSCGCTTADYTKTPIQPGKKGFVEASYNAAAAGPFMKTVNVTTSDSKTPKTLSFKGTVTA				NA	NA	NA	NA	NA
BMS003_03826	1254	sasA_11		Adaptive-response sensory-kinase SasA	ATGAAAATAAAAAGACTCAATATTATCATAACGCTGGGGTTTGTTGCTATTATCGGAATTTTAATAGCACAGCTGATGTGGACCCGCCAGGCTTATAATCTTGAAGATAAAAAATTTAATCAGAAGGTCAATATTGCCTTAATGGAGGTTGCAGAAAAACTTTCCGGAGGAAAGACATCCTATACTGAAAATCCTGTACAAAATATTGCCAATGATTATTACGTAGTTAATATCAATAATGAATTTCATCCCGTAGTTCTTGAATATTATTTGAAGACAGAATTTACACGCTTTCAGATCAATACAGATTATGTGTATGCGCTATACAATTGTCACAGTGATAAAATGGTCTACGGAAAATATATGACTTCCCATCAGGAAAGTCCCAGTAATAAAGTGATCAATTTTCCGAAACATAAAAATCTGATCTATTATTTTTCCATTCGTTTTCCCGATAAAACCACTTATCTGATCAGTTCGTTAAGATTCTGGTATCTTCTGACATTTGCCCTTATCATCATCCTTTTGGTGTATGTATATTCCATTTATACCATCATTCAGCAGAAGAAATTTTCAGAGCTACAGCGTGATTTCATCAATAATATGACCCATGAGTTCAAAACACCTTTATCCTCAATACTTTTGGCTTCAGAAGCGCTTAATAAACAGAATCTGGTACAGGAAAACTCAAAACTGCAAACGTATACCTCTATTATCATCAACCAAAGCCATAAGCTTAACAGTCATATCGAGAAAGTATTGAACATTGCTAAGAACGATGCTGCCGGACTTTCATTAAAACCTCAAAAAATTCTGCTTCTGCCCTTTATTCAGGAGATTGCAGACAATATACAGCACAAAAACAAAGACCTCAGCATCGAAATTGATATTGAAAATAGTACTTCAATAATGGCTGATGAATTTCACTTTACCAACATCATTTATAATCTTCTGGATAACTCCGTTAAATATTGTGAAACCCAACCTGTGATAAAAATTTCAGCCCACAAAGATTCAAAAGGCCTATATTTAAAGTGTAAAGACAACGGAATGGGAATTCCTGCTAAAAATATTCCTCATATTTTTGAAAAATTTTATCGGGTACAGACCAAAAAGAGTGAAGAAGTGAATGGTTTCGGGCTGGGATTATTTTATGTAAAAAAAGTAGCTCAGCAGCATCACTGGAAAATTTCTGTAGAGAATAATGAAGATAAAGGAATTACAACAACGCTCTTCTTTCCGTTTGTAAACTAA	MKIKRLNIIITLGFVAIIGILIAQLMWTRQAYNLEDKKFNQKVNIALMEVAEKLSGGKTSYTENPVQNIANDYYVVNINNEFHPVVLEYYLKTEFTRFQINTDYVYALYNCHSDKMVYGKYMTSHQESPSNKVINFPKHKNLIYYFSIRFPDKTTYLISSLRFWYLLTFALIIILLVYVYSIYTIIQQKKFSELQRDFINNMTHEFKTPLSSILLASEALNKQNLVQENSKLQTYTSIIINQSHKLNSHIEKVLNIAKNDAAGLSLKPQKILLLPFIQEIADNIQHKNKDLSIEIDIENSTSIMADEFHFTNIIYNLLDNSVKYCETQPVIKISAHKDSKGLYLKCKDNGMGIPAKNIPHIFEKFYRVQTKKSEEVNGFGLGLFYVKKVAQQHHWKISVENNEDKGITTTLFFPFVN	PGPT0002705_3659	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS003_03827	684	mprA_4	COG0745	Response regulator MprA	ATGGAGAAATCTAAAATTTTATATGCCGAAGATGACAAAACAATCGCTTTCCTGGTGGAAGACAGTCTGGAAAGTTATTATGACATCAGCTGTTATTCTGATGGTAAATCTGCATTGGAAGCATTTAACACCCATGATTTCGATATTTGTCTGCTGGATATTATGATGCCCGGCATGAACGGATTTGAAGTAGCACAGCAAATCCGCAGTAAAAATTCTGAAATTCCGATTATTTTCATTTCTGCAAAGGCTTTAAAAGAAGACAGAATCAAAGGACTTAAAATAGGTGCTGATGATTATCTGGTAAAACCATTCAGTATTGAAGAACTGATGCTGAAAATTGAAGTTTTTCTGAAACGTACCAAGAAAACAGATACAGCTCCGTTAAAATACAAGGTCGGGAAGTATGATTTTGATCCTAAAAACTATACTCTGCAAGGAATAGACAGCAATATTACCCTTACCCAACGGGAATCTGATCTTCTTTTATTTTTTATCCGCCACAAGAATCTGGTGGTTAAAAGGCAGGATATCCTGAAAGCGATCTGGGGTGATGATGATTACTTTATGGGAAGAAGTCTTGATGTATTTATTTCCCGATTGCGGAAGGTATTGGCCGAGGAACAGAATATTTTAATAGAAAACCTGCACGGAATAGGTTTCCGTTTTTCTGAAAAAGAATAA	MEKSKILYAEDDKTIAFLVEDSLESYYDISCYSDGKSALEAFNTHDFDICLLDIMMPGMNGFEVAQQIRSKNSEIPIIFISAKALKEDRIKGLKIGADDYLVKPFSIEELMLKIEVFLKRTKKTDTAPLKYKVGKYDFDPKNYTLQGIDSNITLTQRESDLLLFFIRHKNLVVKRQDILKAIWGDDDYFMGRSLDVFISRLRKVLAEEQNILIENLHGIGFRFSEKE	PGPT0013765_777	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
BMS003_03828	2298			hypothetical protein	ATGAAAAATCACAAACCTATTGTTTTTCTATTTCTTTTATTGGTAACAACGCAATTTAAGGCTCAAAAATTTGAAAAATTAATACAATATGTCAATCCTTTGATCGGAACTGAAAAGATGGGGCATACTTATCCAGGAGCAACGGTTCCTTTTGGTGCGGTACAGCTTAGCCCTGAAACAGACTCCATTTCTTATGAGCTTAACGGAAAATACAATGGTGAGGTTTATAAATACTGCGCCGGCTACCGTTATGAAGATAAAACGATTGTGGGGTTCAGTTCTACTCATTTCAGCGGAACAGGACATTCTGATCTTGGAGATTTCCTGGTGATGCCTACCGTAGGAAAACTTCAATTGAATCCGGGAACAGCTTCCAATCCGGAAAGTGGCTACAGAAGTAGATTTTCACACCGAAATGAAACGGCAGAAGCCGGATATTATAAAGTAAAACTGGATGATCACAATATTCTGGCTGAGCTTACAGCAACACCAAGAGTAGGAATTCACAGATATACTTTTCCAAAGTCTGACCAGTCTCATATTATTCTGGATCTGATGGCCGGTATTTACAATTACGATGGAAAAAATATCTGGACATACGTTCGTGTAGAAAACGGAAATACCATTACAGGCTACCGTCAGACCAACGGCTGGGCAAGAACCAGAACGGTTTATTTTGCCTTGAAGTTTTCAAAACCTTTTAAATCTTACGGTCAGAAAAATTATGATGAGAAACAGGTTTACAAAGGATTTTGGAGGAAATTTGACCAAAATCAGAACTTTCCGGAGATTGCGGGTAAGAATCTGAAAATGTATTTTGATTTTGACACCAATGAAAATGAAGCCATTGAAGTGAAACTTGCTATTTCTCCGGTAAGCCAGACCAACGCTATGGAAAATCTGGAAAAAGAAGCCGGAAATATAACTTTTGATCAGGCTAAAACTCAGGCTCAAAACAATTGGAATAAGGAATTAAATAAAATTGTCATCAAAGGTTCTGACGCAGAAAAGACCAACTTCTATACGGCAATGTATCATACCTTCATTAATCCAACCACTTATATGGACGTGAATGGAGAATATAAAGGTCTTGATCAGAATGTTCACAAAGCAGATGGCTTTACCAATTACACAACGTTTTCTCTATGGGACACTTACCGCACGCTACATCCTTTCTTTAATATCATTCAGCCTAAACGAAATGGTGATATGGTAAAATCAATGATGGCTCATTATAATCAGTTTTCTATGAAAATGCTGCCGATCTGGTCGCATTATGCGAATGATAACTGGTGTATGAGTGGCTATCATAGTGTAAGCGTAGTGGCTGATGCTATCATTAAAGGAAATTATGACGGAGATCCTGAAGAAGCCTTAAAAGCATGTATAGAAACTGCTAATAAAAGAAATTACGAAGGTATAGGACAATATATTGACCTTGGATACATTCCGGCTGAGAAAAGCGGAACTTCGGTTTCCAATACATTAGAATATGCTTATGATGACTGGGCGATTGCACAACTGGCAAAACATCTGAACAAAACAGAAATCTACAATCAGTTTATCAAGAGATCTGAAAACTGGAAAAATAATTTCGACAAAACCATCGGATTTATGCGCCCGCGTCTGGCAGATGGAAGCTTTAAAAAAGATTTTGATGTGCTAAGCACTCACGGACAAGGTTTTATTGAAGGAAATTCATGGAACTACAGTTTCTTTGTGCCACAAAATCCGGATGAACTGATTACGATGATGGGGGGAAAGAAGAAATTCGCTTCAAAACTTGATGAGCTGTTCACCATGCATTTACCGGATGAATTCTTTGCAGACACTGAAGATATTACAAGGGAAGGAATTATCGGCGGATATGTTCACGGAAATGAACCAGCTCACCATGTTGTTTATTTTTATAATTGGGCAGGACAGCCATGGAAAGCACAGGCACAAATCCGCCGTATTCTGGAAATGCAATATAAAGCAACCCCGGACGGACTGGGTGGAAATGATGATACCGGACAAATGAGCGCATGGTATATTTTAAGTTCATTAGGATTTTATCCTGTAGCTCCCGGTTCAGAAGATTATTCCATCGGAAGCCCTGCGGTTGATAACGCTGTATTGAATCTGGAAAACGGAAAAACTTTCGAAATTGAAGCCGTCAACCAAAGTCCGAAAAATGTATATGTTCAGAAAGTGCTTCTGAATGGAAAAGAGATTAAGAATTTTACACTGAAACATTCTGAGATTATAAATGGTGGAAAACTTACTTTTTATATGGGAAGTAAAGCGAAGAAGTAA	MKNHKPIVFLFLLLVTTQFKAQKFEKLIQYVNPLIGTEKMGHTYPGATVPFGAVQLSPETDSISYELNGKYNGEVYKYCAGYRYEDKTIVGFSSTHFSGTGHSDLGDFLVMPTVGKLQLNPGTASNPESGYRSRFSHRNETAEAGYYKVKLDDHNILAELTATPRVGIHRYTFPKSDQSHIILDLMAGIYNYDGKNIWTYVRVENGNTITGYRQTNGWARTRTVYFALKFSKPFKSYGQKNYDEKQVYKGFWRKFDQNQNFPEIAGKNLKMYFDFDTNENEAIEVKLAISPVSQTNAMENLEKEAGNITFDQAKTQAQNNWNKELNKIVIKGSDAEKTNFYTAMYHTFINPTTYMDVNGEYKGLDQNVHKADGFTNYTTFSLWDTYRTLHPFFNIIQPKRNGDMVKSMMAHYNQFSMKMLPIWSHYANDNWCMSGYHSVSVVADAIIKGNYDGDPEEALKACIETANKRNYEGIGQYIDLGYIPAEKSGTSVSNTLEYAYDDWAIAQLAKHLNKTEIYNQFIKRSENWKNNFDKTIGFMRPRLADGSFKKDFDVLSTHGQGFIEGNSWNYSFFVPQNPDELITMMGGKKKFASKLDELFTMHLPDEFFADTEDITREGIIGGYVHGNEPAHHVVYFYNWAGQPWKAQAQIRRILEMQYKATPDGLGGNDDTGQMSAWYILSSLGFYPVAPGSEDYSIGSPAVDNAVLNLENGKTFEIEAVNQSPKNVYVQKVLLNGKEIKNFTLKHSEIINGGKLTFYMGSKAKK				NA	NA	NA	NA	NA
BMS003_03829	1338	allB	COG0044	Allantoinase	ATGAAAGTTCTTATAAAAAACGTAAATATTGTTAACGAAGGAAAAATCTTTGAAAGCGATATCCTGATAGAAAATGATTTAATATCTAAAATAGCTGCCGGTATTTCTGAAGATGCAGATCAGATCATTGACGGTTCAGGAAAGTATCTTCTTCCCGGAGTGATTGATGACCAGGTGCATTTCCGTGAGCCCGGACTTACCCATAAAGGAGACATTGAAAGTGAATCAAGAGCTGCTATTGCCGGGGGAATCACAAGTTTTATTGATCAGCCGAATACAGTTCCCAATGCGGTTACTCAGGAGTTATTAGCAGATAAATATGAAATTGCGTCCCAAAAAGCATATGCCAACTATGGTTTTATGATGGGGGGAACCAATGATAATCTGGAGGAAGTTTTAAAGACAAATCCAAGAAATGTTCCGGGAATTAAATTATTCTTAGGTTCGTCTACAGGAAATATGTTGGTAGATAATCCTGAAACACTGGAAAATATTTTCAGCAATACCAAAATGCTGATTGCTGTTCACTGTGAAGATGAAGCTACCATCAAAGCCAATACTCAAAAATATAGGGATGAATACGGGGATGATATTCCTGTAAAATTCCATCATTTGATCAGAAGCGAAGAAGCATGTTATAAATCTTCATCTAAAGCCATTGAACTTGCGAAGAAGACCGGAGCGAGGCTTCACGTTTTTCACCTTTCCACCGCAAAAGAAATGGAACTTTTCAGAAATGATATTCCTCTAAAAGATAAAATGATTACCGCTGAGGTATGTGTTCATCACCTTACTTTTACCAACGAAGATTACGGGACAAGAGGTGGACTTATCAAATGGAATCCTGCTGTAAAGACTCAAAAGGATAAAGATGCCCTTTGGGAAGCATTGCTGGATGACAGGATTGATGTGATTGCTACAGATCATGCTCCGCATACCGCAGAAGAAAAGAACAATGTATATACAAAATGTCCTTCGGGAGCGCCATTAGTACAGCATTCACTGGTGGTAATGCTTGAGAATTATAAAAATGGTAAAATATCTCTAGAGAAAATTGTTGAAAAGATGTCTCACAATCCTGCGATCCTCTTCAAAGTGGAAAAAAGAGGTTATGTGAGAGAAGGATATAAAGCAGACTTGGTTTTAGTTGATTTAAATGAAAACTGGACGGTTTCCAAAGACAATTTACTGTACAAATGTGGCTGGAGTCCATTAGAAGGAATGAATTTTCATTCTAAAGTTACCCATACTTTTGTTAATGGACATTTGGTGTATGACAATGGTACCATTACGGAAGGAAAATTTGGGGAGAGATTGCTTTTTGAAGCGAGAGATTAA	MKVLIKNVNIVNEGKIFESDILIENDLISKIAAGISEDADQIIDGSGKYLLPGVIDDQVHFREPGLTHKGDIESESRAAIAGGITSFIDQPNTVPNAVTQELLADKYEIASQKAYANYGFMMGGTNDNLEEVLKTNPRNVPGIKLFLGSSTGNMLVDNPETLENIFSNTKMLIAVHCEDEATIKANTQKYRDEYGDDIPVKFHHLIRSEEACYKSSSKAIELAKKTGARLHVFHLSTAKEMELFRNDIPLKDKMITAEVCVHHLTFTNEDYGTRGGLIKWNPAVKTQKDKDALWEALLDDRIDVIATDHAPHTAEEKNNVYTKCPSGAPLVQHSLVVMLENYKNGKISLEKIVEKMSHNPAILFKVEKRGYVREGYKADLVLVDLNENWTVSKDNLLYKCGWSPLEGMNFHSKVTHTFVNGHLVYDNGTITEGKFGERLLFEARD	PGPT0021145_944	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS003_03830	1428			hypothetical protein	TTGTACAAAAAACTATTAGGGCAGACAATCATCTATGGGGTGGGAGCTATAGCACCCAGAATTATTTTATTCATCCTGAATCCACTTTTGATCTATAAGATTCCCAATGAAGGTTTTGCTATTTTCACGCAGCTTTACGCATGGATCTCATTCGTGAATATCATTCTTTCTTTTGGTTTTGAAACAGCATATTTCCGCTTTTCGGCTGAAGATGGTAATGAGAAAAGAACCTTCAATACTTCATTCTGGTTTTTGTTTTCTACCTCTATGGTTTTTCTTGTACTCTGTTATTTGTTCAATCAGCCTATTGCAGATTATGCAGGATATCATGATAACCCGGAATACATCAGATGGTTTGCTCTGATTGCCTTTTTTGATAATCTGTTAGTGATCCCTTTTGCATGGCTGCGTTTCCATAACAAGCCCATCAAATATTCTGCTGTAAGAGTTGTTCAGGCTATATTTCAGGCTGTTTTTACAGCCGCTTTATTCTTCTGGATTCCGGAGAGCATATCAAGAAGTATTGGTTTGGATCAGAATGTAGATTATCCGTTCTTCAGTAATTTGGCAGGAAGCGCTTTGGGCTTTTTATTATTATTGCCTATTGTAGTAAAAGTAAGATTTCAGTTTGCAGCCTCCCTGTTCGGACGTATGATCAAATATTCTTTCCCATTGATGCTGGCAGGTCTGGCTTTTATGGTCAATGAAAACTTTGATAAATCCATCCAGAGAAATTACATTTCAGACGAGCAGGCAGGTGCTTATGGAGGGTGCTATAAACTTGCCGTCTTAATGACTTTATTTGTCACTGCTTACAGAATGGGTATTGAACCTTTCTTCTTTAAACAAATGGATAAAGGTGACGCCAAGAAAACCTACGCTCAGGTGGCAGAATACTTTGCCTTTTTTGCCTGTGCTGTAGCTCTGGGAATTATCGCCAATATTTCATGGCTGAAAGCTGTTTTTATCCCCAACAAGTCTTATTGGATCGCAATAGATATCATCCCGATTATTGTTATTGCCAATCTTTGTTTCGGAATCTATTATAATTTTTCTACCTGGTATAAAGTCACGGACAGAACAGGCGTGGGAACTATCATTTCATGGCTTGGAGCAGGGATCAATATTACCCTTAATCTTTTAGCGTTAAATTACTATCACAGCATGATTGGTTCTGCGTGGGCAACCTTCGGAGCTTATATTATCATGATGATTGTTTCCTATCTTCTTGGGCAGAAATACTATCCTATTCCTTACAGAATGAAAAAAATGTCTTTCTTTCTGATCCTGCTGGGAGTCTTCAGCTACATTATAGTAAAATATCTAGATTATAACATTATAACAAGTAATTTACTATTTTTGATCTTCACAGGAATGTTGATTTATTCTGAAAAAGACCTTATTCTATCGAGAATCAGAAAGAATTAA	MYKKLLGQTIIYGVGAIAPRIILFILNPLLIYKIPNEGFAIFTQLYAWISFVNIILSFGFETAYFRFSAEDGNEKRTFNTSFWFLFSTSMVFLVLCYLFNQPIADYAGYHDNPEYIRWFALIAFFDNLLVIPFAWLRFHNKPIKYSAVRVVQAIFQAVFTAALFFWIPESISRSIGLDQNVDYPFFSNLAGSALGFLLLLPIVVKVRFQFAASLFGRMIKYSFPLMLAGLAFMVNENFDKSIQRNYISDEQAGAYGGCYKLAVLMTLFVTAYRMGIEPFFFKQMDKGDAKKTYAQVAEYFAFFACAVALGIIANISWLKAVFIPNKSYWIAIDIIPIIVIANLCFGIYYNFSTWYKVTDRTGVGTIISWLGAGINITLNLLALNYYHSMIGSAWATFGAYIIMMIVSYLLGQKYYPIPYRMKKMSFFLILLGVFSYIIVKYLDYNIITSNLLFLIFTGMLIYSEKDLILSRIRKN				NA	NA	NA	NA	NA
BMS003_03831	999	glmU		Bifunctional protein GlmU	ATGGCTGGACGTGGTTCCAGATTACGTCCACATACCCTGACAGTTCCAAAACCGCTTATTCCTATTGCAGGAAAACCTATCGTACAGAGATTGGTGGAAGATATTGCTAAAGTTGCAGGAGAAAACATTGAAGAAGTCGCTTTTATCATCGGAGATTTTGGCCCTGAGATCGAAAGATCCCTTATTCAGATTGCTGAAAAGCTGGGAGCAAAAGGGAGCATTTATTATCAGAATGACCCTCTTGGAACGGCTCATGCCATAAAATGTGCTGAGCAGTCTATGCAGGGAGATGTTGTGATTGCTTTTGCAGATACGCTTTTCCGCGCAGACTTCCAGCTGGACAAAAACTCGGATGGGGTCATCTGGGTAAAAAGCGTGGAAGATCCATCTGCTTTCGGAGTGGTAAAATTAGATAACTACGGTTTCATCACAGACTTTGTAGAAAAGCCTAAAACTTTTGTTTCAGATCTTGCCATCATTGGTATTTATTATTTCAACAGTGCTGAAAAACTGATGCAAGAGATCAACTATATCATGGACAATGATATTAAAAACGGAGGAGAATATCAATTGACAACAGCTCTTGAAAACCTTAGGGCTAAAGGAGCAAAATTCACTCTTGGAAAAGTAAATGACTGGATGGACTGCGGTAACAAAAATGCCACAGTAGAAACCAACAGCAAAATCCTTGAATATGAAAAAGAGGAAATGAAGAATTATCCAGCTTCTGCTGTGATTGAAAATTCCTTGATCATCCAGCCGTGCTTTATTGGTGAAAATGTGAAGGTTTCCAATTCAAAAGTAGGCCCTGGTGTTTCATTAGGAAATAATACTACTGTTGTAAATTCCAATATTGAAAACTCTCTGATCCAGGAGAACACAAGAATTAACCATGGAAACCTGTCCAACTCTATGATTGGAAATTCTGCCCAGTATTTTGGGGTTGCCAGAGAAATTTCTTTAGGAGACTACTCTGTTTTAGATTTTCTTTCCAAATAA	MAGRGSRLRPHTLTVPKPLIPIAGKPIVQRLVEDIAKVAGENIEEVAFIIGDFGPEIERSLIQIAEKLGAKGSIYYQNDPLGTAHAIKCAEQSMQGDVVIAFADTLFRADFQLDKNSDGVIWVKSVEDPSAFGVVKLDNYGFITDFVEKPKTFVSDLAIIGIYYFNSAEKLMQEINYIMDNDIKNGGEYQLTTALENLRAKGAKFTLGKVNDWMDCGNKNATVETNSKILEYEKEEMKNYPASAVIENSLIIQPCFIGENVKVSNSKVGPGVSLGNNTTVVNSNIENSLIQENTRINHGNLSNSMIGNSAQYFGVAREISLGDYSVLDFLSK	PGPT0022600_525	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
BMS003_03832	846			hypothetical protein	ATGAAAAACTGGATCCCCTTTCTTTTATTACTTCTTGCCTTATCTTCCTGTAAGACCCGTACCTCCGCCCACAATGATACGGATCGCACACAGGACAGCATCAATACTACAAAAGATAACGGAAGTCCAAAAGATGTAAGCGAACCGGTAAGAGATAAATTTACGTTCTATGAGCATGTATTAATTCCGCCAAAATTCGAGCAGATCAAAATAGACAGCAAAATAAAGGTGGAAACCGGCAGTTTTGTACCTACACTGGATGCTACCGTATATATTGAAAATGATAAAAAGGTCTGGATGAATCTCAGAGCTCTGTTCATCAACGCAGCCAGAGGTATTGCTACTCCTGAAGGAATAAAAGGACAGGACAAAATCAATAAAACCTATATAGATTCTGATTTTGATTATCTGAATAATCTTCTCAATGTGAATTTCATTGATTATAAATCTTTGGAAAAGATCTTGCTGGGAAGAACATTCGTGAAAATCAGCGACAAGCAGTTTACCCTTACCCAAAATGCACAGGGATTCAAAATGGTTTCCAATATTAATCAGAAAATTGTGACAGATGAAAAGGACAGGGAGTATAAAATTGCTCTTCAATACGATACCAATTACGATCTGCTGAGTGTCAATTTAAAAGATATTTTATCTTCAGATGAGCTTGATATTTCTTACAGCGACTGGAATGAATACGAAGGAATACGCCTTCCAAAAAATGTTAAAATAATTATAAAAGGATCAAAATCTAGTCAGATTTTAATGGAAAACACGAAATTTGACTTTTCGAGGATGGAAACACCTTATTCTGTACCATCCAGTTATAAGAAAATTGAGATTAAATGA	MKNWIPFLLLLLALSSCKTRTSAHNDTDRTQDSINTTKDNGSPKDVSEPVRDKFTFYEHVLIPPKFEQIKIDSKIKVETGSFVPTLDATVYIENDKKVWMNLRALFINAARGIATPEGIKGQDKINKTYIDSDFDYLNNLLNVNFIDYKSLEKILLGRTFVKISDKQFTLTQNAQGFKMVSNINQKIVTDEKDREYKIALQYDTNYDLLSVNLKDILSSDELDISYSDWNEYEGIRLPKNVKIIIKGSKSSQILMENTKFDFSRMETPYSVPSSYKKIEIK				NA	NA	NA	NA	NA
BMS003_03833	1527			hypothetical protein	ATGTTTGGACTGCACCAGGGACAGCAGACCAAAGAACAGCTGCAGAAGCAGAATGCCGAACTTAAAAAACAAATTGCACAAATAAATTCCGATTTAGCCAAAACCAGAAGTGAATCTAAACTTTCCGTAGCCTATCTTTCCAGCGTAAACCAAAAGTTGGTTTTAAGAGAAAAGGTATATAATAATACACAGAAAGAAAAAAGGTTCATTGAAGATGATATCTACTTACGTCAGCTGGAAATCAACCGTCAGAATAGAGAACTGGCTGTTTTGAGAAAAAACTATGCTGAGGTTTTGGTGAATGCTTATAAAAATAAAGGAGTACAGAATAAAGTAACTTTTATTCTTTCTGCTAAAAATTTGGGTGAAGCTATCCGTAGAGTACAATATCTGAAACAATATTCGGATTATCAGGATAAAAAAGCAGCTGAAATTACCAATGCAGCCAATCTGATCAAAAAAACAATCGCACAAAAACAAAACTCTGTAAAAGAAAAAGCCAACCTTCTGGTAAATCAACAGAAGGATTTAGCCACGATCAATGCCGAAAGAACTCAGAAAGAACAATTGGTTGCTGATTTTAAGAAAAACGAATCCAAACTAACTGCTGAGCTTAAACAAAAACAGGTTCAGTCTAAAGCATTGGAAGGACAGATCAGAGCGATCATTGCTGAAGAAATCAGGATTGCCAAAGCGGAGGAAGAAGCTAGAAAGAAAGCCGAAGCAGAAAAAATTCGTTTGGCGAAACTAGCTGCTGAAAGAGAGAAAGCAAGAATTGAAGCGGAAGCTAAAGCAAAAGCAGAAGCTCTTGAAAGGGAAAGAAGGCTGGCTGAAGCAGAAGCTAAGAAGGCAGCAGAACTAGCGGCAAAAAGAGCGGAAGAAGAAAGAAAACGAAGTGAAGATGCAGCCAAAGCAGAAGCTAACGCCAGGGATGAAGCCCGAAGATTAGCTGCTAAAAAAGCATCAGACGAAGCTAATGCAAAGGCTAAAGAAGCAGCAGATAAACTGGCAGCAGCAAAAGCAGCAGAAGCAGCCCTTGCAAAAAGAAAAGAAGAAGAGAAAAAAGCAGCCGAGACCAAAGCTATGACAAGCTATGGAGTTTCTACCTCCAGTGGAAGCAGCTTTGCAGATAACAGAGGAAGACTGGGTTATCCTGCAGACAGAGTCGGACAGATCACTCACCGTTTCGGAAGACAGCCGCACCCGGTTTTCAAAAATATTACTGAAGAAAATAACGGAATCAAAATTTCCGTTCCTTCAGGTACACGTGCAAAATCAGTATTTCCGGGATCAGTATCTTCTGTACTGGCCAATAATGACGGAACAAAGACCGTGATTATTAAACACGGAAGTTATTTTACCATTTATTCCAACTTAGGAAATGTAAGTGTTTCCAAAGGACAGCAGGTTTCCTCGGGAACTCCGGTAGGTACAATAGCTCAGGATTTTGACGGTGCTTATACCCTTGACTTCCAAGTATGGAACGGAAGTACACCAGTTGATCCATTAGGTTGGATTTCATATTAA	MFGLHQGQQTKEQLQKQNAELKKQIAQINSDLAKTRSESKLSVAYLSSVNQKLVLREKVYNNTQKEKRFIEDDIYLRQLEINRQNRELAVLRKNYAEVLVNAYKNKGVQNKVTFILSAKNLGEAIRRVQYLKQYSDYQDKKAAEITNAANLIKKTIAQKQNSVKEKANLLVNQQKDLATINAERTQKEQLVADFKKNESKLTAELKQKQVQSKALEGQIRAIIAEEIRIAKAEEEARKKAEAEKIRLAKLAAEREKARIEAEAKAKAEALERERRLAEAEAKKAAELAAKRAEEERKRSEDAAKAEANARDEARRLAAKKASDEANAKAKEAADKLAAAKAAEAALAKRKEEEKKAAETKAMTSYGVSTSSGSSFADNRGRLGYPADRVGQITHRFGRQPHPVFKNITEENNGIKISVPSGTRAKSVFPGSVSSVLANNDGTKTVIIKHGSYFTIYSNLGNVSVSKGQQVSSGTPVGTIAQDFDGAYTLDFQVWNGSTPVDPLGWISY	PGPT0023855_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
BMS003_03834	213	tatA		Sec-independent protein translocase protein TatA	ATGAATACACTAACAATACTTGCCTTATCTTGGCAACACATCCTTATCGTAGCGATACTTTTAGTATTACTTTTTGGAGGAAAGAAAATTCCGGAATTAATGAGAGGAGTAGGTTCTGGAATAAAGGAGTTTAAAGATGCAGTAAAAGAAGAAGACAAACCTGGTTCTGAAAATAAATCATCTTCAAACAATAACAATTCTTCAAGCAACTAA	MNTLTILALSWQHILIVAILLVLLFGGKKIPELMRGVGSGIKEFKDAVKEEDKPGSENKSSSNNNNSSSN	PGPT0029290_3899	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
BMS003_03835	615			hypothetical protein	ATGAAATTTACTGAGACTGCATGGAAAGTCTTCAATCAGTCTATTGAAGACTATCACGTGTCTGATGACGTTAACACTCTAATTAGTAACCCGTTCGAAAAAGACAGTTTGGAACGGATTTTGTATGCAAAGAACTGGATTGATACCGTTCAATGGCATCTGGAAGATATAATTAGAGATGAAAATATTGATCCGGCTGAAGCTCTTCTACTCAAGAGAACAATAGACGCTTCCAATCAGAAAAGAACTGATCTGGTAGAATATATTGATGGCTGGTTCCTTAATAAGTTTGAAAATATAACTCCTAAACCTGAAGCAAAAATAAATACGGAAACTCCCGCTTGGGCAGTAGACAGGCTATCAATTCTTGCATTAAAGGTTTATCATATGTCGTTAGAGGCTAATAGAGAATCTGCTTCTGAAGAACACAGAAACAACTGCCAGGCTAAGCTGGATGTTCTGCTTACTCAGAAAGAAGATCTATCTACTTCTATAAATCAGTTGCTTACTGATATTGAAAACGGTAATGTTAAGATGAAAGTATACAAACAAATGAAAATGTATAATGATGAAAGTCTTAACCCAATCCTTTATCAAAAAGGGCAACAAAAATGA	MKFTETAWKVFNQSIEDYHVSDDVNTLISNPFEKDSLERILYAKNWIDTVQWHLEDIIRDENIDPAEALLLKRTIDASNQKRTDLVEYIDGWFLNKFENITPKPEAKINTETPAWAVDRLSILALKVYHMSLEANRESASEEHRNNCQAKLDVLLTQKEDLSTSINQLLTDIENGNVKMKVYKQMKMYNDESLNPILYQKGQQK				NA	NA	NA	NA	NA
BMS003_03836	459			hypothetical protein	ATGAAACGACTAATTTTTCTTGGAGTACTAATCATATTAACATCTTCCTGTGCAACGGAAAAGCTTAACCTTTCCCCGTTGTCAAATAATTTTTATAGTGATGCCAAAGGTTCGGATTCCGACAGAGGCTCAAAGAAGGATTTTAATATCAATATTAAAGAAAATGTAAATGCTTCTGAAATTTCTAACATGATTTCCACCTTTCCCAAGTTCAAAAACAACGGATTGAATGATGAAATTACCAGTCTGAAATACAGCCTTCAGAATTATTTATATGCTATTGACGCCAATAATTCTACAGGAAAAAGCAGAGCCATTAAAAGTTTCGAAAAATCTTACAAAAAAATTCAAAAGCTAAGGCAGAATCTTGACAGAGATGATGATGAAGTTCTCAACAGATATCTGGTTCGTTTAAAAACCAATATTTCTATTATTGAAGATGCTTTGCCAGGAAGTTAA	MKRLIFLGVLIILTSSCATEKLNLSPLSNNFYSDAKGSDSDRGSKKDFNINIKENVNASEISNMISTFPKFKNNGLNDEITSLKYSLQNYLYAIDANNSTGKSRAIKSFEKSYKKIQKLRQNLDRDDDEVLNRYLVRLKTNISIIEDALPGS				NA	NA	NA	NA	NA
BMS003_03837	597	ribA	COG0807	GTP cyclohydrolase-2	ATGATTAAAATTCAGGCGGAAGCCAATGTTCCTACAGAACACGGTACTTTCCGAATGATAGCTTTCTCCGAAAACGCCAATGACTGGATGCCACACATGGCCATTGTTGCAGAAAATACAGATTTCTCAAAACCAGTGAATGTCCGTTTCCACTCAGAATGTATTACCGGAGAAGTTTTCCATTCAAAAAAATGTGAATGCGGCCAGCAATTAGACGCTGCAATGAAATATATCCATGAAAACGGTGGAATGATCATCTACCTACGCCAGGAAGGAAGAAACATAGGAATCATCAACAAGCTGAAGGCATATTCCCTACAGGAAAAAGGTTTGGACACTGTACAGGCCAATCTTGAACTGGGACTTCCTGCAGATGACAGAAACTTTGGCGTAGCCATTGAAATCCTTAATCTGCTGGATGTAAAAGATATCAACCTTCTGACCAATAATCCTGAAAAGGTAAAATATGTTGTGGACAGCAATATTCACCTTAACTCAAGAGTACCTTTACAGATCCCTGCTAACGAAATAAGCAAAGGATATCTGCAGACAAAAAAAGACTTCTTTGGACATCTTCTGGATGACAATGATAACTAG	MIKIQAEANVPTEHGTFRMIAFSENANDWMPHMAIVAENTDFSKPVNVRFHSECITGEVFHSKKCECGQQLDAAMKYIHENGGMIIYLRQEGRNIGIINKLKAYSLQEKGLDTVQANLELGLPADDRNFGVAIEILNLLDVKDINLLTNNPEKVKYVVDSNIHLNSRVPLQIPANEISKGYLQTKKDFFGHLLDDNDN	PGPT0007985_1507	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
BMS003_03838	540			hypothetical protein	ATGAAAAAAATACTTCTCTTTTTATTCCTGGGCACTGTAGGTTTGACTGCTTATAGCTGCGATAATAGTGATGATGTTGTGGTACAAGGTCAGGATAATGATACTTATTCAACAGCTTATGATATTATTCCGAAATTTAATAAACAAGATAGCTATACATATCATTTTGATGATGCATTTAAAAGTTCATTACTTGAATCTGATGTAGTTCTTGTTTATTTACAGACAGGTCTTACAACAAATGGATATCCGATCTGGAAGCTACTTACCTATACAGAATATCCTAACAATGGTGCTGATAAAGTTGAATATTCATATGACTTTAGTAAGGTTGATTTGGGAATTGATGTAAGATCTACTACTGGAGTTAATTTGGATAACAATCCAGGGTACTATACGAACAAAAAATTCAGAGTAGTAATTGTTCCTGCAAAAACAGGTACATCTAAGAGTGCAGCTGCTGCTACGGTTAATTATTCAGATTACAACAGTGTAATCAAATATTATAATATTGACGAGTCTAAAATCAAGACTAAATAA	MKKILLFLFLGTVGLTAYSCDNSDDVVVQGQDNDTYSTAYDIIPKFNKQDSYTYHFDDAFKSSLLESDVVLVYLQTGLTTNGYPIWKLLTYTEYPNNGADKVEYSYDFSKVDLGIDVRSTTGVNLDNNPGYYTNKKFRVVIVPAKTGTSKSAAAATVNYSDYNSVIKYYNIDESKIKTK				NA	NA	NA	NA	NA
BMS003_03839	1704	nagZ		Beta-hexosaminidase	ATGAAGAAATTATTATATACTTCACTCTTTATTGTTGCATTGATAAGTCCTACGGTGAAAGCCCAGTATCAACCAAAAAATGCTTCTAAGGAAGATCTGAAAAAAGCTCAGCAATGGGTGGATAAAACTTATAAAAATCTTTCTCAGGATGAAAAACTAGGACAGCTTTTTATTGTGGCACTTTATACCAATAAAGGTGAAGAGTATATCAGCCAGGTCAGAAATATTGTTGCGAATGATAAAATAGGGGGTCTGATTTTAATGCAGGATGATGCAGCAAGGGAAATCAATCTGGTGAATGAATTTCAGCAGACATCTAAAGTTCCTTTAATGATCGGGATGGATGCAGAATGGGGATTATACCAGAGAATTGCAACAGCACATAAATTTCCGTGGGCAATGACATTAGGAGCTATCCAGGATAAAAACCTTGTGTATCAGATGGCAGCAAAAATTGCTGATGACTGTCACAGAATGGGAATCAACTGGGATTTCGCTCCTGTAGTGGATGTGAATACCAACCCGAATAATCCTATCATCGGAAACCGAAGCTTTGGTTCCGAAGTAAATAATGTAATCAGTTCTGCCCTATCCTATTCCAATGGTCTTCAGGATAATAATATCTTAGCAGCTATCAAACACTTTCCGGGACACGGAGATACCAGCACAGACTCACATCTTGATCTTCCTGTGGTTTCTCACACTATGGACAGGCTTAACACCATAGAACTAGCACCGTTCAAAGCGTTGATGAATAAAGGAATTGGCGGGGTAATGGTTGCTCATTTATATGTTCCAAGTCTGGAATCAAAAAAGGGAATTCCGGCCTCTGTTTCTAAAAGCATTATTACCGGATTACTTAAAAATAAACTAGGCTATAAAGGCTTAATTATTACTGATGCTTTAAATATGGGCGCTGTAGCCAACAAATACAAACCAGGAGAGCTGGATGCCATGGCCTTTAAGGCAGGAAATGATATCATGCTTTTCTCCCAAGGCGTTTCTGAAGGTAAAAAACTGATTCAGAAAGCCATTGATAAAGGAGAAATCCCGCAATCCAGAGTAGAGGAAAGTGTGAAAAAAATTCTTTTAACCAAATATTTCCTTGGGTTGACTCAATACACTCCCAAAAATCCTGAAAACATCAATACAGACCTGAATAATGATTCTCATACTACTTTGGTACAGAATCTTTATTCTAACGCATTGACTTTATTAAAAGATGAAAATAAACTGCTGCCTCTTACAGGAAAACAGATCTATTATGTTCCTCTCGAAGAAGCACCTTATCAGACTTTCGCCGACAGATTAGGAAATAATCTAATCATTAAAAAGGCTGGCGAAATTAATACTATCCCTTCCGGGTCTACAGTAATTGTAGGTTTCCATAAGGACAATTCAACAGCTTATAAACCTTATAAAATCTCGACAGAATCAAAGAAAGTGCTTTCTGATCTTGCCAAAAATCAAAATGTAATACTGAATGTATTCGGAAGTGCTTATGCATTAAAGGATATTGATATCTCCAAAGTTTCCACAGTTCTTGTTTCTTATGAAAATAATGATGATTCAATGAATGCTACAGCAGATGCTTTGAACGGAAAAACAAAAATATGGGGTAAACTTCCTGTACTGGTTAATGATCAGCTGAAACCAGGAATGGGTATGGAACTTAATGCGGCAACTTCAGCTAACACCAAATAA	MKKLLYTSLFIVALISPTVKAQYQPKNASKEDLKKAQQWVDKTYKNLSQDEKLGQLFIVALYTNKGEEYISQVRNIVANDKIGGLILMQDDAAREINLVNEFQQTSKVPLMIGMDAEWGLYQRIATAHKFPWAMTLGAIQDKNLVYQMAAKIADDCHRMGINWDFAPVVDVNTNPNNPIIGNRSFGSEVNNVISSALSYSNGLQDNNILAAIKHFPGHGDTSTDSHLDLPVVSHTMDRLNTIELAPFKALMNKGIGGVMVAHLYVPSLESKKGIPASVSKSIITGLLKNKLGYKGLIITDALNMGAVANKYKPGELDAMAFKAGNDIMLFSQGVSEGKKLIQKAIDKGEIPQSRVEESVKKILLTKYFLGLTQYTPKNPENINTDLNNDSHTTLVQNLYSNALTLLKDENKLLPLTGKQIYYVPLEEAPYQTFADRLGNNLIIKKAGEINTIPSGSTVIVGFHKDNSTAYKPYKISTESKKVLSDLAKNQNVILNVFGSAYALKDIDISKVSTVLVSYENNDDSMNATADALNGKTKIWGKLPVLVNDQLKPGMGMELNAATSANTK	PGPT0012175_1091	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS003_03840	1149	bshA	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAAAATAGGCATACTTTGCTATCCCACCTATGGAGGAAGCGGAATTGTAGCAACAGAATTGGGAATGTCTCTTGCCAATAAAGGATATGAAGTACATTTCATCAGTTCTGCACTTCCCGCAAGATTAGACATTACTAACCCGAATATTTTCTTTCACAGAGTAAATGTTCAGACCTACCCTCTTTTTCAGTATCAACCTTATGATATTGCGCTGAGCTCAATGATCTACAGGGTTGTGAATCTTTATAAACTGGATCTGCTTCATGCACATTATGCCATTCCTTACGCATATGCAGCTTTTACGGCAAAGCAGATGCTTCAGGAAGACAATAATGATATTCCTTTGGTTACTACATTACACGGTACAGATATTACCCTTGTAGGCCAACACCCAAGTTATAAGCATGCGGTAGAATTCTCAATCAATCAGTCGGATGCAATTACTTCAGTTTCTGAAAGCCTGAAAAAAGATACCCTTCAGTTTTTCAACATCAAAAAAGAAATTCAGGTAATTACCAATTTTATTGACAATTCTGAATTTGATGACTGCTCTGAATGTCAGAGAACCCAGTTTGCCAATCCTGATGAAAAGATCCTGATCCATGTATCCAATCTTCGCCCGGTAAAACGTGTAGATGAAGTACTTCAGATCTTTAAAAACGTAGAGAAAAAAGTGAAATCCAAACTAATCATCATTGGTGAAGGTCCGGATATGGAAAAGGTAAATCAGTTTCTGGAAGAAAATCCGGATCTTATTTCCAAAATCCGTCTTTTAGGAAAAGTAAATGATCTGTATAAAATCTTACAGCTTTCGGATGTATTTCTTCTTCCTTCGGAGCAGGAAAGCTTTGGGTTGGCAGCATTGGAAGCAATGGCCGCTTATACTCCGGTAATCAGTTCCAATGCAGGAGGAATTCCTGAGGTAAATATTCAGGGAGAAACGGGATATCTTGCTGAAATCGGAAATGTAGAAGCCATGAGCAACTACACCATCAAGCTATTGAGCAATGATGAACTTTTAGCCAAAATGAAACAAAATGCGAAAGATCAGGCTATAAAATTCGATTTGAAAAACATTCTTCCTATCTATGAGAAAATGTATAGAACAACCATAGAAAATTTTAATAAGGAGTTGACGAAAGTATAA	MKIGILCYPTYGGSGIVATELGMSLANKGYEVHFISSALPARLDITNPNIFFHRVNVQTYPLFQYQPYDIALSSMIYRVVNLYKLDLLHAHYAIPYAYAAFTAKQMLQEDNNDIPLVTTLHGTDITLVGQHPSYKHAVEFSINQSDAITSVSESLKKDTLQFFNIKKEIQVITNFIDNSEFDDCSECQRTQFANPDEKILIHVSNLRPVKRVDEVLQIFKNVEKKVKSKLIIIGEGPDMEKVNQFLEENPDLISKIRLLGKVNDLYKILQLSDVFLLPSEQESFGLAALEAMAAYTPVISSNAGGIPEVNIQGETGYLAEIGNVEAMSNYTIKLLSNDELLAKMKQNAKDQAIKFDLKNILPIYEKMYRTTIENFNKELTKV	PGPT0019565_556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019565-bshA-K00754	NA	NA
BMS003_03841	1257			hypothetical protein	ATGACGGAAAAACTGCTTCAATATCTTTGGAACTATAAAGTTTTCAAACATTTTAACTTCAAGGATATTGAAGGAAATTCCGTTGAGATCATCCATTCCGGAAAATGGAATAAAAATGACGGTCCTGATTTTCTGGACGCAAAAATCAAAATTAACGGCTTACTTCTCGCAGGAAACATTGAACTGCATATCCGCTCTTCAGACTGGATTTTCCATAACCATTCCCAGAACCCTAATTATCAGAATATCATTCTTCATGTTGTATACCAGCACGACATGGCAATCCAGGAGCTTACTGGAAATAATATTTCTACTTTGGAACTCAATGATTATCTGGACGAAAACATCATCCGGAAATATGAAAAGTTTGTGGACAACGAAGAATTTATCGCCTGCGAAAATCTATTTGATCCGGCAAAAATTCCCATTAACTTTCATGAAGAGAATATTCTGAAAAAGCTGGATGAGAAGACATCAGAGCTTGAACACGGTCTGATCCGGTATAAAAATAATTTTGAAGCTGTTTTATTTCACAGTTTTGCCTATTCATTCGGTGTAAAAATTAATGCTCATATTTTCCGGCAGATTGCGGAATGTGTGGATTACAGTATTATTAATAAAATCCGTCAAAATCCTTTTCAGCTTGAAGCATTACTTTTCGGAATTTCAGGATGGCTGGATGATCCTCAGGACAAATCCATGACAATATGGAAGAGAGAATTTGAATTCATTAAAGCTAAGTTTTCTGTTCCTGGTCTTATATTCCGTCCCAAGTTTTTAAGATTAAGACCTCCCAATTTCCCAACCATCCGCTTATCTCAATTGGCAGATCTGTATAAACATCAGAACTTATTTTCAAAAATCATGGAAGCCGGAAATACGGAGCAGCTTTATAGCATATTCAGTTCCGTAAAAGCTTCTGCATATTGGGATTCTCATTTTAATTTTGGAAAAATTTCAAAAGTATACCCTAAAACATTGAGCAAAGATTTTATTGATCTTCTTATCTTAAACACCGTTATCCCTTTAAAATATGTTTATCACAGATATCATCACGAAGAAATTACGGATGAGATCATTGAACTCTACAAATCTATTTCTACTGAGAAAAATACCATCATTACCGGCTGGAAAAAGCTGGGACTGGAAGTTACCAACGCGTTGGAGAGCCAGAGTCTGGTCTATCATCATAAAACCAATTGTGAAACAAAAAACTGCTTAGCCTGTGGTATTGGATTTAAACTTTTAAAAGAATAA	MTEKLLQYLWNYKVFKHFNFKDIEGNSVEIIHSGKWNKNDGPDFLDAKIKINGLLLAGNIELHIRSSDWIFHNHSQNPNYQNIILHVVYQHDMAIQELTGNNISTLELNDYLDENIIRKYEKFVDNEEFIACENLFDPAKIPINFHEENILKKLDEKTSELEHGLIRYKNNFEAVLFHSFAYSFGVKINAHIFRQIAECVDYSIINKIRQNPFQLEALLFGISGWLDDPQDKSMTIWKREFEFIKAKFSVPGLIFRPKFLRLRPPNFPTIRLSQLADLYKHQNLFSKIMEAGNTEQLYSIFSSVKASAYWDSHFNFGKISKVYPKTLSKDFIDLLILNTVIPLKYVYHRYHHEEITDEIIELYKSISTEKNTIITGWKKLGLEVTNALESQSLVYHHKTNCETKNCLACGIGFKLLKE				NA	NA	NA	NA	NA
BMS003_03842	222			hypothetical protein	ATGCTGAGTAATATCCGTCATAAAATGGAAAGAGAATGGTTTGGTGTACTGACAAGAACGGGTGCCAAGCTGGGAATTCCTGTATCAAAACTGAGAATTTTCTTTATTTACTCTACTTTCGCCACTGCCGGATTTTTCTTTCTGATCTACCTGGGATTGGCATTTACGATTTGGATTAAAGATATTTTCATCACCAGAAGACCTAGCGTCTTTGATTTATAA	MLSNIRHKMEREWFGVLTRTGAKLGIPVSKLRIFFIYSTFATAGFFFLIYLGLAFTIWIKDIFITRRPSVFDL				NA	NA	NA	NA	NA
BMS003_03843	513			hypothetical protein	ATGGAATTTTTACCGATAGCTTCTGCTGAGGATCATAGAGTTAATAAAATCTATGCATCCTATACAACTACTTTTCCTGTAGACGAACAGAGAGATAAAGAACAGTTTAATGATTTATTTTCAAATCCTTATGTAAAATTCATGTCGGTTATCCACGAGTCGGAAACCATTGGTTATCTTATTCTTTGGGAGCTGAGTTCTTTTGTTTTTGTGGAACATTTTGAAGTGTTTGAAACATTCAGAAGTAAAAAGCTGGGCTCACATATTATGAATCATTTATCAGAAAGCTATCCGAATATTATCTTAGAAATTGAGCCCGCAGAACTGAGTGAAGATGCTTCAAGACGTTATGCTTTTTATCAGAGAAATAATTTTAAACTGATTGATACTACTCATGTACAACCAAGTTATGGAGAAGGGAAAAAACCTTTGAATTTATGGCTGCTTGCCAATTACACTCCAGAAAATGTGGAAGCAGCTAAAAAAGAGATTCACGATATTATTTATCATTAA	MEFLPIASAEDHRVNKIYASYTTTFPVDEQRDKEQFNDLFSNPYVKFMSVIHESETIGYLILWELSSFVFVEHFEVFETFRSKKLGSHIMNHLSESYPNIILEIEPAELSEDASRRYAFYQRNNFKLIDTTHVQPSYGEGKKPLNLWLLANYTPENVEAAKKEIHDIIYH				NA	NA	NA	NA	NA
BMS003_03844	336			hypothetical protein	GTGGGAAAAATAGAAAATCTATCCCGAAATATTACCGAAATTATCAACCGAGGAATTGAATTCACTTCTTCTTCTCCCGCCTATTTTTATACTAAACTGGCTACAGTAAAACAGGAAATGATTGCCAGCGCTACAAAAGATGCAAAAGAACGTGCTGAAAAAATTGCGGAAAACTCGGGAAGCAGTCTGGGAAATCTGAAAAAGGCAACAATGGGAGTGATACAGATTACAGCACCCAATTCTAACGAGGACTACTCTTATGGCGGAACTTTCAACACTTCTTCTAAAGAAAAAGAAGCGAGTATTACCATAAAGCTGGAATATGAAGTAAATTAG	MGKIENLSRNITEIINRGIEFTSSSPAYFYTKLATVKQEMIASATKDAKERAEKIAENSGSSLGNLKKATMGVIQITAPNSNEDYSYGGTFNTSSKEKEASITIKLEYEVN				NA	NA	NA	NA	NA
BMS003_03845	399			hypothetical protein	ATGAATAAAAACATTTTTGCAGTAGCTATTGCTGCGCTAGGTTTCGTTATAGGCCTTGGTTTTTTAGGAAATGCCATTAAAAACAGAAACAAATCTGAAAATACGATTTCAGTAACCGGGCTTGGTACCAAACAGTTTACTTCAGATCTGATCACCTGGTCAGGAAGTTTTTCCAAAAATAATGTTGATCTGAAATCGGCCTATGATGAGCTGGCAACCGACAGAAAAGTGATCAATGATTACCTGCTTTCGAAAGGAATACAGCAGAATGAGATCGTATTTTTCAAAAACAGTTCAGAAGCTATAATGATTCAAACGGGAACTATGTTCAGGGAGAATTCTCCGGATATAATCTTACCCAAAAAGTTTCTATTGAAAGTAAGGAAGTGGGAAAAATAG	MNKNIFAVAIAALGFVIGLGFLGNAIKNRNKSENTISVTGLGTKQFTSDLITWSGSFSKNNVDLKSAYDELATDRKVINDYLLSKGIQQNEIVFFKNSSEAIMIQTGTMFRENSPDIILPKKFLLKVRKWEK				NA	NA	NA	NA	NA
BMS003_03846	759			hypothetical protein	TTGTTTGTGTTTCTGTGTGGTACGTTTATTTTTTCCCAACAGACTGTAACCGGACGAATTGTAGATGAAACGGGTGAAAATCTGAGTAAGGTGATCGTTATCAACATGTCTTCTGATAAAAAAGTATATTCTGATGCAGAAGGAATATTTTCCATAGCTGCTAATCCGAATGATGAACTTAGGTTTGTAAAAGAAGATTTCAACAGAACATCCCGAAAGGTTCTTATCAATGGTACCAATTTACCTTTGTTTATAATTCTTTATCAGATTCCGAAAGATGTAGGTGAAGTAAAAATTGTGAAAAAACTCACCGGAGATCTGGAAGCAGATTCCCGTATTGTAGCCAAAGTAGATAAAGGTGAAAAGGTAAGAGACGCTGTAGGACTTCCACAACCCGTTGGAAAAATGAGAGAAAAACCGGCAGAAGTGAAAAGTGTTCTTTTGCCTATTCTATTAGGAAACCTGAATGTTCAGGGAATGTATGATCTGATCAGCGGTAAAGCCAGAAGGCAGAAAAGACAATATAAATATGATGATCTTCAGGAGCATATTACCTGGGTGAGAGACAGGATAGATGATGACTATTTTGTGAAGGCAGGAATTCCAGGCGATAGAATTTCAGAATTTATTCAGTTCTCATTTTTAGCAAAACCTCAGGTGAGAACCTATGTAAAGGCAAAAAATCTTTCCGGTGTAATGCTTAGGCTGGAAGAAACGGCTCCCCTTTTTATTGAAAGGCTAAAACAGAATTCAAAATAG	MFVFLCGTFIFSQQTVTGRIVDETGENLSKVIVINMSSDKKVYSDAEGIFSIAANPNDELRFVKEDFNRTSRKVLINGTNLPLFIILYQIPKDVGEVKIVKKLTGDLEADSRIVAKVDKGEKVRDAVGLPQPVGKMREKPAEVKSVLLPILLGNLNVQGMYDLISGKARRQKRQYKYDDLQEHITWVRDRIDDDYFVKAGIPGDRISEFIQFSFLAKPQVRTYVKAKNLSGVMLRLEETAPLFIERLKQNSK				NA	NA	NA	NA	NA
BMS003_03847	747			hypothetical protein	GTGAAACTTAAACTATTCTTTTTTCTATCTTTTATTCTATTTATCCATACTCATGCCCAAAGTTATATTTTTGGAAAGATTACTACTGAAAATGATGTTGAAATGCAGGAAGTAAATGTCATCAACATACGGACAGATGAAATAGTAGTTTCAAACAGAGATGGTCATTTTATGATTTCCGGAAGGGAGGGGGATGAATTAAGGTTTATAAAAGCAGGATACGAACGCCTGGTAAGAAAAGTTTCTCAGGAAAATACACAGTCTCCCATGAATGTCAGTTTGGTACGTCAAACCATTCTGATTCCTGAGGTAGAGGTGAAGCAGGGACTTACCGGAAACCTGAAAATAGATTCAAAACTCTATAATAAGCCCAAAAAGGTGGAAAAACTGATCAAAGATATAGATCAGTATATTGCTCAGAAATCGGATCCAAGGATATTGGCAGCAAAGCCCGGAGAGTTTGTACAACCAAAAGGACAGGGGTTTTTCATAGGAAAAGTGAAAGACAAATGGGATGATGTTGATCTGATGAAATATATCAGAGCGAGTTTGGGGGATGATTATTTTACCAACCTGAAAATAGAGAAACCGCTGATAGATCATTTTATTTATTATGTTTTTGCAGGCGGCTTTGAAAGAAAGAAAATTCTGAAATACGGATTCTGCAGTGATGCAGATCTGAACAGGTTTCAAGGTTTTGTTCTGACAAGAATTTCATCTTATCGTGCCCCACAAACGCAGAGATAG	MKLKLFFFLSFILFIHTHAQSYIFGKITTENDVEMQEVNVINIRTDEIVVSNRDGHFMISGREGDELRFIKAGYERLVRKVSQENTQSPMNVSLVRQTILIPEVEVKQGLTGNLKIDSKLYNKPKKVEKLIKDIDQYIAQKSDPRILAAKPGEFVQPKGQGFFIGKVKDKWDDVDLMKYIRASLGDDYFTNLKIEKPLIDHFIYYVFAGGFERKKILKYGFCSDADLNRFQGFVLTRISSYRAPQTQR				NA	NA	NA	NA	NA
BMS003_03848	3141	recB		RecBCD enzyme subunit RecB	ATGCAAAATTCTTATACAGTCATCAACGCCTCTGCCGGATCCGGGAAAACCTACGCCCTGGTACAGAGACTTCTGATGATCTGTCTCCGCTATCCTAATCAACAGCAGTCGATCAGGAATATTCTCGCTCTGACTTTCACCAACAAGGCAGCAAACGAGATGAAAGAAAGAATTTTATCCTGGCTGGGAAATTTCTCAGCAACAGACTACACTGACAATACTGATCTGAAAAATATTCAGAAAGCATTTGAGGAACAGGGTTTAAAGATTACGATTGATGAGCTCCATCACCGTTCAAAAAAACTATTGGATTATGTTCTCCACAATTATTCAACTCTGAATATCGGAACTATTGACCGTTTCAATTCAAGACTGGTAAGAAGCTTTTCCTATGAGTTGGGACTGGCTAAAAATTTTAATCTGGAGATTGAAGCAGAACCGTTTCTGATAGAAGCTGTAGATAAAATGCTGGATCAGATCGGTGAGAATGAAACCATCTCCAATTCTTTCATGGATTATGTAGACTACAGTCTCGAAAATAATGAAAGAATCAATCTTAATAAAAACCTTTATGATTCTGCCAAAGAATTTGTGAAGGATATTCATTATGAACATTTGAAAAGCAATAAAAGTTTTGATGATGCCAATTATGAAAATATAAAAAATACACTTCGGAAAGAAATTGTTCTTAATAAAAAGCAATCTTCGGAGCTGGCAGCCAGTTCTATCGAATTATTCAAATCAAGAAATATTGACATTGAAGATTTTGCTCAGGGTAAAAACGGAATTGGAGGATTCTTTACTAAAGTGATAGATTTCTATCAGCAGAAAAGAGCCGGTTTTCCTTTTCCAACTACTCAGGAAGAGTCTGTTATCAACAATTATAGAAAGGGAGCATCTTCAAAATCGAAACATAAAGAATCTGAGATTTTTGAAATCCTGGATCAGCTTCTCGACAACAGAATGAAACTTATTCTTCTGTATATTGAGACTCAAAAGAAAGAGAAAATCCTGTCTGCTCTTCTTCCTTTGAAGGTTAATAAAGATATTCAGGATGAACTTCAGAAAATTGAGGAAGAAAATGACCTTGTTCTTCTTTCCAAATTCAATATTCTGATTAATGAAAATCTTAAAAATGAACCTTCAGCTTTTATTTATGAAAAAGTAGGTTCCCAGTTTCAGCATTATTTCTTTGATGAGTTTCAGGACACTTCAGAACTTCAGTGGCAGAATTTTGTTCCGCTGAGGGATCACAGTGTTTCTACGGAATATACTTCATTCACTTTAGTAGGTGATCCTAAGCAGAGTATTTACAGGTTCCGTGGTGGAGAGAGTAAACTCATGCTGGATATTATCAATAAAAAGGAATTTGCACCAAAAGAAGCAGATCTTCTTGTTTTAAAAGACAACTGGAGAAGCTCCAGAAATATTGTTCATTTTAATAATGAATTGTACCGCTTTCATTCTGAAGGACTGCTGGAAGAGCATCAAAATATTTTTGGGGCAGATGCTGAGCAAAACCCAAAATCCAAAATGGATGGACGCGTAAAGGTGAATCTGATAGAAAACCTTACCAATGAAGAATTTTATCAGGATACTTCGGAAAAAATGCGGAAAGATATCCAGGAATGTCTGGATAATGGTTTTAAGTTTTCTGATATCACCATTCTTTGCCGCGGAAATTTTGATATTTTCAGCTATTCTCAAAAACTGGGAGGGTTAAAAGTAATTTACCATGGTGAGGAAACCAATATAAAAACAATTTCCGATAAAGGTCTTACGCTGGAACTTTCCAATACTTTAAAAGCTGTTATTGAATTCCTTCGCTGGGAACTCAATCCTAAGAATAAACCATGCCTGATCATGATGATGTATCATCTTAATACGTTGGGGAAAATTAATATGCCGGATTTTACCTTAGGAATGAGAGAAATTCTCGATATTGAAGGGCACGAAGAGATTCTTCAGTTCATTCAGGAAAAATATTCGCTGCAGCTTAAACAGGACAATTTTCCGAGATTCAATCTGTATAATTTCATTGAATATTATATCAACGAATTTTCTGTTGAAAATAAAGAGACAGACTTCTTATTGAATTTTCTGGAAATGCTTTTCAACTTTACTCAAAATGCGGGTGCCAGTACTAAAGAGTTTTTAAAATATTGGGATGAAGAAGCTTCTTCGTATACCATTCAGGCTTCAGAAAATATTGATGCTATCCAGATTATGACTATCCACAAGTCTAAAGGACTGGAATTCCCTATTGTTTTTATTCCGATGATGAATAAGAACCGGGACAGTGAATTTACCAACTGGTTTGATACGAATGAGAATGAAGCTTTGAAATCCGTTAACATCAACCAGTTTAGCAAAAACCTGGAAGCCTATGATGATGAAATTCTGTTTTTTAACAGTAAAAATGCTTACAAGAACCTGATTGACAGATTGTGTCTGCAGTATGTGGCCACCACAAGACCTGTGGAACAGCTGTTTTTCTATCTGCAAAAAGCAAATAAGACGTCTAATAATCTTGAGCTTCTTGAGTTCCTTCAAACCAGGAATCCGGAACAGGCTGATGAATTTGATGTATATGAAGTGAGCCCTGAAATCCTGAAAAAATATTCGAAGGATAAAAGTTCGTCTTTTAAAACCCAGAATATTCAGCATCTGAAAAATATCAACGAAAAAAGTACTTCTATCAGAATTGCAACACCTTCAAAAAACTATCAGGTAAGAAATGAAAAGGTAAGAATAGGACTTTTCGTACATGAGCTTTTATCAAAAATCAATACGGAGAAAGACATTAGCAAGGTATTGGAAGGATATGCTCTGGAAGGGCAGATCACTTTGGAGGAGAAAAATGAAATCCAGATTACTTTGCAGGAGATTGTTCGAACCTATTCGGAATTTTTTGATGAAAAATGGGAAGTAATTAATGAAAAAGACATTATGATTTCCGAAAATGGTGAAAGCCATATATTCAGACCTGACCGTATTTTAAAAGGAAATGAAGGATATATGATTGTTGATTTTAAAACCGGTGAACAAAAAGCTAAGGATGAAGCACAGATAGAAGGTTATAAAAACATTCTTGAACACCTTGGGAAAAAGGTTCTCAAAACCCAGATTATCTATTTATAG	MQNSYTVINASAGSGKTYALVQRLLMICLRYPNQQQSIRNILALTFTNKAANEMKERILSWLGNFSATDYTDNTDLKNIQKAFEEQGLKITIDELHHRSKKLLDYVLHNYSTLNIGTIDRFNSRLVRSFSYELGLAKNFNLEIEAEPFLIEAVDKMLDQIGENETISNSFMDYVDYSLENNERINLNKNLYDSAKEFVKDIHYEHLKSNKSFDDANYENIKNTLRKEIVLNKKQSSELAASSIELFKSRNIDIEDFAQGKNGIGGFFTKVIDFYQQKRAGFPFPTTQEESVINNYRKGASSKSKHKESEIFEILDQLLDNRMKLILLYIETQKKEKILSALLPLKVNKDIQDELQKIEEENDLVLLSKFNILINENLKNEPSAFIYEKVGSQFQHYFFDEFQDTSELQWQNFVPLRDHSVSTEYTSFTLVGDPKQSIYRFRGGESKLMLDIINKKEFAPKEADLLVLKDNWRSSRNIVHFNNELYRFHSEGLLEEHQNIFGADAEQNPKSKMDGRVKVNLIENLTNEEFYQDTSEKMRKDIQECLDNGFKFSDITILCRGNFDIFSYSQKLGGLKVIYHGEETNIKTISDKGLTLELSNTLKAVIEFLRWELNPKNKPCLIMMMYHLNTLGKINMPDFTLGMREILDIEGHEEILQFIQEKYSLQLKQDNFPRFNLYNFIEYYINEFSVENKETDFLLNFLEMLFNFTQNAGASTKEFLKYWDEEASSYTIQASENIDAIQIMTIHKSKGLEFPIVFIPMMNKNRDSEFTNWFDTNENEALKSVNINQFSKNLEAYDDEILFFNSKNAYKNLIDRLCLQYVATTRPVEQLFFYLQKANKTSNNLELLEFLQTRNPEQADEFDVYEVSPEILKKYSKDKSSSFKTQNIQHLKNINEKSTSIRIATPSKNYQVRNEKVRIGLFVHELLSKINTEKDISKVLEGYALEGQITLEEKNEIQITLQEIVRTYSEFFDEKWEVINEKDIMISENGESHIFRPDRILKGNEGYMIVDFKTGEQKAKDEAQIEGYKNILEHLGKKVLKTQIIYL				NA	NA	NA	NA	NA
BMS003_03849	174			hypothetical protein	ATGTCAGTTTCCACTGTAGTGACTTATAATGTTGTTGACAGCCTAAATCCGCCTGTTACAGAAGACGGACACCAATATATGCCTACCGGAAATATTCTAAAATCTTTACTTCTGAATTTCGTATTGGGAGCATTTGTTTTCATCATCGCCGTTAAAATACAGAGAAAAAAATGA	MSVSTVVTYNVVDSLNPPVTEDGHQYMPTGNILKSLLLNFVLGAFVFIIAVKIQRKK				NA	NA	NA	NA	NA
BMS003_03850	510	ftn	COG1528	Bacterial non-heme ferritin	ATGGTTAGCGAAAAAATTGCAAAATTAATTAACGAACAAATTGCCCACGAACAATACGCCGCTCAATATTATCTTTCAATGTCTGCATGGTTTTCCGGAAAAGATCTGGATGGAATTGCCAACTATTTCAGAGTACAGAGCAAAGAAGAATTGATGCACGCAGATAAAATGTTTGATTATCTAAATGATGTAGGAGGAGAAATTATCATCGGAGAAATCCCGAAACCACCACATGAGTTCGAAAGTGCAACGGATATTTTTGAGAAAGCATTGGCACATGAGAAAGTTGTAACGAAAAGTATTTTCAATATTGTAAAGAATGCTAATGAAGAAGGAGATTTTGCAACAACATCATTCCTGCAGTGGTTTATCAATGAGCAGGTAGAAGAAGAGGCAAGTGCTTCTCAGTATGTAACAAAAATCAAAATGGTATGTGATAACCCATCAGCATTATACCTTTTTGATCAGGAATTGTCTCAGAGAGTATTTACTCCTGGTACAACCGCTTAA	MVSEKIAKLINEQIAHEQYAAQYYLSMSAWFSGKDLDGIANYFRVQSKEELMHADKMFDYLNDVGGEIIIGEIPKPPHEFESATDIFEKALAHEKVVTKSIFNIVKNANEEGDFATTSFLQWFINEQVEEEASASQYVTKIKMVCDNPSALYLFDQELSQRVFTPGTTA	PGPT0003970_853	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217	NA	NA
BMS003_03851	453			hypothetical protein	ATGAAAAAATTAGTTTTAGCAGTAGCATTTATCGGAATGGGAAGTTTTGCAATGGCACAACAGACCAATACAACTCTTCAGGACAGACAGGCAAGAGCTGCAGAAATGAAGCAGAGAATGGAGCAGAAGCAACAGGAACATTTGGATCACATGCAAAAAGATCTGAACCTTAATCAGTCTCAGGTTGCTCAAATAAAGGATCTTCAGGATAAAAGAAAAGCAGAAATGAAAGCTCAGTTTGATAAAAATAAAATAGATAGACAGGCTAGAATGCAAGACATGCAGGCCAAAAGAGCACAAATGGATGCTGACATGAAAAAAATTCTAACTCCTGAACAATATGATAAATGGCAGGCTGGCAGAAAAGCAAATGCAGAAAAAATGAAGATGGGTATGAAAGAAAGAAGAATGATGAAAAAGCCTATGAATACAGGAGCTGCAGAGATGAATTAA	MKKLVLAVAFIGMGSFAMAQQTNTTLQDRQARAAEMKQRMEQKQQEHLDHMQKDLNLNQSQVAQIKDLQDKRKAEMKAQFDKNKIDRQARMQDMQAKRAQMDADMKKILTPEQYDKWQAGRKANAEKMKMGMKERRMMKKPMNTGAAEMN				NA	NA	NA	NA	NA
BMS003_03852	1014			hypothetical protein	ATGAAAAAAATATTTTTAGGATTAGCTTTTGGGTTGGGCGTTCTGACGTCTGCTCAGCAGTATCCAAATAATGGTTGGGGTGATGATGGTTATTATCAGAATGGCGGAGGCTATTACAGCGATGAAGATGACAGAAATTATTTCCCGGACGATTATTATTATAATTATCCACAGGATTATTACCCAAGTGATTATTATCAAAGCTATTATAATGATTACAGAGGAAGTATTATTAATATCGACTGGAATGGCTTTTTTATCCAGAACAGATTAAGCAGATGGCAGGTAGATCAGATTATGAGACTTAATAACCTGTATGCAAGTTTTACAACATGGAATAACTTTTACAGATATAATCCGGACAGATGGTACTATGACAGGTTTTATGCATTAGAAAGAATTTTGGGACCAAGAGTATTTGTTGTTTTCAGGAATAACTACTACAGAGGATCCAGTCCGATTGTATATTTCCAGAACTACAGAAGAACATATTATGTGCCGAGATATACTGTAATGCCAAGATATAGAAATATCAATATCAATGTTTACAGGGTAGACAGATCGAAATTCCGCAGAATGGATAACCCTACTTTTAATATTGTAAGAAGAGATAATGGAGCAGGTAATGGTTTCAGAAATACAAGAACTACGGATAGGTCAGGAGGATTCCGTGATAACAATGGAGGTTTCAGGAACAGCAATGGAGCGAATTCCGGTAGTACTACAGGCAACGGAGGATTCAGAAACAGTAACGGAGGAGGGTTCCGTGGGAGCTCTGACAGCGGAGTAAGCAATGGTAATAGCGGTGGATTCAGAAACAATAATGGAGGTGGGTTTCGTGGAAATTCAGGAGGAAACCGAGTAAATACAGACAATAGCGGAGGCTTTAGAAATAGTAATGGAGGTGGTTTCAGAGGAAACGGAGGCTTTAAACAAAGATCTGAAAGTACTGCTCCAAGACATGAAAACCGTGGCAATGGTGGTGGCTTTAGAGGCAGTTTAGTAAAGAATTAA	MKKIFLGLAFGLGVLTSAQQYPNNGWGDDGYYQNGGGYYSDEDDRNYFPDDYYYNYPQDYYPSDYYQSYYNDYRGSIINIDWNGFFIQNRLSRWQVDQIMRLNNLYASFTTWNNFYRYNPDRWYYDRFYALERILGPRVFVVFRNNYYRGSSPIVYFQNYRRTYYVPRYTVMPRYRNININVYRVDRSKFRRMDNPTFNIVRRDNGAGNGFRNTRTTDRSGGFRDNNGGFRNSNGANSGSTTGNGGFRNSNGGGFRGSSDSGVSNGNSGGFRNNNGGGFRGNSGGNRVNTDNSGGFRNSNGGGFRGNGGFKQRSESTAPRHENRGNGGGFRGSLVKN				NA	NA	NA	NA	NA
BMS003_03853	2652			hypothetical protein	ATGAAACTATACTTTAACGTAGGATATATTGCAAAGGCCGGAGAAAATTTACAGCTTGTAATTCGTGAAGAAGGCACTGCAGTACGTATCCATACTATGTTTTGCGGTGAAAATGATTTATGGAAATGTGAAGTGGATAACTTTTCAAAATCTATTTCTTACCAATATAGAGTAGTAGATGAGAAAAGAAATATATTAAGAACTGAATTTGTTCCCCATCACCTCAGTTTTCCCCATAATTACAAAGAGTTTGTCATTTTTGATGAATGGAATAACAAGAATTTTCCGGAAAATTATCTGAACAACAAGATCCTTTACAATAAACTACATGATTTTGTTCCTGAAAAGGTAACAGTTTTAAAAAAACATACTCATTTATTCCGAATAGAAGCACCTATTTATAATCCGGACTGGAAAATCGTACTTTTTGGAAGTACAGCATCTTTAGGTAGCTGGAGTTATGAACATGTTATTCATTTGAATCAGACGGATTTTGGGATGTGGGAAGTTTCTGTTGAAATCCCCGAGAATGAGTTTATTCAATTCAAATACTGTATTTTTGATATCAAAGAAAACAGAGTAATTGATGTAGAAACAGGAGAAAACAGATTTACTGTGACCAATCAGCTACCTGATGTTTTACACGTTGTTTCCAATCATTATTTTAGATTTAAAGGATATCAGATGTATCATGATGCAGGAGTTGCTGTTCCAGTATTCTCCTTGAGAAGTGAAGACGGATTCGGGGTAGGAGAATTTGCAGATATAAAAAAACTGGCAGACTGGGCCAAGGAAACCAATCTTGGTATTATTCAGATTCTTCCGATCAATGATACAACAGCTAATTATTCCTGGACAGATTCTTATCCTTACGCAGCAGTATCTGTTTATGCGCTGCACCCACAGTACATCTCCTTAGAAAAGCTTAGTTATTCTTTACCGAAGGAGTTAGTTGATGGTTACTTGCTTGAAAAAGAGAATTTGAATGCTCTGGATCTCATTGATTATGAAAAAATGATTGCTGGTAAATGGCAATATCTTACCGCAGTTTTCAATGCGGAAAAGGATAAAATTTATAAAGATAAAAGTTTCAAAAAATTCATTAAGGATAATGAATACTGGCTCGTCCCTTATTCTGCATTCTGCGTATTAAGGGATAAATATAAGACACCTAACTTTAACGAGTGGAAAACCCACAAAAAATATATTGCAGGAAAGATCTCTCAGTTTTTTACAACCAAAAACAAAGATTATGATACCTCAATGCTTCATGCCTGGGTACAGTACCAATTGCATATACAGCTGAAAGATGCAGTAGATTATACCCATAACCTGAGAATTTCGTTGAAGGGAGACCTTCCGATTGGAATTTACAGATATTCTGTAGATGCGTGGACAGAACCGGAATTATTCGGAATGGACTTCCAGGCTGGGGCACCACCTGATCAGTTTACAGAACTGGGACAAAACTGGGAATTCCCGACTTATAACTGGAAAGCCATGAAAGCAGACAATTACAGATGGTGGAAAAACAGATTCAAAGCACTGGAACAATATTTTGATGCCATGAGAATTGATCATATTCTGGGTTTCTTCAGAATATGGAGAATGCCGGTCTCTGCCGTACAAGGGATTTTAGGATACTTCTATCCGGCCGTTCCTATTGTAGCAGAGGAATTCGGAGCATGGCAGATTCCGTTTAATTTTGACAGATATTGTAAGCCATTTATTAATAATCAGATCTTATGGGACTATTTTGGAGCTGATAGCGGTAAAGCTCTTGAGTTTATGAACCGTAATGATAATGGAACTTATGCTTTCAAAGAAGAATTTGATACACAGAGAAAGCTGGTCCATTTCTTTAAGAAAAAATCATATGGTTCACTGGAAGAAAAATTAATTTCCCTGTGTGCCAATGTTGTGTTCCTAGCAGAAGAAAGAAATGGGAAAACAGTTTATCATCCGAGATTTAATGTATATAATACGGAATCATACAAATGCCTGCCGGAATCTGAGCAGAAAAGTATTTATGATCTGTATCACGACTATTTCTTCAGAAGACAGGATCATATGTGGTATGAAAAAGCTATGGAAAAGCTTCCGGTTATCCTGAATGCTACCAAAATGCTTATCTGCGGAGAAGATCTGGGGATGGTTCCTGCATGTGTACCTGTTGTAATGGATGAGCTGGCTATTATAGCACTGAAAGTACAAAGAATGCCTTCTGAAAACATTCCGTTCTATAATCCTAAAAATGCAAACTATATGAATGTAGTGACAGCTTCTTCTCATGACAGTTCCACACTGAGACAATGGTGGAAAGAAGATCCTGTACTTACACAAAGATACTTCAACCAGCAGCTGATACAATACGGAAAAGCACCTGAAGATCTTAACCCCTCTCTTGCAGAGATTATTATGAAGCAGCATTTGTATAATGAAGCAATGCTGGCAATTTTCCCGATTCAGGAATTCCTGGCAACAGATGCAAAGCTTACCAATAAAAAAATGGATAATGAAAGAATCAATAATCCGGCAGTTTTCCCACATTATTGGCGCTACAGAATGCACATCAAACTTGAAGACCTCAAAATGCAGAAATCTTTCAATGAAAAAATTGCTTTTTGGGTAAAAGATAGTGGAAGAGTGTAA	MKLYFNVGYIAKAGENLQLVIREEGTAVRIHTMFCGENDLWKCEVDNFSKSISYQYRVVDEKRNILRTEFVPHHLSFPHNYKEFVIFDEWNNKNFPENYLNNKILYNKLHDFVPEKVTVLKKHTHLFRIEAPIYNPDWKIVLFGSTASLGSWSYEHVIHLNQTDFGMWEVSVEIPENEFIQFKYCIFDIKENRVIDVETGENRFTVTNQLPDVLHVVSNHYFRFKGYQMYHDAGVAVPVFSLRSEDGFGVGEFADIKKLADWAKETNLGIIQILPINDTTANYSWTDSYPYAAVSVYALHPQYISLEKLSYSLPKELVDGYLLEKENLNALDLIDYEKMIAGKWQYLTAVFNAEKDKIYKDKSFKKFIKDNEYWLVPYSAFCVLRDKYKTPNFNEWKTHKKYIAGKISQFFTTKNKDYDTSMLHAWVQYQLHIQLKDAVDYTHNLRISLKGDLPIGIYRYSVDAWTEPELFGMDFQAGAPPDQFTELGQNWEFPTYNWKAMKADNYRWWKNRFKALEQYFDAMRIDHILGFFRIWRMPVSAVQGILGYFYPAVPIVAEEFGAWQIPFNFDRYCKPFINNQILWDYFGADSGKALEFMNRNDNGTYAFKEEFDTQRKLVHFFKKKSYGSLEEKLISLCANVVFLAEERNGKTVYHPRFNVYNTESYKCLPESEQKSIYDLYHDYFFRRQDHMWYEKAMEKLPVILNATKMLICGEDLGMVPACVPVVMDELAIIALKVQRMPSENIPFYNPKNANYMNVVTASSHDSSTLRQWWKEDPVLTQRYFNQQLIQYGKAPEDLNPSLAEIIMKQHLYNEAMLAIFPIQEFLATDAKLTNKKMDNERINNPAVFPHYWRYRMHIKLEDLKMQKSFNEKIAFWVKDSGRV	PGPT0018570_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
BMS003_03854	1164			hypothetical protein	ATGAAAAAACATTTATTCCCTTTATTTTTACTGTTATTAGGTGCGAATGTACAGGCACAGCAGGATTTTTTTGCCATTGCAGGAAAAGACACTCAAAGTATTACTTTTAATGATTTTCGTACAATTGATATTGTTAATGGAACTTCCGGAGAGAAAATTTTTACAGCGGAGTCTGCTGCAAAAGTATTTTCACAGAACAGAAAAATTACTATAGCTGAAGACAAAAATTCTTATAATAACTCTCAATCAACTACTCTGGCAGCTCTGGCATATGATTCCTCTAATAATAATCTTGTGTATATGCCTATGTTTTCTTCTAATATTTATATTTTAAATCCTAAAACTAAAGAGATTACACTGATAGAAAATAATGTAGCAAGAGTTTCATCCTGCGATATCAATTCCCATATTACAAGAATGGCAACAGGATATAATGGGAACATTTATGCGGTAAATAATGCCGGAACACAGTTTTTGGAAATTAGCAAAAAGGGTGAGCAGTATACAGTGAATGACCTTGGAATTATTAAGGATGATCCATCCAATGGTAAAAATTCATTTACGGCCATGGAAACAGGTTTTGGTGGAGATATGATTGCTGATAGTGATAATAATTTCTATATTTTTTCTGCTTCAGGAAATGTTTTCAAAGTTTTAACAAAAGATTTAAAAGCTCAGTTTGTAGGAAAGATTGCCGGAATTCCGGATAACTATTCTGTAAATGGCTCTGCTGTAAATGTTCAGGGAAAGGTAGTCATTGCAAGTGCAAAAGGAGGAGCTCTATATGAAGTAGATCTGACAACTTTACAGGCTAGGCAGCTTCCTGGTGAACAAGGACTGCATATCTATGATTTGGCAAGTAAATATTTTGTCAATAATAAGACTACTAATAGCAGCAGTTTTGCCAATATGGATATTTATCCGACAAAAGTAGAAGAGCACTATATCAACGTTCATTTTACTAAAAATATAAAAGGGAACGTTCAGCTTAATATTTTTGATATGTCCGGTAAAAATGTGATGACTCAGAATCTTTCTGTTAAAGAAGAATCACTGGATGAAAGGGTATATCTTAAAGGAATAGTGAGTGGAGCATATATTGTAAACATTACCAATGATGCAGGAAAAACCATGTTCAGTAAAAAGATTCTTGTAACAAAATAA	MKKHLFPLFLLLLGANVQAQQDFFAIAGKDTQSITFNDFRTIDIVNGTSGEKIFTAESAAKVFSQNRKITIAEDKNSYNNSQSTTLAALAYDSSNNNLVYMPMFSSNIYILNPKTKEITLIENNVARVSSCDINSHITRMATGYNGNIYAVNNAGTQFLEISKKGEQYTVNDLGIIKDDPSNGKNSFTAMETGFGGDMIADSDNNFYIFSASGNVFKVLTKDLKAQFVGKIAGIPDNYSVNGSAVNVQGKVVIASAKGGALYEVDLTTLQARQLPGEQGLHIYDLASKYFVNNKTTNSSSFANMDIYPTKVEEHYINVHFTKNIKGNVQLNIFDMSGKNVMTQNLSVKEESLDERVYLKGIVSGAYIVNITNDAGKTMFSKKILVTK				NA	NA	NA	NA	NA
BMS003_03855	927	mdh		Malate dehydrogenase	ATGAAAGTAACTGTAGTAGGTGCAGGCGCTGTAGGAGCAAGCTGTGCAGAATACATCGCAATGAAGAACTTCTGTTCAGAAGTAGTTTTGGTAGACATTAAAGAAGGGTTTGCTGAAGGGAAAGCAATGGATTTGATGCAGACGGCATCTCTTAACGGTTTTGATACAAAAATTACGGGTACAACAGGAGATTATAGCAAGACTGCAGGTTCTCATGTAGCAGTAATCACTTCAGGTATTCCAAGAAAACCTGGGATGACAAGAGAAGAATTGATCGGTATCAACGCTGGTATCGTGAAAGAAGTTACTGAAAACTTAGTAAAACATTCTCCGGAAGTAATCATCATTGTGGTTTCTAACCCAATGGATACTATGGCTTACCTTGTTCACAAAACGTCAGGTCTTCCTAAACACAAAATCATCGGAATGGGTGGTGCGTTAGACTCTGCAAGATTCAAATACAGATTGGCAGAAGCATTAGAAGCTCCAATTTCTGATGTAGACGGAATGGTAATTGCTGCTCACAGTGATACCGGTATGCTTCCGCTATTGAGCAAAGCTACAAGAAACGGTGTTCCTGTAACTGAGTTCTTAAGTGATGAGCAACAGAAATATGTAATAGAAGAAACTAAAGTAGGGGGAGCTACGCTTACCAAATTATTAGGAACTTCAGCCTGGTATGCTCCGGGTGCAGCAGTTTCTGTAATGGTTCAGGCTATTGCATGCGACCAGAAAAAAATGATCCCTTGTTCTTTAATGCTTGAAGGAGAATACGGACAAAATGATATTTGCTTGGGTGTTCCTGCTATCATCGGGGCAAACGGAGTAGAATCAATTGTAAACGTAACGTTGACTGCTGAAGAGCAATTGAAATTCGCTGAAGCGGCAAATGCTGTAAGAGAGGTGAATGGAGATCTTAAATTTTAA	MKVTVVGAGAVGASCAEYIAMKNFCSEVVLVDIKEGFAEGKAMDLMQTASLNGFDTKITGTTGDYSKTAGSHVAVITSGIPRKPGMTREELIGINAGIVKEVTENLVKHSPEVIIIVVSNPMDTMAYLVHKTSGLPKHKIIGMGGALDSARFKYRLAEALEAPISDVDGMVIAAHSDTGMLPLLSKATRNGVPVTEFLSDEQQKYVIEETKVGGATLTKLLGTSAWYAPGAAVSVMVQAIACDQKKMIPCSLMLEGEYGQNDICLGVPAIIGANGVESIVNVTLTAEEQLKFAEAANAVREVNGDLKF	PGPT0001435_3413	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
BMS003_03856	552			hypothetical protein	ATGGTATCAGAATATCTTAAAGAGAATACAGCAGATTATCACAATGCAGCAGAGAAGCTTTTTAATTCTGAAAAGATTTTTAATAGGACTTTCACTCTGGAGGATTATAAAAAAATAATTCATACCAATTATCTGATGCTTCTTCACAGTGAAGACAAAATATTCAGCAGCCTTTCTGATAAGTATACAGAAAAGCTTCAGCTTGATGCAAGAAAAAAGCTTTCCCTTATTGAAAAAGATCTGAAAAGCCTTTCTCTTGAAAATCAGAAAGCTTCTCATTTTCTTGAATTCAATAATGAGCATGAAGCGCTTGGAGCAATGTATGTGATTGAAGGTTCTACTCTTGGAGGAAATGTCATTGCCAAGCAGCTTGCTAAAACGGAAGGTTTTGATGAGGTTACATTTAACTTTTTCGGGTGTTATCAGGAGAATACAGGCGCTATGTGGAAGAATTTCAAAGAAGTTCTGGATGCGGAGGTAACAAAAGAAAACTACGGTGAAGTGCTTACCGGCGCGGAAAAATTATATACGTTTTTATTGAACGTCAACTAA	MVSEYLKENTADYHNAAEKLFNSEKIFNRTFTLEDYKKIIHTNYLMLLHSEDKIFSSLSDKYTEKLQLDARKKLSLIEKDLKSLSLENQKASHFLEFNNEHEALGAMYVIEGSTLGGNVIAKQLAKTEGFDEVTFNFFGCYQENTGAMWKNFKEVLDAEVTKENYGEVLTGAEKLYTFLLNVN				NA	NA	NA	NA	NA
BMS003_03857	2199	cph1		Phytochrome-like protein cph1	ATGAATTTTGTAGAATGTCATGAAGAACCTATCCATATTCCGGGTTCTATACAAAGTTTTGGTTACTTGATTGGCATTGATGCAGAATCTCATACCATTACTTTTTTCAGCAGGAATATTTCGGATATATTTAAAATCGAAAACCCGGAAGATCTTTTCGATAAGAAAATTGCAGACTTTCCGGAAAGTTTTCAAAGTATCATCAGTTCGGAAATATTTACTGACCTCGAAAAGTTTACCAGACGTAAAAGTGAAACTTATTTTGACAAGATTTTTGTCAGTGGGAAAGAATACCACTTTTCTGTTTTCAGAAGTGAGGCTCATATTTTTCTTGAGTTTGAAGAAGTTCTGATCAATCCTGATAAAAGAATTTCCAATAAATATGATAATTTTTATATCATTGATAATGAAAAAGAACTCTGGAATCATCTTTTGGAAACCTTATCGAAGGTCGTAAACTATGACCGGATGATGGTCTATAAATTTATGATGGACGGATCCGGTAAAGTAATTGCAGAAAGAAAAAGTGAAGAGATGGAAAGCTTTCTGGGGCTTCATTATCCGGAATCTGACATACCAAAACAGGCAAGAGACCTCTATCTTAAAAAAAGGAAAAGGATTTTCAGTAATGTATATGCTGATACGGTTCCTGTGCTAAGCAAAAAGGCAGAAAATATTGACCTTACTTTTTCGGCATCCAGGGGGATGTCTCCTGTACATGGTCAGTATCTTAAAAACTCCGGGGTAGCTTCCAGCTTCAGTGTTTCCATTATTATTGATGATCACCTCTGGGGACTGGTTACCTGCCAGAATGTAGAACCCCGGCATATTGACCTTGAGGATAGGGTACAGGCAGGAATTTTTACAACGCTTGCAACCAATGCCTATTCATCTTTTAAATCGAAAAGTGAGCTGAAGTACCGTTTAGAACTGAATGAGAAAATGTCTCAGATGAAAACGGAATTTTTAAAACATCATAACCTGTTTGATTCTCTTATTGAATGTAAAGCTGAGATCAGAAGTTTACCGGAAGCGGACGGGCTTGCCATTGTTTCGGATGAGAGCATTGTTACAGACGGAAGTACTCCGGATCCGGAAAGTATTGGCAGAATTGTGCAATGGGCTCTTAATAATACTGATGAACGTATTTATGTAAGCAGAAACTTCCTTAAAGATTATAGTAAAGAACTTGAGCTGACTGAAAATGCAGCCGGAATTGTTATTTATTTTATAGAAAGAGATAAAAATGAAATGCTGATCTGGTTCCGAAAAGAATTTGATGAGCATATCAACTGGGCAGGAAATCCTGAGAAAAAAGTAGAAGTATTTTCTCAGAACGGAGAGGAAAAACAGATGATATCACCAAGAACCTCCTTCCGGATTTTTACTGAAAATATAAAAGGACATTCTAAAAGATGGAATTCCAGAAACGTAAGTGCCGTACAGGCAGTCAGGGATTTAATTTTAGAAACTTCCCACAAAAATTATAATGCAATCAAAAGGCTTAATGATGAGCTTAAAAAAGTAAATGAGGAACTTGACAGTTTTTCTTACACGATCTCTCATGATCTGGGAACGCCTCTTACCGTAATGAAACTGAACGCTCAGATGCTTCTGGGAAATCTTACAGGCGATTCCGAAAAAAGTAAGACTAAGATTAATTCAATTATCGAGGAAATCGACAATATGGCGGAGATGATGCATGACGTACTGCAGCTCAGCCGTGCCAAATACAGTGAAATCCAGCTTGAAAGCCTGAAAACGGCTCATACGATTGAGAAAATTTCGGAAAATGCTAAAATGACGTATGGAATCCCTTCCAGTGAGATTATTATTAAAGAATGTCCGGATGTACTGGCTGATAAAACCATGCTTCATCAGGTATTTCTGAATGTCATCAATAATGCAGTAAAATATTCTTCTCATAAAGATCTTCCGAAAGTGGAAATTGAAGGAAAGGAAGAAGGACAGACCGTTATCTACAGGATCTCGGACAATGGTATCGGTATTCCTGCGGAAGAAAAACATAAGATGTTTAAAATCTTCAACAGGATGGATAATGCCAAAAAGTTTAAAGGAAACGGAGTAGGGCTGTCTATTGTACACCGCATCATGAAAAGGTTGGGAGGAAACGTAGATTTTGAAAGCAGTAATGAGGGAACAACCTTTATGTTAACATTCAAAAAGCCTTATATTTGA	MNFVECHEEPIHIPGSIQSFGYLIGIDAESHTITFFSRNISDIFKIENPEDLFDKKIADFPESFQSIISSEIFTDLEKFTRRKSETYFDKIFVSGKEYHFSVFRSEAHIFLEFEEVLINPDKRISNKYDNFYIIDNEKELWNHLLETLSKVVNYDRMMVYKFMMDGSGKVIAERKSEEMESFLGLHYPESDIPKQARDLYLKKRKRIFSNVYADTVPVLSKKAENIDLTFSASRGMSPVHGQYLKNSGVASSFSVSIIIDDHLWGLVTCQNVEPRHIDLEDRVQAGIFTTLATNAYSSFKSKSELKYRLELNEKMSQMKTEFLKHHNLFDSLIECKAEIRSLPEADGLAIVSDESIVTDGSTPDPESIGRIVQWALNNTDERIYVSRNFLKDYSKELELTENAAGIVIYFIERDKNEMLIWFRKEFDEHINWAGNPEKKVEVFSQNGEEKQMISPRTSFRIFTENIKGHSKRWNSRNVSAVQAVRDLILETSHKNYNAIKRLNDELKKVNEELDSFSYTISHDLGTPLTVMKLNAQMLLGNLTGDSEKSKTKINSIIEEIDNMAEMMHDVLQLSRAKYSEIQLESLKTAHTIEKISENAKMTYGIPSSEIIIKECPDVLADKTMLHQVFLNVINNAVKYSSHKDLPKVEIEGKEEGQTVIYRISDNGIGIPAEEKHKMFKIFNRMDNAKKFKGNGVGLSIVHRIMKRLGGNVDFESSNEGTTFMLTFKKPYI				NA	NA	NA	NA	NA
BMS003_03858	1050			hypothetical protein	ATGAAAAAGTTCCCATTAATTTTATTTTCTCTGATCCTTGCTATAGGATTATGGAATCCATCAGAAGCATGCACAAGAGTGGTTTACAAAGGTCCTCAGAATACCATTATCACAGCCCGATCCATGGACTGGCGAGATGAGATCCCTGCCAACTTATGGGTTCTGCCCAAAGGAATAGACCGCAATGGGCTGGTAGGCTCTAAATCTGTAAAATGGATCGCTAAATACGGTAGTCTCATAAGCTCTTCCTGGGATATTGCTTCTGCCGACGGCATGAATGAAAAAGGATTGGTTGCCAATATGCTTTGGCTAGGAGAATCCCAATACCCTAAATTCGATGGAAAAGGAAGTAAAAAGGGAATTGCCATTTCATTATGGGCACAATATTATCTTGATAATTTTGCTACAGTAAAAGAAGCCGTAGAGTTTTCAAGAAAAGAACCGTTCGTTATTGTAAGTGATTATATCCCGGGAACAGAAAGATTCACAACCGTTCATCTTTCCATTTCCGATGCATCAGGAGACAACGCAGTATTTGAATATATTAACGGAAAACTGGTTATTCATCATGATCCGTCCTATACTGTAATGACTAATTCTCCTGTTTTTGAGGAACAATTGGCACTCAACAATTACTGGAAAGGGATTCCGGGAACAGTAATGCTTCCGGGTACCAACCGTGCTGCAGACCGTTTCGTGAGAGCTTCTTACTACATCAATGCAATTCCTCAGACTGCAGATACCCGCACAGCAGTAGCCAGCGTTTTCAGTGTGATCAGAAACTGCTCCGTTCCTTACGGGATCACCTCAGCAACAGAACCTAATATTTCGTCAACAAGATGGCGTTCTGTTTCCGATCAGAAAAATCTGGTATATTATTTTGAAACAGTTTTCACTCCCAATACTTTTTGGGTAGATCTTAAAGATTTTGATTTGAGCGCTAAAGGAAAAGTGATGAAGCTGGATCTTAGTAATAACCGCACATATAACGGAAAATCCAATGCAGAATTTAAAGAAGCCACACCCTTCACTTTCTTAGGATTAAAGTAA	MKKFPLILFSLILAIGLWNPSEACTRVVYKGPQNTIITARSMDWRDEIPANLWVLPKGIDRNGLVGSKSVKWIAKYGSLISSSWDIASADGMNEKGLVANMLWLGESQYPKFDGKGSKKGIAISLWAQYYLDNFATVKEAVEFSRKEPFVIVSDYIPGTERFTTVHLSISDASGDNAVFEYINGKLVIHHDPSYTVMTNSPVFEEQLALNNYWKGIPGTVMLPGTNRAADRFVRASYYINAIPQTADTRTAVASVFSVIRNCSVPYGITSATEPNISSTRWRSVSDQKNLVYYFETVFTPNTFWVDLKDFDLSAKGKVMKLDLSNNRTYNGKSNAEFKEATPFTFLGLK				NA	NA	NA	NA	NA
BMS003_03859	1167			hypothetical protein	ATGGCCTTTTTTTCGATTAAAAAGAAAAGCCTGGTTTTGTATATGCTGGCCTTTGGATTATCAGCTTATGCACAGAATCAGGATTCTCTGAAGACCACCCCTCCTCCACAGGAAGAAGAAAATGTAAAATACCCGCAGCTGCAGATCAAAGGCCTTTTCCAGGCCCGTTATCTGGTAGGGATGAGCAAAGATGTTGATGTAAACGGGCTTCATCATACGGATGGTTCCGGAACTGATAATAATTTCATGCTCAAATATATGAGGGTTCAGGTTCGGGCACAGATCAGTAAGCGTACAGAAGTAGTTGTTTTGGCCAACCTTGCCGATTTTAAAAATGATCCCAAAAGCAGAGTTCTTGAAAACGCTTATCTGAAATACACCTTCAATCCCAAACTAGCAATTACCGTAGGACAGTTCAGACCCTGGTTCGGTATTGAAGAAACCTATCCTATTGATATTATTAAATCTCTGGACTGGTCTAATCAGTATACAGAATTCGGAAAGCTGGGCTGGACAAGTTTCCAGATAGGGATGTCTGCTACAGGACAGCTTCAGCTTGGAGAAATTCCTTTCCAGTATGCTGTTTCGGTAGTGAACGGAAACGGAAAAAATCAGATTAATGATAATGATAACGGAAAACAGTATTCTACCCGTCTTGTTTTTGGATTATCAAAAAAATACAATTTTAATGTAGGTTTGAACGGAGGTATCGGAGAAGTTTTCAGCAAAAAAGTATATGCTCTGGGCATAGATCTGAGCTCACTGATCCACTTTGATCCAAAATGGAGCCTTGATATGCAACTGGAGGCCAAACAGGCTACCAACCATGTTTTATACAATTCCATAGCCCCTGAATTACGTCCTGACAACCCTGATCAGTATCTAATCCGCGGTGCTTATTTCCTTCCGAATTTAAGATATGAGATCAATCACAAAAATCTCAGTGCCTTCGAATTATCCTGCCGTTACGAATATCTTGACACGAATTTCAGAATGACTTCCAACCCAAGACAAACAATTACTCCGATGTTCGGACTGGAATTTCTGAAAAACTACGGAGCAAGAATTCAGCTGGGTGTACAGTTTGACCGCTACAAACATCAAATTGAAAACACCTCACAATACAACAATAATCTATTCATTGTACAGGTACAAAGTAGATTTTAA	MAFFSIKKKSLVLYMLAFGLSAYAQNQDSLKTTPPPQEEENVKYPQLQIKGLFQARYLVGMSKDVDVNGLHHTDGSGTDNNFMLKYMRVQVRAQISKRTEVVVLANLADFKNDPKSRVLENAYLKYTFNPKLAITVGQFRPWFGIEETYPIDIIKSLDWSNQYTEFGKLGWTSFQIGMSATGQLQLGEIPFQYAVSVVNGNGKNQINDNDNGKQYSTRLVFGLSKKYNFNVGLNGGIGEVFSKKVYALGIDLSSLIHFDPKWSLDMQLEAKQATNHVLYNSIAPELRPDNPDQYLIRGAYFLPNLRYEINHKNLSAFELSCRYEYLDTNFRMTSNPRQTITPMFGLEFLKNYGARIQLGVQFDRYKHQIENTSQYNNNLFIVQVQSRF				NA	NA	NA	NA	NA
BMS003_03860	1431	yflS	COG0471	Putative malate transporter YflS	ATGAAAGAAATTAATATCAGAAACGTAGCGATCACATTTGTTGTTGCGTTAATCATATGGTTCATTCCCGCTCCGGAAGGGGTTGCTGAGAATGCCTGGCATCTGTTTGCCATCTTTGCAGCCACCATTTTAGGAATCATTCTTAAAGCAGCGCCAATGGGTACGATGTGTATGATGGCCATTGGCTTTACAGCCCTTACACAGGTAGTTGCTCCGGGAGATGCAGGAAAATCCATCACAAAAGCACTTTCCGGTTTTGGAGACAAAGTAATCTGGCTGATCGGAATTTCATTCTTTATTGCCAGAGGATTTATCAAAACCGGGCTTGGAAACCGTATTGCCTTTTTATTCATCCGAGTTTTTGGGAAAAGCTCACTGGGCCTCGCTTACGGATTAGGATTGGCCGATGTTTGTCTGGCACCCGCTATTCCAAGTAATACGGCAAGAGGAGGCGGCATTATCTACCCGATCATGAAGTCTATGGCGATAAGCTTTGATTCCGTTCCTGAAAAGCCGGAAACCCATAGAAAACTAGGTTCATTCCTGACTTTGAACAGCTACTACATGAACCTCATCGCTTCATCAATGTTCCTTACGGGAACAGCCAGTAACCCGATGTGTCAGAAATTTGCAGCCAACCTTGGTATTGATATTACCTGGATGTCATGGGCTGCAGCAGGTTTTATTCCCGGTGCGGTAGCATTCTTTGTCGTTCCTTTGGTATTGTACAAATTATATCCGCCTGAATTGAAAAAAACAGGTGATGCTCCTAAAATGGCTGCCCAGAAATTAAAAGAAATGGGACCTATCTCCAGAAACGAATGGCTGATGCTGCTGGCATTCTTCATTCTGTTAGCTCTTTGGATATTCGGTGGAGCGCTTTCTATTGATGCAACGACTACGGCCTTCATCGGATTAACCTTATTGCTGTTAACTTCAGTATTAACCTGGGAAGATGTAAAAGGTGAAAAAGGAGCATGGGACACTATCGTTTGGTTCGCTGTACTGGTGATGATGGCAAGTTCTTTAAATGAATTGGGATTCATTGGATGGTTCAGTGACCTTATTAAGGTACAAATCGGAGGTTTGAGCTGGCAGGTAGCCTTCCCTGTTATTATTCTGGTTTACTTCTTCAGTCACTATATTTTTGCCAGCGCTACGGCTCACGTTGCGGCCATGTATGCAGCCTTGTTGGGTGTAGGTGTTTCTCTGGGAATTCCTCCTATGCTATTGGCGATGATGCTTGGTTTCATGGGATCCATTTATGGAGTGCTTACGCATTACGGCCACGGACCGGCTCCGGTATTCTTCGGAAGTGGATATGTTGACCTGAAAGCCTGGTGGGTAAGAGGTCTTGAAATAGGAATCGTTCTGCTGATCATTTACATGGTTGTAGGAGGATTGTGGATGAAAGTCTTAGGATATTATTAA	MKEINIRNVAITFVVALIIWFIPAPEGVAENAWHLFAIFAATILGIILKAAPMGTMCMMAIGFTALTQVVAPGDAGKSITKALSGFGDKVIWLIGISFFIARGFIKTGLGNRIAFLFIRVFGKSSLGLAYGLGLADVCLAPAIPSNTARGGGIIYPIMKSMAISFDSVPEKPETHRKLGSFLTLNSYYMNLIASSMFLTGTASNPMCQKFAANLGIDITWMSWAAAGFIPGAVAFFVVPLVLYKLYPPELKKTGDAPKMAAQKLKEMGPISRNEWLMLLAFFILLALWIFGGALSIDATTTAFIGLTLLLLTSVLTWEDVKGEKGAWDTIVWFAVLVMMASSLNELGFIGWFSDLIKVQIGGLSWQVAFPVIILVYFFSHYIFASATAHVAAMYAALLGVGVSLGIPPMLLAMMLGFMGSIYGVLTHYGHGPAPVFFGSGYVDLKAWWVRGLEIGIVLLIIYMVVGGLWMKVLGYY	PGPT0013960_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_MALATE_TRANSPORT,PGPT0013960-TC_DASS|yflS-K03319	NA	NA
BMS003_03861	657			hypothetical protein	ATGTTATCAACATTGTCAAGAAAAATGCTGATGTGCCTTACCGGACTCTTTTTGGGATTCTTCCTGTTGATTCATTTCCTTGGAAATCTTCAGCTTTTCCTTCCACAGGAACAGGCACACCAACAGTTTAATGCCTATTCGCATTTTTTATCAGGAAATATCATTATCAAAATAGTTTCATACGTTTTGTATGCCAGTATTATTCTGCATGCAGTAGATGGACTAATTATTACTCTAAAAAATAAAAAATCCGGCGGCACTTATCAGTCGGACAGACGTGGAAGAGCCAGCCAATGGGCTTCCAGAAATATGGGAATCCTTGGAACATTAATTCTGATTTTCCTGGTGATCCATTTCCAGAACTTCTGGTATATCTACAAATTCGGAAATCCTCCTTTGGATGAAAACGGAAATAAAGATCTCTACATTCTGGTAGTGAATGTCTTTAAAGAATGGTGGTACGTTATCATTTATGTGTTATCAATGATCGCTCTGTGTTATCACCTTATTCATGGGATACACAGTGCCGTAAGAACTCTGGGGCTGTACCATCCTAAGTTTGTAAAATGGTTCAAAACTATCGGAATTGCTTATTCAGTCATTATCTGTGTAGGTTTTGCACTGATGCCGGTGTATGTATTCTTTACCTATCATTAA	MLSTLSRKMLMCLTGLFLGFFLLIHFLGNLQLFLPQEQAHQQFNAYSHFLSGNIIIKIVSYVLYASIILHAVDGLIITLKNKKSGGTYQSDRRGRASQWASRNMGILGTLILIFLVIHFQNFWYIYKFGNPPLDENGNKDLYILVVNVFKEWWYVIIYVLSMIALCYHLIHGIHSAVRTLGLYHPKFVKWFKTIGIAYSVIICVGFALMPVYVFFTYH	PGPT0001595_1163	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
BMS003_03862	1917	frdA_2		Fumarate reductase flavoprotein subunit	ATGATTTTAGATTCAAAAATACCACAAGGCTCATTGGAGCATAAATGGGAAAATTATAAAAAGAGAGCAAAACTCGTTAACCCTGCCAACCGTAAAAAACTGGATGTGATTGTTGTAGGAACAGGATTAGCGGGAAGTTCGATTGCAGCTTCTCTGGGAGAAATGGGATATAATGTGAAATCATTCTGTTTTCAGGACAGCCCGAGAAGAGCGCACTCTGTGGCAGCGCAGGGAGGTGTGAATGCCGCAAAAAACTATAAAAATGACGGTGACAGTGTCTACAGAATGTTTGTGGATACCTTAAAAGGAGGAGATTTCAGAGCTCGTGAAGCCAATGTGTACCGAATGGCAGAATGTTCTCTGAACCTCATTGATCAGGCTGTAGCACAAGGTGTACCTTTCGGGCGTGAATATGGTGGCTATCTGAACAACCGTTCTTTCGGAGGAGTTCAGGTAAGCCGTACTTTTTATGCCAGAGGACAAACGGGACAACAGCTTCTTCTGGGTGCTTATCAGGCATTAATGCGACAGGTGGGAAAAGGCTCTGTACAATTATTCTCAAGACATGAAATGCTGGATCTGGTAACTGTTGACGGAAAAGCCAGAGGCATTATCGTAAGGAATTTAGACACAGGAGACATTGAAAGACATGCAGCACACGCTGTAATATTGGCAACCGGAGGTTACGGAAAAATTTATTATCTGTCTACCCTTGCCATGGGATGTAACGGTTCTGCCATCTGGAGAGCACATAAAAAAGGAGCTTTAATGGCTTCCCCAAGCTGGATTCAGGTGCACCCTACTTCCCTTCCTCAATCCGGAGATTATCAGTCGAAATTAACTTTAATGTCTGAATCATTACGTAATGACGGAAGAATCTGGGTTCCGTTAAAAGAAGGCGAAAACAGACTACCGAATGATATTCCGGAAAATGAAAGGGATTATTATCTGGAAAGAAGATATCCTGCCTTCGGAAACCTTGCTCCGAGGGATATTTCTTCCCGCGCAGCTAAGGAAAGAATTGATGCAGGGTTCGGAATCGGGCCGTTGAAAAATGCCGTTTATCTTGATTTTTCAAAAGCAATTCAGGAGCAGGGAAAAGATAAGATTCAGGAAAAATATGGAAACTTATTCGACATGTATCTTAAAATAACAGGATATGATGCGTATAAAGAACCCATGATGATCTCCCCTTCTGCACACTTCTCAATGGGCGGGCTTTGGGTAGATTATGAACTGATGACTACTGTTCCGGGATTGTTTGCTTTAGGTGAAGCTAATTTTGCGGATCATGGAGCGAACAGATTAGGAGCCAACTCACTTTTGCAGGCTTCTGTAGACGGATATTTCATTGCTCCTTACACGATTGCCAATTATCTGGCTGATGAAATCCACACCGGAAAAATTTCATCGGATACTCCTGAATTTGAACAGGCTGAAAATGCAGTTAAAAAACAGATCAACGATTTTATCAATATCAAAGGAACCAAAACCGTTGATTATTTTCATAAAACATTAGGAAAACTCCTGTACGATTATTGTGGACTGGCCAGAAATGAAGAAGGACTGAAATATGCCATTCAGGAAATCCGAAAACTGAAACAGGAATTCTACAAAGACGTAAGAGTTTCCGGACAAGGGGATAAAATGAATACCGAACTGGAGAAGGCAGGCCGTGTAGCCGATTATTTCGAAATCGGAGAACTGATGTGCTATGATGCATTAACCCGTAACGAATCCTGCGGAGCTCATTTCAGAGAAGAATATCAGACTCTGGATGGAGAAGCCATGAGAAATGATGCAGAATACCAATTTATTTCTGCATGGGCATGGAAAGGGGAAAATGGAGAACCTGAACTGATCAGGGAACCTCTGGTTTTTGAAGAGATTCAGCCAACGGTAAGAAGTTACAAATAA	MILDSKIPQGSLEHKWENYKKRAKLVNPANRKKLDVIVVGTGLAGSSIAASLGEMGYNVKSFCFQDSPRRAHSVAAQGGVNAAKNYKNDGDSVYRMFVDTLKGGDFRAREANVYRMAECSLNLIDQAVAQGVPFGREYGGYLNNRSFGGVQVSRTFYARGQTGQQLLLGAYQALMRQVGKGSVQLFSRHEMLDLVTVDGKARGIIVRNLDTGDIERHAAHAVILATGGYGKIYYLSTLAMGCNGSAIWRAHKKGALMASPSWIQVHPTSLPQSGDYQSKLTLMSESLRNDGRIWVPLKEGENRLPNDIPENERDYYLERRYPAFGNLAPRDISSRAAKERIDAGFGIGPLKNAVYLDFSKAIQEQGKDKIQEKYGNLFDMYLKITGYDAYKEPMMISPSAHFSMGGLWVDYELMTTVPGLFALGEANFADHGANRLGANSLLQASVDGYFIAPYTIANYLADEIHTGKISSDTPEFEQAENAVKKQINDFINIKGTKTVDYFHKTLGKLLYDYCGLARNEEGLKYAIQEIRKLKQEFYKDVRVSGQGDKMNTELEKAGRVADYFEIGELMCYDALTRNESCGAHFREEYQTLDGEAMRNDAEYQFISAWAWKGENGEPELIREPLVFEEIQPTVRSYK	PGPT0001605_1047	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
BMS003_03863	753	frdB_2	COG0479	Fumarate reductase iron-sulfur subunit	ATGGATTTACATCTTAAGATATGGAGACAGAAAGACAAAAAAAGTGAAGGAAAACTGGTAGGCTATGACCTGAAAGGATTGAATTCCCATATGTCTTTCTTAGAAATGCTGGATACCTTAAACGAAAAACTGATCATTGAAGGTGATGAGCCTGTAGAATTTGATCACGACTGCCGTGAAGGGATCTGCGGACAATGTGGGATGATGATAAATGGTATTGCCCATGGTCCTTTGAAAAATACAACAACCTGCCAGCTTCATTTAAGGTCTTTTAAAGATGGAGAAACGATTCTGATAGAACCTTTCCGTTCTGAAGCATTCCCTGTGAAGAAAGATTTAAAAGTAGACCGTTCTGCTTTTGACAGAATTATATCTTCGGGAGGTTTTGTATCGGTGAATACGGGTCAGGCGCCTGATGCTACTGCTATTCCGGTGACCCATCAGACGGCTGAAGAAGCTTTTGATTCTGCGGCTTGTATCGGCTGTGGAGCTTGTGTTGCTACCTGTAAAAACGGAAGTGCCGCCTTGTTTACCTCTGCAAAAATTGCCCATATGGCACTTCTTCCCCAAGGAAAAGAAGAACGAAGCAAAAGGGTACTGGATATGATTGCCCAGATGGATACGGAATTATTCGGGCACTGCTCTAATACGGAAGCCTGTGAAGTGGAGTGTCCTCAGGGAATTTCCGTCCTGAATATCGCCAGAATGAATTTTGAGTATAACAGAGCTTTGTTTTTCAGGAAGAAAAATTAA	MDLHLKIWRQKDKKSEGKLVGYDLKGLNSHMSFLEMLDTLNEKLIIEGDEPVEFDHDCREGICGQCGMMINGIAHGPLKNTTTCQLHLRSFKDGETILIEPFRSEAFPVKKDLKVDRSAFDRIISSGGFVSVNTGQAPDATAIPVTHQTAEEAFDSAACIGCGACVATCKNGSAALFTSAKIAHMALLPQGKEERSKRVLDMIAQMDTELFGHCSNTEACEVECPQGISVLNIARMNFEYNRALFFRKKN	PGPT0001600_2226	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
BMS003_03864	774	kynB_2		Kynurenine formamidase	ATGAAAGCAAAACTTGTAGATTTAACAAAGCCTATTCAGTATAATGCAGGAGACCCATGGTTCATGCGGGTAAAAATAAAACATAAAGCACACAGAAAATCACACTGGCTGATTCGGTTGGCATTAAGGCTTCCATCAAAGCTTTTTCCTAAAAACTGGATAGGCTGGGCAGATGATACCATCAAAAATATGGGACTTCATGCTACCACTCATATTGATGCTCCCTGGCATTATGGCCCTGTTGTAGAAGGGAAACCAGCTAAAACGATCGATCAGATTCCCTTGGAATGGTGTTATGGCGACGGAATTGTAATCGACTGTACCCACAAAGAAGATTTTGTTGCCATCACCGTAGATGATCTGAAAAAAGACCTTAATAAAAACGGAATTACCATACAGGAAGGAAATATTGTACTCATCAGAACTGATCGTGATAAATTGATGGGCACTTCGGATTTTGTAGAAAAAGGAACAGGAATGAGCAAAGAAGCTACAGAATGGCTGATTGATCAAGGGGTAAAAGTAATGGGAATTGACCAATGGGGTTGGGATCTTCCGCTAAAATATATGGCCCGGAAAGCCAAAGAACTCAATGATCCTGAATTCTTCTGGGAAGGTCACCGCGTAGGAATCGAAAAAGAATATTTACACATCGAACAGCTTACGAATCTAAGTGCATTACCTCCATCCGGATTTAAAATCTGTGTGTTCCCATTAAAAATTGTGGGCGGTTCTGCAGCTCCGGCGAGAGTAGTAGCAATGATGGATGCCTAG	MKAKLVDLTKPIQYNAGDPWFMRVKIKHKAHRKSHWLIRLALRLPSKLFPKNWIGWADDTIKNMGLHATTHIDAPWHYGPVVEGKPAKTIDQIPLEWCYGDGIVIDCTHKEDFVAITVDDLKKDLNKNGITIQEGNIVLIRTDRDKLMGTSDFVEKGTGMSKEATEWLIDQGVKVMGIDQWGWDLPLKYMARKAKELNDPEFFWEGHRVGIEKEYLHIEQLTNLSALPPSGFKICVFPLKIVGGSAAPARVVAMMDA				NA	NA	NA	NA	NA
BMS003_03865	210			hypothetical protein	ATGAAATTAATGATCATTTCAGAAGGAGAAGAAGGTATCATGGTTTACAAAAGAACGACACCCCCTGCACCTTTTTCCGTCCCAAAACAGGGAAGTGCTGAGATCATGTATAATGAGAATGTTTCAAAGAAAATTATTATTCCTAAAGGAGCTAAAGTGCAAAGATATGAAAGCAAAACTTGTAGATTTAACAAAGCCTATTCAGTATAA	MKLMIISEGEEGIMVYKRTTPPAPFSVPKQGSAEIMYNENVSKKIIIPKGAKVQRYESKTCRFNKAYSV				NA	NA	NA	NA	NA
BMS003_03866	1014			hypothetical protein	ATGTTTTCAAAAATAATAGTACACAGAGTCGGAAACAAGATCAACGGAGATTCGCTGACACTTTCCCAGGAAGAATTGAAACTGGAAGAAGGAATGGCAGAAATGCTTGAAGATTACTTTTTAGGTTCTTTTAAATCAGAAGAAACCTTCCATTTTTATAGTGACACGTATCTGGTCAATAATCCGGTTTACAGTGCTGTATCCGAAATTTTCGATGATAAAGCTAAGTTTATCTGGGAATCTGAGAATATTGCAAAACACCTTTTTGAAGCGGCAGAAAACCCAAGGGTTCAGAGCGGTGAACTTTTCATTGTTCTTTTTGAAGATGAGAGCGACCGTCCTGATAAAGTAGACAAAATTGGGATCTTTAAAACAGAGAAGAGAGAATCTTTCCTGAAAATCAATCCTGCTGAAGAAACATTTGATATTGAAAAAGATCAGGGAATCGGTTTATCTAAAATTGATAAAGCTGCTTTGATTTACAACAACAATAAAGAAACAGGATATGTACTTTCTGTGGTTGACAACAACAAAAACGGAGATATGTATTACTGGTTCGAAGATTTCCTGAAAGTAAAGCAGCGTGACGATGAGTATTTTCACACACAGGAAGCTTTGATGGTGTATAAAGACTATATCACAAAACAGCTTCCTCAGGAATTTGAGGTTTCTAAAGCCGATCAGGCAGATTTCCTGAATAAGTCTATCAATTTCTTCAAAGAAAAAGAAGAATTTAAGCTGGATGAATTTGCTAATGAAGTGCTGGGTGATGAGCATGTAATTGAAAGTTTCGTAAACTTTAAAACAGATTACGAGCAGGATATGCAGGTGAATATTGCTGAAGAATTCCCGATCAGTGAAGCTGCCGTAAAAAAGACCCAGAGACATTTTAAAAGCATCATTAAGCTGGATAAAAACTTCCACATCTACATCCACGGAGACAGACAGAAAATCGAGATGGGAGAAGATGATAAAGGAAAATATTACAGACTTTATTTCGAGAAAGAGGTATAA	MFSKIIVHRVGNKINGDSLTLSQEELKLEEGMAEMLEDYFLGSFKSEETFHFYSDTYLVNNPVYSAVSEIFDDKAKFIWESENIAKHLFEAAENPRVQSGELFIVLFEDESDRPDKVDKIGIFKTEKRESFLKINPAEETFDIEKDQGIGLSKIDKAALIYNNNKETGYVLSVVDNNKNGDMYYWFEDFLKVKQRDDEYFHTQEALMVYKDYITKQLPQEFEVSKADQADFLNKSINFFKEKEEFKLDEFANEVLGDEHVIESFVNFKTDYEQDMQVNIAEEFPISEAAVKKTQRHFKSIIKLDKNFHIYIHGDRQKIEMGEDDKGKYYRLYFEKEV				NA	NA	NA	NA	NA
BMS003_03867	165			hypothetical protein	ATGGACTTAAAAACATTAAACAGACTCGACAGGCTCAGAAGATTAAAAAGTAAAGGACCAGAAACTCCGAAGTGGCTGAAGCCTTATCATATGCTCTTTTTTGCTTTTGTAACCATTTTCATCTTTGGAGCCATCATCAGATTACTGGAACAAAATCACCATTAA	MDLKTLNRLDRLRRLKSKGPETPKWLKPYHMLFFAFVTIFIFGAIIRLLEQNHH				NA	NA	NA	NA	NA
BMS003_03868	357			hypothetical protein	ATGAATTATCTGCAAGCAGTAAAGGAAATCACAGAGGTAGTTCCTTACTTTGAAGAAGAAGTAAAAAAAATTAAAATTCAAAATTCATACAACATCATCCGGACTTTCACGGAATGTATTAAAAATATGATCCGTCAGAATGACAGAAATCTGCTGTTCAGAAGTTTACAGAAAATGGATGAAATTTACACTGACGGAGATTCACTGCTAAAAAATGCTATTGAGATTACTTTTATCTATTCTCTGGACAATTGTACCGCTTTCTGCACTGAGGAATACAGAAAAGTGATTTTTAGTCACATTTCTGCCAATCTTCAGAAGGTATATTCAGGACAAATTTACAGTCATGGTATATAA	MNYLQAVKEITEVVPYFEEEVKKIKIQNSYNIIRTFTECIKNMIRQNDRNLLFRSLQKMDEIYTDGDSLLKNAIEITFIYSLDNCTAFCTEEYRKVIFSHISANLQKVYSGQIYSHGI				NA	NA	NA	NA	NA
BMS003_03869	396			hypothetical protein	ATGATGAAAGTACAAATGCAAACTATTAATCAAAAAATAGCTGTTGAATACTTAAAATTTTTCTATCCGCCACTTCGCAATGAGATCACACAGCTGTCTGTACAGGACAATTTTGCAGGGATCATGCAAGCTACCGTAAATTATCTGAAGAACCTGCTGCAGGAATCGAAAATCAATATTATAGCCCATCATATCAAGCTAATGGACTGGCTTTACAGAAATGGTAATTCTTATGTAAAAACCATGATAGAAAACCTGTTTGTGAGATCTTTCGAAAGCTTCAAAAAACATGCAAAGATCCAGCATTGGAAACTTCTTTATCAATATATGCCTGTAAGCTTCCAGATCATTTATAATGAGCAACAGAAGCAGGATCAGATGTATTTTGGGAAATAA	MMKVQMQTINQKIAVEYLKFFYPPLRNEITQLSVQDNFAGIMQATVNYLKNLLQESKINIIAHHIKLMDWLYRNGNSYVKTMIENLFVRSFESFKKHAKIQHWKLLYQYMPVSFQIIYNEQQKQDQMYFGK				NA	NA	NA	NA	NA
BMS003_03870	597			hypothetical protein	ATGAAATACGCCTTTTACACCCTGATGATGTCATTGTCACTGATCTCATGTGACAATAACGATAATCCTCATGATGATCCTAGACCGATTGATAAAGAAATGTATCAGTTTGAATTCAGGAGCTACGCTGTAAAGGAAACCATTCTTTACACAGGCGCATTCGGCAGTAAATCCAATCTTCACGAATCTCTCTTAAGCAATTACTGGAGTATGTATAAAGAGCCGGCATGGAAGAAAATAGTTCTTGACCTGAAAAGCAATTCTATACAACTTATAGCCGGAAATTCAGCTGATGCAATGTACAGCATTAAAATCATCAATGATTCGGTATTGATTAATGATAAAGGATCTAAGCTAAAATATATAGGAGATTTTAATAAAGAAAACTCCATTTTTACTTTAAAGAGGACATTACAGTATATGAAGCGTGAATCCAGAGGTAAAGGGAATGGACTTACTGTTGTTCAGAGTGTATCTTTCGGTACTTCCCAATATAGTAATATGTTTGGAACTCTTTTCATCACTCCGTCTGATATGACAGAGTCTGAAGACAAGGTGTTATGGAGCAATATTGAATATTACTACAGGAAACTATAA	MKYAFYTLMMSLSLISCDNNDNPHDDPRPIDKEMYQFEFRSYAVKETILYTGAFGSKSNLHESLLSNYWSMYKEPAWKKIVLDLKSNSIQLIAGNSADAMYSIKIINDSVLINDKGSKLKYIGDFNKENSIFTLKRTLQYMKRESRGKGNGLTVVQSVSFGTSQYSNMFGTLFITPSDMTESEDKVLWSNIEYYYRKL				NA	NA	NA	NA	NA
BMS003_03871	1110			hypothetical protein	ATGGAACAACAAAACAAAAGAATCCTTACTCTGGATTTAATAAAAGGTATAAGCGTCATCGGAATGATCATTATTCATACCTTGTTGGTGTATGCCAATGTAAAATCACAATATGAAACAACCATCGGCAGTTTTATTGTTTTTCTCGGAAGGGGAACTTCCATTTTCCTGATCTGTATGGGAATCACTTTTATGACATCCAGCCATCAAAGCCTTAAAAGTGCACTGAAACGGGGGATTTTATTAGTATTTGCAGGGTTGTTCATGAATTTTATGAAATTCATGATTCCGGTGATTTTTGGGTTTGCTCCGGATAATTTTATTCAAAAGTACGGATGGCATGCACCTATAGAACAGCAGTATGTATATCTGGTACAGCTGGGCGATATTTTACAGCTGGCAGGGATGTCTTTATTATTCGTAGGGTTTATCAGAAAATATGTGAAAAATAAATATATCATGCTGGCTATAGGTTTATTCGTTGCCCTGATTTCCAGAGAAGTGAGCGGAATTAATCTGGATTACCCTGTGATCAATTATATTCTGGATCTTCTTTTCAATACAGATTATCCGGCGTATGTTTATTTTCCTGTTTTCCCGTGGATGGCTTTTATTATTATCGGAATGTTCTTCGGCAAATGGTTTCAGGAACTGAATTATAATACCAAACAGATATTTAGAAATATGCTATATGCAGGACTGCTGTTCATTGCAATAGGTGCGCCGCTGGTCTTTTTGTACGGTGACTATAATTACAACGGTTTTTATCATATGGGACCCGGAGGTGTTATTTATTTTGCAGGCTGGACATTACTATTTTTATGGCTGATCAATACTATTACAACCAATATAAAAGAAAATGGCTTCATCCGTATTCTGAAATACTGCAGCAAAAACTTAACCTCAATGTACATGATCCAGTGGATTCTGATCTCGTGGGGAAAAGGAATTTTCGGATACAGACAGCATGAAATTGGTTATGTATCAGTACTCATTGTGCTCTATATCATTCTCACTTTTACAGTGCAGACTTTGGTGGATATGATGAGAAAGAAAAAAACATTAATTGATTTCAGGCCGATATCTCAGGATAAAACAGCTTTGAAATAA	MEQQNKRILTLDLIKGISVIGMIIIHTLLVYANVKSQYETTIGSFIVFLGRGTSIFLICMGITFMTSSHQSLKSALKRGILLVFAGLFMNFMKFMIPVIFGFAPDNFIQKYGWHAPIEQQYVYLVQLGDILQLAGMSLLFVGFIRKYVKNKYIMLAIGLFVALISREVSGINLDYPVINYILDLLFNTDYPAYVYFPVFPWMAFIIIGMFFGKWFQELNYNTKQIFRNMLYAGLLFIAIGAPLVFLYGDYNYNGFYHMGPGGVIYFAGWTLLFLWLINTITTNIKENGFIRILKYCSKNLTSMYMIQWILISWGKGIFGYRQHEIGYVSVLIVLYIILTFTVQTLVDMMRKKKTLIDFRPISQDKTALK				NA	NA	NA	NA	NA
BMS003_03872	1146	ccp	COG1858	Cytochrome c551 peroxidase	ATGAAAGACAGATATATTGCTTTTCTGGCAACAGCCGGAATCATATCTTTACTAAGTTATACCTCTAATAACAATCCTGCGGGATATTCCGTGGAGGAACTTCGTTTGCTTTACAGTAGTGGTGACCGGAGCAAATGGCCGGCTCCTCATTTATTTGATGAAGCTAAAGAAGGTTTCCAGGACATCGGACCTTTGCCTGCAATGAATTTTCCTGAAGACAACCCCTATTCCGAAGATAAAACGGAACTGGGAAAAATGTTATTCTTTGATCCGAGACTGTCCAAAAGCGGACAAATTTCCTGTGCCAACTGCCATAATCCCGAATTAGGATGGTCAGACGGAAACAGGGTTTCCTTTGGTCATGAAAGGCAGACAGGAACCAGAAATGCACCTACTCTGGTGAATATAGGATATGCCAAAACATTCTTCTGGGACGGCCGTTCAGCAACTTTGGAAGAGCAGGTGAAAGTTCCTATCGAGAATCCGGTAGAAATGAATCTCCATATGTCAATGGCGACTCAAAATATCAGAAAAATTAAAGATTACAAACCTTTCTTTGTAAAAGCTTTCGGGAATGAGGAAGTGACAGAAGAGAAAATTGTAAAAGCTGTTGCAACTTTTGAACGCTCTCTGATCAGCCCGCCATCAAAGTTTGATGAATTCGTTTCCGGAAAAAAGGATGCTTTAACGGATTCTGAAATCAATGGACTACATTTGTTCCGGACAAAAGCCAATTGTATTAATTGTCACAATACCCCCTATTTCTCGGATCAGAAATTTCATAATCTTGGACTCACTTATTATGGAAGAGAATATGAAGATTTGGGAAGATATATCGTTACCAAGAAGAATGAAGATGTAGGAAAGTTTAAGACACCTACCCTGAGAGAAGTTTCTGAGAATAAGCCGTATATGCACAACGGATTTTTCCCCGAACTGGCTAACATTGTTATGGTGTACAATGCAGGAATGGGCAAAGAAATCCCCAAAAAAGATCAGATTAATGATCTTAAATTTCCTCGCAAATCAGGAATGGTAAAAAAACTGAATCTTACTGATGATGAGGTTTTTGACATCGTAGCATTTTTGAAAACCCTGAACAGTTACAAAAACAAAATGCATCCGCCGGAACTGCCTGAATCATAA	MKDRYIAFLATAGIISLLSYTSNNNPAGYSVEELRLLYSSGDRSKWPAPHLFDEAKEGFQDIGPLPAMNFPEDNPYSEDKTELGKMLFFDPRLSKSGQISCANCHNPELGWSDGNRVSFGHERQTGTRNAPTLVNIGYAKTFFWDGRSATLEEQVKVPIENPVEMNLHMSMATQNIRKIKDYKPFFVKAFGNEEVTEEKIVKAVATFERSLISPPSKFDEFVSGKKDALTDSEINGLHLFRTKANCINCHNTPYFSDQKFHNLGLTYYGREYEDLGRYIVTKKNEDVGKFKTPTLREVSENKPYMHNGFFPELANIVMVYNAGMGKEIPKKDQINDLKFPRKSGMVKKLNLTDDEVFDIVAFLKTLNSYKNKMHPPELPES				NA	NA	NA	NA	NA
BMS003_03873	444			hypothetical protein	ATGTACCACTTAGCACAAATTAATGTTGCCAGAATGATTGGAGCCAATATTGAAGACCCTGTAATGGAAGAGTTTGTAAACCATCTCGATTCGGTAAACCAACTGGCAGAGGAAAGTGATGGCTTTATCTGGAGGCTGAAAGATGATGAAAACAATGCCACAAGCTTTAATCCATTAAATGATGAGCAGGTTATCATCAACTTATCCGTATGGAGAAATATAGAATCATTGGAATATTTTACTTATAAGACATTTCACGTTGATTTTCTGAGAAGAAGAAAAGAATGGTTTCAAAAATATGGGAAGGCATATTATGCACTGTGGTGGATTAAAAATGATGAATATCCAGGTATTGATGAAGCATTAAAGCGCTTAGAATATTTACAGGAGCATGGTCCTTCTTCCTATTCATTTAATTTTCAGAATGTTTTTCAGGTTTTATAG	MYHLAQINVARMIGANIEDPVMEEFVNHLDSVNQLAEESDGFIWRLKDDENNATSFNPLNDEQVIINLSVWRNIESLEYFTYKTFHVDFLRRRKEWFQKYGKAYYALWWIKNDEYPGIDEALKRLEYLQEHGPSSYSFNFQNVFQVL				NA	NA	NA	NA	NA
BMS003_03874	363	ytcD_3	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAAAAGAATGTGAGCTTTCCTATATCAATGTTGATCAAAAATCTTATCCCTGTGCTGTAAGTTTCGTCATGGATCTCATTGGAGGAAGATGGAAAGGAGTTATTCTCTGCCATTTAAAAAACAGAGATAAGAGGTTTGGCGAGCTCAAGAAAGATCTTTCTTTTATTACAGAGACAACCTTAAGTATTCAGTTGAGACAACTGGAAAGAGATCAGTTAATAACACGGACAGTCTTCGGAACGAAACCTCCCGTGAAAGTTGTATATAGTCTGTCAGAGCTTGGTCTTTCATTTATTCCTTTACTGGATCATATCAATGATTGGGGTAAAATGATTCTGGAGGATAAAAAAGATACTTAA	MKKECELSYINVDQKSYPCAVSFVMDLIGGRWKGVILCHLKNRDKRFGELKKDLSFITETTLSIQLRQLERDQLITRTVFGTKPPVKVVYSLSELGLSFIPLLDHINDWGKMILEDKKDT				NA	NA	NA	NA	NA
BMS003_03875	1899	dnaK	COG0443	Chaperone protein DnaK	ATGAGTAAAATAATTGGAATTGACTTAGGAACAACCAACTCTTGTGTTGCTGTAATGGAGGGTAAAGACCCTGTTGTTATTCCTAACGCAGAAGGTAAAAGAACTACTCCTTCTATCGTAGCTTTTACGGAAGATGGTGAGAGAAAAGTAGGTGATCCTGCAAAAAGACAGGCTGTAACGAATCCAACTAAGACTGTTTACTCTATCAAAAGATTTATCGGAACACACTTTAAAGATGATGCTTCTGAAATCACAAGAGTACCTTATAAAGTAGTTGCCGGACCAAACGATACCGTAAAAGTAAAAATTGACGATAGAGAATATACACCACAGGAAATCTCTGCAATGACGCTTCAGAAAATGAAGAAAACTGCTGAAGATTATCTTGGCCAGGAAGTGACAAGAGCAGTAATTACTGTTCCTGCATACTTCAACGATGCTCAGAGACAAGCTACTAAAGAAGCCGGAGAAATTGCAGGCCTTAAAGTAGAGAGAATTATCAACGAACCTACAGCTGCAGCATTAGCTTACGGTCTTGATAAAAACCATAAAGATCAAAAGATCGCTGTATATGACCTTGGAGGTGGTACTTTCGATATCTCTATCCTTGATTTAGGAGACGGTGTATTCGAAGTATTATCTACAAACGGTGATACGCACTTAGGTGGTGATGACTTTGATGATGTGATCATCAACTGGATGGCTGATGAGTTTAAAGCTGAAGAAGGTGTAGATTTAAAAGCTGACGCCATTGCTCTTCAAAGATTGAAAGAGGCTGCAGAAAAAGCAAAAATTGAATTATCTTCTTCTCCTCAGACTGAGATCAACTTACCTTATATCACAGCTACTGCTACAGGTCCTAAACACTTAGTGAAGACTTTAACAAAAGCTAAATTCGAGCAATTATCTGCTGATCTTGTAAGAAGATCTATGGAACCTGTTGCTAAGGCATTAAAAGATGCAGGTTTATCAACTTCAGATATTGACGAAGTAATCTTGGTAGGTGGTTCTACAAGAATCCCGATCATTCAGGAAGAAGTAGAAAAATTCTTCGGTAAAAAACCATCTAAAGGAGTAAACCCGGATGAAGTTGTAGCCATTGGTGCAGCTATTCAGGGAGGTGTATTGACAGGTGATGTAAAAGATGTATTACTATTAGACGTTACACCGCTTTCTTTAGGGATCGAAACAATGGGTTCTGTATTCACTAAATTAATTGAAGCGAATACTACAATCCCAACTAAGAAATCTGAAGTATTCTCTACAGCTTCTGACAACCAGCCGGCTGTAAGCATCAGAGTAGGACAGGGTGAAAGACCTATGTTCAACGATAACAAAGAAATCGGTAGATTCGATCTTCAGGATATCCCGCCAGCACCAAGAGGAGTTCCTCAAATTGAAGTAACATTCGATATTGATGCTAACGGTATCCTAAGTGTATCTGCTAAAGATAAAGGAACAGGTAAAGAGCAGTCTATCAAAATTCAGGCTTCTTCAGGTCTTTCTGACGAAGAAATTGAAAGAATGAAGAAAGAAGCTCAGGAAAACTCTGCCGCTGACGCTAAGAGAAAAGAAGAAGTTGAAATCTTCAACAAAGCTGACGGATTGATCTTCCAGACGGAAAAGCAATTGAAAGAGTTCGGTGAGAAGCTTTCTGCTGACAAAAAAGCAGCAATTGAAGCAGCTCACGCAGAATTAAAAACAGCTTTCGAAGCTAAAAATGCTGATGATATAAAAGCTAAAACAGAAGCTTTAGACGCAGCATGGATGGCAGCTTCTGAAGAATTATATGCAGCTGGTCAACAGCCTGGTGCTGATGCAGGCGCCGGAGCTCAGAATGCAGGCGGAAATGCCGGAGCTGAAGATGTACAGGATGCAGACTTCGAAGAAGTGAAATAA	MSKIIGIDLGTTNSCVAVMEGKDPVVIPNAEGKRTTPSIVAFTEDGERKVGDPAKRQAVTNPTKTVYSIKRFIGTHFKDDASEITRVPYKVVAGPNDTVKVKIDDREYTPQEISAMTLQKMKKTAEDYLGQEVTRAVITVPAYFNDAQRQATKEAGEIAGLKVERIINEPTAAALAYGLDKNHKDQKIAVYDLGGGTFDISILDLGDGVFEVLSTNGDTHLGGDDFDDVIINWMADEFKAEEGVDLKADAIALQRLKEAAEKAKIELSSSPQTEINLPYITATATGPKHLVKTLTKAKFEQLSADLVRRSMEPVAKALKDAGLSTSDIDEVILVGGSTRIPIIQEEVEKFFGKKPSKGVNPDEVVAIGAAIQGGVLTGDVKDVLLLDVTPLSLGIETMGSVFTKLIEANTTIPTKKSEVFSTASDNQPAVSIRVGQGERPMFNDNKEIGRFDLQDIPPAPRGVPQIEVTFDIDANGILSVSAKDKGTGKEQSIKIQASSGLSDEEIERMKKEAQENSAADAKRKEEVEIFNKADGLIFQTEKQLKEFGEKLSADKKAAIEAAHAELKTAFEAKNADDIKAKTEALDAAWMAASEELYAAGQQPGADAGAGAQNAGGNAGAEDVQDADFEEVK	PGPT0014555_4007	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS003_03876	2073	ppk	COG0855	Polyphosphate kinase	ATGTCAATACACTTTAATCCAAGAGATATCACATGGCTTGCATTTAATGAAAGAGTTTTACAGGAGGCCATGGATGAAAAAGTTCCCCTACATTTAAGAATACGTTTTCTCGGAATTTTCTCCAACAATTTAGACGAATTTTTCAGAGTACGTGTAGCCGGATTAAAGCGTGCCATGGATTTTAAGGAAAAAGTAATTGCTGAATCTTTCTATCAGCCGCCTACCAAGATCCTTCAGCGAATCAATGAAGTTGTTATGAGACAGCAGCTTAATTTTGATAAAACCTGGAAAAAAATCCAGACCGAAATGGCTGATCATAAAGTTTTCATCAAAAACGCCAAAAACCTGACAGTAAAGCAAAAAGAGTTTGTGCGACAATATTTTGATGAGGTAGTTGAATCCAATGTAATTCCTATCCTTCTTCATGAAAACACTCCTATGCCCTATCTGAGGGACAAAAGTCTTTATCTGGGTGTGGCCATGAGAAAAAAAGACTGGCAATATTCCAGCAACTATGCCATTATTGAAATCCCATCCCGTTTTGTAGGAAGGTTCGTATTACTGCCCACAGAAGATCCGGAAGAAAAAAATGTCATGCTGCTGGAGGATGTAATTACCTTCAATCTTCCACACATTTTTTCTTATTTCGGGTATGATGAATTCTCTGCCAATGCTTTTAAAGTAACAAAAGATGCCGAACTGGATCTGGATAATGACATCCGAACCAATTTCGCAGAAAAAATAGAAAAAGGGCTCAAAAACAGAAGAAAAGGAAAACCTACCCGTTTTGTTTTTGATAAAGATATGGATAAAGCTCTGCTGGAACTCCTTATCAGAAAACTGAATTTAACAAAGAAAGACAGCATCATTCCCGGAGGTAAAATTCACAATTTCAAACACTTCATGGATTTCCCTGATGTTTTTGAAAAATATGAAAGACCGGTAGAAAGAACTTCTTTTACCCATCAGGCGTTTGAACATGGGGAGAGAGTAACAGACGTTATTTTAAAAGAGGACATCCTTCTTACTTTCCCTTACCACAAGTATAATCCGGTGATTGATCTCCTGCGTGAAGCTGCTATGGATCCGGATGTAAAATCGATACAGATTACAGCATACCGCCTTGCCAGCAGCTCAAAAATCATTAATGCCCTGATCTATGCGGCCAGAAACGGCAAAGAAGTGACCGTAATGCTCGAACTTCAGGCAAGATTTGATGAAGAATCCAATTTAGAATGGAAAGATATGCTGGAACCGGAGGGTATTACTGTTCTTGTAGGTATTCCCAACAAAAAAGTACACGCCAAACTTTGTGTCATTAAAAAAAGAGCACATAATAAAACCATCCAATATGGATTTGTAAGCACCGGAAACTTCAACGAAAAAACAGCCAGAATATATGGTGACCATCTGCTGCTGACTGCCGACCGCGGAATTATGGCGGACATCAATAAAGTATTCAATGTGCTGAAAAAACCGAAAGATGATTTCATTCCGATTTTGAAAACTTGCAAAAATTTATTAGTTTGCCCTCAATTTATGCGTGAAAAGATTGTTCACCATATTGACAGAGAAATTGAAGAAGCTAAAGCCGGACGAAGAGCTGAGATTATTGTAAAAGTAAATTCTCTGAGTGACAGACTGCTGATAGAAAAATTATATGACTCTGCCAAAGCAGGCGTGCTTGTTAAATTAATTGTAAGAGGAATCTATTGTGCTGTAAATCAAAAAGATTTTAAAGTAAAAATACAAGCCATAAGTATTGTAGATGAATATCTGGAACATGCCAGAGTAATGTATTTCTACAATAAAGGAAGTGAAGATATGTATATTTCTTCTGCAGACTGGATGACCAGAAACCTGGATTACAGGATAGAAGCAGCCGCTAAAATTACAGATAAAAACCTTAAGAAAGAATTAAAAGATATTCTTGACATTCAGCTTAGAGACAATGTAAAAGCCAGAATCCTGGACAAAAGACTGAGCAATGAATATGTAAGAAATGATAAAAAAGAATGCCGATCACAAATAGAAACCTATAAATATTTAAAAGCTAAAACAAGCAAAAAATGA	MSIHFNPRDITWLAFNERVLQEAMDEKVPLHLRIRFLGIFSNNLDEFFRVRVAGLKRAMDFKEKVIAESFYQPPTKILQRINEVVMRQQLNFDKTWKKIQTEMADHKVFIKNAKNLTVKQKEFVRQYFDEVVESNVIPILLHENTPMPYLRDKSLYLGVAMRKKDWQYSSNYAIIEIPSRFVGRFVLLPTEDPEEKNVMLLEDVITFNLPHIFSYFGYDEFSANAFKVTKDAELDLDNDIRTNFAEKIEKGLKNRRKGKPTRFVFDKDMDKALLELLIRKLNLTKKDSIIPGGKIHNFKHFMDFPDVFEKYERPVERTSFTHQAFEHGERVTDVILKEDILLTFPYHKYNPVIDLLREAAMDPDVKSIQITAYRLASSSKIINALIYAARNGKEVTVMLELQARFDEESNLEWKDMLEPEGITVLVGIPNKKVHAKLCVIKKRAHNKTIQYGFVSTGNFNEKTARIYGDHLLLTADRGIMADINKVFNVLKKPKDDFIPILKTCKNLLVCPQFMREKIVHHIDREIEEAKAGRRAEIIVKVNSLSDRLLIEKLYDSAKAGVLVKLIVRGIYCAVNQKDFKVKIQAISIVDEYLEHARVMYFYNKGSEDMYISSADWMTRNLDYRIEAAAKITDKNLKKELKDILDIQLRDNVKARILDKRLSNEYVRNDKKECRSQIETYKYLKAKTSKK	PGPT0002685_3042	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
BMS003_03877	885	ppx2	COG0248	Exopolyphosphatase 2	ATGAAGATAGCAGCGATAGACATAGGGAGTAATGCAGCCCGCCTTCTTATCAATGAAGTAAAGATTAATAACAGAAAACCTGAATTCATCAAGCTGAACCTTCTCAGAATTCCTCTGAGGCTGGGAATGGATGTTTTCACTATCGGAAAAATAGGACCGGAAAGAGAAAAAATGGTTATTGATTCCATGAAAATCTTCAGCGATCTTATGAAAATATACAAAGTTGACCATTACAGGGCATGTGCTACCAGTGCCATGCGGGATGCTGCCAATGGTAATGAAATCATTGATAGGGTAAAAGATACATCAGGGATCAATATCGAAATCATTTCCGGTGATGAAGAAGCTACTCTTATTTATGAAAACCACGTAGCAGAAGGTCTTGACAAAGAATTCGCCTATTTATATATTGACGTGGGCGGAGGTTCTACAGAACTTACTTTTTATGAAAATGGTAAAATGGTCTATGAAAAATCTTTTAATATCGGAACCATACGTCTTCTTAACAACCTTGTTACTGTAGACAACTGGAAAGAGATGAAGGATGAGATCAAAAAAAATATCGTCAGCAAAAAACCGATTGTCGCTATCGGGTCAGGAGGAAACATCAATAAAGTATTTTCCATGAGTAAGACCAAAGACGGGAAACCAATGTCTCTGTCTCATCTGAAAAAGGTTTACAAAGAGTTCAATGAACTGTCTGTAGAAGAAAGAATGACCAATTACAACCTTAGAGAAGACCGCGCGGATGTATTGGTACACGCCCTGGGCATCTTCAATAATGTGATGTCATGGTCTGATATCAACAGGATCTTTGTTCCAAAAATCTCTGTAGCAGACGGATTGATCCATAATATTTACAGTCAGCTGCAACACAAAAAGTAA	MKIAAIDIGSNAARLLINEVKINNRKPEFIKLNLLRIPLRLGMDVFTIGKIGPEREKMVIDSMKIFSDLMKIYKVDHYRACATSAMRDAANGNEIIDRVKDTSGINIEIISGDEEATLIYENHVAEGLDKEFAYLYIDVGGGSTELTFYENGKMVYEKSFNIGTIRLLNNLVTVDNWKEMKDEIKKNIVSKKPIVAIGSGGNINKVFSMSKTKDGKPMSLSHLKKVYKEFNELSVEERMTNYNLREDRADVLVHALGIFNNVMSWSDINRIFVPKISVADGLIHNIYSQLQHKK	PGPT0002595_6006	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
BMS003_03878	654			hypothetical protein	ATGAACCCAATCAAAATAATTCTTACAGGAGCTACAGGAATGGTAGGCGAAGGTGTCTTAATGGAATGTCTTGAAAACCCTGATGTTTCTGAAATTCTCAGCATAAGCAGAAAACCTTCCGGAAAAACACACCCAAAGCTAAAAGAATACCTTATCCCCGACTTTTTATCCATTGACCTTAACGATGAAAAACTGAAAGGTTATGATGCCTGCTTCTTCTGTGCAGGAATAAGCAGCGTGGGTATGAATGAAAAGGATTATACCAAAATAACTTATGATACCACCCTTCACTTTGCAAAAGCTGTTTTGAACCAAAATCCGGGCATGGTTTTCAGCTATGTTTCCGGGGCAAGCACAGACAGTACAGAAAGTGGAAAACTGATGTGGGCACGCATAAAAGGCAGAACAGAAAATGCTTTAAAGAAAATGGATTTTAAAGGAGCCTATAATTTCCGTCCCGGATTCATGAAACCCGTTGAGGGTCAGCTGAATGTAAAATGGTTTTTTAAACCTTTTATTTGGATTTTCCCTGTTTTCTTTCAGTCAAAATCATTAACTTTACACGAAGTGGGTAGAGCAATGATCAATGTAACACAAAATGGGTACCCTACATCTACTTTAGAAATTAGAGACATTAAAAATTTAGCGATATGA	MNPIKIILTGATGMVGEGVLMECLENPDVSEILSISRKPSGKTHPKLKEYLIPDFLSIDLNDEKLKGYDACFFCAGISSVGMNEKDYTKITYDTTLHFAKAVLNQNPGMVFSYVSGASTDSTESGKLMWARIKGRTENALKKMDFKGAYNFRPGFMKPVEGQLNVKWFFKPFIWIFPVFFQSKSLTLHEVGRAMINVTQNGYPTSTLEIRDIKNLAI				NA	NA	NA	NA	NA
BMS003_03879	150			hypothetical protein	ATGAGAGACATGTTAAAAAGAATTGTTCTGGTTATTTTTGTACTCTTGCTTGTGACTGCTGTTTCAGGATATTTTTATATGCAGAAACATCCTTTGGAAGGAAATAAATCAGGGACAATTTTAAACTTTTCCGGAAAATCCGGGAGATAA	MRDMLKRIVLVIFVLLLVTAVSGYFYMQKHPLEGNKSGTILNFSGKSGR				NA	NA	NA	NA	NA
BMS003_03880	249	nfuA_2		Fe/S biogenesis protein NfuA	ATGGAAACAAACATAACGCACGAAGATACAGTAACAAGAGTAATGGAAGCTCTGGAAAGCATCAGACCGTTTTTAAATAAAGACGGAGGTGATATTGAGCTTATTGATGTGAAAGATAATCAGGTGTTTGTGAAACTTTTAGGTAACTGTTCCGGATGTTCACTGAATTTTTCAACCTTAAAATTAGGTGTTGAAAATACAATCAAGCAACATGCTCCGGAAATCGAAAAGGTAATCAACGTAGAGTAA	METNITHEDTVTRVMEALESIRPFLNKDGGDIELIDVKDNQVFVKLLGNCSGCSLNFSTLKLGVENTIKQHAPEIEKVINVE				NA	NA	NA	NA	NA
BMS003_03881	1107			Iron-sulfur cluster carrier protein	ATGTTGACGAAAGAAAAGGTTCAGGATTTCCTTAAAGAAATAGAAGTAGACGATTTGGTGAATAATCTTCAGATTATGGGTAATGATGTTTATATTGATATGACTGCCCATTCACCTGCAATGCACGAAAAGAAAAAACTGGAGGCTGCCATGAAACAGGCTTTTGCCAGTGAATTTGGAGAAGACGTTCATTTAAAACTTAAAATCGTTTCTCCGGAGCCTAGTGAAATTCAGCAAAGTCAGATCAAAGGAAAACAAATTCCGGGAATTCAAAATATTATCGCTATTGCTTCCGGTAAAGGAGGAGTAGGAAAATCTACAGTGTCTGCAAATATGGCGGTAACACTGTCAAAAATGGGCTTCAAAGTAGGGTTGCTGGATGCCGATATCTATGGTCCTTCAGTTCCTACCATGTTTGATACAGAAGGTGAAAAACCAATTTCTGTAGAAGTAAACGGTAAAAACCTGATGAAACCTATTGAGAATTATGGTGTGAAAATGCTTTCAATAGGATATTTTTCAGGAGCTAATCAGGCAGTGGTATGGAGAGGTCCTATGGCTTCAAAAGCATTGAATCAGATGATCAGAGATGCTGCCTGGGGAGAATTGGATTTCTTATTAATAGACCTTCCTCCGGGAACGGGAGACATTCACCTGTCTATCATTCAGGAAGTACCGGTAACGGGAGCGGTGATTGTAAGCACACCTCAGCATGTTGCATTGGCAGACGTAAGAAAAGGAATTGCCATGTTCCAGATGGAGAGTATTAATATTCCGGTTCTTGGATTGATTGAAAATATGGCGTATTTTACACCGGAAGAACTTCCTGACAATAAATATTATATCTTTGGAAACCAGGGAGCACAATATTTAGCTGAAGATCTGGGAATTCCTGTATTGGGAGAGATTCCGCTGATTCAGAGCATCAGAGAAGCAGGAGACGTAGGAAGACCGGCTGCGCTTCAGGATGGCTCTAAAATTGCAGAAATTTACACAGAAACTGCCAGAAAAATGGTAGAAAGCCTGGTGGAAAGAAATAAAAACCTTCCTCCTACTGAAGCAGTGAAGATTTCAACAATGGCAGGATGCTCACCAAAAGCAAAATAA	MLTKEKVQDFLKEIEVDDLVNNLQIMGNDVYIDMTAHSPAMHEKKKLEAAMKQAFASEFGEDVHLKLKIVSPEPSEIQQSQIKGKQIPGIQNIIAIASGKGGVGKSTVSANMAVTLSKMGFKVGLLDADIYGPSVPTMFDTEGEKPISVEVNGKNLMKPIENYGVKMLSIGYFSGANQAVVWRGPMASKALNQMIRDAAWGELDFLLIDLPPGTGDIHLSIIQEVPVTGAVIVSTPQHVALADVRKGIAMFQMESINIPVLGLIENMAYFTPEELPDNKYYIFGNQGAQYLAEDLGIPVLGEIPLIQSIREAGDVGRPAALQDGSKIAEIYTETARKMVESLVERNKNLPPTEAVKISTMAGCSPKAK				NA	NA	NA	NA	NA
BMS003_03882	750			hypothetical protein	ATGGAAACTCCTAACCTTAAAAAACCAGCTCAGGATGATCATCACGGAGTGCTGATTTCTTATTATCAATTACGAATGTTTATCGGACTGCTTGGATTCCTTCTTTCATTTCTCCTTATTATGACCACTTATTTCCTGAATGATGAACATCCGTTCAAAGTAAGCATCAGCCATTATTACTATAGTTTCGGACATGTGATTTTTGTCGGTACATTATGTATATTGGGCGGGTTATTTGCTACCTACAGAGGAAAAGACAGATATGAAAACATGCTTTCCAATTTTGCTGGGATAATGGCAGTATTGGTTGCAGTATTTCCAACCAGATTTAAAGGCTATGGCGGGAATATTTATATCAATATTGATAAATCAAATTATCAGGACTGGTTCAGCTGGGTACACTATATCAGTGCAGGATTGCTTTTTCTGTCATTTGCCGTTTTTTGTCTTTATTTCTTTCAGAAAAGTGATAAAAAACAGGATGGTGAACCTATTTCGGAAGAAGAGACGCTCAAGAAAAGCCGTAGAAATCTGTATTATAAAATCTGTGGCTGGGGAATACTGATGAGTCTTGCCTGCATTGGGATTATTGCTCTTTTAGGTGATGAATCAGCTTCTTCGAATGAATTTCTGATGTATTCCACACTTATTTTTGAAACCACATCCCTGTTTTTCTTTTCTACTTCATGGCTCTTAAAGTCAAGTGAATTCTGGAATAAAAATATCCCGTTGGTAACCTATTTCAGATGA	METPNLKKPAQDDHHGVLISYYQLRMFIGLLGFLLSFLLIMTTYFLNDEHPFKVSISHYYYSFGHVIFVGTLCILGGLFATYRGKDRYENMLSNFAGIMAVLVAVFPTRFKGYGGNIYINIDKSNYQDWFSWVHYISAGLLFLSFAVFCLYFFQKSDKKQDGEPISEEETLKKSRRNLYYKICGWGILMSLACIGIIALLGDESASSNEFLMYSTLIFETTSLFFFSTSWLLKSSEFWNKNIPLVTYFR				NA	NA	NA	NA	NA
BMS003_03883	1950			hypothetical protein	ATGGAAACACTATTTTTTTACCTATTGCTGCTGGTGGCAGCTGCGTTTCTGGTATTTTACTTTAAAGACTGTTTGTACTCTCCTAAAAAAGTGAAAATATTCAAAGATATTTATGAGAGATATCCCTATTATTTTATTCCTAGAAAGTCTGTCAAATGGTTTGATTTTACAGGGCTGATGAATAGTTTCAGAATGGTTTCCCTTTCTGCAGACATTCTTTCTATTATTGATAAAAGAGAAGTGCAGACGGCTTTGGGAAAAGATACGGGAAGAGAGCTGATAGAAAATAATTGTGATGAATCTGAAGATGAATTCTGGTTTGATTTTATTGCAGATACGGGAGATGGGTTTGATGCTACTACCACTGTTTTTTATCACTTGACAAGAGAAAGCTATATCTATTCCTTTAAAAATGAATTCAACAGGGATGACGAACATGAAACCGAAATCCGACTGAAAAGAGGATCTGTTCTGGTGGTTGGAGGTGATCTGGTGTACCCTGTAGGTTCTGAAATCAATTACAGAGACCGTTTCAAAGGACCTTTAAGACTGGTAGCCCCGGATTCCAGAAAACCAGGTCCTATTCTCATAGCCACACCGGGAAATCATGACTGGTATGATGGTCTAAGTGCTTTTTTCAGACTCATGTGCCAGAAAAGTAAAATCAGTGATTACAGAACGGTACAGAACAGAAGCTATTTTGCCTATTCATTAAGGAAGAATGTCCATTTAATGGGGATTGATAATCAGCTGTTGGGTGATATTGATATTCCTCAAATGGCTTTTTTCACAGAATATGCAGAAAAAATATCAAAGGGTAATGATGTCAATCATGTGATATTGCTCATTGCAGAACCTTACTGGTACAATTATGACATAAAAGACAGGCATAAGAGAAGGCAGCGTATGGACAGCCTAGAATACATCATCAGAACAATGAAAGAAGCTGTAAGAAAACTGGAAGCCAATAATATAAAGTCAGAGATTATTTTTGATGTAGTGCTTACAGGAGATATTCATCATTATTGTCATTATAAATTAGATGAAAATGTGAAAGGATATGACAAAGAAATCAAACATTATATTACTTCAGGGGGAGGAGGGGCTTTCGGCCATATTACCCATTTTTTAAAAGAAGAAATCCAACTTCCTATTTTACAGAATACAACGACTACAGAGCTGAAATATAAACTGGATGGCAGGTATCCTTCTAAAAAAAAGTCAGGTAAGAAAACATTATGGAGTCTTATTTTCTTTATAATCAATTATGAATTCACGGTATTGCTGTTTTTTCTTTCATTAATGGTGGCCTGTATCTTTTGTTATTCGGATTCTATTGTAAAATGGTTGGCATTATTGGCCATTCCAATGGTGTTTTATTTTACTATTACCAAAGTCACCAATACAGAATGTTCAGATGAGGAAAAATGGAAGAGTAAAATAATGCGGGTAGCATTGTTGGTATTGTCTTTTGGTATTCAATTGTGGGTGTTTGCAATATTTCCTGAATATGATAAAGTTATTTTTTTACAGGATAACCATTTGTCTTTTGTTGATGTCTTGAAAAACTTTTTTAACGTTCCGGCCGGAAACAACTATCTTATTGTACAGGTTATTATTTCTTCCCTTTTGCAGGCCATACTTTTCGGATGGTATATTCTTGTAGGCTATCATCTTTTCAAATTTTATATCACCGAAATCTCTTCAGGAAAAATAAATACAGGAAATAAAAACTTTCTGAAGTTTAAAATAACAGATAAAGAAATTGTTATCTATGTAGTGGCCATCAGGAAAACATATCAATGGATGCGTCTTCTAAAAAAGAAGCATGCTGTCCATTTACAGAGAGAGATGCTTACGGAAGATCCTAAGAAATTTATCAAAGATCATTTTAAACGGGATCCGGACAAAAATGTGAAAATTATTGATAAAATAATCATTCCACTATAA	METLFFYLLLLVAAAFLVFYFKDCLYSPKKVKIFKDIYERYPYYFIPRKSVKWFDFTGLMNSFRMVSLSADILSIIDKREVQTALGKDTGRELIENNCDESEDEFWFDFIADTGDGFDATTTVFYHLTRESYIYSFKNEFNRDDEHETEIRLKRGSVLVVGGDLVYPVGSEINYRDRFKGPLRLVAPDSRKPGPILIATPGNHDWYDGLSAFFRLMCQKSKISDYRTVQNRSYFAYSLRKNVHLMGIDNQLLGDIDIPQMAFFTEYAEKISKGNDVNHVILLIAEPYWYNYDIKDRHKRRQRMDSLEYIIRTMKEAVRKLEANNIKSEIIFDVVLTGDIHHYCHYKLDENVKGYDKEIKHYITSGGGGAFGHITHFLKEEIQLPILQNTTTTELKYKLDGRYPSKKKSGKKTLWSLIFFIINYEFTVLLFFLSLMVACIFCYSDSIVKWLALLAIPMVFYFTITKVTNTECSDEEKWKSKIMRVALLVLSFGIQLWVFAIFPEYDKVIFLQDNHLSFVDVLKNFFNVPAGNNYLIVQVIISSLLQAILFGWYILVGYHLFKFYITEISSGKINTGNKNFLKFKITDKEIVIYVVAIRKTYQWMRLLKKKHAVHLQREMLTEDPKKFIKDHFKRDPDKNVKIIDKIIIPL				NA	NA	NA	NA	NA
BMS003_03884	183			hypothetical protein	ATGGGAAACAGCTATGATTTCGACTTTCAGAATAATATTTCACTTAACTCCGGAAAAAAAGTACAGTTGACCCTGAATTACTGGTTCCGTCTGCCTTCCAATTCCGGGAATTCCTATATGAAGTTTGCAGGAAATCTTACCTCACGACTGAAACTGAACCTTATGGGAAAAACTTTCAGCTGA	MGNSYDFDFQNNISLNSGKKVQLTLNYWFRLPSNSGNSYMKFAGNLTSRLKLNLMGKTFS				NA	NA	NA	NA	NA
BMS003_03885	2802			hypothetical protein	ATGAAAAAAAGGCTTATTGCATTTTCTTTATTGATCACCCATATTATTTTTGCACAGAATTACTCCCAATATGTTAATCCGTTTATAGGAACCGGAGGCCATGGCCATACTTTTCCGGGAGCAATTGTTCCGTTCGGAATGGTGCAGCTTTCCCCTGATACAAGAATTGACGGCAGCTGGGACGGATGCAGCGGATATCATTATTCTGACTCCGTGATCTATGGGTTTTCACATACACACCTGAACGGAACAGGAGTTTCGGATTATGGAGATATCATGCTGATGCCCACCATGGGGACTCCAAGTCTGAACAGCAAGGATTATTCTTCAAAATTTTCTCATAAAAATGAAAAAGCAACAGCGGGATTTTATGCAGTCAAATTAGATAAAAATAATATTGACGTTCGTCTGACGACTACCAAAAGAGTCGGTTATCACGAATACACCTTCAACAACGCAGGGAATGCCAATATCATCTTAGACCTCAACCACAGGGATAAGCTTCTGGAAGGTGAAGTAAAGATCATTGATGATAAAACCATTGAGGTTTTCAGACGAAGTGAAGCGTGGGCTACCAACCAATATATTTATGCAAGAATTGAGTTTTCAAAACCGATGAAAATTTCAAAAAAAGAGACTAACGGAAAACAGGAAAACAATCTTTTTACCGGAACAAAGCTTGCGCTGGCATTTTCCACCAATGTTAAAAAAGGAGAAAAGATCAATGTAAAAGTTTCTATTTCTCCCACAGGCTATGAAGGTGCAGGAAAAAATATGCTGGCAGAAGGAACATCTAATGATTTTGAAACTGTAAGAAAACAGGCACAAACCGACTGGGACAAAGAGCTTTCAAAACTTGAAGTAAAATCTGATGATAAAAATAAATTAGCCGTTTTCTATACTGCATTGTATCATGTTTTCACCCAACCGAACATCAATATGGATGTGGATGGAAAATACAGAGGTAGAGATAACAAGCTGTATAATGCCAATGGTTTCGATTATTACACAGTATTCTCACTTTGGGATACTTTCAGAGGTGCACATCCGCTGATGACTTTAATTGACAGAAAAAGAACAGCCGATTTCATCAATACTTTCATCAAACAATACGAACAGGGAGGAAAGCTTCCGGTATGGGAACTGGCTTCCAACGAAACAGAATGTATGATTGGCTATCACTCTGTTTCCGTCATTGCGGATGCTATGGCTAAGGGAATTCAGGGGTTTGATTATGAAAAGGCATTTCAGGCTGCAAAAGGTTCTGCCATGCAGGATATTTTCGGATTGAATGCTTATAAACAAAATAATTATATCAGCATCGATGATGAGCATGAAAGTGTTTCCAAAACTGTAGAATATGCTTATGACGACTGGTGTATTGCTCAAATGGCAAAAATTTTAGGCAAGAAAGAAGATTATCAGTATTTTATGAAACGTTCTCAGAACTGGAAAAACCTTTACAATCCAAAAACTGGTTTTATGCAGCCAAGAAAAAATGGTAACTGGTATGAACCTTTTGATCCGAGAGAAGTCAACAACAATTATACGGAAGGAAACTCATGGCATTATTCATATTCTGTACAGCAGGATATTCCGGGATTGATTGCAACACATGGCGGAAAAGAAAAATTTGAACAGTTCATTGATGCTATTTTTACCGCTCCTGATAAAACAACGGGAAGAGAACAGGTAGATATCACAGGATTGATGGGGCAATATGCTCAGGGAAATGAGCCTAGCCACCATATAGCTTACCTGTACAATTTTGTAGATAAACCTGAAAAAACAGATACGAAAATAAAATACATCCTGGACAATTTTTATAAAAACACCCCAAATGGATTGATCGGGAATGAAGACTGCGGACAGATGAGTGCATGGTATGTTCTAAGCTCCATGGGAATTTATTCTGTAACTCCGGGATTACCGGAATGGGAAACGACAACACCTTATTTTGATGAAATTAAAATTCACCTTGAAGACGGTACCACAAGAACCATTACTAAAAACACCGGCAGAGCAGAACTTAAAAAATTAGGATTCGAAAATGTGAAACCAGTAAAAGATTTTAAATATGCCGAACAAACAGCTTCACCCGTTATTTCCGCAGACAGAATATTCGATTTTTCTACCAAAGTTGAAATCACTCCACTGAATCCCAATGACAAAGTTTATTATATGACGATGGATGACAGTGACAGCAACAAAAGGAAGACTTTTTCTACTTATAAAGCTCCGTTCACCATCACCAAAACCACTCAGGTAATGGCTTACGCTGAAAGAAACGGTGAAAAAAGTTCTGTAACCACCGCTAATTTCAACAGAAGACCTAATTATTGGGATATTAATATCATGTCAAAAGTAACTCCTCAATACAGTGCTACGGGAAAACTTGCTCTTATTGACGGAATCAGAGGGGATGTAAACTGGAGAAAAGGCGAATGGCATGGTTATCAGGGACAGAATTTTGAAGCCGTTATTGATCTTAAATCTCCTCAAAACATTAAATATTTATCTTCCACGTACCTTCAGGACAGCAAAGCATGGATTCTGATGCCTAAAAAGGTGGAATATTACGCTTCCATGAACGGAAAAGATTTTATCCTTCTGAAAACCGTAGACAATGATATTGATCCTAAAGATGAAAAAGTACAGATTAAAGATTTTTCTACAGAAATTCTTCCTACCGAAGCCCGATACATCAAAGTAAAAGCTTACTTCTTCGGAAAACTTCCGGAATGGCACCAGGGAGCAGGCGGTGACGCTTATATTTTTATTGATGAAATTGGTATAAAGTAA	MKKRLIAFSLLITHIIFAQNYSQYVNPFIGTGGHGHTFPGAIVPFGMVQLSPDTRIDGSWDGCSGYHYSDSVIYGFSHTHLNGTGVSDYGDIMLMPTMGTPSLNSKDYSSKFSHKNEKATAGFYAVKLDKNNIDVRLTTTKRVGYHEYTFNNAGNANIILDLNHRDKLLEGEVKIIDDKTIEVFRRSEAWATNQYIYARIEFSKPMKISKKETNGKQENNLFTGTKLALAFSTNVKKGEKINVKVSISPTGYEGAGKNMLAEGTSNDFETVRKQAQTDWDKELSKLEVKSDDKNKLAVFYTALYHVFTQPNINMDVDGKYRGRDNKLYNANGFDYYTVFSLWDTFRGAHPLMTLIDRKRTADFINTFIKQYEQGGKLPVWELASNETECMIGYHSVSVIADAMAKGIQGFDYEKAFQAAKGSAMQDIFGLNAYKQNNYISIDDEHESVSKTVEYAYDDWCIAQMAKILGKKEDYQYFMKRSQNWKNLYNPKTGFMQPRKNGNWYEPFDPREVNNNYTEGNSWHYSYSVQQDIPGLIATHGGKEKFEQFIDAIFTAPDKTTGREQVDITGLMGQYAQGNEPSHHIAYLYNFVDKPEKTDTKIKYILDNFYKNTPNGLIGNEDCGQMSAWYVLSSMGIYSVTPGLPEWETTTPYFDEIKIHLEDGTTRTITKNTGRAELKKLGFENVKPVKDFKYAEQTASPVISADRIFDFSTKVEITPLNPNDKVYYMTMDDSDSNKRKTFSTYKAPFTITKTTQVMAYAERNGEKSSVTTANFNRRPNYWDINIMSKVTPQYSATGKLALIDGIRGDVNWRKGEWHGYQGQNFEAVIDLKSPQNIKYLSSTYLQDSKAWILMPKKVEYYASMNGKDFILLKTVDNDIDPKDEKVQIKDFSTEILPTEARYIKVKAYFFGKLPEWHQGAGGDAYIFIDEIGIK				NA	NA	NA	NA	NA
BMS003_03886	726			hypothetical protein	ATGAGTTTACATAACTTAGAAAATCATAAAAGCCATATTGAAGAATATGGCTTTGCTGTTATTAACAATGTATTTTCACAGAAAGAACTTGACGAAATGAACGTTGTTCTGCAAAATATAGATACCTCAAAAGAGAATTTCAGAAAGTCAGAAGACCTTTTTGCAATTAGACAATTTTTAAAAGAAGTTCCTGAGATGAAGAACCTGGTTTTTAATGAAAACATTAAGAAAGTGGTAAAGGAAATCTTTGGAGAGAAGTATTTTGTGGTCAAAAGTATTTATTTTGATAAACCTGAAATTTCCAACTGGTACGTTGCCTATCATCAGGATCTTACTATTTCTGTAGATAAAAAGCTGGATCTGGATCATTTTGGACCTTGGACAACCAAACAAAATCAGTTTGCAGTACAGCCGCCACTAAACGTTTTGGAAAATATCTATACCATCAGAATTCATCTGGATGATACCGATGGAGATAACGGAGCGCTGAAAGTAGTTCCCCAATCTCATACAAAAGGTATTTACAGACCGGAAACCATTGACTGGACCATAGAAACAGAAGAAATCTGCAACGTGGAAAAAGGCGGAATAATGATGATGAAGCCTTTGACTCTTCACGGTTCCAACCGGACAACTAATGGAAAGAAAAGAAGAGTAATCCACATCGAATTTTCTGATATGGAACTTCCGGAAGTCCTTCAATGGTCTGAAAGAATGAATGGATAA	MSLHNLENHKSHIEEYGFAVINNVFSQKELDEMNVVLQNIDTSKENFRKSEDLFAIRQFLKEVPEMKNLVFNENIKKVVKEIFGEKYFVVKSIYFDKPEISNWYVAYHQDLTISVDKKLDLDHFGPWTTKQNQFAVQPPLNVLENIYTIRIHLDDTDGDNGALKVVPQSHTKGIYRPETIDWTIETEEICNVEKGGIMMMKPLTLHGSNRTTNGKKRRVIHIEFSDMELPEVLQWSERMNG				NA	NA	NA	NA	NA
BMS003_03887	1251	dctA_2	COG1301	C4-dicarboxylate transport protein	ATGAAAGGACAGAATAAACTTTTTATAGCAATTATCATTGCCCTTGTTGTGGGTGTAGGGATTGGAGGTGTTGTGCATGTGAGTTATCCGGAAAGTGCCGAACCTTTTTCCAAAAACATAAAACTATTAGGAACTGTTTTCATCAGATTGGTACAGATGATTATTGCACCTTTGGTTTTTACGACTTTGGTAGTGGGGATTGCCAAAATGAGTGATATTAAAATGATTGGAAGGGTAGGGACAAAAGCAATGCTCTGGTTTATTTCTGCTTCTCTGATTTCTCTTTTTATCGGTCTAATCCTTGTTAACTGGCTGGAACCGGGACACGTTACAAAATTACCGATCCAGGATGTTTCTTCTGCTGATGAACTTCTTAAAAACAGCAAAAGTTTTTCTATGGAAGACTTCGTAAAACATATGATTCCTAAGAGTTTATTTGAAGCTTTTGCTACCAATGAAGTCCTTCAGATTGTTGTATTTGCAGTGATGTTTGGTATTGCACTGGCTAATTTGGGAGAAGAATATGCAAAACCTGTAGTGAAACTTTTTGATATCATTGCTCATGCTATTCTTAAAATGGTAGGGTATATCATGTGGTTTGCTCCGCTTGGAGTATTGGGAGCTATTGCAGCAGTAGTGGCAACCAATGGATTTGATATCTTTAAAGTATATGCTATCTATTTAAGAGACTTCTTCTTTGCTATAGGAGTTCTTTGGCTGGTTCTTTTAATAGTAGGTTATTTTATCTTAGGAAACCGTCTTTTTGATTTATTAAAAAGAATTAAAGAGCCATTGCTGATTGCTTTTTCTACCACGAGTTCAGAAGCTGTATTCCCGAAGTTGGTGGAGGAGCTTGAAAAATTCGGGTGTAACAGCAGAGTAGTATCTTTTATTTTACCGTTAGGATATTCATTCAACCTGGATGGAAGTATGATGTATATGACATTTGCTTCAATTTTCATTGCACAGATCTACGGGATTGAAATGACTCTTGGACAGCAGATTACTATGCTTTTGGTATTAATGCTTACTTCAAAAGGAATTGCAGGAGTTCCGAGAGCTTCCCTGGTAATCATTGTTGCAACCTGTTCAATGTTCGGGATTCCACCGGAAGGTATTGCCTTGATTTTACCAATTGACCACTTCTGTGATATGGGTAGAAGTATGACCAATGTACTTGGAAATACGCTGGCAACTACAGCGGTTTCAAAATGGGAAGGACAGTTAACCGAACCATTAGACAAAATTTAA	MKGQNKLFIAIIIALVVGVGIGGVVHVSYPESAEPFSKNIKLLGTVFIRLVQMIIAPLVFTTLVVGIAKMSDIKMIGRVGTKAMLWFISASLISLFIGLILVNWLEPGHVTKLPIQDVSSADELLKNSKSFSMEDFVKHMIPKSLFEAFATNEVLQIVVFAVMFGIALANLGEEYAKPVVKLFDIIAHAILKMVGYIMWFAPLGVLGAIAAVVATNGFDIFKVYAIYLRDFFFAIGVLWLVLLIVGYFILGNRLFDLLKRIKEPLLIAFSTTSSEAVFPKLVEELEKFGCNSRVVSFILPLGYSFNLDGSMMYMTFASIFIAQIYGIEMTLGQQITMLLVLMLTSKGIAGVPRASLVIIVATCSMFGIPPEGIALILPIDHFCDMGRSMTNVLGNTLATTAVSKWEGQLTEPLDKI	PGPT0000805_659	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
BMS003_03888	480			hypothetical protein	ATGAAAAAAACTATTGCAATGGCTGCATTAGCTGTAGCTGTATCTTTCGGTTCTATTTCTTGTAAAAAGAAAATTTCTGATGCCGATCTTCAGACTCAGGCTACAACAGTAGTAACTTCTAATCCCAACGCTTCTGTTGAAGTAAAAGAAGGTGTAGCTCACTTAAGCGGAACTTTTGCAGATCAGCAATCTAAGGATGCAATGATTGCAAAGCTAAAAGCAATCAGTGGAGTAAAAGACGTAATGGATATGTCTACAATAGAAATGGCTGCTCCTGTTGAGACTGCTTCTGCTGTAGATCCTGCGGTTCAGAAAAAAGTACAGGATGCGGTAAAAGATTTCCCTTCTGTAAAAGTAGAAGTTATAAACGGAGAACTTACTCTTACAGGAAATGTTTCCAGCCTGCAGGCCAGAAAAATCAAAGAATCTGTAGATGCTTTGAAAATCGGAAAGTATAACAACAACCTAATCGTAAAATAA	MKKTIAMAALAVAVSFGSISCKKKISDADLQTQATTVVTSNPNASVEVKEGVAHLSGTFADQQSKDAMIAKLKAISGVKDVMDMSTIEMAAPVETASAVDPAVQKKVQDAVKDFPSVKVEVINGELTLTGNVSSLQARKIKESVDALKIGKYNNNLIVK	PGPT0013305_649	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
BMS003_03889	420			hypothetical protein	ATGAGCGAACTACAAGATAAATATTCAAGTGTTGTTTCAGCAGCACAGTCTGCAGGAATCTCAAATCTTCAGGTTCAGGAGCAGGATGGGATTCTATATGTTTCCGGAAATGCTTCCAATACTGCAGCTAAAGATGCTGTATGGAACGCTTTAGGAGCCATTGATTCTACTTACTCTGCTTCTGATATCAATATTGATGTACAGGTTGCAGGTCTTACTTCCGGAGCTTCTTTAACTGTTGCTACTGAAGAATCTAACCTGAATATCAGACAGGAGCCTTCTACTGAAGCTGCCGTTGTTGGTAAAGCAGCCAAAGGTTCTTCTGTAACACTAATTGAGCAAACTTCCGATGACTGGTGGAAAGTAAAAACAGCTGACGGCCAGGAAGGATATGCTTATTCAAGATATTTAAGAGCTTAA	MSELQDKYSSVVSAAQSAGISNLQVQEQDGILYVSGNASNTAAKDAVWNALGAIDSTYSASDINIDVQVAGLTSGASLTVATEESNLNIRQEPSTEAAVVGKAAKGSSVTLIEQTSDDWWKVKTADGQEGYAYSRYLRA				NA	NA	NA	NA	NA
BMS003_03890	2769			hypothetical protein	ATGAAGAAAACAATGTTGCTATTGGCTTTGGTATTCACTGCCATTATACTGCATGCACAAAAATTACACATCGACGGGAAAATATCGGATCCTGAAAAGAAAGCGATAGAAAATGCCACCGTTTATCTTTTGAAACAAAAAGATTCCTCCATTGTCAATTATACCGCAACCAATAAAGACGGCAAATTTTCTCTGAAAATTGATGATATACAGGAACCTTCCATTCTGAAAATTGATGCTGAAAAATATTCTTCCTATTCAAAAAAATTTGAGAAAATAGATCAGTCCATATCCTTGGGAGATATTCAGCTTGAGAAACAGAGTCTTGTGAACAATATTGATGAGGTAAAAATTACAGTGTCTCCCGTAAAGATTAAAAAAGACACCATTGAATTTAATGCAGCTTCTATAAAAGTACGGCCCGACAGTAAAATTGAGGAACTTCTGAAGCAGATTCCCGGTGTGGAAATCAGTAATGACGGAAAAATTACAGTCAATGGAAAAGATGTAGACCAGATTATGATCAACGGAAAACCTTTCTTTGATAAAGACGGTAAAATTGCCCTTCAGAATTTACCGGCAGATATTATCAAGAATATACAGTTTACCACCACCAAAACAAAGGAAGAAGAACTTAGTGGAAAAGCTGCCAAATCTCAGAATACCACTATCAACTTTAATATTGACGAAAAGAAAAATAAAGGCTTACTCACAAGGCTTACTTTTGGCTACGGATCAGATAAACGGTACGAAGCAAGTGGATTGGCCAGTTATTTTAAAGGGGATACGAAAATAAGCCTTCTGGCTTCTTCCAATAACATCAATTCTCAGGGATTTTCACGGGATGAGGTTTTTGACAGCATGGGGAACGGCCGAAATGCCTGGATGATGCAGGGAGGATCTGTCTCTACAGTAGGAAATGTGACATACTACAGCCAGGGAGGTGGTACAAAAGGAATCCAAAGGTCTACAACCATAGGTTTAAACTACAGTGACAAGCTGGGAAAAGATGCCGATCTGGATTCTTTCAGTCTGATGCATTCTGATTCCAATACGGAAACAAGATCTAAAGTTTCAAGGTCTACCCTTCTACCTGATTACACGCTTCAGACCAATTCTGAAAGTAATGGCGAAAACGAATCCAAACAATACAGCTTTGATACGTCTGCCAAAATCAAGCTGGATTCCATGACTAGTATTTACCTTTCTCCAAGGTTCTCCAAAAACAGCAGTTTTAACTTTAATAATTCGAAATCTTCTTCTCTAAGGAATGGCAGTCTTCTTAATGAAAGTAATGCTTATTCAAGCAATGATTCGGAAAGCAATTCATTTAATCCTTATCTTTATTTTTCCAAAAAGTTCAAGAAAAAAGGGCGTTCCCTTTCAGCGAATATAACAAGTTCAATCTCCGAATCCAAAAGAGACAACCTGACCCGCTCTCAGAATACCTTTTACCAGCAAAACGGCACTACTGTTGACAATAGAGATCAGCTAGCCAAAAATAAAAACCAAAACAATACCTTTAATTTCAATGCAGGGTATACAGAACCCATTTCCGATTCATCAAGTGTGAGCTTTGAAGTAAAATATGAAACAAGATCTGCCAGAGATCTAAGGAATGTGAACGATTTTGATAATACCACTGGGGATTATACCAAATACAACCAGCTTTTATCCAATAATATGAAACAGAGGATCAATCAGATTTCTCCTGAACTTACGTACCAGATCAACAAAAAGAAGCTGAACTTCTGGGCTTCCATGCATCTTAACCTTTCAGACATGAAAGTAAACTCTATCTATAACGGGCAGCAATATGATCTACAGAAAAATTTTGTTTTACCCGAATATAATGTTAACCTTTACTATCAGCTGGCAGAAGGAAAAAACTTAAGTTTTTACAACTACTCCAACTTCACCATTCCTACAGCAGAACAACTGACTCCTTATAAGGATGAGTCTAACCCTCTGGCTACCTATCAGGGAAATCCTGATTTAAAAAATACATGGACAAACAACCTTTCTGTATATTTCAGTAATTATAACAAAGTAAAAAATCTCAGCTATTATTTGAATGTAGGCTTTACCTACAGAAACAATGATATCATCAATTTTACAAAATATGACAGTGCTGGAAAGCAAATTGTGACTTATGATAATATAAGCGGAAATAAAAGCATCAATGCCGGCGGAGGTATCAGTAAAACCCTGAAATGGAAAAATAACAAACTTACCATCAACCCGAGATTCAATATGAATTATGCATACAATAACGGTTTTATTGATGGACAATCCTTTACCAGCAATTCCTATAATCTTAATCCGGGGCTTAATATTACCTATGAAATCAAAGATAAAATGACAATCAAACCTTCTTACAGACTTGGATACAGTTTCTCCAATTATACCAATTATAATGTAAACAGGGTAAATACAGCGAATCAGTCATTAAAACTTGAACTCACCAATTATCTGCTGAAAGGCAATTTCGTATTTGGAAACGATTTTGAATACAATACCAACTCGAATATTGCTCCGGGCTTTAAAAAAGATTTTTATTTCTGGAATACAAGTCTTGGATATTCATTCTATAAAAAACAGTTTACAGCAAAAGTGAAAGTCTATGATGTCTTAAATCAAAACCAAAGTGTGAGAAGAACCATCACAGATTCTTATTTCGAAGACCGTGAAGATCTTATCCTGAAAAGATACATCATGTTCTCCATCAGCATGAAGCTGAATAAGTTTGCAGGTAAAAAAATGAAGTAA	MKKTMLLLALVFTAIILHAQKLHIDGKISDPEKKAIENATVYLLKQKDSSIVNYTATNKDGKFSLKIDDIQEPSILKIDAEKYSSYSKKFEKIDQSISLGDIQLEKQSLVNNIDEVKITVSPVKIKKDTIEFNAASIKVRPDSKIEELLKQIPGVEISNDGKITVNGKDVDQIMINGKPFFDKDGKIALQNLPADIIKNIQFTTTKTKEEELSGKAAKSQNTTINFNIDEKKNKGLLTRLTFGYGSDKRYEASGLASYFKGDTKISLLASSNNINSQGFSRDEVFDSMGNGRNAWMMQGGSVSTVGNVTYYSQGGGTKGIQRSTTIGLNYSDKLGKDADLDSFSLMHSDSNTETRSKVSRSTLLPDYTLQTNSESNGENESKQYSFDTSAKIKLDSMTSIYLSPRFSKNSSFNFNNSKSSSLRNGSLLNESNAYSSNDSESNSFNPYLYFSKKFKKKGRSLSANITSSISESKRDNLTRSQNTFYQQNGTTVDNRDQLAKNKNQNNTFNFNAGYTEPISDSSSVSFEVKYETRSARDLRNVNDFDNTTGDYTKYNQLLSNNMKQRINQISPELTYQINKKKLNFWASMHLNLSDMKVNSIYNGQQYDLQKNFVLPEYNVNLYYQLAEGKNLSFYNYSNFTIPTAEQLTPYKDESNPLATYQGNPDLKNTWTNNLSVYFSNYNKVKNLSYYLNVGFTYRNNDIINFTKYDSAGKQIVTYDNISGNKSINAGGGISKTLKWKNNKLTINPRFNMNYAYNNGFIDGQSFTSNSYNLNPGLNITYEIKDKMTIKPSYRLGYSFSNYTNYNVNRVNTANQSLKLELTNYLLKGNFVFGNDFEYNTNSNIAPGFKKDFYFWNTSLGYSFYKKQFTAKVKVYDVLNQNQSVRRTITDSYFEDREDLILKRYIMFSISMKLNKFAGKKMK				NA	NA	NA	NA	NA
BMS003_03891	1860	cocE_2		Cocaine esterase	ATGAAAATCCATATTTCAGTATTATGTATTCTTTTTTTCATTCTTGGAAAAGCTCAGAAGACGGAACAGAAAGACACTTTCGTTAAAGACAATTTCACCAAGAAAGAATTTTATATTCCCATGCGTGATGGAGTGAAACTTTTCACAGCTGTATATATCCCGAAAGATATATCCAACAAAAATAAATATCCGTTCCTGATGCAGAGAACGTGCTACAGCATTGCACCCTACGGAGAGAATGAATATAAAACAAAGGTAGGTCCCAACTCTTATCTTATGAAAGACAAATACATTTTTGTGTACCAGGATGTGCGCGGAAGATATATGAGTGAAGGAACTTTTACCAATATGACTCCACAGGTTGAGCGTAAAACCAAAAAAGATGTGGATGAAAGTACAGATACGTATGATACCATCGAATGGCTTTTGAAAAATATCAAAGATAATAATGGAAAAGCAGGTCAGTTCGGAACTTCTTACCCTGGATTCTATACTGCTGTAGGGACGTTATCACAGCATCCTGCTTTGGTAGCCTCTTCTCCTCAGGCTCCTATTTCTGATTTCTGGAATGATGATTTCCTTCACAACGGAAGATTTATGCTGGGTTATTTCAGAACCTTCCCTGTTTTTGGAGTTCAAAAAACACAGCCGGAAAAACAGGCATGGTATATGGATTCTTTCATCAAGCAGACTTCTGAAGATGGTTTGAAATTCTACAGAGATATGGGCACTCTGAAAGATGGATATGAAAAATATTACAAGAGTAATTTCTTCATGACAGAAATTATGAATCACCCCAACTACGATGAATTCTGGCAGAAAAGAGGTCTTCTTCCTCATTTGAAGAATATCAGCCATGCTGTAATGACTGTTGGCGGATGGTTTGACGCTGAAGACCTTTCCGGCCCCCTGAATATTTACAAAACGATTGAAAAAACAAGTCCTAAAGCCAAAAATACAATTGTAATGGGACCATTCTCTCATGGTGGCTGGTCTAAAGAAGAAGGAAAACACTTCCACAGCGAAACTTATTTTGGAGACAGCATTGCCACATACTATCAGAAAAATATTGAAACCAGATTCTTCAACCATTACCTGAAAGGCAACACCAAAGAAGATGCCGGGCTTCCTGAAGCGCTCATGTATGATACCGGAGCCAAAGAATGGAAAGAATTTGCTTCATATCCGCCTAAAAATGCTCAGAAAGTGAATTTCTATCTGGCTGATAAAACCTTGAAAAAATCATCAGGACAAGGCTATTCTGAATATTACAGTGATCCTAACAATCCTGTTTTAAGCTCAGATCATTTAAAAGATTTTAATGGATTCACTCCCAAAAATTATATGTCGGAAGATCAGAGATTTGCTGTCGGAAGACCAGATGTATTAACCTTCACTACCGATGTATTGACAGACGACATAACTTTTGCAGGGGAGATCATGGCCAAACTGAATATTGCTTCCACATCCACCGATGCTGATTTTGCCGTAAAATTAATTGACGTTTACCCTGAAGATTTCAAACCTGCAGAAAAGAAAGACGGAGTTATCTATGGGAATTATCACCAGATGGTAAGGAGTGAGATCATGCCTGCAAGATTCAGAAATACGAAGGAAAAAGGAGAGGCTTTAGTTCCTAATCAGAAAACGGCTGTTAATTTCAGACTTCAGGATGTGGTTCATACTTTCAAAAAAGGACACAAAATCCAGATTCAGATCAGTAGTACGTGGTTCCCGCTTTTTGCTATCAACCCGCAGAAGTTTATGGATAATCCGAATTATGCCAACAAGGAGGATTACACCAAAGCATTTATTAAAGTATATGATGACAGCTCTATCGAAGCTGAAGTTTTAAAATAA	MKIHISVLCILFFILGKAQKTEQKDTFVKDNFTKKEFYIPMRDGVKLFTAVYIPKDISNKNKYPFLMQRTCYSIAPYGENEYKTKVGPNSYLMKDKYIFVYQDVRGRYMSEGTFTNMTPQVERKTKKDVDESTDTYDTIEWLLKNIKDNNGKAGQFGTSYPGFYTAVGTLSQHPALVASSPQAPISDFWNDDFLHNGRFMLGYFRTFPVFGVQKTQPEKQAWYMDSFIKQTSEDGLKFYRDMGTLKDGYEKYYKSNFFMTEIMNHPNYDEFWQKRGLLPHLKNISHAVMTVGGWFDAEDLSGPLNIYKTIEKTSPKAKNTIVMGPFSHGGWSKEEGKHFHSETYFGDSIATYYQKNIETRFFNHYLKGNTKEDAGLPEALMYDTGAKEWKEFASYPPKNAQKVNFYLADKTLKKSSGQGYSEYYSDPNNPVLSSDHLKDFNGFTPKNYMSEDQRFAVGRPDVLTFTTDVLTDDITFAGEIMAKLNIASTSTDADFAVKLIDVYPEDFKPAEKKDGVIYGNYHQMVRSEIMPARFRNTKEKGEALVPNQKTAVNFRLQDVVHTFKKGHKIQIQISSTWFPLFAINPQKFMDNPNYANKEDYTKAFIKVYDDSSIEAEVLK				NA	NA	NA	NA	NA
BMS003_03892	609			hypothetical protein	ATGAGCCTCTTCGAAGAAATATCCGATTATCCTCTCAATATCCTTCCACACGACGGAACCGTTCATTACTATGGAAAAGTTTTCTCAAAAGAAAAATCTGATTTTTACTATGATTATCTGCTCAACCAGATTCCATGGGAGAATGATGAAGCATTAATCTTTGGAAAACTGATTTTAACCAAAAGGAAAGTAGCCTGGTTTGGAGAAAAAGCTTTTGAATATACCTATTCGAAAAGAACAAAATATGCCAAATTCTGGACTCCGGAATTATTGGAACTAAAGAAAAAATGTGAAGAAGTTTCCGGTGAAACTTACAATTCATGTTTACTCAATTTATACCATGACGGAAGCGAAGGTATGGCTTACCACAGCGATGGCGAAACGGATCTGAAGAAACACGGAGCTATTGCTTCTCTAACCTTTGGAGCTGAAAGGAAGTTTTTATTCAAACATAAAACAACCAAAGAAAAGGCCGAAATATTCCTGGAAAACGGAAGCTTATTGATTATGAAAGGGACTACCCAGGACAACTGGCTTCACAGGCTTCCACCCACTACAAAAGTGAAAACTCCCAGAGTAAACCTTACCTTCAGAACCATTGAAGAATAG	MSLFEEISDYPLNILPHDGTVHYYGKVFSKEKSDFYYDYLLNQIPWENDEALIFGKLILTKRKVAWFGEKAFEYTYSKRTKYAKFWTPELLELKKKCEEVSGETYNSCLLNLYHDGSEGMAYHSDGETDLKKHGAIASLTFGAERKFLFKHKTTKEKAEIFLENGSLLIMKGTTQDNWLHRLPPTTKVKTPRVNLTFRTIEE				NA	NA	NA	NA	NA
BMS003_03893	843	ada	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGTCCACACAAAGTCAGATAGATTACAACAGAATTGCCAAAGCGATAGAATATATCCAGAGCAATTTCAGGCTTCAGCCAAGTTTGGAGGAAGTGGCAGAGAATATTCACTTGAGTCCGGCCCATTTTCAGAAAATCTTTACAGATTGGGCGGGAACAAGTCCGAAAAAATTTTTACAGTTCATCAGTCTTGAACATGCTAAAAATTTATTGAAGGAAGAAAAAGCAAGTTTGTTTGATGCTGCATATGAGACAGGATTTTCAAGTACCAGCAGGCTTCATGACCTGTTTGTAAAGATTGAAGGAATGTCTCCGGCAGAATATAAAAACGGAGGAAAAAGCCTCAATATTCATTACAGTTTTTCCGAAAGTCCTTTCGGGAATCTGTTAGTAGCTTCTACAGAAAAAGGAATCTGCTATATGGCTTTTGAAGACGATAAAGAAAAAGCATTCGGGGAACTGAAGCAAAAGTTTCCCAATGCTTCTTTTATTGAACAGCAAGACACCCTTCAAAAAAACGCATTGTCCATATTCGATAAAGACTGGACAAAACTCAATACCATAAAATTACATTTAAAAGGCACTGATTTTCAATTGAAAGTATGGGAAAGTCTGCTGACCATTCCTATGGGAAAACTGTCTACTTATGGCAGCCTTGCTGAAAAAATTGGAAATCCTAAAGCATCCAGAGCTGTCGGAACTGCTATTGGAAGTAATCCTGTAGCGTTTCTTATTCCATGCCACCGTGTGATTCAGTCTACTGGACATTTGGGAGGTTACAGATGGGGAAGTGAAAGGAAGCAGCTGATTGTGGGTTGGGAAGGTTCACATATTTACTCGTAA	MSTQSQIDYNRIAKAIEYIQSNFRLQPSLEEVAENIHLSPAHFQKIFTDWAGTSPKKFLQFISLEHAKNLLKEEKASLFDAAYETGFSSTSRLHDLFVKIEGMSPAEYKNGGKSLNIHYSFSESPFGNLLVASTEKGICYMAFEDDKEKAFGELKQKFPNASFIEQQDTLQKNALSIFDKDWTKLNTIKLHLKGTDFQLKVWESLLTIPMGKLSTYGSLAEKIGNPKASRAVGTAIGSNPVAFLIPCHRVIQSTGHLGGYRWGSERKQLIVGWEGSHIYS				NA	NA	NA	NA	NA
BMS003_03894	858		COG0010	N(1)-aminopropylagmatine ureohydrolase	ATGAAGACATACGCAGGAATTCCCGAGGAAAACGCAACGTTAGAGAATTCGAAAGTAATGTTGGTAACGGTTCCTTATGATGGAACTTCAACATGGGGTAAAGGAGCTGATAAAGGTCCGGAATTATTCTTAAACGCTTCTGAAAACATGGAGCTTTATGATATTGAAACTCAAACAGAACCTTACTTACAGGGAGTTTACCTAGCTGGTGAAGTTTCTGAAAATTCTACTCCGGAAGCAATGACGGAAGCAGTTTATCAGAAAACAAAAGAACTTTTGAACAATGAGGGTAAATTATTCACTCTTTTTGGTGGAGAGCACTCTGTTTCTATCGGTTCTATCCGTGCAGTAGGAGAGAAATTTGAAAACCTTACCGTTCTTCAGTTAGATGCTCACACAGATTTACGTCCTGATTTCCACGGTTCTACTTCCAACCATGCGTGTGCAGTTTTTGAAGCTAATCAGAAACATAACTTAGTACAGGTGGGAATCCGTTCTATGGATGTTGAAGAAGTGGAATATTTACCGGAAGGAAGAGTATTTTTTGCTCACGAAATCGCAAACAACGAGAACTGGATCAATGATGTATTGGAGAAAGTATCAGGAAATGTATATATCACGATTGATTTAGATGCTTTCGATCCTTCTATTGCACCTTCTACAGGAACGCCTGAGCCAGGTGGATTACAATGGTACCCAACGTTGGAATTATTAAGAAAAGTATTTGAAAAATGTAACGTAGTAGCATTTGATATTGTAGAATTAATGGATTCTCCAATGGCTAAGCCAACGGCTTTCCTTTCTGCTAAGCTATATTACAAAATGCTGGCTTATTACGATATTTATAACAACAACTAA	MKTYAGIPEENATLENSKVMLVTVPYDGTSTWGKGADKGPELFLNASENMELYDIETQTEPYLQGVYLAGEVSENSTPEAMTEAVYQKTKELLNNEGKLFTLFGGEHSVSIGSIRAVGEKFENLTVLQLDAHTDLRPDFHGSTSNHACAVFEANQKHNLVQVGIRSMDVEEVEYLPEGRVFFAHEIANNENWINDVLEKVSGNVYITIDLDAFDPSIAPSTGTPEPGGLQWYPTLELLRKVFEKCNVVAFDIVELMDSPMAKPTAFLSAKLYYKMLAYYDIYNNN	PGPT0007775_2975	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
BMS003_03895	678		COG0637	Phosphorylated carbohydrates phosphatase	TTGTACAAAACTCATTATATGCCTTTAAAAGCTGTTCTTTTCGATATGGATGGGGTAATTGTAGATACAGAACCTCTGCACAGAAAAGCTTATTTCAAAACGTTTGATGAACTGGAAATTGCTGTTTCAGAAGATTTATACACTTCATTTACCGGAGCTTCCACCAAAAGAGTTTCTGAGACATTGATTAAAGAATTTAATTTGAATCAGACTTATGAAGACATTGCAGGAATCAAACGATCTCATTTCAAAGACTATTTCTACAATGATGATGAATTTGATTTAATTCCGGGTGTAAGACAACTGATTGAACATTATCATGAAAATGGAATAAAGCTTATCCTTGCTTCTTCTGCTACGATGGTAACGATTAATATGGTTTTTGAAAAATTCGGACTGGAGAAATATTTCAGTGGAAAGATCAGCGGTGCAGATTTAAAAGAATCAAAACCTCATCCTGAAGTTTTTTTATTAGCTGCAGAAATGTCAGGAGAAACCGTTGAAAACTGCATGGTGATTGAGGATTCTACCAACGGAATTCTGGCAGCCCACAGAGCAAAAATCTTCTGTGCAGCGTACAGAAGTCCACATTCAAAAAATCAGGATTATACGTTAGCCGACACGGTTGTTTCTGATTATGAGGAATTGGAACTAGATAAAATTTCAAAATATTTTTAA	MYKTHYMPLKAVLFDMDGVIVDTEPLHRKAYFKTFDELEIAVSEDLYTSFTGASTKRVSETLIKEFNLNQTYEDIAGIKRSHFKDYFYNDDEFDLIPGVRQLIEHYHENGIKLILASSATMVTINMVFEKFGLEKYFSGKISGADLKESKPHPEVFLLAAEMSGETVENCMVIEDSTNGILAAHRAKIFCAAYRSPHSKNQDYTLADTVVSDYEELELDKISKYF	PGPT0017720_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
BMS003_03896	1662			hypothetical protein	ATGAAAACAAAAATCAATCTTCTCGCATTATTTGCGTTCTGTTCTTCCCTGTCTTTTGGCCAGGAAAGCCATGCCAAAATGACTAATGATCAAAATTCAATTATTTATGTATGCTTTTCAAAGGGCATCCATTCAGAAAAAACAGCTTTCAGCAGAAATGCTGATCTGGAAAGATTTTCAAGAGAAAATAACATTTCCTTTAAGTATGATCTTGATTTTACAGACCGCAAACTTGATGAAATGGCAAGAAGCAGCAGAGCAATCGGTAATTCCGGAGAATCGGTAGAGAAGCTGAAAAGAATTTATAAGGCTGATATTCCTCTTCAAAACAAAGAAGTTTCAGAAAAAATCATTCATACTCTTGAGAGATTTCCTGAAATAGAATATGTATCTGTAATGAGTGCAGAACCTATAGAACCTCCTCTGGTAAATGCTTTTGTAGCAACGCCTAACTTAGAAAGCTTACAGACTTATCTGAATGACAACCCGGGAATCAATGCAAAATATGCATGGTCAAGAGGAATCACAGGGCAGAATATCCGTGTGCGTGATGTAGAATATGGCTTCTATAAAACTCATGAAATGCTTTCTAATCAAAATTCTATACAATTGGAGCCGGGATATTCTCCGAATGCCGGATTGGCTAACAATAACTACCGTGATCACGGAACTGCAGTGGTAAGTATTTTAGGTTCTGTAAAAGATAATATCGGGCTTACAGGAGCTGCATACAATACTTCTGAAATAAAAGGATATATGGAATGGACTACTGTGGGATACAACAGGGCTTCCGCAGTGAGCCGATCTATCAATGCATCTCAGGCCGGCGATATTATTTTATATGAAATGCAGACTGGCGGAAAAGACGGCCAATATTGCCCTGCAGAATATGATAAAGTAATCTGGGATCTTACTAAAGCGGCCACAGATTCAGGAATTATCATCATCGCAGCAGCTGGTAATGGAAATCAGAACCTGGATGATCCGTTTTATGCATCGTATCTTTCAAGAGGAAACAGTGGTGCTATCATTGTAGGAGCAGGATCTCCTAATACAACCCATTCGAAATTAAGCTTCAGCACTTATGGAAACAGAGTGGATGTTCAGGGCTGGGGAAGCAGTGTTCTGGCAGCGGGTTACGGATCTTATGCGAAATATGATAATGATAACAACAGAACTTATAATTATTTCAGCGGTACAAGCTCTGCTACACCAGTAGTATCATCTGCGGCTATTCTGATTCAGTCTTTCTATCGTCAGACTACAGGACAGTATTTAACACCTTCAGCGATGAAGAATCTTTTAATTTCTACGGGAATTCCTCAGGGAGGTACTGTGACTGGTCAGAAAATAGGACCTCTTCCCAATGTAAAGAATGCCATCATTCAGCTGGAAAGTAAATTTACCACATCTCCGACTAAGCCTTTACCAGCCTTAGAGGTTAAAATATACCCTAATCCGTCCAGTAATTCTATTGCTATACAAAGTAATGAAAATAAAAAACTGGATGTGGAAATTATCAATTTACAGGGACGTACTGTTATCAAAAATTCAGTTTTACCTAATGAGAAAATTGATATTTCACAGCTGCCTACGGGTCAGTATATCATCAATATCAATGAAGGCCAGAGGAGAGTTGTTGAGAAACTGACAAAGTTCTAA	MKTKINLLALFAFCSSLSFGQESHAKMTNDQNSIIYVCFSKGIHSEKTAFSRNADLERFSRENNISFKYDLDFTDRKLDEMARSSRAIGNSGESVEKLKRIYKADIPLQNKEVSEKIIHTLERFPEIEYVSVMSAEPIEPPLVNAFVATPNLESLQTYLNDNPGINAKYAWSRGITGQNIRVRDVEYGFYKTHEMLSNQNSIQLEPGYSPNAGLANNNYRDHGTAVVSILGSVKDNIGLTGAAYNTSEIKGYMEWTTVGYNRASAVSRSINASQAGDIILYEMQTGGKDGQYCPAEYDKVIWDLTKAATDSGIIIIAAAGNGNQNLDDPFYASYLSRGNSGAIIVGAGSPNTTHSKLSFSTYGNRVDVQGWGSSVLAAGYGSYAKYDNDNNRTYNYFSGTSSATPVVSSAAILIQSFYRQTTGQYLTPSAMKNLLISTGIPQGGTVTGQKIGPLPNVKNAIIQLESKFTTSPTKPLPALEVKIYPNPSSNSIAIQSNENKKLDVEIINLQGRTVIKNSVLPNEKIDISQLPTGQYIININEGQRRVVEKLTKF				NA	NA	NA	NA	NA
BMS003_03897	513			hypothetical protein	ATGAAAAATATAGTTCTAACAGCAATGGCCGCTTCAGCTGTACTTGTAAGTTGCGGAACCGTACAGTCGCTGGTTCAGAATACCTTCCCATATACAACAAATGTTTTGGTATCTACAGGAGTTCCTGCAGATAAAGAAGTTTCTTCCACTGCAACGGCTACCAACGTGCAGACATGGTTTGGTGGGAATAACAATGCAAAGATTAAAGACGTCAGAATTTCAGATGCAAAAATCTCTGTAGCATCACCATCAGGAGGTAACCTGAGCGCATTCAAAACCGTTAAAATATACGTTTCATCCAATGGAACGGGAGAAAGGCTGGTTGCATCACGCTCCAATATATCTACCAATTCTTCCGGTTTAAATCTTGATCTTAATGATACTGGGTTTCTGGATGAAATTGTAAAAAGTTCCGGATTAACGGTAAGAACAGTTTATGAGCTGAGGAATCAGACTTCTTCGGATATGAACATCAAAGTAGCGCTTAACTTTAACAGCGTTCCCGCCAGTTAA	MKNIVLTAMAASAVLVSCGTVQSLVQNTFPYTTNVLVSTGVPADKEVSSTATATNVQTWFGGNNNAKIKDVRISDAKISVASPSGGNLSAFKTVKIYVSSNGTGERLVASRSNISTNSSGLNLDLNDTGFLDEIVKSSGLTVRTVYELRNQTSSDMNIKVALNFNSVPAS				NA	NA	NA	NA	NA
BMS003_03898	540			hypothetical protein	ATGAGAAAAAGCTTATTATTAATTCCATTACTTATTATTTCATGTAAAAAAGAACCGGCGGTAACGGCCGTTCAGGACAAAGACTCTACCATTGTAACAGAAATGCCGGATTCTGTGGTCAAAGCAGATTCCGTGGCATTGAAACAAAGAGATTCAATTATTAACAATGCTCCTGCAACCAAAGAAGTTTTACGTAAAGGAGTAATGAGAAATGAAAAAGATGGTCAGATTATAAGAACAGCAGATGCCAACCAGCTTCCTTTCACGTTAGGAGAACAGTTTACAAAAGATGATCAGGAACTGGTTTTAAAGCTGACTCATTATGACCGCCCGAATATCAAAGCAAAAATTTCTACCAAAGAGAAAGATTTTAACATCCGTTTCAATCAGATCAGAGTTCCGAACGGAGACTATGACGGACCTTTCGGAAGAGAAATTACCTATGACACTCCCGGAAAAGGGGAAGTATGGCTGATTATCGGGAAAAGCAACATGGCTTCCGGAAACACCAAGGGAAGTTTTACTGTTAGTATAGAATAA	MRKSLLLIPLLIISCKKEPAVTAVQDKDSTIVTEMPDSVVKADSVALKQRDSIINNAPATKEVLRKGVMRNEKDGQIIRTADANQLPFTLGEQFTKDDQELVLKLTHYDRPNIKAKISTKEKDFNIRFNQIRVPNGDYDGPFGREITYDTPGKGEVWLIIGKSNMASGNTKGSFTVSIE				NA	NA	NA	NA	NA
BMS003_03899	678			hypothetical protein	ATGAAAAGCTTTGCCGGATCCCCAGGATTTAAAATTACTCTACTGTTGATACTGATGACCACATTCTGCTTCAGTCTTTCAGCTTTCAGATATTATATCAGTGATACAAAAGTTTTCTTGTTTCTCAACTGGAATCTTTTTCTTGCATGGATTCCTTTATTACTAAGCTCTTTCACCCTTATCTTCAACATAAGAAATAAAATCTCTTTGATTGCCATTATAATAATCTGGATATTATTTTTTCCCAATTCTCCTTACATTCTTACAGATCTTTTTCATCTCAGAGTAAGAAATGCAATCCCGATCTGGTATGACCTTATTGTGATCCTCTCCTATGCATGGACGGGGCTGATCTGCGGTTTTATAAGCCTTAATGATATTGAAAAACAGCTTTCTGATTACGGTAAAAAAAATGTAAGTAATGGAATCATTGTATTGTTCCTTTTCATGAGCAGCTTTGGGGTTTATCTTGGCCGGTTTCTGAGATGGAACAGCTGGGATATAATCAATAATCCTTTTGGTCTCTTCTCGGATATTGCAGTACGGTTTATTTATCCAATGGAATATATCAAAACCTGGGGCGTTACAGTTTTAATGGGTTTGATGCTCAATTTTATGTACTTTACATTCAAATGGGCAGGAGCAAATGATGAAAAAAGAATTACAGCCGGAAAATAA	MKSFAGSPGFKITLLLILMTTFCFSLSAFRYYISDTKVFLFLNWNLFLAWIPLLLSSFTLIFNIRNKISLIAIIIIWILFFPNSPYILTDLFHLRVRNAIPIWYDLIVILSYAWTGLICGFISLNDIEKQLSDYGKKNVSNGIIVLFLFMSSFGVYLGRFLRWNSWDIINNPFGLFSDIAVRFIYPMEYIKTWGVTVLMGLMLNFMYFTFKWAGANDEKRITAGK				NA	NA	NA	NA	NA
BMS003_03900	1371			hypothetical protein	ATGAAAACACATCATTATATATTCATTACAGCCCTTCTCTTTGTCATTGTTTTTTATGATCAGGATCTAGGGCTTAATCTTGGAGTTCTTGGAATTGTTTATACCCTGTTAACGCTGTTTAGAACCCCGGAGAAAAATAAAACCAGAACATTGTATATCCTTTTTGTGACCAGTATCCTGTCCAGTATTGCGTTTGCGTGGTTTGGAGATTTTGCATCCTTTATTGCAGTGGTGAGCTCATTACTTTTACTGGGATATAAGTCCAGGAACAGGAGGTTGAAAATCCTCTTTTTAATTCCTGTCTTTATCGTGAATTGCTGTACTTCCTTCTGCCGCTTTTTCAATTTTGATGAATGGCTGCCTAAGAAAAATATATCCGGACTATGGCAGAAGACATTGGCTTTTATTTTGATTCCGCTGGTGTTGGTTTCCGTTTTCTTCGGAATATATTCTGCAGGGAGTGATCATTTTGCAGCCCTTTTCACAGATTATGAACTTGATCTTAACATTTGGCAGGTATTCTGCCTGTCTGTTTTGGGATTCTTTATTGCCTTCAATTATTGGAATTATGCAGTGGAAAAACTCATCTACAAGAACAATCATTTTTTGGATAACGAGTTCAGTAAAGATTCCCGGATTCCAAAAGCTACCTATTCCTTTCTTGACCTTGATGCAGAAAGAATGAGCGGGGTAATCTCTTTTATCTTACTGAATATTTTACTGATCTTCTTCATTATTACCTATAATTATGAACAGTTTTATGAAACAGTAAAAACACCCGTTCAGCTTTCTGAAGAAACCCATGAAAGAGTGAATGCCGTGATCATGTCTATTGTGATGGCCATTCTTGTAATCATGTTCTACTTCAAATCCGGGTTTAATTTTGATCCGAAAGCAGGTTTGCTGAAAACATTAGCTAAGCTATGGATATTCCTCAATGCTATTCTTGTAGTTTCTGCAGCTCTTAAAAACTACGAGTATATCATCAATTATGCATTTACCTATAAAAGATTGGGCGTTTTTGCATTCTTGCTTTTATCATTAGCAGGGTTGGTTCTCACATTTATTAAGATCCAGAAACAGAAAAGAAATATTTTCCTTGTCAATACAATGATCTGGTACTTTTACGGAACTATTCTGGTGTGCAGCTATTTCAATTGGGGTGGTTTTATTACCTCTCAGAATATGAAAAGAAAAGACTTTGCAATTAATTATCACTTAACTTCCATCAATTTCAGTGAAAAAGCGCTCATGAAGTACGCCCATGAAAAAAATGATCAGAAACTTAAAAAAACACTGCAGGATAAGGTGAAAAATGAAAGATCCAGGACACTCCTTTCTAAGACTATATATTATCAGACTATAAAATAA	MKTHHYIFITALLFVIVFYDQDLGLNLGVLGIVYTLLTLFRTPEKNKTRTLYILFVTSILSSIAFAWFGDFASFIAVVSSLLLLGYKSRNRRLKILFLIPVFIVNCCTSFCRFFNFDEWLPKKNISGLWQKTLAFILIPLVLVSVFFGIYSAGSDHFAALFTDYELDLNIWQVFCLSVLGFFIAFNYWNYAVEKLIYKNNHFLDNEFSKDSRIPKATYSFLDLDAERMSGVISFILLNILLIFFIITYNYEQFYETVKTPVQLSEETHERVNAVIMSIVMAILVIMFYFKSGFNFDPKAGLLKTLAKLWIFLNAILVVSAALKNYEYIINYAFTYKRLGVFAFLLLSLAGLVLTFIKIQKQKRNIFLVNTMIWYFYGTILVCSYFNWGGFITSQNMKRKDFAINYHLTSINFSEKALMKYAHEKNDQKLKKTLQDKVKNERSRTLLSKTIYYQTIK				NA	NA	NA	NA	NA
BMS003_03901	321			hypothetical protein	ATGAGAAAAATAAAATTCAGTCCGCTTGGGGAGAAAACCTTCCTGATTTCCTTTTTACTGGGTACCTCTTTGCTGCTTTTATTTTGGATGACAAAGGCAGGTTTTCTGATCATATTCGGGTTTTATTATGTGGTGATCGCCGCAGTGGTAAATCTGTTGATCACTTTATATGAGCTTATGGAATATCTGAGTGATATTTCTGAAAAGAAAAGCAACGGAAACTCTGTACTTCTTCTGTTACTCAATATACCGATTGCTATATTCTATCTCATCCTATATTTTGAATTTCTTTCAAATCTCTCAGATATTTCAACCTTTTAA	MRKIKFSPLGEKTFLISFLLGTSLLLLFWMTKAGFLIIFGFYYVVIAAVVNLLITLYELMEYLSDISEKKSNGNSVLLLLLNIPIAIFYLILYFEFLSNLSDISTF				NA	NA	NA	NA	NA
BMS003_03902	486			hypothetical protein	ATGAAAAAAATACGCGTTCAGTTTCTGCTTTTTGTATATGATAAAACTCAAAAACTATACAGGAAATATTTCAAAAAGAAAAAAAGAGAATGGCAGTTCAATGAAAAACAGTTGCTGGAGTTTCAGGAAGATTCTTTAGGCCGAAAGCTGGGTGAGTTTTATAAAAAACACGATTTTACAATGATTCCCAAGATGGAAAATCATGATGTACACCATCTGATTACCGGTTGTGGAACCCACTTCGAAGATGAGGTAGCCATGCAGTATCTGCTTCTTGGAAACGGTAAGCTCAATGCCCACCTTTTAGCAGCAATCGTATTGGGAACAGTTATTCTGCCTGAATATGTGAAAATTTATATCAAAGCCTACAAAAAGGGCCAGAATATGAGAGCCTTTCATCATTGGGATTTTGAAGAGCTGCTTTGGCAGAATTATGAACATGTGAAAGACTTTATTCAACAAAAAGAAACCATAGTTCTTCATTAG	MKKIRVQFLLFVYDKTQKLYRKYFKKKKREWQFNEKQLLEFQEDSLGRKLGEFYKKHDFTMIPKMENHDVHHLITGCGTHFEDEVAMQYLLLGNGKLNAHLLAAIVLGTVILPEYVKIYIKAYKKGQNMRAFHHWDFEELLWQNYEHVKDFIQQKETIVLH				NA	NA	NA	NA	NA
BMS003_03903	300			hypothetical protein	ATGATGAAAGATTCAGAAATAATAAATCTAGGCAAGGCTGTATTCGGAATATTTTTTTCAGTAGGAACTCTTTGTCTTTTAGGAGCATTCATTACAAAGAATGATTGGTTTGCCGGAGCAGGCTATTTGTTAATCGTTTTTGGAGTGCTGGTTAACTTATTATGCATACTTGGACTCTTGATATATAGTGCTATAAATACATCAAAATTCAAAGAATGTATAATAGCTATACTCATTTTGACAGCCAACATTCCTATTGCATTCACTTACACTATTATAGGTCTTAGTTTTTTCGATTAA	MMKDSEIINLGKAVFGIFFSVGTLCLLGAFITKNDWFAGAGYLLIVFGVLVNLLCILGLLIYSAINTSKFKECIIAILILTANIPIAFTYTIIGLSFFD				NA	NA	NA	NA	NA
BMS003_03904	288			hypothetical protein	ATGATTCAACAACAAAAAACATTCACGATTTATGCCCTTCCATTGGCTTTATTGAGTATCCCATTATTAGGAAATCTGTTTTCTAAGGAAGTTAACTGGTCAGGATCAGATTTTCTGATCGCAGGAATTTTATTGTTTACCACAGCTTTTATTGTCAATCTGGTCATAAGTAAAATCAAAAAGCGAAGTCACAAAGTCGTGGTCTGTATTTTTATTGATCTGGCTCTTGCCTTGATCTGGTTAGAGCTGGCAGTAGGAATTTTCGGAAGTCCGTTTGCAGGAAGCTAA	MIQQQKTFTIYALPLALLSIPLLGNLFSKEVNWSGSDFLIAGILLFTTAFIVNLVISKIKKRSHKVVVCIFIDLALALIWLELAVGIFGSPFAGS				NA	NA	NA	NA	NA
BMS003_03905	291			hypothetical protein	ATGATCAAAATAAATCAGCTCAATAAAGAATTTGAAAGCCGTGTAAGACTGGGGATTATGTCCGTTCTTATGGTTAACGACTGGGTTGATTTTTCTGAAATGAAAAACCTGCTCGAAATTACAGACGGAAATATGGCCAGCCATAGCAATGCACTGGAAAAAGCAGGATATATAGAAGTGAAAAAAGAATTTGTAGGAAAGAAACCCAAAACTTCTTATCGTGTTACACAAAACGGAAGGCAGGCTTTTACTGAACATTTGGATGCACTTGAAAAATTATTAGGACGATAG	MIKINQLNKEFESRVRLGIMSVLMVNDWVDFSEMKNLLEITDGNMASHSNALEKAGYIEVKKEFVGKKPKTSYRVTQNGRQAFTEHLDALEKLLGR				NA	NA	NA	NA	NA
BMS003_03906	621			hypothetical protein	ATGGGAATTGGTTTTGTCATATTCATTCACCTTTTTACTATATCAGTTTTCAGTTTTATCTGTGCTGTAGTAGGCTGTGTGCTTATTTATTTTGCAAGTAAAAAAGAGAGAAGAAGAAATAAAATAATATTTGTGTTTATAGCACCTTTTGTAGGATTTTATACTTTTTATATTGTTGGGATTATTGGTTTATCCATTGTGTCAGAAAGTAGAAAAGTAGACATTGGGATTGGTGATGTATGCTATGTCCCCCTGAAAAATGACTATCAGTTAATATTTATCGATATTCCAGAACAAGCAGGTATTAGTAAAAATGACGGCAGTGAATTGATTTCAGGAGTGGAAAAAATAGAGGAGGAGAAGAGTTGTATTTTTGGAAAGACATATGATAATAAGTACTTTTTGATAGATACACAAACAGCTGAGATGGAGGTTTTAAGTACAGAGAAGGAGCTAAGTGTTTTACATTCAAAGAAAAAGCTTATGCTGATGGATGCAACAGAATTTTATTCCAAGAGAAGAGATAGTATTATAGGTTACTGGCCTTTGTTAATAGGATTTTTATCTATTGTTATAAGTGCTGGAGCTGTATACCTATGGAAGCTGATATTAGTTTTTTAA	MGIGFVIFIHLFTISVFSFICAVVGCVLIYFASKKERRRNKIIFVFIAPFVGFYTFYIVGIIGLSIVSESRKVDIGIGDVCYVPLKNDYQLIFIDIPEQAGISKNDGSELISGVEKIEEEKSCIFGKTYDNKYFLIDTQTAEMEVLSTEKELSVLHSKKKLMLMDATEFYSKRRDSIIGYWPLLIGFLSIVISAGAVYLWKLILVF				NA	NA	NA	NA	NA
BMS003_03907	618			hypothetical protein	ATGGATTCAAAAAACTATCACGAAGACTTATCCCATATCCGTTCTATGATGGAACGGTCTTCCAGATTTATTTCTCTAAGTGGTTTATCCGGAGTTGTTGCGGGGTTAACGGCTATTATGGGAGCCATATATGTATATTTTGTCTTTCAGAGAGAAGGGATCAGTTATTTTGATGGGGACAGAAATATTCTGAGACCAGCCTTGGTTAAAGAACTTGTCGTGATCGGAATTACTATTCTGACTGTTGCAGTTCTTAGTGGGTATATTTTTACCGCTCATAAAAGTAAAAAGAAAGGTTTGAAGATCTGGGATGCTACAACAAAGCGACTTTTGATTACCTTTGCAGTACCTTTGATAGCTGGAGGTGTCTTTTGCCTGGCATTTCTTTATCATCATCTTTTTGTTTTCATTGCACCGGCTACTCTTATTTTTTACGGATTGGCTCTGGTGGCTGCAGAACGATATACATTAACGGATGTAAAGTATTTAGGATATCTTGAAATTGTTTTAGGACTTATTTCTTTATTCTTTTTAGGATGGGGGTTAATTTTCTGGGCAATCGGTTTTGGTATTTTGCATATTGTGTATGGACTGATCATGCATAAGAAGTATAAATAA	MDSKNYHEDLSHIRSMMERSSRFISLSGLSGVVAGLTAIMGAIYVYFVFQREGISYFDGDRNILRPALVKELVVIGITILTVAVLSGYIFTAHKSKKKGLKIWDATTKRLLITFAVPLIAGGVFCLAFLYHHLFVFIAPATLIFYGLALVAAERYTLTDVKYLGYLEIVLGLISLFFLGWGLIFWAIGFGILHIVYGLIMHKKYK				NA	NA	NA	NA	NA
BMS003_03908	1503			hypothetical protein	ATGAAAAATATTACAAAACAATATATAAAATGGGCTGTTGTTCTTTCAGTTTTTACGGGAACAGTTTCATGCCAGAGTGATTATCTTGAAACAGACCCTACCACTGCAGCTTCGGAAGAAGCAGCTTATTCAAGTGCGGCCAACCTTATGGCAATTATAAACGGTATGCATAGAGATATGTATTACAGGCAGAATAGTAGCCAGGGGCAGAATGGTCAGGGAGGAATCATGATCATGATGGATGCTTTAGGGGATGATCTTGTTTTCCCTTCTACAGGTAATGGCTGGTATATTTCAACGGTAAGATGGCAGGATCAGGTAAACGATAATGCTTCCAATAATTTTTACCCATACCAGTTTTATTATGCATTGATCAGAAATGCAAACATGGTTATTGCTAACGGACCTTCAGTACCTGCACCGACAGCGGCTGATGCTGCCACTATTAAAGCTGCTATAGGTGAAGCTTATGCGTTCAGGGCTTTCTGTTATTATATGCTGGTTCAGATTTATGGTAAAAGATACGTTCCGGGAGCTAATAATACCCAACTTGGTGTTCCTATCAGATTAGTAGCGGATGAAGCTCCTTTAGCAAGAAATACAGTAGAAGAAGTGTATACTCAGGTCAATAAAGATCTTGATGAGGCTGCTGCCAGACTAGGAAGTACAAGGGCTACAAAATCGCACTTTAATGATAAGGTTATTTTAGGACTGAAAGCTAGAATTGCATTAACTCAGGGGAACTACGCTGCTGCTATAACTGCTGCTCAGTCTGCACGCGTTGGATTTGCCCTTATGGATAATGCAACTTATAAGGCTGGATTTAATAATTTGGCAGGTGTTAGTGAGTGGATGTGGGGTGCTACCATTATAGCAGATCAGGGAGATACATTTTCGAATTTTGGAGCTTATATGTCAAGAAACTTTAACTCTACCAATATTCGTCAGGCTCCAAAAGCTATTAATAGTAAATTATTCATGTCATTCCCTTCTAGCGATGTAAGAACGGAGAATTTTGATCCGACAGGAGCGCATACAGCTCTTGGTCTACCTTCAACGTATTCTAAATTCCCATATACTGGACAGAAGTTCCTTGCTGCAAGTCAGGCAGACAGCAGGGTAGATGTTCCTTACATGAGATCTGCGGAAATGTATCTTATTGAAGCGGAAGCATTGGCCAGATCAGGAAACGAAGCCGGATCGAAAGCTGTCTTTGATGTTTTTGCCAAAAACAGAAACCCTTCTTATACAGGAGCTACTACAACAGGAGCGGCTTATATTACAGAAATTTTAGACAGCAGAAGAATGGAATTCTGGGGTGAAGGTTTCAGATTTTTGGATCTGAAAAGATTAAATTTAGGTTTAGACAGAACAGGAGCTAACCATTCTTCTGTAGTGACCAATAGCTTAATGACAGTTACGAATACAGATTTACGTTGGGAGTTCCTTATTCCAAGAGCTGAGATCAATGCCAATCCATTGATTGTTCAGAATCCTTTGTAA	MKNITKQYIKWAVVLSVFTGTVSCQSDYLETDPTTAASEEAAYSSAANLMAIINGMHRDMYYRQNSSQGQNGQGGIMIMMDALGDDLVFPSTGNGWYISTVRWQDQVNDNASNNFYPYQFYYALIRNANMVIANGPSVPAPTAADAATIKAAIGEAYAFRAFCYYMLVQIYGKRYVPGANNTQLGVPIRLVADEAPLARNTVEEVYTQVNKDLDEAAARLGSTRATKSHFNDKVILGLKARIALTQGNYAAAITAAQSARVGFALMDNATYKAGFNNLAGVSEWMWGATIIADQGDTFSNFGAYMSRNFNSTNIRQAPKAINSKLFMSFPSSDVRTENFDPTGAHTALGLPSTYSKFPYTGQKFLAASQADSRVDVPYMRSAEMYLIEAEALARSGNEAGSKAVFDVFAKNRNPSYTGATTTGAAYITEILDSRRMEFWGEGFRFLDLKRLNLGLDRTGANHSSVVTNSLMTVTNTDLRWEFLIPRAEINANPLIVQNPL				NA	NA	NA	NA	NA
BMS003_03909	2970			TonB-dependent receptor P39	ATGAAAATGAAGTTAATACTGAGCACTGCTGTGCTGTTCTTTGTAGGAGGACATCTCGTAGAAGCCCAAAAGGCAAAACGTGATACAATACCTCAGGATACTAAGATTGATGAAATTGTTGTAGTTGCTTATGGAAGTCAGAAAAGAGAAACCATGGTAGGTTCCAATACTGAAGTAAAAGCCAAGCAATTTGCAGATCGACCGATAACAACCATCGGGCAGGCTTTGGATGGAGCCAGTGCAGGAGTTAAAGTAAGTACAGGTACAGGACAGCCGGGAAGTTCCCCGAGCATTCAAATTCGAGGAATAGGCTCTTATGGTATTACAACAGACCCTTTGTATGTAGTGGATGGTACTGTTTATACAGGATCTCTTGCAGCTATTAATCCTAATGATATTGCATCGTTTAATATCCTGAAAGATGCAGCTTCCACTTCTTTATACGGTTCTGCAGCTGCTAACGGAGTTGTTTTGATTACCACAAAATCAGGTAGAAAAGGAAAAGATTCCTTTAACTTTAGTATGAGTACCGGAGCAATCGGAAGATCAATTCCTGAATATAACAGGGTAGATGTATATCAGTATTATCCTCTGATATGGGAAGCTATCAGAAATGGTAGATTTGCATCTAATCCAGGATTAGGGCTTGCTGATGCTAATAATTATGCTTCAATAGTTTTGGTTACTGGTGATAAAGTCTACGGATCAGGGGTTTTAAAAACGAATGTATTTGACGTTGATCCTCACCAATTGGTTGTTGATGGAGTTTTAAATCCGGATGCGAAGCTTAAATATACAGATTTAGACTGGCAAAAACCTTTAATGAACACAGGTTTCAGACAGAATTATGAATTGAACTACAGTGGAGGAAGTAATACAACAACCTATTTTTCTTCCGTAGGATATACCAATGAGACAGGATATTTAATTAAATCAGATTTTGAAAGATTTACCGCAAGATTAAAAGTAGATTCACAGGTTAAAAGCTGGTTAAAATTAGGAACAAGTATCAGTGGAGTAGCTTCTAACGGAAATAATTCCGTAGACGGAGCAGATAACAATTCTGCTTATATCAATCCATACAGATGGACAAGAACTATGGGGCCAATATATAGTCCTTATGCTCACGATCCCAATACATTTGCTACTCTTTATGATGCTGAAGGAAATATAGTGTATGATGCAGGAAGTGCCAGAGGTGCTGATGCAGCAGCCGGAAGAAACGTTATCCAGGAAACGCTTTTGAATAAAGATCTTTCTAAAAACTATTATATTATTTCCAGAGCCTATGCTGAAATCAAAGTAGATCCCTATCTTACTTTATCTACCAATGCAGGATATGATATCAGAAACAACAGAAGGAGTACCTACGGAAATAAAATTATCGGAGATGCAGCTCCTGGAGGTTCAGCAGAAAAATACAGTTTTACTGAGCAGACCTTTACCTGGAACCAGCTCCTGAACTACAAAAGAAAATTTGGAGACCATAATTTTGAATTCCTTTTAGGACACGAAAATTATAAATTCATGTATGAGTACCTGTATGGATATAAAAAAGGTCAGATCGTAGACGATAATGATGAGTTGGTGAACTTTGTAACACCTTCATCATTGACTTCGCGTACAGATAACTACAGAAAAGAAGGCGTGTTTTCACGTTTGAATTATGATTATAAATCAAAATATTTGCTTTCAGGATCTATCCGTTGGGATGGTTCATCAAGATTTGCCAAAGACGTAAGATGGGATTCTTTCTGGTCTCTTGGTGCCGGATGGAGACTGAAAGGCGAAGAGTTCTTAAGTAATTCTAACCTTATCAGTGAATTGAAATTAAGGGGTTCGTATGGTGAAGTAGGGAATGATAGAACAGACAGTTATTACATGTACAAGAGTACTTATACTTTAGGCTATAATAACGCTCAGGAGCCTGGAATTTTATTCGGGTTTTTAGCAGACCCTACCATTACCTGGGAGGCTAACAAGCAAACTGATTTAGGTATTGATTTTGGTTTTTTAAATAACAGAATTACAGGATCTGTAGAATACTACAACAGAGTTACTGAAGATCTGATCTTCCCGGTTCCTCTTCCGGTTTCTGCCGGAGTCCCGGATAATACGATCAGCAGGAATGTTGGGACAATGTATAACCGTGGATTCGAATTCAGTATTAATGCAGATGTTATCAAAACTCAAAACTTCACATGGAATATCAATGCGAATGCATCCACACTTAAAAATCAGGTTACGGAACTTTCCAACGGTATAACAGAAATTATCAACGGAACCAAGAAGATTTCAGTAGGACACTCTGTATATGATTACTGGTTAAGACAATGGTATGGTGTAGATCCTGCAGATGGTTCTCCTTTGTTCCTGGTGGCAGATACATATGCTGACACAACAGCTGCAGATATCAGAACGGTGAATGGTCAAAAAGTTACTACCAATTTCAATAAAGCAAAATATGACTATTCAGGAACTGCAATTCCTGATTTATTTGGAAGCTTTGGAACTACGATTACGTATAAGCAATGGGCTTTATCTGCAATGTTTACCTATCAGTTAGGCGGAAAGACATATGACTCCAACTATGCAGCATTGATGTCCAGCTATACTCAGGGAGGAGCTTTAAGTACAGATATTCTGGACAGATGGACAACTCCTGGGCAGATCACTGATGTTCCGGCATTGAACTCTTCAACCTATACAAGCTCAAATGCAGCTTCTTCAAGATGGTTGGTAAGCTCAGATTTTCTTACTTTCAGACAGGCAACTTTAAGTTATAGCTTCAGCCCGGAGACCTTATCTCAGCTTGGAGTATCAGGGTTAAGAATCCTTGTTTCCGGTGAGAATTTATGGAGTAAAACAGCAAGAAAAGGTCTGGAGCCGGCTCAGGCTTTCAATGGTACTGCATCAAACAGATATACTCCGGCGAGAGTAGTAACGATAGGATTTAATGTATCTTTTTAA	MKMKLILSTAVLFFVGGHLVEAQKAKRDTIPQDTKIDEIVVVAYGSQKRETMVGSNTEVKAKQFADRPITTIGQALDGASAGVKVSTGTGQPGSSPSIQIRGIGSYGITTDPLYVVDGTVYTGSLAAINPNDIASFNILKDAASTSLYGSAAANGVVLITTKSGRKGKDSFNFSMSTGAIGRSIPEYNRVDVYQYYPLIWEAIRNGRFASNPGLGLADANNYASIVLVTGDKVYGSGVLKTNVFDVDPHQLVVDGVLNPDAKLKYTDLDWQKPLMNTGFRQNYELNYSGGSNTTTYFSSVGYTNETGYLIKSDFERFTARLKVDSQVKSWLKLGTSISGVASNGNNSVDGADNNSAYINPYRWTRTMGPIYSPYAHDPNTFATLYDAEGNIVYDAGSARGADAAAGRNVIQETLLNKDLSKNYYIISRAYAEIKVDPYLTLSTNAGYDIRNNRRSTYGNKIIGDAAPGGSAEKYSFTEQTFTWNQLLNYKRKFGDHNFEFLLGHENYKFMYEYLYGYKKGQIVDDNDELVNFVTPSSLTSRTDNYRKEGVFSRLNYDYKSKYLLSGSIRWDGSSRFAKDVRWDSFWSLGAGWRLKGEEFLSNSNLISELKLRGSYGEVGNDRTDSYYMYKSTYTLGYNNAQEPGILFGFLADPTITWEANKQTDLGIDFGFLNNRITGSVEYYNRVTEDLIFPVPLPVSAGVPDNTISRNVGTMYNRGFEFSINADVIKTQNFTWNINANASTLKNQVTELSNGITEIINGTKKISVGHSVYDYWLRQWYGVDPADGSPLFLVADTYADTTAADIRTVNGQKVTTNFNKAKYDYSGTAIPDLFGSFGTTITYKQWALSAMFTYQLGGKTYDSNYAALMSSYTQGGALSTDILDRWTTPGQITDVPALNSSTYTSSNAASSRWLVSSDFLTFRQATLSYSFSPETLSQLGVSGLRILVSGENLWSKTARKGLEPAQAFNGTASNRYTPARVVTIGFNVSF				NA	NA	NA	NA	NA
BMS003_03910	765	dpgD		Enoyl-CoA-hydratase	ATGAGCGAATTTGTAGCATCAGAAATTAAAAATAATATTGCCGAAATCACTTTCGGAACACCCAAAAGCAATTCTCTTCCCGGAGCAATCTTAGAAAAGCTGGCCGCAACTATCCTTGAAGAAGGAGCAAAAGATGAGGTGAAAGCCATTTTGGTAAAAAGCGAAGGAGAGAAAGCATTTTGCGCAGGAGCAAGCTTTGATGAGCTTTTAGCTATTGAAGAACTGGAAGCCTCCACACAATTTTTCGGTGGTTTTGCAAAAGTTTTAAATGCAATGAGAAACTGCGGAAAGATTGTTGTAGTAAGAGTTCAGGGAAAAACAACAGGTGGAGGGGTAGGAATTGCCTGTGGTGCAGACTATTGTTTTGCAACAAAAGATTCAGCGTTAGCACTTACAGAGATTAATCTGGGAATTGGTCCTTTTGTTATCGGTCCTTATGTGGAAAGGAAAATCGGGAAATCACAATTCTCTGCCATGGCTATTGATGCAGATTTCAGATCTGCCGCATGGGCAGAGCAGCATAATATCTACCATTCTGTTTCAGATAATATCCAGGAGATGGATGAAAAGCTGTTGGAATTTTTACAGACTCTGGCTTCAAGAAGCAATGATGCATTAGCACTAATTAAAAAGGTTTCATGGGAAGGTACAGATCATTTCAATGAGTTAATGCCTGCGAGAATTCATATGAGTGCAAGCCTTATCCTTGAAGATTCAGCTAAGAAAAATATAGAATCCATTAAAGAAAGACTAAGGGCAAAATAG	MSEFVASEIKNNIAEITFGTPKSNSLPGAILEKLAATILEEGAKDEVKAILVKSEGEKAFCAGASFDELLAIEELEASTQFFGGFAKVLNAMRNCGKIVVVRVQGKTTGGGVGIACGADYCFATKDSALALTEINLGIGPFVIGPYVERKIGKSQFSAMAIDADFRSAAWAEQHNIYHSVSDNIQEMDEKLLEFLQTLASRSNDALALIKKVSWEGTDHFNELMPARIHMSASLILEDSAKKNIESIKERLRAK				NA	NA	NA	NA	NA
BMS003_03912	552			hypothetical protein	ATGGACGAGTACATTGGAATTGTAAAATTATTTGCCGGAAATTTCGCACCTAGAGGCTGGATGTTTTGTGACGGAAGCTTAATTAGTATTTCAAGAAATTCTGCCTTATTCTCTATTTTAGGAACAACTTATGGTGGGGACGGTATCACAACTTTCGCATTACCTAACTTAAAAGGACGTATGGCTATAGGAGCCGGAAACGTAAATTCCAACGAATTTTATCCTTTGGGAGTAATGGCAGGTACTACGCAAAATACACTTTTATCATCAAATCTTCCAAGTGTAGGCATGGGATTTCAGCTTAAAGTAGCTAATAAAAATGCTAACTCATCTACTCCTACAGGTACTTCAACAATTGCGATCTCGGGAACACAGGTGGGAAGAGATTTCAATGCTGTACCAAGCTTCGTGAATGACGCTAACCCTGATACGGCTATTAACAGTCAAAGCATCTCTTTCATCGGGCAAAATCTGCCTTTGAATAATATGCCGCCTTATCTTGGTCTGAATTACATCATTTGCGTTGAAGGAATTTATCCTCCAAGGGATTAA	MDEYIGIVKLFAGNFAPRGWMFCDGSLISISRNSALFSILGTTYGGDGITTFALPNLKGRMAIGAGNVNSNEFYPLGVMAGTTQNTLLSSNLPSVGMGFQLKVANKNANSSTPTGTSTIAISGTQVGRDFNAVPSFVNDANPDTAINSQSISFIGQNLPLNNMPPYLGLNYIICVEGIYPPRD				NA	NA	NA	NA	NA
BMS003_03913	822			hypothetical protein	ATGAAAAGCACTACTTTTTTGGCAATCTGTAGTCTGCTCATTTCAATTTTCTCATTTGGGCAGACCAGTACGGAACAATTTGAGACAGAATCTAACGGGAGCACAAGCTTCACAGATAATGGAGTCATTTTTAATATCATTTCACATGTAAGTGTTTTTGACATTCAGGGAAATTTCCCGGGAACAGGCTGGAATGGGACAGCTAACGATAACAGATACATCGATAATTCTAATAACACTCAATCTCCGCCATCATTCAGTATTAAAACCACTTCCAATTTGTTTAAAGTAAACAGGTTCTGGATGTATCTTTCTGCATTGAATCTGGATCTTAATGTAGCAGGAACATTAACCGTGACCGGAAAACTAAGCGGAGTTACAAAATTTACACAAACAAAAACTACCGGATTTGCAACAAGTTTAGGAAGCACAAACGGATACACTCTGATTGATCTTACCAACTTAAATGGCCAAAACTACTCGAACATTGTGATAGACGAGCTGCAGATAACAGCAAACGGAGCTTTCCGATATGTAGGTTTTGATGCTTTCACATGGGTGAAAGACAGTAATCTGGTACTGGGCACTTCAGAAGTGAAAAGCACTAAAAAAGACCTGACTGTTTATCCTAACCCAACCAGCGGACCTCTTTCTATAACTACAGAAAAAGCCAGTGAAGCTAGAATATACAGTCTGGAAGGTAAAATGCTGAAAACGGTGCCAACTCAGAAGGGAAATAATGAAATCAATATTTCAGAGCTTCCAAAAGGAATTTACATCATCAAAACAGCAACTGAGTCTACCAAAGTAATTAAAAACTAA	MKSTTFLAICSLLISIFSFGQTSTEQFETESNGSTSFTDNGVIFNIISHVSVFDIQGNFPGTGWNGTANDNRYIDNSNNTQSPPSFSIKTTSNLFKVNRFWMYLSALNLDLNVAGTLTVTGKLSGVTKFTQTKTTGFATSLGSTNGYTLIDLTNLNGQNYSNIVIDELQITANGAFRYVGFDAFTWVKDSNLVLGTSEVKSTKKDLTVYPNPTSGPLSITTEKASEARIYSLEGKMLKTVPTQKGNNEINISELPKGIYIIKTATESTKVIKN				NA	NA	NA	NA	NA
BMS003_03914	2685			hypothetical protein	ATGAATGTTTTTCCTGAAAACACAACTTTTAAATACAGCTGGCGAACTTATCAGAAGAAAATTTTAGACAACATGGATGATCATTTGAAGAATGGTCATCTCCATATTTCTGCTCCTCCGGGTTCTGGGAAAACGGTTTTGGGATTAGAAATAATGCTGAGACTTGATAAACCAGCATTGATTGTTGCTCCTACCTTAGCCATCAAGAACCAATGGATTCAGAGGTTTTGTGAACTCTTTCTGGATGCGGAAAATATCCCTGAATGGATATCCTCAGACATTAAAAATCCAGGAATTATTACAGTAACAACTTATCAGGGAATTCATTCCGCTTATGGAACAGAGGAAGAAGACGAAGATCAGGCAAAAAAGTCTTCAAGAATCTCAGTGGCAGAAATTATTAAAAAACTGGAGAAACAAAAAGTAGGCACCCTTATTCTGGATGAAGCACATCATTTGAAGAATGCCTGGTGGAGAAGCCTGATGGAATTGAAAAATAGGATCAGTCCTACAGTCGTTGCCCTTACCGCAACCCCACCATTTGATGTTTCCGGCACCGAATGGCAAAAATATATTCAGTTAAATGGTCCTATTGATGTAGAAATTTCTGTTCCTGAATTGATGATTGAAGGAGACCTTTGTCCTCATCAGGATTTGGTTTATTTTACTTCGCCTTCAAAAGAGGAAGAGAAGAAGATTGAATACTATCATCATCAGGCAGCCATGTTTTTTGAAGAAGTTCAAAAGGACGATACACTACTCGAAGCTCTTGAGCAACATCCTGTTTACCTGAATCCTGCCGTACATCTGGAATGGATTTACGAAAACATATCGTCCTATACCTCAGGGCTTGTCTATCTTCATTTCAGAGGAAAAGAGATTTCGGATATTCATTTTAATATCATTGGAGACCAGCAAAAATATGTTCCCGGGTTTGATCTCTTCTGGATGGAAGAACTTCTTGATTTTTACCTGATATTGGATGAAGTTAATTTTAAAAAATATGAAGAACATCGGACAGATCTTGGAAACAGGCTCAGAAGAGCAGGATTTCTTGAGCAGAGAACAGTCAGTTTTTATAATAGTAAAAATTTAAATCAGATACTGAATTCAAGTATTGGAAAACTTCAGGGGATCAAGGAAATTACAGATTTTGAGTTTTCTGTTCTGAAAGAAGATCTCAGAATGGTAATCCTTACTGATTTTATAAAAAAAGAATATTTGGTAAGTGGAACTCAGAATACACTAAATCTCGATAAAATAGGAGCAGTTCCGATATTTGAAAAACTGAGAAGAGAAAATTTTCAAAATAAAAGGATCGGAATTCTTACAGGCAGTTTGGTTATCATTCCAGTGAGTGCCAAAGACATGTTTGAGCAATTTTGTATCAGGAAAAGTATTTCAGGAGTGTCTTTTTCTTCTCTTTCCTATGATCAGGATTATTTGATAATCAGTCTTACGGATCAGATAAAGCATGATGTGGTTCATATAATAACCGAGATTTTTCAATGTGGAGGAATTCAGGTCTTAATTGGAACAAAGTCTTTGTTGGGAGAAGGTTGGGATGCGCCCAAAATGAATAGTCTTGTGCTGGCTAGTTTTGTAAGTTCTTTTGTGCTCTCTAATCAGATGAGGGGAAGAGTGATAAGAACAGATAAAGATAATGGATACAAAACTGGAAATATCTGGCACCTGGTATGTTTTGATTCCTATGATATGAACGGAGGACAGGACTTTAGCAATATCAGGAAAAGATTTAAGACTTTTGTGGGAATTTCGTATACAGCTGAACCTACTATCGAAAATAACTTTGAACGGCTGAATGTGAAAATGATAGGAAAAAAGGAAGAACTGGTGGAAATGAATCAGGAGTTCTTTACTTGGGCAAAAGATAGGAATGCCCTTGTCCAGAGATGGAAAAATGCCCTTGATAGAGGAAGTATTTTGGTGGAAGAAATAGAGGTTCCTTCGGTCAATATGGCGGGTATGAATGAGATGAGAATGGATCATCTTGGTACAATGAGCGGAAATTTTGCAAAGATAATGGGATCTACCGTATTGTTATTCTGGCAGGATCTTATGATGGGGCTTGTCCGGAATATTGATGAAATAAAATCTGTAAAAAGTTTTTCGCTGCTGGTTGCTTTATTTGGAATTGCAGGGGTTGTTGTATATAGTGGAAAACTGTACAGGTCTGCAAAGCAATATGTAAGATGTAAAGATCTTAGCAGGCAGTTGAATTCACTTGCCGGAATAGTTTTATATGGTTTGATCCATGAAAGGATAATCTGTACCTCTGTGGAAAAACTTAAAATAGTAAGTTCATCAGACAAGAATAAAAATGCATTTTGTTACCTTGAGGGAGGAACCCGGTATGAGAATGCCCAGTTTATACAGACTTTACAGGAGCTGGTATCACAGATAGATAATCCGAGATACCTTTTGAAACAAAAAAGAAGTCTATTCTTTTTGAAAAAAGAAATGTATTATCCCATCCCGGAAATTTTTGCAAAAAATAAAAAAAGTGCAGAGTTTTTTAAAAAACTATGGGATAAAATGATAGGAAAATCTGAACTGGTCTTCACAAGAACTGTTGAGGGACGCGCAGTTTTATTAAAACTTAGATTTCAGTCTCTGCTTCACAGAAACGGAAAAATAGAACATCTTCACAAATGGACCCGATAA	MNVFPENTTFKYSWRTYQKKILDNMDDHLKNGHLHISAPPGSGKTVLGLEIMLRLDKPALIVAPTLAIKNQWIQRFCELFLDAENIPEWISSDIKNPGIITVTTYQGIHSAYGTEEEDEDQAKKSSRISVAEIIKKLEKQKVGTLILDEAHHLKNAWWRSLMELKNRISPTVVALTATPPFDVSGTEWQKYIQLNGPIDVEISVPELMIEGDLCPHQDLVYFTSPSKEEEKKIEYYHHQAAMFFEEVQKDDTLLEALEQHPVYLNPAVHLEWIYENISSYTSGLVYLHFRGKEISDIHFNIIGDQQKYVPGFDLFWMEELLDFYLILDEVNFKKYEEHRTDLGNRLRRAGFLEQRTVSFYNSKNLNQILNSSIGKLQGIKEITDFEFSVLKEDLRMVILTDFIKKEYLVSGTQNTLNLDKIGAVPIFEKLRRENFQNKRIGILTGSLVIIPVSAKDMFEQFCIRKSISGVSFSSLSYDQDYLIISLTDQIKHDVVHIITEIFQCGGIQVLIGTKSLLGEGWDAPKMNSLVLASFVSSFVLSNQMRGRVIRTDKDNGYKTGNIWHLVCFDSYDMNGGQDFSNIRKRFKTFVGISYTAEPTIENNFERLNVKMIGKKEELVEMNQEFFTWAKDRNALVQRWKNALDRGSILVEEIEVPSVNMAGMNEMRMDHLGTMSGNFAKIMGSTVLLFWQDLMMGLVRNIDEIKSVKSFSLLVALFGIAGVVVYSGKLYRSAKQYVRCKDLSRQLNSLAGIVLYGLIHERIICTSVEKLKIVSSSDKNKNAFCYLEGGTRYENAQFIQTLQELVSQIDNPRYLLKQKRSLFFLKKEMYYPIPEIFAKNKKSAEFFKKLWDKMIGKSELVFTRTVEGRAVLLKLRFQSLLHRNGKIEHLHKWTR				NA	NA	NA	NA	NA
BMS003_03915	687			hypothetical protein	ATGAAAACCACTTTTGCAGACCACGTTATTGAATTCAACAAAAACCTAGGTTATACAGAAAATTTACCCGAAGGTTTTGATGTTCTGAATCCGTATCTGTATAACCTTGAAACTATGGTGGTTATGCAAAAGTTTTATCACAAATACTATGATGATACAATTCCTAGGAAATTTATCATTGGGATTAATCCAAGCCGTCATGGAGCAGGAGTAACCGGAGTTCCGTTTACAGACACAAAAAGACTTGAAAGTATTTGTGGAATAAAAATGAAATCTGCCCATACCCATGAAGTTTCTTCAGTTTTTATGTATGACATGATTGAAGAATATGGTGGTGCTGATCTTTTCTATAAAGATATTTATATCAATTCTCCATTTCCGCTGGCTATCGTAAGAAAGACAAAAAACGGATGGCTTAATGCCAATTACTATGATGACAAAATGCTATTCGAAGCGGTAAAGGATTTTATGATTGATTCTTTAAAGAAACATATCAGTCTTAATCTCGATACATCAGAGGTTTTTATTCTTGGTAAAAAGAATGCCGATTTTATTTCAAAATTAAATCAAGAAGCAAAACTGTTTGATAAAATGACAGTTCTGGAGCATCCAAGATATATCCAGCAGTATAAATCCAAAGAAAAACAGCTTTATATAGACAAGTATATTCTGGCATTAAAGAAATGA	MKTTFADHVIEFNKNLGYTENLPEGFDVLNPYLYNLETMVVMQKFYHKYYDDTIPRKFIIGINPSRHGAGVTGVPFTDTKRLESICGIKMKSAHTHEVSSVFMYDMIEEYGGADLFYKDIYINSPFPLAIVRKTKNGWLNANYYDDKMLFEAVKDFMIDSLKKHISLNLDTSEVFILGKKNADFISKLNQEAKLFDKMTVLEHPRYIQQYKSKEKQLYIDKYILALKK				NA	NA	NA	NA	NA
BMS003_03916	678			hypothetical protein	ATGATTGGAATTATCATTGAGCTTATCATTTCATGGTTTCTCCTTAAGTTTACAGCAAAAAAGGATCTGTCTGTTTTAGGATGTAAGCCCAATCCAACAAGGCTGGTTCATTGGAGCATCGGTTTTCTTTTGGCCGCTGCCATTTGCAGCCTTTATCATATAATGACCACCACATTCATCAATAACGGATGGATCCTGAATAAAGAATTTACATTCTCTGCTGCATTAATAAACTCATGGTGGGTTTTGAAGTCTGTATTATTTGAAGAATTACTTTTCAGAGGAACATTACTATACCTTGCTATTGAAAAATGGGGAACGACAAAAGCCTGTCTTTTATCTGCTGCCTGCTTCGGAATCTACCATTGGTTTTCTTATAATGCATTTGGAAATCCTTTTCAAATGGGAATTATTTTTGTGACAACTGCTATCTTTGGATGGATGCTGGCTGTATCTTTTGCTAAAACTCAATCTCTATATTTTCCTATAGGGCTCCATCTGGGCTGGAATTTGTTTAATATTATTGTATTTTCAAATGGTCCGTTAGGTAAACAACTTTTTATGAGGGCGAATGATAGTCATCTTGAAGGGATTCCTTCACTGTTTGTTTTTTTGTTCCAGATAGTTGCATTGCCTCTTTTAATATTTGGATATTTTAAGCTTAAGAAAAGATTATAA	MIGIIIELIISWFLLKFTAKKDLSVLGCKPNPTRLVHWSIGFLLAAAICSLYHIMTTTFINNGWILNKEFTFSAALINSWWVLKSVLFEELLFRGTLLYLAIEKWGTTKACLLSAACFGIYHWFSYNAFGNPFQMGIIFVTTAIFGWMLAVSFAKTQSLYFPIGLHLGWNLFNIIVFSNGPLGKQLFMRANDSHLEGIPSLFVFLFQIVALPLLIFGYFKLKKRL				NA	NA	NA	NA	NA
BMS003_03917	141			hypothetical protein	ATGTTCATAATTTCAATTAGTTATGCTTTTTTATTTGAAAAATTACTAACTTTAATAGGCGAAATCCGAAAAGCATATAGAGTAGGAGAGAACATCAAAACAAACCACTATGAAAAACTTAAAAAAACTTTCAAGACATGA	MFIISISYAFLFEKLLTLIGEIRKAYRVGENIKTNHYEKLKKTFKT				NA	NA	NA	NA	NA
BMS003_03918	714			hypothetical protein	ATGAAATTTTTTAAAGTTTTCTTTTTAGCTCTATCAGCTTTGCTTCTTTTTTCTTGTCCCGGAAATCCGAAACCTGATAAAGAAGGCTATTTTTCTGAAGAGAAAGTTGTTGACAGTTTACATGCTGGAATAAAAGGAAAAACTAAAGTTGAATTTGAAAAATTCAGGCATACAGGTAACGGAGATGTATTTGTGTCAATTAATTTTTATAAATCGGAAAAGAAATGGGTAAAAGGTGAGAAAACGGATATTGACATCTGGAGACTGACAAACAGTTTTAAATTAGATAAAGATGGAATATCTGATATGGATGTTCAAATTGGTGATTTCAATAACGATGGATTTAATGATATAACCTATCAGAGTGCTATCGCTGGAAGAGGAGGAAATATAGTAATGACATTATTTGTTTATGATCCTGAGAATAAAGATTTCATCCACATTAAGAATTCTGAATCTTATCCGAACTTAACTTACAATGCAAAATTAAATTGTATTAATTCACTGATTTTAACTGGCTCTACAACAACCGTATTTCTAAAAATTAAAAAAGATTCTTTGCAAGAATTTGCCAGAGTTGATGTTTCCGATAAAATTTTGGTAGAAGAAAAAGACTCCACAGGAAGGTTTAAAATTATTGAAGAAAAACCATTCAAAAGAAATAATGAGGACTTTTATAAAGCTTTTAGAAACTATAAGCCTTTAGAATATTAA	MKFFKVFFLALSALLLFSCPGNPKPDKEGYFSEEKVVDSLHAGIKGKTKVEFEKFRHTGNGDVFVSINFYKSEKKWVKGEKTDIDIWRLTNSFKLDKDGISDMDVQIGDFNNDGFNDITYQSAIAGRGGNIVMTLFVYDPENKDFIHIKNSESYPNLTYNAKLNCINSLILTGSTTTVFLKIKKDSLQEFARVDVSDKILVEEKDSTGRFKIIEEKPFKRNNEDFYKAFRNYKPLEY				NA	NA	NA	NA	NA
BMS003_03919	2496	paaZ	COG2030	Bifunctional protein PaaZ	ATGGAAAAGTTAAAAAACTATATCTACGGACAATGGGTAGAAGGTACCGGAAGCGGAGTTCCTTTGTACAACGCCGTTACAGGAGAGCAGGTAGCTGTTTCCGATACAGAAGGGCTTAATTTTGAACAGGCTCTTGACTACGGAAGAACCGTAGGGTATAAAAACCTTTCTTCAATGACTTTCTATGACCGTGGGGAAATGCTGAAAAAAGTAGCTCTTTATCTATTGGAAAGAAAGAAAAAATACTACGATTTATCATACAAAACAGGAGCTACCCACGTAGATTCATGGGTGGATATTGAAGGAGGTTTCGGAACTTTCTTCACCTATTCCGGATTAGCAAAAAGAATGCTTCCCAATACTTCATTTTGGGTAGATGGAGACACTCAGAAGATTTCTGCTAACGGAACTTTCTTAGGAACTCACATTTTAACACCTAGCGAAGGAGTTTCTATACAGATCAATGCCTATAATTTTCCGGTTTGGGGAATGTTGGAAAAATTATCCACTTCTTTATTAGCTGGTGTTCCTTCTATTGTGAAGCCATCTCCTTTCGGATCTTACCTTACCAATGCAGTATTCCAGGATATGATTGAAAGTGGAGTATTGCCTGAAGGAGCTGTACAGTTAGTGTGCGGAGAACCTGGGAATATTTTAGATTATGTACAGGATGGAGACTCTGTGCTATTTACAGGTTCAGCCAATACAGGAAGAAAATTAAAATCACTTCCGTCTATTGCAGGAAATGCTGTTCGTTTCAATATGGAGGCAGATTCTTTGAACTGTTCTATCCTTGGATTGGAAGCAAAACCGGGAACTCCGGAGTTCGATCTATTCATCAAAGAAGTTCGTAACGAAATGACGACAAAAGCAGGGCAGAAATGTACTGCAATCAGAAGAATTATTGTTCCTGAACACTTAATTGGTGATGTTCAGAGCGCTTTGTCTAAAGCTTTAGACCAAACTAAAATAGGAAACCCGTTAAGCAGAGAAACCAAAATGGGATCTTTGGTAGGAAAACAGCAGTATGAAGAAGTTCTGAGAAAAGTAAACCTATTAAAATCCGAAACAGAACTAGTCTATGACGGGAAACACGAACTGGTAGATGCTAACTATGAAAATGGAGCATTTATGAGTCCGAAATTATTCCTGAATGACAAACCTTTCGAAAAAAATATCTCTCACGATGTAGAAGCTTTCGGACCGGTATCTACATTAATGCCATATAAAGATGCTGAAGAAGCGGCTGCGCTGGCAAAAAGAGGAAAAGGAAGTTTGGTAGGATCTATCATTTCTCATGACGAGAACTTTATCGCAGAAACTTCATGGAAAATGGCTTCCCAGCATGGAAGAATCTTTGTACTGAACAGAGATAATGCCAAAGAAAGCACAGGTCACGGCTCACCACTTCCGACATTGATGCACGGAGGTCCCGGTAGAGCAGGTGGGGGAGAGGAAATGGGCGGATTAAGCGGTCTTCATTTCTTCTTACAGAAAACAGCAATCCAGGGGTCGCCAGACGTATTGAAAGCAATTACCAAGATCTATCAGCAGGGAGCTGAGAAAAAATTCTCAGATAAGCATCCTTTCCAGAAATACTTTGAGGAAGTAGAAGTAGGAGACTCTTTAGAAACAGCAGGAAGAACAGTTACTGATGCGGACATCGTTAACTTTTCCAATGTTTCATGGGATCATTTCTATGCCCATACAGATGCCACAAGCTTAACAGGTACTATCTTCGATAAAACTGTAGCTCACGGATATTTCATTCTTTCGGCAGCGGCAGGATTATTTGTTTCAGGGAAAAAAGGACCTGTTATTGCGAATTATGGATTGGAAGACTGCAGTTTCTTCAAACCTGTATATGCCGGAGATACTATCACAGTATATTTAACAGCAAAAGAGAAAATCAACAGAGGAGTAAAAGGAAGAAATATTCCTTCCGGTGTTGTAAAATGGCTGGTTGAAGTGGTGAACCAAAGAGATGAGGTGGTTTGCGTGGCAACAATCTTAACATTGGTAGCAAAACAATCCCCTTTCATTGATCTGAATGTGAAAAATGTTCAGAAAATATTAAGCGGATTCACAGAGAGTACACCTTCTCTTTGGGGAAAAATGTCTCCACAGCAGATGATAGAACATCTTGAGCAGGCTGTATTGGTAAGTTTTGGAGAGCCAGAAGCCGAAAAATGTTTCACTCCGGAAGAACACCTTGAAAAATGGCAGGATTCTCTTTACAACCACAGAGCGATGCCAAAAGAATTTACAGCTCCATTCCTTCCGCAGGACGGTTCACTTCCGGAGCAAAAACACAAGAATCTGGAAATGGCAAAATTATCATTCATAGATAACCTTAAGAAATTTGTGATCTATTACAAAGAAAATCCACAGGCTGAACACATGAATTACGTTTTCGGTAAGCTGAATAAAGAAATGTGGGAACTGATGCACAAAAAGCATTTTACGCACCACTTTCAACAGTTTGGATTGATTTAA	MEKLKNYIYGQWVEGTGSGVPLYNAVTGEQVAVSDTEGLNFEQALDYGRTVGYKNLSSMTFYDRGEMLKKVALYLLERKKKYYDLSYKTGATHVDSWVDIEGGFGTFFTYSGLAKRMLPNTSFWVDGDTQKISANGTFLGTHILTPSEGVSIQINAYNFPVWGMLEKLSTSLLAGVPSIVKPSPFGSYLTNAVFQDMIESGVLPEGAVQLVCGEPGNILDYVQDGDSVLFTGSANTGRKLKSLPSIAGNAVRFNMEADSLNCSILGLEAKPGTPEFDLFIKEVRNEMTTKAGQKCTAIRRIIVPEHLIGDVQSALSKALDQTKIGNPLSRETKMGSLVGKQQYEEVLRKVNLLKSETELVYDGKHELVDANYENGAFMSPKLFLNDKPFEKNISHDVEAFGPVSTLMPYKDAEEAAALAKRGKGSLVGSIISHDENFIAETSWKMASQHGRIFVLNRDNAKESTGHGSPLPTLMHGGPGRAGGGEEMGGLSGLHFFLQKTAIQGSPDVLKAITKIYQQGAEKKFSDKHPFQKYFEEVEVGDSLETAGRTVTDADIVNFSNVSWDHFYAHTDATSLTGTIFDKTVAHGYFILSAAAGLFVSGKKGPVIANYGLEDCSFFKPVYAGDTITVYLTAKEKINRGVKGRNIPSGVVKWLVEVVNQRDEVVCVATILTLVAKQSPFIDLNVKNVQKILSGFTESTPSLWGKMSPQQMIEHLEQAVLVSFGEPEAEKCFTPEEHLEKWQDSLYNHRAMPKEFTAPFLPQDGSLPEQKHKNLEMAKLSFIDNLKKFVIYYKENPQAEHMNYVFGKLNKEMWELMHKKHFTHHFQQFGLI	PGPT0006100_24	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006100-paaZ-K02618	NA	NA
BMS003_03920	828	besA	COG2819	Ferri-bacillibactin esterase BesA	ATGATTAAAAAAATTGCGCTTGCATGCAGCATAATGTTTGCGGTGGGGTGTACATTATCAGCACAGACTGTTGCTACAAAACCGCTTACAATAGGAGAAGTGAGGACGATAAAGTCCAAAACATTAAATGAAGACAGAACGCTGAATATTTATCTTCCACAGGGATATGATAAAACAAAATCATACCCGGTAATCTATTTATTAGATGGAAGTATGAATGAAGATTTTATTCACGTGACGGGATTAGTACAATTCTTTAATCAGATGTATTCAATGCCGGAGACTATTGTAATAGGAGTTGCTAATGTAGACAGAAAAAGAGATTTTACTTTTCATACTGATTTAAAAGACTTGCAGAAAGACTATCCTACAACAGGACATTCTGATAAGTTTATTGAATTCATGGAAAAAGAATTAAAACCTTATGTGGAAAGTCAGTTTAAAATAACAGATAAATACCTTTTCGGTCAGTCTTTGGGAGGACTTTTGGCAACAGAGATTCTATTGAAAAAACCGGAAATGTTCAATAACTATTTTATCATCAGCCCAAGTTTATGGTGGGATGATGAAAGTCTTTTAAAGCAGGCTCCACAACTGCTTTCAAAATCTCCGGATACTAAAAAGTTCGTTTATGTTTCCGTAGGGAAAGGAGAACATCCGGTGATGGTAAAAGACGCAGAAGCTTTCTATGATGTTTTGAAAAAAGCAGGAAAGAAAAACTGGACGTTGGAATATAAAATGATGGAAACAGACAATCATGCAACCATTCTTCACAGAAGTTTATATGAAGGGTTGGTGAAAATGTTTCCCTATCAGGAACCGAAATAA	MIKKIALACSIMFAVGCTLSAQTVATKPLTIGEVRTIKSKTLNEDRTLNIYLPQGYDKTKSYPVIYLLDGSMNEDFIHVTGLVQFFNQMYSMPETIVIGVANVDRKRDFTFHTDLKDLQKDYPTTGHSDKFIEFMEKELKPYVESQFKITDKYLFGQSLGGLLATEILLKKPEMFNNYFIISPSLWWDDESLLKQAPQLLSKSPDTKKFVYVSVGKGEHPVMVKDAEAFYDVLKKAGKKNWTLEYKMMETDNHATILHRSLYEGLVKMFPYQEPK				NA	NA	NA	NA	NA
BMS003_03921	579			hypothetical protein	ATGATTAATACAGAAAATTTTGAATTTGAAGGTATATATCACATTTTCTCTCATGTAAATGGGACTGAAGTTATTTTTCGTGAATCATCAAATTATCAATTTTTTCTGGAAAAGGTAGAAAAATATATTCTCCCGGTCGCTGATATTTATGCTTACTGTCTGTTACCTAATCATTTTCATTTGTTGTTAAGATTTAAGAATTTTGATGATGTGAATAGTGAAAATGAACATCAGTTTTTAATGAAGCATTTTGGTAACTTATTGAATGCTTATGCTAAAGCTTACAACAAAAAATATAATAGAAATGGAGCTCTTTTTCTGAATGCGATAAAACGAAAGAAAATATCTGATGAAAAATATTTATTGAAAGTTTTCCATTACATCCATAATAATCCGATTAATCACAGATTTGTAAATAAGATTGATCAATGGAAGCATTCTTCATATAATTCATATGTAAATCCTGAAAAAGAAAGTAAATTGAATAGAAAGGAAATCATGCAGTATTTTGATTCGGTAGAAATTTTTAGAAAGTATCATCAGTCTACTATTGAATATGATTTTTTAAATTTTGAATAA	MINTENFEFEGIYHIFSHVNGTEVIFRESSNYQFFLEKVEKYILPVADIYAYCLLPNHFHLLLRFKNFDDVNSENEHQFLMKHFGNLLNAYAKAYNKKYNRNGALFLNAIKRKKISDEKYLLKVFHYIHNNPINHRFVNKIDQWKHSSYNSYVNPEKESKLNRKEIMQYFDSVEIFRKYHQSTIEYDFLNFE	PGPT0030655_1515	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS003_03922	594	caiE		Carnitine operon protein CaiE	ATGAACATCTACTCATACCACGGGATTCGTCCCATTATAAAACGAACTGCTTACATTCATCCACAGGCAGTCATTATCGGGAATGTAGAAATAGGTGAAGAAGTCTATATTGGTCCCAATGCAGTAATCCGTGGGGACTGGGGGAAAATTATTATTAAAGATGGGGCTAATGTACAGGAAAACTGTACTTTGCACGTTTTCCCGAATATAGAAACCATATTGGAAGAATCTGCACATATCGGACATGGCGCAATTATCCATTCAGGGCATATCGGAAAAAACTGTCTGATCGGAATGAACTCTGTGGTCATGGACAAAGCCTATATCGGAGACGAAAGTATTGTTGGAGCATTGGCTTTTGTTCCTGCTAATTTCAGATGTGAACCAAGAAAACTGGTGGTAGGAAGCCCTGCAAAAGTGATCCGAGACGTCTCTGACGAAATGATTCACTGGAAAACAGAAGGAACAAAACTATATCAAGAGCTGGCAAGAGAAGGAAAAGAAGCTATACTGCCTTGTGAACCGTTTACAGAATATGTTCAGCAGATTCCAACTAAAATTGTGGATTACAGTATATGGGATGATATAAAATAG	MNIYSYHGIRPIIKRTAYIHPQAVIIGNVEIGEEVYIGPNAVIRGDWGKIIIKDGANVQENCTLHVFPNIETILEESAHIGHGAIIHSGHIGKNCLIGMNSVVMDKAYIGDESIVGALAFVPANFRCEPRKLVVGSPAKVIRDVSDEMIHWKTEGTKLYQELAREGKEAILPCEPFTEYVQQIPTKIVDYSIWDDIK	PGPT0006095_7	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006095-paaY-K02617	NA	NA
BMS003_03923	1206	pcaF		Beta-ketoadipyl-CoA thiolase	ATGAACAACGTATACATCATAGACTATGTCAGAACTCCCATCTCAAAACTGCAGGGAGGATTATCAGAAGTTAGAGCAGATGATCTGGCTGCTATTGTGATCAAAGAAGTGGTTGCAAGAAATCCTGAAGTTCCTGTAGAGGAAATTGAAGATGTTATTTTCGGATGTGCCAATCAGGCAGGAGAAGATAACAGAAACGTTGCAAGAATGGGACTTTTACTGGCAGGGCTTCCTTACAAAATTGGAGGAGAAACAGTCAACAGGCTGTGTGCTTCAGGAATGTCTGCTGTAGCCAATGCATTCCGTTCCATTGCAGCAGGAGAAGGAGAAATTTATATTGCAGGAGGAGTAGAGCATATGACACGTTCTCCCTATGTGATGTCAAAGCCAGGCGCAGCTTTCGGAAGAGACAGCCAGATGTTTGATACTACTTTCGGATGGCGTTTCATCAATCCTAAAATGAAAGAATTATACGGCGTTGACGGAATGGGTGAAACTGCAGAAAACTTAGCAGACATGCACCAGATCAGCAGAGAAGATCAGGATAAATTTGCCCTTTGGTCTCAGCAGAAAGCTACAAAAGCTCAGGAAAGCGGAAGACTGGCAGAAGAAATTGTAAAAGTTGAGATTCCTCAGAGAAAAGGAGAACCAATCGTTTTCGAAAAAGATGAATTCATTAAACCAACTTCTTCAATGGAAGGCCTGGCAAAACTTCGTCCCGCTTTTAGAAAAGAAGGAACAGTAACAGCAGGAAACGCTTCAGGAATGAACGACGGAGCTGCTGCTTTGATTTTAGCAAGTGAAGAAGCCGTTAAAAAATATGGGTTGAAGCCAAAAGCAAAAATTCTGGGATCTTCTGTAGCAGGTGTTGAGCCTAGAATCATGGGAATAGGACCTGTAGAAGCTGCCCAAAAGCTATTGAAAAGATTAAACCTTTCTCTGGAAGATATGGATATCATCGAATTAAACGAAGCATTTGCAGCACAGGCACTGGCAGTAACAAGAAGCTTAGGGTTGAAAGATGATGACTCAAGAATAAACCCGAATGGAGGTGCAATTGCTATTGGTCACCCACTGGGCGTTTCCGGGGCAAGAATAGTAGGTTCTGCAGCAATGGAACTTCAGAAGCAGGATAAAAAGTATGCATTGTGTACCCTTTGTATCGGTGTCGGACAGGGATATGCAATGGTGATCGAACGAGTTTAA	MNNVYIIDYVRTPISKLQGGLSEVRADDLAAIVIKEVVARNPEVPVEEIEDVIFGCANQAGEDNRNVARMGLLLAGLPYKIGGETVNRLCASGMSAVANAFRSIAAGEGEIYIAGGVEHMTRSPYVMSKPGAAFGRDSQMFDTTFGWRFINPKMKELYGVDGMGETAENLADMHQISREDQDKFALWSQQKATKAQESGRLAEEIVKVEIPQRKGEPIVFEKDEFIKPTSSMEGLAKLRPAFRKEGTVTAGNASGMNDGAAALILASEEAVKKYGLKPKAKILGSSVAGVEPRIMGIGPVEAAQKLLKRLNLSLEDMDIIELNEAFAAQALAVTRSLGLKDDDSRINPNGGAIAIGHPLGVSGARIVGSAAMELQKQDKKYALCTLCIGVGQGYAMVIERV	PGPT0001565_1484	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
BMS003_03924	414	paaI	COG2050	Acyl-coenzyme A thioesterase PaaI	ATGAATCCAAGACAAGTAGCAGATTATATGTTCAATCAGGATGAGTTTTCCCAATGGATGAATATCAAAATGATTGAAGTAAAAGAAAATTACTGTTTAATAGAAATGCCGGTCAAGAAGGAAATGCTGAATGGGCTTAAAACAGTTCATGGCGGAGTTACCTTTGCATTTGCAGACTCTGCGCTGGCATTTTCTTCCAACAATACCGGTGATGCCGCTGTAGCATTGAATTGTGTCATCAATTTTACTAAAGCAGGAAAAGAAGGTGATGTTTTCAGAGCAGAAAGTATTTTGGTGAATGATACGAGGAAGACAGCCGTTTATGATGTTCAGATTACCAATCAAAATCAGGAACTGATTGCAAAATTTGTAGGAACAGTGTACAAAATCGGAAAAAAAGTAACAGAATTATAA	MNPRQVADYMFNQDEFSQWMNIKMIEVKENYCLIEMPVKKEMLNGLKTVHGGVTFAFADSALAFSSNNTGDAAVALNCVINFTKAGKEGDVFRAESILVNDTRKTAVYDVQITNQNQELIAKFVGTVYKIGKKVTEL	PGPT0006080_942	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
BMS003_03925	309			hypothetical protein	ATGAATATAGATGAATTCAGGGCTGAGCTGGAGACCAGACTTTTAATTGAGAAACAGTATTTAACTCAGGAAGCCTCCTCTGTTGATGAACAGGAAAGACTTGAGCTATTAGGAAAGTTTAATGAAAAATATAAAGAGCTGATCAAAAGATTGGCCAATGAAAACGGAATTGATTTGAACGAATCCTATCCTTCTGAAAATTCATCAGATTTAGAAAACCTTTCATATGGGCAGATCATTCTGGGGAAAACAATGAGTGTTTACGACAGATTATCAGATGAGCTGTATGAAGAAATAACAAACATATAA	MNIDEFRAELETRLLIEKQYLTQEASSVDEQERLELLGKFNEKYKELIKRLANENGIDLNESYPSENSSDLENLSYGQIILGKTMSVYDRLSDELYEEITNI				NA	NA	NA	NA	NA
BMS003_03926	1134	fadB		Fatty acid oxidation complex subunit alpha	ATGAATGTAGGAATTATCGGTGCCGGAACCATGGGAATCGGCATTGCACAAGTAGCCGCAACGAACGGATGCAAAGTATGGGTTTATGACGCCAACGCAAAACAAGTAGAAACGGCAACAGTAGGCTTGGAAAAAACCTTGACCAAATTGGTTGATAAACAAAAAATTTCGGCAGAGAAAATGGCTGAAATTTTAGCTAATATTTCCATTGCTACAGAATTGAAAGATTTCAAAGATTGTGAGCTGATTATAGAAGCCATTATCGAAAACAAAGAGATCAAAACCAAAGTGTTTACAGAGCTTGAAAACTATGTTTCAGAAAGTTGTGTTCTTAGTTCCAATACCTCATCTATTTCTATCACCTCTCTGGGTGCAGAACTCAAGAAACCGGAGCGCTTCATCGGGATTCACTTTTTCAATCCGGCTCCATTGATGCCTTTAGTGGAAGTCATTCCATCCTTATTAACAGAAAAAACATTAGCAGAAAAAATCTATAACCTCATGAAAGAATGGGGAAAGACTCCTGTTATTGCTAAAGATATTCCAGGATTTATTGTCAACAGAATTGCCAGACCTTACTATGGAGAAGGCTTAAGAATTGTTGAAGAAAACATTGCAACACCTGAACAGGTGGATGATGCTATGAAAACATTGGGGAACTTCAAAATGGGACCTTTCGAATTGATGGATCTTATTGGAGTTGATGTCAACTTTGCTGTGACAACTACCGTTTACAAAGATTATTTCTACGATCCGAAATACAAACCGTCTTTATTACAGCAAAGAATGTCTGAAGCCAAACTTCACGGCAGAAAAACAGGAAAAGGTTTCTACGATTACAGTGAGGGAGCAGAAAAGCTTGTTGCTCAGAAAGACGATGCCTTATACCAGCAGATCTTTTTAAGAATCATTTCCATGCTGATTAACGAAGCTGTTGAAGCCAAAAGATTAGGTGTTGCCAATGATGAAGATATCGAACTGGCAATGCAGAAAGGCGTCAACTATCCAAAAGGATTATTAAGCTGGGGGAAAGAAATCGGGTATGCAAAAATCTCCGAAACCCTTCAGAACCTTTACGAAGAATATCAGGAAGAAAGATACAGACAAAGTCCCTTACTTCGTAAAATGAATTAG	MNVGIIGAGTMGIGIAQVAATNGCKVWVYDANAKQVETATVGLEKTLTKLVDKQKISAEKMAEILANISIATELKDFKDCELIIEAIIENKEIKTKVFTELENYVSESCVLSSNTSSISITSLGAELKKPERFIGIHFFNPAPLMPLVEVIPSLLTEKTLAEKIYNLMKEWGKTPVIAKDIPGFIVNRIARPYYGEGLRIVEENIATPEQVDDAMKTLGNFKMGPFELMDLIGVDVNFAVTTTVYKDYFYDPKYKPSLLQQRMSEAKLHGRKTGKGFYDYSEGAEKLVAQKDDALYQQIFLRIISMLINEAVEAKRLGVANDEDIELAMQKGVNYPKGLLSWGKEIGYAKISETLQNLYEEYQEERYRQSPLLRKMN	PGPT0006075_1123	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
BMS003_03927	237			hypothetical protein	ATGAGAGATGACAAAGAAAATATTATTGTAAATAAGACTTTTGATTTTGCACTCAATATTATTGAATTTTCAGAAGATTTATATGAGGATAAAAAATTTCCTTTGGCAAATCAAATTTTTAAATCAGGAACTTCGATTGGAGCTAATGTTAGAGAGACTCAAAATGCAGAAAGTAAGGCAGATTTTATTCATAAATTAAAAATTGCCGCTAAAGAAGCTGATGAAGTAGAATATTGA	MRDDKENIIVNKTFDFALNIIEFSEDLYEDKKFPLANQIFKSGTSIGANVRETQNAESKADFIHKLKIAAKEADEVEY				NA	NA	NA	NA	NA
BMS003_03928	801	paaG	COG1024	1,2-epoxyphenylacetyl-CoA isomerase	ATGTATACACAACTTGATATTGAAACGCATTTTGACGGGAAGCTTAAAATCGCCTATCTTAATCAACCGGAAACGATGAACGCCCTTACTAAGCCGGCCTTATCAGATCTTAGAGACTTTGTTAAAGAGTGCAGCGAAGACGAAACGGTAAGATGTGTTGCCATTTCCGGAAGAGGAAGAGCATTCTGCTCGGGCCAGAATCTGGATGAAGCCTTTGTGGTAGGCAAAGAGCACCATGATCATGACATCATCAGAAAAATTGTGGTAGACTATTACAATCCATTAGTAATGGAAGTTACCCGTTGCAAAAAACCGGTTATTGCATTAGTAAACGGTCCTGCAGTAGGAGCTGGAGCGATGTTGGCTTTAATCTCTGACTTCGTTCTAGCGAATGAGAAAGCATATTTTGCTCAGGCATTTTCCAATATCGGTTTGATTCCTGATACAGGAGGAACTTACTTCTTACCGAAACTTTTAGGCAGACAATTGGCTAATTATTTAGCATTTACAGGTAAAAAATTATCTGCAGAAGAATCTAAAACTCATGGTCTTGTAGCTGAAGTTTTCACAGAAGAAGAATTTGTTCCAAAATCTATGGAAATTCTTGAAAGAATGGCAAATATGCCAACAGCAGCCCTTAAGCTTACGAAAAAAGCATTTGCCAGTTCTTATACCAACACACTGAAAGAACAGCTGGAGCTGGAAGGTGATCTTCAGCAGGAAGCAGCAGGCACAGAAGACTTCATTGAAGGAGTAAATGCCTTTTTACAGAAAAGAAAACCTAATTATAAAGGAAGATAA	MYTQLDIETHFDGKLKIAYLNQPETMNALTKPALSDLRDFVKECSEDETVRCVAISGRGRAFCSGQNLDEAFVVGKEHHDHDIIRKIVVDYYNPLVMEVTRCKKPVIALVNGPAVGAGAMLALISDFVLANEKAYFAQAFSNIGLIPDTGGTYFLPKLLGRQLANYLAFTGKKLSAEESKTHGLVAEVFTEEEFVPKSMEILERMANMPTAALKLTKKAFASSYTNTLKEQLELEGDLQQEAAGTEDFIEGVNAFLQKRKPNYKGR	PGPT0006070_864	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
BMS003_03929	465	paaD	COG2151	Putative 1,2-phenylacetyl-CoA epoxidase, subunit D	ATGAATCAGCTTTTAGATTTATTAAAAACAATTCCCGATCCGGAAATTCCGGTTATTGATATTGTGGAATTAGGAATTGTAAGAGATGCACAGGTCACAGGAGAAAATACCTGCGAAGTCGTCATTACACCTACTTATTCTGCCTGTCCCGCTATGTTTACCATTGAAGAGGACATCATCAAGATGATGAAAGAAAACGGATGGGATGCGAAAGTAGTGACGAAGATGTTTCCGATCTGGACAACAGACTGGATTACTGATGAAGCGAGGGAAAAACTCCGTGTGTACGGAATCACACCTCCGGAAAAAGGTGCAGACGAACATCACATCGGGAAACCGAAAAAATGTCCGCGTTGCGGTTCTGAACATACCAAGCAGATCAGCAGATTTGGATCTACCTTGTGTAAGGCATCTTATCAGTGTTTAGACTGCCTGGAGCCATTTGATTATTTTAAATGTCATTGA	MNQLLDLLKTIPDPEIPVIDIVELGIVRDAQVTGENTCEVVITPTYSACPAMFTIEEDIIKMMKENGWDAKVVTKMFPIWTTDWITDEAREKLRVYGITPPEKGADEHHIGKPKKCPRCGSEHTKQISRFGSTLCKASYQCLDCLEPFDYFKCH	PGPT0006060_1061	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006060-paaD-K02612	NA	NA
BMS003_03930	810		COG1073	putative protein	ATGAAGAAGTTGCTTCTTGGGATATTGGCTTTTTTTCTTGCAGCATATGTGATACTGTGTATTGGGATCTATTTCTATCAGGAGAAAATTATTTTTTATCCTGAAAAGTTACCGGAAAATTACAAGTTTACATTTAAAGGTAATTTTGAAGAAGTACCCATCAAAACGCAGGATGGTAAACATTTAAACTCTGTTTTATTCAAAGCTCAAAACCCCAAAGGAGCTATTTTTTACCTTCACGGAAACGGAGGATCTATAAAAGGCTGGGGAGAAGTAGCTAAGCTCTATCAAAGTATGAGTTATGATACAATGATACTTGATTATAGAGGTTACGGGAAAAGTGAAGACAAAATTAATAATAAAGAGCAGCTTTTTTCGGATGTTGAAAGTGCTTATAAAGAACTTTTAGAAAGATATCCGGAAAACAAAATTATTATTTTAGGATATTCTGTAGGAACAGGATTAGCCGCAAAATTAGCATCCATGCATCACGCAAGATTATTGATTCTACAGGCACCTTATTACAGTATAGAAGATGAAATGAGCCAGAAATTCTCATTTCTTCCCAAGTTTTTACTGAAATATAATTTTGAGACTGGTGAATATTTAAAAACCGTTAAGTCACCAGTCGTTATTTTTCACGGTGATAAAGATGAGGTTATTAACTATAAAGCCTCTTTAAAACTTAAAAATAACTTTAGAAAAGAGGATAGCCTGATTGTATTAAAAGATCAGTATCATAACGGAATAACAGATAATTTGGATTATCAGAATGCAATGAAAGCCATTCTTGATTCTGATAAAAAATAA	MKKLLLGILAFFLAAYVILCIGIYFYQEKIIFYPEKLPENYKFTFKGNFEEVPIKTQDGKHLNSVLFKAQNPKGAIFYLHGNGGSIKGWGEVAKLYQSMSYDTMILDYRGYGKSEDKINNKEQLFSDVESAYKELLERYPENKIIILGYSVGTGLAAKLASMHHARLLILQAPYYSIEDEMSQKFSFLPKFLLKYNFETGEYLKTVKSPVVIFHGDKDEVINYKASLKLKNNFRKEDSLIVLKDQYHNGITDNLDYQNAMKAILDSDKK				NA	NA	NA	NA	NA
BMS003_03931	750	paaC	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit C	ATGAACCCATTATATAATTATTTATTAAAACTAGCAGACGACAGTTTCATTATGGGACAGCGTTTGTCTGCATGGTGCGGTGAAGGTCCTTACTTAGAGGAGGATATTGCATTGACGAATATTGCGTTGGATGAACTAGGTCTGGCGAATAACTTTTACGTGTACGCTTCAAGAGTGATCGACAACGGAAAAAATGAAGATGATATCGCATTTTTAAGATACGAGCATGAATATGTCAACGCCCACTGGGTAGAACTTCCTAATGAAGATTATGCACAGACTATTCTGAAAGTATATGTATTGTCTGTCTATCAGAAACTGATGTATGAGGCATTATCAAACTCTGCTAATGAAGAATTGGCTGCCATTGCTCAAAAATCATTGAAAGAAGTAAGGTATCATTATACTCACGCTGCATCATGGATGAAAATCTTTGCTCAGGGAACAGAAGAAAGCCGTGGACGTTTGGTAAAAGCTATTGCAAATATCTGGGAATATACGAAAGGCCTTTTTGCCAAAACGGAAGGTGAAGAGGATCTTGTTGCTTTGAATATTGCACCCAATGCAGACGCTCTTTACGAAGAATTCCTTGCAATTACCAGGAAAGATTTTGCAGATTTTGGGTTAGAATATCCGGAAAATGCTTTCATGCAGCCAAAATCAAGAACAGGATACCATACTGAGTATTTCGGATTTATTCTTTGTGAGCTTCAGTATATGCAGAGAGCATATCCTGGCTGTACCTGGTAA	MNPLYNYLLKLADDSFIMGQRLSAWCGEGPYLEEDIALTNIALDELGLANNFYVYASRVIDNGKNEDDIAFLRYEHEYVNAHWVELPNEDYAQTILKVYVLSVYQKLMYEALSNSANEELAAIAQKSLKEVRYHYTHAASWMKIFAQGTEESRGRLVKAIANIWEYTKGLFAKTEGEEDLVALNIAPNADALYEEFLAITRKDFADFGLEYPENAFMQPKSRTGYHTEYFGFILCELQYMQRAYPGCTW	PGPT0006055_1038	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006055-paaC-K02611	NA	NA
BMS003_03932	282	paaB	COG3460	1,2-phenylacetyl-CoA epoxidase, subunit B	ATGGCAAATTTAGATATGTGGGAAGTGTTTATTCAGACTAAACCGGGATTATCTCACAAACACGTTGGAGTTGTACAGGCACCAACAGCAGAAATGGCTTTGCAGAACGCAAGAGACGTTTATACAAGAAGAAAAGAAGGAACTTCTGTTTGGGTTGTTCCAAGCAAATACATTGTGACTTCAGAAGGAGTGGATAAAGAAGCGTTCTTCGATCCGGCTGATGATAAACTATACCGTCACCCAACTTTCTATGAGATTCCAAACGACGTAAAGAATATGTAG	MANLDMWEVFIQTKPGLSHKHVGVVQAPTAEMALQNARDVYTRRKEGTSVWVVPSKYIVTSEGVDKEAFFDPADDKLYRHPTFYEIPNDVKNM	PGPT0006050_888	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006050-paaB-K02610	NA	NA
BMS003_03933	939	paaA	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit A	ATGGACTTAGAAAAATTTGTTCAATACGTTCACGAAGAAAATAAAGTAGAACCAAAAGATGTAATGCCAGATGATTACAGAAAGTTATTGGTTCGTCAGATTTCACAGCACGCGCATTCTGAAATTGTAGGAATGCTGCCGGAAGCCAACTGGATTTCCAGAGCGCCTTCATTGAGAAGAAAAATGGCTCTTTTAGCTAAAGTTCAGGATGAGGCAGGTCACGGCCTATATCTTTATTCTGCTACTGAAACTCTAGGTGACGGAAGCATCAGAGCAGACAGAGATGCTACTTATGATGATATGCTGGAAGGAAAAGCAAAGTACTCAAGTATTTTCAACTATCCTACCTTAAGCTGGGCAGATATTGGTGCAATTGGTTGGTTGGTTGATGGTGCTGCCATTATGAATCAGGTAATGCTGATGGGGAACTCTTACGGTCCTTATTCAAGAGCGATGGTGAAGATCTGTAAAGAAGAGTCTTTCCACCAAAGACAAGGATATGAGATCCTGATGGCATTGTGCCGTGGTACAAAACAACAGAAAGAAATGGCTCAGGCTTCGTTAAACCGTTTCTGGTGGCCGGCTCTGATGATGTTCGGACCTAATGATGACAGTTCACCCAACTCTAAAATCTCTATGAACTACAGAGTAAAAAGAGAAAGTAACGACAGTCTTCGTCAGAGGTTTATCGATGTTACTGTCTCTCAGGCTGAATTCCTGGGGTTAACCATTCCGGATAAAGATCTGAAATGGAATGAGGAAAGACAGCATTACGATTTCGGAGAACTTCCGTGGGATGAATTCATGGAAATCTTAAAAGGAAACGGACCTTGCAACAAAAAGCGTATCGAAACGAAGAGAAAAGCGCAAAGAGAGAACTCTTGGGTAAAAGAAGCTGCGGTAGCTTTTGCGGAGAAACAACAAAAAGAAGTAATATAA	MDLEKFVQYVHEENKVEPKDVMPDDYRKLLVRQISQHAHSEIVGMLPEANWISRAPSLRRKMALLAKVQDEAGHGLYLYSATETLGDGSIRADRDATYDDMLEGKAKYSSIFNYPTLSWADIGAIGWLVDGAAIMNQVMLMGNSYGPYSRAMVKICKEESFHQRQGYEILMALCRGTKQQKEMAQASLNRFWWPALMMFGPNDDSSPNSKISMNYRVKRESNDSLRQRFIDVTVSQAEFLGLTIPDKDLKWNEERQHYDFGELPWDEFMEILKGNGPCNKKRIETKRKAQRENSWVKEAAVAFAEKQQKEVI	PGPT0006045_1004	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006045-paaA-K02609	NA	NA
BMS003_03934	1086	paaE_2	COG1018	1,2-phenylacetyl-CoA epoxidase, subunit E	ATGAATTCATTTTATAAACTTAAAACAGTTAAAGTTCAGAAAGATACTTCCGAAGCAGTAAATGTAGCGGTAGAAATCCCTGAAGAACTGAAAGATAAGTTCAGATTCAAACAAGGGCAGTATCTGAATTTCCGAATGATGATCAACGGAAATGAAGAAAGACGTTCTTATTCTATCTGCAACGCCCCAAGTGAAAAAGGCAATACACTGGAAGTATTGGTGAAATTGCTTGAAGGCGGAAAAGTATCAGGCTATTTCAATGAACATCTTCACATGGATGAAGTGCTGGAAGTAATGCCGCCAATGGGTGGTTTCAACACTTCTTATCACCCTACCAACGTGAAAACTTACGTAGGTCTGGCTGCAGGAAGCGGAATTTCCCCTGTTTTATCCAATATTAAAGAAAGCCTTTATCAGGAACCGAATTCAAACGCTTATCTGTTCTACAGCAACAGAAGCATGAATCATGTGATGAAGAAAGCTGAAATAGATAAGCTGGTGGAGTCTTTTAACGGCAGATTGAAAGTTGTTTATTTAGTAAGCCGTGAGAAACACGAAGACCCTATTTTTGAAGGAAGAATTTCATCAGAAAAATTAGAGCAGCTGTTTGAAAGATATACAGATATTGATGTAAAAGAAGCTACTTATTTCATTTGTGGACCTTCAGAAATGATTAAGGGGATTGCTGACTATCTGAAGAAAGATAAAAAAGTACCTGCTATACAGGTTTTATTTGAATATTTCACTGCTCCGGATGAAGAAAATACGGAGGAAATGAGTGATGAATTCAAGGCCATTGCCAATATTGAAAGTATGGTAACGGTAATCATTGATGATGATGAATATTCGTTCCACCTTAATTCTAAAAAAGAGAGTATCTTAGATAAAGCATTGAAAGATCAGCTTCCGGTTCCTTTCGCATGTAAAGGAGGCGTTTGCTGTACGTGTAAAGCGCAGGTTCTGGAAGGAGAAGTTTTCATGGAGAAAAACTATGCGCTTACCGAAGAAGAAGTAGCCAGAGGCTTCGTTCTTACCTGCCAATGTCACCCTACAACCAATGTGGTGATGCTTAATTATGATGTTTAA	MNSFYKLKTVKVQKDTSEAVNVAVEIPEELKDKFRFKQGQYLNFRMMINGNEERRSYSICNAPSEKGNTLEVLVKLLEGGKVSGYFNEHLHMDEVLEVMPPMGGFNTSYHPTNVKTYVGLAAGSGISPVLSNIKESLYQEPNSNAYLFYSNRSMNHVMKKAEIDKLVESFNGRLKVVYLVSREKHEDPIFEGRISSEKLEQLFERYTDIDVKEATYFICGPSEMIKGIADYLKKDKKVPAIQVLFEYFTAPDEENTEEMSDEFKAIANIESMVTVIIDDDEYSFHLNSKKESILDKALKDQLPVPFACKGGVCCTCKAQVLEGEVFMEKNYALTEEEVARGFVLTCQCHPTTNVVMLNYDV	PGPT0006065_509	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006065-paaE-K02613	NA	NA
BMS003_03935	1317		COG1541	Phenylacetate-coenzyme A ligase	ATGGATTTTTCAGTTGAATATCTGGAGCTGGGTCAGTTGAGACAGCTTCAATCCGACCGGTTGATCAGCCTGATCAGCTATTTGGAAGAGAAGTCGGAATTTTATAAAAAGAAATTTGATGAATTACAAATATCTCCACAGGATATAAGGTCGATTGAAGATATCGCTAGACTTCCTATTACTTACAAACAGGATTTAAGGGACAACTATCCGTTCGGGTTATTTACCGTTCCTAAAAACGAGCTTCAACGTATTCACTGCTCAAGCGGAACCACGGGAAAACCTACTGTGGTAGGATATACAAAAGAAGATGTAGATCTTTTCAGCGAGGTGGTAGCAAGATCTTTACATGCCGCAGGCGCAAAACCTGGAATGCAGTTGCACAATGCATATGGGTACGGAATTTTCACAGGAGGTTTAGGACTTCATTACGGAGCTGAAATGTTAGGCATGAGTGTTCTTCCTATTTCCGGAGGAATGACGGCAAGACAGGTAGACCTGATTGTAGATTTTAAACCCGAAGTGATTTGCTGCTCACCTTCATACGCTTTAACGATTGCGGATGAGTTTGCAAAGAGAGGAATTTCTGCGGACGAGATCAGTCTTAAGTATGCAGTATTGGGCTCAGAACCATGGACAGAGATTATCAGAGGTCACATTGAAGAAAGATTAGGGGTTCATGCAACCAATATTTATGGATTAAGTGAAATTATTGGCCCTGGAGTTTCCATGGAAGATTTTGAAGAAAAAGGAGGAGCTTATATCTGGGAAGATCATTTTTATCCGGAGATTTTAGATCCGGTGACCAAGCAGCCGGTTCCTTTCGGGGAAGAAGGCGTATTGGTGATTACCACGTTAACCAAAAAAGCAATGCCGCTTTTACGTTACTGGACGAATGATATTACAAGTCTTTACTACGATGAAAATGCCAAAAGAACCATGGTGAAAATGAAACCTATCGTAGGAAGAGCAGATGATATGCTCATTGTAAGAGGAGTAAACGTATATCCAAGCCAGATTGAAGATGCTTTTTCTTATGTAAAAGGAGTGGTTCCGAACTATTATCTTACGCCAGTAGAAAAAGAACACATGTGTATCGCTTTGGATATTGATGTTGAAATAGACGATGAATTGGTAAAAACTCAGAAAATAGAAGCCAATACCGATGATTATTTTAATTTTGTCGGGAACTTTGGAAAAAATATAGAAAACGAAATAAAAAAGAGAGTAGGGATTACTACGAAAGTAAAAGTTCATGCTCAGGACAGCCTGCCAAAGTGCGAAGGTGGAAAAATTAATAGAATACTAAAAAAATAA	MDFSVEYLELGQLRQLQSDRLISLISYLEEKSEFYKKKFDELQISPQDIRSIEDIARLPITYKQDLRDNYPFGLFTVPKNELQRIHCSSGTTGKPTVVGYTKEDVDLFSEVVARSLHAAGAKPGMQLHNAYGYGIFTGGLGLHYGAEMLGMSVLPISGGMTARQVDLIVDFKPEVICCSPSYALTIADEFAKRGISADEISLKYAVLGSEPWTEIIRGHIEERLGVHATNIYGLSEIIGPGVSMEDFEEKGGAYIWEDHFYPEILDPVTKQPVPFGEEGVLVITTLTKKAMPLLRYWTNDITSLYYDENAKRTMVKMKPIVGRADDMLIVRGVNVYPSQIEDAFSYVKGVVPNYYLTPVEKEHMCIALDIDVEIDDELVKTQKIEANTDDYFNFVGNFGKNIENEIKKRVGITTKVKVHAQDSLPKCEGGKINRILKK	PGPT0026240_1199	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
BMS003_03936	576	kstR2		HTH-type transcriptional repressor KstR2	ATGGAACTAAAAGAAAAACAGAGAAAAATATTAAACGTAGCAGTAGAACTTTTTAAAGAGAAGGGCTATATGGGAAGTTCCGTAAGGGATCTCGCTACGAAACTCAATATCAAGGCAGCATCATTATATGCACATATCCGTTCAAAAGAAGAAATTCTGGAATGGATTTGTTTTGGCATTGCTCAGGAGTTTTTCGATGAGCTTCAGAAAGTAAAAAATACAGATATTGCTCCAAGAGAAAAACTGAATCTCTTATTAGATAAGCACTTGTCTGTTGTTCTTAAAAACCGTGATGTTACCCATATTTATTCCAATGAATGGAAGCATCTTGAAGAAAGGCTCCCGGAATTTGTAGAATTAAGAAAAAATTACCAGCAGGAAGTTGAAGAACTGATTTCCGGGATTTACAAAGCAGAAAACTGGGAGTTGAAATCACCTTCATTCACTACAAGATTTATTCTTCATACTTTAAATAACTCTTATTTCTGGTTTAAAAGAAGCAGTGATTCTACCGATGAAATTACCGATGAAATAAGGGATAAAATTCTTTTCGGTCTGCTTGGAAACCAACATTGA	MELKEKQRKILNVAVELFKEKGYMGSSVRDLATKLNIKAASLYAHIRSKEEILEWICFGIAQEFFDELQKVKNTDIAPREKLNLLLDKHLSVVLKNRDVTHIYSNEWKHLEERLPEFVELRKNYQQEVEELISGIYKAENWELKSPSFTTRFILHTLNNSYFWFKRSSDSTDEITDEIRDKILFGLLGNQH				NA	NA	NA	NA	NA
BMS003_03937	2595	clpB		Chaperone protein ClpB	ATGAACTTAAACCAATATACTGTAAAATCACAGGAAGCCATTCAGGCAGCACAACAGGTTGCTATGGAACTGGGCAATCAAAGTATCGAACCTCAACATCTCCTTGAAGGTATCTTCCAGGTGGATGAAAATATATCGCCTTTCCTACTGAAGAAATCTGAAGCAGATGCTAATTTAGTAAGAGAGCGCAACCGTGAAAATTTAGAGAAACTTTCCAAAGTACAGGGAGGAAACATTTACCTTTCACAATCTGCCAATAAAGTATTGCTGGATGCGCCCAATATCGCTAAGAAAATGGGTGATGAATATGTAACGATTGAACATTTATGGCTATCTCTTTTGGAAACCAGTTCTGAAGTTTCCAAAATGCTGAAAGATATGGGTGTAACCAAAAATCTGCTTGAAGGTGCAATTAAAGAATTAAGAAAAGGAAGTAAAGCTACTTCTGCAAGCTCAGAGGAAACGTATCAGTCTTTAAATAAATATGCTAAAAATTTCAACGAGTTAGCAGCAGAAGGAAAACTGGATCCGGTAATCGGGCGTGATGAAGAGATCAGAAGGGTTTTACAGATCCTTTCCAGAAGAACCAAAAACAACCCTATCCTTATCGGAGAACCGGGTGTAGGTAAAACAGCCATTGCCGAAGGAATTGCCCATAGAATCATCAGTGGTGACGTTCCTGAAAACCTTATGGATAAAACTTTATACTCATTGGATATGGGAGCGCTGATCGCCGGAGCCAAATACAAAGGTGAATTTGAAGAACGTCTGAAATCTGTTGTGAATGAAGTGATAAAGTCAGACGGACAGATTATTCTTTTCATTGACGAGATCCACACATTAGTAGGAGCCGGAGGTGGCGAAGGAGCTATGGATGCGGCCAACATCTTAAAACCTGCCTTAGCAAGAGGAGAATTAAGAGCGATTGGTGCCACTACGCTGAACGAGTATCAAAAATATTTCGAAAAAGACAAAGCGTTGGAAAGACGTTTCCAGAAAGTAATGGTAGAAGAACCGGATACTGAATCTGCCATTTCTATCCTTCGTGGAATTAAAGATAAATATGAGGCTCACCACAAGGTAAGAATCAAAGATGAGGCAATTATTGCTGCGGTGGAAATGTCTCAAAGATATATTTCAGACCGTTTTTTACCGGACAAAGCCATTGACCTTATTGATGAAGCTTCTGCAAAACTGAGAATGGAAATCAATTCCAAACCGGAAGAGCTGGACGTTCTGGACAGAAGGCTTATGCAGCTGGAAATTGAACTGGCAGCCATCTCAAGAGAGGGCAATCAGACTAAAATTGATCATCTGAAGGAAGATATTGCTAAAATTTCCGAACAGAGAAATGAGATCAATGCCAAATGGCTGAAAGAAAAACAGAAAAGTGAAGATCTTACCCAGATCAAAAAAGATATTGAATCTCTGAAACACGAAGCCGAAAGAGCTTCCAGAGCCGGAGATTATGCTAAAGTAGCGGAGATCCAATACGGAAAACTACGTGAAAAAGAAGAAGAACTAGCCAAAGTAGAGCTGGAAATGCAGAATCATCAGAATGAACTGATCAAAGAAGAGGTTACCGCAGAAAATATTTCTGAAGTAATTGGTAAATGGACAGGTATTCCTGTAACCAAATTATTACAGTCTGAAAGAGATAAGCTATTGAATCTTGAGTCTGAGCTCCATCACAGAGTGGTTGGACAGGATGAAGCAATCCAGGCAGTTGCGGATGCGATCAGAAGAAACAGAGCGGGATTGAGTGATGATAAAAAACCTATCGGATCTTTCTTATTCCTTGGAACAACCGGAGTTGGTAAAACTGAGCTGGCAAAAGCACTGGCAGAATTCTTATTTGATGATGAAAACAATATGACCAGAATTGATATGAGTGAATATCAGGAACGTCACAGTGTTTCAAGATTGGTAGGAGCGCCTCCGGGATATGTGGGATATGATGAAGGCGGACAACTGACTGAGGCTGTAAGAAGAAGACCTTATTCCGTAGTGCTTTTAGACGAAATTGAAAAAGCTCATCCGGATGTTTTCAATACATTACTTCAGGTTCTGGATGACGGACGTCTGACGGATAATAAGGGACGAGTGGTGAATTTCAAGAATTCAATCATCATCATGACTTCGAATTTAGGTTCGCATCTGATTCAGGAGAATTTTGAAAACCTTACAGAGGAAAACCAGGATGAAATTGTGGATAAAACAAAAGATGAAGTTTTCGATCTTTTAAAACAAACGCTGCGTCCGGAATTCCTGAACAGAATTGATGAAGTTGTACTGTTCCAGCCTTTAAGAAAAAAAGAAATCGGAAAAATCGTACAGTATCAGTTGAGAGGATTCAATGAAATGTTATCTAAACGAAACATTATTATGACTTTCACTCAGGATGCGGTAGATTATCTGATGAATAAAGGATATGATCCGGCCTTCGGTGCACGACCATTGAAAAGAGTGATCCAACAGGAAGTATTAAACAAACTGTCCAAAGAGATTCTTGCAGGAAATGTAAATGATGGTGACAGAATTACGCTGGACTACTTTGTAGAAACAGGGTTGGTTTTCCGACCTACTGAACAATAA	MNLNQYTVKSQEAIQAAQQVAMELGNQSIEPQHLLEGIFQVDENISPFLLKKSEADANLVRERNRENLEKLSKVQGGNIYLSQSANKVLLDAPNIAKKMGDEYVTIEHLWLSLLETSSEVSKMLKDMGVTKNLLEGAIKELRKGSKATSASSEETYQSLNKYAKNFNELAAEGKLDPVIGRDEEIRRVLQILSRRTKNNPILIGEPGVGKTAIAEGIAHRIISGDVPENLMDKTLYSLDMGALIAGAKYKGEFEERLKSVVNEVIKSDGQIILFIDEIHTLVGAGGGEGAMDAANILKPALARGELRAIGATTLNEYQKYFEKDKALERRFQKVMVEEPDTESAISILRGIKDKYEAHHKVRIKDEAIIAAVEMSQRYISDRFLPDKAIDLIDEASAKLRMEINSKPEELDVLDRRLMQLEIELAAISREGNQTKIDHLKEDIAKISEQRNEINAKWLKEKQKSEDLTQIKKDIESLKHEAERASRAGDYAKVAEIQYGKLREKEEELAKVELEMQNHQNELIKEEVTAENISEVIGKWTGIPVTKLLQSERDKLLNLESELHHRVVGQDEAIQAVADAIRRNRAGLSDDKKPIGSFLFLGTTGVGKTELAKALAEFLFDDENNMTRIDMSEYQERHSVSRLVGAPPGYVGYDEGGQLTEAVRRRPYSVVLLDEIEKAHPDVFNTLLQVLDDGRLTDNKGRVVNFKNSIIIMTSNLGSHLIQENFENLTEENQDEIVDKTKDEVFDLLKQTLRPEFLNRIDEVVLFQPLRKKEIGKIVQYQLRGFNEMLSKRNIIMTFTQDAVDYLMNKGYDPAFGARPLKRVIQQEVLNKLSKEILAGNVNDGDRITLDYFVETGLVFRPTEQ	PGPT0014580_2839	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS003_03938	537			hypothetical protein	ATGAATACAGAATCAAACAACCCAGTAGAACCTGGAATGATGTCAAACAGTCTTATACAAACTCTGATCGACAACTATCGTCAAAACCACTTAACGGCCATCAATACTACTTTAGGGATAGAGGATGCCCATTCTATTTGGTTTGATCTTCCTAAATTGAAAAATTTTATTGCGAAAATAGAAGAAGAAGCAGCAAAAGTGAATCCTGATACTTCTGAACAAGATCTGGGAATCAGATTTTATTATGCTTCTTATCCTACAACTGAAAACTGGGACATCATGACATCTCATCCCGTACCTCAGGAGTATGCTGAAAAACATACGTTGGTTTTAATCCCGACTATGAAAAAAACAGATGAAAGTGGAGAGACTTATGATTCTGATTTTAATACTCTTCAAACAGATGAAGACAATAAAGTTTTGGGATTAAGCACAGCAAGAAGTTCTGCTAAAAAACGCTCAGAAGACGATGTATCTGTAGGGGAAAACAGTGGAACACTTATTCCACCATCACCTCCAATGGGTTCCACTTATTAA	MNTESNNPVEPGMMSNSLIQTLIDNYRQNHLTAINTTLGIEDAHSIWFDLPKLKNFIAKIEEEAAKVNPDTSEQDLGIRFYYASYPTTENWDIMTSHPVPQEYAEKHTLVLIPTMKKTDESGETYDSDFNTLQTDEDNKVLGLSTARSSAKKRSEDDVSVGENSGTLIPPSPPMGSTY				NA	NA	NA	NA	NA
BMS003_03939	648			hypothetical protein	ATGACTGAGATTCAAAAAATTTTTTCGTCATTTATGTATTGGGGAGAAGCCTTTGCTGCTATAATCTCCCTGATTTATTATAATCGTGTAAAAAAACAACCCTGGAAATATCTGGCCATTTACCTCATTCTTATTTTCCTGTGTGAATCAGCTGTAAAATGGGGAGAAAAGCCGCTTAAAATAGACAGAATACTATTCCACAACTACTTTGTAATTCCATTGCAGTTTATATTTTTTTATTGGTTGTATGCAAAAGAATCTCTGAAAAAAGCAAAATTGTTCTATATCCTAACAGCGACATATCTTTTAACATATATTCTTAGAGCATTATTTTTTCCAGAAAAGAAAGTAATCTTCTCTTTCAATTATAATATCGGCTGCCTACTCTTAATGGTTCTTGTCATTATGGAGTATTATAAACAGGTTAATTCATCTGAAATTCTTAATTTCAGTAAAAATAAAATGTTTTACATTAATCTTGGAGTAACGCTTTTTTATATCGCCAACCTACCATTTATGACATTTAATTCTCTTCTGTGGAAGTATATAGATATTTGGGATATTTATTTCATATATTTCCAGGTCTCAGGAGCAGTAATGTATATCTTATTTGCAAGTTCATTTATATGGGGAAAACAGAGCTCTTAA	MTEIQKIFSSFMYWGEAFAAIISLIYYNRVKKQPWKYLAIYLILIFLCESAVKWGEKPLKIDRILFHNYFVIPLQFIFFYWLYAKESLKKAKLFYILTATYLLTYILRALFFPEKKVIFSFNYNIGCLLLMVLVIMEYYKQVNSSEILNFSKNKMFYINLGVTLFYIANLPFMTFNSLLWKYIDIWDIYFIYFQVSGAVMYILFASSFIWGKQSS				NA	NA	NA	NA	NA
BMS003_03940	786			hypothetical protein	ATGGGGAAAACAGAGCTCTTAATAACCATTATTTCCTTCAACATCTTTTTTTTGATGTTTGTCATAGCGGTATTTATCTACATCCGAAATTACAGACAAAGAAAAAGAGAATACCTGAATGAAATTGAGATAAAAAATGAGCTTCATCAAAGAGAGCTCCTTGCTACCCAATTGGAAATCCAACAGGCAACCATGCAACAGATCGGGCGTGAACTTCATGATAATATCGGTCAAAAACTTACGCTGGTAAGTCTTTATGTACAACAAATGCTTTATGAAAACAAAGTCTCGGAAGCAAGCGAAAGAATTGACCAGGTATCCCAGATCATCAACCAGTCCCTCCAGGATCTCAGAAGTCTCTCAAAGACATTAACAGATGACAACATCAACCAAAAGGAAATTGTAACTTTAATACAGGAGGAAGCAGACAATACCAATTCTTTTAAAAAGTGCAATGTCAGTTTTCAGTACAATTTTAAACAGCTGGATTTAGGGTTTGTCCATAAAAACATGCTGCTCAGAATTACACAGGAGTTTATCCAGAACAGTATAAAACACTCCCGGTGTAAAAATATTTTCATCAGCCTGAATACTTCCGAAGATATTCTTTGGGAGCTCGACATTCGTGATGACGGAATCGGATTTGATACCTCACAGATCAAATCCAACGGAATAGGTCTTACAAATATGAAAAACAGAGCCGAAATAATAGGCGCAAGTTTCCATATGGAAAGCCATGAAAATACGGGAACCCACCTCAATATTATCTTAAAAAAACAATCATGA	MGKTELLITIISFNIFFLMFVIAVFIYIRNYRQRKREYLNEIEIKNELHQRELLATQLEIQQATMQQIGRELHDNIGQKLTLVSLYVQQMLYENKVSEASERIDQVSQIINQSLQDLRSLSKTLTDDNINQKEIVTLIQEEADNTNSFKKCNVSFQYNFKQLDLGFVHKNMLLRITQEFIQNSIKHSRCKNIFISLNTSEDILWELDIRDDGIGFDTSQIKSNGIGLTNMKNRAEIIGASFHMESHENTGTHLNIILKKQS	PGPT0017900_199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-FUCOSE_PERCIPITATION|SIGNALLING,PGPT0017900-fusK-K20263	NA	NA
BMS003_03941	642	gacA_2		Response regulator GacA	ATGAAAAAAACTATTGTAATTGTTGATGACCATATACTTATAGCCAAGGCGCTGGAAGGCATTATTGGTAATTTTAAAGAATTTGAAGTAATCTATGTATGTGAAAATGGCAAAGACCTTATTCAAAAACTTGAGGAAGGAAATGCTATTCCTGATATTATCCTTTTAGATATCAGTATGCCTATTATGGACGGTTTTGAAACAGCAGCATGGCTTACAAAAAATCATCCGGAAATTAAGATCATGGCTCTCAGCATGCAGGGCGATGACAACAGTGTAATTAAGATGATCAAAAGCGGGGCAAAAGGTTACCTTCTGAAAAACACCCACCCAAGAGATCTGGAAACAGCCCTTACCAGGCTCAACAGTGATGGATTCTTTTACCCGGACTGGGCTTCAAAAATTATTTTCTCTAATCTTAACAAAGAAACAGAATCTGAAATTGCAGTAAGGATTTCAGACAGAGAGAAAGAATTCCTGAAATATACAGTTACAGAACTAAGCTATAAAGAAATTGCAGACAGAATGTGCTGCAGCCCAAGAACAGTGGAAAGCTACCGTGACCAGCTTTGTGAAAAGCTGGAACTTAAAACCCGTGTAGGACTTGCTGTATTTGCCATTAAAAATGGCTTTGCAAATTAA	MKKTIVIVDDHILIAKALEGIIGNFKEFEVIYVCENGKDLIQKLEEGNAIPDIILLDISMPIMDGFETAAWLTKNHPEIKIMALSMQGDDNSVIKMIKSGAKGYLLKNTHPRDLETALTRLNSDGFFYPDWASKIIFSNLNKETESEIAVRISDREKEFLKYTVTELSYKEIADRMCCSPRTVESYRDQLCEKLELKTRVGLAVFAIKNGFAN	PGPT0012935_614	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
BMS003_03942	1005			hypothetical protein	ATGAAAAAACTATTATTTGGAGCTTTTATGCTCACTCTAATGGCTGCATGTAACAATGACAGCATCTCCAATCAAAACGAAAATCCAGCTGACGAATCAGTTACTTCTTCAGAATTAGTTCAAAGAGGCTGTGCTTCTGAGGAAATCAGACAGGAAACATTGAAAAAAAACCCTGAACTTCAACAAAAATATGCTGCGTTGGAAATTAACACAGAGAAGTTTGCCAATGATCTGAAAGTTGGAAAGGTTCTCGCTGATGGCAGTGTAGAAATCCCTGTTATTGTTAATGTCCTATACAGAAATACGGCAGAAAATGTTTCTGACTCAAGAATTGCTGAACAAATTGCTGTATTGAACGCTGACTATTCCGGTACAAACAGTGATGTTACTAAAATCCCGACTGAATTCACTACAGTAAGTTCCGGTGATACAAAAGTAAAATTCAGACTGGTAAATACCGTCAGAAAATCTACTACAAAATCAAGCTGGTCAACGAATGACGACATGAAAAAGGCTTCCAAAGGCGGAATTGATGCTACTAATCCCACCAATTATCTCAACATCTGGGTAGTAGGTAAAATGACCAGCCGGGGAAGAACTATTCTGGGATATGCTACCTTCCCGGAATCTGCTGGATTATGGAACGACGGTGTAGTAATCGGTGCTCCATATTTTGGAAAGACCGGAGCCTCTTCTCCATTTAACCTTGGAAGAACAGCCACACACGAAGTGGGCCATTATTTGAATCTGAGACATATCTGGGGAGATGCTAATTGCGGAAATGACCTTGTAAGTGATACCCCTACACAAACTACAGCTAATTACGGAAAACCTGCCTATCCTCTATACAATACATGTAGCGGCGTGCAGAGATCTGTAATGTTCATGAATTATATGGATTATGTAGATGATGCAGCAATGTTTATGTTCTCTGCAGGGCAAAAAACAAGAATGCAGTCTGTAGTAGCTTCTTCTGGTGCAAGATCCGGATTGAGACTTTATTAA	MKKLLFGAFMLTLMAACNNDSISNQNENPADESVTSSELVQRGCASEEIRQETLKKNPELQQKYAALEINTEKFANDLKVGKVLADGSVEIPVIVNVLYRNTAENVSDSRIAEQIAVLNADYSGTNSDVTKIPTEFTTVSSGDTKVKFRLVNTVRKSTTKSSWSTNDDMKKASKGGIDATNPTNYLNIWVVGKMTSRGRTILGYATFPESAGLWNDGVVIGAPYFGKTGASSPFNLGRTATHEVGHYLNLRHIWGDANCGNDLVSDTPTQTTANYGKPAYPLYNTCSGVQRSVMFMNYMDYVDDAAMFMFSAGQKTRMQSVVASSGARSGLRLY				NA	NA	NA	NA	NA
BMS003_03946	1026			hypothetical protein	ATGCGTAAGACATTATATATCATCGGATTAAGCACTTTTGTTTTTTCATGTACCTCCCAGCAAAATGTGAAAAAAAACACCTACAAACCGAAAACCCCAATAACACAGGCCAAACCGAAGGCTCAACCAACAGCTCCGGTGGCTCCGAAACCCAAAGTTGTATCTGATCATGGAGTAGACTTTTTTACTACTAATATAGCAGACCCAGCAAAAAATGATAATACGGCAAGTTATGGTTCTATTGTATCTGCAAAACCAGGTGGATATAAAGTTGTAAAAACCTATTTTCCTGCGATTGCCCAAAATTTCAGACAGCGTTATCTTATATTACATTATACAGCACTTCCGGACGATAAATCACTTACCGTTCTTACCCAGCAGGCTGTGAGTGCTCATTATCTGGTAAATAATACTGGAGATAATGAGATCTATCAGTTGGTAGACGAAAACAAACGTGCATATCATGCGGGTGTAAGTGCATGGAGAAATGACAAGAATCTCAATGATAATTCTATTGGTATTGAAATTGTAAATACAGGTTATACCACAGATAGTACAGGTAAAAGAATTTTCGCTCCTTTTAGTGATGAGCAGGTGAAAAAAGTAGCAGCATTGGTTAAAGATATTGTGACAAGGTATCAGATCCAGCCTACAAATGTGTTGGCACATGCAGATATTGCACCTACAAGAAAGCAGGATCCCGGCCCTATGTTCCCATGGAAAAAACTCTATGATGAATACCAGGTAGGAATGTGGTATGATGAAGCAGCTAAACAAACTTATCTTGAAGCAGCGCAGGTAGACATTACAGCAAGATATAACGATGCAAGTTTTATTTTCCTTATACAGACTGCATTGCAGAAATTCGGGTATGCATTAGACTTGAGCGGAAAATGGGATGATGCTACCAAGAAAACCATTGAAGCATTCCAGTATCACTTCCGTCCACAGAATTATGACGGAATGATGGATGCCGAAACATGGGCAATACTGCAAGCTTTAAATCAAAAATATCCAACAAAATAA	MRKTLYIIGLSTFVFSCTSQQNVKKNTYKPKTPITQAKPKAQPTAPVAPKPKVVSDHGVDFFTTNIADPAKNDNTASYGSIVSAKPGGYKVVKTYFPAIAQNFRQRYLILHYTALPDDKSLTVLTQQAVSAHYLVNNTGDNEIYQLVDENKRAYHAGVSAWRNDKNLNDNSIGIEIVNTGYTTDSTGKRIFAPFSDEQVKKVAALVKDIVTRYQIQPTNVLAHADIAPTRKQDPGPMFPWKKLYDEYQVGMWYDEAAKQTYLEAAQVDITARYNDASFIFLIQTALQKFGYALDLSGKWDDATKKTIEAFQYHFRPQNYDGMMDAETWAILQALNQKYPTK	PGPT0024155_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024155-amiD-K11066	NA	NA
BMS003_03947	1401	aspA	COG1027	Aspartate ammonia-lyase	ATGGAAAATTTCAGAAAAGAAAGTGATCTATTAGGCGAATTGAATGTGCCTTTAGATGCTTATTATGGGGTTCAGACACAAAGAGCTATCGACAATTTTAAAATTTCAGGGCAGCTTTTGTCTTCATATCCGGATTTCATAAAAGGATTGGCTTTTGTAAAAAAAGCAGCAGCTAAAACCAATTATGAGCTTGGACTTCTAGACGAAAACCTGTATTTTAAAATAGCAGAGGCGTGTGATGAAATTGTAGAAGGGAAATATCATGAGCAGTTTCCGGTAGATATGATCCAGGGAGGAGCTGGAACTTCCATCAATATGAATGCGAATGAAGTGATCGCCAATATTGTGTTGGAAAAATTAGGAAAAAATAAGGGAGAATATGAATTCTGCTCACCTAATGATCACATTAATCTTTCTCAGTCTACCAATGATGCTTATCCTACAGCAATCAAAATGGGATTGCTTCAGATGAATATCAGACTGGTAGAAAAACTGGAAAGAATTATCACTGCTTTCCGTGCAAAAGGACAGGAATTCCAGGATGTGATCAAAATGGGCCGTACACAGCTTCAGGACGCTGTTCCAATGACTTTAGGGCAGGAATTTGAAGCCTATGCAGCTACTTTAGAAGAGGATATCTCCAAGCTTAATAATAACGCCAGCCTTTTTGTAGAAGTGAATATGGGGGCAACCGCTATCGGGACAGGATTAAACGCTCCGGTAGGATATGCAGCCCTTTGTGCTAAAAACTTAGCTCAGATTACAGGCTTCCCGATTGTTTCTGCACCGGATTTGGTGGAAGCAACACCAGATACAGGATCTTACGTAATTTACTCTTCAGCAACCAAACGTCTTGCAGTGAAGTTATCCAAAATCTGTAACGACTTAAGATTACTTTCATCAGGTCCCAGAGCTGGTCTTTTTGAGATCAATCTTCCGCCAATGCAGCCGGGATCTTCTATTATGCCGGGTAAAGTAAACCCTGTAATTCCGGAAGTAGTAAACCAGGTGTGTTTCAAAGTGATCGGAAATGACCTTACTGTAACTTTTGCCGCAGAAGCAGGACAGTTACAGCTTAATGTAATGGAACCGGTACTTTCTCATGCTATTATGGAAAACATCAATTTCCTTTGCAATGCTTTAGAAACCCTTCGTGACAAATGTGTAACAGGAATTACTGCCAATAAAGAAGTTTGTCTGAATATGGTGAAGCACAGCATCGGTATTGTAACAGCATTGAACCCTTACATTGGGTACAAACAGTCTACACAGATTGCAAAAGAAGCATTGGAAACCGGAAAAAGTGTTTATAATCTTGTTCTTGAAAAAGGAATCCTTTCTCAGGAAAAGCTGGACGAAATCCTTGATCCGAAAAACATGTTGAAACCGCATAATAAATAA	MENFRKESDLLGELNVPLDAYYGVQTQRAIDNFKISGQLLSSYPDFIKGLAFVKKAAAKTNYELGLLDENLYFKIAEACDEIVEGKYHEQFPVDMIQGGAGTSINMNANEVIANIVLEKLGKNKGEYEFCSPNDHINLSQSTNDAYPTAIKMGLLQMNIRLVEKLERIITAFRAKGQEFQDVIKMGRTQLQDAVPMTLGQEFEAYAATLEEDISKLNNNASLFVEVNMGATAIGTGLNAPVGYAALCAKNLAQITGFPIVSAPDLVEATPDTGSYVIYSSATKRLAVKLSKICNDLRLLSSGPRAGLFEINLPPMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLSHAIMENINFLCNALETLRDKCVTGITANKEVCLNMVKHSIGIVTALNPYIGYKQSTQIAKEALETGKSVYNLVLEKGILSQEKLDEILDPKNMLKPHNK	PGPT0020125_1960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
BMS003_03948	855			hypothetical protein	GTGAGGTTTTTAATCATAATTCCTGCCCATAACGAAGAAGACAATCTCCCATTTACTCTTGACTCTTTACAACAGCAAAACAGCAAAGATTTTAAGGTAGTGGTAGTGAATGATGGTTCTACAGACAGGACAGAGGATATTATCAGGAAATATACAGAAACTGACTCCCGCTTTGAAACAATCAACCTTCAGAAATCTGAACATCAACCAGGTTCCAAAGTAGTTCATGCTTTTAAAAACGGACTTCAGACTCAATCTATGGATGAATTTGATATCATCTGTAAATTTGATGCCGATATCATTCTTCCGGAAAATTATCTCACAGCAGTAGAAAATGCCTTTGTCACTCATCCGGAATATGGACTGGTAGGAGGCCTCCTATATATAGAAAAAGAAGGGAACTGGGTGTATGAAGGAAATTCTAATAAACATCACGTAAGAGGTCCTATGAAGGCGTACCGTAAAGAATGTTTTGTGCAGATCGGAGGCTTAAGGGAAACACTGGGTTGGGATAATATTGATTCCATATTGCTGGATAATCTTGGCTGGAAAGAAGTTGTTCTTCCTGAACTTCATGTAAAACTGATCAAAGTAAAGGGAGCTGATTATACCATTCGTCCTGCAGATTATTATGGAAGATATTTTTATTTCTTAGGACTGAACAGGTTTTTGGCCTATATTGCCTCTTCAAAAGAAGCTATGAAAAGTAAATCTGCTTCATTTTTCTTCAATATCATTAAGGCTTATGAAAGCTGCAGATCACAGAAACTGGAACTGAAAATCACGAAAGAAGAACAGCAAACCGTTAATGATCAACGTTGGAGAATGTTGAAAAAGAAATGGCTGAAAATGTAG	MRFLIIIPAHNEEDNLPFTLDSLQQQNSKDFKVVVVNDGSTDRTEDIIRKYTETDSRFETINLQKSEHQPGSKVVHAFKNGLQTQSMDEFDIICKFDADIILPENYLTAVENAFVTHPEYGLVGGLLYIEKEGNWVYEGNSNKHHVRGPMKAYRKECFVQIGGLRETLGWDNIDSILLDNLGWKEVVLPELHVKLIKVKGADYTIRPADYYGRYFYFLGLNRFLAYIASSKEAMKSKSASFFFNIIKAYESCRSQKLELKITKEEQQTVNDQRWRMLKKKWLKM				NA	NA	NA	NA	NA
BMS003_03949	1041			hypothetical protein	GTGAAAAAAATAGCCTACATAGAAATAGACACTCACGCAGAAATTGCCCAGGCTTTCATGGATATCATGGAAGGGTCTCAGGATTTTGCGGTAGACTATTATTTTTCAAAAAAAATCAAAGATCAGGTGAATCATCGCAATGAAGCTGTTTTTTTATCAGACAGTTCTATGATTCCGGATCAGTTAAAGGAAAAAGAGTATGATTTGGTGGTCATAGGTACTGTACACCGCTATTTTAATACATTTTTGGCGATAACGAAAAAGTATAATACAGTGATCATTACCCACAATCTTAATTTTGTAAAAGCTTCAAAAATGGATCTGATGAAAAGTGTTTTCAAAGGAGATATTATTTTCAGGTTAAAATTGTGGCTGAAAGAAGGCTTGTTCTACAAAAACAAAGTGTATCAGACTTCCAGATCTCTTTTCGTGCTGGATGAAGCATTGGTTTCAGAGAGATATCAGTATTTACCGCTGTTTTACACAAGGGATTTTAACAAAGTGAAAAATAAAAATCTCATGGTGGTGATTCCCGGTGGAGTTTCCCAGAAAAGAAGAGATTATAATCATATTTTCGAAGCCCTTCAGAAATTCAATACAGATAAACCCTGCAAATTTGTTTTCCTTGGGAAAGCCAATGGACATGAATTGAAACAGCTTGAAAATCTGCCTGAAAAATTACCTGAAAATATTGAAATTACCTTTTTTTCTGAAAGAGTTTCTTCCGAAGACTTTGAAAAGTGGATGCGGAAAGCAGATGTTTTATGGTGCCCGATTCAGCAGGATACAACGTTTTTCAGCATGAAAGAAACCTATGGGCTGACTAAAATGACAGGAAATCTTGGCGATGCCATAGCTTACGGAAAATTGGCTGTTTTTCCTGGAAGTTATCCTTCAAAACTGAACTTTATTATTCCTGAAAAAGAAAATGTTCTTGAACAGTTAAGTAGTGTTTCTGAAAATCCATTTGATTTTTATACAGCATACAGCAGGAAAGAAGTTCAGAAAAAACTGGAACAAATTCTAACAGGTTTGATATAA	MKKIAYIEIDTHAEIAQAFMDIMEGSQDFAVDYYFSKKIKDQVNHRNEAVFLSDSSMIPDQLKEKEYDLVVIGTVHRYFNTFLAITKKYNTVIITHNLNFVKASKMDLMKSVFKGDIIFRLKLWLKEGLFYKNKVYQTSRSLFVLDEALVSERYQYLPLFYTRDFNKVKNKNLMVVIPGGVSQKRRDYNHIFEALQKFNTDKPCKFVFLGKANGHELKQLENLPEKLPENIEITFFSERVSSEDFEKWMRKADVLWCPIQQDTTFFSMKETYGLTKMTGNLGDAIAYGKLAVFPGSYPSKLNFIIPEKENVLEQLSSVSENPFDFYTAYSRKEVQKKLEQILTGLI				NA	NA	NA	NA	NA
BMS003_03950	1500			hypothetical protein	ATGAGTGTAGTAGCGAGACAAGGCTTCAAATATTCCATTATCGGTTATATTGGTTTTTTGCTGGGCACCGTTTCCGCAATATTCATATTTCCGAATGATTTTGAATTTTACGGAAAGCTGCGTTACATTCTTCCGACAGCTGAAATGCTGGTTCCTTTTGTTGTATTAGGTATTTCCTATTCAAATGTCAAATTTTTTCACAAAGTAGAAAAAGATGGTAAAAAACAGAATATGCTGTCACTGTCACTGCTGACCGTTTTTATCAACTTTCTTATTTTTACGATTGTATTTTTCATACTTCCCTATTTCTATCCAAAGTTCAGACATTCCGAAGCATGGAAAATCAAGGAGATGATTCTTCCATTGATTTTAATCCTTTCATTCTGTGCTATTTTTAATAAATACACGTCCAACTACAAGAGAATTGTAGTTTCCAATATTTTCGATAATCTGTTTCCGAAAATAGCCAATCTGGGAGCTTTCTGTCTCTTTTTCTTTGCTTTGTCACAGAATATTACAGCTTCTACTTCAGAAACCATTGCATATGCTTTCTTTTTTGGAATTTTCTTTTTAATGCTTTTGGGATATATTTATTACACCAACAAACTGGAAAAAATTCAGCTGGATTTTAATACAGATTATTTTAAAAAGAATAATTTCTGGAAGGAGTTTTTCAATTACAGCTTCTTCGGATTCCTGGGAACTTTTGGAAATTATCTGGCGATCAACAGTTTTATGATCGGTGAATTTATGGGAATGGAAGAGGTAGGAATCTATTCTGTTCTGTATGCACTGATCTCACTGATCTCTATTCCACAGCTGGGATTATTTAATATTTCAGCACCTATCATCAACAAAACGCTGGCAGACAGAGACATGGTAGAACTGGACAGGTTCCACAAGAAAACATCTTTAACACTGTATTTTCTTGGCGCTGTTTTATTCTCCTGCATTATGGTAGGATTCCCCTATCTTACGCAATTTATGCCAAAGAACGGAACCATGCTCAGAGAATACGAGCCAGTAGTCTGGATCTGGGGTTCCGCAGTATTAATAGACCTTGCTACAGGATTCAATGGCAATATTATTTCGCTCTCAAAGTATTACAGATTCAATATCCTGGTTATGCTTTTACTGGCCGGACTGACAATTGGACTTAATTATTATTTCATTAAAAATACAGATCTGAAACTGATTGGAATTGCCTTATCTACAGCTATTTCCCTTACAATTTACAATATTGTGAAAATCATTTTCAATTATATCGTATTTAAAGTTTCACCTTTGAGTATTGAAATGATTTTTGTATCCATTATCTGTACTTTAGCCATTACAGTGGCTATCGTTCTCCCGAATTTCAGCAGTAATCTTCTGAATCTTATTTATAAACCGGCGGTTGTTTTGATACTGATCTATATCGGAAACTACTTCACCAAAATTTTCCCTATGGAAGACTATCTAAATATGAAGTTTATTAAGAGTGTATTTAAGATAAAATAA	MSVVARQGFKYSIIGYIGFLLGTVSAIFIFPNDFEFYGKLRYILPTAEMLVPFVVLGISYSNVKFFHKVEKDGKKQNMLSLSLLTVFINFLIFTIVFFILPYFYPKFRHSEAWKIKEMILPLILILSFCAIFNKYTSNYKRIVVSNIFDNLFPKIANLGAFCLFFFALSQNITASTSETIAYAFFFGIFFLMLLGYIYYTNKLEKIQLDFNTDYFKKNNFWKEFFNYSFFGFLGTFGNYLAINSFMIGEFMGMEEVGIYSVLYALISLISIPQLGLFNISAPIINKTLADRDMVELDRFHKKTSLTLYFLGAVLFSCIMVGFPYLTQFMPKNGTMLREYEPVVWIWGSAVLIDLATGFNGNIISLSKYYRFNILVMLLLAGLTIGLNYYFIKNTDLKLIGIALSTAISLTIYNIVKIIFNYIVFKVSPLSIEMIFVSIICTLAITVAIVLPNFSSNLLNLIYKPAVVLILIYIGNYFTKIFPMEDYLNMKFIKSVFKIK				NA	NA	NA	NA	NA
BMS003_03951	795			hypothetical protein	ATGTCTTTATACCAAAAAATTGCAGAGAAACTACAATATATAAGTCCGAGTTTTTACAAAAAAAGATATTTTAAAACTTTAAATAATCTTAATAAAAACAATTTTTCGGAGCGTAATGTAGAACCGGAGCTGGTATGGATTAAAGAATACCTTCCCAAAAAAGCTGTAATACTGGACATTGGTGCGAATGTAGGAACTTTCCTTTATCAGCTGGAAAACACATTGGATCATGAGCATATTTATGGTTTTGAACCTAATAAAAAACTCTACCGCCGATTGAAAAGACTTTTCCCGGCAATGCATATCTTTCCTCTGGCTCTTTCTGATGAGAACGGAATAGCAGAGTTCAAAGTACCTGTTATTAATGGAAAAGCTATTGCATCCCGTGGTACTTTAAACACTTCTTACAAAGAAAAAGGAGAAGAAAAAAGCAATACTGAGCAGGTAAAGGTTATCAAGCTTGATGAATGGGCAGCACTGGAGCATTTCAGCAGACTAGACTTCATCAAAATAGACGTTGAAGGAAATGAAATAAAAACACTTGCCGGAGCGAGAGAAACCATCAAACAGTTCAAGCCAACCTTAATGGTTGAAATGGAACAAAGACACCACCAAACACCCATATGGCATGAAATATCCGAAGTGATAAACTGGGGATACAACGCCAGATATCTGAACAGAAATAGCTTTACGCTTGAAAATCTTACGGAAGATATTATAACGCAAAATACAAACGACGAAAAAAATAAAACTCAGTACATCAACAATATTATTTTTATACCTAAAAACATTTAA	MSLYQKIAEKLQYISPSFYKKRYFKTLNNLNKNNFSERNVEPELVWIKEYLPKKAVILDIGANVGTFLYQLENTLDHEHIYGFEPNKKLYRRLKRLFPAMHIFPLALSDENGIAEFKVPVINGKAIASRGTLNTSYKEKGEEKSNTEQVKVIKLDEWAALEHFSRLDFIKIDVEGNEIKTLAGARETIKQFKPTLMVEMEQRHHQTPIWHEISEVINWGYNARYLNRNSFTLENLTEDIITQNTNDEKNKTQYINNIIFIPKNI				NA	NA	NA	NA	NA
BMS003_03952	666			hypothetical protein	ATGTCTGCAAGTATTTCCTCCAAGACCTTTGATTTTTTAAAAAAATTAAATAAAAATAATAACCGCGAGTGGTTTAATGAAAACAAAAACTTGTACACAGAATCTCAGCAAAATGTAGTTTCATTTTTGGATGAACTGATTAAAGAGATGTCTGGTTTTGATGAAGAACTTGCTAAAATTGACAGTAAAAAAGCCCTTTTCAGAATTTACAGAGACACCCGTTTTTCAAAAGATAAATCCCCATATAAAACCAATTTCGGAGCTTCTCTCGGAATGGGAAAAGGAAACCAGAAGGGAGGCTATTATCTTCACATGGAACCCGGAAAGTCTTTTTTAGCCGGGGGAATCTATATGCCCGAATCTTCCGTGCTGAAAGAAGTGCGTAAAGAGATTTCATTGTACGGAGACGATTTTCTTAAAATTCTCAATAATAAAGATTTCAAAAAGCACTTTCCGGAGCTTGATCAGGACGATAAACTGAAAAAAATTCCTCAGGGATTTGAAAAAGAAGACCCTATGGGAGAGTACCTGAAGCTAAAAAACTTTATTGTGGTATATCCTCTGAATGATGAGGAAGTACTGGACAAAAATGCAGTGAAAAACATGAGTAAAATCTTCAAGCTGATGAAGCCTTTCAATGATTTTCTGAATACACCTTTTCTTTAA	MSASISSKTFDFLKKLNKNNNREWFNENKNLYTESQQNVVSFLDELIKEMSGFDEELAKIDSKKALFRIYRDTRFSKDKSPYKTNFGASLGMGKGNQKGGYYLHMEPGKSFLAGGIYMPESSVLKEVRKEISLYGDDFLKILNNKDFKKHFPELDQDDKLKKIPQGFEKEDPMGEYLKLKNFIVVYPLNDEEVLDKNAVKNMSKIFKLMKPFNDFLNTPFL				NA	NA	NA	NA	NA
BMS003_03953	1692	deaD		ATP-dependent RNA helicase DeaD	ATGAATTTATTTACGGAAACCAATTTAAGTCCTGATATCCTTAAGGCAATTGGCGAACTGGGCTACGAAAGCCCAACAGAAATCCAAAAACAGACTATCCCTTTTATTCTTTCAGATATTCGCGACTTGATCGCACTTGCGCAGACAGGGACAGGCAAAACAGCAGCGTTTTCGCTTCCGATTTTGGATATGATTGACGATACGAGTCGCAAAATCCAATTATTGGTGCTTTGTCCGACACGGGAATTATGTCTTCAGATTTCGAAGGACATAAAGAATTACTCTAAGTATATGAAAGACATCAAGACAACTGCGGTTTATGGTGGAAGTAGTATTGTAGAGCAAATGAGATCTTTGAGGGATAAACCACAAATTATTGTGGGAACTCCGGGAAGAGTAATTGATCTTATCAACAGAAAGGCATTAGACTTTTCTGCTATTCATTGGTTAGTATTAGACGAAGCTGATGAAATGCTTTCTATGGGATTCAAGGATGAATTGGAAACCATTCTAAGCGAAACTCCGGAAACAAAACAAACTTTCTTATTCTCTGCAACGATGAATAAAGAGGTGGAAAGAATTTCCAAAAATTATCTTACAAAACCACACCGTATTTCAGTAGGTTCTATCAACGAAGTGAAGAAGAACATTACTCACGAGTATTATGTGGTAGGATACCGTCAGAAAAAAGAAGCATTAAAAAGATTAATTGATGCTAACCCTAACCAGTATTCCATTATCTTCTGCAGAACGAGAATGGAAACTCAGGAAGTGGCAGATTTCTTAATGCAGAACGGGTATGCAGCGGATGCTCTTCATGGTGATCTTTCTCAGGCACAGAGAGATACGGTAATGAAAAAATTCAGACTGAAAAACATTGATATTCTTGTAGCAACAGATGTTGCGGCAAGAGGACTGGATGTGAACTCTCTGACTCACGTTATCCACTTCTCTTTACCGGATGATCCTGAAGTATTCGTTCACAGAAGCGGAAGAACAGGTAGAGCTGGAAAAGACGGTATTTCTATGGCTTTGATCAAGCCTGAAGAAAGCAGAAAACTGAAACAGATCAAATCTGCAACAAAAATTGAAATTCACGAAAGATTTATCCCAACAGGTGATGATATTATCAAAGCTCAGGTAGGAGGTGTATTCGAAAAATTATTGACGGAGCACGAAGATCTTTTCGAATTTGATGATAGCTTAATCCCGGATCTGAGCAACTTTACAAAAGAAGAACTGGTACACCAGCTTCTGCAGTTCCAGCTGAAAGATCTTGCTTTATATTACAAAGACAAACATGACCTTGCAGAGCAGAAGTTAAGCAGCAGAGACGATGATTATTCAAGAAGAGACCGCGGACGTGACAGAGATAGAGACAGAGGTCGCGACAGAGACCGTGGAAGAGACCGAGACCGTGGTGGAAAGCCAAGAAGAAGAGACGAGAATATGGTAAGATTCTTCTTTAATCTTGGAAAAAAAGACCACTTGAAGAAACTTGATGTTTTAGATATTATCAACAAAGCTACTGCTGGCGGAAAAAGCAAGAAAAGAGCTGAAATCGGTGATATTGAAATCCTAGAGAAATTCTCCTTCTTCGAAGTTGAAAAATCATACAAAGACAATGTTTTGAGCAATATTCAATCCATGAAGTTCAAAGGAAAAGATATGAGAGCTGAAGTAGCAAACTAA	MNLFTETNLSPDILKAIGELGYESPTEIQKQTIPFILSDIRDLIALAQTGTGKTAAFSLPILDMIDDTSRKIQLLVLCPTRELCLQISKDIKNYSKYMKDIKTTAVYGGSSIVEQMRSLRDKPQIIVGTPGRVIDLINRKALDFSAIHWLVLDEADEMLSMGFKDELETILSETPETKQTFLFSATMNKEVERISKNYLTKPHRISVGSINEVKKNITHEYYVVGYRQKKEALKRLIDANPNQYSIIFCRTRMETQEVADFLMQNGYAADALHGDLSQAQRDTVMKKFRLKNIDILVATDVAARGLDVNSLTHVIHFSLPDDPEVFVHRSGRTGRAGKDGISMALIKPEESRKLKQIKSATKIEIHERFIPTGDDIIKAQVGGVFEKLLTEHEDLFEFDDSLIPDLSNFTKEELVHQLLQFQLKDLALYYKDKHDLAEQKLSSRDDDYSRRDRGRDRDRDRGRDRDRGRDRDRGGKPRRRDENMVRFFFNLGKKDHLKKLDVLDIINKATAGGKSKKRAEIGDIEILEKFSFFEVEKSYKDNVLSNIQSMKFKGKDMRAEVAN				NA	NA	NA	NA	NA
BMS003_03954	639			hypothetical protein	ATGGGAATTGGTAATATTTTCCACGCTTTTCAACCAAAAGATAAAATCTTCTTTGTACTTTTCGAAAAAGTAACTGAAAATCTAGTTGCAATGTCAGAAGAATTCAACTCAGGAATCAAGGATTTCGATCTTAATGATGATTCAATGTTGAAGAAAATGAGCGACTTCGAACACAAGAATGATGAACTTACTCACGAAATCTTCGTAGAATTAGGAAAAAACTTCATTACACCTTTTGACCGTGAGGATATCCACACGCTGGCAACAGGGCTGGATGATATTGCTGACTATATCTACGCATCCACAAAATATATTTTCCTGTACAAATCACCTGAGATGAAGGCTTATTCAGACTTCTCTTTACTGATCCACAAAGCATGTCTTGAAATTCAGAATGCCATGAAAAACCTTAAAGGGTTCAAAAACATGGAGCAGGTGAAAGAAGCTTGTATTAAAGTAAACTCTATTGAGAATATTGCCGATGATTTGCTATCCAACTCAATGGTAGAATTATTTGAAACAAATGATGCCATTAACATTATTAAAGTTTCATCTGTATTAAACTACCTTGAAGTTGTAACGGACAAAGCAGAAGATGTTGCCAACACCATTGAGAACATCATGATTAAATACGCCTAA	MGIGNIFHAFQPKDKIFFVLFEKVTENLVAMSEEFNSGIKDFDLNDDSMLKKMSDFEHKNDELTHEIFVELGKNFITPFDREDIHTLATGLDDIADYIYASTKYIFLYKSPEMKAYSDFSLLIHKACLEIQNAMKNLKGFKNMEQVKEACIKVNSIENIADDLLSNSMVELFETNDAINIIKVSSVLNYLEVVTDKAEDVANTIENIMIKYA				NA	NA	NA	NA	NA
BMS003_03955	1143			hypothetical protein	ATGGAATTTCCGATTTTACTTATAGTTATTATTGCGCTGGCTCTGATCTTCGATTATATCAATGGTTTCCATGATGCTGCCAACTCCATTGCAACTATAGTTTCTACAAAAGTTTTAACTCCATTCCAGGCTGTACTTTGGGCGGCGCTTTGGAACTTTGCGGCTTTCTTTATTGCTGCTTATATTATTGGAGAATTCAAAATTGGTAATACAATTGCCAAAACAGTTAACGAAAATTTTATCACCCTCGAAGTTATCTTCTCAGGTTTGGTGGCAGCTATTGCCTGGAACCTTTTGACATGGTGGTTCGGGATCCCTTCATCATCATCACATACACTTATTGGTGGTTTCCTGGGAGCAGCACTTATGCATGCTTTTATGATGGATTATCATAGTGTGGCAGCAGCACAGCCGGATCTTGGAATGTGGGAGACCGTTAAAGAAGCCTTCAGTCAGGTAACACATCAGAGTGTGGTGAAATTTGATAAAGTAATTCCTATCTTCCTGTTCATTTTCATGGCACCGATTATAGGGATGATTATCTCCGTTATCATTACACTGATTATTATACACCTTTATAAAAAATCAAACCCGCATAAAGCAGACCAGTCTTTCAAAAGATTACAGCTGGCTTCTTCAGCTCTATTCAGCTTAGGACACGGTTTGAATGATGCTCAGAAAGTAATGGGTATCATTGGTGCAGCGCTTATCTACTATCATGTAGAAATGCTGCATGACCCGGTTTATCTTAATATCCCTGCTGCAGGACGTTTTGATTATTTTGCAGAACACTACCTTTGGGTTCCTTTGGTTTCGTTCCTTGCAATTGGTTTAGGGACAATGAGCGGTGGTTGGAAGATCATCAAAACAATGGGTACGAAGATCACAAAAGTAACTTCATTAGAAGGAGTAAGTGCAGAAACTGCAGGAGCTATTACTTTGTTCATTACAGACCACTTCGGTATCCCGGTATCTACTACTCATACTATTACAGGTTCTATCATTGGGGTAGGATTAACAAAAAGAGTGTCAGCAGTAAGATGGGGTATTACAGTGAGCCTTCTTTGGGCTTGGGTTCTTACCATTCCAATCTCTGCGATGGTAGCAGGAATTACCTATCTTGTGGTAACCTTCGTTTTCTAA	MEFPILLIVIIALALIFDYINGFHDAANSIATIVSTKVLTPFQAVLWAALWNFAAFFIAAYIIGEFKIGNTIAKTVNENFITLEVIFSGLVAAIAWNLLTWWFGIPSSSSHTLIGGFLGAALMHAFMMDYHSVAAAQPDLGMWETVKEAFSQVTHQSVVKFDKVIPIFLFIFMAPIIGMIISVIITLIIIHLYKKSNPHKADQSFKRLQLASSALFSLGHGLNDAQKVMGIIGAALIYYHVEMLHDPVYLNIPAAGRFDYFAEHYLWVPLVSFLAIGLGTMSGGWKIIKTMGTKITKVTSLEGVSAETAGAITLFITDHFGIPVSTTHTITGSIIGVGLTKRVSAVRWGITVSLLWAWVLTIPISAMVAGITYLVVTFVF	PGPT0002655_2355	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS003_03956	972		COG0142	(2E,6E)-farnesyl diphosphate synthase	ATGGAATTTTTAGACAGATACCAGCAGATTGTTGCAGATGCCATCACTAAATATACTTTTAAAGATAAGCCTTCGGAGCTGTATGAGCCGATGAATTATATTATTTCCCATGGAGGAAAACGTCTTCGTCCCATCATGGTGCTAATGGCTTGCGATATGTTCGGCGGAGACCTTAAGCAGGCAATCAAACCGGCATTGGCTATCGAGTTTTTCCATAACTTCACCCTAATCCATGATGATATCATGGATGAAGCTCCTTTGAGAAGAAATAAACCTACTATTCATACTTTACATGGTCTTAATGTAGGAATTCTTTCCGGAGACGGACTCATGCTGAAAGCCTATAAGTTCTTTGAGGATCTTGAGCCGGAAATCTTCAAAGCTTGTATCAGAATATTTACCCACACAGGGCTTCTGCTTTGTGAAGGACAGCAGTATGATATCAATTTTGAGACTCAGAAAGACGTTACTTTTGATGATTATATCAGAATGATTACCTATAAAACCGGAGTTTTAAGTGCTTCGTCATTTGAGATCGGAGCTTTGATTGCAAAAGCTGATTTTAAAGATGCAAAAGCTATTTTCAATTTCGGAAAACATATCGGAATTGCATTCCAGATTATGGATGATTATCTTGATGTATTCGGAGATCAGGCACAGTTTGGAAAAAAACATGCCGGAGATATTTACGAAAACAAAAAAACGGTTCTGTATCTGCTAGCCAGAGAACATGCTACAGACGAAGAAAGAAAAGAGCTGGACTACTGGTATTCTAAGAAGACTGAAAATGTTGATAAGATATATGGAGTAGAAAAGATTTTCAGAAGAACCAAAGTAGACGAAAAAGCATTACGTCTGATCGAAAAACATAACGAAATCGGACAAAGCTACCTTCAGAAAATAAATGTACCGGAAGAAAAGAAAAAACCTTTTATCGAACTGGCCAATTATTTGCTGAGAAGAGAAAGTTAA	MEFLDRYQQIVADAITKYTFKDKPSELYEPMNYIISHGGKRLRPIMVLMACDMFGGDLKQAIKPALAIEFFHNFTLIHDDIMDEAPLRRNKPTIHTLHGLNVGILSGDGLMLKAYKFFEDLEPEIFKACIRIFTHTGLLLCEGQQYDINFETQKDVTFDDYIRMITYKTGVLSASSFEIGALIAKADFKDAKAIFNFGKHIGIAFQIMDDYLDVFGDQAQFGKKHAGDIYENKKTVLYLLAREHATDEERKELDYWYSKKTENVDKIYGVEKIFRRTKVDEKALRLIEKHNEIGQSYLQKINVPEEKKKPFIELANYLLRRES	PGPT0007560_917	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
BMS003_03957	951			hypothetical protein	ATGAAATTCAGAACAGAAGTTGATATTCCCGCATCAGAACAGAAAATTGAGATTGAAGATAAAATATTTTCAATAGGTTCATGTTTTGCCTCTGAAATGACAGGTTTACTCCAGGAGGGACAACTTCAGACCCTCAATAATCCCTTTGGGACTATTTTTAATCCTTTTTCCATTAATAATGTGGTTAACAGATTACATGATTCTGCATTTTATGAAGAAGATGAGCTGATTACTTATAATGAAGAATATATTTCACTGGATCATCATACCAGTTTTGATACCCGTTATATTCATCAGACCTTAGATAAGATTAATGGAGCTATAGAAGCCGGAAACGCCTTTCTTCAGGAAGCTGACTGGATTATTATCACCTACGGATCCTCATTTATCTATGAATTCCTTCCCAAGAAAAAACTGGTAGCTAACTGCCACAAGATTCCGCAGAAATTTTTTGAAAAAAGACTGCTTTCCCATCAGGAACTTACCAGTTCAATTTACCAGACGATTCTGGATCTTAAAGATATCTGTAAAGAAGGAGTACAAATCCTGTTTACCGTTTCACCCGTAAGGCATACAAAAGACGGAATGGTAGAAAACCAGTTAAGCAAATCGAAACTGATTACTGCTATTCATGAGTCTATTTCTATGTTTGAAGACTGCCATTATCTGCCTGTTTATGAAATTTTAATGGATGATCTCCGGGATTACCGTTTTTACAAAGAAGATATGATACATCCCAGCACACAGGCGGTCAATTATATTTTTGAGAAGTTTGGGAAGTCTTATTTTTCAGAAGAAACCCAGAATTTTATCAAAGAAAATTTTAAAATTATTAAGGCTCTGGAACATAAGACCAGTGATAAGAAAGATCCGAAGTTTATAGAATTCAGAGAAAAGCTGGATCAAAGGATTGAAGTGCAGCGTAAAAAGGTAAAACATAAAATATTTTAA	MKFRTEVDIPASEQKIEIEDKIFSIGSCFASEMTGLLQEGQLQTLNNPFGTIFNPFSINNVVNRLHDSAFYEEDELITYNEEYISLDHHTSFDTRYIHQTLDKINGAIEAGNAFLQEADWIIITYGSSFIYEFLPKKKLVANCHKIPQKFFEKRLLSHQELTSSIYQTILDLKDICKEGVQILFTVSPVRHTKDGMVENQLSKSKLITAIHESISMFEDCHYLPVYEILMDDLRDYRFYKEDMIHPSTQAVNYIFEKFGKSYFSEETQNFIKENFKIIKALEHKTSDKKDPKFIEFREKLDQRIEVQRKKVKHKIF				NA	NA	NA	NA	NA
BMS003_03958	522			hypothetical protein	ATGATCGATTTTACCAGGATTGATTATCTGAAAGACGGAAACGAAAGACAGAAAAAGGCTTACGGAATTCTGACAAAGTACCGTATTTTTAATAAATTAAAAGCTTATTCACCCATTTTGGCAGGAACCGTTCCTATTGAAATTGACATAGAAGGAAGTGATCTGGATATTATTTTTGAGGTAGATTTACAATTTGAAGAAGACTTTCTTGATGATTTAATGTTCAGCAGGTTTATTCCTTATGATGTGGATGTAGAATATCCCATTGTAAATGGTGAAAAGTGTATTACATTAAATTTTATATTGGAAGGCTTTCCCATCGAGATTTTCGGACAGAATAAACCCACGATACAGCAGAACGCCTATCTTCATATGATGGCCGAATACAAAATATTACAGAAAAAAGGAGAAGAATTTAAACAAAAAATAATAGAACTTAAAAAACAGGGAGTAAAAACGGAACCCGCTTTCGGAATGTTGCTGGGACTTGAAAACCCTTACGAAGATCTGTTGAAATTTTAA	MIDFTRIDYLKDGNERQKKAYGILTKYRIFNKLKAYSPILAGTVPIEIDIEGSDLDIIFEVDLQFEEDFLDDLMFSRFIPYDVDVEYPIVNGEKCITLNFILEGFPIEIFGQNKPTIQQNAYLHMMAEYKILQKKGEEFKQKIIELKKQGVKTEPAFGMLLGLENPYEDLLKF				NA	NA	NA	NA	NA
BMS003_03959	762	dtd3_1		D-aminoacyl-tRNA deacylase	ATGATTGATACACATACACATCTGTACGCAGAAGAATTTGATGAAGACAGAAAAGAAGCTATTCAGAGAGCTTTAGATAAAGGGATTACAGAATTTTATCTTCCTGCCATCGATTCTGAATCGCATGAGAAAATGCTGCAACTGGAAACAGAATATCCGGGACAAATTTTTTCCATGATGGGATTACACCCTTGTTATGTAAAACCAGAATCGTGGGAAAAAGAACTTGAAATTGTAAAAAATTACCTTGATCAGAGACACTTTCCGGCAATAGGAGAGATCGGGATTGATCTGTATTGGGATAAAACGACACTTGACATCCAGGTAAAAGCTTTCGAACAACAGATTGACTGGGCGATAGAAAAAGATCTCCCCATTGTAATCCATACAAGAGAAAGCTTTGATGAAACATTCGAGGTGCTGGAAAGAAAAAAACATCCAAAATTAAGAGGTATTTTCCATTGTTTTTCAGGAAACCTGGAACAGGCGCAGCATGCTGTTGACCTTAATTTTATTTTAGGAATCGGGGGAGTAGTCACCTTTAAGAATGGGAAAATAGATCAGTTTCTGAGTGAAATTCCGTTAGATAAAATTGTTCTTGAGACAGATTCTCCATACTTGGCACCAGTTCCTCACAGAGGAAAAAGAAACGAAAGTTCCTATCTTGACCTGGTAGCCGGAAAACTGGTGAATATCTATGGAAAAGATTTTTCTGAGATAGACCGCATTACTACAGAAAATGCAAAGAATCTTTTTAAGTAA	MIDTHTHLYAEEFDEDRKEAIQRALDKGITEFYLPAIDSESHEKMLQLETEYPGQIFSMMGLHPCYVKPESWEKELEIVKNYLDQRHFPAIGEIGIDLYWDKTTLDIQVKAFEQQIDWAIEKDLPIVIHTRESFDETFEVLERKKHPKLRGIFHCFSGNLEQAQHAVDLNFILGIGGVVTFKNGKIDQFLSEIPLDKIVLETDSPYLAPVPHRGKRNESSYLDLVAGKLVNIYGKDFSEIDRITTENAKNLFK				NA	NA	NA	NA	NA
BMS003_03960	1305	rhlE_3	COG0513	ATP-dependent RNA helicase RhlE	TTGAATTTTACAGACTTAAACTTAATAGAACCTATTGCAAAAGCAATCCAGGAGCAGGGATACACGACTCCTACCCCTATCCAGGAAAGATCTATCCCTGATATTTTAGAGGGCAGAGACTTTTTAGGTTGTGCACAGACAGGAACAGGAAAAACAGCCGCTTTTTCCATCCCTATTCTACAGAATTTATCCAAAAATAAAATTCCCAATAAACATATAAAAGCGTTAATCCTTACTCCAACCAGAGAGCTGGCTATTCAGATTGAGGAAAATATTAATGCTTACGGTAAATATCTTCCATTAAAGCAACTTGTTATTTTCGGAGGAGTAAAGCAGGGAAACCAGGAAGCTGCTTTGAGAAAAGGAGTTGACATTCTGGTAGCAACACCGGGAAGGCTTCTGGACTTTATTGCTCAGGGAATTATCAGCCTGAAAAACCTTGAAATTTTTGTTCTGGATGAAGCAGACAGAATGCTGGATATGGGTTTTGTACATGATGTAAAGAGAATCATTAAGCTTTTACCTCAGAGAAGGCAGACTTTATTTTTCTCAGCAACCATGCCGGGAGAAATTCAGAAGCTGGCTAATTCTATCCTTAATAACCCTGTAAAAGTAGAGGTAACTCCCGTTTCTTCTACAGCGGATACCATTAAACAATCTGTGTATTTTGTAGAAAAAGACAATAAGCTGAATTTGCTTTCTCATATTCTTCAGAATGATATTTCAGATTCTGTATTGGTTTTTGCAAGAACGAAACATGGAGCAGATAAAATCGCCAGAAAACTTCAGAAAGATAATATTTCTGCAGAAGCTATTCATGGAAATAAGTCTCAGAATGCAAGACAAAATGCTTTGAATAACTTTAAATCCGGGAAAACAAGAGTTCTTGTCGCAACAGATATTGCAGCTAGAGGAATTGATATTGACGAACTTAAATTCGTGATCAATTTTGAGCTTTCCGATGTTTCTGAAACATATGTCCACAGAATCGGAAGAACGGGAAGAGCAGGTGCTGAAGGAACTTCCATTTCTTTTGTAGACGGACTTGATCTTTTGAACTTAAAGAATACCGAAAAGCTGATTGGAAAGAAAATTCCGGTAGTGAAAGATCATCCTTTCCATACTGATGATCTTGTTGCCCAAAAAAGGGATTCCAATAATAAACCTGTGCCTGCAGGAGGTGGAAAGCCTAAAACAGGTAACGGTAGCAATTCAAGATCGAATAACAGCCGTAAAAAGCCTTCTGCAGGGGCTTCGGTAGGATTTAAAAAACCTAAGAACAAGAATTTCACAAGAAAGAAATAA	MNFTDLNLIEPIAKAIQEQGYTTPTPIQERSIPDILEGRDFLGCAQTGTGKTAAFSIPILQNLSKNKIPNKHIKALILTPTRELAIQIEENINAYGKYLPLKQLVIFGGVKQGNQEAALRKGVDILVATPGRLLDFIAQGIISLKNLEIFVLDEADRMLDMGFVHDVKRIIKLLPQRRQTLFFSATMPGEIQKLANSILNNPVKVEVTPVSSTADTIKQSVYFVEKDNKLNLLSHILQNDISDSVLVFARTKHGADKIARKLQKDNISAEAIHGNKSQNARQNALNNFKSGKTRVLVATDIAARGIDIDELKFVINFELSDVSETYVHRIGRTGRAGAEGTSISFVDGLDLLNLKNTEKLIGKKIPVVKDHPFHTDDLVAQKRDSNNKPVPAGGGKPKTGNGSNSRSNNSRKKPSAGASVGFKKPKNKNFTRKK	PGPT0013740_3012	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS003_03961	492			hypothetical protein	ATGAAATATTTGCTAACTATTTGTGCAATTGTGTTTTTAACATCCTGTACAACTTCTCAAAAAGTAAATTCAAAATATACTAAAATTGAGTATGAAGCGACTCCGTGTTTTGGATTCTGCCCTGTTTTTAAAATGACCGTCAACCCAGACAGAACTGCAGTTTTTGAAGCGGAACACTTTAATTTTAACGATAAACCCTCCAAAGATGAATTCTCCAAACCTCGTGAAGGAACTTTTAAAGGTACCATCAAAGAAGAGGATTATAATAAACTGATCGGTTTGCTGGATGGGTTAAATGTAAAAAGCTTACATGATAAATACGGAGAACATAATATTACTGATCTTCCTACTTCTTATCTAAGAATAAAATTCGCTGACGGAACTTCGAAAAATGTAGAAGACTACGGAAAACACGGAAGCAAAAAACTTTCTGAAGTGTATCAGTTCTTTGAAAATTTAAGAAAAAACCAGGAATGGACTAAAGTGAAATAA	MKYLLTICAIVFLTSCTTSQKVNSKYTKIEYEATPCFGFCPVFKMTVNPDRTAVFEAEHFNFNDKPSKDEFSKPREGTFKGTIKEEDYNKLIGLLDGLNVKSLHDKYGEHNITDLPTSYLRIKFADGTSKNVEDYGKHGSKKLSEVYQFFENLRKNQEWTKVK				NA	NA	NA	NA	NA
BMS003_03962	984	obg		GTPase Obg	ATGTCTAACTTTGTAGATTACGTAAAGATCCATTGTAAAAGCGGACACGGAGGTGCTGGTTCTGCCCACCTTCGCCGTGAAAAGTATATTCCTAAAGGTGGTCCTGACGGTGGCGACGGAGGTCGTGGAGGTCATATTATCATGAAAGGAAATGCCAATGAATGGACTTTGCTTCCACTTCGTTATACCCGTCACGTAAAAGCAGAACGTGGTGAAAACGGAGGAAAAAACCAGCTTACCGGTGCATACGGTGCTGATGTTTATATTGAGGTTCCGGTAGGAACTATTGCCAAAAATGAAGAAGGCGAAATTATTGGTGAAATTTTGGAAGACGGACAGGAAATCATTCTTATGCAGGGTGGTAAAGGAGGACTAGGAAACGAGCACTTCAAGTCTTCTACAAACCAGACTCCAAGATATGCACAGCCAGGTCTTCCGGGTGAAGAAGGCTATATCGTTTTCGAGCTTAAAATTTTGGCAGATGTAGGTCTGGTTGGGTTTCCGAATGCCGGAAAATCTACTCTTTTAGCATCTGTTTCTGCGGCAAAACCCAAAATTGCCAATTACGCTTTTACCACTTTAACTCCTAACCTTGGAATTGTAGATTACAGAAATTACAAATCATTTGTAATGGCTGATATTCCGGGGATTATTGAAGGAGCAGCAGAAGGAAAAGGCTTAGGACACAGATTCCTGAGACATATTGAAAGAAACTCGATCCTTTTATTCCTAATCCCTGCCGATTCTGAAGATCATTTCAATGAGTTTAAGATTCTTGAAAATGAATTGAAAGAATATAACCCGGAATTACTGGATAAGGATTTCATTGTTTCTGTTTCAAAATCTGACCTTTTGGATGATGAACTGAAAAAGGAAATTGCAGCAGAATTCCCGGAAAACAAACAGCCATTGTTCTTCTCAGGAGTTACCGGAGAAGGCCTTATGGAACTGAAAGACGCTATCTGGAAACAATTGCATGGATAG	MSNFVDYVKIHCKSGHGGAGSAHLRREKYIPKGGPDGGDGGRGGHIIMKGNANEWTLLPLRYTRHVKAERGENGGKNQLTGAYGADVYIEVPVGTIAKNEEGEIIGEILEDGQEIILMQGGKGGLGNEHFKSSTNQTPRYAQPGLPGEEGYIVFELKILADVGLVGFPNAGKSTLLASVSAAKPKIANYAFTTLTPNLGIVDYRNYKSFVMADIPGIIEGAAEGKGLGHRFLRHIERNSILLFLIPADSEDHFNEFKILENELKEYNPELLDKDFIVSVSKSDLLDDELKKEIAAEFPENKQPLFFSGVTGEGLMELKDAIWKQLHG				NA	NA	NA	NA	NA
BMS003_03963	579	adk	COG0563	Adenylate kinase	ATGATAAACATTGTTCTGTTCGGCCCTCCAGGAAGTGGAAAAGGAACACAAGCTCAGAATCTGATCGAAAAATTCAATTTAAAACAGGTTTCAACAGGTGATCTTTTCAGATACAATATGAAAAATGACACTGAACTTGGTAAATTGGCTAAATCATACATCGATAAGGGAGAATTGGTTCCGGATCAGGTAACAACAGATATGCTGATCGACGAGATCAAAAAACCTACTGATACCAACGGTTTTATTTTTGACGGATATCCAAGAACAACGGCTCAGACGGAAGCTTTGGAAACGATCGTTAAAGAAGTTCTGAATGACGAGATAGATATCTGTCTTTCATTGGTAGTAGAGGACAAAATTTTGGTTGAAAGACTTCTGAAAAGAGGGGAAACCAGCGGAAGATCAGATGACAGCAATGTAGAGATCATCGAAAACAGAATTAAAGAATATTATACCAAAACAGCAGAAGTTGCCGAGCTTTATAAACAGCAGGGTAAATATGTAGAGGTAAACGGTGTTGGAGAAATTGATGAAATTTCCCAAAAACTTTTCGCTGAGGTAGAGAAAATTAAATAA	MINIVLFGPPGSGKGTQAQNLIEKFNLKQVSTGDLFRYNMKNDTELGKLAKSYIDKGELVPDQVTTDMLIDEIKKPTDTNGFIFDGYPRTTAQTEALETIVKEVLNDEIDICLSLVVEDKILVERLLKRGETSGRSDDSNVEIIENRIKEYYTKTAEVAELYKQQGKYVEVNGVGEIDEISQKLFAEVEKIK	PGPT0009040_6758	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
BMS003_03964	555	hpt		Hypoxanthine-guanine phosphoribosyltransferase	ATGGAAAGCATTAAAGTTCACGACAAAACTTTCGTTCCTTATTTAAAGGATGCCGAAATTCAGGAAATTGTAAAAGAGACAGCGTTAAGAATTTATGAAGATTACAAGGATGAAGTTCCTGTTTTCATTGGTGTTTTAAATGGGGTGGTGATGTTCTTCTCAGATCTTTTAAAATATTACCCGGGGGAATGCGAAATTGCCTTCATTCAAATGAGTTCTTATGTAGGAACTGAGTCTACAGGGATTGTTTATCAGAAAATGGAGCTTACTAAGGATGTAAGAGACCGTCACATTATTCTTGTAGAAGATATTGTAGATACAGGAAATACGGTTGAAAGTCTTTTCAAATATTTCAAAGAAACACAACGTCCTAAATCTGTAAAGCTGGCAAGTTTCCTATTGAAACCTGAGATTTACAAGAAAGACTTCAAACTGGATTATATCGGAAAAGAAATTCCAAACAAATTTGTACTTGGATACGGACTGGATTATGATGAATTAGGAAGAAACCTTCCGAATTTATATCAGTTGGAAGACGGACAAATCAACCATTAA	MESIKVHDKTFVPYLKDAEIQEIVKETALRIYEDYKDEVPVFIGVLNGVVMFFSDLLKYYPGECEIAFIQMSSYVGTESTGIVYQKMELTKDVRDRHIILVEDIVDTGNTVESLFKYFKETQRPKSVKLASFLLKPEIYKKDFKLDYIGKEIPNKFVLGYGLDYDELGRNLPNLYQLEDGQINH	PGPT0007295_1503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
BMS003_03965	1590	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGATTTTACTGCAAAATATATCCTTTGGGTTTCCGGGAGGAAATCTTCTATTCAATCATACGAATTTAACAATACAGTCTCATACCAAATCTGCTTTGGTAGGCAGCAACGGCATGGGAAAATCAACCCTGCTGAAAATGATCGCAGGCGAAATACAGCCTTTAAACGGTAATATTAATATTCAAGGCGATATTTTTTATGTGCCTCAGATGTTTGGTAATTGTAATCATCTTACCATCGCTGAATGCCTGAAAATAGATCAAAAATTAAATGCGCTCCAGAAAATTACCAATGGAGAAGTAAATGAAATATATTTTGAAATCCTCAACGATGATTGGGACATTGAAGAACGGTCTCAGCAAGCTCTGGAACATTGGGGACTCGAAAATTTTGACTTAACCCAAAAGCTTGAGGGTTTGAGCGGAGGGCAGAAGACCAAAGCTTTTCTTGCCGGAATTCAGATCAATCAACCAGATATTATCATCTTGGATGAACCTACCAATCATCTGGATCTTAATGGCAGGAAGTTGCTGTATGATCTTATTGAGAAAACAGCTGCAACGGTGGTTATCGTAAGCCATGACCGTACTTTGCTGAATCTTGTGGATACTATATTCGAATTGACTAACCAGGGAATTACAATGTATGGAGGTAATTATGATTTCTATGCAGAACAAAAAGAAGTAGAGGAGGAAGCATTGCATCATGATATCCATTCCAAAGAAAGGGCTCTGAAAAAAGCAAAAGAAAAAGAACGGGAAACACTGGAACGTAAGCAAAAGCTTGATGCAAGAGGAAAAGGGAAGCAGGAAAAATCCGGTGTGGCGAGAATTATGATGAATACCCTTCGGAATAATGCTGAAAAAAACAGTTCAAAACTGAAAAGTGTACACGCAGAGAAAATCAGTGGGATTTCAGGAGATTTAAGAGATCTGCGTTCCTCTTTAAAGAATTCTGATCAGATGAAAGTTAATTTTAATGACTCCAACCTGCATTCAGGAAAAATTCTTGCAGCTGCTGAAGATATTAACTTCAATTACGGAAAGGGAAAACTCTGGAAAGAAAACATCAGTATTGAGCTGCGAAGTGGGGATCGAATCTCCGTAAAAGGTTCAAACGGCTCCGGAAAAACGAGTTTAATAAAGCTTCTGCTGGGAAATATTGATCCTTCGGAAGGAAAAATAAACAGAGCAGCATTCAATAGTATTTATATTGATCAGGAATACTCTCTGATTGATAATGACACAACTCTTTATGACTTCGTACAAACTTTCAACGATAGTGCATTGCAGGAATCCGAAGTGAAAACATTACTGTCCAGATTTTTGTTTGGTAAAGATACCTGGAACAAGAAGTGTGGTATGCTGAGCGGTGGAGAGCGTTTACGATTGCTTCTCTGCGGGCTTTCCCTCAGTACTCAGGCTCCGGATATGATGATTCTTGATGAGCCTACCAATAACCTGGATCTGCAGAATGTAGAAATTCTCACCAGTTCTATCAAAGATTATCATGGAACCCTGCTGGTGATTTCCCATGATGAAGTTTTCCAGGAAGAGATTGGAATTGATAGGGAATTGAGACTTGATTAA	MILLQNISFGFPGGNLLFNHTNLTIQSHTKSALVGSNGMGKSTLLKMIAGEIQPLNGNINIQGDIFYVPQMFGNCNHLTIAECLKIDQKLNALQKITNGEVNEIYFEILNDDWDIEERSQQALEHWGLENFDLTQKLEGLSGGQKTKAFLAGIQINQPDIIILDEPTNHLDLNGRKLLYDLIEKTAATVVIVSHDRTLLNLVDTIFELTNQGITMYGGNYDFYAEQKEVEEEALHHDIHSKERALKKAKEKERETLERKQKLDARGKGKQEKSGVARIMMNTLRNNAEKNSSKLKSVHAEKISGISGDLRDLRSSLKNSDQMKVNFNDSNLHSGKILAAAEDINFNYGKGKLWKENISIELRSGDRISVKGSNGSGKTSLIKLLLGNIDPSEGKINRAAFNSIYIDQEYSLIDNDTTLYDFVQTFNDSALQESEVKTLLSRFLFGKDTWNKKCGMLSGGERLRLLLCGLSLSTQAPDMMILDEPTNNLDLQNVEILTSSIKDYHGTLLVISHDEVFQEEIGIDRELRLD				NA	NA	NA	NA	NA
BMS003_03966	933		COG2267	Monoacylglycerol lipase	ATGAATCCACTCCAAAAATCAGGATACCTACCTGCAACCACAGCAGATCAAACCCCACTCTTTTACACTTTATTCTATCCTGAAACAATTCCTGTAAAAGCGACGTTACAAATCGTTCACGGCATGCAGGAACACAGCGGAAGATACGCAGAAATTGCAGAATATTTTGCAGTTCACGGAATAGCCGTATTGACGTATGATCATTTGGGACACGGAAAATCTGTAAAAGACAAAAAAGAGATTGGTTTTTTCCAACTTGACAAACCGGATGAAAGACTTGTTTCAGATGCGGAAATGATGGCAGACCATCTTGCTGGGCAATATCCGGATGTTCCTCATTTTATTTTGGGACATTCTATGGGATCTTTTATTACCCGCTGTCTTCTTCAAAAGGCAAACAGTAAATTTTCCGGAGCTATCATTACAGGAACCGGTGGCCCTTTACCGGGAATAGATATATTGAGAGGTTATTTGTCACTGGCTAATGCCATTGCTCCTCATCATCGTACTTTCTTGAATTCTGTTTTTACGAGTGTCAATAACAAACATTTTAAAAAGGACAAAGATTTCAGTGATACCAGCTGGCTGAGTGTCAATACAAAAAACAGAAAAGCCTTTGAACAGGATGGACTTTGCGGTATTCCATTTACTCATAATGCTTTTTATACTTTATTTACCATTTATAAAAAAGCGACAGCGAGAAACTGGGCTGCACCTATTTCTAAATCATTTCCTTTTTTATTCGTAAGCGGACAGAATGATCCGATTGGTGATTTTGGAAAAGGAGTTATGCACACAGTGAATCATTTAAAAGCTGACGATTTCCAGCATGTAGATGTAAAGATCTATCCGGAGATGCGTCATGAGATTTTAAATGAGGAAATAAGAGAGGGAGTTCTTAAGGAAATTTATAACTGGATGTTAAAACAATAA	MNPLQKSGYLPATTADQTPLFYTLFYPETIPVKATLQIVHGMQEHSGRYAEIAEYFAVHGIAVLTYDHLGHGKSVKDKKEIGFFQLDKPDERLVSDAEMMADHLAGQYPDVPHFILGHSMGSFITRCLLQKANSKFSGAIITGTGGPLPGIDILRGYLSLANAIAPHHRTFLNSVFTSVNNKHFKKDKDFSDTSWLSVNTKNRKAFEQDGLCGIPFTHNAFYTLFTIYKKATARNWAAPISKSFPFLFVSGQNDPIGDFGKGVMHTVNHLKADDFQHVDVKIYPEMRHEILNEEIREGVLKEIYNWMLKQ				NA	NA	NA	NA	NA
BMS003_03967	195			hypothetical protein	ATGCCAGTATTCCAAACATCATCATATCTCCCATCAAAAGTAAACAGTGGGTCTCAGCTGTACTACACTCTGCTTTCCCCAGCAACACTAAAAGCTACCCTACTTATTGTTCACGGCATGCAGGAACACAGTGGAAGATATGCAGAGATTGCAGAATATTTTGCAAGTCATATAATGAAACCTAACAGGTTTTAA	MPVFQTSSYLPSKVNSGSQLYYTLLSPATLKATLLIVHGMQEHSGRYAEIAEYFASHIMKPNRF				NA	NA	NA	NA	NA
BMS003_03968	585			hypothetical protein	ATGAAATTTAAAATTCTATTTCTTCTTTTAATTGGTCCTTTGTTTTATCTAAAAGCTCAGGATAAAGTAAACGACTATCTAAATATTCCGGGACCTATTAAATTAAACCAAAAAGAATATAATCTAGTCTGGAGCTCTCATCCCAATGAAAATTATTTCAAGCAGGAATATCTAAATTCAAAAGAGAACATCAACCAATACAATACTATGGTTTTAATTGAGTTTGTAAAAGGAGATTTTACTTTGAAAGACGCTATTGATCAAAAAGTAGGAGAACTTCAGGAAATGAAGAAAACCAATCCGGTTATTAATTATCAGGTTCTTGAAAATAATGGAGAATATATTTTAGATTTTCTTATCAGCAAAAACTCAAAAGATGGCAAGGACATACTGATTGCAGAAAGAAATATTTACCGTTATAAACTTATTAATAAAACCAAAAATAAAGGAGTTCTTCTTTTTGCAGTAAGTGAAAGAGGATATGAGAAAAATATGTATAACTTCTTTAATAATTTAAAAAACAACTCTTCTCAATTAATTGAAATTATTGGAAATTACAAGCTTCCAGATATTGAGATAAAATAA	MKFKILFLLLIGPLFYLKAQDKVNDYLNIPGPIKLNQKEYNLVWSSHPNENYFKQEYLNSKENINQYNTMVLIEFVKGDFTLKDAIDQKVGELQEMKKTNPVINYQVLENNGEYILDFLISKNSKDGKDILIAERNIYRYKLINKTKNKGVLLFAVSERGYEKNMYNFFNNLKNNSSQLIEIIGNYKLPDIEIK				NA	NA	NA	NA	NA
BMS003_03969	1287	purA_3	COG0104	Adenylosuccinate synthetase	ATGTCAACTTATGTAGTTGTAGGTCTTCAGTACGGAGATGAAGGTAAAGGTAAAATCACGGATGTTTTATCAGCAAAATCAGACTATGTAGTACGTTTCCAGGGTGGAGACAACGCTGGTCATACGGTTTATGTGGGTGATGAAAAATTCGTTCTACACCTTCTTCCTTCAGGAGTTCTTCAATGCAAAGGGAAATGTATCATTGCGAACGGAGTAGTGGTAAACCCTAAGTCTTTCATTAAAGAAGTTGGTCAGATCGAGAGCAAAGGCTTAAGGACAGATCATATCTTTATCAGCAGAAGAGCGCATGTCATCATGCCTTACCACATCCTTTTGGATACTTACCGTGAAGAGGAACACGGAGGAACTCAGATCGGAACTACCAAAAAAGGAATCGGACCTTGTTATGAAGATAAAATTGCAAGAGTCGGGATCAGAATGGTAGATCTTTTAAATCCTGAAATTTTAAGAGATAAAATAGAGAAGAACTTAAAAGTTAAGAACTCTCTTTTTGAAAAATATTACGGAAAGCCAGCTTTAGACGTTGAAGAAATTTACAACGAATATTTGGAAATCGGAAAACAGCTTCAGGACAGAATTGTTGATACTGAACTTGAGCTGAACGAAGCGATCAGAGACGGTAAAAACGTTTTATTCGAAGGAGCACAGGCATTAATGCTTGATATTGATTTCGGTACCTATCCATACGTAACTTCTTCTTCTCCGTCTACAGGAGGTGTTTGTTCAGGAGCAGGTGTGCCGCCAACCTCACTTCAAAACCTGATCGGAGTAGCAAAAGCTTACTGTACAAGAGTAGGAAACGGGCCTTTCCCTTCTGAATTAGATAACGAACTGGGTGAGAAGATCAGACAGATCGGTGGTGAATTCGGAGCAACTACAGGAAGACCAAGAAGAACAGGTTGGTTAGACCTTGTTTCTTTGAAGCATGCTTGTATGATCAACGGAATCAACAACCTTGTGATCACTAAGCTTGACGTTCTTACAGGAATTGAAAACCTGAAAGTAGTAACACATTATAAAACTGAGGACGGAAAAGTTATTGATTATTTCACTTCTTCAACAGAAAAATTGTACAACTACGAATCAATCTATAAGGATTTACCAGGTTGGAGTGAAGATATTACTAAAGCAAGAAGCTATGATGAACTTCCTGACAATGCTCAGAAGTATATCGAGTTTATTGAAGAATACCTGGGAATCAATGTATACCTGGTTTCTGTAGGTCCTGAAAGAAGTCAGAACATTATCAGAAAAGAATTATTCTAA	MSTYVVVGLQYGDEGKGKITDVLSAKSDYVVRFQGGDNAGHTVYVGDEKFVLHLLPSGVLQCKGKCIIANGVVVNPKSFIKEVGQIESKGLRTDHIFISRRAHVIMPYHILLDTYREEEHGGTQIGTTKKGIGPCYEDKIARVGIRMVDLLNPEILRDKIEKNLKVKNSLFEKYYGKPALDVEEIYNEYLEIGKQLQDRIVDTELELNEAIRDGKNVLFEGAQALMLDIDFGTYPYVTSSSPSTGGVCSGAGVPPTSLQNLIGVAKAYCTRVGNGPFPSELDNELGEKIRQIGGEFGATTGRPRRTGWLDLVSLKHACMINGINNLVITKLDVLTGIENLKVVTHYKTEDGKVIDYFTSSTEKLYNYESIYKDLPGWSEDITKARSYDELPDNAQKYIEFIEEYLGINVYLVSVGPERSQNIIRKELF	PGPT0020140_4216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS003_03970	849			hypothetical protein	ATGAAACAACATAACCAAAACCAGGAATTTCGGTTCAACGAAGTCCTGTTCGAGCACCGAAATAAAGAATATGGTGCCTATGTATTAAGAAACGAATCAGATAGAATATTAACCAAAGCACTTTTTGTAGGAATAAGTTTATTAGCAGCAGCTTCTCTAACACCGCTCGTGATTTCAGCATTTAAAGTTGAGACTAAAGCGAAAGCGCCGAAAGGAGTTATCATTGACTTTATTCCAGATATAGAAGAGCAAGTTGCTCCTCCAGTAAAAATTACTCCGGTAAAACCTGAGGCAGCTCCAAATACAAAGACTTTTGACAGTACAGTGCCTACACCATCAAGTACAGCTCAGGATAATGTGAAAAAAGATCCCATTCCTGATGATGCTATAGCAGGTTTTAAAGATAATTTTAAAGGAGATCCTGTAGCACCTAATACACCCAACGTTCCAACAATATCAGTAGGAACAGGTCCTGTAATTAATATGCCGCCACCAGTAATCTCTGATCCGGTGGATAAAAATAAAATTGCAGAATCTGGAGAACTTGGGGTAGAAGCTAGTTTTGCAGGAGGAATAGACTCCTTCAGAAATAAAGTAATGAACAACTTCGATGGTTCAGGATTTGAATCAGAAGATGTTGTAAAAACGACAGTTACCTTTATTGTAGAAATGGACGGAACGATTTCAGGGGTAAAAGCTAATGGAACCAATGCCGAATTTAATAACGAGGCAATGAGAACAATCAAGAACATCTCAAAGAAAGGAAAATGGATTCCTGCCAAAAACAAAAAAGGAGAATTCGTAAGAAGTTATTTCAAATTTCCCATCTCAATGAAGTTTGATAATTAA	MKQHNQNQEFRFNEVLFEHRNKEYGAYVLRNESDRILTKALFVGISLLAAASLTPLVISAFKVETKAKAPKGVIIDFIPDIEEQVAPPVKITPVKPEAAPNTKTFDSTVPTPSSTAQDNVKKDPIPDDAIAGFKDNFKGDPVAPNTPNVPTISVGTGPVINMPPPVISDPVDKNKIAESGELGVEASFAGGIDSFRNKVMNNFDGSGFESEDVVKTTVTFIVEMDGTISGVKANGTNAEFNNEAMRTIKNISKKGKWIPAKNKKGEFVRSYFKFPISMKFDN	PGPT0003745_2042	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
BMS003_03971	774	soj	COG1192	Sporulation initiation inhibitor protein Soj	ATGGCAAAAATCATAGGTATTGCTAATCAAAAAGGAGGTGTTGGTAAAACTACCACCGCCGTAAACCTGGCAGCAGCATTAGGAGTATTGGAAAAAAGAATATTAATCATTGATGCTGATCCGCAGGCGAATGCTACATCTGGTCTGGGTGTGGAAGATGTTCAGTATTCTACATATAATCTGCTGGAGCATAGTGCAGACACAAGAGTTTGTATCAAAAGAACTGCAACTCCAAACCTGGATATTATTCCGTCACATATTGACCTGGTCGCTGCGGAAATTGAATTGGTAGACAAGGAAGATCGTGAATATATGCTGAAAAAAGCATTAGCCAGCGTAAAAGACGATTATGATTACATCATCATCGACTGTGCACCGAGTTTAGGTCTTATTACCGTAAATGCGCTTACGGCAGCAGACTCTGTAATCATTCCGATCCAGTGTGAGTATTTTGCGTTAGAAGGACTTGGAAAACTTTTGAATACCGTTAAAAATGTTCAGAAGATCCACAACAAAGATCTTGGTATAGAAGGTCTTCTTCTTACCATGTATGACAGCCGATTGAGATTATCCAATCAGGTAGTGGAAGAAGTAAACCTGCACTTTCCTGAGATGGTCTTTGAAACCATCATCAGCAGAAATGTAAGATTGAGTGAAGCACCAAGTTTTGGAGAAAGTATCCTGAATTATGATGCAGAAAGTAAAGGAGCTGTTCAGTATATTCAGTTAGCTGAAGAAGTTCTTTTAAAGAATGAAAACTTAATAAAGAATTAA	MAKIIGIANQKGGVGKTTTAVNLAAALGVLEKRILIIDADPQANATSGLGVEDVQYSTYNLLEHSADTRVCIKRTATPNLDIIPSHIDLVAAEIELVDKEDREYMLKKALASVKDDYDYIIIDCAPSLGLITVNALTAADSVIIPIQCEYFALEGLGKLLNTVKNVQKIHNKDLGIEGLLLTMYDSRLRLSNQVVEEVNLHFPEMVFETIISRNVRLSEAPSFGESILNYDAESKGAVQYIQLAEEVLLKNENLIKN				NA	NA	NA	NA	NA
BMS003_03972	870	parB	COG1475	putative chromosome-partitioning protein ParB	ATGGGACGCGGCTTGGGCGCCATTTTAAGTGCAGAATCCAAAGCAACTATCAATTCCGCTACTGATGAAGGAGCAGATAAGTTTGTAGGAAATATTGTAGAAGTTGCGCTTGAAGATATCTATCCGAACCCAACGCAGCCGAGAACTTATTTTGATGAAAAGGCATTAAATGAACTTGCTCAGTCAATCAAAAACCTAGGCGTAATCCAGCCGATTACCCTAAGAAAAGACGGTGAAAAGTTTGAAATCATTTCCGGGGAAAGACGTTACAGGGCAACTAAAATTGCAGGCTTAACGACTATTCCTGCCTATATCCGTTTAGTAAATGATCAGGAACTTCTTGAGATGGCTCTTGTTGAAAATATCCAGAGAGAAGACCTTGATGCTATCGAAATAGCATTAACCTATCACAGGCTTTTAGAGGAAATAGGTCTTACTCAGGAAAATCTGAGCCAGAGAATAGGAAAGGATAGAAGTACTATTACCAATTCTATCAGACTTTTAAGATTAAATCCGGATATTCAGAATGCCATCAGAAGTGGTGAGATTTCTGCAGGACACGGAAGAGCGATTATCAGCCTTGAAAGTGAAGAAGATCAGCAAGTCCTGTTTGATCTTATTATCAAAGAAAAATTAAACGTTCGTCAGGCAGAGCAAGCCGCTGCTGCATTGAAGAATCCAAAATCTCCTGCGGCTAAAAAAGCAAAAGTGGAGCTTTCCAATAACTATAAAAAAGCCCAGAAGACAATCGCTGATATATTGGATGTGAAAGTGGAAATCAAATCTTCTGGAAACGGTAAAAAAGGTAAAATTGTTCTGGATTTCAAAAATGAAGAAGAGCTGGAATATATTTTATCCCATATTAAATAA	MGRGLGAILSAESKATINSATDEGADKFVGNIVEVALEDIYPNPTQPRTYFDEKALNELAQSIKNLGVIQPITLRKDGEKFEIISGERRYRATKIAGLTTIPAYIRLVNDQELLEMALVENIQREDLDAIEIALTYHRLLEEIGLTQENLSQRIGKDRSTITNSIRLLRLNPDIQNAIRSGEISAGHGRAIISLESEEDQQVLFDLIIKEKLNVRQAEQAAAALKNPKSPAAKKAKVELSNNYKKAQKTIADILDVKVEIKSSGNGKKGKIVLDFKNEEELEYILSHIK	PGPT0014815_7022	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS003_03973	639			hypothetical protein	ATGAAGAAAATATTTTTCACCTTTTTCTTGTGTTTCGCAGCACTGGCTTATTCACAAGTAAAACCAATTGATACCGTTCGGATGGAAACTCCTCCGAAGGAAGAATCCCATGTAGTAAAACCAGGTAAAACAGAAGCTAAGATTATAGAAGATCTCGAAAAAGCTAATGGTCCAACAGTAAAAACTATAAAATTGAATCCCACCAGAGCAGGTTTGTATTCTGCAGTTTTACCCGGATTAGGACAGTTTTATAACAAAAAGTACTGGAAGATCCCTATTGTTTGGGGAGCGGTAGGAGCTGGTGTCGGTATTGCTGTCTGGAATGACAACCAGTACAAAAAATACCGTGAATATTACGTTGCAAAACTGAATGGGACCCCTAATGAATTTGTAGACAGCCATCCGTGGCTTGACAAAAAAGCCTTGGGAAATGCTCAGGATAGAGCCAAAAGGCAGAGGGATTACGCTATTGCCATTACGGGGTTAATTTATATCCTGAATATTGTAGATGCCGTAGTAGATGCCCACCTTTACGAAAGCCGTCATGATCCGGATTTGGTTTTTAAACCATCGGTTATTCAGGATCAGTATGGGTACAGTGCGCCGAAAACAGGCTTTAGTTTAAGTTACAGATTTTAA	MKKIFFTFFLCFAALAYSQVKPIDTVRMETPPKEESHVVKPGKTEAKIIEDLEKANGPTVKTIKLNPTRAGLYSAVLPGLGQFYNKKYWKIPIVWGAVGAGVGIAVWNDNQYKKYREYYVAKLNGTPNEFVDSHPWLDKKALGNAQDRAKRQRDYAIAITGLIYILNIVDAVVDAHLYESRHDPDLVFKPSVIQDQYGYSAPKTGFSLSYRF				NA	NA	NA	NA	NA
BMS003_03974	702	dapB_2	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGAAAATAGCATTAGTTGGTTACGGTAAAATGGGTAAGATCATTGATGAGATCGCACAGAAGAGAGGTCATGAAGTAGTTGCCTGTCTGAAAGAAACCCCAACTGCTGAAAATCTTAATAACCCGGATGTTGTGATTGAATTCTCATTGCCGGAAGTTGCATTTGAAAACATTAAAGCTTGTCTTGAAAATAAAATCCCGGTGATCTGCGGAACAACAGGATGGCTTGAGAAAAAAGCTGAAATAGAAAAAATGGCTGTAGATAACGATATAGCTTTCTTATATAGTTCTAACTTTAGTTTAGGCGTAAATTTGTTTTTTGCTTTAAACGAAAAATTGGCGGATCTGATGAAAAATGTGAGCGAATACTCCTGCCAGCTGGAAGAAATTCACCACATCCATAAAAAAGATGCTCCAAGCGGAACAGCTATTTCCATTGCTGAAGGAATCATCCGGAACAACCCGAAGTTTGATGCGTGGAAGCTGGAAGAAACAGAAGGAGAGCAGCTTGGGATCTTTGCAGTCCGTGAAGATGAAGTACCGGGAACCCACAGCGTGTATTACAGAAGTGAAGTAGACGAAATCGAAATAAAACATACCGCTTTCAACAGAAACGGTTTTGCACTGGGAGCCGTAGTCGCAGCAGAATGGATTAAAGATAAAAAAGGAAACTTCGCCATGAAAGACGTTTTGGGACTTTAA	MKIALVGYGKMGKIIDEIAQKRGHEVVACLKETPTAENLNNPDVVIEFSLPEVAFENIKACLENKIPVICGTTGWLEKKAEIEKMAVDNDIAFLYSSNFSLGVNLFFALNEKLADLMKNVSEYSCQLEEIHHIHKKDAPSGTAISIAEGIIRNNPKFDAWKLEETEGEQLGIFAVREDEVPGTHSVYYRSEVDEIEIKHTAFNRNGFALGAVVAAEWIKDKKGNFAMKDVLGL				NA	NA	NA	NA	NA
BMS003_03975	1641			hypothetical protein	ATGAATTATTTTTTAACTTATACAGTATATGTCCTCATACTATCCGTATTAATGGGGATTTCATCTTGGAAGCTGTTCAAGAAAATGGGCTATAGTCCTTTATTTGCTTTTATCCCTTTTTACAACTATTTCATTATTCTTAAGGAAACCAAACATCCTAAATGGTGGGCTATGCTGTCTTACCTACCGATTGTAGGGCCAATCATGATGTCTGTTTTTCACCTTTATTTAGTGAAAAAATTTGGGAAAACGCTTTTCAAAGATCAGATTCTTACCGTAATTCTGCCATTTATCTATATGGCGGTAATCAACTATTCTAAAGATGTAGAGTTAGAAGATGAAAACGCAAACGATCTGTTTCTTACAGACGAAGAGAAAAACGACAAAAAGAAAGATACATTCATTGGTTCCATTACCTTTGCAGTAGTTTTTGCTACGATAATTCACGTTTTCGTAACACAGCCTTTCGGGATTCCTACAGGATCTATGGAAAGAACATTACTGGTGGGAGATTTCCTTTTTGTAAACAAATGGAGCTATGGTTACAGACTTCCGATGCGTCCGGTAGCGATACCTTTCCTTCAGGGAACTATCATGGATACAGGACAGAAAGGGAATCCTAAAGATGATCCAAAATCTTATGTTGATGCTGTAAAATTGCCTTATACCAGGATTCTGCAATTCAATAAACCTCAGAAAAATGATGTAGTTGTTTTCAACTATCCTCAGGATTCCGTACATACTGCGATCGACAGAAAAGATCCTTATGTAAAAAGATGTGTAGCTACAGCAGGAGATACTTTTGAAATGAGAGCAGGAAGACTTTTCGTTAACGGAAAGCCGGAAACTGTTTTGGGAGACCAGGAAGTACAGCACAGATATATAGTAACAACAGGAAGTCAGCTGGACATCCCTTCGTTGTACAATACTTATGGGTTTTTACCAGTTCAGGAGTTGCAGACTGATAAAGGATATCTTTATGTTTTTCAAGGGTTGACAGATAAAACTGCAAAAGAAATTAAGGAGCTTCCGCAGGTTATTGAGATGAAAGAAGAAGTTTCACCAAAAGGAGAAGCAGCTGTATATTACAGAGACGAAGCTAAAACAAAGATTGATACCACCCAATCCATCTTTCCGATCAATAAACCTTGGAATGCTGATTGGTACGGACCGTTAAGAATTCCTAAAAAAGGAGATGTCGTGGCTATCAACCAGGAAACGCTTCCAACTTATCAGTGGATTATTTCTGAATACGAACACAATAGCTTAGAAAAGAAGGACGGAAAGATCTTCATCAACGGAAAAGAAGCTAGCCAGTATACGATTCAGCAGGATTATTATATGATGGTAGGGGACAACAGAGATGCCTCATTAGATGCAAGATTCTTTGGTTTCGTTCCTGAAGAAAATATTGTCGGAAAACCAATGTTTACATGGATGAGCTTACAGGGAGCATTCTCAGACAGCAGCTCCACTTACCAGGCACCATTCAAAATCCGTTGGGAAAGGATGTTTAAAGCAACCAATACAGGAGAGGCTAATAAAACCTCTTACTGGTGGATTGCGGCAATGATCCTGATCTTATTCTTCGGATGGGAGTATTTCGTGAAATTATTCAGAAAGAAAAAAACAGAAGAATAG	MNYFLTYTVYVLILSVLMGISSWKLFKKMGYSPLFAFIPFYNYFIILKETKHPKWWAMLSYLPIVGPIMMSVFHLYLVKKFGKTLFKDQILTVILPFIYMAVINYSKDVELEDENANDLFLTDEEKNDKKKDTFIGSITFAVVFATIIHVFVTQPFGIPTGSMERTLLVGDFLFVNKWSYGYRLPMRPVAIPFLQGTIMDTGQKGNPKDDPKSYVDAVKLPYTRILQFNKPQKNDVVVFNYPQDSVHTAIDRKDPYVKRCVATAGDTFEMRAGRLFVNGKPETVLGDQEVQHRYIVTTGSQLDIPSLYNTYGFLPVQELQTDKGYLYVFQGLTDKTAKEIKELPQVIEMKEEVSPKGEAAVYYRDEAKTKIDTTQSIFPINKPWNADWYGPLRIPKKGDVVAINQETLPTYQWIISEYEHNSLEKKDGKIFINGKEASQYTIQQDYYMMVGDNRDASLDARFFGFVPEENIVGKPMFTWMSLQGAFSDSSSTYQAPFKIRWERMFKATNTGEANKTSYWWIAAMILILFFGWEYFVKLFRKKKTEE				NA	NA	NA	NA	NA
BMS003_03976	723			hypothetical protein	ATGGGAGTATTTCGTGAAATTATTCAGAAAGAAAAAAACAGAAGAATAGTGTTTAAAAGTAAAATATTTAATAGAGTCCTTTTAACAGGCAGCTTTATTGTAACTCTTTTTATTATTGCAAAACTCTCCGGGGTTTTGCAATATGCTTTTGTACCCACAGCGGGCAATGAACCTACCATCAAAAAAAAGTCATTTATTGTGATGACCAATATCCTTCCTTACGACAAATTTAAAATGATTGCTTACAATCAGACTAATTTGGATTATCCTCAGGGAGCCTATGTACAAAGATTAATAGGAACTGAAAATGATGTGATTTTAATTAAGAATGGTAAATTATATGTCAATAATACGTTGATTGATAATTTTAATGTGAAACATGCTTACAAAATAGACAGAGGGTATGCCAATGATCTCCTGTCCAAAGGAACTGAAGAAAGTGAAATCTTTCAGATTGACGATAATTATTTCATTACTCAATTAAGCGATAAAGAACTTAATGGTAGTTTTTTTCATGAAAGGTTTATAAACCCCAATACAGATCAGGATATTCACAAAACTTATCATAAAGACTGGAATGCCGATAACTTTGGACCCATAAAAGTTCCAAGTGGAAAATTATTCTTTTTAGGAGATAATCGTAATGCAAGCTTAGATTCCCGTTATTTAGGCTTTGTTGATGAGAAAGATGCTGTAGGAAGGGTGGTTTATCCTAAAAACTAG	MGVFREIIQKEKNRRIVFKSKIFNRVLLTGSFIVTLFIIAKLSGVLQYAFVPTAGNEPTIKKKSFIVMTNILPYDKFKMIAYNQTNLDYPQGAYVQRLIGTENDVILIKNGKLYVNNTLIDNFNVKHAYKIDRGYANDLLSKGTEESEIFQIDDNYFITQLSDKELNGSFFHERFINPNTDQDIHKTYHKDWNADNFGPIKVPSGKLFFLGDNRNASLDSRYLGFVDEKDAVGRVVYPKN				NA	NA	NA	NA	NA
BMS003_03977	618			hypothetical protein	ATGCAAAATATTTTATTACCGGCATTCTATATGCCCCCAATTTCATGGTTTTCAGTGTTTTTGAATCCTGAAAACGAAGTTGTACTGGAACAATTTGAAAACTTTCCGAAACAGACTTATAGAAACAGAGCAAACATCTATGGAGCCAACGGAAAGCTATCATTAATAATCCCTATTCACCATAACGGAAAAAGAGAATTCAAAGACATTGAAATGTCTTATCGTGAAGACTGGAGAACCCTTCATTGGAAATCAATCAAGACAGCATATCAAAGCTCTCCTTACTTTGAATATTACGAAGATAAATTCAGAAAAATATTTGATCTTAAAGAAAAATTCCTTTTGGATTTTAACCTTAAAGGTATAGAAGTGATCCAACAGATACTGAAAACAGAAAAGGCACACTCTTTGAATGAAGAATATATTAAAAATCCTCAAAGTATTGATTTTAGAGAAAAATTTTCGTCAAAGCTTCCTACAGAATTTAAAATGGAAGAATATTACCAGACGTTTTCTGATAAGTTCGGATTTTTAGAAGACCTGTCGGTTCTCGATCTTATTTGTAATAAAGGACCGGAATCATTGGTCTATATAAAGAATGTAAAACAATCATATTAG	MQNILLPAFYMPPISWFSVFLNPENEVVLEQFENFPKQTYRNRANIYGANGKLSLIIPIHHNGKREFKDIEMSYREDWRTLHWKSIKTAYQSSPYFEYYEDKFRKIFDLKEKFLLDFNLKGIEVIQQILKTEKAHSLNEEYIKNPQSIDFREKFSSKLPTEFKMEEYYQTFSDKFGFLEDLSVLDLICNKGPESLVYIKNVKQSY				NA	NA	NA	NA	NA
BMS003_03978	1683			hypothetical protein	ATGAAAAAGGTATTATTAGCTGCAGTTTTTTTAGCAGGTTTTAGTTTCTCTTTTGCACAGGAATCTAAAGCTAAAAGTAAAGATCCAAATGAAGATAAAGATCTTATGACATGGTATCATAAAGATTTTGCAACTTCAAAAGTATATGGGATAAATACGGAAAATGCTTATAAATACTTAGAGTCTAAAGGACTGAAACCGAAAACTGTAGTGGTAGGAGTTTTGGATAGCGGAGTACAGGTAGATCACCCCGGATTGGTGAAGAATGTCTGGTCTAACCCTAATGAAATTCCCGGAAACGGTAAAGATGATGATGGGAACGGATACATTGATGACGTACACGGATGGAACTTTATAGGAGGTAAAAACGGAGATATTGATATAGACAATATGGAGGTGACAAGAGTAGTTGCCAAATATAAGCCTGTTTTTGAAGGCCCGGATTCCACAAAGAATAAAGCTAACCAGGCTCAGATGAAGGAAGAGTTTGATATGTATATGAAAGCCAAAGATATGTTCAACAAAAAAAGCATTGAGGCTATACAGAATTTCAGAACCTATTCTATGCTGAACGAGCTTATTCCCAATATGGTAAAATTACTGGCAGGTAAACCAGTGACAGCCGGAACTATTTCAGAAATAAAAGCACCTACAGATCAGAGAGATGCTATTGCACTGGAATTCTTAGGCCAGATTTCTCAAAGTCCTGAATTCAAAGGAAAATCGTCTGCTGAATTTGAAAAAAAGATGAAGGAGGAAATGAAAGAAGCTATCGATCACTTTGCTCCGGCTGCAAAACAATATGATCTTTCCTATGATCCTAGAAAAGAAATTGTAGGAGATAATTACGATGACTATTCTGAAAAGAACTATGGTAATAACCATTACGAAGGGCCGGATGCCGAACACGGAACCCATGTGGCAGGGATCATTGCCGGGCTTCCGCAGGGAAAGGAAGTTCAGTACGGTGTAGCTTCCAAAGTGGCTAAAATTATGTCTGTAAGAACAGTTCCAAATGGGGACGAAAGAGATAAAGACGTAGCAAATGCTATCAGATATGCCGTAGATAACGGAGCAAAAGTTTTGAACATGAGTTTTGGGAAACCTGTTTCCCCAGGTAAAAATGTAGTGTGGGAGGCCTTTAAATATGCTGAAGATAAAGATGTTCTTCTGGTAAAAGCTGCGGGAAACGAAAATGAAGATGTAGCTGAACATGTGGCATATCCTACCAACTTTAAGAATATTACAGATGATAAACCATTTGTAAACAATGTTCTTGTGGTAGGAGCAAGTACCAATAAAAATGATGCTTTGAGAGCCGATTTTTCTAACTACAATAAAAAAATGGTGAACGTTTTCGCTCCGGGAGAAGAAATTTATTCTACCGTTCCTAAAAACGAATACAAATATCTTCAGGGAACTTCTATGGCTTCGCCTGTAGTAGCAGGGGCAGCCGCTGTTTTACTGGCTTATATGCCGGATCTGAAACCATACCAGATCATTGAAGCACTTGTGAAAAGCAGTAACCCAAGCACAGCAAATGGGTTTTCAGATCAGTCACAGGCCGGAGGGGTTATAGACCTGAAAAAAGCGGCAGAATATGCCTATACAAATTTCTATAAAGGAAAACCAACAGTTACTCGTAAGCCTTCGAAATCCTTAAAAAAGGCTGTTAAAAAATAA	MKKVLLAAVFLAGFSFSFAQESKAKSKDPNEDKDLMTWYHKDFATSKVYGINTENAYKYLESKGLKPKTVVVGVLDSGVQVDHPGLVKNVWSNPNEIPGNGKDDDGNGYIDDVHGWNFIGGKNGDIDIDNMEVTRVVAKYKPVFEGPDSTKNKANQAQMKEEFDMYMKAKDMFNKKSIEAIQNFRTYSMLNELIPNMVKLLAGKPVTAGTISEIKAPTDQRDAIALEFLGQISQSPEFKGKSSAEFEKKMKEEMKEAIDHFAPAAKQYDLSYDPRKEIVGDNYDDYSEKNYGNNHYEGPDAEHGTHVAGIIAGLPQGKEVQYGVASKVAKIMSVRTVPNGDERDKDVANAIRYAVDNGAKVLNMSFGKPVSPGKNVVWEAFKYAEDKDVLLVKAAGNENEDVAEHVAYPTNFKNITDDKPFVNNVLVVGASTNKNDALRADFSNYNKKMVNVFAPGEEIYSTVPKNEYKYLQGTSMASPVVAGAAAVLLAYMPDLKPYQIIEALVKSSNPSTANGFSDQSQAGGVIDLKKAAEYAYTNFYKGKPTVTRKPSKSLKKAVKK				NA	NA	NA	NA	NA
BMS003_03979	492			hypothetical protein	ATGAAAAAGTTACTACTTGCAGGGATGTTGGGAACATCACTTTTTGCAGTGTCATGTTCCTCTGTTAACAAAGCAGCTACATCTCAAAATCAAAGAGCAGACTTTCTGAAAATGAAAGGAGATTGGCAAATCATAAGTGTAGACTACGAAAAAGGATACAAAATAAAACCTTTTGATGAAGGAGCAGATGCACAATGTTTTGTGGGAAGCCACTGGAGACTAATTCCTAACAACTGGACAGGAGCGTATACTTTGAACGGAGGCGGAGATTGCCCTGCAATTACACAACCTATCAAATTTGAAGTAAAAGACGGTAACACGTTTATGTTTAAAAAAATTGCTGCAGGTACAAAAGCAAAACAAAATTCTGTAGGGTACAGCCTTACTTTAATCAATCAGACTACAGATCAGTTTTCTCTTCAGCAGGATGTTCCTTTTGAAGGAGGTAGTGTAAAAGTGGTTTACAACTTCCAGAGAACAGGAATGAAATAA	MKKLLLAGMLGTSLFAVSCSSVNKAATSQNQRADFLKMKGDWQIISVDYEKGYKIKPFDEGADAQCFVGSHWRLIPNNWTGAYTLNGGGDCPAITQPIKFEVKDGNTFMFKKIAAGTKAKQNSVGYSLTLINQTTDQFSLQQDVPFEGGSVKVVYNFQRTGMK				NA	NA	NA	NA	NA
BMS003_03980	690	yiaD	COG2885	putative lipoprotein YiaD	ATGAAATTTACTAAAACATACGTAGGAGCCCTTTTCTTGTCATCAGCATTATTACTGACAAGCTGTGAAGCGGTTCAGAATTCAAATCACCAACAGAGAGGTACAGCAGTAGGTGCTGCTTCGGGAGCTGTACTTGGAGGTATCCTTGGTAACAATGTAGGAAAAGGAGGGAACGGTGCTATCGGTGCTGTATTAGGAGGAATTATCGGTGGTGTTGCAGGTAACGTTATCGGTAACAAAATGGATAAGCAGGCTAAAGATATTAAAGAAACTTTACCGGGAGCTCAGGTAGAAAGAGTAGGAGATGGTATTAAAGTAACCATGAATGAAAGCATTGTGAACTTCGCATTTGACTCTTCAAACCTTACTTCTGTTGCTCAGGGTAACCTGGACAAATTAGGACAGGTATTGGCTGATAATCCCGATACCAATATCAATATTTATGGATATACAGACAGCGTAGGTAAAGATGCTTATAACCTGGCACTTTCTCAAAGAAGAGCAGACGCTGTAAAAGCTTATTTAGTAGGAAAAGGAATTGCATCAAGCAGAATGTTCACAAAAGGTGAAGGTAAAAATATGCCGGTTGCAAGTAATGATACTGATGAAGGAAGAGCTAAAAACAGAAGAGTAGAGTTTGCTATTACTGCCAATGAAAAAATGATTAACGATGCCAAACAAGGGCAATAG	MKFTKTYVGALFLSSALLLTSCEAVQNSNHQQRGTAVGAASGAVLGGILGNNVGKGGNGAIGAVLGGIIGGVAGNVIGNKMDKQAKDIKETLPGAQVERVGDGIKVTMNESIVNFAFDSSNLTSVAQGNLDKLGQVLADNPDTNINIYGYTDSVGKDAYNLALSQRRADAVKAYLVGKGIASSRMFTKGEGKNMPVASNDTDEGRAKNRRVEFAITANEKMINDAKQGQ				NA	NA	NA	NA	NA
BMS003_03981	888		COG0382	Decaprenyl-phosphate phosphoribosyltransferase	ATGAAGAAATATTTAAAGCTGCTCCGTGTGGAGCAATGGGTGAAGAACCTGTTTGTATTTGTTCCTCTGTTTTTTTCAGGTAATATTACCAATGTTAATTTACTTGTAAAAAGCATTTTTGCATTCATTATATTTTCCCTTGCTGCAAGTGTGGTATATATATTGAATGATTACAATGATATTGAGGCAGACAGGAAGCATCCTGAAAAAAGAAGAAGACCTTTGGCTAGCGGAGCCATTTCAAGATCAACAGCAGTAGGAATCCTTATCGGGTTAGTTATTACAGATATTGCTCTTGTATTTTTCTCACAAATTTATTTCCACGAATATCTTTGGAAGTTTGCAACCATCATAGGTTTCTATGTGATGATGAATCTTGCTTATACATTCAAGCTCAAACATGTTCCTATCATTGATATTTTCATTATTGCAATAGGATTTGTTCTGCGGGTACTGGCAGGAGGTTATATTACCGGAATCAGTATTTCACAGTGGGCTATTCTGTTAACGTTTGTACTGGCTCTTGTGCTGGCAATCGGAAAAAGAAGAGGAGAGCTTATTAATGCACAGGTTTCAGGAAAAACAAGAAAGGCACTGGACGGATATAACGTACAGTTTGCAGATATTGCGCTGTCTATTTCTATTACGCTGGCTATTATCTGCTATCTGATGTTTACCCTTTCACCTGAAGTCCAGCAAAGATTCCATGCAAGGGTTTTTTACACCGTTATCTTTGTGGTATTTGCTTTACTGAGATACCTTCAGCAGACATTGGTATACAACAGAACAGAGTCTCCTACAAAAATTGTTTACAGAGACCGCTATATTCAGGTTACCCTGTTACTTTGGGTAGTTGTATTTTTAATTCAAATTTATTTTAAGAAATGA	MKKYLKLLRVEQWVKNLFVFVPLFFSGNITNVNLLVKSIFAFIIFSLAASVVYILNDYNDIEADRKHPEKRRRPLASGAISRSTAVGILIGLVITDIALVFFSQIYFHEYLWKFATIIGFYVMMNLAYTFKLKHVPIIDIFIIAIGFVLRVLAGGYITGISISQWAILLTFVLALVLAIGKRRGELINAQVSGKTRKALDGYNVQFADIALSISITLAIICYLMFTLSPEVQQRFHARVFYTVIFVVFALLRYLQQTLVYNRTESPTKIVYRDRYIQVTLLLWVVVFLIQIYFKK				NA	NA	NA	NA	NA
BMS003_03982	1320	dprE1	COG0277	Decaprenylphosphoryl-beta-D-ribose oxidase	ATGAAGCCGAATTTCATACAAAAAGTTACAAACTGGGGTAATTTCCCGGTAGTGGAGAAAGAAATGAGATCTGAGGACAGTTTCAAAAAAATAAAAGAATTTGTACTCAGACACAATGAGGTTATTGCCCGAGGCAACGGAAGATGCTATGGTGATGCTTCGTTGGGAGAATCTATATTTTCAACCAAAAAATTAAATAAGTTTATCAATTTTGACCGTTTAAACGGAATAATGGAATGCGAATCCGGAGTACTTCTTTCTGAAGTGCTGGAAATTGCCGTTCCGCAGGGATATTTCCTGTATGTTACTCCGGGGACAAAATTCGTATCCATAGGAGGGGCTATAGCTTCCGATGTTCATGGGAAGAACCATCATGCAGAAGGATGCTTTTCAGAATATGTGATTGAATTTAAGCTGATGACCGAAAATGGTGAAATTATTACATGTTCGAGAGAAGAAAATGCAGAAAAATTTTGGGCTACTATTGGCGGAATGGGGCTTACAGGAATTATTCTTACTGCAAAATTTAAGCTTAAAAATATAGAATCCGCATACATTCGTCAGGAAAGTATCAAAGCGGAAAATCTGGATGAAATCTTTAAACTTTTTGATGAAAGTGAAAGCTGGACGTATACTGTTGCCTGGATAGACTGTCTTCAAAAAGGAACAAATATTGGAAGAAGTATTCTGATGAGAGGTGAGCATGCCTTTCAACATGAGCTTCCTCAGAATTTTTCGAAAACACCTTTAAGACTAAAGAAAAAATTTTCCCCTACCGTTCCATTTTATTTTCCGGGCTTTGTATTGAATGCACTTACAGTAAAAATATTCAACTGGTTATACTATAAGAAGCAGGCAAAAAAAGAAGTGAAAAACTTTATAGATTATGAGACTTTTTTTTATCCTTTGGATGCTATTAACGACTGGAACAAAATCTATGGTAAATCAGGGTTTATACAATACCAGATGGTGATTCCTAAAGAAACAGGAAAAGAAGGGATGAGAAAAATCCTTGAAACGATCGCAAATAGCGGAAACGGATCATTCCTGGCAGTTCTAAAGCTGTTTGGAAAGAATAATGAAGACGCTTACAACTCATTCCCTGTTGAAGGGTATACACTGGCCCTGGATTTTAAAGTTAATTCAAAACTTAAAAACCTCGTAGATCAGCTTGATGCTATCGTTCAGGAGTTTGGAGGAAGAATTTATCTTACCAAAGACAGTATGAGCAGATCGTCTCTTACCAACTACCTTAAAAATATTCAAAATCCTAAATTTGTGTCTTTACAGCACAAAAGAATCATAAATAACAACTCATAA	MKPNFIQKVTNWGNFPVVEKEMRSEDSFKKIKEFVLRHNEVIARGNGRCYGDASLGESIFSTKKLNKFINFDRLNGIMECESGVLLSEVLEIAVPQGYFLYVTPGTKFVSIGGAIASDVHGKNHHAEGCFSEYVIEFKLMTENGEIITCSREENAEKFWATIGGMGLTGIILTAKFKLKNIESAYIRQESIKAENLDEIFKLFDESESWTYTVAWIDCLQKGTNIGRSILMRGEHAFQHELPQNFSKTPLRLKKKFSPTVPFYFPGFVLNALTVKIFNWLYYKKQAKKEVKNFIDYETFFYPLDAINDWNKIYGKSGFIQYQMVIPKETGKEGMRKILETIANSGNGSFLAVLKLFGKNNEDAYNSFPVEGYTLALDFKVNSKLKNLVDQLDAIVQEFGGRIYLTKDSMSRSSLTNYLKNIQNPKFVSLQHKRIINNNS				NA	NA	NA	NA	NA
BMS003_03983	726	dprE2_2	COG1028	Decaprenylphosphoryl-2-keto-beta-D-erythro-pentose reductase	ATGATAGTTCTGGGAAGCACATCCGAAGTGGCACAGGCTTTTGTGGAAAAAGCACTTCAGGAAGGAGAAAAATTTGAAAAAATTTACCTTTTTACCTCAAACAAAGAAACTACAGAACGGTTTGCAAGACATATTGATGTGAAGTTTCTGCAGCAGGCAGAAGTTATTGAACTGGATCTGACCAAAGAAATTGATTACAACAGATTTGAAAATATCAGTTCAGATGTATTATTCTGTGCCGTAGGATATTTAGGAGAAGGGACTGAGGAAGGACTATATGATAACAGAAATACAGAACGTATCATAGATATCAATTATTCAAAACTGGTTCCTGTGATGAACTACTTTGCTCAAAAATTTGAAAGCAGAAGGTCAGGAACAATCATAGGGCTTTCGTCAGTAGCAGGAGACAGGGGAAGACAGAGTAATTTTATCTATGGAAGTGCCAAAGCTGCCTTTACAGCATATCTGAGTGGTCTGAGAAACTATCTTTTTGATAAAAAAGTGCATGTTCTTACCATAAAACCAGGGTTTATGGCAACAAAAATGACAGAAGGCCTGCCTTTAAACCCGAAACTGACGGCAACTCCGAAACAGGCTGCTGCCTGTATTTATAAAGCCTTCAAAAAGGAAAAAAACGTGGCATATGTTTTGCCGATTTGGAGTATAATTATGATGATTATCAGGAATATCCCTGAATTTATATTTAAAAAATTAAAGCTTTAA	MIVLGSTSEVAQAFVEKALQEGEKFEKIYLFTSNKETTERFARHIDVKFLQQAEVIELDLTKEIDYNRFENISSDVLFCAVGYLGEGTEEGLYDNRNTERIIDINYSKLVPVMNYFAQKFESRRSGTIIGLSSVAGDRGRQSNFIYGSAKAAFTAYLSGLRNYLFDKKVHVLTIKPGFMATKMTEGLPLNPKLTATPKQAAACIYKAFKKEKNVAYVLPIWSIIMMIIRNIPEFIFKKLKL				NA	NA	NA	NA	NA
BMS003_03984	588			hypothetical protein	ATGAAAAAATTGTATTGTTTTGATTTTGACGGAACCCTTACATATAAAGATACTATGTTTATGTATCTTAAATTCTACGATTCTACAAAATACCGCATACAATTTTTAAGACATGTTCCGTTATTTATTCTGCTGAAACTGAAGCTGGCTGAAACAGAAAAAGTGAAAAAAAGTTTTATTGGCTCTATTTTGAAAGGGCAGACCCAGGAGAAAATAGAGCAGAAGTCTAAACAGTTTTTTGAAGAACATTATCCTAAGATTGTGAGAGAAAATGCATTAGACTTTATTAAAAATATAGATCAGAGCAATACACAGAGTTTATTGGTTACAGCATCATTGGATATATGGGTGAAACCTTTCGCTCAGGCACTTAAAATGGAGCTTGTTTCTACCCGTGCAGAATTTAAGGATGGGATTTTTACAGGTAATTTTGTGGGTAAAAATTGTAATGGAAAAGAAAAGCTGGTAAGAATAAAAGAAGAAATCAACGATTCTAAATACGATAAAATTATTGCATTTGGTGATACCTCGGGAGATCGGCCAATGTTGAAATGGGCAAATGAGGGACATTATCAATTTTTTCACTAA	MKKLYCFDFDGTLTYKDTMFMYLKFYDSTKYRIQFLRHVPLFILLKLKLAETEKVKKSFIGSILKGQTQEKIEQKSKQFFEEHYPKIVRENALDFIKNIDQSNTQSLLVTASLDIWVKPFAQALKMELVSTRAEFKDGIFTGNFVGKNCNGKEKLVRIKEEINDSKYDKIIAFGDTSGDRPMLKWANEGHYQFFH	PGPT0007720_669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
BMS003_03985	468			hypothetical protein	ATGAAAAGCCTGTTAATTGCATGTGGGGTAATCTTTATGAGTTGTGCAAGTACTTCATCTCAGAAGTCTTCTGCTATGCAGAACCATGCTGAACTTATTGTCTCCGAGTCTCAGGGAGGTACAGATACACCCGGCTTTAAAATTATTAAAGACGAAAAAGATTTTCACAGTATTATAAGAGGAACTTTTGGTGTTATAGACCTTGAAAAAGATTCTTATATCAAGTATCCCCAGTTTCCGAAAAATAAGAAAGTTGTTTTATACAATTTGGGAACTTTCAGATCCGGAAGCCACAAAATTGATGAAATCAGGAATGCATCTGTAAAAAATCAGATTTTATATGTAGAAGTTCCTGCCGGAGAACCTTCCGGAGGAATGGAAATTCAGGTGATGTCTAGTCCCTGGATTATTTTTACTGTTCCGACAGATTATAAGTTTACCTCCGTAGAATTAAAATATTCAAAATAA	MKSLLIACGVIFMSCASTSSQKSSAMQNHAELIVSESQGGTDTPGFKIIKDEKDFHSIIRGTFGVIDLEKDSYIKYPQFPKNKKVVLYNLGTFRSGSHKIDEIRNASVKNQILYVEVPAGEPSGGMEIQVMSSPWIIFTVPTDYKFTSVELKYSK				NA	NA	NA	NA	NA
BMS003_03986	1176	iscS		Cysteine desulfurase IscS	ATGGATAAAGTATATTTAGATAATGCCGCAACCACTCCGCTTGCAGAAGAAGTAATAGATGCAATGGTGGGTACTATGAAGATGAATTTCGGAAACCCGTCTTCAACGCACAGCTTTGGCCAGGAAGCAAAAATCCTTATTGAAAATGTAAGAAGACAGGTTGCAGACTATCTTCATGTAACTCCTGCTGAAATCATTTTCACTTCCTGCGGAACAGAATCCAACAATATGATCATCAAATCCTCGGTAGAACACCTTGGAATAGAAAGAATCATCAGTTCTCCTCTGGAACATAAATGTGTTTCTGAAAGTATTCTGGATATGAAAAACAGAAAAGGTGTAGAAGTAAACTACATCCGTCCTAATGAAAAAGGAGATATTGACCTTACAAAATTAGAAGAGCTGTTAAAAGCTTCAGATAAAAAAACGTTAGTAAGTTTAATGCATGCCAACAATGAGATCGGAAATATTATTGATCTTAAAAAAGTGGCCCAGTTATGCAAAGAACATCATGCGCTTTTCCACTCGGATACCGTACAGACCATGGCTCATATGAACCTGGATTTCTCAGACATCCCTGTGGATTTTGCTTCCTGCAGCGCACACAAATTTCACGGACCAAAAGGAGCGGGATTTGCATTTATCAGGAAGGCAACCGGATTAAAAGGAATTATTACCGGAGGACCTCAGGAAAGAAGTCTCCGTGCCGGAACGGAAAATGTTTGTGGTATTGTAGGGCTAGGCAAGGCTTTAGAGCTTTCTCTGAATCATATGGATGAATATACCAATCATATGCAGGAGATCAAAAATTATGCGATTGAAAGACTTTCAGCCGAAATAGAAGGAATTAAATTCAACGGAAGAAGTGCTGAAAAGGAAAACAGTCTTTATACGGTTTTAAGTGCGTTATTACCTTATAAAAATCCATTAATAGGACTTCAACTGGATATGAAAGGAATTGCGATTTCTCAGGGAAGCGCATGTTCATCAGGGGCTTCAAAACCTTCAATGGTAATGATGATGGTACTTTCTGAGGACGAGATGGATCACAGTACACCATTACGTATCTCTTTCAGCCATATGACGACTAAATCAGAGATTGATACATTAGTAAATGCTTTGAAAGAAATTTCAGACGATTACACTATAGAAAAAACTAATGTTGAGCATAGATAG	MDKVYLDNAATTPLAEEVIDAMVGTMKMNFGNPSSTHSFGQEAKILIENVRRQVADYLHVTPAEIIFTSCGTESNNMIIKSSVEHLGIERIISSPLEHKCVSESILDMKNRKGVEVNYIRPNEKGDIDLTKLEELLKASDKKTLVSLMHANNEIGNIIDLKKVAQLCKEHHALFHSDTVQTMAHMNLDFSDIPVDFASCSAHKFHGPKGAGFAFIRKATGLKGIITGGPQERSLRAGTENVCGIVGLGKALELSLNHMDEYTNHMQEIKNYAIERLSAEIEGIKFNGRSAEKENSLYTVLSALLPYKNPLIGLQLDMKGIAISQGSACSSGASKPSMVMMMVLSEDEMDHSTPLRISFSHMTTKSEIDTLVNALKEISDDYTIEKTNVEHR	PGPT0000065_3736	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
BMS003_03987	318	trxA_1		Thioredoxin	ATGGCTTTAGAAATTACAGACAGCTCATTTCAGGATACGGTTTTAAAATCAGACAAACCGGTATTAGTAGACTTCTGGGCAGTATGGTGCGGACCATGCAGAACCTTAGGACCAATCATCGAAGAAGTAGCATCAGATTTTGAAGGTAAAGCAGTAGTAGGGAAGGTAGATGTAGACAACAACCAGGAAATCTCTATGCAGTATGGTATCAGAAATATTCCTACAGTTCTTATTTTTAAGAATGGTGAAGTAGTGGATAAACTGGTAGGTGTAGCTCCAAAAGAGGTAATCGCTGAAAAATTAAGCGCTCACTTATAA	MALEITDSSFQDTVLKSDKPVLVDFWAVWCGPCRTLGPIIEEVASDFEGKAVVGKVDVDNNQEISMQYGIRNIPTVLIFKNGEVVDKLVGVAPKEVIAEKLSAHL	PGPT0013055_9238	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS003_03991	813	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTGAGACGAGTTTTATTATCCATCTTTGCTTCAGTAACATTTAAATATAAAAACATGTCAACACAAAATGTAAAAGGAAAAGTTGTTTTAATTGCCGGAGGAGGTAAAAACCTGGGAGGATTATTAAGCAGAGATTTTGCAGCGAAAGGAGCAAAACTGGCCATACATTATAACAGTGAAAGCTCAAAAGAAGAAAGTGAGAAAACACTGGCCGAAGTACAGGCATTAGGAGCAGAAGCATTCTTATTTCAGGGAGATCTTACCAAAGTAGACAATATCACTAAGTTTTTTGATGAAACCATTTCCCGCTTCGGAGGGGTCGATATTGCGATCAATACTGTAGGAATGGTACTGAAAAAACCTTTTGCTGAGACTACAGAAGAAGAATATGATACCATGTTCAATGTCAATTCGAAGTCTGCTTATTTCTTTCTGCAGGAAGCTGGTAAAAAACTGAACGATCAGGGGAAAATCTGTACCATTGTAACTTCATTGCTGGCAGCTTATACAGGATTGTATTCTACTTATGCAGGAGCAAAGGCGCCGGTAGAGCATTTTACAAGAGCAGCATCCAAAGAATTCGGAGCGAGAGGAATCTCAGTAACGGCAGTAGCGCCCGGACCTATGGATACTCCTTTCTTTTACGGACAGGAGACAGATGATGCTGTAGCTTACCATAAATCAGCATCAGCACTGGGTGGGCTTACAGATATTAAAGATATTGCACCGCTGGTAGAATTTCTGGTAACAGAAGGCTGGTGGATTACCGGGCAGACGATCTTTGCCAACGGTGGATATACAACAAGATAA	MLRRVLLSIFASVTFKYKNMSTQNVKGKVVLIAGGGKNLGGLLSRDFAAKGAKLAIHYNSESSKEESEKTLAEVQALGAEAFLFQGDLTKVDNITKFFDETISRFGGVDIAINTVGMVLKKPFAETTEEEYDTMFNVNSKSAYFFLQEAGKKLNDQGKICTIVTSLLAAYTGLYSTYAGAKAPVEHFTRAASKEFGARGISVTAVAPGPMDTPFFYGQETDDAVAYHKSASALGGLTDIKDIAPLVEFLVTEGWWITGQTIFANGGYTTR				NA	NA	NA	NA	NA
BMS003_03992	429			hypothetical protein	ATGGCAGATTCTTTTTCTAAAAAGGAAAATTTCAAGAAAAAAATTCAAAAGCAAAAAGAAAAGGCGCTAAGACGCGAAGAACGTAAAACGAACAACAACAAAGGGAAGGACATGGAAGATGTTTTCATGTACGTAGATGAATTCGGAAGATTAACTTCTACTCCACCTGAACAAAGACAGGAAGTAAACCTTGATGATATCCAGCTGGGAGCAGCTCCTATTATTGAAGAAGATCCGAGAAAAACAGGAATTGTTACTTTCCTGAGTGAAAAAGGATACGGTTTCATCACAGAAGATAATACCAAAGAAAATATTTTCTTCCACAACAACAACTGTGCAGAGCCTGTAAAGAAAGGGAACAAAGTATCTTTCGAAAAAGAGAAATCTCCTAAAGGATTCTCTGCGGTTGAAATCCAGATTGTTAAATAA	MADSFSKKENFKKKIQKQKEKALRREERKTNNNKGKDMEDVFMYVDEFGRLTSTPPEQRQEVNLDDIQLGAAPIIEEDPRKTGIVTFLSEKGYGFITEDNTKENIFFHNNNCAEPVKKGNKVSFEKEKSPKGFSAVEIQIVK	PGPT0014675_887	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS003_03993	1452	oprM_5	COG1538	Outer membrane protein OprM	ATGAAAAGATTAAATCATAGAAATATATTGTATGGAATGGCATCGCTGAGTTTGGTTTCTTGTGCTGTTCCCAAAGTAACAGAACTGAAAAAAGCCCATGAATTACCAGAGGAAATCATCAAAGCTGATAAAAATAAATCTGCTGATGAGTTTCAGCAGATTAATCTGAAGGCCTATTTTACAGATCCGCAGCTACTTGAACTTTTTGATAAAGTCGTTCAGGCGAATCCTGATTTTCAGATTGCCCAACAGAGAGTGGAAATAGCCAACAGTTTCCTTCAAAGATCAAAAATGGATTTACTGCCTTCACTTGAAGTGGGAGTACAGGCTTCCGGTGACCGTTACGGAAAATATACTATGGAAGGAGTTGGAAACTATGACACTAATCTTTCCCCTAATATTACCGAAAATCAGAAAATTAACCGGAATTTTACTCCTAATTACTGGCTGGGAGCAAGAAGCAGCTGGGAAATTGATGCCTGGGGAAAACTGAAAAATAAGAAGATTGCAGCCCAAAAGAAATTTTTGGCTTCCACAGAAGGATTAAGATTATTGCAGGTAGAGCTTTTCACAGATATCGCCAATTTGTATTATCAGTTGGTCGCTTTAGATAATCGGCTGGCAATTTATCAGAAGAACTATAAACTCCAGCAAAGAGCTTTTGAAATTGTTCTGGCTCAGCGTGAAGTGGGAAAAGCCACGGAATTGGCAGTTCAGCAGTTTAAAGCGCAGAATAACAACTGGCTGGCGGAAATTGAGCACATAAAAGTGGAAATTGTTACCGTAGAACAGGCGATCACAACATTGACAGGAAGTTATGGCGGAGAGGTAAAACGTGGGACAATACTGATGCCTACCAATATGGAGGTTTTAAATAAAACCATTAATGTAGAAAATGTAATCCACTCCAGACCGGATGTGGCAGCAAATTATTATGTTTTGGAAGCCTCTCAGGCTGATGCCAAGGCTGCAAGAGCTGCTTTTTATCCCAAGATCGATTTAGGTGCCGGCTTGGGGCTTAATTCTTTCTCTGTAGAAACCTTCTTCAAACCAAGTTCATTGGCAGGGCAATTGTTAGGCGGGCTGATGGTTCCTGTTTTCAATAAAGGACAGCTGAAATATGAATTTAAGGTAGCAAGCAAAGAGCAGGAAATTGCTTTCTTAAACTATCAGAAAAGTATCACGACTGCTTTTAACGAGCTACAGTCGATTCTGAAACAGACCAAGATCTATGAACATGTCTTAAAATTGAAATCAGAAGAGGTTGGGTTTCTGGATCGTGGTGTAGAGGTCTCCAATGATCTTTATCTTACAGGATATGCCAATTATTTTGAACTGATCAATTCTCAGAAAAGCAAACTGACTGCTGAACTGGATCTATTGCAGTTTCAGCATCAGAATACCAGGAATAACGTCTTGCTTTTCAAAGCACTGGGCGGTAAGCTGGATTGA	MKRLNHRNILYGMASLSLVSCAVPKVTELKKAHELPEEIIKADKNKSADEFQQINLKAYFTDPQLLELFDKVVQANPDFQIAQQRVEIANSFLQRSKMDLLPSLEVGVQASGDRYGKYTMEGVGNYDTNLSPNITENQKINRNFTPNYWLGARSSWEIDAWGKLKNKKIAAQKKFLASTEGLRLLQVELFTDIANLYYQLVALDNRLAIYQKNYKLQQRAFEIVLAQREVGKATELAVQQFKAQNNNWLAEIEHIKVEIVTVEQAITTLTGSYGGEVKRGTILMPTNMEVLNKTINVENVIHSRPDVAANYYVLEASQADAKAARAAFYPKIDLGAGLGLNSFSVETFFKPSSLAGQLLGGLMVPVFNKGQLKYEFKVASKEQEIAFLNYQKSITTAFNELQSILKQTKIYEHVLKLKSEEVGFLDRGVEVSNDLYLTGYANYFELINSQKSKLTAELDLLQFQHQNTRNNVLLFKALGGKLD	PGPT0009810_1262	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
BMS003_03994	3123	bepE_7		Efflux pump membrane transporter BepE	ATGGTAGAAATGTTTATAAGACGAAAGGTTCTTTCGTTGGTTATTTCCATATTGTTTGTATTGCTGGGAATTATGGCTTTGCTGAAGATGCCTATCACCCAGTTTCCCGATATTGTTCCGCCTTCAGTAACAGTAACGGCAAAATACACAGGAGCGAATGCTGAAGTGTCTGCCAATGCGGTAGCGCTTCCTTTGGAACGCGCGATTAACGGAGTACCGGGAATGACTTATATGTCAACGGTAACCTCCAATGACGGTCTTACGCTTATCCAGGTTTTCTTTGAAGTTGGTACAGATCCTGATGTGGCAGCGGTAAACGTTCAGAACAGGGTAACTACTATCCTTGATGAACTTCCTGAAGAGGTAATCAGAGCGGGCGTAACTACTGAAAAAGAGGTGAACAGCATGCTGATGTACCTCAATATCACCAGTACAGATCCGAGCCAGGACGAGCAGTTCATCTACAACTTCACGGATATTAACGTTCTTCAGGAGCTGAAACGTATTGATGGAGTAGGGCGTGCTGAGATCATGGGGCAGAAAGAATATTCCATGAGAGTGTGGCTGGATCCTCAGAAAATGGCAGCTTACAATATTTCTGCAGATGAAGTTATCACATCGCTTCAAAAACAGAATATTTCCGCAGCGCCCGGAAAAGTGGGAGAAACCTCTGGTAAAACCTCCAGCCAGCTTCAGTATGTCATCAAATATAAAGGAAAGTTTTTTGAGCCTAAGCAATACGAAGAAGTCCCAATCAGATCTGATGTGGACGGAACCATTTTAAAACTTAAGGATATTGCTAAAGTTGAATTCGGAGCAATGAACTATGGAATGGTTTCCAAAACAGACGGAAGACCTTCCGCATCAATCATGATGAAGCAGCGTCCTGGTTCCAACGCTTCCGAAGTTATTGAAAGCGTAAAGGCAAAAATGGAGGAATTAAAAGTGACTTCCTTCCCGCCCGGAATGGAGTATAACATGGCTTATGATGTTTCCAGATTCCTTGATGCTTCCATCAGTGCGGTACTGACAACGCTTATAGAAGCTTTTATTCTGGTTGGAATTGTGGTATTTATTTTCCTTCAGGACTGGCGTTCCACATTGATTCCTGTACTTGCTGTTCCGGTAGCTTTGGTAGGAACATTTGCCTTCATGAATATGCTGGATTTCTCTGTTAACCTTTTAACATTGTTCGCATTGGTTCTTGCTATCGGGATTGTCGTCGATAATGCGATCGTCGTCGTTGAAGCTGTCCATGTGAAAATGGAAGAAGGAATGAATGCCATGGATGCCACCATCAGTGCCACCAAAGAAATTGCAGGAGCGGTAGTAGCGATTACGATTGTAATGTCTGCTGTATTCATTCCTGTAGCGTTTCTGGATGGTCCTGTAGGTGTATTTTACCGTCAGTTTTCATTAACGCTCGCTATCAGTATTGTAATTTCCGGAGTGAATGCATTGACGCTTACTCCGGCGCTTTGTGCCATTATTTTAAAACCTCATGATCATCATAAAAAGAAAACGATTATTGACAGAGCTTTCCAGAGCTTTAATACAGGATTTGAAAGACTGACGAATGGCTATGTAGGTATTTTATCAAAATTTGCCACAAGAACTACAGTAACTTTCGGACTGTTGTTTTTATTTGTTGGACTTACTTTTGTGACCAGTAAATTCCTGCCTACAGGGTTTATTCCAATGGAAGATCAGGGAATGGTATATGTAAGTGTAACCACTCCGCAGGGAGCCACAGTAGAAAGAACCGAAAAAGTGCTGGACGAAGTTACCGTTATTGCCAAGAAGATTAATGGAGTAGAAAACGTTACCACTCTTGCAGGTTACAGTATCGTAACCGAGATCGCAGGTTCATCTTACGGAATGGCGATGATCAACCTTAAAGACTGGAAAGAAAGAAATATCTCGGTGAATGACCTGATCACAGAACTTTCAGACAAAACAAAAAGCATTGCAGATGCTCAGATTGAAATTTTTGCACCACCTACTGTTCCGGGATTTGGTAATACCAGTGGTTTTGAATTGCGTTTGCTGGACAGAACCGGAGGAACCATTGAAAATACAGACAAGATCACAAAGGATTTTGTTAAAAAATTAAACGAAGCTCCCGAGTTGCAGAACAACTTCACCAGCTTTGATGCTACTTTCCCGCAATACATGATCAATGTAGATTATGATATGGCTGCGAAGAAAGGAGTATCAGTAGATAACGCGATGTCTACACTACAAACCATGCTGGGATCTTATTACGCCACGAATTTTATCCGGTTCAGCCAGATGTATAAAGTGATGGTACAGGCAAGTCCGGAACACAGGGATACCCCTGAAAGCATTCTGAGTTTATATTTGAAAAATGATAAAGGCGAGATGGTGCCTTTCTCCACATTCATTACTCTTGAAAAGGTATATGGTCCTGAAGTTTTGACAAGATATAATATGTATATGTCTGCCATGATCAACGGAGAGCCTGCAGACGGTTACAGTTCCGGAGACGCTATTGCAGCTGTAGAGCGTGTTGCCAAAGAAACCTTGCCAAGAGGATTCGATATTGAATGGTCCGGGATGACCAGAGAAGAGATCTTATCCGGAAACCAGACGGTTTATATCTTCGCAATCTGTCTTTTGTTCGTGTATCTTTTATTAGCAGCACAATATGAAAGCTTTCTTCTTCCAATGCCTGTATTATTAAGCCTTCCAACGGGGATCTTCGGATCTTACATTGCATTGGTGGTTGCCGGCTTGGATAATAATATTTATGCACAGGTAGCATTAGTCATGCTGATAGGGCTTCTGGCCAAAAATGCCATTCTGATTGTAGAATTTGCCGTCGCAAGAAATAAACAGGGATTTGATATTGTTCCGGCCGCTATTGAAGGAGCGAGACAGCGTCTGAGACCTATTCTGATGACTTCTTTTGCTTTCGTAGCAGGGCTTATTCCATTATGTATCGCATCAGGAGCCGGGGCAATTGGTAACCGTTCCATTGGTACCGCTGCGGCGGGAGGAATGCTGATCGGAACCATCTTCGGATTGGTAGTGATTCCCGGACTGTATATATTCTTTGCAAAACTTGAAAATAAGAAGAAAGATGAAAAGATTAAATCATAG	MVEMFIRRKVLSLVISILFVLLGIMALLKMPITQFPDIVPPSVTVTAKYTGANAEVSANAVALPLERAINGVPGMTYMSTVTSNDGLTLIQVFFEVGTDPDVAAVNVQNRVTTILDELPEEVIRAGVTTEKEVNSMLMYLNITSTDPSQDEQFIYNFTDINVLQELKRIDGVGRAEIMGQKEYSMRVWLDPQKMAAYNISADEVITSLQKQNISAAPGKVGETSGKTSSQLQYVIKYKGKFFEPKQYEEVPIRSDVDGTILKLKDIAKVEFGAMNYGMVSKTDGRPSASIMMKQRPGSNASEVIESVKAKMEELKVTSFPPGMEYNMAYDVSRFLDASISAVLTTLIEAFILVGIVVFIFLQDWRSTLIPVLAVPVALVGTFAFMNMLDFSVNLLTLFALVLAIGIVVDNAIVVVEAVHVKMEEGMNAMDATISATKEIAGAVVAITIVMSAVFIPVAFLDGPVGVFYRQFSLTLAISIVISGVNALTLTPALCAIILKPHDHHKKKTIIDRAFQSFNTGFERLTNGYVGILSKFATRTTVTFGLLFLFVGLTFVTSKFLPTGFIPMEDQGMVYVSVTTPQGATVERTEKVLDEVTVIAKKINGVENVTTLAGYSIVTEIAGSSYGMAMINLKDWKERNISVNDLITELSDKTKSIADAQIEIFAPPTVPGFGNTSGFELRLLDRTGGTIENTDKITKDFVKKLNEAPELQNNFTSFDATFPQYMINVDYDMAAKKGVSVDNAMSTLQTMLGSYYATNFIRFSQMYKVMVQASPEHRDTPESILSLYLKNDKGEMVPFSTFITLEKVYGPEVLTRYNMYMSAMINGEPADGYSSGDAIAAVERVAKETLPRGFDIEWSGMTREEILSGNQTVYIFAICLLFVYLLLAAQYESFLLPMPVLLSLPTGIFGSYIALVVAGLDNNIYAQVALVMLIGLLAKNAILIVEFAVARNKQGFDIVPAAIEGARQRLRPILMTSFAFVAGLIPLCIASGAGAIGNRSIGTAAAGGMLIGTIFGLVVIPGLYIFFAKLENKKKDEKIKS	PGPT0016195_1272	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
BMS003_03995	1089	ttgA_2		Toluene efflux pump periplasmic linker protein TtgA	ATGTATTTTAAAACTGTAATAATTTGCATACTTGCAACATTATTCACTGTATCATGCAGTAAAGACAAGGAGAAAAACAATAAAAGAGACAAAGAAGTTCCCGTATTGGAAATCAAAGAAAAAGACACTTTGGTGAGCAACCAGTTTGTCACTGATATCCAGGCTAAAAAAAATGTGGAAATGCGTTCCAGAATTGGTGGTATTATACAGCATATTTATGTCAACGAGGGACAGTTTGTGCATCAGGGACAGGCTTTATTCAAAATCAATGATGCTGAGCTTCAGATGGAACTTCTGAAAGCAAATGCGGCACTAAAACAGACGGAAGCGGACGTCCGTATTGCAGAAGTAGAATTGAAACAGATTGAAAGTCTTCATGCTAAAAAAATTGTAGCTAATAATGAACTTGAAATGGTGAAGGCAAAACTATCCTCTGCCAAAGCAAAACATGCATTTGCTGATGCAGAAAAGAGAGCCGTTCTTCAGAAGATCAGCTTTACAAAAATTACAGCACCTTTTGATGGGGTAATTGACGTGATTCCTCATAAAGATGGGAGTTTGGTAGAAAATGGAACACTGCTGACCACTCTTTCCCAATTGAACGAAGTATATGCCTATTTCTCCATTCCCGAAAACTTATATTTTGAGCTTTTGGCGAATGATAAGATCGGAAGTCATCAAAAGATTGAACTGACGCTTCCCAACGGAGTTAATTACCAATTCAACGGAGCTTTGAAAACAGCTGAAGGAGAAATCGACAGAACTACAGGCTCTATTCGCTATAAAGTACTTTTCCCGAATCCGGACCATTTGATCAAACACGGTACTTCCGGGAAGCTTATTATTTCAGAACAGCAGAATAATGCGATCCTCATTCCACAGAAATCTACCTTCTCCATTCAGGATAAGACCTATGTTTTTGTAGTGGATCAACAGAATAAAGTGAAAATGACCAATATTAAGATCGGAACTACTTTAAGAGATTCTTATATGGTAGAAAGTGGTCTTAAAAAAGGAGATTTAATCATTTATGAAGGGACTCAGTCTTTGAAAGAAGGTGATATGATCAAAATCAAAAAGAAGTATTAA	MYFKTVIICILATLFTVSCSKDKEKNNKRDKEVPVLEIKEKDTLVSNQFVTDIQAKKNVEMRSRIGGIIQHIYVNEGQFVHQGQALFKINDAELQMELLKANAALKQTEADVRIAEVELKQIESLHAKKIVANNELEMVKAKLSSAKAKHAFADAEKRAVLQKISFTKITAPFDGVIDVIPHKDGSLVENGTLLTTLSQLNEVYAYFSIPENLYFELLANDKIGSHQKIELTLPNGVNYQFNGALKTAEGEIDRTTGSIRYKVLFPNPDHLIKHGTSGKLIISEQQNNAILIPQKSTFSIQDKTYVFVVDQQNKVKMTNIKIGTTLRDSYMVESGLKKGDLIIYEGTQSLKEGDMIKIKKKY	PGPT0003275_5249	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
BMS003_03996	333			hypothetical protein	ATGGCGGGTCTGAGATCATTTTTCTTATTTTATATCATGCTGGTTTTTACCCTTTTCAATTCGAATTGGGCAGAAAAATCATTACAGAATATTCCTCACGTTCCCCATGTAAATAATATTCATGTTCTGGATGTTTACGAAGAAGCAGATATGAACACGCATGCACTGCCTGCTGTTTCAAAAATTGTAAAACATTCGGTCAGAAAAAGCGATCCTGCCACTGCTGGTTTTTCGGGGATTTTAAAAGTTATTCCCAAAATTACCCTTCCGGAGATTGCTGTTTCTGTTATTTGCGGAGTTAAATCCTTTCTCCATCTCCTCCAGCTGTACTAG	MAGLRSFFLFYIMLVFTLFNSNWAEKSLQNIPHVPHVNNIHVLDVYEEADMNTHALPAVSKIVKHSVRKSDPATAGFSGILKVIPKITLPEIAVSVICGVKSFLHLLQLY				NA	NA	NA	NA	NA
BMS003_03997	453			hypothetical protein	ATGAAACATACCCTTTTCCGTGAACAACAGCTCAATTGTGATATAGAAACGGCATGGAAATTCTTTTCCTCTGCCAACAATCTTTCAGAAATTACTCCGAAAGATATGGGATTCATTGTATTAACGGAAATGGAAGACGATGAAATCTATGAAGGAATGATCATTGATTATTATGTTTCTCCCTTATTGGGAATTAAAATGAAATGGCAAACCGAAATAACCCAGGTTGATTTCCGGAAAAGCTTCACTGATTTTCAGAAAAAAGGTCCGTATAAATTATGGAACCATCATCATGAGTTTGTTCCCAATAAAGACGGTGTTCTGATGAGAGACACCATAAATTATGAACTTCCCATGGGATTTTTAGGAGAAATTGCCCATAGCCTTTTCGTGAAAAAGAAACTGGAGCATATCTTTGATTATCGATTCAGAGTACTCAGTAAACTGTTCTAG	MKHTLFREQQLNCDIETAWKFFSSANNLSEITPKDMGFIVLTEMEDDEIYEGMIIDYYVSPLLGIKMKWQTEITQVDFRKSFTDFQKKGPYKLWNHHHEFVPNKDGVLMRDTINYELPMGFLGEIAHSLFVKKKLEHIFDYRFRVLSKLF				NA	NA	NA	NA	NA
BMS003_03998	648			hypothetical protein	ATGAACAGGATTTTTTTGTTTTTCATTGCCTTTTGGATATGTTCCTGTTCTCAGGAAAGAAAAAACAATACAATAAATGTAGCAGAAACCCCAGTCGTTTTAGAAAAGCGACCGGAAGCCGATCTTTCTAAACTTAAAGTGAAGGCAGAAGAAGCGTTGAAATTCTGTGCTTCAAAGAATCTTAACGAAGACTTCTGTATACTGATTGATATGAGCCTTCACTCCGGTGTTAACCGTTTTTTTGTCTGGGATTTTAAAAACAATAAAATTTCAAAGAAATACCTTGTAGGTCACGGCTGCGGTTCCAATGCCTGGAGTAAAGATGATTCTAAAGCAAACCCGGGATTCAGCAATGAAGACGGAAGCCATCTTTCATCTTTAGGAAAATATAAATTGGAAGGAAGGGGTTACAGCGACTGGGGAATCAATATCAAATACCTGATGCATGGCCTTGAAGAAACCAATAGCAACGCATTAAAAAGATTTATTGTTTTCCATTCCTGGAATATGATGAGTGATACTGAAACCTTTCCGAATGGATCTCCAGAAGGGTGGGGCTGTCCCACTGTTTCTAATAATGCAATGAAAGAAATTGACCCGATGATTCAGAAATCAGGAAAACCTGTCCTGATGTGGATTTATAATTAA	MNRIFLFFIAFWICSCSQERKNNTINVAETPVVLEKRPEADLSKLKVKAEEALKFCASKNLNEDFCILIDMSLHSGVNRFFVWDFKNNKISKKYLVGHGCGSNAWSKDDSKANPGFSNEDGSHLSSLGKYKLEGRGYSDWGINIKYLMHGLEETNSNALKRFIVFHSWNMMSDTETFPNGSPEGWGCPTVSNNAMKEIDPMIQKSGKPVLMWIYN				NA	NA	NA	NA	NA
BMS003_03999	672			hypothetical protein	ATGATATTAATGTATCTTCTGAAAGTGATAGGAATTATTTTAGGAATTGTGATTATTTATGTAACCCTTGGATTACTGATTCCTTATATTCCTGTTTCGGCTAAAGATGACGGACAGAAGAAAGAAATCCCGATTTATATCTATACCAACGGAGTGCATACCGATATAGTAATGCCTGTGAGAAATGATCTTCAGGACTGGAGCCGGAAAATTCCTTTTGCCAATACAAAATCAAAAAAGACAGACTACCGGTACATTGGAATAGGATGGGGAGATAAAGGGTTCTATCTTGATACACCCACCTGGGCAGATCTTAAATTTTCAACGGCTGTAAAAGCAGCATTCTGGTTAAGTGATTCCGCAATGCACTGTACCTATTATAATACCATGAAAGAAGGTGATGACTGTAAAATGATCATGATCAGCAGAAATCAATATCAGAATTTAGTAAAGTATGTAGAAGATAAATTTGACAGAGATCAGAACGGAAATTTTATGTTGATTCCTACTAATGCTGTATACAGTGATAATGATGCTTTTTATGATGCAAAAGGTACTTACAGCTTTCTGTATACTTGCAACACCTGGTCAAATAACGCTTTAAAAGCTGCGGGACAGAAAGCGGCACTTTGGACACCCTCTGATTTCGGAATCTTTCAGCATTATAAATAA	MILMYLLKVIGIILGIVIIYVTLGLLIPYIPVSAKDDGQKKEIPIYIYTNGVHTDIVMPVRNDLQDWSRKIPFANTKSKKTDYRYIGIGWGDKGFYLDTPTWADLKFSTAVKAAFWLSDSAMHCTYYNTMKEGDDCKMIMISRNQYQNLVKYVEDKFDRDQNGNFMLIPTNAVYSDNDAFYDAKGTYSFLYTCNTWSNNALKAAGQKAALWTPSDFGIFQHYK				NA	NA	NA	NA	NA
BMS003_04000	939	queG	COG1600	Epoxyqueuosine reductase	ATGAATCCAGGAGCTGAAAAATATTCCCAACTGATAAAATCCAAGGCAAAAAGCTTTGGGTTTCAGAACTGTGGAATTTCCAAAGCTGATTTTCTGGAAGAAGAAGCACCTCGTCTTGAAAAATGGCTCAAGAACAATTTTAACGGCGAAATGAAATACATGGAAAATCATTTCGACAAAAGACTTGATCCTCGGCTTCTGGTGGAAGGTTCCAAATCTGTTATTTCACTTTCTTACAATTACTTTCCCGAAGAAAAAATCTCAATATTAGAGAATTATAAAATCTCAAAATATGCTTATGCGGAAGACTATCATGAAGTAATTAAAGAAATACTCCGTGAAATGGTTGCTGAGCTGCAGGAGGAAATAGGAGAGTTCGGATTCCGTGTTTTTGTAGATTCTGCACCGGTTTTAGAAAGAGCCTGGGCTAAAAAATCAGGGATCGGCTGGGTAGGGAAAAATGCGAATCTCATTACGAAACAAAGTGGTTCTTTTTATTTTCTGGCCGAAATTATCTGTGATCTTGAACTCATTCCGGATCATGCAACCACAGATCATTGCGGAAGCTGCAGAAAATGTATTGATGCCTGTCCCACGGACGCCATTGTTTCGGAAAAAATTATAGACGGAAGCCGCTGTATTTCTTATGCAACCATAGAATTGAAAGACGAAATTCCGGCTCATTTCAAAGATAAAATGGAAGACTGGATGTTCGGCTGCGATATCTGTCAGGATGTATGTCCCTGGAACCGTTTCTCAGCTCCCAACAAACAGAGCCGTTTTCAGCCCAATGAAGCTTTGAAAAACTTCAAAAAAGGAGAATGGAAAGAACTTACCCAGGAAATTTTTTCGGAAATTTTCAGAAAGTCTCCGGTGAAAAGAACCAAATTTGCAGGACTCAAGAGAAATATTGAGTTTTTGCAGAAGTCTTCCGACTGA	MNPGAEKYSQLIKSKAKSFGFQNCGISKADFLEEEAPRLEKWLKNNFNGEMKYMENHFDKRLDPRLLVEGSKSVISLSYNYFPEEKISILENYKISKYAYAEDYHEVIKEILREMVAELQEEIGEFGFRVFVDSAPVLERAWAKKSGIGWVGKNANLITKQSGSFYFLAEIICDLELIPDHATTDHCGSCRKCIDACPTDAIVSEKIIDGSRCISYATIELKDEIPAHFKDKMEDWMFGCDICQDVCPWNRFSAPNKQSRFQPNEALKNFKKGEWKELTQEIFSEIFRKSPVKRTKFAGLKRNIEFLQKSSD				NA	NA	NA	NA	NA
BMS003_04001	300			hypothetical protein	ATGTCTTTAATAGAAGTAATACAATCCGGAAACTATGAATTAATTGACGTTCGAGAGCCAATGGAGCTTGAAATGGACGGTAATATAGATGGAGCTAAGAATATTCCTTTAGGGGAGGTAGAAGATAGACAGGAAGAGATTCTATCTATTGAAAAACCGGTAATCGTATTCTGCAGAAGTGGTAACAGAAGCGGAAAAGCTTTGGATTACCTTAACGCTCAAGGATTAAAGAACGGTTATAACGGCGGAGGCTGGGCTGAGCTAAAGGCTGTTCTGGAAGCAAATCAGGGAACTTTTTAA	MSLIEVIQSGNYELIDVREPMELEMDGNIDGAKNIPLGEVEDRQEEILSIEKPVIVFCRSGNRSGKALDYLNAQGLKNGYNGGGWAELKAVLEANQGTF	PGPT0014648_863	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
BMS003_04002	618			hypothetical protein	ATGAATCTGAAAAATCAATTTGAACAGCTTTGTTCTCCGTTTACAAAAGATCAGCAATTAATCAACAGTCTGTGGAAGGAGATTGAAACCAAATACTGTGAAAAAGGCAGACATTATCATCATCTTCTTCATCTTGAAAATATGTTTGGTGAGCTTGAAGCTGTGAAAATGAATATCTCAGATTTCACTGCCATTTCTTTTTCTGTATTCTACCATGATATTATCTACGATGCAACTTCCAAAACTAATGAAGAGAAAAGCGCTGCGAAGGCTGAGAAAAGGCTTGCCAAACTTCATATGCATCAAGACATCATTTCAATAATTTCTGAACAGATTCTTGCGACAAAGTCTCATCAGCGATCTGATCAGGAAGACACTAACTATCTTTTGGATGCTGATCTTTCTGTATTGGGTAAGGATTATGAAACCTACCAGGAATACACTCAAAATATCAGAAAAGAATATTCTATTTATCCTGATTTCCTTTATAAACCGGGAAGAAAAAAAGTACTTAAGCATTTTCTGGAATTTGACAGCATCTTTAAAACGGTGTATTTTAAAGAAAAATATGAAATTCAGGCAAAGGAAAATATTGCAGCTGAACTCCATCTACTTTAA	MNLKNQFEQLCSPFTKDQQLINSLWKEIETKYCEKGRHYHHLLHLENMFGELEAVKMNISDFTAISFSVFYHDIIYDATSKTNEEKSAAKAEKRLAKLHMHQDIISIISEQILATKSHQRSDQEDTNYLLDADLSVLGKDYETYQEYTQNIRKEYSIYPDFLYKPGRKKVLKHFLEFDSIFKTVYFKEKYEIQAKENIAAELHLL				NA	NA	NA	NA	NA
BMS003_04003	249			hypothetical protein	ATGGATTCCCATAACAGGGATTTAAAAAAAACATATACATTTATGTTGTTAATTAAAAAGCAAATTATTATGAAAAATTTAAAAAAAATTTCGAGAGAGAACTTGAAAAAAGTGAAAGGTGGTCTAAGAGCTGCAGATTTCTGTACACCAGGCGCTGGAGATGTTTGTGCTCAGTATGGCCTTGAATGTGGTATGTGGTTTACTGTTACAGGAGGTCAGGTAACAGAATCTCATATGGCATGTATGTAA	MDSHNRDLKKTYTFMLLIKKQIIMKNLKKISRENLKKVKGGLRAADFCTPGAGDVCAQYGLECGMWFTVTGGQVTESHMACM				NA	NA	NA	NA	NA
BMS003_04004	789			hypothetical protein	ATGAAATACTTAATTTTTGTTTCAATTCTTTTCCAAAACGTATTATTATCAGCACAAAACATAACTTTTATATATGAGTTAAAAACAAATAAAATTAAACCAGAATATTATTATTTGGATGTGCTGGGCAAACAATCAGTATTTCGATCTGAAGATGCAAGAGAAGCTGATTCATTAATGATCCGGAGCGGCTACTGGCAACGTCAACGACCAACATTTAACCATCTATATTCTTTCAAAAATTTGATAAGTAATAAGGTCTATAAAAGTGTTACTCATCCTGCTATGTATGATCTATACTATATTGACATTGATAATAATCTAGATTGGAAAATTTTACCTGAAAAAAAAATGTTTGGTGAAATGGAATGCCAAAAAGCAACTACAAATTATGGAGGAAGAAGTTGGACTGCATGGTTTGATCCCAAAAATCCAATTCAGGATGGACCTTATATTTTCTACGGCCTTCCTGGATTTATTGTCAGACTAGAAGACGATAAAGGCGATTATACTTTTGACTTAATTAAAGTTAAACGGTCTGATAAAAATAATATGTTCTATTTACGAAAAGGCAAGCAGATAAGTTGGGAAGATTATAAAAAAATGCAAAACAGCTATTATTCTGACCCATTCGCTCAATTAAAAGCCAAGAGTATGAAAATGAAAGTTGGAGATATCAATGGTAATGCTATTGATATGAGTTTTAAAGAAATGGCCGAAAATATTCAAAAACAAATAAGAGAAAATAATAATCCAATAGAACTAAATCAGAAAGTTGAATTCAAATAA	MKYLIFVSILFQNVLLSAQNITFIYELKTNKIKPEYYYLDVLGKQSVFRSEDAREADSLMIRSGYWQRQRPTFNHLYSFKNLISNKVYKSVTHPAMYDLYYIDIDNNLDWKILPEKKMFGEMECQKATTNYGGRSWTAWFDPKNPIQDGPYIFYGLPGFIVRLEDDKGDYTFDLIKVKRSDKNNMFYLRKGKQISWEDYKKMQNSYYSDPFAQLKAKSMKMKVGDINGNAIDMSFKEMAENIQKQIRENNNPIELNQKVEFK				NA	NA	NA	NA	NA
BMS003_04005	771	menH_4		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGGAAGGAAGAATAATTGATGTAAAAGGTAAAAAATTATATATAGAACACAATGATCAATTTAAAGACAGACCTACGATTGTTTTTCTGCATGATTCATTAGGTTCAGTACAGCTTTGGAGAGATTTACCGGCTAAATTATCCAGAGCTACACAATGCAATACGCTTGCCTATGATCGTTTAGGTTATGGAAAATCATACCCAATGTCTACTCATAAAAGACCTGTAAATTATATGGAGCTGGAAGCAGATCTGCTGAATGATTTATTGATTGAATTGAATATTGATAATGCTATTCTCTTCGGGCACAGTGATGGGGGAACAATAGCTTTAATTACCGCTGCAAAATATACCGGAATTGTAAAAGCCATTATTTGTGAAGCCGGACATATATTTGTGGAAGATGTAACGTTGAAAGGTGTTTATGACGCATGGGAAGCCTACAAGACGACTAATCTTGCAGAGCGTTTACAAAAGTACCACGGAGATAAAGTAGATACGTTATTCAAAGCCTGGACAGAAACCTGGACCCGCGATGACTACAGAAGCTGGAATATTGAACACCTTTTGAAACATATCACAGCGCCTTTGTTATTCATCCAGGGAGAAGCCGATGAATATGGAACATTAGACCAGGTAGAAAAAACCATTACCCAGGTGAGTGGAAATGCAGAAAAATATATCATTCCGGAAATAGGCCATACACCTCATAAAGAAGCTCCTGAGATTGTATTGGAGAAAACCACGGAATTTATTGGTAAATATTTTTAG	MEGRIIDVKGKKLYIEHNDQFKDRPTIVFLHDSLGSVQLWRDLPAKLSRATQCNTLAYDRLGYGKSYPMSTHKRPVNYMELEADLLNDLLIELNIDNAILFGHSDGGTIALITAAKYTGIVKAIICEAGHIFVEDVTLKGVYDAWEAYKTTNLAERLQKYHGDKVDTLFKAWTETWTRDDYRSWNIEHLLKHITAPLLFIQGEADEYGTLDQVEKTITQVSGNAEKYIIPEIGHTPHKEAPEIVLEKTTEFIGKYF				NA	NA	NA	NA	NA
BMS003_04006	945		COG2070	NADH:quinone reductase	ATGGAGGCTGCACAAAATAGAATTTCACACCTTTTTAATATTAAATATCCAATCATCCAGGCAGGTATGATCTGGCACTCAGGATGGAGGCTGGCTTCTGCTGTTTCCAACTGTGGCGGATTGGGCATAATAGGAGCTGGAAGTATGTATCCTGATATTTTAAGAGAGAATATCAAAAAATGTAAACTGGCAACAGATAAACCATTTGGGGTAAACGTACCGATGTTATACCCTAACATTGAAGAAATTATTCAGATTATTCTTGAAGAAGGAGTAAAAATTGTCTTTACATCTGCAGGTAACCCGAAAACCTATACAGAAACCCTTCAGAAAGAAGGAATAAAAGTAGCTCACGTAGTTTCATCTACTAAATTTGCAATGAAGTGCGAAGATGCAGGAGTAGATGCTATTGTTGCAGAAGGTTTCGAAGCAGGAGGTCACAACGGAAGAGATGAAACCACAACGTTCTGCCTTATCCCGAATGTAAAGAAGCATATTTCTAAACCTTTAATTGCTGCTGGTGGAATTGCCCTAGGCTCGCAGATCAAAGCAGCAATGATTCTTGGTGCAGACGGTGTACAGATCGGATCCCGTTTTGCTGCCACTACAGAAGCAAGTGCCCATGAAAACTGGAAAAAGAAAATCACAGAACTACAGGAAGGAGACACTCACCTTACTTTAAAGGAGCTGGCTCCCGTAAGAATGGTTAAAAATAAATTTTTCAATGAACTGGAAGAGATTTATGTAAACGGAAGAGATAAAGCTGCTTTGTCTGCTTCTTTAGGAAGAGCCAGAGCAAAACGCGGAATGTTTGAAGGAGATATGGAAGACGGAGAGCTGGAAATAGGTCAGGTTTCTGCTTTGATTGATGAAATTCTTCCTGTGGAAACCGTTTTCAGTCACCTTTTAAAAGAATTTGAAGAAACAAAAATACCTGCTTTTTAA	MEAAQNRISHLFNIKYPIIQAGMIWHSGWRLASAVSNCGGLGIIGAGSMYPDILRENIKKCKLATDKPFGVNVPMLYPNIEEIIQIILEEGVKIVFTSAGNPKTYTETLQKEGIKVAHVVSSTKFAMKCEDAGVDAIVAEGFEAGGHNGRDETTTFCLIPNVKKHISKPLIAAGGIALGSQIKAAMILGADGVQIGSRFAATTEASAHENWKKKITELQEGDTHLTLKELAPVRMVKNKFFNELEEIYVNGRDKAALSASLGRARAKRGMFEGDMEDGELEIGQVSALIDEILPVETVFSHLLKEFEETKIPAF				NA	NA	NA	NA	NA
BMS003_04007	498			hypothetical protein	ATGGATTATACTTTTTACCTTAAAAAATTTCACCTTGCGGCCTCCGGAATTTCTGAGGAAATACTTCGTCAATATGGATTGAGACTATCTGTTGATGTCATTTTGGAATCTGTTGCTCTGAAAATTTATAAACCTGAATGGTCCAGTGATTCACAATTGCCTTTAGATGCTGAAGGGCGTATTTTCTTTTCGGTCTGGGTAAATGATAAAACAGTCCGTGAAAAAAAGATTTTCTATAATATCCATGCTTTGAAGCTGAGAATGTTGAAGGCTTATAAGCTTTCCGGAAGAGATTTTGCCCAAAATTTCCGGAATGAGTTTTTAATGCACCGGAAAGAGTGGCCGAATGTAAGTGTGAATTACGGACCACTGACATTAATGGAAGGCTGGCAGGAATTGAATGAGGATGAAATAGAAAAGAATATACAAGAGCTTATTCAGAGTTTCTTGAAAATAAGCCTCATTATTGACCGCGTTTTGAAACAGTATAAAAAATAA	MDYTFYLKKFHLAASGISEEILRQYGLRLSVDVILESVALKIYKPEWSSDSQLPLDAEGRIFFSVWVNDKTVREKKIFYNIHALKLRMLKAYKLSGRDFAQNFRNEFLMHRKEWPNVSVNYGPLTLMEGWQELNEDEIEKNIQELIQSFLKISLIIDRVLKQYKK				NA	NA	NA	NA	NA
BMS003_04008	1368	surA_2		Chaperone SurA	ATGACAAATAAACTAAAAATCACTTTTCTTCTTGGGATTTTCTTCATGATTTTTTCTTCAAATATGATGAATGCCCAGCTAAAACAAGGAGATTTAGTGGATGGTATTGCAGCTGTTATCGGGGATGAGATTGTTTTGGAATCTGATGTAATAGAGCAGATGAACTATGGTAAACAGCAGGGAGCTGCCAACACAGACAAGTGTGAGTTCCTGGAAAACCTTATCAGCAATAAGCTTCTTGTATACGAAGCAAAAAAAGATACCTTAATTGAAAACCGTTCTGCAGCAATCAAAGAACAGGCTAATGCAAAATACCGTCAGTTGCTTTCTCAATTTCCGGATGAAAAAACATTGCTTGCCGCTTATAAGTTCAGAAATGCTTATGAGATGAAAAACGCTATCGAAAAGATAGATACTGACCAGTACTACGGACAGTCCAAATATCAGAGAATTACTGATAAAGCAGATGTAACCCCAAATGAGGTAACTGATTTTTATAATATGTATAAAACACAGCTGCCACAGGTAAAAGACGAAGTGACACTGGCTCAGATTATGATCTATCCTACATTAACGGAAGCACATAAGCAGGAGCTTATCAGCAGATTAAAGAAAATTAAGCAGGATATTCTTGGAGGTGAAACATTTGAAAGCCAGGCAAGAATCTATTCTGAAGATGAAGGATCTGCAGCTAACGGAGGATTATATAAGAATATTAACAAGGGACAGATGGTTAAGCCATTCGAAGCGGCTGCACTGAACCTTCAGGAAAACGAGATTTCAGATCCTGTGGAATCTGAATTCGGATTCCATATTATTCAGCTGGTAAAAAGATCAGGTAAAGTGTATGATGCAAGACACATTTTGCTGAAAGCTACACCTACTGATGAGGAAATTAAAACGGCAAAAGCAAAATTAGACAGTATCAGAGGTCTTATTATGGACGGTAAGATGACCTTCAAAGATGCTGCGTTTAAATTTTCAGATGATAAAAGAACAAAATTTAATGCAGGAGTAATTCCTGGGGCTGACGGTTCTGATAAAATTGAAAGAGAAAGTATTCCTGGAACAATCAGCTACGAACTTGCTGGATTAAACCAGGGAGATATCACTACAGCTTTTGAAGACGAAGAAAACAAAAGAAAGGAGATCAAGATCATTAAAATTGAAGAAGTGATCCCTTCTCACCAGATTACACTGGAAACAGACTTTAGCAGAATCAAACAGATGGCGCTGAATAAAAAGAAAAGCGAAATGGTTGAAAAGTTTGTCAATTCTAAATTGCCAACCACTTTTATCTCCATAAACGGGCGCTACGACAGCTGTAGCTTTAAGTCGAACTGGAAGAAAGACTCCATCAAAAAATAA	MTNKLKITFLLGIFFMIFSSNMMNAQLKQGDLVDGIAAVIGDEIVLESDVIEQMNYGKQQGAANTDKCEFLENLISNKLLVYEAKKDTLIENRSAAIKEQANAKYRQLLSQFPDEKTLLAAYKFRNAYEMKNAIEKIDTDQYYGQSKYQRITDKADVTPNEVTDFYNMYKTQLPQVKDEVTLAQIMIYPTLTEAHKQELISRLKKIKQDILGGETFESQARIYSEDEGSAANGGLYKNINKGQMVKPFEAAALNLQENEISDPVESEFGFHIIQLVKRSGKVYDARHILLKATPTDEEIKTAKAKLDSIRGLIMDGKMTFKDAAFKFSDDKRTKFNAGVIPGADGSDKIERESIPGTISYELAGLNQGDITTAFEDEENKRKEIKIIKIEEVIPSHQITLETDFSRIKQMALNKKKSEMVEKFVNSKLPTTFISINGRYDSCSFKSNWKKDSIKK	PGPT0014978_831	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
BMS003_04009	924	kdgK_2		2-dehydro-3-deoxygluconokinase	ATGAAACTTTTAGTTGTAGGAAGTGTTGCATTTGATGCAATTGAAACACCATTTGGTAAAACGGACAAAATTTTAGGAGGTGCAGCCACTTATATCGGAATCACTTCATCAATTTTAGGCGTTAAATCCGGAATTGTTTCTGTAGTAGGAGGAGACTTTCCACAAGAACATCTTGATATGTTCACAGACAGAGATGTAAACATCGAAGGAATTGAAATCGTAAAAGAAGGAAAAACGTTCTTCTGGTCCGGAAAATACCATAATGACCTGAACACAAGAGATACTTTGGCTACAGAAGTCAATGTACTGGAAAACTTTGATCCTAAAATCCCGGATTCTATGCAGGATGCCGAAATTTTATTACTTGGAAACCTACACCCCGGAGTTCAGCTGTCAGTTCTTGAAAAAATGAACAACCGTCCTAAATTGGTTATTCTTGATACCATGAATTTCTGGATGGATTCTGCATGGGATATCCTAATGGATATGATTGCTAAAACTGATGTTATTACCATCAATGATGAAGAAGCAAGACAGCTTTCAGGAGAATATTCTTTAGTAAAAGCAGCTAAAAAGATCCACACAATGGGTCCGGAATATGTTATTATCAAAAAAGGAGAGCACGGAGCTTTACTTTTCCATGACAATAAAGTATTTGCTATGCCGGCACTTCCTTTAGAAGATGTTTTTGACCCAACAGGAGCTGGTGATACATTTGCAGGAGGATTTGCAGCTTATCTTGCTAAAAAAGAGAAAATAGATTTCGAAACAATGAAATCTGCACTTATCGTAGGATCTGCAATGGCTTCTTTCACTGTAGAAAAATTTGGAACAGAAAGAATAGAAGAAGTAAATGAAGAAGATATGTTCAGCAGATTGAGACAATTTAAAGAATTGACAACATTTAATGTTGAACTGCAGTAA	MKLLVVGSVAFDAIETPFGKTDKILGGAATYIGITSSILGVKSGIVSVVGGDFPQEHLDMFTDRDVNIEGIEIVKEGKTFFWSGKYHNDLNTRDTLATEVNVLENFDPKIPDSMQDAEILLLGNLHPGVQLSVLEKMNNRPKLVILDTMNFWMDSAWDILMDMIAKTDVITINDEEARQLSGEYSLVKAAKKIHTMGPEYVIIKKGEHGALLFHDNKVFAMPALPLEDVFDPTGAGDTFAGGFAAYLAKKEKIDFETMKSALIVGSAMASFTVEKFGTERIEEVNEEDMFSRLRQFKELTTFNVELQ				NA	NA	NA	NA	NA
BMS003_04010	558			hypothetical protein	ATGATTAAAAAAGTCATTTTTATTTTTGTATCACTGCTTTTAATTTCATGTGGAAAAGATCCCTCGCCAAAACCTTATGGAGAACTGCGCCTGGAGTATCCCGCACCGAAATACCATAAATTTGAAAGCAATTGTGCCTATACCTTTGAATATTCGGAATTTGCTTCCATTGCACCTGCCAAAAAGCCTTGCTGGTTCTATCTGAATTATCCTAAAATGAAGGCAAAGCTTTTCGTTACCTATTACCCTATACAGAATGACTTTGCAGACCACATTAAGGAAGCTGAGAAAATGGTATACGAACATACCATTAAAGCCAGTTCCATAGATACGAAATCCTTCGAATACCCTGAAAAGAAAGTATACGGGAACTTCTATGATCTGAAAGGACAGACCGCTTCCAATCTTCAGTTTTACATTACAGACAGTACGAAACACTTCGTTACTGCTTACTTATACTTTAATACGAGACCGAAACCGGACTCTCTCGCCCCTGCGGTGAATTATATCAAAAATGATATGAAACATCTGCTGGATACTTTTGAATGGAAAAAATAA	MIKKVIFIFVSLLLISCGKDPSPKPYGELRLEYPAPKYHKFESNCAYTFEYSEFASIAPAKKPCWFYLNYPKMKAKLFVTYYPIQNDFADHIKEAEKMVYEHTIKASSIDTKSFEYPEKKVYGNFYDLKGQTASNLQFYITDSTKHFVTAYLYFNTRPKPDSLAPAVNYIKNDMKHLLDTFEWKK				NA	NA	NA	NA	NA
BMS003_04011	1035	nth_1		Endonuclease III	TTGGAGAAGGATAAACGCAGTTCAGATTTTCTGCATATTGGCAGCAAAATTCTTGAATGGTATAAAAATAATGCAAGAGATCTGCCTTTCAGACAGACAAAAGATCCCTACAAAATCTGGATCTGTGAAATCATATTTCAACAGACAAGGATCAATCAGGGGTTAAATCATTATAATAATTTTATTAAAAGATTTCCTGATGTAAAAACGTTGGCAAAAGCTGAAGAGAACGAAGTTTTACTCTATTGGAAAGGATTAGGCTATTATTCAAGAGCCATCAATATTCATAAAGCCGCCCGGCAGATCATGAACGATTATCATGGTGTTTTTCCAAACCAATATGAAGAAATCTTAAAATTAAAAGGAGTGGGGAAGTATACTGCAGCAGCAGTATCAAGTATCTGTTTCGGTGGAGGGCTGCCTGCTGTGGACGGAAATTTCTATCGTGTCCTGAGCCGTCTTTTTGCAGATGATTTTGACATTTCGAATTCAAAATCATTTACCTATTTTTCTGAACTGGCTGCTTTGGTATTGCCGGAAAATGTGGGAGACTTTAACCAGGCTATGATGGATATTGGTTCAGAGATCTGTAAACCTAAAAACCCATTGTGTGGAGAATGTCCTGTGAATGAAGACTGTCTGGCATTTTCTACACAGAAAGTCTCTGCGTATCCTGTAAAAACAAAAAAGGTAAAAGCAGAAGATTTGGCTCTGACGTATTATTTTGTTCATAGAAATGGACAATTTCTGATCCGTCAGCGAAAAGATGACTTCATCTGGAAAAAATTATTTGAATTTCCTGATACCATTTCTTCAGATATGAAAACCTTTATCACAGGTTCAAAAACAGTTACCCATAAACTGACCCACAAGAATTTAAGTATTGAAGTATTGAATGTTGAGGTTACTTCTGAGAAAATATGGAATGATTTTATCACTGAAAATCAGTACCAGATTACAGATGTTGAGGGCTCTCATGAAAAATCGTTTCCCAAGCCTCTGGAAAATTACATTCAAAACGCTCTGAAAGACTGA	MEKDKRSSDFLHIGSKILEWYKNNARDLPFRQTKDPYKIWICEIIFQQTRINQGLNHYNNFIKRFPDVKTLAKAEENEVLLYWKGLGYYSRAINIHKAARQIMNDYHGVFPNQYEEILKLKGVGKYTAAAVSSICFGGGLPAVDGNFYRVLSRLFADDFDISNSKSFTYFSELAALVLPENVGDFNQAMMDIGSEICKPKNPLCGECPVNEDCLAFSTQKVSAYPVKTKKVKAEDLALTYYFVHRNGQFLIRQRKDDFIWKKLFEFPDTISSDMKTFITGSKTVTHKLTHKNLSIEVLNVEVTSEKIWNDFITENQYQITDVEGSHEKSFPKPLENYIQNALKD				NA	NA	NA	NA	NA
BMS003_04012	462			hypothetical protein	ATGAATAAAACACTTATTATTGGATTTCCCTTTATGTTAATCATCCTTTTGATAAGTTGTGAAAAAAAATACCAAAGTCCAGGCACTTACGAAAATGATCTTTTCGCACAGGAACGTCAGGAAGGAAAAGCATACATCATGAACAGAGATGAATGTTTTGATGGTAGTGAACTCGTACTTGCAAGTTCAGATGTAAAACTGGCAGACAGCTCAAAAGGCCGCGGAAAATCATTTTACCTTTATAAAATAAGAGCAGGAAAAGTATTGAAAACAGTAAGAGACTCCACCGTAGAAATGCCTATGCTGTTTTTATCCCAATACAAATTAAAGATCAAAAATACAGATTCCATGTACGTTTATCTGAAAAAACTGGAAGGCTACCGTTTTATAGCCAAAGACAGAAACCTTAAGTACCAATGGCTAAAAGCCGCTCCCGTATATTCTGTTAAAGCTGATAAATAA	MNKTLIIGFPFMLIILLISCEKKYQSPGTYENDLFAQERQEGKAYIMNRDECFDGSELVLASSDVKLADSSKGRGKSFYLYKIRAGKVLKTVRDSTVEMPMLFLSQYKLKIKNTDSMYVYLKKLEGYRFIAKDRNLKYQWLKAAPVYSVKADK				NA	NA	NA	NA	NA
BMS003_04013	1362			hypothetical protein	ATGGATAGCAAATTACAGGCACAAGAAAGCCAGCAGCAGGGTCAGCAGCAACATTCCGGCCAACCGAAGGGCAACCCGCTTGCAGAGCTCAATAAAATGGGTGGTTTTGGCTTTGTTGAATCCGTTGTAGACGGTATCGCCAATATGAACCCAACAAGAAAGGCAAGAAAAGAAATCTTCCTGAATGACAGCAATAAAGCAGACGAAAGAAAAGAACTTCTTCAGAAGATCAATCTTTGGGTAAGCCTTTTAGAGGGAAATGAATCTGCAGATAAAATGGCTGATACCTGCAAAATAAAAGCACAGCAAGCCGATCAGAACTTAAAAACAAACTTAAAAAATACACTGGATGCCGTTCGTCTGTTGGAGACCAACTACAGAACAGTAGCCCAATTCTACAAAAATACGGAATTGGATAAAGTGGATAACGTAAGTATCGTGAACGCAAGCCTTGAGCAGGTATCCGATCTGGATAATCCTTTGTTCATTGATGCCATTTCCGAAGAATTTAAAAACTATTACGACCGTCTTGACCTTAGAGATAACTACTCAATCCTTGCCATACCAGGATATTTAGGATCCAATAAGGTCATCGAGAAATGGGCTAAAATCTGTAACGAAAACAAAGTAATGATGGTTACAGACTTCGCCAATCTTGATAAGCCGGATGATGTTGTAGATTTATTCCACTCTGCAAACCTTACAGGAGGAGAGCTTCACAGAAGTAACGTTATTATGACATGTAACTGGCTGGTAGGACGTGGTAAAGCTGAAGAAGTAGGAGAAGAAGAAAACGTAGAGCTTCCGCCTTCCACTTCATTAGCCGGAAAGATCCATAAAACACTGATGTCTCAGGTAGCAGCAGGTAAAAAGCACGGTAACATCAACGAAGTAGACGCTGTAAAATTCGAGCTGAAGAAAAGTGAAATTTCTCAGCTGGAAAAAATGGGTCTTGTACCAATGGTAAACGAGTACGGAAAAATTATGGCCTTCTCAGCGAAGACCTTATTTACAGGAGACAATATTGGTCTGCAGACGTATTCCGTAGTTCGTGTATTCGACTATGTAACCAAAGTATTACTTGACTTCCTGAACAGAAGAGCCTTCGAAAACTGGAATGCTAAAAATGAAGATGATCTGCGAAGACAGATTGTAACTTTCCTTGACAACATTAAAGGACCGGATAAATTGATCGAAAAATTCAAAATCGTCCGTTTCGAGCAGGATAGAGTAAACAAAGACAGAGTATGGCTGGATATCCGTATGACTCCTTATTTCCCTACAAAAAGTTTCGTTATTAAACTGGACGGACACAAAGGGGATGATGGTAACGAATGGGATGCAGAATACACTCAGGAGTAA	MDSKLQAQESQQQGQQQHSGQPKGNPLAELNKMGGFGFVESVVDGIANMNPTRKARKEIFLNDSNKADERKELLQKINLWVSLLEGNESADKMADTCKIKAQQADQNLKTNLKNTLDAVRLLETNYRTVAQFYKNTELDKVDNVSIVNASLEQVSDLDNPLFIDAISEEFKNYYDRLDLRDNYSILAIPGYLGSNKVIEKWAKICNENKVMMVTDFANLDKPDDVVDLFHSANLTGGELHRSNVIMTCNWLVGRGKAEEVGEEENVELPPSTSLAGKIHKTLMSQVAAGKKHGNINEVDAVKFELKKSEISQLEKMGLVPMVNEYGKIMAFSAKTLFTGDNIGLQTYSVVRVFDYVTKVLLDFLNRRAFENWNAKNEDDLRRQIVTFLDNIKGPDKLIEKFKIVRFEQDRVNKDRVWLDIRMTPYFPTKSFVIKLDGHKGDDGNEWDAEYTQE				NA	NA	NA	NA	NA
BMS003_04014	561			hypothetical protein	ATGTTACAGTTTTTTTTTAAATTTAAACACTGGATTGGTAATTTATTTGATTCATCAGTAAACTACTCAAAGACAGATCCGAATCAAAATAGTAAATCTCAAAATAATAATAATATGGCAATGTTTAATTATGGTGTCGGCGGAAACGAGGTAAAAGTAGACGCTAATGAAGCTATTCAGGAAATACAGGAAAATAAATCACTGATAGTAAGCCAACTTACAACAGAAGAGTCTTATACACCTGAAATCGTAACAGGATTAAAAACAGTGGAAGACGTTTTCAAACATTTCCAGCCTTCAGTATCGGTACAGCACGAAACGGAAGATGGTGGAATGGTAGAAGAGGAATTCCGTTTTCAAAACCTTGGAGACTTTACCCCTAAAAGCCTTACTCAGAAATCAGATTACCTGCAGCAGCTGAGTATAGAACAGGAGCAGTACAATAAAATAGTACGTCAGCTGAAAACCAATAAAATTCTACGAAATATGCTGGAGAATGATCAGACAAGAGCAGCATTTGTAGAAGTATTGAAAGAAGTGGCACAAGAACTTGAAAAATAA	MLQFFFKFKHWIGNLFDSSVNYSKTDPNQNSKSQNNNNMAMFNYGVGGNEVKVDANEAIQEIQENKSLIVSQLTTEESYTPEIVTGLKTVEDVFKHFQPSVSVQHETEDGGMVEEEFRFQNLGDFTPKSLTQKSDYLQQLSIEQEQYNKIVRQLKTNKILRNMLENDQTRAAFVEVLKEVAQELEK				NA	NA	NA	NA	NA
BMS003_04015	1047			hypothetical protein	ATGAAAGATGTAAAAATAGCGTTCAGAAAACCAATATTTCCGGTTTCAGAAGCATTACAGCAATATCTGGAAAAGTATAACAGAACCACCAAAATTAAGTTTTTGTATGAAGATCTTCTAAGGTTCAGCGACAGTGTGAATATTCTGGATAAGGACGGCAAAGATACTTTGTGGCTTGGGGTATTATATCCCGAATTTGAATTTAAAGAAATAGAAGCTAATTTAAATAAGATTTATACCCTTCTTCATTCTGATGGGGATATTGCTACGCTACCTTATCTGAAAGTAGATACGATCGACTTCTGTACTTTCGGAAATTCTAAACCTTTCCGGGTTCGGGTAAGGAATATACTTAATGACAATTATACCTATTTTTATATTAAACAGGCGGATGCTTCCCGAATATTCGGACTGGAGCTGGAAGACCTGCTTTCTCCCAACCGGATTAACTTTCTGGTGTACAAAAATACTTTGATAGAGGAACATATTTTAGGAATTCCGGGAGATGTTTTTATTCAGAAACATCTATTGAACTGTACAGATCTGGAAAAGGCTCAGATTTCCAAGGAATTTGTGAAGTTCAATGAACGTTGTCTTATTGGGCTTCTGGGTGACATGCGTTCTTATAATTATGTGGTTATTCCCATCCATGATTTCGACCAGGTAATTTACAGAATCCGTCCTATTGATTTTGACCAGCAAACTTATGAAGGGAGTCTGAAAGTTTATCTTCCGCAATATTTTAAAGAGAATAATCAAATGGTGAATATGGTGCTGGAAAAACTGAAGCCCAGTTCTATAGAACAATACCGTAAGGAGGTACGTTCCCAAATCGTAAAAAGAGTAACCAGCAGCCAAAACAGATTTAATGAGCTTATTTCTATTATGAAGAAAGATGATATCGCACCGGAAGCCAATGTCATAGAACTCAGAACAGCTTTACAAAAGCTTACCTATGATGTTAATTTCAAGTATTGCACAACGATGGGAGACATTATAGAAACCGGAATCAATTTTGTGCTCCGGAATTATAAAAAAGAATATTAA	MKDVKIAFRKPIFPVSEALQQYLEKYNRTTKIKFLYEDLLRFSDSVNILDKDGKDTLWLGVLYPEFEFKEIEANLNKIYTLLHSDGDIATLPYLKVDTIDFCTFGNSKPFRVRVRNILNDNYTYFYIKQADASRIFGLELEDLLSPNRINFLVYKNTLIEEHILGIPGDVFIQKHLLNCTDLEKAQISKEFVKFNERCLIGLLGDMRSYNYVVIPIHDFDQVIYRIRPIDFDQQTYEGSLKVYLPQYFKENNQMVNMVLEKLKPSSIEQYRKEVRSQIVKRVTSSQNRFNELISIMKKDDIAPEANVIELRTALQKLTYDVNFKYCTTMGDIIETGINFVLRNYKKEY				NA	NA	NA	NA	NA
BMS003_04016	2097	pepO_1	COG3590	Neutral endopeptidase	ATGAAAAAGCTAAATATCGGAATACTTGCCCTTTCAGGTATTGTATTTCTTAACTCTTGTGGTGCAGCAAAGACTGCAGGGACAGACAATAAAACAGATGCTACTGCAAAAGTGGCTGAACCGGTAAAAGAAGAAGCAAAAGAAGAAGGGATCAATTTATCATATATGGATACCAGTGTCCGCCCGCAGGATGACTTTTTTAGTTATGTGAACGGAAACTGGGTGAAAAATACTCAGATTCCTTCCGATAAAGCAAACTGGGGCTCTTTCAATGCCTTGAGAGAAAATGTGGATGATGCTTCATTAGATATTTTAAATAAAATCCTTACAGAAACCTATCCTGCCGGATCAGAAGGACAGAAAATCCAGAACCTGTACGCTTCTTTTATGGATACCAATAAAAGAAATGCAGAAGGTTTGACACCCATTAAGGCAGATCTTGCCAAAATAGATGCTATTAAAAGTGTGGGTGATCTTCAGAAATATCTTCTGGAAGCTACAAGATTAGGAGATAATTCTTTCTATGGATGGAGAGTGGGCGCTGATATGAAGAATTCAAATATGAATGCTGTATATCTTGGCGGTCCGGATCTGGGACTGGGAAGAGATTATTATCAGAAAATAAACGATGCCAATACTAAGACATTAGCAGAATATCAAACCTATGTTGGAAAACTGTTCGGGGTTTTAGGATATAAAAACAATACTGAGGCTGCTCAGAATGTGGTTGCCTTTGAAAAACAGTTGGCTAACTATTTACTGACCCTTGAGCAGAACAGAGATGCCAATTTAAGATACAACCCTAAAAACGTATCAGAATTATCAGGGCTTGTGAAAAACGTTGACCTTGCAAAATACCTGAAAGAAGCAGGTGTAAATACAGACAGAGTAATTATCGGAGAACTGAAATATTACCAGAATATGGATCAGTTCATTACCCAGAAGAACCTTCCTCTCCTGAAAGACTATCTGAAATATCATATTATCAACGGAAATGCAAGCAATCTTGATGACAGCTTAGAGCAAATCAGGTTCGATTTCTACGCTAAATATTTACAAGGTCAGAAAGAGCAGCGTCCCATGAACAAAAGAGGGCTGTCTCTTGTGAACGGAGTTCTTGGAGAAGCTTTCGGAAAACTGTATGTAGACAAATACTTCACTCCTGAAGCTAAAAAGCAGATGGAAACCTATATTGATTACCTCTTAAAATCATTCAAAACACACATCGCGAATATAGACTGGATGTCTCCTGAAACCAAAGTAAAAGCTCAGGAAAAATTATCCAAGTTCAGCGTGAAAATTGCTTATCCGGATAAATGGAAAGATTATACTCAATTAAAAGTAGAATCTCCAAAAGAAGGAGCTACCCTTTATTCTAACCTTCAGAATGTAGCAGCATGGCAATATCAGAGAAGCTTAAATAAAGTAGGAAAACCAGTTGACAAAACAGAATGGGGAATGTCTCCACAAACGGTAAATGCTTATTACAGTGGATCAAACAACGAAATTGTATTCCCGGCAGCTATTCTTCAGCCGCCTTTCTATAACCCTAAAGCCGATGCAGCCGTAAACTTCGGAGGAATCGGAGCAGTTATCGGTCACGAAATTTCTCACGGATTTGATGACAGCGGTTCACGTTTCGATGGAGATGGTAACCTGAATAACTGGTGGACAGACGCAGACCGTAAAAACTTTGATGCAAAAGTAGGTCAGTTAGCCGCTCAATACAGTGCGTATGAACCTGTAAAAGGAAGTTTCGTAAACGGTAAATTCACCAGTGGTGAAAATATCGGTGACTTAGGTGGGGTAGCAGTGGCTTATGATGCCCTTCAGATGTATTTAAAAGATAAAGGAAACCCAGGGAAGATCAGTGGGTTCACTCAGGATCAGAGATTCTTTATGAGCTGGGCTACTGTCTGGAGAACCAAAGCTACTGATCAGTACATGATCAATCAGGTAAAAACAGATCCGCATTCTCCGGGAATGTTCAGAGCTTTTGGCCCACTGGTGAATCAGGATTCATTCATCAAAGCATTTGATATCAAGCCGGGAGATAAACTGTATAAAGCTCCTCAGGACAGGATAAAAATCTGGTAA	MKKLNIGILALSGIVFLNSCGAAKTAGTDNKTDATAKVAEPVKEEAKEEGINLSYMDTSVRPQDDFFSYVNGNWVKNTQIPSDKANWGSFNALRENVDDASLDILNKILTETYPAGSEGQKIQNLYASFMDTNKRNAEGLTPIKADLAKIDAIKSVGDLQKYLLEATRLGDNSFYGWRVGADMKNSNMNAVYLGGPDLGLGRDYYQKINDANTKTLAEYQTYVGKLFGVLGYKNNTEAAQNVVAFEKQLANYLLTLEQNRDANLRYNPKNVSELSGLVKNVDLAKYLKEAGVNTDRVIIGELKYYQNMDQFITQKNLPLLKDYLKYHIINGNASNLDDSLEQIRFDFYAKYLQGQKEQRPMNKRGLSLVNGVLGEAFGKLYVDKYFTPEAKKQMETYIDYLLKSFKTHIANIDWMSPETKVKAQEKLSKFSVKIAYPDKWKDYTQLKVESPKEGATLYSNLQNVAAWQYQRSLNKVGKPVDKTEWGMSPQTVNAYYSGSNNEIVFPAAILQPPFYNPKADAAVNFGGIGAVIGHEISHGFDDSGSRFDGDGNLNNWWTDADRKNFDAKVGQLAAQYSAYEPVKGSFVNGKFTSGENIGDLGGVAVAYDALQMYLKDKGNPGKISGFTQDQRFFMSWATVWRTKATDQYMINQVKTDPHSPGMFRAFGPLVNQDSFIKAFDIKPGDKLYKAPQDRIKIW				NA	NA	NA	NA	NA
BMS003_04017	2058	pepO_2	COG3590	Neutral endopeptidase	ATGAAAAAAATAACGCTTTCCTTGTTTTTAATAGCAGGGATCTGCACTCAGACTACGATGAGCGCACAAGCTAAAGCTGCCAAAGTAGCAGTGAATAACACAGACAAAGGTTTAGACCTTAGCTTGATGGACACTTCGGTGCGTCCTCAGGATGATTTTTATAACTACGTGAGTGGAACCTGGATGAAAACAGCTAAAATTCCATCTGACAAACCAACTTGGGGTAGTTTCAACAAACTGGCTGAGGATACGGATAACAATTCCATGACCATCCTGAACTCTCTTCTGAAAGATAAATTCGCTGACGGAAGCGAAGGTAAAAAAATTCAGGATCTGTATGCTACTTATATGAACATGCAGAAGAGAAATGCAGACGGAATCAAGCCAATTCAGGAAAACCTGAACAAGATTGATGCTATTAAAAATATGGCAGATCTTCAGAACTATCTTACTTCTGTAACCAAAGAAGGCGAAAACGTTTTCTACGGATGGGGAGTAGATGCAGACCTTAAAGATTCTAAAATGAATGCCGTTTACTTAGGTAATGCTTCTTTAGGTTTAGGAAGAGATTACTATCAGAAAGTAAACGAAAAAAATACAGAAGCTATTGCTGAATATCAGAAATATGTAGCTTCCATGCTGAAAGAATTAGGGTACAAAAATGCAGATGAAGCAGCAAAAGGTATCGTTAATTACGAAAAAAGTATTGCCAATACTTACCTTACCAATGAGCAGAGCCGTGATAACACACTTCAGTACAATCCTCAGACGATGGCTGAGCTTTCTGCTTTGGTAAAAAATGTTGACCTTCCGGGTTATCTTAAAAAAGTAGGCGTAAATACAGACAAAGTAATTATCAGTGAACTAGGATTCTATAAGAACTTTGATAAACTGGTAAATGCTCAGAATCTTCCTGTGATTAAAGATTATCTGAAATTCCACATGATCCACGGAAGTGCTTCTTATTTAAGTGAAAAGTTAGGAAACATGAGGTTTGCTTTCTATGGTAAGTACCTTAGAGGTCAGCAGGAACAGAGAGCCCTTAACAAAAGAGGGTTTGAGCTGATCAACGGTACTTTGGGAGAAGCTTTCGGAAAATTATATGTTGAGAAATATTTCCCGGCTGAAGCAAAAGCTCAGATGGTAGAATTAATTGATTACTTAAAGAAAAGTTTCGCCGTTCATATCAATAACTTAGCGTGGATGTCTTCCACCACTAAGGAAAAAGCAATGCAGAAGCTGAACAAATTCACAGTAAAAGTGGCTTATCCTGATAAATGGAAAGACTATTCAAAATTAAATATCATTTCTGAAGCGAAAGGAGGAAGCCTTTACAAAAACCTTCAGAATATCGGCGAATGGCAATACAACAAAGATTTAGCTAAAATTGGTAAGCCGGTGGATAAAACAGAATGGGGAATGACGCCACAGACTGTAAATGCATATTACAACCCGGTAAACAACGAGATTGTATTCCCAGCAGCGATCCTTCAGCCGCCATTCTTTAACCCTAAAGCTGATGCTGCTGTAAACTTCGGAGGTATTGGTGCAGTTATCGGTCACGAAATGAGCCACGGATTTGATGATTCAGGAGCTCAGTTCGATGCAGACGGTAACCTGGTAGACTGGTGGACACCGGAAGATAAAGCAAACTTCGAAAAAGCTACAAAAGCCCTTGCTTCTCAATATGACAAATATGAGCCTGTAAAAGGAACTTTTGTAAACGGTACTTTCACAAATGGTGAAAATATCGCAGACTTAGGAGGTGTAAACATTGCTTATGACGCTCTTCAAATGTATCTGAAAGACAAAGGAAACCCAGGGAAAATCAGCGGATTCACGCAGGATCAGAGATTCTTCCTAAGCTGGGCAACCGTTTGGAGAACATTGTCAAGTGAGAAATATATGGTAAATCAGGTAAAAACTGACCCGCACTCTCCGGGATATTTCAGAAGTTTTGGTCCGCTTATCAACGTTGACGCTTTTTACAAAGCATTCGATGTGAAAAAAGGAGACAAATTATACAAAACTCCGGAAGAAAGAATCAAAATCTGGTAA	MKKITLSLFLIAGICTQTTMSAQAKAAKVAVNNTDKGLDLSLMDTSVRPQDDFYNYVSGTWMKTAKIPSDKPTWGSFNKLAEDTDNNSMTILNSLLKDKFADGSEGKKIQDLYATYMNMQKRNADGIKPIQENLNKIDAIKNMADLQNYLTSVTKEGENVFYGWGVDADLKDSKMNAVYLGNASLGLGRDYYQKVNEKNTEAIAEYQKYVASMLKELGYKNADEAAKGIVNYEKSIANTYLTNEQSRDNTLQYNPQTMAELSALVKNVDLPGYLKKVGVNTDKVIISELGFYKNFDKLVNAQNLPVIKDYLKFHMIHGSASYLSEKLGNMRFAFYGKYLRGQQEQRALNKRGFELINGTLGEAFGKLYVEKYFPAEAKAQMVELIDYLKKSFAVHINNLAWMSSTTKEKAMQKLNKFTVKVAYPDKWKDYSKLNIISEAKGGSLYKNLQNIGEWQYNKDLAKIGKPVDKTEWGMTPQTVNAYYNPVNNEIVFPAAILQPPFFNPKADAAVNFGGIGAVIGHEMSHGFDDSGAQFDADGNLVDWWTPEDKANFEKATKALASQYDKYEPVKGTFVNGTFTNGENIADLGGVNIAYDALQMYLKDKGNPGKISGFTQDQRFFLSWATVWRTLSSEKYMVNQVKTDPHSPGYFRSFGPLINVDAFYKAFDVKKGDKLYKTPEERIKIW				NA	NA	NA	NA	NA
BMS003_04018	3399			hypothetical protein	GTGGAAAACTCCAAACAGATTTTTCAGACCAGCAGCAAAAAACGCTGGAAAAGTGTACAGTGGGGAAGCCGTGTTTTTATTTTTATAGGAATACTGCTTGTGCTTGCTTTAGGTCTGATGATGACCCTGGACAAAAGTCCTGAAATTCCTTTTAAAGAAGACTATAAAGCTGTCATTACAGCCAATAAACCCTATCTTCAGGAGAATAAAATTTCCAAAGAATACAAAGGTTTCAGAAGCTTTATTTCTGAAAAGACAATTCATACCAGCCTCGACAAAATTGAGAAGGCAAAAGCAGAAAGATATCAAAACCAAAACCGGAACTGGGCTCAGTTTCCCGGAGGAATCCGGTCTGCATTTTATGTGGCGTGGGATCCTCAGTCGCTGATGTCTCTGAAAAGAAATATCAGACACGTCAATCTTGTTTTCCCGGAATGGTTTTTCCTTGATCCCAAAATTGGTGAACTGAAGACGAATGTAGATCCGGAAGGATATGTAGTGATCAAAAGAACAGGTGTTGCAGCCATGCCGATGCTGAGTAACAACTCAGACAGAGAATTCCGCTCCGAAGGGCTGGTAAAAGTTCTTAATGATCCACAAAAAAGAACACATCTGATTCAAAAGATCACCCAGCAATGTAAAAAATATCACTTCAAAGGAATTAATATTGACTTTGAGGATATGAACTTGAATTCTGATGATAATCTGATTGCTTTTATGAAAGAACTTTCAGAGACTTTCAAAAAGAATCAGTTGCTGGTGACTATGGATATCATGACGGATAACGATGATTACAATATCCCAAGACTGAATCCCTATGTAGATTACTTTGTGCTGATGGCTTATGACGAATATTCCGCAGGAAGTGATGCCGGACCCGTTTCTTCTCAAAAATGGATTGAAGAACAAACCGGAAAAATTGTGAAACAAACCTCTCCTCAAAAGATTATCCTGGGCTTGGGAGCTTATGGTTACGACTGGAGCTCCAATAAGGATGATAATACCTCTGTTACTTACATGCAGGCAATTACCAAAGCCAGCGCCAGTAAAGCGGTTATTGATTTTAATGACAATACGTTTAATTTAAATTATTCTTACACCGATTCTAAAAATTTAACCCACACCGTATTTTTCAATGATGCGGCTTCTATTTTCAATACTATGCGTTTCTCTTCAGAATATCCTTTGGCGGGAACAGCACTCTGGAGATTGGGAAGTGAAGACAGCAGAGTCTGGAATTTTTATGATAAAGATCTTACGTTTGCCGGCCTTTCCAAGTTGAATTTAAAAACACTGGAAAATGTAAAAGGTCAGACCATGGTAGATTATATTGGAGACGGGGAAGTACTGGATGTTCTGAATACCCCTCATGATGGAAAAATCGCTCTGGAAGTTGATCCGAAAGAGAAAATAATCACAGACGAAAATTATATTACCTATCCAAGTTCTTACGAAGTAAAAAAATACGGAAACGCCCCTCAGAAAGAACTCGTCCTCACGTTTGATGATGGTCCTGATGAAACATATACTCCGCAGGTATTGGATGTTTTGTCTAAATATCATGTTCCGGCAGCATTCTTTCTGGTAGGATTGAATGCCGAAAAGAACCTTCCGCTCGTTAAAAAAATTTACCGTGAAGGACATGAAATAGGAAATCACACCTTTACCCATGAAAATGTGGCCAAAGTAAGTCCGGAAAGAGCTTTGCTGGAAATGAAACTGACAAGACTATTGATAGAATGCGTTACAGGACACAGCACCATTCTGTTCAGAGCACCATACAATGCAGACTCTGAGCCTACTACTTCGGAAGAAATTATTCCGGTAGCGCTGGCCAGACAGCAGAATTATCTTGATATCGGGGAAAATATAGACCCTGAAGACTGGCAGCCGGGGATAAAAGCAGATGAGATTGTAAAACGTGTAATGTCCGGAATAAAACAACAGAGAGGAAATATCATTCTTCTTCATGATGCAGGCGGAGAGACCAGAGAAGAAACCATAAAAGCTTTAAAAATACTGATCCCGACTCTTCAGAAACAGGGCTATCATTTTACAAACCTTACAAGTATTCTCCACAAAAGCAGAAATGAACTGATGCCTGAAGTTCCTAAAACGAGATCCTATTACATCATGCAGCTGAATCTTGTACTGGCCACTTTTATTTACGGAGTAAGTCACTTCCTGGTTGCTTTGTTTACTATTTTCATTGTATTAGGAATGATCAGATTATTGCTGATGGCATACTGGGCTTTTAAAGAAAGAAAAAAAGAAAAAAAACTAGGTGAATTTCCGGTTCTGGAATCCTATCCGAAGGTTTCAATCATAGTTCCTGCCTATAATGAAGAAGTGAATATTGTTTCTTCCCTGCAGAATTTACTGAAGCAGACTTACCCCAATTTTAATATTATTATGGTAGATGACGGAAGTAAGGATTCTACTCATGAAAAAGCATTGGAAGCATTTCCGGATCATCCGAAACTGAAAATTTTCACTAAAATAAACGGAGGAAAAGCCACTGCCCTGAACTTTGGAATATCACAGGCGGATGCAGAATATGTAGTATGTATTGATGCGGATACCAAGCTGCAGCAGGATGCAGTGAAATATATGATCGCGAGATTTTTAAATTCAGATCCGGAAGAAAAAATAGCCGCTGTAGCAGGAAATGTGAAGGTAGGAAACAGAGTAAACTGGCTCACCAGGTGGCAGGCTATAGAATATACAACAAGTCAGAATTTTGACAGGCTGGCGTATGCACATATCAATGCTATTACCGTAATTCCGGGAGCTATCGGAGCATTTAAAAGATCTGTGGTTATGGAAGCAGGTGGTTATTCATCTGATACTTTAGCAGAAGATTGTGATATTACAGTGAAAATATTAAAAGCCGGATATACAGTTGCCAATGAAAACAGAGCCGTTGCAGTCACAGAAGCACCGGAAACCGTGAAGCAGTTTTTAAAACAGCGTTTCCGATGGACCTACGGAATCATGCAGATGTTCTGGAAACAGAGACAGACTTTCCTTAATCCAAAATATAAAGGATTGGGACTTTGGGCAATGCCGAATATTTTATTATTCCAATATATCATACCATTTTTTTCTCCACTGGCAGATGTGATCATGTTTTTTGGAATCCTGTCCGGAAACGGAGACAAAATATTCACCTATTATCTGATCTTTCTTTTGGTGGATGCTTCATTAGCTTTAATTGCATTCATCATGCAGCGGGAAAAATTAATCAATCTGCTGTATATAATTCCACAGAGATTCGGGTATAGATGGCTGATGTATATCGTATTATTTAAAAGTTTAAGAAAAGCACTGAAAGGCGAAATGCAGTCCTGGGGATTCCTGAAAAGAACCGGGAATGTAAAAGAGATAGCAACTTCTTAA	MENSKQIFQTSSKKRWKSVQWGSRVFIFIGILLVLALGLMMTLDKSPEIPFKEDYKAVITANKPYLQENKISKEYKGFRSFISEKTIHTSLDKIEKAKAERYQNQNRNWAQFPGGIRSAFYVAWDPQSLMSLKRNIRHVNLVFPEWFFLDPKIGELKTNVDPEGYVVIKRTGVAAMPMLSNNSDREFRSEGLVKVLNDPQKRTHLIQKITQQCKKYHFKGINIDFEDMNLNSDDNLIAFMKELSETFKKNQLLVTMDIMTDNDDYNIPRLNPYVDYFVLMAYDEYSAGSDAGPVSSQKWIEEQTGKIVKQTSPQKIILGLGAYGYDWSSNKDDNTSVTYMQAITKASASKAVIDFNDNTFNLNYSYTDSKNLTHTVFFNDAASIFNTMRFSSEYPLAGTALWRLGSEDSRVWNFYDKDLTFAGLSKLNLKTLENVKGQTMVDYIGDGEVLDVLNTPHDGKIALEVDPKEKIITDENYITYPSSYEVKKYGNAPQKELVLTFDDGPDETYTPQVLDVLSKYHVPAAFFLVGLNAEKNLPLVKKIYREGHEIGNHTFTHENVAKVSPERALLEMKLTRLLIECVTGHSTILFRAPYNADSEPTTSEEIIPVALARQQNYLDIGENIDPEDWQPGIKADEIVKRVMSGIKQQRGNIILLHDAGGETREETIKALKILIPTLQKQGYHFTNLTSILHKSRNELMPEVPKTRSYYIMQLNLVLATFIYGVSHFLVALFTIFIVLGMIRLLLMAYWAFKERKKEKKLGEFPVLESYPKVSIIVPAYNEEVNIVSSLQNLLKQTYPNFNIIMVDDGSKDSTHEKALEAFPDHPKLKIFTKINGGKATALNFGISQADAEYVVCIDADTKLQQDAVKYMIARFLNSDPEEKIAAVAGNVKVGNRVNWLTRWQAIEYTTSQNFDRLAYAHINAITVIPGAIGAFKRSVVMEAGGYSSDTLAEDCDITVKILKAGYTVANENRAVAVTEAPETVKQFLKQRFRWTYGIMQMFWKQRQTFLNPKYKGLGLWAMPNILLFQYIIPFFSPLADVIMFFGILSGNGDKIFTYYLIFLLVDASLALIAFIMQREKLINLLYIIPQRFGYRWLMYIVLFKSLRKALKGEMQSWGFLKRTGNVKEIATS	PGPT0018645_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS003_04019	1251	pncC	COG1058	Nicotinamide-nucleotide amidohydrolase PncC	ATGGAAAACGCTGTTCTGATTACTATCGGGGATGAAATCCTTTCTGGAAACACGGTAGATACCAATTCTAATTTTATCGCCACGGAACTTAAAAATGTAGGAATAAAAGTTATTCAGATTCTTACCATCTCAGACGAAATTGAAACCATTAAAGAAGCTTTAAGCGTTGCTTTTGAAAAAGGAGATCTTGTCATTACCACAGGTGGATTGGGTCCTACCAGAGATGATAAAACCAAAAAAGCGCTGGCAGAATATTTCAACGATGATATAGCTTTGGATGGGGTAACCTTCAACCACCTGAAAGGCTACATGGAAAGGAGAGGAAGGGCAGATATTCTCGAAAGAAACAGAGAACAGGCTTTTGTACCTACCAAATCCATCGTTTTTCAGAACCATTACGGAACGGCGCCATGTATGATGATGGAACAGGACGGAAAATTATGTTACAGCCTTCCGGGAGTTCCTTATGAAGTAAAACCTTTGATTAAAGATCAGATCATTCCTTATTTGCAAAAGAGATTTCAGCTTCATTATATCCATACCAGAATTGTTTCTGTGGTGGGAATTCCTGAAAGTATTCTCGCAGACAAAATTGAAGACTGGGAACTGGCGCTTCCTGAAAATATCGCACTGTCTTATCTTCCGGTGGGAACGCGTGTAAAGCTCCGTCTGACAGCTTCCGGGGAGAATGAAGAACAGCTGAAACAAAGAACAGAAGAAGAAATACAAAAACTGCTTCCTTTGGTAGAAGATCATGTGATTGCTGTAACTGAAGATAAAATTGAAAATATTCTGGCAGAAATGCTTACCGAAAGGAATCTGACGATTTCTACCGCAGAAAGCTGTACAGGAGGTGAACTGGCAAAAATGATCACTTCAGTTTCCGGCAGTTCAAAATATTTCCTTGGCGGAATGGTAGCTTATGCCACAGAGAAAAAGATTAAAATTCTAAATGTTTCCGGAGAAACCGTAGATCAGTTCACTGTGGTGAGCGAACAGGTGGCACAGGAAATGGCAAAAGGCTGCCAGCAATTGTTTGAAACCCATATTTCCCTTTCTACAACGGGTGTTGCAGGACCGGGAAAAGGGGAAGATGGTAAAGATGTTGGAACTGTTTACTATACGATCAGGATCAATGATCAGGAAGTCACCTCGAAATTATACATGCCTCATCTGGAAAGAGTAGACTTTATGGATTTTGTTTCCCAGAAGGTGATTCAGGATTTGGTAAGCCTTCTTATAAACAGCTAA	MENAVLITIGDEILSGNTVDTNSNFIATELKNVGIKVIQILTISDEIETIKEALSVAFEKGDLVITTGGLGPTRDDKTKKALAEYFNDDIALDGVTFNHLKGYMERRGRADILERNREQAFVPTKSIVFQNHYGTAPCMMMEQDGKLCYSLPGVPYEVKPLIKDQIIPYLQKRFQLHYIHTRIVSVVGIPESILADKIEDWELALPENIALSYLPVGTRVKLRLTASGENEEQLKQRTEEEIQKLLPLVEDHVIAVTEDKIENILAEMLTERNLTISTAESCTGGELAKMITSVSGSSKYFLGGMVAYATEKKIKILNVSGETVDQFTVVSEQVAQEMAKGCQQLFETHISLSTTGVAGPGKGEDGKDVGTVYYTIRINDQEVTSKLYMPHLERVDFMDFVSQKVIQDLVSLLINS	PGPT0013455_963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
BMS003_04020	474			hypothetical protein	ATGTCTAAATATGATGATGCTTCATGGCATTATGGCGGTGATTTTCCGGAAGGACTTCCTCAGAAAAACGGAGCTACACACACAGGAATGTTCCTGAACTGGTGTATTCATAACGATTTAATCTCCGAAGAACTGAAGGAAGACAATGCTGAGGAAATAGAAAAAGTAAAACGAAGAGAAATTACAGGTGCTGAATTCATTATGGATACCTGTGATGGGAAATTTTCTGAAAATGACCTGAATGAACTGGGAAATCTTTTTGCAAAGGACTATTATGCTGATGATACCGATTTCGGAAACAGATACAGCTCATTTGCTGATGATTATGTCAATATTTTTGACGCCAAAGCAGAGGAAAGTGACTACGAATATGAAACCTTCTATCACATAGAAGATACCTATGAAAACTATGATCTGATGAAGCAGGTTATTGATCACCGCTTTGAGGAATGGAAAGAATATATTAACAGCTAA	MSKYDDASWHYGGDFPEGLPQKNGATHTGMFLNWCIHNDLISEELKEDNAEEIEKVKRREITGAEFIMDTCDGKFSENDLNELGNLFAKDYYADDTDFGNRYSSFADDYVNIFDAKAEESDYEYETFYHIEDTYENYDLMKQVIDHRFEEWKEYINS				NA	NA	NA	NA	NA
BMS003_04021	543	blc	COG3040	Outer membrane lipoprotein Blc	ATGAAAACCATTCACAAAATTATACTTCCTATTTCATTGGGTGCATTGGGGCTTATTGTCTTCAATTCCTATTCTGTAAGAATTCCCAGAGGTGCTTCTGCTGTAAAGAATTTTGATCTTAAAAAATACCTCGGAAGATGGTATGAGATTGCCCGTTTTGATTACAGGTTCGAAAAAAATATGGATAACGTTACCGCAGAATATACGGAGAATCCGGATGGAACAGTACAGGTAAAAAATAAAGGCTACGATTACGTTAAAAAAGTATGGAATGAATCAATAGGAGAGGCAAAATTTGTAAAAGATCCTGCAGAAGCCCGTTTGAAAGTTTCATTTTTTAAACCAATTTGGGCAGGATATAACGTCATAGATATTGATGAAGACTATCAGTATGCGCTGGTAGCAGGAAGCAGTTTAAAATATTTATGGATTCTTTCCCGTACCACTGATATTCCTGAAAGTATTCGTCAGCGCTTTATTCAGAAAGCAAAAAAAATAGGTTATAATACCGATGAACTGATCTGGGTGAAACATAATCAATAA	MKTIHKIILPISLGALGLIVFNSYSVRIPRGASAVKNFDLKKYLGRWYEIARFDYRFEKNMDNVTAEYTENPDGTVQVKNKGYDYVKKVWNESIGEAKFVKDPAEARLKVSFFKPIWAGYNVIDIDEDYQYALVAGSSLKYLWILSRTTDIPESIRQRFIQKAKKIGYNTDELIWVKHNQ	PGPT0012970_1815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS003_04022	735	lytR_5	COG3279	Sensory transduction protein LytR	ATGAAAATAAAAGCTGTCATTGTAGATGATGAACTTATAGCAAGAGAAGTCTTACGAAGCTATCTGACCAAATACTGTCCGCAGGTGGAAATTCTGGGTGAAGCTGAAAACATCAAAGAAGCCGTTCCATTAATCGCTGAAAAGCAGCCTCAGCTGGTCTTTCTGGATGTTGAAATGCCGTTTGGAAATGCTTTTGATGTTCTGGAAGCCACCAAAGAGTTCTCCTATGAAACCATTTTCATTACAGCGTTTTCACAATATTCTTTACAGGCTTTAAATAAATCCGCAAGTTATTATATTTTAAAACCCATTGATATTCAGGAGCTGATACTTGCAGTCAATAAAGTAGCAGAGAGCCTTGAAAAAAAAGATGAGCTCAACCGTAATAAGATTCTTCTTGAAAATCTGAAACTGAAACCGGAAAAACAACAGTTGATTCTTCCCACTTTACAAGGGTTTGATGTGGTAAAAACAGAAGATATTATAAGACTTCAGGCGGATGGAAATTTTACCCAGGTATATCTTACAGACGGCTCGAAGAAAATGGTGTGCCGTTTTCTGAAACATTTTGATGATCTTCTGGAAAATCCTTTTGTGAGAGTTCACCGCTCACATATTATCAATACAGGCTTTGTAAAATCCTATCATAAAAGCGGAACGGTAATGCTGTCTGATGATACAGAAATTGAGGTTTCAGGAAGCTTTAAGGATAATTTCCTGAAGGTGTTTTCATAG	MKIKAVIVDDELIAREVLRSYLTKYCPQVEILGEAENIKEAVPLIAEKQPQLVFLDVEMPFGNAFDVLEATKEFSYETIFITAFSQYSLQALNKSASYYILKPIDIQELILAVNKVAESLEKKDELNRNKILLENLKLKPEKQQLILPTLQGFDVVKTEDIIRLQADGNFTQVYLTDGSKKMVCRFLKHFDDLLENPFVRVHRSHIINTGFVKSYHKSGTVMLSDDTEIEVSGSFKDNFLKVFS	PGPT0026304_1801	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_04023	1794			hypothetical protein	ATGAAAATGCTTAAACTCTTTACGCTCTTTTTACTGGTGCTTTTGGGAAATATAATGTATTCCCAGACCACTACTAACAGCACTGCTGCTGTGGAAGAAGTGCAGGTAGAAACAAAGAAGCTGAAAAAAGCAATAGACACTAAAAATGAACCTGCCCAGGCAGATTCATATTATAATATTGGGGAAGCATTTTTCAATAGCGGTAATTTTCCCAAAAGCGAAGAATATTATACAAAAGCAAAAAAGCTGTATGAAAAACTCAATGACAAGCCCAATATTGAAAAAGCTACCCGAAGATTGGCCCAGTCTCAGGAAAAGCAGAATAAAATAACACCGGCACTCAGCAATTACAGCAGCGCAGCACAAATGGGATATAGTGAAAAAAGCAGAGCGGTGAACTCTAATGATGTGGCAAGACTTTCTTCTCCCACACCCGAGCTTAAAGCAGAAGCTATTCAGAATAATATCAATCTTACCAGAAAAGAAAATGAACAAGGTGATCTTGCGGAAAGCTACAGTCAATTGGCGGATGTGAATCTGAAACAAAAAGACGTTTCCAGTGCTGAAGAAAACCTTAATACAGCCTATAAAATTTCTAAAAAAGAAGCTCCTCAGCAAGCTCTAGCCATCAATCAGAAGCTGGCTGATCTTTATGTGGAAAACAAAAACTTTGAGAAAGCCATTGAAGCTAAAAAGAAAGTGCTGAAAGAAGATTTCGTAAAAGAAAACTCGCAGGAAAAAGTTAATCAGATTCAGGAACTGGCGGATATTTATATTAAGAAAAATGATCCGAAAGAAGCCGTAGATCTGTTGAAAAATGCCTACAGTATTGCTTTAGACAAAGGTCATACGCTGGAAGCGCAGAGAAGTGTAAAAAAACTGGACAGTCTGTATGCCATTTCAGGAAATGTAGATGCTTCAGTTCAGCTGTACAGGGATTTTTTGGGAAGACTTCCCAATCTTGTTTCCAAAGACAGAAGCCTTGTTGATAATAAAATTCTGGAAGATACAGAACAAAGAATTTCACAGCTGGAAAAAGAAAAAGAGCTTAAAGACGAATTGATCAGAAAGAAAAATGTCTTTAATTACAGCCTGATCGGAGCTTTGATTTTGCTGACCGGATTAATTATTTTTATTTTCAGAACCCTGAAAAAAGTTCAGATAAAGAATAAGAAAATTGCCTTGCAGTCGCTTCGTAGGGAAATGAACCCGCATTTTATTTTCAATAGTTTAAATAGTGTGAATCATTTTATAGCAACCAATAATGAACTGGAAGCCAATCAGTATCTGACAAAATTTTCCAAACTGATGCGTGGCGTGATGGAAAACTCCACTGAAGATTTTATTCCTTTTCAGCAGGAGCTGGATCTTCTTCAGAACTATCTTGCTCTGGAAAAAACACGTTTTGCAGATAAATTCGATTATGAAATTGAAGTAGATGAAAGCCTCAATATGCAAAATCTTCAGGTTCCGGGAATGCTTATACAGCCGTTTCTGGAAAATGCGGTCTGGCATGGTCTCCGTTACAGAGCTGGCAAAGGATTTTTAAAACTAAGCTTTGAAAAAAATGAATCACACCTGAAAATCCTCATTGAAGACAACGGAATAGGAATTGAAGAAAGTAAAAGGCAGAAAACCCAGCATCAAAAGACCAGAGAAGGCAGAGGAATGAAAAATACACTGGAAAGAATTCAGCTGTTGAATGATCTGTATAAAAAAGATATTACCTGCTCCGTAAAAGATAAGCAAAATAGCAGAGGTGTTTTGGTAGCAATCCAGCTCAATCTGGGATAG	MKMLKLFTLFLLVLLGNIMYSQTTTNSTAAVEEVQVETKKLKKAIDTKNEPAQADSYYNIGEAFFNSGNFPKSEEYYTKAKKLYEKLNDKPNIEKATRRLAQSQEKQNKITPALSNYSSAAQMGYSEKSRAVNSNDVARLSSPTPELKAEAIQNNINLTRKENEQGDLAESYSQLADVNLKQKDVSSAEENLNTAYKISKKEAPQQALAINQKLADLYVENKNFEKAIEAKKKVLKEDFVKENSQEKVNQIQELADIYIKKNDPKEAVDLLKNAYSIALDKGHTLEAQRSVKKLDSLYAISGNVDASVQLYRDFLGRLPNLVSKDRSLVDNKILEDTEQRISQLEKEKELKDELIRKKNVFNYSLIGALILLTGLIIFIFRTLKKVQIKNKKIALQSLRREMNPHFIFNSLNSVNHFIATNNELEANQYLTKFSKLMRGVMENSTEDFIPFQQELDLLQNYLALEKTRFADKFDYEIEVDESLNMQNLQVPGMLIQPFLENAVWHGLRYRAGKGFLKLSFEKNESHLKILIEDNGIGIEESKRQKTQHQKTREGRGMKNTLERIQLLNDLYKKDITCSVKDKQNSRGVLVAIQLNLG				NA	NA	NA	NA	NA
BMS003_04024	120			hypothetical protein	ATGCTTAAATATTTAATAGATGACCTTCTTTTTATTTTCAACAAAAATTTCATCTTACACGCACAGTATCAAAGACTCAACTTGGTGAAGGGGAAACTTCACTTGGTGAATAGTTTTTGA	MLKYLIDDLLFIFNKNFILHAQYQRLNLVKGKLHLVNSF				NA	NA	NA	NA	NA
BMS003_04025	675			hypothetical protein	ATGAAATTAAAACATTTTTTATTAATCGGAATTTTAACCCTTGGAAGCTTTGTAAATGCTCAGGAAGTAAAGAAGAACACCATTGAAGTAACAGGTGTGGCTGAAATGGAAGTAGAACCGGATGAAATTATCTTCAGCATCGGGATAAAAGCTGATAATAAAAACGATCTGGCAGATAATGAAAAGAAGTTATTTGATATTTTAAAAAAGGCAGGAGTAAAGAACGAGGATATCAAGTTCAAATCCATGTACCAGAATATTTATTCTAAAACAGCTAAGTTTTCCAAGAACTATACGTTCAAAGCCGGAACAAAAGCAAACCTCAGTAAAATATTTGAAGATCTGAACCAAAAATGGGTAAGCAGCCTGAACATCTCAGAGGTAAAGAATACCAAAATTGCAGATTTCAGAAAAGCCGTTAAGATCAATGCTTTGAAAGCAGCAAAAGAAAAGGCAGATTATTTGTTGGAAAGCATGGGTAAAAAGACCGGAAACGCTATTGAAATAGTAGAAATAGAAGATTACACCAGTGATATGATCATGCCGGTCGCTTATAAAGGAAGAGCAAGTAATATTCAGCTGGAAATGGCGGATGCTCCGGGAGACTTCTCTTTTGATAATATTGAAAACATCAAACTGAAATACAGCATCAAAACAAAATACGAAATCCTTTAA	MKLKHFLLIGILTLGSFVNAQEVKKNTIEVTGVAEMEVEPDEIIFSIGIKADNKNDLADNEKKLFDILKKAGVKNEDIKFKSMYQNIYSKTAKFSKNYTFKAGTKANLSKIFEDLNQKWVSSLNISEVKNTKIADFRKAVKINALKAAKEKADYLLESMGKKTGNAIEIVEIEDYTSDMIMPVAYKGRASNIQLEMADAPGDFSFDNIENIKLKYSIKTKYEIL	PGPT0012980_2154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
BMS003_04026	1602			hypothetical protein	ATGAAGCACTATTTTCTAATATTAATTATATTTTCAGCAGTCTTTATCAAAGCACAGGAAATCAGGAAGCCAATTGAAGTAAAGCAGGCCACAGTTTTTCTACAGGGAGCAAAGGTTTTCGGAACTACGATTGTAAGTCTTCAGAAAGGTAGAAATATGGTAAGAATTGTCAATCTGCCCAATAATCTGGATGAGAATACTTACAAAATCAACCTTGAAAAGAATACAACGCTCCTTTCCGTTACACCTCAAAACAATTTTTTGAAAAACGATGAATTATCAGACAATGAAAAGAAGCTTAAAACAGAAACAAAAAAACTTCAAAGACAAGTCAGCCTGTTGAATATTCAAATCAAAAATCTGACAGGTGAGCAGAACATCATTAATGACAATCTAAAAGTTTCCACTAATGATAAATCTACTCCACAGGAACAACTTATTAAATTAACTGAGTTTTACAGAAAAAGAATGCTGGAAATTGACAATCAGGTATTTCTTCTGAATGAACAGAAGATCGTTTTGGATGAAAGCATTGCCAAGCTCAAAAATCAGTCTGCTGAAGAGCAAACACATAAAAATACCAACCGTAAAGAGCTTCTGCTGGAAATTCTTGCTGATCATGAAACCAATCTGAATCTTGGAGTAAGCTATATCGTTTCTGATGCCGGATGGATTCCTTCTTACGATTTGCGTGCGGAATCTGTAAAAAAACCTCTGGAACTGGTTTATAAGGGTAAAATTTATCAGAAGACAGGACAGGACTGGAAAAATGTAAAACTGTTTGTTTCTACTTACAGACCTTCATACAATCAGAACAGACCGATTTTATCTCCGCTTTATGTAGCTGAATATACACCTTACAACTCTCAGATGGAAATAGCCGGATATAAATCTAAGAAAGAAATTTCAGCAGCAAATGCTTATCAGATGAGAGAAGATGTTGCTGCAAAACCAAGCCAGATTCCGGTAGCTACCGTTTCTGACAGCCAAATGAATGTGATCTATGAATTGAATTACAATCAAACCATCGTAAGCCAGGAAAAAGAACAATATGTGATCCTTGATAAAAAACAGGTTGATGCAACTTACAAATACCATACGATTCCGAAACTTAACAATAAGGTATTTCTGATGGCTTTTGTGAAAAACTGGCAGAATCTCAACCTCATCAATGGAGAAGCTAATGTCTATTTTGAGGATAATTATATTGGAAAAACTAATATTATAAGCAATTATGTAAAAGATGAATTCCCGATTTCTCTTGGTGTAGATGAAAGAATTGCGATAAAAAGAACCAAGCTTGAGGATAAAACCTCTCAAAAATCTATAAACTCCAACAAATGGGAAACGGAGTCTTACCAGATCAGCATCCGCAATAATACGAAAGAGAATATTGAACTGGAAATTCTCGACCAGCTTCCCATCAGCGAAAACTCTAAGATATCGGTAAAAATAATAGCCCTTGACGGCGGAAATCTGGATGAAAAAACAGGAAGTATTCTTTGGAATAAAAACATCAGATCAGGAAGTTCAGAAAAAATCACCTTCTCTTATGAAGTGAAATACCCTAAGGACATGCAGATCCAATATTACAGCAGATAA	MKHYFLILIIFSAVFIKAQEIRKPIEVKQATVFLQGAKVFGTTIVSLQKGRNMVRIVNLPNNLDENTYKINLEKNTTLLSVTPQNNFLKNDELSDNEKKLKTETKKLQRQVSLLNIQIKNLTGEQNIINDNLKVSTNDKSTPQEQLIKLTEFYRKRMLEIDNQVFLLNEQKIVLDESIAKLKNQSAEEQTHKNTNRKELLLEILADHETNLNLGVSYIVSDAGWIPSYDLRAESVKKPLELVYKGKIYQKTGQDWKNVKLFVSTYRPSYNQNRPILSPLYVAEYTPYNSQMEIAGYKSKKEISAANAYQMREDVAAKPSQIPVATVSDSQMNVIYELNYNQTIVSQEKEQYVILDKKQVDATYKYHTIPKLNNKVFLMAFVKNWQNLNLINGEANVYFEDNYIGKTNIISNYVKDEFPISLGVDERIAIKRTKLEDKTSQKSINSNKWETESYQISIRNNTKENIELEILDQLPISENSKISVKIIALDGGNLDEKTGSILWNKNIRSGSSEKITFSYEVKYPKDMQIQYYSR				NA	NA	NA	NA	NA
BMS003_04027	582			hypothetical protein	ATGATAAAATCTAATGAATTTACTACGGCTTATTTCGAACAGAATAATTTTCTGGATGATAGAGATCGGGAAAAGCTCCTTGAGATGGCTCAGTTTGTAACTTATCCCATGAATAAAATAGTATTGCATCAGGGAGAGCAGGTAAGCCAGTTTGGCATCATCCTGAAAGGTTTAATAAGGGTTTACGATAAAAATAACAAAACAGTCTGGCTCGCTTACGAAAATCAACCATATGGTTCCATGGAAATTTTAGGACTTCAGCGCCCTTCTTCGGTTACTTATGAAACCTTAGAAGAGACCACTATGTTTTTGCTTGATTATATTGAACTTGAAAATGCAATCGTAGAGTATCCCAATATCGGGAGATTACTTTTAATGTACTGGAAAAGCACAGCAATGTCTATATATAGGCAATTTTATTCTTTTCTGACCTTAACTCCTGAAGAGCGGTATTTACAATTGCTTCAGCAAAATTCAAAATTAATTTTACGGGTAAAATCTAAAGATCTGGCCACCTATCTGGGCATACACCCTGTATCATTAAGCAGGCTGAAAAAAAGGTATTTTGATCATAATAAATAA	MIKSNEFTTAYFEQNNFLDDRDREKLLEMAQFVTYPMNKIVLHQGEQVSQFGIILKGLIRVYDKNNKTVWLAYENQPYGSMEILGLQRPSSVTYETLEETTMFLLDYIELENAIVEYPNIGRLLLMYWKSTAMSIYRQFYSFLTLTPEERYLQLLQQNSKLILRVKSKDLATYLGIHPVSLSRLKKRYFDHNK				NA	NA	NA	NA	NA
BMS003_04028	1206	puuB		Gamma-glutamylputrescine oxidoreductase	ATGAATCTGAAATCTAACGAACCTTTTTGGCTTTTAAAAAACGGATTATTAGCATCTTATCCATCATTAAAATCAAACGAAGAATGTGATGTTCTCATTATAGGTGGCGGTATTACAGGAAGCCTGATTGCCCATCAGATGATAGAAGACGGTTATAGTACGATTCTTATTGATAAAAGGGAAATTTGTAACGGAAGTACTTCTGCTACTACCTCAATGCTGCAGTATGAGATAGATGTCCCTTTGTATGAACTGACAAAAAAAATAGGAGAAAAAGGGGCTGTTCTGAGTTATAAAGCTTGTAGTGAAGCTATTGATATACTGGAAGAACTTTCAAAAACGACCAGATCCCGAGCGGGTTTTAAAAGAAAAGAATCACTGTATTTTGCTTCAAAAAAGAAAGATACGGAATGGCTAAAAAAAGAGTTTGAAGCAAGAAAGCGAAGCGGATTTGAGGTTCAGTGGCTGGAAGGTGAGGAGGTCTTAGAAAAATTTGAATTTGAAAATACCTATGGCGGAATTTTATCCAGCCAGGGAGCCAGTATTGATGCCTTTCAGTTTGCTCATGAGCTTTTTATGCATAATGTAAAGAAGGGGCTGAAGATATTTGATAAAACTGAAATGGTAGAAGTAGAGGAGCATAAAGGTTTTAATCTGATTACCGTAGAAAACGGATTTAAGATTAAAGCAAAAAAGATCATTTACTGTATAGGCTACGAAAGTAAAAATATGGTGAAGGAAAACTTCGTCAATCTGAAAAGTACCTATGCTGTTGTTTCTGAAATAGACAAGAATAAATTTAAAAATATCAGCAATACTTTAGTCTGGAACACGGATGATCCTTACCTCTACATGAGAACTACCGATGATGGAAGACTTCTGATAGGTGGAGGAGATGAAGATTTTTATGGCGCAGAAAAACGTGATGCAATACTCTATAAAAAAGAAAGGAAGATCCTGAAAAGCCTGAACAAAATAAAGCCTGATTATCAGTTTTATACAGATTTTGTCTGGGCCGGAACTTTCGGTGAGACCAAAGACGGGCTTCCTTACATCGGGGAGCATCAGAAATTTAAAAATTCCTATTTTGTTCTGGGCTTCGGAGGTAACGGAATTACTTTTTCAGTAATTGGGATGGCAATGGCATCTTTGTTTATGAAAGGTAACAAGCACCCATTATCCGGATATTTTAAATTTGACCGATAG	MNLKSNEPFWLLKNGLLASYPSLKSNEECDVLIIGGGITGSLIAHQMIEDGYSTILIDKREICNGSTSATTSMLQYEIDVPLYELTKKIGEKGAVLSYKACSEAIDILEELSKTTRSRAGFKRKESLYFASKKKDTEWLKKEFEARKRSGFEVQWLEGEEVLEKFEFENTYGGILSSQGASIDAFQFAHELFMHNVKKGLKIFDKTEMVEVEEHKGFNLITVENGFKIKAKKIIYCIGYESKNMVKENFVNLKSTYAVVSEIDKNKFKNISNTLVWNTDDPYLYMRTTDDGRLLIGGGDEDFYGAEKRDAILYKKERKILKSLNKIKPDYQFYTDFVWAGTFGETKDGLPYIGEHQKFKNSYFVLGFGGNGITFSVIGMAMASLFMKGNKHPLSGYFKFDR				NA	NA	NA	NA	NA
BMS003_04029	381			hypothetical protein	ATGATAACAATTATTCCAGAAGCTCCGGAGAATGTTGCAGCGTTTAATGCAACGGGAGAAGTAACGAAAGAGGATTTTGAAAGACTGGTAATTCCGCGTGTAAAAGAGAAGGTAGAGCAATTCGGTGAACTGAATTATTTATTGTATTTGGATACCGATCTGGATAATTTTACCGTAGGAGCATGGCTGGAAGATCTGCTGTTAGGATTAAAAAACCTTGCTAACTGGAATCGTTCGGCCATCGTTACAGACAAAGAAGGAATACGTGATTTTACGAGTATTTTCAGTGTTCTGATGCCTGGAGAATTTAAATCTTTTCCTAAAGAAAATTTATACAATGCCCTCTACTGGTGCAAAAACGGAGATGAAGTAGAGGTATAA	MITIIPEAPENVAAFNATGEVTKEDFERLVIPRVKEKVEQFGELNYLLYLDTDLDNFTVGAWLEDLLLGLKNLANWNRSAIVTDKEGIRDFTSIFSVLMPGEFKSFPKENLYNALYWCKNGDEVEV				NA	NA	NA	NA	NA
BMS003_04030	1203	araJ	COG2814	Putative transporter AraJ	ATGAAGATTGATAAAAGAATAATTCCACTGGCAATTGGAGGTTTAGGGATAGGAACTACGGAATTTACCGTCATGGGACTTTTGCCGGATATTGCTAAAACATTACAGATCACGATTCCGCAAGCCGGACATTTGATCTCAGCATATGCGATGGGAGTAGTTATCGGGGCTCCTATTCTGATTGGATACTCCGTAAAATTTCCACCCAAAAAAGTCCTGATGGCTTTTATGATCCTTTTTACATTATTTAACGGGCTTTCTGCTATTGCTCCGGGATATGACAGCATGCTGGTGATCCGTTTTATGTCCGGACTTCCTCACGGAGCATTTTTCGGAGTAGGAACGGTAGTGGCTTCAAGAATGGCCGGAAAAGGAAAAGAAGCCTTTTATATATCCATGATGTTTACAGGGCTCACGGTGGCTAATCTTGCCATGGTACCTCTGGTCACCTACATCGGGCACACTTTCCACTGGAGGCTGTACTTTGCTATTGTAGCATTGATTGGGCTTTTTGCCATCTTATTTTTAAAGCTGTGGCTTCCGGCAATGGAATCTAACCAGAATACCCATTTCATGGAAGAACTGAAATTCCTTAAAAATAAACAATCGTGGATGGTATTGGCTATTACAGCTATCGGATTTGGAGGGCTGTTTACATGGTTAAGCTACATTACTCCTTTAATGACTGTTGTTGCAGGCATTCAGAGCAGTCAAATGGCTTATGTAATGGTTCTTGCAGGAGCCGGAATGGTAGTGGGAAATCTGGTTGGAGGTATTGTTTCAGATAAATTAGGCCCTGAAAAAACCTGTGCGCTGCTCATCTTCCTGATGATGATTTCTCTTGGAGGAGTTTTCTTCCTTGCAGAATATAAAAATATTGCACTGGTACTGACATTTATGTGCGGTGCTTTATCCATGTCTATTGCTTCACCCATCAATATTATGATGATGAAAGCTGCCCCGAAAAGCGAAATGATGGCAGCAGCGTTTATGCAGGCAGGCTTTAATATTGCCAATGCAATGGGAGCCTTCCTTGGCGGAATTCCTTTAGAATATGGTTATTCTTTCAATTACCCTTCACTGGTAGGGGTTGGGATGACATTTATCGGAGTGGTTATAAGTGTAAGATATATGTATCTGTATGGATCCGGAACTCAAAATGAAAAAGAAGTTTCTGCAGAATGTATATCATGTGATAAATAA	MKIDKRIIPLAIGGLGIGTTEFTVMGLLPDIAKTLQITIPQAGHLISAYAMGVVIGAPILIGYSVKFPPKKVLMAFMILFTLFNGLSAIAPGYDSMLVIRFMSGLPHGAFFGVGTVVASRMAGKGKEAFYISMMFTGLTVANLAMVPLVTYIGHTFHWRLYFAIVALIGLFAILFLKLWLPAMESNQNTHFMEELKFLKNKQSWMVLAITAIGFGGLFTWLSYITPLMTVVAGIQSSQMAYVMVLAGAGMVVGNLVGGIVSDKLGPEKTCALLIFLMMISLGGVFFLAEYKNIALVLTFMCGALSMSIASPINIMMMKAAPKSEMMAAAFMQAGFNIANAMGAFLGGIPLEYGYSFNYPSLVGVGMTFIGVVISVRYMYLYGSGTQNEKEVSAECISCDK	PGPT0028991_4389	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
BMS003_04031	894	rhaR_15		HTH-type transcriptional activator RhaR	ATGAAGATCCAGAAAGAAATTATTGAATTTGAAAAAGGGAAGTCATTCAAGCTATTCTCCCCTTCTCTGAAAAACTGTTTTTTCTGGCATTATCATCCGGAAATTGAACTGGTATATGTAGAAGCGGTGAATGGAATCCGCCACGTTGGGAAAAACATTTCAGGTTTTACAGACAGTGATCTTTTACTGATTGGCTCCAATGTACCTCATCTTAATTTTGATTACGGTATTCAAACCGAATGCAAACAGCTTGTATTACAGATGCGGGAAAGCTTCCTTCAGGATATTATTCTTCCTGTTCCTGAGTTTGAAAACATTAAAACCCTTTTGGACCGTTCATACCTTGGCCTCTCATTTTTCGGAGAGACTAAAAATACAGTAGTAGAAAAACTACAGATTATTAAAGATAAAAGTTCTTTTGAAGCCTTAATAGGATTGATTGAAATACTGCAAATCCTTGCTGACTCTACTGAAGTAAAAGAACTTAATAAAGATGACACCCGAATCAAATGGTTTTTAAATGATAAAATCAGAATGGGAACCATCTACGACTATATCCATGAAAACTATGACAGTAAGCCCAATGTAAATGAAATAGCAAAGGTAGTAAGCCTGAGTACGCCTGCCTTCTGCCGGTATTTTAAAAAGCAGACGAACATGACCTTTACAGATTTTGTCAACAATTACAGGATCAATCAGGCTAAAATATTTCTGCTGAAAGATCAGTCTGTAACGGAAGTTTGTTTTCAGGTAGGCTTTGAAAGTCTTTCTTATTTTAATAAACTGTTCAAACAGCATACAGGGGAAACCCCTTCTGAATTTAAGAAAAAACATTTCAGACCTATTGAAATTAATGGAAGGATTGGAGTGATTAAGAAGGATACGACTTGTTAA	MKIQKEIIEFEKGKSFKLFSPSLKNCFFWHYHPEIELVYVEAVNGIRHVGKNISGFTDSDLLLIGSNVPHLNFDYGIQTECKQLVLQMRESFLQDIILPVPEFENIKTLLDRSYLGLSFFGETKNTVVEKLQIIKDKSSFEALIGLIEILQILADSTEVKELNKDDTRIKWFLNDKIRMGTIYDYIHENYDSKPNVNEIAKVVSLSTPAFCRYFKKQTNMTFTDFVNNYRINQAKIFLLKDQSVTEVCFQVGFESLSYFNKLFKQHTGETPSEFKKKHFRPIEINGRIGVIKKDTTC				NA	NA	NA	NA	NA
BMS003_04032	867	lipA	COG0320	Lipoyl synthase	ATGGAAAATTCAGTTCAAGACACTACCGTTCAAAAACCAAAATGGATCCGCGTAAAACTTCCTACCGGAAAGAATTACAGAGAGCTGAGAACCTTGGTTGATAAATATAAATTAAATACCATTTGCCAAAGCGGAAGCTGCCCGAACATGGGAGAATGTTGGGGTGAAGGTACAGCTACTTTCATGATTTTAGGAAATATCTGTACAAGAAGCTGTGGATTCTGTGGTGTAAAAACAGGAAAACCACTTGACGTAAATTGGGACGAACCTGAAAAAGTAGCAAGATCCATCAAATTGATGAAGATCAAACATGCCGTTCTTACTTCTGTAGACCGTGACGATCTGAAAGATATGGGATCTATTCTTTGGGGAGAAACAGTGAATGCTGTCAGAAGAATTTCTCCGGGAACTACTATGGAAACACTGATTCCGGATTTTCAGGGAATTACAAAACACCTTGACAGGCTGGTAGAAGTTGCACCGGAAGTAATTTCTCACAATATGGAAACCGTAAAACGTCTCACCAGAGAAGTAAGAATCCAGGCAAAATACGAACGAAGCCTTGAGGTATTAAGATATCTGAAAGAAGCCGGACAAAGAAGAACCAAAACAGGTGTAATGCTTGGATTAGGAGAGACTAAAGATGAGGTTTTCCAGACGATAGAAGATATCAGAAACGCCAATGTAGACGTAATCACTCTTGGACAATATCTGCAGCCGACCAAAAAACATCTTCCGGTAAAGAAATTTATCACTCCTGAAGAATTTGATGAGTTTGGAGATTTTGCAAGAAGCTTAGGTTTCAGACACGTTGAAAGTTCTCCGCTTGTAAGAAGTTCTTACCACGCAGAAAAACATATCCATTAA	MENSVQDTTVQKPKWIRVKLPTGKNYRELRTLVDKYKLNTICQSGSCPNMGECWGEGTATFMILGNICTRSCGFCGVKTGKPLDVNWDEPEKVARSIKLMKIKHAVLTSVDRDDLKDMGSILWGETVNAVRRISPGTTMETLIPDFQGITKHLDRLVEVAPEVISHNMETVKRLTREVRIQAKYERSLEVLRYLKEAGQRRTKTGVMLGLGETKDEVFQTIEDIRNANVDVITLGQYLQPTKKHLPVKKFITPEEFDEFGDFARSLGFRHVESSPLVRSSYHAEKHIH	PGPT0003935_4503	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
BMS003_04033	633			hypothetical protein	ATGAGAAAAGCATTCTTCCTTTTATTCGCTGTATACGGAACATTTTGTCTTGCCCAAAAACAATTTCAACCTGCGGGTTCTTCAATCATTGAAACTATAGACGGAGATCTTGATGGTGATAAAATTCCTGAAAAAGTAATTATTTACAATACAAAGGATACTACTGATATGGGAAACATCCGTGAAATTCAGATCCTGAAAAAAACGGATGGAGCATGGGCTCTGATTGAAAAATCCAGGAATGCCGTTATGGAAAGCAACGCTGGAGGTATGATGGGTGATCCTTACGGAGAAACGAAAATAGAAAAAGGAATTCTGGTTATTTCTCAAAACGGTGGAAGCAGCTGGAAATGGGATGTTACAGACAAATATAGATTTCAGAACGGTCATTTTGAACTCATTGGAACTTCTACAAATTCAGGAAGACCCGGAGATTACTGGAAAGAAGTAGACTTCAATCTTTCAACAGGGCGATTAAACTATTCAAAAGAGGTAGAAAATACAGCTGAGTATGGTAAATCTTTAAAAGAGACCTATATTAAAAAGGGATTAAAGATCAATTTACAGAACAGAAATAAGGAAAAACAGCAAAAGATAGTTCTTCCAAAAACGAAAGAAGAGGTTTATTTTTAA	MRKAFFLLFAVYGTFCLAQKQFQPAGSSIIETIDGDLDGDKIPEKVIIYNTKDTTDMGNIREIQILKKTDGAWALIEKSRNAVMESNAGGMMGDPYGETKIEKGILVISQNGGSSWKWDVTDKYRFQNGHFELIGTSTNSGRPGDYWKEVDFNLSTGRLNYSKEVENTAEYGKSLKETYIKKGLKINLQNRNKEKQQKIVLPKTKEEVYF				NA	NA	NA	NA	NA
BMS003_04034	735			hypothetical protein	ATGGCAGAAAGGCAAAATGACAAAAAAGAAGGAAAGAAAATAACAAGTCAAGAAAACCTTTGGGGCAGTAAATTTATGGGGCACGCCATTTCACAGATTAACCGCTTTATGATTTTATATTTTCGTATTTTTACTCTTTTGTTTTTCACCTTAAATAATCTATATTTGTTATTAATGAATGACGAACAGCTATTCCTGCTCATACAAAAGGCCAAGGACAAAGATCAGAAGGCCCAGACTAAACTCATTAATATTTTTTGGGTGGATGTTTTCTCTTTTGTGATGAAAAAGGTAAGAGATGAAAATGATGCCGATGAAATTACCGTTAATGTTTTTTCAAAAATACTGTCCAAGCTGGATATGTTTGATCCTCATTTTCAGTTTAAAACCTGGATATTGACCATTGCACAGAATACAGTAATCGATTTTTGGAGAAAAAAGAACCGTGATAATGAAGATGCTATTGAAAACTTGGATGAAGTCAAAAATCAATATGCGAAATCTCCTGAGGAACTTTTAATTTCTGAAGAAGAACAAAAGAAAATCATCAAAACCATAGAATCTCTGGATGCGAATTATCAGGATATTATCAAGCTGAGATTTTTTGAAGAAAAAAGCATCAAAGAAATTGCTGAAGAGCTGGGAATCTCCGTTGCCAATACCAAAGTAAGGGTAATGCGTGCCAAAAAAGTCTTGGCCGAACTTTTGAAAAATAATGAGTTTGATGATCATTAA	MAERQNDKKEGKKITSQENLWGSKFMGHAISQINRFMILYFRIFTLLFFTLNNLYLLLMNDEQLFLLIQKAKDKDQKAQTKLINIFWVDVFSFVMKKVRDENDADEITVNVFSKILSKLDMFDPHFQFKTWILTIAQNTVIDFWRKKNRDNEDAIENLDEVKNQYAKSPEELLISEEEQKKIIKTIESLDANYQDIIKLRFFEEKSIKEIAEELGISVANTKVRVMRAKKVLAELLKNNEFDDH				NA	NA	NA	NA	NA
BMS003_04035	1296	tyrS1	COG0162	Tyrosine--tRNA ligase 1	ATGAATTCCTTTATAGAAGAACTTAAATGGCGTGGTCTGTTTGCCGATATGATGCCAGGAACCGATGAACAACTGAATAAAGAGGTAACTACTGCATATATTGGTTTTGATCCTACTGCCGATTCTTTACATATCGGAAGTCTTATCCAGATAAAAATTTTAGCGCACTTCCAGCTGCATGGCCACAAGCCTATTGCTTTGGTAGGAGGTGCTACAGGAATGATCGGAGACCCATCCGGAAAATCTGCTGAAAGAAATCTTTTGGACGAGGAAACACTTTTACACTATGTAGACTGTTTGAAAAACCAGCTTTCAAAATTTTTAAATTTTGAAGGAAACGAGCCAAACAAAGCTGAGCTGGTGAACAACTACGACTGGATGAAGAATATTTCTTTCCTTGATTTTGCTAAAAATATCGGGAAGAATATCACCGTCAACTATATGATGGCTAAAGATTCTGTGAAGAAAAGATTCTCAGGAGAATCTGGTGCAGACGGGATGAGTTTTACAGAATTCACGTATCAGCTAATCCAGGGATATGATTTCCTTCACCTTTACCAGAACAATAATGTAAAGCTGCAGATGGGAGGTTCTGACCAGTGGGGAAATATCACTACGGGAACAGAATTGATCCGCAGAAAAGCCCAGGGTGAAGCTTTTGCTTTAACGGTACCTTTGATTACCAAAGCGGACGGTTCCAAATTCGGGAAATCTGAAAGTGGAGAAAATTACTGGCTGGATAAAAAGAAAACCTCTCCTTACAAATTCTATCAGTTCTGGCTGAATGCTACTGATGAAGATGCTGAAAGATTCATCAAGTTCTACACTTTCTTAGGAAAAGAAGAAATTGAAACTTTAATTGAAGAACATAAAACAGCCCCACACGAAAGAAAGTTACAGAAGAAACTTGCAGAAGAAGTTACCGTTTGGGTACATGGAAGAGAAGAGTATGAAAAAGCACTGAAAGCTTCTGAAATTCTTTTCGGACGTTCTACTGCTGAAGATTTGGTAAACCTTGATGAAGAAACATTCCTTGAAGTTTTTGATGGGGTTCCTCAGAAAGAAATTGCAAAAGCAAATGTGTTAGGAGTGAATATTGTAGATCTTCTTTCTGAAAAATCAGGATTTTTAAAATCTAAGAGTGAAGCTCAAAGAGAGATTAAAGGAAATGCCATCTCTGTCAATAAACAAAAAGTAAACGATACTTTTACCGCTAATGAAACGGACCTTATCGATGGTAAGTTCTTATTATTACAAAAAGGTAAGAAAAGCTATTTTATTGTAAAGGTAGATTAA	MNSFIEELKWRGLFADMMPGTDEQLNKEVTTAYIGFDPTADSLHIGSLIQIKILAHFQLHGHKPIALVGGATGMIGDPSGKSAERNLLDEETLLHYVDCLKNQLSKFLNFEGNEPNKAELVNNYDWMKNISFLDFAKNIGKNITVNYMMAKDSVKKRFSGESGADGMSFTEFTYQLIQGYDFLHLYQNNNVKLQMGGSDQWGNITTGTELIRRKAQGEAFALTVPLITKADGSKFGKSESGENYWLDKKKTSPYKFYQFWLNATDEDAERFIKFYTFLGKEEIETLIEEHKTAPHERKLQKKLAEEVTVWVHGREEYEKALKASEILFGRSTAEDLVNLDEETFLEVFDGVPQKEIAKANVLGVNIVDLLSEKSGFLKSKSEAQREIKGNAISVNKQKVNDTFTANETDLIDGKFLLLQKGKKSYFIVKVD				NA	NA	NA	NA	NA
BMS003_04036	432			hypothetical protein	ATGAAGCAATTTTACAATTCAAAAAGTTTACTTAGACTTTCTTTTTTATTCGTTTTATTATTTTCTGTGATTACCGTTGTGAATTCTTGTAAAAAAGATGATGACGATGAGTTTCAGGATCATGTGGTTCAATTTGAAGTGAAGACCAGTGCGGGAGGAGATATTATAAGTGTTGTAACACAGGTAGGTACTACTCAGAATACAATATACAATACTCCGCAGTCCCCTGTAATTTCACCATGGACAAGCGGGGAATTCTTTGTGAATTCCAGCCAGGCACAACTTAATCTTGATGCTAACGCTTCAATGCCGGATGATGATTCTGAATTAACAATCAACCTTTACATAGACGGAGAAGTGGCAAGAACTGTTACGAAAAAAGGTAAAGGCATATTGGTTGCTTCTATTGATTACAGTTTCTTAGAGCCTTAA	MKQFYNSKSLLRLSFLFVLLFSVITVVNSCKKDDDDEFQDHVVQFEVKTSAGGDIISVVTQVGTTQNTIYNTPQSPVISPWTSGEFFVNSSQAQLNLDANASMPDDDSELTINLYIDGEVARTVTKKGKGILVASIDYSFLEP				NA	NA	NA	NA	NA
BMS003_04037	639	estB	COG0400	Carboxylesterase 2	ATGAATTTAGATTATCTAGTAAGAGAGCCGGAAAATATTACTTCCAAAACTCCCATTCTTTTTATGCTTCATGGCTACGGCAGTAACGAGCAGGATCTTTTCAGTTTTAGGGAAACTCTTCCTGCTGACTGGATTATTGTAAGTTTCAGAGCTCCGCGTGATACTCAGTTTGAAGGATATTCCTGGTATGATATTAATTTCAATGATCCTGAAAATTTTATTGATGTTCCTCAGGCAAATGAATCATTAAATGCAGCATTGGAGAGTATGCTGAAAATTATCAATCACTATGGCCTTACGGAAAGTAAAGTACACCTGTGCGGCTTCAGCCAGGGAGGGATATTATGTTATGCACTGGCATTGAAACATCCCGAACTTTTTAATTATGTAGCATGTATGAGCAGCTATCCTGAAGAAAAAATTCTGAATGACATTGTAAAAGATAAAAAGAAACTGGAAGGACTTCGTTTTTTCATTTCGCATGGTACTGATGATGCTGTGATTCCATTAGAGTGGGGAAGAAAAGCAGCAGACCTTCTTTATGACCTTAGCTGTTACTTCACTTTCAGAGAGTATATGAGCGGACATGGTGTAAACCAGAAGAATTATATGGATCTGATGGAATTCTTTTCCAAATAA	MNLDYLVREPENITSKTPILFMLHGYGSNEQDLFSFRETLPADWIIVSFRAPRDTQFEGYSWYDINFNDPENFIDVPQANESLNAALESMLKIINHYGLTESKVHLCGFSQGGILCYALALKHPELFNYVACMSSYPEEKILNDIVKDKKKLEGLRFFISHGTDDAVIPLEWGRKAADLLYDLSCYFTFREYMSGHGVNQKNYMDLMEFFSK	PGPT0028515_2781	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
BMS003_04038	1320			hypothetical protein	ATGAAATTTAAATTGCTTTTACTTGGTTTATTTCTCAGCATTTTTATAAATGCCCAGAATTCTTTTCAGTTGATTAATACTAAAAAAGCGGTTATTCCTTTTAAGTTTATCAACAATCTTATCTTTATTCCCATCAATGTCAATGGTGCGGAGCTTACCTTTTTGCTGGATACGGGAGTTTCGGAAACCATTCTTTTCAGCCTGGAAAATAAGGAGCTTAAGCTTAGCAATGTTGAAAAGGTAAAATTTTCCGGCCTTGGAGGCAGTATAAGCATTGATGGTCTGAAATCTGAACGCAACATAGGCAGAATCGGGGATGAAATTATCAATACCTCCATGTCTCTCTATATTATTATTGATGAAGAATTCAATATTTCTCCACATGTAGGAATTCCTGTAAACGGAGTTATAGGCTATCATTTTTTTAAAGACCATCCTATTTATATAGATTATAGTTCCAAGAAAATAACCGTATATGAAAATGAAGGTGTTTTACAAAAGAAAATTAAAAGATTCGAGGCATTCCCTATCACCATTGAAAAAGACAAACCTTATCTGTACGGTGGTGTAGAAATGACCAATGAAAAGAAGGATTCTAAACTGCTGATTGATCTCGGAAACAGTGATGCTATCTGGCTATTCCCTACCCTTATAAAGAATTTTGTTTATAACAGACCAAATATTGATGATTTTCTGGGCCGTGGTTTCAACGGAGATATTTACGGAAAAAGAAGCCGTATTCATAATTTTTATCTCGGAAAATTTAAGTTCGAAAAGCCGCTTACTGCAATGCCGGATGAGTTTTCTATACAGCACGTTAATTTGGTAGAAAACAGAAAAGGTTCTATAGGTGGCGAAATTATGCGTAGGTTTACTGTCATCTTTGATTATGCCAATAAAAAGCTCTATTTGAAGAGAAACAGGTATTTTGATGATCCTTTTCACTTTAATATGAGCGGTCTCGACTTCAAGCAGGACGGACTGGAATGGCAGGAAGACAGGGTGAAAATTGAAACCCAGAAATCTGCGACGGTAACCACTGAAGTGTATAAAGATGCTTTTCAGTATAAATTCAGTTTAAAACCTATATTTTCTATTGCCGGGGTAAGAAAAGATTCTCCCGCTTACGAAGCTGGTCTGCAAAAAAATGACAGAATTTTAAGCATCAACGGAGAACGTACAGCAGATATGACTCTGGAAAAAATTGTAGAACTCATGAAGTCCAACGAAGGCAGAAATATTACCATGATCATCCAAAGAAAAGACCAAAAACTGACATTGCGTTTCGCTTTGGAAGATCCCATTCCTTATCAAGAGTAA	MKFKLLLLGLFLSIFINAQNSFQLINTKKAVIPFKFINNLIFIPINVNGAELTFLLDTGVSETILFSLENKELKLSNVEKVKFSGLGGSISIDGLKSERNIGRIGDEIINTSMSLYIIIDEEFNISPHVGIPVNGVIGYHFFKDHPIYIDYSSKKITVYENEGVLQKKIKRFEAFPITIEKDKPYLYGGVEMTNEKKDSKLLIDLGNSDAIWLFPTLIKNFVYNRPNIDDFLGRGFNGDIYGKRSRIHNFYLGKFKFEKPLTAMPDEFSIQHVNLVENRKGSIGGEIMRRFTVIFDYANKKLYLKRNRYFDDPFHFNMSGLDFKQDGLEWQEDRVKIETQKSATVTTEVYKDAFQYKFSLKPIFSIAGVRKDSPAYEAGLQKNDRILSINGERTADMTLEKIVELMKSNEGRNITMIIQRKDQKLTLRFALEDPIPYQE				NA	NA	NA	NA	NA
BMS003_04039	528			hypothetical protein	ATGAATACCGAAGAAAGCACCTTAGACAGAATAAGAACCAGACCAAGGTTTAAAATGTTTACTCATCTTACCAAAGAAGAGTATGCTGAAAATCTGAAAAAGTATATGGAAGAGCATAAAGATGAGTTTTCCGGCAACATCAATAAAGAAGTGGCTACCATCTGGGTAAAAACACAATATGACAATTACTGGAAGCCCAGTCTTGCTTTACGGGTAGAAATGGAAGATGAACATACGGCAATACGCGGAGTATTTGGCCCTAGTTCTGCAGTGTGGACATTTTTTATGTTCCTGTATTTTTTCTTTTCTATTCTCTGGATGACCTTCTTCACGATGTATTACGTGGAAAAACAGATAAAAAGCGCTGAATACCCGTGGGCACTGAGCGCTTCTTTTGTAATGTTATTTTTTATTCTTCTTACTTATATTGCAGCCAGATTCGGACAGTACAAAGGAAAAGAAGAAATGCTTAAATTGAGAAGGTTTGCTGAAGAATCAACCTTACAGTTTGAAAAGAAAATTAGTTAG	MNTEESTLDRIRTRPRFKMFTHLTKEEYAENLKKYMEEHKDEFSGNINKEVATIWVKTQYDNYWKPSLALRVEMEDEHTAIRGVFGPSSAVWTFFMFLYFFFSILWMTFFTMYYVEKQIKSAEYPWALSASFVMLFFILLTYIAARFGQYKGKEEMLKLRRFAEESTLQFEKKIS				NA	NA	NA	NA	NA
BMS003_04040	1044			hypothetical protein	ATGAAAAACATATCTGTGAAAAAATACTTTCTTTATGCTTGTTTATGCGCTTTTTTTCTTGTTTCATGTAAAAAGGAAATAGAGAAAATAAACGATACTCTTAAAGATACGGTCTCTTCTTCTGAAGTTCAGGAGGCAGAAGCAGACTCTGTAAAAAAAGATTCTGTTCCTGCGGTAAAGAAAGAATCTGTTCCGCCTGTAATGCAGGAAAATGGCTTCTACAATGCTTTTGTTCTTCCAAAAGATAAAAAGCTGCGGGATTCTGTTTATGCAGAATACAGCAAGAAATACAATGTAGAGGAGCGTACTGCTATTTTAGCATTAAACAGACTGGATTCTAAAAGTAAGTGGAACGCTGATACACTGGTAGTTCCGGCAAAAATAGATACAACTTTAATGGCATACTCACCGTTTCCGATGCAGCTGGATGTATTGAACGGGGTGAAAAAATTTGTCATATTCTCATATCCTATACAGGCTTTTGGAGTATATTCTAATGGAAGCCTTGTAAAATGGGGACCTACAAGTATGGGTAAAAAATCTGCTCAGACTACCAGAGGGCTTACTTTTGCCAACTGGAAAAAGAAGCTGGCTATTTCCACTGTGAGCAGTGAATGGAAGCTTCCCTATAATTTCAATATCCATAATATAGGAGGAATCGGATGGCATGAATATACACTTCCGGGATATCCTGCTTCGCACTCTTGCTTAAGGTTGCTAAGAAAAGATGCTCAATGGCTGTATTCCTATGCAGATACCTGGATACTGAATCCTGGTGGTGCTACTACTAAAGCCAAAGGTACAGCAGTAATGGTGTTCGGGGATTATAAATGGGGCGGAAGAAAGCCATGGAGAAAGCTTCTGGATGATCCTAATGCCAATAATATTTCTGTTGAAGAACTGACAAAGCTCCTTGAGCCTGAGGTTCCCAAAATGCTGAAAGAGCAGAGCAACAGAGAAAAAGTCTCAGACTCTATCAAAGCGGCAAAAGCAGCTGCTACACCTATTCAGAATGAAAAGCCCGTAGAAGCTCAGTCTAACTAA	MKNISVKKYFLYACLCAFFLVSCKKEIEKINDTLKDTVSSSEVQEAEADSVKKDSVPAVKKESVPPVMQENGFYNAFVLPKDKKLRDSVYAEYSKKYNVEERTAILALNRLDSKSKWNADTLVVPAKIDTTLMAYSPFPMQLDVLNGVKKFVIFSYPIQAFGVYSNGSLVKWGPTSMGKKSAQTTRGLTFANWKKKLAISTVSSEWKLPYNFNIHNIGGIGWHEYTLPGYPASHSCLRLLRKDAQWLYSYADTWILNPGGATTKAKGTAVMVFGDYKWGGRKPWRKLLDDPNANNISVEELTKLLEPEVPKMLKEQSNREKVSDSIKAAKAAATPIQNEKPVEAQSN				NA	NA	NA	NA	NA
BMS003_04041	1404	yfeW_1		Putative D-alanyl-D-alanine carboxypeptidase	ATGATTAACTATAAAATCAATGCCTGTCTTGTTACTTTACTCCTGCTGCCAAACGTTATGTTTGGTCAGGTAGATAAAGTAAGAAAAATTGATTCCCTAATGAAATGGTGTAAACAAATTGGTATTTTCAATGGTAATATACTTGTTTCAAAAAATGACCAGATCGTCTACCAGTCATCATTTGGTTATACTGATGCGTCAAAAACAACTCCTTTAAACGATAATGATAAGTTCCAGATAGGTTCTATTACCAAAGAATTTAGTGCCGTTGTATTAGGTAAATTACAGGAAGAAGGCAAATTAAAGTTTGATGATAAAGTTTCCAAATTTATTCCAGAATTGCCTAATTGGTCAAACGATATTACCATTAAAAATCTGTTACAATATACAAGTGGATTGCCTAATGTTGATTGGAAGAAAATAAAAAATGATAAAGATATATTTAATGGTTTAAAGAAAATCAACAATCTTGATTTTATACCGGGTTCAGATTATGACTATAACATGAATAATGTTTTTTTAAGACAGCTCATAATCGAACGTATAATGGGTATTTCATTTAAGTCATATGCAGAAAAATTTCTCTTTAAGCCTTGCAAAATGAATTCTTCTATAATGACTCCCATTATCAATGATGAAGGTTTAACAAAAGGATTTAATAACGATGCTATTAATGATCCGAAGGAATTACCGTTAACTGGAGGGACATATCTTACTACTGCTGATTTACTTAAATGGGAGAAATGTCTGTATTCTAATGATTTGATTAATAAACATTCATTATATCAAATTGGCCAAAGATTTGATATAACTGATTCTCAATCAGGATTAGGTCAGGCCATATTCAAAGGAATGAGCTTACAGCAACATCTTCATGATGGCAGATCCGGAAATTTTGAGGCAATATTACTCTCAAATCGCAAAGAAAAAATTATTATAGTTTTATTGGATAACAATTATAATGGAAAAGTGACTGAAATAGCCCAATCTATTAGGGCAATATTAAATAATAAAAGCTATGATTTACCCAAAAAATCTTTTTTTGTCACGAATAAGAAACTGCTAGGTACTTTAAATATTACCGAAATTCTCAATCTTTATAAAATCACAGAATTGCAGGAAAACAATCTCTTTGATTTAGATAAGGTAGATACATTAAATGATATTGGTCAATATTTAATAGATCATAATCGTTTAGAGGATTGTATTAAGATATTCAATATAAATAGAGAAAAATTTCCTTCATCATCTATTGTATATTCAAGTCTGGGGGACGCTTATTTTAAACAAGGTAATCGGGATTTAGCAATTTTAAACTATAAAAAGTCACTGAATCTGGATCCTAAAAATAATACTGCTAGAAAAATGATTTCCAGACTTAATAAAACAACAGAACTTAAATAA	MINYKINACLVTLLLLPNVMFGQVDKVRKIDSLMKWCKQIGIFNGNILVSKNDQIVYQSSFGYTDASKTTPLNDNDKFQIGSITKEFSAVVLGKLQEEGKLKFDDKVSKFIPELPNWSNDITIKNLLQYTSGLPNVDWKKIKNDKDIFNGLKKINNLDFIPGSDYDYNMNNVFLRQLIIERIMGISFKSYAEKFLFKPCKMNSSIMTPIINDEGLTKGFNNDAINDPKELPLTGGTYLTTADLLKWEKCLYSNDLINKHSLYQIGQRFDITDSQSGLGQAIFKGMSLQQHLHDGRSGNFEAILLSNRKEKIIIVLLDNNYNGKVTEIAQSIRAILNNKSYDLPKKSFFVTNKKLLGTLNITEILNLYKITELQENNLFDLDKVDTLNDIGQYLIDHNRLEDCIKIFNINREKFPSSSIVYSSLGDAYFKQGNRDLAILNYKKSLNLDPKNNTARKMISRLNKTTELK				NA	NA	NA	NA	NA
BMS003_04042	429			hypothetical protein	ATGAAAGTTAAAGTATCAAGAAAGGCAACTTTTAATGCAGCACACAGGCTTCACAATAATAACTGGTCTGAAGAAAAGAATAAATTAATTTTTGGTAAATGTAATAATCCTAATTTTCATGGCCATAACTACACTCTTTTTGTATCAGTGCTTGGATTTATTTGTGAGGAATCAGGATATGTTATTGATTTAAATAAATTAAAAAAAATAATAGACGATAAAATTATTGAATATTTTGATCATAAAAATCTAAACTTAGAAATTCCGGAATTTCAGAGTTTGAATCCAACGTTAGAAAATATTTTAAAAATTATATATGATAAATTGCGTAAAGAAATATCCAAAGAACTCACTTTGTCTGTAATATTATATGAAACGGAAAATAATTTTGCAGAGATAAATGAAGAAAAAAATTCTGAATTAGTTTAA	MKVKVSRKATFNAAHRLHNNNWSEEKNKLIFGKCNNPNFHGHNYTLFVSVLGFICEESGYVIDLNKLKKIIDDKIIEYFDHKNLNLEIPEFQSLNPTLENILKIIYDKLRKEISKELTLSVILYETENNFAEINEEKNSELV				NA	NA	NA	NA	NA
BMS003_04043	708	bacC		Dihydroanticapsin 7-dehydrogenase	ATGAATATAATAATAACAGGTGCCAGTACTGGTATCGGCTATGATATGGTTTTAGAATTTAGTAAGAATAAAGAAAATCAAATTATAGCAATTTCTAGAGATATTAATAAATTGAATGATTTAAAAAAAAAATGCTACATTGAGCACAATAACCAGATTAAAATTATTCAATATGATATAACTACCCCACCTACTGAGAATCGAGAATTATTAGATGTATTGGAAAGTATTGATTTCGTAGACATTTTTATAAATAATGCAGGTAAACTAATAAATAAAAAATTTGTTGATTTAACGCAGGAAGATTGGGTAACAACATTCAATACCAATTTTTTTGCTCCTGTACATCTAATTAAACTATTACACGCTAAGCTTAAAAGTAGTAAATCTGCACATATTGTAAATGTAAGTAGTATGGGGGGAATCGAAAGGACACAAAAATTTTCGGGATTATCTTCTTATTCTTCCAGTAAAGCAGCTCTTGTAAATCTAACAGAATGTTTGGCAGAAGAATTTAAGCATGATAATATTCATTGTAACTGTTTATCTCTCGGTTCTGTAGATACACAAATGTTTAGAACAGCTTTTCCTTCTTTTCAAGCTTCTGTATCAAGCAAAGAAATTGCTAAGTTTATATGCTCTTTCTCGCAAGATTATAGAAATTTATTCAATGGAAAAATGATTCCTATTGCTATATCAACACCATAA	MNIIITGASTGIGYDMVLEFSKNKENQIIAISRDINKLNDLKKKCYIEHNNQIKIIQYDITTPPTENRELLDVLESIDFVDIFINNAGKLINKKFVDLTQEDWVTTFNTNFFAPVHLIKLLHAKLKSSKSAHIVNVSSMGGIERTQKFSGLSSYSSSKAALVNLTECLAEEFKHDNIHCNCLSLGSVDTQMFRTAFPSFQASVSSKEIAKFICSFSQDYRNLFNGKMIPIAISTP				NA	NA	NA	NA	NA
BMS003_04044	129			hypothetical protein	ATGTTTGATTTTAATGATATTAATAATGTTTTTTCAGGAAAAGAACATACTCTAATAAGAAAAAAGATGTTTATATTTCTAATGGCAGCTGGATATGTTTATTATTTAATTGTTTCGGATGTAAGATGA	MFDFNDINNVFSGKEHTLIRKKMFIFLMAAGYVYYLIVSDVR				NA	NA	NA	NA	NA
BMS003_04045	645			hypothetical protein	ATGATAATTTTGTATGCACATATAGAGGAAGAAAAACACCAATATTTATTGAATAAGTATTCCAGAATTTATCCTAAAAAATTCAAAGTAAAGCTCCTAAAGTACAACAGATGGCAAGATGCTCAACTATCTTTGCTCGGAAGAATACTTTTGCAATATGGCTTAAGCAATTATTTTGGTATAAGAGACTTTGAGATAAGCCAAACATCATATTCTAAACCCTTTTTAAAAAATCATGAAATACATTTTAATATCTCACACGCTGGGAATTTGGTAGTCTGTGGAATCAGTAAGTCTCCTATAGGAATTGATATAGAATATGTGGATGATAAAATAAATTACTTAGACTTTCAATCTCAAATGACTGTAAATGAATTTAATAAAATACAAAATTCGGCAGATATAATTAAAAGCTTTTTTATGTATTGGACAGAAAAGGAGTCTGTTATCAAAGCTAATGGGAAAGGATTGCTAATTCCATTACAATCATTTGAAGTTTTTCAATGTCAAACTTTAATTGAAAATGAAAAATATTATTTGAAAGAAATTTTTATTCATCAAGAATATCAGTGTTGTGTAGCTTCTAGCAATAGTATACAACACCAAAACATACAAGTAGAAAAACTTAATTTGAATATGTTATAA	MIILYAHIEEEKHQYLLNKYSRIYPKKFKVKLLKYNRWQDAQLSLLGRILLQYGLSNYFGIRDFEISQTSYSKPFLKNHEIHFNISHAGNLVVCGISKSPIGIDIEYVDDKINYLDFQSQMTVNEFNKIQNSADIIKSFFMYWTEKESVIKANGKGLLIPLQSFEVFQCQTLIENEKYYLKEIFIHQEYQCCVASSNSIQHQNIQVEKLNLNML	PGPT0008845_2534	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
BMS003_04046	168			hypothetical protein	ATGAAAAAATTGAAAAAATTATCAAGAACAAAACTGAAATCAGTAAGTGGTGAGAAATTAGCAGCTGGCGGAATTGGATGTTATTGTGACGGTGTATATCAAGGTGATTATAGTTCTGTGCAAATTTGTATGAATGTATGCGATTCACATCCTTGGTATCAAGATTAA	MKKLKKLSRTKLKSVSGEKLAAGGIGCYCDGVYQGDYSSVQICMNVCDSHPWYQD				NA	NA	NA	NA	NA
BMS003_04047	729	lytR_6	COG3279	Sensory transduction protein LytR	ATGAAAACAAAAGTACAAGCTTGTATCATAGCAGATGAGCAGGAGGGAAGAGATTATATTTCTCTTTTATTAAAAAATGAGTTCCCTGAAATTCAAGTTGATTATCAAGCTTCGAGTATTGAAGAAGTTTGTAATTACTACACAAAAAATTCATCCTACATTCTTTTTTTAGATATCCAGATTAAAGATGGTAATGCGTTTGAATTATTATCAAAGTTAAAAAAAAATATATCACAGATTATTTTCATTACTGCATTTGAAAATTCAGCTATTTCAGCTATTAAAAACGGTGCCATTGATTATCTATTGAAACCTATTAAGAAAATAGATTTTATAGGTGCGGTGAATAAAGCATTAGAAAATAATAAAAAAGATAAAATTGAGATTAACAAGATAGGAGTGAATAAAATTACTTTACCAACATTGCAGGGTTTCAGATTGATTGATATTGAGGATATCATTCGTTGCGAAGCAGATTCTAATTATACCGCTTTTTACTTGGTTGATAAAACTAAAATAATAGTGTCAAAAACATTACACAAATTTGAAAATCAGCTTAGCCCCAATAATTTTTTCAGAATACATCACAAACATCTGATTAATCTTAAACATCTAAAAGAATATATTAAGGGAAAAGGCGGACACGTAATTATGACAGATAATTCTACTTTAGATGTATCTGCACGCAAAAAGAATGATTTCTTACATATTTTGGAAAATATTTACTAA	MKTKVQACIIADEQEGRDYISLLLKNEFPEIQVDYQASSIEEVCNYYTKNSSYILFLDIQIKDGNAFELLSKLKKNISQIIFITAFENSAISAIKNGAIDYLLKPIKKIDFIGAVNKALENNKKDKIEINKIGVNKITLPTLQGFRLIDIEDIIRCEADSNYTAFYLVDKTKIIVSKTLHKFENQLSPNNFFRIHHKHLINLKHLKEYIKGKGGHVIMTDNSTLDVSARKKNDFLHILENIY	PGPT0026304_2104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
BMS003_04048	1923			hypothetical protein	ATGAAAAAACTTATAATCCTGTTTTTATTAGCATTAATCCCTGTGTGCCTACTCGCTCAGCAAAACAATAAATTCGAAAACGCAAACTCATTTTTTCCTCAAGAGAAAATAAATAAAGATAATGTAGAGTTTAAATATCTGACCGTTCCCGAAAATTGGGATAAAAAAAATGAGAAAGTAGTAAAAATTGCAGTAACCTTTTTAAAGAGTAAAATAACTAATGCGAAGACTATTTTATATTTAGCAGGAGGCCCTGGTGCCGGAGGAATTGAAAGTATTGAAACTTGGTTAAATAACCCTTTGAGAAACAGTTTTAATATAGTTTTAGTAGATACTAGAGGGACCGGAAATTCATTGCCTAAATTATGCCCGGATTTGGGTGTGAAATTTTTAGAAATATTGGCAAAAAATCAAAACAATATAGCAGATGAGCAGCAGAAGGTAAAGGAAGCTATTACTTGCAAGGAAACCATGGAAAATAATGGTATTGATATAACCCAATATAATAGTAATTCCATTGCAAGAGATTTAAACGCTCTTAAAACGGCACTAAATTTAAAAAAATGGAGTGTGTACGGAACATCTTATGGAACATATATGGCTCAGATTTATGCAAATAATTATCCTGAAGACATTCAGTCATTAATTTTAGATTCACCAATTTCTGATATTTCTCAATACTATAATCAAAATACTGTAAACTTTATGAACAGCCTTGGAAAAGTATTTGATGAATGTAAAAACGATCCTAAGTGTAATAAACAATATCCAGATTTAGAAAAAGCTTTTTATAATACCATTAATAAACTATCTAAAAATCCGATCACCGTTAATGTTGATAAGAAAATTATTCCAAGCGGAAAGTTTACATATAATGTTGAAGATTTTAAAATTTCAATTCAACAAGCACTTTACAATAAAAAACTGATACAGGTTTTACCCCTATTAATTACAGAGTTCAACCATGAAAATAAAGACGTATTAAGTTCACTTGTAAGTGCATTTTCAGGAGCTCTGCATTTAGATTATGGTATGTATTATTGTGTAAGCTGTAATGAAGCTGTCAATTTTAATTCTTTAGATACGTTTGACAAAAAATCTATGGCTTATGATAAGTTAAACGGAGGGATATCCTTCTATAAATCTGATTTCAAAGTTTGTGAAAAATGGAACTTAGGAACAGCGAGTAATGAATTAAACCATAATCTCTCCAGGTTTTACTCATCAAATATACCTGTATTGATTTTTTCAGGAGAATATGATCCAATAACGCCTGCTTCCAACGGAGTAGCAATTTCAAATAAGTTGAAAAACAGTTTTCTTGTCACAGTTCCTACTTCAGGTCATGTTCCAAGCTTCACAATGACCGGTATGAAAATGGTTAACGATTTTATAACTAATCCCAATCAAAAACCTGATATAACAGAGATTTTGTCAGAAAAAAAAGTGTATTTTACTACAGATGTTAAATTGAATAGAGGTGTGTCAAAATTGGCCAAAAGTCTGGATAAATTTGACCTGCTATTTTTTATACCTCTCTGCATTGCTGTTTTTATTTTATTAGTTTCTGTTTTTAATTTTGGGTTTAGCTTTTTTACGAATAAAAGGGATTCGATTAATGCTAAATACTTAAAACTGTTAATCATTATAGCATCAATCTTAGGTATCTTTACCGTTTTAGGATTTTTATTAGCTGTCAATACTACCGCCCAACAAAATTATTATATACTTGCCTTTGGAATACCTGACAAGTATAGTTATTTGTTTGGTATTTTGTGGTGTTTTATTGGATTTGCATCTATTTCACTACTTTATTTTATCATTTATGTTAAAAATATTCAAAATGTAAGCACTATAATTACAATCCTTTTTTCTATGTTTCTTATAGGTGTTTATTTTAACTATTGGGGATTTTTGTTTTAG	MKKLIILFLLALIPVCLLAQQNNKFENANSFFPQEKINKDNVEFKYLTVPENWDKKNEKVVKIAVTFLKSKITNAKTILYLAGGPGAGGIESIETWLNNPLRNSFNIVLVDTRGTGNSLPKLCPDLGVKFLEILAKNQNNIADEQQKVKEAITCKETMENNGIDITQYNSNSIARDLNALKTALNLKKWSVYGTSYGTYMAQIYANNYPEDIQSLILDSPISDISQYYNQNTVNFMNSLGKVFDECKNDPKCNKQYPDLEKAFYNTINKLSKNPITVNVDKKIIPSGKFTYNVEDFKISIQQALYNKKLIQVLPLLITEFNHENKDVLSSLVSAFSGALHLDYGMYYCVSCNEAVNFNSLDTFDKKSMAYDKLNGGISFYKSDFKVCEKWNLGTASNELNHNLSRFYSSNIPVLIFSGEYDPITPASNGVAISNKLKNSFLVTVPTSGHVPSFTMTGMKMVNDFITNPNQKPDITEILSEKKVYFTTDVKLNRGVSKLAKSLDKFDLLFFIPLCIAVFILLVSVFNFGFSFFTNKRDSINAKYLKLLIIIASILGIFTVLGFLLAVNTTAQQNYYILAFGIPDKYSYLFGILWCFIGFASISLLYFIIYVKNIQNVSTIITILFSMFLIGVYFNYWGFLF				NA	NA	NA	NA	NA
BMS003_04049	4437	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGAAATTAACATTACCACAACAAGATATTTATTTTGAACAGTTAATTTATCCAGATGAACCGATATATAATATTGGTGCAAAAATTGAAATTAAAGGACAAATTAATATTGGAATATTCCGAAAAGCATATATTGAACTCATCAATCAACACGACGCCTATCGCATTAAACTTGTAAAAAATGAGGATAGTGTAGATATGGAAATTATGGATAATCATCATTCTGAATTAGGTTTTATTGATTTTTCCAGAAATGAAATGCCTTATGAAACTGCCAATCAGTTTATGCAGGAAGAATTTTCCAAACCTTTTGATTTATTTGGAAAAGAACTTTTTCATGTTTTTACTTTAGTTAAAGTAGAGGAAAACTTTCACTATTTGTTTTCTGTATATCATCATATTATTACAGATGGCTGGGGAACTTCTTTAATGTTTCAGCGACTGGTTCAAAATTATAATGAAATTTTAGAATTTGGAGCTGTACAAACAATGTATCCTTTTATTTATAAGGAATTTATTGAGGATGATATCAAATATCAAACTTCAGAATCTTATATAGAAGATGCTTCATATTGGAAAAATAAGTTTAAAATCTCACCAGAAAACTTGTTTGATAAAAAAAAATATACAAATGGTGTCAATAAAAGTGATCGTAAAGAGGTTGTCATAAAAAGAGCTTTTTATAACCAATTAAATGAATTGGCAACTGTTTATAAATGCAGTACTTTTCATATTATATTAGCAATAGTATATACCTATTTTGGAAGAAAGTACCAAAATAATGATTTTGCAATTGGTCTGCCTGTTTTAAATAGAAGTACTGCGAAGTATAAGAAAACAGTTGGCCTTTTTATGGGAATTTCTCCATTGAGAATGAAACTTGATTTTAATCAGACTATTGAAGAACTTACTCAGGAATTAAAAAAGCAATTAAGAAATGATTATAGACATCAAAGATTTCCGTTAGGAAAACTCATTCAAGAGCTTCAATTATTTAAGGAAACAGAAAAACTGTTTAACATTACACTTTCATACGAAAAACAAAATTACTCTAATGATTTTCAAGGTACAGAAACAAAGGTTATTCCGTTAAGTCATCAGGCAGAGAGGGTAGCTTTAGCCATATACATCAGAGAATTTGACGAATTGAAAGATGTGAAAATTGATTTTGACTACAATTTGAATTATTTTGATCAGGCAGGAATAACAGAAATTACAGATCATTTCGAGAATCTGATTTTAGAAATTTTAAACTATCCCGAAAAAAAACTCTATGAATTAAGATACCTTTCGGAAAATGAATTGGAAAAAGTATTGCTAACTTTTAATGATACGGAGGAAAAACTTCCAAATGAAGAAACGGTTGTTAGCTTATTCAGTAGTCAGGTACTTAAAATGCCAGACAAGATAATATTAAAAGATGATTACAGGTGTTTTTCATATTTTGAGCTGGATAAACTATCCGGTCAGATTGCAGAAAAACTTATTAGCTTATATGGTCCGGATGATCAGTCTCCAATAGCTGTTTTAATGGGACGATCCGCCAATATGGTGATTGTATTATTGGGTATACTAAAAACGGGTAGATCTTATATCCCTCTTGACCCGGCCTTTCCCAATGACAGGCTAAGGTATATCATGGACAACAGTGCAAGTAAAGTATTGATTAGTGAAAAAGGATATGAAATAGAGGGATTAAAAGATATAGAAATACAAACTTTAGAAAACATTTTTGATGGATTAGAAAAATTTGATGGATTAGTAACAAAAGAAATCAAATCAACTGATACTGCTTATATCATCTATACATCAGGTTCAACTGGAAATCCAAAAGGAGTAGAGATAGGACATAGATCATTAACTAATTTTTTGATTAGTATGCAGCAGAAGCCAGGAGTGACTATAAATGATATTTTATTTTCTGTTACCACTTATTCTTTTGATATTTCAATTTTAGAATTTTTTGCCCCTTTATTATCTGGTGCAAGTTTGTACATAGCAACTCAGGAAATTCTACAGGATCCTAATTTGATCATTGAAAAATTAGAAGAAATAAAACCTACCATTATTCAGGCAACACCTAGTTTTTATCAAATGCTTTTCAATGCTGATTGGAAAGGAGATAGCCAATTAAAAATACTATGTGGCGGAGATCTGTTGAATGAGTCATTAGCTGAAAAACTAATTAATAATAGTTTGGAAGTCTGGAATATGTACGGTCCTACAGAAACTACAATATGGTCTAGTGTAAAAAAAATAGAACAAATAAAAGATGCGTCAAACATCGGAACTCCCATAAATAATACTAAGTTTTATATATTAGATGAATACTTGTTTCCACAGCCTATAGGAACTGAAGGAGCTATTTATATTGGAGGAGAAGGATTGGCAAAAGGGTACTATAAAAATAGTTCTTTAACAAATGAAAAATTTATCAAAAATCCTTTTGACGCCGGAAGTTTATTTTATGAAACAGGTGATGTGGGAAAATGGAATGATAAAGGTGAAATTGAATTTTTAGGAAGGAATGACAATCAAGTTAAAATTAGAGGATATAGAATTGAACTTGGAGATATAGAATCTCAATTAAATATACTTTTAGGAATAAAACAATCAGTGGTTATTGCAAAAAAAGGACAGGAAGAGGCTTTTTTAGTAGCTTATATTATAACGGAAGATCAAGATCTTGATATAGAAAAAATTATTAATGAGCTAAAAAAGAAGCTTCCTTATTATATGATTCCTAATGCAGTTATTCCATTGAAGGAATTTCCACTCACACCAAATCAGAAAATAGACAGGAAATTATTGTCACAAAAAAATGTGGAACAAAATATCGACAATTTTAAAGGGCCAAGTTCAAAATTAGAATTACAACTTTCTGAATATTGGACGGAGGTTTTAAATTTGGAAAATCCAGTAAGTATAAATGCTAATTTTTTTCTTCTGGGGGGACATTCTTTAAAAGCCCTGAAATTGGCAGGTATAATATCCAGGCAGCTTTCTTTTGATATTTCTCTAAAGACTATTTTTGAGTTTCCAACAATTGAATTACTTGCTGATCATCTGAAAGAACTTAATCCTGATCAATCATCATGTATATCATTATCTCCAAGTAAAGAACTTTATGAGCTCACTCCATCTCAATATAATATTTGGCTTGCATCTCAACATACAAATTCTTCAATTGCTTATAATATGTTTTCCTCCTATAAAATGGAAGGAAGTATAGACTTAAACCGAATTACCAATGCAATCAATAAAATAATTTTAAAAAATGAGATCATAAGAACTAATTTTGTAGAAGAAGGTGGAATACCTTACCAAAAAATTAAACCCTTTGATTTCATAGATTTTTCAATTTCTATTCTTAATCCAGGAGATGAGAATATTCAAAAGGTAATATCGGAGTTTAGCAATACAGCATTTGATCTTGAGAATGATTTACTAATGAGAGTGCAGTTACTTCAGACAGATGAAAATCATTTTATCTTACTTTTCTGTACACATCATATTATAATGGATGGTTTATCACTAGAATTGTTTATCAAAGAGCTTATTGTCAATTACAACAATCCACTTTTATCCACTAAAGCGGAAGATAATAGTACCAGACTTCAATATAAAGATTACTCAGAATGGGTTAATAAAAATGCGAAAGATAATTATTCTAAGAATATGGAGTTTTGGGGTAACTATCTTCAAAATTATGTTCACAAAGATTCATTTGATAAAGATTTTGAAACAAACAATAATCTTCAGAATGGAAATTCCTTCACATTTGAATTAGATAAGGAAACTACTCAGGCTTTAAAACAATTAGCTTCCAGAGAAGAAGTTACCTTTTACACTATTTTAGTAACAACATTAAACATTTTAATACATAAATATTCAGATCATAAAGATATTATTATCAGCACAGTCAGCTCAGGAAGACATGCTTCTGAGTTAATCAATCTGATAGGAATGTTTGCCAGAGTCTTACCACTTCGAACACATATTGAAGAAGAAAAAGCTTTTCCACTTTTATTAAAAGAGACACAAAATAATTTATTAGATATTAATGATTATCAGGAAGTTCCTTTCGGTGTGATAAAAAAAACTGTTTTTGATGTTATGTTGGTCTATCAGAATCCGGAATTCTCTTTTGAAAAATTAAACTTTCTCAATGATGTGAAGCTAAGTTTCTATTCTGCTGAAAATAAATATAGCAGAATGCCTCTTGTTTTTAATCTGTTTGAGAGTGATCATAAATTGAAAGGAATCATTGACTATAATTGTAACCTGTATCAGGAAGAAACTATTAAAAGCATTGCAACCAGATATTGTAATCTGTTAAATGAAATAATAAAAACTCCTGAAATGAAAATTTGCTTAATGGATATTCAGTCGGAATACCGGAAAAATACAAAATTTGATTTTGATTTTAACTTTTAA	MKLTLPQQDIYFEQLIYPDEPIYNIGAKIEIKGQINIGIFRKAYIELINQHDAYRIKLVKNEDSVDMEIMDNHHSELGFIDFSRNEMPYETANQFMQEEFSKPFDLFGKELFHVFTLVKVEENFHYLFSVYHHIITDGWGTSLMFQRLVQNYNEILEFGAVQTMYPFIYKEFIEDDIKYQTSESYIEDASYWKNKFKISPENLFDKKKYTNGVNKSDRKEVVIKRAFYNQLNELATVYKCSTFHIILAIVYTYFGRKYQNNDFAIGLPVLNRSTAKYKKTVGLFMGISPLRMKLDFNQTIEELTQELKKQLRNDYRHQRFPLGKLIQELQLFKETEKLFNITLSYEKQNYSNDFQGTETKVIPLSHQAERVALAIYIREFDELKDVKIDFDYNLNYFDQAGITEITDHFENLILEILNYPEKKLYELRYLSENELEKVLLTFNDTEEKLPNEETVVSLFSSQVLKMPDKIILKDDYRCFSYFELDKLSGQIAEKLISLYGPDDQSPIAVLMGRSANMVIVLLGILKTGRSYIPLDPAFPNDRLRYIMDNSASKVLISEKGYEIEGLKDIEIQTLENIFDGLEKFDGLVTKEIKSTDTAYIIYTSGSTGNPKGVEIGHRSLTNFLISMQQKPGVTINDILFSVTTYSFDISILEFFAPLLSGASLYIATQEILQDPNLIIEKLEEIKPTIIQATPSFYQMLFNADWKGDSQLKILCGGDLLNESLAEKLINNSLEVWNMYGPTETTIWSSVKKIEQIKDASNIGTPINNTKFYILDEYLFPQPIGTEGAIYIGGEGLAKGYYKNSSLTNEKFIKNPFDAGSLFYETGDVGKWNDKGEIEFLGRNDNQVKIRGYRIELGDIESQLNILLGIKQSVVIAKKGQEEAFLVAYIITEDQDLDIEKIINELKKKLPYYMIPNAVIPLKEFPLTPNQKIDRKLLSQKNVEQNIDNFKGPSSKLELQLSEYWTEVLNLENPVSINANFFLLGGHSLKALKLAGIISRQLSFDISLKTIFEFPTIELLADHLKELNPDQSSCISLSPSKELYELTPSQYNIWLASQHTNSSIAYNMFSSYKMEGSIDLNRITNAINKIILKNEIIRTNFVEEGGIPYQKIKPFDFIDFSISILNPGDENIQKVISEFSNTAFDLENDLLMRVQLLQTDENHFILLFCTHHIIMDGLSLELFIKELIVNYNNPLLSTKAEDNSTRLQYKDYSEWVNKNAKDNYSKNMEFWGNYLQNYVHKDSFDKDFETNNNLQNGNSFTFELDKETTQALKQLASREEVTFYTILVTTLNILIHKYSDHKDIIISTVSSGRHASELINLIGMFARVLPLRTHIEEEKAFPLLLKETQNNLLDINDYQEVPFGVIKKTVFDVMLVYQNPEFSFEKLNFLNDVKLSFYSAENKYSRMPLVFNLFESDHKLKGIIDYNCNLYQEETIKSIATRYCNLLNEIIKTPEMKICLMDIQSEYRKNTKFDFDFNF				NA	NA	NA	NA	NA
BMS003_04050	1629	yojI	COG4615	ABC transporter ATP-binding/permease protein YojI	ATGCTAAAACTAAAACTTTCACAAATCCTTTATATATTGCTTTATGCACTTCCAAATACAATTTTAAGTTTTGGAATTGTTTACATTATTAATAATGTAATTTCTGGAAAAGAAGAGTTTCAAACAGATTATATGGGAATCGTTTTTGTGGCCATTGTTATATATACTTATTTGTTAAATATCTTTTTTCAGAAAAAGCTCAATATATACTCATATGAGATCCTATATAATAATGAAAAGAAAATTTTTAATAAAATTCTCAATACACCTTTAATTACATTAGAGAAAATGGGATCCCAGAGGTTTTATACTGCAATAGAAGATTTAAGAATATTTTCATCTTTACCAGAAGTAGTTACACACACAATTAATTCTTTACTTATGATCGTACTCTGCATCGGATATTTATTTACTTTATCGGTGTATGCAGCACTTATAGTTATTGCTTTAATTGTTGTAATTGGTGGGATTTATTTCTTTGTAATAAACACAATGTCACAAAAGGTTACTGAACTTAGGAAATATAATGAACACTATTATAAATATGTAAATGATGTTATTGAAGGCTTCAAGGAATTAAAAATTAATATAGAAAGAAGATTGAATTTAATTAATGTTCACTTGATCCCCAACAGAGAACGAGCTAAAGAACTGGATTTTAAAGTCAATTATATATTCTTGTCAATTAACCTGATAAGCCAGTATGGTTTTTATATTGTAATTGCAGTAATTCTTTTTCTTCTTCCTAATCTGGATTTACTTAAGAGAGGAGATGTAGTTTCATACGTTGTTATCTTATTATTTATTACCGGCCCTATTAATAACCTGATAAATATGCAGAATATTTACACACGCTTTATAGTGGCAAATAATAGGATCATAAAGTTTTTGGAAGATTTTAAGAATAATAATAGCGAAGTTTCCGTGCAGGAGAATTCAGATTTTGAGTCGTTGGAGTTTAGCTCAATAGGATTCGATTATGAAAATAATGCCAAAGAAAAATCTTTTTGTTTGGGACCAGTTGACCTAACAGTTAAAAAAGGAGAAATGATATTTATTGTTGGTGGAAATGGTAGTGGTAAAAGTACCTTTATAAATGTTTTAACCGGTTTATATAAGCCATCTGAGGGGGAAATACGATTAAATGACAATATCATTAATTCATCTGAAGAATTACAGAATTTAACAGCAGCAGTATTCACAAATAATCATATTTTCTCTCATAACTACGATAATTATAAACTAAAGGCTAATAAAAGATATTTGGAGCTTTTAAAACTGCTGGAGATGGATAAAGTAGTTTTGGATGATGAAGAAGAATCAGCAAGAAGAAGTTTTTCAAAAGGACAAAGTAAAAGAATGTCATTAATCTTTGCTCTTTTAGAAAATAAACCAATTTTGGTTTTAGATGAATGGGCTGCCGACCAGGATCCGCATTTTAGAAAATTTTTCTATGAAAATCTATTAGGTAAACTAAAAGAAGAAGGGAAAACCATAATTGCAGTGACTCATGATGATGCTTATTTTAAATATGCAGACAGAATTTTAAAGTTTGATTTTGGAAAAATAATCAAGGATACGGCTGTTAAATCTACTGATAATTTGTCACTTGAGAAGTTATGGCACTAA	MLKLKLSQILYILLYALPNTILSFGIVYIINNVISGKEEFQTDYMGIVFVAIVIYTYLLNIFFQKKLNIYSYEILYNNEKKIFNKILNTPLITLEKMGSQRFYTAIEDLRIFSSLPEVVTHTINSLLMIVLCIGYLFTLSVYAALIVIALIVVIGGIYFFVINTMSQKVTELRKYNEHYYKYVNDVIEGFKELKINIERRLNLINVHLIPNRERAKELDFKVNYIFLSINLISQYGFYIVIAVILFLLPNLDLLKRGDVVSYVVILLFITGPINNLINMQNIYTRFIVANNRIIKFLEDFKNNNSEVSVQENSDFESLEFSSIGFDYENNAKEKSFCLGPVDLTVKKGEMIFIVGGNGSGKSTFINVLTGLYKPSEGEIRLNDNIINSSEELQNLTAAVFTNNHIFSHNYDNYKLKANKRYLELLKLLEMDKVVLDDEEESARRSFSKGQSKRMSLIFALLENKPILVLDEWAADQDPHFRKFFYENLLGKLKEEGKTIIAVTHDDAYFKYADRILKFDFGKIIKDTAVKSTDNLSLEKLWH				NA	NA	NA	NA	NA
BMS003_04051	720	srfAD	COG3208	Surfactin synthase thioesterase subunit	ATGGATAAAAATACTAAGTTTCAGCTATTTTTGCTGCATTTTGCAGGAGGTAGCATTTATTCTTATGATTTTCTCAAAAAATATATAGAACCTAATATTGAGTTTATTCCTCTTGAACTCCCTGGTAGGGGAAAACGATTTAGCGAAAAATTATTAAAAACAAAGAATGAAGTAATTGATGATTATTTTTCTCAAATAAAAAAACTCAGAAATAATGCACCTTATATAATTTTCGGACATAGCATGGGCGCTACAATAGGACTTTCTTTAGTAACTAAACTTGAAGCAATTGGTGATGCTCCTGAAAAGCTGATTGTATCTGGTAACCCCGGGCCAGGAATAAAAAAAGAGAATGATGAGGTTCGTTATTTATTAAATGATCTCCAATTTAAAGAAACTCTTGGAAAGCTGGGAGGTATTCCTAAAGAAGTTCTTGATAATCAGGAATTGTATGAATATTTTGCCCCAATAATACGTGCAGATTTTGAATGCCTAGAAAAATACTTCTTTTCTGAGAAAGGAATACAGATTAACATTCCAATTTTTGCTATGATGGGAGATGAAGAAGAACTGTCCACAAAAATCGAAAATTGGAGCAATTTTACAAACAAGGATTTTGAATTTAAAATTTTACAGGGAAATCACTTTTTTATACATGACCATCCTTTTGAATTAGGAAATATAATTATGAACTGCTGTTATGCTTCTGTTATCAGATAA	MDKNTKFQLFLLHFAGGSIYSYDFLKKYIEPNIEFIPLELPGRGKRFSEKLLKTKNEVIDDYFSQIKKLRNNAPYIIFGHSMGATIGLSLVTKLEAIGDAPEKLIVSGNPGPGIKKENDEVRYLLNDLQFKETLGKLGGIPKEVLDNQELYEYFAPIIRADFECLEKYFFSEKGIQINIPIFAMMGDEEELSTKIENWSNFTNKDFEFKILQGNHFFIHDHPFELGNIIMNCCYASVIR	PGPT0009855_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009855-srfATE|srfAD|lchAD-K15657	NA	NA
BMS003_04052	4623	ppsB		Plipastatin synthase subunit B	ATGGAAAAAGAAAAAGAAATAGAAAATCTTTTTGAGGATCTACAAAATGATGATATACAATTAGTACTTAACAAGGATGAAAATTTAGAGATTGTATCCTATAAAAATAAAATTTCTTCAGATGTCTTACAGAAAATTAAAGACAACAAAACTGAAGTTATTAATTTTCTAAAAAATAGAAAAGAGTCTGGTGACCTTATCTTTCCATCAGTCGAAAAATCGGATAGTTATGTAGCTTCTTCAGGCCAACGAGGTATATGGTTGGCAAGCCAGATCAATGAGGCGTCAATTGCACATAATATGTTATTTCAGAAGACAATAAGCGGTCTCTCAAATAGAGATATGTTTACTAAAGCGATAGAATGTGTTATTGATAGACATGAAATATTAAGAACTGTTTTTAAACTTGATGATCAGGGAATATTAAAACAAATTATAGTAGACAGGAGCGAGCTTGCATTTAAAGTACAATTCAAAGATTTGAGAAACAATGCAAATTATGAACAGATCATTGCAGATATTGTTAATCTGGATTCTAATCAGGCTTTTGATTTGGAAAATGGTCCATTATTAAGAGTTTCTCTTTTTCAGGTATTAGATGAAACTTATGTTTTCTATTTTAATATTCATCATATTATTTGCGACGGATGGTCTATGGAAGTATTAGAAAAAGAAATAACGCTGTATTATGAAGCACTCATAACAGAAAATACTCCGAATTTAGATGAAATAAAAATTCAATATAAAAATTATGCTGCCTGGGAGTCTAAAACAATATCGGATGGCAGCCTACAACAACATAAAGAATACTGGCTAAATCAGCTGTCAAACAAGTTACCTGTCTTGGATATATTAAGTTTTAAAAAGAGACCAAGATTTAAAACATTTAACGGATATTCTCTGGGAACAAATATATCGTCTGATTCTCTCGTTAATTTACGAAAAATAGCACATACAGAAAAAAGCAGTCTTTTTATAGCTGTACTGACTGTAGTTAAAGTACTGATTAATAAATATACAAATGAAAATGATATTGTTATAGGTTTTCCTATATCAGGAAGAAAGGAAAAAGTACTTTATAATCAAATTGGCTATTATGCCAAAACATTGGTTTTAAGAAATCAAATTGATGAAAATGACACTTTTTTGTCTTTTTTTAAACGATTAAAAGAGAATACACTGGCTGCTTATGAATATCAGGATTATCCGTATGATATTCTAGTATCTGATTTGAATATTCCAAGAGATTTAAGTAGGAATTCATTATATGATATTTCTGTTACATACAATAATATAGCATCTAACAAAGAAATATTTCAAAAAGAAAAATCAGATGAAATTAAGAATTTGGGTTATAAAAAATGTAAATGTGATTTTGAATTCCATTTTACTGAAGAAGGAGATGATTTAAATTTGATATTAAACTTCAATAGTGATATTTATGAAATTGAAATGATTCGTAAATTTTTACAACATTTTAGACAGGTCTTAGCTGAAGTTTCATCAAATGAAAATAAACAAATCAAAAGTATAGATTACCTTACTGAATCTGAAAAAATACAATTATTAAATGGCTTTAGGAATGATTCTGTTCAATATCCAAAAGATAAAACAATACTGGATATATTTGAAGAACAAGTGTGTAAAACTCCGGATAATATAGCAGTAGTTTTTAAAGATAAAACGTTAAGCTACAAAGAACTGAATAATCATGCCAATCAGTTAGGACGATACCTTAGAAGTGAATATCATATTGAACCTGATGATTTAATAGGAATTAAGTTAGATAGATCCGAGCAAATGATTGTTGCAATTTTAGGGATTTTAAAATCCGGAGCAGCTTACGTTCCTATAGATATAAATTATCCTGAAGAGAGAATCATGTATATCGAAAAGGATAGTAATTGCAAAGTTGTGATAGATCAGGAAGAACTGATGAAATTTATTTCAAAACAAAAAGAATTATCAATAGATAACCTGGAAAAATATATCAAACCTCATCATCTTGCATATGTAATATATACATCAGGTACAACAGGTAATCCAAAGGGAACATTATTGGAACATAGGAATGTTGTAAGATTGTTTTTTACTGAAAAACCTTTATTTGATTTCAATGAAAATGATGTCTGGACTATGTTTCATTCATATAGTTTTGATTTTTCTGTTTGGGAGATGTATGGAGCTTTGCTTTACGGTGGAAAATTAATAGTGATACCAAAAGAAGTTGCACAAAACACACCGGAATTTTTAGAATTATTATACAACGAGTCTGTAACCATACTCAATCAAACACCTTCAGCATTTTATAATTTAATAGACTGTGAAAAATCAAATAAAAAGCGGGACTTTAAGTTAAGGAATATAATTTTTGGTGGAGAGGCTCTGAATCCTTTCTTATTATTCGATTGGCATAAAAAATACCCTTTCGTAAAACTGATTAATATGTATGGTATTACAGAAACTACTGTTCATGTTACGTATAAAGAGATCGGTGAAAAAGAAATGAGGCTTGAAAAGTCGAATATTGGGAAAGCCATCCCTACTTTAAGTTGCTATATTTTGGACGAATCAAAACAATTAGTGCCTGCAGGAGTTTTCGGAGAGCTTTATGTTGCTGGAGCTGGTTTGGCACGAGGATATCTTAATCGTAAGGAATTAACTTTGGAAAAATTTATTACTAATCCTTTCTTTGCCGGTGAACGTTTATATAAAACAGGTGATATCGGACGCTGGATGCTAGATGGTGATATCGAATATAAAGGTAGACAGGATGATCAGGTAAAGATTAGAGGGCATAGAATAGAGTTGGGTGAAATTGAAAAATCCCTTTCACTGGAAGAAGCAATAAGCCAATCGGTTGTAATAGTAGATGAAAATAAAAATATAGTGGCTTATTATACTTCAGATGTTTCATTGGATAAAAAGATTTTACAGCAAAATTTAAGCGCTCTATTACCTGATTATATGCTTCCAAGCTATTATGTTCAGCTGAAAAAAATCCCTTTAACATCTAATGGAAAGGTCAATAGGTCATCTTTACCAGCGATACAACAGAAAGATTTAATTAAAGAAGAATATGTTGCGCCAACAACGAAAGAAGAAAAGCTTTTGGTTTCTATCTGTTCAGAAGTATTGAAGCATAATTTAATAAGTATAAAAGACAGCTTCTATAATTTAGGTGGAGACTCCATTAAATCAATTCAAATAATTACTCAATTAAAAAATGCTGGTTTTTATCTGAAGATTACTGATCTTCTCCATAATCCGGTTTTAGAAGATTTAGCAAGATTGATGAAATCTGATAATACGTTGGTAGATACTGATGATAACAGCTTAAAAAATAACATAAAAGACCAAATAAAGATCAATGACGTAGCTGAACTTTCATTTAATCAGGCTGTTTATACCAAACTTAATTCTTCTCAGGTAGTCATAAAATTTAGAGTCATTGAATTCCAGAAAAATAATTTTGAAAATGAATTTAGAAATGTAATTTCCAGATTTCCTTCCTTATGTTTGAAATATGAACTTAAGAATGATAAGGTAATTCAAAGGTTTATTGCTATGAAAGATCAGAAAATTAAATTCACCATTTTGAATAATAATGAAGAGGAGATTTCAAAACATATTGTTTCGGATTACAAGATGCCATACGATATAATCAAAGGTGAATTAATTAGAGTAAGCCTATTGGTAAATGAAAATACCAATGAGGCAGAAGCATATTTATGTATTCATCATTCTTTATTAGATGATTATTCAGCAAAAATTGTAGATCGAGAATTAACAGATTACTTTGAAAAGGGTATAGATTTATTAAATGTTGGGTATGAACATTATTTCAAGTTTATTGAATGGCAGAAAAAATATCTTACTTCCATACATGGGCTGAAGGAGAAAGAATACTGGGTAGATAAGTTAAGTAATGGAATTTTATACAATGATGTTGGAAACATTGGAAAACATAATCAACCTGTTTCTCAGAAAACTATTATTACAGGAGAAAGATATAATCAAATAATAGATTTGAGCAATAAAATGAATCTTCCTGTTAATGCTTTATGTAATAGCTTATATCAATTTTTATTAAATAAGGTTGCTATTCAGAAGGATTTATTTACCATTTTAGTAACCTGCCGTGAATCAATTATTGATGGAATTAATTTAGAATTATTACCAGGCGTTATCAACAATGGACTACCCATACCTTATAAAAAGTTAAACAACTTTTCTGATTTTAATAAAGATTATATCTTTTCTACTTACGAAAATTATTTGGAGGCTAGAATGCACCAATTGATTCCTTATGAAATTATTAAGAATGAGGTCATGAATAACTTAAACCAAAATATTGATAGCAATACTGTTGGAAGTTATAATTTCTTAATACATGAAAGTTATGTAAAAGAAACTGAAATGCATGAGGTGAAAATATCTAGAGACCTATATAGAATAGCATCAGAAACAGTTTCAATGAAAGTTATTTTATTTAAAAATGCCTTACAAATAGAAATTATCTGTAGCAATGATATTTATGAAAGAAAACGAAATGAGATTACACTTGATACATGTTTAGATACATTATTTGAACTGGCAGATGAAAAAAATATGATATATTAA	MEKEKEIENLFEDLQNDDIQLVLNKDENLEIVSYKNKISSDVLQKIKDNKTEVINFLKNRKESGDLIFPSVEKSDSYVASSGQRGIWLASQINEASIAHNMLFQKTISGLSNRDMFTKAIECVIDRHEILRTVFKLDDQGILKQIIVDRSELAFKVQFKDLRNNANYEQIIADIVNLDSNQAFDLENGPLLRVSLFQVLDETYVFYFNIHHIICDGWSMEVLEKEITLYYEALITENTPNLDEIKIQYKNYAAWESKTISDGSLQQHKEYWLNQLSNKLPVLDILSFKKRPRFKTFNGYSLGTNISSDSLVNLRKIAHTEKSSLFIAVLTVVKVLINKYTNENDIVIGFPISGRKEKVLYNQIGYYAKTLVLRNQIDENDTFLSFFKRLKENTLAAYEYQDYPYDILVSDLNIPRDLSRNSLYDISVTYNNIASNKEIFQKEKSDEIKNLGYKKCKCDFEFHFTEEGDDLNLILNFNSDIYEIEMIRKFLQHFRQVLAEVSSNENKQIKSIDYLTESEKIQLLNGFRNDSVQYPKDKTILDIFEEQVCKTPDNIAVVFKDKTLSYKELNNHANQLGRYLRSEYHIEPDDLIGIKLDRSEQMIVAILGILKSGAAYVPIDINYPEERIMYIEKDSNCKVVIDQEELMKFISKQKELSIDNLEKYIKPHHLAYVIYTSGTTGNPKGTLLEHRNVVRLFFTEKPLFDFNENDVWTMFHSYSFDFSVWEMYGALLYGGKLIVIPKEVAQNTPEFLELLYNESVTILNQTPSAFYNLIDCEKSNKKRDFKLRNIIFGGEALNPFLLFDWHKKYPFVKLINMYGITETTVHVTYKEIGEKEMRLEKSNIGKAIPTLSCYILDESKQLVPAGVFGELYVAGAGLARGYLNRKELTLEKFITNPFFAGERLYKTGDIGRWMLDGDIEYKGRQDDQVKIRGHRIELGEIEKSLSLEEAISQSVVIVDENKNIVAYYTSDVSLDKKILQQNLSALLPDYMLPSYYVQLKKIPLTSNGKVNRSSLPAIQQKDLIKEEYVAPTTKEEKLLVSICSEVLKHNLISIKDSFYNLGGDSIKSIQIITQLKNAGFYLKITDLLHNPVLEDLARLMKSDNTLVDTDDNSLKNNIKDQIKINDVAELSFNQAVYTKLNSSQVVIKFRVIEFQKNNFENEFRNVISRFPSLCLKYELKNDKVIQRFIAMKDQKIKFTILNNNEEEISKHIVSDYKMPYDIIKGELIRVSLLVNENTNEAEAYLCIHHSLLDDYSAKIVDRELTDYFEKGIDLLNVGYEHYFKFIEWQKKYLTSIHGLKEKEYWVDKLSNGILYNDVGNIGKHNQPVSQKTIITGERYNQIIDLSNKMNLPVNALCNSLYQFLLNKVAIQKDLFTILVTCRESIIDGINLELLPGVINNGLPIPYKKLNNFSDFNKDYIFSTYENYLEARMHQLIPYEIIKNEVMNNLNQNIDSNTVGSYNFLIHESYVKETEMHEVKISRDLYRIASETVSMKVILFKNALQIEIICSNDIYERKRNEITLDTCLDTLFELADEKNMIY				NA	NA	NA	NA	NA
BMS003_04053	1605	cmlA		4-amino-L-phenylalanyl-[CmlP-peptidyl-carrier-protein] 3-hydroxylase	ATGAGCAGAACAAACGACGAACGTTATTTAAAATTAAATGTTGCAATTGAAGGTCTAATTGACAGATGGTACGCATGGCCCCATTTAGTTTCTCCAGCTACTGCTGCGATGAATATAAAAGATAGGCATTTAAAGATCATGGAATCTTATATAAAAAATCCTAAAATACATGCTGCAGCTGTAAAAGATCCCAAAATGTTAGGAGGACCCTTTATCGATTACGATGGTGGTCGTGTGGAAGAAATTAAAGAATTGTATGATAATACCCTGAATAGCAGAGCTGATATGCTTGAATTCCGTGAAGCATTATTAGAGCTTAATAATATGCTGAAGAGAGAAGCAAAGGGATATTCTCTGGATACCTTGTACGAAATGGTTCCTGAAATTCTAAGGGGATATGTTGAGTTGTACTATGATTTAAATAATAATCCAAACTTCAGATTTTTTGAAGCATTATTGTATAAAAGTAAATACTATGATGACTCTTCACAATCGGTTTCTTTACAATTGGTAGAGGCAGATGATTCTAGATCTTTTGTGCTAAGTACGCCAAGATTAAATGACGAACATTTAATCCATTTAGATTTGCCATTTAAATCAAATCTTATTGATGAATTGTTTAAAATGAAAAGAATTCCTTCCGATTATAATAAAATCAAAAATGCTTTGGGGATTTCAAGTGACCAGGAACATTTATTCGAGTCATTTTTTACAGATCAGGCTCCAGCAGAATATAAAAGATATGCAAATAAAGGTGTAAGAACTAGATATTTTGGCCATGCATGTGTTTTGGTTGAAACCGATGAAATTTCAATTTTAATTGATCCGGTAATAAGTTATGACGGATATGAAACCGATGTACAGAGATATACAATAAATGATTTGCCTGAAAAAATTGATTATGTTTTGATTACCCATAATCATCAGGATCATATCTTGCTTGAGACTTTGCTGCAATTGCGTCATTCGATCAAGAATATAATAATTCCAAGTAGTGGAAAAGGGAATCTTCAAGATCCTAATTTAAGACTGATGTTTAAAAATATCGGTTTTGAAAATGTAATTGAGCTGGATGATATGGAGAGTATCGAAATGGATAAGTGTACCATTACCGGACTTCCTTTCCTGGGAGAACATTCAGATATTGATATTAGAACTAAATTGTGTTATCACGTAAAGCTTCACAACGATTTTAAAGTACTGTTTGTGGCAGACTCTTGTAATATAGAGCCCAAAATATATGAAAGAATTCATGGCATTATGGGAGATATAGACATCCTGTTTTTGGGAATGGAATGTGATGGTGCACCATTATCGTGGCTTTACGGTCCGCTACTTTCTGAAAAACTTGAACGAGATAAAGATTTTTCAAGGAGATTGGCAGGATGTAATTTTGATCAAGGGATTTCTTTAGTTAATATTTTTAATCCAAAAAATGTATTTGTTTATGCAATGGGAATGGAGCCATGGCTTGAATTTATAAGCTCTATAAAATATACGGATGAATCAAGACCAATAGTAGAGTCTAACAAATTGGTGAATGAATGTCTTAAAAGAGGAATTGATGCGGAAAGATTGTTTGGTGAAAAAACAATTGAATACTAA	MSRTNDERYLKLNVAIEGLIDRWYAWPHLVSPATAAMNIKDRHLKIMESYIKNPKIHAAAVKDPKMLGGPFIDYDGGRVEEIKELYDNTLNSRADMLEFREALLELNNMLKREAKGYSLDTLYEMVPEILRGYVELYYDLNNNPNFRFFEALLYKSKYYDDSSQSVSLQLVEADDSRSFVLSTPRLNDEHLIHLDLPFKSNLIDELFKMKRIPSDYNKIKNALGISSDQEHLFESFFTDQAPAEYKRYANKGVRTRYFGHACVLVETDEISILIDPVISYDGYETDVQRYTINDLPEKIDYVLITHNHQDHILLETLLQLRHSIKNIIIPSSGKGNLQDPNLRLMFKNIGFENVIELDDMESIEMDKCTITGLPFLGEHSDIDIRTKLCYHVKLHNDFKVLFVADSCNIEPKIYERIHGIMGDIDILFLGMECDGAPLSWLYGPLLSEKLERDKDFSRRLAGCNFDQGISLVNIFNPKNVFVYAMGMEPWLEFISSIKYTDESRPIVESNKLVNECLKRGIDAERLFGEKTIEY				NA	NA	NA	NA	NA
BMS003_04054	5202	lgrD_2		Linear gramicidin synthase subunit D	ATGTATAAGACAGGAGATTTGGGGAGATGGCTTCCGGACGGGAATATTGATTATAGAGGCAGAGAGGATGATCAGGTAAAAATTAAGGGATATCGTATAGAGCTTGGCGAGATAGAATCTGCAATTTCATCTTTCTCTGAGGAGATTTCTCAGGTTGTGGTTAAAATTAATGAGTATAATGACGAGAAATACATCGTTGCATATTATGTTTCAGAAGAAAAGATTGATAAAAAAGTTCTTCAAAAAAGTTTAAATAAAGCTTTACCAGATTATATGCTTCCGGGATTTTATGTCCAGTTAGATTTTATCCCTTTAACATCAAATGGAAAAATAGACCATAAAGCTTTGCCGGAAGTAGCGGAGAAAGATTTGATTAAAGAAGAATATGTAGCACCACAGACTAAAGAAGAAGAGCTTTTAGCTTCAATATGGTCAGAAGTATTAAAATATGATTCTATAAGTATCAAAGAGAGTTTTTATAATTTAGGTGGTGATTCTATTAAGTCAATTTTAGTAGTTTCAAAATTAAAGCAAATGGGATATACTCTTAAAGTAGACCAAATTTTGCGAAATCCTATATTAGAAGACTTAGCAAAACTTGTTACATCCAATTTAAATATTATCGATCAATCGGAAATAACAGGTGAAGTCCAGCTAACACCAATTCAATATTATTTTTTCGAAAATGATGACATTTTCAATAAAAATCATTATAACCAATCTGTTTTATTAAAAAGCAAATCAGAAATAGACTCTCTGGTTCTGGAGCGTTGTATAGAAACATTGACATTGCATCATGATGCTCTAAGAATGGGATTTGAATTTAAAGATAGTATTTGGTCTCAATATAATCATGATACTGTAGATAAGCATTATAAAGTTGATTTCTATGATTTGAGGCAAGAACCGGATCAATTAGGAGCATTAAATCAATTAGGAGAAAAGTTACAATCAGGGTTCGATATCACTTCCGGAATATTATTTCATGTGGGCCATTTTAGAATGTCTGACGGAGATCGTTTAGCATTAATCATTCATCATTTGGTTATTGATGGTGTATCATGGCGTATTCTTCTTGAAGATCTGTCAGATTTATATAACAATTATTTAAAGGATGAAGAGAGCACCCTTCCGTTAAAAACAGATTCTTTCCAGCTTTGGGCCTCTCATCAGGCTGAATATGCTAAAAGTAATAAGGCTCAAATAATAAGACAGTATTGGGAAGAAGTTTGTAAAGAAGAAATTCCTTTATTACCTACGGATTATCAAGGAGAAAGAACAAAAACTGAGAAATCCAATGGATTTATATTAGATCAGGGCTTGACTCAAAAACTGCAGACAAAGGTTCATCATATTTATAATACTGAGATTAATGATATTCTACTTACCAGTCTTGGACTGGCATTACGAGAGGTATTTGGAATTGAAAAGAGTGTTGTGAAGATGGAAGGGCATGGAAGAGAAGAAATAATTGATGGAGTAGATGTGGGGAGAACAATTGGTTGGTTTACAAGTGTTTATCCGTTTGTTTTAGATGTGTCAAAATCAGCAGGAAATGAATTAATAGAAGTAAAAGAGGCATTACGTAAAATACCAAACAAGGGTGTAGATTACGGTATTTTGAATTATCTGGACAAACGATTTGAAAATGAATTGTCTCCAAGTATTCAGTTCAATTATCTTGGAGATTTTGGGAATAATATAGGTAGTGATAAAGAAGAGGCACTATTTGAGTTTTCATCAGAAAATGTGGGAAGATCTATAGACGCTGTCAATAGCAATCATGAGATCTTACTCAATGTATCAGGAATAATGGTTTCAGGTCAATTAAGCATGTCGATTCGTTACTCAGATAATTTATTTAACGATGCAACAATAGAAAAATTAGTAACAGCTTATCAAAAGCAACTACAAAATCTGATAGAACTCTTATCATTAGAAAAAGAAAATCATTTAACACCGTCAGATTTGACGTATAAAAAAATTACTTATGCGGAACTAGCCGATTTAAATGAAAATAATAATATAGAAGATATTTATCCCTTATCTCCATTGCAGCAAGGAATGTTCTATCATTGGTTATTAGATAAATCGAGTCCTGCTTATTTTGAACAATTTACATATACGATTAATATTGAGGATTTAAATCTTGATTCTGTTAAAAAGGCTTATGATACTTTAATTTCCAGATATTCCATTTTACGGACAAGATTTACAAATACTATTGGAGGACTCCCGCTACAAATAGTTTATACGGATATCTCAAGTAATTTCTCATATGAAGAAATGCCTGAAACTGAAATTGCAGAAAAATATATTGAAAAAATAAAAGAGGAAGATAGACGTAAAGGCTTTGACTTTGAAAATCCCTCTCAAATGAGATTAAAGGTTTTAAGAATAGACAAGAATAAATTTGTATTTATCTGGAGCCATCATCATATATTAATGGATGGTTGGTGTATGAGTATTCTTGTTAATGACTTTTATAGTATCCTGACATCTATTAATAATGACTTGGTAAGCAGCCTTACGGTTCCCGTTAAATACTCAGACTATATTAACTGGCTTTCAGGTATAGATAAAAATGATTCACTAGAATATTGGAAGAATTATCTGGAGGGAATTGATACCGTAACAAATATTCCTTTCAAAAGAAAAAAAGAATTGGTAAAGAATTCGGAATTAGCAAAAGAATTTTTCTATATCAAAGATGATTTATTTGATAAATTAAAAAAAATATGTCAGGAAATAGAAATAACCCCTAATACATTCATGCAGGGAGTTTGGGGGTATTTGCTTTCGCGATATAATAATACACAGGATGCTGTTTTTGGTGCAATAGTTTCAGGAAGACCGGGAGAACTTTCCGGTATAGAAAATATGGTTGGACTTTTTATTAACACAATACCTGTTCGTGTACAGTATAATGAAAGCGATAGCCCGAAAAAGTTCTTGAAAAAATTACATACTGAAATCCTAAAAAGTACTCCACATCATTATATAGGTCTATCTGAAGTACAGTCTCAAAGTATTCTGGGAATGGAACTTATCAATAATTTAATGGTATTTGAAAATTATCATGTACAAGACGCTGTAAAAGACGAAATAGATGGAGTATATAGTCAGAAGAATCAAAAAATGACTATTGAGGAAATAAGTGTTTTTGAACAGACTAATTATAATTTCAGTACAATTATAGCTCCTTCAGCTTCAGCATTTAAAGTTGAATTTAGATATAACCCAAATGTATTTGATACAGAACTTATAAAAAACCTTTCAGCTCATTTTTCATCTGTAATAGAACAGTTTTGTTCAGACTCAGAAATGCAGCTTACTCATATTGATTATTTAACAAAAGAGGAAAAAACAGAACTGATAGAGGATTTTAATAATAGGTCATATGAATTACTGGAAGATAAAACACTCGTAGGTTTATTTACTCATCAGGCTCTGATGACCCCTGATAATACTGCAGTTTTTTACGATGGTAAGGAGTTTACATATAAAGAATTAGACAATATTTCTAATCAACTGTCAGAAATTTTAAGAAACCAATTTAATATTACTAAAGGAGAGCCAATTGGTGTACAATTAAATAGAAGCCAGTGGTCAATTATTTCTATTCTTGCAATAATGAAAGCGGGAGGTGTATATGTTCCTATTGATTTTGAACTATCTGATGATCGTAAAAAATTTATAATTGAAGACACCCAGCTAAAATTGTTGATTACTGAAGAGGTATGCACTTTAAGACTAAATGATTATAAAGGAGATATCTTTTTGATCGATCAAAATTATCAGGATTTAGAAAAAATGCCTTCCTCTGAAAAACTAACCATATTACCTGATGATTTAGCCTATATAATTTATACCTCAGGTTCTACAGGTCAGCCAAAAGGGGTGATGGTGCAGCACTCTGCAGTCGTGAATACTATTTGTTCATTAATTGATGCTTTAGAAATTAAAGGAGCAAAGAGAAATTTACAGTATTTGTCATATTCATTTGATGCTTCTATTTCTGAGATTTTTGTTGCGCTGTTATCCGGATGTAGCCTATACATTATTAATGAGAATCAGAGAAAAGATACTGAGCTGCTCGCTGATTATATTATAGAAAATGAAATTGAATTGGCAACACTACCTGCAGCAGTATTTAAGGTAATAAATACTGATTCGCTAAAAGGGTTGAGTACTTTAATTACAGGAGGCGAATCCCCCGATATTGATAAAATTAATCAATTTCTACAGTATGGTAATTATTATAATGAATATGGACCAACAGAGGCAAGTATTTGTGCTACAATTTATAAAAAAGAAAAAGGGAGTAAGCCCCTTACCAATAATATACCAATAGGTGAACCTCTATCTAATGTAGATATTTATATCCTGGATAATTTGCAACGGTTACAACCTAAGGAAATTGTAGGTGAAATTTGTATAGGAGGTAAGGGATTGGCAAAAGGTTACTTGAATCAGCTTGGGCTAACCGAAGAGAAGTTTATTTCTAATCCTTTCAAAAAAGGAGAAAAAATATATAAAACAGGCGATTTAGGGAGATGGTTATCTGATGGTACTATAGAATTTTTAGGAAGAATTGATGATCAGGTAAAAATTAGAGGATACCGAATTGAGCTTGGAGAAATCGAATCAGTATTATCTTCTTTTTCTGATCAATTGATAAAGGTTGTTGTAGATGCAAAAAAGGAAAAAGGAGAAACCGTAATTGTTGCCTATTATGTTGCCAAAGAAACCATTGATAAAAGAGAACTAAGAGAATATCTTCAAAACAAGCTTCCTCTGTATATGGTACCCCAATATTATGTAGAAGTTGAAAAAATCTCTCTGACCACTAATGGAAAAGTGGACCGAAGATTATTGCCTGAAATATCCGATAATGATGTGGTTAGAAATGAATATGTCGCTGCTTCCACAAATGTAGAAAAAAAACTCTCTAAAATATGGGAGGATGTTTTACAAATAAAAACAATAAGCATAACAGACAATTTCTTTGAACTAGGTGGACATAGCATCAAAGCAATTAATATAATTTCTGAAATCCAAAAAGAATTCAATTTAAAAATCACAATATCAAACTTATTTAAGCATTCAACAATTAAAGAGATGTCGGAAGAAATCGAGAAAAATAGAAATTCTTACGAATTTAATACCGAGAGAGAGATTGTTGATAAAATAACTATTTAA	MYKTGDLGRWLPDGNIDYRGREDDQVKIKGYRIELGEIESAISSFSEEISQVVVKINEYNDEKYIVAYYVSEEKIDKKVLQKSLNKALPDYMLPGFYVQLDFIPLTSNGKIDHKALPEVAEKDLIKEEYVAPQTKEEELLASIWSEVLKYDSISIKESFYNLGGDSIKSILVVSKLKQMGYTLKVDQILRNPILEDLAKLVTSNLNIIDQSEITGEVQLTPIQYYFFENDDIFNKNHYNQSVLLKSKSEIDSLVLERCIETLTLHHDALRMGFEFKDSIWSQYNHDTVDKHYKVDFYDLRQEPDQLGALNQLGEKLQSGFDITSGILFHVGHFRMSDGDRLALIIHHLVIDGVSWRILLEDLSDLYNNYLKDEESTLPLKTDSFQLWASHQAEYAKSNKAQIIRQYWEEVCKEEIPLLPTDYQGERTKTEKSNGFILDQGLTQKLQTKVHHIYNTEINDILLTSLGLALREVFGIEKSVVKMEGHGREEIIDGVDVGRTIGWFTSVYPFVLDVSKSAGNELIEVKEALRKIPNKGVDYGILNYLDKRFENELSPSIQFNYLGDFGNNIGSDKEEALFEFSSENVGRSIDAVNSNHEILLNVSGIMVSGQLSMSIRYSDNLFNDATIEKLVTAYQKQLQNLIELLSLEKENHLTPSDLTYKKITYAELADLNENNNIEDIYPLSPLQQGMFYHWLLDKSSPAYFEQFTYTINIEDLNLDSVKKAYDTLISRYSILRTRFTNTIGGLPLQIVYTDISSNFSYEEMPETEIAEKYIEKIKEEDRRKGFDFENPSQMRLKVLRIDKNKFVFIWSHHHILMDGWCMSILVNDFYSILTSINNDLVSSLTVPVKYSDYINWLSGIDKNDSLEYWKNYLEGIDTVTNIPFKRKKELVKNSELAKEFFYIKDDLFDKLKKICQEIEITPNTFMQGVWGYLLSRYNNTQDAVFGAIVSGRPGELSGIENMVGLFINTIPVRVQYNESDSPKKFLKKLHTEILKSTPHHYIGLSEVQSQSILGMELINNLMVFENYHVQDAVKDEIDGVYSQKNQKMTIEEISVFEQTNYNFSTIIAPSASAFKVEFRYNPNVFDTELIKNLSAHFSSVIEQFCSDSEMQLTHIDYLTKEEKTELIEDFNNRSYELLEDKTLVGLFTHQALMTPDNTAVFYDGKEFTYKELDNISNQLSEILRNQFNITKGEPIGVQLNRSQWSIISILAIMKAGGVYVPIDFELSDDRKKFIIEDTQLKLLITEEVCTLRLNDYKGDIFLIDQNYQDLEKMPSSEKLTILPDDLAYIIYTSGSTGQPKGVMVQHSAVVNTICSLIDALEIKGAKRNLQYLSYSFDASISEIFVALLSGCSLYIINENQRKDTELLADYIIENEIELATLPAAVFKVINTDSLKGLSTLITGGESPDIDKINQFLQYGNYYNEYGPTEASICATIYKKEKGSKPLTNNIPIGEPLSNVDIYILDNLQRLQPKEIVGEICIGGKGLAKGYLNQLGLTEEKFISNPFKKGEKIYKTGDLGRWLSDGTIEFLGRIDDQVKIRGYRIELGEIESVLSSFSDQLIKVVVDAKKEKGETVIVAYYVAKETIDKRELREYLQNKLPLYMVPQYYVEVEKISLTTNGKVDRRLLPEISDNDVVRNEYVAASTNVEKKLSKIWEDVLQIKTISITDNFFELGGHSIKAINIISEIQKEFNLKITISNLFKHSTIKEMSEEIEKNRNSYEFNTEREIVDKITI				NA	NA	NA	NA	NA
BMS003_04055	1098			hypothetical protein	TTGGGAAGTAATAACTATAAGGCTGCTCCTGAAAAAAATGTAGAAATAAGAAAAGTACCTAGTATTTTTTCATTTCTTGCAACAGCAGATCCAATTCAAGGAAAATCCGATAGTTTAAAAATCAAATTTGAAGATCAAAACCTTTATGAGATCATATTTCTACCCAGAAAGGCAAAATCTTTAGATCTTAATAAAATTCATTCTTACCTTTCTATTAAGTACGGAATTTCATTGGAAAAAGGGAAGTACTACAATAGTGATGGAAAAATAATCTGGGATCCGGAAAAACATAAAGAATTTAAGCATAAGCCAACAGGATTGGGCAGAGATGATGGGAATGAGTTATATCAGAAACAGTCTTCTAATCAGGCTGATCTGTTTTTAACAATTGGGAAAAACACCATTGAAAGAACAAATGTAGAAAATCAGGCAATTTTTGATAACAACCAGTTTGTTATCTGGTCTAATGATAATAAAGAATTAGCATTGAAAAATGACGGTCAATTCGATGTTTTGCAAAAAAACTGGGAGATCAATTTTATTGGGAATAAAGTTTCAAAAACCGATTACACCCTAAGGGTTTTGAAAGAAACGATGAATCCAGGCTCTTTACCAATTGCTTATTGGATGTTTTTGAAAAAACCAGATGGAAGTACTCAAAAAATTCAAGGAGCCGAAGTTGAAAAATATATCATTTTTAATAAAGTCGATTTTCTGAATGAGTTTGATAATGGTGATACCGCTCATTTTACATTTGCCATAAGTCCTTTAAAGGATAGGAAAATAGGAGGAGCAGGCCAAAACCAAAACTCAGGGACAGAATTATCAGCAAATAATAATGAACTATCATTAAATCTGACAAAAATTAATCTTTATCCAAATCCGGTTAAAAAAGGACAAACTTTTACGGTTACATTTCCACCGATGGATGATTTGGTAATCTCTATTTATGATGGAACCGGAAGGCTTTTGAAAATGGAGAATATTGATCGTAAGTCTAATCACTATATGAATACTCTGGATGTTCAGAGTGCGTATATCATCAATCTTACTCAAAATAAAAAAATAATAAAAACTTTCAAATTAATCGTTGATTAA	MGSNNYKAAPEKNVEIRKVPSIFSFLATADPIQGKSDSLKIKFEDQNLYEIIFLPRKAKSLDLNKIHSYLSIKYGISLEKGKYYNSDGKIIWDPEKHKEFKHKPTGLGRDDGNELYQKQSSNQADLFLTIGKNTIERTNVENQAIFDNNQFVIWSNDNKELALKNDGQFDVLQKNWEINFIGNKVSKTDYTLRVLKETMNPGSLPIAYWMFLKKPDGSTQKIQGAEVEKYIIFNKVDFLNEFDNGDTAHFTFAISPLKDRKIGGAGQNQNSGTELSANNNELSLNLTKINLYPNPVKKGQTFTVTFPPMDDLVISIYDGTGRLLKMENIDRKSNHYMNTLDVQSAYIINLTQNKKIIKTFKLIVD				NA	NA	NA	NA	NA
BMS003_04056	10260			hypothetical protein	ATGAAAATACGTGCGGATCAATTTCCTGTTACCAAGAAATCATTTCTGCTTATATGTTTCTTTGCGTGTATGTTTGTTTGTGCAAGCTTTACCAAAGAAGACAGGCAGAAGGTACGGAAATTTAAGAAAGATGTGATGAGTAAATGGACTGCTGAAAAAGTTGATTTACTAGATCAGAGTGTAAAAGAAGATTCTTCTAATCTAATTACATCCTCAGAAAAATCGTCCACAAAAACTCTTTTAGGAGAAGACTCTTCTGTGTTAGTCAATATAGAAAAGGGAACGGAAGATTCTTCTGAATTTAAAAATGATGTTGTGAATGGCATCAGTAATTTTTATCCATCAAAAGAAAAAGAAGGAACAATTGGTGCTTTCACAGGCCAGGAAGAAGATGTAGTTTCTGATAATTTTTTCACAGTGGATATTCCTACAGTGGAAGAAAACACAGTGGCTTATCTGGAATATGATTTGTTTGGTTTAGCTTCTCATGAATCTGTATCCAGGTCTATCAATCATAACATTGCAATAGGAGGAGGAATTATTGTTCCTAGTGCAAAATGGAGTCATCAGAAAGAGGCTATTAATTCGGGACTTATTAAGACAGGTTCCAACTTAGTATTATTCACTTCACCGACTGCTGGAGTAAAATATAAAGTGAAAAATCTACGTATCGTTTTTGATAAAGAGAAGAGATCAGAAAATAATCTGCATCTAACTTCTGCGCTGTCAGGGGATCAGCTGTATGTAAAAGGAAACACTACTTCACTATCAGATTTGATAGTTAATAATGAGGTTATTGCTGTGAAAAACGGTGAATTTGAAAAGGTCATAAAAATTTCTGAGGAAAATAAAGCGGCTGGTTCATTCTCTGTTATTGCAGGAGGTGTAGCCAATACTTACAAAATTCCAGTTTCTGCAAAAGCTTTTAAAGTAGTTGATCACTACTACGCAAAACCAAAAGGAGTTGAAATTTCAAAAGATAAGGAGTTTAGCATAAGCTATGAAAATATGAATGTTTCTATTGAAAAAGCAGCATCAGAGTCGGCTTATATAGAAATACTGAAATTAAGAGAAAAGGATATTCCTGCAGTTTCTCAGGGGCTTAAAAATGTAACCCTGAATAATGCTGCTTACAGGTTTTCTGTTGTATCAGGAAAGTTGGAGAAAAAAGCAAAAATTACCATTCCTTATGATGTTAAAAGGTTGGGGCTTTTTTCTCCTAAAGATATTAAGATTTTCCATTTTGATTATACTAAAAAACAATGGGTTGCAGATAAATCAGTTGTTGATGAGAAAAATAAAACGGTAATGGTAGAAGGAGATGGAAATCATGATTATATCAACGGAATTATTTCCGCTCCGGAATCTCCTCAAACAACAGCTTTTTCCCCCACAAGTATCAGCGGATTAAAAGCTGCAGATCCAATGGCTGGAATGCAGCTTATGAATGCTCCTACGGCAAGTCAGAAAGGAGATGCCAGTATGAATTATCCTATCAAAGTTCCTGCTGGTTTGGGAGGATTGCAGCCTTCTTTAGCTATAGGTTACAACAGTGGCGCCGGTAACGGATGGATGGGTGAAGGATGGGATCTTCAAGGATTATCTGCGATTACAGTAGATACCAGGTGGGGAACACCTATGTTTGGAGGAGAAGAAACTGAACTTTACACCTTGGATGGCGAAATGCTTGTTTATCCTGGTGGCTATCTGCCCCACAGACATAATAATGTAAGTGAAACATCTACGGATATTACAACGGCAAGACAACCTAGAAATGCAACAGGAAAAAAACAGTTTTACCTTAGAAAGAATCATGATTTTACCCTTATAGAAAGGGAGGGAAACAGTATGGGTACTTATTCATGGACGGTTACCTCTACCAATGGTACTAAAAGCTATTATGGCGGAAGTGATAATTCTGTTATAAAAAATAGTGAAGGACAGATTATTCATTGGGGGTTGAGAATGATAGAGGATTCCCATGGTAACAAAATGCTTTTCACTTACCAGAATAATACAGTAGATTTTGGAACAAATAGCAATATAACCGGAGGGGTTTATTTTCATATTCAAAAAATAACTTACGGAAAAAACCAGGATTATAGTGTTAATTTTATTGCTGAAACCGGAATTAGCAGAAAAGATATCAATATCAATGCTAAACAGGGAGTAAAAAGAGTAGAACCATATCTTCTAAGATCTATCGATATAAAACATAAGACAGAAAGAATACGAACATATGGTGTAGAATATGAAGATGGGCAATTTAATAAAACAAGGTTAAAAAGATTATACAGTCAGGTATACAACATTAAGATTGTTAATCCGCTTCCTATTATTGATGACTATTCTTTTGAATACTATGATCAAGTGGAAAATAATCAGATCTTTGGACCCGATACTCAGGTACAGGTACAGAATTCTGAAAATGTCTATAATGGACTGATTGAAAATATTCTGAAACCATCTAAAATCAATGGAAATATTTCCTCTGAAAATGGATTAGACTTCAGACCCGCTGCTGGATTGAATTTCTTTTATTCTTCCAATGACGCATATGGACACCTGATGTTTGGGTTCCCTTTTGGATATTCTACTGCTGAAGCAAAAAATGCACAGCAGCTTATTGACTTTAATGGAGATGGTATTCAGGATATGATCTACAGAACTTCTTCTGAGCTGAAATTCAGTCAGGGAAAACTGGATCAGTATGGAAATTTATCTTTTTTGCCTGCTAAGCCCTTATTGAATTATAATAATAACTTTACTTATACTGAAACAAAGACCAACAATTCAGGATGGGATATGGGAGCAGTTGTATATAGCAAATCCCAGATTAGATCTACATCCAGAGGAACCACATCTACTTATCTGATTGATGCTAACTCTGACGGATTAGTTGATATTGTCAATAATGGACAGGTATGGTTTAATAAGTATAATAAAGGCTTACAACAACCTGAAATGACTCGGTACTCAGAATTCACGGAGAATATGGTGGTGAAGGACAAACCAATAGTACCACCAGTCTTACCACCGGACGACCCTATTGTTACTCCAGATATTCCGGCAGTGCCTATTACTGATGTTGTAAAAGTATGGATAGCTTCACAGGATGGTTATATTACGATTAAAGATAATATATTAGTACCTCCTTATGCTGGAGATCCGAATGATTTACCCATAAAAATGTATTATTCGGTGGAAGCCCCTTATATGTCTTCAGGTGCTTCTGTTAATACAAGAGTTTATCTTACGGAATTGAACCCCGGAGGTCTTGCGAAAAATATTTCGATCTCGAAATATGATGATTATTATACAGAAATGAATACCATTTCACCGGGATATAATACAGTATCCAATCAGGTAGGAGCTGTTAATAGTTCCAACAGGATTTTTGTAAAAAGTGGTGAGAAAGTATACATAAGATTGCATAAAAGCCAGAATAAGAATTTAGAGGTAAATTCTAATCCGGAAGTTATTTATGTTGATCCCTCAACCGGATCCCCTTTGTCAAACAAGTTTATATTTCAGGATCAGTTTAAGCTGAATAATGGAAATTATGGAAGTAATTTCCTTACCAATAATTTATTATCATCGGTGTATCTAGATGGTACGGGGACAGCAAATATTACAGTGGAAAGTGTTAACTTTACTTCTAGTACAGATAGCTTTATCTTTAAAGTGATTGCAGAAAATGCAACTACTGGTGCAGCTACAGTACTCCATTCTTCTGAATATATTCAGTCATATGGTTCATTCAATACTGAAGCTTTTACAGGTAATTTGAATGTGAATTCAAGCGAGCCAGTGTACTTGAAGTTTATTGTAGAATCTGATTCTCATACCTCATTCTTCAATAGCAACTGGAAGGATAAAATCAAAGTAAACTATAATGCTGTTTCAAATAATAATACATCAGTCAACGTAGAATTGTATCCGGTTGCTCAATATCCTTCATATGCTGTAACACAACTAAGAGGAAGAATAGACATTAGAAATACACAGGATAATCCTAATATCGTTAGTGGGGAAAGAGCTTATGGTGTTCAGATAGATAAAGGTGTTACAAACTTTTCTACTCTTTCAACAGGATCGTTTTATTACGTAATCAAAACTGGATCTACAGTTATGGGAAAAAGAAAAGTAACCGTAGCTGCTAACGGAGCCAGCTCAGTAATTAAGGAAGAGGATATGATTGGTGGATTTGATGTTCCAGGAATTAGTGCTATCAATTTTTATAAGGGAGATTTGGCAATACCTGAATTCGGTCAACCTCATCTTGTTAATATTCAGGTATACTGTAAAACCGACGGTGATTATGCTTTATTCAATAAATATTCTCAATACTTCCAAGGGAAACCATTCAAAATTTATGGAAGTGGTGAGCTGATTACGTCCGTACCGCCAACTTCGGTAAATACAGCAATGTATAACCCAAAAACTGCTGTCTATAATAACTGGGGACAATTTTTATACAATCCGGGAATTATAGAAGGTTACACCTATGGAAAACCAATTGAAGCAGAAACTCTGACTCCGGGTAATGTAGCTCAAAATACTTACCCACAATGTATTCAGCAGCCTCCTTTAAGTGCAGAGGAGTTGGCTAAGTGTATTGATAACTTACCTAATGAGAATCCTAACACAGGAAATAATACGCTTTCCCAATTTGTTTCTCCAATGAAACCACATAGTTCACTGATGAATACAGGGGGTGCAAACTACACTGTTAAAACTATCTGGGTGGGGGCAGGAGAGAATCAGTTTGCTTCTGCAAGTTCTTTCAAGGATGATGAAACTGTCAATTATTTCAATAATCCTATACCTAATACACCATCGATAGCACCTACTACTCTGGTAACCGGAGCACTTTCATTGGATACCACAATGAAGGCTATCAGCAGAAAACAGAGCAGCTATACCCGTAATACGACGAATACATTAAGTGCATCATCAGGGAGTATAAGTGGATCTGCAGCCGAATCTGAAACCATACCTTGGGGAAAGGGAAGTATTGAAACTCAGACATTCTCAGATATTAATGGTGATGGTTATCCTGATATGGTTTATCCGGAATCTATTCAAATGACGAACTCTGTCGGAAGTTTAGAGGATATAAGCTTGGTTTCCTCGGGAGGATTCCCTACTGATTCTAATACTTATCAGAAGATGAATTCTCTGGGGTTCTCTTACAATCTTTTTTCGGCTAGTGGAAGAATCAGTGTAAATGGTCTTTTAGGAACTACTTCAAAAGGTGATTCTTCAATGCCTTGGTCAGGATCAGGATCTGTCAGTGCAGGAGTTACTAAGTATTTTAACTCGTTTGATTCAGGGAGAAATTTTTGGATGGATATTAATGGAGATGGGCTTCCTGACAGAGTGGTAGATGGAGGCGATCTGAATATGGGGGTAATGCTCAACCTAGGAAAAAAGCTGTTAACGCGGAAGCCTGTTGAAAATATGCTGACTTACCGATCTCATCCTATAGGAAGCACAAATGTTTCTATTGGCGGAGGTTTGGGATCTTCTGCTAATATGGGAGCATTAAGCAGTTTTGGCTTCGGTATCAGTGCCAGCCTGGGAGGTTCTGCTTCTAAAGGAACAGCTGATGTGGTGTATGAAGACATTAACGGAGATGGATTGATTGATATTTTAGAGGTAAAAAACTGTGATGGTTTAGCAGGATGTGTTAAGTCAACCAGTGTTCGTTATAATTTAGGACATAAATTTGATGCAGCAATTCCATTGCTTAAAACAGTAGGAAATGTGGATTTCACCGAAGAAAGTGGCTCTTATAATGGCTATTTCTCTTTTGGAGGGCACTTTATGGTGAATATAGGACCTATACCAATTATTCCTCCTGTTCCGATTCTGAATCTTTTCATAAAAGTAGGTGCAGGGGCCACTGCCAATCTGGGTATCAATGTTTCTGATACTCAAAAGGCTTTCAGAGATATGAACGGAGATGGATTTGTAGACCTTGTCGTAGATAAAAATAATGGATTTATAGTCAATTACTCTCTGATTGGGAAAACCAATAAGCTGAAATCCGTTACTCAAAACATAACCAAAGGGAAGTACATTATAGATTATCAGTTTACACAACCGAACTATGAGGATCCGCATGCAAAGCTAGTGGTTAAGGATGTTAAAATATTAAATCCGGATGTCTTTAGTACAGACTATACGCTTTCCAGTACAGAAAAAGATATTGTAACCCGATATAAATTTGAAAATTCCAGATATGACAGAAGAGAAAGAGATAATTTTGGTTTTGGAAAAGTAATACGTGAAGAAATAAATATCGATGGAAATCCTTATCGTAAAACAGAGGATACGTATTACAACACAAGTTATTTCTTAAATGGGTTAATTAAAGAAAGTAAAATCCTTTCGGGAAATGATGAGTTAATTTCCAAAGTGATCTATAATTACCGTTTATATAAATTTAAAGATAATACAACCAAAATAGACCCTAATTACTTAGCGGAAAGTTTTGATACCGGGGGAACAGAAGGTAGAAAAATGGCTGCCGTTTTGTTGAATACAAAGATCAATACGAGATTTGAAAATGGTGGACAAATAGAAACTACGGAAAAAATAGAGTATGATTATAATACCGGATTGGTTTCAAATTATACCTATACCAGCCCTACCAATTCGTATAAATCTGTGATCACTTATTGGACTGGTCTGAATAAAAATATGATCGCAGTACCAAAAGAGATCAATGTATATGACGGAACAGGTTCTACTCTGTTGAGAAAGAGAAAGACTCAGGATGTAAACGCTAATACAGGAGATATCGGAAAGTACATTGTATTTGATGGTTCTCAGGATATCATAACAGACTATACTTATGAACCTTCCGGTAATGTTAAAACTGTAACTTATCCGCCTGATGAATCACAGAACAGATATTCCATATCCTACGAATATGATGATGAAACTGGTAAGTATGTAATAAGGACGACTGATGCTTTTGGGTATATTTCTTTTGGACAATACAATCCTTATTTGGATGTTTTGACAAAAAGTACAGATATAACAGGAAATGTAATACAATATGGATATGATGACTATGGAAGACCTATATCCATCATTGAACCTTATAGTCCTGCAAGTGTTTCTACAATAATTCACTCTTATTATTATGATCATTATGGTATGCCGAGTTCGAATCAGAATATTAAAATATTCCGTGCAAGAACCTCACATTATGATGCAGACCATCCGAATAACCTTATCAATACGGATTCCTATTCAGACTTTATGGGTAGAGTAATACAGGTGAAGAAAGATATTGATATTAATGGGATAGAGCGCAGATCTGTTTCAGGAAGACCAATATTTGATGTATTCGGAAGACAGTTATATCAATATCAGCCTCAGGAAGGTGATCTTCAGGATAATAATCTGAACCTGAATCTCAGCCAGTTTATGTTGTCCAATACGTACGACCACTCTGATAGAATTACGAATGTTAAATATGAAGATAGTGTTGAAAAATCAATTCGTTATGAAATAGAAGGAAATCTGTTTAAAAGTATTGAAGAACTGGATCATACCAAAATAGAGACTTTCACCAATGCGGAGGGACAGATTGTTGAGAAAATAAATTATCTGGATAATGATCCTCTGTCTACAAAGTTTGAATATAGTAAGGTGGGTGAGCTTGTTAAAGTGATTGATCCACAAGGTATTAATACTACTTATAAATATAATCTTGCCGGAAGAAGAACGGAAATGTTACATCCTGATAAAGGACTTACCACCTATGCATATGATCCTGCAGGACATCTGACTTGGTTTGGAACTCCGAACCTTATGAATGATCCTTCTATACAGACGCATCAGATCCATTATAAATATGATAAGAACAGACTTACTGATATTGAACTTCCTAACCTTCCGAGTGGTTCAGTAAATCCTAATAATGTTCATTACGATTATATGCCTGCTAATTCAGGAAATAATTCCGGAAGAATCATCACGAAAACAGATGGTACAGGATATACTACTTATAACTATGGTAAATTAGGAGAGGTAATATCAGAAACCCGCAGAATATTCGGGTACAATATTCCAACCATGGAGTTCAAAACGGATTATGTCTATGACAGCTGGAATCGTCTTAAGAAGCTGACATATCCTGATGGAGAGCAGCTTACTTACAGCTATGATCTTGGTGGAAATTTGAAGAAAATAACCAATGGTAGTTATAATTATATTCAGAATATCAAATATGACTATTATGAACAGAGAACAAATGTAGATTATGGAAACGGAACTAACACCAACTTTTCATATATTGATACCAATAGAAGGTTAAGTCATTCCGGTCTATCAAATCCTACTGCTCAATTCTTATCCAACAGTTATGAGTATGATAAGAGAGGAAATATTATCCGTGTTGCCAATGATGTAGGAGCTACTCCGAATCAAATGGGAGGTACCTATGCTTTCAAATATGGATATGATACCTTAAATAGATTGATTGGTACAGAAAGTGATATGGGGCTTAATGATAAAGGAGGAACTCCTACAACACCCAATACTTCTCCATATGCGCAAAGTAACTCACATTTTGATCTTAAGAAGGTAATATATAACGAAAGTGGGGGGATTGTATTAAAGGAGCAGGCGCATCACATTGACCAGCAGCCACAACTATTGAATACTTATTCTAATAACTATAAGTATATTCCGGAAACTCATAAAGTAAAGACAATTATTGACGGTAATATCAGTGGTACGCAGCAACTTTTCGAATATGATGATAATGGGAATACCATTAAACATGTTGATGAATTTGGTGCCAAGCAGATGTTCTGGGATGAACAGGACCGTTTGAAAGCATTCTATAGTGACGACTCCGGAGTATACCAGTATTATGCATACGACGACAAAGGAGAAAGAACGATAAAATACAACCTTCATGGAAGTTCTCAGCTGTATCAGAACGGAGAATTAGTAGATCCGGGAAGCTTAAGTTTAACTGATTATACCTTGTATCCTAACCCATATGTAACGGTATCCTTAAACGGGCAGTATACCAAACATTATTTTGAAGGATCAACCCGTTTTGCAAGCAGGGTGATGGATGGAAGTAATATTTTTGTTCCACTAAACCTAAGAACATCGGATCAGGGAACAACAATGAGAGAACCTGACCCTTCTGTTGACTTCAAAACATACCTTGAAAAAGCAGGCGTAGGAGATATTTCCTCAGCAGAATTGAATGCTTTAAATGGGCCAACCAGCCAGTTAGGATTATATTATTTACATAATGATCACTTAGGAACAGCAACATTTGTTACCAATTCCAGTGCTCAGAGTACGCAGTTTTTCTTAAATTTACCATTCGGGGAAACAATGCTGGAGCAGCGAACAGGGGTATATGATAACCCATATAAGTTCAACGCAAAAGAATTGGATAGAGAAACAGGGCTTTATTATTATGGGGCAAGGTATTACAATCCTAGATTGAGTATCTGGTATGGGGTGGATCCATTGGCTGTGTATAATCCTACGATGGAAAATGAATTTTATGGTGATGGGCAACACAATGAAGGAGTATATTTTTGGGGAAACCTAAATCCATATATTTATACTTATCAGAATCCAATTAATTATATTGATCCTAATGGTAAGCAGGTGTACTTTATGACACCTGGTACTGTCAATAAAGAAGGTGCTAATTTATTAGTTGATTTTATTCCAGGAGTTGGTGATGCAAAGGGTATAGTAGAAGGCGTCGCAGGTAGAGATGCGCTAGGAAATAAAATTTCTTGGGGTAATAGAGTTCTTTCTATTGCATTTTTGTCGGAATTCCGTTCAGGAGGTAATTTTATTCAAACTGTTAATAATGCAGATAAGGCATTAAATGCAGCAAGAAAAATAACCAAACCATTATGGGGGGCTGGAGTCCGCTATGGTAATGAAGTTACTACAGCTATAAAACATATTGCAGATGGTCACTTTTTCAATTCTAGAGTAGGGAGAGCAACAAGTAGATTTTCTCAGAAATTTAGTAATATTGAAAGTGTTAAAAAGCTAGTTTCTGAAGCAGTTGCAAATGGTGAGCATATTACAACTAACAGAGGAGACTATACAGTTGTTCACAAATTTAGTGAAACTATTGGGAAATCTTCAGATGGAAAATCAACTAAGATTTTACAGGTATTTATGGATAGTAATGGAAATGTATTGAATGCCTACCCAATTTCTAAAAATCAATTAAGTAAGTATAAATAG	MKIRADQFPVTKKSFLLICFFACMFVCASFTKEDRQKVRKFKKDVMSKWTAEKVDLLDQSVKEDSSNLITSSEKSSTKTLLGEDSSVLVNIEKGTEDSSEFKNDVVNGISNFYPSKEKEGTIGAFTGQEEDVVSDNFFTVDIPTVEENTVAYLEYDLFGLASHESVSRSINHNIAIGGGIIVPSAKWSHQKEAINSGLIKTGSNLVLFTSPTAGVKYKVKNLRIVFDKEKRSENNLHLTSALSGDQLYVKGNTTSLSDLIVNNEVIAVKNGEFEKVIKISEENKAAGSFSVIAGGVANTYKIPVSAKAFKVVDHYYAKPKGVEISKDKEFSISYENMNVSIEKAASESAYIEILKLREKDIPAVSQGLKNVTLNNAAYRFSVVSGKLEKKAKITIPYDVKRLGLFSPKDIKIFHFDYTKKQWVADKSVVDEKNKTVMVEGDGNHDYINGIISAPESPQTTAFSPTSISGLKAADPMAGMQLMNAPTASQKGDASMNYPIKVPAGLGGLQPSLAIGYNSGAGNGWMGEGWDLQGLSAITVDTRWGTPMFGGEETELYTLDGEMLVYPGGYLPHRHNNVSETSTDITTARQPRNATGKKQFYLRKNHDFTLIEREGNSMGTYSWTVTSTNGTKSYYGGSDNSVIKNSEGQIIHWGLRMIEDSHGNKMLFTYQNNTVDFGTNSNITGGVYFHIQKITYGKNQDYSVNFIAETGISRKDININAKQGVKRVEPYLLRSIDIKHKTERIRTYGVEYEDGQFNKTRLKRLYSQVYNIKIVNPLPIIDDYSFEYYDQVENNQIFGPDTQVQVQNSENVYNGLIENILKPSKINGNISSENGLDFRPAAGLNFFYSSNDAYGHLMFGFPFGYSTAEAKNAQQLIDFNGDGIQDMIYRTSSELKFSQGKLDQYGNLSFLPAKPLLNYNNNFTYTETKTNNSGWDMGAVVYSKSQIRSTSRGTTSTYLIDANSDGLVDIVNNGQVWFNKYNKGLQQPEMTRYSEFTENMVVKDKPIVPPVLPPDDPIVTPDIPAVPITDVVKVWIASQDGYITIKDNILVPPYAGDPNDLPIKMYYSVEAPYMSSGASVNTRVYLTELNPGGLAKNISISKYDDYYTEMNTISPGYNTVSNQVGAVNSSNRIFVKSGEKVYIRLHKSQNKNLEVNSNPEVIYVDPSTGSPLSNKFIFQDQFKLNNGNYGSNFLTNNLLSSVYLDGTGTANITVESVNFTSSTDSFIFKVIAENATTGAATVLHSSEYIQSYGSFNTEAFTGNLNVNSSEPVYLKFIVESDSHTSFFNSNWKDKIKVNYNAVSNNNTSVNVELYPVAQYPSYAVTQLRGRIDIRNTQDNPNIVSGERAYGVQIDKGVTNFSTLSTGSFYYVIKTGSTVMGKRKVTVAANGASSVIKEEDMIGGFDVPGISAINFYKGDLAIPEFGQPHLVNIQVYCKTDGDYALFNKYSQYFQGKPFKIYGSGELITSVPPTSVNTAMYNPKTAVYNNWGQFLYNPGIIEGYTYGKPIEAETLTPGNVAQNTYPQCIQQPPLSAEELAKCIDNLPNENPNTGNNTLSQFVSPMKPHSSLMNTGGANYTVKTIWVGAGENQFASASSFKDDETVNYFNNPIPNTPSIAPTTLVTGALSLDTTMKAISRKQSSYTRNTTNTLSASSGSISGSAAESETIPWGKGSIETQTFSDINGDGYPDMVYPESIQMTNSVGSLEDISLVSSGGFPTDSNTYQKMNSLGFSYNLFSASGRISVNGLLGTTSKGDSSMPWSGSGSVSAGVTKYFNSFDSGRNFWMDINGDGLPDRVVDGGDLNMGVMLNLGKKLLTRKPVENMLTYRSHPIGSTNVSIGGGLGSSANMGALSSFGFGISASLGGSASKGTADVVYEDINGDGLIDILEVKNCDGLAGCVKSTSVRYNLGHKFDAAIPLLKTVGNVDFTEESGSYNGYFSFGGHFMVNIGPIPIIPPVPILNLFIKVGAGATANLGINVSDTQKAFRDMNGDGFVDLVVDKNNGFIVNYSLIGKTNKLKSVTQNITKGKYIIDYQFTQPNYEDPHAKLVVKDVKILNPDVFSTDYTLSSTEKDIVTRYKFENSRYDRRERDNFGFGKVIREEINIDGNPYRKTEDTYYNTSYFLNGLIKESKILSGNDELISKVIYNYRLYKFKDNTTKIDPNYLAESFDTGGTEGRKMAAVLLNTKINTRFENGGQIETTEKIEYDYNTGLVSNYTYTSPTNSYKSVITYWTGLNKNMIAVPKEINVYDGTGSTLLRKRKTQDVNANTGDIGKYIVFDGSQDIITDYTYEPSGNVKTVTYPPDESQNRYSISYEYDDETGKYVIRTTDAFGYISFGQYNPYLDVLTKSTDITGNVIQYGYDDYGRPISIIEPYSPASVSTIIHSYYYDHYGMPSSNQNIKIFRARTSHYDADHPNNLINTDSYSDFMGRVIQVKKDIDINGIERRSVSGRPIFDVFGRQLYQYQPQEGDLQDNNLNLNLSQFMLSNTYDHSDRITNVKYEDSVEKSIRYEIEGNLFKSIEELDHTKIETFTNAEGQIVEKINYLDNDPLSTKFEYSKVGELVKVIDPQGINTTYKYNLAGRRTEMLHPDKGLTTYAYDPAGHLTWFGTPNLMNDPSIQTHQIHYKYDKNRLTDIELPNLPSGSVNPNNVHYDYMPANSGNNSGRIITKTDGTGYTTYNYGKLGEVISETRRIFGYNIPTMEFKTDYVYDSWNRLKKLTYPDGEQLTYSYDLGGNLKKITNGSYNYIQNIKYDYYEQRTNVDYGNGTNTNFSYIDTNRRLSHSGLSNPTAQFLSNSYEYDKRGNIIRVANDVGATPNQMGGTYAFKYGYDTLNRLIGTESDMGLNDKGGTPTTPNTSPYAQSNSHFDLKKVIYNESGGIVLKEQAHHIDQQPQLLNTYSNNYKYIPETHKVKTIIDGNISGTQQLFEYDDNGNTIKHVDEFGAKQMFWDEQDRLKAFYSDDSGVYQYYAYDDKGERTIKYNLHGSSQLYQNGELVDPGSLSLTDYTLYPNPYVTVSLNGQYTKHYFEGSTRFASRVMDGSNIFVPLNLRTSDQGTTMREPDPSVDFKTYLEKAGVGDISSAELNALNGPTSQLGLYYLHNDHLGTATFVTNSSAQSTQFFLNLPFGETMLEQRTGVYDNPYKFNAKELDRETGLYYYGARYYNPRLSIWYGVDPLAVYNPTMENEFYGDGQHNEGVYFWGNLNPYIYTYQNPINYIDPNGKQVYFMTPGTVNKEGANLLVDFIPGVGDAKGIVEGVAGRDALGNKISWGNRVLSIAFLSEFRSGGNFIQTVNNADKALNAARKITKPLWGAGVRYGNEVTTAIKHIADGHFFNSRVGRATSRFSQKFSNIESVKKLVSEAVANGEHITTNRGDYTVVHKFSETIGKSSDGKSTKILQVFMDSNGNVLNAYPISKNQLSKYK				NA	NA	NA	NA	NA
BMS003_04057	465			hypothetical protein	ATGGAGAATATTTTTTTTGATTATAAAATAGATTTAGTAACAATCAAGGAAGAGAATAAAGTAGATTTTAAAGTTTTTGAAATTCATGATTTAAAGAGTTTTTTCAATGGAAAGATATATGTGTTTTTTCAATATAAAAGTAAAAGAAATTTTATAATACTTGAGACGGGTATTATAGATTATCTTTTGCAATTTGATGATTTGATTTTATCTATTGAAAAAGGAATTTATAAAACTTTTACCATTTCATGTGATTATTATAGTAATAATTTTATGTATGAATATTCAAATGTCAATAATAATTTGACTATATATGAAGGAAATGCTAATCTATATACAATATCTTGTGATTATGATGACTTTAAAAAAGCATATTTAAAGTTTAAGAAAAGGACATTACGGGAATTAAGCATTTTATATCCAGCATTAATTGATAATAAAGCCTTTAATGAATATTTTCTATAA	MENIFFDYKIDLVTIKEENKVDFKVFEIHDLKSFFNGKIYVFFQYKSKRNFIILETGIIDYLLQFDDLILSIEKGIYKTFTISCDYYSNNFMYEYSNVNNNLTIYEGNANLYTISCDYDDFKKAYLKFKKRTLRELSILYPALIDNKAFNEYFL	PGPT0008845_3386	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
BMS003_04058	507			hypothetical protein	ATGTACGTACTTTTCCCCATATTTCTATTCTCACAGACTACCGGAAAAGTGATCAAAATTTCAGACGGAGATACTATTACTTTACTGTTAAAAGGTAATCAACAAAAAAAGATCAGATTAGCCGAAGTTGATTGTCCGGAAAGTGGACAAGCGTTCGGTAAAAATGCAAAGCAGTTTACTTCTGCTCAGGTATTCGGGAAAACGGTAAGCTTTGTAGAAACCACTACAGACCGTTATGGAAGATCCATAGCAAAAGTATACTATGACGATGGAAAATATCTTTCCAGAGAACTTATCAAAGCTGGAATGGGATGGTGGTATTTTTCCTACTCAAAAGATGCTTCTCTGGGTAAACTTCAGGATACGGCACAGCAGAAGAAAATAGGGTTATGGAAAAATACCAATGCCATTTCTCCCTGGCAATACCGCAAAATGAAACAGGAACTTAGGAATAATAAGAAAATTGAAGCCACAAAAAGCGGGACAAAAGTAAAAGCCGAAGCGTAA	MYVLFPIFLFSQTTGKVIKISDGDTITLLLKGNQQKKIRLAEVDCPESGQAFGKNAKQFTSAQVFGKTVSFVETTTDRYGRSIAKVYYDDGKYLSRELIKAGMGWWYFSYSKDASLGKLQDTAQQKKIGLWKNTNAISPWQYRKMKQELRNNKKIEATKSGTKVKAEA				NA	NA	NA	NA	NA
BMS003_04059	750			hypothetical protein	ATGGGGCATTGGGAAATTTTTTTCTTTTTTTTAATCATCGCTTTCATTTATTCTTCTGTAGGATTTGGAGGAGGATCCAGCTATATTGCAGTACTGGCAATGTATAGCCTTCCTTATCAGGAAATACGTTTAACTGCACTCGTCTGCAATGTAATTGTGGTAATAGGAGGCGTTTTTATTTATATCAAAAATAAACAGATCGATTGGGCAAAAATACTCCCGAGCGCCGTTCTAAGTGTACCCATGGCATACCTGGGCGCTGTTTTAAAAATAAGCCGGGAAACATTTTTTCTGATTTTAGGAATTACTTTAATCATTGCTGGCCTGCTGCTATGGATAAAAACAGAAAACAAACATGACGGAGAAATTTCAGAGAATACAGGATATTCTTTGGTCAGAAACGGATTTTTGGGAGGAGGAATCGGCTTTCTGTCGGGGTTGGTAGGAATTGGCGGAGGAATTTTTCTTTCCCCACTGTTAAATCTTATGAAATGGGATACCCCACGAAGAATTGCAGCAACATCAAGTGTTTTTATCCTGGTTAATTCCATATCCGGAATCGTTGGCCAATTATCCGGACTGTCTGCAGATTTGGATTATTTCAGAATTCTGAGCTTATGTCTTGCTGTATTTATCGGAGGGCAGGTAGGTTCCAGAATGTCCCTGAAATGGAATCCTGTGATTATTAAAAGAATGACAGCCGTTCTGGTTTTGATGGCAGGAATTAATGTCTTAATAAAATATTGGTAA	MGHWEIFFFFLIIAFIYSSVGFGGGSSYIAVLAMYSLPYQEIRLTALVCNVIVVIGGVFIYIKNKQIDWAKILPSAVLSVPMAYLGAVLKISRETFFLILGITLIIAGLLLWIKTENKHDGEISENTGYSLVRNGFLGGGIGFLSGLVGIGGGIFLSPLLNLMKWDTPRRIAATSSVFILVNSISGIVGQLSGLSADLDYFRILSLCLAVFIGGQVGSRMSLKWNPVIIKRMTAVLVLMAGINVLIKYW				NA	NA	NA	NA	NA
BMS003_04060	243	moaD		Molybdopterin synthase sulfur carrier subunit	ATGAAGCTTAAAATACTGGCATTCGGAATAACGAAAGATATTTTCGGAACTTCAGAAAAAGAAATAGAAATAAATGAAGATGCTCATGTGAAAGCACTCAAAGAACTTCTGGAAAAAGACTTTCCCGAACTGAAAAGACTCAAATCTTACTTTATTGCCATTGATGACGAATATGCACATGATGATCAGATAATAACACCCTCTAACGAAATAGCAATAATCCCTCCGGTAAGCGGCGGATAA	MKLKILAFGITKDIFGTSEKEIEINEDAHVKALKELLEKDFPELKRLKSYFIAIDDEYAHDDQIITPSNEIAIIPPVSGG				NA	NA	NA	NA	NA
BMS003_04061	417	moaE1	COG0314	Molybdopterin synthase catalytic subunit 1	ATGATAGATATACAGATAACAGAAAAAACGCTGAATCTTACGGATTGTTTTACACTTGCATCCGATCCTGCATGCGGAGGAATGGCATCATTTGTAGGAACAGTACGCAACCATACCAAAGGGAAACCCGTCACCCGGTTGGAATATGAATGTTACGAGTCCATGGCTGTTAAAGAAATAAAGAAAATAGCAGATAAAGCCATTTCCTTATTTTCTGTAAAGAATATTGTTGTGCATCACCGCACGGGAACATTGTTTCCCGGTGATACCGCTGTGATAATCTTGGTGAGTGACGGGCATAGAAATACAGTCTTCGATGCTTGTAGCTATATGATTGAAAATATTAAAAAAACAGTTCCGATCTGGAAGAAAGAAATTTTTGAAGACGGAGAAGAGTGGGTTTCCGCACATCCTTAA	MIDIQITEKTLNLTDCFTLASDPACGGMASFVGTVRNHTKGKPVTRLEYECYESMAVKEIKKIADKAISLFSVKNIVVHHRTGTLFPGDTAVIILVSDGHRNTVFDACSYMIENIKKTVPIWKKEIFEDGEEWVSAHP	PGPT0008415_165	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS003_04062	873	fdhD	COG1526	Sulfur carrier protein FdhD	ATGAAAACAAATCTGCTGTCACATAAAGCTGTAAATCAGATAGAAATCATAAAGGTTAAGGAGAGCAGCAGTTTTCCTTTTACCGATGATATCTCTGTAGAAGAACCTTTGGAAATCAGGGTATCTTATCATGCAGGAGATCAAAAAGAGACCAAAAATATATCTGTAACAATGAGGACTCCCGGGAATGATGCAGAACTTGCAGCCGGATTTCTGTTTACAGAAGGAATAATTTCCGGTCAGCAGCAGATTAAGAATATTTATTTCCCTGAGGCCTGTGCAGGAAACAAAGAAAATATAATCATTGTTGAGTTTGAAGAAGGATTTACTCCTGAACTGATGAAGGCTGACAGAAACTTTTATACCACTTCCAGCTGTGGGGTCTGCGGAAAAGGTTCTATAGAATCCATAAGAACCGTAAGTACTTTTCATCATTATGCCAAAAAAAATATAACGGTTACTCTGGAAACACTGTACCGGTTATCCGAAAAACTGCAGTCTTTTCAGAGTAATTTCAGTGCTACAGGCGGAATACACGCTTCCGGTATATTTGATGCGGAGGGCAATTTACTTGCATTACGTGAAGATGTAGGAAGGCATAATGCCCTGGATAAACTCATAGGACATGCCTTGTCTGCAGACCTGCTTCCGCTCCATGATAAAATTTTGGTTTTAAGTGGAAGGGCGAGTTTTGAGCTCATCCAGAAAGCAGTAATGGCAGGGGTTTCCATTGTTGCAGCAATAGGAGCTCCATCCAGCCTGGCAGTAGATCTGGCAAAAGAATTTGATATCACTTTATTAGGCTTTCTACGGAATAACAGGTTTAATATATACCATTCCGGAAGCCACTTTAACATTGAAAATTTATTATGA	MKTNLLSHKAVNQIEIIKVKESSSFPFTDDISVEEPLEIRVSYHAGDQKETKNISVTMRTPGNDAELAAGFLFTEGIISGQQQIKNIYFPEACAGNKENIIIVEFEEGFTPELMKADRNFYTTSSCGVCGKGSIESIRTVSTFHHYAKKNITVTLETLYRLSEKLQSFQSNFSATGGIHASGIFDAEGNLLALREDVGRHNALDKLIGHALSADLLPLHDKILVLSGRASFELIQKAVMAGVSIVAAIGAPSSLAVDLAKEFDITLLGFLRNNRFNIYHSGSHFNIENLL				NA	NA	NA	NA	NA
BMS003_04063	351			hypothetical protein	ATGAAAATAAGAATTAAAGATAATGCAGTAAGATTTCGTCTTACCCAATCCGAAGTTACAAAACTAGGCGAGGACGGAACTATATCAAGCCTTACAGAATTTGTAAACCGTCCGTTTATTTATTCCATTGAAAAAACAAATGGTGAAGAACTTTCTGCAGAATTCATAGACAACAGAATTGTTCTGAAAATGCCAAAAGTAATGATATCGGAATGGATTTCCACAGACAGGGTAGGCTTTGAAGGACAAACTGAAAATATTAAGCTTCTGATAGAAAAAGATTTTGTATGCCTTGATAATACACAGGAAGACCAAAGTGACAACTACCCGAATCCCAACATGAAATGCTAA	MKIRIKDNAVRFRLTQSEVTKLGEDGTISSLTEFVNRPFIYSIEKTNGEELSAEFIDNRIVLKMPKVMISEWISTDRVGFEGQTENIKLLIEKDFVCLDNTQEDQSDNYPNPNMKC				NA	NA	NA	NA	NA
BMS003_04064	2397		COG0243	putative oxidoreductase	ATGGAAAAAAAGGATGCATTCAATAGAAAAGACGAAGACCATCAATTACCGTCGGCAGAACCTCCCTACAAACTGCTGGATCTTAAGCTGAAACCTCCCAAAGGCTGGGCAGCCGGAGTTCCTGCGGTAATACATTCACTGGATCAGCTGGTACTTAATGCATCAGTTCTTCGTGGTGGAAGAGCTCTTTTCAGCATGAATCAGTTTGACGGTTTCGATTGTCCCAGCTGTGCATGGCCAGATCCGGATGACGAACGTTCCAGATTGGGAGAATATTGTGAAAACGGTGCAAAAGCCCTGGCTGAAGAAGCAACTTCAAAAAAAATAGGAGCCGATTTTTTCAGAGAAAATTCAGTGTATGATTTGGCAAAAATGACAGATTTTGAAATCAGCCAGCTGGGAAGGATTGCAGAGCCCATGTACCTGCCAAAAGGAGGAACCCATTATCAGCCTGTAAGCTGGGATGAGGCATTTGCAAAAATTTCATCAAAATTAAACGCCCTGGACTCGCCGGATGAAGCCATATTTTATACATCAGGAAGAACAAGCAATGAAGCAACGTGGGTGTACCAGCTGTTCGCCCGTGAATTCGGGACCAATAATTTCCCGGATTGTTCGAATATGTGCCACGAAACTTCCGGATATGCTCTTTCCAGAAGCATCGGTATAGGGAAAGGCACGGTAAAACTGGAAGATTTTTATGATACGGATCTTATCATTATTATGGGGCAGAATCCGGGAACCAATTCGCCAAGAATGCTTTCTGCACTCACAAAAGGAAAGAAAAACGGTGCGAAAATTATGGCGATCAATCCGCTTCCTGAAGCAGGTCTAAAAGGGTTCAGAAACCCACAGGAAGTGCGTGCTTTGCTTAATAAACCCTTTGAACTGTCAGATTTATATCTTCCTGTTAAGATCAATGGAGATATGGCACTTTTAAAAGCCCTTCAGATTCTGGTACTGGAAGAAGAAGCCAAAAATCCCGGAAAAGTTCTTGATCAGGATTTTATAGCCAATAAAACGGCAGGATTTAATGAATTGGTTGAAGAATTAAAAAGATATGATCTTGATTTCTTATCCGAAGAATGCGGAATTCCTATTGAAAACCTAAGAGAAGCTGCCCAAATGATCGCTTCCGGAAAACGCATGATTGTATGTTGGGGAATGGGAATTACACAGCAGCATAACGGCGTGGAAATGATCTATAATATCGTGAACCTTTTATTAATGAAAGGAAGCATAGGAATCCGTGGAGGAGGAGCATGCCCTGTTCGTGGTCATAGTAATGTGCAGGGAAACAGGACGCTACTGATCAATCATCATCCTACAACTGAGCAATTAGATAAATTGCAGGAATATTATGGCTTTACAGTACCAAGAAAAGGAGGGTATGATGTAGTCAATGCGCTTAAGGCCATGCACGAAGGAAAAGTGAAATTTATGTTCTGTATGGGAGGAAATTTCCTTTCTGCAGCACCGGATACAACGTTTACAGCAGAAGCGATGCGTAATCTGGAAATGTCGGTAATTGTGTCTATAAAACTGAACCGGAATCATCTTATTCATGGCAAAGAAGCTCTTATCTTACCGGTAGTTTCCAGAAGCGAGAAAGATATTGTGAATGGAGAAATCCAGCATGTAAGCACAGAAAATTCAATGGGAGTAGTGGAAGCATCCAAAGGAGTTCTGGATCCTATTTCCAAACATCTGATCAACGAAATACATGTTGCCTGCAGAATGGCAAAAGCCGTTTTAGGAGAACGTTCTGTAGTGGATTGGGATAAGTTCATCAACAGCTATGATGCCATTCGCCATGATATAGAACAATGTATTCCCGGGTTTGAAGATTATAACAGAAGAGTAGTGCAGAAGGGAGGTTTCTACCTTCCGAACGGCCCGAGAGACGGGGTTTTCAATAGTGAGTTTCATCCTGGAAAAGCTGCTTTCAATATAACAGCCGTTCCGGATACCTCGCTTGCTGAGGACGAGTATCTGATGGGAACAACCAGAACCCATGATCAGTTCAATACCGTTGTATATGGGCTGAATGACCGTTATAGAGGTATTTTCAATGAAAGAAGGATTGTGATGATGAACGAAAAGGATATTGGGAAAGCGGGCCTTAAAGAAGGAGATCATGTAGACCTTTTCAATTATGATGATGGGATTGAAAGAATTGCCCCTCTTTTTATTGTTGTTAAATATCCTATTCCGCAGAAAAGTACAATGACCTATTTCCCGGAAACCAATGTTTTGGTATCCATCAATAATGTAGTGAATGGTGCTAATATGCCTGCCTCCAAATATGTACGTATCAAAATCCGTAAGCACAGTCCGGATATTTTTAAAAGAATTAATCATCACATCATGGCGGCTGCAGGTACTCATCTTAAATAG	MEKKDAFNRKDEDHQLPSAEPPYKLLDLKLKPPKGWAAGVPAVIHSLDQLVLNASVLRGGRALFSMNQFDGFDCPSCAWPDPDDERSRLGEYCENGAKALAEEATSKKIGADFFRENSVYDLAKMTDFEISQLGRIAEPMYLPKGGTHYQPVSWDEAFAKISSKLNALDSPDEAIFYTSGRTSNEATWVYQLFAREFGTNNFPDCSNMCHETSGYALSRSIGIGKGTVKLEDFYDTDLIIIMGQNPGTNSPRMLSALTKGKKNGAKIMAINPLPEAGLKGFRNPQEVRALLNKPFELSDLYLPVKINGDMALLKALQILVLEEEAKNPGKVLDQDFIANKTAGFNELVEELKRYDLDFLSEECGIPIENLREAAQMIASGKRMIVCWGMGITQQHNGVEMIYNIVNLLLMKGSIGIRGGGACPVRGHSNVQGNRTLLINHHPTTEQLDKLQEYYGFTVPRKGGYDVVNALKAMHEGKVKFMFCMGGNFLSAAPDTTFTAEAMRNLEMSVIVSIKLNRNHLIHGKEALILPVVSRSEKDIVNGEIQHVSTENSMGVVEASKGVLDPISKHLINEIHVACRMAKAVLGERSVVDWDKFINSYDAIRHDIEQCIPGFEDYNRRVVQKGGFYLPNGPRDGVFNSEFHPGKAAFNITAVPDTSLAEDEYLMGTTRTHDQFNTVVYGLNDRYRGIFNERRIVMMNEKDIGKAGLKEGDHVDLFNYDDGIERIAPLFIVVKYPIPQKSTMTYFPETNVLVSINNVVNGANMPASKYVRIKIRKHSPDIFKRINHHIMAAAGTHLK	PGPT0019635_3102	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
BMS003_04065	885			hypothetical protein	ATGCTTTTTGTATGGCATGGCTCTGTTTTACCTGCATTGCTTCCCCGTTTGGGATTGCTTTTGATAATGTCCCTATTGGTAACTTACTTTCATGGAACTATTTTATCATTTAAAGTTCCTTTAAATACTGCACCCCTTACATTATTTGGCTTTGTATTGGCACTGTTTCTGGGGTTCAGGAACAGTGCAAACTACGACCGTTTCTGGGAAGGACGCAAGCTTTGGGGTGCGTTGCTGAATACGGCACGCGCATTGACCCGCCAGGCAATGACTTTAAAAAATAAAGGAAATGATGAGGTTTCAGTGGACAGATTTGTTCAGCTTCTGGCTGCTTTTGTTTTTGCGTTGAAACATCAGTTAAGAGGAACGGACGCTTATGAAGATCTAAAGTCCAGGCTGGATGAAGATGAGCTGAAAACTGTTGTGGCTTCAAAATATAAACCGGCGGTTATCATGCGTCTTCTTGGAGAATGGGTACAGAAATTAAAAGATGGAGGCAGCATAGATTCCATCCGGCAGGCTCGTTTTGATGAAAACCTGGATAAGCTTTCTGATATTCTGGGAGGCTGTGAAAGAATAATCTCAACCCCGATTCCTTACAGCTATAGGGTTTTGCTGCATCGTACCGTATATATTTATTGTTTTCTGTTACCTTTTGGACTTGTGGACTCGCTTGAGTGGTTTACACCGCTTATTGTTGTATTTGTAGCCTATACATTCGTAGCTTTTGAGGCAATAGCAGATGAGATTGAAGAACCTTTCGGAACAGAAGCGAATGATCTTGCGCTGAACAGTATGTGTATCATGATTGACGAAACAATTCATGAAATAGCAGGAAAACAGATTGCTGCTACCCAAAAAGTAACCCAGAATATTATTGACTGA	MLFVWHGSVLPALLPRLGLLLIMSLLVTYFHGTILSFKVPLNTAPLTLFGFVLALFLGFRNSANYDRFWEGRKLWGALLNTARALTRQAMTLKNKGNDEVSVDRFVQLLAAFVFALKHQLRGTDAYEDLKSRLDEDELKTVVASKYKPAVIMRLLGEWVQKLKDGGSIDSIRQARFDENLDKLSDILGGCERIISTPIPYSYRVLLHRTVYIYCFLLPFGLVDSLEWFTPLIVVFVAYTFVAFEAIADEIEEPFGTEANDLALNSMCIMIDETIHEIAGKQIAATQKVTQNIID				NA	NA	NA	NA	NA
BMS003_04066	1041	moeZ_2	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGAAAGATTCTTTTGAACGCTATCATTGTCAGATTGCACTACCCGAATTTGGAGTTTTTTCTCAGGAATTGCTTAAAAATGCCAGAGTACTGATTGTTGGTATGGGTGGTCTGGGCTGCCCTTCGGCTCAATATCTGGCTTCGTCAGGTATAGGAACCATTGGTATTGCAGATGATGATATTGTTTCGGAAAGCAATCTTCACCGCCAGATTTTATATACATCCAATGACGTTGGAATGTATAAAGTAGATGTCGCAGCAAAAAGGCTTCTACAGCAAAACCCTTCTGTTTCCATCACTCCTTATCGTCTGAAAGTTACTTCCTCCAATGTGATGGATTTAATTTCAGAATTTGATCTGATTATTGAAGGAACAGATAATTTTGAGACTAAATGTTTGTTGAATGATGCCTGTGTATTGGCTGGAAAACCTTTGGTTTATGGTGCAATTTACCAGTATGAAGGGCAGGTAAGCATCTGGAATGTTTTACAGAAGGACGGCTCCTATTCTCCCAATTACCGCGATGTTTTTCCTGATGCAGAAAATTCACAGGTTCCCAATTGCAGAGAAGGCGGCGTAATTCCTACACTGGCTGGGGTGGTAGGCTGTATGCAGGCGAATGAAGCTATAAAATACTTCACCAAGTCCAATGATCTTTTAGCCGGAAAACTTTGGATCATCAATGTGATGAGTGGCAGAACCCAAATTATTAAGCTAAAAAATACTCCATTTCAGATTACAGGCTTACCTCAGACCGTTGAGCTTATTACCTTTGAAGAACTGAACCAATCGAAGGAAAATTTTGAGATCATTGATGTACGTAATCCGGAAGAGTATCACCAATTCAATATTGGAGGAAGCAACATTCCTGTGGAAGGATTAGAGCAGCATCTTGATCATATTTATAGCTGCTCAAAACCTGTTTTAGTGTATTGCCAGTCCGGAAAACGCAGTGCAGAAGCAGCACGAAAAATAAAAAAAGTGTTCCCCAAAAAAGAAGTATTTTCTTTAAAAGGCGGAATTCAGAATATCAGTCAATAA	MKDSFERYHCQIALPEFGVFSQELLKNARVLIVGMGGLGCPSAQYLASSGIGTIGIADDDIVSESNLHRQILYTSNDVGMYKVDVAAKRLLQQNPSVSITPYRLKVTSSNVMDLISEFDLIIEGTDNFETKCLLNDACVLAGKPLVYGAIYQYEGQVSIWNVLQKDGSYSPNYRDVFPDAENSQVPNCREGGVIPTLAGVVGCMQANEAIKYFTKSNDLLAGKLWIINVMSGRTQIIKLKNTPFQITGLPQTVELITFEELNQSKENFEIIDVRNPEEYHQFNIGGSNIPVEGLEQHLDHIYSCSKPVLVYCQSGKRSAEAARKIKKVFPKKEVFSLKGGIQNISQ				NA	NA	NA	NA	NA
BMS003_04067	603	mobA	COG0746	Molybdenum cofactor guanylyltransferase	ATGATTTCAAAAGAGACTGATTTCCCCAAACTGAACGGGCTGGTACTGGCAGGCGGAAAAAGCGTACGAATGGGAAACCCTAAAGATAAAATCAACTGGCACGGAAAAGAACAGAGATACTTCGTGGCGGATCTTCTGGCTCCTTTTTGTGATGAAGTTTATATTTCCTGCAGACAGGATCAGCTGGAAAACTTCAACCCGCAATACAATGCCCTTACCGATACTTTTTTAAACATGGGACCGTTTGGCGGAATACTTTCCGCATTGCGTTCTCAGAGAGATAAAGCATGGCTGGTAGTAGCTTGTGATCTTCCTCTGCTGGATAAAAATTCATTAGACTTTCTGATACAATCCAGAGACCCGGAAAAAGTGGCAACTACCTATAAAAGTCCTTTTGATGGTTTGCCAGAACCTCTAATCACGATTTGGGAACCTAAAAGCTATCCTTTACTCCTCAATTTTTTAGGAACAGGAAATACATGCCCAAGAAAAGTCCTGATCAATAGTGACACTTTGATTCTAAAGCCCGCTAATCCAGATTCTTTAATGAATGTAAATACTCCTGAAGACATGGCAAAAGCTCAGGAAATTCTAAGAAAATAA	MISKETDFPKLNGLVLAGGKSVRMGNPKDKINWHGKEQRYFVADLLAPFCDEVYISCRQDQLENFNPQYNALTDTFLNMGPFGGILSALRSQRDKAWLVVACDLPLLDKNSLDFLIQSRDPEKVATTYKSPFDGLPEPLITIWEPKSYPLLLNFLGTGNTCPRKVLINSDTLILKPANPDSLMNVNTPEDMAKAQEILRK				NA	NA	NA	NA	NA
BMS003_04068	477	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	ATGACAGACTTTTCACATCTCAATAAAAAAGAACAGCCGGGTATGGTAAATATAGGCAGCAAAAAAATTACGCATCGTAGAGCTGTTGCCAAAGCGATAGTTTCACTACCGGAAAATATTCTTGCCGTACTTCAGAAAGATGATTTTAAAACGAAAAAAGGATCTGTATTTCAGACAGCAATCATCGCCGGAATAATGGCAGCAAAAAAGACAGGAGATCTTATCCCGCTCTGCCACCCGATTGGTATGGATAACTGCGAAATAGACATTGATGTCAATGCTCAAAACGAAGTTGAGATCTATTGTACTGCTGAAATAGAAGCCAAGACTGGGATTGAAATGGAAGCGCTTACAGGAGCCTCTGTTGCAGCCCTTACCATTTATGATATGTGCAAGACCATGAGCCACGACATTGTAGTGAAAGAAATAAAGCTAATTGAAAAAACAGGAGGAAAAAATGATTTCAAAAGAGACTGA	MTDFSHLNKKEQPGMVNIGSKKITHRRAVAKAIVSLPENILAVLQKDDFKTKKGSVFQTAIIAGIMAAKKTGDLIPLCHPIGMDNCEIDIDVNAQNEVEIYCTAEIEAKTGIEMEALTGASVAALTIYDMCKTMSHDIVVKEIKLIEKTGGKNDFKRD	PGPT0008405_3133	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS003_04069	1200	moeA		Molybdopterin molybdenumtransferase	ATGGAAATGATCAGCGTACAACAGGCAGAGGAAATTATATTTTCTCAGATAAAAAACTTCGGAACGGAAGAAATATCCTATGAAAATGCATTGGGAAGAGTTTTAGCGGAAAATATTATTGCAGACCGCGACTTACCTCCTTTTGACAGGCCGACAGTAGATGGAATTGCCATCAGTTTTAAAGCATACGAAAAAGGAATCAGAGCTTTTACCATCAAAGCTGTACAGGCTGCCGGAGAAACTCCCGTTCCTGTAGACAATGAAAACGAATGTGTTGAAATCATGACGGGTGCAGCCCTTCATTCTTCAATGGACACCGTTATCCGTTATGAAGATATTTCAATGGACCATACAATCGCACAGATTAATATTGACATCAAAAAAGGACAGAATATCCATGTAAAAGGAAGAGATAAAAAAGCCAATGAAATACTGGTAAAAGCAGGGGAAACTATTACGCCTGCCATTCTTGGAATTGTCGCATCCGTTGGAAAAACAATTGTATCCGTGAAAAAACTTCCCAAAGTGGTTATTATTTCCACCGGAGACGAAATGGTTGCTCCTGAAACAACTCCTACACTGTTCCAGCTCAGACGTTCCAACGGAATTACCATACAATCTGTTTTGGAAAAATATAAAATCAAAGCAGATGTACTGCATTGGAATGACGATTTTGAATTCATCAAAAAAGAACTTTCCCAATGCATTGAAAAATATGATATCCTGTTGATGAGCGGCGGAGTTTCTATGGGAAAATTTGACTTTCTTCCGAAAGCCTGTGAAGAACTTGGCGTAGAAAAACTCTTTCACAAAATAAAACAAAGACCCGGAAAACCCTTCTGGTTCGGAAAAAGCCAAAATGAAAAATTAATTTTCGCCTTTCCCGGAAATCCTGTTTCGGTATTCATGTGTCTGCACCGGTATTTTATTCCGTGGCTGGAAAAATCTTTGGAAATTTCTACTACAAATCAATATGCTGTTTTGCAGAATGATATAAAGGTTCCTTTTCCACTACAATATTTTGCGCAGGTAAAACTCAGCATCAATCAATTGGGGCAGTTAATAGCAGAGTCAATAAACACCAACGGTTCCGGAGATTTTTCTCATCTTGCAGAAACCCATGCTTTCATGGAACTTCCCCTGGAAAAAACCGAATTTAAAAAAGGCGAAGTCTATAAAATATGGAAATATAATTTTTAA	MEMISVQQAEEIIFSQIKNFGTEEISYENALGRVLAENIIADRDLPPFDRPTVDGIAISFKAYEKGIRAFTIKAVQAAGETPVPVDNENECVEIMTGAALHSSMDTVIRYEDISMDHTIAQINIDIKKGQNIHVKGRDKKANEILVKAGETITPAILGIVASVGKTIVSVKKLPKVVIISTGDEMVAPETTPTLFQLRRSNGITIQSVLEKYKIKADVLHWNDDFEFIKKELSQCIEKYDILLMSGGVSMGKFDFLPKACEELGVEKLFHKIKQRPGKPFWFGKSQNEKLIFAFPGNPVSVFMCLHRYFIPWLEKSLEISTTNQYAVLQNDIKVPFPLQYFAQVKLSINQLGQLIAESINTNGSGDFSHLAETHAFMELPLEKTEFKKGEVYKIWKYNF	PGPT0008430_5515	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS003_04070	1080	moaA1	COG2896	GTP 3',8-cyclase 1	ATGTCAATTAAATTACCCATTATTGACATTAGGAGAACCGTTTTTTTGAAGGGAAACATTCAGTATATTTGTATAAGACTCATTGTATTTAAAATGTTGACAGATCAATTTGGAAGGCGCATCAGTTATCTCAGGCTTGCTATTGTAGACCGGTGTAATCTCCGCTGTACCTATTGCATGCCGGAAAAAGGTCTTAGCTGGATCAGGCAGGATGAATTAATGACCGATGAAGAAATGCTCAGAATCTGTTCCGTATTTACAGATATGGGAGTGGATAAAATCAGGATTACAGGAGGCGAGCCCTTTGTGAGAAAAAACAGCATTGAGCTTATTCAGAAAATATCGCAATTGAATGGTTTGAGTGATCTCAGTATAACCACCAACGGCCTTCTCACTGATCAATATATTCCACAATTAAAAAAATATGGAATACGATCTGTCAATCTAAGTCTGGATACGCTTGACAAAGACCGTTTTTTCAAAATTACACGAAGAAATAGTTTTGATAAAGTGATGAAGACATTTGATCGCTTATTGCAGCACGATATCAAAGTAAAAATCAATACCGTGGTGATGGAAGGACAAAATATTGAGGATATTATTCCACTGGTAACACTTACAAAAGATCTGCCTGTAGATGTCCGGTTTATTGAAGAAATGCCTTTTAATGGCAGCGATACAAATGTTTCTCTGAAATGGAATTTCACCCGGATTTATCATCACATCAAAGAGCACTTCCCCGAAATTCAAAAGACAGAAGATCCTAAAGGTTCAACTTCATACAATTATAAGATTCCAGGTTTTATGGGAGGTATCGGAATCATTGCAGCGTATACACGTTCATTTTGCGGAGACTGCAACAGAATAAGAATTACACCATCCGGAATCCTCAGAACCTGCTTATACGAAGGCGACGGAATCAATCTGAAAGATGAAATACGGGCCGGAAAAACAGATAAAGAACTGAAGAACATCATTATCAGTGCTATACACAAAAAGCCAAAAGACGGATGGGAAGCTGAAAAATTGAGTTTAAACTCTTCGCAGATACATCAGTCAATGGCAACAATAGGAGGTTAA	MSIKLPIIDIRRTVFLKGNIQYICIRLIVFKMLTDQFGRRISYLRLAIVDRCNLRCTYCMPEKGLSWIRQDELMTDEEMLRICSVFTDMGVDKIRITGGEPFVRKNSIELIQKISQLNGLSDLSITTNGLLTDQYIPQLKKYGIRSVNLSLDTLDKDRFFKITRRNSFDKVMKTFDRLLQHDIKVKINTVVMEGQNIEDIIPLVTLTKDLPVDVRFIEEMPFNGSDTNVSLKWNFTRIYHHIKEHFPEIQKTEDPKGSTSYNYKIPGFMGGIGIIAAYTRSFCGDCNRIRITPSGILRTCLYEGDGINLKDEIRAGKTDKELKNIIISAIHKKPKDGWEAEKLSLNSSQIHQSMATIGG	PGPT0008410_1262	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS003_04071	825	hel	COG2503	Lipoprotein E	ATGAAAAATTTTAATCTCATTATCGCAAGCTACTTCCTTGTTTCGGTTATATCGTGTACAACGGCAGCTCCGGTTGCAAAGACTTCCACTGAGGAGACTCCTTATCAAAACCTTGGACATGACGGAAAAATATATGCTGCTTTCTATCAGCAAAGAGCAGCAGAATATGAAGCATTGTGTCTTCAGGCTTACAATATTGCCACACTCCGTCTGGATCAGGCTTTGGCACAGAAATCTGACAAACCTTTAGCCATCGTTTCTGATATTGACGAGACCTTTTTAGACAATTCTTATTACGCTGTGGAGCGCTCAAAGATGGGAAAAAATTACGATCAGAAAACATGGGAAGAATGGACGGCGAAAGGAATCGCTACTCCACTTACGGGTTCTCAGAAATTCTATCAGTATGCAGCCAGCAAAGGAATCCAGGTTTTCTATGTGACCAACCGTGTTGAGCAGGAACGTGAAGGAACTATGAAGAATTTAAAGAAATACAATTTCCCTGTTCAAAGTGATGCCAACCTTATTTTAAGATCAAAAGAAAGCAGTAAAGAAACCCGCAGAAAAGATATTGCTAAAAATTATAATATCGTTTTACTTTTGGGTGATAATCTTGCCGATTTCTCAGATCTGTTTGATAAGAAATCTGAAACAGAACGTTCTTCAGCAGTGAAAAGTTCCGCAGATGACTTTGGAAAGAAATTTATTATCATTCCGAATGTGGGTTACGGAGACTGGGAATCTTCATTCTATCACTACAAATATGATTACACCGATCAGCAGAAAAACTCAATGATGTATGATGCTGTAAAGTCTAATCCTTAA	MKNFNLIIASYFLVSVISCTTAAPVAKTSTEETPYQNLGHDGKIYAAFYQQRAAEYEALCLQAYNIATLRLDQALAQKSDKPLAIVSDIDETFLDNSYYAVERSKMGKNYDQKTWEEWTAKGIATPLTGSQKFYQYAASKGIQVFYVTNRVEQEREGTMKNLKKYNFPVQSDANLILRSKESSKETRRKDIAKNYNIVLLLGDNLADFSDLFDKKSETERSSAVKSSADDFGKKFIIIPNVGYGDWESSFYHYKYDYTDQQKNSMMYDAVKSNP				NA	NA	NA	NA	NA
BMS003_04072	783	crt	COG1024	Short-chain-enoyl-CoA hydratase	ATGAATTTTGAAACATTACTATATCATCAGGAAGGATATATCGGAACCTTAACCATTAACCGCCCAGAGGCTTTGAATGCTTTGAATGAAACAGTTTTAAAAGAACTGAAATCATTTGCAGATCAAATCAAATCCAACAAAAATATTCGTGTTTTAATCATTACCGGAGCTGGGGAAAAATCTTTTGTTGCAGGTGCAGATATCAAAGCAATGCAGGGGATGACACCACAGGAAGCAACAGATTTTTCTATTATGGCTCAGACGGCTTTCAACTCTATTGAAGCATTACCATTTGCCGTGATAGCAGCAGTAAATGGTTTCGCATTAGGTGGAGGGTGCGAACTGGCTTTGGCCTGTGATATTATTCTGGCCAGTGAAAAAGCGAAATTCGGATTACCGGAAGTAACCCTTGGATTATTGCCTTGTTTTGGAGGAACACAGCGTTTACCGAGAGCTATCGGATTGTACAAAGCAAGAGAAATGGTATTCTCCGGTGAATTTTACTCAGTAGAGGCCTGTAAAGAATTAGGGTTTGTAAATCGTGTGATTGCTCCCGAAGAATTATTGAATGAAGCTCACAAATTAGCTTCAACAATAGCCTCAAGAGGTCCTGTAGCCGTAGCAAAAGCAAAACAGTCACTGAACACAGGTGTTGAATTACATATTTTCGATGGCTTACAACAGGAAGCTGTTCTATTCGGGGAATTATTTGATACGAAAGATCATAATGAAGGCATCGGCGCCTTTATAGAAAAAAGAAATCCTGATTTTAAAGGAGAATAA	MNFETLLYHQEGYIGTLTINRPEALNALNETVLKELKSFADQIKSNKNIRVLIITGAGEKSFVAGADIKAMQGMTPQEATDFSIMAQTAFNSIEALPFAVIAAVNGFALGGGCELALACDIILASEKAKFGLPEVTLGLLPCFGGTQRLPRAIGLYKAREMVFSGEFYSVEACKELGFVNRVIAPEELLNEAHKLASTIASRGPVAVAKAKQSLNTGVELHIFDGLQQEAVLFGELFDTKDHNEGIGAFIEKRNPDFKGE	PGPT0001860_5682	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
BMS003_04073	885	mmsB	COG2084	3-hydroxyisobutyrate dehydrogenase	ATGTCAAATATAGCATTTATAGGATTAGGAAATATGGGTGGTCCAATGGCCATCAACCTTGTAAACAAAGGTCATCACGTTACCGGATTTGATCTTTCCAAGTCAGCTTTAGAAGCACTGGTTTCTGCAGGTGGACGAATCTCGGATTCAGCACTGGCAGCAGCTAAAGACGCAGATGTCATTATTTCTATGCTTCCGTCTGGAAAACATGTTGCAGAACTCTATTCTGAAGAATTCATCAGCCAGCTGAAACCTGATACATTAATTATTGACAGCAGTACCATTGATGCAGTAACCGCCCGTTCTGTTGCTGAGCTAGCTGCTTCAAAGGGCTGTAAAATGATCGATGCGCCCGTTTCCGGCGGTACTGCAGGAGCACAGGCAGGAACATTAACCTTTATTGTGGGCGGTAAAACCAAAGACTATGAAAAGGCAAGACCTATATTAAAATGTATGGGACAGAATATCTTCCATGCCGGAGATTCCGGGGCGGGACAGGTAGCAAAAATCTGTAATAATATGCTTTTAGCCATACATATGATTGGAACATCAGAAGCCATCAATTTAGGAGTACGCCACGGATTAGAACCTAAAATATTAAGTGAAATCATGCAGAAAAGTTCCGGCAGAAACTGGTCACTGGAAGTTTACAATCCGTATCCCGGAGTAATGGAAAATGCGCCCTCATCAAGGGAATATTCAGGAGGATTTGCGGTTGATCTTATGACAAAAGATTTGGGATTGGCAGCGGAAGCCGGACTGGAAACCAGAACCTCTACTCCACTGGGAAATGCAGCTTTAAACCTTTACAGAATCTGGAGTGAAGCAGGAAATGGCACGAGCGATTTTTCAAGCATTATTCAATTCTTAAACAAACATCAGTAA	MSNIAFIGLGNMGGPMAINLVNKGHHVTGFDLSKSALEALVSAGGRISDSALAAAKDADVIISMLPSGKHVAELYSEEFISQLKPDTLIIDSSTIDAVTARSVAELAASKGCKMIDAPVSGGTAGAQAGTLTFIVGGKTKDYEKARPILKCMGQNIFHAGDSGAGQVAKICNNMLLAIHMIGTSEAINLGVRHGLEPKILSEIMQKSSGRNWSLEVYNPYPGVMENAPSSREYSGGFAVDLMTKDLGLAAEAGLETRTSTPLGNAALNLYRIWSEAGNGTSDFSSIIQFLNKHQ				NA	NA	NA	NA	NA
BMS003_04074	1110	fadJ		Fatty acid oxidation complex subunit alpha	ATGAGTTTAGTACTAACAGAAATAAAAAATAAAGTCGGGATCATCACCCTCAATTCCGAAAAGACACTCAATTCGCTTTCATTAGAAATGATTGAAGAACTGAAAACTGTTTTGGAAGACTGGAAAACATCCGATGAAGTAGCCTGCCTTTTTATTCAGGGAGCAGGTGAAAAAGCCCTCTGTGCAGGAGGAGATGTAAGAAAACTTCACGACGCTATTATTGAGCAGCAAAACATTGATGGAACAAAAGTACCCCAGCCGTGTTTCGATTTCTTTTTAAAGGAATACCAGGTAGATTACGCTATTCACACCTATCCGAAACCTATTATTGTCTGGGGACATGGAATTGTGATGGGTGGCGGAATAGGAATTATGGTTGGAGCATCCCACCGTATTGTTACAGAAAGAAGTAAGCTGGCAATGCCTGAAATTACCATCGGTTTATATCCGGATGTTGGCGGAACATGGTTTTTAAATAAAATGCCCTCCGCTTATGGGATTTATCTAGGACTAACAGGCGCAAGATTAGACGGAGCCGATTGCAAATTCTTAGGATTGGCAGATTATTACATTTCTTCAAATTCAAAAGAAATATTATTAAATGCTCTTAGCCAGGCTCAATGGAATGGAAATAACCATCAAACCGTTTCCGCAATTCTGGAAAATATCTCCAAAGAAACCGATATTCCCGAGTCACAGGCGCAAAACCATCATTCATTCATCAAAAATTTTGAAGGAATAGATTCTTTAGAACAGTTTAAAGAAATTTTACTGCAATATCCTGATAAAGATGAATGGATTAATACAGGAATCAAAAGCTTTGAAGCAGGCTCACCAAGCTCAGCACACATCATCTTCAGACAATTGAAAGAAGGTGAAAACTTAAGCATGGAAGAAGTCTTTCAATCCGAATTAAACTTATCCTGCCAATGCTGCATTCATCCAGATTTTGCAGAAGGTGTAAGGGCTTTACTGGTAGATAAAGACCAGTCTCCAAAATGGCAGTCTGCAACATTAGATGATATAACCAAAGAATGGATAGACAGCTATTTTACTCCACTTTGGCCTCATGAAGAACATCCATTAAAAAACTTAGGAAAAAAAGATTAA	MSLVLTEIKNKVGIITLNSEKTLNSLSLEMIEELKTVLEDWKTSDEVACLFIQGAGEKALCAGGDVRKLHDAIIEQQNIDGTKVPQPCFDFFLKEYQVDYAIHTYPKPIIVWGHGIVMGGGIGIMVGASHRIVTERSKLAMPEITIGLYPDVGGTWFLNKMPSAYGIYLGLTGARLDGADCKFLGLADYYISSNSKEILLNALSQAQWNGNNHQTVSAILENISKETDIPESQAQNHHSFIKNFEGIDSLEQFKEILLQYPDKDEWINTGIKSFEAGSPSSAHIIFRQLKEGENLSMEEVFQSELNLSCQCCIHPDFAEGVRALLVDKDQSPKWQSATLDDITKEWIDSYFTPLWPHEEHPLKNLGKKD				NA	NA	NA	NA	NA
BMS003_04075	1161	acdA_3	COG1960	Acyl-CoA dehydrogenase	ATGGAATTCAACCTCAATCAAGATCAATTGGCGTTTCAGGATGCCGCAAGAAGATTTGCCGATAAAGAACTGGCACCTTATGCTTCGGAATGGGATGCTCAGAAGATATTTCCGAGAGAAGCTATCGCTAAAGCCGGAGAACTGGGGTTTTGTGGTGTTTATACCAGCGAAGATGCCGGAGGTCTGGGATTATCGCGATTAGATGCCACCATTATATTTGAAGAACTTGCTGCAGCCTGCCCTTCCACTACCGCCTACATTACCATACACAATATGGTTTCATGGATGATTGATGAATTTGGAAATGAAGAGATCAGAAAACAATTATGTCCGGATTTATCATCAGGAGTATTATTAGGATCCTATTGTCTTACTGAGCCGGGCTCCGGTTCAGATGCGGCAGCTTTAAAAACAACGGCAGTAAAAAAAGACAACAAATTCATCATTAACGGGACAAAAGCATTCATCTCCGGAGCAGGTGAAAGTGATATACTCATTGTAATGGCTCGTACAGGAGATTCTGGTCCAAAAGGAATCAGTGCTTTTGTGGTTCCGGCTAATTCTAAAGGAATCAGTTTTGGAGAAAAAGAAAAAAAATTAGGTTGGAATACCCAGCCGACACGCTTTGTTTTCTTTGATCATGTAGAAGTAGATGAAAAATACCTCTTAGGTGAATTGGGACAGGGCTTTAAAATAGCATTAAAAGGCTTGGATGGTGGCCGCATCAATATCGGAACATGTTCTGTAGGAGCGGCTCAGGGAGCTATTAACCAAGCCAGAAAATATATGCATGAAAGACTTCAGTTCGGGAAATCACTGGCACAGTTTCAATCTTTGCAGTTTAAAATCGCTGATATGGCAACAGAACTGGTGGCAGCCCGTCAGATGGTTCATTTAGCTGCTTTCAAATTAGATTCTAAAGACACAAATGCTACTACTTACTGCGCAATGGCGAAACGCCTTGCAACCGATATGTGCTTTAACATCTGTAACGAAGCATTACAAATACTGGGCGGATATGGATGTACACAGGATTTCCCTGTGGAACGCCTTATGCGGGATGCCAGAGTACATCAAGTGGTAGAAGGCACCAATGAAATTATGAAACTGGTGATTTCAAGAAAGATTTTAGAAGAAGGAGCCATGATACAAATCCGTTAA	MEFNLNQDQLAFQDAARRFADKELAPYASEWDAQKIFPREAIAKAGELGFCGVYTSEDAGGLGLSRLDATIIFEELAAACPSTTAYITIHNMVSWMIDEFGNEEIRKQLCPDLSSGVLLGSYCLTEPGSGSDAAALKTTAVKKDNKFIINGTKAFISGAGESDILIVMARTGDSGPKGISAFVVPANSKGISFGEKEKKLGWNTQPTRFVFFDHVEVDEKYLLGELGQGFKIALKGLDGGRINIGTCSVGAAQGAINQARKYMHERLQFGKSLAQFQSLQFKIADMATELVAARQMVHLAAFKLDSKDTNATTYCAMAKRLATDMCFNICNEALQILGGYGCTQDFPVERLMRDARVHQVVEGTNEIMKLVISRKILEEGAMIQIR	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
BMS003_04076	1497	mmsA	COG1012	Methylmalonate-semialdehyde dehydrogenase [acylating]	ATGTCACAAAAAGTAAAAATATTAATCAACGGAAATTTTATAGAAAGTAAAACTACAGAGCATCTTCCCGTAGAAAATCCTGCTACTCAGGAAATTCTTGCAGAAGTTCCTTTAACCGAACTGTCTGAAATAGATCAGGCCATAGAAGCTGCTAAAGAAGCCTTCAAAATCTGGAAAGAAGTAGCTACTCCGGAAAGAGCCAGATTTTTTCTAAAATACCAGCAGCTTTTAAAAGAAAATCAAAAAGAAATTGCCGAAATCCTTTCCAAAGAAAACGGAAAAACATTTCCTGATGCCATGGGAGATGTATGGCGCGGAATTGAAGTCGTAGAACATGCCTGCAACATTCCGACACTCATGATGGGAGAAACGGTAGAAAATGTGGCAAGAGGCGTAGATACTTACAGCTATATTCAACCTCTTGGAGTCTGTGCAGGAATTACTCCTTTCAATTTTCCCGCAATGATTCCTCTATGGATGTTCCCAATGGCGATTGCCTGCGGAAATACCTTTATTTTAAAACCATCCGAACAAACCCCTATGACTTCTATGAAAATGGCTGAGCTATTTTTAGAAGCAGGTTTTCCTAAAGGAGTTCTGAATATTGTTCACGGATCCAAAGACCAGGTCAATCACATGCTGAATCATCCGGAAATAAAAGCCATTTCATTTGTAGGTTCAGTTCCCGTTGCGGAACATGTCTACCGCACCGGAACCGATAATCTGAAAAGAGTTCAGGCTTTTGGAGGAGCAAAAAATCACATGGTAGTCATGCCGGATGCCAATAAAGAACAGGTCATCAATAATCTTGTAGGAGCTTCCTGCGGAGCGGCCGGACAGCGTTGTATGGCCATCAGTGTAGCTGTTTTGGTGGGTGAAGCTCAAAATTGGGTGGATGATATCAAAAAAGCTTTAAGTACCATTAAGCCTGGAGTTTGGTCTGATGAATCTGCAGCCTTTGGTCCTCTCATCAACAGACAATCAAAAGACAAGGTTGTAAGATTGATTAAAAGTGCTTATGACCAGGGAGCTGAAGTACTACTGGATGGCAGCAACTGTAAAGTAGAGGGCTATGAAAACGGACACTTTGTAGGTGCCACCTTATTTAATAACGTATCTACGGATATGGATATTTATAAAGAAGAAATTTTCGGACCTGCTTTATTGTTGTTAAAGGCAGAAACACTGGATGAAGCTATTAAAATCATCAATGCCAATCCTTATGGAAACGGAACTTCCATCTTTACCAATTCAGGGGCAGCCGCCAGAAAATTCCAGCACGAAATTGAAGTGGGACAAATTGGGGTAAACCTTCCGATTCCTGTTCCATTGCCGTTTTTCTCTTTTACAGGATGGAGAAAATCATTCTTTGGCGACCTGCATTCTTACGGAAAACAAGGAGTCCGTTTTTATACAGAAACCAAAACGATTACAGCCCGTTGGTTTGAAGAAGACATCCCTGCAGGCGATCTGAATATGACCATCAGTTTAAAATAA	MSQKVKILINGNFIESKTTEHLPVENPATQEILAEVPLTELSEIDQAIEAAKEAFKIWKEVATPERARFFLKYQQLLKENQKEIAEILSKENGKTFPDAMGDVWRGIEVVEHACNIPTLMMGETVENVARGVDTYSYIQPLGVCAGITPFNFPAMIPLWMFPMAIACGNTFILKPSEQTPMTSMKMAELFLEAGFPKGVLNIVHGSKDQVNHMLNHPEIKAISFVGSVPVAEHVYRTGTDNLKRVQAFGGAKNHMVVMPDANKEQVINNLVGASCGAAGQRCMAISVAVLVGEAQNWVDDIKKALSTIKPGVWSDESAAFGPLINRQSKDKVVRLIKSAYDQGAEVLLDGSNCKVEGYENGHFVGATLFNNVSTDMDIYKEEIFGPALLLLKAETLDEAIKIINANPYGNGTSIFTNSGAAARKFQHEIEVGQIGVNLPIPVPLPFFSFTGWRKSFFGDLHSYGKQGVRFYTETKTITARWFEEDIPAGDLNMTISLK	PGPT0002295_2958	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
BMS003_04077	1452	prpD	COG2079	2-methylcitrate dehydratase	ATGTCATCACACATTTCAAACGAAAGACCACAGCCGGATCAGGTATTAACAGATATTGCAGATTATGTACTAAACTATGAAATCAAAAACGATTTAGCCTGGAAAACAGCGCACTACTGTTTATTAGACACCATCGGATGCGGATTAGAAGCACTGACTTATCCTGCATGTACCAAACTTTTAGGACCTATCGTAAAAGGTACCGTAGTTCCGAACGGTGCTAAAGTTCCGGGAACACAATTTCAGCTGGATCCGGTACAGGCTGCTTTCAACATCGGAGCCATTATCCGCTGGTTAGATTTCAATGATACCTGGTTAGCCGCTGAATGGGGACATCCTTCAGACAACCTGGGAGGAATTTTAGCAACAGCAGACTGGCTTTCAAGAACAAATATCGCAGAAGGAAAAGCTCCTCTAAAAATGAAACAGGTTTTAGAAGCGATGATCATGGCTCATGAAATCCAGGGAGTTATTGCTTTGGAAAATTCATTCAACAAAGTAGGTTTAGACCATGTTTTATTGGTAAAACTTGCCTCTACAGCCGTTGTAGGAAAACTGATCGGTTTGACTCGTGATGAATTGATCAATGCCGTTTCTCTAGCATTTGTTGATGGACAGTCTTTAAGAACATACCGCCACGCCCCCAATACAGGAAGCCGTAAATCATGGGCTGCAGGAGACGCTACTTCAAGAGCCGTACGTCTGGCATTAATTGCTCAAACAGGTGAAATGGGCTATCCATCAGTATTAACCGCAAAGACATGGGGATTCTATGATGTATCTTTCAAAGGAAATGAATTCAAATTCCAGAGAGAATATGGTTCTTATGTTATGGAAAATGTTTTGTTCAAAATTTCATTCCCTGCAGAATTCCACTCTCAGACAGCTGTAGAAGCAGCCATGACTTTACATCATCAGTTAAAAAAATCAGGAAAATCTGCTGAAGATATCAAGAAAATAACCATCCGTACCCATGAAGCCTGCATCCGTATCATTGATAAAAAAGGGCCATTGAACAACCCTGCTGACCGTGACCACGCCATTCAGTACATGGTAGCAGTTCCTTTGATCTTTGGAAGATTGACCGCAGCAGATTATGAAGATAACATAGCATCAGATCCAAGAATTGACATACTTCGTGATAAAATTGTGTGTGTGGAAGACGTACAGTTTACCACAGATTATCATGACCCTGAAAAACGTTCTATTGCCAATGCTTTAACGGTAGAACTAAACGATGGAACTGTTTTAGACGAAATCGTAGTAGAATATCCAATCGGCCACAAACGCAGAAGAGATGAAGGAATTCCTGAACTGATCAAGAAATACAAAGTAAATCTTGCCAGAATTTTCCCGGAAAAACAACAGAGAATTGTATTAGAAAATTCTTTAGAATACGACACGCTTGTTAATCTGGATGTCAACGAATTCGTTGATCTTCTGGTAATATAA	MSSHISNERPQPDQVLTDIADYVLNYEIKNDLAWKTAHYCLLDTIGCGLEALTYPACTKLLGPIVKGTVVPNGAKVPGTQFQLDPVQAAFNIGAIIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRTNIAEGKAPLKMKQVLEAMIMAHEIQGVIALENSFNKVGLDHVLLVKLASTAVVGKLIGLTRDELINAVSLAFVDGQSLRTYRHAPNTGSRKSWAAGDATSRAVRLALIAQTGEMGYPSVLTAKTWGFYDVSFKGNEFKFQREYGSYVMENVLFKISFPAEFHSQTAVEAAMTLHHQLKKSGKSAEDIKKITIRTHEACIRIIDKKGPLNNPADRDHAIQYMVAVPLIFGRLTAADYEDNIASDPRIDILRDKIVCVEDVQFTTDYHDPEKRSIANALTVELNDGTVLDEIVVEYPIGHKRRRDEGIPELIKKYKVNLARIFPEKQQRIVLENSLEYDTLVNLDVNEFVDLLVI	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
BMS003_04078	1155	prpC	COG0372	2-methylcitrate synthase	ATGTCAACGAATAGCGAACCAACATTTAAACCTAAAAAAAGCGTAGCTCTTTCCGGAGTAACCGCAGGTAATACCGCTCTTTGCAGTGTAGGAAAAAGTGGAAATGATCTTCATTACAGAGGTTATGATATTTTGGATCTTGCAGAAAGAGCACAATTCGAAGAAGTAGCCTACCTACTAATCTATGGTCAGCTGCCTACCGAAGCTCAGCTCAAAAATTATAAATCAAAATTAAAATCACTGAGAGGCCTTCCCCACTCTGTAAGAAATATTTTAAAAAGTATTCCCGCAGCCGCGCATCCTATGGACGTTATGCGTTCAATGGTTTCAGCGATTGGAAGTATTCAGCCTGAAAAAGATGACCACAATGTGGCCGGGGCAAGAGATATTGCAGATAAATTACTGGCATCATTCAGTTCCGGACTTTTATACTGGTATCACTATACGCATAATGGTAAAGAGATCAACGTAGAGACGGATGATGATACTATTGGCGGACATTTCCTTCATCTTTTACATGGTAAAAAAGCACCGGATTCATGGGTAAAAGCAATGGAAATCTCTCTAAATCTGTATGCTGAACATGAGTTTAATGCTTCAACCTTCACCGCCCGTGTTATTGCCGGAACCTCATCAGATTTTTATTCCTGTATTACAGGAGCTATCGGTGCTTTGAGAGGTCCAAAACATGGTGGAGCCAATGAAGTGGCTTTTGAAATACAAAGCCGTTACAATTCTCCTGATGAAGCGGAAGAAGACATTAGAAAACGTATTGCCAGCAAAGAAGTAATCATCGGATTTGGACATCCTGTTTACACTATATCGGATCCACGAAATGTAGTCATAAAAAAAGTAGCCAAAGAACTTTCCGAAGAAGCAGGAGACATGCTGTTGTATAATATCGCAGAAAGATTGGAAACTGTAATGTGGGAAGAAAAGAAAATGTTCCCGAATCTGGACTGGTTCTCTGCGGTATCCTATCACCTGATGGGAGTTCCCACATTGATGTTCACTCCACTATTCGTTATTTCAAGAGTCACAGGATGGAGCGCGCACATTATTGAACAAAGACAGGATGGGAAAATTATCCGCCCAAGCGCCAATTATACAGGTCCTGAAAATAAAGACTTTGTATCTATCCAAAACAGAAAATAA	MSTNSEPTFKPKKSVALSGVTAGNTALCSVGKSGNDLHYRGYDILDLAERAQFEEVAYLLIYGQLPTEAQLKNYKSKLKSLRGLPHSVRNILKSIPAAAHPMDVMRSMVSAIGSIQPEKDDHNVAGARDIADKLLASFSSGLLYWYHYTHNGKEINVETDDDTIGGHFLHLLHGKKAPDSWVKAMEISLNLYAEHEFNASTFTARVIAGTSSDFYSCITGAIGALRGPKHGGANEVAFEIQSRYNSPDEAEEDIRKRIASKEVIIGFGHPVYTISDPRNVVIKKVAKELSEEAGDMLLYNIAERLETVMWEEKKMFPNLDWFSAVSYHLMGVPTLMFTPLFVISRVTGWSAHIIEQRQDGKIIRPSANYTGPENKDFVSIQNRK	PGPT0001480_524	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
BMS003_04079	858	prpB	COG2513	2-methylisocitrate lyase	ATGGAAAAAGAAAATCCCCTCCAGATTGTGGGAGCCATCAATGCGAATCATGCATTATTGGCACAGCAGGCTGGTTTTAATGCTATTTATCTTTCAGGAGGAGGAGTTGCGGCAGGGTCTTTAGGAATTCCTGATTTAGGAATTACTACTCTGGATGACGTACTCATAGATGTTCAGCGTATTACTAATATTTGTGATCTACCCCTTTTGGTAGATATTGATACAGGATTTGGGCCTTCTGCCTTTAATGTTGCCCGAACGATAAAATCATTAATTAAAGCAGGAGCAGCAGCCATTCACATTGAAGATCAGGTGGGTGCAAAACGCTGCGGACACCGTCCCGGCAAAGAAATCGTAAGCAAGGAAGAGATGGTAGACCGGCTTAAAGCCGCTGCAGATGCCCGCACCGATGAAAATTTTGTAATCGGAGCCAGAACAGATGCTTTTGCGAATGAAGGACTGGAAAAAACATTAGAAAGAGTCATTGCCTATAAAGAAGCCGGTGCAGATTTCATTTTTGCCGAAGCAGTACCCGATTTAAGCTTTTACCAAAAATTTGTTGATGCTACAGGGATTCCTGTACTGGCTAATATCACAGAATTTGGGATGATCAAAATGTACACTGTAGAAGAACTGAAAAATGCAGGTGTAGGTCTCATTCTTTACCCTCTTTCTGCCTTCAGAGCTGCCAATAAAGCAGCACAGAATGTATACCAACACATCCGTCAGGACGGAACACAAGCCAATGTACTGAACACGATGCAGACCAGAGAAGAACTCTATCAAAGTATTGGATACCACGATTATGAACAAAAATTAAATAACCTTTTTAAACAAAATACTCATGTCAACGAATAG	MEKENPLQIVGAINANHALLAQQAGFNAIYLSGGGVAAGSLGIPDLGITTLDDVLIDVQRITNICDLPLLVDIDTGFGPSAFNVARTIKSLIKAGAAAIHIEDQVGAKRCGHRPGKEIVSKEEMVDRLKAAADARTDENFVIGARTDAFANEGLEKTLERVIAYKEAGADFIFAEAVPDLSFYQKFVDATGIPVLANITEFGMIKMYTVEELKNAGVGLILYPLSAFRAANKAAQNVYQHIRQDGTQANVLNTMQTREELYQSIGYHDYEQKLNNLFKQNTHVNE	PGPT0001555_327	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
BMS003_04081	459			hypothetical protein	ATGCATAAAATATTCGTTCTGGTATTTTGTATTGCGGTTTTCCCATTTATTAAAGGACAGAAATTAACCAAAGAAAATGTTACAGGATTCTGGAAACTGAAGGAAGCCGGTTTTTTTGAAAATAAAAAGAAAGTGGTAAAACAATTTGACAACTGCCGTTTGATGAGGAATTATGCAATCCGCGAAGATGGTTTTGCCGTTTATAATTATGTAGAGGGAAAAACAGGTGACTGCAGCCCTTCTGAACCAAGACTTTCTTTTTGGAAAATTGTAGAAAACAGAATTCAGTTTTATGTTGATAGTCAAAACATTCTTGAGGAAGTGGAGGTAACATTGAATAATGATAAAACCATAACTTTTTCAAGCTATACCCCTGCAAAGATTCAAGTAGAAGGCGATGCCCTCGCTGAAAAAGTGGCAAATACTGTCCATTACGATATTCTTGAAAAACAGTATTGA	MHKIFVLVFCIAVFPFIKGQKLTKENVTGFWKLKEAGFFENKKKVVKQFDNCRLMRNYAIREDGFAVYNYVEGKTGDCSPSEPRLSFWKIVENRIQFYVDSQNILEEVEVTLNNDKTITFSSYTPAKIQVEGDALAEKVANTVHYDILEKQY				NA	NA	NA	NA	NA
BMS003_04082	465			hypothetical protein	ATGAATTATGTAACGGTGATCTATCTTGTGAATATTCTGCTATACTCCATGTATTTCTTTTTAAACACTGGTGGAGAAGAAGATGCATCGGGTTTAAACTTTTTTGTTTCAGGAGTTTTATCTCTTCTTCTGATTTTTGCAGGATACCTGAATGGAAGAAAAGGAATGATCTACAGAACTGTTCTGTGGGTGTTTTTTGTGAATGTCTTTTTATTCCTTTGTTCCGGTTTGTTTGATCAGTTTGGAGGTCACTTCAACATCCTTTCTACCAGCAATAGTGACAGTTTTCTTTTTTCTCTGGCACTTCTTGTTTATAATGGATATCTTTTCCCTTTAACGGTTATTCTTGAAGGTTCAGGTTTGGCATTAGTAGTTCCTGTTGTATTATCATTTCTTTTACCTTCGTTAGGATATCTGGTAGGGAAGAAGCTTGATAAAAACAATGAAAATTCTACAGATCTCTAG	MNYVTVIYLVNILLYSMYFFLNTGGEEDASGLNFFVSGVLSLLLIFAGYLNGRKGMIYRTVLWVFFVNVFLFLCSGLFDQFGGHFNILSTSNSDSFLFSLALLVYNGYLFPLTVILEGSGLALVVPVVLSFLLPSLGYLVGKKLDKNNENSTDL				NA	NA	NA	NA	NA
BMS003_04083	339			hypothetical protein	ATGACGGAAAGAATCAAAACATACAGAGAGTTTTACCAGTTCTACCTTACTGAACACAGTAAAACAGGAACCCGCATATTTCATTTTATCGGAACATTTCTCGTATTCTTCGTGATAGGATATGTCATCAGCTCCGGAAAAGAAAGGTTTCTTTGGTACATCCCGATTGTAGGCTATGGATTTGCGTGGTTCAGTCATGCGGTGATTGAGAGAAATAAACCGGCTACTTTTAAATATCCTTTATGGTCTCTGATTTCGGATTTCAGATTGTTTTTTGAACTTTTAATCGGGAAGCAGAAATTCTCCCCCCCCAATAATCAGCCTCAAAAGCAGGAATAG	MTERIKTYREFYQFYLTEHSKTGTRIFHFIGTFLVFFVIGYVISSGKERFLWYIPIVGYGFAWFSHAVIERNKPATFKYPLWSLISDFRLFFELLIGKQKFSPPNNQPQKQE				NA	NA	NA	NA	NA
BMS003_04084	1683	potE		Putrescine transporter PotE	ATGAGTCAACTTTTTAGAAGAAAAATCTATTCAGATACAGATACTTCAACGGGACTTTTAAGAGTCTTAGGTGTATGGGACATTGTATTTTTTGGTATAGCGGCTATTATTGGAGCCGGGAGCTTCAGCAGTTTGGGCGAAGCCGTTTTCAGAGGTGGCCCCGGTGTTATCCTGCTATATTTGATTTGTGGTTTTGCCTGTGGGTTTACCGCTTTATGCTATGCCGAATTTGCCAGCAGAATTCCTACTGCCGGTTCGGCTTACACGTATGCTTATGCCAGTTTTGGAGAGCTTATTGCCTGGATAATCGGCTGGGCTCTGATTATGGAATATTCTTTCGGGAATATTTACGTGGCCTTTTCCTGGTCAGATTATTTTACCAGCTTTTTAGGACGTCTCGGAATGCATATCCCGGATTATCTTACCTGCAGCTATACCGAAGCCAGAAAAGCCGTACAATATGGTTCTGAAAACAAAGAATTATTAAATGCATGGAAGACAGCACCTTTAATCGGAAGTCTGAAGTTCATTGTGGATATTCCGGCTTTGGTGATCAATGGTTTAATCACATGGCTTTGTTATGTAGGCGTAAAAGAAAGTAAAAACTTCAATAATTCTTTGGTTATCTTAAAACTGGGGGTCATTCTATTGGTTATCCTTGTTGGTTTTGCTTATATCAATACTGAAAACTGGACTCCTGTGAGCCCTACAACAGGAACACCATCCTTCATGCCCAATGGTTTTGCGGGAGTAATGAGTGCGGTATCCGGAGTATTTTTTGCTTACATCGGATTTGATGCCTTAAGTGTACTTTCTGAAGAGACCAAAGATCCACAAAAAACTTTACCAAAAGGAATGATCATCTCTCTTGTATTGTGTACGGTGATCTATATCGCTTTAACACTGGTATTGACAGGAATGGTAGATTACAAGAAATTTGATGGTGTGGGAGATCCGCTTTCATTCATCTTTGAAAAAACAAACGCCAATGTAGCCTGGATGGAGCTTGTAGTTTCCTTCGTTGCCATTGTTGCCATCACAACCGTATTATTGGTTTTCCAGATGGGGCAACCGAGAATCTGGTACGCTATGAGCCGTGACGGACTGATGCCTCAGAGATTCCAGAAAATACATCCGAAATATAAGACACCATCATATGCAACTATTGTTACAGGGATAGTGGTAGGTATTCCTATCCTGTTTACAGATAAAACATTTATCCTTGATTTTACAAGTATCGGAACCATTTTCGCATTCGTACTGGTGTGTGCGGGAGTACTTCTTCTTCCTGCCAAAGAAAAAATTAAAGGCAGATTTCACCTTCCTTATGTGAATGGTAAAATCATTTTCCCTGTTGTTTTCATTGGCGGCCTGCTGGTTTTCTACAAATGGCAGCCGGAGTTTTTTCATAATCTGATGAACTGGTCAGATCCTAATGAAGGAGAATTCAGAGCTTCTATTTTCTTCTTTATTATCATCAACCTGATCTTATGTGTGATAGCTTTCATCAAGAATTTATCATTAATTCCGTTGGTTGGATTAAGCTCATGTCTGTATCTTCTTACAGGAATGAGCCATGAGAACTGGTTCTGGTTCGGAATGTGGTTTCTGATCGGTATGGTTATTTATTTCTGCTATGGATACAAAAACAGTAAGCTGGGAAAAGAGTTAAAGAATAGCTAA	MSQLFRRKIYSDTDTSTGLLRVLGVWDIVFFGIAAIIGAGSFSSLGEAVFRGGPGVILLYLICGFACGFTALCYAEFASRIPTAGSAYTYAYASFGELIAWIIGWALIMEYSFGNIYVAFSWSDYFTSFLGRLGMHIPDYLTCSYTEARKAVQYGSENKELLNAWKTAPLIGSLKFIVDIPALVINGLITWLCYVGVKESKNFNNSLVILKLGVILLVILVGFAYINTENWTPVSPTTGTPSFMPNGFAGVMSAVSGVFFAYIGFDALSVLSEETKDPQKTLPKGMIISLVLCTVIYIALTLVLTGMVDYKKFDGVGDPLSFIFEKTNANVAWMELVVSFVAIVAITTVLLVFQMGQPRIWYAMSRDGLMPQRFQKIHPKYKTPSYATIVTGIVVGIPILFTDKTFILDFTSIGTIFAFVLVCAGVLLLPAKEKIKGRFHLPYVNGKIIFPVVFIGGLLVFYKWQPEFFHNLMNWSDPNEGEFRASIFFFIIINLILCVIAFIKNLSLIPLVGLSSCLYLLTGMSHENWFWFGMWFLIGMVIYFCYGYKNSKLGKELKNS	PGPT0020810_597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
BMS003_04085	2241			hypothetical protein	ATGAAATTTAAGATTCTTTTAGCATTAATTTTTGTAAATCTCCTGCAGGCACAAAAATTTTATTTTCCAAAGACAGCTGTAACTGACTCTGTTCTATTGGATAAACAGATGCCGGGACTTGCCCGGCAAGTGATTCCCCAACTTCAGTCTGTAAAATACAAACCGGAAAACACCGTAGATCTTATGGACAATCTTTTCCGTTTGCAGATGGTAGCTCAGGATTATAAAAACTCACTGACTTCTCTTACCGAAAACCGTAATCTTTTTGCCGATCATAATATGGGAGACTACAGATTTATCGGATTTGAGCTGTACAGCCTTGCGAAAATGGAGCAGAAAGAAAGCAATATCTCATTTTCCAATGCACTTCAGAAAGTTTTCACTCAGAAATATGGAAGTCTTCCGGAAAAAACGATTCCCAGACTAGGAATTGCTCTTGACGGAGATGTAAGAGAATCTAAAAAGCAACTGAAGAAAGTACTGGATAAACAAAAAGACAAAGATAGTATAGACTACAGGACAGCCCTTGCTCTATGCAAAAACTATTTGAGCTATAAAACCTATTCAGGGATCAAACCTCAGGTGATGCAGCTTCTGGCTTCAAAAGACAGAGAAAAGTTCATTATTGAAACCAAAGATCTTACCCTAAAAAACGGAACTGCCTTAACGATCACTATTGTTCGGAAAAGGGAGCACATCTCCCCACTTCCTGTTATTCTTACCAATAATATCTATGCAGGCTCATTTGATGAATTCTTCGGAAAAAGAGCCGCTGTTTATAATTATGTGGGAGCTGTTGTAAACACCCGCGGCAAAAGAAACAGCAATAATGTAAATAATCCTTTTGAGCATGAATCTGAGGATATTTACGAAGTAATAGACTGGGTAAGCAAACAGCCATGGTGTAACGGAAAAGTAGGAATGATCGGTGGAAGCTACCTAGGCTTCAGTCAATGGGCAGCCGTAAAAAAACTGCATCCGGCATTAAAGACCATCGTTCCTCAGGTGGCAGTAGGCATCGGAATTGATTATCCTGCCCAGAATAATATTTTCATGAGCTATATGCTTCAATGGATACAATATGTGACCAATAATAAATTTACGGATGAAGCTGATTTTGCCAATGCGGTAAAATGGGATTCTATTTATACAAAATGGTACAAAAGCGGAAAAGCATTCAGATCGTTGGATACGATAAGCGGGAAACCAAGCAAAATATTCCAGCGATGGCTGGATCATCCGGGATATGATGAGTACTGGCAGAAAATGGTTCCTTACAGAGAGGATTTTTCTAAAATCAACATTCCTATCCTGACGACTACGGGATATTATGATGATGATCAGATTGGCGCACTGTATTATTTCAAACAACATCATCTGTACAATAAAAATGCAGATCATTATCTGGTAATAGGTCCTTATAATCATGGAGGAGCGCAAAGTTTCGGTTTTACTTACGTGAATGGAAATCCTATTGATCCGGTGGCAAGAATAAGTATCGACGATCTTGCTTTCTCATGGTTTGATTATATTCTTAAAGGAGGCAAAAAGCCGGAAATACTGAAAGACAGAATCAATTTCCAGGTAATGAATAACAATACATGGAAGCATGTGGCCGATCTTGACAAAATGCATACATCTACTCTGAAGTTTTATCTTCAGGACAAAAAAAACACATCATCTGTATTCAATAAACCGGAGAACAAAACGTTCACAAAACAAACTGTTGATTTAAAAAACAGAGAACAGAAAGACATCTACTACAAAGTCAGCAAAAAAGACAGCATAAAAATGACGAATTCTGTCGCCTTCGAAAGTGAAGTGCTTGACAGGGATATGATCATCAGTGGAAATCTGTCGGGAGTTTTCAATGTTTCCATCAATAAAAAGGATTTTGATACGGATACTTATCTGTACCAGATTCAGCCGGATGGAAAACCTTCATTACTGTCCACTCATATTGTGAGAGCCAGCTATGCGAAGAACAATGAAAAACGACAGCTTCTTGTACCGAATAAACTGGAACAAATCCCGATTAGCAACTCCTATTTTATGAGCAGGAAGATAGAAAAAGGGAGCAAACTTCTGTTATTGGTCGGGGTTAATAAAAGCCCTTACTGGCAAATCAATTATGGTTCCGGTAAAGATGTGAGTGATGAAACAATAAAAGATTCCGGTGTGCCCCTGGAGATAAAATGGTATAACGACAGCTATGTGGAAATCCCTGTTTATAAAGATTAA	MKFKILLALIFVNLLQAQKFYFPKTAVTDSVLLDKQMPGLARQVIPQLQSVKYKPENTVDLMDNLFRLQMVAQDYKNSLTSLTENRNLFADHNMGDYRFIGFELYSLAKMEQKESNISFSNALQKVFTQKYGSLPEKTIPRLGIALDGDVRESKKQLKKVLDKQKDKDSIDYRTALALCKNYLSYKTYSGIKPQVMQLLASKDREKFIIETKDLTLKNGTALTITIVRKREHISPLPVILTNNIYAGSFDEFFGKRAAVYNYVGAVVNTRGKRNSNNVNNPFEHESEDIYEVIDWVSKQPWCNGKVGMIGGSYLGFSQWAAVKKLHPALKTIVPQVAVGIGIDYPAQNNIFMSYMLQWIQYVTNNKFTDEADFANAVKWDSIYTKWYKSGKAFRSLDTISGKPSKIFQRWLDHPGYDEYWQKMVPYREDFSKINIPILTTTGYYDDDQIGALYYFKQHHLYNKNADHYLVIGPYNHGGAQSFGFTYVNGNPIDPVARISIDDLAFSWFDYILKGGKKPEILKDRINFQVMNNNTWKHVADLDKMHTSTLKFYLQDKKNTSSVFNKPENKTFTKQTVDLKNREQKDIYYKVSKKDSIKMTNSVAFESEVLDRDMIISGNLSGVFNVSINKKDFDTDTYLYQIQPDGKPSLLSTHIVRASYAKNNEKRQLLVPNKLEQIPISNSYFMSRKIEKGSKLLLLVGVNKSPYWQINYGSGKDVSDETIKDSGVPLEIKWYNDSYVEIPVYKD				NA	NA	NA	NA	NA
BMS003_04086	2964	cpoB		Cell division coordinator CpoB	ATGAAATCAAAAAAAATACTTTTAGCGGCTGCTGTAATTTATTTCGGAATCTCCGATGCTCAACAGTCTCAATATTTTACCCAGAAAGAAAATTACAGGTTCAATCTAGCCGAAAATCTTTATCAGACCAAAATATACAATGCTTCTCAATACGAATATGCAAGACAATATTTCTACAATCAGAATTTGTCCCGTTCGAAGAAGGAAGCTGCGCAGTTTTTTGATAATGTGATTGGTGTGATTCTTCAGAAAAATCATGCTGAAGAAGGGTTAACGGCTTTCATGAAAGAATATCCTAATTCTGCTTATTTTGCTCAGGCTAATCTTCCGCTGGCAGATTACTATTTAGCGAAAAAAGACTTTGACAAAGCACTTGAAACCTTGAAAAAGGTGAACCAGTATCAGCTTTCCAAAGAAGAAAACACGCAGTATATTCTGAAGCTTGGATATGCTAAATTCATGACAGGAGATTCTAAAGGAGCAACTGATGCTTTGGAAGAAGCCTATAAAACAGCAGATCAGTCTCAAAAAGGAGATATCGCTTACATGCTTGGGCATTTGTATTACAGCAACAGACAAAATGATAAAGCTTTCCAGTATTTTGATTCTATAAAAGATCAGGATAAATTCTCTAAGCTGGTACGTCCTTATTATGTACAGATGTATTACAATGATAAGAATTACGATCAGGCCATTACGGAAGGAAATGCTTTGTTAAACGAAAATATTTCAGATTCTTATAAAGCGGAAGTTCATAAGATTATTGGAGAGAGTTACTTCATGAAGAATGATTATACCTCTGCCTATCCACATTTAAAAGACTATCTGAGCGTACAGCAAAATCCGTCTGAAAATGATTTGTATGAGATGGGATTTGTAGCGGCACAGCTTAAGAAATATGATGAAGCAGTTTCTTATTACAACCAGCTTCTCAACAGTAATTCTGCTTTAGCACAAAATGCTTACTACCAGTTAGGAAATGCTTATCTGGCGGTAGATAAAAAGCAGGAAGCCCTTTCTGCATTCCGTTCTTCTTATCAGATGGATTATGATGCAAAAGTGAAAAAGCTGGCTCATGAGCAGTATGCTAAATTAAGTTACGATATCGGTAACCCATTTGAAAGTCCTTCTGCGGTAATCCAAAGTTATATCAACGAAAATCAGAATGGTGCCAATGCCACAGAAATGAGGTCATTATTGGTAAAATCTTATCTGTATTCCGGAAACTATAAAGAAACACTGAATGCTATTGACAGATTACAGAGTTCAACTCCAGAGATCAACAAAGTAGACCAGGAGGTTTCTTATTTGTTGGGAACCGAGGAATTCAACAAAGGAAATTATGATGAAGCTGAGAAATACTTCCTGAGAAGTCTTGGATTCAATATCAATAAAGAATTCAACAGCAGAGCTTTATACTGGCTGGCGCAGGTGTATTATCAGAAAGGAAATTATCCTTCTGCCATTGTCCGTTACGAAAAGCTTTTGAACGAAAACTTCCCTGAAAAGCAGCAGCTTCCGTATGATTTAGGATATGCTTATTTTAAATCCAAAAAATTTGATCAGGCAGAAACTTATTTCAAGCAATATCTTGCCAATCCGAAACCGGAATTTAAAAATGATGCAGAACTTCGTCTTGCAGATATTCATTATGCCAACAATGACCTGAACGAAGCCATCGCCATCTACGATAAAAATGAAGACGCTACGGATTATACTTTGTACCAAAAAGCAATGGCTTTAGGATTCAAAGGAGATACACAGGCGAAGATTTCTAATCTTAAAAACCTTTTATCCAAATATCCGGACTCCGAATATTATGATGATGCTCAATATGAAATAGGAACGGCTTATGCGGCTCAGGATGATTTTGCGAACTCCAATGATTATTTCGGAAAAGTAATTAAAGGATCTTCGGATAAAGATCTGATTGCAAACGCTTCTATCTACAGAGCTCAAAATTATATAGACCAAAATCAGAATGATAAAGCCCTTTCTGAATTGAAATCTCTGGGTGAGCAGTATAAAAATACAGCCTATGCTCAGAAAGTAGTTCAGGCCGCAAAACCTATCTTCACGAAAAACGGTGATGTATCAGGATATGAAACTTTCGCAAGAAATGTAGGGGTGAATATAGATGCTGCTGAAATTGATGAAATTAACCTGTCAACAGGTAAGCAGCTCTTCGCGAAGAAAGATTATAAAAATGCAATTTCTTACTATGAAAAGTATCTGACTCAGAACCCAACAGGCGAAGGATTATATCAGGCTAAATATGAATTAGGAGAAAGCTACTATCAGACTAATAATTCAACTAAAGCTTTACTTGTGCTTCAGGAAGTAGCTGGAATTCAGAATGATTACCAGGATGATGCACAAACCCGTTTAGCTCAGATCTTTATTGCACAGGGGAATACATCAGAGGCTAAAAAATATCTTGAGGGCATTAAAAACTCTTCCAACATCAGCATTAAAAACTATGCAAATGTGGAGCTGATGAAACTGTACGCAGAAGAAAAGAATTTCTCTGAAGCAGAAAAACTGGCCAATGCAGTGATTGCTAATTCTAAAAACTCAGCAGCTGTTATTGAAACCGCAAAAGTAATTAAAGCAAGAAGCCTGATGAACTCAGGAAAAGATAAAGATGCACAGACAGCCTATGTTTCTCTTGAAAAATCATCCAATACTTCGGTAGCGGCGGAAGCTTTGTATGCTAAAGCGTATTATCAGAACAAAGGAAAAGCTTTCAAATCTTCCAATGAAACGATCTTCAAGCTTGCCAATAACTATGCTTCGGAAGAGTTATGGGGAGCAAAAGCATTGGTATTAATGGCGAAAAATTATATCGGTCTGAAAGACAACTATCAGGCAAGTTATACCTGTGATCAGATCATTGCGAACTATAAAGATTTCCCTGAGATTGTAGCAGAAGCTAAAGAAGTTAAAAAGCAGATTAAGAAGTAA	MKSKKILLAAAVIYFGISDAQQSQYFTQKENYRFNLAENLYQTKIYNASQYEYARQYFYNQNLSRSKKEAAQFFDNVIGVILQKNHAEEGLTAFMKEYPNSAYFAQANLPLADYYLAKKDFDKALETLKKVNQYQLSKEENTQYILKLGYAKFMTGDSKGATDALEEAYKTADQSQKGDIAYMLGHLYYSNRQNDKAFQYFDSIKDQDKFSKLVRPYYVQMYYNDKNYDQAITEGNALLNENISDSYKAEVHKIIGESYFMKNDYTSAYPHLKDYLSVQQNPSENDLYEMGFVAAQLKKYDEAVSYYNQLLNSNSALAQNAYYQLGNAYLAVDKKQEALSAFRSSYQMDYDAKVKKLAHEQYAKLSYDIGNPFESPSAVIQSYINENQNGANATEMRSLLVKSYLYSGNYKETLNAIDRLQSSTPEINKVDQEVSYLLGTEEFNKGNYDEAEKYFLRSLGFNINKEFNSRALYWLAQVYYQKGNYPSAIVRYEKLLNENFPEKQQLPYDLGYAYFKSKKFDQAETYFKQYLANPKPEFKNDAELRLADIHYANNDLNEAIAIYDKNEDATDYTLYQKAMALGFKGDTQAKISNLKNLLSKYPDSEYYDDAQYEIGTAYAAQDDFANSNDYFGKVIKGSSDKDLIANASIYRAQNYIDQNQNDKALSELKSLGEQYKNTAYAQKVVQAAKPIFTKNGDVSGYETFARNVGVNIDAAEIDEINLSTGKQLFAKKDYKNAISYYEKYLTQNPTGEGLYQAKYELGESYYQTNNSTKALLVLQEVAGIQNDYQDDAQTRLAQIFIAQGNTSEAKKYLEGIKNSSNISIKNYANVELMKLYAEEKNFSEAEKLANAVIANSKNSAAVIETAKVIKARSLMNSGKDKDAQTAYVSLEKSSNTSVAAEALYAKAYYQNKGKAFKSSNETIFKLANNYASEELWGAKALVLMAKNYIGLKDNYQASYTCDQIIANYKDFPEIVAEAKEVKKQIKK				NA	NA	NA	NA	NA
BMS003_04087	492			hypothetical protein	ATGAAGGTGTTTACAATTGCCATATATTCTTTTTTAATTTCCGCTTCTCTCTGGAGCTGCATTCCCTCTTACAGTGCATATCCAAGGGAATATAACCATGCAAAAGCTGACTTTAAAAAGCAAAAAGTTTTTGTGGCGAATAAGGATCTTGAGAGAGAATTTAGCATTCTAAAACATTCTGATATTTATGAAATTGTAGAAGACAGTACCCATGCCGCTAAGATAACGCTGCATCCGATGAAAACCCATACACCTTCCTGCGGAAATCCAATGATTGGAAGTATGCTCACCGTGGGATTATTGCCTTCAGGATTTCCATATAATATTTCTTATAGTTACGATTTAGCTGAGAACAGTGAAACAAAAAATTATCAATACAAATTACAAGTTTATCAAAGCCTCTGGCTGTTTAATATATTCAGGCTGGGGAGAACTTTTTCAAGACAGTCGGGGAAAGCTTTATTAGGCAGTTATATGGCTTCCAATAAATAA	MKVFTIAIYSFLISASLWSCIPSYSAYPREYNHAKADFKKQKVFVANKDLEREFSILKHSDIYEIVEDSTHAAKITLHPMKTHTPSCGNPMIGSMLTVGLLPSGFPYNISYSYDLAENSETKNYQYKLQVYQSLWLFNIFRLGRTFSRQSGKALLGSYMASNK				NA	NA	NA	NA	NA
BMS003_04088	1764			hypothetical protein	ATGAACAAGAAGATTCAAATATTATCCATATTATTTTTAGGGGTTTCGTCAGTGGCGTTTTCCCAGATCAAGGAGGAAAAACTGGTTCTTAACAAAAAAAGAGAGCCGGAAGTGAAGAAGATCGAGAAGAAGAAAACTTCAGTGGAAACCATTAAAAATTATCCACCGGAAGAGAAATCGCAGACTCCTGTGAAATATACCATCACAGATGTTCCTGCTGTTTCAGATTTCAAGACTTCAACCATTCAGGGGGAGGACGTTGCTCCAAAATTTGACGGAACTGCTCAGAATAACTATTTCCAGTTCGGAATGGGTAATTACGGGAAAGTTCTGGTAGATGGGAACATTTCAAAAACCCTTGAAAATAAGTTTGAGGTAGGAGCGGATGTTCATGTACTTTCTACGAATGGTCTTAAAAAAGATTATGACTGGAAATCCGGGCAGACTTCAGCCAATGTTGGTGCTTTCTTAAACTCTTACGGAGAAAAAGGAAAGTTCAATATCAATGCTGAATATGGTTTAGACAGTTACAATTATTACGGAATTTATGCCATGCAGCCTACAGGAGATCTTGATCTGAAGCAAAAAGTAAATCAGTTTAAAGTAAACGGTTACTATGATTTTTATTCCAATGAAATATTAAATGATGTAAGAGTAAAATCATCATTCCTGAAAGATCATTTTGATGCTCAGGAAAATCAGGTTTCCATTCTGGCTAATTTCTCTAAACATGCGGTTGAATTAGGAAAATCAGGAATTAACCTGAATGCTGATTTGGGAGTAGGATTAGATGCAGTAAAAACGGATTTTGCGATCAGAGATAAGAACTCTTCCAATTTCTTCAATACCAGCCTGACTCCGAAGGTGACGTTCAGAAAAGGAGACTCTTATTTGACGTTAGGATCTTCATTCTCTTTCCTGAATGCTAAAAACTCCAATGATCAGTTAGAACAACAGAAAAATAATAAAACATATTGGTTCCCGCAGGCAGAGTTTCAGTTTGCTGCCGCTAAAGAATTTAAATTTTACGGAGGGGTAGACGGAGGTCTGAAGCTGAATACTTACGGTGACATGTTACAGACTAATCCATTCATCCTTTCTGATCAGTTTTTAAAGCCAACAGAGACGAAATATCATTTTTATGTAGGATTGAGAGGGGATATTGATGAAACGCTGAAATACGACTTCTCTGCAGGTTATGGAAAGATGAGAGACATTATGTTCTTTAAAGCCAATGGTCTTTTTGATAATACATCTGTTAACCGTTCTGCCTACAACTTTGCCAATACATTCTCTGCAGTCTATGATGACGGAAATGTAAGCGATATCAAAGGAAGTGTGCAGTATTTTCCGTTAGAAAACCTTGTTTTAGACGGAGAATTAAGGTTTACGAAGTATGATCTTAAAACTTATGATAACATTTATAACGTTCCTTTATTCAATGCAAGCATCGGGGCAAAATATACAATGCTTGACAAGAAGTTATTGTTAGGATTCAAAGGGATCTTTGCAAGTGACAGAACTACAAACTCTTATGCTATTGAAGGAGTGGGTGCTCCGAATGTAATCTTCCAGTCTACGGAGAATACAAACGATAAAGTAGGGGGGTATGCTGATTTAAATCTTTCTGCAGAGTATAAAATTCACAAAAATTTCAGTATTTTCGCACTCGGAAATAATCTTCTGAGCTCAAAATACCAGACGTACAAAGGATATAAAGTCCTGGGTGCACAGATTCTGGGAGGAGTGAAAATTACTTTCTAA	MNKKIQILSILFLGVSSVAFSQIKEEKLVLNKKREPEVKKIEKKKTSVETIKNYPPEEKSQTPVKYTITDVPAVSDFKTSTIQGEDVAPKFDGTAQNNYFQFGMGNYGKVLVDGNISKTLENKFEVGADVHVLSTNGLKKDYDWKSGQTSANVGAFLNSYGEKGKFNINAEYGLDSYNYYGIYAMQPTGDLDLKQKVNQFKVNGYYDFYSNEILNDVRVKSSFLKDHFDAQENQVSILANFSKHAVELGKSGINLNADLGVGLDAVKTDFAIRDKNSSNFFNTSLTPKVTFRKGDSYLTLGSSFSFLNAKNSNDQLEQQKNNKTYWFPQAEFQFAAAKEFKFYGGVDGGLKLNTYGDMLQTNPFILSDQFLKPTETKYHFYVGLRGDIDETLKYDFSAGYGKMRDIMFFKANGLFDNTSVNRSAYNFANTFSAVYDDGNVSDIKGSVQYFPLENLVLDGELRFTKYDLKTYDNIYNVPLFNASIGAKYTMLDKKLLLGFKGIFASDRTTNSYAIEGVGAPNVIFQSTENTNDKVGGYADLNLSAEYKIHKNFSIFALGNNLLSSKYQTYKGYKVLGAQILGGVKITF				NA	NA	NA	NA	NA
BMS003_04090	840			hypothetical protein	ATGAAATTACACAAGAAGATCTTATTAGGATCATTTATTTCAGTCGCTATGGCATCATGTAATACTACAAGAGACAACGCAGAAGAAATAGCACTACAAGAACAATCGTATTCAGAATTGCAGGCTGTACCTAAAGCAGATATTCCAAAAGGTTTTGAAAAAACACAAATGTGTAAAGATGTATATCTGCCGGGGGAGGATAAAATTCCCGGAACTGCATCAAAAGGAGCCGTTATTACCAATAAAAAATGGCCAAATGGAAGTGTTATCACTGTACGTCTTTATGGAGGAACAACAAAAGTTCGAAACAAGGTAATGCAATACGCTAATGAATGGTCAAAATATGCCAATATCAAGTTTAATTTTATCACGAGCGGCACAGCTCAGATCCGTGTTACATTTACCGCCGGTGCCGGATCCTATTCTTATATAGGAAAAGATGCTCTCAGTATAGCTTCTAATAAAGAAACAATGAACTTCGGTTGGTTTGATGATACAACAAGTGATACGGAATTCAGCAGAACGGCCACTCATGAATTCGGTCATGCACTGGGTATGATCCATGAGCATCAGCATCCTTTAGCTGCAATACCATGGGATAAACCAAAGGTATATGCATATTACGCAGGATATCCGAACTACTGGACTCAGGCTCAGGTAGATAATAACCTTTTTGCAAAATATTCAACCTCACAAACACAATATAGCGCCTACGATACACAATCTATCATGCACTATAGTATAAGTCCAACATTAACAACAAATGGATTCAGTGTAGGCAGTAATACGGTTTTATCACCTACAGATAAGCAATTCATCGCAACTGTATATCCGAACTAA	MKLHKKILLGSFISVAMASCNTTRDNAEEIALQEQSYSELQAVPKADIPKGFEKTQMCKDVYLPGEDKIPGTASKGAVITNKKWPNGSVITVRLYGGTTKVRNKVMQYANEWSKYANIKFNFITSGTAQIRVTFTAGAGSYSYIGKDALSIASNKETMNFGWFDDTTSDTEFSRTATHEFGHALGMIHEHQHPLAAIPWDKPKVYAYYAGYPNYWTQAQVDNNLFAKYSTSQTQYSAYDTQSIMHYSISPTLTTNGFSVGSNTVLSPTDKQFIATVYPN	PGPT0027825_1635	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
BMS003_04091	1071	tagO	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGAAAAATTTTGTAGAACTGGCCATATCCGGAATACTTGCTTTCACTTTATCTATGTGTGTTATTCCACTGATGAGAGTTATTGCGCAGAAATTCAAGCTTGTGGATATTCCCAATGCCAGAAAAGTGCACCGGACAGCCATTCCTTTAATCGGAGGGTTGGTAATCGGCCTGATTGTCTTTTTACTGATGGGTATCTCCGGATACAAAAGCTGGAAGGAGATTTTACCTATTATCATCACTTCCTACATTATGCTTATAATAGGTACTTTGGATGATAAAGCAGATATTAAAGCGATTTATAAATTGGCCATCCAACTTTGTATCAGTGTAATTATGGCAACTTCGGGAATCAGAATCACTTCTTTTTACGGACTTTTGGGAATCTACGAAATCGATATTTATGTACAATATGTACTTACTGTTCTGGTCATCACCACCGCAGTGAATGCTTTTAACCTTATCGATGGAATTGATGGCTTGGCAGGAAGTGTTGCAGGAATTGGTTTTGTATTGTTTTTCATTATCATGTTAATAGAAGGAAATTTGGGATTGGCAAAAATCGGATTGCTTTTTATTGGAAGTATTGCAGCCTTTCTAAAATATAATATGTCTCATAAAAGTAAGATCTTTTTAGGAAATTCAGGTTCGCTGTTTTTAGGATATTTGCTGATCTGTCTCGGGATTTACATTACCGGATTCGACAATAATACTTCACATTTTCCTTATGGCATATTTTTCATTCTGTTTGTATTTACCATTCCTGTCATTGATTCAGTAAGGGTTTATACAGATCGGATCTTGAGAGGAAAATCCCCTTTCAAAGCAGATAAAACTCATATCCATCATCATCTTTTGTTATTGGGGCTATCTCACAAGAAAATTACCTTAATTTTTATTTTAATTAATATTTTAACTTTTATTGTTCAATATTTATTTTTTGAAAACTATTCCATTTATACATCTTTTATTTCATTCTTTATATTTATTTCCCTCTTTAAAATAATCAAAACAATGAATCTCTTTACATTCTGGAAGCAAAGCATCAGAGAAATGGAAACTATCAAATAA	MKNFVELAISGILAFTLSMCVIPLMRVIAQKFKLVDIPNARKVHRTAIPLIGGLVIGLIVFLLMGISGYKSWKEILPIIITSYIMLIIGTLDDKADIKAIYKLAIQLCISVIMATSGIRITSFYGLLGIYEIDIYVQYVLTVLVITTAVNAFNLIDGIDGLAGSVAGIGFVLFFIIMLIEGNLGLAKIGLLFIGSIAAFLKYNMSHKSKIFLGNSGSLFLGYLLICLGIYITGFDNNTSHFPYGIFFILFVFTIPVIDSVRVYTDRILRGKSPFKADKTHIHHHLLLLGLSHKKITLIFILINILTFIVQYLFFENYSIYTSFISFFIFISLFKIIKTMNLFTFWKQSIREMETIK	PGPT0015240_2014	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015240-wecA|tagO|rfe-K02851	NA	NA
BMS003_04092	1221			hypothetical protein	ATGAAAACAAAAGTTGCAATAATAGGAACAGTTGGTTTACCTGCAAAATATGGAGGTTTTGAAACTTTAACTGCACATCTTGTAGAAGAGCTTTCTGATATTTACGATTTTACAGTGTATTGCTCATCAAAAAAATACAGTAAAGAAGAAAGAACTGAGAATTGGAAAGGGGCAACATTGAAATATCTGCCTTTAGATGCTAACGGAATTCAAAGCATTCCTTATGACACCTTATCTATCTTTCATGCCTTATTCACAAGTGATGTTTTATTGGTTTTAGGTGTTGCCGGTGCGTGGATCTTACCTTTTGTAAAATTATTCACCAACAAAAAAATCATTATTTCTATTGATGGAATAGAATGGAAAAGAGACAAATGGCCTTTAGCTGCAAAATTATATTTGTGGTGGGCAGAAAAACTGGCTGTTCGATTTTCTCATATTGATATTTCTGATAACGAATCTATTCAGGATTATACTTCCCTAAGATATAAAACCATCAGCCGTGTAATAGAATATGGTGCAGATCATACGAAGGTTAATCTCGATCCAACAGAAGAAAATCTGGAAAAATATCCATTCTTAAATGAAGAATATGCTGTAAAGGTTTGCAGAATAGAGCCTGAAAATCATGTTCATACTATTTTGAAAGTCTTCAGTGAACTTCCGGAAAAGAAGCTGGTTTTAGTGGGTAACTGGAGTAACAGCCAGTATGGGAAAGAGCTGAAACAAAAATATTCAGATTTTGAAAACATCAGTCTTCTGGATCCTATTTACAATCAGGAAATCATTGATTTGATCAGAGGAAATGCCTCCCTTTATATTCACGGGCATTCTGCTGGTGGTACGAACCCTTCTTTGGTAGAAGCAATGTTTCTAGGGTTACCGATTATCAGCAATGGTGTTTCTTACAACAGAACCACCACAGAACATAAAGCTTATTATTTTTCTAACGAGGATGAACTTAAGAATGTAATAAAAAAATTAACTAAAGAAGATCTTCAGAACTGCGCCATTGAAATGAAAAAAATTGCAGAAAGAAGATATACCTGGAAAAAGATTGCAAAAAAATACAGCAATCTTATTGAAGAAACGTTTATTTCCCAAAATAAAACCAAAGTATATCCATTGATCTCGCAGCTGGATAAAGAAATTCTGGGAAAATATAATGTTGAACATCTTAAGAATGTAAAGCTTTTCAACGAACCTAGTAAAACCACTTAA	MKTKVAIIGTVGLPAKYGGFETLTAHLVEELSDIYDFTVYCSSKKYSKEERTENWKGATLKYLPLDANGIQSIPYDTLSIFHALFTSDVLLVLGVAGAWILPFVKLFTNKKIIISIDGIEWKRDKWPLAAKLYLWWAEKLAVRFSHIDISDNESIQDYTSLRYKTISRVIEYGADHTKVNLDPTEENLEKYPFLNEEYAVKVCRIEPENHVHTILKVFSELPEKKLVLVGNWSNSQYGKELKQKYSDFENISLLDPIYNQEIIDLIRGNASLYIHGHSAGGTNPSLVEAMFLGLPIISNGVSYNRTTTEHKAYYFSNEDELKNVIKKLTKEDLQNCAIEMKKIAERRYTWKKIAKKYSNLIEETFISQNKTKVYPLISQLDKEILGKYNVEHLKNVKLFNEPSKTT				NA	NA	NA	NA	NA
BMS003_04093	1077			hypothetical protein	ATGGAAAGAATAGTTGCTATTCATTTATTAAATGACTACAGCGGGAGTCCGAAAGTACTGATGCAGCTTCTAAAAGCGTGGACAAAAAACGGCATCGAAACCCATCTTTTTACTTCAGGTGGAAGAAAAGGTTTTCTTTCGGATCTTGCTTTGGTACAAAATCATTCCTTTTGGTATCGATTTTCAGATCATTCGCTGGTAAGAATTATTCATTTTTTTCTCAGCCAGTTTCTTTTAATGATAAGACTGCTGTTTTTTCTTCAAAAAAATGATTGGGTTTACATTAATACCGTATTACCTTTCGGGGCTGCCATTGCAGGAAGATTGAAAGGTTGTAAGATTATTTATCACATTCACGAAACATCTGTAAAACCTAAAATTTTCAAAGATTTACTTTTCGGTATTGCAAAACTTACAGCGCACAAAATTGTTTTTGTTTCAGAATTTCTGATGAAACAGGAATCTCTTATCAAAAACCAGATACTGCTATATAATGTTTTGGAAGAAGTTTTTGTGGATAAAGCAGATCGATTCCGAGGCAGGGAAAAAACGAACCAAACCGTTTTGATGATTTGTTCGCTTAAAGTTTATAAAGGCGTTAATGAATTTTTTATTCTGGCTCAGAAAAATCCGCAGTATATTTTTAAGCTCGTGGTAAATGCTTCTGAAAAAGACATTCAGGATTATTTTAAAGGAAAAGAAATACCCGGAAACCTGAAAATTTATCCTACACAAACCGATACCCATCCTTTTTACCGTGAGGCAAGCATTATTCTCAATCTTTCACATACAGATCTTTGGGTAGAAACTTTTGGTCTTACTATTTTGGAAGGAATGCGGTATGGTCTTCCTGCTATTGTTCCGCCGGTTGGAGGCGTTACAGAACTGGTGGAAGATAACGAAAACGGATTTTTGATTGATTCTAAAAACATGAATGAATTATCAGATAAACTGAATTTAATTTTAAACAATTCTTTGGTTTATCAGTCTTTCAGCTCTGCTTCTTATCAAAAAAGTTTAGATTTTTCTGAAGAATATTTTGAGAAAGAAGCAGTCAAAATTGTTTCCAATTCGTGA	MERIVAIHLLNDYSGSPKVLMQLLKAWTKNGIETHLFTSGGRKGFLSDLALVQNHSFWYRFSDHSLVRIIHFFLSQFLLMIRLLFFLQKNDWVYINTVLPFGAAIAGRLKGCKIIYHIHETSVKPKIFKDLLFGIAKLTAHKIVFVSEFLMKQESLIKNQILLYNVLEEVFVDKADRFRGREKTNQTVLMICSLKVYKGVNEFFILAQKNPQYIFKLVVNASEKDIQDYFKGKEIPGNLKIYPTQTDTHPFYREASIILNLSHTDLWVETFGLTILEGMRYGLPAIVPPVGGVTELVEDNENGFLIDSKNMNELSDKLNLILNNSLVYQSFSSASYQKSLDFSEEYFEKEAVKIVSNS	PGPT0019565_1712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019565-bshA-K00754	NA	NA
BMS003_04094	1233	mshA_4		D-inositol-3-phosphate glycosyltransferase	ATGAATACACAACAGACAATACTGGCAACTTGCTATGCCGTGAATCCGTATAAAGGTTCGGAAGATGCAATGGGATGGAATTTTGTATACCAGATTGCAAGATTCCGCAAAGTGATTGCCGTTACCCGGGAAAATAACAGATCCCATATTGAGAAATATATGGCTGAAAATCCGGACAAAGTTTATCAGAACATTCAATTTCTTTACTTTGATCTTCCCTATTGGATGCGCTTTTGGAAAAAAGGAAGCCGCGGTGCAATGCTCTATTTTTATCTTTGGCAAAAAGGAGTCATTTCTTTCATTAAAAAACAGAAGCTGCATTTTGATGTTGTTCATAATGTAAATTTTCATAATGACTGGACTCCCAGTTTTCTCTGGAAGCTTAATAAGCCTATGGTTTGGGGACCGGTTGGCCATCACCCTCTGATTCCCAAACAATACCTGAAAGATTATTCTAAAAAATATATCATCAAAGACCGCCTGACCTGGCTGGTAAAAAACCTGTTCTGGAAATTTTCAGGTTCGCTTCATAAAACGGTGCAGCATTCCAGTCACATCTGGTGTATGAACAGTGGCGTTCCCGAAAAACTGAATATTGGTAAAAATAAATATTCTCTCTATCCATCAGTAGCTTCGGAGGATTTTTATCAGAAAGATGATGTTCCTCAGAAATCAGGCTTTACTGTGATCAGTGTGGGAAGATTTGTCCCGTTAAAAGGTTTTGATTTAACCATAAAATCTTTTATAGAATTTGTAAACCAGCTTTCCGAAAAAGACAGGGTAATATGCAAGTTGATTCTTGTAGGGACAGGTGAACAAAAAACCTTCTACGAAACCCTTATTAAAGAAAACAAAATGGAAAATTTTACCGAAATTGTAGAATGGATTGATAGAAAAGATTTAATGAAAATGTATGAAAAATCTTCTGTATTTCTTTTTCCATCTCATGAAGGGGCGGGAATGGTAGTTCCGGAGGCTTTGTCTTTTGGATTGCCTGTCATCTGCCTTGAGAATGAAGGCCCAGGTGAATTTATCAGTCATAAATGCGGTTTTACAGTTCCCCAGCAGGAATACGGTGAAACGGTAAAAGGATTGAGTGATGCCCTGCTCAGATTGTTTTTAGGAAAAGACCTTCAGCAGGAAATGAGCATTGGGGCAAGACAACATTTTCTTGAAAGATTTTCGTGGGAAAAAAGAGGAGAACATCTTAATGCAATTTATAATCAAATCTAA	MNTQQTILATCYAVNPYKGSEDAMGWNFVYQIARFRKVIAVTRENNRSHIEKYMAENPDKVYQNIQFLYFDLPYWMRFWKKGSRGAMLYFYLWQKGVISFIKKQKLHFDVVHNVNFHNDWTPSFLWKLNKPMVWGPVGHHPLIPKQYLKDYSKKYIIKDRLTWLVKNLFWKFSGSLHKTVQHSSHIWCMNSGVPEKLNIGKNKYSLYPSVASEDFYQKDDVPQKSGFTVISVGRFVPLKGFDLTIKSFIEFVNQLSEKDRVICKLILVGTGEQKTFYETLIKENKMENFTEIVEWIDRKDLMKMYEKSSVFLFPSHEGAGMVVPEALSFGLPVICLENEGPGEFISHKCGFTVPQQEYGETVKGLSDALLRLFLGKDLQQEMSIGARQHFLERFSWEKRGEHLNAIYNQI				NA	NA	NA	NA	NA
BMS003_04095	741		COG0110	Putative acetyltransferase	ATGAAAACAATTGTTGAAAAAATCATACAACTCAGAAATCCTGATTTTATAATTGATGATTCTTTAAACTCCGGAGCAGTCTTTCAGCTCATCTGGGTTCAGCTCTGGAGTTTTTTAAGAGGTTTGAAAGTACTTCTGCTTCTTAAAAATCCAAAAGGAATGCTTCTGGGAAAAAGGGTAAGCTTTTTTAATATGTCCAAAATAAAATGGGGAAAGTTCCTGAGACTGGGAAATGATGTTTACATTTCTGCATTGGCAAAACAGGGAATTGATTTCGGAGACAATGTTTCTATAGGTGCTTTTAGCAGAATTATTGTTTCAACTTCTTTTAATGATATTGGTGAGAAAATTAAAATAGGAAACAATGTAGGCATTGGAGAATTTGCTTATCTCGGGGGTTCCGGCGGGTTGGAAATTGGAGATGAATGCATTGTAGGTCAGTACTTAAGCTGTCATCCGGAAAATCATAATTATGAAGATTCACATACACCCATCAGACATCAGGGTGTCAGCAGAAAAGGAATTAAAATAGGAAAAAACTGTTGGATTGGCAGTAAAGTTACCATTCTTGATGGTGTAGAAATTGGCAATGGATGTATTTTGGCCGCAGGAAGTGTAATTACAAAGTCCTTTCCGGATAACAGCATTATCGGAGGAATCCCTGCAAAACTTTTAAAAACAAGAACTCATGAATACACAACAGACAATACTGGCAACTTGCTATGCCGTGAATCCGTATAA	MKTIVEKIIQLRNPDFIIDDSLNSGAVFQLIWVQLWSFLRGLKVLLLLKNPKGMLLGKRVSFFNMSKIKWGKFLRLGNDVYISALAKQGIDFGDNVSIGAFSRIIVSTSFNDIGEKIKIGNNVGIGEFAYLGGSGGLEIGDECIVGQYLSCHPENHNYEDSHTPIRHQGVSRKGIKIGKNCWIGSKVTILDGVEIGNGCILAAGSVITKSFPDNSIIGGIPAKLLKTRTHEYTTDNTGNLLCRESV				NA	NA	NA	NA	NA
BMS003_04096	2313	tmk		Thymidylate kinase	ATGAAAACATTATTTATACATACAGGATACAGGTTGTTTACACAAAGAGAAAAAGAATGTCAGAAAAAGATCTCATTCTCTTATGTTTTGAATCCCGATGGAAGCTTAAGATGGTTTTGGAATACAAATTCTGACCAACCGTTATTTTTAAAATTCTATAATGCAGTAACTCCGAAAGCAAAGCTTTACAGATTATTTGTAAAATTAATTTTTGTTTTAGGTTTTCAGAAGCTTTTCTTTAAAAAGGAAACCGTCTATTATATTAAAGGAGAAAATCCGCTGTTTGATATTGAACGTGATTGGGCTGTTTTCACAGGAACGGTAGGGCCTAATAATAAAGCCCTACTGTTTGCTAACGGATCCTTCTATAAAATTGCCAACACAGAAAATGCAAAAAGATTATTGAAAAATGAATCTGTAAATAGCAGATATGCAATGAATAGCATCTATTACATCATTCCAAAAGCATTTTTACATACAGATAGTTTATTACAGTTAAGTGATATTTCCGATGGTGGAAAAAGACAAAATACATTTGGTGAAATACATGCCAAAGCGTTGCAGGGTATGAAAGAGAGATATCAGGGAACCTGTAAGATTTCAGACTGGAGCTATTTTCGTAAGCTGAAAAAAGAGTTTGAAGATATACATGATGAAAGAATCTCAGCGAATCTTAAGAAAAAAATCAATAGTCTATTAGCTCAGATTAATGAGGATGAAACAGTTTCACGTTCTTTTTCCCATGGTGATTTCACCTCCTGGAACTGCTATATTAAAGAAGATATTTTAGCAATTTATGACTGGGAACTGGCTTCATGTGAGAGACCAAAAGCATTTGACTTTTTTCATTTTATCATCCAAAACGGAATTTTAATCCACAGAAAACCATGGAAGAAAATCTTAGAGGAAATACAAATTAAAAACACCATTACTTTTCAGATGCAGTCTCAGGAACTTGAGAAGTATTTAAAATTTTATCTTATCATCAATACCTTGTTTTACCTTAATATATATGCTCAGCAGGAGAAATGGCATATGCAGATCCAGTGGCTGTTACAAACATGGTCTGAAGCATTAAACTCTTTCTTAAGCGAATCCCATACTGAAAGAGAACTTCTGATAATGGATATTTTCGACCAGCTTTCTCATATGAATTATGCAGCATTAAAGCTGAATGATGAAGAACCTGAAAAATTAAAACTCAACTCAGACCTGGATATTGTATTACCTTTCAAAGAAGCTAAAGAACTGATTCGTTATTTGTCTCTTCACAGCTTAGTCAGAAAAATTTCGGTAGTAAGAAAGTCTTTCATGACATCCGTGAGAATTATCAGCCACCAAAACGAAATTCTAAATCTTGATTTGATTTCACAATTCAAATGGAAATATCTTCAGATTTTAAATATAGACGAGATCCTTAAAAACAGGCAAAAAAACAGATTCGGAATTTATAAAGTTTCTGAAAGTGATACAGCAAGGTTTATAGATTTGTTCTACAGTTTAAATAAGTCTAAAATCCCTGCACAATATGAATCATTTGTATCACAGCAATTACAGGTAAAAAAAATAAAAGATGATAAAACAGAAATAAAATCACTGAAAATGAAAAGCAGCAACCGAGGTTTTAAATTTCTTAAAAATATATTTTTTTACCTCAAAGATACTTTCTCCGAAAAAGGCTTTATCATCACATTCAGCGGAGTTGACGGAGCCGGGAAATCAACAGTTATCTCAGAAGTTTCTGAATTAATAGAAAAACGATACAGAAGACCGGTAAAGGTTCTGAGACACAGACCTTCCCTACTTCCGATTTTAAGTGTCTGGACAAAAGGTAAAGAAAAAGCGCATCAGGATGTGATAAACGCTCTGCCGAGACAAGGCAGGAATAAAAGCTCAATCTCTTCACTTCTAAGATTTGCTTATTATTATACAGACTATATTTTCGGTCAGTTTATTATCTATCTGAAATATGTACTGAGAGGAAAAATAGTTTTGTACGACAGGTATTATTTTGATTTTATAGCAGATGCTAAACGAAGTAACATTCAGCTATCTAAAACTCTGGCTGAAAAGGGATATCATTTACTGATGAAACCTAAGTTTAATTTTTTTCTTTATGCCGATCCCGAAAAAATCCTCAATAGAAAAAAAGAACTCTCTCATCAATCTATTTGTGAACTGACTGCCGAATACAATCAATTGTTTTCTAGACTGGAAAAACAAAATCAAAGATCAAAATATCTCGCTATAGAAAACAATGATCTGGGTAAAACTTTGGGAACTATAATGAACACTATAATTGATACAAAATGA	MKTLFIHTGYRLFTQREKECQKKISFSYVLNPDGSLRWFWNTNSDQPLFLKFYNAVTPKAKLYRLFVKLIFVLGFQKLFFKKETVYYIKGENPLFDIERDWAVFTGTVGPNNKALLFANGSFYKIANTENAKRLLKNESVNSRYAMNSIYYIIPKAFLHTDSLLQLSDISDGGKRQNTFGEIHAKALQGMKERYQGTCKISDWSYFRKLKKEFEDIHDERISANLKKKINSLLAQINEDETVSRSFSHGDFTSWNCYIKEDILAIYDWELASCERPKAFDFFHFIIQNGILIHRKPWKKILEEIQIKNTITFQMQSQELEKYLKFYLIINTLFYLNIYAQQEKWHMQIQWLLQTWSEALNSFLSESHTERELLIMDIFDQLSHMNYAALKLNDEEPEKLKLNSDLDIVLPFKEAKELIRYLSLHSLVRKISVVRKSFMTSVRIISHQNEILNLDLISQFKWKYLQILNIDEILKNRQKNRFGIYKVSESDTARFIDLFYSLNKSKIPAQYESFVSQQLQVKKIKDDKTEIKSLKMKSSNRGFKFLKNIFFYLKDTFSEKGFIITFSGVDGAGKSTVISEVSELIEKRYRRPVKVLRHRPSLLPILSVWTKGKEKAHQDVINALPRQGRNKSSISSLLRFAYYYTDYIFGQFIIYLKYVLRGKIVLYDRYYFDFIADAKRSNIQLSKTLAEKGYHLLMKPKFNFFLYADPEKILNRKKELSHQSICELTAEYNQLFSRLEKQNQRSKYLAIENNDLGKTLGTIMNTIIDTK				NA	NA	NA	NA	NA
BMS003_04097	1290			hypothetical protein	ATGGAAACATTATCACTTCAACATCAAAAATTCCTGAAAAAAATTAACAATCAGATGTTTATCATCTTATTGCTGATGGTGGCATGTTTTTTTACCTGGAGTGAAAATGTGGCAATTACCAGAGGGATAAAAGTGGTAGGAAGAATGGGCGTGATGATTTCATCAATCCTTGTGTATCAAAAGATTATCAATTACGGAAGTGTAAACTCTTTGGCATATAAAAATATTTTTTCACCTATTTTATACATGATCTATCTTACTTTAGGATTTATCTCCTTTTCGTGGAGTACGAACCCGGGGTTCAGTGCATTGCAGTGGTTTATGACTTTTCAGAGCTTTGTTTTTGCTTATTTTTTTGTGAAAAGTTTAAAAATCCTGGATATTTATTTTGAAGGACATCCTATTCGGCTATATCATCTTTTGGGAAATACAGTTTTCGTTTTGCAGCTTATTTTCGTCATCGGAATGTGGACTGCTCCTGATGTTTTTTTCAGACTTACTGACGGTGGTGAAGAAGCCAGGTTAGGCGGAACGATGATGAATCCCAACGAGCTCGGAATGTTGGCCGGAGTAGGTTCTGCCTGTCTTATTTTCGACTTGTATCGATTCAAAAATAAAGTCTGGACCATTGTAAAAATCCTCGTCATTATGTATGCTCTTTTTATGACAGGTTCCAGATCATCATTAATAGGGGTTTTGCTGATTATCTTCTTCCATATTAACCAAACAAAACAGAAAACGCTGAAGTTCGCAATCATTGCTGTTGTTGCTGCCGTGGCTCCGTTTGCCGTATATACTGTTATTTTAAAGGGGGGTGACCAGGAAAGGCTGGAAGAAGTAATGAGCCTTACCGGAAGGCTTCCTTTCTGGAAAGCCTTAATCACAGAAGGTTTACCCAGGGAACCGCTTTTAGGCTTTGGCTTTATGAGGATTGATTACAAAGAGTTCTTCCAGAGTGCACATACCTATCCCGGGAAAATGACACACAATACTTTTATGCAGGTTCTGATGAATCTTGGATTTATTGGGTTTACGATTGTCTTATTTCAGGTGTTTTTTACGGTAAAATCCATTTTATCAGAACAAAAAGAACTCAAACTCATGCTTATCGGGATTCTTATCCCTATTGTGATTAATTCTTTTACAGAATTCGGGATATTTGGGGAAAGCAATTACGGAATTCTCTTCTATCAGATTATTATTTTTTCTGTGGCTTTCAGAAATAACGGACATCTTACAAGACTTCAAAAGATCATTCTCAGAAAGAAAAGACCGGAGCTTGTCCCATAA	METLSLQHQKFLKKINNQMFIILLLMVACFFTWSENVAITRGIKVVGRMGVMISSILVYQKIINYGSVNSLAYKNIFSPILYMIYLTLGFISFSWSTNPGFSALQWFMTFQSFVFAYFFVKSLKILDIYFEGHPIRLYHLLGNTVFVLQLIFVIGMWTAPDVFFRLTDGGEEARLGGTMMNPNELGMLAGVGSACLIFDLYRFKNKVWTIVKILVIMYALFMTGSRSSLIGVLLIIFFHINQTKQKTLKFAIIAVVAAVAPFAVYTVILKGGDQERLEEVMSLTGRLPFWKALITEGLPREPLLGFGFMRIDYKEFFQSAHTYPGKMTHNTFMQVLMNLGFIGFTIVLFQVFFTVKSILSEQKELKLMLIGILIPIVINSFTEFGIFGESNYGILFYQIIIFSVAFRNNGHLTRLQKIILRKKRPELVP	PGPT0026585_404	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026585-exoQ-K16567	NA	NA
BMS003_04098	1113	mshA_5		D-inositol-3-phosphate glycosyltransferase	ATGGGTGTGATTCATTTAATTTTAGGCAAAGCAAACCCCGAAAAAATGAACGGCGTCAACAAGGTCGTTTATAATATTGCAACGAAGCAGGCCGAAAATAATTTTCCGGTGGAAGTTTGGGGTATTTCTGAAAACACAGAAATCAATTATCCTGAGAGATCATTTACCACAAAGATCTCTAAAAGAAAAAAAAATCCGTTTTCCATTCCTGAAGATCTTAAACTGCAGATATTGAAAAGCGATCCGTCTACAGTTTTTCATCTTCACGGAGGCTGGATTCCTGTGTTTTCTTCACTGGGCAAATTTCTGCATAAAAACAAGCGAAAATATGTGATTACACCCCACGGAGCATATAACACAGTTGCAATGGCAAAAAGTAAACTCAGAAAGAAAATATATTTTAATCTTTTTGAGAAAAGTTTCATCAGAAACGCTTCAAAAATTCATTGCATCGGTGAAAGCGAAATTGATGGATTACAATCTATTTTCCCGAACAATAAAAGTGTCTTGATTCCTTATGGTTTTGAACAGCTGAAAGAAGGTTTTCAAATTAATTCAGACAAAAGGCAGATCATCTTTGGTTTTGTCGGAAGACTGGATATTTATACAAAAGGACTCGATCTTTTGGTGGAAAGTTTTGCTTCATTCTCTATTACTCATCCTGATTCCAGATTTTGGATTATTGGTGACAGCAATGAAAAAAATGAACTTCAAAAATTAATTGAAACACATAAAGTTTCAGATAAAATTGAACTTTTAGGAAGCAAATTCGGGGAAGAAAAAAATAATTTAATAAAAAAAATGGATGTTTTTGTACACCCTTCAAGAAACGAAGGGTTACCGGTCTCTGTAATTGAAGCCGCCAATTTTGCAAGGCCCTGCATCGTAACAAAAAACACCAACATTGGTTATCTTATTGAAAAATACAATGCAGGTATCAATATTCCGTTTCCTGATCCGAAGCTTTTAGAACAGGCTTTTAATGAGATCTATGACATCTGGAAAGACCAGCGTCAATATGACAGAATTTGTTGTAATGCTGTAAAAATGGTAGAAGAAGCCTTTAACTGGAATACAATTCTTCAACAGATGAATAGCCAACTTTACACGTAA	MGVIHLILGKANPEKMNGVNKVVYNIATKQAENNFPVEVWGISENTEINYPERSFTTKISKRKKNPFSIPEDLKLQILKSDPSTVFHLHGGWIPVFSSLGKFLHKNKRKYVITPHGAYNTVAMAKSKLRKKIYFNLFEKSFIRNASKIHCIGESEIDGLQSIFPNNKSVLIPYGFEQLKEGFQINSDKRQIIFGFVGRLDIYTKGLDLLVESFASFSITHPDSRFWIIGDSNEKNELQKLIETHKVSDKIELLGSKFGEEKNNLIKKMDVFVHPSRNEGLPVSVIEAANFARPCIVTKNTNIGYLIEKYNAGINIPFPDPKLLEQAFNEIYDIWKDQRQYDRICCNAVKMVEEAFNWNTILQQMNSQLYT				NA	NA	NA	NA	NA
BMS003_04099	1227			hypothetical protein	GTGAAAAAACTCAAAGAAATACTGCGCCAACCGTCTGCACTGGTTTTTACAGATCAGTTAATTTTCAGCGGGAGCAATTTTCTGCTAACATTTTTGCTGGCAAGAAAACTGAGTATTTCAGATTTTGGCCTTTTTTCAACCCTACTTTTGATTACTTATCTTTTGGTGGGAATCTTCAATGCACTTATCATTCAGCCTTTTCAGATTTCTGTAGCAAAAGGGTTCAGCAAAAAAGCATTGGGATTTGTTTTTCAGACATCCCTGTTTTTGATTCTCATTTTTGCTTTGCTGATGTTTGCTGTAAAATTTCTGCCGATTTCTGCCATTGATTTTTTTAAAACTAATTTATCCGCTATTATCGTCTTTGTTTCTGCCTATTTATTTCAGGATTTCCTTAGAAAAGTAGTATTGGCTATAGATGTTGTAAAACTTGCTGTTGTAATTGACAGTATGTTCTTTCTGGTTTTTCCATTGATTGGATTTTATGAAAGTCTGAATTTAGAAAAAAGCCTTTATTTAATAGCTTTTGCTAACATTATTGCATCATTTCCCGGGATTTTCTTCTGCCTGAGAAATGCGGAATTCAGTCTAAAAAACAAAGAACTATTTCAATATCATTTCAAAGAAGGAAAATGGCTTTTCAGCGCTTCTATTGTACAGTGGTTTTCGGGCAATTTCTTTACGCTTGTCGCCGGGATTTACTTAGGAATTAATGCTTTGGGAGCATTGCGTCTGGTGCAGTCTTTCTTCGGCGTCATCAATGTAATTTTACAGACCGTAGAAAATTATTACCTTCCCAAAACGGCTCAGCTGCACTATCAGAACAAAATACAGGAGAAAAAAACATTGCTTTTCAATTTATCTAAAGGTATGATGGTTCTGGGATTAATCATTACCGGATTTTTCATCTTTTCTGAACCTCTCATTACTTTGCTTGGCGGTGCTAAATATCAGCAGTACGGCTTTGTCATTAAACTTGTTTCTGCACTGTATATTGTGATCCTGTTCAGCTATCCTACACGAATTTCCATAAGAGTGTTGGAACAGAACAAAGCTTTTTTTATTGGATACTGTATTTCATTTGTGTTTTCTGTTTTAAGTTTCCATTTTCTATTAAAATACGGAGCACTGTATGGTGCAGTTGCCGGTTTGGCCATCAACCAAATCCTTATGATTGTGTACTGGAAGATTCTTCTTAACAAAAAACAGATTTCGGTATGGGTGTGA	MKKLKEILRQPSALVFTDQLIFSGSNFLLTFLLARKLSISDFGLFSTLLLITYLLVGIFNALIIQPFQISVAKGFSKKALGFVFQTSLFLILIFALLMFAVKFLPISAIDFFKTNLSAIIVFVSAYLFQDFLRKVVLAIDVVKLAVVIDSMFFLVFPLIGFYESLNLEKSLYLIAFANIIASFPGIFFCLRNAEFSLKNKELFQYHFKEGKWLFSASIVQWFSGNFFTLVAGIYLGINALGALRLVQSFFGVINVILQTVENYYLPKTAQLHYQNKIQEKKTLLFNLSKGMMVLGLIITGFFIFSEPLITLLGGAKYQQYGFVIKLVSALYIVILFSYPTRISIRVLEQNKAFFIGYCISFVFSVLSFHFLLKYGALYGAVAGLAINQILMIVYWKILLNKKQISVWV				NA	NA	NA	NA	NA
BMS003_04100	2148			hypothetical protein	ATGAACAGCGAAAACATAAGATTCCTGAAACCATTTCTGAGAGGATTGCCAATTATAATTCTGGCAATGGCAGTTTCTGTTTTGGCTGCAAAAAAATACCTCAATTACGTGACGCCCATGTACGAAAGTACTGCAAAACTAAAACTGGCCGACACGCAGGAAGGAGTTCCCAGCGCAAATCTCTTTAAAGATTTCGACGTATTCGCTTCCGCCAACAAAATCAGTACAGAAATAGAAGTTCTGAAATCATCTTCATTAATTGAAAAAACTTTAGAAAAACTCCCCTTTTCCACCGAAATATACAGAATCGGGAAAATGCGTTCTGTAGAGCTTTTCAACGATTCGCCGATACAGGTTGAAGCTACATTCGATGATAAAAAAAATTATGATAAAAAATTTATTTTACACATTAATTCAAATCAAAATTTCACCTTAATCAATGCAGATTCCACCAAAGAAGTAAAAGGGACTTTCGGAATTCCCGTAACCATCAATGGCGGAAAAATCCTGATTTCCAAAAACAACCAATATCTAAAATCCAAACCTGAAGCCAAAATTATCGATCAATACGAATTCGAGTTTCTGAGCCGTGAAAAACTTTTAGACAAAATCAATAAAAACCTGGATATTGTTTCTGTAGATAAAGATGTACCGGTAATCAGAATAAATTATAAAAGCAATATCCCGGAAAAAGCAAGTCTTCTGGTGAATACTTTAGCTGAAACTTATATTGAAGATTATATCGAAAACAAATACCGGGCAGCCAATACAACCGTAGATTTTCTGAAAGACGAAATCGGGCAGGCAAACAGCAAACTTTCCGATGCAGAAAACCGCATAGAAAACTACAGAAATAAAGAAAACATCATCAATATTGCGCAGGAAACTGAGACCGATTTAAGAAAAATTTCACAGTTAAAGATTCAGAAAAGTAATCTTAAAATGAATCTTGATGCCATTAAAAACCTAAACAGCTACATTGCAGAAGGAAAAGACAATTACCTTGATTTAGCTACTAATTTTGAAGCCTTCAACGACCTTCTTTCGACAGAAATGGTGAAAAATATGAAGCAGCTGCAGGCAGAAAAAAAAGAACTCTTACTCACATACACCCCCGAACACGAAAAGGTAAAGATCATCGATTCAAAAATAAAAGATCTCACCGATTATCAGACAGAAAGCATAAGAAACACACAAAGAAACTTACAGATAAAATATAACGATATAGACCGCGATATTCAGGTAGCGGAACAGGCTTTCATCGGGCTACCCGAAAAAGAAAAGCTTCTCAACATTATGAATCGTGAGTTTAATCTTTATGAAAAAAATTACAACTTCCTGAATGAAAAAAGGATAGATGCCGAAATCGCAAAATCAGCAAAAATTTCTTTCCATAAAATTATCACAAAAGGCGAACTTCCAACACAGCCCGTTTCACCTATGCGCTCCATCATCATTATTGTAGCTGCTATTATGAGTATGATTGGCTCTGTTATTTTGATTTATGCCGTACACTTTGCCAAAGCAAAAGTAAACGATGTCTATACAATTGAGAAAAACAGCACCATTCCTGTTGCTTTCTCAACACCTTTTATTAAAAAGAAAGAAAAAATAATGCATCATTTCCTTGAAAATGTTCTGGAAATGGAGCTTAAAGGAATCATTAAAGATAAAAGTATCATTTGCATCACGTCTTACGACAAAGCAAAGCAACATTGCTTTCATTCCAGAAATATCATCAAAGCATTGCAGGCACAATCAAGAAAAGTTTTGCTTATAGACGTTGCGGGAACTTTAGAACATACAGTTGCCAACCAATACATCAATCTTTCTGCTGAGGAAAATCTGAAACTTACAGCTCATGAAGTTCAGTCACTGATAGACGGAAAAATACAGGAAAATGACATTTGCATCATTAATAATCAGTCAATAAAATATGGCAAGCAGCCTCTCCTTTTCCTGAAACTGGCAGACCAGAATCTTTTCCTGCTGGACAGCCGAAAAACGGCTGCTAAAAGTATAATGAACGTTGAACTTCTGAAAGACGAATATCAGCTGACCAATCTTTGGTTTGTCTTAAATAAAGAAGGATATAATCCAAGTCTGATTACCACCATTAAAGGTTTTGTAAATAAATTCAGATCGTGA	MNSENIRFLKPFLRGLPIIILAMAVSVLAAKKYLNYVTPMYESTAKLKLADTQEGVPSANLFKDFDVFASANKISTEIEVLKSSSLIEKTLEKLPFSTEIYRIGKMRSVELFNDSPIQVEATFDDKKNYDKKFILHINSNQNFTLINADSTKEVKGTFGIPVTINGGKILISKNNQYLKSKPEAKIIDQYEFEFLSREKLLDKINKNLDIVSVDKDVPVIRINYKSNIPEKASLLVNTLAETYIEDYIENKYRAANTTVDFLKDEIGQANSKLSDAENRIENYRNKENIINIAQETETDLRKISQLKIQKSNLKMNLDAIKNLNSYIAEGKDNYLDLATNFEAFNDLLSTEMVKNMKQLQAEKKELLLTYTPEHEKVKIIDSKIKDLTDYQTESIRNTQRNLQIKYNDIDRDIQVAEQAFIGLPEKEKLLNIMNREFNLYEKNYNFLNEKRIDAEIAKSAKISFHKIITKGELPTQPVSPMRSIIIIVAAIMSMIGSVILIYAVHFAKAKVNDVYTIEKNSTIPVAFSTPFIKKKEKIMHHFLENVLEMELKGIIKDKSIICITSYDKAKQHCFHSRNIIKALQAQSRKVLLIDVAGTLEHTVANQYINLSAEENLKLTAHEVQSLIDGKIQENDICIINNQSIKYGKQPLLFLKLADQNLFLLDSRKTAAKSIMNVELLKDEYQLTNLWFVLNKEGYNPSLITTIKGFVNKFRS	PGPT0023285_1513	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
BMS003_04101	732			hypothetical protein	ATGTTAAAAAAACTCATCATATCATCCGTTTTTCTACTTCTCTTAGTTTCCTGTAAGACTTATAATGTCTTGGAAGAAGAGCAGATTTCCCGTAATATGCAGGATTTCAGCTTTGATCCGGATTACGAATACAGGATCAGAAAAGACGATAAAATTACGCTCTCCGTTTGGGGGCAGGATGATCTGAGCGTAGGTTCTGTCTATGGTATTTATAACTCCAACGAAGTATATGGAAAATGGCTTCTGGTAGATAAGTCTGGTAATATCGAAATTCCAAGATTAGGAACAACACCTGTTGTAGGAAAATCTGTTCCCGAATTAAAAGATGAAATAAGAACCAAACTAAAAAAATGGCTGGTAAACCCAATTGTGGATGTAAAAGTACTCAATAAAGAAATTGCTGTAATGGGAGAAGTAAGAAATCCAGCTGTAATTCAGGTTGATAAAGACCAGAATACTTTGCTGGAACTCGTTTCAAAAGCAGGCGGATTTGAAATGTATGCCAACCTGAAATCTGTAAAAATCCTGAGACAGGAAGGTGAAAATGTAAGAGTTACCAATATTGATCTCACCAGAATGAAAGATGTTCCTAACCAGAATATTGTGCTTCATCCGGGAGATTATATAATTGTTCCATCTAAGAAAAGTAAAGATTTTGATAAGAGAATTTCTACGATCATACCATTTGCAACAGTAACTTCGGCAGCTGCAATTTTGATAGGATTATTATAA	MLKKLIISSVFLLLLVSCKTYNVLEEEQISRNMQDFSFDPDYEYRIRKDDKITLSVWGQDDLSVGSVYGIYNSNEVYGKWLLVDKSGNIEIPRLGTTPVVGKSVPELKDEIRTKLKKWLVNPIVDVKVLNKEIAVMGEVRNPAVIQVDKDQNTLLELVSKAGGFEMYANLKSVKILRQEGENVRVTNIDLTRMKDVPNQNIVLHPGDYIIVPSKKSKDFDKRISTIIPFATVTSAAAILIGLL	PGPT0025530_3324	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
BMS003_04102	441	glnG_2	COG2204	DNA-binding transcriptional regulator NtrC	ATGGAAACTTCTAATCAAAATTTAAAATTCTTTATTGTTGACGATGATAGATTTTGTGCAACAGTTTATGAACAATATCTGAAAAATCATCATTATGAAGATGTTACTTCATTCAGCAACGGAGAAGAATGCCTGGACGCACTTCACCAAAAACCGGATATTATTTTTCTGGACCATAATATGGAAGATCTGAATGGCTTTGAAGTATTAAAAAAGATAAAAAGGTACGATCCCAACATCTACGTAATTATGGTTTCTGCACAGGAAAATATAGACACGGCAGTGAATGCCCTGAAATATGGAGCCTTTGACTATTTGGTAAAAGACACCAAAGTCTGTGAGAAAATGACAGACACCATAGAAAGAATTATAAAAATTAAAGAAGAAATGTCACAAGATAAATTAAAAGGTTTTAGAAAATTCTTTTCAATTTTATTTTAA	METSNQNLKFFIVDDDRFCATVYEQYLKNHHYEDVTSFSNGEECLDALHQKPDIIFLDHNMEDLNGFEVLKKIKRYDPNIYVIMVSAQENIDTAVNALKYGAFDYLVKDTKVCEKMTDTIERIIKIKEEMSQDKLKGFRKFFSILF	PGPT0025530_1945	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
BMS003_04103	2253	bvgS		Virulence sensor protein BvgS	ATGGAGATAGAATTTCATAATTTACTTAAAAGACAGATTAATAAATATCTTACAGAAGATTGTAGAACACACCCACAATTCAGCATTTTTATTAAAGCTGTCAATGAATCCTATAAATCATTTGAACGGGATAAAGAACTAATGGATCATGCATTCCGGCAGAATGAAGAAGAATATAAAGAACTATATAATAACCTCAAAAAGGAACATGTACTTAAACATGAGTCTATTTCAAATCTTTACGAATCTTTACAGCTTCTAGACACAGACATTGAAGAAAAAAAGACAGACGATCTCAACGAATTGTCCCTTTACTTAGCAGAACAAATAAAAGAGCGTAAAAGAGCTGAAGAAAATATTAAAAGGCAGGAGGAAAAATACCGTAATATTATCGCTAATATGAATTTAGGATTAATTGAGGTTGATAATAATGAAATTATCCGTTATGCCAATCAAAGTTTCTGTGAGGTTTCCGGGTTTGAACTTGAAGAAATAATAGGGAAAAATCCTTCACAGCTTTTTTTATATGGTGAAAGTAACATTCAGTTTTTACAGGAACAGATTGCATTAAGGAAAAAAGGTGTTTCCAGTGTTTATCAGCTTCCTGTAAAAAACAAAAGAGGTGAAATCCGATGGTGGGCCGTAAGTGGGGCTCCTAATTATGATGACCACGGAAATCTTTTGGGGTCTATAGGCATTCATCTCGATATCACAGATCAAAAAAAATTAGAAGTAGACTTAAAAAAAGAAAAAGCAAAAGCAATAGAAGCATCAAAGGCTAAAGAAGTTTTTTTAGCTAATATGAGCCATGAAATCAGGACACCCCTTAATGGTATTATTGGCTTTTTGAGAGAGCTGAAAAGACTTGATTTAAGCGGTACTCAAAGCCAGTTTGTTGAAAACAGCTACAATGCCTCACAGCATTTGTTATCTATCATTAATAACATTCTGGATATTTCAAAAATTGAATCCGGTGAAATGTCATTAGATATACATTCTTTTTCAATCAAAAAAAGTATTCAGGGCGTTCTTACTATTCTTGAAGCTAAGGTCAAAGAGAAAAAGATAAATTTAAAGACCATTTTTTCAGATCATCTTGCTCCTGAGTTTAAAGGAGACTCTCTAAAAATAGAACAGATTCTCTACAATATTCTCGGTAATTCTCTGAAGTTTACTAACCAGGGGGAGATTGTAGTAGACTGTACCGTGCTAAAGGATTATCCCAATTACCAGACTATTTCAATAATTATTTCTGATACCGGAATAGGCATGAGTGAAGATTATGTAAAAAATATGTTCAAAAAATTCAATCAGGAGGATAGTTCAGTTTCCAGAAGGTATGGAGGTACCGGCTTAGGTATGGCCATTACCAAAGAGCTTGTGACTTTGATGAAAGGAAAGATAGAGATAGAAAGTGAAAAAAACGTAGGAACCAGAACAACTATTATTCTAAATATGGAAAAAAGTACTGAGAAGCCTTCAGAAAAAAACAGGGAAGAAAATGATAATATCTCAATAAAAGGAACGAATGTTTTACTTGTAGAAGACAATGAAATCAATCAGCTTGTAGCAGAGAATTCCCTGAAATATTTTGGATGCAGAGTTACTAAGGCCGATAACGGTAATATAGCCATTGATATCCTTGCAAAAGAAAAATTTGATATCATTTTAATGGATATACAGATGCCTGAATTAGACGGCATTGAGACGACTAAAATACTTCGGGATGAACTTACTCTTAAAACTCCCATTATTGCCCTTACAGCTAATGCATTTAAAACAGAGATTGATAAGTGCATGTCTGTGGGGATGAATGATTATATAACAAAACCGTTTAATGAAGAAGAGCTGCTGAAGATTATTTATAAACATACCCAAAATACTACTGTAGGAGATAGTATAAACAGAGAGCAGAAACTTTATAATTTAAACAGCATAGAAGCGCTGAGCAGAGGTGATGAAGCTTTTGTTCAGAAGATGCTTTCCATATTCATTACCCAGATCCGGGAAACTGTTCCTTTAATTGATAAGGCATTAGAGGAAAAAAATTATACAGAAATTTCAAGATTGACACATAAAATAAGACCAAGTATTGAAGGATTTGAAATCTATGCGATTCAGGATAAAATGAAAGACCTTGAAGTAAATGCCAAAGAGCAAAATATGGATTTCCCTGAACTTTATCAGTTATTTGAAGATATAAAATCTACACTTACACAGGTAATTGAACAGCTGCAGGAAAAAGTAAAATAG	MEIEFHNLLKRQINKYLTEDCRTHPQFSIFIKAVNESYKSFERDKELMDHAFRQNEEEYKELYNNLKKEHVLKHESISNLYESLQLLDTDIEEKKTDDLNELSLYLAEQIKERKRAEENIKRQEEKYRNIIANMNLGLIEVDNNEIIRYANQSFCEVSGFELEEIIGKNPSQLFLYGESNIQFLQEQIALRKKGVSSVYQLPVKNKRGEIRWWAVSGAPNYDDHGNLLGSIGIHLDITDQKKLEVDLKKEKAKAIEASKAKEVFLANMSHEIRTPLNGIIGFLRELKRLDLSGTQSQFVENSYNASQHLLSIINNILDISKIESGEMSLDIHSFSIKKSIQGVLTILEAKVKEKKINLKTIFSDHLAPEFKGDSLKIEQILYNILGNSLKFTNQGEIVVDCTVLKDYPNYQTISIIISDTGIGMSEDYVKNMFKKFNQEDSSVSRRYGGTGLGMAITKELVTLMKGKIEIESEKNVGTRTTIILNMEKSTEKPSEKNREENDNISIKGTNVLLVEDNEINQLVAENSLKYFGCRVTKADNGNIAIDILAKEKFDIILMDIQMPELDGIETTKILRDELTLKTPIIALTANAFKTEIDKCMSVGMNDYITKPFNEEELLKIIYKHTQNTTVGDSINREQKLYNLNSIEALSRGDEAFVQKMLSIFITQIRETVPLIDKALEEKNYTEISRLTHKIRPSIEGFEIYAIQDKMKDLEVNAKEQNMDFPELYQLFEDIKSTLTQVIEQLQEKVK	PGPT0004750_153	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
BMS003_04104	1137			hypothetical protein	ATGAAAGTTGCAAAACTACTTTATATAAACGGTAAATGGGAATCTGAACGCAATGATAAAAATATAGATTACCAGAATGCTGTTCTGGTTCTGGGATATGGTGCACGAAACATCCTGGAAGATCCTGCTTTTTTTTCTGAAGTAAAAAAAAAGTTTCCTAAGGCAGAAATAGCTCTTTCATCCTCTTCAGGTGAAATTTTCTGTAATGAAGTTTTTGATGACACAGTAGCCATTACAGTAATGGAGCTTGCATCATCACAGATCAGAACTACACAAATAGACATCAATGATTTTCAGGATAGTTTTGAAGCAGGAAACAGGCTTATAGAAAACCTTCCTCATGATCATCTTAAATGGATATTCGTTTTATCAGACGGAAGTAAAGTTAACGGAAGCCAACTGGTAGAAGGAATGAATAATGCCCGTCCTGATAAAGTTTTAATTTCAGGCGGACTGGCCGGTGATAGTGATAAGTTTGAAAAAACAGTAGTGGGTCTCAATCAGGTTCCTGCATCGGATAACATCATTGCTATTGGCTTCTATGGAGATAAATTAGAACTGTCTCATGCTTCTTTCGGAGGATGGGAAAGTTTTGGTTTAGAAAGAACAGTGACCAGGTCTGACAATAATATTCTCTATGAAATAGATAACAAAAATGCGTTGGATCTCTATAAAAAATATTTAGGCAAGTATGCGGAAGAGCTTCCCAGCTCAGCACTGCTTTTTCCTCTCTCATTAAAAGTTTCAGAAGATTCGGATCCGGTAGTGAGAACTATTTTATCAATAAATGGCGAAGGTAATATGATTTTTGCGGGAGATTTGCCGGAAGGAAGTAAAGTAAGATTTATGAAAGCCAATATGGACAGACTGATAGATGCTGCTAATGATGCTGCAGAGGAATGTTTGGCCATAAGTTCAGCCCCAAGCCTGGGAATTATAGTAAGCTGTGTCGGACGAAAGCTTGTTCTTGGGGAAAGAATAGCCGAAGAAATAGAAATTGTAAGAGATGTATTGGGGAGTGAAACAATATTAACAGGCTTTTATTCTTATGGTGAAATATCACCCTTAAAGTCATTTGAGGATTGCATGCTGCATAACCAAACCATTACCATTACGACCGTACATGAAATTGAATAA	MKVAKLLYINGKWESERNDKNIDYQNAVLVLGYGARNILEDPAFFSEVKKKFPKAEIALSSSSGEIFCNEVFDDTVAITVMELASSQIRTTQIDINDFQDSFEAGNRLIENLPHDHLKWIFVLSDGSKVNGSQLVEGMNNARPDKVLISGGLAGDSDKFEKTVVGLNQVPASDNIIAIGFYGDKLELSHASFGGWESFGLERTVTRSDNNILYEIDNKNALDLYKKYLGKYAEELPSSALLFPLSLKVSEDSDPVVRTILSINGEGNMIFAGDLPEGSKVRFMKANMDRLIDAANDAAEECLAISSAPSLGIIVSCVGRKLVLGERIAEEIEIVRDVLGSETILTGFYSYGEISPLKSFEDCMLHNQTITITTVHEIE				NA	NA	NA	NA	NA
BMS003_04105	981	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	TTGAAACAGGAAGTTGAAGACTTAAAAGACGAGCTGGAAAAGAAATACAGTTTTGAGAAAACAATTATTGGACAAAGTGAATCGCTAAAAGCTATATTTTCAAAAATTGGCAAAGCCCTCAAATCAAACATTAATGTTTCTATTACCGGAGAAACAGGAACAGGAAAAGAGGTTGTAGCCAGAGCAATTCATTATAATTCTACACGGAAGAACAAGCCTTTTGTGGCAATAAATATGGCCGCTGTCCCTAAAGACCTTATGGAAAGTGAATTCTTTGGACACGAAAAAGGAGCCTTTACAGGAGCTAATGATAGATCAATCGGAAAATTTGAACAGGCCAACGGCGGGACTATTTTTTTAGATGAAATTGCTGAACTGGATTTTAATCTTCAAAGTAAACTTCTTCGCGCACTGCAGGAAAGGGAAATTATAAGAGTAGGTGGAACCCAGAAAATTAAACTTGATATTCGCCTGATTATTGCAACGCATAAAAATCTGGCCAATGAAATTAAAAAAGGGAACTTTCGGGAAGACCTTTATTACCGCGTTGTGGGCCTTCCTATAGAATTACCCCCGCTTAGAGACAGAGACCAGGATATTCTGATCCTGGCAAAACATTTTATAGATTCTTTTGCAAAAGAAAATAAGATTAAGGCGCTTAATTTATCTCCTGATGCCAAAAAGAAACTTTTAAAATATAGCTTTCCCGGAAACGTAAGAGAGCTGAAATCTGTAATAGATCTTGCCTGTGTAATGGCAGAAGGCAGTGAAATAGAGCAAGATGACATCAATTTTTATAATCTTGAAAAGGATTCGGAAACATTTCTTACCGGGCATAAGACATTAAAACAATATACAACGGATATTATACTTCATTTTCTGAAAAAAAATAATAATGATGTCATAAAGACGGCAAAAATTTTAGATATAGGAAAATCAACTGTCTATAACGTTATAAACAGTATTTCAAAAACACATTAA	MKQEVEDLKDELEKKYSFEKTIIGQSESLKAIFSKIGKALKSNINVSITGETGTGKEVVARAIHYNSTRKNKPFVAINMAAVPKDLMESEFFGHEKGAFTGANDRSIGKFEQANGGTIFLDEIAELDFNLQSKLLRALQEREIIRVGGTQKIKLDIRLIIATHKNLANEIKKGNFREDLYYRVVGLPIELPPLRDRDQDILILAKHFIDSFAKENKIKALNLSPDAKKKLLKYSFPGNVRELKSVIDLACVMAEGSEIEQDDINFYNLEKDSETFLTGHKTLKQYTTDIILHFLKKNNNDVIKTAKILDIGKSTVYNVINSISKTH	PGPT0021745_945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714	NA	NA
BMS003_04108	600			hypothetical protein	ATGTCATCTCACACAGAACAAGATCAGCTCTCAAAACAAATCCTGGAAACCGCTTCAGGACTGTATTTGAAGTATGGTTTAAAGAAAGTGACAATGGATGATATTTCAAAAGCAGTCGGGAAAAGCAGAACATCCATCTATTATTATTATAAAAATCGGGAGGAAGTTTTTCAGGCAGTTTTGGAAAATCTGATCAAAGAAGTTATTGCTGAGATTGATTCCAGAATGAAAAAAAAGAATAGTTTTGAGGGAAAAATCCAGGAATTTTGTCTTGCTAAAGTGAAGACATCGGAAGAAAGATCTTCATTTTTCAGAGCTATAGAAGCCGGAATGGACCATGAAGAAAAGTCTAAGCATATTACCGATGCACACAACCGAATGATGGAAGCAGAAAGAAATCTTCTGCTTAATTTATTTTCAGCGAGCATTCATAGCGGCCACATTCCAAAGGTTGCTATTGAAGAACAGGAAACCATTATCTTTATTCTCCAGAGTAGTATCAGAGGAATAAGGCGTGAGATGGGCTTACAAAACAATTTTGAAAATTTAAGCAGCACAGTGAATACACTTACTTCTATGGTTATCAAACATATCAGTTAA	MSSHTEQDQLSKQILETASGLYLKYGLKKVTMDDISKAVGKSRTSIYYYYKNREEVFQAVLENLIKEVIAEIDSRMKKKNSFEGKIQEFCLAKVKTSEERSSFFRAIEAGMDHEEKSKHITDAHNRMMEAERNLLLNLFSASIHSGHIPKVAIEEQETIIFILQSSIRGIRREMGLQNNFENLSSTVNTLTSMVIKHIS				NA	NA	NA	NA	NA
BMS003_04109	1281	entS_2		Enterobactin exporter EntS	ATGAATAAATTAAGCAATATCAGTACATTCCGAGCTTTCAGAAGTACCAATTATACATTATATTTTTTCGGGCGTTCTGTCTCTCAATTCGGGACCTGGATGCAGCGTACGGCGGTAGTTTGGGTTGTATACAGTATGACTCAATCTGCTTTTATGCTGGGGCTTACCATTTTTGCAGAGCAATTCCCTTCTTTTTTATTTTCGGCATTCGGTGGGGTTGCTGCAGATCGTTATAACCGGTACAAGATCATACAGATTACTCAAATTTTATCATTAATTCAGGCTTCTTTATTAGCCATCCTGGTCATGACAGGGCATCAGAATATCTGGAGCTTCATTGTGCTCAGCGTTTTTCTCGGTATTATCAACGCTTATGACATTCCTGCGAGGCAGGCTATGATCAATGAAGTAGTAACGGATGATGAAGATCTTCCAAGTGCTCTGTCTCTGAGCGCAGCCATGGCAAGTATTGCAAAATTAGCAGGGCCTGCACTTTCTGGAATTATTCTTCAAAAATTTGGGGCGGGAACGTGTTTTCTTATCAATGCAGCCAGTTTTGCTGCAGTAATGCTTTCTATTTCAATGATGAAAATAAAGATTATTCCTAAAAAACCGGGTAAAAAAGGAACTTTTAAGGAACTGGCTGAAGGTTTCCGATACCTGAAAAAAGAGCCATCAATCAGCCTGGTCATCATTATGCTGAGCATTACAGGTTTACTGATTTTACCTTATGATACTTTAATCCCTGTTTATGCAAAGGAAATTTTTAAAGGTGATGCCAAAACATTTGGTTATATCTCAAGTTTCATTGGAATTGGAGCCGTTCTCGGAACGGTATTTCTGGCATCCCTGAAGAAAGAGGCTTCCATGAGGAGTATTCTTATCCTGAGTACTGTAATTCTGAGTATCGGGCTCATATGCTTTTCATATGCCGATAATTTCTACTGGTCTATGTTCTTTGCCGCACTTACAGGGTTAGGCGGCGTGGCACAGTTCACCACCTGTAATATCATCGTACAGTCTGAAGTGATTCCTGAAATGCGTTCAAGAGCGATCAGTATTCTGCTGACTGCCATATTTGGGATGCTGCCTTTGGGAAGTGTACTCATCGGATTCGTTTCCGAGAAAATAGGAGCACCAAAAACTTTATTGATAGAAGGAATAGCAGGAATTTTAATTGCTGTTGTCTTCAGACGTTTATTATTTAAAAAGTATACGACAAAAACTATCAGTAATCGACCTTTAGAAGAACCGGAAGAACAATTCACAAATAAAATATAA	MNKLSNISTFRAFRSTNYTLYFFGRSVSQFGTWMQRTAVVWVVYSMTQSAFMLGLTIFAEQFPSFLFSAFGGVAADRYNRYKIIQITQILSLIQASLLAILVMTGHQNIWSFIVLSVFLGIINAYDIPARQAMINEVVTDDEDLPSALSLSAAMASIAKLAGPALSGIILQKFGAGTCFLINAASFAAVMLSISMMKIKIIPKKPGKKGTFKELAEGFRYLKKEPSISLVIIMLSITGLLILPYDTLIPVYAKEIFKGDAKTFGYISSFIGIGAVLGTVFLASLKKEASMRSILILSTVILSIGLICFSYADNFYWSMFFAALTGLGGVAQFTTCNIIVQSEVIPEMRSRAISILLTAIFGMLPLGSVLIGFVSEKIGAPKTLLIEGIAGILIAVVFRRLLFKKYTTKTISNRPLEEPEEQFTNKI				NA	NA	NA	NA	NA
BMS003_04110	1590			hypothetical protein	ATGCATAAAGTTTTATTGCTATCATCCTTATTATTCAGCATACCCATTTTTTGTCAGCAAAAGATATATTTCGACAAAGACTGGAAAGAAACTTCAAAAGATAAAGCTGAATTTTACAGAACAATTGATAAAAATCAACAGAATTATTCTATAAAAGATTTCTATATATCCGGTAAACTACAGTTTGAAGGAATATCTGCTACCGATAAAGAACCTCTTAATTTACAGGGAAAAGCAGTCTGGTATTTTGAAAACGGCAATATTTCACAGGAAGCTGTTTTTAACAATAATGTTCCTGACGGATATTCCAAAGAATATTACTCTAATGGAAAAATAAAGACCAGCGCAACCTATGTTTCCGGTCAATTGGATAAGGAATATAAAGAATATTATCCGGACGGAAGCCTGGCGGGAAAAGGAGAGTTTTTAAAGGGAAAACCTAACGGAATGACCATCAAATACAAAAACCCCGGACAGATTGATTTTAAAATCAATTATAAAAATGGCCTCGTTAACGGCGAATACGAGTTTTATAACAGCAACGGGACACTGTTTTATAAAGGAACTGCAAAAAACGGAGCTCAGGAAGGTGTCTGTTATGACTACTACTACGAAGGAGAGCTCAGAAGAATATATACGATTCACAACAAAATGCTAGACGGGCAATATCTGGAATTTTCTAAAAATAAAGATACAGTAAGCAAAGGGTTTTTCAAAAACGGAGTGGTTCAGCATTTTAAAATGTCTGAATCAGAAGGGACAATGAATGGAAGCCGGTTTTCAAAAGAAATGATTCTTAAAAATAATATTGAGGAATGGAAAACCTTCAGAGACGGTAAGCTTATTTTACAATCTTTTTACAAAGACGGAATATATATGGGGGAATGGACGGCTTATAATTTTGACGGAACAAAAATATTTGAAACAATCCGGTTTAACGAATCTAATAAATGTGGTGATGATTACCTGCAAAAAGTACATGATGAATTTAATCCGGGTATTATGCTTAGTAACAGATTTGGCTATAATGATATTATTCCTGATAAGAAAAAGTGTGAAAATATGATTGTCACGAGCAATAATCTTCCCAAAAATGAGCATCCTGTTTACCACTACACCCGCAATGGAAAAGATAATCCGAAGAAAGAAGAGACTGACAGGAATATTGTAAAAAATTATATCGATCCTTCAAGTACAAATGATTTTAAAGTAAAAAACAATTGCAAAGCGGTGGAAGAAAACAAAAGGGTAACTGTATGCAAAAGGGATATCAGTTCTATTGCCTATACGGTTTATCTTTCTACCGATCAAAAAGCGCTTGAAGCAATAAAGTCCAAATACAATCCAAAAGATATGGAAATTGTGTATTTCTATCAACAAATGGAAAACAGAGACTATGACTTTAATAAAGAAGAAAGACCAGACAGATTTATGGCATTTGCAATCTCGAAATCAACCAAAGAATCTTTTAAGAACAAGAGTCTTGATTATATTGTAACAATAGGTGAGCTGGAGCATAAATTCTGGGACATCAACAATTTTTCCGGAATGGCGGCCTATTCCGCTTTTGAAAAGGAAATGAAGAAGTAG	MHKVLLLSSLLFSIPIFCQQKIYFDKDWKETSKDKAEFYRTIDKNQQNYSIKDFYISGKLQFEGISATDKEPLNLQGKAVWYFENGNISQEAVFNNNVPDGYSKEYYSNGKIKTSATYVSGQLDKEYKEYYPDGSLAGKGEFLKGKPNGMTIKYKNPGQIDFKINYKNGLVNGEYEFYNSNGTLFYKGTAKNGAQEGVCYDYYYEGELRRIYTIHNKMLDGQYLEFSKNKDTVSKGFFKNGVVQHFKMSESEGTMNGSRFSKEMILKNNIEEWKTFRDGKLILQSFYKDGIYMGEWTAYNFDGTKIFETIRFNESNKCGDDYLQKVHDEFNPGIMLSNRFGYNDIIPDKKKCENMIVTSNNLPKNEHPVYHYTRNGKDNPKKEETDRNIVKNYIDPSSTNDFKVKNNCKAVEENKRVTVCKRDISSIAYTVYLSTDQKALEAIKSKYNPKDMEIVYFYQQMENRDYDFNKEERPDRFMAFAISKSTKESFKNKSLDYIVTIGELEHKFWDINNFSGMAAYSAFEKEMKK				NA	NA	NA	NA	NA
BMS003_04111	840			hypothetical protein	ATGAAAACTTTATGGACAGCTTTATTTTTACTGATGCTGCAGTTTTTTACAGCTCAGGAAAATGAAGTATATGCAGATGGTGTCTTCGGTTTTGACGAAAATAAAACCCAGAAAATCTTTACAGAATGGACCCGAGTGAGGTTAGATCCCGGAGTGAATGCTCAGATTGTAGATTCACTGCAGAGTAATCAGCAGGTCATGATTCTTAAGAAAGAAAATACTGTACTAAAGCTGGGAGAAAGAAATGCCAACTGGTATAAAATCTCTTATCAGAAGGGCGAAAATACTCTGGAAGGATATGTCTGGGGAGGGAATCTTTGTGTAGGATACCGCAATAAAAATGGTTATGATTTCCTTTTCGGGCTTTCCAAAACCATTGACAGGAAGAATAAAGAATTCAATGAGATCGTAAAGCAGAACATTGCAGGAATAAAAGTAATGGAAGGAAATACGCTCATTGATGAGGTATATTTCGACACAGGAAGAGGAGAAGAGTTGAGCTCTGCGTCTTTCAATATTGAAAGTGGTCACAAACTCCAAAATGTGGAATTTACCCTCAAAGCAATGGTTTCAGGAGAAGCCTGTGGAATTGCGGGCTATGATCAGTATGTTCTTTTCAAGGATAAAAAACTGATTGCCCTTCCGCAGTTAACAAACGTAGGGGATGCCGGAGCTTATTATCACGGTGAAGAATATGTTTTTCCTAATGATAAAGGAGGAATTTCCAACGCATTTATCCTGAAAGTGGAAGATATGGAAGTGGATGAAAAAGACAGAGAAATGAAAAATAACTCTTCCAAAACTTATCTTTGGAATGGAAGCTCCTACAAACTGAAATAG	MKTLWTALFLLMLQFFTAQENEVYADGVFGFDENKTQKIFTEWTRVRLDPGVNAQIVDSLQSNQQVMILKKENTVLKLGERNANWYKISYQKGENTLEGYVWGGNLCVGYRNKNGYDFLFGLSKTIDRKNKEFNEIVKQNIAGIKVMEGNTLIDEVYFDTGRGEELSSASFNIESGHKLQNVEFTLKAMVSGEACGIAGYDQYVLFKDKKLIALPQLTNVGDAGAYYHGEEYVFPNDKGGISNAFILKVEDMEVDEKDREMKNNSSKTYLWNGSSYKLK				NA	NA	NA	NA	NA
BMS003_04112	1068			hypothetical protein	TTGGCTAAAGCCAATGGAATTTGGCTTAATTTTGGAGATGGGCTAAAGCCCATCCCTATTGAATATAGTATACGCAATCATCTGTGTATATCCGTGCAATCTATGGGAGAAAAAACACAAATAAACTTTCCCATAGCACCCATTCAAAAAAAATCAAAAAATTTCCCGGTTTCAGCCAAAAATCTCTTCATCATTTTTTTAACCGTAATAACATTAGTATTTTTGCAGCAAATTAGTCACATGCAAAATTATTTAGAATTCAATTTCAAGATTTCTCCACTGCAGCCTTGGAACGAGATATTAATGGCAGAACTTATAGAGATAGGTTTTGACAGCTTTACAGAAGAAATTGACGGAATTTTAGGATATATCCAGACAGATTTGTTTCACGAAGATCAGTTGAGAGCACTTCCGATCTTTGAAAATGAAAATGTAAAAATTGAATATTTTTTCGAAGAAATGCCGAACATCAACTGGAATGAAGAATGGGAAAAAAACTTCTCTCCCATCAATATTGATGATAAAGTATTGATCAGAGCAGAATTCCATGAATCTGTACCGGGAATGCATGAAATTATCATTCAGCCTAAAATGTCTTTCGGAACAGGGCATCACCCAACTACCCATTTGATGATCCAGCAAATGATGGATATTGATTTGAATGGTAAAAAAGTATTGGATATGGGATGCGGAACTTCTGTATTGGCCATTTATGCAAAACAGCAGGGGGCAGGAGATACAAAAGCGATCGATATTGATGAATGGTCAGTGGAAAACTCAAAAGAAAATGCCGTAAGAAATAATGTGGAACTGGATATTGAACAGGGAACAGCAGAAAACTTAGGAAAAGAGCATTTTGATGTCATTTTAGCCAATATCAACAGAAATATTCTTATATCAGATATCCCGACTTATGTTTCAGTATTGAATGAAGGTGGGAAATTATTGCTTTCAGGACTGTGTTTCTTTGATGTAGATGATATTCTGGAAGTATGTAAAGAAAGTGGTCTGGAGCTGAAAAAACAGCTGCAGCGTGAAGAGTGGGTAAGCCTTCTGCTTGAAAAATAA	MAKANGIWLNFGDGLKPIPIEYSIRNHLCISVQSMGEKTQINFPIAPIQKKSKNFPVSAKNLFIIFLTVITLVFLQQISHMQNYLEFNFKISPLQPWNEILMAELIEIGFDSFTEEIDGILGYIQTDLFHEDQLRALPIFENENVKIEYFFEEMPNINWNEEWEKNFSPINIDDKVLIRAEFHESVPGMHEIIIQPKMSFGTGHHPTTHLMIQQMMDIDLNGKKVLDMGCGTSVLAIYAKQQGAGDTKAIDIDEWSVENSKENAVRNNVELDIEQGTAENLGKEHFDVILANINRNILISDIPTYVSVLNEGGKLLLSGLCFFDVDDILEVCKESGLELKKQLQREEWVSLLLEK				NA	NA	NA	NA	NA
BMS003_04113	714	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATATAAACGGAAAAAATGCCATTGTAACAGGTGGTGGAAGAGGATTAGGAAAAGCTGTAGCACTTGCTTTGGCTCATGAAGGCGTAAACGTTGCCATTACAGGAAGAAATGAGGAAAACCTTAAAATGACGGTTGAAGAAATTAAAAAACTGGGTGTAAATTCAGCTTATGCAGTTTTTTCTGTAGACAATGAAATTCAGGTAAAAGCCGGAATAGAATCTTTAGCAGAGCAATTGGGAGGGATTGATATTCTGATTAATAATGCAGGAATCGGAGACTTTGGAAGCATCGAAGAAATGCCTTCTGAAACATGGGAGCAGGTTATTAAAACCAATCTTTTCGGAGTATACTACGCAGCCAAAGCAGCTTACCCATTCATGAAAGCTAAAGGAGAAGGAGATATTGTAAATGTAGCATCTACTGCAGGTCTGAAAGGTGGCCCGAATATGTCTGCATATGCCGCTTCAAAAGCAGCCGTAGTATCCCTTTCTCAATCTATGATGGCAGAATGGAGAAAACAGAATATCCGTGTAATCACTTTAACTCCAAGTACCATTGCTTCTGATATGAGTATCCAGGGTGGTCTTACAGACGGAAATCCTGATAAAGTATTGCAGCCCGAAGACTTCGCAGAATGGGTAAGGGATATCCTGAAAATGAACAGAAGAGCATTAATTGCAAACGGTTCTATTTTCTCTACGAATCCATAA	MNINGKNAIVTGGGRGLGKAVALALAHEGVNVAITGRNEENLKMTVEEIKKLGVNSAYAVFSVDNEIQVKAGIESLAEQLGGIDILINNAGIGDFGSIEEMPSETWEQVIKTNLFGVYYAAKAAYPFMKAKGEGDIVNVASTAGLKGGPNMSAYAASKAAVVSLSQSMMAEWRKQNIRVITLTPSTIASDMSIQGGLTDGNPDKVLQPEDFAEWVRDILKMNRRALIANGSIFSTNP	PGPT0003180_22010	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
BMS003_04114	1590	cpdA_3		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGATGAGTATCAATATAAAATTTGTAATGCCATGTATACTGGTTTCAGCAATGGCGTTTTCACAAACTTCTGTTTCAGGATATGTCTATGAAGACAATAACAAAAACCAAAACAAAGAAAACCGCGAAAAAGGGATACAAGGTGTGGCTGTTTCCAATGGTGTCCAGGTGGTTCTTACCGATAAAAACGGAAAATACAGCCTGCCGGTTCAGGAAGATCAGACTATTTTTGTCATCAAACCTTCAGGATATCAGACAGCATTAAGTATAAATAACTTACCCCAGTTCTACTATCATCATAAACCGAAAGGCTCTCCGGCAGATTTTAAATACAAAGGAGTAGCTCCCACAGGAGATCTTCCTAAAGAACTGAACTTCCCGCTTTATCCACAAAAAGAAGATAAAAATTTTGATATCCTTGTTTTCGGAGATCCGCAGCCTTATACTGAAAAAGAGCTGGACTACTTCAAAAGAGGAATTGTAAACGAAGTGAAAAACACCAGAAAAAATGCAGTATTGGGAATCAGTTTGGGAGATTTGGTAGGTGATAATCTAAGCCTTCAGAAACCTTACGCAGATGTAATGAAGGAAATAGGACTGCCTTGGTATAATGTGATGGGAAATCATGATATGAACTATGATGCGAAGGAAGATAAGTTGTCCGATGAAACATTTGAGTCCAATTTCGGTCCTGCTAACTATTCTTTCAATTATGGAAACGTACACTTCATCATTCTGGATGATATTCTTTATCCGGATCCGAGAGACGGTAAAGGGTATTGGGGCGGTTTCCGTGAAGACCAGCTTCAGTTCATAGAAAACGACCTGAAACTGGTCGATAAAAATAAACTGATTGTCATTTCATTCCATATTCCATTGGAGCATAACAACGAAGACAGCTTTAGAAATGCGGACCGTCAGAAATTATTTGATTTCTTAAATCCATTTCAGAATGTGTTGCTTTTATCAGCACATACTCATATCCAGCAGCAGATTTTCTATGGCAAAAAAGCAGGCTGGAACGGAATCAAAGAATTACATGAGTATAATGTAGGAACCACTTGTGGCGACTGGTATTCCGGAACACCGGATGACGCCGGACTTCCTACTTCCACTATGAGAGACGGAACAGCAAAAGGATACTCTTTCATCAGTTTTACAGACAATCAGTATAAAGTTAAATACAAAACAGCCGGAAAACCGGAGGATTATCAGATCAGATTATATGTTCCGAAAGTAATTCCTTCCTCAAGAACCTCTGCCAAAGTACTGGCTAATTTCTTTATGGGAAGCAAAAAAGACAAAGTAGAATACAGAATAGACGGAGGAAAATGGGAAGAAATGGAATACGATGAAACTATAGACCCGAATTTTGCCCTTTCCGTTTTCAAGTGGGATTCTACAGAAAAAATTCTTCCGGGGAGAAGACCTTCTAATCCTGAAATGTCAAAACACATCTGGAAATCAGACTTTCCTAAGAAATTATCATTAGGAAAACATAAAGTTGAGGTAAAAGCTGTTGACATGTATGGAAATGAGTTCTCAGCGTCAGAAGAGTTTGGCGTTCAGAGCGCCATTCAGATTCCTTAA	MMSINIKFVMPCILVSAMAFSQTSVSGYVYEDNNKNQNKENREKGIQGVAVSNGVQVVLTDKNGKYSLPVQEDQTIFVIKPSGYQTALSINNLPQFYYHHKPKGSPADFKYKGVAPTGDLPKELNFPLYPQKEDKNFDILVFGDPQPYTEKELDYFKRGIVNEVKNTRKNAVLGISLGDLVGDNLSLQKPYADVMKEIGLPWYNVMGNHDMNYDAKEDKLSDETFESNFGPANYSFNYGNVHFIILDDILYPDPRDGKGYWGGFREDQLQFIENDLKLVDKNKLIVISFHIPLEHNNEDSFRNADRQKLFDFLNPFQNVLLLSAHTHIQQQIFYGKKAGWNGIKELHEYNVGTTCGDWYSGTPDDAGLPTSTMRDGTAKGYSFISFTDNQYKVKYKTAGKPEDYQIRLYVPKVIPSSRTSAKVLANFFMGSKKDKVEYRIDGGKWEEMEYDETIDPNFALSVFKWDSTEKILPGRRPSNPEMSKHIWKSDFPKKLSLGKHKVEVKAVDMYGNEFSASEEFGVQSAIQIP				NA	NA	NA	NA	NA
BMS003_04115	1449			hypothetical protein	ATGAAAAAAATAATCATACATCTGACGTTGGCAGTTTCTGTTGTAATGCTTCAGTCCTGTGACAGGACATTCGAGGAAATCAATACAGATACCAGCAAAATCAAAGACCCCTCTGTAGGTAGCCTTCTGGCTCCCATCCAGTATGAAATGGGAAGCTACGGCTACAACAGAGCTGATGATTTCACTTTTGATATTATGCAGATTGCTTTAGACTTTCCCAATGAAGGAAACTCATACAGCAGATATTATATGGATGAAAAAAGTGGCAACGGATACTGGAATACATCCTATAAATGGCTTAAACAGGTAAGCGACCTCAGAAAATACGCCACTAAGGAACAGAACAATAACTATCTGGCAATATCATTGGTTTTAAATGCATGGATTGCTTCTAATCTTACAGATGCTTTCGGAGATGTACCCTTATCCGAAGCAGTGAAAATTGAAGAAAATATTTTGAGACCGAAATATGATAAGCAGAAAGATATTTATATTCAGCTTTTAAATGATCTGAAAACAGCCAACTCATTATTCAATACAGCACAGGCACTCACAGAAACAGATTTGTTTTACAATGCCAATACCAACAGCCAGGCAGGGATTTTAGGATGGAAAAAATTCTGTAACTCACTTTCATTGAGATTACTTACCAGAATCCTGAGCAGAAACGGAGAGGTAAATGTATATGAAAGAATTAAGGAAATTATTAATAACCCGACTCAATATCCTGTCTTCCAGAATAATGCAGACAGTGCTGTACTTCCCCTTTCGGGAATATCTCCATACTTGCCTCCAATAGCCCGTCCACAGGATTTTACCGCTTACAGGGCAGCAGGTGAATTTTTTGTAAATGCTATGAAAGATAATAACGATCCAAGGATGAGTATGTTTTTTACCAAAGCTAAAGCAGTATCAGGAGAAGATCTTGGTTATAAAGGCGCTCCTTCAGGGTATGCTTTGGGTACTTCTTTCAACTATCAGCCTTCTAATCTTAATCAAAATCTTGCGAAAGCACCTTTAAAGATCTTGATCATGACCTATTCTGAGGTTCAGTTTATTATGGCTGAGCTTGTCAACAGAGGAATTGTTGCGGGAAATCAGCAGACCTATTATGAAACGGGTGTGAAATCTATCATAGAGCAGTGGGGAGCAACGGTTCCTGCTAATTATTTCAGTAATCCTAAAGTAGCTTATGACGGTTCCCTGGAAAAGATCATGCTTCAGAAATACATTTCACTCTTCTTTGTAGACCATCAGCAATGGTATGAATTCAGACGTACAAAACTGCCGGTACTTCCTGATAACGGAGGACTTCAGAACGGAGGACAGCTGCCGGTAAGATTTATGTACCCTACCAGTACAAAGGTTATGAATACAGATAATTATAATGCAGCTGTACAGTCTATGGGAGGAGACAATATCAATGTGAAAATGTGGTGGAATAAATAA	MKKIIIHLTLAVSVVMLQSCDRTFEEINTDTSKIKDPSVGSLLAPIQYEMGSYGYNRADDFTFDIMQIALDFPNEGNSYSRYYMDEKSGNGYWNTSYKWLKQVSDLRKYATKEQNNNYLAISLVLNAWIASNLTDAFGDVPLSEAVKIEENILRPKYDKQKDIYIQLLNDLKTANSLFNTAQALTETDLFYNANTNSQAGILGWKKFCNSLSLRLLTRILSRNGEVNVYERIKEIINNPTQYPVFQNNADSAVLPLSGISPYLPPIARPQDFTAYRAAGEFFVNAMKDNNDPRMSMFFTKAKAVSGEDLGYKGAPSGYALGTSFNYQPSNLNQNLAKAPLKILIMTYSEVQFIMAELVNRGIVAGNQQTYYETGVKSIIEQWGATVPANYFSNPKVAYDGSLEKIMLQKYISLFFVDHQQWYEFRRTKLPVLPDNGGLQNGGQLPVRFMYPTSTKVMNTDNYNAAVQSMGGDNINVKMWWNK				NA	NA	NA	NA	NA
BMS003_04116	2964			TonB-dependent receptor P39	ATGCGTAAAGAGACACAGAAACTGTTGGTATTATCATTATTAGGATTCGTCAGCGTCAATCTGGCAGCTCAGCAAAAAGCTAAAAAAGATACTATTAAAGGACTTGATGAAGTGGTGGTTACTGCTTTGGGAATCAAGAGGCATGACAGAGCTTTAGGATATGTCGCGGAGAAAGTAGATGCCAAAACATTTGAAGAAACCCAGAATAACAACTGGGCACAATCCATGGAAGGAAAAGTGGCAGGTCTTAAAATTCAGACAGCAGGGGCAGGGCCGCTTGGAACTTCCAGAATTACCTTGAGAGGAGAAAAATCCATCATGATGGACCATAACTATGCCTTGATTGTAGTAGATGGTGTACCATTAGGAAATTCTACCACAGGTTCCGGTACCGCAGCTTATGGAGCGGGTTCCGGAGGCGATGTTCCCATTGACCTTGGAAACGGATTGAATAGCATCAATCCGGATGATATTGAATCTGTAACCGTATTGAAAGGAGCTTCTGCAGCTGCATTGTACGGATCACGCGCCGCCAACGGTGCATTAATGATTACCACAAAATCCGGCAAAACAAAGAACGGAAAGCTGAGAGTAACTTTTAATTCTTCTTCAAGTTTTGATACCGTATTGAAATGGCCGGACTGGCAATATGAATATGGACAGGGAACGCTGGCAACCAATAAGGCAGGAAATTTTTACTACTCTTATGGGCTTTCCGAAGATGGACCTAGCACAGGTGGTACAAGTAGTGCTTTCGGACCAAAATTTGCCGGACAGTACTACTTCCAGTACGATCCTGATGTAATGGGACAGAGTAAAGAAAGACAGCTGTGGAGACCTTATGAAAATAATATAAAAGGTTTCTGGAGAACCGGTTCTAATTACTCCAACAGCATCTCTGTAGAAAGCTCCAATGAAAAAACAAGCTTCAGATCCTCGCTTACCTATCTTAATAATGAGTGGATGATGCCGAATACAGGCTTTGACAGGTTCAATTTTGCCTTATCATTTGCCCATCAGCTGACTAAAAAATTAAAAATATCAACCAAATTTGCTTATAACACTACTACCAGTGACAATCTTCCTGCGACAGGATATAACAATCAGTCGATCTCGTATTTCATGATTTTCCAAAATCCGAATGTGGATCTTGAATGGTATAGACCCATCTGGAAACCCGGACAGGAACAGGTTGATCAGATACATCCATTTAGCTCTTATATTGACAACCCTTACCTCATCGCTTACGAAATGCTGAATGGAGTAAGAAAGAAAACCATTACAGGAAATATCACGGCAGATTATCAGTTTAATAAAAATTTCAGCTTAATGCTGAGGTCAGGAATTGAAATTCTGAACGAAAAAAGAACCACCAAAAGACCGTGGAGTTCTGCCAACTATCTGAAAGGTTTCTACAGAGAACAGTTCATCAAAAATCAGGAATATAACAATGATCTTTTATTCTCTTATAAAGCAGATTGGAATAAATTCAGTATTTCCGCATCAGCAGGGGGAAGTATACGTTATAATGAATATCTGATGACAGATTTTCAGGCGATAGGATTGAAAACTGCCGGTGAATATAGTCTTACCAACGCACTGTCTATCCCGGTTAAATATCCCGTACCAAGAGATAAACATGTAGACAGTGTCTATGGGTTGCTCACGTTGGGATATGATAATAAAATATTTGTGGACGTTACGGGAAGAAATGACTGGAGTTCCACATTACCGAAGCAGAACAGATCATTCTTTTACCCTTCTGTAAGTACCAGTTTCATTCTTTCGGATATTTTCAATTTGAAAAGTACCCATATAAACCTTTGGAAACTAAGAGCTTCATGGGCAAAAGTAGGGATAGACAGTGATCCTTATCTTCTGGACAACTATTATACAGCAAGTAATATTACCGGAAGTGTAGTAGCGCCAAGCACTTTTAACAATCCTTCCCTTAAACCTGAGAAGAATACCAATATTGAAGCAGGTATGGATTTCAGTCTTTTCAGAAACAGATTGAACCTTAATCTTACCGCTTATCAGAACTTCAGTGAAAACCAGATTATCCCTGTATCCCTTCCTTATGAAAGTGGATATTCCCAAAGGGTAATCAATGCAGGAAAAATCAGAAACAGGGGGCTTGAACTTTCAGCCGATATCTTAGCGGTAAAAGGGAAAAATTTCTCATGGAAGATAGGCGGAAACTGGTCTGCCAATGAAAACAGAGTGATGAGCTTACCTGAAGGGTTTGACGGAGTTGTTTCCAACGTTGGAAATGTTGTTTTCTATAAAATGGAAGTAGGAGGTTCATTGGGAGATATGTATGGATTCAAATTGTTGAGAACACCGGACGGACAGGTAATTTATGGTGAAAACGGACTTCCTGCAAGACCTGCTGACATTGAAAAAGTAGGAAATGCATTTCCGAAATGGAGAGCCGGTCTTCAGAATGATTTCAAAATTAAAAACTTTACAATCAGTTTCTCATTTGACGGGCAGTATGGCGGTATTGCTTATTCCCAGTCACATCATAAAATGTCTGAGCAAGGTAAGCTGAAATCTACACTTCCCGGAAGAGATAACCCCGGAGGAATGATTGTAGGGGATGGTGTTGTTCAGAATGCTGACGGATCTTTCAGTCCCAATATAAAAGGAGTGACAGTATCTTCTTATTATGGAGATTACTATAGAAGAGCCAATGTGGAAACCAACAGCTTCAGTACAGATTTTATTAAGCTGAGAGATGCAAGAATTGCCTATTCTTTTCCGAAAGAAACCATAAAAACACTGGGGCTGGAAGATCTTACTTTGGCCATTTTCGGGAAGAACCTGTGGATGTGGACCAAGTTCCCGCTGTTTGATCCTGAAGTGGCTACCCTGAATAATGCCACCATTACTCCGGGAGTAGAAATGGGACAGCTTCCTACCGCAAGAACAGTGGGCTTTCAGTTAAATCTTAAATTCTAA	MRKETQKLLVLSLLGFVSVNLAAQQKAKKDTIKGLDEVVVTALGIKRHDRALGYVAEKVDAKTFEETQNNNWAQSMEGKVAGLKIQTAGAGPLGTSRITLRGEKSIMMDHNYALIVVDGVPLGNSTTGSGTAAYGAGSGGDVPIDLGNGLNSINPDDIESVTVLKGASAAALYGSRAANGALMITTKSGKTKNGKLRVTFNSSSSFDTVLKWPDWQYEYGQGTLATNKAGNFYYSYGLSEDGPSTGGTSSAFGPKFAGQYYFQYDPDVMGQSKERQLWRPYENNIKGFWRTGSNYSNSISVESSNEKTSFRSSLTYLNNEWMMPNTGFDRFNFALSFAHQLTKKLKISTKFAYNTTTSDNLPATGYNNQSISYFMIFQNPNVDLEWYRPIWKPGQEQVDQIHPFSSYIDNPYLIAYEMLNGVRKKTITGNITADYQFNKNFSLMLRSGIEILNEKRTTKRPWSSANYLKGFYREQFIKNQEYNNDLLFSYKADWNKFSISASAGGSIRYNEYLMTDFQAIGLKTAGEYSLTNALSIPVKYPVPRDKHVDSVYGLLTLGYDNKIFVDVTGRNDWSSTLPKQNRSFFYPSVSTSFILSDIFNLKSTHINLWKLRASWAKVGIDSDPYLLDNYYTASNITGSVVAPSTFNNPSLKPEKNTNIEAGMDFSLFRNRLNLNLTAYQNFSENQIIPVSLPYESGYSQRVINAGKIRNRGLELSADILAVKGKNFSWKIGGNWSANENRVMSLPEGFDGVVSNVGNVVFYKMEVGGSLGDMYGFKLLRTPDGQVIYGENGLPARPADIEKVGNAFPKWRAGLQNDFKIKNFTISFSFDGQYGGIAYSQSHHKMSEQGKLKSTLPGRDNPGGMIVGDGVVQNADGSFSPNIKGVTVSSYYGDYYRRANVETNSFSTDFIKLRDARIAYSFPKETIKTLGLEDLTLAIFGKNLWMWTKFPLFDPEVATLNNATITPGVEMGQLPTARTVGFQLNLKF				NA	NA	NA	NA	NA
BMS003_04117	747			hypothetical protein	ATGAAAAATTTTATCTTAGGGTTAGCAGTTTTAAGTACAGTTATGATGAAAGCACAAACCCAGATCATTGCCCATAGAGGATATTTCCAGGCACAGCCTGCTACAACGGAAAATTCGCTTAAATCTTTGGAGAATGCCCAGAAATTAAAAGTTTACGGATCCGAATTTGATGTGAGAATGACCAAAGACGGTGTATTGGTTATCAATCATGATGAGCACCATGGTAATATGGAAATTTCAGAAGCTACTTTCAAAGAATTGGAAGCCGTGAAATTATCCAACGGAGAAAACTTTCCTACTTTAAAAGACTATTTAAAACAGGGAAAAAAAGACAAAGCTCTGAAACTGATCGTTGAAATTAAACCAGCCAGGACTCCCGAAATAGAAAATGAGATCACTCAAAAGACAATCAAAATGATCAAAGGTATGAAGCTGGAATCTCAAAGTGAATTTATTTCTTTCAGTCTTAATATCTGTAAAGAGATCAAAAAAGTGGCTCCTGCCTTTAAAGTACAGTATCTGAACGGTGAGCTTTCTCCTGAACAGATCAAAAAAGAAGGATTAGACGGAATGGATTATCACTACAGCGTTTTCCAGAAAAATCCTACCTGGATTGCCGAAGCAAAAACATTAGGATTAATCACCAATGCCTGGACAGTGAATGATATTGACGTATATGATGAACTAAAAAAGCAGGGAATCGGTTTCGTAACCACTAATATTCCTGATCAGCTAAAGAATAAATAA	MKNFILGLAVLSTVMMKAQTQIIAHRGYFQAQPATTENSLKSLENAQKLKVYGSEFDVRMTKDGVLVINHDEHHGNMEISEATFKELEAVKLSNGENFPTLKDYLKQGKKDKALKLIVEIKPARTPEIENEITQKTIKMIKGMKLESQSEFISFSLNICKEIKKVAPAFKVQYLNGELSPEQIKKEGLDGMDYHYSVFQKNPTWIAEAKTLGLITNAWTVNDIDVYDELKKQGIGFVTTNIPDQLKNK	PGPT0018470_6693	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS003_04118	3087			hypothetical protein	ATGAAAAAAGTAAAGATTGTACTGGGATTATTGTTTTTAGGGCTTGGGACAATGGCGTATGCACAGACCACGCAGGCTTCTATTGTAGGGAGAGTTACCGGACCGGGAAGTACGGCTCAGGAAAAAGTGAAAGTAACGATCGTGAACGAGTCCACAGGATTCAGAACGGAAACGGAGACCAACTCAAAAGGAGAGTATATTTTTAAAGAAATTCCTCTTGGAGGACCTTACACGGTTATTGTAAATGATGATAAAAAAGAAGGCTACAATGTTAACTTCGGAGATCAGGTTACAGTGAATATGGATCTCGGAAATGAAAAGCATATAGAAGAAGTAAAGATTACCGGAAATCTTAAAAATAAGATCGGAAACCTTGGTGCAGCTACAGCAATTTCTGCGAAAAACATCAGCATGCTTCCGGTGAACGGACGAAATTTTACCAATCTTGCCGAGCTGTCACCACTAAGCGGAAAAGGAGGAAGCCTTTCCGGGCAGCTAGGATCTTCTACCAATTTCACCATTGATGGGATGACTGCTAAAAATCCTACTTCTGCGGGAGCTACTACCAGCCGAAGCGGTGCACCTTTCTCCATCTCCATTGAAGCCGTACGTGAATTCAAAATTACCACCAACCAATATGACGTTACATTGGGAAGAAGTGGTGGTGGAACAGTAAGTGCCGTTACCAAATCAGGAACGAATAAATTCTCAGGAAGTGCCTGGGAATATTTGAGAACCAACTGGCTTTCCAGTCCTTATGACATCAGAGGAAACAAAAGAAATAATGATTTTTCAACTTCTCAGTTCGGATTTTCATTAGGAGGGCCTATCATTAAAAATAAATTACACTTCTTCGCAGCCTGGGATCATCAGCTGGATTCAAGACCTTTGGTAATTGCCGACATCAAGTCTCCGGATGATGAGAAGAGGTTTAATACAACCACGCAGACGCTTAATCAGTTTCTGGATATTGCAAGAGCTAAATATGGGGTAGGAAGCAGTCCGCAATTCGGAACATTTGATAAAGTAAGAAACTCGGATGCTGCATTCTTACGTTTAGACTGGCAGATCAATGAAAAACATTTATTAACACTTAGAAATAACTTCACCTACGATCTTAATAAAAACGGATTGGGTGATAATACCAATATCAACTTCTTTGAATCTTACGGAAATGATAAAAACCTTGACAACAGTTTACTGTTAACATTGAGGTCAAACCTTAAGTCTAATTTAACCAATGAATTGAAGGCTCAGTATCTTTATACTTTTCAGGACAGTTACCAGAATAATCAATTAGGAAAATCTGTACCGAGAGCTATTGTTGAAGGAGTATCTTCAGGTGTCGGATCTACTAATATTCAGATCGGGGGTCACCGTTTCGCACAGGAAAGCTTTAGGAATAATGTATTCCAGATTGTGGATAATTTATATTATAATACAGATAAGGTAAAATATACTTTCGGAGCTGATCTTATGTACACCACGGCAAAATCAATATACGGTAGTGAGGTGAATGGAAGATTCCATTTCCAGGGAATGAATAATTTTGATGCCATGACACCTTACAGATTCTACAGAGAAGTTCCATTGATGGAAGATCCGTCTGTAAGATCCAATATCTGGAATATTGGGGTGTACGGACAGTTTCAGACAAAAATAGCAAAAGGTCTTGATGTAATGGCCGGTTTAAGATTAGACTACGGAGGTTATCCGAAAGCAGAATTCAACCAGAAACTGTTTGATGAAATGGGAATCAGAACAGATAATCAGATCAAATCATTCGTCATCCAGCCAAGATTTCAGTTTGACTGGAATATCAATGAAGAAAATAAAGATTTCCTTAAGTTCGGTGCCGGAATTTTCTCCTCGGATATCAACAATTATATGATCATCAACAACCTTGTATTTGATGGTAAACACCTTGCTACAGTAGATGTAAACCCTACAGCTATTGGCCTTACTCCGGATTTTAACAGCTATAGAAATGATTACGGATCTGTTCCTTCATTGGCTCAGTATCAGATTCCTACTATTAACTATACAGGTAAAGACGCAAAAATCCCAATCGTTTATAAAGCGAATATTTCTTATACCCATTTCTTCAATGAAAGATTCAGAGCAGGAATTGCAGGGTACATGGCTTTAGGTAGAAATAACTACTATTATTACGATAGAAACATGGTGGCCAATCCTTTCTTTACCTTAGCTAACGAAGGAGGAAGAGGCGTATTTATTCCTACAAGTGCTATAACCAACAATGCCAATAACAGTGTAAGTTTCGACTGGAAACAGGGAAGAATCAATAATAACTTCGGAAGAGTACTGGAATTGGTGAGCGATGGTAAAGTAAACCAGTTCTCATTTGTATTGGATACAAGTTACCGTTACTGGAAAGACGGAGAAATCACGGCAAGTTATACATGGTCTGATATTAAAGATAATACTTCTTATAACGGTAACGTAGCCAATTCTGCTACCTTGTCTACAATGATTCAGAGTGATCCAAGAGATTTAAGAATGACATATTCAGATAACCAGTTCCGTAATAAAGTGGTTATTTATGGTAATTCTCCTACCATTGCAGGATTTACATTAGGAATCAGATATTCAGGAATTGGTGGTACGCGTTTCTCTGCGACAACGGGAGGAAATATCAACGGTGACTTTGTAGATTCCAACGACCTTGCTTTTATCTTCCCGAATCTTACGAAAGCTATTCTGGATGATCCACAAGTGGGACAGGCTCTGAAAGATTATATCAACGAATACAATGGCAAAATTGCAGAACGTAACGGAGGTAAGAATGGCTTCTACGGCGTTTGGGATGTACGTGTAGCGAAGAAAATTAAGTTTGATAAAGTAGGTGCTTTTGAACTTTCTGTAGATATTTTCAACGTAGCCAACCTTCTTAATAAAGAATGGGGAGTAAACAAATCATACGGAAATACATCTCTGTATAAAGTGACCAAGTTTAACAAGGATACGATGCAGTACGAATACACCAAAAACGTAAGTGGAGGAGGGCTGGTGCCATTATCCGGAAATCCATACCAGATCCAGATCGGAGCGAAGTATTCCTTCTAA	MKKVKIVLGLLFLGLGTMAYAQTTQASIVGRVTGPGSTAQEKVKVTIVNESTGFRTETETNSKGEYIFKEIPLGGPYTVIVNDDKKEGYNVNFGDQVTVNMDLGNEKHIEEVKITGNLKNKIGNLGAATAISAKNISMLPVNGRNFTNLAELSPLSGKGGSLSGQLGSSTNFTIDGMTAKNPTSAGATTSRSGAPFSISIEAVREFKITTNQYDVTLGRSGGGTVSAVTKSGTNKFSGSAWEYLRTNWLSSPYDIRGNKRNNDFSTSQFGFSLGGPIIKNKLHFFAAWDHQLDSRPLVIADIKSPDDEKRFNTTTQTLNQFLDIARAKYGVGSSPQFGTFDKVRNSDAAFLRLDWQINEKHLLTLRNNFTYDLNKNGLGDNTNINFFESYGNDKNLDNSLLLTLRSNLKSNLTNELKAQYLYTFQDSYQNNQLGKSVPRAIVEGVSSGVGSTNIQIGGHRFAQESFRNNVFQIVDNLYYNTDKVKYTFGADLMYTTAKSIYGSEVNGRFHFQGMNNFDAMTPYRFYREVPLMEDPSVRSNIWNIGVYGQFQTKIAKGLDVMAGLRLDYGGYPKAEFNQKLFDEMGIRTDNQIKSFVIQPRFQFDWNINEENKDFLKFGAGIFSSDINNYMIINNLVFDGKHLATVDVNPTAIGLTPDFNSYRNDYGSVPSLAQYQIPTINYTGKDAKIPIVYKANISYTHFFNERFRAGIAGYMALGRNNYYYYDRNMVANPFFTLANEGGRGVFIPTSAITNNANNSVSFDWKQGRINNNFGRVLELVSDGKVNQFSFVLDTSYRYWKDGEITASYTWSDIKDNTSYNGNVANSATLSTMIQSDPRDLRMTYSDNQFRNKVVIYGNSPTIAGFTLGIRYSGIGGTRFSATTGGNINGDFVDSNDLAFIFPNLTKAILDDPQVGQALKDYINEYNGKIAERNGGKNGFYGVWDVRVAKKIKFDKVGAFELSVDIFNVANLLNKEWGVNKSYGNTSLYKVTKFNKDTMQYEYTKNVSGGGLVPLSGNPYQIQIGAKYSF				NA	NA	NA	NA	NA
BMS003_04119	2157	ligA		DNA ligase	ATGTTAAATTATTTTAAACACCTATTTTATTCATTAAGAAACCAGTCTGTTAGGGCATGTTACACATTTTTAATTTTCACATACTATTTTATTCTGTTATTTTTTAAATGCAATTACTTTAGTTATTTTTGCTCAAAAGATAGAAACCCAATGTCTGAAAACATTCAACAAAAGATAGAACAGCTCCGCAAAGAGCTTCACCAGCATAACGAAAACTATTACCTACTGGATACTCCCACCATTTCGGATTTTGAATTCGATATGCTTCTGGAAGAACTACAGAATCTGGAAGCCCAATATCCTGAATTTTATGATGAAAACTCTCCTTCGGTACGTGTAGGTGGTGGTGTTACCAAGGTTTTCCCTACGATTCAGCATAAGTTCAGAATGTATTCTCTGGACAATTCCTATGATTTTGAAGATCTGGAAGACTGGGAAAAAAGAATCATCAAAACGATTGAAGATCCTGTAGAGTTTGTTGCTGAGCTAAAATATGACGGTGCATCCATTTCTATCCTTTATGAAAACGGAAAGCTGTCACAGGCTGTTACCCGTGGCGATGGTTTTCAGGGAGATGAAATTACCCCGAATGTACGTACCATTTCAGATATTCCTTTGACTTTAAAGGGTGATTTCCCAATTCATTTTTTCATGCGTGGAGAAATTTATCTGACCAGAAAAAACTTTGACAAGTTGAATGTACTGCGTGAGGAAGAAGGTCTTGATCCCTTCATGAATCCAAGAAATACCGCCAGCGGAAGCTTGAAAATGCAGGACAGCGCTGAGGTAAGAAAGCGTGGCCTTTCTTCGGTATTGTATCAGTTTATCTCAGAAGATATTCCTGCAGAAACCCATTGGGAGCTGCTTCAGAAAGCTCAAAGCTGGGGCTTTAAAACATCACAACAGGCAAAACTATGCAGAACACTGGATGAGGTAAAGGAGTTTATTACATTCTGGGACACAGAACGTCATCATCTTCCTTTTGAGATTGATGGAATTGTTTTAAAGGTAAATTCGTTACAACAACAAAGACAGCTTGGTTATACAGCCAAATCTCCGCGTTGGGCAATGGCTTATAAATTTAAAGCTGAAAAAGTAGAGACCGAACTTCAGAGTGTCTCTTATCAGGTGGGAAGAACGGGTGCTATTACTCCTGTTGCTAACCTTAAGCCTGTGTTGCTGGCCGGAACTATAGTAAAAAGAGCTTCTCTCCATAATGAAGATATCATTAAGAAACTGGATCTTCATGAAAAAGACTTTGTATATGTAGAAAAAGGAGGTGAAATCATTCCGAAAATTGTAGGCGTAAACACGGATAAAAGAACGGACGAAAGTAGAGAAATAGAATACATCAAACATTGTCCTGAATGTGGTACCGAACTGGTAAAAATTGAAGATCAGGCCATTCATTTCTGTCCTAATGAACTTCACTGTCCGCCACAGGTTGTAGGAAGAATGATTCACTATGTTTCCAGAAAAGCGCTGAATATTGATAACCTTGGAAGTGAAACTATTGAACAGCTGTATAGAGAAAAACTGATTGAAAACCCTGCCGACTTCTATGTTTTGACAAAAGAACAGCTTCTTCCACTGGAAAGAATGGCGGAAAAATCTGCTCAGAATATCATTACAGGAATTGAAAAATCTAAAGAAATTCCTTTTGAGAAAGTCTTGTACGGAATCGGGATCAAACATGTGGGTGAAACGGTTGCCAAGAAGCTGGTAAAAAACTTTCCAACGATTGAAGAATTGAAAGCAGCTACGTCAGAAGAGCTTTGCCAGGTAGAAGACATCGGAGCTAAAATTGCTGTCAGTATTGTTGATTTCTTCCGGAATTCTGAAAACCTATTGATGATCGAGCGTTTAAAGTCTTACGGAGTACAACTTGAAAAAGGAGAAAGCACGAATGAAGTTTTATCCAATGTTCTGGAGGGAAAAACATTCCTTTTCACCGGAAAATTATCTTTATTCACCAGAGAATCTGCTGAGGAGATGGTAGAAAAACACGGTGGGAAAAATATTTCTGCCGTTTCAAAAAACCTCAACTATCTTGTAGTAGGTGAAAAAGCAGGAAGCAAACTGAAAAAAGCTCAGGATATCGGAACAATTGAAATTCTGGATGAGCAGCAGTTTTTGGATCTGATTGATAAACAATAA	MLNYFKHLFYSLRNQSVRACYTFLIFTYYFILLFFKCNYFSYFCSKDRNPMSENIQQKIEQLRKELHQHNENYYLLDTPTISDFEFDMLLEELQNLEAQYPEFYDENSPSVRVGGGVTKVFPTIQHKFRMYSLDNSYDFEDLEDWEKRIIKTIEDPVEFVAELKYDGASISILYENGKLSQAVTRGDGFQGDEITPNVRTISDIPLTLKGDFPIHFFMRGEIYLTRKNFDKLNVLREEEGLDPFMNPRNTASGSLKMQDSAEVRKRGLSSVLYQFISEDIPAETHWELLQKAQSWGFKTSQQAKLCRTLDEVKEFITFWDTERHHLPFEIDGIVLKVNSLQQQRQLGYTAKSPRWAMAYKFKAEKVETELQSVSYQVGRTGAITPVANLKPVLLAGTIVKRASLHNEDIIKKLDLHEKDFVYVEKGGEIIPKIVGVNTDKRTDESREIEYIKHCPECGTELVKIEDQAIHFCPNELHCPPQVVGRMIHYVSRKALNIDNLGSETIEQLYREKLIENPADFYVLTKEQLLPLERMAEKSAQNIITGIEKSKEIPFEKVLYGIGIKHVGETVAKKLVKNFPTIEELKAATSEELCQVEDIGAKIAVSIVDFFRNSENLLMIERLKSYGVQLEKGESTNEVLSNVLEGKTFLFTGKLSLFTRESAEEMVEKHGGKNISAVSKNLNYLVVGEKAGSKLKKAQDIGTIEILDEQQFLDLIDKQ				NA	NA	NA	NA	NA
BMS003_04120	1716	kinB	COG5000	Alginate biosynthesis sensor protein KinB	ATGAGACTTAAAACGAAACTTACCTTAGGCGTGGGCCTTTTATTTCTGCTGATCGTTCTGCTTTCAGTGATAGGTTCTGTATACATCAATAAGCTGAAATCTGATACTGAAAAGATCCTTACGGCCAATTACAACAGTCTGGAATTTTCCAAGAACATGCTTCTGGCACTGGATAACATCAGTACAGACAGTACCGTTGCCATAGCAGATTTTCAGAAAAACAGTAAACTGCAGGAAAATAACCTTACAGAATTTGGAGAAAAAGAAGCTACGCAGAACCTTAATATGCATTTCAGCAGTTATCTGAAAGCACCGGATATCCATAAAGAAAAGCTCATCCGCGAAGATCTGGCAAAGATTATGTCTTTGAATATGAAAAGCATAGAAAGGAAGAGTGATATTGCGATTATTACAGCCGAAAACGCTACTTTTTGGATCGTAAGTTTGGGAACCGTATGTTTTCTGATTGCTTTTATTCTGCTTTTCAATTTGCCGCAAACTATTGCAGAACCTATTAATCAGCTTACTTTCAGTATCAAACAGATTGCGGATAAAAATTACAGCGAAAGGGTTCATTTCAAAGGAAGTGAGGAGTTCAACAGTCTGGCAGATTCATTCAACAGTATGGCGGAAAAACTTCAGGAGTACGAAAGCAGTACGCTTTCGAAGCAGCTGATGGATAAAAAACGTATCGAAACACTGGTCAATAATATGCATGATGCGGTGATTGGTCTGGATGAGAACCATTTTATCTACATGATTAATGATGAAGCTTTGAAGATCACCAATCTCCATAAGGAAGATATTATCGGAAAAACGGCTCATGAAGTAGCTGTTAACAATGATCTGATGCGTGAATTACTGAAAAATATAGATCATCCGGTAAAAGATCCGATTAAAATTGTTCGCGATAACAAAGAAAACTATTTCGAGCAGGATATTATTCCCATCAATATTGTAAAGACAGGCGAAAAAGAGAAAAAATATATCGGAAAGGTAATCTTGTTGAGAAATATTACGCCTTTTAAAGAACTTGATTTTGCCAAAACCAATTTCATTGCAACCATTTCCCATGAATTGAAAACTCCGATTTCTGCGATCAAAATGGGCGTTCAGCTTCTTGGAAACCAAAAGTTCGGAGAGCTGAACGAGCAACAGCAGGAATTGTTGAAGAGCATCAATGAAGATGGACAGCGCCTATTGGACATTACGGGAGAATTGCTGAATCTTTCTCAGGTAGAATCCGGAAATATCAGACTCACGGTTGAAAAATGCTCTCCTAAAGAAATTGTGCAGACTGCTGTAAAAAATGTTGAAAAGCTTGCCGAACAGAAAAATATTTCCATCAGTACAGAATATCTTCTGGATGAAAGTGATGCTGTAACTGCAGATTTTGATAAAACCGTCTGGGTGATGAATAATTTTCTTACCAATGCGGTGAAGCATTCTTTTCAGGACGAAAATATTAAAATCATGGTAGAAAAACGGGATGCTTTTATCCAGTTCAGTATTATTGATACCGGAAGCGGGATTGATGAAAAATACCACCGCCAGATCTTTGACCGCTATTTTCAGGTGCCGGGAGAACATCAGAATGGAACAGGATTGGGGTTAGCCATTTCAAAAAACTTTATTGAAAAACAACACGGAGAAATAGGAGTAAAGAGTTCCCTGAATAATGGAAGTACATTTTACTTCAGATTGCCGGTTTCGTAA	MRLKTKLTLGVGLLFLLIVLLSVIGSVYINKLKSDTEKILTANYNSLEFSKNMLLALDNISTDSTVAIADFQKNSKLQENNLTEFGEKEATQNLNMHFSSYLKAPDIHKEKLIREDLAKIMSLNMKSIERKSDIAIITAENATFWIVSLGTVCFLIAFILLFNLPQTIAEPINQLTFSIKQIADKNYSERVHFKGSEEFNSLADSFNSMAEKLQEYESSTLSKQLMDKKRIETLVNNMHDAVIGLDENHFIYMINDEALKITNLHKEDIIGKTAHEVAVNNDLMRELLKNIDHPVKDPIKIVRDNKENYFEQDIIPINIVKTGEKEKKYIGKVILLRNITPFKELDFAKTNFIATISHELKTPISAIKMGVQLLGNQKFGELNEQQQELLKSINEDGQRLLDITGELLNLSQVESGNIRLTVEKCSPKEIVQTAVKNVEKLAEQKNISISTEYLLDESDAVTADFDKTVWVMNNFLTNAVKHSFQDENIKIMVEKRDAFIQFSIIDTGSGIDEKYHRQIFDRYFQVPGEHQNGTGLGLAISKNFIEKQHGEIGVKSSLNNGSTFYFRLPVS	PGPT0026150_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026150-kinB-K11383	NA	NA
BMS003_04121	1110	kdpD	COG2205	Sensor protein KdpD	ATGTCATCAGCAAAAGATTTTTTAGAACTGATTCAGAAGTCCCGTAAAGGAAAATTCAAAATTTATATCGGGATGAGTGCAGGTGTAGGAAAGACCTTCCGTATGCTTCAGGAAGCACATTCTCTTTTGCGAAATGGCATTGATGCAAAAATTGGTTACATAGAAACCCATGGCCGGGAAGAAACCGTAGCCCTTGCAGAAGGCCTTCCTGAGATTGAAAGAAAATCAGTCTTCTATAAAGGAAAGAATCTTGAAGAGATGGATCTTCAGGCCATCATTAATGAACATCCTGAAGTGGTTTTGGTAGATGAACTGGCTCACACCAACGTAGAAGGTTCCAAAAATAAAAAGAGATGGCAGGATGTGCTGGAAATCCTTGATAACGGAATCAACGTCATCAGCGCCATGAATATCCAACACATCGAAAGCCTGAATGAAGAAGTCAAGAAAATCACAGGAGTAGAAGTGGCAGAACGTGTTCCTGATAAAATATTGGCACTCGCCGATGAAGTAGTCAATATTGACCTTACTGCAGATGAACTGCTGACCCGGTTAAAAGAAGGAAAAATCTATAAAAAAGAAAAAATTCAGACGGCACTGAGTAATTTTTTCCAAAGCAGACATATTCTTCAGCTTCGTGAGCTGGCTTTAAAAGAAGTGGCCACCCATGTGGAAAGAAAGGTGGAAACTGAGATTAAAACCGAAAATTTTAAACCGATAAAATTCCTGGCCTGCATCAGCAGCAACGAGAAAATTGCCAAAACAATTATCCGCAAAACAGCAAGATTAGCCAGTTACTATAACAGTTCATGGACTGTTTTGTACGTTCAGAAACCTTCTGAAAATCCGGAAAAAATTGCGTTGGATAAACAGCGGTATTTAATTAATAATTTTAATTTAGCACAGGAATTAGGAGCCAAAGTTGTCCGCATCAAAGAAAGCAGCGTTCATAACGGAATTCTGGAATATGTGATTGCTCATAACATCACCACGGTCTGCATTGGAAAACCTCATGCCAGTTTCTGGCAGCGGCTGTCCGGGTACAGCTGGATCTATACCCTCATGAACAGACTGAATGAAAAACAGATAGATATTATTATTTTATCATAA	MSSAKDFLELIQKSRKGKFKIYIGMSAGVGKTFRMLQEAHSLLRNGIDAKIGYIETHGREETVALAEGLPEIERKSVFYKGKNLEEMDLQAIINEHPEVVLVDELAHTNVEGSKNKKRWQDVLEILDNGINVISAMNIQHIESLNEEVKKITGVEVAERVPDKILALADEVVNIDLTADELLTRLKEGKIYKKEKIQTALSNFFQSRHILQLRELALKEVATHVERKVETEIKTENFKPIKFLACISSNEKIAKTIIRKTARLASYYNSSWTVLYVQKPSENPEKIALDKQRYLINNFNLAQELGAKVVRIKESSVHNGILEYVIAHNITTVCIGKPHASFWQRLSGYSWIYTLMNRLNEKQIDIIILS	PGPT0002755_2624	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
BMS003_04122	1086			hypothetical protein	GTGAAAAAATATCTAGCTATATGTGCACTATCAGGGCTGTTTTTAGCCAAAGCCCAATCATCAGATTCATTGAAAATTGGAAATAAAGTGACCTTTTCCGCTTATGCAGAACTTTTTTATACCTATGATTTTAATGAGCCGGGCAACCATATGCGTCAAAATTTTTTATACTCATATAACAGACACAATGAAGTGAATCTTAATCTGGGACTGGTTAAAGCCAATTATCAGAGCGAAAATCTCAGAGCCAATGTGGCTTTAATGGCAGGAACTTATGCCCAAGATAATATGGCAGCAGAACAAAATGCACTGCGTTATGTAAACGAAGCCAGTGTTGGAATCAAAATATCAAAGAATAAGAATTTATGGATTGATGCAGGGATCATGCCTTCACATATCGGTTGGGAAAGTGCCATAGGAAAGGATAATTTGAATCTGACAAGAAGTTTGGCTGCCGAAAACTCACCCTATTTCGAAACCGGAGCTAAAATTTCTTATACCTCAGATAATGGGCAATGGTTTTTAAGCGGACTAATACTGAGCGGATGGCAGCGTATTGCCAAACCTGAAGGAAATCAGAGTATTTCTTTCGGGCATCAGGTGACGTATAAACCCAATGATAAAATTACCCTGAACAGCAGTTCATTCATAGGAAATGATAAAGCAAAAGAAGATAAAAGAATGCGTTATTTCCATGATTTGTACGGAAGCTTTCAGTTGACAGATCAGTTTTCGGCTGTATTGGGATTTGATATCGGTGCAGAGCAGAAATCCAAAGGAAGCGAGCAGTATAACATCTGGTACAGCCCGAATGTTCAGATGAAGTATCAGGTTGACAGCAAATGGGCACTGGCTGGAAGATTAGAATATTACAATGATAAAAATGGTGTGATTATCAGCACAGAAACGCCTAATGGATTTCAGACCTTTGGATATTCTCTCAATGTAGACTATGCCATATTCAAAAATGTTGTTTTCCGTACAGAAGCGAGAGGTTTTACTTCCAAAGATGCCATTTTTGCCAGGAATGATGATTTTAAAAAAGGAAATTTCTTTATAACATCGAGCTTGGCAGTCTGGTTTTAA	MKKYLAICALSGLFLAKAQSSDSLKIGNKVTFSAYAELFYTYDFNEPGNHMRQNFLYSYNRHNEVNLNLGLVKANYQSENLRANVALMAGTYAQDNMAAEQNALRYVNEASVGIKISKNKNLWIDAGIMPSHIGWESAIGKDNLNLTRSLAAENSPYFETGAKISYTSDNGQWFLSGLILSGWQRIAKPEGNQSISFGHQVTYKPNDKITLNSSSFIGNDKAKEDKRMRYFHDLYGSFQLTDQFSAVLGFDIGAEQKSKGSEQYNIWYSPNVQMKYQVDSKWALAGRLEYYNDKNGVIISTETPNGFQTFGYSLNVDYAIFKNVVFRTEARGFTSKDAIFARNDDFKKGNFFITSSLAVWF				NA	NA	NA	NA	NA
BMS003_04123	558	kdpC	COG2156	Potassium-transporting ATPase KdpC subunit	ATGAAAAATCATATTGTTTCAGCATTCAGATTAACTCTTGTAATGCTGGTCGTTACAGGGGTTTATCTGGCAATTGTATATGGAGGTTCTAAAATACTTCCCAACAAAGGAAATGGAGAAATTATTTACAATAAAGGACAAAAGTTTTATGCCAATATCGGGCAGGAATTTAAATCTGAAAAATACTTTCACGGCCGTCCTTCCTCAGTCAATTATAATGCGGCAGGAAGTGGGGGAAGCAACAAAGGCCCCAGCAACAAAGAATATTTGGAAATCGTACAGAAAAGAATTGACACTTTAAAAATGAATAACCCGGAAATGGGTAATATGAAAGTACCTGTAGAATTAGTAACAGCCAGCGGAAGCGGTTTGGATCCGGATATTTCTGAAGAAGGAGCATTGTATCAGGTAAAGAGAATTGCGAAAGTGAGAAATATTTCAGAAGAACAGATCAAAATCTTAATTAATACTCAGACTGAAAAACCTTTCTTAGGACTTTTCGGGCCATCAAAAGTAAATGTTCTGAAGCTTAATATTGCGTTGGATCAGTTAAAATAA	MKNHIVSAFRLTLVMLVVTGVYLAIVYGGSKILPNKGNGEIIYNKGQKFYANIGQEFKSEKYFHGRPSSVNYNAAGSGGSNKGPSNKEYLEIVQKRIDTLKMNNPEMGNMKVPVELVTASGSGLDPDISEEGALYQVKRIAKVRNISEEQIKILINTQTEKPFLGLFGPSKVNVLKLNIALDQLK	PGPT0002750_1995	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
BMS003_04124	2040	kdpB	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAAAAATCAGTCACAAACATTGTTTCAAAGAGATTTGATCAACGAAGCGATTAAACAGTCCTTCGTAAAGCTGAATCCGAAAATTATGTTTAAGAATCCGGTAATGTTTCTGGTGGAGATCGGAACCATTGTCATGTTTATCGTAAGCATGTTCAGTCTTACTGGCGATAAATCTCAGGGAAGTTTTTCCTATAACTTTTTAGTATTTATTATTTTATTTTTCACCGTTCTGTTTGCCAATTTTGCAGAAGCTATTGCAGAGGCAAGAGGAAAAGCGCAGGCTGATACTCTCAGAAAAACAAGGGAGGAAACACCGGCCAAACTGGTACTTGATAACAAGCCGGGATTTCAGGTAGAAACAAGACTGAAAATGTCTGCTGAAATGACCTTAGGCGATATTTTCCTTTGTGAAGCCGGAGATCAGATTCCTATGGATGGTGAGATTATTGAAGGTCTTGCTACCATTGATGAGTCTGCAATCACCGGAGAAAGTGCTCCGGTAATCCGTGAAGCAGGAGGAGATAAAAGTTCCGTAACAGGAGGTACAAAAGTGCTGTCTGACAGAATTAAAGTAAAAGTGACCACAAAACCCGGAGAATCCTTCTTAGATAAAATGATTGCCCTTGTAGAAGGAGCATCAAGGCAGAAAACACCTAACGAAATCGCATTAACTATACTTTTAGCAGGATTTACGCTTACATTTATTATTGTTACCCTCACTTTAAAACCTTTTGCAGACTATGCGCAGACTCCGATTACCATAGCGGCATTTATATCTCTTTTCGTTTGTCTTATTCCGACAACCATCGGAGGTCTGCTTTCTGCAATCGGGATTGCGGGGATGGACAGAGCATTGAGAGCAAATGTGATTACTAAAAGCGGAAAAGCAGTGGAAACAGCGGGAGATATTGATGTTTTGCTACTTGATAAAACCGGAACAATCACGATCGGAAACCGTAAAGCAACTCAATTTCATCCTTCAAATGGGATTCAGATTGACGAATTCATCAAAGCTTCTGCATTAAGTTCTGTAGCCGATGAAACACCGGAAGGAAAATCCATCATTGAACTGAGTGCATTAAAATCTGAGGATTTATGGGTAGCCAATCCTACTTATATTGATTTTACAGCGGAAACCAGAACTTCAGGGATTGATTTTGATGAAACAAGAATCCGTAAAGGAGCTTATGATACCATAAAAAAACTGGCTGAAAAAGCCGGGAATATCTTCCCGCAGGAAACTCAGGACGCGGTAACCAAAATTTCTGAAAACGGAGGAACTCCTCTGGTGGTATCAGTTAATGAAAAAGTATGGGGCGTTATTGAACTTCAGGATATCATCAAAACCGGAATTCAGGAACGTTTCCAGAGACTGAGAAAGATGGGGGTGAAAACGGTAATGGTAACTGGTGACAACCCTTTGACCGCAAAATTCATTGCAGAAAAAGCAGGAGTAGACGACTTTATTGCTGAAGCCAAGCCTGAAGATAAGATGAATTACATCAAAAAGGAACAGCAGGAAGGTAAACTGGTAGCCATGATGGGTGACGGTACCAACGATGCTCCGGCACTGGCACAAGCAGATGTAGGGGTAGCAATGAACAGTGGAACTCAGGCAGCCAAAGAAGCCGGGAACATGGTAGACCTTGATAACGATCCTACAAAACTGATCGAGATCGTGGAAATTGGGAAGCAGCTGCTAATGACAAGAGGAACATTGACGACTTTCAGTATTGCAAATGACGTGGCGAAGTATTTTGCGATTATTCCGGCACTGTTTATCACTTTTATTCCTTCCCTTCAGAAGCTGAATATTATGAACCTTCACAGTCCTGAAACAGCCATATTATCAGCGGTTATTTTCAATGCAGTAATTATTCCGTTTCTGATTCCATTGGCGTTGAAAGGAGTGGCTTACAAGCCGATTGGCGCAAGTGCATTATTGAGAAGAAACCTTTTAATCTATGGTTTAGGCGGAGTAATCGTTCCTTTTATCGGAATCAAAATCATAGATATGGTAATCAGTTTATTCTATTAA	MKNQSQTLFQRDLINEAIKQSFVKLNPKIMFKNPVMFLVEIGTIVMFIVSMFSLTGDKSQGSFSYNFLVFIILFFTVLFANFAEAIAEARGKAQADTLRKTREETPAKLVLDNKPGFQVETRLKMSAEMTLGDIFLCEAGDQIPMDGEIIEGLATIDESAITGESAPVIREAGGDKSSVTGGTKVLSDRIKVKVTTKPGESFLDKMIALVEGASRQKTPNEIALTILLAGFTLTFIIVTLTLKPFADYAQTPITIAAFISLFVCLIPTTIGGLLSAIGIAGMDRALRANVITKSGKAVETAGDIDVLLLDKTGTITIGNRKATQFHPSNGIQIDEFIKASALSSVADETPEGKSIIELSALKSEDLWVANPTYIDFTAETRTSGIDFDETRIRKGAYDTIKKLAEKAGNIFPQETQDAVTKISENGGTPLVVSVNEKVWGVIELQDIIKTGIQERFQRLRKMGVKTVMVTGDNPLTAKFIAEKAGVDDFIAEAKPEDKMNYIKKEQQEGKLVAMMGDGTNDAPALAQADVGVAMNSGTQAAKEAGNMVDLDNDPTKLIEIVEIGKQLLMTRGTLTTFSIANDVAKYFAIIPALFITFIPSLQKLNIMNLHSPETAILSAVIFNAVIIPFLIPLALKGVAYKPIGASALLRRNLLIYGLGGVIVPFIGIKIIDMVISLFY	PGPT0002745_1900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
BMS003_04125	1695	kdpA	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGAATACAGAAATTTTAGGCATTATAGCAATGTTTGCTATTACATTAGTTATCGGAATTTTTTTAGGAAAATACATAGCTAATGTTTACGGATACAAAAAAACTTTTCTGGATCCGGTTTTTGAACCCATTGAAAAGTTAATTTATAAACTTTCAGGAATTAATCCTGCCCGTCAGATGAACTGGAAACAGAATATGTATGCCATGCTGACGATTAATCTGGTTTGGTTTATCATTGGTTTTCTTCTGTTGGTGAATCAGGCATGGCTTCCGTTAAATCCAGATGGAAACCCCGGTATGTCACCTGATTTGGCTTTTAACACAACCATTTCCTTCTTAGTGAACTGTAATATACAGCATTATTCAGGAGAAACGGGATTAAGTTATCTGAGCCAGCTTTATCTGATGTTTTTACAGTTTGTAACAGCTGCAACGGGAATGGCAGCAATGGCAGTTCTTTTCAAAGCTTTTAAAGAAAAAACAAGTACAGAACTGGGTAATTTTTACGACTTTTTCACCAAATCTGTGATCAGAATTCTGGTTCCTATTAGTGTAATTGCTGCTTTAATTTTATCCATCAATGGAAGTCCTATGACTTTTGAAGGAAAAGATCACATCATAACTTTGGAAGGTCAGAAGGCTAATATTTCCAGAGGGCCAGTCTCGGCATTCGTTGCGATCAAACACTTAGGAACTAATGGTGGTGGCTTTTTCGGGGCCAACTCAGCGCATCCGCTAGAAAACCCTAATTATATCACCAATATGACAGAGATGGTCACTCAGATGATTATTCCGTTTGCATTAGTATTTGCATTAGGTTTTTATCTGAACAAAAGAAAACTTTCATGGGTGATCTTTACGGTAATGACGGTCGGTTTTCTGGCACTTACCATTCCGAATATAGTAAATGAAACAGGTGGAAATCCTTTGATTACCCAAATGGGAGCAGACAAGAGTCTGGGTGCTATGGAAGGTAAAGAAATCCGCTTTGGAAGTGCTGCTTCAGGATATTGGAGTATTGCTACAACGGTAATTTCTACAGGTTCTGTAAATGCAATGCATGACAGCACAATGCCTCTTTCGGGGATGAATGAATTGCTTGCGATGATGATCAATTGTTTTTACGGAGGCTGCGGTGTCGGAATCCTGAACTATTTTATCTTTATCATTCTTGCAGTATTCATAAGTGGATTGATGGTAGGGCGAACTCCGGAATTTATGGGTAAAAAGATTGAAGCCAAAGAAATGAAAATCGCAATGATTGTGGCTTTATTCCATCCCTTCTTAATTCTTGCAGGAACGGCCTTAACAGCTTATCTACCAGAATTTGGAGCAAAGACATTGAATAATCCCGGTTTTCATGGTTTCAGTGAAATGCTATACGAGTTTACTTCTTCTGCAGCGAATAACGGTTCCGGATTCGAAGGACTTGGAGATAATACCCCTTGGTGGAATATCTCAACAGGAATTGTACTGTTACTATCAAGATTCATCCCGATTATAGGACCTGTAGCAATTGCAGGACTATTAGCACAAAAGAAATATATTCCTGAAAGCTCAGGAACACTGAAAACAGATACAGCTACTTTCGGATTTATGACCCTGGCGGTGATTCTACTGATTGCAGCACTGTCTTTCTTCCCTGCATTGACTCTTGGTCCTATCGCAGAGCAGATTCAGTATTTCTCAAAATAA	MNTEILGIIAMFAITLVIGIFLGKYIANVYGYKKTFLDPVFEPIEKLIYKLSGINPARQMNWKQNMYAMLTINLVWFIIGFLLLVNQAWLPLNPDGNPGMSPDLAFNTTISFLVNCNIQHYSGETGLSYLSQLYLMFLQFVTAATGMAAMAVLFKAFKEKTSTELGNFYDFFTKSVIRILVPISVIAALILSINGSPMTFEGKDHIITLEGQKANISRGPVSAFVAIKHLGTNGGGFFGANSAHPLENPNYITNMTEMVTQMIIPFALVFALGFYLNKRKLSWVIFTVMTVGFLALTIPNIVNETGGNPLITQMGADKSLGAMEGKEIRFGSAASGYWSIATTVISTGSVNAMHDSTMPLSGMNELLAMMINCFYGGCGVGILNYFIFIILAVFISGLMVGRTPEFMGKKIEAKEMKIAMIVALFHPFLILAGTALTAYLPEFGAKTLNNPGFHGFSEMLYEFTSSAANNGSGFEGLGDNTPWWNISTGIVLLLSRFIPIIGPVAIAGLLAQKKYIPESSGTLKTDTATFGFMTLAVILLIAALSFFPALTLGPIAEQIQYFSK	PGPT0002740_1168	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
BMS003_04126	1323	atoC	COG2204	Regulatory protein AtoC	ATGTCAGGAAATATTCTGATCATCGATGATGAGATCAAACTCCTAAAATTACTAGGAATGATCCTTTCCCAAGAGAATTTTAATGTAAAAGAAGCTTCTACAGCACGTTCTGCGATGACAATGCTGGAGCAATATGACTTTGATGTTGTTCTGAGCGATGTACGTCTTCCTGATGCTTTTGGAGTAGAGCTTGTTAGATCTATTAAAACAAAATATCCTCAGCTTGAAATTATTCTGATGACTGCATTCGGAAATATTACAGATGCAGTACAGGCTATGAAGAACGGAGCTTACGATTATCTGGTAAAAGGAGATGACAATGAAAAAATCATCCCGTTGGTATATAAAGCTCTGGATAAGGTAAAAGATAACAAATCAAGAATTGTTCTGCAGACTGTAACGAAAGGTTTTGATCAAATTATAGGTAAATCACCATTAATTTTGCAGGCTAAGAAACTGGCTGAAAAAGTAGCTTTGACAGATGCAGCCGTTCTGCTTACAGGTGAGACAGGAACGGGAAAAGAAGTTTTTGCAAGTGCTATTCATGAAGGAAGTGACAGAAAGAAAAACGGCTTTGTGGCCATCAACTGTTCGGCATTCAGTAAAGAAATTCTGGAGAGTGAACTTTTTGGTCATAAACAAGGTGCTTTTACAGGTGCTTTGAAAGATAAAAAAGGGTTGATTGAAGAAGCGAATGGAGGAACTTTATTTTTGGATGAAATCGGTGAAATGCCGATTGAACTTCAGGCAAAACTTCTCAGGGTTTTGGAAACCAAAGAGTTTATCAAAATGGGTGAAACGAAGGTTTCAAAATCAGATTTCAGATTAATTGCGGCTACTAATAGGGATCTTGAAGAAGAAATAAAACAAGGAAATTTCAGAGAAGATCTCTATTTCAGACTGAATGTATTTGAAATCACTCTTCCTGCATTAAGAGAAAGAAAAGAAGATCTGAAAGCTCTTGCCAAGAACTTCATTGATCTATTTTCAAATAAACTTCATCTGTCTTCCGTTCAGGTTGATCCGGATTATTATAAAGCTCTGGAAAGAAACGATTGGAAAGGGAATATCCGTGAATTAAGAAATGCCGTAGAACGAAGTTTGATCTTAATGGACAACAATATTCTTGATGCAGACAGTCTTCCTCATTATTCGGAAAAAACATTTCCCGAAAGTGATTCTCTAAGTATCCGGTCATTGGAAAAAATACATATTCAAAAAGTTTTACAGTATACAAAAGGAAACAAAGCAGAAGCAGCACGCCTACTTGAGATTGGTATTGCCACACTGTACCGTAAACTGGAAGAGTACGGATTGAAATAA	MSGNILIIDDEIKLLKLLGMILSQENFNVKEASTARSAMTMLEQYDFDVVLSDVRLPDAFGVELVRSIKTKYPQLEIILMTAFGNITDAVQAMKNGAYDYLVKGDDNEKIIPLVYKALDKVKDNKSRIVLQTVTKGFDQIIGKSPLILQAKKLAEKVALTDAAVLLTGETGTGKEVFASAIHEGSDRKKNGFVAINCSAFSKEILESELFGHKQGAFTGALKDKKGLIEEANGGTLFLDEIGEMPIELQAKLLRVLETKEFIKMGETKVSKSDFRLIAATNRDLEEEIKQGNFREDLYFRLNVFEITLPALRERKEDLKALAKNFIDLFSNKLHLSSVQVDPDYYKALERNDWKGNIRELRNAVERSLILMDNNILDADSLPHYSEKTFPESDSLSIRSLEKIHIQKVLQYTKGNKAEAARLLEIGIATLYRKLEEYGLK	PGPT0004315_737	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS003_04127	1014	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGCAAGAAAATTTTTCATTAAAGCCTTATAACACATTTGGCGTTGAAGCCAAAGCCCGTTATTTTACTGAAGTCAATAATATTGATGAATTAAAAGAAGCACTCATTTTCTCGAGGGCCAACGCTCTTACGATTTTGCTTTTGGGAGGCGGAAGTAATATCCTTCTTACCAGAGATTTCGAAGGTCTTGCCATCAAACTGAATTTAAAAGGTATTTCTGAGGAACACATCAATGAAAGCGAGGTACTGGTAACAGCCAAAGCAGGAGAAAACTGGCATGAATTTGTGATGTACTGCCTGCAGAAAAACTTCGGCGGACTGGAAAACCTTTCTTTGATTCCGGGAAATGTAGGCACTTCTCCAATGCAGAATATCGGAGCTTACGGAACGGAGATCAAAGATGTTTTTATCAGCTGTAAAGTATTGGATCTGGAAAATTTTGAAATTGAAACATTTAATCTTGAACAGTGCAGGTTCGGATACAGAGATTCTATTTTTAAACAGGAAGGAAAAGGCAGGTATGTAATTCTGGAAGTCACTTTCAAGCTTACCCAGAAAAATCACCTTATCAAAACAGAATATGGAGCCATACAATCTGAGCTAAAAAACCTTGGAATACAAAACCCTACCATTCAGGATGTCTCCAAGGCTGTAATCAACATACGCCAAAGCAAACTTCCTGACCCTAAAGAAATTGGAAATGCCGGAAGTTTTTTCAAGAATCCGACAATTCCCGCAACTCAGTTTGAAGCTCTGAAACAAAAATTTGAAAATATCCAGGGATACCCAAACGGGGATATGGTAAAAGTTCCGGCAGGATGGCTGATAGAACAGTGCGGATGGAAAGGAAAGCAAATTGGAAATACAGCTTCTCACAAATTACAATCACTGGTGATCATCAATGCAACAGGAAATGCTACGGGAAAAGAAATTTTCGATTTTTCTACTGAAATTATTAATTCTGTAAAAGAAAAATTCGGGATAGAGCTTGAACGGGAAGTAAATATTATTTAA	MQENFSLKPYNTFGVEAKARYFTEVNNIDELKEALIFSRANALTILLLGGGSNILLTRDFEGLAIKLNLKGISEEHINESEVLVTAKAGENWHEFVMYCLQKNFGGLENLSLIPGNVGTSPMQNIGAYGTEIKDVFISCKVLDLENFEIETFNLEQCRFGYRDSIFKQEGKGRYVILEVTFKLTQKNHLIKTEYGAIQSELKNLGIQNPTIQDVSKAVINIRQSKLPDPKEIGNAGSFFKNPTIPATQFEALKQKFENIQGYPNGDMVKVPAGWLIEQCGWKGKQIGNTASHKLQSLVIINATGNATGKEIFDFSTEIINSVKEKFGIELEREVNII	PGPT0024115_2319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
BMS003_04128	486			hypothetical protein	ATGCCGACAACAAAAATTATATATCTGAAAATCCTGTTTTCGATTGTTTTGCTGTCGGCATTTTTTTCCTGTGATTCAAAAAAAACAGAACAGGCCAGCCCTGGTAAGTCTTCCAACAAAATCACCTTTGTCAGCGTATCTGATGTAGGCGGAACCCTGGGCAGTTACAGAATCATTAAAGCAACAAAGGATTCCATTTTTGCCGAAAAAGGAATGACAGCTGATCAAACCCATAAAGAATGGAGATCAGCCATCAATCCCGACACCTGGAAGCTGCTTGTATCATCCATTAATACTGCAGATCTTGACTTTATAAAAAGTTCTATCAGCCAGCAGTCTGTGGACGGAATGGATGAAACATTCCAGATCCGGACTCCAAAAAAATCACACCTCTATGTGAATGCTTATACAGACACTGTACATTACAAACAGCTACAACAGCTTAAAGAACAACTAAACAGGATTCTTCCCAAAGAATACAGATAA	MPTTKIIYLKILFSIVLLSAFFSCDSKKTEQASPGKSSNKITFVSVSDVGGTLGSYRIIKATKDSIFAEKGMTADQTHKEWRSAINPDTWKLLVSSINTADLDFIKSSISQQSVDGMDETFQIRTPKKSHLYVNAYTDTVHYKQLQQLKEQLNRILPKEYR				NA	NA	NA	NA	NA
BMS003_04129	1206		COG0436	Aspartate/prephenate aminotransferase	ATGCCGAATATTTCAAACAGAGCACTGCATATGCCACCATCGCCGGTAAGAAAACTGGTTCCCTTTGCGTTACAAGCAAAACAAAAAGGAATAAAAGTATATCACCTTAATATCGGACAACCTGATATTGAAACTCCGGAAACTGCTTTAAATGCTTTAAAAAATATTGATTTAAAAGTATTGGAATATGCGCTTTCTGAAGGGAATATAGAATACAGAAAAGCCCTTACAGAATACTATCATTCTTTAGGTTTTTCAGATCTTACCCCTGATAACTTCATTGTAACCAACGGAGGCTCTGAAGCCCTTAATTTTGCCATCTCAACTTTATGTGACGAAGGTGACGAAGTGATTATTCCTGAGCCTTACTATGCCAACTACAATGGTTTCACCAGCACATTTGATGTGAATGTAGTAGCAGTACCATCTACTATTGACACAGGTTTTGCCCTACCTCCTGTTGAAGAATTTGAGAAAAAAATCACTGAAAAAACAAGAGCCATTATCATCTGTAACCCCGGAAACCCAACCGGATATCTTTATACCCGTGAGGAGCTTCAAAAGCTTGCAGAAATTGCTTTAAAATATGACATCGTTATCATCTCTGATGAAGTATACAGAGAATATGTATATGATGGAAAACAGCAGATCTCAATGCTTGACTTCCCTGAACTGGCAGAAAACTGCATCATCATAGATTCAGAATCCAAGCGTTATTCTATGTGTGGGGTAAGAATCGGATGCATGGTAACCCGTTCCAATAAAATCCGTAACGCTGCTATACTTTTTGCACAGGCAAGATTAAGCCCGGTTCTCTTAGGACAGATTGCAGCAACTGCAGCACACCAGAACGACGGTCCTTACATCAGAGCAGTAAGAGAAGAATATACTCACAGAAGAAATGTACTGGTAGATCTTTTAAATGCTATTCCCGGAGTGATCTGTCCAAAACCAAAAGGTGCTTTCTACTGTGTGGCTGAGCTTCCGGTAGATGATACTGAAAAATTCGCACAATGGCTGCTTGAGAAATATTCTCTTAACAATGAGACGATCATGGTAGCTCCTGCAGGTGGATTTTACAGCAACCCGGAATTAGGTAAAAAGCAGGTAAGAATTGCCTATGTACTGAAAGAAGAAGATTTAAAAAGAAGTGCTGAAATCCTTAAAGAAGCTCTGAAAAAATATAGAGAAGAATTCAGCCTGTAA	MPNISNRALHMPPSPVRKLVPFALQAKQKGIKVYHLNIGQPDIETPETALNALKNIDLKVLEYALSEGNIEYRKALTEYYHSLGFSDLTPDNFIVTNGGSEALNFAISTLCDEGDEVIIPEPYYANYNGFTSTFDVNVVAVPSTIDTGFALPPVEEFEKKITEKTRAIIICNPGNPTGYLYTREELQKLAEIALKYDIVIISDEVYREYVYDGKQQISMLDFPELAENCIIIDSESKRYSMCGVRIGCMVTRSNKIRNAAILFAQARLSPVLLGQIAATAAHQNDGPYIRAVREEYTHRRNVLVDLLNAIPGVICPKPKGAFYCVAELPVDDTEKFAQWLLEKYSLNNETIMVAPAGGFYSNPELGKKQVRIAYVLKEEDLKRSAEILKEALKKYREEFSL	PGPT0020110_1379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS003_04130	2514			hypothetical protein	TTGTTATTTTTACTAAATTTCACCACAAATGTGATCAAAATGGTAATAAGTTTATTTTCTAGAGTAATGCCTGCCATTGCTCTCTTTTCAGCCAGTATAATGATGGCTCAAAATTTTCAAACGATGCCGGTTTCTTCAGGGTATACGGCAGATGTAATTGCTAACGGGATAGGTTCCTCATCAGTTTCTACAAACAATGATGTAGATGGGGTTTCTTATGCTTTTGTTGCCAGGGATTTTCAGTTAACTTCTGCGAGTACACCTCTTACTTATGGCTTGCCGATAGATGGAATTATTAATTCTGTTGTGGCGGGAACACCGGGCTTGAGCTATGTTTTAGGAAACTTAAGTGGAAATAACTCGTTAAGGCTGGCTGCAAACAATGATAGCGGAACACTTACTTTTACGACCCCTAAGCCTGCATTTACTTTGTATATGCTTTCTACCAGCGGTAGTGGAACATCTGTAGTAGATGTCACTGTTAATTTTACTGATGGAACCAGCCAGGTATTTTCCAGTATAAGTCTTGCTGACTGGTATGGAGGGACTAATTTTGCCATACAGGGAATTGGAAGAATCAAAAGAAGTTCAGATGCCTTAGAATCCAGTACCACAGAACCGAGACTTTATCAGAACGCACTGGCAATAGATGCTGCGAATCAGACAAAACTTATACAAAGTGTGATGGTAACCAAAGCAAGCGGATCAGGGTATCCTAATATTTTTGCTTTTTCGGCAGACGTGTATTCAGATTGTGCACCTCCTGTATTACAGTCTGTTTCAGGTATTACAGCTAACTCTGCTTTAGTTTCCTGGACATCTCCAACGAATGCGGCAAGTTATGATGTATATCACAGTACTTCCAATACAATACCTGCAAGTTCGGTAACACCTACTTATCCGGGAGTAACCGGAACAAGTACAACGATAGGAAACCTTACTTCCAATACAACGTATTATTACTGGGTAAGATCCAATTGTAATACTGCAACCGGCCAAAGTGTATGGTCTTTTGCAGGAACATTTAAGACAGCCTGTTCTACTTTCACAGTTCCTTATACAGAAAACTTTGATACCACAGGTACAGGTTCCAGTTCGAATACCAATGCCCCAAGCTGCTGGGCATATTTGGAAAGTAATGCATTTGCTGGCTATGGATATGTAACTACTTCTAATAATTATTCTGCACCGAATGCTTATTATTTATATAATTCATCTGCTACTACAGGCAGTCAGATGTTGGTAGCTCCTCCAACTATCAATCTTTCGGATGGTACCAAACGTGTGAGATTCTATGCAAAAACAGGAACATCCGGAACTGCATTATTAATAGGAACTTTGTCAAACCCTTCAGATCCTGATTCTTTTACTCAGATTGGGGTTCCTATTGCTTTGACAACCACCCACACACAGTATACCGTTAATATTCCTGCGGGTTCTGATCTACAGCTTGCATTTAAACATGGTTTAGGAGGTTCTTACCGTTCTATTTATATTGATAATATTACAGTTCAGGATATTCCTTCTTGTCTTGAGCCAACTGCAGTTACAGCATCAAACATGACTATGAACTCAGGAACGATCAGCTGGACGGAACCTGCTTCAGTTCCGGCAAACGGATACGAGGTGTACTACAGCACAATGAACACAGCGCCTGATGCCAATACCGTTTTGGATGCAACAAACTCTGTAACTTCTGCTACGACTTCTGCACCATTGAATTCATTAACTACAGATACAACTTATTATGTATGGGTAAGATCTGTGTGTAGTGCTGCAGATAAGAGTATTTGGAGTGAACTTACTACATTAAGAACAGGCTATTGTCTGCCTTCTTCTACTTCACAGAACTCCTGGCTTTCTGCTTTCAGTTCTACCGGAGGGCTTATAGATATGGCTTATTCATCTGGCTCAAGTGTAGCTGGAGGATATCAAAACCTTACAGGAACCAATAACAAAATCACAAATGCTCCGGGAGCGAGTACTTCGGTATCTTTCACTGCGGGAGGCCCTACATGTGGAATTGGAGTCTGGGTAGACTGGAATAACAATCTGGTCTTTGAAGCTTCTGAAAAAATGTTTGTTACTACCGGTTATGTAACAAATACGTCGGGAACTATTACTGTACCTGCGGGAACACCTGTAGGAAACTACAGAATGAGAGTGGTAACCGATTATAACAGTACGGCACCTTCAAATGCCTGTGCAGCTATTTCAAGAGGTGAATTCATTGACTTTACATTTGAAGTCGCAACTTCTTTATCAACTTCAGAGACCAGTCTGAAGAAAAAAGAAATCAATGTATATCCTAACCCTTTCAAAGATGTACTGCATATTGCTGATATCAAAGATGTGAAATCTGTAACCGTTACAGATGTAGCGGGAAGAGTAGTGAAAACTATTGATAACCCAACTACAGAACTTCAGTTAGGTGAATTGAATGCTGGTTTATACCTGGTGACAATGAACTTTAAAGATGGTTCAAAATCAACAGTAAAGGCCATTAAAAAATAA	MLFLLNFTTNVIKMVISLFSRVMPAIALFSASIMMAQNFQTMPVSSGYTADVIANGIGSSSVSTNNDVDGVSYAFVARDFQLTSASTPLTYGLPIDGIINSVVAGTPGLSYVLGNLSGNNSLRLAANNDSGTLTFTTPKPAFTLYMLSTSGSGTSVVDVTVNFTDGTSQVFSSISLADWYGGTNFAIQGIGRIKRSSDALESSTTEPRLYQNALAIDAANQTKLIQSVMVTKASGSGYPNIFAFSADVYSDCAPPVLQSVSGITANSALVSWTSPTNAASYDVYHSTSNTIPASSVTPTYPGVTGTSTTIGNLTSNTTYYYWVRSNCNTATGQSVWSFAGTFKTACSTFTVPYTENFDTTGTGSSSNTNAPSCWAYLESNAFAGYGYVTTSNNYSAPNAYYLYNSSATTGSQMLVAPPTINLSDGTKRVRFYAKTGTSGTALLIGTLSNPSDPDSFTQIGVPIALTTTHTQYTVNIPAGSDLQLAFKHGLGGSYRSIYIDNITVQDIPSCLEPTAVTASNMTMNSGTISWTEPASVPANGYEVYYSTMNTAPDANTVLDATNSVTSATTSAPLNSLTTDTTYYVWVRSVCSAADKSIWSELTTLRTGYCLPSSTSQNSWLSAFSSTGGLIDMAYSSGSSVAGGYQNLTGTNNKITNAPGASTSVSFTAGGPTCGIGVWVDWNNNLVFEASEKMFVTTGYVTNTSGTITVPAGTPVGNYRMRVVTDYNSTAPSNACAAISRGEFIDFTFEVATSLSTSETSLKKKEINVYPNPFKDVLHIADIKDVKSVTVTDVAGRVVKTIDNPTTELQLGELNAGLYLVTMNFKDGSKSTVKAIKK	PGPT0022155_4979	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
BMS003_04131	1185			hypothetical protein	ATGAATAAATTTAAACTATTTTTTTTAATACCATTATTTTATTCCGAATTTTCACAGGCTCAGAGAATTGATAAAGAAACAATCAGTTTTCAGCTTTTAAAAGAACCTGTTTTTCCTACGGAACTGTCCAGCAGAACTTATACAATTACGGTAAAATCTCCGTATAATATCACCAAAGAAGATGTGATAAGATTGTCCAGGGAAGACTATCAGAGAAGGGTAGATAATTATCAGACAAATGTAGAAAATGCCAAGTATGAGCATGGAGAAAGATTAAAAGATTATGACGCTGAGGTAAAAAAGCTTCAGGAAAAATATAAACTGGAATCTGCTGAATACAATAAATTATCTGCTATTGAAAAAATTGCTGCTGCTAACGGAGCTCCTGTACTGAGATTACCTTCAAGACCTATTCTTAATATCCCGCCAATGCCGGTTTACCAGCAGCCCGATTTGAGAGATGCTCTCATTGTGGATAATAAAATTCTGGCTTCTCAAATGGATGTGACCGGATTTTCAAAAGGTGGAAATCATCTTGACATCGTTATTGAAATGGAAAGAACAAACTTTCAGGATAATCAGGGGAAAACTTTCGCCAATCAGCCAACACGAATTATAGCAAAACAGGACGGAACAGTGAAACTGGATAAAACCTATTTCTCAGATTTCGCTGAAGTAGCAAGCGTTCCAACCAATGAAATTAATCTGAATGCCCAGGAAAAAAGATATCTGCAGAGAATAATAGACCGTACAAGGAATATTATTAATGAAAACTTCGGTTATCAAACCATCAATTCTACGGTGGCGTTATCAACGGTAAAAAATAAAGGGGAATATGATGATCTGGAAAAAGCCTATATCTACGTTACGACCAATCTGAAAAAACTTCAGGCCAAATCAGATTACGCACCGAATAAAGTAGCTATGGAAAACATGCAGAAAGGAATTGATCTTTGGAAAACTGCTCTGACAAAAATAAATTATAACGACAAAAAAGCGCTTTACAACCAAAAGATTGGAGAATACCTTTATTTTAACCTGATCAGATTAAATATTGCTTTAGGCAATTACCAGGAAGCCGAGAAATATTTAAACGAATTACAGGAACATCTTGTAGATATTAAATTGTCTTACGATGCTAATCTTGAACTGAAAAGATTAGAAGAAAAAATTTATAATAACTAA	MNKFKLFFLIPLFYSEFSQAQRIDKETISFQLLKEPVFPTELSSRTYTITVKSPYNITKEDVIRLSREDYQRRVDNYQTNVENAKYEHGERLKDYDAEVKKLQEKYKLESAEYNKLSAIEKIAAANGAPVLRLPSRPILNIPPMPVYQQPDLRDALIVDNKILASQMDVTGFSKGGNHLDIVIEMERTNFQDNQGKTFANQPTRIIAKQDGTVKLDKTYFSDFAEVASVPTNEINLNAQEKRYLQRIIDRTRNIINENFGYQTINSTVALSTVKNKGEYDDLEKAYIYVTTNLKKLQAKSDYAPNKVAMENMQKGIDLWKTALTKINYNDKKALYNQKIGEYLYFNLIRLNIALGNYQEAEKYLNELQEHLVDIKLSYDANLELKRLEEKIYNN				NA	NA	NA	NA	NA
BMS003_04132	1422			hypothetical protein	ATGATTAAACAGATTATTGCTTCGGCATTAATTACTGCTTCTGTGTATTCTTATGCACAGACGAAAGTGACTGAAGGAACAAAATTCACGGTGGATGCCAATCTTGAAACCGATGATAAACTGGTATTGGCAGATGATTACAATTCTTATATGTTCAGCGCCATCAATATTGACGGGCTGATGAGAAATGTTTTTCCTCACAAGAAACTACTGATGAGAAAACTGGATCAGAACGGAAGCCTTGTAGATACTTATGTAAAAGATTATGCCAATAAAACAAACGGTGTACTTCACAATTATCTGGGATCACAGCAGATAGATGATGATAAATTTATAGCGTTTACGGAAGAGTATTTCGGGAAAGAAAACAGAAAAGAAGTTTTTCAGCATGTTTTCAGCAGAAAGGAAGGAACTTTTACCACAAAAAGTATTGCAAAATACAGCATTGAGTCTACCAACAGATCAGGAACAACCTATGTTCTTTTCTCAGAAAACGGAAAATATGCTGCGATCTTCAATGACCGCTATGCCAACAAAAAAACAGAGAATGTAAATGATGTTCTGGTATTGGATCTGAGAACACTTACTCCGGTTTGGAACAAAGAAATTACATTAAGCAGTGATTATGTGGAAAAGTCTCTGACATTAACTAACTCAGCAAAAATTGTTGTATTGCGTAAAGCAGCAGGGTGGAAGGAGTCTTATAAACTGGAATTGGTTTCTAACACAGAAGATAAAGATCTTCCGTTCGATGATAAATATATTCCTGAAAAATTATACGCGTTCAGTAAAAACGATAATGATTATCTGGTTACTTTTGGAAGAAAAAATGCAACAGTTACTGTTGGATCAAGTACTTTCGGAACGGTAATGTATTATGATATGAAGTCTGGAAAAGCGGTAATTAGCAATACCAACTTAGCCGGAAGCAAAGATATGAACGATGTGAAGGTGATCAAAACCATTGTAAAAGGAGATGAGGTTTTAATGGCTGTTCAGCAGGAAACTGTGACAAGACCAATGCCTACGACAATGAACCGTTTCCCTGATCCTGTTTATTCTCTGGATGCGGGAATGCTGATCAAGTTTGGTAAAGAAGGAGATGTAAAGCAATTTGTTGCGGCAGGAACATCTACAGGAAAGAGAATTCATTTGATTGAAGCAGGAGATAAGCTTTATATTTCTGCATTTTATCCTAAAGGCGCATTTGGAAATACAGGATTTTCTATGAAAGTTTTTGATTTTGACAATCTGAAACCTCAGGAAGTAAGCCTTGATTATAAAGGAAGAAACTTTTTCCAGAATTACGGTTTTGCAGACGGAAATATGATTCAGTACGTTCCTAATGTAAATAAAATGATGTTCCTTCAAAAGAGCAGCAAAGATGTTCAGATGTTCAATGTGTACAATTTTATAAAATAA	MIKQIIASALITASVYSYAQTKVTEGTKFTVDANLETDDKLVLADDYNSYMFSAINIDGLMRNVFPHKKLLMRKLDQNGSLVDTYVKDYANKTNGVLHNYLGSQQIDDDKFIAFTEEYFGKENRKEVFQHVFSRKEGTFTTKSIAKYSIESTNRSGTTYVLFSENGKYAAIFNDRYANKKTENVNDVLVLDLRTLTPVWNKEITLSSDYVEKSLTLTNSAKIVVLRKAAGWKESYKLELVSNTEDKDLPFDDKYIPEKLYAFSKNDNDYLVTFGRKNATVTVGSSTFGTVMYYDMKSGKAVISNTNLAGSKDMNDVKVIKTIVKGDEVLMAVQQETVTRPMPTTMNRFPDPVYSLDAGMLIKFGKEGDVKQFVAAGTSTGKRIHLIEAGDKLYISAFYPKGAFGNTGFSMKVFDFDNLKPQEVSLDYKGRNFFQNYGFADGNMIQYVPNVNKMMFLQKSSKDVQMFNVYNFIK				NA	NA	NA	NA	NA
BMS003_04133	456			hypothetical protein	ATGCAGATTCAGTCAGTTTCCATAGAAGATTATATCTCCAAGATTCCTGAAGAAAGACAGGATGCTTTCAAAAAACTTTACGATACGGTAAATGATAATCTTCCAAAAGGCTTTGAAGAAGCTACCAATTACGGAATGGTAGGTTGGGTAGTTCCTTTATCAGCATATCCTGCCGGATATCACTGTGCACCCGGAACACCGCTTCCGTTCATTAATGTGGCTTCTCAGAAGAATTTTATAGCATTGTATCATATGGGATTGTATTCTACACCGGAACTTCTTGACTGGTTTGTAGCAGAATATCCTAAATATTCCAAAAAGAAACTGGATATGGGTAAATCCTGTGTCAGGTTCAAAAAAGTAGAAGATATTCCTTTTGAACTGATCGGCGAACTGAGCAAGAAAATGACTGCCAACGACTGGATCAAAATTTATGAATCACAGTATAAGAGATAA	MQIQSVSIEDYISKIPEERQDAFKKLYDTVNDNLPKGFEEATNYGMVGWVVPLSAYPAGYHCAPGTPLPFINVASQKNFIALYHMGLYSTPELLDWFVAEYPKYSKKKLDMGKSCVRFKKVEDIPFELIGELSKKMTANDWIKIYESQYKR				NA	NA	NA	NA	NA
BMS003_04134	1266	czcC_3		Cobalt-zinc-cadmium resistance protein CzcC	ATGAAAATTAAAGTTCAAATTATCATATTATCTGTAGTATTATTTAGTATTACAGGGATAAAGGCACAGGAAAAAGAGCTTTTACCATTTGAAGAATACCTGAATCTTGTCGGAAATAAAAACCTGGGCTACGCCTCTCAGAGATACAATGTAAGTATGGCAGAAGCTGCTATTCAGACGGCTAATATGTTTCCTGATCCTCAACTGGAGATGGAAACCACCAATAACGGAGTGAAACAGAATATGGGGTATGTCTACGGAGCCTCCATCGGCTGGACACTTGAATTGGGTGGTAAAAGAAAGGCTCGTGTTAATCTCTCCAGAAACCAATCTGAGCTGAGTAAAATACAATTGCAGGATTTTTTCAGAAATCTTCGTGCAGATGCAAGTTTAGGATATATTGAAGCTTTAAAATCCAAAGCTTTACATGAAGTACAGCAGGATTCTTATAAAAATATGCAACAACTGGCAAAATCCGACAGTATCCGCTATAAATTGGGAACTATAACATTAGTCACTTCCAAACAGAGTAAGCTGGAAGCTGCTTCTTTACTTAATGAAGTATACCAGGCAGAAAGCGCAGAACAGCAGGCGATCACCGGTTTGTCTGTATTTCTTGGAGACAGCAAAATAACAGGGAGAGATGTTACCGGAGATTTCAATGCGTTCAACAGAGATTTCAGCATGGATGATCTTGTTCTTCAGGCATTGAATGAAAGAGCAGATTTATTGGCAGCCAGACAAAATGCAGAAGTTGCCAAAAGCCAGATCAATCTTGAAAAAGCCAACCGTGTCATCGACTTAGGAATCAGTGCCGGGGCAGAACGACACACCGAAGCTACGAACGAAATTGCACCTTCCCCAACTGTAAATGCTGTAAAAATGGGTATTAGTATTCCCTTGAAATTTTCCAACAGAAGAAATGCAGGATTGAAGATCGCAGAAATGGCTCATTCGCAGGCTGAAATTGAATACAAACAGATAGAACAAAGCATACAGGCTGAAGTAATACAGGCTTATCAACAATATATAGCTGCTCAGAAACAGCTCAAGCAATTCCATAACGGAATGCTTTCGGAAGCACAAAGTATTCTGGAAGGAATTACCTACAGCTACAAAAGAGGCGAAAGTTCTATCCTTGAAGTACTGAATGCCCAAAGAACCTATAATAATGTTCGAAAAGATTATTATCAGGCGCTTGCCGATAATGCAGCAGCTTTGATTGAGCTTGAGCGTAAAGCGGGAATATGGGACATTCATTTTTAA	MKIKVQIIILSVVLFSITGIKAQEKELLPFEEYLNLVGNKNLGYASQRYNVSMAEAAIQTANMFPDPQLEMETTNNGVKQNMGYVYGASIGWTLELGGKRKARVNLSRNQSELSKIQLQDFFRNLRADASLGYIEALKSKALHEVQQDSYKNMQQLAKSDSIRYKLGTITLVTSKQSKLEAASLLNEVYQAESAEQQAITGLSVFLGDSKITGRDVTGDFNAFNRDFSMDDLVLQALNERADLLAARQNAEVAKSQINLEKANRVIDLGISAGAERHTEATNEIAPSPTVNAVKMGISIPLKFSNRRNAGLKIAEMAHSQAEIEYKQIEQSIQAEVIQAYQQYIAAQKQLKQFHNGMLSEAQSILEGITYSYKRGESSILEVLNAQRTYNNVRKDYYQALADNAAALIELERKAGIWDIHF	PGPT0004975_1670	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
BMS003_04135	3096	czcA_3		Cobalt-zinc-cadmium resistance protein CzcA	ATGAAGAAATTACTAACAATCTCTATACAGAAGAGATGGCTTATGCTTGCTCTCTTCCTTTTACTGGGGTTCTTCGGGTACTATTCCTGGACCAGATTATCCATAGAAGCTTACCCTGATATTGCCGATGTAACCTCACAAGTAGTAACACAGGTTCCGGGACTGGCCGCTGAAGAAGTAGAACAACAAATCACCATTCCTTTGGAAAGATCTCTGAACGGTCTTCCGGGAATGCATGTGATGCGAAGCAAAAGCACCTTCGGGCTATCCATTATCACCTTGGTTTTTGATGATGGCATAGATGATTACTGGGCACGGCAGCGTATTCAGGAAAGACTGACGGATGTGGAACTTCCTTATGGGGCGCAACCAGGATTGGATCCTCTCACCTCTCCTATCGGCGAAGTGTACCGCTATATTATTGAAAGTAACAATCATAGTCTGCGGGAACTTACGGATTTACAAAAGTTTGTGATTATTCCTCGTATCAAACAGGTTTCAGGAATTGCTGATATAACCAATTTCGGAGGAATTACCACCCAGTTTCAGATTGAGCTGGATCCGCATAAGCTTGAACAATACGGACTGTCTTTGTCAGAAGTTACCGAAACCATCTCCAAAAACAACGTAAGTGCCGGAGGAAGTATGCTTCCCCGTGGAAATCTTGCATATGTAATCCGAGGAATAGGCTTGGTAAAAGACCTGGATGATCTCGGAAAAATTGTAGTCAAAACCCAAAATGGCGTTCCTGTTTTCTTAAATGATGTAGGAACATTGAAGTACGGAAACCTGGAAAGGAAAGGAATTCTTGGTTACACCGACAGAAAACGTAATTATTCTGAAAGTGTGGAAGGAATCGTGCTTTTATTAAGAGGGCAAAATCCTTCACAAGTGCTGGAAGGAGTACATGAAGCCATTGAAGAACTGAATAACGAAACACTTCCTCCCGGTGTAAAAATCCATTCTTTTCTGGACAGAACAGATCTTGTAAAAACAACCCTTACTACAGTTTCCCATACCCTTACTGAAGGAATTGTACTGGTTATTATTGTTCTCATTGTATTTCTTGGAAGCTGGCGCGGAGCATTGCTGGTGGCGATTACCATTCCGCTTTCTTTGTTATTTGCTTTTATATTAATGCATTTCACCGATATTCCAGCCAATCTGCTTTCACTGGGAGCTATTGATTTTGGAATTATTGTAGACGGAGCTATCGTCATGCTGGAAACCATCCTGAAGAAAAGAGAAGAAAACTCTGAAGAAACACTGGAAGAAAAGACCATTACCCAAAGAGTGATTGAAGTAGCCAAGCCTATTTTCTTTTCTACTATTATTATCATTACCGCCTACCTTCCTTTGTTCGCTTTTGAAAGAGTAGAGAGAAAATTATTTACCCCCATGGCTTTTACTGTAGGATATGCCCTATTGGGAGCACTCGCTGTAGCATTGCTTCTGATCCCCGGATTAGCTTATGTGATCTATCGAAAACCACAGAAAATATATCACAATAAATGGCTGGAAAAACTAAGCTCAGCTTATGGAAAGAGCATTGAAAAAATAATGCAGACTCCAAAAAGAGTGATCATTCCGATTATGATTGTCCTGGTATCTGCCGGAATTCTTTCTTATCATGTAGGAAAAGACTTTCTTCCCGAGCTGGATGAAGGGTCTATATGGCTGCAGGTACAGCTGCCACCCGGAATTTCTTTAGCCCAATCAAAAGAAATGAGTGATACCTTACGTGCCCGCACTTTAAAACATCCGGAAATTACTTATATGATGGTTCAGGCAGGACGTAACGACGATGGTACCGATCCATGGACAGCTTCCCATTTTGAAGTCTCTGTAGGAATAAAACCTTACAGCGAATGGCCTGCCGGAAAAACAAAAGCAGACCTCATCAAGGAACTCGCAGCAGATTATAAAGATATGCCTGGATTCACCGTTGGATTTTCTCAACCTATGATTGACGGGGTGATGGATAAAATCTCCGGAGCTCACAGCGAACTGGTGGTAAAGGTGTATGGAGAAGATTTTAAAGAAACCAGACGAATTGCAGAAGATATATTATCAACTTTAAACAAAATTCCGGGTTCGGCTGACCTTGCTATAGATCAGGAACCACCATTGCCTCAATTACAGATTATTGCTAACAGAGATAAAATTGCTCAGTATGGGCTGAATGTAGCTGATGTAGCCGACCTTATTGAAGTTGCATTAGGAGGAAAAGCTATTTCCCAGATCTTTATCGGCAATAAGGTGTATGATATTTCATGCCGTTATACAGAAGACAGCCGGGATACTCCTGATAAAATCGGAAACCTGATGCTGACCTCAGCTTCAGGAGCAAGAATTCCTTTATCACAGGTAGCAGAAGTAAAACTGAGTACCGGAGAAAGTACCATTACCAGAGAAATGAATAAACGACATCTTACGGTAAAGCTGAATTTAAGAGGAACAGACCTTTCTTCTTTCCTGAAAAATGCACAGCATACAATTGAAAAAGAGATCCAATACGATCATGAGAAATACCAGATCAAATGGGGCGGACAGTTTGAAAATCAAAACAGGGCGTACTCCAGACTGGCATTTATTGTTCCGCTGGCATTAGCCATCATGTTTTTGTTATTGTATGGCGCTTTTGGAGATTTCAGACAGGCTTTGGTTCTGATGTCTATTGTTCCGTTGGCATTATTTGGCGGAATGCTGGCACTCAATATACGGGGAATGTCACTGAATGTCTCTTCAGCAGTAGGATTCATTGCATTGTTCGGAGTTGCCATCCAGAATGGAGTAATCATGATTTCCCACATCAACGATCTGCGTAAAAAAGGATATGAACTGAAACAGGCAGCCATCAAAGGAGCAAAAGATCGTTTCAGACCTGTATTGATGACCGCAACGGTTGCTGTAATCGGGCTTTTCCCTGCTTCATTAGCTACAGGAATTGGTTCTGATGTACAGCGTCCACTGGCAACAGTCATTGTATATGGATTGATGTTCTCTACTATTTTAACACTCTTCGTGCTGCCGGCTATTTATTTTATGGCTGAACGCCGAAGCGAAAAACAAAATTTGATATCAGATGAAAATTAA	MKKLLTISIQKRWLMLALFLLLGFFGYYSWTRLSIEAYPDIADVTSQVVTQVPGLAAEEVEQQITIPLERSLNGLPGMHVMRSKSTFGLSIITLVFDDGIDDYWARQRIQERLTDVELPYGAQPGLDPLTSPIGEVYRYIIESNNHSLRELTDLQKFVIIPRIKQVSGIADITNFGGITTQFQIELDPHKLEQYGLSLSEVTETISKNNVSAGGSMLPRGNLAYVIRGIGLVKDLDDLGKIVVKTQNGVPVFLNDVGTLKYGNLERKGILGYTDRKRNYSESVEGIVLLLRGQNPSQVLEGVHEAIEELNNETLPPGVKIHSFLDRTDLVKTTLTTVSHTLTEGIVLVIIVLIVFLGSWRGALLVAITIPLSLLFAFILMHFTDIPANLLSLGAIDFGIIVDGAIVMLETILKKREENSEETLEEKTITQRVIEVAKPIFFSTIIIITAYLPLFAFERVERKLFTPMAFTVGYALLGALAVALLLIPGLAYVIYRKPQKIYHNKWLEKLSSAYGKSIEKIMQTPKRVIIPIMIVLVSAGILSYHVGKDFLPELDEGSIWLQVQLPPGISLAQSKEMSDTLRARTLKHPEITYMMVQAGRNDDGTDPWTASHFEVSVGIKPYSEWPAGKTKADLIKELAADYKDMPGFTVGFSQPMIDGVMDKISGAHSELVVKVYGEDFKETRRIAEDILSTLNKIPGSADLAIDQEPPLPQLQIIANRDKIAQYGLNVADVADLIEVALGGKAISQIFIGNKVYDISCRYTEDSRDTPDKIGNLMLTSASGARIPLSQVAEVKLSTGESTITREMNKRHLTVKLNLRGTDLSSFLKNAQHTIEKEIQYDHEKYQIKWGGQFENQNRAYSRLAFIVPLALAIMFLLLYGAFGDFRQALVLMSIVPLALFGGMLALNIRGMSLNVSSAVGFIALFGVAIQNGVIMISHINDLRKKGYELKQAAIKGAKDRFRPVLMTATVAVIGLFPASLATGIGSDVQRPLATVIVYGLMFSTILTLFVLPAIYFMAERRSEKQNLISDEN	PGPT0004965_2219	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
BMS003_04136	1101	czcB_4		Cobalt-zinc-cadmium resistance protein CzcB	ATGAAAAAAGTAGTCTTAAGTAGTATTATTCTCTTTGCAGTTTCCTGTAAAGACAATACACCTCAGCAAAATAAAGAACAGGACATCATAACCCGCAGTGATGTGGTTACCGTTCCGGATAATAATCCTGTTTTCAAAAAAATCAAAACACATATCGTTACCGAACAGGAACATAGTGACGGAGTGGTTTCAGCGGGAACAATTCAGGCCATTCCCAATCATTATGCGGAAATTGCCAGTCCTTTTTCCGGAAGAATTACAAAATCATTTATTCACCTTGGACAAAATGTCTCTGCCGGAAGTCCTATTTTTGAAATCCTTTCTTCAGATTATTTTTCGGTTCAAAAGGATTACACGGATGCACTGAACGATGTACAGCTTGCCGAAAAAAATTACAGACGCCAGCAGGACCTCGTAAAACATGGAGTGGGAATTCAGAAAGAACTGGACGAAGCAGAAACTGATTTTAAAAATAAAAAAACATCCCTATCCAATGCTTCTTCTGCCCTGAAAGTCTACAACAGCAAAGGTGGAGGGATAGGAAGTCCTCTTCTGGTAAGAGCGCCCATTAACGGAGAAATTATTTCCAATAAAATTGTAAATGGCCAATATCTGAAAGGAGATGCAGATCCGGTAATGATTATCGCAGAATTATCAAAAGTCTGGATTTCCGGTGATGTAAAGGAAAAAGACATCCGTTTTGTCAACATAGGAGATGTGGTTTCTGTAAAAGTAAGCGCCTATCCCGACAGAATTATCACTGGAAAAGTATATCACATCAATGAAATGGTAGACGAAGATACCCGAAGCATCAAAGTCCTTATTGAATGTGATAACCCTGACAGAAAGTTAAAACCAGGCATGTATGCTACCGTTAGTTTTTCAACAACTCCTGAAAAAACAGTAATGATTCCAGTAACTGCCTTGATGCAGCAGGACAACTCCCAATATGTATGGGTAAAAACAGGCAGAAGCCAATATACAAAACGTTCTGTGACCACGGGAGAAACCGATCAGAAAACTATAAGAATCACATCAGGCTTACAACCCGGAGAAACCATTATGACTGAAGGAGGTATTTATATGTCGGATGCAAAATAA	MKKVVLSSIILFAVSCKDNTPQQNKEQDIITRSDVVTVPDNNPVFKKIKTHIVTEQEHSDGVVSAGTIQAIPNHYAEIASPFSGRITKSFIHLGQNVSAGSPIFEILSSDYFSVQKDYTDALNDVQLAEKNYRRQQDLVKHGVGIQKELDEAETDFKNKKTSLSNASSALKVYNSKGGGIGSPLLVRAPINGEIISNKIVNGQYLKGDADPVMIIAELSKVWISGDVKEKDIRFVNIGDVVSVKVSAYPDRIITGKVYHINEMVDEDTRSIKVLIECDNPDRKLKPGMYATVSFSTTPEKTVMIPVTALMQQDNSQYVWVKTGRSQYTKRSVTTGETDQKTIRITSGLQPGETIMTEGGIYMSDAK	PGPT0004970_2340	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
BMS003_04137	483			hypothetical protein	ATGAATACATTAGAATTTACCCTACGTTTACTCACTGCATTCTGTCTGGGAGCAGGTATCGGCTTCGAAAGACAATGGCGTAAAAAAAATGCCGGCCTGCGTACCAATACTCTGGTGTGTATAGGTTCTGCAGCCTTCGTATTAATTGCCATCAGAATAGGAGGTGATGCAGCCGGAAGAATTACTTCTTATATTGTCAGTGGCATCGGATTTCTGGGCGGTGGCGTTATTATGAAAGACGGCCTTACCGTAAGAGGTCTCAATACAGCAGCTACATTATGGTGTTCAGCAGCAATAGGCGCATTATGCGCTCTAGGATATCCCAAAGAAGCACTCATTACCGTCTTCTTCATTATCTCTACCAATATATTCCTGAGACCCTCTCTATCCTCACAAAAAGAAGTAAGGAGCAAAAAACTGTTCAGTACCAAGAAAAGCAACTCCAAAAAAGTAAAAATCAGCAATAGCACTCAATTGTATTAA	MNTLEFTLRLLTAFCLGAGIGFERQWRKKNAGLRTNTLVCIGSAAFVLIAIRIGGDAAGRITSYIVSGIGFLGGGVIMKDGLTVRGLNTAATLWCSAAIGALCALGYPKEALITVFFIISTNIFLRPSLSSQKEVRSKKLFSTKKSNSKKVKISNSTQLY	PGPT0014005_2840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
BMS003_04138	744	rhtA	COG5006	Threonine/homoserine exporter RhtA	TTGTTTAATCCCGGAAACTTCTTTCCAAAAACTTTTGAACCCTATATTGTAGAAATGAAAAAATCAAACATAGCAATACCTGCTACGCTTTTAGCGATTATCTGTGTGCAGGGAGGAGCTTCTATTGCGAAGCAGCTTTTTCCGGCTATCGGAGCTATTGGTACAGTTACTTTGAGAATTGTACTTTCAGCGGTTTTGCTTACGTTGATTAACCGTCCGAAATTTTTGCAGTTTAACAGACAAAAGTGGCAGTATTGTGCAATCTATGGAATAGGGCTGGCTGCTATGAATCTTATTTTTTATATGGCGATTCAAAGGATTCCTTTGGGATTAGCGGTTACGGTGGAGTTTGCTGGACCTTTATTTCTTGCTCTGGCTTTGTCCCGTAAACTGCTGGATGTAATCTGGGCACTATTGGCATGTGTGGGAATTCTGCTGATTGTTCCGTGGCATAATGATCACGTTGATTTGATAGGACTTGGTCTTGCCTTTCTGGCAGGAATGTTCTGGGCAGTGTATATCGTAATGGGGGGTAAAGTTTCCCAAATAATGGATGGAAAAGATGCTGTTACCACAGGGATGATATTTGCAAGTTTTGTGATTATTCCTTTTACCATATGGGATGGTGCTGTTTTCAATCTTACTCCGACTATTTTCGTAAAAGGGCTTGGGGTAGCCATTCTTTCGAGCGCACTGCCTTTTTCATTGGAGATTATGGCACTGAAAAGACTTTTAGTATTCTGA	MFNPGNFFPKTFEPYIVEMKKSNIAIPATLLAIICVQGGASIAKQLFPAIGAIGTVTLRIVLSAVLLTLINRPKFLQFNRQKWQYCAIYGIGLAAMNLIFYMAIQRIPLGLAVTVEFAGPLFLALALSRKLLDVIWALLACVGILLIVPWHNDHVDLIGLGLAFLAGMFWAVYIVMGGKVSQIMDGKDAVTTGMIFASFVIIPFTIWDGAVFNLTPTIFVKGLGVAILSSALPFSLEIMALKRLLVF				NA	NA	NA	NA	NA
BMS003_04139	150			hypothetical protein	ATGAGCCTGGAGCCAGCATTTGCAGCGCTTTCCGGATTGGTTTTTCTTGCCGAAGAACTATCTTTTTTACAATGGATTTCTATTGCCTGTGTGATTGCGGCCAGTATTGGAACTACTGTTTTCAATAAGAAATCTCTTTCTCATGATTGA	MSLEPAFAALSGLVFLAEELSFLQWISIACVIAASIGTTVFNKKSLSHD				NA	NA	NA	NA	NA
BMS003_04140	1362	sasA_12		Adaptive-response sensory-kinase SasA	ATGAAAATAAGAACCCGACTTACACTGCTTTTTACTCTAATTACTGCAATGCTGCTGGGCATTTACAGTGTTTCGATCTATTATTCATCCAAGGAAGCCAGAGAAAATTCTTTTTACAGCGAACTTCAGAACGAAGCGATCGCCAAAGCTGACTTATTTTTCCGGAGCTCCCTTCCCGAACAGGAAATGCACAAGCTTTATAAAAACAATACCAGAACGCTTAATGAAGTTCAGGTTGCGATTTATGATGTAGATAAGAAGCTGGTGTACCACGATGATGCCAAAGTAGATTATGTAAAGGAAACTCCGGAAATGCTTTCTGAGATTTTTCAGAAGAAGAGAATTGATTTCTTTTTGAATGATCTTCAGGTAATCGGAATGGCATATCATTTCGAAGGAAAAACGTATGCGGTAACGGCTGCGGCATATGATCAGTATGGATATGATTATCTCACGCATCTTCTTACCATCAGTATTATTTCATTTTTCATTATTCTGATTTTGATTTATCTGGCCGGCATATTTCTTTCCAAAAAAGCATTGAGCCCGCTTAGTGAAATGGTTACCCAGATAAAAAAAATCACAGCCGGAAAGCTGCAATTACGTTTGAAAACAACAAAAGAAAGAGATGAACTGAATGAGCTTGCCCAAAACTTCAACAGAATGCTGGAAAGACTTGAAAATTCTTTTGATTCGCAAAAACATTTTGTTTCCAATATTTCCCACGAACTAAGAACACCTCTGACTGCCATTATTACTGAACTGGAACTGGCTTCTGAAAAAGATAAAACCAAAGAGGAATACAAGGAAACCATCCACAATGCACTGGAAGATGCGCGAAATATGGTAACCCTTTCCAATAGTTTGATGGATCTTGCCAAAGCGAGCTATGATCCCAATGAGATCAGTTTTTCTGAAATGCGTCTGGATGAAGTTCTTCTGGAATCTTATACCAAAATCACAAAAGAAAACCCGGGATATAAAGTTTCACTGAACATAGAAGACTCGGTAGAAGAGCAACAGTTAATTATTCAGGGAAATGAATACCTTCTTCAGGTTGCTTTTAATAATCTCATTGATAATGCCTGTAAATACTCACCAGAACACACCTGTTTGATAAATGTAAATACCAATTCAAAAATTCTTATAATACATTTTACGAATACAGGAAATGTTATCAGTGAAGAAGATTTACAACATATCTTCGAACCATTTTACAGAAGCGAAACTTCAAAACAGGAAAAAGGGCATGGAATCGGATTATTTCTCACTGAGAAAATTATTCACCTTCACAATGCAAAAATCAATGTTGTATCAGAACATAACAAGACTACTTTTACGGTGGAGTTTATGATCAGTTAA	MKIRTRLTLLFTLITAMLLGIYSVSIYYSSKEARENSFYSELQNEAIAKADLFFRSSLPEQEMHKLYKNNTRTLNEVQVAIYDVDKKLVYHDDAKVDYVKETPEMLSEIFQKKRIDFFLNDLQVIGMAYHFEGKTYAVTAAAYDQYGYDYLTHLLTISIISFFIILILIYLAGIFLSKKALSPLSEMVTQIKKITAGKLQLRLKTTKERDELNELAQNFNRMLERLENSFDSQKHFVSNISHELRTPLTAIITELELASEKDKTKEEYKETIHNALEDARNMVTLSNSLMDLAKASYDPNEISFSEMRLDEVLLESYTKITKENPGYKVSLNIEDSVEEQQLIIQGNEYLLQVAFNNLIDNACKYSPEHTCLINVNTNSKILIIHFTNTGNVISEEDLQHIFEPFYRSETSKQEKGHGIGLFLTEKIIHLHNAKINVVSEHNKTTFTVEFMIS	PGPT0004980_1395	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
BMS003_04141	705	mprA_5		Response regulator MprA	ATGCCACATATTTTATTAGTTGAAGACGATGACAGACTTTCTAAACTGATTGCCAAGGGATTTCAGGAAGCTGAATTTGAAGTCACTGTGGCTTATGACGGAATCACAGGGTTGAAACTGGCTCTCCAGAATCATTTTGACCTTGTCGTTACAGATATTATATTACCTAAAAAGGATGGCCTTGAATTTTGCCATGAAATCAAAACTTTAAAACCTGATCTTCCCGTCATTATGCTTACTGCATTGGGAACTACAGATGATAAACTGGAAGGATTTGATGCCGGGGCGGATGATTATCTCACCAAACCTTTTGAAATGCGGGAACTGGTGGTAAGAATTAAAGTTCTTCTGAAACGTTTTTCGCAACAGAGACCACAAAAAATAGTTGTTCTTAAATATGAAGGTATTGAAATGAATCTGGAACAGAAAACCGTGAGCCGTGATCATACTGCCATAAAACTGACTCCGAAAGAGTTTAATCTTTTAAAATTCATGCTGGAAAATTCCGAAAGGGTTCTTTCCAGAAGTGAAATTGCAGAAAAAGTATGGGAAACTCACTTTGATACAGGGACCAATTTTATTGATGTTTATATTAATTATCTCCGAAAAAAAATAGATAAAGATTTTGAAGACAAACTGATCCACACCAAAGCCGGTATGGGATTTATTCTGAAAAGAGACTACGAATCAGGCACTGTACAGTAA	MPHILLVEDDDRLSKLIAKGFQEAEFEVTVAYDGITGLKLALQNHFDLVVTDIILPKKDGLEFCHEIKTLKPDLPVIMLTALGTTDDKLEGFDAGADDYLTKPFEMRELVVRIKVLLKRFSQQRPQKIVVLKYEGIEMNLEQKTVSRDHTAIKLTPKEFNLLKFMLENSERVLSRSEIAEKVWETHFDTGTNFIDVYINYLRKKIDKDFEDKLIHTKAGMGFILKRDYESGTVQ	PGPT0004105_798	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
BMS003_04142	672			hypothetical protein	ATGTCTGAATACAAAATATTTTTTAGCAAAAAAATCAAAGAAATTATTGGTTTTGGAATTTTGTCCTGTTTAATGATCTTACTGGTTCAATGTCATCATAATTCCGGTAAAATACAGCTCAAAAATGGTGATCTTCTTTTTGTTACAGCCAAAGAATCCGGTCTTTCTGGTGCAATCAATAATGTGACTCAAAAACAAAAGGCAGCTTCATTTGATCATATAGGAATTCTGGAAAAAGAAGGAAACAGAATGTTTGTTCTACATGCCGCTCCGAAAGGCGGTTCTCAAAAACAGGATTTGAATGATTTCATCAAAGATCAGAAAAAAGAAGGGCAAGAGGTAATCATTTACCGATTAAAATCGGAATATCAGAAAGCAATTCCAGATGCTGTTAGAAAAGCAAATTCGATGTTGGGGAAACCTTACAATTTCAATTATATTTTGGATGAACAATCCTATTACTGTTCTGATTTTGTGGAAAGAGCTTTTCGGGCGGAAAATATTTTCAAACTGGAGCCGATGACGTTTATAGATCCAAAGACAGGAAAAACGAATACATTTTGGGAAGAATTTTACCATAAGAAAAATCTCAAAGTCCCTGAAGGAAAGCCGGGTTGCAACCCAAACGGACTTGCTGGTTCCGATAAACTCGAAAGAGTAGGAAATTTCTAA	MSEYKIFFSKKIKEIIGFGILSCLMILLVQCHHNSGKIQLKNGDLLFVTAKESGLSGAINNVTQKQKAASFDHIGILEKEGNRMFVLHAAPKGGSQKQDLNDFIKDQKKEGQEVIIYRLKSEYQKAIPDAVRKANSMLGKPYNFNYILDEQSYYCSDFVERAFRAENIFKLEPMTFIDPKTGKTNTFWEEFYHKKNLKVPEGKPGCNPNGLAGSDKLERVGNF				NA	NA	NA	NA	NA
BMS003_04143	312			hypothetical protein	ATGATTACACCTAATCCCGGCCTGCAGGTTTTACAAAATAAAATAAACCTGCCTAAGAAAGAATTGTTATTGGAAATAGAGTTGAATGGCAAAATGAAATTTGAACATTTAATGAATACTATCTACAATCAATTGGGCATCTGTCATAGAGTGTTGTCGGCGAACGTGGAGTATGTGAACGGATACAGTTTTGGTTCAGTACAGTTATATATCAATGTCAATTCAGAAGATTTTCAGCAGCTTGAAATCTATCTGAATAAAAATAAACTTATCAATACGACGGTAGAATATACCTGCAGAACATATTTTTAA	MITPNPGLQVLQNKINLPKKELLLEIELNGKMKFEHLMNTIYNQLGICHRVLSANVEYVNGYSFGSVQLYINVNSEDFQQLEIYLNKNKLINTTVEYTCRTYF				NA	NA	NA	NA	NA
BMS003_04144	1308	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGAGTGGAACGTTTCAAATAAGAGGAGGAAAAAGGCTGCATGGCGAAATAACTCCACAAGGAGCTAAAAATGAAGCTCTACAGATTTTATGTGCTGTTCTTCTGACTGACGAAGAGGTAAGAATCAAAAATATTCCAGACATTCATGATGTTAACAGACTGATTGAAATTCTTGGCGATTTCGGAGTAAAAATTACTAAAAACGGACAGGGAGATTATACTTTCAAGGCAGATCAGGTTAATTTTGATTATATTAAATCTAACGAGTTTAAAAAAGACGGAGCAAAATTGCGTGGATCCATTATGCTGATGGGGCCTATGCTTGCCCGCTACGGTGAGGCTTATATGCCAACTCCGGGAGGTGACAAAATCGGAAGAAGAAGATTAGATACCCACTTCCAGGGACTTGTAGAATTAGGCGCCGAATTCAATTATGACGAAGAGGAATATTTCTATTCTTTAAAGGCTAAGGAGCTGAGAGGAAAATTTATTCTTCTGGAAGAAGCTTCTGTAACCGGAACGGCTAACATTGTAATGGCAGCAGCTTTAGCAAAAGGAAAAACAAGAATTTATAACGCGGCCTGCGAACCTTACCTTCAGCAATTATGCAAAATGCTGAACAGAATGGGGGCTAACATCTCAGGAATCGGATCTAACCTTCTTACAATTGAAGGGGTGGAATATCTTAGAGGAACTGAGCATACGATGCTTCCTGATATGGTAGAAATAGGATCATGGATTGGTCTTGCCGCCATGACAAAATCTGAAATCACGATCAAAAATGTAAACTGGAACCAACTTGGTGTAATCCCGAATACATTCAGAAAATTAGGAATTCAGCTTGAGCAAAGCGGTGATGACATCTACATTCCTGCTCAGGAACATTATAAAATTCAGAAATTTATTGATGGTTCTATCCTTACTATTTCTGATGCACCCTGGCCAGGATTTACACCGGATTTATTATCGATCATTTTAGTGGTGGCTACTCAGGCAAAAGGAAGTATCCTTGTTCACCAGAAAATGTTTGAATCCAGATTATTCTTTGTGGATAAATTAATCGATATGGGAGCTCAGATCATTTTATGTGATCCACACAGAGCTACAGTAATCGGATTGAACCAGGAAGCTCCGTTAAGAGGAACAACAATGGTTTCCCCGGATATCAGAGCCGGAAATGCCCTTCTTATAGCTGCACTTTCTGCAGAAGGAAAATCTATTATTCACAATATCGAACAGATTGACAGAGGATATGAAAATATTGATGGAAGGCTGAGAGCCATTGGTGCTGACATCGAAAGAATTTAA	MSGTFQIRGGKRLHGEITPQGAKNEALQILCAVLLTDEEVRIKNIPDIHDVNRLIEILGDFGVKITKNGQGDYTFKADQVNFDYIKSNEFKKDGAKLRGSIMLMGPMLARYGEAYMPTPGGDKIGRRRLDTHFQGLVELGAEFNYDEEEYFYSLKAKELRGKFILLEEASVTGTANIVMAAALAKGKTRIYNAACEPYLQQLCKMLNRMGANISGIGSNLLTIEGVEYLRGTEHTMLPDMVEIGSWIGLAAMTKSEITIKNVNWNQLGVIPNTFRKLGIQLEQSGDDIYIPAQEHYKIQKFIDGSILTISDAPWPGFTPDLLSIILVVATQAKGSILVHQKMFESRLFFVDKLIDMGAQIILCDPHRATVIGLNQEAPLRGTTMVSPDIRAGNALLIAALSAEGKSIIHNIEQIDRGYENIDGRLRAIGADIERI	PGPT0024090_1333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
BMS003_04145	627			hypothetical protein	ATGCCGGAATATGGCAGAATTATACAACAGTTGGTTGAGCGCTGTAAAGAACTTCCTACCCAAGAGGAAAGGAATGAAATGGCTATGGCAATCATCGATTTTATGGGTCAGAGAAACCCGCAACTGCGCGACGAAGAAAATTATAAACATAAACTTTGGGATCATCTTTTTATTCTTGCAGATTATGATCTGGATGTAGAATCTCCATACCCGTTCCCTACAAGAGAGCAATTGGCAGAAAGACCTAAAAGAATGGAATATCCAAAACTTCAGGGAGACTTCAAGTTTTACGGAAAAAGTATTCTTCAACTGATAGAAAAGGCAATAGAACTGGAAACAGGAGAAGAGAAAGAAGCTCTTATTGAAGTGATTGCCAATAACATGAAGAAATCTTACAATGTCTATAATAAAGAACATGTGACGGATGATGTTATTTTCCGCCACCTGAAAGAACTGTCTGAAAACAGGTTAGACCTTACGGGAATCGATTCTCTTGAAAAAAGTAAAATCTATTATACCAATAATAACAACAACAGAAATAATAACAACAGAAACAACAGCAATAATAAAAATAACAACCAGCCTAACAAGAGAAGGCATAATAACAATCATAAAAACAGAAAATAA	MPEYGRIIQQLVERCKELPTQEERNEMAMAIIDFMGQRNPQLRDEENYKHKLWDHLFILADYDLDVESPYPFPTREQLAERPKRMEYPKLQGDFKFYGKSILQLIEKAIELETGEEKEALIEVIANNMKKSYNVYNKEHVTDDVIFRHLKELSENRLDLTGIDSLEKSKIYYTNNNNNRNNNNRNNSNNKNNNQPNKRRHNNNHKNRK				NA	NA	NA	NA	NA
BMS003_04146	1440			hypothetical protein	ATGAAAAAAACAAACTTTTTCCTTTCACTACTGGCTTTAGCATTAGCAGGCTCATGTCAGAACAGTGATGAATTAATGATGGAACCTTCCAAACAGGAAGAGGTTCACAGCAAAACAGTGAATGTAACTCATCATGATGGGCGTCCTTTCAGTACAGGAAACGAATCAGGTGCTCTGCAGGGTAAATTTGTATCCGGTCCGGGCGGAGGAGTTCTTATGCAGGGCTTCTATTGGGATGTTCCGGACGGAGGTAACTGGTGGAATACCGTTAAGGATAAGCTGACAGCCTGGTCTGATGCAGGAATTGGTGCCGTATGGTTACCACCGGCATCAAAAGCACAAAACGGAGCCTATTCTATGGGATATGATCCTACAGACTATTATGATTTCGGAAATTTTAATCAGAATGGAAGTGTAGAAACCCGTTTCGGATCCAGAACCGAACTGGAAGCATTGATTACCAAAGCACATGCTGAAAATATGCAGGTGTATGCAGATATTGTAATCAATCACAACAGTGGCGGACAGTCCGAGGCGAATCCTTATACAGGTACCAATACCTGGACTGATTTTTCAGGAGTGGCATCAGGGAAGTTTCCGAGAAGTTATAATGATTTTTATAAAAATTCCTACGGAAATAATGATGAAGGGGCCTTTGGTGGTTTTCCGGACTTGTGCCATGCCAACCCTTATGTACAGGACTGGCTTTGGGGAAGAGATGATTCTGTAGCAAAATATTATAAAAATGTCATGAAATTTGACGGCTGGAGATTCGATTACGTGAAAGGTTTTGGCCCATGGGTTGTTAATGCATGGAATTCCAATGTAGGAGGATTTTCTGTAGGAGAATTATGGGATTCTAACGTGAATACACTGGAATGGTGGGCAAACAATGCCAACAGTTCCGTATTCGATTTTGCCGCTTATTATAAAATGGATGAAGCTTTTGATAACGGAAACTTAAACGCTCTGAATGATGATATGATGTGGAAAAGGAATCCGTACAAAGCAGTAACCTTTGTTGCCAATCATGATACAGATATCATTTACAACAAAATGCCTGCGTATGCCTATATCTTAACCCATGAAGGCTATCCAACTATCTTCTACAGGGATTATGAAGAATGGCTAAATAAAGAAAGACTGAACAATCTGATCTGGATTCATAATAATAAAGCTACCGGGACAACTTCTATTCTATATACCGATAATGACGAATACATTGCAAGACGTAACGGATATAATGGAAATCCGGGGCTTGTTGTTTACATTAATACCTCTTCAAACTGGCAGGAAAGATGGATAGAGACAAACTGGAGCAGTCAGCAGATCAAAGATTTCACAGGAAATTCAAACTGGTATCCTACAACTCAGGGAGATAAATGGGTGAAAATCCAGTGTCCGCCAAATTCTTATTCTGTATGGTCACTTAATTTATAA	MKKTNFFLSLLALALAGSCQNSDELMMEPSKQEEVHSKTVNVTHHDGRPFSTGNESGALQGKFVSGPGGGVLMQGFYWDVPDGGNWWNTVKDKLTAWSDAGIGAVWLPPASKAQNGAYSMGYDPTDYYDFGNFNQNGSVETRFGSRTELEALITKAHAENMQVYADIVINHNSGGQSEANPYTGTNTWTDFSGVASGKFPRSYNDFYKNSYGNNDEGAFGGFPDLCHANPYVQDWLWGRDDSVAKYYKNVMKFDGWRFDYVKGFGPWVVNAWNSNVGGFSVGELWDSNVNTLEWWANNANSSVFDFAAYYKMDEAFDNGNLNALNDDMMWKRNPYKAVTFVANHDTDIIYNKMPAYAYILTHEGYPTIFYRDYEEWLNKERLNNLIWIHNNKATGTTSILYTDNDEYIARRNGYNGNPGLVVYINTSSNWQERWIETNWSSQQIKDFTGNSNWYPTTQGDKWVKIQCPPNSYSVWSLNL	PGPT0018575_2787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS003_04147	411			hypothetical protein	ATGGAAAATTTAGAAAATAAATATGTTGTATTTTTTGACGGAGATTGCGGTGTATGTAATTTCTGGGTACAATGGATTTTGGAGCGGGATAAAAAAGATCAATTTATGTTTGCTTCTCTTCAATCTGAATTTGGACAGCAGTTTTTATCCGAAAGAGGTTTAGAAACAAACGTTTTCAATACGATGTACCTGTGGAAACCAGGACATTATTACCAGATCAAATCAAGAGCAGTACTGGAAATTGCGAGCTTATTGGGCGGTGTTTATAAACTTTCTTCAATTGGAAAAGTTCTCCCTTCATTTCTCAGTAATAAGGTGTATGATGTTATTTCCAGAAACAGAATGAAACTGGCCAATCAGAAATGTTACCTACCGGATCAGCATCAGAAAAAAAAGTTTATTCAGGTATAA	MENLENKYVVFFDGDCGVCNFWVQWILERDKKDQFMFASLQSEFGQQFLSERGLETNVFNTMYLWKPGHYYQIKSRAVLEIASLLGGVYKLSSIGKVLPSFLSNKVYDVISRNRMKLANQKCYLPDQHQKKKFIQV				NA	NA	NA	NA	NA
BMS003_04148	468			hypothetical protein	ATGAAAAAAATAATTCTTATCATTCTTGTTGCGTTTATCATTATTCAGTTTTTCCCTATTGATAAAACCAATCCTCCTCCTACCCCAGGTATGGATTTTCTAAAAATTAAAAATACTCCGGAGAAAATTGCCCGTACTCTCAGAACGTCATGCTATGACTGCCATTCCAATGAAACAAAGTATCCATGGTACAGTAGTATTTCCCCGGCTTCATGGTGGGTAAAAAATCATATTGATGAAGGCAGAAAACATTTAAATTTTTCTACCTTTGCAGTATATGAATCTAAAAGACAGCTTCATAAACTGGAAGAATGTATAGAAATGGTTGAAAAAAAAGAAATGCCGCTTGAATCTTATTATTTAGGACATCAGGACGCCAAACTGTCTGATGAGCAGCGTGCAGATCTTGTTCAATATTTCAAAAAAGTAAAAGAAGACACTGAGAGAGGAATCATATTTAATAAGTAA	MKKIILIILVAFIIIQFFPIDKTNPPPTPGMDFLKIKNTPEKIARTLRTSCYDCHSNETKYPWYSSISPASWWVKNHIDEGRKHLNFSTFAVYESKRQLHKLEECIEMVEKKEMPLESYYLGHQDAKLSDEQRADLVQYFKKVKEDTERGIIFNK				NA	NA	NA	NA	NA
BMS003_04149	2280	katG	COG0376	Catalase-peroxidase	ATGGAAAACGATTTGAATGACATCAGCAAATGCCCGTTTCATAACGGAACAATGAAGAAGAGTGTAGCAGGTGGCGGTACCCAGAATTCTGATTGGTGGCCAGATCAGCTTAGAGTAGATCTTCTGCGTCAGCATTCTTCACTTTCAGACCCTATGGATAAAGATTTTGACTACGCCAAAGCATTTGAAAGCCTGGATCTGGAGGCAGTAAAAAAAGATCTTCATGCATTAATGACAGATTCACAAGACTGGTGGCCGGCAGATTTTGGTCATTATGGTCCTTTGTTTATCCGTATGGCATGGCACAGCGCAGGAACGTATCGTGTAGGTGATGGAAGAGGTGGTGCAGGAGCGGGACAGCAGCGTTTTGCCCCTTTAAACAGTTGGCCGGATAATGTAAGTCTTGATAAGGCTAGAAGACTGTTGTGGCCAATTAAGCAAAAATATGGCAGAAATATTTCGTGGGCAGACCTTTTGATTCTTACCGGAAATATAGCTCTTGAATCTATGGGCTTTAAAACATTCGGATTTGCAGGAGGACGTGCAGATGTCTGGGAACCGGACTCTGATGTATATTGGGGATCAGAAAAGACGTGGCTGGGAGGTGACCTGCGTTATGCTCACGGTTCAGAAGGAGTGGCAGAAGGACATGCAGCTGTTCTTCCTACGGATGATAAAGCAGATGGAGATATTCATTCAAGGAATCTGGAAAATCCATTGGCAGCCGTACAGATGGGACTTATCTATGTAAATCCTGAAGGTCCGGACGGAAATCCCGACCCGGTTGCAGCAGCTAAAGATATCCGTGATACTTTCGGCCGTATGGCAATGAATGATGAAGAGACCGTTGCTTTGATTGCCGGAGGACATACTTTCGGTAAAACCCATGGAGCTGGCCCTGCAGATCATGTAGGTAAAGAACCCGAAGGAGCTGGAATTGAACAGCAGGGACTAGGATGGGCAAGTACTTATAAATCAGGAAGCGGAAGAGATGCCATTTCAAGTGGTCTGGAAGTAACGTGGACAGAAACCCCGACTCAATGGAGTAATTATTTCTTTAAAAATCTTTTCGAAAACGAATGGGAATTAACAAAAAGCCCTGCCGGAGCTCATCAATGGGTAGCAAAGGATGGAGCAGATATTATTCCGGACGCATTTGATTCTTCTAAAAAGCATAAGCCAACAATGCTTACAACAGACCTTTCGTTAAGACTGGATCCTGTTTACGAAAAAATTTCAAGACATTTTTATGAAAACCCTGACGCATTTGCCGATGCATTTGCAAGAGCATGGTTTAAGTTAACGCACAGGGATATGGGACCGCGTGCCCGTTATTTAGGACCGGATGTTCCACAGGAAGAATTAATCTGGCAAGATCCTATTCCGGAAGTGAATCATGAGCTGGTTGATAATAATGATGTGGAAGCATTGAAATCAAAAGTATTAAATTCAGGATTAAGCAATGCTGAACTGATATCTGCAGCATGGGCCTCTGCTTCTACTTTCAGAGGAAGTGATAAGCGTGGCGGTGCCAACGGAGCCAGAATAAGACTGGAGCCTCAAAGAAACTGGGAAGTGAATAATCCTTCTCAACTGAATAAGGTATTAAACGTATTGGAAAGAATTCAGAAAGAATTCAACGATTCTCAAAACGGAGGTAAAAGAATATCACTGGCAGACTTAATTGTATTAGCAGGAAATGTTGCGGTAGAAGTTGCAGCAAGAAATGCTGGCCAGGAGGTAAAAGTTCCTTTCACTCCAGGAAGAATGGATGCTTCTCAGGAACAGACAGACGTAGAGTCTATGGGATACCTTGAGCCTGCTGCTGATGGATTCCGTAATTATCTGAAAAGAAAATATACGGTCTCTACAGAATCTTTATTAATTGATAAAGCACAGTTATTAACCCTTACTGCACCGGAACTAACGGTATTGGTGGGAGGAATGCGTGCTTTAGATACGAACTTTGACGGTTCAAAACATGGCGTATTCACCAGTCGTCCGGGAGTTCTTACCAATGATTTCTTTGTGAATCTTCTGGATATGGGAACGCAATGGAAAGCAATGTCCGAGGACAGAGAACTTTATATGGGAACAGACCGTTCAACAGGTCAGCCAAAATGGACGGCAACGCGTGCTGATCTTGTTTTCGGATCTAATTCTGAATTGAGAGCAATTGCTGAGGTATACGGAAGTGCCGATGCGCAAAGTAAATTTGTAAATGACTTTGTAGCTGCATGGACGAAGGTGATGAATCTGGACAGGTTTGATCTGATTTAA	MENDLNDISKCPFHNGTMKKSVAGGGTQNSDWWPDQLRVDLLRQHSSLSDPMDKDFDYAKAFESLDLEAVKKDLHALMTDSQDWWPADFGHYGPLFIRMAWHSAGTYRVGDGRGGAGAGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGRNISWADLLILTGNIALESMGFKTFGFAGGRADVWEPDSDVYWGSEKTWLGGDLRYAHGSEGVAEGHAAVLPTDDKADGDIHSRNLENPLAAVQMGLIYVNPEGPDGNPDPVAAAKDIRDTFGRMAMNDEETVALIAGGHTFGKTHGAGPADHVGKEPEGAGIEQQGLGWASTYKSGSGRDAISSGLEVTWTETPTQWSNYFFKNLFENEWELTKSPAGAHQWVAKDGADIIPDAFDSSKKHKPTMLTTDLSLRLDPVYEKISRHFYENPDAFADAFARAWFKLTHRDMGPRARYLGPDVPQEELIWQDPIPEVNHELVDNNDVEALKSKVLNSGLSNAELISAAWASASTFRGSDKRGGANGARIRLEPQRNWEVNNPSQLNKVLNVLERIQKEFNDSQNGGKRISLADLIVLAGNVAVEVAARNAGQEVKVPFTPGRMDASQEQTDVESMGYLEPAADGFRNYLKRKYTVSTESLLIDKAQLLTLTAPELTVLVGGMRALDTNFDGSKHGVFTSRPGVLTNDFFVNLLDMGTQWKAMSEDRELYMGTDRSTGQPKWTATRADLVFGSNSELRAIAEVYGSADAQSKFVNDFVAAWTKVMNLDRFDLI	PGPT0013165_133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
BMS003_04150	168			hypothetical protein	ATGAAGATAAAAGAGCTTGTTAATAAAGTTGTTTCAATTACCCTAAAAAATAAAAAAGAATTTGAAGGTATATTGGTAGATATATCAGATGATTGGTGCTATATAAAATATATTCCTGTTGATTATGTGGTGGATGGTTTTGTATTGATCAGCCGAAGTATAGTGTAG	MKIKELVNKVVSITLKNKKEFEGILVDISDDWCYIKYIPVDYVVDGFVLISRSIV				NA	NA	NA	NA	NA
BMS003_04151	915	rhaS_17		HTH-type transcriptional activator RhaS	ATGAAACAGCCTCTTCATTTTAATTCTATTTCAGATTTTCATGCTTTTTGTGGTCTTCCTAATCCTGAACATCCGCTGATCAGCGTGATTGACTACAGTAAAGTACGTTATGCTGTAGATAATGAGGAACTGAAATGGATTCAGTGCTTCTACTCCATTGGTTTGAAAAAGAATGTCAGCCCTAAGTTCAATTATGGACAGCAGCAGTATGATTTTGATTCCGGAGTGTTGTGTTTTATTTCGCCACAACAATATTTAAGTCTTGAAATTAATCCTGATGTAGAAGTAGAACCCACCGGGTTTTTATTGTTGATTCATCCTGATTTTCTGTGGAACACTTCCTTAACAAAGAAAATAAAATCTTATGATTTCTTCAGTTATCAGGTGAAGGAAGCTCTTTTTCTTTCTGATAAGGAAGAGAAAATTCTTATTGACATTTTTAAAAATATTGAGCAGGAATATCAGTCGAATACCGATAGATTTACACAGGATCTGATCATTGCACAGATTGAATTATTGCTTGTTTATTCAGACCGTTTTTATGAAAGGCAGTTTTTCACCAGAAAAAAATCAAGTCACGAATTACTGTACAAGTTCGAAGACATCCTTTCTCAGTATTTCGAAAGCGGAAATCTCCTTGAAAATGGAACTCCATCTGTTAAAACCATTGCCGAGCAGATGAATATTTCACCCAATTACCTGGGGACACTACTCCGTTTGCATACCCGGCAAAATACACAACAGCATATTCAGAATAAATTAATTGATGCAGCTAAAGAACGTTTGAGTACCACCAGTTTATCTGTAAGTGAAATTGCTTATGAACTGGGATTTGAGCATCCGCAATCTTTCAGTAAACTTTTTAAACAGAAAACCAATCAGTCTCCGGGAGAATTCAGAAAGTTATTTAATTAA	MKQPLHFNSISDFHAFCGLPNPEHPLISVIDYSKVRYAVDNEELKWIQCFYSIGLKKNVSPKFNYGQQQYDFDSGVLCFISPQQYLSLEINPDVEVEPTGFLLLIHPDFLWNTSLTKKIKSYDFFSYQVKEALFLSDKEEKILIDIFKNIEQEYQSNTDRFTQDLIIAQIELLLVYSDRFYERQFFTRKKSSHELLYKFEDILSQYFESGNLLENGTPSVKTIAEQMNISPNYLGTLLRLHTRQNTQQHIQNKLIDAAKERLSTTSLSVSEIAYELGFEHPQSFSKLFKQKTNQSPGEFRKLFN	PGPT0017485_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS003_04152	840	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGAAACAAAAAAAGTATGGTTCGTGACAGGAGCTTCAAAAGGCTTAGGGTTCGAGTTGGTAAAAAAATTACTGTCCGAAGGATTTCAGGTTGCTGCAACAAGCCGTACCGTTGAATCCCTGATCTCTACTATTGGAGAAACTTCAGAAAACTTTCTTCCGCTCAGTGTCAACATTACAGACAATAATGACATTAAATCTGCTATTGAAAAAACAGTAAATCATTTCGGAAGAATTGATGTGGTAGTGAACAATGCCGGCTATGGACAAATCGGAACGCTTGAAGAGCTTACCGATGAGGAAGCAAGAGAAAATTATGCGGTGAATGTTTTCGGAACATTGAATGTCATCAGAAATGCCATGCCTTATCTTCGTGAACAGAGATCAGGAAACATCTTTAATATTTCTTCTGTGGGCGGATATTCTGCTAATTTTCCGGGCTGGGGAATCTATTGTTCTACAAAATTTGCTGTGGCCGGATTTACAGAAGCGCTGGCAGAGGAAGTAAAAGACTTCGGAGTTCATGCTACAGTTGTTTATCCCGGATATTTCCGCACCGATTTTTTAACCAAAGATTCTGTGAAAACACCTGCCAATCCCATTCAGGCTTATGAAGCAGCAAGAAATTCGGAACAGGCTCACCTTAATGATATCAATGGAAATCAGCCTAATGATCCTGAAAAAGCCGCTGATGTTCTGATCCGGATCAGTAAAGAGAAAAATCCTCCGGTACATTTATTATTAGGGGTAGGAACGGTGGAGTTCCTGAATAATAAAATTGATATTTTAAAGAAAGACGCTGAGAAATGGGAAAGCCTTACTGTTTCTACTGCAATTTAA	METKKVWFVTGASKGLGFELVKKLLSEGFQVAATSRTVESLISTIGETSENFLPLSVNITDNNDIKSAIEKTVNHFGRIDVVVNNAGYGQIGTLEELTDEEARENYAVNVFGTLNVIRNAMPYLREQRSGNIFNISSVGGYSANFPGWGIYCSTKFAVAGFTEALAEEVKDFGVHATVVYPGYFRTDFLTKDSVKTPANPIQAYEAARNSEQAHLNDINGNQPNDPEKAADVLIRISKEKNPPVHLLLGVGTVEFLNNKIDILKKDAEKWESLTVSTAI				NA	NA	NA	NA	NA
BMS003_04153	807	rhaR_16		HTH-type transcriptional activator RhaR	ATGAATACGCTTCGTAATGGTGAATATTTTGGAGACACCAATCAAAGGGTCAATTTAGAAGGATTGACCGTCACCGATACGGAGTATACCCATCCTTACGTAGACTGGCACTATCATGAAAATGCTTATTTCACTTTTCTTCTGCAGGGAAATATGACTGAAGGAAACAAAAAAGAAGTCTATGGCTGTTCTGCAGGGACATTGTTGTATCATCATTGGGAAGATCCGCATTACAATATTAAACCTGATGTCTTTACAAGAGGCTTTCATATTGAGCTTTCCCAAAGCTGGTTTGACCGGTTTGATATTCCTAAAAATAAAGTAGAAGGCAGCTTTAATATTAAAAATCCTGTCTTAAAACTATTGGTTTACCAGATGTTCAAGGAAACCAAAAGTGATGACAACTCTTTTGAATTAGCTATCAATCAGCTACTACTAAATCTTTTCAGCCGGTTAACCCATCAAAAGGAAAGCATGGAAAGAAAACCTTTGTGGGTAGGTCAGATTAATGAAATTCTGCATGAAAGCTTTACAGAAAACCTTAATCTTACGGAACTTTCCAAAACACTGAACATCCATCCTATTCATCTCAGCAGAGATTTCCACAAGTATTTCCACTGTAATCTGGGCGAATACCTCAGAAAATTAAAGCTCAACAGATCGCTTGAACTTCTTACTTTACCCAATTCTTTAACGGATATTGCCATGGAATGCGGCTTTTCAGATCAAAGTCATTTCATCCGGTGCTTTAAAGAAAATATAGGAGTTACACCACTGAAATACAGGAATCTTATGAAAAATCACTGA	MNTLRNGEYFGDTNQRVNLEGLTVTDTEYTHPYVDWHYHENAYFTFLLQGNMTEGNKKEVYGCSAGTLLYHHWEDPHYNIKPDVFTRGFHIELSQSWFDRFDIPKNKVEGSFNIKNPVLKLLVYQMFKETKSDDNSFELAINQLLLNLFSRLTHQKESMERKPLWVGQINEILHESFTENLNLTELSKTLNIHPIHLSRDFHKYFHCNLGEYLRKLKLNRSLELLTLPNSLTDIAMECGFSDQSHFIRCFKENIGVTPLKYRNLMKNH				NA	NA	NA	NA	NA
BMS003_04154	1047			hypothetical protein	TTGATTCTTTCGGCCTCCGATACTTCCCTTCTTCCTGCTTCGGGCTTCCAGCTTTCTCAACAGAAAATCAACAACTCTTTCCACAAAAAATACTACATTTGTGAAAATCACAAAATCATGCACCAGGAAGCTCTGCTCAAGGAAATCCGAAGAAAAATAGGTGAGAAATCTTTAAATGATGAGATATCCACTATTCTTAATATAAGCTATGATGCGGCTCACAGAAGAACTTCAATGAAAGCCAAGTTTAGTTTTGAAGAGGCTTTGGAGCTTGCCAAATACTATCAGATCTCACTGGATCAGTTTCTGGGAACAGAAAATCAGCTGGTAGTCAAAAGAACACAACCTGTAAAAACCACCGAGGATCTTTTAAATTATTTCGAGAATTCCTTAAAGATTTTAAATGTTTTTCAGAACATCACAAATTCCAAAGTATTTTATTCTGCAAAAGACATCCCGTTTTTTTATACTATTTCAGATTCTATTTTATCCCGCTTCAAGTTTTATGTCTGGATGAATCTGCTGAACCAGGATAAATTCCTAAGCCCGTTTCATGAGTTTACAATGGAATATCATTCTGTAAAAAATGAAATGCTGAAAGACCTTTATGATAAACAAAATGTAACGGAAATATGGAATGACACCACTATTATGAGTGCATTGAGACAAATTTCATTCTATTATGAAATGGGATTATTAAAGAAAAATGATGTGGATCTCATTCTGGAAGATCTGAAAAAATTACTGGAAGGACTTGAAATAAAAACCTTAGAAAAAAATAATTTTCAGATCTATGTAAATGATTTAGTAATTTTAAACAACAGTATTTTATTCAAAAATGAAGAACAGTGCTCCTTTTTTGTGCCTTTCAGCATGTTCGGATATATGATGACCAATGATAAAATAACATGTGAAGATTCCCTGAGCTATTTTGAACATCAGATCAAGAATTCCAGATCACTGAATGAATCCGGAAACCGCGAAAGGAAAATGTTTTTTAATAAAATGTATGAACAGATTGACCGATTAAAACAAAACTTATCATGA	MILSASDTSLLPASGFQLSQQKINNSFHKKYYICENHKIMHQEALLKEIRRKIGEKSLNDEISTILNISYDAAHRRTSMKAKFSFEEALELAKYYQISLDQFLGTENQLVVKRTQPVKTTEDLLNYFENSLKILNVFQNITNSKVFYSAKDIPFFYTISDSILSRFKFYVWMNLLNQDKFLSPFHEFTMEYHSVKNEMLKDLYDKQNVTEIWNDTTIMSALRQISFYYEMGLLKKNDVDLILEDLKKLLEGLEIKTLEKNNFQIYVNDLVILNNSILFKNEEQCSFFVPFSMFGYMMTNDKITCEDSLSYFEHQIKNSRSLNESGNRERKMFFNKMYEQIDRLKQNLS				NA	NA	NA	NA	NA
BMS003_04155	639			hypothetical protein	ATGAAAACACGAATTTTATTAACAGCAGTTCTTTTATTCAGTAGTCTGGCTCATGCATCAGACAGTTTAAAAGTTGATTCTTTAAAGCCGAAATTAATCGCAGCTTCCCCCTCAAAGAATGTCCGAAATGTCAACGGGATTTTATTTAAATATTTTGATGAAGAGGATCATTTTAAGCCTAAAAAAGTAAATGGATTGGGAATGGGATTCAATTTTGTGGGCATTTTTCTTCCACCATTGATGCTTGTTAACCTGCAATTACCAGGCAGTTATGATTATGTCATTGTTCCCCGTGAAAAGATGAATATAATCAACGGACTTCAATTATCGCTCATCAATATGGAGCCCACAGTTACCAATGGTCTGGAAATCAATGTATCGAGTAATATAAGCACTTATGCGGTGACTAATGGAATGTCTGTGTCTCCATTTTTTAATCTGCATCATGAAATGAAAGGTATTTCTGTAGCACCATTGGCCAATATCGGGAAGAAATGCAGGGGAGTACAAATTGGATTGTACAATAAATGTGATGACTTCAGAGGAATACAGATTGGCGGGTGGAATAAGAACGGAAAGAGAAAGCTTCCTTTGATCAACTGGAATTTTAAGAAACAGAAAGTAAATAATACGCTATGA	MKTRILLTAVLLFSSLAHASDSLKVDSLKPKLIAASPSKNVRNVNGILFKYFDEEDHFKPKKVNGLGMGFNFVGIFLPPLMLVNLQLPGSYDYVIVPREKMNIINGLQLSLINMEPTVTNGLEINVSSNISTYAVTNGMSVSPFFNLHHEMKGISVAPLANIGKKCRGVQIGLYNKCDDFRGIQIGGWNKNGKRKLPLINWNFKKQKVNNTL				NA	NA	NA	NA	NA
BMS003_04156	465			hypothetical protein	ATGAGAAAGTTTGTTCTCATCACAGCACTATTGCTTTTTGGATTTCTGCAAGCTCAAACTGAAGAAATCAAAGAAAAAAGATGGCTGGTTATTCTTCTCAGTACCCGGATTGAAGGAACTTCTATGGATAACAAAGCATTTTGGTCAATAGGAACAAAGTTGACTGATGGTGATAAGAATTACTACAGCTTAAGAGGTCACTTCAACTGGTGGGATGAAAGAAAATTGCTGGTTATTCCGGAGTTTGATTATTTCAGAAGAGTGGTTTCGTTTCGCGATGGTGTAGAAATATCATCTTTATATGCAGGAGCCGGAATTTCACCTCATGCAGTTTCACCCAAAGCAGGAATTAATTTCTACCATTTCTTTTGTGCAGAATTCGGGTATAACTTCGAGTATAATACTTATAAACCATTTCCAATTAAAGGATTCCGATTCGGAATAGGAATTAACCTTGTTTTTTAA	MRKFVLITALLLFGFLQAQTEEIKEKRWLVILLSTRIEGTSMDNKAFWSIGTKLTDGDKNYYSLRGHFNWWDERKLLVIPEFDYFRRVVSFRDGVEISSLYAGAGISPHAVSPKAGINFYHFFCAEFGYNFEYNTYKPFPIKGFRFGIGINLVF				NA	NA	NA	NA	NA
BMS003_04157	642			hypothetical protein	ATGAAAAATTATAAACTGATCGTATTCTTATTAATGTGCTCAATACATATTTTTTCACAAAATAGTGCAATTGATACACTGAATAACCGGACAGAAGAACCATTTGACTATAAAAAATACTATGATTGTGATTTTGGAGAAGGAAATGTTTTGATTGTCATCAAAAAGGGGAAAGAATTTACAAACCTTACAGACTTAAGAAAATCCGGTAAAGGTTTTGCCATTAAAATGGAAGCTATTTACAGTATGGAGTTTGCAGACGGAAAAAGATATGAATCAAGCGTGGTGAAGAAAATTACGAATGACAGTATTTCGATTACCAGTTTTTTCAATGAAAATGCAGCAAAGCTGGCGGGGCAACCTTTTAAATTGATCAATTATCCTCTTTCGTCTTTGAAATATGTCCGTTTTATTGATGACAGATTGCTGTCTCTGTATAGTAAAAAGAATATTCAGAAGAACTTTGACCTGTTGGTGAAAAAAATGGACCAGGCAAAAATGTGTCCTGCGGTTCTTCAGTTTAAAGACAGAAACGGCGAGATGAAAGTCTGTCATTTCTATCTGACCTCTCAGGGATATGATCTTCTTTACGAAGATAAAGGGAGAGTATATTATATGGAAGGCAGGGTAGAGTGGAAATGA	MKNYKLIVFLLMCSIHIFSQNSAIDTLNNRTEEPFDYKKYYDCDFGEGNVLIVIKKGKEFTNLTDLRKSGKGFAIKMEAIYSMEFADGKRYESSVVKKITNDSISITSFFNENAAKLAGQPFKLINYPLSSLKYVRFIDDRLLSLYSKKNIQKNFDLLVKKMDQAKMCPAVLQFKDRNGEMKVCHFYLTSQGYDLLYEDKGRVYYMEGRVEWK				NA	NA	NA	NA	NA
BMS003_04158	1716			hypothetical protein	TTGATTATTGGAGCTGTGTTTTTTCAAGCACAAGCCAATGATACAGGAAAAAAGATTCTGGAACAACGTACTTATGAAGAATTGGAAAAAGAATTCTATAGTAGCCGTGTGGGAGAAGAAAACAGTAAAAGTATTGCAGAATATTATCTAAAAAAGGCAAAATCTGAAAAAAAATCTACTCGTATTGCTGAAGGATATGTCATGCTTCATTTCGAAGAAAATTTACCCAATGCATTAAAATATCTGGACAGCTTACAACATATCACCCAAAATTCCAAAGAAAATACTTATCCGGCCAGAGTTTATCTTTTAAGAGGAAACCTCTATTTTAAAAACGATAACCTCCAGTCTGCGCTGAATAACTATATTTTAGGACTGAAGTATGCCAAAGAAAAAGGAAATAAAAGGCAGATTGCCATGGCCCACATCAGTATTGCCAATCTGAATAATTATATAGGAAAGCATGAAGAAACAGCTAAAGTACTGAGACACTATGCTTATGATGCAGATTATATGAATGAGGATGAGAAAAATTCTCTCAAACTGAATCTGGCTGATGCTTATATAGAGATCAATAAAATGGACTCTGCTTATGCGTTGATACAGGAAGGTATACAGGATTCCAGAAAACATAAAGATCTTTACCGTTATTATCAGAATCTTGGACTGCTGGGATATTATAATCTGCATTTAAAAAACTATCAGAAAGCTATTGACGGCTTATCAGAGTGTAAAAAATATTTCTTTGCAAATCATAATATTGACAGTAAAAGAAATCAGCATTATACTCTTCTATATTTGGGAAAATCCTATGCCGGGCTTCAGAAAAAAGACAAAGCAATAGGTTTTTTCCGGAAGATAGATTCTATGGTTCTTAAAACAAATTATATTTATCCTGAGCTAAGGGATGTATATACCTATCTGATTGATTATTATAAAGAAAACAGTGATACGGAAAAACAGCTCTATTATGTAGAGCGGTTTTTAAAGGTAGATCAGGTTTTGTATACCCAGTTCAGGTATATTTCCAGAGAGCTTCCGAGAAGATATGATACTCCGGAACTCCAGCAGGAGAAAGAAAACATTACCAATGAGCTTACCAAAAGAAAAAGCCTTTTTTATATTGTCTTAAGCCTTTTGCTGATATCACACCTGTTATTCATCAATGTTTATTTTAAGTATAAAAAATCCGAAAAGAACTATAAAAAGATAGCTCAGGATCTGATTCTTTCAGTTAATGAAAAGAGGTTGGGTAAAGACAGAAAGTCAGAACCAGAAAAAGAAACCTTTTCTGAACCACTTCCGGCAGAAACGACAGGGAACTCCGAAGACAGAACAACCAGAACAATCTCAGAAGATATTGCTCAAACCATTTTAAAAGAGCTTGAAGTCTTTGAAAATAAAGATCAGTTTCTGAGTAAAGGCATTACGCTTGGAAGTCTTGCTAAAAAAATAAAAACCAACTCGAAATACCTGTCGGAAATTATCAATACATACAAAGGAAAAAACTTTGCAACCTATCTTAATGATCTCCGTATTGATTATGCTATTAGCAGACTGGCCAATGACAGGAAATTCAGGTCTTATAAAATTCCTTTTATTGCCGAAGAATTAGGTTACAATAATGAACAGGCTTTTACTTTAGCCTTCAAAAAACGAACCGGAACCCCTCTTTCTGTCTATCTGAAAGAAATTGAAAACATGAAGGGGGATTGA	MIIGAVFFQAQANDTGKKILEQRTYEELEKEFYSSRVGEENSKSIAEYYLKKAKSEKKSTRIAEGYVMLHFEENLPNALKYLDSLQHITQNSKENTYPARVYLLRGNLYFKNDNLQSALNNYILGLKYAKEKGNKRQIAMAHISIANLNNYIGKHEETAKVLRHYAYDADYMNEDEKNSLKLNLADAYIEINKMDSAYALIQEGIQDSRKHKDLYRYYQNLGLLGYYNLHLKNYQKAIDGLSECKKYFFANHNIDSKRNQHYTLLYLGKSYAGLQKKDKAIGFFRKIDSMVLKTNYIYPELRDVYTYLIDYYKENSDTEKQLYYVERFLKVDQVLYTQFRYISRELPRRYDTPELQQEKENITNELTKRKSLFYIVLSLLLISHLLFINVYFKYKKSEKNYKKIAQDLILSVNEKRLGKDRKSEPEKETFSEPLPAETTGNSEDRTTRTISEDIAQTILKELEVFENKDQFLSKGITLGSLAKKIKTNSKYLSEIINTYKGKNFATYLNDLRIDYAISRLANDRKFRSYKIPFIAEELGYNNEQAFTLAFKKRTGTPLSVYLKEIENMKGD				NA	NA	NA	NA	NA
BMS003_04159	1449	asnS	COG0017	Asparagine--tRNA ligase	ATGAAAAAGCAAACGATCAAAGAAATCCTGAAGGATTACAAGAAAGTATTACATCATGACATTACTGTTTACGGATGGGTAAGATCCTTCCGTGCCAATCGCTTTATTGCGCTTAATGATGGTTCTACGATTAATAATTTGCAGATAGTTGTTGATTTCGAAAATTTTGATGAAGCAATCATCAGAAATATAAGTACAGCTTCTTCCCTTAAAGTAGTAGGAGAAGTGGTGGAAAGCCAGGGAGCCGGACAATCTGTGGAAATTATTGCCAAAAAGATTATTATTTTAGGAGATAACTTTACAGAAGAGCTTCAGAGTACAATTCTTCAGCCTAAAAAGCACAGTCTTGAAAAGCTTCGTGAGCAGGCGCACTTGAGATTCAGAACCAACCTTTTCGGAGCAGTGTTCAGAGTACGCCATGCGGTGAGTTTTGCAGTTCACTCGTTCTTCAACCAGAACCAGTTTTTCTATATCAATACACCGGTTATTACGGGAGCGGATGCAGAAGGCGCAGGTGAAATGTTTGGAGTAACCAACTTTGACCTGAACAACATGCCGAAAACTGAAGATGGTGAAATTGATTTTGCACAGGATTTTTTCGGAAAGAAAACCAACCTTACCGTTTCAGGACAGCTTGAAGGAGAAACTGCAGCTATGGGATTAGGAAGAATTTATACTTTCGGACCTACTTTCCGTGCTGAAAATTCTAACACCACAAGACACCTTGCCGAGTTCTGGATGATTGAGCCGGAAGTAGCATTCAACAACCTTGAAGATAACATCGACCTTGCGGAAGATTTCTTAAAATATGTAATCCAGCATGTATTGGATAACTGTAAAGATGACCTTGAGTTCTTGGATAACCGTTTTGCAGAAGAGCAGAAAACAAAGCCGGAAAAAGAAAGAGCAAAAGAAGGTCTTATCGAAAAGCTTCAGAATGTTGTGGCTAAGCGTTTCAAACGTGTAAGCTATACAGAAGCAATAGAAATCTTATTAAACTCTAAAGAAAATAAAAAAGGAAAATTTGCTTACCCGGTTGAAAAATGGGGAACTGACCTTCAGTCTGAGCATGAAAGATATCTTGTAGAAAAGCATTTTGAAAGCCCGGTAGTATTATTTGACTATCCGAAAGAAATAAAAGCTTTCTATATGAAACTGAACGATGACAATAAGACAGTTGCTGCCATGGATGTTCTTTTCCCTGGTATTGGTGAGATCATCGGTGGATCAGAAAGAGAAGCAAGATTAGATGTTTTAAAACAGAAAATGGCAGATATGCATGTAGATGAACACGAACTTTGGTGGTACCTTGATACCAGAAAATTTGGTTCTGTACCACATGCAGGCTTTGGCTTAGGATTGGAAAGACTGGTTCTTTTCGTAACAGGGATGACGAATATCAGAGATGTAATTCCTTTCCCAAGAACGCCGAAAAGCGCTGAATTCTAA	MKKQTIKEILKDYKKVLHHDITVYGWVRSFRANRFIALNDGSTINNLQIVVDFENFDEAIIRNISTASSLKVVGEVVESQGAGQSVEIIAKKIIILGDNFTEELQSTILQPKKHSLEKLREQAHLRFRTNLFGAVFRVRHAVSFAVHSFFNQNQFFYINTPVITGADAEGAGEMFGVTNFDLNNMPKTEDGEIDFAQDFFGKKTNLTVSGQLEGETAAMGLGRIYTFGPTFRAENSNTTRHLAEFWMIEPEVAFNNLEDNIDLAEDFLKYVIQHVLDNCKDDLEFLDNRFAEEQKTKPEKERAKEGLIEKLQNVVAKRFKRVSYTEAIEILLNSKENKKGKFAYPVEKWGTDLQSEHERYLVEKHFESPVVLFDYPKEIKAFYMKLNDDNKTVAAMDVLFPGIGEIIGGSEREARLDVLKQKMADMHVDEHELWWYLDTRKFGSVPHAGFGLGLERLVLFVTGMTNIRDVIPFPRTPKSAEF				NA	NA	NA	NA	NA
BMS003_04160	1464	rpoN	COG1508	RNA polymerase sigma-54 factor	ATGCTTAAACAACACTTACAACTCAAATTAGGACAGAAGCTGGCCCCTCAGCAGATCCAGTTGATGAAGCTTATTCAGCTTCATACTCTTGAATTTGAAGAGGAGTTGGAGAGAGAGTTAGAAGAAAACCCGGCTTTGGAAATTGCAAAAGAAGATTCTAAGGAGGATGACTATTCTTCTCTGGAAGACGCTTATCAGGATGAGGGTACAGAAAGCATTGAAACAGATTTCGACGTCAATGAATATATCTATGACGATGAACCAAGCTATAAAACCGCATCCAGCAACTATTCTCCGGATGATGAGGAATTTGATAACGAGAGTCTTCTAACGGAAGGACAGTCCTTATATGATTATCTTACGGAGCAGATTCATCTGGTCAATATCAATGATGAAGATTTGAAGATTGCAGAGTATCTTATCGGAAACCTGGATACAGATGGATATCTGAGAAGAGAGATCAAATCTATTGTGGATGATCTGGCCTTCTCACAAGGAATTTATACAACGAAGGAAAGAGTAGAGGATATCCTTGAAAATTATGTTCAAAAGCTGGATCCGTCCGGAGTAGGAGCAAGAGGTCTGCAGGAATGTTTATTATTGCAGATCGAAAAGAAAGTAAGCTCAGACAAAGCCGTTTCTCTGGCCGCCAATATCTTAAGACATCAGTTTGAAGCCTTAACGAATAAACACTATAATAAGATTATTCAGAAATACGATATTGAAGAAGAAGATCTTAAGGATGCCCTGGAAGAAATCTCAAAACTGTCTCCTAAAGTAGGAGGAAATTTTGATACCCAGACAATTACAATTAATCAGGAAATTATTCCGGACTTTGTGATTCAGGTGAAAGACGGTAAGGTAATTCCCATGTTGAACAGTAAGAATGCACCTACTTTAAGAGTTTCTGAAGAATATAAAGATATCCTGACCACCTATTCTCATGATAAAAATTCATCAGAGCATAAGCAGGCAGCATTATTTATCAAACAAAAACTGGATGCCGCAAAATGGTATATAGATGCTATTAATCAGCGTCAGAATACCTTATTACAGACCATTACAGCCATTGTAAAATTCCAGAAGGATTATTTCATTACCGGTGATGAAAAGTCATTGAAACCAATGATTCTTAAGGATGTTGCAGATATTACAGGATTTGACATTTCTACCATCTCAAGGGTTGTAAAAAGTAAATATGCAGATACACCAAACGGAATTGTATACCTGAAGGATCTCTTCTCAGACAGTTTAACAAATGATGATGGAGAAGAGGTGTCTACGAAAGAAATCAAAACCCATCTTCAGGAGGTCATCGACAAAGAGAACAAGAGAAAACCTCTTACAGATGATGCATTAGTGGTTATCCTGAAAGAACAGGGATATAATATTGCCAGAAGAACGATTGCTAAATATCGGGAGCAGCTCAATATTCCTGTCGCAAGATTAAGAAAAGAGCTTTAA	MLKQHLQLKLGQKLAPQQIQLMKLIQLHTLEFEEELERELEENPALEIAKEDSKEDDYSSLEDAYQDEGTESIETDFDVNEYIYDDEPSYKTASSNYSPDDEEFDNESLLTEGQSLYDYLTEQIHLVNINDEDLKIAEYLIGNLDTDGYLRREIKSIVDDLAFSQGIYTTKERVEDILENYVQKLDPSGVGARGLQECLLLQIEKKVSSDKAVSLAANILRHQFEALTNKHYNKIIQKYDIEEEDLKDALEEISKLSPKVGGNFDTQTITINQEIIPDFVIQVKDGKVIPMLNSKNAPTLRVSEEYKDILTTYSHDKNSSEHKQAALFIKQKLDAAKWYIDAINQRQNTLLQTITAIVKFQKDYFITGDEKSLKPMILKDVADITGFDISTISRVVKSKYADTPNGIVYLKDLFSDSLTNDDGEEVSTKEIKTHLQEVIDKENKRKPLTDDALVVILKEQGYNIARRTIAKYREQLNIPVARLRKEL	PGPT0000795_1379	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
BMS003_04161	1626	fadD3	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGCCCTTATCTTATGTGAATGGAACTTCTGAGATTCCATTATTAGGACAGACCATCGGAGCGAATCTTAAAAGGACTGTCGAAAAATACCCTCATCAGGAAGCTTTAGTCTGTGTCCATCAGAATTACAGAGCTACTTACCAGGAGTTTTATAATCAGACCACTGCCGTTGCGAAAGCATTGCTGCTTCTGGGAGCAAAGACCGGTGACAGAATCGGAATCTGGTCTTCCAACCGCTACGAATGGGTACTTCTACAATTTGCCACGGCAAGAATAGGTACTATTTTAGTCAATATTAATCCTGCCTACAGGACTCATGAGTTAACCTATGTTCTTAACCAGTCTGAGGTTCGTTTCATTTTTTCTTCTTTAAATTTCAAAACCAGCAATTACAAAGAAATGGTGGAATATGCCAAAGAGGTATGCCCTGCCCTTGAGCACGAAATATTCTTTGATGAAAACTGGGAAGAGTTTGTGAATAACGGTCAGGATATTTCGGATGAAGTTCTTCACAGCTTTGAAGAGCATGTACAGTTTGATGATCCTGTCAATATTCAGTATACCTCAGGAACTACAGGTTTCCCGAAAGGTGTTACCCTTTCTCATCACAATATACTCAATAATGGTTATTTCATTGGTATCAGATTAAAATATACTGAAAAAGACCGTGTCTGTATCCCCGTTCCATTTTATCACTGCTTTGGAATGGTGATCGGTAATATGTGCTGTGTGGCTCACGGAGCTTGTATGGTAATTCCTAATGACAGTTTTGATCCCGATATTACTTTAAAAGCAGTTTCGGATGAAAAATGTACGTCTTTGTATGGTGTTCCTACCATGTTTATTGCTGAACTGGCTGTAAAAGATTTTGCCACTTATGATTTTTCAAGCTTAAGAACGGGCGTTATGGCAGGTTCAGTTTGTCCGCCGGAGATTATGAAAAAGGTAGAAAGCCTTATGAATATTAAAGAAATGAGCATTTGTTACGGAATGACAGAAACTTCACCTGTATCTACACAGACTTTAATAGGAACACCATTGGAAAAGCAGGTCAGCACAGTGGGAACTGTTCAGGATCATCTTGAAATAAAGATTATTGATGAAAATGGGAGAACACTGCAGCGCGGAGAACATGGTGAGCTTTGCACAAGAGGTTATTCTGTCATGCTGAAATACTGGAATGATCCCGAAAACACAAAAAAAGTACTGGATGATGCCCGCTGGATGCATACCGGAGATATGGCTGTAATGGACAAAGATGGCTATATTACTATTTCAGGAAGGATAAAAGACCTCATCATCCGCGGTGGGGAAAATATTTCGCCAAAGGAAATTGAAGATTTTTTATATACTTATACCAACATTCTGGATGTTCAGATCATTGGAGTACCAAGTGAAAGGTTTGGAGAAGAGGTAATGGCATGGGTAAAAGTAAGAAAAGGATTTACCATTACAGAAGAAGAGTTGCAGGAATACTGCAAAGGAAGAATAGCACACTATAAAATCCCTAAATACTGGAAATTTGTAGACGAATTCCCAATGACCATTTCCGGAAAAATAAGAAAAGTAGAGATGAGGGAGATTTCTGTAAAAGAACTGGGATTGGAGAATGCCAAGCAAATCTGA	MPLSYVNGTSEIPLLGQTIGANLKRTVEKYPHQEALVCVHQNYRATYQEFYNQTTAVAKALLLLGAKTGDRIGIWSSNRYEWVLLQFATARIGTILVNINPAYRTHELTYVLNQSEVRFIFSSLNFKTSNYKEMVEYAKEVCPALEHEIFFDENWEEFVNNGQDISDEVLHSFEEHVQFDDPVNIQYTSGTTGFPKGVTLSHHNILNNGYFIGIRLKYTEKDRVCIPVPFYHCFGMVIGNMCCVAHGACMVIPNDSFDPDITLKAVSDEKCTSLYGVPTMFIAELAVKDFATYDFSSLRTGVMAGSVCPPEIMKKVESLMNIKEMSICYGMTETSPVSTQTLIGTPLEKQVSTVGTVQDHLEIKIIDENGRTLQRGEHGELCTRGYSVMLKYWNDPENTKKVLDDARWMHTGDMAVMDKDGYITISGRIKDLIIRGGENISPKEIEDFLYTYTNILDVQIIGVPSERFGEEVMAWVKVRKGFTITEEELQEYCKGRIAHYKIPKYWKFVDEFPMTISGKIRKVEMREISVKELGLENAKQI	PGPT0008380_11925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS003_04162	675			hypothetical protein	ATGCCTGAATTTGATTTAGATAGTTTTAAAAAAACATGGCAGGAACAGCCTGTTCAGCCTAAATATGACAACAATGAGATTCTCCAGATGTTGAATAGAAAATCACGTAATTATGTGAAATATATTTTCTGGATCAGTGTTGTAGAATTCCTGTTTTTTTCTGTATTGGGACTATTTTATCTTTTTCCGGAGGAAGAATCAGACAGTTTCCGTAAAATGCTTGAAAGATTAGGTGCTGAGAAAGCTCCTGAAGTAGAGAACAACTTTGGTCATGTTTATTTAGCTATAAAAATCTTAAGCCTGTTAATCACAGCTTATTTTGTATTGAAATTCTATCAGAATTACCGAAAAATAAAGATTGAGGAAAATCTGAAAGGGCTTATCACCAGAATCATCAAGTTCAAAACAACGGTTAATGCATTTATTCTGATCAGTATTGTACTATTAGTGGTATTCACTTTTGTTCTGACGGCATTTATATTTTATACTTTAAATTCTCAGAATATACAGCCTACCGGTTCCAATCTTACCATCATTATAGTAGGAATTGTGGTCAGCACTTTACTCGCAATTTCCATGATCTGGTTTTATTACAGATTGGTATATGGAACTATTATCAGAAAGCTTGATAAAAATTTAAAACAACTTAAAGAAATAGATTCTCAGGAAAGTTAA	MPEFDLDSFKKTWQEQPVQPKYDNNEILQMLNRKSRNYVKYIFWISVVEFLFFSVLGLFYLFPEEESDSFRKMLERLGAEKAPEVENNFGHVYLAIKILSLLITAYFVLKFYQNYRKIKIEENLKGLITRIIKFKTTVNAFILISIVLLVVFTFVLTAFIFYTLNSQNIQPTGSNLTIIIVGIVVSTLLAISMIWFYYRLVYGTIIRKLDKNLKQLKEIDSQES				NA	NA	NA	NA	NA
BMS003_04163	492			hypothetical protein	ATGGATTCCAGAGAAAAAGAATTTGCGCAGCTTATCAAAGATAATCAGGGACTGATTATTAAAGTGTCGCGGCTTTATACCAATTCTCTGGAAGATGAAGAGGATCTTTTCCAGGAAATCGTGTTACAGCTATGGAGAAGTTATGATTCCTTTAAAGGAAATTCCAAGATTTCCACCTGGATGTATCGTGTAGCGCTCAATACTGCCATTACTCTTTTTAGAAAAAAAAGCAAAAGTCTTCCTACCAATGAGCTGGACATCAATCACAGAGATTTTGTGGAGGATGATGATGAAAAACAGCAGCAGGTATCTCTTTTGTATACTGTAATCAAGACTCTTCCTAATGTAGAAAGAGCCATTGTCATGATGTATCTTGACGATCTGCCTTACAAGGATATTGCAGAAAACCTCGGAATCACTGAAGTCAATGCACGTGTAAAAATGAACAGATTAAAGAAAACCCTTAAAGAACAGATGGAAAAATATGCCTGA	MDSREKEFAQLIKDNQGLIIKVSRLYTNSLEDEEDLFQEIVLQLWRSYDSFKGNSKISTWMYRVALNTAITLFRKKSKSLPTNELDINHRDFVEDDDEKQQQVSLLYTVIKTLPNVERAIVMMYLDDLPYKDIAENLGITEVNARVKMNRLKKTLKEQMEKYA	PGPT0014960_11854	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS003_04165	870		COG2326	Polyphosphate:ADP phosphotransferase	ATGGACACCGATTTCTCAGATGACTTTAAAGTAAATGGAAAATTTTCCATAAAAGAAACATCCACATCCTACCAAGGAAAGCTGACCAAAGAAGAAGGAATACAAATGCTGATTCAGGAGAAAGAAAAACTTCGTGAACTGCAGGAAAAATTATATGCTGACGGAAGCCAATCTCTTCTTGTAGTGCTGCAGGCTATGGATGCTGCAGGAAAAGACAGTATGATAGAACATGTTTTCGGAGGGGTAAATCCGCAGGGTTGTAATGTAACCAGTTTTAAGACTCCTAGTTCCAAAGAATATTCCCATGATTTTTTATGGAGGCATTATCTGGCGCTGCCACAAAAAGGAATGATCGGAATTTTCAACCGCTCACATTATGAAAGTGTTCTGGTTTGTAAGGTGCATCCTGAATATAATTTAAGTGAAAAAACATGGTCGTCTGTAAAAGATTTTGACAATAAGTTCTGGGAAAACAGATATGAAAGTATCCGGAATTTCGAAAAACATCTTTCCCAAAATGGCACTACCATTATAAAGATCTTTTTACATGTCTCTAAGGATGAACAGAAAAAAAGGCTTTTAGACAGAATTGAAGAACAGGAAAAAAACTGGAAATTCTCTGCAGGAGATCTCCCGGAAAGAGCCTTATTTGATCAATATATGGAGGCCTATGAAACCGCTATTAATGAAACGTCAAAAGATCATGCTCCATGGTATGTACTTCCTGCTGACAACAAGTGGTTTGCAAGAGTAGCTGCTATCCAGATCATTATTGACACACTGGAAAAAATGAATCTTAAATACCCTATTCTTTCTGATAAGGACAGACAGGAATTACAGGACTCTAAAAAACAACTGGAAAGTGAATAA	MDTDFSDDFKVNGKFSIKETSTSYQGKLTKEEGIQMLIQEKEKLRELQEKLYADGSQSLLVVLQAMDAAGKDSMIEHVFGGVNPQGCNVTSFKTPSSKEYSHDFLWRHYLALPQKGMIGIFNRSHYESVLVCKVHPEYNLSEKTWSSVKDFDNKFWENRYESIRNFEKHLSQNGTTIIKIFLHVSKDEQKKRLLDRIEEQEKNWKFSAGDLPERALFDQYMEAYETAINETSKDHAPWYVLPADNKWFARVAAIQIIIDTLEKMNLKYPILSDKDRQELQDSKKQLESE				NA	NA	NA	NA	NA
BMS003_04166	465			hypothetical protein	ATGAAAAAATTAATTGCAGGAATTGCATTATTCGGGACATTTGCTCTTGCATCTGCACAAACGATTACATTTGACAAAACAACTTTCGATTACGGAACTATCAGACCTAGCTCTGATGGTACAAGATTCTTTACTGTAACGAATTCTGGTGACAAGCCATTGATTCTTTCAAATGTAAAACCTTCTTGTGGATGTACAACTCCTGAATTCAGCCAAGATCCGATTTTACCTGGAAAATCAGCTAAAATCAAGGTTGGATATAATACAGCTATTCCTGGTCCTTTCAACAAAATGATTGAGGTTTTCTCTAATGATCCTGCTAACAACAGAAGCGTAATCTACATCAAAGGTAACGTAGATGCTAACGCTCCTGAACCCAAAGTAATGACTCCTGCTGAGCAGAAAAAAGCTGCTAAAGCTGAGAAAAAAGCTGCAAAACTAGCTAAAAAAGCTGCCGCGAAGTAA	MKKLIAGIALFGTFALASAQTITFDKTTFDYGTIRPSSDGTRFFTVTNSGDKPLILSNVKPSCGCTTPEFSQDPILPGKSAKIKVGYNTAIPGPFNKMIEVFSNDPANNRSVIYIKGNVDANAPEPKVMTPAEQKKAAKAEKKAAKLAKKAAAK				NA	NA	NA	NA	NA
BMS003_04167	2616	valS		Valine--tRNA ligase	ATGCAGATTTCAGAAAAGTACAATCCACAGGAGACAGAACAAAAATGGTACAATTACTGGCTGGAAAACAAGTTTTTCCACTCAGAACCTAATGACAAGCCGCCATATACAGTGGTTATCCCTCCGCCAAACGTGACGGGGATACTACACATGGGGCATATGTTAAATAATACCCTTCAGGATGTTCTGGTCCGTCGTGCAAGAATGCGCGGATTTAATGCTTGTTGGATTCCGGGAACAGATCACGCTTCAATTGCTACTGAAGCTAAAGTTGTTGCTAAACTGAAGTCTGAAGGAGTCAATAAGTCAGATATTACCCGTGAAGAGTTTTTAACGCACGCATGGGACTGGACCAATAAATATGGTGGTACCATCCTTGAACAGCTTAAAAAGCTGGGATGTTCATGTGATTGGGACAGAACCCGCTTTACAATGGAAGATAAACTATCTCAGCAGGTTATCAGGAGTTTCGTAGACCTTTATAACAAAGGACTTATCTACAGAGGCTACAGAATGGTAAACTGGGATCCGGAAGCGAAAACCAATATTTCTGACGAAGAAGTAATATTTAAAGAACAGAACGGAAAATTATATTTTCTGAAATATAAAATTGAAGGTTCAGAAGAATTCCTTTCAGTAGCGACTACACGTCCTGAAACCATTTTCGGGGATACAGCCGTATGTATCAATCCTAATGATGAAAGATATGCTCACCTGAAAGGTAAAAATGTAATCGTACCGATTGTTGACAGAGTAATCCCAATCATTGAGGATGAATATGTGGATATTGAATTCGGAACCGGAGCTTTGAAAATTACTCCTGCTCACGATATCAATGACTACGAAATCGGACAGAAACATCAGCTGAAAATGATTGATGCGCTGGATGATGACGGAAATCTTAACGAGCATGGTTTACATTATGCAGGGAAAAACAGATTTGACGTAAGAAAGCAGATTGCTAAAGAGCTCGAAGAAAAAGATCTTTTGCTGAAAGCTGAAGATTATGTAAATAAAGTAGGAACTTCTGAAAGAACAGGAGCCGTTATTGAACCAAAAGTTTCAGTACAGTGGTTCCTTAAAATGTCTGAAATTGCTAAGCCTGCTTTGGATGTAGTAATGGATGATGAGGTTAAATTCTACCCTGAAAAATTCAAAAATACCTATAAGCACTGGATGGAAAACATCCGTGACTGGAATATCTCCCGTCAGCTTTGGTGGGGACAGCAGATTCCTGCGTATTACTATGGAGAAGGAGATGAAGATTTTGTTGTGGCAGAAACTACGGAAGAAGCTTTAGAACTGGCAAAACAAAAAACAGGAAATCCGGGGCTGACTGTAGAAAACCTTAGACAGGATGATGATGCATTAGATACATGGTTCTCATCATGGTTATGGCCAATGTCTGTATTTGACGGATTGCTTGATCCTGAAAATAAAGATATCAACTATTATTATCCAACATCTGATTTGGTTACAGGTCCGGATATTATTTTCTTCTGGGTTGCCAGAATGATCATGGCCGGATTGGAATACAGAAAAGAAGTTCCGTTCAAGAATGTTTATTTTACTGGGATTGTAAGAGATAAGCAGAGAAGAAAGATGTCTAAATCTCTTGGGAATTCTCCTGATCCTCTTGAATTAATGGATAAATACGGAGCAGATGGAGTACGTGTAGGTATCCTATTGAGTTCTGCAGCTGGAAACGACCTTCTTTTTGATGAAGACTTAATGCTTCAGGGAAGAAACTTCATGACGAAGATCTGGAATGCATTCCGTCTGATCAATATGTGGAATCATGAAGATAAACCGGCTGTAGCTACAGATAACCAGGCTATTGAATGGTTTGAAAATAAACTGAACAAAACCATTGCTGAAATTAATGATCAGTTTGAGAAATTCAGAATTTCTGATGCCCTGCATTTGATTTATAAATTAATTTGGGATGATTTTTGTGGTTGGTATCTTGAAGCCATCAAACCGAATTACGGAGAAGGAATTTCTAAAGAAGTTTATGATAAAACCATTTATTTCTTTGAAGAACTGATGAAACTTCTTCACCCGTTCATGCCTTTCTTAACAGAAGAATTATGGCAGACGATCTCGGAAAGAAGCATTGATGAGGCTTTGGTGATTGCTCAGCAGAAAGAAGCAGGAGCATTTGATGAGACAATGATCAAAAACTTTGAAACGGCGGCAGAATTAATTTCAGGAGTTAGAAATTACCGTCAGACAAAAGGAATTTCTCCAAGAGAAGCCGCGGAGGTATATACTAACGCTTCTGAATTTGCCAATGAAGCTGTAATAAGAAAACTGGCCAATATTTCTGAAATCCACTTCGGACAGAAAACAGATAAGCCAAGCTTTACATTCCTGGTAGGAGCTACTGAAGTTTCTATTCCTTTAAGTGAAAACTTAGATTTAGGAGAAGAAAAGGCTAAAACCGAAGAAGAAGTGAAATATTTAAAAGGATTCTTAGTTTCCGTAGAAAAGAAGCTTTCCAATGAAAAATTTGTGGCGAATGCTAAACCAGAAGTTGTAGAGGTGGAGCGTCAGAAACAAAAAGATGCTTTGGATAAGATTGCGATCCTTGAAGAGAAACTGAAAAGTTTATAA	MQISEKYNPQETEQKWYNYWLENKFFHSEPNDKPPYTVVIPPPNVTGILHMGHMLNNTLQDVLVRRARMRGFNACWIPGTDHASIATEAKVVAKLKSEGVNKSDITREEFLTHAWDWTNKYGGTILEQLKKLGCSCDWDRTRFTMEDKLSQQVIRSFVDLYNKGLIYRGYRMVNWDPEAKTNISDEEVIFKEQNGKLYFLKYKIEGSEEFLSVATTRPETIFGDTAVCINPNDERYAHLKGKNVIVPIVDRVIPIIEDEYVDIEFGTGALKITPAHDINDYEIGQKHQLKMIDALDDDGNLNEHGLHYAGKNRFDVRKQIAKELEEKDLLLKAEDYVNKVGTSERTGAVIEPKVSVQWFLKMSEIAKPALDVVMDDEVKFYPEKFKNTYKHWMENIRDWNISRQLWWGQQIPAYYYGEGDEDFVVAETTEEALELAKQKTGNPGLTVENLRQDDDALDTWFSSWLWPMSVFDGLLDPENKDINYYYPTSDLVTGPDIIFFWVARMIMAGLEYRKEVPFKNVYFTGIVRDKQRRKMSKSLGNSPDPLELMDKYGADGVRVGILLSSAAGNDLLFDEDLMLQGRNFMTKIWNAFRLINMWNHEDKPAVATDNQAIEWFENKLNKTIAEINDQFEKFRISDALHLIYKLIWDDFCGWYLEAIKPNYGEGISKEVYDKTIYFFEELMKLLHPFMPFLTEELWQTISERSIDEALVIAQQKEAGAFDETMIKNFETAAELISGVRNYRQTKGISPREAAEVYTNASEFANEAVIRKLANISEIHFGQKTDKPSFTFLVGATEVSIPLSENLDLGEEKAKTEEEVKYLKGFLVSVEKKLSNEKFVANAKPEVVEVERQKQKDALDKIAILEEKLKSL				NA	NA	NA	NA	NA
BMS003_04168	636			hypothetical protein	ATGACACACATAGAAAACATAAAAAAACTATTCTCTAAGGACTTTGTAGAAAGTCCGCTGCTGGAAAGTTTTGAAGTAGGGAAGATTTATCTTTCCAGTGGTAAGCTGGTTGCCTGCGATCCATTGATCACCAATGATATGCTTTCTTTCACTACAGATTTTCCTAAAGGAGATTTTTCTGTAATGCTGCATAAAGAAAGAGAAAGCAACTGTGTAGCCTATGCCGAAATCATATTCAATAATTCCGAAATTAAAGAATGGAAAATGGCGACTACAGCAGGACAGGATGTAAAAGACCTTGCTGAAGAAGAAGTTTTTGGATATCCTGTAGAAAGTGGTATGGGATGCTTCATGGATGTTGATACCCAGAACAGTCTCAATGAGCTGGAACAAAAGCTATATCAAAATAAAGGAGGAGATTTTATGGGAATCTATGAAGAATTTTTCCATGATTATTTCTTTGATGAAAAAGGAGCTATAGACCAATATGCTTTCCTGAAACCCGCAAAAGAGCTCCCTGGAACTATATTTGCTTTTGAAACAGGATATGGTGAAGGGTTCTATGCAAGTTATATAGCATACTGCAAAGATCAACAACCGGTGAAAATAATTACTGAATTTATAGAAATAAGTTAA	MTHIENIKKLFSKDFVESPLLESFEVGKIYLSSGKLVACDPLITNDMLSFTTDFPKGDFSVMLHKERESNCVAYAEIIFNNSEIKEWKMATTAGQDVKDLAEEEVFGYPVESGMGCFMDVDTQNSLNELEQKLYQNKGGDFMGIYEEFFHDYFFDEKGAIDQYAFLKPAKELPGTIFAFETGYGEGFYASYIAYCKDQQPVKIITEFIEIS				NA	NA	NA	NA	NA
BMS003_04169	891	rbsK	COG0524	Ribokinase	ATGAATTTGTCATCAGAACAACCCCGGATTATTGTTGTAGGAAGCTCATCTATAGATTTGATTCTAGAAACCGAAAAACTTCCTTTACCTAACGAAACCGTGTTAGCCGTCAAGTCAGATAACTATTTTGGAGGGAAAGGAGCTAATCAGGCAGTAGGTACGGCCAGATTGGGTGCAAGTGTATACTTCATAGGATGTGTAGGTATGGATCCTCTCGGACAACAAATTATGAGAAATCTGGTAAGTGAAAATGTAAATGTAGGTTTTGTTCATGAGACAGATAAAGATGCTACAGGAACAGCTTATGTAACAACTTCTCACGGGAATGCGGCCATTGTTGTCGTTCCGGCAGCCAATAAATACCTTAGCAAACCTCATATAGACGAGGCGGAAAAGTATTTTCATACTACAGATCTTGTGCTGATACAGCTTGAAATTTCTATGGAGGTAGTGGAGCATACTGTTAAGAAAGCTAAGCAGTACGGAAAGAAAGTAGGGTTGTATGCTTCTCCGGCCATGAGGGTGAAAGAAGAAATTTTAGAAATGGTTGATTTTATTGTGGCTAAAAGCAATGAATTATACGTTATCTTCGGAGAGGAAAAAAGAGAAGATGTCCTTAAGAAATATTTTAACAAGGTTTTTGTAAGAGATGATACCAATTCAACCATTTACTTTGATGGTACGGAGATGAAGTATTATAGAAATGATAAAGACGAGAAGGTTTATAAAATGGGAATGGGAGATGCGTTTACATCAGGCTTTGCCATTGCGCTTTGCCATGGAAATTCTATTGAGGAATGTGTGAAATTCGGAAATGAGGTTTCATCAAGAGTTTCAGGAGGTAAAGGTTCTCAGACAGGACTTCCTAGAATCTCGGATTTCTTTTCCTAA	MNLSSEQPRIIVVGSSSIDLILETEKLPLPNETVLAVKSDNYFGGKGANQAVGTARLGASVYFIGCVGMDPLGQQIMRNLVSENVNVGFVHETDKDATGTAYVTTSHGNAAIVVVPAANKYLSKPHIDEAEKYFHTTDLVLIQLEISMEVVEHTVKKAKQYGKKVGLYASPAMRVKEEILEMVDFIVAKSNELYVIFGEEKREDVLKKYFNKVFVRDDTNSTIYFDGTEMKYYRNDKDEKVYKMGMGDAFTSGFAIALCHGNSIEECVKFGNEVSSRVSGGKGSQTGLPRISDFFS	PGPT0017405_4154	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
BMS003_04170	882			hypothetical protein	ATGTCCACTTTTATAGTGGATTTTTTCTTTTATACTATGGAAAAACTAATATTGACCACAGAAGACCATGCTTCACTCGTTATCCATCTTTTTAAACCGGAAAAAGATAATGGAAAATTACTGCTGATCAACTCAGCAACAGGAGTAAAACAGCAGGTCTATTTTTCCTTTGCCAGCTATTTTTCTGAACAAGGCTTTACAGTTATTACTTATGACTACAGGGGGATAGGTCTGTCCAAACCAAAAAATATGAGAGGGTTTCATGGCTCCATGAGATTATGGGGTTCAAAAGATTATAAAGCTTTAACCCAATATATTAAAACATATTTTAAAGATTACAAAAAATACTGTTTAGGCCACTCTGTAGGAGCTCTGATTCTGGGAATGAATGAAGATTCCGGTATTTTTGAAGAATTTGTTTTTGTAGGAACACAAAATGCCTTTGTGGGAAACCTTAAAGGAATGACGAAAATTGAAGCTTATTTAGGTTTTGGAATTGCCCAGCCGTTAACCACTTCATTATTAGGATATTTTCCTGCACATTGGTTTGGTTTGGGAGAAAGTCTTCCGAAAAATTGCGCATATGACTGGAGAACCTTAATTTTAAACAAGAAATCAACCAACAGGCTGTTGGAAAAAATTGAGAATTTCTCTGAAAATTTAACGCAGAAAGTATTTGTAATACGGGCGGAAGATGATATCTGGCTTACAGAAAAAGGAGTACTAAGTTTATTAAATGATACCTATCCTAATCTTAAACCAACTTACAGATTAGTGACTGTTTCAGAATCTGATAAAAATGAAATAGGACACATCAATTTTTTTAGAAGTTACAACAGCAGACTCTGGGATATTATTTTAAATGAACTGATAGATAAATGA	MSTFIVDFFFYTMEKLILTTEDHASLVIHLFKPEKDNGKLLLINSATGVKQQVYFSFASYFSEQGFTVITYDYRGIGLSKPKNMRGFHGSMRLWGSKDYKALTQYIKTYFKDYKKYCLGHSVGALILGMNEDSGIFEEFVFVGTQNAFVGNLKGMTKIEAYLGFGIAQPLTTSLLGYFPAHWFGLGESLPKNCAYDWRTLILNKKSTNRLLEKIENFSENLTQKVFVIRAEDDIWLTEKGVLSLLNDTYPNLKPTYRLVTVSESDKNEIGHINFFRSYNSRLWDIILNELIDK				NA	NA	NA	NA	NA
BMS003_04171	645	yedJ	COG1418	putative protein YedJ	ATGAAAAGTACGATTGAAAAGACGGTAGCATTTGTAAAAGAAAAATTAGAAGGAGCAGAAGCAGGGCACGACTGGTTTCATATTGAAAGAGTCTGGAAACTGGCGGCTCAGATAGCAGAAACGGAAGATTGTAACAAAGAAGTTGTAGAGCTGTCTGCCCTCCTTCATGACATTGCAGATCCGAAATTCCATAACGGGGATGAAACGATTGCCCCCAAAATATCCAGAACATTTCTTGAAGAGCAGAACGTTTCCGAGGAAACCATCCGGAAAGTTTTATTTGTGATTGAAAATATTTCTTTTAAAAACAGAGATCAGGCTCCGGAAAATCCACCTGTTGAACTTCAGATTGTACAGGATGCAGACCGTATAGATGCAATAGGAGCTATTGGTATTGCCAGAACATTCAACTTTGGAGGTTTCAAAAATAATCTGATGTATCACCCGGATATAAAACCCAAATTGGGAATGTCAAAAGAAGAGTATAAAAAATCTGATGGAACCACCATTAATCATTTCTATGAAAAGCTATTGCTTCTGAAAGATATGATGAATACCTCAAAAGGAAAAGAAATGGCCGAAGAAAGACACAATTATATGTTGAATTTCCTCGACCAGTTTTATAAAGAATGGAATGTAGATTAG	MKSTIEKTVAFVKEKLEGAEAGHDWFHIERVWKLAAQIAETEDCNKEVVELSALLHDIADPKFHNGDETIAPKISRTFLEEQNVSEETIRKVLFVIENISFKNRDQAPENPPVELQIVQDADRIDAIGAIGIARTFNFGGFKNNLMYHPDIKPKLGMSKEEYKKSDGTTINHFYEKLLLLKDMMNTSKGKEMAEERHNYMLNFLDQFYKEWNVD				NA	NA	NA	NA	NA
BMS003_04172	594			hypothetical protein	ATGGTACTCATTATTTTTATAATATTCCTGGCTTCTGTTCTTTCTTTGGTCCTGTTTAAGATTAAATCAGGAAGTATGGCAAAGTGGGCAAAGCTGTTTCGTATTGTAACTCTTATCTTTTCTGTTTCCGTTTTTACATACTGGTTTATCAAGAAAAATGCAGTGGCATTTGTGGATAATTCTGTGGGATTGCAGGTGATTAATAAACTTCCTCAGACTCTTGATTTTTATTTAATCAATGTTAATAAAACAGATAAAAGTACAATCCTTAATCCCAAACATATCGGGAAAATACGTCCGGAGTATTACAGAATAGAATATCTTAAAATGGATAAATCTGATGAATATTGGATCGCAGGGTATCTTGGAAAGAAAAACCTGGTATACTTTTCCCAGCATTCTGTACCTAATAAAAATATTGATCAGATTGTAGAAGTTCAGAACTATATCAACCAAAGTATGAAGCTTTCTGAAGCTGCAAAAAAACAGGTAGATGCTTATAATTATGAGAACACGAAGCTCGGCATCTGGATTACACTGGATTTTCTTCTGCTGTTTCTCAATCTGGTATTGCTTCTGCGAAAAAATAAATAA	MVLIIFIIFLASVLSLVLFKIKSGSMAKWAKLFRIVTLIFSVSVFTYWFIKKNAVAFVDNSVGLQVINKLPQTLDFYLINVNKTDKSTILNPKHIGKIRPEYYRIEYLKMDKSDEYWIAGYLGKKNLVYFSQHSVPNKNIDQIVEVQNYINQSMKLSEAAKKQVDAYNYENTKLGIWITLDFLLLFLNLVLLLRKNK				NA	NA	NA	NA	NA
BMS003_04173	231			hypothetical protein	ATGGAAAAGGAAATTTGTACTATCAGTATTGCCAATAACTGGCTTGGCGATGAATATATTTTTTATGACAATGATACCATAAAGCGAGTATATGACAACCACAGTCTGAATTCCAATAAAACGGAATGGATTGCCCCCCAAAGTATTAATAAACATACTAAAGACAAGCTCATCAAATATTGTCCTGAAGAATTTAAAGAACAGGTCATGTATATTCTTGATTATCCTTAA	MEKEICTISIANNWLGDEYIFYDNDTIKRVYDNHSLNSNKTEWIAPQSINKHTKDKLIKYCPEEFKEQVMYILDYP				NA	NA	NA	NA	NA
BMS003_04174	891			hypothetical protein	ATGAAATTCGGACAAGTAGAAGACCCTTCAAGAATAGATTTCACACTACCCAAAGATCACCCCAGAACTAAAGAAATACTTACGGTTAATAAAAAAGGGCTGGAAAATATTTCCATCGGATGTGCAAAATGGAACAAAACTGATCTTAAAGGATTCTATCCTAAAGGAACTAAGGATGAACTGACCTATTATGCCACTCAGTTTAATTCTATAGAACTGAATGCTACGTTCTATGGAATGCCTACTTCTGATCAGGTTGCTATATGGAAAGAAAAGACTCCGGCAGATTTTAAATTTTTTCCAAAGATCACCAATACGGTTTCCCATTTCAGAAGATTGATCGATGTTACGGATCCGGTTACGCAGTTTGCATCTTCCGTCATCAATTTTGATGAAAAACTGGGAATGGCTTTTCTACAGCTTCATGACAATTTTAAGCCTAAAGATTATGACAGACTCGAAAAATTTGTAAAAGAATGGCCTAAAGAAGTTCCGCTGGCCATTGAACTCCGAAACACGGAATGGTTTACTGATGAGGAAATCCTGAATACAACCTGTGAGCTTTTCGAAGCACATAATATTACCAACATTATTGTAGATACTGCAGGCAGAAGGGATATGCTTCATATGCGTCTTACCACTCCCAATGCATTTATCCGCTATGTAGGCGCCAATGCAGAGAGTGACTATGAAAGATTGGATGACTGGTTGAAACATCTTACCAAATGGAAGAAAGAAGGTCTTCAGAATCTTTACTTCTTTGTGCACCAGAATATTGAAAAAGCCTCTCCTCTATTATCGGCTTATTTCATCAAAAAAATAAATGAGGAATGGAAAACCAATATCCATATTCCACAAATGGCTGCAGAGAGTACTGGAACACTTTTTTAA	MKFGQVEDPSRIDFTLPKDHPRTKEILTVNKKGLENISIGCAKWNKTDLKGFYPKGTKDELTYYATQFNSIELNATFYGMPTSDQVAIWKEKTPADFKFFPKITNTVSHFRRLIDVTDPVTQFASSVINFDEKLGMAFLQLHDNFKPKDYDRLEKFVKEWPKEVPLAIELRNTEWFTDEEILNTTCELFEAHNITNIIVDTAGRRDMLHMRLTTPNAFIRYVGANAESDYERLDDWLKHLTKWKKEGLQNLYFFVHQNIEKASPLLSAYFIKKINEEWKTNIHIPQMAAESTGTLF				NA	NA	NA	NA	NA
BMS003_04175	1539			hypothetical protein	ATGAGCCTGTTTTTTTCGTTGCTTACAAATTTCATGCATGCACAGACAGACAGTACAGAAGTAGCAAGTATATACGGGTTTTACTCCTATTCAAGCTCTCTTATGAATGCTTCTTCAGCTTCCGAACTTACAATACAGGGAAATGCCTCACATACCTCTACCGGGGTACAGCTTACTCCTGCAAGCTCAGGGCAGTTTGGAGGGTTATTTATCAATGGAAGAACATTCACTTCGGTTAATGGTCTTCATGTTGAATTTGAGTATGATATGAAAAACGGAAGTCCTTTCAGTGGCACTTATGGAGATGGTTTATCTTTTTTCCTATATGACGGAGCTGTAACAAACCCTGTAATCGGAGCCCCCGGAGCGGGTCTCGGATATTCATACAACAGGACAAAGGATACCTATGCAAGCCAGAGAAAAGCCGGTTTATCATCAGCTTATCTTGGTATTGCCCTTGATGAATTTGGGAATTTCAAATCAAAGCGTTTTCAAGGTGAATCAAGAGTAAACGGAATTGCAGGAGTAACCTGGTCACAACCTGCAAGTCATGTTACCCTAAGAGGAGCAAGAGGAGCTGCTATAAATACAACGGGGTTAGGAGACGGTTTTACAGGATACCCTGTCCTTATTACACGTTCCACTTTAAGCAATTCAGGAACCGTGGGCAGGGTACTTCAAACAGACAGAAGCTACCTTACTACTTCCAACACTCTTTCTACGGTGTTTGATCTCAGAAACAATGCCGGAGAGTTCAGAAAAGTCTATCTGGATCTGATTCCCCATTTTACAAGTGCTACCACTACAGATGGATTTGATATAAAAGTAGACATCCAGACAACACAAAACGGAACACCTGTTAATGTGATTAATTATTATCATTATAAGACTTCTGTACCTTATATGGAAAATGCTAATCCTCAGATAACCGACTTCAATACATCAGATGTAGAAGGACCTGCAACTCCCCAAACGCTTAATGCCGCAACACCTGCATTTCTTAAATTAGGTTTTGCAGCCTCTACAGGAGCTGCATTCCAGCAACATATTATCCGAAATGTAAAACTAACGCTTCCTTATTCAGCAGTTACCAATAATGATGTAGCTTCAACGTGTAAGTTTCAGGCTGTTAATATCCCTGTTTTCAATAATGATATTGCATACAAAGGACCAATAAGCATTACAACTCCACCCACCGGAAGTAGTGCCAATATTGATTATTCAACATTCAGCTTTACAAAGACCAGTGATACGGATCTCACATTGTACCGAAAAAAAGTAACCCCTGAAGGTACCTGGACATATAACAAATCTACAGGTATAGTCACCTTCATTCCTTCAAGCGGATTTACAGGAACTGCTACAATGACGTATAGCATAAAAGGAAAAACGGTAAAGGATTCAAATGGTAAAATTATTGAACCTTATGGTGATACTGCTTATCGGTCTGTTCCCGCTACAATTACTGTTAACTTAAATACTACAGGCTGTGTCTATCCTGTCATTTCAAATAGAATGATCACACAGGGTGTAAAATAA	MSLFFSLLTNFMHAQTDSTEVASIYGFYSYSSSLMNASSASELTIQGNASHTSTGVQLTPASSGQFGGLFINGRTFTSVNGLHVEFEYDMKNGSPFSGTYGDGLSFFLYDGAVTNPVIGAPGAGLGYSYNRTKDTYASQRKAGLSSAYLGIALDEFGNFKSKRFQGESRVNGIAGVTWSQPASHVTLRGARGAAINTTGLGDGFTGYPVLITRSTLSNSGTVGRVLQTDRSYLTTSNTLSTVFDLRNNAGEFRKVYLDLIPHFTSATTTDGFDIKVDIQTTQNGTPVNVINYYHYKTSVPYMENANPQITDFNTSDVEGPATPQTLNAATPAFLKLGFAASTGAAFQQHIIRNVKLTLPYSAVTNNDVASTCKFQAVNIPVFNNDIAYKGPISITTPPTGSSANIDYSTFSFTKTSDTDLTLYRKKVTPEGTWTYNKSTGIVTFIPSSGFTGTATMTYSIKGKTVKDSNGKIIEPYGDTAYRSVPATITVNLNTTGCVYPVISNRMITQGVK				NA	NA	NA	NA	NA
BMS003_04176	552			hypothetical protein	ATGCTGGTAATGCTTAGCATTACTTTTTATGCACAGGTTGGAATCAACACAAGCTCTCCTGATCAGAGTGCAGCCTTAGATGTTACAAGTACTTCCAAAGGAATCCTTCTGCCAAGAATCAGCAATCTGGCTTCTATTACTAACCCAGCCACAGCACTCGTTATTTTTGATACCAATAAAAAATGTATCAGTCAAAATGTAGGAACCCCCGCAACTCCGGATTGGGTATGCCTTTCTCCGTATGTAAATAAATTTTTCTACATGCCAAGTGTAGTTTTTGACACAACTACAATCGCAACCGGCCAAACGAAAGATCTGTACACATTGTATAAAAATCAGTTTTCAAATATCCCGGCAAATGCAAGAAGTACATCTTCTCCTGCTTCAATACCGTTTTTTCCCAATGCAGCAGATTTATACTATTATGTGACAGGTTATGATACCGCTGTTTTTAAGATAAACAGCATCAGCAGTACAGGTGTACTGAATTATGATGTTTTATCAAATGCTACTCCGGCATCTTTCATTAACATCGTATTTGTTGTAAAATAA	MLVMLSITFYAQVGINTSSPDQSAALDVTSTSKGILLPRISNLASITNPATALVIFDTNKKCISQNVGTPATPDWVCLSPYVNKFFYMPSVVFDTTTIATGQTKDLYTLYKNQFSNIPANARSTSSPASIPFFPNAADLYYYVTGYDTAVFKINSISSTGVLNYDVLSNATPASFINIVFVVK				NA	NA	NA	NA	NA
BMS003_04177	162			hypothetical protein	ATGAAAAATCTAAAAAAATTACAAAACAGTCAATTGAAAAACATTTCCGGAGGAGTTAATCTTCCTGAACAGGATTTCTGTATGTATTATTGCAATGGAATAATTGTATGTGCTACCTGCAGTGATGATTTCAAATGCCCCGACGCTAGCAGTGACATGTAA	MKNLKKLQNSQLKNISGGVNLPEQDFCMYYCNGIIVCATCSDDFKCPDASSDM				NA	NA	NA	NA	NA
BMS003_04178	147			hypothetical protein	ATGATCTTTATAAAATTAAAAATTGAAATCTTATATAATAATAGATTTTTACAGATTTATGCTTATTTATTTTTGCTTAAATATTTGATTATTAGTGAGATGAATTCTATTTTTAATCATGCGTTATCCGAAAAGCTTATAGAGTAG	MIFIKLKIEILYNNRFLQIYAYLFLLKYLIISEMNSIFNHALSEKLIE				NA	NA	NA	NA	NA
BMS003_04179	951	vldW		Validamycin A dioxygenase	ATGGATAAAATACCTAGTGTAGACCTGCGTGATTTCCTTTCGGGCAACCCGGAACGCAAACAGAAATTTGTAAATGAAATCGGAAAAGCTTATGAAGAAATTGGTTTTGTAGCCTTAAAAGGCCACTTTCTTGATGACAACCTAGTGGATGATTTGTATGAAGAGGTAAAAAACTTTTTTGAGCAGCCAGTGGAAATGAAACAGAAGTATGAGATTCCAGGAATTGGTGGCCAGAGAGGTTATGTAGGATTTGGTAAAGAAACTGCTAAAGGTTTCAAAAAAGGAGACTTAAAAGAATTTTGGCATTTTGGACAGTATCTGTCTGATGATTCAAAATACAGAACTGAGTATCCGGACAATGTAATCGTTGACGAACTTCCAAAGTTCAACGAAGTTGGTAAAGAGGCATTCCAAATGCTTGAAAAAACAGGACAATATGTCTTAAGAGCCTTAGCATTACACCTTGGTTTAGATGAATTTTATTTTGATGACAAAATCGCAGAAGGAAATTCTATTCTAAGACCCATTCACTATCCGCCCATCACTGAAGAACCGGATGATGCGGTAAGAGCTGCAGCACATGGAGACATCAACCTTATTACTCTTTTAATGGGAGCTCAGGGTAAAGGTCTTCAGGTTCAGAACCACAACGGAGAATGGATTGATGCTATTGCAGAGCCAGATGAGTTGATGATCAATGTTGGAGATATGCTTTCAAGACATACCAACAACAAATTGAAATCTACTATCCACAGAGTGGTAAACCCACCAAGAGAAATGTGGAGTACTTCAAGATATTCAATTCCTTTCTTTATGCATCCTATAAGTGCAATGTCATTAAACGCACTTGATAATTGTGTAGATGAAAACAATCCAAAACTATACGAAGATACTACTGCCGGAGAATTCCTCCACGAAAGGTTAATCGAACTGGGATTGATTAAAAAATAA	MDKIPSVDLRDFLSGNPERKQKFVNEIGKAYEEIGFVALKGHFLDDNLVDDLYEEVKNFFEQPVEMKQKYEIPGIGGQRGYVGFGKETAKGFKKGDLKEFWHFGQYLSDDSKYRTEYPDNVIVDELPKFNEVGKEAFQMLEKTGQYVLRALALHLGLDEFYFDDKIAEGNSILRPIHYPPITEEPDDAVRAAAHGDINLITLLMGAQGKGLQVQNHNGEWIDAIAEPDELMINVGDMLSRHTNNKLKSTIHRVVNPPREMWSTSRYSIPFFMHPISAMSLNALDNCVDENNPKLYEDTTAGEFLHERLIELGLIKK				NA	NA	NA	NA	NA
BMS003_04180	1671	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGAAAAAATATTCTTCTAAGAGAAGTATCCAAATACTTGCACATCTTCTTCAGCAGTACGGAATTACAGATATCGTAATTTCTCCGGGGTCAAGAAATGCTCCTTTGGCCATTCATTTTTCAGAGGTAGATGGTTTCAACTGTTACAGCATTGTAGACGAGAGAAGTGCAGCTTTCGTGGCAATGGGAATGGCAAAAAGCGAGAAAAAACCGGTAGCGATTACCTGTACAAGCGGGTCAGCGGTGGTTAACTATTATCCGGCGGTTACAGAAGCATTTTATCAGAATATTCCGCTTCTGGTACTGACGGCAGACCGACCTACTGATTTTGTGGATATATTCGATGGACAGACAATAAGGCAGAAGGATGTTTTTCATCAGCATTCTTATGGGGACTTCCAGCTTTTGGAAGACAGTAAGGAGAATGCAGAAGATATTAATTTCGATATTATTAAAAAAGCAATTGAGCTTTGCTTTGAGAAGCAGGGACCGGTACATATCAATATTCCTCTGGAAGAACCTTTGTATGAACTTGTTTCAGAATTACCCACTTTTCCTACTGTTGAAAAAACAATAAAGCATAAAGAGTATGAAATTCCCTCCAATCTGATTGCAGAATGGCATACTTCACAAAGAATTATGCTGTTGGTAGGAACACGAGATTACAGCCCGGAATTGGAAAATCAGTTGACTCAATTGGTGAAAAACCATTCTGTAGTGGTCTTAAGTGAAGCCAATTCAAACTTACATCATGAGAAGTTCTTTAGACATATAGACCGTTATATTTTTAATTTTACTGAAGAGGATTATAAGACATATGCCCCTGATCTGTTGATTACAGTAGGACAGAATGTAGTTTCCAAAAAGGTAAAGCAATTTCTGAGAAGTGCCCGCCCGAAACAGCACTGGCATCTGGATGAAGTGTGGCAGCCTGATACTTATTTCTCGCTCACAGAAAAGGTAGAGGTAAAACCGGAGATTTTCTTCTCAAAACTGTTGAAATTTGTCAATCTGGAGCCTAGAGCTTATTTTAATCTTTGGGATGTTTTAAGGGATAAAAAAGATGCCAAACACGAGCAGTTTCTGAATACTATTGAATTCTCAGATTTTTATTTCTTTAATAAGGCTTCACAAACTATTCCGGAAAACTATAATATTCATTTCAGTAACTCTTCGGGGATCAGATATGCACAGCTTTTTGATTTCGGAAAGAGAAAAATGTATTGCAACAGAGGAACTAGTGGTATTGATGGGTCTACTTCTACAGCAATGGGATTTGCTATCAAAAATGAAAACCCTACTTTATTGATAACAGGAGACTTAAGTTTCTTTTATGATATCAATGGACTTTGGAATCAGTATATTCCGCCATTTGTAAGAATTATGATCTTTAATAACGGCGAGGGAAATATCTTTAAAATCATTCCGGGGCCTGGTAATGCCAATCCGAATACACTGGATGAATTTATTGCGACAAAACACCGTAAAAATGCAGAATCCCTGGCAAAACATTTCGGATTCTCCTACATTAAAGTAGAGGATGAGATTACGCTGGACAGAGTTCTTGAAAATTTCTTTAAACCTGATGCAAAGCCAAAAATCCTGGAAGTAAATACTTACGGGAAAAATAGCGCAGATGTACTGAAGTCGTATTTTGAGTTTATGAAATAA	MKKYSSKRSIQILAHLLQQYGITDIVISPGSRNAPLAIHFSEVDGFNCYSIVDERSAAFVAMGMAKSEKKPVAITCTSGSAVVNYYPAVTEAFYQNIPLLVLTADRPTDFVDIFDGQTIRQKDVFHQHSYGDFQLLEDSKENAEDINFDIIKKAIELCFEKQGPVHINIPLEEPLYELVSELPTFPTVEKTIKHKEYEIPSNLIAEWHTSQRIMLLVGTRDYSPELENQLTQLVKNHSVVVLSEANSNLHHEKFFRHIDRYIFNFTEEDYKTYAPDLLITVGQNVVSKKVKQFLRSARPKQHWHLDEVWQPDTYFSLTEKVEVKPEIFFSKLLKFVNLEPRAYFNLWDVLRDKKDAKHEQFLNTIEFSDFYFFNKASQTIPENYNIHFSNSSGIRYAQLFDFGKRKMYCNRGTSGIDGSTSTAMGFAIKNENPTLLITGDLSFFYDINGLWNQYIPPFVRIMIFNNGEGNIFKIIPGPGNANPNTLDEFIATKHRKNAESLAKHFGFSYIKVEDEITLDRVLENFFKPDAKPKILEVNTYGKNSADVLKSYFEFMK	PGPT0009365_1588	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
BMS003_04181	627			hypothetical protein	ATGTCCCAATTCATTGAAAGCATTAAAGTAGAAGATCAGGAGGTTTTTCTATTGGATCTACATCAGAAACGTGTCAATCAGACATTTTCCCATTTCGGAAAAGAAGACTCTATTGATCTGGCCAAGATCTATAAAAACCTGCAGCATGATGAAGATGGTCTTTTCAAACTGAGAATTGCCTATGATCTCGACAAAAGAATCAAAACACAGATGATTCCTTATGCAATTCCTGAAATACAGGATTTCCTGCTGGTAGAAAACAACAGCTTTGATTATTCATTCAAATTCGAAGATCGTAAAGAACTGGATAAAATGAAGATGAAAGCGAAAGCTGAAGAAATTATTATCGTTAAAAATAATCATATCACTGATACTTCTTTCTCCAACCTCTTGTTTCTAAAAGGCAAAGATTGGTTTACCCCTTCCACCTATCTGCTGAACGGAGTCCAGAGGCAGCATCTTTTAAAGCATAAAAAGATCAAAGAAACGGAAATCACTTTACAGAACATAAAGCAATTCACCCATTTCCAGATCATTAATGCATTGAATGATTTCGATGATATGTTTATCTACCCTATCGACAGAATTATCAATCTGCCCGGGAATGAAGAATATCTTGACCTTTAG	MSQFIESIKVEDQEVFLLDLHQKRVNQTFSHFGKEDSIDLAKIYKNLQHDEDGLFKLRIAYDLDKRIKTQMIPYAIPEIQDFLLVENNSFDYSFKFEDRKELDKMKMKAKAEEIIIVKNNHITDTSFSNLLFLKGKDWFTPSTYLLNGVQRQHLLKHKKIKETEITLQNIKQFTHFQIINALNDFDDMFIYPIDRIINLPGNEEYLDL	PGPT0008020_2184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
BMS003_04182	945	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGGATGAGCTTTCTCTTCAGAAGGTTCCCTATTTTTTTGTCATCGACTTTCTCTCGGAGAATGTTGAAATATACCCGAAAAATGAAATTAAAAAAGAAGGCTTACTTATTGATTTTCAGACATTTTCAAACACAACAAAACCACAGGCATTAAACAAAAAAATACAATGGAAATCATATCCTGAAACGTTAGAAAGCTTTAAGATCGGCTTTGATAAAGTTCAGAAAAATATCCGCTTAGGAAATTCTTATTTAGTAAACTATACCAGAAAAACAAAGATAGAGACTAATTTAACCCTTGAAGAAATTTTTTATCACTCAAATGCGAAGTATAAAGTATTTTATAAAGATTTTTTCGTATTTTTTTCTCCTGAAACTTTTGTAAAGATTATTGACGGAAAAATTTTCACCCATCCCATGAAAGGAACAATTGATGCTTCTATCGAAAATGCAGCAGAAATACTGAAGAGTGACAGAAAGGAAAAGGCAGAACATTATACCGTGGTAGACCTTCTGCGAAATGATCTGAGCATAGTAGCAGATGATGTAAAGGTAGACCAGTTTCAGCATATTGATTTCATCAAAACCCAACAGAAGGATCTGTACGCAATGAGTTCTGAGATTTCAGGAACAATAAAACCTGAATTTGACGGAAAAATAGGAAGTATTATGCAGAAACTGCTTCCCGCAGGATCTATATTAGGAGCTCCCAAACCTAAAACACTGGAAATCATTCTGGATGCGGAAGGATATGACAGAGGATATTACACAGGAGTCTGCGGCTGGTTTGACGGCAAGAATGTAGACAGCTGCGTAATGATACGCTTTATTGAAAAAAATGGAGAACAACTTTATTTCAAAAGCGGAGGCGGTATAACGCACATGAGTAAATTAGAAGACGAGTATCAGGAAATGAAAAATAAAATCTATGTCCCAATTCATTGA	MDELSLQKVPYFFVIDFLSENVEIYPKNEIKKEGLLIDFQTFSNTTKPQALNKKIQWKSYPETLESFKIGFDKVQKNIRLGNSYLVNYTRKTKIETNLTLEEIFYHSNAKYKVFYKDFFVFFSPETFVKIIDGKIFTHPMKGTIDASIENAAEILKSDRKEKAEHYTVVDLLRNDLSIVADDVKVDQFQHIDFIKTQQKDLYAMSSEISGTIKPEFDGKIGSIMQKLLPAGSILGAPKPKTLEIILDAEGYDRGYYTGVCGWFDGKNVDSCVMIRFIEKNGEQLYFKSGGGITHMSKLEDEYQEMKNKIYVPIH	PGPT0008005_2575	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
BMS003_04183	726			hypothetical protein	ATGATGCAGAACAAATATCCTCAGAAACCGGGACTAGATTTTATATTGAAGCAGGCATTTTTTTATTGGAATAAAACCCTTGTTTTTCAGTTGATGTTTTCCATTTTTTACTTTGGAATTTTTCTGACGGTGTTTTTTGCCGCAGATCTGAAATATAATATTTTGAGCCAGTACATGGAAACCAGCAAGTATCTTAAAGATGGGATGCAGGCCTATGTCACACAATATACTAAAATGGTTTCCACTCCTGAATTTCAGAGTTTTTCTCTGATGATTGTGGGGACTATGATTTTTCTTTATCCTCTCAATATAGGGTTCTATCAGATTTACAGAAAAATTGATCTTAAGGAAAAGCTGGAGCTGGGAGATTTATTGGTGGGATACAATGGGCTTAACTTTTTTAAGTACATAGGATATTATATTTTCTGGTTTTTCATCTATATCAACGCTGCCCAGACTATTATCCTTGGAATTGTTTGGGTGATAGCAACAGTGTTTGTGGCACCTTTGATGTTCTTTACCAATAAAAGGATTTTTGAATCAATTTCTCTTAATTTTAAAGCACTCAGAATGTATTTTCTGGAAATAACGGTATGTGTAATCGTTGCTTTTATATTTAAGTATTTAGGCTTTGCCCTGTTTTTTATTGGAGGATTGTTTACTTTTCCTTTTTGGAATGCCATGATTTACTCACTTTATAAAACAGTTTTTTCGGAAAAAGGTTAA	MMQNKYPQKPGLDFILKQAFFYWNKTLVFQLMFSIFYFGIFLTVFFAADLKYNILSQYMETSKYLKDGMQAYVTQYTKMVSTPEFQSFSLMIVGTMIFLYPLNIGFYQIYRKIDLKEKLELGDLLVGYNGLNFFKYIGYYIFWFFIYINAAQTIILGIVWVIATVFVAPLMFFTNKRIFESISLNFKALRMYFLEITVCVIVAFIFKYLGFALFFIGGLFTFPFWNAMIYSLYKTVFSEKG				NA	NA	NA	NA	NA
BMS003_04184	729			hypothetical protein	ATGTCTGAATTTAACGAATTTGATCAGCAAGGCTCTGTTCCTAACAGAGATACGGGGTCAATAATTTCTCATGCCTTTGAAATGTACAAAGGTGTTTTCGGTTACGGTATCGTAGCAATGGTTATTTACCTGATCGGAGGGTCTGTTATTCAGATGCTTACGGGGTTTGATTCTGCTTCTGTGGTAGAAGAGATGAAATCTTCAGGAGGTAATTTTAATTATTGGAGTGCTCCGGGACTTCCTTTGTATATGGGAGCTTCCAGCCTTTTTGGTCTATTATTGTCTCCTTTGTATGTAGGATTGATCTACATGGTGAATAAATACAATACGAAAAACCCTATTGAGTTTTCTGATCTTTTCATCGGTTACCGTCAGAATTTTGTAAACATTTTAATTTACAGTCTTCTAGCCTGGGTTATTTCCTCAATTGCTCTGGCATTGTGCGTTTTACCTATCATTTTTGTCTATCCTTTCCTTTTAATCGGATATCCGATTCTGTTGTTTGAAAACGCTTCGGCTACGGATGCTTTAGGAAAGTCATTCAATATTGCTAAAGAGAATTACGGAACTTTCTTATTGACGGGATTTTTAGGCTTTCTGATTTCTATTGCGGGAATTATTCTTTGCGGAATAGGGATTATCCTGACGGCTCCGTTTATTATGATTGTAATGTACTCTACCTATTGTGCTTTCTTAGGAAAACCAAGACAAATTATGTACAGTAAATAA	MSEFNEFDQQGSVPNRDTGSIISHAFEMYKGVFGYGIVAMVIYLIGGSVIQMLTGFDSASVVEEMKSSGGNFNYWSAPGLPLYMGASSLFGLLLSPLYVGLIYMVNKYNTKNPIEFSDLFIGYRQNFVNILIYSLLAWVISSIALALCVLPIIFVYPFLLIGYPILLFENASATDALGKSFNIAKENYGTFLLTGFLGFLISIAGIILCGIGIILTAPFIMIVMYSTYCAFLGKPRQIMYSK				NA	NA	NA	NA	NA
BMS003_04185	1077		COG0628	Putative transport protein	ATGAATAAGGACAAACAAATAAGCAGTGTTGCGATAAAGCAAATGTCATTACTGGCCATTATTCTGGTTCTGGCGGGGCTCATCTGTTTTAATCTGGCATTGTTTATTCCGTCAGTTCTGGGAGCAATTACCATTTATGTAGTTTGCAGGAAATATAATTTTTATCTGCAGGAAGAAAAAAAATGGAAACCCTCACTGGCGGCTTTTGCTCTAATGTTTGCAAGTCTTATTGTTCTTATTCTTCCTATCTATTTTATTGCCGATCTTATTATTGATAAACTGGGAAATGCTCAAGCTTACATGGCCAAGTTCAATGTTTTCCTGGACAAAATTCATTCTTATATCTTCTCAAAAACAGGATTTGATATTCTGAGTAAGGAGAATATGACCAAACTGAAAGATAATGTAGGGAAGGTTTCTACTTCAGCACTTAGTGGTACATTCAATACGCTTACAGTAGTGATGTCCATGTATTTTATTCTTTATTTTATGCTGGAAAGGCCAAGATTTTTTGAAAAGATTCTGACATCTTCAGCACCTTTGAAAAGATCCAATATTTCTTTGATTGGCGATAAAATGAGAAAGCTGATTATAGCAAATGCCATCGGGATTCCGGTTGTAGCGGTAGGCCAGGGAATAGTTGCTCTTATCGGTTATCTGATTTTCGGGGCTCCGGGAGCGGTATTACTTTTTGCATTGACCGCTGCTGCTTCAGTGATTCCTGTTGTAGGAACTGCTATAGTGTATGTTCCGGTATGTATCTTTATGATTGCAGAAGGAAATACGGGACAGGGACTGGGGCTGGCTATCTACTGTGTCGTAGTGGTAGGTCTTACAGATAACCTGCTTCGCTTTACCCTTTTGAAGAAGCTGGAAAATATTCATCCATTGAATACCGTGTTCGGAATTATCATGGGAATGAATCTGTTTGGTTTTATGGGACTTATTTTCGGTCCTATCCTGATCTCACTGACGCTTCTTTTGATACAGGTATACAGAAATGAGTTTTCGGATGACGAAACCCCTCCGGATCTTAAGCTTCCAGGACAGGATGATATTAAGGAAAAATTAATTTAA	MNKDKQISSVAIKQMSLLAIILVLAGLICFNLALFIPSVLGAITIYVVCRKYNFYLQEEKKWKPSLAAFALMFASLIVLILPIYFIADLIIDKLGNAQAYMAKFNVFLDKIHSYIFSKTGFDILSKENMTKLKDNVGKVSTSALSGTFNTLTVVMSMYFILYFMLERPRFFEKILTSSAPLKRSNISLIGDKMRKLIIANAIGIPVVAVGQGIVALIGYLIFGAPGAVLLFALTAAASVIPVVGTAIVYVPVCIFMIAEGNTGQGLGLAIYCVVVVGLTDNLLRFTLLKKLENIHPLNTVFGIIMGMNLFGFMGLIFGPILISLTLLLIQVYRNEFSDDETPPDLKLPGQDDIKEKLI				NA	NA	NA	NA	NA
BMS003_04186	237			hypothetical protein	GTGGAAGGACTCAACCCCGAAATATTAAAGGAAATCTGTATCATGAAAATGCCTTTTGGGAAATACGAAGGAACGGTTCTGATTGATCTTCCGATCAGCTATCTGGAATGGTTCAATAAAAACGGAATGCCAAAAGGAAAACTGGGAATGCAGCTTTCAACAGTTTATGAGATCAAATTGAACGGTCTGATGGATCTTTTGGCTCCCATCAGAGCATCGGTAAGAAATGGACTGTAA	MEGLNPEILKEICIMKMPFGKYEGTVLIDLPISYLEWFNKNGMPKGKLGMQLSTVYEIKLNGLMDLLAPIRASVRNGL				NA	NA	NA	NA	NA
BMS003_04187	1992	uvrB	COG0556	UvrABC system protein B	ATGGATTTTAAGCTTCAATCAGAATATAAACCTACCGGAGACCAGCCTCAAGCTATTGAAAAACTTACTGAAGGAATAGAGATCGGTGAGAAATATCAAACGCTTCTCGGAGTGACAGGTTCCGGAAAAACCTTTACTGTAGCGAATGTTATACAAAATGTTCAGCGCCCAACTTTAGTATTGGCTCATAACAAGACTCTTGCGGCACAGCTCTTTATGGAATTTAAAGAATTTTTTCCGGAAAATGCCGTAGAATATTTTGTAAGCTACTATGATTACTACCAGCCTGAGGCATATATTGCTACAACAGGAACTTATATCGAAAAAGACCTGAGCATCAATGAAGAAGTTGAAAAATTACGTCTTTCTGCAACCGCCAGCCTTCTTTCAGGAAGGAGGGATGTTCTGATCGTAGCTTCTGTTTCATGTATCTATGGTATTGGAAATCCAACAGAATTTCATAAATCTTTAATTTCCATAGCGATTGGTGAGAAAGTAACAAGAACCGCGCTTCTTCATTCATTAGTTAATGCATTGTACGCCAGAACGCTCAACGAGTTCCAAAGAGGTACGTTCCGTGTAAAAGGAGATGTAATTGACGTTTTCCCTGCTTATGCAGATAATGCGATCAGGATCCAGTTTTTTGGAGATGAAATTGAAAAAATTCAAAGTTTTGATCCTGTTACCGGAAATGTAGAATCTAATTTTGACCAGATTCAGATTTATCCTGCCAATCTCTTCGTGACTTCAAAAGAGACTTTAAATGGGGCTATTAAAGATATTCAGGATGATATGGTGAAACAGGTAGACTTCTTTAGCTCTGTTGGAAAACCACTAGAAGCAAAACGTCTTCAGGAAAGAACGGAACTGGACCTTGAAATGATTAAAGAACTGGGCTACTGCTCAGGAATTGAGAATTACTCAAGATATCTGGATGGCCGCCTGCCAGGAACAAGACCTTTCTGCTTAATTGATTATTTCCCTAAAGATTTTCTGATGGTTATAGACGAAAGCCACGTTACCGTTCCACAGGTTCATGCTATGTACGGAGGTGACCGAAGCCGTAAAGAGTCACTAGTGGAATATGGATTCAGACTTCCGGCTGCAATGGACAACAGACCTTTGAAGTTTGAAGAATTTGAAACGATGCAGAACCAGGTAATTTATGTTTCTGCCACGCCTGCGGATTATGAATTAGAGAAAACCGGAGGGTCTTATATAGAGCAGATCATCCGCCCCACAGGTCTTCTAGACCCTATTATTGAGGTAAGGCCTACGCTAAACCAGATTGATGATCTGATGGAGGAAATCCAGAAAAGATCTGATGCTGATGAAAGAGTACTGGTGACTACTTTAACAAAGAAAATGGCAGAAGAACTTACAAAATACTTCACTAAATTCGGAATCAGAACAAGATATATTCACTCAGATGTTGAAACCCTGGAACGTATTCAGATTATGCAGGATCTTCGTTTAGGACTTTTCGATGTTCTGATTGGAGTTAACCTATTGAGAGAAGGACTGGATTTACCTGAAGTTTCACTAGTTGCTATCCTGGATGCTGATAAAGAGGGGATGCTGAGAAGCAGAAGATCAATGATACAAACGGTAGGGCGTGCTGCAAGGAATGTGAACGGAAAAGCAATCATGTACGCTGATAAGATCACCAAATCTATGCAGGCCACTCTGGATGAAACCGAATATCGCCGTGCTAAACAAATGCAGTACAATGATGAACATGGTTTAAAACCAAAAGCATTAAATAAAAAGATCTCTGAAAATCTTGTAGGAAGAAGCAAAGACTTCCCTGATGAAAGGTATACGCAAAAAGAAATCCTTCAAAAAGTTGCTGAAACAAAAGCAACTTATGCCAGTGAGGATATTGAGAAAATGATTGAGCAAAAGCAAAAAGAAATGGAAACTGCTGCAAAAAATCTTGACTTTATAAAGGCAGCTAAGCTGAGAGATGAAATTTCAGCATTGAAAGCTTAA	MDFKLQSEYKPTGDQPQAIEKLTEGIEIGEKYQTLLGVTGSGKTFTVANVIQNVQRPTLVLAHNKTLAAQLFMEFKEFFPENAVEYFVSYYDYYQPEAYIATTGTYIEKDLSINEEVEKLRLSATASLLSGRRDVLIVASVSCIYGIGNPTEFHKSLISIAIGEKVTRTALLHSLVNALYARTLNEFQRGTFRVKGDVIDVFPAYADNAIRIQFFGDEIEKIQSFDPVTGNVESNFDQIQIYPANLFVTSKETLNGAIKDIQDDMVKQVDFFSSVGKPLEAKRLQERTELDLEMIKELGYCSGIENYSRYLDGRLPGTRPFCLIDYFPKDFLMVIDESHVTVPQVHAMYGGDRSRKESLVEYGFRLPAAMDNRPLKFEEFETMQNQVIYVSATPADYELEKTGGSYIEQIIRPTGLLDPIIEVRPTLNQIDDLMEEIQKRSDADERVLVTTLTKKMAEELTKYFTKFGIRTRYIHSDVETLERIQIMQDLRLGLFDVLIGVNLLREGLDLPEVSLVAILDADKEGMLRSRRSMIQTVGRAARNVNGKAIMYADKITKSMQATLDETEYRRAKQMQYNDEHGLKPKALNKKISENLVGRSKDFPDERYTQKEILQKVAETKATYASEDIEKMIEQKQKEMETAAKNLDFIKAAKLRDEISALKA	PGPT0014920_3912	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
BMS003_04188	1218	yliI	COG2133	Aldose sugar dehydrogenase YliI	ATGAGGATCAATCAATTTTATATTCCTGTAGTAAGCCTTTTTCTTTTTTTATCCTCTTGCAAAGAGAATCATGCCAATGCTCAGAAGATAGGACATGACGGAAGTGTGGAAACGGAAAACCCTAATTCTGACTATAAGCCGGCATTTAAAGGACAGACAAGAATTAAGGCTGTAAAGACAACAACAGCCTATAATGTTGAAATATTGAATAAAGACTTGGGAAGACCTTGGGGAATTATCAATCTACCTGATGGAAAATTTCTCATCACGGATAAGAAAGGCTATATGAATGTGGTTTCAACAGACGGAAAGCAAGTGTCTAAAATAGCCGGTTTTCCAAAAGTAGATTCAAAAGGGCAGGGAGGAATGCTTGATGTAGCTCTTGATCCTGATTTTAAAACCAATAATATCATCTATTTCAGTTTCTCAGAACCATTTGGAAAAGGAAACTTAACATCTGTGGCGAAAGGTAAACTTTCAGCAGATCTTAACAATATTTCGGCGGTAAAAGTTATTTTCCGTGCAGAACCTTCTTACGATGGAGATAAGCACTATGGAAGCCGTATTGTCTTTGATAAAGATGGAAACTTATTTGTAAGCACTGGCGAAAGATCAGATAAAGTAACCCGTGTGTATGCTCAGAAAACAGATAATTATCTTGGAAAAATTTTAAAAATTACAAAAGACGGAAAACCGGCTCCGGGAAATCCTTTTATCGGGAAATCCGGATATAAGCCTGAAATATATGCTTATGGTGTCCGAAACCCGCAGGGAATGGCAATAGATCCCAATGGTAACCTATGGGATGTAGAAATGGGGCCAAGAGGAGGTGATGAAATCAATCTGATCCAACCGGGAAAAAATTATGGATGGGGAGATGTAACTTATGGAATTGAATATTCAGGAGATAAAGTAGGGCAGGGAATTACCCAAAAAGAAGGAACCGAACAGCCTGTTTATTATTGGGATCCTGTGGTCTCACCAAGTGGTATTACTTTCTATACAGGAAATATTGAGGAATGGAAAGGAAATCTGATTATCGGATGTCTAAGTGGTGAACATATTGACAGAATTGTTATGAAAGACAATAAAGTAATAGGGGAAGAACGCCTTCTTGCAGATCAGAAAGAGCGCTTCCGCGATGTGCTGAACGGAATGGACGGAAATCTGTATGCGGTGACGGACAGTGGTAAACTCTATAAGATCTCAAAAAAATAA	MRINQFYIPVVSLFLFLSSCKENHANAQKIGHDGSVETENPNSDYKPAFKGQTRIKAVKTTTAYNVEILNKDLGRPWGIINLPDGKFLITDKKGYMNVVSTDGKQVSKIAGFPKVDSKGQGGMLDVALDPDFKTNNIIYFSFSEPFGKGNLTSVAKGKLSADLNNISAVKVIFRAEPSYDGDKHYGSRIVFDKDGNLFVSTGERSDKVTRVYAQKTDNYLGKILKITKDGKPAPGNPFIGKSGYKPEIYAYGVRNPQGMAIDPNGNLWDVEMGPRGGDEINLIQPGKNYGWGDVTYGIEYSGDKVGQGITQKEGTEQPVYYWDPVVSPSGITFYTGNIEEWKGNLIIGCLSGEHIDRIVMKDNKVIGEERLLADQKERFRDVLNGMDGNLYAVTDSGKLYKISKK	PGPT0017700_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
BMS003_04189	2457	btuB_16		Vitamin B12 transporter BtuB	TTGATTGAATCATCATCCAAAATTATCAATATGAGAATAAAATACATCAGCATTATTTTCCTTGGAGCATCTACCCTTTCCTATGCCCAGCAGATAAAGGACACTCTGAAAGAATCGAAAATTGAAGAAGTAGCCATTACCGGAAGCCGAAACAAAAAAAGAACGGTTGTCAATACACCAGTTCCTATTGATATTATAGACATTAAACAGGTAAGCCAGTCAACAGGTCAGGTAGAAATCAACCAGCTCCTGCAGTTTTCCGCACCCTCTTTCAACTCCAATAAACAATCAGGATCTGACGGTGCTGATGCAGTAGATCCGGCTACTTTAAGAGGTCTTGGTCCCGATCAGACCTTACTCCTTTTAAATGGGAAAAGATACCATCAGTCTTCATTAATCAACCTTTTCGGTACCAAAGGAAGAGGAAATACCGGATATGATATGAATACCATCCCGATTGGCGCCATAAAAAGAGTGGAAGTTCTTCGTGACGGAGCATCAGCCCAATACGGTTCGGATGCTATTGCAGGAGTAATTAATGTTATTCTGAATGACAGAAACAAAGGTTTCGAAGGAAATCTATTCACAGGTATGAACCTTTTTAAAAGCCCTGGAAACAATGATGTTGTATCTGATCACAAAATAGACGGCACTACCTTTGATTTCAGTGGAAATTTAGGAACTAAAATAGGTTCAAAAGGAGGGTTTGGAAATTTCACCGTAGAGTTTATCAATAAAGATTATGCCATCCGGAATGCAAATCCTGATCTATATACAGCCCCAAGACAGCGTTTCGGAGATGCAAAAGCTCAAAACATTTACTTTTTCGGAAATATTGAACTGCCATTATCTGACGGTCTGAAATTTTATTCCCATCAGGGCTTTTCCCACAGAAATACCAAAGCTTATGCCTGGACAAGAACAGCAGATGCAGACGGAAATATTCCGGAAGTTTATCCTACAGGATTTAATCCCGTTGAAAACACCAGTATTACAGATTTTACGTTTGACAATGGCTTAAAATTTAAAGTAGCCGATTGGGATGTAGATGTTTATAATGCTTTTGGTAATAACAGATTTACCTACCAGATTGATAACACTATCAATGCGACTTTAGGAGTAAAATCTCCCACAAGCTTTAATGCGGGCGGGCATTCGCTGCTGCAGAATACAACAGGCTTCAATGCTGTAAAGCAGTTTAAAGTACTGGAGGGGCTTAACGTTGCTTTCGGATCTGAATTCAGGTATGAAAAATTTGATATCATCAAAGGGGAAGAAGCCTCTTACCTGATGTATGACGTCAATGGAAATCCTGTTACCCCAAACACGCCTCCCAATTTGCTTGTTACCAATCCTTCCAGCGGCAATGTAAGGCCAGGCGGCTCTCAGGGATTCCCTGGCTATTCTACAGATACCGGTAAAAGCAGAAATAACTTTGCTGCTTATGTAGACACCGAACTTGACGTGACCAAAGACTGGATGATAAGTGTGGCAGGAAGATTTGAAAATTATAACGATTTCGGAAGCACTTTAAATGGTAAATTTGCCACAAGATATGCCTTTACTCCTCAGTTTGCATTCCGTGGCTCTATCTCAACAGGATTCAGAGCGCCTTCACTGGCTCAGAAATATTACAGCCAACAGTTTACCAACTTTCAGGGTGGTCAATTGGTCACTATTCAGCTGGCATCTAATGACAGCAAAATTGCAAGCAGTCTGGGAATTCCTCAACTGAAACAGGAAACGTCTGTAAACGGTAGCGCCGGATTTACTTTCAATACAGGAAAATTCACAGCGACAGTAGATGGTTATTATATTCGCGTGAAAGACAGAATCGTTCTTACCGGTTATTTTGCACAAGCAGACTTACCGGCAGAGGTTCAGGCAGAAAATCCATTTATTGATCAAGTACAGTTTTTTTCTAATGCTATTGATACCAAAACAAAAGGCGTTGACCTTATTTTAAGCTATACAGAGAATATCGGCTCCGGAAAACTGACAGCTACTTTAGCGGGGAACTATAATGATATGAAAATCACAAAAGTGAATACCTCAGAACAGCTGGCAGGGAAAGAAGATATTTACTTGAGTACAAGAGAAAAGGCATTCATCCTTGCTTCTGCACCCAAAACAAAAGTTAATTTAAATCTTAACTATAAAATCAACAAATTCAATATGAACCTGCAGATGGTAAGGTTTGATAAAGTTACCCTGATTGGTTATGATGATACAGAGCAGGTATATAATCCAAAAGTAACAACCGATCTTTCTTTTGGCTATGAATTTAGTAAAAACCTGAACCTAACTCTGGGCAGTAAAAACCTGTTCAACAGATACCCTACCCTGCAAACCACTCAGGTAAGTGATGGAAATACAGAATCCGGAGGCATCTTTGATCCTGTACAGATGGGATTTGCCGGAAGACAGGTTTTTGCCAGACTTAATTTTAAGTTCTAA	MIESSSKIINMRIKYISIIFLGASTLSYAQQIKDTLKESKIEEVAITGSRNKKRTVVNTPVPIDIIDIKQVSQSTGQVEINQLLQFSAPSFNSNKQSGSDGADAVDPATLRGLGPDQTLLLLNGKRYHQSSLINLFGTKGRGNTGYDMNTIPIGAIKRVEVLRDGASAQYGSDAIAGVINVILNDRNKGFEGNLFTGMNLFKSPGNNDVVSDHKIDGTTFDFSGNLGTKIGSKGGFGNFTVEFINKDYAIRNANPDLYTAPRQRFGDAKAQNIYFFGNIELPLSDGLKFYSHQGFSHRNTKAYAWTRTADADGNIPEVYPTGFNPVENTSITDFTFDNGLKFKVADWDVDVYNAFGNNRFTYQIDNTINATLGVKSPTSFNAGGHSLLQNTTGFNAVKQFKVLEGLNVAFGSEFRYEKFDIIKGEEASYLMYDVNGNPVTPNTPPNLLVTNPSSGNVRPGGSQGFPGYSTDTGKSRNNFAAYVDTELDVTKDWMISVAGRFENYNDFGSTLNGKFATRYAFTPQFAFRGSISTGFRAPSLAQKYYSQQFTNFQGGQLVTIQLASNDSKIASSLGIPQLKQETSVNGSAGFTFNTGKFTATVDGYYIRVKDRIVLTGYFAQADLPAEVQAENPFIDQVQFFSNAIDTKTKGVDLILSYTENIGSGKLTATLAGNYNDMKITKVNTSEQLAGKEDIYLSTREKAFILASAPKTKVNLNLNYKINKFNMNLQMVRFDKVTLIGYDDTEQVYNPKVTTDLSFGYEFSKNLNLTLGSKNLFNRYPTLQTTQVSDGNTESGGIFDPVQMGFAGRQVFARLNFKF	PGPT0003790_8023	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
BMS003_04190	1158	aruH	COG0436	Arginine--pyruvate transaminase AruH	ATGTTCACGAATAACGACATCAACTTTGAAGCTCTGAAAAGAAAGGCTTATAATGGAAGATGGGCTACTCTGGAAGAAGGAATCATCCCTCTTACAGCAGCTGACCCGGATTTCAGAACAGCTCCTGAAATAGAACAGGGTATTATTGAATACCTGAAAGACGGTTACCTAAGCTATGGACCGTTTTCCGGACTTCCTGAGTTTAAGAAAAGTGTTGCAGATCATTTTAACCAGGAAAAGCACGGAAGTTTTTCATCTGAAAACATTTTGGCTGTCAACAGTGCTGCTCAGGGAATGTTTCTGATTGCATCCTATGTGCTTGACCCGGGAGATGAAGCCATTATTCTGGATCCTGTAGATTTTCTTTTTAAAAAATCCGTAGAAACAGCAGGCGGCAAAGTAACGCTTTGTCCTGTTAATACTATAACGGGAGAAATTGATTTTGAAAAACTGATTTCTTTAATCACCCCCAAAACCAAACTTATCAGCATATGCAATCCGCATAATCCACTTGGAAAAGTTTACTCTAAAGAGGTTCTGATAAAAGTAGCAGAAACTGCAGCAACTTATGATCTCTGGGTGATGAGTGATGAGATCTGGAGTGATATTATCTATGACCAGAAAAACTTCCATACCTATTCTTCCGTTTCGGAGAAAGCGAAGAGAAAAAGCTTTACCGTGTATGGTTTTTCAAAGTCGTTCGGAATAGCAGGTTTGAGAATAGGGGCTGTACTATGTAATGATCAGGATATTCTTGAAGATTTTACAGAAAAATCTAATTTCAACTCCACTATAGAAGGTGTTTCTACTTTATCTCAGATTGCCGGAAGTGTAGCGCTGGAGAAGGCAAAGCCGTGGTGTAAAGAATTTTTAGCGCATTTACAGAGCAACAGAGATCTTGCTTTTGAACTATTAAGCCATTCGGAAATTGTAACCCCCAATTTACCCGAAGCCACTTTTGTGTTATTTCCAAGAATTGAAAACGGAATGTCCAGTGAGGAATTCGCTCAGCACGTCCTGAAACAAGGAAAAGTAGCCATTGTTCCGGGATCAGAAAGATGGTTCGGGAAAGGAGCGGAAGGTCATATCAGAATATGCTTCTCTACCTCAAAGGAAATTTTAGAAGAAGGAATTAGCAGAATCACCAACTGCTTTTAG	MFTNNDINFEALKRKAYNGRWATLEEGIIPLTAADPDFRTAPEIEQGIIEYLKDGYLSYGPFSGLPEFKKSVADHFNQEKHGSFSSENILAVNSAAQGMFLIASYVLDPGDEAIILDPVDFLFKKSVETAGGKVTLCPVNTITGEIDFEKLISLITPKTKLISICNPHNPLGKVYSKEVLIKVAETAATYDLWVMSDEIWSDIIYDQKNFHTYSSVSEKAKRKSFTVYGFSKSFGIAGLRIGAVLCNDQDILEDFTEKSNFNSTIEGVSTLSQIAGSVALEKAKPWCKEFLAHLQSNRDLAFELLSHSEIVTPNLPEATFVLFPRIENGMSSEEFAQHVLKQGKVAIVPGSERWFGKGAEGHIRICFSTSKEILEEGISRITNCF	PGPT0001990_2270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001990-patB|malY-K14155	NA	NA
BMS003_04191	1077	kmo		Kynurenine 3-monooxygenase	ATGAAGAAAATTGCTGTCGTGGGTGCCGGTATTTCCGGTTTAAGCATGGCGAATTACTTAGAAAAGCATAAGATTGATTATCATATTTATGAAAGGAGAAAAAAGAAAGATCTTGCAGGTCATGGCTTTCTTATTCCGAAAGAAGGGATGGATTATCTTTATCAGATCATTGATCCTGATCTTCTTCTCGAAAATGGAAATTTTCTGCGGAAATACACACAGTATTCCCATACCGGGAAAATTCTGGCAGAAAAGGAACTGGACAATGTTTTCGCTATATCAAGATATTCACTGATCAATCTGCTAGCGCAAAATATTTCTTCAGAAAAGATAACTTATGAAGAAACCATCATTCCTGATGAGCTACAGAAAGGAAAATTAAAGCTTTCTGACGGAACCGAGATTGATGCTGATATTGCGGTAATCTCCGATGGTTCCCGAAGCCGAATAAGAAGGAAGCTTTTTAAGGATGAATCCATGAATATGGTAAGGGAAAGTGAAGTTGTAAATATCATTCAGCATAAAGAAATAGCAGATTCTATTGAAAATGATTTCATCAAGTTTCATCATGAAGACGGAGGACTGACTTTCGGAATCCTTAAACTTTCTGATGATACCGTACTCTGGTATTCACAGTTTGACAACCGGAAATACACCATTAATGAATGCTCTGCTGAGAACTTAAAGAAATATATGCTTGAGGTTTTTAAAAACTGGTATTCTATAGTTCCGGAAATCATACAGAAATCAGACTATAAAAATGTACATTTATGGAATGTTTATGAACTGGAAAAACTAAACCCTTTTTACAAAGATAATTTTGTATTCATAGGTGATGCAGCTCACCCGCTCATCCCTTTTACAAGCCAGGGAGTCACTTCTGCGTTAAAAGATTCATTTTCACTAACGAAATATCTAGTTGAAGAAAACGATACACAGAAAGCTTTCAGTAAATATGAAACCGAAAGAAAGCCAGAAATTGAGGTTCACATTCAGAACGGAAGAATATTACTGAACCAGTTTTTACTTCCGCTAAGCCAACAAAAAGAAAATATCATACCCATATCCTATAAATAA	MKKIAVVGAGISGLSMANYLEKHKIDYHIYERRKKKDLAGHGFLIPKEGMDYLYQIIDPDLLLENGNFLRKYTQYSHTGKILAEKELDNVFAISRYSLINLLAQNISSEKITYEETIIPDELQKGKLKLSDGTEIDADIAVISDGSRSRIRRKLFKDESMNMVRESEVVNIIQHKEIADSIENDFIKFHHEDGGLTFGILKLSDDTVLWYSQFDNRKYTINECSAENLKKYMLEVFKNWYSIVPEIIQKSDYKNVHLWNVYELEKLNPFYKDNFVFIGDAAHPLIPFTSQGVTSALKDSFSLTKYLVEENDTQKAFSKYETERKPEIEVHIQNGRILLNQFLLPLSQQKENIIPISYK				NA	NA	NA	NA	NA
BMS003_04192	1377	tpl	COG3033	Tyrosine phenol-lyase	ATGAATTTACCGTACGCGGAACCTTTCCGCATTAAAATGGTGGAAGAAATCTATCACTCTACCAGAGAAGAAAGAGAACAATGGCTTAAAGAAGCTAATTATAACCTATTCAACCTAAGATCTTCACATGTTTATATTGATCTGCTTACCGATTCCGGAACCGGAGCAATGTCTGATAAACAATGGGCAGCTTTAATGACCGGAGACGAAAGCTACGCAGGATCGCGTTCTTTTGATCAGTTACAGAAGACTGTTGAAAGAATTACCGGATTCAAATATTTACTACCAACACACCAGGGAAGAGCTGCTGAAAATGTTCTTTTCTCAGTATTGGTAAAAGAAGGTGATGTAGTTCCGGGGAACTCTCATTTTGATACGACAAAAGGACATATCGAATTCAGAAAAGCACATGCCATAGACTGTACTATAGATGAAGCTTTTGACATTAATGACCTTCATCCCTTCAAAGGAAATATCAACCTTGAAAAACTGGAAGAAGTCTATAAAAATCATCCTAAAGAAAACATTCCTTTCTGCTTAATTACCATTACCTGCAATTCTTCCGGAGGGCAACCCGTTTCTTTGGAAAATATGAAAGCCGTAAAAGCTCTTTCTGACCAATACGGAATCCCGGTATTCTTTGATTCGGCAAGATTCGCCGAGAATGCTTACTTCATCAAAAAAAGAGAGGCAGGACAGGAAAACAGAAGCATTAAGGATATCTGTAAAGAAATTTTCTCTTACGGAGACGGAATGACAATGAGTTCCAAGAAAGATGGCTTAGTGAACATCGGCGGATTTATTGCATTGAATAATGAAGAAGTTTTCAGAAAAGCTTCTAACTTCACTATCATTTACGAAGGGTTTATTACTTACGGAGGTATGGCAGGAAGAGATATGGCAGCATTGGCAGTAGGTCTTGATGAAGCTACAGAATTTGCTTATCTTGAAAGCAGAATCTCTCAGGTTGAATACCTTGGAAATAAACTGATTGAATATGGAATTCCTGTTCAGAAACCTATCGGAGGACATGCCGTATTTATTGATTCTTTAAACTTCCTTCCGAATGTTTCCCGTGAAGAATATCCGGCACAGACATTAGGACTGGAAATTTACAAAGAAGCAGGAATCAGAACTGTAGAAATCGGAACCCTGCTTGCCGACAGAGATCCAGCTACTAGAGAAAACCGTTATCCGAAACTAGAACTGGTGCGTCTGGCAATTCCGAGAAGAACCTACACCAATAACCATATGGACTATATTGCTGCTGCTATTAAAAACGTATATGAAAGACGTGAGGAAATAGCAAAAGGATACAGAATCACCTGGGAACCGGAAATCTTAAGACACTTTACCGTTCAGCTTGAAAAAGCTTAA	MNLPYAEPFRIKMVEEIYHSTREEREQWLKEANYNLFNLRSSHVYIDLLTDSGTGAMSDKQWAALMTGDESYAGSRSFDQLQKTVERITGFKYLLPTHQGRAAENVLFSVLVKEGDVVPGNSHFDTTKGHIEFRKAHAIDCTIDEAFDINDLHPFKGNINLEKLEEVYKNHPKENIPFCLITITCNSSGGQPVSLENMKAVKALSDQYGIPVFFDSARFAENAYFIKKREAGQENRSIKDICKEIFSYGDGMTMSSKKDGLVNIGGFIALNNEEVFRKASNFTIIYEGFITYGGMAGRDMAALAVGLDEATEFAYLESRISQVEYLGNKLIEYGIPVQKPIGGHAVFIDSLNFLPNVSREEYPAQTLGLEIYKEAGIRTVEIGTLLADRDPATRENRYPKLELVRLAIPRRTYTNNHMDYIAAAIKNVYERREEIAKGYRITWEPEILRHFTVQLEKA	PGPT0020430_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020430-tpl-K01668	NA	NA
BMS003_04193	618			hypothetical protein	TTGAAGAAGCCAAGTTTTGAAAATATCGTCAATCTATTCCTGAAAAACTTTTTTCAGGGGTTGGTGATCATTGGCCCTATCGGGCTTACTATTTTTGTGATCTGGTATATTGTAAGTGCAATTGACAATCTTATCCCATCTCTTGCCAAGCAGGTTCCGGGGCTTGTTTTTGTATCTATTATTCTGTTTACTGCTATTTTAGGATATTTAGGAAATAAATTCGTGGTCGGAAGATTCTTTTTCGACACAATGGACAGCTTGCTGGAAAAAACTCCGGGAGTAAAACATATCTACACTCCTACAAAAGACGTAATGTCTTCATTTGTAGGTGACAAGAAAAAATTCAACGATCCTGTATGGGTAAAAACCAATGAGAATCCGGAAATCTGGAGAATCGGCTTTTTGACCCAAAAAGAAATGTCAGACGTTGACAAGCATAATTACGTTGCGGTATATCTTCCCCACTCGTACGCTATCTCGGGCTGGGTAATTGTTACTGAAGAAAAAAACATCAAACCTGTAGTGGGAATGACAGCAGCTTCTGCCATGAAGTTTGCAGTGAGCGGCGGTGTAGCCGGATTCCATTCTGATGAGAATATATTTAAGGCTCCGGAATAA	MKKPSFENIVNLFLKNFFQGLVIIGPIGLTIFVIWYIVSAIDNLIPSLAKQVPGLVFVSIILFTAILGYLGNKFVVGRFFFDTMDSLLEKTPGVKHIYTPTKDVMSSFVGDKKKFNDPVWVKTNENPEIWRIGFLTQKEMSDVDKHNYVAVYLPHSYAISGWVIVTEEKNIKPVVGMTAASAMKFAVSGGVAGFHSDENIFKAPE				NA	NA	NA	NA	NA
BMS003_04194	579			hypothetical protein	ATGTTTAAGTTGAAACTACCTACCGATCCAAGGTGGGCAAATATTGCAGAAGGAAACATTGGAGAAATTTTAACGGATCATGCCTGGTGCGAGCAAAAAGCTGCTACCAATGCCATAGGACTGATTACAATGCTTCCGGAATATCCGGAAATTGTGACTGAACTTCTTGCCATTGCACAGGAAGAACTGGATCACTTTAATCAGGTTCATGAGATCATAAAGAAAAGAGGATTTACTTTTGGAAGAGCAAGAAAAGATGATTATGTAAATGAACTGGCAAAATTTATCATACAGGGAAGCAGAGAAAATCTCATCGTAGACAAAATGCTCTTTGCCGCCATGATTGAAGCCAGAAGCTGTGAAAGATTCAAGGTTCTTACAGAAAACATCAAAGACGAAGAGCTTAAGGTTTTCTACAAAGAGCTTATGATTTCTGAAGCCAATCATTATACAACTTTCATCGGGTTTGCAAGACAGCTTGGAGATCCCGAAAAAGTAAACAAACGCTGGGAAGAATGGTTGGAATATGAAGCAAGCATCATTAAGTCATACGGAAATAAAGAAACCATTCACGGTTAA	MFKLKLPTDPRWANIAEGNIGEILTDHAWCEQKAATNAIGLITMLPEYPEIVTELLAIAQEELDHFNQVHEIIKKRGFTFGRARKDDYVNELAKFIIQGSRENLIVDKMLFAAMIEARSCERFKVLTENIKDEELKVFYKELMISEANHYTTFIGFARQLGDPEKVNKRWEEWLEYEASIIKSYGNKETIHG	PGPT0007220_1067	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007220-miaE-K06169	NA	NA
BMS003_04195	1089			hypothetical protein	ATGAACAGAGATCTCTACATTGATTTCGCCAAAGGACTGGCAACTCTTTCCATCATATTTATCCATACAGCATTCTGGTCTGGACAGTTTTATATACCAACCGAAGTAAGAGTTTTCTCTCTCGTCTTTGATGTAGCCCTATTTTATGCACTGAGCGGCATTACCTCCGGAGCGAATATTGAAAAAACACTGTATCGGCTTCTGAAACTTCAGATCACCTATATGATATTTGTAACCTTTCTGTTCTTTTTAGATTACTTCTTTAAAGTGTTCGGTCTTAGTTTCTTTTCTATGGAATGGCTTCACAGTTTTTACTCAACATTCGGATCCAAATATTCCGCAACCAGCATTTCAACTTATCCACAATGGCAGAATCTGGGAAACTGGTACCTGCATCAGTATACTAACGCCGACACTTTTCCGGTAGTGATGGGAAGCTTTTGGTACCTTAAGGTATATTATATACTTACCGTTTTCGGAGTGCTTATTTTAAAGTTTTTTCCAAAACATATCGATTGGTTCATTGGCCTTTGTATTTCTTTAACTATATTATTTAACATCTTCCCGGAATATTATCCAACGGGGCAGACGGGATACGTAGCATTCTACCTCGCCGTATTTTTAATCGGGCACAAAATGCGTGGAAAAAAAATTCACACCAAAGCGATACCTGTATTATACGGACTTGTGGGAGCTGCTCTTATATGGATGTTCTGGCACTATGGAGGAGACATCTTTTATAAAATCAACAAAAATAAATTCCCACCAAAAATCCCTTACATTATCTGGGCACTATTCTCTCTGGTCACCTTATTCGTTCTATATAACCGATTGAAAATCAAAAAAGAAAACTTCATTACCCATATCGGAAAAAATGCTATTTTCTTCTATTTTGCACAGGGAATAAGTTCTTCGTTGGTCTATTTTATAGTAGTTCCCCTAAAAGAAAACATGCCTTGGTGGCTTTTGATGATCATTATTTATGGGATTAATATTGCTTTAGCCTTTGTTATTTCTACAGGACTGAAAAAGGTGGATACTTCAGGATGGAAGATTCTGGAATTCCTAAGAAGAAAGACCGCATCTTAG	MNRDLYIDFAKGLATLSIIFIHTAFWSGQFYIPTEVRVFSLVFDVALFYALSGITSGANIEKTLYRLLKLQITYMIFVTFLFFLDYFFKVFGLSFFSMEWLHSFYSTFGSKYSATSISTYPQWQNLGNWYLHQYTNADTFPVVMGSFWYLKVYYILTVFGVLILKFFPKHIDWFIGLCISLTILFNIFPEYYPTGQTGYVAFYLAVFLIGHKMRGKKIHTKAIPVLYGLVGAALIWMFWHYGGDIFYKINKNKFPPKIPYIIWALFSLVTLFVLYNRLKIKKENFITHIGKNAIFFYFAQGISSSLVYFIVVPLKENMPWWLLMIIIYGINIALAFVISTGLKKVDTSGWKILEFLRRKTAS				NA	NA	NA	NA	NA
BMS003_04196	888			hypothetical protein	ATGAAAAAAAACTTTAATCTCTGCTTATTAGCAGGTGCCATTGCTGTAACATCCCTTACAGCATGTAGTGATGACCAAATGGACAACAATGTTCAGCCACAGCAAGAAGCACTTAGTGCAAAAATTGACCAGCCGGGAGATCTTGAAAAAATCTGCTCTTATGTAGACAACAACTGGAGTACCAATTCAGTTCTACTCACTGGGCTGCAAAATTCCACAGACACCAATTTTATGAATGCACAAATGACTAAAATTGCAAGCATGTGGGGAAGAAGCAATCCTCTTCTGAGATTTGTGAATGACCCTACAAATTTTAATTCCACTTACAATGCTATTTCTTATGGCAACGGAAGGATTTATTATGGATATGCGATCTATTATGATGCCAAAGCAAAAGGTGGTGATATTGTCAATGCAATGATCCTTGCCCATGAATATGGACATCAACTGCAGTACATCTTCAATCTTCCTTCTGTATCAGAATCAACCTACAGACCGAATGAACTTGAAGCTGATGGCTTTGCAGGATACTATCTGAGAAGACCTAACGGTTATAACAAATCCAGTTTCTCAGAGATTGCTGCGGCTTATGAATTTGCACAAAGTATCGGGGATTATCAGACGAACAATGTAAACCACCACGGAACACCTGCACAAAGAAGATCTGCAGTCCGTTTGGGATTCCTTTTAGGACAATATGATCTTAGCGCTTCAAATTTCGACTACAACTTCTTCTATTACTACCAGGGAGTATTAAACGGAACTTATAAGATGGCTAAGAACAAAGTAAATCCTGAAATTGATGCCTACATGAGTCAATATATTGATGAGCTGAGAAAAATTCAGTCCGGAGAAATTTCTGCAGAAGAGTTTAAACATCTTCAATAA	MKKNFNLCLLAGAIAVTSLTACSDDQMDNNVQPQQEALSAKIDQPGDLEKICSYVDNNWSTNSVLLTGLQNSTDTNFMNAQMTKIASMWGRSNPLLRFVNDPTNFNSTYNAISYGNGRIYYGYAIYYDAKAKGGDIVNAMILAHEYGHQLQYIFNLPSVSESTYRPNELEADGFAGYYLRRPNGYNKSSFSEIAAAYEFAQSIGDYQTNNVNHHGTPAQRRSAVRLGFLLGQYDLSASNFDYNFFYYYQGVLNGTYKMAKNKVNPEIDAYMSQYIDELRKIQSGEISAEEFKHLQ				NA	NA	NA	NA	NA
BMS003_04197	579			hypothetical protein	ATGTTTGCAATTGTAGAAATAGCAGGGCTTCAATACAAAGTTGAGCAAGACCAGAAGTTGTTTGTAAACCGTTTAAAAGGAGATAAAGGAGGAAAAGTTTCTTTCGATAAAGTTCTTCTTACTGTAAACGGTGCAATCACTGTAGGCGCCCCAGCTGTAAACGGAATCACTGTAGAAGCAGAGATCCTTGACCACGTTAAAGCTGATAAAGTAATCATTTTCAAAAAGAAAAGAAGAAAAGGTTACAAAGTGAAAAACGGTCACAGACAATCTTTAACTCAAATCGTAATCACAGGTATTACAGGTTTTGAGGGTGGAGCTAAAAAAGCTGCTGCTAAAAAAGAAACTGTGAAAGGTGAAGTTCTTTCTGACAACGCAACTGTTAACTTTAGTGAAGATCACGAGTTGAACTATCACTTAAAGAAAAACAATTTGTCTCAATCTAAAGAGAACAGAGAAACTTTAATTACTTTAGGTAAAGCAGTTAAAGTTGAATTAGAAAAAAATATTCTTACACATGAAGAAGTAGATGCTGCTATCATCAAGAATATTGATCAATTTAAAGCACTTAATAAATAA	MFAIVEIAGLQYKVEQDQKLFVNRLKGDKGGKVSFDKVLLTVNGAITVGAPAVNGITVEAEILDHVKADKVIIFKKKRRKGYKVKNGHRQSLTQIVITGITGFEGGAKKAAAKKETVKGEVLSDNATVNFSEDHELNYHLKKNNLSQSKENRETLITLGKAVKVELEKNILTHEEVDAAIIKNIDQFKALNK				NA	NA	NA	NA	NA
BMS003_04198	258	rpmA	COG0211	50S ribosomal protein L27	ATGGCACACAAGAAAGGAGTCGGTAGTTCCAAGAACGGTAGAGAGTCTCACTCTAAAAGATTAGGTGTGAAGATTTTCGGAGGACAAGAAGCTATTGCCGGAAATATTATTGTTAGACAAAGAGGTACTCAGCACCACCCAGGTGATAACGTGGGAATCGGTAAAGATCACACTTTGTTTGCATTAGTAGATGGTAAAGTAGTTTTCAGAAAGAAAGCAAACAACAGATCTTTCGTATCTGTAGAACCAAACGCATAA	MAHKKGVGSSKNGRESHSKRLGVKIFGGQEAIAGNIIVRQRGTQHHPGDNVGIGKDHTLFALVDGKVVFRKKANNRSFVSVEPNA				NA	NA	NA	NA	NA
BMS003_04199	2568			hypothetical protein	ATGCTTTTTGTTTATGCTTATTGCCTGAAGAAACGAATGATGTTAAACAATAATTCCCAAAAACACTATCTCTTATTTTTTTTTCTGATTCTCTCCAGTTCAGTATGCGCCCAAAACCGGGTCAGCGGCAGGATAGTTGACGAAAAAAGTAATAAAGAGCTCAACAAAGTTGATATCTTTATCAACGATAGTAAAACACCTTCCCTGACGACAACTTCAGGCAGTTTTACTATTCAGTCAGACAGCATCATTTATCAGTTAAAATTTTCCAGAAAAAGTTATACTACAGAGACACTTGATGTCACCCCTGAAAACGCTGAAAATATTTTCGTTCAGCTTTCACAGGCCAAGGTAAGTGATATCCAAGAGATTGTTATTCAAAGTGGTAAAACCAAATACAAGAGCAAGAAAGAAAACCCGGCTTATGCTATCATGCAGAAAGTCTGGTCACACAAAAGAAATAACGGCCTGGAGAAATTCGACACCTATTCATTCAAAGAGTACGAAAAAACGCAGTTTGATCTCAACAATCTTGACAGCACATTCATGAAGAAAAAGATTTTCAATAAACTGGATTTCATTTTCAGCTATGCCGATTCTACTGCAAGCGGAAGACTGGGGCTTCCTATTTTCCTGAATGAAGCCGTTTATGAAAATTATGGTAAAAACAAACCGGATAAAGACAGCAAGAGAACTTTGGTTGCTCAAAAAACTTCCGGATTCCAGGACAATCAGGTAATCACAGTTTCTGCTAAAAATTTATACCGCGATATTAATATCTATGACAACACCCTGAATTATTTCGATATTGGCTTTCAAAGTCCTGTCGGAAACGACGGTTTCGGAACCTACGATTATAGTTTGGTGGATACGATAACCATTCGTGGCGAAAAAGCCTTTCAGATAAGATACCAGCCTAAAAGAAAAGACATCCTTGCTTTTCAGGGAAACCTTTATATTGATACGGATACTTATGCCGTTTTAGGGGCAACATTAAAGTCAACACAGAAAATCAATGTTAACTTTGTAAACAGTGTATACACACAGCTGGAATATGACAATCCTAATGATGAAACATTCCTTCCTAAAAAACTGGTTACCGAGTTTGAAATGAGTCCTTTTTCAAAAAAGAAGGGGTCAAAAAGCATCATCGCCAAAAGATCTGTAGATTATTCTGATTATCAATTCAACAAACCTCTTGATCCGAAAGTATTCAAACGTACTGAGGAAGAATACGAGGATAAATTTACAAATAAAGACGATGCATATTGGACAAAAGCCAGGCCGGATAGTTTATCCAAAGCAGAGCAGGGAGTTTACAACATGCTAGATCAGCTTCAGCAGACCCCGAAATTCAACCGAATGGTAAAACTGTTTGAAACATTGGGCTCACGTTATTATAATGCCTTTAAAGGAATTGATATTGGTCCTATATTTTCAATCTACGGAAGAAATGAGGTAGAAGGTGACAGAATAAGATTAGGGGCAAGAACTTATTTCGGATTGAATGATACCTGGAGAGCACAGTTTTATACGGCATATGGCTTCAAAGATCAGCAATTCAAATATGGAGTGGAGGCAAGATATATGTTCAATAAGCTTAACCGCTTTATGATTGGGGCAGGAACCAGCAGAGATATTGTACAACTTGGCGGGCAGCTTACATCCGGTGATGGGGTCACCCCACAATCTTCATCTACCAGTACCTTTTTTGCAAGGGGAGAAAACATTTCTTTAAGCTCTGTAAACAAAACAAGTGTTTTTGCAGCTATTGAACCCTGGAAAAACTTCCAGATAAGAGTAGACGGGGTAATGCAGAGCATCAAATCTGCTATCCCAGAGAAATTCAACCTGATGTATTATAAGGACGGGAAACTGAGACAAACAGTGAATGATTCTCACGTTACTATCAGCTTAATTGCTAAACCCGGAGCCAAATTCTCACAAACCGGAATTGACCGTTATCAGGCAAGAAACCTTGCTCCAACTATTGTTTTAAGATACACAAGAGGTATTGAAGGATTATTTAATGCTGATTTCAACTATGACAAACTGCAGTTTATGCTTTATAAACCATTCCTGATTGGAAGTATGGGTAAATTAGTTGTTAATCTTGAAGCCGGAAAAAACTTTAGTACAGTTCCCTTGGCACTACAAAATATTATTCCGGCCAACCTTTCTTACGGTTTGGCACCGAATACATTCTCTCAGCTTAACTATTATGAATTTGTAGCTGATGCGTATACCACGCTTCAACTGGAACATCATTTTAACGGTAAGATCCTTTCTTATATTCCTTTGATTAAAAAACTAAAACTGAGAGAAGTTGCATTTATCAGGGGAGCATACGGAACATTAAGCGACACTTCTAAAGCAATTAATGTAGAAGGGTTTAAATATTCTGCACCAAGTGAACATATCTATTATGAATACGGATTCGGGATTGAAAATATAGGAATCGGGAACCTTAGAATTTTTAGAGTTGATTTTAACTGGAGAGGAAATTATCTTGACAGGCCTGACATCTCAAAATTTGGAGTTAAAGCAGGTTTCCAGGTAGGATTCTAA	MLFVYAYCLKKRMMLNNNSQKHYLLFFFLILSSSVCAQNRVSGRIVDEKSNKELNKVDIFINDSKTPSLTTTSGSFTIQSDSIIYQLKFSRKSYTTETLDVTPENAENIFVQLSQAKVSDIQEIVIQSGKTKYKSKKENPAYAIMQKVWSHKRNNGLEKFDTYSFKEYEKTQFDLNNLDSTFMKKKIFNKLDFIFSYADSTASGRLGLPIFLNEAVYENYGKNKPDKDSKRTLVAQKTSGFQDNQVITVSAKNLYRDINIYDNTLNYFDIGFQSPVGNDGFGTYDYSLVDTITIRGEKAFQIRYQPKRKDILAFQGNLYIDTDTYAVLGATLKSTQKINVNFVNSVYTQLEYDNPNDETFLPKKLVTEFEMSPFSKKKGSKSIIAKRSVDYSDYQFNKPLDPKVFKRTEEEYEDKFTNKDDAYWTKARPDSLSKAEQGVYNMLDQLQQTPKFNRMVKLFETLGSRYYNAFKGIDIGPIFSIYGRNEVEGDRIRLGARTYFGLNDTWRAQFYTAYGFKDQQFKYGVEARYMFNKLNRFMIGAGTSRDIVQLGGQLTSGDGVTPQSSSTSTFFARGENISLSSVNKTSVFAAIEPWKNFQIRVDGVMQSIKSAIPEKFNLMYYKDGKLRQTVNDSHVTISLIAKPGAKFSQTGIDRYQARNLAPTIVLRYTRGIEGLFNADFNYDKLQFMLYKPFLIGSMGKLVVNLEAGKNFSTVPLALQNIIPANLSYGLAPNTFSQLNYYEFVADAYTTLQLEHHFNGKILSYIPLIKKLKLREVAFIRGAYGTLSDTSKAINVEGFKYSAPSEHIYYEYGFGIENIGIGNLRIFRVDFNWRGNYLDRPDISKFGVKAGFQVGF				NA	NA	NA	NA	NA
BMS003_04200	360			hypothetical protein	TTGGATAAGATTTCAAAAATATTTAGTAAGATACTGCCCATTTATTGGGCATTTCTTACTTATATGCTTCTCAAACCGGGAGAGGAAAACCATGAATATTGGTTTATGTTCAGCGGTATCGATAAAGTATTGCACTTAAGTATATTTGCCGCTTTAGGTTTTTCTTTCATAGCAGCTTTTCCCAAAATAAGATTCTCATATTTTTTTCAGATCATCCTTATTTATGCATTCCTTACTGAAATTTTACAGGAAGAAATGGGATTAGGCAGATCTATGGAAACATTGGATGTCGTAGCAGATACTATCGGGTGTCTGGTTGGGTATTATACCTATAAGCTGTTAATCAAACGTTTCTTTTAA	MDKISKIFSKILPIYWAFLTYMLLKPGEENHEYWFMFSGIDKVLHLSIFAALGFSFIAAFPKIRFSYFFQIILIYAFLTEILQEEMGLGRSMETLDVVADTIGCLVGYYTYKLLIKRFF				NA	NA	NA	NA	NA
BMS003_04201	378	gcvH_5		Glycine cleavage system H protein	ATGAACACACCATCAGAATTAAAGTACACGAAAGATCACGAATGGATCAAGATCGAAGGTAACGTTGCTACAATCGGTATTACAGACTTCGCTCAGGGAGAACTTGGAGACATCGTATATGTAGATGTAGATACGGTAGATGATGACCTTAATGGAGGAGACGTTTTCGGAAGTGTAGAAGCAGTTAAGACGGTTTCAGATCTATTCTTACCTATCACTGGAAAGGTTATTGAATTTAATTCAGATTTAGAAGATCAGCCTGAGTTATTGAATACAGATCCTTATGGAGATGGATGGATCATCAAATTGGAAATTGCTGATGGGGCAGATCAGTCTGAGTTACTTTCTGCAGATGATTATAAAGCGATCATTGGATAA	MNTPSELKYTKDHEWIKIEGNVATIGITDFAQGELGDIVYVDVDTVDDDLNGGDVFGSVEAVKTVSDLFLPITGKVIEFNSDLEDQPELLNTDPYGDGWIIKLEIADGADQSELLSADDYKAIIG				NA	NA	NA	NA	NA
BMS003_04202	7095			hypothetical protein	TTGGTGGCGAATATTAAGCATCTTAACATATTTTTGTTCCTGTCGTTCCTGTGTATGTCTGTCGGTGCTTTTGCACAGGTAAAGAGAGACACAGCGATCATAAGAAAACAATATGGAGTGGCGGATCCTACAAGGTACGAAGCCTATTACGACATAAAAACCGGGATGTACTATGTATATCCTAAAATAGGGAATACCATTACAGGTCCTCCTACAGCAATGTCTCCGGAAGAGTATAAAGAATATATGCTCGCTACGCAGACTAAAGCTTACTACAAAGAGAAATCTGATAAATATAATCTCCTTTTCAGAAAAGATAAATCAGATGCAAGGAGAAAGGGACTTATCCCTTCTGTGATGATCAATAACAGACTCTTCGAAACCATTTTCGGAGGAAATAAAATTGAAATTATTCCTTCAGGGTATGCATCCCTGGATTTTGCCGGGCTTTACCAGAAAATAGATAACCCTATGATCCTGCCACAAAACAGGACCAGCTTTACCTTCGATATTGATCAGAGAATTCAGCTCGGATTATTAGGTAAAGTAGGTGAGAATCTCCAGTTAAAAGCTAACTATGATACCCAGAGCGGTTTTGCCTTTGAAAACAGAATGAATCTCGTTTGGCAGGCAAAAGGAAGCTGGAAAGATCTTCAAAGCAAAGGTCTTGGAAATGTAGACAAACCCAACGAAGGAGGAGAAGATAAAATCATTAAAAGAGTAGAATTCGGTAATGTAAATATGCCGCTTTCAACCAGTCTTATCCGTGGTTCACAATCACTTTTCGGAGTGAAAACAGAATTTCAGCTGGGAAAAACATTTGGTACAGTGGTTCTTTCCCAACAGCAGGGAGAGGCTCGTAATATTGTAGTACAGGGAGGGGGCGTGCTGAATAACTTTAAAGTCAATGCCATTGATTATGAAGAAAACCAGCACTTCTTTTTAGGGCATTACTTCCTGAATAAATATGATGATGCCTTAATAAATTATCCGCAGATCAATTCCACTATTAATATTACCAGATTAGAAGTCTGGGTATTGGATCAGGGGAATAGCAACCTTGCTTATCAGAAAAGTATCATCGGGATCAGAGACCTGGGGGAAGCCGCAGGAGGATTTACGTTACCGGATAACTCTCTGAATGGCTTGTATGATGATGTTTCTTCTATAGCAGGTTCCAGAGAAGCCGGAAAAAACTATGGAACTATATTCCAGGGACAGGTGATTGGAACAGATCCAACTCCTTATGATAACGGAGAACAATTCATATACAATACAAAAGCCAGAAAACTTAATGCCAATGAATATACCTTTCAGCCACAGCTGGGATATATTTCATTAAATCAAAAATTGAATGATCAGCAGCTCTTAGCGGTTTCATACTCTTATACAGTGAACGGAAGTAATAAAGTATACAAAGTAGGGGAATTTTCTGAAGAAAGTCCTGTACTGATTACTAAGGTTTTGAGGGTAAATAATAAAGTGAACACCCAGTCTCCGATGTGGGATCTGATGATGAAGAATATCTATTCAATAGATGCAGGACAGGTAGCACAGGATGGGTTTATCCTTAACGTATACTACAGAGACCCGAAAACCGGAGGTAAAGTAAATTATCTTCCGGATACTCCCGTAAAAGATCAGAACTTATTGAAATTATTTAATTGGGATCGTCTTAATATGAATAACGATATCCAGAATAACAAAGATGGAAGTAAAGGAGATGGTATTTTTGACTTTGTTCCCGGAACCACTATCAGGCCGGAAACAGGAAGGGTAATCTTTACCAAAGTACAGCCTTTCGGTAAATATCTGGAATCAAAATTGGGTACAAGTGATCCTCAGTATGTCTTCCAGGATCTTTATACCAAACAAAAACAACAAGCACTCTCCAGTAACCTTGCGCAGAGGTATACGTTGGAGGGCCGTTATAAAGGAACTCAGGGACAGGGGATTTCTCTGGGAGCGGTTAATGTTCCTCAGGGATCTGTAAAAGTGTCTGCAAACGGTGTGCAGCTTACAGAAGGAGTAGACTATACAGTAGATTATATGCTCGGTACGGTTACTATTATCAATGAAAATGTAAAACAGTCCGGACAGGCTATCAATGTTTCATTGGAGAACCAGTTGACATTTAATACCCAAAGAAAGCGATTCTTAGGATTAAATTTAGAAAGAAGATTCAGTGAGAACTTTATTTTAGGGGGAACGGTAATTAATTATTCAGAATCTCCGCTTACCCAGAAGGTAAATTTCGGACAGGAAGCAGTAAACAATACCATGGCAGGGATCAACCTGATGTACAATAATCAGGCTCCATACCTTACAAGGTTTGCTAATAAACTTCCGATGGTAAAGACCGAAGCTCCATCCAATCTAAACTTTAAAATGGAAGCAGCATATTTGCTGCCCGGATTAAATAAGGGTACAAATAACCAGTCTTATATTGACGACTTTGAACAGACGACTTCTAAAATCTCATTAAAAGAGCCGGCAGCATGGAGTCTTGCTTCAAAACCCGAAAAAAATACATTGCCGCCATTTAACACAGTACCGGCAAATGATGATATAACGAGCGGATATGGAAGAGGATTATTGACATGGTACAATATAGATCCCAGATTCTGGGGGGTTGGAGGAAAAGCACCTTCAGGAATTACACCACAGTCTGTATCCAATCACGCTTCCAGAAGAGTACAATATTCTGAGATCTATAACAACAGAGATTTCGTAGCAGGGGAGCAAACCTTTACGAATACTTTCGATATTTCTTATTTCCCTAAAGAAAAAGGACCATACAACGTCAATCCATTAACAGAACAGGCGCAAAGCAGATGGGCGGGGATCATGAGATCCATCAGTATACCGAACTTCGTTACTTCAAACATCGAATACGTTGAGTTCTGGATGATGGATCCCTATGCAGATGGTAAAACGCTGGGAACCGATCCCAAACTTTTACTTCATTTAGGAAACGTTTCAGAAGATGTTCTGAAGGATGGGAAAATGCAGTACGAAAACGGACTTCCTACACCTGGAACACCATCATCTACTACGAATTCAAACTGGGGAATACAGCCAAAACAACCTCCGATTTTATATGCATTCTCTACAGAAGGAGATGAAAGAAAAGTACAGGATGCCGGATATGACGGCCTTACTTCTGATCAGGAAGCTATGAGATTTGGAAATACATTCGTAAACCCGGTAACTAATATTGCGGACCCTGCAGTGGATGACTTTGTATTCTATATGTCTGATAAATTTACAGGGACCCAGGCTGCTTCAGTGGTAGAACGTTACAAATATTTCAGAAACCCGGAAGGAAACTCAGAAGCAAACTCTTTAAGCGTGGCTTCACAAACTCCGGATGCAGAAGATATTAATAAAGATTATAATCTTGATCAGACAGAAAATTACAACCAGTATGTTATCAAACTTGACCAACAAAGTTTGTCACTTGGATCGAATAATATTGTAGATGTAAAAACAGTAAAAGCAACTTTCCAGAATGGGCAGACTTCAGATGTTAAATGGTATTTGTTCAGAATTCCTGTGGCAAATTATGATCCAGCTGAAGGAACACACGAAGATGCAGTTTTGAATAATGTAAGATTTGCAAGACTAATGCTTACAGGATTTGAGCAGACCTCTACTCTAAGATTCGGAACAATGGATCTTGTAAGATCAGACTGGAGAAAGTATACCAGCAAAATTGCCAGTATAAATGTTACCAATCCCGAAGAAGGTACGGGAACTGTGACAGATCCTAATTTTGAAATAGGAAGTGTGAATATTGAAGAGAATGCACTGAACCAGCCTCCATATGTGTTGCCTCCGGGAATTGACAGACAGGTTTTGAGTGGTAATGCAGGAGCTCAGAGACAGAATGAAGCTTCACTTTATATGAAAGTGAAAGACCTTAAAACTGAGGCAAGAGGGGTGTTCAAAAATACAACGTTGGACATGAGAAGATACAAAAAGCTGAAGCTCTTTGTACACGCTCATGATCCGGAAAATAGAGATCCAAATGTAGGGGCGTTTGATCCTAAGACAAAATTTTTTATTCGTTTCGGAAGTGATGCCACTGATAACTACTATGAATATGAATCTACAATGAAGCTTACTTCTACAACTTCTACAGCTCCTATGGAAATCTGGCCAATGGAAAATGAAGTTGATTTTGATGTTCAGAATTTTGTGGATGCAAAGATCAGAAGAGACAAATCAGGAGTTGCTATTACTGACCGAACAATGGATCCTTCTTACCAGGAACCTTTCAAAAATATTTATATTAAAGGTAGGCCGAGTTTAGGAAATATTACAACCATTATGATCGGGGTAAGAAATGCAGATGTAAGAGGAGGTGCTGGAATTACAAGAGTTCTTTGGGTCAACGAAATCCGTCTTTCTGAAATAGAAAATGATGGCGGGTATGCTGGAAATGCCAGTTTAAACTTCAATATGGGAGACCTGGCAACCGTGAATGCCAATGCATCTTATACATCGGTTGGTTTTGGTAATATTGATTCAAAACCTGCGGAAAGAACGCAATCTACCCAGTCGGCATTCAGTATTAATACTGCGGTTAATCTGGATAAATTCCTTCCTGAAAAAACAGGAATGAAGATCCCATTAAACTATTCTTACTCACAAACTATAGAAGATCCTAAGTATAATCCTCTTGATACTGACGTAGAATTCAATAAGGCACCTAATAAGGATCAATTGAAAAAAGTGGCAAGAACTTATACCCAACAAAGAAGTATAGGGGTGGTGAACATGCATAAAGAAAGGGTGAATCCAAATAAAAAGCCTAAATTTTATGATATTGAAAACGTATCTGTAACAGCGGTTTATAATGATGACTATTTCAGAGATATCTATACCAAGAAAAATTACAGACAATACCTGAGAGGATATATAGATTATAACTACACGTTTAAACCGTGGGTGATAAAACCTTTCAATAAGATGATCAGTGATACAGCGAAATCTACAAAGTATCTGAGATGGGTGAAGGAATTCAATTTTAATCCGATTCCTACGAGATTATCTTTCAGAACTGAAATCGACAGAAATTATAATGAGCTCGAGTTTAGAAACGTAGAAGCAATTCTTAACGGAGATATGAATAATAACTTCGATGCTATAAGAAACAGAAACTTTTTCTTTGGATGGCAGTATGGGCTAGGATTTAATTTCACAAAATCATTAAAACTGGAAATCAATTCTGCAACCAGAACCCTTAATGATAATCTGGATGTAAATTCGATGGATAACAAGTCGATTTTCGGAAATGTATTCAGAGCAGGAAGACCGGTATTGTATAACCACAGGGCGCAGCTGAATTATAAACTGCCGTTCCAGTATCTTCCTTATCTTGATTTCATTGATGCAGAAGTAGGATATGGATTTACCTATAACTGGGCCGCCAGATCTACATCATTGCTTGGGTTTACGGACCCCAATACGAACCAGACGGTAAGTTTGGGATCTGTTGGCCAGAACACAAATGTTATCCAGGCAACAGCTTCAGCGGATCTTCCTAAGTTTCTGGGGCAGTTTAATTATTTCAAAAAGATAAATGCCAAGCTTCAGAAACGCAGACAGGAGATGGATTCTCTTAATAATGTGTATACGAAACAATGGGAGAAAAACAGATACAGATACAAGAAGTATAAGTTCAAAAACAGACTTACTCCACTTCAAAGTGCTGCATTCTTCCTTACATCCTTCAAACAGTTGAATGTAAGTTATAATGAAACAAACGGTACGGTACTTCCGGGATTAATATCGGCTCCAAACTGGTATGGATATGGACAGACATTAGGAGGGCCAACAATTGGATTCCTTTTTGGCTCACAGGCTGATATCAGAAGAACGGTCATGGAAAACGGATGGGTGAGTGGTTCGAACTACATGACAGATCCATATGTGAGAATGTCTACCAAAGAATTGAGGGCAGACCTACAGGTAATGCCGATGAATGATTTAAGAATTGATCTTAATGTGCTGCATACCTTTAACAGTAACTTCTCACATACAGGATTTAACTATACCAATAACGGAGTGCCGGATCCTGACTTTACATTTGCCAGTGAAATGACTACGTATTCCAATACAACAACACTTCTTAGTTCTTCATTTAAGGATGGACAAGCAGTTTATCAGGCCATCAGAGAAAATGCAAGAGCCCTTTCTCAGCAATTGGGAGGTCCGGGAGCTGTATTGGATAATAATGGATTTGCACAGCATTATAGCATTGGAAATGCTTATGTATTGATTCCTGCCTTTAGAGCTGCTATGGAAGGAAAATCAGTAACACCAATGACTAATCCTAAAAAAGCAGGATTTCCGTTGCCAAACTGGAGAATTACTTATTCAGGATTGAAAAATATTCCGATGATTAGCGGGCAGTTCACGAAGTTTGACATCTTACATGCCTATACCGCTACGTATACAGCAACAGGTATTCAAAGCAATGTAGACTATCATGGCAACCCGAACGGATATTATCAGACAGTAGATGATGCCGGTAATGTGAAAAAAGATGATGGAGACAAGATTAACCCATATACATTTGCACAGGTTGGATATGTAGAATCTTTCTCACCACTTATCGGAATAGATGTTACCATGAGAAACAATATGCAGTTTGGAATACAGTATAACAGAACCAGAATGATGGTATTGGGATTGGTGAACCAGACACTTACTGAAGATGCCAATACAGAATATGTTGTAAGACTGGGATATATTATCAGAAACTTCAGATTGGGCACAGCCAATATCAGAGGAAGAGGAACAAGAGGTAAAGGAAGTGATCTGAATATAAGAGGTGATATTTCATTAAGAGACAGTAAAACGTCCATTATGAATATTCTGTTGAATGATGCTCAGGTGACAGGAGGACAAAGACTGATGAACATCAAACTTTCAGCAGACTATAATGTTTCCGAGAACTTGAACCTGAGGGTATTCTACGAACAGATGACCTCAAAGTATAAGATCTCCACAGCATTCCCGCTGTCTACAATCAGAGCAGGTATCTCAGCCACATTTACATTCGGTGAATCCGGAGGCGGGTTCTAA	MVANIKHLNIFLFLSFLCMSVGAFAQVKRDTAIIRKQYGVADPTRYEAYYDIKTGMYYVYPKIGNTITGPPTAMSPEEYKEYMLATQTKAYYKEKSDKYNLLFRKDKSDARRKGLIPSVMINNRLFETIFGGNKIEIIPSGYASLDFAGLYQKIDNPMILPQNRTSFTFDIDQRIQLGLLGKVGENLQLKANYDTQSGFAFENRMNLVWQAKGSWKDLQSKGLGNVDKPNEGGEDKIIKRVEFGNVNMPLSTSLIRGSQSLFGVKTEFQLGKTFGTVVLSQQQGEARNIVVQGGGVLNNFKVNAIDYEENQHFFLGHYFLNKYDDALINYPQINSTINITRLEVWVLDQGNSNLAYQKSIIGIRDLGEAAGGFTLPDNSLNGLYDDVSSIAGSREAGKNYGTIFQGQVIGTDPTPYDNGEQFIYNTKARKLNANEYTFQPQLGYISLNQKLNDQQLLAVSYSYTVNGSNKVYKVGEFSEESPVLITKVLRVNNKVNTQSPMWDLMMKNIYSIDAGQVAQDGFILNVYYRDPKTGGKVNYLPDTPVKDQNLLKLFNWDRLNMNNDIQNNKDGSKGDGIFDFVPGTTIRPETGRVIFTKVQPFGKYLESKLGTSDPQYVFQDLYTKQKQQALSSNLAQRYTLEGRYKGTQGQGISLGAVNVPQGSVKVSANGVQLTEGVDYTVDYMLGTVTIINENVKQSGQAINVSLENQLTFNTQRKRFLGLNLERRFSENFILGGTVINYSESPLTQKVNFGQEAVNNTMAGINLMYNNQAPYLTRFANKLPMVKTEAPSNLNFKMEAAYLLPGLNKGTNNQSYIDDFEQTTSKISLKEPAAWSLASKPEKNTLPPFNTVPANDDITSGYGRGLLTWYNIDPRFWGVGGKAPSGITPQSVSNHASRRVQYSEIYNNRDFVAGEQTFTNTFDISYFPKEKGPYNVNPLTEQAQSRWAGIMRSISIPNFVTSNIEYVEFWMMDPYADGKTLGTDPKLLLHLGNVSEDVLKDGKMQYENGLPTPGTPSSTTNSNWGIQPKQPPILYAFSTEGDERKVQDAGYDGLTSDQEAMRFGNTFVNPVTNIADPAVDDFVFYMSDKFTGTQAASVVERYKYFRNPEGNSEANSLSVASQTPDAEDINKDYNLDQTENYNQYVIKLDQQSLSLGSNNIVDVKTVKATFQNGQTSDVKWYLFRIPVANYDPAEGTHEDAVLNNVRFARLMLTGFEQTSTLRFGTMDLVRSDWRKYTSKIASINVTNPEEGTGTVTDPNFEIGSVNIEENALNQPPYVLPPGIDRQVLSGNAGAQRQNEASLYMKVKDLKTEARGVFKNTTLDMRRYKKLKLFVHAHDPENRDPNVGAFDPKTKFFIRFGSDATDNYYEYESTMKLTSTTSTAPMEIWPMENEVDFDVQNFVDAKIRRDKSGVAITDRTMDPSYQEPFKNIYIKGRPSLGNITTIMIGVRNADVRGGAGITRVLWVNEIRLSEIENDGGYAGNASLNFNMGDLATVNANASYTSVGFGNIDSKPAERTQSTQSAFSINTAVNLDKFLPEKTGMKIPLNYSYSQTIEDPKYNPLDTDVEFNKAPNKDQLKKVARTYTQQRSIGVVNMHKERVNPNKKPKFYDIENVSVTAVYNDDYFRDIYTKKNYRQYLRGYIDYNYTFKPWVIKPFNKMISDTAKSTKYLRWVKEFNFNPIPTRLSFRTEIDRNYNELEFRNVEAILNGDMNNNFDAIRNRNFFFGWQYGLGFNFTKSLKLEINSATRTLNDNLDVNSMDNKSIFGNVFRAGRPVLYNHRAQLNYKLPFQYLPYLDFIDAEVGYGFTYNWAARSTSLLGFTDPNTNQTVSLGSVGQNTNVIQATASADLPKFLGQFNYFKKINAKLQKRRQEMDSLNNVYTKQWEKNRYRYKKYKFKNRLTPLQSAAFFLTSFKQLNVSYNETNGTVLPGLISAPNWYGYGQTLGGPTIGFLFGSQADIRRTVMENGWVSGSNYMTDPYVRMSTKELRADLQVMPMNDLRIDLNVLHTFNSNFSHTGFNYTNNGVPDPDFTFASEMTTYSNTTTLLSSSFKDGQAVYQAIRENARALSQQLGGPGAVLDNNGFAQHYSIGNAYVLIPAFRAAMEGKSVTPMTNPKKAGFPLPNWRITYSGLKNIPMISGQFTKFDILHAYTATYTATGIQSNVDYHGNPNGYYQTVDDAGNVKKDDGDKINPYTFAQVGYVESFSPLIGIDVTMRNNMQFGIQYNRTRMMVLGLVNQTLTEDANTEYVVRLGYIIRNFRLGTANIRGRGTRGKGSDLNIRGDISLRDSKTSIMNILLNDAQVTGGQRLMNIKLSADYNVSENLNLRVFYEQMTSKYKISTAFPLSTIRAGISATFTFGESGGGF				NA	NA	NA	NA	NA
BMS003_04203	585	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	ATGATATTTTCTTTACAAGGCAATGTTCAGGAACTTACGCCTACCTACGCAGTTATCAATGTGCAAGGAGTTGGTTACTACGTGGGAATAAGTTTGATGACCTCACAAACGCTGGTTTTGAATCAGCAGACCTTTTTATTTATACAGCAGATCATCCGTGAAGATGCTCATCTTCTCTTTGGATTTAACACTCGTTCAGAAAAAGAAATGTTCAATCTGTTAATAAGTGTTAATGGAGTGGGCGCTGTTTCAGCACTTATTCTACTGTCTACATTGAGTCTTGATGAGATCGCTTCTGCCATCCTTTCCGGAAACAGTGCATTGATCCAAAAAGCGAAAGGAATCGGAGCAAAAACAGCCGAAAGAATTATCGTAGATCTTAAAGATAAAGTACAGAAATACAGTGATCCAAATGCTAATATTTCTGTGGTAGTGGATAATAAAATCAAGGAAGAATCGTTATCTGCATTAGAAGTTTTAGGGATTCCTAAACGAACGAGCGAGAAGATTGCGGATAAAATTATGAAACAAAATCCAAGCATCTCGGTAGAAGAATTGGTTAAACAAATCTTAAAAAACATTTAA	MIFSLQGNVQELTPTYAVINVQGVGYYVGISLMTSQTLVLNQQTFLFIQQIIREDAHLLFGFNTRSEKEMFNLLISVNGVGAVSALILLSTLSLDEIASAILSGNSALIQKAKGIGAKTAERIIVDLKDKVQKYSDPNANISVVVDNKIKEESLSALEVLGIPKRTSEKIADKIMKQNPSISVEELVKQILKNI				NA	NA	NA	NA	NA
BMS003_04204	2292	maeB	COG0280	NADP-dependent malic enzyme	ATGTCAAGTAACAACAATCGTGACGAAAAGAACTTTAGCCAGGCAGCGCTGGATTATCATAAAGCAGAACCCAAAGGAAAAATTGAAGTTATCCCATCAAAGCCGCACTCTTCCCAAAGAGACCTTTCACTGGCTTATTCTCCGGGAGTAGCTGTTCCTTGTATGGAAATTCATGATAAACCCGAGACAGTATATGATTATACGGGAAAAGGAAACCTGGTAGCAGTAATTTCTAACGGTACTGCGGTACTTGGACTGGGAGACATCGGTGCTGAAGCTTCAAAGCCGGTAATGGAAGGAAAGGGACTTTTGTTCAAGATCTTTGCGGATATCAACGTTTTTGATATTGAGATCGATGAAAAAGATCCGGATAAATTTATTGAAATTGTAAAAGGAATTGCCCCTACATTCGGAGGAATCAACCTGGAAGATATTAAAGCGCCTGAAGCTTTTTATATAGAACAAAGACTGAAAGAGGAACTGAATATTCCTTTGATGCACGATGACCAGCACGGAACAGCAATTATCTCGGCTGCTGCATTGATCAACTCTCTGCAGATTGCCAATAAAGATATAGATAAAGTGAAAATGGTGGTAAACGGAGCGGGTGCGGCAGCTATTGCATGTACCAAGCTTTATATTTCATTAGGACTGAAAAAAGAAAACGTTCTGATGTGTGACAGTAAAGGAGTTATCAATCATAAAAGAGAAAACCTTACACCGGAAAAGTTAGATTTCATTGTTGAGACAGATATTGAAACATTAGAAGATGCTGTAAAAGGATCTGATGTTTTTGTCGGATTGTCAAAAGGAAATGTAATGACTCCGGAAATGCTGTTGAGCATGAGTGAAAACCCTATTGTATTCGCTTTGGCTAACCCTGACCCGGAAATTGCTTACAACCTTGCTCTTGATACCCGTAAAGACGTAATTATGGCAACAGGAAGAAGTGATTATCCTAATCAGGTAAACAATGTATTAGGATTCCCATATATCTTCCGTGGTGCATTAGACGTACAGGCTACAGGAATTAATGAAGAAATGAAATTAGCTGCGGTACATGCTATTGCTGATCTGGCAAAAGAACCGGTACCGGAAGCTGTAATTTTAGCATACAACGTTCAGAACCTTCAGTTCGGGAGAGAATATTTCATTCCAAAGCCATTTGATAACAGGCTGATCACAAAAGTATCAAGTGCTGTTGCAAAAGCAGCTATTGAAAGTGGTATTGCAAGAAAAACCATTACGGATTTTGAAGAGTACGAGAACCAGCTTTTAGACAGGATGGGAAGAGATGAGAGATTGGTAAGAATGATGCAGAGCCGTGCGAAATCCAATCCGAAAAGAATCACCCTTGGAAATGCTGAAGAGTACAACGTATTGAAAGCTGCCCAGATTCTTTATGAAGAAGGAATTGCTTATCCAAGCCTTTTAGGAGATAAGAAATACATCAAGGAGCAGATGGAACGTTACGGAATTACACTGGATATTCCAATCATTGATCCTAGTGATGATGATCAGAAAGAAAACAGAAAAAAATACAGAGAAACCCTTTGGAAACTTCGTCAGAGAAAAGGAATGAACGAGTACAAAGCAAAAAGACATGTACGTCAGAGAGACTATTTCGGGCCTCTTATGCTGAAGCATGGCGATACTGACGGGCTTATCGTAGGATTCTCCAAAAATTATACTTCAGTTTTACGCCCTATTCTGGAAGTTATTGAAAAAGATAAAGGGGTAGATAAAGTGGCAGCAATGATGATGATTCTGTCTGAAAAGAAACCTATTTTCTTCGCAGATACCTCCATCAATCAGAACCCTACAGCAGAAGATCTTGTAAATATTGCTAAAATGTCAGAATTTACAGTAAAATCTTTCGCTATAGAACCGAGAATTGCTATGCTTGGGTTTGAAAACTTTGCAGCCATCTCTGAAACATCCAAAAAAGTAGCAAAAGCAGTAAGCATCCTTCATGAAAAATTCCCTAAAATGATAGTGGATGGTGAAATTCAGCCGGATTTTGCAATGAATGCAGATCACCTGAGTGATTATCAGTTCTCAAAACTGGGGACTACACCTGCCAATACCTTCATTTTCCCGAATCTGGAAAGTGCCAATCTTTCTTACAAAATTCTGAGAGGAATGAAAGTGGCACAGGTTATCGGACCTATCTTGATGGGATTAAAACAGCCGGTGCACGTACTTCAGATGCGTTCAAGTGTAGATGAAATTGTAAACCTTGCTACCATTGCCGTTCTTGATGCTCAAAGAAGAGAAAAGAAATCAAACTAG	MSSNNNRDEKNFSQAALDYHKAEPKGKIEVIPSKPHSSQRDLSLAYSPGVAVPCMEIHDKPETVYDYTGKGNLVAVISNGTAVLGLGDIGAEASKPVMEGKGLLFKIFADINVFDIEIDEKDPDKFIEIVKGIAPTFGGINLEDIKAPEAFYIEQRLKEELNIPLMHDDQHGTAIISAAALINSLQIANKDIDKVKMVVNGAGAAAIACTKLYISLGLKKENVLMCDSKGVINHKRENLTPEKLDFIVETDIETLEDAVKGSDVFVGLSKGNVMTPEMLLSMSENPIVFALANPDPEIAYNLALDTRKDVIMATGRSDYPNQVNNVLGFPYIFRGALDVQATGINEEMKLAAVHAIADLAKEPVPEAVILAYNVQNLQFGREYFIPKPFDNRLITKVSSAVAKAAIESGIARKTITDFEEYENQLLDRMGRDERLVRMMQSRAKSNPKRITLGNAEEYNVLKAAQILYEEGIAYPSLLGDKKYIKEQMERYGITLDIPIIDPSDDDQKENRKKYRETLWKLRQRKGMNEYKAKRHVRQRDYFGPLMLKHGDTDGLIVGFSKNYTSVLRPILEVIEKDKGVDKVAAMMMILSEKKPIFFADTSINQNPTAEDLVNIAKMSEFTVKSFAIEPRIAMLGFENFAAISETSKKVAKAVSILHEKFPKMIVDGEIQPDFAMNADHLSDYQFSKLGTTPANTFIFPNLESANLSYKILRGMKVAQVIGPILMGLKQPVHVLQMRSSVDEIVNLATIAVLDAQRREKKSN	PGPT0001685_1204	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS003_04205	852			hypothetical protein	ATGGTTGCTATTGTAGATAGTGGTTCTACTAAATCGGATTGGGTAATACTTGATGACTTTAAAAAAGTTTTTCTGAAAACAGAAACAATTGGTTTCAATCCGAATTTTATCAACAGAGAACTTATCGCTCCTGAGATACAGAAAAATAGCAATCTGATATCGGTTAAAAATTCAATTACCAAGGTATTCTTTTATGGTTCCGGATGTGGTGTGAAAAAAAACTGCGAAACCATAGAAGAAGAATTGAAGAAAGTTTTTGGAAAAGCAGAGATTATAGTGAAGGAAGACCTGATGGCTGCAGCATATGCAGCATATACCGGAAAACCTGCTATCGTGTGCATTCTTGGCACAGGATCAAATTCTTGTTTTTTTGACGGTAAAAATGTAAAGATAGAACTGCCTTCACTGGGATTCCTGATTGGGGACGAAGGAAGCGGCAGTGCTATCGGAAAGCAATTGGTACGCAGGTATTTCATGAAAAAGCTGCCTGCAGATCTCCATCAAGAATTTGAAGCGGAATATCAGCTTACCGTAGAAGATGCATTGAAAAATATGTATCATACTCCAAGACCTAATGCTTATCTTGCGAATTTTACCAAATTTGTAATCGAAAGAAAAGAACATCCTTATTTCATGGATATGGTTTTTGAAGAAATGAAAAACTTCTTTGAATATCAGGTTCTCCCTTATGAGGAAGTGAATGAAGCCGAGATCAATTTTATCGGCTCCATTGCCTATTATTATGAAAATACACTGCGTTCTGTAGCTACAGAACTTAATTTAAATGTGGGACATGTTGTGCAGAAACCAATTGAAAGCTTAGTAGATTACCACATTAAATATATACTTTAA	MVAIVDSGSTKSDWVILDDFKKVFLKTETIGFNPNFINRELIAPEIQKNSNLISVKNSITKVFFYGSGCGVKKNCETIEEELKKVFGKAEIIVKEDLMAAAYAAYTGKPAIVCILGTGSNSCFFDGKNVKIELPSLGFLIGDEGSGSAIGKQLVRRYFMKKLPADLHQEFEAEYQLTVEDALKNMYHTPRPNAYLANFTKFVIERKEHPYFMDMVFEEMKNFFEYQVLPYEEVNEAEINFIGSIAYYYENTLRSVATELNLNVGHVVQKPIESLVDYHIKYIL	PGPT0018875_943	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018875-gspK-K18676	NA	NA
BMS003_04206	264			hypothetical protein	ATGAAACGTCAAAACAAATACAGAAAATTCCAGCTTCAACAGAAAAATATTGAGGCTCTCGAGAAAGAAAATTCCCGCTTCAAAAGAGTGTATTCCGAATATGAAAATATGTCAAATGAATTGTGGAATCTTGAAAACTCCAAAGGAGAACCGGTACCGGACGATTTTATCAATGCCATGGTATTACAGGCTTCTTACCTTGAAGATGAAATAGAAGACTGGCTAATACAATTCAACGAAAACAGAACACGTATTAAACATTAA	MKRQNKYRKFQLQQKNIEALEKENSRFKRVYSEYENMSNELWNLENSKGEPVPDDFINAMVLQASYLEDEIEDWLIQFNENRTRIKH				NA	NA	NA	NA	NA
BMS003_04207	459			hypothetical protein	ATGAAAGAAATACTCTTACGCCAGAAACAGGTTTTGTTCTTCATCATTGCTGGAGGGCTGAGTGCTATTGTAGAAATCGGAAGTTTTAAAGTCTTCAGTACTTACCTTCCTCACTTTTTTGCAAGGGAGACTGATTTTTATGGTGTACATTATCCTTTGAGTAATATATTTTCTACGAGCTGCGGGATTATTACCAACTACTTCTTAAGCATCTGGTTTGTATTTGAAAGAGGAAAACATTCCAAGAGAAAAGAGTTTGTTTATTTTATGGTGGTTTCCTTTTTTTCAACATTGCTAAGCTTAGGTTTTTTCCAAATATTCTACAGTTTCATATTTAAAGATAATATCAATTTATTTTTTTATACCTTGAGCCCGGAAATGATCAGTAAAATTGCAGCAATATTACTGGTTTCCATTCTGAATTATTCTATCAAGAAGAAAGTAATTTTTAACGGTTAG	MKEILLRQKQVLFFIIAGGLSAIVEIGSFKVFSTYLPHFFARETDFYGVHYPLSNIFSTSCGIITNYFLSIWFVFERGKHSKRKEFVYFMVVSFFSTLLSLGFFQIFYSFIFKDNINLFFYTLSPEMISKIAAILLVSILNYSIKKKVIFNG				NA	NA	NA	NA	NA
BMS003_04208	738			hypothetical protein	GTGACAAAAATTTTAAATTATCTCTGGAGGTTCTGGCTGCTTCTGTTGGCTTTTTTTCTGACAGTCAGCATCGGGATTCCGGTCTATATTTTATCCTTCAATAAAAAACATTATAAGTACGGCTATAAACTTGTCAGGCTATGGTGTTTCGGCATGTTTTACGGAATGGGTTTCAGGTATGATCTGATTAAGCTTTCGGAACAGGAAAAAGATAAGAATATACCTTATGTTTTTATCTCCAATCATACCTCCATCATGGATATTATGCTTGTCTGTATTCTGTTTCCTGATCATCCCATCTGTTTTGTAGGAAAAAAAGAACTGGTAAAGATTCCTATTTTCGGAACCATCTATAAAAGAATATGTGTCATGGTAGACAGAGCAAGTGCAAAAAGCCGTGCAGATGTATACCGCAGATGTGCAGAGAAAATGGAAGAAGGCAACAGTATTGCCCTCTTTCCGGAAGGCGGCGTACCGGATGACACTTCTGTTATTCTGGATGATTTTAAGGACGGCGCATTCATGCTGTCTTCAAAACATCATTCTCCTATAGCTGTTTATACCTTTGTGGGTCTCAAGGAAATGTTCCCTTTTGAAAACTCAAAAGGCTATCCTGGAAGAGTAAAGGTATATTTCAACGGAATCATTGAGCCTACAGATTCGCCGAAGGACTTAAAGGCAGAGGCTTATGAGACAATAAAAAAAACCTTAATTCGGTATTCCGTTGAAAGGAAATAG	MTKILNYLWRFWLLLLAFFLTVSIGIPVYILSFNKKHYKYGYKLVRLWCFGMFYGMGFRYDLIKLSEQEKDKNIPYVFISNHTSIMDIMLVCILFPDHPICFVGKKELVKIPIFGTIYKRICVMVDRASAKSRADVYRRCAEKMEEGNSIALFPEGGVPDDTSVILDDFKDGAFMLSSKHHSPIAVYTFVGLKEMFPFENSKGYPGRVKVYFNGIIEPTDSPKDLKAEAYETIKKTLIRYSVERK	PGPT0024380_3489	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
BMS003_04209	1446	fucP_3	COG0738	L-fucose-proton symporter	ATGTCAAATTATTCTAAACAAACCAATTGGGCACAATTCATTCCGTTGGTTACGGTATTCTTCTTTTGGGGATTTGTAGCAGCCAGTAATGATATTCTGATCCCTGTTTTTCAAAAGGCCTTCAATCTCTCTCAGACTGAGAGTATGCTGGTACAGATATGCTTTTATGTAGCATATACGGTAGGATCTTTAATTTATATGCTTGTATCAAAGAGTCTGAAACAGGATTTGATCAATAAAATCGGCTATAAAAACGGGCTTATTGTAGGGCTTCTTATTTCTGCAATGGGAACACTGCTGTTTTATCCGGCTGCCAATATGCATTCTTTCCCTTTAATGATCTCAGGATTATTTATTGTAGGTTTAGGGTTCTCTCTTCAGCAGATTGTGGCCAATCCGCTTGCTATTGAAGTAGGTCCTACGGAAACCGGATCTCAGCGATTAACAATGGCAGGTGGTATCAACAATTTAGGAACTACCATAGGACCGCTTATTGTAGCGTTTGCTATTTTTGGTTCTGCCAGCGCCGGTAATACGGAAGCGAGTATAGAAAGTGTGAAAGTACCTTATCTTATATTAGGAGCCGCTTTCGCTCTTGTAGCTTTGATGCTTAAATTCTCTTCTCTTCCTGCTGTAACTCCTACTAACACGGAGAATACAGATGATAAGACTCCGGGAGAACACAGAACATCGGCTTTCCAGTATCCTCAATTGGTAATGGGAATGATCGCAATCTTCGTTTATGTAGGAGTAGAAGTTTCCACAGCGAGTAACCTTCCTGCTTATATGGAAAAGAATTTAGGATTTGAAACAAAAGATGTAGCACCTTATATCTCTTTATACTGGGCTTCATTAATGATTGGGCGTTGGACAGGTGCCGTTGAGGCATTTGATGTGAATGCGGGCTTCAAAAAGATCTTAAGATTCTTAGCTCCTTATCTTGCATTCGGTGTATTTTTATTAGTAAACGCCATTGCCAAGCATGACCTTTCTCCTTTCTATGTCTATGGATTTATCATTATTGCTATGATTATCTGTGATATTTTAAGTAAAGGAAACCCGGCAAGAATGCTTCTGATCTTCTCTTTAGCAGGGATTACAGCTTTGCTTATAGGGATGTTTACTACGGGAATGGTGTCTGTGTATGCATTTACGAGTGTAGGTCTTTTCTGCTCTACTTTATGGCCATGTATCTTCGCATTGGCGATCAACGGACTTGGAAAGCACACCAACCAGGGTTCAGGATACCTTATTATGATGATTATGGGAGGAGGTATCGTAAGCTTTATACAGGGTTATATTGCTGATATCACAAATATTCATTTCAGTTATATCGTAGGGGTTATTTGTTTTGCTTATCTTGCATTCTATGCGATCCGTGTGACTGGGATTCTAAAAGCTCAGGGCATTGATCTTGATAAAATATCTAAAGGCAGTGGTCATTAA	MSNYSKQTNWAQFIPLVTVFFFWGFVAASNDILIPVFQKAFNLSQTESMLVQICFYVAYTVGSLIYMLVSKSLKQDLINKIGYKNGLIVGLLISAMGTLLFYPAANMHSFPLMISGLFIVGLGFSLQQIVANPLAIEVGPTETGSQRLTMAGGINNLGTTIGPLIVAFAIFGSASAGNTEASIESVKVPYLILGAAFALVALMLKFSSLPAVTPTNTENTDDKTPGEHRTSAFQYPQLVMGMIAIFVYVGVEVSTASNLPAYMEKNLGFETKDVAPYISLYWASLMIGRWTGAVEAFDVNAGFKKILRFLAPYLAFGVFLLVNAIAKHDLSPFYVYGFIIIAMIICDILSKGNPARMLLIFSLAGITALLIGMFTTGMVSVYAFTSVGLFCSTLWPCIFALAINGLGKHTNQGSGYLIMMIMGGGIVSFIQGYIADITNIHFSYIVGVICFAYLAFYAIRVTGILKAQGIDLDKISKGSGH	PGPT0016725_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FUCOSE_TRANSPORRT,PGPT0016725-fucP|MFS_transporter|FHS_family|L_fucose_permease-K02429	NA	NA
BMS003_04210	909			hypothetical protein	ATGCTATTCAGCCGAATCCCTTTTTCTGTGGGAGATCTTCTCTATATTATATTGGGAGTCTTTCTTTTGTATGATATTCTCTCTTTATTCAGGAAAGAAAAAAGAAATGGTTCTTTGATCAGAATTCTGATTACCATCAATGTATTTTACCTTATTTATCAGGTCTTTTGGGGTATGCTGTACTTTCAGACCCCGATTATTAAAAAACTTCCGAGCCAGAAAGAACCAGATATAGAAAAAGCAAAAAAACTGGCTCTTACCTATCTTGAAAAATGCAAGATAACCCGCCAGTCTGTACAGGAAGACCGTAATGGAATATTTATCATTACCAATCTTACCTCTATACAAAAGGAAATTCTGTACCAGCAGACAAAACTGCCATCTTATATTTCAGTCAAAAAAGCACCGCAGATTCTGGATATTAAACCCAGCTTGTTCAAAAATGTAATGAACTTTACAGGAATCCTGGGGTACTACAATCCTTTTACAGCTGAAGCCCAGTTCAATTCTGAACTGCCTCACACATTTATTCCCTTTACAACAGCTCATGAAAGCTCTCATCAGCTGGGTTTTGCCAGGGAGCAGGAAGCTAACTTTGTGGGATATTTAATAGGAATTCACTCCACCAATCCGGAGCTAAGATACAGTACTGAGTTTTTTACTTTAAAAAGCCTTTTAAGATTCATTGTGGAAGAAGATCCTGAGTTTGTAAAAAATGTCCTTCATCATTATTCTCCCGCCATGAAAAGAGACCGTGCGTATGAAAAAAGCTTCGTTTTACGGCATCAGGGCTGGCTGGATGATTTCTTTGGATTTACCAATAATTTATTCCTGAAAAGTAATCAGCAGGAAGGCTCCGTAACGTATTCTTACTTTATAGACCTTCTCTTAAATTACGAAAAAGCATAA	MLFSRIPFSVGDLLYIILGVFLLYDILSLFRKEKRNGSLIRILITINVFYLIYQVFWGMLYFQTPIIKKLPSQKEPDIEKAKKLALTYLEKCKITRQSVQEDRNGIFIITNLTSIQKEILYQQTKLPSYISVKKAPQILDIKPSLFKNVMNFTGILGYYNPFTAEAQFNSELPHTFIPFTTAHESSHQLGFAREQEANFVGYLIGIHSTNPELRYSTEFFTLKSLLRFIVEEDPEFVKNVLHHYSPAMKRDRAYEKSFVLRHQGWLDDFFGFTNNLFLKSNQQEGSVTYSYFIDLLLNYEKA				NA	NA	NA	NA	NA
BMS003_04211	1515			hypothetical protein	ATGATTTTTGACAAACTAATCAACCATCTAAAGCTCGATAAACAGGAATTTATTTTCCAGTTCAATTCTCATCCCAATTACCCATCTGCACTAGCTTTTAGTGATACACTTAATTTTATGGGGGTGAAAAATGATGCTTATGAGCTTGACAAAGAATATTGGGACGAACTTCCGGAAGAATTTATTGCAATTGTTGAAAACTCTTTTTCTCTTGTAAAAAAGTCAGGAAGCAATTATTCAGTTTATTCGGAAAAGGCAAAGACTTTTGGTAAAGAAGAGCTTTATACCAAGTCAACAGATTTCGTACTTCTGTTTGAAAAAACGGAAAATGCAGAAAATAAACTGGCATTCAATTTCAAGCCGGTACTTTATATCATATTTGCAGCTGTTCTTGCGTATTCATTAGTAAGTCAGACAATTTATGAAGCCCTTTTCAATATTCTTTCTTTAGCAGGAGTTTATATTTCACTGGAAATTTTCAATCAGAAATTTGGAAATACTTCTACTGTGATCGGAAGTATTTGCGGAGGTGGCGGTGCTGCAGCAAACCAGGCAGCCAACTCTTGCGATAAAATTATTAAACAGGATAAAACCAGTATTTTAGGGTTAAAGTTTGCAGATTTCTCTTTAATCTATTTTGCAGGACTTGCAGTATTAGGACTTTTCTTACCAGCCACAGCTTATATTGTAAAAGGTTTTACCTTTGTTTCTGTACTGGCAATAGGATATTCTCTGTATATTCAGGCTTTTGTGGAAAAAACATTCTGCAGAGTATGCCTTTTGATTATTTCAATCCTTGTGGGGCAACTGGTGATCAGCAGCTTATTCTTCCAGAATCTGTCTTTCAGCGTAGGAACTCTTCTACTGACTGTCATTTTATGGGCACTTGTTTTCTCTTCAATTATTTATTTCAACACTTTGCTGGAACAAAAAGAGGCCCTTCAGAAGTCGAATGCGAAAAATCTCAGATTCAAAAGAAACTATGAGCTTTTCAAAAACCAGATGGAACAGAATAAGAAAATTGAATTCCAGGACACAGAAACTTTCGTAGTGGGGAAAAGGGATGCAAAACTTCGTATTTCTATTGTTTCCAATCCATACTGCGGATTCTGTAAAGATGCTCACAAATTAGCAGAAGGCTTACTGGAAAAATATCCGGATAACATTTCTTTACAGATGAGATTCAATTACAGTCCGGACAGGGCACCTGAAAAATACACACAGCTTATTTCTGACTTAACTCATATTTATCACAACAAGCCTGAAAAAGAATTTCTGCATGCTGTAGAAGAATGGTTTGAAACTAAAGACGAAAACAAAATCAATATTCTTTCCGGAGGAAATGTTACATCAGAAAACTTAAATCCATTGATAGAAATGTCTAAAGAAAACAGTAATGCAGGATTAAGCTTTACTCCCATCTTTATTATCAACGGATATCAGTTTCCTGACAAGTATGATCGTGAAGATATTTTATTCTTTATTGACGAATTAATAGAGGATGATGAGATTTAA	MIFDKLINHLKLDKQEFIFQFNSHPNYPSALAFSDTLNFMGVKNDAYELDKEYWDELPEEFIAIVENSFSLVKKSGSNYSVYSEKAKTFGKEELYTKSTDFVLLFEKTENAENKLAFNFKPVLYIIFAAVLAYSLVSQTIYEALFNILSLAGVYISLEIFNQKFGNTSTVIGSICGGGGAAANQAANSCDKIIKQDKTSILGLKFADFSLIYFAGLAVLGLFLPATAYIVKGFTFVSVLAIGYSLYIQAFVEKTFCRVCLLIISILVGQLVISSLFFQNLSFSVGTLLLTVILWALVFSSIIYFNTLLEQKEALQKSNAKNLRFKRNYELFKNQMEQNKKIEFQDTETFVVGKRDAKLRISIVSNPYCGFCKDAHKLAEGLLEKYPDNISLQMRFNYSPDRAPEKYTQLISDLTHIYHNKPEKEFLHAVEEWFETKDENKINILSGGNVTSENLNPLIEMSKENSNAGLSFTPIFIINGYQFPDKYDREDILFFIDELIEDDEI				NA	NA	NA	NA	NA
BMS003_04212	2196	lagD_2		Lactococcin-G-processing and transport ATP-binding protein LagD	TTGAAAAAAAAAATTCCATTTTATAAGCAGCCGGACACTAAAGATTGCGGTCCTACATGTCTTAGGATCGTAAGTAAATATTACGGTAAAAGCATATCTCTGCAGCAGATTCGTAACCTTTCTGAAACCACCCGTGAAGGAAGCAGCCTTCTTGGACTGAGCGATGCTGCAGAAAACCTGGGATTCCGTTCTATGGGAGTCCAAATCGACTTCAAAACCCTTGCAGAGGAAGTTCCCTTTCCATGTGTTGCACACTGGAATAAAAATCACTTTGTCGTTGTCTATAAAATTGACAAAAACAATAAAGTATATATTTCAGATCCCAGTTATGGGCTGATTACGTACACCCGTGAAGAATTTATCAAATCCTGGATCGGAGAAAATGCCAATGAAAATACTGAGGAGGGAATTGTCCTGATCCTTGAGACAACGCCTGCATTTTTCCAGACTGAGTTTGATGAAGAAGAAAGTAAAGCCAGCTTTACTTTCCTTTCCAAGTACCTTTTAAAGTATAAATCGCTGGTTATTCAGCTTGCCATAGGACTTTTAGGAGGAAGTTTACTCTCCCTGATCTTTCCGTTTCTTACCCAAAGTATTGTAGATGTCGGGATTCAGAATCAGGATATTAACTTTATCTATGTAGTCTTACTTGCACAGATCATGCTGTTCCTGGGAAGAATGGGAATTGAGACCATAAGAAGCTGGATTCTTCTTCATCTTTCAGCAAGAATCAATATTTCCATTATCTCCGATTTCTTTATCAAACTGATGAAGCTTCCTATAAGTTTCTTTGATACCAGGATGACAGGAGATATCATGCAGAGAATTAATGACCATCACAGAATTGAGCAGCTTCTTACCAGCTCATCATTAAATACGCTTTTCTCTCTGGTGAATCTTATCATTTTCAGCATTGTTTTGCTGTTTTATGATTACAGACTATTCCTTGTTTACCTTGTTGGCGCAGTATTGTATATCGGATGGATCAGCTTCTTCCTGAAAAAAAGAAAAGAGCTTGACTACAAAAGATTCTCACAGGTATCTCAGGAACAGAGTAAAGTTATTGAGCTTATTAACGGTATGCAGGAGATCAAAATGCATAACGCCGAAAAACAAAAAAGATGGGACTGGGAGTTTCTTCAGGTAAAACTGTTTAAAATCAGAATAAAATCCCTTTCATTAGAACAATGGCAGTCTGTAGGAGGTAACTTTATCAACCAGATGAAGGATATTCTGGTAAGTTTTCTTTCTGCCAAACTGGTTTTAAGCGGAAATCTTACATTAGGGATGATGCTTTCGGTTCAGTATATTATCGGACAGCTGAACAGCCCGCTTCTTCAGCTTATTGACTTTATCAAACAGACACAGGATGCTAAAATTTCCCTTGAAAGATTAGGCGAAATTCATGATAAAGATGATGAAGAAGACAAGAATGAACAATATGTCACAGATGTTCCGAAGAGAGATATAGAGATCAGAGATATGTCATTCAGATATATCGGTTCGGATGTTCCGGTTTTTGAAAACCTGAGCCTTACCATTCCTTATCAGCAGACTACAGCAATTGTAGGAGCCAGTGGAAGTGGTAAGACAACCCTGTTGAAACTGCTGATGAAGTTTTATGATCCGGATCAGGGTGAGATCAGGATCGGGAATACCAATATGAAAAATATTTCTCCGAGATACTGGAGAGATCACTGTGGAGTGGTAATGCAGGAAGGTTATGTATTCAATGATACTATTGCCAATAATATTGCTGTAGGTGAAGATCATATCGACAAACAAAAACTGAGACGCGCCGTAGAAATAGCCAATATCAAGGATTTTATTGAAAGCCTTCCATTAAGCTACAACACCAAGATCGGGAATGAAGGAGTGGGTGTCAGCGGCGGCCAGAAGCAGAGACTTTTTATTGCCCGAGCTGTGTACAAATCTCCTGAATATATTTTATTTGATGAAGCGACATCTGCACTGGATGCCAATAATGAGAAAGTGATTATGGAAAATCTTGAGCAGTTCTTTAAGGGTAAAACAGCCGTGGTTATTGCTCACAGACTTTCCACAGTAAGACATGCCGATAAGATTATCGTACTGGATCAGGGGAAAGTAGTAGAAGAAGGAAGTCATGCCGAGCTGGTAGATTTAAGAGGAGAATATTACCGACTTGTAAGAAATCAACTTGAATTAGGCAGCTAA	MKKKIPFYKQPDTKDCGPTCLRIVSKYYGKSISLQQIRNLSETTREGSSLLGLSDAAENLGFRSMGVQIDFKTLAEEVPFPCVAHWNKNHFVVVYKIDKNNKVYISDPSYGLITYTREEFIKSWIGENANENTEEGIVLILETTPAFFQTEFDEEESKASFTFLSKYLLKYKSLVIQLAIGLLGGSLLSLIFPFLTQSIVDVGIQNQDINFIYVVLLAQIMLFLGRMGIETIRSWILLHLSARINISIISDFFIKLMKLPISFFDTRMTGDIMQRINDHHRIEQLLTSSSLNTLFSLVNLIIFSIVLLFYDYRLFLVYLVGAVLYIGWISFFLKKRKELDYKRFSQVSQEQSKVIELINGMQEIKMHNAEKQKRWDWEFLQVKLFKIRIKSLSLEQWQSVGGNFINQMKDILVSFLSAKLVLSGNLTLGMMLSVQYIIGQLNSPLLQLIDFIKQTQDAKISLERLGEIHDKDDEEDKNEQYVTDVPKRDIEIRDMSFRYIGSDVPVFENLSLTIPYQQTTAIVGASGSGKTTLLKLLMKFYDPDQGEIRIGNTNMKNISPRYWRDHCGVVMQEGYVFNDTIANNIAVGEDHIDKQKLRRAVEIANIKDFIESLPLSYNTKIGNEGVGVSGGQKQRLFIARAVYKSPEYILFDEATSALDANNEKVIMENLEQFFKGKTAVVIAHRLSTVRHADKIIVLDQGKVVEEGSHAELVDLRGEYYRLVRNQLELGS				NA	NA	NA	NA	NA
BMS003_04214	1320			hypothetical protein	ATGAAAGAAGACGTTTTAGACAATATTGAACTTCGCTCAGAAAGCGTACAGGATATTTTAACCCAGCCACCACATTGGATGATACGCTGGGGAAATACCGTAATATTCATAATCCTCCTGCTAATTCTCTTAATGAGTTATATTATAAAATATCCGGAATTTGTACCGGCTCCTATTATTGTAACCTCCCAGAACCCTCCGGAAAAAATTGAGGCAAGGACCAATTCCAAAATTGAAAAAATATTCATAAAAGACCATCAGGAAGTTAAAAAGAATGATATACTGATGGTAATGCAGTCTGCTGCCAACTACAAGGACATTCTAGAACTGAAAAAACTAATAGATTCCATTACTCCTGATAAGTTAGACTCCTTCCCTATTACCCAGGCTTCAAGATTCAAGCTGGGCGAGCTACAGGGAGAATACAACAGTTTCGCAAAAGCATTTCAGGATGAAGCGCTTTTTACAAGATTGCAGCCTTATGCTCCGGAAAACCTGGCTGCCAACCAGAGCATTTCTGAATATAAGGTAAGAATAGCAACCTTAAAACAACAGAAAAATCTGGAATCTATAAAATATGATCTTACTAAGAAAAATTTCAACAGATCTCAGGAACTTTTCAGACAGGGAGTTATTTCTGCAATGGAGCTTGAAAATGAAAAGATCAAATACCTTCAGGCTCAGCAAAACCTTGAAAACCTTAAAATCTCCATATCACAAATGGATGAAGGGATTTCCAACCTTAACAAAACAAAAAGCGGAGCTGCTATTAATACGGAAAAAGACAGAATTACATACTCTTCGCAAACCTTACAGCTTCTTGAGCAGCTAAGAAAATCATTAAAACAGTGGGAACTAAATTATCTTGTTATATCATCCACTGATGGTGTAGCCAGTTTCCAGCAGTTTTTTGGTGAAAATCAGTTTGTAAAGGTGGGTGAACCTATCCTCTCTATTCTTCCTAAAAATAAAGAACAGCTTGTGGGCAGAATGTCTGTTCCTACCACAAACTCAGGAAAGATTGTGGCGGGGGAAAAAGTACTGATCAAGCTGGACAATTACCGATTCCAGGAATACGGTATCATTGAAGGAAAAGTACAGAATATATCTCTGATTCCTGATGATAAAGGAAACTATTATGTAGATGTGATTTTACCTAAAGGATTAAAAACAAGCTATAACAAAACGCTTATCTTTGATAAAGAGCTTAGAGGCAGCGCAGAAATAGTAACACAGGATCTGCGACTTATTGAAAGATTCTTCTATCAGATCAGAAAGCTTCTTGGATATCAGGGATCAGTCTCAAAAGTTGGGGACTAA	MKEDVLDNIELRSESVQDILTQPPHWMIRWGNTVIFIILLLILLMSYIIKYPEFVPAPIIVTSQNPPEKIEARTNSKIEKIFIKDHQEVKKNDILMVMQSAANYKDILELKKLIDSITPDKLDSFPITQASRFKLGELQGEYNSFAKAFQDEALFTRLQPYAPENLAANQSISEYKVRIATLKQQKNLESIKYDLTKKNFNRSQELFRQGVISAMELENEKIKYLQAQQNLENLKISISQMDEGISNLNKTKSGAAINTEKDRITYSSQTLQLLEQLRKSLKQWELNYLVISSTDGVASFQQFFGENQFVKVGEPILSILPKNKEQLVGRMSVPTTNSGKIVAGEKVLIKLDNYRFQEYGIIEGKVQNISLIPDDKGNYYVDVILPKGLKTSYNKTLIFDKELRGSAEIVTQDLRLIERFFYQIRKLLGYQGSVSKVGD				NA	NA	NA	NA	NA
BMS003_04215	1044			hypothetical protein	ATGATCAAGAAATTAATCGTAATGGGATTGCTATGTTCTATTTCAGCATCATTCCATGCACAGAAGAAGGGATTGAATATTAACCTGTCTTCTAAAAAAGACACCGAAGTAAGCCCGATTGTAAAGGAAAAAGTGGAAGAATATGCTGCTAAGATCAACGCTATTATTCAGGAAGAAAAAAAGCTGATGGAAGAGGAGCTGGTGGTTTTGCAGGCCAGAAACCTTGACAAAGCAGATTTCGACAGAGAAAAAGCACAGATTGCAGACCGCTATTCTGAGAAGATGGATAACAGGATAGAGGAGCTTGGTTTTGATCTGGATGATGTTATTCAGAAGCAGGTAAGATATTCCCTTTTGAACACAGATGTTACTTCCAAAGAAGAGCTTAAAGAGAAACTGTTGAAAAAATTCCGTCCCAGCAGAAGCTTTACAGGCTATTTTTCATACGGAATTATGACGCTCACAAACAGCGCTCAGGATAATGAGCTGGATAAAAACATAGGATATGCCAACAACCTTGAATTTGGTCTTAAACTGAACTACCAGCTTAGCAGAACAAGTCCATGGGCCATTACTTCAGGATTAGGATTCTCATGGAGAACCGTAAGAGCAGATAATAATATGATGTTTATAAGAAATGCTAATGAAGGTGTTGCTCTGGCTCAATACAGCGAAAATCTGGAAAAAAGCAAGTTGAGAACAGGATATATTATGGTTCCTCTTGGGGTGCAGTATAATTTTTCCAAGCTTAAAAATGCCGGAATGGATATCCAGTACAGAAGCTATTACACCGGATTTAAAATTGGAGCTAATGTATATGGGGGCGTAAAAATGTCTACCAACAATATTGTAAAAGGAATTGATGGCGAAACCAGAGATCGCGGAAATTATCAGGTGAATCCTTTTGTGTATGGAGCACAGCTTACGTTTTCATACAACAGTTTCAGTGTCTTTGTGAAGAAGGATTTCAACAATTTCTTTAAAGACAGTTATTTCAAAGATGATAAAGCACTGATATTCGGATTAGCCATCGGATTAGATTAA	MIKKLIVMGLLCSISASFHAQKKGLNINLSSKKDTEVSPIVKEKVEEYAAKINAIIQEEKKLMEEELVVLQARNLDKADFDREKAQIADRYSEKMDNRIEELGFDLDDVIQKQVRYSLLNTDVTSKEELKEKLLKKFRPSRSFTGYFSYGIMTLTNSAQDNELDKNIGYANNLEFGLKLNYQLSRTSPWAITSGLGFSWRTVRADNNMMFIRNANEGVALAQYSENLEKSKLRTGYIMVPLGVQYNFSKLKNAGMDIQYRSYYTGFKIGANVYGGVKMSTNNIVKGIDGETRDRGNYQVNPFVYGAQLTFSYNSFSVFVKKDFNNFFKDSYFKDDKALIFGLAIGLD				NA	NA	NA	NA	NA
BMS003_04216	615			hypothetical protein	ATGAAAACGTTTAAAGATAATATTGATGATCAGATCAAAAAACAGATTGGGGAAAGAGAGATTGCTCCATCCCGTGATCTATGGTCTGAAATTGAGCTTCATACTAACAGTAATACTCATTCCAAATCAAAAGTAAACTGGTTTTTGATGGCAGCATGTTTAATGCTGTTACTTAGCTTGGGGAGTGTTCTGCTATTCTTTAACCCATCTTCAGAAACTCAACCGAAAATGGTAAAGCAAACCGAAAAAAAAGCTACGGAAGAAAAAATTGTAAAAGATCCGGTACAGAATACAGTGCCGCTGGCCGTTGATAATATTGACAAAAAAGGAGTAAAGAAAGTCCTTTCCAAAGATAAAGAAGAAGTAATTTCTCCATTGGCAGCAGGTCAGAATAAACTGCTTCCTAAAGAAACTCTTCCTCTGAAAAAACTGGAAATTCCTCAGCTTTCTAATCCTAAACTGATGGCAAAAGCCGATTCTTTAAAAACTCCGGTTAAAAAGAAAAAATATGTAGATCCTTCCACACTGCTTTTCTCAGTAGAACACAAAGATGTGATTGAAAAAACAAAAGATGGAAGTAATGTAGCTACTACTATTGACTTGAATGCCAGATAA	MKTFKDNIDDQIKKQIGEREIAPSRDLWSEIELHTNSNTHSKSKVNWFLMAACLMLLLSLGSVLLFFNPSSETQPKMVKQTEKKATEEKIVKDPVQNTVPLAVDNIDKKGVKKVLSKDKEEVISPLAAGQNKLLPKETLPLKKLEIPQLSNPKLMAKADSLKTPVKKKKYVDPSTLLFSVEHKDVIEKTKDGSNVATTIDLNAR				NA	NA	NA	NA	NA
BMS003_04217	561	sigM_2	COG1595	ECF RNA polymerase sigma factor SigM	ATGAAACTTTTGTTCGGAAATAAAAAGAATGATTTGTTGAGCCTCCTGAAGAAACAGGATCCGGCCGCACAGAAGATTTTCTATGAGCAGAATGTCAAGAGATTCCTGAGCGTAAGCAAAAGCTATGTAAGTGATTTGTATCAGGCGGAAGATTGTCTCATTAAAGCATTCTGCAAGATTTTTAAGCATATAGAAAGCTTTAGAGGAGAGTCGAACCTGGAAAGCTGGGCAAGAAGAATTGTTGTGAATGAGTGCCTGAACTTTATCAAAAGCCATAAAACCGTTTTCTATCTGGACGAGATCAATCAGTCTTTTCATGAAGACATCTATGAAACAGAGATTGATTGTGATTTTAATGCACAGGAGCTTTTGGATCAGCTTCCGGATGCCTACAGAATGGTTTTTAACCTCTATGTGCTGGAAGGGTACTCTCATCAGGAAATTGCCGATACTCTGCAGATTTCAGCAGCTGTCAGCAAGACGCAGCTGTTCAGAGCCAAAGAAAAATTAAGAAAGATCTACTTTCAACAACAAAAAAAAGTGAAAAATGAAAACGTTTAA	MKLLFGNKKNDLLSLLKKQDPAAQKIFYEQNVKRFLSVSKSYVSDLYQAEDCLIKAFCKIFKHIESFRGESNLESWARRIVVNECLNFIKSHKTVFYLDEINQSFHEDIYETEIDCDFNAQELLDQLPDAYRMVFNLYVLEGYSHQEIADTLQISAAVSKTQLFRAKEKLRKIYFQQQKKVKNENV				NA	NA	NA	NA	NA
BMS003_04218	939	yfeX	COG2837	Dye-decolorizing peroxidase YfeX	ATGAATACGATAGAATCACAGAATGTAACAGATTATCCTAATAGCAATACTATTTTCATGGTCTGGAAGCTTAATGACAGTCCACAGCTGAAAAATGTTTTTCAGGAACTTTGCGCTTTGGTATTGAATCTTAATAATTCAGCGTTTAACCGTTTCCCGGACAGCAGAGCAAGCTGTGTAATGGGAATTGGTGCTGAAGCATGGAAAAAATTGGGTCTTCCCACACCTCCGCCAAAAGAACTCATCAGTTTTGAAGAGATCAAAGGAGTGAAGCATACCGCTGTATCCACTCCGGGAGATCTTCATTTTCACCTGAGAGCAGACAGCAAAAGCCTTATTTTTGATATGGCGGTTGAAATATCCCAATTGTTAAGTCCCGTCGCTGAAAGTATTCTTGAAGTTCACGGATTCAAATATTGGGATGCACGTTCTGTTCTTGGATTTGTAGACGGAACAGAGAATCCTCATGGTGATGACCGGGATTATTTCGGAAAAATAGGAGATGAAGACCTTCAGTACAAAGGCGGAAGCTACCTTTTTGTTCAGAAATATCTACACAATATGACAGCCTGGAAGAGTCTTTCCACAGAAGATCAGGAAAAAGTCATCGGAAGATCCAAGGAAAATGATATTGAAATGTCTGATGATGTAAAACCTTCAAATTCACACATTGCCTTAGCCAACATTGAAGGTGAAAACGGTGAAGAATTGAAGATCGTTAGAGATAATATGCCATTTGGAAGTCCTTCCACCAATGAATTTGGAACTTACTTTATTGCCTATGCAAGTACATTTACGACAACAAAAAAGATGTTGACCAATATGTTTATAGGTGATCCGCCTGGAAATTATGACAGGATCTTAGATTTCAGTACAGCGGCTACGGGAACGCTTTTCTTTGTTCCTAGCAGAAATATGCTTGATGAATTCTCAGGATAA	MNTIESQNVTDYPNSNTIFMVWKLNDSPQLKNVFQELCALVLNLNNSAFNRFPDSRASCVMGIGAEAWKKLGLPTPPPKELISFEEIKGVKHTAVSTPGDLHFHLRADSKSLIFDMAVEISQLLSPVAESILEVHGFKYWDARSVLGFVDGTENPHGDDRDYFGKIGDEDLQYKGGSYLFVQKYLHNMTAWKSLSTEDQEKVIGRSKENDIEMSDDVKPSNSHIALANIEGENGEELKIVRDNMPFGSPSTNEFGTYFIAYASTFTTTKKMLTNMFIGDPPGNYDRILDFSTAATGTLFFVPSRNMLDEFSG	PGPT0013090_635	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013090-yfeX-K07223	NA	NA
BMS003_04219	717	bcrA_2		Bacitracin transport ATP-binding protein BcrA	ATGATCAACATACACAATTTATCCAAAACATACGGAACAGCTACTGTTCTTAACATCGAACATCTTGACATTCCAAATGGAGAAACATTTGGTCTTGTAGGAAACAACGGGGCAGGAAAAACAACCCTTTTCAGTCTGATGCTTGATTTGATTCAAGCTACCACCGGATATGTAAGCATAGACGGAATTAAAGTCAATGAATCTGAAGCCTGGAAGAATAAAGTGTCAGCCTTTGTAGATGATACTTTTCTCATCGGTTACCTTACACCGGAAGAATATTTCTACTTTATTGGAGAGCTGAGAGGGCAGAATAAAGCTTCTGTAGATGATTTTCTGAAACCTTTTGATGATTTTTTCAATGGTGAGATCCTGAAATCCGGGAAATATATCCGTGATCTTTCAAAAGGAAATCAGAAGAAAGTAGGAATTGTAGGAGCCATCATTGGAAATCCTGAGATTATTATTTTGGATGAGCCTTTTGCAAATCTGGATCCTTCCACGCAGATCAAACTTAAAAACCTGATCAAAGAACTGTCAAAACAGGACGGTGTTACCTTCCTTATTTCCAGTCATGATCTTTCCCATACCACGGAAGTCTGCAACAGGATCGTGGTTGTGAATAAAGGTCTTCTGGTAAAAGATATTCAGACCAATCCGGAAACATTGAAAGATCTGGAACAATATTTTGCAGATCAGATTTCAGTTTCGGATATTTAA	MINIHNLSKTYGTATVLNIEHLDIPNGETFGLVGNNGAGKTTLFSLMLDLIQATTGYVSIDGIKVNESEAWKNKVSAFVDDTFLIGYLTPEEYFYFIGELRGQNKASVDDFLKPFDDFFNGEILKSGKYIRDLSKGNQKKVGIVGAIIGNPEIIILDEPFANLDPSTQIKLKNLIKELSKQDGVTFLISSHDLSHTTEVCNRIVVVNKGLLVKDIQTNPETLKDLEQYFADQISVSDI	PGPT0006725_25911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS003_04220	1467			hypothetical protein	ATGTTTCTGAAGTTCCTTAAGCTTGAAATTAAAAGCTTCTTTCGTGGCACATCTTTAGGGATTAATCTGACCATGAAAATACTCCGTTTCATAGGAATCCTTTACTTTATGGGATGTCTTGTAGGCGGAGCCTTCATTGCTTTTTTCTACGTGCAGAAAGAAATGCATCAGGACCCCTTAAAAGTGGTTTCAAAATTCATGATTGTAGCCTGGATTATAGATCTGGTTATTAAATATCTCTGGCAGGAGGTTCCCACACAGAATATTAAGCCGTTTCTGACCATGAATATCAGGAAGAATACATTGGTTAATTATATGCTGGCAAAGACCTTTCTTTCTGCATTCAGCTGGCTGACTTCCTTATTCTTCATTACATTTTCACTGATTGTTTTATTCAACGGATATAACGTTTTAGGAATATTGGTATGGCTTATTGGAGTAATTGCATTGCTCTATCTGAATAATTTTATCAATATTTTCTTCAATGGTAAAGAAACGCTGGCTATTGTTATAGGGATTTGTTTTCTCATCATTGGAAGTTTAGGATATTATAAGATTATTCCGGTTCTGTCTTACTCCGAATCGGTTTTCTTCAGTTTTTACGAAAAACCATACTTTGCACTGATTCCTGTTGCTTTGTTTGTGATATTATGGTGGATTTGCTTTCGTTATCTGCGCAAAGAATTTTACCTGGATCAGGGGCTTGAAGCCAAGAAAACAGTCGGGAAAACAGAAAATATTGCCTTCCTGAATAAATACGGTGTCATTGGGACATTCATTAATAACGATGTTAAAATGCTAAGGCGTAATAAAGTAACCAAAGGTATTTTGCTTGGCAGTTTTATGTTTCTTTTCTATGGACTGCTGATGTTTACTTCTTCAATTTACAAAACTCCGGCAATGATGATGTTTATGGGATTATTTGTAACAGGAGGTTTTCAGTTTCTTTTTGGTCAAAGGGTACCTGCGTTTGACAGCTCTTATTATCCTCTGATGATGACCCTGAATGTTCCCTACAAAGAATATTTAAAAGCAAAATGGTGGCTGATGAATATTGTAACCGGTGTGTCCATCATTGCAGCGCTTTGCTATGCATACTTTGGATGGGAGGTCTATATTACATTTTTTGCGGCAGGATTGTACAATATTGGGGTGAATTCTCAATTTACCTTGTGGTCGGGAGCTTTCAACAAAAATCAGATTGATCTGAATTCAAAAGAGAAAAGGCTGGGGCAAAAAGGAAGTTTTAATATGGTATCTATGCTTTTATTGATTCCTAAAATGCTTCTTCCAATGGGCGTATTTGCTTTGGCAAAATATTTCACAGGAATTACCGGAGGAGTAATCAGCATTGCTATTATTGGGATTATCGGGTTTTTTATGAAAGAAAAAATCTTCGATATCATTGTAAAACACTATAAAAAAGAAAAATACAGCACACTGGATGCCTTTAAAAATAAAGATTAA	MFLKFLKLEIKSFFRGTSLGINLTMKILRFIGILYFMGCLVGGAFIAFFYVQKEMHQDPLKVVSKFMIVAWIIDLVIKYLWQEVPTQNIKPFLTMNIRKNTLVNYMLAKTFLSAFSWLTSLFFITFSLIVLFNGYNVLGILVWLIGVIALLYLNNFINIFFNGKETLAIVIGICFLIIGSLGYYKIIPVLSYSESVFFSFYEKPYFALIPVALFVILWWICFRYLRKEFYLDQGLEAKKTVGKTENIAFLNKYGVIGTFINNDVKMLRRNKVTKGILLGSFMFLFYGLLMFTSSIYKTPAMMMFMGLFVTGGFQFLFGQRVPAFDSSYYPLMMTLNVPYKEYLKAKWWLMNIVTGVSIIAALCYAYFGWEVYITFFAAGLYNIGVNSQFTLWSGAFNKNQIDLNSKEKRLGQKGSFNMVSMLLLIPKMLLPMGVFALAKYFTGITGGVISIAIIGIIGFFMKEKIFDIIVKHYKKEKYSTLDAFKNKD				NA	NA	NA	NA	NA
BMS003_04221	1650	recN	COG0497	DNA repair protein RecN	ATGCTTTCGAGAATTTACATTAAAAACTTTGCCCTGATTGATACCCTTGAAGTATCACTGAAAAATGGTTTGCAGGTCATTACCGGTGAAACAGGGGCAGGGAAATCTATTATTTTAGGAGCGCTTCGTCTTATTTTAGGAGAAAGGGCAGATGTAAAATCTATTGCGAAAGCTGAAGAGAAAAGCATCGTAGAAACCGAGTTTTCCCTTAATAATCAGTTTAAAAAATTCTTTATTGAAAATGATCTGGACTATGAACATCAGACCATTATCAGAAGAGAAATCCTTCCGTCCGGAAAATCCCGTGCTTTCATTAATGACGTGCCCGTAACACTGGATATTCTGAGAGAGCTTTCCTCAAAGCTGATTGATATTCATTCCCAGTTTGAAACGTCCAATCTTTTTACCTCAGAATATCAGTTTAAAATTATAGACGGCCTTTCTGAAAATAAAAAGATAATCGAAGATTATCAGCAAGAATTTTCTGAATTTCAAAACCTTAACCTTCTGTTGAGAAAGCTGAAAACCCAACTTTCAGAATCAAATAAAGAAAGCGATTACAAAGAATTTTTGCTTAATGAACTGGAAGAGCTGAAGCTTGATGATGTAGATTATGAAGATGTTCAGAACCAGCTTTCTATTCAGGAAAATGCGGGAATGATTTCTGAAAATGTAGGGCAGATTTTATCGAGATTCCATCAGGAAGAAATAGGAATTTTGTCTTTCTTTCATGAAGCAACCAACAAGCTTTCAAAAATTTCTGAAGTTTCTACTAGTTTCGCAGAGCTTGATGAGAGGCTTGAAGCCTCTTTTGTAGAGCTTAAAGACATTATTTCCGAGCTGGAGCATGAAGCAGAGCGAGTTGAAATTAATCCGGAAAATCTGGTATACCTTACCGATCTCAACAATAAAATTAACGCCTTATTCCTTAAACATAATGTTTCAGATCTTCATGAACTGATTGAGATCAGAAATCAGCTGGCAGGAGATCAGAAAGGGGCTTCTGAGTTGGAAGCACAGATAGACGAGACGGAGGAAAACATTGCTCAAAAAGAAAAAGTACTTCAGGGGCTCGCTGCAAAACTTTCGAAGAACAGGCACAAGAATATTCCTGTTTTTATCAAAAAAGCAGAAAGTCTTCTTAGAAAGTTAGGGCTGGAAAAAGCAAAAGTAGATATAGAATTACAGGATGCTGAAGAGTTCAGTCAGTTTGGAAAAGAAAATATCCAACTTCTGTTTCAGGCCAATTCCGGTTTTCCTTTGAAGCCGATCCAGACTGCTATTTCCGGAGGAGAAAGATCCAGAGTCATGCTTGCCGTAAAGAAAATTATTGCAGAAAGTGATGAGCTTCCAACCCTTATTCTGGACGAAATCGATACCGGAGTTTCAGGAAAGGTAGCAGAAGAGATCGGAAACCTCATGAGAGAAATGTCTGAAGATATGCAGCTGATTGTTATTTCCCACCTTGCACAGGTAGCTGCCAAAGGAAACGACAACTATAAAGTAGTGAAACAGGATATTGCCGGAAGAACACAATCTACCATTATCCCTTTGAACAGCGAAGAAAAACTGAACGAAATTGCCCAGTTGCTTTCCGGAAGTAAAATTACCGAAGCAGCTTTAGCACAGGCAAAAGAACTTATCGGATAA	MLSRIYIKNFALIDTLEVSLKNGLQVITGETGAGKSIILGALRLILGERADVKSIAKAEEKSIVETEFSLNNQFKKFFIENDLDYEHQTIIRREILPSGKSRAFINDVPVTLDILRELSSKLIDIHSQFETSNLFTSEYQFKIIDGLSENKKIIEDYQQEFSEFQNLNLLLRKLKTQLSESNKESDYKEFLLNELEELKLDDVDYEDVQNQLSIQENAGMISENVGQILSRFHQEEIGILSFFHEATNKLSKISEVSTSFAELDERLEASFVELKDIISELEHEAERVEINPENLVYLTDLNNKINALFLKHNVSDLHELIEIRNQLAGDQKGASELEAQIDETEENIAQKEKVLQGLAAKLSKNRHKNIPVFIKKAESLLRKLGLEKAKVDIELQDAEEFSQFGKENIQLLFQANSGFPLKPIQTAISGGERSRVMLAVKKIIAESDELPTLILDEIDTGVSGKVAEEIGNLMREMSEDMQLIVISHLAQVAAKGNDNYKVVKQDIAGRTQSTIIPLNSEEKLNEIAQLLSGSKITEAALAQAKELIG				NA	NA	NA	NA	NA
BMS003_04222	906			hypothetical protein	ATGAAAAGAATTATAAGCTTATTTTTTTTGCTTTTTATATATACCCAAAGTTTTTCTCAGGAGCTGTTGGCAACAGTTCAGGTAAACGCACAGCAACTGGGAGGAAGTAACCAGCAGGCATATAAGGCATTGGAAAAAGGTCTTAGGGACTTTATCAACAATACCAGCTGGACAGGGAAAAAACTCCAGAATTTTGAAAAAATAAAATGTGCTTTTTCCTTAGTTATTGGAGAAAGAGATGGTAATAAATTTAAAGGATCCATAGTTGTTCAGGCAATGCGTCCTGTTTATAATACAACATATGAATCTCCTTTGCTGAATCTTCAGGATCAGAGATTTGCATTTGAATATATTGAAAATGAGAGTCTTATTTTTAATGAAAGACAGTTTTCCGGAAAAAATCTTACTGATGTAATCAGCTTCTATATTTATGTTATTCTGGGATTGGACGGAGATAGTTTTCAGTCTATGGGCGGTTCACAGTGGTTCTCAAAAGCACAGCAGATTGCACAGAATTCTCAGAACAGAAATTATGAAGGCTGGAATACCATCAATGAGCCGAGAAGCCGTTCTATTTTGATTAATGAAATTATGAACCCAAACTGGAGCCAGCTGCGTTCCACTATTTATACTTACCACAGAGCAGGACTGGATAATCTTTTTAATCAGGACCAGACTGCCGGCAAAAAAGTGATTTTTGATGCACTGATGCAGTTAAAGATGTATGAAAATAGCTTTCAACAGGCATTTTTCTTTAATCTTTTCATGGATACCAAAAGCGATGAGATCTTCAATATTTTCAATTCCGGTAATAATGGAGGTCTGATTCTTAATGACCTTAAACAAACCATGATTATTCTTTCTCCAAAAAACATTGATAATAAATGGAATAAATGGAAAGTCTAA	MKRIISLFFLLFIYTQSFSQELLATVQVNAQQLGGSNQQAYKALEKGLRDFINNTSWTGKKLQNFEKIKCAFSLVIGERDGNKFKGSIVVQAMRPVYNTTYESPLLNLQDQRFAFEYIENESLIFNERQFSGKNLTDVISFYIYVILGLDGDSFQSMGGSQWFSKAQQIAQNSQNRNYEGWNTINEPRSRSILINEIMNPNWSQLRSTIYTYHRAGLDNLFNQDQTAGKKVIFDALMQLKMYENSFQQAFFFNLFMDTKSDEIFNIFNSGNNGGLILNDLKQTMIILSPKNIDNKWNKWKV				NA	NA	NA	NA	NA
BMS003_04223	1206	undec1A		Cysteine/Cysteine sulfinic acid decarboxylase	ATGAGTGTTTCCGGCAAAAAGATACTTATCGCTGTCTCTGGAGGGATTGCAGCCTACAAAATTCACTTTCTTATAAGAGATTTCGTGAAAAAAGGAGCTGAAGTACAAATTATTATGACACCTGATGCAGAACACTTTGTGACGAAGCTCAGTCTGTCTACACTATCCAGAAAACCCGTATATTCAGAATTTTACAGCGATAACGGAACATGGAACAGCCATGTGGAACTGGCGCTTTGGGCAGATATTATGATCGTGGCTCCCTGTACAGCCAACACCTTGTCTAAAATGATCCATGGGATGTGTGATAATCTGGTCATAGCAACCTATATGTCTGCAAAATGCCCTGTATTCATAGCACCTGCAATGGATCTTGATATGTATGTGCATCCTTCCACCAAAAAGAATCTGGAGCTGGCGGAAAGTTTTGGACATCATATTATTCCTGCCGAAAACGGTGAGCTTGCAAGCGGGCTGATCGGACAGGGAAGAATGGCAGAGCCGGCAACTGTTTTTAATGCTGTTGAAGATTACTTTGCAAACAGTAACCCATCTAAAAGTCTTGAAGGAAAAACCGTTTTAATTACAGCCGGGCCTACCTATGAAGCAATTGATCCGGTAAGATTTATTGGAAATCATTCTTCCGGAAAAATGGGATTTTCTCTTGCAGAAGAGGCTTCCAAAAGAGGTGCAAAAGTTATTCTTATTTCCGGACCAAGTGTTCAAACCATCCATGATCCGAATGTACAGCTTCATAAAGTGACTTCGGCCAAAGAAATGCTGGCAAAAGTTTTTGAGTTTTATGATAAAATAGACATCGGTATTGCCAGTGCAGCTGTGGCTGATTATGCTCCCAAAGAAATTGCCACGGAGAAGATCAAAAAAAATGATGAAAACCTTACAATTGAACTGGTTAAAAATCCGGATATCCTTAAGACAATGGGCGAAAAGAAAACCCACCAGTTTTTAGTAGGATTTGCCCTGGAAACTCAGAATGAAGAGGAAAATGCAAAAGGAAAGCTGGAAAAGAAAAACCTGGATATGATTGTTCTTAACTCTCTTCGTGATGAAGGAGCAGGTTTTAAAAATGATACCAATAAAATTAAAATATTTACCAAGACGGAAAAGAAAGAATTCAATCTGAAATCTAAAGACGATGTAGCAAAAGATATTCTCAATTTTGTGGAGGCTCAACTTTTAAAATAA	MSVSGKKILIAVSGGIAAYKIHFLIRDFVKKGAEVQIIMTPDAEHFVTKLSLSTLSRKPVYSEFYSDNGTWNSHVELALWADIMIVAPCTANTLSKMIHGMCDNLVIATYMSAKCPVFIAPAMDLDMYVHPSTKKNLELAESFGHHIIPAENGELASGLIGQGRMAEPATVFNAVEDYFANSNPSKSLEGKTVLITAGPTYEAIDPVRFIGNHSSGKMGFSLAEEASKRGAKVILISGPSVQTIHDPNVQLHKVTSAKEMLAKVFEFYDKIDIGIASAAVADYAPKEIATEKIKKNDENLTIELVKNPDILKTMGEKKTHQFLVGFALETQNEEENAKGKLEKKNLDMIVLNSLRDEGAGFKNDTNKIKIFTKTEKKEFNLKSKDDVAKDILNFVEAQLLK	PGPT0008815_3221	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
BMS003_04224	324			hypothetical protein	ATGAGTGTAAAAGATACAAAAGCAGAAGTAAATACAATTACTTACGATAAAGATAAGATTGAAGATAAAGTAGGTTCAATCTATGAAGCTATTGTTATCATGGGAAAGAGAGCAGAGCAGATCAATGCGGAGATCCGTACGGAGCTTCACAACAAATTGGATGAATTTGCCGTTCACAATTCTACATTAGAAGAGGTTTTCGAAAACAGAGAACAAATTGAGATCTCTAAACATTACGAAAAGCTTCCAAAGCCAACTTCAATTGCTATTGAAGAATGGTTAAACGAAGATGTTTATTTCAGAAAAACAGAAGACAGAAAATAA	MSVKDTKAEVNTITYDKDKIEDKVGSIYEAIVIMGKRAEQINAEIRTELHNKLDEFAVHNSTLEEVFENREQIEISKHYEKLPKPTSIAIEEWLNEDVYFRKTEDRK				NA	NA	NA	NA	NA
BMS003_04225	996	bamD		Outer membrane protein assembly factor BamD	ATGAAAAAATATATTTTAGGTCTTTTTGCTGTAGCAGTGATTTCATCCTGTGTAAGTCAGCAGGAAAGAGCAATGAGAAGTGCTGATAAAGAGTTTATCTTAAAAGCAGCTAATGAAAACTTCGCTAAGAAAAAGTGGAAAAATGCATTGGCTCTTTATGACAGACTTGCTAATCTTGTAGCAGGAACTGATGATTTCCCTAATGTAGGTTTCAACACGGCTTATGCTAACTATTATGACAAAAGTTATAAGCTGGCAGGTCACCAGTTTAAAAACTTTGCAGTTAGTTTTCCAAAAGATCCGAGAGCTGAAGAGGCTGCATACATGTCTGCATTGTGTTATTATGAAGGATCTATGGACTACAATCTGGATCAGTCCAGTACAGAATTAGCCATTAATGAGCTTCAGGACTTCCTGAACAATTATCCAAATTCCGAAAGGTCTAAAAATATCAGTCAGCTGATTGACGAACTGTCTTATAAACTGGAATTTAAAGCCTATGAAAACGGAAGACAATACTACAAAATGGGTGAGTATAAAGCCGCAAATGTAGCGCTGGAAAATGTACTGGAAGACTTTCCAAGTACAAAACTTCGTTCAAAAATTTATGATTATATCATGAAATCCCGCTATGAACTGGCGACAAAATCTGTTTATAGTCTTAAAGATGAGCGTATTGAAAGTGCATTAACCTATACAAGACTGGTAGAAAAAGAGCTTCCTGATACAGAATATTCTAAAACAGCAGCAGATCTGAGAGAAAAACTGGAAAAGGAAAAAGAAAATTTTGCTGTTGTTAAAAAACAAACAGAAGCCAGAATGGCTGCTTTAACTGCAAGACAGAAAAAAGAAGCTGAAAAACTTGCTGTTAAAGATAAAACTGAGCAGCAGATTAAAGATCAGATCAGCAATGAAAAGAAAGCAAAGCAGTTACAGAGGGACAGTGCAGCACTTAAAACCCCTCCTCCTGCAGCGACTTTCAAAATTCAAAGATAA	MKKYILGLFAVAVISSCVSQQERAMRSADKEFILKAANENFAKKKWKNALALYDRLANLVAGTDDFPNVGFNTAYANYYDKSYKLAGHQFKNFAVSFPKDPRAEEAAYMSALCYYEGSMDYNLDQSSTELAINELQDFLNNYPNSERSKNISQLIDELSYKLEFKAYENGRQYYKMGEYKAANVALENVLEDFPSTKLRSKIYDYIMKSRYELATKSVYSLKDERIESALTYTRLVEKELPDTEYSKTAADLREKLEKEKENFAVVKKQTEARMAALTARQKKEAEKLAVKDKTEQQIKDQISNEKKAKQLQRDSAALKTPPPAATFKIQR				NA	NA	NA	NA	NA
BMS003_04226	630			hypothetical protein	ATGAAAAAAAAATTTACAGAAAAACAGATTCACATACTGGATATTGCGGAAGAGCTTATCGCAAAGAAAGGGTATGAAGGAACCTCTGTAAGAGATATTTGTTCAAGAGCCAATATCAATGTCGCCATGATCTCTTATTACTTCGGTTCTAAAGAGAAAATGATGTCTTATCTCTATCAGTACAGGGTACTGAAGACCAGAGAAAACTTTTCAGAATTTGCAGATACCATCAAAGACGGAAAGCCGGAAATGCAGATGCGTGAAATGATCAAATATATTGTTTCCCAGTTGTTTAAATATAATTATTTCCACGGCTTTGTCACGCAGGAGCTTCGCCATACAGAAAACCTTAAGGATGAGCTGCTGGATTTCTATCAGTTATTTGTGAAAAAGCTGGATGAAGTTATCAAGAAAGGAGTGGCTTCAGGAGTGTTTACCTTTACTCCAAAGCCTGAAGATATCCTGACTATGATCATTGGCTCTACTTTATTTGTGATCAGGAATAAAAACTTTTATGAGCTCTATGTTCCGAGTAAAAATGAAGAAACCTATGCCAAAGAAGCGGAGAAAAAAGTAAGAATGAATCTTTTATTAAGTGTTTTTGCTATTTTGGGATACGCTGCAGACTAA	MKKKFTEKQIHILDIAEELIAKKGYEGTSVRDICSRANINVAMISYYFGSKEKMMSYLYQYRVLKTRENFSEFADTIKDGKPEMQMREMIKYIVSQLFKYNYFHGFVTQELRHTENLKDELLDFYQLFVKKLDEVIKKGVASGVFTFTPKPEDILTMIIGSTLFVIRNKNFYELYVPSKNEETYAKEAEKKVRMNLLLSVFAILGYAAD				NA	NA	NA	NA	NA
BMS003_04227	624	dtd3_2		D-aminoacyl-tRNA deacylase	ATGGAATTTTTTGATTTTCACCATCATAAAAGATACATCAAAAATGGAATTTATAATCTTGCAGAGGAAATTCCGCCTGAATTTCCATATTCTATCGGGATTCATCCTCAAGATATTGATATCAATAATCTGGAACAGCAATTTTCCCGGATGAGAAGTATGATGTTTCAAAACTGCTTTGCCATTGGAGAATGCGGACTGGATTCACTGGTTTCTGTAGATCAGAAAATTCAGGAAGAAGTTTTTTTACGACAGATCATGATTGCCAATGAGGTAAAAAAACCTATTATTATTCATTGTGTAAGAAAATTTTACGAAGTTATTTCTTTCAGAAAAAAGGCTGAGCAACCCATGATCATTCATGGTTTTAACAAAAAAAGACAAATTGCGGAAGATCTGCTTGTTCATAATTTTTATCTGAGTTTTGGAAAAGCTGTTTTGTATAATTTATCTTTGCAGGATATTTTAAAAAGCACTCCGCTGGATAAATTCTTTTTAGAAACGGACAATGAATATTTTAACATTGAAGAATTGTATTTCAAAGTTTCGGAAATAAAAGAGATTTCTCCCGAGGATCTGAATGAACAAATTTTACAAAATTTATACTCAATAAGAAATGGATAA	MEFFDFHHHKRYIKNGIYNLAEEIPPEFPYSIGIHPQDIDINNLEQQFSRMRSMMFQNCFAIGECGLDSLVSVDQKIQEEVFLRQIMIANEVKKPIIIHCVRKFYEVISFRKKAEQPMIIHGFNKKRQIAEDLLVHNFYLSFGKAVLYNLSLQDILKSTPLDKFFLETDNEYFNIEELYFKVSEIKEISPEDLNEQILQNLYSIRNG				NA	NA	NA	NA	NA
BMS003_04228	726	tcdA	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGGATAAATACTGGCTGGAAAGAACTGAACTTTTGATAAAGGAAGATGGATTGGAAAAGCTTATAAAAGCCAATGTGCTTGTTGTAGGCCTGGGTGGAGTAGGTTCTTTTGCCGCCGAGTTTCTTGCGAGAGCCGGAGTAGGTAACATGACAATTGTGGATGGAGACACGGTAGATATTACCAATATCAACAGACAGCTTCCTGCTTTACATTCTACTGTTGGAAAGCATAAAGTGGAAGTTGTTGCAGAGAGACTTCTTGATATCAATCCACAGCTTAATTTAATCAAAATCAATGAATTTCTGAATCCGGAAAGGATGGATGAAGTACTTGATTCCGGAGAATTCGATTATGTACTGGACTGTATTGATAGTGTGACCCCCAAAATATGCTTAATAAAGGCAGCCAGAAGAAGAAAGATCAAAATTGTAAGCTCCATGGGTGCCGGCGGTAAAACTGATCCGAGTATGGTAATGGTAAGGGATATCAGTAAAACCCATAACTGCTTTCTTGCGAAACAGGTGAGAAAAAGGCTCAAAAAAGAGAAGATCAATAAGGGTATCAGATGTGTATTCTCTAATGAAATTCAGAAGGAAGAAAGTCTTAAAATGACAGACGGAAGCAACTTCAAAAAATCATTCTATGGTACGATCAGCTTTATTCCTGCAATTTTTGGATTGTACGCTGCTGCTGAAGTGATTAATTATTTAGTGAAAAAAGATTAA	MDKYWLERTELLIKEDGLEKLIKANVLVVGLGGVGSFAAEFLARAGVGNMTIVDGDTVDITNINRQLPALHSTVGKHKVEVVAERLLDINPQLNLIKINEFLNPERMDEVLDSGEFDYVLDCIDSVTPKICLIKAARRRKIKIVSSMGAGGKTDPSMVMVRDISKTHNCFLAKQVRKRLKKEKINKGIRCVFSNEIQKEESLKMTDGSNFKKSFYGTISFIPAIFGLYAAAEVINYLVKKD				NA	NA	NA	NA	NA
BMS003_04229	372	rnpA		Ribonuclease P protein component	ATGCAGAACTTCAAATATCCCAGAGCAGAAAAGCTCAAAAAAAATACGGAAATCGGTTTGCTTTTTGAGAAGGGCAAATGGAGAACCAGCGGAAATCTCAGAATCATTATTCTGAAAGACAAACCCAGCCTGCCTGTAGAATCTGCAAGATTCGGGGTTTCTGTTTCTAAAAGATATTTTAAAAGAGCTGTGCACAGAAACCGTATCAAAAGGCTATTGAGAGAATGCTACCGTCTGAATAAAGATCTTTTTAAGCAGGCTTTTGGAGAGAAAACTATGGCTATGTTGTTTTGGGTTTCTCCTGAAATGCCTCCGAAATTTCAGGATGTGGAAGCACAGTTTATAAAGCTTTGTGAAGCGCAAAAAAAGTAA	MQNFKYPRAEKLKKNTEIGLLFEKGKWRTSGNLRIIILKDKPSLPVESARFGVSVSKRYFKRAVHRNRIKRLLRECYRLNKDLFKQAFGEKTMAMLFWVSPEMPPKFQDVEAQFIKLCEAQKK				NA	NA	NA	NA	NA
BMS003_04230	129			hypothetical protein	ATGCTTATCTTTGAAAATCTGTACGGTCTGTGGGAAATAAAAAAATCTGCAAGAAAATGTCTCACAGACCTTTATTATTATTCTATTAGAAAGACGGTTACTTTTTTTGCGCTTCACAAAGCTTTATAA	MLIFENLYGLWEIKKSARKCLTDLYYYSIRKTVTFFALHKAL				NA	NA	NA	NA	NA
BMS003_04231	609			hypothetical protein	ATGTTAGACAACATTCCCTATTTTTCCTATATCATCAGTGCATTTATCGGTATTGGGCTGGCTGCGGCTACAGGATTCCGGGTATTTCTCCCTTTATTTATTGTGAGCCTTGCCTCTTATTTCAACTGGATTCCCATGAATGAGCATTTTGAATGGCTTGCAGGCCTCCCTACGCTTATAACAACAGGAATTGCTACGGTGGCTGAGATACTGGCTTATTATCTCCCGATCATCGATCATCTGCTGGATACGATCTCTATTCCAATGGCAACGGTGGCCGGGTCTATATTATTTGCCAGCCAGTTTACAGAGCTGGGAACTTTCCCTCAATGGGCACTGGCATTAATTGCGGGTGGAGGTACGGCTGCAACAATCAGTTCAGGATTTGCAGGAATTCGGGCAGCATCTACAGCTACAACCGGAGGTTTAGGAAATTCTGTGGTAGGAACAACGGAAACTGCAGGAGCCGGTCTTATGTCTATTCTTGCGATGGCGGCTCCGGTAATTGCTGCTATTTTTGCAATCATTACTTTGATTATCGTTATTGTTTTTGGACGAAAAGCCTGGAAAAAATTAAGGGGCAGTAAAAATCGTACTCAGAATGTATAA	MLDNIPYFSYIISAFIGIGLAAATGFRVFLPLFIVSLASYFNWIPMNEHFEWLAGLPTLITTGIATVAEILAYYLPIIDHLLDTISIPMATVAGSILFASQFTELGTFPQWALALIAGGGTAATISSGFAGIRAASTATTGGLGNSVVGTTETAGAGLMSILAMAAPVIAAIFAIITLIIVIVFGRKAWKKLRGSKNRTQNV				NA	NA	NA	NA	NA
BMS003_04232	1983			hypothetical protein	ATGAATCCAAGAGTTTTAGAATTAATAAAAAATCCGAAGAAAATTCAGTTAGAAGACCTTGGTCTTTTGAAAGAAGAGATTCACACTTTTCCTTATATTCAAAATATCAGGGCGCTTCACCTCTATGGTGTACACCTGTATGAAAAAGAAAACTATCAGAAAGAGCTTTCTACCACTGCCGCATATACTACTGATAAGAAAATCTTATATCAGCTGATCAACGGAAAGATCAGACAGGAGGTTAAACCGGAAGTAGTTGAAGAGAAGAAAGCCGCCAGAACCATTGAAAAACCCGCTCAATATGCTCCAAAAAGTAAAACTTTTCCTATTAAGAGAGAAGAGGAAACCGCTTTTGAGAAGCAGTCTGAAGAGCAGGAAATAGCATGCGCAGTGCCGGCTTCACAAGAAATAAAACATATTTATATAAATGGGGAACGAAACAGAATTTTATTTGAAGGAGAAGAAAATTTCCTGGATGAAAAAAATTCTGACACCATAGACCTTGAATCTACCCTGGAATCCGGAAGTTTGGTAACTCAAAAGACTGAACCTGTTCAGGAACCTAAAGAAGAAGTACAAGCCGAAATAGAGGATAAGGCAGGAGAAAGCTTCACACCGGAAACCATCATTGATGAAGATCAGATTTCGTCTGAAAAAGAAGAAGAGGTCATTAATGATGAGGAAAATATAAGTTTCCATGAAGAAGTTCCAGTATTGATGGAGAAAGGTACTAAAGAAGAAACAGATGGAGAACCTTTAAATAAAGAGGAAGAAGATAAAGAAACAATTGCCGTCTCTGAAGAAAACCTTCCTGTAGAAGAAATTCCTGATGCTGAAGTCAGTTTCCATGGGACAGACTCATTCATGCCGGATGTGAAAATCCAGGCTAACAACGAAGAGATTTCTGAAACCGCAGAAGTATCTCAGCCCAATGTAAATAAGCATGAGGAAGAGATGAGACGCCTCATTGAAGAGGTAGAGAAAAAAATGAAGGAAGCTAAACCTGTTTCCCAGGAAGAAATAGCAGAGTCTGAAGTTGCTGAAGATCATGAAATTAGCTTCGCTGAAACCCAAAGCTTCCATTTCTGGTCAACAAGTGAAGATAAGCCTGAGGAAATCAAAGAAGAGTACGTACAGGAAGAAATTGTAGAAGAGGAACAGGCTGTATCTGAAGAAATTAAGGCTGCTGAAGTAGAAGAAGAGAAAGAAAAAGAAGAAGCTCCACAAGTTCAGTCTGTCTGGAAACCGATGAGTGTGGAATCCAATATGCCAGATTCATTAATCAGTAAACCAGCTGAAGCAACAGCTTCTGAGATAAAAGCTCCGATAGTAGAAAAAATACCTGAACCAGAGCCGGAAATATGGATTGAAGAATCACAACCGGAAACAACTGCCGAAGCTGTCGAAAAAGAAGTTTTACCTATCGCAGAAGAAACAGGACAGGCTGAGTTATCTGAGGAAGATAAAACAAATACAGAAGCTGTAAAAGAAGACGTTCCCGTGATGAATGTTTCTTTCTTCGGAACCGATATTTCTACCCTTAAAGTTGAAGAGAAACAATCGGAAAACAAAGAAAAAGATGCAGAAAAAATAGAAGAGGGTACCATGAAGAATATATCTGCTACATCTTCAGACAGTAATGTTCCGGGTTTCATTAATACCTGGCAAAGCTGGCTTAAGATAGACAGGACGGAAGAAATTGTAAAAGAAAAATCTGAGATTAAAGAAAAGGCCATTGAAACCTTTATTGAAAATAATCCTAGGATCAGCCAGTTAAAAGAAGAAAGCTCCTATGTTGTAAAAGAAAAGAATGACGATATCTCCCACCTGATGACAGAGACATTGGCAAATCTTTATTTTGAACAGAAATTATATACAAAAGCAATTAAAGCGTTTGAAATATTAATCAAAAAGAGTCCTGAAAAGAAAGAATATTTTGAATCTAAAATTAAGGATATTAAGGACTTCAGAAGTAAAAATTAA	MNPRVLELIKNPKKIQLEDLGLLKEEIHTFPYIQNIRALHLYGVHLYEKENYQKELSTTAAYTTDKKILYQLINGKIRQEVKPEVVEEKKAARTIEKPAQYAPKSKTFPIKREEETAFEKQSEEQEIACAVPASQEIKHIYINGERNRILFEGEENFLDEKNSDTIDLESTLESGSLVTQKTEPVQEPKEEVQAEIEDKAGESFTPETIIDEDQISSEKEEEVINDEENISFHEEVPVLMEKGTKEETDGEPLNKEEEDKETIAVSEENLPVEEIPDAEVSFHGTDSFMPDVKIQANNEEISETAEVSQPNVNKHEEEMRRLIEEVEKKMKEAKPVSQEEIAESEVAEDHEISFAETQSFHFWSTSEDKPEEIKEEYVQEEIVEEEQAVSEEIKAAEVEEEKEKEEAPQVQSVWKPMSVESNMPDSLISKPAEATASEIKAPIVEKIPEPEPEIWIEESQPETTAEAVEKEVLPIAEETGQAELSEEDKTNTEAVKEDVPVMNVSFFGTDISTLKVEEKQSENKEKDAEKIEEGTMKNISATSSDSNVPGFINTWQSWLKIDRTEEIVKEKSEIKEKAIETFIENNPRISQLKEESSYVVKEKNDDISHLMTETLANLYFEQKLYTKAIKAFEILIKKSPEKKEYFESKIKDIKDFRSKN				NA	NA	NA	NA	NA
BMS003_04233	582			hypothetical protein	ATGATGAAATTACTGAAATTGGAACTAAAAATGAATTTTAAAATTAAAAATATCAGTCTGAAACATTCATTACTGACAGTGATGCTTTTGGCGTTACTGAATGTATTAAACTCATGTTACAGCTTTACAGGATCGTCTCTTACAGATGAAAAAACCGTTCAGATCAATGAATTTCCGAATAATGCACCACTTGTGAATCCTGCATTATCCCAACAGTTTTCTACAGCAATCCAAAACAGATTCCTTCAGAGAACTACTTTGAAAGGGACAAAAGAAAATCCTGATATCCTGATAGAAGGAGAAATTACAGATTATTCCATTACCCCTACCACAATCAGTTCCAATACCCAGACAAACCCTTCTGGAGGAGTGGTTCAACAGGGACAGAATAAACTTACGATTACAGTGAAGGTACACTATGAAAATAAAATTCATCCCGATGCAAGTTTTGACAGAACGTATTCTGATGAAGCAGCCTTCAACAGTGATGTATCACTAAGTCAGATCGAAGACCAGCAGGTAAAACTGGTGACAGACAGAATTATAAATAAGATATTTAACGACATTGTAGCGAATTGGTAA	MMKLLKLELKMNFKIKNISLKHSLLTVMLLALLNVLNSCYSFTGSSLTDEKTVQINEFPNNAPLVNPALSQQFSTAIQNRFLQRTTLKGTKENPDILIEGEITDYSITPTTISSNTQTNPSGGVVQQGQNKLTITVKVHYENKIHPDASFDRTYSDEAAFNSDVSLSQIEDQQVKLVTDRIINKIFNDIVANW				NA	NA	NA	NA	NA
BMS003_04234	705			hypothetical protein	ATGAAAGTAAATTTAACACCTAAGCCGATTAATTTTAAACTCGGAGAATATATTAATAAAGGTTTCGAACTTTTGAAGAAAGATTTCGGGAATATTTTTATAGCATGTTTAGTATGCCTTATCATGTCTGTTATTCCGTTTTGTGGATTGCTTGCAATGGGTAATTTGTTCAAATACCTTCAAAGGCTGAGCAAAAACCAGCCTGCAAGTCCAGGAGATATCTTTGATTTTAAAGATTTCATGCCATATTTTATGTTGCAGTTAATTGTTATCGGAGGGGTATTATTATTTTACATTCCTTTATTTGCAGTGTTGGGCATATCAGGGGCAATGTCGGACGACCATCAAGCCAATTCAATGACAGCATTTTTTGTATTTCCTTATATGTTTTTATTAATAGCAGCGATATATTACTTTGTATTAAAAGGCTTTTATATCATTCCGCTAATCAGTCTTAAAGGAATTACAGAAATAAAAGAGGCCTGGAATATTTCAAAAATAATGAGTAAAGGAAATCTATTGTCAATCTTTCTTTTCTCTTTAGTCGTAGGTATTCTGGCTCAGATTGGTATTGTGGCTTGCGGAATAGGAATTTTCCTTACAATACCATTTTTATACACTGCAAAATATTTTGCTTATGAAGATGCTATGCAACAAATTGAGTATGATGAAATTACTGAAATTGGAACTAAAAATGAATTTTAA	MKVNLTPKPINFKLGEYINKGFELLKKDFGNIFIACLVCLIMSVIPFCGLLAMGNLFKYLQRLSKNQPASPGDIFDFKDFMPYFMLQLIVIGGVLLFYIPLFAVLGISGAMSDDHQANSMTAFFVFPYMFLLIAAIYYFVLKGFYIIPLISLKGITEIKEAWNISKIMSKGNLLSIFLFSLVVGILAQIGIVACGIGIFLTIPFLYTAKYFAYEDAMQQIEYDEITEIGTKNEF				NA	NA	NA	NA	NA
BMS003_04235	1290	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAGCAACGAGTTACAAAACATAAAAAACCGTTTCGGAATTATCGGAAATTTTCCCGCACTCAACCGCGCCCTGGAAAAATCTATTCAGGTAGCACCTACAGATATTTCTGTTCTGGTGATAGGGGAAAGTGGTGTAGGAAAAGAATTTATACCGAAAATTATCCATTCAGAATCCAAGAGAAAACATCAGCCTTACATTGTGGTAAACTGTGGAGCCATTCCGGAAGGAACCATAGATTCTGAACTGTTTGGACATGAAAAAGGAGCCTTTACAGGAGCTACCGCTACAAGAAAAGGATATTTTGAAGTAGCCGATGGCGGAACCATCTTTCTGGATGAGGTAGGAGAGCTTCCTTTACAAACGCAGGTGCGTCTTTTAAGAGTTCTGGAAAGTGGTGAATTCATGAAAGTAGGTTCTTCACAAGTGCAGAAAACCAATGTGAGAATTGTAGCTGCTACCAACGTTAATATGATGAAAGCCATCCATGACGGAAGATTCCGTGAGGATTTGTATTACCGTTTGAATACCGTTCAGATTGATATGCCGCCTTTAAGAGAAAGGAAAGGAGATATCCATTTGCTGTTCAGAAAGTTTGCAATAGACTTTGCTGAAAAATACAGAATGCCGGAGCTTGAGCTTGAGCAAAGTGCAGTTCATTACATAGAAAGCTATTCCTTCCCGGGTAACGTCCGCCAATTAAGAAACTTAGTAGAGCAGATGACCGTGGTGGAAAGAAACAGAAATATTACTGCCGAAAAACTTGCCGAGTATATTCCTATGGAAACACACCTTCCCATGGTGGTGAATACACAGAATGCTCCAAAACAAAACGATTTTGGAAGTGAAAGAGAAATCATGTATAAAATTCTGTTCGATATGAGGAATGATATTAATGATTTAAAATCCTTAACTTCGGAATTGATTAAAAACAGAGGAACAGCAGACCTGAGCAACCATGAGAAAAATCTGATCAACAGAATTTATACCCCTGAGACTCAGCCACAGGTAAATTCCGGATCTTTATTGTTCTTTGAAAATAAGAATGATACACCGGTAGTTCAGAACCCTACAATTATCTCAACCCCTGACGACAGCTATGAAGATATTGAAGACATAGAAGTTGAAGAAAACAGACCAGAGTCACTTTCTCTGCAGAATAATGAAAAGGATTTGATTATCAAAGCCTTGGAGAAGCATAAAGGGCGCAGGAACAGAGCCGCAGATGAATTGGGAATCTCACAAAGAACTTTATACAGAAAAATAAAGCAATATAATTTGGAAGATTAG	MSNELQNIKNRFGIIGNFPALNRALEKSIQVAPTDISVLVIGESGVGKEFIPKIIHSESKRKHQPYIVVNCGAIPEGTIDSELFGHEKGAFTGATATRKGYFEVADGGTIFLDEVGELPLQTQVRLLRVLESGEFMKVGSSQVQKTNVRIVAATNVNMMKAIHDGRFREDLYYRLNTVQIDMPPLRERKGDIHLLFRKFAIDFAEKYRMPELELEQSAVHYIESYSFPGNVRQLRNLVEQMTVVERNRNITAEKLAEYIPMETHLPMVVNTQNAPKQNDFGSEREIMYKILFDMRNDINDLKSLTSELIKNRGTADLSNHEKNLINRIYTPETQPQVNSGSLLFFENKNDTPVVQNPTIISTPDDSYEDIEDIEVEENRPESLSLQNNEKDLIIKALEKHKGRRNRAADELGISQRTLYRKIKQYNLED				NA	NA	NA	NA	NA
BMS003_04236	798			hypothetical protein	ATGGAAAAGTTTCAGAGGTATTACCTTAGCTTTTTGTTACTTATCGTTTACACCAATACTATTGCACAGGTCAACTGTAATGCAGTAGAGGGTGAGAACTGCAAAAAAGCGTGTGAGTTATACAACTGGGCTTCAGATTTACAAGGCTATGCAGAATCTCAGCAGGGTTTTGATAAAGCCATCGAATTATGTCCTGATTTCTCCCGTGCGTATATGGAAAAAGCTGTTCCATATCTTAAAAACGGGGATTTTGTAACCTGGAAAATTTTAATCGATAAAGCAGTTGCTTTAAATCCCCAAATGCATCTTGGTTATAGAGGCTGGACGAAGTTTCAGTTTTTAAGAGACTATAAAGGAGCTATTCAGGATTTAGAACGTTTAAAAAAATATGAGCCCGGAGACTTAGGAAGATCTCAGAACGGAGACTATAATCTGGATGTAGTAAGAGCTATGTCTTACAGTGCTTTGGGACAGAAAGAAAAAGCAGCCGGTATTATAGAAAGGCTTCTGGCCACCAGAGGTTATGTGAAGGGAATGTTTGATCATTATCAGCTTGGGGTGACCTATTTCGAGCTGGGAAGATATGACAAAGCCCTGGAAAATTTTGAAAAACAAGGCAAAGAGTACAACTTTGCCGAGAATATATACTTTAAAAGTAAAGTTTCTAAGATCAGAAACAAAGATTATTTAGATTTAAAAATGTTAGCCCTGCAAACCTATGATGAAGGGAAGACGATGAAAGATGTCTACACTCATCACTTTAACAAAATCTACAGAAAAGAGATTGAATCACTGTAG	MEKFQRYYLSFLLLIVYTNTIAQVNCNAVEGENCKKACELYNWASDLQGYAESQQGFDKAIELCPDFSRAYMEKAVPYLKNGDFVTWKILIDKAVALNPQMHLGYRGWTKFQFLRDYKGAIQDLERLKKYEPGDLGRSQNGDYNLDVVRAMSYSALGQKEKAAGIIERLLATRGYVKGMFDHYQLGVTYFELGRYDKALENFEKQGKEYNFAENIYFKSKVSKIRNKDYLDLKMLALQTYDEGKTMKDVYTHHFNKIYRKEIESL				NA	NA	NA	NA	NA
BMS003_04237	519			hypothetical protein	GTGATAAAAGCAGTTTATTTTTTTGCAATGCTTTCGTTTACCTTGGTATCCTGCCAGACAGAAAAAAATGTAAAAAAATACCCTGCCACCGTAGGAGATATCGAATTTGATAAAACGCTGGATGATGTTGGTTTTAAGAAATGTGGTTCGGAAAAATGGGGCGATTTTAGCTTTCAGTATTATCAGGATTCAAAGGGATTGAGCTATAAAGGGGAAAAGATTGCGATCACAGAAAAACTTAAAAAAGAAAATATATATTCTGAAAAGAAGATCAATGGTTATATTACCGTAAGATTTTTAGTAAATTGTGAAGGAAAGACAGGGCTCTTCAGATTACAGCATATGAGCCAGGATCTGAAAGATACCGTACTGGATGAAGAATTAGAAAATAAGCTGCTGCAGTTTACAAAATCACTCGATGGCTGGATGCCGAAAGAGATAAAAGGTTTAAAAGTAGATTACTATCAGTATTTAACCTATAAAATTGAAAATGGAAAAGTTTCAGAGGTATTACCTTAG	MIKAVYFFAMLSFTLVSCQTEKNVKKYPATVGDIEFDKTLDDVGFKKCGSEKWGDFSFQYYQDSKGLSYKGEKIAITEKLKKENIYSEKKINGYITVRFLVNCEGKTGLFRLQHMSQDLKDTVLDEELENKLLQFTKSLDGWMPKEIKGLKVDYYQYLTYKIENGKVSEVLP				NA	NA	NA	NA	NA
BMS003_04238	1437	miaB		tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	GTGCAGGAAAAATATATAGACGAAACAAAACAGGGCGAAGCTTTTGCTATTGCAGAAAAACCGGAAAATTCTAAAAAGTTGTTTTTAGAAAGTTATGGTTGTCAGATGAATTTTTCTGATTCTGAGATTGTTGCATCCATTCTTAACGAACAGGGATACAATACAACCATGAAGGTAGAAGAAGCAGACCTTATTCTTTTAAATACATGCTCCATCCGTGAAAAAGCAGAGCAGACCGTAAGAATGCGCCTTTCTCAGTTCAAAAATCTGAAAAAAGAAAGACCGAATATGACGGTAGGTGTGCTGGGATGTATGGCAGAAAGGCTGAAAACCAAGTTTTTAGAAGAAGAACAATTGGTTGATCTTGTAGTGGGGCCAGATGCATATCGGGATTTGCCGAACCTTTTAAAAGAAACGGATGATGGAAGAGATGCCATCAACGTAATCCTTTCCAAAGAAGAAACCTATGCGGATATTAATCCTGTTCGTTTAGGCGGAAACGGGGTTACAGCTTTTGTTACCATTACCAGAGGTTGTGATAACATGTGTACATTCTGTGTAGTACCTTTTACAAGAGGAAGAGAAAGAAGCCGTGACCCACATTCTATTATAGACGAATGTAAAGATCTTGCCAACAGCGGATATAAAGAAATTACCCTTTTGGGACAAAACGTAGACTCTTACCTTTGGTATGGCGGAGGGCCTAAAAAAGATTTTGCCAAAGCTTCTGAAATGCAGAAAGCAACAGCCGTAAACTTTGCTCAGCTTCTTGATTTGGTTGCTAAAGCCGTTCCTGAATTAAGAATCAGATTCTCTACCTCAAATCCACAGGATATGAGTCTGGATGTGTTCAGAATGATGGCAAAGCACGACAACATCTGCAAATATGTACATCTTCCTGTACAAAGCGGAAGCAATAATATGCTTGAAGCAATGAACAGACAGCATACCCGTGAAGAATATCTGGATCTGATTAAAAAAGCGAAGGAAATTGTTCCGGAAGTTGCCTTTTCTCAGGATATGATTGTTGGATTCTGTAACGAATCAGAAGAAGATCACCAGGATACCCTAAGCCTGATGAGAGAAGTAGAATATGACTATGGTTATATGTTCGCATACTCAGAGAGACCGGGAACTCCGGCTCACAAAAAAATGGAAGATAATATCCCGGCTGATGTGAAACAGAGACGTCTTGCTGAGGTGATTGCTCTTCAGGGTGAGCTCTCCAAACAAAGAATGAAATCTTATGTAGGAAGAAACCATCAGATTCTGATTGAAGGAATTTCCAAGAAGAACAAAAACCAGTGGAAAGGAAGAAACTCCCAGAATGCCGTATGTGTTTTCGATAAACTGGAAGGACAGGAAATAGGTGACATTGTGAACGTTTTTGTGTATGATAATACACAAGGCACACTTTTGGGGAGAACAGCGGAATAA	MQEKYIDETKQGEAFAIAEKPENSKKLFLESYGCQMNFSDSEIVASILNEQGYNTTMKVEEADLILLNTCSIREKAEQTVRMRLSQFKNLKKERPNMTVGVLGCMAERLKTKFLEEEQLVDLVVGPDAYRDLPNLLKETDDGRDAINVILSKEETYADINPVRLGGNGVTAFVTITRGCDNMCTFCVVPFTRGRERSRDPHSIIDECKDLANSGYKEITLLGQNVDSYLWYGGGPKKDFAKASEMQKATAVNFAQLLDLVAKAVPELRIRFSTSNPQDMSLDVFRMMAKHDNICKYVHLPVQSGSNNMLEAMNRQHTREEYLDLIKKAKEIVPEVAFSQDMIVGFCNESEEDHQDTLSLMREVEYDYGYMFAYSERPGTPAHKKMEDNIPADVKQRRLAEVIALQGELSKQRMKSYVGRNHQILIEGISKKNKNQWKGRNSQNAVCVFDKLEGQEIGDIVNVFVYDNTQGTLLGRTAE	PGPT0007215_1542	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
BMS003_04239	225			hypothetical protein	ATGGAGGACTTCCAGATTGAAGGCAATTTTTCTGACTTTGATAAGAAAGATATCATTAATAGTTTATCTAGAATAAAAGGGAAATGGAATCCTGCTACATTTAATAATATTCCAGTTAGAGCCAGAATGAGTCTGCCTATTTTTCAACAGTTTGATTTTCAGATAGAGTTAGAAGATAGAAACAGAATAATGAATCAAAATTTTTATAATGACAGATATCGGTAA	MEDFQIEGNFSDFDKKDIINSLSRIKGKWNPATFNNIPVRARMSLPIFQQFDFQIELEDRNRIMNQNFYNDRYR				NA	NA	NA	NA	NA
BMS003_04240	546			hypothetical protein	ATGATCAAAATAGAAGAACTTATCCACGCCCACATTCATTCCCATTGCGATTTTGAAAAAGAGATTGTGCTGACGAATTATTTTCAGGCAGATTGGGAAGCGGATATTCTGGTCATTAATTCAGAAGGCGAAAGCCATGAAATTGAGATCAAGTTTTCAAAAAGTGATTTTAAAAATGATTTCAAAAAATCTTATCTCAATAAAGATACAGGAGAAAAGTTCCTGAAACATGATAAAATTTCCTGTGGAGATTATATCTGCAACTCTTTTAGTTTTTTACTTCCTATGGGAATGATAGATGCTTCCCTTATCCCAGAACATTGCGGAATCATTGAATTTTACCATAATGTAGACACCTGGGAAACGGAATTTTATCTGATCCGTCAACCCAAAAAACTTCATGAAGATTCTTACTGGAAACTGAATGATAAAGACCTTTTTATCAGAAAAATGGCTCTGAACCTTCTTCAGCGCAAAATGGAAATTAAAGGAAAACATGAAGAATTGATCTTCAAGAATCCTTTTGACATCAAAAAACTGAAATAA	MIKIEELIHAHIHSHCDFEKEIVLTNYFQADWEADILVINSEGESHEIEIKFSKSDFKNDFKKSYLNKDTGEKFLKHDKISCGDYICNSFSFLLPMGMIDASLIPEHCGIIEFYHNVDTWETEFYLIRQPKKLHEDSYWKLNDKDLFIRKMALNLLQRKMEIKGKHEELIFKNPFDIKKLK				NA	NA	NA	NA	NA
BMS003_04241	993			hypothetical protein	ATGGAACTAAAAAATATATTCAACATACAGACTGAACAGGATTTTCTGAATGCATCATTGGAAACATTTCGTTATCAGTATAAACATGTTGAAATATACAGGAAATTCGTTGACTTTCTGAAAGTGAATCCTGATGAGGTAGATAGTTTGGCAAAGATTCCGTTTCTGCCTATCGAAATGTTTAAAAATCATCAGATTCTGGAGAACAATGTAGAGGCAGATCTGTTTTTTCAGAGTTCAGGCACAACCCAAATAAATCTTTCAAAGCATTTTATTGCAAATCCGGAACTTTATGAGGAGAGTATTTATAAAAGTTTTGAACAGTTCATCGGAAAGCCGGAAGATTTTATTTTTCTGGGTTTACTTCCAAGCTATCTGGAAAAAAAGAACTCATCGCTCATCTATATGGTAGATTATCTGATGAAGAAATCTTCCAGACCGGAAAACGGATATTTTCTTTACAACCATTCTGAACTTTTTGACTTATTGAACAAACTGCAGGATGAAAAAGTTATTCTTTTCGGAGTTTCCTTTGCCTTACTGGATTTTCTGGATTATTGCCATTCTGAGCAGAGTGAAGAATCTCTAAATTTCCCTGAAAGTTTGGTGGTCATTGAAACCGGAGGAATGAAGGGGAGAAAAGAAGAAATGACCAAAGATGAATTGCTGAAAATCTTACAGGACGGTCTTAAAACAGATAAAATTTATTCGGAATATTCTATGACAGAATTGCTGTCACAAGCTTATTCTCTCGGAAATAATGAATATGAGTGTCCCAACTGGATGAGAATCATGGTTCGAAATGCAGAAGATCCTTTAGCTTACGAAAAAGAAGGAAGAACGGGTGCTATTAATATCATCGATCTTGCCAATACCCATTCCTGCTCATTTATTGCAACACAGGATTTAGGAAAAATTATCGGGGATAAATTTCAGGTACTGGGTAGAATAGACCATTCAGATATCAGAGGCTGCAGCCTGCTGGTAAGTTAG	MELKNIFNIQTEQDFLNASLETFRYQYKHVEIYRKFVDFLKVNPDEVDSLAKIPFLPIEMFKNHQILENNVEADLFFQSSGTTQINLSKHFIANPELYEESIYKSFEQFIGKPEDFIFLGLLPSYLEKKNSSLIYMVDYLMKKSSRPENGYFLYNHSELFDLLNKLQDEKVILFGVSFALLDFLDYCHSEQSEESLNFPESLVVIETGGMKGRKEEMTKDELLKILQDGLKTDKIYSEYSMTELLSQAYSLGNNEYECPNWMRIMVRNAEDPLAYEKEGRTGAINIIDLANTHSCSFIATQDLGKIIGDKFQVLGRIDHSDIRGCSLLVS				NA	NA	NA	NA	NA
BMS003_04242	771	lpxH_2	COG2908	UDP-2,3-diacylglucosamine hydrolase	GTGTTAAAAACAACAATTAATTTAGAGCCTGGAAAAAAAGTGTACTTTGCTTCAGATCAGCATTTTGGTGCCCCTACACCGGGTGAAAGCAAAATGCGTGAAGAGAAATTTATACGCTGGATGGATCAGATCAAAGAAGATGCTCAGGTTCTGTTTTTAATGGGGGATCTTTTTGACTTCTGGCATGAATGGAAACACGTAGTTCCCAAAGGATACGTTCGTGTTCTCGGAAAAATTGCAGAGCTTAAAGACAGAGGAATTCATATCTATTTCTTTGTGGGAAACCACGATCTTTGGATGAAAGATTATCTTGAAGAAGAGATTGGCTGTACGGTTTTTTATCAGAAACAATATTTTGAGATGGGAGGAAAGCAGTTTTTACTGGCACATGGAGATGGGTTGGGGCCTGGTGACAAAGGATATAAAAGAATGAAAAAATTATTCACAAATCCTGTTGCACAATGGTTCTTTAAATGGCTTCATCCCGATATTGCAATGAAAATAGCTTTATATCTTTCCCAAAAAAATAAAATGATCTCCGGAGAAGAAGACAAAGCCTTTCTGGGAGAAGATAAAGAATTTCTGATTATTTATTCCAAAGAAAAGCTGAAGACTCAGAAGATTGATTATTTCATCTATGGGCACAGACACCTTCCGATGGTGCTGGATCTAGAACAGAATGCAAAATACATCAACCTTGGGGACTGGATTTCTTATTTCACCTACGGGGTTTTTGAAAAAGATTTTCAATTGAAGATTTTTGAAAAATAA	MLKTTINLEPGKKVYFASDQHFGAPTPGESKMREEKFIRWMDQIKEDAQVLFLMGDLFDFWHEWKHVVPKGYVRVLGKIAELKDRGIHIYFFVGNHDLWMKDYLEEEIGCTVFYQKQYFEMGGKQFLLAHGDGLGPGDKGYKRMKKLFTNPVAQWFFKWLHPDIAMKIALYLSQKNKMISGEEDKAFLGEDKEFLIIYSKEKLKTQKIDYFIYGHRHLPMVLDLEQNAKYINLGDWISYFTYGVFEKDFQLKIFEK	PGPT0022370_443	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022370-lpxH-K03269	NA	NA
BMS003_04243	444			hypothetical protein	ATGATACGTATTACAAAAATTTTTACATTCGAAACCGCCCACGTGCTTTACAACTACGATGGAAAGTGTAAAAATATGCATGGACATTCCTATAAGCTGTTTGTAACAGTGAAAGGAAAACCGATCAATGATATTGAAAATCCTAAAAATGGAATGGTGGTAGATTTCGGAGATATCAAAAGTATCGTAAAATCTGAAATTGTAGATGTATGGGACCATGCGGTTCTTGTCAATGCTCTGTCACCCCACAAAGAACTGGGTGATGATCTTGAGCAGAAAGGACACAAAGTAATCTATTGCAGCTTCCAGCCGACCTGTGAAAACATGTTGTATGCTATTGCTGCTAAAATCAAATCAAGACTTCCTGAAGGAATTTCTTTAGCTTACCTTAAACTTCATGAGACGGAAAACTCTTATGGAGAATGGTTTGCAGAAGATAATTAA	MIRITKIFTFETAHVLYNYDGKCKNMHGHSYKLFVTVKGKPINDIENPKNGMVVDFGDIKSIVKSEIVDVWDHAVLVNALSPHKELGDDLEQKGHKVIYCSFQPTCENMLYAIAAKIKSRLPEGISLAYLKLHETENSYGEWFAEDN	PGPT0017720_45	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
BMS003_04244	1443	yfeW_2		Putative D-alanyl-D-alanine carboxypeptidase	ATGAAACAATCTATTTTAACAATATTATTTTCAGGTTTTTTCTTTACAGCTTATGGTCAGACTGCAGAACAATCGAAAGCGATAGACAGTTATATAAAGAAAGTTCTTCAAATCAACGAGATACCAGGAATGACCTTAGGAATTGTTACCAACAATAAAGCGAGTTTTCAGAAATACTACGGAACAGAAACCTTGGAAAGCGATAAAAAAATAGATCAGAATTCCATGTTCAGGGTGTATTCTACTACAAAACTGATGTCAAACGTTGGGCTTTTTCAGCTTGTTGAGCAAGGAAAAATTTCTGTGGAAGATAAAATTTCAAAGTATGTTAATAATATACAGGAAGAATGGCAAAATGTTAAGGTAAAAAATCTTCTCTCCCATTCTTCAGGACTTCCGGATTGGATTAATTTTAGTGATATTGCAACAGACGCTTCCAATGCTGAGGTTATTCATCGACTGTCAAAAGAGAAGATGGAATTTGAAACCGGAAGTGATTACAGGTATAATCAGACCAACTACATGCTGATCACCATGATTATTGAAAGAATAACGGGAGAGAAATTTGAAGATTATATCCTAAAGAATCAATTTTCAGATTCAAAAAATCAGGTAGTATTTTCATCCAATTCCATTGAAAAAATTCCTAACAGGATTATAAAATATATCTGCAACAAGAATACACATCAATATGAAAAGTCAACATTTGTAGAAGGGAGAAGAGCGCATTCAGCGAATGGTTTAGCGATTACATTACCCGCTTTTTTACAGTGGAGCATTCATTTGAGTAAAAATGATTTTCTGAAACCTGCCACACAAACGTTGATGTGGAAACCATTTGAATACAAAAATAAAGAGATCACCTTTACTCATGGTTGGGATATGGATACCTTTAATACGATAAACTCCTATAATTTTTCAGGAGGAAATGTAAGTGCTTACAGAATTTTTCCGGATCAGAATGTAGCTATTATAGTGATGTACAAAGGATTTAAAGAATTTCCGGTTTTTTATCCTATGATCAATCAGATTGCCGGTATGATGGATAAACGAATGCTGAACCCATACATGGTGGCAGAAGAATACACAACGTCTGAACCTTTTGTTCATCCCAATCTTAAAAAAGAAAACTATGGCTACCGAACAGAAAAGGATAATATCATTTTCTCATACCAATTTCCTGAAGGACAAAGTGTAGAGTATATCAAAAGTATTTCAGTTACTGGCTCTTTTAATAACTGGAATCCTGATGATAAGCTGTATTATATGAACCTGAAAAAGAACAATACTTTTGAGTTGGTACTTCCAAAATCTAAGTTCGAAAAAGGAAAAACCTACCAATTCAAATTAGTTATGAATAAAAACGGCTGGCTTTCTGTGCCTTACCATGGAATCAATGTAGATGGTACCAAGGATCATAATCTGACTTTCAAAATTGATTAA	MKQSILTILFSGFFFTAYGQTAEQSKAIDSYIKKVLQINEIPGMTLGIVTNNKASFQKYYGTETLESDKKIDQNSMFRVYSTTKLMSNVGLFQLVEQGKISVEDKISKYVNNIQEEWQNVKVKNLLSHSSGLPDWINFSDIATDASNAEVIHRLSKEKMEFETGSDYRYNQTNYMLITMIIERITGEKFEDYILKNQFSDSKNQVVFSSNSIEKIPNRIIKYICNKNTHQYEKSTFVEGRRAHSANGLAITLPAFLQWSIHLSKNDFLKPATQTLMWKPFEYKNKEITFTHGWDMDTFNTINSYNFSGGNVSAYRIFPDQNVAIIVMYKGFKEFPVFYPMINQIAGMMDKRMLNPYMVAEEYTTSEPFVHPNLKKENYGYRTEKDNIIFSYQFPEGQSVEYIKSISVTGSFNNWNPDDKLYYMNLKKNNTFELVLPKSKFEKGKTYQFKLVMNKNGWLSVPYHGINVDGTKDHNLTFKID				NA	NA	NA	NA	NA
BMS003_04245	1278			hypothetical protein	ATGAAAAGAAAACAAAAGCTACGATTATATTGGATGGAGATTATTTATCCAATATGGTTTAAAAAAGCGTTATTACTTACAATTCTATGCTCTGTAATTTTAGGTTGTACTTCTGGTACTGATAATTCAGATTATATAAAAAATGACTCAATGTCCCAAATGGATTATAAGTTTGACATGAAGTATAAGACTTCAATCAAAAATTTAGAAATTCGACAAATCATTAAAACCCAAGATGGTAATTATGTTGGGATTGCTTTTTCAGAAGATTTCCATATTATAAAATTCGATTCAAACTTTAATATAATTTGGGAGAAAAAATATGGTGGAAGTAAAAAAGATTATGCAGAGAGTATTTTAGAAGATACTCAGGGTAATCTTATTATTTTAGGAAATACAGAATCAACAGATGGAAATATCACTATTAATAATGGAGCATATGATCTGCTTTTGATCAAGACAGATAGTAATGGGAACTTAATTTGGAATAAAACTTTTGGAGGTAGTGGACATGAAGGAGTAAGTAAAGAACATACAATTGTTGAAACCAGCAATAATGATTTAATTTTTATCGGGTTTACCAACTCCTCGGATTTTGGCATTATAAACTATAATAATAAGTATAATGCATGGCTTGTGAAAGTAGATAAATCAGGAAATCTTTTGAAGCAAAAATCTTATGGAGGATACAATGATGATTTTGGTAGAAAAATTATTAAACATAATGATAGCTTTTTGATTAGTGTAAAAAGTAACTCTCTTGACAATGATTTTACTCAGGTTGGTAACTGGATTTTAAATATTGATAATGATTTGGATCTTAAATGGAAAAGAAATACTCAGGGTATTAATTCTGGAGATCTTATAATCAATAAGCAGAATGAAATAGTTGTGGTTAATTCTTCATTTACTGATTTTGAAGTGCGTGTCTTAGATATAAATGGCACTATTACGAAAAGTACAAACATAAATTTTTTAGCTCAAACCAACAAGCAACCTTCTGTTGGTCAAATTGTAAATTCAAGTGACGGAGGTGTATTTGTTATTGGAGATTTAGGATTAGCGGATGATCAAGATGCGGTAATTTTCAAAATAAATAAGAATCTTGTAAAAACTTCTGAAAAATTTATTATTGGAAATAGTTATGACAAATCTAGAACTCTTATTCCAACTCAGGTTAATCAATTTATTTATCTTTTAAACTCATCTTCCACAAATTTAGAAGTATCAACTAGTGGAAATATATTTTCAATTATAGCTGAAATTGAGGAAAAATAA	MKRKQKLRLYWMEIIYPIWFKKALLLTILCSVILGCTSGTDNSDYIKNDSMSQMDYKFDMKYKTSIKNLEIRQIIKTQDGNYVGIAFSEDFHIIKFDSNFNIIWEKKYGGSKKDYAESILEDTQGNLIILGNTESTDGNITINNGAYDLLLIKTDSNGNLIWNKTFGGSGHEGVSKEHTIVETSNNDLIFIGFTNSSDFGIINYNNKYNAWLVKVDKSGNLLKQKSYGGYNDDFGRKIIKHNDSFLISVKSNSLDNDFTQVGNWILNIDNDLDLKWKRNTQGINSGDLIINKQNEIVVVNSSFTDFEVRVLDINGTITKSTNINFLAQTNKQPSVGQIVNSSDGGVFVIGDLGLADDQDAVIFKINKNLVKTSEKFIIGNSYDKSRTLIPTQVNQFIYLLNSSSTNLEVSTSGNIFSIIAEIEEK				NA	NA	NA	NA	NA
BMS003_04246	1167			hypothetical protein	ATGAAATTCTCTTATTCACTAGCTTTACTCTTGTTAAACATAATAGGCTATGGCCAGGAAAATTCTTACTGGTTTACGGATGATATCAAAAAGAATGTATCGGACTCTACCCAAAGTCAATCCTGGAAAAGCCAGATGGCAGCAACATACTACTCAATAAGCGGACAATATAAACTGGCATTGGAAAGTTGGGATGAGACTTTTGGACGTGTAAAAAAGTTGAGTGCAGCAGATAGCCTGAGATTCACAAAATTAATCCCTGCCAATGCAAAAGAGTATATCTTAGAAAGAGCGGGCAGTGAACAGATTATCATCATTAATGAAGCTCATCATAATGCCAGTCATAGAAATTTTGCTTCCTCCTTATTGCAGGGGCTATATGATAAAGGCTACAGATATTTGGGACTCGAAACTTTAGCAAGTGATTCTTTAAATACCACAAAATTTGCTGCTCTCAGTAGCGGATATTACTCCAAAGAACCAGAATTCGGAAATTTTATTTACAATGCCCTGAAAATTGGGTTTACGCTTTTTCCGTACGAAGCAGAAGGAAATAACAAAGAAAGAGAAATTGGAGAAGCAAAAAATATCTTCGATTTTATGCAGAAAAATAAAGAGGGAAAATATCTCATTTATTGTGGTTATCAGCACGCTTATGAAGGTATTCATAAATCCTGGGAGAAAACAATGGCAGGAAGACTTTCAGACTTAACAGGTGTGAATCCTTTTACCATTGATCAGACTCAATTTTCAGAAAAAAGTAACCCGAAGTATAATGAATCACTTTTAAGATTGACAAATAATACGGTTCCTGTTGTTTTAAAAGATGAAAACCAGGGAATATACAATGGTGAAGACAAAGATTTGTATACTGATATTAAAATCATTCATCCCGTTACAAAATACATTGAACGCAGACCCAATTGGATGTTGAACAAAAACAGAAAGCTTTATAAGGTTCCTGCTTCTAAAGTTTCAATATATCCGGCCATGGTTTTAGCATACAGAAAAGGAGAATTTGAAAAAGAAGGAATTCCTGCTGATATCATTGAGCTCAAAACTTCTAAAGACAGCCGTTTTTTAATCCTGGATAAAGGAGACTATGAAATTGTTATCAAAGACAAAGAATATAAAGTCATTAACAGATTTGAAAAAACAGTGAAATAA	MKFSYSLALLLLNIIGYGQENSYWFTDDIKKNVSDSTQSQSWKSQMAATYYSISGQYKLALESWDETFGRVKKLSAADSLRFTKLIPANAKEYILERAGSEQIIIINEAHHNASHRNFASSLLQGLYDKGYRYLGLETLASDSLNTTKFAALSSGYYSKEPEFGNFIYNALKIGFTLFPYEAEGNNKEREIGEAKNIFDFMQKNKEGKYLIYCGYQHAYEGIHKSWEKTMAGRLSDLTGVNPFTIDQTQFSEKSNPKYNESLLRLTNNTVPVVLKDENQGIYNGEDKDLYTDIKIIHPVTKYIERRPNWMLNKNRKLYKVPASKVSIYPAMVLAYRKGEFEKEGIPADIIELKTSKDSRFLILDKGDYEIVIKDKEYKVINRFEKTVK				NA	NA	NA	NA	NA
BMS003_04247	522			hypothetical protein	ATGGAATCTGAGGATAAAAAGAATAAAATTTTAGCCAATGTGATATTGGGGTATTTTTATCTGTGTTGTACCGTTTTTGTTTCTGGTGCCATTGTACGTAAAATGATTCCAGACTGGAATGAACTTTCATTATCAAAGATATTTTCCTCTGCTGTTCCGGTTTTACTGTTTTCTTTTCTTACTTATCTCTTTTTGGGAACAGTATTAATTAGAAAAAAATATTATTTGCGAAATTTAAGGGAAGAAGCTAAAATTGATCCTTTAGAAAAGCAAATTATAGTATTGGATAAACAGAGCCAAAAAGAAAGAAAAATAGATTTTGATAAAGTTAAAGCTGTTGAATTGTATTATTCATGGAACTCAAATGCCTTTTCATCAGATCTGGGATATTCTAAAATTGTAATTGAGGATAATACGGAACCTATTTTGATTACTCAGAATAATATTAACCAATACTACATTTATAAAGCTTTTAAGAATAAAGTAACTGTAAATAAATCAAAATTTGCAAATAACTTATAA	MESEDKKNKILANVILGYFYLCCTVFVSGAIVRKMIPDWNELSLSKIFSSAVPVLLFSFLTYLFLGTVLIRKKYYLRNLREEAKIDPLEKQIIVLDKQSQKERKIDFDKVKAVELYYSWNSNAFSSDLGYSKIVIEDNTEPILITQNNINQYYIYKAFKNKVTVNKSKFANNL				NA	NA	NA	NA	NA
BMS003_04248	390			hypothetical protein	ATGAATATAATGTACGAGAAACAGATACAGGTAACGGAAGAACATATTGACGGGAACAATCATGTGAATAATGTACAATACGTACATTGGGTAGAAGAAGTGGCAGCTGAGCACTGGGATCTTTTAAAACAGAAAACCAATTATGCAAATGATGCCTGGATGCTTCTTGATCACCATATCCGATACAAAAAGCAGGTTTATCTGAACGATATTATCACGGTAAGAACTTATCCCATGATTCCCGAAGGAGCTAAACAGCCAAGAAAAGTAGAATTTTACTGCAATGACGAGCTTGTAGTAGACTCAAGTACACTTTGGATTCTGTTTGATCCTGAAACAAAAAAAATAAAACGTCTGGAAAATGACTGGCTGGAGAAATTTTTTAATTAA	MNIMYEKQIQVTEEHIDGNNHVNNVQYVHWVEEVAAEHWDLLKQKTNYANDAWMLLDHHIRYKKQVYLNDIITVRTYPMIPEGAKQPRKVEFYCNDELVVDSSTLWILFDPETKKIKRLENDWLEKFFN	PGPT0001850_9012	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS003_04249	567			hypothetical protein	ATGAATTTAATTAAAGCATTTTTTATTACATTAGGATTGACACTTACTGCAAATGTCGCAAACGCTCAACAGAAGATTGGAAGTGTAAATACAGAGGATATTTTTGCTAGTTTATCTGAAGTAAAAACTATAGGAACCACTATTGATAATCTGACTAAAAGCAAGCAGACTGAAATTGAGAAGCTGATTAACGATTATCAGACTAAGCTAAAAGCAGCACAGGATAAAGAAAAAACGTTAAGTGAAGCAAACAAAGAAGCTGTAACTAAAGAATTGATTGCAGCACAGACAGAATTGCAGGCTTTGGGTAAAAAGATAGAAGAAACAAGATCTCAGGCGGCTAAAGACATTTCAGCTAAACAAAATGAATTGCTTAGCCCGCTTCAGAAGAAAGTAAGAGATGCAATTTATGCTGTAGCGAAAGAAAGAAGCCTGAATTATGTATTTGATACAGCAGCACAGGAATCTAATAACCTTCTTTATACAGACGGAAGTGAGGATATCACTGCTATCGTGAAAAGCAAATTAGGAGCTACAACCGCTAAACCTGTCGGGAAATCCAAATAA	MNLIKAFFITLGLTLTANVANAQQKIGSVNTEDIFASLSEVKTIGTTIDNLTKSKQTEIEKLINDYQTKLKAAQDKEKTLSEANKEAVTKELIAAQTELQALGKKIEETRSQAAKDISAKQNELLSPLQKKVRDAIYAVAKERSLNYVFDTAAQESNNLLYTDGSEDITAIVKSKLGATTAKPVGKSK	PGPT0024525_450	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
BMS003_04250	1281	aceA	COG2224	Isocitrate lyase	ATGAAAACAAGACAAGAACAAATTCAGGCTATGGAGCAGGACTGGCTGACGAATCCACGCTGGAACGGTGTAAAAAGACCTTATACAGCAGCAGAAGTTTTAAAACTTCGTGGAACTTATACCATAGATTATACGATTGCTACAGAGATGTCCAAAAAGTTCTGGGATAAATTAACTACTCAGGATTATGTGGCAGGACTTGGTGCGCTCACAGGCAATCAGGCTGTACAGGAAGTAGATGCCGGGCTGGAAGCCATTTATCTTTCAGGGTGGCAGGTAGCTGCAGATGCCAACTTATCAGGAGAAATGTATCCGGATCAGTCTTTGTATCCCGCCAACTCAGTGCCTTCTGTAGTGAAAAAAATAAATAATGCGCTGTTAAGAGCAGATCAGGTACAGTCTGTAAGCGGAGCAGGAAATAAAGAATACCTGGTGCCGATCATTGCAGATGCTGAAGCCGGTTTTGGTGGTAATCTGAATGCTTTCGAGCTTATGAAACAGATGATTGAAGCAGGAGCAGCGGGCGTACATTTTGAAGATCAGCTTTCTTCAGCCAAAAAATGCGGACACTTAGGCGGAAAAGTATTAGTACCCACTCAGGAAGCAGTGAATAAACTGATTGCTGCCCGTCTGGCTGCTGACGTACTGGGTGTTCCGAGTCTTATTATTGCAAGAACAGATGCAGATGCTGCAGATTTACTGACATCTGATATTGATGACAGGGATAAAAAATTTGTAACAGGAGAAAGAACTTCTGAAGGTTTTTATGTAGTAAGAAACGGAGTAGAACAGGGAATCGACAGAGGATTGTCTTATGCTCCCTATGCCGATTTGATCTGGATGGAAACGTCAAACCCTGATCTGGAGCAGGCAAGAAAATTCGCAGAAGGAATTCATGCAAAATTTCCCGGGAAAATGCTGGCTTATAACTGTTCTCCTTCATTTAACTGGGCAGCAAAGCTGAGCGTGGAGGAAATGTCTACTTTCAGAGAAGAGCTGGCTAAAATGGGATATAAGTTCCAGTTTATTACCCTTGCAGGATTCCATGCTTTGAATACAGCAATGTTTGAACTGGCCTTAGCCTATAAAGAAAGAGGAATGGCCGGATATTCTGAACTGCAGGAACGTGAGTTTGCATTGCAGCAGAAAGGGTTCAGAGCGGTAAAGCATCAGTCCTTTGTAGGAACAGGATATTTTGATGAAGTACAGAATATTGTTACCAACGGCTCCTCAGCTACCGTAGCGATGAAGGATTCTACAGAAACTGCACAGTTCCATTAG	MKTRQEQIQAMEQDWLTNPRWNGVKRPYTAAEVLKLRGTYTIDYTIATEMSKKFWDKLTTQDYVAGLGALTGNQAVQEVDAGLEAIYLSGWQVAADANLSGEMYPDQSLYPANSVPSVVKKINNALLRADQVQSVSGAGNKEYLVPIIADAEAGFGGNLNAFELMKQMIEAGAAGVHFEDQLSSAKKCGHLGGKVLVPTQEAVNKLIAARLAADVLGVPSLIIARTDADAADLLTSDIDDRDKKFVTGERTSEGFYVVRNGVEQGIDRGLSYAPYADLIWMETSNPDLEQARKFAEGIHAKFPGKMLAYNCSPSFNWAAKLSVEEMSTFREELAKMGYKFQFITLAGFHALNTAMFELALAYKERGMAGYSELQEREFALQQKGFRAVKHQSFVGTGYFDEVQNIVTNGSSATVAMKDSTETAQFH	PGPT0001550_2446	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
BMS003_04251	1575	aceB	COG2225	Malate synthase A	ATGGAAACCAAGACTCAGTTAGAAATAAAGTCACAGAAGCAGTTTGAGGAAATATTTACTCCGGATTTGGCAGATTTTCTGATTTCGCTTCATCAGAGTTTTAATCATACAAGACTTGAACTTTTAGAAGAAAGAAAAAAAACACAGCAAAATTTTGATAAAGGAAATCTACCTGAGTTTTTAAAAGAAACAGCAGGCATCAGAAACGGAAACTGGGTATGCGCTACGCTTCCTGAAGATATGCTGGACAGGAGAGTAGAAATTACAGGACCGGTTGACCGTAAAATGATCATCAATGCTCTGAATTCCGGTGCATCTACTTTCATGGCAGATTTTGAAGACAGCAGTTCGCCTGTTTGGGAAAACTGTATCCAGGGACAGATTAATCTTTCTGATGCTATTAACCGGACTATTGATTTTGTCAACGAAAAAGGGAAAGCTTATACGCTTAATGAAAAAACGGCCGTTCTACAGGTTCGTCCACGTGGTCTTCACCTTCCGGAAAAGCATATTGAAATCAATGGAGAGAAAGCTTCCGGTTCGCTGACAGACTTTGGAATGTATTTTTTCAGAAATGTAAAGCAGCTTTTGGAAAATGGAAGTGGCTCTTATTTCTATCTTCCGAAGCTGGAACATTATAAAGAAGCCCGTTGGTGGAATGATGTCTTTGTTTTTGCACAAAATTATCTCGGAATTCCGGAAGGAACCATTAAAGCAACTGTTTTAATAGAAACTATTACCGCTTCATTTCAGATTGATGAGATTTTATTTGAATTAAAAGAACACAGTGCAGGACTGAATTGCGGAAGATGGGATTATATTTTCTCTTACATTAAGAAATTTAGAAATCTTCCCGGGTTTATTGTTCCGGACAGAGATCAGGTGACAATGAGCTCTCCTTTTATGAGTGCCTATTCAAAAAGAGTGATAGAAATCTGTCATAAAAGAAATGTACATGCTATCGGTGGAATGGAGGCGCAGATTCCCGTAAAAGATAATGATGAAGCTAATAATACTGCTTTTGAAAAAGTAAGAAATGATAAAGAAAGGGAAGTGAAAAACGGTCATGACGGAACCTGGGTAGCACATCCGGCGCTGGTAGCTATAGCAAAAGAAATTTTTGACGAATATATGCCCTCCAAAAATCAGATTGATAAAAAATTGGAATACAATATAACAGAAGGGCAGCTGCTGGAAGTTCCTAAAGGAGATATTACAGAAAAAGGAGTCCGCAAAAACATTAATGTAGGGATTCTTTATCTTGAAAGCTGGCTGAAGGGAACAGGTGCTGCCGCTATTTATAACCTGATGGAAGATGCAGCAACTGCAGAAATATCAAGAACACAGATCTGGCAATGGCTGAAAAATGAAGCTGTACTGAGTGACGACAGAACTTTAACCCGAAGCATGGTGCTGCAATGGGAAAAAGAAGAAATGGACAATATTGAAAAGTATGTAGGAGAAGCCCGGTTCAATAACGGAAAATTCAACCTTGCGAAAGAACTTTTCAATGAGCTGATCTTCTGTGAAAACTTTGAAGAATTCCTTACCCTTAAAGCATATCCTTTTATTTAG	METKTQLEIKSQKQFEEIFTPDLADFLISLHQSFNHTRLELLEERKKTQQNFDKGNLPEFLKETAGIRNGNWVCATLPEDMLDRRVEITGPVDRKMIINALNSGASTFMADFEDSSSPVWENCIQGQINLSDAINRTIDFVNEKGKAYTLNEKTAVLQVRPRGLHLPEKHIEINGEKASGSLTDFGMYFFRNVKQLLENGSGSYFYLPKLEHYKEARWWNDVFVFAQNYLGIPEGTIKATVLIETITASFQIDEILFELKEHSAGLNCGRWDYIFSYIKKFRNLPGFIVPDRDQVTMSSPFMSAYSKRVIEICHKRNVHAIGGMEAQIPVKDNDEANNTAFEKVRNDKEREVKNGHDGTWVAHPALVAIAKEIFDEYMPSKNQIDKKLEYNITEGQLLEVPKGDITEKGVRKNINVGILYLESWLKGTGAAAIYNLMEDAATAEISRTQIWQWLKNEAVLSDDRTLTRSMVLQWEKEEMDNIEKYVGEARFNNGKFNLAKELFNELIFCENFEEFLTLKAYPFI	PGPT0001445_3047	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS003_04252	1482			hypothetical protein	ATGAATTCAGAAAGCGACTTTATCAAAACAGTTTTCGGACTAAAACTGAAACAGCAGAGACAGAAAAAAAACTGGTCTCTGCAGGATCTTGCTGTAAAGACAGGATTATCAAAATCTTATCTCAACGAAATTGAGAATGGAAAGAAATATCCCAAGCATGATAAAATCATTCAGCTTTCTGAAGCTCTGAACTGTACGTTCGATGATCTGGTTTCTACTAAACTGGATAAAAGCCTTGCTCCTTTTAATGAAATTCTGCAATCAGATTTCTTTAAAGAAGTTCCGCTGGAACTATTCGGGATCAATAAGAACAATCTCATCAGCATTATCAGTGATGCTCCTAAAAAAGTAACTGCTTTCATCAATGCACTGATCGAAATTTCACAGAATTACAATCTTGGAAAGGAAAGGTTTTATTTTGCGGTATTGAGGTCTTTTCAGGAATTGTATGATAATTACTTTCCGGAAATTGAAGAAAAAGTAAATCTTTTTACTGAAGAAAATCAATTACAAACCGGGAAAAATTTAAAGTCTGATATTCTGGAGACAATTCTTACGGAAAACTTCAGTTACACTATTCGGTCTGAAGATTTTGAAAAATTCGGAGCTCTGGATAATCTCCGTTCTCTTTTTATCCCGGAGAAAAAACTTTTATTACTGAATCAAAAACTGGAAAAGGATCAAAAAACTTTCATTCTTGCGAAGGAAATCGGGTTCAATGTTCTGGAATTAAAAATCCGTCCAAATACTTATTCATGGCTTGATTTCGGAAGTTTTGAGGAGATCCTGAATAACTTTTATGCCTCTTATTTCGCCGGAGCTTTGTTGATTTCAAAAGAACCTGTCATTGAAAAAACCTCAGAATTTTTTCAGCAAAATAAATGGGAACCTAAAAGTTTCGAAAGTCTGATCAACAGCTTTACCCATTCACCCGAAACTTTCTATTATCGCCTTACCAACATCCTTTCGGCAGAGATGGGAATCAAAGATTTATTTTATTTGTGCCTGGTAAAAAAGAAAAATTCGGATAAAATCCAGATTTTAAAAGAGCTTCATCTGAACCATCAACAGGCTCCGCATGCCAATGCAACCAACGAACACTACTGCAGAAGATGGATTGCTGTGAAAAACCTTGATCATTTAAAAGAAAATGAAACCCTTACGGATGCTCAGATTTCCCATTATAAAGATCAGGGCATAAGCTATCTGGTGATTTCCACTTCACAGAAAAATCCTTTTTCCGATGGGAGCAACAGAAGTTATTGTCTGGGAATTTTGTTAAATTCCCAAACGATCAAAAAAATAAGTTTCATTAAGTCTCCTTCTTTAAAAACCATCAATGTGGGTGTTACCTGTGAATCCTGCAGCATTGCAGACTGTGAAGTACGACAAGCTTCACCGGTAAGACTGGAAAAGGAGCATTTTAATCTGAGTATGAAAAATGCTGTGGAGAAGATCAGGAAGGGTTTTGAAAAGATTTAA	MNSESDFIKTVFGLKLKQQRQKKNWSLQDLAVKTGLSKSYLNEIENGKKYPKHDKIIQLSEALNCTFDDLVSTKLDKSLAPFNEILQSDFFKEVPLELFGINKNNLISIISDAPKKVTAFINALIEISQNYNLGKERFYFAVLRSFQELYDNYFPEIEEKVNLFTEENQLQTGKNLKSDILETILTENFSYTIRSEDFEKFGALDNLRSLFIPEKKLLLLNQKLEKDQKTFILAKEIGFNVLELKIRPNTYSWLDFGSFEEILNNFYASYFAGALLISKEPVIEKTSEFFQQNKWEPKSFESLINSFTHSPETFYYRLTNILSAEMGIKDLFYLCLVKKKNSDKIQILKELHLNHQQAPHANATNEHYCRRWIAVKNLDHLKENETLTDAQISHYKDQGISYLVISTSQKNPFSDGSNRSYCLGILLNSQTIKKISFIKSPSLKTINVGVTCESCSIADCEVRQASPVRLEKEHFNLSMKNAVEKIRKGFEKI				NA	NA	NA	NA	NA
BMS003_04253	654			hypothetical protein	ATGATATTAGATTTATTGTTTCCGAACCGCTGTATCCATTGCAACAGAATCATTGATCCTGAGCTTTTAGTATGTGATCTTTGTTTTAGCCAGATTCATTTTACTCATTACAGTTATTCCGAAAACAATCCGATTAAGGAAAAATGCAGTTTGCTTTTTCCGGTTGAAAATGCCTTTTCTTTAATCCAGTTCGAGGAAGAAGGTTTAAGCAGAAAAATCATTCATGATCTAAAGTACAGAAGCAGGGAAAAAGTGGGAAAGATTCTTGCAGGCTGGATTACTGAACGATTAAATTTTGAAGATCAAAAACCAGATTTATTGGTAAGTGTTCCTCTTCATCCGAAGAAGCTTAAGGAGCGCGGATATAATCAGCTTCATTTATTGACGGAAACGTTATCTTCATTTTACAACATTCCTTTTGATCATCACTTAATCAAAAGAAATCATTATTCTAAAGCTCAGGCTTTAAAAGACAAGAAGCACAGATTGGAATCCAACAATACATTCTCCGTCACTCACTCCATTACCGAAAGGCATATTCTTCTGATTGATGATGTTTTTACTACCGGAAATACAGTTTCATCCGTTGCCTGGGAGATCTTAAATGCAGGAAATAATAAAGTAAGTATCCTGGTAATGGCGGTGGATATTTAA	MILDLLFPNRCIHCNRIIDPELLVCDLCFSQIHFTHYSYSENNPIKEKCSLLFPVENAFSLIQFEEEGLSRKIIHDLKYRSREKVGKILAGWITERLNFEDQKPDLLVSVPLHPKKLKERGYNQLHLLTETLSSFYNIPFDHHLIKRNHYSKAQALKDKKHRLESNNTFSVTHSITERHILLIDDVFTTGNTVSSVAWEILNAGNNKVSILVMAVDI	PGPT0029435_653	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
BMS003_04254	687	rutD_3		Putative aminoacrylate hydrolase RutD	ATGCCCAATCTGCTTTTACTGCACGGAGCTTTAGGTCACAGCGACATTTTCAAGCCTTATCTTGATGCACTGTCTCCATATTTCAAGATACACACTCCTTTATTTTCAGGACACGGAAATCAGGAACTCTCTGTGGACAGCATCACCATTGAAAAGTACACTCAGGAATTATCCGAATATTGTACGGCTAACAACTTAACAGATGTTTCTATTTTTGGGCACAGCATGGGAGGTTATGTTGCGCTTTGCTATGCCATGGAAAATCCTGAGAATGTAAATTCTATCATCACACTGGGAACAAAGTTCGACTGGAATGAGAAACAGACTTTAAAAGAAAGTAAAATGCTTAATCCTGATATTATTCTTGAAAAAATTCCGCAGTATGCCCAACTTTTAGAGTCTCAGCATGGAACAAAATGGAAACAACTTCTTCCAGCTATTGCTGATTTAATGATTGATTTAGGTAAAAATCCTCCTCTGGAAAATAACCTTGCTATGATTCATATTCCGACTCAAATTATGGTGGGAGATAAAGATAATATGGTTACTATTGAGGAAAGTGTAAGAGTTTACAGAAGCCTTCCTAATGCAAAATTGGCCGTACTTCCGGACACAAAGCATCCAATGGATAAAGTACGACCAAGTTTATTATTGAACTTAATAAAAAATTTCTGGAATCTTTCTTAA	MPNLLLLHGALGHSDIFKPYLDALSPYFKIHTPLFSGHGNQELSVDSITIEKYTQELSEYCTANNLTDVSIFGHSMGGYVALCYAMENPENVNSIITLGTKFDWNEKQTLKESKMLNPDIILEKIPQYAQLLESQHGTKWKQLLPAIADLMIDLGKNPPLENNLAMIHIPTQIMVGDKDNMVTIEESVRVYRSLPNAKLAVLPDTKHPMDKVRPSLLLNLIKNFWNLS	PGPT0019765_653	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,PGPT0019765-mhpC-K05714	NA	NA
BMS003_04255	651	upp		Uracil phosphoribosyltransferase	ATGCTTACTATTTTATCGCAACACTTTTCTCTTGTCAACGAATGGATTAATGAACTAAGAAACGTTAATATCCAGCATGACCGTATGAGATTCAGAAGAAATATGGAAAGAATCGGAGAGATTGCTGCTTTTGAAATCAGTAAAGGACTCGAGTATAGAGAAGTTGAAATTCAAACTCCTTTAGATATAATAAAAAGCAGAGAAATTGCTGTACAGCCTGTTATTACTACTATCTTAAGAGCCGGAGTTCCATTGTTTGAAGGACTCCTGAACTATCTTGACAGAGCAGACTGTGGTTTTGTAGCTGCGTACAGAAAACACGATGCCAACGATTATTTCTCCATCAAACAGGATTATCTTACCTGCCCGAGCATCGAAGGCAGACCCTTGATCGTAGCAGATCCGATGCTGGCAACAGGTGCATCTTTAATTGAGGCTATCAAAGATTTGCTTACCAACGGAAATCCTACTCAGCTCCACATTGTCGCAGCAATTGCGTCAAAACAAGGAGTGGAAACCATTCAGAATGCGTATCCTGAAGCTCATATCTGGGTAGGAGCCATTGATGAACATTTAACTTCAAAAGGATATATCACTCCCGGATTAGGAGATGCCGGAGATTTGAGCTACGGAGAAAAACTTCAGAGATAA	MLTILSQHFSLVNEWINELRNVNIQHDRMRFRRNMERIGEIAAFEISKGLEYREVEIQTPLDIIKSREIAVQPVITTILRAGVPLFEGLLNYLDRADCGFVAAYRKHDANDYFSIKQDYLTCPSIEGRPLIVADPMLATGASLIEAIKDLLTNGNPTQLHIVAAIASKQGVETIQNAYPEAHIWVGAIDEHLTSKGYITPGLGDAGDLSYGEKLQR	PGPT0021240_966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
BMS003_04256	1311	der	COG1160	GTPase Der	ATGTCAAATATTGTCGCAATCGTTGGGCGTCCCAACGTAGGAAAATCCACGCTTTTTAATCGTTTATTAGAAAGAAGAGAAGCTATTGTAGATTCTACCGCTGGTGTTACCAGAGATCGTCACTATGGAAAATCAGACTGGAACGGAGTAGACTTTACTGTTATTGATACCGGAGGGTATGATGTAGGTACAGATGATATCTTCGAAGAGGAAATCCGTAAACAGGTACAACTAGCCGTGGATGAAGCAACTTCCATTATCTTTATGATGAACGTGGAAGAAGGGCTTACCGATACAGACCACGAAATCTACAGACTTCTTAGAAGATCCAACAAACCAATTTATATTGTTATCAATAAAGTAGATTCCTCTAAAGAAGAACTTCCTGCAACAGAATTCTATCAGTTAGGAATTGATAAATATTATACCCTTTCTTCTGCTACAGGTTCCGGAACAGGAGACTTACTGGATGATATTGTTAAAGATTTTCCGACTACAGAATATAAAGATCCATTTGAAGGATTGCCTAAAATCACGATTGCAGGTCGTCCAAACGTAGGAAAATCTACCATGACCAATGCTTTATTGGATGTTGAAAGAAATATTGTAACCGATATTGCAGGAACTACAAGAGACAGTATCCAGACTTTATACAACAAATTTGGACACGAGTTTGTATTGGTAGATACCGCAGGGATGAGAAGAAAGTCTAAGGTAAACGAAGACCTTGAATTCTATTCAGTAATGAGATCTATCCGTTCTATCGAGTATTCTGACGTCGTTATTATCATGGTTGATGCTACACAGGGATGGGAATCTCAGGATATGAATATCTTCGGGTTGGCTCAGAAAAACAGAAAAGGAATTGTGATCCTTGTGAATAAATGGGATTTGATTGAAGACAAGCAGACCAATACAATGCGTGATTTTGAAAAATCAATCAAAGATAAAATTGGTCAGTTCCAGGATATTCCAATTTTATTTGTTTCAGCTTTAACGAAGCAAAGAATCTTAAAAGCTGTAGAAGTAGCTATGGAAGTATATGAAGACCGTAAGAAGAAAATTAAAACTTCAAAACTGAATGAAGTAATGCTTCCGATCTTTGAAAATACACCGCCACCAGCACTGAAAGGGAAATATATTAAAATCAAATACTGTGTTCAGCTTCCTACGCCGTCACCACAGTTTGTATTTTTCTGTAACCTTCCACAATATGTAAAGGAACCGTATAAGAGATTTACTGAAAACCAATTGAGAAAACAATTCGGATTTACCGGAGTCCCGATTGAAGTATATTTCAGACAAAAATAA	MSNIVAIVGRPNVGKSTLFNRLLERREAIVDSTAGVTRDRHYGKSDWNGVDFTVIDTGGYDVGTDDIFEEEIRKQVQLAVDEATSIIFMMNVEEGLTDTDHEIYRLLRRSNKPIYIVINKVDSSKEELPATEFYQLGIDKYYTLSSATGSGTGDLLDDIVKDFPTTEYKDPFEGLPKITIAGRPNVGKSTMTNALLDVERNIVTDIAGTTRDSIQTLYNKFGHEFVLVDTAGMRRKSKVNEDLEFYSVMRSIRSIEYSDVVIIMVDATQGWESQDMNIFGLAQKNRKGIVILVNKWDLIEDKQTNTMRDFEKSIKDKIGQFQDIPILFVSALTKQRILKAVEVAMEVYEDRKKKIKTSKLNEVMLPIFENTPPPALKGKYIKIKYCVQLPTPSPQFVFFCNLPQYVKEPYKRFTENQLRKQFGFTGVPIEVYFRQK				NA	NA	NA	NA	NA
BMS003_04258	408			hypothetical protein	ATGAAAAAAACAATTTTCCTGAGCGCAATGTTCTTTTGTACATTAGCTTTTGCTCAGAAATCTCCTGTTTTAGGAGGTGACAGAGATGTTCATGGCTGCATTGGTTCAGCAGGTTATACTTATTCACAGCTTAGAAATAACTGTATAAAAACTTTCAATCAGAAAATTAAACTTAAAGAAGTAAGTACAGATAAAAGTTATGTTTCAGTGACTGTAGTAATATTTAATAGAAGCATGACAAAAGCTGAAATATTTATTCCGGATGGAGCTGCAAAAAGTATTATCCTGGACAAACAAGGAAAAGAAAAGGTATGGAAAAGCGGAGCTCATGTGAAAGACAGTTATGTTTTGACGCCTTACAAAAAGACCTATAAGATCAAGAAGAATGATGAAGTAATCTATCAGTAA	MKKTIFLSAMFFCTLAFAQKSPVLGGDRDVHGCIGSAGYTYSQLRNNCIKTFNQKIKLKEVSTDKSYVSVTVVIFNRSMTKAEIFIPDGAAKSIILDKQGKEKVWKSGAHVKDSYVLTPYKKTYKIKKNDEVIYQ				NA	NA	NA	NA	NA
BMS003_04259	399			hypothetical protein	ATGAAAAAAACAATTTTCCTGAGCGCAATGTTCCTGGGTTCATTAGTATTTGCGCAAGAAACACATGTTGTAGGAGGTGACAGGGATGCGCATGGTTGCATTGGTTCGGCAGGGTATACGTACTCTCAGATTAAGAAAGACTGTATAAGAACTTTTGAACAGAAAATTAAATTAACAGAAGTAGCTCCGAAAGAAAGCTACACTTCAATAGCAGCAGTTATTTTCAGTAAAAATATGAAAAAAGCTGAGGTTTTTGTAAGAGATGCCAATTCAGGAAGTATTATTTTAACCAGAGTACGAGGCAAGGCTAAAGCCTGGAAAAAAGATGGCTATGTATTGGTTCCTTACAAAAAAAACGGATACCAGCTTAAAAAAGATAATATTGTGATCTATCAGTAA	MKKTIFLSAMFLGSLVFAQETHVVGGDRDAHGCIGSAGYTYSQIKKDCIRTFEQKIKLTEVAPKESYTSIAAVIFSKNMKKAEVFVRDANSGSIILTRVRGKAKAWKKDGYVLVPYKKNGYQLKKDNIVIYQ				NA	NA	NA	NA	NA
BMS003_04260	2328			Putative beta-xylosidase	ATGAAAAAGTTAATTGTAATTGCCACTTTAGCATTGGCTCCTGTTTTTTCTGCACAGGAAATGGTGGATAAGCCCGCTCAGTCCTATCAGACAGCACAGTATCAGGCTAAAAAGAAAGCTTTTGTAGACAATCTTTTATCTAAAATGACATTGGATGAAAAGATAGGCCAGCTGAATTTACCCAGTTCCGGTGACTTTACCACAGGTCTGGCTAAAAGCTCAGATATCGGTAAAAAAGTTGAACAAGGTTTAGTAGGTGGACTATTCAATATAAAAGGTGCTGAGAAAATCAGAGCTGTTCAAAAAGTAGCAGTGGAAAACAGCCGTCTGAAAATTCCTTTGATTTTCGGGATGGATGTTATACATGGTTATGAAACTACATTTCCCATTCCATTAGGTTTAGCAGCTTCATGGGATATGAACCTGGTTCAGCAGTCAGCAAGAGTAGCTGCTAAAGAAGCATCTTCTGATGGGATCAACTGGACGTTCTCTCCAATGGTGGATATTTCCCGCGAACCAAGATGGGGTAGAGTTTCCGAAGGTTCCGGTGAAGATCCGTACCTAGGAAGTGAAATTGCAAAAAATATGGTCTATGGGTATCAAGGAAAAGATTTAGCCGTTGGAAATACCATTCTGGCTTGTGTGAAGCACTTTGCACTTTACGGAGCCGGTGAAGCAGGAAGAGATTACAATACCGTTGATATGAGCCACGTGAGAATGTTCAACGAGTATTTCCCACCTTACAAAGCAGCTGTTGATGCGGGGGTAGCTTCTGTAATGGCTTCTTTCAATGAAGTGGACGGCGTTCCTGCTACCGGAAACAGATGGCTTCAGACAGAAGTTCTAAGAAATAAATGGAACTTTAAAGGTTTTGTAGTAACTGATTACACTGGAATCAATGAAATGGTAGATCATGGGATGGGAGATCTTCAGCAGGTCTCTGCATTGGCTTTGAAAGCAGGTGTTGATATGGATATGGTAGGAGAAGGATTTTTAACCACATTAAAAAAATCTTTATCCGAAGGAAAAGTAACACAGGCTGAAATTGATCTGGCGGCAAAAAGGATTCTTGAAGCAAAATATGACTTAGGGTTATTTACAGATCCGTACAAATACGGAGATGCAAAACTGGCTGCAAAAGAAGTTTTCAGTATGGAAAACAGAAATATTGCAAGAAATGCTGCGGCTCAGTCTATGGTTTTAATGAAAAATGAAAACCAGGTACTTCCTTTGAAAAAATCAGGAACTGTTGCGGTAATCGGGCCATTAGTGAATAATTCACTGAATATGCCTGGAACATGGAGCGTTGCAGCAAAACACGATAAAGCAGTAAACCTGATGCAGGGGCTGCAGGCGAACTACGGCAAAGAAGTGAAATTTATTTCTGTTAAAGGAGCCAATATTGATTATGATGCTAAGTTAGAAGACATCTATGCTGCTCACGGTAAAAAAACGGACAGGGACAACCGTTCTAAAGAAGAATTATTAAAAGAAGCTGTACAGGTTGCCAATAAAGCAGACGTTATTGTTCTGGCTATAGGAGAATCTGCAGAAATGAGCGGTGAATCCTCTTCAAGAACAGAGATCACCATTCCTCAGTCTCAGGTTGATCTTTTAAACGAATTAAAGAAAACCGGAAAACCAATTGCTGTAGTTCTTTTCACAGGTCGCCCATTGGCTTTAACTAATGTAAAAGATGCACCGGATGCCATTCTTAATGCTTGGTTTGCAGGTTCAGAGGCTGGAAATGCCATTGCAGATGTTCTTTTCGGTAAAGTAAATCCATCAGGAAAACTTCCAATGACTTTCCCAAGAAGTCTTGGCCAGGTTCCGATCTACTATAATGCTAAAAATACAGGTCGCCCGTTAAGTCAGGAATTAACAGACAAATGTGAATACCAAAGATTCCGTTCCAACTATATGGATGAGTGTAATACGCCATTATATCCGTTTGGGTTTGGTTTGAGTTATACAAAATTCGGATATTCTGATATTGTAATGTCTAATACCAATCCGAAAGGAAATCAGACCATCCAGGCATCTGTTACGGTTACTAATAATGGAAATTATGATGGGGCAGAAGTGGTTCAGCTATATATCAGAGATATGGTAGGCAGCATAACAAGACCGGTAAAAGAACTGAAAGGTTTCCAGAAAGTATTTTTGAAAAAAGGAGAGTCCAAAAAAGTCACTTTTGATATCACTCCTGAAAATCTTAAATTCTACAATGGAGATTTAAAATATGACTGGGAATCTGGAGATTTTGATATTATGATTGGTACCAGCTCTGCAGATGTAAAGCATTCAAAGATCAATTGGAGTAAATAG	MKKLIVIATLALAPVFSAQEMVDKPAQSYQTAQYQAKKKAFVDNLLSKMTLDEKIGQLNLPSSGDFTTGLAKSSDIGKKVEQGLVGGLFNIKGAEKIRAVQKVAVENSRLKIPLIFGMDVIHGYETTFPIPLGLAASWDMNLVQQSARVAAKEASSDGINWTFSPMVDISREPRWGRVSEGSGEDPYLGSEIAKNMVYGYQGKDLAVGNTILACVKHFALYGAGEAGRDYNTVDMSHVRMFNEYFPPYKAAVDAGVASVMASFNEVDGVPATGNRWLQTEVLRNKWNFKGFVVTDYTGINEMVDHGMGDLQQVSALALKAGVDMDMVGEGFLTTLKKSLSEGKVTQAEIDLAAKRILEAKYDLGLFTDPYKYGDAKLAAKEVFSMENRNIARNAAAQSMVLMKNENQVLPLKKSGTVAVIGPLVNNSLNMPGTWSVAAKHDKAVNLMQGLQANYGKEVKFISVKGANIDYDAKLEDIYAAHGKKTDRDNRSKEELLKEAVQVANKADVIVLAIGESAEMSGESSSRTEITIPQSQVDLLNELKKTGKPIAVVLFTGRPLALTNVKDAPDAILNAWFAGSEAGNAIADVLFGKVNPSGKLPMTFPRSLGQVPIYYNAKNTGRPLSQELTDKCEYQRFRSNYMDECNTPLYPFGFGLSYTKFGYSDIVMSNTNPKGNQTIQASVTVTNNGNYDGAEVVQLYIRDMVGSITRPVKELKGFQKVFLKKGESKKVTFDITPENLKFYNGDLKYDWESGDFDIMIGTSSADVKHSKINWSK	PGPT0019110_3187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS003_04261	387			hypothetical protein	ATGGAACTGATTTTTATCGGATTAGATGAATCTGATGATGATTGTCTGCTGAACGAAGACCGGTTTTTTGATAAATGTACAGCGGAAGACTTATTATTTGAAAACAAAGTAATCAATGATTGGAACTTCTCTAATTTGTTAAATTTTATTTTTCAGACTGAAGTCAATATAGAGAATATTAAAGAATCCGGAAGAAGAAAATTAATTAATTTATCCCGATATAAAGGACAGCACCTTCATCCGGATCATCTTGAGGGAAAATACTTTGAATGGCTGGATATTTCCAAAAATGCTAATACAATGAATGAATATGGAAGTTTGATTTGTGTTTTGGGATATTTAGAATCAAACAAAAAAAAGAATGAATTATACTTGATTGTAGAATAG	MELIFIGLDESDDDCLLNEDRFFDKCTAEDLLFENKVINDWNFSNLLNFIFQTEVNIENIKESGRRKLINLSRYKGQHLHPDHLEGKYFEWLDISKNANTMNEYGSLICVLGYLESNKKKNELYLIVE				NA	NA	NA	NA	NA
BMS003_04262	702			hypothetical protein	ATGAAATTAAAACATATTCCACTTTTACTTCTGCCATTTTCTTTAAGCCTTAACGCTCAGGAAATAAAAGCAGAACTGAATAAAGAAATCAAAAGACAGGAAAAAATGTCTTATATTCTGGATTACCCCCAGAATACAAAAGGAAATGTTCCTTTGATTGTTTTTCTTCACGGTTCAGGAGAACGCGGAACCAATCTTGATCTGGTAAAAGAACATAGTCCGTTTACCTATAAAAATCTGATCAAAGAACCCGTGGCTATTCTGGCTCCTCAATGTCCGAAAGGGACATGGTGGGATACCGTTACCGTATACAATCTGATCAAAGAAATTCAGGAAAAATATAAAATAGACCCATCCCGTATTTACCTTACAGGACTTTCTATGGGAGGATGGGGAACTTTGAAGCTGGCAATGGAACATCCGGAAATGTTTGCAGCAGTAGCTTCAGTCTGTGCTCCTACAGATTATGTTATGACGGCCAATATTCATCAGTTTAAAGATTTGAATATGAAGATGTTTCATGGCGGAATGGATGATGTAGTACTGCCTGCCAATGCCTTTAATTTTTATCAGAAGCTGCATCCTGTAAATCCGACTGCAGAATTGGTAATCTTCCCGAATGATAATCATAACTCGTGGGATTCTGCCTATTCAAATCCTGCATTGTATGAATGGATGCTGTCTAAAAAGAAAGGTAAATAA	MKLKHIPLLLLPFSLSLNAQEIKAELNKEIKRQEKMSYILDYPQNTKGNVPLIVFLHGSGERGTNLDLVKEHSPFTYKNLIKEPVAILAPQCPKGTWWDTVTVYNLIKEIQEKYKIDPSRIYLTGLSMGGWGTLKLAMEHPEMFAAVASVCAPTDYVMTANIHQFKDLNMKMFHGGMDDVVLPANAFNFYQKLHPVNPTAELVIFPNDNHNSWDSAYSNPALYEWMLSKKKGK				NA	NA	NA	NA	NA
BMS003_04263	1392			hypothetical protein	ATGAGAAGGAACGTATTATCAATTGCTGTCACCTCTTTATTCTTTGTGTATTCCTGTAAAAATGCTCCGGCAGCCAAGCAGGAAGCCGGAAAAGTTGAAGCCGTAAAAAGTGATATTACAGATGAACAGCTGATGAACAGGGTACAGAAAGATGCCCTCAAATACTTTTGGGATTACGCTGAACCCCACTCAATGCTGGGAAGAGAGCGTTACCATGAAGACAATATCTATCCGGATAACGACAAGCACGTAGTTACCACAGGTGGTTCAGGATTCGGGCTGGCAACTATTCTGGTTGGAGTGGAAAGAGGGTTTGTTCCAAGGAAAGAAGCTGTAAAAAGGCTTACCCATATCATGGATTTTCTTGCAAAGGCAGATCGCCACAAAGGAGCATGGTCTCACTGGATCAATGGAGAAACCGGAAAAACAGTTCCTTTTGGTAAAAAAGATAATGGCGGAGATCTTGTGGAAACGGCATTCCTTACCTCAGGAATACTGATGGTTCGTGAGTATTTTAAAAACGGAAATGCAGAAGAAAAATCACTTGCAGCAAAATGTGACGAACTTTGGAAAGGAATTCAGTGGAACTGGTATACCAAAGGAGGCCAGAAAGTCCTTTACTGGCACTGGTCACCGGAATATCAATGGGAAATGAACTTTCCTCTGGAAGGATACAACGAATGCCTTATCACTTATATTCTGGCAGCATCTTCACCTACCTATTCTATTGATGCCGAAACCTATTACAAAGGCTGGACGAGAAACGGAACCTACCTTACAGACAAAACAAAATACGGGTTACCCCTGTATGTAAAACACAATTATGCCGAAGAATACGGAGGTCCGCTTTTCTGGGCACAATATTCATATATCGGGCTGGATCCAACAGGATTATCCGATAAGCTTGTGAAAAATTTCTTTGATATCAATAAAAACCAAACCCTCATCGACTATAAATACTGTGTTGAAAATCCAAAACAATGGAAAGGTTACGGGCCCAATTATTGGGGGCTGACAGCCGGTTATACCAGAAATGAGGATGGAAGTACCGGATATACAGCTCATATGCCAGGCAATGATAACGGAGTTATAACCCCTACAGCCGCATTGAGCAGCTTCCCGTATACCCCAAAAGAATCAATGGCATTTCTGAGATTTATTTATACTCAAAAACCTGAGTTTATAGGATCAGCGGGTCCTTATGATGCTACTTCTGTTAATTACAACAATTGGTTTACCCCAAGGTATCTGGCCATCGACCAGGGAACTATAGCACCCATGATTGAAAACTACAGATCCGGATTCCTTTGGAAACTGTTTATGAACGCTCCGGAAATTCAGCAGGGATTGAAGAAATTAAGCTTCCAGTCAGCCAAATATGGAATAAAATAA	MRRNVLSIAVTSLFFVYSCKNAPAAKQEAGKVEAVKSDITDEQLMNRVQKDALKYFWDYAEPHSMLGRERYHEDNIYPDNDKHVVTTGGSGFGLATILVGVERGFVPRKEAVKRLTHIMDFLAKADRHKGAWSHWINGETGKTVPFGKKDNGGDLVETAFLTSGILMVREYFKNGNAEEKSLAAKCDELWKGIQWNWYTKGGQKVLYWHWSPEYQWEMNFPLEGYNECLITYILAASSPTYSIDAETYYKGWTRNGTYLTDKTKYGLPLYVKHNYAEEYGGPLFWAQYSYIGLDPTGLSDKLVKNFFDINKNQTLIDYKYCVENPKQWKGYGPNYWGLTAGYTRNEDGSTGYTAHMPGNDNGVITPTAALSSFPYTPKESMAFLRFIYTQKPEFIGSAGPYDATSVNYNNWFTPRYLAIDQGTIAPMIENYRSGFLWKLFMNAPEIQQGLKKLSFQSAKYGIK	PGPT0019110_74	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
BMS003_04264	1434			SusD-like protein P2	ATGAAAAAAATATTTTTAACACTCTCCATACTTTCCTTAAGCATAAGTTGTAATAACGACTTTGTAGATATTAAAGATGAAGGACAAACGAATGTAACAAATTTCTTTACGACACAGGATGATGCAATGCAGGCTACAAATGCTATTTATAGCTTTTTAAGAAGTTGGGAGAACTCCGGTTTCCCTGCACAGTATGTATTTGGAGTAACAGGTGATGATGTAGAAAAAGGATCTAATCCTGGTGATGCATCGTTTATTAATGCTTATGATAACTTTACTTTTACAGTAAGTGATGATGGGGTAAGAGGATATTGGATCGGGCAATGGCAGGCTGTAAACAGAGCCAACCAGGTGATTACCAATGTTCCTAAGATAGACATGGATGCTACACTTAGAACCAGATTGGTAGCTGAAGCCAGAATGTTAAGAGCTTATTTCTATTTCAATTTGGTAAGAATCTATGGCGGAGTTCCAATATATGACGGATTACCGGCAGATAAAAATTATCTGAAAGCAAGAAATTCTACAGAAGAAGTGTATAATTTTATCGTTTCTGATCTGCTTGCAGCTTCTGAAGTATTACCTCAGACTTATGCTGCTGCAGACCGTGGAAGAGTAACAAAAGGCGCGGCTTTAGGATTACTTTCAAAAGTTTATCTTTATATGAAAGATTATCAAAAAGCTTATGATACGTCTAATCAGGTTATTGGTATGGGGTATTCTTTGGATCCGGATTTTAACCATTTATTCAGACCGGCTGGAGAATTCGGTCCAGAATCTGTATTTGAGGTAAACTGTGGTTGTGACCCTACATTAGGATCGCAGGCTGGTAGCCAGTATGCAGAAGTTCAGGGAGTAAGAAACCAGTTCGGATGGGGCTTCTTTACGCCAACCCAGGAATTGGAAAATGCATTTGAGCCAGGAGATATAAGAAAAGAATTAACGATCTTAAGAGAAGGCGAAACAACACCTGAAGGAGATTTGATCCATAAAGGAGATCCGCAGGCAGGTAACATGTGGAATCAGAAAGTTTATGTGCCGACCTCCTTAAATAATAATGCATGCGGATACGGCTCTATCCAGAATATAAGAATCTTAAGATTTGCTGATATTCTTTTAATTAATGCAGAAGCTGCCAATGAATTAGGAAATACAGCAGCTGCCACTACAAGTATCAATAAAGTAAGAAACAGAGCTCAGCTTGCTAATACTACAGCCTCTGGTCAGGATGCTCTTAGAACAGCAATCTGGCAGGAGAGAAGAGTAGAGCTTGCTATGGAGATGGATAGATTTCCGGATTTAGTAAGAACAGGTCAGGCTGCTACTTATTTAGGACCTAAAGGATTTAAAACAGGAAAAAATGAACTTTTCCCAATTCCTTTGGACGCAATGAATCAGAGTAACGGACTTTTCGTTCAAAACCCTGGCTATTAA	MKKIFLTLSILSLSISCNNDFVDIKDEGQTNVTNFFTTQDDAMQATNAIYSFLRSWENSGFPAQYVFGVTGDDVEKGSNPGDASFINAYDNFTFTVSDDGVRGYWIGQWQAVNRANQVITNVPKIDMDATLRTRLVAEARMLRAYFYFNLVRIYGGVPIYDGLPADKNYLKARNSTEEVYNFIVSDLLAASEVLPQTYAAADRGRVTKGAALGLLSKVYLYMKDYQKAYDTSNQVIGMGYSLDPDFNHLFRPAGEFGPESVFEVNCGCDPTLGSQAGSQYAEVQGVRNQFGWGFFTPTQELENAFEPGDIRKELTILREGETTPEGDLIHKGDPQAGNMWNQKVYVPTSLNNNACGYGSIQNIRILRFADILLINAEAANELGNTAAATTSINKVRNRAQLANTTASGQDALRTAIWQERRVELAMEMDRFPDLVRTGQAATYLGPKGFKTGKNELFPIPLDAMNQSNGLFVQNPGY				NA	NA	NA	NA	NA
BMS003_04265	2820			TonB-dependent receptor P26	ATGAAACAAACTAATTTAAAGTATTCATGTCTCATTGCTGTTCTGTACTTTGGTATGAATGTCAATGCTCAGACTGCTAGAAAAGATACTGTTGTCAAAGAGCAGAAGATCGAAGAAGTAGTTTTGATCGGATATGGAGCTCAGAAAAAGGAAAACGTTACCGGAAGTATCGGAATGGTTTCTGCAAAAGATCTGGCGGATAAGCCAAATGCTAACCCGATAAGCTCTATACAGGGTAAACTTGCAGGGGTAAATATTACAAACACCGGTACACCTGGTGGCTCTCCAAGGGTAGATATCAGAGGAGTTGGTTCCCTTACCGGTAAAACGGTGTTCATTGTTGATGGAATGATCACGGATGATATTTCTTTCCTTAACCCTCAGGATATTGAATCTATGAGTGTACTGAAAGATCCTTCGAGTTTAGCTATTTTCGGAGCTCAGGCGGCTAATGGTGCAGTTATTATCAAGACCAAGACCGGAAAAGGAAAACCTGTTTTTAGTGTAAATTCTTATTTAGGATTTAAAAAGGTGACCAATATTCCTAAAATGGTTAATTCTGATCAATACATTGAGCTTTACAATGAGAAGCTGCTTAACGACAATAATGGAAATCCAGCAGGATCAATTTCCAGAGCTAATTTCCCGGCAGATACTAACTGGTATAATGAGATTTTCAGAACCAGTATCATCAATTCTAATGATTTTTCTGCAACCGGAAGCATAGGAAAGCTTAATTATTACGGTAGTGTAGGATATCTTCAGGATGAAGGTAATCTGGCGGCAGGCCACGGAATAAATTCAGGAAGTGGTTTTAACAGATTTAATACAAAATTGAACCTTAGCTACAAAATCACAGATAACATTACCATTGGAGATAATTTCAGTTTTTCCAAAATGCGTACTGATGTAGCACAAAATCCTTTGTTAAATGCATATAATGCTCCTCCGATATTTTCTGTAATAAATCCTGCTACAGGAGATTATCAGTTTTTTAACGGATATTCTATACCCAATCCGAGAGCAAGATTAGATATGTACCGTTCTCAGGTAAGACAGGAGAGATTGCTTAACAACATCTGGGGAGAATTAAAATTCCTGAAAGATTTTACATTCAGAATCAGCTATTCCAGTGATAATTATAGCCCAAGCCAATATGAGTATACCCCTACACTTAATTATGTTCCTATCTCTAGCCAGGTAGCGTCTTCACTAATTACAAGAAATTTTAGAAATAGAAATTACGTTTGGGATAATACAATTAACTGGAAAAAGAATTTTGGTAATCATCATTTCGATGTCCTAGCAGGTTTTTCCAGAACAAGAACTTCTTTGTCACAAGATTACTGGTCTGCTAAGAATGTTAATTACGACGGAACCAATGGATCTTTGAATATTGCCAACGGAACAGACCTGTTGCATGTAACTGGTGTAGATAGAGTAGATTTAACTGTTGATCAGGATCAACAAAGAATTGAATCTTTCTTTGGAAGAATTAACTATGGTTATAAAGGTAAATATTTAGTCAACGCATCGATACGTAGAGATGCCAGTTCACAAATTAACATTGACAGAGCCAGAGTGTTTCCGGCTGTTAGTGCAGGTTGGGTAATTTCTAAAGAAGATTTTATGAGCGACCAGAATGTCTTCAATTTGTTAAAATTGAGAGCAAGTTACGGTGAATTAGGAAATCCAAATGTAGGAAGAGGATATACAGCTAATACATCTATTATAGGTGGTGGAGTATATTATGGAGATACAGGTTACCCTGCGCAGACTATTGATAAATTTATTGATCCGAATATTGGCTGGGAAACAACAACAGGTAGAGATATAGGGTTGGAAATGGCTTTATTTAATAATAAGCTTAAAATTGATGCTGCTTATTATGATAAAGATTCAAAAAATGTGGTTTATGGTATAGTTCAAGGAACAGTATCCGGTGCAAGTAACTGGAATAATTTCGTAACGAACGCTTATTCTTTCAATAATAAAGGTTTTGAAGTGTCTGTTAATTATAATACAAAATTGAGTGATCATGTTACCTTTGGAATATACGGTAACTTTACTTCGCTTAAAAATGAAATCACATCCGTCTATGGTGGCTCTTATTTAGAAACAGGAGCAAGTTTATTCGGGAACTCTATTGTTAGATTACAGAGTGGCCAGCCAGTAGGTTCTTACTACGGTTATCAGGTTGCAGGTGTTTTCCAGACAGATGCAGAAGCAGCAGCTTCAGGACAGCCGGGAGCAAAAGCAGGATGGTTCAAATTTGCAGATCAGGATGGTAACGGAATTATTGACTCAAGAGATAAAACGTTCTTAGGAAGCCCGATTCCTAAAGGAACTTATGGTTTTGGTGTTAATTTGAATGTGTATGATTTTGATATCGCTGTTGATTTCCAGGGTGTATTTGGTAACAAAATATACAACTACAACCGTGAGCAGCGTTTTGGAAACGAGACATGGGATCTGGATATGTATAATAACAGATGGCACGGAGCGGGGACTTCCAATACGAATGCTATGATTACTTCCAACCAATCCATCATTTTACCAAATAGTTTCTATGTAGAAGACGGAAGCTATTTCAGAATTAGAAATATCCAGGTTGGTTATAACTTACCAAAATCTCTTGCAACATCTTTATCACTAACCAAGCTGAGATTATATGTAAGTGCCCAAAACCCTTGGACAAGCTTCAAATATAACGGGTTCTCACCAGAGATTACAAATACAGATAGAGTACAGATGGGAATTGATAATAATATCTACCCAATCTCTGCCATTTATACATTCGGTATGAACTTAACATTTTAA	MKQTNLKYSCLIAVLYFGMNVNAQTARKDTVVKEQKIEEVVLIGYGAQKKENVTGSIGMVSAKDLADKPNANPISSIQGKLAGVNITNTGTPGGSPRVDIRGVGSLTGKTVFIVDGMITDDISFLNPQDIESMSVLKDPSSLAIFGAQAANGAVIIKTKTGKGKPVFSVNSYLGFKKVTNIPKMVNSDQYIELYNEKLLNDNNGNPAGSISRANFPADTNWYNEIFRTSIINSNDFSATGSIGKLNYYGSVGYLQDEGNLAAGHGINSGSGFNRFNTKLNLSYKITDNITIGDNFSFSKMRTDVAQNPLLNAYNAPPIFSVINPATGDYQFFNGYSIPNPRARLDMYRSQVRQERLLNNIWGELKFLKDFTFRISYSSDNYSPSQYEYTPTLNYVPISSQVASSLITRNFRNRNYVWDNTINWKKNFGNHHFDVLAGFSRTRTSLSQDYWSAKNVNYDGTNGSLNIANGTDLLHVTGVDRVDLTVDQDQQRIESFFGRINYGYKGKYLVNASIRRDASSQINIDRARVFPAVSAGWVISKEDFMSDQNVFNLLKLRASYGELGNPNVGRGYTANTSIIGGGVYYGDTGYPAQTIDKFIDPNIGWETTTGRDIGLEMALFNNKLKIDAAYYDKDSKNVVYGIVQGTVSGASNWNNFVTNAYSFNNKGFEVSVNYNTKLSDHVTFGIYGNFTSLKNEITSVYGGSYLETGASLFGNSIVRLQSGQPVGSYYGYQVAGVFQTDAEAAASGQPGAKAGWFKFADQDGNGIIDSRDKTFLGSPIPKGTYGFGVNLNVYDFDIAVDFQGVFGNKIYNYNREQRFGNETWDLDMYNNRWHGAGTSNTNAMITSNQSIILPNSFYVEDGSYFRIRNIQVGYNLPKSLATSLSLTKLRLYVSAQNPWTSFKYNGFSPEITNTDRVQMGIDNNIYPISAIYTFGMNLTF				NA	NA	NA	NA	NA
BMS003_04266	672			hypothetical protein	ATGAAAAAATATATTATTGCAGCCGCTCTTATAATCGGGATCAGTGCCGTCATTACCACCAGTGTACAATCATGTACCACATTGGCAACATCAGACATGGGACTTTCTATTATTAAAAGAATCCTTCTGAATGGTATTGATAAAGGAATGGGCATTTATGGAAACAAAGAAGCTTTCCTTCAGAATAATATGGTAGACAAGGCACTTCCGAAAGAGTTAAGGGATATCAACTCTATGCTGGAAAAAGTTGCTCCGTCATTAGTGGCTAAAGAAAGAGATTATATTGCACAGGCAGCAGCTTATACGGTCAATACTTCAAAACCTATTTTAGAAGGTGCCGTCAACAGCCTGAATGCTCAGGATGTAACGAGGATCATGCAGGGAACTACCGCCACACAGGTACTGAAAGAAAAGACATCCCAGCAGCTTATTGCGGCTATTTCTCCGAAAGTAGATGAGAAGCTGAATGAGTATGGAATTGTAAAAACCATCAACACAGCATTATCAGGAAGTAATTTACTGGGAGGGCTTTTAGGAGGAAATAAGAACACCGTCAATTCAGGAGGACTGAGCCAGCTTGCTTCTGAACAACTGGTCAACGGGTTATTCAATATCATTGAAGATTATGAACATCAGAATTCCAAATCTCTCCTCGGGCCGTTTGGAAAATAG	MKKYIIAAALIIGISAVITTSVQSCTTLATSDMGLSIIKRILLNGIDKGMGIYGNKEAFLQNNMVDKALPKELRDINSMLEKVAPSLVAKERDYIAQAAAYTVNTSKPILEGAVNSLNAQDVTRIMQGTTATQVLKEKTSQQLIAAISPKVDEKLNEYGIVKTINTALSGSNLLGGLLGGNKNTVNSGGLSQLASEQLVNGLFNIIEDYEHQNSKSLLGPFGK				NA	NA	NA	NA	NA
BMS003_04267	306			hypothetical protein	ATGGATATATTACAAGGAAATCAACACGCAAGCCCGGAAGATTTTTATCAGTCTTTAAGGGAGAAACTGGAAGATCATCATGATTTTCCTGAGGATTATTTATTTAAATTTATTATTCCTACAGACCAGGCAAAACTTACTGAAATTTACAGAGTTTTTGATGGCATCAAATTTACGCTGGGAAACCGCGAAAGTAAAAATGGAAAATATACTGCCTGTAACATCAATGCATTTGTTTTAGATGCCAATCAGGTAGTGAATATTTATAAAGAAGTAGCAAAAATAGAAGGCGTTATTCTATTGTAA	MDILQGNQHASPEDFYQSLREKLEDHHDFPEDYLFKFIIPTDQAKLTEIYRVFDGIKFTLGNRESKNGKYTACNINAFVLDANQVVNIYKEVAKIEGVILL				NA	NA	NA	NA	NA
BMS003_04268	474			hypothetical protein	ATGAAAATCCCACTGATTTTATTTAATATTATTTTAGCAACTACCACTACAGGCTGTGTTCATAAAAGCAGTAGCAACAGCAGCTCTGCAAATGTTACTAATATAGACCGAAAGCAAAAGATTGAACAGATCAAACTAACAGAAAGAACAAGAGGATTCAGTAAAAGCACAGTCTTTACCCCTTCCTCAAAAACAACCAATATCAATGAAGAGGTTGTTAACGCTAAAATTTCTCCTTCTGAATGGAATACAGTTACCGGACTGGCTGAAACCATTGACTTATCCAAAATATCAGGTCTTCAGGCTCCTACTGCAGGCAGACATTCTGACCGTGCATTGGCAAGCACTCTTGTTATCACTTCCGGTGGAACCGAATACACTTCTTCAACCTTTGATTCCGGTTATCCTCCCAAAGAACTGGAAGCCCTGTATAATGCCATTATCGGATCCGATAACCAAAAGCCGGTAAAATAA	MKIPLILFNIILATTTTGCVHKSSSNSSSANVTNIDRKQKIEQIKLTERTRGFSKSTVFTPSSKTTNINEEVVNAKISPSEWNTVTGLAETIDLSKISGLQAPTAGRHSDRALASTLVITSGGTEYTSSTFDSGYPPKELEALYNAIIGSDNQKPVK				NA	NA	NA	NA	NA
BMS003_04269	351	yfgD	COG1393	putative protein YfgD	ATGGTAGTTAAAGTCTTACATAACGGAAACTGTTCAAAGTCAAATGCCGTACTGGAATATCTTGACGAAAACGGAGTACCTTTTGAGATCATTAATATTATTGAAGATCCGTTAAGTATTCTTGAGATTAAAACAGTGTTGAAAAAGCTTAATCAGAGTGTTTTTCATATCATTCGTAAAACAGATAAGCTGTATCTGGACAACTATGCAGATAAGAACTATTCGGAAGAAGAGTGGCTTAAGATTCTGTCAGAAAATCCATCCCTGATCCAAAGACCTATTCTGGTGAAAGGTTCAGTAGCAATGTTGGGAAGACCTATTGAAAATGTGAAATTCTTTATTGAAAAATAA	MVVKVLHNGNCSKSNAVLEYLDENGVPFEIINIIEDPLSILEIKTVLKKLNQSVFHIIRKTDKLYLDNYADKNYSEEEWLKILSENPSLIQRPILVKGSVAMLGRPIENVKFFIEK	PGPT0004720_3372	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS003_04270	615	dck	COG1428	Deoxyadenosine/deoxycytidine kinase	ATGCATATTGCAGTTACAGGAAACATCGGAGCAGGAAAAACAACTTTGACGACGATGCTTTCCAAGCATTACGGATGGGATGCACAATTTGAAGACGTAGATCATAACCCTTATCTGGAAGATTTTTATTCAGATATGAGCAAGTGGAGTTTTGCACTGCAGGTATATTTTCTGGGTAGCAGATTCCGTCAGGTGAAGGAGATCAGAGAAAGTGGTAAGAACATTATTCAGGATCGTACCATTTATGAAGATGCTCATATTTTTGCAGAAAACCTGAATGATATGAATCTTCTTTCAGACAGAGATTTTAATAACTATTCTTCGGTTTTCAATCTGATGAAATCTTTTGTTTCTGCTCCGGATCTGCTGATTTACCTGAAATCTGATGTTCCTAATCTGGTTAAAAAAATCTACAAAAGAGGTCGTGAATATGAAGCATCTATCAGTATTGAATACCTTTCAAAGCTGAATCAGAAGTACGAAAAATGGATCTCCAATTATACAGAAGGAAAACTTCTGATTGTAGAAGTGGATGATCTTGATTTTGTGGAAAAACCTGAAGATTTCGGATTTATTCTGGAAAAAATTGAAGCTGAGCTTCACGGACTGTTTTAA	MHIAVTGNIGAGKTTLTTMLSKHYGWDAQFEDVDHNPYLEDFYSDMSKWSFALQVYFLGSRFRQVKEIRESGKNIIQDRTIYEDAHIFAENLNDMNLLSDRDFNNYSSVFNLMKSFVSAPDLLIYLKSDVPNLVKKIYKRGREYEASISIEYLSKLNQKYEKWISNYTEGKLLIVEVDDLDFVEKPEDFGFILEKIEAELHGLF	PGPT0021370_487	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519	NA	NA
BMS003_04271	963			hypothetical protein	GTGAAGTTTTTAAACATACTATTTTTTTTTCTTTTCTGTACGGCTTCGGCGCAGAACATCCTACCATTAGATACCTTGAAGCTCAAGGAAGCTAAAGATATGCTTGCTGATGACTATGGAAATCTGTATATCTATAAAAATAAAGACTTTAGTTTTACCAAGTATGATTCTTTAGGAAAACAGATCGGGAAAATGATGCTTACCGTTCCTTATAAAGTACAGACCGTGCAAAACCCCCTGAATGTACCTTTGTTTTCTGAAAATGCCCAGGAAATGAAGTTTGTAGATCAGAATATGAATGAAATTCAAAGACTTGATTTTAAACAGAAATTTGGTTTCATCAGAATGGCATATGCTGAAGACCTGCAGCAGCTATGGCTTTTGGAAGACAGTACAAAACGTCTGATACAGTACAATTTCAGGAATGATACAACCATTAACTCATATCCTTTTGATATCAGTTTTGAAGATCTGATGGACATGCTGGTCTATGAAAATAAGGTTTATATTTTAACAAGAAAGCACATAAGAATTTACAACCTTAAATTTGAAAAGCTGTTTGAAGCCCCTTTGGATAACGGAAAACGGTTCAGAAGAGAGAATGATACCATTCTTGTGGTCGCCAATAATTTCATTTCGCAATACATTCCTGAAAAAGGAATGTCAACTATTTTTGAAGATCAGGATGCGCAAATTGTGGATAAAAACATCCTCTCTTATTTTGCAATCAAAGGTAACAAACTCTATCTTTACAGCCTTGAAAAAGTAAAGAAAGCCAAACAGGAAAAACAGCTCGAAGCTCAGCCGGAATCTCTACAGCAACCTACGGAAAAACCAGTAGAAAGACCAGAAGAAACGCCTGGCGAGAATAAAGCAGAGGAATCTTCAGACAATACCTTACAGAAATTGATTGAAGAGACATCGAAAGTTCAGACTGAAGCCATCGAAAAACTTATCAACTAA	MKFLNILFFFLFCTASAQNILPLDTLKLKEAKDMLADDYGNLYIYKNKDFSFTKYDSLGKQIGKMMLTVPYKVQTVQNPLNVPLFSENAQEMKFVDQNMNEIQRLDFKQKFGFIRMAYAEDLQQLWLLEDSTKRLIQYNFRNDTTINSYPFDISFEDLMDMLVYENKVYILTRKHIRIYNLKFEKLFEAPLDNGKRFRRENDTILVVANNFISQYIPEKGMSTIFEDQDAQIVDKNILSYFAIKGNKLYLYSLEKVKKAKQEKQLEAQPESLQQPTEKPVERPEETPGENKAEESSDNTLQKLIEETSKVQTEAIEKLIN				NA	NA	NA	NA	NA
BMS003_04272	423			hypothetical protein	TTGAAGAAAATATCAGAGTTTCCTTTACCCAATATCATCGGGGAAGGATGGGGACTTACTTATGACGGAAAAAACCTGATTGCTACCGACGGTTCTAAAAATCTTTATTTTCTGGATGTTAATGATCCTTCTAAAGTAATAAAAACGGTGGCTGTTGCAGGAAATTCAGAACTTTATACTCAGCTTAATGAACTTGAATACCATAATGGTTTTATTTACTCTAATATCTGGCATAATCAGGTTATTCTCAAGATCAACCCCGTAACCGGAGAAGTGGTCGGGAAATTTGATTTTACACAGTTGACCAGGGAAAATGACAATGGAGACAGTGAACATGTTCTGAATGGAATTGCTTTTAAGGGAGATAATATGCTGGTAACAGGGAAAAACTGGGCAAAAATTTATGAAATAGCTTTTAAATAA	MKKISEFPLPNIIGEGWGLTYDGKNLIATDGSKNLYFLDVNDPSKVIKTVAVAGNSELYTQLNELEYHNGFIYSNIWHNQVILKINPVTGEVVGKFDFTQLTRENDNGDSEHVLNGIAFKGDNMLVTGKNWAKIYEIAFK				NA	NA	NA	NA	NA
BMS003_04273	195			hypothetical protein	ATGCTTAATTTTAGAGGGCAAAGAGCTGCGACTTTTAAGTTATACATTTGCTTAGAAAGAATCAATGAAATTGATTCTGGCTTTGCTCCCTTAAAATATTACAGATTAAAAATGAAACCTTTGCATTTTAGATACTATCCTGCAAATTATCCTTATATCTGCTTACCTATTACTTTTACATTTATCTATAAATAA	MLNFRGQRAATFKLYICLERINEIDSGFAPLKYYRLKMKPLHFRYYPANYPYICLPITFTFIYK				NA	NA	NA	NA	NA
BMS003_04274	1119	auaG		Aurachin C monooxygenase/isomerase	ATGAACACCATTTCAATCATCGGAGCCGGAATCGGGGGACTTACCCTCGGAAATGTACTGAAGCAACATCAGTATGATTTTACAATCTATGAATCTGCTGCCGAAATAAAGCCTGTAGGAGCCGGAATTATGATGGCCGTAAATGCAATGCAGGTTTTTGACCGTTTGGGCTTAAAGGAAAAGATTGAAAATGCAGGTAATAAAGTTCATAGAATTGTTATCTCTGATGAATCTCTGCGGCCTATTTCAAAAACAGAAATTCTGGCGCTGGAAAATCAGTACAACTCCTGTAATGTTGCCATTCACCGGGCTGAACTTCAGAAGATTCTGTCTGAAAATTTACATCCAAATTCAATACAGCTGAACCACTCATTACTGAAAATAAAAAAAGAAGAAAACTATATTTTAAATTTTGAAAATGGAAACCGGATGGAAAGTAAAATTGTTTTTGGAGCAGATGGTATAAAATCTCCGGTCCGGAATCAGATCTTAAAAGCGGGAATCATACGGAGCTCCGGTCAGAAATGCTGGCGTGGCCTGGTAAATTTTGATCTGCCGGAAAGGCATCATCAGGAAGCCTTTGAAATGTGGGGAAAGGGAAAACGTTTTGGATTTGTAAAAATTTCCGATAAAAAAGTGTACTGGTATGCCTGCGTCAACGAGAAAAGTTTTGGAAGACAGCAGGGAATTTCGGAGATCTTTAAGGATTTTGATTCTTTGGTTATACAACTTATTGAGGCCACTGCCCATGAAAATATAATCTGCAATACGATTACCGACCTCGCTCCTATTCCTGAATGGCATTCTGAAAATCTTTGCCTCATTGGAGATGCTGCCCACGCCACAACACCCAATATGGGACAAGGTGCCTGCCAGGCTATTGAAGATGCTTATATCATTGGAAAATTGCTGGAAAAACATCAGGATTTCAATAGTATTTTCGAACAATTTCAAAGCATCAGACGAAAAAAAGTAGATTATATTGTGAATACAAGCCGCAGCATCGGAAAAGTTTCTCAATGGGAAAAAGGAAATTCACTCCGTAATTTTCTCATGGGACTGATTCCGGAAAGCGTAAATCAGAAAATAGCAAAAAGAGTTATAGAACTGGAAATGTAG	MNTISIIGAGIGGLTLGNVLKQHQYDFTIYESAAEIKPVGAGIMMAVNAMQVFDRLGLKEKIENAGNKVHRIVISDESLRPISKTEILALENQYNSCNVAIHRAELQKILSENLHPNSIQLNHSLLKIKKEENYILNFENGNRMESKIVFGADGIKSPVRNQILKAGIIRSSGQKCWRGLVNFDLPERHHQEAFEMWGKGKRFGFVKISDKKVYWYACVNEKSFGRQQGISEIFKDFDSLVIQLIEATAHENIICNTITDLAPIPEWHSENLCLIGDAAHATTPNMGQGACQAIEDAYIIGKLLEKHQDFNSIFEQFQSIRRKKVDYIVNTSRSIGKVSQWEKGNSLRNFLMGLIPESVNQKIAKRVIELEM				NA	NA	NA	NA	NA
BMS003_04275	501			hypothetical protein	ATGAAATATACTACAAAATGGCTCACAGACAAAAGCCGTGTGAAAGAACTCGTAGATTTCTTTATTACCCATAAAACAGACTCTTATATTTCTCATGGCGAAATGATGTCTGGCAGAGCGATAGATTCTCATCACTGGAATCCTGATCTTGAACTGATTCTTACTGAACAGCTAATCACCGATTTTAATTCCGACGGCAGCTCCAAACTGAATATCCTGGTTGCAGAAAATGAAAACGGAGAAATTGTAGGAATGATGGTTTTCAATGTTATCAACAGTCCTTTTAAAAAATATGCCATTCTGGAAGATATGCTTCTGGACCAGTCTGTAAGAGGTCAGTCTCTGGGAAGCACACTTCTGGAGAAAGCCATCCATGAATCTAAAAACTGGAACATCAGTTTTATTTTGCTGGAAAGCGGTGTCAATAATCATGGTGCTCACAATTTCTTCAGCAGATATGGCTTCAGAAAAGTTTCAGAAAGTTATATTTTAACTTTATAG	MKYTTKWLTDKSRVKELVDFFITHKTDSYISHGEMMSGRAIDSHHWNPDLELILTEQLITDFNSDGSSKLNILVAENENGEIVGMMVFNVINSPFKKYAILEDMLLDQSVRGQSLGSTLLEKAIHESKNWNISFILLESGVNNHGAHNFFSRYGFRKVSESYILTL				NA	NA	NA	NA	NA
BMS003_04276	867	sigA	COG0568	RNA polymerase sigma factor SigA	ATGAGACAATTAAAAATCACTAAGCAGGTTACCAACAGGGAAACTGCTTCATTAGACAAGTATTTGCAGGAAATTGGTAAAGTGGAACTGATCACTGCGGACGAGGAAGTAGAATTGGCACAAAGAATACGTGCTGGCGACAGAGCCGCACTGGAGAAATTAATCAAAGCCAACCTTCGTTTCGTAGTTTCTGTTTCTAAGCAATACCAAAACCAAGGTCTTTCCTTACCCGATTTGATCAATGAAGGTAACTTAGGATTAATGAAAGCGGCAAAAAGGTACGATGAAACTAGAGGTTTCAAATTTATCTCTTATGCAGTATGGTGGATCCGTCAATCTATCTTACAGGCATTGGCTGAACAGTCAAGAATTGTAAGACTACCTTTGAACAAGATTGGTTCTATCAACAAAATCAATAAAGCATACGCTCACCTTGAGCAGGAAAATGAAAGACCACCTTCTCCGGAAGAATTGGCTGAGGTTCTTGACATGAGTGAGGAAGATATTAAAGAATCTATGAAAAACTCCGGAAGACACCTGTCTATGGATGCGCCTTTAGTAGAAGGTGAAGATTCTAATCTTTATGATGTATTACGTTCAGGAGAATCTCCAAGTCCTGATAAAGATCTGATGCTGGAATCTCTGCAAATTGAGATTGAGAGAGCATTGAATACTTTGACGCCAAGAGAGGCTGATCTGGTAAGATTATACTTCGGATTAAACGGAAAACACCCGATGACTTTAGAAGAAATTGGTGAAACTTTCGATCTTACAAGAGAGAGAGTTCGTCAGATCAAAGAAAAAGCAATTAAGAGACTAAAACACAATACCAGAAGCAAGATCCTTAAATCTTACCTGGGTAAATAA	MRQLKITKQVTNRETASLDKYLQEIGKVELITADEEVELAQRIRAGDRAALEKLIKANLRFVVSVSKQYQNQGLSLPDLINEGNLGLMKAAKRYDETRGFKFISYAVWWIRQSILQALAEQSRIVRLPLNKIGSINKINKAYAHLEQENERPPSPEELAEVLDMSEEDIKESMKNSGRHLSMDAPLVEGEDSNLYDVLRSGESPSPDKDLMLESLQIEIERALNTLTPREADLVRLYFGLNGKHPMTLEEIGETFDLTRERVRQIKEKAIKRLKHNTRSKILKSYLGK	PGPT0014685_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
BMS003_04277	792			hypothetical protein	ATGAAAAGTATTTATTCTAAAATTCTGGTTTTAGCATTCATGGCCTCTTCACTTTATTCTTATGCGTGGGGATTAACGGGACACAGAGTTATTGCAGAGATTGCAGAGAACCATCTTTCTCGTAAAGCAAGAAGAGAGATCAAAAAAATGATGGGGAAAGAACGTCTTGCTTACTGGGCCAACTGGCCGGATTTTATTAAATCTGATACCACAGGTGTATGGAAGCAGGCTTCATCATGGCATTATGTCAATATAGATCCAATGACTGATTTTAAAGTTTTTGAACAAAAGCTGAAAGCACAGTCAGGGCCTAGCCTGTACACTCAGATAAATACCTTGTCCAGTCAGATCAAAGATAAAAACACTTCTGAAAAAGACAGAAAAATTGCCTTAATTTTCCTTATTCATATTATGGGTGATCTTGCTCAGCCGCTACACGTAGGAAGGGCTGAAGATTTGGGTGGAAACAAAATCAATGTTACCTATTTCGGTGAAAAAACCAATTTACACTCTGTCTGGGACGGAAAATTAGTAGATTCTCAAAAATACAGCTATACAGAATATTCTAAACTGCTGGACATCAAATCTAAAGAAGAAGTCGCACAGATCCAATCCGGAACCCTGGAAGACTGGTTATATGATTCTCACAAAATTGCCAATAAGATCTATGCACAGACGCCTAACGATTCTAAGCTATCTTATGATTATCAGTACAAGTTCAACGAAACAATGGAAAGACAGCTTCTATACGGAGGATTGAGACTGGCAAAAGTTTTAAACGAGCTTTTCTAA	MKSIYSKILVLAFMASSLYSYAWGLTGHRVIAEIAENHLSRKARREIKKMMGKERLAYWANWPDFIKSDTTGVWKQASSWHYVNIDPMTDFKVFEQKLKAQSGPSLYTQINTLSSQIKDKNTSEKDRKIALIFLIHIMGDLAQPLHVGRAEDLGGNKINVTYFGEKTNLHSVWDGKLVDSQKYSYTEYSKLLDIKSKEEVAQIQSGTLEDWLYDSHKIANKIYAQTPNDSKLSYDYQYKFNETMERQLLYGGLRLAKVLNELF				NA	NA	NA	NA	NA
BMS003_04278	942			hypothetical protein	ATGTATGAGAATAATATTGTAGATATGCATTACAATAAGCTGCAGACAGATTTTAAGGCTGAAGCTGTGGCTGTTAACCTTTTGAAATACCACCGTGCGGTAAGTAATATATTCATAGAACGGGTGGGAGTGAACGACCGTGCTTATCTTAAGGATATTAAAAGTATCTCGAGCAGCTATTTAGGTTTTGATGAGGAAGTATTTACTATAAAGAGTTACAGAGAGGGTATTTATGATTACCTTCCGGAAGGACTTTTCCATCCGCCGTCTCTTGGGGCTTCCAGAAAGAATGTAGATACTGTGGTAAGGGAAATACGTAAACAGAAAAGGGTAGAAGAAGATGCGCGTAAGTTTTTCCGTCCTTTTGAATTTGAGGTATTCTTTACAGAGATCAGTGCTCTGCTTAAGGAATCAGAATTTGATATCACAAGCAACACAGATTCTTTACTGGAAACAGTAGGTGAGCTGTGGCCTATGATAAAGATGCTGGATGAACAGAGTGCTTATATCTTCATGCATATTTTACCGTTTTTCCATCAGATCAGGGGGGATAAGAGATGGTTTGAAAGATGCATGACTGCTTTCCTGCAGGTCCCTGTAAAAGTAACTTTTTCACCCAATATTATTGATGAGATTGAAAAAAATGATGACTCTATGCTGTTGGGAAATTCAAGATTAGGGGTAACGTATATTCCAAGCGGTCCTCATATGGACGGGCAGAGAAACTGGGTGGTAAATATTGGTCCTATTCCTTACGGAGATATGAAAAAATATATTCCGGGAAGTCCATTCAGAAATGTACTTCAGGCACTGTATGATTATTTTCTTCCGGTAACCGTGGATGTAGAAGAGAATTTTGTCACAGAAAAAGAAGAATATTCTTTCAGCCTTGAGGATGATGAACGAAATGCCAGCCGCCTTGGATACTCTACATTCCTCTAA	MYENNIVDMHYNKLQTDFKAEAVAVNLLKYHRAVSNIFIERVGVNDRAYLKDIKSISSSYLGFDEEVFTIKSYREGIYDYLPEGLFHPPSLGASRKNVDTVVREIRKQKRVEEDARKFFRPFEFEVFFTEISALLKESEFDITSNTDSLLETVGELWPMIKMLDEQSAYIFMHILPFFHQIRGDKRWFERCMTAFLQVPVKVTFSPNIIDEIEKNDDSMLLGNSRLGVTYIPSGPHMDGQRNWVVNIGPIPYGDMKKYIPGSPFRNVLQALYDYFLPVTVDVEENFVTEKEEYSFSLEDDERNASRLGYSTFL				NA	NA	NA	NA	NA
BMS003_04279	903			hypothetical protein	ATGGAAATTTCTTCAGTAAAAGGTATTTTTTTAAGGTATATCCTAATGCCTTTAATCGCAATTATTATGATGGTTATATTGGGTATAATCCGGAGAAATAAACCTGCGATCAAGATTAAAGTAATTATTATATACGTCCTTCTGTGCAGTTTGTGCCTGGCTATTCCCGGAGTTTTCGGATTTGCAGGAAATCTTTTTAATCCGTACTGGTATCTTATTGCTCAGGTTATTTATCTTATCTTAGGAATTATTCATGTGAATTTACTGCACAAATATTTCAAAAAGCATATAGAATCTCTTTCCATGAGTATCCTGTTTGAATCTATACTTTCGCTCACCTGTATTGCTTTGGGAGGATATCTTTTTACTTTGATCTTCAACCTGATGAGTAAAGGGACAGGATATGCTGTAATGGCAGCTACAAGTATGGCGATCTTTGTGGTTCCTATGGTATTTTATTACTGCTATATCCAGTTTATCAGTATTCCTTTTGATATTTATAAAACATGGAGATACTCACCGGAGCAGAAACTGCCTGATTTTGAAGGAGCTGATTTTGACAGATTAATGGTGCTGAATGTTGAATTGAGTAAGAATCTGGAAGATACCAACCGTTTCAGGATCAAAGCCAAAACACTTCCTACGGGAGTTACTTTCGGAGATTGGTTCTACAGAGTGGTAGATGATTATAATCACAAAAATCCAGGATCTGTTATTCATCTTTCAGACGAAGGAAATGAACCTTACTACTGGATCTTTTACACGAAAAAATCATTTTTCAGCTTTAGAAAATATATAGATTTCGACCACGACATTACGGCAAACAGCATTTCTGAAAATGAAGTGGTGATTTGTAAGAGAGTTATTCAGCATGAAGAGGAGGGAGTCGCAAAAAAATCATAA	MEISSVKGIFLRYILMPLIAIIMMVILGIIRRNKPAIKIKVIIIYVLLCSLCLAIPGVFGFAGNLFNPYWYLIAQVIYLILGIIHVNLLHKYFKKHIESLSMSILFESILSLTCIALGGYLFTLIFNLMSKGTGYAVMAATSMAIFVVPMVFYYCYIQFISIPFDIYKTWRYSPEQKLPDFEGADFDRLMVLNVELSKNLEDTNRFRIKAKTLPTGVTFGDWFYRVVDDYNHKNPGSVIHLSDEGNEPYYWIFYTKKSFFSFRKYIDFDHDITANSISENEVVICKRVIQHEEEGVAKKS				NA	NA	NA	NA	NA
BMS003_04280	1140			hypothetical protein	ATGATACAACCTATTAAACATTTTGCAATCAATTGGGTGGATGGGATGAAAGTTTCCCAGAGACACCTTAATGATCAGGATAATTTCTTAATTGATACCATCAGAGATTCCAATTCACTTGGAATTACCACATATAACTACGGACTTTTACCTATTTCCAGTGAATTTACAGACCGTACTATTTTTGAGGTTCATAATACTGCAACCAATGATGTACAGCTTGTAATCAAACGCTGCAGTGCCGTTACCATGGCTGGATACCGTATTGAGCTTACAGACAGAAGAATCAGTGTGAAGTCTTTGGCAAAATCCATGAATGAAGAACAGGCAGACGGGGAATATTATATTCTGATCTCTGTAAATCCTTTTGATAAAGTACCGTTTGGAGATATTGATCCTGAGGAAATCCCGCCACGCCATCCAAGTGCACAGTCCAATCATCATATTGAACTATTACCTGTAACTTCTCTGAACAGCAGCTATTCAGGAGGAAATTATCTTATTATCGGAAAAGTAGATTTAAAAGGAAATATTGCACAGGTAGATTCCAACTTTATTCCACCCTGTACTTCTGTGCAAAGCCATCCGGCCTTGGTGGAGTACTACAGCAGCTATGCGAAATCCATAGGAAATCTTCAACAGTATGCTTTTAAAATCATTCAGAAAGCCTCTCACAAAAATCAGAATACAGCTTTGGCACAAAATGTTAAGTTTCTGTGTACTACCATGGTGAATACTTTTGGAGACATGTATTTCCAGTTCAGAAATATTACTCCCTGGCAGCCACCGGTATTTTTGATCGAATCTTTTGCAAGACTGGCACTTCATTTATATAACTCAACTCAGCTTCTTGTTCCCGCAGAATTGGAGGAAATGCTGAATTACAGTCTGGAATGGAGTGAGATTGCACCTCATACTTTGCTGAACCAGCTTTCTATTGTCGCAGAAACGAATTATGATCATCATAACTGTGGTGAACCTTTGCTTTATATTCAACAGATGCTGAGAAGCCTTGAAATCATTTTCTCCAAGCTGAGCGAGCTTGATTATATCGGTCAGAGAAAAGAAAATATCATCGTTAATGAGCAGGAAGTTTCTACCAACACGAATCCAAAAAGAGGTTGGAGCGTATTAGATTAA	MIQPIKHFAINWVDGMKVSQRHLNDQDNFLIDTIRDSNSLGITTYNYGLLPISSEFTDRTIFEVHNTATNDVQLVIKRCSAVTMAGYRIELTDRRISVKSLAKSMNEEQADGEYYILISVNPFDKVPFGDIDPEEIPPRHPSAQSNHHIELLPVTSLNSSYSGGNYLIIGKVDLKGNIAQVDSNFIPPCTSVQSHPALVEYYSSYAKSIGNLQQYAFKIIQKASHKNQNTALAQNVKFLCTTMVNTFGDMYFQFRNITPWQPPVFLIESFARLALHLYNSTQLLVPAELEEMLNYSLEWSEIAPHTLLNQLSIVAETNYDHHNCGEPLLYIQQMLRSLEIIFSKLSELDYIGQRKENIIVNEQEVSTNTNPKRGWSVLD				NA	NA	NA	NA	NA
BMS003_04281	1176	csd		putative cysteine desulfurase	ATGAATTTAGAAGTTATAAGACAGGATACGCCCGGATGTTTGGATAAGATATTTTTAAATAGCGCGGGAGCCTCACTGATGCCTAAATCTGTTGTAGAAACCACAGTCAGGTTTTTATATGAAGAACAGGAGTTGGGAGGGTATGCAGCAGCAGCAAGAAACTCAGAGCAAACCAATCAATTTTATGAAGAGGTGGCAAAACTTATTCATGCAAAACCTTCCAATATTGCATTTGCAGGAAGTTCTACAGATGCCTATGCTAAGGCTTTGTCAAGTATTTCTTTTAAAGAAGGAGACTGTATCATTACTACCAATGATGATTATATATCCAATCAGATTGCTTTTATTTCTTTGCAGAAAAGATATAAAATTAAAATCATCAGAGTTGCCAGTCTTGCTGATCATGAATTAGATCTTGAGGATTTTGAAAGCCTGATCAAAAAGCATCATCCTAAACTAATTGCTGTCACTCATATTCCTACCAATTCCGGTTTAATTCAGAACGTAGAGGAGGTAGGAAAGCTATGTAAGCAGTATGATGTTCTTTATCTTGTGGATGCCTGTCAGTCTGTAGGTCAGATTGTAGTGGATGTTGAAAAATTGAATTGTGATTTTCTGACAGCAACCGGGAGAAAATTTATGCGAGGACCGAGAGGGACAGGATTTCTGTATGTTTCAGATAAAGTATTAAGCCAGAAAATGTACCCTTTATTTTTAGATAGTATCGGGGCGAAATGGACTTCTTTTGATGATTTCCAGCTCAATGATACAGCCAAAAGATTTGAACTTTTTGAAAGACCTTATGCCGCTTTACTCGGTTTTACAGAAGCTTTACAATATGCCAATGCGATAGGAATGGATCAGATTGAAGGTTATAACTGCGCACTGGCAGATACTTTAAGAAATAATCTGCAGAATAGTGGTTTCCGAATTTTAGATAAAGGCAATAGATTAAGCAGTATCGTTACCTTTTGTCAGGCAGACGGAGGAGTTGAAAAAATTCATAAAATACTGAGTGAAAATAATGTGTTTTTTAAAGAGAATCATAAAACGGATGCGCTAATTGATTTTACGTTTAAAAATGTAGATCATGCGATACGGTTATCACCTCATTATTTCAACACGATTGAAGAAATTGAAAAAGTATCCCAACTTTTAGTAAATAGTAACCGTTAA	MNLEVIRQDTPGCLDKIFLNSAGASLMPKSVVETTVRFLYEEQELGGYAAAARNSEQTNQFYEEVAKLIHAKPSNIAFAGSSTDAYAKALSSISFKEGDCIITTNDDYISNQIAFISLQKRYKIKIIRVASLADHELDLEDFESLIKKHHPKLIAVTHIPTNSGLIQNVEEVGKLCKQYDVLYLVDACQSVGQIVVDVEKLNCDFLTATGRKFMRGPRGTGFLYVSDKVLSQKMYPLFLDSIGAKWTSFDDFQLNDTAKRFELFERPYAALLGFTEALQYANAIGMDQIEGYNCALADTLRNNLQNSGFRILDKGNRLSSIVTFCQADGGVEKIHKILSENNVFFKENHKTDALIDFTFKNVDHAIRLSPHYFNTIEEIEKVSQLLVNSNR	PGPT0020195_4742	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
BMS003_04282	720	blaB1		Metallo-beta-lactamase type 2	ATGAAGAAAAGCATTCCGTTTTTTATTATTTCGATGTTGCTTAGCCCATTGGCTAATGCTCAGATAAGAGATTTTGTAATTGAACCGCAGATAAAACCTAATTTCTATATTTATAAAACTTTCGGGGTATTTGGTGGTAAGGAATACTCTACCAATGCTGTTTATCTGGTAACCAAAAAGGGAGTTGTTTTATTTGATGTTCCCTGGCAGAAAACACAGTATCAGAGTCTGCTGGATACGATTCAAAAGCGTCATAATCTTCCTGTTATAGCTGTATTTGCGACTCATTCTCATGAAGACAGAGCTGGAGATTTAAGCTTTTATAATAACAAAGGAATCAAAACCTATGCAACTTCCAAAACCAATGAACTGCTGAAGAAAGAAGGAAAAGCAACTTCTACAGAAATTACAGAAACCGGAAAAACATACCGGATTGGCGGAGAGAAGTTTGTCGTTGATTTTCTTGGTGAAGGACACACTGCAGATAATGTAGTGGTATGGTTTCCAAAATACAAAATACTGGACGGCGGATGTCTTGTAAAAAGCAGAACCGCAGAAAATCTGGGGTACACAGGAGAAGCCAACCTAGCACAATGGCCGCAGACCATGACAAAACTGAAAGCTAAATATGCACAGGCCACGCTGGTTATTCCAGGTCATGATGAATGGAAAGGAGACGGACATGTAGAACATACACTTGATCTTTTGAATAAAAAATAA	MKKSIPFFIISMLLSPLANAQIRDFVIEPQIKPNFYIYKTFGVFGGKEYSTNAVYLVTKKGVVLFDVPWQKTQYQSLLDTIQKRHNLPVIAVFATHSHEDRAGDLSFYNNKGIKTYATSKTNELLKKEGKATSTEITETGKTYRIGGEKFVVDFLGEGHTADNVVVWFPKYKILDGGCLVKSRTAENLGYTGEANLAQWPQTMTKLKAKYAQATLVIPGHDEWKGDGHVEHTLDLLNKK	PGPT0028420_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028420-blaIND-K19216	NA	NA
BMS003_04283	654	ideR	COG1321	Iron-dependent repressor IdeR	TTGAAAACAACCCTAACAGAAGAGAATTACCTGAAAGCTTTGTTTCATTTAGTTGACAATGAAGGTAAGGTTACGATTAATGAGCTCAGTAAATTTTTGAATGTAAAAATGCCGAGTGTCAATAATATGATGAAGAAATTTGCTGAAAAAAAGTGGGTTATCTATGAGACCTACAAGCCATTAATTGTGACAGAAAGCGGAAGACGTGAAGCAGCCCTGGTTGTTCGCAAACACAGACTTACTGAAATGTTCCTGGTTAAGAAAATGAACTTTGGCTGGGAAAATGTTCACGAAATTGCAGAACAGCTTGAACACGTACATTCTCAAATATTTTTTGATAAAATGGATGAAATTCTGGATCATCCTAAATTTGATCCTCACGGAGAGCCTATTCCTGATAAAGACGGAAATATTATCTCACAAGACCTGCAAAAACTTAGCAACTGTGAACCGGGTGAAGATGTAACTTTTGCCTCTGTCACCCTTTCTGACGATGCTTTTCTGACTTATCTGAATGACAGGAAGCTTCTTCTCAATACCAAAGTAAAAGTCCTGAAAGTAGAAAGTTTTGATAAATCTATGACAATAGAAATTGATGGCAAAACGGAAATTCTAAGTAAAAAAGCGACTGAAAAAATATTGGTTAAGAAATAG	MKTTLTEENYLKALFHLVDNEGKVTINELSKFLNVKMPSVNNMMKKFAEKKWVIYETYKPLIVTESGRREAALVVRKHRLTEMFLVKKMNFGWENVHEIAEQLEHVHSQIFFDKMDEILDHPKFDPHGEPIPDKDGNIISQDLQKLSNCEPGEDVTFASVTLSDDAFLTYLNDRKLLLNTKVKVLKVESFDKSMTIEIDGKTEILSKKATEKILVKK	PGPT0003890_1693	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
BMS003_04284	1029	ltaE		Low specificity L-threonine aldolase	ATGAAATTTTCATTCAAAAATGACTATTCTGAAGGTTGCCACCCGAATATTTTACAGGCACTTTTACAGTATAATCTTGATCAGCAGGCTGGCTATGGAGAAGATGAGTATTCATTGAAAGCGAAAGCATTAATTAAAGAAAAAATCAACAATCAGAATTCTGAAGTTTTTTTAGTTTCAGGGGGAACACAGGCTAACTTAATTGTTATTTCTGCGATCTTAAAACCCTATCAGTGTGTTATTTCTGCCGCTCCCGGACATATTCTTAATAATGAGACCGGAGCTATTGAAGCCACAGGGCATAAAGTGTTAAGTATTGAAACAACAGACGGGAAAATAAAGCCGTCAGATATTATCCCGATTTTAGAAGGGCATCGTAACGTACCACATCAGGTGATGCCTAAGCTGGTATATATTTCCAATTCTACAGAACTGGGAACAATTTATCAGGCAAAAGAACTGGAAGAGCTTTCGGCATTTTGTAAAGAAAATAAATTATACCTTTTCATGGATGGAGCAAGGCTGGGACACGGTCTGGCAGCAGAAATCAGTGATCTTACCCTGGAAAAAGTAGCTGCTCTTACCGATATTTTCTATCTTGGGGGAACCAAGAACGGAGCTTTAATAGGAGAGGCTATTGTAATGAACAATCCGGTTCTACAGGAAGATTTTGCTTTTAATATCAAACAGAAAGGAGCATTACTGGCAAAAGGAAGACTGTTAGGAATTCAGTTTATGGAATTGATGAAGGATGACCTGTATTTTGATCTGGCAAAACATGCCAATCAGCAGGCTATGAAAATTAAAAGTGTGTTACAGAAAAAAGGAACTGCATTTCTTTCGGATACTTATACCAATCAGATTTTCCCTATTCTCAATAATGAATTGATTGAGGTATTGTCTGAAAATTTTGAGTTTTATGTCTGGAAGAAAATAGATGAAGATTTCTCGGCTATTCGCCTCATTACATCATGGAGTACCGGAGATGATGCTGTGAACAGATTTATTGAAATAATTGAACAGAATTAA	MKFSFKNDYSEGCHPNILQALLQYNLDQQAGYGEDEYSLKAKALIKEKINNQNSEVFLVSGGTQANLIVISAILKPYQCVISAAPGHILNNETGAIEATGHKVLSIETTDGKIKPSDIIPILEGHRNVPHQVMPKLVYISNSTELGTIYQAKELEELSAFCKENKLYLFMDGARLGHGLAAEISDLTLEKVAALTDIFYLGGTKNGALIGEAIVMNNPVLQEDFAFNIKQKGALLAKGRLLGIQFMELMKDDLYFDLAKHANQQAMKIKSVLQKKGTAFLSDTYTNQIFPILNNELIEVLSENFEFYVWKKIDEDFSAIRLITSWSTGDDAVNRFIEIIEQN	PGPT0020465_2328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS003_04285	504			hypothetical protein	ATGAAAAAATTAATCTTATTGGCTACTGTATCCGCTTTTTTGATCAACTGTAATAAAAAAGCTGAGGCTCCTGCCCCAAAAGTAGAAGCAGATACAATTGCTGTTGAGGAACCTGTAATAGATACACTAGGCCCCAAATCTTTCTGTTATATCGGGGTAACCGGCAAAGACAGCGTTTTTGCTTCTATTGATGATAACCTGGGAACAATTACCGGAAAATTATCTTATAAAAACAGTGAAAAAGATAGTTCAAAAGGAGATGTAACCGGTTTCAGATCCGGAGACACCCTGAAACTGACCTATGAATTTACTGCGGAAGGGGGAAAAAGCAAAAGAGATATCTACTTCCTGCAAAAGGATAATGCTTTGACAGAAGGAATTGGTGATCATAAAGAAGAAGACGGACAGTCCAGATATGCTGATGACAAAAAAGTAAGCTATAAAGACGGGCAGAAGCTAACCTCTGCAGACTGTAAAGTAGTAAGCGAAGCTTTGAAAAAGTAA	MKKLILLATVSAFLINCNKKAEAPAPKVEADTIAVEEPVIDTLGPKSFCYIGVTGKDSVFASIDDNLGTITGKLSYKNSEKDSSKGDVTGFRSGDTLKLTYEFTAEGGKSKRDIYFLQKDNALTEGIGDHKEEDGQSRYADDKKVSYKDGQKLTSADCKVVSEALKK				NA	NA	NA	NA	NA
BMS003_04286	963			hypothetical protein	ATGAAAAAGATTACTGAAGCACTTGGGTTGGTATTATTTATTTTAAGTTTTCATTTGGCGTTAGGACAGATTCCTCAGAATTATATTTACACTTCATCGGGAGACCTGCGGGAAATTGAAAAAATGATCATGCGGAAAGATATCGGCGGAGTACAGATTGTTTATAATTGGAGGGCTTTGGAAAAATCAAAAGATGTATATGATTTTTCTGTTATTGAGAAAGATTTGAAGTATCTGACAGGTCTTCATAAAAAATTATTTATTCAGCTTCAGGACAGATTTTTTGAGCCGCAGGCAAGATATATCCCTGATTATGTGTTGAAGGATAAAGAATATACGGGAGGATTAGTACCTCAATATGATAATCCGGGTGAGAATAAACCTGTAGGAAGTGGCTGGGTAACTCAGCAATGGAATCCTGCTGTCCGAATGAGGTTTCAGAAATTGATAGGAGAGCTGGCAAAGAAATTTGACGGAAAAATCCAGGGGATTAATCTTCCGGAAACAGCTATTGATATTGACATGAAAAAGGATAAAACAGATTTTAGTTGTGACCGTTATTTCCATGCTGAATTGGAAAATCTAAAGTTTGCGAGAAGTGTTTTTCATGATTCTTACGTATTGCAATATGTTAATTTCTTTCCGTGCGAATGGGAAAATGATCATCAGTACATGTCCAGACTATTTGATTTTGCCTATAAAAATAATATAGGCTTAGGTGGCCCTGATATTGTTCCGGATAAAAAAGCACAAATGAAAAATTCTTATCCTTTTTTTAATCGGTACAAAGGAAAACTTTCGCTTGCGGCAATGGCTGTTCAGGAACCTACGCTTACTTATACAAATCCTAAAACCGGAAAACGTTTCACAAAAGAAGAATTTGTGGAGTACGCAGAAAATTATCTGGGTGTGAAAATCATATTCTGGAGTGTGGAATCTCCCTGGTTGAGAGATCCCAGCTAA	MKKITEALGLVLFILSFHLALGQIPQNYIYTSSGDLREIEKMIMRKDIGGVQIVYNWRALEKSKDVYDFSVIEKDLKYLTGLHKKLFIQLQDRFFEPQARYIPDYVLKDKEYTGGLVPQYDNPGENKPVGSGWVTQQWNPAVRMRFQKLIGELAKKFDGKIQGINLPETAIDIDMKKDKTDFSCDRYFHAELENLKFARSVFHDSYVLQYVNFFPCEWENDHQYMSRLFDFAYKNNIGLGGPDIVPDKKAQMKNSYPFFNRYKGKLSLAAMAVQEPTLTYTNPKTGKRFTKEEFVEYAENYLGVKIIFWSVESPWLRDPS				NA	NA	NA	NA	NA
BMS003_04287	483			hypothetical protein	ATGAACCGCCATAAAGACCTTAAGTGGGAAAAAATTCAGCAAAAACTGGAAACCAGCCCTGAAAAAATATGGTCTTTACATGAAATGGAAATTACAGAAGGCGAACCTGATGTAATAGATTATAATAAAAAAACAGACGAATATTTCTTTGTAGACTGTTCTCCGGAAAGCCCGAAGCGCCGAAGTTTATGCTACGATTATCAGGCATGGGATGCCAGAAAAGCAAACAAACCTGAAAGCAACGTCATTGACACCGCATCTGAAATGGGCATTAAACTTTTGACAGAAGAACAATATCGCCATCTTCAGAAATTGGGAAAATTTGACCAAAAGACATCAAGCTGGATCAAAACCCCTTCACAAATTCGGGAATTGGGAGGTGCTATTTTCTGTGACAGACGATACAATTCTGTATTTACCTATCACAATGGTGCAGATTCTTATTATGCTGCAAGAGGATTCAGAGGATTATTAAAAGTATAA	MNRHKDLKWEKIQQKLETSPEKIWSLHEMEITEGEPDVIDYNKKTDEYFFVDCSPESPKRRSLCYDYQAWDARKANKPESNVIDTASEMGIKLLTEEQYRHLQKLGKFDQKTSSWIKTPSQIRELGGAIFCDRRYNSVFTYHNGADSYYAARGFRGLLKV				NA	NA	NA	NA	NA
BMS003_04288	909			hypothetical protein	ATGAAAAAACTTTATTCGTTAGCTATTGTTTTAGCATCAACTTTAGCATTTGGACAAATTAGCCTGACAGCTCAGGGAACTGCATATGCTGAAAATTTTGACGGTATGGGACCTACCGGAACTACATTACCTACCGGATGGGTATCAACAGCACCAACTGTTGTTGTTTCTAACGGTTCTTCAAACTCAGGAGCTATTTATAATGCAGGGACTACAGGAGCTGCTGATAGAGCATTAGGTACTTTAGGTTCAAACTCTCTGACTCCAATTTTCGGTGCATCTTTTACTAATAATACAGGATCTGCTATAACATCTTTAAATATCAGCTATATGGCGGAACAGTGGAGAACAGGAAGCAGTAGTACAGCAAACGAAGTTGTAGCTTTTTCATATAGTACTGATGCAACCAGCTTAACAACTGGTACATGGACTCCGGTGACTGAATTAGATCTTAATGAAATTTTAACAACAACTACTACAAGTGGACAGGTAGATGGAAATTTACCAGCTAACAGAGCTAGTAAAAGTGCTACAATCTCAGGTTTGAATATTGCCAATAATACTACATTCTGGATTAAGTTTGCAGATGATAATGCTGTAGGTAGTGATGGAATGTATGCTGTTGATGACTTTTCATTAACTCCTTCTGCTGGAACTTTATCCGTTATTGATTCTAAAAACACAAAAGCAATAAATTTCGTTAAAAACTCTTTCGTGAAAAATAATGAAATTGTTTTCGGATCTGATGTAAAAGACGTGAAAGTTTTCAACATGTTCGGGCAGCTTGTAAAAGAAGCTTCTGTACAACAAAATGGAACTGTAAGCGTTGCTGAATTGGCAAAAGGAAACTATATTGTAACAGGTACAGTGAACAACCAGCCGGTTTCTCAAAAAGTTCTTAAAGACTAA	MKKLYSLAIVLASTLAFGQISLTAQGTAYAENFDGMGPTGTTLPTGWVSTAPTVVVSNGSSNSGAIYNAGTTGAADRALGTLGSNSLTPIFGASFTNNTGSAITSLNISYMAEQWRTGSSSTANEVVAFSYSTDATSLTTGTWTPVTELDLNEILTTTTTSGQVDGNLPANRASKSATISGLNIANNTTFWIKFADDNAVGSDGMYAVDDFSLTPSAGTLSVIDSKNTKAINFVKNSFVKNNEIVFGSDVKDVKVFNMFGQLVKEASVQQNGTVSVAELAKGNYIVTGTVNNQPVSQKVLKD				NA	NA	NA	NA	NA
BMS003_04289	3228			hypothetical protein	TTGCGGAATTTTGTCATTCTATTCGTTTTTTTCTTCTTAGGCATATTTTCAGGAAATGCTCAGGTATTTTCGTGGAAAAACCCTAATATCCCTGAAGACAGTATTAAAAGAGACAGTATTCTTGCCGCAAAACTTGAACAGGATATCTTCGTAAAGGACACGCTGGACTTTATAAGAACACATAATAAGATCATCATTGATGAAGCCGTACTGGCAAAAAATGATAAAAAGAGATTTTTAGGAGAACTTAATTCAAAAGGTTCCATCATTCGCGGGATTACTTTTGGAAATAACCAGGGACAGTCTGTACAGAGTTCAATGGATCTTCAGATTTCAGGCAGATTATCCAAAGATGTAACCATTTTAGCAAGTATTTCAGACCACAACCTTCCTATTCAGGCAGACGGCTATACCCAGACTTTAGAAGAGTTTGATAAAATCTATATGCAGCTTAATATCAAAGAAAAGTCTATCCTCAGAGCCGGACATCTTGATCTTGTAGAAGCGAAAAATTATTTTGCCAAATATCAGAGAAGAAGTATGGGGCTTCAGTTCCAGACCCAATTCGGGAAAGAGAACAAAACACTTGTAGATATTTCTGCCGGGGTGGCAAGAAGTGAATTCCACAGAATCCGTTTTCAGGGGGTTGAAGGTAACCAGGGACCTTATCGTCTTACCGGTAAGAACGGTGAACAGTTTATTACACTGATTTCCGGTTCTGAACAGGTTTTCATTGATGGAATCTTAATGAAACGAGGAGAAAACCAGGACTACATCATCAATTATAATACAGGGGAAGTAACTTTTACCAGTTTCCGCCCTATTTTTCAGCAAAATTTCATTACAATTTCTTATAACTACGCAAACAGAAATTATTCACGATATTTATTTACCGGAAAACTCGAACATCAGAGAGAAAAATTTAAAGTGGGGCTCAACTGGTTCATGGAGAATGACAACAAAAACGCCCCTCTTTCTTTAAATCTTTCCAAGGAAGATGAACAGATCCTTGCAGAAGCCGGGAACAACCTAGATCTTATGTATGCGCCTTCAGGAGTGGTTACAGAATATGATGTGAATAAAATTTTATATAAATTAACCTCTCCAGGAAATTATTATGAATTTTCTACCGATTCAAGTCTGACGCTTTATCAGGTTTCTTTCACCTATTTCGGAGCTAATATGGGAGATTATAAAATAGCCCAGACGATCAATAACGGGCGTGTTTTCGAATATGTAGGTCCTAATGCGGGAGATTACAGAGCAGTAAGAAAACTTCCTTCTCCACAGAAATCACAAGTATACTCTCTAAATTCTGAATACCTTTTGAAGGAAGGAAAAATAGGAGCAGATATTTCCCTGAGCAATTATGATGTCAACTTATTTTCATCTAAGGATTCTGATCAGAATATGGGTTATGCATGGCGTATCTTCGGAAACAAAAGCTTTACAAAAAATACATGGAAAGGAACTCCCAGCTTTGAATACCAATATATAGACAGGCAATTTCATATCCTTGACCGTATCAATGATGTGGAATTCTCCAGGGACTTCAACCTAACGCAGGAATTTAACAAAAAAACTCAAAACAGATTTATTTTCAGCTTCCTTAATAAATGGAACAATAAATCTACTCTAAACTACCGTGTCAATTACCTAAATGAACAGGATTCTTACAAAGGGATCAAAAACGATCTTGATTTCGGCTGGTTTACAGGAAAATTCTTCACCAAAGGAAATTTATCTTACCTGAATACCAATGCTACCCTTCAGGATACTAAGTTTATCCGTGGAGGAATTTCAACGGAATTTACCGGCAAAAAAGGAAGCTGGGCCATTGGCGGGAGCATGGAACACAATGAGAAAAAGTACAATGACACCCAACTTATGGATGTTACGAGTTTCAGCTGGAAAGAGATCTTTCTGCAGAAGAAAATAGGAGACAGTACAAGAACCAAATTACTGGCAAAAGTATATATGAGAGATAATGACTCTGTACGTGACAACAGGCTTCAGAATATGAATAATATTTTGGGGTTCATGGCAGAAAGTCAGATCATCAAAACGGAAAGAACTACTTTAAATGCTTTAATTCATTACAGAAAATTCTTTTATTCAGGAGCTGAGGGGGATGTAACCCGAAATAATGATTTTGTGGTTGGAAATATCTTATACAATCAACAGCTTTTCAGAAACGGAATGCGTCTTCAGGCTTTCTATGAGCTTGGAAACGGACAGGAAGCACAGAGAGAATTCCAGTATATAAAAGTAACAGACGGCCAGGGTGTATACAAATGGACAGATTATAACGGAGACGGCATTCAGCAGCTGGACGAATTTGAAATTGCAGAATATTCTGATCTGGCACAATACATCCGCGTATACACTAACTCCGTGAGGTATATTCCCTCCAATAAGAATAAGCTTCAACTGGCCTTATTTGTAAATCCGGCCATTGTTCTCAATTCGGAAAACGGATTTTTAAAGCGTTGGAATTTTAATATTTCCCTGAATTCCCAAAACTCTTTCTATAAAAAAGATAAAGTTCTTGTTCTGAATCCTTTTGAAAAAAACAGTGATCAGATCCTTAAAAATCAGAATATTCTGGCTTCCGTACAGTTCAATCCGACAGACAAATCAGGATGGAACGGAAACTACCGTTTCATCACCAATGATAATCTTATCAATGCCAATTTCAGTAATGAAGAGCGTGAGCAGACTTCTCATTTTCTGAATATAGGATATTGGTTTAATAAAGAGTTCAGAATAGACTGGGAAAACTCTGTTCATGATATTAAAAACTCTTCACAATTGTTTGCTACCAGGGATTATCGTCTTAATAATTTTGAAACAAAACCTAAAGCTACTTATAAATTCACAGATGCTATTCAGGCTGAATTATCTTCGGCTTTCCGTCAGAAACAAAGATTAGACGGAGAAGAACTTCTTAAAGCATTTGATGTTACCGGAACCATTCAGTGGGAACGCAGAAAAACATCTATTCGTGGGAACTTTTCGTTCATCAGCAACAATTTTACCGGAAACAATTTCAGTATTGTAGGGAATCAGATGCTGGATGGTCTGAAACCCGGTAAAAACCAGGTATGGAGTGTATTTATTCAGCAGGCGATTAACTCATTTATTCAGCTGAACCTTAATTATGAAGGAAGAAATTCCGGTGACCGTACCATTCATATAGGAAGTATGCAGGTAAAGGCCAGCTTCTAA	MRNFVILFVFFFLGIFSGNAQVFSWKNPNIPEDSIKRDSILAAKLEQDIFVKDTLDFIRTHNKIIIDEAVLAKNDKKRFLGELNSKGSIIRGITFGNNQGQSVQSSMDLQISGRLSKDVTILASISDHNLPIQADGYTQTLEEFDKIYMQLNIKEKSILRAGHLDLVEAKNYFAKYQRRSMGLQFQTQFGKENKTLVDISAGVARSEFHRIRFQGVEGNQGPYRLTGKNGEQFITLISGSEQVFIDGILMKRGENQDYIINYNTGEVTFTSFRPIFQQNFITISYNYANRNYSRYLFTGKLEHQREKFKVGLNWFMENDNKNAPLSLNLSKEDEQILAEAGNNLDLMYAPSGVVTEYDVNKILYKLTSPGNYYEFSTDSSLTLYQVSFTYFGANMGDYKIAQTINNGRVFEYVGPNAGDYRAVRKLPSPQKSQVYSLNSEYLLKEGKIGADISLSNYDVNLFSSKDSDQNMGYAWRIFGNKSFTKNTWKGTPSFEYQYIDRQFHILDRINDVEFSRDFNLTQEFNKKTQNRFIFSFLNKWNNKSTLNYRVNYLNEQDSYKGIKNDLDFGWFTGKFFTKGNLSYLNTNATLQDTKFIRGGISTEFTGKKGSWAIGGSMEHNEKKYNDTQLMDVTSFSWKEIFLQKKIGDSTRTKLLAKVYMRDNDSVRDNRLQNMNNILGFMAESQIIKTERTTLNALIHYRKFFYSGAEGDVTRNNDFVVGNILYNQQLFRNGMRLQAFYELGNGQEAQREFQYIKVTDGQGVYKWTDYNGDGIQQLDEFEIAEYSDLAQYIRVYTNSVRYIPSNKNKLQLALFVNPAIVLNSENGFLKRWNFNISLNSQNSFYKKDKVLVLNPFEKNSDQILKNQNILASVQFNPTDKSGWNGNYRFITNDNLINANFSNEEREQTSHFLNIGYWFNKEFRIDWENSVHDIKNSSQLFATRDYRLNNFETKPKATYKFTDAIQAELSSAFRQKQRLDGEELLKAFDVTGTIQWERRKTSIRGNFSFISNNFTGNNFSIVGNQMLDGLKPGKNQVWSVFIQQAINSFIQLNLNYEGRNSGDRTIHIGSMQVKASF				NA	NA	NA	NA	NA
BMS003_04290	996	dusB	COG0042	tRNA-dihydrouridine synthase B	ATGATAAAAATAGGCAACATAGAACTGCCGGAATTTCCACTTTTGCTGGCTCCGATGGAAGACGTAAGTGATCCTCCGTTCAGACGTTTGTGTAAAATGCACGGTGCAGATTTAATGTATTCGGAATTTATTTCTTCTGAAGGATTGATTCGTGATGCTATCAAAAGCCGTAAAAAGCTGGATATTTTCGATTATGAAAGACCTGTTGGTATACAGATCTTCGGTGGAGATGAAGAAGCTATGGCCATGTCTGCAAGAATAGTTGAAACAGTAAATCCTGACCTGGTAGATATCAATTTCGGATGTCCTGTAAAAAAAGTTGTCTGTAAGGGGGCCGGAGCAGGTGTATTGAAAGATATTGATCTTATGGTACGTCTTACAAAAGCTGTTGTAAGCTCTACTCACCTGCCCGTAACGGTTAAAACCCGGTTAGGATGGGACAGCCACACCATCAATATTGATGAAGTAGCAGAGCGTCTGCAGGAAACAGGAATCAAAGCTTTGACTATACATGCCAGAACCCGTGCTCAAATGTATAAAGGTGAAGCAGACTGGGAACACATCTCCAGAATCAAGCAAAATCCTAATATTGAAATCCCTATTTTTGGAAATGGAGATATAGATTCTGCTGAAAAAGCTTTAGAATACAAACAAAAGTATGCCTGTGACGGCATCATGATAGGGCGTGCAGCCATTGGCTATCCATGGATATTTAACGAAATCAAACATTTCTTTAATACAGGTGAACATTTACCTGAACCTACAATATCAGACCGTTTACTAGCAGTTCGTCAGCATGCAGAGTGGAGTGTGGAATGGAAAGGCGAAAGATTAGGGCTGGTGGAAATGAGACAGCATTACAGTAATTATTTCAGAGGAATTCCGCACTTCAAGGAGTTCAGAAAAAAATTCCTGGAAGTTTTCACACTGGAAGAAATGAACAGTTTAATCCATGAAACTCAGCAATTTTACGAAGAATTTCAGGCACAGCTATAA	MIKIGNIELPEFPLLLAPMEDVSDPPFRRLCKMHGADLMYSEFISSEGLIRDAIKSRKKLDIFDYERPVGIQIFGGDEEAMAMSARIVETVNPDLVDINFGCPVKKVVCKGAGAGVLKDIDLMVRLTKAVVSSTHLPVTVKTRLGWDSHTINIDEVAERLQETGIKALTIHARTRAQMYKGEADWEHISRIKQNPNIEIPIFGNGDIDSAEKALEYKQKYACDGIMIGRAAIGYPWIFNEIKHFFNTGEHLPEPTISDRLLAVRQHAEWSVEWKGERLGLVEMRQHYSNYFRGIPHFKEFRKKFLEVFTLEEMNSLIHETQQFYEEFQAQL				NA	NA	NA	NA	NA
BMS003_04291	744	deoC		Deoxyribose-phosphate aldolase	ATGAACATAGCCCAATATTTGGATTCAACTTACCTGAAAACACCAGAGCAATCAGGTATTTCCCACGAAGAAACACTTCAAAAAGATAAAGAACTTGCTCAGAAAGCAATAGAACACGGTATTTTTGCCGTAATGATCCGTCCGGATTATGTAGCTGAGATCAAGAAATATATTCAGGAAAGAAATTCAAATGTTGCAGTAGGAACTGTAATAGGTTTTCACGAAGGAACGTATTCTATTGAAGAAAAACTTGCAGAAGCTTCAAAAGCAATAGAAGACGGTGCAGATGAGCTGGATTTTGTAATTAACTATACAGCTTACCTGCAGGGAGATCTACAGCTGGTAAAAGAAGAGTTTGTAAAATGCACAGGATTATCTCTTGAGCACCACAAAATAGCCAAGTGGATTATTGAAATTGCAGCGTTGACTAATGAGCAGATAGCAGATCTTACTAAAAGTATTTCAACCTGGGCGGAAGAAAACTTCTCCGAACATGACCTGTCAAAAATTTTTGTTAAATCTTCAACAGGATTTTACGAAACTACTGATGGAAAACCTAACGGGGCAACTTTTGAAGGGATCACAATTATGCTCAATAACTCAGGGAAACTTCCTGTGAAAGCGGCAGGTGGTGTGAAAACTCCAGAAGATGCAGAGAAAATGATCAGCATGGGAGTAAAAAGAATCGGGACTTCTTCAGCATTAGCACTGATTAAAAATGAATCTTCCTCAGAAGGATACTAA	MNIAQYLDSTYLKTPEQSGISHEETLQKDKELAQKAIEHGIFAVMIRPDYVAEIKKYIQERNSNVAVGTVIGFHEGTYSIEEKLAEASKAIEDGADELDFVINYTAYLQGDLQLVKEEFVKCTGLSLEHHKIAKWIIEIAALTNEQIADLTKSISTWAEENFSEHDLSKIFVKSSTGFYETTDGKPNGATFEGITIMLNNSGKLPVKAAGGVKTPEDAEKMISMGVKRIGTSSALALIKNESSSEGY	PGPT0017445_1695	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
BMS003_04292	471	asnC_2	COG1522	Regulatory protein AsnC	ATGAAAAATTCGAGCAACACAAGCTACCATTTAGATTCTATTGACAAAGAAATCATCTACATGTTGATGGATAATGCCAAGACCTCTTTAGCCCACATTTCAAAAAATGTTGGTATATCTACTACTGCAGTGCATCAAAGAATCAAAAAACTAGAACATGCAGGAGTTATTGAAAATTCAATATCATTTCTTAATCCCAAAAAAATTGGATATAAGGTGATTTCCTACATCGGTGTATTCCTGGATCAGCCAAGTCATTACCCGGAAGTGGTAAAATCTTTACATGATATTAATGAAGTTGTAGAGGCACACTATACTACAGGAAATTATACCATTTTCCTGAAGGTTCTTTGTAAAGACAATGATCACTTAATGCAGATCCTTAGTAAGCTTCAGAAGCTGAAAGGAGTAACAAGAACAGAAACTTTTATATCTTTGGAACAAGGTATTTACAGACAATTGAAAGTATAA	MKNSSNTSYHLDSIDKEIIYMLMDNAKTSLAHISKNVGISTTAVHQRIKKLEHAGVIENSISFLNPKKIGYKVISYIGVFLDQPSHYPEVVKSLHDINEVVEAHYTTGNYTIFLKVLCKDNDHLMQILSKLQKLKGVTRTETFISLEQGIYRQLKV				NA	NA	NA	NA	NA
BMS003_04293	936			hypothetical protein	ATGGAGCTGTTCTCTTTTTATAATGTTGAAAATTTATTTTTGCCCGATCCGAAACCTGTCCATAAATTAGATCCTACCCGGTCAGGATTGAGGAATTGGGATGAAAAGAGATATAAGAACAAGCTTTTTAAAATCTCCCACGTATTCCAGTTGATGAAGGAAGATAATGATGTAATGCCATTTGTAATAGGACTATCTGAAGTTTCCGGAAGGAAAGTTCTGGAAGATCTGGTGGAGATGGATCCCTTTAATTCGGAATATGGAATTGTACATTACAATTCTATGGATGAAAGAAAGGTGGATGTAGCAATGTTGTATGATAAAAATAAAGTAGAGGTTATAGATTCTGAAACCATTACTTTCTTTTTTGAAATAGAAAATAAAAACACAGGAAATTACGATACAACCAGAGACGTACTTTTTTCAAAAATTAAGTATAAAGATGAAATTGTTAATGTCTTTATCGCTCACCTTCCCTCAAAGCGCGAAAAAGATATCAATAAGCCTAAAAGAACCTTTATATTGAATGAGATCCGGCAACGGATTATGAAAATTGTAGATGCTGATAAGGAGCACGTTATATTGTGTGGTGATTTTAACGAAAACCCGGATGATGAAAATTTAGTACAAATTCTCTATGACAATGACCATGAGAAGGTTTTATTGAACCCTTTTCAGCAATTGTTTTCTACAAGAAATTATTCTACTTTTCATTATAAGTCTGGATTGTTGTATGACCAGATCATTATATCAAGATCTTTGCTTGATAATAAGACGCTGGCTTTTCAGGATGCACATGTATTCAATTCTGAAAAAATACGCAGCAGAACCAGAAATTTTGAAGGACGACCTTTCCGAACATATGCTGGTACACGGTACTTAGGAGGATATAGTGATCACTTTCCGGTTTTTGTAAAGTTTAAAAATTTACAGTAA	MELFSFYNVENLFLPDPKPVHKLDPTRSGLRNWDEKRYKNKLFKISHVFQLMKEDNDVMPFVIGLSEVSGRKVLEDLVEMDPFNSEYGIVHYNSMDERKVDVAMLYDKNKVEVIDSETITFFFEIENKNTGNYDTTRDVLFSKIKYKDEIVNVFIAHLPSKREKDINKPKRTFILNEIRQRIMKIVDADKEHVILCGDFNENPDDENLVQILYDNDHEKVLLNPFQQLFSTRNYSTFHYKSGLLYDQIIISRSLLDNKTLAFQDAHVFNSEKIRSRTRNFEGRPFRTYAGTRYLGGYSDHFPVFVKFKNLQ				NA	NA	NA	NA	NA
BMS003_04294	675	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGAGAATTGACATAATAAGCGTACTTCCGGAATTGATGGAAAGTCCTTTCAAAACTTCTATTTTGAAAAGAGCAATGGATAAAGGGCTGGCAGAAGTACATTTTCATCACCTGAGAGACTGGGCTGTTAATAAGCACAGACAGATTGATGATGAACCTTACGGAGGCGGAGCAGGAATGGTAATGATGGTGGAGCCTCTGGATAAATGCATCTCAGAGCTTAAGTCCCAAAGAAATTATGATGAGGTTATCTACCTTACACCAGATGGTGTGACCCTGAATCAGAAAATTGCCAATACTCTTTCCATAAGGGAGAACCTTATTTTCCTTTGTGGTCATTATAAAGGAATAGACCAAAGAGTAAGAGACCTTCATATTACCAAAGAAATATCCATTGGAGATTATGTCCTTACAGGTGGTGAGCTTGCAGCATGTGTTCTTGCGGATTCAGTGATAAGACTGCTTCCCGGAGTTTTGAATGATGAGCAGAGTGCTTTGACAGACAGTTTTCAGGATGATCTTCTTTCGCCGCCAATTTATACCAGGCCAGAGAGCTACAAAGGGCTGGAGGTTCCTAAAGTTCTGCTGAGCGGAAACTTTGGAAAGATTGAAGAATGGCGTCATGATGAGGCGGTAAGAATTACCAAAGAGAAACGACCGGATTTGCTTGAATAA	MRIDIISVLPELMESPFKTSILKRAMDKGLAEVHFHHLRDWAVNKHRQIDDEPYGGGAGMVMMVEPLDKCISELKSQRNYDEVIYLTPDGVTLNQKIANTLSIRENLIFLCGHYKGIDQRVRDLHITKEISIGDYVLTGGELAACVLADSVIRLLPGVLNDEQSALTDSFQDDLLSPPIYTRPESYKGLEVPKVLLSGNFGKIEEWRHDEAVRITKEKRPDLLE	PGPT0007595_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS003_04295	1263		COG1252	NADH dehydrogenase-like protein	ATGGAAACACGCGAAAAAATCATCATTATTGGAGGAGGATTTGCGGGGCTGCAGCTTGCAAAAACATTGAATAACAAAAATAAAAAGGTTATTGTTTTGGATCGGATGAACCACCATATGTTCCAGCCGCTTTTTTATCAGGTAGCTTCAGGGAGGATTGAACCTTCCAACATTTCTTTCCCTTTCAGGAAGATTTTTCAGCAGTCCAGAAACACACAGTTTCGTATGACAGAGGTTAAAGAAATAGACCCTGCCAACAATAAAGTCATTACAGACGAGGCAGAATTTACTTACGATAAACTCATCATTGCTACAGGTTGTAAAACTAACTTTTTCGGAAACAAAGATCTTGAAGGAAAAGCTTTCGGGATGAAAAATACCCAGGAAGCCATCAGTATCAGAAATCATGTGCTGATGACCTTTGAAAAACTCATCATTGAAAAAAGCAGAAGCGATGACGGAAACTGGAATATCGTTATCGTGGGAAGCGGCCCTACCGGAGTAGAACTGGCAGGTGCTTTTGCAGAAATGAAGAAAGATATTCTTCCAAGAGATTATCCTTACATGAATTTTGATCATCTGAAGATTATTCTTGTAAGCTCTACAGAAAAACCACTTGCGGTAATGAGCAGTGAAGCTCAGGAAAAATCGGAGAACTATCTTAAAGACCTTGGGGTAACTTTTATGAGTGGAGAAGTAGTGACAGATTATGACGGAGATATCGTTCATTTGAAAAGTGGAAAAGAGATTCCGTCCAATAACGTCATCTGGGCAGCAGGAGTTACAGGAAATGTAGTAGGAGGATTTCCGGAAGAAAAATTAGTGAGAAACAGATATATTGTAGATAGATATAATAAAGTACAGGGTTACGATAATATTTATGCCATTGGGGATATTGCCTATATGGAAACACCTAAATATCCGCATGGTCATCCACAGGTAGCAAACGTAGCCATTAACCAGGCAAAAAATTTAGGTAAGAATCTATTAAAGAAGACTCAGAGTGAATGGAAAGAATATGAATATGATGATAAAGGTTCACTGGCAACGATAGGGAAGCACAGAGCCGTTGTTGATCTCCCATTTATAAAATTCCAGGGATTTTTTGCGTGGTATTTCTGGATGTTTCTCCATTTAATGCTAATTTTGAGCGTTAGAAATAAACTGGCCATATTCTTCAACTGGATGTGGAGCTATATCAACAAAGACTCTTCTTTAAGATTAATTATTATACCTACTAAGAAAAACGGAACATTACAATGA	METREKIIIIGGGFAGLQLAKTLNNKNKKVIVLDRMNHHMFQPLFYQVASGRIEPSNISFPFRKIFQQSRNTQFRMTEVKEIDPANNKVITDEAEFTYDKLIIATGCKTNFFGNKDLEGKAFGMKNTQEAISIRNHVLMTFEKLIIEKSRSDDGNWNIVIVGSGPTGVELAGAFAEMKKDILPRDYPYMNFDHLKIILVSSTEKPLAVMSSEAQEKSENYLKDLGVTFMSGEVVTDYDGDIVHLKSGKEIPSNNVIWAAGVTGNVVGGFPEEKLVRNRYIVDRYNKVQGYDNIYAIGDIAYMETPKYPHGHPQVANVAINQAKNLGKNLLKKTQSEWKEYEYDDKGSLATIGKHRAVVDLPFIKFQGFFAWYFWMFLHLMLILSVRNKLAIFFNWMWSYINKDSSLRLIIIPTKKNGTLQ	PGPT0004020_3953	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
BMS003_04296	864			hypothetical protein	ATGACACCGAAAAAGTACACCAAAAAAACTGCCAAACAAATCCATAAATCCCGACGGAAGAAGTATTTTTTCCGAAGATGGGTGATATTGGCAATATTAATGATAGCATTGGTAGGAACAGGACTTTATTTAAAACAGTCTGTCAGCTACTATTACGCACTGTACTTTAATAAATTCAAACATAAAAAACTTCACAATAGCGAAAAGGAATCATTAAGAATACAGAGAATACTAAGCAGTAATCTTGATAAAACCTATGGTTTTGATGTTTCTCATTATCAGAATAAGGAAGATATCAAATGGGATAGCCTGAGCATTGGTAATAAAACAATTCCCTTAGAATTTGTAGTGATGCGTGCTACCATGGGAAACAGAAGCGCCGACAAGCATTTTGATGAATTTTGGGAAAGTGCCAAAAAACATGATCTTATCCGTGGTGCCTACCATTTTTACAGAGCCGATGAAGACCCTATAATTCAGGCTAATAATTTTTTAGAGAATGTAAAACTTGAAAGTGGAGATCTTCCTCCGATTCTTGATATTGAAAAAATCCCCAAGCGCAAGACCAATAAAAAACTGGTTGAAGATCTTAAAATATGGTGCAAAATTATAGAAGACACTTATGGTGAAAAACCTATCATCTACACATACTATCATTATTATAAAGACTTCCTGAAAGGTGAATTTGACGGCTATCCGCTATGGCTTGCCAATTATAATGATGTGCCTTCACCTTCTCCTGATGACCGGTGGGACTTCTGGCAGTTTACGGAAAATGGAATTGTACATGGTATCAATGCCAAAGTGGACCTTGACATTTACAATGGAAATTCCTGGTCATTGAAAAGACTGACACTGGATTAG	MTPKKYTKKTAKQIHKSRRKKYFFRRWVILAILMIALVGTGLYLKQSVSYYYALYFNKFKHKKLHNSEKESLRIQRILSSNLDKTYGFDVSHYQNKEDIKWDSLSIGNKTIPLEFVVMRATMGNRSADKHFDEFWESAKKHDLIRGAYHFYRADEDPIIQANNFLENVKLESGDLPPILDIEKIPKRKTNKKLVEDLKIWCKIIEDTYGEKPIIYTYYHYYKDFLKGEFDGYPLWLANYNDVPSPSPDDRWDFWQFTENGIVHGINAKVDLDIYNGNSWSLKRLTLD	PGPT0019160_759	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
BMS003_04297	513		COG4502	Putative 5'(3')-deoxyribonucleotidase	ATGAAAAAAGTTATTGTCGACATGGATGGGGTAATGGCAGATGTATATCATCAGCTGGTACAATTTGAAAAAAGAGATACAGGAAGAGAAATTGAAATCAGTGATTTGGCAGGTAAGCCTGAAATAGAATCTTTTCCCAACGGAAAAAAACATGTGAATGAGGTAGGATTTTTCAGAACCTTACCATTGATGAAAGGTAGCCGTGAAGCTATGGAATATCTGAATAACAAATACGATCTTTATATCGTATCTGCAGGAATGGAGTTTCCGAACAGTTTAAGAGAAAAATACGACTGGCTGGCAGAGCATTTTCCGTTCATCACCTGGGAACAGATTGTTCTTTGCGGAAGTAAAAAAGTAGTGGCAGGAGATGTGATGATTGACGATTATCCTAAAAACTTAGACCATTTTGACGGTCAGAGGCTCATATTCACTCAACCTCATAATGAGTTTATCGAAAACGAAACTTACGAAAGAGTTCATTCCTGGGAAGAAGTGATGAATATCCTTTAA	MKKVIVDMDGVMADVYHQLVQFEKRDTGREIEISDLAGKPEIESFPNGKKHVNEVGFFRTLPLMKGSREAMEYLNNKYDLYIVSAGMEFPNSLREKYDWLAEHFPFITWEQIVLCGSKKVVAGDVMIDDYPKNLDHFDGQRLIFTQPHNEFIENETYERVHSWEEVMNIL	PGPT0013395_3721	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081	NA	NA
BMS003_04298	1893	ettA	COG0488	Energy-dependent translational throttle protein EttA	ATGAATTACGTTTCTGCAGAAAATCTTACCAAATCTTACGGCATCAAAGTTTTGTTTGAAAACATTTCTTTCCACATCAATGAAGGAGATAAAATAGCTATTGTTGCCAAAAACGGAAGTGGAAAATCTACTCTTCTGAAAATATTAATGGGTAAAGAAATTGCAGACAGCGGAACTGTGATCATCAATAAAGATATTCAGGTAGTGTTATTTGATCAGGAAATAGCCTATGATCCTACACTGAGCATTGAGGAATTTATGATGACCCTGGATTCTGAGCCCATTCTTGCGCTTAAGAATTACCATAAATCCCTTCATTCTACAGATCATGATTTTATTGAAAAGGCTTTGGCTGATATGGAAGTTCATAAAGCCTGGGATCTGGAAAATGAAATGAAACAAATTCTTTCCCAGCTTAAAATTACTGACCTGGAAGCCAAAATGGGAACTCTTTCCGGAGGGCAGATCAAACGTGTAGCTCTGGCAAAACTTTTAACGGAAACAAGAGCGGAACACAGACATACTCTTCTCATCATGGATGAACCTACCAACCACCTGGATGTGGATATGGTAGAATGGCTTGAAAACTATCTGAACAAAGCAAAAATCACTTTACTGCTTGTAACCCACGACCGATATTTTCTGGACAGTGTTTGTGATATTATCTGGGAAATGGAAGATAAAAATCTGTATGTTCATAACGGTTCTTATGCAACTTACCTTGAGAATAAAATGATCCGTGAGGAAAATCTTAATGCTACTATTGATAAAGCCAACAATCTCTACAGAAAGGAACTGGAATGGATGCGAAGACAGCCCAAAGCCAGAACTACAAAATCAAAAAGCAGAATTGATGCCTTCTACGAAACAGAAAAGGTAGCCAAAACTGATACCAGAAAAGATGCTCTGGAACTTGATTTTGAGATGAAACGTCTGGGAAATAAGATCCTTGAACTGAAAAACATTGATAAAAGCTTTGGTTCTAAAGTCCTTTTAAAAGATTTCAGCTACCAGTTTCAGCGTGGTGAAAAAGTAGGAATCATTGGAAAAAACGGAGCAGGAAAATCAACCCTTCTTAATATCATCCAAGGTTTTGAAAAGGCTGACAAGGGAGAGATTGAAACAGGAGAAACCATATCTTTCGGGTATTTCGCTCAGAAAGGTCTTACTTATAAAGAGGATGAACGTGTTATCGATTTTATTAAAGAGATTGCAGAATTTTATCCTTTAGCCAATGGAAGAAGTCTTTCTGCATCACAGTTCCTAAGATTATTCTTATTTGATGATCAGACGCAGTACTCTCCTATTTCTAAACTTTCCGGTGGTGAAAAGAGAAGACTTCACCTGATGTATATTCTGTATCAGAATCCTAATTTCCTGATTTTTGATGAACCTACAAACGACCTGGATCTTCCTACTCTAACAGTTCTTGAAAACTTCTTACAGCAATTCCAGGGATCTTTAATTATTGTTTCCCACGACAGATATTTCATGGACAGAATTGTAGATCATGTTCTGGCTTTTGAAGGAGAGGGAAAAATCAGAGATTTTGTAGGAAATTTCTCAGAATACAGAGAAGCCAGAAGCCGTGAAGAGGCAATAGAAAAAAATACAGCGGTAAAACCTGAACCGGCTAAGGAGGTTACTTCCGCAGTAGAAAATAACTCATCTTCCAATGCTAAACGAAAATTAACATTCAAAGAGCAAAGAGAACTGGAAACTATTGAAAAGGAAATGCCTGAATTAGAAGATCAGCGTTCCAAGATTCTTGATCAGCTTAACAATGAATCTGATTATGAAAAGATTGCCAAACTTTCTTCGGAACTCGAAACTGTTTCAGAAAAACTGGAGAACCATGAAATGAGATGGCTGGAACTTCAGGAAATTCTTTAA	MNYVSAENLTKSYGIKVLFENISFHINEGDKIAIVAKNGSGKSTLLKILMGKEIADSGTVIINKDIQVVLFDQEIAYDPTLSIEEFMMTLDSEPILALKNYHKSLHSTDHDFIEKALADMEVHKAWDLENEMKQILSQLKITDLEAKMGTLSGGQIKRVALAKLLTETRAEHRHTLLIMDEPTNHLDVDMVEWLENYLNKAKITLLLVTHDRYFLDSVCDIIWEMEDKNLYVHNGSYATYLENKMIREENLNATIDKANNLYRKELEWMRRQPKARTTKSKSRIDAFYETEKVAKTDTRKDALELDFEMKRLGNKILELKNIDKSFGSKVLLKDFSYQFQRGEKVGIIGKNGAGKSTLLNIIQGFEKADKGEIETGETISFGYFAQKGLTYKEDERVIDFIKEIAEFYPLANGRSLSASQFLRLFLFDDQTQYSPISKLSGGEKRRLHLMYILYQNPNFLIFDEPTNDLDLPTLTVLENFLQQFQGSLIIVSHDRYFMDRIVDHVLAFEGEGKIRDFVGNFSEYREARSREEAIEKNTAVKPEPAKEVTSAVENNSSSNAKRKLTFKEQRELETIEKEMPELEDQRSKILDQLNNESDYEKIAKLSSELETVSEKLENHEMRWLELQEIL				NA	NA	NA	NA	NA
BMS003_04299	1056	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGCAATTGGTAAAAGCAGGGCTTTGTGCCTTCGGAATGAGCGGAAAAGTATTCCATGCTCCCTTTTTAAAGGAGCATCCGGGATTTTTTATTTCTGCCGTGGTGGAAAGAAGTAAGGAAGAGTCTAAGGAAAAATATCCTGAAGCTACAATCTTCCGTTCTGTGGAAGAAATGCTTCAGCATGCAGATGTGGAACTGGTAATTATCAATACTCCGGTTCAGACGCATTATGAATATGGAAAAAAAGCATTGGAAGCAGGAAAAAATATTATTGTGGAGAAACCTTTTACAGTAAATGTTTCCGAAGCAGAAGAACTGGTGCAACTGGCCAAAGAAAAAGGATTGTTTCTGAGTGTGTATCAAAACCGAAGATTCGACCGTGATTTTCTGCAGGTTCAAAAGATTTTAAACGACCCAAAAATAGGAAACGTTAAAGAAGCTGAAATTCGTTTCGACAGATTCCGTACTACGCCAAGTGGAAAACAGCATAAGGAAAGCCCGGATCAGGTAGGTTCAGGGTCACTTCATGATTTGGGAGCGCACCTTGTAGATCAGGCAGTGCAGTATTTTGGATATCCAGAAAAACTTTTTGCAGATGTCTTTTCTATGAAAGGGGCTGAGTTTGCCAACGATTATTTTGAAATACTGCTATTCTATAAAAATAACCTGAGAGTAAGACTGAAATCGTCTGTTTTCAGTAAAGAAGGTCACTATGCTTATACAATTCATGGAGACAGAGGAACTTTCTTACAGGAAAGAACCGATAATCAGGAAAATGAACTGGTAGCAGGTGCTGTTCCTGAATATGGTAAAGAATGGACACAACCTTTGAAAGAAACAGACGGTATTTTAAATTTTATGAATGAAAGCTCCGGAACGGAAAGAATTCTGACTTCCAGTGATGCCGGAAATTATATGGATTATTACCAGAAGATCTATGAACACATTGTTTTCGGATATGCACTGCCATCTCCGGGAAGTGAAGTTATTCAGAATATGAAAATCATTGATGCTTCACTGGAAAGCGCAAAACAAGAAAAGATCATTCAATTATAG	MQLVKAGLCAFGMSGKVFHAPFLKEHPGFFISAVVERSKEESKEKYPEATIFRSVEEMLQHADVELVIINTPVQTHYEYGKKALEAGKNIIVEKPFTVNVSEAEELVQLAKEKGLFLSVYQNRRFDRDFLQVQKILNDPKIGNVKEAEIRFDRFRTTPSGKQHKESPDQVGSGSLHDLGAHLVDQAVQYFGYPEKLFADVFSMKGAEFANDYFEILLFYKNNLRVRLKSSVFSKEGHYAYTIHGDRGTFLQERTDNQENELVAGAVPEYGKEWTQPLKETDGILNFMNESSGTERILTSSDAGNYMDYYQKIYEHIVFGYALPSPGSEVIQNMKIIDASLESAKQEKIIQL	PGPT0018530_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018530-iolW-K16044	NA	NA
BMS003_04300	2535	clpC		ATP-dependent Clp protease ATP-binding subunit ClpC	ATGGATTATAAGTTTTCACAAGGTTTGAGCCAGGTGTTCAAACAAAGCAAAAGCGAAGCTAAAAGGCTGAAAAGTGAATTTCTTAATACAGAACATCTACTTTTAGGTATTATAAAAACGGAAAACTCTGCAAAAGAAATCCTTCAAAACCTTAATGCGGATTTAACACAAATCAGAAGAAAAATTGAAACTTTAAATACAACAAGTCTTAATCCTATTTCTGAAGAGGTTACCAATATTTCTTTCACCAAGATGGCAGATCATGCCATTAAACGTGCAGAGTTAGAATGCCGTCAATATAAAAGCAATGAAATTAATACCGTTCACCTGCTTTTAGGTATTCTTTATAAATATGAGGATCCCACTTCAAATATTCTGGGAGCTTACGACATCGACTACGAAGGAGTTTCAAGAGAATACCAGACTATGCTTAAAAATTCAGGCCAATCTCCTCAGATGAGTGCCTATGATGACGATGATGAGAGAGAAGAATTTGAGCAAATGAGAAAGCCTACAGGAAATTTAGGTTCTGCAAAAAGTAAAACGCCAACATTGGATAACTTTGGTAGAGACCTTACTTCTTTGGCCAGAGATGGAAAGCTGGATCCGGTAATAGGGCGTGAAAAAGAAATTGAGAGAGTTTCTCAGATCTTATCACGCAGAAAGAAAAACAACCCGCTTCTTATCGGGGAGCCGGGAGTTGGTAAATCTGCCATTGCTGAAGGGTTAGCATTAAGAATTCAACAGAAAAAAGTATCCAGAGTTCTTTACGGAAAACGAGTGATCACTTTAGATCTGGCAAGTTTAGTTGCCGGAACAAAGTACCGTGGTCAGTTTGAAGAAAGAATGAAGGCGATTATGACGGAACTGGAGAAAAACAGAGATGTCATCTTATTCATTGATGAGCTTCATACGATTGTAGGAGCGGGAAGCTCCACGGGAAGTTTAGACGCTTCCAACATGTTCAAACCGGCTTTGGCAAGGGGTGAAATTCAATGCATCGGGGCAACTACCCTGGATGAATACCGTCAGTATATTGAAAAAGACGGAGCTTTAGAAAGAAGATTCCAGAAAGTAATGGTGGAACCTACTTCTATTGATGAAACTGTTCAAATCTTGAATCAGATCAAAGATAAGTATGAAGAACATCATAATGTAATTTATACTCCGGAAGCAATTCTGGCTTGTGTCAATTTGACATCGAGATACATTACAGACCGTTTCTTACCGGATAAAGCGATTGATGCTATGGATGAAGCCGGATCCCGTGTTTATATCAAAAACATGAAAGTTCCTACAGAAATCATTGATTTTGAAAAGAAAATCGAGGATATCAAAGAACTGAAGCAGAAAGCTGTAAAAGCTCAGGATTATCTCGAAGCAAGAAAACTGAAAGATGAAGAAGAACGCCTTCAGATGGAACTGAATGCTGCTCAGGAAAAATGGGATAAGGATGTAAAAGAGAAAAAAGAAACCGTAACGGAAGAAAATGTAGCGGAAGTGGTTTCTATGATGAGCGGTGTTCCGGTAACGAAAGTTGGTAAGAACGAGCTTGACAAACTTGCCCAAATGGACGAAAAGCTTAACGGAAAAGTGATTGGTCAGGAAGATGCTGTGAAGAAAGTCGTTAAAGCTATTCAAAGAAACAGAGCGGGTCTTAAAGATCCTAACCGCCCAATTGGTACCTTCATATTCCTTGGAACAACCGGGGTTGGTAAAACAGAATTGGCAAAAGTAATGGCAAGAGAACTGTTCGAGTCTGATGAATCTCTGATCAGAATTGATATGAGCGAATACATGGAAAAATTTGCTGTTTCAAGATTGGTTGGTGCGCCTCCGGGATATGTAGGATATGAAGAAGGTGGTCAGCTAACGGAAGCTGTAAGAAGAAAACCTTATGCGGTGGTTCTTTTGGATGAGATTGAAAAAGCCCACCCGGATGTATTCAACATTCTGTTACAGATTTTGGATGAAGGACACGTTACAGACAGCTTAGGAAGAAAGATTGACTTTAGAAATACCATCATTATCCTGACTTCAAACATCGGAACAAGAGATCTTAAAGATTTCGGGGACGGTGTAGGATTCGGAACTTCTGCTAAGAAAACCACTTCAGATTCAAGAGCGAGAAGTACTATTGAAAATGCCCTTAAAAAAGCATTTGCTCCGGAATTCTTAAACAGAATTGATGATATTGTAATCTTCAACTCTCTTGTACAGGATGATATCAAGAAAATTATTGATATTGAACTGAACAAACTGTATGGCAGACTTGAAAAATTAGGATATAAAGTAGATCTTACAGAAGAAGCGAAAGACTTTATTTCCGAAAAAGGATGGGATAAAGATTTCGGCGCAAGACCGTTGAAACGTGCGATCCAGAAATATATTGAAGATTTATTGGCAGAAATGCTGGTAAACAAACAATTGAATGAAGGAGAAACCGTAGTTCTTGACCTTAATGAAACAAAAGACGGATTGATCGGGAAAACTCAGAAAGCTAAGAAATCAGCTGAAAAGTCTTCTCAGTCTTAA	MDYKFSQGLSQVFKQSKSEAKRLKSEFLNTEHLLLGIIKTENSAKEILQNLNADLTQIRRKIETLNTTSLNPISEEVTNISFTKMADHAIKRAELECRQYKSNEINTVHLLLGILYKYEDPTSNILGAYDIDYEGVSREYQTMLKNSGQSPQMSAYDDDDEREEFEQMRKPTGNLGSAKSKTPTLDNFGRDLTSLARDGKLDPVIGREKEIERVSQILSRRKKNNPLLIGEPGVGKSAIAEGLALRIQQKKVSRVLYGKRVITLDLASLVAGTKYRGQFEERMKAIMTELEKNRDVILFIDELHTIVGAGSSTGSLDASNMFKPALARGEIQCIGATTLDEYRQYIEKDGALERRFQKVMVEPTSIDETVQILNQIKDKYEEHHNVIYTPEAILACVNLTSRYITDRFLPDKAIDAMDEAGSRVYIKNMKVPTEIIDFEKKIEDIKELKQKAVKAQDYLEARKLKDEEERLQMELNAAQEKWDKDVKEKKETVTEENVAEVVSMMSGVPVTKVGKNELDKLAQMDEKLNGKVIGQEDAVKKVVKAIQRNRAGLKDPNRPIGTFIFLGTTGVGKTELAKVMARELFESDESLIRIDMSEYMEKFAVSRLVGAPPGYVGYEEGGQLTEAVRRKPYAVVLLDEIEKAHPDVFNILLQILDEGHVTDSLGRKIDFRNTIIILTSNIGTRDLKDFGDGVGFGTSAKKTTSDSRARSTIENALKKAFAPEFLNRIDDIVIFNSLVQDDIKKIIDIELNKLYGRLEKLGYKVDLTEEAKDFISEKGWDKDFGARPLKRAIQKYIEDLLAEMLVNKQLNEGETVVLDLNETKDGLIGKTQKAKKSAEKSSQS	PGPT0014585_1332	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
BMS003_04301	225			hypothetical protein	ATGAATACGGAAATTACTACTTACATCGGTTATTCTGCTTCTCTTTTTATTGTATTGAGTTTCATACTGAAAGATGTAAAAAAAATCAGAGTGGTTAACATGATTGGCTGTATTTGTTTTGTCATTTATGGTATCTTTAATGGAATGCTTTGGCCTGTTATCATTCCCAACGGACTTATTTGTTTCATTCAGATCTATTATTTAATACTACACAAGAAAGATTGA	MNTEITTYIGYSASLFIVLSFILKDVKKIRVVNMIGCICFVIYGIFNGMLWPVIIPNGLICFIQIYYLILHKKD				NA	NA	NA	NA	NA
BMS003_04302	1095			hypothetical protein	ATGAAGAAAAAAGTAATAGTATCTGCCTTTAGTAATCTGTATACCGATCAGAGAATAGAAAAGGTATGCAAAACTCTTTTTGACAACGGATATCCTATAGAGCTGATCGGGAATGATTGGGAAGGAAACGAGAAAATGGAACGTCCTTATTCTTTTTCCAGAATAGGGTTAAAGTCAAAAAGCCTAAAGACTGCTTATTTTGAGTTCAACTGGAAATTATACAAAGAACTGAAGAAAAAAGCGGACAAAGATACTATCCTTCATGCCAATGATATTGACGCACTTCTGCCAAATTATCTTATTGCCAGAAAGCTGAATATTCCTTTGGTCTTTGACAGCCATGAAATTTTTACGGAAATGCCATCGGTACAAAACCGCTTTTCACAGAAATTCTGGAGAATAATTGAGAGAAATCTTGTTCCTCATGTGAAATTTATGATGACGGAAAGTGAAAGCTATGCAGAATGGTTTCATGAAAAATACAATGTAAACCCGGTAGTTGTCAGAAATATTCCAAGAAAAATACCCTATGCTCCGGAAATTCCGGACAATCAACCGAAAATTATTTTGTATCAGGGTGCAATCAATCAGTCCAGAGGAATTGAGAAAATGATTGTTTCCATGCATCATATTAAAAATGCAGTTCTGAAAATTGCCGGTGACGGACCAAAGAAAAAAGAATATGAAGAGCTTGTTATTCAGGAAAAGCTTCAGGATAAAGTTTTTTTCTTAGGTAAACTGAAACCGGAGAACCTCAGAGAAATTACCAAAACAGCTGATGTAGGGTTCAGCCTTGAAGAGAATAACGGAGTGAGCTATTATTATTCTCTTCCTAATAAAGTTTGCGATTATATTCAGAGCAGGGTTCCGCTTGTGATGATTAATTTCCCGGAGATGCAACGGATCAGAAATCAGTTTAATGTAGGAGAAATTATTAAGGATCATCAGCCTGAAACTATTGAGAAAGCCATTAATCTTGTCCTTGAGAGGGGAAGGCTTCATTATCAGAGTGAATTGAATAAGGCTGCAGATGTATTTTGCTGGGAGAATGAGGAAACAAAAATACTGAAGCTTTTTGAAAAAGCATCCCATTAA	MKKKVIVSAFSNLYTDQRIEKVCKTLFDNGYPIELIGNDWEGNEKMERPYSFSRIGLKSKSLKTAYFEFNWKLYKELKKKADKDTILHANDIDALLPNYLIARKLNIPLVFDSHEIFTEMPSVQNRFSQKFWRIIERNLVPHVKFMMTESESYAEWFHEKYNVNPVVVRNIPRKIPYAPEIPDNQPKIILYQGAINQSRGIEKMIVSMHHIKNAVLKIAGDGPKKKEYEELVIQEKLQDKVFFLGKLKPENLREITKTADVGFSLEENNGVSYYYSLPNKVCDYIQSRVPLVMINFPEMQRIRNQFNVGEIIKDHQPETIEKAINLVLERGRLHYQSELNKAADVFCWENEETKILKLFEKASH				NA	NA	NA	NA	NA
BMS003_04303	420	sufE	COG2166	Cysteine desulfuration protein SufE	ATGACCATTAAAGAAAAACAGCAGGAAATAATAGACGAATTCGCTTTTCTTGAAGACTGGGAGCAAAAGTACGAGTATATCATTGATCTCGGAAAAGAGCTGAAGGGCTTAGCGGAAGAAAGAAAGACGGAAGAAAATCTGATTAAAGGCTGCCAGAGCAAAGTTTGGATTGATGCCGAATTTAAAGAGGGTAAGCTTTTCTTTAATGCTGATTCTGATGGTATTCTGCCAAAAGGGATCGTTTCTCTTTTAGTAAGTATTTATAGCGGACATTCCACTCAGGAAATTCTGGATTCTGATTTCGATTTTATTGCTGAAATAGGATTACAGGAATTTCTTTCCCCGTCCAGAGCTAACGGACTGATGGCGATGACGAAACAGATTAAGTTTTATGCAGTTGCTTATCAACTGAAATCATAA	MTIKEKQQEIIDEFAFLEDWEQKYEYIIDLGKELKGLAEERKTEENLIKGCQSKVWIDAEFKEGKLFFNADSDGILPKGIVSLLVSIYSGHSTQEILDSDFDFIAEIGLQEFLSPSRANGLMAMTKQIKFYAVAYQLKS				NA	NA	NA	NA	NA
BMS003_04304	972			hypothetical protein	GTGACCAGAATTTTAGCATATCGTTTTTCCGCATTCGGAGATGTTGCAATGACGGTGCCTGTTTTCAGAGAGTTTCTGGAGCAGAACCCAGGTGTGGAAATTATTATGGTCTCCAGGAAAAATTTTGAAGCCTTGTTTGCCGGAATTCCTAATGTGACCTTTAAAGGAATTGATCTGGATGATTATAAAGGTCTTTTTGGACTGAGGAAACTTAGCAATGAGCTGATCCGGGAGTTTAATCCGGATTGTATTGCCAATCTCCATGATGTAATCCGGACCAAAATTTTAGACAGAATATACAAACGGAAAGGATTTAACGTTTTCAAAATTGATAAAGGCAAAGAAGAGAAAGAACATCTTACGGATATCTGGAATCTGGAAAAAATGCAGCTGAAAAAAACAGTGGAACGTTACGCTGATGTCTTTCGTAAGATGGGATTCAAAGTAGAGCTTTCTCATCAATTAAGACCGCTTTCCGGGCATAAATCAGGCATAGGGTTCGCTCCTTTTGCCCAGCATAAAGGGAAAATGCTTCCTTTGGATAAATCTTATGAACTGGTAAGGATTCTGGCTCAGAAACATACTATATATTTCTTTGGAGGAGGTAAAAAAGAAAAAGAAATGCTGGAAAAGTGGGAACGTGAAATTCCTAATACAAAAAACCTTGCCGGAACATTAAATCTTACGGAAGAACTGAATTATATTGCCGGGCTGGAACTGATGATCTCTATGGATTCTGCAAATATGCATCTTGCAAGCCTTGTAGGGACAAGATGTGTTTCTATTTGGGGAGCAACTCACCCTTATGCCGGATTTTTAGGATTCGGGCAAAGTGAGGAAGATGTTGTTCAGGTAAAAGATCTCAGCTGCAGGCCATGCTCTGTTTTTGGAGATAAAGAATGTTACAGGGGAGACTGGGCTTGTCTTGAGGAATTTAAGATTCAGGAGGTGATAGATAGGGTTAATTTTTAA	MTRILAYRFSAFGDVAMTVPVFREFLEQNPGVEIIMVSRKNFEALFAGIPNVTFKGIDLDDYKGLFGLRKLSNELIREFNPDCIANLHDVIRTKILDRIYKRKGFNVFKIDKGKEEKEHLTDIWNLEKMQLKKTVERYADVFRKMGFKVELSHQLRPLSGHKSGIGFAPFAQHKGKMLPLDKSYELVRILAQKHTIYFFGGGKKEKEMLEKWEREIPNTKNLAGTLNLTEELNYIAGLELMISMDSANMHLASLVGTRCVSIWGATHPYAGFLGFGQSEEDVVQVKDLSCRPCSVFGDKECYRGDWACLEEFKIQEVIDRVNF				NA	NA	NA	NA	NA
BMS003_04305	1122			hypothetical protein	GTGAAGCAGCTCCATCTCATATCATTCAATTATCCCTACCCTCCTTCTTACGGTGGAATTATTGACGTGTATTATAAGATTAAAGCTTTGTCTGATCTCGGGATAAAAATTCACCTTCACTGTTTTACAGATCAGATTCCTGAAAAGATTGATCCGGAAGTTAAAGAGATTACAGAAAATGTTTTTTTTTATAAAAAGAAAAAGAATCCACTGCTCTATTTTTCAGGAACACCTTTCGCGGCTGTCATTAGAGATTCTGAGGCTCTTGTTAAAAATATTGAAAAGAATAAAGTCCCGATCTTGTTCGAAGGCTTACAGACAACGCATATTATAAAGTTTCTGACAGACAGCAATCACCAGCTCTACCTCCGTTACCACAATAATGAAACAGAATATTATAAAGGACTTTCTTTATCAGAAAAAAACATATTCAAAAAGATTATTTACAAGATTGAATCTTTAAAGTACACAAGATATCAGAAAAAATTTTTAAAGAAATTTGAAGCCATATTCTGTCTGTCTGAAAAGGAATATAAAGAAGTAAAAACTTATTCGGGAAACGCACAGCTGATTCACATTTTTCATGGTAATCAGTCGGTAAAACAACTGGATAAAAAAGGAAATTATTTTCTTTTCCATGGAGATCTTACCACAGCAGACAACAAAAGGGCACTGAATGAAGTTATTGATCTATTTAAAACGCTTCCACACTATAAATTAGTAGTTGCCTCCGACCGTGCCAGCGAAGAAATTAAAAGAAAAATTTCAGAAATTGAGAATATCAGCCTCACTCCTATCCAGACTACTGAGAAGCTGCATAGCCTCCTGGAAAATGCCCATGCCAATATCTTGATTTCCTATCAGAATTCAGGAACCAAAGTGAAGCTGTTCAATACCCTTTATAACAGTCGTTTTGTAATTATCAGCAAAAACATTACAGACGATCCTGTTTTGACAGATTTATGCCTATACGGAGCTGATATGAGCGAAATCCGCCAGCAAATAATCACCTCAGCTGAAAAAGATTATCATGATGCTGAAAACAGAAAAAATATAATAGAAAATACCCATTCAGATCAAACTAAAGCAGAAGAAATGGTAAAGGTTATTTTTAAAAATTAA	MKQLHLISFNYPYPPSYGGIIDVYYKIKALSDLGIKIHLHCFTDQIPEKIDPEVKEITENVFFYKKKKNPLLYFSGTPFAAVIRDSEALVKNIEKNKVPILFEGLQTTHIIKFLTDSNHQLYLRYHNNETEYYKGLSLSEKNIFKKIIYKIESLKYTRYQKKFLKKFEAIFCLSEKEYKEVKTYSGNAQLIHIFHGNQSVKQLDKKGNYFLFHGDLTTADNKRALNEVIDLFKTLPHYKLVVASDRASEEIKRKISEIENISLTPIQTTEKLHSLLENAHANILISYQNSGTKVKLFNTLYNSRFVIISKNITDDPVLTDLCLYGADMSEIRQQIITSAEKDYHDAENRKNIIENTHSDQTKAEEMVKVIFKN				NA	NA	NA	NA	NA
BMS003_04308	1245	fpgS		Folylpolyglutamate synthase	ATGACAAATGAACAATATCAGGAAGCTATTGACTGGCTTTTCGTACAGATACCCAACTACCAAATAGATGGGCAGAAGGCTTATAAACCGGGGCTTGACAATATTATAAAGCTTTGTGCTTTCTTTGGAAACCCTCAGGAAAAAATAAAATGCATTCACATCGGGGGCACCAACGGAAAAGGATCTTCAAGCAATATGCTGGCATCCGTGCTTCAGGAAGCAGGCTATAAAATAGGTTTGTACAATTCTCCCCACCTTATAGATTTTACAGAGCGTATCAAGGTCAATGGCAAAAACTGTAATAAAGAGTTTGTCTTTAATTTTATTCAAAAGCTGAGATCCCTTCCAGAAGATATCCGTCCTTCTTTCTTTGAATTTACCACCATTATGGCTTTTGAATACTTTTATCAGCAGCAGGTAGATTTTGCCATTATTGAAGTAGGACTGGGGGGCAGACTGGATTCTACCAATATTATTAAGCCTTTAATTTCTGCCATTACCAATGTTCAGCTGGATCATCAGAATATTCTGGGAGATACCATTGAAGAAATTGCCACCGAAAAAGCAGGAATCATTAAAAACAACATCCCTATTATTTCCGGTGATGAAAATGATGCCGTTAAAAAGATCATCAGAGAGAAAGCCCACAAAGAGAACTCTCCATTTATAGATGCTACGCTTATTAATACCAATCTGGAGTCTGATTTGAAAGGAAATTATCAGAAAAAGAACATCAGGGTAGTGCTGGCTGTGGTGGAAGAATTAAGAAAACTGGACGTTTTTATTTCAAATGAAGCTCTTAAAAACGGGCTCCTTCATGTTCATCAGAATACAGGATTTATTGGCCGTTGGTTTGAATTTTCAAAAAATCCGCTTACCATTTGTGATACGGGACATAATCAGGCAGGATTGGAGCATGTTTTTTCACAATTAAATGCAATTAACCGCCACAAGCATGTCATTTTGGGATTTGTAAATGACAAAAAAATAGATGATGTGATGAAATTACTTCCCGGAAATTCTGAGTTTTATTTTGCAAAACCATCCATCAATAGGGGAAGACACCCCCAAGATTATGAAAACCTTCTTCAGGAAGCGAAAATTTTTTATAAAATTTTTGATTCTGTACAGGAAGCGTATCTCACTGCAAAAGAACGATGTACAAACGAAGAAATGATTTTTATTGGCGGAAGCAACTTTGTAGTGGGAGATTTTTTAGAAAAAAATTTGGAGATTAAGGAATAA	MTNEQYQEAIDWLFVQIPNYQIDGQKAYKPGLDNIIKLCAFFGNPQEKIKCIHIGGTNGKGSSSNMLASVLQEAGYKIGLYNSPHLIDFTERIKVNGKNCNKEFVFNFIQKLRSLPEDIRPSFFEFTTIMAFEYFYQQQVDFAIIEVGLGGRLDSTNIIKPLISAITNVQLDHQNILGDTIEEIATEKAGIIKNNIPIISGDENDAVKKIIREKAHKENSPFIDATLINTNLESDLKGNYQKKNIRVVLAVVEELRKLDVFISNEALKNGLLHVHQNTGFIGRWFEFSKNPLTICDTGHNQAGLEHVFSQLNAINRHKHVILGFVNDKKIDDVMKLLPGNSEFYFAKPSINRGRHPQDYENLLQEAKIFYKIFDSVQEAYLTAKERCTNEEMIFIGGSNFVVGDFLEKNLEIKE	PGPT0007975_4617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
BMS003_04309	1323	bepC		Outer membrane efflux protein BepC	ATGAAAAAAGTTTGGATCATCGTTTTTGGATTAAGTTGTCTGGGTTTAAGCGCTCAGAAGAAATGGTCCTTAAAAGAATGTGTAAGCTATGCAGTGGAGCATAATCTTCAGGTTATCCAAAATCAGTATAACAAACAAAACCAGGAATACAATCTTAAGGCAGCCCAAAAAGAATATTTACCTTCTGTGTCGGGAAGTATGACGAATGGGGTGAGTTTCGGGCAAGGGTCATTAGGAGCCGGAAGCTTTAGAAACGATAGGTTCAATAATAGTATTGGTCTGGGTGCTGATATTTTGCTCTATAATAATGGAAGATTAGAGAAAAATGTAAGAAAAGCCCAGTTTGATGTAGAAGCAAGCCAATATGATATTGAAACCATTAAAAATGATATTTCTCTTCAGATCGCTCAACAATACCTGACTACTTTGTTGAATAAAGAGATTGTTAAAATCTCTCAGAGTGCCGTGGAAAATGCCCAGAAACAGTTTGACAGGGCTAAAATAACAACTCAGGTAGGAACAACTGCGCAGACGGTTCTGGCGGAGGCTGAAGCTGCACTGGCAAGAGAAAAACAGAACCTTAAAACTGCAGAAGTAAACGTTGGCCGCGCTTTGTTTGCCATCGTTCAGCTTTTACAGCTTTCAGATTATAAGGATTTTGATGTTGAAGATGTGAATATTCCGGAAAAGCTTGATTTACAGCTTGCTACTGCAGATGAAGTGCTTGCTACGGCATATGAGATACAACCTCAGATAAAAGCAGCGGAAAGCCGCATAAGATCTGCCGAAGCACAAACTGAGGTAAGCAAAACAGCATTCTGGCCTACATTAACAGCGAGTGCTGGTCTTAACACTTTCTATAACAGACAGTTTGATCCTATGCCCGGTGTTGTGCAGGGAAATTTTTTTGAACAATATAAGGATCAGTTCGGACAAAACGTAGGGTTGTCACTGAATATTCCTATCTTCAATAAAGGAAAAACAAAACTTCAGGTAGAACAGTCTAAAATAAATGAAAGTATTGCCAAGAATACGTTGGAACAGCAGAAACAGACGGTAAGACAAAATGTTCAGAAAGCTCAGTTTGATGCTGACGCCAACTATGAAAATTATCTAGCTGCAGTGGAAGCAGAAAAAAGCTCCAAACTGGCACTTGATTTTGCAGACAAAAGTTATGCTGCAGGAAGAACCACCATTTATGACGTAAACGTGGCAAGAAATAATTATGCAAATGCACAGGGATCAGTAGCGCAGGCAAAATATAATTATCTTTTTAGTCTTAAACTATTGAATTTCTATGCAGGAATTCCATTAAGTTTGTAA	MKKVWIIVFGLSCLGLSAQKKWSLKECVSYAVEHNLQVIQNQYNKQNQEYNLKAAQKEYLPSVSGSMTNGVSFGQGSLGAGSFRNDRFNNSIGLGADILLYNNGRLEKNVRKAQFDVEASQYDIETIKNDISLQIAQQYLTTLLNKEIVKISQSAVENAQKQFDRAKITTQVGTTAQTVLAEAEAALAREKQNLKTAEVNVGRALFAIVQLLQLSDYKDFDVEDVNIPEKLDLQLATADEVLATAYEIQPQIKAAESRIRSAEAQTEVSKTAFWPTLTASAGLNTFYNRQFDPMPGVVQGNFFEQYKDQFGQNVGLSLNIPIFNKGKTKLQVEQSKINESIAKNTLEQQKQTVRQNVQKAQFDADANYENYLAAVEAEKSSKLALDFADKSYAAGRTTIYDVNVARNNYANAQGSVAQAKYNYLFSLKLLNFYAGIPLSL	PGPT0003600_4013	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
BMS003_04310	591			hypothetical protein	ATGTCTATCCAATCATTAGAAAAATATTTACCTCAAAATACTCTTAAATATTTAAAAGTCTGGTTTTCAGGTTACTACATACATATAAAAGTTACAAGAAACAGAAATTCAAAACTGGGAGATTACAGAAAACTTCCGGACAATTCTCATGAAATTACGGTAAACTCTACGCTTACTCCACAGCTTTTTTTCTTTGTGCTGACTCATGAGCTGGCTCATTTGATTGCTTTTGAAAAATATGGAAGAAAAATTTCTCCTCATGGTCATGAGTGGAAGGAAACATTCAGAAATATGCTTCTTGAAAGCCTTGAAATTTATGATGAAGAACTAAAGCCCATCATTATAAAGTTTTCAAAATCACCCAAAGCCAATTTTATGGCCAGTCCGGATCTGGTGAGGTATTTTCATTCTGAAAAACAAGATGATACTCTTCATTTTATCGAAGATCTTAAGAAGGGAGAGTTCTTTATATACCGCAACGAAAAGTATTTATTAGAAGGTCTGGTTAAAAAAAACTATCTTTGTAAGAACCTGGCTACTGGAAGGAAGTATTCTTTCAAGCCATTAGCGAGGGTAGAAAAATGTAGCTAA	MSIQSLEKYLPQNTLKYLKVWFSGYYIHIKVTRNRNSKLGDYRKLPDNSHEITVNSTLTPQLFFFVLTHELAHLIAFEKYGRKISPHGHEWKETFRNMLLESLEIYDEELKPIIIKFSKSPKANFMASPDLVRYFHSEKQDDTLHFIEDLKKGEFFIYRNEKYLLEGLVKKNYLCKNLATGRKYSFKPLARVEKCS				NA	NA	NA	NA	NA
BMS003_04311	1083	manC1	COG0662	Mannose-1-phosphate guanylyltransferase 1	ATGTTAAAATCAGATAGATACTGTGTTATAATGGCGGGAGGAATTGGAAGCCGGTTCTGGCCGATGAGCACACAGAAATTTCCCAAACAGTTTCAGGATATTTTAGGGACTGGACGCACCATGATTCAGCAGACTTATGACAGAATCAGCAAGGTGATTCCCAGGGAGCAGATATTTGTGATTACGAATAAAGAATATGTAGCTCTTTCCCATCAGCAGCTTCCGGAACTTCCGGAAGAAAACATTGTAGGGGAACCGTTGATGAAAAATACAGCGGCATGTAATCTGTATATGGCCAACAAGATCGCTGAGATTAATCCGAACGCTACCATGATTGTGCTTCCGGCAGATCACCTGATCCTTAAAGAGAATGTGTTTTTGGAAAAAGTAGAGCTTGCATTTGAATTGGCCTCAAAACATGATTATCTGATAACATTGGGGATTACTCCCACAAGACCTGATACAGGCTACGGATACATTCAATTTGTTGAAAAGAAAGATTCTGAATATTTTAAAGTTAAAACATTCACAGAAAAGCCTATTCTGGAGATAGCCCAGAGTTTCTTAGAAAGTGGTGATTTTCTTTGGAATGCCGGGATATTTGTGTGGAATGTGAAGAGCATTCACCACGCTTTTGACCTTTATCTTCCTGAGATGACGCAGCATTTCATAGCTTGTGAATACAATTCGGAAAAAGAAAACGGCTGTATTGAAACCATTTATCCAAAGGTTCAGAAAATCTCTATTGATAATGGGATTTTAGAGAAAGCTAAAAATGTATATGTGATTCCGTCTGACTTAGGATGGAGCGATCTTGGAACCTGGACGTCTGTGTATGAGAATACAGAAAAAGACAGAAACGGAAATGCTGTAAGGCTAAAGCATTTGCTTGCTTATAATTCTAAAGGAAATATTATCCGGTTAAAAAATAATAATAAAGCCGTTATCATTGATGGCCTTGAAGATTATATTATTGTAGATACGGATAAGGCTCTTCTTATCTGCCCCAGAGATAATGACCAGCTCATTAAAGATTATGTTCTTGACTTAAAGAATTTTAAGAAGGGAGATAAGTTTATGTAA	MLKSDRYCVIMAGGIGSRFWPMSTQKFPKQFQDILGTGRTMIQQTYDRISKVIPREQIFVITNKEYVALSHQQLPELPEENIVGEPLMKNTAACNLYMANKIAEINPNATMIVLPADHLILKENVFLEKVELAFELASKHDYLITLGITPTRPDTGYGYIQFVEKKDSEYFKVKTFTEKPILEIAQSFLESGDFLWNAGIFVWNVKSIHHAFDLYLPEMTQHFIACEYNSEKENGCIETIYPKVQKISIDNGILEKAKNVYVIPSDLGWSDLGTWTSVYENTEKDRNGNAVRLKHLLAYNSKGNIIRLKNNNKAVIIDGLEDYIIVDTDKALLICPRDNDQLIKDYVLDLKNFKKGDKFM	PGPT0022660_1446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022660-manC|cpsB-K00971	NA	NA
BMS003_04312	663			hypothetical protein	ATGATTAAAATTACAACCCGAATTACAGTTCTTACATTTTTACTTTTGGGAGTATTAGGATATTCTCAGGAGAAGAAAAAGTTTTCAAGTATCTCAGGTATTTTACAGCTGATCAATCCTGGCAATAGGGTAGACTCATGGGTATTGGTATACAATAACTATGGAAAAGGGGAAGAGATAAAGATTTCTGGTAAAGTAGATTATACACCTCAGTTTTCAGGATTCAACCTTTTTCCCAATGAAGACAGTTTCTATTATATTGCTTACTCAGAAGGAGGTAAAGTAAATTATATTACTGATGTGGAAGGTCTTAAGAAATTTGTAGATCGAATAGATAATGCTCAGGAAGCTGCTATAATACTTGCTGCTGAAGGGTATATGGTAGATGAAGAGTTCAAGGATCTTGCGGGTAACTATCACGAAGATAAATCAAATTATTATCTGGATCTTGGAAAGCTGACCTCAAAGGAATGTCCTTACCAGAAGAAGCATTATACAGTGACTGTAAATAAATCTACGGGAGCTGTGAGCGATGTAAAGGACAATGGAACCTATATTGAACTCTATAATAAAAAGTGTGCTAATAACCCGAGATTGTTAAAAATCGAAAAAAAAGAAGAACCCAGAAAAGATGAGTCTAAAAAAACATCCAAACGCAGATAA	MIKITTRITVLTFLLLGVLGYSQEKKKFSSISGILQLINPGNRVDSWVLVYNNYGKGEEIKISGKVDYTPQFSGFNLFPNEDSFYYIAYSEGGKVNYITDVEGLKKFVDRIDNAQEAAIILAAEGYMVDEEFKDLAGNYHEDKSNYYLDLGKLTSKECPYQKKHYTVTVNKSTGAVSDVKDNGTYIELYNKKCANNPRLLKIEKKEEPRKDESKKTSKRR				NA	NA	NA	NA	NA
BMS003_04313	468			hypothetical protein	ATGTCTAGCGAAGACAGAGATTTTGTCTTTGAACTCTATAACAGACCCAAATTTATTCAACATATCGGTAACCGCAATGTGAACAGCATTGAAGATGCTGAAAATTATATCTTAAACAGATTTACTCCGCAGATTGAAAGGCTGGGATTTGGAAACTATCTTTTAGTAACAAAAGAAGGAAATGAAAAAGTAGGAGCCGTAGGAATATTCGAAAGAGATGGACTTGATATTGTAGACATCGGATATTCTCTGTTGGAAGAGTTTGAGGGAAAAGGCTATGCTTTTGAAGGCGCTCAGAAGGTTAAATCTATTGGGATGGACGACTTTGGATTAACAAAAATAGCAGCCATCATATCAAAAGATAATATTTCTTCCCAAAAGCTTATCGAAAAACTAGGGTTGAAGTTTAAAAAACACGTTATACTTCCTGGAGAAACAGAAGAATTGAATTATTACGAAACAGAATAA	MSSEDRDFVFELYNRPKFIQHIGNRNVNSIEDAENYILNRFTPQIERLGFGNYLLVTKEGNEKVGAVGIFERDGLDIVDIGYSLLEEFEGKGYAFEGAQKVKSIGMDDFGLTKIAAIISKDNISSQKLIEKLGLKFKKHVILPGETEELNYYETE				NA	NA	NA	NA	NA
BMS003_04314	450	bcp	COG1225	Peroxiredoxin Bcp	ATGCTGAAAGTTGGAGATAAATTACCTGAATTTGAAGGAATCAATCAGGACGGAGAAACAGTGACCTCATCAAAATTAGCTGGAAAAAAACTGGTGGTTTTCTTCTACCCGCAGGCCAATACACCAACCTGTACGGTGGAAGCCTGCAACCTGAGTGACAATTATTCTAAGCTTAAAAAAGCGGGATTTCAATTATTGGGTGTAAGTGGTGATACTGTAAAAAAACAGAAGAATTTCCATAGTAAATTTGCTTTTTCTTATGATCTTATTGCCGATGAAAATCGTGATATCATTGAAAAATTCGGGGTATGGCAGGAGAAAAAGACGTTTGGTAAAACCTATATGGGAATTGTAAGAACTACTTTTATTTTTGATGAAAACGGAGTTTGCACAAGAGTCATTGAAAAAGTAACTTCAAAGACTGCTGCGGAGCAGATTCTGGAAGGATAA	MLKVGDKLPEFEGINQDGETVTSSKLAGKKLVVFFYPQANTPTCTVEACNLSDNYSKLKKAGFQLLGVSGDTVKKQKNFHSKFAFSYDLIADENRDIIEKFGVWQEKKTFGKTYMGIVRTTFIFDENGVCTRVIEKVTSKTAAEQILEG	PGPT0013120_5549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
BMS003_04315	621	nth_2	COG0177	Endonuclease III	ATGACAAAAAAACAAAGAGCAGAGCTCGTTCAGATAGAACTGGAAAAATTATATCCCACCACACCTATTCCGTTGGATCATACCGATCCGTATACATTGATGGTTGCTGTAGCGCTTTCTGCACAGACTACAGATAAAAAGGTAAACCAGATTACCCCCGATCTTTTTGCAGTAGCAGGAACACCGCAGAGAATGGCGAAGCTGGAAGAATTTGAAATCAAAGAACTGATCAAAGAAATAGGACTCTCTAATACAAAAGCCAAAAACCTGAAAAGAATGGCCGAACTTCTGCTGGAAAGGCATAATGGTATTGTTCCTCAGACTTATGAAGAATTGGAAGCGCTTCCGGGCGTAGGACACAAAACAGCTTCGGTAGTCATGAGCCAGGGATTTGGATTTCCTGCTTTTCCGGTAGATACCCACATTCATCGCCTGATGACACAGTGGAAACTTACCTCCGGAAAAAATGTGGTAGAAACAGAACGCGATGCCAAGAAATTATTTCCAGAAGAAGTGTGGAATAAACTTCACCTTCAGATTATTTTCTATGGAAGAGAATATTCACCAGCGAGAGGAAAAGGAGAGAAGGATTTTATTACGAAAATGATGTTTGAGAAATAA	MTKKQRAELVQIELEKLYPTTPIPLDHTDPYTLMVAVALSAQTTDKKVNQITPDLFAVAGTPQRMAKLEEFEIKELIKEIGLSNTKAKNLKRMAELLLERHNGIVPQTYEELEALPGVGHKTASVVMSQGFGFPAFPVDTHIHRLMTQWKLTSGKNVVETERDAKKLFPEEVWNKLHLQIIFYGREYSPARGKGEKDFITKMMFEK	PGPT0013735_5979	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS003_04316	1428	ppsD	COG0318	Plipastatin synthase subunit D	TTGTGTGAAAAGCTTGAAACATCCTATTATGCAGCTATACCTCTTGCAGAAGAATCCTTATCCTATCCTCTGACCTCTACACAGAAACAGTTGTGGATATTGAGTCAGTTCGAAGGCGGTTCAGCAGCATATAATATCCCGATTGCTTTAAAAATTAAAGGAATAATAGATATTGATAAACTTGAAAGGTCTTTCAATTTATTAATAGATCGTCATGAAATACTGAGAACCTCATTTAATATAAATGAAAAAGGAATTGTTGAGCAGTTTGTATTGGATAAAAATACAGTTCATTCTAAAATTGAAAGAATTGATTTGAAGGGAGAATTGGAGATTGAATCTAAAGTGCTCAGCTATATATATGAGAAAAACAATGAAGTTTTTGACTTAGAAAAAGGATTATTAATTAAGAATTCTTTAATAAAGGTTAATGATAATGAATACATCCTTTTCTTTTCGATGCATCATATTGTAGGAGATGGAAGGTCGCTGGAAATTATAGTTAAAGATATGTTGCATTTTTATAAAATGCTGATTAATAAAAGCAATAATAATATTCCGGATCTTAAAATTCAGTATAAGGATTTTGTTCTTTGGAAAAACAGCAATAGAGAAGCATATTTAAAATCTAAACACTATTGGTTAGACAAGTTTAGTGGAACATTACCTACTTTAAATATTGAGAGTACTAAGAAAAGACCTTTAATTAAGTCATTTAATGGAAACAAAATAGAACTGCAATTTTCTCCTGAATTTAAAAATGACTTAAAAGAATTTTCAAGAACTCATGATGTTACATTATTCATGACTTTATTCTCAGGTGTCAATGTGCTTTTGTACACCTATTCAGGACAAAATGATATCATCATTGGAACCCCATTAGCGGGAAGAGATCATCCTGATTTAGAAAACTTAGTAGGATTATTTTTAAATATTCTTCCTATAAGAACAAGTATTGAATCTGATAAAACTTTTTACAATCTGCTTCAAGATCAAAAAAATAATTTATTGAACTCATTTGAACATCAAAATTATCCACTGAATGATCTTATTGATGAACTGCATTTAAGTAAAGATAATAGCCGGTCACCTTTATTTGATGTGATGATGAGTCTCAATATAAATAATAAAAATCTTGATTCTGACGGATTTGATGAATTTGAAATAGAAGATTTTGAATTCAAAAGGAAAGTCTCTCAATTTGATCTCAATTTTGTTTTTAGTGAATTTGATAATCTGGGATTAACTATAGAATACAACACGGACATCTTTGAAGAATTTGAAATAAAAAGAATGCTTAAAGATTTCGAGAAAATAATGAAAATAACATTTGATAATCCTGCAATTACTATAAAAGAATTTAAAGAATCAAACCAAGAAATTAAAAAAAGAAATTTAAATAAACTTTCTAACCTTCTAAAAAAATAA	MCEKLETSYYAAIPLAEESLSYPLTSTQKQLWILSQFEGGSAAYNIPIALKIKGIIDIDKLERSFNLLIDRHEILRTSFNINEKGIVEQFVLDKNTVHSKIERIDLKGELEIESKVLSYIYEKNNEVFDLEKGLLIKNSLIKVNDNEYILFFSMHHIVGDGRSLEIIVKDMLHFYKMLINKSNNNIPDLKIQYKDFVLWKNSNREAYLKSKHYWLDKFSGTLPTLNIESTKKRPLIKSFNGNKIELQFSPEFKNDLKEFSRTHDVTLFMTLFSGVNVLLYTYSGQNDIIIGTPLAGRDHPDLENLVGLFLNILPIRTSIESDKTFYNLLQDQKNNLLNSFEHQNYPLNDLIDELHLSKDNSRSPLFDVMMSLNINNKNLDSDGFDEFEIEDFEFKRKVSQFDLNFVFSEFDNLGLTIEYNTDIFEEFEIKRMLKDFEKIMKITFDNPAITIKEFKESNQEIKKRNLNKLSNLLKK	PGPT0009850_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009850-srfAB|lchAB-K15655	NA	NA
BMS003_04317	990			hypothetical protein	ATGATAAATAGAATTAATAAATTAAAGAATCAGGATATCAAAAAAGTTAATTTAAATGAAAATGTTAAAACATCATTTTTTGAAAATGAAAAATATCCTTTAGTTATTAGTCCAATTAATTCAGGATATAATTTAAAAAATTGGTTTCTGGAAAATGAAAAATATTTTGAAAGTTCTCTTTTAAAATATGGATCAATATTATTTAGAGATTTTAAAATCAATTCGGTTGAAAAATTTCAGGATCTAATGGCAATGTTCCCCAAAGAACTTTTAGAATACAAATTTAGATCTTCTCCAAGGTTTGAGTTAGGAGATAATGTCTATGTATCTACCACTTATCCTGAAGACGAAAATATTAATATGCATAGTGAAAATTCATATGCCATTAGCCCTCCACACCGTATTGTATTTTGTTGTGTTACTGCTCCGGAATATAGAGGAGAAACTCCTATTGCAGATAATCGACTTGTTCTTAGCTATATAAGCGAATCCTTAAGAAATAAATTTATGGAAAAAGGAATAATGTATAGAAGAAATCTAAGTGGTGTAATAGGATTATCATGGCAGGAAGTTTTTCAGACTTCGGATAAAAATCAGGTTCAGGAAGAGTGTGCGTCAAACGGAATAGATTTTACGTGGTTGGAAGAGAATGAGCTTATTCTGACATGGAAAAAAGAGGCTATTTGTGAGCATCCAGTAACAAAAGAACTTGTTTGGTTTAATCATGGAGTATTTTTTAACAAGCATATGCTTCATGAAGATTTTTTAAGATCTATTAATTCAGATGATGAATTACCTAATAATACTTTTTTTGGGGATGGTTCAGAAATATCAAAAGATGAAATTGAAGAATTGAAATTTGCTTACCAAAAAGCGATAGTTGAATTTAAATGGGAGAATGGAGATGTCTTGTTTTTAGATAATTATCTTTTTTCACATGGAAGAAACCCATATAAAGGAGACAGAAAAATTATTGTTTCAATTTCTTAA	MINRINKLKNQDIKKVNLNENVKTSFFENEKYPLVISPINSGYNLKNWFLENEKYFESSLLKYGSILFRDFKINSVEKFQDLMAMFPKELLEYKFRSSPRFELGDNVYVSTTYPEDENINMHSENSYAISPPHRIVFCCVTAPEYRGETPIADNRLVLSYISESLRNKFMEKGIMYRRNLSGVIGLSWQEVFQTSDKNQVQEECASNGIDFTWLEENELILTWKKEAICEHPVTKELVWFNHGVFFNKHMLHEDFLRSINSDDELPNNTFFGDGSEISKDEIEELKFAYQKAIVEFKWENGDVLFLDNYLFSHGRNPYKGDRKIIVSIS	PGPT0009845_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009845-srfAA|lchAA-K15654	NA	NA
BMS003_04318	5916	lgrD_3		Linear gramicidin synthase subunit D	ATGAATATAAATGATAGTATTGGAGGTTATGAATTATCGGAAAATCAAAAGAATTTGTGGTATGTGTCTAAAAATAACCCGGAAGTCTTTTACAATCAAATTATCTTGAAGATTAAAAATGATATATCCATTGAAGATTTTCTTAATGCATTTACCATTGTTAAAAATAACAACGATATTTTAACATTTCATTTAATTCATAATTTAAATTTTCATAATCCTTTTCAGATTGAATCTTCCGACTTTACTCCATATTGGAGGGGAATTGAATTAATAAACCCTGATTGTATCACAAATGAGATAAATGATGCCTTAAGCTATACTTATGATCCTTCAAAAGATAATCCCATTAGATTTTGTTTTATAAAAGAGGCCAACAAGGTAACAAATATTGCTGTAAGAATATATTCTTTATGGAGTGATATAAATAGTTGCTATAATATATGCAGACAGATATTCGCAACAATTTTATCAGAACAGAATATCAGTGTGGATGAAGAAAAAATTGACTATATAAATTATAGTGCCTGGCAAAATGATTTAATAGCTCAGCCGGAAAGGGAAGCAATTGTTTTTTGGAAAAATTACCATCACCAGCTGACTGATAGTTTAATACCATTTTTTAGAATTCAAACAGATTTTACACCCAAAAAGAGGCAAATCCATTGTATTGATGGAGAAAATTATTCCAATATTAAACAATTTTGTTCAGATAATGACTGTGAAATTAAATCTGTTTTACTCTTTCATTACATTAAGTACCTACACTTATTTTCTGAAAATGAACTAACAATTGGAGTGTCTAATTTTAAAAGAGAATATAAAGAACTTGATGAAACTATTGGATTAGTATCAAAAAATATCCCGTTAAAGATCAGGAAACTGGATGGCTTAAGTTTAGTTGAGGCGGTACATTATATTGAATCTCAAGTTAAGATTGTAGAAGAGTGGTCTGATTTTTTTACACTTGAAAGAGACCGAATCGATAAATCACAGAAAGAGAAGTATTTTAATTACTGCTTTGAATATATAGATTTAGAATCAGAAAACAAGAGAATTTCTGGTGAGTTTGAAGTTGCAGATATGTACTCTGTCCAGGATATATTTGATACTAAGATTTGCTTCATTGATTCAGGAAATTCAATTTCTGTGGAGCTTTATTACAATGAAAAATGCTTGAGTCAAGCTGGTATTGATGTTCTTTCAGATGAGCTTCAGGTTTGTTTTAATAATGTTCTTATTTATGATAAAAAAAATACCTTAAGCATAGTTGAAAAACAGATTATAAAAAAAGCAAATGAAACTTCAAAAAAATTTCCGGCTTATAATTCAATTGTAGAATTAATTGAAGAGCAGAGTAATCTTTTTCCTGCAAATATATCTTTGCTTACGGATGAGAAAGAGCTTACGTATTTAGAGTTAAAGAATAAATCAGATCAATTTAAGAATTATCTGATTGAGAAACATAATATTAAAAAAGGAGACGCAATATGTGTTGTTGGTGAAGGTACAGAATGGTTTATAATTGCGATTTTGGGTATAATTAAAGCTGGAGCTTATTATATACCTATTGACCAAAAATATCCAAAAGACAGGATAAATTATATTATTGACGAGTCTAATTGTAAGGTTTTAGTTTGTGAACATCACGCTTCGGACATAAAGGGTGAAAATACTGTTCAAATAGTTAATCCTCTGGATGAAGAAATATATAATATACAAAGGAAAAATTATAAAGTTGATATTCACCCTCAGGATTTTATATATTGTATTTATACATCAGGGTCTACTGGTAAACCAAAAGGGTGCGCAATCAGTCATTCAAGTTTATTAAACTATATTCAGTGGGCAAACGAATTTTATTTTGATAATCCGGAATTGGGAAATTGGGGACTGATAACATCAATTTCTTTTGATTTAACTGTCACAGCTATATTTACAAGTTTATCAAGAGCAAAAAAATTATGGTTGGGCAATTTTGATAAAAATATTATTGAATTATTAACAGAGGTATTTAATAATCCAAAAATCGATACCGTAAAATTAACTCCTGCACACATTTCATTATTGAAGGAATTAGATATTAAAGATTCATCCATTAAAAAAATTATTTGTGGCGGAGAGCAATTGCTTAAATATCAGATAGATATACTGAGGGGGATCAATAAAGAGATAGATATTTATAATGAGTATGGACCTACAGAATCAACTGTCGGATGTATCGTTAAAAAGATGAATGAAGATGATGAAACGATTCTAATCGGAAAACCAATTGCCAATACATCTATTTATATACTAGATGAAAATCAATCCTATTGCCATATTGGGGTTAAAGGAGAAATATATATAGCAGGATTGGGGCTAGCTTCAGGTTACTTAAATCGTCCGAATCTTACAGCAGAAAAATTTATTCATAATCCTTTTATAAATGGAGAGCTTTTATATAAAACAGGAGATTTAGCCTGTTGGCTGCCAGATGGCAACATAGAATATTTTGGAAGGTTGGACGATCAGGTTAAAATAAGAGGACATAGGATTGAGTTAGGTGAAATAGAGCAGCTGATTTCCAGTTATGGCTCTATTAGACAGTCTGTTGTAACCGTAAAAGAAAACAAAGATGAAAAATACCTTGTAGCCTATTATATTTCAGAAGATGAAGTAGATAAAAAAGCTCTTAAGAATAGTTTAAGCAAGACTTTGCCGGATTACATGCTTCCTGGTTATTATATTCAATTAGAATCTATGCCTCTGACTGCAAATGGAAAAATTGATAAAAAAGTATTAGAAGAAGTTGTAGAAAAAGATCTTATTAAAGAAGAATATATTTCTCCAAGAACTAAAGAAGAGGAAATCTTAGTCTCAGTCTGTCTGGATGTGTTAAAGCATGATCGTATTAGTGTTAAAGACAATTTCTATAATTATGGAGGGGATTCAATTAAGTCTATTCAGATAGTGTCCAGATTAAAACAGTTGGGCTATAGCTTAAAAGTAGATCAGATTTTAAGAAATCCAATAATTGAAGATTCAGCGAAATTAATAAAATCAAATACGATTGCTATAGATCAGTCAGAAGTAAATGGGGATGTTGTATTAAGTCCAATTCAACATTACTTCTTTCAAAATCCATCTATTGTCAATAAAAACCATTACAACCAATCCGTACTGTTAAAGAGTAAGGTTGAAATCAATCAGACTATTCTGGAACAATGTATTTCGACCCTTGTATTGCATCATGACGCATTAAGAATGCAATATGAATTTATAAATAACCAATGGCAGCAATACAATAATAATGGTACTGAAAAACATTATGAAATTAATTTTTATGATCTTACGGAAGATGCTGATGAACTGGAATCTTTAAATAGAATTGGAGAAGAATTACAATCAGGCTTTGATATTGGATCAGGTATATTACTTCATGTTGGACATTTCAGACTTAAAGACGGTGATCGGTTAGCGATAATTGTTCATCACTTGGTTATCGATGGTGTTTCGTGGCGTATTTTATTAGAAGATTTATCAAGCTTATATGAATCTATTTCATCCAACAGCATAACAAAGCTGCCATTAAAAACAGATTCTTTTCAACGTTGGACTTCTTCACAATTGGATTATGCCAAGAGTGAAGAATTGGAAAAGGAGTGCACATATTGGGAAAATGTTTGTAGTGAAGCAATACCATTATTGCCAACAGATTATAAAGAAGAATCAAAAAGATATAAACTTGATAAACTGGTAAATATAGTATTAGACGTGTCCTTAACCGAAAAATTACAAACTCAGGTACATCAGATCTACAATACCGAAATTAATGACATCTTATTAACGGGGCTTGCTATGGCAGTTCGTGATGTGTTTGGGGTTGAAAAAATTGCACTGAGAATGGAAGGACATGGAAGAGAAGAAATAATAGAAGGAGTAGATGTTAGTAGGACGATTGGATGGTTTACCAGTGTATATCCTGTTGTGCTTGATCTTTCACAGTCAAAAGGATATGAGTTGGTGACTATTAAAGAAACTTTGCGTAAAATACCTAAAAAAGGGATAGGCTATGGTATTTTGAATTATCTGAATCAACCTTTTTCAAATAAAATTAAGCCAGGTATTGAATTTAATTATTTAGGAGATTTTGGTAATAATACTGATGGAAATAATGAATCTATGTTTAAATTTTCATCAGAAAATATCGGCTCATCAATAGCTTCAGAAAACGGGAAAAGTGAAATTTTGCTGGATGTTTCGGGAATTATGATTTCTGGTGAATTACATGTGTCAATCCGTTATTCCGACAGTTTATTTTACAAAGATACTATAGAAAAATTAAGTAATGCTTACAAAGAAAATCTCCAAGATATTATTGAAGACCTGTCGGGTAAAAAACAAAATTATTTGACACCTTCAGATTTAACGTACAAAAAAATTCAATATTCAGACCTAGCTGGCCTAAACCATTACAATATGGTGGAAGATATTTACGAACTATCTCCTTTACAGCAGGGAATGTATTATCACTGGCTGTTGGATAAAAAGGATCTTTTGTATTATAACCAGGTATCGTACAGATTACATTTTGCAAACTTCGACGATGAAAATGTTAAAAAAGCTTTTGAACAATTAATAGAAAGACATGCCATCTTGCGAACAAGTTTTACAAATAAATTAAGTGAAGAAATGCTTCAGGTAGTCCATAAAAAAGTGACACCAAATTTTAGATTTGAGAGACTTATTGCAGATGAAAATTTTATTGAAGAAAAGGTAAATGAAATTAAACAAATAAATAGAACCAAATTATTTGACTTTGAAGAACCCTCTCTTATTCGACTAAATGTCATAGAGCTGATGGATGGGGAATATGAGTTTATTTGGAATTATCATCACATATTACTGGATGGCTGGTGTACAAGTATATTAATCAATGATTTTAGTAATCTGCTGTCATCTTTGCAATATGGTACTCAACTAACGCTGCAAAAACCAATAGGATATTCTAAATATATTGAATGGCTGTCAAAATTAGACAAAGGAGCTTCATTGAAGTATTGGAGAAATTATTTGGAAGGGTTTAGTAGCACAACACTTCTGCCATTTAATAAAAATGAGGCAGGATATACATTAATTACTAAAGAATTTTTTATTGAAAATCAACTGTGGCAAAAAATAAATTCAGTATGCAGTGAAATAGATATAACTCACAGTACATTTTTTCAGGGAGTTTGGGGCTATATGTTATCAAGAATAAATGCTACAAATGATGTGATATTTGGTGCTATAGTTTCGGGTAGGCCAGCAGAATTGGATGGAGTAGAAACCATTGTAGGGCTATTTAGTAATACAATTCCAGTGCGTGTTAGATATGCAAGTAAAGAAACCCCAAAAGAACTATTAAAAAGACTTCAAAATGAAAGCATAGACGGTACACCTCATCATTTTTTAAATATCTCCGAAGTGCAGGCACAAAGCATTTTAAATAAAAACTTGATTAGTAATATCATGATTTTTGAAAATTATGTTGTACACGATCTGAATCTAGATGAAAATTTAGATTTTGGGAAAATAGATCAGATAGACCTCAATCTTCAGACCAATTTTGATTTCAATTTTGAAGTGGTTCCATCAGATTCTAATTTCAAAATAAAATTCGATTACAACCAAAATAAATTTAATCAGCAAATCATTCAGGATTTAGTAGACTACTTAAAATTTACTTTAGAATTATTTGCGACCGATTTAAATACGGAATTTGAACTTTTATCGGCTCGATTTGAAAATAGAAAGAAAATTTCAATAGAACATAATGTGGAATCTCACAATAGTGCACTGACTGCAAATGATATAAATCCTGTTGAAACTGAACTGGTAAAAGAAAAAATAATTGAAAGTAATATTAATAAACTTTCAAAATTTTTAAAATAA	MNINDSIGGYELSENQKNLWYVSKNNPEVFYNQIILKIKNDISIEDFLNAFTIVKNNNDILTFHLIHNLNFHNPFQIESSDFTPYWRGIELINPDCITNEINDALSYTYDPSKDNPIRFCFIKEANKVTNIAVRIYSLWSDINSCYNICRQIFATILSEQNISVDEEKIDYINYSAWQNDLIAQPEREAIVFWKNYHHQLTDSLIPFFRIQTDFTPKKRQIHCIDGENYSNIKQFCSDNDCEIKSVLLFHYIKYLHLFSENELTIGVSNFKREYKELDETIGLVSKNIPLKIRKLDGLSLVEAVHYIESQVKIVEEWSDFFTLERDRIDKSQKEKYFNYCFEYIDLESENKRISGEFEVADMYSVQDIFDTKICFIDSGNSISVELYYNEKCLSQAGIDVLSDELQVCFNNVLIYDKKNTLSIVEKQIIKKANETSKKFPAYNSIVELIEEQSNLFPANISLLTDEKELTYLELKNKSDQFKNYLIEKHNIKKGDAICVVGEGTEWFIIAILGIIKAGAYYIPIDQKYPKDRINYIIDESNCKVLVCEHHASDIKGENTVQIVNPLDEEIYNIQRKNYKVDIHPQDFIYCIYTSGSTGKPKGCAISHSSLLNYIQWANEFYFDNPELGNWGLITSISFDLTVTAIFTSLSRAKKLWLGNFDKNIIELLTEVFNNPKIDTVKLTPAHISLLKELDIKDSSIKKIICGGEQLLKYQIDILRGINKEIDIYNEYGPTESTVGCIVKKMNEDDETILIGKPIANTSIYILDENQSYCHIGVKGEIYIAGLGLASGYLNRPNLTAEKFIHNPFINGELLYKTGDLACWLPDGNIEYFGRLDDQVKIRGHRIELGEIEQLISSYGSIRQSVVTVKENKDEKYLVAYYISEDEVDKKALKNSLSKTLPDYMLPGYYIQLESMPLTANGKIDKKVLEEVVEKDLIKEEYISPRTKEEEILVSVCLDVLKHDRISVKDNFYNYGGDSIKSIQIVSRLKQLGYSLKVDQILRNPIIEDSAKLIKSNTIAIDQSEVNGDVVLSPIQHYFFQNPSIVNKNHYNQSVLLKSKVEINQTILEQCISTLVLHHDALRMQYEFINNQWQQYNNNGTEKHYEINFYDLTEDADELESLNRIGEELQSGFDIGSGILLHVGHFRLKDGDRLAIIVHHLVIDGVSWRILLEDLSSLYESISSNSITKLPLKTDSFQRWTSSQLDYAKSEELEKECTYWENVCSEAIPLLPTDYKEESKRYKLDKLVNIVLDVSLTEKLQTQVHQIYNTEINDILLTGLAMAVRDVFGVEKIALRMEGHGREEIIEGVDVSRTIGWFTSVYPVVLDLSQSKGYELVTIKETLRKIPKKGIGYGILNYLNQPFSNKIKPGIEFNYLGDFGNNTDGNNESMFKFSSENIGSSIASENGKSEILLDVSGIMISGELHVSIRYSDSLFYKDTIEKLSNAYKENLQDIIEDLSGKKQNYLTPSDLTYKKIQYSDLAGLNHYNMVEDIYELSPLQQGMYYHWLLDKKDLLYYNQVSYRLHFANFDDENVKKAFEQLIERHAILRTSFTNKLSEEMLQVVHKKVTPNFRFERLIADENFIEEKVNEIKQINRTKLFDFEEPSLIRLNVIELMDGEYEFIWNYHHILLDGWCTSILINDFSNLLSSLQYGTQLTLQKPIGYSKYIEWLSKLDKGASLKYWRNYLEGFSSTTLLPFNKNEAGYTLITKEFFIENQLWQKINSVCSEIDITHSTFFQGVWGYMLSRINATNDVIFGAIVSGRPAELDGVETIVGLFSNTIPVRVRYASKETPKELLKRLQNESIDGTPHHFLNISEVQAQSILNKNLISNIMIFENYVVHDLNLDENLDFGKIDQIDLNLQTNFDFNFEVVPSDSNFKIKFDYNQNKFNQQIIQDLVDYLKFTLELFATDLNTEFELLSARFENRKKISIEHNVESHNSALTANDINPVETELVKEKIIESNINKLSKFLK				NA	NA	NA	NA	NA
BMS003_04319	807			hypothetical protein	ATGAAAAAAATATTTACTCTTGCCGGGCTGGTATTATTATCTGCCTTTTTACATGCCCAAATTGTAATCAATGAGATCTATAGCGGGAATACCAACTCAGGAGCTGTATGGAAAAATAGCTATATTGTGCTCAAGAATATAGGTGCTAACCTGGTTTCTCTCACGGGAGCCAGTATACAATATGCTCCGGCTATAGGTGCTTTTACCGAGTATCATACGCTTCCGGACTTTACTTTAGGACCTCAAGAAACCTACTTAATCCAGGAATCAGTAATAGAAGGAGGTGCTGAAGATTTGCCTTCACCGAATTTTATTGCTACAACTATAACTAATTTTGACGGAACACCTAACAAATCTTCCGGGTTAAGAATTTCCAGCGTTTCCGGAAAAATAGCATTAGCCGGAAATATAGTACAGGTTACGGGACCTTCCGCATCCAATGTGCTTGATTTTGTAGGGTATGGATCCAATGCAGACCAATTTAAAGGGGAAGGACCCGCTCCTTCTCCAACTACAACAGCTATTAAAAGAACATTAGTAAACAGTAATGATAATATGGACGATTTTTCCCTTGAAGGAAGTGTGAAATCCGGGTTTGTACAAAATCCTTTTATTAAGGACAGTAAAATTGTTTTCGGAACTGAGGTGAAAGATGTGAAAGTTTATGATACCTTTAGGCAGGTCGTTAAAAAATCTCCTACAAAATTAGCTTCAAGTCTTGATATTGCAGAACTTCCAAAAGGGACTTACATTGTCACAGGAACAATTAACAATATTCCGATTTCGCAGAAAATTATAAAAGATTAG	MKKIFTLAGLVLLSAFLHAQIVINEIYSGNTNSGAVWKNSYIVLKNIGANLVSLTGASIQYAPAIGAFTEYHTLPDFTLGPQETYLIQESVIEGGAEDLPSPNFIATTITNFDGTPNKSSGLRISSVSGKIALAGNIVQVTGPSASNVLDFVGYGSNADQFKGEGPAPSPTTTAIKRTLVNSNDNMDDFSLEGSVKSGFVQNPFIKDSKIVFGTEVKDVKVYDTFRQVVKKSPTKLASSLDIAELPKGTYIVTGTINNIPISQKIIKD				NA	NA	NA	NA	NA
BMS003_04320	2796			hypothetical protein	TTGTTTTGGGGAGTCGCACAGGTCTCTGCACAGAAAGACAGTATTTATATTGAAGCAAAACTGTCTCCTGACAAGAAGAATCTTGAGATCAATCAGGAAATTGTTTATTACAATCATTCTGAAAAAGATCTGCAGACCGTTAAGCTCCTGAATTGGGTTTCCTCATATAACAGACGCGGAACCTCTCTGGTCTACAGAAAACTGGAAGACCGGAATACGGACTTGCATTTTGCAAAGAGTGATCAGCTGGGAAAGCTTCTTGAGCTGAATATTAAAAATTCGGAAAATGAAATTGTTCCTGTTACCACACTCTCAGATGAAAACCTTTTTATTCCTCTGAAAAATGGACTGAAGCCAGGTGAGAGCGTCACTTTACAATTACAATACAGGATGCAGCTTCCCGATAAAACTTTCACGGGATACGGAACATCCGCACAGAATACTGTATTAAAATATTTCTTTATTGTCCCGGATCATTTTGATCCGGACAATATTTCCAAAAGAAACTACCATGATATAGAAGAACAGGTAAGTTTCAATACTTTTTGGACCATCAACTTTGACATTCCTGTCAATACCTTTGTAGAAGGTAACCTTCCCCAGATTCAGATGAATTCGTTTAAAGGATACCTTGATTCAGATCCCGAGTTTTTGATTTCTCCAACGGAATTTCAGTCTATAAAAACCAATGTTGACGGAGAAGAAATTGAAATTAAATTTGGGTATAACCTAACCCCGGAAGAAAAACAAAATCTGGAATTTTACCTTCCTCTGCAATTGAAGTTCCTTAGAGAAAGACTGGGTTTCCTGCCTAAAAATCTTTTTATTTCGGATAAATTCAGAGCTAAAGAAGACTTTTTCGGGAATAATGATATTACCTTCTGGAAATTCAGATTCCAGTTGTTCACCAATGCAGAAAAAACTGATCTGGACTATTTCGGGATTATTGCCAAGAAGATTCTTGATGAAACCGTTATTGCCGATAAAGAAAAAGATCATTGGTTTAAAAATGGGTTAAAATCTTATCTGGAAATCCAGTATCTGAAAAAATTCTATGCCGATACCAAACTCTTAGGAACACTTCCTGAAACCAGAATATTCGGAATCAAGCCTTTAAAATTATTCCATGCATCCAAAGTAAAACTTCTGGACCGTTACGGGCTTTCCTATCAGTATATCATGCTGCAGAATCTGGATCAGAAAATTGATGAGCATTTTCCTGTTTTAAGTAATTTCAATGATATGGCTGTCAGCAGTTTTGAAACCGGAAGTCTGTTCAATTATTCAGCAGATAAAATGGGCTATGATACATTCAATGACATTGTAAAAGAATATATTTCTCAGAATTCCGGAAAACAGATCAATCCTGATGAATTTTTGGGTGCTCTTTCCGAAAAAAATAAATCCACAGCTTACCTTTCGAATTTTTTTAAACAGAAAAACAGAATTGATTTCAAATTAAAAAATATCCGAAAGGAAAATGATTCTCTTCAAATAAACATTACCAAAAATACAGACGTCTCTATTCCTGTAAAACTCGAAACCGAAACCAGAGAAGGAGAAAAGAAGGCTTACTGGATAGATACTGAAGAAAATGAACGGATGACCAGTCTAACGCTTCCTGCTTCAGATAATATTTATAAAGTTACTTTAAACAGCGGCTATATCTTTCCGGAATCCAATTACAGGGATAATTTTCTGTATGCAAAAGGATTATTTTCCAATGCAAAAAAAATTAAGCTTAAATTATTAAAAGATATTCCGAATCCGGAATATAACGAAATTTATATAAGCCCGAGAGTACGTTTCAACAATACATATGATAAATTCCTTTTGGGAGTCAATCTAAAAAATCAGTCTTTTTTTGATCAGAAATTTTTGTATTCTGTAACTCCAACATACAGTACCGGAACGGGAAAACTGACTGGCTCCGGAGCTGCATCTTACTCTATCCTGCCTGCAGAAAGTATTATCCGAAGTTTAACTTTCGGACTTTCTGGCGCTTATTTTCATTATGATTACGATCTGGCTTACAGGAAGACCTCAATATCTACGTCTATAAGCTTCAGAAAGAACCCAAGAAGTACAGTAAGCAGAGGTATCGGTATTTCCTATAATTATTTTGAAAGAGACCTGAGCCCTAAAATGATCCTTAATAATGACTATAGTAAATATAATCTCTGGAGCATCGGATATGGCTACAGTGACAGCCAGATGATCCATGAAAAAAGTTTCAGCCTGAGCACCCAGGGAATGGAAGATTTTAATAAAATAACAGCTGAAGGCTTCTACAGATGGGAGTTTGCCCCAAAACAAAAACTCAGCTTACGTTTATTTGCCGGATATTTTTTAAGAAACAATACCCGAAATAACCTTTTCGATTATGGAATTTCAAGGGTTTCAAACTATTCTTTCTCTTATACTCTTTTAGGAGAAAGTGCCAACAGCGGGCTTCTTTCACAGCAGTTTATATTAGCTGACGGTGGTTTCAAATCATTTCTGCCAGGAACTGTTAACCAATGGATCACGTCTGCTAATGTAGACTCTAGTATATGGAAAATATTCCATGTATATGCAGATGCCGGAGTTTATAAAAACAAAAATCTTCCTGCCAAATTCATATGGGACACCGGAGTTAAAGTAAGAATTATTCCGGATTTTCTGGAAATTTACTTCCCGATACAGTCTTCTTTAGGATTTGAACCTTCATTCAAAGATTATGGAAAACGTATCAGATATACCCTGATCCTTAATCTCGGATCAATTATTAATGCGGCAAGAAGAGGCTGGTATTAA	MFWGVAQVSAQKDSIYIEAKLSPDKKNLEINQEIVYYNHSEKDLQTVKLLNWVSSYNRRGTSLVYRKLEDRNTDLHFAKSDQLGKLLELNIKNSENEIVPVTTLSDENLFIPLKNGLKPGESVTLQLQYRMQLPDKTFTGYGTSAQNTVLKYFFIVPDHFDPDNISKRNYHDIEEQVSFNTFWTINFDIPVNTFVEGNLPQIQMNSFKGYLDSDPEFLISPTEFQSIKTNVDGEEIEIKFGYNLTPEEKQNLEFYLPLQLKFLRERLGFLPKNLFISDKFRAKEDFFGNNDITFWKFRFQLFTNAEKTDLDYFGIIAKKILDETVIADKEKDHWFKNGLKSYLEIQYLKKFYADTKLLGTLPETRIFGIKPLKLFHASKVKLLDRYGLSYQYIMLQNLDQKIDEHFPVLSNFNDMAVSSFETGSLFNYSADKMGYDTFNDIVKEYISQNSGKQINPDEFLGALSEKNKSTAYLSNFFKQKNRIDFKLKNIRKENDSLQINITKNTDVSIPVKLETETREGEKKAYWIDTEENERMTSLTLPASDNIYKVTLNSGYIFPESNYRDNFLYAKGLFSNAKKIKLKLLKDIPNPEYNEIYISPRVRFNNTYDKFLLGVNLKNQSFFDQKFLYSVTPTYSTGTGKLTGSGAASYSILPAESIIRSLTFGLSGAYFHYDYDLAYRKTSISTSISFRKNPRSTVSRGIGISYNYFERDLSPKMILNNDYSKYNLWSIGYGYSDSQMIHEKSFSLSTQGMEDFNKITAEGFYRWEFAPKQKLSLRLFAGYFLRNNTRNNLFDYGISRVSNYSFSYTLLGESANSGLLSQQFILADGGFKSFLPGTVNQWITSANVDSSIWKIFHVYADAGVYKNKNLPAKFIWDTGVKVRIIPDFLEIYFPIQSSLGFEPSFKDYGKRIRYTLILNLGSIINAARRGWY				NA	NA	NA	NA	NA
BMS003_04321	1380	pyrE		Orotate phosphoribosyltransferase	ATGGAAAGTAAAAAAGAATTCTTCTTAGAGTGCTACAAACTAGGCATCATCAAATTCGGAAGGTTTACCCTGAAAAGTGGCATTGAAAGTCCTTTTTATGTAGACCTGAGACCTTTGGCTTCAGATCCTAAAATTTTAAAAAATCTTGCTAATTATTTATTGGAAATGCTTCCATTGGATAATTTTGATTTAATCTGTGGAGTTCCTTATGCTGCTCTTCCTATGGCGACTGCAATGTCTCTGGAAAGCTATATTCCATTAATTATTAAAAGAAAAGAGGCTAAAAGCTATGGTACCAAAAAACTGATTGAAGGAATTTACCAGAAAGGACAAAACTGTCTTTTGGTAGAAGATGTAATCACTTCCGGAAAGTCTTTATTGGAAACCATTCCTGAAATAGAGCAGGAAGATCTTAAAGTTTCGGATATTGTAGTGGTACTGGACAGAGAACAGGGAGGAAAGCAGCTGTTAGAAAGCAAAGGCTACAGAGTTCATACACTTTTCAATATTTCAGAAGTGTGCGACATTCTTCAGGGAACCGGAGAATTGTCTGATGAAGAAGTTAAAAGAATTCAGGATTTCCTCCAGGGAAACCACATTCAGTTTGAAGAAGAAATAAGGTCTTCTTACGAGCAGAAACTTCAGAACGCACAACATTCCGTTTCAAAAAAATTACTGGAAACAGCTTTAGCAAAAAAATCAAATCTTATTGCTTCTGCCGATGTTACAACCACTCAGGAACTATTGGAACTTGCTGAAAAAGTAGGTCCGCACGTTATTGCCTTAAAAACGCATATCGATATCATTTCTGATTTCGATTATGAAAAAACAATCACTCCACTAAAAGCAATCGCTGCAAAACATCAGTTCTTATTGATGGAAGACAGAAAATTTGCTGATATCGGAAATACGCAGGAACTTCAGTTCACAAGCGGGGTTTTCAAAATTACAGATTGGGCAGATTTCGTGACTTCTCAGGTAATCGGAGGTTTTGAATCATTAGACTGCTTCAGAAATGTAGGAGTGGTAGCTATTGTTGGGATGTCTTCCAAAGGAGCACTTACCACAGCAAGCTATCGTGAAGAAGCTTTAAAAGTAGCTTTATCTCATCCGAATGTTATTGGTGGTGTCTCTCAGAATAGAATTCCTGAAGATATTTTATTATTCACTCCGGGCGTGAATCTTGCTGATTCAGGAGATGGAAAAGGACAGCAGTATAATACGCCGGAACATGTTTTCAAAACACTGCACACCGATTTTATTATCGTAGGAAGAGGAATCTATAAATCCAATGATCCGGAAGCATCTGCCATCACCTATAAGACAGAGGGTTGGAATGCGTATGTTAATTCTTTGGAAAAAAAAGTAATTCAGGGTTAA	MESKKEFFLECYKLGIIKFGRFTLKSGIESPFYVDLRPLASDPKILKNLANYLLEMLPLDNFDLICGVPYAALPMATAMSLESYIPLIIKRKEAKSYGTKKLIEGIYQKGQNCLLVEDVITSGKSLLETIPEIEQEDLKVSDIVVVLDREQGGKQLLESKGYRVHTLFNISEVCDILQGTGELSDEEVKRIQDFLQGNHIQFEEEIRSSYEQKLQNAQHSVSKKLLETALAKKSNLIASADVTTTQELLELAEKVGPHVIALKTHIDIISDFDYEKTITPLKAIAAKHQFLLMEDRKFADIGNTQELQFTSGVFKITDWADFVTSQVIGGFESLDCFRNVGVVAIVGMSSKGALTTASYREEALKVALSHPNVIGGVSQNRIPEDILLFTPGVNLADSGDGKGQQYNTPEHVFKTLHTDFIIVGRGIYKSNDPEASAITYKTEGWNAYVNSLEKKVIQG	PGPT0021195_482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021195-pyrF|pyrE-K13421	NA	NA
BMS003_04322	342			hypothetical protein	ATGAAATATTCAAAATTAAATCTTGCAAAAGAAGCCATCAATCATAAGGGCTTTATCAAAAAGATCCCTGATATTTTCAGAATGGTTAATATGTGGAGAAAAGGAATCTATCCCATGAAATCCATAGACATTATTCTTCCTTTACTGGGAATTTTATATGTACTCTCTCCTATTGACCTGCTTCCTGAGTTCGCAATACCGGTTCTTGGAGTTATGGATGATCTGGCAGTACTGTCACTTACCATACCTAAGCTTATTAAAGAAGTAGACAAGTTTTTGCTATGGGAAGCCGAACAAAAATACAGAGGAGCCCAAATCATTGATGCTGAAATCGTAAAATAA	MKYSKLNLAKEAINHKGFIKKIPDIFRMVNMWRKGIYPMKSIDIILPLLGILYVLSPIDLLPEFAIPVLGVMDDLAVLSLTIPKLIKEVDKFLLWEAEQKYRGAQIIDAEIVK				NA	NA	NA	NA	NA
BMS003_04323	540	resA_7	COG0526	Thiol-disulfide oxidoreductase ResA	ATGAAAAAAGGGATCATTTATATTGTAATATTTGCCATCATCGGTGTTGTAGCATTCGTACCGGGGATCAGGAATTTCCTGAAAGATACATTCTTCCCGGTAGCTACTATTGAAAATGCCGTTCACATCAGCGAAGAAGATTATGATATAGAACTTAAAGGAATCAATGCGCCAAGTACCAATCTTAAAAACTTTAAGGACAAAGGGGTATTCCTTAATTTTTGGGGAACATGGTGCCCGCCTTGCAGAAAAGAATGGCCTTCTATTCAGAAATTATATGATTCGAGAAAAGATCATGTAGATTTTGTATTGATTGCCATGAATGATAAAGAAGAAGATGTAAGAAAGTTTTTGAAAGAAAATAACTATACCGTTCCTGTATATATTGCTCAAAGCCCAATCTCTGAAAAAATTCTTCCCAAGGTATTTCCTACCACTTTCCTTTTGGATAAGCATGGAAGAATCCTCATTAAAGAAGATGCTACAAAAGACTGGGACACAGAAACTGTGCATCAGTTCATTGACAATATTATAAAATAA	MKKGIIYIVIFAIIGVVAFVPGIRNFLKDTFFPVATIENAVHISEEDYDIELKGINAPSTNLKNFKDKGVFLNFWGTWCPPCRKEWPSIQKLYDSRKDHVDFVLIAMNDKEEDVRKFLKENNYTVPVYIAQSPISEKILPKVFPTTFLLDKHGRILIKEDATKDWDTETVHQFIDNIIK				NA	NA	NA	NA	NA
BMS003_04324	564			hypothetical protein	ATGAAAAATTACTGGGATAAAGGAATTTCTTTTCAAGAGTATCTTCAGATTGCAAAAGAAAGATTAGAGCATCCTGCCAACCAACAGGAAGCTGATTATAAACAATATTACGAACTGGGTCTTCAGAGAATGGACAGAACGGTAAAAAAATACGTTCCGGATGAAGATCAGCTGAAAGAACTTGCTGCCAAGAACTTTGACGGAAAGATTTTAATTATTTCCGAAGCATGGTGCGGAGATGCAAGTGCAACAGTACCAGCTGTCTTCAGATTCTTTGAAGGACATAATGAAGTAAGAGTTTTCCTGAGAGACAGTGATAAAAGCTTAATCAATCAGTTTCTGACCAATGGTACAGAATCTATTCCTAAAGTCTTAATTCTGGATAAAGACCTGAATGTAAAAGATTCATGGGGACCCCGTCCAAAATATGGATACGAACTGCTGATGAAATATAAAGCTGATCCCGAAACGTATCCAAAAGATACTTTTTATAATGATCTGCAGATATATTATGCCAAAAACAGAGGAAAGGATGCTGTTCAGGAAATTTTGGATCTTCTATAA	MKNYWDKGISFQEYLQIAKERLEHPANQQEADYKQYYELGLQRMDRTVKKYVPDEDQLKELAAKNFDGKILIISEAWCGDASATVPAVFRFFEGHNEVRVFLRDSDKSLINQFLTNGTESIPKVLILDKDLNVKDSWGPRPKYGYELLMKYKADPETYPKDTFYNDLQIYYAKNRGKDAVQEILDLL				NA	NA	NA	NA	NA
BMS003_04325	1071	aroC	COG0082	Chorismate synthase	ATGTTCAACACATTAGGTAATCTTCTTAGTCTTACAACATTTGGAGAAAGTCACGGAGTGGCTTATGGCGGTATCATCAATAATTTTCCTGCTGGTTTAGCGGTAGATCTCGATAAAGTTCAGTACGAACTGAACCGAAGAAAACCCGGTCAGTCAGCAATCGTTACACAGCGAAAAGAAAGTGACACAGTAAAGTTTTTTTCCGGAATCTTTGATGGAAAAACAACTGGCACCCCCATTGGTTTTATCATTGAAAACGAAAATCAGAAATCGAAAGATTATGATCATATAGCAGGTGCATATCGTCCAAGCCATGCAGATTTCACCTATGACCAGAAATTTGGTTTCAGGGATCATCGTGGCGGCGGAAAATCTTCTGCAAGAGAAACCATGAACTGGGTAGTGGCAGGGGCACTTGCCAAACAACTTTTACCCAATATTGAGATCAACGCTTACGTATCTTCCGTAGGTGATATTTTCTGTGAAAAACCTTATCAGGCTTTAGATTTTTCTCAAACGGAAAGCAATGACGTTCGTTGTCCGGATGCTGAAACAGCAGAAAAGATGATTGCAAGAATTAAAGAGATCAAAAAAGAAGGAAATACAATTGGAGGAACCATCACCTGTGTGATTAAAAATGTTCCTGTCGGAATTGGTGAACCTATATTCTCAAAACTTCAGGCCGAGCTGGCAAAAGCAATGCTGAATATCAATGCCTGCAAAGGTTTTGAATATGGAAGCGGTTTCTGCGGTGCTAAAATGACTGGGAAAGAACACAATGATGCTTTCAATACAGACTTCACTACAAAATCTAACCTTTCCGGAGGAATCCAGGGAGGAATTTCTAACGGAATGGATATCTATTTCCGTGTAGCATTCAAACCTGTAGCGACTATTCTTAGACCTCAGGACAGCATTGATAAAGACGGAAATCCTGTCATTGTAGAAGGTAAAGGACGCCATGACCCTTGTGTGGTTCCCAGAGCTGTCCCCGTAGTGGAAAGCCTTGCCGCATTTGTACTGGCAGATCTGTTTTTGATCAACAAAACAAGAAACATCAATAATTTTTAA	MFNTLGNLLSLTTFGESHGVAYGGIINNFPAGLAVDLDKVQYELNRRKPGQSAIVTQRKESDTVKFFSGIFDGKTTGTPIGFIIENENQKSKDYDHIAGAYRPSHADFTYDQKFGFRDHRGGGKSSARETMNWVVAGALAKQLLPNIEINAYVSSVGDIFCEKPYQALDFSQTESNDVRCPDAETAEKMIARIKEIKKEGNTIGGTITCVIKNVPVGIGEPIFSKLQAELAKAMLNINACKGFEYGSGFCGAKMTGKEHNDAFNTDFTTKSNLSGGIQGGISNGMDIYFRVAFKPVATILRPQDSIDKDGNPVIVEGKGRHDPCVVPRAVPVVESLAAFVLADLFLINKTRNINNF	PGPT0012875_4658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
BMS003_04326	1635			hypothetical protein	ATGATACTGATTCTGTTTTCTTCCGTTTTTATCATTCCTGTCCTGATGGGCTGGGGAAAAATCATGGAAAGTATAGGGGGAATTTTATTTCAGGGAATTTCAGGAAAAATCTTATCCGGAATCCTGGGAATAACGCTGATATGGACACTTCTTTCTTTTTTCATTCCCTTAAATATGAATGTGGAAATCCCTTCAATACTATTGGGATTATTCTTTTTCTTTAAAAATAAACTTTACCGGGAATTCTGCCTGTTTTCCAAAAAAGATTTTATATTATTGACTGTAAGCGCTCTCACTATTATAATTGCGGGTTCTTTTTATCCTTATATATTAGATCATTTCGGATACTATATTCCCACCCTGAAATGGCTTACAGAATATGGACTGGTAAAAGGAATCTCCAATATAGACCTGACACTGGGACAAATGTCCATATGGCATATTTTTCAGGCAGGATTTTCCAATTTCTCCGATCCGTTTTTGAGAATTAATTCCATACTGCTCATTATCTACAGTATATATATCATTGAAAGAAAGAGCTGGATTCACCTGTGTTTCCTTCCGCTACTACTCTTGTTTTCACAGTCACCAAGCCCGGATCTTCCTGTTATTATTTTTTCTCTCATCATTTTAAATGAAATGATAACCGGAAATAGAAACACCACTCTCCTTTTTGCATTCTCAGTCTTTGTTTTTGCCATAAAACCAACAATGATATGGCTGCCTGTACTCATATTCTTAAGTTCTGTCTTTATTTCTAAGAACAGTTTCAGATCTTTATTTTTAGGAATCATTATTCTGTTCCTTTTCTTTATAAAAAATATCTGGGCATTCGGTTATCCCGTTTTTCCTGTAGCTGTAGGGGATTTTGGAGTATCCTGGAAACCTAATCCCGAAGTATTAAAAATTTCATCACAATTTGCAATCATGAAAACCTATGATATGCAGTATACCTTTGAGGAAATTCAAAAATTTTCAACCACAGACTACCTCATAAACTGGTTTTCTCTGGAAGGAATCAAATCCAAAATTAATATCTTTTTTGTTCTGAGCTTAATTATTTTCTCTGTATTTACCTTGATAAAAAAGAAAAAAATGATCACGCTAATCTGTATCTCATTGCTTATAAAAAGTGTATTAATTCTTGTTTTTTCTGCTCAATACAGATTCTTTTTAGATGTTTTTTTCGTGATATTCTTTGTTATGTTTTACGAATATTTTGATCAGAAAAAATCTGTTATTGTTTTTTCAGCACTCAGCTTATTTTTTATTTCAACCTTGTCTTTTCCTGAATTTATCCAAAAATATATCCCGAGTTTCAGGGCAGGAAGCTTTATGACAGGATTTGAAAAAAAACAGTTTTATCAGCCTTCAACCTACGAATATCATCAGTTTGATACATTTAAAGTCGGAAATTTTAAATTCAATATTTCCCGCAACTATCCTTATAGTTTTGAGACTCCAGTTCCAGCTATTAGTCCAAGCTATATTTTAGATTACGCAGAAGCTGGTATTTTTCCCCAGCTTTCAGACAAAAATGATCTCAAAAAAGGTTTTATCTGGAAAAAAATGACCCCGGAAGAAAAAAAGGAAGTGCAAAAAATTATCAATAATATCAAAAACACTGATAAATAG	MILILFSSVFIIPVLMGWGKIMESIGGILFQGISGKILSGILGITLIWTLLSFFIPLNMNVEIPSILLGLFFFFKNKLYREFCLFSKKDFILLTVSALTIIIAGSFYPYILDHFGYYIPTLKWLTEYGLVKGISNIDLTLGQMSIWHIFQAGFSNFSDPFLRINSILLIIYSIYIIERKSWIHLCFLPLLLLFSQSPSPDLPVIIFSLIILNEMITGNRNTTLLFAFSVFVFAIKPTMIWLPVLIFLSSVFISKNSFRSLFLGIIILFLFFIKNIWAFGYPVFPVAVGDFGVSWKPNPEVLKISSQFAIMKTYDMQYTFEEIQKFSTTDYLINWFSLEGIKSKINIFFVLSLIIFSVFTLIKKKKMITLICISLLIKSVLILVFSAQYRFFLDVFFVIFFVMFYEYFDQKKSVIVFSALSLFFISTLSFPEFIQKYIPSFRAGSFMTGFEKKQFYQPSTYEYHQFDTFKVGNFKFNISRNYPYSFETPVPAISPSYILDYAEAGIFPQLSDKNDLKKGFIWKKMTPEEKKEVQKIINNIKNTDK				NA	NA	NA	NA	NA
BMS003_04327	552			hypothetical protein	ATGAGAAAGATAGTATTAGCAGGTTTTTTATCCGTCTTTTTAATGACGGCCTGCAAGAAAGATGACAGCGTTGCAGAAAAATCACTGGAAGCACAGAAGCTTGAATTTCAGGCCAGACAGCTTGAAATAGAAAAACAAAAACTGGCTATTGAAAAAGAAAAAATAGTCTATGAAGCCCAGAAAAAAGCAGACAGTATATCAGAAAGCAAAAAAACAAGAGCTGCTGAGAATAATTCAAGGTCACAGGTAATAAGAGAAACAAAAACTGTATACAGAGACAGAAGCTCAAACTCCGGTTCCGGAGGAAGCAGCAACGGAAGCTATGCCAATAACGGAAGTAGTACTTCACAGGGAACTACTCAGAAAAAAGGATGGAGTAAAGCCGCTAAAGGAACCGTTATTGGTACTGTAGGTGGAGCTGCTGCCGGAGCCCTGATTGCTAAGAAAAACAGAGGATTAGGAGCTGTAATTGGCGGTGTTGTGGGAGGTGCCACAGGATATACCATTGGTAGATCAGAAGATAGAAAAGACGGAAGGGTACAACCCCGTTAA	MRKIVLAGFLSVFLMTACKKDDSVAEKSLEAQKLEFQARQLEIEKQKLAIEKEKIVYEAQKKADSISESKKTRAAENNSRSQVIRETKTVYRDRSSNSGSGGSSNGSYANNGSSTSQGTTQKKGWSKAAKGTVIGTVGGAAAGALIAKKNRGLGAVIGGVVGGATGYTIGRSEDRKDGRVQPR				NA	NA	NA	NA	NA
BMS003_04328	441			hypothetical protein	ATGAAAAAATCAATTTTTACAGTATCAGCATTTATTGGATTGCTGGCTGTCACAACATCGTTTTCTTCAGGGGAAACCGTAGAAATTAATGTAAACCGTCCGGAAGTGTCTGATAAGGCTCCTAAGACCCAGACTTACAAAATCCGTTATGGGCTTCTTTCGAAAAGCGGAACAAAAATTCTTTCAGGAAATTATGATGTAGGAAGTTTTATTGCTGAGAACATCGCTACAGGAGAAGTGTATGATACGTATTATAGTGGTGGTTTCCAGTCGGTTCCCCAATATTATGACGGTCTACCTGCTGGTACTTATACGTTTTCTGCGATGCAGGGACAAGGTGGATGGGTAGGGTATGGAACAGTAGTTGCTACAGTTTCGGATGCTCAGGTAGATTCTGATGGATATATTACAGTATATATTCCTATCATATGGGAAGAGTAG	MKKSIFTVSAFIGLLAVTTSFSSGETVEINVNRPEVSDKAPKTQTYKIRYGLLSKSGTKILSGNYDVGSFIAENIATGEVYDTYYSGGFQSVPQYYDGLPAGTYTFSAMQGQGGWVGYGTVVATVSDAQVDSDGYITVYIPIIWEE				NA	NA	NA	NA	NA
BMS003_04329	402			hypothetical protein	ATGAAAAAAGTATTATTATCAGGAGCAATGGTACTGTTAGGTACTTTCTGTTTTTCTCAAAACTATTATTTCTACAATAGACAGGAAAGTATAAAATATTCAGACAGCTACGGGCAAACACAATACAAGGTCATTTCAAATGATACTTCAACCTACAAATTTTATTTTGAACTGTCGGCTGATGGAAAAGGAACACAGCTTTTTACAGTGTATAAAAATAATGAAGAAATGTATTGGGCGGCTGAATTAAAAAAATCAGGATATAAAGAGGTTGCAGGTAAAATTTTTAAACAATCTCTGTACTACAATACTGCATCTAAAGAGAATATATATGTATTCATATCTCAGGATTATAAGAGAATTATTGTCATGTCAAGTGATGGAATAGCTGAATATTATTAA	MKKVLLSGAMVLLGTFCFSQNYYFYNRQESIKYSDSYGQTQYKVISNDTSTYKFYFELSADGKGTQLFTVYKNNEEMYWAAELKKSGYKEVAGKIFKQSLYYNTASKENIYVFISQDYKRIIVMSSDGIAEYY				NA	NA	NA	NA	NA
BMS003_04331	1491		COG0750	Putative zinc metalloprotease	ATGGAAATAGCAATCAAACTTTTTCAGTTCATTCTGAGCATCTCTATACTTGTGCTTCTTCATGAGCTTGGGCATTTTTTACCGGCAATATGGTTCAAGACCAGAGCAGAGAAGTTTTTCCTGTTTTTTGATCCTTATTTCTCCATATTCTCCATGAAGAAAATCAACGGAAAATGGCAGTATAAGTTTTTATCAAAGAACTTACCGGATTCTGAAGTAATAGAAGTGAACGGAAAGAAGGAAGAAGTTCCTATCGATATATCAAAACTTCCGGACAATGATTGGAGAAAACATCCTGAACAAACCAAATACGGTATCGGATGGCTTCCTTTCGGAGGATATGTGAAAATTGCAGGAATGGTGGATGAAAGCATGGATACTGCCCAAATGAAAAAACCGGCAGAACCATGGGAATTCAGATCAAAACCGGCTTGGCAGAGACTGATCATTATGTTGGGAGGGGTTACTGTTAACTTTTTCCTTGCATGGTTAATCTATAGTTGTTTATCTTTCTTCAACGGGGAAACATATACGGATATCACAAAATTCAACAACGGTATTGAAGCTACTTCAGCAGGAAAGAAAATGGGATTCCAGAATGGTGACAAAATCATCAGTGTAGACGGAAAACCTGCGGAAAGACTTGAAAATACATCCATTAATATTCTATTAGGAGATCATGTTACCGTAAACAGAAACGGACAGGAGGTTACTTTCCCTGTGAATGCAGATGGCGTAGCAGATGTTCTTAAACAGAAAGAAGCAAAATTATATATCACTCCAAGAGTTTCTATGGTTGTTGATTCATTAGCAACTCCTTCTTCCCAAGCATCTGGTCTTGCGAAAGGTGATAAAATTGTAGGAATCAACGGCAAGAAAGCAGTATTCTTTGATGAAGTAAGCATTCTTCTAAGTGAAAATAAAGGAAAAACAGTTTCTTTAGACATTGAAAGAAACGGAGCTGTACAGACATTACCGGCAGTTTCTGTAGATAAAAACGGAAAACTAGGTATCGCAATTGACACAAAAAGTATTGCAAAAGATATTGTAACGAATAAAAAATATTCTTTCGGTGAGGCTATTCCAAGAGGATTTACAAGAACTATTGAAGCATTGACTACTCAGGTTAAGCAGTTCAAAATTATGTTCAACTCTAAAGTTCAGGGTTACAAAAATGTAGGAGGTCCTATTGCTATTGTTAAAAATATGCCTGTGGATAAAGATGCTGACGGAAGTGTTAAGATCAACTGGGTTGCATTCTGGAGTTTTACAGCAATGTTCTCCGTTTGGTTGGCATTCCTGAACCTAATACCTATTCCGGGACTTGATGGCGGGCACGTTTTATTTACTTTATATGAGATTGTTGTAGGAAAACCTGTTCCTCAAAAGGTTTTGGAAAACGCACAGATGATTGGAGTTATCTTCCTGTTAGGATTGATGTTACTCATCTTTGGAAGCGATATCTTCAAAGTATTTATGGGTAAATTATAA	MEIAIKLFQFILSISILVLLHELGHFLPAIWFKTRAEKFFLFFDPYFSIFSMKKINGKWQYKFLSKNLPDSEVIEVNGKKEEVPIDISKLPDNDWRKHPEQTKYGIGWLPFGGYVKIAGMVDESMDTAQMKKPAEPWEFRSKPAWQRLIIMLGGVTVNFFLAWLIYSCLSFFNGETYTDITKFNNGIEATSAGKKMGFQNGDKIISVDGKPAERLENTSINILLGDHVTVNRNGQEVTFPVNADGVADVLKQKEAKLYITPRVSMVVDSLATPSSQASGLAKGDKIVGINGKKAVFFDEVSILLSENKGKTVSLDIERNGAVQTLPAVSVDKNGKLGIAIDTKSIAKDIVTNKKYSFGEAIPRGFTRTIEALTTQVKQFKIMFNSKVQGYKNVGGPIAIVKNMPVDKDADGSVKINWVAFWSFTAMFSVWLAFLNLIPIPGLDGGHVLFTLYEIVVGKPVPQKVLENAQMIGVIFLLGLMLLIFGSDIFKVFMGKL	PGPT0011685_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
BMS003_04332	441			hypothetical protein	ATGAAGAAATTGTTTTTTATGGTGATGATCTTCTTTTTTGGTGCTATGGCTAATGCACAAGCCTGGACCGGAAAGGGGGATCAGAAAATACAACTGGGGCTGAGTGCCTGGGGATACGGAACCGGGGTGACGGGAACTTATGACTATGGGCTCAACAAACTTATTTCAGTAGGAGCCGGGATCAATGGCTACTTTGACAATTATAAAAATAACGATAAGGATAATCGTGTTTTTGTTTTCGGGAGACTGAATTTTCACTTGCAGGATGCATTGAACCTGCCTTCAAAATGGGATATATATCCCGGGATAGACCTAGGAATACTGGGAAAAGATGTTGGAGTGGGAGCTCACATCGGAGCCCGCTACTTTTTCACAGAGAAAATAGGTGTGTTTGCAGAGGTAGGTAATAATGGCAGTCTTGGCGTTTCTTTCAATTTATAA	MKKLFFMVMIFFFGAMANAQAWTGKGDQKIQLGLSAWGYGTGVTGTYDYGLNKLISVGAGINGYFDNYKNNDKDNRVFVFGRLNFHLQDALNLPSKWDIYPGIDLGILGKDVGVGAHIGARYFFTEKIGVFAEVGNNGSLGVSFNL				NA	NA	NA	NA	NA
BMS003_04333	753	yafV		Omega-amidase YafV	ATGAAAGTTGTAGGGCTTAATTTAGATATCATCTGGAAAAATAAAGCTGAGAATTTCAGGCTCATAGAAAACGAACTTCAAAATGCGGAAGCGGATCTGTTTCTCCTTCCCGAAATGTTTTCCACGGGTTTTTGTATGGATGCTTCCGAAGTCTCAGACAAAAATAATGAGTCTCTGGAATTTTTAAAAAAGATTTCAAAAGAGAAAAATGCGGCATTCTGCGGAAGTGCTCCGGTGGAACAGAATGGAAATTTTTACAACAGAATGTATTTTGTACTGCCAGATGGTACAACTCCTTTTTATGACAAAAGACACTTGTTTTCCTTTTCTGGAGAAGATAAAGTGTATATGCCTGGAAAAGACAGAATAATTGTTGAGTATAAAGGAATACGCTTCCTCCTTCAGGTGTGTTATGATCTTCGTTTTCCTGTTTTTGCAAGGAATAATGGTGATTATGATGCTATTTTATATGTTGCCAACTGGCCTGAAAAAAGGGTAGAAGCCTGGGAACATTTGTTGAAAGCAAGAGCCATTGAAAATTTATCTTTTGTATTTGGTTTAAACAGAATTGGGACCGATGGGAATGACCTGTTTTATCAGGAAAGCTCCCACTGTTTCTTTGGGGATGGAAAAGAAATTTCTCAGAAACAGGGAAATCTTGTATCTGCAGAATTAAATATGGAGGAACTGAAAGATTTCAGAACCCATTTCCAGTTTCTGAATGACAGAGATTCTTTTTCTATTGAATTGTAG	MKVVGLNLDIIWKNKAENFRLIENELQNAEADLFLLPEMFSTGFCMDASEVSDKNNESLEFLKKISKEKNAAFCGSAPVEQNGNFYNRMYFVLPDGTTPFYDKRHLFSFSGEDKVYMPGKDRIIVEYKGIRFLLQVCYDLRFPVFARNNGDYDAILYVANWPEKRVEAWEHLLKARAIENLSFVFGLNRIGTDGNDLFYQESSHCFFGDGKEISQKQGNLVSAELNMEELKDFRTHFQFLNDRDSFSIEL				NA	NA	NA	NA	NA
BMS003_04334	300	trxA_2		Thioredoxin 1	ATGTCACAAAAATTTCAGGAAATCATTGATTCCGAAAGACCTGTACTGATTGACTTTTTCGCAACATGGTGCCAACCTTGTAAAGTACAGTCATCGGTATTAAATACGGTAAAAGAAAATATTGGCGAAAGGGCCAGAATCATAAAGGTAGATGTAGACCAATATCCCGCACTGGCAGCTCAATATGGCGTGCGTGGAGTACCTACCCTGGCGATTTTCAAAAAAGGAGAAATGCTATGGAAGGAAAGTGGTGTTCATGATGTGAATACTCTCACTCAACTTTTACAAGAATATGCTTAA	MSQKFQEIIDSERPVLIDFFATWCQPCKVQSSVLNTVKENIGERARIIKVDVDQYPALAAQYGVRGVPTLAIFKKGEMLWKESGVHDVNTLTQLLQEYA	PGPT0013055_11381	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS003_04335	1410	gloB_2		Hydroxyacylglutathione hydrolase	ATGAAAATTGAACAAATATATACGGGCTGTCTGGCTCAGGGAGCCTATTATATTGTATCAGAGAATGAAGCAGTTATTATAGATCCTTTAAGAGAAGTAAAACCTTATCTGGACCGCCTGGAAAAAGACAATGTCACTTTAAAATATATTTTTGAAACTCATTTCCATGCTGATTTCGTATCAGGACATTTGGATTTAAGTAAGAAAACAGGTGCCCCGATTGTATATGGGCCTACTGCTGCTCCGAAATTTGAAGCCATTATTGCTGAAGACAATCAGATTTTTGAGATCGGAAAAGTAAAAATAAAGGTAATGCACACTCCGGGACATACCATGGAAAGCAGCACTTATCTTTTAATAGACGAAAACGGTGTTGAAACTGCCATTTTTACAGGTGATACGTTATTTTTAGGAGATGTGGGAAGACCGGATCTTGCCCAGAAAGCCACTAATCTTACTCAGGAAGATCTTGCGGGGATTCTGTACGACAGCCTTCAGAACAAAATCATGCCATTGGATGACAGCATTACAGTTTATCCTGCTCACGGTGCGGGATCTGCCTGCGGAAAAAATATGCAGAAGGAAACTGTAGATATTTTAGGAAACCAAAAGAAGACTAACTACGCTCTTAATCAGCCAGATAAAGCATCTTTCATCAGAGAAGTACTGGATGGTTTAACCGCTCCACCAAAATATTTCGGAATGAATGTCGCACTTAACAAAGGAGGGTATGAAAGTCTCGATGTGGTAATGAACAAAGGGTTACAACCCGTTGCACCGGAAGATTTCGAAGCATTGGCAGAGGAAACAGGAGCATTAATTTTAGATACAAGAGGAGCTGCGGATTTCCATAAAGGATTTGTTCCAAACGCTATCAATATAGGACTGAAAGGAGACTTCGCCCCATGGGTAGGAACTCTTATTGTAGATGTAAAACATCCTCTATTATTAGTTACTGACGAAGGTACCGAAGAGGAAGTTATCACCAGATTGAGCCGGGTTGGTTTTGATAATGTGATAGGGTATCTGAAAGGCAGCTTTGAAGCATGGAAAAATGCAGGTATGGAAACTGACGAGGTCAAAAGAATCACTCCGGCTGAATTTGCTGAGCAGTTTACAGAGAAATCTACAGTAATTGATGTAAGAAAACTGACAGAGTATTCTGCAGAGCATATTGACAATGCTTACAACAAACCACTGGATACTATTAGTGATTGGGCTCGTACTATTGATGACTCTGAACATTTCTTTCTGCACTGCGCAGGTGGGTACAGAAGCATGATTGCCGCAAGCATTCTTAACTCTCACGGAATCAGAAACTTTACTGAAATAGAAAGTGGTTTTAATGGGATCAAAAAAACGGAAAAATTCCCGACTACTGATTTTGTATGCCAGTCCAAAACATCTTAA	MKIEQIYTGCLAQGAYYIVSENEAVIIDPLREVKPYLDRLEKDNVTLKYIFETHFHADFVSGHLDLSKKTGAPIVYGPTAAPKFEAIIAEDNQIFEIGKVKIKVMHTPGHTMESSTYLLIDENGVETAIFTGDTLFLGDVGRPDLAQKATNLTQEDLAGILYDSLQNKIMPLDDSITVYPAHGAGSACGKNMQKETVDILGNQKKTNYALNQPDKASFIREVLDGLTAPPKYFGMNVALNKGGYESLDVVMNKGLQPVAPEDFEALAEETGALILDTRGAADFHKGFVPNAINIGLKGDFAPWVGTLIVDVKHPLLLVTDEGTEEEVITRLSRVGFDNVIGYLKGSFEAWKNAGMETDEVKRITPAEFAEQFTEKSTVIDVRKLTEYSAEHIDNAYNKPLDTISDWARTIDDSEHFFLHCAGGYRSMIAASILNSHGIRNFTEIESGFNGIKKTEKFPTTDFVCQSKTS	PGPT0001770_429	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS003_04336	1527			hypothetical protein	ATGGCAGACAAAACACAATTTATTGAAGAACTTAACGCTAGATACACTCCGAAAGGAGAGCACATAATATTAGGAAAAGGAATGTTGGAGGGCGAAGTAGTCACAGAAGTAAATGTAACTATCCCTCTGAAAACAATAAACCGTCACGGTCTTATTGCCGGAGCAACAGGGACTGGTAAAACAAAGACATTACAGGTATTTGCAGAGCAGCTTTCTCATGCAGGAGTTCCATCTTTGGTTCTGGATATTAAAGGAGATTTCTCCGGAATCGCAGAAGCAGGGAAGATGAATGCTATCATTGAAGAAAGATATGTAAAAACACAGCTTCCTTATAATCCGCAGGGTTTTCCGGTAGAACTGATGAGTATTTCCGGAGGAAAAGGAGTGAAATTGCGGGCTACTGTTACTGAATTCGGACCTGTTTTACTAAGCAAGATTCTTGAATTGAATGATACTCAGCAAAGCATCATGTCTATTGTCTTCAAATACTGTGATGATAAGGGACTTCCGTTAATTGATCTTAATGATTTGAAGAAAGTATTACAGTATGTAACGGATAATCCGCAGGGGAAAGCAGAACTGGCTGCCAATTACGGATCTATTGCGCCTGCATCTCTCGGAGCAATTTTAAGATCTATCGTTGCCCTGGAACAGCAGGGAGCAACAGGGTTCTTCGGTGAATTAAGTTTTGATGTTCATGATTTACTGGAAACAAGAGACGGAAAAGGAGTGGTTAATATTTTAAGGGTAGCGGATATTCAGAATAAGCCACAGCTTTTCTCAACGTTTATGCTTTCGCTTTTTGCTGAAATTTATATGACCTTTCCAGAAGAAGGAGATAGTGGTAAACCAAAGCTGGTACTGTTCATAGATGAAGCTCACCTGATTTTTGATGAAGCCTCCAAAGCCCTTCTTTCACAAATCGAAACAATGGTAAAGCTGATCCGTTCCAAAGGTGTGGGTATCTATTTCATTACCCAGATTCCTGGCGATGTTCCGGAAAATGTACTTTCCCAATTAGGATTGAAGATACAGCATGCATTAAGAGGTTTTACAGCGAAAGATAAAAAAGAAATTACCAAAGCTGTTGAAAATTATCCTACCACAGAATATTATAATGCCTCCGGACTGATCCAGAATTTGGGTATTGGAGAAGCATTTGTGACAGCTCTGGATGAAAAAGGAATTCCTACACCATTAGTACACACTTATCTTATCTCTCCCGAATCCAGAATGGACGTTCTGAATGAAGCCGAAATCACTGATCTGACTTCTAAATCGGCACTTGTCGCAAAATATGAACAGGCTATTGACAGAGAATCTGCTTATGAGATCCTGACCAGCAGAATGGAACAGGCTGCACAAAACCCTGCTCCAACCCAAAAAACAAGACCGGTAAAAGAAGAACCGGGAATGTTTGAACAGGTACTACAGAGTAAAGCCGGCCGTACTTTTACCAATACATTGATGAGAGAAGGAGCAAAAGCAATCCTCGGAATGTTTGGTCTGGGAGGCAGAAGAAGATAA	MADKTQFIEELNARYTPKGEHIILGKGMLEGEVVTEVNVTIPLKTINRHGLIAGATGTGKTKTLQVFAEQLSHAGVPSLVLDIKGDFSGIAEAGKMNAIIEERYVKTQLPYNPQGFPVELMSISGGKGVKLRATVTEFGPVLLSKILELNDTQQSIMSIVFKYCDDKGLPLIDLNDLKKVLQYVTDNPQGKAELAANYGSIAPASLGAILRSIVALEQQGATGFFGELSFDVHDLLETRDGKGVVNILRVADIQNKPQLFSTFMLSLFAEIYMTFPEEGDSGKPKLVLFIDEAHLIFDEASKALLSQIETMVKLIRSKGVGIYFITQIPGDVPENVLSQLGLKIQHALRGFTAKDKKEITKAVENYPTTEYYNASGLIQNLGIGEAFVTALDEKGIPTPLVHTYLISPESRMDVLNEAEITDLTSKSALVAKYEQAIDRESAYEILTSRMEQAAQNPAPTQKTRPVKEEPGMFEQVLQSKAGRTFTNTLMREGAKAILGMFGLGGRRR				NA	NA	NA	NA	NA
BMS003_04337	1224	dinG_3		3'-5' exonuclease DinG	ATGTATTCAATTATAGATATAGAAAGTAATGGTGCAGGTTATAGAAATGAATGCATTATAGATATCGCCATTTACAGATATGACGGTCAGAAAATTACAGATCAGTTTATATCTCTGGTTAATCCTGAAGGTGACATCACCCCTTTTGTACAAAAACTGACCAGTATTACCCCGAAAATGGTCAAAACGGCTCCGAAATTTCACGAAATAGCTAAAAGAGTTATTGAAATAACTCAAAATACCACCTTAGTAGGTCATAATATTGACTTTGATTACAGAATGCTTCGTCAGTCATTCAAAAGACTTGGTTATGAGTTTAAAATCAATACTTTAGATACAATTCCTTTAGCAAAAAAACTGATTCCCGATGAGGTAAGTTATTCGCTGGGAAAACTTGTGAAATCCCTTGGGATTCCTTTGACGAACCATCACAGGGCAGAGGGAGATGCAAGAGCAACCCTGGAACTTTTCAAGCTTTTGGTTTCAAAAGATACAGAGAATGAAATCATTCAGAAACAGCATGATGAATCCAATGCAAAAACGTATATCAACAAGATCAAAGAACTTACTCAGGATCTTCCTAATGATAAAGGATTTGTTTATTTTCAGGATGAAGCAGGGCGCATCATGTTCTCGGATTATGTTCAGGATATTAATAAGTTTTCCAAAAAAGTTTTCAATTCCAAATCAAAAAAATGGGAGCAGATCCAGAAAGGTGTTGAACAGATTAATTTTGAACTTACCGGAACGGATATTATTGCCAAACTGATCCTGAATTCCAAGAATATCAAAAAGAAAGAAGTTTTACCTTTCGGTTTGTATTACAGGAATAATAAATATGTGGTTGAGAAAAATACGCTTAATAAAACCGAAAAACCGGTTTTAAAATTCAGATCATTTACGCAGGGAACAAAAGCGGTTCAGTTTATTGGATCTCAGGAAGAATTTAAAGACTTTTCCGTACTGAAACAGAAAATAGAATTCAGAAAAAGGAATGAATTGTGGCTGGGACAGGGACGAAAGCTGGGCGAAAAATTATTTTTAATCATAGAAAACGGAAAAGTAGTTTCCTTTGGTTTTTATGAATTGTTTACGCAGATTCAGACGCTGAGTAAGCTGGCTAAATTAAAAATAGACCTTCCGTTATCTTCCGCAGACCTGAATAATGAGCTGCAGTTGGCACTGCTTCGGAGCGATTTTGAAACGCTGCCGTTGCCAAAATAA	MYSIIDIESNGAGYRNECIIDIAIYRYDGQKITDQFISLVNPEGDITPFVQKLTSITPKMVKTAPKFHEIAKRVIEITQNTTLVGHNIDFDYRMLRQSFKRLGYEFKINTLDTIPLAKKLIPDEVSYSLGKLVKSLGIPLTNHHRAEGDARATLELFKLLVSKDTENEIIQKQHDESNAKTYINKIKELTQDLPNDKGFVYFQDEAGRIMFSDYVQDINKFSKKVFNSKSKKWEQIQKGVEQINFELTGTDIIAKLILNSKNIKKKEVLPFGLYYRNNKYVVEKNTLNKTEKPVLKFRSFTQGTKAVQFIGSQEEFKDFSVLKQKIEFRKRNELWLGQGRKLGEKLFLIIENGKVVSFGFYELFTQIQTLSKLAKLKIDLPLSSADLNNELQLALLRSDFETLPLPK				NA	NA	NA	NA	NA
BMS003_04338	1203	lysA		Diaminopimelate decarboxylase	ATGAATTCAAAAGAATTATTAAAGATTGCCAATGAGTTTGGCACACCAGTGTACGTTTATGATGCTGAGTCTATCAAAGTTCAATACGAAAAACTTACATCTTCTTTTTTAAAACATACTAAGTTCTTCTACGCAGCGAAGGCTTTAACGAATATCAATATTCTTAAGTACGTCAAGAACCTGGGAGCATCTTTGGATTGTGTATCTATTAATGAAGTTAAACTAGGTTTAAAGGCAGGGTTTTCGAAAGAAAAGATATTGTTTACTCCCAACTGTGTAGACCTGGCTGAAATAGAGGAAGCAATGGCTTTCGGAGTTCATATAAACATTGATAACATTTCTATTCTTGAGCAGTTTGGGAATAAATACGGAAACACTTACCCTATTTTAGTAAGAATTAACCCTCATATTTTTGCCGGAGGTAACTATAAAATTTCTACAGGGCATATCGACAGCAAATTCGGTATTTCCATTCATCAGGTTCGTCATATTGAAAGAGTGATGAAAAGTACAAACCTTAATGTAGAAGGACTTCATATGCATACAGGAAGCGAAATCAAAGATCCGGATGTATTTCTACAGGCTTTGGAGATCATGCTGGAGCTTTCCGAACATTTCCCGAATCTGAAATATCTGGATATGGGAAGTGGCTTCAAAATTCCTTATCAGGATAGTGAAGAGGAAACTGATGTGAAAACACTTGGAAAAAAAGTAGAAAAAGTAATCTCTGAGTTTTCAAAATCAACAGGAAAAAAATTCGAATTATGGTTTGAACCTGGGAAATTCTTAGTGGGAAAAAGCGGATATTTATTGGTTAAGGCCAACGTAATTAAACAAACAACAGCTACTGTTTTTGTTGGAGTGAATTCAGGATTTAATCATTTGATCCGTCCAATGTTCTACGACTCTTATCATATGATCGAAAACCTATCCAACCCGAAAGGTGCAGAAAGAATTTATACAGTAGTAGGTAATATTTGCGAAACCGATACATTCGCATGGGACAGAAAACTGAATGAAGTAAGAGAAGGAGATATCCTTGCCTTTCATAATGCAGGAGCTTACGGTTTTGAAATGAGTTCAAACTTCAACTCAAGATTAAAGCCCGCTGAAGTACTGTTCTTAGACGGAAAAGCTCATTTGATCCGTAAAAGAGACGAATTTGAAGATTTATTGAGAAATCAGATAGAAATAGTAATGTAA	MNSKELLKIANEFGTPVYVYDAESIKVQYEKLTSSFLKHTKFFYAAKALTNINILKYVKNLGASLDCVSINEVKLGLKAGFSKEKILFTPNCVDLAEIEEAMAFGVHINIDNISILEQFGNKYGNTYPILVRINPHIFAGGNYKISTGHIDSKFGISIHQVRHIERVMKSTNLNVEGLHMHTGSEIKDPDVFLQALEIMLELSEHFPNLKYLDMGSGFKIPYQDSEEETDVKTLGKKVEKVISEFSKSTGKKFELWFEPGKFLVGKSGYLLVKANVIKQTTATVFVGVNSGFNHLIRPMFYDSYHMIENLSNPKGAERIYTVVGNICETDTFAWDRKLNEVREGDILAFHNAGAYGFEMSSNFNSRLKPAEVLFLDGKAHLIRKRDEFEDLLRNQIEIVM				NA	NA	NA	NA	NA
BMS003_04339	2244			hypothetical protein	ATGACACCTAAAAAACTTTGGATATGGCTTGCTGTAGTAATGATTGCTTCGTTTGCTGTATTGATCTTCTATGGAACTGAAATTTACCGAAAAATCCCTCCCATTCCGGACAAAGTAGTAAGTACAGACGGAACCGTCATTGCTACCGCACAGGATATTAAAGACGGACAGAACGTCTGGCAGTCTATTGGCGGACAAACAGTGGGAAGTATCTGGGGGCATGGTGCCTATATTGCTCCGGACTGGACGGCGGATTACCTTCACCGCGAATCTGTTCTCCTGCTTGATGAACTGGCAAAAAAGGACGGGAAAGTTTATAAAGATCTTCCTGATGATGAGCAGGCCAGATATCAGGTATTGCTGAAAAAAGAACTTCGTACCAATACTTTTAACGAAAGTAAGAATGAAATTGTATTCTCTCCTGAACGGGCTGAAGTGCAGAAACAACTTGCAGAATATTATTCAAAATTATTCATGAATGATGCTTCCATGGCAACGCTCCGTGATCAGTACGCTATTCCTGAGAATACTATTAAAGATACGGAAAGAATGGCTAAAATGAATACTTTCTTTGCATGGAGCACATGGGTATGCATTACGGAAAGGCCGGGAGATGATGTGACCTATACCAACAACTGGCCTCATGATGAATTGGTTGGAAATGTTCCGCCTCCTTCACTGCATTTATGGTCTGGTTTCAGTATTTTACTTTTATTAGGGAGTGTGGGGCTTTTGGTGTTTTATCATGCCAGAAACAAAGAGGAAGAGATCAGCGAAGCGCTTCCCCATGAAGATCCACTGCGAAATATGAAACCAACCCCTTCTATGAAAGCCACTTTGAAATATATTTGGGTGGTTGCCTTACTGATTCTTGTTCAAATGCTTGCCGGAGTCGTCACAGCTCATTATGGCGTGGAAGGAAGTGGGTTTTACGGGATTCCTTTAGATCAGTTTTTACCGCAGTCGGTTTCCAGAAGCTGGCATGTGCAGCTTGCGATATTCTGGATTGCTACCTCCTGGCTGGCAACCGGGCTTTATATTGCTCCGGCTGTTTCAGGACATGAACCAAAATATCAGAAACTGGGAGTGAATATATTATTCGGAGCTTTACTGATTGTTGTACTGGGATCTTTAACCGGACAGTGGCTTGGTGTGATGCAAAAACTGGGTCTGGTAGATAATTTCCTTTGGGGACATCAGGGTTATGAATATGTAGAATTGGGAAGAATCTGGCAGATTTTACTGCTCATTGGGCTTATTCTGTGGTTGATTTTAATGGTCAGAGCATTGCTTCCTGCTTTGAAACGTAAAGATGGAGACCGTCATTTGTTGATCTTATTTACGCTTTCATCCGTAGCGATTGCCCTATTTTATGGTGCAGGATTAATGTACGGAAGACAAACTCACATGGCTATTGCCGAATATTGGCGATGGTGGGTGGTTCACCTTTGGGTAGAAGGATTTTTTGAAGTTTTTGCAACGGTAGTGGCTGCCTTTTTATTTACAAGATTAGGATTATTAAGGTTAAAATCTGCTACAAATGCCGTTTTATTCTCTACTATTATCTTTCTTGGCGGAGGCATTCTGGGAACATTCCACCATTTGTATTTTAGCGCTACACCAACCGCTGTACTCGCATTGGGAGCTACTTTCAGTGCCCTTGAAATTGTTCCGCTTGTTTTGATAGGATATGAAGCCTATCAGAATTATCAACTCAGTAAGTCAACTCCTTGGATACAGGCTTACAAGTGGCCTATCTACTGTTTCATCGCCATGTGTTTCTGGAATTTTCTTGGTGCAGGAATCTTCGGATTTGCCATCAATCCTCCTATTGCATTGTATTATATTCAGGGACTGAATACCACTGCGGTACATGGTCATGCTGCTTTATTCGGAGTGTATGGAATTCTGGGAATCGGATTGATGATGTTTGTTTTGCGTGGGCTTTATCCCGACAAACAATGGAATGATAAATTAATTGGCTGGGCTTTCTGGCTAATCAACATTGGATTGCTGGTGATGGTTACCATCAGTCTTCTTCCAATAGGAATTATGCAGTCTGTCGCTTCCATAAAAGAGGGTTATTGGTATGCCCGTTCTGCAGAATTTATGCAAACGGATATTATGCATTTTCTAAGATGGATGCGGGTGCCTGGAGATATTTTATTGGCCGCTGGTGAACTGCTTTTGGTTATTTTTATCATTGGATTGAAATTTGGCTGGTCATTGAAGGAAAAACGTTAG	MTPKKLWIWLAVVMIASFAVLIFYGTEIYRKIPPIPDKVVSTDGTVIATAQDIKDGQNVWQSIGGQTVGSIWGHGAYIAPDWTADYLHRESVLLLDELAKKDGKVYKDLPDDEQARYQVLLKKELRTNTFNESKNEIVFSPERAEVQKQLAEYYSKLFMNDASMATLRDQYAIPENTIKDTERMAKMNTFFAWSTWVCITERPGDDVTYTNNWPHDELVGNVPPPSLHLWSGFSILLLLGSVGLLVFYHARNKEEEISEALPHEDPLRNMKPTPSMKATLKYIWVVALLILVQMLAGVVTAHYGVEGSGFYGIPLDQFLPQSVSRSWHVQLAIFWIATSWLATGLYIAPAVSGHEPKYQKLGVNILFGALLIVVLGSLTGQWLGVMQKLGLVDNFLWGHQGYEYVELGRIWQILLLIGLILWLILMVRALLPALKRKDGDRHLLILFTLSSVAIALFYGAGLMYGRQTHMAIAEYWRWWVVHLWVEGFFEVFATVVAAFLFTRLGLLRLKSATNAVLFSTIIFLGGGILGTFHHLYFSATPTAVLALGATFSALEIVPLVLIGYEAYQNYQLSKSTPWIQAYKWPIYCFIAMCFWNFLGAGIFGFAINPPIALYYIQGLNTTAVHGHAALFGVYGILGIGLMMFVLRGLYPDKQWNDKLIGWAFWLINIGLLVMVTISLLPIGIMQSVASIKEGYWYARSAEFMQTDIMHFLRWMRVPGDILLAAGELLLVIFIIGLKFGWSLKEKR	PGPT0000350_548	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000350-norB-K04561	NA	NA
BMS003_04340	726	ytfE_2	COG2846	Iron-sulfur cluster repair protein YtfE	ATGAATACAAAAACAGACTTTATAGGAAATATGGTAGCTGAAGATTTCAGAACAGCCGCAATTTTTAAAAAACATGGTATTGATTTCTGCTGTAAAGGTGGAAGAACCATTGAAGAAGCATGCAGCAATAAGAAACTTGCTCCTGAAAAGGTTTATGAAGAACTGGAAGCCCTTCCCAAAAATGAAGGTTCCGAAATAGACTTCAACAGCTGGCCGCTGGATCTTCTGACAGATTATATTGAGAAAACCCATCACCGTTATGTAGAAGAAAAAACGCCCGTTTTGCAGGCATTTCTTGATAAACTATGTAAAGTACACGGAAGCAGGCATCCTGAACTGTTTGAAATCGATTCCTTATTTAATGAATCGGCGCACGATCTGGCCGCTCATATGAAAAAAGAAGAACTGATCCTGTTCCCATTTGTAAAGAATATGGTGAAAGCTAAGATATCCGGCAGTGCTCTTCCCAAACCTCATTTCGGAACGGTAGAAAATCCGGTTCATATGATGAAACATGATCACACAATAGAAGGAGACCGTTTCAGAAGAATTGCAGAAATCACCAATGAATATGTTCCTCCCGCAGATGCCTGCAACACTTATAAGGTTGCTTTTGCCATGCTTCAGGATTTTGAAAATGATCTGCATAAACACATCCACCTTGAGAATAATATCCTTTTCCCAAAAGCGATCCGACTGGAGAAAGAATTTGCCGTAGAATCTTAA	MNTKTDFIGNMVAEDFRTAAIFKKHGIDFCCKGGRTIEEACSNKKLAPEKVYEELEALPKNEGSEIDFNSWPLDLLTDYIEKTHHRYVEEKTPVLQAFLDKLCKVHGSRHPELFEIDSLFNESAHDLAAHMKKEELILFPFVKNMVKAKISGSALPKPHFGTVENPVHMMKHDHTIEGDRFRRIAEITNEYVPPADACNTYKVAFAMLQDFENDLHKHIHLENNILFPKAIRLEKEFAVES	PGPT0012950_191	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
BMS003_04341	429			hypothetical protein	ATGAAAATACACATTATCAACATTATAACAACATTAACTTTAACTGCAATATTATTTTCCTGTTCCAAAACAGAAACAACACCCATTCCACAGCCGGAACCTTATTCTGCCCAACAAAATATTGAACCACAACCTGTAGAAAAAGCTCCTGAAGTTTCTGCTTCCACAAATGCATCGAAACATGAAGGATTGAAGTTAATAGAAGGAACCGACTGTCTTACCTGCCATACAATAGATTCCAAATTAATAGGGCCATCTTACCAGGAAGTTGCCGCAAAGTATACAGATACAGATCTTGATATGCTGACGCAGAAAATCATTGACGGAGGTAAAGGCAATTGGGGCGAAATCCCGATGACTCCTCATGAAGGATTAAGTAAAGAGAATGCGAAACAGATGGTAAAATATATTTTATCCCTCAAAAAGTAA	MKIHIINIITTLTLTAILFSCSKTETTPIPQPEPYSAQQNIEPQPVEKAPEVSASTNASKHEGLKLIEGTDCLTCHTIDSKLIGPSYQEVAAKYTDTDLDMLTQKIIDGGKGNWGEIPMTPHEGLSKENAKQMVKYILSLKK	PGPT0004005_1803	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS003_04342	450			hypothetical protein	ATGAAAATATATCTTAAAAATCCTCTGGTATTGATGTTGCTCTGTCTGATGACAGGAATGTTGATGACCATCAGTTTTTTGGAAACTCCATTAAAGTTTCAGGTTCCGGGAATTACACTTCCAACAGCATTAGGATTAGGAAAACTCATGTTTGGAATCTCTTCAAAAATACAATGGGGATTTCTTATTGCTATACTCATTCTGATGCTCATAAGCCGAAGAAATTATACGAAAATTGATTTTATACTTCTGGCTGTTCTGTTTTTATTACTTGCTTTAGAACATTTCTGGCTGCTGCCTGTACTGGATTCCCGTGTCGATTTACTTTCATCAGGAAAAGCATTATCTCCTACTCCATTGCACGACTATTTTATTTACGCTGAAACAGCAAAAGCTTTGATACTCATTACAGTCATAGTCTTACAATTCAAAAGAAATACAGTTCAATAG	MKIYLKNPLVLMLLCLMTGMLMTISFLETPLKFQVPGITLPTALGLGKLMFGISSKIQWGFLIAILILMLISRRNYTKIDFILLAVLFLLLALEHFWLLPVLDSRVDLLSSGKALSPTPLHDYFIYAETAKALILITVIVLQFKRNTVQ				NA	NA	NA	NA	NA
BMS003_04343	432		COG1959	Putative HTH-type transcriptional regulator	ATGTTTTCAAAAACCTGTGAATATGCTTTAAGAGCTTTGATCTATATCGCCCAGCAGTCTAAAAATGACAGCAGGGTCGGGATTAAGGACATTTCAAAAAGTATTCATTCACCGGAACATTTTATTGCTAAGATTTTGCAGGATCTGAGCAGAAAAGGTTTTGTACAATCTGCCAAAGGCCCGAACGGAGGTTTTTATATGGATCAGAAAAATCTGAATACTTCCATTGCTGATATTGTAAGAGAAATTGACGGAGATAAGCTTTTTGTAGGTTGCGGGCTTGGGCTTGATCAGTGTTCAGAAACCCATCCTTGCCCGCTTCATGATCAGTTCAAAAGCATTCGACAGGATCTTCGAATCATGCTTGAAACCTCAAAAATTCAAATGTTTGTCGATAATCTGGACTTACAGCTGACTCATTTGAGGGCTTAA	MFSKTCEYALRALIYIAQQSKNDSRVGIKDISKSIHSPEHFIAKILQDLSRKGFVQSAKGPNGGFYMDQKNLNTSIADIVREIDGDKLFVGCGLGLDQCSETHPCPLHDQFKSIRQDLRIMLETSKIQMFVDNLDLQLTHLRA	PGPT0013005_1423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
BMS003_04344	813	nimR_3		HTH-type transcriptional regulator NimR	ATGGGATTAATTGCTGCACTTCCGGATATTGATAAAGACGAAAAAAGTGTATTTGTGATGCACGAAAAATCGGAGAAACTGATTCCTTTTCACAAACATACCAAAGGACAGCTGAGCTATGTAGAAGGAGGTATTGCTTATATAACCATCAATAACAGAACGTATGTGGTTCCGGCAAGACATTTTTTCTGGATTCCGCAAGGGATGGAACATATTTTAGAGATCGGGCACACGGCAACCGTTTTGAGATCACTTTATTTTTATGCCCATGATGATTCCGCAGATCCTTTCTATAGCCGTCTGGGAATTTATCCTGCATCGGAACTTCTGATCCAGATGATCAAATATACAGAAATCTGGGACGAAAAACATGTAACTGCAAAAGATGAAAATTTTGAATTTTTAGTGGCTTTAAAAAAGATACTTCCCAAAACTCATAAACAGCCATTACCTATTATTCTCACAGCTACCCACAACAAACAGATGATGAAAATTGTATCTTATCTGGAATGGAATATCGGAGAAAAACTAACCTTAGCCAGTGTCAGCAGCAAGTTTGGATTGAGTGAACGCTCTCTCTCGCGACTTTTCAAAGCGGATATGGACATTTCTTTTCTTCAGTATCTGAAAACCTTAAGAATCATCAAAGCCATTGAATTGCTTTTAAATACAGATAAACCTATCAACGAAATTGCTGATGATGTAGGCTATAGCTCTATCAGCGCATTCAGTGATACTTTTCATGAATTTACCCAATCGAGACCGTCTGATCTGAGAAAGAGTAATAAAGCAACCCAAAACATGTTGGGATAG	MGLIAALPDIDKDEKSVFVMHEKSEKLIPFHKHTKGQLSYVEGGIAYITINNRTYVVPARHFFWIPQGMEHILEIGHTATVLRSLYFYAHDDSADPFYSRLGIYPASELLIQMIKYTEIWDEKHVTAKDENFEFLVALKKILPKTHKQPLPIILTATHNKQMMKIVSYLEWNIGEKLTLASVSSKFGLSERSLSRLFKADMDISFLQYLKTLRIIKAIELLLNTDKPINEIADDVGYSSISAFSDTFHEFTQSRPSDLRKSNKATQNMLG				NA	NA	NA	NA	NA
BMS003_04345	1323			hypothetical protein	ATGAAAACTTATGTCGCCGGATTACTGATGGTTGGAATTTCTTACAACATATCAGCTCAAACCGGCAGTCCAGCAAAGGATACCATACGCCTCTCCCTAAAAGACGCATGGCAGAAAGCAGAAGAAAACAGCCGCCACATCAGAATCAACACCATCAGCGTAGACATTGCTGAAGCCGAAGTAAAAGATGCTAAAAGAGAGCGTTTACCCGAGATTGGTGTAAAAGGTTCGGTAGAAAAAGCATCCAATATTCCGATATATGAAAACGGAATATTTTCCAAACCCACACAGCATGAGGTGATCCATACGCTTTACAGAGCCGGAGCGGATTTTTACCTGAATATTTATAACGGAAACAAGCTGAATCTTAAGATCAAAGAAAACCAGACGCTTCAAAAGATTAAGGATATTCAGAAAGAACAGTCGGTTTCTGATATTCATTACAAAACGGCATCGCTTTATCTTGAACTTCAGAAAACTTTGATTTTCAGAGATCTGATAAAACAGGATATAGAGGATCAAAAGACACAACTCAAAGAAATACAGTCTCTTTATAAGAACGGAGTGGTTTTAAAAAGTGATGTGTTAAGGATTGATCTGGAACTTTCAAAACGAAAAATGACACTCATTACCATAGAAAATGATATTCTGATTGCTACCCAAAAATTGAATATAATTCTCGGAATTCCTGATGATCAGATGGTAATGCCCGAAGCACCCATTAATCAGTGGAATGAAAATATTACTTACAATGAATATCTGAAACTGGCGCTGGAGCATTCTTTCAGTTATCATGTTTCAGAGCAGCAGACAGAATTGAGTAAGCTGAAAGTAAAACAGGTAAAAGCCAATGTAAGACCTAAAATAGGAATGTATGGTGAGTTTTATTATGCCAATCCGCAGATCTTCCTTTATCCCTATAATCCGTATTGGTATTCATTGGGAATTGTAGGAATTAAAGCTTCCTTTTCCATTTCTTCCCTTTATCATAATACGAATAAAGTGAAAGCAGCCCAGCTGGAGTTTGAAAAAGAGGAAGAAGCACACAAGGATACGGAAGATCAGGTAAGACAGCAGGTAAAAGAAGCGTATTTGCGCTATCAGGAAGCTCTGGAGCAGATAAAGGTAGCAGAAGCGAATGTGATTCAGGCCAAAGAGAATGCGCGTATCATTAAGAATACCTATTTCAGCCAGACTTCTCTTATTACAGAATTGCTGGATGCGGATATACAGCTGCTGCAAACTAAATTTGAACTGGAAGCTGCGAAAATTATGGCTCAAAACAATTATTATTTATTACAAAACATTACAGGCATTTTATAA	MKTYVAGLLMVGISYNISAQTGSPAKDTIRLSLKDAWQKAEENSRHIRINTISVDIAEAEVKDAKRERLPEIGVKGSVEKASNIPIYENGIFSKPTQHEVIHTLYRAGADFYLNIYNGNKLNLKIKENQTLQKIKDIQKEQSVSDIHYKTASLYLELQKTLIFRDLIKQDIEDQKTQLKEIQSLYKNGVVLKSDVLRIDLELSKRKMTLITIENDILIATQKLNIILGIPDDQMVMPEAPINQWNENITYNEYLKLALEHSFSYHVSEQQTELSKLKVKQVKANVRPKIGMYGEFYYANPQIFLYPYNPYWYSLGIVGIKASFSISSLYHNTNKVKAAQLEFEKEEEAHKDTEDQVRQQVKEAYLRYQEALEQIKVAEANVIQAKENARIIKNTYFSQTSLITELLDADIQLLQTKFELEAAKIMAQNNYYLLQNITGIL	PGPT0003600_3934	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
BMS003_04346	1065	emrA_5		Colistin resistance protein EmrA	ATGAAAAAAAAATATACTCCTACCGATAGATTGATCACAAAGATTACAGGATGGATTTCAGTTGTAATCGTAGCGGCACTTGCTGTTTGGGGCGGTTTTACCTTAAAGAATTATTATGCTTACGAGCAGACCAATGATGCGCAGGTTCAGGAATATGTTAACCCGATTATTTCGAGAGCGGGAGGGTTTATTGTAGCCGTAAAGTTTGAAGAAAATCAGGAGGTCAAAAAAGGAGATACCCTTTTAATCATTGATAACCGTGAATATATTCTTCAGGAAAAGCAGACTCAGGCAGCCATTCAGAAAGCCCGTGCTCAACTGAGAGTGTTGGAAAGCACTACAGGTACTACAGAAAAGGAGGCCGCTGCCGCAATGGCCCAGGTGGATGCCAGTAAAGCGAAAGTCTGGAAACAGCAGCTGGATTATAACAGATATAAAAAGCTGTATGATGAAGAGTCTGCCACCAAACAACGTCTCGAAGATGTGAAAGCAACACTGGATGTGAATGAAAGCGATTATAAATCGTCACAGGATAATTATGCCGCTTCGGTATCTAAAATAAAAGATATTCAGGCTGAAAAAACAGTGGTCTTAGCTGAAATTGCAAGATTGGAAGCCTTGCTGGACCGTCATAAACTAGATGTAAGCTATACGGCTGTAACAGCAGCTTATGACGGAAGGATGGGACGCAGAACCGTTGAGGTTGGGCAAATGATTGATGCCGGAGAAACCCTCGCATTTATTGTCAATAATGAAACTGATAAATGGGTGGTGGCCAATTACAAAGAAACGCAGATTAAAGATATGCACATTGGTGATCATGTGAAAATTGTTGCGGATTCCTATCCGGACAGAGAGTTTCAGGGAACCATTATTTCGCTTTCTCCGGCAACAGGATCGAGTTTTTCTCTATTGCCACCGGATAATTCTACCGGAAATTATGTGAAAATTGTACAGCGTATTCCTGTAAGGATTAAAGTAGACGGAATAAGAAAAGATATTGATATTCTAAAAGTAGGAATGAACGTGAATGTATATGCCGGTAAAAAACATTCCAATGGTTAA	MKKKYTPTDRLITKITGWISVVIVAALAVWGGFTLKNYYAYEQTNDAQVQEYVNPIISRAGGFIVAVKFEENQEVKKGDTLLIIDNREYILQEKQTQAAIQKARAQLRVLESTTGTTEKEAAAAMAQVDASKAKVWKQQLDYNRYKKLYDEESATKQRLEDVKATLDVNESDYKSSQDNYAASVSKIKDIQAEKTVVLAEIARLEALLDRHKLDVSYTAVTAAYDGRMGRRTVEVGQMIDAGETLAFIVNNETDKWVVANYKETQIKDMHIGDHVKIVADSYPDREFQGTIISLSPATGSSFSLLPPDNSTGNYVKIVQRIPVRIKVDGIRKDIDILKVGMNVNVYAGKKHSNG	PGPT0013750_3008	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
BMS003_04347	1593			hypothetical protein	ATGGTTAAAAGACAGATGCCCTATTTTAAAAAATGGGCTCCGGAATGGCTGGTGAAGATTATTCTTTTTTCCATGACGCTTCCGGGAATCATCATCTTTTTCCTTCCATTGGCGAATGTGAATGCAGCAGCAGGATATTATGGATGTGAACCAGCTGATATTCAGTTTTCTGTAGCATTGTTTTATGCAGGATATGTAGGGTTTTACAGCCTGGAAAGAAGGTTTTTCAGTTTTCTGGCAGCTAAAGAATATTTTCTTCTTTTTACTACACTGCAGATTTTAGCCTGTCTGATCTGCTATTTTACCCGTGAAGTCTATATTCTCTTTCCGGTTCGTTTTATGCAGGGAATGTTGTTTGCAGGGAATGTCAATCTTTCGCTGACCCTTATTTTTACCCGGTTGAGCAGTGAAAGAGGAAGGGAGATCAGTTTTTCTGTGTTCTTCGGGATTCTGCTTTGTGCTTTGCCATTCAATAATCTGATTACGGCAGAGCTCATCGACTCTTATAATTTTAATATTGTTTATAAAACTGCCATATTCTCCTATCTGCCAGGACTTATTTTCCTGACTCTTGTGATGAGTAATTACAGAACCCATGCAAGATTTCATCTCTATAAACTCGATTGGCAGAGTTTCGGGCTGTTCAGTATTATATTGGTTCTGGTAGGTTATATTACCATTTTTGGTCAGGAATATTATTGGCTGGAAGATCACCGGATTATGGGAAGTGTTATCGGAATTATTGTTTTGACAGGAATCTCCATTTTCCGCCAGCAGGCCATTAAAAGACCTTATATTGACCTGCGGGTTTTCAGATACCGGAACTTTAAAGTAGGTTTACTGATTCTTTTTGTAATGTATATCTGCAGGTTTGCATCAGGAATTGTCAACACTTACTTTGCTGCAGAGTTGCACCTGGATCCGTTTCATATTTCTTATCTCAATATTTTCAATCTTGCAGGATTGATTGCGGGAGTCATCATTGCCTGCTGTATGGTTTTGCAAAAGAAAAATATACGGTATATCTGGGGATCTGGCTTTCTGTTGCTGCTGATTTTTCATGGATTAATGTATTATTCTTTTGATGTTCAGGCTGATGAGTTTAATTATTACCTTCCATTATTTCTTCAGGGATTGGGAGTAGGTTTGATTATGGTTCCCACAATCATCTTTATTATTTCATCCGTTCCTGCTGCTATTGGTCCTTCTGCTGCGGCAACGGCTTTGGCAATCCGATATCTTGGGTTTTGTGTAAGTATAGCTCTGATCAATTTTTTTGAGCTCTTTGAAAAAAGCCGTCACTACAATGCTTTCCAGGATCATTTAACTGCGGTGGATCCGGCAGTCAAGACTTTTCTTCACCAGCAGACGGCTAAATTGGTATCCGGAGGCATGCCGGAAGGTAAGGCTGAAAAAGCGGCCAATAAGCTGTTGGTAGGGAGAGTAAATGTTCAGGATCACGTTCGTTTTGCCATGGATTACTATGAAATGATGGTATTTCTTCTTGCCGCCTCCTTGTTGTTGATTTTTATTTTTCCATATCTTAACCGTACCGCTCTTTATTTGAAGTCTCGCAGATTATCACCTGCATAA	MVKRQMPYFKKWAPEWLVKIILFSMTLPGIIIFFLPLANVNAAAGYYGCEPADIQFSVALFYAGYVGFYSLERRFFSFLAAKEYFLLFTTLQILACLICYFTREVYILFPVRFMQGMLFAGNVNLSLTLIFTRLSSERGREISFSVFFGILLCALPFNNLITAELIDSYNFNIVYKTAIFSYLPGLIFLTLVMSNYRTHARFHLYKLDWQSFGLFSIILVLVGYITIFGQEYYWLEDHRIMGSVIGIIVLTGISIFRQQAIKRPYIDLRVFRYRNFKVGLLILFVMYICRFASGIVNTYFAAELHLDPFHISYLNIFNLAGLIAGVIIACCMVLQKKNIRYIWGSGFLLLLIFHGLMYYSFDVQADEFNYYLPLFLQGLGVGLIMVPTIIFIISSVPAAIGPSAAATALAIRYLGFCVSIALINFFELFEKSRHYNAFQDHLTAVDPAVKTFLHQQTAKLVSGGMPEGKAEKAANKLLVGRVNVQDHVRFAMDYYEMMVFLLAASLLLIFIFPYLNRTALYLKSRRLSPA	PGPT0029220_731	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
BMS003_04349	1752			hypothetical protein	ATGATGGAAAACAACAATCAATTCAACAGAAGAAGATTTCTTAAAAATTCATTATTGGCAGCTGGAGGAATTTTCATTGCTCCTTTAATTGAAAGCTGTACTGATGATTTTACAGAAAATGGAAATACCCCTGAGGATCTTAAAAACGAAGGTTTTGAATCCGGAGTAGCAAGCTTTGATCCAAGTGCAACAGGAATCATTATCTGGACAAGATATTCCAAAGAAATTGATGCAGAAATTATCTGGGAAATAAGTAAGAGCAGCGACTTTTCAGAAGTGGTGAGAAGAGGCCAGGCGAATGCCACAATAGTCAATGACTTTACGGTGGCGGTAGATGTCCAGAACATCTCTTCCAATACAAAATATTACTATAGATTTTATAATACTAAGACGAAAGAGGTTAGTATAACAGGAGAAACGCTTACTTTACCCTCAAAATCGGATGCTGTGAATGAGGTGAAAATAGCAGTGGTCTCATGTTCCAATTTTCCTGCAGGTCTTTTTAATGTATACGGAGCAATTGCAAAATCTGAAGCTGATGTCGTAGTGCACCTTGGAGACTACATTTATGAATATGCTCCCGGGCAATATGGAACAAATCCTTATACAAATCAGCTAGGAAGAACCCACCAGCCTGCAAAGGAAATTCTTATCCTCAGCGATTACAGAGAACGTTACAGACAATATAGAGGAGATAAAAACCTTCAGCTTCTTCATCAGAAAAAACCATTCATTTGTGTTTGGGATGATCATGAGTTTGCCAATGATACCTATAAATCGGGAGCAGAAAATCATCAGCCTAATGAAGGCGATTTTCAGGCAAGAAAAATGGCAGCTTTCCAGGCTTACAGCGAATATATTCCTCTTAAAACAGGGAAAGACATGAGAATTTACAGAAGTTTCAGCTTTGGAAATGTCGTTTCCCTTTATATGATGGATACGAGGGTAATTGCCAGGGATAAACAAATGGAATACTCTGATTATCTGGATAACACAGGGAATTTTAACCAGGTACAGTTTAAAACAGACTTTTTAAGTACGAACAGAAAACTGATTGGTAATGAACAGATGTCATGGCTGAGTTCACAGATCAATGCTGATACAGCTAAATGGAAAGTACTTGGACAACAGATTTTAATGACTAAAATGATGATTCCTGCAGAGCTGCTGCTGCTTTTGAACCAGATTCTGGCAGAAATAAAACAATACGGAAGTGCACAGCCGGCCACTATGCTGGCTCTTCAGAATACAATTACACAGTTGATTATCCTTAAAACAAGATACAAACAGCAGGATCCAACCTTGACACCTCAGGAAATTGCCAGAATCACAACTACTTTACCATATAATCTGGATGCATGGGACGGGTACTTCATGGAAAGAGAGCAGCTTTACTCTGTTCTTGCAGGGAAAAACGTTGTAGTATTGGCCGGGGATACCCACAATGCATGGCTGGGAAAATTGACAGATGCACAAGGTAAATTCATAGGAACCGAACTGGCCTGTAGTTCTGTTTCGTCTCCCGGACTGGAAGGGTATCTCGGTATCACTTCTGATCCTACAAAGGCAATAGAACTGGCCCAGGCATTTTCAGTACTTATTGATGATCTGGATTATGCCAACCTTTATAAAAGAGGATATCTGCATGTGAAATTTACTTCCGGAAGCTCAGTGGCAGAATGGAGATTTGTAGACAATATTATTTCGGATACTTATAATGTAAGTACAGAAAAATCCTATACTATTTCATAG	MMENNNQFNRRRFLKNSLLAAGGIFIAPLIESCTDDFTENGNTPEDLKNEGFESGVASFDPSATGIIIWTRYSKEIDAEIIWEISKSSDFSEVVRRGQANATIVNDFTVAVDVQNISSNTKYYYRFYNTKTKEVSITGETLTLPSKSDAVNEVKIAVVSCSNFPAGLFNVYGAIAKSEADVVVHLGDYIYEYAPGQYGTNPYTNQLGRTHQPAKEILILSDYRERYRQYRGDKNLQLLHQKKPFICVWDDHEFANDTYKSGAENHQPNEGDFQARKMAAFQAYSEYIPLKTGKDMRIYRSFSFGNVVSLYMMDTRVIARDKQMEYSDYLDNTGNFNQVQFKTDFLSTNRKLIGNEQMSWLSSQINADTAKWKVLGQQILMTKMMIPAELLLLLNQILAEIKQYGSAQPATMLALQNTITQLIILKTRYKQQDPTLTPQEIARITTTLPYNLDAWDGYFMEREQLYSVLAGKNVVVLAGDTHNAWLGKLTDAQGKFIGTELACSSVSSPGLEGYLGITSDPTKAIELAQAFSVLIDDLDYANLYKRGYLHVKFTSGSSVAEWRFVDNIISDTYNVSTEKSYTIS	PGPT0002575_511	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
BMS003_04350	639			hypothetical protein	ATGACATGGCTGACCAGAACTTTTGGGATGCTTTTATTGTTAGTGGCATTTCTGGTACTGTTAGGATGGCCTGTTGTTTTGGTTGATAAAGTTTCAATATTTATTATAGCAGCAATATTGTACTATCCGGTTCTTGTTTTGGGTTTATATCGCTTTTTTCTTTATCAGAAGAAAATCAGAAAAAAAGAGGTCAGAAAGATCGTTGTTGATGACCTTGGAGTTCATTATGAAAGAGCGAACGGAACGGTAGATGAAATTCTCTATAATGACCTGGGAGAATTTATCTTTTCGGATGAATATGACGTAAGTATCAGCCCCAGAAACAAAACTTATGTGCTGCAGGTATATGAAAATGGCTTCATAAAAGAAATAGATTTTGACGGAAGGGATGGAGGTTACACTTCTTATATTGGAAACCTTAAAGCCTTACGGAGAAAATATATCCAGGGAATTGTACATTTCAGACCAGATTTGCATGTAGACCCTATGGTTTATGATGTTTACTACATCAATCCTGTTGATTTTACCTTTGACCATAAAAAATATTGGACATCATTGGCACAGACTTTTGCAATCATGATATTATGCTGTTTAGTATTAGGAATAGTGATGTTAGGATTGGTTAAATGGCTTTTTTGA	MTWLTRTFGMLLLLVAFLVLLGWPVVLVDKVSIFIIAAILYYPVLVLGLYRFFLYQKKIRKKEVRKIVVDDLGVHYERANGTVDEILYNDLGEFIFSDEYDVSISPRNKTYVLQVYENGFIKEIDFDGRDGGYTSYIGNLKALRRKYIQGIVHFRPDLHVDPMVYDVYYINPVDFTFDHKKYWTSLAQTFAIMILCCLVLGIVMLGLVKWLF				NA	NA	NA	NA	NA
BMS003_04351	1050		COG2220	putative protein	ATGAAAAGTTTAAAAAAACAGCTGGGGCAGTTTCCCGATGAAAAAAGAAAAGGATATTTCAATACACTTCCTAATTATCTCAACGGAAGGTTTCAGAATATATTAGAAACTCCGGCTTTATTAGAGGGGGAAAGTATGACCAAATTACTCCTTCAAAGTTTATGTAAAATAGAAAATACATCACCCAAGGCCGCTCTCCCATTTGTGATAACAGATCTTAAGAACCTTCAGCCGGAAGAAAATGTTTTGGTGTGGTTCGGACACAGTTCCTATTTCATACAGATAGATGGCAAAAAATTTCTGGTAGACCCTGTTTTCAGTGGCAATGCCTCTCCAATGCCAGGTTCTATAAAAGCTTTTCAGGGTGCCGACTATTACAAACCGGAACATATACCGGATATAGACTTCCTGATTATTTCACATGACCATTGGGATCATCTGGATTATAAAACCGTTCAGGAATTAAAAGATAAAGTAGGTAAAGTGATCTGTGGTTTGGGAACCGGGCAGCACTTTGAATACTGGGGCTGGGATCTTAATAAAATCATTGAAAAAAACTGGTGGGAAAGTATAGACATTGCTGAAGGTTTCAGAATTACACTCACTCCGGCAAGACACTTTTCCGGAAGATTACTGAACCGTAATATCTCACTCTGGACTTCATTTGTTTTAAAAACACCCACAAAGAATCTGTTTTTAGGAGGTGATAGCGGCTATGGAAATCATTTTACAGAGATTGGAGAAAAATATGGACCATTTGATTTAGCCATAATGGAAACCGGGCAGTACAATGAAAAATGGCCCTATATTCATACACTGCCGGATCAGCTGATGACAGAAATAAAAGAACTGAGAGCCAAAAACTTTATCCCGGTACACAATTCCAAATTCAAGCTGGCGCAGCATACATGGTATGAACCTTTGGAACTGGCTTCAAAACATGCAGAAGAAAACAATATTGCCATAAGTCTTCCTATGATTGGAGAAAAATTAAATCTGAATCAGTTAGGAACAGTAAGCTGGAAAAAATGGTGGGAAGAGTATAAGTAA	MKSLKKQLGQFPDEKRKGYFNTLPNYLNGRFQNILETPALLEGESMTKLLLQSLCKIENTSPKAALPFVITDLKNLQPEENVLVWFGHSSYFIQIDGKKFLVDPVFSGNASPMPGSIKAFQGADYYKPEHIPDIDFLIISHDHWDHLDYKTVQELKDKVGKVICGLGTGQHFEYWGWDLNKIIEKNWWESIDIAEGFRITLTPARHFSGRLLNRNISLWTSFVLKTPTKNLFLGGDSGYGNHFTEIGEKYGPFDLAIMETGQYNEKWPYIHTLPDQLMTEIKELRAKNFIPVHNSKFKLAQHTWYEPLELASKHAEENNIAISLPMIGEKLNLNQLGTVSWKKWWEEYK				NA	NA	NA	NA	NA
BMS003_04352	840			hypothetical protein	ATGAATACACTGAAAAAATTATGTTATCTGTCTGCAGCTGTACTCTTATCAGCTACTTTTGTTTCATGTTCAAATGATGACAATGAAATGATTATTGAGCAGCAGACTCCCTCACAGGTACTGTCTTCCACTCCATGGGAAACTACCGGAGCGAAGGATAAGAATGGAAATAATGTAGTTCTTACTGATGCCAGCGTTGCCGGATATGTAGGTTTTGCTTATTTCAAGGCAGATGGAAAGTTTGCTATTTATAACCTTACGGATGTACTGAGGTCTATGGGAACATGGTCTGTAGACGCACAGGGAAAAACCAGAACTATTGCCGCATTGAATCCGGATGGAACCACTATTTTCACCCGTGATGTGGAGGTTCTTGTTTTAAACAGAAATGAATTCACGTACAGAATACGGCCTAACTCCGATGATTTTTCTGTGTATTATGATATCATTCATACAAGAACTTCTCATACTGAACCGACGAACGGACAGCTTACTCTGGCCTCTACTCCATGGGAAACAACAGGTGCGAAAAATAAAAACGGAAATAGTGTAGCTTTAACGGATGCCAGTGTAGCCGGATTTGTGGGATATTCTTACTTTAAGGCCAACGGAACTTTTAAAATTTTCGGGTTAAATGATGTATTGAGATCTGAAGGAACATGGTCTATTTCCCCGGATGGTAAAAAGAGAACTTTAACGACTCCTACCTTCACCCGTGTTGTGGATATTCTGGTTCTGAATGAAACAACGTTTACTTACAGAATTACGCCTGATGCTGCTACCCCTGCGGTATTTTACGATATTATTCATACTAAGGTAAACCATAAGGAGCCTTTATAG	MNTLKKLCYLSAAVLLSATFVSCSNDDNEMIIEQQTPSQVLSSTPWETTGAKDKNGNNVVLTDASVAGYVGFAYFKADGKFAIYNLTDVLRSMGTWSVDAQGKTRTIAALNPDGTTIFTRDVEVLVLNRNEFTYRIRPNSDDFSVYYDIIHTRTSHTEPTNGQLTLASTPWETTGAKNKNGNSVALTDASVAGFVGYSYFKANGTFKIFGLNDVLRSEGTWSISPDGKKRTLTTPTFTRVVDILVLNETTFTYRITPDAATPAVFYDIIHTKVNHKEPL				NA	NA	NA	NA	NA
BMS003_04353	120			hypothetical protein	ATGAGAAAAATAATAGCATTGGCAAACTTCTCTATCAAAGGTGTAGAATTTCCCTTCCTTGGAGGGGCGGCAAAAATTCAAAAAATTTTTGACGGGGTGGTTTCCAACCTTCACCAATAA	MRKIIALANFSIKGVEFPFLGGAAKIQKIFDGVVSNLHQ				NA	NA	NA	NA	NA
BMS003_04354	714			hypothetical protein	ATGAATAGTAGAAACCGTGGAAAAAATACAGGAGATGATACCCTGTTCGGCTCAGAGAAACAGATCAGTAAACTGAGACTGGCTGTGGAAGACATGCATTATCTGCTGAGCAGAGAATATCCGGAAAAAGCGGCTTCTGATCTTGTTGGGAATAGATACAGGCTAAAAACCCGTCAAATACAAGCTTTGAGAGGAGCTTCCGCGTCTGCTGTCCAGATTCAAAACAGGCGTTTGAAACAGCTGGAAGTCTCAGCTTTAAAAAGAAAAACAGTTTATCTCGATGGTTTTAATGTTTTGATTCTGTTGGAAAGCCTGCTTTCCGAAGCTTATATTTTTGAAGGACTGGATGGATGTATTCGTGATCTTTCAGGCGTTCACGGGACTTATAAAAGAGTTAATCAAACCTTAAAAGCAATTGAATTAGTAACTTCTTTTTACCGAAAAAATCAGATTCATCAACTGATATGGATCTTTGATAAACCTGTCTCCAACAGTGGAAGAATTAAACAGATTATTCTGGAATTTGCCGAACAGCACCAGCTCAATTGGGAAGCCGATCTGCAATACAATCCTGATAAATTCCTGGCGGAAAGCTCAGCGCTTGTGATTTCGTCTGATGCATGGATTCTGGATCATTGTAAAGAATGGTTTGATCTGATCGGATATCTGATCACAGAAGAAAATCTTCCCATTAATCTGATCAAAATGAAGTAA	MNSRNRGKNTGDDTLFGSEKQISKLRLAVEDMHYLLSREYPEKAASDLVGNRYRLKTRQIQALRGASASAVQIQNRRLKQLEVSALKRKTVYLDGFNVLILLESLLSEAYIFEGLDGCIRDLSGVHGTYKRVNQTLKAIELVTSFYRKNQIHQLIWIFDKPVSNSGRIKQIILEFAEQHQLNWEADLQYNPDKFLAESSALVISSDAWILDHCKEWFDLIGYLITEENLPINLIKMK				NA	NA	NA	NA	NA
BMS003_04355	651			hypothetical protein	ATGAATCTGTTTGAACCCTGTATTCCTTTTTTCTCCGAGGTATGGAAAGACCAATACAAAGCAATTTTAGCACATGAACATCTGGAAAACCTGGAAGAAAATATTCATAAGTTTAAGAATGGGACTTTAAACTGGGATTCTCCCTATTTTAATGAAGAAATAAAAATCAACAGAGAAGAAAGCTTTGAAAAATTGATTACAATTCTTGATGGTAACAATTCAGATGAGGTAAAAGCCAAGCTTCTGGAAACCATTTCAATTGAGCATTGGCTGAACATTTTAGGACAAAGATTAACCTCAGCAAGTATCCGTGATGAAAAAGCAATTCCGCCTTTGAAAGCAACACTGATTTATGCCTGTCAGGAACCCTTCAACAATGAAATAACTATTGCACAGAGAGCCTGGGAAAAACACATTGGAAGAATGGATGATGATTTCTGGGGACAAGTCAAAGGAAATAATCAGCAGAAACAGGAAAAAGTAATGGCAAAAATTAACCATATCCTTGAAAATAAAACCTGGTGGAATGTTTTCTATCATTACAAACATGAGCTGGTTTTCGAAGTCCGCGAAAAAGAAGGGCACGGAATCCGCTGGAGCCATGGAGGAACAAAACTCATCGGTTTCCTGGAAAAATTCATCAACGAATAA	MNLFEPCIPFFSEVWKDQYKAILAHEHLENLEENIHKFKNGTLNWDSPYFNEEIKINREESFEKLITILDGNNSDEVKAKLLETISIEHWLNILGQRLTSASIRDEKAIPPLKATLIYACQEPFNNEITIAQRAWEKHIGRMDDDFWGQVKGNNQQKQEKVMAKINHILENKTWWNVFYHYKHELVFEVREKEGHGIRWSHGGTKLIGFLEKFINE				NA	NA	NA	NA	NA
BMS003_04356	786	tatD	COG0084	3'-5' ssDNA/RNA exonuclease TatD	ATGAACACTTACATTGATATTGGTATTAATCTGACCAATAAACAGTTCTATAATGAACAGGAAGAAATTATCAACCGTGCTTTGGATCATGGTGTTGAACATATGATTCTTACCGGAACAAGCATCAGGGGAAGTAAAGAATCTTCGGAAATTGCAGAAGAATATCCCGAAATTTTATTTTCAACAGCCGGAATTCATCCTCATGATGCCAAATCTTTTAATGGACAAAGCATTAGCGAACTCAGGAAATTATTGAAACAGGGTCATGTAATCTCAGTAGGAGAGTGTGGACTGGATTTTGACCGTGATTTTTCTCCAAGGGTCAGTCAGGAAAAATGTTATCAGGCACAGCTGGAACTTGCCATAGAAGTGGATAAACCCCTTTTCCTTCATGAAAGATCAGCTTTCAAAAAGTTTAATGATATCACAGATGAATATCTTTCCCGATTACCTGAAGCCGTAGTACATTGTTTTACCGGAACGTTGAACGAAGCAAAAATCTATCTTGATAAAGGATTTTATTTAGGATTTACAGGCGCCATCAGTGATGAAAAAAGATTTAAACATCTGGAAGACGTTATAAAATACGTGCCTCTTGACAGGATGATGATTGAAACAGACGCACCTTTTATGCTTCCGAAGAATATGCCCAGAATGCAGAACAGGCGGAATGAACCATCCTTTTTACCTTATGTAGCACAAACAATTGCGCATCTGAAGAAGATCAGCATTTCTGAAGTCGCAGATGAGACCACAGAAACCGCCAGAAATTTTTTCAGACTATAA	MNTYIDIGINLTNKQFYNEQEEIINRALDHGVEHMILTGTSIRGSKESSEIAEEYPEILFSTAGIHPHDAKSFNGQSISELRKLLKQGHVISVGECGLDFDRDFSPRVSQEKCYQAQLELAIEVDKPLFLHERSAFKKFNDITDEYLSRLPEAVVHCFTGTLNEAKIYLDKGFYLGFTGAISDEKRFKHLEDVIKYVPLDRMMIETDAPFMLPKNMPRMQNRRNEPSFLPYVAQTIAHLKKISISEVADETTETARNFFRL				NA	NA	NA	NA	NA
BMS003_04357	711	deoD		Purine nucleoside phosphorylase DeoD-type	ATGAGTATTCACATCAGTGCAAAAAAAGGAGAAATTGCTAAAGTAGTATTGCAGCCGGGGGATCCGCTTCGTGCACAGTATATTGCTGAAAATTATTTAGAAAATGCTAAACTGGTAAGTAAAACCAGAGGGATTTTTTATTATACAGGTCTTTATAAAGGAAAGGAAATCACAGTAGGAGCCAGTGGAATGGGCTTCCCAAGTATCGGGATCTATTCTTTTGAGCTGTTTACAGAATATGAAGTAGATACGATCATCAGAATCGGGACTTGTGGTGCTTACAATACGGATCTTAAGCTTTTTGATATTTTAAATATCGATAAAGCGGCCAGCGAAAGTACTTATGCCAAATATGCATGGGGAATTGAAGACGAAATTCTTTCTCACCAGGGAAATATCTTTAACACCATCAATGAAACGGCTCAAGATTTATCGTTAAATGCTAAAGCTATCAACATTCACAGTAGTGATATTTTCTACAGAAAAGATCCTAATACTCCAGAAATTGCTACCAAATACAACTGCCCGGCAGTAGAAATGGAAGCTTTTGGTTTATTTGCCAATGCCCAGCATTTAGGAAAAAATGCAGCGACAATTCTTACGGTAACAGATATTATCCCTACACACGAAAAAATATCTGCTGATGAAAGAGAAACGGCTTTAAATCCAATGATGGAACTGGCTTTGGAATCGGCAATCAAGAGTTTATAA	MSIHISAKKGEIAKVVLQPGDPLRAQYIAENYLENAKLVSKTRGIFYYTGLYKGKEITVGASGMGFPSIGIYSFELFTEYEVDTIIRIGTCGAYNTDLKLFDILNIDKAASESTYAKYAWGIEDEILSHQGNIFNTINETAQDLSLNAKAINIHSSDIFYRKDPNTPEIATKYNCPAVEMEAFGLFANAQHLGKNAATILTVTDIIPTHEKISADERETALNPMMELALESAIKSL	PGPT0013385_789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
BMS003_04358	147			hypothetical protein	ATGAAGCAGTCTCTCGTTAATAGAATGTATAAAATGTTATTAATAAATGTTTTAAATAAAATTTTAGATAAACTATTTTATATGAATCAAAAAAATAACCTGGTAAATACAGAACAACAAAAGAATAATGTGGAGCGGGTATTGTGA	MKQSLVNRMYKMLLINVLNKILDKLFYMNQKNNLVNTEQQKNNVERVL				NA	NA	NA	NA	NA
BMS003_04359	393			hypothetical protein	ATGAAAATTGAACACATTGCCATTTGGGTTAAAGATCTTGAAAAATCCAGAGCATTTTATCAGAAATACTTCGGAGCGGTTTCCAATGAAAAATACCATAATCCTGTTAAACATTTTCAATCCTATTTTTTAAGCTTTGAGAATGGCTGCCGCCTTGAAATCATGACCAGACCGGATATCAAAGAAAGTAAAAATACCTACGAATCCCAGCAGTATGGAATTGTGCATCTTGCTTTCTCTGTAGACAATCAGCAAAAAGTAGATGAACTTACAGAAATATTGAGAAAAGACGGATATAAAGTTGCCGGAGAACCTCGTACCACAGGAGACGGCTATTATGAAAGCGTAATCCTAGATCCGGAAAACAATATCATTGAAATCGTATCACAATAA	MKIEHIAIWVKDLEKSRAFYQKYFGAVSNEKYHNPVKHFQSYFLSFENGCRLEIMTRPDIKESKNTYESQQYGIVHLAFSVDNQQKVDELTEILRKDGYKVAGEPRTTGDGYYESVILDPENNIIEIVSQ	PGPT0013300_4318	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
BMS003_04360	231			hypothetical protein	ATGACTGATCATATTTCCGTTGCCACCTCCATTGTCATTATCATATTGGGTGTTATGGAGAATGGAGTCCCCAACGAAGTTTCTATGGAAGATACCGCAGTTCTGGAACAGCTAAAGCTTATCAACGAACTCGACAACGAAGAAAAAAATATTCTTCTAAAGCTCATTGAAACTTTCGTTTCTAAAAAACGGTTTAAAGATTATCTACAGAAAAATACTGCTGCATTATAA	MTDHISVATSIVIIILGVMENGVPNEVSMEDTAVLEQLKLINELDNEEKNILLKLIETFVSKKRFKDYLQKNTAAL				NA	NA	NA	NA	NA
BMS003_04361	555			hypothetical protein	ATGAGAACGAAAATAATTTGCACATTAATTTTATTCATTATTTTTTCCTGTAAAAAAGATGAAACTAAGAGTTATAAAGAAGAATTAACCCAATCTATCCAAAAAAAAATTAGACAAGAGTTTAAACAAGATGGTTCTACTTTAGAATCCATTCAACTTATAAAATTCGATACTTTAAAAGAATGGCAGGAAGCTGACTTTGTATCTAACTATTCTACTCAAAGATTGATAATATTAAATAAACAACAGCAACAGTTAACAAAAAAGCTTGAGAATGTTAAAACAATAAAAGATTTGGAACGAATCAAATCACAATATGCAAAAGTAGAGGACAGTATGAAACACGAAATAAAAATTATAAAAAGTGTGGAACATCTAAAACCCAATAATACTAAAACAGGCAACTATCAGTCAATTTTTCTTTTAAAGGTTCATGATAAAAAATCCAATACAGTTAAAAACGATTCGTTATTTATGTTTACAAATGAAAAAAAAGTAATCTTCACATCAACACAATTTATTGAACAGTGTATTAAGAAATTTAATAAAGATTAG	MRTKIICTLILFIIFSCKKDETKSYKEELTQSIQKKIRQEFKQDGSTLESIQLIKFDTLKEWQEADFVSNYSTQRLIILNKQQQQLTKKLENVKTIKDLERIKSQYAKVEDSMKHEIKIIKSVEHLKPNNTKTGNYQSIFLLKVHDKKSNTVKNDSLFMFTNEKKVIFTSTQFIEQCIKKFNKD				NA	NA	NA	NA	NA
BMS003_04362	3621			hypothetical protein	ATGTATAAGAAAATATTTATAAGCCTTGGGTTGCTGTTGAGCCTTCATCACTTCGGACAGGTGGTTTTAACCGCGCCTCCCACTTCGAATACTGAAGTAGCAGACCCACAAAGTATACGGATGGTTCCTGGATTTAGCTTTAGCTCTTCTAATGGAACATTTCGTGCGTACATCGGAGGATCTACTTCTGGTAATGGAGGTACTTATACCCCTATTAGCGTCAATTATTCGTCCACTCTTCCAACGACGGAAAATTATATATATACCAGACAGTACTTAGTTCCGACCACGGTTTCAGACGGATCTCTTCAGCAGATACAAAGCGTACAGTTTTTTGATGGCTTGGGAAGACCTAAACAGTCTGTAAGCATTAAATCTACACCTACCGGAAAAGATTTGGTAACCCATATTCCTTATGACAATTTCGGAAGACAGGTTGACAGCTGGCTGCCGGTTCCAATGAGCTCACTGAGTGGAAATATTCAGACCAATGTAGAAGGTAGTGCCAATAGCTACTATCAGGCAAATGGGATTAATGATTCTTTTCCTTTTAACCATAAAACATTGGAGAATTCTCCGCTTGACAGAGTTTTAAACCAGAAAAATCCGGGTAATGACTGGCAGAGCAAACCTGTTGTTTTTGGATATGAAGCCAATGCAGCCGGTGAAGTTAAAAAATATACCACTATTACCTCATGGGTAGATGATACTACTTCCTCTGAACTCATTGCATCCGGAACCTATGGAGAAGCACAGTTGTATAAAAATACAATAACAGATGAAGATAATAATAAAACCATAGAATTTAAAAATGGTAATGGTCAGACTCTGTTGGTAAGAAAAGTAATCAGTTCTTCAGAAAATGCAGACACCTATTACGTTTATAATGAATATGACCAGCTGGCATTTGTTATCCCGCCTTTAGCTTCTGCTACCACAACAGTCTCTGCTGCGGCAATGGAACAGCTTTGCTATCAGTATAAATATGATGGTAAAAGCAGACTGGTAGAAAAGAAACTTCCGGGGAAAGGCCTGGAGCAAATGGTTTACAATAAAAAAGATCAGGTTATTCTATCCAGAGATACTGCTCTCAAAAATGGAATTGCTAATTTTTCAGCAGATCAGTCATGGTTGTTTACCAAATATGACCGTTTCGGAAGAGTAGTCTATACTGGGGTTACCAGGGATACCAACTCAAGAAATACGATACAGAATACTATTGATAACCAACCTGCGGATACTTTTGAAACCCGTGGTGGAAGCCTTACCTTGAATGGAATTAGCATTGAATACGGAAACACGGCTTATCCTACAACTGTTGATAAACTTCTTACCGTTAATTATTATGATACTTATCCTCAGGAAGCTCCGGCAGTAAGTACGGTTTTAGGGCAGGATGTATTGCCACAGACGACACAGAATTCAATGGTAAGTACTAAAAGTCTTCCAACAGCTTCTTATGTTAAGAATATTGAAAATGACAGTTGGACAAAATCATATACCTATTATGATAAAAAAGGAAGAACAGTTTCTACTTATTCTATGAATCATTTGGGAGGATATACGAAGACGGAAAGCTCCTTGAAGTTTTCCGGAGTTCCGGAGTATAGCCTTGTTGAACATAAAAGGTCAGCTAATGATACCAAAGTAAATATTAAGGAAACCTTTGAATATGATCATCAGGAAAGACTGGTAAGACACTGGAACCAGATAAACGGAGGTGCTCAGGAACTTCTTACGGAAAACCTGTATAATGATCTGGGACAATTACAGACTAAAAATGTAGGAAATACCACAGGCAGCCCACTACAGAGTGTAAAATATGCCTACAACATTAGAGGCTGGGTGACAAAAGTGAATGATCCTGCTAATTTGCAGAACAAACTTTTTGCTTACGAACTGCGTTACAACAATCCGAACAGTCAGTTTTCAGGATCAGCAAGATATAATGGGAATATTTCCCAAATGTCATGGATTACTCAAAATGATGCAGTATTAAGAAATTACTCCTATGAATATGATGGCCTTAACCGACTTAAAGAAGGACGTTTCTGGGATGCAATGAATCTAGAAAGAGGAGAATACCATGAGCAGCTTACCTACGATCTTAATGGAAACATAAAAACACTTTTAAGAAGAGGAAAACAGCTTCCGGGATATACTGCCCCTGAGGTAATGGACAATCTGGAATACCATTATGAAAATGGGGAACAGAGTAATAAGTTGTCTTATCTTAAAGAAATAGGAACCGGAAATGCCATCAGTGGATATCCGTTAGCTTCCGGAAGTACAGGAAGCGCCATTACTTATGATCTTAACGGAAATATGACGACCCAAGTGGATAAAGGAATTTCCTCCATCCAATATAATTATCTAAATTTACCTGAAAAAGTTATCCAAAACTCCAAAGTAACCGATTATATTTACAGAGCGGACGGAGTAAAAGTAAAAAAGGTTTTCGGAACAGAAACAACTGATTATCTTGATGGTTTCCAGTATGAAAACTCTACATTGAAATTCTTCCCAACCTCAGAAGGATATTTTAATGTTGAAACCGGGAAGTATGTATATAATTATACCGACCACCTTGGAAATGTCAGGCTAAGTTATGCTAAGAATGGAGCAGGAACAGAGATCATTGAAGAAAGTAATTACTATCCTTTTGGATTGAAGCATGAGGGATATAATGTATTGACCGGGAATTTAGTGTATAAATATAAGTACAATGGTAAGGAGCTTCAGGAAAGTGGAATGTATGATTATGGGGTGAGGATGTATATGCCTGATTTGGGAAGATGGGGAGTCGTAGATCCGCTGGCGGAAATTAACAGAAGATTTACACCTTATAATTATGCTATAAATAACCCGATAAGATTTATTGATCCAGATGGTAGATCAGAATCGGATTGGATCAGGAAAGACGGGAAATGGCAGTATGATGCCAATGTAACTACTGTAGAACAAGCTCAAAAAATGAAGGATGTAGATGGTTTTGCTAAAAACGGGACTGTTCTTGCCAATGCAAATATTGATGGAGGAAAAACGGGATATGTGAGATTAAATGAAGGGGGAACTGCTGATTTTAATCCTGTGTATGGCTTTGTAGATTCTCTCACAGACGCAATGCCCATGTCACTTGGCGGAACATGGACAACTTGGACTCATGAAAATTTTTTCAGTTTTTCAGGAGGAAACAACGATCCCGACAAGGAAACTCTTAATAAGCTCAGACCAGGAGATACAATTGAAAGTAATAATATGTTTGAGTATATATTTGGTGGATATGGCAGAAATACAAAACTTAGTGGTGGTACTACAGGTTTTCAAGAAGCTCTTGTACAGTTTGGTCTTGATGTAGAAGGTATTGGAAATCCATTTGGAAAATCATCAGAGCCTGCAAACTCCGACACACTTAGTTTTTCTGGTTCTCAAGCAGTAGGTCTTAATATTTATAGAGGAAACGGAAGTGAGATAACTGGTGTTGGTGTTAAAACTCGGGATGTTTATAAAACCAATATGTCAAGAAGTCAAAAGGATTCAATGATTAATAGATTTAATGCTGATGGTGTGAAATTTGGTAGACAAGCTGATTCTATATTAAAAAGAATAACCCCAAGATAA	MYKKIFISLGLLLSLHHFGQVVLTAPPTSNTEVADPQSIRMVPGFSFSSSNGTFRAYIGGSTSGNGGTYTPISVNYSSTLPTTENYIYTRQYLVPTTVSDGSLQQIQSVQFFDGLGRPKQSVSIKSTPTGKDLVTHIPYDNFGRQVDSWLPVPMSSLSGNIQTNVEGSANSYYQANGINDSFPFNHKTLENSPLDRVLNQKNPGNDWQSKPVVFGYEANAAGEVKKYTTITSWVDDTTSSELIASGTYGEAQLYKNTITDEDNNKTIEFKNGNGQTLLVRKVISSSENADTYYVYNEYDQLAFVIPPLASATTTVSAAAMEQLCYQYKYDGKSRLVEKKLPGKGLEQMVYNKKDQVILSRDTALKNGIANFSADQSWLFTKYDRFGRVVYTGVTRDTNSRNTIQNTIDNQPADTFETRGGSLTLNGISIEYGNTAYPTTVDKLLTVNYYDTYPQEAPAVSTVLGQDVLPQTTQNSMVSTKSLPTASYVKNIENDSWTKSYTYYDKKGRTVSTYSMNHLGGYTKTESSLKFSGVPEYSLVEHKRSANDTKVNIKETFEYDHQERLVRHWNQINGGAQELLTENLYNDLGQLQTKNVGNTTGSPLQSVKYAYNIRGWVTKVNDPANLQNKLFAYELRYNNPNSQFSGSARYNGNISQMSWITQNDAVLRNYSYEYDGLNRLKEGRFWDAMNLERGEYHEQLTYDLNGNIKTLLRRGKQLPGYTAPEVMDNLEYHYENGEQSNKLSYLKEIGTGNAISGYPLASGSTGSAITYDLNGNMTTQVDKGISSIQYNYLNLPEKVIQNSKVTDYIYRADGVKVKKVFGTETTDYLDGFQYENSTLKFFPTSEGYFNVETGKYVYNYTDHLGNVRLSYAKNGAGTEIIEESNYYPFGLKHEGYNVLTGNLVYKYKYNGKELQESGMYDYGVRMYMPDLGRWGVVDPLAEINRRFTPYNYAINNPIRFIDPDGRSESDWIRKDGKWQYDANVTTVEQAQKMKDVDGFAKNGTVLANANIDGGKTGYVRLNEGGTADFNPVYGFVDSLTDAMPMSLGGTWTTWTHENFFSFSGGNNDPDKETLNKLRPGDTIESNNMFEYIFGGYGRNTKLSGGTTGFQEALVQFGLDVEGIGNPFGKSSEPANSDTLSFSGSQAVGLNIYRGNGSEITGVGVKTRDVYKTNMSRSQKDSMINRFNADGVKFGRQADSILKRITPR				NA	NA	NA	NA	NA
BMS003_04363	375			hypothetical protein	ATGAAAATTTCTCCTACAGGAAATGCCTTACTACAAGGCAAGCTGGAAGCCAAAGAGCTCAAAGTAACTTTAACGCCAACTGCAGATTTCGTATTCGAAGAAAACTATGACCTTCTCAAACTGGAAGAGGTAGAAAAACATATCAAAGAGAAAAAGCACCTTCCTGAAATTGCTTCTGCAAAAATGATGGAAAAAGAAGGGGTAAACGTTGGAGAATTTCAGATCAAACTATTGCAGAAAATTGAAGAGCTTACCCTGTATGTCATTAAGCAGGATAAACAGCTAAAAGATCAGCAGGAAAAAATGAAGCAATTAGAAACTGAAAATTCAGATTTAAAAAACCTTGCGACAGAAATTAAACAGTTGAAAGAGTAA	MKISPTGNALLQGKLEAKELKVTLTPTADFVFEENYDLLKLEEVEKHIKEKKHLPEIASAKMMEKEGVNVGEFQIKLLQKIEELTLYVIKQDKQLKDQQEKMKQLETENSDLKNLATEIKQLKE	PGPT0022155_5184	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
BMS003_04364	3417			hypothetical protein	ATGATAAATAATAAAATTTTCACTTTATTATTTTGTACAGCAATTGTACATGCCAATGCCCAACAAAATAACCTTATAGGTGATCAAAACAATATCAATAAAGGCAGTAATGTAGTCCCACCGACTCCGCAGGCCAACGAAATGACCCGATACGGAAATCAGCCATTAAATGAATATAAAGGAATGGCTCAGATCAATATTCCTATCGCAGAAGTAAAAGAAAAAAATATATTCAATAAAGTTGAATTAAACTATTCAAAATTGGGTGTAAAAGTAAATGATTTGCCTAATAATGTTGGAGTAAGTTGGTTTTTAAATGCCGGAGGTGCAATAACAAGAACAATTAATGATCTTCCTGATGAAATGCAATTATCCTCTAATAGATTAATGTTTAATACTTCATCTGAGATCGAGAATTTAGTTAATATACCAGATGGATCAAACAATTCATTATTGGTGAAATCATATTTTACTGATGAATCTTATGATAATGAAATAGATATTTTTAGTATTTCTGTAAATGGATTGTCAGGAAATTTTTATTTAGATAAGAATTTAAATCCGGTTTTAACGACAGACAATCATCAGTTCAAAATTGAAACTATTGGTGATTTTAAAACAACGCACCAGTTTGTATTAACCACTAATGATGGAGTTAAGTATTATTTTGGAGGAGATACAGCTATTGAGAAAACTTGGATTCGTGACGCTCCCCTATATTCAGGATACACAAGTTTTTATTTAACAAAAATTGTGAATGTTGAGAATAATGAAATTACTTTTGAGTATCAGAACATAGGTGCAAAGTCATTTCTAAATTCAATAACAGAAAGAAAAGTACTTAGATCTCAGGAATTAAACGGTACTGTTTGTCAGGGAAATGGAACAGGTGCTGTTCCAAGCTATGTCAAAGAAAGTAATCTTCTAAAAATTCAAGATGCAAGAGTCTTAATAAAAATAAAAAGTAAAGAAAAAACAATAAATTTTAATTATAATAACGTGAATGGTATTTATTATAATAAAATTTCATCCATTGATATTGTTAATAATTTTTCAAATAAAAAATACCAGCAAATAAGTTTTGAATATTTAGATTTGTACTCGAAATTAAATGTATCTGTTCTTGAACGATTTTTTTTAACGAAAATAAAAAAATATGACTTTCAGGGAGATATCCCGGTATTTGATAACGAATATTCATTCTCCTATGATGATCCTCAGGGGTTACCAGATAAATACAGCTATAGTGCTGATGTATTCGGGTACTTTAATAATAAACCTAATTCTACACTAATCCCGGATTTAAGATTGTTAGGACTTCCTGAGTTTCCTTATGCTATAGGCGATTTATACAACTATGCGAACAGAACTTCTGATTTTTCGTCTGCAAAAAAAGGAACATTAACTTCCATTACCTATCCTACCAAAGGAACTACTTTTTTTAATTATGAAGCCAGACCGCAAAAATATGCTCTTTTACAAAGTAAAAATAATGAAGTTCGTAGCAATCCTTATGATGTTCCCATAACAGAAAGTACGACAATATTAGATGGAAGTAGTATTATTGATAATCAACTAGCCTTTGATTTAGTGATTACACAAAATGAAATTACTTCTATAACCACAATGCTGGAAGTCAATTTAAAAATCCTTGATGAGGTTACAGGCAGTGTGTTAATGAATGAAGTCATTTCTTTGCCTAAAACTACACAAACAGATATAGACAATGGTTCCAGGACAAAAAACAAAAATTTTACTTTTACCACTGATCCTGCTAAAAGGTATATTTTGAAATTATCATTAGTACCCAAACCAAATGTCAATTATGCAGGTACTTTTACGGTTTCATATAAAAGTGGTTATGGGAGTCAGAATATAGCAGGGCTGAGACTAAAAAAAACCTATGATGCTGATGAAAATAATACTATTACTAATGTCAAGAGAATATACTACTCTTTACTCAAGGATATTAATAATATAGATATTATACCAACCTCCCTTTATCCGACAAGTTATACTACATCTCAATATACTGTAGAAGGTTGTACTGGGGGAATGATTCTTGTGCCATTAGCATATAATCACGATTTTGAGTCATCAGAACTTATAGACCCTTTTTCTGATTACTTTATGTATCCATCATATCCTAACGTTACGATTAGCTATGGAGGTGATAATTTTGAGAAAGGTGGAGAACAAAAAATATTTAGTAATGGATATCATCAAAACCAATTCATTATTAGAACACCTTTGATGCCTATATTTGACGGAAGCTATCAGAATTTTTTTGGTTCTGACGGCTATTTAGGAAGTGTAGTTTCAAATACAGTAAGTTCAATGGACAAAAGTTTTTCTTATGATGATTTGAATGGAAAACTTCTTGAAAATAGAGTTTTTTCTAAATCATCATCAGGACAATTATTTCTTAAAAGCAAAACTTTAAATAATTATGACCTGAAAACCTTAAAAACTGTTTATGATTTGCGAGGTAAGGAAGCATATACATTGTTTTCTTCTCATATAGATTTGCCTCTGGAGACAATTATTTCTAATTATAATATGGTATCATTACCCAAAGAAAGTTATTATTCGATTCTTTCCAATACAAAAAGTACAGAATATTATGAAAATGTACCTGTAGATACACAAGATGACTCTGCTTATAAAAAGCTTACTACAACAACAGCATATTCTTATAATAACACTACTCATTACCAGCTGATTTCTCAGAAGACGACTTTCCAAGATGGTATTGTAAATGAGACCCTTTATCAATACGCTCATGAAAAAGGAAACCAGTTAATGCTTTCAAAAAATATGATTGGAATTCCATTAAAAACAGAAACCAAAAAGAATGATATAACCATTTCTAAAGTAGAATCTTTATACCCTCTTAGTCAGTCAGAAGCAGATTTGAAAACGTCAGGTTTAGTATTGCCTCATACTGTACTTTCTACAGACTTACAAAACATTGTATCCACCGAAGTTACTTACGATAAATACGACAGTAAAGGAAACCTTCAGCAGTACACTACAAAAGACGGTATCTCAACAGTAATTATTTGGGGCTATAACCAAACCCAGCCTATTGCTAAGATAGAAGGAGCCAAACTGACAGATATTCAGCAATCTCTCATCGATACCATAGTCAATGCCTCCAATACCGATGCTTCAGCTTCTTCAAACAATGATGAGACAACCCTTTTATCTGCCTTGAACACATTCAGAAGTAATGCTGCATTATCCGGTTATTTGGTCACAACTTACACTTATGATCCACTGATTGGGGTAAGAAGCATCACCCCGCCATCAGGGATCAGAGAAAACTATCTCTATGATGCTGCCGGCCGACTTGAAAAAGTACTTGATGCCAATGGCAAAGTATTAAAGGAGATGAAATACAACTATAAACAATAA	MINNKIFTLLFCTAIVHANAQQNNLIGDQNNINKGSNVVPPTPQANEMTRYGNQPLNEYKGMAQINIPIAEVKEKNIFNKVELNYSKLGVKVNDLPNNVGVSWFLNAGGAITRTINDLPDEMQLSSNRLMFNTSSEIENLVNIPDGSNNSLLVKSYFTDESYDNEIDIFSISVNGLSGNFYLDKNLNPVLTTDNHQFKIETIGDFKTTHQFVLTTNDGVKYYFGGDTAIEKTWIRDAPLYSGYTSFYLTKIVNVENNEITFEYQNIGAKSFLNSITERKVLRSQELNGTVCQGNGTGAVPSYVKESNLLKIQDARVLIKIKSKEKTINFNYNNVNGIYYNKISSIDIVNNFSNKKYQQISFEYLDLYSKLNVSVLERFFLTKIKKYDFQGDIPVFDNEYSFSYDDPQGLPDKYSYSADVFGYFNNKPNSTLIPDLRLLGLPEFPYAIGDLYNYANRTSDFSSAKKGTLTSITYPTKGTTFFNYEARPQKYALLQSKNNEVRSNPYDVPITESTTILDGSSIIDNQLAFDLVITQNEITSITTMLEVNLKILDEVTGSVLMNEVISLPKTTQTDIDNGSRTKNKNFTFTTDPAKRYILKLSLVPKPNVNYAGTFTVSYKSGYGSQNIAGLRLKKTYDADENNTITNVKRIYYSLLKDINNIDIIPTSLYPTSYTTSQYTVEGCTGGMILVPLAYNHDFESSELIDPFSDYFMYPSYPNVTISYGGDNFEKGGEQKIFSNGYHQNQFIIRTPLMPIFDGSYQNFFGSDGYLGSVVSNTVSSMDKSFSYDDLNGKLLENRVFSKSSSGQLFLKSKTLNNYDLKTLKTVYDLRGKEAYTLFSSHIDLPLETIISNYNMVSLPKESYYSILSNTKSTEYYENVPVDTQDDSAYKKLTTTTAYSYNNTTHYQLISQKTTFQDGIVNETLYQYAHEKGNQLMLSKNMIGIPLKTETKKNDITISKVESLYPLSQSEADLKTSGLVLPHTVLSTDLQNIVSTEVTYDKYDSKGNLQQYTTKDGISTVIIWGYNQTQPIAKIEGAKLTDIQQSLIDTIVNASNTDASASSNNDETTLLSALNTFRSNAALSGYLVTTYTYDPLIGVRSITPPSGIRENYLYDAAGRLEKVLDANGKVLKEMKYNYKQ				NA	NA	NA	NA	NA
BMS003_04365	444			hypothetical protein	ATGCTGTATCTGGATCACAATGGCAATGAGCAGTGGAGAAAACATGTAAAAGGAGAATCCAGAAAAAAGGAAGAAAGACTTTCTGATTTGAAGCTTAACAGAGACGGCTCCATTATTCTGGCCGGAACCAGCGCCGAAGAACTGGGCAAAGAAAACTGGAAAATAGTGAAATTGGGCGACAGGCAGGTGAATGATCTGATTGAAAAATATGACATCAAGATCTATCCAAATCCAGTGTCAGATTATGCGTATGTGGAAATTGGTTTTGATTTCAAAGATGCTGATATTCTGTTGTATGATATGAGCGGAAGACAGCTGCAAAGTGTAAAAACCAAGAATAAAGTGACTAAGATTAATACCCAGACTTTGGTTCAGGGTGCTTATCTGGTGACTATTAAAACCGATGCCAATAAAACGGCGAATGCTAAACTTATTAAGAAGTAA	MLYLDHNGNEQWRKHVKGESRKKEERLSDLKLNRDGSIILAGTSAEELGKENWKIVKLGDRQVNDLIEKYDIKIYPNPVSDYAYVEIGFDFKDADILLYDMSGRQLQSVKTKNKVTKINTQTLVQGAYLVTIKTDANKTANAKLIKK				NA	NA	NA	NA	NA
BMS003_04366	606			hypothetical protein	ATGAACCAAAAATTATATGCTTTAAGCTTGTTAGCTTCTATTTTTTACACAAATACTGTTTTTGCTCAGGAAAGCACTTCAGTACAAACCCAACAATCTACTACTGAGTTTACAATAACCAAAGCACAAGGATTAACAAGTTTCATTGTCATTCCTTGTGAAGGAAAAACAAAAGAAGAGCTTTATAAAAAAACAATTGAATGGATTAACAAAAATTATAACAAACCTAGCGAGGTTATAAAAGCTCAGATTGAAAATGATTATATACGTTTTCAAGGTGTAAGTGCAGAGGAAATTTATTGTTCAAATAACATGATAAAGGTTTGTAGTAACATCAAGTATAATATTGAAATCTCTTTCAAAGATGGAAAGTATAAGTTTGCCGTATTGAAACTTGAGGAGAATGGCAAGGATATAAGAGGAATATCGCATTGGGGCGAATTGAATTTTGTTAATAGCTGGACTCATTTCAAAAAAGATGGAGAAGTAAGAAAAATGTACCAAGATGCTATTAAAAACGTTTCAGGCTACTTCAACGACCTTAGCAAAACACTTTACGATTATATCTATAATTTAAATGAAACTGCAAAAAACGATAATTGGTAA	MNQKLYALSLLASIFYTNTVFAQESTSVQTQQSTTEFTITKAQGLTSFIVIPCEGKTKEELYKKTIEWINKNYNKPSEVIKAQIENDYIRFQGVSAEEIYCSNNMIKVCSNIKYNIEISFKDGKYKFAVLKLEENGKDIRGISHWGELNFVNSWTHFKKDGEVRKMYQDAIKNVSGYFNDLSKTLYDYIYNLNETAKNDNW				NA	NA	NA	NA	NA
BMS003_04367	1026	ftsH_2		ATP-dependent zinc metalloprotease FtsH	ATGAGCCAAGCCGACTACATAAAAGATATTGCTAAATTTGGTTTAGAAAACGATCGAAGTAACTTATTAAATGTTCTTAATGAGCTTATTGAGCATTCCAAAAAGACAAAAAAAATAAATTTAGCTATACAACTTCAATCTATTTTAAAAGAAAGCTTAAAACAGCCCAATAATACCCTTACAAAAGTTGGCTCCGATTCTTATTACAATAAAGTAGAAGACCGTGAATTTAATGAGCTTATTCTAGAAAAAATAACTTCCGATTATACACTTTCAAATATTGTAGTTGATTCTGACATCAAAAATGATCTTAATTTTTTCATTGAAGAACATGAAAATATAGATATATTAAGAAAATTTGATCTTCCAGTATCAAACAAAATACTTTTACATGGTCCATCGGGATGCGGAAAAACTTTAGCATCTTATATAATTGCTGGAGAGTTAAAAAAAATGATGATGGTCGTAAATCTGGGGTCCGTTGTCTCTTCTAAATTAGGAGATACTAGTAAAAATTTATCTAAAATATTTAGAAACGCCTCAGCTGAAGATTGTATTATTTTTATTGATGAATTTGATAGTTTAGGAAAAGTTAGAGATTATAATCAAGATCATGGAGAAATGAAAAGAGTTGTTAATACTATACTGCAACTTTTTGATTATTTACCACAAAGCAGTATTATCATTGCTGCAACAAATCAAAAAGAAATGATTGATGATGCACTTCTTCGAAGATTTGATTTTTCTATTGAGTTTTCATTACCTAATGAAAAACAAATCAATGATTTGTTATCTTTAACTTTAGATAATGGAAAATTTGAGTTCGATAATAAAACTATAGCTAAAAAAATTGCTAAAAAAGCAATTGGCTTATCTTATTACAGTATTCAAAAGACTTTAATTACTGCAATAAAGAGAAGCCTTTTTGAGCTTTCTAAATCACCAGCATTTTTTCAAACGGCAAAAATTAAAACTACTATTTGGAACGAGTTAATCGAAAAGGAAAAAATTTCACTGAATTTATAA	MSQADYIKDIAKFGLENDRSNLLNVLNELIEHSKKTKKINLAIQLQSILKESLKQPNNTLTKVGSDSYYNKVEDREFNELILEKITSDYTLSNIVVDSDIKNDLNFFIEEHENIDILRKFDLPVSNKILLHGPSGCGKTLASYIIAGELKKMMMVVNLGSVVSSKLGDTSKNLSKIFRNASAEDCIIFIDEFDSLGKVRDYNQDHGEMKRVVNTILQLFDYLPQSSIIIAATNQKEMIDDALLRRFDFSIEFSLPNEKQINDLLSLTLDNGKFEFDNKTIAKKIAKKAIGLSYYSIQKTLITAIKRSLFELSKSPAFFQTAKIKTTIWNELIEKEKISLNL				NA	NA	NA	NA	NA
BMS003_04368	2418			hypothetical protein	ATGAGTAATAAATTTGTTTATTTAAATAATGAAATAGGTAGTCAAATAGGTTTTGATCGTCAAAGAAGAGTTGATGCTCCAGAAAGAGAGCAAAATACAGTAATAAATGAAGATAGAAAACGTATTTTACGAAACTTTAAAACTGAATTTATACAGAAAAGAAGAGTTAGGGCTGAAAAGAAAACAATTCAACTTACAAATGTTGAATTAATTAGAATTCATTTTTTTAAAACATTTGATAATACTCTTCATAGGGCTTTTTTAAGAAAATATGGAATTAGCCCACTAGAATATACTGATTTTAATAGGACTGTTTTATTTCAAATCGAAAATACAGAATTATTTACTGTATTTTTAGAACATATTGATAGTATTATTAACAGTGGTGAAGGAGTTTCATATCATGGTGAAGAGTATAATTTATTAGCGCTAATTTATAAATTTTCTTTTTATAGTAGTGAAGACAGAACATTAACTTTTTCTGAACAAGGAAATCTTATTTCATTTATTTATACACATTTAGAGGGTGTTTATAACGAGCAAAAAGATGCTTTGTTCAATGAGTTAAGAAGGAGAGGTATACAGTTTACATATTTTGAAAATACTCCTTATATACTCGAAATTCATAACATCTCTCCAACAAATCTAGATCTAATTGTAGATAATTTTGATATTGTTAAAACTGTAACAAGTTCAAGAGTTGAAAATATTCGAAGAAGTATTGCTGGTCCAATAAAGGAGTATGGATTTGTTGTTAATGTAGATGAAGACATTCCTTTAGTGGGAGTTATTGATACAGGAATAGCTAGAATAGCGCCTTTTGAAAATATTATAGATCGGGTATCTTATAACCATACAGCTGTAGAAACATTTTGGGATGAGGAAGGTCATGGAACTCTTGTTTCAGGTTTAATTGTATTAGGTGATGAATTTTATAAAGAAGATAAAGCCGTTTATAATGCAAAGGCAAAAATAATTAATATAAAAGCTCTTCATAGAAGTAATGATGAACTGAATATTCCGCTTTTAATAGGTAATTTAAGAGAAATCAGAAAGACTTATGGTGTTAAACTTTTTAATATGTCACTTGTGCTCCCAAATGCTAAAAAATATAATTCTTCTTACAGTAGATTTGCATACGAATTAGATAAATTAGCGCACGAAGAAGATTTAATTGTTTTTATTTCTGTAGGAAATTTTGATGCTGAAAGCCTAGAGTTATTAAAGGGTGAATATTATCATGAAAATCATGACTATCCCGTTTTTTTTCATTTATTAGATAGTGAATCTGAGTCTCATATGTGTGAGGATACAAATATTTGCAGCCCTGCTGAATCTTTAAATAATATTTCAGTGGGTGCAATCGCAGATAATTTAGAAGAAGGAGATAATTCCGATATTACTCCTTCCTCATTATACCCTGCACATTATACAAGAAAATTCCATATAGACTTTAACAAAGAGATTAATGGAGTAAATATAAGTAGATTGAAAAATAAAAATCTTAATAAACCAGATTTCATTATGGAAGGTGGAGATTTGTTTGCTTTGAATTCAGGAATAAACATTCTAACTTCTCCTTTAGCTGATGTTGAAAGATTTTATGGGAAAACTTCAGGAACAAGTTTAGCAACTCCACTTTTAACTTCTTATGCTGCTGAAATTCTTAGACAGTACCCTGATATACGGGCCCAAACAATAAAAGCAATTCTTATAAATAGTTCTTCATATTATAATGCGAATAAATTTCCTCATTTTAATGGTAAAGATGATCTTCTGAAAAGTTTAATAGGTTTTGGAAAACCCTCAAAGCATTATATAAAAGATACAGATAATAATTCTATTGTATATATTCTTGAAAAAGAAATCCAAATAGAGCAAATTATTAAATATCCAATTTTTATTCCTCCATATATGCTGGCAAATGGGAATAAATTAAAGTTTGATATTTCGCTTGCATATAGTTTTGATCCAAAAGAAGATAATCATCTAAATTATCTTCCGTTGCATATGTCTTTTTGTATTGTGAAAAATGTTCCTATACAAGGAGTTGCTGGTAAAAAGATTGATTATGGTATAAAAGATAGTTTTTCTTGGAGTGAAGACCATTTTGGTATCGATAATAGAATTTTTTCTAATGCTCAAAAAAAATCTTTTACTCTACAGCCTCATGATATTGTTAATGTTGATGGTTCGGTTGCACTTGCTATTAGATGTCTGGCTAAAACTGATTTTAAATCTATCTTATCAGGGTTAAATCACCCTTTTTCTGTAGCTATTCGAATAACAGAGTTGATCTCAAATGAAAATGAACCTCAACAAAATTTGTACACAGAAATGATGAGAATTAATGCATATCTAGATATTGAAAATGATTTAGATGCAGGGGTGATTGGTGATTTATTTCAAGAATTATAA	MSNKFVYLNNEIGSQIGFDRQRRVDAPEREQNTVINEDRKRILRNFKTEFIQKRRVRAEKKTIQLTNVELIRIHFFKTFDNTLHRAFLRKYGISPLEYTDFNRTVLFQIENTELFTVFLEHIDSIINSGEGVSYHGEEYNLLALIYKFSFYSSEDRTLTFSEQGNLISFIYTHLEGVYNEQKDALFNELRRRGIQFTYFENTPYILEIHNISPTNLDLIVDNFDIVKTVTSSRVENIRRSIAGPIKEYGFVVNVDEDIPLVGVIDTGIARIAPFENIIDRVSYNHTAVETFWDEEGHGTLVSGLIVLGDEFYKEDKAVYNAKAKIINIKALHRSNDELNIPLLIGNLREIRKTYGVKLFNMSLVLPNAKKYNSSYSRFAYELDKLAHEEDLIVFISVGNFDAESLELLKGEYYHENHDYPVFFHLLDSESESHMCEDTNICSPAESLNNISVGAIADNLEEGDNSDITPSSLYPAHYTRKFHIDFNKEINGVNISRLKNKNLNKPDFIMEGGDLFALNSGINILTSPLADVERFYGKTSGTSLATPLLTSYAAEILRQYPDIRAQTIKAILINSSSYYNANKFPHFNGKDDLLKSLIGFGKPSKHYIKDTDNNSIVYILEKEIQIEQIIKYPIFIPPYMLANGNKLKFDISLAYSFDPKEDNHLNYLPLHMSFCIVKNVPIQGVAGKKIDYGIKDSFSWSEDHFGIDNRIFSNAQKKSFTLQPHDIVNVDGSVALAIRCLAKTDFKSILSGLNHPFSVAIRITELISNENEPQQNLYTEMMRINAYLDIENDLDAGVIGDLFQEL				NA	NA	NA	NA	NA
BMS003_04369	1989			hypothetical protein	ATGGAAAACCAACTATTCATTCATGTTGATGAAAATCAACTAAATACATATTTAATTGAACAATTTAAAGAATATATAAAACATCATTTAGAAAAACAAATTTATTTATTAACATCTCCTTTGGGAGAAAAGTATTTTTATCAAAATGAAGAAAATTATCTTGTAATTCTACATCCTAAACACAAAATCGTGTTTTTAAATCTTATCGATGATACTAATGCATTTAATAACTTTGTAGAAGACTTTATAGAAGATTTAAATTCTATTTCTGACAAGTATAAATACAAAAACCATATTGGCAGACCAAGAGATTGGAAAGATATTAATACAATAAGGCTGAATATTGAAAATATAAATAGTATTGATGAAATATTAGAATATGCAAAATTAGAAGACGCAAAAGACCAAAGAGTTAGTGATCTATTAATTTCTTTATTAATCGGAAGTATTAATGACATAGATAAAATTGGTTCAGAAGTTCCTGACACTTTGTTAGAAAAAGTTAAAAAAAATATCATCTTATTCGATGGTGATCAAACACGATTTATTTATCAAGATTTTTCAAATAAACTGGTTACGATTCAAGGGCTATCTGGTACTGGAAAAACAGAATTATTACTGCACAAATTAAAAGACTTATACATTAATGAAGAGAATTCGAAAATGTTCTTTACTTGCCACAATATTGCGCTAGCAAATACATTAAGAGAGCGAATTCCTGAATTTTTCAATTTTATGAAGGTTGAAAAGCAAATTGAATGGAATAAAAGATTATGGGTGGATAGAGCTTGGGGTTCAAGAGGTGATAAAAATTCTGGAATTTACAGTTATATTTGTGATTTTTACAATATACCATTTTTAAGATATAGCCCCGTAACTGATTATAAAAAAATATTCTCTCTAGCCTTAGAATATCTTGACAATATCAGTGAAGAAAATTTTGAATATGCATTTGACTATCTATTAATTGATGAAAGACAAGATTTTCCAGATGTATTTTTCAAAGTATGCGAAAAAATAACACGAAAAAAAGTTTATGTTGCTGGAGATATATTTCAAGATATTTTTGAAAATTCAAATAAAGAAGTTTTAAATGTTGATGTCATTTTAAATAAATGTTATCGTACTGATCCACGTACATTAATGTTTGCACACGCTGTAGGTTTAGGTCTTTTTGAACAAAAAAAATTAAATTGGTTTTCTGATGACGAATGGAAAGCATTCGGTTATAATCTAGATAGATTGCCAAATAGAGAATTACATTTTAGTAGAATGCCAATCAGAAGATTTGAAGATATTGATATTGATTCTTTTACAAGTATGGAAATCTCTGAATCTACTGTCATTAATACAGTTATTGATATATTAAAATCAATTATCCAAAATGATAATAATGTAAAACCTGATGATATTGCAATAATTATCCTTGACGATAATAACAAAATTTATGACTATATAGACAGACTTGCAACAGGTATTTATAAAGAGTTCCAATGGAATATCAATAGGGCTTATGAAAATAAAATAAAAATTCAAAATTCTCTCTTTATTTCTAATGCAAACAATGTAAAGGGATTAGAATTTCCGTTTGTAATTTGTATAACAAATACGATAAAAAATACCTATAAATATCGAAATGTTTTATATACAATGCTAACAAGATCCTTTATAAAATCATATCTCCTTATGAATAAAGGCCCTAATATCGATTACCTAATCCAAGGATTAGAAACAATAAATAAACATAAATTTATAAAAACAATCGAGCCTACAGATAGAGAAAAAGAAGAAATAAAAAGCAATCTTGTTAAATTTCTTACAAGACCACAAAAATCTTATAAAGAGTTTCTTGATGAAATATTTGATAAGCTTGAAATAGAAGATACTAAAAGAGCTCCATTAGAAGAAATGCTATTAAAGGCTAATATTCAAAAGTTTGATAAAGCTGGAACAATTGATTTTATAAATAGTGTGAAAAAATATGTATGA	MENQLFIHVDENQLNTYLIEQFKEYIKHHLEKQIYLLTSPLGEKYFYQNEENYLVILHPKHKIVFLNLIDDTNAFNNFVEDFIEDLNSISDKYKYKNHIGRPRDWKDINTIRLNIENINSIDEILEYAKLEDAKDQRVSDLLISLLIGSINDIDKIGSEVPDTLLEKVKKNIILFDGDQTRFIYQDFSNKLVTIQGLSGTGKTELLLHKLKDLYINEENSKMFFTCHNIALANTLRERIPEFFNFMKVEKQIEWNKRLWVDRAWGSRGDKNSGIYSYICDFYNIPFLRYSPVTDYKKIFSLALEYLDNISEENFEYAFDYLLIDERQDFPDVFFKVCEKITRKKVYVAGDIFQDIFENSNKEVLNVDVILNKCYRTDPRTLMFAHAVGLGLFEQKKLNWFSDDEWKAFGYNLDRLPNRELHFSRMPIRRFEDIDIDSFTSMEISESTVINTVIDILKSIIQNDNNVKPDDIAIIILDDNNKIYDYIDRLATGIYKEFQWNINRAYENKIKIQNSLFISNANNVKGLEFPFVICITNTIKNTYKYRNVLYTMLTRSFIKSYLLMNKGPNIDYLIQGLETINKHKFIKTIEPTDREKEEIKSNLVKFLTRPQKSYKEFLDEIFDKLEIEDTKRAPLEEMLLKANIQKFDKAGTIDFINSVKKYV				NA	NA	NA	NA	NA
BMS003_04370	660			hypothetical protein	ATGAAAGAATTTGCATTTGAATTAAATGAGAGTATTATTCAAGTATTCTTTCCACATGAAAGAATAAAAAATAAAATTCAAGTTTTAAAAATATTGATTGAAGCTACAAGATTTATAATGTATAATGATTTTACTGATAATAATTGTAATCACAAGCTTGTATTAAAAATAAAAAAAATGAGTAGATTATTTTTTATCACAAAAAATAAATACTATTCAATAAATTTCCCTTTTACATTTTATAAAAGTGATACTTCTATTGAAATAACATATAAGAATCAAATTGTTATTGATTCAAAAATTTTGTCAGATATTTTATCTATTATAAATGATAATCGTTTTAATAGTTTAGATTGTTTAGACTTTATAGAACCATTCACTGATTTTGAAAGCAAGTATTCTGAGCAAATTTGGTTTTTATTAAAAGAATTATTAATTCTAGAGGATGGCTATGTGAGATTTGATAATGATAAAGAGAGCTTTGAAAAGGCTAAAGCAAATAAAACACCTCACAGACACCCAGAAAATCATTTTGATATTTTTTATACATCATCAAATAATATAAAAATAGGCTTATTAGATCTTATTAATGACGATGAATTTATAGATTATTTTGACTTACAAACAGATTGTAAGTATTTAAAACAATTCAATCAATAA	MKEFAFELNESIIQVFFPHERIKNKIQVLKILIEATRFIMYNDFTDNNCNHKLVLKIKKMSRLFFITKNKYYSINFPFTFYKSDTSIEITYKNQIVIDSKILSDILSIINDNRFNSLDCLDFIEPFTDFESKYSEQIWFLLKELLILEDGYVRFDNDKESFEKAKANKTPHRHPENHFDIFYTSSNNIKIGLLDLINDDEFIDYFDLQTDCKYLKQFNQ				NA	NA	NA	NA	NA
BMS003_04371	405			hypothetical protein	ATGATTAATAATCTTGATTTAGAAAACATTAACCTCTCAACAGAATATAGAATAGCATCTCATTTGGGAGACCAAGATAGTTATAGATTTCTCCAAACTATAGAAGGAGAACTTAAAATATCCGATGAAATGGGGAATTGCATTAAAACTATTGGGAAATTAATTGGAAAAAAACTTTTACTTAGTGAAGCAATTAATTATAACTGGGATATCGAGTCTATTTTTGATAATGAATCTCATACTTTTGAGATAGGGGAGTTAATCTACAACTTTGACGAGCAAGATTGGAGTGAAAATATTAGAGATAAATATGACGATCAAATTAAAGAAAATAATTTATTGATATTGAACTCATCTCGACTTTATTTTTTGAAACTTTTTCATAGCAATTACAATGAAAGCTAG	MINNLDLENINLSTEYRIASHLGDQDSYRFLQTIEGELKISDEMGNCIKTIGKLIGKKLLLSEAINYNWDIESIFDNESHTFEIGELIYNFDEQDWSENIRDKYDDQIKENNLLILNSSRLYFLKLFHSNYNES				NA	NA	NA	NA	NA
BMS003_04372	702	tycC_1		Tyrocidine synthase 3	ATGTATAAGACAGGAGATTTGGGGAGATGGCTTCCGGACGGGAATATTGATTATAGAGGCAGAGAGGATGATCAGGTAAAAATTAAGGGATATCGCATAGAGCTTGGCGAGATAGAATCTGCAATTTCATCTTTCTCTGAGGAGATTTCTCAGGTTGTGGTTAAAATTAATGAGTATAATGACGAGAAAGTATTGGCATTGTATTATGTATCGGAAACTGAAAAGGATAAATCTGAGATGAGAGAATACCTTAAAGCCAGATTACCGGAATTTATGGTTCCGAATTACTATATAAAAATTGAAAAAATACCTTTATCTGTAAATGGTAAAATAGATTTCAAAGCATTTCCGGATATAAAAGGAGACGATTTAATTAAAAAAGCTTATGAAGCACCAAGAAATGAGTTTGAGCAAAAAATAATCAAAATCATTACGAATGTATTGAATTGTAAAGAAACTGAAATTGGAATTAATGATAATTTCTTTGACTTGGGTATGAACTCAATCAATTTGGTTAATATGGTAAGTTTAATAAACAGTGAATTCCAAATAAATTTAAAGGTTTCTGCTTTATTTGAATATCCAAATGTTTATGAGCTGTCTAGTAATTTTCGCGCAGAAAAAGAACCGGAACCAACAGAGGAAAGTGACGAAAATATTTCAGAAGAAATTGATGACTTTTTATCATTAATTGAAGATTAA	MYKTGDLGRWLPDGNIDYRGREDDQVKIKGYRIELGEIESAISSFSEEISQVVVKINEYNDEKVLALYYVSETEKDKSEMREYLKARLPEFMVPNYYIKIEKIPLSVNGKIDFKAFPDIKGDDLIKKAYEAPRNEFEQKIIKIITNVLNCKETEIGINDNFFDLGMNSINLVNMVSLINSEFQINLKVSALFEYPNVYELSSNFRAEKEPEPTEESDENISEEIDDFLSLIED	PGPT0009850_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009850-srfAB|lchAB-K15655	NA	NA
BMS003_04373	4449			hypothetical protein	ATGGAAAGAACTTCAATAAAAAAAGATATAGCAATAATTGGGATTTCATGTAAATTCTCAAAAGCAGACAACCCAAAGGAGTTTTGGGAAAATATAAAAAACGGAGCCGAATTTAATCAATTTTATACAGACCAGGAGTTAAAGGAATTGGGCATAGATTCAATGGTAATTAAGGATCCTAGCTTTGTGAAGTCAAAAACACATGTAAACGGGTTTGATAGTTTTGACTTTCAGTTTTTTGGTTACACCAGAGATGAAGCCAATATTATGGATCCTCAAATCAGAATATTACATGAGCAGGTATGGCTGGCTCTTGAAGATGCTGGTTACAATCCTTTTTCTTATAAAGATAAAATAGGACTGTATTTGTCAGCTTCAGATAACTTTAATTGGATAGCTCATAGTTTATCACAACCAAACAAAAATGTTGATCCGTTTTATCAGTCATTTATTACCAACAAAAATAATCTCAGCACAATTATATCATATAATTTAAATCTGAAAGGACCAAGTTATTCAATTGATACAGCATGTTCAAGCTCATTATCTGCTTTGCATGTAGCCGCAAGAAATTTACTGTTGAAAGAATGCTCCATAGCTGTCACTGGTGGTATTAATGTGAAGACATCAAAAAATATAGGATATTTCTATAAAGATGGTATGATCAATTCTAAAGACGGGTATTGCCGAACTTTTGATAAAGATTCCACTGGAACTTTTGCTTCGGAAGGAGCGGCAGTAGTGGTTTTAAAAAGATTAGAAGATGCGATAAAAGATCGTGACAATATATATGCAGTAATTAGATCCTCAGCCTCAAATAATGATGGTAAAAGAAAGGTTGGATATACAGCGCCAAGTGTTGCGGGACAGTCAGATTGTATAAAAATGGCTCATAAAATTGCCAATGTCCCTAGCAGTACAATATCTTATATTGAAGCTCATGGTACAGGTACAGCGCTGGGTGACCCAATCGAAATTGAAGCCCTTAATAAAGCTTTTAATTATGATAAAACATTTACCTGTGCTATTGGATCATTAAAATCAAATATTGGACACCTGAATTATGCTTCAGGAATAGCAGGCTTAGTAAAAACCACACTAGCCTTACAAAACAAAATGATTCCTCCATCGCTTCATTTTAAAAGTGCAAATCCTAATATTAATTTTGAAGGCGGACCTTTTTATGTGAATACAGAATTAAAAAAATGGGATAATAATAATTCTCATCCTTTAAGAGCTGGGGTAAGTAGTTTTGGAATTGGCGGTACCAATACGCATGTTATTTTGGAACAGTTTGAAAATAACTCAAGTGAAATAAAGTCTAAGCCTTATCAGATAATATCTTATTCTGCAAAGAATCCTAAATCCTTAAATGATTATAGTCAAAAACTAAAAGAATTTGTTAGTAATGAGGATGTTAATTTAGCTGACTTAGCTTATACTTTACAATCTGGAAGAGAATCATTTTTGTTTAAAAGATTTTTTATTTGTGAAAATAAAGAAGAACTGATCCAAGGCCTGGATAGTTTAAAAAATGATACAAATATTCCAACTTTTAAAGCCAACAGAAAAACTGTTTTCTTATTTCCTGGTCAAGGCAGTCAATATTATAAAATGGGTATCGATCTATATTACAATGAAGTTGATTTTAAGGAAGTTATGGATGAAGGATTCCGTGTGTTATTGGATATCACCGGAACTGATTATTCTGAAATTATCGGGTACAGAAATTCTGAAGAACAACTTAATGATCTTATCAATAATACACGTTATACACAGCCAATATTATTTTTATTTGAATATGCTTTGGCGCAGGTCTTAATAAAATGGGGAGTTCAGCCTGATATTATGATAGGGCATAGTTTAGGTGAATATGTAGCAGCCTGTATTGCAGGAGTATTTTCATTTGAAGATGCATTATCTCTTGTTGTTAAAAGATCAGATTTAATGAGAAGGGTTAAAGAAGGAAAAATGCTGGCAATAGGATTACCGATAAGTGATATTTTAGAGTTTTTACCTGAGAAATTATCTGTTGCAGCGGTAAACTCAGATGATTCGTGTGTGATATCAGGTGATTCAGAATCTGTTGAAGATTTTATAACTAAGCTGGAAGTTAAAGATATTGGGTTCTCCACATTAAAAACATCTCATGCATTTCATTCGCAAATGATGGATGAAATGTTGGATGCTTATATCAATGAATTGGAATGTATTGAATTCTCAAAACCTATGTATCCATTCGTTTCTAATTTAACAGGTAAACTGATTTCAGATCATGAAGCAACTTCAAAAAAATATTGGGCTGAACATTTAAGAAAAACTGTAAATTTTAAAGATGGAGCAGATTTTATCTTGCAAAATGCACATAATATTTTTATAGAAGTGGGACCCGGAAAAACACTATCATCATTTATAAAACAAAGCAAAGTATATTCAGACAACAATTCTATAGTACATTTAGTAAGACATTTTAATGAAGAAATAAACGATAGTAAAAAGTTTACTTATGGTATTGCTGAACTTTGGCGCCAGGGTAAGAGTATTAATTGGGATCAATATTATGCTGCTGAAGCCAGATATAAAATTAGTGCTCCAACTTATTGCTTTGATAAGAATAAATTAGATTTTACAGTTGATCCTTTTCAGCATCTTGGTAAGATGGGAATCCTCAATGATGAAAATCTCAACCATTGGTATTATTTACCAAAATGGAAGAGATCTTCTTTAAATAAAAATGAAGAGCATAATGCCAATCAAAATTATTTGGTTTTTTCTGATCAAGGGAATTTGATGAATTCAATAGAGGAGCAACTTCAGAAAGATGAGGTTTCACTAATAAAAGTTTTACAAGGAGCAGATTTTAATAAAAATGATGATTTTACTTTTACTGTAAATCCCTCTTTTGAAGACAATTTTACATTACTTTTTCAGGAAATTAAACAACAAAAAATTCAGATAAATCAAATCATCTTTAATTGGAGTTTTAAAGATTATAGTCAGGAATCTTTATTAGATATTTTCTCTAAAATAAATAATTTAAGTAAGTGTTTGATTACTCATTTTCCCGATCAAATTAAAAAAATTACTGTTTTATCTGATTTGGGACAGAATGTTTTGGGTGATGAAAAAAGTAATATAGCAATGCTGACCTCCCTAAAGCAATTTGATATCCTGGCGCAGGAAAATCCTTCATTATTTAGTTGTTCCATTGACATTATGCAAGAAGAGAATCATCAGATAATTCTCTCAAGAATATCAGATGAGTTAAAATATAATTATTCGGAACAATCAGTCGCATATCGTAATAAAAATCGATGGGTTGAATTTTACGAGAATATCGAAATTGATAACTATATAAATAAAAGTCGTTTACAGAAAAATAAGAACTATTTAATTACAGGAGGATTAGGAAAAGTGGGCCAAATTCTGACGGATTATTTAATTGATAATTATCAAAGCAAAATAATTGTAATAGGCAGAAAAGAAATTCCATCAGAAGATTTATGGGACACTATATTGGAAATTGGTGCGGAAAACGAGAATGTAGTAAAAAATATTGAATATCTGCAAAATGCAAGAAGAAATAACAAGCCCATCTATTATTACTCTTCAGATGTTTCTGAATATGATAGTTTTCTGAAAACTATCAATCGTATAGAAAGAGAGCATGGTTCAATTTCAGGAATCATTCATGCAGCAGGTAATAATGATAGTAAAACATTCAAAGCTATAGATGATTTAAATAGAGATATAGCATTGAAACAATTTAATCCTAAAATTAATGGCACTTTAAATATATACAGAATTTCACGAGAACGTTCACTTGATTTTGTCTGGATTACATCAAGTCTTTCAACTATTCTGGGAGGATTAACATATGGCGCTTATGCCATAGCCAATACATTTATTGATGCATTTTGTAATAATAAGAAAGAAGAGCTTAAAAACTGGCTTTGTGTCAATTTGGATGGGATTAATCAAGATAAAATAAGCGACAATAAGTTAATTGAATTATTTGAGAAAACACTTCAGGTTGATGATTGTCACCAGATTATAATTTCTTCTCAAGATTTAAACCTTATTAAGACAAATAAAGATAAGATTGTGAAGGAGGATCATGTAGAAATATATACAGTTGATCGTAAATATCTTGAAGATGAATATGTTGCTCCGGTATCTGAAATTGAGATAGAACTTTGTAATATGCTTGAACTCTTTTATGGTCTCCATAAAATAGGTGTTTTGGATAATTTTTTTGAGTTAGGAGGAGATTCCCTTAAAGCAATGACATTTATAAAACGGGTTAATAAACTGTTTAATGTTGATCTTAATATAAAGGATTTGTATTCAAGTCCTAATGTTAAAAAATTAGCAGAGCAAATAGAGGTAATGCTCAGATTAATTACGATCCAGAATAAGCCAACAGGAAAAAATACAATTATCATTTAA	MERTSIKKDIAIIGISCKFSKADNPKEFWENIKNGAEFNQFYTDQELKELGIDSMVIKDPSFVKSKTHVNGFDSFDFQFFGYTRDEANIMDPQIRILHEQVWLALEDAGYNPFSYKDKIGLYLSASDNFNWIAHSLSQPNKNVDPFYQSFITNKNNLSTIISYNLNLKGPSYSIDTACSSSLSALHVAARNLLLKECSIAVTGGINVKTSKNIGYFYKDGMINSKDGYCRTFDKDSTGTFASEGAAVVVLKRLEDAIKDRDNIYAVIRSSASNNDGKRKVGYTAPSVAGQSDCIKMAHKIANVPSSTISYIEAHGTGTALGDPIEIEALNKAFNYDKTFTCAIGSLKSNIGHLNYASGIAGLVKTTLALQNKMIPPSLHFKSANPNINFEGGPFYVNTELKKWDNNNSHPLRAGVSSFGIGGTNTHVILEQFENNSSEIKSKPYQIISYSAKNPKSLNDYSQKLKEFVSNEDVNLADLAYTLQSGRESFLFKRFFICENKEELIQGLDSLKNDTNIPTFKANRKTVFLFPGQGSQYYKMGIDLYYNEVDFKEVMDEGFRVLLDITGTDYSEIIGYRNSEEQLNDLINNTRYTQPILFLFEYALAQVLIKWGVQPDIMIGHSLGEYVAACIAGVFSFEDALSLVVKRSDLMRRVKEGKMLAIGLPISDILEFLPEKLSVAAVNSDDSCVISGDSESVEDFITKLEVKDIGFSTLKTSHAFHSQMMDEMLDAYINELECIEFSKPMYPFVSNLTGKLISDHEATSKKYWAEHLRKTVNFKDGADFILQNAHNIFIEVGPGKTLSSFIKQSKVYSDNNSIVHLVRHFNEEINDSKKFTYGIAELWRQGKSINWDQYYAAEARYKISAPTYCFDKNKLDFTVDPFQHLGKMGILNDENLNHWYYLPKWKRSSLNKNEEHNANQNYLVFSDQGNLMNSIEEQLQKDEVSLIKVLQGADFNKNDDFTFTVNPSFEDNFTLLFQEIKQQKIQINQIIFNWSFKDYSQESLLDIFSKINNLSKCLITHFPDQIKKITVLSDLGQNVLGDEKSNIAMLTSLKQFDILAQENPSLFSCSIDIMQEENHQIILSRISDELKYNYSEQSVAYRNKNRWVEFYENIEIDNYINKSRLQKNKNYLITGGLGKVGQILTDYLIDNYQSKIIVIGRKEIPSEDLWDTILEIGAENENVVKNIEYLQNARRNNKPIYYYSSDVSEYDSFLKTINRIEREHGSISGIIHAAGNNDSKTFKAIDDLNRDIALKQFNPKINGTLNIYRISRERSLDFVWITSSLSTILGGLTYGAYAIANTFIDAFCNNKKEELKNWLCVNLDGINQDKISDNKLIELFEKTLQVDDCHQIIISSQDLNLIKTNKDKIVKEDHVEIYTVDRKYLEDEYVAPVSEIEIELCNMLELFYGLHKIGVLDNFFELGGDSLKAMTFIKRVNKLFNVDLNIKDLYSSPNVKKLAEQIEVMLRLITIQNKPTGKNTIII				NA	NA	NA	NA	NA
BMS003_04375	1293	resA_8		Thiol-disulfide oxidoreductase ResA	ATGAAAAAGATTTATACGCTATCTGCAGTTTTGGCTGCATTTGCTCTGCAGGCTCAGTTTACAGTTACAATTCAGACACCGGCAGATTTTAAAGATCAAGACGCTATTTTATATACATTAAACGGATCGAAGGATATTATTGTTACCAAAGAAAAAAGTAAGAATAATACCTGGACTTTTAAATATCCGAGCAATTATATGGGAATGATGAAAGTCTACTTCCCTGATTCCAATAATACAGTAAGCTTTATTTCTGAAAATAAGAACGTCAGTTTTAAGCTGGATGTCCAGAATAATAAAGTGAAAGATGTTACTTATCTGGATGAAGCCAATAATCTGATGAGTAAACAGCAGGAAGGTTCGCAAAAAAAAGAACTTATTTTGCCGGCTTTAGCACAGATCAAAGAATATTATAAAGATAATACGGATTTTGGAAAAGCTCTGAAAATAGAGATTGACAGACTTTCAGGTGCTTCAAGTACTATTGATGCGGCTCAGCATCCTTTTATAGCTTATTATAACAGTAATTACAGTAAGTTCATTTCGAATTCACAAGATTCCTCTAAAAAAGCTGATCAGGAAGAAATAATCAACTTTCTGGACAAATCCGGAGATATGCTTGAGAGTTCATCTTTATTGAGACCTGTGTTAGTATCTTATCTTAATTCCGGAGGTAATACCAATGTTGCAAAATCGGTTGATACATTATTAGACCGACTGAAGGTGGAAACTCCAAGAGGACAGACTGTATTGTCTGAACTGATTGATATCTTTGATGTATACCAGATGGATGAATATAAGAGCAAATATTTGTCAATGGCTAAAAATCTTAAGTGTACCATCAATGACAGGCTAGCTTCTACCTTAAAATCGAATGCAAACATTGAAATGGGAGCCGCTTTTCCTAATTACAAATTCCAGTCTCCTGTTAATACTACAGCAAAGTCTTTATACGATATAAAGGCAGATAAAAAGGTGGTCGTATTCTGGTCATCCACTTGTTCACACTGTGAAAGCGAATTGCCAAAGCTTCTTGAAAAATATAATGATCTGAAATCAAAAAATATTCAGATTGTAGGACTTTCTCTGGATGTTGATAAGAATTCTTATACCAAAAAAATTGCTGCATTTCCTTGGGTAAATGATTCAGAATTGAGAGGGTGGAACAGTAGTTACACCGATACTTACAATATTCATGCAACTCCTACTTATTTTATTTTAGATGCTAACAACAAGATTATCAGTAAGCCAGATCATGTTGGAGATGTTTTAGAATATTTTAAGCTAAAATAA	MKKIYTLSAVLAAFALQAQFTVTIQTPADFKDQDAILYTLNGSKDIIVTKEKSKNNTWTFKYPSNYMGMMKVYFPDSNNTVSFISENKNVSFKLDVQNNKVKDVTYLDEANNLMSKQQEGSQKKELILPALAQIKEYYKDNTDFGKALKIEIDRLSGASSTIDAAQHPFIAYYNSNYSKFISNSQDSSKKADQEEIINFLDKSGDMLESSSLLRPVLVSYLNSGGNTNVAKSVDTLLDRLKVETPRGQTVLSELIDIFDVYQMDEYKSKYLSMAKNLKCTINDRLASTLKSNANIEMGAAFPNYKFQSPVNTTAKSLYDIKADKKVVVFWSSTCSHCESELPKLLEKYNDLKSKNIQIVGLSLDVDKNSYTKKIAAFPWVNDSELRGWNSSYTDTYNIHATPTYFILDANNKIISKPDHVGDVLEYFKLK				NA	NA	NA	NA	NA
BMS003_04376	231			hypothetical protein	ATGAAAACTATTAATAAACTAGTATTGGCATTTTTCCTATTTGTTGTATCTATAGCATATGCTGAAGAAATTCCACCACAGCCGGCATCAATCCCAGGAGGTGGAGGTAACGGAGGAAATGGTACGGGAGCTCCTGCCTCTCCAATTGATATGTATGTATATATACTTGCTATCGTAGCAGTAGGACTTATTGTTTACTTTACAAAAAAGTACAAAAGTGTAAAAGCATAA	MKTINKLVLAFFLFVVSIAYAEEIPPQPASIPGGGGNGGNGTGAPASPIDMYVYILAIVAVGLIVYFTKKYKSVKA				NA	NA	NA	NA	NA
BMS003_04377	1977			hypothetical protein	ATGAGAAAAAGTTTATTTGCTATAGGTCTTTTAGCAATTAGTTATTCTGTTCAGGCGCAGATACTTTGTCATGTTGACACTAATGCTAATATGTATGTGAGCGAAGGCACCCTAGTTTATAGTGGTGGAGGTGTACAGACAAAAGGTAATGGCGTTTTGGATGTACATGGAAATATCATGGTTGTAGGATCTGGTACGGATCTCTTAAAAACAATTGATGCCAGCGGTGCTGATAAGACTGATGGCGGAAATATCATCTTAAGACTCAATACTCCTGCTTCTTTTGCTACTTCCACGTATGGTCAGCTGTACATCGACGGACTGTCCCAGTCTAATATTACAGGTATTGTTACTAAAGAATACAGAACCCCAAGTAATGGTAGCGGTAATTATTTTCAACAGGTAGCTTTGCCTTTCAGTGGTAAAGCATTAAGTAGTTTATCTACAGAAGTAGGTAAAACTTTTAATACCGGAAGATATAGTAACCCAATCTTACAATGGGATAACGCCAATGCGGTTTCCAAGCACTTTACAAGTTTAGCAACCACTACTTCCAATCCATCTGGATATTATATGCTGAAAGTTAGCAATAATGACTGGAATCCAAGTGCCCCTGCTGTAGGAACCGTGTTTAATATTAACGGGAAACCAAATGCCCCATATGCTGCTCCTGTATCGCTACAAAATGCAGGGAAGTCTAATTTGGGAACTTCCAATGTTGTTTTCGGAACTAACGGTAACGCTGTAAACCAATACAACGAGAAGTATAACACTTATCTAGATGATAGCTTTGAGTTTACAACAACTCCATGGGCTGGAACATTTGGACAAAACTGGTATCAATTCGGAAACCCTTTCCTTACCAATTTAGATTTAGCTAATATTGGATATACTGAAAGTGTTACAGGATCAGATGGAAATGCGGTAAATAATATCTGGGGTATTGAATATAACCCTGGTACTGTTATTACTCTTTCAAACGGTTCTACTTATGCTACAGGTTCTCAGGTTGTTACTTTCTTACCTCTTGGCGATGGATATGCTCCGGCAGCTGGAGATGTAGATAAGGTAGTGATCAAACCTATGCAGTCGTTTAAAATAAAGCTAAGAGATAACACAGCTCAAACTTTAAACTTTAATACACTGAGAAGATTCAAGTCAACAGCAAGAACAGCAGGTATTGATTATAACGTGAATGCTGCTAAAATGGCTAATGGAAAGATTGTAAGCAATTCAATAAAACAACTTGGTGTAATTGGACTTGATGCCAATGGAAAAGAGATTGGAAGAACATACTATGTTGTTTCTCCTGCATTAACAACAGGACATCAGATTTCCGCAGCAACTTCAATTCAGTCCTCAGCAGGCTCAGGTCTTATGGGTACATCTGAAGAAGCATTGAGCGGAGGATACGATAACAATTATAAAGATAGTTACTGGTTATATATTAATGAGGCTAATGAAAATAACTTCCAGGGTAAAAGTATTAAGTTAAGAAACTTCTACGACCAAGTGAAGTCTTATAAATTTGAGATCAGAGAAAATACTGTATTAATTCCAAATGGAGCACATCAGCTGTCTTCAGGAATTGGTTTCTACTATAAAGCTGAAAATGGTAATCTAATAGAAGCTAAGCAAGGAGATACTGTTCCTGTAACAAATATGGAAGCTAATTTATATTACGGCGAACCAAGTAATATTACTCTGGCAACAACGGACAAAGATACTTCCGGTACTTCTAATACACTAGTTGTTTATAATTCTGCAATTTCAAATTATATTGTTAGATTTGATCCGAAATGGAAAAAAGCAGATATTCAGGTTTATGATATGAGCGGTAAACTGGTAATCTCTAAAAAAGCGGTTGACACATCCAGAGATTTTGTAATCGAGCTAGATGGCTCTGTTAGAAATTCATATGTTGTAAAAATCGTTTCTGATAAAGGAGAAACTGTTAACACTAAAATCTTAAAATAA	MRKSLFAIGLLAISYSVQAQILCHVDTNANMYVSEGTLVYSGGGVQTKGNGVLDVHGNIMVVGSGTDLLKTIDASGADKTDGGNIILRLNTPASFATSTYGQLYIDGLSQSNITGIVTKEYRTPSNGSGNYFQQVALPFSGKALSSLSTEVGKTFNTGRYSNPILQWDNANAVSKHFTSLATTTSNPSGYYMLKVSNNDWNPSAPAVGTVFNINGKPNAPYAAPVSLQNAGKSNLGTSNVVFGTNGNAVNQYNEKYNTYLDDSFEFTTTPWAGTFGQNWYQFGNPFLTNLDLANIGYTESVTGSDGNAVNNIWGIEYNPGTVITLSNGSTYATGSQVVTFLPLGDGYAPAAGDVDKVVIKPMQSFKIKLRDNTAQTLNFNTLRRFKSTARTAGIDYNVNAAKMANGKIVSNSIKQLGVIGLDANGKEIGRTYYVVSPALTTGHQISAATSIQSSAGSGLMGTSEEALSGGYDNNYKDSYWLYINEANENNFQGKSIKLRNFYDQVKSYKFEIRENTVLIPNGAHQLSSGIGFYYKAENGNLIEAKQGDTVPVTNMEANLYYGEPSNITLATTDKDTSGTSNTLVVYNSAISNYIVRFDPKWKKADIQVYDMSGKLVISKKAVDTSRDFVIELDGSVRNSYVVKIVSDKGETVNTKILK				NA	NA	NA	NA	NA
BMS003_04378	1188	clpX_2		ATP-dependent Clp protease ATP-binding subunit ClpX	ATGAATTCTAACCAATGTTCTTTCTGCGGCAGAAAAAGAAATGAAGTGCAGATGCTGATTTCTGGCCAGAATGGTTTTATTTGTGAAAATTGTATAGAGCAGGCGCATGCTATTGTAAAAGATAGTGCATCCAAAACAGGATATTCTCCTGCAGACAGTATGGAAGAGCTTAAAAAGCCGAAAGAGATCAAAGAATTTCTTGATCAGTATGTGATAGGACAGGATCAGGCAAAAAAGCAGCTTTCAATTGCTGTTTATAATCATTATAAAAGATTACTTCACGCTCAGGACGAAAACAGAGAGGTAGAGCTTGAAAAGTCTAATATCATTATGATAGGAGAAACAGGAACGGGTAAAACGCTCCTGGCAAAAACTATTGCAAGAGAACTTAATGTTCCTTTCTGTATTGTAGATGCTACTATTTTAACAGAAGCAGGGTATGTAGGAGAAGATGTTGAAAGCATCCTGTCAAGACTTCTGATGGTTGCAGATTATGATGTGGAAAAAGCCGAGAAAGGAATTGTTTTCATTGATGAAATTGATAAGATTGCAAGGAAATCCGATAATCCAAGTATTACAAGAGATGTTTCCGGGGAAGGAGTACAGCAGGGATTACTGAAACTGCTGGAAGGAAGCATTGTAAATGTTCCGCCACAAGGAGGAAGAAAGCATCCTGATCAGAAATATATTCAGGTAAATACTCAGAATATATTATTCATTGCCGGTGGAGCTTTTGATGGTGTCAAAGAAATCATCGAAAGAAGAATGAACAAGCAGGCAATCGGTTTCAGCTCCGAAAAAATCAACAAAACAGATGAAGATGAATATATATTAACAAATATTAATGCAATTGATCTTCGTACTTTCGGATTAATTCCCGAACTTTTAGGAAGATTTCCAATCATCACTTACCTCGATAAACTCACAAAAGAGACCCTGGTAAGAATTATGAAAGAACCAAAAAATTCAATTGTGAATCAATTTGTGGAACTTTTCAAGATGGATGGTACAGATTTGATAATAACAGATGGTGCAATAGAGAAAATTGTAGAGGAAACTATTGAGAAAGGATTAGGTGCAAGAGGGCTTCGCGGGACTACCGAAAAAGTTCTAGAAGACTACATGTTTTCAATAGGAGAGGACAAGGAGATCATCTTGACAGAAGATAATGTTTTGATTAATAGATAA	MNSNQCSFCGRKRNEVQMLISGQNGFICENCIEQAHAIVKDSASKTGYSPADSMEELKKPKEIKEFLDQYVIGQDQAKKQLSIAVYNHYKRLLHAQDENREVELEKSNIIMIGETGTGKTLLAKTIARELNVPFCIVDATILTEAGYVGEDVESILSRLLMVADYDVEKAEKGIVFIDEIDKIARKSDNPSITRDVSGEGVQQGLLKLLEGSIVNVPPQGGRKHPDQKYIQVNTQNILFIAGGAFDGVKEIIERRMNKQAIGFSSEKINKTDEDEYILTNINAIDLRTFGLIPELLGRFPIITYLDKLTKETLVRIMKEPKNSIVNQFVELFKMDGTDLIITDGAIEKIVEETIEKGLGARGLRGTTEKVLEDYMFSIGEDKEIILTEDNVLINR	PGPT0014600_5223	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
BMS003_04379	390		COG0537	putative HIT-like protein	ATGAGCACTATATTCACAAAAATCATCAATGGCGAGATACCCTCTTATAAAATTGCGGAAGACGAAAACTTTATAGCCTTCTTAGATGCGATGCCTTTGGTGAAAGGACATACTCTGGTAGTCCCTAAAAAAGAAGTGGATCTGATTTTTGATCTTGATAGTGAAGAATATAAAAACCTTTGGGGATTTGCCCAGCAGGTAGCCAAGAAGATCAAAACTACAATTCCATGTGTAAGAGTAGGAGTAGCGGTAGTAGGGCTTGAAGTCCCTCATGCACACATTCATCTTATCCCTTTAAACAAGATGGAAGACATGAATTTCAGAAATGAAAGATTAAAATTAACGAACGAAGAATATACAGAGATTCAACACTCAATTATTAATTCTTAA	MSTIFTKIINGEIPSYKIAEDENFIAFLDAMPLVKGHTLVVPKKEVDLIFDLDSEEYKNLWGFAQQVAKKIKTTIPCVRVGVAVVGLEVPHAHIHLIPLNKMEDMNFRNERLKLTNEEYTEIQHSIINS				NA	NA	NA	NA	NA
BMS003_04380	471	greA	COG0782	Transcription elongation factor GreA	ATGGCAAGCTATGTTACAAAGGAGGGCCTGGAGAAAATGAAAGCTGAGCTGGAACAGTTAGAAACTGTAGAGAGACCAAAAATTACTCAGCAGATCGCAGAAGCTAGAGACAAAGGAGATTTGTCTGAAAATGCAGAATACGATGCTGCTAAAGAAGCTCAGGGGATGCTTGAAATGAGAATTTCTAAGCTGAAAGATGTTATCTCTACTTCCAAAATTATAGACGAAAGCCAATTAGATACTTCAAAAGTTTCTATCTTAACAACAGTGAAACTTAAAAATAATGCTACCAAGCAAGAGCAGGTATTTACATTGGTACCGGATAACGAAAGCGATCTGAAGACAGGAAAAATTTCTGTGAATACCCCTATCGCAAAAGGTCTGTTAGGAAAAGCTATTGGCGAAATTGCTGAAATTACTTTACCAAACGGAAACAAACTGTCTTTTGAAGTATTAGACATCTCTTTATAG	MASYVTKEGLEKMKAELEQLETVERPKITQQIAEARDKGDLSENAEYDAAKEAQGMLEMRISKLKDVISTSKIIDESQLDTSKVSILTTVKLKNNATKQEQVFTLVPDNESDLKTGKISVNTPIAKGLLGKAIGEIAEITLPNGNKLSFEVLDISL	PGPT0030495_4232	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS003_04381	456			hypothetical protein	ATGAAAAAAACTTTTTCAATCCTATCCATTTTCAGCTTATTGATTTTCAGTAATTTAACCATAAACTCTTGTGGAAGCAGAGAAGATACTGTAAACTGTTTCCCTAATACACCTATCAATGTATCTCTTAATTTGAACCTGCCTGCCTACTATCCTTTGAACAATATCAACGGCTGGATTTATGTGAACGAACAGCAGTCCGGAACAAGAGGCCTTATTATTGTACGAACAGCAAACGGATTCAAAGTATATGACAGAAATGCCCCCCACCTGTGTCCTGATAATAATACCACCCTTGAAGTCAAAGATAACATTGCCATTATCTGTCCGCAGGATAATACAAGATGGATCTTAAGTACGGGACAGCCTGAAGCGGGAGCTAAAACTTCTCTTCCTCCTAAAACCTATCCTTACAGCTATGATACACCAAGCAAAACGTTAAATGTTTATTATTAA	MKKTFSILSIFSLLIFSNLTINSCGSREDTVNCFPNTPINVSLNLNLPAYYPLNNINGWIYVNEQQSGTRGLIIVRTANGFKVYDRNAPHLCPDNNTTLEVKDNIAIICPQDNTRWILSTGQPEAGAKTSLPPKTYPYSYDTPSKTLNVYY				NA	NA	NA	NA	NA
BMS003_04382	450	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAAGATCGTTATACAAAGAGTCTCTGAAGCCAGTGTAAAAGTGGACGGAAAAATTGTAGGTGAAATAGGAAAAGGATTAATGCTGCTGGCAGGCATAGATGAAAATGATTCAACAACTGATGCAGACTGGCTTGTACAGAAGGTTTTAAACCTGAGAATCTTTGGAGATGAAGATGATAAGCTTAATCTTTCTGTGAAGGATATTGCCGGAGAAATCCTTTGCATCAGCCAATTTACATTGATTGCTGATTATAAAAAGGGCAACCGCCCTTCTTTCATCAAAGCGGCAAAACCAGATAAAGCAGTTCCCCTTTTTGATTATTTTAAAGAAGAAATCGCTAAATCCGGATTAAAAACAGAAAGCGGAATTTTCGGAGCAGATATGAAAGTCTCTCTGATCAATGACGGACCGGTTACTATTGTCATGGATTCTATTACCAAAAACTAA	MKIVIQRVSEASVKVDGKIVGEIGKGLMLLAGIDENDSTTDADWLVQKVLNLRIFGDEDDKLNLSVKDIAGEILCISQFTLIADYKKGNRPSFIKAAKPDKAVPLFDYFKEEIAKSGLKTESGIFGADMKVSLINDGPVTIVMDSITKN				NA	NA	NA	NA	NA
BMS003_04383	867			hypothetical protein	ATGAAAATACCCGTTCACATCGCTCAAAAAATTGCACAACTTTCCCAAGGAGAAACGCTACCATCAAGCGTGGCTAAACATTCCATTATAGAAGAATTGATTTCTGAAAGAATCATTGAAAGAACAGGCAGAATCCAGAAAAAACTGCAACTCATAAACCGCAACGCACTATTCTTGTACCTTCAAAACAAGTACGGAATCAATGACCTCGAAAAGTATATTGAAGTTAGCCAGAAAGAAAATGCGTTACGAAATGAATTAGTTGAAATTTCTTCCAACTCAAAACTAAAAAACATAAGAACATTCAAAGGATTTTTGGTAAATAGTTATCTTCCTATACAAGCGACTTTGAATGGAAAAGAAACGATATTGAATTTTACAGAGGGAACATTTCAATTTATTTACGATTTTGAAAATTTTATTCCAGAGAATAACATTACCATTGTAGGAATTGAAAACGCTGAAAATTTTCGTTGGATTGCAAAACAAAAACATTTATTCGAAGATATTAAACCGCTTTTTGTAAGCCGATACCCTCAAAATCAAAGTAAAGATTTGGTAAAATGGTTGCAGTATATCCCAAATAATTACCTTCATTTTGGTGATTTCGATTTTGCCGGAATTGGAATTTATTTAACCGAGTTTAAAAGACATCTTTCCAAAAAAGCATCCTTTTTCATCCCAGAAAACATTGAAATTTTGATTGCTGACAAAGGCAATAAAAACCGCTATGACCAGCAAAAAATCAATTTTAATAAAGAAACGATTGAAGACGAAAAATTATCTCAATTAATTCAGATTATTCATTACTATAAAAAAGGTTTAGACCAAGAAATATTCATAAAAATAGCGAGTGAAAAAATTTAA	MKIPVHIAQKIAQLSQGETLPSSVAKHSIIEELISERIIERTGRIQKKLQLINRNALFLYLQNKYGINDLEKYIEVSQKENALRNELVEISSNSKLKNIRTFKGFLVNSYLPIQATLNGKETILNFTEGTFQFIYDFENFIPENNITIVGIENAENFRWIAKQKHLFEDIKPLFVSRYPQNQSKDLVKWLQYIPNNYLHFGDFDFAGIGIYLTEFKRHLSKKASFFIPENIEILIADKGNKNRYDQQKINFNKETIEDEKLSQLIQIIHYYKKGLDQEIFIKIASEKI				NA	NA	NA	NA	NA
BMS003_04384	3669			hypothetical protein	ATGAGATACCTGAGTAAAATAGTTTTCATCAACAGTGCCGACAAATCATTAAAATACTCCGAAGTTGATTTGGATGGAAACGTGCATTTCATCGGCACACAAGGTGTTGGTAAAAGCACACTGCTTAGAGCCATACTCTTCTTTTACAATGCAGATACTCAAAAGTTAGGCATTTCGAGAGAAAAGAAAAACTACAACGAATACTATTTTCCTTATCAAAATTCATACATTGTATACGAGGTACAAACCGAAACTGGAAAGTATTGTGTTTTGAGTTTCAAATCGCAAGGCAGGGTTGCATTTCGCTTTATCAATTCGGGTTACGACAAAAACTTTTTCCTCGATAACGAAGGAAAGGCGTATGAAACATTTGACAAAATCAGAGAGACACTGGGGAAAATTGATTCCACAAGAATAATCAACAATTATGAAGAATACAGGAATATTTTATACGGCAACAACAAAGGTTTGTCAAGTGAGTTTAGAAAATATGCTTTGATTGAAAGCAAGCAATATCAGAACATTCCGAGAACAATTGCCAATGTATTCCTAAATGCTAAGTTAGATGCCGAATTTGTAAAAGAAACCATTATTAAATCGTTGAATGAAGATGAAATAAAAATAGATTTAACCACTTATTCGCAAACCCATCTTCGTGATTTTGAATCTAATCTCAACGATATTAAAAAATGGACAGAGGGCAAAATAGACAAACAAGCTGAAAAAGTAGCGACTACCTATTCTGCCCTAAAATATTTGGAACAAAAGAAAAAAGAATTTTCCTATCAGTTAGGATTTGCACTAAACAATGTAAAAAAACAACAACCCAAAGTTCAGGAAAAACTCAAAGCTGAAGAATTAAAACAAGATAAAGTAAGTCAAAAGTTAAACGACCTTGATAAAGATTTTGGAAAAAAGAAAGACGATATTTTAAAACAAATCGGTGAAGTTGGGAGTAAACTTAAAGATATAAAAACCAAGCGAGAAGAATATGCGGTTTTGAAAATAGAAACCATTCTTGAACGTGTAGCCCAAAAACCAAGTTTGGATTTGGAAGAAAAAAATCTATTGGAAGAAAAAAACATCTTAACTTCCAAGTTTCTTGAAATTCAAGAACGTTATGAGGCTCAATTGCGACAGTTAGAAAATCAGTTGAAGGAGTTTGAAAACAACAAACAAACCGAAAAAAACAAAGCTGAAAGAGATTTCAATGCATTTGAAAAAGAATTGCATCAACAATACGATTTGATTTATGATGACATTCGCCAACAAAATAAAGAGGCATTAGAAACGGCAAATGACAATGTAAAAGCTCAGGAAAAAGCAATTACTAATCAAAGAATAAAAATGTCGGAAGCCAAGTATAAACGCTTTTTCGAAGCTGAAATTACCAATTGCAAAAATGAAATAGAAACTATAAAATCCAATATTTCAAAAGCCGAAACACAAATTCAACAAGCCAATGATAAGATTAAATCTTTTCAAAATGACTGGGAATTTGAGGAGAAATACAGCAAAGCTGATACTGAAAGAAAAATTGAATGCAAATTAGAAGAAAATGAAAAAATTAATATAGAAATCTCTACAATTGATGCCAAAATTGAGAACAGTAAGAATTCATTTTACGGTTGGCTGAATGACAATGTTCCCGACTGGGATAAAACGATTGGAAAAGTAATTGACGAAGAAAATGTATTGTTTCATCAAAGATTAAATCCACAAAAAATCACTGATGCAAATTCAAGTTTTTACGGGATAAAAATCGACACATCGGAAATCAATAAGAATGTAAAAACGGTAGCTGACCTACAAAACGAGCAAGCTGATTTTAAAAATAAAATTCAATTCATAAAACAATCTATCCAAAAACTACAGTCAGATTTGAATGATGCTTTAGATAAATTAAAGCGAAAATTTCATCCGAAAATAAAAGAGCAAAAAGAAATAATACAAGATAACGAATATACCAAAGGAAACGGAAAGCCAAAACTGGACGAATTTGCTGTACGCCTTTCGGAATTGGAAAATAAAGCAAAATCAGAACAAAAATTGGCAATTGAAAAGATAGAAACCAACATTGCTAAATTGAGTGAGGAGAAAATAAAAGCCGAAGAACAGGTTCAAAAAATAGCATCAAGTATCGCAAAAACAATCGACACAAAAAAGAAAGAAAAAACAGCTAAACAAAAAGAAGAACAGCAGAAACTATCTGATATTATACAAAAATTAGAATCGCAGATTGAACAAGAAAGTAAAAATATCAATACAAAATCTGAAACGATAAAAACTGCCCAAAAGCAAGAACTGAACGCAAAAGGTGCAGATACAAATAGAATTGATGCGATAGATTTACGTCTTTCTGAAATTCTTTTAGAATTAAATTTCATTGAGAATAATCGAGATAAAGTTGCAGAATATAACAAAGACAAACGAGAGCTTTTCGACAAGGAAAGTGAGTTCAAAAACAACAAAACTTTATTAGATAAAAAATTAGAAAACGAAGCGGAAAAGCACCATCAACAAAAAGATAAATTTGTTCAGCAAATAGGCATTCACAAAGCAGAAATTGAAGCATTGAATAAAATTTCGGATACTTTAAAGGCAGATTTAACTGCTTTTGAGAATTTCACCCAAACAGAAATTTATCCGGCAGTTGAGCATTTCATTTCTTCCTATTCCGAAGTGCATAAAACCGAGCAAAATTGCGTTTCGTTGACCAATGAAATTCAAACAACGGATAATACCACTACCAAGCGCTACATAGAATTGCAAGAAGCCATCAATAAATTCACAGGGAATTTTCAAGAAAACAATCTGTTTAGTTTCAAAGTGAAATTTATGGAGAAAAGCAACTATTTTGATTTTTCCGAAATGCTGAAAGAGTTTGTAGATGAGAATAAAATCGCTGAATACAAGCAACGTGTGGAAGAACGATTTGCTCATATCATCCGTCAAATAGGTAGAGAGACCAATTCTTTGATAGAGAAAGAAGGCGAAATCAGCAAAATAATATCCGATATCAACGACGATTTTGTGACACGAAATTTTGTAGGAGCAATAAAAAGTATGGAATTAAAAACCATCGAAAGTAAAAATAAAATCTTCACTTTATTGGTCGAAATCAAACACTTTAATGATGAAAATGTTTTTGATTTGGGCAAACCTGATTTATTTTCCACCGATGGATTGAGCAACAAAAACCAGAAAGCAGTTTCCCTTTTGGTACAACTCGTGAAAGAAATGACCATTTCCAAAGATAAAGAAATTACACTTTCAGATTCGTTTGAACTATTATTCAAAATCGTAGAAAACGACAACGATACAGGTTGGGTTGAAAAGTTGACCAATGTGGGCTCAGAAGGAACAGATGTTTTGGTAAAAGCGATGATAAACATAATGCTTTTGAACGTTTTCAAAGAAAAAGCAACCAAAAAACAGAAAGACGATTTCCGTTTGCATTGTATGATGGACGAAATTGGAAAATTGCATCCAAACAATGTAAAAGGTATTTTGAAATTTGCCAACGACAGAAATATTTTACTAATCAATAGTTCACCAACATCACTCAATGCAATGGATTATCGCTACACTTACTTGTTAGCAAAAGACAGCAAAAATGTAACAAGCATCAAACGACTAGTGAAGAAAATTGTAAAAACGGAAGAATAA	MRYLSKIVFINSADKSLKYSEVDLDGNVHFIGTQGVGKSTLLRAILFFYNADTQKLGISREKKNYNEYYFPYQNSYIVYEVQTETGKYCVLSFKSQGRVAFRFINSGYDKNFFLDNEGKAYETFDKIRETLGKIDSTRIINNYEEYRNILYGNNKGLSSEFRKYALIESKQYQNIPRTIANVFLNAKLDAEFVKETIIKSLNEDEIKIDLTTYSQTHLRDFESNLNDIKKWTEGKIDKQAEKVATTYSALKYLEQKKKEFSYQLGFALNNVKKQQPKVQEKLKAEELKQDKVSQKLNDLDKDFGKKKDDILKQIGEVGSKLKDIKTKREEYAVLKIETILERVAQKPSLDLEEKNLLEEKNILTSKFLEIQERYEAQLRQLENQLKEFENNKQTEKNKAERDFNAFEKELHQQYDLIYDDIRQQNKEALETANDNVKAQEKAITNQRIKMSEAKYKRFFEAEITNCKNEIETIKSNISKAETQIQQANDKIKSFQNDWEFEEKYSKADTERKIECKLEENEKINIEISTIDAKIENSKNSFYGWLNDNVPDWDKTIGKVIDEENVLFHQRLNPQKITDANSSFYGIKIDTSEINKNVKTVADLQNEQADFKNKIQFIKQSIQKLQSDLNDALDKLKRKFHPKIKEQKEIIQDNEYTKGNGKPKLDEFAVRLSELENKAKSEQKLAIEKIETNIAKLSEEKIKAEEQVQKIASSIAKTIDTKKKEKTAKQKEEQQKLSDIIQKLESQIEQESKNINTKSETIKTAQKQELNAKGADTNRIDAIDLRLSEILLELNFIENNRDKVAEYNKDKRELFDKESEFKNNKTLLDKKLENEAEKHHQQKDKFVQQIGIHKAEIEALNKISDTLKADLTAFENFTQTEIYPAVEHFISSYSEVHKTEQNCVSLTNEIQTTDNTTTKRYIELQEAINKFTGNFQENNLFSFKVKFMEKSNYFDFSEMLKEFVDENKIAEYKQRVEERFAHIIRQIGRETNSLIEKEGEISKIISDINDDFVTRNFVGAIKSMELKTIESKNKIFTLLVEIKHFNDENVFDLGKPDLFSTDGLSNKNQKAVSLLVQLVKEMTISKDKEITLSDSFELLFKIVENDNDTGWVEKLTNVGSEGTDVLVKAMINIMLLNVFKEKATKKQKDDFRLHCMMDEIGKLHPNNVKGILKFANDRNILLINSSPTSLNAMDYRYTYLLAKDSKNVTSIKRLVKKIVKTEE				NA	NA	NA	NA	NA
BMS003_04385	573			hypothetical protein	ATGGAAGTACCCGTACAAACAGCCAATATATTCAAAATACTTAGCAAAGGACAATTTATCAGTTCTAATAGTTCTGATAAAAACATCAGCAGTCTGTACAACATTATAGAAGACGATGAGAATTTTGATAATCTATACGACTATTTTATAAACATCAATTTTGTTTTAGAAAAAGGCAATGACTATTTTTATTTTAGCAGACCAGAAAACAAAATAGACATTGAAAAGAAAATTGAAAAAGTTTTTGAATGGATTGATATCATTGACTTTTTCAAAACTTACGATAATGCTTTTAGTGCAGGTTACCGTTTTTCGCCTTCCGAACTTTTGGTAAGAATAAAGACAGATGCAGAATTGGAAACAAAGTTAGATGGTCTTAAAAAACATACGGATAAAACCAAGCATCAGGATATTTTAGATAGGATTCTAAAGAAATTGATAGACGATACCTATATCGAATTGGAAAATGAAATTACTCATCAATATAAAGTTTTGGCTTCATTCAACTACCTTGAACAGCTGATATTAACCATCAATATTCCCGACGACGTAAGAAATGAGATACCTGAGTAA	MEVPVQTANIFKILSKGQFISSNSSDKNISSLYNIIEDDENFDNLYDYFININFVLEKGNDYFYFSRPENKIDIEKKIEKVFEWIDIIDFFKTYDNAFSAGYRFSPSELLVRIKTDAELETKLDGLKKHTDKTKHQDILDRILKKLIDDTYIELENEITHQYKVLASFNYLEQLILTINIPDDVRNEIPE				NA	NA	NA	NA	NA
BMS003_04386	1197			hypothetical protein	ATGAACACATTTTCCAGCTTAAAAGAAGTTTTATTTGCTCTTTCTCGAGAGGAAAAGCTTCTTGCGGAAATGTTTAAGAGACGAAAAACGGCTAATTACAAATACGAATATGCCCTTGAACTGGTTGAAGATAATGACAGCAGGCTTCAATATCTTATCAACCGTTCGGTTATTCGACAAAACGAAAGTACATTAGAAATTGATGATTTGTATGTACATTTTTTTGAACAAGTTTTAGAAGCAAATGAGGAAATAAACACTTCGTACATTAACGAAAATCTTGATAAAGTAAAACAGAATATTGAGTACTACTTCAATGAGCAAAATGAACAAAGAAAATACGAGTATTTACGAATAGTCAAAAATACTCTTAGGAAAATTGGGATTATTACCTTGCGAAATGTTGTTGATCTGAAGCGCAATATTGACAACACTTTTAAGAGTGAACCCAACTACAAAAACAAAAAAGCAAAGCTCATCAATCTTGATAATAAACGTAAAGACATTACCAAGCTTGTCGAACAAACCGAGCAACTAATCACAAACGATAATATCACGTTTTTCAAAACAGCGACTGATGAGGAATTGAGCCAGATAATTATTCAATTGAAAATGCAGTTGCATAAATGCACACACAATCTGATTGAAATAGAACGGCAGATAATTGACTTTTTAAATCAAATTCAACAGCAAAGCGGGGTAATAGAAAAACTACGTCAAATAAAGTATTTGAAAGACCAATTCATTTTGGAAACATCTACAGATATTAAACAAATTTTAGCTTCAAACAATGCCGTTTTCTTTGAACCAAATCCAAGCTACCCTCTCAAACTTTCATTGGAATATCTACAAACTGATGAGGAAGTTTTTGCAACTATCCAGAAAGTAGCCGGAAGAAAAAAACTCGGAAACAAACTCAAACAGCCTGTTGCCGAAAAGATTTCTGATGAATACCTGGAAACTCAAATTCTCGAAGAGGTGCAAATCAATTTAGAAGAAGTAAAGAACGGTTTTGTAGCTGGAAGCAACAATTTATTTGATTTTGTGTTGAACTATAATTTTTCAAAAGCTGTTTCTTTTGACGAACGTGTTACGATTTATTGCCAAATGGTCTCTTTGTACGATTCTGTTTTTGAAATAACGGAGCAGGTTGAAGAAAAAAATAAGGTTGAATTTACAATGATTTACCCAAAATAA	MNTFSSLKEVLFALSREEKLLAEMFKRRKTANYKYEYALELVEDNDSRLQYLINRSVIRQNESTLEIDDLYVHFFEQVLEANEEINTSYINENLDKVKQNIEYYFNEQNEQRKYEYLRIVKNTLRKIGIITLRNVVDLKRNIDNTFKSEPNYKNKKAKLINLDNKRKDITKLVEQTEQLITNDNITFFKTATDEELSQIIIQLKMQLHKCTHNLIEIERQIIDFLNQIQQQSGVIEKLRQIKYLKDQFILETSTDIKQILASNNAVFFEPNPSYPLKLSLEYLQTDEEVFATIQKVAGRKKLGNKLKQPVAEKISDEYLETQILEEVQINLEEVKNGFVAGSNNLFDFVLNYNFSKAVSFDERVTIYCQMVSLYDSVFEITEQVEEKNKVEFTMIYPK				NA	NA	NA	NA	NA
BMS003_04387	231			hypothetical protein	ATGGAGGTAAATTATATTAAAAGTGCTGATGAAGAATATTTTTCCAACCTGATATTAAGTGAAAACAAAGATATTGATTTACATAAAGTATCAGAAGTTCATAAAAAAGATAATTTCAAGAATTTACAAATCTTTTTCATTTATTTGATTGAAGAGCGTAAAAAGGGTACGGCAAGTCATCGAAAATCAGAATGTATTTTATATATATTTTTTGCAATAGCATTTAATTAG	MEVNYIKSADEEYFSNLILSENKDIDLHKVSEVHKKDNFKNLQIFFIYLIEERKKGTASHRKSECILYIFFAIAFN				NA	NA	NA	NA	NA
BMS003_04388	231			hypothetical protein	ATGAAAAATTTAAAAAAATTAAAGAGAAATCAGCTTGTCCTTATCAGCGGTGGTGACACTCCATATGCAATTTGTGATATGGATGGCAATTGCCCACCTACATTTGGTTCTTATTATTGCAGTGATGGTACGTGTTACAGAGTTTCCGGAGGTGGTGGCAACCCAGGATGTAATGAGCCAATGCGCCTGTGCCAGGAAGGGGAAACCGGGTGCGGTTGTGTTTATGTGTAA	MKNLKKLKRNQLVLISGGDTPYAICDMDGNCPPTFGSYYCSDGTCYRVSGGGGNPGCNEPMRLCQEGETGCGCVYV				NA	NA	NA	NA	NA
BMS003_04389	537	sta		Streptothricin acetyltransferase	GTGGAAATAAGAAAATTACAAAAACTATCCTCTAATCCGACTGTAGATTGGGGACTTAATGGCTATACCACTGAAGTCATATATTCAGTTTCCTCCATTGAATTTGGTGGTTCTTTTGAATTTATTTTAAAGGAAAAATTTTTACCTTATACTAAAATCTGGGAAACCACTTCTGAAGATCTGGAAGAACTCAACATCCTTATTGAACAGGAAAATTCTTTCGGAGCTTACATCAATGAAGAACTTGCAGGCTGGATTATTTGTGAACACAGGACATGGAACAACAGCTTTTACATTGAAAACATTCTGATCAACGAAAAGCACAGGCGACAGGGAATTGGTATTATGCTGATTAAAAGTGCCATTAAAGAAGCCCGAAGATTAAACTGCAGAGTTATTGAACTGGAGACCCAGAACACCAACTCCCCTGCTATACTGTTTTACAGAAGAATGGGATTTAATATTACCGGACTGAATACAAGACTTTATAATAATTCTGAGGAAATAGCCCTTTATATGACCTTAGATATGGAATAA	MEIRKLQKLSSNPTVDWGLNGYTTEVIYSVSSIEFGGSFEFILKEKFLPYTKIWETTSEDLEELNILIEQENSFGAYINEELAGWIICEHRTWNNSFYIENILINEKHRRQGIGIMLIKSAIKEARRLNCRVIELETQNTNSPAILFYRRMGFNITGLNTRLYNNSEEIALYMTLDME				NA	NA	NA	NA	NA
BMS003_04390	1647	pafA		Alkaline phosphatase PafA	ATGCTTAGGAACATTTCAATTGCGGCCGCTACTTTATTGTCCGTAGTTACAGTCAATGCGCAGAAGAACAGAAATACCCAACTGGAAAGACCAAAATTAGTTGTAGGTCTGGTAGTAGACCAGATGCGTTGGGATTATCTGTACCGTTTTTATGGAAAGTACGGAAATGACGGTTTTAAAAGGCTTTTGAATACAGGATATTCTTTAAATAACGTACATATTCCTTATGTTCCTACGATTACAGCTTTGGGACATACCTGTATCTATACAGGTTCAGTACCGGCTATTCATGGGATTGCAGGAAATGACTGGACGGATAAAGAAACCGGTAAAGGAGTGTACTGTACTGCGGATGAGAGCGTGCAGCCAGTAGGGACTACTAATACAAAAATCGGAAGCCACTCTCCGAAAAATCTTTGGTCTACTACTGTAACTGACGAATTGAGACTGGCTACCAACTTCCAGGGAAAAGTAGTGGGAGTTTCTTTGAAAGACCGTGCTTCCATTCTTCCTGCAGGGCATACTCCAAACGGAGCCTTCTGGTTTGATGACAGCACAGGGAACTTCATTACAAGTACATGGTATATGAATGATCTTCCTCAGTGGGTAAAATCATTCAACTCTCAGAATCTTCCTGAAAAATTAGTGGCAAACGGCTGGAATACTTTACTTCCAATCAACGAATATACAGAAAGCGCACCGGACAATTCTCCTTGGGAAGGTCTGCTGGGAAGTGCAAAAACACCTACATTCCCTTACAGTAACTTGGCAAAGGATTATCAGGCGAAAAGGGATAACATCCGTTATACTCCTTTCGGAAATACGCTGACATTGAAGCTGGCAGAAGCTTCTGTAGAAGGTGAAAAACTGGGTGGAGATAATATCACAGATTTCCTGGCGATCAATCTTGCATCTACAGATTACGCCGGCCATAAATTTGGTCCGAATTCTATTGAGGTAGAAGATGTTTATATCAGATTAGATCAGGATTTAGCAGAGTTCTTCAAATATCTGGATGCCAAAGTAGGAAAAGGAGAGTACACTGTTTTCCTTTCTGCTGACCACGGTGGAGCACATTCTGTAGGATTTCTTAAAGAACATAAAATCCCGACAGGTTTCTTCGGTGAAGATGGGGAGAAGAACCTGAACCAAAAGCTGAAAGAGAAATTCGGAGTAGATAAATTGATCAACTCTATCGAAAATTATCAGATTTATTTTGACAGAAAAGTATTGGCAGACAACAAGCTGGAATTGGATGATGTAAGAAACTTTGCTGTAAAAGAAATTGAAAAAGATCCTACGGTTTTATATGCTGTTTCTGTGGACAAAGTTCAGGAGTCAGGCATTCCTGAACCCATAAAACAAAGAATTATCAATGGGATCAACAGACAGAGAAGTGGAGACATCCAGTTAATTTCTCATGATTCTATGCTTCCTTCATATTCTAAAACAGGAACTACACACAGTGTATGGAATTCTTATGATTCCCACATTCCACTGATCTTTATGGGATGGGGAGTGAAGCAGGGAGAAAGCAATAAAGAATATCATATGACAGATATTGCGCCTACAGTCTCTTCTTTATTGAAAATCCAGTTTCCAAGCGGAAATGTAGGAAACCCGATTACGGAAGTTATTGGCAGATAA	MLRNISIAAATLLSVVTVNAQKNRNTQLERPKLVVGLVVDQMRWDYLYRFYGKYGNDGFKRLLNTGYSLNNVHIPYVPTITALGHTCIYTGSVPAIHGIAGNDWTDKETGKGVYCTADESVQPVGTTNTKIGSHSPKNLWSTTVTDELRLATNFQGKVVGVSLKDRASILPAGHTPNGAFWFDDSTGNFITSTWYMNDLPQWVKSFNSQNLPEKLVANGWNTLLPINEYTESAPDNSPWEGLLGSAKTPTFPYSNLAKDYQAKRDNIRYTPFGNTLTLKLAEASVEGEKLGGDNITDFLAINLASTDYAGHKFGPNSIEVEDVYIRLDQDLAEFFKYLDAKVGKGEYTVFLSADHGGAHSVGFLKEHKIPTGFFGEDGEKNLNQKLKEKFGVDKLINSIENYQIYFDRKVLADNKLELDDVRNFAVKEIEKDPTVLYAVSVDKVQESGIPEPIKQRIINGINRQRSGDIQLISHDSMLPSYSKTGTTHSVWNSYDSHIPLIFMGWGVKQGESNKEYHMTDIAPTVSSLLKIQFPSGNVGNPITEVIGR				NA	NA	NA	NA	NA
BMS003_04392	1827	btuB_17	COG4206	Vitamin B12 transporter BtuB	ATGGATATAAAAAGATCTTTAGTACTGCTTTTTTCATCTTATGGCTCCTTTCTTTTTGGACAAGAGAAAGCCATAGATACTATTTATGTTTTCGACAACCAGATGAATAGGGTGAAGCTTTTTCATCCTGTAAAAACCATTTCGGCAGAAGATGCCGGAAAAAACTCAAGCAACCTTTCAGAACTTCTAAGATTTCAGTCGCAGGTTTTTATCAAAGAAAATGGGCGTGGTGCAGTTTCTTCACCATCTTTCAGAGGAACTACCGCACAGCAGACTGCTTTTGTATGGAACGGAATCAATATCAATTCCAGCTTTTTAGGACAGGGAGATATCAATAATATTGCCTTGTTTGGGTATGACCAGATTGGAGTAAAAGCTGGCGGAGGAAGTGTAATCTACGGAAGTGGTGCCATCGGAGGAAGTATCCACCTTAATAATATCCTTGATTTTAATAAGGGATTCCATGGCTCCTTATTTTCAGAAGTGGCTTCTTTTAATACTTATAATAATTTTGTAAAAGGTTCTTACAGTAATGATAAATTCAGTTTTAAAGCTTCAGGGAATTATTCTGTAAGTGAAAATAATTATGAGGTAAGCGATCTGAATTATATCAACAGAAACGGAAATTATTACAATACAACATTCAATGCAGGAGCATCCTATAAAATAGCGGACGACCATAAAATTTCCTGGCAGAGTCAGTTTTTTGATTCCTCCCAGCATTATCCTGTGTATGAGGAAACGGGAACGAAAACAAAATATGAGACTCAAAGTGTAAGAAGCCTTCTTTCCTGGGACTGGAACAAAGCGAAGTTCAGTAATTCTCTTAAAGCAGCTTATACTGAGGAAAACTTTCAGTATTTCGGTTCATTGAGCCAACCCAAATCAAGTGGCGGAACAGGGAAGAATTATATCTTTAAAAATGATTTCAATTATTTCCTGAATTCAAAATGGAATTTTAATCTCATCGGAGAATTTCAGGTCAACAAAGGAGAAGGATACCAGAGCGGAATATCCAGTGTCAGCAGAAATGTTGGCTCAATATCAGGATTGTTGAGGTATTTTGCTACGAAAAACCTGCGTTTTGAGGGTGGATTCAAGAAAGATTTTGTAGAGGATGTAAAGTCGCCGTTGATGTACTCATTCTCCGGAAAATGGAAGGCTGCAAAATGGTATGATGTAAGTGTGAATGTCTCAAAAAACTTCAGATTTCCGTCCTTCAATGATATTTATTATGAGCCGGGAGGAAATAAAGATCTGAGCCCGGAAACTTCTACACAGGTTGATATGACAAATGAGTTCAAAGTAGGAGATTTTAAACTTACTTTGTCTCCTTACTATATGGATATTACGGATCTTATTGTGTGGCTTCCTACTGCTTTAGGCTACTGGCAGGCATATAATGTCAATAAATCCGAATCTTACGGACTGGAATCTCAGCTGTCTTTCAGTAAACAGCTGGGCAGACATAAAATTCGTGCAAATGCAGGGTATTACTACGCAAAATCTATTGATAAAGAAACGAAGCTACAGAGACCCTATGTTCCTATGCACAGAGGAAATGCCAATTTGGATTATGAATATGGTTTCTTTCAGTTTTTTGCACAAGCATTACTGAACGGAGTTACCTATACCACAAGTGACGAAAAGAGATCAGATGCCATAGATCCTTATTTTCTTTTAAATATGGGGGTTTCTGCAACGTTAGCAAAAAAATATACCTTAGGGTTTAAAGTGAATAATCTTACGGATACTTACTATAAAACAGTTTCTTTCTATCCTTTACCGAAAAGAAACTATAGTGTGTATGCCACAATAAATTTTTAA	MDIKRSLVLLFSSYGSFLFGQEKAIDTIYVFDNQMNRVKLFHPVKTISAEDAGKNSSNLSELLRFQSQVFIKENGRGAVSSPSFRGTTAQQTAFVWNGININSSFLGQGDINNIALFGYDQIGVKAGGGSVIYGSGAIGGSIHLNNILDFNKGFHGSLFSEVASFNTYNNFVKGSYSNDKFSFKASGNYSVSENNYEVSDLNYINRNGNYYNTTFNAGASYKIADDHKISWQSQFFDSSQHYPVYEETGTKTKYETQSVRSLLSWDWNKAKFSNSLKAAYTEENFQYFGSLSQPKSSGGTGKNYIFKNDFNYFLNSKWNFNLIGEFQVNKGEGYQSGISSVSRNVGSISGLLRYFATKNLRFEGGFKKDFVEDVKSPLMYSFSGKWKAAKWYDVSVNVSKNFRFPSFNDIYYEPGGNKDLSPETSTQVDMTNEFKVGDFKLTLSPYYMDITDLIVWLPTALGYWQAYNVNKSESYGLESQLSFSKQLGRHKIRANAGYYYAKSIDKETKLQRPYVPMHRGNANLDYEYGFFQFFAQALLNGVTYTTSDEKRSDAIDPYFLLNMGVSATLAKKYTLGFKVNNLTDTYYKTVSFYPLPKRNYSVYATINF	PGPT0003740_2353	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS003_04393	1056			hypothetical protein	ATGAAAATAACTAAACTTTTAACTGTATTATTTGCAGTTGTACTATTGTTTAATATGTCTTCATGTACAAGTGATTCTGCAGAAATTGAAATCTCTCCGATCACTTATCAGAACGGATATTTTATCTCTAATGAAGGTAACTTCAACAGCCAGGGAGCTAAAGTAACATTCCTGACAAGAGATTTAAGCATGAAGCAGGATGATGTGTACGGATATAATAATGATAAAGAGATCTTAGGCGATGTTTTGCAAACAATTGGGCTTAATGGAAATAAGGCTTATCTTGTATTGAATAACTCAAACAAAATTGTTGTTGTAGACCGTTATACATTCAAAAAATTAGCGGTAATTACAGATCAGATTGATAATCCAAGAGGAATTACTTTTGCGAATGATTTTATCTACGTTTCCAATACTAATTTCACAGCACATACTCAAAGTGTAACAAAATATAAAGCTTCTGATTACTCATTTGTAAGCAAAATCAGCATGACTGATGTTTCTGACAAAACAGTAGAAGCCGGAGGAAATGTTTTCGTACAGAATGCTTCATCAGGATATGGAAATAAGATTACTTATATCAATACTTCCAATGATGCCAAAACTGAAATTACGGTTCCAAACGGTCAGATCGGAAACACTATTTCATACAAATCTAATGTTTACACCATTTCTTCAACGGCTACAGATTCTTATATCTATAAAATTTCAGACACAGGATCAATGACTCCGGTAATTACGCTGACAGGAATTCCAAATGCGACAAACCTTCAGATTGATAATGATAAAATCTACTTCAGCTCTGGAAATAAAGTATATACAACAAGCTTAGCTGCACCTGCAATTCCTACAACTCCATTGTTGACAGCTGCAGATGGCGGACTTTATTTTACACTTTACGGATTTAACGTTATTGATGGAAGAATCTTTGCATCAGATGTTCATCAGTTTACAACAGAAAGCGAAATGGTAATATATTCAGCAGCTACGGGCAGCAAAATGGGAACTATGAAAACCGGAGGACTTGGTGCTAACGGAACTTTCCTGAACCCATAA	MKITKLLTVLFAVVLLFNMSSCTSDSAEIEISPITYQNGYFISNEGNFNSQGAKVTFLTRDLSMKQDDVYGYNNDKEILGDVLQTIGLNGNKAYLVLNNSNKIVVVDRYTFKKLAVITDQIDNPRGITFANDFIYVSNTNFTAHTQSVTKYKASDYSFVSKISMTDVSDKTVEAGGNVFVQNASSGYGNKITYINTSNDAKTEITVPNGQIGNTISYKSNVYTISSTATDSYIYKISDTGSMTPVITLTGIPNATNLQIDNDKIYFSSGNKVYTTSLAAPAIPTTPLLTAADGGLYFTLYGFNVIDGRIFASDVHQFTTESEMVIYSAATGSKMGTMKTGGLGANGTFLNP				NA	NA	NA	NA	NA
BMS003_04394	450	xerC_9		Tyrosine recombinase XerC	ATGGAGGATAATAGGCTTACCTTTTACAGAGGTAAAACAACTCGTACAAAAAGGTCAAATCTTAAAGAAATTTCTGTTTTACTTACACCTTTTTCTAAAGCCATCATAAGAAAATACCAAAACGAAGAAACAAGCCCTGAAGACTATGTTTTTAATATTCTTTCAAAAAACGATACAGCAATAGAGCGAGTAAGAAACATTGAAAACTTTACTAGGTTTATTAACGAGCATATAAAAAAACTTGCGAAAGCTAATGAAATAACAGACGAAATTTCTTCTTACTGGGCTAGACATAGTTTTTCTACAATGGCGTTAAATTCTGGAGCTAATATAGAGCTTATAGGAGAGTATTTAGGACATAGTGATATAAAGACTACAAAAAATTATTTAAGCGGCTTTGATGATGCAAATAAGGAAGCTATCATAAATAAGATTACAGACTTCTTATGA	MEDNRLTFYRGKTTRTKRSNLKEISVLLTPFSKAIIRKYQNEETSPEDYVFNILSKNDTAIERVRNIENFTRFINEHIKKLAKANEITDEISSYWARHSFSTMALNSGANIELIGEYLGHSDIKTTKNYLSGFDDANKEAIINKITDFL	PGPT0022000_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS003_04395	534			hypothetical protein	ATGATAGTTGAACATCACTTTATAAAAGTCCCTGATGAAAAGCTTTGTATAGAGCTGTTAAAAACTATCAAGGAAAAACAGGGTGTTGTTTGCAGGAGGTGTGACAGTTCAGAATATTACTGGAAACAGGATAAAACAGTTTTTGAATGCAAAGAATGTGGATTGAGAACATCTTTAAAAGTTGGAACCATTATGAATAGGAGTAGGCTTCCTATTTATTATTGGGTCGTTGCAGTTAATTGTATTATAAGCGGTTCATCCAATCTCACTATAAAAGATATTCAAAGAAAACTAAAACATAACAGGTATGAGCCCATTTTAGAGATGTGTAATACCATAAAAATACAGTTGGGAAGGTTAAAACCTGAAAGAGATTCAGGAACATCATTAATATCTTTTAATGAAATGCCTTTATCTGAACAACATTTTTTTACATGGGCAGAATCTCAAAATGAATCTCATAAAAAAATAGACCAAAAATTGATAATCTTATATCTTAAATGGTTGTCAAAAAGTCCTCAAATTTACGATTAA	MIVEHHFIKVPDEKLCIELLKTIKEKQGVVCRRCDSSEYYWKQDKTVFECKECGLRTSLKVGTIMNRSRLPIYYWVVAVNCIISGSSNLTIKDIQRKLKHNRYEPILEMCNTIKIQLGRLKPERDSGTSLISFNEMPLSEQHFFTWAESQNESHKKIDQKLIILYLKWLSKSPQIYD				NA	NA	NA	NA	NA
BMS003_04396	366			hypothetical protein	ATGAACGAAATAATAATGCAGATACCGCATAATATTTTTGAAGAATTAGTAGAAAATATTAAAATTACATTAAAAGAAGAATTAGAAAAAATCAAAGAATCATTCAGCTATTCTAAAGATGAAGAATTGTTTTATACATTGGAGCAAACAGCAAAGATTTTAGGGATTAAAAAACAGGCTTTATATGGTATGAACTCAAGAAATGAGATTCCATACAGCAAAAGAGGAAAAAAATGTTATTATCTCAAAGTAGATATTTTGAATTACATTCAGGAAGGCAGAATAAAATCAAAATCTGAAATTGAGAGAGAAGCACAACAGGCTCTGTTATCTATTAACCATAAAAACAGAGGAAATGCAGGATAA	MNEIIMQIPHNIFEELVENIKITLKEELEKIKESFSYSKDEELFYTLEQTAKILGIKKQALYGMNSRNEIPYSKRGKKCYYLKVDILNYIQEGRIKSKSEIEREAQQALLSINHKNRGNAG				NA	NA	NA	NA	NA
BMS003_04397	927			hypothetical protein	ATGCAGGATAATTTGAGAGTTTATTTTAAAGACAAATATTTTTTTGAAAGTCTTGTAAAGAAAAAAGGGAGTTTTAACGTAACCCTCAATAGTGAAGATATAAAAAATGATAATCCTAATGCTTCATATTATCCCATTAAAGGAGAAATTGGCTCAATGGTTTATGTAGTTCATTCTCATACGGCTTATATTGAAAATTCAGTACATCAATACTATAATTATTTGACCGAAGGAAAAAAGCATAATTATGATGATTTTTCTTATTGTGATTTGATGCAAACATTAGATGAGTTGAGAAATGAGTTTCCAGACTATGATTTTTCTGATACCAAAATTACCAATTTAGAGTTTGGATTTAATCTTAGATTGGATAGAAATGTAAAAGATATTATTGAAAAAAATATTTTGATGTATAAATTCAAAACTCACTATGTATTTGAAGATAAAAAAGGATTTGTACTAAAGAAATTTAAATCAGGAAATTACACTTTTAAAATCTATGATAAAGGAAGACAAAATAAACTTGATTATGAACTTTTGAGAATAGAATTAAAGTACAATTCAAAAGAATTAGAAAAATTTGGAATATTGAATTTCTGTGATTTGTACGACCCTCACAAAAATATTGCCTTATTCAATGATTTTATAAAGAAGTTTGATTATTTAGTGATTGTGGATGATAGATTTACTGAGGGACTTAATGACACAGAAATAGCAAATTTGGGAAATAAATTAGAATATTCCTTTTGGAAACAAAACTTTGGTTCTGATGCAACGAAAGGAAGAAATAAAACCAGATTAAAAAATCATATTAAAACTAAAAAGTTAGATAAAACCTTTATATATCTTAAAAATATGATTATTCAGAAGTTTGATGAGTTGTTTAAAGATTGTGATGAAAATTATCCAATTGTTGTTGGGAATTAA	MQDNLRVYFKDKYFFESLVKKKGSFNVTLNSEDIKNDNPNASYYPIKGEIGSMVYVVHSHTAYIENSVHQYYNYLTEGKKHNYDDFSYCDLMQTLDELRNEFPDYDFSDTKITNLEFGFNLRLDRNVKDIIEKNILMYKFKTHYVFEDKKGFVLKKFKSGNYTFKIYDKGRQNKLDYELLRIELKYNSKELEKFGILNFCDLYDPHKNIALFNDFIKKFDYLVIVDDRFTEGLNDTEIANLGNKLEYSFWKQNFGSDATKGRNKTRLKNHIKTKKLDKTFIYLKNMIIQKFDELFKDCDENYPIVVGN				NA	NA	NA	NA	NA
BMS003_04398	525			hypothetical protein	ATGAATAAAACATTAGCTTTTGATTATTTTGTCTACCATTTAGTTGACTGGTACAGAGAGGCTTATGGAGATGGTGTTGAAAACGATTTAAGTACTTTAAAAGTTTTGAAATTATTATTTTTTACAACAGCAATTGGAGCTAAAAAAGATGATAACACTTCTTTACTTGATTCAACTTTTGATAATTTTTATGCCTTACCATATGGGCATGTTGAAGGAGATATATATGATGATATTAAACAAAAAAAGACGGTTTATACAATAAATAACTACAGCACAACAGGAAGCTATACGGAAACTACAGAACTTGAAGCCGAAGTAAAAGCAAAAATTTCAGAAAGTATTTCAAAATTGAAATCTACTAATCCCAATTTAATTAAAATGTCTTCTTTTGATTTAGTAGAATTAAGTCATTCTTGGTATTCTTGGAGATATTACTTTAATATTGCTAAATCTAAAGGGTTGTATCGTGAAGCAATTCCTAAAGAAGTTATTAAGAGTGAAAATAAATATTTTCATATATAA	MNKTLAFDYFVYHLVDWYREAYGDGVENDLSTLKVLKLLFFTTAIGAKKDDNTSLLDSTFDNFYALPYGHVEGDIYDDIKQKKTVYTINNYSTTGSYTETTELEAEVKAKISESISKLKSTNPNLIKMSSFDLVELSHSWYSWRYYFNIAKSKGLYREAIPKEVIKSENKYFHI				NA	NA	NA	NA	NA
BMS003_04399	1947			hypothetical protein	ATGGCTGTCCAGATAGATGTTGCTTATAGTAAAATAAGTGACTTTAAGCAGTATTTACAAAGAACTGTTACATCTATGGAATCTATTTCTGAGCAAGAAGAAATAGATGCCCACACACCATTAATTATTTTAGAAGTTGAAAAATATACATCTAGTATAGTTAGGGAAATATGTCTTTCATTGATTTCAGGTGAATATTTTACAAATACTGAAATTATTAGTAAACTTGACAATACTGAGAATGAAATTAAAGATATTCCTAGATTTGCTAATACTCTCTCCTTTGAGATACTAAAAAGAGTTTTAGAGTCTTCAAGTGCCATTGTTATAATAATTGAAAATTATAAAATTTTTATAAAAGATATCATTGATAGATATAGTGAGGAGCAAGATTTTTATCTTTTTACCCAAAATCCTCATTTTGAAGACATTATTAATGGGAGCGATTTTTCCGAAGATTATGAAAAATTTGTTAATTATTTTATTACATTATTAGGCGTTATCAGATTAGAAAACTTTCCAACGACGCACAAGGAATACATAATGGAAGTGTTCGATTATGGTTCAAAAATTAATAAAATAACAATTAATGAATATTCCGATATTTCAACAGCTATAACGACCAAAGTTGATTTTTTAAAGCATAAGTGGAAAAAGAGAATAGAAAATATTAATCCTTATCATTCCAATTACCTAGATGGCGGAACATTAAAAACAATAGAGGATTTTAATGGAGATAATGAAATTTTGAAAAGTTGGGTAGGTATCATTGATACACAGTATGTTGATACGCAACATGATTTAGTTTCTAATAATTGGAAAGATGTTATAAAGAAAAGAGTTTCTTCTTACAAAAATACTTCTTTAAATAATTTATCAATTTTACAAGTACATCAACTGATTAAATATTATAAAGATGTAAAGCCAAACCTTTCAAAATTGGACGAAATAGCTTTGTTTTTAAGAAATAAAGCAGATGATATTGAGGATGAAAACTGTTTTACTAAATATGCATACAACATTATTTATAACTATGCCATAAATAATGTATTTTCCATGTATGTGTCAAAAGAGCAAAATATAGATAATATTACTAAAAAATACAAAGAAATAAGAGAAAGTATTAAAGGTTCTGTTAATAATTACTTTCTAAGATTTAAGTATTTAGAATATTTAGTTAATTATTTGCAAAGTAAAATGCGAGATGATGAAAAAATAAATTTTTTAAACGCATATAGTGATTTAATTGAGGATTGCGATGAAGAAATGCAGGAATACAGCAATAATATTGAATGGGCAAAATTAAATTTTAATTTTGTTTTTATGCTACCTTATGATGAATGTTTGGTTTCATGTGATGTTGCAGGGCTGGAAACCATTTTTTATCCCTCAACTTTTGTTCTTCCACCATCAATTCTCAAAACTGAAAGAGATTATAAAAAGATAAAGCAAAAATATGATAATTTATTGCTGTCATATAAAGCTGGGAAGTATTTTAAAAACGAGATTGAAAAAATTGAAGAATTAGGCAAAAATCTAGATTCTAAGGATTTTAAAGCTATAGAAATTATAAGTATTTTTACAGCTATTATAACGTTTGTTTTATCTTCAATACCAGCTTACAAGTTTATAGATAGTGTTTGGGAGTCATTACTATTTATGCTTTCTTTAGCGACAGCTCTTTCTGTGTTTGTTACTTTGATTCTATTTTCTACACGAGATTTATATAAAAAATGGTATGCTTATATACCTGTTATTGTTCTAAGTGCAATATCTTTTTTTGGATATCTTAATTTAACACAGTTTGAAAAACAAAAATTAATTGTTAATAAGAATCTAAAAAAGAATATTGATTCAATTTCTGTAAAAAAAGTGGATTCAATTATTAATTATAAGATGAAAGAAAAAACAATTGCTCCAACAAATAAAAATCAACAAACTCAATAA	MAVQIDVAYSKISDFKQYLQRTVTSMESISEQEEIDAHTPLIILEVEKYTSSIVREICLSLISGEYFTNTEIISKLDNTENEIKDIPRFANTLSFEILKRVLESSSAIVIIIENYKIFIKDIIDRYSEEQDFYLFTQNPHFEDIINGSDFSEDYEKFVNYFITLLGVIRLENFPTTHKEYIMEVFDYGSKINKITINEYSDISTAITTKVDFLKHKWKKRIENINPYHSNYLDGGTLKTIEDFNGDNEILKSWVGIIDTQYVDTQHDLVSNNWKDVIKKRVSSYKNTSLNNLSILQVHQLIKYYKDVKPNLSKLDEIALFLRNKADDIEDENCFTKYAYNIIYNYAINNVFSMYVSKEQNIDNITKKYKEIRESIKGSVNNYFLRFKYLEYLVNYLQSKMRDDEKINFLNAYSDLIEDCDEEMQEYSNNIEWAKLNFNFVFMLPYDECLVSCDVAGLETIFYPSTFVLPPSILKTERDYKKIKQKYDNLLLSYKAGKYFKNEIEKIEELGKNLDSKDFKAIEIISIFTAIITFVLSSIPAYKFIDSVWESLLFMLSLATALSVFVTLILFSTRDLYKKWYAYIPVIVLSAISFFGYLNLTQFEKQKLIVNKNLKKNIDSISVKKVDSIINYKMKEKTIAPTNKNQQTQ				NA	NA	NA	NA	NA
BMS003_04400	561			hypothetical protein	ATGTATAAAAGAACACTAATAATTTTAGGCATATTCCTAAACGCAATATCGTGCTCTGCACAAAATCTCCCTTTAAATACTGGATTGGCAAATATTCCCAATAATGCTCATGTTAAAGACACCAATAATGAACTTTCGCCATATATAGGTATTTATAAGGCAAATTATGAGGGAAAAGAAATTACACTATACATTACAAAGGAAGATGATAGATTAGAATCACGTGCAAACAAACAATTCTATAGAGATGCATTGGTAATAAAATATATAGTCAAAAATTCTACTGGAACAATTTTACAGGACACTAAGAATAATAACCTTGATATTGATTTCCATAGTACAAAAATCAAATCTACTCAAAATTCAGTAATATTTTTTTATAGTGGAACTAATTGTAGTGTAGGATGGGGTGATGTTTATTTAAAAAAAGTTAATACTACTCAAATCTCTTGGGAATACAGACCAAATGACATTGTAACAACAGCTGCTAAATGTCCTCCTAATTTAGATACAACAATTTATCTTCCAGAGACAAAAGATTTAATTTTCACAAAACAATAA	MYKRTLIILGIFLNAISCSAQNLPLNTGLANIPNNAHVKDTNNELSPYIGIYKANYEGKEITLYITKEDDRLESRANKQFYRDALVIKYIVKNSTGTILQDTKNNNLDIDFHSTKIKSTQNSVIFFYSGTNCSVGWGDVYLKKVNTTQISWEYRPNDIVTTAAKCPPNLDTTIYLPETKDLIFTKQ				NA	NA	NA	NA	NA
BMS003_04401	993			hypothetical protein	TTGTATGACCCGAGTGGTTATACTTTTGACCCGAACATTCCTCCTTCAATAGACCCATCTTATGTAAGAGCTGCAAGAGCGAGTAGCTTTTTCTACTCACAAACCGACCAAGCAAAGTCTTGGGCTGTAGAACATGCGGATATTTATTGTAATATATTAGAATATTACCTTGACCATATCCCGCCCTCATCTCCACCGCCTAACAGTTATTATCAGGATTTTGCAAATTTTGCGATACAGGTTTTTATGGAAAATCCTAATTTAACATGGGAACAATTTTATAATCAGTTTATTAATACGCCTTGTGAGAGAACAAAAGCAACACTAAACAAACCTAATGTAAAACAAGGTATTGCTAATGTAAAAGCTAATGCAAAACTAACGGTAACAAATCCTAAAACGGGAGAAATCGGTTTTAAAGAGAAAAAAGATGGCACAGTAGTTCCAGCAGATATTAGTTCAGCACATCATGTAGTATTCAATAATGTAACTGACGGATTTGGTGGTTACCATAATCACACAGCTACAGGTATTCACATGGTTTCACCACCAGATATGGTAGATTCGTTATTTGGATTTGCAGCCGCTCAAAGTATTGAAGATGGAGTTGGAAATGCTTATTTAGGAATGATAGCCGCAGAAGCCTGTAGTAGTTGTCCTGATGGTGTAAAATATATAAATTATGTAATACGTTATGCAGGAACAGGCGCAGAATTAGCAAATTTTGTATATTCACCTGCACAAATGAAACAGTTTAATATTGATTATGCGGAAGAAGCTCGTGATTTAGCAGAACCGATATTAAATGGAACAACATATATTAACAGTTCAGGCGATTTAAATGAAAAAGGATTGGAAAAATTGTTTTTTGATACTTTAACAAATATGGGACTTGATAACAAAGTTGTCCTTCAACGTATTGAGAATAATGGAGCAGTATATAATGTAACAAAAAATAGTAGCGGTGTAATTACAGCAACGCCTTGTCCTTAA	MYDPSGYTFDPNIPPSIDPSYVRAARASSFFYSQTDQAKSWAVEHADIYCNILEYYLDHIPPSSPPPNSYYQDFANFAIQVFMENPNLTWEQFYNQFINTPCERTKATLNKPNVKQGIANVKANAKLTVTNPKTGEIGFKEKKDGTVVPADISSAHHVVFNNVTDGFGGYHNHTATGIHMVSPPDMVDSLFGFAAAQSIEDGVGNAYLGMIAAEACSSCPDGVKYINYVIRYAGTGAELANFVYSPAQMKQFNIDYAEEARDLAEPILNGTTYINSSGDLNEKGLEKLFFDTLTNMGLDNKVVLQRIENNGAVYNVTKNSSGVITATPCP				NA	NA	NA	NA	NA
BMS003_04402	252			hypothetical protein	ATGGCAGACAAAATCCTTTGGCAGATGTATTCACTCGCTAATGATGGAGACGTAAAGGCAGCAAGACTCTTTTTGGAAGTAGCCGGAAAATTAGGGAAGTCTGGCAGCTCTCAACCAGTGAAAAATCAAACCCATTATATTCAGATCAATAATACTGTTCTCAATCAGCAGGTATTGCAACAACTCTCTACAGAACAGATCAATGCTATTGAGGGAATTTTAAAAACAATCGAAGTAAAAGAAACAGATTAG	MADKILWQMYSLANDGDVKAARLFLEVAGKLGKSGSSQPVKNQTHYIQINNTVLNQQVLQQLSTEQINAIEGILKTIEVKETD				NA	NA	NA	NA	NA
BMS003_04403	1185			hypothetical protein	ATGAAACTACCACCGGAATTAGAAGACCAATATGTAAAAGAAGTTCTGTATAACCATTTCTTAGAAAACCTTCCTGAAGAACAATGGAAGCGGATTGAAGGTTTTGAGAATTATGAAATATCCAATTACGGAAGGGTAAAGAGCTTAAGTCGCCTTTCACATATATCATTAGGAATAGAGCATTGGGTTTCCGAAAGAATCCTTAAGTTGTTTTTTACCAGACAGTATAATAAATATCTTAACGAGTATGTTTATAATGTTCACTGCGGGTTATCTTTGGAAGGATGTAAATATACAAGATCTGTTGCTCGTTTGGTTTATTATCATTTTGTTGAAAAGTTTAATATCGAGGATCGATCTTTTATGATTGGTTATAAAGATAATAACGTATTTAATAAGCATAGCAGTAATTTAGAGAAAATTTCAGTCAAAGAGAAACGTCTTACTACCTTTCGCAAGGATCGATCAAGAAACGTGCATGTTGATTATATGAAGCCTGTTAGTCAATATACTGTACACGGAGAATTTATTGCTAGTTTTGAAAGTATGTATGCGGTGGAAAAACAATTAGGTATTGCTTGCGAAAGTATTATGGACGTTATCAATAAAAACATCTTAACGTCAGGAACATTTCGATGGTTTTTGCGAGATAATCCTCCGCAAAAAGAAGATTTTTACATGGTCAAAACAGCAGATACCTCAAATGGTTTACTTAATAAATATCTTTGGGAGAAGCTTGGTAAGCCCAAAATTGATAAAAAGAATCCACCTCCTTGTTTTAATTTGTCAGTCAAAGATATTCTTGAAGAGTACTGGGTTCCAGTTCCAATTTCCGGTTTTGAATCTCGATTTGTCATATCTAATAAAGGTAGGGTGAAACGGTTAAGTGGTTGGATTTCAAAGGGACGTATTATGTTTTTACAGGAAAAAATATTATCCCAAAGACTGATTATTAATAGTGAAAAAAACTATTCTCTATCATGTACATTAAGTAATGAAGGAAAATATGTTCGGGTTGTAATGAGTAAACTGCTCTATTGTTGTTTTGTTGAAAAATTTGATTTATCAGACAGGAATTTGATGGTGGTCAATGAAAGTGATCCTTTATGGGATATTGATATTTCAAAACTATCGCTACATCCAGCTAATTATGTACTGAAGGAAAAATATAAAATTGAAGATTAA	MKLPPELEDQYVKEVLYNHFLENLPEEQWKRIEGFENYEISNYGRVKSLSRLSHISLGIEHWVSERILKLFFTRQYNKYLNEYVYNVHCGLSLEGCKYTRSVARLVYYHFVEKFNIEDRSFMIGYKDNNVFNKHSSNLEKISVKEKRLTTFRKDRSRNVHVDYMKPVSQYTVHGEFIASFESMYAVEKQLGIACESIMDVINKNILTSGTFRWFLRDNPPQKEDFYMVKTADTSNGLLNKYLWEKLGKPKIDKKNPPPCFNLSVKDILEEYWVPVPISGFESRFVISNKGRVKRLSGWISKGRIMFLQEKILSQRLIINSEKNYSLSCTLSNEGKYVRVVMSKLLYCCFVEKFDLSDRNLMVVNESDPLWDIDISKLSLHPANYVLKEKYKIED				NA	NA	NA	NA	NA
BMS003_04404	1509			hypothetical protein	ATGAAAAAACTTTATTTAAGTGCATTTCTTGTATGCACTGCCTTGGGTGAATTGTACGCCCAGGAGGTCCTATGGGAGAAGAATATCCCCTCTTCTTCACAGGATTTCTTAAGCCAGGTGAGTACCACCATTGATGGTCAGTACCTTATTTCGGGAAGCTCTATTCAAGCTAAGAGTGATCCCACTTCCAGTTCTAAAAGTCAAAATTCGGGCTATGACTATCATATTATAAAATTAAATCAAGAGGGAAAAGAAATCTTCAACAAATCCTTTTCAGGAAACGGTCATGACCATTTAATTTCTACGGCGGTCACTAAAGAAGGTGGAAGTCTTCTTGCAGGTACTTCTTACTCTACCAAAGGGCTGGATAAAAAGGAAGAATCCAAAGGCGGTGCTGATTTTTGGCTGGTAAGATTGAGCGAAAATGGAGAGCTTATCTGGCAGCGTACGTTAGGGACAGCGGCAGATGAAGAGGTTCGCTCTGTTATCCAGACTACCGATGAAGGCTTTATTGCAGGTGGGAATATTCAAAACAGCCCTAAAGGCTATGGCGGAAGAGACCTTATTATTTACAGACTGAATAAAGAAGGTAAAGAGATGTCTAATCTCATTTTAGGCGGCTGTGGGAATGATGAGCTGGAGAAAATGATTCCTACAAAAGATGGCGGGGTTTTGATTGGTGCTTATTCCAGAAGCCCTATAAGCGGAACGAAAAAAACTGGAAATGAGGGAGAATCGGATTATTGGCTTATCAAGCTGGATCATAATCTAAAAGTTCAGTGGGAAAAGAACTATGGGAGTAAAGTTGAAGATCATTTAAGGACTTTAGCCTTAACCTCTACCGGGTATCTGGTGGGTGGTGAAACAGGGACTGATATTGAGCTGTTATCCCTAAATGAAAGAGGCGAAGAAACCTGGCATAAAACCTACAGCATAGGAGGCAGAGATATTCTTAAAGGCATGAACGTGATCCATTCAGCAGATGATAAATCAACGAGCGGTATCCTTCTGGGGGGCTATACGCAAGCTGAGGAAAGGGCTAAAACTGATGATGAAAAATTCTGGATGCTGTATTTAGACCAGAACGGTAAGGAACAATGGCGAAAATACATTAAAGGAGAGTCGAATAAGCGTGAAGAAAGACTCTCAGACCTCAAATTAAACAGGGATGGAACGATTATTTTAGCCGGAACCAGTGCTGAAGAACTCGGCAAAGAAAATTGGAAAATTGTAAAGCTGGGAGATAAGCAGATTGACCAGTTAATCGAAAAACAAGACATTAAGATTTATCCGAATCCTGTATTTGATTATTGTTATGTTGAGATTGGTTTTAATTTCTCTGATGCACAAATTTTATTGTATGATATGTCGGGAAGACAGTTACAGAGCCTGACAACCAAAAATAAAGTAACCAAAATGAATACTCAGAATTTGATTCAGGGGGCTTATCTCATCACGATTAAAACAGATACAGATAAAACCGCTAACGCTAAATTGATAAAAAAATAA	MKKLYLSAFLVCTALGELYAQEVLWEKNIPSSSQDFLSQVSTTIDGQYLISGSSIQAKSDPTSSSKSQNSGYDYHIIKLNQEGKEIFNKSFSGNGHDHLISTAVTKEGGSLLAGTSYSTKGLDKKEESKGGADFWLVRLSENGELIWQRTLGTAADEEVRSVIQTTDEGFIAGGNIQNSPKGYGGRDLIIYRLNKEGKEMSNLILGGCGNDELEKMIPTKDGGVLIGAYSRSPISGTKKTGNEGESDYWLIKLDHNLKVQWEKNYGSKVEDHLRTLALTSTGYLVGGETGTDIELLSLNERGEETWHKTYSIGGRDILKGMNVIHSADDKSTSGILLGGYTQAEERAKTDDEKFWMLYLDQNGKEQWRKYIKGESNKREERLSDLKLNRDGTIILAGTSAEELGKENWKIVKLGDKQIDQLIEKQDIKIYPNPVFDYCYVEIGFNFSDAQILLYDMSGRQLQSLTTKNKVTKMNTQNLIQGAYLITIKTDTDKTANAKLIKK				NA	NA	NA	NA	NA
BMS003_04410	561			hypothetical protein	ATGAAAGCATTACAAATACTAATATCTTCTATAGTTATTATCACTTCTATCAGTTGTAATTCTACGTCAAAAGTTAGATATAATGCAGCATATAAAATAGTAAGTAAAGATTTTCTGAGTAAAGAACTTTCTTTAAAAGAATTTGGAAAAGATATTTCAGGGTTATATATTTATGATTCAATATATCCAAATCCTTTAAACGAGAAAGATTATAATAATATTTATAAAAATATTTTATCCGATAAAGAAGAAATAAAACCATTAGGAAAAGATAAAAATCTGGAAGATTTATCTGATCAAAATTTAAATAATAACTGGGAATTAAATAAACCATTTAATACTGTGTTCAAGAATATTGTTCAATATAATGAAATTCCAAATGGGCCTTTAAATGCAGCTATATTTTCTGAAATTAAGGATAATCAATTAAGAGTGGATGTTGTTCCTTTTTTTGTGGGAAAGCCTAAATATTGTGGATCAATTATTAAATACTATTTTAAATTTGATAAAAATAAAATAATTGATAGTAAGAAATGGAAAGATCACTATGAGTGTTGGTGA	MKALQILISSIVIITSISCNSTSKVRYNAAYKIVSKDFLSKELSLKEFGKDISGLYIYDSIYPNPLNEKDYNNIYKNILSDKEEIKPLGKDKNLEDLSDQNLNNNWELNKPFNTVFKNIVQYNEIPNGPLNAAIFSEIKDNQLRVDVVPFFVGKPKYCGSIIKYYFKFDKNKIIDSKKWKDHYECW				NA	NA	NA	NA	NA
BMS003_04411	1098			hypothetical protein	ATGGAAGCTTGGTTTTGTGCCTATAGCAGAAGGATTTTACAGTTTCGCAGAAAACGTTATATTTATCAGTACAAAGATCACCTGGGCAATGCCAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGCTCCCGAAATTACAGATACCAATAATTATTATCCATTTGGATTAAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAACGGTAAGGAACTCCAGGAGACTGGAATGTATGATTATGGAGCAAGGATGTATATGCCGGATATTGGGAGATGGGGTGTGATTGATCCGCTCGCGGAAACTTCGAGACGTTGGTCTACTTATACTTACGCTTATAACAATCCGATTAGGTTTATTGATCCGGATGGAAGACAAAATAAAGATATAACATTTGGGAAAAACATTTCTGTTGAAACGCAAAATAAAATTGTAAACGATCTACAGCAGGAAACAGGATTGACTTTATCTGTAGGAAGTGATGGGAAACTTTCTTATACAGAGACAGAAAATATGAGTGGAAGTGAAACTGCCCGTAATATGTTAAAAGGAGCAATTGACAATCATAGAACAGATTATCAGGTAAATTCAGATAATACACGAGGTTCTTCTATACAAGAAATTGGAGGCAGGGGAGAAAAAATTGATGGAGTCGCGGGATATACACATGTTTATGATTTAAATATAAATACGGATCAAATAGATAATTTTATTAAAGGAACTAGTGCAGCTTTAAACCCCTTAACTATGGGATATGGGATGGTTACTCTTCATGAAGTTAGCCATAAGTATAATAATTTAATCGACGGTTCTGTTGGTAGTGACGGAACAGAATATCAAGCATCAACCATATATGGTATACAAGGAGATAATGTTAAAAAGATGAATATTATTAGAACTGAATTGGATGCTTCTAGTTCTAGTGGGACGTTGCCATTTGGTCAACGAAAATCTTATTCTCCATTAGATGTAGGGGGAGTTAATTTTTGTCCATTTAGTGGTAGCGCGAAGACATTAGGACCATCTAAAGTCGATCCTAAAAAAGACCTGTATATTAAAACTCCTCGAAAATAA	MEAWFCAYSRRILQFRRKRYIYQYKDHLGNARVSFAKNSEGAPEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARMYMPDIGRWGVIDPLAETSRRWSTYTYAYNNPIRFIDPDGRQNKDITFGKNISVETQNKIVNDLQQETGLTLSVGSDGKLSYTETENMSGSETARNMLKGAIDNHRTDYQVNSDNTRGSSIQEIGGRGEKIDGVAGYTHVYDLNINTDQIDNFIKGTSAALNPLTMGYGMVTLHEVSHKYNNLIDGSVGSDGTEYQASTIYGIQGDNVKKMNIIRTELDASSSSGTLPFGQRKSYSPLDVGGVNFCPFSGSAKTLGPSKVDPKKDLYIKTPRK				NA	NA	NA	NA	NA
BMS003_04412	204			hypothetical protein	ATGACCATTGATGAGATTATTCATTTTGAAGAAGGCAAAAAAGCTCCTAAAGAAGTACAGACCGAAGATAAAGAACTTACCGAACAGGTAAAACTAATACAGGAACTTGAACCCGATGAAAGATCTATGGTTTTTAAAATGATTGATACTTTTATTAACCAGAAAAAATTTAAAGATTTTGTAAAGCAAAATGTCGCTCTATAA	MTIDEIIHFEEGKKAPKEVQTEDKELTEQVKLIQELEPDERSMVFKMIDTFINQKKFKDFVKQNVAL				NA	NA	NA	NA	NA
BMS003_04413	321			hypothetical protein	ATGCAGAAGTTTATAAATATTGCGGGTATCAGCATACTTTGTATGGTTATTATCGGATATTTCTTTTATAAAGAATATCAGAAAAAAGAACCTGAAAGGAGGAAAGAACACAATTTGAATACTGAATTTTCAGGAACAATAGATAGTATGTATAGAGATTATTCAAATCATGGAGTTACTGTTTTAATACTTAAAGATAAGAAAAGATTGGAATTTAATATGTATAAATATGGTCGTTTCCAAAAAAATGACAGTATAGTTAAGCATAAAGGTGAAGACAGTATTTACGTTTATAGAAACGGAGAAATGAAATCTTATTAG	MQKFINIAGISILCMVIIGYFFYKEYQKKEPERRKEHNLNTEFSGTIDSMYRDYSNHGVTVLILKDKKRLEFNMYKYGRFQKNDSIVKHKGEDSIYVYRNGEMKSY				NA	NA	NA	NA	NA
BMS003_04414	642			hypothetical protein	TTGGTAGAAGGCGAATATTTAGGAAAAGAAGGACAGTTTAATGTTACCTATGGAGATGAAACAATAGGTAAAGTAGCACTTTACAGTGACGGAGACTGGTTGAATATGTCTTCAGGAGATGCTGATAGTTTCGAATATCATGCCTCTGACGGACCTGAAGGTATGAGAAGCCAATATTTTACAAATTATCTTAGTCCTGAAAGAAATTGGGGTGTTCAGTTTATGGATAAGCCTTTTACTCTTGGTTTTGGAGGTGAAGCTACTGTGGGAGTAGGAGTTGGATTTGAAGTAGGCTATTTTGGAGGAAACTATGATAAAGGAATATACATTAATCTATATAAATCCTATGGGTTAAATGTTGGAGCAGGGTTTGCCTACAATAAATATACCAGTCAAGGAGGTTATGGTCCTTTAACCACTTCAAATTTAGGAGGTAATTACTGGAATGTGGGAGGCGGAGTTGGTCCTTTTGCTGCCAATTATGGAGAAACAAGAAAAGATGAAAATGGAAATGTATCTATGACTGGAGGAAGTTTATCCAACGGTTTTTGGAACTTTTTAAAAAATCCAAAGCTATCAGCGGGAGGCAGTGCGCAATTTGGTACAACCTATTCGTCAAAACTTAGAAAATTTGGTAAATAA	MVEGEYLGKEGQFNVTYGDETIGKVALYSDGDWLNMSSGDADSFEYHASDGPEGMRSQYFTNYLSPERNWGVQFMDKPFTLGFGGEATVGVGVGFEVGYFGGNYDKGIYINLYKSYGLNVGAGFAYNKYTSQGGYGPLTTSNLGGNYWNVGGGVGPFAANYGETRKDENGNVSMTGGSLSNGFWNFLKNPKLSAGGSAQFGTTYSSKLRKFGK				NA	NA	NA	NA	NA
BMS003_04415	384			hypothetical protein	TTGCAAAAAAACAGCGAAGGTGTTCTTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAATACAACGGTAAAGAACTACAGGAGACCGGGATGTACGACTACGGGGCAAGAATGTATATGCCTGATCTTGGAAGATGGGGAGTCGTTGATCCGCTCGCAGAAAAAATGACGAGATTTAGTCCTTATAATTATGCGTTTAATAATCCGATAAGGTTTATTGACCCGGATGGAAGGCAAGGAACAGATTGGTTCTGGGATAGTAAAAAAAGGCATTTACTTATGATGCTTCTATTACTTCTGCAGAACAATTTAATTCACTAA	MQKNSEGVLEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARMYMPDLGRWGVVDPLAEKMTRFSPYNYAFNNPIRFIDPDGRQGTDWFWDSKKRHLLMMLLLLLQNNLIH	PGPT0012380_215	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-OTHER_INSECTICIDIAL_TOXINS,PGPT0012380-tccC-K11021	NA	NA
BMS003_04416	399			hypothetical protein	ATGGTATTTTTATTTTTCTTATTCGCATTAACATCGTGTGCCTCGCAAGAATTAATATATGAACCAATAGGAATATCAGATAAGCCTTTACCTATTTTTAGGATAACCACAAAAAAGCATCAAGACTTAAACAATGATATTTATGTTGTGGATAGAAGTACGTTTTCTTTATTAAAGGATGGTGTTTTAAATAAAAAAAATGAAAACACTAACAAATCTGACAATATTTTTGAATATGGTTCATATAAGATTACTTATTTAGATAATTCAAAAAGGAGCACTTATATAATTGACTCAAAACAGAAATCCTATATTTTTTTTCAAGAACAATTGGAACAAGTGAAATCTAATGAGAAACTTTATAATAGAATTAAGGTTTTATTAAAAAGGATAAACTAA	MVFLFFLFALTSCASQELIYEPIGISDKPLPIFRITTKKHQDLNNDIYVVDRSTFSLLKDGVLNKKNENTNKSDNIFEYGSYKITYLDNSKRSTYIIDSKQKSYIFFQEQLEQVKSNEKLYNRIKVLLKRIN				NA	NA	NA	NA	NA
BMS003_04417	3243	tycC_2		Tyrocidine synthase 3	TTGTGTGAAAAGCTTGAAACATCCTATTATGCAGCTATACCTCTTGCAGAAGAATCCTTATTCTATCCTCTGACCTCTTCACAAAACAGGCTTTGGCTTTTAAGCCAGTTCGAAGGCGGTTCATCAGCATATAATATGTCTGTGGCAGTATCTATCAAAGGACCTCTTGACCATTCTTATCTTCAGTCTGCTTTCAGGCTTTTAATAGATCGTCATGAAATACTGAGGACAAGATTTCAAGTTAGTGCTTCCGGAGAAGTCGTTCAGCATGTAGTTGTATCGGACGAGATAGAATTTGCTATTGCGGAACAAGATTTTTCATCCATATTTTCTTATGCTGATGCGCTTGATGACTATTTAGAATCTCAGAACAATAAGCCTTTTGATTTAACCCAAGCTCCTTTAATCAGGGGGAGTCTTGCCCGATTAGAAGAGCATCATCATATATTTCTTTTATCTATCCATCATATTATCGGAGATGGCTGGTCTATGGAGATTTTGGTATCCGAGTTTGTAACAATATATAATTCCCTTCTTATGGGAGTGGAGGCCGGACTTTGTGATCTAAGAATCCAGTTTAAGGATTATGCGGTATGGATCAACAGTGAATCCGAGCAAAAAAGATTGGAGGATTCCGCTGGCTATTGGTTAAATCAGTTTAGTGGCGATCTACCGGTATTGGAGCTTGAAGGCTATAGATCCCGTCCATTACAGCAAAGCTATACAGGTTCCAGTCTGGTTCATTCCTTCTCCGGGGATTTTTTAGTTCGTTTGAAGAGATTTTCCCAGGAGCATGATGTCACATTATTTATGACCCTAATGGCAGGAGTAAATCTGCTTTTGCACCGTTATACCAACCAGGATGATATTATTTTAGGAACCCCTATTGCGGGGAGGGCACATAAGGATCTGGAGAATCAGGTGGGTCTGTATTTGAATACGCTGGCGATCCGTACCCGTTTTGATAGTCGAGGTAGTTTTCAGGACTTATTAAGGCATGAGAAGCAGGTTCTTCTGGAAGCTTATGAGCACCAGTGTTATCCGTTGGATGAATTGATTGGTCAGCTAGATCTTCCCCGTGATATGAGCCGTTCAGCTTTGTTTGATGTATTGGTTGTTCTTCAGGGGCAGTCAGATAATATAAGTTCCGGTGAAGCGCTGATAGGCCTGGAAGTGAGCGGCTATGACTTTAGCAATAAGAGTTCAAAATTTGATCTTACCTATAGTTTTTCAGAGAGTGATACTTTAAACCTAAGCATTACTTATAATACAGATCTCTATGAAACGTTTTTTATAGAAAGTATGTTTTCTCACTTTGAGAATCTACTGAGCCTTGCAATAGAGAGCCCTTCCGGACCCCTTTATGAGATCGATTATTTAACACCGGATGAGAAAGATCAGCTTCTGAATACATTTAATACTCCGGTTAAAGGATCTTTCCATGGTCCTGGTCTTTTAGAATCCTTAGAGTTGCAGGCTCAAATAAATCCTAAAGGCGTAGCTCTTGTATTTGAGGATAAAAAAGTGAGCTATGAAGATTTGTTGAATGAAGTGAATGCTTTATCCTCAGCTTTACTCAATAAAGGCGTTAAAAAAGGGGAAAATATAATTTTATGCTTCGAGCATCATTTAGAAAGAGGTATTTCGGGAATGCTGGGTATTTTAAAAGCCGGGGGAGTATATGTGCCTGTAGATCCTGATTCCCCTGTTGAAAGACTTCGTTATATTATTGAAGATACGAATGCCCGATATGTTTTGAGCAATAGTATTGACGGAGAGGTATTTACTCCGCTGGATATTGAAGTACTTGTTTTAGCCCCACAAGCTCAATCCTTCGTTGAATCTTATGAAACACCTATGGGTGGCATCCAGTCAGGGAATGCCTATATTATTTATACCTCCGGCTCCACAGGAGTCCCTAAAGGAGTATTGGTAAGTCATCAGAATATCATTGATTATGTTTATGGCCTATCCTCTGCAACAGATATTGAGAGCAATAGATCATTTGGGTTAATGTCTACGATCTCTACAGACCTTGGAAATACGGTTCTTTTTAGTTCATTGGTATTTGGTAAAGAGCTTCATTTATTTACAAAAAATAAATTAAGGAATGTAGAATACATTCAGAATTATTTCCTTAATACTCGTGTAGACTGTATAAAAATAGTTCCATCCTACTGGCGTGCTTTGGAACTGTGTTCAGCAGCCATTCAGAATTTAAAGATGATTATTTTCGGAGGTGAAGAGCTTGGTTTAGATGTTGTTACGGATGTTTTGGCTGGTAATCCCGCTCTTAGAATCATCAACCATTATGGCCCCACAGAAACCACTATAGGGAAGCTTCTCCATCATGTAGATCCCTCTCATGATTATTACAGAATACCTGTAGGGCGGCCGTTTTCTTCTACCCAATGTTATATAGTTGATGCGAACTTATCGTTGTGTCCCAAGGGAGTTATCGGAGAATTGCTGATAGGGGGTGATGGAGTCTCGGAAGGTTATTTGAATAATACCTCGTTAAGTTCAGAGAAGTTTATCACGGATGTTTTCACAGGTGGTTCAGGTCGTCTTTACCGTACCGGAGATCGTGTTATGATGCATCCCAATGGAGATATAGAATTTAGAGGACGTATAGACACTCAGGTAAAAATACTGGGTCATCGTATAGAGTTGGGAGAGATAGAGCGGATAATCAACAGCTATGAAGGAGTAAGTTCAAGTATTGTAGAGGTTGTAGAAGTTGGGGATGGAGAAAGCAGACTGGTTTCATATGTAGTCTGTGAGGATGCTTCTGTAGAGAAATCATTACTGTTTGACTACCTACGCATCCATCTTCCTTCTATAATGGTTCCTTCCGTGATAGTAAATATTAAGGAAATACCTTTAACCTCTAATGGGAAAGTTAACCGCAGGGCTTTACCATCAATTGATGCAGAAGATATTCTTAACAGACCTTATGTAGCACCGCAGGATGCAGTAGAAATCAAGCTGGCAGAGATCTGGCAGGAGGTTTTGAAGGTAGAACGGGTAGGAGTTACGGATAACTTCTTTGAATTAGGGGGAAACAGCCTGAAAGTTGTAAAAATATTATATAGAATAAATCATGAATTTGAAATCGATATAAACATTAAAAACGTTTTTAAATCTCCAACAATTACAGATTTGGCTTCCCATATTATTATAGCTCAAAAACAGAAAGAGATTAGTAATACAGATAAAAAATTAAAAGAAATAAGTTTATGA	MCEKLETSYYAAIPLAEESLFYPLTSSQNRLWLLSQFEGGSSAYNMSVAVSIKGPLDHSYLQSAFRLLIDRHEILRTRFQVSASGEVVQHVVVSDEIEFAIAEQDFSSIFSYADALDDYLESQNNKPFDLTQAPLIRGSLARLEEHHHIFLLSIHHIIGDGWSMEILVSEFVTIYNSLLMGVEAGLCDLRIQFKDYAVWINSESEQKRLEDSAGYWLNQFSGDLPVLELEGYRSRPLQQSYTGSSLVHSFSGDFLVRLKRFSQEHDVTLFMTLMAGVNLLLHRYTNQDDIILGTPIAGRAHKDLENQVGLYLNTLAIRTRFDSRGSFQDLLRHEKQVLLEAYEHQCYPLDELIGQLDLPRDMSRSALFDVLVVLQGQSDNISSGEALIGLEVSGYDFSNKSSKFDLTYSFSESDTLNLSITYNTDLYETFFIESMFSHFENLLSLAIESPSGPLYEIDYLTPDEKDQLLNTFNTPVKGSFHGPGLLESLELQAQINPKGVALVFEDKKVSYEDLLNEVNALSSALLNKGVKKGENIILCFEHHLERGISGMLGILKAGGVYVPVDPDSPVERLRYIIEDTNARYVLSNSIDGEVFTPLDIEVLVLAPQAQSFVESYETPMGGIQSGNAYIIYTSGSTGVPKGVLVSHQNIIDYVYGLSSATDIESNRSFGLMSTISTDLGNTVLFSSLVFGKELHLFTKNKLRNVEYIQNYFLNTRVDCIKIVPSYWRALELCSAAIQNLKMIIFGGEELGLDVVTDVLAGNPALRIINHYGPTETTIGKLLHHVDPSHDYYRIPVGRPFSSTQCYIVDANLSLCPKGVIGELLIGGDGVSEGYLNNTSLSSEKFITDVFTGGSGRLYRTGDRVMMHPNGDIEFRGRIDTQVKILGHRIELGEIERIINSYEGVSSSIVEVVEVGDGESRLVSYVVCEDASVEKSLLFDYLRIHLPSIMVPSVIVNIKEIPLTSNGKVNRRALPSIDAEDILNRPYVAPQDAVEIKLAEIWQEVLKVERVGVTDNFFELGGNSLKVVKILYRINHEFEIDINIKNVFKSPTITDLASHIIIAQKQKEISNTDKKLKEISL	PGPT0009850_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009850-srfAB|lchAB-K15655	NA	NA
BMS003_04418	597			hypothetical protein	ATGAGTGCTGGAGAAACAGGTTTTAAAGAGAAAAAAGATGGAACAGTAGTTCCTGCTGATGTTAACTCAGCTCATCAAGTTCAATTTTTGGATGTGACAGATGGCAATGGAGGCTATCACAATCATACAGCAACAGGAATTCATATTTTTTCTCCACCAGATATAGAAACACTATTTGGATTTGCAGCCGCACAAAGTATACAGGATGGTCTTGAAAATGCTTATTTTGGAGTGATAGCAGCAGAATGGTGCAATACTTGTACTGGTGGAAAAAAAGAAATACATTATGTAATCCGCTATACAGGAACAGGAGCTGAATTGGGAAATTTTGTATATTCACCTGCACAAATGGCGCAATTTTTAAAGCAATATAGAAAACTTGAAAAAAATTTAACTGACCCAATGCTTAATGGAAATACTTACAGTAACAATTCAGGTGATTTGAATGAAAAAGGATTAGAAAAATTGTTTCTTGATACCTTAACAAATATGGGACTTGATAACAAAGTTGTCCTTCAACGTATTGAGAATAATGGAGCAGTATATAATGTAACAAAAAATAGTAGTGGAGCAATTACAGCAACACCATGTCCATAA	MSAGETGFKEKKDGTVVPADVNSAHQVQFLDVTDGNGGYHNHTATGIHIFSPPDIETLFGFAAAQSIQDGLENAYFGVIAAEWCNTCTGGKKEIHYVIRYTGTGAELGNFVYSPAQMAQFLKQYRKLEKNLTDPMLNGNTYSNNSGDLNEKGLEKLFLDTLTNMGLDNKVVLQRIENNGAVYNVTKNSSGAITATPCP				NA	NA	NA	NA	NA
BMS003_04419	543			hypothetical protein	ATGATATGCTTAATAATTAGCACATTATCTTGTTCTGCACAAACACTTCCTATAAACACCCCTTTAGCAAACATTCCAAACAATGCTCATCTAAAAGACACAAATAATGAGTTGATACAATATGTTGGAACTTACAAAGCTAACTTTAATGGGAATGAAATTACTCTATTCATAACCAAGCAGGAAGACAAATTAGAACACAGTGCTCAAAAAAGCTATTATATAGATGCTTTAGTCGTAAAGTACATTGTTAAAAATTCTTCAGGAGTAATTCTGCAAGATACTCAAAACAATAATTTGAATAATATTGAATTTTACAGCTATTATACACGCACAAATCAAAACACTATTATATTGTATTATAGTGGTACAAATTGTAATGTGGGATGGGGAGATATATATCTAAAAAAAATAAGTACAACTCAAATTTCTTGGGAATACCGACCAGATGACATTGTAACAACAGCCGTTAAATGTCCTTCTACTTTAGATACTACAATTTATCTTCCTGAAACTAAAGATTTAATTTTTACTAAGCAATAA	MICLIISTLSCSAQTLPINTPLANIPNNAHLKDTNNELIQYVGTYKANFNGNEITLFITKQEDKLEHSAQKSYYIDALVVKYIVKNSSGVILQDTQNNNLNNIEFYSYYTRTNQNTIILYYSGTNCNVGWGDIYLKKISTTQISWEYRPDDIVTTAVKCPSTLDTTIYLPETKDLIFTKQ				NA	NA	NA	NA	NA
BMS003_04420	600			hypothetical protein	ATGACAGTCTTTTTTATAATAATTAATATGAAAATAGCATACATAAAAACATTAACAGTTTTAAGTTTACTTATTAGCTTTATATCATGTTCTGCACAAACTCTTCCTTTATATACAGCATTAGAAAACATCCCAAACAATGCTCATGTAAAGGATACCAATAATGAACTCTCTCCATATATAGGTACTTATAAGGCAAATTATGAAGGCAATGAGATTACTTTATTTATTACTAAAGAAGAAGATAAATTTTTTGATTATGGTGACCAAAAGTTTTTTAGAGATGCTCTGATTGTAAAATATATTGTTAAAAATTCCGCTGGAACAATTTTACAGGATACTAAGAATAATAATAATCTTAACATTGATTTTAATAGCACTAAAATCAAATCTACTCAAAATTCAGTAATATTTTTTTATAGTGGAACTAATTGTAGTGTAGGATGGGGTGATGTTTATTTAAAAAAAGTTAATACTACTCAAATCTCTTGGGAATACAGACCAAATGATATTGTAACAACAGCCGCTAAATGTCCTCCTAATTTAGATACAACAATTTATCTTCCAGAGACAAAAGATTTAATTTTCACAAAACAATAA	MTVFFIIINMKIAYIKTLTVLSLLISFISCSAQTLPLYTALENIPNNAHVKDTNNELSPYIGTYKANYEGNEITLFITKEEDKFFDYGDQKFFRDALIVKYIVKNSAGTILQDTKNNNNLNIDFNSTKIKSTQNSVIFFYSGTNCSVGWGDVYLKKVNTTQISWEYRPNDIVTTAAKCPPNLDTTIYLPETKDLIFTKQ				NA	NA	NA	NA	NA
BMS003_04421	132			hypothetical protein	ATGAGTTGTTTAAAGATTGTGATGAAAATTATCCAATTGTTGTTGGGAATTAAAGAAAGTGATTGGTTTTACTATAGTGTAGTTGTAGTAAAACCAATCATTTCTTGTTATGACTATTTTATGCTGACTTAA	MSCLKIVMKIIQLLLGIKESDWFYYSVVVVKPIISCYDYFMLT				NA	NA	NA	NA	NA
BMS003_04422	927			hypothetical protein	ATGCAGGATAATTTGAGAGTTTACTTTAAAGACAAACATTTTTTTGAAAGTCTTGTTAAGAAAAAAGGCAGTTTCAATGTAACGCTTAATAGTGAGGATATAAAAAATGATAATCCTAATGCTTCATATTATCCCATTAAAGGAGAAATTGGCTCAATGGTTTATGTGGTTCATTCTCATACGGCTTATATTGAAAATTCAGTACATCAATATTATAATTATTTGACCGAAGGAAAAAAGCATAATTATGATGATTTTTCTTATTGTGATTTAATGCAGATATTAGATGAATTGAGAAATGAGTTTCCAGACTATGATTTTTCTGATACCAAAATTACCAATTTAGAGTTTGGATTTAATCTTAGATTAGATAGAAATGTAAAAGATATTATTGAAAAAAATATTCTGATGTATAAATTCAAAACCCACTATGTGTTTGAAGATAAAAAAGGATTTGTACTAAAGAAATTTAAATCAGGAAATTACACTTTTAAAATCTATGATAAAGGAAGACAAAATAAACTTGATTATGAACTTTTGAGAATAGAATTAAAGTACAATTCAAAAGAATTAGAAAAATTTGGAATATTGAATTTCTGTGATTTGTACGACCCTCACAAAAACATTGCCTTATTCAATGATTTTATAAAGAAATTTGATTATTTAGTGATTGTGGATGATAGATTTACTGAGGGACTTAATGACACAGAAATAGCAAATTTGGGAAATAAATTAGAATATTCCTTTTGGAAACAGGATTTTGGTTCTGATGCTACGAAAGGAAGAAATAAAACCAGATTAAAAAATCATATTAAAACTAAAAAGTTAGATAAAACCTTTACATACCTTAAAAATATGATTATCCAAAAGTTTGATGAGTTGTTTAAAGATTGTGATGAAAATTATCCAATTGTTGTTGGGAATTAA	MQDNLRVYFKDKHFFESLVKKKGSFNVTLNSEDIKNDNPNASYYPIKGEIGSMVYVVHSHTAYIENSVHQYYNYLTEGKKHNYDDFSYCDLMQILDELRNEFPDYDFSDTKITNLEFGFNLRLDRNVKDIIEKNILMYKFKTHYVFEDKKGFVLKKFKSGNYTFKIYDKGRQNKLDYELLRIELKYNSKELEKFGILNFCDLYDPHKNIALFNDFIKKFDYLVIVDDRFTEGLNDTEIANLGNKLEYSFWKQDFGSDATKGRNKTRLKNHIKTKKLDKTFTYLKNMIIQKFDELFKDCDENYPIVVGN				NA	NA	NA	NA	NA
BMS003_04423	351			hypothetical protein	ATGCAGATACCGCATAATATTTTTGAAGAATTAGTAGAAAATATTAAAATTACATTTAAAGACGAATTAGAAAAAATTAAAGAATCATTCAGCTATTCTAAAGATGAAGAATTGTTTTATACATTGGAGCAAACAGCAAAGATTTTAGGGATTAAAAAACAGGCTTTATATGGTATGAACTCAAGAAATGAGATTCCATACAGCAAAAGAGGAAAAAAATGTTATTATCTCAAAGTAGATATATTAAACTACATTCAGGAAGGCAGAATAAAATCAAAGTCTGAAATTGAGAAAGAAGCACAACAGGCTCTGTTATATATTAACCATAAAAACAGAGGAAATGCAGGATAA	MQIPHNIFEELVENIKITFKDELEKIKESFSYSKDEELFYTLEQTAKILGIKKQALYGMNSRNEIPYSKRGKKCYYLKVDILNYIQEGRIKSKSEIEKEAQQALLYINHKNRGNAG				NA	NA	NA	NA	NA
BMS003_04424	534			hypothetical protein	ATGATAGTTGAACATCACTTTATAAAAGTTCCTGATGAACAGCTTTGTATAGAATTGTTAAAAGCTATCAAAGAAAAACAGGGCGTTGTTTGCAGGAGGTGTGACAGTTCAGAATATTACTGGAAACAGGATAAGACAGTTTTTGAATGCAAAGAATGCGGATTGAGAACATCTTTAAAAGTTGGAACCATTATGAATAGGAGTAGGCTTCCTATTCATTTTTGGGTTGTGGCTGTTAATTGTTTGTTAAGTGGTTCGTCCAATCTCACTATAAAAGACATTCAAAGAAAACTAGAACATAACAGGTATGAACCCATTTTAGAGATGTGTAATACCATAAAAATACAACTAGAAAGGCTAAAACCTGAAAGAGATTCAGGAACATCATTAATATCTTTTGATGAAATGCCTTTATCTGAACAACATTTTTTTACATGGGCAGAATGTCAAAATGAATCTCATAAAAAAATAGACCAAAAATTGATAATCTTATATCTAAAATGGTTGTCAAAAAGTCCTCAAATCTACAATTAA	MIVEHHFIKVPDEQLCIELLKAIKEKQGVVCRRCDSSEYYWKQDKTVFECKECGLRTSLKVGTIMNRSRLPIHFWVVAVNCLLSGSSNLTIKDIQRKLEHNRYEPILEMCNTIKIQLERLKPERDSGTSLISFDEMPLSEQHFFTWAECQNESHKKIDQKLIILYLKWLSKSPQIYN				NA	NA	NA	NA	NA
BMS003_04425	450	xerC_10		Tyrosine recombinase XerC	ATGGAGGATAATAGGCTTACCTTTTACAGAGGTAAAACAACTCGTACAAAAAGGTCAAATCTTAAAGAAATTTCTGTTTTACTTACGCCTTTTTCTAAAGCCATCATAAGAAAATACCAAAACGAAGAAACAAGTCCTGAAGACTTTGTTTTTAATATTCTTTCAAAAAACGATACAGCAACAGAGCGAGTGAGAAACATTGAGAACTTTACTAGGTTTATTAATGAGCATATAAAGAAACTTGCTAAAGCTAATGAAATAACAGATGAAATTTCATCTTACTGGGCTAGACATAGTTTTTCTACAATGGCGTTAAATTCAGGAGCTAATATAGAGCTTATAGGCGAGTATTTAGGTCATAGTGATATAAAGACGACAAAGAATTATTTAAGCGGTTTTGATGATGCCAATAAAGAAGCTATCATTAATAAAATTACGGACTTTTTATGA	MEDNRLTFYRGKTTRTKRSNLKEISVLLTPFSKAIIRKYQNEETSPEDFVFNILSKNDTATERVRNIENFTRFINEHIKKLAKANEITDEISSYWARHSFSTMALNSGANIELIGEYLGHSDIKTTKNYLSGFDDANKEAIINKITDFL	PGPT0022000_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS003_04426	4119			hypothetical protein	ATGAAAAATTTAATAATTCTTATTTCAGGTTTGACTGTGATGTTATCAAAAGCTCAAACACAGACAAATTCATCTATTATACAAAATGCTGTAAGTAGTACAGCAGCTAAATCACCAGATGCTGCTGCTTTATTTAGATACTCAGAAACCCCAGTTTCATTATATACAGGTATTCCCGATATCAGTATCCCTATATACACCATTAAAGAAGGAGATATAGATCTTCCAATTTCCATTTCTTATCATGCAGGCGGTATAAAAGTAGCTGATGAGGCATCATCTGTAGGTTTGGGATGGAATCTAAATGTAGGAGGAAGGGTGTCACATATTGTTGCTGGAGCCAATGATTTTAGTATAAATGGTTATTATAAAAATTATCCCAAAAATGCAATGGGTGGAACAGGATCAGTATCAGTATGTCCCACTCTTCCTTGGAATACAAGTACACAAACAAATGCTTTTTATTCAAATTGGTTCGTGACATTTTTAGGCGATGTGGGATTTATATATGCAAATGATGATTTCCAACCGGATCAGTTTTTAATTAATCTTCCCAATGCTACTTATAAAGCATATTTAGACATGTCTAAAACCATAAAAACCGATTATCCGAAATTTGCAATTGCAGGTCAGCCAAACATCAATTTTAAAATAATTCCCTCATCTGGATTTCAACCTGGTGCAAACGGAGATTATACATTTCAGGTTACTGATGAAAGCGGAATAAACTATTATTATGATAAAGGTGAAGTCTCCAGATCCATGATCGGACAATATCCTGTAGATGGTCTCTCCAGATTTCTCACAAAAATAGAAGATGTGAAAGGGAATCAGGTTAATTTTTATTATTCAGCAACTATAACTAATGATAGATTATCCGGTTGTAAAAATATAAGAACCGACTATACTTATGATCCTAATGTAAATCTGGGATATTTAAAAGAGAATGGACTTACTGAGTGTAGTAAGATGAAAGTAGATGAAAGTAATATTGAAAAAATAGAATTTTCTAATGGCAGAATTGAATTTGTATGGACAGCAAGAGAAGATGTAAATAATTCTAAGAAACTTTCATCCATTAGGATTTTTAATAAATACAAACTTATTCAACAGTACGATTTTAATTACGATTATTTTGTTGCTACAGATAACTTGGATACCAGCTCATTAGCTACTTGGTTAGGAGCTGCAAATAATAAAATATTTACTCAGAGATTACGGCTGCTCGATCTTACAGAATCACTAAAAAATGAAAAATACTCTTTTGAATATAATTCTCAATATAATTTACCAAATAAGTTAAGTTTCTCTAGTGATTTTTGGGGGTATTACAATGGACAAAATAACAGTGATACCTTTATACCTAATCCAACAAAATATCTAAAGGGTGAGAATGTTTTTAATCTAACTTCTTTTAACAAAAATGGGACAAATTATTGGTATCAGGAAACTCTTGCTCCTTCAACATCTAATCCAAATAATGGTGGAATCAAGGGATATTACAACTTTTCTTCGGATGGAAAACATTATTTATCAGATAGAAGAGCTTCAATGTATTCCTTAGCAGGTATGTTAACTGCTATAAACTATCCGACAGGAGGAAAAACAGAATATGAATACGAACCAAATACTTTTTCAAATTTTCCAATGCAGTCGTTAATTAACGATAATACAAGAAAAGAGTTAGAAGGTTCTCAAAGTATTAATATTGTTAATGGAAATTTAATTCAATACGGGGGTGTAAATGACTTCAAAATTATAGGAAATAATATAAAGTTAAACATTAATGCAAAATTCAATTTTTATTATCCAACTGGTGCAACTTCAGTAACCCAGTCATTTTGGATTTATGTCAAAGATAAGTCAACAGGTCAAATCCTTAAAAAAGTATTCAATCCTAATATTGGATCTTATCAGACCTCTGAAGTAAATGATAATGTAATTTTGCAGTCTGGATCATATGAAATAGGAACTTCGTTTACTGGTGATTTTACAGCCGCAAATATACAACCTTCTAACAGCTCATCAGTGATCAATAATTCGTACCATATTGATTATGTCAATGAAAAAAGTATTATTGATGGAATCGAGTATAATTACAGTTCTGGTGGTGGTGTCAGAATCAAAAGTATTAAATCAACTGAAAAGGTTGGATCTGTACCAATAGTAAAAAATTATATATACGATGAGCTTACCAATGGAGGAACAAAAATTACCTCTAATGGAAATCTGGCAGACTTTCCTAAATTTTATGAAATTGAAAATAGATGTTATAATTATGATATAGGTGGCAGTGCCCCTGCTCGATTTTTGGCTAATCCTTCTTGCATGATGAACTTCAACACTCCGCAATCCTCAAACAATTATCCATTTAAAATATCTGTTTATGAAGCAACTCCAGGACAGAGTACAACGACATTACCACAAGGTAACCATATAGGTTATTCAAAAGTAATTGAGCAAATTACCGGAAAAGGCAGAACAGAAAGTTATTTTATTAATAATTATAATCAATCATGTATTATGATGGCCCAAAGAGGGGCTTCGTTAATTATTGGAGATGGAGATATTACAAAACAGATTATTTATGATAATAATAACAATCTAATTAAAGAAACTTCTTATAAGTATAAATTCAATTATCCGGATAATTTAAATACGTATTTCATTTCGGCATCTATCTTGGAACCATTAACAAATTTTGGAATTCCTCCTTTGTCAAATGATATTTCATTCGCAGGAATTATTCATAATTACAGCATTAACCTATATAAATCTTTATTAGAATCTACAACTACGAAAGAATATTTTCCTGCAGGATCAAACACCTTTGTCGAAACAAAGACTTTAACTACGTATAATAATAGATATCAGCCGAGTATTCAGAAAATTACTAACCCTGATAAATCAATAAAAGAAACCACTTATAATTATGCTGTAGAAAAGGGAAATCAGTTGATGGTGAATAAAAACATGGTTGATATTCCATTGGAAACTATTGTGACCAAAACTGACAATGGAGTAACCAAAACTTTATCAAAAATAGAAACTGTTTATCCTACTTCAATACCAGATGCTCAAACTGGTAATTTTGTACTGCCAAAATCTGTAATGTCTTATGATTTAGCAAGCAATACATCTTTGACGGAGATGAAAGTGGATAAATATGATGAAGAAGGAAATATTATTCAGTATACAACAAAAGAAGGATCTCCGGTATCTATTATTTGGGGATATAACTTTAGCCTGCCAATAGCAAAAATTGAGGGTGCACAGTATGATAATATTGCAATGTACGTTGATGATATAATTTCGACATCCAATAATGATGCACAAGATCCATCTAAAGAACAAAATTTATTAACCGCAGGAGATAATTTAAGAAAAAACACCAATTTGGTTTCTTATTTGATCACTACTTACACCTATGATCCACTGATTGGTGTCACAAGCATTACATCACCATCAGGAATTAAAGAATACTACAAGTATGATACTGCCAATAGATTAGAGAAAATTGTAGATGCCAATAATAAAATAGTTAAAGAATTTAAATATCGATATGGGACAACAAGCTCCATAATTTATTCCAATACGTTACAAAGTAAGACATTTACAAGAACAAACTGTACAGGAAATTCTATTGGTAGTTCTTATATATATACAGTTCCAGCAGGATCATACTCTTCCGATGTAAGTCAATTAGCTGCAGATCAGAAAGCTTTAGATGATATTAATATGAATGGTCAAAATATAGCCAATCAAAATGGAACTTGTATATCATCAGTATCTTGTCCATTTACATTTTCATCTGTTACAGCAAATTCCCAGTATAAATACAATAATACTACAACGTTAAATAATAATGTTAATTTCAATGTTTCTTTTTCTACGTATGGAATATGGGAGAACTGGACAAATGGAGTTAACATAGGAACAATTGAAGAGGATTGTAAACCGACAATTAATAAAGAGATAACTTATTCTGAGCCAAACTTCAACCGTCAATGGAAAATTTTTATAGATACAGCAGGCACTTGTACCTTAAGATTAATTTCCGGAACTGTAGATAGTTCATCAACGAATCCAATTATTTTACAATTCCAATATCAAAAATAA	MKNLIILISGLTVMLSKAQTQTNSSIIQNAVSSTAAKSPDAAALFRYSETPVSLYTGIPDISIPIYTIKEGDIDLPISISYHAGGIKVADEASSVGLGWNLNVGGRVSHIVAGANDFSINGYYKNYPKNAMGGTGSVSVCPTLPWNTSTQTNAFYSNWFVTFLGDVGFIYANDDFQPDQFLINLPNATYKAYLDMSKTIKTDYPKFAIAGQPNINFKIIPSSGFQPGANGDYTFQVTDESGINYYYDKGEVSRSMIGQYPVDGLSRFLTKIEDVKGNQVNFYYSATITNDRLSGCKNIRTDYTYDPNVNLGYLKENGLTECSKMKVDESNIEKIEFSNGRIEFVWTAREDVNNSKKLSSIRIFNKYKLIQQYDFNYDYFVATDNLDTSSLATWLGAANNKIFTQRLRLLDLTESLKNEKYSFEYNSQYNLPNKLSFSSDFWGYYNGQNNSDTFIPNPTKYLKGENVFNLTSFNKNGTNYWYQETLAPSTSNPNNGGIKGYYNFSSDGKHYLSDRRASMYSLAGMLTAINYPTGGKTEYEYEPNTFSNFPMQSLINDNTRKELEGSQSINIVNGNLIQYGGVNDFKIIGNNIKLNINAKFNFYYPTGATSVTQSFWIYVKDKSTGQILKKVFNPNIGSYQTSEVNDNVILQSGSYEIGTSFTGDFTAANIQPSNSSSVINNSYHIDYVNEKSIIDGIEYNYSSGGGVRIKSIKSTEKVGSVPIVKNYIYDELTNGGTKITSNGNLADFPKFYEIENRCYNYDIGGSAPARFLANPSCMMNFNTPQSSNNYPFKISVYEATPGQSTTTLPQGNHIGYSKVIEQITGKGRTESYFINNYNQSCIMMAQRGASLIIGDGDITKQIIYDNNNNLIKETSYKYKFNYPDNLNTYFISASILEPLTNFGIPPLSNDISFAGIIHNYSINLYKSLLESTTTKEYFPAGSNTFVETKTLTTYNNRYQPSIQKITNPDKSIKETTYNYAVEKGNQLMVNKNMVDIPLETIVTKTDNGVTKTLSKIETVYPTSIPDAQTGNFVLPKSVMSYDLASNTSLTEMKVDKYDEEGNIIQYTTKEGSPVSIIWGYNFSLPIAKIEGAQYDNIAMYVDDIISTSNNDAQDPSKEQNLLTAGDNLRKNTNLVSYLITTYTYDPLIGVTSITSPSGIKEYYKYDTANRLEKIVDANNKIVKEFKYRYGTTSSIIYSNTLQSKTFTRTNCTGNSIGSSYIYTVPAGSYSSDVSQLAADQKALDDINMNGQNIANQNGTCISSVSCPFTFSSVTANSQYKYNNTTTLNNNVNFNVSFSTYGIWENWTNGVNIGTIEEDCKPTINKEITYSEPNFNRQWKIFIDTAGTCTLRLISGTVDSSSTNPIILQFQYQK				NA	NA	NA	NA	NA
BMS003_04427	954			hypothetical protein	GTGAATAATTATTATCCATTTGGATTATTGCATAATTATACAGCTACAACACAGAATGCTTATCAGTACAAGTACAACGGCAAGGAGTTGCAGGAGACGGGTATGTACGACTACGGCGCAAGAATGTATATGCCGGATTTGGGAAGATGGGGAGTTGTGGATCCGCTGGCGGAGAAAATGACCCGTCATAGTCCGTACAATTACGCGTTTAATAATCCAATAAGATTTATTGATCCAGATGGAAGACAGGCGATGAAACCTACCCCTAAAGAAGCTGCAGCAATGGCAGCTCATGTTTATGGAGATAAAAAAGATAATATACTGATTGGAGGTTGGAGAGTTTCTCAAACAAAGTTTGAAGGTGTTCAGCTGGAGGACAAAGCTTCAGGATTTAAATCCCAGGTTTATGAAAGGGTTGTTGATGGAAAGGTTACGGAATATACTTATGCTACGGCAGGAACAGAAGATTTGGCTAAAGATGGAGTTGCCGATGTAGCGCAACCGGTTGGAGCATCAAGCCAATACTCATTATCTGCTAAAAATGCTACGGAAATTTCCAAACAATTAGGTGATACAGAGCTTACCTACACCGGTCATTCTTTAGGCGGTGGCTTGGCTGCACTTAATTCCAACCTTACCAGAAGAGAAGCCATAACTTTTAATGCTGCGGGAGTAGGAGCAGCAACAAAGTTTCTGAACGGAAAGAACAACTCTGATATGAGCGGCTGGTTTGGCGGTTTTACTGCCACATTTAGGACGGAAGGACTTATCAATGCTTATATAATGAAAACCGACCCTCTTAACATAGCTCAGGATAAAAGTTTGCTAATGCCTGATGTAAACGGGAAAAGGCATACTGTCTGGCCAACCAGTGCGAGTTCGGTCTATAATGGGCACAGTATGGACAATATGCTAAAAGAATTTGGAATTAACCCTAAAAAATATGCCCGATAA	MNNYYPFGLLHNYTATTQNAYQYKYNGKELQETGMYDYGARMYMPDLGRWGVVDPLAEKMTRHSPYNYAFNNPIRFIDPDGRQAMKPTPKEAAAMAAHVYGDKKDNILIGGWRVSQTKFEGVQLEDKASGFKSQVYERVVDGKVTEYTYATAGTEDLAKDGVADVAQPVGASSQYSLSAKNATEISKQLGDTELTYTGHSLGGGLAALNSNLTRREAITFNAAGVGAATKFLNGKNNSDMSGWFGGFTATFRTEGLINAYIMKTDPLNIAQDKSLLMPDVNGKRHTVWPTSASSVYNGHSMDNMLKEFGINPKKYAR				NA	NA	NA	NA	NA
BMS003_04428	783			hypothetical protein	ATGAGAAAGATTGCAATATTATTTTCTTTGTTATTCTTAGTGATATCCTGTAATAAAATAGATAGAGATAAGAAAGTAGACAAAAATAAGATTTTAGCGGGAGATTACAGATTGTTCCAAGGCACTCCAGCTTGGGAATTGGCAAAAGCTGTGCAGGATGATGATATTGATAGAATTGATGAAGAAGCAAAGAAAAATCCTCAAATAATCAACTATCAGGAAAAAATATATGGAAATACTCTCTTACATTTGAGTATATATAACGATAACTATAAAGGCTTTAAAGAGTTGCTGAAATTAGGTGCTAATCCTAATATTGCAGATTCTATGCATTGTAGTTCTCCTTTGATAATTGCTTGTGCAAGTTTCGATGATAGAACAAAATATGCTGAAGAACTAATTAAACATAAAGCGAATGTTAATTATGTTGAATGCAATAGTGGTAAAAACGAGCAGAAAACTAACCGAACAGCGTTGATTATTGCATCAGGAAGAAATAATTTGGAAATGGTGAAACTTTTGGTTAAAAATGGAGCTAATATAAATTATACAAATTTAAATAATGAAGATGCCTTATCATTGGCTTCTTTATCTACAAACTATGATATTGTATTTTATCTCCTACAACAAGGCGCAGATTGCCGTAAGATTTTATATACAAAAGGTGGAGCAGTTAACCCAAAGGATATCTATATGAAAGACTGGATAGAAGATGAAGCGGACCATTCCGCGAAAGAATATCAAGAAATAAAAGAGCTTCTTAAAAAGAAAGGGTGTTTATAA	MRKIAILFSLLFLVISCNKIDRDKKVDKNKILAGDYRLFQGTPAWELAKAVQDDDIDRIDEEAKKNPQIINYQEKIYGNTLLHLSIYNDNYKGFKELLKLGANPNIADSMHCSSPLIIACASFDDRTKYAEELIKHKANVNYVECNSGKNEQKTNRTALIIASGRNNLEMVKLLVKNGANINYTNLNNEDALSLASLSTNYDIVFYLLQQGADCRKILYTKGGAVNPKDIYMKDWIEDEADHSAKEYQEIKELLKKKGCL				NA	NA	NA	NA	NA
BMS003_04429	894			hypothetical protein	ATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTATAAGTACAATGGGAAGGAGTTGCAAGAGACTGGTGCATACGACTTTGGAGCCCGCCAATACATGCCTGATATTGGACGATGGATCGTAATTGATCCGTTGGCGGAAAAGATGACAAGATTCAGTCCTTACAACTATGCTTTTGATAATCCGATAAGATTTATAGACCCAGATGGAAGATTTCCAATTGACCCTGGACCAAGACCTAAATTATCTGGAATTACAAATGTTGCAAATGTTTTGTCAGGTAGAAGATGGATTCCATATATGTCTAAAACAATCCCTCACACTGAAACAAGTTTTAGTTTTAGTAGTGGATTTACTAGACAAAACTCTTTTAAAACTGGAGAATGTGCTGATTATAGTAGATTACAGGTGTCGCAAGGATCAAAAGGTGACTATACAGCTGTTGGTTCAAAGAATAGAACGGACATGTATGTGAAAAATGGAGGTGACACATCCAAATTAGATTTACAAAAAGGAGTAAATACTATAGTTGAAAATCTCAAAGAGGGAAAAGCTGTAATGGCAGGGGTAATGTATGATGCAAGCAAGGATACTGGAAATGCAAATGAAGCAACAAATCATTATGTTACAATTGTAGGTATGGGAACAGACAAACAAGGTGCTTATTTTTCTTATTATGATAATTATGCGGGAGAAGGACATAAAGAGCAAACTGGAGAAGATGTTGGAACCAATACTAGTTTGAATAAGTTTAGATTGTCTCAAACAAAAGATGGGACATATTATTTTTCAGATGGAGCAGACGGTAATATTCCATATAATCAGAATAAAAAGCCACAAAATGGTGCGCCTACTAGATATATATTAACAGAAGTAAGAGATAATCAATAA	MLSSSNFGGYYSYKYNGKELQETGAYDFGARQYMPDIGRWIVIDPLAEKMTRFSPYNYAFDNPIRFIDPDGRFPIDPGPRPKLSGITNVANVLSGRRWIPYMSKTIPHTETSFSFSSGFTRQNSFKTGECADYSRLQVSQGSKGDYTAVGSKNRTDMYVKNGGDTSKLDLQKGVNTIVENLKEGKAVMAGVMYDASKDTGNANEATNHYVTIVGMGTDKQGAYFSYYDNYAGEGHKEQTGEDVGTNTSLNKFRLSQTKDGTYYFSDGADGNIPYNQNKKPQNGAPTRYILTEVRDNQ				NA	NA	NA	NA	NA
BMS003_04430	405			hypothetical protein	ATGAAAGTAGCAATAAAATTTATATTATTTTTTGTAATATTTTTTTCTTTTTTTGCGTGTAATAAAGTTTCAAAAAAAGATGTGGTAGGTGTATATAAAGGTGATAAGGTTCCTACAGAATTTTCAGATAATGACTATCGTTATCTCATTTTAAAAGATGACAATATTTTCTATTTAAAGTATACAGATATTAAAAAGCCAGGTATTGTAGGTTCTTGGAAAATATTGGACAGGGACAAGGATGCTTTAAACATACAGTTCAACTTTCCTAATCAACATATTATAGGAAAATTGGACGGAAATACTTTTTTATTTGAGAAACCTAATATTTTTGATCCACGTTTTCCTTCTTGGTTATACGTAAAAACGGATTTAGAAATTAGTAAAATAATTGATAAAAAATAA	MKVAIKFILFFVIFFSFFACNKVSKKDVVGVYKGDKVPTEFSDNDYRYLILKDDNIFYLKYTDIKKPGIVGSWKILDRDKDALNIQFNFPNQHIIGKLDGNTFLFEKPNIFDPRFPSWLYVKTDLEISKIIDKK				NA	NA	NA	NA	NA
BMS003_04431	192			hypothetical protein	ATGGATAAACAAAAAGCAATTGAAAAATTAAAGGCTATGGCTAATGAGCCAAAAGACAGCCTTAAAAAATTCTTGGCAAAAGAGATATTAACCTTGCTTCTGATACCGAAAGAGTTATTATTGAAACATTTGAATATGATCATCAGAACAGGCTGTTGGTGCACAAGCATCAGGTGGATAGTAATCCGGTAG	MDKQKAIEKLKAMANEPKDSLKKFLAKEILTLLLIPKELLLKHLNMIIRTGCWCTSIRWIVIR				NA	NA	NA	NA	NA
BMS003_04432	3411			hypothetical protein	ATGAGAAAAAAATACTTAATACTGCCATTGTTTTTCATGCAGTATTTACAATCACAGATTACAAATTCAAATCCGGCTTCCGCAAGCAGTCCTATGGATAATATCAAACAAATTTATCCGGCTGCTCCCACTGCCAATAGTTTAATGAAATTTGAAGAAGTTCCTGTAAGTTACTATACGGGAATACCTGATATTAAAATTCCTCTTGCAGGTATCCCAACCAATGATGCCAAAATTTCTATGAATGTTTCATTAAATTATCATCCTCTTAATGCAAAGCCTCTTGAAAAATCAGGAGAAGAAGGTTTAGGGTGGAGTCTTTTTGCAGGAGGGACCATCACCAAAACCATAAGAGGAAGTGCCGATGACCGTAATTTTGAAGGGGTAGAGCAAAGGGTAGGAATTCTTTATGATGAATATAACTATGCAGGAGCCCACACCAATTATACAAGAAAATATTTGGATGAATTAGCCGTAGGCGGTGTAACTCATACGGATCAGTATAAAAAGCTTTTATTTGATGCCTTGTTTTTCAGCCGGTATGATACAGAATATGATCTTTATCAATATAATTTTATGGGCTATACCGGGCGGTTTATCATTAAAAAATCTTCCGACAATAATTTATATGTTGAAAAGTTAGATAAAAATAATCTAAAAATTACCATAGGGTCTACCAACCCTAATAATGCATTAGAAGTGGCTTCTTTTGTCATTATTGATGAGTATGGAAATAATTTTACTTTTGATGTATTAGAGAGAACTCAAAGATCCAGTATCTCTAATAAAATAGGATACTATGATTCCTATCAAACTAATGCAAAAGATTCCGGTGAAAGTACTACAGCTTTCCACCTGAGCAGAGTTGCCAACACATCCAATACAGAATTGGTAAAACTGGAGTACTATCCACCTTCTGAGATTCAATATACAGATATTTCTAATATCACCAGAAATAAGCTGGCAAGTGAAGACCCAAACACTTTGCCTGTAGCAACAACTTTCGATAGCCAGATGCCGGCTTCTTACGAAACGAACACCATAACAAATAATACATTTGTCCGAAGTTTAAAAGAGATCGAAATACCGGGAAAAGGAAAAATTAATTTTACCTACCTGCAGGGAAGAGAAGATTCAGGCTATGGTCTGCCTCAGCAGCTGCAAAAATTAGATAAGGTTAAAGTTTTTGATGCATCCGGAAAATTATTAGAAACCCACCAATTATCTTACAGCAATTTTACTTATAATTTAGCAGGAGAAAATTTACCTAACACAACATTATCACTCTCCAAAGTAACAAAGTTGGATTCTTCTTCCAATAAAGAATATGATTATGTATTAGACTATACATCCAATTCGCAGAACCGTACGTTGGGAACAGATTCATGGGGGTGGTTTAATTGTCCTCGTCCTAATGCTAATCCTCTTTTGGCAAAATATGTTTCACCGGATTGTATCAATATCAATATCCTCAAAAGCATGAAACTTCCTTCAGGAGGTATAAGAACTTTTGATTTTGGAACCAATACGTATTCGTCTGATCATTTGGGAGCGCCTATTACCAATTTTGATGATAATATTGAAAACTGGACTTACAGTAATGTGAATAATGTTACATTACAGAGCACCTTTTTTAATTCTGCTACTTACAGTTTAGGAAAGGTTCTTCAAAATAAAATATTGGTGTTGGAAAGTGGCGAAATTTTAAACAATGCCGATAATATCGGATTTTTATTCTTAGAAAAATTAAACCTGAATCAGGAGTTAGTACAGTCATATGGTATTAATACTACAGATAAAGAAATTAATTTAGAAGGCGGATATTTTTATAGAATTAAATTTACCTGGACCAATTCAAATGACCAGGGAACTGCTATCATTAGTTATTCATTTAAGACCAAAAATTCTGTACAAAAACAGTGGCTTAACGGAGGAGGTATAAGAATTAATACAATAAGTTATTATGACAACCCAAATGATGCTATCCCTAAAAAGAAAGTTACATTTTCTTATAATAAATTTACGGATACAGGTAAAAGCAGTGGTGCCTTGGTATTTCCCAAACCTTTGCTAACTTATAAGTATGGATATAATAATAAATTTGTTTCTACCTGTGGAGGGATGTCGGTAGGATACTGTCAATACCCTTATGCCAATGAATTTGCAATCTATTCTTCTCAGAGTTTTCTTCCTGTTCAGAAAACGCAGGGCTCTGATGTGGGCTATCAGAATATAACGGTTTCAGAAACGGATAAAGGCAGAACAGAATATTCTTACACTTCACCTATTGACAAGCCTAATCCTGATTCACATTATATCAATTTTGAATTACCTCCATTTCTTCCTGTAGAAAATTACGATTACAAAAGAGGATTGCTGACAAAGGATGAAAAAAAGGACAACACGAATGTAACACTGTATAAAAAAGATACAGAATATACGATTTATGATTCAAAAATTCTCACAGGTCTTAATATAAACTACATCAATTCCCCTTACTCAGAGTATGTATATGCAGGGCATTTTAACTCTTATGAAAATTATTATGCAGGCTGCATACAAGATCAGGGATTAAATGTTTTCTGTGATAACCGTACCAATGTGAGCAGTATGATGCGAATTCTTCCGGTGCAGGAGATTATAGGCAGGGCAAACCCTACCCATTCTGAAACTATAGAATATTTTAATGGTCAGCCTTTAAAGACAATTGAAGATATTACATATAACCCTAGAGATTATCCAATAAATCAAAAAGCAACTTTTGCCGATAATACAACCTCGGAAACTACTTCCAGCTATGCCCATGAGAAAAATAATACAAGGCTTATCAATGCTAATATGATAGGGATTCCGCTGCAAACCATCACCAAAAAGGATAATGTAGTGGTGTCCAATATGGAAACGAAGTACGACGGTCCATTGAACTTATTCCCAAGCTCTGTGATGTCTACCGATCTGCAAAACATCCAAACTACCGAAGTTACTTATGATAGATATGATTCCAAAGGAAACTTACAACAGTACACTACAAGAGCAGGTCTTTCAACAGTCATCATCTGGGGGTATAACCAAACCCAGCCTATTGCTAAAATAGAAGGAGCCAAACTGACAGATATTCAGCAATCTCTCATCGATACCATAGTCAATGCCTCCAATACAGATGCTTCAGCTTCTTCAAACAATGATGAGGCAGCCCTTTTATCGGCCTTGAACACATTCAGAAGTAATGCTGCATTATCCGGTTATTTGGTCACAACTTACACTTATGATCCACTGATTGGGGTAAGAAGCATCACCCCGCCATCAGGGATCAGAGAAAACTATCTCTATGATGTTGCCGGCCGACTTGAAAAAGTACTTGATGCCAATGGCAAAGTACTAAAGGAGATGAAATACAACTATAAAAACTAA	MRKKYLILPLFFMQYLQSQITNSNPASASSPMDNIKQIYPAAPTANSLMKFEEVPVSYYTGIPDIKIPLAGIPTNDAKISMNVSLNYHPLNAKPLEKSGEEGLGWSLFAGGTITKTIRGSADDRNFEGVEQRVGILYDEYNYAGAHTNYTRKYLDELAVGGVTHTDQYKKLLFDALFFSRYDTEYDLYQYNFMGYTGRFIIKKSSDNNLYVEKLDKNNLKITIGSTNPNNALEVASFVIIDEYGNNFTFDVLERTQRSSISNKIGYYDSYQTNAKDSGESTTAFHLSRVANTSNTELVKLEYYPPSEIQYTDISNITRNKLASEDPNTLPVATTFDSQMPASYETNTITNNTFVRSLKEIEIPGKGKINFTYLQGREDSGYGLPQQLQKLDKVKVFDASGKLLETHQLSYSNFTYNLAGENLPNTTLSLSKVTKLDSSSNKEYDYVLDYTSNSQNRTLGTDSWGWFNCPRPNANPLLAKYVSPDCININILKSMKLPSGGIRTFDFGTNTYSSDHLGAPITNFDDNIENWTYSNVNNVTLQSTFFNSATYSLGKVLQNKILVLESGEILNNADNIGFLFLEKLNLNQELVQSYGINTTDKEINLEGGYFYRIKFTWTNSNDQGTAIISYSFKTKNSVQKQWLNGGGIRINTISYYDNPNDAIPKKKVTFSYNKFTDTGKSSGALVFPKPLLTYKYGYNNKFVSTCGGMSVGYCQYPYANEFAIYSSQSFLPVQKTQGSDVGYQNITVSETDKGRTEYSYTSPIDKPNPDSHYINFELPPFLPVENYDYKRGLLTKDEKKDNTNVTLYKKDTEYTIYDSKILTGLNINYINSPYSEYVYAGHFNSYENYYAGCIQDQGLNVFCDNRTNVSSMMRILPVQEIIGRANPTHSETIEYFNGQPLKTIEDITYNPRDYPINQKATFADNTTSETTSSYAHEKNNTRLINANMIGIPLQTITKKDNVVVSNMETKYDGPLNLFPSSVMSTDLQNIQTTEVTYDRYDSKGNLQQYTTRAGLSTVIIWGYNQTQPIAKIEGAKLTDIQQSLIDTIVNASNTDASASSNNDEAALLSALNTFRSNAALSGYLVTTYTYDPLIGVRSITPPSGIRENYLYDVAGRLEKVLDANGKVLKEMKYNYKN				NA	NA	NA	NA	NA
BMS003_04433	144			hypothetical protein	ATGAGCGGAAGACAGCTTCAAAATCTGAAAACCAAGAATAAAGTGACTAAGATTAATACCCAGGCTTTGGTTCAGGGGGCTTATCTGGTGACTATTAAAACTAATACTAACAAAACGGCGAATGCTAAATTAATTAAGAAATAA	MSGRQLQNLKTKNKVTKINTQALVQGAYLVTIKTNTNKTANAKLIKK				NA	NA	NA	NA	NA
BMS003_04434	903			hypothetical protein	GTGCCTACAGCAGAAGGATTTTACAGTTTCGCAGAAAACCGTTATATTTATCAGTACAAAGATCATCTGGGCAATGCTAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGCTCCTGAAATTACAGATACCAACAATTATTATCCATTTGGATTGAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTATAAGTACAATGGTAAGGAGCTACAGGAAAGTGGGATGTACGATTATGGAGCGAGATTCTATATGCCGGATATTGGGAGATGGGGCGTTGTGGATCCGTTGGCGGAGAAGATGAGACGTCATAGTCCTTATAATTATGCGTTTAATAATCCACTTAGATATATAGATGCTGATGGAAGGAAACCTGATGATTGGATAAAGAATAAAACTACAGGAGAAGTAGTATGGAGAGCGAATGTAACTTCGGCTAATAACACACCTCAAGGATATGATTATGTTGGAAAAGAGTATAAAGGATTAAGTATTCAAAGCTATGCTTCTCATAGTCAAAATGGTGCAGGAGTTGAAATTCAAGCTTCTTATAGTGATGGAAAAGCAGGGACAGCTGATGCTCAATATGTACAAACAATTAGAACGAATGACCCATTAGGAGGTGCGACGTCCCCATATAATGACCCTCAACCCGCAGATGATAACTTGCCTTTCTATTGGACGAATGCTGAATTACCGAGCTATCAAAATATAAATGGTCAGGATTTAGATTTTTATGATAGACCTACTAGAGATGCTGCTAAAACTGGAACAAACTGGGAAGGGGAAATGTCTGTAGTTGTGAATGATGGTACGGGAAAAGGTTACCAACCTGTTGTTACTGTTACTTATGGTTTTGAAATTCAGGGAGGAGCTGCTGTTGTTTAG	MPTAEGFYSFAENRYIYQYKDHLGNARVSFAKNSEGAPEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQESGMYDYGARFYMPDIGRWGVVDPLAEKMRRHSPYNYAFNNPLRYIDADGRKPDDWIKNKTTGEVVWRANVTSANNTPQGYDYVGKEYKGLSIQSYASHSQNGAGVEIQASYSDGKAGTADAQYVQTIRTNDPLGGATSPYNDPQPADDNLPFYWTNAELPSYQNINGQDLDFYDRPTRDAAKTGTNWEGEMSVVVNDGTGKGYQPVVTVTYGFEIQGGAAVV				NA	NA	NA	NA	NA
BMS003_04435	384			hypothetical protein	ATGTATAAAAATCAATATATTTTAACAATTTGTGCCGTATTAGGTTTTTTATATACTTTATTTTTTTATTATCAAAACTCTAAATTAGAAAGTATTAAAACATTAAAAGCGTACACGGTTATTGAACAAGGCTGTAAAAAATCAAGAGGAGGGTCATCAGTCCATATTAAATACAATAATAAAGTATATTATATAAGATTGGCGATAGCCGAATGTGAAAAATATCCTGTAGGGACAGAAATAAAGCTTAATTACAATAAACAATTTGATTATTTTTATAAGCCGGATGGATTAACAAGAGATAAAAGAAGGTTACTAATAATAAGCATAATTTTTATTTTATCTATTATCCCTTGGAAAAGAATTGTAAAAATAAAAGCCTGA	MYKNQYILTICAVLGFLYTLFFYYQNSKLESIKTLKAYTVIEQGCKKSRGGSSVHIKYNNKVYYIRLAIAECEKYPVGTEIKLNYNKQFDYFYKPDGLTRDKRRLLIISIIFILSIIPWKRIVKIKA				NA	NA	NA	NA	NA
BMS003_04436	288			hypothetical protein	ATGAATATTAGTGCAGAGAAGATGACTCGTTATAAAAACAGAATGCAGAATGATGCTAATAGAAGCCGAAGTACAAGAGCGAGAAATAATAGAAAATATGCTGAAAACAAAAAAGCTTACGAAAGTTACACAAAAGCTTATGCTGGTGTTAAAGTCGTAAATGATGCATATAAAGCAGGAGGAGCAGAAGCTTTACAGAATATTGATTTATTCAAAAAGACACCAGAAGAAACTAAAAAACCAACCATTACAGTTGGAGAAGTAACAGGAGGAATAATAAGAGAATAA	MNISAEKMTRYKNRMQNDANRSRSTRARNNRKYAENKKAYESYTKAYAGVKVVNDAYKAGGAEALQNIDLFKKTPEETKKPTITVGEVTGGIIRE				NA	NA	NA	NA	NA
BMS003_04437	789			hypothetical protein	GTGCCTACAACAGAAGGATTTTACAGTTTCGCAGAAAACCGTTATATTTATCAGTACAAAGATTACCTGGGCAATGCTAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGTTCTTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGAATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAATGGCAAAGAACTACAAGAGACCGGAATGTACGACTACGGCGCAAGATTCTATATGCCCGATATTGGGAGATGGGGTGTGGTAGACCCAGCCGCAGAATACTTTCCAGATATTACACCTTATGCTTACGTTGTTAACGACCCAATTGGATTTGTCGATAATGATGGAGAAATGCCTGGTCCTGTAGGTGCTATAATAGGTGTTTTCTCTGATTATATAACACAGGTTGGTGTTAACTATTTTTTAGAAGGTAAAAGTTTTAAAACGTCTTTAACCGATGTTAGTTACTGGTCATTAGCTATTTCTGGTGCTTCAGGTTTTGCAACAGGAGGAATAAGCGCCTTAACCAAAGCGGCTACAAGTGGTATAGGAAAACAAGCCTTAGTAAAAACCATAGATTTTGGCGTAGATGTTTTAGTAGGTACTGTAGAAAATGCAGTAACAGATTATGCAGAAAAAGGAGAATTTGATGTATGGAAATCAATTACTGGTGGATTGCTTGAGGCAGGTATTGGTAAATTTATACCATTAAAATACGTAGATAAACTAGAGAGAGTAAACTTGCTAAGAAGATGA	MPTTEGFYSFAENRYIYQYKDYLGNARVSFAKNSEGVLEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARFYMPDIGRWGVVDPAAEYFPDITPYAYVVNDPIGFVDNDGEMPGPVGAIIGVFSDYITQVGVNYFLEGKSFKTSLTDVSYWSLAISGASGFATGGISALTKAATSGIGKQALVKTIDFGVDVLVGTVENAVTDYAEKGEFDVWKSITGGLLEAGIGKFIPLKYVDKLERVNLLRR				NA	NA	NA	NA	NA
BMS003_04438	369			hypothetical protein	ATGGTTTTAATCTTGTTAACTAAAACAAGTTTCCATGATATGGCAACAGAATTAGTAGATAAAATTGTAATTTCAATTATACTACTAAACTTTGTAGTGTTTACATTTATATTTAAAAACAAAATGTTATTATATATATCTATTTTACTATTTATATATATTATTTTTACTATTAGTTATAATGAAGAAATGGATAGTTATTTTTATAGAATCGGTCGTTTTTTCGGTGTTGGTAAATTAGAAAATGAAACTATATCAAAGTTCTTACAGAGTTATTCTTTTATCTGTTTTTTCGCATCATTACTTTTAGAAATTATTTTTTTGGTAAAAATTATTTATGAAAAAGTAAAAGTGAAGAAAGAATCATAG	MVLILLTKTSFHDMATELVDKIVISIILLNFVVFTFIFKNKMLLYISILLFIYIIFTISYNEEMDSYFYRIGRFFGVGKLENETISKFLQSYSFICFFASLLLEIIFLVKIIYEKVKVKKES				NA	NA	NA	NA	NA
BMS003_04439	1029			hypothetical protein	GTGAGCTTTGCAAAAAACAGCACAGGCGTTCTTGAAATTGTAGACAGTAATGATTATTACCCATTTGGTATGAACCATTTGAAGACTGGAAATGCTTTCTATGGATCAGGAACGTATAAGAATTACAAGTACAACGGTAAGGAACTACAGGAGACCGGGATGTATGACTATGGAGCGAGGATGTATATGCCTGATATTGGAAGATGGGGTGTTGTTGATCCGTTGGCGGAAAAATCAAGAAGATGGTCGCCATATAATTATGCTCTTAATAACCCAATTTATTTTACAGATCCAGATGGAATGGATGTTGTTGAAACAGCAATGGGTACTACCTATACTGGAGCTGATGCTCAATCTGCATTTCTTGCATTGCGAAATCAATTAGGAGGCGGTCCTGGTCCTAAGATTATTTCTAGAAAAGAATGGGGAGCAAAAGCACCAATTTTAGGAGGCGGTCGATCATATGAATATATTACCGCTACAATGAAAGCAAAAACTTTCTTTGGTACAACCTATGATCAATCAGTATCAGTACCCGCAGACCTTGCAAAATATTATAATACTATAACAGTGCATCATTCGGGTAATAAAGATGATTATATGAGTATACAACAGCTACAACAAAAAGAACAAGACGATGGTTATGCAGATATTCCGTACCATTTTGCGATAGACAGCAAAGGTAATATATATGAAGGTAGACCTATAGGTGTAAAAGGTTCGCACGTAAAAGGTGGAAACACAGGAAATATTGGGATAGTCTTGATGTCCGATCTTGATACAGAAAATAAAGGATTAGGCTTTTTTCAAAGTATGCTTGAGACAAGTGATGGAGGAGCCAGTACGGCAATGCGACAATCATTAACAGACCTTGTATCTTATTTGAATGAAAAATATGGCATCCAATATTTAGGAGGGCATAAAGAGAAAGCTACTGATCCAAGAAATTGTCCCGGAAATGGAGGGATGAAAATAGTTGAATACTTAAGAAATAAATTACATATGTTATCTCCAAAAAATGAAAACTAA	MSFAKNSTGVLEIVDSNDYYPFGMNHLKTGNAFYGSGTYKNYKYNGKELQETGMYDYGARMYMPDIGRWGVVDPLAEKSRRWSPYNYALNNPIYFTDPDGMDVVETAMGTTYTGADAQSAFLALRNQLGGGPGPKIISRKEWGAKAPILGGGRSYEYITATMKAKTFFGTTYDQSVSVPADLAKYYNTITVHHSGNKDDYMSIQQLQQKEQDDGYADIPYHFAIDSKGNIYEGRPIGVKGSHVKGGNTGNIGIVLMSDLDTENKGLGFFQSMLETSDGGASTAMRQSLTDLVSYLNEKYGIQYLGGHKEKATDPRNCPGNGGMKIVEYLRNKLHMLSPKNEN				NA	NA	NA	NA	NA
BMS003_04440	426			hypothetical protein	ATGAATATTGAATTACAAAAAGCCAAAGATTTGATGGATAATGAACAGTATGAATTATCCATTAACATTTTAAATAATTTGGAAGGTTTACCTTTTAGGTCTGAAAATTTTAGATTGTTATTTTTGTCAAATTGCTATTATAATATAGAAGAATATTATTTGGCAATTGATACAGCTAATAATTTGTTACAAAAAGACCGTAAAAATGAATATGCTTCTCAAATAAAATATTTATCCTACTATGAATTGGAAGATTATGATCATGCCCTAAATGAGATAATAAATTTTTTATCTCATAATGAAGCTAATCTTTATAAAGTAACATTGGAAGAGTTACTAACGGATATAAAGAATGGATTTATTAATGATGGAGATGTAGTTCATAAAATAAAAGAATTAGCATTAAAAAACAGTGTTCATTTTTAG	MNIELQKAKDLMDNEQYELSINILNNLEGLPFRSENFRLLFLSNCYYNIEEYYLAIDTANNLLQKDRKNEYASQIKYLSYYELEDYDHALNEIINFLSHNEANLYKVTLEELLTDIKNGFINDGDVVHKIKELALKNSVHF				NA	NA	NA	NA	NA
BMS003_04441	948			hypothetical protein	GTGCCTACAGCAGAAGGATTTTACAGTTTCGCAGAAAACCGTTATATTTACCAGTACAAAGATCATCTGGGCAATGCCAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGCTCCTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGAATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAATACAACGGAAAGGAGTTGCAAGAGACCGGAATGTATGATTATGGGGCAAGAATGTATATGCCCGATATTGTCAGAACTCCACAGATAGATCCATTGGCTGAAAAAATGCCAGAATGGTCTCCTTATTCTTATGCATTTAACAACCCAATTCGAAATACCGATCCAACTGGAATGGAACCGGAAGATGTAATTGACGGAGGTGATGAAGAATTTACAACATTAAAAGAACCTAGCCAATGCTGTTGGGGAATGTTCAGATTAATGCCTTTGCTTGAAGGAGGGTCAAATATAAAACCTACTGTTATAGAAGTAGCTACAAAAACGGGAGAAACAGCAGGAAAGACTTCAGAGTCTTTAGCTAAGACTTCAGAGGGAGCACAGAAATCCAATGAAAGAGTTAGATATCAAAATGAGGTTGAAAGAGCTAAAGATAAAATGGATGGAATAAACAGAGCTCAGGAGAATTTAAAAAAGAGTGCGCCTCAAGGATCGAAACAAAATGCTATACAATCAACAAAAAAATCTCAGCAAAACCTTACAAATGCTTTGAGGAGAATTGACCTTAGCAATATGGATGAGTTTGATGTTAAAATAACTCCAGTGCCAATTAAAAAAGACAATATTAATGTTCCTAAACCACACCCTGTTTCACCAACTTCCACTCCAAAGAAGTCAACGCCTAAACCGGAACCACAACCGCAGCTACCAGCTAATGATTATTACCACATATGGTCATAA	MPTAEGFYSFAENRYIYQYKDHLGNARVSFAKNSEGAPEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYNGKELQETGMYDYGARMYMPDIVRTPQIDPLAEKMPEWSPYSYAFNNPIRNTDPTGMEPEDVIDGGDEEFTTLKEPSQCCWGMFRLMPLLEGGSNIKPTVIEVATKTGETAGKTSESLAKTSEGAQKSNERVRYQNEVERAKDKMDGINRAQENLKKSAPQGSKQNAIQSTKKSQQNLTNALRRIDLSNMDEFDVKITPVPIKKDNINVPKPHPVSPTSTPKKSTPKPEPQPQLPANDYYHIWS				NA	NA	NA	NA	NA
BMS003_04442	1734	poxB	COG0028	Pyruvate dehydrogenase [ubiquinone]	ATGGCAAAAAATATAGCAGAGCAGATTGTTGAAATGCTCGAAAATGCCAATGTGAAAAGAATTTATGCAGTAACGGGCGATAGCCTCAATCATCTGAACATTGCGGTCAAAAAAAGCAGTATCCAATGGATTCATGTGAGACATGAAGAAGTGGGGGCTTATGCGGCGGCGGCAGAGGCAGAGCTTGATGGGTTTGCAGTCTGTGCAGGAAGCTGCGGTCCGGGACACGTTCATCTTATTAATGGAGTTTACGAGGCACACCGTTCTCATGTTCCCATGTTGGTCATTGCTTCTACAATTCCCAGTGATGAAATGGGGATGGATTATTTCCAGGAAACCAATACGATAAAACTCTTTGATGACTGCAGTTACTATAATCAGATGATCACAAGGCCGGAGCAGGTGCAGAGAACGGTACAGACAGCTATTCAACATGCCATTTCCAAAAAAGGAGTAGCAGTGATAGGACTTCCAGGAGATGTTTCTGAACTGGATGCTGAAGAAGGAGCTACTTCCACTCAAATCTTTAAAACCAATCCTGTTGTAAGACCATCAGATAATGAGCTGAAAAGTTTGTCTGAACTTATCAATAAAAGCAAAAAAGTAACATTGTATTGTGGAGTAGGCGCTGCTGAAGCCCGTAATGAGGTGATCGCTTTGTCTAATCTGTTAAAAGCACCTGTAGGATATTCCTTCCGTGGGAAAATGGCTATCCAGCCTAATAATCCTAATGAAGTGGGACTTACGGGACTATTGGGATTCCCTTCAGCGTATCATGCCATGCATGAGGCAGATCTGGTGGTTCTTCTGGGAACGGATTTTCCGTATCAGAAATTCATGCCTGTAAAAAATAAAATAGTTCAGATTGATGAAAGTCCAGAAAGATTAGGACGAAGAGCGAAACTGGAGCTGGGGCTTGCTGGGGATGTTAGAGAAACCATTAAAGCATTACTACCCTTATTGGAAGAAAAAACTGATGTCCATTTCTTGAATGAACAGCTTGCATTTTATGATAAAGTAAAAGAAGGTCAGCTGGAGTATGTAAAAGACTTTGGAAAAGAGAATGCTATTCAGCCGGAATATGTTGCCTATACTCTGGACAACCTTGCTCAACGTGACGCTATTTTTACAGTGGACACCGGAATGTGCTGTGTATGGGGAGCCCGTTTTATTACAGGAACAGGCGAGAGGAAAATGCTGGGATCATTTAATCACGGATCAATGGCGAATGCAATGCCAATGGCTATCGGAGCAGCTTTGGCTCATCCTGAAAGACAGGTGATCGCCCTGTGCGGAGACGGAGGTTTGTCTATGCTATTAGGAGACATGGCCACTATTTTTCAATATAAGCTTCCTGTAAAACTCATTGTATTCAATAACAGAACATTGGGAATGGTAAAGTTGGAAATGGAAGTAGGCGGAATGCCGGATAACGAGACCGATATGATTAATCCGGACTTTGCAATGATAGCACATGCCATGGGGTATCCCGGGAAAAATGTGCACCTGCCTGAAGAAGTAGAAGATGCCATCAAAGAATGTTTAGGCCACGATGGCCCTTATCTTCTGAATATTTTTACCAATCCCAATGCACTTGCTCTTCCTCCCAAGATTGAGTTTGATCAGATCATGGGAATGACCAGGTCTATGGCGCAGCTGATGCTTGGAGGTAAAATGGATGAGGTTTTTGAAACTGTGAAGAGTAATTATAAACATATTAAAGGTTTGCTATAA	MAKNIAEQIVEMLENANVKRIYAVTGDSLNHLNIAVKKSSIQWIHVRHEEVGAYAAAAEAELDGFAVCAGSCGPGHVHLINGVYEAHRSHVPMLVIASTIPSDEMGMDYFQETNTIKLFDDCSYYNQMITRPEQVQRTVQTAIQHAISKKGVAVIGLPGDVSELDAEEGATSTQIFKTNPVVRPSDNELKSLSELINKSKKVTLYCGVGAAEARNEVIALSNLLKAPVGYSFRGKMAIQPNNPNEVGLTGLLGFPSAYHAMHEADLVVLLGTDFPYQKFMPVKNKIVQIDESPERLGRRAKLELGLAGDVRETIKALLPLLEEKTDVHFLNEQLAFYDKVKEGQLEYVKDFGKENAIQPEYVAYTLDNLAQRDAIFTVDTGMCCVWGARFITGTGERKMLGSFNHGSMANAMPMAIGAALAHPERQVIALCGDGGLSMLLGDMATIFQYKLPVKLIVFNNRTLGMVKLEMEVGGMPDNETDMINPDFAMIAHAMGYPGKNVHLPEEVEDAIKECLGHDGPYLLNIFTNPNALALPPKIEFDQIMGMTRSMAQLMLGGKMDEVFETVKSNYKHIKGLL	PGPT0001371_1126	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156	NA	NA
BMS003_04443	483			hypothetical protein	ATGAAAACGATATTTTTATTTTTAGCCTTATGTGTGATGAATTTTTCGTTCGCACAGGATCAGGAAGACCGGGATGATTCTTTTATCAGAGAAAGTAATAAAAATGTTCTAAAAATAGATATTAAAGAGCCTTTTATGCAGGTGGCCGTAAAGTGTAATGATTTCAAACCGGCAGCGTACGAAGGTGGAGTTGCAGCGTATAAAAATATTCTGAACAGATATATGTACGCCTATCTGAATTCTGATTTCTATGCCCTTGCAGGTGATTTTACATTTACCTTATTACTTGATGCTACAGGAAAAGTGGTAGACGTGAAAGGAATGCCCAAAGTACAAAACAGTGAAGTCTTTTTTGATGACATGCAGTATGTGGTAAGAAGAATAAAGAAAAACTGGACTCCTGCGTCTTGTAACGGGCAGCCTGTAGCTTCACAGATCAAAGTTAAAATGAACTTTTCTTCAGTGTCTGTAGATGTAGATTAA	MKTIFLFLALCVMNFSFAQDQEDRDDSFIRESNKNVLKIDIKEPFMQVAVKCNDFKPAAYEGGVAAYKNILNRYMYAYLNSDFYALAGDFTFTLLLDATGKVVDVKGMPKVQNSEVFFDDMQYVVRRIKKNWTPASCNGQPVASQIKVKMNFSSVSVDVD				NA	NA	NA	NA	NA
BMS003_04444	123			hypothetical protein	ATGGAAGTCACTGTAAAAAAAGGAACTTCAATGAATTCAAAATTTGTTATGAAAATTAATTTTAGGCTAATAGATATGATTGAAGTCGTCTTGACTTTTAATAAAAAGCTGTTCACAGTTTGA	MEVTVKKGTSMNSKFVMKINFRLIDMIEVVLTFNKKLFTV				NA	NA	NA	NA	NA
BMS003_04445	444			hypothetical protein	ATGGCAGACAATACAAATAATGACACAGAAAGAATTTCTCATGAAATTGAACAAGCCATTACTCAACTTGAGTATAAAATTGTGGAGCTTAAAACATTAAAGATAGAGCCCGATTTAAGCTACATAAATTCATTTTACAAGGAAAAAACTGAAGAAAATATTAATCAGCTAAATTCCCGAATTAAAGTACCAAAATTAAGCCTCTATTTGTGGATATCATCTTTTGCTATGCTTATTGTTAGTTTTACAGTTTTCTTTTTTGTTTTCTCCAAAATCGAAGAAACTAAAGCAAATACCATAAAAGAATATAAAAATCAACTTTCTAAAAATAGTGTCATTATGTCTAAAGAAAACGCAGAGCTTTTAAAAGATATGGATTTATGGTTTAAAAGTGATCCTCAGTCAACGAGCAAATTTATTCATTGGCGACATAATCAAAAGTAA	MADNTNNDTERISHEIEQAITQLEYKIVELKTLKIEPDLSYINSFYKEKTEENINQLNSRIKVPKLSLYLWISSFAMLIVSFTVFFFVFSKIEETKANTIKEYKNQLSKNSVIMSKENAELLKDMDLWFKSDPQSTSKFIHWRHNQK				NA	NA	NA	NA	NA
BMS003_04446	210			hypothetical protein	ATGAAAAAAGCAATTTTATTAGGAGCTTTATTTGTAGCAGGTGTAGTTTCTGCTTTCCCTTTTAGAACATCTTGCGGAAAAGTTGTTCAAGTTAGCCAAACAATCGCTAACAACATGTCAATGGATCAATTGGCAAATTATCTTGGTGACGTTAATGGTGAGCAATGTCCTGGATCTGGGGCTGTAGTTGTTCACATCTATTATCACTAA	MKKAILLGALFVAGVVSAFPFRTSCGKVVQVSQTIANNMSMDQLANYLGDVNGEQCPGSGAVVVHIYYH				NA	NA	NA	NA	NA
BMS003_04447	780			hypothetical protein	ATGAAAAAGATTCTATTATTATTTCACTTACTAATTGTTATTGTTGTTTTTTCGCAAAAAAAATTTGATGTTGTCTATGAAGCAGATTATAAGTTAAATTATAAGCTATCAACGGGCAGCAATTCTAAAAAAGAAACCACTTTTGCACTTCTTATCAATGAAAACTCTTCTTTTTTTAAAGATTTACATAGATACATTTCTGATTCTCTTCTCGTTGAAAAAAAATTAAATACGATTGAGGAAGCGATGAAATATAATACAGATTTTCGCGGTTATGTTGGAACAACATCAGCAAAATTATATGTAACAGATGAAATCAATTATACATATTTTGCCTACGAAGAACCCAATAACATAAATTGGAAAATTAAAAACGAATTTAAAACTGTCGCAGGATATAAATGTCAGAGGGCAGAGACAACAAAATATGGCAGAACTTGGATTGCTTGGTTTTCAACCGATATCCCTTTCCCGTTTGGGCCATATAAATTTAATGGTTTGCCAGGTTTGATTGCTGAAGTATATGATACTAAGGATGAATATCATTATACACTCTATACCTTTAGAAAAAGAAAATATACCTGCAAATCGGCTAACATTGCAACCAATGTCAAAAATCTCCCCAAAGAAAAAGTAGCTGAAGTTTTTAAGAATAGACTTGCCGGGAAACTAAGGTTGAATGAGCAATATATAGAGAATGCGGAAGATCGTGAATATATGAGACGAAATGCAGAAGAAGCATTAAAAAAATATAATCCTATTGAGCTGAGTATTTATTAG	MKKILLLFHLLIVIVVFSQKKFDVVYEADYKLNYKLSTGSNSKKETTFALLINENSSFFKDLHRYISDSLLVEKKLNTIEEAMKYNTDFRGYVGTTSAKLYVTDEINYTYFAYEEPNNINWKIKNEFKTVAGYKCQRAETTKYGRTWIAWFSTDIPFPFGPYKFNGLPGLIAEVYDTKDEYHYTLYTFRKRKYTCKSANIATNVKNLPKEKVAEVFKNRLAGKLRLNEQYIENAEDREYMRRNAEEALKKYNPIELSIY				NA	NA	NA	NA	NA
BMS003_04448	120			hypothetical protein	ATGAAAGTTACCGGGCACTCTACATTGAAAGCTCTGAAGGCTTATTTACGAGATATTGATGCGGAACTGGCGGAAGATTATTCAAGATTTTTAGAAGAAAAAGAAGATGATAGCCAATAA	MKVTGHSTLKALKAYLRDIDAELAEDYSRFLEEKEDDSQ				NA	NA	NA	NA	NA
BMS003_04449	612			hypothetical protein	ATGATTAATAAATTACTTGCATATAAAACGAATGATTTTAAGCCAACGATTTGGAACAGTAAAATTGAAATTCTAAATCCTAATGATATTTCTTATAAGAAATTTCTTGAAATATCTAATGGCGGTTATTTTTTTGATAATTCGTTTCATTTATTTGGCTTTGATAATGTAAATAATTTTAATTCAATTAAGTATATTAATGAATTAGCCAAATTAGAATATAATTTAGATGAAGATATCTATTTTATTGGAGAAGATATTTTTGGTAATTTATTTGCTTTTCACGAAACAAATATTATTTTTTTTAATATCGAAACATCAGAATTTGAAATTGTAGCCAAAGATTTTGATCATTTTATTGAAGAATTATTTAATGATTTGGATTACTATACAGGAAAAATATTTATAGAATATTTAACTCAAGAAGAAAGATATTCATTAGCACACGGAAAAAGACTTTCTCCAAAATATCCTTTTGTTCTCGGAGGTGAATATCTAATTAATAATTTAGTATTAAAAAATTCAATAGAAAATCTTTCTTACTGTGCATCGTTGGCTAATCAGATTAAAGATTTGCCAGATGGTAGTAAAATCAATATCAATATTACTTAA	MINKLLAYKTNDFKPTIWNSKIEILNPNDISYKKFLEISNGGYFFDNSFHLFGFDNVNNFNSIKYINELAKLEYNLDEDIYFIGEDIFGNLFAFHETNIIFFNIETSEFEIVAKDFDHFIEELFNDLDYYTGKIFIEYLTQEERYSLAHGKRLSPKYPFVLGGEYLINNLVLKNSIENLSYCASLANQIKDLPDGSKININIT				NA	NA	NA	NA	NA
BMS003_04450	996			hypothetical protein	GTGCCTACAGCAGAAGGATTTTACAGTTTCGCAGAAAACCGTTATATTTACCAGTACAAAGATCATCTGGGTAATGCCAGGGTAAGCTTTGCAAAAAACAGCGAAGGTGCTCCTGAAATTACAGATACCAACAATTATTATCCATTTGGATTAAATCATATTGAAGGGATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTATCAGGGACAGGAGCTTCAGGAGACTGGTTTCTATAGTTTTAAGTGGCGGAATTATATGCCAGATGTAGGAAGGTTTTTTAATATTGATCCTTTGGCAGAAAAATATAATACTTGGTCTCCTTACAGTTTTGCAGGCAATAGAGTTTCTGTTTTTAGAGAATTAGAAGGTTTAGAACCTTTTGAGGAGCCTTTTGATCCTATGGAGGAAGAAATAATGAGGGAAACGGGAGAAAGCCCACTCATTAGACAGGCACGATTTAATCCTGCGATTCCTGAAACTTACCGAAATTCTAATCAACAGCCACTTATTACTCCTGAAGTTCTTGAAGAAGAATACCACGAAATTGAGGAAGTTGTAGTAACAGGAGCAAAAGCTACGCAAGGCTTTTTTGAAAGAGCTATTGAGTGGTTGGGCGAACAATTGGGAGCTGGAAATAGTAATGCAAAAATTATAACGGTTGATGCAAGTAAACATCCTGAGTCAGCACAACACTTAGAAGAAGCGTTAAATAGTGGAAAAAGTAGTATAGGAGTTATTGATAGAGCGGGAGCCTCTAGTCGACGAAAAGAAAACTTGAAAGGAGTTGCAACAGAAAAAGGGAAAGATAGAGATGAAGCACCCCCAGCAGTTATAAATACTGGAGAAAAATCGAGTGTTAAACTTATAAATTCCTCAGATAATAGAGGTGCTGGAAGCTCTATAGGTAAGCAAATAAAGGGGTTACCAAATGGAACTCCAGTAACAATTGTTCCTATAAATCTCCCAAAAGATAAAAAACCATAA	MPTAEGFYSFAENRYIYQYKDHLGNARVSFAKNSEGAPEITDTNNYYPFGLNHIEGMLSSSNFGGYYSYKYQGQELQETGFYSFKWRNYMPDVGRFFNIDPLAEKYNTWSPYSFAGNRVSVFRELEGLEPFEEPFDPMEEEIMRETGESPLIRQARFNPAIPETYRNSNQQPLITPEVLEEEYHEIEEVVVTGAKATQGFFERAIEWLGEQLGAGNSNAKIITVDASKHPESAQHLEEALNSGKSSIGVIDRAGASSRRKENLKGVATEKGKDRDEAPPAVINTGEKSSVKLINSSDNRGAGSSIGKQIKGLPNGTPVTIVPINLPKDKKP				NA	NA	NA	NA	NA
BMS003_04451	372			hypothetical protein	ATGAAAAAGATAATTAGTTTATTTGTGATTGTATTTTTTGTAAGTTGTACATCACAGAACAGAATAGCTCCTGAAAGTTTCAAAGGTAATTATACATATGTTGATAGTAAGCAATTTTTAAAAATAGAAATACTTGAAAACAATGAAATCACTATAGAGAAAAAAGTTGAAGCAAATAGGGTTAAATGTATTGGTAATTATAAAATTATTTCAAATAAAAAGATTAAAATCCATTGTGTAGATGAAAGAAATATGCATGAAGCAAATAGTATTATTGATTTTGTTCCTTTAAGATTTGATATAAAGAATGAAACAGTTTATTTCGAACCGGGTGTAATAAAATACAAAAATCTGGTATTGAAAAAAGAATGA	MKKIISLFVIVFFVSCTSQNRIAPESFKGNYTYVDSKQFLKIEILENNEITIEKKVEANRVKCIGNYKIISNKKIKIHCVDERNMHEANSIIDFVPLRFDIKNETVYFEPGVIKYKNLVLKKE				NA	NA	NA	NA	NA
BMS003_04452	918			hypothetical protein	ATGCTTAGTAGTTCTAATTTTGGAGGTTATTATAGTTACAAGTACAATGGTAAGGAACTCCAGGAAACGGGAATGTATGATTATGGCGCAAGGTTCTATATGCCGGATATTGGAAGATGGGGTGTTGTTGATCCGTTGGCGGAACAATATCGTAGGTTTTCACCTTATAGTTATACTGTGAATAACCCAATCAGATTTACTGATCCTGATGGAATGCAAATTGCTCCAGGAAGTCAAGAACAGTGGGATAAACATAAAAAAGACGTACAGGATAAAAAATCTGAATTAGAAACTACAAAATCAGGACTAGCTCAAAAAGCTAAAGATAAGGGATGGAGCTCTAAAAAACTAGCACGACAAGAGAATAGATTATCTGAAAGAATTTCGAGTCTAGGAGGCTCACTAGATAATATGAGTGTACTTGAGCAAAGTGATAATGTATATGCATTAGAAGATTCTAATGGGAAAAATGGAGGTACCTATTATGACCCTAATACAGGAAATATAAATCTTAGTTTTGATGGTAGCACAAGTGAATTTGTTCATGAAATGACTCATGGATACCAATTCGAGACAGGTTCATTGGTTTTATATAATAGTGGTTATTCAGCTGGTGATCTCCATGATGAAGTAGGAGCTTATAAAGCTCAATTTGCATATGATCCAGATAATCATAATTTTATAAAAACGAATGTTTCTGCTTTTGAAAATAATAAAATCCAAAGTATGTCGGATATAACAACTAGCTGGGTTAGGAATATAAAAAGTGGAATATATAGTAGTCATCCTAACACACAAGTTACTTTATCAACTTCAAGAGAGGCTTTACTAAAGATGTATCCAAAGGCTAATCTTCCCCAAAACTACTCTATTATGAAAGATCCAAATGTTGTAATTCCAAAAAGATTTTCAAAATGA	MLSSSNFGGYYSYKYNGKELQETGMYDYGARFYMPDIGRWGVVDPLAEQYRRFSPYSYTVNNPIRFTDPDGMQIAPGSQEQWDKHKKDVQDKKSELETTKSGLAQKAKDKGWSSKKLARQENRLSERISSLGGSLDNMSVLEQSDNVYALEDSNGKNGGTYYDPNTGNINLSFDGSTSEFVHEMTHGYQFETGSLVLYNSGYSAGDLHDEVGAYKAQFAYDPDNHNFIKTNVSAFENNKIQSMSDITTSWVRNIKSGIYSSHPNTQVTLSTSREALLKMYPKANLPQNYSIMKDPNVVIPKRFSK				NA	NA	NA	NA	NA
BMS003_04453	1101			hypothetical protein	GTGAATCCACAAACTAATCAGATAATTAACCATCAATATAAATATGGTTTTGTAGAGCCCTATTTTCATTTTCCTAACGAACCACAATCCAGACAGTGGGAATCCGGAAATTTAGGAAGTTACAATTCAGTCAATACTTCAAAAACATATGATTATGGCTATCATGCCAATACTAAATTTGTTAAAGGAATTGATACCAGCAGTCTTAATTTCTACGCAAAATGGATTCCAACGTCCAACTGTACAATGGAATTGGTATTGGTCGATTCTAAAAGTATCAATAGTGTAGGAGGAAGTTACGAGCTTTTTACTAATAATTATTTTATACAAAAAGAAGAAGTGACACAGGATAATATCACAACTAAAAGTGAATTTTTCTATAACAACCCTTCTCACTACCAGTTAACTTCTTCTAAAACCGAGCATCCTGATCATACTGTTCAGGAAACCACCTACAGCTATGCCCATGAAAAAGGAAACCAGTTAATGCTTTCCAAAAATATGATTGGAATTCCATTAGAAACAGAAACCAAAAAGAATGATATAACCATTTCTAAAGTAGAATCTTTATACCCTCTTAGTCAGTCAGAAGCAGATTTGAAAACGTCAGGTTTAGTATTGCCTCATGCTGTACTTTCTACAGACTTACAAAACATTGTATCCACCGAAGTTACTTACGATAAATACGACAGTAAAGGAAACTTACAACAGTACACTACAAGAGCAGGTATTTCAACAGTCATCATCTGGGGCTATAATCAAACCCAGCCTATTGCTAAGATAGAAGGAGCCAAACTGACAGATATTCAGCAATCTCTCATCGATACCATAGTCAATGCCTCCAATACAGATGCTTCAGCTTCTTCAAACAATGATGAGGCAGCCCTTTTATCGGCCTTGAACACATTCAGAAGTAATGCTGCATTATCCGGTTATTTGGTCACAACTTACACTTATGATCCACTGATTGGGGTAAGAAGCATCACCTCGCCATCAGGGATCAGAGAAAACTATCTCTATGATGCTGCCGGCCGACTTGAAAAAGTACTTGATGCCAATGGCAAAGTATTAAAGGAGATGAAATACAACTATAAAAACTAA	MNPQTNQIINHQYKYGFVEPYFHFPNEPQSRQWESGNLGSYNSVNTSKTYDYGYHANTKFVKGIDTSSLNFYAKWIPTSNCTMELVLVDSKSINSVGGSYELFTNNYFIQKEEVTQDNITTKSEFFYNNPSHYQLTSSKTEHPDHTVQETTYSYAHEKGNQLMLSKNMIGIPLETETKKNDITISKVESLYPLSQSEADLKTSGLVLPHAVLSTDLQNIVSTEVTYDKYDSKGNLQQYTTRAGISTVIIWGYNQTQPIAKIEGAKLTDIQQSLIDTIVNASNTDASASSNNDEAALLSALNTFRSNAALSGYLVTTYTYDPLIGVRSITSPSGIRENYLYDAAGRLEKVLDANGKVLKEMKYNYKN				NA	NA	NA	NA	NA
BMS003_04454	318			hypothetical protein	ATGAAAAAATTATTTTTTACGCTATTATTAGCAACGACACCAGTATTATTTTTTGCACAACAGGAAGAAAAACCGAAAGAAACACAAGCAAAAGAATGTGATTTGCCTAAAGACTTCAAAGAGCCAATTAAAAATAACAGATTAAAAAAGTTTATTGCAATTGATAATGGAGTTGAAGAAAAGGAAGTAACTATTATCAGAGCTCAAAATGGTTTTGGCAGTGGTATTTATACAGCTTGTGTACATGGGCAACCCATCCAATATCAAAAGATGGGAACTGTCTTTATGAGGGAAGGAAATAATCCTTTCAAGAAATAA	MKKLFFTLLLATTPVLFFAQQEEKPKETQAKECDLPKDFKEPIKNNRLKKFIAIDNGVEEKEVTIIRAQNGFGSGIYTACVHGQPIQYQKMGTVFMREGNNPFKK				NA	NA	NA	NA	NA
BMS003_04455	138			hypothetical protein	ATGACCAAAGAAGAGCAAGAACAAGCTATTAAAGAACTAAAAAGCATCACACCTGAAGAATGGGAGGAAGCAAAAAGATTGCAGACAGAATATGAAATTTGGGAAAATGAACAGAAAAGAAATAACAATTATAACTAA	MTKEEQEQAIKELKSITPEEWEEAKRLQTEYEIWENEQKRNNNYN				NA	NA	NA	NA	NA
BMS003_04456	1305			IS1182 family transposase ISMsp1	ATGCGGGAAAATGTTTTGTTCATGTGGCTTTCCAATATGAATATTGCTGATCATAATACCATTGCCCGTTTTCGGAGCCAGAAACTGCAAACGGCATTTAAGGATGTCTTTACACAGGTGGTTTTGCTGTTGGCTGAAGAAGGTTTAATAACTTTAAAGCAAATCTATACCGACGGAACCAAGATTGAAGCGCAGGCAGGGCGTTACACCTTTGTGTGGGGGAAATCTATCAAAACCAACAAAGAAAAAATGCTAAAGCAGCTGGAAGAACTTTGGAAGTATGCCCAAAGCATCGCTTCGGATGAAGATAAAGATCCCGAACCTCCGGAGTTCAGGGAAATCAACAAAGAGAAAATCCAAAAAACGGTAGAAAGTATCAACCAGAAACTGAAAGGAAGTAAAATCGCTGATAAGAAAGGAGGAGCTAAAGCTAAAGCCAAGTTGAACTACATCAGGAATAATTTTGAAAAGAATCTTGATAAATACCAGCAGCAGGAAGAGATTCTTGCAGAGCGTGGCTCTTACAGCAAAACCGATACAGATGCTACTTTTATGCGGATGAAGGAGGATCACATGAAGAACGGACAGCTCAAGCCCGCTTACAATGCGCAAATCTCCACCGAGAACCAGTTTATTCTGAATTACACCCTTCATCAAACCCCCGCCGATACTAATACTTTAGCTTCCCATCTGGAAAATTTTAAAGACAATATAGGCCAGGAAAAATTCTGCGAAATAGAATCCCTTACCGCCGATGCAGGTTACGGAAGTGAAGAAAATTATGAGCTTTTAGAGAAGCTTGAAATAGAGGCTTTTGTAAAGTACAATACGTTTGATAAAGAGCAGAACCAAAATTATCAGAGTAAAAATAAAACCTTTAGTAAAGAGCATTTGCACTACAACCAGGAGAAAGACTTTTACGTTTGTCCTATGGGGCAACGAATGGAAAAAAATCACGAAAGCTGCCAAACTACCAAGACCGGTTTTGAGCAGACCTTATCGCATTACAAGGCCAAAAACTGCCAAGGGTGTCCATTAAGAAGTATGTGCCATCAATCCAAAGAAAACAGAAGCATAGAGAGAAATCACAATCTGGAACGTCATAAAGAACTCACACGAAAGCGACTGAAAAGTGAAGAAGGGATAGAAAAACGTAAAAAAAGATGTTACGATGTAGAGCCTGTGTTTGCCAACCTCAAACACAATCACCATTTTAAGCGATTTATGCTAAAATCGTTGAAAAAAGTAGAAATTGAGTTCGGTTTACATGCTTTAGCACACAACTTAAGAAAGAAAGTGGCATAA	MRENVLFMWLSNMNIADHNTIARFRSQKLQTAFKDVFTQVVLLLAEEGLITLKQIYTDGTKIEAQAGRYTFVWGKSIKTNKEKMLKQLEELWKYAQSIASDEDKDPEPPEFREINKEKIQKTVESINQKLKGSKIADKKGGAKAKAKLNYIRNNFEKNLDKYQQQEEILAERGSYSKTDTDATFMRMKEDHMKNGQLKPAYNAQISTENQFILNYTLHQTPADTNTLASHLENFKDNIGQEKFCEIESLTADAGYGSEENYELLEKLEIEAFVKYNTFDKEQNQNYQSKNKTFSKEHLHYNQEKDFYVCPMGQRMEKNHESCQTTKTGFEQTLSHYKAKNCQGCPLRSMCHQSKENRSIERNHNLERHKELTRKRLKSEEGIEKRKKRCYDVEPVFANLKHNHHFKRFMLKSLKKVEIEFGLHALAHNLRKKVA				NA	NA	NA	NA	NA
BMS003_04457	354			hypothetical protein	ATGTCTCAAGAGCAAGAATTATTAAAACTCTTACTGCCCGAATATTTAGTGGCATATTTCGATTTTATAAAATTTGAAGAAAAAGAAGGGCTGCTTTATCTTTACTTTGAAGAAAAAAGCAGTATTCCTAAAGAGTTTTCCTCATTAAATCTCCAATCAAAAGGTTTTCACGAAGAAATTACCGTTGATGATTTTCCGCTTCGGGGCAAAGCCGTAAAACTCAACATTAAACGCAGAAGATGGACGGATATGAAGTCTGGAAGTATCGTTCAACGAGACTGGAATCTCATTGCCAAAGGCACTCGCATGACACAGGATTTTGCAGAGTTTTTAAAAAAAATCAGCCGATACTAA	MSQEQELLKLLLPEYLVAYFDFIKFEEKEGLLYLYFEEKSSIPKEFSSLNLQSKGFHEEITVDDFPLRGKAVKLNIKRRRWTDMKSGSIVQRDWNLIAKGTRMTQDFAEFLKKISRY	PGPT0030630_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
BMS003_04458	1056			IS110 family transposase ISCaa7	ATGTGGAAAAATATTTTTGATATGAAACAAAAGTACGTAATAGGGATTGATGTATCCAAATCAAAATTAGATTGCGCGGTAATGAGTTCAGATTTTCAACTACATCTTGAGACTGTTATCTTCAATAATGAGAAGAGAATAACGTCTTATCTGAAAGAAATGCTTAAAGTGTTGAAAATATCATCTTCTGATTTATTAGTCTGTTGTGAAAATACAGGGATCTATAATCGTCCCTTAGAAAAGGTTTGTATCAGGCTAGGTATTGGGTTGTGGGTTGAGCATGCTGTGAAAATTAAACGAGCCAGTACTGATATGAGAGGGAAAAGTGACCGTAGAGATGCTCTTCGAATAGCTCAGTATGCTATACGTTATAACGATAAAGTGATTCTTTATCATGAACCTTTAGATAAAGTTAAGGAAATGCATATCCTTATCAGATGCAGGGAGAAATTGATTTCCCAGAAGGGAGCTATAAAAAACCACTTGAAAGAAGCCAAAACTCACGATATCTTTGAATATGAAATATTGGTGTGCTCCTATAAAAAGATGTTGAAAACTTTAGAAAGTTCAATTTTAGAAATAGAACAAAAAATAGAATTACTAACCCATCTTGATGAGGAAATCAAACGCAATAAAGAGCTTTTAACCTCTATTCCAGGAATAGGATCTATATGCGCAATAAATTTGATTGTCGTTACCAATAACTTTCAATCATTCAACAATGCAAAGCATTTGGCCTGTTACGCAGGAGTTGTTCCTTTCAAAAATGAATCTGGAACAATTATAAAAAAAGAAAGAATATCCAATATGGCAAATCAGAGAATTAAAAAACTTCTACATATGTCAGCAATGGCAAGTATAAGATCAGATAAGGAATTAAAAACTTATTTCCTAAGAAAAGTAAGTGAAGGAAAAAATAAAATGAGTGTCCTGAATGCTGTAAGAAATAAATTAGTACACAGAATAATGGCTGTCATCAATAGAAAACAACCATTTTTACAAAGAGATGAATTTGTGTCAATAAAAAATTCAAATTCCTCTTGTGTATTAACATAG	MWKNIFDMKQKYVIGIDVSKSKLDCAVMSSDFQLHLETVIFNNEKRITSYLKEMLKVLKISSSDLLVCCENTGIYNRPLEKVCIRLGIGLWVEHAVKIKRASTDMRGKSDRRDALRIAQYAIRYNDKVILYHEPLDKVKEMHILIRCREKLISQKGAIKNHLKEAKTHDIFEYEILVCSYKKMLKTLESSILEIEQKIELLTHLDEEIKRNKELLTSIPGIGSICAINLIVVTNNFQSFNNAKHLACYAGVVPFKNESGTIIKKERISNMANQRIKKLLHMSAMASIRSDKELKTYFLRKVSEGKNKMSVLNAVRNKLVHRIMAVINRKQPFLQRDEFVSIKNSNSSCVLT				NA	NA	NA	NA	NA
BMS003_04459	363			hypothetical protein	ATGACCACTGATGGAGTTTGCAAAGAATTATTTGTAAAGTATTTAGAAGATTTTAGTCTGCACAAACCTAACGAGCTAAAAATACTCATTATAGATAATGCTGCCTTTCATTCCACTAAAGACGTGAAACTTCCAAAAAACATTCTTCTTTTTCCAATACCGCCTTATAGCCCCGAACTCAATGCCGCAGAAAAAGTATGGCAATGGATGAAAGATAAAATAGCCATGAAAATATATGATACATTAGAAACTTTGGAAAATAAATTGGAAGAAATTTTAAAAATTGCAAATCATCAACGCATAAAATCTTTAACCGGATTTGAATTTTATCTAAATGCTTTTTACAGTATTTTCAAAAGCTAA	MTTDGVCKELFVKYLEDFSLHKPNELKILIIDNAAFHSTKDVKLPKNILLFPIPPYSPELNAAEKVWQWMKDKIAMKIYDTLETLENKLEEILKIANHQRIKSLTGFEFYLNAFYSIFKS				NA	NA	NA	NA	NA
BMS003_04460	492			hypothetical protein	ATGCCTAAAAAGATAGATATCCATATTGTTGAAGACCTTGACTTTTTAGAAAAGAATCTAAGAAAGTTATCGGGAAGGTTAAAACAAGACCGAATCAAGACTCTTATTTATATAAAAAAAGGAGAATATAGCTACCAAAGTGATATAGCAAAAAAATTAGGGAGAGGGGAAAAAACTATCCGTACGTGGATACAGGATTATTCAAAGAATGGTCTGTCTCTCTTACTAGAAGTAAAAAGTGGAGGAAATAACACCCGTACTATTTCTGATCAAATGATTTCTGCGATAGAGAAAAAGCTGAAAGATCCAGAAACGAATATTACCTCCTATGTAGAATTAAAGCACATTCTTGAAGAGGAATTAGGAGAAGAGATTCTTTATGATGCCTTGTATTCTCATTGCAGGCGTAAGTACAAAAGCAAACTTAAGGTAGCAAGAAAGTCCCATCACAAAAAAGATCAGAACGCAGAAGCGTTTTTTAAAAAATCTTGA	MPKKIDIHIVEDLDFLEKNLRKLSGRLKQDRIKTLIYIKKGEYSYQSDIAKKLGRGEKTIRTWIQDYSKNGLSLLLEVKSGGNNTRTISDQMISAIEKKLKDPETNITSYVELKHILEEELGEEILYDALYSHCRRKYKSKLKVARKSHHKKDQNAEAFFKKS				NA	NA	NA	NA	NA
BMS003_04461	516			hypothetical protein	GTGGCTTTATCTGACGGAGAACTTTATACCGTTCTTACCTCCAAAAAAGCAAAAGGAAGAGAAGGAAGTATTGTTGCAGTTATAAAAGGAACTCAGAGTGATTTTGTGATCACACATCTTTTAAAGATCAGCAGAAAACTTCGGATGAAGGTAAAGGAGATTACTTTGGATATGGCAGGCTCTATGAAACGTATTGCCAAACGTTGTTTTCCAAATGCAGTACAGGTGATCGACCGTTTTCATGTTCAGAAGCTGGCCATAGAAGCTCTTCAGGAACTAAGGATCAGGCATCGTTGGGAAGCCATTGAAAGAGAAAATAAAGCCATAAAAGAATTGGCAGAAGGAAAAGATACGGAATGTATAGAAGTTTTTGAAAACGGAGATTCCCGGAAACAGCTTCTGGCAAGAAGCCGGTACTTGCTTTATAAAAGTAGGGAAAAATGGTCTCTGTCTCAAAGACAAAGGCTTCCATCCTTTTCACCCAGTATCCTGACCTTGAAAAAGCGTATCAATTGA	MALSDGELYTVLTSKKAKGREGSIVAVIKGTQSDFVITHLLKISRKLRMKVKEITLDMAGSMKRIAKRCFPNAVQVIDRFHVQKLAIEALQELRIRHRWEAIERENKAIKELAEGKDTECIEVFENGDSRKQLLARSRYLLYKSREKWSLSQRQRLPSFSPSILTLKKRIN	PGPT0030630_2325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
BMS003_04462	321			hypothetical protein	TTGGATAGATATCCTTATGGCCAAGATTTTTATGCAGGTGGATTAAATCAATTAAATAAAGAAATGGTAAAGATTGTTAGAGATCAAAAGCTGTTACCTTGTGAAAAAAGTGAAGAAAATTACAATATACAGATTCTTGTGTATGAAAATTCGACCATCAACTATGTTAAAGATTTTGATACTGTAAATATTCAAAAAAATAAATGTGCATTTGATTTCAGTCGTAAAGTTATTCCTCATCTCAAAAGATGGATGCCAGCAAAAGAGAATGGAAAATTTATTGCAGCAATTGCGAGAATTGACATAATCCCTTTTCATTGA	MDRYPYGQDFYAGGLNQLNKEMVKIVRDQKLLPCEKSEENYNIQILVYENSTINYVKDFDTVNIQKNKCAFDFSRKVIPHLKRWMPAKENGKFIAAIARIDIIPFH				NA	NA	NA	NA	NA
BMS003_04463	144			hypothetical protein	ATGAGCGGAAGACAGCTGCAAAGTGTAAAAACCAAGAATAAAGTGACTAAGATTAATACGCAGGCTTTGGTTCAGGGGGCTTATCTGGTGACTATTAAAACTAATACTAACAAAACGGCGAATGCTAAATTAATTAAGAAATAA	MSGRQLQSVKTKNKVTKINTQALVQGAYLVTIKTNTNKTANAKLIKK				NA	NA	NA	NA	NA